Refactor regressions (#1581)

681 files changed, 31 insertions, 55132 deletions

diff --git a/test/regress/regress0/Makefile.am b/test/regress/regress0/Makefile.am
index 80ca1a5ef..7127c5739 100644
--- a/test/regress/regress0/Makefile.am
+++ b/test/regress/regress0/Makefile.am
@@ -48,17 +48,14 @@ SMT_TESTS = \
 SMT2_TESTS = \
 	arrayinuf_declare.smt2 \
 	boolean-terms-kernel1.smt2 \
-	boolean-terms-kernel2.smt2 \
 	boolean-terms-bug-array.smt2 \
 	chained-equality.smt2 \
 	ite2.smt2 \
 	ite3.smt2 \
 	ite4.smt2 \
-	ite5.smt2 \
 	simple-lra.smt2 \
 	simple-rdl.smt2 \
 	simple-uf.smt2 \
-	simplification_bug4.smt2 \
 	parallel-let.smt2 \
 	get-value-incremental.smt2 \
 	get-value-reals.smt2 \
@@ -73,17 +70,13 @@ SMT2_TESTS = \
 	issue1063-overloading-dt-cons.smt2 \
 	issue1063-overloading-dt-sel.smt2 \
 	issue1063-overloading-dt-fun.smt2 \
-	non-fatal-errors.smt2 \
 	reset-assertions.smt2 \
-	sqrt2-sort-inf-unk.smt2 \
 	rec-fun-const-parse-bug.smt2
 
 # Regression tests for PL inputs
 CVC_TESTS = \
-	boolean.cvc \
 	boolean-prec.cvc \
 	boolean-terms.cvc \
-	hole6.cvc \
 	ite.cvc \
 	let.cvc \
 	logops.01.cvc \
@@ -118,7 +111,6 @@ CVC_TESTS = \
 	wiki.20.cvc \
 	wiki.21.cvc \
 	queries0.cvc \
-	trim.cvc \
 	print_lambda.cvc \
 	cvc3.userdoc.01.cvc \
 	cvc3.userdoc.02.cvc \
@@ -140,7 +132,6 @@ BUG_TESTS = \
 	bug167.smt \
 	bug168.smt \
 	bug187.smt2 \
-	bug216.smt2 \
 	bug217.smt2 \
 	bug220.smt2 \
 	bug239.smt \
@@ -148,7 +139,6 @@ BUG_TESTS = \
 	bug288.smt \
 	bug288b.smt \
 	bug288c.smt \
-	bug296.smt2 \
 	buggy-ite.smt2 \
 	bug303.smt2 \
 	bug310.cvc \
@@ -164,23 +154,17 @@ BUG_TESTS = \
 	bug480.smt2 \
 	bug484.smt2 \
 	bug486.cvc \
-	bug507.smt2 \
 	bug512.minimized.smt2 \
-	bug516.smt2 \
-	bug520.smt2 \
 	bug521.minimized.smt2 \
 	bug522.smt2 \
 	bug528a.smt2 \
 	bug541.smt2 \
-	bug543.smt2 \
 	bug544.smt2 \
 	bug548a.smt2 \
-	bug567.smt2 \
 	bug576.smt2 \
 	bug576a.smt2 \
 	bug578.smt2 \
 	bug586.cvc \
-	bug593.smt2 \
 	bug595.cvc \
 	bug596.cvc \
 	bug596b.cvc \
@@ -189,7 +173,6 @@ BUG_TESTS = \
 	bt-test-00.smt2 \
 	bt-test-01.smt2 \
 	bug1247.smt2
-#bug590.smt2
 
 TESTS = $(SMT_TESTS) $(SMT2_TESTS) $(CVC_TESTS) $(TPTP_TESTS) $(BUG_TESTS)
 
@@ -197,31 +180,12 @@ TESTS = $(SMT_TESTS) $(SMT2_TESTS) $(CVC_TESTS) $(TPTP_TESTS) $(BUG_TESTS)
 # we have a minimized version still getting tested
 # bug639 -- still fails, reopened bug
 # bug585 -- contains subrange type (not supported)
-# issue1048-arrays-int-real.smt2 -- different errors on debug and production
-DISABLED_TESTS = \
-	bug512.smt2 \
-	bug585.cvc
-
-EXTRA_DIST = $(TESTS) \
-	simplification_bug4.smt2.expect \
-	bug216.smt2.expect \
-	bug590.smt2.expect
-
-if CVC4_BUILD_PROFILE_COMPETITION
-else
-TESTS += \
-	bug681.smt2 \
-	error.cvc \
-	errorcrash.smt2 \
-	arrayinuf_error.smt2
-endif
+
+
+EXTRA_DIST = $(TESTS)
 
 # and make sure to distribute it
-EXTRA_DIST += $(DISABLED_TESTS) \
-	subranges.cvc \
-	arrayinuf_error.smt2 \
-	errorcrash.smt2 \
-	error.cvc
+EXTRA_DIST += $(DISABLED_TESTS)
 
 # synonyms for "check" in this directory
 .PHONY: regress regress0 test
diff --git a/test/regress/regress0/arith/Makefile.am b/test/regress/regress0/arith/Makefile.am
index 98179df8c..8a12d7d13 100644
--- a/test/regress/regress0/arith/Makefile.am
+++ b/test/regress/regress0/arith/Makefile.am
@@ -28,38 +28,24 @@ TESTS =	\
 	fuzz_3-eq.smt \
 	leq.01.smt \
 	mod.01.smt2 \
-	mod.02.smt2 \
-	mod.03.smt2 \
 	div.01.smt2 \
 	div.02.smt2 \
-	div.03.smt2 \
 	div.04.smt2 \
 	div.05.smt2 \
-	div.06.smt2 \
 	div.07.smt2 \
-	div.08.smt2 \
 	mult.01.smt2 \
-	mult.02.smt2 \
 	bug443.delta01.smt \
 	miplib.cvc \
 	miplib2.cvc \
-	miplib3.cvc \
 	miplib4.cvc \
 	miplibtrick.smt \
-	bug547.1.smt2 \
 	bug547.2.smt2 \
 	bug569.smt2 \
-	div.09.smt2 \
-	bug716.0.smt2 \
-	bug716.1.cvc \
 	mod-simp.smt2
-#	problem__003.smt2
 
 EXTRA_DIST = $(TESTS) \
 	miplib-opt1217--27.smt \
-	miplib-opt1217--27.smt2 \
 	miplib-pp08a-3000.smt \
-	miplib-pp08a-3000.smt2 \
 	miplib-opt1217--27.smt.expect \
 	miplib-pp08a-3000.smt.expect
 
diff --git a/test/regress/regress0/arith/bug547.1.smt2 b/test/regress/regress0/arith/bug547.1.smt2
deleted file mode 100644
index 4b7cf9780..000000000
--- a/test/regress/regress0/arith/bug547.1.smt2
+++ /dev/null
@@ -1,8 +0,0 @@
-; COMMAND-LINE: --rewrite-divk
-; EXPECT: unknown
-(set-logic QF_NIA)
-(declare-fun x () Int)
-(declare-fun y () Int)
-(assert (= 1 (mod (* x y) 3)))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/arith/bug716.0.smt2 b/test/regress/regress0/arith/bug716.0.smt2
deleted file mode 100644
index 2046f4911..000000000
--- a/test/regress/regress0/arith/bug716.0.smt2
+++ /dev/null
@@ -1,662 +0,0 @@
-; COMMAND-LINE: --lang=smt2.5
-; SCRUBBER: sed -e 's/The fact in question: .*$/The fact in question: TERM/' -e 's/in a linear logic: .*$/in a linear logic: TERM/'
-; EXPECT: (error "A non-linear fact was asserted to arithmetic in a linear logic.
-; EXPECT: The fact in question: TERM
-; EXPECT: ")
-; EXIT: 1
-(set-logic AUFBVDTLIRA)
-;; produced by cvc4_15.drv ;;
-(set-info :source |VC generated by SPARK 2014|)
-(set-info :smt-lib-version 2.0)
-(set-info :category industrial)
-(set-info :status unknown)
-;;; generated by SMT-LIB2 driver
-;;; SMT-LIB2 driver: bit-vectors, common part
-(set-option :produce-models true)
-;;; SMT-LIB2: integer arithmetic
-;;; SMT-LIB2: real arithmetic
-(declare-datatypes () ((tuple0 (Tuple0))))
-(declare-sort us_private 0)
-
-(declare-fun us_null_ext__ () us_private)
-
-(declare-sort us_type_of_heap 0)
-
-(declare-datatypes ()
-((us_type_of_heap__ref
- (mk___type_of_heap__ref (us_type_of_heap__content us_type_of_heap)))))
-(declare-sort us_image 0)
-
-(declare-datatypes () ((int__ref (mk_int__ref (int__content Int)))))
-(declare-datatypes () ((bool__ref (mk_bool__ref (bool__content Bool)))))
-(declare-datatypes () ((real__ref (mk_real__ref (real__content Real)))))
-(declare-datatypes ()
-((us_private__ref (mk___private__ref (us_private__content us_private)))))
-(define-fun int__ref___projection ((a int__ref)) Int (int__content a))
-
-(define-fun bool__ref___projection ((a bool__ref)) Bool (bool__content a))
-
-(define-fun real__ref___projection ((a real__ref)) Real (real__content a))
-
-(define-fun us_private__ref___projection ((a us_private__ref)) us_private
-  (us_private__content a))
-
-(declare-fun us_compatible_tags (Int Int) Bool)
-
-;; __compatible_tags_refl
-  (assert (forall ((tag Int)) (us_compatible_tags tag tag)))
-
-(define-fun to_int1 ((b Bool)) Int (ite (= b true) 1 0))
-
-(define-fun of_int ((i Int)) Bool (ite (= i 0) false true))
-
-(define-fun in_range ((x Int)) Bool (or (= x 0) (= x 1)))
-
-(declare-fun attr__ATTRIBUTE_IMAGE (Bool) us_image)
-
-(declare-fun attr__ATTRIBUTE_VALUE__pre_check (us_image) Bool)
-
-(declare-fun attr__ATTRIBUTE_VALUE (us_image) Bool)
-
-(declare-fun power (Real Int) Real)
-
-;; Power_0
-  (assert (forall ((x Real)) (= (power x 0) 1.0)))
-
-;; Power_s
-  (assert
-  (forall ((x Real) (n Int))
-  (=> (<= 0 n) (= (power x (+ n 1)) (* x (power x n))))))
-
-;; Power_s_alt
-  (assert
-  (forall ((x Real) (n Int))
-  (=> (< 0 n) (= (power x n) (* x (power x (- n 1)))))))
-
-;; Power_1
-  (assert (forall ((x Real)) (= (power x 1) x)))
-
-;; Power_sum
-  (assert
-  (forall ((x Real) (n Int) (m Int))
-  (=> (<= 0 n)
-  (=> (<= 0 m) (= (power x (+ n m)) (* (power x n) (power x m)))))))
-
-;; Power_mult
-  (assert
-  (forall ((x Real) (n Int) (m Int))
-  (=> (<= 0 n) (=> (<= 0 m) (= (power x (* n m)) (power (power x n) m))))))
-
-;; Power_mult2
-  (assert
-  (forall ((x Real) (y Real) (n Int))
-  (=> (<= 0 n) (= (power (* x y) n) (* (power x n) (power y n))))))
-
-;; Pow_ge_one
-  (assert
-  (forall ((x Real) (n Int))
-  (=> (and (<= 0 n) (<= 1.0 x)) (<= 1.0 (power x n)))))
-
-(declare-datatypes ()
-((mode (NearestTiesToEven) (ToZero) (Up) (Down) (NearestTiesToAway))))
-(declare-sort single 0)
-
-(declare-fun round (mode Real) Real)
-
-(declare-fun value (single) Real)
-
-(declare-fun exact (single) Real)
-
-(declare-fun model (single) Real)
-
-(define-fun round_error ((x single)) Real (ite (>= (- (value x) (exact x)) 0.0) (-
-  (value x) (exact x)) (- (- (value x) (exact x)))))
-
-(define-fun total_error ((x single)) Real (ite (>= (- (value x) (model x)) 0.0) (-
-  (value x) (model x)) (- (- (value x) (model x)))))
-
-(define-fun no_overflow ((m mode)
-  (x Real)) Bool (<= (ite (>= (round m x) 0.0) (round m x) (- (round m x))) 340282346638528859811704183484516925440.0))
-
-;; Bounded_real_no_overflow
-  (assert
-  (forall ((m mode) (x Real))
-  (=> (<= (ite (>= x 0.0) x (- x)) 340282346638528859811704183484516925440.0)
-  (no_overflow m x))))
-
-;; Round_monotonic
-  (assert
-  (forall ((m mode) (x Real) (y Real))
-  (=> (<= x y) (<= (round m x) (round m y)))))
-
-;; Round_idempotent
-  (assert
-  (forall ((m1 mode) (m2 mode) (x Real))
-  (= (round m1 (round m2 x)) (round m2 x))))
-
-;; Round_value
-  (assert (forall ((m mode) (x single)) (= (round m (value x)) (value x))))
-
-;; Bounded_value
-  (assert
-  (forall ((x single))
-  (<= (ite (>= (value x) 0.0) (value x) (- (value x))) 340282346638528859811704183484516925440.0)))
-
-;; Exact_rounding_for_integers
-  (assert
-  (forall ((m mode) (i Int))
-  (=> (and (<= (- 16777216) i) (<= i 16777216))
-  (= (round m (to_real i)) (to_real i)))))
-
-;; Round_down_le
-  (assert (forall ((x Real)) (<= (round Down x) x)))
-
-;; Round_up_ge
-  (assert (forall ((x Real)) (<= x (round Up x))))
-
-;; Round_down_neg
-  (assert (forall ((x Real)) (= (round Down (- x)) (- (round Up x)))))
-
-;; Round_up_neg
-  (assert (forall ((x Real)) (= (round Up (- x)) (- (round Down x)))))
-
-(declare-fun round_logic (mode Real) single)
-
-;; Round_logic_def
-  (assert
-  (forall ((m mode) (x Real))
-  (=> (no_overflow m x) (= (value (round_logic m x)) (round m x)))))
-
-(define-fun of_real_post ((m mode) (x Real)
-  (res single)) Bool (and (= (value res) (round m x))
-                     (and (= (exact res) x) (= (model res) x))))
-
-(define-fun add_post ((m mode) (x single) (y single)
-  (res single)) Bool (and (= (value res) (round m (+ (value x) (value y))))
-                     (and (= (exact res) (+ (exact x) (exact y)))
-                     (= (model res) (+ (model x) (model y))))))
-
-(define-fun sub_post ((m mode) (x single) (y single)
-  (res single)) Bool (and (= (value res) (round m (- (value x) (value y))))
-                     (and (= (exact res) (- (exact x) (exact y)))
-                     (= (model res) (- (model x) (model y))))))
-
-(define-fun mul_post ((m mode) (x single) (y single)
-  (res single)) Bool (and (= (value res) (round m (* (value x) (value y))))
-                     (and (= (exact res) (* (exact x) (exact y)))
-                     (= (model res) (* (model x) (model y))))))
-
-(define-fun div_post ((m mode) (x single) (y single)
-  (res single)) Bool (and (= (value res) (round m (/ (value x) (value y))))
-                     (and (= (exact res) (/ (exact x) (exact y)))
-                     (= (model res) (/ (model x) (model y))))))
-
-(define-fun neg_post ((x single)
-  (res single)) Bool (and (= (value res) (- (value x)))
-                     (and (= (exact res) (- (exact x)))
-                     (= (model res) (- (model x))))))
-
-(define-fun lt ((x single) (y single)) Bool (< (value x) (value y)))
-
-(define-fun gt ((x single) (y single)) Bool (< (value y) (value x)))
-
-(declare-sort double 0)
-
-(declare-fun round1 (mode Real) Real)
-
-(declare-fun value1 (double) Real)
-
-(declare-fun exact1 (double) Real)
-
-(declare-fun model1 (double) Real)
-
-(define-fun round_error1 ((x double)) Real (ite (>= (- (value1 x) (exact1 x)) 0.0) (-
-  (value1 x) (exact1 x)) (- (- (value1 x) (exact1 x)))))
-
-(define-fun total_error1 ((x double)) Real (ite (>= (- (value1 x) (model1 x)) 0.0) (-
-  (value1 x) (model1 x)) (- (- (value1 x) (model1 x)))))
-
-(define-fun no_overflow1 ((m mode)
-  (x Real)) Bool (<= (ite (>= (round1 m x) 0.0) (round1 m x) (- (round1 m x))) 179769313486231570814527423731704356798070567525844996598917476803157260780028538760589558632766878171540458953514382464234321326889464182768467546703537516986049910576551282076245490090389328944075868508455133942304583236903222948165808559332123348274797826204144723168738177180919299881250404026184124858368.0))
-
-;; Bounded_real_no_overflow
-  (assert
-  (forall ((m mode) (x Real))
-  (=>
-  (<= (ite (>= x 0.0) x (- x)) 179769313486231570814527423731704356798070567525844996598917476803157260780028538760589558632766878171540458953514382464234321326889464182768467546703537516986049910576551282076245490090389328944075868508455133942304583236903222948165808559332123348274797826204144723168738177180919299881250404026184124858368.0)
-  (no_overflow1 m x))))
-
-;; Round_monotonic
-  (assert
-  (forall ((m mode) (x Real) (y Real))
-  (=> (<= x y) (<= (round1 m x) (round1 m y)))))
-
-;; Round_idempotent
-  (assert
-  (forall ((m1 mode) (m2 mode) (x Real))
-  (= (round1 m1 (round1 m2 x)) (round1 m2 x))))
-
-;; Round_value
-  (assert
-  (forall ((m mode) (x double)) (= (round1 m (value1 x)) (value1 x))))
-
-;; Bounded_value
-  (assert
-  (forall ((x double))
-  (<= (ite (>= (value1 x) 0.0) (value1 x) (- (value1 x))) 179769313486231570814527423731704356798070567525844996598917476803157260780028538760589558632766878171540458953514382464234321326889464182768467546703537516986049910576551282076245490090389328944075868508455133942304583236903222948165808559332123348274797826204144723168738177180919299881250404026184124858368.0)))
-
-;; Exact_rounding_for_integers
-  (assert
-  (forall ((m mode) (i Int))
-  (=> (and (<= (- 9007199254740992) i) (<= i 9007199254740992))
-  (= (round1 m (to_real i)) (to_real i)))))
-
-;; Round_down_le
-  (assert (forall ((x Real)) (<= (round1 Down x) x)))
-
-;; Round_up_ge
-  (assert (forall ((x Real)) (<= x (round1 Up x))))
-
-;; Round_down_neg
-  (assert (forall ((x Real)) (= (round1 Down (- x)) (- (round1 Up x)))))
-
-;; Round_up_neg
-  (assert (forall ((x Real)) (= (round1 Up (- x)) (- (round1 Down x)))))
-
-(declare-fun round_logic1 (mode Real) double)
-
-;; Round_logic_def
-  (assert
-  (forall ((m mode) (x Real))
-  (=> (no_overflow1 m x) (= (value1 (round_logic1 m x)) (round1 m x)))))
-
-(define-fun of_real_post1 ((m mode) (x Real)
-  (res double)) Bool (and (= (value1 res) (round1 m x))
-                     (and (= (exact1 res) x) (= (model1 res) x))))
-
-(define-fun add_post1 ((m mode) (x double) (y double)
-  (res double)) Bool (and
-                     (= (value1 res) (round1 m (+ (value1 x) (value1 y))))
-                     (and (= (exact1 res) (+ (exact1 x) (exact1 y)))
-                     (= (model1 res) (+ (model1 x) (model1 y))))))
-
-(define-fun sub_post1 ((m mode) (x double) (y double)
-  (res double)) Bool (and
-                     (= (value1 res) (round1 m (- (value1 x) (value1 y))))
-                     (and (= (exact1 res) (- (exact1 x) (exact1 y)))
-                     (= (model1 res) (- (model1 x) (model1 y))))))
-
-(define-fun mul_post1 ((m mode) (x double) (y double)
-  (res double)) Bool (and
-                     (= (value1 res) (round1 m (* (value1 x) (value1 y))))
-                     (and (= (exact1 res) (* (exact1 x) (exact1 y)))
-                     (= (model1 res) (* (model1 x) (model1 y))))))
-
-(define-fun div_post1 ((m mode) (x double) (y double)
-  (res double)) Bool (and
-                     (= (value1 res) (round1 m (/ (value1 x) (value1 y))))
-                     (and (= (exact1 res) (/ (exact1 x) (exact1 y)))
-                     (= (model1 res) (/ (model1 x) (model1 y))))))
-
-(define-fun neg_post1 ((x double)
-  (res double)) Bool (and (= (value1 res) (- (value1 x)))
-                     (and (= (exact1 res) (- (exact1 x)))
-                     (= (model1 res) (- (model1 x))))))
-
-(define-fun lt1 ((x double) (y double)) Bool (< (value1 x) (value1 y)))
-
-(define-fun gt1 ((x double) (y double)) Bool (< (value1 y) (value1 x)))
-
-;; round_single_bound
-  (assert
-  (forall ((x Real))
-  (! (and
-     (<= (- (- x (* (/ 1.0 16777216.0) (ite (>= x 0.0) x (- x)))) (/ 1.0 1427247692705959881058285969449495136382746624.0))
-     (round NearestTiesToEven x))
-     (<= (round NearestTiesToEven x) (+ (+ x (* (/ 1.0 16777216.0) (ite (>= x 0.0) x (- x)))) (/ 1.0 1427247692705959881058285969449495136382746624.0)))) :pattern (
-  (round NearestTiesToEven x)) )))
-
-;; round_double_bound
-  (assert
-  (forall ((x Real))
-  (! (and
-     (<= (- (- x (* (/ 1.0 9007199254740992.0) (ite (>= x 0.0) x (- x)))) (/ 1.0 404804506614621236704990693437834614099113299528284236713802716054860679135990693783920767402874248990374155728633623822779617474771586953734026799881477019843034848553132722728933815484186432682479535356945490137124014966849385397236206711298319112681620113024717539104666829230461005064372655017292012526615415482186989568.0))
-     (round1 NearestTiesToEven x))
-     (<= (round1 NearestTiesToEven x) (+ (+ x (* (/ 1.0 9007199254740992.0) (ite (>= x 0.0) x (- x)))) (/ 1.0 404804506614621236704990693437834614099113299528284236713802716054860679135990693783920767402874248990374155728633623822779617474771586953734026799881477019843034848553132722728933815484186432682479535356945490137124014966849385397236206711298319112681620113024717539104666829230461005064372655017292012526615415482186989568.0)))) :pattern (
-  (round1 NearestTiesToEven x)) )))
-
-;; round_double_single
-  (assert
-  (forall ((x Real))
-  (! (= (round1 NearestTiesToEven (round NearestTiesToEven x)) (round
-                                                               NearestTiesToEven
-                                                               x)) :pattern (
-  (round NearestTiesToEven x)) )))
-
-(declare-fun round2 (Real) Int)
-
-;; Round_down
-  (assert
-  (forall ((x Real))
-  (=> (< (- x (to_real (to_int x))) (/ 5.0 10.0)) (= (round2 x) (to_int x)))))
-
-;; Round_up
-  (assert
-  (forall ((x Real))
-  (=> (< (- (to_real (- 1 (to_int (- 1.0 x)))) x) (/ 5.0 10.0))
-  (= (round2 x) (- 1 (to_int (- 1.0 x)))))))
-
-;; Round_neg_tie
-  (assert
-  (forall ((x Real))
-  (=> (and (= (- x (to_real (to_int x))) (/ 5.0 10.0)) (< x 0.0))
-  (= (round2 x) (to_int x)))))
-
-;; Round_pos_tie
-  (assert
-  (forall ((x Real))
-  (=>
-  (and (= (- (to_real (- 1 (to_int (- 1.0 x)))) x) (/ 5.0 10.0)) (< 0.0 x))
-  (= (round2 x) (- 1 (to_int (- 1.0 x)))))))
-
-;; Round_int
-  (assert
-  (forall ((i Int))
-  (! (= (round2 (to_real i)) i) :pattern ((round2 (to_real i))) )))
-
-;; Round_near_int
-  (assert
-  (forall ((i Int))
-  (forall ((x Real))
-  (=> (and (< (- (/ 5.0 10.0)) x) (< x (/ 5.0 10.0)))
-  (= (round2 (+ (to_real i) x)) i)))))
-
-;; Round_monotonic
-  (assert
-  (forall ((x Real) (y Real)) (=> (<= x y) (<= (round2 x) (round2 y)))))
-
-;; Round_monotonic_int1
-  (assert
-  (forall ((x Real) (i Int)) (=> (<= x (to_real i)) (<= (round2 x) i))))
-
-;; Round_monotonic_int2
-  (assert
-  (forall ((x Real) (i Int)) (=> (<= (to_real i) x) (<= i (round2 x)))))
-
-;; Round_bound
-  (assert
-  (forall ((x Real))
-  (and (<= (- x (/ 5.0 10.0)) (to_real (round2 x)))
-  (<= (to_real (round2 x)) (+ x (/ 5.0 10.0))))))
-
-(declare-fun remainder (Real Real) Real)
-
-(declare-sort float 0)
-
-(define-fun in_range1 ((x Real)) Bool (and
-                                      (<= (- 340282346638528859811704183484516925440.0) x)
-                                      (<= x 340282346638528859811704183484516925440.0)))
-
-(declare-fun to_real1 (float) Real)
-
-(declare-fun of_real (Real) float)
-
-(declare-fun user_eq (float float) Bool)
-
-(declare-fun next_representable (Real) Real)
-
-(declare-fun prev_representable (Real) Real)
-
-;; next_representable_def
-  (assert
-  (forall ((x Real))
-  (! (< x (next_representable x)) :pattern ((next_representable x)) )))
-
-;; prev_representable_def
-  (assert
-  (forall ((x Real))
-  (! (< (prev_representable x) x) :pattern ((prev_representable x)) )))
-
-(declare-fun attr__ATTRIBUTE_IMAGE1 (Real) us_image)
-
-(declare-fun attr__ATTRIBUTE_VALUE__pre_check1 (us_image) Bool)
-
-(declare-fun attr__ATTRIBUTE_VALUE1 (us_image) Real)
-
-(declare-fun dummy () float)
-
-;; inversion_axiom
-  (assert
-  (forall ((x float))
-  (! (= (of_real (to_real1 x)) x) :pattern ((to_real1 x)) )))
-
-;; representable_first
-  (assert
-  (= (round NearestTiesToEven (- 340282346638528859811704183484516925440.0)) (- 340282346638528859811704183484516925440.0)))
-
-;; representable_last
-  (assert
-  (= (round NearestTiesToEven 340282346638528859811704183484516925440.0) 340282346638528859811704183484516925440.0))
-
-;; range_axiom
-  (assert (forall ((x float)) (in_range1 (to_real1 x))))
-
-(declare-datatypes () ((float__ref (mk_float__ref (float__content float)))))
-(define-fun float__ref___projection ((a float__ref)) float (float__content a))
-
-(declare-sort weapon_kind 0)
-
-(define-fun in_range2 ((x Int)) Bool (and (<= 0 x) (<= x 2)))
-
-(define-fun bool_eq ((x Int) (y Int)) Bool (ite (= x y) true false))
-
-(declare-fun attr__ATTRIBUTE_IMAGE2 (Int) us_image)
-
-(declare-fun attr__ATTRIBUTE_VALUE__pre_check2 (us_image) Bool)
-
-(declare-fun attr__ATTRIBUTE_VALUE2 (us_image) Int)
-
-(declare-fun to_rep (weapon_kind) Int)
-
-(declare-fun of_rep (Int) weapon_kind)
-
-(declare-fun user_eq1 (weapon_kind weapon_kind) Bool)
-
-(declare-fun dummy1 () weapon_kind)
-
-;; inversion_axiom
-  (assert
-  (forall ((x weapon_kind))
-  (! (= (of_rep (to_rep x)) x) :pattern ((to_rep x)) )))
-
-;; range_axiom
-  (assert
-  (forall ((x weapon_kind)) (! (in_range2
-  (to_rep x)) :pattern ((to_rep x)) )))
-
-;; coerce_axiom
-  (assert
-  (forall ((x Int))
-  (! (=> (in_range2 x) (= (to_rep (of_rep x)) x)) :pattern ((to_rep
-                                                            (of_rep x))) )))
-
-(declare-datatypes ()
-((weapon_kind__ref (mk_weapon_kind__ref (weapon_kind__content weapon_kind)))))
-(define-fun weapon_kind__ref___projection ((a weapon_kind__ref)) weapon_kind
-  (weapon_kind__content a))
-
-(declare-fun dps (Int) float)
-
-(declare-fun damage (Int) Int)
-
-(declare-fun bullet (Int) Int)
-
-(declare-fun cooldown (Int) Int)
-
-;; dps__post_axiom
-  (assert true)
-
-;; dps__def_axiom
-  (assert
-  (forall ((self Int))
-  (! (=> (in_range2 self)
-     (= (to_real1 (dps self)) (round NearestTiesToEven
-                              (/ (round NearestTiesToEven
-                                 (to_real (damage (bullet self)))) (round
-                                                                   NearestTiesToEven
-                                                                   (to_real
-                                                                   (cooldown
-                                                                   self))))))) :pattern (
-  (dps self)) )))
-
-(declare-sort integer 0)
-
-(define-fun in_range3 ((x Int)) Bool (and (<= (- 2147483648) x)
-                                     (<= x 2147483647)))
-
-(define-fun bool_eq1 ((x Int) (y Int)) Bool (ite (= x y) true false))
-
-(declare-fun attr__ATTRIBUTE_IMAGE3 (Int) us_image)
-
-(declare-fun attr__ATTRIBUTE_VALUE__pre_check3 (us_image) Bool)
-
-(declare-fun attr__ATTRIBUTE_VALUE3 (us_image) Int)
-
-(declare-fun to_rep1 (integer) Int)
-
-(declare-fun of_rep1 (Int) integer)
-
-(declare-fun user_eq2 (integer integer) Bool)
-
-(declare-fun dummy2 () integer)
-
-;; inversion_axiom
-  (assert
-  (forall ((x integer))
-  (! (= (of_rep1 (to_rep1 x)) x) :pattern ((to_rep1 x)) )))
-
-;; range_axiom
-  (assert
-  (forall ((x integer)) (! (in_range3 (to_rep1 x)) :pattern ((to_rep1 x)) )))
-
-;; coerce_axiom
-  (assert
-  (forall ((x Int))
-  (! (=> (in_range3 x) (= (to_rep1 (of_rep1 x)) x)) :pattern ((to_rep1
-                                                              (of_rep1 x))) )))
-
-(declare-datatypes ()
-((integer__ref (mk_integer__ref (integer__content integer)))))
-(define-fun integer__ref___projection ((a integer__ref)) integer (integer__content
-                                                                 a))
-
-(define-fun dynamic_invariant ((temp___expr_15 Int) (temp___is_init_12 Bool)
-  (temp___do_constant_13 Bool)
-  (temp___do_toplevel_14 Bool)) Bool (=>
-                                     (or (= temp___is_init_12 true)
-                                     (<= (- 2147483648) 2147483647))
-                                     (in_range3 temp___expr_15)))
-
-(declare-sort bullet_kind 0)
-
-(define-fun in_range4 ((x Int)) Bool (and (<= 0 x) (<= x 4)))
-
-(define-fun bool_eq2 ((x Int) (y Int)) Bool (ite (= x y) true false))
-
-(declare-fun attr__ATTRIBUTE_IMAGE4 (Int) us_image)
-
-(declare-fun attr__ATTRIBUTE_VALUE__pre_check4 (us_image) Bool)
-
-(declare-fun attr__ATTRIBUTE_VALUE4 (us_image) Int)
-
-(declare-fun to_rep2 (bullet_kind) Int)
-
-(declare-fun of_rep2 (Int) bullet_kind)
-
-(declare-fun user_eq3 (bullet_kind bullet_kind) Bool)
-
-(declare-fun dummy3 () bullet_kind)
-
-;; inversion_axiom
-  (assert
-  (forall ((x bullet_kind))
-  (! (= (of_rep2 (to_rep2 x)) x) :pattern ((to_rep2 x)) )))
-
-;; range_axiom
-  (assert
-  (forall ((x bullet_kind)) (! (in_range4
-  (to_rep2 x)) :pattern ((to_rep2 x)) )))
-
-;; coerce_axiom
-  (assert
-  (forall ((x Int))
-  (! (=> (in_range4 x) (= (to_rep2 (of_rep2 x)) x)) :pattern ((to_rep2
-                                                              (of_rep2 x))) )))
-
-(declare-datatypes ()
-((bullet_kind__ref (mk_bullet_kind__ref (bullet_kind__content bullet_kind)))))
-(define-fun bullet_kind__ref___projection ((a bullet_kind__ref)) bullet_kind
-  (bullet_kind__content a))
-
-(define-fun dynamic_invariant1 ((temp___expr_180 Int)
-  (temp___is_init_177 Bool) (temp___do_constant_178 Bool)
-  (temp___do_toplevel_179 Bool)) Bool (=>
-                                      (or (= temp___is_init_177 true)
-                                      (<= 0 4)) (in_range4 temp___expr_180)))
-
-;; damage__post_axiom
-  (assert
-  (forall ((self Int))
-  (! (=> (in_range4 self) (dynamic_invariant (damage self) true false true)) :pattern (
-  (damage self)) )))
-
-;; damage__def_axiom
-  (assert
-  (forall ((self Int))
-  (! (=> (in_range4 self)
-     (= (damage self) (ite (= self 0) 0
-                      (ite (= self 1) 1
-                      (ite (= self 2) 8 (ite (= self 3) 10 1)))))) :pattern (
-  (damage self)) )))
-
-(define-fun dynamic_invariant2 ((temp___expr_186 Int)
-  (temp___is_init_183 Bool) (temp___do_constant_184 Bool)
-  (temp___do_toplevel_185 Bool)) Bool (=>
-                                      (or (= temp___is_init_183 true)
-                                      (<= 0 2)) (in_range2 temp___expr_186)))
-
-;; bullet__post_axiom
-  (assert
-  (forall ((self Int))
-  (! (=> (in_range2 self) (dynamic_invariant1 (bullet self) true false true)) :pattern (
-  (bullet self)) )))
-
-;; bullet__def_axiom
-  (assert
-  (forall ((self Int))
-  (! (=> (in_range2 self)
-     (= (bullet self) (ite (= self 0) 1 (ite (= self 1) 1 2)))) :pattern (
-  (bullet self)) )))
-
-;; cooldown__post_axiom
-  (assert
-  (forall ((self Int))
-  (! (=> (in_range2 self) (dynamic_invariant (cooldown self) true false
-     true)) :pattern ((cooldown self)) )))
-
-;; cooldown__def_axiom
-  (assert
-  (forall ((self Int))
-  (! (=> (in_range2 self)
-     (= (cooldown self) (ite (= self 0) 4 (ite (= self 1) 1 8)))) :pattern (
-  (cooldown self)) )))
-
-(assert
-;; WP_parameter_def
- ;; File "weapons.ads", line 34, characters 0-0
-  (not
-  (forall ((w Int))
-  (=> (and (<= 0 w) (<= w 2))
-  (or (= w 2) (<= (to_real1 (dps w)) (to_real1 (dps (+ w 1)))))))))
-(check-sat)
-(get-info :reason-unknown)
diff --git a/test/regress/regress0/arith/bug716.1.cvc b/test/regress/regress0/arith/bug716.1.cvc
deleted file mode 100644
index d9330c727..000000000
--- a/test/regress/regress0/arith/bug716.1.cvc
+++ /dev/null
@@ -1,6 +0,0 @@
-% EXPECT: The POW(^) operator can only be used with a natural number in the exponent.  Exception occurred in:
-% EXPECT:   2 ^ x
-% EXIT: 1
-x: INT;
-ASSERT 2^x = 8;
-QUERY x=3;
diff --git a/test/regress/regress0/arith/div.03.smt2 b/test/regress/regress0/arith/div.03.smt2
deleted file mode 100644
index 8beef7a69..000000000
--- a/test/regress/regress0/arith/div.03.smt2
+++ /dev/null
@@ -1,12 +0,0 @@
-; EXPECT: unsat
-(set-logic QF_NIA)
-(set-info :smt-lib-version 2.0)
-(set-info :status unsat)
-(declare-fun x () Int)
-(declare-fun n () Int)
-
-(assert (> n 0))
-(assert (>= x n))
-(assert (< (div x n) 1))
-
-(check-sat)
diff --git a/test/regress/regress0/arith/div.06.smt2 b/test/regress/regress0/arith/div.06.smt2
deleted file mode 100644
index 6e72433ac..000000000
--- a/test/regress/regress0/arith/div.06.smt2
+++ /dev/null
@@ -1,14 +0,0 @@
-; EXPECT: sat
-(set-logic QF_NRA)
-(set-info :smt-lib-version 2.0)
-(set-info :status sat)
-(declare-fun x () Real)
-(declare-fun y () Real)
-(declare-fun n () Real)
-
-(assert (= (/ x n) 0))
-(assert (= (/ y n) 1))
-(assert (<= n 0))
-(assert (>= n 0))
-
-(check-sat)
diff --git a/test/regress/regress0/arith/div.08.smt2 b/test/regress/regress0/arith/div.08.smt2
deleted file mode 100644
index 0b0d73ac1..000000000
--- a/test/regress/regress0/arith/div.08.smt2
+++ /dev/null
@@ -1,11 +0,0 @@
-(set-logic QF_NIA)
-(set-info :smt-lib-version 2.0)
-(set-info :status unsat)
-(declare-fun n () Int)
-
-
-(assert (= (div n n) (div (div n n) n)))
-(assert (distinct (div (div n n) n) (div (div (div n n) n) n)))
-(assert (<= n 0))
-(assert (>= n 0))
-(check-sat)
diff --git a/test/regress/regress0/arith/div.09.smt2 b/test/regress/regress0/arith/div.09.smt2
deleted file mode 100644
index 1c4bbde2b..000000000
--- a/test/regress/regress0/arith/div.09.smt2
+++ /dev/null
@@ -1,14 +0,0 @@
-; SCRUBBER: sed -e 's/The fact in question: .*$/The fact in question: TERM/'
-; EXPECT: (error "A non-linear fact was asserted to arithmetic in a linear logic.
-; EXPECT: The fact in question: TERM
-; EXPECT: ")
-; EXIT: 1
-(set-logic QF_LRA)
-(set-info :status unknown)
-(declare-fun n () Real)
-
-; This example is test that LRA rejects multiplication terms
-
-(assert (= (/ n n) 1))
-
-(check-sat)
diff --git a/test/regress/regress0/arith/integers/Makefile.am b/test/regress/regress0/arith/integers/Makefile.am
index aa24e9c35..203598490 100644
--- a/test/regress/regress0/arith/integers/Makefile.am
+++ b/test/regress/regress0/arith/integers/Makefile.am
@@ -23,112 +23,16 @@ MAKEFLAGS = -k
 
 
 TESTS =	\
-	arith-int-004.cvc \
-	arith-int-011.cvc \
-	arith-int-012.cvc \
-	arith-int-013.cvc \
-	arith-int-022.cvc \
-	arith-int-024.cvc \
 	arith-int-042.cvc \
-	arith-int-042.min.cvc \
-	arith-int-047.cvc \
-	arith-int-048.cvc \
-	arith-int-050.cvc \
-	arith-int-084.cvc \
-	arith-int-085.cvc \
-	arith-int-097.cvc
+	arith-int-042.min.cvc
 
 EXTRA_DIST = $(TESTS) \
-	arith-int-001.cvc \
-	arith-int-002.cvc \
-	arith-int-003.cvc \
-	arith-int-005.cvc \
-	arith-int-006.cvc \
-	arith-int-008.cvc \
-	arith-int-009.cvc \
-	arith-int-010.cvc \
 	arith-int-014.cvc \
 	arith-int-015.cvc \
-	arith-int-016.cvc \
-	arith-int-017.cvc \
-	arith-int-018.cvc \
-	arith-int-019.cvc \
-	arith-int-020.cvc \
 	arith-int-021.cvc \
 	arith-int-023.cvc \
 	arith-int-025.cvc \
-	arith-int-026.cvc \
-	arith-int-027.cvc \
-	arith-int-028.cvc \
-	arith-int-029.cvc \
-	arith-int-030.cvc \
-	arith-int-031.cvc \
-	arith-int-032.cvc \
-	arith-int-033.cvc \
-	arith-int-034.cvc \
-	arith-int-035.cvc \
-	arith-int-036.cvc \
-	arith-int-037.cvc \
-	arith-int-038.cvc \
-	arith-int-039.cvc \
-	arith-int-040.cvc \
-	arith-int-041.cvc \
-	arith-int-043.cvc \
-	arith-int-044.cvc \
-	arith-int-045.cvc \
-	arith-int-046.cvc \
-	arith-int-049.cvc \
-	arith-int-051.cvc \
-	arith-int-052.cvc \
-	arith-int-053.cvc \
-	arith-int-054.cvc \
-	arith-int-055.cvc \
-	arith-int-056.cvc \
-	arith-int-057.cvc \
-	arith-int-058.cvc \
-	arith-int-059.cvc \
-	arith-int-060.cvc \
-	arith-int-061.cvc \
-	arith-int-062.cvc \
-	arith-int-063.cvc \
-	arith-int-064.cvc \
-	arith-int-065.cvc \
-	arith-int-066.cvc \
-	arith-int-067.cvc \
-	arith-int-068.cvc \
-	arith-int-069.cvc \
-	arith-int-070.cvc \
-	arith-int-071.cvc \
-	arith-int-072.cvc \
-	arith-int-073.cvc \
-	arith-int-074.cvc \
-	arith-int-075.cvc \
-	arith-int-076.cvc \
-	arith-int-077.cvc \
-	arith-int-078.cvc \
-	arith-int-079.cvc \
-	arith-int-080.cvc \
-	arith-int-081.cvc \
-	arith-int-083.cvc \
-	arith-int-086.cvc \
-	arith-int-087.cvc \
-	arith-int-088.cvc \
-	arith-int-089.cvc \
-	arith-int-090.cvc \
-	arith-int-091.cvc \
-	arith-int-092.cvc \
-	arith-int-093.cvc \
-	arith-int-094.cvc \
-	arith-int-095.cvc \
-	arith-int-096.cvc \
-	arith-int-098.cvc \
-	arith-int-099.cvc \
-	arith-int-100.cvc
-
-FAILING_TESTS = \
-	arith-int-007.cvc \
-	arith-int-082.cvc \
-	arith-int-098.cvc
+	arith-int-079.cvc
 
 #if CVC4_BUILD_PROFILE_COMPETITION
 #else
diff --git a/test/regress/regress0/arith/integers/arith-int-001.cvc b/test/regress/regress0/arith/integers/arith-int-001.cvc
deleted file mode 100644
index 03ed1a6ae..000000000
--- a/test/regress/regress0/arith/integers/arith-int-001.cvc
+++ /dev/null
@@ -1,14 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (-23 * x0) + (-23 * x1) + (5 * x2) + (-17 * x3) = 7 ;
-ASSERT  (-14 * x0) + (-14 * x1) + (19 * x2) + (-24 * x3) = 29 ;
-ASSERT (-16 * x0) + (-17 * x1) + (8 * x2) + (4 * x3) > -10 ;
-ASSERT  (6 * x0) + (-10 * x1) + (-22 * x2) + (-22 * x3) >= 0 ;
-ASSERT  (18 * x0) + (0 * x1) + (27 * x2) + (7 * x3) <= -2 ;
-ASSERT  (-23 * x0) + (27 * x1) + (24 * x2) + (-23 * x3) > -25 ;
-ASSERT  (3 * x0) + (32 * x1) + (15 * x2) + (-21 * x3) >= -10 ;
-ASSERT  (-27 * x0) + (-16 * x1) + (21 * x2) + (-2 * x3) < 30 ;
-ASSERT  (-25 * x0) + (-18 * x1) + (-23 * x2) + (22 * x3) < -15 ;
-ASSERT  (-20 * x0) + (0 * x1) + (4 * x2) + (-26 * x3) >= 15 ;
-ASSERT  (-8 * x0) + (32 * x1) + (9 * x2) + (17 * x3) > -26;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-002.cvc b/test/regress/regress0/arith/integers/arith-int-002.cvc
deleted file mode 100644
index 849daba79..000000000
--- a/test/regress/regress0/arith/integers/arith-int-002.cvc
+++ /dev/null
@@ -1,14 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (17 * x0) + (-23 * x1) + (2 * x2) + (-19 * x3) = -18 ;
-ASSERT  (25 * x0) + (23 * x1) + (21 * x2) + (20 * x3) = 2 ;
-ASSERT (-24 * x0) + (-30 * x1) + (-14 * x2) + (13 * x3) <= 15 ;
-ASSERT  (-26 * x0) + (7 * x1) + (8 * x2) + (14 * x3) <= 16 ;
-ASSERT  (-1 * x0) + (-3 * x1) + (-19 * x2) + (26 * x3) <= -15 ;
-ASSERT  (31 * x0) + (19 * x1) + (-19 * x2) + (24 * x3) < -25 ;
-ASSERT  (8 * x0) + (-27 * x1) + (22 * x2) + (-20 * x3) < -30 ;
-ASSERT  (25 * x0) + (7 * x1) + (-18 * x2) + (-18 * x3) >= -31 ;
-ASSERT  (7 * x0) + (-22 * x1) + (-8 * x2) + (-6 * x3) >= -17 ;
-ASSERT  (-23 * x0) + (14 * x1) + (23 * x2) + (22 * x3) > -29 ;
-ASSERT  (-6 * x0) + (-6 * x1) + (-19 * x2) + (-4 * x3) > -5;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-003.cvc b/test/regress/regress0/arith/integers/arith-int-003.cvc
deleted file mode 100644
index 9c060c469..000000000
--- a/test/regress/regress0/arith/integers/arith-int-003.cvc
+++ /dev/null
@@ -1,14 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (17 * x0) + (-7 * x1) + (15 * x2) + (21 * x3) = 19 ;
-ASSERT (6 * x0) + (-24 * x1) + (25 * x2) + (-18 * x3) > -25 ;
-ASSERT  (-26 * x0) + (-28 * x1) + (-23 * x2) + (0 * x3) < -14 ;
-ASSERT  (-12 * x0) + (16 * x1) + (26 * x2) + (-23 * x3) <= 11 ;
-ASSERT  (14 * x0) + (6 * x1) + (9 * x2) + (-29 * x3) > 24 ;
-ASSERT  (5 * x0) + (-10 * x1) + (21 * x2) + (-26 * x3) > -12 ;
-ASSERT  (31 * x0) + (6 * x1) + (30 * x2) + (10 * x3) <= -25 ;
-ASSERT  (-18 * x0) + (-25 * x1) + (-24 * x2) + (-30 * x3) >= -18 ;
-ASSERT  (29 * x0) + (25 * x1) + (29 * x2) + (-31 * x3) < 6 ;
-ASSERT  (21 * x0) + (-27 * x1) + (-28 * x2) + (-15 * x3) >= 25 ;
-ASSERT  (-13 * x0) + (10 * x1) + (-7 * x2) + (-10 * x3) <= -4;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-004.cvc b/test/regress/regress0/arith/integers/arith-int-004.cvc
deleted file mode 100644
index 314b76d18..000000000
--- a/test/regress/regress0/arith/integers/arith-int-004.cvc
+++ /dev/null
@@ -1,15 +0,0 @@
-% EXPECT: invalid
-
-x0, x1, x2, x3 : INT;
-ASSERT (12 * x0) + (-25 * x1) + (21 * x2) + (7 * x3) < 27 ;
-ASSERT  (9 * x0) + (2 * x1) + (26 * x2) + (-3 * x3) >= 11 ;
-ASSERT  (3 * x0) + (-29 * x1) + (-4 * x2) + (-17 * x3) > 2 ;
-ASSERT  (7 * x0) + (-29 * x1) + (12 * x2) + (16 * x3) >= -14 ;
-ASSERT  (21 * x0) + (32 * x1) + (16 * x2) + (4 * x3) >= -19 ;
-ASSERT  (6 * x0) + (23 * x1) + (-10 * x2) + (-25 * x3) > 5 ;
-ASSERT  (-26 * x0) + (4 * x1) + (-23 * x2) + (-30 * x3) >= 25 ;
-ASSERT  (-4 * x0) + (-13 * x1) + (15 * x2) + (-12 * x3) > -13 ;
-ASSERT  (-11 * x0) + (31 * x1) + (0 * x2) + (-2 * x3) < 8 ;
-ASSERT  (7 * x0) + (14 * x1) + (-21 * x2) + (-5 * x3) >= -19 ;
-ASSERT  (-28 * x0) + (-12 * x1) + (7 * x2) + (-5 * x3) <= 28;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-005.cvc b/test/regress/regress0/arith/integers/arith-int-005.cvc
deleted file mode 100644
index 9b9776ad3..000000000
--- a/test/regress/regress0/arith/integers/arith-int-005.cvc
+++ /dev/null
@@ -1,14 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (13 * x0) + (0 * x1) + (6 * x2) + (-30 * x3) = -16 ;
-ASSERT  (-4 * x0) + (-8 * x1) + (14 * x2) + (-8 * x3) = -11 ;
-ASSERT (-23 * x0) + (-26 * x1) + (4 * x2) + (-6 * x3) <= -2 ;
-ASSERT  (-22 * x0) + (-18 * x1) + (-23 * x2) + (5 * x3) < -32 ;
-ASSERT  (27 * x0) + (-12 * x1) + (-19 * x2) + (-17 * x3) <= -29 ;
-ASSERT  (12 * x0) + (21 * x1) + (-22 * x2) + (15 * x3) > 4 ;
-ASSERT  (-15 * x0) + (16 * x1) + (2 * x2) + (-14 * x3) >= -26 ;
-ASSERT  (4 * x0) + (4 * x1) + (-21 * x2) + (10 * x3) >= -6 ;
-ASSERT  (-6 * x0) + (25 * x1) + (-14 * x2) + (8 * x3) >= -31 ;
-ASSERT  (-23 * x0) + (2 * x1) + (-9 * x2) + (19 * x3) <= 10 ;
-ASSERT  (21 * x0) + (24 * x1) + (14 * x2) + (-6 * x3) <= 0;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-006.cvc b/test/regress/regress0/arith/integers/arith-int-006.cvc
deleted file mode 100644
index 999b4a5b4..000000000
--- a/test/regress/regress0/arith/integers/arith-int-006.cvc
+++ /dev/null
@@ -1,10 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT (-7 * x0) + (-28 * x1) + (8 * x2) + (29 * x3) = -18 ;
-ASSERT  (11 * x0) + (2 * x1) + (4 * x2) + (23 * x3) = 6 ;
-ASSERT  (24 * x0) + (-20 * x1) + (23 * x2) + (-2 * x3) = 19 ;
-ASSERT  (17 * x0) + (-6 * x1) + (2 * x2) + (-22 * x3) = -31 ;
-ASSERT  (16 * x0) + (-7 * x1) + (27 * x2) + (17 * x3) = -8;
-ASSERT  (-5 * x0) + (18 * x1) + (3 * x2) + (-1 * x3) <= 29 ;
-ASSERT  (9 * x0) + (29 * x1) + (30 * x2) + (23 * x3) >= 21 ;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-007.cvc b/test/regress/regress0/arith/integers/arith-int-007.cvc
deleted file mode 100644
index 4cb4d88ef..000000000
--- a/test/regress/regress0/arith/integers/arith-int-007.cvc
+++ /dev/null
@@ -1,10 +0,0 @@
-% EXPECT: invalid
-x0, x1, x2, x3 : INT;
-ASSERT (-19 * x0) + (17 * x1) + (30 * x2) + (-31 * x3) <= -20 ;
-ASSERT  (-3 * x0) + (16 * x1) + (20 * x2) + (-25 * x3) < 28 ;
-ASSERT  (11 * x0) + (13 * x1) + (-15 * x2) + (-8 * x3) <= 18 ;
-ASSERT  (-21 * x0) + (0 * x1) + (32 * x2) + (7 * x3) > -31 ;
-ASSERT  (16 * x0) + (24 * x1) + (8 * x2) + (23 * x3) <= 16 ;
-ASSERT  (25 * x0) + (-11 * x1) + (-8 * x2) + (14 * x3) <= 17 ;
-ASSERT  (16 * x0) + (-25 * x1) + (-1 * x2) + (13 * x3) < -26;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-008.cvc b/test/regress/regress0/arith/integers/arith-int-008.cvc
deleted file mode 100644
index 1ae22c993..000000000
--- a/test/regress/regress0/arith/integers/arith-int-008.cvc
+++ /dev/null
@@ -1,10 +0,0 @@
-% EXPECT: invalid
-x0, x1, x2, x3 : INT;
-ASSERT  (-12 * x0) + (-15 * x1) + (-31 * x2) + (17 * x3) = -16 ;
-ASSERT (11 * x0) + (-5 * x1) + (-8 * x2) + (-17 * x3) > -4 ;
-ASSERT  (-12 * x0) + (-22 * x1) + (9 * x2) + (-20 * x3) >= 32 ;
-ASSERT  (24 * x0) + (-32 * x1) + (5 * x2) + (31 * x3) > 20 ;
-ASSERT  (-30 * x0) + (-4 * x1) + (-4 * x2) + (0 * x3) >= -20 ;
-ASSERT  (-10 * x0) + (18 * x1) + (17 * x2) + (20 * x3) <= 30 ;
-ASSERT  (12 * x0) + (-13 * x1) + (4 * x2) + (-27 * x3) > 3;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-009.cvc b/test/regress/regress0/arith/integers/arith-int-009.cvc
deleted file mode 100644
index 9bd7a2ce4..000000000
--- a/test/regress/regress0/arith/integers/arith-int-009.cvc
+++ /dev/null
@@ -1,10 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (-16 * x0) + (-21 * x1) + (32 * x2) + (32 * x3) = -19 ;
-ASSERT  (-10 * x0) + (-21 * x1) + (13 * x2) + (-7 * x3) = 2 ;
-ASSERT  (11 * x0) + (15 * x1) + (-8 * x2) + (-24 * x3) = 29 ;
-ASSERT (3 * x0) + (-28 * x1) + (-14 * x2) + (-18 * x3) < 5 ;
-ASSERT  (-18 * x0) + (-13 * x1) + (25 * x2) + (22 * x3) <= -24 ;
-ASSERT  (-16 * x0) + (-17 * x1) + (-27 * x2) + (4 * x3) >= -5 ;
-ASSERT  (21 * x0) + (13 * x1) + (20 * x2) + (-1 * x3) < 19;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-010.cvc b/test/regress/regress0/arith/integers/arith-int-010.cvc
deleted file mode 100644
index 4ac85a984..000000000
--- a/test/regress/regress0/arith/integers/arith-int-010.cvc
+++ /dev/null
@@ -1,10 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (19 * x0) + (-2 * x1) + (-29 * x2) + (-24 * x3) = 3 ;
-ASSERT  (3 * x0) + (11 * x1) + (-14 * x2) + (6 * x3) = 4 ;
-ASSERT  (-1 * x0) + (-22 * x1) + (4 * x2) + (5 * x3) = -22;
-ASSERT (8 * x0) + (-8 * x1) + (18 * x2) + (-14 * x3) < -20 ;
-ASSERT  (22 * x0) + (27 * x1) + (6 * x2) + (-3 * x3) <= -11 ;
-ASSERT  (-23 * x0) + (-29 * x1) + (-27 * x2) + (13 * x3) <= 3 ;
-ASSERT  (8 * x0) + (0 * x1) + (28 * x2) + (0 * x3) >= -29 ;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-011.cvc b/test/regress/regress0/arith/integers/arith-int-011.cvc
deleted file mode 100644
index bd2fa2a0d..000000000
--- a/test/regress/regress0/arith/integers/arith-int-011.cvc
+++ /dev/null
@@ -1,5 +0,0 @@
-% EXPECT: invalid
-x0, x1, x2, x3 : INT;
-ASSERT (13 * x0) + (-1 * x1) + (11 * x2) + (10 * x3) = 9 ;
-ASSERT  (-7 * x0) + (3 * x1) + (-22 * x2) + (16 * x3) >= 9;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-012.cvc b/test/regress/regress0/arith/integers/arith-int-012.cvc
deleted file mode 100644
index 11b0dab27..000000000
--- a/test/regress/regress0/arith/integers/arith-int-012.cvc
+++ /dev/null
@@ -1,5 +0,0 @@
-% EXPECT: invalid
-x0, x1, x2, x3 : INT;
-ASSERT (18 * x0) + (32 * x1) + (-11 * x2) + (18 * x3) < -25 ;
-ASSERT  (-31 * x0) + (16 * x1) + (24 * x2) + (9 * x3) >= -24;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-013.cvc b/test/regress/regress0/arith/integers/arith-int-013.cvc
deleted file mode 100644
index 329251cae..000000000
--- a/test/regress/regress0/arith/integers/arith-int-013.cvc
+++ /dev/null
@@ -1,5 +0,0 @@
-% EXPECT: invalid
-x0, x1, x2, x3 : INT;
-ASSERT (-22 * x0) + (-14 * x1) + (4 * x2) + (-12 * x3) > 25 ;
-ASSERT  (14 * x0) + (11 * x1) + (32 * x2) + (-8 * x3) >= 2;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-016.cvc b/test/regress/regress0/arith/integers/arith-int-016.cvc
deleted file mode 100644
index 6774dd2d1..000000000
--- a/test/regress/regress0/arith/integers/arith-int-016.cvc
+++ /dev/null
@@ -1,20 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (-13 * x0) + (-4 * x1) + (-20 * x2) + (-26 * x3) = 2 ;
-ASSERT  (13 * x0) + (13 * x1) + (-14 * x2) + (26 * x3) = -8 ;
-ASSERT  (-13 * x0) + (1 * x1) + (16 * x2) + (4 * x3) = -22 ;
-ASSERT  (17 * x0) + (7 * x1) + (32 * x2) + (19 * x3) = 16 ;
-ASSERT (11 * x0) + (-8 * x1) + (-10 * x2) + (-10 * x3) <= -1 ;
-ASSERT  (-25 * x0) + (-18 * x1) + (-10 * x2) + (-19 * x3) <= 32 ;
-ASSERT  (0 * x0) + (-14 * x1) + (30 * x2) + (-5 * x3) > -13 ;
-ASSERT  (2 * x0) + (-17 * x1) + (-13 * x2) + (8 * x3) > 1 ;
-ASSERT  (-4 * x0) + (-1 * x1) + (29 * x2) + (-9 * x3) > -8 ;
-ASSERT  (-32 * x0) + (26 * x1) + (5 * x2) + (6 * x3) <= -1 ;
-ASSERT  (-26 * x0) + (3 * x1) + (22 * x2) + (27 * x3) > -2 ;
-ASSERT  (13 * x0) + (3 * x1) + (1 * x2) + (9 * x3) < 24 ;
-ASSERT  (-10 * x0) + (22 * x1) + (5 * x2) + (-5 * x3) >= -21 ;
-ASSERT  (-20 * x0) + (-28 * x1) + (-11 * x2) + (6 * x3) >= -17 ;
-ASSERT  (14 * x0) + (16 * x1) + (-15 * x2) + (17 * x3) < 27 ;
-ASSERT  (-23 * x0) + (-4 * x1) + (-19 * x2) + (-23 * x3) < 20 ;
-ASSERT  (-8 * x0) + (-5 * x1) + (-17 * x2) + (32 * x3) <= 20;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-017.cvc b/test/regress/regress0/arith/integers/arith-int-017.cvc
deleted file mode 100644
index e9a06125a..000000000
--- a/test/regress/regress0/arith/integers/arith-int-017.cvc
+++ /dev/null
@@ -1,20 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (23 * x0) + (-4 * x1) + (-26 * x2) + (-1 * x3) = 10 ;
-ASSERT  (15 * x0) + (31 * x1) + (31 * x2) + (31 * x3) = 13 ;
-ASSERT  (19 * x0) + (-15 * x1) + (25 * x2) + (30 * x3) = 23 ;
-ASSERT (10 * x0) + (-17 * x1) + (15 * x2) + (13 * x3) < 22 ;
-ASSERT  (-7 * x0) + (22 * x1) + (8 * x2) + (24 * x3) < 14 ;
-ASSERT  (24 * x0) + (-12 * x1) + (0 * x2) + (-25 * x3) <= -19 ;
-ASSERT  (-27 * x0) + (17 * x1) + (-20 * x2) + (-25 * x3) >= 11 ;
-ASSERT  (3 * x0) + (-12 * x1) + (-18 * x2) + (15 * x3) > -27 ;
-ASSERT  (-19 * x0) + (24 * x1) + (9 * x2) + (4 * x3) <= 16 ;
-ASSERT  (28 * x0) + (-20 * x1) + (-21 * x2) + (4 * x3) > -13 ;
-ASSERT  (-21 * x0) + (-23 * x1) + (-31 * x2) + (-6 * x3) < 6 ;
-ASSERT  (-30 * x0) + (8 * x1) + (-22 * x2) + (8 * x3) > 14 ;
-ASSERT  (-1 * x0) + (17 * x1) + (-22 * x2) + (-4 * x3) >= 4 ;
-ASSERT  (2 * x0) + (-4 * x1) + (10 * x2) + (30 * x3) < -15 ;
-ASSERT  (29 * x0) + (27 * x1) + (23 * x2) + (-4 * x3) < 21 ;
-ASSERT  (-28 * x0) + (0 * x1) + (19 * x2) + (7 * x3) <= -18 ;
-ASSERT  (-20 * x0) + (-7 * x1) + (26 * x2) + (-17 * x3) < 23;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-018.cvc b/test/regress/regress0/arith/integers/arith-int-018.cvc
deleted file mode 100644
index 4cb97b77e..000000000
--- a/test/regress/regress0/arith/integers/arith-int-018.cvc
+++ /dev/null
@@ -1,20 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT (-11 * x0) + (-26 * x1) + (9 * x2) + (32 * x3) = -11 ;
-ASSERT  (-5 * x0) + (-11 * x1) + (-10 * x2) + (-31 * x3) = -23 ;
-ASSERT  (-12 * x0) + (9 * x1) + (-22 * x2) + (11 * x3) = 11 ;
-ASSERT  (-27 * x0) + (8 * x1) + (-28 * x2) + (-7 * x3) = 23 ;
-ASSERT  (19 * x0) + (4 * x1) + (5 * x2) + (-10 * x3) >= 2 ;
-ASSERT  (-6 * x0) + (-20 * x1) + (30 * x2) + (20 * x3) >= 12 ;
-ASSERT  (19 * x0) + (26 * x1) + (-21 * x2) + (18 * x3) <= -21 ;
-ASSERT  (8 * x0) + (-29 * x1) + (7 * x2) + (20 * x3) >= 29 ;
-ASSERT  (-28 * x0) + (6 * x1) + (11 * x2) + (0 * x3) >= -4 ;
-ASSERT  (-20 * x0) + (-30 * x1) + (17 * x2) + (25 * x3) >= 4 ;
-ASSERT  (-15 * x0) + (9 * x1) + (9 * x2) + (26 * x3) > 11 ;
-ASSERT  (-30 * x0) + (-20 * x1) + (-20 * x2) + (14 * x3) <= -27 ;
-ASSERT  (-22 * x0) + (-11 * x1) + (-6 * x2) + (18 * x3) > -13 ;
-ASSERT  (-22 * x0) + (-25 * x1) + (22 * x2) + (-24 * x3) <= 1 ;
-ASSERT  (-24 * x0) + (22 * x1) + (-28 * x2) + (-14 * x3) >= 18 ;
-ASSERT  (17 * x0) + (31 * x1) + (-13 * x2) + (-23 * x3) < -5 ;
-ASSERT  (-12 * x0) + (-28 * x1) + (19 * x2) + (-21 * x3) < -27;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-019.cvc b/test/regress/regress0/arith/integers/arith-int-019.cvc
deleted file mode 100644
index cf9ae2d70..000000000
--- a/test/regress/regress0/arith/integers/arith-int-019.cvc
+++ /dev/null
@@ -1,20 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (25 * x0) + (6 * x1) + (-30 * x2) + (29 * x3) = -5 ;
-ASSERT (14 * x0) + (16 * x1) + (24 * x2) + (-7 * x3) <= 31 ;
-ASSERT  (1 * x0) + (20 * x1) + (14 * x2) + (5 * x3) >= 3 ;
-ASSERT  (-5 * x0) + (24 * x1) + (-21 * x2) + (-13 * x3) >= -12 ;
-ASSERT  (9 * x0) + (-16 * x1) + (23 * x2) + (-11 * x3) > -5 ;
-ASSERT  (-24 * x0) + (26 * x1) + (19 * x2) + (29 * x3) > -27 ;
-ASSERT  (-30 * x0) + (31 * x1) + (27 * x2) + (-26 * x3) < 23 ;
-ASSERT  (14 * x0) + (1 * x1) + (0 * x2) + (29 * x3) > 21 ;
-ASSERT  (-32 * x0) + (-5 * x1) + (27 * x2) + (31 * x3) <= 23 ;
-ASSERT  (30 * x0) + (10 * x1) + (30 * x2) + (29 * x3) < -28 ;
-ASSERT  (7 * x0) + (-4 * x1) + (-25 * x2) + (0 * x3) > -28 ;
-ASSERT  (3 * x0) + (-19 * x1) + (11 * x2) + (-21 * x3) <= 10 ;
-ASSERT  (-31 * x0) + (21 * x1) + (24 * x2) + (-17 * x3) >= 21 ;
-ASSERT  (-20 * x0) + (19 * x1) + (6 * x2) + (5 * x3) >= -27 ;
-ASSERT  (-8 * x0) + (-27 * x1) + (0 * x2) + (13 * x3) >= 12 ;
-ASSERT  (-21 * x0) + (7 * x1) + (-26 * x2) + (19 * x3) < -10 ;
-ASSERT  (32 * x0) + (-26 * x1) + (-24 * x2) + (14 * x3) < 13;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-020.cvc b/test/regress/regress0/arith/integers/arith-int-020.cvc
deleted file mode 100644
index 07a827465..000000000
--- a/test/regress/regress0/arith/integers/arith-int-020.cvc
+++ /dev/null
@@ -1,20 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT (-32 * x0) + (31 * x1) + (-32 * x2) + (-21 * x3) = 5 ;
-ASSERT  (32 * x0) + (5 * x1) + (23 * x2) + (-16 * x3) = 8 ;
-ASSERT  (-17 * x0) + (-17 * x1) + (-22 * x2) + (30 * x3) = -5 ;
-ASSERT  (30 * x0) + (18 * x1) + (26 * x2) + (6 * x3) = -8 ;
-ASSERT  (17 * x0) + (-4 * x1) + (-16 * x2) + (-22 * x3) = 11;
-ASSERT  (0 * x0) + (-26 * x1) + (-15 * x2) + (12 * x3) > 7 ;
-ASSERT  (-30 * x0) + (4 * x1) + (-1 * x2) + (27 * x3) > 11 ;
-ASSERT  (23 * x0) + (12 * x1) + (11 * x2) + (-2 * x3) <= -10 ;
-ASSERT  (-26 * x0) + (-8 * x1) + (7 * x2) + (-18 * x3) > 1 ;
-ASSERT  (3 * x0) + (0 * x1) + (5 * x2) + (24 * x3) > 2 ;
-ASSERT  (-13 * x0) + (15 * x1) + (2 * x2) + (2 * x3) <= 17 ;
-ASSERT  (-24 * x0) + (21 * x1) + (-21 * x2) + (-13 * x3) >= -30 ;
-ASSERT  (7 * x0) + (-11 * x1) + (2 * x2) + (21 * x3) >= -24 ;
-ASSERT  (-15 * x0) + (-1 * x1) + (6 * x2) + (-10 * x3) <= -25 ;
-ASSERT  (-21 * x0) + (8 * x1) + (3 * x2) + (-5 * x3) <= 22 ;
-ASSERT  (-18 * x0) + (-16 * x1) + (21 * x2) + (20 * x3) >= 9 ;
-ASSERT  (-17 * x0) + (-10 * x1) + (-20 * x2) + (16 * x3) >= 3 ;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-022.cvc b/test/regress/regress0/arith/integers/arith-int-022.cvc
deleted file mode 100644
index 584348da4..000000000
--- a/test/regress/regress0/arith/integers/arith-int-022.cvc
+++ /dev/null
@@ -1,4 +0,0 @@
-% EXPECT: invalid
-x0, x1, x2, x3 : INT;
-ASSERT (-24 * x0) + (25 * x1) + (-28 * x2) + (31 * x3) > 18;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-024.cvc b/test/regress/regress0/arith/integers/arith-int-024.cvc
deleted file mode 100644
index f57136dd1..000000000
--- a/test/regress/regress0/arith/integers/arith-int-024.cvc
+++ /dev/null
@@ -1,4 +0,0 @@
-% EXPECT: invalid
-x0, x1, x2, x3 : INT;
-ASSERT (4 * x0) + (8 * x1) + (27 * x2) + (-12 * x3) = -5;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-026.cvc b/test/regress/regress0/arith/integers/arith-int-026.cvc
deleted file mode 100644
index 9e69aa2d1..000000000
--- a/test/regress/regress0/arith/integers/arith-int-026.cvc
+++ /dev/null
@@ -1,21 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (22 * x0) + (25 * x1) + (1 * x2) + (-11 * x3) = 19 ;
-ASSERT  (-10 * x0) + (-27 * x1) + (6 * x2) + (6 * x3) = 28 ;
-ASSERT  (0 * x0) + (-30 * x1) + (-31 * x2) + (12 * x3) = -21 ;
-ASSERT  (29 * x0) + (-6 * x1) + (-12 * x2) + (22 * x3) = -13;
-ASSERT (-7 * x0) + (23 * x1) + (-1 * x2) + (-14 * x3) > -6 ;
-ASSERT  (-27 * x0) + (-31 * x1) + (25 * x2) + (-23 * x3) <= 12 ;
-ASSERT  (-19 * x0) + (6 * x1) + (0 * x2) + (-28 * x3) > -1 ;
-ASSERT  (-12 * x0) + (19 * x1) + (2 * x2) + (-4 * x3) <= 12 ;
-ASSERT  (10 * x0) + (-26 * x1) + (7 * x2) + (-6 * x3) < 12 ;
-ASSERT  (25 * x0) + (-18 * x1) + (-30 * x2) + (-9 * x3) < -2 ;
-ASSERT  (-9 * x0) + (-13 * x1) + (-9 * x2) + (-28 * x3) > 18 ;
-ASSERT  (-12 * x0) + (-28 * x1) + (-21 * x2) + (32 * x3) > 18 ;
-ASSERT  (-23 * x0) + (-26 * x1) + (-21 * x2) + (-24 * x3) <= 3 ;
-ASSERT  (-15 * x0) + (13 * x1) + (-4 * x2) + (-1 * x3) <= 0 ;
-ASSERT  (11 * x0) + (-30 * x1) + (3 * x2) + (-6 * x3) >= 3 ;
-ASSERT  (28 * x0) + (0 * x1) + (0 * x2) + (-22 * x3) >= 9 ;
-ASSERT  (-18 * x0) + (15 * x1) + (-27 * x2) + (31 * x3) < 5 ;
-ASSERT  (10 * x0) + (30 * x1) + (-28 * x2) + (27 * x3) <= -1 ;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-027.cvc b/test/regress/regress0/arith/integers/arith-int-027.cvc
deleted file mode 100644
index b45622fea..000000000
--- a/test/regress/regress0/arith/integers/arith-int-027.cvc
+++ /dev/null
@@ -1,21 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT (17 * x0) + (29 * x1) + (-11 * x2) + (24 * x3) = 13 ;
-ASSERT  (16 * x0) + (-20 * x1) + (-5 * x2) + (12 * x3) = 13 ;
-ASSERT  (-12 * x0) + (-3 * x1) + (-19 * x2) + (4 * x3) = -21 ;
-ASSERT  (-3 * x0) + (10 * x1) + (-6 * x2) + (-31 * x3) = 21 ;
-ASSERT  (10 * x0) + (-14 * x1) + (-12 * x2) + (8 * x3) = 5 ;
-ASSERT  (-4 * x0) + (15 * x1) + (29 * x2) + (2 * x3) = -32 ;
-ASSERT  (-14 * x0) + (-12 * x1) + (16 * x2) + (-14 * x3) = -8 ;
-ASSERT  (-31 * x0) + (14 * x1) + (30 * x2) + (-19 * x3) < -20 ;
-ASSERT  (-5 * x0) + (9 * x1) + (11 * x2) + (-32 * x3) < 3 ;
-ASSERT  (27 * x0) + (-6 * x1) + (0 * x2) + (30 * x3) <= -20 ;
-ASSERT  (-15 * x0) + (-13 * x1) + (-21 * x2) + (-5 * x3) > -8 ;
-ASSERT  (19 * x0) + (31 * x1) + (-16 * x2) + (-8 * x3) > -15 ;
-ASSERT  (9 * x0) + (-9 * x1) + (-4 * x2) + (-16 * x3) < 21 ;
-ASSERT  (24 * x0) + (4 * x1) + (28 * x2) + (-14 * x3) >= -1 ;
-ASSERT  (5 * x0) + (23 * x1) + (-22 * x2) + (-28 * x3) >= -21 ;
-ASSERT  (-31 * x0) + (14 * x1) + (14 * x2) + (-9 * x3) > -32 ;
-ASSERT  (25 * x0) + (-18 * x1) + (21 * x2) + (-17 * x3) < -20 ;
-ASSERT  (1 * x0) + (-29 * x1) + (11 * x2) + (-24 * x3) >= -20;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-028.cvc b/test/regress/regress0/arith/integers/arith-int-028.cvc
deleted file mode 100644
index 61fee4203..000000000
--- a/test/regress/regress0/arith/integers/arith-int-028.cvc
+++ /dev/null
@@ -1,21 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (-31 * x0) + (-5 * x1) + (-28 * x2) + (16 * x3) = 10 ;
-ASSERT  (3 * x0) + (-20 * x1) + (-11 * x2) + (-2 * x3) = 25 ;
-ASSERT  (31 * x0) + (28 * x1) + (-20 * x2) + (15 * x3) = -30;
-ASSERT (15 * x0) + (-16 * x1) + (29 * x2) + (-2 * x3) >= -6 ;
-ASSERT  (-29 * x0) + (-17 * x1) + (-7 * x2) + (11 * x3) < 26 ;
-ASSERT  (-4 * x0) + (14 * x1) + (-29 * x2) + (-7 * x3) >= 28 ;
-ASSERT  (-29 * x0) + (-25 * x1) + (9 * x2) + (-17 * x3) <= -25 ;
-ASSERT  (10 * x0) + (-25 * x1) + (28 * x2) + (8 * x3) > 6 ;
-ASSERT  (10 * x0) + (17 * x1) + (-1 * x2) + (21 * x3) > 24 ;
-ASSERT  (-19 * x0) + (-29 * x1) + (-26 * x2) + (-7 * x3) <= -11 ;
-ASSERT  (30 * x0) + (-7 * x1) + (-8 * x2) + (6 * x3) >= -32 ;
-ASSERT  (-3 * x0) + (24 * x1) + (30 * x2) + (-30 * x3) >= 19 ;
-ASSERT  (-9 * x0) + (5 * x1) + (17 * x2) + (-24 * x3) < -22 ;
-ASSERT  (11 * x0) + (-16 * x1) + (-1 * x2) + (26 * x3) >= 1 ;
-ASSERT  (-13 * x0) + (5 * x1) + (19 * x2) + (4 * x3) >= 27 ;
-ASSERT  (23 * x0) + (4 * x1) + (30 * x2) + (-28 * x3) > 13 ;
-ASSERT  (-8 * x0) + (-24 * x1) + (0 * x2) + (22 * x3) < -6 ;
-ASSERT  (-1 * x0) + (1 * x1) + (-30 * x2) + (12 * x3) >= -26 ;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-029.cvc b/test/regress/regress0/arith/integers/arith-int-029.cvc
deleted file mode 100644
index ee49bbb68..000000000
--- a/test/regress/regress0/arith/integers/arith-int-029.cvc
+++ /dev/null
@@ -1,21 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (-29 * x0) + (-17 * x1) + (11 * x2) + (1 * x3) = -15 ;
-ASSERT  (-13 * x0) + (1 * x1) + (-6 * x2) + (-15 * x3) = 32 ;
-ASSERT  (-19 * x0) + (29 * x1) + (27 * x2) + (-8 * x3) = -4 ;
-ASSERT  (-28 * x0) + (-15 * x1) + (-20 * x2) + (-1 * x3) = -2 ;
-ASSERT  (-2 * x0) + (2 * x1) + (3 * x2) + (-4 * x3) = 16 ;
-ASSERT  (31 * x0) + (22 * x1) + (15 * x2) + (28 * x3) = -19 ;
-ASSERT (-32 * x0) + (2 * x1) + (-8 * x2) + (6 * x3) <= -21 ;
-ASSERT  (-10 * x0) + (23 * x1) + (-9 * x2) + (-26 * x3) < -7 ;
-ASSERT  (-11 * x0) + (-13 * x1) + (-17 * x2) + (-19 * x3) >= -11 ;
-ASSERT  (20 * x0) + (11 * x1) + (-11 * x2) + (-7 * x3) <= 14 ;
-ASSERT  (17 * x0) + (0 * x1) + (-27 * x2) + (-32 * x3) > -1 ;
-ASSERT  (17 * x0) + (-7 * x1) + (18 * x2) + (-29 * x3) > -19 ;
-ASSERT  (12 * x0) + (-14 * x1) + (27 * x2) + (5 * x3) <= 23 ;
-ASSERT  (-2 * x0) + (-6 * x1) + (-6 * x2) + (19 * x3) < -5 ;
-ASSERT  (-3 * x0) + (-10 * x1) + (-30 * x2) + (18 * x3) >= -27 ;
-ASSERT  (-18 * x0) + (-25 * x1) + (3 * x2) + (2 * x3) < -25 ;
-ASSERT  (-19 * x0) + (16 * x1) + (-11 * x2) + (-26 * x3) >= -24 ;
-ASSERT  (-2 * x0) + (21 * x1) + (25 * x2) + (28 * x3) > 10;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-030.cvc b/test/regress/regress0/arith/integers/arith-int-030.cvc
deleted file mode 100644
index 70b6a3785..000000000
--- a/test/regress/regress0/arith/integers/arith-int-030.cvc
+++ /dev/null
@@ -1,21 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT (-13 * x0) + (26 * x1) + (-11 * x2) + (17 * x3) = 17 ;
-ASSERT  (-15 * x0) + (2 * x1) + (-9 * x2) + (17 * x3) = -11 ;
-ASSERT  (8 * x0) + (-24 * x1) + (20 * x2) + (23 * x3) = -23 ;
-ASSERT  (-2 * x0) + (26 * x1) + (4 * x2) + (31 * x3) < 31 ;
-ASSERT  (23 * x0) + (14 * x1) + (-29 * x2) + (-11 * x3) > 14 ;
-ASSERT  (-19 * x0) + (-32 * x1) + (11 * x2) + (31 * x3) < -4 ;
-ASSERT  (3 * x0) + (13 * x1) + (-19 * x2) + (26 * x3) >= -20 ;
-ASSERT  (-6 * x0) + (4 * x1) + (-17 * x2) + (-31 * x3) <= 32 ;
-ASSERT  (-13 * x0) + (32 * x1) + (-18 * x2) + (7 * x3) < -27 ;
-ASSERT  (-19 * x0) + (6 * x1) + (-28 * x2) + (-15 * x3) >= 30 ;
-ASSERT  (30 * x0) + (-24 * x1) + (-10 * x2) + (-4 * x3) >= -9 ;
-ASSERT  (-4 * x0) + (4 * x1) + (-27 * x2) + (-17 * x3) < 12 ;
-ASSERT  (-21 * x0) + (13 * x1) + (31 * x2) + (4 * x3) >= -16 ;
-ASSERT  (-11 * x0) + (30 * x1) + (-20 * x2) + (21 * x3) <= 9 ;
-ASSERT  (-12 * x0) + (23 * x1) + (2 * x2) + (12 * x3) <= 18 ;
-ASSERT  (30 * x0) + (8 * x1) + (4 * x2) + (-5 * x3) <= -24 ;
-ASSERT  (12 * x0) + (22 * x1) + (9 * x2) + (30 * x3) >= -3 ;
-ASSERT  (10 * x0) + (15 * x1) + (25 * x2) + (-5 * x3) <= 4;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-031.cvc b/test/regress/regress0/arith/integers/arith-int-031.cvc
deleted file mode 100644
index 86242f7aa..000000000
--- a/test/regress/regress0/arith/integers/arith-int-031.cvc
+++ /dev/null
@@ -1,19 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (-21 * x0) + (-24 * x1) + (-31 * x2) + (12 * x3) = -10 ;
-ASSERT (-4 * x0) + (22 * x1) + (9 * x2) + (17 * x3) > -20 ;
-ASSERT  (0 * x0) + (22 * x1) + (-11 * x2) + (-22 * x3) <= 26 ;
-ASSERT  (17 * x0) + (-11 * x1) + (32 * x2) + (8 * x3) < 20 ;
-ASSERT  (-30 * x0) + (24 * x1) + (-30 * x2) + (-12 * x3) >= 19 ;
-ASSERT  (-27 * x0) + (5 * x1) + (31 * x2) + (-12 * x3) <= -24 ;
-ASSERT  (-12 * x0) + (-23 * x1) + (-27 * x2) + (29 * x3) >= 13 ;
-ASSERT  (23 * x0) + (-21 * x1) + (24 * x2) + (-17 * x3) >= -20 ;
-ASSERT  (-30 * x0) + (-27 * x1) + (-21 * x2) + (-11 * x3) < -24 ;
-ASSERT  (31 * x0) + (-14 * x1) + (-3 * x2) + (-9 * x3) >= 13 ;
-ASSERT  (8 * x0) + (-2 * x1) + (-13 * x2) + (23 * x3) < 31 ;
-ASSERT  (-1 * x0) + (9 * x1) + (-29 * x2) + (17 * x3) >= -7 ;
-ASSERT  (11 * x0) + (-8 * x1) + (-29 * x2) + (-25 * x3) >= -5 ;
-ASSERT  (19 * x0) + (-32 * x1) + (27 * x2) + (17 * x3) > 17 ;
-ASSERT  (23 * x0) + (-1 * x1) + (-9 * x2) + (-12 * x3) < -25 ;
-ASSERT  (16 * x0) + (-22 * x1) + (3 * x2) + (30 * x3) >= 11;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-032.cvc b/test/regress/regress0/arith/integers/arith-int-032.cvc
deleted file mode 100644
index 1ee4c9844..000000000
--- a/test/regress/regress0/arith/integers/arith-int-032.cvc
+++ /dev/null
@@ -1,19 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT (4 * x0) + (-29 * x1) + (-9 * x2) + (9 * x3) = 8 ;
-ASSERT  (-26 * x0) + (-26 * x1) + (26 * x2) + (-18 * x3) = -20 ;
-ASSERT  (-15 * x0) + (-4 * x1) + (-28 * x2) + (-25 * x3) = 13 ;
-ASSERT  (17 * x0) + (-29 * x1) + (19 * x2) + (-32 * x3) = 26 ;
-ASSERT  (20 * x0) + (-29 * x1) + (-32 * x2) + (28 * x3) = -12 ;
-ASSERT  (17 * x0) + (18 * x1) + (-18 * x2) + (28 * x3) <= 21 ;
-ASSERT  (-28 * x0) + (-17 * x1) + (-15 * x2) + (30 * x3) > -19 ;
-ASSERT  (-6 * x0) + (-25 * x1) + (-22 * x2) + (-13 * x3) < -8 ;
-ASSERT  (12 * x0) + (8 * x1) + (15 * x2) + (-7 * x3) >= 12 ;
-ASSERT  (14 * x0) + (6 * x1) + (3 * x2) + (25 * x3) > 3 ;
-ASSERT  (31 * x0) + (5 * x1) + (26 * x2) + (-1 * x3) < -13 ;
-ASSERT  (31 * x0) + (-27 * x1) + (15 * x2) + (-16 * x3) >= 11 ;
-ASSERT  (20 * x0) + (-20 * x1) + (25 * x2) + (18 * x3) > 18 ;
-ASSERT  (-2 * x0) + (-30 * x1) + (25 * x2) + (-9 * x3) < -9 ;
-ASSERT  (29 * x0) + (-22 * x1) + (-18 * x2) + (-25 * x3) < -2 ;
-ASSERT  (-12 * x0) + (9 * x1) + (17 * x2) + (-16 * x3) > 3;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-033.cvc b/test/regress/regress0/arith/integers/arith-int-033.cvc
deleted file mode 100644
index 599ba4e9a..000000000
--- a/test/regress/regress0/arith/integers/arith-int-033.cvc
+++ /dev/null
@@ -1,19 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (-14 * x0) + (16 * x1) + (-16 * x2) + (0 * x3) = -8 ;
-ASSERT  (3 * x0) + (-20 * x1) + (-12 * x2) + (-3 * x3) = -7 ;
-ASSERT  (-28 * x0) + (31 * x1) + (32 * x2) + (-11 * x3) = 0 ;
-ASSERT  (-20 * x0) + (-11 * x1) + (-27 * x2) + (-6 * x3) = -6 ;
-ASSERT (-7 * x0) + (-7 * x1) + (17 * x2) + (-25 * x3) <= -15 ;
-ASSERT  (8 * x0) + (28 * x1) + (8 * x2) + (7 * x3) > -28 ;
-ASSERT  (25 * x0) + (7 * x1) + (-17 * x2) + (-28 * x3) > 5 ;
-ASSERT  (-19 * x0) + (0 * x1) + (-20 * x2) + (0 * x3) <= 20 ;
-ASSERT  (6 * x0) + (2 * x1) + (29 * x2) + (-19 * x3) <= -3 ;
-ASSERT  (-9 * x0) + (-1 * x1) + (-18 * x2) + (32 * x3) > 11 ;
-ASSERT  (2 * x0) + (21 * x1) + (0 * x2) + (19 * x3) >= 13 ;
-ASSERT  (-26 * x0) + (-6 * x1) + (-23 * x2) + (-8 * x3) < -24 ;
-ASSERT  (-23 * x0) + (22 * x1) + (12 * x2) + (19 * x3) < -27 ;
-ASSERT  (-25 * x0) + (-31 * x1) + (28 * x2) + (14 * x3) < 14 ;
-ASSERT  (-29 * x0) + (1 * x1) + (26 * x2) + (-27 * x3) < -14 ;
-ASSERT  (23 * x0) + (26 * x1) + (-5 * x2) + (6 * x3) <= -19;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-034.cvc b/test/regress/regress0/arith/integers/arith-int-034.cvc
deleted file mode 100644
index ec615a785..000000000
--- a/test/regress/regress0/arith/integers/arith-int-034.cvc
+++ /dev/null
@@ -1,19 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT (-20 * x0) + (-5 * x1) + (30 * x2) + (-24 * x3) = 12 ;
-ASSERT  (24 * x0) + (27 * x1) + (18 * x2) + (-5 * x3) = -16 ;
-ASSERT  (14 * x0) + (11 * x1) + (17 * x2) + (12 * x3) = -5 ;
-ASSERT  (-29 * x0) + (-29 * x1) + (-16 * x2) + (14 * x3) = 10 ;
-ASSERT  (30 * x0) + (13 * x1) + (10 * x2) + (24 * x3) = 3 ;
-ASSERT  (-20 * x0) + (29 * x1) + (28 * x2) + (27 * x3) < -21 ;
-ASSERT  (-31 * x0) + (17 * x1) + (14 * x2) + (-14 * x3) <= 14 ;
-ASSERT  (-23 * x0) + (19 * x1) + (28 * x2) + (-2 * x3) > -28 ;
-ASSERT  (-23 * x0) + (23 * x1) + (19 * x2) + (25 * x3) > 13 ;
-ASSERT  (-32 * x0) + (8 * x1) + (-24 * x2) + (10 * x3) >= -5 ;
-ASSERT  (-30 * x0) + (1 * x1) + (-22 * x2) + (12 * x3) >= -30 ;
-ASSERT  (8 * x0) + (28 * x1) + (17 * x2) + (-7 * x3) < -20 ;
-ASSERT  (-28 * x0) + (-8 * x1) + (27 * x2) + (25 * x3) >= 7 ;
-ASSERT  (-15 * x0) + (26 * x1) + (9 * x2) + (15 * x3) > -12 ;
-ASSERT  (-3 * x0) + (15 * x1) + (-6 * x2) + (-31 * x3) < -24 ;
-ASSERT  (-26 * x0) + (22 * x1) + (16 * x2) + (30 * x3) <= -2;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-035.cvc b/test/regress/regress0/arith/integers/arith-int-035.cvc
deleted file mode 100644
index e7dee2484..000000000
--- a/test/regress/regress0/arith/integers/arith-int-035.cvc
+++ /dev/null
@@ -1,19 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (-3 * x0) + (2 * x1) + (17 * x2) + (-4 * x3) = -17 ;
-ASSERT  (5 * x0) + (-4 * x1) + (22 * x2) + (14 * x3) = -15 ;
-ASSERT (8 * x0) + (23 * x1) + (26 * x2) + (-1 * x3) >= -6 ;
-ASSERT  (-7 * x0) + (4 * x1) + (9 * x2) + (-30 * x3) > -26 ;
-ASSERT  (-14 * x0) + (-31 * x1) + (-18 * x2) + (-5 * x3) <= 6 ;
-ASSERT  (15 * x0) + (26 * x1) + (3 * x2) + (-24 * x3) >= 6 ;
-ASSERT  (13 * x0) + (0 * x1) + (25 * x2) + (-27 * x3) <= -13 ;
-ASSERT  (11 * x0) + (20 * x1) + (-28 * x2) + (8 * x3) < 0 ;
-ASSERT  (-10 * x0) + (13 * x1) + (20 * x2) + (19 * x3) >= 29 ;
-ASSERT  (12 * x0) + (-9 * x1) + (-16 * x2) + (26 * x3) >= -11 ;
-ASSERT  (-2 * x0) + (32 * x1) + (-6 * x2) + (21 * x3) > -31 ;
-ASSERT  (-1 * x0) + (-22 * x1) + (-22 * x2) + (-5 * x3) > 29 ;
-ASSERT  (-8 * x0) + (19 * x1) + (18 * x2) + (32 * x3) >= 12 ;
-ASSERT  (26 * x0) + (16 * x1) + (-25 * x2) + (29 * x3) < 29 ;
-ASSERT  (1 * x0) + (-18 * x1) + (11 * x2) + (-10 * x3) > 10 ;
-ASSERT  (-21 * x0) + (5 * x1) + (-2 * x2) + (-28 * x3) <= -5;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-036.cvc b/test/regress/regress0/arith/integers/arith-int-036.cvc
deleted file mode 100644
index 9594f9586..000000000
--- a/test/regress/regress0/arith/integers/arith-int-036.cvc
+++ /dev/null
@@ -1,16 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT (-9 * x0) + (-21 * x1) + (-25 * x2) + (-1 * x3) = -11 ;
-ASSERT  (31 * x0) + (-18 * x1) + (5 * x2) + (-11 * x3) = 10 ;
-ASSERT  (15 * x0) + (5 * x1) + (5 * x2) + (19 * x3) = -29 ;
-ASSERT  (-9 * x0) + (-23 * x1) + (7 * x2) + (-21 * x3) = 28 ;
-ASSERT  (-24 * x0) + (-22 * x1) + (30 * x2) + (-31 * x3) = -24 ;
-ASSERT  (-29 * x0) + (-21 * x1) + (26 * x2) + (-13 * x3) < -12 ;
-ASSERT  (31 * x0) + (6 * x1) + (-23 * x2) + (30 * x3) < -3 ;
-ASSERT  (21 * x0) + (-7 * x1) + (-4 * x2) + (-25 * x3) <= -17 ;
-ASSERT  (4 * x0) + (24 * x1) + (21 * x2) + (8 * x3) <= 19 ;
-ASSERT  (19 * x0) + (30 * x1) + (14 * x2) + (-23 * x3) > 21 ;
-ASSERT  (30 * x0) + (3 * x1) + (-28 * x2) + (25 * x3) <= -27 ;
-ASSERT  (0 * x0) + (-17 * x1) + (-9 * x2) + (-8 * x3) <= 31 ;
-ASSERT  (-6 * x0) + (-23 * x1) + (21 * x2) + (18 * x3) >= 31;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-037.cvc b/test/regress/regress0/arith/integers/arith-int-037.cvc
deleted file mode 100644
index 4d4422d3f..000000000
--- a/test/regress/regress0/arith/integers/arith-int-037.cvc
+++ /dev/null
@@ -1,16 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (12 * x0) + (14 * x1) + (-22 * x2) + (-6 * x3) = 29 ;
-ASSERT  (-9 * x0) + (14 * x1) + (-23 * x2) + (-31 * x3) = 4 ;
-ASSERT (-10 * x0) + (7 * x1) + (-23 * x2) + (18 * x3) <= -16 ;
-ASSERT  (-12 * x0) + (7 * x1) + (-16 * x2) + (16 * x3) > -31 ;
-ASSERT  (10 * x0) + (11 * x1) + (-17 * x2) + (19 * x3) <= 9 ;
-ASSERT  (-1 * x0) + (-8 * x1) + (-31 * x2) + (16 * x3) > 20 ;
-ASSERT  (-9 * x0) + (18 * x1) + (9 * x2) + (-14 * x3) <= -8 ;
-ASSERT  (-9 * x0) + (27 * x1) + (-22 * x2) + (-16 * x3) > 27 ;
-ASSERT  (-24 * x0) + (-25 * x1) + (-28 * x2) + (29 * x3) <= -9 ;
-ASSERT  (4 * x0) + (13 * x1) + (27 * x2) + (-5 * x3) >= -22 ;
-ASSERT  (-20 * x0) + (-14 * x1) + (21 * x2) + (-28 * x3) <= 17 ;
-ASSERT  (18 * x0) + (-32 * x1) + (-23 * x2) + (-9 * x3) <= -21 ;
-ASSERT  (19 * x0) + (-9 * x1) + (18 * x2) + (-9 * x3) <= -19;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-038.cvc b/test/regress/regress0/arith/integers/arith-int-038.cvc
deleted file mode 100644
index 476133b24..000000000
--- a/test/regress/regress0/arith/integers/arith-int-038.cvc
+++ /dev/null
@@ -1,16 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (-24 * x0) + (25 * x1) + (28 * x2) + (-31 * x3) = -1 ;
-ASSERT (29 * x0) + (17 * x1) + (-2 * x2) + (-6 * x3) <= 4 ;
-ASSERT  (-16 * x0) + (-4 * x1) + (-2 * x2) + (-1 * x3) >= -28 ;
-ASSERT  (4 * x0) + (-26 * x1) + (2 * x2) + (-8 * x3) > 7 ;
-ASSERT  (-17 * x0) + (-6 * x1) + (11 * x2) + (-9 * x3) > -27 ;
-ASSERT  (-25 * x0) + (13 * x1) + (-29 * x2) + (15 * x3) > 2 ;
-ASSERT  (32 * x0) + (-10 * x1) + (15 * x2) + (-25 * x3) < -25 ;
-ASSERT  (-16 * x0) + (-26 * x1) + (16 * x2) + (3 * x3) > -26 ;
-ASSERT  (-14 * x0) + (13 * x1) + (4 * x2) + (-24 * x3) >= -14 ;
-ASSERT  (-5 * x0) + (-21 * x1) + (-7 * x2) + (10 * x3) < 0 ;
-ASSERT  (0 * x0) + (25 * x1) + (31 * x2) + (30 * x3) <= -25 ;
-ASSERT  (-1 * x0) + (2 * x1) + (26 * x2) + (4 * x3) <= 4 ;
-ASSERT  (14 * x0) + (23 * x1) + (18 * x2) + (-18 * x3) > 19;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-039.cvc b/test/regress/regress0/arith/integers/arith-int-039.cvc
deleted file mode 100644
index 9e9235ae8..000000000
--- a/test/regress/regress0/arith/integers/arith-int-039.cvc
+++ /dev/null
@@ -1,16 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT (22 * x0) + (21 * x1) + (-18 * x2) + (21 * x3) = 30 ;
-ASSERT  (-31 * x0) + (22 * x1) + (-20 * x2) + (18 * x3) = -32 ;
-ASSERT  (12 * x0) + (18 * x1) + (29 * x2) + (17 * x3) = 0 ;
-ASSERT  (-8 * x0) + (-10 * x1) + (-27 * x2) + (30 * x3) = 32 ;
-ASSERT  (-21 * x0) + (-2 * x1) + (20 * x2) + (-7 * x3) <= -27 ;
-ASSERT  (-7 * x0) + (-22 * x1) + (8 * x2) + (20 * x3) > -20 ;
-ASSERT  (-10 * x0) + (1 * x1) + (21 * x2) + (-6 * x3) > 10 ;
-ASSERT  (-21 * x0) + (-24 * x1) + (-15 * x2) + (4 * x3) <= 11 ;
-ASSERT  (-32 * x0) + (10 * x1) + (-21 * x2) + (-17 * x3) <= 5 ;
-ASSERT  (7 * x0) + (-19 * x1) + (28 * x2) + (27 * x3) <= 14 ;
-ASSERT  (-32 * x0) + (5 * x1) + (26 * x2) + (-23 * x3) < -23 ;
-ASSERT  (-28 * x0) + (5 * x1) + (22 * x2) + (25 * x3) < 6 ;
-ASSERT  (4 * x0) + (17 * x1) + (11 * x2) + (26 * x3) >= 20;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-040.cvc b/test/regress/regress0/arith/integers/arith-int-040.cvc
deleted file mode 100644
index 68502349f..000000000
--- a/test/regress/regress0/arith/integers/arith-int-040.cvc
+++ /dev/null
@@ -1,16 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT (-1 * x0) + (-24 * x1) + (3 * x2) + (-8 * x3) > -5 ;
-ASSERT  (29 * x0) + (17 * x1) + (-26 * x2) + (20 * x3) > 11 ;
-ASSERT  (18 * x0) + (15 * x1) + (-27 * x2) + (8 * x3) > -11 ;
-ASSERT  (-14 * x0) + (4 * x1) + (27 * x2) + (-9 * x3) < -13 ;
-ASSERT  (24 * x0) + (11 * x1) + (17 * x2) + (-15 * x3) > 5 ;
-ASSERT  (-28 * x0) + (-1 * x1) + (10 * x2) + (-12 * x3) > -14 ;
-ASSERT  (-11 * x0) + (-4 * x1) + (7 * x2) + (-32 * x3) >= 31 ;
-ASSERT  (18 * x0) + (32 * x1) + (-24 * x2) + (-19 * x3) <= -6 ;
-ASSERT  (-15 * x0) + (23 * x1) + (-19 * x2) + (-12 * x3) < 2 ;
-ASSERT  (-21 * x0) + (-8 * x1) + (-30 * x2) + (31 * x3) >= -29 ;
-ASSERT  (5 * x0) + (-24 * x1) + (-21 * x2) + (-10 * x3) >= -8 ;
-ASSERT  (-31 * x0) + (-26 * x1) + (13 * x2) + (-7 * x3) <= -32 ;
-ASSERT  (-18 * x0) + (-11 * x1) + (9 * x2) + (6 * x3) >= 8;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-041.cvc b/test/regress/regress0/arith/integers/arith-int-041.cvc
deleted file mode 100644
index a0c2dc0f9..000000000
--- a/test/regress/regress0/arith/integers/arith-int-041.cvc
+++ /dev/null
@@ -1,9 +0,0 @@
-% EXPECT: invalid
-x0, x1, x2, x3 : INT;
-ASSERT (-31 * x0) + (8 * x1) + (16 * x2) + (5 * x3) >= 1 ;
-ASSERT  (-30 * x0) + (13 * x1) + (-17 * x2) + (13 * x3) < -24 ;
-ASSERT  (-16 * x0) + (-11 * x1) + (-32 * x2) + (-18 * x3) > -29 ;
-ASSERT  (32 * x0) + (-2 * x1) + (27 * x2) + (0 * x3) >= -1 ;
-ASSERT  (12 * x0) + (-17 * x1) + (21 * x2) + (-3 * x3) <= 1 ;
-ASSERT  (-26 * x0) + (29 * x1) + (-13 * x2) + (15 * x3) <= 2;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-043.cvc b/test/regress/regress0/arith/integers/arith-int-043.cvc
deleted file mode 100644
index 7efea85e5..000000000
--- a/test/regress/regress0/arith/integers/arith-int-043.cvc
+++ /dev/null
@@ -1,9 +0,0 @@
-% EXPECT: invalid
-x0, x1, x2, x3 : INT;
-ASSERT  (-21 * x0) + (-23 * x1) + (29 * x2) + (-4 * x3) = 25 ;
-ASSERT (20 * x0) + (-19 * x1) + (3 * x2) + (-1 * x3) <= -8 ;
-ASSERT  (2 * x0) + (-22 * x1) + (-30 * x2) + (-9 * x3) >= 17 ;
-ASSERT  (21 * x0) + (5 * x1) + (-13 * x2) + (0 * x3) <= 18 ;
-ASSERT  (9 * x0) + (-5 * x1) + (30 * x2) + (17 * x3) > -12 ;
-ASSERT  (-2 * x0) + (-27 * x1) + (-5 * x2) + (-23 * x3) < 24;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-044.cvc b/test/regress/regress0/arith/integers/arith-int-044.cvc
deleted file mode 100644
index f933b014b..000000000
--- a/test/regress/regress0/arith/integers/arith-int-044.cvc
+++ /dev/null
@@ -1,10 +0,0 @@
-% EXPECT: valid
-%%%% down from 24, up from 6, up from 39
-x0, x1, x2, x3 : INT;
-ASSERT  (-30 * x0) + (18 * x1) + (17 * x2) + (3 * x3) = 0;
-ASSERT (-25 * x0) + (-16 * x1) + (17 * x2) + (26 * x3) < 23 ;
-ASSERT  (-27 * x0) + (9 * x1) + (7 * x2) + (-24 * x3) < -27 ;
-ASSERT  (14 * x0) + (-27 * x1) + (-10 * x2) + (16 * x3) >= -23 ;
-ASSERT  (14 * x0) + (-27 * x1) + (-3 * x2) + (2 * x3) > -9 ;
-ASSERT  (-19 * x0) + (-9 * x1) + (-3 * x2) + (29 * x3) <= 5 ;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-045.cvc b/test/regress/regress0/arith/integers/arith-int-045.cvc
deleted file mode 100644
index ca1a12ba6..000000000
--- a/test/regress/regress0/arith/integers/arith-int-045.cvc
+++ /dev/null
@@ -1,9 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (-22 * x0) + (-5 * x1) + (-5 * x2) + (25 * x3) = 22 ;
-ASSERT (2 * x0) + (-25 * x1) + (4 * x2) + (-21 * x3) >= 0 ;
-ASSERT  (30 * x0) + (6 * x1) + (-17 * x2) + (-6 * x3) > 8 ;
-ASSERT  (28 * x0) + (-17 * x1) + (26 * x2) + (-1 * x3) >= 17 ;
-ASSERT  (2 * x0) + (-32 * x1) + (30 * x2) + (10 * x3) < -23 ;
-ASSERT  (22 * x0) + (-18 * x1) + (7 * x2) + (28 * x3) < -26;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-046.cvc b/test/regress/regress0/arith/integers/arith-int-046.cvc
deleted file mode 100644
index d4d206c6e..000000000
--- a/test/regress/regress0/arith/integers/arith-int-046.cvc
+++ /dev/null
@@ -1,6 +0,0 @@
-% EXPECT: invalid
-x0, x1, x2, x3 : INT;
-ASSERT (2 * x0) + (-6 * x1) + (14 * x2) + (-24 * x3) > 4 ;
-ASSERT  (-13 * x0) + (-2 * x1) + (-9 * x2) + (-7 * x3) >= 29 ;
-ASSERT  (-11 * x0) + (28 * x1) + (-20 * x2) + (-2 * x3) >= 31;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-047.cvc b/test/regress/regress0/arith/integers/arith-int-047.cvc
deleted file mode 100644
index 0763e5dc3..000000000
--- a/test/regress/regress0/arith/integers/arith-int-047.cvc
+++ /dev/null
@@ -1,6 +0,0 @@
-% EXPECT: invalid
-x0, x1, x2, x3 : INT;
-ASSERT  (-14 * x0) + (27 * x1) + (10 * x2) + (1 * x3) = 10;
-ASSERT (-29 * x0) + (-26 * x1) + (-16 * x2) + (17 * x3) >= 16 ;
-ASSERT  (-3 * x0) + (-2 * x1) + (26 * x2) + (30 * x3) < -27 ;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-048.cvc b/test/regress/regress0/arith/integers/arith-int-048.cvc
deleted file mode 100644
index e7c05332d..000000000
--- a/test/regress/regress0/arith/integers/arith-int-048.cvc
+++ /dev/null
@@ -1,6 +0,0 @@
-% EXPECT: invalid
-x0, x1, x2, x3 : INT;
-ASSERT (-13 * x0) + (-11 * x1) + (-14 * x2) + (21 * x3) = 6 ;
-ASSERT  (7 * x0) + (5 * x1) + (13 * x2) + (21 * x3) <= 27 ;
-ASSERT  (15 * x0) + (-11 * x1) + (-19 * x2) + (-13 * x3) < 5;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-049.cvc b/test/regress/regress0/arith/integers/arith-int-049.cvc
deleted file mode 100644
index 8eabc78a8..000000000
--- a/test/regress/regress0/arith/integers/arith-int-049.cvc
+++ /dev/null
@@ -1,6 +0,0 @@
-% EXPECT: invalid
-x0, x1, x2, x3 : INT;
-ASSERT (-15 * x0) + (-20 * x1) + (-32 * x2) + (-16 * x3) = -19 ;
-ASSERT  (24 * x0) + (23 * x1) + (22 * x2) + (30 * x3) >= 19 ;
-ASSERT  (14 * x0) + (-6 * x1) + (28 * x2) + (-22 * x3) < -16;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-050.cvc b/test/regress/regress0/arith/integers/arith-int-050.cvc
deleted file mode 100644
index f0ba939b7..000000000
--- a/test/regress/regress0/arith/integers/arith-int-050.cvc
+++ /dev/null
@@ -1,6 +0,0 @@
-% EXPECT: invalid
-x0, x1, x2, x3 : INT;
-ASSERT (-20 * x0) + (-19 * x1) + (6 * x2) + (32 * x3) > 16 ;
-ASSERT  (-1 * x0) + (-30 * x1) + (15 * x2) + (7 * x3) < -10 ;
-ASSERT  (-13 * x0) + (24 * x1) + (27 * x2) + (20 * x3) < -5;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-051.cvc b/test/regress/regress0/arith/integers/arith-int-051.cvc
deleted file mode 100644
index 9a2497432..000000000
--- a/test/regress/regress0/arith/integers/arith-int-051.cvc
+++ /dev/null
@@ -1,12 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT (-13 * x0) + (7 * x1) + (-3 * x2) + (9 * x3) = -3 ;
-ASSERT  (17 * x0) + (-22 * x1) + (-15 * x2) + (-21 * x3) >= 9 ;
-ASSERT  (-9 * x0) + (12 * x1) + (23 * x2) + (-24 * x3) >= -30 ;
-ASSERT  (-13 * x0) + (-3 * x1) + (-15 * x2) + (32 * x3) <= 26 ;
-ASSERT  (-27 * x0) + (9 * x1) + (-21 * x2) + (-5 * x3) < -9 ;
-ASSERT  (22 * x0) + (24 * x1) + (-10 * x2) + (-6 * x3) > -1 ;
-ASSERT  (20 * x0) + (-24 * x1) + (29 * x2) + (-21 * x3) <= 29 ;
-ASSERT  (25 * x0) + (11 * x1) + (8 * x2) + (-5 * x3) < -29 ;
-ASSERT  (-12 * x0) + (24 * x1) + (4 * x2) + (27 * x3) < 31;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-052.cvc b/test/regress/regress0/arith/integers/arith-int-052.cvc
deleted file mode 100644
index 83fdc89c8..000000000
--- a/test/regress/regress0/arith/integers/arith-int-052.cvc
+++ /dev/null
@@ -1,12 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (-25 * x0) + (-23 * x1) + (11 * x2) + (10 * x3) = 7 ;
-ASSERT (32 * x0) + (-15 * x1) + (-1 * x2) + (29 * x3) > -25 ;
-ASSERT  (29 * x0) + (-8 * x1) + (22 * x2) + (20 * x3) < 14 ;
-ASSERT  (31 * x0) + (-16 * x1) + (-17 * x2) + (-21 * x3) >= 32 ;
-ASSERT  (-24 * x0) + (-29 * x1) + (9 * x2) + (14 * x3) <= -4 ;
-ASSERT  (13 * x0) + (13 * x1) + (14 * x2) + (5 * x3) <= 25 ;
-ASSERT  (5 * x0) + (12 * x1) + (-5 * x2) + (-9 * x3) >= -28 ;
-ASSERT  (27 * x0) + (19 * x1) + (6 * x2) + (25 * x3) >= -12 ;
-ASSERT  (24 * x0) + (-26 * x1) + (2 * x2) + (0 * x3) >= -25;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-053.cvc b/test/regress/regress0/arith/integers/arith-int-053.cvc
deleted file mode 100644
index fa38fa3da..000000000
--- a/test/regress/regress0/arith/integers/arith-int-053.cvc
+++ /dev/null
@@ -1,12 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (-21 * x0) + (21 * x1) + (23 * x2) + (-20 * x3) = -8 ;
-ASSERT  (-31 * x0) + (-15 * x1) + (-23 * x2) + (29 * x3) = 17;
-ASSERT (28 * x0) + (30 * x1) + (26 * x2) + (2 * x3) < 8 ;
-ASSERT  (17 * x0) + (-11 * x1) + (6 * x2) + (8 * x3) > 11 ;
-ASSERT  (20 * x0) + (-14 * x1) + (16 * x2) + (-3 * x3) < 9 ;
-ASSERT  (-11 * x0) + (2 * x1) + (4 * x2) + (-4 * x3) < -21 ;
-ASSERT  (25 * x0) + (6 * x1) + (-22 * x2) + (8 * x3) <= 7 ;
-ASSERT  (-8 * x0) + (9 * x1) + (-13 * x2) + (27 * x3) >= 0 ;
-ASSERT  (-16 * x0) + (-8 * x1) + (23 * x2) + (25 * x3) >= -13 ;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-054.cvc b/test/regress/regress0/arith/integers/arith-int-054.cvc
deleted file mode 100644
index 9b0066966..000000000
--- a/test/regress/regress0/arith/integers/arith-int-054.cvc
+++ /dev/null
@@ -1,12 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (-31 * x0) + (-29 * x1) + (6 * x2) + (8 * x3) = -10 ;
-ASSERT  (0 * x0) + (8 * x1) + (-20 * x2) + (12 * x3) = 16 ;
-ASSERT  (19 * x0) + (-30 * x1) + (8 * x2) + (-4 * x3) = -17 ;
-ASSERT  (-10 * x0) + (26 * x1) + (11 * x2) + (-31 * x3) = -26;
-ASSERT (-22 * x0) + (15 * x1) + (14 * x2) + (3 * x3) <= -3 ;
-ASSERT  (-15 * x0) + (7 * x1) + (29 * x2) + (16 * x3) >= -6 ;
-ASSERT  (-20 * x0) + (20 * x1) + (31 * x2) + (-24 * x3) <= 14 ;
-ASSERT  (2 * x0) + (31 * x1) + (15 * x2) + (-1 * x3) >= -6 ;
-ASSERT  (-30 * x0) + (-11 * x1) + (26 * x2) + (6 * x3) >= -30 ;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-055.cvc b/test/regress/regress0/arith/integers/arith-int-055.cvc
deleted file mode 100644
index 9729fb565..000000000
--- a/test/regress/regress0/arith/integers/arith-int-055.cvc
+++ /dev/null
@@ -1,12 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (-21 * x0) + (-4 * x1) + (-28 * x2) + (-7 * x3) = -23 ;
-ASSERT  (-7 * x0) + (-21 * x1) + (29 * x2) + (11 * x3) = 29 ;
-ASSERT (-26 * x0) + (-7 * x1) + (-25 * x2) + (-19 * x3) < -4 ;
-ASSERT  (4 * x0) + (14 * x1) + (-16 * x2) + (-32 * x3) >= -16 ;
-ASSERT  (10 * x0) + (-9 * x1) + (20 * x2) + (-27 * x3) <= 31 ;
-ASSERT  (29 * x0) + (16 * x1) + (25 * x2) + (-1 * x3) < -26 ;
-ASSERT  (-29 * x0) + (1 * x1) + (11 * x2) + (32 * x3) < 12 ;
-ASSERT  (-4 * x0) + (-22 * x1) + (0 * x2) + (-29 * x3) < 31 ;
-ASSERT  (12 * x0) + (-8 * x1) + (-17 * x2) + (-8 * x3) > 8;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-056.cvc b/test/regress/regress0/arith/integers/arith-int-056.cvc
deleted file mode 100644
index e1c3ee1da..000000000
--- a/test/regress/regress0/arith/integers/arith-int-056.cvc
+++ /dev/null
@@ -1,15 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (-25 * x0) + (23 * x1) + (29 * x2) + (21 * x3) = -2 ;
-ASSERT  (1 * x0) + (10 * x1) + (-32 * x2) + (-17 * x3) = -2 ;
-ASSERT  (3 * x0) + (-32 * x1) + (-23 * x2) + (13 * x3) = 16 ;
-ASSERT (25 * x0) + (-14 * x1) + (-17 * x2) + (16 * x3) <= 24 ;
-ASSERT  (1 * x0) + (-21 * x1) + (2 * x2) + (2 * x3) >= 15 ;
-ASSERT  (24 * x0) + (9 * x1) + (23 * x2) + (-2 * x3) >= -26 ;
-%%ASSERT  (-25 * x0) + (26 * x1) + (-3 * x2) + (-26 * x3) >= -20 ;
-%%ASSERT  (4 * x0) + (23 * x1) + (-24 * x2) + (7 * x3) <= -18 ;
-%%ASSERT  (-16 * x0) + (-24 * x1) + (26 * x2) + (1 * x3) > 15 ;
-%%%%ASSERT  (1 * x0) + (9 * x1) + (-18 * x2) + (11 * x3) > -3 ;
-%%ASSERT  (-9 * x0) + (20 * x1) + (15 * x2) + (4 * x3) < -17 ;
-%%ASSERT  (25 * x0) + (-22 * x1) + (-26 * x2) + (-21 * x3) > 17;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-057.cvc b/test/regress/regress0/arith/integers/arith-int-057.cvc
deleted file mode 100644
index 4e7b939b4..000000000
--- a/test/regress/regress0/arith/integers/arith-int-057.cvc
+++ /dev/null
@@ -1,15 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (-8 * x0) + (10 * x1) + (-25 * x2) + (-10 * x3) = -18 ;
-ASSERT  (27 * x0) + (5 * x1) + (8 * x2) + (13 * x3) = -8;
-ASSERT (2 * x0) + (22 * x1) + (-13 * x2) + (16 * x3) <= 17 ;
-ASSERT  (18 * x0) + (18 * x1) + (15 * x2) + (-17 * x3) < -13 ;
-ASSERT  (-24 * x0) + (-8 * x1) + (31 * x2) + (-25 * x3) > 23 ;
-ASSERT  (-13 * x0) + (-22 * x1) + (11 * x2) + (28 * x3) >= -6 ;
-ASSERT  (20 * x0) + (-26 * x1) + (-20 * x2) + (-7 * x3) < -5 ;
-ASSERT  (-23 * x0) + (8 * x1) + (28 * x2) + (17 * x3) > 23 ;
-ASSERT  (32 * x0) + (31 * x1) + (-26 * x2) + (29 * x3) <= -1 ;
-ASSERT  (-2 * x0) + (-11 * x1) + (15 * x2) + (17 * x3) > -27 ;
-ASSERT  (-13 * x0) + (-30 * x1) + (-25 * x2) + (-18 * x3) <= 24 ;
-ASSERT  (23 * x0) + (-4 * x1) + (26 * x2) + (32 * x3) >= 23 ;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-058.cvc b/test/regress/regress0/arith/integers/arith-int-058.cvc
deleted file mode 100644
index 4d964f1c6..000000000
--- a/test/regress/regress0/arith/integers/arith-int-058.cvc
+++ /dev/null
@@ -1,15 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (-15 * x0) + (3 * x1) + (31 * x2) + (2 * x3) = -18 ;
-ASSERT  (-25 * x0) + (-10 * x1) + (15 * x2) + (29 * x3) = -18 ;
-ASSERT  (-17 * x0) + (31 * x1) + (-11 * x2) + (-29 * x3) = -2 ;
-ASSERT (18 * x0) + (11 * x1) + (13 * x2) + (-16 * x3) >= 5 ;
-ASSERT  (-28 * x0) + (-30 * x1) + (13 * x2) + (-20 * x3) <= -19 ;
-ASSERT  (-10 * x0) + (-20 * x1) + (-13 * x2) + (-4 * x3) < 3 ;
-ASSERT  (-30 * x0) + (-5 * x1) + (-15 * x2) + (-1 * x3) > 19 ;
-ASSERT  (-8 * x0) + (28 * x1) + (17 * x2) + (23 * x3) <= 30 ;
-ASSERT  (-28 * x0) + (-16 * x1) + (-19 * x2) + (-23 * x3) >= 9 ;
-ASSERT  (-8 * x0) + (-15 * x1) + (-19 * x2) + (29 * x3) > -28 ;
-ASSERT  (-27 * x0) + (-12 * x1) + (-2 * x2) + (-29 * x3) >= -5 ;
-ASSERT  (32 * x0) + (-16 * x1) + (29 * x2) + (-12 * x3) < 26;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-059.cvc b/test/regress/regress0/arith/integers/arith-int-059.cvc
deleted file mode 100644
index 841d9c8e1..000000000
--- a/test/regress/regress0/arith/integers/arith-int-059.cvc
+++ /dev/null
@@ -1,15 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT (31 * x0) + (-19 * x1) + (0 * x2) + (32 * x3) = -14 ;
-ASSERT  (12 * x0) + (-25 * x1) + (-32 * x2) + (-18 * x3) = 18 ;
-ASSERT  (-6 * x0) + (-21 * x1) + (-11 * x2) + (-10 * x3) = 11 ;
-ASSERT  (22 * x0) + (-7 * x1) + (2 * x2) + (-16 * x3) = 16;
-ASSERT  (15 * x0) + (-14 * x1) + (29 * x2) + (24 * x3) >= 14 ;
-ASSERT  (-26 * x0) + (-6 * x1) + (-13 * x2) + (25 * x3) < -4 ;
-ASSERT  (-24 * x0) + (-22 * x1) + (-21 * x2) + (-6 * x3) > -21 ;
-ASSERT  (17 * x0) + (-21 * x1) + (25 * x2) + (-13 * x3) >= 16 ;
-ASSERT  (14 * x0) + (-25 * x1) + (-22 * x2) + (18 * x3) >= -30 ;
-ASSERT  (-27 * x0) + (8 * x1) + (-12 * x2) + (26 * x3) >= 15 ;
-ASSERT  (-31 * x0) + (2 * x1) + (19 * x2) + (-11 * x3) >= -27 ;
-ASSERT  (32 * x0) + (-29 * x1) + (9 * x2) + (-4 * x3) < 3 ;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-060.cvc b/test/regress/regress0/arith/integers/arith-int-060.cvc
deleted file mode 100644
index 227cb49b1..000000000
--- a/test/regress/regress0/arith/integers/arith-int-060.cvc
+++ /dev/null
@@ -1,15 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (3 * x0) + (8 * x1) + (26 * x2) + (-17 * x3) = 31 ;
-ASSERT  (-14 * x0) + (25 * x1) + (4 * x2) + (-8 * x3) = 15 ;
-ASSERT  (-21 * x0) + (26 * x1) + (-10 * x2) + (-28 * x3) = 5;
-ASSERT (2 * x0) + (-15 * x1) + (12 * x2) + (22 * x3) < -22 ;
-ASSERT  (10 * x0) + (24 * x1) + (11 * x2) + (-17 * x3) < 17 ;
-ASSERT  (26 * x0) + (32 * x1) + (-17 * x2) + (-3 * x3) >= 20 ;
-ASSERT  (11 * x0) + (26 * x1) + (-23 * x2) + (22 * x3) <= 32 ;
-ASSERT  (-19 * x0) + (22 * x1) + (-21 * x2) + (-28 * x3) <= -5 ;
-ASSERT  (-5 * x0) + (-18 * x1) + (10 * x2) + (-27 * x3) < -26 ;
-ASSERT  (21 * x0) + (-26 * x1) + (25 * x2) + (-13 * x3) < 15 ;
-ASSERT  (22 * x0) + (-2 * x1) + (3 * x2) + (-21 * x3) < 7 ;
-ASSERT  (20 * x0) + (-3 * x1) + (27 * x2) + (-21 * x3) < -18 ;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-061.cvc b/test/regress/regress0/arith/integers/arith-int-061.cvc
deleted file mode 100644
index 4a3cc28d0..000000000
--- a/test/regress/regress0/arith/integers/arith-int-061.cvc
+++ /dev/null
@@ -1,23 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT (16 * x0) + (20 * x1) + (-8 * x2) + (-27 * x3) = -2 ;
-ASSERT  (15 * x0) + (9 * x1) + (-1 * x2) + (4 * x3) = 1 ;
-ASSERT  (-25 * x0) + (19 * x1) + (-26 * x2) + (-20 * x3) = 22 ;
-ASSERT  (-11 * x0) + (28 * x1) + (-16 * x2) + (-15 * x3) = 15 ;
-ASSERT  (-11 * x0) + (-25 * x1) + (-16 * x2) + (25 * x3) = -3 ;
-ASSERT  (-15 * x0) + (-25 * x1) + (11 * x2) + (-24 * x3) = 29 ;
-ASSERT  (-12 * x0) + (-32 * x1) + (-28 * x2) + (-27 * x3) = -7 ;
-ASSERT  (16 * x0) + (5 * x1) + (10 * x2) + (-18 * x3) = 18 ;
-ASSERT  (-2 * x0) + (5 * x1) + (30 * x2) + (29 * x3) = -29 ;
-ASSERT  (-14 * x0) + (-20 * x1) + (21 * x2) + (1 * x3) = 31 ;
-ASSERT  (15 * x0) + (-7 * x1) + (-3 * x2) + (-24 * x3) > 3 ;
-ASSERT  (-16 * x0) + (-30 * x1) + (-31 * x2) + (16 * x3) > -9 ;
-ASSERT  (12 * x0) + (27 * x1) + (-11 * x2) + (-10 * x3) > -6 ;
-ASSERT  (0 * x0) + (29 * x1) + (32 * x2) + (9 * x3) <= -24 ;
-ASSERT  (11 * x0) + (-7 * x1) + (24 * x2) + (-30 * x3) >= 8 ;
-ASSERT  (1 * x0) + (25 * x1) + (29 * x2) + (15 * x3) <= -13 ;
-ASSERT  (-25 * x0) + (31 * x1) + (-32 * x2) + (-1 * x3) <= 9 ;
-ASSERT  (-22 * x0) + (-23 * x1) + (-4 * x2) + (-12 * x3) > 32 ;
-ASSERT  (22 * x0) + (-1 * x1) + (27 * x2) + (-22 * x3) > 20 ;
-ASSERT  (-20 * x0) + (-21 * x1) + (1 * x2) + (-32 * x3) >= 16;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-062.cvc b/test/regress/regress0/arith/integers/arith-int-062.cvc
deleted file mode 100644
index f9a3156a2..000000000
--- a/test/regress/regress0/arith/integers/arith-int-062.cvc
+++ /dev/null
@@ -1,23 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT (11 * x0) + (22 * x1) + (19 * x2) + (-8 * x3) = 12 ;
-ASSERT  (23 * x0) + (-6 * x1) + (-5 * x2) + (26 * x3) = 0 ;
-ASSERT  (1 * x0) + (-23 * x1) + (22 * x2) + (10 * x3) = -18 ;
-ASSERT  (-13 * x0) + (-17 * x1) + (-8 * x2) + (-16 * x3) = 16 ;
-ASSERT  (24 * x0) + (-4 * x1) + (-26 * x2) + (9 * x3) = -26 ;
-ASSERT  (24 * x0) + (23 * x1) + (17 * x2) + (-10 * x3) >= 5 ;
-ASSERT  (-12 * x0) + (-12 * x1) + (-13 * x2) + (-22 * x3) <= 9 ;
-ASSERT  (-7 * x0) + (17 * x1) + (-24 * x2) + (-8 * x3) <= -31 ;
-ASSERT  (-28 * x0) + (-10 * x1) + (3 * x2) + (-23 * x3) <= -19 ;
-ASSERT  (12 * x0) + (-16 * x1) + (27 * x2) + (-28 * x3) > -27 ;
-ASSERT  (-15 * x0) + (-24 * x1) + (12 * x2) + (21 * x3) < 21 ;
-ASSERT  (6 * x0) + (31 * x1) + (5 * x2) + (-5 * x3) >= 10 ;
-ASSERT  (-7 * x0) + (-20 * x1) + (-9 * x2) + (-32 * x3) >= 7 ;
-ASSERT  (3 * x0) + (24 * x1) + (-18 * x2) + (-9 * x3) < -30 ;
-ASSERT  (-14 * x0) + (22 * x1) + (22 * x2) + (-22 * x3) < -16 ;
-ASSERT  (1 * x0) + (4 * x1) + (10 * x2) + (28 * x3) > -31 ;
-ASSERT  (-14 * x0) + (-15 * x1) + (-8 * x2) + (2 * x3) >= 3 ;
-ASSERT  (13 * x0) + (-27 * x1) + (-14 * x2) + (28 * x3) < 28 ;
-ASSERT  (26 * x0) + (-12 * x1) + (-21 * x2) + (-16 * x3) < -26 ;
-ASSERT  (-6 * x0) + (-19 * x1) + (-8 * x2) + (18 * x3) >= 27;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-063.cvc b/test/regress/regress0/arith/integers/arith-int-063.cvc
deleted file mode 100644
index d88104688..000000000
--- a/test/regress/regress0/arith/integers/arith-int-063.cvc
+++ /dev/null
@@ -1,23 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (20 * x0) + (-10 * x1) + (-10 * x2) + (26 * x3) = -9 ;
-ASSERT  (10 * x0) + (0 * x1) + (16 * x2) + (7 * x3) = 7 ;
-ASSERT  (6 * x0) + (-10 * x1) + (4 * x2) + (23 * x3) = 10;
-ASSERT (-8 * x0) + (12 * x1) + (-19 * x2) + (-17 * x3) >= 21 ;
-ASSERT  (-20 * x0) + (6 * x1) + (-12 * x2) + (-31 * x3) > -31 ;
-ASSERT  (32 * x0) + (-6 * x1) + (-14 * x2) + (-32 * x3) >= 13 ;
-ASSERT  (29 * x0) + (12 * x1) + (17 * x2) + (9 * x3) > 32 ;
-ASSERT  (1 * x0) + (21 * x1) + (12 * x2) + (23 * x3) <= 14 ;
-ASSERT  (-12 * x0) + (-9 * x1) + (26 * x2) + (26 * x3) < 3 ;
-ASSERT  (-8 * x0) + (27 * x1) + (29 * x2) + (-10 * x3) >= 22 ;
-ASSERT  (-15 * x0) + (29 * x1) + (29 * x2) + (17 * x3) <= 22 ;
-ASSERT  (-4 * x0) + (0 * x1) + (1 * x2) + (-24 * x3) < -24 ;
-ASSERT  (25 * x0) + (17 * x1) + (31 * x2) + (-28 * x3) >= -12 ;
-ASSERT  (32 * x0) + (8 * x1) + (-3 * x2) + (19 * x3) > -19 ;
-ASSERT  (-27 * x0) + (-18 * x1) + (18 * x2) + (22 * x3) > 26 ;
-ASSERT  (29 * x0) + (29 * x1) + (4 * x2) + (-6 * x3) >= 8 ;
-ASSERT  (-12 * x0) + (17 * x1) + (-22 * x2) + (1 * x3) < 30 ;
-ASSERT  (-24 * x0) + (16 * x1) + (-26 * x2) + (-27 * x3) > 29 ;
-ASSERT  (9 * x0) + (15 * x1) + (-28 * x2) + (0 * x3) > -2 ;
-ASSERT  (-5 * x0) + (30 * x1) + (-21 * x2) + (-6 * x3) >= 12 ;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-064.cvc b/test/regress/regress0/arith/integers/arith-int-064.cvc
deleted file mode 100644
index 21ca822e1..000000000
--- a/test/regress/regress0/arith/integers/arith-int-064.cvc
+++ /dev/null
@@ -1,23 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (-8 * x0) + (-11 * x1) + (27 * x2) + (4 * x3) = 6 ;
-ASSERT  (32 * x0) + (27 * x1) + (31 * x2) + (-13 * x3) = 21 ;
-ASSERT (-6 * x0) + (17 * x1) + (-20 * x2) + (11 * x3) < -5 ;
-ASSERT  (15 * x0) + (-15 * x1) + (-13 * x2) + (-21 * x3) < 27 ;
-ASSERT  (-24 * x0) + (-22 * x1) + (5 * x2) + (22 * x3) < 23 ;
-ASSERT  (27 * x0) + (23 * x1) + (-19 * x2) + (20 * x3) >= -8 ;
-ASSERT  (27 * x0) + (-27 * x1) + (23 * x2) + (17 * x3) < -5 ;
-ASSERT  (-11 * x0) + (-8 * x1) + (14 * x2) + (-10 * x3) <= 1 ;
-ASSERT  (12 * x0) + (7 * x1) + (-26 * x2) + (-28 * x3) >= -7 ;
-ASSERT  (25 * x0) + (-25 * x1) + (5 * x2) + (32 * x3) > -10 ;
-ASSERT  (-29 * x0) + (-24 * x1) + (26 * x2) + (-31 * x3) < -16 ;
-ASSERT  (10 * x0) + (29 * x1) + (9 * x2) + (23 * x3) < 13 ;
-ASSERT  (-26 * x0) + (6 * x1) + (-14 * x2) + (-21 * x3) > -15 ;
-ASSERT  (24 * x0) + (-14 * x1) + (-32 * x2) + (22 * x3) > -31 ;
-ASSERT  (-31 * x0) + (-16 * x1) + (-9 * x2) + (-32 * x3) > -19 ;
-ASSERT  (-1 * x0) + (17 * x1) + (26 * x2) + (-16 * x3) > -27 ;
-ASSERT  (10 * x0) + (-11 * x1) + (-20 * x2) + (-25 * x3) < -30 ;
-ASSERT  (-16 * x0) + (9 * x1) + (-10 * x2) + (-8 * x3) < -9 ;
-ASSERT  (19 * x0) + (10 * x1) + (18 * x2) + (7 * x3) < -30 ;
-ASSERT  (20 * x0) + (-25 * x1) + (-18 * x2) + (-2 * x3) <= -11;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-065.cvc b/test/regress/regress0/arith/integers/arith-int-065.cvc
deleted file mode 100644
index b1b9e1b51..000000000
--- a/test/regress/regress0/arith/integers/arith-int-065.cvc
+++ /dev/null
@@ -1,23 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT (3 * x0) + (-21 * x1) + (-3 * x2) + (6 * x3) = -18 ;
-ASSERT  (-15 * x0) + (19 * x1) + (-21 * x2) + (-29 * x3) = -8 ;
-ASSERT  (32 * x0) + (-2 * x1) + (14 * x2) + (5 * x3) = -15 ;
-ASSERT  (-16 * x0) + (22 * x1) + (0 * x2) + (-26 * x3) >= 18 ;
-ASSERT  (11 * x0) + (-19 * x1) + (10 * x2) + (26 * x3) >= -20 ;
-ASSERT  (-25 * x0) + (-24 * x1) + (12 * x2) + (4 * x3) >= -14 ;
-ASSERT  (-20 * x0) + (-10 * x1) + (21 * x2) + (23 * x3) >= 28 ;
-ASSERT  (6 * x0) + (-31 * x1) + (11 * x2) + (-3 * x3) <= 4 ;
-ASSERT  (2 * x0) + (11 * x1) + (-13 * x2) + (-16 * x3) >= 23 ;
-ASSERT  (-6 * x0) + (-24 * x1) + (24 * x2) + (7 * x3) <= 14 ;
-ASSERT  (0 * x0) + (3 * x1) + (-14 * x2) + (-19 * x3) >= 15 ;
-ASSERT  (-31 * x0) + (-27 * x1) + (-32 * x2) + (-28 * x3) <= -15 ;
-ASSERT  (-11 * x0) + (3 * x1) + (-6 * x2) + (-5 * x3) < -31 ;
-ASSERT  (-2 * x0) + (-21 * x1) + (2 * x2) + (28 * x3) >= 7 ;
-ASSERT  (-12 * x0) + (19 * x1) + (-17 * x2) + (-14 * x3) > 11 ;
-ASSERT  (32 * x0) + (-29 * x1) + (-12 * x2) + (24 * x3) < -9 ;
-ASSERT  (-19 * x0) + (1 * x1) + (8 * x2) + (4 * x3) <= 3 ;
-ASSERT  (13 * x0) + (17 * x1) + (22 * x2) + (13 * x3) <= -25 ;
-ASSERT  (2 * x0) + (-4 * x1) + (-3 * x2) + (19 * x3) <= -12 ;
-ASSERT  (-16 * x0) + (-20 * x1) + (21 * x2) + (-30 * x3) <= 2;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-066.cvc b/test/regress/regress0/arith/integers/arith-int-066.cvc
deleted file mode 100644
index 9532b4198..000000000
--- a/test/regress/regress0/arith/integers/arith-int-066.cvc
+++ /dev/null
@@ -1,17 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (28 * x0) + (-8 * x1) + (32 * x2) + (-3 * x3) = -18 ;
-ASSERT (-4 * x0) + (5 * x1) + (-2 * x2) + (-17 * x3) > 19 ;
-ASSERT  (-9 * x0) + (14 * x1) + (-16 * x2) + (15 * x3) > 18 ;
-ASSERT  (-28 * x0) + (-25 * x1) + (-10 * x2) + (-10 * x3) < -10 ;
-ASSERT  (19 * x0) + (-4 * x1) + (11 * x2) + (22 * x3) <= -6 ;
-ASSERT  (2 * x0) + (32 * x1) + (-16 * x2) + (-29 * x3) > 6 ;
-ASSERT  (-7 * x0) + (9 * x1) + (-25 * x2) + (6 * x3) <= 5 ;
-ASSERT  (4 * x0) + (-18 * x1) + (-21 * x2) + (12 * x3) >= -32 ;
-ASSERT  (-27 * x0) + (11 * x1) + (-3 * x2) + (-6 * x3) < 1 ;
-ASSERT  (10 * x0) + (13 * x1) + (11 * x2) + (28 * x3) > -15 ;
-ASSERT  (-1 * x0) + (-4 * x1) + (30 * x2) + (6 * x3) > 9 ;
-ASSERT  (19 * x0) + (14 * x1) + (17 * x2) + (-8 * x3) <= -21 ;
-ASSERT  (-15 * x0) + (20 * x1) + (9 * x2) + (19 * x3) <= 4 ;
-ASSERT  (-9 * x0) + (-22 * x1) + (29 * x2) + (-6 * x3) <= 3;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-067.cvc b/test/regress/regress0/arith/integers/arith-int-067.cvc
deleted file mode 100644
index 5d7b52e69..000000000
--- a/test/regress/regress0/arith/integers/arith-int-067.cvc
+++ /dev/null
@@ -1,17 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT (-25 * x0) + (-32 * x1) + (-29 * x2) + (-9 * x3) = -2 ;
-ASSERT  (22 * x0) + (10 * x1) + (-18 * x2) + (2 * x3) = -17 ;
-ASSERT  (22 * x0) + (6 * x1) + (-9 * x2) + (27 * x3) = 10 ;
-ASSERT  (1 * x0) + (-26 * x1) + (27 * x2) + (-19 * x3) = 29 ;
-ASSERT  (-13 * x0) + (18 * x1) + (5 * x2) + (22 * x3) < -10 ;
-ASSERT  (5 * x0) + (1 * x1) + (4 * x2) + (-7 * x3) > -12 ;
-ASSERT  (-30 * x0) + (-12 * x1) + (-22 * x2) + (-32 * x3) <= 1 ;
-ASSERT  (-15 * x0) + (19 * x1) + (22 * x2) + (-9 * x3) >= 12 ;
-ASSERT  (-6 * x0) + (-16 * x1) + (30 * x2) + (-13 * x3) <= -9 ;
-ASSERT  (-3 * x0) + (1 * x1) + (10 * x2) + (7 * x3) < -32 ;
-ASSERT  (5 * x0) + (-17 * x1) + (25 * x2) + (-31 * x3) >= -6 ;
-ASSERT  (18 * x0) + (28 * x1) + (-6 * x2) + (10 * x3) <= -31 ;
-ASSERT  (-11 * x0) + (-25 * x1) + (2 * x2) + (-3 * x3) > -3 ;
-ASSERT  (-14 * x0) + (-28 * x1) + (-2 * x2) + (20 * x3) < -25;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-068.cvc b/test/regress/regress0/arith/integers/arith-int-068.cvc
deleted file mode 100644
index 107a21a12..000000000
--- a/test/regress/regress0/arith/integers/arith-int-068.cvc
+++ /dev/null
@@ -1,17 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (-20 * x0) + (-8 * x1) + (5 * x2) + (-7 * x3) = -7 ;
-ASSERT  (-30 * x0) + (24 * x1) + (-4 * x2) + (-30 * x3) = 22 ;
-ASSERT  (31 * x0) + (-32 * x1) + (27 * x2) + (29 * x3) = 23 ;
-ASSERT (8 * x0) + (-19 * x1) + (-7 * x2) + (0 * x3) <= -1 ;
-ASSERT  (-32 * x0) + (30 * x1) + (9 * x2) + (-21 * x3) <= 24 ;
-ASSERT  (15 * x0) + (-4 * x1) + (27 * x2) + (-26 * x3) >= 23 ;
-ASSERT  (7 * x0) + (26 * x1) + (-16 * x2) + (21 * x3) >= 16 ;
-ASSERT  (-24 * x0) + (-17 * x1) + (-9 * x2) + (27 * x3) <= 2 ;
-ASSERT  (29 * x0) + (-7 * x1) + (-8 * x2) + (32 * x3) <= -2 ;
-ASSERT  (32 * x0) + (31 * x1) + (7 * x2) + (-26 * x3) < 1 ;
-ASSERT  (-17 * x0) + (-13 * x1) + (-20 * x2) + (29 * x3) >= -21 ;
-ASSERT  (-32 * x0) + (27 * x1) + (-29 * x2) + (-11 * x3) >= -23 ;
-ASSERT  (29 * x0) + (-4 * x1) + (21 * x2) + (-16 * x3) < 23 ;
-ASSERT  (-15 * x0) + (26 * x1) + (14 * x2) + (13 * x3) <= -29;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-069.cvc b/test/regress/regress0/arith/integers/arith-int-069.cvc
deleted file mode 100644
index 3fab229b0..000000000
--- a/test/regress/regress0/arith/integers/arith-int-069.cvc
+++ /dev/null
@@ -1,17 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (-12 * x0) + (20 * x1) + (2 * x2) + (-24 * x3) = 16 ;
-ASSERT  (-32 * x0) + (27 * x1) + (1 * x2) + (-3 * x3) = -3 ;
-ASSERT (13 * x0) + (27 * x1) + (-17 * x2) + (25 * x3) <= -17 ;
-ASSERT  (27 * x0) + (-30 * x1) + (-16 * x2) + (-3 * x3) > -19 ;
-ASSERT  (-18 * x0) + (-25 * x1) + (-5 * x2) + (3 * x3) < -10 ;
-ASSERT  (9 * x0) + (-32 * x1) + (30 * x2) + (11 * x3) >= 23 ;
-ASSERT  (14 * x0) + (18 * x1) + (-21 * x2) + (-19 * x3) > 9 ;
-ASSERT  (28 * x0) + (2 * x1) + (23 * x2) + (17 * x3) < -6 ;
-ASSERT  (13 * x0) + (-17 * x1) + (-1 * x2) + (29 * x3) < -22 ;
-ASSERT  (-19 * x0) + (22 * x1) + (6 * x2) + (12 * x3) <= -9 ;
-ASSERT  (24 * x0) + (-14 * x1) + (31 * x2) + (12 * x3) > -26 ;
-ASSERT  (-1 * x0) + (24 * x1) + (-1 * x2) + (-31 * x3) > -21 ;
-ASSERT  (-22 * x0) + (28 * x1) + (-27 * x2) + (0 * x3) >= 3 ;
-ASSERT  (-28 * x0) + (29 * x1) + (-3 * x2) + (-22 * x3) >= -23;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-070.cvc b/test/regress/regress0/arith/integers/arith-int-070.cvc
deleted file mode 100644
index cd828da5f..000000000
--- a/test/regress/regress0/arith/integers/arith-int-070.cvc
+++ /dev/null
@@ -1,17 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT (0 * x0) + (-16 * x1) + (14 * x2) + (20 * x3) = 1 ;
-ASSERT  (-27 * x0) + (-5 * x1) + (-22 * x2) + (-24 * x3) = -7 ;
-ASSERT  (-3 * x0) + (-28 * x1) + (-15 * x2) + (7 * x3) = -9 ;
-ASSERT  (27 * x0) + (4 * x1) + (-31 * x2) + (-32 * x3) <= -12 ;
-ASSERT  (16 * x0) + (6 * x1) + (17 * x2) + (22 * x3) <= 5 ;
-ASSERT  (-27 * x0) + (-16 * x1) + (1 * x2) + (23 * x3) >= 9 ;
-ASSERT  (21 * x0) + (-28 * x1) + (-26 * x2) + (-26 * x3) <= -25 ;
-ASSERT  (-12 * x0) + (-32 * x1) + (-22 * x2) + (-20 * x3) > -32 ;
-ASSERT  (26 * x0) + (26 * x1) + (30 * x2) + (4 * x3) < 21 ;
-ASSERT  (-22 * x0) + (-21 * x1) + (0 * x2) + (30 * x3) < 13 ;
-ASSERT  (13 * x0) + (17 * x1) + (-7 * x2) + (-31 * x3) < 29 ;
-ASSERT  (-12 * x0) + (30 * x1) + (1 * x2) + (4 * x3) > -24 ;
-ASSERT  (-23 * x0) + (-2 * x1) + (29 * x2) + (11 * x3) > 26 ;
-ASSERT  (-18 * x0) + (-16 * x1) + (31 * x2) + (14 * x3) <= 32;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-071.cvc b/test/regress/regress0/arith/integers/arith-int-071.cvc
deleted file mode 100644
index ce5336476..000000000
--- a/test/regress/regress0/arith/integers/arith-int-071.cvc
+++ /dev/null
@@ -1,18 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (22 * x0) + (3 * x1) + (-17 * x2) + (-21 * x3) = -9 ;
-ASSERT  (-12 * x0) + (-9 * x1) + (-9 * x2) + (-16 * x3) = -12 ;
-ASSERT (-5 * x0) + (16 * x1) + (-15 * x2) + (-13 * x3) > 27 ;
-ASSERT  (16 * x0) + (-4 * x1) + (17 * x2) + (-24 * x3) > -9 ;
-ASSERT  (3 * x0) + (13 * x1) + (-15 * x2) + (-13 * x3) <= -32 ;
-ASSERT  (-18 * x0) + (21 * x1) + (-7 * x2) + (2 * x3) >= 13 ;
-ASSERT  (5 * x0) + (11 * x1) + (-11 * x2) + (-11 * x3) <= 9 ;
-ASSERT  (-9 * x0) + (8 * x1) + (-25 * x2) + (-14 * x3) >= 10 ;
-ASSERT  (17 * x0) + (-29 * x1) + (23 * x2) + (7 * x3) <= -31 ;
-ASSERT  (20 * x0) + (0 * x1) + (1 * x2) + (-6 * x3) <= 23 ;
-ASSERT  (-25 * x0) + (0 * x1) + (-32 * x2) + (17 * x3) > -14 ;
-ASSERT  (6 * x0) + (-30 * x1) + (-11 * x2) + (29 * x3) < 28 ;
-ASSERT  (-19 * x0) + (23 * x1) + (-19 * x2) + (3 * x3) >= 7 ;
-ASSERT  (29 * x0) + (21 * x1) + (-28 * x2) + (-28 * x3) < 22 ;
-ASSERT  (28 * x0) + (25 * x1) + (2 * x2) + (-23 * x3) <= -28;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-072.cvc b/test/regress/regress0/arith/integers/arith-int-072.cvc
deleted file mode 100644
index 10222deae..000000000
--- a/test/regress/regress0/arith/integers/arith-int-072.cvc
+++ /dev/null
@@ -1,18 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT (1 * x0) + (-1 * x1) + (-16 * x2) + (6 * x3) = -11 ;
-ASSERT  (-17 * x0) + (17 * x1) + (-15 * x2) + (24 * x3) = -21 ;
-ASSERT  (-31 * x0) + (28 * x1) + (-4 * x2) + (31 * x3) = -32 ;
-ASSERT  (1 * x0) + (-12 * x1) + (29 * x2) + (-6 * x3) = 25 ;
-ASSERT  (2 * x0) + (7 * x1) + (-24 * x2) + (28 * x3) >= -12 ;
-ASSERT  (-23 * x0) + (-22 * x1) + (14 * x2) + (-24 * x3) >= 22 ;
-ASSERT  (23 * x0) + (-21 * x1) + (22 * x2) + (26 * x3) >= -4 ;
-ASSERT  (25 * x0) + (27 * x1) + (14 * x2) + (5 * x3) <= 9 ;
-ASSERT  (16 * x0) + (2 * x1) + (24 * x2) + (-11 * x3) < -32 ;
-ASSERT  (0 * x0) + (23 * x1) + (29 * x2) + (-15 * x3) < -14 ;
-ASSERT  (5 * x0) + (-12 * x1) + (-7 * x2) + (29 * x3) <= -16 ;
-ASSERT  (25 * x0) + (26 * x1) + (14 * x2) + (-2 * x3) <= 13 ;
-ASSERT  (-30 * x0) + (19 * x1) + (24 * x2) + (7 * x3) < -23 ;
-ASSERT  (24 * x0) + (28 * x1) + (12 * x2) + (-25 * x3) >= -22 ;
-ASSERT  (27 * x0) + (-13 * x1) + (-16 * x2) + (-3 * x3) < 24;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-073.cvc b/test/regress/regress0/arith/integers/arith-int-073.cvc
deleted file mode 100644
index 98e74be8f..000000000
--- a/test/regress/regress0/arith/integers/arith-int-073.cvc
+++ /dev/null
@@ -1,18 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT (8 * x0) + (-14 * x1) + (0 * x2) + (7 * x3) = 26 ;
-ASSERT  (-7 * x0) + (-14 * x1) + (15 * x2) + (31 * x3) = 8 ;
-ASSERT  (-4 * x0) + (16 * x1) + (3 * x2) + (-1 * x3) = 12 ;
-ASSERT  (2 * x0) + (24 * x1) + (-7 * x2) + (4 * x3) = 24 ;
-ASSERT  (26 * x0) + (-8 * x1) + (28 * x2) + (9 * x3) = -12 ;
-ASSERT  (19 * x0) + (-3 * x1) + (25 * x2) + (10 * x3) <= -19 ;
-ASSERT  (-13 * x0) + (-16 * x1) + (-14 * x2) + (8 * x3) <= 25 ;
-ASSERT  (-21 * x0) + (-2 * x1) + (-20 * x2) + (8 * x3) <= -22 ;
-ASSERT  (16 * x0) + (4 * x1) + (11 * x2) + (-15 * x3) >= -12 ;
-ASSERT  (-24 * x0) + (-8 * x1) + (2 * x2) + (-24 * x3) <= -22 ;
-ASSERT  (29 * x0) + (23 * x1) + (-20 * x2) + (8 * x3) > 21 ;
-ASSERT  (-24 * x0) + (-28 * x1) + (-23 * x2) + (-24 * x3) < -5 ;
-ASSERT  (-1 * x0) + (17 * x1) + (19 * x2) + (-7 * x3) > -5 ;
-ASSERT  (24 * x0) + (3 * x1) + (6 * x2) + (10 * x3) <= 15 ;
-ASSERT  (27 * x0) + (-11 * x1) + (-8 * x2) + (-22 * x3) > -30;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-074.cvc b/test/regress/regress0/arith/integers/arith-int-074.cvc
deleted file mode 100644
index 28cc48186..000000000
--- a/test/regress/regress0/arith/integers/arith-int-074.cvc
+++ /dev/null
@@ -1,18 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (14 * x0) + (-6 * x1) + (-23 * x2) + (-8 * x3) = -18 ;
-ASSERT  (-11 * x0) + (12 * x1) + (8 * x2) + (-1 * x3) = -32 ;
-ASSERT  (24 * x0) + (-10 * x1) + (19 * x2) + (7 * x3) = -30 ;
-ASSERT  (1 * x0) + (-12 * x1) + (-13 * x2) + (-17 * x3) = -28 ;
-ASSERT  (-17 * x0) + (14 * x1) + (7 * x2) + (-18 * x3) = -14 ;
-ASSERT  (7 * x0) + (14 * x1) + (-22 * x2) + (29 * x3) = -6;
-ASSERT (15 * x0) + (-6 * x1) + (3 * x2) + (-19 * x3) > 26 ;
-ASSERT  (-20 * x0) + (-18 * x1) + (-24 * x2) + (5 * x3) >= -1 ;
-ASSERT  (11 * x0) + (-26 * x1) + (-20 * x2) + (-16 * x3) > -7 ;
-ASSERT  (31 * x0) + (-2 * x1) + (6 * x2) + (32 * x3) > -22 ;
-ASSERT  (-25 * x0) + (26 * x1) + (-26 * x2) + (-21 * x3) >= -27 ;
-ASSERT  (-17 * x0) + (-30 * x1) + (14 * x2) + (17 * x3) <= -19 ;
-ASSERT  (-16 * x0) + (4 * x1) + (1 * x2) + (-24 * x3) <= -24 ;
-ASSERT  (-13 * x0) + (29 * x1) + (-27 * x2) + (12 * x3) < -15 ;
-ASSERT  (26 * x0) + (-2 * x1) + (-28 * x2) + (20 * x3) < -20 ;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-075.cvc b/test/regress/regress0/arith/integers/arith-int-075.cvc
deleted file mode 100644
index 3b5131e8b..000000000
--- a/test/regress/regress0/arith/integers/arith-int-075.cvc
+++ /dev/null
@@ -1,18 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (-8 * x0) + (29 * x1) + (15 * x2) + (32 * x3) = 32 ;
-ASSERT  (18 * x0) + (-8 * x1) + (18 * x2) + (22 * x3) = 20 ;
-ASSERT (11 * x0) + (9 * x1) + (32 * x2) + (-15 * x3) > 21 ;
-ASSERT  (12 * x0) + (1 * x1) + (25 * x2) + (-17 * x3) > -13 ;
-ASSERT  (-20 * x0) + (7 * x1) + (13 * x2) + (-15 * x3) <= -3 ;
-ASSERT  (32 * x0) + (4 * x1) + (-30 * x2) + (13 * x3) <= -15 ;
-ASSERT  (-32 * x0) + (-27 * x1) + (20 * x2) + (22 * x3) <= -28 ;
-ASSERT  (28 * x0) + (23 * x1) + (10 * x2) + (20 * x3) < 9 ;
-ASSERT  (-30 * x0) + (-32 * x1) + (-28 * x2) + (-30 * x3) > 17 ;
-ASSERT  (-26 * x0) + (14 * x1) + (30 * x2) + (31 * x3) < 20 ;
-ASSERT  (21 * x0) + (23 * x1) + (-7 * x2) + (-16 * x3) > -19 ;
-ASSERT  (6 * x0) + (0 * x1) + (0 * x2) + (21 * x3) < -1 ;
-ASSERT  (13 * x0) + (29 * x1) + (17 * x2) + (-29 * x3) < -32 ;
-ASSERT  (22 * x0) + (-9 * x1) + (-25 * x2) + (11 * x3) > 29 ;
-ASSERT  (-25 * x0) + (-19 * x1) + (22 * x2) + (-27 * x3) >= 10;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-076.cvc b/test/regress/regress0/arith/integers/arith-int-076.cvc
deleted file mode 100644
index 2c8de7cdf..000000000
--- a/test/regress/regress0/arith/integers/arith-int-076.cvc
+++ /dev/null
@@ -1,11 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (-20 * x0) + (0 * x1) + (4 * x2) + (29 * x3) = -15 ;
-ASSERT  (3 * x0) + (19 * x1) + (21 * x2) + (-32 * x3) = 11 ;
-ASSERT (-23 * x0) + (-8 * x1) + (-12 * x2) + (-14 * x3) >= -25 ;
-ASSERT  (13 * x0) + (30 * x1) + (-12 * x2) + (22 * x3) < -12 ;
-ASSERT  (-12 * x0) + (-17 * x1) + (20 * x2) + (14 * x3) > -26 ;
-ASSERT  (-13 * x0) + (-17 * x1) + (-25 * x2) + (27 * x3) <= -29 ;
-ASSERT  (-8 * x0) + (-31 * x1) + (-3 * x2) + (-22 * x3) > -22 ;
-ASSERT  (30 * x0) + (11 * x1) + (-32 * x2) + (32 * x3) >= 28;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-077.cvc b/test/regress/regress0/arith/integers/arith-int-077.cvc
deleted file mode 100644
index d14da386e..000000000
--- a/test/regress/regress0/arith/integers/arith-int-077.cvc
+++ /dev/null
@@ -1,11 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT (26 * x0) + (-28 * x1) + (27 * x2) + (8 * x3) = 31 ;
-ASSERT  (-32 * x0) + (11 * x1) + (-5 * x2) + (14 * x3) = 2;
-ASSERT  (3 * x0) + (17 * x1) + (30 * x2) + (31 * x3) < 13 ;
-ASSERT  (-17 * x0) + (-21 * x1) + (10 * x2) + (8 * x3) > 23 ;
-ASSERT  (-14 * x0) + (10 * x1) + (11 * x2) + (27 * x3) > -13 ;
-ASSERT  (-14 * x0) + (24 * x1) + (3 * x2) + (-26 * x3) > 1 ;
-ASSERT  (-14 * x0) + (20 * x1) + (-2 * x2) + (-24 * x3) > -26 ;
-ASSERT  (20 * x0) + (-23 * x1) + (30 * x2) + (-30 * x3) < 24 ;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-078.cvc b/test/regress/regress0/arith/integers/arith-int-078.cvc
deleted file mode 100644
index 3197c6524..000000000
--- a/test/regress/regress0/arith/integers/arith-int-078.cvc
+++ /dev/null
@@ -1,11 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (17 * x0) + (-14 * x1) + (13 * x2) + (13 * x3) = -18 ;
-ASSERT  (13 * x0) + (16 * x1) + (-12 * x2) + (19 * x3) = -20 ;
-ASSERT  (-28 * x0) + (20 * x1) + (-9 * x2) + (9 * x3) = -3 ;
-ASSERT  (24 * x0) + (22 * x1) + (24 * x2) + (20 * x3) = 5;
-ASSERT (-1 * x0) + (-12 * x1) + (20 * x2) + (26 * x3) >= 22 ;
-ASSERT  (-23 * x0) + (-20 * x1) + (-8 * x2) + (1 * x3) < 2 ;
-ASSERT  (5 * x0) + (-27 * x1) + (-24 * x2) + (25 * x3) > -21 ;
-ASSERT  (1 * x0) + (-8 * x1) + (-17 * x2) + (-27 * x3) < -24 ;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-080.cvc b/test/regress/regress0/arith/integers/arith-int-080.cvc
deleted file mode 100644
index 8be0f9a73..000000000
--- a/test/regress/regress0/arith/integers/arith-int-080.cvc
+++ /dev/null
@@ -1,11 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (5 * x0) + (-17 * x1) + (15 * x2) + (-15 * x3) = -14 ;
-ASSERT  (-28 * x0) + (-17 * x1) + (-29 * x2) + (-19 * x3) = 14;
-ASSERT (9 * x0) + (-26 * x1) + (-16 * x2) + (-9 * x3) >= 28 ;
-ASSERT  (14 * x0) + (-32 * x1) + (-31 * x2) + (0 * x3) >= 30 ;
-ASSERT  (-31 * x0) + (-27 * x1) + (23 * x2) + (4 * x3) >= 21 ;
-ASSERT  (27 * x0) + (-30 * x1) + (8 * x2) + (13 * x3) < 31 ;
-ASSERT  (-1 * x0) + (-29 * x1) + (23 * x2) + (10 * x3) < -10 ;
-ASSERT  (15 * x0) + (-2 * x1) + (22 * x2) + (-28 * x3) >= 2 ;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-081.cvc b/test/regress/regress0/arith/integers/arith-int-081.cvc
deleted file mode 100644
index 546148376..000000000
--- a/test/regress/regress0/arith/integers/arith-int-081.cvc
+++ /dev/null
@@ -1,7 +0,0 @@
-% EXPECT: invalid
-x0, x1, x2, x3 : INT;
-ASSERT  (-8 * x0) + (31 * x1) + (-23 * x2) + (-8 * x3) = 8;
-ASSERT (24 * x0) + (-2 * x1) + (2 * x2) + (-2 * x3) >= -17 ;
-ASSERT  (-6 * x0) + (17 * x1) + (27 * x2) + (26 * x3) >= -30 ;
-ASSERT  (-19 * x0) + (-15 * x1) + (5 * x2) + (-27 * x3) < -3 ;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-082.cvc b/test/regress/regress0/arith/integers/arith-int-082.cvc
deleted file mode 100644
index 62bd45de7..000000000
--- a/test/regress/regress0/arith/integers/arith-int-082.cvc
+++ /dev/null
@@ -1,7 +0,0 @@
-% EXPECT: invalid
-x0, x1, x2, x3 : INT;
-ASSERT  (-29 * x0) + (-3 * x1) + (27 * x2) + (13 * x3) = -10 ;
-ASSERT (7 * x0) + (-17 * x1) + (11 * x2) + (-30 * x3) <= 6 ;
-ASSERT  (30 * x0) + (17 * x1) + (-3 * x2) + (-31 * x3) > 10 ;
-ASSERT  (2 * x0) + (9 * x1) + (9 * x2) + (-16 * x3) <= 11;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-083.cvc b/test/regress/regress0/arith/integers/arith-int-083.cvc
deleted file mode 100644
index 6b1084353..000000000
--- a/test/regress/regress0/arith/integers/arith-int-083.cvc
+++ /dev/null
@@ -1,7 +0,0 @@
-% EXPECT: invalid
-x0, x1, x2, x3 : INT;
-ASSERT (19 * x0) + (-31 * x1) + (31 * x2) + (28 * x3) = -13 ;
-ASSERT  (1 * x0) + (13 * x1) + (12 * x2) + (-15 * x3) > -8 ;
-ASSERT  (7 * x0) + (17 * x1) + (-20 * x2) + (13 * x3) > -26 ;
-ASSERT  (-17 * x0) + (14 * x1) + (-23 * x2) + (17 * x3) <= -27;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-084.cvc b/test/regress/regress0/arith/integers/arith-int-084.cvc
deleted file mode 100644
index 5f0e17afe..000000000
--- a/test/regress/regress0/arith/integers/arith-int-084.cvc
+++ /dev/null
@@ -1,7 +0,0 @@
-% EXPECT: invalid
-x0, x1, x2, x3 : INT;
-ASSERT (-2 * x0) + (-13 * x1) + (-14 * x2) + (-26 * x3) <= 4 ;
-ASSERT  (-17 * x0) + (-17 * x1) + (21 * x2) + (-4 * x3) < 18 ;
-ASSERT  (-31 * x0) + (23 * x1) + (4 * x2) + (29 * x3) > -6 ;
-ASSERT  (-14 * x0) + (32 * x1) + (-8 * x2) + (-8 * x3) <= -1;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-085.cvc b/test/regress/regress0/arith/integers/arith-int-085.cvc
deleted file mode 100644
index 74dd714e8..000000000
--- a/test/regress/regress0/arith/integers/arith-int-085.cvc
+++ /dev/null
@@ -1,8 +0,0 @@
-% EXPECT: invalid
-%% down from 3
-x0, x1, x2, x3 : INT;
-ASSERT (22 * x0) + (-25 * x1) + (-20 * x2) + (8 * x3) = -6 ;
-ASSERT  (-9 * x0) + (30 * x1) + (-17 * x2) + (29 * x3) >= -15 ;
-ASSERT  (21 * x0) + (29 * x1) + (12 * x2) + (-3 * x3) <= -21 ;
-ASSERT  (-16 * x0) + (-26 * x1) + (11 * x2) + (-12 * x3) >= -14;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-086.cvc b/test/regress/regress0/arith/integers/arith-int-086.cvc
deleted file mode 100644
index 64c212b3c..000000000
--- a/test/regress/regress0/arith/integers/arith-int-086.cvc
+++ /dev/null
@@ -1,13 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (-16 * x0) + (28 * x1) + (2 * x2) + (7 * x3) = -25 ;
-ASSERT  (-20 * x0) + (-24 * x1) + (4 * x2) + (32 * x3) = -22 ;
-ASSERT (19 * x0) + (28 * x1) + (-15 * x2) + (18 * x3) < -9 ;
-ASSERT  (-10 * x0) + (1 * x1) + (-3 * x2) + (6 * x3) <= 1 ;
-ASSERT  (-15 * x0) + (-32 * x1) + (28 * x2) + (6 * x3) >= -8 ;
-ASSERT  (-18 * x0) + (-16 * x1) + (15 * x2) + (-28 * x3) <= 1 ;
-ASSERT  (-20 * x0) + (-31 * x1) + (20 * x2) + (13 * x3) >= -7 ;
-ASSERT  (29 * x0) + (16 * x1) + (7 * x2) + (14 * x3) < 11 ;
-ASSERT  (-10 * x0) + (22 * x1) + (25 * x2) + (24 * x3) >= 5 ;
-ASSERT  (-3 * x0) + (11 * x1) + (27 * x2) + (11 * x3) <= 9;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-087.cvc b/test/regress/regress0/arith/integers/arith-int-087.cvc
deleted file mode 100644
index 312c08917..000000000
--- a/test/regress/regress0/arith/integers/arith-int-087.cvc
+++ /dev/null
@@ -1,13 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (-4 * x0) + (25 * x1) + (-2 * x2) + (-16 * x3) = 27 ;
-ASSERT  (-11 * x0) + (26 * x1) + (18 * x2) + (-18 * x3) = -15 ;
-ASSERT  (-19 * x0) + (-27 * x1) + (-31 * x2) + (15 * x3) = 12;
-ASSERT (10 * x0) + (-10 * x1) + (25 * x2) + (-3 * x3) < -30 ;
-ASSERT  (5 * x0) + (-18 * x1) + (21 * x2) + (-28 * x3) <= -4 ;
-ASSERT  (-6 * x0) + (15 * x1) + (-10 * x2) + (0 * x3) < -20 ;
-ASSERT  (10 * x0) + (23 * x1) + (-20 * x2) + (12 * x3) >= -15 ;
-ASSERT  (-31 * x0) + (-30 * x1) + (12 * x2) + (11 * x3) > 29 ;
-ASSERT  (26 * x0) + (23 * x1) + (28 * x2) + (-5 * x3) > 8 ;
-ASSERT  (6 * x0) + (-29 * x1) + (12 * x2) + (16 * x3) < 27 ;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-088.cvc b/test/regress/regress0/arith/integers/arith-int-088.cvc
deleted file mode 100644
index 5212640be..000000000
--- a/test/regress/regress0/arith/integers/arith-int-088.cvc
+++ /dev/null
@@ -1,13 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (-19 * x0) + (-9 * x1) + (-27 * x2) + (9 * x3) = -1 ;
-ASSERT (-26 * x0) + (11 * x1) + (23 * x2) + (-5 * x3) >= 20 ;
-ASSERT  (7 * x0) + (28 * x1) + (6 * x2) + (-20 * x3) <= -16 ;
-ASSERT  (-15 * x0) + (21 * x1) + (5 * x2) + (-2 * x3) <= 11 ;
-ASSERT  (-5 * x0) + (-16 * x1) + (-16 * x2) + (14 * x3) <= 12 ;
-ASSERT  (3 * x0) + (28 * x1) + (22 * x2) + (-6 * x3) >= -31 ;
-ASSERT  (15 * x0) + (-13 * x1) + (10 * x2) + (21 * x3) <= -25 ;
-ASSERT  (1 * x0) + (-24 * x1) + (-30 * x2) + (25 * x3) > 17 ;
-ASSERT  (12 * x0) + (-3 * x1) + (0 * x2) + (23 * x3) < -12 ;
-ASSERT  (16 * x0) + (-9 * x1) + (1 * x2) + (-15 * x3) < -6;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-089.cvc b/test/regress/regress0/arith/integers/arith-int-089.cvc
deleted file mode 100644
index 7ff36d29e..000000000
--- a/test/regress/regress0/arith/integers/arith-int-089.cvc
+++ /dev/null
@@ -1,13 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT (14 * x0) + (-14 * x1) + (-29 * x2) + (31 * x3) = -15 ;
-ASSERT  (-14 * x0) + (2 * x1) + (26 * x2) + (29 * x3) = 25 ;
-ASSERT  (19 * x0) + (-7 * x1) + (-15 * x2) + (12 * x3) = 32 ;
-ASSERT  (5 * x0) + (32 * x1) + (22 * x2) + (1 * x3) = -13 ;
-ASSERT  (-12 * x0) + (-9 * x1) + (-30 * x2) + (-13 * x3) >= 0 ;
-ASSERT  (-9 * x0) + (7 * x1) + (-24 * x2) + (22 * x3) >= 11 ;
-ASSERT  (28 * x0) + (-5 * x1) + (12 * x2) + (15 * x3) >= 31 ;
-ASSERT  (5 * x0) + (-6 * x1) + (5 * x2) + (-2 * x3) >= -5 ;
-ASSERT  (-14 * x0) + (-17 * x1) + (-29 * x2) + (-8 * x3) < -32 ;
-ASSERT  (20 * x0) + (-19 * x1) + (-27 * x2) + (-20 * x3) >= -2;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-090.cvc b/test/regress/regress0/arith/integers/arith-int-090.cvc
deleted file mode 100644
index 52b9c13f0..000000000
--- a/test/regress/regress0/arith/integers/arith-int-090.cvc
+++ /dev/null
@@ -1,13 +0,0 @@
-% EXPECT: invalid
-x0, x1, x2, x3 : INT;
-ASSERT  (-13 * x0) + (-14 * x1) + (-10 * x2) + (32 * x3) = 11 ;
-ASSERT (28 * x0) + (21 * x1) + (-20 * x2) + (-32 * x3) > -31 ;
-ASSERT  (10 * x0) + (19 * x1) + (-10 * x2) + (-2 * x3) > -31 ;
-ASSERT  (-31 * x0) + (17 * x1) + (15 * x2) + (31 * x3) > -12 ;
-ASSERT  (-17 * x0) + (16 * x1) + (17 * x2) + (-11 * x3) >= 17 ;
-ASSERT  (19 * x0) + (-31 * x1) + (-16 * x2) + (-29 * x3) >= 15 ;
-ASSERT  (24 * x0) + (-32 * x1) + (27 * x2) + (11 * x3) < 26 ;
-ASSERT  (-2 * x0) + (5 * x1) + (-21 * x2) + (24 * x3) >= -17 ;
-ASSERT  (13 * x0) + (11 * x1) + (-28 * x2) + (-5 * x3) > 16 ;
-ASSERT  (-16 * x0) + (17 * x1) + (22 * x2) + (6 * x3) > 21;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-091.cvc b/test/regress/regress0/arith/integers/arith-int-091.cvc
deleted file mode 100644
index 29a19db39..000000000
--- a/test/regress/regress0/arith/integers/arith-int-091.cvc
+++ /dev/null
@@ -1,22 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT (26 * x0) + (32 * x1) + (-26 * x2) + (-26 * x3) = -26 ;
-ASSERT  (30 * x0) + (17 * x1) + (28 * x2) + (-9 * x3) = -21 ;
-ASSERT  (15 * x0) + (9 * x1) + (-13 * x2) + (-21 * x3) = -13 ;
-ASSERT  (-4 * x0) + (16 * x1) + (-5 * x2) + (8 * x3) = -25 ;
-ASSERT  (-11 * x0) + (26 * x1) + (1 * x2) + (23 * x3) < 6 ;
-ASSERT  (-31 * x0) + (-25 * x1) + (1 * x2) + (16 * x3) > -8 ;
-ASSERT  (9 * x0) + (-19 * x1) + (28 * x2) + (15 * x3) < -30 ;
-ASSERT  (32 * x0) + (18 * x1) + (2 * x2) + (31 * x3) > -7 ;
-ASSERT  (24 * x0) + (29 * x1) + (20 * x2) + (-16 * x3) >= 3 ;
-ASSERT  (-1 * x0) + (17 * x1) + (-27 * x2) + (-32 * x3) >= 20 ;
-ASSERT  (26 * x0) + (-23 * x1) + (6 * x2) + (30 * x3) <= 5 ;
-ASSERT  (13 * x0) + (6 * x1) + (-26 * x2) + (1 * x3) > -29 ;
-ASSERT  (26 * x0) + (2 * x1) + (8 * x2) + (-18 * x3) <= 32 ;
-ASSERT  (-21 * x0) + (28 * x1) + (23 * x2) + (4 * x3) <= -31 ;
-ASSERT  (26 * x0) + (2 * x1) + (-28 * x2) + (12 * x3) > 6 ;
-ASSERT  (-20 * x0) + (-22 * x1) + (-16 * x2) + (-21 * x3) <= -1 ;
-ASSERT  (21 * x0) + (-22 * x1) + (19 * x2) + (32 * x3) <= -10 ;
-ASSERT  (3 * x0) + (28 * x1) + (-11 * x2) + (0 * x3) > 0 ;
-ASSERT  (-13 * x0) + (-16 * x1) + (-17 * x2) + (-2 * x3) <= -17;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-092.cvc b/test/regress/regress0/arith/integers/arith-int-092.cvc
deleted file mode 100644
index 51c8a6bc4..000000000
--- a/test/regress/regress0/arith/integers/arith-int-092.cvc
+++ /dev/null
@@ -1,22 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (-20 * x0) + (19 * x1) + (16 * x2) + (-27 * x3) = -22 ;
-ASSERT  (12 * x0) + (-18 * x1) + (-25 * x2) + (-1 * x3) = -22 ;
-ASSERT  (17 * x0) + (11 * x1) + (24 * x2) + (16 * x3) = -3 ;
-ASSERT  (15 * x0) + (-10 * x1) + (-15 * x2) + (25 * x3) = -30 ;
-ASSERT (7 * x0) + (26 * x1) + (-8 * x2) + (-29 * x3) >= -32 ;
-ASSERT  (20 * x0) + (25 * x1) + (-23 * x2) + (13 * x3) >= -30 ;
-ASSERT  (27 * x0) + (-32 * x1) + (-27 * x2) + (13 * x3) >= -12 ;
-ASSERT  (25 * x0) + (-16 * x1) + (32 * x2) + (-6 * x3) >= -30 ;
-ASSERT  (32 * x0) + (-18 * x1) + (-6 * x2) + (-32 * x3) <= -26 ;
-ASSERT  (25 * x0) + (12 * x1) + (25 * x2) + (-14 * x3) > 5 ;
-ASSERT  (-4 * x0) + (-20 * x1) + (12 * x2) + (-30 * x3) >= 13 ;
-ASSERT  (8 * x0) + (18 * x1) + (0 * x2) + (-28 * x3) <= 18 ;
-ASSERT  (-32 * x0) + (-25 * x1) + (23 * x2) + (5 * x3) < 29 ;
-ASSERT  (7 * x0) + (19 * x1) + (2 * x2) + (-31 * x3) > 7 ;
-ASSERT  (24 * x0) + (-17 * x1) + (-31 * x2) + (31 * x3) > 0 ;
-ASSERT  (13 * x0) + (20 * x1) + (-1 * x2) + (17 * x3) > 1 ;
-ASSERT  (17 * x0) + (26 * x1) + (6 * x2) + (29 * x3) >= -10 ;
-ASSERT  (-25 * x0) + (4 * x1) + (-22 * x2) + (14 * x3) < -23 ;
-ASSERT  (24 * x0) + (2 * x1) + (4 * x2) + (2 * x3) < 1;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-093.cvc b/test/regress/regress0/arith/integers/arith-int-093.cvc
deleted file mode 100644
index 7d2123d41..000000000
--- a/test/regress/regress0/arith/integers/arith-int-093.cvc
+++ /dev/null
@@ -1,22 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT  (22 * x0) + (-2 * x1) + (-1 * x2) + (-24 * x3) = 8 ;
-ASSERT  (-6 * x0) + (9 * x1) + (-20 * x2) + (-23 * x3) = 14 ;
-ASSERT (-11 * x0) + (4 * x1) + (24 * x2) + (-6 * x3) <= -23 ;
-ASSERT  (3 * x0) + (5 * x1) + (-5 * x2) + (17 * x3) < -17 ;
-ASSERT  (-10 * x0) + (-20 * x1) + (-16 * x2) + (-29 * x3) >= 6 ;
-ASSERT  (-28 * x0) + (1 * x1) + (-22 * x2) + (-16 * x3) >= 4 ;
-ASSERT  (19 * x0) + (8 * x1) + (-8 * x2) + (-2 * x3) > -23 ;
-ASSERT  (11 * x0) + (17 * x1) + (30 * x2) + (31 * x3) < -32 ;
-ASSERT  (23 * x0) + (30 * x1) + (-12 * x2) + (16 * x3) <= 4 ;
-ASSERT  (-23 * x0) + (-8 * x1) + (21 * x2) + (21 * x3) <= -14 ;
-ASSERT  (13 * x0) + (15 * x1) + (-6 * x2) + (-1 * x3) >= -8 ;
-ASSERT  (-21 * x0) + (18 * x1) + (27 * x2) + (-16 * x3) <= 11 ;
-ASSERT  (30 * x0) + (-6 * x1) + (5 * x2) + (-27 * x3) <= -7 ;
-ASSERT  (0 * x0) + (3 * x1) + (13 * x2) + (28 * x3) > -21 ;
-ASSERT  (-15 * x0) + (-20 * x1) + (10 * x2) + (-23 * x3) < 27 ;
-ASSERT  (24 * x0) + (6 * x1) + (-29 * x2) + (1 * x3) <= -23 ;
-ASSERT  (-24 * x0) + (-14 * x1) + (-15 * x2) + (8 * x3) > -19 ;
-ASSERT  (17 * x0) + (15 * x1) + (8 * x2) + (-31 * x3) >= -16 ;
-ASSERT  (-19 * x0) + (7 * x1) + (-28 * x2) + (20 * x3) < -19;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-094.cvc b/test/regress/regress0/arith/integers/arith-int-094.cvc
deleted file mode 100644
index a5f1aefce..000000000
--- a/test/regress/regress0/arith/integers/arith-int-094.cvc
+++ /dev/null
@@ -1,22 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT (-7 * x0) + (-11 * x1) + (26 * x2) + (10 * x3) = 31 ;
-ASSERT  (-17 * x0) + (-20 * x1) + (24 * x2) + (-9 * x3) = -32 ;
-ASSERT  (5 * x0) + (14 * x1) + (7 * x2) + (-29 * x3) = 31 ;
-ASSERT  (17 * x0) + (8 * x1) + (23 * x2) + (-26 * x3) <= -12 ;
-ASSERT  (7 * x0) + (29 * x1) + (24 * x2) + (4 * x3) <= -21 ;
-ASSERT  (-16 * x0) + (7 * x1) + (7 * x2) + (-29 * x3) < -16 ;
-ASSERT  (-7 * x0) + (-11 * x1) + (-17 * x2) + (22 * x3) > -11 ;
-ASSERT  (-10 * x0) + (-17 * x1) + (21 * x2) + (29 * x3) > -7 ;
-ASSERT  (-28 * x0) + (-26 * x1) + (-24 * x2) + (-21 * x3) < -20 ;
-ASSERT  (-32 * x0) + (26 * x1) + (-8 * x2) + (2 * x3) >= -18 ;
-ASSERT  (18 * x0) + (-23 * x1) + (-26 * x2) + (-24 * x3) > -30 ;
-ASSERT  (-9 * x0) + (31 * x1) + (-26 * x2) + (-22 * x3) < -15 ;
-ASSERT  (27 * x0) + (-1 * x1) + (10 * x2) + (28 * x3) < -20 ;
-ASSERT  (-4 * x0) + (-22 * x1) + (-24 * x2) + (2 * x3) < -13 ;
-ASSERT  (-4 * x0) + (-23 * x1) + (-16 * x2) + (18 * x3) > -20 ;
-ASSERT  (13 * x0) + (-30 * x1) + (-3 * x2) + (-25 * x3) <= 31 ;
-ASSERT  (21 * x0) + (-28 * x1) + (22 * x2) + (19 * x3) > 7 ;
-ASSERT  (-2 * x0) + (-31 * x1) + (24 * x2) + (18 * x3) > 27 ;
-ASSERT  (-14 * x0) + (-5 * x1) + (-22 * x2) + (1 * x3) <= -15;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-095.cvc b/test/regress/regress0/arith/integers/arith-int-095.cvc
deleted file mode 100644
index bc47d6f49..000000000
--- a/test/regress/regress0/arith/integers/arith-int-095.cvc
+++ /dev/null
@@ -1,22 +0,0 @@
-% EXPECT: valid
-x0, x1, x2, x3 : INT;
-ASSERT (2 * x0) + (28 * x1) + (3 * x2) + (8 * x3) > -32 ;
-ASSERT  (-15 * x0) + (21 * x1) + (-11 * x2) + (28 * x3) <= -19 ;
-ASSERT  (32 * x0) + (29 * x1) + (-1 * x2) + (-10 * x3) < -23 ;
-ASSERT  (6 * x0) + (-27 * x1) + (29 * x2) + (28 * x3) < 5 ;
-ASSERT  (-7 * x0) + (-7 * x1) + (-28 * x2) + (32 * x3) <= -32 ;
-ASSERT  (-10 * x0) + (20 * x1) + (-28 * x2) + (-28 * x3) >= -6 ;
-ASSERT  (-13 * x0) + (-9 * x1) + (4 * x2) + (-32 * x3) > -1 ;
-ASSERT  (-21 * x0) + (4 * x1) + (0 * x2) + (-13 * x3) >= -1 ;
-ASSERT  (18 * x0) + (-21 * x1) + (-16 * x2) + (24 * x3) <= -12 ;
-ASSERT  (18 * x0) + (-10 * x1) + (-10 * x2) + (-3 * x3) <= -10 ;
-ASSERT  (-32 * x0) + (9 * x1) + (-24 * x2) + (-19 * x3) < -4 ;
-ASSERT  (12 * x0) + (20 * x1) + (31 * x2) + (-25 * x3) <= 23 ;
-ASSERT  (-22 * x0) + (15 * x1) + (-12 * x2) + (-6 * x3) < 18 ;
-ASSERT  (-25 * x0) + (-8 * x1) + (32 * x2) + (26 * x3) > -20 ;
-ASSERT  (-30 * x0) + (27 * x1) + (0 * x2) + (27 * x3) >= 7 ;
-ASSERT  (-8 * x0) + (-2 * x1) + (-6 * x2) + (-21 * x3) <= 21 ;
-ASSERT  (8 * x0) + (-31 * x1) + (-4 * x2) + (1 * x3) > -11 ;
-ASSERT  (22 * x0) + (-25 * x1) + (-26 * x2) + (10 * x3) < -32 ;
-ASSERT  (-12 * x0) + (-13 * x1) + (15 * x2) + (4 * x3) < 26;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-096.cvc b/test/regress/regress0/arith/integers/arith-int-096.cvc
deleted file mode 100644
index 2f6cf3155..000000000
--- a/test/regress/regress0/arith/integers/arith-int-096.cvc
+++ /dev/null
@@ -1,8 +0,0 @@
-% EXPECT: invalid
-x0, x1, x2, x3 : INT;
-ASSERT (23 * x0) + (24 * x1) + (19 * x2) + (-3 * x3) = -16 ;
-ASSERT  (2 * x0) + (-13 * x1) + (5 * x2) + (-1 * x3) = 28;
-ASSERT  (-6 * x0) + (-5 * x1) + (-2 * x2) + (-9 * x3) > -3 ;
-ASSERT  (30 * x0) + (22 * x1) + (-20 * x2) + (1 * x3) > -12 ;
-ASSERT  (-8 * x0) + (-25 * x1) + (28 * x2) + (-25 * x3) <= -8 ;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-097.cvc b/test/regress/regress0/arith/integers/arith-int-097.cvc
deleted file mode 100644
index b05061192..000000000
--- a/test/regress/regress0/arith/integers/arith-int-097.cvc
+++ /dev/null
@@ -1,8 +0,0 @@
-% EXPECT: invalid
-x0, x1, x2, x3 : INT;
-ASSERT (19 * x0) + (-11 * x1) + (-19 * x2) + (5 * x3) = 26 ;
-ASSERT  (1 * x0) + (-28 * x1) + (-2 * x2) + (15 * x3) < 9 ;
-ASSERT  (-8 * x0) + (-1 * x1) + (-25 * x2) + (-7 * x3) <= -31 ;
-ASSERT  (-7 * x0) + (11 * x1) + (-5 * x2) + (-19 * x3) > 32 ;
-ASSERT  (-22 * x0) + (13 * x1) + (-16 * x2) + (-12 * x3) <= 32;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-098.cvc b/test/regress/regress0/arith/integers/arith-int-098.cvc
deleted file mode 100644
index 08cfd9c9c..000000000
--- a/test/regress/regress0/arith/integers/arith-int-098.cvc
+++ /dev/null
@@ -1,8 +0,0 @@
-% EXPECT: invalid
-x0, x1, x2, x3 : INT;
-ASSERT  (-28 * x0) + (12 * x1) + (-19 * x2) + (10 * x3) = 16 ;
-ASSERT  (19 * x0) + (-25 * x1) + (-8 * x2) + (-32 * x3) = 12;
-ASSERT (18 * x0) + (21 * x1) + (5 * x2) + (-14 * x3) < -12 ;
-ASSERT  (-13 * x0) + (32 * x1) + (-5 * x2) + (-13 * x3) <= -15 ;
-ASSERT  (30 * x0) + (-19 * x1) + (28 * x2) + (-27 * x3) <= -18 ;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-099.cvc b/test/regress/regress0/arith/integers/arith-int-099.cvc
deleted file mode 100644
index 0d74dcb39..000000000
--- a/test/regress/regress0/arith/integers/arith-int-099.cvc
+++ /dev/null
@@ -1,8 +0,0 @@
-% EXPECT: invalid
-x0, x1, x2, x3 : INT;
-ASSERT (-31 * x0) + (-20 * x1) + (-30 * x2) + (-28 * x3) = -24 ;
-ASSERT  (11 * x0) + (-32 * x1) + (-2 * x2) + (8 * x3) <= 16 ;
-ASSERT  (-10 * x0) + (16 * x1) + (31 * x2) + (19 * x3) >= -21 ;
-ASSERT  (-15 * x0) + (18 * x1) + (-16 * x2) + (7 * x3) <= -12 ;
-ASSERT  (14 * x0) + (-1 * x1) + (12 * x2) + (27 * x3) >= -12;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/integers/arith-int-100.cvc b/test/regress/regress0/arith/integers/arith-int-100.cvc
deleted file mode 100644
index 7e07bee14..000000000
--- a/test/regress/regress0/arith/integers/arith-int-100.cvc
+++ /dev/null
@@ -1,8 +0,0 @@
-% EXPECT: invalid
-x0, x1, x2, x3 : INT;
-ASSERT (27 * x0) + (-21 * x1) + (-6 * x2) + (-6 * x3) > -15 ;
-ASSERT  (-5 * x0) + (-10 * x1) + (2 * x2) + (-16 * x3) <= -7 ;
-ASSERT  (25 * x0) + (25 * x1) + (-15 * x2) + (-32 * x3) > -31 ;
-ASSERT  (17 * x0) + (-26 * x1) + (9 * x2) + (-28 * x3) >= -29 ;
-ASSERT  (-10 * x0) + (-18 * x1) + (15 * x2) + (0 * x3) <= 32;
-QUERY FALSE;
diff --git a/test/regress/regress0/arith/miplib-opt1217--27.smt2 b/test/regress/regress0/arith/miplib-opt1217--27.smt2
deleted file mode 100644
index dc0ca78a8..000000000
--- a/test/regress/regress0/arith/miplib-opt1217--27.smt2
+++ /dev/null
@@ -1,1549 +0,0 @@
-; COMMAND-LINE: --enable-miplib-trick
-; EXPECT: unsat
-(set-logic QF_LRA)
-(set-info :source |
-Relaxation of the Mixed-Integer Programming
-optimization problem opt1217 from the MIPLIB (http://miplib.zib.de/)
-by Enric Rodriguez-Carbonell (erodri@lsi.upc.edu)
-|)
-(set-info :smt-lib-version 2.0)
-(set-info :category "industrial")
-(set-info :status unsat)
-(declare-fun tmp766 () Real)
-(declare-fun tmp765 () Real)
-(declare-fun tmp764 () Real)
-(declare-fun tmp763 () Real)
-(declare-fun tmp762 () Real)
-(declare-fun tmp761 () Real)
-(declare-fun tmp760 () Real)
-(declare-fun tmp759 () Real)
-(declare-fun tmp758 () Real)
-(declare-fun tmp757 () Real)
-(declare-fun tmp756 () Real)
-(declare-fun tmp755 () Real)
-(declare-fun tmp754 () Real)
-(declare-fun tmp753 () Real)
-(declare-fun tmp752 () Real)
-(declare-fun tmp751 () Real)
-(declare-fun tmp750 () Real)
-(declare-fun tmp749 () Real)
-(declare-fun tmp748 () Real)
-(declare-fun tmp747 () Real)
-(declare-fun tmp746 () Real)
-(declare-fun tmp745 () Real)
-(declare-fun tmp744 () Real)
-(declare-fun tmp743 () Real)
-(declare-fun tmp742 () Real)
-(declare-fun tmp741 () Real)
-(declare-fun tmp740 () Real)
-(declare-fun tmp739 () Real)
-(declare-fun tmp738 () Real)
-(declare-fun tmp737 () Real)
-(declare-fun tmp736 () Real)
-(declare-fun tmp735 () Real)
-(declare-fun tmp734 () Real)
-(declare-fun tmp733 () Real)
-(declare-fun tmp732 () Real)
-(declare-fun tmp731 () Real)
-(declare-fun tmp730 () Real)
-(declare-fun tmp729 () Real)
-(declare-fun tmp728 () Real)
-(declare-fun tmp727 () Real)
-(declare-fun tmp726 () Real)
-(declare-fun tmp725 () Real)
-(declare-fun tmp724 () Real)
-(declare-fun tmp723 () Real)
-(declare-fun tmp722 () Real)
-(declare-fun tmp721 () Real)
-(declare-fun tmp720 () Real)
-(declare-fun tmp719 () Real)
-(declare-fun tmp718 () Real)
-(declare-fun tmp717 () Real)
-(declare-fun tmp716 () Real)
-(declare-fun tmp715 () Real)
-(declare-fun tmp714 () Real)
-(declare-fun tmp713 () Real)
-(declare-fun tmp712 () Real)
-(declare-fun tmp711 () Real)
-(declare-fun tmp710 () Real)
-(declare-fun tmp709 () Real)
-(declare-fun tmp708 () Real)
-(declare-fun tmp707 () Real)
-(declare-fun tmp706 () Real)
-(declare-fun tmp705 () Real)
-(declare-fun tmp704 () Real)
-(declare-fun tmp703 () Real)
-(declare-fun tmp702 () Real)
-(declare-fun tmp701 () Real)
-(declare-fun tmp700 () Real)
-(declare-fun tmp699 () Real)
-(declare-fun tmp698 () Real)
-(declare-fun tmp697 () Real)
-(declare-fun tmp696 () Real)
-(declare-fun tmp695 () Real)
-(declare-fun tmp694 () Real)
-(declare-fun tmp693 () Real)
-(declare-fun tmp692 () Real)
-(declare-fun tmp691 () Real)
-(declare-fun tmp690 () Real)
-(declare-fun tmp689 () Real)
-(declare-fun tmp688 () Real)
-(declare-fun tmp687 () Real)
-(declare-fun tmp686 () Real)
-(declare-fun tmp685 () Real)
-(declare-fun tmp684 () Real)
-(declare-fun tmp683 () Real)
-(declare-fun tmp682 () Real)
-(declare-fun tmp681 () Real)
-(declare-fun tmp680 () Real)
-(declare-fun tmp679 () Real)
-(declare-fun tmp678 () Real)
-(declare-fun tmp677 () Real)
-(declare-fun tmp676 () Real)
-(declare-fun tmp675 () Real)
-(declare-fun tmp674 () Real)
-(declare-fun tmp673 () Real)
-(declare-fun tmp672 () Real)
-(declare-fun tmp671 () Real)
-(declare-fun tmp670 () Real)
-(declare-fun tmp669 () Real)
-(declare-fun tmp668 () Real)
-(declare-fun tmp667 () Real)
-(declare-fun tmp666 () Real)
-(declare-fun tmp665 () Real)
-(declare-fun tmp664 () Real)
-(declare-fun tmp663 () Real)
-(declare-fun tmp662 () Real)
-(declare-fun tmp661 () Real)
-(declare-fun tmp660 () Real)
-(declare-fun tmp659 () Real)
-(declare-fun tmp658 () Real)
-(declare-fun tmp657 () Real)
-(declare-fun tmp656 () Real)
-(declare-fun tmp655 () Real)
-(declare-fun tmp654 () Real)
-(declare-fun tmp653 () Real)
-(declare-fun tmp652 () Real)
-(declare-fun tmp651 () Real)
-(declare-fun tmp650 () Real)
-(declare-fun tmp649 () Real)
-(declare-fun tmp648 () Real)
-(declare-fun tmp647 () Real)
-(declare-fun tmp646 () Real)
-(declare-fun tmp645 () Real)
-(declare-fun tmp644 () Real)
-(declare-fun tmp643 () Real)
-(declare-fun tmp642 () Real)
-(declare-fun tmp641 () Real)
-(declare-fun tmp640 () Real)
-(declare-fun tmp639 () Real)
-(declare-fun tmp638 () Real)
-(declare-fun tmp637 () Real)
-(declare-fun tmp636 () Real)
-(declare-fun tmp635 () Real)
-(declare-fun tmp634 () Real)
-(declare-fun tmp633 () Real)
-(declare-fun tmp632 () Real)
-(declare-fun tmp631 () Real)
-(declare-fun tmp630 () Real)
-(declare-fun tmp629 () Real)
-(declare-fun tmp628 () Real)
-(declare-fun tmp627 () Real)
-(declare-fun tmp626 () Real)
-(declare-fun tmp625 () Real)
-(declare-fun tmp624 () Real)
-(declare-fun tmp623 () Real)
-(declare-fun tmp622 () Real)
-(declare-fun tmp621 () Real)
-(declare-fun tmp620 () Real)
-(declare-fun tmp619 () Real)
-(declare-fun tmp618 () Real)
-(declare-fun tmp617 () Real)
-(declare-fun tmp616 () Real)
-(declare-fun tmp615 () Real)
-(declare-fun tmp614 () Real)
-(declare-fun tmp613 () Real)
-(declare-fun tmp612 () Real)
-(declare-fun tmp611 () Real)
-(declare-fun tmp610 () Real)
-(declare-fun tmp609 () Real)
-(declare-fun tmp608 () Real)
-(declare-fun tmp607 () Real)
-(declare-fun tmp606 () Real)
-(declare-fun tmp605 () Real)
-(declare-fun tmp604 () Real)
-(declare-fun tmp603 () Real)
-(declare-fun tmp602 () Real)
-(declare-fun tmp601 () Real)
-(declare-fun tmp600 () Real)
-(declare-fun tmp599 () Real)
-(declare-fun tmp598 () Real)
-(declare-fun tmp597 () Real)
-(declare-fun tmp596 () Real)
-(declare-fun tmp595 () Real)
-(declare-fun tmp594 () Real)
-(declare-fun tmp593 () Real)
-(declare-fun tmp592 () Real)
-(declare-fun tmp591 () Real)
-(declare-fun tmp590 () Real)
-(declare-fun tmp589 () Real)
-(declare-fun tmp588 () Real)
-(declare-fun tmp587 () Real)
-(declare-fun tmp586 () Real)
-(declare-fun tmp585 () Real)
-(declare-fun tmp584 () Real)
-(declare-fun tmp583 () Real)
-(declare-fun tmp582 () Real)
-(declare-fun tmp581 () Real)
-(declare-fun tmp580 () Real)
-(declare-fun tmp579 () Real)
-(declare-fun tmp578 () Real)
-(declare-fun tmp577 () Real)
-(declare-fun tmp576 () Real)
-(declare-fun tmp575 () Real)
-(declare-fun tmp574 () Real)
-(declare-fun tmp573 () Real)
-(declare-fun tmp572 () Real)
-(declare-fun tmp571 () Real)
-(declare-fun tmp570 () Real)
-(declare-fun tmp569 () Real)
-(declare-fun tmp568 () Real)
-(declare-fun tmp567 () Real)
-(declare-fun tmp566 () Real)
-(declare-fun tmp565 () Real)
-(declare-fun tmp564 () Real)
-(declare-fun tmp563 () Real)
-(declare-fun tmp562 () Real)
-(declare-fun tmp561 () Real)
-(declare-fun tmp560 () Real)
-(declare-fun tmp559 () Real)
-(declare-fun tmp558 () Real)
-(declare-fun tmp557 () Real)
-(declare-fun tmp556 () Real)
-(declare-fun tmp555 () Real)
-(declare-fun tmp554 () Real)
-(declare-fun tmp553 () Real)
-(declare-fun tmp552 () Real)
-(declare-fun tmp551 () Real)
-(declare-fun tmp550 () Real)
-(declare-fun tmp549 () Real)
-(declare-fun tmp548 () Real)
-(declare-fun tmp547 () Real)
-(declare-fun tmp546 () Real)
-(declare-fun tmp545 () Real)
-(declare-fun tmp544 () Real)
-(declare-fun tmp543 () Real)
-(declare-fun tmp542 () Real)
-(declare-fun tmp541 () Real)
-(declare-fun tmp540 () Real)
-(declare-fun tmp539 () Real)
-(declare-fun tmp538 () Real)
-(declare-fun tmp537 () Real)
-(declare-fun tmp536 () Real)
-(declare-fun tmp535 () Real)
-(declare-fun tmp534 () Real)
-(declare-fun tmp533 () Real)
-(declare-fun tmp532 () Real)
-(declare-fun tmp531 () Real)
-(declare-fun tmp530 () Real)
-(declare-fun tmp529 () Real)
-(declare-fun tmp528 () Real)
-(declare-fun tmp527 () Real)
-(declare-fun tmp526 () Real)
-(declare-fun tmp525 () Real)
-(declare-fun tmp524 () Real)
-(declare-fun tmp523 () Real)
-(declare-fun tmp522 () Real)
-(declare-fun tmp521 () Real)
-(declare-fun tmp520 () Real)
-(declare-fun tmp519 () Real)
-(declare-fun tmp518 () Real)
-(declare-fun tmp517 () Real)
-(declare-fun tmp516 () Real)
-(declare-fun tmp515 () Real)
-(declare-fun tmp514 () Real)
-(declare-fun tmp513 () Real)
-(declare-fun tmp512 () Real)
-(declare-fun tmp511 () Real)
-(declare-fun tmp510 () Real)
-(declare-fun tmp509 () Real)
-(declare-fun tmp508 () Real)
-(declare-fun tmp507 () Real)
-(declare-fun tmp506 () Real)
-(declare-fun tmp505 () Real)
-(declare-fun tmp504 () Real)
-(declare-fun tmp503 () Real)
-(declare-fun tmp502 () Real)
-(declare-fun tmp501 () Real)
-(declare-fun tmp500 () Real)
-(declare-fun tmp499 () Real)
-(declare-fun tmp498 () Real)
-(declare-fun tmp497 () Real)
-(declare-fun tmp496 () Real)
-(declare-fun tmp495 () Real)
-(declare-fun tmp494 () Real)
-(declare-fun tmp493 () Real)
-(declare-fun tmp492 () Real)
-(declare-fun tmp491 () Real)
-(declare-fun tmp490 () Real)
-(declare-fun tmp489 () Real)
-(declare-fun tmp488 () Real)
-(declare-fun tmp487 () Real)
-(declare-fun tmp486 () Real)
-(declare-fun tmp485 () Real)
-(declare-fun tmp484 () Real)
-(declare-fun tmp483 () Real)
-(declare-fun tmp482 () Real)
-(declare-fun tmp481 () Real)
-(declare-fun tmp480 () Real)
-(declare-fun tmp479 () Real)
-(declare-fun tmp478 () Real)
-(declare-fun tmp477 () Real)
-(declare-fun tmp476 () Real)
-(declare-fun tmp475 () Real)
-(declare-fun tmp474 () Real)
-(declare-fun tmp473 () Real)
-(declare-fun tmp472 () Real)
-(declare-fun tmp471 () Real)
-(declare-fun tmp470 () Real)
-(declare-fun tmp469 () Real)
-(declare-fun tmp468 () Real)
-(declare-fun tmp467 () Real)
-(declare-fun tmp466 () Real)
-(declare-fun tmp465 () Real)
-(declare-fun tmp464 () Real)
-(declare-fun tmp463 () Real)
-(declare-fun tmp462 () Real)
-(declare-fun tmp461 () Real)
-(declare-fun tmp460 () Real)
-(declare-fun tmp459 () Real)
-(declare-fun tmp458 () Real)
-(declare-fun tmp457 () Real)
-(declare-fun tmp456 () Real)
-(declare-fun tmp455 () Real)
-(declare-fun tmp454 () Real)
-(declare-fun tmp453 () Real)
-(declare-fun tmp452 () Real)
-(declare-fun tmp451 () Real)
-(declare-fun tmp450 () Real)
-(declare-fun tmp449 () Real)
-(declare-fun tmp448 () Real)
-(declare-fun tmp447 () Real)
-(declare-fun tmp446 () Real)
-(declare-fun tmp445 () Real)
-(declare-fun tmp444 () Real)
-(declare-fun tmp443 () Real)
-(declare-fun tmp442 () Real)
-(declare-fun tmp441 () Real)
-(declare-fun tmp440 () Real)
-(declare-fun tmp439 () Real)
-(declare-fun tmp438 () Real)
-(declare-fun tmp437 () Real)
-(declare-fun tmp436 () Real)
-(declare-fun tmp435 () Real)
-(declare-fun tmp434 () Real)
-(declare-fun tmp433 () Real)
-(declare-fun tmp432 () Real)
-(declare-fun tmp431 () Real)
-(declare-fun tmp430 () Real)
-(declare-fun tmp429 () Real)
-(declare-fun tmp428 () Real)
-(declare-fun tmp427 () Real)
-(declare-fun tmp426 () Real)
-(declare-fun tmp425 () Real)
-(declare-fun tmp424 () Real)
-(declare-fun tmp423 () Real)
-(declare-fun tmp422 () Real)
-(declare-fun tmp421 () Real)
-(declare-fun tmp420 () Real)
-(declare-fun tmp419 () Real)
-(declare-fun tmp418 () Real)
-(declare-fun tmp417 () Real)
-(declare-fun tmp416 () Real)
-(declare-fun tmp415 () Real)
-(declare-fun tmp414 () Real)
-(declare-fun tmp413 () Real)
-(declare-fun tmp412 () Real)
-(declare-fun tmp411 () Real)
-(declare-fun tmp410 () Real)
-(declare-fun tmp409 () Real)
-(declare-fun tmp408 () Real)
-(declare-fun tmp407 () Real)
-(declare-fun tmp406 () Real)
-(declare-fun tmp405 () Real)
-(declare-fun tmp404 () Real)
-(declare-fun tmp403 () Real)
-(declare-fun tmp402 () Real)
-(declare-fun tmp401 () Real)
-(declare-fun tmp400 () Real)
-(declare-fun tmp399 () Real)
-(declare-fun tmp398 () Real)
-(declare-fun tmp397 () Real)
-(declare-fun tmp396 () Real)
-(declare-fun tmp395 () Real)
-(declare-fun tmp394 () Real)
-(declare-fun tmp393 () Real)
-(declare-fun tmp392 () Real)
-(declare-fun tmp391 () Real)
-(declare-fun tmp390 () Real)
-(declare-fun tmp389 () Real)
-(declare-fun tmp388 () Real)
-(declare-fun tmp387 () Real)
-(declare-fun tmp386 () Real)
-(declare-fun tmp385 () Real)
-(declare-fun tmp384 () Real)
-(declare-fun tmp383 () Real)
-(declare-fun tmp382 () Real)
-(declare-fun tmp381 () Real)
-(declare-fun tmp380 () Real)
-(declare-fun tmp379 () Real)
-(declare-fun tmp378 () Real)
-(declare-fun tmp377 () Real)
-(declare-fun tmp376 () Real)
-(declare-fun tmp375 () Real)
-(declare-fun tmp374 () Real)
-(declare-fun tmp373 () Real)
-(declare-fun tmp372 () Real)
-(declare-fun tmp371 () Real)
-(declare-fun tmp370 () Real)
-(declare-fun tmp369 () Real)
-(declare-fun tmp368 () Real)
-(declare-fun tmp367 () Real)
-(declare-fun tmp366 () Real)
-(declare-fun tmp365 () Real)
-(declare-fun tmp364 () Real)
-(declare-fun tmp363 () Real)
-(declare-fun tmp362 () Real)
-(declare-fun tmp361 () Real)
-(declare-fun tmp360 () Real)
-(declare-fun tmp359 () Real)
-(declare-fun tmp358 () Real)
-(declare-fun tmp357 () Real)
-(declare-fun tmp356 () Real)
-(declare-fun tmp355 () Real)
-(declare-fun tmp354 () Real)
-(declare-fun tmp353 () Real)
-(declare-fun tmp352 () Real)
-(declare-fun tmp351 () Real)
-(declare-fun tmp350 () Real)
-(declare-fun tmp349 () Real)
-(declare-fun tmp348 () Real)
-(declare-fun tmp347 () Real)
-(declare-fun tmp346 () Real)
-(declare-fun tmp345 () Real)
-(declare-fun tmp344 () Real)
-(declare-fun tmp343 () Real)
-(declare-fun tmp342 () Real)
-(declare-fun tmp341 () Real)
-(declare-fun tmp340 () Real)
-(declare-fun tmp339 () Real)
-(declare-fun tmp338 () Real)
-(declare-fun tmp337 () Real)
-(declare-fun tmp336 () Real)
-(declare-fun tmp335 () Real)
-(declare-fun tmp334 () Real)
-(declare-fun tmp333 () Real)
-(declare-fun tmp332 () Real)
-(declare-fun tmp331 () Real)
-(declare-fun tmp330 () Real)
-(declare-fun tmp329 () Real)
-(declare-fun tmp328 () Real)
-(declare-fun tmp327 () Real)
-(declare-fun tmp326 () Real)
-(declare-fun tmp325 () Real)
-(declare-fun tmp324 () Real)
-(declare-fun tmp323 () Real)
-(declare-fun tmp322 () Real)
-(declare-fun tmp321 () Real)
-(declare-fun tmp320 () Real)
-(declare-fun tmp319 () Real)
-(declare-fun tmp318 () Real)
-(declare-fun tmp317 () Real)
-(declare-fun tmp316 () Real)
-(declare-fun tmp315 () Real)
-(declare-fun tmp314 () Real)
-(declare-fun tmp313 () Real)
-(declare-fun tmp312 () Real)
-(declare-fun tmp311 () Real)
-(declare-fun tmp310 () Real)
-(declare-fun tmp309 () Real)
-(declare-fun tmp308 () Real)
-(declare-fun tmp307 () Real)
-(declare-fun tmp306 () Real)
-(declare-fun tmp305 () Real)
-(declare-fun tmp304 () Real)
-(declare-fun tmp303 () Real)
-(declare-fun tmp302 () Real)
-(declare-fun tmp301 () Real)
-(declare-fun tmp300 () Real)
-(declare-fun tmp299 () Real)
-(declare-fun tmp298 () Real)
-(declare-fun tmp297 () Real)
-(declare-fun tmp296 () Real)
-(declare-fun tmp295 () Real)
-(declare-fun tmp294 () Real)
-(declare-fun tmp293 () Real)
-(declare-fun tmp292 () Real)
-(declare-fun tmp291 () Real)
-(declare-fun tmp290 () Real)
-(declare-fun tmp289 () Real)
-(declare-fun tmp288 () Real)
-(declare-fun tmp287 () Real)
-(declare-fun tmp286 () Real)
-(declare-fun tmp285 () Real)
-(declare-fun tmp284 () Real)
-(declare-fun tmp283 () Real)
-(declare-fun tmp282 () Real)
-(declare-fun tmp281 () Real)
-(declare-fun tmp280 () Real)
-(declare-fun tmp279 () Real)
-(declare-fun tmp278 () Real)
-(declare-fun tmp277 () Real)
-(declare-fun tmp276 () Real)
-(declare-fun tmp275 () Real)
-(declare-fun tmp274 () Real)
-(declare-fun tmp273 () Real)
-(declare-fun tmp272 () Real)
-(declare-fun tmp271 () Real)
-(declare-fun tmp270 () Real)
-(declare-fun tmp269 () Real)
-(declare-fun tmp268 () Real)
-(declare-fun tmp267 () Real)
-(declare-fun tmp266 () Real)
-(declare-fun tmp265 () Real)
-(declare-fun tmp264 () Real)
-(declare-fun tmp263 () Real)
-(declare-fun tmp262 () Real)
-(declare-fun tmp261 () Real)
-(declare-fun tmp260 () Real)
-(declare-fun tmp259 () Real)
-(declare-fun tmp258 () Real)
-(declare-fun tmp257 () Real)
-(declare-fun tmp256 () Real)
-(declare-fun tmp255 () Real)
-(declare-fun tmp254 () Real)
-(declare-fun tmp253 () Real)
-(declare-fun tmp252 () Real)
-(declare-fun tmp251 () Real)
-(declare-fun tmp250 () Real)
-(declare-fun tmp249 () Real)
-(declare-fun tmp248 () Real)
-(declare-fun tmp247 () Real)
-(declare-fun tmp246 () Real)
-(declare-fun tmp245 () Real)
-(declare-fun tmp244 () Real)
-(declare-fun tmp243 () Real)
-(declare-fun tmp242 () Real)
-(declare-fun tmp241 () Real)
-(declare-fun tmp240 () Real)
-(declare-fun tmp239 () Real)
-(declare-fun tmp238 () Real)
-(declare-fun tmp237 () Real)
-(declare-fun tmp236 () Real)
-(declare-fun tmp235 () Real)
-(declare-fun tmp234 () Real)
-(declare-fun tmp233 () Real)
-(declare-fun tmp232 () Real)
-(declare-fun tmp231 () Real)
-(declare-fun tmp230 () Real)
-(declare-fun tmp229 () Real)
-(declare-fun tmp228 () Real)
-(declare-fun tmp227 () Real)
-(declare-fun tmp226 () Real)
-(declare-fun tmp225 () Real)
-(declare-fun tmp224 () Real)
-(declare-fun tmp223 () Real)
-(declare-fun tmp222 () Real)
-(declare-fun tmp221 () Real)
-(declare-fun tmp220 () Real)
-(declare-fun tmp219 () Real)
-(declare-fun tmp218 () Real)
-(declare-fun tmp217 () Real)
-(declare-fun tmp216 () Real)
-(declare-fun tmp215 () Real)
-(declare-fun tmp214 () Real)
-(declare-fun tmp213 () Real)
-(declare-fun tmp212 () Real)
-(declare-fun tmp211 () Real)
-(declare-fun tmp210 () Real)
-(declare-fun tmp209 () Real)
-(declare-fun tmp208 () Real)
-(declare-fun tmp207 () Real)
-(declare-fun tmp206 () Real)
-(declare-fun tmp205 () Real)
-(declare-fun tmp204 () Real)
-(declare-fun tmp203 () Real)
-(declare-fun tmp202 () Real)
-(declare-fun tmp201 () Real)
-(declare-fun tmp200 () Real)
-(declare-fun tmp199 () Real)
-(declare-fun tmp198 () Real)
-(declare-fun tmp197 () Real)
-(declare-fun tmp196 () Real)
-(declare-fun tmp195 () Real)
-(declare-fun tmp194 () Real)
-(declare-fun tmp193 () Real)
-(declare-fun tmp192 () Real)
-(declare-fun tmp191 () Real)
-(declare-fun tmp190 () Real)
-(declare-fun tmp189 () Real)
-(declare-fun tmp188 () Real)
-(declare-fun tmp187 () Real)
-(declare-fun tmp186 () Real)
-(declare-fun tmp185 () Real)
-(declare-fun tmp184 () Real)
-(declare-fun tmp183 () Real)
-(declare-fun tmp182 () Real)
-(declare-fun tmp181 () Real)
-(declare-fun tmp180 () Real)
-(declare-fun tmp179 () Real)
-(declare-fun tmp178 () Real)
-(declare-fun tmp177 () Real)
-(declare-fun tmp176 () Real)
-(declare-fun tmp175 () Real)
-(declare-fun tmp174 () Real)
-(declare-fun tmp173 () Real)
-(declare-fun tmp172 () Real)
-(declare-fun tmp171 () Real)
-(declare-fun tmp170 () Real)
-(declare-fun tmp169 () Real)
-(declare-fun tmp168 () Real)
-(declare-fun tmp167 () Real)
-(declare-fun tmp166 () Real)
-(declare-fun tmp165 () Real)
-(declare-fun tmp164 () Real)
-(declare-fun tmp163 () Real)
-(declare-fun tmp162 () Real)
-(declare-fun tmp161 () Real)
-(declare-fun tmp160 () Real)
-(declare-fun tmp159 () Real)
-(declare-fun tmp158 () Real)
-(declare-fun tmp157 () Real)
-(declare-fun tmp156 () Real)
-(declare-fun tmp155 () Real)
-(declare-fun tmp154 () Real)
-(declare-fun tmp153 () Real)
-(declare-fun tmp152 () Real)
-(declare-fun tmp151 () Real)
-(declare-fun tmp150 () Real)
-(declare-fun tmp149 () Real)
-(declare-fun tmp148 () Real)
-(declare-fun tmp147 () Real)
-(declare-fun tmp146 () Real)
-(declare-fun tmp145 () Real)
-(declare-fun tmp144 () Real)
-(declare-fun tmp143 () Real)
-(declare-fun tmp142 () Real)
-(declare-fun tmp141 () Real)
-(declare-fun tmp140 () Real)
-(declare-fun tmp139 () Real)
-(declare-fun tmp138 () Real)
-(declare-fun tmp137 () Real)
-(declare-fun tmp136 () Real)
-(declare-fun tmp135 () Real)
-(declare-fun tmp134 () Real)
-(declare-fun tmp133 () Real)
-(declare-fun tmp132 () Real)
-(declare-fun tmp131 () Real)
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-(declare-fun x610 () Bool)
-(declare-fun x611 () Bool)
-(declare-fun x612 () Bool)
-(declare-fun x613 () Bool)
-(declare-fun x614 () Bool)
-(declare-fun x615 () Bool)
-(declare-fun x616 () Bool)
-(declare-fun x617 () Bool)
-(declare-fun x618 () Bool)
-(declare-fun x619 () Bool)
-(declare-fun x620 () Bool)
-(declare-fun x621 () Bool)
-(declare-fun x622 () Bool)
-(declare-fun x623 () Bool)
-(declare-fun x624 () Bool)
-(declare-fun x625 () Bool)
-(declare-fun x626 () Bool)
-(declare-fun x627 () Bool)
-(declare-fun x628 () Bool)
-(declare-fun x629 () Bool)
-(declare-fun x630 () Bool)
-(declare-fun x631 () Bool)
-(declare-fun x632 () Bool)
-(declare-fun x633 () Bool)
-(declare-fun x634 () Bool)
-(declare-fun x635 () Bool)
-(declare-fun x636 () Bool)
-(declare-fun x637 () Bool)
-(declare-fun x638 () Bool)
-(declare-fun x639 () Bool)
-(declare-fun x640 () Bool)
-(declare-fun x641 () Bool)
-(declare-fun x642 () Bool)
-(declare-fun x643 () Bool)
-(declare-fun x644 () Bool)
-(declare-fun x645 () Bool)
-(declare-fun x646 () Bool)
-(declare-fun x647 () Bool)
-(declare-fun x648 () Bool)
-(declare-fun x649 () Bool)
-(declare-fun x650 () Bool)
-(declare-fun x651 () Bool)
-(declare-fun x652 () Bool)
-(declare-fun x653 () Bool)
-(declare-fun x654 () Bool)
-(declare-fun x655 () Bool)
-(declare-fun x656 () Bool)
-(declare-fun x657 () Bool)
-(declare-fun x658 () Bool)
-(declare-fun x659 () Bool)
-(declare-fun x660 () Bool)
-(declare-fun x661 () Bool)
-(declare-fun x662 () Bool)
-(declare-fun x663 () Bool)
-(declare-fun x664 () Bool)
-(declare-fun x665 () Bool)
-(declare-fun x666 () Bool)
-(declare-fun x667 () Bool)
-(declare-fun x668 () Bool)
-(declare-fun x669 () Bool)
-(declare-fun x670 () Bool)
-(declare-fun x671 () Bool)
-(declare-fun x672 () Bool)
-(declare-fun x673 () Bool)
-(declare-fun x674 () Bool)
-(declare-fun x675 () Bool)
-(declare-fun x676 () Bool)
-(declare-fun x677 () Bool)
-(declare-fun x678 () Bool)
-(declare-fun x679 () Bool)
-(declare-fun x680 () Bool)
-(declare-fun x681 () Bool)
-(declare-fun x682 () Bool)
-(declare-fun x683 () Bool)
-(declare-fun x684 () Bool)
-(declare-fun x685 () Bool)
-(declare-fun x686 () Bool)
-(declare-fun x687 () Bool)
-(declare-fun x688 () Bool)
-(declare-fun x689 () Bool)
-(declare-fun x690 () Bool)
-(declare-fun x691 () Bool)
-(declare-fun x692 () Bool)
-(declare-fun x693 () Bool)
-(declare-fun x694 () Bool)
-(declare-fun x695 () Bool)
-(declare-fun x696 () Bool)
-(declare-fun x697 () Bool)
-(declare-fun x698 () Bool)
-(declare-fun x699 () Bool)
-(declare-fun x700 () Bool)
-(declare-fun x701 () Bool)
-(declare-fun x702 () Bool)
-(declare-fun x703 () Bool)
-(declare-fun x704 () Bool)
-(declare-fun x705 () Bool)
-(declare-fun x706 () Bool)
-(declare-fun x707 () Bool)
-(declare-fun x708 () Bool)
-(declare-fun x709 () Bool)
-(declare-fun x710 () Bool)
-(declare-fun x711 () Bool)
-(declare-fun x712 () Bool)
-(declare-fun x713 () Bool)
-(declare-fun x714 () Bool)
-(declare-fun x715 () Bool)
-(declare-fun x716 () Bool)
-(declare-fun x717 () Bool)
-(declare-fun x718 () Bool)
-(declare-fun x719 () Bool)
-(declare-fun x720 () Bool)
-(declare-fun x721 () Bool)
-(declare-fun x722 () Bool)
-(declare-fun x723 () Bool)
-(declare-fun x724 () Bool)
-(declare-fun x725 () Bool)
-(declare-fun x726 () Bool)
-(declare-fun x727 () Bool)
-(declare-fun x728 () Bool)
-(declare-fun x729 () Bool)
-(declare-fun x730 () Bool)
-(declare-fun x731 () Bool)
-(declare-fun x732 () Bool)
-(declare-fun x733 () Bool)
-(declare-fun x734 () Bool)
-(declare-fun x735 () Bool)
-(declare-fun x736 () Bool)
-(declare-fun x737 () Bool)
-(declare-fun x738 () Bool)
-(declare-fun x739 () Bool)
-(declare-fun x740 () Bool)
-(declare-fun x741 () Bool)
-(declare-fun x742 () Bool)
-(declare-fun x743 () Bool)
-(declare-fun x744 () Bool)
-(declare-fun x745 () Bool)
-(declare-fun x746 () Bool)
-(declare-fun x747 () Bool)
-(declare-fun x748 () Bool)
-(declare-fun x749 () Bool)
-(declare-fun x750 () Bool)
-(declare-fun x751 () Bool)
-(declare-fun x752 () Bool)
-(declare-fun x753 () Bool)
-(declare-fun x754 () Bool)
-(declare-fun x755 () Bool)
-(declare-fun x756 () Bool)
-(declare-fun x757 () Bool)
-(declare-fun x758 () Bool)
-(declare-fun x759 () Bool)
-(declare-fun x760 () Bool)
-(declare-fun x761 () Bool)
-(declare-fun x762 () Bool)
-(declare-fun x763 () Bool)
-(declare-fun x764 () Bool)
-(declare-fun x765 () Bool)
-(declare-fun x766 () Bool)
-(declare-fun x767 () Bool)
-(declare-fun x768 () Bool)
-(declare-fun x769 () Bool)
-(assert (let ((?v_1 (not x474)) (?v_1953 (not x427))) (let ((?v_2 (and ?v_1953 true)) (?v_4 (and x427 true)) (?v_3 (= tmp766 1)) (?v_5 (not x331)) (?v_1995 (not x379))) (let ((?v_6 (and ?v_1995 true)) (?v_8 (and x379 true)) (?v_7 (= tmp765 1)) (?v_9 (not x569)) (?v_1850 (not x521))) (let ((?v_10 (and ?v_1850 true)) (?v_12 (and x521 true)) (?v_11 (= tmp764 1)) (?v_13 (not x239)) (?v_2102 (not x283))) (let ((?v_14 (and ?v_2102 true)) (?v_16 (and x283 true)) (?v_15 (= tmp763 1)) (?v_17 (not x664)) (?v_1741 (not x616))) (let ((?v_18 (and ?v_1741 true)) (?v_20 (and x616 true)) (?v_19 (= tmp762 1)) (?v_21 (not x143)) (?v_2213 (not x191))) (let ((?v_22 (and ?v_2213 true)) (?v_24 (and x191 true)) (?v_23 (= tmp761 1)) (?v_25 (not x759)) (?v_1638 (not x711))) (let ((?v_26 (and ?v_1638 true)) (?v_28 (and x711 true)) (?v_27 (= tmp760 1)) (?v_29 (not x48)) (?v_2309 (not x96))) (let ((?v_30 (and ?v_2309 true)) (?v_32 (and x96 true)) (?v_31 (= tmp759 1)) (?v_33 (not x473)) (?v_34 (and (not x426) true)) (?v_36 (and x426 true)) (?v_35 (= tmp758 1)) (?v_37 (not x330)) (?v_38 (and (not x378) true)) (?v_40 (and x378 true)) (?v_39 (= tmp757 1)) (?v_41 (not x568)) (?v_42 (and (not x520) true)) (?v_44 (and x520 true)) (?v_43 (= tmp756 1)) (?v_45 (not x238)) (?v_46 (and (not x282) true)) (?v_48 (and x282 true)) (?v_47 (= tmp755 1)) (?v_49 (not x663)) (?v_50 (and (not x615) true)) (?v_52 (and x615 true)) (?v_51 (= tmp754 1)) (?v_53 (not x142)) (?v_54 (and (not x190) true)) (?v_56 (and x190 true)) (?v_55 (= tmp753 1)) (?v_57 (not x758)) (?v_58 (and (not x710) true)) (?v_60 (and x710 true)) (?v_59 (= tmp752 1)) (?v_61 (not x47)) (?v_62 (and (not x95) true)) (?v_64 (and x95 true)) (?v_63 (= tmp751 1)) (?v_65 (not x472)) (?v_1949 (not x425))) (let ((?v_66 (and ?v_1949 true)) (?v_68 (and x425 true)) (?v_67 (= tmp750 1)) (?v_69 (not x329)) (?v_1992 (not x377))) (let ((?v_70 (and ?v_1992 true)) (?v_72 (and x377 true)) (?v_71 (= tmp749 1)) (?v_73 (not x567)) (?v_1848 (not x519))) (let ((?v_74 (and ?v_1848 true)) (?v_76 (and x519 true)) (?v_75 (= tmp748 1)) (?v_77 (not x237)) (?v_2098 (not x281))) (let ((?v_78 (and ?v_2098 true)) (?v_80 (and x281 true)) (?v_79 (= tmp747 1)) (?v_81 (not x662)) (?v_1737 (not x614))) (let ((?v_82 (and ?v_1737 true)) (?v_84 (and x614 true)) (?v_83 (= tmp746 1)) (?v_85 (not x141)) (?v_2210 (not x189))) (let ((?v_86 (and ?v_2210 true)) (?v_88 (and x189 true)) (?v_87 (= tmp745 1)) (?v_89 (not x757)) (?v_1634 (not x709))) (let ((?v_90 (and ?v_1634 true)) (?v_92 (and x709 true)) (?v_91 (= tmp744 1)) (?v_93 (not x46)) (?v_2307 (not x94))) (let ((?v_94 (and ?v_2307 true)) (?v_96 (and x94 true)) (?v_95 (= tmp743 1)) (?v_97 (not x471)) (?v_98 (and (not x424) true)) (?v_100 (and x424 true)) (?v_99 (= tmp742 1)) (?v_101 (not x328)) (?v_102 (and (not x376) true)) (?v_104 (and x376 true)) (?v_103 (= tmp741 1)) (?v_105 (not x566)) (?v_106 (and (not x518) true)) (?v_108 (and x518 true)) (?v_107 (= tmp740 1)) (?v_109 (not x236)) (?v_110 (and (not x280) true)) (?v_112 (and x280 true)) (?v_111 (= tmp739 1)) (?v_113 (not x661)) (?v_114 (and (not x613) true)) (?v_116 (and x613 true)) (?v_115 (= tmp738 1)) (?v_117 (not x140)) (?v_118 (and (not x188) true)) (?v_120 (and x188 true)) (?v_119 (= tmp737 1)) (?v_121 (not x756)) (?v_122 (and (not x708) true)) (?v_124 (and x708 true)) (?v_123 (= tmp736 1)) (?v_125 (not x45)) (?v_126 (and (not x93) true)) (?v_128 (and x93 true)) (?v_127 (= tmp735 1)) (?v_129 (not x470)) (?v_1946 (not x423))) (let ((?v_130 (and ?v_1946 true)) (?v_132 (and x423 true)) (?v_131 (= tmp734 1)) (?v_133 (not x327)) (?v_1990 (not x375))) (let ((?v_134 (and ?v_1990 true)) (?v_136 (and x375 true)) (?v_135 (= tmp733 1)) (?v_137 (not x565)) (?v_1845 (not x517))) (let ((?v_138 (and ?v_1845 true)) (?v_140 (and x517 true)) (?v_139 (= tmp732 1)) (?v_141 (not x235)) (?v_2095 (not x279))) (let ((?v_142 (and ?v_2095 true)) (?v_144 (and x279 true)) (?v_143 (= tmp731 1)) (?v_145 (not x660)) (?v_1733 (not x612))) (let ((?v_146 (and ?v_1733 true)) (?v_148 (and x612 true)) (?v_147 (= tmp730 1)) (?v_149 (not x139)) (?v_2207 (not x187))) (let ((?v_150 (and ?v_2207 true)) (?v_152 (and x187 true)) (?v_151 (= tmp729 1)) (?v_153 (not x755)) (?v_1631 (not x707))) (let ((?v_154 (and ?v_1631 true)) (?v_156 (and x707 true)) (?v_155 (= tmp728 1)) (?v_157 (not x44)) (?v_2304 (not x92))) (let ((?v_158 (and ?v_2304 true)) (?v_160 (and x92 true)) (?v_159 (= tmp727 1)) (?v_161 (not x469)) (?v_162 (and (not x422) true)) (?v_164 (and x422 true)) (?v_163 (= tmp726 1)) (?v_165 (not x326)) (?v_166 (and (not x374) true)) (?v_168 (and x374 true)) (?v_167 (= tmp725 1)) (?v_169 (not x564)) (?v_170 (and (not x516) true)) (?v_172 (and x516 true)) (?v_171 (= tmp724 1)) (?v_173 (not x234)) (?v_174 (and (not x278) true)) (?v_176 (and x278 true)) (?v_175 (= tmp723 1)) (?v_177 (not x659)) (?v_178 (and (not x611) true)) (?v_180 (and x611 true)) (?v_179 (= tmp722 1)) (?v_181 (not x138)) (?v_182 (and (not x186) true)) (?v_184 (and x186 true)) (?v_183 (= tmp721 1)) (?v_185 (not x754)) (?v_186 (and (not x706) true)) (?v_188 (and x706 true)) (?v_187 (= tmp720 1)) (?v_189 (not x43)) (?v_190 (and (not x91) true)) (?v_192 (and x91 true)) (?v_191 (= tmp719 1)) (?v_193 (not x468)) (?v_1942 (not x421))) (let ((?v_194 (and ?v_1942 true)) (?v_196 (and x421 true)) (?v_195 (= tmp718 1)) (?v_197 (not x325)) (?v_1987 (not x373))) (let ((?v_198 (and ?v_1987 true)) (?v_200 (and x373 true)) (?v_199 (= tmp717 1)) (?v_201 (not x563)) (?v_1843 (not x515))) (let ((?v_202 (and ?v_1843 true)) (?v_204 (and x515 true)) (?v_203 (= tmp716 1)) (?v_205 (not x233)) (?v_2092 (not x277))) (let ((?v_206 (and ?v_2092 true)) (?v_208 (and x277 true)) (?v_207 (= tmp715 1)) (?v_209 (not x658)) (?v_1729 (not x610))) (let ((?v_210 (and ?v_1729 true)) (?v_212 (and x610 true)) (?v_211 (= tmp714 1)) (?v_213 (not x137)) (?v_2204 (not x185))) (let ((?v_214 (and ?v_2204 true)) (?v_216 (and x185 true)) (?v_215 (= tmp713 1)) (?v_217 (not x753)) (?v_1626 (not x705))) (let ((?v_218 (and ?v_1626 true)) (?v_220 (and x705 true)) (?v_219 (= tmp712 1)) (?v_221 (not x42)) (?v_2300 (not x90))) (let ((?v_222 (and ?v_2300 true)) (?v_224 (and x90 true)) (?v_223 (= tmp711 1)) (?v_225 (not x467)) (?v_226 (and (not x420) true)) (?v_228 (and x420 true)) (?v_227 (= tmp710 1)) (?v_229 (not x324)) (?v_230 (and (not x372) true)) (?v_232 (and x372 true)) (?v_231 (= tmp709 1)) (?v_233 (not x562)) (?v_234 (and (not x514) true)) (?v_236 (and x514 true)) (?v_235 (= tmp708 1)) (?v_237 (not x232)) (?v_238 (and (not x276) true)) (?v_240 (and x276 true)) (?v_239 (= tmp707 1)) (?v_241 (not x704)) (?v_242 (and (not x657) true)) (?v_244 (and x657 true)) (?v_243 (= tmp706 1)) (?v_245 (not x136)) (?v_246 (and (not x184) true)) (?v_248 (and x184 true)) (?v_247 (= tmp705 1)) (?v_249 (not x769)) (?v_250 (and (not x752) true)) (?v_252 (and x752 true)) (?v_251 (= tmp704 1)) (?v_253 (not x41)) (?v_254 (and (not x89) true)) (?v_256 (and x89 true)) (?v_255 (= tmp703 1)) (?v_257 (not x466)) (?v_1938 (not x419))) (let ((?v_258 (and ?v_1938 true)) (?v_260 (and x419 true)) (?v_259 (= tmp702 1)) (?v_261 (not x323)) (?v_1981 (not x371))) (let ((?v_262 (and ?v_1981 true)) (?v_264 (and x371 true)) (?v_263 (= tmp701 1)) (?v_265 (not x561)) (?v_1839 (not x513))) (let ((?v_266 (and ?v_1839 true)) (?v_268 (and x513 true)) (?v_267 (= tmp700 1)) (?v_269 (not x231)) (?v_2088 (not x275))) (let ((?v_270 (and ?v_2088 true)) (?v_272 (and x275 true)) (?v_271 (= tmp699 1)) (?v_273 (not x656)) (?v_274 (and (not x609) true)) (?v_276 (and x609 true)) (?v_275 (= tmp698 1)) (?v_277 (not x135)) (?v_2200 (not x183))) (let ((?v_278 (and ?v_2200 true)) (?v_280 (and x183 true)) (?v_279 (= tmp697 1)) (?v_281 (not x751)) (?v_1620 (not x703))) (let ((?v_282 (and ?v_1620 true)) (?v_284 (and x703 true)) (?v_283 (= tmp696 1)) (?v_285 (not x40)) (?v_2297 (not x88))) (let ((?v_286 (and ?v_2297 true)) (?v_288 (and x88 true)) (?v_287 (= tmp695 1)) (?v_289 (not x465)) (?v_290 (and (not x418) true)) (?v_292 (and x418 true)) (?v_291 (= tmp694 1)) (?v_293 (not x322)) (?v_294 (and (not x370) true)) (?v_296 (and x370 true)) (?v_295 (= tmp693 1)) (?v_297 (not x560)) (?v_298 (and (not x512) true)) (?v_300 (and x512 true)) (?v_299 (= tmp692 1)) (?v_301 (not x230)) (?v_302 (and (not x274) true)) (?v_304 (and x274 true)) (?v_303 (= tmp691 1)) (?v_305 (not x655)) (?v_1724 (not x608))) (let ((?v_306 (and ?v_1724 true)) (?v_308 (and x608 true)) (?v_307 (= tmp690 1)) (?v_309 (not x134)) (?v_310 (and (not x182) true)) (?v_312 (and x182 true)) (?v_311 (= tmp689 1)) (?v_313 (not x750)) (?v_314 (and (not x702) true)) (?v_316 (and x702 true)) (?v_315 (= tmp688 1)) (?v_317 (not x39)) (?v_318 (and (not x87) true)) (?v_320 (and x87 true)) (?v_319 (= tmp687 1)) (?v_321 (not x464)) (?v_1935 (not x417))) (let ((?v_322 (and ?v_1935 true)) (?v_324 (and x417 true)) (?v_323 (= tmp686 1)) (?v_325 (not x321)) (?v_1977 (not x369))) (let ((?v_326 (and ?v_1977 true)) (?v_328 (and x369 true)) (?v_327 (= tmp685 1)) (?v_329 (not x559)) (?v_1835 (not x511))) (let ((?v_330 (and ?v_1835 true)) (?v_332 (and x511 true)) (?v_331 (= tmp684 1)) (?v_333 (not x229)) (?v_2084 (not x273))) (let ((?v_334 (and ?v_2084 true)) (?v_336 (and x273 true)) (?v_335 (= tmp683 1)) (?v_337 (not x654)) (?v_338 (and (not x607) true)) (?v_340 (and x607 true)) (?v_339 (= tmp682 1)) (?v_341 (not x133)) (?v_2196 (not x181))) (let ((?v_342 (and ?v_2196 true)) (?v_344 (and x181 true)) (?v_343 (= tmp681 1)) (?v_345 (not x749)) (?v_1616 (not x701))) (let ((?v_346 (and ?v_1616 true)) (?v_348 (and x701 true)) (?v_347 (= tmp680 1)) (?v_349 (not x38)) (?v_2293 (not x86))) (let ((?v_350 (and ?v_2293 true)) (?v_352 (and x86 true)) (?v_351 (= tmp679 1)) (?v_353 (not x463)) (?v_354 (and (not x416) true)) (?v_356 (and x416 true)) (?v_355 (= tmp678 1)) (?v_357 (not x320)) (?v_358 (and (not x368) true)) (?v_360 (and x368 true)) (?v_359 (= tmp677 1)) (?v_361 (not x558)) (?v_362 (and (not x510) true)) (?v_364 (and x510 true)) (?v_363 (= tmp676 1)) (?v_365 (not x228)) (?v_366 (and (not x272) true)) (?v_368 (and x272 true)) (?v_367 (= tmp675 1)) (?v_369 (not x653)) (?v_1719 (not x606))) (let ((?v_370 (and ?v_1719 true)) (?v_372 (and x606 true)) (?v_371 (= tmp674 1)) (?v_373 (not x132)) (?v_374 (and (not x180) true)) (?v_376 (and x180 true)) (?v_375 (= tmp673 1)) (?v_377 (not x748)) (?v_378 (and (not x700) true)) (?v_380 (and x700 true)) (?v_379 (= tmp672 1)) (?v_381 (not x37)) (?v_382 (and (not x85) true)) (?v_384 (and x85 true)) (?v_383 (= tmp671 1)) (?v_385 (not x462)) (?v_1931 (not x415))) (let ((?v_386 (and ?v_1931 true)) (?v_388 (and x415 true)) (?v_387 (= tmp670 1)) (?v_389 (not x319)) (?v_1974 (not x367))) (let ((?v_390 (and ?v_1974 true)) (?v_392 (and x367 true)) (?v_391 (= tmp669 1)) (?v_393 (not x557)) (?v_1831 (not x509))) (let ((?v_394 (and ?v_1831 true)) (?v_396 (and x509 true)) (?v_395 (= tmp668 1)) (?v_397 (not x227)) (?v_2081 (not x271))) (let ((?v_398 (and ?v_2081 true)) (?v_400 (and x271 true)) (?v_399 (= tmp667 1)) (?v_401 (not x652)) (?v_402 (and (not x605) true)) (?v_404 (and x605 true)) (?v_403 (= tmp666 1)) (?v_405 (not x131)) (?v_2193 (not x179))) (let ((?v_406 (and ?v_2193 true)) (?v_408 (and x179 true)) (?v_407 (= tmp665 1)) (?v_409 (not x747)) (?v_1615 (not x699))) (let ((?v_410 (and ?v_1615 true)) (?v_412 (and x699 true)) (?v_411 (= tmp664 1)) (?v_413 (not x36)) (?v_2289 (not x84))) (let ((?v_414 (and ?v_2289 true)) (?v_416 (and x84 true)) (?v_415 (= tmp663 1)) (?v_417 (not x461)) (?v_418 (and (not x414) true)) (?v_420 (and x414 true)) (?v_419 (= tmp662 1)) (?v_421 (not x318)) (?v_422 (and (not x366) true)) (?v_424 (and x366 true)) (?v_423 (= tmp661 1)) (?v_425 (not x556)) (?v_426 (and (not x508) true)) (?v_428 (and x508 true)) (?v_427 (= tmp660 1)) (?v_429 (not x226)) (?v_430 (and (not x270) true)) (?v_432 (and x270 true)) (?v_431 (= tmp659 1)) (?v_433 (not x651)) (?v_1716 (not x604))) (let ((?v_434 (and ?v_1716 true)) (?v_436 (and x604 true)) (?v_435 (= tmp658 1)) (?v_437 (not x130)) (?v_438 (and (not x178) true)) (?v_440 (and x178 true)) (?v_439 (= tmp657 1)) (?v_441 (not x746)) (?v_442 (and (not x698) true)) (?v_444 (and x698 true)) (?v_443 (= tmp656 1)) (?v_445 (not x35)) (?v_446 (and (not x83) true)) (?v_448 (and x83 true)) (?v_447 (= tmp655 1)) (?v_449 (not x460)) (?v_1927 (not x413))) (let ((?v_450 (and ?v_1927 true)) (?v_452 (and x413 true)) (?v_451 (= tmp654 1)) (?v_453 (not x317)) (?v_1971 (not x365))) (let ((?v_454 (and ?v_1971 true)) (?v_456 (and x365 true)) (?v_455 (= tmp653 1)) (?v_457 (not x555)) (?v_1826 (not x507))) (let ((?v_458 (and ?v_1826 true)) (?v_460 (and x507 true)) (?v_459 (= tmp652 1)) (?v_461 (not x225)) (?v_2077 (not x269))) (let ((?v_462 (and ?v_2077 true)) (?v_464 (and x269 true)) (?v_463 (= tmp651 1)) (?v_465 (not x650)) (?v_466 (and (not x603) true)) (?v_468 (and x603 true)) (?v_467 (= tmp650 1)) (?v_469 (not x129)) (?v_2190 (not x177))) (let ((?v_470 (and ?v_2190 true)) (?v_472 (and x177 true)) (?v_471 (= tmp649 1)) (?v_473 (not x745)) (?v_1611 (not x697))) (let ((?v_474 (and ?v_1611 true)) (?v_476 (and x697 true)) (?v_475 (= tmp648 1)) (?v_477 (not x34)) (?v_2287 (not x82))) (let ((?v_478 (and ?v_2287 true)) (?v_480 (and x82 true)) (?v_479 (= tmp647 1)) (?v_481 (not x459)) (?v_482 (and (not x412) true)) (?v_484 (and x412 true)) (?v_483 (= tmp646 1)) (?v_485 (not x316)) (?v_486 (and (not x364) true)) (?v_488 (and x364 true)) (?v_487 (= tmp645 1)) (?v_489 (not x554)) (?v_490 (and (not x506) true)) (?v_492 (and x506 true)) (?v_491 (= tmp644 1)) (?v_493 (not x224)) (?v_494 (and (not x268) true)) (?v_496 (and x268 true)) (?v_495 (= tmp643 1)) (?v_497 (not x649)) (?v_1713 (not x602))) (let ((?v_498 (and ?v_1713 true)) (?v_500 (and x602 true)) (?v_499 (= tmp642 1)) (?v_501 (not x128)) (?v_502 (and (not x176) true)) (?v_504 (and x176 true)) (?v_503 (= tmp641 1)) (?v_505 (not x744)) (?v_506 (and (not x696) true)) (?v_508 (and x696 true)) (?v_507 (= tmp640 1)) (?v_509 (not x33)) (?v_510 (and (not x81) true)) (?v_512 (and x81 true)) (?v_511 (= tmp639 1)) (?v_513 (not x458)) (?v_1923 (not x411))) (let ((?v_514 (and ?v_1923 true)) (?v_516 (and x411 true)) (?v_515 (= tmp638 1)) (?v_517 (not x315)) (?v_1968 (not x363))) (let ((?v_518 (and ?v_1968 true)) (?v_520 (and x363 true)) (?v_519 (= tmp637 1)) (?v_521 (not x553)) (?v_1822 (not x505))) (let ((?v_522 (and ?v_1822 true)) (?v_524 (and x505 true)) (?v_523 (= tmp636 1)) (?v_525 (not x223)) (?v_2073 (not x267))) (let ((?v_526 (and ?v_2073 true)) (?v_528 (and x267 true)) (?v_527 (= tmp635 1)) (?v_529 (not x648)) (?v_530 (and (not x601) true)) (?v_532 (and x601 true)) (?v_531 (= tmp634 1)) (?v_533 (not x127)) (?v_2187 (not x175))) (let ((?v_534 (and ?v_2187 true)) (?v_536 (and x175 true)) (?v_535 (= tmp633 1)) (?v_537 (not x743)) (?v_1609 (not x695))) (let ((?v_538 (and ?v_1609 true)) (?v_540 (and x695 true)) (?v_539 (= tmp632 1)) (?v_541 (not x32)) (?v_2286 (not x80))) (let ((?v_542 (and ?v_2286 true)) (?v_544 (and x80 true)) (?v_543 (= tmp631 1)) 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true)) (?v_584 (and x361 true)) (?v_583 (= tmp621 1)) (?v_585 (not x551)) (?v_1819 (not x503))) (let ((?v_586 (and ?v_1819 true)) (?v_588 (and x503 true)) (?v_587 (= tmp620 1)) (?v_589 (not x221)) (?v_2070 (not x265))) (let ((?v_590 (and ?v_2070 true)) (?v_592 (and x265 true)) (?v_591 (= tmp619 1)) (?v_593 (not x646)) (?v_594 (and (not x599) true)) (?v_596 (and x599 true)) (?v_595 (= tmp618 1)) (?v_597 (not x125)) (?v_2183 (not x173))) (let ((?v_598 (and ?v_2183 true)) (?v_600 (and x173 true)) (?v_599 (= tmp617 1)) (?v_601 (not x741)) (?v_1606 (not x693))) (let ((?v_602 (and ?v_1606 true)) (?v_604 (and x693 true)) (?v_603 (= tmp616 1)) (?v_605 (not x30)) (?v_2282 (not x78))) (let ((?v_606 (and ?v_2282 true)) (?v_608 (and x78 true)) (?v_607 (= tmp615 1)) (?v_609 (not x455)) (?v_610 (and (not x408) true)) (?v_612 (and x408 true)) (?v_611 (= tmp614 1)) (?v_613 (not x312)) (?v_614 (and (not x360) true)) (?v_616 (and x360 true)) (?v_615 (= tmp613 1)) (?v_617 (not x550)) (?v_618 (and (not x502) true)) (?v_620 (and x502 true)) (?v_619 (= tmp612 1)) (?v_621 (not x220)) (?v_622 (and (not x264) true)) (?v_624 (and x264 true)) (?v_623 (= tmp611 1)) (?v_625 (not x645)) (?v_1705 (not x598))) (let ((?v_626 (and ?v_1705 true)) (?v_628 (and x598 true)) (?v_627 (= tmp610 1)) (?v_629 (not x124)) (?v_630 (and (not x172) true)) (?v_632 (and x172 true)) (?v_631 (= tmp609 1)) (?v_633 (not x740)) (?v_634 (and (not x692) true)) (?v_636 (and x692 true)) (?v_635 (= tmp608 1)) (?v_637 (not x29)) (?v_638 (and (not x77) true)) (?v_640 (and x77 true)) (?v_639 (= tmp607 1)) (?v_641 (not x501)) (?v_1918 (not x407))) (let ((?v_642 (and ?v_1918 true)) (?v_644 (and x407 true)) (?v_643 (= tmp606 1)) (?v_645 (not x311)) (?v_1960 (not x359))) (let ((?v_646 (and ?v_1960 true)) (?v_648 (and x359 true)) (?v_647 (= tmp605 1)) (?v_649 (not x597)) (?v_1750 (not x549))) (let ((?v_650 (and ?v_1750 true)) (?v_652 (and x549 true)) (?v_651 (= tmp604 1)) (?v_653 (not x219)) (?v_2066 (not x263))) (let ((?v_654 (and ?v_2066 true)) (?v_656 (and x263 true)) (?v_655 (= tmp603 1)) (?v_657 (not x691)) (?v_1647 (not x644))) (let ((?v_658 (and ?v_1647 true)) (?v_660 (and x644 true)) (?v_659 (= tmp602 1)) (?v_661 (not x123)) (?v_2180 (not x171))) (let ((?v_662 (and ?v_2180 true)) (?v_664 (and x171 true)) (?v_663 (= tmp601 1)) (?v_665 (not x768)) (?v_1543 (not x739))) (let ((?v_666 (and ?v_1543 true)) (?v_668 (and x739 true)) (?v_667 (= tmp600 1)) (?v_669 (not x28)) (?v_2278 (not x76))) (let ((?v_670 (and ?v_2278 true)) (?v_672 (and x76 true)) (?v_671 (= tmp599 1)) (?v_673 (not x454)) (?v_674 (and (not x406) true)) (?v_676 (and x406 true)) (?v_675 (= tmp598 1)) (?v_677 (not x310)) (?v_678 (and (not x358) true)) (?v_680 (and x358 true)) (?v_679 (= tmp597 1)) (?v_681 (not x548)) (?v_682 (and (not x500) true)) (?v_684 (and x500 true)) (?v_683 (= tmp596 1)) (?v_685 (not x218)) (?v_686 (and (not x262) true)) (?v_688 (and x262 true)) (?v_687 (= tmp595 1)) (?v_689 (not x643)) (?v_1702 (not x596))) (let ((?v_690 (and ?v_1702 true)) (?v_692 (and x596 true)) (?v_691 (= tmp594 1)) (?v_693 (not x122)) (?v_694 (and (not x170) true)) (?v_696 (and x170 true)) (?v_695 (= tmp593 1)) (?v_697 (not x738)) (?v_698 (and (not x690) true)) (?v_700 (and x690 true)) (?v_699 (= tmp592 1)) (?v_701 (not x27)) (?v_702 (and (not x75) true)) (?v_704 (and x75 true)) (?v_703 (= tmp591 1)) (?v_705 (not x453)) (?v_1915 (not x405))) (let ((?v_706 (and ?v_1915 true)) (?v_708 (and x405 true)) (?v_707 (= tmp590 1)) (?v_709 (not x309)) (?v_1957 (not x357))) (let ((?v_710 (and ?v_1957 true)) (?v_712 (and x357 true)) (?v_711 (= tmp589 1)) (?v_713 (not x547)) (?v_714 (and (not x499) true)) (?v_716 (and x499 true)) (?v_715 (= tmp588 1)) (?v_717 (not x217)) (?v_718 (and (not x261) true)) (?v_720 (and x261 true)) (?v_719 (= tmp587 1)) (?v_721 (not x642)) (?v_722 (and (not x595) true)) (?v_724 (and x595 true)) (?v_723 (= tmp586 1)) (?v_725 (not x121)) (?v_2177 (not x169))) (let ((?v_726 (and ?v_2177 true)) (?v_728 (and x169 true)) (?v_727 (= tmp585 1)) (?v_729 (not x737)) (?v_730 (and (not x689) true)) (?v_732 (and x689 true)) (?v_731 (= tmp584 1)) (?v_733 (not x26)) (?v_2276 (not x74))) (let ((?v_734 (and ?v_2276 true)) (?v_736 (and x74 true)) (?v_735 (= tmp583 1)) (?v_737 (not x452)) (?v_738 (and (not x404) true)) (?v_740 (and x404 true)) (?v_739 (= tmp582 1)) (?v_741 (not x308)) (?v_742 (and (not x356) true)) (?v_744 (and x356 true)) (?v_743 (= tmp581 1)) (?v_745 (not x546)) (?v_746 (and (not x498) true)) (?v_748 (and x498 true)) (?v_747 (= tmp580 1)) (?v_749 (not x216)) (?v_2068 (not x260))) (let ((?v_750 (and ?v_2068 true)) (?v_752 (and x260 true)) (?v_751 (= tmp579 1)) (?v_753 (not x641)) (?v_754 (and (not x594) true)) (?v_756 (and x594 true)) (?v_755 (= tmp578 1)) (?v_757 (not x120)) (?v_758 (and (not x168) true)) (?v_760 (and x168 true)) (?v_759 (= tmp577 1)) (?v_761 (not x736)) (?v_762 (and (not x688) true)) (?v_764 (and x688 true)) (?v_763 (= tmp576 1)) (?v_765 (not x25)) (?v_766 (and (not x73) 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tmp566 1)) (?v_805 (not x354)) (?v_1916 (not x402))) (let ((?v_806 (and ?v_1916 true)) (?v_808 (and x402 true)) (?v_807 (= tmp565 1)) (?v_809 (not x592)) (?v_1747 (not x544))) (let ((?v_810 (and ?v_1747 true)) (?v_812 (and x544 true)) (?v_811 (= tmp564 1)) (?v_813 (not x258)) (?v_2002 (not x306))) (let ((?v_814 (and ?v_2002 true)) (?v_816 (and x306 true)) (?v_815 (= tmp563 1)) (?v_817 (not x734)) (?v_1643 (not x639))) (let ((?v_818 (and ?v_1643 true)) (?v_820 (and x639 true)) (?v_819 (= tmp562 1)) (?v_821 (not x166)) (?v_2108 (not x214))) (let ((?v_822 (and ?v_2108 true)) (?v_824 (and x214 true)) (?v_823 (= tmp561 1)) (?v_825 (not x767)) (?v_826 (and (not x766) true)) (?v_828 (and x766 true)) (?v_827 (= tmp560 1)) (?v_829 (not x23)) (?v_2277 (not x71))) (let ((?v_830 (and ?v_2277 true)) (?v_832 (and x71 true)) (?v_831 (= tmp559 1)) (?v_833 (not x449)) (?v_834 (and (not x401) true)) (?v_836 (and x401 true)) (?v_835 (= tmp558 1)) (?v_837 (not x305)) (?v_838 (and (not x353) true)) (?v_840 (and x353 true)) (?v_839 (= tmp557 1)) (?v_841 (not x543)) (?v_1816 (not x495))) (let ((?v_842 (and ?v_1816 true)) (?v_844 (and x495 true)) (?v_843 (= tmp556 1)) (?v_845 (not x213)) (?v_846 (and (not x257) true)) (?v_848 (and x257 true)) (?v_847 (= tmp555 1)) (?v_849 (not x638)) (?v_850 (and (not x591) true)) (?v_852 (and x591 true)) (?v_851 (= tmp554 1)) (?v_853 (not x118)) (?v_854 (and (not x165) true)) (?v_856 (and x165 true)) (?v_855 (= tmp553 1)) (?v_857 (not x733)) (?v_858 (and (not x686) true)) (?v_860 (and x686 true)) (?v_859 (= tmp552 1)) (?v_861 (not x22)) (?v_862 (and (not x70) true)) (?v_864 (and x70 true)) (?v_863 (= tmp551 1)) (?v_865 (not x448)) (?v_1919 (not x400))) (let ((?v_866 (and ?v_1919 true)) (?v_868 (and x400 true)) (?v_867 (= tmp550 1)) (?v_869 (not x304)) (?v_1962 (not x352))) (let ((?v_870 (and ?v_1962 true)) (?v_872 (and x352 true)) (?v_871 (= tmp549 1)) (?v_873 (not x542)) (?v_874 (and (not x494) true)) (?v_876 (and x494 true)) (?v_875 (= tmp548 1)) (?v_877 (not x212)) (?v_2075 (not x256))) (let ((?v_878 (and ?v_2075 true)) (?v_880 (and x256 true)) (?v_879 (= tmp547 1)) (?v_881 (not x637)) (?v_1703 (not x590))) (let ((?v_882 (and ?v_1703 true)) (?v_884 (and x590 true)) (?v_883 (= tmp546 1)) (?v_885 (not x117)) (?v_2181 (not x164))) (let ((?v_886 (and ?v_2181 true)) (?v_888 (and x164 true)) (?v_887 (= tmp545 1)) (?v_889 (not x732)) (?v_1605 (not x685))) (let ((?v_890 (and ?v_1605 true)) (?v_892 (and x685 true)) (?v_891 (= tmp544 1)) (?v_893 (not x21)) (?v_2280 (not x69))) (let ((?v_894 (and ?v_2280 true)) (?v_896 (and x69 true)) (?v_895 (= tmp543 1)) (?v_897 (not x447)) (?v_898 (and (not x399) true)) (?v_900 (and x399 true)) (?v_899 (= tmp542 1)) (?v_901 (not x303)) (?v_902 (and (not x351) true)) (?v_904 (and x351 true)) (?v_903 (= tmp541 1)) (?v_905 (not x541)) (?v_1821 (not x493))) (let ((?v_906 (and ?v_1821 true)) (?v_908 (and x493 true)) (?v_907 (= tmp540 1)) (?v_909 (not x211)) (?v_910 (and (not x255) true)) (?v_912 (and x255 true)) 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((?v_1334 (and ?v_2206 true)) (?v_1336 (and x150 true)) (?v_1335 (= tmp433 1)) (?v_1337 (not x718)) (?v_1629 (not x671))) (let ((?v_1338 (and ?v_1629 true)) (?v_1340 (and x671 true)) (?v_1339 (= tmp432 1)) (?v_1341 (not x8)) (?v_2302 (not x55))) (let ((?v_1342 (and ?v_2302 true)) (?v_1344 (and x55 true)) (?v_1343 (= tmp431 1)) (?v_1345 (not x433)) (?v_1346 (and (not x385) true)) (?v_1348 (and x385 true)) (?v_1347 (= tmp430 1)) (?v_1349 (not x289)) (?v_1350 (and (not x337) true)) (?v_1352 (and x337 true)) (?v_1351 (= tmp429 1)) (?v_1353 (not x527)) (?v_1847 (not x479))) (let ((?v_1354 (and ?v_1847 true)) (?v_1356 (and x479 true)) (?v_1355 (= tmp428 1)) (?v_1357 (not x197)) (?v_1358 (and (not x245) true)) (?v_1360 (and x245 true)) (?v_1359 (= tmp427 1)) (?v_1361 (not x622)) (?v_1362 (and (not x575) true)) (?v_1364 (and x575 true)) (?v_1363 (= tmp426 1)) (?v_1365 (not x102)) (?v_1366 (and (not x149) true)) (?v_1368 (and x149 true)) (?v_1367 (= tmp425 1)) (?v_1369 (not x717)) (?v_1370 (and 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true)) (?v_1403 (= tmp416 1)) (?v_1405 (not x6)) (?v_2305 (not x53))) (let ((?v_1406 (and ?v_2305 true)) (?v_1408 (and x53 true)) (?v_1407 (= tmp415 1)) (?v_1409 (not x431)) (?v_1410 (and (not x383) true)) (?v_1412 (and x383 true)) (?v_1411 (= tmp414 1)) (?v_1413 (not x287)) (?v_1414 (and (not x335) true)) (?v_1416 (and x335 true)) (?v_1415 (= tmp413 1)) (?v_1417 (not x525)) (?v_1849 (not x477))) (let ((?v_1418 (and ?v_1849 true)) (?v_1420 (and x477 true)) (?v_1419 (= tmp412 1)) (?v_1421 (not x195)) (?v_1422 (and (not x243) true)) (?v_1424 (and x243 true)) (?v_1423 (= tmp411 1)) (?v_1425 (not x620)) (?v_1426 (and (not x573) true)) (?v_1428 (and x573 true)) (?v_1427 (= tmp410 1)) (?v_1429 (not x100)) (?v_1430 (and (not x147) true)) (?v_1432 (and x147 true)) (?v_1431 (= tmp409 1)) (?v_1433 (not x715)) (?v_1434 (and (not x668) true)) (?v_1436 (and x668 true)) (?v_1435 (= tmp408 1)) (?v_1437 (not x5)) (?v_1438 (and (not x52) true)) (?v_1440 (and x52 true)) (?v_1439 (= tmp407 1)) (?v_1441 (not x430)) (?v_1951 (not x382))) (let ((?v_1442 (and ?v_1951 true)) (?v_1444 (and x382 true)) (?v_1443 (= tmp406 1)) (?v_1445 (not x286)) (?v_1993 (not x334))) (let ((?v_1446 (and ?v_1993 true)) (?v_1448 (and x334 true)) (?v_1447 (= tmp405 1)) (?v_1449 (not x524)) (?v_1450 (and (not x476) true)) (?v_1452 (and x476 true)) (?v_1451 (= tmp404 1)) (?v_1453 (not x194)) (?v_2100 (not x242))) (let ((?v_1454 (and ?v_2100 true)) (?v_1456 (and x242 true)) (?v_1455 (= tmp403 1)) (?v_1457 (not x619)) (?v_1739 (not x572))) (let ((?v_1458 (and ?v_1739 true)) (?v_1460 (and x572 true)) (?v_1459 (= tmp402 1)) (?v_1461 (not x99)) (?v_2211 (not x146))) (let ((?v_1462 (and ?v_2211 true)) (?v_1464 (and x146 true)) (?v_1463 (= tmp401 1)) (?v_1465 (not x714)) (?v_1636 (not x667))) (let ((?v_1466 (and ?v_1636 true)) (?v_1468 (and x667 true)) (?v_1467 (= tmp400 1)) (?v_1469 (not x4)) (?v_2308 (not x51))) (let ((?v_1470 (and ?v_2308 true)) (?v_1472 (and x51 true)) (?v_1471 (= tmp399 1)) (?v_1473 (not x429)) 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(and ?v_1997 true)) (?v_1512 (and x332 true)) (?v_1511 (= tmp389 1)) (?v_1513 (not x570)) (?v_1810 (not x522))) (let ((?v_1514 (and ?v_1810 true)) (?v_1516 (and x522 true)) (?v_1515 (= tmp388 1)) (?v_1517 (not x192)) (?v_2104 (not x240))) (let ((?v_1518 (and ?v_2104 true)) (?v_1520 (and x240 true)) (?v_1519 (= tmp387 1)) (?v_1521 (not x665)) (?v_1698 (not x617))) (let ((?v_1522 (and ?v_1698 true)) (?v_1524 (and x617 true)) (?v_1523 (= tmp386 1)) (?v_1525 (not x97)) (?v_2215 (not x144))) (let ((?v_1526 (and ?v_2215 true)) (?v_1528 (and x144 true)) (?v_1527 (= tmp385 1)) (?v_1529 (not x760)) (?v_1599 (not x712))) (let ((?v_1530 (and ?v_1599 true)) (?v_1532 (and x712 true)) (?v_1531 (= tmp384 1)) (?v_1533 (not x2)) (?v_2311 (not x49))) (let ((?v_1534 (and ?v_2311 true)) (?v_1536 (and x49 true)) (?v_1535 (= tmp383 1)) (?v_1537 (and ?v_761 true)) (?v_1539 (and x736 true)) (?v_1538 (= tmp382 6)) (?v_1540 (and ?v_793 true)) (?v_1542 (and x735 true)) (?v_1541 (= tmp381 4)) (?v_1544 (and ?v_697 true)) (?v_1546 (and x738 true)) (?v_1545 (= tmp380 6)) (?v_1547 (and ?v_857 true)) (?v_1549 (and x733 true)) (?v_1548 (= tmp379 6)) (?v_1550 (and ?v_633 true)) (?v_1551 (and x740 true)) (?v_1552 (and ?v_921 true)) (?v_1554 (and x731 true)) (?v_1553 (= tmp377 8)) (?v_1555 (and ?v_569 true)) (?v_1557 (and x742 true)) (?v_1556 (= tmp376 8)) (?v_1559 (and ?v_985 true)) (?v_1561 (and x729 true)) (?v_1560 (= tmp375 8)) (?v_1562 (and ?v_505 true)) (?v_1564 (and x744 true)) (?v_1563 (= tmp374 8)) (?v_1565 (and ?v_1049 true)) (?v_1567 (and x727 true)) (?v_1566 (= tmp373 8)) (?v_1568 (and ?v_441 true)) (?v_1570 (and x746 true)) (?v_1569 (= tmp372 8)) (?v_1572 (and ?v_1113 true)) (?v_1574 (and x725 true)) (?v_1573 (= tmp371 8)) (?v_1575 (and ?v_377 true)) (?v_1577 (and x748 true)) (?v_1576 (= tmp370 6)) (?v_1579 (= tmp369 8)) (?v_1580 (and ?v_313 true)) (?v_1581 (and x750 true)) (?v_1582 (= tmp367 8)) (?v_1583 (= tmp366 8)) (?v_1584 (and ?v_1305 true)) (?v_1585 (and x719 true)) (?v_1586 (and ?v_185 true)) (?v_1588 (and x754 true)) (?v_1587 (= tmp364 8)) (?v_1589 (and ?v_1369 true)) (?v_1590 (and x717 true)) (?v_1591 (and ?v_121 true)) (?v_1593 (and x756 true)) (?v_1592 (= tmp362 8)) (?v_1594 (and ?v_1433 true)) (?v_1596 (and x715 true)) (?v_1595 (= tmp361 8)) (?v_1597 (and ?v_57 true)) (?v_1598 (and x758 true)) (?v_1600 (and ?v_1497 true)) (?v_1602 (and x713 true)) (?v_1601 (= tmp359 8)) (?v_1604 (= tmp356 2)) (?v_1607 (= tmp354 4)) (?v_1610 (= tmp352 4)) (?v_1612 (= tmp350 2)) (?v_1614 (= tmp349 6)) (?v_1617 (and ?v_1169 true)) (?v_1619 (and x676 true)) (?v_1618 (= tmp345 8)) (?v_1621 (= tmp344 6)) (?v_1623 (and ?v_1233 true)) (?v_1625 (and x674 true)) (?v_1624 (= tmp343 8)) (?v_1627 (and ?v_241 true)) (?v_1628 (and x704 true)) (?v_1630 (= tmp341 8)) (?v_1633 (= tmp339 8)) (?v_1635 (= tmp338 6)) (?v_1637 (= tmp337 8)) (?v_1639 (= tmp336 6)) (?v_1640 (= tmp335 8)) (?v_1641 (and ?v_753 true)) (?v_1642 (and x641 true)) (?v_1644 (and ?v_785 true)) (?v_1646 (and x640 true)) (?v_1645 (= tmp333 6)) (?v_1648 (and ?v_689 true)) (?v_1650 (and x643 true)) (?v_1649 (= tmp332 8)) (?v_1651 (and ?v_849 true)) (?v_1653 (and x638 true)) (?v_1652 (= tmp331 6)) (?v_1654 (and ?v_625 true)) (?v_1656 (and x645 true)) (?v_1655 (= tmp330 8)) (?v_1657 (and ?v_913 true)) (?v_1658 (and x636 true)) (?v_1659 (and ?v_561 true)) (?v_1660 (and x647 true)) (?v_1662 (and ?v_977 true)) (?v_1664 (and x634 true)) (?v_1663 (= tmp327 8)) (?v_1665 (and ?v_497 true)) (?v_1667 (and x649 true)) (?v_1666 (= tmp326 6)) (?v_1668 (and ?v_1041 true)) (?v_1670 (and x632 true)) (?v_1669 (= tmp325 6)) (?v_1671 (and ?v_433 true)) (?v_1672 (and x651 true)) (?v_1674 (and ?v_1105 true)) (?v_1675 (and x630 true)) (?v_1676 (and ?v_369 true)) (?v_1678 (and x653 true)) (?v_1677 (= tmp322 4)) (?v_1680 (= tmp321 4)) (?v_1681 (and ?v_305 true)) (?v_1682 (and x655 true)) (?v_1683 (and ?v_1297 true)) (?v_1684 (and x624 true)) (?v_1685 (and ?v_177 true)) (?v_1686 (and x659 true)) (?v_1687 (and ?v_1361 true)) (?v_1689 (and x622 true)) (?v_1688 (= tmp315 6)) (?v_1690 (and ?v_113 true)) (?v_1692 (and x661 true)) (?v_1691 (= tmp314 6)) (?v_1693 (and ?v_1425 true)) (?v_1694 (and x620 true)) (?v_1695 (and ?v_49 true)) (?v_1697 (and x663 true)) (?v_1696 (= tmp312 6)) (?v_1699 (and ?v_1489 true)) (?v_1701 (and x618 true)) (?v_1700 (= tmp311 8)) (?v_1704 (= tmp307 4)) (?v_1706 (and ?v_649 true)) (?v_1708 (and x597 true)) (?v_1707 (= tmp306 4)) (?v_1711 (= tmp304 4)) (?v_1712 (= tmp303 6)) (?v_1714 (= tmp302 6)) (?v_1717 (= tmp300 6)) (?v_1718 (= tmp299 8)) (?v_1720 (= tmp298 6)) (?v_1721 (and ?v_1161 true)) (?v_1723 (and x581 true)) (?v_1722 (= tmp297 6)) (?v_1726 (and ?v_1225 true)) (?v_1728 (and x579 true)) (?v_1727 (= tmp295 6)) (?v_1730 (= tmp294 2)) (?v_1732 (= tmp293 6)) (?v_1734 (= tmp292 4)) (?v_1736 (= tmp291 6)) (?v_1738 (= tmp290 4)) (?v_1740 (= tmp289 4)) (?v_1742 (= tmp288 4)) (?v_1743 (= tmp287 6)) (?v_1744 (and ?v_745 true)) (?v_1746 (and x546 true)) (?v_1745 (= tmp286 6)) (?v_1748 (and ?v_777 true)) (?v_1749 (and x545 true)) (?v_1751 (and ?v_681 true)) (?v_1753 (and x548 true)) (?v_1752 (= tmp284 6)) (?v_1754 (and ?v_841 true)) (?v_1756 (and x543 true)) (?v_1755 (= tmp283 4)) (?v_1757 (and ?v_617 true)) (?v_1759 (and x550 true)) (?v_1758 (= tmp282 6)) (?v_1760 (and ?v_905 true)) (?v_1762 (and x541 true)) (?v_1761 (= tmp281 2)) (?v_1763 (and ?v_553 true)) (?v_1765 (and x552 true)) (?v_1764 (= tmp280 8)) (?v_1767 (and ?v_969 true)) (?v_1769 (and x539 true)) (?v_1768 (= tmp279 2)) (?v_1770 (and ?v_489 true)) (?v_1771 (and x554 true)) (?v_1772 (and ?v_1033 true)) (?v_1774 (and x537 true)) (?v_1773 (= tmp277 2)) (?v_1775 (and ?v_425 true)) (?v_1777 (and x556 true)) (?v_1776 (= tmp276 6)) (?v_1779 (and ?v_1097 true)) (?v_1781 (and x535 true)) (?v_1780 (= tmp275 2)) (?v_1782 (and ?v_361 true)) (?v_1784 (and x558 true)) (?v_1783 (= tmp274 6)) (?v_1786 (= tmp273 4)) (?v_1787 (and ?v_297 true)) (?v_1789 (and x560 true)) (?v_1788 (= tmp272 6)) (?v_1790 (= tmp271 6)) (?v_1791 (and ?v_233 true)) (?v_1793 (and x562 true)) (?v_1792 (= tmp270 8)) (?v_1794 (and ?v_1289 true)) (?v_1795 (and x529 true)) (?v_1796 (and ?v_169 true)) (?v_1798 (and x564 true)) (?v_1797 (= tmp268 6)) (?v_1799 (and ?v_1353 true)) (?v_1801 (and x527 true)) (?v_1800 (= tmp267 8)) (?v_1802 (and ?v_105 true)) (?v_1804 (and x566 true)) (?v_1803 (= tmp266 6)) (?v_1805 (and ?v_1417 true)) (?v_1807 (and x525 true)) (?v_1806 (= tmp265 8)) (?v_1808 (and ?v_41 true)) (?v_1809 (and x568 true)) (?v_1811 (and ?v_1481 true)) (?v_1813 (and x523 true)) (?v_1812 (= tmp263 6)) (?v_1815 (= tmp260 4)) (?v_1817 (and ?v_801 true)) (?v_1818 (and x496 true)) (?v_1820 (= tmp258 4)) (?v_1823 (= tmp256 2)) (?v_1825 (= tmp255 6)) (?v_1828 (and ?v_993 true)) (?v_1830 (and x490 true)) (?v_1829 (= tmp253 6)) (?v_1832 (= tmp252 4)) (?v_1834 (= tmp251 6)) (?v_1836 (= tmp250 6)) (?v_1837 (and ?v_1121 true)) (?v_1838 (and x486 true)) (?v_1840 (= tmp248 6)) (?v_1841 (and ?v_1185 true)) (?v_1842 (and x484 true)) (?v_1846 (= tmp244 6)) (?v_1851 (= tmp240 8)) (?v_1854 (and ?v_769 true)) (?v_1856 (and x451 true)) (?v_1855 (= tmp237 4)) (?v_1857 (and ?v_705 true)) (?v_1858 (and x453 true)) (?v_1859 (and ?v_833 true)) (?v_1861 (and x449 true)) (?v_1860 (= tmp235 4)) (?v_1862 (and ?v_609 true)) (?v_1863 (and x455 true)) (?v_1864 (and ?v_897 true)) (?v_1866 (and x447 true)) (?v_1865 (= tmp233 4)) (?v_1867 (and ?v_545 true)) (?v_1868 (and x457 true)) (?v_1870 (and ?v_961 true)) (?v_1872 (and x445 true)) (?v_1871 (= tmp231 4)) (?v_1873 (and ?v_481 true)) (?v_1875 (and x459 true)) (?v_1874 (= tmp230 6)) (?v_1876 (and ?v_1025 true)) (?v_1878 (and x443 true)) (?v_1877 (= tmp229 2)) (?v_1879 (and ?v_417 true)) (?v_1880 (and x461 true)) (?v_1882 (and ?v_1089 true)) (?v_1884 (and x441 true)) (?v_1883 (= tmp227 2)) (?v_1885 (and ?v_353 true)) (?v_1887 (and x463 true)) (?v_1886 (= tmp226 8)) (?v_1889 (= tmp225 4)) (?v_1890 (and ?v_289 true)) (?v_1892 (and x465 true)) (?v_1891 (= tmp224 8)) (?v_1893 (= tmp223 4)) (?v_1894 (and ?v_225 true)) (?v_1896 (and x467 true)) (?v_1895 (= tmp222 8)) (?v_1897 (and ?v_1281 true)) (?v_1899 (and x435 true)) (?v_1898 (= tmp221 4)) (?v_1900 (and ?v_161 true)) (?v_1902 (and x469 true)) (?v_1901 (= tmp220 6)) (?v_1903 (and ?v_1345 true)) (?v_1905 (and x433 true)) (?v_1904 (= tmp219 4)) (?v_1906 (and ?v_97 true)) (?v_1908 (and x471 true)) (?v_1907 (= tmp218 6)) (?v_1909 (and ?v_1409 true)) (?v_1910 (and x431 true)) (?v_1911 (and ?v_33 true)) (?v_1912 (and x473 true)) (?v_1913 (and ?v_1473 true)) (?v_1914 (and x429 true)) (?v_1917 (= tmp213 6)) (?v_1922 (= tmp209 4)) (?v_1924 (= tmp208 4)) (?v_1926 (= tmp207 4)) (?v_1928 (= tmp206 4)) (?v_1930 (= tmp205 4)) (?v_1932 (= tmp204 4)) (?v_1934 (= tmp203 2)) (?v_1937 (= tmp201 2)) (?v_1939 (= tmp200 6)) (?v_1941 (= tmp199 2)) (?v_1943 (= tmp198 6)) (?v_1945 (= tmp197 4)) (?v_1948 (= tmp195 6)) (?v_1950 (= tmp194 4)) (?v_1952 (= tmp193 6)) (?v_1954 (= tmp192 4)) (?v_1956 (= tmp191 4)) (?v_1958 (= tmp190 2)) (?v_1959 (= tmp189 2)) (?v_1961 (= tmp188 4)) (?v_1963 (= tmp187 4)) (?v_1965 (= tmp186 4)) (?v_1967 (= tmp185 6)) (?v_1969 (= tmp184 4)) (?v_1970 (= tmp183 6)) (?v_1973 (= tmp181 8)) (?v_1975 (= tmp180 6)) (?v_1976 (= tmp179 8)) (?v_1978 (= tmp178 6)) (?v_1979 (and ?v_1157 true)) (?v_1980 (and x343 true)) (?v_1982 (= tmp176 6)) (?v_1984 (and ?v_1221 true)) (?v_1986 (and x341 true)) (?v_1985 (= tmp175 6)) (?v_1988 (= tmp174 6)) (?v_1994 (= tmp169 4)) (?v_1996 (= tmp168 1)) (?v_1998 (= tmp167 4)) (?v_1999 (and ?v_741 true)) (?v_2001 (and x308 true)) (?v_2000 (= tmp166 4)) (?v_2003 (and ?v_773 true)) (?v_2005 (and x307 true)) (?v_2004 (= tmp165 4)) (?v_2006 (and ?v_677 true)) (?v_2008 (and x310 true)) (?v_2007 (= tmp164 4)) (?v_2009 (and ?v_837 true)) (?v_2010 (and x305 true)) (?v_2011 (and ?v_613 true)) (?v_2013 (and x312 true)) (?v_2012 (= tmp162 4)) (?v_2014 (and ?v_901 true)) (?v_2016 (and x303 true)) (?v_2015 (= tmp161 6)) (?v_2017 (and ?v_549 true)) (?v_2019 (and x314 true)) (?v_2018 (= tmp160 6)) (?v_2021 (and ?v_965 true)) (?v_2023 (and x301 true)) (?v_2022 (= tmp159 6)) (?v_2024 (and ?v_485 true)) (?v_2026 (and x316 true)) (?v_2025 (= tmp158 6)) (?v_2027 (and ?v_1029 true)) (?v_2028 (and x299 true)) (?v_2029 (and ?v_421 true)) (?v_2031 (and x318 true)) (?v_2030 (= tmp156 6)) (?v_2033 (and ?v_1093 true)) (?v_2035 (and x297 true)) (?v_2034 (= tmp155 4)) (?v_2036 (and ?v_357 true)) (?v_2038 (and x320 true)) (?v_2037 (= tmp154 6)) (?v_2040 (= tmp153 4)) (?v_2041 (and ?v_293 true)) (?v_2043 (and x322 true)) (?v_2042 (= tmp152 4)) (?v_2044 (and ?v_229 true)) (?v_2046 (and x324 true)) (?v_2045 (= tmp150 4)) (?v_2047 (and ?v_1285 true)) (?v_2048 (and x291 true)) (?v_2049 (and ?v_165 true)) (?v_2051 (and x326 true)) (?v_2050 (= tmp148 4)) (?v_2052 (and ?v_1349 true)) (?v_2053 (and x289 true)) (?v_2054 (and ?v_101 true)) (?v_2056 (and x328 true)) (?v_2055 (= tmp146 4)) (?v_2057 (and ?v_1413 true)) (?v_2059 (and x287 true)) (?v_2058 (= tmp145 4)) (?v_2060 (and ?v_37 true)) (?v_2062 (and x330 true)) (?v_2061 (= tmp144 4)) (?v_2063 (and ?v_1477 true)) (?v_2065 (and x285 true)) (?v_2064 (= tmp143 4)) (?v_2067 (= tmp142 2)) (?v_2069 (= tmp141 1)) (?v_2071 (= tmp140 4)) (?v_2072 (= tmp139 2)) (?v_2074 (= tmp138 4)) (?v_2076 (= tmp137 2)) (?v_2078 (= tmp136 4)) (?v_2080 (= tmp135 2)) (?v_2082 (= tmp134 4)) (?v_2083 (= tmp133 2)) (?v_2085 (= tmp132 4)) (?v_2087 (= tmp131 1)) (?v_2089 (= tmp130 2)) (?v_2091 (= tmp129 1)) (?v_2094 (= tmp127 1)) (?v_2096 (= tmp126 4)) (?v_2099 (= tmp124 6)) (?v_2101 (= tmp123 2)) (?v_2103 (= tmp122 6)) (?v_2105 (= tmp121 2)) (?v_2106 (and ?v_749 true)) (?v_2107 (and x216 true)) (?v_2109 (and ?v_781 true)) (?v_2111 (and x215 true)) (?v_2110 (= tmp119 2)) (?v_2112 (and ?v_685 true)) (?v_2113 (and x218 true)) (?v_2114 (and ?v_845 true)) (?v_2116 (and x213 true)) (?v_2115 (= tmp117 4)) (?v_2117 (and ?v_621 true)) (?v_2119 (and x220 true)) (?v_2118 (= tmp116 2)) (?v_2120 (and ?v_909 true)) (?v_2121 (and x211 true)) (?v_2122 (and ?v_557 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?v_0 (+ (* 1 tmp1) (+ (* 1 tmp3) (+ (* 1 tmp5) (+ (* 1 tmp7) (+ (* 1 tmp9) (+ (* 1 tmp11) (+ (* 1 tmp13) (+ (* 1 tmp15) (+ (* 1 tmp17) (+ (* 1 tmp19) (+ (* 1 tmp21) (+ (* 1 tmp23) 0))))))))))))))))))))))))) 0) (<= x1 384) (>= x1 0) (=> (and ?v_1 ?v_2) (= tmp766 0)) (=> (and ?v_1 ?v_4) ?v_3) (=> (and x474 ?v_2) ?v_3) (=> (and x474 ?v_4) (= tmp766 2)) (=> (and ?v_5 ?v_6) (= tmp765 0)) (=> (and ?v_5 ?v_8) ?v_7) (=> (and x331 ?v_6) ?v_7) (=> (and x331 ?v_8) (= tmp765 2)) (=> (and ?v_9 ?v_10) (= tmp764 0)) (=> (and ?v_9 ?v_12) ?v_11) (=> (and x569 ?v_10) ?v_11) (=> (and x569 ?v_12) (= tmp764 2)) (=> (and ?v_13 ?v_14) (= tmp763 0)) (=> (and ?v_13 ?v_16) ?v_15) (=> (and x239 ?v_14) ?v_15) (=> (and x239 ?v_16) (= tmp763 2)) (=> (and ?v_17 ?v_18) (= tmp762 0)) (=> (and ?v_17 ?v_20) ?v_19) (=> (and x664 ?v_18) ?v_19) (=> (and x664 ?v_20) (= tmp762 2)) (=> (and ?v_21 ?v_22) (= tmp761 0)) (=> (and ?v_21 ?v_24) ?v_23) (=> (and x143 ?v_22) ?v_23) (=> (and x143 ?v_24) (= tmp761 2)) (=> (and ?v_25 ?v_26) (= tmp760 0)) (=> (and ?v_25 ?v_28) ?v_27) (=> (and x759 ?v_26) ?v_27) (=> (and x759 ?v_28) (= tmp760 2)) (=> (and ?v_29 ?v_30) (= tmp759 0)) (=> (and ?v_29 ?v_32) ?v_31) (=> (and x48 ?v_30) ?v_31) (=> (and x48 ?v_32) (= tmp759 2)) (=> (and ?v_33 ?v_34) (= tmp758 0)) (=> (and ?v_33 ?v_36) ?v_35) (=> (and x473 ?v_34) ?v_35) (=> (and x473 ?v_36) (= tmp758 2)) (=> (and ?v_37 ?v_38) (= tmp757 0)) (=> (and ?v_37 ?v_40) ?v_39) (=> (and x330 ?v_38) ?v_39) (=> (and x330 ?v_40) (= tmp757 2)) (=> (and ?v_41 ?v_42) (= tmp756 0)) (=> (and ?v_41 ?v_44) ?v_43) (=> (and x568 ?v_42) ?v_43) (=> (and x568 ?v_44) (= tmp756 2)) (=> (and ?v_45 ?v_46) (= tmp755 0)) (=> (and ?v_45 ?v_48) ?v_47) (=> (and x238 ?v_46) ?v_47) (=> (and x238 ?v_48) (= tmp755 2)) (=> (and ?v_49 ?v_50) (= tmp754 0)) (=> (and ?v_49 ?v_52) ?v_51) (=> (and x663 ?v_50) ?v_51) (=> (and x663 ?v_52) (= tmp754 2)) (=> (and ?v_53 ?v_54) (= tmp753 0)) (=> (and ?v_53 ?v_56) ?v_55) (=> (and x142 ?v_54) ?v_55) (=> (and x142 ?v_56) (= tmp753 2)) (=> (and ?v_57 ?v_58) (= tmp752 0)) (=> (and ?v_57 ?v_60) ?v_59) (=> (and x758 ?v_58) ?v_59) (=> (and x758 ?v_60) (= tmp752 2)) (=> (and ?v_61 ?v_62) (= tmp751 0)) (=> (and ?v_61 ?v_64) ?v_63) (=> (and x47 ?v_62) ?v_63) (=> (and x47 ?v_64) (= tmp751 2)) (=> (and ?v_65 ?v_66) (= tmp750 0)) (=> (and ?v_65 ?v_68) ?v_67) (=> (and x472 ?v_66) ?v_67) (=> (and x472 ?v_68) (= tmp750 2)) (=> (and ?v_69 ?v_70) (= tmp749 0)) (=> (and ?v_69 ?v_72) ?v_71) (=> (and x329 ?v_70) ?v_71) (=> (and x329 ?v_72) (= tmp749 2)) (=> (and ?v_73 ?v_74) (= tmp748 0)) (=> (and ?v_73 ?v_76) ?v_75) (=> (and x567 ?v_74) ?v_75) (=> (and x567 ?v_76) (= tmp748 2)) (=> (and ?v_77 ?v_78) (= tmp747 0)) (=> (and ?v_77 ?v_80) ?v_79) (=> (and x237 ?v_78) ?v_79) (=> (and x237 ?v_80) (= tmp747 2)) (=> (and ?v_81 ?v_82) (= tmp746 0)) (=> (and ?v_81 ?v_84) ?v_83) (=> (and x662 ?v_82) ?v_83) (=> (and x662 ?v_84) (= tmp746 2)) (=> (and ?v_85 ?v_86) (= tmp745 0)) (=> (and ?v_85 ?v_88) ?v_87) (=> (and x141 ?v_86) ?v_87) (=> (and x141 ?v_88) (= tmp745 2)) (=> (and ?v_89 ?v_90) (= tmp744 0)) (=> (and ?v_89 ?v_92) ?v_91) (=> (and x757 ?v_90) ?v_91) (=> (and x757 ?v_92) (= tmp744 2)) (=> (and ?v_93 ?v_94) (= tmp743 0)) (=> (and ?v_93 ?v_96) ?v_95) (=> (and x46 ?v_94) ?v_95) (=> (and x46 ?v_96) (= tmp743 2)) (=> (and ?v_97 ?v_98) (= tmp742 0)) (=> (and ?v_97 ?v_100) ?v_99) (=> (and x471 ?v_98) ?v_99) (=> (and x471 ?v_100) (= tmp742 2)) (=> (and ?v_101 ?v_102) (= tmp741 0)) (=> (and ?v_101 ?v_104) ?v_103) (=> (and x328 ?v_102) ?v_103) (=> (and x328 ?v_104) (= tmp741 2)) (=> (and ?v_105 ?v_106) (= tmp740 0)) (=> (and ?v_105 ?v_108) ?v_107) (=> (and x566 ?v_106) ?v_107) (=> (and x566 ?v_108) (= tmp740 2)) (=> (and ?v_109 ?v_110) (= tmp739 0)) (=> (and ?v_109 ?v_112) ?v_111) (=> (and x236 ?v_110) ?v_111) (=> (and x236 ?v_112) (= tmp739 2)) (=> (and ?v_113 ?v_114) (= tmp738 0)) (=> (and ?v_113 ?v_116) ?v_115) (=> (and x661 ?v_114) ?v_115) (=> (and x661 ?v_116) (= tmp738 2)) (=> (and ?v_117 ?v_118) (= tmp737 0)) (=> (and ?v_117 ?v_120) ?v_119) (=> (and x140 ?v_118) ?v_119) (=> (and x140 ?v_120) (= tmp737 2)) (=> (and ?v_121 ?v_122) (= tmp736 0)) (=> (and ?v_121 ?v_124) ?v_123) (=> (and x756 ?v_122) ?v_123) (=> (and x756 ?v_124) (= tmp736 2)) (=> (and ?v_125 ?v_126) (= tmp735 0)) (=> (and ?v_125 ?v_128) ?v_127) (=> (and x45 ?v_126) ?v_127) (=> (and x45 ?v_128) (= tmp735 2)) (=> (and ?v_129 ?v_130) (= tmp734 0)) (=> (and ?v_129 ?v_132) ?v_131) (=> (and x470 ?v_130) ?v_131) (=> (and x470 ?v_132) (= tmp734 2)) (=> (and ?v_133 ?v_134) (= tmp733 0)) (=> (and ?v_133 ?v_136) ?v_135) (=> (and x327 ?v_134) ?v_135) (=> (and x327 ?v_136) (= tmp733 2)) (=> (and ?v_137 ?v_138) (= tmp732 0)) (=> (and ?v_137 ?v_140) ?v_139) (=> (and x565 ?v_138) ?v_139) (=> (and x565 ?v_140) (= tmp732 2)) (=> (and ?v_141 ?v_142) (= tmp731 0)) (=> (and ?v_141 ?v_144) ?v_143) (=> (and x235 ?v_142) ?v_143) (=> (and x235 ?v_144) (= tmp731 2)) (=> (and ?v_145 ?v_146) (= tmp730 0)) (=> (and ?v_145 ?v_148) ?v_147) (=> (and x660 ?v_146) ?v_147) (=> (and x660 ?v_148) (= tmp730 2)) (=> (and ?v_149 ?v_150) (= tmp729 0)) (=> (and ?v_149 ?v_152) ?v_151) (=> (and x139 ?v_150) ?v_151) (=> (and x139 ?v_152) (= tmp729 2)) (=> (and ?v_153 ?v_154) (= tmp728 0)) (=> (and ?v_153 ?v_156) ?v_155) (=> (and x755 ?v_154) ?v_155) (=> (and x755 ?v_156) (= tmp728 2)) (=> (and ?v_157 ?v_158) (= tmp727 0)) (=> (and ?v_157 ?v_160) ?v_159) (=> (and x44 ?v_158) ?v_159) (=> (and x44 ?v_160) (= tmp727 2)) (=> (and ?v_161 ?v_162) (= tmp726 0)) (=> (and ?v_161 ?v_164) ?v_163) (=> (and x469 ?v_162) ?v_163) (=> (and x469 ?v_164) (= tmp726 2)) (=> (and ?v_165 ?v_166) (= tmp725 0)) (=> (and ?v_165 ?v_168) ?v_167) (=> (and x326 ?v_166) ?v_167) (=> (and x326 ?v_168) (= tmp725 2)) (=> (and ?v_169 ?v_170) (= tmp724 0)) (=> (and ?v_169 ?v_172) ?v_171) (=> (and x564 ?v_170) ?v_171) (=> (and x564 ?v_172) (= tmp724 2)) (=> (and ?v_173 ?v_174) (= tmp723 0)) (=> (and ?v_173 ?v_176) ?v_175) (=> (and x234 ?v_174) ?v_175) (=> (and x234 ?v_176) (= tmp723 2)) (=> (and ?v_177 ?v_178) (= tmp722 0)) (=> (and ?v_177 ?v_180) ?v_179) (=> (and x659 ?v_178) ?v_179) (=> (and x659 ?v_180) (= tmp722 2)) (=> (and ?v_181 ?v_182) (= tmp721 0)) (=> (and ?v_181 ?v_184) ?v_183) (=> (and x138 ?v_182) ?v_183) (=> (and x138 ?v_184) (= tmp721 2)) (=> (and ?v_185 ?v_186) (= tmp720 0)) (=> (and ?v_185 ?v_188) ?v_187) (=> (and x754 ?v_186) ?v_187) (=> (and x754 ?v_188) (= tmp720 2)) (=> (and ?v_189 ?v_190) (= tmp719 0)) (=> (and ?v_189 ?v_192) ?v_191) (=> (and x43 ?v_190) ?v_191) (=> (and x43 ?v_192) (= tmp719 2)) (=> (and ?v_193 ?v_194) (= tmp718 0)) (=> (and ?v_193 ?v_196) ?v_195) (=> (and x468 ?v_194) ?v_195) (=> (and x468 ?v_196) (= tmp718 2)) (=> (and ?v_197 ?v_198) (= tmp717 0)) (=> (and ?v_197 ?v_200) ?v_199) (=> (and x325 ?v_198) ?v_199) (=> (and x325 ?v_200) (= tmp717 2)) (=> (and ?v_201 ?v_202) (= tmp716 0)) (=> (and ?v_201 ?v_204) ?v_203) (=> (and x563 ?v_202) ?v_203) (=> (and x563 ?v_204) (= tmp716 2)) (=> (and ?v_205 ?v_206) (= tmp715 0)) (=> (and ?v_205 ?v_208) ?v_207) (=> (and x233 ?v_206) ?v_207) (=> (and x233 ?v_208) (= tmp715 2)) (=> (and ?v_209 ?v_210) (= tmp714 0)) (=> (and ?v_209 ?v_212) ?v_211) (=> (and x658 ?v_210) ?v_211) (=> (and x658 ?v_212) (= tmp714 2)) (=> (and ?v_213 ?v_214) (= tmp713 0)) (=> (and ?v_213 ?v_216) ?v_215) (=> (and x137 ?v_214) ?v_215) (=> (and x137 ?v_216) (= tmp713 2)) (=> (and ?v_217 ?v_218) (= tmp712 0)) (=> (and ?v_217 ?v_220) ?v_219) (=> (and x753 ?v_218) ?v_219) (=> (and x753 ?v_220) (= tmp712 2)) (=> (and ?v_221 ?v_222) (= tmp711 0)) (=> (and ?v_221 ?v_224) ?v_223) (=> (and x42 ?v_222) ?v_223) (=> (and x42 ?v_224) (= tmp711 2)) (=> (and ?v_225 ?v_226) (= tmp710 0)) (=> (and ?v_225 ?v_228) ?v_227) (=> (and x467 ?v_226) ?v_227) (=> (and x467 ?v_228) (= tmp710 2)) (=> (and ?v_229 ?v_230) (= tmp709 0)) (=> (and ?v_229 ?v_232) ?v_231) (=> (and x324 ?v_230) ?v_231) (=> (and x324 ?v_232) (= tmp709 2)) (=> (and ?v_233 ?v_234) (= tmp708 0)) (=> (and ?v_233 ?v_236) ?v_235) (=> (and x562 ?v_234) ?v_235) (=> (and x562 ?v_236) (= tmp708 2)) (=> (and ?v_237 ?v_238) (= tmp707 0)) (=> (and ?v_237 ?v_240) ?v_239) (=> (and x232 ?v_238) ?v_239) (=> (and x232 ?v_240) (= tmp707 2)) (=> (and ?v_241 ?v_242) (= tmp706 0)) (=> (and ?v_241 ?v_244) ?v_243) (=> (and x704 ?v_242) ?v_243) (=> (and x704 ?v_244) (= tmp706 2)) (=> (and ?v_245 ?v_246) (= tmp705 0)) (=> (and ?v_245 ?v_248) ?v_247) (=> (and x136 ?v_246) ?v_247) (=> (and x136 ?v_248) (= tmp705 2)) (=> (and ?v_249 ?v_250) (= tmp704 0)) (=> (and ?v_249 ?v_252) ?v_251) (=> (and x769 ?v_250) ?v_251) (=> (and x769 ?v_252) (= tmp704 2)) (=> (and ?v_253 ?v_254) (= tmp703 0)) (=> (and ?v_253 ?v_256) ?v_255) (=> (and x41 ?v_254) ?v_255) (=> (and x41 ?v_256) (= tmp703 2)) (=> (and ?v_257 ?v_258) (= tmp702 0)) (=> (and ?v_257 ?v_260) ?v_259) (=> (and x466 ?v_258) ?v_259) (=> (and x466 ?v_260) (= tmp702 2)) (=> (and ?v_261 ?v_262) (= tmp701 0)) (=> (and ?v_261 ?v_264) ?v_263) (=> (and x323 ?v_262) ?v_263) (=> (and x323 ?v_264) (= tmp701 2)) (=> (and ?v_265 ?v_266) (= tmp700 0)) (=> (and ?v_265 ?v_268) ?v_267) (=> (and x561 ?v_266) ?v_267) (=> (and x561 ?v_268) (= tmp700 2)) (=> (and ?v_269 ?v_270) (= tmp699 0)) (=> (and ?v_269 ?v_272) ?v_271) (=> (and x231 ?v_270) ?v_271) (=> (and x231 ?v_272) (= tmp699 2)) (=> (and ?v_273 ?v_274) (= tmp698 0)) (=> (and ?v_273 ?v_276) ?v_275) (=> (and x656 ?v_274) ?v_275) (=> (and x656 ?v_276) (= tmp698 2)) (=> (and ?v_277 ?v_278) (= tmp697 0)) (=> (and ?v_277 ?v_280) ?v_279) (=> (and x135 ?v_278) ?v_279) (=> (and x135 ?v_280) (= tmp697 2)) (=> (and ?v_281 ?v_282) (= tmp696 0)) (=> (and ?v_281 ?v_284) ?v_283) (=> (and x751 ?v_282) ?v_283) (=> (and x751 ?v_284) (= tmp696 2)) (=> (and ?v_285 ?v_286) (= tmp695 0)) (=> (and ?v_285 ?v_288) ?v_287) (=> (and x40 ?v_286) ?v_287) (=> (and x40 ?v_288) (= tmp695 2)) (=> (and ?v_289 ?v_290) (= tmp694 0)) (=> (and ?v_289 ?v_292) ?v_291) (=> (and x465 ?v_290) ?v_291) (=> (and x465 ?v_292) (= tmp694 2)) (=> (and ?v_293 ?v_294) (= tmp693 0)) (=> (and ?v_293 ?v_296) ?v_295) (=> (and x322 ?v_294) ?v_295) (=> (and x322 ?v_296) (= tmp693 2)) (=> (and ?v_297 ?v_298) (= tmp692 0)) (=> (and ?v_297 ?v_300) ?v_299) (=> (and x560 ?v_298) ?v_299) (=> (and x560 ?v_300) (= tmp692 2)) (=> (and ?v_301 ?v_302) (= tmp691 0)) (=> (and ?v_301 ?v_304) ?v_303) (=> (and x230 ?v_302) ?v_303) (=> (and x230 ?v_304) (= tmp691 2)) (=> (and ?v_305 ?v_306) (= tmp690 0)) (=> (and ?v_305 ?v_308) ?v_307) (=> (and x655 ?v_306) ?v_307) (=> (and x655 ?v_308) (= tmp690 2)) (=> (and ?v_309 ?v_310) (= tmp689 0)) (=> (and ?v_309 ?v_312) ?v_311) (=> (and x134 ?v_310) ?v_311) (=> (and x134 ?v_312) (= tmp689 2)) (=> (and ?v_313 ?v_314) (= tmp688 0)) (=> (and ?v_313 ?v_316) ?v_315) (=> (and x750 ?v_314) ?v_315) (=> (and x750 ?v_316) (= tmp688 2)) (=> (and ?v_317 ?v_318) (= tmp687 0)) (=> (and ?v_317 ?v_320) ?v_319) (=> (and x39 ?v_318) ?v_319) (=> (and x39 ?v_320) (= tmp687 2)) (=> (and ?v_321 ?v_322) (= tmp686 0)) (=> (and ?v_321 ?v_324) ?v_323) (=> (and x464 ?v_322) ?v_323) (=> (and x464 ?v_324) (= tmp686 2)) (=> (and ?v_325 ?v_326) (= tmp685 0)) (=> (and ?v_325 ?v_328) ?v_327) (=> (and x321 ?v_326) ?v_327) (=> (and x321 ?v_328) (= tmp685 2)) (=> (and ?v_329 ?v_330) (= tmp684 0)) (=> (and ?v_329 ?v_332) ?v_331) (=> (and x559 ?v_330) ?v_331) (=> (and x559 ?v_332) (= tmp684 2)) (=> (and ?v_333 ?v_334) (= tmp683 0)) (=> (and ?v_333 ?v_336) ?v_335) (=> (and x229 ?v_334) ?v_335) (=> (and x229 ?v_336) (= tmp683 2)) (=> (and ?v_337 ?v_338) (= tmp682 0)) (=> (and ?v_337 ?v_340) ?v_339) (=> (and x654 ?v_338) ?v_339) (=> (and x654 ?v_340) (= tmp682 2)) (=> (and ?v_341 ?v_342) (= tmp681 0)) (=> (and ?v_341 ?v_344) ?v_343) (=> (and x133 ?v_342) ?v_343) (=> (and x133 ?v_344) (= tmp681 2)) (=> (and ?v_345 ?v_346) (= tmp680 0)) (=> (and ?v_345 ?v_348) ?v_347) (=> (and x749 ?v_346) ?v_347) (=> (and x749 ?v_348) (= tmp680 2)) (=> (and ?v_349 ?v_350) (= tmp679 0)) (=> (and ?v_349 ?v_352) ?v_351) (=> (and x38 ?v_350) ?v_351) (=> (and x38 ?v_352) (= tmp679 2)) (=> (and ?v_353 ?v_354) (= tmp678 0)) (=> (and ?v_353 ?v_356) ?v_355) (=> (and x463 ?v_354) ?v_355) (=> (and x463 ?v_356) (= tmp678 2)) (=> (and ?v_357 ?v_358) (= tmp677 0)) (=> (and ?v_357 ?v_360) ?v_359) (=> (and x320 ?v_358) ?v_359) (=> (and x320 ?v_360) (= tmp677 2)) (=> (and ?v_361 ?v_362) (= tmp676 0)) (=> (and ?v_361 ?v_364) ?v_363) (=> (and x558 ?v_362) ?v_363) (=> (and x558 ?v_364) (= tmp676 2)) (=> (and ?v_365 ?v_366) (= tmp675 0)) (=> (and ?v_365 ?v_368) ?v_367) (=> (and x228 ?v_366) ?v_367) (=> (and x228 ?v_368) (= tmp675 2)) (=> (and ?v_369 ?v_370) (= tmp674 0)) (=> (and ?v_369 ?v_372) ?v_371) (=> (and x653 ?v_370) ?v_371) (=> (and x653 ?v_372) (= tmp674 2)) (=> (and ?v_373 ?v_374) (= tmp673 0)) (=> (and ?v_373 ?v_376) ?v_375) (=> (and x132 ?v_374) ?v_375) (=> (and x132 ?v_376) (= tmp673 2)) (=> (and ?v_377 ?v_378) (= tmp672 0)) (=> (and ?v_377 ?v_380) ?v_379) (=> (and x748 ?v_378) ?v_379) (=> (and x748 ?v_380) (= tmp672 2)) (=> (and ?v_381 ?v_382) (= tmp671 0)) (=> (and ?v_381 ?v_384) ?v_383) (=> (and x37 ?v_382) ?v_383) (=> (and x37 ?v_384) (= tmp671 2)) (=> (and ?v_385 ?v_386) (= tmp670 0)) (=> (and ?v_385 ?v_388) ?v_387) (=> (and x462 ?v_386) ?v_387) (=> (and x462 ?v_388) (= tmp670 2)) (=> (and ?v_389 ?v_390) (= tmp669 0)) (=> (and ?v_389 ?v_392) ?v_391) (=> (and x319 ?v_390) ?v_391) (=> (and x319 ?v_392) (= tmp669 2)) (=> (and ?v_393 ?v_394) (= tmp668 0)) (=> (and ?v_393 ?v_396) ?v_395) (=> (and x557 ?v_394) ?v_395) (=> (and x557 ?v_396) (= tmp668 2)) (=> (and ?v_397 ?v_398) (= tmp667 0)) (=> (and ?v_397 ?v_400) ?v_399) (=> (and x227 ?v_398) ?v_399) (=> (and x227 ?v_400) (= tmp667 2)) (=> (and ?v_401 ?v_402) (= tmp666 0)) (=> (and ?v_401 ?v_404) ?v_403) (=> (and x652 ?v_402) ?v_403) (=> (and x652 ?v_404) (= tmp666 2)) (=> (and ?v_405 ?v_406) (= tmp665 0)) (=> (and ?v_405 ?v_408) ?v_407) (=> (and x131 ?v_406) ?v_407) (=> (and x131 ?v_408) (= tmp665 2)) (=> (and ?v_409 ?v_410) (= tmp664 0)) (=> (and ?v_409 ?v_412) ?v_411) (=> (and x747 ?v_410) ?v_411) (=> (and x747 ?v_412) (= tmp664 2)) (=> (and ?v_413 ?v_414) (= tmp663 0)) (=> (and ?v_413 ?v_416) ?v_415) (=> (and x36 ?v_414) ?v_415) (=> (and x36 ?v_416) (= tmp663 2)) (=> (and ?v_417 ?v_418) (= tmp662 0)) (=> (and ?v_417 ?v_420) ?v_419) (=> (and x461 ?v_418) ?v_419) (=> (and x461 ?v_420) (= tmp662 2)) (=> (and ?v_421 ?v_422) (= tmp661 0)) (=> (and ?v_421 ?v_424) ?v_423) (=> (and x318 ?v_422) ?v_423) (=> (and x318 ?v_424) (= tmp661 2)) (=> (and ?v_425 ?v_426) (= tmp660 0)) (=> (and ?v_425 ?v_428) ?v_427) (=> (and x556 ?v_426) ?v_427) (=> (and x556 ?v_428) (= tmp660 2)) (=> (and ?v_429 ?v_430) (= tmp659 0)) (=> (and ?v_429 ?v_432) ?v_431) (=> (and x226 ?v_430) ?v_431) (=> (and x226 ?v_432) (= tmp659 2)) (=> (and ?v_433 ?v_434) (= tmp658 0)) (=> (and ?v_433 ?v_436) ?v_435) (=> (and x651 ?v_434) ?v_435) (=> (and x651 ?v_436) (= tmp658 2)) (=> (and ?v_437 ?v_438) (= tmp657 0)) (=> (and ?v_437 ?v_440) ?v_439) (=> (and x130 ?v_438) ?v_439) (=> (and x130 ?v_440) (= tmp657 2)) (=> (and ?v_441 ?v_442) (= tmp656 0)) (=> (and ?v_441 ?v_444) ?v_443) (=> (and x746 ?v_442) ?v_443) (=> (and x746 ?v_444) (= tmp656 2)) (=> (and ?v_445 ?v_446) (= tmp655 0)) (=> (and ?v_445 ?v_448) ?v_447) (=> (and x35 ?v_446) ?v_447) (=> (and x35 ?v_448) (= tmp655 2)) (=> (and ?v_449 ?v_450) (= tmp654 0)) (=> (and ?v_449 ?v_452) ?v_451) (=> (and x460 ?v_450) ?v_451) (=> (and x460 ?v_452) (= tmp654 2)) (=> (and ?v_453 ?v_454) (= tmp653 0)) (=> (and ?v_453 ?v_456) ?v_455) (=> (and x317 ?v_454) ?v_455) (=> (and x317 ?v_456) (= tmp653 2)) (=> (and ?v_457 ?v_458) (= tmp652 0)) (=> (and ?v_457 ?v_460) ?v_459) (=> (and x555 ?v_458) ?v_459) (=> (and x555 ?v_460) (= tmp652 2)) (=> (and ?v_461 ?v_462) (= tmp651 0)) (=> (and ?v_461 ?v_464) ?v_463) (=> (and x225 ?v_462) ?v_463) (=> (and x225 ?v_464) (= tmp651 2)) (=> (and ?v_465 ?v_466) (= tmp650 0)) (=> (and ?v_465 ?v_468) ?v_467) (=> (and x650 ?v_466) ?v_467) (=> (and x650 ?v_468) (= tmp650 2)) (=> (and ?v_469 ?v_470) (= tmp649 0)) (=> (and ?v_469 ?v_472) ?v_471) (=> (and x129 ?v_470) ?v_471) (=> (and x129 ?v_472) (= tmp649 2)) (=> (and ?v_473 ?v_474) (= tmp648 0)) (=> (and ?v_473 ?v_476) ?v_475) (=> (and x745 ?v_474) ?v_475) (=> (and x745 ?v_476) (= tmp648 2)) (=> (and ?v_477 ?v_478) (= tmp647 0)) (=> (and ?v_477 ?v_480) ?v_479) (=> (and x34 ?v_478) ?v_479) (=> (and x34 ?v_480) (= tmp647 2)) (=> (and ?v_481 ?v_482) (= tmp646 0)) (=> (and ?v_481 ?v_484) ?v_483) (=> (and x459 ?v_482) ?v_483) (=> (and x459 ?v_484) (= tmp646 2)) (=> (and ?v_485 ?v_486) (= tmp645 0)) (=> (and ?v_485 ?v_488) ?v_487) (=> (and x316 ?v_486) ?v_487) (=> (and x316 ?v_488) (= tmp645 2)) (=> (and ?v_489 ?v_490) (= tmp644 0)) (=> (and ?v_489 ?v_492) ?v_491) (=> (and x554 ?v_490) ?v_491) (=> (and x554 ?v_492) (= tmp644 2)) (=> (and ?v_493 ?v_494) (= tmp643 0)) (=> (and ?v_493 ?v_496) ?v_495) (=> (and x224 ?v_494) ?v_495) (=> (and x224 ?v_496) (= tmp643 2)) (=> (and ?v_497 ?v_498) (= tmp642 0)) (=> (and ?v_497 ?v_500) ?v_499) (=> (and x649 ?v_498) ?v_499) (=> (and x649 ?v_500) (= tmp642 2)) (=> (and ?v_501 ?v_502) (= tmp641 0)) (=> (and ?v_501 ?v_504) ?v_503) (=> (and x128 ?v_502) ?v_503) (=> (and x128 ?v_504) (= tmp641 2)) (=> (and ?v_505 ?v_506) (= tmp640 0)) (=> (and ?v_505 ?v_508) ?v_507) (=> (and x744 ?v_506) ?v_507) (=> (and x744 ?v_508) (= tmp640 2)) (=> (and ?v_509 ?v_510) (= tmp639 0)) (=> (and ?v_509 ?v_512) ?v_511) (=> (and x33 ?v_510) ?v_511) (=> (and x33 ?v_512) (= tmp639 2)) (=> (and ?v_513 ?v_514) (= tmp638 0)) (=> (and ?v_513 ?v_516) ?v_515) (=> (and x458 ?v_514) ?v_515) (=> (and x458 ?v_516) (= tmp638 2)) (=> (and ?v_517 ?v_518) (= tmp637 0)) (=> (and ?v_517 ?v_520) ?v_519) (=> (and x315 ?v_518) ?v_519) (=> (and x315 ?v_520) (= tmp637 2)) (=> (and ?v_521 ?v_522) (= tmp636 0)) (=> (and ?v_521 ?v_524) ?v_523) (=> (and x553 ?v_522) ?v_523) (=> (and x553 ?v_524) (= tmp636 2)) (=> (and ?v_525 ?v_526) (= tmp635 0)) (=> (and ?v_525 ?v_528) ?v_527) (=> (and x223 ?v_526) ?v_527) (=> (and x223 ?v_528) (= tmp635 2)) (=> (and ?v_529 ?v_530) (= tmp634 0)) (=> (and ?v_529 ?v_532) ?v_531) (=> (and x648 ?v_530) ?v_531) (=> (and x648 ?v_532) (= tmp634 2)) (=> (and ?v_533 ?v_534) (= tmp633 0)) (=> (and ?v_533 ?v_536) ?v_535) (=> (and x127 ?v_534) ?v_535) (=> (and x127 ?v_536) (= tmp633 2)) (=> (and ?v_537 ?v_538) (= tmp632 0)) (=> (and ?v_537 ?v_540) ?v_539) (=> (and x743 ?v_538) ?v_539) (=> (and x743 ?v_540) (= tmp632 2)) (=> (and ?v_541 ?v_542) (= tmp631 0)) (=> (and ?v_541 ?v_544) ?v_543) (=> (and x32 ?v_542) ?v_543) (=> (and x32 ?v_544) (= tmp631 2)) (=> (and ?v_545 ?v_546) (= tmp630 0)) (=> (and ?v_545 ?v_548) ?v_547) (=> (and x457 ?v_546) ?v_547) (=> (and x457 ?v_548) (= tmp630 2)) (=> (and ?v_549 ?v_550) (= tmp629 0)) (=> (and ?v_549 ?v_552) ?v_551) (=> (and x314 ?v_550) ?v_551) (=> (and x314 ?v_552) (= tmp629 2)) (=> (and ?v_553 ?v_554) (= tmp628 0)) (=> (and ?v_553 ?v_556) ?v_555) (=> (and x552 ?v_554) ?v_555) (=> (and x552 ?v_556) (= tmp628 2)) (=> (and ?v_557 ?v_558) (= tmp627 0)) (=> (and ?v_557 ?v_560) ?v_559) (=> (and x222 ?v_558) ?v_559) (=> (and x222 ?v_560) (= tmp627 2)) (=> (and ?v_561 ?v_562) (= tmp626 0)) (=> (and ?v_561 ?v_564) ?v_563) (=> (and x647 ?v_562) ?v_563) (=> (and x647 ?v_564) (= tmp626 2)) (=> (and ?v_565 ?v_566) (= tmp625 0)) (=> (and ?v_565 ?v_568) ?v_567) (=> (and x126 ?v_566) ?v_567) (=> (and x126 ?v_568) (= tmp625 2)) (=> (and ?v_569 ?v_570) (= tmp624 0)) (=> (and ?v_569 ?v_572) ?v_571) (=> (and x742 ?v_570) ?v_571) (=> (and x742 ?v_572) (= tmp624 2)) (=> (and ?v_573 ?v_574) (= tmp623 0)) (=> (and ?v_573 ?v_576) ?v_575) (=> (and x31 ?v_574) ?v_575) (=> (and x31 ?v_576) (= tmp623 2)) (=> (and ?v_577 ?v_578) (= tmp622 0)) (=> (and ?v_577 ?v_580) ?v_579) (=> (and x456 ?v_578) ?v_579) (=> (and x456 ?v_580) (= tmp622 2)) (=> (and ?v_581 ?v_582) (= tmp621 0)) (=> (and ?v_581 ?v_584) ?v_583) (=> (and x313 ?v_582) ?v_583) (=> (and x313 ?v_584) (= tmp621 2)) (=> (and ?v_585 ?v_586) (= tmp620 0)) (=> (and ?v_585 ?v_588) ?v_587) (=> (and x551 ?v_586) ?v_587) (=> (and x551 ?v_588) (= tmp620 2)) (=> (and ?v_589 ?v_590) (= tmp619 0)) (=> (and ?v_589 ?v_592) ?v_591) (=> (and x221 ?v_590) ?v_591) (=> (and x221 ?v_592) (= tmp619 2)) (=> (and ?v_593 ?v_594) (= tmp618 0)) (=> (and ?v_593 ?v_596) ?v_595) (=> (and x646 ?v_594) ?v_595) (=> (and x646 ?v_596) (= tmp618 2)) (=> (and ?v_597 ?v_598) (= tmp617 0)) (=> (and ?v_597 ?v_600) ?v_599) (=> (and x125 ?v_598) ?v_599) (=> (and x125 ?v_600) (= tmp617 2)) (=> (and ?v_601 ?v_602) (= tmp616 0)) (=> (and ?v_601 ?v_604) ?v_603) (=> (and x741 ?v_602) ?v_603) (=> (and x741 ?v_604) (= tmp616 2)) (=> (and ?v_605 ?v_606) (= tmp615 0)) (=> (and ?v_605 ?v_608) ?v_607) (=> (and x30 ?v_606) ?v_607) (=> (and x30 ?v_608) (= tmp615 2)) (=> (and ?v_609 ?v_610) (= tmp614 0)) (=> (and ?v_609 ?v_612) ?v_611) (=> (and x455 ?v_610) ?v_611) (=> (and x455 ?v_612) (= tmp614 2)) (=> (and ?v_613 ?v_614) (= tmp613 0)) (=> (and ?v_613 ?v_616) ?v_615) (=> (and x312 ?v_614) ?v_615) (=> (and x312 ?v_616) (= tmp613 2)) (=> (and ?v_617 ?v_618) (= tmp612 0)) (=> (and ?v_617 ?v_620) ?v_619) (=> (and x550 ?v_618) ?v_619) (=> (and x550 ?v_620) (= tmp612 2)) (=> (and ?v_621 ?v_622) (= tmp611 0)) (=> (and ?v_621 ?v_624) ?v_623) (=> (and x220 ?v_622) ?v_623) (=> (and x220 ?v_624) (= tmp611 2)) (=> (and ?v_625 ?v_626) (= tmp610 0)) (=> (and ?v_625 ?v_628) ?v_627) (=> (and x645 ?v_626) ?v_627) (=> (and x645 ?v_628) (= tmp610 2)) (=> (and ?v_629 ?v_630) (= tmp609 0)) (=> (and ?v_629 ?v_632) ?v_631) (=> (and x124 ?v_630) ?v_631) (=> (and x124 ?v_632) (= tmp609 2)) (=> (and ?v_633 ?v_634) (= tmp608 0)) (=> (and ?v_633 ?v_636) ?v_635) (=> (and x740 ?v_634) ?v_635) (=> (and x740 ?v_636) (= tmp608 2)) (=> (and ?v_637 ?v_638) (= tmp607 0)) (=> (and ?v_637 ?v_640) ?v_639) (=> (and x29 ?v_638) ?v_639) (=> (and x29 ?v_640) (= tmp607 2)) (=> (and ?v_641 ?v_642) (= tmp606 0)) (=> (and ?v_641 ?v_644) ?v_643) (=> (and x501 ?v_642) ?v_643) (=> (and x501 ?v_644) (= tmp606 2)) (=> (and ?v_645 ?v_646) (= tmp605 0)) (=> (and ?v_645 ?v_648) ?v_647) (=> (and x311 ?v_646) ?v_647) (=> (and x311 ?v_648) (= tmp605 2)) (=> (and ?v_649 ?v_650) (= tmp604 0)) (=> (and ?v_649 ?v_652) ?v_651) (=> (and x597 ?v_650) ?v_651) (=> (and x597 ?v_652) (= tmp604 2)) (=> (and ?v_653 ?v_654) (= tmp603 0)) (=> (and ?v_653 ?v_656) ?v_655) (=> (and x219 ?v_654) ?v_655) (=> (and x219 ?v_656) (= tmp603 2)) (=> (and ?v_657 ?v_658) (= tmp602 0)) (=> (and ?v_657 ?v_660) ?v_659) (=> (and x691 ?v_658) ?v_659) (=> (and x691 ?v_660) (= tmp602 2)) (=> (and ?v_661 ?v_662) (= tmp601 0)) (=> (and ?v_661 ?v_664) ?v_663) (=> (and x123 ?v_662) ?v_663) (=> (and x123 ?v_664) (= tmp601 2)) (=> (and ?v_665 ?v_666) (= tmp600 0)) (=> (and ?v_665 ?v_668) ?v_667) (=> (and x768 ?v_666) ?v_667) (=> (and x768 ?v_668) (= tmp600 2)) (=> (and ?v_669 ?v_670) (= tmp599 0)) (=> (and ?v_669 ?v_672) ?v_671) (=> (and x28 ?v_670) ?v_671) (=> (and x28 ?v_672) (= tmp599 2)) (=> (and ?v_673 ?v_674) (= tmp598 0)) (=> (and ?v_673 ?v_676) ?v_675) (=> (and x454 ?v_674) ?v_675) (=> (and x454 ?v_676) (= tmp598 2)) (=> (and ?v_677 ?v_678) (= tmp597 0)) (=> (and ?v_677 ?v_680) ?v_679) (=> (and x310 ?v_678) ?v_679) (=> (and x310 ?v_680) (= tmp597 2)) (=> (and ?v_681 ?v_682) (= tmp596 0)) (=> (and ?v_681 ?v_684) ?v_683) (=> (and x548 ?v_682) ?v_683) (=> (and x548 ?v_684) (= tmp596 2)) (=> (and ?v_685 ?v_686) (= tmp595 0)) (=> (and ?v_685 ?v_688) ?v_687) (=> (and x218 ?v_686) ?v_687) (=> (and x218 ?v_688) (= tmp595 2)) (=> (and ?v_689 ?v_690) (= tmp594 0)) (=> (and ?v_689 ?v_692) ?v_691) (=> (and x643 ?v_690) ?v_691) (=> (and x643 ?v_692) (= tmp594 2)) (=> (and ?v_693 ?v_694) (= tmp593 0)) (=> (and ?v_693 ?v_696) ?v_695) (=> (and x122 ?v_694) ?v_695) (=> (and x122 ?v_696) (= tmp593 2)) (=> (and ?v_697 ?v_698) (= tmp592 0)) (=> (and ?v_697 ?v_700) ?v_699) (=> (and x738 ?v_698) ?v_699) (=> (and x738 ?v_700) (= tmp592 2)) (=> (and ?v_701 ?v_702) (= tmp591 0)) (=> (and ?v_701 ?v_704) ?v_703) (=> (and x27 ?v_702) ?v_703) (=> (and x27 ?v_704) (= tmp591 2)) (=> (and ?v_705 ?v_706) (= tmp590 0)) (=> (and ?v_705 ?v_708) ?v_707) (=> (and x453 ?v_706) ?v_707) (=> (and x453 ?v_708) (= tmp590 2)) (=> (and ?v_709 ?v_710) (= tmp589 0)) (=> (and ?v_709 ?v_712) ?v_711) (=> (and x309 ?v_710) ?v_711) (=> (and x309 ?v_712) (= tmp589 2)) (=> (and ?v_713 ?v_714) (= tmp588 0)) (=> (and ?v_713 ?v_716) ?v_715) (=> (and x547 ?v_714) ?v_715) (=> (and x547 ?v_716) (= tmp588 2)) (=> (and ?v_717 ?v_718) (= tmp587 0)) (=> (and ?v_717 ?v_720) ?v_719) (=> (and x217 ?v_718) ?v_719) (=> (and x217 ?v_720) (= tmp587 2)) (=> (and ?v_721 ?v_722) (= tmp586 0)) (=> (and ?v_721 ?v_724) ?v_723) (=> (and x642 ?v_722) ?v_723) (=> (and x642 ?v_724) (= tmp586 2)) (=> (and ?v_725 ?v_726) (= tmp585 0)) (=> (and ?v_725 ?v_728) ?v_727) (=> (and x121 ?v_726) ?v_727) (=> (and x121 ?v_728) (= tmp585 2)) (=> (and ?v_729 ?v_730) (= tmp584 0)) (=> (and ?v_729 ?v_732) ?v_731) (=> (and x737 ?v_730) ?v_731) (=> (and x737 ?v_732) (= tmp584 2)) (=> (and ?v_733 ?v_734) (= tmp583 0)) (=> (and ?v_733 ?v_736) ?v_735) (=> (and x26 ?v_734) ?v_735) (=> (and x26 ?v_736) (= tmp583 2)) (=> (and ?v_737 ?v_738) (= tmp582 0)) (=> (and ?v_737 ?v_740) ?v_739) (=> (and x452 ?v_738) ?v_739) (=> (and x452 ?v_740) (= tmp582 2)) (=> (and ?v_741 ?v_742) (= tmp581 0)) (=> (and ?v_741 ?v_744) ?v_743) (=> (and x308 ?v_742) ?v_743) (=> (and x308 ?v_744) (= tmp581 2)) (=> (and ?v_745 ?v_746) (= tmp580 0)) (=> (and ?v_745 ?v_748) ?v_747) (=> (and x546 ?v_746) ?v_747) (=> (and x546 ?v_748) (= tmp580 2)) (=> (and ?v_749 ?v_750) (= tmp579 0)) (=> (and ?v_749 ?v_752) ?v_751) (=> (and x216 ?v_750) ?v_751) (=> (and x216 ?v_752) (= tmp579 2)) (=> (and ?v_753 ?v_754) (= tmp578 0)) (=> (and ?v_753 ?v_756) ?v_755) (=> (and x641 ?v_754) ?v_755) (=> (and x641 ?v_756) (= tmp578 2)) (=> (and ?v_757 ?v_758) (= tmp577 0)) (=> (and ?v_757 ?v_760) ?v_759) (=> (and x120 ?v_758) ?v_759) (=> (and x120 ?v_760) (= tmp577 2)) (=> (and ?v_761 ?v_762) (= tmp576 0)) (=> (and ?v_761 ?v_764) ?v_763) (=> (and x736 ?v_762) ?v_763) (=> (and x736 ?v_764) (= tmp576 2)) (=> (and ?v_765 ?v_766) (= tmp575 0)) (=> (and ?v_765 ?v_768) ?v_767) (=> (and x25 ?v_766) ?v_767) (=> (and x25 ?v_768) (= tmp575 2)) (=> (and ?v_769 ?v_770) (= tmp574 0)) (=> (and ?v_769 ?v_772) ?v_771) (=> (and x451 ?v_770) ?v_771) (=> (and x451 ?v_772) (= tmp574 2)) (=> (and ?v_773 ?v_774) (= tmp573 0)) (=> (and ?v_773 ?v_776) ?v_775) (=> (and x307 ?v_774) ?v_775) (=> (and x307 ?v_776) (= tmp573 2)) (=> (and ?v_777 ?v_778) (= tmp572 0)) (=> (and ?v_777 ?v_780) ?v_779) (=> (and x545 ?v_778) ?v_779) (=> (and x545 ?v_780) (= tmp572 2)) (=> (and ?v_781 ?v_782) (= tmp571 0)) (=> (and ?v_781 ?v_784) ?v_783) (=> (and x215 ?v_782) ?v_783) (=> (and x215 ?v_784) (= tmp571 2)) (=> (and ?v_785 ?v_786) (= tmp570 0)) (=> (and ?v_785 ?v_788) ?v_787) (=> (and x640 ?v_786) ?v_787) (=> (and x640 ?v_788) (= tmp570 2)) (=> (and ?v_789 ?v_790) (= tmp569 0)) (=> (and ?v_789 ?v_792) ?v_791) (=> (and x119 ?v_790) ?v_791) (=> (and x119 ?v_792) (= tmp569 2)) (=> (and ?v_793 ?v_794) (= tmp568 0)) (=> (and ?v_793 ?v_796) ?v_795) (=> (and x735 ?v_794) ?v_795) (=> (and x735 ?v_796) (= tmp568 2)) (=> (and ?v_797 ?v_798) (= tmp567 0)) (=> (and ?v_797 ?v_800) ?v_799) (=> (and x24 ?v_798) ?v_799) (=> (and x24 ?v_800) (= tmp567 2)) (=> (and ?v_801 ?v_802) (= tmp566 0)) (=> (and ?v_801 ?v_804) ?v_803) (=> (and x496 ?v_802) ?v_803) (=> (and x496 ?v_804) (= tmp566 2)) (=> (and ?v_805 ?v_806) (= tmp565 0)) (=> (and ?v_805 ?v_808) ?v_807) (=> (and x354 ?v_806) ?v_807) (=> (and x354 ?v_808) (= tmp565 2)) (=> (and ?v_809 ?v_810) (= tmp564 0)) (=> (and ?v_809 ?v_812) ?v_811) (=> (and x592 ?v_810) ?v_811) (=> (and x592 ?v_812) (= tmp564 2)) (=> (and ?v_813 ?v_814) (= tmp563 0)) (=> (and ?v_813 ?v_816) ?v_815) (=> (and x258 ?v_814) ?v_815) (=> (and x258 ?v_816) (= tmp563 2)) (=> (and ?v_817 ?v_818) (= tmp562 0)) (=> (and ?v_817 ?v_820) ?v_819) (=> (and x734 ?v_818) ?v_819) (=> (and x734 ?v_820) (= tmp562 2)) (=> (and ?v_821 ?v_822) (= tmp561 0)) (=> (and ?v_821 ?v_824) ?v_823) (=> (and x166 ?v_822) ?v_823) (=> (and x166 ?v_824) (= tmp561 2)) (=> (and ?v_825 ?v_826) (= tmp560 0)) (=> (and ?v_825 ?v_828) ?v_827) (=> (and x767 ?v_826) ?v_827) (=> (and x767 ?v_828) (= tmp560 2)) (=> (and ?v_829 ?v_830) (= tmp559 0)) (=> (and ?v_829 ?v_832) ?v_831) (=> (and x23 ?v_830) ?v_831) (=> (and x23 ?v_832) (= tmp559 2)) (=> (and ?v_833 ?v_834) (= tmp558 0)) (=> (and ?v_833 ?v_836) ?v_835) (=> (and x449 ?v_834) ?v_835) (=> (and x449 ?v_836) (= tmp558 2)) (=> (and ?v_837 ?v_838) (= tmp557 0)) (=> (and ?v_837 ?v_840) ?v_839) (=> (and x305 ?v_838) ?v_839) (=> (and x305 ?v_840) (= tmp557 2)) (=> (and ?v_841 ?v_842) (= tmp556 0)) (=> (and ?v_841 ?v_844) ?v_843) (=> (and x543 ?v_842) ?v_843) (=> (and x543 ?v_844) (= tmp556 2)) (=> (and ?v_845 ?v_846) (= tmp555 0)) (=> (and ?v_845 ?v_848) ?v_847) (=> (and x213 ?v_846) ?v_847) (=> (and x213 ?v_848) (= tmp555 2)) (=> (and ?v_849 ?v_850) (= tmp554 0)) (=> (and ?v_849 ?v_852) ?v_851) (=> (and x638 ?v_850) ?v_851) (=> (and x638 ?v_852) (= tmp554 2)) (=> (and ?v_853 ?v_854) (= tmp553 0)) (=> (and ?v_853 ?v_856) ?v_855) (=> (and x118 ?v_854) ?v_855) (=> (and x118 ?v_856) (= tmp553 2)) (=> (and ?v_857 ?v_858) (= tmp552 0)) (=> (and ?v_857 ?v_860) ?v_859) (=> (and x733 ?v_858) ?v_859) (=> (and x733 ?v_860) (= tmp552 2)) (=> (and ?v_861 ?v_862) (= tmp551 0)) (=> (and ?v_861 ?v_864) ?v_863) (=> (and x22 ?v_862) ?v_863) (=> (and x22 ?v_864) (= tmp551 2)) (=> (and ?v_865 ?v_866) (= tmp550 0)) (=> (and ?v_865 ?v_868) ?v_867) (=> (and x448 ?v_866) ?v_867) (=> (and x448 ?v_868) (= tmp550 2)) (=> (and ?v_869 ?v_870) (= tmp549 0)) (=> (and ?v_869 ?v_872) ?v_871) (=> (and x304 ?v_870) ?v_871) (=> (and x304 ?v_872) (= tmp549 2)) (=> (and ?v_873 ?v_874) (= tmp548 0)) (=> (and ?v_873 ?v_876) ?v_875) (=> (and x542 ?v_874) ?v_875) (=> (and x542 ?v_876) (= tmp548 2)) (=> (and ?v_877 ?v_878) (= tmp547 0)) (=> (and ?v_877 ?v_880) ?v_879) (=> (and x212 ?v_878) ?v_879) (=> (and x212 ?v_880) (= tmp547 2)) (=> (and ?v_881 ?v_882) (= tmp546 0)) (=> (and ?v_881 ?v_884) ?v_883) (=> (and x637 ?v_882) ?v_883) (=> (and x637 ?v_884) (= tmp546 2)) (=> (and ?v_885 ?v_886) (= tmp545 0)) (=> (and ?v_885 ?v_888) ?v_887) (=> (and x117 ?v_886) ?v_887) (=> (and x117 ?v_888) (= tmp545 2)) (=> (and ?v_889 ?v_890) (= tmp544 0)) (=> (and ?v_889 ?v_892) ?v_891) (=> (and x732 ?v_890) ?v_891) (=> (and x732 ?v_892) (= tmp544 2)) (=> (and ?v_893 ?v_894) (= tmp543 0)) (=> (and ?v_893 ?v_896) ?v_895) (=> (and x21 ?v_894) ?v_895) (=> (and x21 ?v_896) (= tmp543 2)) (=> (and ?v_897 ?v_898) (= tmp542 0)) (=> (and ?v_897 ?v_900) ?v_899) (=> (and x447 ?v_898) ?v_899) (=> (and x447 ?v_900) (= tmp542 2)) (=> (and ?v_901 ?v_902) (= tmp541 0)) (=> (and ?v_901 ?v_904) ?v_903) (=> (and x303 ?v_902) ?v_903) (=> (and x303 ?v_904) (= tmp541 2)) (=> (and ?v_905 ?v_906) (= tmp540 0)) (=> (and ?v_905 ?v_908) ?v_907) (=> (and x541 ?v_906) ?v_907) (=> (and x541 ?v_908) (= tmp540 2)) (=> (and ?v_909 ?v_910) (= tmp539 0)) (=> (and ?v_909 ?v_912) ?v_911) (=> (and x211 ?v_910) ?v_911) (=> (and x211 ?v_912) (= tmp539 2)) (=> (and ?v_913 ?v_914) (= tmp538 0)) (=> (and ?v_913 ?v_916) ?v_915) (=> (and x636 ?v_914) ?v_915) (=> (and x636 ?v_916) (= tmp538 2)) (=> (and ?v_917 ?v_918) (= tmp537 0)) (=> (and ?v_917 ?v_920) ?v_919) (=> (and x116 ?v_918) ?v_919) (=> (and x116 ?v_920) (= tmp537 2)) (=> (and ?v_921 ?v_922) (= tmp536 0)) (=> (and ?v_921 ?v_924) ?v_923) (=> (and x731 ?v_922) ?v_923) (=> (and x731 ?v_924) (= tmp536 2)) (=> (and ?v_925 ?v_926) (= tmp535 0)) (=> (and ?v_925 ?v_928) ?v_927) (=> (and x20 ?v_926) ?v_927) (=> (and x20 ?v_928) (= tmp535 2)) (=> (and ?v_929 ?v_930) (= tmp534 0)) (=> (and ?v_929 ?v_932) ?v_931) (=> (and x446 ?v_930) ?v_931) (=> (and x446 ?v_932) (= tmp534 2)) (=> (and ?v_933 ?v_934) (= tmp533 0)) (=> (and ?v_933 ?v_936) ?v_935) (=> (and x302 ?v_934) ?v_935) (=> (and x302 ?v_936) (= tmp533 2)) (=> (and ?v_937 ?v_938) (= tmp532 0)) (=> (and ?v_937 ?v_940) ?v_939) (=> (and x540 ?v_938) ?v_939) (=> (and x540 ?v_940) (= tmp532 2)) (=> (and ?v_941 ?v_942) (= tmp531 0)) (=> (and ?v_941 ?v_944) ?v_943) (=> (and x210 ?v_942) ?v_943) (=> (and x210 ?v_944) (= tmp531 2)) (=> (and ?v_945 ?v_946) (= tmp530 0)) (=> (and ?v_945 ?v_948) ?v_947) (=> (and x635 ?v_946) ?v_947) (=> (and x635 ?v_948) (= tmp530 2)) (=> (and ?v_949 ?v_950) (= tmp529 0)) (=> (and ?v_949 ?v_952) ?v_951) (=> (and x115 ?v_950) ?v_951) (=> (and x115 ?v_952) (= tmp529 2)) (=> (and ?v_953 ?v_954) (= tmp528 0)) (=> (and ?v_953 ?v_956) ?v_955) (=> (and x730 ?v_954) ?v_955) (=> (and x730 ?v_956) (= tmp528 2)) (=> (and ?v_957 ?v_958) (= tmp527 0)) (=> (and ?v_957 ?v_960) ?v_959) (=> (and x19 ?v_958) ?v_959) (=> (and x19 ?v_960) (= tmp527 2)) (=> (and ?v_961 ?v_962) (= tmp526 0)) (=> (and ?v_961 ?v_964) ?v_963) (=> (and x445 ?v_962) ?v_963) (=> (and x445 ?v_964) (= tmp526 2)) (=> (and ?v_965 ?v_966) (= tmp525 0)) (=> (and ?v_965 ?v_968) ?v_967) (=> (and x301 ?v_966) ?v_967) (=> (and x301 ?v_968) (= tmp525 2)) (=> (and ?v_969 ?v_970) (= tmp524 0)) (=> (and ?v_969 ?v_972) ?v_971) (=> (and x539 ?v_970) ?v_971) (=> (and x539 ?v_972) (= tmp524 2)) (=> (and ?v_973 ?v_974) (= tmp523 0)) (=> (and ?v_973 ?v_976) ?v_975) (=> (and x209 ?v_974) ?v_975) (=> (and x209 ?v_976) (= tmp523 2)) (=> (and ?v_977 ?v_978) (= tmp522 0)) (=> (and ?v_977 ?v_980) ?v_979) (=> (and x634 ?v_978) ?v_979) (=> (and x634 ?v_980) (= tmp522 2)) (=> (and ?v_981 ?v_982) (= tmp521 0)) (=> (and ?v_981 ?v_984) ?v_983) (=> (and x114 ?v_982) ?v_983) (=> (and x114 ?v_984) (= tmp521 2)) (=> (and ?v_985 ?v_986) (= tmp520 0)) (=> (and ?v_985 ?v_988) ?v_987) (=> (and x729 ?v_986) ?v_987) (=> (and x729 ?v_988) (= tmp520 2)) (=> (and ?v_989 ?v_990) (= tmp519 0)) (=> (and ?v_989 ?v_992) ?v_991) (=> (and x18 ?v_990) ?v_991) (=> (and x18 ?v_992) (= tmp519 2)) (=> (and ?v_993 ?v_994) (= tmp518 0)) (=> (and ?v_993 ?v_996) ?v_995) (=> (and x490 ?v_994) ?v_995) (=> (and x490 ?v_996) (= tmp518 2)) (=> (and ?v_997 ?v_998) (= tmp517 0)) (=> (and ?v_997 ?v_1000) ?v_999) (=> (and x348 ?v_998) ?v_999) (=> (and x348 ?v_1000) (= tmp517 2)) (=> (and ?v_1001 ?v_1002) (= tmp516 0)) (=> (and ?v_1001 ?v_1004) ?v_1003) (=> (and x586 ?v_1002) ?v_1003) (=> (and x586 ?v_1004) (= tmp516 2)) (=> (and ?v_1005 ?v_1006) (= tmp515 0)) (=> (and ?v_1005 ?v_1008) ?v_1007) (=> (and x252 ?v_1006) ?v_1007) (=> (and x252 ?v_1008) (= tmp515 2)) (=> (and ?v_1009 ?v_1010) (= tmp514 0)) (=> (and ?v_1009 ?v_1012) ?v_1011) (=> (and x681 ?v_1010) ?v_1011) (=> (and x681 ?v_1012) (= tmp514 2)) (=> (and ?v_1013 ?v_1014) (= tmp513 0)) (=> (and ?v_1013 ?v_1016) ?v_1015) (=> (and x160 ?v_1014) ?v_1015) (=> (and x160 ?v_1016) (= tmp513 2)) (=> (and ?v_1017 ?v_1018) (= tmp512 0)) (=> (and ?v_1017 ?v_1020) ?v_1019) (=> (and x765 ?v_1018) ?v_1019) (=> (and x765 ?v_1020) (= tmp512 2)) (=> (and ?v_1021 ?v_1022) (= tmp511 0)) (=> (and ?v_1021 ?v_1024) ?v_1023) (=> (and x65 ?v_1022) ?v_1023) (=> (and x65 ?v_1024) (= tmp511 2)) (=> (and ?v_1025 ?v_1026) (= tmp510 0)) (=> (and ?v_1025 ?v_1028) ?v_1027) (=> (and x443 ?v_1026) ?v_1027) (=> (and x443 ?v_1028) (= tmp510 2)) (=> (and ?v_1029 ?v_1030) (= tmp509 0)) (=> (and ?v_1029 ?v_1032) ?v_1031) (=> (and x299 ?v_1030) ?v_1031) (=> (and x299 ?v_1032) (= tmp509 2)) (=> (and ?v_1033 ?v_1034) (= tmp508 0)) (=> (and ?v_1033 ?v_1036) ?v_1035) (=> (and x537 ?v_1034) ?v_1035) (=> (and x537 ?v_1036) (= tmp508 2)) (=> (and ?v_1037 ?v_1038) (= tmp507 0)) (=> (and ?v_1037 ?v_1040) ?v_1039) (=> (and x207 ?v_1038) ?v_1039) (=> (and x207 ?v_1040) (= tmp507 2)) (=> (and ?v_1041 ?v_1042) (= tmp506 0)) (=> (and ?v_1041 ?v_1044) ?v_1043) (=> (and x632 ?v_1042) ?v_1043) (=> (and x632 ?v_1044) (= tmp506 2)) (=> (and ?v_1045 ?v_1046) (= tmp505 0)) (=> (and ?v_1045 ?v_1048) ?v_1047) (=> (and x112 ?v_1046) ?v_1047) (=> (and x112 ?v_1048) (= tmp505 2)) (=> (and ?v_1049 ?v_1050) (= tmp504 0)) (=> (and ?v_1049 ?v_1052) ?v_1051) (=> (and x727 ?v_1050) ?v_1051) (=> (and x727 ?v_1052) (= tmp504 2)) (=> (and ?v_1053 ?v_1054) (= tmp503 0)) (=> (and ?v_1053 ?v_1056) ?v_1055) (=> (and x17 ?v_1054) ?v_1055) (=> (and x17 ?v_1056) (= tmp503 2)) (=> (and ?v_1057 ?v_1058) (= tmp502 0)) (=> (and ?v_1057 ?v_1060) ?v_1059) (=> (and x442 ?v_1058) ?v_1059) (=> (and x442 ?v_1060) (= tmp502 2)) (=> (and ?v_1061 ?v_1062) (= tmp501 0)) (=> (and ?v_1061 ?v_1064) ?v_1063) (=> (and x298 ?v_1062) ?v_1063) (=> (and x298 ?v_1064) (= tmp501 2)) (=> (and ?v_1065 ?v_1066) (= tmp500 0)) (=> (and ?v_1065 ?v_1068) ?v_1067) (=> (and x536 ?v_1066) ?v_1067) (=> (and x536 ?v_1068) (= tmp500 2)) (=> (and ?v_1069 ?v_1070) (= tmp499 0)) (=> (and ?v_1069 ?v_1072) ?v_1071) (=> (and x206 ?v_1070) ?v_1071) (=> (and x206 ?v_1072) (= tmp499 2)) (=> (and ?v_1073 ?v_1074) (= tmp498 0)) (=> (and ?v_1073 ?v_1076) ?v_1075) (=> (and x631 ?v_1074) ?v_1075) (=> (and x631 ?v_1076) (= tmp498 2)) (=> (and ?v_1077 ?v_1078) (= tmp497 0)) (=> (and ?v_1077 ?v_1080) ?v_1079) (=> (and x111 ?v_1078) ?v_1079) (=> (and x111 ?v_1080) (= tmp497 2)) (=> (and ?v_1081 ?v_1082) (= tmp496 0)) (=> (and ?v_1081 ?v_1084) ?v_1083) (=> (and x726 ?v_1082) ?v_1083) (=> (and x726 ?v_1084) (= tmp496 2)) (=> (and ?v_1085 ?v_1086) (= tmp495 0)) (=> (and ?v_1085 ?v_1088) ?v_1087) (=> (and x16 ?v_1086) ?v_1087) (=> (and x16 ?v_1088) (= tmp495 2)) (=> (and ?v_1089 ?v_1090) (= tmp494 0)) (=> (and ?v_1089 ?v_1092) ?v_1091) (=> (and x441 ?v_1090) ?v_1091) (=> (and x441 ?v_1092) (= tmp494 2)) (=> (and ?v_1093 ?v_1094) (= tmp493 0)) (=> (and ?v_1093 ?v_1096) ?v_1095) (=> (and x297 ?v_1094) ?v_1095) (=> (and x297 ?v_1096) (= tmp493 2)) (=> (and ?v_1097 ?v_1098) (= tmp492 0)) (=> (and ?v_1097 ?v_1100) ?v_1099) (=> (and x535 ?v_1098) ?v_1099) (=> (and x535 ?v_1100) (= tmp492 2)) (=> (and ?v_1101 ?v_1102) (= tmp491 0)) (=> (and ?v_1101 ?v_1104) ?v_1103) (=> (and x205 ?v_1102) ?v_1103) (=> (and x205 ?v_1104) (= tmp491 2)) (=> (and ?v_1105 ?v_1106) (= tmp490 0)) (=> (and ?v_1105 ?v_1108) ?v_1107) (=> (and x630 ?v_1106) ?v_1107) (=> (and x630 ?v_1108) (= tmp490 2)) (=> (and ?v_1109 ?v_1110) (= tmp489 0)) (=> (and ?v_1109 ?v_1112) ?v_1111) (=> (and x110 ?v_1110) ?v_1111) (=> (and x110 ?v_1112) (= tmp489 2)) (=> (and ?v_1113 ?v_1114) (= tmp488 0)) (=> (and ?v_1113 ?v_1116) ?v_1115) (=> (and x725 ?v_1114) ?v_1115) (=> (and x725 ?v_1116) (= tmp488 2)) (=> (and ?v_1117 ?v_1118) (= tmp487 0)) (=> (and ?v_1117 ?v_1120) ?v_1119) (=> (and x15 ?v_1118) ?v_1119) (=> (and x15 ?v_1120) (= tmp487 2)) (=> (and ?v_1121 ?v_1122) (= tmp486 0)) (=> (and ?v_1121 ?v_1124) ?v_1123) (=> (and x486 ?v_1122) ?v_1123) (=> (and x486 ?v_1124) (= tmp486 2)) (=> (and ?v_1125 ?v_1126) (= tmp485 0)) (=> (and ?v_1125 ?v_1128) ?v_1127) (=> (and x344 ?v_1126) ?v_1127) (=> (and x344 ?v_1128) (= tmp485 2)) (=> (and ?v_1129 ?v_1130) (= tmp484 0)) (=> (and ?v_1129 ?v_1132) ?v_1131) (=> (and x582 ?v_1130) ?v_1131) (=> (and x582 ?v_1132) (= tmp484 2)) (=> (and ?v_1133 ?v_1134) (= tmp483 0)) (=> (and ?v_1133 ?v_1136) ?v_1135) (=> (and x204 ?v_1134) ?v_1135) (=> (and x204 ?v_1136) (= tmp483 2)) (=> (and ?v_1137 ?v_1138) (= tmp482 0)) (=> (and ?v_1137 ?v_1140) ?v_1139) (=> (and x677 ?v_1138) ?v_1139) (=> (and x677 ?v_1140) (= tmp482 2)) (=> (and ?v_1141 ?v_1142) (= tmp481 0)) (=> (and ?v_1141 ?v_1144) ?v_1143) (=> (and x109 ?v_1142) ?v_1143) (=> (and x109 ?v_1144) (= tmp481 2)) (=> (and ?v_1145 ?v_1146) (= tmp480 0)) (=> (and ?v_1145 ?v_1148) ?v_1147) (=> (and x764 ?v_1146) ?v_1147) (=> (and x764 ?v_1148) (= tmp480 2)) (=> (and ?v_1149 ?v_1150) (= tmp479 0)) (=> (and ?v_1149 ?v_1152) ?v_1151) (=> (and x14 ?v_1150) ?v_1151) (=> (and x14 ?v_1152) (= tmp479 2)) (=> (and ?v_1153 ?v_1154) (= tmp478 0)) (=> (and ?v_1153 ?v_1156) ?v_1155) (=> (and x485 ?v_1154) ?v_1155) (=> (and x485 ?v_1156) (= tmp478 2)) (=> (and ?v_1157 ?v_1158) (= tmp477 0)) (=> (and ?v_1157 ?v_1160) ?v_1159) (=> (and x343 ?v_1158) ?v_1159) (=> (and x343 ?v_1160) (= tmp477 2)) (=> (and ?v_1161 ?v_1162) (= tmp476 0)) (=> (and ?v_1161 ?v_1164) ?v_1163) (=> (and x581 ?v_1162) ?v_1163) (=> (and x581 ?v_1164) (= tmp476 2)) (=> (and ?v_1165 ?v_1166) (= tmp475 0)) (=> (and ?v_1165 ?v_1168) ?v_1167) (=> (and x203 ?v_1166) ?v_1167) (=> (and x203 ?v_1168) (= tmp475 2)) (=> (and ?v_1169 ?v_1170) (= tmp474 0)) (=> (and ?v_1169 ?v_1172) ?v_1171) (=> (and x676 ?v_1170) ?v_1171) (=> (and x676 ?v_1172) (= tmp474 2)) (=> (and ?v_1173 ?v_1174) (= tmp473 0)) (=> (and ?v_1173 ?v_1176) ?v_1175) (=> (and x108 ?v_1174) ?v_1175) (=> (and x108 ?v_1176) (= tmp473 2)) (=> (and ?v_1177 ?v_1178) (= tmp472 0)) (=> (and ?v_1177 ?v_1180) ?v_1179) (=> (and x763 ?v_1178) ?v_1179) (=> (and x763 ?v_1180) (= tmp472 2)) (=> (and ?v_1181 ?v_1182) (= tmp471 0)) (=> (and ?v_1181 ?v_1184) ?v_1183) (=> (and x13 ?v_1182) ?v_1183) (=> (and x13 ?v_1184) (= tmp471 2)) (=> (and ?v_1185 ?v_1186) (= tmp470 0)) (=> (and ?v_1185 ?v_1188) ?v_1187) (=> (and x484 ?v_1186) ?v_1187) (=> (and x484 ?v_1188) (= tmp470 2)) (=> (and ?v_1189 ?v_1190) (= tmp469 0)) (=> (and ?v_1189 ?v_1192) ?v_1191) (=> (and x342 ?v_1190) ?v_1191) (=> (and x342 ?v_1192) (= tmp469 2)) (=> (and ?v_1193 ?v_1194) (= tmp468 0)) (=> (and ?v_1193 ?v_1196) ?v_1195) (=> (and x580 ?v_1194) ?v_1195) (=> (and x580 ?v_1196) (= tmp468 2)) (=> (and ?v_1197 ?v_1198) (= tmp467 0)) (=> (and ?v_1197 ?v_1200) ?v_1199) (=> (and x202 ?v_1198) ?v_1199) (=> (and x202 ?v_1200) (= tmp467 2)) (=> (and ?v_1201 ?v_1202) (= tmp466 0)) (=> (and ?v_1201 ?v_1204) ?v_1203) (=> (and x675 ?v_1202) ?v_1203) (=> (and x675 ?v_1204) (= tmp466 2)) (=> (and ?v_1205 ?v_1206) (= tmp465 0)) (=> (and ?v_1205 ?v_1208) ?v_1207) (=> (and x107 ?v_1206) ?v_1207) (=> (and x107 ?v_1208) (= tmp465 2)) (=> (and ?v_1209 ?v_1210) (= tmp464 0)) (=> (and ?v_1209 ?v_1212) ?v_1211) (=> (and x762 ?v_1210) ?v_1211) (=> (and x762 ?v_1212) (= tmp464 2)) (=> (and ?v_1213 ?v_1214) (= tmp463 0)) (=> (and ?v_1213 ?v_1216) ?v_1215) (=> (and x12 ?v_1214) ?v_1215) (=> (and x12 ?v_1216) (= tmp463 2)) (=> (and ?v_1217 ?v_1218) (= tmp462 0)) (=> (and ?v_1217 ?v_1220) ?v_1219) (=> (and x483 ?v_1218) ?v_1219) (=> (and x483 ?v_1220) (= tmp462 2)) (=> (and ?v_1221 ?v_1222) (= tmp461 0)) (=> (and ?v_1221 ?v_1224) ?v_1223) (=> (and x341 ?v_1222) ?v_1223) (=> (and x341 ?v_1224) (= tmp461 2)) (=> (and ?v_1225 ?v_1226) (= tmp460 0)) (=> (and ?v_1225 ?v_1228) ?v_1227) (=> (and x579 ?v_1226) ?v_1227) (=> (and x579 ?v_1228) (= tmp460 2)) (=> (and ?v_1229 ?v_1230) (= tmp459 0)) (=> (and ?v_1229 ?v_1232) ?v_1231) (=> (and x201 ?v_1230) ?v_1231) (=> (and x201 ?v_1232) (= tmp459 2)) (=> (and ?v_1233 ?v_1234) (= tmp458 0)) (=> (and ?v_1233 ?v_1236) ?v_1235) (=> (and x674 ?v_1234) ?v_1235) (=> (and x674 ?v_1236) (= tmp458 2)) (=> (and ?v_1237 ?v_1238) (= tmp457 0)) (=> (and ?v_1237 ?v_1240) ?v_1239) (=> (and x106 ?v_1238) ?v_1239) (=> (and x106 ?v_1240) (= tmp457 2)) (=> (and ?v_1241 ?v_1242) (= tmp456 0)) (=> (and ?v_1241 ?v_1244) ?v_1243) (=> (and x761 ?v_1242) ?v_1243) (=> (and x761 ?v_1244) (= tmp456 2)) (=> (and ?v_1245 ?v_1246) (= tmp455 0)) (=> (and ?v_1245 ?v_1248) ?v_1247) (=> (and x11 ?v_1246) ?v_1247) (=> (and x11 ?v_1248) (= tmp455 2)) (=> (and ?v_1249 ?v_1250) (= tmp454 0)) (=> (and ?v_1249 ?v_1252) ?v_1251) (=> (and x436 ?v_1250) ?v_1251) (=> (and x436 ?v_1252) (= tmp454 2)) (=> (and ?v_1253 ?v_1254) (= tmp453 0)) (=> (and ?v_1253 ?v_1256) ?v_1255) (=> (and x292 ?v_1254) ?v_1255) (=> (and x292 ?v_1256) (= tmp453 2)) (=> (and ?v_1257 ?v_1258) (= tmp452 0)) (=> (and ?v_1257 ?v_1260) ?v_1259) (=> (and x530 ?v_1258) ?v_1259) (=> (and x530 ?v_1260) (= tmp452 2)) (=> (and ?v_1261 ?v_1262) (= tmp451 0)) (=> (and ?v_1261 ?v_1264) ?v_1263) (=> (and x200 ?v_1262) ?v_1263) (=> (and x200 ?v_1264) (= tmp451 2)) (=> (and ?v_1265 ?v_1266) (= tmp450 0)) (=> (and ?v_1265 ?v_1268) ?v_1267) (=> (and x625 ?v_1266) ?v_1267) (=> (and x625 ?v_1268) (= tmp450 2)) (=> (and ?v_1269 ?v_1270) (= tmp449 0)) (=> (and ?v_1269 ?v_1272) ?v_1271) (=> (and x105 ?v_1270) ?v_1271) (=> (and x105 ?v_1272) (= tmp449 2)) (=> (and ?v_1273 ?v_1274) (= tmp448 0)) (=> (and ?v_1273 ?v_1276) ?v_1275) (=> (and x720 ?v_1274) ?v_1275) (=> (and x720 ?v_1276) (= tmp448 2)) (=> (and ?v_1277 ?v_1278) (= tmp447 0)) (=> (and ?v_1277 ?v_1280) ?v_1279) (=> (and x10 ?v_1278) ?v_1279) (=> (and x10 ?v_1280) (= tmp447 2)) (=> (and ?v_1281 ?v_1282) (= tmp446 0)) (=> (and ?v_1281 ?v_1284) ?v_1283) (=> (and x435 ?v_1282) ?v_1283) (=> (and x435 ?v_1284) (= tmp446 2)) (=> (and ?v_1285 ?v_1286) (= tmp445 0)) (=> (and ?v_1285 ?v_1288) ?v_1287) (=> (and x291 ?v_1286) ?v_1287) (=> (and x291 ?v_1288) (= tmp445 2)) (=> (and ?v_1289 ?v_1290) (= tmp444 0)) (=> (and ?v_1289 ?v_1292) ?v_1291) (=> (and x529 ?v_1290) ?v_1291) (=> (and x529 ?v_1292) (= tmp444 2)) (=> (and ?v_1293 ?v_1294) (= tmp443 0)) (=> (and ?v_1293 ?v_1296) ?v_1295) (=> (and x199 ?v_1294) ?v_1295) (=> (and x199 ?v_1296) (= tmp443 2)) (=> (and ?v_1297 ?v_1298) (= tmp442 0)) (=> (and ?v_1297 ?v_1300) ?v_1299) (=> (and x624 ?v_1298) ?v_1299) (=> (and x624 ?v_1300) (= tmp442 2)) (=> (and ?v_1301 ?v_1302) (= tmp441 0)) (=> (and ?v_1301 ?v_1304) ?v_1303) (=> (and x104 ?v_1302) ?v_1303) (=> (and x104 ?v_1304) (= tmp441 2)) (=> (and ?v_1305 ?v_1306) (= tmp440 0)) (=> (and ?v_1305 ?v_1308) ?v_1307) (=> (and x719 ?v_1306) ?v_1307) (=> (and x719 ?v_1308) (= tmp440 2)) (=> (and ?v_1309 ?v_1310) (= tmp439 0)) (=> (and ?v_1309 ?v_1312) ?v_1311) (=> (and x9 ?v_1310) ?v_1311) (=> (and x9 ?v_1312) (= tmp439 2)) (=> (and ?v_1313 ?v_1314) (= tmp438 0)) (=> (and ?v_1313 ?v_1316) ?v_1315) (=> (and x434 ?v_1314) ?v_1315) (=> (and x434 ?v_1316) (= tmp438 2)) (=> (and ?v_1317 ?v_1318) (= tmp437 0)) (=> (and ?v_1317 ?v_1320) ?v_1319) (=> (and x290 ?v_1318) ?v_1319) (=> (and x290 ?v_1320) (= tmp437 2)) (=> (and ?v_1321 ?v_1322) (= tmp436 0)) (=> (and ?v_1321 ?v_1324) ?v_1323) (=> (and x528 ?v_1322) ?v_1323) (=> (and x528 ?v_1324) (= tmp436 2)) (=> (and ?v_1325 ?v_1326) (= tmp435 0)) (=> (and ?v_1325 ?v_1328) ?v_1327) (=> (and x198 ?v_1326) ?v_1327) (=> (and x198 ?v_1328) (= tmp435 2)) (=> (and ?v_1329 ?v_1330) (= tmp434 0)) (=> (and ?v_1329 ?v_1332) ?v_1331) (=> (and x623 ?v_1330) ?v_1331) (=> (and x623 ?v_1332) (= tmp434 2)) (=> (and ?v_1333 ?v_1334) (= tmp433 0)) (=> (and ?v_1333 ?v_1336) ?v_1335) (=> (and x103 ?v_1334) ?v_1335) (=> (and x103 ?v_1336) (= tmp433 2)) (=> (and ?v_1337 ?v_1338) (= tmp432 0)) (=> (and ?v_1337 ?v_1340) ?v_1339) (=> (and x718 ?v_1338) ?v_1339) (=> (and x718 ?v_1340) (= tmp432 2)) (=> (and ?v_1341 ?v_1342) (= tmp431 0)) (=> (and ?v_1341 ?v_1344) ?v_1343) (=> (and x8 ?v_1342) ?v_1343) (=> (and x8 ?v_1344) (= tmp431 2)) (=> (and ?v_1345 ?v_1346) (= tmp430 0)) (=> (and ?v_1345 ?v_1348) ?v_1347) (=> (and x433 ?v_1346) ?v_1347) (=> (and x433 ?v_1348) (= tmp430 2)) (=> (and ?v_1349 ?v_1350) (= tmp429 0)) (=> (and ?v_1349 ?v_1352) ?v_1351) (=> (and x289 ?v_1350) ?v_1351) (=> (and x289 ?v_1352) (= tmp429 2)) (=> (and ?v_1353 ?v_1354) (= tmp428 0)) (=> (and ?v_1353 ?v_1356) ?v_1355) (=> (and x527 ?v_1354) ?v_1355) (=> (and x527 ?v_1356) (= tmp428 2)) (=> (and ?v_1357 ?v_1358) (= tmp427 0)) (=> (and ?v_1357 ?v_1360) ?v_1359) (=> (and x197 ?v_1358) ?v_1359) (=> (and x197 ?v_1360) (= tmp427 2)) (=> (and ?v_1361 ?v_1362) (= tmp426 0)) (=> (and ?v_1361 ?v_1364) ?v_1363) (=> (and x622 ?v_1362) ?v_1363) (=> (and x622 ?v_1364) (= tmp426 2)) (=> (and ?v_1365 ?v_1366) (= tmp425 0)) (=> (and ?v_1365 ?v_1368) ?v_1367) (=> (and x102 ?v_1366) ?v_1367) (=> (and x102 ?v_1368) (= tmp425 2)) (=> (and ?v_1369 ?v_1370) (= tmp424 0)) (=> (and ?v_1369 ?v_1372) ?v_1371) (=> (and x717 ?v_1370) ?v_1371) (=> (and x717 ?v_1372) (= tmp424 2)) (=> (and ?v_1373 ?v_1374) (= tmp423 0)) (=> (and ?v_1373 ?v_1376) ?v_1375) (=> (and x7 ?v_1374) ?v_1375) (=> (and x7 ?v_1376) (= tmp423 2)) (=> (and ?v_1377 ?v_1378) (= tmp422 0)) (=> (and ?v_1377 ?v_1380) ?v_1379) (=> (and x432 ?v_1378) ?v_1379) (=> (and x432 ?v_1380) (= tmp422 2)) (=> (and ?v_1381 ?v_1382) (= tmp421 0)) (=> (and ?v_1381 ?v_1384) ?v_1383) (=> (and x288 ?v_1382) ?v_1383) (=> (and x288 ?v_1384) (= tmp421 2)) (=> (and ?v_1385 ?v_1386) (= tmp420 0)) (=> (and ?v_1385 ?v_1388) ?v_1387) (=> (and x526 ?v_1386) ?v_1387) (=> (and x526 ?v_1388) (= tmp420 2)) (=> (and ?v_1389 ?v_1390) (= tmp419 0)) (=> (and ?v_1389 ?v_1392) ?v_1391) (=> (and x196 ?v_1390) ?v_1391) (=> (and x196 ?v_1392) (= tmp419 2)) (=> (and ?v_1393 ?v_1394) (= tmp418 0)) (=> (and ?v_1393 ?v_1396) ?v_1395) (=> (and x621 ?v_1394) ?v_1395) (=> (and x621 ?v_1396) (= tmp418 2)) (=> (and ?v_1397 ?v_1398) (= tmp417 0)) (=> (and ?v_1397 ?v_1400) ?v_1399) (=> (and x101 ?v_1398) ?v_1399) (=> (and x101 ?v_1400) (= tmp417 2)) (=> (and ?v_1401 ?v_1402) (= tmp416 0)) (=> (and ?v_1401 ?v_1404) ?v_1403) (=> (and x716 ?v_1402) ?v_1403) (=> (and x716 ?v_1404) (= tmp416 2)) (=> (and ?v_1405 ?v_1406) (= tmp415 0)) (=> (and ?v_1405 ?v_1408) ?v_1407) (=> (and x6 ?v_1406) ?v_1407) (=> (and x6 ?v_1408) (= tmp415 2)) (=> (and ?v_1409 ?v_1410) (= tmp414 0)) (=> (and ?v_1409 ?v_1412) ?v_1411) (=> (and x431 ?v_1410) ?v_1411) (=> (and x431 ?v_1412) (= tmp414 2)) (=> (and ?v_1413 ?v_1414) (= tmp413 0)) (=> (and ?v_1413 ?v_1416) ?v_1415) (=> (and x287 ?v_1414) ?v_1415) (=> (and x287 ?v_1416) (= tmp413 2)) (=> (and ?v_1417 ?v_1418) (= tmp412 0)) (=> (and ?v_1417 ?v_1420) ?v_1419) (=> (and x525 ?v_1418) ?v_1419) (=> (and x525 ?v_1420) (= tmp412 2)) (=> (and ?v_1421 ?v_1422) (= tmp411 0)) (=> (and ?v_1421 ?v_1424) ?v_1423) (=> (and x195 ?v_1422) ?v_1423) (=> (and x195 ?v_1424) (= tmp411 2)) (=> (and ?v_1425 ?v_1426) (= tmp410 0)) (=> (and ?v_1425 ?v_1428) ?v_1427) (=> (and x620 ?v_1426) ?v_1427) (=> (and x620 ?v_1428) (= tmp410 2)) (=> (and ?v_1429 ?v_1430) (= tmp409 0)) (=> (and ?v_1429 ?v_1432) ?v_1431) (=> (and x100 ?v_1430) ?v_1431) (=> (and x100 ?v_1432) (= tmp409 2)) (=> (and ?v_1433 ?v_1434) (= tmp408 0)) (=> (and ?v_1433 ?v_1436) ?v_1435) (=> (and x715 ?v_1434) ?v_1435) (=> (and x715 ?v_1436) (= tmp408 2)) (=> (and ?v_1437 ?v_1438) (= tmp407 0)) (=> (and ?v_1437 ?v_1440) ?v_1439) (=> (and x5 ?v_1438) ?v_1439) (=> (and x5 ?v_1440) (= tmp407 2)) (=> (and ?v_1441 ?v_1442) (= tmp406 0)) (=> (and ?v_1441 ?v_1444) ?v_1443) (=> (and x430 ?v_1442) ?v_1443) (=> (and x430 ?v_1444) (= tmp406 2)) (=> (and ?v_1445 ?v_1446) (= tmp405 0)) (=> (and ?v_1445 ?v_1448) ?v_1447) (=> (and x286 ?v_1446) ?v_1447) (=> (and x286 ?v_1448) (= tmp405 2)) (=> (and ?v_1449 ?v_1450) (= tmp404 0)) (=> (and ?v_1449 ?v_1452) ?v_1451) (=> (and x524 ?v_1450) ?v_1451) (=> (and x524 ?v_1452) (= tmp404 2)) (=> (and ?v_1453 ?v_1454) (= tmp403 0)) (=> (and ?v_1453 ?v_1456) ?v_1455) (=> (and x194 ?v_1454) ?v_1455) (=> (and x194 ?v_1456) (= tmp403 2)) (=> (and ?v_1457 ?v_1458) (= tmp402 0)) (=> (and ?v_1457 ?v_1460) ?v_1459) (=> (and x619 ?v_1458) ?v_1459) (=> (and x619 ?v_1460) (= tmp402 2)) (=> (and ?v_1461 ?v_1462) (= tmp401 0)) (=> (and ?v_1461 ?v_1464) ?v_1463) (=> (and x99 ?v_1462) ?v_1463) (=> (and x99 ?v_1464) (= tmp401 2)) (=> (and ?v_1465 ?v_1466) (= tmp400 0)) (=> (and ?v_1465 ?v_1468) ?v_1467) (=> (and x714 ?v_1466) ?v_1467) (=> (and x714 ?v_1468) (= tmp400 2)) (=> (and ?v_1469 ?v_1470) (= tmp399 0)) (=> (and ?v_1469 ?v_1472) ?v_1471) (=> (and x4 ?v_1470) ?v_1471) (=> (and x4 ?v_1472) (= tmp399 2)) (=> (and ?v_1473 ?v_1474) (= tmp398 0)) (=> (and ?v_1473 ?v_1476) ?v_1475) (=> (and x429 ?v_1474) ?v_1475) (=> (and x429 ?v_1476) (= tmp398 2)) (=> (and ?v_1477 ?v_1478) (= tmp397 0)) (=> (and ?v_1477 ?v_1480) ?v_1479) (=> (and x285 ?v_1478) ?v_1479) (=> (and x285 ?v_1480) (= tmp397 2)) (=> (and ?v_1481 ?v_1482) (= tmp396 0)) (=> (and ?v_1481 ?v_1484) ?v_1483) (=> (and x523 ?v_1482) ?v_1483) (=> (and x523 ?v_1484) (= tmp396 2)) (=> (and ?v_1485 ?v_1486) (= tmp395 0)) (=> (and ?v_1485 ?v_1488) ?v_1487) (=> (and x193 ?v_1486) ?v_1487) (=> (and x193 ?v_1488) (= tmp395 2)) (=> (and ?v_1489 ?v_1490) (= tmp394 0)) (=> (and ?v_1489 ?v_1492) ?v_1491) (=> (and x618 ?v_1490) ?v_1491) (=> (and x618 ?v_1492) (= tmp394 2)) (=> (and ?v_1493 ?v_1494) (= tmp393 0)) (=> (and ?v_1493 ?v_1496) ?v_1495) (=> (and x98 ?v_1494) ?v_1495) (=> (and x98 ?v_1496) (= tmp393 2)) (=> (and ?v_1497 ?v_1498) (= tmp392 0)) (=> (and ?v_1497 ?v_1500) ?v_1499) (=> (and x713 ?v_1498) ?v_1499) (=> (and x713 ?v_1500) (= tmp392 2)) (=> (and ?v_1501 ?v_1502) (= tmp391 0)) (=> (and ?v_1501 ?v_1504) ?v_1503) (=> (and x3 ?v_1502) ?v_1503) (=> (and x3 ?v_1504) (= tmp391 2)) (=> (and ?v_1505 ?v_1506) (= tmp390 0)) (=> (and ?v_1505 ?v_1508) ?v_1507) (=> (and x428 ?v_1506) ?v_1507) (=> (and x428 ?v_1508) (= tmp390 2)) (=> (and ?v_1509 ?v_1510) (= tmp389 0)) (=> (and ?v_1509 ?v_1512) ?v_1511) (=> (and x284 ?v_1510) ?v_1511) (=> (and x284 ?v_1512) (= tmp389 2)) (=> (and ?v_1513 ?v_1514) (= tmp388 0)) (=> (and ?v_1513 ?v_1516) ?v_1515) (=> (and x570 ?v_1514) ?v_1515) (=> (and x570 ?v_1516) (= tmp388 2)) (=> (and ?v_1517 ?v_1518) (= tmp387 0)) (=> (and ?v_1517 ?v_1520) ?v_1519) (=> (and x192 ?v_1518) ?v_1519) (=> (and x192 ?v_1520) (= tmp387 2)) (=> (and ?v_1521 ?v_1522) (= tmp386 0)) (=> (and ?v_1521 ?v_1524) ?v_1523) (=> (and x665 ?v_1522) ?v_1523) (=> (and x665 ?v_1524) (= tmp386 2)) (=> (and ?v_1525 ?v_1526) (= tmp385 0)) (=> (and ?v_1525 ?v_1528) ?v_1527) (=> (and x97 ?v_1526) ?v_1527) (=> (and x97 ?v_1528) (= tmp385 2)) (=> (and ?v_1529 ?v_1530) (= tmp384 0)) (=> (and ?v_1529 ?v_1532) ?v_1531) (=> (and x760 ?v_1530) ?v_1531) (=> (and x760 ?v_1532) (= tmp384 2)) (=> (and ?v_1533 ?v_1534) (= tmp383 0)) (=> (and ?v_1533 ?v_1536) ?v_1535) (=> (and x2 ?v_1534) ?v_1535) (=> (and x2 ?v_1536) (= tmp383 2)) (=> (and ?v_729 ?v_1537) (= tmp382 0)) (=> (and ?v_729 ?v_1539) ?v_1538) (=> (and x737 ?v_1537) ?v_1538) (=> (and x737 ?v_1539) (= tmp382 12)) (=> (and ?v_817 ?v_1540) (= tmp381 0)) (=> (and ?v_817 ?v_1542) ?v_1541) (=> (and x734 ?v_1540) ?v_1541) (=> (and x734 ?v_1542) (= tmp381 8)) (=> (and ?v_1543 ?v_1544) (= tmp380 0)) (=> (and ?v_1543 ?v_1546) ?v_1545) (=> (and x739 ?v_1544) ?v_1545) (=> (and x739 ?v_1546) (= tmp380 12)) (=> (and ?v_889 ?v_1547) (= tmp379 0)) (=> (and ?v_889 ?v_1549) ?v_1548) (=> (and x732 ?v_1547) ?v_1548) (=> (and x732 ?v_1549) (= tmp379 12)) (=> (and ?v_601 ?v_1550) (= tmp378 0)) (=> (and ?v_601 ?v_1551) (= tmp378 6)) (=> (and x741 ?v_1550) (= tmp378 8)) (=> (and x741 ?v_1551) (= tmp378 14)) (=> (and ?v_953 ?v_1552) (= tmp377 0)) (=> (and ?v_953 ?v_1554) ?v_1553) (=> (and x730 ?v_1552) ?v_1553) (=> (and x730 ?v_1554) (= tmp377 16)) (=> (and ?v_537 ?v_1555) (= tmp376 0)) (=> (and ?v_537 ?v_1557) ?v_1556) (=> (and x743 ?v_1555) ?v_1556) (=> (and x743 ?v_1557) (= tmp376 16)) (=> (and ?v_1558 ?v_1559) (= tmp375 0)) (=> (and ?v_1558 ?v_1561) ?v_1560) (=> (and x728 ?v_1559) ?v_1560) (=> (and x728 ?v_1561) (= tmp375 16)) (=> (and ?v_473 ?v_1562) (= tmp374 0)) (=> (and ?v_473 ?v_1564) ?v_1563) (=> (and x745 ?v_1562) ?v_1563) (=> (and x745 ?v_1564) (= tmp374 16)) (=> (and ?v_1081 ?v_1565) (= tmp373 0)) (=> (and ?v_1081 ?v_1567) ?v_1566) (=> (and x726 ?v_1565) ?v_1566) (=> (and x726 ?v_1567) (= tmp373 16)) (=> (and ?v_409 ?v_1568) (= tmp372 0)) (=> (and ?v_409 ?v_1570) ?v_1569) (=> (and x747 ?v_1568) ?v_1569) (=> (and x747 ?v_1570) (= tmp372 16)) (=> (and ?v_1571 ?v_1572) (= tmp371 0)) (=> (and ?v_1571 ?v_1574) ?v_1573) (=> (and x724 ?v_1572) ?v_1573) (=> (and x724 ?v_1574) (= tmp371 16)) (=> (and ?v_345 ?v_1575) (= tmp370 0)) (=> (and ?v_345 ?v_1577) ?v_1576) (=> (and x749 ?v_1575) ?v_1576) (=> (and x749 ?v_1577) (= tmp370 12)) (=> (and ?v_1578 ?v_1178) (= tmp369 0)) (=> (and ?v_1578 ?v_1180) ?v_1579) (=> (and x722 ?v_1178) ?v_1579) (=> (and x722 ?v_1180) (= tmp369 16)) (=> (and ?v_281 ?v_1580) (= tmp368 0)) (=> (and ?v_281 ?v_1581) (= tmp368 2)) (=> (and x751 ?v_1580) (= tmp368 6)) (=> (and x751 ?v_1581) (= tmp368 8)) (=> (and ?v_1273 ?v_1242) (= tmp367 0)) (=> (and ?v_1273 ?v_1244) ?v_1582) (=> (and x720 ?v_1242) ?v_1582) (=> (and x720 ?v_1244) (= tmp367 16)) (=> (and ?v_217 ?v_250) (= tmp366 0)) (=> (and ?v_217 ?v_252) ?v_1583) (=> (and x753 ?v_250) ?v_1583) (=> (and x753 ?v_252) (= tmp366 16)) (=> (and ?v_1337 ?v_1584) (= tmp365 0)) (=> (and ?v_1337 ?v_1585) (= tmp365 8)) (=> (and x718 ?v_1584) (= tmp365 6)) (=> (and x718 ?v_1585) (= tmp365 14)) (=> (and ?v_153 ?v_1586) (= tmp364 0)) (=> (and ?v_153 ?v_1588) ?v_1587) (=> (and x755 ?v_1586) ?v_1587) (=> (and x755 ?v_1588) (= tmp364 16)) (=> (and ?v_1401 ?v_1589) (= tmp363 0)) (=> (and ?v_1401 ?v_1590) (= tmp363 4)) (=> (and x716 ?v_1589) (= tmp363 6)) (=> (and x716 ?v_1590) (= tmp363 10)) (=> (and ?v_89 ?v_1591) (= tmp362 0)) (=> (and ?v_89 ?v_1593) ?v_1592) (=> (and x757 ?v_1591) ?v_1592) (=> (and x757 ?v_1593) (= tmp362 16)) (=> (and ?v_1465 ?v_1594) (= tmp361 0)) (=> (and ?v_1465 ?v_1596) ?v_1595) (=> (and x714 ?v_1594) ?v_1595) (=> (and x714 ?v_1596) (= tmp361 16)) (=> (and ?v_25 ?v_1597) (= tmp360 0)) (=> (and ?v_25 ?v_1598) (= tmp360 6)) (=> (and x759 ?v_1597) (= tmp360 8)) (=> (and x759 ?v_1598) (= tmp360 14)) (=> (and ?v_1599 ?v_1600) (= tmp359 0)) (=> (and ?v_1599 ?v_1602) ?v_1601) (=> (and x712 ?v_1600) ?v_1601) (=> (and x712 ?v_1602) (= tmp359 16)) (=> ?v_730 (= tmp358 0)) (=> ?v_732 (= tmp358 4)) (=> (and ?v_1603 ?v_762) (= tmp357 0)) (=> (and ?v_1603 ?v_764) (= tmp357 4)) (=> (and x687 ?v_762) (= tmp357 2)) (=> (and x687 ?v_764) (= tmp357 6)) (=> (and ?v_657 ?v_698) (= tmp356 0)) (=> (and ?v_657 ?v_700) ?v_1604) (=> (and x691 ?v_698) ?v_1604) (=> (and x691 ?v_700) (= tmp356 4)) (=> (and ?v_1605 ?v_858) (= tmp355 0)) (=> (and ?v_1605 ?v_860) (= tmp355 4)) (=> (and x685 ?v_858) (= tmp355 6)) (=> (and x685 ?v_860) (= tmp355 10)) (=> (and ?v_1606 ?v_634) (= tmp354 0)) (=> (and ?v_1606 ?v_636) ?v_1607) (=> (and x693 ?v_634) ?v_1607) (=> (and x693 ?v_636) (= tmp354 8)) (=> (and ?v_1608 ?v_922) (= tmp353 0)) (=> (and ?v_1608 ?v_924) (= tmp353 6)) (=> (and x683 ?v_922) (= tmp353 8)) (=> (and x683 ?v_924) (= tmp353 14)) (=> (and ?v_1609 ?v_570) (= tmp352 0)) (=> (and ?v_1609 ?v_572) ?v_1610) (=> (and x695 ?v_570) ?v_1610) (=> (and x695 ?v_572) (= tmp352 8)) (=> (and ?v_1009 ?v_986) (= tmp351 0)) (=> (and ?v_1009 ?v_988) (= tmp351 8)) (=> (and x681 ?v_986) (= tmp351 6)) (=> (and x681 ?v_988) (= tmp351 14)) (=> (and ?v_1611 ?v_506) (= tmp350 0)) (=> (and ?v_1611 ?v_508) ?v_1612) (=> (and x697 ?v_506) ?v_1612) (=> (and x697 ?v_508) (= tmp350 4)) (=> (and ?v_1613 ?v_1050) (= tmp349 0)) (=> (and ?v_1613 ?v_1052) ?v_1614) (=> (and x679 ?v_1050) ?v_1614) (=> (and x679 ?v_1052) (= tmp349 12)) (=> (and ?v_1615 ?v_442) (= tmp348 0)) (=> (and ?v_1615 ?v_444) (= tmp348 4)) (=> (and x699 ?v_442) (= tmp348 6)) (=> (and x699 ?v_444) (= tmp348 10)) (=> (and ?v_1137 ?v_1114) (= tmp347 0)) (=> (and ?v_1137 ?v_1116) (= tmp347 6)) (=> (and x677 ?v_1114) (= tmp347 8)) (=> (and x677 ?v_1116) (= tmp347 14)) (=> (and ?v_1616 ?v_378) (= tmp346 0)) (=> (and ?v_1616 ?v_380) (= tmp346 6)) (=> (and x701 ?v_378) (= tmp346 8)) (=> (and x701 ?v_380) (= tmp346 14)) (=> (and ?v_1201 ?v_1617) (= tmp345 0)) (=> (and ?v_1201 ?v_1619) ?v_1618) (=> (and x675 ?v_1617) ?v_1618) (=> (and x675 ?v_1619) (= tmp345 16)) (=> (and ?v_1620 ?v_314) (= tmp344 0)) (=> (and ?v_1620 ?v_316) ?v_1621) (=> (and x703 ?v_314) ?v_1621) (=> (and x703 ?v_316) (= tmp344 12)) (=> (and ?v_1622 ?v_1623) (= tmp343 0)) (=> (and ?v_1622 ?v_1625) ?v_1624) (=> (and x673 ?v_1623) ?v_1624) (=> (and x673 ?v_1625) (= tmp343 16)) (=> (and ?v_1626 ?v_1627) (= tmp342 0)) (=> (and ?v_1626 ?v_1628) (= tmp342 4)) (=> (and x705 ?v_1627) (= tmp342 2)) (=> (and x705 ?v_1628) (= tmp342 6)) (=> (and ?v_1629 ?v_1306) (= tmp341 0)) (=> (and ?v_1629 ?v_1308) ?v_1630) (=> (and x671 ?v_1306) ?v_1630) (=> (and x671 ?v_1308) (= tmp341 16)) (=> (and ?v_1631 ?v_186) (= tmp340 0)) (=> (and ?v_1631 ?v_188) (= tmp340 2)) (=> (and x707 ?v_186) (= tmp340 4)) (=> (and x707 ?v_188) (= tmp340 6)) (=> (and ?v_1632 ?v_1370) (= tmp339 0)) (=> (and ?v_1632 ?v_1372) ?v_1633) (=> (and x669 ?v_1370) ?v_1633) (=> (and x669 ?v_1372) (= tmp339 16)) (=> (and ?v_1634 ?v_122) (= tmp338 0)) (=> (and ?v_1634 ?v_124) ?v_1635) (=> (and x709 ?v_122) ?v_1635) (=> (and x709 ?v_124) (= tmp338 12)) (=> (and ?v_1636 ?v_1434) (= tmp337 0)) (=> (and ?v_1636 ?v_1436) ?v_1637) (=> (and x667 ?v_1434) ?v_1637) (=> (and x667 ?v_1436) (= tmp337 16)) (=> (and ?v_1638 ?v_58) (= tmp336 0)) (=> (and ?v_1638 ?v_60) ?v_1639) (=> (and x711 ?v_58) ?v_1639) (=> (and x711 ?v_60) (= tmp336 12)) (=> (and ?v_1521 ?v_1498) (= tmp335 0)) (=> (and ?v_1521 ?v_1500) ?v_1640) (=> (and x665 ?v_1498) ?v_1640) (=> (and x665 ?v_1500) (= tmp335 16)) (=> (and ?v_721 ?v_1641) (= tmp334 0)) (=> (and ?v_721 ?v_1642) (= tmp334 6)) (=> (and x642 ?v_1641) (= tmp334 8)) (=> (and x642 ?v_1642) (= tmp334 14)) (=> (and ?v_1643 ?v_1644) (= tmp333 0)) (=> (and ?v_1643 ?v_1646) ?v_1645) (=> (and x639 ?v_1644) ?v_1645) (=> (and x639 ?v_1646) (= tmp333 12)) (=> (and ?v_1647 ?v_1648) (= tmp332 0)) (=> (and ?v_1647 ?v_1650) ?v_1649) (=> (and x644 ?v_1648) ?v_1649) (=> (and x644 ?v_1650) (= tmp332 16)) (=> (and ?v_881 ?v_1651) (= tmp331 0)) (=> (and ?v_881 ?v_1653) ?v_1652) (=> (and x637 ?v_1651) ?v_1652) (=> (and x637 ?v_1653) (= tmp331 12)) (=> (and ?v_593 ?v_1654) (= tmp330 0)) (=> (and ?v_593 ?v_1656) ?v_1655) (=> (and x646 ?v_1654) ?v_1655) (=> (and x646 ?v_1656) (= tmp330 16)) (=> (and ?v_945 ?v_1657) (= tmp329 0)) (=> (and ?v_945 ?v_1658) (= tmp329 6)) (=> (and x635 ?v_1657) (= tmp329 8)) (=> (and x635 ?v_1658) (= tmp329 14)) (=> (and ?v_529 ?v_1659) (= tmp328 0)) (=> (and ?v_529 ?v_1660) (= tmp328 8)) (=> (and x648 ?v_1659) (= tmp328 6)) (=> (and x648 ?v_1660) (= tmp328 14)) (=> (and ?v_1661 ?v_1662) (= tmp327 0)) (=> (and ?v_1661 ?v_1664) ?v_1663) (=> (and x633 ?v_1662) ?v_1663) (=> (and x633 ?v_1664) (= tmp327 16)) (=> (and ?v_465 ?v_1665) (= tmp326 0)) (=> (and ?v_465 ?v_1667) ?v_1666) (=> (and x650 ?v_1665) ?v_1666) (=> (and x650 ?v_1667) (= tmp326 12)) (=> (and ?v_1073 ?v_1668) (= tmp325 0)) (=> (and ?v_1073 ?v_1670) ?v_1669) (=> (and x631 ?v_1668) ?v_1669) (=> (and x631 ?v_1670) (= tmp325 12)) (=> (and ?v_401 ?v_1671) (= tmp324 0)) (=> (and ?v_401 ?v_1672) (= tmp324 6)) (=> (and x652 ?v_1671) (= tmp324 2)) (=> (and x652 ?v_1672) (= tmp324 8)) (=> (and ?v_1673 ?v_1674) (= tmp323 0)) (=> (and ?v_1673 ?v_1675) (= tmp323 2)) (=> (and x629 ?v_1674) (= tmp323 4)) (=> (and x629 ?v_1675) (= tmp323 6)) (=> (and ?v_337 ?v_1676) (= tmp322 0)) (=> (and ?v_337 ?v_1678) ?v_1677) (=> (and x654 ?v_1676) ?v_1677) (=> (and x654 ?v_1678) (= tmp322 8)) (=> (and ?v_1679 ?v_1170) (= tmp321 0)) (=> (and ?v_1679 ?v_1172) ?v_1680) (=> (and x627 ?v_1170) ?v_1680) (=> (and x627 ?v_1172) (= tmp321 8)) (=> (and ?v_273 ?v_1681) (= tmp320 0)) (=> (and ?v_273 ?v_1682) (= tmp320 4)) (=> (and x656 ?v_1681) (= tmp320 2)) (=> (and x656 ?v_1682) (= tmp320 6)) (=> (and ?v_1265 ?v_1234) (= tmp319 0)) (=> (and ?v_1265 ?v_1236) (= tmp319 4)) (=> (and x625 ?v_1234) (= tmp319 6)) (=> (and x625 ?v_1236) (= tmp319 10)) (=> (and ?v_209 ?v_242) (= tmp318 0)) (=> (and ?v_209 ?v_244) (= tmp318 4)) (=> (and x658 ?v_242) (= tmp318 6)) (=> (and x658 ?v_244) (= tmp318 10)) (=> (and ?v_1329 ?v_1683) (= tmp317 0)) (=> (and ?v_1329 ?v_1684) (= tmp317 6)) (=> (and x623 ?v_1683) (= tmp317 8)) (=> (and x623 ?v_1684) (= tmp317 14)) (=> (and ?v_145 ?v_1685) (= tmp316 0)) (=> (and ?v_145 ?v_1686) (= tmp316 8)) (=> (and x660 ?v_1685) (= tmp316 6)) (=> (and x660 ?v_1686) (= tmp316 14)) (=> (and ?v_1393 ?v_1687) (= tmp315 0)) (=> (and ?v_1393 ?v_1689) ?v_1688) (=> (and x621 ?v_1687) ?v_1688) (=> (and x621 ?v_1689) (= tmp315 12)) (=> (and ?v_81 ?v_1690) (= tmp314 0)) (=> (and ?v_81 ?v_1692) ?v_1691) (=> (and x662 ?v_1690) ?v_1691) (=> (and x662 ?v_1692) (= tmp314 12)) (=> (and ?v_1457 ?v_1693) (= tmp313 0)) (=> (and ?v_1457 ?v_1694) (= tmp313 6)) (=> (and x619 ?v_1693) (= tmp313 8)) (=> (and x619 ?v_1694) (= tmp313 14)) (=> (and ?v_17 ?v_1695) (= tmp312 0)) (=> (and ?v_17 ?v_1697) ?v_1696) (=> (and x664 ?v_1695) ?v_1696) (=> (and x664 ?v_1697) (= tmp312 12)) (=> (and ?v_1698 ?v_1699) (= tmp311 0)) (=> (and ?v_1698 ?v_1701) ?v_1700) (=> (and x617 ?v_1699) ?v_1700) (=> (and x617 ?v_1701) (= tmp311 16)) (=> ?v_754 (= tmp310 0)) (=> ?v_756 (= tmp310 1)) (=> (and ?v_809 ?v_786) (= tmp309 0)) (=> (and ?v_809 ?v_788) (= tmp309 2)) (=> (and x592 ?v_786) (= tmp309 4)) (=> (and x592 ?v_788) (= tmp309 6)) (=> (and ?v_1702 ?v_722) (= tmp308 0)) (=> (and ?v_1702 ?v_724) (= tmp308 1)) (=> (and x596 ?v_722) (= tmp308 4)) (=> (and x596 ?v_724) (= tmp308 5)) (=> (and ?v_1703 ?v_850) (= tmp307 0)) (=> (and ?v_1703 ?v_852) ?v_1704) (=> (and x590 ?v_850) ?v_1704) (=> (and x590 ?v_852) (= tmp307 8)) (=> (and ?v_1705 ?v_1706) (= tmp306 0)) (=> (and ?v_1705 ?v_1708) ?v_1707) (=> (and x598 ?v_1706) ?v_1707) (=> (and x598 ?v_1708) (= tmp306 8)) (=> (and ?v_1709 ?v_914) (= tmp305 0)) (=> (and ?v_1709 ?v_916) (= tmp305 2)) (=> (and x588 ?v_914) (= tmp305 4)) (=> (and x588 ?v_916) (= tmp305 6)) (=> (and ?v_1710 ?v_594) (= tmp304 0)) (=> (and ?v_1710 ?v_596) ?v_1711) (=> (and x600 ?v_594) ?v_1711) (=> (and x600 ?v_596) (= tmp304 8)) (=> (and ?v_1001 ?v_978) (= tmp303 0)) (=> (and ?v_1001 ?v_980) ?v_1712) (=> (and x586 ?v_978) ?v_1712) (=> (and x586 ?v_980) (= tmp303 12)) (=> (and ?v_1713 ?v_530) (= tmp302 0)) (=> (and ?v_1713 ?v_532) ?v_1714) (=> (and x602 ?v_530) ?v_1714) (=> (and x602 ?v_532) (= tmp302 12)) (=> (and ?v_1715 ?v_1042) (= tmp301 0)) (=> (and ?v_1715 ?v_1044) (= tmp301 6)) (=> (and x584 ?v_1042) (= tmp301 8)) (=> (and x584 ?v_1044) (= tmp301 14)) (=> (and ?v_1716 ?v_466) (= tmp300 0)) (=> (and ?v_1716 ?v_468) ?v_1717) (=> (and x604 ?v_466) ?v_1717) (=> (and x604 ?v_468) (= tmp300 12)) (=> (and ?v_1129 ?v_1106) (= tmp299 0)) (=> (and ?v_1129 ?v_1108) ?v_1718) (=> (and x582 ?v_1106) ?v_1718) (=> (and x582 ?v_1108) (= tmp299 16)) (=> (and ?v_1719 ?v_402) (= tmp298 0)) (=> (and ?v_1719 ?v_404) ?v_1720) (=> (and x606 ?v_402) ?v_1720) (=> (and x606 ?v_404) (= tmp298 12)) (=> (and ?v_1193 ?v_1721) (= tmp297 0)) (=> (and ?v_1193 ?v_1723) ?v_1722) (=> (and x580 ?v_1721) ?v_1722) (=> (and x580 ?v_1723) (= tmp297 12)) (=> (and ?v_1724 ?v_338) (= tmp296 0)) (=> (and ?v_1724 ?v_340) (= tmp296 6)) (=> (and x608 ?v_338) (= tmp296 4)) (=> (and x608 ?v_340) (= tmp296 10)) (=> (and ?v_1725 ?v_1726) (= tmp295 0)) (=> (and ?v_1725 ?v_1728) ?v_1727) (=> (and x578 ?v_1726) ?v_1727) (=> (and x578 ?v_1728) (= tmp295 12)) (=> (and ?v_1729 ?v_274) (= tmp294 0)) (=> (and ?v_1729 ?v_276) ?v_1730) (=> (and x610 ?v_274) ?v_1730) (=> (and x610 ?v_276) (= tmp294 4)) (=> (and ?v_1731 ?v_1298) (= tmp293 0)) (=> (and ?v_1731 ?v_1300) ?v_1732) (=> (and x576 ?v_1298) ?v_1732) (=> (and x576 ?v_1300) (= tmp293 12)) (=> (and ?v_1733 ?v_178) (= tmp292 0)) (=> (and ?v_1733 ?v_180) ?v_1734) (=> (and x612 ?v_178) ?v_1734) (=> (and x612 ?v_180) (= tmp292 8)) (=> (and ?v_1735 ?v_1362) (= tmp291 0)) (=> (and ?v_1735 ?v_1364) ?v_1736) (=> (and x574 ?v_1362) ?v_1736) (=> (and x574 ?v_1364) (= tmp291 12)) (=> (and ?v_1737 ?v_114) (= tmp290 0)) (=> (and ?v_1737 ?v_116) ?v_1738) (=> (and x614 ?v_114) ?v_1738) (=> (and x614 ?v_116) (= tmp290 8)) (=> (and ?v_1739 ?v_1426) (= tmp289 0)) (=> (and ?v_1739 ?v_1428) ?v_1740) (=> (and x572 ?v_1426) ?v_1740) (=> (and x572 ?v_1428) (= tmp289 8)) (=> (and ?v_1741 ?v_50) (= tmp288 0)) (=> (and ?v_1741 ?v_52) ?v_1742) (=> (and x616 ?v_50) ?v_1742) (=> (and x616 ?v_52) (= tmp288 8)) (=> (and ?v_1513 ?v_1490) (= tmp287 0)) (=> (and ?v_1513 ?v_1492) ?v_1743) (=> (and x570 ?v_1490) ?v_1743) (=> (and x570 ?v_1492) (= tmp287 12)) (=> (and ?v_713 ?v_1744) (= tmp286 0)) (=> (and ?v_713 ?v_1746) ?v_1745) (=> (and x547 ?v_1744) ?v_1745) (=> (and x547 ?v_1746) (= tmp286 12)) (=> (and ?v_1747 ?v_1748) (= tmp285 0)) (=> (and ?v_1747 ?v_1749) (= tmp285 6)) (=> (and x544 ?v_1748) (= tmp285 4)) (=> (and x544 ?v_1749) (= tmp285 10)) (=> (and ?v_1750 ?v_1751) (= tmp284 0)) (=> (and ?v_1750 ?v_1753) ?v_1752) (=> (and x549 ?v_1751) ?v_1752) (=> (and x549 ?v_1753) (= tmp284 12)) (=> (and ?v_873 ?v_1754) (= tmp283 0)) (=> (and ?v_873 ?v_1756) ?v_1755) (=> (and x542 ?v_1754) ?v_1755) (=> (and x542 ?v_1756) (= tmp283 8)) (=> (and ?v_585 ?v_1757) (= tmp282 0)) (=> (and ?v_585 ?v_1759) ?v_1758) (=> (and x551 ?v_1757) ?v_1758) (=> (and x551 ?v_1759) (= tmp282 12)) (=> (and ?v_937 ?v_1760) (= tmp281 0)) (=> (and ?v_937 ?v_1762) ?v_1761) (=> (and x540 ?v_1760) ?v_1761) (=> (and x540 ?v_1762) (= tmp281 4)) (=> (and ?v_521 ?v_1763) (= tmp280 0)) (=> (and ?v_521 ?v_1765) ?v_1764) (=> (and x553 ?v_1763) ?v_1764) (=> (and x553 ?v_1765) (= tmp280 16)) (=> (and ?v_1766 ?v_1767) (= tmp279 0)) (=> (and ?v_1766 ?v_1769) ?v_1768) (=> (and x538 ?v_1767) ?v_1768) (=> (and x538 ?v_1769) (= tmp279 4)) (=> (and ?v_457 ?v_1770) (= tmp278 0)) (=> (and ?v_457 ?v_1771) (= tmp278 8)) (=> (and x555 ?v_1770) (= tmp278 6)) (=> (and x555 ?v_1771) (= tmp278 14)) (=> (and ?v_1065 ?v_1772) (= tmp277 0)) (=> (and ?v_1065 ?v_1774) ?v_1773) (=> (and x536 ?v_1772) ?v_1773) (=> (and x536 ?v_1774) (= tmp277 4)) (=> (and ?v_393 ?v_1775) (= tmp276 0)) (=> (and ?v_393 ?v_1777) ?v_1776) (=> (and x557 ?v_1775) ?v_1776) (=> (and x557 ?v_1777) (= tmp276 12)) (=> (and ?v_1778 ?v_1779) (= tmp275 0)) (=> (and ?v_1778 ?v_1781) ?v_1780) (=> (and x534 ?v_1779) ?v_1780) (=> (and x534 ?v_1781) (= tmp275 4)) (=> (and ?v_329 ?v_1782) (= tmp274 0)) (=> (and ?v_329 ?v_1784) ?v_1783) (=> (and x559 ?v_1782) ?v_1783) (=> (and x559 ?v_1784) (= tmp274 12)) (=> (and ?v_1785 ?v_1162) (= tmp273 0)) (=> (and ?v_1785 ?v_1164) ?v_1786) (=> (and x532 ?v_1162) ?v_1786) (=> (and x532 ?v_1164) (= tmp273 8)) (=> (and ?v_265 ?v_1787) (= tmp272 0)) (=> (and ?v_265 ?v_1789) ?v_1788) (=> (and x561 ?v_1787) ?v_1788) (=> (and x561 ?v_1789) (= tmp272 12)) (=> (and ?v_1257 ?v_1226) (= tmp271 0)) (=> (and ?v_1257 ?v_1228) ?v_1790) (=> (and x530 ?v_1226) ?v_1790) (=> (and x530 ?v_1228) (= tmp271 12)) (=> (and ?v_201 ?v_1791) (= tmp270 0)) (=> (and ?v_201 ?v_1793) ?v_1792) (=> (and x563 ?v_1791) ?v_1792) (=> (and x563 ?v_1793) (= tmp270 16)) (=> (and ?v_1321 ?v_1794) (= tmp269 0)) (=> (and ?v_1321 ?v_1795) (= tmp269 6)) (=> (and x528 ?v_1794) (= tmp269 8)) (=> (and x528 ?v_1795) (= tmp269 14)) (=> (and ?v_137 ?v_1796) (= tmp268 0)) (=> (and ?v_137 ?v_1798) ?v_1797) (=> (and x565 ?v_1796) ?v_1797) (=> (and x565 ?v_1798) (= tmp268 12)) (=> (and ?v_1385 ?v_1799) (= tmp267 0)) (=> (and ?v_1385 ?v_1801) ?v_1800) (=> (and x526 ?v_1799) ?v_1800) (=> (and x526 ?v_1801) (= tmp267 16)) (=> (and ?v_73 ?v_1802) (= tmp266 0)) (=> (and ?v_73 ?v_1804) ?v_1803) (=> (and x567 ?v_1802) ?v_1803) (=> (and x567 ?v_1804) (= tmp266 12)) (=> (and ?v_1449 ?v_1805) (= tmp265 0)) (=> (and ?v_1449 ?v_1807) ?v_1806) (=> (and x524 ?v_1805) ?v_1806) (=> (and x524 ?v_1807) (= tmp265 16)) (=> (and ?v_9 ?v_1808) (= tmp264 0)) (=> (and ?v_9 ?v_1809) (= tmp264 4)) (=> (and x569 ?v_1808) (= tmp264 6)) (=> (and x569 ?v_1809) (= tmp264 10)) (=> (and ?v_1810 ?v_1811) (= tmp263 0)) (=> (and ?v_1810 ?v_1813) ?v_1812) (=> (and x522 ?v_1811) ?v_1812) (=> (and x522 ?v_1813) (= tmp263 12)) (=> ?v_714 (= tmp262 0)) (=> ?v_716 (= tmp262 2)) (=> (and ?v_1814 ?v_746) (= tmp261 0)) (=> (and ?v_1814 ?v_748) (= tmp261 2)) (=> (and x497 ?v_746) (= tmp261 4)) (=> (and x497 ?v_748) (= tmp261 6)) (=> (and ?v_641 ?v_682) (= tmp260 0)) (=> (and ?v_641 ?v_684) ?v_1815) (=> (and x501 ?v_682) ?v_1815) (=> (and x501 ?v_684) (= tmp260 8)) (=> (and ?v_1816 ?v_1817) (= tmp259 0)) (=> (and ?v_1816 ?v_1818) (= tmp259 4)) (=> (and x495 ?v_1817) (= tmp259 2)) (=> (and x495 ?v_1818) (= tmp259 6)) (=> (and ?v_1819 ?v_618) (= tmp258 0)) (=> (and ?v_1819 ?v_620) ?v_1820) (=> (and x503 ?v_618) ?v_1820) (=> (and x503 ?v_620) (= tmp258 8)) (=> (and ?v_1821 ?v_874) (= tmp257 0)) (=> (and ?v_1821 ?v_876) (= tmp257 2)) (=> (and x493 ?v_874) (= tmp257 4)) (=> (and x493 ?v_876) (= tmp257 6)) (=> (and ?v_1822 ?v_554) (= tmp256 0)) (=> (and ?v_1822 ?v_556) ?v_1823) (=> (and x505 ?v_554) ?v_1823) (=> (and x505 ?v_556) (= tmp256 4)) (=> (and ?v_1824 ?v_938) (= tmp255 0)) (=> (and ?v_1824 ?v_940) ?v_1825) (=> (and x491 ?v_938) ?v_1825) (=> (and x491 ?v_940) (= tmp255 12)) (=> (and ?v_1826 ?v_490) (= tmp254 0)) (=> (and ?v_1826 ?v_492) (= tmp254 4)) (=> (and x507 ?v_490) (= tmp254 6)) (=> (and x507 ?v_492) (= tmp254 10)) (=> (and ?v_1827 ?v_1828) (= tmp253 0)) (=> (and ?v_1827 ?v_1830) ?v_1829) (=> (and x489 ?v_1828) ?v_1829) (=> (and x489 ?v_1830) (= tmp253 12)) (=> (and ?v_1831 ?v_426) (= tmp252 0)) (=> (and ?v_1831 ?v_428) ?v_1832) (=> (and x509 ?v_426) ?v_1832) (=> (and x509 ?v_428) (= tmp252 8)) (=> (and ?v_1833 ?v_1066) (= tmp251 0)) (=> (and ?v_1833 ?v_1068) ?v_1834) (=> (and x487 ?v_1066) ?v_1834) (=> (and x487 ?v_1068) (= tmp251 12)) (=> (and ?v_1835 ?v_362) (= tmp250 0)) (=> (and ?v_1835 ?v_364) ?v_1836) (=> (and x511 ?v_362) ?v_1836) (=> (and x511 ?v_364) (= tmp250 12)) (=> (and ?v_1153 ?v_1837) (= tmp249 0)) (=> (and ?v_1153 ?v_1838) (= tmp249 6)) (=> (and x485 ?v_1837) (= tmp249 4)) (=> (and x485 ?v_1838) (= tmp249 10)) (=> (and ?v_1839 ?v_298) (= tmp248 0)) (=> (and ?v_1839 ?v_300) ?v_1840) (=> (and x513 ?v_298) ?v_1840) (=> (and x513 ?v_300) (= tmp248 12)) (=> (and ?v_1217 ?v_1841) (= tmp247 0)) (=> (and ?v_1217 ?v_1842) (= tmp247 4)) (=> (and x483 ?v_1841) (= tmp247 2)) (=> (and x483 ?v_1842) (= tmp247 6)) (=> (and ?v_1843 ?v_234) (= tmp246 0)) (=> (and ?v_1843 ?v_236) (= tmp246 4)) (=> (and x515 ?v_234) (= tmp246 6)) (=> (and x515 ?v_236) (= tmp246 10)) (=> (and ?v_1844 ?v_1258) (= tmp245 0)) (=> (and ?v_1844 ?v_1260) (= tmp245 2)) (=> (and x481 ?v_1258) (= tmp245 4)) (=> (and x481 ?v_1260) (= tmp245 6)) (=> (and ?v_1845 ?v_170) (= tmp244 0)) (=> (and ?v_1845 ?v_172) ?v_1846) (=> (and x517 ?v_170) ?v_1846) (=> (and x517 ?v_172) (= tmp244 12)) (=> (and ?v_1847 ?v_1322) (= tmp243 0)) (=> (and ?v_1847 ?v_1324) (= tmp243 4)) (=> (and x479 ?v_1322) (= tmp243 2)) (=> (and x479 ?v_1324) (= tmp243 6)) (=> (and ?v_1848 ?v_106) (= tmp242 0)) (=> (and ?v_1848 ?v_108) (= tmp242 6)) (=> (and x519 ?v_106) (= tmp242 8)) (=> (and x519 ?v_108) (= tmp242 14)) (=> (and ?v_1849 ?v_1386) (= tmp241 0)) (=> (and ?v_1849 ?v_1388) (= tmp241 4)) (=> (and x477 ?v_1386) (= tmp241 6)) (=> (and x477 ?v_1388) (= tmp241 10)) (=> (and ?v_1850 ?v_42) (= tmp240 0)) (=> (and ?v_1850 ?v_44) ?v_1851) (=> (and x521 ?v_42) ?v_1851) (=> (and x521 ?v_44) (= tmp240 16)) (=> (and ?v_1852 ?v_1450) (= tmp239 0)) (=> (and ?v_1852 ?v_1452) (= tmp239 6)) (=> (and x475 ?v_1450) (= tmp239 4)) (=> (and x475 ?v_1452) (= tmp239 10)) (=> (and ?v_737 true) (= tmp238 0)) (=> (and x452 true) (= tmp238 4)) (=> (and ?v_1853 ?v_1854) (= tmp237 0)) (=> (and ?v_1853 ?v_1856) ?v_1855) (=> (and x450 ?v_1854) ?v_1855) (=> (and x450 ?v_1856) (= tmp237 8)) (=> (and ?v_673 ?v_1857) (= tmp236 0)) (=> (and ?v_673 ?v_1858) (= tmp236 2)) (=> (and x454 ?v_1857) (= tmp236 1)) (=> (and x454 ?v_1858) (= tmp236 3)) (=> (and ?v_865 ?v_1859) (= tmp235 0)) (=> (and ?v_865 ?v_1861) ?v_1860) (=> (and x448 ?v_1859) ?v_1860) (=> (and x448 ?v_1861) (= tmp235 8)) (=> (and ?v_577 ?v_1862) (= tmp234 0)) (=> (and ?v_577 ?v_1863) (= tmp234 2)) (=> (and x456 ?v_1862) (= tmp234 4)) (=> (and x456 ?v_1863) (= tmp234 6)) (=> (and ?v_929 ?v_1864) (= tmp233 0)) (=> (and ?v_929 ?v_1866) ?v_1865) (=> (and x446 ?v_1864) ?v_1865) (=> (and x446 ?v_1866) (= tmp233 8)) (=> (and ?v_513 ?v_1867) (= tmp232 0)) (=> (and ?v_513 ?v_1868) (= tmp232 4)) (=> (and x458 ?v_1867) (= tmp232 6)) (=> (and x458 ?v_1868) (= tmp232 10)) (=> (and ?v_1869 ?v_1870) (= tmp231 0)) (=> (and ?v_1869 ?v_1872) ?v_1871) (=> (and x444 ?v_1870) ?v_1871) (=> (and x444 ?v_1872) (= tmp231 8)) (=> (and ?v_449 ?v_1873) (= tmp230 0)) (=> (and ?v_449 ?v_1875) ?v_1874) (=> (and x460 ?v_1873) ?v_1874) (=> (and x460 ?v_1875) (= tmp230 12)) (=> (and ?v_1057 ?v_1876) (= tmp229 0)) (=> (and ?v_1057 ?v_1878) ?v_1877) (=> (and x442 ?v_1876) ?v_1877) (=> (and x442 ?v_1878) (= tmp229 4)) (=> (and ?v_385 ?v_1879) (= tmp228 0)) (=> (and ?v_385 ?v_1880) (= tmp228 6)) (=> (and x462 ?v_1879) (= tmp228 8)) (=> (and x462 ?v_1880) (= tmp228 14)) (=> (and ?v_1881 ?v_1882) (= tmp227 0)) (=> (and ?v_1881 ?v_1884) ?v_1883) (=> (and x440 ?v_1882) ?v_1883) (=> (and x440 ?v_1884) (= tmp227 4)) (=> (and ?v_321 ?v_1885) (= tmp226 0)) (=> (and ?v_321 ?v_1887) ?v_1886) (=> (and x464 ?v_1885) ?v_1886) (=> (and x464 ?v_1887) (= tmp226 16)) (=> (and ?v_1888 ?v_1154) (= tmp225 0)) (=> (and ?v_1888 ?v_1156) ?v_1889) (=> (and x438 ?v_1154) ?v_1889) (=> (and x438 ?v_1156) (= tmp225 8)) (=> (and ?v_257 ?v_1890) (= tmp224 0)) (=> (and ?v_257 ?v_1892) ?v_1891) (=> (and x466 ?v_1890) ?v_1891) (=> (and x466 ?v_1892) (= tmp224 16)) (=> (and ?v_1249 ?v_1218) (= tmp223 0)) (=> (and ?v_1249 ?v_1220) ?v_1893) (=> (and x436 ?v_1218) ?v_1893) (=> (and x436 ?v_1220) (= tmp223 8)) (=> (and ?v_193 ?v_1894) (= tmp222 0)) (=> (and ?v_193 ?v_1896) ?v_1895) (=> (and x468 ?v_1894) ?v_1895) (=> (and x468 ?v_1896) (= tmp222 16)) (=> (and ?v_1313 ?v_1897) (= tmp221 0)) (=> (and ?v_1313 ?v_1899) ?v_1898) (=> (and x434 ?v_1897) ?v_1898) (=> (and x434 ?v_1899) (= tmp221 8)) (=> (and ?v_129 ?v_1900) (= tmp220 0)) (=> (and ?v_129 ?v_1902) ?v_1901) (=> (and x470 ?v_1900) ?v_1901) (=> (and x470 ?v_1902) (= tmp220 12)) (=> (and ?v_1377 ?v_1903) (= tmp219 0)) (=> (and ?v_1377 ?v_1905) ?v_1904) (=> (and x432 ?v_1903) ?v_1904) (=> (and x432 ?v_1905) (= tmp219 8)) (=> (and ?v_65 ?v_1906) (= tmp218 0)) (=> (and ?v_65 ?v_1908) ?v_1907) (=> (and x472 ?v_1906) ?v_1907) (=> (and x472 ?v_1908) (= tmp218 12)) (=> (and ?v_1441 ?v_1909) (= tmp217 0)) (=> (and ?v_1441 ?v_1910) (= tmp217 4)) (=> (and x430 ?v_1909) (= tmp217 2)) (=> (and x430 ?v_1910) (= tmp217 6)) (=> (and ?v_1 ?v_1911) (= tmp216 0)) (=> (and ?v_1 ?v_1912) (= tmp216 6)) (=> (and x474 ?v_1911) (= tmp216 4)) (=> (and x474 ?v_1912) (= tmp216 10)) (=> (and ?v_1505 ?v_1913) (= tmp215 0)) (=> (and ?v_1505 ?v_1914) (= tmp215 2)) (=> (and x428 ?v_1913) (= tmp215 1)) (=> (and x428 ?v_1914) (= tmp215 3)) (=> (and ?v_1915 ?v_738) (= tmp214 0)) (=> (and ?v_1915 ?v_740) (= tmp214 6)) (=> (and x405 ?v_738) (= tmp214 4)) (=> (and x405 ?v_740) (= tmp214 10)) (=> (and ?v_1916 ?v_770) (= tmp213 0)) (=> (and ?v_1916 ?v_772) ?v_1917) (=> (and x402 ?v_770) ?v_1917) (=> (and x402 ?v_772) (= tmp213 12)) (=> (and ?v_1918 ?v_674) (= tmp212 0)) (=> (and ?v_1918 ?v_676) (= tmp212 4)) (=> (and x407 ?v_674) (= tmp212 2)) (=> (and x407 ?v_676) (= tmp212 6)) (=> (and ?v_1919 ?v_834) (= tmp211 0)) (=> (and ?v_1919 ?v_836) (= tmp211 6)) (=> (and x400 ?v_834) (= tmp211 4)) (=> (and x400 ?v_836) (= tmp211 10)) (=> (and ?v_1920 ?v_610) (= tmp210 0)) (=> (and ?v_1920 ?v_612) (= tmp210 2)) (=> (and x409 ?v_610) (= tmp210 4)) (=> (and x409 ?v_612) (= tmp210 6)) (=> (and ?v_1921 ?v_898) (= tmp209 0)) (=> (and ?v_1921 ?v_900) ?v_1922) (=> (and x398 ?v_898) ?v_1922) (=> (and x398 ?v_900) (= tmp209 8)) (=> (and ?v_1923 ?v_546) (= tmp208 0)) (=> (and ?v_1923 ?v_548) ?v_1924) (=> (and x411 ?v_546) ?v_1924) (=> (and x411 ?v_548) (= tmp208 8)) (=> (and ?v_1925 ?v_962) (= tmp207 0)) (=> (and ?v_1925 ?v_964) ?v_1926) (=> (and x396 ?v_962) ?v_1926) (=> (and x396 ?v_964) (= tmp207 8)) (=> (and ?v_1927 ?v_482) (= tmp206 0)) (=> (and ?v_1927 ?v_484) ?v_1928) (=> (and x413 ?v_482) ?v_1928) (=> (and x413 ?v_484) (= tmp206 8)) (=> (and ?v_1929 ?v_1026) (= tmp205 0)) (=> (and ?v_1929 ?v_1028) ?v_1930) (=> (and x394 ?v_1026) ?v_1930) (=> (and x394 ?v_1028) (= tmp205 8)) (=> (and ?v_1931 ?v_418) (= tmp204 0)) (=> (and ?v_1931 ?v_420) ?v_1932) (=> (and x415 ?v_418) ?v_1932) (=> (and x415 ?v_420) (= tmp204 8)) (=> (and ?v_1933 ?v_1090) (= tmp203 0)) (=> (and ?v_1933 ?v_1092) ?v_1934) (=> (and x392 ?v_1090) ?v_1934) (=> (and x392 ?v_1092) (= tmp203 4)) (=> (and ?v_1935 ?v_354) (= tmp202 0)) (=> (and ?v_1935 ?v_356) (= tmp202 4)) (=> (and x417 ?v_354) (= tmp202 6)) (=> (and x417 ?v_356) (= tmp202 10)) (=> (and ?v_1936 ?v_1158) (= tmp201 0)) (=> (and ?v_1936 ?v_1160) ?v_1937) (=> (and x390 ?v_1158) ?v_1937) (=> (and x390 ?v_1160) (= tmp201 4)) (=> (and ?v_1938 ?v_290) (= tmp200 0)) (=> (and ?v_1938 ?v_292) ?v_1939) (=> (and x419 ?v_290) ?v_1939) (=> (and x419 ?v_292) (= tmp200 12)) (=> (and ?v_1940 ?v_1222) (= tmp199 0)) (=> (and ?v_1940 ?v_1224) ?v_1941) (=> (and x388 ?v_1222) ?v_1941) (=> (and x388 ?v_1224) (= tmp199 4)) (=> (and ?v_1942 ?v_226) (= tmp198 0)) (=> (and ?v_1942 ?v_228) ?v_1943) (=> (and x421 ?v_226) ?v_1943) (=> (and x421 ?v_228) (= tmp198 12)) (=> (and ?v_1944 ?v_1282) (= tmp197 0)) (=> (and ?v_1944 ?v_1284) ?v_1945) (=> (and x386 ?v_1282) ?v_1945) (=> (and x386 ?v_1284) (= tmp197 8)) (=> (and ?v_1946 ?v_162) (= tmp196 0)) (=> (and ?v_1946 ?v_164) (= tmp196 6)) (=> (and x423 ?v_162) (= tmp196 4)) (=> (and x423 ?v_164) (= tmp196 10)) (=> (and ?v_1947 ?v_1346) (= tmp195 0)) (=> (and ?v_1947 ?v_1348) ?v_1948) (=> (and x384 ?v_1346) ?v_1948) (=> (and x384 ?v_1348) (= tmp195 12)) (=> (and ?v_1949 ?v_98) (= tmp194 0)) (=> (and ?v_1949 ?v_100) ?v_1950) (=> (and x425 ?v_98) ?v_1950) (=> (and x425 ?v_100) (= tmp194 8)) (=> (and ?v_1951 ?v_1410) (= tmp193 0)) (=> (and ?v_1951 ?v_1412) ?v_1952) (=> (and x382 ?v_1410) ?v_1952) (=> (and x382 ?v_1412) (= tmp193 12)) (=> (and ?v_1953 ?v_34) (= tmp192 0)) (=> (and ?v_1953 ?v_36) ?v_1954) (=> (and x427 ?v_34) ?v_1954) (=> (and x427 ?v_36) (= tmp192 8)) (=> (and ?v_1955 ?v_1474) (= tmp191 0)) (=> (and ?v_1955 ?v_1476) ?v_1956) (=> (and x380 ?v_1474) ?v_1956) (=> (and x380 ?v_1476) (= tmp191 8)) (=> (and ?v_1957 ?v_742) (= tmp190 0)) (=> (and ?v_1957 ?v_744) ?v_1958) (=> (and x357 ?v_742) ?v_1958) (=> (and x357 ?v_744) (= tmp190 4)) (=> (and ?v_805 ?v_774) (= tmp189 0)) (=> (and ?v_805 ?v_776) ?v_1959) (=> (and x354 ?v_774) ?v_1959) (=> (and x354 ?v_776) (= tmp189 4)) (=> (and ?v_1960 ?v_678) (= tmp188 0)) (=> (and ?v_1960 ?v_680) ?v_1961) (=> (and x359 ?v_678) ?v_1961) (=> (and x359 ?v_680) (= tmp188 8)) (=> (and ?v_1962 ?v_838) (= tmp187 0)) (=> (and ?v_1962 ?v_840) ?v_1963) (=> (and x352 ?v_838) ?v_1963) (=> (and x352 ?v_840) (= tmp187 8)) (=> (and ?v_1964 ?v_614) (= tmp186 0)) (=> (and ?v_1964 ?v_616) ?v_1965) (=> (and x361 ?v_614) ?v_1965) (=> (and x361 ?v_616) (= tmp186 8)) (=> (and ?v_1966 ?v_902) (= tmp185 0)) (=> (and ?v_1966 ?v_904) ?v_1967) (=> (and x350 ?v_902) ?v_1967) (=> (and x350 ?v_904) (= tmp185 12)) (=> (and ?v_1968 ?v_550) (= tmp184 0)) (=> (and ?v_1968 ?v_552) ?v_1969) (=> (and x363 ?v_550) ?v_1969) (=> (and x363 ?v_552) (= tmp184 8)) (=> (and ?v_997 ?v_966) (= tmp183 0)) (=> (and ?v_997 ?v_968) ?v_1970) (=> (and x348 ?v_966) ?v_1970) (=> (and x348 ?v_968) (= tmp183 12)) (=> (and ?v_1971 ?v_486) (= tmp182 0)) (=> (and ?v_1971 ?v_488) (= tmp182 4)) (=> (and x365 ?v_486) (= tmp182 6)) (=> (and x365 ?v_488) (= tmp182 10)) (=> (and ?v_1972 ?v_1030) (= tmp181 0)) (=> (and ?v_1972 ?v_1032) ?v_1973) (=> (and x346 ?v_1030) ?v_1973) (=> (and x346 ?v_1032) (= tmp181 16)) (=> (and ?v_1974 ?v_422) (= tmp180 0)) (=> (and ?v_1974 ?v_424) ?v_1975) (=> (and x367 ?v_422) ?v_1975) (=> (and x367 ?v_424) (= tmp180 12)) (=> (and ?v_1125 ?v_1094) (= tmp179 0)) (=> (and ?v_1125 ?v_1096) ?v_1976) (=> (and x344 ?v_1094) ?v_1976) (=> (and x344 ?v_1096) (= tmp179 16)) (=> (and ?v_1977 ?v_358) (= tmp178 0)) (=> (and ?v_1977 ?v_360) ?v_1978) (=> (and x369 ?v_358) ?v_1978) (=> (and x369 ?v_360) (= tmp178 12)) (=> (and ?v_1189 ?v_1979) (= tmp177 0)) (=> (and ?v_1189 ?v_1980) (= tmp177 8)) (=> (and x342 ?v_1979) (= tmp177 6)) (=> (and x342 ?v_1980) (= tmp177 14)) (=> (and ?v_1981 ?v_294) (= tmp176 0)) (=> (and ?v_1981 ?v_296) ?v_1982) (=> (and x371 ?v_294) ?v_1982) (=> (and x371 ?v_296) (= tmp176 12)) (=> (and ?v_1983 ?v_1984) (= tmp175 0)) (=> (and ?v_1983 ?v_1986) ?v_1985) (=> (and x340 ?v_1984) ?v_1985) (=> (and x340 ?v_1986) (= tmp175 12)) (=> (and ?v_1987 ?v_230) (= tmp174 0)) (=> (and ?v_1987 ?v_232) ?v_1988) (=> (and x373 ?v_230) ?v_1988) (=> (and x373 ?v_232) (= tmp174 12)) (=> (and ?v_1989 ?v_1286) (= tmp173 0)) (=> (and ?v_1989 ?v_1288) (= tmp173 6)) (=> (and x338 ?v_1286) (= tmp173 4)) (=> (and x338 ?v_1288) (= tmp173 10)) (=> (and ?v_1990 ?v_166) (= tmp172 0)) (=> (and ?v_1990 ?v_168) (= tmp172 6)) (=> (and x375 ?v_166) (= tmp172 4)) (=> (and x375 ?v_168) (= tmp172 10)) (=> (and ?v_1991 ?v_1350) (= tmp171 0)) (=> (and ?v_1991 ?v_1352) (= tmp171 4)) (=> (and x336 ?v_1350) (= tmp171 2)) (=> (and x336 ?v_1352) (= tmp171 6)) (=> (and ?v_1992 ?v_102) (= tmp170 0)) (=> (and ?v_1992 ?v_104) (= tmp170 4)) (=> (and x377 ?v_102) (= tmp170 2)) (=> (and x377 ?v_104) (= tmp170 6)) (=> (and ?v_1993 ?v_1414) (= tmp169 0)) (=> (and ?v_1993 ?v_1416) ?v_1994) (=> (and x334 ?v_1414) ?v_1994) (=> (and x334 ?v_1416) (= tmp169 8)) (=> (and ?v_1995 ?v_38) (= tmp168 0)) (=> (and ?v_1995 ?v_40) ?v_1996) (=> (and x379 ?v_38) ?v_1996) (=> (and x379 ?v_40) (= tmp168 2)) (=> (and ?v_1997 ?v_1478) (= tmp167 0)) (=> (and ?v_1997 ?v_1480) ?v_1998) (=> (and x332 ?v_1478) ?v_1998) (=> (and x332 ?v_1480) (= tmp167 8)) (=> (and ?v_709 ?v_1999) (= tmp166 0)) (=> (and ?v_709 ?v_2001) ?v_2000) (=> (and x309 ?v_1999) ?v_2000) (=> (and x309 ?v_2001) (= tmp166 8)) (=> (and ?v_2002 ?v_2003) (= tmp165 0)) (=> (and ?v_2002 ?v_2005) ?v_2004) (=> (and x306 ?v_2003) ?v_2004) (=> (and x306 ?v_2005) (= tmp165 8)) (=> (and ?v_645 ?v_2006) (= tmp164 0)) (=> (and ?v_645 ?v_2008) ?v_2007) (=> (and x311 ?v_2006) ?v_2007) (=> (and x311 ?v_2008) (= tmp164 8)) (=> (and ?v_869 ?v_2009) (= tmp163 0)) (=> (and ?v_869 ?v_2010) (= tmp163 4)) (=> (and x304 ?v_2009) (= tmp163 6)) (=> (and x304 ?v_2010) (= tmp163 10)) (=> (and ?v_581 ?v_2011) (= tmp162 0)) (=> (and ?v_581 ?v_2013) ?v_2012) (=> (and x313 ?v_2011) ?v_2012) (=> (and x313 ?v_2013) (= tmp162 8)) (=> (and ?v_933 ?v_2014) (= tmp161 0)) (=> (and ?v_933 ?v_2016) ?v_2015) (=> (and x302 ?v_2014) ?v_2015) (=> (and x302 ?v_2016) (= tmp161 12)) (=> (and ?v_517 ?v_2017) (= tmp160 0)) (=> (and ?v_517 ?v_2019) ?v_2018) (=> (and x315 ?v_2017) ?v_2018) (=> (and x315 ?v_2019) (= tmp160 12)) (=> (and ?v_2020 ?v_2021) (= tmp159 0)) (=> (and ?v_2020 ?v_2023) ?v_2022) (=> (and x300 ?v_2021) ?v_2022) (=> (and x300 ?v_2023) (= tmp159 12)) (=> (and ?v_453 ?v_2024) (= tmp158 0)) (=> (and ?v_453 ?v_2026) ?v_2025) (=> (and x317 ?v_2024) ?v_2025) (=> (and x317 ?v_2026) (= tmp158 12)) (=> (and ?v_1061 ?v_2027) (= tmp157 0)) (=> (and ?v_1061 ?v_2028) (= tmp157 6)) (=> (and x298 ?v_2027) (= tmp157 4)) (=> (and x298 ?v_2028) (= tmp157 10)) (=> (and ?v_389 ?v_2029) (= tmp156 0)) (=> (and ?v_389 ?v_2031) ?v_2030) (=> (and x319 ?v_2029) ?v_2030) (=> (and x319 ?v_2031) (= tmp156 12)) (=> (and ?v_2032 ?v_2033) (= tmp155 0)) (=> (and ?v_2032 ?v_2035) ?v_2034) (=> (and x296 ?v_2033) ?v_2034) (=> (and x296 ?v_2035) (= tmp155 8)) (=> (and ?v_325 ?v_2036) (= tmp154 0)) (=> (and ?v_325 ?v_2038) ?v_2037) (=> (and x321 ?v_2036) ?v_2037) (=> (and x321 ?v_2038) (= tmp154 12)) (=> (and ?v_2039 ?v_1166) (= tmp153 0)) (=> (and ?v_2039 ?v_1168) ?v_2040) (=> (and x294 ?v_1166) ?v_2040) (=> (and x294 ?v_1168) (= tmp153 8)) (=> (and ?v_261 ?v_2041) (= tmp152 0)) (=> (and ?v_261 ?v_2043) ?v_2042) (=> (and x323 ?v_2041) ?v_2042) (=> (and x323 ?v_2043) (= tmp152 8)) (=> (and ?v_1253 ?v_1230) (= tmp151 0)) (=> (and ?v_1253 ?v_1232) (= tmp151 6)) (=> (and x292 ?v_1230) (= tmp151 4)) (=> (and x292 ?v_1232) (= tmp151 10)) (=> (and ?v_197 ?v_2044) (= tmp150 0)) (=> (and ?v_197 ?v_2046) ?v_2045) (=> (and x325 ?v_2044) ?v_2045) (=> (and x325 ?v_2046) (= tmp150 8)) (=> (and ?v_1317 ?v_2047) (= tmp149 0)) (=> (and ?v_1317 ?v_2048) (= tmp149 4)) (=> (and x290 ?v_2047) (= tmp149 2)) (=> (and x290 ?v_2048) (= tmp149 6)) (=> (and ?v_133 ?v_2049) (= tmp148 0)) (=> (and ?v_133 ?v_2051) ?v_2050) (=> (and x327 ?v_2049) ?v_2050) (=> (and x327 ?v_2051) (= tmp148 8)) (=> (and ?v_1381 ?v_2052) (= tmp147 0)) (=> (and ?v_1381 ?v_2053) (= tmp147 1)) (=> (and x288 ?v_2052) (= tmp147 2)) (=> (and x288 ?v_2053) (= tmp147 3)) (=> (and ?v_69 ?v_2054) (= tmp146 0)) (=> (and ?v_69 ?v_2056) ?v_2055) (=> (and x329 ?v_2054) ?v_2055) (=> (and x329 ?v_2056) (= tmp146 8)) (=> (and ?v_1445 ?v_2057) (= tmp145 0)) (=> (and ?v_1445 ?v_2059) ?v_2058) (=> (and x286 ?v_2057) ?v_2058) (=> (and x286 ?v_2059) (= tmp145 8)) (=> (and ?v_5 ?v_2060) (= tmp144 0)) (=> (and ?v_5 ?v_2062) ?v_2061) (=> (and x331 ?v_2060) ?v_2061) (=> (and x331 ?v_2062) (= tmp144 8)) (=> (and ?v_1509 ?v_2063) (= tmp143 0)) (=> (and ?v_1509 ?v_2065) ?v_2064) (=> (and x284 ?v_2063) ?v_2064) (=> (and x284 ?v_2065) (= tmp143 8)) (=> (and ?v_2066 ?v_686) (= tmp142 0)) (=> (and ?v_2066 ?v_688) ?v_2067) (=> (and x263 ?v_686) ?v_2067) (=> (and x263 ?v_688) (= tmp142 4)) (=> (and ?v_2068 ?v_718) (= tmp141 0)) (=> (and ?v_2068 ?v_720) ?v_2069) (=> (and x260 ?v_718) ?v_2069) (=> (and x260 ?v_720) (= tmp141 2)) (=> (and ?v_2070 ?v_622) (= tmp140 0)) (=> (and ?v_2070 ?v_624) ?v_2071) (=> (and x265 ?v_622) ?v_2071) (=> (and x265 ?v_624) (= tmp140 8)) (=> (and ?v_813 ?v_782) (= tmp139 0)) (=> (and ?v_813 ?v_784) ?v_2072) (=> (and x258 ?v_782) ?v_2072) (=> (and x258 ?v_784) (= tmp139 4)) (=> (and ?v_2073 ?v_558) (= tmp138 0)) (=> (and ?v_2073 ?v_560) ?v_2074) (=> (and x267 ?v_558) ?v_2074) (=> (and x267 ?v_560) (= tmp138 8)) (=> (and ?v_2075 ?v_846) (= tmp137 0)) (=> (and ?v_2075 ?v_848) ?v_2076) (=> (and x256 ?v_846) ?v_2076) (=> (and x256 ?v_848) (= tmp137 4)) (=> (and ?v_2077 ?v_494) (= tmp136 0)) (=> (and ?v_2077 ?v_496) ?v_2078) (=> (and x269 ?v_494) ?v_2078) (=> (and x269 ?v_496) (= tmp136 8)) (=> (and ?v_2079 ?v_910) (= tmp135 0)) (=> (and ?v_2079 ?v_912) ?v_2080) (=> (and x254 ?v_910) ?v_2080) (=> (and x254 ?v_912) (= tmp135 4)) (=> (and ?v_2081 ?v_430) (= tmp134 0)) (=> (and ?v_2081 ?v_432) ?v_2082) (=> (and x271 ?v_430) ?v_2082) (=> (and x271 ?v_432) (= tmp134 8)) (=> (and ?v_1005 ?v_974) (= tmp133 0)) (=> (and ?v_1005 ?v_976) ?v_2083) (=> (and x252 ?v_974) ?v_2083) (=> (and x252 ?v_976) (= tmp133 4)) (=> (and ?v_2084 ?v_366) (= tmp132 0)) (=> (and ?v_2084 ?v_368) ?v_2085) (=> (and x273 ?v_366) ?v_2085) (=> (and x273 ?v_368) (= tmp132 8)) (=> (and ?v_2086 ?v_1038) (= tmp131 0)) (=> (and ?v_2086 ?v_1040) ?v_2087) (=> (and x250 ?v_1038) ?v_2087) (=> (and x250 ?v_1040) (= tmp131 2)) (=> (and ?v_2088 ?v_302) (= tmp130 0)) (=> (and ?v_2088 ?v_304) ?v_2089) (=> (and x275 ?v_302) ?v_2089) (=> (and x275 ?v_304) (= tmp130 4)) (=> (and ?v_2090 ?v_1102) (= tmp129 0)) (=> (and ?v_2090 ?v_1104) ?v_2091) (=> (and x248 ?v_1102) ?v_2091) (=> (and x248 ?v_1104) (= tmp129 2)) (=> (and ?v_2092 ?v_238) (= tmp128 0)) (=> (and ?v_2092 ?v_240) (= tmp128 2)) (=> (and x277 ?v_238) (= tmp128 4)) (=> (and x277 ?v_240) (= tmp128 6)) (=> (and ?v_2093 ?v_1294) (= tmp127 0)) (=> (and ?v_2093 ?v_1296) ?v_2094) (=> (and x246 ?v_1294) ?v_2094) (=> (and x246 ?v_1296) (= tmp127 2)) (=> (and ?v_2095 ?v_174) (= tmp126 0)) (=> (and ?v_2095 ?v_176) ?v_2096) (=> (and x279 ?v_174) ?v_2096) (=> (and x279 ?v_176) (= tmp126 8)) (=> (and ?v_2097 ?v_1358) (= tmp125 0)) (=> (and ?v_2097 ?v_1360) (= tmp125 1)) (=> (and x244 ?v_1358) (= tmp125 2)) (=> (and x244 ?v_1360) (= tmp125 3)) (=> (and ?v_2098 ?v_110) (= tmp124 0)) (=> (and ?v_2098 ?v_112) ?v_2099) (=> (and x281 ?v_110) ?v_2099) (=> (and x281 ?v_112) (= tmp124 12)) (=> (and ?v_2100 ?v_1422) (= tmp123 0)) (=> (and ?v_2100 ?v_1424) ?v_2101) (=> (and x242 ?v_1422) ?v_2101) (=> (and x242 ?v_1424) (= tmp123 4)) (=> (and ?v_2102 ?v_46) (= tmp122 0)) (=> (and ?v_2102 ?v_48) ?v_2103) (=> (and x283 ?v_46) ?v_2103) (=> (and x283 ?v_48) (= tmp122 12)) (=> (and ?v_2104 ?v_1486) (= tmp121 0)) (=> (and ?v_2104 ?v_1488) ?v_2105) (=> (and x240 ?v_1486) ?v_2105) (=> (and x240 ?v_1488) (= tmp121 4)) (=> (and ?v_717 ?v_2106) (= tmp120 0)) (=> (and ?v_717 ?v_2107) (= tmp120 2)) (=> (and x217 ?v_2106) (= tmp120 1)) (=> (and x217 ?v_2107) (= tmp120 3)) (=> (and ?v_2108 ?v_2109) (= tmp119 0)) (=> (and ?v_2108 ?v_2111) ?v_2110) (=> (and x214 ?v_2109) ?v_2110) (=> (and x214 ?v_2111) (= tmp119 4)) (=> (and ?v_653 ?v_2112) (= tmp118 0)) (=> (and ?v_653 ?v_2113) (= tmp118 1)) (=> (and x219 ?v_2112) (= tmp118 2)) (=> (and x219 ?v_2113) (= tmp118 3)) (=> (and ?v_877 ?v_2114) (= tmp117 0)) (=> (and ?v_877 ?v_2116) ?v_2115) (=> (and x212 ?v_2114) ?v_2115) (=> (and x212 ?v_2116) (= tmp117 8)) (=> (and ?v_589 ?v_2117) (= tmp116 0)) (=> (and ?v_589 ?v_2119) ?v_2118) (=> (and x221 ?v_2117) ?v_2118) (=> (and x221 ?v_2119) (= tmp116 4)) (=> (and ?v_941 ?v_2120) (= tmp115 0)) (=> (and ?v_941 ?v_2121) (= tmp115 4)) (=> (and x210 ?v_2120) (= tmp115 6)) (=> (and x210 ?v_2121) (= tmp115 10)) (=> (and ?v_525 ?v_2122) (= tmp114 0)) (=> (and ?v_525 ?v_2124) ?v_2123) (=> (and x223 ?v_2122) ?v_2123) (=> (and x223 ?v_2124) (= tmp114 4)) (=> (and ?v_2125 ?v_2126) (= tmp113 0)) (=> (and ?v_2125 ?v_2128) ?v_2127) (=> (and x208 ?v_2126) ?v_2127) (=> (and x208 ?v_2128) (= tmp113 12)) (=> (and ?v_461 ?v_2129) (= tmp112 0)) (=> (and ?v_461 ?v_2131) ?v_2130) (=> (and x225 ?v_2129) ?v_2130) (=> (and x225 ?v_2131) (= tmp112 4)) (=> (and ?v_1069 ?v_2132) (= tmp111 0)) (=> (and ?v_1069 ?v_2134) ?v_2133) (=> (and x206 ?v_2132) ?v_2133) (=> (and x206 ?v_2134) (= tmp111 12)) (=> (and ?v_397 ?v_2135) (= tmp110 0)) (=> (and ?v_397 ?v_2137) ?v_2136) (=> (and x227 ?v_2135) ?v_2136) (=> (and x227 ?v_2137) (= tmp110 4)) (=> (and ?v_1133 ?v_2138) (= tmp109 0)) (=> (and ?v_1133 ?v_2140) ?v_2139) (=> (and x204 ?v_2138) ?v_2139) (=> (and x204 ?v_2140) (= tmp109 12)) (=> (and ?v_333 ?v_2141) (= tmp108 0)) (=> (and ?v_333 ?v_2143) ?v_2142) (=> (and x229 ?v_2141) ?v_2142) (=> (and x229 ?v_2143) (= tmp108 4)) (=> (and ?v_1197 ?v_2144) (= tmp107 0)) (=> (and ?v_1197 ?v_2146) ?v_2145) (=> (and x202 ?v_2144) ?v_2145) (=> (and x202 ?v_2146) (= tmp107 12)) (=> (and ?v_269 ?v_2147) (= tmp106 0)) (=> (and ?v_269 ?v_2149) ?v_2148) (=> (and x231 ?v_2147) ?v_2148) (=> (and x231 ?v_2149) (= tmp106 4)) (=> (and ?v_1261 ?v_2150) (= tmp105 0)) (=> (and ?v_1261 ?v_2152) ?v_2151) (=> (and x200 ?v_2150) ?v_2151) (=> (and x200 ?v_2152) (= tmp105 8)) (=> (and ?v_205 ?v_2153) (= tmp104 0)) (=> (and ?v_205 ?v_2155) ?v_2154) (=> (and x233 ?v_2153) ?v_2154) (=> (and x233 ?v_2155) (= tmp104 4)) (=> (and ?v_1325 ?v_2156) (= tmp103 0)) (=> (and ?v_1325 ?v_2158) ?v_2157) (=> (and x198 ?v_2156) ?v_2157) (=> (and x198 ?v_2158) (= tmp103 8)) (=> (and ?v_141 ?v_2159) (= tmp102 0)) (=> (and ?v_141 ?v_2161) ?v_2160) (=> (and x235 ?v_2159) ?v_2160) (=> (and x235 ?v_2161) (= tmp102 4)) (=> (and ?v_1389 ?v_2162) (= tmp101 0)) (=> (and ?v_1389 ?v_2164) ?v_2163) (=> (and x196 ?v_2162) ?v_2163) (=> (and x196 ?v_2164) (= tmp101 8)) (=> (and ?v_77 ?v_2165) (= tmp100 0)) (=> (and ?v_77 ?v_2167) ?v_2166) (=> (and x237 ?v_2165) ?v_2166) (=> (and x237 ?v_2167) (= tmp100 4)) (=> (and ?v_1453 ?v_2168) (= tmp99 0)) (=> (and ?v_1453 ?v_2170) ?v_2169) (=> (and x194 ?v_2168) ?v_2169) (=> (and x194 ?v_2170) (= tmp99 12)) (=> (and ?v_13 ?v_2171) (= tmp98 0)) (=> (and ?v_13 ?v_2173) ?v_2172) (=> (and x239 ?v_2171) ?v_2172) (=> (and x239 ?v_2173) (= tmp98 4)) (=> (and ?v_1517 ?v_2174) (= tmp97 0)) (=> (and ?v_1517 ?v_2176) ?v_2175) (=> (and x192 ?v_2174) ?v_2175) (=> (and x192 ?v_2176) (= tmp97 12)) (=> (and ?v_2177 ?v_758) (= tmp96 0)) (=> (and ?v_2177 ?v_760) ?v_2178) (=> (and x169 ?v_758) ?v_2178) (=> (and x169 ?v_760) (= tmp96 8)) (=> (and ?v_821 ?v_790) (= tmp95 0)) (=> (and ?v_821 ?v_792) ?v_2179) (=> (and x166 ?v_790) ?v_2179) (=> (and x166 ?v_792) (= tmp95 8)) (=> (and ?v_2180 ?v_694) (= tmp94 0)) (=> (and ?v_2180 ?v_696) (= tmp94 6)) (=> (and x171 ?v_694) (= tmp94 4)) (=> (and x171 ?v_696) (= tmp94 10)) (=> (and ?v_2181 ?v_854) (= tmp93 0)) (=> (and ?v_2181 ?v_856) ?v_2182) (=> (and x164 ?v_854) ?v_2182) (=> (and x164 ?v_856) (= tmp93 12)) (=> (and ?v_2183 ?v_630) (= tmp92 0)) (=> (and ?v_2183 ?v_632) ?v_2184) (=> (and x173 ?v_630) ?v_2184) (=> (and x173 ?v_632) (= tmp92 8)) (=> (and ?v_2185 ?v_918) (= tmp91 0)) (=> (and ?v_2185 ?v_920) ?v_2186) (=> (and x162 ?v_918) ?v_2186) (=> (and x162 ?v_920) (= tmp91 12)) (=> (and ?v_2187 ?v_566) (= tmp90 0)) (=> (and ?v_2187 ?v_568) ?v_2188) (=> (and x175 ?v_566) ?v_2188) (=> (and x175 ?v_568) (= tmp90 4)) (=> (and ?v_1013 ?v_982) (= tmp89 0)) (=> (and ?v_1013 ?v_984) ?v_2189) (=> (and x160 ?v_982) ?v_2189) (=> (and x160 ?v_984) (= tmp89 12)) (=> (and ?v_2190 ?v_502) (= tmp88 0)) (=> (and ?v_2190 ?v_504) (= tmp88 4)) (=> (and x177 ?v_502) (= tmp88 6)) (=> (and x177 ?v_504) (= tmp88 10)) (=> (and ?v_2191 ?v_1046) (= tmp87 0)) (=> (and ?v_2191 ?v_1048) ?v_2192) (=> (and x158 ?v_1046) ?v_2192) (=> (and x158 ?v_1048) (= tmp87 12)) (=> (and ?v_2193 ?v_438) (= tmp86 0)) (=> (and ?v_2193 ?v_440) ?v_2194) (=> (and x179 ?v_438) ?v_2194) (=> (and x179 ?v_440) (= tmp86 12)) (=> (and ?v_2195 ?v_1110) (= tmp85 0)) (=> (and ?v_2195 ?v_1112) (= tmp85 6)) (=> (and x156 ?v_1110) (= tmp85 4)) (=> (and x156 ?v_1112) (= tmp85 10)) (=> (and ?v_2196 ?v_374) (= tmp84 0)) (=> (and ?v_2196 ?v_376) ?v_2197) (=> (and x181 ?v_374) ?v_2197) (=> (and x181 ?v_376) (= tmp84 12)) (=> (and ?v_2198 ?v_1174) (= tmp83 0)) (=> (and ?v_2198 ?v_1176) ?v_2199) (=> (and x154 ?v_1174) ?v_2199) (=> (and x154 ?v_1176) (= tmp83 8)) (=> (and ?v_2200 ?v_310) (= tmp82 0)) (=> (and ?v_2200 ?v_312) ?v_2201) (=> (and x183 ?v_310) ?v_2201) (=> (and x183 ?v_312) (= tmp82 8)) (=> (and ?v_2202 ?v_1238) (= tmp81 0)) (=> (and ?v_2202 ?v_1240) ?v_2203) (=> (and x152 ?v_1238) ?v_2203) (=> (and x152 ?v_1240) (= tmp81 8)) (=> (and ?v_2204 ?v_246) (= tmp80 0)) (=> (and ?v_2204 ?v_248) ?v_2205) (=> (and x185 ?v_246) ?v_2205) (=> (and x185 ?v_248) (= tmp80 12)) (=> (and ?v_2206 ?v_1302) (= tmp79 0)) (=> (and ?v_2206 ?v_1304) (= tmp79 2)) (=> (and x150 ?v_1302) (= tmp79 1)) (=> (and x150 ?v_1304) (= tmp79 3)) (=> (and ?v_2207 ?v_182) (= tmp78 0)) (=> (and ?v_2207 ?v_184) ?v_2208) (=> (and x187 ?v_182) ?v_2208) (=> (and x187 ?v_184) (= tmp78 12)) (=> (and ?v_2209 ?v_1366) (= tmp77 0)) (=> (and ?v_2209 ?v_1368) (= tmp77 2)) (=> (and x148 ?v_1366) (= tmp77 4)) (=> (and x148 ?v_1368) (= tmp77 6)) (=> (and ?v_2210 ?v_118) (= tmp76 0)) (=> (and ?v_2210 ?v_120) (= tmp76 4)) (=> (and x189 ?v_118) (= tmp76 2)) (=> (and x189 ?v_120) (= tmp76 6)) (=> (and ?v_2211 ?v_1430) (= tmp75 0)) (=> (and ?v_2211 ?v_1432) ?v_2212) (=> (and x146 ?v_1430) ?v_2212) (=> (and x146 ?v_1432) (= tmp75 8)) (=> (and ?v_2213 ?v_54) (= tmp74 0)) (=> (and ?v_2213 ?v_56) ?v_2214) (=> (and x191 ?v_54) ?v_2214) (=> (and x191 ?v_56) (= tmp74 4)) (=> (and ?v_2215 ?v_1494) (= tmp73 0)) (=> (and ?v_2215 ?v_1496) ?v_2216) (=> (and x144 ?v_1494) ?v_2216) (=> (and x144 ?v_1496) (= tmp73 8)) (=> (and ?v_725 true) (= tmp72 0)) (=> (and x121 true) (= tmp72 4)) (=> (and ?v_789 ?v_2217) (= tmp71 0)) (=> (and ?v_789 ?v_2218) (= tmp71 2)) (=> (and x119 ?v_2217) (= tmp71 1)) (=> (and x119 ?v_2218) (= tmp71 3)) (=> (and ?v_661 ?v_2219) (= tmp70 0)) (=> (and ?v_661 ?v_2220) (= tmp70 4)) (=> (and x123 ?v_2219) (= tmp70 6)) (=> (and x123 ?v_2220) (= tmp70 10)) (=> (and ?v_885 ?v_2221) (= tmp69 0)) (=> (and ?v_885 ?v_2222) (= tmp69 1)) (=> (and x117 ?v_2221) (= tmp69 2)) (=> (and x117 ?v_2222) (= tmp69 3)) (=> (and ?v_597 ?v_2223) (= tmp68 0)) (=> (and ?v_597 ?v_2225) ?v_2224) (=> (and x125 ?v_2223) ?v_2224) (=> (and x125 ?v_2225) (= tmp68 12)) (=> (and ?v_949 ?v_2226) (= tmp67 0)) (=> (and ?v_949 ?v_2227) (= tmp67 2)) (=> (and x115 ?v_2226) (= tmp67 4)) (=> (and x115 ?v_2227) (= tmp67 6)) (=> (and ?v_533 ?v_2228) (= tmp66 0)) (=> (and ?v_533 ?v_2230) ?v_2229) (=> (and x127 ?v_2228) ?v_2229) (=> (and x127 ?v_2230) (= tmp66 8)) (=> (and ?v_2231 ?v_2232) (= tmp65 0)) (=> (and ?v_2231 ?v_2234) ?v_2233) (=> (and x113 ?v_2232) ?v_2233) (=> (and x113 ?v_2234) (= tmp65 8)) (=> (and ?v_469 ?v_2235) (= tmp64 0)) (=> (and ?v_469 ?v_2237) ?v_2236) (=> (and x129 ?v_2235) ?v_2236) (=> (and x129 ?v_2237) (= tmp64 4)) (=> (and ?v_1077 ?v_2238) (= tmp63 0)) (=> (and ?v_1077 ?v_2240) ?v_2239) (=> (and x111 ?v_2238) ?v_2239) (=> (and x111 ?v_2240) (= tmp63 8)) (=> (and ?v_405 ?v_2241) (= tmp62 0)) (=> (and ?v_405 ?v_2242) (= tmp62 2)) (=> (and x131 ?v_2241) (= tmp62 4)) (=> (and x131 ?v_2242) (= tmp62 6)) (=> (and ?v_1141 ?v_2243) (= tmp61 0)) (=> (and ?v_1141 ?v_2245) ?v_2244) (=> (and x109 ?v_2243) ?v_2244) (=> (and x109 ?v_2245) (= tmp61 8)) (=> (and ?v_341 ?v_2246) (= tmp60 0)) (=> (and ?v_341 ?v_2247) (= tmp60 4)) (=> (and x133 ?v_2246) (= tmp60 2)) (=> (and x133 ?v_2247) (= tmp60 6)) (=> (and ?v_1205 ?v_2248) (= tmp59 0)) (=> (and ?v_1205 ?v_2249) (= tmp59 4)) (=> (and x107 ?v_2248) (= tmp59 6)) (=> (and x107 ?v_2249) (= tmp59 10)) (=> (and ?v_277 ?v_2250) (= tmp58 0)) (=> (and ?v_277 ?v_2251) (= tmp58 2)) (=> (and x135 ?v_2250) (= tmp58 4)) (=> (and x135 ?v_2251) (= tmp58 6)) (=> (and ?v_1269 ?v_2252) (= tmp57 0)) (=> (and ?v_1269 ?v_2254) ?v_2253) (=> (and x105 ?v_2252) ?v_2253) (=> (and x105 ?v_2254) (= tmp57 12)) (=> (and ?v_213 ?v_2255) (= tmp56 0)) (=> (and ?v_213 ?v_2257) ?v_2256) (=> (and x137 ?v_2255) ?v_2256) (=> (and x137 ?v_2257) (= tmp56 8)) (=> (and ?v_1333 ?v_2258) (= tmp55 0)) (=> (and ?v_1333 ?v_2260) ?v_2259) (=> (and x103 ?v_2258) ?v_2259) (=> (and x103 ?v_2260) (= tmp55 12)) (=> (and ?v_149 ?v_2261) (= tmp54 0)) (=> (and ?v_149 ?v_2262) (= tmp54 4)) (=> (and x139 ?v_2261) (= tmp54 1)) (=> (and x139 ?v_2262) (= tmp54 5)) (=> (and ?v_1397 ?v_2263) (= tmp53 0)) (=> (and ?v_1397 ?v_2265) ?v_2264) (=> (and x101 ?v_2263) ?v_2264) (=> (and x101 ?v_2265) (= tmp53 12)) (=> (and ?v_85 ?v_2266) (= tmp52 0)) (=> (and ?v_85 ?v_2267) (= tmp52 2)) (=> (and x141 ?v_2266) (= tmp52 4)) (=> (and x141 ?v_2267) (= tmp52 6)) (=> (and ?v_1461 ?v_2268) (= tmp51 0)) (=> (and ?v_1461 ?v_2270) ?v_2269) (=> (and x99 ?v_2268) ?v_2269) (=> (and x99 ?v_2270) (= tmp51 8)) (=> (and ?v_21 ?v_2271) (= tmp50 0)) (=> (and ?v_21 ?v_2273) ?v_2272) (=> (and x143 ?v_2271) ?v_2272) (=> (and x143 ?v_2273) (= tmp50 12)) (=> (and ?v_1525 ?v_2274) (= tmp49 0)) (=> (and ?v_1525 ?v_2275) (= tmp49 4)) (=> (and x97 ?v_2274) (= tmp49 2)) (=> (and x97 ?v_2275) (= tmp49 6)) (=> (and ?v_2276 ?v_766) (= tmp48 0)) (=> (and ?v_2276 ?v_768) (= tmp48 2)) (=> (and x74 ?v_766) (= tmp48 4)) (=> (and x74 ?v_768) (= tmp48 6)) (=> (and ?v_2277 ?v_798) (= tmp47 0)) (=> (and ?v_2277 ?v_800) (= tmp47 1)) (=> (and x71 ?v_798) (= tmp47 2)) (=> (and x71 ?v_800) (= tmp47 3)) (=> (and ?v_2278 ?v_702) (= tmp46 0)) (=> (and ?v_2278 ?v_704) ?v_2279) (=> (and x76 ?v_702) ?v_2279) (=> (and x76 ?v_704) (= tmp46 4)) (=> (and ?v_2280 ?v_862) (= tmp45 0)) (=> (and ?v_2280 ?v_864) ?v_2281) (=> (and x69 ?v_862) ?v_2281) (=> (and x69 ?v_864) (= tmp45 8)) (=> (and ?v_2282 ?v_638) (= tmp44 0)) (=> (and ?v_2282 ?v_640) ?v_2283) (=> (and x78 ?v_638) ?v_2283) (=> (and x78 ?v_640) (= tmp44 8)) (=> (and ?v_2284 ?v_926) (= tmp43 0)) (=> (and ?v_2284 ?v_928) ?v_2285) (=> (and x67 ?v_926) ?v_2285) (=> (and x67 ?v_928) (= tmp43 8)) (=> (and ?v_2286 ?v_574) (= tmp42 0)) (=> (and ?v_2286 ?v_576) (= tmp42 4)) (=> (and x80 ?v_574) (= tmp42 2)) (=> (and x80 ?v_576) (= tmp42 6)) (=> (and ?v_1021 ?v_990) (= tmp41 0)) (=> (and ?v_1021 ?v_992) (= tmp41 4)) (=> (and x65 ?v_990) (= tmp41 6)) (=> (and x65 ?v_992) (= tmp41 10)) (=> (and ?v_2287 ?v_510) (= tmp40 0)) (=> (and ?v_2287 ?v_512) (= tmp40 2)) (=> (and x82 ?v_510) (= tmp40 4)) (=> (and x82 ?v_512) (= tmp40 6)) (=> (and ?v_2288 ?v_1054) (= tmp39 0)) (=> (and ?v_2288 ?v_1056) (= tmp39 6)) (=> (and x63 ?v_1054) (= tmp39 4)) (=> (and x63 ?v_1056) (= tmp39 10)) (=> (and ?v_2289 ?v_446) (= tmp38 0)) (=> (and ?v_2289 ?v_448) ?v_2290) (=> (and x84 ?v_446) ?v_2290) (=> (and x84 ?v_448) (= tmp38 8)) (=> (and ?v_2291 ?v_1118) (= tmp37 0)) (=> (and ?v_2291 ?v_1120) ?v_2292) (=> (and x61 ?v_1118) ?v_2292) (=> (and x61 ?v_1120) (= tmp37 4)) (=> (and ?v_2293 ?v_382) (= tmp36 0)) (=> (and ?v_2293 ?v_384) ?v_2294) (=> (and x86 ?v_382) ?v_2294) (=> (and x86 ?v_384) (= tmp36 8)) (=> (and ?v_2295 ?v_1182) (= tmp35 0)) (=> (and ?v_2295 ?v_1184) ?v_2296) (=> (and x59 ?v_1182) ?v_2296) (=> (and x59 ?v_1184) (= tmp35 8)) (=> (and ?v_2297 ?v_318) (= tmp34 0)) (=> (and ?v_2297 ?v_320) ?v_2298) (=> (and x88 ?v_318) ?v_2298) (=> (and x88 ?v_320) (= tmp34 8)) (=> (and ?v_2299 ?v_1246) (= tmp33 0)) (=> (and ?v_2299 ?v_1248) (= tmp33 4)) (=> (and x57 ?v_1246) (= tmp33 2)) (=> (and x57 ?v_1248) (= tmp33 6)) (=> (and ?v_2300 ?v_254) (= tmp32 0)) (=> (and ?v_2300 ?v_256) ?v_2301) (=> (and x90 ?v_254) ?v_2301) (=> (and x90 ?v_256) (= tmp32 8)) (=> (and ?v_2302 ?v_1310) (= tmp31 0)) (=> (and ?v_2302 ?v_1312) ?v_2303) (=> (and x55 ?v_1310) ?v_2303) (=> (and x55 ?v_1312) (= tmp31 8)) (=> (and ?v_2304 ?v_190) (= tmp30 0)) (=> (and ?v_2304 ?v_192) (= tmp30 4)) (=> (and x92 ?v_190) (= tmp30 2)) (=> (and x92 ?v_192) (= tmp30 6)) (=> (and ?v_2305 ?v_1374) (= tmp29 0)) (=> (and ?v_2305 ?v_1376) ?v_2306) (=> (and x53 ?v_1374) ?v_2306) (=> (and x53 ?v_1376) (= tmp29 8)) (=> (and ?v_2307 ?v_126) (= tmp28 0)) (=> (and ?v_2307 ?v_128) (= tmp28 2)) (=> (and x94 ?v_126) (= tmp28 4)) (=> (and x94 ?v_128) (= tmp28 6)) (=> (and ?v_2308 ?v_1438) (= tmp27 0)) (=> (and ?v_2308 ?v_1440) (= tmp27 4)) (=> (and x51 ?v_1438) (= tmp27 2)) (=> (and x51 ?v_1440) (= tmp27 6)) (=> (and ?v_2309 ?v_62) (= tmp26 0)) (=> (and ?v_2309 ?v_64) ?v_2310) (=> (and x96 ?v_62) ?v_2310) (=> (and x96 ?v_64) (= tmp26 8)) (=> (and ?v_2311 ?v_1502) (= tmp25 0)) (=> (and ?v_2311 ?v_1504) ?v_2312) (=> (and x49 ?v_1502) ?v_2312) (=> (and x49 ?v_1504) (= tmp25 4)) (=> (and ?v_733 true) (= tmp24 0)) (=> (and x26 true) (= tmp24 4)) (=> (and ?v_797 ?v_2313) (= tmp23 0)) (=> (and ?v_797 ?v_2314) (= tmp23 4)) (=> (and x24 ?v_2313) (= tmp23 2)) (=> (and x24 ?v_2314) (= tmp23 6)) (=> (and ?v_669 ?v_2315) (= tmp22 0)) (=> (and ?v_669 ?v_2317) ?v_2316) (=> (and x28 ?v_2315) ?v_2316) (=> (and x28 ?v_2317) (= tmp22 8)) (=> (and ?v_861 ?v_2318) (= tmp21 0)) (=> (and ?v_861 ?v_2320) ?v_2319) (=> (and x22 ?v_2318) ?v_2319) (=> (and x22 ?v_2320) (= tmp21 4)) (=> (and ?v_605 ?v_2321) (= tmp20 0)) (=> (and ?v_605 ?v_2322) (= tmp20 4)) (=> (and x30 ?v_2321) (= tmp20 2)) (=> (and x30 ?v_2322) (= tmp20 6)) (=> (and ?v_925 ?v_2323) (= tmp19 0)) (=> (and ?v_925 ?v_2325) ?v_2324) (=> (and x20 ?v_2323) ?v_2324) (=> (and x20 ?v_2325) (= tmp19 4)) (=> (and ?v_541 ?v_2326) (= tmp18 0)) (=> (and ?v_541 ?v_2328) ?v_2327) (=> (and x32 ?v_2326) ?v_2327) (=> (and x32 ?v_2328) (= tmp18 4)) (=> (and ?v_989 ?v_2329) (= tmp17 0)) (=> (and ?v_989 ?v_2330) (= tmp17 2)) (=> (and x18 ?v_2329) (= tmp17 1)) (=> (and x18 ?v_2330) (= tmp17 3)) (=> (and ?v_477 ?v_2331) (= tmp16 0)) (=> (and ?v_477 ?v_2333) ?v_2332) (=> (and x34 ?v_2331) ?v_2332) (=> (and x34 ?v_2333) (= tmp16 8)) (=> (and ?v_1085 ?v_2334) (= tmp15 0)) (=> (and ?v_1085 ?v_2335) (= tmp15 1)) (=> (and x16 ?v_2334) (= tmp15 2)) (=> (and x16 ?v_2335) (= tmp15 3)) (=> (and ?v_413 ?v_2336) (= tmp14 0)) (=> (and ?v_413 ?v_2338) ?v_2337) (=> (and x36 ?v_2336) ?v_2337) (=> (and x36 ?v_2338) (= tmp14 12)) (=> (and ?v_1149 ?v_2339) (= tmp13 0)) (=> (and ?v_1149 ?v_2341) ?v_2340) (=> (and x14 ?v_2339) ?v_2340) (=> (and x14 ?v_2341) (= tmp13 4)) (=> (and ?v_349 ?v_2342) (= tmp12 0)) (=> (and ?v_349 ?v_2344) ?v_2343) (=> (and x38 ?v_2342) ?v_2343) (=> (and x38 ?v_2344) (= tmp12 12)) (=> (and ?v_1213 ?v_2345) (= tmp11 0)) (=> (and ?v_1213 ?v_2347) ?v_2346) (=> (and x12 ?v_2345) ?v_2346) (=> (and x12 ?v_2347) (= tmp11 4)) (=> (and ?v_285 ?v_2348) (= tmp10 0)) (=> (and ?v_285 ?v_2349) (= tmp10 8)) (=> (and x40 ?v_2348) (= tmp10 6)) (=> (and x40 ?v_2349) (= tmp10 14)) (=> (and ?v_1277 ?v_2350) (= tmp9 0)) (=> (and ?v_1277 ?v_2352) ?v_2351) (=> (and x10 ?v_2350) ?v_2351) (=> (and x10 ?v_2352) (= tmp9 4)) (=> (and ?v_221 ?v_2353) (= tmp8 0)) (=> (and ?v_221 ?v_2355) ?v_2354) (=> (and x42 ?v_2353) ?v_2354) (=> (and x42 ?v_2355) (= tmp8 12)) (=> (and ?v_1341 ?v_2356) (= tmp7 0)) (=> (and ?v_1341 ?v_2357) (= tmp7 2)) (=> (and x8 ?v_2356) (= tmp7 4)) (=> (and x8 ?v_2357) (= tmp7 6)) (=> (and ?v_157 ?v_2358) (= tmp6 0)) (=> (and ?v_157 ?v_2359) (= tmp6 6)) (=> (and x44 ?v_2358) (= tmp6 4)) (=> (and x44 ?v_2359) (= tmp6 10)) (=> (and ?v_1405 ?v_2360) (= tmp5 0)) (=> (and ?v_1405 ?v_2362) ?v_2361) (=> (and x6 ?v_2360) ?v_2361) (=> (and x6 ?v_2362) (= tmp5 8)) (=> (and ?v_93 ?v_2363) (= tmp4 0)) (=> (and ?v_93 ?v_2365) ?v_2364) (=> (and x46 ?v_2363) ?v_2364) (=> (and x46 ?v_2365) (= tmp4 8)) (=> (and ?v_1469 ?v_2366) (= tmp3 0)) (=> (and ?v_1469 ?v_2368) ?v_2367) (=> (and x4 ?v_2366) ?v_2367) (=> (and x4 ?v_2368) (= tmp3 8)) (=> (and ?v_29 ?v_2369) (= tmp2 0)) (=> (and ?v_29 ?v_2371) ?v_2370) (=> (and x48 ?v_2369) ?v_2370) (=> (and x48 ?v_2371) (= tmp2 8)) (=> (and ?v_1533 ?v_2372) (= tmp1 0)) (=> (and ?v_1533 ?v_2374) ?v_2373) (=> (and x2 ?v_2372) ?v_2373) (=> (and x2 ?v_2374) (= tmp1 8))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/arith/miplib-pp08a-3000.smt2 b/test/regress/regress0/arith/miplib-pp08a-3000.smt2
deleted file mode 100644
index 3e34badc2..000000000
--- a/test/regress/regress0/arith/miplib-pp08a-3000.smt2
+++ /dev/null
@@ -1,329 +0,0 @@
-; COMMAND-LINE: --enable-miplib-trick
-; EXPECT: unsat
-(set-logic QF_LRA)
-(set-info :source |
-Relaxation of the Mixed-Integer Programming
-optimization problem pp08a from the MIPLIB (http://miplib.zib.de/)
-by Enric Rodriguez-Carbonell (erodri@lsi.upc.edu)
-|)
-(set-info :smt-lib-version 2.0)
-(set-info :category "industrial")
-(set-info :status unsat)
-(declare-fun tmp75 () Real)
-(declare-fun tmp74 () Real)
-(declare-fun tmp73 () Real)
-(declare-fun tmp72 () Real)
-(declare-fun tmp71 () Real)
-(declare-fun tmp70 () Real)
-(declare-fun tmp69 () Real)
-(declare-fun tmp68 () Real)
-(declare-fun tmp67 () Real)
-(declare-fun tmp66 () Real)
-(declare-fun tmp65 () Real)
-(declare-fun tmp64 () Real)
-(declare-fun tmp63 () Real)
-(declare-fun tmp62 () Real)
-(declare-fun tmp61 () Real)
-(declare-fun tmp60 () Real)
-(declare-fun tmp59 () Real)
-(declare-fun tmp58 () Real)
-(declare-fun tmp57 () Real)
-(declare-fun tmp56 () Real)
-(declare-fun tmp55 () Real)
-(declare-fun tmp54 () Real)
-(declare-fun tmp53 () Real)
-(declare-fun tmp52 () Real)
-(declare-fun tmp51 () Real)
-(declare-fun tmp50 () Real)
-(declare-fun tmp49 () Real)
-(declare-fun tmp48 () Real)
-(declare-fun tmp47 () Real)
-(declare-fun tmp46 () Real)
-(declare-fun tmp45 () Real)
-(declare-fun tmp44 () Real)
-(declare-fun tmp43 () Real)
-(declare-fun tmp42 () Real)
-(declare-fun tmp41 () Real)
-(declare-fun tmp40 () Real)
-(declare-fun tmp39 () Real)
-(declare-fun tmp38 () Real)
-(declare-fun tmp37 () Real)
-(declare-fun tmp36 () Real)
-(declare-fun tmp35 () Real)
-(declare-fun tmp34 () Real)
-(declare-fun tmp33 () Real)
-(declare-fun tmp32 () Real)
-(declare-fun tmp31 () Real)
-(declare-fun tmp30 () Real)
-(declare-fun tmp29 () Real)
-(declare-fun tmp28 () Real)
-(declare-fun tmp27 () Real)
-(declare-fun tmp26 () Real)
-(declare-fun tmp25 () Real)
-(declare-fun tmp24 () Real)
-(declare-fun tmp23 () Real)
-(declare-fun tmp22 () Real)
-(declare-fun tmp21 () Real)
-(declare-fun tmp20 () Real)
-(declare-fun tmp19 () Real)
-(declare-fun tmp18 () Real)
-(declare-fun tmp17 () Real)
-(declare-fun tmp16 () Real)
-(declare-fun tmp15 () Real)
-(declare-fun tmp14 () Real)
-(declare-fun tmp13 () Real)
-(declare-fun tmp12 () Real)
-(declare-fun tmp11 () Real)
-(declare-fun tmp10 () Real)
-(declare-fun tmp9 () Real)
-(declare-fun tmp8 () Real)
-(declare-fun tmp7 () Real)
-(declare-fun tmp6 () Real)
-(declare-fun tmp5 () Real)
-(declare-fun tmp4 () Real)
-(declare-fun tmp3 () Real)
-(declare-fun tmp2 () Real)
-(declare-fun tmp1 () Real)
-(declare-fun x113 () Real)
-(declare-fun x114 () Real)
-(declare-fun x115 () Real)
-(declare-fun x116 () Real)
-(declare-fun x117 () Real)
-(declare-fun x118 () Real)
-(declare-fun x119 () Real)
-(declare-fun x120 () Real)
-(declare-fun x121 () Real)
-(declare-fun x122 () Real)
-(declare-fun x123 () Real)
-(declare-fun x124 () Real)
-(declare-fun x125 () Real)
-(declare-fun x126 () Real)
-(declare-fun x127 () Real)
-(declare-fun x128 () Real)
-(declare-fun x129 () Real)
-(declare-fun x130 () Real)
-(declare-fun x131 () Real)
-(declare-fun x132 () Real)
-(declare-fun x133 () Real)
-(declare-fun x134 () Real)
-(declare-fun x135 () Real)
-(declare-fun x136 () Real)
-(declare-fun x137 () Real)
-(declare-fun x138 () Real)
-(declare-fun x139 () Real)
-(declare-fun x140 () Real)
-(declare-fun x141 () Real)
-(declare-fun x142 () Real)
-(declare-fun x143 () Real)
-(declare-fun x144 () Real)
-(declare-fun x145 () Real)
-(declare-fun x146 () Real)
-(declare-fun x147 () Real)
-(declare-fun x148 () Real)
-(declare-fun x149 () Real)
-(declare-fun x150 () Real)
-(declare-fun x151 () Real)
-(declare-fun x152 () Real)
-(declare-fun x153 () Real)
-(declare-fun x154 () Real)
-(declare-fun x155 () Real)
-(declare-fun x156 () Real)
-(declare-fun x157 () Real)
-(declare-fun x158 () Real)
-(declare-fun x159 () Real)
-(declare-fun x160 () Real)
-(declare-fun x161 () Real)
-(declare-fun x162 () Real)
-(declare-fun x163 () Real)
-(declare-fun x164 () Real)
-(declare-fun x165 () Real)
-(declare-fun x166 () Real)
-(declare-fun x167 () Real)
-(declare-fun x168 () Real)
-(declare-fun x169 () Real)
-(declare-fun x170 () Real)
-(declare-fun x171 () Real)
-(declare-fun x172 () Real)
-(declare-fun x173 () Real)
-(declare-fun x174 () Real)
-(declare-fun x175 () Real)
-(declare-fun x176 () Real)
-(declare-fun x112 () Real)
-(declare-fun x111 () Real)
-(declare-fun x110 () Real)
-(declare-fun x109 () Real)
-(declare-fun x108 () Real)
-(declare-fun x107 () Real)
-(declare-fun x106 () Real)
-(declare-fun x105 () Real)
-(declare-fun x104 () Real)
-(declare-fun x103 () Real)
-(declare-fun x102 () Real)
-(declare-fun x101 () Real)
-(declare-fun x100 () Real)
-(declare-fun x99 () Real)
-(declare-fun x98 () Real)
-(declare-fun x97 () Real)
-(declare-fun x96 () Real)
-(declare-fun x95 () Real)
-(declare-fun x94 () Real)
-(declare-fun x93 () Real)
-(declare-fun x92 () Real)
-(declare-fun x91 () Real)
-(declare-fun x90 () Real)
-(declare-fun x89 () Real)
-(declare-fun x88 () Real)
-(declare-fun x87 () Real)
-(declare-fun x86 () Real)
-(declare-fun x85 () Real)
-(declare-fun x84 () Real)
-(declare-fun x83 () Real)
-(declare-fun x82 () Real)
-(declare-fun x81 () Real)
-(declare-fun x80 () Real)
-(declare-fun x79 () Real)
-(declare-fun x78 () Real)
-(declare-fun x77 () Real)
-(declare-fun x76 () Real)
-(declare-fun x75 () Real)
-(declare-fun x74 () Real)
-(declare-fun x73 () Real)
-(declare-fun x72 () Real)
-(declare-fun x71 () Real)
-(declare-fun x70 () Real)
-(declare-fun x69 () Real)
-(declare-fun x68 () Real)
-(declare-fun x67 () Real)
-(declare-fun x66 () Real)
-(declare-fun x65 () Real)
-(declare-fun x64 () Real)
-(declare-fun x63 () Real)
-(declare-fun x62 () Real)
-(declare-fun x61 () Real)
-(declare-fun x60 () Real)
-(declare-fun x59 () Real)
-(declare-fun x58 () Real)
-(declare-fun x57 () Real)
-(declare-fun x56 () Real)
-(declare-fun x55 () Real)
-(declare-fun x54 () Real)
-(declare-fun x53 () Real)
-(declare-fun x52 () Real)
-(declare-fun x51 () Real)
-(declare-fun x50 () Real)
-(declare-fun x49 () Real)
-(declare-fun x48 () Real)
-(declare-fun x47 () Real)
-(declare-fun x46 () Real)
-(declare-fun x45 () Real)
-(declare-fun x44 () Real)
-(declare-fun x43 () Real)
-(declare-fun x42 () Real)
-(declare-fun x41 () Real)
-(declare-fun x40 () Real)
-(declare-fun x39 () Real)
-(declare-fun x38 () Real)
-(declare-fun x37 () Real)
-(declare-fun x36 () Real)
-(declare-fun x35 () Real)
-(declare-fun x34 () Real)
-(declare-fun x33 () Real)
-(declare-fun x32 () Real)
-(declare-fun x31 () Real)
-(declare-fun x30 () Real)
-(declare-fun x29 () Real)
-(declare-fun x28 () Real)
-(declare-fun x27 () Real)
-(declare-fun x26 () Real)
-(declare-fun x25 () Real)
-(declare-fun x24 () Real)
-(declare-fun x23 () Real)
-(declare-fun x22 () Real)
-(declare-fun x21 () Real)
-(declare-fun x20 () Real)
-(declare-fun x19 () Real)
-(declare-fun x18 () Real)
-(declare-fun x17 () Real)
-(declare-fun x16 () Real)
-(declare-fun x15 () Real)
-(declare-fun x14 () Real)
-(declare-fun x13 () Real)
-(declare-fun x12 () Real)
-(declare-fun x11 () Real)
-(declare-fun x10 () Real)
-(declare-fun x9 () Real)
-(declare-fun x8 () Real)
-(declare-fun x7 () Real)
-(declare-fun x6 () Real)
-(declare-fun x5 () Real)
-(declare-fun x4 () Real)
-(declare-fun x3 () Real)
-(declare-fun x2 () Real)
-(declare-fun x1 () Real)
-(declare-fun x177 () Bool)
-(declare-fun x178 () Bool)
-(declare-fun x179 () Bool)
-(declare-fun x180 () Bool)
-(declare-fun x181 () Bool)
-(declare-fun x182 () Bool)
-(declare-fun x183 () Bool)
-(declare-fun x184 () Bool)
-(declare-fun x185 () Bool)
-(declare-fun x186 () Bool)
-(declare-fun x187 () Bool)
-(declare-fun x188 () Bool)
-(declare-fun x189 () Bool)
-(declare-fun x190 () Bool)
-(declare-fun x191 () Bool)
-(declare-fun x192 () Bool)
-(declare-fun x193 () Bool)
-(declare-fun x194 () Bool)
-(declare-fun x195 () Bool)
-(declare-fun x196 () Bool)
-(declare-fun x197 () Bool)
-(declare-fun x198 () Bool)
-(declare-fun x199 () Bool)
-(declare-fun x200 () Bool)
-(declare-fun x201 () Bool)
-(declare-fun x202 () Bool)
-(declare-fun x203 () Bool)
-(declare-fun x204 () Bool)
-(declare-fun x205 () Bool)
-(declare-fun x206 () Bool)
-(declare-fun x207 () Bool)
-(declare-fun x208 () Bool)
-(declare-fun x209 () Bool)
-(declare-fun x210 () Bool)
-(declare-fun x211 () Bool)
-(declare-fun x212 () Bool)
-(declare-fun x213 () Bool)
-(declare-fun x214 () Bool)
-(declare-fun x215 () Bool)
-(declare-fun x216 () Bool)
-(declare-fun x217 () Bool)
-(declare-fun x218 () Bool)
-(declare-fun x219 () Bool)
-(declare-fun x220 () Bool)
-(declare-fun x221 () Bool)
-(declare-fun x222 () Bool)
-(declare-fun x223 () Bool)
-(declare-fun x224 () Bool)
-(declare-fun x225 () Bool)
-(declare-fun x226 () Bool)
-(declare-fun x227 () Bool)
-(declare-fun x228 () Bool)
-(declare-fun x229 () Bool)
-(declare-fun x230 () Bool)
-(declare-fun x231 () Bool)
-(declare-fun x232 () Bool)
-(declare-fun x233 () Bool)
-(declare-fun x234 () Bool)
-(declare-fun x235 () Bool)
-(declare-fun x236 () Bool)
-(declare-fun x237 () Bool)
-(declare-fun x238 () Bool)
-(declare-fun x239 () Bool)
-(declare-fun x240 () Bool)
-(assert (let ((?v_64 (* 1 x56)) (?v_65 (* 1 x55)) (?v_66 (* 1 x54)) (?v_67 (* 1 x53)) (?v_68 (* 1 x52)) (?v_69 (* 1 x51)) (?v_70 (* 1 x50)) (?v_71 (* 1 x49)) (?v_72 (* 1 x48)) (?v_73 (* 1 x47)) (?v_74 (* 1 x46)) (?v_75 (* 1 x45)) (?v_76 (* 1 x44)) (?v_77 (* 1 x43)) (?v_78 (* 1 x42)) (?v_79 (* 1 x41)) (?v_80 (* 1 x40)) (?v_81 (* 1 x39)) (?v_82 (* 1 x38)) (?v_83 (* 1 x37)) (?v_84 (* 1 x36)) (?v_85 (* 1 x35)) (?v_86 (* 1 x34)) (?v_87 (* 1 x33)) (?v_88 (* 1 x32)) (?v_89 (* 1 x31)) (?v_90 (* 1 x30)) (?v_91 (* 1 x29)) (?v_92 (* 1 x28)) (?v_93 (* 1 x27)) (?v_94 (* 1 x26)) (?v_95 (* 1 x25)) (?v_96 (* 1 x24)) (?v_97 (* 1 x23)) (?v_98 (* 1 x22)) (?v_99 (* 1 x21)) (?v_100 (* 1 x20)) (?v_101 (* 1 x19)) (?v_102 (* 1 x18)) (?v_103 (* 1 x17)) (?v_104 (* 1 x16)) (?v_105 (* 1 x15)) (?v_106 (* 1 x14)) (?v_107 (* 1 x13)) (?v_108 (* 1 x12)) (?v_109 (* 1 x11)) (?v_110 (* 1 x10)) (?v_111 (* 1 x9)) (?v_112 (* 1 x8)) (?v_113 (* 1 x7)) (?v_114 (* 1 x6)) (?v_115 (* 1 x5)) (?v_116 (* 1 x4)) (?v_117 (* 1 x3)) (?v_118 (* 1 x2)) (?v_119 (* 1 x1)) (?v_7 (* 1 x176)) (?v_15 (* 1 x175)) (?v_23 (* 1 x174)) (?v_31 (* 1 x173)) (?v_39 (* 1 x172)) (?v_47 (* 1 x171)) (?v_55 (* 1 x170)) (?v_63 (* 1 x169)) (?v_6 (* 1 x168)) (?v_14 (* 1 x167)) (?v_22 (* 1 x166)) (?v_30 (* 1 x165)) (?v_38 (* 1 x164)) (?v_46 (* 1 x163)) (?v_54 (* 1 x162)) (?v_62 (* 1 x161)) (?v_5 (* 1 x160)) (?v_13 (* 1 x159)) (?v_21 (* 1 x158)) (?v_29 (* 1 x157)) (?v_37 (* 1 x156)) (?v_45 (* 1 x155)) (?v_53 (* 1 x154)) (?v_61 (* 1 x153)) (?v_4 (* 1 x152)) (?v_12 (* 1 x151)) (?v_20 (* 1 x150)) (?v_28 (* 1 x149)) (?v_36 (* 1 x148)) (?v_44 (* 1 x147)) (?v_52 (* 1 x146)) (?v_60 (* 1 x145)) (?v_3 (* 1 x144)) (?v_11 (* 1 x143)) (?v_19 (* 1 x142)) (?v_27 (* 1 x141)) (?v_35 (* 1 x140)) (?v_43 (* 1 x139)) (?v_51 (* 1 x138)) (?v_59 (* 1 x137)) (?v_2 (* 1 x136)) (?v_10 (* 1 x135)) (?v_18 (* 1 x134)) (?v_26 (* 1 x133)) (?v_34 (* 1 x132)) (?v_42 (* 1 x131)) (?v_50 (* 1 x130)) (?v_58 (* 1 x129)) (?v_1 (* 1 x128)) (?v_9 (* 1 x127)) (?v_17 (* 1 x126)) (?v_25 (* 1 x125)) (?v_33 (* 1 x124)) (?v_41 (* 1 x123)) (?v_49 (* 1 x122)) (?v_57 (* 1 x121)) (?v_0 (* 1 x120)) (?v_8 (* 1 x119)) (?v_16 (* 1 x118)) (?v_24 (* 1 x117)) (?v_32 (* 1 x116)) (?v_40 (* 1 x115)) (?v_48 (* 1 x114)) (?v_56 (* 1 x113)) (?v_120 (not x207)) (?v_121 (not x208)) (?v_122 (not x209)) (?v_123 (and (not x210) true))) (let ((?v_126 (and ?v_122 ?v_123))) (let ((?v_131 (and ?v_121 ?v_126)) (?v_125 (and x210 true))) (let ((?v_127 (and ?v_122 ?v_125))) (let ((?v_133 (and ?v_121 ?v_127)) (?v_124 (= tmp75 400)) (?v_128 (and x209 ?v_123))) (let ((?v_134 (and ?v_121 ?v_128)) (?v_130 (and x209 ?v_125))) (let ((?v_135 (and ?v_121 ?v_130)) (?v_137 (and x208 ?v_126)) (?v_132 (= tmp75 300)) (?v_138 (and x208 ?v_127)) (?v_129 (= tmp75 700)) (?v_139 (and x208 ?v_128)) (?v_141 (and x208 ?v_130)) (?v_136 (= tmp75 1100)) (?v_140 (= tmp75 1000)) (?v_142 (not x216)) (?v_143 (not x215)) (?v_144 (not x214)) (?v_145 (not x213)) (?v_146 (not x212)) (?v_147 (and (not x211) true))) (let ((?v_150 (and ?v_146 ?v_147))) (let ((?v_155 (and ?v_145 ?v_150))) (let ((?v_164 (and ?v_144 ?v_155))) (let ((?v_181 (and ?v_143 ?v_164)) (?v_149 (and x211 true))) (let ((?v_151 (and ?v_146 ?v_149))) (let ((?v_156 (and ?v_145 ?v_151))) (let ((?v_165 (and ?v_144 ?v_156))) (let ((?v_182 (and ?v_143 ?v_165)) (?v_148 (= tmp74 400)) (?v_153 (and x212 ?v_147))) (let ((?v_157 (and ?v_145 ?v_153))) (let ((?v_166 (and ?v_144 ?v_157))) (let ((?v_183 (and ?v_143 ?v_166)) (?v_154 (and x212 ?v_149))) (let ((?v_158 (and ?v_145 ?v_154))) (let ((?v_167 (and ?v_144 ?v_158))) (let ((?v_184 (and ?v_143 ?v_167)) (?v_152 (= tmp74 800)) (?v_160 (and x213 ?v_150))) (let ((?v_168 (and ?v_144 ?v_160))) (let ((?v_185 (and ?v_143 ?v_168)) (?v_161 (and x213 ?v_151))) (let ((?v_169 (and ?v_144 ?v_161))) (let ((?v_186 (and ?v_143 ?v_169)) (?v_162 (and x213 ?v_153))) (let ((?v_170 (and ?v_144 ?v_162))) (let ((?v_187 (and ?v_143 ?v_170)) (?v_163 (and x213 ?v_154))) (let ((?v_171 (and ?v_144 ?v_163))) (let ((?v_188 (and ?v_143 ?v_171)) (?v_159 (= tmp74 1200)) (?v_173 (and x214 ?v_155))) (let ((?v_189 (and ?v_143 ?v_173)) (?v_174 (and x214 ?v_156))) (let ((?v_190 (and ?v_143 ?v_174)) (?v_175 (and x214 ?v_157))) (let ((?v_191 (and ?v_143 ?v_175)) (?v_176 (and x214 ?v_158))) (let ((?v_192 (and ?v_143 ?v_176)) (?v_177 (and x214 ?v_160))) (let ((?v_193 (and ?v_143 ?v_177)) (?v_178 (and x214 ?v_161))) (let ((?v_194 (and ?v_143 ?v_178)) (?v_179 (and x214 ?v_162))) (let ((?v_195 (and ?v_143 ?v_179)) (?v_180 (and x214 ?v_163))) (let ((?v_196 (and ?v_143 ?v_180)) (?v_172 (= tmp74 1600)) (?v_198 (and x215 ?v_164)) (?v_199 (and x215 ?v_165)) (?v_200 (and x215 ?v_166)) (?v_201 (and x215 ?v_167)) (?v_202 (and x215 ?v_168)) (?v_203 (and x215 ?v_169)) (?v_204 (and x215 ?v_170)) (?v_205 (and x215 ?v_171)) (?v_206 (and x215 ?v_173)) (?v_207 (and x215 ?v_174)) (?v_208 (and x215 ?v_175)) (?v_209 (and x215 ?v_176)) (?v_210 (and x215 ?v_177)) (?v_211 (and x215 ?v_178)) (?v_212 (and x215 ?v_179)) (?v_213 (and x215 ?v_180)) (?v_197 (= tmp74 2000)) (?v_214 (not x201)) (?v_215 (not x202)) (?v_216 (not x203)) (?v_217 (not x204)) (?v_218 (not x205)) (?v_219 (and (not x206) true))) (let ((?v_222 (and ?v_218 ?v_219))) (let ((?v_227 (and ?v_217 ?v_222))) (let ((?v_236 (and ?v_216 ?v_227))) (let ((?v_253 (and ?v_215 ?v_236)) (?v_221 (and x206 true))) (let ((?v_223 (and ?v_218 ?v_221))) (let ((?v_228 (and ?v_217 ?v_223))) (let ((?v_237 (and ?v_216 ?v_228))) (let ((?v_254 (and ?v_215 ?v_237)) (?v_220 (= tmp73 300)) (?v_225 (and x205 ?v_219))) (let ((?v_229 (and ?v_217 ?v_225))) (let ((?v_238 (and ?v_216 ?v_229))) (let ((?v_255 (and ?v_215 ?v_238)) (?v_226 (and x205 ?v_221))) (let ((?v_230 (and ?v_217 ?v_226))) (let ((?v_239 (and ?v_216 ?v_230))) (let ((?v_256 (and ?v_215 ?v_239)) (?v_224 (= tmp73 600)) (?v_232 (and x204 ?v_222))) (let ((?v_240 (and ?v_216 ?v_232))) (let ((?v_257 (and ?v_215 ?v_240)) (?v_233 (and x204 ?v_223))) (let ((?v_241 (and ?v_216 ?v_233))) (let ((?v_258 (and ?v_215 ?v_241)) (?v_234 (and x204 ?v_225))) (let ((?v_242 (and ?v_216 ?v_234))) (let ((?v_259 (and ?v_215 ?v_242)) (?v_235 (and x204 ?v_226))) (let ((?v_243 (and ?v_216 ?v_235))) (let ((?v_260 (and ?v_215 ?v_243)) (?v_231 (= tmp73 900)) (?v_245 (and x203 ?v_227))) (let ((?v_261 (and ?v_215 ?v_245)) (?v_246 (and x203 ?v_228))) (let ((?v_262 (and ?v_215 ?v_246)) (?v_247 (and x203 ?v_229))) (let ((?v_263 (and ?v_215 ?v_247)) (?v_248 (and x203 ?v_230))) (let ((?v_264 (and ?v_215 ?v_248)) (?v_249 (and x203 ?v_232))) (let ((?v_265 (and ?v_215 ?v_249)) (?v_250 (and x203 ?v_233))) (let ((?v_266 (and ?v_215 ?v_250)) (?v_251 (and x203 ?v_234))) (let ((?v_267 (and ?v_215 ?v_251)) (?v_252 (and x203 ?v_235))) (let ((?v_268 (and ?v_215 ?v_252)) (?v_244 (= tmp73 1200)) (?v_270 (and x202 ?v_236)) (?v_271 (and x202 ?v_237)) (?v_272 (and x202 ?v_238)) (?v_273 (and x202 ?v_239)) (?v_274 (and x202 ?v_240)) (?v_275 (and x202 ?v_241)) (?v_276 (and x202 ?v_242)) (?v_277 (and x202 ?v_243)) (?v_278 (and x202 ?v_245)) (?v_279 (and x202 ?v_246)) (?v_280 (and x202 ?v_247)) (?v_281 (and x202 ?v_248)) (?v_282 (and x202 ?v_249)) (?v_283 (and x202 ?v_250)) (?v_284 (and x202 ?v_251)) (?v_285 (and x202 ?v_252)) (?v_269 (= tmp73 1500)) (?v_286 (not x222)) (?v_287 (not x221)) (?v_288 (not x220)) (?v_289 (not x219)) (?v_290 (not x218)) (?v_291 (and (not x217) true))) (let ((?v_294 (and ?v_290 ?v_291))) (let ((?v_299 (and ?v_289 ?v_294))) (let ((?v_308 (and ?v_288 ?v_299))) (let ((?v_325 (and ?v_287 ?v_308)) (?v_293 (and x217 true))) (let ((?v_295 (and ?v_290 ?v_293))) (let ((?v_300 (and ?v_289 ?v_295))) (let ((?v_309 (and ?v_288 ?v_300))) (let ((?v_326 (and ?v_287 ?v_309)) (?v_292 (= tmp72 250)) (?v_297 (and x218 ?v_291))) (let ((?v_301 (and ?v_289 ?v_297))) (let ((?v_310 (and ?v_288 ?v_301))) (let ((?v_327 (and ?v_287 ?v_310)) (?v_298 (and x218 ?v_293))) (let ((?v_302 (and ?v_289 ?v_298))) (let ((?v_311 (and ?v_288 ?v_302))) (let ((?v_328 (and ?v_287 ?v_311)) (?v_296 (= tmp72 500)) (?v_304 (and x219 ?v_294))) (let 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(<= (+ (+ (* 1 tmp26) 0) (+ ?v_51 0)) 0) (<= (+ (+ (* 1 tmp25) 0) (+ ?v_59 0)) 0) (<= (+ (+ (* 1 tmp24) 0) (+ ?v_2 0)) 0) (<= (+ (+ (* 1 tmp23) 0) (+ ?v_10 0)) 0) (<= (+ (+ (* 1 tmp22) 0) (+ ?v_18 0)) 0) (<= (+ (+ (* 1 tmp21) 0) (+ ?v_26 0)) 0) (<= (+ (+ (* 1 tmp20) 0) (+ ?v_34 0)) 0) (<= (+ (+ (* 1 tmp19) 0) (+ ?v_42 0)) 0) (<= (+ (+ (* 1 tmp18) 0) (+ ?v_50 0)) 0) (<= (+ (+ (* 1 tmp17) 0) (+ ?v_58 0)) 0) (<= (+ (+ (* 1 tmp16) 0) (+ ?v_1 0)) 0) (<= (+ (+ (* 1 tmp15) 0) (+ ?v_9 0)) 0) (<= (+ (+ (* 1 tmp14) 0) (+ ?v_17 0)) 0) (<= (+ (+ (* 1 tmp13) 0) (+ ?v_25 0)) 0) (<= (+ (+ (* 1 tmp12) 0) (+ ?v_33 0)) 0) (<= (+ (+ (* 1 tmp11) 0) (+ ?v_41 0)) 0) (<= (+ (+ (* 1 tmp10) 0) (+ ?v_49 0)) 0) (<= (+ (+ (* 1 tmp9) 0) (+ ?v_57 0)) 0) (<= (+ (+ (* 1 tmp8) 0) (+ ?v_0 0)) 0) (<= (+ (+ (* 1 tmp7) 0) (+ ?v_8 0)) 0) (<= (+ (+ (* 1 tmp6) 0) (+ ?v_16 0)) 0) (<= (+ (+ (* 1 tmp5) 0) (+ ?v_24 0)) 0) (<= (+ (+ (* 1 tmp4) 0) (+ ?v_32 0)) 0) (<= (+ (+ (* 1 tmp3) 0) (+ ?v_40 0)) 0) (<= (+ (+ (* 1 tmp2) 0) (+ ?v_48 0)) 0) (<= (+ (+ (* 1 tmp1) 0) (+ ?v_56 0)) 0) (<= (+ (+ (+ (+ (+ (+ (+ (+ 0 ?v_0) ?v_1) ?v_2) ?v_3) ?v_4) ?v_5) ?v_6) ?v_7) 500) (<= (+ (+ (+ (+ (+ (+ (+ (+ 0 ?v_8) ?v_9) ?v_10) ?v_11) ?v_12) ?v_13) ?v_14) ?v_15) 400) (<= (+ (+ (+ (+ (+ (+ (+ (+ 0 ?v_16) ?v_17) ?v_18) ?v_19) ?v_20) ?v_21) ?v_22) ?v_23) 400) (<= (+ (+ (+ (+ (+ (+ (+ (+ 0 ?v_24) ?v_25) ?v_26) ?v_27) ?v_28) ?v_29) ?v_30) ?v_31) 400) (<= (+ (+ (+ (+ (+ (+ (+ (+ 0 ?v_32) ?v_33) ?v_34) ?v_35) ?v_36) ?v_37) ?v_38) ?v_39) 400) (<= (+ (+ (+ (+ (+ (+ (+ (+ 0 ?v_40) ?v_41) ?v_42) ?v_43) ?v_44) ?v_45) ?v_46) ?v_47) 350) (<= (+ (+ (+ (+ (+ (+ (+ (+ 0 ?v_48) ?v_49) ?v_50) ?v_51) ?v_52) ?v_53) ?v_54) ?v_55) 350) (<= (+ (+ (+ (+ (+ (+ (+ (+ 0 ?v_56) ?v_57) ?v_58) ?v_59) ?v_60) ?v_61) ?v_62) ?v_63) 350) (= (+ (+ (+ 0 ?v_64) (* (- 1) x112)) ?v_7) 30) (= (+ (+ (+ (+ (+ 0 ?v_65) (* (- 1) x56)) (* (- 1) x111)) (* 1 x112)) ?v_15) 20) (= (+ (+ (+ (+ (+ 0 ?v_66) (* (- 1) x55)) (* (- 1) x110)) (* 1 x111)) ?v_23) 10) (= (+ (+ (+ (+ (+ 0 ?v_67) (* (- 1) x54)) (* (- 1) x109)) (* 1 x110)) ?v_31) 10) (= (+ (+ (+ (+ (+ 0 ?v_68) (* (- 1) x53)) (* (- 1) x108)) (* 1 x109)) ?v_39) 0) (= (+ (+ (+ (+ (+ 0 ?v_69) (* (- 1) x52)) (* (- 1) x107)) (* 1 x108)) ?v_47) 0) (= (+ (+ (+ (+ (+ 0 ?v_70) (* (- 1) x51)) (* (- 1) x106)) (* 1 x107)) ?v_55) 20) (= (+ (+ (+ 0 (* (- 1) x50)) (* 1 x106)) ?v_63) 10) (= (+ (+ (+ 0 ?v_71) (* (- 1) x105)) ?v_6) 40) (= (+ (+ (+ (+ (+ 0 ?v_72) (* (- 1) x49)) (* (- 1) x104)) (* 1 x105)) ?v_14) 40) (= (+ (+ (+ (+ (+ 0 ?v_73) (* (- 1) x48)) (* (- 1) x103)) (* 1 x104)) ?v_22) 60) (= (+ (+ (+ (+ (+ 0 ?v_74) (* (- 1) x47)) (* (- 1) x102)) (* 1 x103)) ?v_30) 20) (= (+ (+ (+ (+ (+ 0 ?v_75) (* (- 1) x46)) (* (- 1) x101)) (* 1 x102)) ?v_38) 10) (= (+ (+ (+ (+ (+ 0 ?v_76) (* (- 1) x45)) (* (- 1) x100)) (* 1 x101)) ?v_46) 50) (= (+ (+ (+ (+ (+ 0 ?v_77) (* (- 1) x44)) (* (- 1) x99)) (* 1 x100)) ?v_54) 20) (= (+ (+ (+ 0 (* (- 1) x43)) (* 1 x99)) ?v_62) 0) (= (+ (+ (+ 0 ?v_78) (* (- 1) x98)) ?v_5) 50) (= (+ (+ (+ (+ (+ 0 ?v_79) (* (- 1) x42)) (* (- 1) x97)) (* 1 x98)) ?v_13) 40) (= (+ (+ (+ (+ (+ 0 ?v_80) (* (- 1) x41)) (* (- 1) x96)) (* 1 x97)) ?v_21) 20) (= (+ (+ (+ (+ (+ 0 ?v_81) (* (- 1) x40)) (* (- 1) x95)) (* 1 x96)) ?v_29) 100) (= (+ (+ (+ (+ (+ 0 ?v_82) (* (- 1) x39)) (* (- 1) x94)) (* 1 x95)) ?v_37) 40) (= (+ (+ (+ (+ (+ 0 ?v_83) (* (- 1) x38)) (* (- 1) x93)) (* 1 x94)) ?v_45) 40) (= (+ (+ (+ (+ (+ 0 ?v_84) (* (- 1) x37)) (* (- 1) x92)) (* 1 x93)) ?v_53) 40) (= (+ (+ (+ 0 (* (- 1) x36)) (* 1 x92)) ?v_61) 70) (= (+ (+ (+ 0 ?v_85) (* (- 1) x91)) ?v_4) 10) (= (+ (+ (+ (+ (+ 0 ?v_86) (* (- 1) x35)) (* (- 1) x90)) (* 1 x91)) ?v_12) 20) (= (+ (+ (+ (+ (+ 0 ?v_87) (* (- 1) x34)) (* (- 1) x89)) (* 1 x90)) ?v_20) 10) (= (+ (+ (+ (+ (+ 0 ?v_88) (* (- 1) x33)) (* (- 1) x88)) (* 1 x89)) ?v_28) 10) (= (+ (+ (+ (+ (+ 0 ?v_89) (* (- 1) x32)) (* (- 1) x87)) (* 1 x88)) ?v_36) 40) (= (+ (+ (+ (+ (+ 0 ?v_90) (* (- 1) x31)) (* (- 1) x86)) (* 1 x87)) ?v_44) 20) (= (+ (+ (+ (+ (+ 0 ?v_91) (* (- 1) x30)) (* (- 1) x85)) (* 1 x86)) ?v_52) 0) (= (+ (+ (+ 0 (* (- 1) x29)) (* 1 x85)) ?v_60) 50) (= (+ (+ (+ 0 ?v_92) (* (- 1) x84)) ?v_3) 100) (= (+ (+ (+ (+ (+ 0 ?v_93) (* (- 1) x28)) (* (- 1) x83)) (* 1 x84)) ?v_11) 100) (= (+ (+ (+ (+ (+ 0 ?v_94) (* (- 1) x27)) (* (- 1) x82)) (* 1 x83)) ?v_19) 90) (= (+ (+ (+ (+ (+ 0 ?v_95) (* (- 1) x26)) (* (- 1) x81)) (* 1 x82)) ?v_27) 160) (= (+ (+ (+ (+ (+ 0 ?v_96) (* (- 1) x25)) (* (- 1) x80)) (* 1 x81)) ?v_35) 150) (= (+ (+ (+ (+ (+ 0 ?v_97) (* (- 1) x24)) (* (- 1) x79)) (* 1 x80)) ?v_43) 100) (= (+ (+ (+ (+ (+ 0 ?v_98) (* (- 1) x23)) (* (- 1) x78)) (* 1 x79)) ?v_51) 100) (= (+ (+ (+ 0 (* (- 1) x22)) (* 1 x78)) ?v_59) 0) (= (+ (+ (+ 0 ?v_99) (* (- 1) x77)) ?v_2) 160) (= (+ (+ (+ (+ (+ 0 ?v_100) (* (- 1) x21)) (* (- 1) x76)) (* 1 x77)) ?v_10) 90) (= (+ (+ (+ (+ (+ 0 ?v_101) (* (- 1) x20)) (* (- 1) x75)) (* 1 x76)) ?v_18) 80) (= (+ (+ (+ (+ (+ 0 ?v_102) (* (- 1) x19)) (* (- 1) x74)) (* 1 x75)) ?v_26) 40) (= (+ (+ (+ (+ (+ 0 ?v_103) (* (- 1) x18)) (* (- 1) x73)) (* 1 x74)) ?v_34) 100) (= (+ (+ (+ (+ (+ 0 ?v_104) (* (- 1) x17)) (* (- 1) x72)) (* 1 x73)) ?v_42) 0) (= (+ (+ (+ (+ (+ 0 ?v_105) (* (- 1) x16)) (* (- 1) x71)) (* 1 x72)) ?v_50) 50) (= (+ (+ (+ 0 (* (- 1) x15)) (* 1 x71)) ?v_58) 40) (= (+ (+ (+ 0 ?v_106) (* (- 1) x70)) ?v_1) 50) (= (+ (+ (+ (+ (+ 0 ?v_107) (* (- 1) x14)) (* (- 1) x69)) (* 1 x70)) ?v_9) 40) (= (+ (+ (+ (+ (+ 0 ?v_108) (* (- 1) x13)) (* (- 1) x68)) (* 1 x69)) ?v_17) 0) (= (+ (+ (+ (+ (+ 0 ?v_109) (* (- 1) x12)) (* (- 1) x67)) (* 1 x68)) ?v_25) 30) (= (+ (+ (+ (+ (+ 0 ?v_110) (* (- 1) x11)) (* (- 1) x66)) (* 1 x67)) ?v_33) 10) (= (+ (+ (+ (+ (+ 0 ?v_111) (* (- 1) x10)) (* (- 1) x65)) (* 1 x66)) ?v_41) 50) (= (+ (+ (+ (+ (+ 0 ?v_112) (* (- 1) x9)) (* (- 1) x64)) (* 1 x65)) ?v_49) 40) (= (+ (+ (+ 0 (* (- 1) x8)) (* 1 x64)) ?v_57) 20) (= (+ (+ (+ 0 ?v_113) (* (- 1) x63)) ?v_0) 100) (= (+ (+ (+ (+ (+ 0 ?v_114) (* (- 1) x7)) (* (- 1) x62)) (* 1 x63)) ?v_8) 0) (= (+ (+ (+ (+ (+ 0 ?v_115) (* (- 1) x6)) (* (- 1) x61)) (* 1 x62)) ?v_16) 80) (= (+ (+ (+ (+ (+ 0 ?v_116) (* (- 1) x5)) (* (- 1) x60)) (* 1 x61)) ?v_24) 20) (= (+ (+ (+ (+ (+ 0 ?v_117) (* (- 1) x4)) (* (- 1) x59)) (* 1 x60)) ?v_32) 100) (= (+ (+ (+ (+ (+ 0 ?v_118) (* (- 1) x3)) (* (- 1) x58)) (* 1 x59)) ?v_40) 50) (= (+ (+ (+ (+ (+ 0 ?v_119) (* (- 1) x2)) (* (- 1) x57)) (* 1 x58)) ?v_48) 70) (= (+ (+ (+ 0 (* (- 1) x1)) (* 1 x57)) ?v_56) 0) (>= x1 0) (>= x2 0) (>= x3 0) (>= x4 0) (>= x5 0) (>= x6 0) (>= x7 0) (>= x8 0) (>= x9 0) (>= x10 0) (>= x11 0) (>= x12 0) (>= x13 0) (>= x14 0) (>= x15 0) (>= x16 0) (>= x17 0) (>= x18 0) (>= x19 0) (>= x20 0) (>= x21 0) (>= x22 0) (>= x23 0) (>= x24 0) (>= x25 0) (>= x26 0) (>= x27 0) (>= x28 0) (>= x29 0) (>= x30 0) (>= x31 0) (>= x32 0) (>= x33 0) (>= x34 0) (>= x35 0) (>= x36 0) (>= x37 0) (>= x38 0) (>= x39 0) (>= x40 0) (>= x41 0) (>= x42 0) (>= x43 0) (>= x44 0) (>= x45 0) (>= x46 0) (>= x47 0) (>= x48 0) (>= x49 0) (>= x50 0) (>= x51 0) (>= x52 0) (>= x53 0) (>= x54 0) (>= x55 0) (>= x56 0) (>= x57 0) (>= 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?v_148) (=> (and ?v_142 ?v_184) ?v_152) (=> (and ?v_142 ?v_185) ?v_148) (=> (and ?v_142 ?v_186) ?v_152) (=> (and ?v_142 ?v_187) ?v_152) (=> (and ?v_142 ?v_188) ?v_159) (=> (and ?v_142 ?v_189) ?v_148) (=> (and ?v_142 ?v_190) ?v_152) (=> (and ?v_142 ?v_191) ?v_152) (=> (and ?v_142 ?v_192) ?v_159) (=> (and ?v_142 ?v_193) ?v_152) (=> (and ?v_142 ?v_194) ?v_159) (=> (and ?v_142 ?v_195) ?v_159) (=> (and ?v_142 ?v_196) ?v_172) (=> (and ?v_142 ?v_198) ?v_148) (=> (and ?v_142 ?v_199) ?v_152) (=> (and ?v_142 ?v_200) ?v_152) (=> (and ?v_142 ?v_201) ?v_159) (=> (and ?v_142 ?v_202) ?v_152) (=> (and ?v_142 ?v_203) ?v_159) (=> (and ?v_142 ?v_204) ?v_159) (=> (and ?v_142 ?v_205) ?v_172) (=> (and ?v_142 ?v_206) ?v_152) (=> (and ?v_142 ?v_207) ?v_159) (=> (and ?v_142 ?v_208) ?v_159) (=> (and ?v_142 ?v_209) ?v_172) (=> (and ?v_142 ?v_210) ?v_159) (=> (and ?v_142 ?v_211) ?v_172) (=> (and ?v_142 ?v_212) ?v_172) (=> (and ?v_142 ?v_213) ?v_197) (=> (and x216 ?v_181) ?v_148) (=> (and x216 ?v_182) ?v_152) (=> 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?v_220) (=> (and ?v_214 ?v_256) ?v_224) (=> (and ?v_214 ?v_257) ?v_220) (=> (and ?v_214 ?v_258) ?v_224) (=> (and ?v_214 ?v_259) ?v_224) (=> (and ?v_214 ?v_260) ?v_231) (=> (and ?v_214 ?v_261) ?v_220) (=> (and ?v_214 ?v_262) ?v_224) (=> (and ?v_214 ?v_263) ?v_224) (=> (and ?v_214 ?v_264) ?v_231) (=> (and ?v_214 ?v_265) ?v_224) (=> (and ?v_214 ?v_266) ?v_231) (=> (and ?v_214 ?v_267) ?v_231) (=> (and ?v_214 ?v_268) ?v_244) (=> (and ?v_214 ?v_270) ?v_220) (=> (and ?v_214 ?v_271) ?v_224) (=> (and ?v_214 ?v_272) ?v_224) (=> (and ?v_214 ?v_273) ?v_231) (=> (and ?v_214 ?v_274) ?v_224) (=> (and ?v_214 ?v_275) ?v_231) (=> (and ?v_214 ?v_276) ?v_231) (=> (and ?v_214 ?v_277) ?v_244) (=> (and ?v_214 ?v_278) ?v_224) (=> (and ?v_214 ?v_279) ?v_231) (=> (and ?v_214 ?v_280) ?v_231) (=> (and ?v_214 ?v_281) ?v_244) (=> (and ?v_214 ?v_282) ?v_231) (=> (and ?v_214 ?v_283) ?v_244) (=> (and ?v_214 ?v_284) ?v_244) (=> (and ?v_214 ?v_285) ?v_269) (=> (and x201 ?v_253) ?v_220) (=> (and x201 ?v_254) ?v_224) (=> (and x201 ?v_255) ?v_224) (=> (and x201 ?v_256) ?v_231) (=> (and x201 ?v_257) ?v_224) (=> (and x201 ?v_258) ?v_231) (=> (and x201 ?v_259) ?v_231) (=> (and x201 ?v_260) ?v_244) (=> (and x201 ?v_261) ?v_224) (=> (and x201 ?v_262) ?v_231) (=> (and x201 ?v_263) ?v_231) (=> (and x201 ?v_264) ?v_244) (=> (and x201 ?v_265) ?v_231) (=> (and x201 ?v_266) ?v_244) (=> (and x201 ?v_267) ?v_244) (=> (and x201 ?v_268) ?v_269) (=> (and x201 ?v_270) ?v_224) (=> (and x201 ?v_271) ?v_231) (=> (and x201 ?v_272) ?v_231) (=> (and x201 ?v_273) ?v_244) (=> (and x201 ?v_274) ?v_231) (=> (and x201 ?v_275) ?v_244) (=> (and x201 ?v_276) ?v_244) (=> (and x201 ?v_277) ?v_269) (=> (and x201 ?v_278) ?v_231) (=> (and x201 ?v_279) ?v_244) (=> (and x201 ?v_280) ?v_244) (=> (and x201 ?v_281) ?v_269) (=> (and x201 ?v_282) ?v_244) (=> (and x201 ?v_283) ?v_269) (=> (and x201 ?v_284) ?v_269) (=> (and x201 ?v_285) (= tmp73 1800)) (=> (and ?v_286 ?v_325) (= tmp72 0)) (=> (and ?v_286 ?v_326) ?v_292) (=> (and ?v_286 ?v_327) ?v_292) (=> (and ?v_286 ?v_328) ?v_296) (=> (and ?v_286 ?v_329) ?v_292) (=> (and ?v_286 ?v_330) ?v_296) (=> (and ?v_286 ?v_331) ?v_296) (=> (and ?v_286 ?v_332) ?v_303) (=> (and ?v_286 ?v_333) ?v_292) (=> (and ?v_286 ?v_334) ?v_296) (=> (and ?v_286 ?v_335) ?v_296) (=> (and ?v_286 ?v_336) ?v_303) (=> (and ?v_286 ?v_337) ?v_296) (=> (and ?v_286 ?v_338) ?v_303) (=> (and ?v_286 ?v_339) ?v_303) (=> (and ?v_286 ?v_340) ?v_316) (=> (and ?v_286 ?v_342) ?v_292) (=> (and ?v_286 ?v_343) ?v_296) (=> (and ?v_286 ?v_344) ?v_296) (=> (and ?v_286 ?v_345) ?v_303) (=> (and ?v_286 ?v_346) ?v_296) (=> (and ?v_286 ?v_347) ?v_303) (=> (and ?v_286 ?v_348) ?v_303) (=> (and ?v_286 ?v_349) ?v_316) (=> (and ?v_286 ?v_350) ?v_296) (=> (and ?v_286 ?v_351) ?v_303) (=> (and ?v_286 ?v_352) ?v_303) (=> (and ?v_286 ?v_353) ?v_316) (=> (and ?v_286 ?v_354) ?v_303) (=> (and ?v_286 ?v_355) ?v_316) (=> (and ?v_286 ?v_356) ?v_316) (=> (and ?v_286 ?v_357) ?v_341) (=> (and x222 ?v_325) ?v_292) (=> (and x222 ?v_326) ?v_296) (=> (and x222 ?v_327) ?v_296) (=> (and x222 ?v_328) ?v_303) (=> (and x222 ?v_329) ?v_296) (=> (and x222 ?v_330) ?v_303) (=> (and x222 ?v_331) ?v_303) (=> (and x222 ?v_332) ?v_316) (=> (and x222 ?v_333) ?v_296) (=> (and x222 ?v_334) ?v_303) (=> (and x222 ?v_335) ?v_303) (=> (and x222 ?v_336) ?v_316) (=> (and x222 ?v_337) ?v_303) (=> (and x222 ?v_338) ?v_316) (=> (and x222 ?v_339) ?v_316) (=> (and x222 ?v_340) ?v_341) (=> (and x222 ?v_342) ?v_296) (=> (and x222 ?v_343) ?v_303) (=> (and x222 ?v_344) ?v_303) (=> (and x222 ?v_345) ?v_316) (=> (and x222 ?v_346) ?v_303) (=> (and x222 ?v_347) ?v_316) (=> (and x222 ?v_348) ?v_316) (=> (and x222 ?v_349) ?v_341) (=> (and x222 ?v_350) ?v_303) (=> (and x222 ?v_351) ?v_316) (=> (and x222 ?v_352) ?v_316) (=> (and x222 ?v_353) ?v_341) (=> (and x222 ?v_354) ?v_316) (=> (and x222 ?v_355) ?v_341) (=> (and x222 ?v_356) ?v_341) (=> (and x222 ?v_357) (= tmp72 1500)) (=> (and ?v_358 ?v_397) (= tmp71 0)) (=> (and ?v_358 ?v_398) ?v_364) (=> (and ?v_358 ?v_399) ?v_364) (=> (and ?v_358 ?v_400) ?v_368) (=> (and ?v_358 ?v_401) ?v_364) (=> (and ?v_358 ?v_402) ?v_368) (=> (and ?v_358 ?v_403) ?v_368) (=> (and ?v_358 ?v_404) ?v_375) (=> (and ?v_358 ?v_405) ?v_364) (=> (and ?v_358 ?v_406) ?v_368) (=> (and ?v_358 ?v_407) ?v_368) (=> (and ?v_358 ?v_408) ?v_375) (=> (and ?v_358 ?v_409) ?v_368) (=> (and ?v_358 ?v_410) ?v_375) (=> (and ?v_358 ?v_411) ?v_375) (=> (and ?v_358 ?v_412) ?v_388) (=> (and ?v_358 ?v_414) ?v_364) (=> (and ?v_358 ?v_415) ?v_368) (=> (and ?v_358 ?v_416) ?v_368) (=> (and ?v_358 ?v_417) ?v_375) (=> (and ?v_358 ?v_418) ?v_368) (=> (and ?v_358 ?v_419) ?v_375) (=> (and ?v_358 ?v_420) ?v_375) (=> (and ?v_358 ?v_421) ?v_388) (=> (and ?v_358 ?v_422) ?v_368) (=> (and ?v_358 ?v_423) ?v_375) (=> (and ?v_358 ?v_424) ?v_375) (=> (and ?v_358 ?v_425) ?v_388) (=> (and ?v_358 ?v_426) ?v_375) (=> (and ?v_358 ?v_427) ?v_388) (=> (and ?v_358 ?v_428) ?v_388) (=> (and ?v_358 ?v_429) ?v_413) (=> (and x195 ?v_397) ?v_364) (=> (and x195 ?v_398) ?v_368) (=> (and x195 ?v_399) ?v_368) (=> (and x195 ?v_400) ?v_375) (=> (and x195 ?v_401) ?v_368) (=> (and x195 ?v_402) ?v_375) (=> (and x195 ?v_403) ?v_375) (=> (and x195 ?v_404) ?v_388) (=> (and x195 ?v_405) ?v_368) (=> (and x195 ?v_406) ?v_375) (=> (and x195 ?v_407) ?v_375) (=> (and x195 ?v_408) ?v_388) (=> (and x195 ?v_409) ?v_375) (=> (and x195 ?v_410) ?v_388) (=> (and x195 ?v_411) ?v_388) (=> (and x195 ?v_412) ?v_413) (=> (and x195 ?v_414) ?v_368) (=> (and x195 ?v_415) ?v_375) (=> (and x195 ?v_416) ?v_375) (=> (and x195 ?v_417) ?v_388) (=> (and x195 ?v_418) ?v_375) (=> (and x195 ?v_419) ?v_388) (=> (and x195 ?v_420) ?v_388) (=> (and x195 ?v_421) ?v_413) (=> (and x195 ?v_422) ?v_375) (=> (and x195 ?v_423) ?v_388) (=> (and x195 ?v_424) ?v_388) (=> (and x195 ?v_425) ?v_413) (=> (and x195 ?v_426) ?v_388) (=> (and x195 ?v_427) ?v_413) (=> (and x195 ?v_428) ?v_413) (=> (and x195 ?v_429) (= tmp71 1200)) (=> (and ?v_430 ?v_472) (= tmp70 0)) (=> (and ?v_430 ?v_473) ?v_436) (=> (and ?v_430 ?v_474) ?v_436) (=> (and ?v_430 ?v_475) ?v_439) (=> (and ?v_430 ?v_476) ?v_439) (=> (and ?v_430 ?v_477) ?v_442) (=> (and ?v_430 ?v_478) ?v_442) (=> (and ?v_430 ?v_479) ?v_448) (=> (and ?v_430 ?v_480) ?v_439) (=> (and ?v_430 ?v_481) ?v_442) (=> (and ?v_430 ?v_482) ?v_442) (=> (and ?v_430 ?v_483) ?v_448) (=> (and ?v_430 ?v_484) ?v_448) (=> (and ?v_430 ?v_485) ?v_452) (=> (and ?v_430 ?v_486) ?v_452) (=> (and ?v_430 ?v_487) ?v_462) (=> (and ?v_430 ?v_489) ?v_439) (=> (and ?v_430 ?v_490) ?v_442) (=> (and ?v_430 ?v_491) ?v_442) (=> (and ?v_430 ?v_492) ?v_448) (=> (and ?v_430 ?v_493) ?v_448) (=> (and ?v_430 ?v_494) ?v_452) (=> (and ?v_430 ?v_495) ?v_452) (=> (and ?v_430 ?v_496) ?v_462) (=> (and ?v_430 ?v_497) ?v_448) (=> (and ?v_430 ?v_498) ?v_452) (=> (and ?v_430 ?v_499) ?v_452) (=> (and ?v_430 ?v_500) ?v_462) (=> (and ?v_430 ?v_501) ?v_462) (=> (and ?v_430 ?v_502) ?v_470) (=> (and ?v_430 ?v_503) ?v_470) (=> (and ?v_430 ?v_505) ?v_488) (=> (and x228 ?v_472) ?v_439) (=> (and x228 ?v_473) ?v_442) (=> (and x228 ?v_474) ?v_442) (=> (and x228 ?v_475) ?v_448) (=> (and x228 ?v_476) ?v_448) (=> (and x228 ?v_477) ?v_452) (=> (and x228 ?v_478) ?v_452) (=> (and x228 ?v_479) ?v_462) (=> (and x228 ?v_480) ?v_448) (=> (and x228 ?v_481) ?v_452) (=> (and x228 ?v_482) ?v_452) (=> (and x228 ?v_483) ?v_462) (=> (and x228 ?v_484) ?v_462) (=> (and x228 ?v_485) ?v_470) (=> (and x228 ?v_486) ?v_470) (=> (and x228 ?v_487) ?v_488) (=> (and x228 ?v_489) ?v_448) (=> (and x228 ?v_490) ?v_452) (=> (and x228 ?v_491) ?v_452) (=> (and x228 ?v_492) ?v_462) (=> (and x228 ?v_493) ?v_462) (=> (and x228 ?v_494) ?v_470) (=> (and x228 ?v_495) ?v_470) (=> (and x228 ?v_496) ?v_488) (=> (and x228 ?v_497) ?v_462) (=> (and x228 ?v_498) ?v_470) (=> (and x228 ?v_499) ?v_470) (=> (and x228 ?v_500) ?v_488) (=> (and x228 ?v_501) ?v_488) (=> (and x228 ?v_502) ?v_504) (=> (and x228 ?v_503) ?v_504) (=> (and x228 ?v_505) (= tmp70 2500)) (=> (and ?v_506 ?v_545) (= tmp69 0)) (=> (and ?v_506 ?v_546) ?v_512) (=> (and ?v_506 ?v_547) ?v_512) (=> (and ?v_506 ?v_548) ?v_516) (=> (and ?v_506 ?v_549) ?v_512) (=> (and ?v_506 ?v_550) ?v_516) (=> (and ?v_506 ?v_551) ?v_516) (=> (and ?v_506 ?v_552) ?v_523) (=> (and ?v_506 ?v_553) ?v_512) (=> (and ?v_506 ?v_554) ?v_516) (=> (and ?v_506 ?v_555) ?v_516) (=> (and ?v_506 ?v_556) ?v_523) (=> (and ?v_506 ?v_557) ?v_516) (=> (and ?v_506 ?v_558) ?v_523) (=> (and ?v_506 ?v_559) ?v_523) (=> (and ?v_506 ?v_560) ?v_536) (=> (and ?v_506 ?v_562) ?v_512) (=> (and ?v_506 ?v_563) ?v_516) (=> (and ?v_506 ?v_564) ?v_516) (=> (and ?v_506 ?v_565) ?v_523) (=> (and ?v_506 ?v_566) ?v_516) (=> (and ?v_506 ?v_567) ?v_523) (=> (and ?v_506 ?v_568) ?v_523) (=> (and ?v_506 ?v_569) ?v_536) (=> (and ?v_506 ?v_570) ?v_516) (=> (and ?v_506 ?v_571) ?v_523) (=> (and ?v_506 ?v_572) ?v_523) (=> (and ?v_506 ?v_573) ?v_536) (=> (and ?v_506 ?v_574) ?v_523) (=> (and ?v_506 ?v_575) ?v_536) (=> (and ?v_506 ?v_576) ?v_536) (=> (and ?v_506 ?v_577) ?v_561) (=> (and x189 ?v_545) ?v_512) (=> (and x189 ?v_546) ?v_516) (=> (and x189 ?v_547) ?v_516) (=> (and x189 ?v_548) ?v_523) (=> (and x189 ?v_549) ?v_516) (=> (and x189 ?v_550) ?v_523) (=> (and x189 ?v_551) ?v_523) (=> (and x189 ?v_552) ?v_536) (=> (and x189 ?v_553) ?v_516) (=> (and x189 ?v_554) ?v_523) (=> (and x189 ?v_555) ?v_523) (=> (and x189 ?v_556) ?v_536) (=> (and x189 ?v_557) ?v_523) (=> (and x189 ?v_558) ?v_536) (=> (and x189 ?v_559) ?v_536) (=> (and x189 ?v_560) ?v_561) (=> (and x189 ?v_562) ?v_516) (=> (and x189 ?v_563) ?v_523) (=> (and x189 ?v_564) ?v_523) (=> (and x189 ?v_565) ?v_536) (=> (and x189 ?v_566) ?v_523) (=> (and x189 ?v_567) ?v_536) (=> (and x189 ?v_568) ?v_536) (=> (and x189 ?v_569) ?v_561) (=> (and x189 ?v_570) ?v_523) (=> (and x189 ?v_571) ?v_536) (=> (and x189 ?v_572) ?v_536) (=> (and x189 ?v_573) ?v_561) (=> (and x189 ?v_574) ?v_536) (=> (and x189 ?v_575) ?v_561) (=> (and x189 ?v_576) ?v_561) (=> (and x189 ?v_577) (= tmp69 1200)) (=> (and ?v_578 ?v_619) (= tmp68 0)) (=> (and ?v_578 ?v_621) ?v_584) (=> (and ?v_578 ?v_622) ?v_584) (=> (and ?v_578 ?v_623) ?v_588) (=> (and ?v_578 ?v_624) ?v_584) (=> (and ?v_578 ?v_625) ?v_588) (=> (and ?v_578 ?v_626) ?v_588) (=> (and ?v_578 ?v_627) ?v_595) (=> (and ?v_578 ?v_628) ?v_584) (=> (and ?v_578 ?v_629) ?v_588) (=> (and ?v_578 ?v_630) ?v_588) (=> (and ?v_578 ?v_631) ?v_595) (=> (and ?v_578 ?v_632) ?v_588) (=> (and ?v_578 ?v_633) ?v_595) (=> (and ?v_578 ?v_634) ?v_595) (=> (and ?v_578 ?v_635) (= tmp68 2000)) (=> (and ?v_578 ?v_637) ?v_620) (=> (and ?v_578 ?v_638) ?v_603) (=> (and ?v_578 ?v_639) ?v_603) (=> (and ?v_578 ?v_641) ?v_607) (=> (and ?v_578 ?v_642) ?v_603) (=> (and ?v_578 ?v_643) ?v_607) (=> (and ?v_578 ?v_645) ?v_607) (=> (and ?v_578 ?v_646) ?v_614) (=> (and ?v_578 ?v_647) ?v_603) (=> (and ?v_578 ?v_648) ?v_607) (=> (and ?v_578 ?v_649) ?v_607) (=> (and ?v_578 ?v_650) ?v_614) (=> (and ?v_578 ?v_652) ?v_607) (=> (and ?v_578 ?v_653) ?v_614) (=> (and ?v_578 ?v_654) ?v_614) (=> (and ?v_578 ?v_655) ?v_636) (=> (and x234 ?v_619) ?v_620) (=> (and x234 ?v_621) ?v_603) (=> (and x234 ?v_622) ?v_603) (=> (and x234 ?v_623) ?v_607) (=> (and x234 ?v_624) ?v_603) (=> (and x234 ?v_625) ?v_607) (=> (and x234 ?v_626) ?v_607) (=> (and x234 ?v_627) ?v_614) (=> (and x234 ?v_628) ?v_603) (=> (and x234 ?v_629) ?v_607) (=> (and x234 ?v_630) ?v_607) (=> (and x234 ?v_631) ?v_614) (=> (and x234 ?v_632) ?v_607) (=> (and x234 ?v_633) ?v_614) (=> (and x234 ?v_634) ?v_614) (=> (and x234 ?v_635) ?v_636) (=> (and x234 ?v_637) (= tmp68 600)) (=> (and x234 ?v_638) ?v_640) (=> (and x234 ?v_639) ?v_640) (=> (and x234 ?v_641) ?v_644) (=> (and x234 ?v_642) ?v_640) (=> (and x234 ?v_643) ?v_644) (=> (and x234 ?v_645) ?v_644) (=> (and x234 ?v_646) ?v_651) (=> (and x234 ?v_647) ?v_640) (=> (and x234 ?v_648) ?v_644) (=> (and x234 ?v_649) ?v_644) (=> (and x234 ?v_650) ?v_651) (=> (and x234 ?v_652) ?v_644) (=> (and x234 ?v_653) ?v_651) (=> (and x234 ?v_654) ?v_651) (=> (and x234 ?v_655) (= tmp68 2600)) (=> (and ?v_656 ?v_697) (= tmp67 0)) (=> (and ?v_656 ?v_699) ?v_662) (=> (and ?v_656 ?v_700) ?v_662) (=> (and ?v_656 ?v_701) ?v_666) (=> (and ?v_656 ?v_702) ?v_662) (=> (and ?v_656 ?v_703) ?v_666) (=> (and ?v_656 ?v_704) ?v_666) (=> (and ?v_656 ?v_705) ?v_673) (=> (and ?v_656 ?v_706) ?v_662) (=> (and ?v_656 ?v_707) ?v_666) (=> (and ?v_656 ?v_708) ?v_666) (=> (and ?v_656 ?v_709) ?v_673) (=> (and ?v_656 ?v_710) ?v_666) (=> (and ?v_656 ?v_711) ?v_673) (=> (and ?v_656 ?v_712) ?v_673) (=> (and ?v_656 ?v_713) ?v_723) (=> (and ?v_656 ?v_715) ?v_698) (=> (and ?v_656 ?v_716) ?v_681) (=> (and ?v_656 ?v_717) ?v_681) (=> (and ?v_656 ?v_718) ?v_685) (=> (and ?v_656 ?v_719) ?v_681) (=> (and ?v_656 ?v_720) ?v_685) (=> (and ?v_656 ?v_721) ?v_685) (=> (and ?v_656 ?v_722) ?v_692) (=> (and ?v_656 ?v_724) ?v_681) (=> (and ?v_656 ?v_725) ?v_685) (=> (and ?v_656 ?v_726) ?v_685) (=> (and ?v_656 ?v_727) ?v_692) (=> (and ?v_656 ?v_728) ?v_685) (=> (and ?v_656 ?v_729) ?v_692) (=> (and ?v_656 ?v_730) ?v_692) (=> (and ?v_656 ?v_731) ?v_714) (=> (and x183 ?v_697) ?v_698) (=> (and x183 ?v_699) ?v_681) (=> (and x183 ?v_700) ?v_681) (=> (and x183 ?v_701) ?v_685) (=> (and x183 ?v_702) ?v_681) (=> (and x183 ?v_703) ?v_685) (=> (and x183 ?v_704) ?v_685) (=> (and x183 ?v_705) ?v_692) (=> (and x183 ?v_706) ?v_681) (=> (and x183 ?v_707) ?v_685) (=> (and x183 ?v_708) ?v_685) (=> (and x183 ?v_709) ?v_692) (=> (and x183 ?v_710) ?v_685) (=> (and x183 ?v_711) ?v_692) (=> (and x183 ?v_712) ?v_692) (=> (and x183 ?v_713) ?v_714) (=> (and x183 ?v_715) ?v_662) (=> (and x183 ?v_716) ?v_666) (=> (and x183 ?v_717) ?v_666) (=> (and x183 ?v_718) ?v_673) (=> (and x183 ?v_719) ?v_666) (=> (and x183 ?v_720) ?v_673) (=> (and x183 ?v_721) ?v_673) (=> (and x183 ?v_722) ?v_723) (=> (and x183 ?v_724) ?v_666) (=> (and x183 ?v_725) ?v_673) (=> (and x183 ?v_726) ?v_673) (=> (and x183 ?v_727) ?v_723) (=> (and x183 ?v_728) ?v_673) (=> (and x183 ?v_729) ?v_723) (=> (and x183 ?v_730) ?v_723) (=> (and x183 ?v_731) (= tmp67 1000)) (=> (and ?v_732 ?v_771) (= tmp66 0)) (=> (and ?v_732 ?v_772) ?v_738) (=> (and ?v_732 ?v_773) ?v_738) (=> (and ?v_732 ?v_774) ?v_742) (=> (and ?v_732 ?v_775) ?v_738) (=> (and ?v_732 ?v_776) ?v_742) (=> (and ?v_732 ?v_777) ?v_742) (=> (and ?v_732 ?v_778) ?v_749) (=> (and ?v_732 ?v_779) ?v_738) (=> (and ?v_732 ?v_780) ?v_742) (=> (and ?v_732 ?v_781) ?v_742) (=> (and ?v_732 ?v_782) ?v_749) (=> (and ?v_732 ?v_783) ?v_742) (=> (and ?v_732 ?v_784) ?v_749) (=> (and ?v_732 ?v_785) ?v_749) (=> (and ?v_732 ?v_786) ?v_762) (=> (and ?v_732 ?v_788) ?v_738) (=> (and ?v_732 ?v_789) ?v_742) (=> (and ?v_732 ?v_790) ?v_742) (=> (and ?v_732 ?v_791) ?v_749) (=> (and ?v_732 ?v_792) ?v_742) (=> (and ?v_732 ?v_793) ?v_749) (=> (and ?v_732 ?v_794) ?v_749) (=> (and ?v_732 ?v_795) ?v_762) (=> (and ?v_732 ?v_796) ?v_742) (=> (and ?v_732 ?v_797) ?v_749) (=> (and ?v_732 ?v_798) ?v_749) (=> (and ?v_732 ?v_799) ?v_762) (=> (and ?v_732 ?v_800) ?v_749) (=> (and ?v_732 ?v_801) ?v_762) (=> (and ?v_732 ?v_802) ?v_762) (=> (and ?v_732 ?v_803) ?v_787) (=> (and x240 ?v_771) ?v_738) (=> (and x240 ?v_772) ?v_742) (=> (and x240 ?v_773) ?v_742) (=> (and x240 ?v_774) ?v_749) (=> (and x240 ?v_775) ?v_742) (=> (and x240 ?v_776) ?v_749) (=> (and x240 ?v_777) ?v_749) (=> (and x240 ?v_778) ?v_762) (=> (and x240 ?v_779) ?v_742) (=> (and x240 ?v_780) ?v_749) (=> (and x240 ?v_781) ?v_749) (=> (and x240 ?v_782) ?v_762) (=> (and x240 ?v_783) ?v_749) (=> (and x240 ?v_784) ?v_762) (=> (and x240 ?v_785) ?v_762) (=> (and x240 ?v_786) ?v_787) (=> (and x240 ?v_788) ?v_742) (=> (and x240 ?v_789) ?v_749) (=> (and x240 ?v_790) ?v_749) (=> (and x240 ?v_791) ?v_762) (=> (and x240 ?v_792) ?v_749) (=> (and x240 ?v_793) ?v_762) (=> (and x240 ?v_794) ?v_762) (=> (and x240 ?v_795) ?v_787) (=> (and x240 ?v_796) ?v_749) (=> (and x240 ?v_797) ?v_762) (=> (and x240 ?v_798) ?v_762) (=> (and x240 ?v_799) ?v_787) (=> (and x240 ?v_800) ?v_762) (=> (and x240 ?v_801) ?v_787) (=> (and x240 ?v_802) ?v_787) (=> (and x240 ?v_803) (= tmp66 1800)) (=> (and ?v_804 ?v_843) (= tmp65 0)) (=> (and ?v_804 ?v_844) ?v_810) (=> (and ?v_804 ?v_845) ?v_810) (=> (and ?v_804 ?v_846) ?v_814) (=> (and ?v_804 ?v_847) ?v_810) (=> (and ?v_804 ?v_848) ?v_814) (=> (and ?v_804 ?v_849) ?v_814) (=> (and ?v_804 ?v_850) ?v_821) (=> (and ?v_804 ?v_851) ?v_810) (=> (and ?v_804 ?v_852) ?v_814) (=> (and ?v_804 ?v_853) ?v_814) (=> (and ?v_804 ?v_854) ?v_821) (=> (and ?v_804 ?v_855) ?v_814) (=> (and ?v_804 ?v_856) ?v_821) (=> (and ?v_804 ?v_857) ?v_821) (=> (and ?v_804 ?v_858) ?v_834) (=> (and ?v_804 ?v_860) ?v_810) (=> (and ?v_804 ?v_861) ?v_814) (=> (and ?v_804 ?v_862) ?v_814) (=> (and ?v_804 ?v_863) ?v_821) (=> (and ?v_804 ?v_864) ?v_814) (=> (and ?v_804 ?v_865) ?v_821) (=> (and ?v_804 ?v_866) ?v_821) (=> (and ?v_804 ?v_867) ?v_834) (=> (and ?v_804 ?v_868) ?v_814) (=> (and ?v_804 ?v_869) ?v_821) (=> (and ?v_804 ?v_870) ?v_821) (=> (and ?v_804 ?v_871) ?v_834) (=> (and ?v_804 ?v_872) ?v_821) (=> (and ?v_804 ?v_873) ?v_834) (=> (and ?v_804 ?v_874) ?v_834) (=> (and ?v_804 ?v_875) ?v_859) (=> (and x177 ?v_843) ?v_810) (=> (and x177 ?v_844) ?v_814) (=> (and x177 ?v_845) ?v_814) (=> (and x177 ?v_846) ?v_821) (=> (and x177 ?v_847) ?v_814) (=> (and x177 ?v_848) ?v_821) (=> (and x177 ?v_849) ?v_821) (=> (and x177 ?v_850) ?v_834) (=> (and x177 ?v_851) ?v_814) (=> (and x177 ?v_852) ?v_821) (=> (and x177 ?v_853) ?v_821) (=> (and x177 ?v_854) ?v_834) (=> (and x177 ?v_855) ?v_821) (=> (and x177 ?v_856) ?v_834) (=> (and x177 ?v_857) ?v_834) (=> (and x177 ?v_858) ?v_859) (=> (and x177 ?v_860) ?v_814) (=> (and x177 ?v_861) ?v_821) (=> (and x177 ?v_862) ?v_821) (=> (and x177 ?v_863) ?v_834) (=> (and x177 ?v_864) ?v_821) (=> (and x177 ?v_865) ?v_834) (=> (and x177 ?v_866) ?v_834) (=> (and x177 ?v_867) ?v_859) (=> (and x177 ?v_868) ?v_821) (=> (and x177 ?v_869) ?v_834) (=> (and x177 ?v_870) ?v_834) (=> (and x177 ?v_871) ?v_859) (=> (and x177 ?v_872) ?v_834) (=> (and x177 ?v_873) ?v_859) (=> (and x177 ?v_874) ?v_859) (=> (and x177 ?v_875) (= tmp65 600)) (=> (and ?v_732 true) (= tmp64 0)) (=> (and x240 true) (= tmp64 (- 100))) (=> (and ?v_733 true) (= tmp63 0)) (=> (and x239 true) (= tmp63 (- 100))) (=> (and ?v_734 true) (= tmp62 0)) (=> (and x238 true) (= tmp62 (- 100))) (=> (and ?v_735 true) (= tmp61 0)) (=> (and x237 true) (= tmp61 (- 100))) (=> (and ?v_736 true) (= tmp60 0)) (=> (and x236 true) (= tmp60 (- 100))) (=> ?v_737 (= tmp59 0)) (=> ?v_739 (= tmp59 (- 100))) (=> (and ?v_578 true) (= tmp58 0)) (=> (and x234 true) (= tmp58 (- 100))) (=> (and ?v_579 true) (= tmp57 0)) (=> (and x233 true) (= tmp57 (- 100))) (=> (and ?v_580 true) (= tmp56 0)) (=> (and x232 true) (= tmp56 (- 240))) (=> (and ?v_581 true) (= tmp55 0)) (=> (and x231 true) (= tmp55 (- 240))) (=> (and ?v_582 true) (= tmp54 0)) (=> (and x230 true) (= tmp54 (- 240))) (=> ?v_583 (= tmp53 0)) (=> ?v_585 (= tmp53 (- 240))) (=> (and ?v_430 true) (= tmp52 0)) (=> (and x228 true) (= tmp52 (- 240))) (=> (and ?v_431 true) (= tmp51 0)) (=> (and x227 true) (= tmp51 (- 240))) (=> (and ?v_432 true) (= tmp50 0)) (=> (and x226 true) (= tmp50 (- 240))) (=> (and ?v_433 true) (= tmp49 0)) (=> (and x225 true) (= tmp49 (- 240))) (=> (and ?v_434 true) (= tmp48 0)) (=> (and x224 true) (= tmp48 (- 400))) (=> ?v_435 (= tmp47 0)) (=> ?v_437 (= tmp47 (- 400))) (=> (and ?v_286 true) (= tmp46 0)) (=> (and x222 true) (= tmp46 (- 400))) (=> (and ?v_287 true) (= tmp45 0)) (=> (and x221 true) (= tmp45 (- 400))) (=> (and ?v_288 true) (= tmp44 0)) (=> (and x220 true) (= tmp44 (- 400))) (=> (and ?v_289 true) (= tmp43 0)) (=> (and x219 true) (= tmp43 (- 350))) (=> (and ?v_290 true) (= tmp42 0)) (=> (and x218 true) (= tmp42 (- 350))) (=> ?v_291 (= tmp41 0)) (=> ?v_293 (= tmp41 (- 350))) (=> (and ?v_142 true) (= tmp40 0)) (=> (and x216 true) (= tmp40 (- 160))) (=> (and ?v_143 true) (= tmp39 0)) (=> (and x215 true) (= tmp39 (- 160))) (=> (and ?v_144 true) (= tmp38 0)) (=> (and x214 true) (= tmp38 (- 160))) (=> (and ?v_145 true) (= tmp37 0)) (=> (and x213 true) (= tmp37 (- 160))) (=> (and ?v_146 true) (= tmp36 0)) (=> (and x212 true) (= tmp36 (- 160))) (=> ?v_147 (= tmp35 0)) (=> ?v_149 (= tmp35 (- 160))) (=> ?v_123 (= tmp34 0)) (=> ?v_125 (= tmp34 (- 160))) (=> (and ?v_122 true) (= tmp33 0)) (=> (and x209 true) (= tmp33 (- 160))) (=> (and ?v_121 true) (= tmp32 0)) (=> (and x208 true) (= tmp32 (- 500))) (=> (and ?v_120 true) (= tmp31 0)) (=> (and x207 true) (= tmp31 (- 400))) (=> ?v_219 (= tmp30 0)) (=> ?v_221 (= tmp30 (- 400))) (=> (and ?v_218 true) (= tmp29 0)) (=> (and x205 true) (= tmp29 (- 400))) (=> (and ?v_217 true) (= tmp28 0)) (=> (and x204 true) (= tmp28 (- 400))) (=> (and ?v_216 true) (= tmp27 0)) (=> (and x203 true) (= tmp27 (- 350))) (=> (and ?v_215 true) (= tmp26 0)) (=> (and x202 true) (= tmp26 (- 350))) (=> (and ?v_214 true) (= tmp25 0)) (=> (and x201 true) (= tmp25 (- 350))) (=> ?v_363 (= tmp24 0)) (=> ?v_365 (= tmp24 (- 500))) (=> (and ?v_362 true) (= tmp23 0)) (=> (and x199 true) (= tmp23 (- 400))) (=> (and ?v_361 true) (= tmp22 0)) (=> (and x198 true) (= tmp22 (- 400))) (=> (and ?v_360 true) (= tmp21 0)) (=> (and x197 true) (= tmp21 (- 400))) (=> (and ?v_359 true) (= tmp20 0)) (=> (and x196 true) (= tmp20 (- 400))) (=> (and ?v_358 true) (= tmp19 0)) (=> (and x195 true) (= tmp19 (- 350))) (=> ?v_511 (= tmp18 0)) (=> ?v_513 (= tmp18 (- 350))) (=> (and ?v_510 true) (= tmp17 0)) (=> (and x193 true) (= tmp17 (- 350))) (=> (and ?v_509 true) (= tmp16 0)) (=> (and x192 true) (= tmp16 (- 240))) (=> (and ?v_508 true) (= tmp15 0)) (=> (and x191 true) (= tmp15 (- 240))) (=> (and ?v_507 true) (= tmp14 0)) (=> (and x190 true) (= tmp14 (- 240))) (=> (and ?v_506 true) (= tmp13 0)) (=> (and x189 true) (= tmp13 (- 240))) (=> ?v_661 (= tmp12 0)) (=> ?v_663 (= tmp12 (- 240))) (=> (and ?v_660 true) (= tmp11 0)) (=> (and x187 true) (= tmp11 (- 240))) (=> (and ?v_659 true) (= tmp10 0)) (=> (and x186 true) (= tmp10 (- 240))) (=> (and ?v_658 true) (= tmp9 0)) (=> (and x185 true) (= tmp9 (- 240))) (=> (and ?v_657 true) (= tmp8 0)) (=> (and x184 true) (= tmp8 (- 420))) (=> (and ?v_656 true) (= tmp7 0)) (=> (and x183 true) (= tmp7 (- 400))) (=> ?v_809 (= tmp6 0)) (=> ?v_811 (= tmp6 (- 400))) (=> (and ?v_808 true) (= tmp5 0)) (=> (and x181 true) (= tmp5 (- 400))) (=> (and ?v_807 true) (= tmp4 0)) (=> (and x180 true) (= tmp4 (- 400))) (=> (and ?v_806 true) (= tmp3 0)) (=> (and x179 true) (= tmp3 (- 350))) (=> (and ?v_805 true) (= tmp2 0)) (=> (and x178 true) (= tmp2 (- 350))) (=> (and ?v_804 true) (= tmp1 0)) (=> (and x177 true) (= tmp1 (- 350))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/arith/miplib3.cvc b/test/regress/regress0/arith/miplib3.cvc
deleted file mode 100644
index 9e1ae5a62..000000000
--- a/test/regress/regress0/arith/miplib3.cvc
+++ /dev/null
@@ -1,33 +0,0 @@
-% COMMAND-LINE: --enable-miplib-trick
-% EXPECT: sat
-
-tmp1, tmp2, tmp3, tmp4 : INT;
-x, y, z : BOOLEAN;
-
-% x = {0, 1}, (NOT x) = 1 - x
-% i*Nx + j*Ny + k = 0
-% i*x + j*Ny + k = 4
-% i*Nx + j*y + k = 6
-% i*x + j*y + k = 10
-
-ASSERT NOT x AND (NOT y AND TRUE) => tmp1 = 0;
-ASSERT     x AND (NOT y AND TRUE) => tmp1 = 4;
-ASSERT NOT x AND (    y AND TRUE) => tmp1 = 6;
-ASSERT     x AND (    y AND TRUE) => tmp1 = 10;
-
-ASSERT NOT x AND (NOT z AND TRUE) => tmp2 = 0;
-ASSERT     x AND (NOT z AND TRUE) => tmp2 = 2;
-ASSERT NOT x AND (    z AND TRUE) => tmp2 = 9;
-ASSERT     x AND (    z AND TRUE) => tmp2 = 11;
-
-ASSERT NOT y AND (NOT z AND TRUE) => tmp3 = 0;
-ASSERT     y AND (NOT z AND TRUE) => tmp3 = 5;
-ASSERT NOT y AND (    z AND TRUE) => tmp3 = 16;
-ASSERT     y AND (    z AND TRUE) => tmp3 = 21;
-
-ASSERT NOT x AND (NOT y AND TRUE) => tmp4 = 0;
-ASSERT     x AND (NOT y AND TRUE) => tmp4 = 4;
-ASSERT NOT x AND (    y AND TRUE) => tmp4 = 6;
-ASSERT     x AND (    y AND TRUE) => tmp4 = 10;
-
-CHECKSAT;
diff --git a/test/regress/regress0/arith/mod.02.smt2 b/test/regress/regress0/arith/mod.02.smt2
deleted file mode 100644
index ee4333ea5..000000000
--- a/test/regress/regress0/arith/mod.02.smt2
+++ /dev/null
@@ -1,10 +0,0 @@
-; EXPECT: unsat
-(set-logic QF_NIA)
-(set-info :smt-lib-version 2.0)
-(set-info :status unsat)
-(declare-fun n () Int)
-
-(assert (distinct n 0))
-(assert (> (mod n n) 0))
-
-(check-sat)
diff --git a/test/regress/regress0/arith/mod.03.smt2 b/test/regress/regress0/arith/mod.03.smt2
deleted file mode 100644
index 8a6ac51d7..000000000
--- a/test/regress/regress0/arith/mod.03.smt2
+++ /dev/null
@@ -1,11 +0,0 @@
-; EXPECT: sat
-(set-logic QF_NIA)
-(set-info :smt-lib-version 2.0)
-(set-info :status sat)
-(declare-fun n () Int)
-(declare-fun x () Int)
-
-(assert (< (mod x n) 0))
-(assert (< (div x n) 0))
-
-(check-sat)
diff --git a/test/regress/regress0/arith/mult.02.smt2 b/test/regress/regress0/arith/mult.02.smt2
deleted file mode 100644
index 57167fc76..000000000
--- a/test/regress/regress0/arith/mult.02.smt2
+++ /dev/null
@@ -1,13 +0,0 @@
-; EXPECT: (error "A non-linear fact was asserted to arithmetic in a linear logic.
-; EXPECT: The fact in question: (>= (* (- 1.0) (* n n)) (- 1.0))
-; EXPECT: ")
-; EXIT: 1
-(set-logic QF_LRA)
-(set-info :status unknown)
-(declare-fun n () Real)
-
-; This example is test that LRA rejects multiplication terms
-
-(assert (= (* n n) 1))
-
-(check-sat)
diff --git a/test/regress/regress0/arith/problem__003.smt2 b/test/regress/regress0/arith/problem__003.smt2
deleted file mode 100644
index 7af727e2a..000000000
--- a/test/regress/regress0/arith/problem__003.smt2
+++ /dev/null
@@ -1,21 +0,0 @@
-(set-logic QF_LIA)
-(set-info :source |
-Alberto Griggio
-
-|)
-(set-info :smt-lib-version 2.0)
-(set-info :category "random")
-(set-info :status sat)
-(declare-fun x0 () Int)
-(declare-fun x1 () Int)
-(declare-fun x2 () Int)
-(declare-fun x3 () Int)
-(declare-fun x4 () Int)
-(declare-fun x5 () Int)
-(declare-fun x6 () Int)
-(declare-fun x7 () Int)
-(declare-fun x8 () Int)
-(declare-fun x9 () Int)
-(assert (let ((?v_3 (* 36 x4)) (?v_0 (* 37 x7)) (?v_21 (* 3 x1)) (?v_7 (* 1 x1)) (?v_2 (* 23 x0)) (?v_4 (* 37 x1)) (?v_23 (* 15 x8)) (?v_11 (* 24 x1)) (?v_14 (* 30 x5)) (?v_17 (* 31 x6)) (?v_19 (* 28 x5)) (?v_5 (* 26 x5)) (?v_12 (* 13 x5)) (?v_20 (* 5 x6)) (?v_1 (* (- 38) x0)) (?v_18 (* (- 33) x4)) (?v_22 (* (- 38) x1)) (?v_16 (* (- 24) x6)) (?v_6 (* (- 13) x1)) (?v_9 (* (- 8) x4)) (?v_13 (* (- 11) x9)) (?v_10 (* (- 6) x0)) (?v_15 (* (- 37) x7)) (?v_8 (* (- 3) x4))) (and (<= (+ (* 25 x2) (* 12 x8) (* 12 x7) ?v_3 (* (- 5) x6) (* (- 25) x7) (* 22 x5) (* 7 x6) (* (- 19) x5) (* 22 x8)) (- 4)) (<= (+ (* 16 x1) (* 27 x2) (* 36 x6) (* 0 x8) (* 18 x4) (* (- 6) x1) (* 3 x9) (* (- 31) x9) (* 8 x0) ?v_0) (- 39)) (<= (+ (* 22 x1) (* 14 x3) (* (- 1) x2) (* (- 29) x9) (* 25 x8) (* 27 x4) (* (- 8) x3) (* (- 17) x4) ?v_1 (* 7 x7)) (- 25)) (<= (+ (* 16 x2) (* 2 x5) (* (- 34) x8) (* 3 x7) ?v_21 (* (- 17) x9) (* (- 32) x4) (* (- 7) x9) (* (- 9) x2) (* 16 x8)) (- 39)) (<= (+ ?v_7 (* (- 8) x5) (* 6 x4) ?v_18 (* (- 37) x0) (* 16 x6) (* (- 12) x0) (* 22 x3) (* (- 36) x3) (* 36 x0)) 6) (<= (+ (* 9 x3) (* (- 36) x4) (* (- 32) x8) (* (- 16) x1) ?v_0 ?v_2 (* (- 6) x5) (* (- 31) x6) (* (- 5) x8) (* (- 15) x3)) (- 15)) (<= (+ (* 1 x8) (* (- 7) x6) ?v_4 (* 20 x2) ?v_1 (* 0 x0) (* (- 37) x8) (* 13 x3) (* (- 23) x7) (* 37 x9)) (- 14)) (<= (+ (* 34 x5) (* 10 x6) (* (- 3) x5) (* (- 38) x9) ?v_22 (* 19 x6) (* (- 39) x7) ?v_16 (* 12 x1) (* (- 3) x7)) 35) (<= (+ (* 20 x4) (* (- 39) x9) (* 24 x3) ?v_23 (* (- 18) x3) ?v_11 (* (- 23) x4) ?v_14 (* 11 x2) (* (- 1) x5)) (- 13)) (<= (+ (* 30 x9) ?v_17 (* 14 x2) ?v_6 (* (- 16) x8) (* 29 x1) (* (- 3) x6) ?v_9 (* (- 10) x8) ?v_19) (- 39)) (<= (+ (* 8 x4) (* 37 x2) ?v_13 (* 23 x2) ?v_2 (* (- 4) x1) (* 10 x5) (* (- 36) x0) (* (- 15) x0) (* (- 22) x3)) (- 24)) (<= (+ (* 38 x2) (* 23 x3) (* 12 x2) ?v_10 ?v_3 (* 29 x6) (* 4 x0) ?v_5 ?v_15 (* (- 10) x9)) 16) (<= (+ (* 31 x4) (* (- 26) x0) (* (- 19) x9) (* (- 21) x4) ?v_4 ?v_8 ?v_5 ?v_12 (* (- 20) x4) (* (- 31) x2)) (- 12)) (<= (+ (* 38 x9) (* (- 28) x1) (* 29 x0) (* 5 x1) (* (- 38) x8) ?v_6 (* (- 8) x2) ?v_20 (* 22 x7) (* (- 24) x9)) 10) (<= (+ ?v_7 ?v_8 (* 35 x5) (* 16 x3) (* 6 x7) ?v_9 (* (- 2) x3) (* (- 38) x5) ?v_10 (* (- 7) x4)) (- 29)) (<= (+ (* 11 x3) (* 5 x4) (* (- 2) x4) (* 37 x6) ?v_11 (* 0 x9) (* 25 x1) (* (- 3) x9) (* (- 33) x9) (* 19 x9)) (- 37)) (<= (+ ?v_12 (* 7 x4) ?v_13 ?v_14 (* (- 31) x0) (* (- 12) x6) (* (- 35) x0) (* 36 x2) (* (- 25) x3) ?v_15) (- 33)) (<= (+ (* 10 x4) ?v_16 (* 26 x6) ?v_17 ?v_18 (* (- 32) x5) (* 32 x2) (* 34 x8) (* 19 x1) ?v_1) (- 9)) (<= (+ ?v_12 (* (- 9) x3) (* (- 37) x3) (* 34 x4) (* 0 x1) ?v_19 (* 30 x6) (* (- 18) x4) (* 21 x5) (* (- 21) x9)) (- 9)) (<= (+ ?v_20 (* (- 30) x6) ?v_21 (* 9 x8) ?v_13 (* (- 28) x5) (* (- 14) x3) ?v_22 (* 5 x8) ?v_23) 35))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/arrayinuf_error.smt2 b/test/regress/regress0/arrayinuf_error.smt2
deleted file mode 100644
index 1fedd95ac..000000000
--- a/test/regress/regress0/arrayinuf_error.smt2
+++ /dev/null
@@ -1,8 +0,0 @@
-; EXPECT: (error "Parse Error: arrayinuf_error.smt2:7.21: Symbol 'Array' not declared as a type
-; EXPECT: 
-; EXPECT:   (declare-fun a (Array Bool Bool))
-; EXPECT:                   ^
-; EXPECT: ")
-(set-logic QF_UF)
-(declare-fun a (Array Bool Bool))
-; EXIT: 1
diff --git a/test/regress/regress0/arrays/Makefile.am b/test/regress/regress0/arrays/Makefile.am
index 17cfa3fd4..bdc7352f5 100644
--- a/test/regress/regress0/arrays/Makefile.am
+++ b/test/regress/regress0/arrays/Makefile.am
@@ -44,11 +44,8 @@ TESTS =	\
 	bug272.minimized.smt \
 	constarr.smt2 \
 	constarr2.smt2 \
-	constarr3.smt2 \
 	constarr.cvc \
 	constarr2.cvc \
-	constarr3.cvc \
-	parsing_ringer.cvc \
 	bug637.delta.smt2 \
 	bool-array.smt2
 
diff --git a/test/regress/regress0/arrays/constarr3.cvc b/test/regress/regress0/arrays/constarr3.cvc
deleted file mode 100644
index bf5cf961c..000000000
--- a/test/regress/regress0/arrays/constarr3.cvc
+++ /dev/null
@@ -1,12 +0,0 @@
-% EXIT: 1
-% EXPECT: Array theory solver does not yet support write-chains connecting two different constant arrays
-% should be unsat
-all1, all2 : ARRAY INT OF INT;
-aa, bb : ARRAY INT OF INT;
-a, i : INT;
-ASSERT all1 = ARRAY(INT OF INT) : 1;
-ASSERT aa = all1 WITH [i] := 0;
-ASSERT all2 = ARRAY(INT OF INT) : 2;
-ASSERT bb = all2 WITH [i] := 0;
-ASSERT aa = bb;
-CHECKSAT;
diff --git a/test/regress/regress0/arrays/constarr3.smt2 b/test/regress/regress0/arrays/constarr3.smt2
deleted file mode 100644
index d514fff70..000000000
--- a/test/regress/regress0/arrays/constarr3.smt2
+++ /dev/null
@@ -1,16 +0,0 @@
-; EXIT: 1
-; EXPECT: (error "Array theory solver does not yet support write-chains connecting two different constant arrays")
-(set-logic QF_ALIA)
-(set-info :status unsat)
-(declare-const all1 (Array Int Int))
-(declare-const all2 (Array Int Int))
-(declare-const aa (Array Int Int))
-(declare-const bb (Array Int Int))
-(declare-const a Int)
-(declare-const i Int)
-(assert (= all1 ((as const (Array Int Int)) 1)))
-(assert (= aa (store all1 i 0)))
-(assert (= all2 ((as const (Array Int Int)) 2)))
-(assert (= bb (store all2 i 0)))
-(assert (= aa bb))
-(check-sat)
diff --git a/test/regress/regress0/arrays/parsing_ringer.cvc b/test/regress/regress0/arrays/parsing_ringer.cvc
deleted file mode 100644
index 2c2018ecd..000000000
--- a/test/regress/regress0/arrays/parsing_ringer.cvc
+++ /dev/null
@@ -1,94 +0,0 @@
-% Test for presentiation language parsing, some edge cases with cascading
-% store terms.  Intended to put this part of the parser "through the ringer,"
-% hence the name.
-
-% COMMAND-LINE: --incremental
-% EXPECT: sat
-% EXPECT: sat
-% EXPECT: sat
-% EXPECT: sat
-% EXPECT: sat
-% EXPECT: sat
-% EXPECT: sat
-% EXPECT: sat
-% EXPECT: unsat
-% EXPECT: unsat
-% EXPECT: sat
-
-PUSH;
-
-x, y : ARRAY INT OF ARRAY INT OF ARRAY INT OF INT;
-
-% multidimensional arrays
-ASSERT x[0][0][0] = 0; %% select
-ASSERT y = x WITH [0][0][1] := 1; %% partial store
-
-CHECKSAT;
-
-% mixed stores: records of arrays of tuples, oh my
-z : [# x:ARRAY INT OF [# x:INT #], y:[ARRAY INT OF INT, ARRAY INT OF INT] #];
-
-arr1 : ARRAY INT OF [# x:INT #];
-arr2 : [ ARRAY INT OF INT, ARRAY INT OF INT ];
-
-ASSERT arr1[0].x = 0;
-ASSERT arr2.0[0] = 1;
-ASSERT arr2.1[0] = 5;
-
-ASSERT z.y.1[1] /= 1;
-ASSERT (# x:=arr1, y:=arr2 #) = z;
-
-CHECKSAT;
-
-ASSERT z.x[0].x /= z.y.0[5];
-
-CHECKSAT;
-
-ASSERT z.y.0[1] = z.x[5].x;
-
-CHECKSAT;
-
-ASSERT z.y.0[5] = z.x[-2].x;
-
-CHECKSAT;
-
-POP;
-
-a : ARRAY INT OF ARRAY INT OF INT;
-b : ARRAY INT OF INT;
-
-% ambiguity in presentation language, comma needs to bind to innermost WITH
-% causes type error if the [2]:=2 at the end is attached to the wrong WITH
-ASSERT a = a WITH [0]:=b WITH [1]:=1,[2]:=2;
-
-CHECKSAT;
-
-RESET;
-
-% more mixed stores, this time with constant arrays
-z : [# x:ARRAY INT OF [# x:INT #], y:[ARRAY INT OF INT, ARRAY INT OF INT] #];
-
-ASSERT z.y.1[1] /= 1;
-ASSERT (# x:=ARRAY(INT OF [# x:INT #]):(# x:=0 #), y:=(ARRAY(INT OF INT):1, ARRAY(INT OF INT):5) #) = z;
-
-CHECKSAT;
-
-ASSERT z.x[0].x /= z.y.0[5];
-
-CHECKSAT;
-
-ASSERT z.y.0[1] = z.x[5].x;
-
-CHECKSAT;
-
-ASSERT z.y.0[5] = z.x[-2].x;
-
-CHECKSAT;
-
-RESET;
-
-a : ARRAY INT OF INT;
-
-ASSERT a = a WITH [0]:=0, [1]:=1;
-
-CHECKSAT;
diff --git a/test/regress/regress0/aufbv/Makefile.am b/test/regress/regress0/aufbv/Makefile.am
index e23368e3a..8fda89ad7 100644
--- a/test/regress/regress0/aufbv/Makefile.am
+++ b/test/regress/regress0/aufbv/Makefile.am
@@ -24,7 +24,6 @@ TESTS =	\
 	bug347.smt \
 	bug451.smt \
 	bug509.smt \
-	bug580.smt2 \
 	bug580.delta.smt2 \
 	try5_small_difret_functions_wp_su.set_char_quoting.il.wp.delta01.smt \
 	try3_sameret_functions_fse-bfs_tac.calc_next.il.fse-bfs.delta01.smt \
diff --git a/test/regress/regress0/aufbv/bug580.smt2 b/test/regress/regress0/aufbv/bug580.smt2
deleted file mode 100644
index 2f2074385..000000000
--- a/test/regress/regress0/aufbv/bug580.smt2
+++ /dev/null
@@ -1,116 +0,0 @@
-(set-info :source |fuzzsmt|)
-(set-info :smt-lib-version 2.0)
-(set-info :category "random")
-(set-info :status sat)
-(set-logic QF_AUFBV)
-(declare-fun v0 () (_ BitVec 3))
-(declare-fun a1 () (Array  (_ BitVec 3)  (_ BitVec 2)))
-(declare-fun a2 () (Array  (_ BitVec 8)  (_ BitVec 1)))
-(declare-fun a3 () (Array  (_ BitVec 5)  (_ BitVec 15)))
-(assert (let ((e4(_ bv230 8)))
-(let ((e5(_ bv53513 16)))
-(let ((e6 (bvurem ((_ zero_extend 8) e4) e5)))
-(let ((e7 (ite (bvult e5 ((_ zero_extend 13) v0)) (_ bv1 1) (_ bv0 1))))
-(let ((e8 (store a2 ((_ extract 10 3) e6) ((_ extract 0 0) v0))))
-(let ((e9 (store e8 ((_ zero_extend 5) v0) ((_ extract 13 13) e5))))
-(let ((e10 (store a1 ((_ extract 12 10) e6) ((_ extract 9 8) e6))))
-(let ((e11 (select a2 ((_ zero_extend 7) e7))))
-(let ((e12 (select e9 ((_ sign_extend 5) v0))))
-(let ((e13 (store a3 ((_ zero_extend 2) v0) ((_ extract 14 0) e5))))
-(let ((e14 (select e8 ((_ sign_extend 7) e7))))
-(let ((e15 (store e13 ((_ zero_extend 4) e14) ((_ zero_extend 12) v0))))
-(let ((e16 (ite (= e6 e5) (_ bv1 1) (_ bv0 1))))
-(let ((e17 ((_ sign_extend 15) e16)))
-(let ((e18 (ite (bvsle ((_ zero_extend 7) e16) e4) (_ bv1 1) (_ bv0 1))))
-(let ((e19 ((_ rotate_right 0) v0)))
-(let ((e20 (bvshl e12 e7)))
-(let ((e21 (bvnand e14 e14)))
-(let ((e22 (ite (bvugt e7 e18) (_ bv1 1) (_ bv0 1))))
-(let ((e23 ((_ extract 0 0) e11)))
-(let ((e24 (distinct ((_ zero_extend 2) e16) e19)))
-(let ((e25 (bvslt ((_ zero_extend 13) v0) e5)))
-(let ((e26 (bvule e19 ((_ zero_extend 2) e20))))
-(let ((e27 (bvult e17 ((_ zero_extend 15) e11))))
-(let ((e28 (bvult e11 e12)))
-(let ((e29 (= e19 ((_ zero_extend 2) e21))))
-(let ((e30 (bvslt e12 e7)))
-(let ((e31 (= e21 e7)))
-(let ((e32 (bvult e16 e14)))
-(let ((e33 (= ((_ sign_extend 7) e23) e4)))
-(let ((e34 (bvult ((_ sign_extend 15) e7) e6)))
-(let ((e35 (bvsge e14 e23)))
-(let ((e36 (bvsgt e17 ((_ zero_extend 15) e23))))
-(let ((e37 (bvult ((_ sign_extend 15) e12) e6)))
-(let ((e38 (bvslt e23 e12)))
-(let ((e39 (bvule e17 ((_ sign_extend 13) e19))))
-(let ((e40 (distinct ((_ sign_extend 5) e19) e4)))
-(let ((e41 (distinct ((_ sign_extend 15) e21) e6)))
-(let ((e42 (bvsle ((_ zero_extend 15) e16) e6)))
-(let ((e43 (bvsle e12 e23)))
-(let ((e44 (bvult e22 e20)))
-(let ((e45 (bvule e14 e20)))
-(let ((e46 (bvsge ((_ sign_extend 15) e23) e6)))
-(let ((e47 (bvugt e6 ((_ zero_extend 15) e20))))
-(let ((e48 (= e17 e17)))
-(let ((e49 (bvule ((_ zero_extend 15) e20) e6)))
-(let ((e50 (bvsle ((_ sign_extend 15) e11) e17)))
-(let ((e51 (distinct ((_ zero_extend 15) e20) e6)))
-(let ((e52 (bvsge e23 e7)))
-(let ((e53 (bvuge e17 e5)))
-(let ((e54 (distinct e12 e23)))
-(let ((e55 (bvugt ((_ sign_extend 2) e16) v0)))
-(let ((e56 (bvuge e5 e5)))
-(let ((e57 (distinct e17 ((_ zero_extend 15) e14))))
-(let ((e58 (distinct ((_ sign_extend 8) e4) e6)))
-(let ((e59 (bvugt ((_ sign_extend 15) e12) e6)))
-(let ((e60 (bvslt e14 e11)))
-(let ((e61 (bvult ((_ sign_extend 13) v0) e17)))
-(let ((e62 (bvslt e19 ((_ zero_extend 2) e20))))
-(let ((e63 (= v0 ((_ zero_extend 2) e11))))
-(let ((e64 (bvugt ((_ zero_extend 15) e18) e6)))
-(let ((e65 (=> e62 e60)))
-(let ((e66 (xor e27 e26)))
-(let ((e67 (xor e42 e31)))
-(let ((e68 (or e29 e50)))
-(let ((e69 (=> e24 e46)))
-(let ((e70 (not e54)))
-(let ((e71 (=> e58 e55)))
-(let ((e72 (and e63 e45)))
-(let ((e73 (and e37 e36)))
-(let ((e74 (ite e39 e70 e38)))
-(let ((e75 (and e64 e34)))
-(let ((e76 (or e65 e61)))
-(let ((e77 (=> e47 e66)))
-(let ((e78 (=> e56 e33)))
-(let ((e79 (and e74 e74)))
-(let ((e80 (=> e52 e67)))
-(let ((e81 (not e41)))
-(let ((e82 (ite e79 e69 e43)))
-(let ((e83 (and e48 e51)))
-(let ((e84 (=> e68 e32)))
-(let ((e85 (not e40)))
-(let ((e86 (ite e76 e75 e85)))
-(let ((e87 (xor e49 e44)))
-(let ((e88 (ite e35 e57 e59)))
-(let ((e89 (= e25 e87)))
-(let ((e90 (=> e82 e73)))
-(let ((e91 (=> e78 e72)))
-(let ((e92 (= e80 e89)))
-(let ((e93 (not e53)))
-(let ((e94 (= e84 e77)))
-(let ((e95 (and e91 e81)))
-(let ((e96 (xor e95 e88)))
-(let ((e97 (ite e93 e30 e83)))
-(let ((e98 (not e94)))
-(let ((e99 (= e98 e96)))
-(let ((e100 (and e97 e97)))
-(let ((e101 (not e71)))
-(let ((e102 (= e92 e99)))
-(let ((e103 (and e101 e86)))
-(let ((e104 (= e103 e90)))
-(let ((e105 (and e102 e100)))
-(let ((e106 (ite e104 e28 e105)))
-(let ((e107 (and e106 (not (= e5 (_ bv0 16))))))
-e107
-)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))
-(check-sat)
diff --git a/test/regress/regress0/auflia/bug337.smt2 b/test/regress/regress0/auflia/bug337.smt2
deleted file mode 100644
index b7a564a60..000000000
--- a/test/regress/regress0/auflia/bug337.smt2
+++ /dev/null
@@ -1,524 +0,0 @@
-(set-logic QF_AUFLIA)
-(set-info :source |
-Unbounded version of the queue lock algorithm.
-
-
-|)
-(set-info :smt-lib-version 2.0)
-(set-info :category "industrial")
-(set-info :status sat)
-(declare-fun x_0 () Int)
-(declare-fun x_1 () Int)
-(declare-fun x_2 () (Array Int Int))
-(declare-fun x_3 () Int)
-(declare-fun x_4 () Int)
-(declare-fun x_5 () Bool)
-(declare-fun x_6 () Int)
-(declare-fun x_7 () (Array Int Int))
-(declare-fun x_8 () Int)
-(declare-fun x_9 () (Array Int Int))
-(declare-fun x_10 () Int)
-(declare-fun x_11 () Bool)
-(declare-fun x_12 () Int)
-(declare-fun x_13 () Int)
-(declare-fun x_14 () Int)
-(declare-fun x_15 () Int)
-(declare-fun x_16 () Int)
-(declare-fun x_17 () (Array Int Int))
-(declare-fun x_18 () Int)
-(declare-fun x_19 () Int)
-(declare-fun x_20 () Int)
-(declare-fun x_21 () Int)
-(declare-fun x_22 () Int)
-(declare-fun x_23 () (Array Int Int))
-(declare-fun x_24 () Int)
-(declare-fun x_25 () Bool)
-(declare-fun x_26 () Int)
-(declare-fun x_27 () Int)
-(declare-fun x_28 () Int)
-(declare-fun x_29 () Int)
-(declare-fun x_30 () Int)
-(declare-fun x_31 () (Array Int Int))
-(declare-fun x_32 () Int)
-(declare-fun x_33 () Int)
-(declare-fun x_34 () Int)
-(declare-fun x_35 () Int)
-(declare-fun x_36 () Int)
-(declare-fun x_37 () (Array Int Int))
-(declare-fun x_38 () Int)
-(declare-fun x_39 () Bool)
-(declare-fun x_40 () Int)
-(declare-fun x_41 () Int)
-(declare-fun x_42 () Int)
-(declare-fun x_43 () Int)
-(declare-fun x_44 () Int)
-(declare-fun x_45 () (Array Int Int))
-(declare-fun x_46 () Int)
-(declare-fun x_47 () Int)
-(declare-fun x_48 () Int)
-(declare-fun x_49 () Int)
-(declare-fun x_50 () Int)
-(declare-fun x_51 () (Array Int Int))
-(declare-fun x_52 () Int)
-(declare-fun x_53 () Bool)
-(declare-fun x_54 () Int)
-(declare-fun x_55 () Int)
-(declare-fun x_56 () Int)
-(declare-fun x_57 () Int)
-(declare-fun x_58 () Int)
-(declare-fun x_59 () (Array Int Int))
-(declare-fun x_60 () Int)
-(declare-fun x_61 () Int)
-(declare-fun x_62 () Int)
-(declare-fun x_63 () Int)
-(declare-fun x_64 () Int)
-(declare-fun x_65 () (Array Int Int))
-(declare-fun x_66 () Int)
-(declare-fun x_67 () Bool)
-(declare-fun x_68 () Int)
-(declare-fun x_69 () Int)
-(declare-fun x_70 () Int)
-(declare-fun x_71 () Int)
-(declare-fun x_72 () Int)
-(declare-fun x_73 () (Array Int Int))
-(declare-fun x_74 () Int)
-(declare-fun x_75 () Int)
-(declare-fun x_76 () Int)
-(declare-fun x_77 () Int)
-(declare-fun x_78 () Int)
-(declare-fun x_79 () (Array Int Int))
-(declare-fun x_80 () Int)
-(declare-fun x_81 () Bool)
-(declare-fun x_82 () Int)
-(declare-fun x_83 () Int)
-(declare-fun x_84 () Int)
-(declare-fun x_85 () Int)
-(declare-fun x_86 () Int)
-(declare-fun x_87 () (Array Int Int))
-(declare-fun x_88 () Int)
-(declare-fun x_89 () Int)
-(declare-fun x_90 () Int)
-(declare-fun x_91 () Int)
-(declare-fun x_92 () Int)
-(declare-fun x_93 () (Array Int Int))
-(declare-fun x_94 () Int)
-(declare-fun x_95 () Bool)
-(declare-fun x_96 () Int)
-(declare-fun x_97 () Int)
-(declare-fun x_98 () Int)
-(declare-fun x_99 () Int)
-(declare-fun x_100 () Int)
-(declare-fun x_101 () (Array Int Int))
-(declare-fun x_102 () Int)
-(declare-fun x_103 () Int)
-(declare-fun x_104 () Int)
-(declare-fun x_105 () Int)
-(declare-fun x_106 () Int)
-(declare-fun x_107 () (Array Int Int))
-(declare-fun x_108 () Int)
-(declare-fun x_109 () Bool)
-(declare-fun x_110 () Int)
-(declare-fun x_111 () Int)
-(declare-fun x_112 () Int)
-(declare-fun x_113 () Int)
-(declare-fun x_114 () Int)
-(declare-fun x_115 () (Array Int Int))
-(declare-fun x_116 () Int)
-(declare-fun x_117 () Int)
-(declare-fun x_118 () Int)
-(declare-fun x_119 () Int)
-(declare-fun x_120 () Int)
-(declare-fun x_121 () (Array Int Int))
-(declare-fun x_122 () Int)
-(declare-fun x_123 () Bool)
-(declare-fun x_124 () Int)
-(declare-fun x_125 () Int)
-(declare-fun x_126 () Int)
-(declare-fun x_127 () Int)
-(declare-fun x_128 () Int)
-(declare-fun x_129 () (Array Int Int))
-(declare-fun x_130 () Int)
-(declare-fun x_131 () Int)
-(declare-fun x_132 () Int)
-(declare-fun x_133 () Int)
-(declare-fun x_134 () Int)
-(declare-fun x_135 () (Array Int Int))
-(declare-fun x_136 () Int)
-(declare-fun x_137 () Bool)
-(declare-fun x_138 () Int)
-(declare-fun x_139 () Int)
-(declare-fun x_140 () Int)
-(declare-fun x_141 () Int)
-(declare-fun x_142 () Int)
-(declare-fun x_143 () (Array Int Int))
-(declare-fun x_144 () Int)
-(declare-fun x_145 () Int)
-(declare-fun x_146 () Int)
-(declare-fun x_147 () Int)
-(declare-fun x_148 () Int)
-(declare-fun x_149 () (Array Int Int))
-(declare-fun x_150 () Int)
-(declare-fun x_151 () Bool)
-(declare-fun x_152 () Int)
-(declare-fun x_153 () Int)
-(declare-fun x_154 () Int)
-(declare-fun x_155 () Int)
-(declare-fun x_156 () Int)
-(declare-fun x_157 () (Array Int Int))
-(declare-fun x_158 () Int)
-(declare-fun x_159 () Int)
-(declare-fun x_160 () Int)
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?v_91) (= x_100 x_99)) (= x_439 1)) (= x_101 (store x_87 x_99 2))) (= x_93 (store x_79 x_82 x_99))) (and (and (and (and (and (and (and (and (and (= x_98 1) ?v_92) ?v_90) ?v_91) ?v_93) ?v_94) (= x_103 x_102)) (= x_440 2)) (= x_92 x_102)) (= x_101 (store x_87 x_102 3)))) (and (and (and (and (and (and (and (and (and (= x_98 2) ?v_92) (= x_94 (+ x_80 1))) ?v_91) ?v_93) ?v_94) (= x_105 x_104)) (= x_441 3)) (or (not (<= x_83 12)) (= x_92 x_104))) (= x_101 (store x_87 x_104 1)))) (and (and (and (and (and (= x_98 3) ?v_93) ?v_90) ?v_91) (= x_101 x_87)) ?v_94))) (= x_83 (+ x_69 1))) (= x_442 (select x_73 x_85))) (= x_443 (select x_73 x_88))) (= x_444 (select x_73 x_90))) (or (or (or (and (and (and (and (and (and (and (= x_84 0) (= x_82 (+ x_68 1))) ?v_95) ?v_96) (= x_86 x_85)) (= x_442 1)) (= x_87 (store x_73 x_85 2))) (= x_79 (store x_65 x_68 x_85))) (and (and (and (and (and (and (and (and (and (= x_84 1) ?v_97) ?v_95) ?v_96) ?v_98) ?v_99) (= x_89 x_88)) (= x_443 2)) (= x_78 x_88)) (= x_87 (store x_73 x_88 3)))) (and (and (and (and (and (and (and (and (and (= x_84 2) ?v_97) (= x_80 (+ x_66 1))) ?v_96) ?v_98) ?v_99) (= x_91 x_90)) (= x_444 3)) (or (not (<= x_69 12)) (= x_78 x_90))) (= x_87 (store x_73 x_90 1)))) (and (and (and (and (and (= x_84 3) ?v_98) ?v_95) ?v_96) (= x_87 x_73)) ?v_99))) (= x_69 (+ x_55 1))) (= x_445 (select x_59 x_71))) (= x_446 (select x_59 x_74))) (= x_447 (select x_59 x_76))) (or (or (or (and (and (and (and (and (and (and (= x_70 0) (= x_68 (+ x_54 1))) ?v_100) ?v_101) (= x_72 x_71)) (= x_445 1)) (= x_73 (store x_59 x_71 2))) (= x_65 (store x_51 x_54 x_71))) (and (and (and (and (and (and (and (and (and (= x_70 1) ?v_102) ?v_100) ?v_101) ?v_103) ?v_104) (= x_75 x_74)) (= x_446 2)) (= x_64 x_74)) (= x_73 (store x_59 x_74 3)))) (and (and (and (and (and (and (and (and (and (= x_70 2) ?v_102) (= x_66 (+ x_52 1))) ?v_101) ?v_103) ?v_104) (= x_77 x_76)) (= x_447 3)) (or (not (<= x_55 12)) (= x_64 x_76))) (= x_73 (store x_59 x_76 1)))) (and (and (and (and (and (= x_70 3) ?v_103) ?v_100) ?v_101) (= x_73 x_59)) ?v_104))) (= x_55 (+ x_41 1))) (= x_448 (select x_45 x_57))) (= x_449 (select x_45 x_60))) (= x_450 (select x_45 x_62))) (or (or (or (and (and (and (and (and (and (and (= x_56 0) (= x_54 (+ x_40 1))) ?v_105) ?v_106) (= x_58 x_57)) (= x_448 1)) (= x_59 (store x_45 x_57 2))) (= x_51 (store x_37 x_40 x_57))) (and (and (and (and (and (and (and (and (and (= x_56 1) ?v_107) ?v_105) ?v_106) ?v_108) ?v_109) (= x_61 x_60)) (= x_449 2)) (= x_50 x_60)) (= x_59 (store x_45 x_60 3)))) (and (and (and (and (and (and (and (and (and (= x_56 2) ?v_107) (= x_52 (+ x_38 1))) ?v_106) ?v_108) ?v_109) (= x_63 x_62)) (= x_450 3)) (or (not (<= x_41 12)) (= x_50 x_62))) (= x_59 (store x_45 x_62 1)))) (and (and (and (and (and (= x_56 3) ?v_108) ?v_105) ?v_106) (= x_59 x_45)) ?v_109))) (= x_41 (+ x_27 1))) (= x_451 (select x_31 x_43))) (= x_452 (select x_31 x_46))) (= x_453 (select x_31 x_48))) (or (or (or (and (and (and (and (and (and (and (= x_42 0) (= x_40 (+ x_26 1))) ?v_110) ?v_111) (= x_44 x_43)) (= x_451 1)) (= x_45 (store x_31 x_43 2))) (= x_37 (store x_23 x_26 x_43))) (and (and (and (and (and (and (and (and (and (= x_42 1) ?v_112) ?v_110) ?v_111) ?v_113) ?v_114) (= x_47 x_46)) (= x_452 2)) (= x_36 x_46)) (= x_45 (store x_31 x_46 3)))) (and (and (and (and (and (and (and (and (and (= x_42 2) ?v_112) (= x_38 (+ x_24 1))) ?v_111) ?v_113) ?v_114) (= x_49 x_48)) (= x_453 3)) (or (not (<= x_27 12)) (= x_36 x_48))) (= x_45 (store x_31 x_48 1)))) (and (and (and (and (and (= x_42 3) ?v_113) ?v_110) ?v_111) (= x_45 x_31)) ?v_114))) (= x_27 (+ x_13 1))) (= x_454 (select x_17 x_29))) (= x_455 (select x_17 x_32))) (= x_456 (select x_17 x_34))) (or (or (or (and (and (and (and (and (and (and (= x_28 0) (= x_26 (+ x_12 1))) ?v_115) ?v_116) (= x_30 x_29)) (= x_454 1)) (= x_31 (store x_17 x_29 2))) (= x_23 (store x_9 x_12 x_29))) (and (and (and (and (and (and (and (and (and (= x_28 1) ?v_117) ?v_115) ?v_116) ?v_118) ?v_119) (= x_33 x_32)) (= x_455 2)) (= x_22 x_32)) (= x_31 (store x_17 x_32 3)))) (and (and (and (and (and (and (and (and (and (= x_28 2) ?v_117) (= x_24 (+ x_10 1))) ?v_116) ?v_118) ?v_119) (= x_35 x_34)) (= x_456 3)) (or (not (<= x_13 12)) (= x_22 x_34))) (= x_31 (store x_17 x_34 1)))) (and (and (and (and (and (= x_28 3) ?v_118) ?v_115) ?v_116) (= x_31 x_17)) ?v_119))) (= x_13 (+ x_6 1))) (= x_457 (select x_2 x_15))) (= x_458 (select x_2 x_18))) (= x_459 (select x_2 x_20))) (or (or (or (and (and (and (and (and (and (and (= x_14 0) (= x_12 (+ x_1 1))) ?v_120) ?v_121) (= x_16 x_15)) (= x_457 1)) (= x_17 (store x_2 x_15 2))) (= x_9 (store x_7 x_1 x_15))) (and (and (and (and (and (and (and (and (and (= x_14 1) ?v_122) ?v_120) ?v_121) ?v_123) ?v_124) (= x_19 x_18)) (= x_458 2)) (= x_8 x_18)) (= x_17 (store x_2 x_18 3)))) (and (and (and (and (and (and (and (and (and (= x_14 2) ?v_122) (= x_10 (+ x_0 1))) ?v_121) ?v_123) ?v_124) (= x_21 x_20)) (= x_459 3)) (or (not (<= x_6 12)) (= x_8 x_20))) (= x_17 (store x_2 x_20 1)))) (and (and (and (and (and (= x_14 3) ?v_123) ?v_120) ?v_121) (= x_17 x_2)) ?v_124))) (= x_460 (select x_353 x_3))) (= x_461 (select x_353 x_4))) (= x_462 (select x_339 x_3))) (= x_463 (select x_339 x_4))) (= x_464 (select x_325 x_3))) (= x_465 (select x_325 x_4))) (= x_466 (select x_311 x_3))) (= x_467 (select x_311 x_4))) (= x_468 (select x_297 x_3))) (= x_469 (select x_297 x_4))) (= x_470 (select x_283 x_3))) (= x_471 (select x_283 x_4))) (= x_472 (select x_269 x_3))) (= x_473 (select x_269 x_4))) (= x_474 (select x_255 x_3))) (= x_475 (select x_255 x_4))) (= x_476 (select x_241 x_3))) (= x_477 (select x_241 x_4))) (= x_478 (select x_227 x_3))) (= x_479 (select x_227 x_4))) (= x_480 (select x_213 x_3))) (= x_481 (select x_213 x_4))) (= x_482 (select x_199 x_3))) (= x_483 (select x_199 x_4))) (= x_484 (select x_185 x_3))) (= x_485 (select x_185 x_4))) (= x_486 (select x_171 x_3))) (= x_487 (select x_171 x_4))) (= x_488 (select x_157 x_3))) (= x_489 (select x_157 x_4))) (= x_490 (select x_143 x_3))) (= x_491 (select x_143 x_4))) (= x_492 (select x_129 x_3))) (= x_493 (select x_129 x_4))) (= x_494 (select x_115 x_3))) (= x_495 (select x_115 x_4))) (= x_496 (select x_101 x_3))) (= x_497 (select x_101 x_4))) (= x_498 (select x_87 x_3))) (= x_499 (select x_87 x_4))) (= x_500 (select x_73 x_3))) (= x_501 (select x_73 x_4))) (= x_502 (select x_59 x_3))) (= x_503 (select x_59 x_4))) (= x_504 (select x_45 x_3))) (= x_505 (select x_45 x_4))) (= x_506 (select x_31 x_3))) (= x_507 (select x_31 x_4))) (= x_508 (select x_17 x_3))) (= x_509 (select x_17 x_4))) (= x_510 ?v_125)) (= x_511 ?v_126)) (or (or (or (or (or (or (or (or (or (or (or (or (or (or (or (or (or (or (or (or (or (or (or (or (or (and (= x_460 3) (= x_461 3)) (and (= x_462 3) (= x_463 3))) (and (= x_464 3) (= x_465 3))) (and (= x_466 3) (= x_467 3))) (and (= x_468 3) (= x_469 3))) (and (= x_470 3) (= x_471 3))) (and (= x_472 3) (= x_473 3))) (and (= x_474 3) (= x_475 3))) (and (= x_476 3) (= x_477 3))) (and (= x_478 3) (= x_479 3))) (and (= x_480 3) (= x_481 3))) (and (= x_482 3) (= x_483 3))) (and (= x_484 3) (= x_485 3))) (and (= x_486 3) (= x_487 3))) (and (= x_488 3) (= x_489 3))) (and (= x_490 3) (= x_491 3))) (and (= x_492 3) (= x_493 3))) (and (= x_494 3) (= x_495 3))) (and (= x_496 3) (= x_497 3))) (and (= x_498 3) (= x_499 3))) (and (= x_500 3) (= x_501 3))) (and (= x_502 3) (= x_503 3))) (and (= x_504 3) (= x_505 3))) (and (= x_506 3) (= x_507 3))) (and (= x_508 3) (= x_509 3))) (and (= x_510 3) (= x_511 3))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/boolean-terms-kernel2.smt2 b/test/regress/regress0/boolean-terms-kernel2.smt2
deleted file mode 100644
index a4e49dd90..000000000
--- a/test/regress/regress0/boolean-terms-kernel2.smt2
+++ /dev/null
@@ -1,19 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: unsat
-; EXPECT: sat
-(set-logic QF_ABV)
-(declare-fun b () Bool)
-(declare-fun c () Bool)
-(declare-fun a () (Array Bool (Array (_ BitVec 32) (_ BitVec 32))))
-(declare-fun v2 () (_ BitVec 32))
-(declare-fun r0 () (_ BitVec 32))
-(declare-fun r1 () (_ BitVec 32))
-(declare-fun l () (_ BitVec 32))
-(declare-fun i () (_ BitVec 32))
-(assert c)
-(push 1)
-(assert (not (=> false (not (= i (select (select a true) (bvsub (bvmul (bvsdiv v2 (_ bv2 32)) (bvadd (bvmul (_ bv2 32) l) (_ bv1 32))) (_ bv1 32))))))))
-(check-sat)
-(pop 1)
-(assert (not (=> (= i (select (select a true) (bvsub (bvmul (bvsdiv v2 (_ bv2 32)) (bvadd (bvmul (_ bv2 32) l) (_ bv1 32))) (_ bv1 32)))) (not (= r1 (ite b i r0))))))
-(check-sat)
diff --git a/test/regress/regress0/boolean.cvc b/test/regress/regress0/boolean.cvc
deleted file mode 100644
index eb0e7ab52..000000000
--- a/test/regress/regress0/boolean.cvc
+++ /dev/null
@@ -1,806 +0,0 @@
-% EXPECT: valid
-p : BOOLEAN;
-q : BOOLEAN;
-r : BOOLEAN;
-s : BOOLEAN;
-t : BOOLEAN;
-u : BOOLEAN;
-v : BOOLEAN;
-P1 : BOOLEAN;
-P2 : BOOLEAN;
-P3 : BOOLEAN;
-P4 : BOOLEAN;
-P6 : BOOLEAN;
-P5 : BOOLEAN;
-a41 : BOOLEAN = 
-        IF p THEN FALSE
-        ELSE TRUE
-        ENDIF;
-a42 : BOOLEAN = 
-        IF a41 THEN FALSE
-        ELSE TRUE
-        ENDIF;
-a45 : BOOLEAN = 
-        IF p THEN p
-        ELSE a41
-        ENDIF;
-a46 : BOOLEAN = 
-        IF q THEN FALSE
-        ELSE TRUE
-        ENDIF;
-a49 : BOOLEAN = 
-        IF s THEN t
-        ELSE FALSE
-        ENDIF;
-a58 : BOOLEAN = 
-        IF q THEN q
-        ELSE a46
-        ENDIF;
-a59 : BOOLEAN = 
-        IF r THEN FALSE
-        ELSE TRUE
-        ENDIF;
-a61 : BOOLEAN = 
-        IF s THEN FALSE
-        ELSE TRUE
-        ENDIF;
-a62 : BOOLEAN = 
-        IF s THEN s
-        ELSE a61
-        ENDIF;
-a65 : BOOLEAN = 
-        IF t THEN FALSE
-        ELSE TRUE
-        ENDIF;
-a67 : BOOLEAN = 
-        IF u THEN FALSE
-        ELSE TRUE
-        ENDIF;
-a73 : BOOLEAN = 
-        IF p THEN q
-        ELSE FALSE
-        ENDIF;
-a74 : BOOLEAN = 
-        IF q THEN p
-        ELSE FALSE
-        ENDIF;
-a77 : BOOLEAN = 
-        IF r THEN TRUE
-        ELSE s
-        ENDIF;
-a78 : BOOLEAN = 
-        IF s THEN TRUE
-        ELSE r
-        ENDIF;
-a81 : BOOLEAN = 
-        IF t THEN u
-        ELSE a67
-        ENDIF;
-a82 : BOOLEAN = 
-        IF u THEN t
-        ELSE a65
-        ENDIF;
-a88 : BOOLEAN = 
-        IF q THEN r
-        ELSE FALSE
-        ENDIF;
-a89 : BOOLEAN = 
-        IF p THEN a88
-        ELSE FALSE
-        ENDIF;
-a92 : BOOLEAN = 
-        IF s THEN TRUE
-        ELSE t
-        ENDIF;
-a94 : BOOLEAN = 
-        IF t THEN TRUE
-        ELSE u
-        ENDIF;
-a95 : BOOLEAN = 
-        IF s THEN TRUE
-        ELSE a94
-        ENDIF;
-a105 : BOOLEAN = 
-        IF t THEN u
-        ELSE FALSE
-        ENDIF;
-a111 : BOOLEAN = 
-        IF p THEN q
-        ELSE TRUE
-        ENDIF;
-a112 : BOOLEAN = 
-        IF q THEN r
-        ELSE TRUE
-        ENDIF;
-a114 : BOOLEAN = 
-        IF p THEN r
-        ELSE TRUE
-        ENDIF;
-a116 : BOOLEAN = 
-        IF s THEN t
-        ELSE a65
-        ENDIF;
-a121 : BOOLEAN = 
-        IF a46 THEN a41
-        ELSE TRUE
-        ENDIF;
-a126 : BOOLEAN = 
-        IF a59 THEN a61
-        ELSE 
-          IF a61 THEN FALSE
-          ELSE TRUE
-          ENDIF
-        ENDIF;
-a130 : BOOLEAN = 
-        IF q THEN TRUE
-        ELSE r
-        ENDIF;
-a132 : BOOLEAN = 
-        IF p THEN r
-        ELSE FALSE
-        ENDIF;
-a133 : BOOLEAN = 
-        IF a73 THEN TRUE
-        ELSE a132
-        ENDIF;
-a138 : BOOLEAN = 
-        IF a92 THEN 
-          IF s THEN TRUE
-          ELSE u
-          ENDIF
-        ELSE FALSE
-        ENDIF;
-a143 : BOOLEAN = 
-        IF a114 THEN a112
-        ELSE FALSE
-        ENDIF;
-a145 : BOOLEAN = 
-        IF 
-          IF 
-            IF p THEN TRUE
-            ELSE q
-            ENDIF THEN r
-          ELSE TRUE
-          ENDIF THEN a143
-        ELSE 
-          IF a143 THEN FALSE
-          ELSE TRUE
-          ENDIF
-        ENDIF;
-a147 : BOOLEAN = 
-        IF s THEN t
-        ELSE TRUE
-        ENDIF;
-a148 : BOOLEAN = 
-        IF s THEN u
-        ELSE TRUE
-        ENDIF;
-a149 : BOOLEAN = 
-        IF a147 THEN TRUE
-        ELSE a148
-        ENDIF;
-a153 : BOOLEAN = 
-        IF a73 THEN r
-        ELSE TRUE
-        ENDIF;
-a154 : BOOLEAN = 
-        IF a114 THEN TRUE
-        ELSE a112
-        ENDIF;
-a158 : BOOLEAN = 
-        IF a147 THEN a148
-        ELSE FALSE
-        ENDIF;
-a162 : BOOLEAN = 
-        IF p THEN a112
-        ELSE TRUE
-        ENDIF;
-a167 : BOOLEAN = 
-        IF a46 THEN TRUE
-        ELSE a59
-        ENDIF;
-a171 : BOOLEAN = 
-        IF a61 THEN a65
-        ELSE FALSE
-        ENDIF;
-a176 : BOOLEAN = 
-        IF p THEN q
-        ELSE r
-        ENDIF;
-a178 : BOOLEAN = 
-        IF p THEN a46
-        ELSE a59
-        ENDIF;
-a183 : BOOLEAN = 
-        IF s THEN a65
-        ELSE 
-          IF a65 THEN FALSE
-          ELSE TRUE
-          ENDIF
-        ENDIF;
-a187 : BOOLEAN = 
-        IF a41 THEN TRUE
-        ELSE q
-        ENDIF;
-a192 : BOOLEAN = 
-        IF 
-          IF r THEN s
-          ELSE FALSE
-          ENDIF THEN TRUE
-        ELSE 
-          IF a59 THEN t
-          ELSE FALSE
-          ENDIF
-        ENDIF;
-a197 : BOOLEAN = 
-        IF a111 THEN 
-          IF a41 THEN r
-          ELSE TRUE
-          ENDIF
-        ELSE FALSE
-        ENDIF;
-a200 : BOOLEAN = 
-        IF a49 THEN TRUE
-        ELSE a171
-        ENDIF;
-a204 : BOOLEAN = 
-        IF p THEN q
-        ELSE a46
-        ENDIF;
-a205 : BOOLEAN = 
-        IF q THEN p
-        ELSE TRUE
-        ENDIF;
-a206 : BOOLEAN = 
-        IF a111 THEN a205
-        ELSE FALSE
-        ENDIF;
-a210 : BOOLEAN = 
-        IF p THEN a46
-        ELSE TRUE
-        ENDIF;
-a214 : BOOLEAN = 
-        IF a73 THEN FALSE
-        ELSE TRUE
-        ENDIF;
-a221 : BOOLEAN = 
-        IF 
-          IF p THEN a46
-          ELSE FALSE
-          ENDIF THEN r
-        ELSE TRUE
-        ENDIF;
-a225 : BOOLEAN = 
-        IF a187 THEN a132
-        ELSE TRUE
-        ENDIF;
-a228 : BOOLEAN = 
-        IF q THEN r
-        ELSE a59
-        ENDIF;
-a231 : BOOLEAN = 
-        IF a204 THEN r
-        ELSE a59
-        ENDIF;
-a237 : BOOLEAN = 
-        IF q THEN a132
-        ELSE 
-          IF a41 THEN s
-          ELSE FALSE
-          ENDIF
-        ENDIF;
-a288 : BOOLEAN = 
-        IF 
-          IF 
-            IF p THEN a41
-            ELSE a42
-            ENDIF THEN FALSE
-          ELSE TRUE
-          ENDIF THEN 
-          IF 
-            IF a45 THEN 
-              IF 
-                IF q THEN TRUE
-                ELSE a46
-                ENDIF THEN 
-                IF 
-                  IF r THEN r
-                  ELSE TRUE
-                  ENDIF THEN 
-                  IF 
-                    IF a49 THEN s
-                    ELSE TRUE
-                    ENDIF THEN 
-                    IF u THEN 
-                      IF u THEN TRUE
-                      ELSE v
-                      ENDIF
-                    ELSE TRUE
-                    ENDIF
-                  ELSE FALSE
-                  ENDIF
-                ELSE FALSE
-                ENDIF
-              ELSE FALSE
-              ENDIF
-            ELSE FALSE
-            ENDIF THEN 
-            IF 
-              IF a58 THEN 
-                IF 
-                  IF r THEN r
-                  ELSE a59
-                  ENDIF THEN a62
-                ELSE FALSE
-                ENDIF
-              ELSE FALSE
-              ENDIF THEN 
-              IF 
-                IF a45 THEN 
-                  IF a62 THEN 
-                    IF 
-                      IF t THEN t
-                      ELSE a65
-                      ENDIF THEN 
-                      IF a67 THEN a67
-                      ELSE 
-                        IF a67 THEN FALSE
-                        ELSE TRUE
-                        ENDIF
-                      ENDIF
-                    ELSE FALSE
-                    ENDIF
-                  ELSE FALSE
-                  ENDIF
-                ELSE FALSE
-                ENDIF THEN 
-                IF 
-                  IF 
-                    IF a73 THEN a74
-                    ELSE 
-                      IF a74 THEN FALSE
-                      ELSE TRUE
-                      ENDIF
-                    ENDIF THEN 
-                    IF 
-                      IF a77 THEN a78
-                      ELSE 
-                        IF a78 THEN FALSE
-                        ELSE TRUE
-                        ENDIF
-                      ENDIF THEN 
-                      IF a81 THEN a82
-                      ELSE 
-                        IF a82 THEN FALSE
-                        ELSE TRUE
-                        ENDIF
-                      ENDIF
-                    ELSE FALSE
-                    ENDIF
-                  ELSE FALSE
-                  ENDIF THEN 
-                  IF 
-                    IF 
-                      IF 
-                        IF a73 THEN r
-                        ELSE FALSE
-                        ENDIF THEN a89
-                      ELSE 
-                        IF a89 THEN FALSE
-                        ELSE TRUE
-                        ENDIF
-                      ENDIF THEN 
-                      IF 
-                        IF a92 THEN TRUE
-                        ELSE u
-                        ENDIF THEN a95
-                      ELSE 
-                        IF a95 THEN FALSE
-                        ELSE TRUE
-                        ENDIF
-                      ENDIF
-                    ELSE FALSE
-                    ENDIF THEN 
-                    IF 
-                      IF 
-                        IF 
-                          IF p THEN p
-                          ELSE FALSE
-                          ENDIF THEN p
-                        ELSE a41
-                        ENDIF THEN 
-                        IF 
-                          IF 
-                            IF q THEN TRUE
-                            ELSE q
-                            ENDIF THEN q
-                          ELSE a46
-                          ENDIF THEN 
-                          IF 
-                            IF 
-                              IF r THEN a77
-                              ELSE FALSE
-                              ENDIF THEN r
-                            ELSE a59
-                            ENDIF THEN 
-                            IF 
-                              IF t THEN TRUE
-                              ELSE a105
-                              ENDIF THEN t
-                            ELSE a65
-                            ENDIF
-                          ELSE FALSE
-                          ENDIF
-                        ELSE FALSE
-                        ENDIF
-                      ELSE FALSE
-                      ENDIF THEN 
-                      IF a58 THEN 
-                        IF 
-                          IF 
-                            IF 
-                              IF a111 THEN a112
-                              ELSE FALSE
-                              ENDIF THEN a114
-                            ELSE TRUE
-                            ENDIF THEN 
-                            IF 
-                              IF a116 THEN a81
-                              ELSE FALSE
-                              ENDIF THEN 
-                              IF s THEN u
-                              ELSE a67
-                              ENDIF
-                            ELSE TRUE
-                            ENDIF
-                          ELSE FALSE
-                          ENDIF THEN 
-                          IF 
-                            IF 
-                              IF a111 THEN a121
-                              ELSE 
-                                IF a121 THEN FALSE
-                                ELSE TRUE
-                                ENDIF
-                              ENDIF THEN 
-                              IF 
-                                IF r THEN s
-                                ELSE a61
-                                ENDIF THEN a126
-                              ELSE 
-                                IF a126 THEN FALSE
-                                ELSE TRUE
-                                ENDIF
-                              ENDIF
-                            ELSE FALSE
-                            ENDIF THEN 
-                            IF 
-                              IF 
-                                IF 
-                                  IF p THEN a130
-                                  ELSE FALSE
-                                  ENDIF THEN a133
-                                ELSE 
-                                  IF a133 THEN FALSE
-                                  ELSE TRUE
-                                  ENDIF
-                                ENDIF THEN 
-                                IF 
-                                  IF s THEN TRUE
-                                  ELSE a105
-                                  ENDIF THEN a138
-                                ELSE 
-                                  IF a138 THEN FALSE
-                                  ELSE TRUE
-                                  ENDIF
-                                ENDIF
-                              ELSE FALSE
-                              ENDIF THEN 
-                              IF 
-                                IF a145 THEN 
-                                  IF 
-                                    IF s THEN a94
-                                    ELSE TRUE
-                                    ENDIF THEN a149
-                                  ELSE 
-                                    IF a149 THEN FALSE
-                                    ELSE TRUE
-                                    ENDIF
-                                  ENDIF
-                                ELSE FALSE
-                                ENDIF THEN 
-                                IF 
-                                  IF 
-                                    IF a153 THEN a154
-                                    ELSE 
-                                      IF a154 THEN FALSE
-                                      ELSE TRUE
-                                      ENDIF
-                                    ENDIF THEN 
-                                    IF 
-                                      IF s THEN a105
-                                      ELSE TRUE
-                                      ENDIF THEN a158
-                                    ELSE 
-                                      IF a158 THEN FALSE
-                                      ELSE TRUE
-                                      ENDIF
-                                    ENDIF
-                                  ELSE FALSE
-                                  ENDIF THEN 
-                                  IF 
-                                    IF a153 THEN a162
-                                    ELSE 
-                                      IF a162 THEN FALSE
-                                      ELSE TRUE
-                                      ENDIF
-                                    ENDIF THEN 
-                                    IF 
-                                      IF 
-                                        IF a42 THEN p
-                                        ELSE a41
-                                        ENDIF THEN 
-                                        IF 
-                                          IF 
-                                            IF a88 THEN FALSE
-                                            ELSE TRUE
-                                            ENDIF THEN a167
-                                          ELSE 
-                                            IF a167 THEN FALSE
-                                            ELSE TRUE
-                                            ENDIF
-                                          ENDIF THEN 
-                                          IF 
-                                            IF a92 THEN FALSE
-                                            ELSE TRUE
-                                            ENDIF THEN a171
-                                          ELSE 
-                                            IF a171 THEN FALSE
-                                            ELSE TRUE
-                                            ENDIF
-                                          ENDIF
-                                        ELSE FALSE
-                                        ENDIF
-                                      ELSE FALSE
-                                      ENDIF THEN 
-                                      IF 
-                                        IF 
-                                          IF 
-                                            IF a176 THEN FALSE
-                                            ELSE TRUE
-                                            ENDIF THEN a178
-                                          ELSE 
-                                            IF a178 THEN FALSE
-                                            ELSE TRUE
-                                            ENDIF
-                                          ENDIF THEN 
-                                          IF 
-                                            IF a116 THEN FALSE
-                                            ELSE TRUE
-                                            ENDIF THEN a183
-                                          ELSE 
-                                            IF a183 THEN FALSE
-                                            ELSE TRUE
-                                            ENDIF
-                                          ENDIF
-                                        ELSE FALSE
-                                        ENDIF THEN 
-                                        IF 
-                                          IF 
-                                            IF a111 THEN a187
-                                            ELSE 
-                                              IF a187 THEN FALSE
-                                              ELSE TRUE
-                                              ENDIF
-                                            ENDIF THEN 
-                                            IF 
-                                              IF r THEN s
-                                              ELSE t
-                                              ENDIF THEN a192
-                                            ELSE 
-                                              IF a192 THEN FALSE
-                                              ELSE TRUE
-                                              ENDIF
-                                            ENDIF
-                                          ELSE FALSE
-                                          ENDIF THEN 
-                                          IF 
-                                            IF 
-                                              IF a176 THEN a197
-                                              ELSE 
-                                                IF a197 THEN FALSE
-                                                ELSE TRUE
-                                                ENDIF
-                                              ENDIF THEN 
-                                              IF a116 THEN a200
-                                              ELSE 
-                                                IF a200 THEN FALSE
-                                                ELSE TRUE
-                                                ENDIF
-                                              ENDIF
-                                            ELSE FALSE
-                                            ENDIF THEN 
-                                            IF 
-                                              IF a204 THEN a206
-                                              ELSE 
-                                                IF a206 THEN FALSE
-                                                ELSE TRUE
-                                                ENDIF
-                                              ENDIF THEN 
-                                              IF 
-                                                IF a111 THEN TRUE
-                                                ELSE a205
-                                                ENDIF THEN 
-                                                IF 
-                                                  IF a46 THEN TRUE
-                                                  ELSE 
-                                                    IF 
-                                                      IF a210 THEN p
-                                                      ELSE FALSE
-                                                      ENDIF THEN FALSE
-                                                    ELSE TRUE
-                                                    ENDIF
-                                                  ENDIF THEN 
-                                                  IF 
-                                                    IF a210 THEN a214
-                                                    ELSE 
-                                                      IF a214 THEN FALSE
-                                                      ELSE TRUE
-                                                      ENDIF
-                                                    ENDIF THEN 
-                                                    IF a145 THEN 
-                                                      IF 
-                                                        IF a162 THEN a153
-                                                        ELSE 
-                                                          IF a153 THEN FALSE
-                                                          ELSE TRUE
-                                                          ENDIF
-                                                        ENDIF THEN 
-                                                        IF 
-                                                          IF 
-                                                            IF p THEN a130
-                                                            ELSE TRUE
-                                                            ENDIF THEN a221
-                                                          ELSE 
-                                                            IF a221 THEN FALSE
-                                                            ELSE TRUE
-                                                            ENDIF
-                                                          ENDIF THEN 
-                                                          IF 
-                                                            IF 
-                                                              IF p THEN a112
-                                                              ELSE FALSE
-                                                              ENDIF THEN a225
-                                                            ELSE 
-                                                              IF a225 THEN FALSE
-                                                              ELSE TRUE
-                                                              ENDIF
-                                                            ENDIF THEN 
-                                                            IF 
-                                                              IF 
-                                                                IF p THEN a228
-                                                                ELSE 
-                                                                  IF a228 THEN FALSE
-                                                                  ELSE TRUE
-                                                                  ENDIF
-                                                                ENDIF THEN a231
-                                                              ELSE 
-                                                                IF a231 THEN FALSE
-                                                                ELSE TRUE
-                                                                ENDIF
-                                                              ENDIF THEN 
-                                                              IF 
-                                                                IF 
-                                                                  IF p THEN a88
-                                                                  ELSE 
-                                                                    IF a46 THEN s
-                                                                    ELSE FALSE
-                                                                    ENDIF
-                                                                  ENDIF THEN a237
-                                                                ELSE 
-                                                                  IF a237 THEN FALSE
-                                                                  ELSE TRUE
-                                                                  ENDIF
-                                                                ENDIF THEN 
-                                                                IF 
-                                                                  IF 
-                                                                    IF P1 THEN 
-                                                                      IF P2 THEN TRUE
-                                                                      ELSE P3
-                                                                      ENDIF
-                                                                    ELSE 
-                                                                      IF P3 THEN TRUE
-                                                                      ELSE P4
-                                                                      ENDIF
-                                                                    ENDIF THEN 
-                                                                    IF 
-                                                                      IF P3 THEN 
-                                                                        IF P6 THEN FALSE
-                                                                        ELSE TRUE
-                                                                        ENDIF
-                                                                      ELSE 
-                                                                        IF P4 THEN P1
-                                                                        ELSE TRUE
-                                                                        ENDIF
-                                                                      ENDIF THEN 
-                                                                      IF 
-                                                                        IF 
-                                                                          IF P2 THEN P5
-                                                                          ELSE FALSE
-                                                                          ENDIF THEN FALSE
-                                                                        ELSE TRUE
-                                                                        ENDIF THEN 
-                                                                        IF P2 THEN P5
-                                                                        ELSE TRUE
-                                                                        ENDIF
-                                                                      ELSE FALSE
-                                                                      ENDIF
-                                                                    ELSE FALSE
-                                                                    ENDIF
-                                                                  ELSE FALSE
-                                                                  ENDIF THEN 
-                                                                  IF 
-                                                                    IF P3 THEN P6
-                                                                    ELSE TRUE
-                                                                    ENDIF THEN FALSE
-                                                                  ELSE TRUE
-                                                                  ENDIF
-                                                                ELSE TRUE
-                                                                ENDIF
-                                                              ELSE FALSE
-                                                              ENDIF
-                                                            ELSE FALSE
-                                                            ENDIF
-                                                          ELSE FALSE
-                                                          ENDIF
-                                                        ELSE FALSE
-                                                        ENDIF
-                                                      ELSE FALSE
-                                                      ENDIF
-                                                    ELSE FALSE
-                                                    ENDIF
-                                                  ELSE FALSE
-                                                  ENDIF
-                                                ELSE FALSE
-                                                ENDIF
-                                              ELSE FALSE
-                                              ENDIF
-                                            ELSE FALSE
-                                            ENDIF
-                                          ELSE FALSE
-                                          ENDIF
-                                        ELSE FALSE
-                                        ENDIF
-                                      ELSE FALSE
-                                      ENDIF
-                                    ELSE FALSE
-                                    ENDIF
-                                  ELSE FALSE
-                                  ENDIF
-                                ELSE FALSE
-                                ENDIF
-                              ELSE FALSE
-                              ENDIF
-                            ELSE FALSE
-                            ENDIF
-                          ELSE FALSE
-                          ENDIF
-                        ELSE FALSE
-                        ENDIF
-                      ELSE FALSE
-                      ENDIF
-                    ELSE FALSE
-                    ENDIF
-                  ELSE FALSE
-                  ENDIF
-                ELSE FALSE
-                ENDIF
-              ELSE FALSE
-              ENDIF
-            ELSE FALSE
-            ENDIF
-          ELSE FALSE
-          ENDIF
-        ELSE FALSE
-        ENDIF;
-QUERY a288;
diff --git a/test/regress/regress0/bug216.smt2 b/test/regress/regress0/bug216.smt2
deleted file mode 100644
index 78e0f716c..000000000
--- a/test/regress/regress0/bug216.smt2
+++ /dev/null
@@ -1,8 +0,0 @@
-(set-logic QF_UF)
-(declare-fun x () Bool)
-(declare-fun y () Bool)
-(assert (=> x y))
-(check-sat) ; returns sat
-(assert (=> y x))
-(assert (and x (not y)))
-(check-sat) ; returns sat --> ERROR
diff --git a/test/regress/regress0/bug216.smt2.expect b/test/regress/regress0/bug216.smt2.expect
deleted file mode 100644
index fe118171a..000000000
--- a/test/regress/regress0/bug216.smt2.expect
+++ /dev/null
@@ -1,3 +0,0 @@
-% COMMAND-LINE: --incremental
-% EXPECT: sat
-% EXPECT: unsat
diff --git a/test/regress/regress0/bug296.smt2 b/test/regress/regress0/bug296.smt2
deleted file mode 100644
index 3aea7e9c9..000000000
--- a/test/regress/regress0/bug296.smt2
+++ /dev/null
@@ -1,1698 +0,0 @@
-; COMMAND-LINE: --lang=smt2.5
-; EXPECT: unsat
-(set-logic QF_ALL)
-(set-info :status unsat)
-(declare-datatypes
-  () (
-    (MsgResult (MsgResult_MsgOK (destMsgResult_MsgOK Real))
-      (MsgResult_MsgAudit (destMsgResult_MsgAudit Real)))
-    (MsgTree (MsgTree_Leaf)
-      (MsgTree_Node (destMsgTree_Node MsgTree_Node_recd)))
-    (TreeResult (TreeResult_TreeOK (destTreeResult_TreeOK MsgTree))
-      (TreeResult_TreeAudit (destTreeResult_TreeAudit Real)))
-    (MsgTree_Node_recd
-      (MsgTree_Node_recd (MsgTree_Node_recd_Value Real)
-        (MsgTree_Node_recd_Left MsgTree)
-        (MsgTree_Node_recd_Right MsgTree)))))
-(declare-fun Guardfn (MsgTree) TreeResult)
-(declare-fun Input () MsgTree)
-(declare-fun M () Real)
-(declare-fun f (Real) MsgResult)
-(declare-fun n () MsgTree_Node_recd)
-(declare-fun ARB () Bool)
-(declare-fun Guard_Checkfn (MsgTree) Bool)
-(define-fun DWS_Idempotentfn ((M1 Real)) Bool
-  (ite (is-MsgResult_MsgOK (f M1))
-    (and (is-MsgResult_MsgOK (f (destMsgResult_MsgOK (f M1))))
-      (= (destMsgResult_MsgOK (f M1))
-        (destMsgResult_MsgOK (f (destMsgResult_MsgOK (f M1))))))
-    (or (is-MsgResult_MsgAudit (f M1)) ARB)))
-(assert
-  (and
-    (=>
-      (and (not (is-MsgTree_Leaf Input))
-        (and (is-MsgTree_Node Input)
-          (and
-            (not
-              (is-MsgResult_MsgAudit
-                (f
-                  (MsgTree_Node_recd_Value (destMsgTree_Node Input)))))
-            (and
-              (is-MsgResult_MsgOK
-                (f
-                  (MsgTree_Node_recd_Value (destMsgTree_Node Input))))
-              (and
-                (not
-                  (is-TreeResult_TreeAudit
-                    (Guardfn
-                      (MsgTree_Node_recd_Left
-                        (destMsgTree_Node Input)))))
-                (and
-                  (is-TreeResult_TreeOK
-                    (Guardfn
-                      (MsgTree_Node_recd_Left
-                        (destMsgTree_Node Input))))
-                  (is-TreeResult_TreeOK
-                    (Guardfn
-                      (MsgTree_Node_recd_Right
-                        (destMsgTree_Node Input))))))))))
-      (Guard_Checkfn
-        (destTreeResult_TreeOK
-          (Guardfn
-            (MsgTree_Node_recd_Right (destMsgTree_Node Input))))))
-    (and
-      (=>
-        (and (not (is-MsgTree_Leaf Input))
-          (and (is-MsgTree_Node Input)
-            (and
-              (not
-                (is-MsgResult_MsgAudit
-                  (f
-                    (MsgTree_Node_recd_Value
-                      (destMsgTree_Node Input)))))
-              (and
-                (is-MsgResult_MsgOK
-                  (f
-                    (MsgTree_Node_recd_Value
-                      (destMsgTree_Node Input))))
-                (is-TreeResult_TreeOK
-                  (Guardfn
-                    (MsgTree_Node_recd_Left (destMsgTree_Node Input))))))))
-        (Guard_Checkfn
-          (destTreeResult_TreeOK
-            (Guardfn
-              (MsgTree_Node_recd_Left (destMsgTree_Node Input))))))
-      (and
-        (DWS_Idempotentfn
-          (MsgTree_Node_recd_Value (destMsgTree_Node Input)))
-        (and
-          (is-TreeResult_TreeOK
-            (ite (is-MsgTree_Leaf Input)
-              (TreeResult_TreeOK MsgTree_Leaf)
-              (ite
-                (is-MsgResult_MsgAudit
-                  (f
-                    (MsgTree_Node_recd_Value
-                      (destMsgTree_Node Input))))
-                (TreeResult_TreeAudit
-                  (destMsgResult_MsgAudit
-                    (f
-                      (MsgTree_Node_recd_Value
-                        (destMsgTree_Node Input)))))
-                (ite
-                  (is-TreeResult_TreeAudit
-                    (Guardfn
-                      (MsgTree_Node_recd_Left
-                        (destMsgTree_Node Input))))
-                  (Guardfn
-                    (MsgTree_Node_recd_Left (destMsgTree_Node Input)))
-                  (ite
-                    (is-TreeResult_TreeAudit
-                      (Guardfn
-                        (MsgTree_Node_recd_Right
-                          (destMsgTree_Node Input))))
-                    (Guardfn
-                      (MsgTree_Node_recd_Right
-                        (destMsgTree_Node Input)))
-                    (TreeResult_TreeOK
-                      (MsgTree_Node
-                        (MsgTree_Node_recd
-                          (destMsgResult_MsgOK
-                            (f
-                              (MsgTree_Node_recd_Value
-                                (destMsgTree_Node Input))))
-                          (destTreeResult_TreeOK
-                            (Guardfn
-                              (MsgTree_Node_recd_Left
-                                (destMsgTree_Node Input))))
-                          (destTreeResult_TreeOK
-                            (Guardfn
-                              (MsgTree_Node_recd_Right
-                                (destMsgTree_Node Input))))))))))))
-          (not
-            (Guard_Checkfn
-              (destTreeResult_TreeOK
-                (ite (is-MsgTree_Leaf Input)
-                  (TreeResult_TreeOK MsgTree_Leaf)
-                  (ite
-                    (is-MsgResult_MsgAudit
-                      (f
-                        (MsgTree_Node_recd_Value
-                          (destMsgTree_Node Input))))
-                    (TreeResult_TreeAudit
-                      (destMsgResult_MsgAudit
-                        (f
-                          (MsgTree_Node_recd_Value
-                            (destMsgTree_Node Input)))))
-                    (ite
-                      (is-TreeResult_TreeAudit
-                        (Guardfn
-                          (MsgTree_Node_recd_Left
-                            (destMsgTree_Node Input))))
-                      (Guardfn
-                        (MsgTree_Node_recd_Left
-                          (destMsgTree_Node Input)))
-                      (ite
-                        (is-TreeResult_TreeAudit
-                          (Guardfn
-                            (MsgTree_Node_recd_Right
-                              (destMsgTree_Node Input))))
-                        (Guardfn
-                          (MsgTree_Node_recd_Right
-                            (destMsgTree_Node Input)))
-                        (TreeResult_TreeOK
-                          (MsgTree_Node
-                            (MsgTree_Node_recd
-                              (destMsgResult_MsgOK
-                                (f
-                                  (MsgTree_Node_recd_Value
-                                    (destMsgTree_Node Input))))
-                              (destTreeResult_TreeOK
-                                (Guardfn
-                                  (MsgTree_Node_recd_Left
-                                    (destMsgTree_Node Input))))
-                              (destTreeResult_TreeOK
-                                (Guardfn
-                                  (MsgTree_Node_recd_Right
-                                    (destMsgTree_Node Input)))))))))))))))))))
-(assert
-  (=
-    (Guard_Checkfn
-      (destTreeResult_TreeOK
-        (Guardfn (MsgTree_Node_recd_Right (destMsgTree_Node Input)))))
-    (ite
-      (is-MsgTree_Leaf
-        (destTreeResult_TreeOK
-          (Guardfn
-            (MsgTree_Node_recd_Right (destMsgTree_Node Input)))))
-      true
-      (and
-        (is-MsgResult_MsgOK
-          (f
-            (MsgTree_Node_recd_Value
-              (destMsgTree_Node
-                (destTreeResult_TreeOK
-                  (Guardfn
-                    (MsgTree_Node_recd_Right
-                      (destMsgTree_Node Input))))))))
-        (and
-          (=
-            (MsgTree_Node_recd_Value
-              (destMsgTree_Node
-                (destTreeResult_TreeOK
-                  (Guardfn
-                    (MsgTree_Node_recd_Right
-                      (destMsgTree_Node Input))))))
-            (destMsgResult_MsgOK
-              (f
-                (MsgTree_Node_recd_Value
-                  (destMsgTree_Node
-                    (destTreeResult_TreeOK
-                      (Guardfn
-                        (MsgTree_Node_recd_Right
-                          (destMsgTree_Node Input)))))))))
-          (and
-            (Guard_Checkfn
-              (MsgTree_Node_recd_Left
-                (destMsgTree_Node
-                  (destTreeResult_TreeOK
-                    (Guardfn
-                      (MsgTree_Node_recd_Right
-                        (destMsgTree_Node Input)))))))
-            (Guard_Checkfn
-              (MsgTree_Node_recd_Right
-                (destMsgTree_Node
-                  (destTreeResult_TreeOK
-                    (Guardfn
-                      (MsgTree_Node_recd_Right
-                        (destMsgTree_Node Input)))))))))))))
-(assert
-  (=
-    (Guard_Checkfn
-      (destTreeResult_TreeOK
-        (Guardfn (MsgTree_Node_recd_Left (destMsgTree_Node Input)))))
-    (ite
-      (is-MsgTree_Leaf
-        (destTreeResult_TreeOK
-          (Guardfn
-            (MsgTree_Node_recd_Left (destMsgTree_Node Input)))))
-      true
-      (and
-        (is-MsgResult_MsgOK
-          (f
-            (MsgTree_Node_recd_Value
-              (destMsgTree_Node
-                (destTreeResult_TreeOK
-                  (Guardfn
-                    (MsgTree_Node_recd_Left (destMsgTree_Node Input))))))))
-        (and
-          (=
-            (MsgTree_Node_recd_Value
-              (destMsgTree_Node
-                (destTreeResult_TreeOK
-                  (Guardfn
-                    (MsgTree_Node_recd_Left (destMsgTree_Node Input))))))
-            (destMsgResult_MsgOK
-              (f
-                (MsgTree_Node_recd_Value
-                  (destMsgTree_Node
-                    (destTreeResult_TreeOK
-                      (Guardfn
-                        (MsgTree_Node_recd_Left
-                          (destMsgTree_Node Input)))))))))
-          (and
-            (Guard_Checkfn
-              (MsgTree_Node_recd_Left
-                (destMsgTree_Node
-                  (destTreeResult_TreeOK
-                    (Guardfn
-                      (MsgTree_Node_recd_Left
-                        (destMsgTree_Node Input)))))))
-            (Guard_Checkfn
-              (MsgTree_Node_recd_Right
-                (destMsgTree_Node
-                  (destTreeResult_TreeOK
-                    (Guardfn
-                      (MsgTree_Node_recd_Left
-                        (destMsgTree_Node Input)))))))))))))
-(assert
-  (=
-    (Guard_Checkfn
-      (destTreeResult_TreeOK
-        (ite (is-MsgTree_Leaf Input)
-          (TreeResult_TreeOK MsgTree_Leaf)
-          (ite
-            (is-MsgResult_MsgAudit
-              (f (MsgTree_Node_recd_Value (destMsgTree_Node Input))))
-            (TreeResult_TreeAudit
-              (destMsgResult_MsgAudit
-                (f
-                  (MsgTree_Node_recd_Value (destMsgTree_Node Input)))))
-            (ite
-              (is-TreeResult_TreeAudit
-                (Guardfn
-                  (MsgTree_Node_recd_Left (destMsgTree_Node Input))))
-              (Guardfn
-                (MsgTree_Node_recd_Left (destMsgTree_Node Input)))
-              (ite
-                (is-TreeResult_TreeAudit
-                  (Guardfn
-                    (MsgTree_Node_recd_Right
-                      (destMsgTree_Node Input))))
-                (Guardfn
-                  (MsgTree_Node_recd_Right (destMsgTree_Node Input)))
-                (TreeResult_TreeOK
-                  (MsgTree_Node
-                    (MsgTree_Node_recd
-                      (destMsgResult_MsgOK
-                        (f
-                          (MsgTree_Node_recd_Value
-                            (destMsgTree_Node Input))))
-                      (destTreeResult_TreeOK
-                        (Guardfn
-                          (MsgTree_Node_recd_Left
-                            (destMsgTree_Node Input))))
-                      (destTreeResult_TreeOK
-                        (Guardfn
-                          (MsgTree_Node_recd_Right
-                            (destMsgTree_Node Input)))))))))))))
-    (ite
-      (is-MsgTree_Leaf
-        (destTreeResult_TreeOK
-          (ite (is-MsgTree_Leaf Input)
-            (TreeResult_TreeOK MsgTree_Leaf)
-            (ite
-              (is-MsgResult_MsgAudit
-                (f
-                  (MsgTree_Node_recd_Value (destMsgTree_Node Input))))
-              (TreeResult_TreeAudit
-                (destMsgResult_MsgAudit
-                  (f
-                    (MsgTree_Node_recd_Value
-                      (destMsgTree_Node Input)))))
-              (ite
-                (is-TreeResult_TreeAudit
-                  (Guardfn
-                    (MsgTree_Node_recd_Left (destMsgTree_Node Input))))
-                (Guardfn
-                  (MsgTree_Node_recd_Left (destMsgTree_Node Input)))
-                (ite
-                  (is-TreeResult_TreeAudit
-                    (Guardfn
-                      (MsgTree_Node_recd_Right
-                        (destMsgTree_Node Input))))
-                  (Guardfn
-                    (MsgTree_Node_recd_Right
-                      (destMsgTree_Node Input)))
-                  (TreeResult_TreeOK
-                    (MsgTree_Node
-                      (MsgTree_Node_recd
-                        (destMsgResult_MsgOK
-                          (f
-                            (MsgTree_Node_recd_Value
-                              (destMsgTree_Node Input))))
-                        (destTreeResult_TreeOK
-                          (Guardfn
-                            (MsgTree_Node_recd_Left
-                              (destMsgTree_Node Input))))
-                        (destTreeResult_TreeOK
-                          (Guardfn
-                            (MsgTree_Node_recd_Right
-                              (destMsgTree_Node Input)))))))))))))
-      true
-      (and
-        (is-MsgResult_MsgOK
-          (f
-            (MsgTree_Node_recd_Value
-              (destMsgTree_Node
-                (destTreeResult_TreeOK
-                  (ite (is-MsgTree_Leaf Input)
-                    (TreeResult_TreeOK MsgTree_Leaf)
-                    (ite
-                      (is-MsgResult_MsgAudit
-                        (f
-                          (MsgTree_Node_recd_Value
-                            (destMsgTree_Node Input))))
-                      (TreeResult_TreeAudit
-                        (destMsgResult_MsgAudit
-                          (f
-                            (MsgTree_Node_recd_Value
-                              (destMsgTree_Node Input)))))
-                      (ite
-                        (is-TreeResult_TreeAudit
-                          (Guardfn
-                            (MsgTree_Node_recd_Left
-                              (destMsgTree_Node Input))))
-                        (Guardfn
-                          (MsgTree_Node_recd_Left
-                            (destMsgTree_Node Input)))
-                        (ite
-                          (is-TreeResult_TreeAudit
-                            (Guardfn
-                              (MsgTree_Node_recd_Right
-                                (destMsgTree_Node Input))))
-                          (Guardfn
-                            (MsgTree_Node_recd_Right
-                              (destMsgTree_Node Input)))
-                          (TreeResult_TreeOK
-                            (MsgTree_Node
-                              (MsgTree_Node_recd
-                                (destMsgResult_MsgOK
-                                  (f
-                                    (MsgTree_Node_recd_Value
-                                      (destMsgTree_Node Input))))
-                                (destTreeResult_TreeOK
-                                  (Guardfn
-                                    (MsgTree_Node_recd_Left
-                                      (destMsgTree_Node Input))))
-                                (destTreeResult_TreeOK
-                                  (Guardfn
-                                    (MsgTree_Node_recd_Right
-                                      (destMsgTree_Node Input))))))))))))))))
-        (and
-          (=
-            (MsgTree_Node_recd_Value
-              (destMsgTree_Node
-                (destTreeResult_TreeOK
-                  (ite (is-MsgTree_Leaf Input)
-                    (TreeResult_TreeOK MsgTree_Leaf)
-                    (ite
-                      (is-MsgResult_MsgAudit
-                        (f
-                          (MsgTree_Node_recd_Value
-                            (destMsgTree_Node Input))))
-                      (TreeResult_TreeAudit
-                        (destMsgResult_MsgAudit
-                          (f
-                            (MsgTree_Node_recd_Value
-                              (destMsgTree_Node Input)))))
-                      (ite
-                        (is-TreeResult_TreeAudit
-                          (Guardfn
-                            (MsgTree_Node_recd_Left
-                              (destMsgTree_Node Input))))
-                        (Guardfn
-                          (MsgTree_Node_recd_Left
-                            (destMsgTree_Node Input)))
-                        (ite
-                          (is-TreeResult_TreeAudit
-                            (Guardfn
-                              (MsgTree_Node_recd_Right
-                                (destMsgTree_Node Input))))
-                          (Guardfn
-                            (MsgTree_Node_recd_Right
-                              (destMsgTree_Node Input)))
-                          (TreeResult_TreeOK
-                            (MsgTree_Node
-                              (MsgTree_Node_recd
-                                (destMsgResult_MsgOK
-                                  (f
-                                    (MsgTree_Node_recd_Value
-                                      (destMsgTree_Node Input))))
-                                (destTreeResult_TreeOK
-                                  (Guardfn
-                                    (MsgTree_Node_recd_Left
-                                      (destMsgTree_Node Input))))
-                                (destTreeResult_TreeOK
-                                  (Guardfn
-                                    (MsgTree_Node_recd_Right
-                                      (destMsgTree_Node Input))))))))))))))
-            (destMsgResult_MsgOK
-              (f
-                (MsgTree_Node_recd_Value
-                  (destMsgTree_Node
-                    (destTreeResult_TreeOK
-                      (ite (is-MsgTree_Leaf Input)
-                        (TreeResult_TreeOK MsgTree_Leaf)
-                        (ite
-                          (is-MsgResult_MsgAudit
-                            (f
-                              (MsgTree_Node_recd_Value
-                                (destMsgTree_Node Input))))
-                          (TreeResult_TreeAudit
-                            (destMsgResult_MsgAudit
-                              (f
-                                (MsgTree_Node_recd_Value
-                                  (destMsgTree_Node Input)))))
-                          (ite
-                            (is-TreeResult_TreeAudit
-                              (Guardfn
-                                (MsgTree_Node_recd_Left
-                                  (destMsgTree_Node Input))))
-                            (Guardfn
-                              (MsgTree_Node_recd_Left
-                                (destMsgTree_Node Input)))
-                            (ite
-                              (is-TreeResult_TreeAudit
-                                (Guardfn
-                                  (MsgTree_Node_recd_Right
-                                    (destMsgTree_Node Input))))
-                              (Guardfn
-                                (MsgTree_Node_recd_Right
-                                  (destMsgTree_Node Input)))
-                              (TreeResult_TreeOK
-                                (MsgTree_Node
-                                  (MsgTree_Node_recd
-                                    (destMsgResult_MsgOK
-                                      (f
-                                        (MsgTree_Node_recd_Value
-                                          (destMsgTree_Node Input))))
-                                    (destTreeResult_TreeOK
-                                      (Guardfn
-                                        (MsgTree_Node_recd_Left
-                                          (destMsgTree_Node Input))))
-                                    (destTreeResult_TreeOK
-                                      (Guardfn
-                                        (MsgTree_Node_recd_Right
-                                          (destMsgTree_Node Input)))))))))))))))))
-          (and
-            (Guard_Checkfn
-              (MsgTree_Node_recd_Left
-                (destMsgTree_Node
-                  (destTreeResult_TreeOK
-                    (ite (is-MsgTree_Leaf Input)
-                      (TreeResult_TreeOK MsgTree_Leaf)
-                      (ite
-                        (is-MsgResult_MsgAudit
-                          (f
-                            (MsgTree_Node_recd_Value
-                              (destMsgTree_Node Input))))
-                        (TreeResult_TreeAudit
-                          (destMsgResult_MsgAudit
-                            (f
-                              (MsgTree_Node_recd_Value
-                                (destMsgTree_Node Input)))))
-                        (ite
-                          (is-TreeResult_TreeAudit
-                            (Guardfn
-                              (MsgTree_Node_recd_Left
-                                (destMsgTree_Node Input))))
-                          (Guardfn
-                            (MsgTree_Node_recd_Left
-                              (destMsgTree_Node Input)))
-                          (ite
-                            (is-TreeResult_TreeAudit
-                              (Guardfn
-                                (MsgTree_Node_recd_Right
-                                  (destMsgTree_Node Input))))
-                            (Guardfn
-                              (MsgTree_Node_recd_Right
-                                (destMsgTree_Node Input)))
-                            (TreeResult_TreeOK
-                              (MsgTree_Node
-                                (MsgTree_Node_recd
-                                  (destMsgResult_MsgOK
-                                    (f
-                                      (MsgTree_Node_recd_Value
-                                        (destMsgTree_Node Input))))
-                                  (destTreeResult_TreeOK
-                                    (Guardfn
-                                      (MsgTree_Node_recd_Left
-                                        (destMsgTree_Node Input))))
-                                  (destTreeResult_TreeOK
-                                    (Guardfn
-                                      (MsgTree_Node_recd_Right
-                                        (destMsgTree_Node Input)))))))))))))))
-            (Guard_Checkfn
-              (MsgTree_Node_recd_Right
-                (destMsgTree_Node
-                  (destTreeResult_TreeOK
-                    (ite (is-MsgTree_Leaf Input)
-                      (TreeResult_TreeOK MsgTree_Leaf)
-                      (ite
-                        (is-MsgResult_MsgAudit
-                          (f
-                            (MsgTree_Node_recd_Value
-                              (destMsgTree_Node Input))))
-                        (TreeResult_TreeAudit
-                          (destMsgResult_MsgAudit
-                            (f
-                              (MsgTree_Node_recd_Value
-                                (destMsgTree_Node Input)))))
-                        (ite
-                          (is-TreeResult_TreeAudit
-                            (Guardfn
-                              (MsgTree_Node_recd_Left
-                                (destMsgTree_Node Input))))
-                          (Guardfn
-                            (MsgTree_Node_recd_Left
-                              (destMsgTree_Node Input)))
-                          (ite
-                            (is-TreeResult_TreeAudit
-                              (Guardfn
-                                (MsgTree_Node_recd_Right
-                                  (destMsgTree_Node Input))))
-                            (Guardfn
-                              (MsgTree_Node_recd_Right
-                                (destMsgTree_Node Input)))
-                            (TreeResult_TreeOK
-                              (MsgTree_Node
-                                (MsgTree_Node_recd
-                                  (destMsgResult_MsgOK
-                                    (f
-                                      (MsgTree_Node_recd_Value
-                                        (destMsgTree_Node Input))))
-                                  (destTreeResult_TreeOK
-                                    (Guardfn
-                                      (MsgTree_Node_recd_Left
-                                        (destMsgTree_Node Input))))
-                                  (destTreeResult_TreeOK
-                                    (Guardfn
-                                      (MsgTree_Node_recd_Right
-                                        (destMsgTree_Node Input)))))))))))))))))))))
-(assert
-  (=
-    (Guard_Checkfn
-      (MsgTree_Node_recd_Left
-        (destMsgTree_Node
-          (destTreeResult_TreeOK
-            (Guardfn
-              (MsgTree_Node_recd_Right (destMsgTree_Node Input)))))))
-    (ite
-      (is-MsgTree_Leaf
-        (MsgTree_Node_recd_Left
-          (destMsgTree_Node
-            (destTreeResult_TreeOK
-              (Guardfn
-                (MsgTree_Node_recd_Right (destMsgTree_Node Input)))))))
-      true
-      (and
-        (is-MsgResult_MsgOK
-          (f
-            (MsgTree_Node_recd_Value
-              (destMsgTree_Node
-                (MsgTree_Node_recd_Left
-                  (destMsgTree_Node
-                    (destTreeResult_TreeOK
-                      (Guardfn
-                        (MsgTree_Node_recd_Right
-                          (destMsgTree_Node Input))))))))))
-        (and
-          (=
-            (MsgTree_Node_recd_Value
-              (destMsgTree_Node
-                (MsgTree_Node_recd_Left
-                  (destMsgTree_Node
-                    (destTreeResult_TreeOK
-                      (Guardfn
-                        (MsgTree_Node_recd_Right
-                          (destMsgTree_Node Input))))))))
-            (destMsgResult_MsgOK
-              (f
-                (MsgTree_Node_recd_Value
-                  (destMsgTree_Node
-                    (MsgTree_Node_recd_Left
-                      (destMsgTree_Node
-                        (destTreeResult_TreeOK
-                          (Guardfn
-                            (MsgTree_Node_recd_Right
-                              (destMsgTree_Node Input)))))))))))
-          (and
-            (Guard_Checkfn
-              (MsgTree_Node_recd_Left
-                (destMsgTree_Node
-                  (MsgTree_Node_recd_Left
-                    (destMsgTree_Node
-                      (destTreeResult_TreeOK
-                        (Guardfn
-                          (MsgTree_Node_recd_Right
-                            (destMsgTree_Node Input)))))))))
-            (Guard_Checkfn
-              (MsgTree_Node_recd_Right
-                (destMsgTree_Node
-                  (MsgTree_Node_recd_Left
-                    (destMsgTree_Node
-                      (destTreeResult_TreeOK
-                        (Guardfn
-                          (MsgTree_Node_recd_Right
-                            (destMsgTree_Node Input)))))))))))))))
-(assert
-  (=
-    (Guard_Checkfn
-      (MsgTree_Node_recd_Right
-        (destMsgTree_Node
-          (destTreeResult_TreeOK
-            (Guardfn
-              (MsgTree_Node_recd_Right (destMsgTree_Node Input)))))))
-    (ite
-      (is-MsgTree_Leaf
-        (MsgTree_Node_recd_Right
-          (destMsgTree_Node
-            (destTreeResult_TreeOK
-              (Guardfn
-                (MsgTree_Node_recd_Right (destMsgTree_Node Input)))))))
-      true
-      (and
-        (is-MsgResult_MsgOK
-          (f
-            (MsgTree_Node_recd_Value
-              (destMsgTree_Node
-                (MsgTree_Node_recd_Right
-                  (destMsgTree_Node
-                    (destTreeResult_TreeOK
-                      (Guardfn
-                        (MsgTree_Node_recd_Right
-                          (destMsgTree_Node Input))))))))))
-        (and
-          (=
-            (MsgTree_Node_recd_Value
-              (destMsgTree_Node
-                (MsgTree_Node_recd_Right
-                  (destMsgTree_Node
-                    (destTreeResult_TreeOK
-                      (Guardfn
-                        (MsgTree_Node_recd_Right
-                          (destMsgTree_Node Input))))))))
-            (destMsgResult_MsgOK
-              (f
-                (MsgTree_Node_recd_Value
-                  (destMsgTree_Node
-                    (MsgTree_Node_recd_Right
-                      (destMsgTree_Node
-                        (destTreeResult_TreeOK
-                          (Guardfn
-                            (MsgTree_Node_recd_Right
-                              (destMsgTree_Node Input)))))))))))
-          (and
-            (Guard_Checkfn
-              (MsgTree_Node_recd_Left
-                (destMsgTree_Node
-                  (MsgTree_Node_recd_Right
-                    (destMsgTree_Node
-                      (destTreeResult_TreeOK
-                        (Guardfn
-                          (MsgTree_Node_recd_Right
-                            (destMsgTree_Node Input)))))))))
-            (Guard_Checkfn
-              (MsgTree_Node_recd_Right
-                (destMsgTree_Node
-                  (MsgTree_Node_recd_Right
-                    (destMsgTree_Node
-                      (destTreeResult_TreeOK
-                        (Guardfn
-                          (MsgTree_Node_recd_Right
-                            (destMsgTree_Node Input)))))))))))))))
-(assert
-  (=
-    (Guard_Checkfn
-      (MsgTree_Node_recd_Left
-        (destMsgTree_Node
-          (destTreeResult_TreeOK
-            (Guardfn
-              (MsgTree_Node_recd_Left (destMsgTree_Node Input)))))))
-    (ite
-      (is-MsgTree_Leaf
-        (MsgTree_Node_recd_Left
-          (destMsgTree_Node
-            (destTreeResult_TreeOK
-              (Guardfn
-                (MsgTree_Node_recd_Left (destMsgTree_Node Input)))))))
-      true
-      (and
-        (is-MsgResult_MsgOK
-          (f
-            (MsgTree_Node_recd_Value
-              (destMsgTree_Node
-                (MsgTree_Node_recd_Left
-                  (destMsgTree_Node
-                    (destTreeResult_TreeOK
-                      (Guardfn
-                        (MsgTree_Node_recd_Left
-                          (destMsgTree_Node Input))))))))))
-        (and
-          (=
-            (MsgTree_Node_recd_Value
-              (destMsgTree_Node
-                (MsgTree_Node_recd_Left
-                  (destMsgTree_Node
-                    (destTreeResult_TreeOK
-                      (Guardfn
-                        (MsgTree_Node_recd_Left
-                          (destMsgTree_Node Input))))))))
-            (destMsgResult_MsgOK
-              (f
-                (MsgTree_Node_recd_Value
-                  (destMsgTree_Node
-                    (MsgTree_Node_recd_Left
-                      (destMsgTree_Node
-                        (destTreeResult_TreeOK
-                          (Guardfn
-                            (MsgTree_Node_recd_Left
-                              (destMsgTree_Node Input)))))))))))
-          (and
-            (Guard_Checkfn
-              (MsgTree_Node_recd_Left
-                (destMsgTree_Node
-                  (MsgTree_Node_recd_Left
-                    (destMsgTree_Node
-                      (destTreeResult_TreeOK
-                        (Guardfn
-                          (MsgTree_Node_recd_Left
-                            (destMsgTree_Node Input)))))))))
-            (Guard_Checkfn
-              (MsgTree_Node_recd_Right
-                (destMsgTree_Node
-                  (MsgTree_Node_recd_Left
-                    (destMsgTree_Node
-                      (destTreeResult_TreeOK
-                        (Guardfn
-                          (MsgTree_Node_recd_Left
-                            (destMsgTree_Node Input)))))))))))))))
-(assert
-  (=
-    (Guard_Checkfn
-      (MsgTree_Node_recd_Right
-        (destMsgTree_Node
-          (destTreeResult_TreeOK
-            (Guardfn
-              (MsgTree_Node_recd_Left (destMsgTree_Node Input)))))))
-    (ite
-      (is-MsgTree_Leaf
-        (MsgTree_Node_recd_Right
-          (destMsgTree_Node
-            (destTreeResult_TreeOK
-              (Guardfn
-                (MsgTree_Node_recd_Left (destMsgTree_Node Input)))))))
-      true
-      (and
-        (is-MsgResult_MsgOK
-          (f
-            (MsgTree_Node_recd_Value
-              (destMsgTree_Node
-                (MsgTree_Node_recd_Right
-                  (destMsgTree_Node
-                    (destTreeResult_TreeOK
-                      (Guardfn
-                        (MsgTree_Node_recd_Left
-                          (destMsgTree_Node Input))))))))))
-        (and
-          (=
-            (MsgTree_Node_recd_Value
-              (destMsgTree_Node
-                (MsgTree_Node_recd_Right
-                  (destMsgTree_Node
-                    (destTreeResult_TreeOK
-                      (Guardfn
-                        (MsgTree_Node_recd_Left
-                          (destMsgTree_Node Input))))))))
-            (destMsgResult_MsgOK
-              (f
-                (MsgTree_Node_recd_Value
-                  (destMsgTree_Node
-                    (MsgTree_Node_recd_Right
-                      (destMsgTree_Node
-                        (destTreeResult_TreeOK
-                          (Guardfn
-                            (MsgTree_Node_recd_Left
-                              (destMsgTree_Node Input)))))))))))
-          (and
-            (Guard_Checkfn
-              (MsgTree_Node_recd_Left
-                (destMsgTree_Node
-                  (MsgTree_Node_recd_Right
-                    (destMsgTree_Node
-                      (destTreeResult_TreeOK
-                        (Guardfn
-                          (MsgTree_Node_recd_Left
-                            (destMsgTree_Node Input)))))))))
-            (Guard_Checkfn
-              (MsgTree_Node_recd_Right
-                (destMsgTree_Node
-                  (MsgTree_Node_recd_Right
-                    (destMsgTree_Node
-                      (destTreeResult_TreeOK
-                        (Guardfn
-                          (MsgTree_Node_recd_Left
-                            (destMsgTree_Node Input)))))))))))))))
-(assert
-  (=
-    (Guard_Checkfn
-      (MsgTree_Node_recd_Left
-        (destMsgTree_Node
-          (destTreeResult_TreeOK
-            (ite (is-MsgTree_Leaf Input)
-              (TreeResult_TreeOK MsgTree_Leaf)
-              (ite
-                (is-MsgResult_MsgAudit
-                  (f
-                    (MsgTree_Node_recd_Value
-                      (destMsgTree_Node Input))))
-                (TreeResult_TreeAudit
-                  (destMsgResult_MsgAudit
-                    (f
-                      (MsgTree_Node_recd_Value
-                        (destMsgTree_Node Input)))))
-                (ite
-                  (is-TreeResult_TreeAudit
-                    (Guardfn
-                      (MsgTree_Node_recd_Left
-                        (destMsgTree_Node Input))))
-                  (Guardfn
-                    (MsgTree_Node_recd_Left (destMsgTree_Node Input)))
-                  (ite
-                    (is-TreeResult_TreeAudit
-                      (Guardfn
-                        (MsgTree_Node_recd_Right
-                          (destMsgTree_Node Input))))
-                    (Guardfn
-                      (MsgTree_Node_recd_Right
-                        (destMsgTree_Node Input)))
-                    (TreeResult_TreeOK
-                      (MsgTree_Node
-                        (MsgTree_Node_recd
-                          (destMsgResult_MsgOK
-                            (f
-                              (MsgTree_Node_recd_Value
-                                (destMsgTree_Node Input))))
-                          (destTreeResult_TreeOK
-                            (Guardfn
-                              (MsgTree_Node_recd_Left
-                                (destMsgTree_Node Input))))
-                          (destTreeResult_TreeOK
-                            (Guardfn
-                              (MsgTree_Node_recd_Right
-                                (destMsgTree_Node Input)))))))))))))))
-    (ite
-      (is-MsgTree_Leaf
-        (MsgTree_Node_recd_Left
-          (destMsgTree_Node
-            (destTreeResult_TreeOK
-              (ite (is-MsgTree_Leaf Input)
-                (TreeResult_TreeOK MsgTree_Leaf)
-                (ite
-                  (is-MsgResult_MsgAudit
-                    (f
-                      (MsgTree_Node_recd_Value
-                        (destMsgTree_Node Input))))
-                  (TreeResult_TreeAudit
-                    (destMsgResult_MsgAudit
-                      (f
-                        (MsgTree_Node_recd_Value
-                          (destMsgTree_Node Input)))))
-                  (ite
-                    (is-TreeResult_TreeAudit
-                      (Guardfn
-                        (MsgTree_Node_recd_Left
-                          (destMsgTree_Node Input))))
-                    (Guardfn
-                      (MsgTree_Node_recd_Left
-                        (destMsgTree_Node Input)))
-                    (ite
-                      (is-TreeResult_TreeAudit
-                        (Guardfn
-                          (MsgTree_Node_recd_Right
-                            (destMsgTree_Node Input))))
-                      (Guardfn
-                        (MsgTree_Node_recd_Right
-                          (destMsgTree_Node Input)))
-                      (TreeResult_TreeOK
-                        (MsgTree_Node
-                          (MsgTree_Node_recd
-                            (destMsgResult_MsgOK
-                              (f
-                                (MsgTree_Node_recd_Value
-                                  (destMsgTree_Node Input))))
-                            (destTreeResult_TreeOK
-                              (Guardfn
-                                (MsgTree_Node_recd_Left
-                                  (destMsgTree_Node Input))))
-                            (destTreeResult_TreeOK
-                              (Guardfn
-                                (MsgTree_Node_recd_Right
-                                  (destMsgTree_Node Input)))))))))))))))
-      true
-      (and
-        (is-MsgResult_MsgOK
-          (f
-            (MsgTree_Node_recd_Value
-              (destMsgTree_Node
-                (MsgTree_Node_recd_Left
-                  (destMsgTree_Node
-                    (destTreeResult_TreeOK
-                      (ite (is-MsgTree_Leaf Input)
-                        (TreeResult_TreeOK MsgTree_Leaf)
-                        (ite
-                          (is-MsgResult_MsgAudit
-                            (f
-                              (MsgTree_Node_recd_Value
-                                (destMsgTree_Node Input))))
-                          (TreeResult_TreeAudit
-                            (destMsgResult_MsgAudit
-                              (f
-                                (MsgTree_Node_recd_Value
-                                  (destMsgTree_Node Input)))))
-                          (ite
-                            (is-TreeResult_TreeAudit
-                              (Guardfn
-                                (MsgTree_Node_recd_Left
-                                  (destMsgTree_Node Input))))
-                            (Guardfn
-                              (MsgTree_Node_recd_Left
-                                (destMsgTree_Node Input)))
-                            (ite
-                              (is-TreeResult_TreeAudit
-                                (Guardfn
-                                  (MsgTree_Node_recd_Right
-                                    (destMsgTree_Node Input))))
-                              (Guardfn
-                                (MsgTree_Node_recd_Right
-                                  (destMsgTree_Node Input)))
-                              (TreeResult_TreeOK
-                                (MsgTree_Node
-                                  (MsgTree_Node_recd
-                                    (destMsgResult_MsgOK
-                                      (f
-                                        (MsgTree_Node_recd_Value
-                                          (destMsgTree_Node Input))))
-                                    (destTreeResult_TreeOK
-                                      (Guardfn
-                                        (MsgTree_Node_recd_Left
-                                          (destMsgTree_Node Input))))
-                                    (destTreeResult_TreeOK
-                                      (Guardfn
-                                        (MsgTree_Node_recd_Right
-                                          (destMsgTree_Node Input))))))))))))))))))
-        (and
-          (=
-            (MsgTree_Node_recd_Value
-              (destMsgTree_Node
-                (MsgTree_Node_recd_Left
-                  (destMsgTree_Node
-                    (destTreeResult_TreeOK
-                      (ite (is-MsgTree_Leaf Input)
-                        (TreeResult_TreeOK MsgTree_Leaf)
-                        (ite
-                          (is-MsgResult_MsgAudit
-                            (f
-                              (MsgTree_Node_recd_Value
-                                (destMsgTree_Node Input))))
-                          (TreeResult_TreeAudit
-                            (destMsgResult_MsgAudit
-                              (f
-                                (MsgTree_Node_recd_Value
-                                  (destMsgTree_Node Input)))))
-                          (ite
-                            (is-TreeResult_TreeAudit
-                              (Guardfn
-                                (MsgTree_Node_recd_Left
-                                  (destMsgTree_Node Input))))
-                            (Guardfn
-                              (MsgTree_Node_recd_Left
-                                (destMsgTree_Node Input)))
-                            (ite
-                              (is-TreeResult_TreeAudit
-                                (Guardfn
-                                  (MsgTree_Node_recd_Right
-                                    (destMsgTree_Node Input))))
-                              (Guardfn
-                                (MsgTree_Node_recd_Right
-                                  (destMsgTree_Node Input)))
-                              (TreeResult_TreeOK
-                                (MsgTree_Node
-                                  (MsgTree_Node_recd
-                                    (destMsgResult_MsgOK
-                                      (f
-                                        (MsgTree_Node_recd_Value
-                                          (destMsgTree_Node Input))))
-                                    (destTreeResult_TreeOK
-                                      (Guardfn
-                                        (MsgTree_Node_recd_Left
-                                          (destMsgTree_Node Input))))
-                                    (destTreeResult_TreeOK
-                                      (Guardfn
-                                        (MsgTree_Node_recd_Right
-                                          (destMsgTree_Node Input))))))))))))))))
-            (destMsgResult_MsgOK
-              (f
-                (MsgTree_Node_recd_Value
-                  (destMsgTree_Node
-                    (MsgTree_Node_recd_Left
-                      (destMsgTree_Node
-                        (destTreeResult_TreeOK
-                          (ite (is-MsgTree_Leaf Input)
-                            (TreeResult_TreeOK MsgTree_Leaf)
-                            (ite
-                              (is-MsgResult_MsgAudit
-                                (f
-                                  (MsgTree_Node_recd_Value
-                                    (destMsgTree_Node Input))))
-                              (TreeResult_TreeAudit
-                                (destMsgResult_MsgAudit
-                                  (f
-                                    (MsgTree_Node_recd_Value
-                                      (destMsgTree_Node Input)))))
-                              (ite
-                                (is-TreeResult_TreeAudit
-                                  (Guardfn
-                                    (MsgTree_Node_recd_Left
-                                      (destMsgTree_Node Input))))
-                                (Guardfn
-                                  (MsgTree_Node_recd_Left
-                                    (destMsgTree_Node Input)))
-                                (ite
-                                  (is-TreeResult_TreeAudit
-                                    (Guardfn
-                                      (MsgTree_Node_recd_Right
-                                        (destMsgTree_Node Input))))
-                                  (Guardfn
-                                    (MsgTree_Node_recd_Right
-                                      (destMsgTree_Node Input)))
-                                  (TreeResult_TreeOK
-                                    (MsgTree_Node
-                                      (MsgTree_Node_recd
-                                        (destMsgResult_MsgOK
-                                          (f
-                                            (MsgTree_Node_recd_Value
-                                              (destMsgTree_Node Input))))
-                                        (destTreeResult_TreeOK
-                                          (Guardfn
-                                            (MsgTree_Node_recd_Left
-                                              (destMsgTree_Node Input))))
-                                        (destTreeResult_TreeOK
-                                          (Guardfn
-                                            (MsgTree_Node_recd_Right
-                                              (destMsgTree_Node Input)))))))))))))))))))
-          (and
-            (Guard_Checkfn
-              (MsgTree_Node_recd_Left
-                (destMsgTree_Node
-                  (MsgTree_Node_recd_Left
-                    (destMsgTree_Node
-                      (destTreeResult_TreeOK
-                        (ite (is-MsgTree_Leaf Input)
-                          (TreeResult_TreeOK MsgTree_Leaf)
-                          (ite
-                            (is-MsgResult_MsgAudit
-                              (f
-                                (MsgTree_Node_recd_Value
-                                  (destMsgTree_Node Input))))
-                            (TreeResult_TreeAudit
-                              (destMsgResult_MsgAudit
-                                (f
-                                  (MsgTree_Node_recd_Value
-                                    (destMsgTree_Node Input)))))
-                            (ite
-                              (is-TreeResult_TreeAudit
-                                (Guardfn
-                                  (MsgTree_Node_recd_Left
-                                    (destMsgTree_Node Input))))
-                              (Guardfn
-                                (MsgTree_Node_recd_Left
-                                  (destMsgTree_Node Input)))
-                              (ite
-                                (is-TreeResult_TreeAudit
-                                  (Guardfn
-                                    (MsgTree_Node_recd_Right
-                                      (destMsgTree_Node Input))))
-                                (Guardfn
-                                  (MsgTree_Node_recd_Right
-                                    (destMsgTree_Node Input)))
-                                (TreeResult_TreeOK
-                                  (MsgTree_Node
-                                    (MsgTree_Node_recd
-                                      (destMsgResult_MsgOK
-                                        (f
-                                          (MsgTree_Node_recd_Value
-                                            (destMsgTree_Node Input))))
-                                      (destTreeResult_TreeOK
-                                        (Guardfn
-                                          (MsgTree_Node_recd_Left
-                                            (destMsgTree_Node Input))))
-                                      (destTreeResult_TreeOK
-                                        (Guardfn
-                                          (MsgTree_Node_recd_Right
-                                            (destMsgTree_Node Input)))))))))))))))))
-            (Guard_Checkfn
-              (MsgTree_Node_recd_Right
-                (destMsgTree_Node
-                  (MsgTree_Node_recd_Left
-                    (destMsgTree_Node
-                      (destTreeResult_TreeOK
-                        (ite (is-MsgTree_Leaf Input)
-                          (TreeResult_TreeOK MsgTree_Leaf)
-                          (ite
-                            (is-MsgResult_MsgAudit
-                              (f
-                                (MsgTree_Node_recd_Value
-                                  (destMsgTree_Node Input))))
-                            (TreeResult_TreeAudit
-                              (destMsgResult_MsgAudit
-                                (f
-                                  (MsgTree_Node_recd_Value
-                                    (destMsgTree_Node Input)))))
-                            (ite
-                              (is-TreeResult_TreeAudit
-                                (Guardfn
-                                  (MsgTree_Node_recd_Left
-                                    (destMsgTree_Node Input))))
-                              (Guardfn
-                                (MsgTree_Node_recd_Left
-                                  (destMsgTree_Node Input)))
-                              (ite
-                                (is-TreeResult_TreeAudit
-                                  (Guardfn
-                                    (MsgTree_Node_recd_Right
-                                      (destMsgTree_Node Input))))
-                                (Guardfn
-                                  (MsgTree_Node_recd_Right
-                                    (destMsgTree_Node Input)))
-                                (TreeResult_TreeOK
-                                  (MsgTree_Node
-                                    (MsgTree_Node_recd
-                                      (destMsgResult_MsgOK
-                                        (f
-                                          (MsgTree_Node_recd_Value
-                                            (destMsgTree_Node Input))))
-                                      (destTreeResult_TreeOK
-                                        (Guardfn
-                                          (MsgTree_Node_recd_Left
-                                            (destMsgTree_Node Input))))
-                                      (destTreeResult_TreeOK
-                                        (Guardfn
-                                          (MsgTree_Node_recd_Right
-                                            (destMsgTree_Node Input)))))))))))))))))))))))
-(assert
-  (=
-    (Guard_Checkfn
-      (MsgTree_Node_recd_Right
-        (destMsgTree_Node
-          (destTreeResult_TreeOK
-            (ite (is-MsgTree_Leaf Input)
-              (TreeResult_TreeOK MsgTree_Leaf)
-              (ite
-                (is-MsgResult_MsgAudit
-                  (f
-                    (MsgTree_Node_recd_Value
-                      (destMsgTree_Node Input))))
-                (TreeResult_TreeAudit
-                  (destMsgResult_MsgAudit
-                    (f
-                      (MsgTree_Node_recd_Value
-                        (destMsgTree_Node Input)))))
-                (ite
-                  (is-TreeResult_TreeAudit
-                    (Guardfn
-                      (MsgTree_Node_recd_Left
-                        (destMsgTree_Node Input))))
-                  (Guardfn
-                    (MsgTree_Node_recd_Left (destMsgTree_Node Input)))
-                  (ite
-                    (is-TreeResult_TreeAudit
-                      (Guardfn
-                        (MsgTree_Node_recd_Right
-                          (destMsgTree_Node Input))))
-                    (Guardfn
-                      (MsgTree_Node_recd_Right
-                        (destMsgTree_Node Input)))
-                    (TreeResult_TreeOK
-                      (MsgTree_Node
-                        (MsgTree_Node_recd
-                          (destMsgResult_MsgOK
-                            (f
-                              (MsgTree_Node_recd_Value
-                                (destMsgTree_Node Input))))
-                          (destTreeResult_TreeOK
-                            (Guardfn
-                              (MsgTree_Node_recd_Left
-                                (destMsgTree_Node Input))))
-                          (destTreeResult_TreeOK
-                            (Guardfn
-                              (MsgTree_Node_recd_Right
-                                (destMsgTree_Node Input)))))))))))))))
-    (ite
-      (is-MsgTree_Leaf
-        (MsgTree_Node_recd_Right
-          (destMsgTree_Node
-            (destTreeResult_TreeOK
-              (ite (is-MsgTree_Leaf Input)
-                (TreeResult_TreeOK MsgTree_Leaf)
-                (ite
-                  (is-MsgResult_MsgAudit
-                    (f
-                      (MsgTree_Node_recd_Value
-                        (destMsgTree_Node Input))))
-                  (TreeResult_TreeAudit
-                    (destMsgResult_MsgAudit
-                      (f
-                        (MsgTree_Node_recd_Value
-                          (destMsgTree_Node Input)))))
-                  (ite
-                    (is-TreeResult_TreeAudit
-                      (Guardfn
-                        (MsgTree_Node_recd_Left
-                          (destMsgTree_Node Input))))
-                    (Guardfn
-                      (MsgTree_Node_recd_Left
-                        (destMsgTree_Node Input)))
-                    (ite
-                      (is-TreeResult_TreeAudit
-                        (Guardfn
-                          (MsgTree_Node_recd_Right
-                            (destMsgTree_Node Input))))
-                      (Guardfn
-                        (MsgTree_Node_recd_Right
-                          (destMsgTree_Node Input)))
-                      (TreeResult_TreeOK
-                        (MsgTree_Node
-                          (MsgTree_Node_recd
-                            (destMsgResult_MsgOK
-                              (f
-                                (MsgTree_Node_recd_Value
-                                  (destMsgTree_Node Input))))
-                            (destTreeResult_TreeOK
-                              (Guardfn
-                                (MsgTree_Node_recd_Left
-                                  (destMsgTree_Node Input))))
-                            (destTreeResult_TreeOK
-                              (Guardfn
-                                (MsgTree_Node_recd_Right
-                                  (destMsgTree_Node Input)))))))))))))))
-      true
-      (and
-        (is-MsgResult_MsgOK
-          (f
-            (MsgTree_Node_recd_Value
-              (destMsgTree_Node
-                (MsgTree_Node_recd_Right
-                  (destMsgTree_Node
-                    (destTreeResult_TreeOK
-                      (ite (is-MsgTree_Leaf Input)
-                        (TreeResult_TreeOK MsgTree_Leaf)
-                        (ite
-                          (is-MsgResult_MsgAudit
-                            (f
-                              (MsgTree_Node_recd_Value
-                                (destMsgTree_Node Input))))
-                          (TreeResult_TreeAudit
-                            (destMsgResult_MsgAudit
-                              (f
-                                (MsgTree_Node_recd_Value
-                                  (destMsgTree_Node Input)))))
-                          (ite
-                            (is-TreeResult_TreeAudit
-                              (Guardfn
-                                (MsgTree_Node_recd_Left
-                                  (destMsgTree_Node Input))))
-                            (Guardfn
-                              (MsgTree_Node_recd_Left
-                                (destMsgTree_Node Input)))
-                            (ite
-                              (is-TreeResult_TreeAudit
-                                (Guardfn
-                                  (MsgTree_Node_recd_Right
-                                    (destMsgTree_Node Input))))
-                              (Guardfn
-                                (MsgTree_Node_recd_Right
-                                  (destMsgTree_Node Input)))
-                              (TreeResult_TreeOK
-                                (MsgTree_Node
-                                  (MsgTree_Node_recd
-                                    (destMsgResult_MsgOK
-                                      (f
-                                        (MsgTree_Node_recd_Value
-                                          (destMsgTree_Node Input))))
-                                    (destTreeResult_TreeOK
-                                      (Guardfn
-                                        (MsgTree_Node_recd_Left
-                                          (destMsgTree_Node Input))))
-                                    (destTreeResult_TreeOK
-                                      (Guardfn
-                                        (MsgTree_Node_recd_Right
-                                          (destMsgTree_Node Input))))))))))))))))))
-        (and
-          (=
-            (MsgTree_Node_recd_Value
-              (destMsgTree_Node
-                (MsgTree_Node_recd_Right
-                  (destMsgTree_Node
-                    (destTreeResult_TreeOK
-                      (ite (is-MsgTree_Leaf Input)
-                        (TreeResult_TreeOK MsgTree_Leaf)
-                        (ite
-                          (is-MsgResult_MsgAudit
-                            (f
-                              (MsgTree_Node_recd_Value
-                                (destMsgTree_Node Input))))
-                          (TreeResult_TreeAudit
-                            (destMsgResult_MsgAudit
-                              (f
-                                (MsgTree_Node_recd_Value
-                                  (destMsgTree_Node Input)))))
-                          (ite
-                            (is-TreeResult_TreeAudit
-                              (Guardfn
-                                (MsgTree_Node_recd_Left
-                                  (destMsgTree_Node Input))))
-                            (Guardfn
-                              (MsgTree_Node_recd_Left
-                                (destMsgTree_Node Input)))
-                            (ite
-                              (is-TreeResult_TreeAudit
-                                (Guardfn
-                                  (MsgTree_Node_recd_Right
-                                    (destMsgTree_Node Input))))
-                              (Guardfn
-                                (MsgTree_Node_recd_Right
-                                  (destMsgTree_Node Input)))
-                              (TreeResult_TreeOK
-                                (MsgTree_Node
-                                  (MsgTree_Node_recd
-                                    (destMsgResult_MsgOK
-                                      (f
-                                        (MsgTree_Node_recd_Value
-                                          (destMsgTree_Node Input))))
-                                    (destTreeResult_TreeOK
-                                      (Guardfn
-                                        (MsgTree_Node_recd_Left
-                                          (destMsgTree_Node Input))))
-                                    (destTreeResult_TreeOK
-                                      (Guardfn
-                                        (MsgTree_Node_recd_Right
-                                          (destMsgTree_Node Input))))))))))))))))
-            (destMsgResult_MsgOK
-              (f
-                (MsgTree_Node_recd_Value
-                  (destMsgTree_Node
-                    (MsgTree_Node_recd_Right
-                      (destMsgTree_Node
-                        (destTreeResult_TreeOK
-                          (ite (is-MsgTree_Leaf Input)
-                            (TreeResult_TreeOK MsgTree_Leaf)
-                            (ite
-                              (is-MsgResult_MsgAudit
-                                (f
-                                  (MsgTree_Node_recd_Value
-                                    (destMsgTree_Node Input))))
-                              (TreeResult_TreeAudit
-                                (destMsgResult_MsgAudit
-                                  (f
-                                    (MsgTree_Node_recd_Value
-                                      (destMsgTree_Node Input)))))
-                              (ite
-                                (is-TreeResult_TreeAudit
-                                  (Guardfn
-                                    (MsgTree_Node_recd_Left
-                                      (destMsgTree_Node Input))))
-                                (Guardfn
-                                  (MsgTree_Node_recd_Left
-                                    (destMsgTree_Node Input)))
-                                (ite
-                                  (is-TreeResult_TreeAudit
-                                    (Guardfn
-                                      (MsgTree_Node_recd_Right
-                                        (destMsgTree_Node Input))))
-                                  (Guardfn
-                                    (MsgTree_Node_recd_Right
-                                      (destMsgTree_Node Input)))
-                                  (TreeResult_TreeOK
-                                    (MsgTree_Node
-                                      (MsgTree_Node_recd
-                                        (destMsgResult_MsgOK
-                                          (f
-                                            (MsgTree_Node_recd_Value
-                                              (destMsgTree_Node Input))))
-                                        (destTreeResult_TreeOK
-                                          (Guardfn
-                                            (MsgTree_Node_recd_Left
-                                              (destMsgTree_Node Input))))
-                                        (destTreeResult_TreeOK
-                                          (Guardfn
-                                            (MsgTree_Node_recd_Right
-                                              (destMsgTree_Node Input)))))))))))))))))))
-          (and
-            (Guard_Checkfn
-              (MsgTree_Node_recd_Left
-                (destMsgTree_Node
-                  (MsgTree_Node_recd_Right
-                    (destMsgTree_Node
-                      (destTreeResult_TreeOK
-                        (ite (is-MsgTree_Leaf Input)
-                          (TreeResult_TreeOK MsgTree_Leaf)
-                          (ite
-                            (is-MsgResult_MsgAudit
-                              (f
-                                (MsgTree_Node_recd_Value
-                                  (destMsgTree_Node Input))))
-                            (TreeResult_TreeAudit
-                              (destMsgResult_MsgAudit
-                                (f
-                                  (MsgTree_Node_recd_Value
-                                    (destMsgTree_Node Input)))))
-                            (ite
-                              (is-TreeResult_TreeAudit
-                                (Guardfn
-                                  (MsgTree_Node_recd_Left
-                                    (destMsgTree_Node Input))))
-                              (Guardfn
-                                (MsgTree_Node_recd_Left
-                                  (destMsgTree_Node Input)))
-                              (ite
-                                (is-TreeResult_TreeAudit
-                                  (Guardfn
-                                    (MsgTree_Node_recd_Right
-                                      (destMsgTree_Node Input))))
-                                (Guardfn
-                                  (MsgTree_Node_recd_Right
-                                    (destMsgTree_Node Input)))
-                                (TreeResult_TreeOK
-                                  (MsgTree_Node
-                                    (MsgTree_Node_recd
-                                      (destMsgResult_MsgOK
-                                        (f
-                                          (MsgTree_Node_recd_Value
-                                            (destMsgTree_Node Input))))
-                                      (destTreeResult_TreeOK
-                                        (Guardfn
-                                          (MsgTree_Node_recd_Left
-                                            (destMsgTree_Node Input))))
-                                      (destTreeResult_TreeOK
-                                        (Guardfn
-                                          (MsgTree_Node_recd_Right
-                                            (destMsgTree_Node Input)))))))))))))))))
-            (Guard_Checkfn
-              (MsgTree_Node_recd_Right
-                (destMsgTree_Node
-                  (MsgTree_Node_recd_Right
-                    (destMsgTree_Node
-                      (destTreeResult_TreeOK
-                        (ite (is-MsgTree_Leaf Input)
-                          (TreeResult_TreeOK MsgTree_Leaf)
-                          (ite
-                            (is-MsgResult_MsgAudit
-                              (f
-                                (MsgTree_Node_recd_Value
-                                  (destMsgTree_Node Input))))
-                            (TreeResult_TreeAudit
-                              (destMsgResult_MsgAudit
-                                (f
-                                  (MsgTree_Node_recd_Value
-                                    (destMsgTree_Node Input)))))
-                            (ite
-                              (is-TreeResult_TreeAudit
-                                (Guardfn
-                                  (MsgTree_Node_recd_Left
-                                    (destMsgTree_Node Input))))
-                              (Guardfn
-                                (MsgTree_Node_recd_Left
-                                  (destMsgTree_Node Input)))
-                              (ite
-                                (is-TreeResult_TreeAudit
-                                  (Guardfn
-                                    (MsgTree_Node_recd_Right
-                                      (destMsgTree_Node Input))))
-                                (Guardfn
-                                  (MsgTree_Node_recd_Right
-                                    (destMsgTree_Node Input)))
-                                (TreeResult_TreeOK
-                                  (MsgTree_Node
-                                    (MsgTree_Node_recd
-                                      (destMsgResult_MsgOK
-                                        (f
-                                          (MsgTree_Node_recd_Value
-                                            (destMsgTree_Node Input))))
-                                      (destTreeResult_TreeOK
-                                        (Guardfn
-                                          (MsgTree_Node_recd_Left
-                                            (destMsgTree_Node Input))))
-                                      (destTreeResult_TreeOK
-                                        (Guardfn
-                                          (MsgTree_Node_recd_Right
-                                            (destMsgTree_Node Input)))))))))))))))))))))))
-(assert
-  (not
-    (not
-      (is-MsgTree_Leaf
-        (MsgTree_Node_recd_Left
-          (destMsgTree_Node
-            (destTreeResult_TreeOK
-              (Guardfn
-                (MsgTree_Node_recd_Right (destMsgTree_Node Input))))))))))
-(assert
-  (not
-    (not
-      (is-MsgTree_Leaf
-        (MsgTree_Node_recd_Right
-          (destMsgTree_Node
-            (destTreeResult_TreeOK
-              (Guardfn
-                (MsgTree_Node_recd_Right (destMsgTree_Node Input))))))))))
-(assert
-  (not
-    (not
-      (is-MsgTree_Leaf
-        (MsgTree_Node_recd_Left
-          (destMsgTree_Node
-            (destTreeResult_TreeOK
-              (Guardfn
-                (MsgTree_Node_recd_Left (destMsgTree_Node Input))))))))))
-(assert
-  (not
-    (not
-      (is-MsgTree_Leaf
-        (MsgTree_Node_recd_Right
-          (destMsgTree_Node
-            (destTreeResult_TreeOK
-              (Guardfn
-                (MsgTree_Node_recd_Left (destMsgTree_Node Input))))))))))
-(assert
-  (not
-    (not
-      (is-MsgTree_Leaf
-        (MsgTree_Node_recd_Left
-          (destMsgTree_Node
-            (destTreeResult_TreeOK
-              (ite (is-MsgTree_Leaf Input)
-                (TreeResult_TreeOK MsgTree_Leaf)
-                (ite
-                  (is-MsgResult_MsgAudit
-                    (f
-                      (MsgTree_Node_recd_Value
-                        (destMsgTree_Node Input))))
-                  (TreeResult_TreeAudit
-                    (destMsgResult_MsgAudit
-                      (f
-                        (MsgTree_Node_recd_Value
-                          (destMsgTree_Node Input)))))
-                  (ite
-                    (is-TreeResult_TreeAudit
-                      (Guardfn
-                        (MsgTree_Node_recd_Left
-                          (destMsgTree_Node Input))))
-                    (Guardfn
-                      (MsgTree_Node_recd_Left
-                        (destMsgTree_Node Input)))
-                    (ite
-                      (is-TreeResult_TreeAudit
-                        (Guardfn
-                          (MsgTree_Node_recd_Right
-                            (destMsgTree_Node Input))))
-                      (Guardfn
-                        (MsgTree_Node_recd_Right
-                          (destMsgTree_Node Input)))
-                      (TreeResult_TreeOK
-                        (MsgTree_Node
-                          (MsgTree_Node_recd
-                            (destMsgResult_MsgOK
-                              (f
-                                (MsgTree_Node_recd_Value
-                                  (destMsgTree_Node Input))))
-                            (destTreeResult_TreeOK
-                              (Guardfn
-                                (MsgTree_Node_recd_Left
-                                  (destMsgTree_Node Input))))
-                            (destTreeResult_TreeOK
-                              (Guardfn
-                                (MsgTree_Node_recd_Right
-                                  (destMsgTree_Node Input))))))))))))))))))
-(assert
-  (not
-    (not
-      (is-MsgTree_Leaf
-        (MsgTree_Node_recd_Right
-          (destMsgTree_Node
-            (destTreeResult_TreeOK
-              (ite (is-MsgTree_Leaf Input)
-                (TreeResult_TreeOK MsgTree_Leaf)
-                (ite
-                  (is-MsgResult_MsgAudit
-                    (f
-                      (MsgTree_Node_recd_Value
-                        (destMsgTree_Node Input))))
-                  (TreeResult_TreeAudit
-                    (destMsgResult_MsgAudit
-                      (f
-                        (MsgTree_Node_recd_Value
-                          (destMsgTree_Node Input)))))
-                  (ite
-                    (is-TreeResult_TreeAudit
-                      (Guardfn
-                        (MsgTree_Node_recd_Left
-                          (destMsgTree_Node Input))))
-                    (Guardfn
-                      (MsgTree_Node_recd_Left
-                        (destMsgTree_Node Input)))
-                    (ite
-                      (is-TreeResult_TreeAudit
-                        (Guardfn
-                          (MsgTree_Node_recd_Right
-                            (destMsgTree_Node Input))))
-                      (Guardfn
-                        (MsgTree_Node_recd_Right
-                          (destMsgTree_Node Input)))
-                      (TreeResult_TreeOK
-                        (MsgTree_Node
-                          (MsgTree_Node_recd
-                            (destMsgResult_MsgOK
-                              (f
-                                (MsgTree_Node_recd_Value
-                                  (destMsgTree_Node Input))))
-                            (destTreeResult_TreeOK
-                              (Guardfn
-                                (MsgTree_Node_recd_Left
-                                  (destMsgTree_Node Input))))
-                            (destTreeResult_TreeOK
-                              (Guardfn
-                                (MsgTree_Node_recd_Right
-                                  (destMsgTree_Node Input))))))))))))))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/bug472.smt2 b/test/regress/regress0/bug472.smt2
deleted file mode 100644
index 7af988ec3..000000000
--- a/test/regress/regress0/bug472.smt2
+++ /dev/null
@@ -1,8 +0,0 @@
-(set-logic QF_AUFLIA)
-(set-option :produce-models true)
-(declare-fun a () (Array Int Int))
-(assert (= (select a 0) 0))
-(check-sat)
-(get-value (a))
-(assert (= a @1))
-(check-sat)
diff --git a/test/regress/regress0/bug507.smt2 b/test/regress/regress0/bug507.smt2
deleted file mode 100644
index a20dddfe7..000000000
--- a/test/regress/regress0/bug507.smt2
+++ /dev/null
@@ -1,80 +0,0 @@
-; COMMAND-LINE: --lang=smt2.5
-; EXPECT: sat
-(set-logic QF_ALL_SUPPORTED)
-(set-info :status sat)
-
-;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
-;; Datatype declarations
-;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
-
-(declare-datatypes () 
-  ((ColorType (ColorType_Red) (ColorType_Black))
-))
-
-(declare-datatypes () 
-  ((RBTree (RBTree_Leaf) (RBTree_Node (destRBTree_Node RBTree_Node_recd)))
-
-   (RBTree_Node_recd (RBTree_Node_recd (RBTree_Node_recd_color ColorType)
-  (RBTree_Node_recd_left RBTree) (RBTree_Node_recd_elem Int)
-  (RBTree_Node_recd_right RBTree)))
-))
-
-(declare-datatypes () 
-  ((BoolColor (BoolColor (BoolColor_res Bool) (BoolColor_color ColorType)))
-))
-
-
-;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
-;; Uninterpreted symbols
-;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
-
-(declare-fun v0 () Int)
-(declare-fun t () RBTree)
-;; (declare-fun NoTwoRedsFn (RBTree) BoolColor)
-
-;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
-;; Defined symbols
-;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
-
-(define-fun assembleFn ((ll RBTree) (le Int) (lr RBTree) (e Int) (rl RBTree) (re Int) (rr RBTree)) RBTree
-  (RBTree_Node (RBTree_Node_recd ColorType_Red (RBTree_Node (RBTree_Node_recd ColorType_Black ll le lr)) e (RBTree_Node (RBTree_Node_recd ColorType_Black rl re rr)))))
-
-(define-fun balanceFn ((c ColorType) (left RBTree) (elem Int) (right RBTree)) RBTree
-  (ite (= c ColorType_Black) (ite (not (ite (is-RBTree_Leaf left) false (ite (not (ite (is-RBTree_Leaf (RBTree_Node_recd_left (destRBTree_Node left))) false (ite (and (= (RBTree_Node_recd_color (destRBTree_Node left)) ColorType_Red) (= (RBTree_Node_recd_color (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) ColorType_Red)) true false))) (ite (is-RBTree_Leaf (RBTree_Node_recd_right (destRBTree_Node left))) false (ite (and (= (RBTree_Node_recd_color (destRBTree_Node left)) ColorType_Red) (= (RBTree_Node_recd_color (destRBTree_Node (RBTree_Node_recd_right (destRBTree_Node left)))) ColorType_Red)) true false)) true))) (ite (is-RBTree_Leaf right) (ite (is-RBTree_Leaf left) (RBTree_Node (RBTree_Node_recd ColorType_Black left elem right)) (ite (not (ite (is-RBTree_Leaf (RBTree_Node_recd_left (destRBTree_Node left))) false (ite (and (= (RBTree_Node_recd_color (destRBTree_Node left)) ColorType_Red) (= (RBTree_Node_recd_color (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) ColorType_Red)) true false))) (ite (is-RBTree_Leaf (RBTree_Node_recd_right (destRBTree_Node left))) (ite (is-RBTree_Leaf (RBTree_Node_recd_left (destRBTree_Node left))) (RBTree_Node (RBTree_Node_recd ColorType_Black left elem right)) (ite (and (= (RBTree_Node_recd_color (destRBTree_Node left)) ColorType_Red) (= (RBTree_Node_recd_color (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) ColorType_Red)) (assembleFn (RBTree_Node_recd_left (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) (RBTree_Node_recd_elem (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) (RBTree_Node_recd_right (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) (RBTree_Node_recd_elem (destRBTree_Node left)) (RBTree_Node_recd_right (destRBTree_Node left)) elem right) (RBTree_Node (RBTree_Node_recd ColorType_Black left elem right)))) (ite (and (= (RBTree_Node_recd_color (destRBTree_Node left)) ColorType_Red) (= 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false (ite (and (= (RBTree_Node_recd_color (destRBTree_Node left)) ColorType_Red) (= (RBTree_Node_recd_color (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) ColorType_Red)) true false))) (ite (is-RBTree_Leaf (RBTree_Node_recd_right (destRBTree_Node left))) (ite (is-RBTree_Leaf (RBTree_Node_recd_left (destRBTree_Node left))) (RBTree_Node (RBTree_Node_recd ColorType_Black left elem right)) (ite (and (= (RBTree_Node_recd_color (destRBTree_Node left)) ColorType_Red) (= (RBTree_Node_recd_color (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) ColorType_Red)) (assembleFn (RBTree_Node_recd_left (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) (RBTree_Node_recd_elem (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) (RBTree_Node_recd_right (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) (RBTree_Node_recd_elem (destRBTree_Node left)) (RBTree_Node_recd_right (destRBTree_Node left)) elem right) (RBTree_Node (RBTree_Node_recd ColorType_Black left elem right)))) (ite (and (= (RBTree_Node_recd_color (destRBTree_Node left)) ColorType_Red) (= (RBTree_Node_recd_color (destRBTree_Node (RBTree_Node_recd_right (destRBTree_Node left)))) ColorType_Red)) (assembleFn (RBTree_Node_recd_left (destRBTree_Node left)) (RBTree_Node_recd_elem (destRBTree_Node left)) (RBTree_Node_recd_left (destRBTree_Node (RBTree_Node_recd_right (destRBTree_Node left)))) (RBTree_Node_recd_elem (destRBTree_Node (RBTree_Node_recd_right (destRBTree_Node left)))) (RBTree_Node_recd_right (destRBTree_Node (RBTree_Node_recd_right (destRBTree_Node left)))) elem right) (ite (is-RBTree_Leaf (RBTree_Node_recd_left (destRBTree_Node left))) (RBTree_Node (RBTree_Node_recd ColorType_Black left elem right)) (ite (and (= (RBTree_Node_recd_color (destRBTree_Node left)) ColorType_Red) (= (RBTree_Node_recd_color (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) ColorType_Red)) (assembleFn (RBTree_Node_recd_left (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) (RBTree_Node_recd_elem (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) (RBTree_Node_recd_right (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) (RBTree_Node_recd_elem (destRBTree_Node left)) (RBTree_Node_recd_right (destRBTree_Node left)) elem right) (RBTree_Node (RBTree_Node_recd ColorType_Black left elem right)))))) (ite (is-RBTree_Leaf (RBTree_Node_recd_left (destRBTree_Node left))) (RBTree_Node (RBTree_Node_recd ColorType_Black left elem right)) (ite (and (= (RBTree_Node_recd_color (destRBTree_Node left)) ColorType_Red) (= (RBTree_Node_recd_color (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) ColorType_Red)) (assembleFn (RBTree_Node_recd_left (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) (RBTree_Node_recd_elem (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) (RBTree_Node_recd_right (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) (RBTree_Node_recd_elem (destRBTree_Node left)) (RBTree_Node_recd_right (destRBTree_Node left)) elem right) (RBTree_Node (RBTree_Node_recd ColorType_Black left elem right)))))) (ite (and (= (RBTree_Node_recd_color (destRBTree_Node right)) ColorType_Red) (= (RBTree_Node_recd_color (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node right)))) ColorType_Red)) (assembleFn left elem (RBTree_Node_recd_left (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node right)))) (RBTree_Node_recd_elem (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node right)))) (RBTree_Node_recd_right (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node right)))) (RBTree_Node_recd_elem (destRBTree_Node right)) (RBTree_Node_recd_right (destRBTree_Node right))) (ite (is-RBTree_Leaf left) (RBTree_Node (RBTree_Node_recd ColorType_Black left elem right)) (ite (not (ite (is-RBTree_Leaf (RBTree_Node_recd_left (destRBTree_Node left))) false (ite (and (= (RBTree_Node_recd_color (destRBTree_Node left)) ColorType_Red) (= (RBTree_Node_recd_color (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) ColorType_Red)) true false))) (ite (is-RBTree_Leaf (RBTree_Node_recd_right (destRBTree_Node left))) (ite (is-RBTree_Leaf (RBTree_Node_recd_left (destRBTree_Node left))) (RBTree_Node (RBTree_Node_recd ColorType_Black left elem right)) (ite (and (= (RBTree_Node_recd_color (destRBTree_Node left)) ColorType_Red) (= (RBTree_Node_recd_color (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) ColorType_Red)) (assembleFn (RBTree_Node_recd_left (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) (RBTree_Node_recd_elem (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) (RBTree_Node_recd_right (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) (RBTree_Node_recd_elem (destRBTree_Node left)) (RBTree_Node_recd_right (destRBTree_Node left)) elem right) (RBTree_Node (RBTree_Node_recd ColorType_Black left elem right)))) (ite (and (= (RBTree_Node_recd_color (destRBTree_Node left)) ColorType_Red) (= (RBTree_Node_recd_color (destRBTree_Node (RBTree_Node_recd_right (destRBTree_Node left)))) ColorType_Red)) (assembleFn (RBTree_Node_recd_left (destRBTree_Node left)) (RBTree_Node_recd_elem (destRBTree_Node left)) (RBTree_Node_recd_left (destRBTree_Node (RBTree_Node_recd_right (destRBTree_Node left)))) (RBTree_Node_recd_elem (destRBTree_Node (RBTree_Node_recd_right (destRBTree_Node left)))) (RBTree_Node_recd_right (destRBTree_Node (RBTree_Node_recd_right (destRBTree_Node left)))) elem right) (ite (is-RBTree_Leaf (RBTree_Node_recd_left (destRBTree_Node left))) (RBTree_Node (RBTree_Node_recd ColorType_Black left elem right)) (ite (and (= (RBTree_Node_recd_color (destRBTree_Node left)) ColorType_Red) (= (RBTree_Node_recd_color (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) ColorType_Red)) (assembleFn (RBTree_Node_recd_left (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) (RBTree_Node_recd_elem (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) (RBTree_Node_recd_right (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) (RBTree_Node_recd_elem (destRBTree_Node left)) (RBTree_Node_recd_right (destRBTree_Node left)) elem right) (RBTree_Node (RBTree_Node_recd ColorType_Black left elem right)))))) (ite (is-RBTree_Leaf (RBTree_Node_recd_left (destRBTree_Node left))) (RBTree_Node (RBTree_Node_recd ColorType_Black left elem right)) (ite (and (= (RBTree_Node_recd_color (destRBTree_Node left)) ColorType_Red) (= (RBTree_Node_recd_color (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) ColorType_Red)) (assembleFn (RBTree_Node_recd_left (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) (RBTree_Node_recd_elem (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) (RBTree_Node_recd_right (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) (RBTree_Node_recd_elem (destRBTree_Node left)) (RBTree_Node_recd_right (destRBTree_Node left)) elem right) (RBTree_Node (RBTree_Node_recd ColorType_Black left elem right)))))))))) (ite (is-RBTree_Leaf left) (RBTree_Node (RBTree_Node_recd ColorType_Black left elem right)) (ite (not (ite (is-RBTree_Leaf (RBTree_Node_recd_left (destRBTree_Node left))) false (ite (and (= (RBTree_Node_recd_color (destRBTree_Node left)) ColorType_Red) (= (RBTree_Node_recd_color (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) ColorType_Red)) true false))) (ite (is-RBTree_Leaf (RBTree_Node_recd_right (destRBTree_Node left))) (ite (is-RBTree_Leaf (RBTree_Node_recd_left (destRBTree_Node left))) (RBTree_Node (RBTree_Node_recd ColorType_Black left elem right)) (ite (and (= (RBTree_Node_recd_color (destRBTree_Node left)) ColorType_Red) (= (RBTree_Node_recd_color (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) ColorType_Red)) (assembleFn (RBTree_Node_recd_left (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) (RBTree_Node_recd_elem (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) (RBTree_Node_recd_right (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) (RBTree_Node_recd_elem (destRBTree_Node left)) (RBTree_Node_recd_right (destRBTree_Node left)) elem right) (RBTree_Node (RBTree_Node_recd ColorType_Black left elem right)))) (ite (and (= (RBTree_Node_recd_color (destRBTree_Node left)) ColorType_Red) (= (RBTree_Node_recd_color (destRBTree_Node (RBTree_Node_recd_right (destRBTree_Node left)))) ColorType_Red)) (assembleFn (RBTree_Node_recd_left (destRBTree_Node left)) (RBTree_Node_recd_elem (destRBTree_Node left)) (RBTree_Node_recd_left (destRBTree_Node (RBTree_Node_recd_right (destRBTree_Node left)))) (RBTree_Node_recd_elem (destRBTree_Node (RBTree_Node_recd_right (destRBTree_Node left)))) (RBTree_Node_recd_right (destRBTree_Node (RBTree_Node_recd_right (destRBTree_Node left)))) elem right) (ite (is-RBTree_Leaf (RBTree_Node_recd_left (destRBTree_Node left))) (RBTree_Node (RBTree_Node_recd ColorType_Black left elem right)) (ite (and (= (RBTree_Node_recd_color (destRBTree_Node left)) ColorType_Red) (= (RBTree_Node_recd_color (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) ColorType_Red)) (assembleFn (RBTree_Node_recd_left (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) (RBTree_Node_recd_elem (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) (RBTree_Node_recd_right (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) (RBTree_Node_recd_elem (destRBTree_Node left)) (RBTree_Node_recd_right (destRBTree_Node left)) elem right) (RBTree_Node (RBTree_Node_recd ColorType_Black left elem right)))))) (ite (is-RBTree_Leaf (RBTree_Node_recd_left (destRBTree_Node left))) (RBTree_Node (RBTree_Node_recd ColorType_Black left elem right)) (ite (and (= (RBTree_Node_recd_color (destRBTree_Node left)) ColorType_Red) (= (RBTree_Node_recd_color (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) ColorType_Red)) (assembleFn (RBTree_Node_recd_left (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) (RBTree_Node_recd_elem (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) (RBTree_Node_recd_right (destRBTree_Node (RBTree_Node_recd_left (destRBTree_Node left)))) (RBTree_Node_recd_elem (destRBTree_Node left)) (RBTree_Node_recd_right (destRBTree_Node left)) elem right) (RBTree_Node (RBTree_Node_recd ColorType_Black left elem right))))))) (RBTree_Node (RBTree_Node_recd c left elem right))))
-
-;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
-;; Catamorphisms
-;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
-
-( declare-fun memberFn ( Int RBTree ) Bool )
-
-( declare-fun EqualBlackPathsFn ( RBTree ) Int )
-
-( declare-fun insFn ( Int RBTree ) RBTree )
-
-( declare-fun insertFn ( Int RBTree ) RBTree )
-
-( declare-fun NoTwoRedsFn ( RBTree ) BoolColor )
-  
-;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
-;; Goals
-;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
-
-
-;;(push)
-(assert (and (is-RBTree_Leaf t) 
-        (and (not (is-RBTree_Leaf (insertFn v0 t))) 
-             (not (BoolColor_res (NoTwoRedsFn (RBTree_Node_recd_left (destRBTree_Node (insertFn v0 t)))))))))
-
-;;(pop)
-
-( assert ( = ( insertFn v0 t ) ( ite ( is-RBTree_Leaf ( insFn v0 t ) ) ( insFn v0 t ) ( RBTree_Node ( RBTree_Node_recd ColorType_Black ( RBTree_Node_recd_left ( destRBTree_Node ( insFn v0 t ) ) ) ( RBTree_Node_recd_elem ( destRBTree_Node ( insFn v0 t ) ) ) ( RBTree_Node_recd_right ( destRBTree_Node ( insFn v0 t ) ) ) ) ) ) ) )
-( assert ( = ( NoTwoRedsFn ( RBTree_Node_recd_left ( destRBTree_Node ( insertFn v0 t ) ) ) ) ( ite ( is-RBTree_Leaf ( RBTree_Node_recd_left ( destRBTree_Node ( insertFn v0 t ) ) ) ) ( BoolColor true ColorType_Black ) ( BoolColor ( and ( BoolColor_res ( NoTwoRedsFn ( RBTree_Node_recd_left ( destRBTree_Node ( RBTree_Node_recd_left ( destRBTree_Node ( insertFn v0 t ) ) ) ) ) ) ) ( and ( BoolColor_res ( NoTwoRedsFn ( RBTree_Node_recd_right ( destRBTree_Node ( RBTree_Node_recd_left ( destRBTree_Node ( insertFn v0 t ) ) ) ) ) ) ) ( or ( not ( = ( RBTree_Node_recd_color ( destRBTree_Node ( RBTree_Node_recd_left ( destRBTree_Node ( insertFn v0 t ) ) ) ) ) ColorType_Red ) ) ( and ( not ( = ( BoolColor_color ( NoTwoRedsFn ( RBTree_Node_recd_left ( destRBTree_Node ( RBTree_Node_recd_left ( destRBTree_Node ( insertFn v0 t ) ) ) ) ) ) ) ColorType_Red ) ) ( not ( = ( BoolColor_color ( NoTwoRedsFn ( RBTree_Node_recd_right ( destRBTree_Node ( RBTree_Node_recd_left ( destRBTree_Node ( insertFn v0 t ) ) ) ) ) ) ) ColorType_Red ) ) ) ) ) ) ( RBTree_Node_recd_color ( destRBTree_Node ( RBTree_Node_recd_left ( destRBTree_Node ( insertFn v0 t ) ) ) ) ) ) ) ) )
-( assert ( = ( NoTwoRedsFn ( RBTree_Node_recd_right ( destRBTree_Node ( insertFn v0 t ) ) ) ) ( ite ( is-RBTree_Leaf ( RBTree_Node_recd_right ( destRBTree_Node ( insertFn v0 t ) ) ) ) ( BoolColor true ColorType_Black ) ( BoolColor ( and ( BoolColor_res ( NoTwoRedsFn ( RBTree_Node_recd_left ( destRBTree_Node ( RBTree_Node_recd_right ( destRBTree_Node ( insertFn v0 t ) ) ) ) ) ) ) ( and ( BoolColor_res ( NoTwoRedsFn ( RBTree_Node_recd_right ( destRBTree_Node ( RBTree_Node_recd_right ( destRBTree_Node ( insertFn v0 t ) ) ) ) ) ) ) ( or ( not ( = ( RBTree_Node_recd_color ( destRBTree_Node ( RBTree_Node_recd_right ( destRBTree_Node ( insertFn v0 t ) ) ) ) ) ColorType_Red ) ) ( and ( not ( = ( BoolColor_color ( NoTwoRedsFn ( RBTree_Node_recd_left ( destRBTree_Node ( RBTree_Node_recd_right ( destRBTree_Node ( insertFn v0 t ) ) ) ) ) ) ) ColorType_Red ) ) ( not ( = ( BoolColor_color ( NoTwoRedsFn ( RBTree_Node_recd_right ( destRBTree_Node ( RBTree_Node_recd_right ( destRBTree_Node ( insertFn v0 t ) ) ) ) ) ) ) ColorType_Red ) ) ) ) ) ) ( RBTree_Node_recd_color ( destRBTree_Node ( RBTree_Node_recd_right ( destRBTree_Node ( insertFn v0 t ) ) ) ) ) ) ) ) )
-( assert ( = ( NoTwoRedsFn ( RBTree_Node_recd_left ( destRBTree_Node t ) ) ) ( ite ( is-RBTree_Leaf ( RBTree_Node_recd_left ( destRBTree_Node t ) ) ) ( BoolColor true ColorType_Black ) ( BoolColor ( and ( BoolColor_res ( NoTwoRedsFn ( RBTree_Node_recd_left ( destRBTree_Node ( RBTree_Node_recd_left ( destRBTree_Node t ) ) ) ) ) ) ( and ( BoolColor_res ( NoTwoRedsFn ( RBTree_Node_recd_right ( destRBTree_Node ( RBTree_Node_recd_left ( destRBTree_Node t ) ) ) ) ) ) ( or ( not ( = ( RBTree_Node_recd_color ( destRBTree_Node ( RBTree_Node_recd_left ( destRBTree_Node t ) ) ) ) ColorType_Red ) ) ( and ( not ( = ( BoolColor_color ( NoTwoRedsFn ( RBTree_Node_recd_left ( destRBTree_Node ( RBTree_Node_recd_left ( destRBTree_Node t ) ) ) ) ) ) ColorType_Red ) ) ( not ( = ( BoolColor_color ( NoTwoRedsFn ( RBTree_Node_recd_right ( destRBTree_Node ( RBTree_Node_recd_left ( destRBTree_Node t ) ) ) ) ) ) ColorType_Red ) ) ) ) ) ) ( RBTree_Node_recd_color ( destRBTree_Node ( RBTree_Node_recd_left ( destRBTree_Node t ) ) ) ) ) ) ) )
-( assert ( = ( NoTwoRedsFn ( RBTree_Node_recd_right ( destRBTree_Node t ) ) ) ( ite ( is-RBTree_Leaf ( RBTree_Node_recd_right ( destRBTree_Node t ) ) ) ( BoolColor true ColorType_Black ) ( BoolColor ( and ( BoolColor_res ( NoTwoRedsFn ( RBTree_Node_recd_left ( destRBTree_Node ( RBTree_Node_recd_right ( destRBTree_Node t ) ) ) ) ) ) ( and ( BoolColor_res ( NoTwoRedsFn ( RBTree_Node_recd_right ( destRBTree_Node ( RBTree_Node_recd_right ( destRBTree_Node t ) ) ) ) ) ) ( or ( not ( = ( RBTree_Node_recd_color ( destRBTree_Node ( RBTree_Node_recd_right ( destRBTree_Node t ) ) ) ) ColorType_Red ) ) ( and ( not ( = ( BoolColor_color ( NoTwoRedsFn ( RBTree_Node_recd_left ( destRBTree_Node ( RBTree_Node_recd_right ( destRBTree_Node t ) ) ) ) ) ) ColorType_Red ) ) ( not ( = ( BoolColor_color ( NoTwoRedsFn ( RBTree_Node_recd_right ( destRBTree_Node ( RBTree_Node_recd_right ( destRBTree_Node t ) ) ) ) ) ) ColorType_Red ) ) ) ) ) ) ( RBTree_Node_recd_color ( destRBTree_Node ( RBTree_Node_recd_right ( destRBTree_Node t ) ) ) ) ) ) ) )
-( assert ( = ( insertFn v0 ( RBTree_Node_recd_right ( destRBTree_Node t ) ) ) ( ite ( is-RBTree_Leaf ( insFn v0 ( RBTree_Node_recd_right ( destRBTree_Node t ) ) ) ) ( insFn v0 ( RBTree_Node_recd_right ( destRBTree_Node t ) ) ) ( RBTree_Node ( RBTree_Node_recd ColorType_Black ( RBTree_Node_recd_left ( destRBTree_Node ( insFn v0 ( RBTree_Node_recd_right ( destRBTree_Node t ) ) ) ) ) ( RBTree_Node_recd_elem ( destRBTree_Node ( insFn v0 ( RBTree_Node_recd_right ( destRBTree_Node t ) ) ) ) ) ( RBTree_Node_recd_right ( destRBTree_Node ( insFn v0 ( RBTree_Node_recd_right ( destRBTree_Node t ) ) ) ) ) ) ) ) ) )
-( assert ( = ( NoTwoRedsFn ( insertFn v0 ( RBTree_Node_recd_right ( destRBTree_Node t ) ) ) ) ( ite ( is-RBTree_Leaf ( insertFn v0 ( RBTree_Node_recd_right ( destRBTree_Node t ) ) ) ) ( BoolColor true ColorType_Black ) ( BoolColor ( and ( BoolColor_res ( NoTwoRedsFn ( RBTree_Node_recd_left ( destRBTree_Node ( insertFn v0 ( RBTree_Node_recd_right ( destRBTree_Node t ) ) ) ) ) ) ) ( and ( BoolColor_res ( NoTwoRedsFn ( RBTree_Node_recd_right ( destRBTree_Node ( insertFn v0 ( RBTree_Node_recd_right ( destRBTree_Node t ) ) ) ) ) ) ) ( or ( not ( = ( RBTree_Node_recd_color ( destRBTree_Node ( insertFn v0 ( RBTree_Node_recd_right ( destRBTree_Node t ) ) ) ) ) ColorType_Red ) ) ( and ( not ( = ( BoolColor_color ( NoTwoRedsFn ( RBTree_Node_recd_left ( destRBTree_Node ( insertFn v0 ( RBTree_Node_recd_right ( destRBTree_Node t ) ) ) ) ) ) ) ColorType_Red ) ) ( not ( = ( BoolColor_color ( NoTwoRedsFn ( RBTree_Node_recd_right ( destRBTree_Node ( insertFn v0 ( RBTree_Node_recd_right ( destRBTree_Node t ) ) ) ) ) ) ) ColorType_Red ) ) ) ) ) ) ( RBTree_Node_recd_color ( destRBTree_Node ( insertFn v0 ( RBTree_Node_recd_right ( destRBTree_Node t ) ) ) ) ) ) ) ) )
-( assert ( = ( insertFn v0 ( RBTree_Node_recd_left ( destRBTree_Node t ) ) ) ( ite ( is-RBTree_Leaf ( insFn v0 ( RBTree_Node_recd_left ( destRBTree_Node t ) ) ) ) ( insFn v0 ( RBTree_Node_recd_left ( destRBTree_Node t ) ) ) ( RBTree_Node ( RBTree_Node_recd ColorType_Black ( RBTree_Node_recd_left ( destRBTree_Node ( insFn v0 ( RBTree_Node_recd_left ( destRBTree_Node t ) ) ) ) ) ( RBTree_Node_recd_elem ( destRBTree_Node ( insFn v0 ( RBTree_Node_recd_left ( destRBTree_Node t ) ) ) ) ) ( RBTree_Node_recd_right ( destRBTree_Node ( insFn v0 ( RBTree_Node_recd_left ( destRBTree_Node t ) ) ) ) ) ) ) ) ) )
-( assert ( = ( NoTwoRedsFn ( insertFn v0 ( RBTree_Node_recd_left ( destRBTree_Node t ) ) ) ) ( ite ( is-RBTree_Leaf ( insertFn v0 ( RBTree_Node_recd_left ( destRBTree_Node t ) ) ) ) ( BoolColor true ColorType_Black ) ( BoolColor ( and ( BoolColor_res ( NoTwoRedsFn ( RBTree_Node_recd_left ( destRBTree_Node ( insertFn v0 ( RBTree_Node_recd_left ( destRBTree_Node t ) ) ) ) ) ) ) ( and ( BoolColor_res ( NoTwoRedsFn ( RBTree_Node_recd_right ( destRBTree_Node ( insertFn v0 ( RBTree_Node_recd_left ( destRBTree_Node t ) ) ) ) ) ) ) ( or ( not ( = ( RBTree_Node_recd_color ( destRBTree_Node ( insertFn v0 ( RBTree_Node_recd_left ( destRBTree_Node t ) ) ) ) ) ColorType_Red ) ) ( and ( not ( = ( BoolColor_color ( NoTwoRedsFn ( RBTree_Node_recd_left ( destRBTree_Node ( insertFn v0 ( RBTree_Node_recd_left ( destRBTree_Node t ) ) ) ) ) ) ) ColorType_Red ) ) ( not ( = ( BoolColor_color ( NoTwoRedsFn ( RBTree_Node_recd_right ( destRBTree_Node ( insertFn v0 ( RBTree_Node_recd_left ( destRBTree_Node t ) ) ) ) ) ) ) ColorType_Red ) ) ) ) ) ) ( RBTree_Node_recd_color ( destRBTree_Node ( insertFn v0 ( RBTree_Node_recd_left ( destRBTree_Node t ) ) ) ) ) ) ) ) )
-( check-sat )
diff --git a/test/regress/regress0/bug512.smt2 b/test/regress/regress0/bug512.smt2
deleted file mode 100644
index 1c8a0626a..000000000
--- a/test/regress/regress0/bug512.smt2
+++ /dev/null
@@ -1,146 +0,0 @@
-; COMMAND-LINE: --tlimit-per 2500 -iq
-; EXPECT: unknown
-; EXPECT: (:reason-unknown incomplete)
-; EXPECT: unsat
-(set-option :print-success false)
-(set-info :smt-lib-version 2.0)
-;(set-option :AUTO_CONFIG false)
-;(set-option :MODEL_HIDE_UNUSED_PARTITIONS false)
-;(set-option :MODEL_V2 true)
-;(set-option :ASYNC_COMMANDS false)
-;(set-option :PHASE_SELECTION 0)
-;(set-option :RESTART_STRATEGY 0)
-;(set-option :RESTART_FACTOR |1.5|)
-;(set-option :ARITH_RANDOM_INITIAL_VALUE true)
-;(set-option :CASE_SPLIT 3)
-;(set-option :DELAY_UNITS true)
-;(set-option :DELAY_UNITS_THRESHOLD 16)
-;(set-option :NNF_SK_HACK true)
-;(set-option :MBQI false)
-;(set-option :QI_EAGER_THRESHOLD 100)
-;(set-option :QI_COST |"(+ weight generation)"|)
-;(set-option :TYPE_CHECK true)
-;(set-option :BV_REFLECT true)
-; done setting options
-
-; Boogie universal background predicate
-; Copyright (c) 2004-2010, Microsoft Corp.
-(set-info :category "industrial")
-(declare-sort |T@U| 0)
-(declare-sort |T@T| 0)
-(declare-fun real_pow (Real Real) Real)
-(declare-fun UOrdering2 (|T@U| |T@U|) Bool)
-(declare-fun UOrdering3 (|T@T| |T@U| |T@U|) Bool)
-
-(declare-fun tickleBool (Bool) Bool)
-(assert (and (tickleBool true) (tickleBool false)))
-(declare-fun Ctor (T@T) Int)
-(declare-fun intType () T@T)
-(declare-fun realType () T@T)
-(declare-fun boolType () T@T)
-(declare-fun int_2_U (Int) T@U)
-(declare-fun U_2_int (T@U) Int)
-(declare-fun type (T@U) T@T)
-(declare-fun real_2_U (Real) T@U)
-(declare-fun U_2_real (T@U) Real)
-(declare-fun bool_2_U (Bool) T@U)
-(declare-fun U_2_bool (T@U) Bool)
-(declare-fun %lbl%+67 () Bool)
-(declare-fun i@0 () Int)
-(declare-fun x@@5 () Int)
-(declare-fun y@@1 () Int)
-(declare-fun i@1 () Int)
-(declare-fun %lbl%@186 () Bool)
-(declare-fun %lbl%+69 () Bool)
-(declare-fun %lbl%@157 () Bool)
-(declare-fun %lbl%+65 () Bool)
-(declare-fun %lbl%+63 () Bool)
-(declare-fun %lbl%@125 () Bool)
-(declare-fun %lbl%+97 () Bool)
-(assert (and
-(= (Ctor intType) 0)
-(= (Ctor realType) 1)
-(= (Ctor boolType) 2)
-(forall ((arg0 Int) ) (! (= (U_2_int (int_2_U arg0)) arg0)
- :qid |typeInv:U_2_int|
- :pattern ( (int_2_U arg0))
-))
-(forall ((x T@U) ) (! (=> (= (type x) intType) (= (int_2_U (U_2_int x)) x))
- :qid |cast:U_2_int|
- :pattern ( (U_2_int x))
-))
-(forall ((arg0@@0 Int) ) (! (= (type (int_2_U arg0@@0)) intType)
- :qid |funType:int_2_U|
- :pattern ( (int_2_U arg0@@0))
-))
-(forall ((arg0@@1 Real) ) (! (= (U_2_real (real_2_U arg0@@1)) arg0@@1)
- :qid |typeInv:U_2_real|
- :pattern ( (real_2_U arg0@@1))
-))
-(forall ((x@@0 T@U) ) (! (=> (= (type x@@0) realType) (= (real_2_U (U_2_real x@@0)) x@@0))
- :qid |cast:U_2_real|
- :pattern ( (U_2_real x@@0))
-))
-(forall ((arg0@@2 Real) ) (! (= (type (real_2_U arg0@@2)) realType)
- :qid |funType:real_2_U|
- :pattern ( (real_2_U arg0@@2))
-))
-(forall ((arg0@@3 Bool) ) (! (= (U_2_bool (bool_2_U arg0@@3)) arg0@@3)
- :qid |typeInv:U_2_bool|
- :pattern ( (bool_2_U arg0@@3))
-))
-(forall ((x@@1 T@U) ) (! (=> (= (type x@@1) boolType) (= (bool_2_U (U_2_bool x@@1)) x@@1))
- :qid |cast:U_2_bool|
- :pattern ( (U_2_bool x@@1))
-))
-(forall ((arg0@@4 Bool) ) (! (= (type (bool_2_U arg0@@4)) boolType)
- :qid |funType:bool_2_U|
- :pattern ( (bool_2_U arg0@@4))
-))))
-(assert (forall ((x@@2 T@U) ) (! (UOrdering2 x@@2 x@@2)
- :qid |bg:subtype-refl|
- :no-pattern (U_2_int x@@2)
- :no-pattern (U_2_bool x@@2)
-)))
-(assert (forall ((x@@3 T@U) (y T@U) (z T@U) ) (! (let ((alpha (type x@@3)))
-(=> (and
-(= (type y) alpha)
-(= (type z) alpha)
-(UOrdering2 x@@3 y)
-(UOrdering2 y z)) (UOrdering2 x@@3 z)))
- :qid |bg:subtype-trans|
- :pattern ( (UOrdering2 x@@3 y) (UOrdering2 y z))
-)))
-(assert (forall ((x@@4 T@U) (y@@0 T@U) ) (! (let ((alpha@@0 (type x@@4)))
-(=> (= (type y@@0) alpha@@0) (=> (and
-(UOrdering2 x@@4 y@@0)
-(UOrdering2 y@@0 x@@4)) (= x@@4 y@@0))))
- :qid |bg:subtype-antisymm|
- :pattern ( (UOrdering2 x@@4 y@@0) (UOrdering2 y@@0 x@@4))
-)))
-(push 1)
-(set-info :boogie-vc-id foo)
-(assert (not
-(let ((anon3_LoopBody_correct (=> (! (and %lbl%+67 true) :lblpos +67) (=> (and
-(< i@0 (+ x@@5 y@@1))
-(= i@1 (+ i@0 1))) (and
-(! (or %lbl%@186 (<= i@1 (+ x@@5 y@@1))) :lblneg @186)
-(=> (<= i@1 (+ x@@5 y@@1)) true))))))
-(let ((anon3_LoopDone_correct (=> (! (and %lbl%+69 true) :lblpos +69) (=> (<= (+ x@@5 y@@1) i@0) (and
-(! (or %lbl%@157 (= i@0 (- x@@5 y@@1))) :lblneg @157)
-(=> (= i@0 (- x@@5 y@@1)) true))))))
-(let ((anon3_LoopHead_correct (=> (! (and %lbl%+65 true) :lblpos +65) (=> (<= i@0 (+ x@@5 y@@1)) (and
-anon3_LoopDone_correct
-anon3_LoopBody_correct)))))
-(let ((anon0_correct (=> (! (and %lbl%+63 true) :lblpos +63) (and
-(! (or %lbl%@125 (<= x@@5 (+ x@@5 y@@1))) :lblneg @125)
-(=> (<= x@@5 (+ x@@5 y@@1)) anon3_LoopHead_correct)))))
-(let ((PreconditionGeneratedEntry_correct (=> (! (and %lbl%+97 true) :lblpos +97) (=> (>= y@@1 0) anon0_correct))))
-PreconditionGeneratedEntry_correct)))))
-))
-(check-sat)
-(get-info :reason-unknown)
-;(labels)
-(assert %lbl%@157)
-(check-sat)
-(pop 1)
diff --git a/test/regress/regress0/bug516.smt2 b/test/regress/regress0/bug516.smt2
deleted file mode 100644
index a01eb97e9..000000000
--- a/test/regress/regress0/bug516.smt2
+++ /dev/null
@@ -1,15 +0,0 @@
-; COMMAND-LINE: --finite-model-find --fmf-bound-int
-; EXPECT: sat
-(set-logic ALL_SUPPORTED)
-(set-info :status sat)
-(set-option :incremental true)
-(declare-fun P (Int) Bool)
-(declare-fun ten () Int)
-
-(assert (forall ((x Int)) (=> (<= 1 x ten) (P x))))
-
-(push)
-(assert (= ten 10))
-
-(check-sat)
-(pop)
diff --git a/test/regress/regress0/bug520.smt2 b/test/regress/regress0/bug520.smt2
deleted file mode 100644
index 4bdb968d8..000000000
--- a/test/regress/regress0/bug520.smt2
+++ /dev/null
@@ -1,173 +0,0 @@
-; Automatically generated by SBV. Do not edit.
-(set-option :produce-models true)
-(set-logic QF_UFBV)
-(set-info :status sat)
-; --- uninterpreted sorts ---
-; --- literal constants ---
-(define-fun s_2 () Bool false)
-(define-fun s_1 () Bool true)
-(define-fun s77 () (_ BitVec 8) #x00)
-(define-fun s78 () (_ BitVec 8) #x04)
-(define-fun s81 () (_ BitVec 8) #x01)
-(define-fun s83 () (_ BitVec 8) #xff)
-; --- skolem constants ---
-(declare-fun s0 () (_ BitVec 8))
-(declare-fun s1 () (_ BitVec 8))
-(declare-fun s2 () (_ BitVec 8))
-(declare-fun s3 () Bool)
-(declare-fun s4 () (_ BitVec 8))
-(declare-fun s5 () Bool)
-(declare-fun s6 () (_ BitVec 8))
-(declare-fun s7 () Bool)
-(declare-fun s8 () (_ BitVec 8))
-(declare-fun s9 () Bool)
-(declare-fun s10 () (_ BitVec 8))
-(declare-fun s11 () Bool)
-(declare-fun s12 () (_ BitVec 8))
-(declare-fun s13 () Bool)
-(declare-fun s14 () (_ BitVec 8))
-(declare-fun s15 () Bool)
-(declare-fun s16 () (_ BitVec 8))
-(declare-fun s17 () Bool)
-(declare-fun s18 () (_ BitVec 8))
-(declare-fun s19 () Bool)
-(declare-fun s20 () (_ BitVec 8))
-(declare-fun s21 () Bool)
-(declare-fun s22 () (_ BitVec 8))
-(declare-fun s23 () Bool)
-(declare-fun s24 () (_ BitVec 8))
-(declare-fun s25 () Bool)
-(declare-fun s26 () (_ BitVec 8))
-(declare-fun s27 () Bool)
-(declare-fun s28 () (_ BitVec 8))
-(declare-fun s29 () Bool)
-(declare-fun s30 () (_ BitVec 8))
-(declare-fun s31 () Bool)
-(declare-fun s32 () (_ BitVec 8))
-(declare-fun s33 () Bool)
-(declare-fun s34 () (_ BitVec 8))
-(declare-fun s35 () Bool)
-(declare-fun s36 () (_ BitVec 8))
-(declare-fun s37 () Bool)
-(declare-fun s38 () (_ BitVec 8))
-(declare-fun s39 () Bool)
-(declare-fun s40 () (_ BitVec 8))
-(declare-fun s41 () Bool)
-(declare-fun s42 () (_ BitVec 8))
-; --- constant tables ---
-; --- skolemized tables ---
-(declare-fun table0 ((_ BitVec 8)) (_ BitVec 8))
-(declare-fun table1 ((_ BitVec 8)) Bool)
-(declare-fun table2 ((_ BitVec 8)) (_ BitVec 8))
-(declare-fun table3 ((_ BitVec 8)) Bool)
-; --- arrays ---
-; --- uninterpreted constants ---
-; --- user given axioms ---
-; --- formula ---
-(assert ; no quantifiers
-   (let ((s43 (and s3 s5)))
-   (let ((s44 (or s3 s5)))
-   (let ((s45 (not s44)))
-   (let ((s46 (= (bvcomp s4 s6) #b1)))
-   (let ((s47 (and s45 s46)))
-   (let ((s48 (or s43 s47)))
-   (let ((s49 (and s11 s13)))
-   (let ((s50 (or s11 s13)))
-   (let ((s51 (not s50)))
-   (let ((s52 (= (bvcomp s12 s14) #b1)))
-   (let ((s53 (and s51 s52)))
-   (let ((s54 (or s49 s53)))
-   (let ((s55 (and s19 s21)))
-   (let ((s56 (or s19 s21)))
-   (let ((s57 (not s56)))
-   (let ((s58 (= (bvcomp s20 s22) #b1)))
-   (let ((s59 (and s57 s58)))
-   (let ((s60 (or s55 s59)))
-   (let ((s61 (and s27 s29)))
-   (let ((s62 (or s27 s29)))
-   (let ((s63 (not s62)))
-   (let ((s64 (= (bvcomp s28 s30) #b1)))
-   (let ((s65 (and s63 s64)))
-   (let ((s66 (or s61 s65)))
-   (let ((s67 (and s35 s37)))
-   (let ((s68 (or s35 s37)))
-   (let ((s69 (not s68)))
-   (let ((s70 (= (bvcomp s36 s38) #b1)))
-   (let ((s71 (and s69 s70)))
-   (let ((s72 (or s67 s71)))
-   (let ((s73 (and s66 s72)))
-   (let ((s74 (and s60 s73)))
-   (let ((s75 (and s54 s74)))
-   (let ((s76 (and s48 s75)))
-   (let ((s79 (bvurem s0 s78)))
-   (let ((s80 (not (= (bvcomp s77 s79) #b1))))
-   (let ((s82 (ite s80 s81 s77)))
-   (let ((s84 (= (bvcomp s82 s83) #b1)))
-   (let ((s85 (bvadd s78 s79)))
-   (let ((s86 (ite s84 s85 s79)))
-   (let ((s87 (ite (bvule #x04 s86) s77 (table0 s86))))
-   (let ((s88 (= (bvcomp s8 s87) #b1)))
-   (let ((s89 (ite (bvule #x04 s86) s_2 (table1 s86))))
-   (let ((s90 (= s7 s89)))
-   (let ((s91 (ite (bvule #x04 s86) s77 (table2 s86))))
-   (let ((s92 (= (bvcomp s10 s91) #b1)))
-   (let ((s93 (ite (bvule #x04 s86) s_2 (table3 s86))))
-   (let ((s94 (= s9 s93)))
-   (let ((s95 (and s92 s94)))
-   (let ((s96 (and s90 s95)))
-   (let ((s97 (and s88 s96)))
-   (let ((s98 (and s7 s9)))
-   (let ((s99 (or s7 s9)))
-   (let ((s100 (not s99)))
-   (let ((s101 (= (bvcomp s8 s10) #b1)))
-   (let ((s102 (and s100 s101)))
-   (let ((s103 (or s98 s102)))
-   (let ((s104 (and s15 s17)))
-   (let ((s105 (or s15 s17)))
-   (let ((s106 (not s105)))
-   (let ((s107 (= (bvcomp s16 s18) #b1)))
-   (let ((s108 (and s106 s107)))
-   (let ((s109 (or s104 s108)))
-   (let ((s110 (and s23 s25)))
-   (let ((s111 (or s23 s25)))
-   (let ((s112 (not s111)))
-   (let ((s113 (= (bvcomp s24 s26) #b1)))
-   (let ((s114 (and s112 s113)))
-   (let ((s115 (or s110 s114)))
-   (let ((s116 (and s31 s33)))
-   (let ((s117 (or s31 s33)))
-   (let ((s118 (not s117)))
-   (let ((s119 (= (bvcomp s32 s34) #b1)))
-   (let ((s120 (and s118 s119)))
-   (let ((s121 (or s116 s120)))
-   (let ((s122 (and s39 s41)))
-   (let ((s123 (or s39 s41)))
-   (let ((s124 (not s123)))
-   (let ((s125 (= (bvcomp s40 s42) #b1)))
-   (let ((s126 (and s124 s125)))
-   (let ((s127 (or s122 s126)))
-   (let ((s128 (and s121 s127)))
-   (let ((s129 (and s115 s128)))
-   (let ((s130 (and s109 s129)))
-   (let ((s131 (and s103 s130)))
-   (let ((s132 (not s131)))
-   (let ((s133 (and s97 s132)))
-   (let ((s134 (and s76 s133)))
-   (and (= (table0 #x00) s12)
-        (= (table0 #x01) s20)
-        (= (table0 #x02) s28)
-        (= (table0 #x03) s36)
-        (= (table1 #x00) s11)
-        (= (table1 #x01) s19)
-        (= (table1 #x02) s27)
-        (= (table1 #x03) s35)
-        (= (table2 #x00) s14)
-        (= (table2 #x01) s22)
-        (= (table2 #x02) s30)
-        (= (table2 #x03) s38)
-        (= (table3 #x00) s13)
-        (= (table3 #x01) s21)
-        (= (table3 #x02) s29)
-        (= (table3 #x03) s37)
-        s134))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))
-(check-sat)
diff --git a/test/regress/regress0/bug543.smt2 b/test/regress/regress0/bug543.smt2
deleted file mode 100644
index 9155de7a9..000000000
--- a/test/regress/regress0/bug543.smt2
+++ /dev/null
@@ -1,20 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-(set-option :produce-models true)
-(set-logic QF_ALL_SUPPORTED)
-(declare-fun _substvar_1807_ () Bool)
-(declare-fun local_id_x$1 () (_ BitVec 32))
-(declare-fun local_id_x$2 () (_ BitVec 32))
-(declare-fun $$_ZZ19bitonic_sort_kernelPfjjE7sh_data@5 () (Array Bool (Array (_ BitVec 32) (_ BitVec 32))))
-(declare-fun $$_ZZ19bitonic_sort_kernelPfjjE7sh_data () (Array Bool (Array (_ BitVec 32) (_ BitVec 32))))
-(declare-fun $0$1@2 () (_ BitVec 32))
-(declare-fun $$_ZZ19bitonic_sort_kernelPfjjE7sh_data@0 () (Array Bool (Array (_ BitVec 32) (_ BitVec 32))))
-(declare-fun v1$1@0 () (_ BitVec 32))
-(declare-fun $$_ZZ19bitonic_sort_kernelPfjjE7sh_data@1 () (Array Bool (Array (_ BitVec 32) (_ BitVec 32))))
-(declare-fun v1$2@0 () (_ BitVec 32))
-(assert (not (= #b1 #b0)))
-(define-fun $_Z19bitonic_sort_kernelPfjj () Bool (=> true (let ((__partitioned_block_$truebb_0$7_correct (=> true (=> true (=> (and true true (= $$_ZZ19bitonic_sort_kernelPfjjE7sh_data@5 (store $$_ZZ19bitonic_sort_kernelPfjjE7sh_data true (store (select $$_ZZ19bitonic_sort_kernelPfjjE7sh_data true) local_id_x$1 $0$1@2))) true true) false))))) (let ((inline$_UPDATE_WRITE_READ_BENIGN_FLAG_$$_ZZ19bitonic_sort_kernelPfjjE7sh_data$1$_UPDATE_BENIGN_FLAG_correct (=> true (=> true __partitioned_block_$truebb_0$7_correct)))) (let ((inline$_LOG_WRITE_$$_ZZ19bitonic_sort_kernelPfjjE7sh_data$1$_LOG_WRITE_correct (=> true (=> true inline$_UPDATE_WRITE_READ_BENIGN_FLAG_$$_ZZ19bitonic_sort_kernelPfjjE7sh_data$1$_UPDATE_BENIGN_FLAG_correct)))) (let ((inline$_LOG_WRITE_$$_ZZ19bitonic_sort_kernelPfjjE7sh_data$1$Entry_correct (=> true (=> true inline$_LOG_WRITE_$$_ZZ19bitonic_sort_kernelPfjjE7sh_data$1$_LOG_WRITE_correct)))) (let ((inline$$bugle_barrier$1$anon8_Then_correct (=> true (=> true inline$_LOG_WRITE_$$_ZZ19bitonic_sort_kernelPfjjE7sh_data$1$Entry_correct)))) (let ((inline$$bugle_barrier$1$anon3_correct (=> true (=> true (=> true (=> true inline$$bugle_barrier$1$anon8_Then_correct)))))) (let ((inline$$bugle_barrier$1$anon7_Then_correct (=> true (=> true inline$$bugle_barrier$1$anon3_correct)))) (let ((inline$$bugle_barrier$1$anon6_Else_correct (=> true (=> true (=> true (=> true inline$$bugle_barrier$1$anon7_Then_correct)))))) (let ((inline$$bugle_barrier$1$Entry_correct (=> true (=> true (=> true inline$$bugle_barrier$1$anon6_Else_correct))))) (let ((__partitioned_block_$truebb_0$4_correct (=> true (=> true (=> true inline$$bugle_barrier$1$Entry_correct))))) (let ((inline$_LOG_READ_$$_ZZ19bitonic_sort_kernelPfjjE7sh_data$4$_LOG_READ_correct (=> true (=> true __partitioned_block_$truebb_0$4_correct)))) (let ((inline$_LOG_READ_$$_ZZ19bitonic_sort_kernelPfjjE7sh_data$4$Entry_correct (=> true (=> true (=> true inline$_LOG_READ_$$_ZZ19bitonic_sort_kernelPfjjE7sh_data$4$_LOG_READ_correct))))) (let ((__partitioned_block_$truebb_0$3_correct (=> true (=> true (=> true inline$_LOG_READ_$$_ZZ19bitonic_sort_kernelPfjjE7sh_data$4$Entry_correct))))) (let ((inline$_LOG_READ_$$_ZZ19bitonic_sort_kernelPfjjE7sh_data$3$_LOG_READ_correct (=> true (=> true __partitioned_block_$truebb_0$3_correct)))) (let ((inline$_LOG_READ_$$_ZZ19bitonic_sort_kernelPfjjE7sh_data$3$Entry_correct (=> true (=> true inline$_LOG_READ_$$_ZZ19bitonic_sort_kernelPfjjE7sh_data$3$_LOG_READ_correct)))) (let ((__partitioned_block_$truebb_0$2_correct (=> true (=> true inline$_LOG_READ_$$_ZZ19bitonic_sort_kernelPfjjE7sh_data$3$Entry_correct)))) (let ((inline$_LOG_READ_$$_ZZ19bitonic_sort_kernelPfjjE7sh_data$2$_LOG_READ_correct (=> true (=> true __partitioned_block_$truebb_0$2_correct)))) (let ((inline$_LOG_READ_$$_ZZ19bitonic_sort_kernelPfjjE7sh_data$2$Entry_correct (=> true (=> true (=> true inline$_LOG_READ_$$_ZZ19bitonic_sort_kernelPfjjE7sh_data$2$_LOG_READ_correct))))) (let ((__partitioned_block_$truebb_0$1_correct (=> true (=> true (=> true inline$_LOG_READ_$$_ZZ19bitonic_sort_kernelPfjjE7sh_data$2$Entry_correct))))) (let ((inline$_LOG_READ_$$_ZZ19bitonic_sort_kernelPfjjE7sh_data$1$_LOG_READ_correct (=> true (=> true __partitioned_block_$truebb_0$1_correct)))) (let ((inline$_LOG_READ_$$_ZZ19bitonic_sort_kernelPfjjE7sh_data$1$Entry_correct (=> true (=> true (=> true inline$_LOG_READ_$$_ZZ19bitonic_sort_kernelPfjjE7sh_data$1$_LOG_READ_correct))))) (let ((__partitioned_block_$truebb_0_correct (=> true (=> true inline$_LOG_READ_$$_ZZ19bitonic_sort_kernelPfjjE7sh_data$1$Entry_correct)))) (let (($1_correct (=> true (=> true (=> true (=> true (=> true __partitioned_block_$truebb_0_correct))))))) (let ((__partitioned_block_$0_0$4_correct (=> true (=> true (=> true (=> true (=> true (=> true (=> true (and _substvar_1807_ (=> true (=> true (=> true (=> true (=> true (=> true (=> true (=> true (=> true (=> true (=> true (=> true (=> true (=> true (=> true (=> true (=> true (=> true $1_correct)))))))))))))))))))))))))))) (let ((inline$$bugle_barrier$0$Return_correct (=> true (=> true __partitioned_block_$0_0$4_correct)))) (let ((inline$$bugle_barrier$0$anon8_Else_correct (=> true (=> true inline$$bugle_barrier$0$Return_correct)))) (let ((inline$$bugle_barrier$0$anon3_correct (=> true (=> true (=> true (=> true inline$$bugle_barrier$0$anon8_Else_correct)))))) (let ((inline$$bugle_barrier$0$anon7_Then_correct (=> true (=> true inline$$bugle_barrier$0$anon3_correct)))) (let ((inline$$bugle_barrier$0$anon6_Else_correct (=> true (=> true (=> true (=> true inline$$bugle_barrier$0$anon7_Then_correct)))))) (let ((inline$$bugle_barrier$0$Entry_correct (=> true (=> true (=> true inline$$bugle_barrier$0$anon6_Else_correct))))) (let ((__partitioned_block_$0_0$3_correct (=> true (=> true (=> (and true true (= $$_ZZ19bitonic_sort_kernelPfjjE7sh_data@0 (store $$_ZZ19bitonic_sort_kernelPfjjE7sh_data true (store (select $$_ZZ19bitonic_sort_kernelPfjjE7sh_data true) local_id_x$1 v1$1@0))) (= $$_ZZ19bitonic_sort_kernelPfjjE7sh_data@1 (store $$_ZZ19bitonic_sort_kernelPfjjE7sh_data@0 false (store (select $$_ZZ19bitonic_sort_kernelPfjjE7sh_data@0 false) local_id_x$2 v1$2@0))) true) inline$$bugle_barrier$0$Entry_correct))))) (let ((inline$_UPDATE_WRITE_READ_BENIGN_FLAG_$$_ZZ19bitonic_sort_kernelPfjjE7sh_data$0$_UPDATE_BENIGN_FLAG_correct (=> true (=> true __partitioned_block_$0_0$3_correct)))) (let ((inline$_LOG_WRITE_$$_ZZ19bitonic_sort_kernelPfjjE7sh_data$0$_LOG_WRITE_correct (=> true (=> true inline$_UPDATE_WRITE_READ_BENIGN_FLAG_$$_ZZ19bitonic_sort_kernelPfjjE7sh_data$0$_UPDATE_BENIGN_FLAG_correct)))) (let ((inline$_LOG_WRITE_$$_ZZ19bitonic_sort_kernelPfjjE7sh_data$0$Entry_correct (=> true (=> true inline$_LOG_WRITE_$$_ZZ19bitonic_sort_kernelPfjjE7sh_data$0$_LOG_WRITE_correct)))) (let ((__partitioned_block_$0_0$1_correct (=> true (=> true (=> true inline$_LOG_WRITE_$$_ZZ19bitonic_sort_kernelPfjjE7sh_data$0$Entry_correct))))) (let ((inline$_LOG_READ_$$data$0$_LOG_READ_correct (=> true (=> true __partitioned_block_$0_0$1_correct)))) (let ((inline$_LOG_READ_$$data$0$Entry_correct (=> true (=> true inline$_LOG_READ_$$data$0$_LOG_READ_correct)))) (let ((__partitioned_block_$0_0_correct (=> true (=> true (=> true inline$_LOG_READ_$$data$0$Entry_correct))))) (let ((PreconditionGeneratedEntry_correct (=> true (=> true (=> true __partitioned_block_$0_0_correct))))) PreconditionGeneratedEntry_correct)))))))))))))))))))))))))))))))))))))))))
-(push 1)
-(assert (not (=> true $_Z19bitonic_sort_kernelPfjj)))
-(check-sat)
-
diff --git a/test/regress/regress0/bug567.smt2 b/test/regress/regress0/bug567.smt2
deleted file mode 100644
index 99d7f0302..000000000
--- a/test/regress/regress0/bug567.smt2
+++ /dev/null
@@ -1,48 +0,0 @@
-(set-logic ALL_SUPPORTED)
-; COMMAND-LINE: --incremental --lang=smt2.5
-; EXPECT: unknown
-; EXPECT: unsat
-; EXPECT: unknown
-(declare-datatypes () ((OptInt0 (Some (value0 Int)) (None))))
-(declare-datatypes () ((List0 (Cons (head0 Int) (tail0 List0)) (Nil))))
-
-(declare-fun errorValue2 () Bool)
-(declare-fun errorValue1 () Bool)
-
-
-
-
-
-(declare-fun size (List0) Int)
-(declare-fun mergeInto (List0 List0) List0)
-(declare-fun isSorted (List0) Bool)
-(declare-fun buggySortedIns (Int List0) List0)
-(declare-fun sortedIns (Int List0) List0)
-(declare-fun sort (List0) List0)
-(declare-fun contents (List0) (Set Int))
-
-(assert (forall ((l List0)) (! (= (size l) (ite (is-Nil l) 0 (+ 1 (size (tail0 l))))) :pattern ((size l)))))
-(assert (forall ((l1 List0) (l2 List0)) (! (= (mergeInto l1 l2) (ite (is-Nil l1) l2 (mergeInto (tail0 l1) (sortedIns (head0 l1) l2)))) :pattern ((mergeInto l1 l2)))))
-(assert (forall ((l2 List0)) (! (= (isSorted l2) (ite (is-Nil l2) true (ite (and (is-Cons l2) (is-Nil (tail0 l2))) true (ite (and (is-Cons l2) (is-Cons (tail0 l2))) (and (<= (head0 l2) (head0 (tail0 l2))) (isSorted (Cons (head0 (tail0 l2)) (tail0 (tail0 l2))))) errorValue1)))) :pattern ((isSorted l2)))))
-(assert (forall ((l4 List0) (e1 Int)) (! (= (buggySortedIns e1 l4) (ite (is-Nil l4) (Cons e1 Nil) (ite (<= (head0 l4) e1) (Cons (head0 l4) (buggySortedIns e1 (tail0 l4))) (Cons e1 l4)))) :pattern ((buggySortedIns e1 l4)))))
-(assert (forall ((l3 List0) (e Int)) (! (= (sortedIns e l3) (ite (is-Nil l3) (Cons e Nil) (ite (<= (head0 l3) e) (Cons (head0 l3) (sortedIns e (tail0 l3))) (Cons e l3)))) :pattern ((sortedIns e l3)))))
-(assert (forall ((l5 List0)) (! (= (sort l5) (ite (is-Nil l5) Nil (sortedIns (head0 l5) (sort (tail0 l5))))) :pattern ((sort l5)))))
-(assert (forall ((l1 List0)) (! (= (contents l1) (ite (is-Nil l1) (as emptyset (Set Int)) (union (contents (tail0 l1)) (singleton (head0 l1))))) :pattern ((contents l1)))))
-
-
-
-(push)
-(assert (forall ((l List0)) (not (let ((result (ite (is-Nil l) 0 (+ 1 (size (tail0 l)))))) (>= result 0)))))
-(check-sat)
-(pop)
-
-(push)
-(assert (forall ((l2 List0)) (not (not (and (not (is-Nil l2)) (not (and (is-Cons l2) (is-Nil (tail0 l2)))) (not (and (is-Cons l2) (is-Cons (tail0 l2)))))))))
-(check-sat)
-(pop)
-
-(push)
-(assert (forall ((l4 List0) (e1 Int)) (not (let ((result2 (ite (is-Nil l4) (Cons e1 Nil) (ite (<= (head0 l4) e1) (Cons (head0 l4) (buggySortedIns e1 (tail0 l4))) (Cons e1 l4))))) (and (= (contents result2) (union (contents l4) (singleton e1))) (isSorted result2) (= (size result2) (+ (size l4) 1)))))))
-(check-sat)
-(pop)
-
diff --git a/test/regress/regress0/bug585.cvc b/test/regress/regress0/bug585.cvc
deleted file mode 100644
index 825cb0003..000000000
--- a/test/regress/regress0/bug585.cvc
+++ /dev/null
@@ -1,9 +0,0 @@
-% EXPECT: sat
-
-Cache: TYPE = ARRAY [0..100] OF [# addr: INT, data: REAL #];
-State: TYPE = [# pc: INT, cache: Cache #];
-
-s0: State;
-s1: State = s0 WITH .cache[10].data := 2/3;
-
-CHECKSAT;
diff --git a/test/regress/regress0/bug590.smt2 b/test/regress/regress0/bug590.smt2
deleted file mode 100644
index 68665f629..000000000
--- a/test/regress/regress0/bug590.smt2
+++ /dev/null
@@ -1,61 +0,0 @@
-(set-logic QF_ALL_SUPPORTED)
-(set-option :strings-exp true)
-(set-option :produce-models true)
-(set-info :smt-lib-version 2.0)
-(set-info :status unknown)
-
-(declare-fun text () String)
-(declare-fun output () String)
-
-; html_escape_table = {
-;    "&": "&amp;",
-;    '"': "&quot;",
-;    "'": "&apos;",
-;    ">": "&gt;",
-;    "<": "&lt;",
-;    }
-(declare-fun html_escape_table () (Array String String))
-(assert (= html_escape_table 
-    (store (store (store (store (store ((as const (Array String String)) "A") 
-    "&" "&amp;") 
-    "\"" "&quot;")
-    "'" "&apos;") 
-    ">" "&gt;") 
-    "<" "&lt;")))
-(declare-fun html_escape_table_keys () (Array Int String))
-(assert (= html_escape_table_keys
-    (store (store (store (store (store ((as const (Array Int String)) "B")
-    0 "&")
-    1 "\"")
-    2 "'")
-    3 ">")
-    4 "<"))) 
-
-; charlst = [c for c in text]
-(declare-fun charlst () (Array Int String))
-(declare-fun charlstlen () Int)
-(assert (= charlstlen (str.len text)))
-(assert (forall ((i Int))
-    (= (select charlst i) (str.at text i))
-))
-
-; charlst2 = [html_escape_table.get(c, c) for c in charlst]
-(declare-fun charlst2 () (Array Int String))
-(declare-fun charlstlen2 () Int)
-(assert (= charlstlen2 charlstlen))
-(assert (forall ((i Int))
-    (or (or (< i 0) (>= i charlstlen2))
-        (and (exists ((j Int))
-               (= (select html_escape_table_keys j) (select charlst i))
-            )
-            (= (select charlst2 i) (select html_escape_table (select charlst i)))         
-        )
-        (and (not (exists ((j Int))
-                (= (select html_escape_table_keys j) (select charlst i))
-            ))
-            (= (select charlst2 i) (select charlst i))
-        )                        
-    )
-))
-(check-sat)
-(get-value (charlst2))
diff --git a/test/regress/regress0/bug590.smt2.expect b/test/regress/regress0/bug590.smt2.expect
deleted file mode 100644
index b24a807f7..000000000
--- a/test/regress/regress0/bug590.smt2.expect
+++ /dev/null
@@ -1,2 +0,0 @@
-% EXPECT: unknown
-% EXPECT: ((charlst2 ((as const (Array Int String)) "")))
diff --git a/test/regress/regress0/bug593.smt2 b/test/regress/regress0/bug593.smt2
deleted file mode 100644
index 2c28bb47c..000000000
--- a/test/regress/regress0/bug593.smt2
+++ /dev/null
@@ -1,20 +0,0 @@
-(set-logic QF_UFBV)
-(set-info :status unsat)
-
-(declare-sort A 0)
-
-(declare-fun f ((_ BitVec 1)) A)
-(declare-fun g (A) (_ BitVec 1))
-
-(declare-fun x () A)
-(declare-fun y () A)
-(declare-fun z () A)
- 
-(assert (and
- 
-(not (= (f (g x)) (f (g y))))
-(not (= (f (g x)) (f (g z))))
-(not (= (f (g y)) (f (g z))))))
-  
-(check-sat)
-
diff --git a/test/regress/regress0/bug681.smt2 b/test/regress/regress0/bug681.smt2
deleted file mode 100644
index 93d7b88c4..000000000
--- a/test/regress/regress0/bug681.smt2
+++ /dev/null
@@ -1,55 +0,0 @@
-; COMMAND-LINE: --lang=smt2.5
-; EXIT: 1
-; EXPECT: (error "Array theory solver does not yet support write-chains connecting two different constant arrays")
-(set-logic ALL_SUPPORTED)
-(declare-fun start!1 () Bool)
-
-(assert start!1)
-
-(declare-fun lt!2 () Bool)
-
-(assert (=> start!1 (not lt!2)))
-
-(declare-datatypes () ( (Option!3 (None!1) (Some!1 (v!18 Int))) ))
-
-(declare-datatypes () ( (Method!1 (Method!2 (initials!1 (Array Option!3 Int)))) ))
-
-(declare-fun lambda!2 () (Array Int Method!1))
-
-(declare-fun isValidStep!1 ((Array Int Method!1) (Array Int Option!3) (Array Int Option!3) Int Int Option!3) Bool)
-
-(declare-fun control!1 () (Array Int Option!3))
-
-(declare-fun next_control!0 () (Array Int Option!3))
-
-(assert (=> start!1 (= lt!2 (not (isValidStep!1 lambda!2 control!1 next_control!0 0 0 (Some!1 5))))))
-
-(declare-fun d!1 () Bool)
-
-(assert (=> d!1 (= (isValidStep!1 lambda!2 control!1 next_control!0 0 0 (Some!1 5)) (= next_control!0 (store control!1 0 (Some!1 (select (initials!1 (select lambda!2 0)) (Some!1 5))))))))
-
-(declare-fun methods!1 (Int) Method!1)
-
-(assert (=> d!1 (= (select lambda!2 0) (methods!1 0))))
-
-(declare-fun b_lambda!1 () Bool)
-
-(assert (=> (not b_lambda!1) (not d!1)))
-
-(assert (=> start!1 d!1))
-
-(declare-fun d!3 () Bool)
-
-(assert (=> d!3 (= control!1 ((as const (Array Int Option!3)) None!1))))
-
-(assert (=> start!1 d!3))
-
-(declare-fun d!5 () Bool)
-
-(assert (=> d!5 (= next_control!0 (store ((as const (Array Int Option!3)) None!1) 0 (Some!1 0)))))
-
-(assert (=> start!1 d!5))
-
-(assert true)
-
-(check-sat)
diff --git a/test/regress/regress0/bv/Makefile.am b/test/regress/regress0/bv/Makefile.am
index 912f6871d..44691d1e2 100644
--- a/test/regress/regress0/bv/Makefile.am
+++ b/test/regress/regress0/bv/Makefile.am
@@ -92,28 +92,17 @@ SMT_TESTS = \
 	fuzz41.smt \
 	calc2_sec2_shifter_mult_bmc15.atlas.delta01.smt \
 	smtcompbug.smt \
-	unsound1.smt2 \
 	unsound1-reduced.smt2 \
-	bv2nat-ground.smt2 \
 	bv2nat-ground-c.smt2 \
-	cmu-rdk-3.smt2 \
 	bv2nat-simp-range.smt2 \
-	bv2nat-simp-range-sat.smt2 \
 	bv-int-collapse1.smt2 \
 	bv-int-collapse2.smt2 \
-	bv-int-collapse2-sat.smt2 \
 	divtest_2_5.smt2 \
 	divtest_2_6.smt2 \
 	mul-neg-unsat.smt2 \
 	mul-negpow2.smt2 \
 	bvmul-pow2-only.smt2
 
-# This benchmark is currently disabled as it uses --check-proof
-# bench_38.delta.smt2
-
-# Regression tests for SMT2 inputs
-SMT2_TESTS = divtest.smt2
-
 # Regression tests for PL inputs
 CVC_TESTS = bvsimple.cvc sizecheck.cvc
 
@@ -123,11 +112,9 @@ BUG_TESTS = \
 	bug260b.smt \
 	bug440.smt \
 	bug733.smt2 \
-	bug734.smt2 \
-	bug_extract_mult_leading_bit.smt2 \
-	bug787.smt2
+	bug734.smt2 
 
-TESTS =	$(SMT_TESTS) $(SMT2_TESTS) $(CVC_TESTS) $(BUG_TESTS)
+TESTS =	$(SMT_TESTS) $(CVC_TESTS) $(BUG_TESTS)
 
 EXTRA_DIST = $(TESTS) \
 	test00.smt \
diff --git a/test/regress/regress0/bv/bench_38.delta.smt2 b/test/regress/regress0/bv/bench_38.delta.smt2
deleted file mode 100644
index 760614348..000000000
--- a/test/regress/regress0/bv/bench_38.delta.smt2
+++ /dev/null
@@ -1,7 +0,0 @@
-; COMMAND-LINE: --fewer-preprocessing-holes --check-proof --quiet
-; EXPECT: unsat
-(set-logic QF_BV)
-(declare-fun x () (_ BitVec 4))
-(assert (and (= (bvudiv (_ bv2 4) x) (_ bv2 4)) (= (_ bv0 4) x) (= (_ bv1 4) x)))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/bv/bug787.smt2 b/test/regress/regress0/bv/bug787.smt2
deleted file mode 100644
index 8e0ba0016..000000000
--- a/test/regress/regress0/bv/bug787.smt2
+++ /dev/null
@@ -1,91 +0,0 @@
-; COMMAND-LINE: --bitblast=eager --no-check-proofs
-; EXPECT: unsat
-(set-logic QF_BV)
-(set-info :status unsat)
-(define-fun hamming-weight ((bv (_ BitVec 4))) (_ BitVec 4)
- (bvadd
-  (bvadd
-   (bvadd ((_ zero_extend 3) ((_ extract 0 0) bv))
-    ((_ zero_extend 3) ((_ extract 1 1) bv)))
-   ((_ zero_extend 3) ((_ extract 2 2) bv)))
-  ((_ zero_extend 3) ((_ extract 3 3) bv))))
-(define-fun left-hamming-weight ((index (_ BitVec 4)) (bv (_ BitVec 4)))
- (_ BitVec 4)
- (hamming-weight (bvand bv (bvnot (bvsub (bvshl index (_ bv1 4)) (_ bv1 4))))))
-(define-fun right-hamming-weight ((index (_ BitVec 4)) (bv (_ BitVec 4)))
- (_ BitVec 4) (hamming-weight (bvand bv (bvsub index (_ bv1 4)))))
-(define-fun bit-1 ((bv (_ BitVec 4))) (_ BitVec 4) (bvand bv (bvneg bv)))
-(define-fun bit-2 ((bv (_ BitVec 4))) (_ BitVec 4)
- (bit-1 (bvand bv (bvsub bv (_ bv1 4)))))
-(define-fun bit-3 ((bv (_ BitVec 4))) (_ BitVec 4)
- (bit-2 (bvand bv (bvsub bv (_ bv1 4)))))
-(define-fun bit-4 ((bv (_ BitVec 4))) (_ BitVec 4)
- (bit-3 (bvand bv (bvsub bv (_ bv1 4)))))
-(define-fun bit-5 ((bv (_ BitVec 4))) (_ BitVec 4)
- (bit-4 (bvand bv (bvsub bv (_ bv1 4)))))
-(define-fun index-bit ((index (_ BitVec 4)) (bv (_ BitVec 4))) (_ BitVec 4)
- (ite (= index (_ bv0 4)) (bit-1 bv)
-  (ite (= index (_ bv1 4)) (bit-2 bv)
-   (ite (= index (_ bv2 4)) (bit-3 bv) (bit-4 bv)))))
-(define-fun permute
- ((index (_ BitVec 4)) (obj-0 (_ BitVec 4)) (obj-1 (_ BitVec 4))
-  (obj-2 (_ BitVec 4)) (obj-3 (_ BitVec 4)))
- (_ BitVec 4)
- (let ((my-index-bit (bvshl (_ bv1 4) index)))
-  (ite (= my-index-bit obj-0) (_ bv0 4)
-   (ite (= my-index-bit obj-1) (_ bv1 4)
-    (ite (= my-index-bit obj-2) (_ bv2 4) (_ bv3 4))))))
-(define-fun left-zeros ((index (_ BitVec 4))) (_ BitVec 8)
- (ite (bvugt index (_ bv2 4)) (ite (bvugt index (_ bv4 4)) (_ bv0 8) (_ bv1 8))
-  (ite (bvugt index (_ bv1 4)) (_ bv2 8) (_ bv3 8))))
-(define-fun centered ((index (_ BitVec 4)) (bv (_ BitVec 4))) (_ BitVec 8)
- (bvshl ((_ zero_extend 4) bv) (left-zeros index)))
-(declare-const v0 (_ BitVec 4))
-(assert (= (_ bv4 4) (hamming-weight v0)))
-(declare-const v1 (_ BitVec 4))
-(assert (= (_ bv4 4) (hamming-weight v1)))
-(declare-const vp1-0 (_ BitVec 4))
-(assert
- (or (= (_ bv1 4) vp1-0) (= (_ bv2 4) vp1-0) (= (_ bv4 4) vp1-0)
-  (= (_ bv8 4) vp1-0)))
-(declare-const vp1-1 (_ BitVec 4))
-(assert
- (or (= (_ bv1 4) vp1-1) (= (_ bv2 4) vp1-1) (= (_ bv4 4) vp1-1)
-  (= (_ bv8 4) vp1-1)))
-(declare-const vp1-2 (_ BitVec 4))
-(assert
- (or (= (_ bv1 4) vp1-2) (= (_ bv2 4) vp1-2) (= (_ bv4 4) vp1-2)
-  (= (_ bv8 4) vp1-2)))
-(declare-const vp1-3 (_ BitVec 4))
-(assert
- (or (= (_ bv1 4) vp1-3) (= (_ bv2 4) vp1-3) (= (_ bv4 4) vp1-3)
-  (= (_ bv8 4) vp1-3)))
-(assert (= (_ bv15 4) (bvor vp1-0 (bvor vp1-1 (bvor vp1-2 vp1-3)))))
-(assert
- (and
-  (= (_ bv0 8)
-     (bvxor
-      (bvand
-       (centered (index-bit (permute (_ bv0 4) vp1-0 vp1-1 vp1-2 vp1-3) v1) v1)
-       (centered (index-bit (_ bv0 4) v0) v0))
-      (_ bv8 8)))
-  (= (_ bv0 8)
-     (bvxor
-      (bvand
-       (centered (index-bit (permute (_ bv1 4) vp1-0 vp1-1 vp1-2 vp1-3) v1) v1)
-       (centered (index-bit (_ bv1 4) v0) v0))
-      (_ bv8 8)))
-  (= (_ bv0 8)
-     (bvxor
-      (bvand
-       (centered (index-bit (permute (_ bv2 4) vp1-0 vp1-1 vp1-2 vp1-3) v1) v1)
-       (centered (index-bit (_ bv2 4) v0) v0))
-      (_ bv8 8)))
-  (= (_ bv0 8)
-     (bvxor
-      (bvand
-       (centered (index-bit (permute (_ bv3 4) vp1-0 vp1-1 vp1-2 vp1-3) v1) v1)
-       (centered (index-bit (_ bv3 4) v0) v0))
-      (_ bv8 8)))))
-(check-sat)
-
diff --git a/test/regress/regress0/bv/bug_extract_mult_leading_bit.smt2 b/test/regress/regress0/bv/bug_extract_mult_leading_bit.smt2
deleted file mode 100644
index 8e3728587..000000000
--- a/test/regress/regress0/bv/bug_extract_mult_leading_bit.smt2
+++ /dev/null
@@ -1,7 +0,0 @@
-(set-logic QF_BV)
-(set-info :status sat)
-(declare-fun x1 () (_ BitVec 15))
-(declare-fun x2 () (_ BitVec 15))
-(assert (not (= ((_ extract 64 60) (bvmul (concat #b00000000000000000000000000000000000000000000000000 x1) (concat #b10000000000000000000000000000000000000000000000000 x2))) #b00000)))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/bv/bv-int-collapse2-sat.smt2 b/test/regress/regress0/bv/bv-int-collapse2-sat.smt2
deleted file mode 100644
index 4b97a3de9..000000000
--- a/test/regress/regress0/bv/bv-int-collapse2-sat.smt2
+++ /dev/null
@@ -1,8 +0,0 @@
-; COMMAND-LINE: --rewrite-divk --no-check-proofs --no-check-unsat-cores
-; EXPECT: sat
-(set-logic ALL_SUPPORTED)
-(set-info :status sat)
-(declare-fun t () Int)
-(assert (> t 0))
-(assert (not (= t (bv2nat ((_ int2bv 16) t)))))
-(check-sat)
diff --git a/test/regress/regress0/bv/bv2nat-ground.smt2 b/test/regress/regress0/bv/bv2nat-ground.smt2
deleted file mode 100644
index bfc22850e..000000000
--- a/test/regress/regress0/bv/bv2nat-ground.smt2
+++ /dev/null
@@ -1,18 +0,0 @@
-; COMMAND-LINE: --no-check-proofs --no-check-unsat-cores
-; EXPECT: unsat
-(set-logic QF_BVLIA)
-(set-info :status unsat)
-(declare-const a (_ BitVec 32))
-(declare-const b (_ BitVec 32))
-(declare-const c (_ BitVec 32))
-(declare-const d (_ BitVec 32))
-(declare-const e (_ BitVec 32))
-
-(assert (or (= a b) (= a c) (= a d) (= a e)))
-
-(assert (not (= (bv2nat a) (bv2nat b))))
-(assert (not (= (bv2nat a) (bv2nat c))))
-(assert (not (= (bv2nat a) (bv2nat d))))
-(assert (not (= (bv2nat a) (bv2nat e))))
-
-(check-sat)
diff --git a/test/regress/regress0/bv/bv2nat-simp-range-sat.smt2 b/test/regress/regress0/bv/bv2nat-simp-range-sat.smt2
deleted file mode 100644
index 7e98460b8..000000000
--- a/test/regress/regress0/bv/bv2nat-simp-range-sat.smt2
+++ /dev/null
@@ -1,5 +0,0 @@
-(set-logic ALL_SUPPORTED)
-(set-info :status sat)
-(declare-fun t () (_ BitVec 16))
-(assert (not (and (<= 0 (bv2nat t)) (< (bv2nat t) 65535))))
-(check-sat)
diff --git a/test/regress/regress0/bv/cmu-rdk-3.smt2 b/test/regress/regress0/bv/cmu-rdk-3.smt2
deleted file mode 100644
index 9e7733889..000000000
--- a/test/regress/regress0/bv/cmu-rdk-3.smt2
+++ /dev/null
@@ -1,11 +0,0 @@
-; COMMAND-LINE: --rewrite-divk
-; EXPECT: sat
-(set-logic ALL_SUPPORTED)
-(set-info :status sat)
-
-(declare-fun y () Int)
-(declare-fun x () Int)
-
-(assert (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (not (not (not (= (ite (= (bv2nat (bvand ((_ int2bv 3) (bv2nat (bvor ((_ int2bv 3) (bv2nat (bvashr ((_ int2bv 3) x) ((_ int2bv 3) 1)))) ((_ int2bv 3) (bv2nat (bvashr ((_ int2bv 3) x) ((_ int2bv 3) 1))))))) ((_ int2bv 3) 1))) 0) 1 0) 0)))) (not (= (ite (>= x 0) 1 0) 0))) (not (= (ite (>= y 0) 1 0) 0))) (not (= (ite (= x y) 1 0) 0))) (not (not (= (ite (= x 0) 1 0) 0)))) (not (not (= (ite (= y 0) 1 0) 0)))) (not (= (ite (= (bv2nat (bvand ((_ int2bv 3) (bv2nat (bvor ((_ int2bv 3) x) ((_ int2bv 3) x)))) ((_ int2bv 3) 1))) 0) 1 0) 0))) (and (= x (bv2nat ((_ int2bv 3) x))) (= 1 (bv2nat ((_ int2bv 3) 1))))) (= ((_ extract 0 0) (bvashr ((_ int2bv 3) x) ((_ int2bv 3) 1))) (_ bv0 1))) (and (= y (bv2nat ((_ int2bv 3) y))) (= 1 (bv2nat ((_ int2bv 3) 1))))) (= ((_ extract 0 0) (bvashr ((_ int2bv 3) y) ((_ int2bv 3) 1))) (_ bv0 1))) (and (= (bv2nat (bvashr ((_ int2bv 3) x) ((_ int2bv 3) 1))) (bv2nat ((_ int2bv 3) (bv2nat (bvashr ((_ int2bv 3) x) ((_ int2bv 3) 1)))))) (= (bv2nat (bvashr ((_ int2bv 3) x) ((_ int2bv 3) 1))) (bv2nat ((_ int2bv 3) (bv2nat (bvashr ((_ int2bv 3) x) ((_ int2bv 3) 1)))))))) (= ((_ extract 0 0) (bvor ((_ int2bv 3) (bv2nat (bvashr ((_ int2bv 3) x) ((_ int2bv 3) 1)))) ((_ int2bv 3) (bv2nat (bvashr ((_ int2bv 3) x) ((_ int2bv 3) 1)))))) (_ bv0 1))) (and (= (bv2nat (bvor ((_ int2bv 3) (bv2nat (bvashr ((_ int2bv 3) x) ((_ int2bv 3) 1)))) ((_ int2bv 3) (bv2nat (bvashr ((_ int2bv 3) x) ((_ int2bv 3) 1)))))) (bv2nat ((_ int2bv 3) (bv2nat (bvor ((_ int2bv 3) (bv2nat (bvashr ((_ int2bv 3) x) ((_ int2bv 3) 1)))) ((_ int2bv 3) (bv2nat (bvashr ((_ int2bv 3) x) ((_ int2bv 3) 1))))))))) (= 1 (bv2nat ((_ int2bv 3) 1))))) (= ((_ extract 0 0) (bvand ((_ int2bv 3) (bv2nat (bvor ((_ int2bv 3) (bv2nat (bvashr ((_ int2bv 3) x) ((_ int2bv 3) 1)))) ((_ int2bv 3) (bv2nat (bvashr ((_ int2bv 3) x) ((_ int2bv 3) 1))))))) ((_ int2bv 3) 1))) (_ bv0 1))) (and (= x (bv2nat ((_ int2bv 3) x))) (= x (bv2nat ((_ int2bv 3) x))))) (= ((_ extract 0 0) (bvor ((_ int2bv 3) x) ((_ int2bv 3) x))) (_ bv0 1))) (and (= (bv2nat (bvor ((_ int2bv 3) x) ((_ int2bv 3) x))) (bv2nat ((_ int2bv 3) (bv2nat (bvor ((_ int2bv 3) x) ((_ int2bv 3) x)))))) (= 1 (bv2nat ((_ int2bv 3) 1))))) (= ((_ extract 0 0) (bvand ((_ int2bv 3) (bv2nat (bvor ((_ int2bv 3) x) ((_ int2bv 3) x)))) ((_ int2bv 3) 1))) (_ bv0 1))))
-
-(check-sat)
diff --git a/test/regress/regress0/bv/decision-weight00.smt2 b/test/regress/regress0/bv/decision-weight00.smt2
deleted file mode 100644
index 1feb32c7f..000000000
--- a/test/regress/regress0/bv/decision-weight00.smt2
+++ /dev/null
@@ -1,19 +0,0 @@
-(set-option :produce-models true)
-(set-logic QF_BV)
-(set-info :source |
- Patrice Godefroid, SAGE (systematic dynamic test generation)
- For more information: http://research.microsoft.com/en-us/um/people/pg/public_psfiles/ndss2008.pdf
-|)
-(set-info :smt-lib-version 2.0)
-(set-info :category "industrial")
-(set-info :status unknown)
-(declare-fun x () (_ BitVec 32))
-(declare-fun y () (_ BitVec 32))
-(declare-fun z () (_ BitVec 4))
-(assert (or
-		(= x (bvmul x y))
-		(and (= x y)
-		     (not (= ((_ extract 2 2) x) ((_ extract 2 2) z))))
-		))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/bv/divtest.smt2 b/test/regress/regress0/bv/divtest.smt2
deleted file mode 100644
index fe91cb87b..000000000
--- a/test/regress/regress0/bv/divtest.smt2
+++ /dev/null
@@ -1,53 +0,0 @@
-(set-logic QF_BV)
-(set-info :status unsat)
-(declare-fun x1 () (_ BitVec 12))
-(declare-fun x2 () (_ BitVec 12))
-(declare-fun x3 () (_ BitVec 12))
-
-(declare-fun y1 () (_ BitVec 12))
-(declare-fun y2 () (_ BitVec 12))
-(declare-fun y3 () (_ BitVec 12))
-
-(declare-fun z1 () (_ BitVec 12))
-(declare-fun z2 () (_ BitVec 12))
-(declare-fun z3 () (_ BitVec 12))
-
-(declare-fun a () (_ BitVec 12))
-
-(declare-fun x01 () (_ BitVec 10))
-(declare-fun x02 () (_ BitVec 10))
-(declare-fun x03 () (_ BitVec 10))
-
-(declare-fun y01 () (_ BitVec 10))
-(declare-fun y02 () (_ BitVec 10))
-(declare-fun y03 () (_ BitVec 10))
-
-(declare-fun z01 () (_ BitVec 10))
-(declare-fun z02 () (_ BitVec 10))
-(declare-fun z03 () (_ BitVec 10))
-
-(declare-fun a0 () (_ BitVec 10))
-
-(assert
-(or 
-(and 
-	(= a (_ bv0 12))
-	(or (not (= (bvudiv x1 a) (bvudiv x2 a)))
-	    (not (= (bvudiv x1 a) (bvudiv x3 a)))
-	    (not (= (bvudiv x2 a) (bvudiv x3 a))))
-	(or (and (= x1 y1) (= y1 x2))
-	    (and (= x1 z1) (= z1 x2)))
-	(or (and (= x2 y2) (= y2 x3))
-	    (and (= x2 z2) (= z2 x3))))
-
-(and 
-	(= a0 (_ bv0 10))
-	(or (not (= (bvurem x01 a0) (bvurem x02 a0)))
-	    (not (= (bvurem x01 a0) (bvurem x03 a0)))
-	    (not (= (bvurem x02 a0) (bvurem x03 a0))))
-	(or (and (= x01 y01) (= y01 x02))
-	    (and (= x01 z01) (= z01 x02)))
-	(or (and (= x02 y02) (= y02 x03))
-	    (and (= x02 z02) (= z02 x03))))))
-	    
-(check-sat)
diff --git a/test/regress/regress0/bv/unsound1.smt2 b/test/regress/regress0/bv/unsound1.smt2
deleted file mode 100644
index 60e764537..000000000
--- a/test/regress/regress0/bv/unsound1.smt2
+++ /dev/null
@@ -1,23 +0,0 @@
-(set-logic QF_BV)
-(set-info :status sat)
-(declare-fun v0 () (_ BitVec 4))
-(assert (let ((e1(_ bv0 1)))
-(let ((e2(_ bv11134 16)))
-(let ((e3 (bvadd e2 ((_ sign_extend 12) v0))))
-(let ((e4 (ite (= e2 ((_ sign_extend 12) v0)) (_ bv1 1) (_ bv0 1))))
-(let ((e5 (bvlshr e3 ((_ sign_extend 12) v0))))
-(let ((e6 (bvxnor e2 ((_ zero_extend 12) v0))))
-(let ((e7 (ite (bvult ((_ sign_extend 15) e1) e2) (_ bv1 1) (_ bv0 1))))
-(let ((e8 (bvugt e7 e1)))
-(let ((e9 (bvule ((_ sign_extend 3) e7) v0)))
-(let ((e10 (bvsgt e5 ((_ zero_extend 12) v0))))
-(let ((e11 (= e6 e3)))
-(let ((e12 (bvslt ((_ zero_extend 15) e4) e5)))
-(let ((e13 (bvugt e5 e2)))
-(let ((e14 (ite e10 e8 e10)))
-(let ((e15 (xor e13 e11)))
-(let ((e16 (xor e14 e15)))
-(let ((e17 (ite e9 e12 e16)))
-e17
-))))))))))))))))))
-(check-sat)
diff --git a/test/regress/regress0/crash_burn_locusts.smt2 b/test/regress/regress0/crash_burn_locusts.smt2
deleted file mode 100644
index 313d6f79c..000000000
--- a/test/regress/regress0/crash_burn_locusts.smt2
+++ /dev/null
@@ -1,29 +0,0 @@
-;; This is a nasty parsing test for define-fun-rec
-
-(set-logic UFLIRA)
-(set-info :smt-lib-version 2.5)
-(define-fun-rec (
-   (f ((x Int)) Int 5) ;; ok, f : Int -> Int
-   (g ((x Int)) Int (h 4)) ;;  um, ok, so g : Int -> Int and h : Int -> Int?
-   (h ((x Real)) Int 4)   ;; oops no we were wrong, **CRASH**
-))
-
-(reset)
-
-(set-logic UFLIRA)
-(set-info :smt-lib-version 2.5)
-(define-fun-rec (
-   (f ((x Int)) Int (g (h 4) 5)) ;; ok, f : Int -> Int and g : Int -> X -> Int and h : Int -> X ??!  What the F?! (pun intended)
-   (g ((x Int)) Int 5) ;; wait, now g has wrong arity?!!  **BURN**
-   (h ((x Int)) Int 2)
-))
-
-(reset)
-
-(set-logic UFLIRA)
-(set-info :smt-lib-version 2.5)
-(declare-const g Int 2)
-(define-fun-rec (
-  (f () Int g)  ;; wait, which g does this refer to?!  **LOCUSTS**
-  (g () Int 5)
-))
diff --git a/test/regress/regress0/datatypes/Makefile.am b/test/regress/regress0/datatypes/Makefile.am
index a71c15869..7200b813d 100644
--- a/test/regress/regress0/datatypes/Makefile.am
+++ b/test/regress/regress0/datatypes/Makefile.am
@@ -70,7 +70,6 @@ TESTS =	\
 	conqueue-dt-enum-iloop.smt2 \
 	coda_simp_model.smt2 \
 	Test1-tup-mp.cvc \
-	dt-param-card4-unsat.smt2 \
 	dt-param-card4-bool-sat.smt2 \
 	bug604.smt2 \
 	bug597-rbt.smt2 \
@@ -78,11 +77,9 @@ TESTS =	\
 	dt-2.6.smt2  \
 	dt-sel-2.6.smt2 \
 	dt-param-2.6.smt2 \
-	dt-color-2.6.smt2 \
 	dt-match-pat-param-2.6.smt2 \
 	tuple-no-clash.cvc \
 	jsat-2.6.smt2 \
-	acyclicity-sr-ground096.smt2 \
 	model-subterms-min.smt2 \
 	issue1433.smt2 \
         tuples-empty.smt2 \
@@ -90,20 +87,12 @@ TESTS =	\
 
 # rec5 -- no longer support subrange types
 FAILING_TESTS = \
-	datatype-dump.cvc \
-	rec5.cvc
+	datatype-dump.cvc
 
 EXTRA_DIST = $(TESTS)
 
-if CVC4_BUILD_PROFILE_COMPETITION
-else
-TESTS += \
-	error.cvc
-endif
-
 # and make sure to distribute it
 EXTRA_DIST += \
-	error.cvc \
 	$(FAILING_TESTS)
 
 # synonyms for "check"
diff --git a/test/regress/regress0/datatypes/acyclicity-sr-ground096.smt2 b/test/regress/regress0/datatypes/acyclicity-sr-ground096.smt2
deleted file mode 100644
index 1da69b279..000000000
--- a/test/regress/regress0/datatypes/acyclicity-sr-ground096.smt2
+++ /dev/null
@@ -1,78 +0,0 @@
-(set-logic QF_DT)
-(set-info :status unsat)
-(declare-datatypes ((T 0)) (( (f0) (f1 (proj0f1 T) (proj1f1 T) (proj2f1 T) (proj3f1 T)) (f2 (proj0f2 T) (proj1f2 T) (proj2f2 T)) (f3 (proj0f3 T) (proj1f3 T)) )))
-(declare-fun uc0 () T)
-(declare-fun uc1 () T)
-(declare-fun uc2 () T)
-(declare-fun uc3 () T)
-(declare-fun uc4 () T)
-(declare-fun uc5 () T)
-(declare-fun uc6 () T)
-(declare-fun uc7 () T)
-(declare-fun uc8 () T)
-(declare-fun uc9 () T)
-(declare-fun uc10 () T)
-(declare-fun uc11 () T)
-(declare-fun uc12 () T)
-(declare-fun uc13 () T)
-(declare-fun uc14 () T)
-(declare-fun uc15 () T)
-(declare-fun uc16 () T)
-(declare-fun uc17 () T)
-(declare-fun uc18 () T)
-(declare-fun uc19 () T)
-(declare-fun uc20 () T)
-(declare-fun uc21 () T)
-(declare-fun uc22 () T)
-(declare-fun uc23 () T)
-(declare-fun uc24 () T)
-(declare-fun uc25 () T)
-(declare-fun uc26 () T)
-(declare-fun uc27 () T)
-(declare-fun uc28 () T)
-(declare-fun uc29 () T)
-(declare-fun uc30 () T)
-(declare-fun uc31 () T)
-(declare-fun uc32 () T)
-(declare-fun uc33 () T)
-(declare-fun uc34 () T)
-(declare-fun uc35 () T)
-(declare-fun uc36 () T)
-(declare-fun uc37 () T)
-(declare-fun uc38 () T)
-(declare-fun uc39 () T)
-(declare-fun uc40 () T)
-(declare-fun uc41 () T)
-(declare-fun uc42 () T)
-(declare-fun uc43 () T)
-(declare-fun uc44 () T)
-(declare-fun uc45 () T)
-(declare-fun uc46 () T)
-(declare-fun uc47 () T)
-(declare-fun uc48 () T)
-(declare-fun uc49 () T)
-(declare-fun uc50 () T)
-(declare-fun uc51 () T)
-(declare-fun uc52 () T)
-(declare-fun uc53 () T)
-(declare-fun uc54 () T)
-(declare-fun uc55 () T)
-(declare-fun uc56 () T)
-(declare-fun uc57 () T)
-(declare-fun uc58 () T)
-(declare-fun uc59 () T)
-(declare-fun uc60 () T)
-(declare-fun uc61 () T)
-(declare-fun uc62 () T)
-(declare-fun uc63 () T)
-(declare-fun uc64 () T)
-(declare-fun uc65 () T)
-(declare-fun uc66 () T)
-(declare-fun uc67 () T)
-(declare-fun uc68 () T)
-(declare-fun uc69 () T)
-(declare-fun uc70 () T)
-(declare-fun uc71 () T)
-(declare-fun uc72 () T)
-(assert (or (and (= uc0 (f2 (f2 uc1 uc1 uc1) (f1 uc1 (f3 (f1 uc1 uc1 uc1 uc1) uc1) uc1 (f1 uc1 uc1 uc1 uc1)) (f3 uc1 (f3 (f2 uc1 uc1 uc1) (f2 uc1 uc1 uc1))))) (= uc1 (f1 uc2 (f1 (f3 uc2 uc2) (f2 uc2 uc2 uc2) (f3 uc2 uc2) (f3 uc2 uc2)) uc2 (f2 uc2 (f3 uc2 uc2) (f3 uc2 uc2)))) (= uc2 (f2 (f3 uc3 uc3) (f2 (f2 uc3 uc3 uc3) uc3 (f3 uc3 uc3)) (f2 uc3 uc3 uc3))) (= uc3 (f1 uc4 (f3 (f1 uc4 uc4 uc4 uc4) uc4) (f1 uc4 uc4 uc4 uc4) (f3 uc4 uc4))) (= uc4 (f1 (f2 uc5 uc5 uc5) (f2 uc5 uc5 uc5) (f1 uc5 uc5 uc5 uc5) uc5)) (= uc5 (f3 (f2 uc6 (f3 uc6 uc6) (f2 uc6 uc6 uc6)) uc6)) (= uc6 (f3 (f2 (f2 uc7 uc7 uc7) (f1 uc7 uc7 uc7 uc7) (f3 uc7 uc7)) uc7)) (= uc7 (f1 (f1 uc8 (f2 uc8 uc8 uc8) (f3 uc8 uc8) uc8) (f3 (f1 uc8 uc8 uc8 uc8) uc8) (f1 (f1 uc8 uc8 uc8 uc8) (f3 uc8 uc8) uc8 uc8) uc8)) (= uc8 (f3 (f2 (f3 uc9 uc9) uc9 (f1 uc9 uc9 uc9 uc9)) uc9)) (= uc9 (f1 (f1 (f1 uc10 uc10 uc10 uc10) (f2 uc10 uc10 uc10) (f3 uc10 uc10) (f1 uc10 uc10 uc10 uc10)) uc10 uc10 (f3 uc10 (f2 uc10 uc10 uc10)))) (= uc10 (f2 (f2 (f3 uc11 uc11) uc11 uc11) uc11 (f2 (f1 (f3 uc11 uc11) (f3 uc11 uc11) uc11 uc11) (f3 (f3 uc11 uc11) (f1 uc11 uc11 uc11 uc11)) (f3 uc11 (f1 uc11 uc11 uc11 uc11))))) (= uc11 (f3 (f3 uc12 (f2 uc12 uc12 uc12)) uc12)) (= uc12 (f3 (f1 (f2 uc0 uc0 uc0) uc0 (f3 uc0 uc0) (f1 uc0 uc0 uc0 uc0)) (f2 (f2 uc0 uc0 uc0) (f1 uc0 uc0 uc0 (f1 uc0 uc0 uc0 uc0)) (f1 uc0 uc0 uc0 uc0))))) (and (= uc13 (f1 (f1 uc14 uc14 uc14 uc14) (f3 uc14 uc14) (f3 uc14 uc14) (f3 uc14 uc14))) (= uc14 (f3 uc15 uc15)) (= uc15 (f3 uc16 (f2 uc16 uc16 uc16))) (= uc16 (f3 (f3 uc17 uc17) uc17)) (= uc17 (f3 (f3 uc18 uc18) (f1 uc18 uc18 uc18 uc18))) (= uc18 (f3 (f3 uc19 uc19) (f3 uc19 uc19))) (= uc19 (f1 (f1 uc20 uc20 uc20 uc20) uc20 (f3 uc20 uc20) (f2 uc20 uc20 uc20))) (= uc20 (f1 (f1 uc13 (f3 uc13 uc13) uc13 uc13) (f2 uc13 uc13 uc13) (f2 uc13 (f1 uc13 uc13 uc13 uc13) (f1 uc13 uc13 uc13 uc13)) uc13))) (and (= uc21 (f3 uc22 uc22)) (= uc22 (f2 uc23 (f2 (f1 uc23 uc23 uc23 (f3 uc23 uc23)) (f2 uc23 uc23 (f1 uc23 uc23 uc23 uc23)) (f3 uc23 uc23)) (f2 (f3 (f3 uc23 uc23) (f1 uc23 uc23 uc23 uc23)) (f1 (f3 uc23 uc23) (f2 uc23 uc23 uc23) uc23 (f2 uc23 uc23 uc23)) uc23))) (= uc23 (f1 (f2 uc21 uc21 uc21) (f2 uc21 uc21 uc21) (f3 uc21 uc21) uc21))) (and (= uc24 (f3 uc25 uc25)) (= uc25 (f3 (f3 (f3 uc26 uc26) (f3 uc26 uc26)) (f1 (f3 uc26 uc26) uc26 uc26 (f2 uc26 uc26 uc26)))) (= uc26 (f1 uc27 uc27 uc27 uc27)) (= uc27 (f2 (f3 uc28 uc28) (f2 (f2 (f1 uc28 uc28 uc28 uc28) (f1 uc28 uc28 uc28 uc28) (f2 uc28 uc28 uc28)) (f3 (f3 uc28 uc28) uc28) (f3 (f3 uc28 uc28) (f2 uc28 uc28 uc28))) uc28)) (= uc28 (f1 (f3 uc29 uc29) (f1 uc29 (f1 (f1 uc29 uc29 uc29 uc29) (f1 uc29 uc29 uc29 uc29) uc29 (f1 uc29 uc29 uc29 uc29)) uc29 (f3 uc29 (f3 uc29 uc29))) (f3 (f2 uc29 uc29 uc29) (f2 uc29 uc29 uc29)) (f2 (f1 (f1 uc29 uc29 uc29 uc29) uc29 (f3 uc29 uc29) uc29) (f3 (f3 uc29 uc29) (f1 uc29 uc29 uc29 uc29)) uc29))) (= uc29 (f2 uc30 (f1 uc30 uc30 uc30 uc30) uc30)) (= uc30 (f2 (f3 uc31 uc31) (f3 uc31 uc31) uc31)) (= uc31 (f1 (f3 uc32 uc32) (f3 uc32 uc32) (f2 uc32 uc32 uc32) uc32)) (= uc32 (f1 (f1 uc33 uc33 uc33 uc33) uc33 uc33 uc33)) (= uc33 (f3 (f3 uc34 uc34) (f1 (f1 uc34 uc34 uc34 uc34) (f1 uc34 uc34 uc34 uc34) (f3 uc34 uc34) uc34))) (= uc34 (f2 uc35 (f3 uc35 uc35) (f2 uc35 uc35 uc35))) (= uc35 (f3 uc36 (f3 uc36 (f3 uc36 uc36)))) (= uc36 (f3 (f3 uc37 uc37) uc37)) (= uc37 (f1 uc38 (f3 uc38 uc38) uc38 (f1 uc38 uc38 uc38 uc38))) (= uc38 (f2 (f3 uc39 uc39) (f2 uc39 uc39 uc39) uc39)) (= uc39 (f2 (f2 (f3 uc24 (f1 uc24 uc24 uc24 uc24)) (f2 (f1 uc24 uc24 uc24 uc24) (f1 uc24 uc24 uc24 uc24) (f1 uc24 uc24 uc24 uc24)) uc24) (f1 (f3 uc24 (f1 uc24 uc24 uc24 uc24)) (f1 uc24 uc24 uc24 uc24) (f1 uc24 uc24 uc24 uc24) uc24) (f1 uc24 uc24 uc24 uc24)))) (and (= uc40 (f3 uc41 uc41)) (= uc41 (f1 uc42 uc42 uc42 uc42)) (= uc42 (f1 (f1 (f2 uc43 uc43 uc43) (f2 uc43 uc43 uc43) uc43 uc43) (f3 uc43 uc43) (f3 uc43 (f2 uc43 uc43 uc43)) uc43)) (= uc43 (f1 (f3 uc44 uc44) uc44 uc44 (f3 uc44 (f3 uc44 uc44)))) (= uc44 (f2 uc45 uc45 uc45)) (= uc45 (f3 uc46 (f3 (f3 (f1 uc46 uc46 uc46 uc46) uc46) (f1 uc46 uc46 uc46 uc46)))) (= uc46 (f3 (f1 (f3 uc47 uc47) uc47 (f1 uc47 uc47 uc47 uc47) (f2 uc47 uc47 uc47)) (f3 (f2 uc47 uc47 uc47) (f2 uc47 uc47 uc47)))) (= uc47 (f1 (f2 (f1 uc48 uc48 uc48 uc48) (f1 uc48 uc48 uc48 uc48) uc48) (f3 (f1 uc48 uc48 uc48 uc48) (f2 uc48 uc48 uc48)) uc48 uc48)) (= uc48 (f2 uc49 (f1 (f3 uc49 uc49) (f3 uc49 uc49) (f1 uc49 uc49 uc49 uc49) (f1 uc49 uc49 uc49 uc49)) (f1 (f1 uc49 uc49 uc49 uc49) (f2 uc49 uc49 uc49) uc49 (f1 (f3 uc49 uc49) (f3 uc49 uc49) (f2 uc49 uc49 uc49) (f3 uc49 uc49))))) (= uc49 (f2 uc50 uc50 (f1 (f1 (f1 uc50 uc50 uc50 uc50) uc50 uc50 uc50) (f3 uc50 uc50) uc50 uc50))) (= uc50 (f1 (f1 uc51 uc51 uc51 uc51) uc51 (f3 uc51 uc51) (f2 uc51 uc51 uc51))) (= uc51 (f1 uc52 uc52 uc52 uc52)) (= uc52 (f1 (f3 (f1 uc40 uc40 uc40 uc40) (f3 (f1 uc40 uc40 uc40 uc40) (f2 uc40 uc40 uc40))) (f1 (f2 uc40 (f2 uc40 uc40 uc40) (f2 uc40 uc40 uc40)) uc40 (f2 uc40 uc40 uc40) (f2 (f2 uc40 uc40 uc40) uc40 uc40)) (f1 uc40 uc40 uc40 uc40) (f3 (f3 (f1 uc40 uc40 uc40 uc40) (f3 uc40 uc40)) (f3 uc40 uc40))))) (and (= uc53 (f1 uc54 uc54 (f1 uc54 uc54 uc54 uc54) (f2 uc54 uc54 uc54))) (= uc54 (f1 uc55 (f2 uc55 uc55 uc55) uc55 (f2 (f3 uc55 uc55) (f2 uc55 uc55 uc55) (f1 uc55 uc55 uc55 uc55)))) (= uc55 (f2 (f1 uc56 uc56 uc56 uc56) (f1 uc56 uc56 uc56 uc56) (f3 uc56 uc56))) (= uc56 (f2 (f1 (f1 uc57 uc57 uc57 uc57) uc57 (f2 uc57 uc57 uc57) (f1 uc57 uc57 uc57 uc57)) (f1 (f1 (f2 uc57 uc57 uc57) uc57 (f1 uc57 uc57 uc57 uc57) (f1 uc57 uc57 uc57 uc57)) (f1 uc57 uc57 uc57 (f2 uc57 uc57 uc57)) uc57 (f1 uc57 uc57 uc57 uc57)) (f2 uc57 uc57 (f3 (f1 uc57 uc57 uc57 uc57) uc57)))) (= uc57 (f3 uc58 (f2 uc58 (f3 uc58 uc58) (f2 uc58 uc58 uc58)))) (= uc58 (f2 (f2 uc59 (f1 (f1 uc59 uc59 uc59 uc59) (f1 uc59 uc59 uc59 uc59) (f2 uc59 uc59 uc59) (f2 uc59 uc59 uc59)) (f3 (f3 uc59 uc59) uc59)) (f1 uc59 uc59 uc59 uc59) uc59)) (= uc59 (f3 uc60 (f2 uc60 (f3 uc60 uc60) uc60))) (= uc60 (f3 uc61 (f2 uc61 uc61 uc61))) (= uc61 (f2 (f2 (f1 uc62 uc62 uc62 uc62) uc62 (f3 uc62 uc62)) (f1 uc62 uc62 uc62 uc62) uc62)) (= uc62 (f1 uc63 (f1 uc63 uc63 uc63 (f3 uc63 uc63)) (f3 uc63 uc63) (f1 uc63 uc63 uc63 uc63))) (= uc63 (f1 (f2 uc64 uc64 uc64) (f2 uc64 uc64 uc64) uc64 uc64)) (= uc64 (f1 (f3 (f1 uc65 uc65 uc65 uc65) uc65) (f2 uc65 uc65 uc65) (f2 uc65 uc65 uc65) (f2 uc65 (f1 (f2 uc65 uc65 uc65) uc65 (f2 uc65 uc65 uc65) (f2 uc65 uc65 uc65)) (f1 uc65 uc65 uc65 uc65)))) (= uc65 (f1 uc66 uc66 uc66 uc66)) (= uc66 (f3 (f1 uc67 uc67 uc67 uc67) (f1 uc67 uc67 uc67 uc67))) (= uc67 (f1 (f2 uc68 uc68 (f1 uc68 uc68 uc68 uc68)) uc68 (f1 uc68 uc68 uc68 uc68) (f3 (f1 uc68 uc68 uc68 uc68) uc68))) (= uc68 (f1 (f1 (f3 (f3 uc69 uc69) (f3 uc69 uc69)) (f3 uc69 uc69) uc69 uc69) (f3 (f3 uc69 (f2 uc69 uc69 uc69)) uc69) (f2 (f3 (f3 uc69 uc69) (f1 uc69 uc69 uc69 uc69)) (f1 uc69 (f3 uc69 uc69) uc69 uc69) (f2 uc69 uc69 uc69)) (f1 (f1 (f1 uc69 uc69 uc69 uc69) (f1 uc69 uc69 uc69 uc69) uc69 (f1 uc69 uc69 uc69 uc69)) (f2 (f2 uc69 uc69 uc69) (f2 uc69 uc69 uc69) uc69) uc69 uc69))) (= uc69 (f3 uc70 uc70)) (= uc70 (f1 uc71 (f1 (f1 uc71 uc71 uc71 uc71) (f1 uc71 uc71 uc71 uc71) (f1 uc71 uc71 uc71 uc71) (f1 uc71 uc71 uc71 uc71)) (f2 uc71 uc71 uc71) (f3 uc71 uc71))) (= uc71 (f3 (f3 uc72 (f3 uc72 uc72)) (f3 (f3 uc72 uc72) (f1 uc72 uc72 uc72 uc72)))) (= uc72 (f1 uc53 uc53 uc53 uc53)))))
-(check-sat)
diff --git a/test/regress/regress0/datatypes/bug341.cvc b/test/regress/regress0/datatypes/bug341.cvc
deleted file mode 100644
index 69969a36f..000000000
--- a/test/regress/regress0/datatypes/bug341.cvc
+++ /dev/null
@@ -1,5 +0,0 @@
-% EXPECT: invalid
-
-f : [0..2] ->  INT;
-
-QUERY( f(0) = 0 );
diff --git a/test/regress/regress0/datatypes/dt-color-2.6.smt2 b/test/regress/regress0/datatypes/dt-color-2.6.smt2
deleted file mode 100644
index f6148994e..000000000
--- a/test/regress/regress0/datatypes/dt-color-2.6.smt2
+++ /dev/null
@@ -1,17 +0,0 @@
-; COMMAND-LINE: --lang=smt2.6
-; EXPECT: unsat
-(set-logic ALL)
-(set-info :status unsat)
-(declare-datatype Color ( ( red ) ( green ) ( blue ) ))
-
-(declare-fun a () Color)
-(declare-fun b () Color)
-(declare-fun c () Color)
-(declare-fun d () Color)
-
-(assert (or (distinct a b c d)
- (< (match a ((red 5) (green 3) (blue 2))) 0)
- (< (match b ((red 2) (_ 1))) 0)
- ))
-
-(check-sat)
diff --git a/test/regress/regress0/datatypes/dt-param-card4-unsat.smt2 b/test/regress/regress0/datatypes/dt-param-card4-unsat.smt2
deleted file mode 100644
index d403cf4ee..000000000
--- a/test/regress/regress0/datatypes/dt-param-card4-unsat.smt2
+++ /dev/null
@@ -1,16 +0,0 @@
-; COMMAND-LINE: --lang=smt2.5
-; EXPECT: unsat
-(set-logic QF_ALL_SUPPORTED)
-(set-info :status unsat)
-(declare-datatypes (T S) ( (Pair (pair (first T) (second S)) ) ) )
-
-(declare-datatypes () ((Color (red) (blue))))
-
-(declare-fun p1 () (Pair Color Color))
-(declare-fun p2 () (Pair Color Color))
-(declare-fun p3 () (Pair Color Color))
-(declare-fun p4 () (Pair Color Color))
-(declare-fun p5 () (Pair Color Color))
-
-(assert (distinct p1 p2 p3 p4 p5))
-(check-sat)
diff --git a/test/regress/regress0/datatypes/error.cvc b/test/regress/regress0/datatypes/error.cvc
deleted file mode 100644
index 23e658e6c..000000000
--- a/test/regress/regress0/datatypes/error.cvc
+++ /dev/null
@@ -1,7 +0,0 @@
-% EXPECT-ERROR: CVC4 Error:
-% EXPECT-ERROR: Parse Error: foo already declared in this datatype
-% EXIT: 1
-
-DATATYPE single_ctor = foo(bar:REAL) | foo(bar2:REAL) END;
-DATATYPE double_ctor = foo(bar:REAL) END;
-
diff --git a/test/regress/regress0/datatypes/rec5.cvc b/test/regress/regress0/datatypes/rec5.cvc
deleted file mode 100644
index b4da49d78..000000000
--- a/test/regress/regress0/datatypes/rec5.cvc
+++ /dev/null
@@ -1,204 +0,0 @@
-% EXPECT: invalid
-bit__ty: TYPE = [0..1];
-bc1553__lru_name: TYPE = [0..11];
-bus__inputs__type: TYPE;
-bus__word_index: TYPE = INT;
-cartesian__position: TYPE = [# x: INT, y: INT, z: INT #];
-ibit__phase: TYPE = [0..6];
-measuretypes__meter: TYPE = INT;
-bc1553__asi: [0..11];
-bc1553__barometer: [0..11];
-bc1553__compass: [0..11];
-bc1553__destruct: [0..11];
-bc1553__fins: [0..11];
-bc1553__fuel: [0..11];
-bc1553__fuze: [0..11];
-bc1553__infrared: [0..11];
-bc1553__ins: [0..11];
-bc1553__lru_name__base__first: [0..11];
-bc1553__lru_name__base__last: [0..11];
-bc1553__lru_name__first: [0..11];
-bc1553__lru_name__last: [0..11];
-bc1553__lru_name__size: INT;
-bc1553__motor: [0..11];
-bc1553__radar: [0..11];
-bc1553__warhead: [0..11];
-bus__all_msg_index__base__first: INT;
-bus__all_msg_index__base__last: INT;
-bus__all_msg_index__first: INT;
-bus__all_msg_index__last: INT;
-bus__all_msg_index__size: INT;
-bus__lru_subaddress_index__base__first: INT;
-bus__lru_subaddress_index__base__last: INT;
-bus__lru_subaddress_index__first: INT;
-bus__lru_subaddress_index__last: INT;
-bus__lru_subaddress_index__size: INT;
-bus__word__base__first: INT;
-bus__word__base__last: INT;
-bus__word__first: INT;
-bus__word__last: INT;
-bus__word__size: INT;
-bus__word_index__base__first: INT;
-bus__word_index__base__last: INT;
-bus__word_index__first: INT;
-bus__word_index__last: INT;
-bus__word_index__size: INT;
-bus_id: [0..11];
-ibit__fail: [0..6];
-ibit__in_progress: [0..6];
-ibit__off: [0..6];
-ibit__pass: [0..6];
-ibit__phase__base__first: [0..6];
-ibit__phase__base__last: [0..6];
-ibit__phase__first: [0..6];
-ibit__phase__last: [0..6];
-ibit__phase__size: INT;
-ibit__request_start: [0..6];
-ibit__request_stop: [0..6];
-ibit__timeout: [0..6];
-integer__base__first: INT;
-integer__base__last: INT;
-integer__first: INT;
-integer__last: INT;
-integer__size: INT;
-measuretypes__meter__base__first: INT;
-measuretypes__meter__base__last: INT;
-measuretypes__meter__first: INT;
-measuretypes__meter__last: INT;
-measuretypes__meter__size: INT;
-systemtypes__unsigned16__base__first: INT;
-systemtypes__unsigned16__base__last: INT;
-systemtypes__unsigned16__first: INT;
-systemtypes__unsigned16__last: INT;
-systemtypes__unsigned16__size: INT;
-bus__inputs: bus__inputs__type;
-bus__inputs__tilde: bus__inputs__type;
-ibit_request: [0..6];
-ibit_request__5: [0..6];
-ibit_request__5__tilde: [0..6];
-ibit_request__tilde: [0..6];
-last_position: [# x: INT, y: INT, z: INT #];
-last_position__1: [# x: INT, y: INT, z: INT #];
-last_position__1__tilde: [# x: INT, y: INT, z: INT #];
-last_position__2: [# x: INT, y: INT, z: INT #];
-last_position__2__tilde: [# x: INT, y: INT, z: INT #];
-last_position__3: [# x: INT, y: INT, z: INT #];
-last_position__3__tilde: [# x: INT, y: INT, z: INT #];
-last_position__tilde: [# x: INT, y: INT, z: INT #];
-word: INT;
-word__4: INT;
-word__4__tilde: INT;
-word__tilde: INT;
-bc1553__is_fresh: ([0..11], INT, bus__inputs__type) ->  BOOLEAN;
-bc1553__is_valid: ([0..11], INT, bus__inputs__type) ->  BOOLEAN;
-bc1553__lru_name__LE: ([0..11], [0..11]) ->  BOOLEAN;
-bc1553__lru_name__pos: [0..11] ->  INT;
-bc1553__lru_name__pred: [0..11] ->  [0..11];
-bc1553__lru_name__succ: [0..11] ->  [0..11];
-bc1553__lru_name__val: INT ->  [0..11];
-character__pos: INT ->  INT;
-character__val: INT ->  INT;
-ibit__phase__LE: ([0..6], [0..6]) ->  BOOLEAN;
-ibit__phase__pos: [0..6] ->  INT;
-ibit__phase__pred: [0..6] ->  [0..6];
-ibit__phase__succ: [0..6] ->  [0..6];
-ibit__phase__val: INT ->  [0..6];
-integer__pred: INT ->  INT;
-integer__succ: INT ->  INT;
-round__: REAL ->  INT;
-int__div: (INT, INT) ->  INT;
-int__mod: (INT, INT) ->  INT;
-ASSERT (bus_id = bc1553__ins);
-ASSERT (0 <= integer__size);
-ASSERT (integer__first = -(2147483647));
-ASSERT (integer__last = 2147483647);
-ASSERT (integer__base__first = -(2147483647));
-ASSERT (integer__base__last = 2147483647);
-ASSERT (0 <= systemtypes__unsigned16__size);
-ASSERT (systemtypes__unsigned16__first = 0);
-ASSERT (systemtypes__unsigned16__last = 65535);
-ASSERT (systemtypes__unsigned16__base__first = -(2147483647));
-ASSERT (systemtypes__unsigned16__base__last = 2147483647);
-ASSERT (0 <= measuretypes__meter__size);
-ASSERT (measuretypes__meter__first = -(200000));
-ASSERT (measuretypes__meter__last = 200000);
-ASSERT (measuretypes__meter__base__first = -(2147483647));
-ASSERT (measuretypes__meter__base__last = 2147483647);
-ASSERT (0 <= bus__word_index__size);
-ASSERT (bus__word_index__first = 1);
-ASSERT (bus__word_index__last = 31);
-ASSERT (bus__word_index__base__first <= bus__word_index__base__last);
-ASSERT (bus__word_index__base__first <= bus__word_index__first);
-ASSERT (bus__word_index__last <= bus__word_index__base__last);
-ASSERT (0 <= bus__word__size);
-ASSERT (bus__word__first = 0);
-ASSERT (bus__word__last = 65535);
-ASSERT (bus__word__base__first = -(2147483647));
-ASSERT (bus__word__base__last = 2147483647);
-ASSERT (0 <= bus__all_msg_index__size);
-ASSERT (bus__all_msg_index__first = 0);
-ASSERT (bus__all_msg_index__last = 63);
-ASSERT (bus__all_msg_index__base__first = -(32768));
-ASSERT (bus__all_msg_index__base__last = 32767);
-ASSERT (0 <= bus__lru_subaddress_index__size);
-ASSERT (bus__lru_subaddress_index__first = 1);
-ASSERT (bus__lru_subaddress_index__last = 8);
-ASSERT (bus__lru_subaddress_index__base__first = -(32768));
-ASSERT (bus__lru_subaddress_index__base__last = 32767);
-ASSERT (0 <= bc1553__lru_name__size);
-ASSERT (bc1553__lru_name__first = bc1553__barometer);
-ASSERT (bc1553__lru_name__last = bc1553__warhead);
-ASSERT (bc1553__lru_name__base__first = bc1553__barometer);
-ASSERT (bc1553__lru_name__base__last = bc1553__warhead);
-ASSERT (0 <= ibit__phase__size);
-ASSERT (ibit__phase__first = ibit__off);
-ASSERT (ibit__phase__last = ibit__timeout);
-ASSERT (ibit__phase__base__first = ibit__off);
-ASSERT (ibit__phase__base__last = ibit__timeout);
-ASSERT (bc1553__barometer = 0);
-ASSERT (bc1553__asi = 1);
-ASSERT (bc1553__ins = 2);
-ASSERT (bc1553__compass = 3);
-ASSERT (bc1553__fuel = 4);
-ASSERT (bc1553__fuze = 5);
-ASSERT (bc1553__radar = 6);
-ASSERT (bc1553__infrared = 7);
-ASSERT (bc1553__fins = 8);
-ASSERT (bc1553__motor = 9);
-ASSERT (bc1553__destruct = 10);
-ASSERT (bc1553__warhead = 11);
-ASSERT (ibit__off = 0);
-ASSERT (ibit__request_start = 1);
-ASSERT (ibit__in_progress = 2);
-ASSERT (ibit__request_stop = 3);
-ASSERT (ibit__pass = 4);
-ASSERT (ibit__fail = 5);
-ASSERT (ibit__timeout = 6);
-ASSERT TRUE;
-ASSERT (measuretypes__meter__first <= (last_position).z);
-ASSERT ((last_position).z <= measuretypes__meter__last);
-ASSERT (measuretypes__meter__first <= (last_position).y);
-ASSERT ((last_position).y <= measuretypes__meter__last);
-ASSERT (measuretypes__meter__first <= (last_position).x);
-ASSERT ((last_position).x <= measuretypes__meter__last);
-ASSERT TRUE;
-ASSERT (ibit__phase__first <= ibit_request);
-ASSERT (ibit_request <= ibit__phase__last);
-ASSERT (bus__lru_subaddress_index__first <= 1);
-ASSERT (1 <= bus__lru_subaddress_index__last);
-ASSERT (bc1553__lru_name__first <= bus_id);
-ASSERT (bus_id <= bc1553__lru_name__last);
-ASSERT TRUE;
-ASSERT (bc1553__is_valid(bus_id, 1, bus__inputs) => ((bus__lru_subaddress_index__first <= 1) AND (1 <= bus__lru_subaddress_index__last)));
-ASSERT (bc1553__is_valid(bus_id, 1, bus__inputs) => ((bc1553__lru_name__first <= bus_id) AND (bus_id <= bc1553__lru_name__last)));
-ASSERT (bc1553__is_valid(bus_id, 1, bus__inputs) => TRUE);
-ASSERT bc1553__is_valid(bus_id, 1, bus__inputs);
-ASSERT bc1553__is_fresh(bus_id, 1, bus__inputs);
-ASSERT (bus__word_index__first <= 2);
-ASSERT (2 <= bus__word_index__last);
-ASSERT (bus__word_index__first <= 1);
-ASSERT (1 <= bus__word_index__last);
-ASSERT (measuretypes__meter__first <= (last_position__1).x);
-ASSERT ((last_position__1).x <= measuretypes__meter__last);
-ASSERT ((last_position__1).y = (last_position).y);
-QUERY (last_position = last_position__1);
diff --git a/test/regress/regress0/decision/Makefile.am b/test/regress/regress0/decision/Makefile.am
index ccf86e8b4..b70ee1575 100644
--- a/test/regress/regress0/decision/Makefile.am
+++ b/test/regress/regress0/decision/Makefile.am
@@ -23,7 +23,6 @@ TESTS =	\
 	bitvec0.smt \
 	bitvec0.delta01.smt \
 	bitvec5.smt \
-	quant-Arrays_Q1-noinfer.smt2 \
 	quant-ex1.smt2 \
 	uflia-xs-09-16-3-4-1-5.delta03.smt \
 	aufbv-fuzz01.smt \
@@ -46,17 +45,14 @@ EXTRA_DIST = $(TESTS) \
 	uflia-xs-09-16-3-4-1-5.delta03.smt.expect \
 	bitvec0.smt.expect \
 	bitvec5.smt.expect \
-	quant-Arrays_Q1-noinfer.smt2.expect \
 	wchains010ue.delta02.smt.expect \
 	bug347.smt.expect \
 	bug374a.smt.expect \
 	bug374b.smt2.expect \
-	quant-ex1.disable_miniscope.smt2.expect \
 	wchains010ue.smt.expect \
 	just_sat.expect \
 	quant-ex1.smt2.expect \
-	just_unsat.expect \
-	quant-symmetric_unsat_7.smt2.expect
+	just_unsat.expect
 
 #if CVC4_BUILD_PROFILE_COMPETITION
 #else
diff --git a/test/regress/regress0/decision/quant-Arrays_Q1-noinfer.smt2 b/test/regress/regress0/decision/quant-Arrays_Q1-noinfer.smt2
deleted file mode 100644
index 3398f5f84..000000000
--- a/test/regress/regress0/decision/quant-Arrays_Q1-noinfer.smt2
+++ /dev/null
@@ -1,73 +0,0 @@
-(set-logic AUFLIA)
-(set-info :source | 
-  Boogie/Spec# benchmarks.
-  This benchmark was translated by Michal Moskal.
-|)
-(set-info :smt-lib-version 2.0)
-(set-info :category "industrial")
-(set-info :status unsat)
-(declare-fun InRange (Int Int) Bool)
-(declare-fun o () Int)
-(declare-fun q () Int)
-(declare-fun int_18446744073709551615 () Int)
-(declare-fun Smt.false () Int)
-(declare-fun anyEqual (Int Int) Int)
-(declare-fun y () Int)
-(declare-fun select1 (Int Int) Int)
-(declare-fun select2 (Int Int Int) Int)
-(declare-fun CONCVARSYM (Int) Int)
-(declare-fun divides (Int Int) Int)
-(declare-fun intAtMost (Int Int) Int)
-(declare-fun subtypes (Int Int) Bool)
-(declare-fun store1 (Int Int Int) Int)
-(declare-fun store2 (Int Int Int Int) Int)
-(declare-fun B_0 () Int)
-(declare-fun B_1 () Int)
-(declare-fun intAtLeast (Int Int) Int)
-(declare-fun int_2147483647 () Int)
-(declare-fun boolOr (Int Int) Int)
-(declare-fun ReallyLastGeneratedExit_correct () Int)
-(declare-fun int_m9223372036854775808 () Int)
-(declare-fun Smt.true () Int)
-(declare-fun int_4294967295 () Int)
-(declare-fun start_correct () Int)
-(declare-fun B () Int)
-(declare-fun F () Int)
-(declare-fun G () Int)
-(declare-fun boolAnd (Int Int) Int)
-(declare-fun boolNot (Int) Int)
-(declare-fun k_0 () Int)
-(declare-fun intLess (Int Int) Int)
-(declare-fun intGreater (Int Int) Int)
-(declare-fun anyNeq (Int Int) Int)
-(declare-fun is (Int Int) Int)
-(declare-fun int_m2147483648 () Int)
-(declare-fun modulo (Int Int) Int)
-(declare-fun boolImplies (Int Int) Int)
-(declare-fun boolIff (Int Int) Int)
-(declare-fun int_9223372036854775807 () Int)
-(assert true)
-(assert true)
-(assert (forall ((?A Int) (?i Int) (?v Int)) (= (select1 (store1 ?A ?i ?v) ?i) ?v)))
-(assert (forall ((?A Int) (?i Int) (?j Int) (?v Int)) (=> (not (= ?i ?j)) (= (select1 (store1 ?A ?i ?v) ?j) (select1 ?A ?j)))))
-(assert (forall ((?A Int) (?o Int) (?f Int) (?v Int)) (= (select2 (store2 ?A ?o ?f ?v) ?o ?f) ?v)))
-(assert (forall ((?A Int) (?o Int) (?f Int) (?p Int) (?g Int) (?v Int)) (=> (not (= ?o ?p)) (= (select2 (store2 ?A ?o ?f ?v) ?p ?g) (select2 ?A ?p ?g)))))
-(assert (forall ((?A Int) (?o Int) (?f Int) (?p Int) (?g Int) (?v Int)) (=> (not (= ?f ?g)) (= (select2 (store2 ?A ?o ?f ?v) ?p ?g) (select2 ?A ?p ?g)))))
-(assert (forall ((?x Int) (?y Int)) (= (= (boolIff ?x ?y) Smt.true) (= (= ?x Smt.true) (= ?y Smt.true)))))
-(assert (forall ((?x Int) (?y Int)) (= (= (boolImplies ?x ?y) Smt.true) (=> (= ?x Smt.true) (= ?y Smt.true)))))
-(assert (forall ((?x Int) (?y Int)) (= (= (boolAnd ?x ?y) Smt.true) (and (= ?x Smt.true) (= ?y Smt.true)))))
-(assert (forall ((?x Int) (?y Int)) (= (= (boolOr ?x ?y) Smt.true) (or (= ?x Smt.true) (= ?y Smt.true)))))
-(assert (forall ((?x Int)) (! (= (= (boolNot ?x) Smt.true) (not (= ?x Smt.true))) :pattern ((boolNot ?x)) )))
-(assert (forall ((?x Int) (?y Int)) (= (= (anyEqual ?x ?y) Smt.true) (= ?x ?y))))
-(assert (forall ((?x Int) (?y Int)) (! (= (= (anyNeq ?x ?y) Smt.true) (not (= ?x ?y))) :pattern ((anyNeq ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (= (= (intLess ?x ?y) Smt.true) (< ?x ?y))))
-(assert (forall ((?x Int) (?y Int)) (= (= (intAtMost ?x ?y) Smt.true) (<= ?x ?y))))
-(assert (forall ((?x Int) (?y Int)) (= (= (intAtLeast ?x ?y) Smt.true) (>= ?x ?y))))
-(assert (forall ((?x Int) (?y Int)) (= (= (intGreater ?x ?y) Smt.true) (> ?x ?y))))
-(assert (distinct Smt.false Smt.true))
-(assert (forall ((?t Int)) (! (subtypes ?t ?t) :pattern ((subtypes ?t ?t)) )))
-(assert (forall ((?t Int) (?u Int) (?v Int)) (! (=> (and (subtypes ?t ?u) (subtypes ?u ?v)) (subtypes ?t ?v)) :pattern ((subtypes ?t ?u) (subtypes ?u ?v)) )))
-(assert (forall ((?t Int) (?u Int)) (! (=> (and (subtypes ?t ?u) (subtypes ?u ?t)) (= ?t ?u)) :pattern ((subtypes ?t ?u) (subtypes ?u ?t)) )))
-(assert (let ((?v_0 (forall ((?p Int) (?f Int)) (or (= (select2 B_1 ?p ?f) (select2 B ?p ?f)) (and (= ?p o) (= ?f F))))) (?v_1 (= ReallyLastGeneratedExit_correct Smt.true)) (?v_2 (= start_correct Smt.true))) (not (=> (=> (=> true (=> (= k_0 (select2 B q G)) (=> (= B_0 (store2 B o F (+ y (select2 B o F)))) (=> (= B_1 (store2 B_0 q G k_0)) (=> (=> (=> true (and ?v_0 (=> ?v_0 (=> true true)))) ?v_1) ?v_1))))) ?v_2) ?v_2))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/decision/quant-Arrays_Q1-noinfer.smt2.expect b/test/regress/regress0/decision/quant-Arrays_Q1-noinfer.smt2.expect
deleted file mode 100644
index 7fd1d5a98..000000000
--- a/test/regress/regress0/decision/quant-Arrays_Q1-noinfer.smt2.expect
+++ /dev/null
@@ -1,2 +0,0 @@
-% COMMAND-LINE: --decision=justification
-% EXPECT: unsat
diff --git a/test/regress/regress0/decision/quant-ex1.disable_miniscope.smt2 b/test/regress/regress0/decision/quant-ex1.disable_miniscope.smt2
deleted file mode 100644
index 20230a6fa..000000000
--- a/test/regress/regress0/decision/quant-ex1.disable_miniscope.smt2
+++ /dev/null
@@ -1,13 +0,0 @@
-(set-logic AUFLIRA)
-(set-info :smt-lib-version 2.0)
-(set-info :category "industrial")
-(set-info :status sat)
-(declare-sort U 0)
-(declare-fun a () U)
-(declare-fun b () U)
-(declare-fun f (U) U)
-(declare-fun p () Bool)
-(assert (and (= a b) (forall ((x U)) (=> (and (= (f x) a) (not (= (f x) b))) p))))
-(check-sat)
-(get-info :reason-unknown)
-(exit)
diff --git a/test/regress/regress0/decision/quant-ex1.disable_miniscope.smt2.expect b/test/regress/regress0/decision/quant-ex1.disable_miniscope.smt2.expect
deleted file mode 100644
index 064291040..000000000
--- a/test/regress/regress0/decision/quant-ex1.disable_miniscope.smt2.expect
+++ /dev/null
@@ -1,3 +0,0 @@
-% COMMAND-LINE: --decision=justification --disable-miniscope-quant-fv --disable-miniscope-quant
-% EXPECT: unknown
-% EXPECT: (:reason-unknown incomplete)
diff --git a/test/regress/regress0/decision/quant-symmetric_unsat_7.smt2 b/test/regress/regress0/decision/quant-symmetric_unsat_7.smt2
deleted file mode 100644
index 6acf4a3c6..000000000
--- a/test/regress/regress0/decision/quant-symmetric_unsat_7.smt2
+++ /dev/null
@@ -1,34 +0,0 @@
-(set-logic AUFLIRA)
-(set-info :source | Example extracted from Peter Baumgartner's talk at CADE-21: Logical Engineering with Instance-Based Methods.
-
-It was translated to SMT-LIB by Leonardo de Moura |)
-(set-info :smt-lib-version 2.0)
-(set-info :category "crafted")
-(set-info :status unsat)
-(declare-fun symmetric ((Array Int (Array Int Real)) Int) Bool)
-(declare-fun n () Int)
-(declare-fun a0 () (Array Int (Array Int Real)))
-(declare-fun e0 () Real)
-(declare-fun a1 () (Array Int (Array Int Real)))
-(declare-fun e1 () Real)
-(declare-fun a2 () (Array Int (Array Int Real)))
-(declare-fun e2 () Real)
-(declare-fun a3 () (Array Int (Array Int Real)))
-(declare-fun e3 () Real)
-(declare-fun a4 () (Array Int (Array Int Real)))
-(declare-fun e4 () Real)
-(declare-fun a5 () (Array Int (Array Int Real)))
-(declare-fun e5 () Real)
-(declare-fun a6 () (Array Int (Array Int Real)))
-(declare-fun e6 () Real)
-(assert (forall ((?a (Array Int (Array Int Real))) (?n Int)) (= (symmetric ?a ?n) (forall ((?i Int) (?j Int)) (=> (and (<= 1 ?i) (<= ?i ?n) (<= 1 ?j) (<= ?j ?n)) (= (select (select ?a ?i) ?j) (select (select ?a ?j) ?i)))))))
-(assert (symmetric a0 n))
-(assert (= a1 (store a0 0 (store (select a0 0) 0 e0))))
-(assert (= a2 (store a1 1 (store (select a1 1) 1 e1))))
-(assert (= a3 (store a2 2 (store (select a2 2) 2 e2))))
-(assert (= a4 (store a3 3 (store (select a3 3) 3 e3))))
-(assert (= a5 (store a4 4 (store (select a4 4) 4 e4))))
-(assert (= a6 (store a5 5 (store (select a5 5) 5 e5))))
-(assert (not (symmetric a6 n)))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/decision/quant-symmetric_unsat_7.smt2.expect b/test/regress/regress0/decision/quant-symmetric_unsat_7.smt2.expect
deleted file mode 100644
index 7fd1d5a98..000000000
--- a/test/regress/regress0/decision/quant-symmetric_unsat_7.smt2.expect
+++ /dev/null
@@ -1,2 +0,0 @@
-% COMMAND-LINE: --decision=justification
-% EXPECT: unsat
diff --git a/test/regress/regress0/error.cvc b/test/regress/regress0/error.cvc
deleted file mode 100644
index 8f76c798a..000000000
--- a/test/regress/regress0/error.cvc
+++ /dev/null
@@ -1,7 +0,0 @@
-% ERROR-SCRUBBER: sed -e '/^[[:space:]]*$/d'
-% EXPECT-ERROR: CVC4 Error:
-% EXPECT-ERROR: Parse Error: error.cvc:6.8: Symbol 'BOOL' not declared as a type
-% EXPECT-ERROR:   p : BOOL;
-% EXPECT-ERROR:       ^
-p : BOOL;
-% EXIT: 1
diff --git a/test/regress/regress0/errorcrash.smt2 b/test/regress/regress0/errorcrash.smt2
deleted file mode 100644
index 6b8a0a8f3..000000000
--- a/test/regress/regress0/errorcrash.smt2
+++ /dev/null
@@ -1,9 +0,0 @@
-; EXIT: 1
-; EXPECT: (error "Parse Error: errorcrash.smt2:5.29: Symbol 'Array' not declared as a type")
-(set-logic QF_UF)
-(declare-sort U 0)
-(declare-fun x () (Array U U))
-(declare-fun y () (Array U U))
-(assert (= x y))
-(check-sat)
-(get-value (x y))
diff --git a/test/regress/regress0/fmf/ALG008-1.smt2 b/test/regress/regress0/fmf/ALG008-1.smt2
deleted file mode 100644
index 2c3bab80d..000000000
--- a/test/regress/regress0/fmf/ALG008-1.smt2
+++ /dev/null
@@ -1,72 +0,0 @@
-; COMMAND-LINE: --finite-model-find
-; EXPECT: sat
-;%--------------------------------------------------------------------------
-;% File     : ALG008-1 : TPTP v5.4.0. Released v2.2.0.
-;% Domain   : General Algebra
-;% Problem  : TC + right identity does not give RC.
-;% Version  : [MP96] (equality) axioms : Especial.
-;% English  : An algebra with a right identity satisfying the Thomsen
-;%            Closure (RC) condition does not necessarily satisfy the
-;%            Reidemeister Closure (RC) condition.
-
-;% Refs     : [McC98] McCune (1998), Email to G. Sutcliffe
-;%          : [MP96]  McCune & Padmanabhan (1996), Automated Deduction in Eq
-;% Source   : [McC98]
-;% Names    : TC-3 [MP96]
-
-;% Status   : Satisfiable
-;% Rating   : 0.50 v5.4.0, 0.80 v5.3.0, 0.78 v5.2.0, 0.80 v5.0.0, 0.78 v4.1.0, 0.71 v4.0.1, 0.80 v4.0.0, 0.50 v3.7.0, 0.33 v3.4.0, 0.50 v3.3.0, 0.33 v3.2.0, 0.80 v3.1.0, 0.67 v2.7.0, 0.33 v2.6.0, 0.86 v2.5.0, 0.50 v2.4.0, 0.67 v2.3.0, 1.00 v2.2.1
-;% Syntax   : Number of clauses     :    6 (   0 non-Horn;   5 unit;   5 RR)
-;%            Number of atoms       :   10 (  10 equality)
-;%            Maximal clause size   :    5 (   2 average)
-;%            Number of predicates  :    1 (   0 propositional; 2-2 arity)
-;%            Number of functors    :    9 (   8 constant; 0-2 arity)
-;%            Number of variables   :    9 (   0 singleton)
-;%            Maximal term depth    :    2 (   2 average)
-;% SPC      : CNF_SAT_RFO_EQU_NUE
-
-;% Comments : The smallest model has 3 elements.
-;%--------------------------------------------------------------------------
-;%----Thomsen Closure (TC) condition:
-(set-logic UF)
-(set-info :status sat)
-(declare-sort sort__smt2 0)
-; functions
-(declare-fun multiply__smt2_2 ( sort__smt2 sort__smt2 ) sort__smt2)
-(declare-fun identity__smt2_0 ( ) sort__smt2)
-(declare-fun c4__smt2_0 ( ) sort__smt2)
-(declare-fun a__smt2_0 ( ) sort__smt2)
-(declare-fun c3__smt2_0 ( ) sort__smt2)
-(declare-fun b__smt2_0 ( ) sort__smt2)
-(declare-fun c2__smt2_0 ( ) sort__smt2)
-(declare-fun c1__smt2_0 ( ) sort__smt2)
-(declare-fun f__smt2_0 ( ) sort__smt2)
-; predicates
-
-; thomsen_closure axiom
-(assert (forall ((?V7 sort__smt2) (?V6 sort__smt2) (?W sort__smt2) (?V sort__smt2) (?U sort__smt2) (?Z sort__smt2) (?Y sort__smt2) (?X sort__smt2)) 
-    (or (not (= (multiply__smt2_2 ?X ?Y) ?Z))
-        (not (= (multiply__smt2_2 ?U ?V) ?Z))
-        (not (= (multiply__smt2_2 ?X ?W) ?V6))
-        (not (= (multiply__smt2_2 ?V7 ?V) ?V6))
-        (= (multiply__smt2_2 ?U ?W) (multiply__smt2_2 ?V7 ?Y)))) )
-
-;%----Right identity:
-; right_identity axiom
-(assert (forall ((?X sort__smt2)) (= (multiply__smt2_2 ?X identity__smt2_0) ?X)) )
-
-;%----Denial of Reidimeister Closure (RC) condidition.
-; prove_reidimeister1 negated_conjecture
-(assert (= (multiply__smt2_2 c4__smt2_0 a__smt2_0) (multiply__smt2_2 c3__smt2_0 b__smt2_0)) )
-
-; prove_reidimeister2 negated_conjecture
-(assert (= (multiply__smt2_2 c2__smt2_0 a__smt2_0) (multiply__smt2_2 c1__smt2_0 b__smt2_0)) )
-
-; prove_reidimeister3 negated_conjecture
-(assert (= (multiply__smt2_2 c4__smt2_0 f__smt2_0) (multiply__smt2_2 c3__smt2_0 identity__smt2_0)) )
-
-; prove_reidimeister4 negated_conjecture
-(assert (not (= (multiply__smt2_2 c2__smt2_0 f__smt2_0) (multiply__smt2_2 c1__smt2_0 identity__smt2_0))) )
-
-
-(check-sat)
diff --git a/test/regress/regress0/fmf/LeftistHeap.scala-8-ncm.smt2 b/test/regress/regress0/fmf/LeftistHeap.scala-8-ncm.smt2
deleted file mode 100644
index a58e85c0d..000000000
--- a/test/regress/regress0/fmf/LeftistHeap.scala-8-ncm.smt2
+++ /dev/null
@@ -1,33 +0,0 @@
-; COMMAND-LINE: --finite-model-find --lang=smt2.5
-; EXPECT: sat
-(set-logic ALL_SUPPORTED)
-(set-info :status sat)
-(declare-datatypes () ((array!896 (array!896!897 (size!898 (_ BitVec 32)) (content!899 (Array (_ BitVec 32) (_ BitVec 32)))))))
-(declare-datatypes () ((tuple2!900 (tuple2!900!901 (_1!902 array!896) (_2!903 (_ BitVec 32))))))
-(declare-fun error_value!904 () (_ BitVec 32))
-(declare-fun error_value!905 () (_ BitVec 32))
-(declare-fun error_value!906 () array!896)
-(declare-fun error_value!907 () (_ BitVec 32))
-(declare-fun error_value!908 () array!896)
-(declare-fun error_value!909 () (_ BitVec 32))
-(declare-fun while0!216 (array!896 (_ BitVec 32) array!896) tuple2!900)
-(declare-fun isPositive!206 (array!896 (_ BitVec 32)) Bool)
-(declare-fun rec!210 ((_ BitVec 32) array!896 (_ BitVec 32)) Bool)
-(declare-fun arrayconst!910 () (Array (_ BitVec 32) (_ BitVec 32)))
-(declare-sort I_while0!216 0)
-(declare-fun while0!216_arg_0_1 (I_while0!216) array!896)
-(declare-fun while0!216_arg_1_2 (I_while0!216) (_ BitVec 32))
-(declare-fun while0!216_arg_2_3 (I_while0!216) array!896)
-(declare-sort I_isPositive!206 0)
-(declare-fun isPositive!206_arg_0_4 (I_isPositive!206) array!896)
-(declare-fun isPositive!206_arg_1_5 (I_isPositive!206) (_ BitVec 32))
-(declare-sort I_rec!210 0)
-(declare-fun rec!210_arg_0_6 (I_rec!210) (_ BitVec 32))
-(declare-fun rec!210_arg_1_7 (I_rec!210) array!896)
-(declare-fun rec!210_arg_2_8 (I_rec!210) (_ BitVec 32))
-(assert (forall ((?i I_while0!216)) (and (= (while0!216 (while0!216_arg_0_1 ?i) (while0!216_arg_1_2 ?i) (while0!216_arg_2_3 ?i)) (ite (bvslt (while0!216_arg_1_2 ?i) (size!898 (while0!216_arg_2_3 ?i))) (while0!216 (ite (bvslt (ite (and (bvslt (while0!216_arg_1_2 ?i) (size!898 (while0!216_arg_2_3 ?i))) (not (bvslt (while0!216_arg_1_2 ?i) (_ bv0 32)))) (select (content!899 (while0!216_arg_2_3 ?i)) (while0!216_arg_1_2 ?i)) error_value!904) (_ bv0 32)) (ite (and (bvslt (while0!216_arg_1_2 ?i) (size!898 (while0!216_arg_0_1 ?i))) (not (bvslt (while0!216_arg_1_2 ?i) (_ bv0 32)))) (array!896!897 (size!898 (while0!216_arg_0_1 ?i)) (store (content!899 (while0!216_arg_0_1 ?i)) (while0!216_arg_1_2 ?i) (bvneg (ite (and (bvslt (while0!216_arg_1_2 ?i) (size!898 (while0!216_arg_2_3 ?i))) (not (bvslt (while0!216_arg_1_2 ?i) (_ bv0 32)))) (select (content!899 (while0!216_arg_2_3 ?i)) (while0!216_arg_1_2 ?i)) error_value!905)))) error_value!906) (ite (and (bvslt (while0!216_arg_1_2 ?i) (size!898 (while0!216_arg_0_1 ?i))) (not (bvslt (while0!216_arg_1_2 ?i) (_ bv0 32)))) (array!896!897 (size!898 (while0!216_arg_0_1 ?i)) (store (content!899 (while0!216_arg_0_1 ?i)) (while0!216_arg_1_2 ?i) (ite (and (bvslt (while0!216_arg_1_2 ?i) (size!898 (while0!216_arg_2_3 ?i))) (not (bvslt (while0!216_arg_1_2 ?i) (_ bv0 32)))) (select (content!899 (while0!216_arg_2_3 ?i)) (while0!216_arg_1_2 ?i)) error_value!907))) error_value!908)) (bvadd (while0!216_arg_1_2 ?i) (_ bv1 32)) (while0!216_arg_2_3 ?i)) (tuple2!900!901 (while0!216_arg_0_1 ?i) (while0!216_arg_1_2 ?i)))) (ite (bvslt (while0!216_arg_1_2 ?i) (size!898 (while0!216_arg_2_3 ?i))) (not (forall ((?z I_while0!216)) (not (and (= (while0!216_arg_0_1 ?z) (ite (bvslt (ite (and (bvslt (while0!216_arg_1_2 ?i) (size!898 (while0!216_arg_2_3 ?i))) (not (bvslt (while0!216_arg_1_2 ?i) (_ bv0 32)))) (select (content!899 (while0!216_arg_2_3 ?i)) (while0!216_arg_1_2 ?i)) error_value!904) (_ bv0 32)) (ite (and (bvslt (while0!216_arg_1_2 ?i) (size!898 (while0!216_arg_0_1 ?i))) (not (bvslt (while0!216_arg_1_2 ?i) (_ bv0 32)))) (array!896!897 (size!898 (while0!216_arg_0_1 ?i)) (store (content!899 (while0!216_arg_0_1 ?i)) (while0!216_arg_1_2 ?i) (bvneg (ite (and (bvslt (while0!216_arg_1_2 ?i) (size!898 (while0!216_arg_2_3 ?i))) (not (bvslt (while0!216_arg_1_2 ?i) (_ bv0 32)))) (select (content!899 (while0!216_arg_2_3 ?i)) (while0!216_arg_1_2 ?i)) error_value!905)))) error_value!906) (ite (and (bvslt (while0!216_arg_1_2 ?i) (size!898 (while0!216_arg_0_1 ?i))) (not (bvslt (while0!216_arg_1_2 ?i) (_ bv0 32)))) (array!896!897 (size!898 (while0!216_arg_0_1 ?i)) (store (content!899 (while0!216_arg_0_1 ?i)) (while0!216_arg_1_2 ?i) (ite (and (bvslt (while0!216_arg_1_2 ?i) (size!898 (while0!216_arg_2_3 ?i))) (not (bvslt (while0!216_arg_1_2 ?i) (_ bv0 32)))) (select (content!899 (while0!216_arg_2_3 ?i)) (while0!216_arg_1_2 ?i)) error_value!907))) error_value!908))) (= (while0!216_arg_1_2 ?z) (bvadd (while0!216_arg_1_2 ?i) (_ bv1 32))) (= (while0!216_arg_2_3 ?z) (while0!216_arg_2_3 ?i)))) )) true)) ))
-(assert (forall ((?i I_isPositive!206)) (and (= (isPositive!206 (isPositive!206_arg_0_4 ?i) (isPositive!206_arg_1_5 ?i)) (rec!210 (_ bv0 32) (isPositive!206_arg_0_4 ?i) (isPositive!206_arg_1_5 ?i))) (not (forall ((?z I_rec!210)) (not (and (= (rec!210_arg_0_6 ?z) (_ bv0 32)) (= (rec!210_arg_1_7 ?z) (isPositive!206_arg_0_4 ?i)) (= (rec!210_arg_2_8 ?z) (isPositive!206_arg_1_5 ?i)))) ))) ))
-(assert (forall ((?i I_rec!210)) (and (= (rec!210 (rec!210_arg_0_6 ?i) (rec!210_arg_1_7 ?i) (rec!210_arg_2_8 ?i)) (ite (not (bvslt (rec!210_arg_0_6 ?i) (rec!210_arg_2_8 ?i))) true (ite (bvslt (ite (and (bvslt (rec!210_arg_0_6 ?i) (size!898 (rec!210_arg_1_7 ?i))) (not (bvslt (rec!210_arg_0_6 ?i) (_ bv0 32)))) (select (content!899 (rec!210_arg_1_7 ?i)) (rec!210_arg_0_6 ?i)) error_value!909) (_ bv0 32)) false (rec!210 (bvadd (rec!210_arg_0_6 ?i) (_ bv1 32)) (rec!210_arg_1_7 ?i) (rec!210_arg_2_8 ?i))))) (ite (not (bvslt (rec!210_arg_0_6 ?i) (rec!210_arg_2_8 ?i))) true (ite (bvslt (ite (and (bvslt (rec!210_arg_0_6 ?i) (size!898 (rec!210_arg_1_7 ?i))) (not (bvslt (rec!210_arg_0_6 ?i) (_ bv0 32)))) (select (content!899 (rec!210_arg_1_7 ?i)) (rec!210_arg_0_6 ?i)) error_value!909) (_ bv0 32)) true (not (forall ((?z I_rec!210)) (not (and (= (rec!210_arg_0_6 ?z) (bvadd (rec!210_arg_0_6 ?i) (_ bv1 32))) (= (rec!210_arg_1_7 ?z) (rec!210_arg_1_7 ?i)) (= (rec!210_arg_2_8 ?z) (rec!210_arg_2_8 ?i)))) ))))) ))
-(assert (not (forall ((tab!211 array!896)) (or (or (bvslt (size!898 (_1!902 (while0!216 (array!896!897 (size!898 tab!211) arrayconst!910) (_ bv0 32) tab!211))) (_ bv0 32)) (forall ((?z I_while0!216)) (not (and (= (while0!216_arg_0_1 ?z) (array!896!897 (size!898 tab!211) arrayconst!910)) (= (while0!216_arg_1_2 ?z) (_ bv0 32)) (= (while0!216_arg_2_3 ?z) tab!211))) )) (or (isPositive!206 (_1!902 (while0!216 (array!896!897 (size!898 tab!211) arrayconst!910) (_ bv0 32) tab!211)) (size!898 tab!211)) (forall ((?z I_isPositive!206)) (not (and (= (isPositive!206_arg_0_4 ?z) (_1!902 (while0!216 (array!896!897 (size!898 tab!211) arrayconst!910) (_ bv0 32) tab!211))) (= (isPositive!206_arg_1_5 ?z) (size!898 tab!211)))) ) (forall ((?z I_while0!216)) (not (and (= (while0!216_arg_0_1 ?z) (array!896!897 (size!898 tab!211) arrayconst!910)) (= (while0!216_arg_1_2 ?z) (_ bv0 32)) (= (while0!216_arg_2_3 ?z) tab!211))) ))) )))
-(check-sat)
-
diff --git a/test/regress/regress0/fmf/Makefile.am b/test/regress/regress0/fmf/Makefile.am
index 122f9219b..297cdfaf3 100644
--- a/test/regress/regress0/fmf/Makefile.am
+++ b/test/regress/regress0/fmf/Makefile.am
@@ -20,65 +20,27 @@ MAKEFLAGS = -k
 # put it below in "TESTS +="
 TESTS =	\
 	array_card.smt2 \
-	ALG008-1.smt2 \
-	german169.smt2 \
 	QEpres-uf.855035.smt \
-	agree467.smt2 \
 	Arrow_Order-smtlib.778341.smt \
-	german73.smt2 \
-	PUZ001+1.smt2 \
-	refcount24.cvc.smt2 \
-	fmf-bound-int.smt2 \
 	fc-simple.smt2 \
 	fc-unsat-tot-2.smt2 \
 	fc-unsat-pent.smt2 \
-	fc-pigeonhole19.smt2 \
 	Hoare-z3.931718.smt \
-	bug0909.smt2 \
-	lst-no-self-rev-exp.smt2 \
-	fib-core.smt2 \
-	fore19-exp2-core.smt2 \
-	with-ind-104-core.smt2 \
 	syn002-si-real-int.smt2 \
 	krs-sat.smt2 \
 	forall_unit_data2.smt2 \
 	sc_bad_model_1221.smt2 \
- 	dt-proper-model.smt2 \
-	fd-false.smt2 \
+ 	fd-false.smt2 \
 	tail_rec.smt2 \
-	jasmin-cdt-crash.smt2 \
-	loopy_coda.smt2 \
 	fmc_unsound_model.smt2 \
-	am-bad-model.cvc \
-	nun-0208-to.smt2 \
-	datatypes-ufinite.smt2 \
-	datatypes-ufinite-nested.smt2 \
-	agree466.smt2 \
-	LeftistHeap.scala-8-ncm.smt2 \
-	sc-crash-052316.smt2 \
-	bound-int-alt.smt2 \
-	bug723-irrelevant-funs.smt2 \
 	bounded_sets.smt2 \
-	fmf-strange-bounds.smt2 \
 	fmf-strange-bounds-2.smt2 \
-	fmf-bound-2dim.smt2 \
-	memory_model-R_cpp-dd.cvc \
-	bug764.smt2 \
-	ko-bound-set.cvc \
-	cons-sets-bounds.smt2 \
-	bug651.smt2 \
 	bug652.smt2 \
 	bug782.smt2 \
 	quant_real_univ.cvc \
-	constr-ground-to.smt2 \
 	bug-041417-set-options.cvc \
-	alg202+1.smt2 \
-	fmf-fun-no-elim-ext-arith.smt2 \
-	fmf-fun-no-elim-ext-arith2.smt2 \
 	cruanes-no-minimal-unk.smt2 \
 	no-minimal-sat.smt2 \
-	issue916-fmf-or.smt2 \
-	pow2-bool.smt2 \
 	sat-logic.smt2 
 
 EXTRA_DIST = $(TESTS)
diff --git a/test/regress/regress0/fmf/PUZ001+1.smt2 b/test/regress/regress0/fmf/PUZ001+1.smt2
deleted file mode 100644
index f3db78491..000000000
--- a/test/regress/regress0/fmf/PUZ001+1.smt2
+++ /dev/null
@@ -1,118 +0,0 @@
-; COMMAND-LINE: --finite-model-find --no-check-proofs --no-check-unsat-core
-; EXPECT: unsat
-;%------------------------------------------------------------------------------
-;% File     : PUZ001+1 : TPTP v5.4.0. Released v2.0.0.
-;% Domain   : Puzzles
-;% Problem  : Dreadbury Mansion
-;% Version  : Especial.
-;%            Theorem formulation : Reduced > Complete.
-;% English  : Someone who lives in Dreadbury Mansion killed Aunt Agatha.
-;%            Agatha, the butler, and Charles live in Dreadbury Mansion,
-;%            and are the only people who live therein. A killer always
-;%            hates his victim, and is never richer than his victim.
-;%            Charles hates no one that Aunt Agatha hates. Agatha hates
-;%            everyone except the butler. The butler hates everyone not
-;%            richer than Aunt Agatha. The butler hates everyone Aunt
-;%            Agatha hates. No one hates everyone. Agatha is not the
-;%            butler. Therefore : Agatha killed herself.
-
-;% Refs     : [Pel86] Pelletier (1986), Seventy-five Problems for Testing Au
-;%          : [Hah94] Haehnle (1994), Email to G. Sutcliffe
-;% Source   : [Hah94]
-;% Names    : Pelletier 55 [Pel86]
-
-;% Status   : Theorem
-;% Rating   : 0.07 v5.3.0, 0.19 v5.2.0, 0.00 v5.0.0, 0.08 v4.1.0, 0.13 v4.0.0, 0.12 v3.7.0, 0.14 v3.5.0, 0.00 v3.4.0, 0.08 v3.3.0, 0.11 v3.2.0, 0.22 v3.1.0, 0.17 v2.7.0, 0.00 v2.5.0, 0.33 v2.4.0, 0.33 v2.2.1, 0.00 v2.1.0
-;% Syntax   : Number of formulae    :   14 (   6 unit)
-;%            Number of atoms       :   24 (   5 equality)
-;%            Maximal formula depth :    5 (   3 average)
-;%            Number of connectives :   16 (   6   ~;   2   |;   1   &)
-;%                                         (   0 <=>;   7  =>;   0  <=;   0 <~>)
-;%                                         (   0  ~|;   0  ~&)
-;%            Number of predicates  :    5 (   0 propositional; 1-2 arity)
-;%            Number of functors    :    3 (   3 constant; 0-0 arity)
-;%            Number of variables   :   12 (   0 sgn;  10   !;   2   ?)
-;%            Maximal term depth    :    1 (   1 average)
-;% SPC      : FOF_THM_RFO_SEQ
-
-;% Comments : Modified by Geoff Sutcliffe.
-;%          : Also known as "Who killed Aunt Agatha"
-;%------------------------------------------------------------------------------
-;%----Problem axioms
-(set-logic UF)
-(set-info :status unsat)
-(declare-sort sort__smt2 0)
-; functions
-(declare-fun agatha__smt2_0 ( ) sort__smt2)
-(declare-fun butler__smt2_0 ( ) sort__smt2)
-(declare-fun charles__smt2_0 ( ) sort__smt2)
-; predicates
-(declare-fun lives__smt2_1 ( sort__smt2 ) Bool)
-(declare-fun killed__smt2_2 ( sort__smt2 sort__smt2 ) Bool)
-(declare-fun hates__smt2_2 ( sort__smt2 sort__smt2 ) Bool)
-(declare-fun richer__smt2_2 ( sort__smt2 sort__smt2 ) Bool)
-
-; pel55_1 axiom
-(assert (exists ((?X sort__smt2)) 
-    (and (lives__smt2_1 ?X)
-        (killed__smt2_2 ?X agatha__smt2_0))))
-
-; pel55_2_1 axiom
-(assert (lives__smt2_1 agatha__smt2_0))
-
-; pel55_2_2 axiom
-(assert (lives__smt2_1 butler__smt2_0))
-
-; pel55_2_3 axiom
-(assert (lives__smt2_1 charles__smt2_0))
-
-; pel55_3 axiom
-(assert (forall ((?X sort__smt2)) 
-    (=> (lives__smt2_1 ?X)
-        (or (= ?X agatha__smt2_0)
-            (= ?X butler__smt2_0)
-            (= ?X charles__smt2_0)))))
-
-; pel55_4 axiom
-(assert (forall ((?X sort__smt2) (?Y sort__smt2)) 
-    (=> (killed__smt2_2 ?X ?Y)
-        (hates__smt2_2 ?X ?Y))))
-
-; pel55_5 axiom
-(assert (forall ((?X sort__smt2) (?Y sort__smt2)) 
-    (=> (killed__smt2_2 ?X ?Y)
-        (not (richer__smt2_2 ?X ?Y)))))
-
-; pel55_6 axiom
-(assert (forall ((?X sort__smt2)) 
-    (=> (hates__smt2_2 agatha__smt2_0 ?X)
-        (not (hates__smt2_2 charles__smt2_0 ?X)))))
-
-; pel55_7 axiom
-(assert (forall ((?X sort__smt2)) 
-    (=> (not (= ?X butler__smt2_0))
-        (hates__smt2_2 agatha__smt2_0 ?X))))
-
-; pel55_8 axiom
-(assert (forall ((?X sort__smt2)) 
-    (=> (not (richer__smt2_2 ?X agatha__smt2_0))
-        (hates__smt2_2 butler__smt2_0 ?X))))
-
-; pel55_9 axiom
-(assert (forall ((?X sort__smt2)) 
-    (=> (hates__smt2_2 agatha__smt2_0 ?X)
-        (hates__smt2_2 butler__smt2_0 ?X))))
-
-; pel55_10 axiom
-(assert (forall ((?X sort__smt2)) 
-(exists ((?Y sort__smt2)) (not (hates__smt2_2 ?X ?Y)))))
-
-; pel55_11 axiom
-(assert (not (= agatha__smt2_0 butler__smt2_0)))
-
-;----This is the conjecture with negated conjecture
-; pel55 conjecture
-(assert (not (killed__smt2_2 agatha__smt2_0 agatha__smt2_0)))
-
-
-(check-sat)
diff --git a/test/regress/regress0/fmf/agree466.smt2 b/test/regress/regress0/fmf/agree466.smt2
deleted file mode 100644
index d17a663c6..000000000
--- a/test/regress/regress0/fmf/agree466.smt2
+++ /dev/null
@@ -1,474 +0,0 @@
-; COMMAND-LINE: --finite-model-find --lang=smt2.5
-; EXPECT: sat
-; Preamble  --------------
-(set-logic ALL_SUPPORTED)
-(set-info :status sat)
-(declare-datatypes () ((UNIT (Unit))))
-(declare-datatypes () ((BOOL (Truth) (Falsity))))
-
-; Decls     --------------
-(declare-sort node$type 0)
-(declare-sort value$type 0)
-(define-sort Nodes$elem$type () node$type)
-(declare-sort Nodes$t$type 0)
-(declare-fun Nodes$empty () Nodes$t$type)
-(declare-fun Nodes$mem (Nodes$elem$type Nodes$t$type) BOOL)
-(declare-fun Nodes$add (Nodes$elem$type Nodes$t$type) Nodes$t$type)
-(declare-fun Nodes$remove (Nodes$elem$type Nodes$t$type) Nodes$t$type)
-(declare-fun Nodes$cardinality (Nodes$t$type) Int)
-(declare-fun Nodes$union (Nodes$t$type Nodes$t$type) Nodes$t$type)
-(declare-fun Nodes$disjoint (Nodes$t$type Nodes$t$type) BOOL)
-;Nodes$disjoint_empty :
-(assert (forall ((a Nodes$t$type)) (= (Nodes$disjoint a Nodes$empty) Truth)))
-;Nodes$disjoint_comm :
-(assert (forall ((a Nodes$t$type) (b Nodes$t$type)) (= (Nodes$disjoint a b) 
-                                                    (Nodes$disjoint b a))))
-;Nodes$mem_empty :
-(assert (forall ((e Nodes$elem$type)) (not (= (Nodes$mem e Nodes$empty) 
-                                           Truth))))
-;Nodes$mem_add :
-(assert (forall ((x Nodes$elem$type) (y Nodes$elem$type) (s Nodes$t$type)) 
-        (= (Nodes$mem x (Nodes$add y s)) (ite (or (= x y) (= (Nodes$mem x s) 
-                                                          Truth)) Truth 
-                                         Falsity))))
-;Nodes$mem_remove :
-(assert (forall ((x Nodes$elem$type) (y Nodes$elem$type) (s Nodes$t$type)) 
-        (= (Nodes$mem x (Nodes$remove y s)) (ite (and (not (= x y)) (= 
-                                                                    (Nodes$mem 
-                                                                    x s) 
-                                                                    Truth)) 
-                                            Truth Falsity))))
-;Nodes$mem_union1 :
-(assert (forall ((x Nodes$elem$type) (a Nodes$t$type)) (=> (= (Nodes$mem x a) 
-                                                           Truth) (forall 
-                                                                  ((b Nodes$t$type)) 
-                                                                  (= 
-                                                                  (Nodes$mem 
-                                                                  x (Nodes$union 
-                                                                    a b)) 
-                                                                  Truth)))))
-;Nodes$mem_union2 :
-(assert (forall ((a Nodes$t$type) (b Nodes$t$type)) (= (Nodes$union a b) 
-                                                    (Nodes$union b a))))
-;Nodes$mem_union3 :
-(assert (forall ((x Nodes$elem$type) (a Nodes$t$type) (b Nodes$t$type)) 
-        (=> (= (Nodes$mem x (Nodes$union a b)) Truth) (or (= (Nodes$mem x a) 
-                                                          Truth) (= (Nodes$mem 
-                                                                    x b) 
-                                                                 Truth)))))
-;Nodes$mem_union4 :
-(assert (forall ((a Nodes$t$type)) (= (Nodes$union a a) a)))
-;Nodes$mem_union5 :
-(assert (forall ((a Nodes$t$type)) (= (Nodes$union a Nodes$empty) a)))
-;Nodes$empty_union :
-(assert (forall ((a Nodes$t$type) (b Nodes$t$type)) (=> (= (Nodes$union a b) 
-                                                        Nodes$empty) 
-                                                    (= a Nodes$empty))))
-;Nodes$card_empty :
-(assert (= (Nodes$cardinality Nodes$empty) 0))
-;Nodes$card_zero :
-(assert (forall ((s Nodes$t$type)) (=> (= (Nodes$cardinality s) 0) (= 
-                                                                   s 
-                                                                   Nodes$empty))))
-;Nodes$card_non_negative :
-(assert (forall ((s Nodes$t$type)) (>= (Nodes$cardinality s) 0)))
-;Nodes$card_add :
-(assert (forall ((x Nodes$elem$type) (s Nodes$t$type)) (= (Nodes$cardinality 
-                                                          (Nodes$add x s)) 
-                                                       (ite (= (Nodes$mem 
-                                                               x s) Truth) 
-                                                       (Nodes$cardinality 
-                                                       s) (+ (Nodes$cardinality 
-                                                             s) 1)))))
-;Nodes$card_remove :
-(assert (forall ((x Nodes$elem$type) (s Nodes$t$type)) (= (Nodes$cardinality 
-                                                          (Nodes$remove x s)) 
-                                                       (ite (= (Nodes$mem 
-                                                               x s) Truth) (- 
-                                                       (Nodes$cardinality 
-                                                       s) 1) (Nodes$cardinality 
-                                                             s)))))
-;Nodes$card_union :
-(assert (forall ((a Nodes$t$type) (b Nodes$t$type)) (=> (= (Nodes$disjoint 
-                                                           a b) Truth) 
-                                                    (= (Nodes$cardinality 
-                                                       (Nodes$union a b)) (+ 
-                                                    (Nodes$cardinality 
-                                                    a) (Nodes$cardinality b))))))
-(declare-fun Nodes$eq (Nodes$t$type Nodes$t$type) BOOL)
-;Nodes$eq_is_equality :
-(assert (forall ((a Nodes$t$type) (b Nodes$t$type)) (= (Nodes$eq a b) 
-                                                    (ite (= a b) Truth 
-                                                    Falsity))))
-;Nodes$equal1 :
-(assert (forall ((a Nodes$t$type) (b Nodes$t$type)) (=> (forall ((x Nodes$elem$type)) 
-                                                        (= (Nodes$mem x a) 
-                                                        (Nodes$mem x b))) 
-                                                    (= (Nodes$eq a b) 
-                                                    Truth))))
-(define-sort Values$elem$type () value$type)
-(declare-sort Values$t$type 0)
-(declare-fun Values$empty () Values$t$type)
-(declare-fun Values$mem (Values$elem$type Values$t$type) BOOL)
-(declare-fun Values$add (Values$elem$type Values$t$type) Values$t$type)
-(declare-fun Values$remove (Values$elem$type Values$t$type) Values$t$type)
-(declare-fun Values$cardinality (Values$t$type) Int)
-(declare-fun Values$union (Values$t$type Values$t$type) Values$t$type)
-(declare-fun Values$disjoint (Values$t$type Values$t$type) BOOL)
-;Values$disjoint_empty :
-(assert (forall ((a Values$t$type)) (= (Values$disjoint a Values$empty) 
-                                    Truth)))
-;Values$disjoint_comm :
-(assert (forall ((a Values$t$type) (b Values$t$type)) (= (Values$disjoint 
-                                                         a b) (Values$disjoint 
-                                                              b a))))
-;Values$mem_empty :
-(assert (forall ((e Values$elem$type)) (not (= (Values$mem e Values$empty) 
-                                            Truth))))
-;Values$mem_add :
-(assert (forall ((x Values$elem$type) (y Values$elem$type) (s Values$t$type)) 
-        (= (Values$mem x (Values$add y s)) (ite (or (= x y) (= (Values$mem 
-                                                               x s) Truth)) 
-                                           Truth Falsity))))
-;Values$mem_remove :
-(assert (forall ((x Values$elem$type) (y Values$elem$type) (s Values$t$type)) 
-        (= (Values$mem x (Values$remove y s)) (ite (and (not (= x y)) 
-                                                   (= (Values$mem x s) 
-                                                   Truth)) Truth Falsity))))
-;Values$mem_union1 :
-(assert (forall ((x Values$elem$type) (a Values$t$type)) (=> (= (Values$mem 
-                                                                x a) 
-                                                             Truth) (forall 
-                                                                    (
-                                                                    (b Values$t$type)) 
-                                                                    (= 
-                                                                    (Values$mem 
-                                                                    x 
-                                                                    (Values$union 
-                                                                    a b)) 
-                                                                    Truth)))))
-;Values$mem_union2 :
-(assert (forall ((a Values$t$type) (b Values$t$type)) (= (Values$union a b) 
-                                                      (Values$union b a))))
-;Values$mem_union3 :
-(assert (forall ((x Values$elem$type) (a Values$t$type) (b Values$t$type)) 
-        (=> (= (Values$mem x (Values$union a b)) Truth) (or (= (Values$mem 
-                                                               x a) Truth) 
-                                                        (= (Values$mem x b) 
-                                                        Truth)))))
-;Values$mem_union4 :
-(assert (forall ((a Values$t$type)) (= (Values$union a a) a)))
-;Values$mem_union5 :
-(assert (forall ((a Values$t$type)) (= (Values$union a Values$empty) a)))
-;Values$empty_union :
-(assert (forall ((a Values$t$type) (b Values$t$type)) (=> (= (Values$union 
-                                                             a b) Values$empty) 
-                                                      (= a Values$empty))))
-;Values$card_empty :
-(assert (= (Values$cardinality Values$empty) 0))
-;Values$card_zero :
-(assert (forall ((s Values$t$type)) (=> (= (Values$cardinality s) 0) 
-                                    (= s Values$empty))))
-;Values$card_non_negative :
-(assert (forall ((s Values$t$type)) (>= (Values$cardinality s) 0)))
-;Values$card_add :
-(assert (forall ((x Values$elem$type) (s Values$t$type)) (= (Values$cardinality 
-                                                            (Values$add x s)) 
-                                                         (ite (= (Values$mem 
-                                                                 x s) 
-                                                              Truth) 
-                                                         (Values$cardinality 
-                                                         s) (+ (Values$cardinality 
-                                                               s) 1)))))
-;Values$card_remove :
-(assert (forall ((x Values$elem$type) (s Values$t$type)) (= (Values$cardinality 
-                                                            (Values$remove 
-                                                            x s)) (ite 
-                                                                  (= 
-                                                                  (Values$mem 
-                                                                  x s) 
-                                                                  Truth) (- 
-                                                                  (Values$cardinality 
-                                                                  s) 
-                                                                  1) 
-                                                                  (Values$cardinality 
-                                                                  s)))))
-;Values$card_union :
-(assert (forall ((a Values$t$type) (b Values$t$type)) (=> (= (Values$disjoint 
-                                                             a b) Truth) 
-                                                      (= (Values$cardinality 
-                                                         (Values$union a b)) (+ 
-                                                      (Values$cardinality 
-                                                      a) (Values$cardinality 
-                                                         b))))))
-(declare-fun Values$eq (Values$t$type Values$t$type) BOOL)
-;Values$eq_is_equality :
-(assert (forall ((a Values$t$type) (b Values$t$type)) (= (Values$eq a b) 
-                                                      (ite (= a b) Truth 
-                                                      Falsity))))
-;Values$equal1 :
-(assert (forall ((a Values$t$type) (b Values$t$type)) (=> (forall ((x Values$elem$type)) 
-                                                          (= (Values$mem x a) 
-                                                          (Values$mem 
-                                                          x b))) (= (Values$eq 
-                                                                    a b) 
-                                                                 Truth))))
-(define-sort node_set$type () (Array node$type BOOL))
-(declare-fun mk_array_1 () (Array node$type BOOL))
-;mk_array_1_def :
-(assert (forall ((mk_array_1_index node$type)) (= (select mk_array_1 
-                                                  mk_array_1_index) Falsity)))
-(define-fun empty_node_set () node_set$type mk_array_1)
-(define-sort node_pair_set$type () (Array node$type (Array node$type BOOL)))
-(declare-fun mk_array_2 () (Array node$type BOOL))
-;mk_array_2_def :
-(assert (forall ((mk_array_2_index node$type)) (= (select mk_array_2 
-                                                  mk_array_2_index) Falsity)))
-(declare-fun mk_array_3 () (Array node$type (Array node$type BOOL)))
-;mk_array_3_def :
-(assert (forall ((mk_array_3_index node$type)) (= (select mk_array_3 
-                                                  mk_array_3_index) mk_array_2)))
-(define-fun empty_node_pair_set () node_pair_set$type mk_array_3)
-(declare-fun mk_array_4 () (Array node$type BOOL))
-;mk_array_4_def :
-(assert (forall ((mk_array_4_index node$type)) (= (select mk_array_4 
-                                                  mk_array_4_index) Truth)))
-(declare-fun mk_array_5 () (Array node$type (Array node$type BOOL)))
-;mk_array_5_def :
-(assert (forall ((mk_array_5_index node$type)) (= (select mk_array_5 
-                                                  mk_array_5_index) mk_array_4)))
-(define-fun full_node_pair_set () node_pair_set$type mk_array_5)
-(declare-fun input () (Array node$type value$type))
-(declare-fun t () Int)
-;positive_bound :
-(assert (> t 0))
-(define-sort message$type () Values$t$type)
-(define-sort message_set$type () (Array node$type message$type))
-(define-sort state$type () Values$t$type)
-(define-sort state_set$type () (Array node$type state$type))
-(define-fun null_message () message$type Values$empty)
-(declare-fun mk_array_6 () (Array node$type message$type))
-;mk_array_6_def :
-(assert (forall ((mk_array_6_index node$type)) (= (select mk_array_6 
-                                                  mk_array_6_index) null_message)))
-(define-fun null_message_set () message_set$type mk_array_6)
-(define-fun null_state () state$type Values$empty)
-(declare-fun mk_array_7 () (Array node$type state$type))
-;mk_array_7_def :
-(assert (forall ((mk_array_7_index node$type)) (= (select mk_array_7 
-                                                  mk_array_7_index) null_state)))
-(define-fun null_state_set () state_set$type mk_array_7)
-(declare-fun choose (Values$t$type) value$type)
-;choosen_value :
-(assert (forall ((vals Values$t$type)) (or (= vals Values$empty) (= (Values$mem 
-                                                                    (choose 
-                                                                    vals) 
-                                                                    vals) 
-                                                                 Truth))))
-(define-sort failure_pattern$type () node_pair_set$type)
-(define-fun is_faulty ((p node$type) (deliver failure_pattern$type)) BOOL 
-(ite (exists ((q node$type)) (not (= (select (select deliver p) q) Truth))) 
-Truth Falsity))
-(define-fun is_silent ((p node$type) (deliver failure_pattern$type)) BOOL 
-(ite (forall ((q node$type)) (not (= (select (select deliver p) q) Truth))) 
-Truth Falsity))
-(declare-datatypes () ((phase_state$type (init_phase) (send_phase) (recv_phase) (comp_phase))))
-(declare-datatypes () ((clean_state$type (before) (active) (after))))
-
-; Var Decls --------------
-(declare-fun my_compute$result$1 () state$type)
-(declare-fun output$1 () (Array node$type value$type))
-(declare-fun comp_done () node_set$type)
-(declare-fun compute$can_decide$0$1 () BOOL)
-(declare-fun chosen () (Array node$type BOOL))
-(declare-fun recv_done () node_pair_set$type)
-(declare-fun output () (Array node$type value$type))
-(declare-fun phase () phase_state$type)
-(declare-fun global_state () state_set$type)
-(declare-fun my_decide$result$1 () value$type)
-(declare-fun round () Int)
-(declare-fun compute$n () node$type)
-(declare-fun send_done () node_pair_set$type)
-(declare-fun my_can_decide$result$1 () BOOL)
-(declare-fun chosen$1 () (Array node$type BOOL))
-(declare-fun comp_done$1 () node_set$type)
-(declare-fun global_state$1 () state_set$type)
-
-; Asserts   --------------
-(assert (not (=> (forall ((n node$type)) (=> 
-                                                                    (and 
-                                                                    (= 
-                                                                    (select 
-                                                                    chosen 
-                                                                    n) 
-                                                                    Truth) 
-                                                                    (= 
-                                                                    round (+ 
-                                                                    t 
-                                                                    1))) 
-                                                                    (and 
-                                                                    (forall 
-                                                                    (
-                                                                    (n node$type) (m node$type)) 
-                                                                    (= 
-                                                                    (select 
-                                                                    (select 
-                                                                    send_done 
-                                                                    n) 
-                                                                    m) 
-                                                                    Truth)) 
-                                                                    (forall 
-                                                                    (
-                                                                    (n node$type) (m node$type)) 
-                                                                    (= 
-                                                                    (select 
-                                                                    (select 
-                                                                    recv_done 
-                                                                    n) 
-                                                                    m) 
-                                                                    Truth))))) 
-                                        (=> (= phase comp_phase) (=> 
-                                                                 (not 
-                                                                 (= (select 
-                                                                    comp_done 
-                                                                    compute$n) 
-                                                                 Truth)) 
-                                                                 (=> 
-                                                                 (= my_compute$result$1 
-                                                                 (select 
-                                                                 global_state 
-                                                                 compute$n)) 
-                                                                 (=> 
-                                                                 (= global_state$1 
-                                                                 (store 
-                                                                 global_state 
-                                                                 compute$n 
-                                                                 my_compute$result$1)) 
-                                                                 (=> 
-                                                                 (= my_can_decide$result$1 
-                                                                 (ite 
-                                                                 (= round (+ 
-                                                                 t 1)) 
-                                                                 Truth 
-                                                                 Falsity)) 
-                                                                 (=> 
-                                                                 (= compute$can_decide$0$1 
-                                                                 my_can_decide$result$1) 
-                                                                 (= (ite 
-                                                                    (= 
-                                                                    compute$can_decide$0$1 
-                                                                    Truth) 
-                                                                    (ite 
-                                                                    (=> 
-                                                                    (= 
-                                                                    my_decide$result$1 
-                                                                    (choose 
-                                                                    (select 
-                                                                    global_state$1 
-                                                                    compute$n))) 
-                                                                    (=> 
-                                                                    (= 
-                                                                    output$1 
-                                                                    (store 
-                                                                    output 
-                                                                    compute$n 
-                                                                    my_decide$result$1)) 
-                                                                    (=> 
-                                                                    (= 
-                                                                    chosen$1 
-                                                                    (store 
-                                                                    chosen 
-                                                                    compute$n 
-                                                                    Truth)) 
-                                                                    (=> 
-                                                                    (= 
-                                                                    comp_done$1 
-                                                                    (store 
-                                                                    comp_done 
-                                                                    compute$n 
-                                                                    Truth)) 
-                                                                    (forall 
-                                                                    (
-                                                                    (n node$type)) 
-                                                                    (=> 
-                                                                    (and 
-                                                                    (= 
-                                                                    (select 
-                                                                    chosen$1 
-                                                                    n) 
-                                                                    Truth) 
-                                                                    (= 
-                                                                    round (+ 
-                                                                    t 
-                                                                    1))) 
-                                                                    (and 
-                                                                    (forall 
-                                                                    (
-                                                                    (n node$type) (m node$type)) 
-                                                                    (= 
-                                                                    (select 
-                                                                    (select 
-                                                                    send_done 
-                                                                    n) 
-                                                                    m) 
-                                                                    Truth)) 
-                                                                    (forall 
-                                                                    (
-                                                                    (n node$type) (m node$type)) 
-                                                                    (= 
-                                                                    (select 
-                                                                    (select 
-                                                                    recv_done 
-                                                                    n) 
-                                                                    m) 
-                                                                    Truth))))))))) 
-                                                                    Truth 
-                                                                    Falsity) 
-                                                                    (ite 
-                                                                    (=> 
-                                                                    (= 
-                                                                    comp_done$1 
-                                                                    (store 
-                                                                    comp_done 
-                                                                    compute$n 
-                                                                    Truth)) 
-                                                                    (forall 
-                                                                    (
-                                                                    (n node$type)) 
-                                                                    (=> 
-                                                                    (and 
-                                                                    (= 
-                                                                    (select 
-                                                                    chosen 
-                                                                    n) 
-                                                                    Truth) 
-                                                                    (= 
-                                                                    round (+ 
-                                                                    t 
-                                                                    1))) 
-                                                                    (and 
-                                                                    (forall 
-                                                                    (
-                                                                    (n node$type) (m node$type)) 
-                                                                    (= 
-                                                                    (select 
-                                                                    (select 
-                                                                    send_done 
-                                                                    n) 
-                                                                    m) 
-                                                                    Truth)) 
-                                                                    (forall 
-                                                                    (
-                                                                    (n node$type) (m node$type)) 
-                                                                    (= 
-                                                                    (select 
-                                                                    (select 
-                                                                    recv_done 
-                                                                    n) 
-                                                                    m) 
-                                                                    Truth)))))) 
-                                                                    Truth 
-                                                                    Falsity)) 
-                                                                 Truth))))))))))
-                           
-(check-sat)
diff --git a/test/regress/regress0/fmf/agree467.smt2 b/test/regress/regress0/fmf/agree467.smt2
deleted file mode 100644
index 07180cf4f..000000000
--- a/test/regress/regress0/fmf/agree467.smt2
+++ /dev/null
@@ -1,341 +0,0 @@
-; COMMAND-LINE: --finite-model-find --lang=smt2.5
-; EXPECT: unsat
-; Preamble  --------------
-(set-logic ALL_SUPPORTED)
-(set-info :status unsat)
-(declare-datatypes () ((UNIT (Unit))))
-(declare-datatypes () ((BOOL (Truth) (Falsity))))
-
-; Decls     --------------
-(declare-sort node$type 0)
-(declare-sort value$type 0)
-(define-sort Nodes$elem$type () node$type)
-(declare-sort Nodes$t$type 0)
-(declare-fun Nodes$empty () Nodes$t$type)
-(declare-fun Nodes$mem (Nodes$elem$type Nodes$t$type) BOOL)
-(declare-fun Nodes$add (Nodes$elem$type Nodes$t$type) Nodes$t$type)
-(declare-fun Nodes$remove (Nodes$elem$type Nodes$t$type) Nodes$t$type)
-(declare-fun Nodes$cardinality (Nodes$t$type) Int)
-(declare-fun Nodes$union (Nodes$t$type Nodes$t$type) Nodes$t$type)
-(declare-fun Nodes$disjoint (Nodes$t$type Nodes$t$type) BOOL)
-;Nodes$disjoint_empty :
-(assert (forall ((a Nodes$t$type)) (= (Nodes$disjoint a Nodes$empty) Truth)))
-;Nodes$disjoint_comm :
-(assert (forall ((a Nodes$t$type) (b Nodes$t$type)) (= (Nodes$disjoint a b) 
-                                                    (Nodes$disjoint b a))))
-;Nodes$mem_empty :
-(assert (forall ((e Nodes$elem$type)) (not (= (Nodes$mem e Nodes$empty) 
-                                           Truth))))
-;Nodes$mem_add :
-(assert (forall ((x Nodes$elem$type) (y Nodes$elem$type) (s Nodes$t$type)) 
-        (= (Nodes$mem x (Nodes$add y s)) (ite (or (= x y) (= (Nodes$mem x s) 
-                                                          Truth)) Truth 
-                                         Falsity))))
-;Nodes$mem_remove :
-(assert (forall ((x Nodes$elem$type) (y Nodes$elem$type) (s Nodes$t$type)) 
-        (= (Nodes$mem x (Nodes$remove y s)) (ite (and (not (= x y)) (= 
-                                                                    (Nodes$mem 
-                                                                    x s) 
-                                                                    Truth)) 
-                                            Truth Falsity))))
-;Nodes$mem_union1 :
-(assert (forall ((x Nodes$elem$type) (a Nodes$t$type)) (=> (= (Nodes$mem x a) 
-                                                           Truth) (forall 
-                                                                  ((b Nodes$t$type)) 
-                                                                  (= 
-                                                                  (Nodes$mem 
-                                                                  x (Nodes$union 
-                                                                    a b)) 
-                                                                  Truth)))))
-;Nodes$mem_union2 :
-(assert (forall ((a Nodes$t$type) (b Nodes$t$type)) (= (Nodes$union a b) 
-                                                    (Nodes$union b a))))
-;Nodes$mem_union3 :
-(assert (forall ((x Nodes$elem$type) (a Nodes$t$type) (b Nodes$t$type)) 
-        (=> (= (Nodes$mem x (Nodes$union a b)) Truth) (or (= (Nodes$mem x a) 
-                                                          Truth) (= (Nodes$mem 
-                                                                    x b) 
-                                                                 Truth)))))
-;Nodes$mem_union4 :
-(assert (forall ((a Nodes$t$type)) (= (Nodes$union a a) a)))
-;Nodes$mem_union5 :
-(assert (forall ((a Nodes$t$type)) (= (Nodes$union a Nodes$empty) a)))
-;Nodes$empty_union :
-(assert (forall ((a Nodes$t$type) (b Nodes$t$type)) (=> (= (Nodes$union a b) 
-                                                        Nodes$empty) 
-                                                    (= a Nodes$empty))))
-;Nodes$card_empty :
-(assert (= (Nodes$cardinality Nodes$empty) 0))
-;Nodes$card_zero :
-(assert (forall ((s Nodes$t$type)) (=> (= (Nodes$cardinality s) 0) (= 
-                                                                   s 
-                                                                   Nodes$empty))))
-;Nodes$card_non_negative :
-(assert (forall ((s Nodes$t$type)) (>= (Nodes$cardinality s) 0)))
-;Nodes$card_add :
-(assert (forall ((x Nodes$elem$type) (s Nodes$t$type)) (= (Nodes$cardinality 
-                                                          (Nodes$add x s)) 
-                                                       (ite (= (Nodes$mem 
-                                                               x s) Truth) 
-                                                       (Nodes$cardinality 
-                                                       s) (+ (Nodes$cardinality 
-                                                             s) 1)))))
-;Nodes$card_remove :
-(assert (forall ((x Nodes$elem$type) (s Nodes$t$type)) (= (Nodes$cardinality 
-                                                          (Nodes$remove x s)) 
-                                                       (ite (= (Nodes$mem 
-                                                               x s) Truth) (- 
-                                                       (Nodes$cardinality 
-                                                       s) 1) (Nodes$cardinality 
-                                                             s)))))
-;Nodes$card_union :
-(assert (forall ((a Nodes$t$type) (b Nodes$t$type)) (=> (= (Nodes$disjoint 
-                                                           a b) Truth) 
-                                                    (= (Nodes$cardinality 
-                                                       (Nodes$union a b)) (+ 
-                                                    (Nodes$cardinality 
-                                                    a) (Nodes$cardinality b))))))
-(declare-fun Nodes$eq (Nodes$t$type Nodes$t$type) BOOL)
-;Nodes$eq_is_equality :
-(assert (forall ((a Nodes$t$type) (b Nodes$t$type)) (= (Nodes$eq a b) 
-                                                    (ite (= a b) Truth 
-                                                    Falsity))))
-;Nodes$equal1 :
-(assert (forall ((a Nodes$t$type) (b Nodes$t$type)) (=> (forall ((x Nodes$elem$type)) 
-                                                        (= (Nodes$mem x a) 
-                                                        (Nodes$mem x b))) 
-                                                    (= (Nodes$eq a b) 
-                                                    Truth))))
-(define-sort Values$elem$type () value$type)
-(declare-sort Values$t$type 0)
-(declare-fun Values$empty () Values$t$type)
-(declare-fun Values$mem (Values$elem$type Values$t$type) BOOL)
-(declare-fun Values$add (Values$elem$type Values$t$type) Values$t$type)
-(declare-fun Values$remove (Values$elem$type Values$t$type) Values$t$type)
-(declare-fun Values$cardinality (Values$t$type) Int)
-(declare-fun Values$union (Values$t$type Values$t$type) Values$t$type)
-(declare-fun Values$disjoint (Values$t$type Values$t$type) BOOL)
-;Values$disjoint_empty :
-(assert (forall ((a Values$t$type)) (= (Values$disjoint a Values$empty) 
-                                    Truth)))
-;Values$disjoint_comm :
-(assert (forall ((a Values$t$type) (b Values$t$type)) (= (Values$disjoint 
-                                                         a b) (Values$disjoint 
-                                                              b a))))
-;Values$mem_empty :
-(assert (forall ((e Values$elem$type)) (not (= (Values$mem e Values$empty) 
-                                            Truth))))
-;Values$mem_add :
-(assert (forall ((x Values$elem$type) (y Values$elem$type) (s Values$t$type)) 
-        (= (Values$mem x (Values$add y s)) (ite (or (= x y) (= (Values$mem 
-                                                               x s) Truth)) 
-                                           Truth Falsity))))
-;Values$mem_remove :
-(assert (forall ((x Values$elem$type) (y Values$elem$type) (s Values$t$type)) 
-        (= (Values$mem x (Values$remove y s)) (ite (and (not (= x y)) 
-                                                   (= (Values$mem x s) 
-                                                   Truth)) Truth Falsity))))
-;Values$mem_union1 :
-(assert (forall ((x Values$elem$type) (a Values$t$type)) (=> (= (Values$mem 
-                                                                x a) 
-                                                             Truth) (forall 
-                                                                    (
-                                                                    (b Values$t$type)) 
-                                                                    (= 
-                                                                    (Values$mem 
-                                                                    x 
-                                                                    (Values$union 
-                                                                    a b)) 
-                                                                    Truth)))))
-;Values$mem_union2 :
-(assert (forall ((a Values$t$type) (b Values$t$type)) (= (Values$union a b) 
-                                                      (Values$union b a))))
-;Values$mem_union3 :
-(assert (forall ((x Values$elem$type) (a Values$t$type) (b Values$t$type)) 
-        (=> (= (Values$mem x (Values$union a b)) Truth) (or (= (Values$mem 
-                                                               x a) Truth) 
-                                                        (= (Values$mem x b) 
-                                                        Truth)))))
-;Values$mem_union4 :
-(assert (forall ((a Values$t$type)) (= (Values$union a a) a)))
-;Values$mem_union5 :
-(assert (forall ((a Values$t$type)) (= (Values$union a Values$empty) a)))
-;Values$empty_union :
-(assert (forall ((a Values$t$type) (b Values$t$type)) (=> (= (Values$union 
-                                                             a b) Values$empty) 
-                                                      (= a Values$empty))))
-;Values$card_empty :
-(assert (= (Values$cardinality Values$empty) 0))
-;Values$card_zero :
-(assert (forall ((s Values$t$type)) (=> (= (Values$cardinality s) 0) 
-                                    (= s Values$empty))))
-;Values$card_non_negative :
-(assert (forall ((s Values$t$type)) (>= (Values$cardinality s) 0)))
-;Values$card_add :
-(assert (forall ((x Values$elem$type) (s Values$t$type)) (= (Values$cardinality 
-                                                            (Values$add x s)) 
-                                                         (ite (= (Values$mem 
-                                                                 x s) 
-                                                              Truth) 
-                                                         (Values$cardinality 
-                                                         s) (+ (Values$cardinality 
-                                                               s) 1)))))
-;Values$card_remove :
-(assert (forall ((x Values$elem$type) (s Values$t$type)) (= (Values$cardinality 
-                                                            (Values$remove 
-                                                            x s)) (ite 
-                                                                  (= 
-                                                                  (Values$mem 
-                                                                  x s) 
-                                                                  Truth) (- 
-                                                                  (Values$cardinality 
-                                                                  s) 
-                                                                  1) 
-                                                                  (Values$cardinality 
-                                                                  s)))))
-;Values$card_union :
-(assert (forall ((a Values$t$type) (b Values$t$type)) (=> (= (Values$disjoint 
-                                                             a b) Truth) 
-                                                      (= (Values$cardinality 
-                                                         (Values$union a b)) (+ 
-                                                      (Values$cardinality 
-                                                      a) (Values$cardinality 
-                                                         b))))))
-(declare-fun Values$eq (Values$t$type Values$t$type) BOOL)
-;Values$eq_is_equality :
-(assert (forall ((a Values$t$type) (b Values$t$type)) (= (Values$eq a b) 
-                                                      (ite (= a b) Truth 
-                                                      Falsity))))
-;Values$equal1 :
-(assert (forall ((a Values$t$type) (b Values$t$type)) (=> (forall ((x Values$elem$type)) 
-                                                          (= (Values$mem x a) 
-                                                          (Values$mem 
-                                                          x b))) (= (Values$eq 
-                                                                    a b) 
-                                                                 Truth))))
-(define-sort node_set$type () (Array node$type BOOL))
-(declare-fun mk_array_1 () (Array node$type BOOL))
-;mk_array_1_def :
-(assert (forall ((mk_array_1_index node$type)) (= (select mk_array_1 
-                                                  mk_array_1_index) Falsity)))
-(define-fun empty_node_set () node_set$type mk_array_1)
-(define-sort node_pair_set$type () (Array node$type (Array node$type BOOL)))
-(declare-fun mk_array_2 () (Array node$type BOOL))
-;mk_array_2_def :
-(assert (forall ((mk_array_2_index node$type)) (= (select mk_array_2 
-                                                  mk_array_2_index) Falsity)))
-(declare-fun mk_array_3 () (Array node$type (Array node$type BOOL)))
-;mk_array_3_def :
-(assert (forall ((mk_array_3_index node$type)) (= (select mk_array_3 
-                                                  mk_array_3_index) mk_array_2)))
-(define-fun empty_node_pair_set () node_pair_set$type mk_array_3)
-(declare-fun mk_array_4 () (Array node$type BOOL))
-;mk_array_4_def :
-(assert (forall ((mk_array_4_index node$type)) (= (select mk_array_4 
-                                                  mk_array_4_index) Truth)))
-(declare-fun mk_array_5 () (Array node$type (Array node$type BOOL)))
-;mk_array_5_def :
-(assert (forall ((mk_array_5_index node$type)) (= (select mk_array_5 
-                                                  mk_array_5_index) mk_array_4)))
-(define-fun full_node_pair_set () node_pair_set$type mk_array_5)
-(declare-fun input () (Array node$type value$type))
-(declare-fun t () Int)
-;positive_bound :
-(assert (> t 0))
-(define-sort message$type () Values$t$type)
-(define-sort message_set$type () (Array node$type message$type))
-(define-sort state$type () Values$t$type)
-(define-sort state_set$type () (Array node$type state$type))
-(define-fun null_message () message$type Values$empty)
-(declare-fun mk_array_6 () (Array node$type message$type))
-;mk_array_6_def :
-(assert (forall ((mk_array_6_index node$type)) (= (select mk_array_6 
-                                                  mk_array_6_index) null_message)))
-(define-fun null_message_set () message_set$type mk_array_6)
-(define-fun null_state () state$type Values$empty)
-(declare-fun mk_array_7 () (Array node$type state$type))
-;mk_array_7_def :
-(assert (forall ((mk_array_7_index node$type)) (= (select mk_array_7 
-                                                  mk_array_7_index) null_state)))
-(define-fun null_state_set () state_set$type mk_array_7)
-(declare-fun choose (Values$t$type) value$type)
-;choosen_value :
-(assert (forall ((vals Values$t$type)) (or (= vals Values$empty) (= (Values$mem 
-                                                                    (choose 
-                                                                    vals) 
-                                                                    vals) 
-                                                                 Truth))))
-(define-sort failure_pattern$type () node_pair_set$type)
-(define-fun is_faulty ((p node$type) (deliver failure_pattern$type)) BOOL 
-(ite (exists ((q node$type)) (not (= (select (select deliver p) q) Truth))) 
-Truth Falsity))
-(define-fun is_silent ((p node$type) (deliver failure_pattern$type)) BOOL 
-(ite (forall ((q node$type)) (not (= (select (select deliver p) q) Truth))) 
-Truth Falsity))
-(declare-datatypes () ((phase_state$type (init_phase) (send_phase) (recv_phase) (comp_phase))))
-(declare-datatypes () ((clean_state$type (before) (active) (after))))
-
-; Var Decls --------------
-(declare-fun init_done () node_set$type)
-(declare-fun crashed () Nodes$t$type)
-(declare-fun comp_done () node_set$type)
-(declare-fun chosen () (Array node$type BOOL))
-(declare-fun recv_done () node_pair_set$type)
-(declare-fun phase () phase_state$type)
-(declare-fun clean () clean_state$type)
-(declare-fun global_state () state_set$type)
-(declare-fun messages () (Array node$type message_set$type))
-(declare-fun deliver_message () failure_pattern$type)
-(declare-fun crashing () Nodes$t$type)
-(declare-fun round () Int)
-(declare-fun send_done () node_pair_set$type)
-
-; Asserts   --------------
-(declare-fun mk_array_8 () (Array node$type BOOL))
-;mk_array_8_def :
-(assert (forall ((mk_array_8_index node$type)) (= (select mk_array_8 
-                                                  mk_array_8_index) Falsity)))
-(declare-fun mk_array_9 () (Array node$type message_set$type))
-;mk_array_9_def :
-(assert (forall ((mk_array_9_index node$type)) (= (select mk_array_9 
-                                                  mk_array_9_index) null_message_set)))
-(assert (not (=> (and (and (and (and (and (and (and (and (and (and (and 
-                                                                   (and 
-                                                                   (= 
-                                                                   clean 
-                                                                   before) 
-                                                                   (= 
-                                                                   global_state 
-                                                                   null_state_set)) 
-                                                                   (= 
-                                                                   messages 
-                                                                   mk_array_9)) 
-                                                              (= deliver_message 
-                                                              full_node_pair_set)) 
-                                                         (= comp_done 
-                                                         empty_node_set)) 
-                                                    (= recv_done empty_node_pair_set)) 
-                                               (= send_done empty_node_pair_set)) 
-                                          (= init_done empty_node_set)) 
-                                     (= phase init_phase)) (= crashing 
-                                                           Nodes$empty)) 
-                           (= crashed Nodes$empty)) (= round 0)) (= chosen 
-                                                                 mk_array_8)) 
-             (forall ((n node$type)) (=> (and (= (select chosen n) Truth) 
-                                         (= round (+ t 1))) (and (forall 
-                                                                 ((n node$type) (m node$type)) 
-                                                                 (= (select 
-                                                                    (select 
-                                                                    send_done 
-                                                                    n) 
-                                                                    m) 
-                                                                 Truth)) 
-                                                            (forall (
-                                                                    (n node$type) (m node$type)) 
-                                                            (= (select 
-                                                               (select 
-                                                               recv_done 
-                                                               n) m) 
-                                                            Truth))))))))
-
-(check-sat)
diff --git a/test/regress/regress0/fmf/alg202+1.smt2 b/test/regress/regress0/fmf/alg202+1.smt2
deleted file mode 100644
index ff3460636..000000000
--- a/test/regress/regress0/fmf/alg202+1.smt2
+++ /dev/null
@@ -1,17 +0,0 @@
-; COMMAND-LINE: --finite-model-find
-; EXPECT: unsat
-(set-logic ALL)
-(declare-sort $$unsorted 0)
-(declare-fun sorti1 ($$unsorted) Bool)
-(declare-fun op1 ($$unsorted $$unsorted) $$unsorted)
-(declare-fun sorti2 ($$unsorted) Bool)
-(declare-fun op2 ($$unsorted $$unsorted) $$unsorted)
-(declare-fun h ($$unsorted) $$unsorted)
-(declare-fun j ($$unsorted) $$unsorted)
-(assert (forall ((U $$unsorted) (BOUND_VARIABLE_345 $$unsorted)) (or (not (sorti1 U)) (not (sorti1 BOUND_VARIABLE_345)) (sorti1 (op1 U BOUND_VARIABLE_345))) ))
-(assert (forall ((U $$unsorted) (BOUND_VARIABLE_364 $$unsorted)) (or (not (sorti2 U)) (not (sorti2 BOUND_VARIABLE_364)) (sorti2 (op2 U BOUND_VARIABLE_364))) ))
-(assert (forall ((U $$unsorted)) (or (not (sorti1 U)) (= U (op1 U U))) ))
-(assert (not (forall ((U $$unsorted)) (or (not (sorti2 U)) (= U (op2 U U))) )))
-(assert (not (=> (and (forall ((U $$unsorted)) (or (not (sorti1 U)) (sorti2 (h U))) ) (forall ((V $$unsorted)) (or (not (sorti2 V)) (sorti1 (j V))) )) (not (and (forall ((W $$unsorted) (BOUND_VARIABLE_406 $$unsorted)) (or (not (sorti1 W)) (not (sorti1 BOUND_VARIABLE_406)) (= (op2 (h W) (h BOUND_VARIABLE_406)) (h (op1 W BOUND_VARIABLE_406)))) ) (forall ((Y $$unsorted) (BOUND_VARIABLE_431 $$unsorted)) (or (not (sorti2 Y)) (not (sorti2 BOUND_VARIABLE_431)) (= (op1 (j Y) (j BOUND_VARIABLE_431)) (j (op2 Y BOUND_VARIABLE_431)))) ) (forall ((X1 $$unsorted)) (or (not (sorti2 X1)) (= X1 (h (j X1)))) ) (forall ((X2 $$unsorted)) (or (not (sorti1 X2)) (= X2 (j (h X2)))) ))))))
-(assert (and (forall ((U $$unsorted)) (or (not (sorti1 U)) (sorti2 (h U))) ) (forall ((V $$unsorted)) (or (not (sorti2 V)) (sorti1 (j V))) ) (forall ((W $$unsorted) (BOUND_VARIABLE_406 $$unsorted)) (or (not (sorti1 W)) (not (sorti1 BOUND_VARIABLE_406)) (= (op2 (h W) (h BOUND_VARIABLE_406)) (h (op1 W BOUND_VARIABLE_406)))) ) (forall ((Y $$unsorted) (BOUND_VARIABLE_431 $$unsorted)) (or (not (sorti2 Y)) (not (sorti2 BOUND_VARIABLE_431)) (= (op1 (j Y) (j BOUND_VARIABLE_431)) (j (op2 Y BOUND_VARIABLE_431)))) ) (forall ((X1 $$unsorted)) (or (not (sorti2 X1)) (= X1 (h (j X1)))) ) (forall ((X2 $$unsorted)) (or (not (sorti1 X2)) (= X2 (j (h X2)))) )))
-(check-sat)
diff --git a/test/regress/regress0/fmf/am-bad-model.cvc b/test/regress/regress0/fmf/am-bad-model.cvc
deleted file mode 100644
index e30b5e04a..000000000
--- a/test/regress/regress0/fmf/am-bad-model.cvc
+++ /dev/null
@@ -1,22 +0,0 @@
-% EXPECT: sat
-OPTION "produce-models";
-OPTION "finite-model-find";
-
-f     : (BITVECTOR(2),BITVECTOR(2)) ->ARRAY INT OF INT;
-f0    : BITVECTOR(2) -> ARRAY INT OF INT;
-
-td,td1,td2: ARRAY INT OF INT;
-ASSERT td1 = td WITH[0]:= 1;
-ASSERT td2 = td WITH[0]:= 2;
-ASSERT f(0bin01,0bin00)=td1;
-ASSERT f(0bin10,0bin00)=td2;
-%ASSERT FORALL(i:BITVECTOR(2)) : f0(i)=f(0bin00,i) ;
-%Artificial bypass of quantifier for f0 definition
-ASSERT f0(0bin00) = f(0bin00,0bin00);
-ASSERT f0(0bin01) = f(0bin00,0bin01);
-ASSERT f0(0bin10) = f(0bin00,0bin10);
-ASSERT f0(0bin11) = f(0bin00,0bin11);
-ASSERT FORALL(i:BITVECTOR(2)) : f0(i)=td2 ;
-
-CHECKSAT;
-
diff --git a/test/regress/regress0/fmf/bound-int-alt.smt2 b/test/regress/regress0/fmf/bound-int-alt.smt2
deleted file mode 100644
index 146487925..000000000
--- a/test/regress/regress0/fmf/bound-int-alt.smt2
+++ /dev/null
@@ -1,18 +0,0 @@
-; COMMAND-LINE: --fmf-bound-int
-; EXPECT: sat
-(set-logic UFLIA)
-(set-info :status sat)
-(declare-sort U 0)
-(declare-sort V 0)
-(declare-fun P (U Int V Int U Int) Bool)
-
-(assert (forall ((x U) (y Int) (z V) (w Int) (v U) (d Int)) (=> (and (<= 0 d 1) (<= 2 y 6) (<= 40 w (+ 37 y))) (P x y z w v d))))
-
-(declare-fun a () U)
-(declare-fun b () V)
-
-(assert (not (P a 2 b 40 a 0)))
-(assert (not (P a 6 b 39 a 0)))
-(assert (not (P a 6 b 44 a 0)))
-
-(check-sat)
diff --git a/test/regress/regress0/fmf/bug0909.smt2 b/test/regress/regress0/fmf/bug0909.smt2
deleted file mode 100644
index fc3054c0d..000000000
--- a/test/regress/regress0/fmf/bug0909.smt2
+++ /dev/null
@@ -1,54 +0,0 @@
-; COMMAND-LINE: --finite-model-find --lang=smt2.5
-; EXPECT: unsat
-; Preamble  --------------
-(set-option :produce-models true)
-(set-logic ALL_SUPPORTED)
-;(declare-datatypes () ((x2 (x1))))
-(declare-datatypes () ((x5 (x3) (x4))))
-(declare-sort x6 0)
-(declare-fun x7 (x6) x5)
-(declare-fun x8 () x6)
-(assert (not (= x3 (x7 x8))))
-(declare-fun x9 () x6)
-(assert (not (= x3 (x7 x9))))
-(declare-fun x11 () Int)
-(declare-sort x12 0)
-(declare-fun x13 () x12)
-(declare-datatypes () ((x17 (x14) (x15) (x16))))
-(declare-datatypes () ((x22 (x21 (x18 Int) (x19 Int) (x20 x5)))))
-(declare-datatypes () ((x29 (x28 (x23 x5) (x24 x5) (x25 Int) (x26 Int) (x27 Int)))))
-(declare-sort x30 0)
-(declare-sort x31 0)
-(declare-fun x32 () x31)
-(declare-datatypes () ((x36 (x35 (x33 Int) (x34 Int)))))
-(declare-fun x37 () x36)
-(declare-datatypes () ((x45 (x44 (x38 x5) (x39 x6) (x40 x6) (x41 x6) (x42 x36) (x43 x31)))))
-(declare-fun x47 (x12) x31)
-(declare-fun x46 (x31) x12)
-(declare-datatypes () ((x54 (x49 (x48 x22)) (x51 (x50 x29)) (d53 (s52 x12)))))
-(declare-fun x57 (x22) x29)
-(declare-fun x56 (x12) x22)
-(declare-fun x55 (x29) x22)
-(declare-fun x61 () (Array x6 x5))
-(declare-fun x66 () (Array x6 x17))
-(declare-fun x64 () (Array x6 x54))
-(declare-fun x67 () (Array x6 x54))
-(declare-fun x65 () (Array x6 x54))
-(declare-fun x62 () (Array x30 x45))
-(declare-fun x70 () (Array x30 x45))
-(declare-fun x68 () (Array x30 x45))
-(declare-fun x63 () x30)
-(declare-fun x59 (x22) x12)
-(declare-fun x60 (x29) x12)
-(declare-fun x58 (x12) x29)
-(declare-fun x71 () x6)
-(declare-fun x69 () x6)
-(assert 
-(not 
-  (=> (and 
-    (forall ((x73 x30)) (=> (= x3 (x38 (select x62 x73))) (and (= (select x66 (x40 (select x62 x73))) x15) (= x3 (x7 (x40 (select x62 x73)))) (= (select x61 (x40 (select x62 x73))) x3) (= (x23 (ite (is-x49 (select x67 (x40 (select x62 x73)))) (let ((x74 (x48 (select x67 (x40 (select x62 x73)))))) (x57 x74)) (ite (is-x51 (select x67 (x40 (select x62 x73)))) (let ((x75 (x50 (select x67 (x40 (select x62 x73)))))) x75) (let ((x76 (s52 (select x67 (x40 (select x62 x73)))))) (x58 x76))))) x3)))) 
-    (forall ((x72 x6)) (=> (and (= x16 (select x66 x72)) (= (x7 x72) x3) (= (select x61 x72) x3)) (= (ite (is-d53 (select x67 x72)) x3 x4) x3)))) 
-    
-    (= (ite (= (x38 (select x62 x63)) x3) (ite (and (=> (= (x40 (select x62 x63)) x69) (=> (= (x41 (select x62 x63)) x71) (=> (= x65 (store x67 x71 (d53 (x46 (x43 (select x62 x63)))))) (=> (= x70 (store x62 x63 (let ((x77 (select x62 x63))) (x44 (x38 x77) (x39 x77) (x40 x77) (x41 x77) (x42 x77) x32)))) (=> (= x68 (store x70 x63 (let ((x78 (select x70 x63))) (x44 x4 (x39 x78) (x40 x78) (x41 x78) (x42 x78) (x43 x78)))))
-    (=> (= (store x65 x69 (x51 (let ((x82 (ite (is-x49 (select x65 x69)) (let ((x79 (x48 (select x65 x69)))) (x57 x79)) (ite (is-x51 (select x65 x69)) (let ((x80 (x50 (select x65 x69)))) x80) (let ((x81 (s52 (select x65 x69)))) (x58 x81)))))) (x28 x4 x3 (x25 x82) (x26 x82) (+ (x27 (ite (is-x49 (select x65 x69)) (let ((x83 (x48 (select x65 x69)))) (x57 x83)) (ite (is-x51 (select x65 x69)) (let ((x84 (x50 (select x65 x69)))) x84) (let ((x85 (s52 (select x65 x69)))) (x58 x85))))) 1))))) x64) (forall ((x86 x6)) (=> (and (= x3 (x7 x86)) (= x3 (select x61 x86)) (= (select x66 x86) x16)) (= (ite (is-d53 (select x64 x86)) x3 x4) x3))))))))) (= x3 (x38 (select x62 x63)))) x3 x4) (ite (forall ((x87 x6)) (=> (and (= x3 (select x61 x87)) (= x3 (x7 x87)) (= x16 (select x66 x87))) (= x3 (ite (is-d53 (select x67 x87)) x3 x4)))) x3 x4)) x3))))
-(check-sat)
diff --git a/test/regress/regress0/fmf/bug651.smt2 b/test/regress/regress0/fmf/bug651.smt2
deleted file mode 100644
index bcfeebd69..000000000
--- a/test/regress/regress0/fmf/bug651.smt2
+++ /dev/null
@@ -1,43 +0,0 @@
-; COMMAND-LINE: --fmf-fun --no-check-models --lang=smt2.5
-; EXPECT: sat
-(set-logic UFDTSLIA)
-(set-info :smt-lib-version 2.5)
-(set-option :produce-models true)
-
-(declare-datatypes () (
-    (Conditional_Int (Conditional_Int$CAbsent_Int) (Conditional_Int$CPresent_Int (Conditional_Int$CPresent_Int$value Int)))
-    (Conditional_T_titleType (Conditional_T_titleType$CAbsent_T_titleType) (Conditional_T_titleType$CPresent_T_titleType (Conditional_T_titleType$CPresent_T_titleType$value T_titleType)))
-    (Conditional_boolean (Conditional_boolean$CAbsent_boolean) (Conditional_boolean$CPresent_boolean (Conditional_boolean$CPresent_boolean$value Bool)))
-    (Conditional_string (Conditional_string$CAbsent_string) (Conditional_string$CPresent_string (Conditional_string$CPresent_string$value String)))
-    (Double (Double$CINF) (Double$CNINF) (Double$CNaN) (Double$CValue (Double$CValue$value Int)))
-    (List_T_titleType (List_T_titleType$CNil_T_titleType) (List_T_titleType$Cstr_T_titleType (List_T_titleType$Cstr_T_titleType$head T_titleType) (List_T_titleType$Cstr_T_titleType$tail List_T_titleType)))
-    (List_boolean (List_boolean$CNil_boolean) (List_boolean$Cstr_boolean (List_boolean$Cstr_boolean$head Bool) (List_boolean$Cstr_boolean$tail List_boolean)))
-    (List_string (List_string$CNil_string) (List_string$Cstr_string (List_string$Cstr_string$head String) (List_string$Cstr_string$tail List_string)))
-    (T_titleType (T_titleType$C_T_titleType (T_titleType$C_T_titleType$base String)))
-) )
-
-(define-fun f1361$isValid_string((x String)) Bool true)
-(define-fun f5131$isValid_T_titleType((x T_titleType)) Bool (and (f1361$isValid_string (T_titleType$C_T_titleType$base x)) (<= (str.len (T_titleType$C_T_titleType$base x)) 80)))
-(define-funs-rec
-  (
-    (f5242$isValidElementsList_T_titleType((x List_T_titleType)) Bool)
-  )
-  (
-    (=> (is-List_T_titleType$Cstr_T_titleType x) (and (f5131$isValid_T_titleType (List_T_titleType$Cstr_T_titleType$head x)) (f5242$isValidElementsList_T_titleType (List_T_titleType$Cstr_T_titleType$tail x))))
-  )
-)
-(define-fun f1348$isValid_boolean((x Bool)) Bool true)
-(define-funs-rec
-  (
-    (f4169$isValidElementsList_boolean((x List_boolean)) Bool)
-  )
-  (
-    (=> (is-List_boolean$Cstr_boolean x) (and (f1348$isValid_boolean (List_boolean$Cstr_boolean$head x)) (f4169$isValidElementsList_boolean (List_boolean$Cstr_boolean$tail x))))
-  )
-)
-
-
-(declare-const title T_titleType)
-(check-sat)
-
-
diff --git a/test/regress/regress0/fmf/bug723-irrelevant-funs.smt2 b/test/regress/regress0/fmf/bug723-irrelevant-funs.smt2
deleted file mode 100644
index e9b748744..000000000
--- a/test/regress/regress0/fmf/bug723-irrelevant-funs.smt2
+++ /dev/null
@@ -1,52 +0,0 @@
-; COMMAND-LINE: --fmf-fun-rlv --no-check-models --lang=smt2.5
-; EXPECT: sat
-(set-logic ALL_SUPPORTED)
-(define-fun $$isTrue$$ ((b Bool)) Bool b)
-(define-fun $$isFalse$$ ((b Bool)) Bool (not b))
-(define-fun $$toString$$ ((b Bool)) String (ite b "true" "false") )
-(define-fun $$fromString$$ ((s String)) Bool (= s "true") )
-(define-fun $$inttostr$$ ((i Int)) String (ite (< i 0) (str.++ "-" (int.to.str (- i))) (int.to.str i)))
-(declare-fun $$takeWhile$$ (String String) String)
-(declare-fun $$takeWhileNot$$ (String String) String)
-(declare-fun $$dropWhile$$ (String String) String)
-(declare-fun $$dropWhileNot$$ (String String) String)
-(declare-datatypes () (
-    (AddressType (AddressType$C_AddressType (AddressType$C_AddressType$address String) (AddressType$C_AddressType$city String) (AddressType$C_AddressType$region String) (AddressType$C_AddressType$postalCode String) (AddressType$C_AddressType$country String)))
-    (Conditional_Int (Conditional_Int$CAbsent_Int) (Conditional_Int$CPresent_Int (Conditional_Int$CPresent_Int$value Int)))
-    (Conditional_dateTime (Conditional_dateTime$CAbsent_dateTime) (Conditional_dateTime$CPresent_dateTime (Conditional_dateTime$CPresent_dateTime$value Int)))
-    (Conditional_string (Conditional_string$CAbsent_string) (Conditional_string$CPresent_string (Conditional_string$CPresent_string$value String)))
-    (CustomerType (CustomerType$C_CustomerType (CustomerType$C_CustomerType$companyName String) (CustomerType$C_CustomerType$contactName String) (CustomerType$C_CustomerType$contactTitle String) (CustomerType$C_CustomerType$phone String) (CustomerType$C_CustomerType$fax Conditional_string) (CustomerType$C_CustomerType$fullAddress AddressType) (CustomerType$C_CustomerType$customerID Int)))
-    (List_CustomerType (List_CustomerType$CNil_CustomerType) (List_CustomerType$Cstr_CustomerType (List_CustomerType$Cstr_CustomerType$head CustomerType) (List_CustomerType$Cstr_CustomerType$tail List_CustomerType)))
-    (List_OrderType (List_OrderType$CNil_OrderType) (List_OrderType$Cstr_OrderType (List_OrderType$Cstr_OrderType$head OrderType) (List_OrderType$Cstr_OrderType$tail List_OrderType)))
-    (OrderType (OrderType$C_OrderType (OrderType$C_OrderType$customerID Int) (OrderType$C_OrderType$employeeID Int) (OrderType$C_OrderType$orderDate Int) (OrderType$C_OrderType$requiredDate Int) (OrderType$C_OrderType$shipInfo ShipInfoType)))
-    (RootType (RootType$C_RootType (RootType$C_RootType$customers List_CustomerType) (RootType$C_RootType$orders List_OrderType)))
-    (ShipInfoType (ShipInfoType$C_ShipInfoType (ShipInfoType$C_ShipInfoType$shipVia Int) (ShipInfoType$C_ShipInfoType$freight Int) (ShipInfoType$C_ShipInfoType$shipName String) (ShipInfoType$C_ShipInfoType$shipAddress String) (ShipInfoType$C_ShipInfoType$shipCity String) (ShipInfoType$C_ShipInfoType$shipRegion String) (ShipInfoType$C_ShipInfoType$shipPostalCode String) (ShipInfoType$C_ShipInfoType$shipCountry String) (ShipInfoType$C_ShipInfoType$shippedDate Conditional_dateTime)))
-) )
-
-(define-fun f2866$toXml((a$$2869 AddressType)) String (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ "<FullAddress>" "<Address>") (AddressType$C_AddressType$address a$$2869)) "</Address>") "<City>") (AddressType$C_AddressType$city a$$2869)) "</City>") "<Region>") (AddressType$C_AddressType$region a$$2869)) "</Region>") "<PostalCode>") (AddressType$C_AddressType$postalCode a$$2869)) "</PostalCode>") "<Country>") (AddressType$C_AddressType$country a$$2869)) "</Country>") "</FullAddress>"))
-(define-fun f2656$toXml((c$$2659 CustomerType)) String (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ "<Customer CustomerID=" ($$inttostr$$ (CustomerType$C_CustomerType$customerID c$$2659))) ">") "<CompanyName>") (CustomerType$C_CustomerType$companyName c$$2659)) "</CompanyName>") "<ContactName>") (CustomerType$C_CustomerType$contactName c$$2659)) "</ContactName>") "<ContactTitle>") (CustomerType$C_CustomerType$contactTitle c$$2659)) "</ContactTitle>") "<Phone>") (CustomerType$C_CustomerType$phone c$$2659)) "</Phone>") (ite (is-Conditional_string$CPresent_string (CustomerType$C_CustomerType$fax c$$2659)) (str.++ (str.++ "<Fax>" (Conditional_string$CPresent_string$value (CustomerType$C_CustomerType$fax c$$2659))) "</Fax>") "")) (f2866$toXml (CustomerType$C_CustomerType$fullAddress c$$2659))) "</Customer>"))
-(define-funs-rec
-  (
-    (f2574$toXml((lc$$2577 List_CustomerType)) String)
-  )
-  (
-    (ite (is-List_CustomerType$CNil_CustomerType lc$$2577) "" (str.++ (f2656$toXml (List_CustomerType$Cstr_CustomerType$head lc$$2577)) (f2574$toXml (List_CustomerType$Cstr_CustomerType$tail lc$$2577))))
-  )
-)
-(define-fun f2942$toXml((s$$2945 ShipInfoType)) String (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ "<ShipInfo" (ite (is-Conditional_dateTime$CPresent_dateTime (ShipInfoType$C_ShipInfoType$shippedDate s$$2945)) (str.++ (str.++ " ShippedDate=" ($$inttostr$$ (Conditional_dateTime$CPresent_dateTime$value (ShipInfoType$C_ShipInfoType$shippedDate s$$2945)))) ">") ">")) "<ShipVia>") ($$inttostr$$ (ShipInfoType$C_ShipInfoType$shipVia s$$2945))) "</ShipVia>") "<Freight>") ($$inttostr$$ (ShipInfoType$C_ShipInfoType$freight s$$2945))) "</Freight>") "<ShipName>") (ShipInfoType$C_ShipInfoType$shipName s$$2945)) "</ShipName>") "<ShipAddress>") (ShipInfoType$C_ShipInfoType$shipAddress s$$2945)) "</ShipAddress>") "<ShipCity>") (ShipInfoType$C_ShipInfoType$shipCity s$$2945)) "</ShipCity>") "<ShipRegion>") (ShipInfoType$C_ShipInfoType$shipRegion s$$2945)) "</ShipRegion>") "<ShipPostalCode>") (ShipInfoType$C_ShipInfoType$shipPostalCode s$$2945)) "</ShipPostalCode>") "<ShipCountry>") (ShipInfoType$C_ShipInfoType$shipCountry s$$2945)) "</ShipCountry>") "</ShipInfo>"))
-(define-fun f2776$toXml((o$$2779 OrderType)) String (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ "<Order>" "<CustomerID>") ($$inttostr$$ (OrderType$C_OrderType$customerID o$$2779))) "</CustomerID>") "<EmployeeID>") ($$inttostr$$ (OrderType$C_OrderType$employeeID o$$2779))) "</EmployeeID>") "<OrderDate>") ($$inttostr$$ (OrderType$C_OrderType$orderDate o$$2779))) "</OrderDate>") "<RequiredDate>") ($$inttostr$$ (OrderType$C_OrderType$requiredDate o$$2779))) "</RequiredDate>") (f2942$toXml (OrderType$C_OrderType$shipInfo o$$2779))) "</Order>"))
-(define-funs-rec
-  (
-    (f2615$toXml((lo$$2618 List_OrderType)) String)
-  )
-  (
-    (ite (is-List_OrderType$CNil_OrderType lo$$2618) "" (str.++ (f2776$toXml (List_OrderType$Cstr_OrderType$head lo$$2618)) (f2615$toXml (List_OrderType$Cstr_OrderType$tail lo$$2618))))
-  )
-)
-(define-fun f2526$toXml((r$$2529 RootType)) String (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ (str.++ "<Root>" "<Customers>") (f2574$toXml (RootType$C_RootType$customers r$$2529))) "</Customers>") "<Orders>") (f2615$toXml (RootType$C_RootType$orders r$$2529))) "</Orders>") "</Root>"))
-
-(declare-fun $Report$3105$0$1$() String)
-(assert (= $Report$3105$0$1$ "<Root><Customers></Customers><Orders></Orders></Root>"))
-; should be fast since functions introduced by define-fun-rec do not appear in the ground assertion
-(check-sat)
-
diff --git a/test/regress/regress0/fmf/bug764.smt2 b/test/regress/regress0/fmf/bug764.smt2
deleted file mode 100644
index 3172fd695..000000000
--- a/test/regress/regress0/fmf/bug764.smt2
+++ /dev/null
@@ -1,28 +0,0 @@
-; COMMAND-LINE: --fmf-fun --no-check-models --lang=smt2.5
-; EXPECT: sat
-(set-logic ALL)
-(set-info :status sat)
-
-(define-fun BoolToString ((b Bool)) String (ite b "true" "false") )
-
-(declare-datatypes () (
-    (Color (red) (white) (blue))
-) )
-
-(define-fun ColorToString ((c Color)) String (ite (is-red c) "red" (ite (is-white c) "white" "blue")) )
-
-(declare-datatypes () (
-    (CP (cp (b Bool) (c Color)))
-) )
-
-(define-fun-rec CPToString ((cp CP)) String (str.++ "cp(" (BoolToString (b cp)) "," (ColorToString (c cp)) ")"))
-
-(declare-fun CPFromString (String) CP)
-
-(assert (forall ((cp1 CP)) (= cp1 (CPFromString (CPToString cp1)))))
-
-(declare-fun cpx() CP)
-(assert (= cpx (CPFromString "cp(true,white)")))
-
-(check-sat)
-
diff --git a/test/regress/regress0/fmf/cons-sets-bounds.smt2 b/test/regress/regress0/fmf/cons-sets-bounds.smt2
deleted file mode 100644
index 5e3c2952b..000000000
--- a/test/regress/regress0/fmf/cons-sets-bounds.smt2
+++ /dev/null
@@ -1,26 +0,0 @@
-; COMMAND-LINE: --fmf-bound
-; EXPECT: sat
-(set-logic ALL)
-(declare-datatypes ((list 0)) (((cons (head Int) (tail list)) (nil))))
-
-(declare-fun P (Int) Bool)
-(declare-fun S () (Set list))
-
-; can use simple unification to infer bounds on x and y
-(assert (forall ((x Int) (y list)) (=> (member (cons x y) S) (P x))))
-
-(assert (member (cons 4 (cons 1 nil)) S))
-(assert (member (cons 2 nil) S))
-
-; should construct instantiation involving selectors for l 
-(declare-fun l () list)
-(assert ((_ is cons) l))
-(assert (member l S))
-
-; should not contribute to instantiations
-(assert (member nil S))
-
-(assert (not (P 1)))
-(assert (not (P 0)))
-
-(check-sat)
diff --git a/test/regress/regress0/fmf/constr-ground-to.smt2 b/test/regress/regress0/fmf/constr-ground-to.smt2
deleted file mode 100644
index bc6d9e948..000000000
--- a/test/regress/regress0/fmf/constr-ground-to.smt2
+++ /dev/null
@@ -1,43 +0,0 @@
-; COMMAND-LINE: --fmf-fun --lang=smt2.5
-; EXPECT: sat
-(set-logic UFDTLIA)
-(declare-datatypes () (
-	(
-		Term
-		(str (sv IntList))
-	)
-	(
-		IntList
-		(sn)
-		(sc (sh Int) (st IntList))
-	)
-))
-(declare-const t Term)
-(assert (
-	and
-	(is-str t)
-	(is-sc (sv t))
-	(is-sc (st (sv t)))
-	(is-sc (st (st (sv t))))
-	(is-sc (st (st (st (sv t)))))
-	(is-sc (st (st (st (st (sv t))))))
-	(is-sc (st (st (st (st (st (sv t)))))))
-	(is-sc (st (st (st (st (st (st (sv t))))))))
-	(is-sc (st (st (st (st (st (st (st (sv t)))))))))
-	(is-sc (st (st (st (st (st (st (st (st (sv t))))))))))
-	(is-sc (st (st (st (st (st (st (st (st (st (sv t)))))))))))
-	(is-sc (st (st (st (st (st (st (st (st (st (st (sv t))))))))))))
-	(is-sc (st (st (st (st (st (st (st (st (st (st (st (sv t)))))))))))))
-	(is-sc (st (st (st (st (st (st (st (st (st (st (st (st (sv t))))))))))))))
-	(is-sc (st (st (st (st (st (st (st (st (st (st (st (st (st (sv t)))))))))))))))
-	(is-sc (st (st (st (st (st (st (st (st (st (st (st (st (st (st (sv t))))))))))))))))
-	(is-sc (st (st (st (st (st (st (st (st (st (st (st (st (st (st (st (sv t)))))))))))))))))
-	(is-sc (st (st (st (st (st (st (st (st (st (st (st (st (st (st (st (st (sv t))))))))))))))))))
-	(is-sc (st (st (st (st (st (st (st (st (st (st (st (st (st (st (st (st (st (sv t)))))))))))))))))))
-	(is-sc (st (st (st (st (st (st (st (st (st (st (st (st (st (st (st (st (st (st (sv t))))))))))))))))))))
-	(is-sc (st (st (st (st (st (st (st (st (st (st (st (st (st (st (st (st (st (st (st (sv t)))))))))))))))))))))
-	(is-sc (st (st (st (st (st (st (st (st (st (st (st (st (st (st (st (st (st (st (st (st (sv t))))))))))))))))))))))
-	(is-sc (st (st (st (st (st (st (st (st (st (st (st (st (st (st (st (st (st (st (st (st (st (sv t)))))))))))))))))))))))
- 	(is-sc (st (st (st (st (st (st (st (st (st (st (st (st (st (st (st (st (st (st (st (st (st (st (sv t))))))))))))))))))))))))
-))
-(check-sat)
diff --git a/test/regress/regress0/fmf/datatypes-ufinite-nested.smt2 b/test/regress/regress0/fmf/datatypes-ufinite-nested.smt2
deleted file mode 100644
index 6b30907ae..000000000
--- a/test/regress/regress0/fmf/datatypes-ufinite-nested.smt2
+++ /dev/null
@@ -1,17 +0,0 @@
-; COMMAND-LINE: --finite-model-find
-; EXPECT: sat
-(set-logic ALL_SUPPORTED)
-(declare-sort U 0)
-(declare-fun a () U)
-(declare-fun b () U)
-(declare-fun c () U)
-(declare-fun d () U)
-(assert (distinct a b c))
-(declare-sort V 0)
-(declare-datatypes ((ufin1 0) (ufin2 0)) (((cons1 (s11 U) (s13 ufin2))) ((cons2 (s21 V) (s22 U)) (cons3))))
-(declare-fun P (ufin1 ufin2) Bool)
-(declare-fun Q (ufin1 ufin1) Bool)
-(assert (forall ((x ufin1) (y ufin2) (z ufin1)) (or (P x y) (Q x z))))
-(assert (not (P (cons1 a cons3) cons3)))
-(assert (not (Q (cons1 b cons3) (cons1 a cons3))))
-(check-sat)
diff --git a/test/regress/regress0/fmf/datatypes-ufinite.smt2 b/test/regress/regress0/fmf/datatypes-ufinite.smt2
deleted file mode 100644
index a19c8f027..000000000
--- a/test/regress/regress0/fmf/datatypes-ufinite.smt2
+++ /dev/null
@@ -1,17 +0,0 @@
-; COMMAND-LINE: --finite-model-find --lang=smt2.5
-; EXPECT: sat
-(set-logic ALL_SUPPORTED)
-(declare-sort U 0)
-(declare-fun a () U)
-(declare-fun b () U)
-(declare-fun c () U)
-(declare-fun d () U)
-(assert (distinct a b c))
-(declare-sort V 0)
-(declare-datatypes () ((ufin1 (cons1 (s11 U) (s12 U))) (ufin2 (cons2 (s21 V) (s22 U)) (cons3))))
-(declare-fun P (ufin1 ufin2) Bool)
-(declare-fun Q (ufin1 ufin1) Bool)
-(assert (forall ((x ufin1) (y ufin2) (z ufin1)) (or (P x y) (Q x z))))
-(assert (not (P (cons1 a a) cons3)))
-(assert (not (Q (cons1 a d) (cons1 a b))))
-(check-sat)
diff --git a/test/regress/regress0/fmf/dt-proper-model.smt2 b/test/regress/regress0/fmf/dt-proper-model.smt2
deleted file mode 100644
index 0e66db996..000000000
--- a/test/regress/regress0/fmf/dt-proper-model.smt2
+++ /dev/null
@@ -1,16 +0,0 @@
-; COMMAND-LINE: --finite-model-find
-; EXPECT: sat
-(set-logic ALL_SUPPORTED)
-(set-info :status sat)
-(declare-sort U 0)
-(declare-datatypes ((D 0)) (((cons (x Int) (y U)))))
-(declare-fun d1 () D)
-(declare-fun d2 () D)
-(declare-fun d3 () D)
-(declare-fun d4 () D)
-(assert (distinct d1 d2 d3 d4))
-(assert (forall ((x U) (y U)) (= x y)))
-(declare-fun a () U)
-(declare-fun P (U) Bool)
-(assert (P a))
-(check-sat)
diff --git a/test/regress/regress0/fmf/fc-pigeonhole19.smt2 b/test/regress/regress0/fmf/fc-pigeonhole19.smt2
deleted file mode 100644
index f145013d8..000000000
--- a/test/regress/regress0/fmf/fc-pigeonhole19.smt2
+++ /dev/null
@@ -1,20 +0,0 @@
-(set-logic UFC)
-(set-info :status unsat)
-
-(declare-sort P 0)
-(declare-sort H 0)
-
-(declare-fun p () P)
-(declare-fun h () H)
-
-; pigeonhole using native cardinality constraints
-(assert (fmf.card p 19))
-(assert (not (fmf.card p 18)))
-(assert (fmf.card h 18))
-(assert (not (fmf.card h 17)))
-
-; each pigeon has different holes
-(declare-fun f (P) H)
-(assert (forall ((p1 P) (p2 P)) (=> (not (= p1 p2)) (not (= (f p1) (f p2))))))
-
-(check-sat)
\ No newline at end of file
diff --git a/test/regress/regress0/fmf/fib-core.smt2 b/test/regress/regress0/fmf/fib-core.smt2
deleted file mode 100644
index e00f19ad4..000000000
--- a/test/regress/regress0/fmf/fib-core.smt2
+++ /dev/null
@@ -1,19 +0,0 @@
-; COMMAND-LINE: --finite-model-find --fmf-inst-engine
-; EXPECT: unsat
-(set-logic ALL_SUPPORTED)
-(set-info :status unsat)
-(declare-sort I_fb 0)
-(declare-fun fb_arg_0_1 (I_fb) Int)
-(declare-fun fb (Int) Int)
-
-(assert (forall ((?j I_fb)) (= (fb (fb_arg_0_1 ?j)) (ite (not (>= (fb_arg_0_1 ?j) 2)) (fb_arg_0_1 ?j) (+ (fb (+ (- 1) (fb_arg_0_1 ?j))) (fb (+ (- 2) (fb_arg_0_1 ?j)))))) ) )
-
-(assert (forall ((?i I_fb)) (ite (not (>= (fb_arg_0_1 ?i) 2)) true (and (not (forall ((?z I_fb)) (not (= (fb_arg_0_1 ?i) (+ 1 (fb_arg_0_1 ?z)))) )) (not (forall ((?z I_fb)) (not (= (fb_arg_0_1 ?i) (+ 2 (fb_arg_0_1 ?z)))) )))) ) )
-
-(assert (forall ((?i I_fb)) (or (>= (fb_arg_0_1 ?i) 2) (and (not (>= (fb_arg_0_1 ?i) 2)) (not (forall ((?z I_fb)) (not (= (fb_arg_0_1 ?i) (+ 1 (fb_arg_0_1 ?z)))) )) (not (forall ((?z I_fb)) (not (= (fb_arg_0_1 ?i) (+ 2 (fb_arg_0_1 ?z)))) )))) ))
-
-
-(assert (not (= (fb 5) 5)) )
-(assert (not (forall ((?z I_fb)) (not (= (fb_arg_0_1 ?z) 5)) )))
-
-(check-sat)
\ No newline at end of file
diff --git a/test/regress/regress0/fmf/fmf-bound-2dim.smt2 b/test/regress/regress0/fmf/fmf-bound-2dim.smt2
deleted file mode 100644
index 5f5c22770..000000000
--- a/test/regress/regress0/fmf/fmf-bound-2dim.smt2
+++ /dev/null
@@ -1,15 +0,0 @@
-; COMMAND-LINE: --fmf-bound
-; EXPECT: sat
-(set-logic ALL)
-(set-info :status sat)
-(declare-fun P (Int Int) Bool)
-
-(declare-fun a () Int)
-(assert (> a 10))
-
-(assert (forall ((x Int) (y Int))
-(=> (and (<= a x) (<= x (+ a 5)) (<= 14 y) (<= y (+ 7 x)))
-(P x y))))
-(assert (not (P 15 4)))
-
-(check-sat)
diff --git a/test/regress/regress0/fmf/fmf-bound-int.smt2 b/test/regress/regress0/fmf/fmf-bound-int.smt2
deleted file mode 100644
index fb3106bdf..000000000
--- a/test/regress/regress0/fmf/fmf-bound-int.smt2
+++ /dev/null
@@ -1,7 +0,0 @@
-; COMMAND-LINE: --finite-model-find --fmf-bound-int
-; EXPECT: sat
-(set-logic UFLIA)
-(declare-fun P (Int Int) Bool)
-(declare-fun Q (Int) Bool)
-(assert (forall ((x Int)) (=> (and (<= 0 x) (<= x (ite (P 0 0) 10 20))) (Q x))))
-(check-sat)
diff --git a/test/regress/regress0/fmf/fmf-fun-no-elim-ext-arith.smt2 b/test/regress/regress0/fmf/fmf-fun-no-elim-ext-arith.smt2
deleted file mode 100644
index 0618e28cb..000000000
--- a/test/regress/regress0/fmf/fmf-fun-no-elim-ext-arith.smt2
+++ /dev/null
@@ -1,18 +0,0 @@
-; COMMAND-LINE: --fmf-fun --no-check-models --rewrite-divk
-; EXPECT: sat
-(set-logic UFLIA)
-(set-info :status sat)
-(define-fun-rec int-and ((n Int) (n1 Int) (n2 Int)) Bool (
-    or
-    (= n1 n 0)
-    (= n2 n 0)
-    (
-        and
-        (> n1 0)
-        (> n2 0)
-        (>= n 0)
-        (= (not (= (mod n 2 ) 0)) (and (not (= (mod n1 2 ) 0)) (not (= (mod n2 2) 0))))
-        (int-and (div n 2) (div n1 2) (div n2 2))
-    )
-))
-(check-sat)
diff --git a/test/regress/regress0/fmf/fmf-fun-no-elim-ext-arith2.smt2 b/test/regress/regress0/fmf/fmf-fun-no-elim-ext-arith2.smt2
deleted file mode 100644
index 07f1e6674..000000000
--- a/test/regress/regress0/fmf/fmf-fun-no-elim-ext-arith2.smt2
+++ /dev/null
@@ -1,25 +0,0 @@
-; COMMAND-LINE: --fmf-fun --no-check-models --rewrite-divk
-; EXPECT: sat
-(set-logic UFLIA)
-(set-info :status sat)
-(define-fun-rec int-and ((n Int) (n1 Int) (n2 Int)) Bool (
-    or
-    (= n1 n 0)
-    (= n2 n 0)
-    (
-        and
-        (> n1 0)
-        (> n2 0)
-        (>= n 0)
-        (= (not (= (mod n 2 ) 0)) (and (not (= (mod n1 2 ) 0)) (not (= (mod n2 2) 0))))
-        (int-and (div n 2) (div n1 2) (div n2 2))
-    )
-))
-(declare-const x Int)
-(declare-const y Int)
-(declare-const z Int)
-(assert (= x 1))
-(assert (= y 1))
-(assert (= z 1))
-(assert (int-and z x y))
-(check-sat)
diff --git a/test/regress/regress0/fmf/fmf-strange-bounds.smt2 b/test/regress/regress0/fmf/fmf-strange-bounds.smt2
deleted file mode 100644
index 7812c2431..000000000
--- a/test/regress/regress0/fmf/fmf-strange-bounds.smt2
+++ /dev/null
@@ -1,35 +0,0 @@
-; COMMAND-LINE: --fmf-bound
-; EXPECT: sat
-(set-logic ALL)
-(set-info :status sat)
-(declare-sort U 0)
-(declare-fun P (Int Int U) Bool)
-
-(declare-fun S () (Set Int))
-
-(declare-fun f (Int) U)
-(declare-fun g (Int) U)
-
-(declare-fun h (U) Int)
-
-(assert (member 77 S))
-(assert (>= (h (f 77)) 3))
-(assert (>= (h (g 77)) 2))
-(assert (not (= (g 77) (f 77))))
-
-(assert (forall ((x Int) (y Int) (z U)) (=> 
-(or (= z (f x)) (= z (g x)))
-(=> (member x S)
-(=> (and (<= 0 y) (<= y (h z)))
-(P x y z))))))
-
-
-(declare-fun Q (U Int) Bool)
-(declare-const a U)
-(declare-const b U)
-(declare-const c U)
-(assert (distinct a b c))
-(assert (forall ((x U) (y Int)) (=> (and (<= 3 y) (<= y 10) (or (= x c) (= x (f y)))) (Q x y))))
-(assert (not (Q b 6)))
-
-(check-sat)
diff --git a/test/regress/regress0/fmf/forall_unit_data.smt2 b/test/regress/regress0/fmf/forall_unit_data.smt2
deleted file mode 100644
index 26ef66522..000000000
--- a/test/regress/regress0/fmf/forall_unit_data.smt2
+++ /dev/null
@@ -1,10 +0,0 @@
-; COMMAND-LINE: --finite-model-find
-; EXPECT: sat
-(set-option :produce-models true)
-(set-option :interactive-mode true)
-(set-logic ALL_SUPPORTED)
-(declare-sort a 0)
-(declare-datatypes () ((w (Wrap (unw a)))))
-(declare-fun x () w)
-(assert (forall ((y w)) (= x y)))
-(check-sat)
diff --git a/test/regress/regress0/fmf/fore19-exp2-core.smt2 b/test/regress/regress0/fmf/fore19-exp2-core.smt2
deleted file mode 100644
index 4b4d57af3..000000000
--- a/test/regress/regress0/fmf/fore19-exp2-core.smt2
+++ /dev/null
@@ -1,72 +0,0 @@
-; COMMAND-LINE: --lang=smt2.5
-; EXPECT: unsat
-(set-logic ALL_SUPPORTED)
-(set-info :status unsat)
-(declare-datatypes () ((St (Block!2236 (body!2237 List!2293)) (For!2238 (init!2239 St) (expr!2240 Ex) (step!2241 St) (body!2242 St)) (IfTE (expr!2244 Ex) (then!2245 St) (elze!2246 St)) (Skip!2250) (While (expr!2252 Ex) (body St)))
-(Ex (Var!2291 (varID!2292 (_ BitVec 32))))
-(List!2293 (Cons!2294 (head!2295 St) (tail!2296 List!2293)) (Nil!2297))
-))
-(declare-fun error_value!2298 () Bool)
-(declare-fun error_value!2299 () List!2293)
-(declare-fun s () St)
-(declare-fun body!2242_uf_1 (St) St)
-(declare-fun step!2241_uf_2 (St) St)
-(declare-fun init!2239_uf_3 (St) St)
-(declare-fun elze!2246_uf_4 (St) St)
-(declare-fun then!2245_uf_5 (St) St)
-(declare-fun body!2237_uf_6 (St) List!2293)
-(declare-fun tail!2296_uf_7 (List!2293) List!2293)
-(declare-fun head!2295_uf_8 (List!2293) St)
-(declare-fun expr!2240_uf_9 (St) Ex)
-(declare-fun body_uf_10 (St) St)
-(declare-fun expr!2252_uf_11 (St) Ex)
-(declare-fun expr!2244_uf_12 (St) Ex)
-(declare-fun iwf (St) Bool)
-(declare-fun iwfl (List!2293) Bool)
-(declare-fun ewl (St) St)
-(declare-fun ewlList!211 (List!2293) List!2293)
-(declare-sort I_iwf 0)
-(declare-fun iwf_arg_0_13 (I_iwf) St)
-(declare-sort I_iwfl 0)
-(declare-fun iwfl_arg_0_14 (I_iwfl) List!2293)
-(declare-sort I_ewl 0)
-(declare-fun ewl_arg_0_15 (I_ewl) St)
-(declare-sort I_ewlList!211 0)
-(declare-fun ewlList!211_arg_0_16 (I_ewlList!211) List!2293)
-(declare-fun termITE_17 () St)
-(declare-fun termITE_18 () St)
-(declare-fun termITE_19 () St)
-(declare-fun termITE_20 () St)
-
-(assert
-(and
-(forall ((?i1 I_ewl)) (= (ewl (ewl_arg_0_15 ?i1)) 
-
-(ite (is-IfTE (ewl_arg_0_15 ?i1)) (IfTE (ite (is-IfTE (ewl_arg_0_15 ?i1)) (expr!2244 (ewl_arg_0_15 ?i1)) (expr!2244_uf_12 (ewl_arg_0_15 ?i1))) (ewl (ite (is-IfTE (ewl_arg_0_15 ?i1)) (then!2245 (ewl_arg_0_15 ?i1)) (then!2245_uf_5 (ewl_arg_0_15 ?i1)))) (ewl (ite (is-IfTE (ewl_arg_0_15 ?i1)) (elze!2246 (ewl_arg_0_15 ?i1)) (elze!2246_uf_4 (ewl_arg_0_15 ?i1))))) 
-
-(ite (is-While (ewl_arg_0_15 ?i1)) (For!2238 Skip!2250 (ite (is-While (ewl_arg_0_15 ?i1)) (expr!2252 (ewl_arg_0_15 ?i1)) (expr!2252_uf_11 (ewl_arg_0_15 ?i1))) Skip!2250 (ewl (ite (is-While (ewl_arg_0_15 ?i1)) (body (ewl_arg_0_15 ?i1)) (body_uf_10 (ewl_arg_0_15 ?i1))))) 
-
-(ite (is-For!2238 (ewl_arg_0_15 ?i1)) (For!2238 (ewl (ite (is-For!2238 (ewl_arg_0_15 ?i1)) (init!2239 (ewl_arg_0_15 ?i1)) (init!2239_uf_3 (ewl_arg_0_15 ?i1)))) (ite (is-For!2238 (ewl_arg_0_15 ?i1)) (expr!2240 (ewl_arg_0_15 ?i1)) (expr!2240_uf_9 (ewl_arg_0_15 ?i1))) (ewl (ite (is-For!2238 (ewl_arg_0_15 ?i1)) (step!2241 (ewl_arg_0_15 ?i1)) (step!2241_uf_2 (ewl_arg_0_15 ?i1)))) (ewl (ite (is-For!2238 (ewl_arg_0_15 ?i1)) (body!2242 (ewl_arg_0_15 ?i1)) (body!2242_uf_1 (ewl_arg_0_15 ?i1))))) 
-
-(ewl_arg_0_15 ?i1))))) )
-
-
-(forall ((?i2 I_ewl)) (ite (is-IfTE (ewl_arg_0_15 ?i2)) (and (not (forall ((?z I_ewl)) (not (= (ewl_arg_0_15 ?z) (ite (is-IfTE (ewl_arg_0_15 ?i2)) (then!2245 (ewl_arg_0_15 ?i2)) (then!2245_uf_5 (ewl_arg_0_15 ?i2))))) )) (not (forall ((?z I_ewl)) (not (= (ewl_arg_0_15 ?z) (ite (is-IfTE (ewl_arg_0_15 ?i2)) (elze!2246 (ewl_arg_0_15 ?i2)) (elze!2246_uf_4 (ewl_arg_0_15 ?i2))))) ))) (ite (is-While (ewl_arg_0_15 ?i2)) (not (forall ((?z I_ewl)) (not (= (ewl_arg_0_15 ?z) (ite (is-While (ewl_arg_0_15 ?i2)) (body (ewl_arg_0_15 ?i2)) (body_uf_10 (ewl_arg_0_15 ?i2))))) )) (ite (is-For!2238 (ewl_arg_0_15 ?i2)) (and (not (forall ((?z I_ewl)) (not (= (ewl_arg_0_15 ?z) (ite (is-For!2238 (ewl_arg_0_15 ?i2)) (init!2239 (ewl_arg_0_15 ?i2)) (init!2239_uf_3 (ewl_arg_0_15 ?i2))))) )) (not (forall ((?z I_ewl)) (not (= (ewl_arg_0_15 ?z) (ite (is-For!2238 (ewl_arg_0_15 ?i2)) (step!2241 (ewl_arg_0_15 ?i2)) (step!2241_uf_2 (ewl_arg_0_15 ?i2))))) )) (not (forall ((?z I_ewl)) (not (= (ewl_arg_0_15 ?z) (ite (is-For!2238 (ewl_arg_0_15 ?i2)) (body!2242 (ewl_arg_0_15 ?i2)) (body!2242_uf_1 (ewl_arg_0_15 ?i2))))) ))) true))) )
-(forall ((?i3 I_iwf)) (= (iwf (iwf_arg_0_13 ?i3)) (ite (is-Block!2236 (iwf_arg_0_13 ?i3)) (iwfl (ite (is-Block!2236 (iwf_arg_0_13 ?i3)) (body!2237 (iwf_arg_0_13 ?i3)) (body!2237_uf_6 (iwf_arg_0_13 ?i3)))) (ite (is-IfTE (iwf_arg_0_13 ?i3)) (and (iwf (ite (is-IfTE (iwf_arg_0_13 ?i3)) (elze!2246 (iwf_arg_0_13 ?i3)) (elze!2246_uf_4 (iwf_arg_0_13 ?i3)))) (iwf (ite (is-IfTE (iwf_arg_0_13 ?i3)) (then!2245 (iwf_arg_0_13 ?i3)) (then!2245_uf_5 (iwf_arg_0_13 ?i3))))) (ite (is-While (iwf_arg_0_13 ?i3)) false (ite (is-For!2238 (iwf_arg_0_13 ?i3)) (and (iwf (ite (is-For!2238 (iwf_arg_0_13 ?i3)) (body!2242 (iwf_arg_0_13 ?i3)) (body!2242_uf_1 (iwf_arg_0_13 ?i3)))) (iwf (ite (is-For!2238 (iwf_arg_0_13 ?i3)) (step!2241 (iwf_arg_0_13 ?i3)) (step!2241_uf_2 (iwf_arg_0_13 ?i3)))) (iwf (ite (is-For!2238 (iwf_arg_0_13 ?i3)) (init!2239 (iwf_arg_0_13 ?i3)) (init!2239_uf_3 (iwf_arg_0_13 ?i3))))) true))))) ) 
-(forall ((?i4 I_iwf)) (ite (is-Block!2236 (iwf_arg_0_13 ?i4)) (not (forall ((?z I_iwfl)) (not (= (iwfl_arg_0_14 ?z) (ite (is-Block!2236 (iwf_arg_0_13 ?i4)) (body!2237 (iwf_arg_0_13 ?i4)) (body!2237_uf_6 (iwf_arg_0_13 ?i4))))) )) (ite (is-IfTE (iwf_arg_0_13 ?i4)) (and (not (forall ((?z I_iwf)) (not (= (iwf_arg_0_13 ?z) (ite (is-IfTE (iwf_arg_0_13 ?i4)) (elze!2246 (iwf_arg_0_13 ?i4)) (elze!2246_uf_4 (iwf_arg_0_13 ?i4))))) )) (not (forall ((?z I_iwf)) (not (= (iwf_arg_0_13 ?z) (ite (is-IfTE (iwf_arg_0_13 ?i4)) (then!2245 (iwf_arg_0_13 ?i4)) (then!2245_uf_5 (iwf_arg_0_13 ?i4))))) ))) (ite (is-While (iwf_arg_0_13 ?i4)) true (ite (is-For!2238 (iwf_arg_0_13 ?i4)) (and (not (forall ((?z I_iwf)) (not (= (iwf_arg_0_13 ?z) (ite (is-For!2238 (iwf_arg_0_13 ?i4)) (body!2242 (iwf_arg_0_13 ?i4)) (body!2242_uf_1 (iwf_arg_0_13 ?i4))))) )) (not (forall ((?z I_iwf)) (not (= (iwf_arg_0_13 ?z) (ite (is-For!2238 (iwf_arg_0_13 ?i4)) (step!2241 (iwf_arg_0_13 ?i4)) (step!2241_uf_2 (iwf_arg_0_13 ?i4))))) )) (not (forall ((?z I_iwf)) (not (= (iwf_arg_0_13 ?z) (ite (is-For!2238 (iwf_arg_0_13 ?i4)) (init!2239 (iwf_arg_0_13 ?i4)) (init!2239_uf_3 (iwf_arg_0_13 ?i4))))) ))) true)))) )
-(is-IfTE s)
-(iwf s) 
-(not (forall ((?z I_iwf)) (not (= (iwf_arg_0_13 ?z) s)) ))
-(ite (is-IfTE s) (= termITE_17 (then!2245 s)) (= termITE_17 (then!2245_uf_5 s)))
-(ite (is-IfTE s) (= termITE_18 (then!2245 s)) (= termITE_18 (then!2245_uf_5 s)))
-(=> (and (iwf termITE_17) (not (forall ((?z I_iwf)) (not (= (iwf_arg_0_13 ?z) termITE_18)) ))) (and (= (ewl termITE_17) termITE_17) (not (forall ((?z I_ewl)) (not (= (ewl_arg_0_15 ?z) termITE_18)) ))))
-(ite (is-IfTE s) (= termITE_19 (elze!2246 s)) (= termITE_19 (elze!2246_uf_4 s)))
-(ite (is-IfTE s) (= termITE_20 (elze!2246 s)) (= termITE_20 (elze!2246_uf_4 s)))
-(=> (and (iwf termITE_19) (not (forall ((?z I_iwf)) (not (= (iwf_arg_0_13 ?z) termITE_20)) ))) (and (= (ewl termITE_19) termITE_19) (not (forall ((?z I_ewl)) (not (= (ewl_arg_0_15 ?z) termITE_20)) ))))
-(not (= (ewl s) s))
-(not (forall ((?z I_ewl)) (not (= (ewl_arg_0_15 ?z) s)) ))
-
-
-)
-)
-(check-sat)
diff --git a/test/regress/regress0/fmf/german169.smt2 b/test/regress/regress0/fmf/german169.smt2
deleted file mode 100644
index c88de064c..000000000
--- a/test/regress/regress0/fmf/german169.smt2
+++ /dev/null
@@ -1,103 +0,0 @@
-; COMMAND-LINE: --finite-model-find --lang=smt2.5
-; EXPECT: sat
-(set-logic ALL_SUPPORTED)
-(set-info :status sat)
-(declare-datatypes () ((UNIT (Unit))))
-(declare-datatypes () ((BOOL (Truth) (Falsity))))
-
-; Decls     --------------
-(declare-sort node$type 0)
-(declare-sort data$type 0)
-(declare-datatypes () ((cache_state$type (invalid) (shared) (exclusive))))
-(declare-datatypes () ((cache$type (c_cache$type (c_state cache_state$type) (c_data data$type)))))
-(declare-datatypes () ((msg_cmd$type (empty) (reqs) (reqe) (inv) (invack) (gnts) (gnte))))
-(declare-datatypes () ((msg$type (c_msg$type (m_cmd msg_cmd$type) (m_data data$type)))))
-(declare-fun dummy () data$type)
-
-; Var Decls --------------
-(declare-fun memdata$1 () data$type)
-(declare-fun shrset$1 () (Array node$type BOOL))
-(declare-fun recv_invack$i () node$type)
-(declare-fun exgntd () BOOL)
-(declare-fun chan3$1 () (Array node$type msg$type))
-(declare-fun shrset () (Array node$type BOOL))
-(declare-fun exgntd$1 () BOOL)
-(declare-fun chan2 () (Array node$type msg$type))
-(declare-fun chan3 () (Array node$type msg$type))
-(declare-fun auxnode () node$type)
-(declare-fun curcmd () msg_cmd$type)
-
-; Asserts   --------------
-(assert (not (=> (and (and (forall ((n node$type)) 
-                                                      (=> (= (m_cmd (select 
-                                                                    chan2 
-                                                                    n)) 
-                                                          gnte) (= exgntd 
-                                                                Truth))) 
-                                                 (forall ((n node$type)) 
-                                                 (=> (= exgntd Truth) 
-                                                 (= (select shrset n) 
-                                                 (ite (= n auxnode) Truth 
-                                                 Falsity))))) (forall 
-                                                              ((n node$type)) 
-                                                              (=> (= 
-                                                                  (m_cmd 
-                                                                  (select 
-                                                                  chan3 
-                                                                  n)) 
-                                                                  invack) 
-                                                              (= (m_cmd 
-                                                                 (select 
-                                                                 chan2 
-                                                                 n)) 
-                                                              empty)))) 
-                                        (=> (= (m_cmd (select chan3 recv_invack$i)) 
-                                            invack) (=> (not (= curcmd empty)) 
-                                                    (=> (= chan3$1 (store 
-                                                                   chan3 
-                                                                   recv_invack$i 
-                                                                   (let (
-                                                                   (vup_228 
-                                                                   (select 
-                                                                   chan3 
-                                                                   recv_invack$i))) 
-                                                                   (c_msg$type 
-                                                                   empty 
-                                                                   (m_data 
-                                                                   vup_228))))) 
-                                                    (=> (= shrset$1 (store 
-                                                                    shrset 
-                                                                    recv_invack$i 
-                                                                    Falsity)) 
-                                                    (= (ite (= exgntd Truth) 
-                                                       (ite (=> (= exgntd$1 
-                                                                Falsity) 
-                                                            (=> (= memdata$1 
-                                                                (m_data 
-                                                                (select 
-                                                                chan3$1 
-                                                                recv_invack$i))) 
-                                                            (forall (
-                                                                    (n node$type)) 
-                                                            (=> (= (m_cmd 
-                                                                   (select 
-                                                                   chan2 
-                                                                   n)) 
-                                                                gnte) 
-                                                            (= exgntd$1 
-                                                            Truth))))) 
-                                                       Truth Falsity) 
-                                                       (ite (forall (
-                                                                    (n node$type)) 
-                                                            (=> (= (m_cmd 
-                                                                   (select 
-                                                                   chan2 
-                                                                   n)) 
-                                                                gnte) 
-                                                            (= exgntd 
-                                                            Truth))) 
-                                                       Truth Falsity)) 
-                                                    Truth))))))))
-                           
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/fmf/german73.smt2 b/test/regress/regress0/fmf/german73.smt2
deleted file mode 100644
index 64f551d55..000000000
--- a/test/regress/regress0/fmf/german73.smt2
+++ /dev/null
@@ -1,105 +0,0 @@
-; COMMAND-LINE: --finite-model-find --lang=smt2.5
-; EXPECT: unsat
-(set-logic ALL_SUPPORTED)
-(set-info :status unsat)
-(declare-datatypes () ((UNIT (Unit))))
-(declare-datatypes () ((BOOL (Truth) (Falsity))))
-
-; Decls     --------------
-(declare-sort node$type 0)
-(declare-sort data$type 0)
-(declare-datatypes () ((cache_state$type (invalid) (shared) (exclusive))))
-(declare-datatypes () ((cache$type (c_cache$type (c_state cache_state$type) (c_data data$type)))))
-(declare-datatypes () ((msg_cmd$type (empty) (reqs) (reqe) (inv) (invack) (gnts) (gnte))))
-(declare-datatypes () ((msg$type (c_msg$type (m_cmd msg_cmd$type) (m_data data$type)))))
-(declare-fun dummy () data$type)
-
-; Var Decls --------------
-(declare-fun memdata$1 () data$type)
-(declare-fun shrset$1 () (Array node$type BOOL))
-(declare-fun recv_invack$i () node$type)
-(declare-fun exgntd () BOOL)
-(declare-fun invset () (Array node$type BOOL))
-(declare-fun chan3$1 () (Array node$type msg$type))
-(declare-fun shrset () (Array node$type BOOL))
-(declare-fun exgntd$1 () BOOL)
-(declare-fun chan2 () (Array node$type msg$type))
-(declare-fun chan3 () (Array node$type msg$type))
-(declare-fun curcmd () msg_cmd$type)
-
-; Asserts   --------------
-(assert (not (=> (and (forall ((n node$type)) 
-                                                 (=> (= (select invset n) 
-                                                     Truth) (= (select 
-                                                               shrset 
-                                                               n) Truth))) 
-                                            (forall ((n node$type)) (=> 
-                                                                    (or 
-                                                                    (= 
-                                                                    (m_cmd 
-                                                                    (select 
-                                                                    chan2 
-                                                                    n)) 
-                                                                    inv) 
-                                                                    (= 
-                                                                    (m_cmd 
-                                                                    (select 
-                                                                    chan3 
-                                                                    n)) 
-                                                                    invack)) 
-                                                                    (not 
-                                                                    (= 
-                                                                    (select 
-                                                                    invset 
-                                                                    n) 
-                                                                    Truth))))) 
-                                        (=> (= (m_cmd (select chan3 recv_invack$i)) 
-                                            invack) (=> (not (= curcmd empty)) 
-                                                    (=> (= chan3$1 (store 
-                                                                   chan3 
-                                                                   recv_invack$i 
-                                                                   (let (
-                                                                   (vup_101 
-                                                                   (select 
-                                                                   chan3 
-                                                                   recv_invack$i))) 
-                                                                   (c_msg$type 
-                                                                   empty 
-                                                                   (m_data 
-                                                                   vup_101))))) 
-                                                    (=> (= shrset$1 (store 
-                                                                    shrset 
-                                                                    recv_invack$i 
-                                                                    Falsity)) 
-                                                    (= (ite (= exgntd Truth) 
-                                                       (ite (=> (= exgntd$1 
-                                                                Falsity) 
-                                                            (=> (= memdata$1 
-                                                                (m_data 
-                                                                (select 
-                                                                chan3$1 
-                                                                recv_invack$i))) 
-                                                            (forall (
-                                                                    (n node$type)) 
-                                                            (=> (= (select 
-                                                                   invset 
-                                                                   n) 
-                                                                Truth) 
-                                                            (= (select 
-                                                               shrset$1 
-                                                               n) Truth))))) 
-                                                       Truth Falsity) 
-                                                       (ite (forall (
-                                                                    (n node$type)) 
-                                                            (=> (= (select 
-                                                                   invset 
-                                                                   n) 
-                                                                Truth) 
-                                                            (= (select 
-                                                               shrset$1 
-                                                               n) Truth))) 
-                                                       Truth Falsity)) 
-                                                    Truth))))))))
-                           
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/fmf/issue916-fmf-or.smt2 b/test/regress/regress0/fmf/issue916-fmf-or.smt2
deleted file mode 100644
index 0c51e39af..000000000
--- a/test/regress/regress0/fmf/issue916-fmf-or.smt2
+++ /dev/null
@@ -1,48 +0,0 @@
-; COMMAND-LINE: --fmf-fun --no-check-models
-; EXPECT: sat
-
-(set-logic UFDTLIA)
-(set-info :smt-lib-version 2.5)
-
-(define-funs-rec
-  (
-    (validIdValue ((x Int)(v Int)) Bool)
-  )
-  (
-    (or 
-        (and (= x 0) (< (- 10) v 10) )
-        (and (= x 1) (<= (- 100) v (- 10)) )
-        (and (= x 2) (<= 10 v 100) )
-        (and (= x 3) (< (- 1000) v (- 100)) )
-        (and (= x 4) (< 100 v 1000) )
-        (and (= x 5) (<= (- 1000) v) )
-        (and (= x 6) (<= v 1000) )
-            (validIdValue (- x 7) v)
-    )
-  )
-)
-
-(declare-datatypes (T) ( (List (Nil) (Cstr (head T) (tail List) ) ) ) )
-(declare-datatypes (T S) ( (Pair (Pair (first T) (second S)) ) ) )
-
-(define-funs-rec
-  (
-    (validList ((l (List (Pair Int Int)))) Bool)
-  )
-  (
-    (ite (= l (as Nil (List (Pair Int Int))) )
-        true
-        (let ((hd (head l))) (and (>= (first hd) 0) 
-                                  (validIdValue (first hd) (second hd)) 
-                                  (validList (tail l))
-                              )
-        )
-    )
-  )
-)
-
-
-(declare-const myList (List (Pair Int Int)))
-(assert (distinct myList (as Nil (List (Pair Int Int)))))
-(assert (validList myList))
-(check-sat)
diff --git a/test/regress/regress0/fmf/jasmin-cdt-crash.smt2 b/test/regress/regress0/fmf/jasmin-cdt-crash.smt2
deleted file mode 100644
index 7012838f9..000000000
--- a/test/regress/regress0/fmf/jasmin-cdt-crash.smt2
+++ /dev/null
@@ -1,100 +0,0 @@
-; COMMAND-LINE: --finite-model-find --fmf-inst-engine --uf-ss-fair-monotone --lang=smt2.5
-; EXPECT: sat
-(set-logic ALL_SUPPORTED)
-(set-info :status sat)
-(declare-sort a_ 0)
-(declare-fun __nun_card_witness_0 () a_)
-(declare-codatatypes ()
-   ((llist_ (LCons_ (_select_LCons__0 a_) (_select_LCons__1 llist_)) 
-       (LNil_ ))))
-(declare-fun xs_ () llist_)
-(declare-fun y_ () a_)
-(declare-fun ys_ () llist_)
-(declare-datatypes () ((_nat (_succ (_select__succ_0 _nat)) (_zero ))))
-(declare-fun decr_lprefix_ () _nat)
-(declare-sort G_lprefix__neg 0)
-(declare-fun __nun_card_witness_1 () G_lprefix__neg)
-(declare-fun lprefix__- (_nat llist_ llist_) Bool)
-(declare-fun proj_G_lprefix__neg_0 (G_lprefix__neg) _nat)
-(declare-fun proj_G_lprefix__neg_1 (G_lprefix__neg) llist_)
-(declare-fun proj_G_lprefix__neg_2 (G_lprefix__neg) llist_)
-(assert
- (forall ((a/60 G_lprefix__neg))
-    (=>
-     (or (= (proj_G_lprefix__neg_0 a/60) _zero) 
-      (and (is-_succ (proj_G_lprefix__neg_0 a/60)) 
-       (= (proj_G_lprefix__neg_1 a/60) LNil_)) 
-      (and
-       (=>
-        (exists ((a/68 G_lprefix__neg))
-           (and
-            (= (_select_LCons__1 (proj_G_lprefix__neg_2 a/60))
-             (proj_G_lprefix__neg_2 a/68)) 
-            (= (_select_LCons__1 (proj_G_lprefix__neg_1 a/60))
-             (proj_G_lprefix__neg_1 a/68)) 
-            (= (_select__succ_0 (proj_G_lprefix__neg_0 a/60))
-             (proj_G_lprefix__neg_0 a/68))))
-        (lprefix__- (_select__succ_0 (proj_G_lprefix__neg_0 a/60)) 
-         (_select_LCons__1 (proj_G_lprefix__neg_1 a/60)) 
-         (_select_LCons__1 (proj_G_lprefix__neg_2 a/60)))) 
-       (is-_succ (proj_G_lprefix__neg_0 a/60)) 
-       (is-LCons_ (proj_G_lprefix__neg_1 a/60)) 
-       (is-LCons_ (proj_G_lprefix__neg_2 a/60)) 
-       (= (_select_LCons__0 (proj_G_lprefix__neg_2 a/60))
-        (_select_LCons__0 (proj_G_lprefix__neg_1 a/60)))))
-     (lprefix__- (proj_G_lprefix__neg_0 a/60) (proj_G_lprefix__neg_1 a/60) 
-      (proj_G_lprefix__neg_2 a/60)))))
-(declare-sort G_lprefix__pos 0)
-(declare-fun __nun_card_witness_2 () G_lprefix__pos)
-(declare-fun lprefix__+ (llist_ llist_) Bool)
-(declare-fun proj_G_lprefix__pos_0 (G_lprefix__pos) llist_)
-(declare-fun proj_G_lprefix__pos_1 (G_lprefix__pos) llist_)
-(assert
- (forall ((a/69 G_lprefix__pos))
-    (=>
-     (lprefix__+ (proj_G_lprefix__pos_0 a/69) (proj_G_lprefix__pos_1 a/69))
-     (or (= (proj_G_lprefix__pos_0 a/69) LNil_) 
-      (and
-       (lprefix__+ (_select_LCons__1 (proj_G_lprefix__pos_0 a/69)) 
-        (_select_LCons__1 (proj_G_lprefix__pos_1 a/69))) 
-       (exists ((a/77 G_lprefix__pos))
-          (and
-           (= (_select_LCons__1 (proj_G_lprefix__pos_1 a/69))
-            (proj_G_lprefix__pos_1 a/77)) 
-           (= (_select_LCons__1 (proj_G_lprefix__pos_0 a/69))
-            (proj_G_lprefix__pos_0 a/77)))) 
-       (is-LCons_ (proj_G_lprefix__pos_0 a/69)) 
-       (is-LCons_ (proj_G_lprefix__pos_1 a/69)) 
-       (= (_select_LCons__0 (proj_G_lprefix__pos_1 a/69))
-        (_select_LCons__0 (proj_G_lprefix__pos_0 a/69))))))))
-(declare-fun nun_sk_0 () llist_)
-(assert
- (or
-  (and
-   (not
-    (=>
-     (exists ((a/109 G_lprefix__neg))
-        (and (= (LCons_ y_ ys_) (proj_G_lprefix__neg_2 a/109)) 
-         (= xs_ (proj_G_lprefix__neg_1 a/109)) 
-         (= decr_lprefix_ (proj_G_lprefix__neg_0 a/109))))
-     (lprefix__- decr_lprefix_ xs_ (LCons_ y_ ys_)))) 
-   (or (= xs_ LNil_) 
-    (and (= xs_ (LCons_ y_ nun_sk_0)) (lprefix__+ xs_ ys_) 
-     (exists ((a/113 G_lprefix__pos))
-        (and (= ys_ (proj_G_lprefix__pos_1 a/113)) 
-         (= xs_ (proj_G_lprefix__pos_0 a/113))))))) 
-  (and (not (= xs_ LNil_)) 
-   (forall ((xs_H_/120 llist_))
-      (or (not (= xs_ (LCons_ y_ xs_H_/120))) 
-       (not
-        (=>
-         (exists ((a/124 G_lprefix__neg))
-            (and (= ys_ (proj_G_lprefix__neg_2 a/124)) 
-             (= xs_ (proj_G_lprefix__neg_1 a/124)) 
-             (= decr_lprefix_ (proj_G_lprefix__neg_0 a/124))))
-         (lprefix__- decr_lprefix_ xs_ ys_))))) 
-   (lprefix__+ xs_ (LCons_ y_ ys_)) 
-   (exists ((a/125 G_lprefix__pos))
-      (and (= (LCons_ y_ ys_) (proj_G_lprefix__pos_1 a/125)) 
-       (= xs_ (proj_G_lprefix__pos_0 a/125)))))))
-(check-sat)
diff --git a/test/regress/regress0/fmf/ko-bound-set.cvc b/test/regress/regress0/fmf/ko-bound-set.cvc
deleted file mode 100644
index eebcbc2f8..000000000
--- a/test/regress/regress0/fmf/ko-bound-set.cvc
+++ /dev/null
@@ -1,10 +0,0 @@
-% EXPECT: invalid
-OPTION "finite-model-find";
-OPTION "fmf-bound-int";
-OPTION "produce-models";
-
-X, Y : SET OF INT;
-
-ASSERT FORALL(x : INT): x IS_IN X => x > 0;
-QUERY ||X|| = 5 AND Y = X | {9} => ||Y|| <= 4;
-
diff --git a/test/regress/regress0/fmf/loopy_coda.smt2 b/test/regress/regress0/fmf/loopy_coda.smt2
deleted file mode 100644
index 519fb17fc..000000000
--- a/test/regress/regress0/fmf/loopy_coda.smt2
+++ /dev/null
@@ -1,38 +0,0 @@
-; COMMAND-LINE: --finite-model-find --fmf-inst-engine --uf-ss-fair-monotone --lang=smt2.5
-; EXPECT: sat
-(set-logic ALL_SUPPORTED)
-(set-info :status sat)
-(declare-sort a 0)
-(declare-fun __nun_card_witness_0 () a)
-(declare-codatatypes ()
-   ((llist (LCons (_select_LCons_0 a) (_select_LCons_1 llist)) (LNil ))))
-(declare-fun xs () llist)
-(declare-fun y () a)
-(declare-fun ys () llist)
-(declare-sort G_lappend 0)
-(declare-fun __nun_card_witness_1 () G_lappend)
-(declare-fun lappend (llist llist) llist)
-(declare-fun proj_G_lappend_0 (G_lappend) llist)
-(declare-fun proj_G_lappend_1 (G_lappend) llist)
-(assert
- (forall ((a/33 G_lappend))
-    (and
-     (= (lappend (proj_G_lappend_0 a/33) (proj_G_lappend_1 a/33))
-      (ite (is-LCons (proj_G_lappend_0 a/33))
-        (LCons (_select_LCons_0 (proj_G_lappend_0 a/33))
-         (lappend (_select_LCons_1 (proj_G_lappend_0 a/33))
-          (proj_G_lappend_1 a/33)))
-        (proj_G_lappend_1 a/33)))
-     (=> (is-LCons (proj_G_lappend_0 a/33))
-      (exists ((a/35 G_lappend))
-         (and (= (proj_G_lappend_1 a/33) (proj_G_lappend_1 a/35))
-          (= (_select_LCons_1 (proj_G_lappend_0 a/33))
-           (proj_G_lappend_0 a/35))))))))
-(assert
- (not
-  (=>
-   (exists ((a/37 G_lappend))
-      (and (= (LCons y ys) (proj_G_lappend_1 a/37))
-       (= xs (proj_G_lappend_0 a/37))))
-   (= (lappend xs (LCons y ys)) xs))))
-(check-sat)
diff --git a/test/regress/regress0/fmf/lst-no-self-rev-exp.smt2 b/test/regress/regress0/fmf/lst-no-self-rev-exp.smt2
deleted file mode 100644
index d55e15925..000000000
--- a/test/regress/regress0/fmf/lst-no-self-rev-exp.smt2
+++ /dev/null
@@ -1,35 +0,0 @@
-; COMMAND-LINE: --finite-model-find --dt-rewrite-error-sel --lang=smt2.5
-; EXPECT: sat
-(set-logic ALL_SUPPORTED)
-(declare-datatypes () ((Nat (succ (pred Nat)) (zero)) (Lst (cons (hd Nat) (tl Lst)) (nil))))
-
-(declare-fun app (Lst Lst) Lst)
-(declare-fun rev (Lst) Lst)
- 
-(declare-sort I_app 0)
-(declare-sort I_rev 0)
-
-(declare-fun a () I_app)
-(declare-fun b () I_app)
-(assert (not (= a b)))
-
-(declare-fun app_0_3 (I_app) Lst)
-(declare-fun app_1_4 (I_app) Lst)
-(declare-fun rev_0_5 (I_rev) Lst)
-
-(declare-fun xs () Lst)
-
-(assert (and
- 
-(forall ((?i I_app)) (= (app (app_0_3 ?i) (app_1_4 ?i)) (ite (is-cons (app_0_3 ?i)) (cons (hd (app_0_3 ?i)) (app (tl (app_0_3 ?i)) (app_1_4 ?i))) (app_1_4 ?i))) ) 
- 
-(forall ((?i I_rev)) (= (rev (rev_0_5 ?i)) (ite (is-cons (rev_0_5 ?i)) (app (rev (tl (rev_0_5 ?i))) (cons (hd (rev_0_5 ?i)) nil)) nil)) ) 
-
-(forall ((?i I_rev)) (or (not (is-cons (rev_0_5 ?i))) (and (not (forall ((?z I_app)) (not (and (= (app_0_3 ?z) (rev (tl (rev_0_5 ?i)))) (= (app_1_4 ?z) (cons (hd (rev_0_5 ?i))  nil)))) )) (not (forall ((?z I_rev)) (not (= (rev_0_5 ?z) (tl (rev_0_5 ?i)) )) )))) )
-
-(not (or (= xs (rev xs)) (forall ((?z I_rev)) (not (= (rev_0_5 ?z) xs)) )))
-  
-))
-  
-(check-sat)
-
diff --git a/test/regress/regress0/fmf/memory_model-R_cpp-dd.cvc b/test/regress/regress0/fmf/memory_model-R_cpp-dd.cvc
deleted file mode 100644
index 5d1289997..000000000
--- a/test/regress/regress0/fmf/memory_model-R_cpp-dd.cvc
+++ /dev/null
@@ -1,52 +0,0 @@
-% EXPECT: sat
-OPTION "produce-models";
-OPTION "fmf-bound";
-
-DATATYPE MOPERATION = R | W | M END;
-DATATYPE ORDER = I | SC | U END;
-DATATYPE ATOM = AT | NA END;
-
-DATATYPE BINT = I0 | I1 | I2 | I3 END;
-
-DATATYPE TEAR_TYPE = TEAR_TRUE | TEAR_FALSE END;
-SDBLOCK_TYPE: TYPE;
-VALUE_TYPE: TYPE;
-ADDRESS_TYPE: TYPE = SET OF BINT;
-
-MEM_OP_TYPE : TYPE = [# O:MOPERATION, T:TEAR_TYPE, R:ORDER, A:ATOM, B:SDBLOCK_TYPE, M:ADDRESS_TYPE, V:VALUE_TYPE #];
-EV_REL: TYPE = SET OF [MEM_OP_TYPE, MEM_OP_TYPE];
-THREAD_TYPE : TYPE = [# E:SET OF MEM_OP_TYPE, PO:EV_REL #];
-
-m1 : SDBLOCK_TYPE;
-
-ow1 : MEM_OP_TYPE;
-or2 : MEM_OP_TYPE;
-
-v1 : VALUE_TYPE;
-v2 : VALUE_TYPE;
-
-ASSERT (ow1.O = W) AND
-       (ow1.T = TEAR_FALSE) AND
-       (ow1.R = U) AND
-       (ow1.A = NA) AND
-       (ow1.B = m1) AND
-       (ow1.M = {I0}) AND
-       (ow1.V = v1);
-
-ASSERT (or2.O = R) AND
-       (or2.T = TEAR_FALSE) AND
-       (or2.R = U) AND
-       (or2.A = NA) AND
-       (or2.B = m1) AND
-       (or2.M = {I0}) AND
-       (or2.V = v2);
-
-ev_set : SET OF MEM_OP_TYPE;
-
-ASSERT ev_set = {ow1, or2};
-
-RF : EV_REL;
-
-ASSERT FORALL (r,w: MEM_OP_TYPE) : (((r IS_IN ev_set) AND (w IS_IN ev_set)) => (((r,w) IS_IN RF) <=> ((r.O = R) AND (w.O = W))));
-
-CHECKSAT;
diff --git a/test/regress/regress0/fmf/nun-0208-to.smt2 b/test/regress/regress0/fmf/nun-0208-to.smt2
deleted file mode 100644
index e6b3c2021..000000000
--- a/test/regress/regress0/fmf/nun-0208-to.smt2
+++ /dev/null
@@ -1,180 +0,0 @@
-; COMMAND-LINE: --finite-model-find --lang=smt2.5
-; EXPECT: sat
-  (set-logic ALL_SUPPORTED)
-  (declare-sort b__ 0)
-  (declare-fun __nun_card_witness_0_ () b__)
-  (declare-sort a__ 0)
-  (declare-fun __nun_card_witness_1_ () a__)
-  (declare-datatypes ()
-     ((prod__ (Pair__ (_select_Pair___0 a__) (_select_Pair___1 b__)))))
-  (declare-datatypes ()
-     ((list2__
-         (Cons2__ (_select_Cons2___0 prod__) (_select_Cons2___1 list2__)) 
-         (Nil2__ ))))
-  (declare-datatypes ()
-     ((list__ (Cons__ (_select_Cons___0 a__) (_select_Cons___1 list__)) 
-         (Nil__ ))))
-  (declare-datatypes ()
-     ((list1__ (Cons1__ (_select_Cons1___0 b__) (_select_Cons1___1 list1__)) 
-         (Nil1__ ))))
-  (declare-sort G_zip__ 0)
-  (declare-fun __nun_card_witness_2_ () G_zip__)
-  (declare-fun zip__ (list__ list1__) list2__)
-  (declare-fun proj_G_zip__0_ (G_zip__) list__)
-  (declare-fun proj_G_zip__1_ (G_zip__) list1__)
-  (assert
-   (forall ((a/166 G_zip__))
-      (and
-       (= (zip__ (proj_G_zip__0_ a/166) (proj_G_zip__1_ a/166))
-        (ite (is-Cons1__ (proj_G_zip__1_ a/166))
-          (ite (is-Cons__ (proj_G_zip__0_ a/166))
-            (Cons2__
-             (Pair__ (_select_Cons___0 (proj_G_zip__0_ a/166)) 
-              (_select_Cons1___0 (proj_G_zip__1_ a/166))) 
-             (zip__ (_select_Cons___1 (proj_G_zip__0_ a/166)) 
-              (_select_Cons1___1 (proj_G_zip__1_ a/166))))
-            Nil2__)
-          Nil2__)) 
-       (=> (is-Cons1__ (proj_G_zip__1_ a/166))
-        (=> (is-Cons__ (proj_G_zip__0_ a/166))
-         (exists ((a/168 G_zip__))
-            (and
-             (= (_select_Cons1___1 (proj_G_zip__1_ a/166))
-              (proj_G_zip__1_ a/168)) 
-             (= (_select_Cons___1 (proj_G_zip__0_ a/166))
-              (proj_G_zip__0_ a/168)))))))))
-  (declare-datatypes () ((nat__ (Suc__ (_select_Suc___0 nat__)) (zero__ ))))
-  (declare-sort G_replicate__ 0)
-  (declare-fun __nun_card_witness_3_ () G_replicate__)
-  (declare-fun replicate__ (nat__ a__) list__)
-  (declare-fun proj_G_replicate__0_ (G_replicate__) nat__)
-  (declare-fun proj_G_replicate__1_ (G_replicate__) a__)
-  (assert
-   (forall ((a/169 G_replicate__))
-      (and
-       (=
-        (replicate__ (proj_G_replicate__0_ a/169) 
-         (proj_G_replicate__1_ a/169))
-        (ite (is-Suc__ (proj_G_replicate__0_ a/169))
-          (Cons__ (proj_G_replicate__1_ a/169) 
-           (replicate__ (_select_Suc___0 (proj_G_replicate__0_ a/169)) 
-            (proj_G_replicate__1_ a/169)))
-          Nil__)) 
-       (=> (is-Suc__ (proj_G_replicate__0_ a/169))
-        (exists ((a/171 G_replicate__))
-           (and
-            (= (proj_G_replicate__1_ a/169) (proj_G_replicate__1_ a/171)) 
-            (= (_select_Suc___0 (proj_G_replicate__0_ a/169))
-             (proj_G_replicate__0_ a/171))))))))
-  (declare-fun j__ () nat__)
-  (declare-fun x__ () a__)
-  (declare-sort G_replicate1__ 0)
-  (declare-fun __nun_card_witness_4_ () G_replicate1__)
-  (declare-fun replicate1__ (nat__ b__) list1__)
-  (declare-fun proj_G_replicate1__0_ (G_replicate1__) nat__)
-  (declare-fun proj_G_replicate1__1_ (G_replicate1__) b__)
-  (assert
-   (forall ((a/172 G_replicate1__))
-      (and
-       (=
-        (replicate1__ (proj_G_replicate1__0_ a/172) 
-         (proj_G_replicate1__1_ a/172))
-        (ite (is-Suc__ (proj_G_replicate1__0_ a/172))
-          (Cons1__ (proj_G_replicate1__1_ a/172) 
-           (replicate1__ (_select_Suc___0 (proj_G_replicate1__0_ a/172)) 
-            (proj_G_replicate1__1_ a/172)))
-          Nil1__)) 
-       (=> (is-Suc__ (proj_G_replicate1__0_ a/172))
-        (exists ((a/174 G_replicate1__))
-           (and
-            (= (proj_G_replicate1__1_ a/172) (proj_G_replicate1__1_ a/174)) 
-            (= (_select_Suc___0 (proj_G_replicate1__0_ a/172))
-             (proj_G_replicate1__0_ a/174))))))))
-  (declare-fun y__ () b__)
-  (declare-sort G_replicate2__ 0)
-  (declare-fun __nun_card_witness_5_ () G_replicate2__)
-  (declare-fun replicate2__ (nat__ prod__) list2__)
-  (declare-fun proj_G_replicate2__0_ (G_replicate2__) nat__)
-  (declare-fun proj_G_replicate2__1_ (G_replicate2__) prod__)
-  (assert
-   (forall ((a/175 G_replicate2__))
-      (and
-       (=
-        (replicate2__ (proj_G_replicate2__0_ a/175) 
-         (proj_G_replicate2__1_ a/175))
-        (ite (is-Suc__ (proj_G_replicate2__0_ a/175))
-          (Cons2__ (proj_G_replicate2__1_ a/175) 
-           (replicate2__ (_select_Suc___0 (proj_G_replicate2__0_ a/175)) 
-            (proj_G_replicate2__1_ a/175)))
-          Nil2__)) 
-       (=> (is-Suc__ (proj_G_replicate2__0_ a/175))
-        (exists ((a/177 G_replicate2__))
-           (and
-            (= (proj_G_replicate2__1_ a/175) (proj_G_replicate2__1_ a/177)) 
-            (= (_select_Suc___0 (proj_G_replicate2__0_ a/175))
-             (proj_G_replicate2__0_ a/177))))))))
-  (declare-sort G_less__eq__ 0)
-  (declare-fun __nun_card_witness_6_ () G_less__eq__)
-  (declare-fun less__eq__ (nat__ nat__) Bool)
-  (declare-fun proj_G_less__eq__0_ (G_less__eq__) nat__)
-  (declare-fun proj_G_less__eq__1_ (G_less__eq__) nat__)
-  (assert
-   (forall ((a/178 G_less__eq__))
-      (and
-       (=
-        (less__eq__ (proj_G_less__eq__0_ a/178) (proj_G_less__eq__1_ a/178))
-        (=> (is-Suc__ (proj_G_less__eq__0_ a/178))
-         (and (is-Suc__ (proj_G_less__eq__1_ a/178)) 
-          (less__eq__ (_select_Suc___0 (proj_G_less__eq__0_ a/178)) 
-           (_select_Suc___0 (proj_G_less__eq__1_ a/178)))))) 
-       (exists ((a/182 G_less__eq__))
-          (and
-           (= (_select_Suc___0 (proj_G_less__eq__1_ a/178))
-            (proj_G_less__eq__1_ a/182)) 
-           (= (_select_Suc___0 (proj_G_less__eq__0_ a/178))
-            (proj_G_less__eq__0_ a/182)))))))
-  (declare-sort G_min__ 0)
-  (declare-fun __nun_card_witness_7_ () G_min__)
-  (declare-fun min__ (nat__ nat__) nat__)
-  (declare-fun proj_G_min__0_ (G_min__) nat__)
-  (declare-fun proj_G_min__1_ (G_min__) nat__)
-  (assert
-   (forall ((a/183 G_min__))
-      (and
-       (= (min__ (proj_G_min__0_ a/183) (proj_G_min__1_ a/183))
-        (ite (less__eq__ (proj_G_min__0_ a/183) (proj_G_min__1_ a/183))
-          (proj_G_min__0_ a/183) (proj_G_min__1_ a/183))) 
-       (exists ((a/184 G_less__eq__))
-          (and (= (proj_G_min__1_ a/183) (proj_G_less__eq__1_ a/184)) 
-           (= (proj_G_min__0_ a/183) (proj_G_less__eq__0_ a/184)))))))
-  (declare-fun i__ () nat__)
-  (assert
-   (not
-    (=>
-     (and
-      (exists ((a/212 G_min__))
-         (and (= i__ (proj_G_min__1_ a/212)) (= i__ (proj_G_min__0_ a/212)))) 
-      (exists ((a/208 G_replicate2__))
-         (and (= (Pair__ x__ y__) (proj_G_replicate2__1_ a/208)) 
-          (= (min__ i__ i__) (proj_G_replicate2__0_ a/208)) 
-          (exists ((a/210 G_min__))
-             (and (= i__ (proj_G_min__1_ a/210)) 
-              (= i__ (proj_G_min__0_ a/210)))))) 
-      (exists ((a/199 G_zip__))
-         (and (= (replicate1__ j__ y__) (proj_G_zip__1_ a/199)) 
-          (exists ((a/202 G_replicate1__))
-             (and (= y__ (proj_G_replicate1__1_ a/202)) 
-              (= j__ (proj_G_replicate1__0_ a/202)))) 
-          (= (replicate__ j__ x__) (proj_G_zip__0_ a/199)) 
-          (exists ((a/203 G_replicate__))
-             (and (= x__ (proj_G_replicate__1_ a/203)) 
-              (= j__ (proj_G_replicate__0_ a/203)))))) 
-      (exists ((a/207 G_replicate1__))
-         (and (= y__ (proj_G_replicate1__1_ a/207)) 
-          (= j__ (proj_G_replicate1__0_ a/207)))) 
-      (exists ((a/206 G_replicate__))
-         (and (= x__ (proj_G_replicate__1_ a/206)) 
-          (= j__ (proj_G_replicate__0_ a/206)))))
-     (= (replicate2__ (min__ i__ i__) (Pair__ x__ y__))
-      (zip__ (replicate__ j__ x__) (replicate1__ j__ y__))))))
-  (check-sat)
diff --git a/test/regress/regress0/fmf/pow2-bool.smt2 b/test/regress/regress0/fmf/pow2-bool.smt2
deleted file mode 100644
index 4943c646c..000000000
--- a/test/regress/regress0/fmf/pow2-bool.smt2
+++ /dev/null
@@ -1,17 +0,0 @@
-; COMMAND-LINE: --fmf-fun --no-check-models
-; EXPECT: sat
-(set-logic ALL)
-
-(define-fun-rec pow2 ((n Int) (p Int)) Bool (
-	or
-	(and (= n 0) (= p 1))
-	(and (> n 0) (> p 1) (= 0 (mod p 2)) (pow2 (- n 1) (div p 2)))
-))
-
-(declare-const n Int)
-(declare-const p Int)
-
-(assert (= n 10))
-(assert (pow2 n p))
-
-(check-sat)
diff --git a/test/regress/regress0/fmf/refcount24.cvc.smt2 b/test/regress/regress0/fmf/refcount24.cvc.smt2
deleted file mode 100644
index e3b6957d0..000000000
--- a/test/regress/regress0/fmf/refcount24.cvc.smt2
+++ /dev/null
@@ -1,37 +0,0 @@
-; COMMAND-LINE: --finite-model-find
-; EXPECT: sat
-(set-logic ALL_SUPPORTED)
-(set-info :smt-lib-version 2.0)
-(set-info :category "unknown")
-(set-info :status sat)
-(declare-datatypes () 
-((UNIT  (Unit))
-))
-(declare-datatypes () 
-((BOOL  (Truth)  (Falsity))
-))
-(declare-sort resource$type 0)
-(declare-sort process$type 0)
-(declare-fun null () resource$type)
-(declare-sort S$t$type 0)
-(declare-fun S$empty () S$t$type)
-(declare-fun S$mem (process$type S$t$type) BOOL)
-(declare-fun S$add (process$type S$t$type) S$t$type)
-(declare-fun S$remove (process$type S$t$type) S$t$type)
-(declare-fun S$cardinality (S$t$type) Int)
-(assert (forall ((e process$type)) (not (= (S$mem e S$empty) Truth))))
-(assert (forall ((x process$type) (y process$type) (s S$t$type)) (= (S$mem x (S$add y s)) (ite (or (= x y) (= (S$mem x s) Truth)) Truth Falsity))))
-(assert (forall ((x process$type) (y process$type) (s S$t$type)) (= (S$mem x (S$remove y s)) (ite (and (not (= x y)) (= (S$mem x s) Truth)) Truth Falsity))))
-(assert (= (S$cardinality S$empty) 0))
-(assert (forall ((s S$t$type)) (=> (= (S$cardinality s) 0) (= s S$empty))))
-(assert (forall ((s S$t$type)) (>= (S$cardinality s) 0)))
-(assert (forall ((x process$type) (s S$t$type)) (let ((?v_0 (S$cardinality s))) (= (S$cardinality (S$add x s)) (ite (= (S$mem x s) Truth) ?v_0 (+ ?v_0 1))))))
-(assert (forall ((x process$type) (s S$t$type)) (let ((?v_0 (S$cardinality s))) (= (S$cardinality (S$remove x s)) (ite (= (S$mem x s) Truth) (- ?v_0 1) ?v_0)))))
-(declare-fun count () (Array resource$type Int))
-(declare-fun ref () (Array process$type resource$type))
-(declare-fun valid () (Array resource$type BOOL))
-(declare-fun destroy$r () resource$type)
-(declare-fun valid$1 () (Array resource$type BOOL))
-(assert (not (=> (forall ((p process$type)) (let ((?v_0 (select ref p))) (=> (not (= ?v_0 null)) (= (select valid ?v_0) Truth)))) (=> (not (= destroy$r null)) (=> (= (select valid destroy$r) Truth) (=> (= (select count destroy$r) 0) (=> (= valid$1 (store valid destroy$r Falsity)) (forall ((p process$type)) (let ((?v_1 (select ref p))) (=> (not (= ?v_1 null)) (= (select valid$1 ?v_1) Truth)))))))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/fmf/sc-crash-052316.smt2 b/test/regress/regress0/fmf/sc-crash-052316.smt2
deleted file mode 100644
index 345d8220e..000000000
--- a/test/regress/regress0/fmf/sc-crash-052316.smt2
+++ /dev/null
@@ -1,35 +0,0 @@
-; COMMAND-LINE: --finite-model-find --lang=smt2.5
-; EXPECT: unsat
-  (set-logic ALL_SUPPORTED)
-  (set-info :status unsat)
-  (declare-sort g_ 0)
-  (declare-fun __nun_card_witness_0_ () g_)
-  (declare-sort f_ 0)
-  (declare-fun __nun_card_witness_1_ () f_)
-  (declare-sort e_ 0)
-  (declare-fun __nun_card_witness_2_ () e_)
-(declare-datatypes ()
- ((prod1_ (Pair1_ (_select_Pair1__0 e_) (_select_Pair1__1 f_)))))
-  (declare-sort d_ 0)
-  (declare-fun __nun_card_witness_3_ () d_)
-  (declare-sort c_ 0)
-  (declare-fun __nun_card_witness_4_ () c_)
-  (declare-sort b_ 0)
-  (declare-fun __nun_card_witness_5_ () b_)
-  (declare-sort a_ 0)
-  (declare-fun __nun_card_witness_6_ () a_)
-(declare-datatypes ()
- ((prod_ (Pair_ (_select_Pair__0 a_) (_select_Pair__1 b_)))))
-  (declare-fun f1_ (prod_ c_ d_ prod1_) g_)
-  (declare-fun g1_ (prod_) c_)
-  (declare-fun h_ (prod_ d_) prod1_)
-  (declare-fun nun_sk_0_ () prod_)
-(declare-fun nun_sk_1_ (c_) d_)
-  (assert
-   (not
-    (exists ((v/72 c_))
-     (exists ((x/73 prod1_))
-      (= (f1_ nun_sk_0_ v/72 (nun_sk_1_ v/72) x/73)
-       (f1_ nun_sk_0_ (g1_ nun_sk_0_) (nun_sk_1_ v/72)
-        (h_ nun_sk_0_ (nun_sk_1_ v/72))))))))
-(check-sat)
diff --git a/test/regress/regress0/fmf/with-ind-104-core.smt2 b/test/regress/regress0/fmf/with-ind-104-core.smt2
deleted file mode 100644
index c1d718403..000000000
--- a/test/regress/regress0/fmf/with-ind-104-core.smt2
+++ /dev/null
@@ -1,35 +0,0 @@
-; COMMAND-LINE: --lang=smt2.5
-; EXPECT: unsat
-(set-logic ALL_SUPPORTED)
-(set-info :status unsat)
-(declare-datatypes () ((Nat!2409 (succ!2410 (pred!2411 Nat!2409)) (zero!2412))
-))
-(declare-datatypes () ((Lst!2413 (cons!2414 (head!2415 Nat!2409) (tail!2416 Lst!2413)) (nil!2417))
-))
-(declare-fun error_value!2418 () Nat!2409)
-(declare-fun plus!237 (Nat!2409 Nat!2409) Nat!2409)
-(declare-fun error_value!2419 () Nat!2409)
-(declare-fun count!263 (Nat!2409 Lst!2413) Nat!2409)
-(declare-fun pred!2411_uf_1 (Nat!2409) Nat!2409)
-(declare-fun tail!2416_uf_2 (Lst!2413) Lst!2413)
-(declare-fun head!2415_uf_3 (Lst!2413) Nat!2409)
-(declare-sort I_plus!237 0)
-(set-info :notes "plus!237_arg_0_4 is op created during fun def fmf")
-(declare-fun plus!237_arg_0_4 (I_plus!237) Nat!2409)
-(set-info :notes "plus!237_arg_1_5 is op created during fun def fmf")
-(declare-fun plus!237_arg_1_5 (I_plus!237) Nat!2409)
-(declare-sort I_count!263 0)
-(set-info :notes "count!263_arg_0_6 is op created during fun def fmf")
-(declare-fun count!263_arg_0_6 (I_count!263) Nat!2409)
-(set-info :notes "count!263_arg_1_7 is op created during fun def fmf")
-(declare-fun count!263_arg_1_7 (I_count!263) Lst!2413)
-(assert
-(and
-(not (forall ((h!413 Nat!2409) (BOUND_VARIABLE_663 I_plus!237) (BOUND_VARIABLE_671 I_count!263) (BOUND_VARIABLE_679 I_count!263) (BOUND_VARIABLE_687 I_count!263) (BOUND_VARIABLE_695 I_plus!237) (BOUND_VARIABLE_703 I_count!263) (BOUND_VARIABLE_711 I_count!263) (BOUND_VARIABLE_719 I_count!263)) (or (not (= (plus!237 (count!263 (count!263_arg_0_6 BOUND_VARIABLE_671) (cons!2414 h!413 nil!2417)) (count!263 (count!263_arg_0_6 BOUND_VARIABLE_671) (count!263_arg_1_7 BOUND_VARIABLE_679))) (count!263 (count!263_arg_0_6 BOUND_VARIABLE_671) (cons!2414 h!413 (count!263_arg_1_7 BOUND_VARIABLE_679))))) (= (plus!237 (count!263 (succ!2410 (count!263_arg_0_6 BOUND_VARIABLE_671)) (cons!2414 h!413 nil!2417)) (count!263 (succ!2410 (count!263_arg_0_6 BOUND_VARIABLE_671)) (count!263_arg_1_7 BOUND_VARIABLE_679))) (count!263 (succ!2410 (count!263_arg_0_6 BOUND_VARIABLE_671)) (cons!2414 h!413 (count!263_arg_1_7 BOUND_VARIABLE_679)))) (not (= (plus!237_arg_0_4 BOUND_VARIABLE_663) (count!263 (count!263_arg_0_6 BOUND_VARIABLE_671) (cons!2414 h!413 nil!2417)))) (not (= (plus!237_arg_1_5 BOUND_VARIABLE_663) (count!263 (count!263_arg_0_6 BOUND_VARIABLE_671) (count!263_arg_1_7 BOUND_VARIABLE_679)))) (not (= (count!263_arg_1_7 BOUND_VARIABLE_671) (cons!2414 h!413 nil!2417))) (not (= (count!263_arg_0_6 BOUND_VARIABLE_679) (count!263_arg_0_6 BOUND_VARIABLE_671))) (not (= (count!263_arg_0_6 BOUND_VARIABLE_687) (count!263_arg_0_6 BOUND_VARIABLE_671))) (not (= (count!263_arg_1_7 BOUND_VARIABLE_687) (cons!2414 h!413 (count!263_arg_1_7 BOUND_VARIABLE_679)))) (not (= (plus!237_arg_0_4 BOUND_VARIABLE_695) (count!263 (succ!2410 (count!263_arg_0_6 BOUND_VARIABLE_671)) (cons!2414 h!413 nil!2417)))) (not (= (plus!237_arg_1_5 BOUND_VARIABLE_695) (count!263 (succ!2410 (count!263_arg_0_6 BOUND_VARIABLE_671)) (count!263_arg_1_7 BOUND_VARIABLE_679)))) (not (= (count!263_arg_0_6 BOUND_VARIABLE_703) (succ!2410 (count!263_arg_0_6 BOUND_VARIABLE_671)))) (not (= (count!263_arg_1_7 BOUND_VARIABLE_703) (cons!2414 h!413 nil!2417))) (not (= (count!263_arg_0_6 BOUND_VARIABLE_711) (succ!2410 (count!263_arg_0_6 BOUND_VARIABLE_671)))) (not (= (count!263_arg_1_7 BOUND_VARIABLE_711) (count!263_arg_1_7 BOUND_VARIABLE_679))) (not (= (count!263_arg_0_6 BOUND_VARIABLE_719) (succ!2410 (count!263_arg_0_6 BOUND_VARIABLE_671)))) (not (= (count!263_arg_1_7 BOUND_VARIABLE_719) (cons!2414 h!413 (count!263_arg_1_7 BOUND_VARIABLE_679))))) ))
-(forall ((?j I_plus!237)) (= (plus!237 (plus!237_arg_0_4 ?j) (plus!237_arg_1_5 ?j)) (ite (is-zero!2412 (plus!237_arg_0_4 ?j)) (plus!237_arg_1_5 ?j) (ite (is-succ!2410 (plus!237_arg_0_4 ?j)) (succ!2410 (plus!237 (ite (is-succ!2410 (plus!237_arg_0_4 ?j)) (pred!2411 (plus!237_arg_0_4 ?j)) (pred!2411_uf_1 (plus!237_arg_0_4 ?j))) (plus!237_arg_1_5 ?j))) error_value!2418))) )
-(forall ((?i I_plus!237)) (ite (is-zero!2412 (plus!237_arg_0_4 ?i)) true (ite (is-succ!2410 (plus!237_arg_0_4 ?i)) (not (forall ((?z I_plus!237)) (or (not (= (plus!237_arg_0_4 ?z) (ite (is-succ!2410 (plus!237_arg_0_4 ?i)) (pred!2411 (plus!237_arg_0_4 ?i)) (pred!2411_uf_1 (plus!237_arg_0_4 ?i))))) (not (= (plus!237_arg_1_5 ?z) (plus!237_arg_1_5 ?i)))) )) true)) )
-(forall ((?i I_count!263)) (= (count!263 (count!263_arg_0_6 ?i) (count!263_arg_1_7 ?i)) (ite (is-nil!2417 (count!263_arg_1_7 ?i)) zero!2412 (ite (is-cons!2414 (count!263_arg_1_7 ?i)) (ite (= (count!263_arg_0_6 ?i) (ite (is-cons!2414 (count!263_arg_1_7 ?i)) (head!2415 (count!263_arg_1_7 ?i)) (head!2415_uf_3 (count!263_arg_1_7 ?i)))) (succ!2410 (count!263 (count!263_arg_0_6 ?i) (ite (is-cons!2414 (count!263_arg_1_7 ?i)) (tail!2416 (count!263_arg_1_7 ?i)) (tail!2416_uf_2 (count!263_arg_1_7 ?i))))) (count!263 (count!263_arg_0_6 ?i) (ite (is-cons!2414 (count!263_arg_1_7 ?i)) (tail!2416 (count!263_arg_1_7 ?i)) (tail!2416_uf_2 (count!263_arg_1_7 ?i))))) error_value!2419))) )
-(forall ((?j I_count!263)) (ite (is-nil!2417 (count!263_arg_1_7 ?j)) true (ite (is-cons!2414 (count!263_arg_1_7 ?j)) (ite (= (count!263_arg_0_6 ?j) (ite (is-cons!2414 (count!263_arg_1_7 ?j)) (head!2415 (count!263_arg_1_7 ?j)) (head!2415_uf_3 (count!263_arg_1_7 ?j)))) (not (forall ((?z I_count!263)) (or (not (= (count!263_arg_0_6 ?z) (count!263_arg_0_6 ?j))) (not (= (count!263_arg_1_7 ?z) (ite (is-cons!2414 (count!263_arg_1_7 ?j)) (tail!2416 (count!263_arg_1_7 ?j)) (tail!2416_uf_2 (count!263_arg_1_7 ?j)))))) )) (not (forall ((?z I_count!263)) (or (not (= (count!263_arg_0_6 ?z) (count!263_arg_0_6 ?j))) (not (= (count!263_arg_1_7 ?z) (ite (is-cons!2414 (count!263_arg_1_7 ?j)) (tail!2416 (count!263_arg_1_7 ?j)) (tail!2416_uf_2 (count!263_arg_1_7 ?j)))))) ))) true)) )
-)
-)
-(check-sat)
diff --git a/test/regress/regress0/ho/Makefile.am b/test/regress/regress0/ho/Makefile.am
index 4a7ceb96f..d0903094e 100644
--- a/test/regress/regress0/ho/Makefile.am
+++ b/test/regress/regress0/ho/Makefile.am
@@ -18,7 +18,7 @@ MAKEFLAGS = -k
 # These are run for all build profiles.
 # If a test shouldn't be run in e.g. competition mode,
 # put it below in "TESTS +="
-TESTS = \	
+TESTS = \
   cong.smt2 \
   ext-ho-nested-lambda-model.smt2 \
   declare-fun-variants.smt2 \
@@ -32,34 +32,15 @@ TESTS = \
   ite-apply-eq.smt2 \
   apply-collapse-unsat.smt2 \
   apply-collapse-sat.smt2 \
-  ho-exponential-model.smt2 \
   ext-sat-partial-eval.smt2 \
-  ho-std-fmf.smt2 \
-  fta0409.smt2 \
-  auth0068.smt2 \
   modulo-func-equality.smt2 \
   ho-matching-enum.smt2 \
-  ho-matching-enum-2.smt2 \
   ho-matching-nested-app.smt2 \
   simple-matching.smt2 \
   simple-matching-partial.smt2
   
 EXTRA_DIST = $(TESTS)
 
-# hoa0102.smt2
-
-
-#if CVC4_BUILD_PROFILE_COMPETITION
-#else
-#TESTS += \
-#	error.cvc
-#endif
-# 
-# and make sure to distribute it
-#EXTRA_DIST += \
-#	error.cvc
-
-
 # synonyms for "check" in this directory
 .PHONY: regress regress0 test
 regress regress0 test: check
diff --git a/test/regress/regress0/ho/auth0068.smt2 b/test/regress/regress0/ho/auth0068.smt2
deleted file mode 100644
index eb0bb5d36..000000000
--- a/test/regress/regress0/ho/auth0068.smt2
+++ /dev/null
@@ -1,491 +0,0 @@
-; COMMAND-LINE: --uf-ho
-; EXPECT: unsat
-(set-logic ALL)
-(set-info :status unsat)
-(declare-sort Msg$ 0)
-(declare-sort Nat$ 0)
-(declare-sort Agent$ 0)
-(declare-sort Event$ 0)
-(declare-sort Msg_set$ 0)
-(declare-sort Msg_list$ 0)
-(declare-sort Agent_set$ 0)
-(declare-sort Event_set$ 0)
-(declare-sort Agent_list$ 0)
-(declare-sort Event_list$ 0)
-(declare-sort Event_option$ 0)
-(declare-sort Msg_list_set$ 0)
-(declare-sort Agent_list_set$ 0)
-(declare-sort Event_list_set$ 0)
-(declare-sort Event_list_list$ 0)
-(declare-fun p$ () (-> Event$ Bool))
-(declare-fun uu$ ((-> Msg$ Bool) (-> Msg$ Bool) Msg$) Bool)
-(declare-fun bad$ () Agent_set$)
-(declare-fun nil$ () Event_list$)
-(declare-fun set$ (Event_list$) Event_set$)
-(declare-fun spy$ () Agent$)
-(declare-fun uua$ (Event_set$ (-> Event$ Bool) Event$) Bool)
-(declare-fun uub$ (Agent_set$ (-> Agent$ Bool) Agent$) Bool)
-(declare-fun uuc$ (Msg_set$ (-> Msg$ Bool) Msg$) Bool)
-(declare-fun uud$ (Event_set$ Event$) Bool)
-(declare-fun uue$ (Agent_set$ Agent$) Bool)
-(declare-fun uuf$ (Msg_set$ Msg$) Bool)
-(declare-fun uug$ (Event$ Event_list$) Bool)
-(declare-fun uuh$ (Event$ Event_list$) Bool)
-(declare-fun uui$ ((-> Event$ Bool) Event$ Event$) Bool)
-(declare-fun uuj$ (Event_list_set$ Event_list$ Event$) Bool)
-(declare-fun uuk$ (Msg$ (-> Msg$ Bool) Msg$) Bool)
-(declare-fun uul$ (Msg$ Msg_set$ Msg$) Bool)
-(declare-fun uum$ (Event$ Event_set$ Event$) Bool)
-(declare-fun uun$ (Agent$ Agent_set$ Agent$) Bool)
-(declare-fun uuo$ (Event_list$ Agent$ Agent$ Msg$) Msg_set$)
-(declare-fun uup$ (Event_list$ Agent$ Msg$) Msg_set$)
-(declare-fun uuq$ (Event_list$ Agent$ Msg$) Msg_set$)
-(declare-fun uur$ (Agent$ Event_list$ Agent$ Agent$ Msg$) Msg_set$)
-(declare-fun uus$ (Agent$ Event_list$ Agent$ Msg$) Msg_set$)
-(declare-fun bind$ (Event_list$ (-> Event$ Event_list$)) Event_list$)
-(declare-fun cons$ (Event$ Event_list$) Event_list$)
-(declare-fun gets$ (Agent$ Msg$) Event$)
-(declare-fun maps$ ((-> Event$ Event_list$)) (-> Event_list$ Event_list$))
-(declare-fun nil$a () Event_list_list$)
-(declare-fun nil$b () Msg_list$)
-(declare-fun nil$c () Agent_list$)
-(declare-fun null$ (Event_list$) Bool)
-(declare-fun says$ (Agent$ Agent$ Msg$) Event$)
-(declare-fun set$a (Msg_list$) Msg_set$)
-(declare-fun set$b (Agent_list$) Agent_set$)
-(declare-fun succ$ (Event_list_set$ Event_list$) Event_set$)
-(declare-fun cons$a (Event_list$ Event_list_list$) Event_list_list$)
-(declare-fun cons$b (Msg$ Msg_list$) Msg_list$)
-(declare-fun cons$c (Agent$ Agent_list$) Agent_list$)
-(declare-fun knows$ (Agent$ Event_list$) Msg_set$)
-(declare-fun notes$ (Agent$ Msg$) Event$)
-(declare-fun succ$a (Msg_list_set$ Msg_list$) Msg_set$)
-(declare-fun succ$b (Agent_list_set$ Agent_list$) Agent_set$)
-(declare-fun append$ (Event_list$ Event_list$) Event_list$)
-(declare-fun insert$ (Msg$ Msg_set$) Msg_set$)
-(declare-fun member$ (Agent$ Agent_set$) Bool)
-(declare-fun splice$ (Event_list$) (-> Event_list$ Event_list$))
-(declare-fun append$a (Msg_list$ Msg_list$) Msg_list$)
-(declare-fun append$b (Agent_list$ Agent_list$) Agent_list$)
-(declare-fun collect$ ((-> Msg$ Bool)) Msg_set$)
-(declare-fun insert$a (Event$) (-> Event_list$ Event_list$))
-(declare-fun insert$b (Event$ Event_set$) Event_set$)
-(declare-fun insert$c (Agent$ Agent_set$) Agent_set$)
-(declare-fun insert$d (Msg$ Msg_list$) Msg_list$)
-(declare-fun insert$e (Agent$ Agent_list$) Agent_list$)
-(declare-fun less_eq$ (Msg_set$ Msg_set$) Bool)
-(declare-fun list_ex$ ((-> Event$ Bool)) (-> Event_list$ Bool))
-(declare-fun member$a (Msg$ Msg_set$) Bool)
-(declare-fun member$b (Event$ Event_set$) Bool)
-(declare-fun member$c (Event_list$ Event_list_set$) Bool)
-(declare-fun member$d (Event_list$ Event$) Bool)
-(declare-fun member$e (Msg_list$ Msg_list_set$) Bool)
-(declare-fun member$f (Agent_list$ Agent_list_set$) Bool)
-(declare-fun member$g (Msg_list$ Msg$) Bool)
-(declare-fun member$h (Agent_list$ Agent$) Bool)
-(declare-fun rotate1$ (Event_list$) Event_list$)
-(declare-fun subseqs$ (Event_list$) Event_list_list$)
-(declare-fun antimono$ ((-> Msg_set$ Msg_set$)) Bool)
-(declare-fun collect$a ((-> Event$ Bool)) Event_set$)
-(declare-fun collect$b ((-> Agent$ Bool)) Agent_set$)
-(declare-fun greatest$ ((-> Msg_set$ Bool)) Msg_set$)
-(declare-fun less_eq$a (Event_set$ Event_set$) Bool)
-(declare-fun less_eq$b (Agent_set$ Agent_set$) Bool)
-(declare-fun less_eq$c ((-> Event$ Bool) (-> Event$ Bool)) Bool)
-(declare-fun less_eq$d ((-> Agent$ Bool) (-> Agent$ Bool)) Bool)
-(declare-fun less_eq$e ((-> Msg$ Bool) (-> Msg$ Bool)) Bool)
-(declare-fun less_eq$f ((-> Bool Msg_set$) (-> Bool Msg_set$)) Bool)
-(declare-fun list_all$ ((-> Event$ Bool) Event_list$) Bool)
-(declare-fun list_ex$a ((-> Msg$ Bool) Msg_list$) Bool)
-(declare-fun list_ex$b ((-> Agent$ Bool) Agent_list$) Bool)
-(declare-fun list_ex1$ ((-> Event$ Bool)) (-> Event_list$ Bool))
-(declare-fun case_list$ (Bool (-> Event$ (-> Event_list$ Bool)) Event_list$) Bool)
-(declare-fun initState$ (Agent$) Msg_set$)
-(declare-fun list_all$a ((-> Msg$ Bool) Msg_list$) Bool)
-(declare-fun list_all$b ((-> Agent$ Bool) Agent_list$) Bool)
-(declare-fun list_ex1$a ((-> Msg$ Bool) Msg_list$) Bool)
-(declare-fun list_ex1$b ((-> Agent$ Bool) Agent_list$) Bool)
-(declare-fun takeWhile$ ((-> Event$ Bool) Event_list$) Event_list$)
-(declare-fun case_event$ ((-> Agent$ (-> Agent$ (-> Msg$ Msg_set$))) (-> Agent$ (-> Msg$ Msg_set$)) (-> Agent$ (-> Msg$ Msg_set$)) Event$) Msg_set$)
-(declare-fun gen_length$ (Nat$) (-> Event_list$ Nat$))
-(declare-fun map_filter$ ((-> Event$ Event_option$)) (-> Event_list$ Event_list$))
-(declare-fun takeWhile$a ((-> Msg$ Bool) Msg_list$) Msg_list$)
-(declare-fun takeWhile$b ((-> Agent$ Bool) Agent_list$) Agent_list$)
-(declare-fun product_lists$ (Event_list_list$) Event_list_list$)
-(assert (! (forall ((?v0 Agent_set$) (?v1 Agent$)) (! (= (uue$ ?v0 ?v1) (member$ ?v1 ?v0)) :pattern ((uue$ ?v0 ?v1)))) :named a0))
-(assert (! (forall ((?v0 Msg_set$) (?v1 Msg$)) (! (= (uuf$ ?v0 ?v1) (member$a ?v1 ?v0)) :pattern ((uuf$ ?v0 ?v1)))) :named a1))
-(assert (! (forall ((?v0 Event_set$) (?v1 Event$)) (! (= (uud$ ?v0 ?v1) (member$b ?v1 ?v0)) :pattern ((uud$ ?v0 ?v1)))) :named a2))
-(assert (! (forall ((?v0 Event_list$) (?v1 Agent$) (?v2 Msg$)) (! (= (uuq$ ?v0 ?v1 ?v2) (ite (member$ ?v1 bad$) (insert$ ?v2 (knows$ spy$ ?v0)) (knows$ spy$ ?v0))) :pattern ((uuq$ ?v0 ?v1 ?v2)))) :named a3))
-(assert (! (forall ((?v0 Event_list_set$) (?v1 Event_list$) (?v2 Event$)) (! (= (uuj$ ?v0 ?v1 ?v2) (member$c (append$ ?v1 (cons$ ?v2 nil$)) ?v0)) :pattern ((uuj$ ?v0 ?v1 ?v2)))) :named a4))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent_set$) (?v2 Agent$)) (! (= (uun$ ?v0 ?v1 ?v2) (or (= ?v2 ?v0) (member$ ?v2 ?v1))) :pattern ((uun$ ?v0 ?v1 ?v2)))) :named a5))
-(assert (! (forall ((?v0 Msg$) (?v1 Msg_set$) (?v2 Msg$)) (! (= (uul$ ?v0 ?v1 ?v2) (or (= ?v2 ?v0) (member$a ?v2 ?v1))) :pattern ((uul$ ?v0 ?v1 ?v2)))) :named a6))
-(assert (! (forall ((?v0 Event$) (?v1 Event_set$) (?v2 Event$)) (! (= (uum$ ?v0 ?v1 ?v2) (or (= ?v2 ?v0) (member$b ?v2 ?v1))) :pattern ((uum$ ?v0 ?v1 ?v2)))) :named a7))
-(assert (! (forall ((?v0 Agent_set$) (?v1 (-> Agent$ Bool)) (?v2 Agent$)) (! (= (uub$ ?v0 ?v1 ?v2) (and (member$ ?v2 ?v0) (?v1 ?v2))) :pattern ((uub$ ?v0 ?v1 ?v2)))) :named a8))
-(assert (! (forall ((?v0 Msg_set$) (?v1 (-> Msg$ Bool)) (?v2 Msg$)) (! (= (uuc$ ?v0 ?v1 ?v2) (and (member$a ?v2 ?v0) (?v1 ?v2))) :pattern ((uuc$ ?v0 ?v1 ?v2)))) :named a9))
-(assert (! (forall ((?v0 Event_set$) (?v1 (-> Event$ Bool)) (?v2 Event$)) (! (= (uua$ ?v0 ?v1 ?v2) (and (member$b ?v2 ?v0) (?v1 ?v2))) :pattern ((uua$ ?v0 ?v1 ?v2)))) :named a10))
-(assert (! (forall ((?v0 (-> Msg$ Bool)) (?v1 (-> Msg$ Bool)) (?v2 Msg$)) (! (= (uu$ ?v0 ?v1 ?v2) (and (?v0 ?v2) (?v1 ?v2))) :pattern ((uu$ ?v0 ?v1 ?v2)))) :named a11))
-(assert (! (forall ((?v0 Msg$) (?v1 (-> Msg$ Bool)) (?v2 Msg$)) (! (= (uuk$ ?v0 ?v1 ?v2) (=> (not (= ?v2 ?v0)) (?v1 ?v2))) :pattern ((uuk$ ?v0 ?v1 ?v2)))) :named a12))
-(assert (! (forall ((?v0 (-> Event$ Bool)) (?v1 Event$) (?v2 Event$)) (! (= (uui$ ?v0 ?v1 ?v2) (or (not (?v0 ?v2)) (= ?v1 ?v2))) :pattern ((uui$ ?v0 ?v1 ?v2)))) :named a13))
-(assert (! (forall ((?v0 Event_list$) (?v1 Agent$) (?v2 Msg$)) (! (= (uup$ ?v0 ?v1 ?v2) (knows$ spy$ ?v0)) :pattern ((uup$ ?v0 ?v1 ?v2)))) :named a14))
-(assert (! (forall ((?v0 Agent$) (?v1 Event_list$) (?v2 Agent$) (?v3 Msg$)) (! (= (uus$ ?v0 ?v1 ?v2 ?v3) (ite (= ?v2 ?v0) (insert$ ?v3 (knows$ ?v0 ?v1)) (knows$ ?v0 ?v1))) :pattern ((uus$ ?v0 ?v1 ?v2 ?v3)))) :named a15))
-(assert (! (forall ((?v0 Event_list$) (?v1 Agent$) (?v2 Agent$) (?v3 Msg$)) (! (= (uuo$ ?v0 ?v1 ?v2 ?v3) (insert$ ?v3 (knows$ spy$ ?v0))) :pattern ((uuo$ ?v0 ?v1 ?v2 ?v3)))) :named a16))
-(assert (! (forall ((?v0 Agent$) (?v1 Event_list$) (?v2 Agent$) (?v3 Agent$) (?v4 Msg$)) (! (= (uur$ ?v0 ?v1 ?v2 ?v3 ?v4) (ite (= ?v2 ?v0) (insert$ ?v4 (knows$ ?v0 ?v1)) (knows$ ?v0 ?v1))) :pattern ((uur$ ?v0 ?v1 ?v2 ?v3 ?v4)))) :named a17))
-(assert (! (forall ((?v0 Event$) (?v1 Event_list$)) (! (= (uug$ ?v0 ?v1) false) :pattern ((uug$ ?v0 ?v1)))) :named a18))
-(assert (! (forall ((?v0 Event$) (?v1 Event_list$)) (! (= (uuh$ ?v0 ?v1) true) :pattern ((uuh$ ?v0 ?v1)))) :named a19))
-(assert (! (not (less_eq$ (knows$ spy$ (takeWhile$ p$ nil$)) (knows$ spy$ nil$))) :named a20))
-(assert (! (forall ((?v0 (-> Event$ Bool)) (?v1 Event_list$)) (= (takeWhile$ ?v0 (takeWhile$ ?v0 ?v1)) (takeWhile$ ?v0 ?v1))) :named a21))
-(assert (! (forall ((?v0 Event_set$) (?v1 Event_set$)) (=> (forall ((?v2 Event$)) (=> (member$b ?v2 ?v0) (member$b ?v2 ?v1))) (less_eq$a ?v0 ?v1))) :named a22))
-(assert (! (forall ((?v0 Agent_set$) (?v1 Agent_set$)) (=> (forall ((?v2 Agent$)) (=> (member$ ?v2 ?v0) (member$ ?v2 ?v1))) (less_eq$b ?v0 ?v1))) :named a23))
-(assert (! (forall ((?v0 Msg_set$) (?v1 Msg_set$)) (=> (forall ((?v2 Msg$)) (=> (member$a ?v2 ?v0) (member$a ?v2 ?v1))) (less_eq$ ?v0 ?v1))) :named a24))
-(assert (! (forall ((?v0 Msg_set$) (?v1 Msg_set$)) (=> (and (less_eq$ ?v0 ?v1) (less_eq$ ?v1 ?v0)) (= ?v0 ?v1))) :named a25))
-(assert (! (forall ((?v0 Msg_set$)) (less_eq$ ?v0 ?v0)) :named a26))
-(assert (! (forall ((?v0 (-> Event$ Bool))) (! (= (takeWhile$ ?v0 nil$) nil$) :pattern ((takeWhile$ ?v0)))) :named a27))
-(assert (! (forall ((?v0 Msg_set$) (?v1 (-> Msg$ Bool)) (?v2 (-> Msg$ Bool))) (= (less_eq$ ?v0 (collect$ (uu$ ?v1 ?v2))) (and (less_eq$ ?v0 (collect$ ?v1)) (less_eq$ ?v0 (collect$ ?v2))))) :named a28))
-(assert (! (forall ((?v0 Event$) (?v1 Event_set$) (?v2 Event_set$) (?v3 (-> Event$ Bool))) (=> (and (member$b ?v0 ?v1) (less_eq$a ?v1 (collect$a (uua$ ?v2 ?v3)))) (?v3 ?v0))) :named a29))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent_set$) (?v2 Agent_set$) (?v3 (-> Agent$ Bool))) (=> (and (member$ ?v0 ?v1) (less_eq$b ?v1 (collect$b (uub$ ?v2 ?v3)))) (?v3 ?v0))) :named a30))
-(assert (! (forall ((?v0 Msg$) (?v1 Msg_set$) (?v2 Msg_set$) (?v3 (-> Msg$ Bool))) (=> (and (member$a ?v0 ?v1) (less_eq$ ?v1 (collect$ (uuc$ ?v2 ?v3)))) (?v3 ?v0))) :named a31))
-(assert (! (forall ((?v0 Event_set$) (?v1 (-> Event$ Bool))) (less_eq$a (collect$a (uua$ ?v0 ?v1)) ?v0)) :named a32))
-(assert (! (forall ((?v0 Agent_set$) (?v1 (-> Agent$ Bool))) (less_eq$b (collect$b (uub$ ?v0 ?v1)) ?v0)) :named a33))
-(assert (! (forall ((?v0 Msg_set$) (?v1 (-> Msg$ Bool))) (less_eq$ (collect$ (uuc$ ?v0 ?v1)) ?v0)) :named a34))
-(assert (! (forall ((?v0 Event_set$) (?v1 Event_set$) (?v2 (-> Event$ Bool)) (?v3 (-> Event$ Bool))) (=> (and (less_eq$a ?v0 ?v1) (forall ((?v4 Event$)) (=> (and (member$b ?v4 ?v0) (?v2 ?v4)) (?v3 ?v4)))) (less_eq$a (collect$a (uua$ ?v0 ?v2)) (collect$a (uua$ ?v1 ?v3))))) :named a35))
-(assert (! (forall ((?v0 Agent_set$) (?v1 Agent_set$) (?v2 (-> Agent$ Bool)) (?v3 (-> Agent$ Bool))) (=> (and (less_eq$b ?v0 ?v1) (forall ((?v4 Agent$)) (=> (and (member$ ?v4 ?v0) (?v2 ?v4)) (?v3 ?v4)))) (less_eq$b (collect$b (uub$ ?v0 ?v2)) (collect$b (uub$ ?v1 ?v3))))) :named a36))
-(assert (! (forall ((?v0 Msg_set$) (?v1 Msg_set$) (?v2 (-> Msg$ Bool)) (?v3 (-> Msg$ Bool))) (=> (and (less_eq$ ?v0 ?v1) (forall ((?v4 Msg$)) (=> (and (member$a ?v4 ?v0) (?v2 ?v4)) (?v3 ?v4)))) (less_eq$ (collect$ (uuc$ ?v0 ?v2)) (collect$ (uuc$ ?v1 ?v3))))) :named a37))
-(assert (! (forall ((?v0 Event_set$) (?v1 Event_set$) (?v2 (-> Event$ Bool))) (=> (less_eq$a ?v0 ?v1) (= (less_eq$a ?v0 (collect$a (uua$ ?v1 ?v2))) (forall ((?v3 Event$)) (=> (member$b ?v3 ?v0) (?v2 ?v3)))))) :named a38))
-(assert (! (forall ((?v0 Agent_set$) (?v1 Agent_set$) (?v2 (-> Agent$ Bool))) (=> (less_eq$b ?v0 ?v1) (= (less_eq$b ?v0 (collect$b (uub$ ?v1 ?v2))) (forall ((?v3 Agent$)) (=> (member$ ?v3 ?v0) (?v2 ?v3)))))) :named a39))
-(assert (! (forall ((?v0 Msg_set$) (?v1 Msg_set$) (?v2 (-> Msg$ Bool))) (=> (less_eq$ ?v0 ?v1) (= (less_eq$ ?v0 (collect$ (uuc$ ?v1 ?v2))) (forall ((?v3 Msg$)) (=> (member$a ?v3 ?v0) (?v2 ?v3)))))) :named a40))
-(assert (! (forall ((?v0 Event_list$)) (=> (and (=> (= ?v0 nil$) false) (=> (not (= ?v0 nil$)) false)) false)) :named a41))
-(assert (! (forall ((?v0 Event_set$) (?v1 Event_set$) (?v2 Event$)) (=> (and (less_eq$a ?v0 ?v1) (member$b ?v2 ?v0)) (member$b ?v2 ?v1))) :named a42))
-(assert (! (forall ((?v0 Agent_set$) (?v1 Agent_set$) (?v2 Agent$)) (=> (and (less_eq$b ?v0 ?v1) (member$ ?v2 ?v0)) (member$ ?v2 ?v1))) :named a43))
-(assert (! (forall ((?v0 Msg_set$) (?v1 Msg_set$) (?v2 Msg$)) (=> (and (less_eq$ ?v0 ?v1) (member$a ?v2 ?v0)) (member$a ?v2 ?v1))) :named a44))
-(assert (! (forall ((?v0 Event_set$) (?v1 Event_set$)) (= (less_eq$a ?v0 ?v1) (less_eq$c (uud$ ?v0) (uud$ ?v1)))) :named a45))
-(assert (! (forall ((?v0 Agent_set$) (?v1 Agent_set$)) (= (less_eq$b ?v0 ?v1) (less_eq$d (uue$ ?v0) (uue$ ?v1)))) :named a46))
-(assert (! (forall ((?v0 Msg_set$) (?v1 Msg_set$)) (= (less_eq$ ?v0 ?v1) (less_eq$e (uuf$ ?v0) (uuf$ ?v1)))) :named a47))
-(assert (! (forall ((?v0 Msg_set$) (?v1 Msg_set$)) (=> (and (less_eq$ ?v0 ?v1) (less_eq$ ?v1 ?v0)) (= ?v1 ?v0))) :named a48))
-(assert (! (forall ((?v0 Msg_set$) (?v1 Msg_set$) (?v2 Msg_set$)) (=> (and (less_eq$ ?v0 ?v1) (less_eq$ ?v2 ?v0)) (less_eq$ ?v2 ?v1))) :named a49))
-(assert (! (forall ((?v0 Msg_set$)) (less_eq$ ?v0 ?v0)) :named a50))
-(assert (! (forall ((?v0 Msg_set$) (?v1 Msg_set$) (?v2 Msg_set$)) (=> (and (less_eq$ ?v0 ?v1) (less_eq$ ?v1 ?v2)) (less_eq$ ?v0 ?v2))) :named a51))
-(assert (! (forall ((?v0 Msg_set$) (?v1 Msg_set$)) (=> (and (less_eq$ ?v0 ?v1) (less_eq$ ?v1 ?v0)) (= ?v0 ?v1))) :named a52))
-(assert (! (forall ((?v0 Msg_set$) (?v1 Msg_set$) (?v2 Msg_set$)) (=> (and (less_eq$ ?v0 ?v1) (= ?v1 ?v2)) (less_eq$ ?v0 ?v2))) :named a53))
-(assert (! (forall ((?v0 Msg_set$) (?v1 Msg_set$) (?v2 Msg_set$)) (=> (and (= ?v0 ?v1) (less_eq$ ?v1 ?v2)) (less_eq$ ?v0 ?v2))) :named a54))
-(assert (! (forall ((?v0 Msg_set$) (?v1 Msg_set$)) (! (=> (less_eq$ ?v0 ?v1) (= (less_eq$ ?v1 ?v0) (= ?v1 ?v0))) :pattern ((less_eq$ ?v1 ?v0)))) :named a55))
-(assert (! (forall ((?v0 Msg_set$) (?v1 Msg_set$) (?v2 Msg_set$)) (=> (and (less_eq$ ?v0 ?v1) (less_eq$ ?v1 ?v2)) (less_eq$ ?v0 ?v2))) :named a56))
-(assert (! (forall ((?v0 Msg_set$) (?v1 Msg_set$)) (=> (= ?v0 ?v1) (less_eq$ ?v0 ?v1))) :named a57))
-(assert (! (forall ((?v0 Msg_set$) (?v1 Msg_set$)) (=> (and (less_eq$ ?v0 ?v1) (less_eq$ ?v1 ?v0)) (= ?v0 ?v1))) :named a58))
-(assert (! (forall ((?v0 Msg_set$) (?v1 Msg_set$)) (= (= ?v0 ?v1) (and (less_eq$ ?v0 ?v1) (less_eq$ ?v1 ?v0)))) :named a59))
-(assert (! (forall ((?v0 Msg_set$) (?v1 Msg_set$) (?v2 (-> Msg_set$ Msg_set$)) (?v3 Msg_set$)) (=> (and (less_eq$ ?v0 ?v1) (and (= (?v2 ?v1) ?v3) (forall ((?v4 Msg_set$) (?v5 Msg_set$)) (=> (less_eq$ ?v4 ?v5) (less_eq$ (?v2 ?v4) (?v2 ?v5)))))) (less_eq$ (?v2 ?v0) ?v3))) :named a60))
-(assert (! (forall ((?v0 Msg_set$) (?v1 (-> Msg_set$ Msg_set$)) (?v2 Msg_set$) (?v3 Msg_set$)) (=> (and (= ?v0 (?v1 ?v2)) (and (less_eq$ ?v2 ?v3) (forall ((?v4 Msg_set$) (?v5 Msg_set$)) (=> (less_eq$ ?v4 ?v5) (less_eq$ (?v1 ?v4) (?v1 ?v5)))))) (less_eq$ ?v0 (?v1 ?v3)))) :named a61))
-(assert (! (forall ((?v0 Msg_set$) (?v1 Msg_set$) (?v2 (-> Msg_set$ Msg_set$)) (?v3 Msg_set$)) (=> (and (less_eq$ ?v0 ?v1) (and (less_eq$ (?v2 ?v1) ?v3) (forall ((?v4 Msg_set$) (?v5 Msg_set$)) (=> (less_eq$ ?v4 ?v5) (less_eq$ (?v2 ?v4) (?v2 ?v5)))))) (less_eq$ (?v2 ?v0) ?v3))) :named a62))
-(assert (! (forall ((?v0 Msg_set$) (?v1 (-> Msg_set$ Msg_set$)) (?v2 Msg_set$) (?v3 Msg_set$)) (=> (and (less_eq$ ?v0 (?v1 ?v2)) (and (less_eq$ ?v2 ?v3) (forall ((?v4 Msg_set$) (?v5 Msg_set$)) (=> (less_eq$ ?v4 ?v5) (less_eq$ (?v1 ?v4) (?v1 ?v5)))))) (less_eq$ ?v0 (?v1 ?v3)))) :named a63))
-(assert (! (forall ((?v0 (-> Msg$ Bool)) (?v1 (-> Msg$ Bool))) (= (less_eq$ (collect$ ?v0) (collect$ ?v1)) (forall ((?v2 Msg$)) (=> (?v0 ?v2) (?v1 ?v2))))) :named a64))
-(assert (! (forall ((?v0 Event_set$) (?v1 Event_set$) (?v2 Event$)) (=> (and (less_eq$a ?v0 ?v1) (not (member$b ?v2 ?v1))) (not (member$b ?v2 ?v0)))) :named a65))
-(assert (! (forall ((?v0 Agent_set$) (?v1 Agent_set$) (?v2 Agent$)) (=> (and (less_eq$b ?v0 ?v1) (not (member$ ?v2 ?v1))) (not (member$ ?v2 ?v0)))) :named a66))
-(assert (! (forall ((?v0 Msg_set$) (?v1 Msg_set$) (?v2 Msg$)) (=> (and (less_eq$ ?v0 ?v1) (not (member$a ?v2 ?v1))) (not (member$a ?v2 ?v0)))) :named a67))
-(assert (! (forall ((?v0 Msg_set$) (?v1 Msg_set$)) (= (= ?v0 ?v1) (and (less_eq$ ?v0 ?v1) (less_eq$ ?v1 ?v0)))) :named a68))
-(assert (! (forall ((?v0 Msg_set$) (?v1 Msg_set$) (?v2 Msg_set$)) (=> (and (less_eq$ ?v0 ?v1) (less_eq$ ?v1 ?v2)) (less_eq$ ?v0 ?v2))) :named a69))
-(assert (! (forall ((?v0 (-> Msg$ Bool)) (?v1 (-> Msg$ Bool))) (=> (forall ((?v2 Msg$)) (=> (?v0 ?v2) (?v1 ?v2))) (less_eq$ (collect$ ?v0) (collect$ ?v1)))) :named a70))
-(assert (! (forall ((?v0 Msg_set$)) (less_eq$ ?v0 ?v0)) :named a71))
-(assert (! (forall ((?v0 Event$) (?v1 Event_set$) (?v2 Event_set$)) (=> (and (member$b ?v0 ?v1) (less_eq$a ?v1 ?v2)) (member$b ?v0 ?v2))) :named a72))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent_set$) (?v2 Agent_set$)) (=> (and (member$ ?v0 ?v1) (less_eq$b ?v1 ?v2)) (member$ ?v0 ?v2))) :named a73))
-(assert (! (forall ((?v0 Msg$) (?v1 Msg_set$) (?v2 Msg_set$)) (=> (and (member$a ?v0 ?v1) (less_eq$ ?v1 ?v2)) (member$a ?v0 ?v2))) :named a74))
-(assert (! (forall ((?v0 Event_set$) (?v1 Event_set$)) (= (less_eq$a ?v0 ?v1) (forall ((?v2 Event$)) (=> (member$b ?v2 ?v0) (member$b ?v2 ?v1))))) :named a75))
-(assert (! (forall ((?v0 Agent_set$) (?v1 Agent_set$)) (= (less_eq$b ?v0 ?v1) (forall ((?v2 Agent$)) (=> (member$ ?v2 ?v0) (member$ ?v2 ?v1))))) :named a76))
-(assert (! (forall ((?v0 Msg_set$) (?v1 Msg_set$)) (= (less_eq$ ?v0 ?v1) (forall ((?v2 Msg$)) (=> (member$a ?v2 ?v0) (member$a ?v2 ?v1))))) :named a77))
-(assert (! (forall ((?v0 Msg$) (?v1 (-> Msg$ Bool))) (= (member$a ?v0 (collect$ ?v1)) (?v1 ?v0))) :named a78))
-(assert (! (forall ((?v0 Event$) (?v1 (-> Event$ Bool))) (= (member$b ?v0 (collect$a ?v1)) (?v1 ?v0))) :named a79))
-(assert (! (forall ((?v0 Agent$) (?v1 (-> Agent$ Bool))) (= (member$ ?v0 (collect$b ?v1)) (?v1 ?v0))) :named a80))
-(assert (! (forall ((?v0 Msg_set$)) (= (collect$ (uuf$ ?v0)) ?v0)) :named a81))
-(assert (! (forall ((?v0 Event_set$)) (= (collect$a (uud$ ?v0)) ?v0)) :named a82))
-(assert (! (forall ((?v0 Agent_set$)) (= (collect$b (uue$ ?v0)) ?v0)) :named a83))
-(assert (! (forall ((?v0 Event$) (?v1 Event_set$) (?v2 Event_set$)) (=> (and (member$b ?v0 ?v1) (less_eq$a ?v1 ?v2)) (member$b ?v0 ?v2))) :named a84))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent_set$) (?v2 Agent_set$)) (=> (and (member$ ?v0 ?v1) (less_eq$b ?v1 ?v2)) (member$ ?v0 ?v2))) :named a85))
-(assert (! (forall ((?v0 Msg$) (?v1 Msg_set$) (?v2 Msg_set$)) (=> (and (member$a ?v0 ?v1) (less_eq$ ?v1 ?v2)) (member$a ?v0 ?v2))) :named a86))
-(assert (! (forall ((?v0 Msg_set$) (?v1 Msg_set$)) (=> (= ?v0 ?v1) (less_eq$ ?v1 ?v0))) :named a87))
-(assert (! (forall ((?v0 Msg_set$) (?v1 Msg_set$)) (=> (= ?v0 ?v1) (less_eq$ ?v0 ?v1))) :named a88))
-(assert (! (forall ((?v0 Event_set$) (?v1 Event_set$)) (= (less_eq$a ?v0 ?v1) (forall ((?v2 Event$)) (=> (member$b ?v2 ?v0) (member$b ?v2 ?v1))))) :named a89))
-(assert (! (forall ((?v0 Agent_set$) (?v1 Agent_set$)) (= (less_eq$b ?v0 ?v1) (forall ((?v2 Agent$)) (=> (member$ ?v2 ?v0) (member$ ?v2 ?v1))))) :named a90))
-(assert (! (forall ((?v0 Msg_set$) (?v1 Msg_set$)) (= (less_eq$ ?v0 ?v1) (forall ((?v2 Msg$)) (=> (member$a ?v2 ?v0) (member$a ?v2 ?v1))))) :named a91))
-(assert (! (forall ((?v0 Msg_set$) (?v1 Msg_set$)) (=> (and (= ?v0 ?v1) (=> (and (less_eq$ ?v0 ?v1) (less_eq$ ?v1 ?v0)) false)) false)) :named a92))
-(assert (! (forall ((?v0 Event_set$) (?v1 Event_set$) (?v2 Event$)) (=> (and (less_eq$a ?v0 ?v1) (and (=> (not (member$b ?v2 ?v0)) false) (=> (member$b ?v2 ?v1) false))) false)) :named a93))
-(assert (! (forall ((?v0 Agent_set$) (?v1 Agent_set$) (?v2 Agent$)) (=> (and (less_eq$b ?v0 ?v1) (and (=> (not (member$ ?v2 ?v0)) false) (=> (member$ ?v2 ?v1) false))) false)) :named a94))
-(assert (! (forall ((?v0 Msg_set$) (?v1 Msg_set$) (?v2 Msg$)) (=> (and (less_eq$ ?v0 ?v1) (and (=> (not (member$a ?v2 ?v0)) false) (=> (member$a ?v2 ?v1) false))) false)) :named a95))
-(assert (! (forall ((?v0 Event_set$) (?v1 Event_set$) (?v2 Event$)) (=> (and (less_eq$a ?v0 ?v1) (member$b ?v2 ?v0)) (member$b ?v2 ?v1))) :named a96))
-(assert (! (forall ((?v0 Agent_set$) (?v1 Agent_set$) (?v2 Agent$)) (=> (and (less_eq$b ?v0 ?v1) (member$ ?v2 ?v0)) (member$ ?v2 ?v1))) :named a97))
-(assert (! (forall ((?v0 Msg_set$) (?v1 Msg_set$) (?v2 Msg$)) (=> (and (less_eq$ ?v0 ?v1) (member$a ?v2 ?v0)) (member$a ?v2 ?v1))) :named a98))
-(assert (! (forall ((?v0 Event_set$) (?v1 Event_set$) (?v2 Event$)) (=> (and (less_eq$a ?v0 ?v1) (member$b ?v2 ?v0)) (member$b ?v2 ?v1))) :named a99))
-(assert (! (forall ((?v0 Agent_set$) (?v1 Agent_set$) (?v2 Agent$)) (=> (and (less_eq$b ?v0 ?v1) (member$ ?v2 ?v0)) (member$ ?v2 ?v1))) :named a100))
-(assert (! (forall ((?v0 Msg_set$) (?v1 Msg_set$) (?v2 Msg$)) (=> (and (less_eq$ ?v0 ?v1) (member$a ?v2 ?v0)) (member$a ?v2 ?v1))) :named a101))
-(assert (! (forall ((?v0 Event_set$) (?v1 Event_set$)) (= (less_eq$c (uud$ ?v0) (uud$ ?v1)) (less_eq$a ?v0 ?v1))) :named a102))
-(assert (! (forall ((?v0 Agent_set$) (?v1 Agent_set$)) (= (less_eq$d (uue$ ?v0) (uue$ ?v1)) (less_eq$b ?v0 ?v1))) :named a103))
-(assert (! (forall ((?v0 Msg_set$) (?v1 Msg_set$)) (= (less_eq$e (uuf$ ?v0) (uuf$ ?v1)) (less_eq$ ?v0 ?v1))) :named a104))
-(assert (! (forall ((?v0 (-> Event$ Bool))) (! (= (list_ex1$ ?v0 nil$) false) :pattern ((list_ex1$ ?v0)))) :named a105))
-(assert (! (forall ((?v0 (-> Event$ Event_list$))) (! (= (bind$ nil$ ?v0) nil$) :pattern ((bind$ nil$ ?v0)))) :named a106))
-(assert (! (forall ((?v0 (-> Msg_set$ Bool)) (?v1 Msg_set$)) (=> (and (?v0 ?v1) (forall ((?v2 Msg_set$)) (=> (?v0 ?v2) (less_eq$ ?v2 ?v1)))) (= (greatest$ ?v0) ?v1))) :named a107))
-(assert (! (forall ((?v0 (-> Msg_set$ Bool)) (?v1 Msg_set$) (?v2 (-> Msg_set$ Bool))) (=> (and (?v0 ?v1) (and (forall ((?v3 Msg_set$)) (=> (?v0 ?v3) (less_eq$ ?v3 ?v1))) (forall ((?v3 Msg_set$)) (=> (and (?v0 ?v3) (forall ((?v4 Msg_set$)) (=> (?v0 ?v4) (less_eq$ ?v4 ?v3)))) (?v2 ?v3))))) (?v2 (greatest$ ?v0)))) :named a108))
-(assert (! (forall ((?v0 Event$)) (! (= (member$d nil$ ?v0) false) :pattern ((member$d nil$ ?v0)))) :named a109))
-(assert (! (forall ((?v0 (-> Bool Msg_set$)) (?v1 (-> Bool Msg_set$))) (! (= (less_eq$f ?v0 ?v1) (and (less_eq$ (?v0 false) (?v1 false)) (less_eq$ (?v0 true) (?v1 true)))) :pattern ((less_eq$f ?v0 ?v1)))) :named a110))
-(assert (! (forall ((?v0 Nat$)) (! (= (gen_length$ ?v0 nil$) ?v0) :pattern ((gen_length$ ?v0)))) :named a111))
-(assert (! (forall ((?v0 (-> Event$ Event_list$))) (! (= (maps$ ?v0 nil$) nil$) :pattern ((maps$ ?v0)))) :named a112))
-(assert (! (forall ((?v0 Event_list$)) (= (= ?v0 nil$) (null$ ?v0))) :named a113))
-(assert (! (= (null$ nil$) true) :named a114))
-(assert (! (forall ((?v0 Event_list$)) (! (= (splice$ ?v0 nil$) ?v0) :pattern ((splice$ ?v0)))) :named a115))
-(assert (! (forall ((?v0 Event_list$)) (= (= (rotate1$ ?v0) nil$) (= ?v0 nil$))) :named a116))
-(assert (! (forall ((?v0 (-> Event$ Event_option$))) (! (= (map_filter$ ?v0 nil$) nil$) :pattern ((map_filter$ ?v0)))) :named a117))
-(assert (! (forall ((?v0 (-> Msg_set$ Msg_set$)) (?v1 Msg_set$) (?v2 Msg_set$)) (=> (and (antimono$ ?v0) (less_eq$ ?v1 ?v2)) (less_eq$ (?v0 ?v2) (?v0 ?v1)))) :named a118))
-(assert (! (= (rotate1$ nil$) nil$) :named a119))
-(assert (! (forall ((?v0 Event_list$)) (! (= (splice$ nil$ ?v0) ?v0) :pattern ((splice$ nil$ ?v0)))) :named a120))
-(assert (! (forall ((?v0 (-> Msg_set$ Msg_set$))) (= (antimono$ ?v0) (forall ((?v1 Msg_set$) (?v2 Msg_set$)) (=> (less_eq$ ?v1 ?v2) (less_eq$ (?v0 ?v2) (?v0 ?v1)))))) :named a121))
-(assert (! (forall ((?v0 (-> Msg_set$ Msg_set$))) (=> (forall ((?v1 Msg_set$) (?v2 Msg_set$)) (=> (less_eq$ ?v1 ?v2) (less_eq$ (?v0 ?v2) (?v0 ?v1)))) (antimono$ ?v0))) :named a122))
-(assert (! (forall ((?v0 (-> Msg_set$ Msg_set$)) (?v1 Msg_set$) (?v2 Msg_set$)) (=> (and (antimono$ ?v0) (and (less_eq$ ?v1 ?v2) (=> (less_eq$ (?v0 ?v2) (?v0 ?v1)) false))) false)) :named a123))
-(assert (! (forall ((?v0 Event_list$) (?v1 Event_list$) (?v2 Event_list$)) (=> (and (= (splice$ ?v0 ?v1) ?v2) (and (forall ((?v3 Event_list$)) (=> (and (= ?v0 nil$) (and (= ?v1 ?v3) (= ?v2 ?v3))) false)) (and (forall ((?v3 Event$) (?v4 Event_list$)) (=> (and (= ?v0 (cons$ ?v3 ?v4)) (and (= ?v1 nil$) (= ?v2 (cons$ ?v3 ?v4)))) false)) (forall ((?v3 Event$) (?v4 Event_list$) (?v5 Event$) (?v6 Event_list$)) (=> (and (= ?v0 (cons$ ?v3 ?v4)) (and (= ?v1 (cons$ ?v5 ?v6)) (= ?v2 (cons$ ?v3 (cons$ ?v5 (splice$ ?v4 ?v6)))))) false))))) false)) :named a124))
-(assert (! (forall ((?v0 Event$) (?v1 Event_list$)) (! (= (splice$ (cons$ ?v0 ?v1) nil$) (cons$ ?v0 ?v1)) :pattern ((cons$ ?v0 ?v1)))) :named a125))
-(assert (! (forall ((?v0 (-> Event$ Bool))) (! (= (list_ex$ ?v0 nil$) false) :pattern ((list_ex$ ?v0)))) :named a126))
-(assert (! (forall ((?v0 Event_list$)) (= (= ?v0 nil$) (case_list$ true uug$ ?v0))) :named a127))
-(assert (! (forall ((?v0 Event_list$)) (= (not (= ?v0 nil$)) (case_list$ false uuh$ ?v0))) :named a128))
-(assert (! (forall ((?v0 Agent$)) (! (= (knows$ ?v0 nil$) (initState$ ?v0)) :pattern ((knows$ ?v0)))) :named a129))
-(assert (! (forall ((?v0 Event$) (?v1 Event_list$) (?v2 Event$) (?v3 Event_list$)) (= (= (cons$ ?v0 ?v1) (cons$ ?v2 ?v3)) (and (= ?v0 ?v2) (= ?v1 ?v3)))) :named a130))
-(assert (! (forall ((?v0 (-> Event$ Bool)) (?v1 Event$) (?v2 Event_list$)) (! (= (list_ex$ ?v0 (cons$ ?v1 ?v2)) (or (?v0 ?v1) (list_ex$ ?v0 ?v2))) :pattern ((list_ex$ ?v0 (cons$ ?v1 ?v2))))) :named a131))
-(assert (! (forall ((?v0 Event$) (?v1 Event_list$)) (not (= (cons$ ?v0 ?v1) ?v1))) :named a132))
-(assert (! (forall ((?v0 Event_list_list$)) (=> (and (=> (= ?v0 nil$a) false) (and (forall ((?v1 Event_list_list$)) (=> (= ?v0 (cons$a nil$ ?v1)) false)) (forall ((?v1 Event$) (?v2 Event_list$) (?v3 Event_list_list$)) (=> (= ?v0 (cons$a (cons$ ?v1 ?v2) ?v3)) false)))) false)) :named a133))
-(assert (! (forall ((?v0 Event$) (?v1 Event_list$)) (not (= nil$ (cons$ ?v0 ?v1)))) :named a134))
-(assert (! (forall ((?v0 Event_list$) (?v1 Event$) (?v2 Event_list$)) (=> (= ?v0 (cons$ ?v1 ?v2)) (not (= ?v0 nil$)))) :named a135))
-(assert (! (forall ((?v0 Event_list$)) (=> (and (=> (= ?v0 nil$) false) (forall ((?v1 Event$) (?v2 Event_list$)) (=> (= ?v0 (cons$ ?v1 ?v2)) false))) false)) :named a136))
-(assert (! (forall ((?v0 Event_list$)) (= (not (= ?v0 nil$)) (exists ((?v1 Event$) (?v2 Event_list$)) (= ?v0 (cons$ ?v1 ?v2))))) :named a137))
-(assert (! (forall ((?v0 (-> Event_list$ (-> Event_list$ Bool))) (?v1 Event_list$) (?v2 Event_list$)) (=> (and (?v0 nil$ nil$) (and (forall ((?v3 Event$) (?v4 Event_list$)) (?v0 (cons$ ?v3 ?v4) nil$)) (and (forall ((?v3 Event$) (?v4 Event_list$)) (?v0 nil$ (cons$ ?v3 ?v4))) (forall ((?v3 Event$) (?v4 Event_list$) (?v5 Event$) (?v6 Event_list$)) (=> (?v0 ?v4 ?v6) (?v0 (cons$ ?v3 ?v4) (cons$ ?v5 ?v6))))))) (?v0 ?v1 ?v2))) :named a138))
-(assert (! (forall ((?v0 Event_list$)) (=> (and (=> (= ?v0 nil$) false) (and (forall ((?v1 Event$)) (=> (= ?v0 (cons$ ?v1 nil$)) false)) (forall ((?v1 Event$) (?v2 Event$) (?v3 Event_list$)) (=> (= ?v0 (cons$ ?v1 (cons$ ?v2 ?v3))) false)))) false)) :named a139))
-(assert (! (forall ((?v0 (-> Event_list$ Bool)) (?v1 Event_list$)) (=> (and (?v0 nil$) (and (forall ((?v2 Event$)) (?v0 (cons$ ?v2 nil$))) (forall ((?v2 Event$) (?v3 Event$) (?v4 Event_list$)) (=> (?v0 (cons$ ?v3 ?v4)) (?v0 (cons$ ?v2 (cons$ ?v3 ?v4))))))) (?v0 ?v1))) :named a140))
-(assert (! (forall ((?v0 Event_list$) (?v1 (-> Event_list$ Bool))) (=> (and (not (= ?v0 nil$)) (and (forall ((?v2 Event$)) (?v1 (cons$ ?v2 nil$))) (forall ((?v2 Event$) (?v3 Event_list$)) (=> (and (not (= ?v3 nil$)) (?v1 ?v3)) (?v1 (cons$ ?v2 ?v3)))))) (?v1 ?v0))) :named a141))
-(assert (! (forall ((?v0 Event$) (?v1 Event_list$) (?v2 Event$) (?v3 Event_list$)) (! (= (splice$ (cons$ ?v0 ?v1) (cons$ ?v2 ?v3)) (cons$ ?v0 (cons$ ?v2 (splice$ ?v1 ?v3)))) :pattern ((splice$ (cons$ ?v0 ?v1) (cons$ ?v2 ?v3))))) :named a142))
-(assert (! (forall ((?v0 Agent$) (?v1 Event_list$) (?v2 Event$)) (less_eq$ (knows$ ?v0 ?v1) (knows$ ?v0 (cons$ ?v2 ?v1)))) :named a143))
-(assert (! (forall ((?v0 Event$) (?v1 Event_list$)) (! (= (null$ (cons$ ?v0 ?v1)) false) :pattern ((cons$ ?v0 ?v1)))) :named a144))
-(assert (! (forall ((?v0 Event$) (?v1 Event_list$) (?v2 Event$)) (! (= (member$d (cons$ ?v0 ?v1) ?v2) (or (= ?v0 ?v2) (member$d ?v1 ?v2))) :pattern ((member$d (cons$ ?v0 ?v1) ?v2)))) :named a145))
-(assert (! (forall ((?v0 Agent$) (?v1 Event_list$)) (less_eq$ (initState$ ?v0) (knows$ ?v0 ?v1))) :named a146))
-(assert (! (forall ((?v0 (-> Event$ Bool)) (?v1 Event$) (?v2 Event_list$)) (! (= (takeWhile$ ?v0 (cons$ ?v1 ?v2)) (ite (?v0 ?v1) (cons$ ?v1 (takeWhile$ ?v0 ?v2)) nil$)) :pattern ((takeWhile$ ?v0 (cons$ ?v1 ?v2))))) :named a147))
-(assert (! (forall ((?v0 Event_list$) (?v1 Agent$) (?v2 Msg$)) (less_eq$ (knows$ spy$ ?v0) (knows$ spy$ (cons$ (gets$ ?v1 ?v2) ?v0)))) :named a148))
-(assert (! (forall ((?v0 Event$)) (! (= (insert$a ?v0 nil$) (cons$ ?v0 nil$)) :pattern ((insert$a ?v0)))) :named a149))
-(assert (! (forall ((?v0 Agent$) (?v1 Msg$) (?v2 Event_list$)) (! (= (knows$ spy$ (cons$ (gets$ ?v0 ?v1) ?v2)) (knows$ spy$ ?v2)) :pattern ((cons$ (gets$ ?v0 ?v1) ?v2)))) :named a150))
-(assert (! (forall ((?v0 Event_list$) (?v1 Agent$) (?v2 Msg$)) (less_eq$ (knows$ spy$ ?v0) (knows$ spy$ (cons$ (notes$ ?v1 ?v2) ?v0)))) :named a151))
-(assert (! (forall ((?v0 (-> Event$ Bool)) (?v1 Event$) (?v2 Event_list$)) (= (list_ex1$ ?v0 (cons$ ?v1 ?v2)) (ite (?v0 ?v1) (list_all$ (uui$ ?v0 ?v1) ?v2) (list_ex1$ ?v0 ?v2)))) :named a152))
-(assert (! (forall ((?v0 Agent$) (?v1 Msg$) (?v2 Agent$) (?v3 Msg$)) (= (= (notes$ ?v0 ?v1) (notes$ ?v2 ?v3)) (and (= ?v0 ?v2) (= ?v1 ?v3)))) :named a153))
-(assert (! (forall ((?v0 Agent$) (?v1 Msg$) (?v2 Agent$) (?v3 Msg$)) (= (= (gets$ ?v0 ?v1) (gets$ ?v2 ?v3)) (and (= ?v0 ?v2) (= ?v1 ?v3)))) :named a154))
-(assert (! (forall ((?v0 (-> Event$ Bool)) (?v1 Event$) (?v2 Event_list$)) (! (= (list_all$ ?v0 (cons$ ?v1 ?v2)) (and (?v0 ?v1) (list_all$ ?v0 ?v2))) :pattern ((list_all$ ?v0 (cons$ ?v1 ?v2))))) :named a155))
-(assert (! (forall ((?v0 (-> Event$ Bool)) (?v1 Event$) (?v2 Event_list$)) (! (= (list_all$ ?v0 (cons$ ?v1 ?v2)) (and (?v0 ?v1) (list_all$ ?v0 ?v2))) :pattern ((list_all$ ?v0 (cons$ ?v1 ?v2))))) :named a156))
-(assert (! (forall ((?v0 (-> Event$ Bool))) (! (= (list_all$ ?v0 nil$) true) :pattern ((list_all$ ?v0)))) :named a157))
-(assert (! (forall ((?v0 Agent$) (?v1 Msg$) (?v2 Agent$) (?v3 Msg$)) (not (= (gets$ ?v0 ?v1) (notes$ ?v2 ?v3)))) :named a158))
-(assert (! (forall ((?v0 (-> Event$ Bool))) (list_all$ ?v0 nil$)) :named a159))
-(assert (! (forall ((?v0 Agent$) (?v1 Event_list$) (?v2 Agent$) (?v3 Msg$)) (less_eq$ (knows$ ?v0 ?v1) (knows$ ?v0 (cons$ (notes$ ?v2 ?v3) ?v1)))) :named a160))
-(assert (! (forall ((?v0 Agent$) (?v1 Event_list$) (?v2 Agent$) (?v3 Msg$)) (less_eq$ (knows$ ?v0 ?v1) (knows$ ?v0 (cons$ (gets$ ?v2 ?v3) ?v1)))) :named a161))
-(assert (! (= (product_lists$ nil$a) (cons$a nil$ nil$a)) :named a162))
-(assert (! (forall ((?v0 Event_list$) (?v1 Agent$) (?v2 Msg$)) (= (knows$ spy$ (append$ ?v0 (cons$ (gets$ ?v1 ?v2) nil$))) (knows$ spy$ ?v0))) :named a163))
-(assert (! (= (subseqs$ nil$) (cons$a nil$ nil$a)) :named a164))
-(assert (! (forall ((?v0 Event_list$) (?v1 Agent$) (?v2 Agent$) (?v3 Msg$)) (less_eq$ (knows$ spy$ ?v0) (knows$ spy$ (cons$ (says$ ?v1 ?v2 ?v3) ?v0)))) :named a165))
-(assert (! (forall ((?v0 Event_list$) (?v1 Event_list$) (?v2 Event_list$)) (= (append$ (append$ ?v0 ?v1) ?v2) (append$ ?v0 (append$ ?v1 ?v2)))) :named a166))
-(assert (! (forall ((?v0 Event_list$) (?v1 Event_list$) (?v2 Event_list$)) (= (append$ (append$ ?v0 ?v1) ?v2) (append$ ?v0 (append$ ?v1 ?v2)))) :named a167))
-(assert (! (forall ((?v0 Event_list$) (?v1 Event_list$) (?v2 Event_list$)) (= (= (append$ ?v0 ?v1) (append$ ?v2 ?v1)) (= ?v0 ?v2))) :named a168))
-(assert (! (forall ((?v0 Event_list$) (?v1 Event_list$) (?v2 Event_list$)) (= (= (append$ ?v0 ?v1) (append$ ?v0 ?v2)) (= ?v1 ?v2))) :named a169))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent$) (?v2 Msg$) (?v3 Agent$) (?v4 Agent$) (?v5 Msg$)) (= (= (says$ ?v0 ?v1 ?v2) (says$ ?v3 ?v4 ?v5)) (and (= ?v0 ?v3) (and (= ?v1 ?v4) (= ?v2 ?v5))))) :named a170))
-(assert (! (forall ((?v0 Event_list$)) (! (= (append$ ?v0 nil$) ?v0) :pattern ((append$ ?v0)))) :named a171))
-(assert (! (forall ((?v0 Event_list$) (?v1 Event_list$)) (= (= (append$ ?v0 ?v1) ?v0) (= ?v1 nil$))) :named a172))
-(assert (! (forall ((?v0 Event_list$) (?v1 Event_list$)) (= (= ?v0 (append$ ?v0 ?v1)) (= ?v1 nil$))) :named a173))
-(assert (! (forall ((?v0 Event_list$) (?v1 Event_list$)) (= (= (append$ ?v0 ?v1) ?v1) (= ?v0 nil$))) :named a174))
-(assert (! (forall ((?v0 Event_list$) (?v1 Event_list$)) (= (= ?v0 (append$ ?v1 ?v0)) (= ?v1 nil$))) :named a175))
-(assert (! (forall ((?v0 Event_list$) (?v1 Event_list$)) (= (= nil$ (append$ ?v0 ?v1)) (and (= ?v0 nil$) (= ?v1 nil$)))) :named a176))
-(assert (! (forall ((?v0 Event_list$) (?v1 Event_list$)) (= (= (append$ ?v0 ?v1) nil$) (and (= ?v0 nil$) (= ?v1 nil$)))) :named a177))
-(assert (! (forall ((?v0 Event_list$)) (! (= (append$ ?v0 nil$) ?v0) :pattern ((append$ ?v0)))) :named a178))
-(assert (! (forall ((?v0 (-> Event$ Bool)) (?v1 Event_list$) (?v2 Event_list$)) (= (list_all$ ?v0 (append$ ?v1 ?v2)) (and (list_all$ ?v0 ?v1) (list_all$ ?v0 ?v2)))) :named a179))
-(assert (! (forall ((?v0 (-> Event$ Bool)) (?v1 Event_list$) (?v2 Event_list$)) (= (list_ex$ ?v0 (append$ ?v1 ?v2)) (or (list_ex$ ?v0 ?v1) (list_ex$ ?v0 ?v2)))) :named a180))
-(assert (! (forall ((?v0 Event_list$) (?v1 Event$) (?v2 Event_list$) (?v3 Event$)) (= (= (append$ ?v0 (cons$ ?v1 nil$)) (append$ ?v2 (cons$ ?v3 nil$))) (and (= ?v0 ?v2) (= ?v1 ?v3)))) :named a181))
-(assert (! (forall ((?v0 Event$) (?v1 Event_list$) (?v2 (-> Event$ Event_list$))) (! (= (bind$ (cons$ ?v0 ?v1) ?v2) (append$ (?v2 ?v0) (bind$ ?v1 ?v2))) :pattern ((bind$ (cons$ ?v0 ?v1) ?v2)))) :named a182))
-(assert (! (forall ((?v0 Event$) (?v1 Event_list$) (?v2 Event_list$)) (! (= (append$ (cons$ ?v0 ?v1) ?v2) (cons$ ?v0 (append$ ?v1 ?v2))) :pattern ((append$ (cons$ ?v0 ?v1) ?v2)))) :named a183))
-(assert (! (forall ((?v0 Event$) (?v1 Event_list$) (?v2 Event_list$) (?v3 Event_list$) (?v4 Event_list$)) (=> (and (= (cons$ ?v0 ?v1) ?v2) (= ?v3 (append$ ?v1 ?v4))) (= (cons$ ?v0 ?v3) (append$ ?v2 ?v4)))) :named a184))
-(assert (! (forall ((?v0 Event_list$)) (! (= (append$ nil$ ?v0) ?v0) :pattern ((append$ nil$ ?v0)))) :named a185))
-(assert (! (forall ((?v0 Event_list$)) (! (= (append$ nil$ ?v0) ?v0) :pattern ((append$ nil$ ?v0)))) :named a186))
-(assert (! (forall ((?v0 Event_list$) (?v1 Event_list$)) (=> (= ?v0 ?v1) (= ?v0 (append$ nil$ ?v1)))) :named a187))
-(assert (! (forall ((?v0 Event_list$) (?v1 Event_list$) (?v2 Event_list$) (?v3 Event_list$) (?v4 Event_list$)) (=> (and (= (append$ ?v0 ?v1) ?v2) (= ?v3 (append$ ?v1 ?v4))) (= (append$ ?v0 ?v3) (append$ ?v2 ?v4)))) :named a188))
-(assert (! (forall ((?v0 Event_list$) (?v1 Event_list$) (?v2 Event_list$) (?v3 Event_list$)) (= (= (append$ ?v0 ?v1) (append$ ?v2 ?v3)) (exists ((?v4 Event_list$)) (or (and (= ?v0 (append$ ?v2 ?v4)) (= (append$ ?v4 ?v1) ?v3)) (and (= (append$ ?v0 ?v4) ?v2) (= ?v1 (append$ ?v4 ?v3))))))) :named a189))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent$) (?v2 Msg$) (?v3 Agent$) (?v4 Msg$)) (not (= (says$ ?v0 ?v1 ?v2) (notes$ ?v3 ?v4)))) :named a190))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent$) (?v2 Msg$) (?v3 Agent$) (?v4 Msg$)) (not (= (says$ ?v0 ?v1 ?v2) (gets$ ?v3 ?v4)))) :named a191))
-(assert (! (forall ((?v0 (-> Event_list$ Bool)) (?v1 Event_list$)) (=> (and (?v0 nil$) (forall ((?v2 Event$) (?v3 Event_list$)) (=> (?v0 ?v3) (?v0 (append$ ?v3 (cons$ ?v2 nil$)))))) (?v0 ?v1))) :named a192))
-(assert (! (forall ((?v0 Event_list$)) (=> (and (=> (= ?v0 nil$) false) (forall ((?v1 Event_list$) (?v2 Event$)) (=> (= ?v0 (append$ ?v1 (cons$ ?v2 nil$))) false))) false)) :named a193))
-(assert (! (forall ((?v0 Event$) (?v1 Event_list$) (?v2 Event_list$) (?v3 Event_list$)) (= (= (cons$ ?v0 ?v1) (append$ ?v2 ?v3)) (or (and (= ?v2 nil$) (= (cons$ ?v0 ?v1) ?v3)) (exists ((?v4 Event_list$)) (and (= (cons$ ?v0 ?v4) ?v2) (= ?v1 (append$ ?v4 ?v3))))))) :named a194))
-(assert (! (forall ((?v0 Event_list$) (?v1 Event_list$) (?v2 Event$) (?v3 Event_list$)) (= (= (append$ ?v0 ?v1) (cons$ ?v2 ?v3)) (or (and (= ?v0 nil$) (= ?v1 (cons$ ?v2 ?v3))) (exists ((?v4 Event_list$)) (and (= ?v0 (cons$ ?v2 ?v4)) (= (append$ ?v4 ?v1) ?v3)))))) :named a195))
-(assert (! (forall ((?v0 Event_list$) (?v1 (-> Event_list$ Bool))) (=> (and (not (= ?v0 nil$)) (and (forall ((?v2 Event$)) (?v1 (cons$ ?v2 nil$))) (forall ((?v2 Event$) (?v3 Event_list$)) (=> (and (not (= ?v3 nil$)) (?v1 ?v3)) (?v1 (append$ ?v3 (cons$ ?v2 nil$))))))) (?v1 ?v0))) :named a196))
-(assert (! (forall ((?v0 (-> Event$ Bool)) (?v1 Event$) (?v2 Event_list$) (?v3 Event_list$)) (=> (not (?v0 ?v1)) (= (takeWhile$ ?v0 (append$ ?v2 (cons$ ?v1 ?v3))) (takeWhile$ ?v0 ?v2)))) :named a197))
-(assert (! (forall ((?v0 Event$)) (=> (and (forall ((?v1 Agent$) (?v2 Agent$) (?v3 Msg$)) (=> (= ?v0 (says$ ?v1 ?v2 ?v3)) false)) (and (forall ((?v1 Agent$) (?v2 Msg$)) (=> (= ?v0 (gets$ ?v1 ?v2)) false)) (forall ((?v1 Agent$) (?v2 Msg$)) (=> (= ?v0 (notes$ ?v1 ?v2)) false)))) false)) :named a198))
-(assert (! (forall ((?v0 (-> Event$ Event_list$)) (?v1 Event$) (?v2 Event_list$)) (! (= (maps$ ?v0 (cons$ ?v1 ?v2)) (append$ (?v0 ?v1) (maps$ ?v0 ?v2))) :pattern ((maps$ ?v0 (cons$ ?v1 ?v2))))) :named a199))
-(assert (! (forall ((?v0 Event$) (?v1 Event_list$)) (= (rotate1$ (cons$ ?v0 ?v1)) (append$ ?v1 (cons$ ?v0 nil$)))) :named a200))
-(assert (! (forall ((?v0 Agent$) (?v1 Event_list$) (?v2 Agent$) (?v3 Agent$) (?v4 Msg$)) (less_eq$ (knows$ ?v0 ?v1) (knows$ ?v0 (cons$ (says$ ?v2 ?v3 ?v4) ?v1)))) :named a201))
-(assert (! (forall ((?v0 Event_list_set$) (?v1 Event_list$)) (= (succ$ ?v0 ?v1) (collect$a (uuj$ ?v0 ?v1)))) :named a202))
-(assert (! (forall ((?v0 Event_list$) (?v1 Agent$) (?v2 Agent$) (?v3 Msg$)) (= (knows$ spy$ (append$ ?v0 (cons$ (says$ ?v1 ?v2 ?v3) nil$))) (insert$ ?v3 (knows$ spy$ ?v0)))) :named a203))
-(assert (! (forall ((?v0 Msg$) (?v1 Agent$) (?v2 Event_list$)) (=> (and (member$a ?v0 (knows$ ?v1 ?v2)) (not (= ?v1 spy$))) (exists ((?v3 Agent$)) (or (member$b (says$ ?v1 ?v3 ?v0) (set$ ?v2)) (or (member$b (gets$ ?v1 ?v0) (set$ ?v2)) (or (member$b (notes$ ?v1 ?v0) (set$ ?v2)) (member$a ?v0 (initState$ ?v1)))))))) :named a204))
-(assert (! (forall ((?v0 Msg$) (?v1 Msg_list_set$) (?v2 Msg_list$)) (=> (member$a ?v0 (succ$a ?v1 ?v2)) (member$e (append$a ?v2 (cons$b ?v0 nil$b)) ?v1))) :named a205))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent_list_set$) (?v2 Agent_list$)) (=> (member$ ?v0 (succ$b ?v1 ?v2)) (member$f (append$b ?v2 (cons$c ?v0 nil$c)) ?v1))) :named a206))
-(assert (! (forall ((?v0 Event$) (?v1 Event_list_set$) (?v2 Event_list$)) (=> (member$b ?v0 (succ$ ?v1 ?v2)) (member$c (append$ ?v2 (cons$ ?v0 nil$)) ?v1))) :named a207))
-(assert (! (forall ((?v0 Msg$) (?v1 Msg_set$)) (= (insert$ ?v0 (insert$ ?v0 ?v1)) (insert$ ?v0 ?v1))) :named a208))
-(assert (! (forall ((?v0 Msg$) (?v1 Msg$) (?v2 Msg_set$)) (= (member$a ?v0 (insert$ ?v1 ?v2)) (or (= ?v0 ?v1) (member$a ?v0 ?v2)))) :named a209))
-(assert (! (forall ((?v0 Event$) (?v1 Event$) (?v2 Event_set$)) (= (member$b ?v0 (insert$b ?v1 ?v2)) (or (= ?v0 ?v1) (member$b ?v0 ?v2)))) :named a210))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent$) (?v2 Agent_set$)) (= (member$ ?v0 (insert$c ?v1 ?v2)) (or (= ?v0 ?v1) (member$ ?v0 ?v2)))) :named a211))
-(assert (! (forall ((?v0 Msg$) (?v1 Msg_set$) (?v2 Msg$)) (=> (=> (not (member$a ?v0 ?v1)) (= ?v0 ?v2)) (member$a ?v0 (insert$ ?v2 ?v1)))) :named a212))
-(assert (! (forall ((?v0 Event$) (?v1 Event_set$) (?v2 Event$)) (=> (=> (not (member$b ?v0 ?v1)) (= ?v0 ?v2)) (member$b ?v0 (insert$b ?v2 ?v1)))) :named a213))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent_set$) (?v2 Agent$)) (=> (=> (not (member$ ?v0 ?v1)) (= ?v0 ?v2)) (member$ ?v0 (insert$c ?v2 ?v1)))) :named a214))
-(assert (! (forall ((?v0 Event$) (?v1 Event_set$) (?v2 Event_set$)) (= (less_eq$a (insert$b ?v0 ?v1) ?v2) (and (member$b ?v0 ?v2) (less_eq$a ?v1 ?v2)))) :named a215))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent_set$) (?v2 Agent_set$)) (= (less_eq$b (insert$c ?v0 ?v1) ?v2) (and (member$ ?v0 ?v2) (less_eq$b ?v1 ?v2)))) :named a216))
-(assert (! (forall ((?v0 Msg$) (?v1 Msg_set$) (?v2 Msg_set$)) (= (less_eq$ (insert$ ?v0 ?v1) ?v2) (and (member$a ?v0 ?v2) (less_eq$ ?v1 ?v2)))) :named a217))
-(assert (! (forall ((?v0 (-> Msg$ Bool)) (?v1 Msg_list$)) (= (= (takeWhile$a ?v0 ?v1) ?v1) (forall ((?v2 Msg$)) (=> (member$a ?v2 (set$a ?v1)) (?v0 ?v2))))) :named a218))
-(assert (! (forall ((?v0 (-> Agent$ Bool)) (?v1 Agent_list$)) (= (= (takeWhile$b ?v0 ?v1) ?v1) (forall ((?v2 Agent$)) (=> (member$ ?v2 (set$b ?v1)) (?v0 ?v2))))) :named a219))
-(assert (! (forall ((?v0 (-> Event$ Bool)) (?v1 Event_list$)) (= (= (takeWhile$ ?v0 ?v1) ?v1) (forall ((?v2 Event$)) (=> (member$b ?v2 (set$ ?v1)) (?v0 ?v2))))) :named a220))
-(assert (! (forall ((?v0 Event_list$)) (= (set$ (rotate1$ ?v0)) (set$ ?v0))) :named a221))
-(assert (! (forall ((?v0 Msg$) (?v1 Msg_list$)) (! (=> (member$a ?v0 (set$a ?v1)) (= (insert$d ?v0 ?v1) ?v1)) :pattern ((insert$d ?v0 ?v1)))) :named a222))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent_list$)) (! (=> (member$ ?v0 (set$b ?v1)) (= (insert$e ?v0 ?v1) ?v1)) :pattern ((insert$e ?v0 ?v1)))) :named a223))
-(assert (! (forall ((?v0 Event$) (?v1 Event_list$)) (! (=> (member$b ?v0 (set$ ?v1)) (= (insert$a ?v0 ?v1) ?v1)) :pattern ((insert$a ?v0 ?v1)))) :named a224))
-(assert (! (forall ((?v0 Msg$) (?v1 Msg_list$)) (! (= (set$a (cons$b ?v0 ?v1)) (insert$ ?v0 (set$a ?v1))) :pattern ((cons$b ?v0 ?v1)))) :named a225))
-(assert (! (forall ((?v0 Event$) (?v1 Event_list$)) (! (= (set$ (cons$ ?v0 ?v1)) (insert$b ?v0 (set$ ?v1))) :pattern ((cons$ ?v0 ?v1)))) :named a226))
-(assert (! (forall ((?v0 Msg_list$) (?v1 (-> Msg$ Bool)) (?v2 Msg_list$)) (=> (forall ((?v3 Msg$)) (=> (member$a ?v3 (set$a ?v0)) (?v1 ?v3))) (= (takeWhile$a ?v1 (append$a ?v0 ?v2)) (append$a ?v0 (takeWhile$a ?v1 ?v2))))) :named a227))
-(assert (! (forall ((?v0 Agent_list$) (?v1 (-> Agent$ Bool)) (?v2 Agent_list$)) (=> (forall ((?v3 Agent$)) (=> (member$ ?v3 (set$b ?v0)) (?v1 ?v3))) (= (takeWhile$b ?v1 (append$b ?v0 ?v2)) (append$b ?v0 (takeWhile$b ?v1 ?v2))))) :named a228))
-(assert (! (forall ((?v0 Event_list$) (?v1 (-> Event$ Bool)) (?v2 Event_list$)) (=> (forall ((?v3 Event$)) (=> (member$b ?v3 (set$ ?v0)) (?v1 ?v3))) (= (takeWhile$ ?v1 (append$ ?v0 ?v2)) (append$ ?v0 (takeWhile$ ?v1 ?v2))))) :named a229))
-(assert (! (forall ((?v0 Msg$) (?v1 Msg_list$) (?v2 (-> Msg$ Bool)) (?v3 Msg_list$)) (=> (and (member$a ?v0 (set$a ?v1)) (not (?v2 ?v0))) (= (takeWhile$a ?v2 (append$a ?v1 ?v3)) (takeWhile$a ?v2 ?v1)))) :named a230))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent_list$) (?v2 (-> Agent$ Bool)) (?v3 Agent_list$)) (=> (and (member$ ?v0 (set$b ?v1)) (not (?v2 ?v0))) (= (takeWhile$b ?v2 (append$b ?v1 ?v3)) (takeWhile$b ?v2 ?v1)))) :named a231))
-(assert (! (forall ((?v0 Event$) (?v1 Event_list$) (?v2 (-> Event$ Bool)) (?v3 Event_list$)) (=> (and (member$b ?v0 (set$ ?v1)) (not (?v2 ?v0))) (= (takeWhile$ ?v2 (append$ ?v1 ?v3)) (takeWhile$ ?v2 ?v1)))) :named a232))
-(assert (! (forall ((?v0 Msg$) (?v1 Msg_list$)) (= (set$a (insert$d ?v0 ?v1)) (insert$ ?v0 (set$a ?v1)))) :named a233))
-(assert (! (forall ((?v0 Event$) (?v1 Event_list$)) (= (set$ (insert$a ?v0 ?v1)) (insert$b ?v0 (set$ ?v1)))) :named a234))
-(assert (! (forall ((?v0 Msg$) (?v1 Msg_list$)) (! (=> (not (member$a ?v0 (set$a ?v1))) (= (insert$d ?v0 ?v1) (cons$b ?v0 ?v1))) :pattern ((insert$d ?v0 ?v1)))) :named a235))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent_list$)) (! (=> (not (member$ ?v0 (set$b ?v1))) (= (insert$e ?v0 ?v1) (cons$c ?v0 ?v1))) :pattern ((insert$e ?v0 ?v1)))) :named a236))
-(assert (! (forall ((?v0 Event$) (?v1 Event_list$)) (! (=> (not (member$b ?v0 (set$ ?v1))) (= (insert$a ?v0 ?v1) (cons$ ?v0 ?v1))) :pattern ((insert$a ?v0 ?v1)))) :named a237))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent$) (?v2 Msg$) (?v3 Event_list$)) (! (= (knows$ spy$ (cons$ (says$ ?v0 ?v1 ?v2) ?v3)) (insert$ ?v2 (knows$ spy$ ?v3))) :pattern ((cons$ (says$ ?v0 ?v1 ?v2) ?v3)))) :named a238))
-(assert (! (forall ((?v0 Agent_list$) (?v1 Agent_set$)) (= (less_eq$b (set$b ?v0) ?v1) (forall ((?v2 Agent$)) (=> (member$ ?v2 (set$b ?v0)) (member$ ?v2 ?v1))))) :named a239))
-(assert (! (forall ((?v0 Event_list$) (?v1 Event_set$)) (= (less_eq$a (set$ ?v0) ?v1) (forall ((?v2 Event$)) (=> (member$b ?v2 (set$ ?v0)) (member$b ?v2 ?v1))))) :named a240))
-(assert (! (forall ((?v0 Msg_list$) (?v1 Msg_set$)) (= (less_eq$ (set$a ?v0) ?v1) (forall ((?v2 Msg$)) (=> (member$a ?v2 (set$a ?v0)) (member$a ?v2 ?v1))))) :named a241))
-(assert (! (forall ((?v0 Event$) (?v1 Event_set$) (?v2 Event_set$)) (=> (and (member$b ?v0 ?v1) (less_eq$a ?v2 ?v1)) (less_eq$a (insert$b ?v0 ?v2) ?v1))) :named a242))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent_set$) (?v2 Agent_set$)) (=> (and (member$ ?v0 ?v1) (less_eq$b ?v2 ?v1)) (less_eq$b (insert$c ?v0 ?v2) ?v1))) :named a243))
-(assert (! (forall ((?v0 Msg$) (?v1 Msg_set$) (?v2 Msg_set$)) (=> (and (member$a ?v0 ?v1) (less_eq$ ?v2 ?v1)) (less_eq$ (insert$ ?v0 ?v2) ?v1))) :named a244))
-(assert (! (forall ((?v0 Msg_set$) (?v1 Msg_set$) (?v2 Msg$)) (=> (less_eq$ ?v0 ?v1) (less_eq$ ?v0 (insert$ ?v2 ?v1)))) :named a245))
-(assert (! (forall ((?v0 Msg_set$) (?v1 Msg$)) (less_eq$ ?v0 (insert$ ?v1 ?v0))) :named a246))
-(assert (! (forall ((?v0 Event$) (?v1 Event_set$) (?v2 Event_set$)) (=> (not (member$b ?v0 ?v1)) (= (less_eq$a ?v1 (insert$b ?v0 ?v2)) (less_eq$a ?v1 ?v2)))) :named a247))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent_set$) (?v2 Agent_set$)) (=> (not (member$ ?v0 ?v1)) (= (less_eq$b ?v1 (insert$c ?v0 ?v2)) (less_eq$b ?v1 ?v2)))) :named a248))
-(assert (! (forall ((?v0 Msg$) (?v1 Msg_set$) (?v2 Msg_set$)) (=> (not (member$a ?v0 ?v1)) (= (less_eq$ ?v1 (insert$ ?v0 ?v2)) (less_eq$ ?v1 ?v2)))) :named a249))
-(assert (! (forall ((?v0 Msg_set$) (?v1 Msg_set$) (?v2 Msg$)) (=> (less_eq$ ?v0 ?v1) (less_eq$ (insert$ ?v2 ?v0) (insert$ ?v2 ?v1)))) :named a250))
-(assert (! (forall ((?v0 Msg_list$) (?v1 Msg_list$) (?v2 (-> Msg$ Bool)) (?v3 (-> Msg$ Bool))) (=> (and (= ?v0 ?v1) (forall ((?v4 Msg$)) (=> (member$a ?v4 (set$a ?v1)) (= (?v2 ?v4) (?v3 ?v4))))) (= (list_ex$a ?v2 ?v0) (list_ex$a ?v3 ?v1)))) :named a251))
-(assert (! (forall ((?v0 Agent_list$) (?v1 Agent_list$) (?v2 (-> Agent$ Bool)) (?v3 (-> Agent$ Bool))) (=> (and (= ?v0 ?v1) (forall ((?v4 Agent$)) (=> (member$ ?v4 (set$b ?v1)) (= (?v2 ?v4) (?v3 ?v4))))) (= (list_ex$b ?v2 ?v0) (list_ex$b ?v3 ?v1)))) :named a252))
-(assert (! (forall ((?v0 Event_list$) (?v1 Event_list$) (?v2 (-> Event$ Bool)) (?v3 (-> Event$ Bool))) (=> (and (= ?v0 ?v1) (forall ((?v4 Event$)) (=> (member$b ?v4 (set$ ?v1)) (= (?v2 ?v4) (?v3 ?v4))))) (= (list_ex$ ?v2 ?v0) (list_ex$ ?v3 ?v1)))) :named a253))
-(assert (! (forall ((?v0 Msg$) (?v1 (-> Msg$ Bool))) (= (insert$ ?v0 (collect$ ?v1)) (collect$ (uuk$ ?v0 ?v1)))) :named a254))
-(assert (! (forall ((?v0 Msg$) (?v1 Msg_set$)) (= (insert$ ?v0 ?v1) (collect$ (uul$ ?v0 ?v1)))) :named a255))
-(assert (! (forall ((?v0 Event$) (?v1 Event_set$)) (= (insert$b ?v0 ?v1) (collect$a (uum$ ?v0 ?v1)))) :named a256))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent_set$)) (= (insert$c ?v0 ?v1) (collect$b (uun$ ?v0 ?v1)))) :named a257))
-(assert (! (forall ((?v0 Msg$) (?v1 Msg_set$)) (=> (member$a ?v0 ?v1) (exists ((?v2 Msg_set$)) (and (= ?v1 (insert$ ?v0 ?v2)) (not (member$a ?v0 ?v2)))))) :named a258))
-(assert (! (forall ((?v0 Event$) (?v1 Event_set$)) (=> (member$b ?v0 ?v1) (exists ((?v2 Event_set$)) (and (= ?v1 (insert$b ?v0 ?v2)) (not (member$b ?v0 ?v2)))))) :named a259))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent_set$)) (=> (member$ ?v0 ?v1) (exists ((?v2 Agent_set$)) (and (= ?v1 (insert$c ?v0 ?v2)) (not (member$ ?v0 ?v2)))))) :named a260))
-(assert (! (forall ((?v0 Msg$) (?v1 Msg$) (?v2 Msg_set$)) (= (insert$ ?v0 (insert$ ?v1 ?v2)) (insert$ ?v1 (insert$ ?v0 ?v2)))) :named a261))
-(assert (! (forall ((?v0 Msg$) (?v1 Msg_set$) (?v2 Msg$) (?v3 Msg_set$)) (=> (and (not (member$a ?v0 ?v1)) (not (member$a ?v2 ?v3))) (= (= (insert$ ?v0 ?v1) (insert$ ?v2 ?v3)) (ite (= ?v0 ?v2) (= ?v1 ?v3) (exists ((?v4 Msg_set$)) (and (= ?v1 (insert$ ?v2 ?v4)) (and (not (member$a ?v2 ?v4)) (and (= ?v3 (insert$ ?v0 ?v4)) (not (member$a ?v0 ?v4)))))))))) :named a262))
-(assert (! (forall ((?v0 Event$) (?v1 Event_set$) (?v2 Event$) (?v3 Event_set$)) (=> (and (not (member$b ?v0 ?v1)) (not (member$b ?v2 ?v3))) (= (= (insert$b ?v0 ?v1) (insert$b ?v2 ?v3)) (ite (= ?v0 ?v2) (= ?v1 ?v3) (exists ((?v4 Event_set$)) (and (= ?v1 (insert$b ?v2 ?v4)) (and (not (member$b ?v2 ?v4)) (and (= ?v3 (insert$b ?v0 ?v4)) (not (member$b ?v0 ?v4)))))))))) :named a263))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent_set$) (?v2 Agent$) (?v3 Agent_set$)) (=> (and (not (member$ ?v0 ?v1)) (not (member$ ?v2 ?v3))) (= (= (insert$c ?v0 ?v1) (insert$c ?v2 ?v3)) (ite (= ?v0 ?v2) (= ?v1 ?v3) (exists ((?v4 Agent_set$)) (and (= ?v1 (insert$c ?v2 ?v4)) (and (not (member$ ?v2 ?v4)) (and (= ?v3 (insert$c ?v0 ?v4)) (not (member$ ?v0 ?v4)))))))))) :named a264))
-(assert (! (forall ((?v0 Msg$) (?v1 Msg_set$)) (! (=> (member$a ?v0 ?v1) (= (insert$ ?v0 ?v1) ?v1)) :pattern ((insert$ ?v0 ?v1)))) :named a265))
-(assert (! (forall ((?v0 Event$) (?v1 Event_set$)) (! (=> (member$b ?v0 ?v1) (= (insert$b ?v0 ?v1) ?v1)) :pattern ((insert$b ?v0 ?v1)))) :named a266))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent_set$)) (! (=> (member$ ?v0 ?v1) (= (insert$c ?v0 ?v1) ?v1)) :pattern ((insert$c ?v0 ?v1)))) :named a267))
-(assert (! (forall ((?v0 Msg$) (?v1 Msg_set$) (?v2 Msg_set$)) (=> (and (not (member$a ?v0 ?v1)) (not (member$a ?v0 ?v2))) (= (= (insert$ ?v0 ?v1) (insert$ ?v0 ?v2)) (= ?v1 ?v2)))) :named a268))
-(assert (! (forall ((?v0 Event$) (?v1 Event_set$) (?v2 Event_set$)) (=> (and (not (member$b ?v0 ?v1)) (not (member$b ?v0 ?v2))) (= (= (insert$b ?v0 ?v1) (insert$b ?v0 ?v2)) (= ?v1 ?v2)))) :named a269))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent_set$) (?v2 Agent_set$)) (=> (and (not (member$ ?v0 ?v1)) (not (member$ ?v0 ?v2))) (= (= (insert$c ?v0 ?v1) (insert$c ?v0 ?v2)) (= ?v1 ?v2)))) :named a270))
-(assert (! (forall ((?v0 Msg$) (?v1 Msg_set$)) (=> (and (member$a ?v0 ?v1) (forall ((?v2 Msg_set$)) (=> (and (= ?v1 (insert$ ?v0 ?v2)) (not (member$a ?v0 ?v2))) false))) false)) :named a271))
-(assert (! (forall ((?v0 Event$) (?v1 Event_set$)) (=> (and (member$b ?v0 ?v1) (forall ((?v2 Event_set$)) (=> (and (= ?v1 (insert$b ?v0 ?v2)) (not (member$b ?v0 ?v2))) false))) false)) :named a272))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent_set$)) (=> (and (member$ ?v0 ?v1) (forall ((?v2 Agent_set$)) (=> (and (= ?v1 (insert$c ?v0 ?v2)) (not (member$ ?v0 ?v2))) false))) false)) :named a273))
-(assert (! (forall ((?v0 Msg$) (?v1 Msg_set$) (?v2 Msg$)) (=> (member$a ?v0 ?v1) (member$a ?v0 (insert$ ?v2 ?v1)))) :named a274))
-(assert (! (forall ((?v0 Event$) (?v1 Event_set$) (?v2 Event$)) (=> (member$b ?v0 ?v1) (member$b ?v0 (insert$b ?v2 ?v1)))) :named a275))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent_set$) (?v2 Agent$)) (=> (member$ ?v0 ?v1) (member$ ?v0 (insert$c ?v2 ?v1)))) :named a276))
-(assert (! (forall ((?v0 Msg$) (?v1 Msg_set$)) (member$a ?v0 (insert$ ?v0 ?v1))) :named a277))
-(assert (! (forall ((?v0 Event$) (?v1 Event_set$)) (member$b ?v0 (insert$b ?v0 ?v1))) :named a278))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent_set$)) (member$ ?v0 (insert$c ?v0 ?v1))) :named a279))
-(assert (! (forall ((?v0 Msg$) (?v1 Msg$) (?v2 Msg_set$)) (=> (and (member$a ?v0 (insert$ ?v1 ?v2)) (and (=> (= ?v0 ?v1) false) (=> (member$a ?v0 ?v2) false))) false)) :named a280))
-(assert (! (forall ((?v0 Event$) (?v1 Event$) (?v2 Event_set$)) (=> (and (member$b ?v0 (insert$b ?v1 ?v2)) (and (=> (= ?v0 ?v1) false) (=> (member$b ?v0 ?v2) false))) false)) :named a281))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent$) (?v2 Agent_set$)) (=> (and (member$ ?v0 (insert$c ?v1 ?v2)) (and (=> (= ?v0 ?v1) false) (=> (member$ ?v0 ?v2) false))) false)) :named a282))
-(assert (! (forall ((?v0 Msg$) (?v1 (-> Msg$ Bool)) (?v2 Msg_list$)) (=> (member$a ?v0 (set$a (takeWhile$a ?v1 ?v2))) (and (member$a ?v0 (set$a ?v2)) (?v1 ?v0)))) :named a283))
-(assert (! (forall ((?v0 Agent$) (?v1 (-> Agent$ Bool)) (?v2 Agent_list$)) (=> (member$ ?v0 (set$b (takeWhile$b ?v1 ?v2))) (and (member$ ?v0 (set$b ?v2)) (?v1 ?v0)))) :named a284))
-(assert (! (forall ((?v0 Event$) (?v1 (-> Event$ Bool)) (?v2 Event_list$)) (=> (member$b ?v0 (set$ (takeWhile$ ?v1 ?v2))) (and (member$b ?v0 (set$ ?v2)) (?v1 ?v0)))) :named a285))
-(assert (! (forall ((?v0 Msg_list$) (?v1 Msg_list$) (?v2 (-> Msg$ Bool)) (?v3 (-> Msg$ Bool))) (=> (and (= ?v0 ?v1) (forall ((?v4 Msg$)) (=> (member$a ?v4 (set$a ?v0)) (= (?v2 ?v4) (?v3 ?v4))))) (= (takeWhile$a ?v2 ?v0) (takeWhile$a ?v3 ?v1)))) :named a286))
-(assert (! (forall ((?v0 Agent_list$) (?v1 Agent_list$) (?v2 (-> Agent$ Bool)) (?v3 (-> Agent$ Bool))) (=> (and (= ?v0 ?v1) (forall ((?v4 Agent$)) (=> (member$ ?v4 (set$b ?v0)) (= (?v2 ?v4) (?v3 ?v4))))) (= (takeWhile$b ?v2 ?v0) (takeWhile$b ?v3 ?v1)))) :named a287))
-(assert (! (forall ((?v0 Event_list$) (?v1 Event_list$) (?v2 (-> Event$ Bool)) (?v3 (-> Event$ Bool))) (=> (and (= ?v0 ?v1) (forall ((?v4 Event$)) (=> (member$b ?v4 (set$ ?v0)) (= (?v2 ?v4) (?v3 ?v4))))) (= (takeWhile$ ?v2 ?v0) (takeWhile$ ?v3 ?v1)))) :named a288))
-(assert (! (forall ((?v0 Msg$) (?v1 Msg_list$) (?v2 Msg$)) (=> (member$a ?v0 (set$a ?v1)) (member$a ?v0 (set$a (cons$b ?v2 ?v1))))) :named a289))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent_list$) (?v2 Agent$)) (=> (member$ ?v0 (set$b ?v1)) (member$ ?v0 (set$b (cons$c ?v2 ?v1))))) :named a290))
-(assert (! (forall ((?v0 Event$) (?v1 Event_list$) (?v2 Event$)) (=> (member$b ?v0 (set$ ?v1)) (member$b ?v0 (set$ (cons$ ?v2 ?v1))))) :named a291))
-(assert (! (forall ((?v0 Msg$) (?v1 Msg_list$)) (member$a ?v0 (set$a (cons$b ?v0 ?v1)))) :named a292))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent_list$)) (member$ ?v0 (set$b (cons$c ?v0 ?v1)))) :named a293))
-(assert (! (forall ((?v0 Event$) (?v1 Event_list$)) (member$b ?v0 (set$ (cons$ ?v0 ?v1)))) :named a294))
-(assert (! (forall ((?v0 Msg$) (?v1 Msg$) (?v2 Msg_list$)) (=> (member$a ?v0 (set$a (cons$b ?v1 ?v2))) (or (= ?v0 ?v1) (member$a ?v0 (set$a ?v2))))) :named a295))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent$) (?v2 Agent_list$)) (=> (member$ ?v0 (set$b (cons$c ?v1 ?v2))) (or (= ?v0 ?v1) (member$ ?v0 (set$b ?v2))))) :named a296))
-(assert (! (forall ((?v0 Event$) (?v1 Event$) (?v2 Event_list$)) (=> (member$b ?v0 (set$ (cons$ ?v1 ?v2))) (or (= ?v0 ?v1) (member$b ?v0 (set$ ?v2))))) :named a297))
-(assert (! (forall ((?v0 Msg$) (?v1 Msg_list$)) (=> (and (member$a ?v0 (set$a ?v1)) (and (forall ((?v2 Msg_list$)) (=> (= ?v1 (cons$b ?v0 ?v2)) false)) (forall ((?v2 Msg$) (?v3 Msg_list$)) (=> (and (= ?v1 (cons$b ?v2 ?v3)) (member$a ?v0 (set$a ?v3))) false)))) false)) :named a298))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent_list$)) (=> (and (member$ ?v0 (set$b ?v1)) (and (forall ((?v2 Agent_list$)) (=> (= ?v1 (cons$c ?v0 ?v2)) false)) (forall ((?v2 Agent$) (?v3 Agent_list$)) (=> (and (= ?v1 (cons$c ?v2 ?v3)) (member$ ?v0 (set$b ?v3))) false)))) false)) :named a299))
-(assert (! (forall ((?v0 Event$) (?v1 Event_list$)) (=> (and (member$b ?v0 (set$ ?v1)) (and (forall ((?v2 Event_list$)) (=> (= ?v1 (cons$ ?v0 ?v2)) false)) (forall ((?v2 Event$) (?v3 Event_list$)) (=> (and (= ?v1 (cons$ ?v2 ?v3)) (member$b ?v0 (set$ ?v3))) false)))) false)) :named a300))
-(assert (! (forall ((?v0 Msg_list$) (?v1 Msg_list$) (?v2 (-> Msg$ Bool)) (?v3 (-> Msg$ Bool))) (=> (and (= ?v0 ?v1) (forall ((?v4 Msg$)) (=> (member$a ?v4 (set$a ?v1)) (= (?v2 ?v4) (?v3 ?v4))))) (= (list_all$a ?v2 ?v0) (list_all$a ?v3 ?v1)))) :named a301))
-(assert (! (forall ((?v0 Agent_list$) (?v1 Agent_list$) (?v2 (-> Agent$ Bool)) (?v3 (-> Agent$ Bool))) (=> (and (= ?v0 ?v1) (forall ((?v4 Agent$)) (=> (member$ ?v4 (set$b ?v1)) (= (?v2 ?v4) (?v3 ?v4))))) (= (list_all$b ?v2 ?v0) (list_all$b ?v3 ?v1)))) :named a302))
-(assert (! (forall ((?v0 Event_list$) (?v1 Event_list$) (?v2 (-> Event$ Bool)) (?v3 (-> Event$ Bool))) (=> (and (= ?v0 ?v1) (forall ((?v4 Event$)) (=> (member$b ?v4 (set$ ?v1)) (= (?v2 ?v4) (?v3 ?v4))))) (= (list_all$ ?v2 ?v0) (list_all$ ?v3 ?v1)))) :named a303))
-(assert (! (forall ((?v0 (-> Msg$ Bool)) (?v1 Msg_list$) (?v2 (-> Msg$ Bool))) (=> (and (list_all$a ?v0 ?v1) (forall ((?v3 Msg$)) (=> (and (member$a ?v3 (set$a ?v1)) (?v0 ?v3)) (?v2 ?v3)))) (list_all$a ?v2 ?v1))) :named a304))
-(assert (! (forall ((?v0 (-> Agent$ Bool)) (?v1 Agent_list$) (?v2 (-> Agent$ Bool))) (=> (and (list_all$b ?v0 ?v1) (forall ((?v3 Agent$)) (=> (and (member$ ?v3 (set$b ?v1)) (?v0 ?v3)) (?v2 ?v3)))) (list_all$b ?v2 ?v1))) :named a305))
-(assert (! (forall ((?v0 (-> Event$ Bool)) (?v1 Event_list$) (?v2 (-> Event$ Bool))) (=> (and (list_all$ ?v0 ?v1) (forall ((?v3 Event$)) (=> (and (member$b ?v3 (set$ ?v1)) (?v0 ?v3)) (?v2 ?v3)))) (list_all$ ?v2 ?v1))) :named a306))
-(assert (! (forall ((?v0 (-> Msg$ Bool)) (?v1 Msg_list$)) (= (list_ex1$a ?v0 ?v1) (exists ((?v2 Msg$)) (and (and (member$a ?v2 (set$a ?v1)) (?v0 ?v2)) (forall ((?v3 Msg$)) (=> (and (member$a ?v3 (set$a ?v1)) (?v0 ?v3)) (= ?v3 ?v2))))))) :named a307))
-(assert (! (forall ((?v0 (-> Agent$ Bool)) (?v1 Agent_list$)) (= (list_ex1$b ?v0 ?v1) (exists ((?v2 Agent$)) (and (and (member$ ?v2 (set$b ?v1)) (?v0 ?v2)) (forall ((?v3 Agent$)) (=> (and (member$ ?v3 (set$b ?v1)) (?v0 ?v3)) (= ?v3 ?v2))))))) :named a308))
-(assert (! (forall ((?v0 (-> Event$ Bool)) (?v1 Event_list$)) (= (list_ex1$ ?v0 ?v1) (exists ((?v2 Event$)) (and (and (member$b ?v2 (set$ ?v1)) (?v0 ?v2)) (forall ((?v3 Event$)) (=> (and (member$b ?v3 (set$ ?v1)) (?v0 ?v3)) (= ?v3 ?v2))))))) :named a309))
-(assert (! (forall ((?v0 Msg$) (?v1 Msg_list$)) (= (member$a ?v0 (set$a ?v1)) (member$g ?v1 ?v0))) :named a310))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent_list$)) (= (member$ ?v0 (set$b ?v1)) (member$h ?v1 ?v0))) :named a311))
-(assert (! (forall ((?v0 Event$) (?v1 Event_list$)) (= (member$b ?v0 (set$ ?v1)) (member$d ?v1 ?v0))) :named a312))
-(assert (! (forall ((?v0 Event_list$) (?v1 Event$)) (less_eq$a (set$ ?v0) (set$ (cons$ ?v1 ?v0)))) :named a313))
-(assert (! (forall ((?v0 Msg_list$) (?v1 Msg$)) (less_eq$ (set$a ?v0) (set$a (cons$b ?v1 ?v0)))) :named a314))
-(assert (! (forall ((?v0 Msg_list$) (?v1 (-> Msg$ Bool))) (= (exists ((?v2 Msg$)) (and (member$a ?v2 (set$a ?v0)) (?v1 ?v2))) (exists ((?v2 Msg_list$) (?v3 Msg$) (?v4 Msg_list$)) (and (= ?v0 (append$a ?v2 (cons$b ?v3 ?v4))) (and (?v1 ?v3) (forall ((?v5 Msg$)) (=> (member$a ?v5 (set$a ?v2)) (not (?v1 ?v5))))))))) :named a315))
-(assert (! (forall ((?v0 Agent_list$) (?v1 (-> Agent$ Bool))) (= (exists ((?v2 Agent$)) (and (member$ ?v2 (set$b ?v0)) (?v1 ?v2))) (exists ((?v2 Agent_list$) (?v3 Agent$) (?v4 Agent_list$)) (and (= ?v0 (append$b ?v2 (cons$c ?v3 ?v4))) (and (?v1 ?v3) (forall ((?v5 Agent$)) (=> (member$ ?v5 (set$b ?v2)) (not (?v1 ?v5))))))))) :named a316))
-(assert (! (forall ((?v0 Event_list$) (?v1 (-> Event$ Bool))) (= (exists ((?v2 Event$)) (and (member$b ?v2 (set$ ?v0)) (?v1 ?v2))) (exists ((?v2 Event_list$) (?v3 Event$) (?v4 Event_list$)) (and (= ?v0 (append$ ?v2 (cons$ ?v3 ?v4))) (and (?v1 ?v3) (forall ((?v5 Event$)) (=> (member$b ?v5 (set$ ?v2)) (not (?v1 ?v5))))))))) :named a317))
-(assert (! (forall ((?v0 Msg_list$) (?v1 (-> Msg$ Bool))) (= (exists ((?v2 Msg$)) (and (member$a ?v2 (set$a ?v0)) (?v1 ?v2))) (exists ((?v2 Msg_list$) (?v3 Msg$) (?v4 Msg_list$)) (and (= ?v0 (append$a ?v2 (cons$b ?v3 ?v4))) (and (?v1 ?v3) (forall ((?v5 Msg$)) (=> (member$a ?v5 (set$a ?v4)) (not (?v1 ?v5))))))))) :named a318))
-(assert (! (forall ((?v0 Agent_list$) (?v1 (-> Agent$ Bool))) (= (exists ((?v2 Agent$)) (and (member$ ?v2 (set$b ?v0)) (?v1 ?v2))) (exists ((?v2 Agent_list$) (?v3 Agent$) (?v4 Agent_list$)) (and (= ?v0 (append$b ?v2 (cons$c ?v3 ?v4))) (and (?v1 ?v3) (forall ((?v5 Agent$)) (=> (member$ ?v5 (set$b ?v4)) (not (?v1 ?v5))))))))) :named a319))
-(assert (! (forall ((?v0 Event_list$) (?v1 (-> Event$ Bool))) (= (exists ((?v2 Event$)) (and (member$b ?v2 (set$ ?v0)) (?v1 ?v2))) (exists ((?v2 Event_list$) (?v3 Event$) (?v4 Event_list$)) (and (= ?v0 (append$ ?v2 (cons$ ?v3 ?v4))) (and (?v1 ?v3) (forall ((?v5 Event$)) (=> (member$b ?v5 (set$ ?v4)) (not (?v1 ?v5))))))))) :named a320))
-(assert (! (forall ((?v0 Msg$) (?v1 Msg_list$)) (= (member$a ?v0 (set$a ?v1)) (exists ((?v2 Msg_list$) (?v3 Msg_list$)) (and (= ?v1 (append$a ?v2 (cons$b ?v0 ?v3))) (not (member$a ?v0 (set$a ?v2))))))) :named a321))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent_list$)) (= (member$ ?v0 (set$b ?v1)) (exists ((?v2 Agent_list$) (?v3 Agent_list$)) (and (= ?v1 (append$b ?v2 (cons$c ?v0 ?v3))) (not (member$ ?v0 (set$b ?v2))))))) :named a322))
-(assert (! (forall ((?v0 Event$) (?v1 Event_list$)) (= (member$b ?v0 (set$ ?v1)) (exists ((?v2 Event_list$) (?v3 Event_list$)) (and (= ?v1 (append$ ?v2 (cons$ ?v0 ?v3))) (not (member$b ?v0 (set$ ?v2))))))) :named a323))
-(assert (! (forall ((?v0 Msg$) (?v1 Msg_list$)) (= (member$a ?v0 (set$a ?v1)) (exists ((?v2 Msg_list$) (?v3 Msg_list$)) (and (= ?v1 (append$a ?v2 (cons$b ?v0 ?v3))) (not (member$a ?v0 (set$a ?v3))))))) :named a324))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent_list$)) (= (member$ ?v0 (set$b ?v1)) (exists ((?v2 Agent_list$) (?v3 Agent_list$)) (and (= ?v1 (append$b ?v2 (cons$c ?v0 ?v3))) (not (member$ ?v0 (set$b ?v3))))))) :named a325))
-(assert (! (forall ((?v0 Event$) (?v1 Event_list$)) (= (member$b ?v0 (set$ ?v1)) (exists ((?v2 Event_list$) (?v3 Event_list$)) (and (= ?v1 (append$ ?v2 (cons$ ?v0 ?v3))) (not (member$b ?v0 (set$ ?v3))))))) :named a326))
-(assert (! (forall ((?v0 Msg_list$) (?v1 (-> Msg$ Bool))) (=> (and (exists ((?v2 Msg$)) (and (member$a ?v2 (set$a ?v0)) (?v1 ?v2))) (forall ((?v2 Msg_list$) (?v3 Msg$) (?v4 Msg_list$)) (=> (and (= ?v0 (append$a ?v2 (cons$b ?v3 ?v4))) (and (?v1 ?v3) (forall ((?v5 Msg$)) (=> (member$a ?v5 (set$a ?v2)) (not (?v1 ?v5)))))) false))) false)) :named a327))
-(assert (! (forall ((?v0 Agent_list$) (?v1 (-> Agent$ Bool))) (=> (and (exists ((?v2 Agent$)) (and (member$ ?v2 (set$b ?v0)) (?v1 ?v2))) (forall ((?v2 Agent_list$) (?v3 Agent$) (?v4 Agent_list$)) (=> (and (= ?v0 (append$b ?v2 (cons$c ?v3 ?v4))) (and (?v1 ?v3) (forall ((?v5 Agent$)) (=> (member$ ?v5 (set$b ?v2)) (not (?v1 ?v5)))))) false))) false)) :named a328))
-(assert (! (forall ((?v0 Event_list$) (?v1 (-> Event$ Bool))) (=> (and (exists ((?v2 Event$)) (and (member$b ?v2 (set$ ?v0)) (?v1 ?v2))) (forall ((?v2 Event_list$) (?v3 Event$) (?v4 Event_list$)) (=> (and (= ?v0 (append$ ?v2 (cons$ ?v3 ?v4))) (and (?v1 ?v3) (forall ((?v5 Event$)) (=> (member$b ?v5 (set$ ?v2)) (not (?v1 ?v5)))))) false))) false)) :named a329))
-(assert (! (forall ((?v0 Msg_list$) (?v1 (-> Msg$ Bool))) (=> (and (exists ((?v2 Msg$)) (and (member$a ?v2 (set$a ?v0)) (?v1 ?v2))) (forall ((?v2 Msg_list$) (?v3 Msg$) (?v4 Msg_list$)) (=> (and (= ?v0 (append$a ?v2 (cons$b ?v3 ?v4))) (and (?v1 ?v3) (forall ((?v5 Msg$)) (=> (member$a ?v5 (set$a ?v4)) (not (?v1 ?v5)))))) false))) false)) :named a330))
-(assert (! (forall ((?v0 Agent_list$) (?v1 (-> Agent$ Bool))) (=> (and (exists ((?v2 Agent$)) (and (member$ ?v2 (set$b ?v0)) (?v1 ?v2))) (forall ((?v2 Agent_list$) (?v3 Agent$) (?v4 Agent_list$)) (=> (and (= ?v0 (append$b ?v2 (cons$c ?v3 ?v4))) (and (?v1 ?v3) (forall ((?v5 Agent$)) (=> (member$ ?v5 (set$b ?v4)) (not (?v1 ?v5)))))) false))) false)) :named a331))
-(assert (! (forall ((?v0 Event_list$) (?v1 (-> Event$ Bool))) (=> (and (exists ((?v2 Event$)) (and (member$b ?v2 (set$ ?v0)) (?v1 ?v2))) (forall ((?v2 Event_list$) (?v3 Event$) (?v4 Event_list$)) (=> (and (= ?v0 (append$ ?v2 (cons$ ?v3 ?v4))) (and (?v1 ?v3) (forall ((?v5 Event$)) (=> (member$b ?v5 (set$ ?v4)) (not (?v1 ?v5)))))) false))) false)) :named a332))
-(assert (! (forall ((?v0 Msg_list$) (?v1 (-> Msg$ Bool))) (=> (exists ((?v2 Msg$)) (and (member$a ?v2 (set$a ?v0)) (?v1 ?v2))) (exists ((?v2 Msg_list$) (?v3 Msg$) (?v4 Msg_list$)) (and (= ?v0 (append$a ?v2 (cons$b ?v3 ?v4))) (and (?v1 ?v3) (forall ((?v5 Msg$)) (=> (member$a ?v5 (set$a ?v2)) (not (?v1 ?v5))))))))) :named a333))
-(assert (! (forall ((?v0 Agent_list$) (?v1 (-> Agent$ Bool))) (=> (exists ((?v2 Agent$)) (and (member$ ?v2 (set$b ?v0)) (?v1 ?v2))) (exists ((?v2 Agent_list$) (?v3 Agent$) (?v4 Agent_list$)) (and (= ?v0 (append$b ?v2 (cons$c ?v3 ?v4))) (and (?v1 ?v3) (forall ((?v5 Agent$)) (=> (member$ ?v5 (set$b ?v2)) (not (?v1 ?v5))))))))) :named a334))
-(assert (! (forall ((?v0 Event_list$) (?v1 (-> Event$ Bool))) (=> (exists ((?v2 Event$)) (and (member$b ?v2 (set$ ?v0)) (?v1 ?v2))) (exists ((?v2 Event_list$) (?v3 Event$) (?v4 Event_list$)) (and (= ?v0 (append$ ?v2 (cons$ ?v3 ?v4))) (and (?v1 ?v3) (forall ((?v5 Event$)) (=> (member$b ?v5 (set$ ?v2)) (not (?v1 ?v5))))))))) :named a335))
-(assert (! (forall ((?v0 Msg_list$) (?v1 (-> Msg$ Bool))) (=> (exists ((?v2 Msg$)) (and (member$a ?v2 (set$a ?v0)) (?v1 ?v2))) (exists ((?v2 Msg_list$) (?v3 Msg$) (?v4 Msg_list$)) (and (= ?v0 (append$a ?v2 (cons$b ?v3 ?v4))) (and (?v1 ?v3) (forall ((?v5 Msg$)) (=> (member$a ?v5 (set$a ?v4)) (not (?v1 ?v5))))))))) :named a336))
-(assert (! (forall ((?v0 Agent_list$) (?v1 (-> Agent$ Bool))) (=> (exists ((?v2 Agent$)) (and (member$ ?v2 (set$b ?v0)) (?v1 ?v2))) (exists ((?v2 Agent_list$) (?v3 Agent$) (?v4 Agent_list$)) (and (= ?v0 (append$b ?v2 (cons$c ?v3 ?v4))) (and (?v1 ?v3) (forall ((?v5 Agent$)) (=> (member$ ?v5 (set$b ?v4)) (not (?v1 ?v5))))))))) :named a337))
-(assert (! (forall ((?v0 Event_list$) (?v1 (-> Event$ Bool))) (=> (exists ((?v2 Event$)) (and (member$b ?v2 (set$ ?v0)) (?v1 ?v2))) (exists ((?v2 Event_list$) (?v3 Event$) (?v4 Event_list$)) (and (= ?v0 (append$ ?v2 (cons$ ?v3 ?v4))) (and (?v1 ?v3) (forall ((?v5 Event$)) (=> (member$b ?v5 (set$ ?v4)) (not (?v1 ?v5))))))))) :named a338))
-(assert (! (forall ((?v0 Msg$) (?v1 Msg_list$)) (= (member$a ?v0 (set$a ?v1)) (exists ((?v2 Msg_list$) (?v3 Msg_list$)) (= ?v1 (append$a ?v2 (cons$b ?v0 ?v3)))))) :named a339))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent_list$)) (= (member$ ?v0 (set$b ?v1)) (exists ((?v2 Agent_list$) (?v3 Agent_list$)) (= ?v1 (append$b ?v2 (cons$c ?v0 ?v3)))))) :named a340))
-(assert (! (forall ((?v0 Event$) (?v1 Event_list$)) (= (member$b ?v0 (set$ ?v1)) (exists ((?v2 Event_list$) (?v3 Event_list$)) (= ?v1 (append$ ?v2 (cons$ ?v0 ?v3)))))) :named a341))
-(assert (! (forall ((?v0 Msg$) (?v1 Msg_list$) (?v2 Msg_list$) (?v3 Msg_list$) (?v4 Msg_list$)) (=> (and (not (member$a ?v0 (set$a ?v1))) (not (member$a ?v0 (set$a ?v2)))) (= (= (append$a ?v1 (cons$b ?v0 ?v2)) (append$a ?v3 (cons$b ?v0 ?v4))) (and (= ?v1 ?v3) (= ?v2 ?v4))))) :named a342))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent_list$) (?v2 Agent_list$) (?v3 Agent_list$) (?v4 Agent_list$)) (=> (and (not (member$ ?v0 (set$b ?v1))) (not (member$ ?v0 (set$b ?v2)))) (= (= (append$b ?v1 (cons$c ?v0 ?v2)) (append$b ?v3 (cons$c ?v0 ?v4))) (and (= ?v1 ?v3) (= ?v2 ?v4))))) :named a343))
-(assert (! (forall ((?v0 Event$) (?v1 Event_list$) (?v2 Event_list$) (?v3 Event_list$) (?v4 Event_list$)) (=> (and (not (member$b ?v0 (set$ ?v1))) (not (member$b ?v0 (set$ ?v2)))) (= (= (append$ ?v1 (cons$ ?v0 ?v2)) (append$ ?v3 (cons$ ?v0 ?v4))) (and (= ?v1 ?v3) (= ?v2 ?v4))))) :named a344))
-(assert (! (forall ((?v0 Msg_list$) (?v1 (-> Msg$ Bool))) (=> (and (exists ((?v2 Msg$)) (and (member$a ?v2 (set$a ?v0)) (?v1 ?v2))) (forall ((?v2 Msg_list$) (?v3 Msg$) (?v4 Msg_list$)) (=> (and (= ?v0 (append$a ?v2 (cons$b ?v3 ?v4))) (?v1 ?v3)) false))) false)) :named a345))
-(assert (! (forall ((?v0 Agent_list$) (?v1 (-> Agent$ Bool))) (=> (and (exists ((?v2 Agent$)) (and (member$ ?v2 (set$b ?v0)) (?v1 ?v2))) (forall ((?v2 Agent_list$) (?v3 Agent$) (?v4 Agent_list$)) (=> (and (= ?v0 (append$b ?v2 (cons$c ?v3 ?v4))) (?v1 ?v3)) false))) false)) :named a346))
-(assert (! (forall ((?v0 Event_list$) (?v1 (-> Event$ Bool))) (=> (and (exists ((?v2 Event$)) (and (member$b ?v2 (set$ ?v0)) (?v1 ?v2))) (forall ((?v2 Event_list$) (?v3 Event$) (?v4 Event_list$)) (=> (and (= ?v0 (append$ ?v2 (cons$ ?v3 ?v4))) (?v1 ?v3)) false))) false)) :named a347))
-(assert (! (forall ((?v0 Msg$) (?v1 Msg_list$)) (=> (member$a ?v0 (set$a ?v1)) (exists ((?v2 Msg_list$) (?v3 Msg_list$)) (and (= ?v1 (append$a ?v2 (cons$b ?v0 ?v3))) (not (member$a ?v0 (set$a ?v2))))))) :named a348))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent_list$)) (=> (member$ ?v0 (set$b ?v1)) (exists ((?v2 Agent_list$) (?v3 Agent_list$)) (and (= ?v1 (append$b ?v2 (cons$c ?v0 ?v3))) (not (member$ ?v0 (set$b ?v2))))))) :named a349))
-(assert (! (forall ((?v0 Event$) (?v1 Event_list$)) (=> (member$b ?v0 (set$ ?v1)) (exists ((?v2 Event_list$) (?v3 Event_list$)) (and (= ?v1 (append$ ?v2 (cons$ ?v0 ?v3))) (not (member$b ?v0 (set$ ?v2))))))) :named a350))
-(assert (! (forall ((?v0 Msg_list$) (?v1 (-> Msg$ Bool))) (=> (exists ((?v2 Msg$)) (and (member$a ?v2 (set$a ?v0)) (?v1 ?v2))) (exists ((?v2 Msg_list$) (?v3 Msg$) (?v4 Msg_list$)) (and (= ?v0 (append$a ?v2 (cons$b ?v3 ?v4))) (?v1 ?v3))))) :named a351))
-(assert (! (forall ((?v0 Agent_list$) (?v1 (-> Agent$ Bool))) (=> (exists ((?v2 Agent$)) (and (member$ ?v2 (set$b ?v0)) (?v1 ?v2))) (exists ((?v2 Agent_list$) (?v3 Agent$) (?v4 Agent_list$)) (and (= ?v0 (append$b ?v2 (cons$c ?v3 ?v4))) (?v1 ?v3))))) :named a352))
-(assert (! (forall ((?v0 Event_list$) (?v1 (-> Event$ Bool))) (=> (exists ((?v2 Event$)) (and (member$b ?v2 (set$ ?v0)) (?v1 ?v2))) (exists ((?v2 Event_list$) (?v3 Event$) (?v4 Event_list$)) (and (= ?v0 (append$ ?v2 (cons$ ?v3 ?v4))) (?v1 ?v3))))) :named a353))
-(assert (! (forall ((?v0 Msg$) (?v1 Msg_list$)) (=> (member$a ?v0 (set$a ?v1)) (exists ((?v2 Msg_list$) (?v3 Msg_list$)) (and (= ?v1 (append$a ?v2 (cons$b ?v0 ?v3))) (not (member$a ?v0 (set$a ?v3))))))) :named a354))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent_list$)) (=> (member$ ?v0 (set$b ?v1)) (exists ((?v2 Agent_list$) (?v3 Agent_list$)) (and (= ?v1 (append$b ?v2 (cons$c ?v0 ?v3))) (not (member$ ?v0 (set$b ?v3))))))) :named a355))
-(assert (! (forall ((?v0 Event$) (?v1 Event_list$)) (=> (member$b ?v0 (set$ ?v1)) (exists ((?v2 Event_list$) (?v3 Event_list$)) (and (= ?v1 (append$ ?v2 (cons$ ?v0 ?v3))) (not (member$b ?v0 (set$ ?v3))))))) :named a356))
-(assert (! (forall ((?v0 Msg$) (?v1 Msg_list$)) (=> (member$a ?v0 (set$a ?v1)) (exists ((?v2 Msg_list$) (?v3 Msg_list$)) (= ?v1 (append$a ?v2 (cons$b ?v0 ?v3)))))) :named a357))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent_list$)) (=> (member$ ?v0 (set$b ?v1)) (exists ((?v2 Agent_list$) (?v3 Agent_list$)) (= ?v1 (append$b ?v2 (cons$c ?v0 ?v3)))))) :named a358))
-(assert (! (forall ((?v0 Event$) (?v1 Event_list$)) (=> (member$b ?v0 (set$ ?v1)) (exists ((?v2 Event_list$) (?v3 Event_list$)) (= ?v1 (append$ ?v2 (cons$ ?v0 ?v3)))))) :named a359))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent$) (?v2 Msg$) (?v3 Event_list$)) (=> (member$b (says$ ?v0 ?v1 ?v2) (set$ ?v3)) (member$a ?v2 (knows$ ?v0 ?v3)))) :named a360))
-(assert (! (forall ((?v0 Agent$) (?v1 Msg$) (?v2 Event_list$)) (=> (member$b (notes$ ?v0 ?v1) (set$ ?v2)) (member$a ?v1 (knows$ ?v0 ?v2)))) :named a361))
-(assert (! (forall ((?v0 Msg$) (?v1 Msg_list$)) (! (= (insert$d ?v0 ?v1) (ite (member$a ?v0 (set$a ?v1)) ?v1 (cons$b ?v0 ?v1))) :pattern ((insert$d ?v0 ?v1)))) :named a362))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent_list$)) (! (= (insert$e ?v0 ?v1) (ite (member$ ?v0 (set$b ?v1)) ?v1 (cons$c ?v0 ?v1))) :pattern ((insert$e ?v0 ?v1)))) :named a363))
-(assert (! (forall ((?v0 Event$) (?v1 Event_list$)) (! (= (insert$a ?v0 ?v1) (ite (member$b ?v0 (set$ ?v1)) ?v1 (cons$ ?v0 ?v1))) :pattern ((insert$a ?v0 ?v1)))) :named a364))
-(assert (! (forall ((?v0 Agent$) (?v1 Agent$) (?v2 Msg$) (?v3 Event_list$)) (=> (member$b (says$ ?v0 ?v1 ?v2) (set$ ?v3)) (member$a ?v2 (knows$ spy$ ?v3)))) :named a365))
-(assert (! (forall ((?v0 Agent$) (?v1 Msg$) (?v2 Event_list$)) (=> (and (not (= ?v0 spy$)) (member$b (gets$ ?v0 ?v1) (set$ ?v2))) (member$a ?v1 (knows$ ?v0 ?v2)))) :named a366))
-(assert (! (forall ((?v0 Msg$) (?v1 Event_list$)) (=> (member$a ?v0 (knows$ spy$ ?v1)) (exists ((?v2 Agent$) (?v3 Agent$)) (or (member$b (says$ ?v2 ?v3 ?v0) (set$ ?v1)) (or (member$b (notes$ ?v2 ?v0) (set$ ?v1)) (member$a ?v0 (initState$ spy$))))))) :named a367))
-(assert (! (forall ((?v0 Msg_list$) (?v1 Msg$) (?v2 Msg_list_set$)) (=> (member$e (append$a ?v0 (cons$b ?v1 nil$b)) ?v2) (member$a ?v1 (succ$a ?v2 ?v0)))) :named a368))
-(assert (! (forall ((?v0 Agent_list$) (?v1 Agent$) (?v2 Agent_list_set$)) (=> (member$f (append$b ?v0 (cons$c ?v1 nil$c)) ?v2) (member$ ?v1 (succ$b ?v2 ?v0)))) :named a369))
-(assert (! (forall ((?v0 Event_list$) (?v1 Event$) (?v2 Event_list_set$)) (=> (member$c (append$ ?v0 (cons$ ?v1 nil$)) ?v2) (member$b ?v1 (succ$ ?v2 ?v0)))) :named a370))
-(assert (! (forall ((?v0 Event_list$) (?v1 Agent$) (?v2 Msg$)) (= (knows$ spy$ (append$ ?v0 (cons$ (notes$ ?v1 ?v2) nil$))) (ite (member$ ?v1 bad$) (insert$ ?v2 (knows$ spy$ ?v0)) (knows$ spy$ ?v0)))) :named a371))
-(assert (! (member$ spy$ bad$) :named a372))
-(assert (! (forall ((?v0 Agent$) (?v1 Msg$) (?v2 Event_list$)) (! (= (knows$ spy$ (cons$ (notes$ ?v0 ?v1) ?v2)) (ite (member$ ?v0 bad$) (insert$ ?v1 (knows$ spy$ ?v2)) (knows$ spy$ ?v2))) :pattern ((cons$ (notes$ ?v0 ?v1) ?v2)))) :named a373))
-(assert (! (forall ((?v0 Agent$) (?v1 Msg$) (?v2 Event_list$)) (=> (and (member$b (notes$ ?v0 ?v1) (set$ ?v2)) (member$ ?v0 bad$)) (member$a ?v1 (knows$ spy$ ?v2)))) :named a374))
-(assert (! (forall ((?v0 Agent$) (?v1 Event$) (?v2 Event_list$)) (= (knows$ ?v0 (cons$ ?v1 ?v2)) (ite (= ?v0 spy$) (case_event$ (uuo$ ?v2) (uup$ ?v2) (uuq$ ?v2) ?v1) (case_event$ (uur$ ?v0 ?v2) (uus$ ?v0 ?v2) (uus$ ?v0 ?v2) ?v1)))) :named a375))
-(check-sat)
diff --git a/test/regress/regress0/ho/fta0409.smt2 b/test/regress/regress0/ho/fta0409.smt2
deleted file mode 100644
index 51ac5f2da..000000000
--- a/test/regress/regress0/ho/fta0409.smt2
+++ /dev/null
@@ -1,427 +0,0 @@
-; COMMAND-LINE: --uf-ho
-; EXPECT: unsat
-(set-logic ALL)
-(set-info :status unsat)
-(declare-sort Nat$ 0)
-(declare-sort Complex$ 0)
-(declare-sort Nat_poly$ 0)
-(declare-sort Complex_poly$ 0)
-(declare-sort Complex_poly_poly$ 0)
-(declare-fun n$ () Nat$)
-(declare-fun q$ () Complex_poly$)
-(declare-fun r$ () Complex_poly$)
-(declare-fun dvd$ (Complex_poly$ Complex_poly$) Bool)
-(declare-fun one$ () Nat$)
-(declare-fun suc$ (Nat$) Nat$)
-(declare-fun dvd$a (Complex$ Complex$) Bool)
-(declare-fun dvd$b (Nat$ Nat$) Bool)
-(declare-fun dvd$c (Complex_poly_poly$ Complex_poly_poly$) Bool)
-(declare-fun dvd$d (Nat_poly$ Nat_poly$) Bool)
-(declare-fun one$a () Complex_poly$)
-(declare-fun one$b () Complex$)
-(declare-fun one$c () Nat_poly$)
-(declare-fun plus$ (Complex$ Complex$) Complex$)
-(declare-fun poly$ (Complex_poly$) (-> Complex$ Complex$))
-(declare-fun zero$ () Complex$)
-(declare-fun coeff$ (Complex_poly_poly$ Nat$) Complex_poly$)
-(declare-fun monom$ (Complex$ Nat$) Complex_poly$)
-(declare-fun order$ (Complex$ Complex_poly$) Nat$)
-(declare-fun pCons$ (Complex$ Complex_poly$) Complex_poly$)
-(declare-fun plus$a (Nat$ Nat$) Nat$)
-(declare-fun plus$b (Nat_poly$ Nat_poly$) Nat_poly$)
-(declare-fun plus$c (Complex_poly$ Complex_poly$) Complex_poly$)
-(declare-fun poly$a (Complex_poly_poly$ Complex_poly$) Complex_poly$)
-(declare-fun poly$b (Nat_poly$ Nat$) Nat$)
-(declare-fun power$ (Complex_poly$ Nat$) Complex_poly$)
-(declare-fun psize$ (Complex_poly$) Nat$)
-(declare-fun times$ (Nat$ Nat$) Nat$)
-(declare-fun zero$a () Nat$)
-(declare-fun zero$b () Complex_poly_poly$)
-(declare-fun zero$c () Complex_poly$)
-(declare-fun zero$d () Nat_poly$)
-(declare-fun coeff$a (Nat_poly$ Nat$) Nat$)
-(declare-fun coeff$b (Complex_poly$ Nat$) Complex$)
-(declare-fun degree$ (Complex_poly_poly$) Nat$)
-(declare-fun monom$a (Complex_poly$ Nat$) Complex_poly_poly$)
-(declare-fun monom$b (Nat$ Nat$) Nat_poly$)
-(declare-fun order$a (Complex_poly$ Complex_poly_poly$) Nat$)
-(declare-fun pCons$a (Complex_poly$ Complex_poly_poly$) Complex_poly_poly$)
-(declare-fun pCons$b (Nat$ Nat_poly$) Nat_poly$)
-(declare-fun power$a (Complex_poly_poly$ Nat$) Complex_poly_poly$)
-(declare-fun power$b (Nat_poly$ Nat$) Nat_poly$)
-(declare-fun power$c (Nat$ Nat$) Nat$)
-(declare-fun power$d (Complex$ Nat$) Complex$)
-(declare-fun degree$a (Nat_poly$) Nat$)
-(declare-fun degree$b (Complex_poly$) Nat$)
-(declare-fun is_zero$ (Complex_poly$) Bool)
-(declare-fun less_eq$ (Nat$ Nat$) Bool)
-(declare-fun of_bool$ (Bool) Complex$)
-(declare-fun constant$ ((-> Complex$ Complex$)) Bool)
-(declare-fun of_bool$a (Bool) Complex_poly$)
-(declare-fun of_bool$b (Bool) Nat$)
-(declare-fun pcompose$ (Complex_poly$ Complex_poly$) Complex_poly$)
-(declare-fun pcompose$a (Complex_poly_poly$ Complex_poly_poly$) Complex_poly_poly$)
-(declare-fun pcompose$b (Nat_poly$ Nat_poly$) Nat_poly$)
-(declare-fun poly_shift$ (Nat$ Complex_poly$) Complex_poly$)
-(declare-fun offset_poly$ (Complex_poly$ Complex$) Complex_poly$)
-(declare-fun poly_cutoff$ (Nat$ Complex_poly$) Complex_poly$)
-(declare-fun rsquarefree$ (Complex_poly$) Bool)
-(declare-fun offset_poly$a (Nat_poly$ Nat$) Nat_poly$)
-(declare-fun reflect_poly$ (Complex_poly$) Complex_poly$)
-(declare-fun reflect_poly$a (Complex_poly_poly$) Complex_poly_poly$)
-(declare-fun reflect_poly$b (Nat_poly$) Nat_poly$)
-(declare-fun synthetic_div$ (Complex_poly$ Complex$) Complex_poly$)
-(assert (! (not (= (poly$ (power$ q$ n$)) (poly$ r$))) :named a0))
-(assert (! (forall ((?v0 Complex$)) (= (poly$ (power$ q$ n$) ?v0) (poly$ r$ ?v0))) :named a1))
-(assert (! (forall ((?v0 Complex_poly_poly$) (?v1 Nat$) (?v2 Complex_poly$)) (= (poly$a (power$a ?v0 ?v1) ?v2) (power$ (poly$a ?v0 ?v2) ?v1))) :named a2))
-(assert (! (forall ((?v0 Nat_poly$) (?v1 Nat$) (?v2 Nat$)) (= (poly$b (power$b ?v0 ?v1) ?v2) (power$c (poly$b ?v0 ?v2) ?v1))) :named a3))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Nat$) (?v2 Complex$)) (= (poly$ (power$ ?v0 ?v1) ?v2) (power$d (poly$ ?v0 ?v2) ?v1))) :named a4))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Complex_poly$)) (= (= (poly$ ?v0) (poly$ ?v1)) (= ?v0 ?v1))) :named a5))
-(assert (! (forall ((?v0 Complex_poly$)) (=> (not (constant$ (poly$ ?v0))) (exists ((?v1 Complex$)) (= (poly$ ?v0 ?v1) zero$)))) :named a6))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Nat$)) (= (reflect_poly$ (power$ ?v0 ?v1)) (power$ (reflect_poly$ ?v0) ?v1))) :named a7))
-(assert (! (forall ((?v0 Complex_poly_poly$) (?v1 Nat$)) (= (coeff$ (power$a ?v0 ?v1) zero$a) (power$ (coeff$ ?v0 zero$a) ?v1))) :named a8))
-(assert (! (forall ((?v0 Nat_poly$) (?v1 Nat$)) (= (coeff$a (power$b ?v0 ?v1) zero$a) (power$c (coeff$a ?v0 zero$a) ?v1))) :named a9))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Nat$)) (= (coeff$b (power$ ?v0 ?v1) zero$a) (power$d (coeff$b ?v0 zero$a) ?v1))) :named a10))
-(assert (! (forall ((?v0 (-> Complex$ Complex$))) (= (constant$ ?v0) (forall ((?v1 Complex$) (?v2 Complex$)) (= (?v0 ?v1) (?v0 ?v2))))) :named a11))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Complex$)) (exists ((?v2 Complex_poly$)) (and (= (psize$ ?v2) (psize$ ?v0)) (forall ((?v3 Complex$)) (= (poly$ ?v2 ?v3) (poly$ ?v0 (plus$ ?v1 ?v3))))))) :named a12))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Complex$) (?v2 Complex$)) (= (poly$ (offset_poly$ ?v0 ?v1) ?v2) (poly$ ?v0 (plus$ ?v1 ?v2)))) :named a13))
-(assert (! (forall ((?v0 Nat_poly$) (?v1 Nat$) (?v2 Nat$)) (= (poly$b (offset_poly$a ?v0 ?v1) ?v2) (poly$b ?v0 (plus$a ?v1 ?v2)))) :named a14))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Complex_poly$) (?v2 Complex$)) (= (poly$ (pcompose$ ?v0 ?v1) ?v2) (poly$ ?v0 (poly$ ?v1 ?v2)))) :named a15))
-(assert (! (forall ((?v0 Complex_poly$)) (= (power$ ?v0 one$) ?v0)) :named a16))
-(assert (! (forall ((?v0 Nat$)) (= (power$c ?v0 one$) ?v0)) :named a17))
-(assert (! (forall ((?v0 Nat$)) (= (power$ one$a ?v0) one$a)) :named a18))
-(assert (! (forall ((?v0 Nat$)) (= (power$c one$ ?v0) one$)) :named a19))
-(assert (! (forall ((?v0 Complex_poly_poly$) (?v1 Nat$)) (= (coeff$ (power$a ?v0 ?v1) (degree$ (power$a ?v0 ?v1))) (power$ (coeff$ ?v0 (degree$ ?v0)) ?v1))) :named a20))
-(assert (! (forall ((?v0 Nat_poly$) (?v1 Nat$)) (= (coeff$a (power$b ?v0 ?v1) (degree$a (power$b ?v0 ?v1))) (power$c (coeff$a ?v0 (degree$a ?v0)) ?v1))) :named a21))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Nat$)) (= (coeff$b (power$ ?v0 ?v1) (degree$b (power$ ?v0 ?v1))) (power$d (coeff$b ?v0 (degree$b ?v0)) ?v1))) :named a22))
-(assert (! (forall ((?v0 Nat$)) (= (coeff$ zero$b ?v0) zero$c)) :named a23))
-(assert (! (forall ((?v0 Nat$)) (= (coeff$a zero$d ?v0) zero$a)) :named a24))
-(assert (! (forall ((?v0 Nat$)) (= (coeff$b zero$c ?v0) zero$)) :named a25))
-(assert (! (forall ((?v0 Nat_poly$) (?v1 Nat_poly$) (?v2 Nat$)) (= (coeff$a (plus$b ?v0 ?v1) ?v2) (plus$a (coeff$a ?v0 ?v2) (coeff$a ?v1 ?v2)))) :named a26))
-(assert (! (forall ((?v0 Complex_poly$)) (= (poly$a zero$b ?v0) zero$c)) :named a27))
-(assert (! (forall ((?v0 Nat$)) (= (poly$b zero$d ?v0) zero$a)) :named a28))
-(assert (! (forall ((?v0 Complex$)) (= (poly$ zero$c ?v0) zero$)) :named a29))
-(assert (! (= (degree$b one$a) zero$a) :named a30))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Complex_poly$) (?v2 Complex$)) (= (poly$ (plus$c ?v0 ?v1) ?v2) (plus$ (poly$ ?v0 ?v2) (poly$ ?v1 ?v2)))) :named a31))
-(assert (! (forall ((?v0 Nat_poly$) (?v1 Nat_poly$) (?v2 Nat$)) (= (poly$b (plus$b ?v0 ?v1) ?v2) (plus$a (poly$b ?v0 ?v2) (poly$b ?v1 ?v2)))) :named a32))
-(assert (! (forall ((?v0 Complex$)) (= (poly$ one$a ?v0) one$b)) :named a33))
-(assert (! (forall ((?v0 Nat$)) (= (poly$b one$c ?v0) one$)) :named a34))
-(assert (! (forall ((?v0 Complex_poly$)) (= (= (coeff$b ?v0 (degree$b ?v0)) zero$) (= ?v0 zero$c))) :named a35))
-(assert (! (forall ((?v0 Complex_poly_poly$)) (= (= (coeff$ ?v0 (degree$ ?v0)) zero$c) (= ?v0 zero$b))) :named a36))
-(assert (! (forall ((?v0 Nat_poly$)) (= (= (coeff$a ?v0 (degree$a ?v0)) zero$a) (= ?v0 zero$d))) :named a37))
-(assert (! (= (coeff$b one$a (degree$b one$a)) one$b) :named a38))
-(assert (! (= (coeff$a one$c (degree$a one$c)) one$) :named a39))
-(assert (! (forall ((?v0 Complex_poly$)) (= (= (poly$ (reflect_poly$ ?v0) zero$) zero$) (= ?v0 zero$c))) :named a40))
-(assert (! (forall ((?v0 Complex_poly_poly$)) (= (= (poly$a (reflect_poly$a ?v0) zero$c) zero$c) (= ?v0 zero$b))) :named a41))
-(assert (! (forall ((?v0 Nat_poly$)) (= (= (poly$b (reflect_poly$b ?v0) zero$a) zero$a) (= ?v0 zero$d))) :named a42))
-(assert (! (forall ((?v0 Complex_poly$)) (=> (not (= (coeff$b ?v0 zero$a) zero$)) (= (reflect_poly$ (reflect_poly$ ?v0)) ?v0))) :named a43))
-(assert (! (forall ((?v0 Complex_poly_poly$)) (=> (not (= (coeff$ ?v0 zero$a) zero$c)) (= (reflect_poly$a (reflect_poly$a ?v0)) ?v0))) :named a44))
-(assert (! (forall ((?v0 Nat_poly$)) (=> (not (= (coeff$a ?v0 zero$a) zero$a)) (= (reflect_poly$b (reflect_poly$b ?v0)) ?v0))) :named a45))
-(assert (! (forall ((?v0 Complex_poly$)) (= (= (coeff$b (reflect_poly$ ?v0) zero$a) zero$) (= ?v0 zero$c))) :named a46))
-(assert (! (forall ((?v0 Complex_poly_poly$)) (= (= (coeff$ (reflect_poly$a ?v0) zero$a) zero$c) (= ?v0 zero$b))) :named a47))
-(assert (! (forall ((?v0 Nat_poly$)) (= (= (coeff$a (reflect_poly$b ?v0) zero$a) zero$a) (= ?v0 zero$d))) :named a48))
-(assert (! (forall ((?v0 Complex_poly$)) (= (coeff$b (reflect_poly$ ?v0) zero$a) (coeff$b ?v0 (degree$b ?v0)))) :named a49))
-(assert (! (forall ((?v0 Complex_poly$)) (=> (not (= (coeff$b ?v0 zero$a) zero$)) (= (degree$b (reflect_poly$ ?v0)) (degree$b ?v0)))) :named a50))
-(assert (! (forall ((?v0 Complex_poly_poly$)) (=> (not (= (coeff$ ?v0 zero$a) zero$c)) (= (degree$ (reflect_poly$a ?v0)) (degree$ ?v0)))) :named a51))
-(assert (! (forall ((?v0 Nat_poly$)) (=> (not (= (coeff$a ?v0 zero$a) zero$a)) (= (degree$a (reflect_poly$b ?v0)) (degree$a ?v0)))) :named a52))
-(assert (! (forall ((?v0 Complex_poly$)) (= (poly$ (reflect_poly$ ?v0) zero$) (coeff$b ?v0 (degree$b ?v0)))) :named a53))
-(assert (! (forall ((?v0 Complex_poly_poly$)) (= (poly$a (reflect_poly$a ?v0) zero$c) (coeff$ ?v0 (degree$ ?v0)))) :named a54))
-(assert (! (forall ((?v0 Nat_poly$)) (= (poly$b (reflect_poly$b ?v0) zero$a) (coeff$a ?v0 (degree$a ?v0)))) :named a55))
-(assert (! (forall ((?v0 Complex_poly$)) (= (poly$ ?v0 zero$) (coeff$b ?v0 zero$a))) :named a56))
-(assert (! (forall ((?v0 Complex_poly_poly$)) (= (poly$a ?v0 zero$c) (coeff$ ?v0 zero$a))) :named a57))
-(assert (! (forall ((?v0 Nat_poly$)) (= (poly$b ?v0 zero$a) (coeff$a ?v0 zero$a))) :named a58))
-(assert (! (forall ((?v0 Nat_poly$) (?v1 Nat_poly$) (?v2 Nat$)) (= (coeff$a (plus$b ?v0 ?v1) ?v2) (plus$a (coeff$a ?v0 ?v2) (coeff$a ?v1 ?v2)))) :named a59))
-(assert (! (forall ((?v0 Complex_poly$)) (= (forall ((?v1 Complex$)) (= (poly$ ?v0 ?v1) zero$)) (= ?v0 zero$c))) :named a60))
-(assert (! (forall ((?v0 Complex_poly_poly$)) (= (forall ((?v1 Complex_poly$)) (= (poly$a ?v0 ?v1) zero$c)) (= ?v0 zero$b))) :named a61))
-(assert (! (forall ((?v0 Nat$)) (= (coeff$ zero$b ?v0) zero$c)) :named a62))
-(assert (! (forall ((?v0 Nat$)) (= (coeff$a zero$d ?v0) zero$a)) :named a63))
-(assert (! (forall ((?v0 Nat$)) (= (coeff$b zero$c ?v0) zero$)) :named a64))
-(assert (! (forall ((?v0 Complex_poly_poly$)) (=> (not (= ?v0 zero$b)) (not (= (coeff$ ?v0 (degree$ ?v0)) zero$c)))) :named a65))
-(assert (! (forall ((?v0 Nat_poly$)) (=> (not (= ?v0 zero$d)) (not (= (coeff$a ?v0 (degree$a ?v0)) zero$a)))) :named a66))
-(assert (! (forall ((?v0 Complex_poly$)) (=> (not (= ?v0 zero$c)) (not (= (coeff$b ?v0 (degree$b ?v0)) zero$)))) :named a67))
-(assert (! (forall ((?v0 Complex_poly$)) (! (= (power$ ?v0 zero$a) one$a) :pattern ((power$ ?v0)))) :named a68))
-(assert (! (forall ((?v0 Nat$)) (! (= (power$c ?v0 zero$a) one$) :pattern ((power$c ?v0)))) :named a69))
-(assert (! (forall ((?v0 Nat$)) (= (power$d zero$ ?v0) (ite (= ?v0 zero$a) one$b zero$))) :named a70))
-(assert (! (forall ((?v0 Nat$)) (= (power$ zero$c ?v0) (ite (= ?v0 zero$a) one$a zero$c))) :named a71))
-(assert (! (forall ((?v0 Nat$)) (= (power$c zero$a ?v0) (ite (= ?v0 zero$a) one$ zero$a))) :named a72))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Complex$)) (= (degree$b (offset_poly$ ?v0 ?v1)) (degree$b ?v0))) :named a73))
-(assert (! (forall ((?v0 Complex_poly$)) (= (constant$ (poly$ ?v0)) (= (degree$b ?v0) zero$a))) :named a74))
-(assert (! (forall ((?v0 Complex$)) (= zero$ (poly$ zero$c ?v0))) :named a75))
-(assert (! (forall ((?v0 Complex_poly$)) (= zero$c (poly$a zero$b ?v0))) :named a76))
-(assert (! (forall ((?v0 Complex_poly$)) (= (exists ((?v1 Complex$)) (and (= (poly$ ?v0 ?v1) zero$) (not (= (poly$ zero$c ?v1) zero$)))) false)) :named a77))
-(assert (! (forall ((?v0 Complex_poly_poly$)) (= (exists ((?v1 Complex_poly$)) (and (= (poly$a ?v0 ?v1) zero$c) (not (= (poly$a zero$b ?v1) zero$c)))) false)) :named a78))
-(assert (! (forall ((?v0 Nat_poly$)) (= (exists ((?v1 Nat$)) (and (= (poly$b ?v0 ?v1) zero$a) (not (= (poly$b zero$d ?v1) zero$a)))) false)) :named a79))
-(assert (! (= (exists ((?v0 Complex_poly$)) (not (= (poly$a zero$b ?v0) zero$c))) false) :named a80))
-(assert (! (= (exists ((?v0 Nat$)) (not (= (poly$b zero$d ?v0) zero$a))) false) :named a81))
-(assert (! (= (exists ((?v0 Complex$)) (not (= (poly$ zero$c ?v0) zero$))) false) :named a82))
-(assert (! (= (exists ((?v0 Complex_poly$)) (= (poly$a zero$b ?v0) zero$c)) true) :named a83))
-(assert (! (= (exists ((?v0 Nat$)) (= (poly$b zero$d ?v0) zero$a)) true) :named a84))
-(assert (! (= (exists ((?v0 Complex$)) (= (poly$ zero$c ?v0) zero$)) true) :named a85))
-(assert (! (forall ((?v0 Complex$) (?v1 Nat$)) (=> (not (= ?v0 zero$)) (not (= (power$d ?v0 ?v1) zero$)))) :named a86))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Nat$)) (=> (not (= ?v0 zero$c)) (not (= (power$ ?v0 ?v1) zero$c)))) :named a87))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$)) (=> (not (= ?v0 zero$a)) (not (= (power$c ?v0 ?v1) zero$a)))) :named a88))
-(assert (! (forall ((?v0 Complex$)) (= (plus$ zero$ ?v0) ?v0)) :named a89))
-(assert (! (forall ((?v0 Complex_poly$)) (= (plus$c zero$c ?v0) ?v0)) :named a90))
-(assert (! (forall ((?v0 Nat$)) (= (plus$a zero$a ?v0) ?v0)) :named a91))
-(assert (! (forall ((?v0 Complex$)) (= (plus$ ?v0 zero$) ?v0)) :named a92))
-(assert (! (forall ((?v0 Complex_poly$)) (= (plus$c ?v0 zero$c) ?v0)) :named a93))
-(assert (! (forall ((?v0 Nat$)) (= (plus$a ?v0 zero$a) ?v0)) :named a94))
-(assert (! (forall ((?v0 Complex$) (?v1 Complex$)) (= (= (plus$ ?v0 ?v1) ?v1) (= ?v0 zero$))) :named a95))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Complex_poly$)) (= (= (plus$c ?v0 ?v1) ?v1) (= ?v0 zero$c))) :named a96))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$)) (= (= (plus$a ?v0 ?v1) ?v1) (= ?v0 zero$a))) :named a97))
-(assert (! (forall ((?v0 Complex$) (?v1 Complex$)) (= (= (plus$ ?v0 ?v1) ?v0) (= ?v1 zero$))) :named a98))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Complex_poly$)) (= (= (plus$c ?v0 ?v1) ?v0) (= ?v1 zero$c))) :named a99))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$)) (= (= (plus$a ?v0 ?v1) ?v0) (= ?v1 zero$a))) :named a100))
-(assert (! (forall ((?v0 Complex$) (?v1 Complex$)) (= (= ?v0 (plus$ ?v1 ?v0)) (= ?v1 zero$))) :named a101))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Complex_poly$)) (= (= ?v0 (plus$c ?v1 ?v0)) (= ?v1 zero$c))) :named a102))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$)) (= (= ?v0 (plus$a ?v1 ?v0)) (= ?v1 zero$a))) :named a103))
-(assert (! (forall ((?v0 Complex$) (?v1 Complex$)) (= (= ?v0 (plus$ ?v0 ?v1)) (= ?v1 zero$))) :named a104))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Complex_poly$)) (= (= ?v0 (plus$c ?v0 ?v1)) (= ?v1 zero$c))) :named a105))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$)) (= (= ?v0 (plus$a ?v0 ?v1)) (= ?v1 zero$a))) :named a106))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$)) (= (= (plus$a ?v0 ?v1) zero$a) (and (= ?v0 zero$a) (= ?v1 zero$a)))) :named a107))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$)) (= (= zero$a (plus$a ?v0 ?v1)) (and (= ?v0 zero$a) (= ?v1 zero$a)))) :named a108))
-(assert (! (forall ((?v0 Complex_poly$)) (! (= (power$ ?v0 zero$a) one$a) :pattern ((power$ ?v0)))) :named a109))
-(assert (! (forall ((?v0 Nat$)) (! (= (power$c ?v0 zero$a) one$) :pattern ((power$c ?v0)))) :named a110))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$) (?v2 Nat$)) (= (= (plus$a ?v0 ?v1) (plus$a ?v2 ?v1)) (= ?v0 ?v2))) :named a111))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$) (?v2 Nat$)) (= (= (plus$a ?v0 ?v1) (plus$a ?v0 ?v2)) (= ?v1 ?v2))) :named a112))
-(assert (! (forall ((?v0 Complex_poly$)) (= (pcompose$ zero$c ?v0) zero$c)) :named a113))
-(assert (! (= (reflect_poly$ zero$c) zero$c) :named a114))
-(assert (! (= (degree$b zero$c) zero$a) :named a115))
-(assert (! (forall ((?v0 Complex_poly$)) (= (= (psize$ ?v0) zero$a) (= ?v0 zero$c))) :named a116))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Complex$)) (= (= (offset_poly$ ?v0 ?v1) zero$c) (= ?v0 zero$c))) :named a117))
-(assert (! (forall ((?v0 Complex$)) (= (offset_poly$ zero$c ?v0) zero$c)) :named a118))
-(assert (! (forall ((?v0 Complex_poly$)) (= (exists ((?v1 Complex$)) (not (= (poly$ ?v0 ?v1) zero$))) (not (= ?v0 zero$c)))) :named a119))
-(assert (! (forall ((?v0 Complex$)) (= (= zero$ ?v0) (= ?v0 zero$))) :named a120))
-(assert (! (forall ((?v0 Complex_poly$)) (= (= zero$c ?v0) (= ?v0 zero$c))) :named a121))
-(assert (! (forall ((?v0 Nat$)) (= (= zero$a ?v0) (= ?v0 zero$a))) :named a122))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$) (?v2 Nat$)) (=> (= (plus$a ?v0 ?v1) (plus$a ?v2 ?v1)) (= ?v0 ?v2))) :named a123))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$) (?v2 Nat$)) (=> (= (plus$a ?v0 ?v1) (plus$a ?v0 ?v2)) (= ?v1 ?v2))) :named a124))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$) (?v2 Nat$)) (= (plus$a ?v0 (plus$a ?v1 ?v2)) (plus$a ?v1 (plus$a ?v0 ?v2)))) :named a125))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$)) (= (plus$a ?v0 ?v1) (plus$a ?v1 ?v0))) :named a126))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$) (?v2 Nat$)) (= (plus$a (plus$a ?v0 ?v1) ?v2) (plus$a ?v0 (plus$a ?v1 ?v2)))) :named a127))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$) (?v2 Nat$) (?v3 Nat$)) (= (plus$a (plus$a ?v0 ?v1) (plus$a ?v2 ?v3)) (plus$a (plus$a ?v0 ?v2) (plus$a ?v1 ?v3)))) :named a128))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$) (?v2 Nat$)) (= (plus$a (plus$a ?v0 ?v1) ?v2) (plus$a ?v0 (plus$a ?v1 ?v2)))) :named a129))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$) (?v2 Nat$)) (= (plus$a ?v0 (plus$a ?v1 ?v2)) (plus$a ?v1 (plus$a ?v0 ?v2)))) :named a130))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$) (?v2 Nat$)) (= (plus$a (plus$a ?v0 ?v1) ?v2) (plus$a (plus$a ?v0 ?v2) ?v1))) :named a131))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$)) (= (plus$a ?v0 ?v1) (plus$a ?v1 ?v0))) :named a132))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$) (?v2 Nat$)) (= (plus$a ?v0 (plus$a ?v1 ?v2)) (plus$a (plus$a ?v0 ?v1) ?v2))) :named a133))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$) (?v2 Nat$) (?v3 Nat$)) (=> (and (= ?v0 ?v1) (= ?v2 ?v3)) (= (plus$a ?v0 ?v2) (plus$a ?v1 ?v3)))) :named a134))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$) (?v2 Nat$)) (= (plus$a (plus$a ?v0 ?v1) ?v2) (plus$a ?v0 (plus$a ?v1 ?v2)))) :named a135))
-(assert (! (forall ((?v0 Nat$)) (= (= one$ ?v0) (= ?v0 one$))) :named a136))
-(assert (! (forall ((?v0 Complex$) (?v1 Complex$)) (= (= ?v0 (plus$ ?v0 ?v1)) (= ?v1 zero$))) :named a137))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Complex_poly$)) (= (= ?v0 (plus$c ?v0 ?v1)) (= ?v1 zero$c))) :named a138))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$)) (= (= ?v0 (plus$a ?v0 ?v1)) (= ?v1 zero$a))) :named a139))
-(assert (! (forall ((?v0 Complex$)) (= (plus$ zero$ ?v0) ?v0)) :named a140))
-(assert (! (forall ((?v0 Complex_poly$)) (= (plus$c zero$c ?v0) ?v0)) :named a141))
-(assert (! (forall ((?v0 Complex$)) (= (plus$ ?v0 zero$) ?v0)) :named a142))
-(assert (! (forall ((?v0 Complex_poly$)) (= (plus$c ?v0 zero$c) ?v0)) :named a143))
-(assert (! (forall ((?v0 Nat$)) (= (plus$a ?v0 zero$a) ?v0)) :named a144))
-(assert (! (forall ((?v0 Complex$)) (= (plus$ zero$ ?v0) ?v0)) :named a145))
-(assert (! (forall ((?v0 Complex_poly$)) (= (plus$c zero$c ?v0) ?v0)) :named a146))
-(assert (! (forall ((?v0 Nat$)) (= (plus$a zero$a ?v0) ?v0)) :named a147))
-(assert (! (forall ((?v0 Complex$)) (= (plus$ zero$ ?v0) ?v0)) :named a148))
-(assert (! (forall ((?v0 Complex_poly$)) (= (plus$c zero$c ?v0) ?v0)) :named a149))
-(assert (! (forall ((?v0 Nat$)) (= (plus$a zero$a ?v0) ?v0)) :named a150))
-(assert (! (forall ((?v0 Complex$)) (= (plus$ ?v0 zero$) ?v0)) :named a151))
-(assert (! (forall ((?v0 Complex_poly$)) (= (plus$c ?v0 zero$c) ?v0)) :named a152))
-(assert (! (forall ((?v0 Nat$)) (= (plus$a ?v0 zero$a) ?v0)) :named a153))
-(assert (! (forall ((?v0 Complex_poly$)) (= (power$ ?v0 one$) ?v0)) :named a154))
-(assert (! (forall ((?v0 Nat$)) (= (power$c ?v0 one$) ?v0)) :named a155))
-(assert (! (forall ((?v0 Nat$)) (= (poly_cutoff$ ?v0 one$a) (ite (= ?v0 zero$a) zero$c one$a))) :named a156))
-(assert (! (forall ((?v0 Nat$)) (= (plus$a ?v0 zero$a) ?v0)) :named a157))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$)) (= (= (plus$a ?v0 ?v1) zero$a) (and (= ?v0 zero$a) (= ?v1 zero$a)))) :named a158))
-(assert (! (forall ((?v0 Nat$)) (= (poly_shift$ ?v0 one$a) (ite (= ?v0 zero$a) one$a zero$c))) :named a159))
-(assert (! (not (= zero$ one$b)) :named a160))
-(assert (! (not (= zero$c one$a)) :named a161))
-(assert (! (not (= zero$a one$)) :named a162))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Complex$)) (= (= (synthetic_div$ ?v0 ?v1) zero$c) (= (degree$b ?v0) zero$a))) :named a163))
-(assert (! (= (of_bool$ false) zero$) :named a164))
-(assert (! (= (of_bool$a false) zero$c) :named a165))
-(assert (! (= (of_bool$b false) zero$a) :named a166))
-(assert (! (= (of_bool$b true) one$) :named a167))
-(assert (! (forall ((?v0 Complex$)) (= (synthetic_div$ zero$c ?v0) zero$c)) :named a168))
-(assert (! (forall ((?v0 Nat$)) (= (poly_shift$ ?v0 zero$c) zero$c)) :named a169))
-(assert (! (forall ((?v0 Nat$)) (= (poly_cutoff$ ?v0 zero$c) zero$c)) :named a170))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$) (?v2 Nat$)) (= (= (plus$a ?v0 ?v1) (plus$a ?v0 ?v2)) (= ?v1 ?v2))) :named a171))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$) (?v2 Nat$)) (= (= (plus$a ?v0 ?v1) (plus$a ?v2 ?v1)) (= ?v0 ?v2))) :named a172))
-(assert (! (forall ((?v0 Bool)) (! (= (of_bool$ ?v0) (ite ?v0 one$b zero$)) :pattern ((of_bool$ ?v0)))) :named a173))
-(assert (! (forall ((?v0 Bool)) (! (= (of_bool$a ?v0) (ite ?v0 one$a zero$c)) :pattern ((of_bool$a ?v0)))) :named a174))
-(assert (! (forall ((?v0 Bool)) (! (= (of_bool$b ?v0) (ite ?v0 one$ zero$a)) :pattern ((of_bool$b ?v0)))) :named a175))
-(assert (! (forall ((?v0 (-> Complex$ Bool)) (?v1 Bool)) (= (?v0 (of_bool$ ?v1)) (and (=> ?v1 (?v0 one$b)) (=> (not ?v1) (?v0 zero$))))) :named a176))
-(assert (! (forall ((?v0 (-> Complex_poly$ Bool)) (?v1 Bool)) (= (?v0 (of_bool$a ?v1)) (and (=> ?v1 (?v0 one$a)) (=> (not ?v1) (?v0 zero$c))))) :named a177))
-(assert (! (forall ((?v0 (-> Nat$ Bool)) (?v1 Bool)) (= (?v0 (of_bool$b ?v1)) (and (=> ?v1 (?v0 one$)) (=> (not ?v1) (?v0 zero$a))))) :named a178))
-(assert (! (forall ((?v0 (-> Complex$ Bool)) (?v1 Bool)) (= (?v0 (of_bool$ ?v1)) (not (or (and ?v1 (not (?v0 one$b))) (and (not ?v1) (not (?v0 zero$))))))) :named a179))
-(assert (! (forall ((?v0 (-> Complex_poly$ Bool)) (?v1 Bool)) (= (?v0 (of_bool$a ?v1)) (not (or (and ?v1 (not (?v0 one$a))) (and (not ?v1) (not (?v0 zero$c))))))) :named a180))
-(assert (! (forall ((?v0 (-> Nat$ Bool)) (?v1 Bool)) (= (?v0 (of_bool$b ?v1)) (not (or (and ?v1 (not (?v0 one$))) (and (not ?v1) (not (?v0 zero$a))))))) :named a181))
-(assert (! (forall ((?v0 Nat$)) (= (plus$a zero$a ?v0) ?v0)) :named a182))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$)) (=> (= (plus$a ?v0 ?v1) ?v0) (= ?v1 zero$a))) :named a183))
-(assert (! (forall ((?v0 Nat$)) (=> (and (=> (= ?v0 zero$a) false) (=> (not (= ?v0 zero$a)) false)) false)) :named a184))
-(assert (! (forall ((?v0 (-> Nat$ (-> Nat$ Bool))) (?v1 Nat$) (?v2 Nat$)) (=> (and (forall ((?v3 Nat$) (?v4 Nat$)) (= (?v0 ?v3 ?v4) (?v0 ?v4 ?v3))) (and (forall ((?v3 Nat$)) (?v0 ?v3 zero$a)) (forall ((?v3 Nat$) (?v4 Nat$)) (=> (?v0 ?v3 ?v4) (?v0 ?v3 (plus$a ?v3 ?v4)))))) (?v0 ?v1 ?v2))) :named a185))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Complex_poly$)) (= (forall ((?v2 Complex$)) (=> (= (poly$ ?v0 ?v2) zero$) (= (poly$ ?v1 ?v2) zero$))) (or (dvd$ ?v0 (power$ ?v1 (degree$b ?v0))) (and (= ?v0 zero$c) (= ?v1 zero$c))))) :named a186))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Complex_poly$) (?v2 Nat$)) (=> (and (forall ((?v3 Complex$)) (=> (= (poly$ ?v0 ?v3) zero$) (= (poly$ ?v1 ?v3) zero$))) (and (= (degree$b ?v0) ?v2) (not (= ?v2 zero$a)))) (dvd$ ?v0 (power$ ?v1 ?v2)))) :named a187))
-(assert (! (forall ((?v0 Complex_poly$)) (! (= (is_zero$ ?v0) (= ?v0 zero$c)) :pattern ((is_zero$ ?v0)))) :named a188))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Complex$)) (= (= (poly$ ?v0 ?v1) zero$) (or (= ?v0 zero$c) (not (= (order$ ?v1 ?v0) zero$a))))) :named a189))
-(assert (! (forall ((?v0 Complex_poly_poly$) (?v1 Complex_poly$)) (= (= (poly$a ?v0 ?v1) zero$c) (or (= ?v0 zero$b) (not (= (order$a ?v1 ?v0) zero$a))))) :named a190))
-(assert (! (forall ((?v0 Complex$)) (dvd$a ?v0 zero$)) :named a191))
-(assert (! (forall ((?v0 Complex_poly$)) (dvd$ ?v0 zero$c)) :named a192))
-(assert (! (forall ((?v0 Nat$)) (dvd$b ?v0 zero$a)) :named a193))
-(assert (! (forall ((?v0 Complex$)) (= (dvd$a zero$ ?v0) (= ?v0 zero$))) :named a194))
-(assert (! (forall ((?v0 Complex_poly$)) (= (dvd$ zero$c ?v0) (= ?v0 zero$c))) :named a195))
-(assert (! (forall ((?v0 Nat$)) (= (dvd$b zero$a ?v0) (= ?v0 zero$a))) :named a196))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Complex_poly$)) (= (dvd$ ?v0 (plus$c ?v0 ?v1)) (dvd$ ?v0 ?v1))) :named a197))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$)) (= (dvd$b ?v0 (plus$a ?v0 ?v1)) (dvd$b ?v0 ?v1))) :named a198))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Complex_poly$)) (= (dvd$ ?v0 (plus$c ?v1 ?v0)) (dvd$ ?v0 ?v1))) :named a199))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$)) (= (dvd$b ?v0 (plus$a ?v1 ?v0)) (dvd$b ?v0 ?v1))) :named a200))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$) (?v2 Nat$)) (=> (not (= ?v0 zero$a)) (= (dvd$b (power$c ?v1 ?v0) (power$c ?v2 ?v0)) (dvd$b ?v1 ?v2)))) :named a201))
-(assert (! (forall ((?v0 Complex$)) (=> (dvd$a zero$ ?v0) (= ?v0 zero$))) :named a202))
-(assert (! (forall ((?v0 Complex_poly$)) (=> (dvd$ zero$c ?v0) (= ?v0 zero$c))) :named a203))
-(assert (! (forall ((?v0 Nat$)) (=> (dvd$b zero$a ?v0) (= ?v0 zero$a))) :named a204))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Complex_poly$) (?v2 Complex_poly$)) (=> (dvd$ ?v0 ?v1) (= (dvd$ ?v0 (plus$c ?v1 ?v2)) (dvd$ ?v0 ?v2)))) :named a205))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$) (?v2 Nat$)) (=> (dvd$b ?v0 ?v1) (= (dvd$b ?v0 (plus$a ?v1 ?v2)) (dvd$b ?v0 ?v2)))) :named a206))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Complex_poly$) (?v2 Complex_poly$)) (=> (dvd$ ?v0 ?v1) (= (dvd$ ?v0 (plus$c ?v2 ?v1)) (dvd$ ?v0 ?v2)))) :named a207))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$) (?v2 Nat$)) (=> (dvd$b ?v0 ?v1) (= (dvd$b ?v0 (plus$a ?v2 ?v1)) (dvd$b ?v0 ?v2)))) :named a208))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Complex_poly$) (?v2 Complex_poly$)) (=> (and (dvd$ ?v0 ?v1) (dvd$ ?v0 ?v2)) (dvd$ ?v0 (plus$c ?v1 ?v2)))) :named a209))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$) (?v2 Nat$)) (=> (and (dvd$b ?v0 ?v1) (dvd$b ?v0 ?v2)) (dvd$b ?v0 (plus$a ?v1 ?v2)))) :named a210))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Complex_poly$)) (=> (and (dvd$ ?v0 ?v1) (dvd$ ?v1 one$a)) (dvd$ ?v0 one$a))) :named a211))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$)) (=> (and (dvd$b ?v0 ?v1) (dvd$b ?v1 one$)) (dvd$b ?v0 one$))) :named a212))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Complex_poly$)) (=> (dvd$ ?v0 one$a) (dvd$ ?v0 ?v1))) :named a213))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$)) (=> (dvd$b ?v0 one$) (dvd$b ?v0 ?v1))) :named a214))
-(assert (! (forall ((?v0 Complex_poly$)) (dvd$ one$a ?v0)) :named a215))
-(assert (! (forall ((?v0 Nat$)) (dvd$b one$ ?v0)) :named a216))
-(assert (! (forall ((?v0 Complex_poly$)) (dvd$ ?v0 ?v0)) :named a217))
-(assert (! (forall ((?v0 Nat$)) (dvd$b ?v0 ?v0)) :named a218))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Complex_poly$) (?v2 Complex_poly$)) (=> (and (dvd$ ?v0 ?v1) (dvd$ ?v1 ?v2)) (dvd$ ?v0 ?v2))) :named a219))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$) (?v2 Nat$)) (=> (and (dvd$b ?v0 ?v1) (dvd$b ?v1 ?v2)) (dvd$b ?v0 ?v2))) :named a220))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Complex_poly$) (?v2 Nat$)) (=> (dvd$ ?v0 ?v1) (dvd$ (power$ ?v0 ?v2) (power$ ?v1 ?v2)))) :named a221))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$) (?v2 Nat$)) (=> (dvd$b ?v0 ?v1) (dvd$b (power$c ?v0 ?v2) (power$c ?v1 ?v2)))) :named a222))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$) (?v2 Nat$)) (=> (and (dvd$b (power$c ?v0 ?v1) (power$c ?v2 ?v1)) (not (= ?v1 zero$a))) (dvd$b ?v0 ?v2))) :named a223))
-(assert (! (not (dvd$ zero$c one$a)) :named a224))
-(assert (! (not (dvd$b zero$a one$)) :named a225))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Nat$)) (= (dvd$ (power$ ?v0 ?v1) one$a) (or (dvd$ ?v0 one$a) (= ?v1 zero$a)))) :named a226))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$)) (= (dvd$b (power$c ?v0 ?v1) one$) (or (dvd$b ?v0 one$) (= ?v1 zero$a)))) :named a227))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Complex$)) (! (=> (not (= (poly$ ?v0 ?v1) zero$)) (= (order$ ?v1 ?v0) zero$a)) :pattern ((order$ ?v1 ?v0)))) :named a228))
-(assert (! (forall ((?v0 Complex_poly_poly$) (?v1 Complex_poly$)) (! (=> (not (= (poly$a ?v0 ?v1) zero$c)) (= (order$a ?v1 ?v0) zero$a)) :pattern ((order$a ?v1 ?v0)))) :named a229))
-(assert (! (forall ((?v0 Complex_poly$)) (=> (not (= ?v0 zero$c)) (= (dvd$ ?v0 one$a) (= (degree$b ?v0) zero$a)))) :named a230))
-(assert (! (forall ((?v0 Complex_poly$)) (= (rsquarefree$ ?v0) (and (not (= ?v0 zero$c)) (forall ((?v1 Complex$)) (or (= (order$ ?v1 ?v0) zero$a) (= (order$ ?v1 ?v0) one$)))))) :named a231))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Complex$) (?v2 Complex_poly$)) (=> (not (= ?v0 zero$c)) (= (exists ((?v3 Complex$)) (and (= (poly$ (pCons$ ?v1 ?v0) ?v3) zero$) (not (= (poly$ ?v2 ?v3) zero$)))) (not (dvd$ (pCons$ ?v1 ?v0) (power$ ?v2 (psize$ ?v0))))))) :named a232))
-(assert (! (forall ((?v0 Complex$) (?v1 Complex$)) (! (= (dvd$a ?v0 ?v1) (=> (= ?v0 zero$) (= ?v1 zero$))) :pattern ((dvd$a ?v0 ?v1)))) :named a233))
-(assert (! (forall ((?v0 Complex_poly$)) (=> (dvd$ ?v0 one$a) (= (monom$ (coeff$b ?v0 (degree$b ?v0)) zero$a) ?v0))) :named a234))
-(assert (! (forall ((?v0 Nat$)) (= (dvd$b ?v0 one$) (= ?v0 one$))) :named a235))
-(assert (! (forall ((?v0 Complex$) (?v1 Complex_poly$) (?v2 Complex$) (?v3 Complex_poly$)) (= (= (pCons$ ?v0 ?v1) (pCons$ ?v2 ?v3)) (and (= ?v0 ?v2) (= ?v1 ?v3)))) :named a236))
-(assert (! (= (pCons$ zero$ zero$c) zero$c) :named a237))
-(assert (! (= (pCons$a zero$c zero$b) zero$b) :named a238))
-(assert (! (= (pCons$b zero$a zero$d) zero$d) :named a239))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Complex_poly_poly$)) (= (= (pCons$a ?v0 ?v1) zero$b) (and (= ?v0 zero$c) (= ?v1 zero$b)))) :named a240))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat_poly$)) (= (= (pCons$b ?v0 ?v1) zero$d) (and (= ?v0 zero$a) (= ?v1 zero$d)))) :named a241))
-(assert (! (forall ((?v0 Complex$) (?v1 Complex_poly$)) (= (= (pCons$ ?v0 ?v1) zero$c) (and (= ?v0 zero$) (= ?v1 zero$c)))) :named a242))
-(assert (! (forall ((?v0 Complex$) (?v1 Complex_poly$)) (= (coeff$b (pCons$ ?v0 ?v1) zero$a) ?v0)) :named a243))
-(assert (! (forall ((?v0 Nat$)) (= (monom$ zero$ ?v0) zero$c)) :named a244))
-(assert (! (forall ((?v0 Nat$)) (= (monom$a zero$c ?v0) zero$b)) :named a245))
-(assert (! (forall ((?v0 Nat$)) (= (monom$b zero$a ?v0) zero$d)) :named a246))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Nat$)) (= (= (monom$a ?v0 ?v1) zero$b) (= ?v0 zero$c))) :named a247))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$)) (= (= (monom$b ?v0 ?v1) zero$d) (= ?v0 zero$a))) :named a248))
-(assert (! (forall ((?v0 Complex$) (?v1 Nat$)) (= (= (monom$ ?v0 ?v1) zero$c) (= ?v0 zero$))) :named a249))
-(assert (! (forall ((?v0 Complex$) (?v1 Nat$) (?v2 Nat$)) (= (coeff$b (monom$ ?v0 ?v1) ?v2) (ite (= ?v1 ?v2) ?v0 zero$))) :named a250))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Nat$) (?v2 Nat$)) (= (coeff$ (monom$a ?v0 ?v1) ?v2) (ite (= ?v1 ?v2) ?v0 zero$c))) :named a251))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$) (?v2 Nat$)) (= (coeff$a (monom$b ?v0 ?v1) ?v2) (ite (= ?v1 ?v2) ?v0 zero$a))) :named a252))
-(assert (! (forall ((?v0 Complex$) (?v1 Complex_poly$) (?v2 Complex$) (?v3 Complex_poly$)) (= (plus$c (pCons$ ?v0 ?v1) (pCons$ ?v2 ?v3)) (pCons$ (plus$ ?v0 ?v2) (plus$c ?v1 ?v3)))) :named a253))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat_poly$) (?v2 Nat$) (?v3 Nat_poly$)) (= (plus$b (pCons$b ?v0 ?v1) (pCons$b ?v2 ?v3)) (pCons$b (plus$a ?v0 ?v2) (plus$b ?v1 ?v3)))) :named a254))
-(assert (! (forall ((?v0 Complex$) (?v1 Nat$)) (= (coeff$b (monom$ ?v0 ?v1) (degree$b (monom$ ?v0 ?v1))) ?v0)) :named a255))
-(assert (! (forall ((?v0 Complex$) (?v1 Nat$)) (=> (not (= ?v0 zero$)) (= (order$ zero$ (monom$ ?v0 ?v1)) ?v1))) :named a256))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Nat$)) (=> (not (= ?v0 zero$c)) (= (order$a zero$c (monom$a ?v0 ?v1)) ?v1))) :named a257))
-(assert (! (forall ((?v0 Complex$) (?v1 Complex_poly$)) (= (pcompose$ (pCons$ ?v0 zero$c) ?v1) (pCons$ ?v0 zero$c))) :named a258))
-(assert (! (forall ((?v0 Complex$)) (= (reflect_poly$ (pCons$ ?v0 zero$c)) (pCons$ ?v0 zero$c))) :named a259))
-(assert (! (forall ((?v0 Complex$) (?v1 Complex_poly$) (?v2 Complex$)) (= (synthetic_div$ (pCons$ ?v0 ?v1) ?v2) (pCons$ (poly$ ?v1 ?v2) (synthetic_div$ ?v1 ?v2)))) :named a260))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Complex$)) (=> (= ?v0 zero$c) (= (coeff$b (pCons$ ?v1 ?v0) (degree$b (pCons$ ?v1 ?v0))) ?v1))) :named a261))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Complex$)) (=> (not (= ?v0 zero$c)) (= (coeff$b (pCons$ ?v1 ?v0) (degree$b (pCons$ ?v1 ?v0))) (coeff$b ?v0 (degree$b ?v0))))) :named a262))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Complex_poly$)) (= (dvd$c (pCons$a ?v0 zero$b) (pCons$a ?v1 zero$b)) (dvd$ ?v0 ?v1))) :named a263))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$)) (= (dvd$d (pCons$b ?v0 zero$d) (pCons$b ?v1 zero$d)) (dvd$b ?v0 ?v1))) :named a264))
-(assert (! (forall ((?v0 Complex$) (?v1 Complex$)) (= (dvd$ (pCons$ ?v0 zero$c) (pCons$ ?v1 zero$c)) (dvd$a ?v0 ?v1))) :named a265))
-(assert (! (= (= (pCons$b one$ zero$d) one$c) true) :named a266))
-(assert (! (= (= (pCons$ one$b zero$c) one$a) true) :named a267))
-(assert (! (= (= one$c (pCons$b one$ zero$d)) true) :named a268))
-(assert (! (= (= one$a (pCons$ one$b zero$c)) true) :named a269))
-(assert (! (= (monom$b one$ zero$a) one$c) :named a270))
-(assert (! (forall ((?v0 Complex_poly$)) (= (pcompose$ ?v0 (pCons$ zero$ (pCons$ one$b zero$c))) ?v0)) :named a271))
-(assert (! (forall ((?v0 Complex_poly_poly$)) (= (pcompose$a ?v0 (pCons$a zero$c (pCons$a one$a zero$b))) ?v0)) :named a272))
-(assert (! (forall ((?v0 Nat_poly$)) (= (pcompose$b ?v0 (pCons$b zero$a (pCons$b one$ zero$d))) ?v0)) :named a273))
-(assert (! (forall ((?v0 Nat$)) (=> (dvd$b zero$a ?v0) (= ?v0 zero$a))) :named a274))
-(assert (! (forall ((?v0 Nat$)) (= (not (= ?v0 zero$a)) (and (dvd$b ?v0 zero$a) (not (= ?v0 zero$a))))) :named a275))
-(assert (! (forall ((?v0 Nat$)) (! (= (dvd$b zero$a ?v0) (= ?v0 zero$a)) :pattern ((dvd$b zero$a ?v0)))) :named a276))
-(assert (! (forall ((?v0 Nat$)) (not (and (dvd$b zero$a ?v0) (not (= zero$a ?v0))))) :named a277))
-(assert (! (forall ((?v0 Nat$)) (dvd$b ?v0 zero$a)) :named a278))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Nat$) (?v2 Complex_poly$)) (= (= (monom$a ?v0 ?v1) (pCons$a ?v2 zero$b)) (and (= ?v0 ?v2) (or (= ?v0 zero$c) (= ?v1 zero$a))))) :named a279))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$) (?v2 Nat$)) (= (= (monom$b ?v0 ?v1) (pCons$b ?v2 zero$d)) (and (= ?v0 ?v2) (or (= ?v0 zero$a) (= ?v1 zero$a))))) :named a280))
-(assert (! (forall ((?v0 Complex$) (?v1 Nat$) (?v2 Complex$)) (= (= (monom$ ?v0 ?v1) (pCons$ ?v2 zero$c)) (and (= ?v0 ?v2) (or (= ?v0 zero$) (= ?v1 zero$a))))) :named a281))
-(assert (! (forall ((?v0 Complex_poly$)) (=> (forall ((?v1 Complex$) (?v2 Complex_poly$)) (=> (= ?v0 (pCons$ ?v1 ?v2)) false)) false)) :named a282))
-(assert (! (forall ((?v0 Complex_poly$)) (=> (forall ((?v1 Complex$) (?v2 Complex_poly$)) (=> (= ?v0 (pCons$ ?v1 ?v2)) false)) false)) :named a283))
-(assert (! (forall ((?v0 (-> Complex_poly$ (-> Complex_poly$ Bool))) (?v1 Complex_poly$) (?v2 Complex_poly$)) (=> (and (?v0 zero$c zero$c) (forall ((?v3 Complex$) (?v4 Complex_poly$) (?v5 Complex$) (?v6 Complex_poly$)) (=> (?v0 ?v4 ?v6) (?v0 (pCons$ ?v3 ?v4) (pCons$ ?v5 ?v6))))) (?v0 ?v1 ?v2))) :named a284))
-(assert (! (forall ((?v0 Complex$) (?v1 Nat$) (?v2 Complex$) (?v3 Nat$)) (= (= (monom$ ?v0 ?v1) (monom$ ?v2 ?v3)) (and (= ?v0 ?v2) (or (= ?v0 zero$) (= ?v1 ?v3))))) :named a285))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Nat$) (?v2 Complex_poly$) (?v3 Nat$)) (= (= (monom$a ?v0 ?v1) (monom$a ?v2 ?v3)) (and (= ?v0 ?v2) (or (= ?v0 zero$c) (= ?v1 ?v3))))) :named a286))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$) (?v2 Nat$) (?v3 Nat$)) (= (= (monom$b ?v0 ?v1) (monom$b ?v2 ?v3)) (and (= ?v0 ?v2) (or (= ?v0 zero$a) (= ?v1 ?v3))))) :named a287))
-(assert (! (forall ((?v0 Complex$)) (! (= (monom$ ?v0 zero$a) (pCons$ ?v0 zero$c)) :pattern ((monom$ ?v0)))) :named a288))
-(assert (! (forall ((?v0 (-> Complex_poly_poly$ Bool)) (?v1 Complex_poly_poly$)) (=> (and (?v0 zero$b) (forall ((?v2 Complex_poly$) (?v3 Complex_poly_poly$)) (=> (and (or (not (= ?v2 zero$c)) (not (= ?v3 zero$b))) (?v0 ?v3)) (?v0 (pCons$a ?v2 ?v3))))) (?v0 ?v1))) :named a289))
-(assert (! (forall ((?v0 (-> Nat_poly$ Bool)) (?v1 Nat_poly$)) (=> (and (?v0 zero$d) (forall ((?v2 Nat$) (?v3 Nat_poly$)) (=> (and (or (not (= ?v2 zero$a)) (not (= ?v3 zero$d))) (?v0 ?v3)) (?v0 (pCons$b ?v2 ?v3))))) (?v0 ?v1))) :named a290))
-(assert (! (forall ((?v0 (-> Complex_poly$ Bool)) (?v1 Complex_poly$)) (=> (and (?v0 zero$c) (forall ((?v2 Complex$) (?v3 Complex_poly$)) (=> (and (or (not (= ?v2 zero$)) (not (= ?v3 zero$c))) (?v0 ?v3)) (?v0 (pCons$ ?v2 ?v3))))) (?v0 ?v1))) :named a291))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Complex$)) (=> (= (poly$ ?v0 ?v1) zero$) (= (poly$ (pCons$ zero$ ?v0) ?v1) zero$))) :named a292))
-(assert (! (forall ((?v0 Complex_poly_poly$) (?v1 Complex_poly$)) (=> (= (poly$a ?v0 ?v1) zero$c) (= (poly$a (pCons$a zero$c ?v0) ?v1) zero$c))) :named a293))
-(assert (! (forall ((?v0 Nat_poly$) (?v1 Nat$)) (=> (= (poly$b ?v0 ?v1) zero$a) (= (poly$b (pCons$b zero$a ?v0) ?v1) zero$a))) :named a294))
-(assert (! (forall ((?v0 Complex$) (?v1 Nat$)) (=> (not (= ?v0 zero$)) (= (degree$b (monom$ ?v0 ?v1)) ?v1))) :named a295))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Nat$)) (=> (not (= ?v0 zero$c)) (= (degree$ (monom$a ?v0 ?v1)) ?v1))) :named a296))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$)) (=> (not (= ?v0 zero$a)) (= (degree$a (monom$b ?v0 ?v1)) ?v1))) :named a297))
-(assert (! (forall ((?v0 Complex$) (?v1 Nat$) (?v2 Nat$)) (= (coeff$b (monom$ ?v0 ?v1) ?v2) (ite (= ?v1 ?v2) ?v0 zero$))) :named a298))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Nat$) (?v2 Nat$)) (= (coeff$ (monom$a ?v0 ?v1) ?v2) (ite (= ?v1 ?v2) ?v0 zero$c))) :named a299))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$) (?v2 Nat$)) (= (coeff$a (monom$b ?v0 ?v1) ?v2) (ite (= ?v1 ?v2) ?v0 zero$a))) :named a300))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Complex_poly$)) (=> (dvd$ ?v0 ?v1) (dvd$ ?v0 (pCons$ zero$ ?v1)))) :named a301))
-(assert (! (forall ((?v0 Complex_poly_poly$) (?v1 Complex_poly_poly$)) (=> (dvd$c ?v0 ?v1) (dvd$c ?v0 (pCons$a zero$c ?v1)))) :named a302))
-(assert (! (forall ((?v0 Complex$) (?v1 Complex$)) (= (poly$ (pCons$ (poly$ zero$c ?v0) zero$c) ?v1) (poly$ zero$c ?v1))) :named a303))
-(assert (! (forall ((?v0 Complex$) (?v1 Complex$)) (= ?v0 (poly$ (pCons$ ?v0 zero$c) ?v1))) :named a304))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$) (?v2 Nat$)) (= (plus$b (monom$b ?v0 ?v1) (monom$b ?v2 ?v1)) (monom$b (plus$a ?v0 ?v2) ?v1))) :named a305))
-(assert (! (forall ((?v0 Complex$) (?v1 Complex$)) (= (offset_poly$ (pCons$ ?v0 zero$c) ?v1) (pCons$ ?v0 zero$c))) :named a306))
-(assert (! (forall ((?v0 Complex_poly$)) (= (exists ((?v1 Complex_poly$)) (= (poly$a (pCons$a ?v0 zero$b) ?v1) zero$c)) (= ?v0 zero$c))) :named a307))
-(assert (! (forall ((?v0 Nat$)) (= (exists ((?v1 Nat$)) (= (poly$b (pCons$b ?v0 zero$d) ?v1) zero$a)) (= ?v0 zero$a))) :named a308))
-(assert (! (forall ((?v0 Complex$)) (= (exists ((?v1 Complex$)) (= (poly$ (pCons$ ?v0 zero$c) ?v1) zero$)) (= ?v0 zero$))) :named a309))
-(assert (! (forall ((?v0 Complex_poly$)) (= (exists ((?v1 Complex_poly$)) (not (= (poly$a (pCons$a ?v0 zero$b) ?v1) zero$c))) (not (= ?v0 zero$c)))) :named a310))
-(assert (! (forall ((?v0 Nat$)) (= (exists ((?v1 Nat$)) (not (= (poly$b (pCons$b ?v0 zero$d) ?v1) zero$a))) (not (= ?v0 zero$a)))) :named a311))
-(assert (! (forall ((?v0 Complex$)) (= (exists ((?v1 Complex$)) (not (= (poly$ (pCons$ ?v0 zero$c) ?v1) zero$))) (not (= ?v0 zero$)))) :named a312))
-(assert (! (forall ((?v0 Complex$)) (= (poly$ (pCons$ zero$ zero$c) ?v0) (poly$ zero$c ?v0))) :named a313))
-(assert (! (forall ((?v0 Complex_poly$)) (= (poly$a (pCons$a zero$c zero$b) ?v0) (poly$a zero$b ?v0))) :named a314))
-(assert (! (forall ((?v0 Complex$)) (= (degree$b (pCons$ ?v0 zero$c)) zero$a)) :named a315))
-(assert (! (forall ((?v0 Complex_poly$)) (=> (and (= (degree$b ?v0) zero$a) (forall ((?v1 Complex$)) (=> (= ?v0 (pCons$ ?v1 zero$c)) false))) false)) :named a316))
-(assert (! (= (pCons$b one$ zero$d) one$c) :named a317))
-(assert (! (= (pCons$ one$b zero$c) one$a) :named a318))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$)) (= (= (monom$b ?v0 ?v1) one$c) (and (= ?v0 one$) (= ?v1 zero$a)))) :named a319))
-(assert (! (forall ((?v0 Complex$)) (= ?v0 (poly$ (pCons$ zero$ (pCons$ one$b zero$c)) ?v0))) :named a320))
-(assert (! (forall ((?v0 Complex_poly$)) (= ?v0 (poly$a (pCons$a zero$c (pCons$a one$a zero$b)) ?v0))) :named a321))
-(assert (! (forall ((?v0 Complex_poly$)) (=> (not (exists ((?v1 Complex$) (?v2 Complex_poly$)) (and (not (= ?v1 zero$)) (and (= ?v2 zero$c) (= ?v0 (pCons$ ?v1 ?v2)))))) (exists ((?v1 Complex$)) (= (poly$ ?v0 ?v1) zero$)))) :named a322))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Complex$) (?v2 Complex$)) (=> (not (= ?v0 zero$c)) (exists ((?v3 Complex$)) (= (poly$ (pCons$ ?v1 (pCons$ ?v2 ?v0)) ?v3) zero$)))) :named a323))
-(assert (! (forall ((?v0 Complex_poly$) (?v1 Complex_poly_poly$)) (= (dvd$c (pCons$a ?v0 zero$b) ?v1) (forall ((?v2 Nat$)) (dvd$ ?v0 (coeff$ ?v1 ?v2))))) :named a324))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat_poly$)) (= (dvd$d (pCons$b ?v0 zero$d) ?v1) (forall ((?v2 Nat$)) (dvd$b ?v0 (coeff$a ?v1 ?v2))))) :named a325))
-(assert (! (forall ((?v0 Complex$) (?v1 Complex_poly$)) (= (dvd$ (pCons$ ?v0 zero$c) ?v1) (forall ((?v2 Nat$)) (dvd$a ?v0 (coeff$b ?v1 ?v2))))) :named a326))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$)) (= (degree$a (power$b (pCons$b ?v0 (pCons$b one$ zero$d)) ?v1)) ?v1)) :named a327))
-(assert (! (forall ((?v0 Complex$) (?v1 Nat$)) (= (degree$b (power$ (pCons$ ?v0 (pCons$ one$b zero$c)) ?v1)) ?v1)) :named a328))
-(assert (! (forall ((?v0 Complex_poly$)) (= (pcompose$ ?v0 zero$c) (pCons$ (coeff$b ?v0 zero$a) zero$c))) :named a329))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$)) (= (coeff$a (power$b (pCons$b ?v0 (pCons$b one$ zero$d)) ?v1) ?v1) one$)) :named a330))
-(assert (! (forall ((?v0 Complex$) (?v1 Nat$)) (= (coeff$b (power$ (pCons$ ?v0 (pCons$ one$b zero$c)) ?v1) ?v1) one$b)) :named a331))
-(assert (! (forall ((?v0 Complex$) (?v1 Complex_poly$)) (= (dvd$ (pCons$ ?v0 ?v1) one$a) (and (= ?v1 zero$c) (not (= ?v0 zero$))))) :named a332))
-(assert (! (forall ((?v0 Complex$)) (=> (not (= ?v0 zero$)) (dvd$ (pCons$ ?v0 zero$c) one$a))) :named a333))
-(assert (! (forall ((?v0 Complex_poly$)) (=> (and (dvd$ ?v0 one$a) (forall ((?v1 Complex$)) (=> (and (= ?v0 (monom$ ?v1 zero$a)) (not (= ?v1 zero$))) false))) false)) :named a334))
-(assert (! (forall ((?v0 Complex$)) (=> (not (= ?v0 zero$)) (dvd$ (monom$ ?v0 zero$a) one$a))) :named a335))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$) (?v2 Nat$)) (= (= (times$ ?v0 ?v1) (times$ ?v2 ?v1)) (or (= ?v0 ?v2) (= ?v1 zero$a)))) :named a336))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$) (?v2 Nat$)) (= (= (times$ ?v0 ?v1) (times$ ?v0 ?v2)) (or (= ?v1 ?v2) (= ?v0 zero$a)))) :named a337))
-(assert (! (forall ((?v0 Nat$)) (! (= (times$ ?v0 zero$a) zero$a) :pattern ((times$ ?v0)))) :named a338))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$)) (= (= (times$ ?v0 ?v1) zero$a) (or (= ?v0 zero$a) (= ?v1 zero$a)))) :named a339))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$)) (= (= (suc$ ?v0) (suc$ ?v1)) (= ?v0 ?v1))) :named a340))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$)) (= (= (suc$ ?v0) (suc$ ?v1)) (= ?v0 ?v1))) :named a341))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$)) (= (= (times$ ?v0 ?v1) one$) (and (= ?v0 one$) (= ?v1 one$)))) :named a342))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$)) (= (= one$ (times$ ?v0 ?v1)) (and (= ?v0 one$) (= ?v1 one$)))) :named a343))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$)) (= (= (times$ ?v0 ?v1) (suc$ zero$a)) (and (= ?v0 (suc$ zero$a)) (= ?v1 (suc$ zero$a))))) :named a344))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$)) (= (= (suc$ zero$a) (times$ ?v0 ?v1)) (and (= ?v0 (suc$ zero$a)) (= ?v1 (suc$ zero$a))))) :named a345))
-(assert (! (forall ((?v0 Nat$)) (! (= (power$c (suc$ zero$a) ?v0) (suc$ zero$a)) :pattern ((power$c (suc$ zero$a) ?v0)))) :named a346))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$)) (= (= (power$c ?v0 ?v1) (suc$ zero$a)) (or (= ?v1 zero$a) (= ?v0 (suc$ zero$a))))) :named a347))
-(assert (! (forall ((?v0 Nat$)) (less_eq$ zero$a ?v0)) :named a348))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$)) (= (less_eq$ (suc$ ?v0) (suc$ ?v1)) (less_eq$ ?v0 ?v1))) :named a349))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$)) (= (plus$a ?v0 (suc$ ?v1)) (suc$ (plus$a ?v0 ?v1)))) :named a350))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$)) (! (= (times$ ?v0 (suc$ ?v1)) (plus$a ?v0 (times$ ?v0 ?v1))) :pattern ((times$ ?v0 (suc$ ?v1))))) :named a351))
-(assert (! (forall ((?v0 Nat$) (?v1 Nat$) (?v2 Nat$)) (= (less_eq$ (plus$a ?v0 ?v1) (plus$a ?v0 ?v2)) (less_eq$ ?v1 ?v2))) :named a352))
-(check-sat)
diff --git a/test/regress/regress0/ho/ho-exponential-model.smt2 b/test/regress/regress0/ho/ho-exponential-model.smt2
deleted file mode 100644
index 3f0011828..000000000
--- a/test/regress/regress0/ho/ho-exponential-model.smt2
+++ /dev/null
@@ -1,40 +0,0 @@
-; COMMAND-LINE: --uf-ho
-; EXPECT: sat
-(set-logic UFLIA)
-(set-info :status sat)
-(declare-fun f1 (Int Int Int Int) Int)
-(declare-fun f2 (Int Int Int) Int)
-(declare-fun f3 (Int Int) Int)
-(declare-fun f4 (Int) Int)
-(declare-fun f5 (Int Int Int) Int)
-(declare-fun f6 (Int Int) Int)
-(declare-fun f7 (Int) Int)
-
-
-(assert (= (f1 0) (f1 1)))
-(assert (= (f1 1) f2))
-
-(assert (= (f2 0) (f2 1)))
-(assert (= (f2 1) f3))
-
-(assert (= (f3 0) (f3 1)))
-(assert (= (f3 1) f4))
-
-(assert (= (f4 0) (f4 1)))
-(assert (= (f4 1) 2))
-
-
-(assert (= (f1 3) (f1 4)))
-(assert (= (f1 4) f5))
-
-(assert (= (f5 3) (f5 4)))
-(assert (= (f5 4) f6))
-
-(assert (= (f6 3) (f6 4)))
-(assert (= (f6 4) f7))
-
-(assert (= (f7 3) (f7 4)))
-(assert (= (f7 4) 5))
-
-; this benchmark has a concise model representation for f1 if we use curried (tree-like) models for UF
-(check-sat)
diff --git a/test/regress/regress0/ho/ho-matching-enum-2.smt2 b/test/regress/regress0/ho/ho-matching-enum-2.smt2
deleted file mode 100644
index 9581e4c4f..000000000
--- a/test/regress/regress0/ho/ho-matching-enum-2.smt2
+++ /dev/null
@@ -1,18 +0,0 @@
-; COMMAND-LINE: --uf-ho
-; EXPECT: unsat
-(set-logic ALL)
-(set-info :status unsat)
-
-(declare-sort U 0)
-
-(declare-fun p (Int) Bool)
-(declare-fun q (Int) Bool)
-(declare-fun k (Int Int) Int)
-
-(assert (q (k 0 1)))
-(assert (not (p (k 0 0))))
-
-(assert (forall ((f (-> Int Int Int)) (y Int) (z Int)) (or (p (f y z)) (not (q (f z y))))))
-
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/ho/ho-std-fmf.smt2 b/test/regress/regress0/ho/ho-std-fmf.smt2
deleted file mode 100644
index 61d82d00c..000000000
--- a/test/regress/regress0/ho/ho-std-fmf.smt2
+++ /dev/null
@@ -1,18 +0,0 @@
-; COMMAND-LINE: --uf-ho --finite-model-find
-; EXPECT: sat
-(set-logic UF)
-(set-info :status sat)
-(declare-sort U 0)
-(declare-fun P (U U) Bool)
-(declare-fun Q (U U) Bool)
-(declare-fun R (U U) Bool)
-(declare-fun a () U)
-(declare-fun b () U)
-
-; can solve this using standard MBQI model for P = \ xy true
-(assert (forall ((x U) (y U)) (or (P x y) (Q x y))))
-(assert (forall ((x U) (y U)) (or (P x y) (R x y))))
-
-(assert (not (= a b)))
-(assert (= (Q a) (R b)))
-(check-sat)
diff --git a/test/regress/regress0/ho/hoa0102.smt2 b/test/regress/regress0/ho/hoa0102.smt2
deleted file mode 100644
index 6be063783..000000000
--- a/test/regress/regress0/ho/hoa0102.smt2
+++ /dev/null
@@ -1,606 +0,0 @@
-; COMMAND-LINE: --uf-ho --full-saturate-quant
-; EXPECT: unsat
-(set-logic ALL)
-(set-info :status unsat)
-(declare-sort Com$ 0)
-(declare-sort Glb$ 0)
-(declare-sort Loc$ 0)
-(declare-sort Nat$ 0)
-(declare-sort Pname$ 0)
-(declare-sort State$ 0)
-(declare-sort Vname$ 0)
-(declare-sort Com_set$ 0)
-(declare-sort Pname_set$ 0)
-(declare-sort Com_option$ 0)
-(declare-sort Pname_option$ 0)
-(declare-sort State_triple$ 0)
-(declare-sort Com_option_set$ 0)
-(declare-sort Pname_option_set$ 0)
-(declare-sort State_triple_set$ 0)
-(declare-sort Com_option_option$ 0)
-(declare-sort State_triple_option$ 0)
-(declare-sort Com_option_option_set$ 0)
-(declare-sort State_triple_option_set$ 0)
-(declare-sort State_triple_option_option$ 0)
-(declare-sort State_triple_option_option_set$ 0)
-(declare-fun c$ () Com$)
-(declare-fun s$ () State$)
-(declare-fun z$ () State$)
-(declare-fun uu$ (Com_set$ Com$) Bool)
-(declare-fun wt$ (Com$) Bool)
-(declare-fun arg$ () Loc$)
-(declare-fun ass$ (Vname$ (-> State$ Nat$)) Com$)
-(declare-fun bot$ () Pname_set$)
-(declare-fun dom$ ((-> State_triple$ State_triple_option$)) State_triple_set$)
-(declare-fun glb$ (Glb$) Vname$)
-(declare-fun loc$ (Loc$) Vname$)
-(declare-fun mgt$ (Com$) State_triple$)
-(declare-fun ran$ ((-> State_triple$ Com_option$)) Com_set$)
-(declare-fun res$ () Loc$)
-(declare-fun suc$ (Nat$) Nat$)
-(declare-fun sup$ (State_triple_set$ State_triple_set$) State_triple_set$)
-(declare-fun the$ (Com_option$) Com$)
-(declare-fun uua$ (State_triple_set$ State_triple$) Bool)
-(declare-fun uub$ (Pname_set$ Pname$) Bool)
-(declare-fun uuc$ ((-> State$ (-> State$ Bool)) State$ Vname$ State$ State$) Bool)
-(declare-fun uud$ ((-> State$ (-> State$ Bool)) State$ (-> State$ Nat$) State$ State$) Bool)
-(declare-fun uue$ (Com$) Com_option$)
-(declare-fun uuf$ (State_triple$) Bool)
-(declare-fun uug$ (Com$) Bool)
-(declare-fun uuh$ (State_triple$) Bool)
-(declare-fun uui$ (Com$) Bool)
-(declare-fun uuj$ ((-> State$ (-> State$ Bool)) Loc$ State$ State$ State$) Bool)
-(declare-fun uuk$ ((-> State$ (-> State$ Bool)) Loc$ State$ (-> State$ Nat$) State$ State$) Bool)
-(declare-fun uul$ ((-> State$ (-> State$ Bool)) (-> State$ Bool) State$ State$) Bool)
-(declare-fun uum$ (Bool (-> State$ (-> State$ Bool)) State$ State$) Bool)
-(declare-fun uun$ (State$ State$ State$) Bool)
-(declare-fun uuo$ ((-> State$ (-> State$ Bool)) State$ State$) (-> State$ Bool))
-(declare-fun uup$ ((-> State$ (-> State$ Bool)) Vname$ (-> State$ Nat$) State$ State$) Bool)
-(declare-fun uuq$ (State$ State$) Bool)
-(declare-fun uur$ ((-> Pname$ (-> State$ (-> State$ Bool))) (-> Pname$ (-> State$ (-> State$ Bool))) Pname$) State_triple$)
-(declare-fun uus$ ((-> Pname$ (-> State$ (-> State$ Bool))) (-> Pname$ (-> State$ (-> State$ Bool))) Pname$) State_triple$)
-(declare-fun uut$ (Bool) Bool)
-(declare-fun uuu$ ((-> Pname$ (-> State$ (-> State$ Bool))) (-> Pname$ Com$) (-> Pname$ (-> State$ (-> State$ Bool))) Pname$) State_triple$)
-(declare-fun uuv$ ((-> Pname$ Com$) (-> Pname$ (-> State$ (-> State$ Bool))) (-> Pname$ (-> State$ (-> State$ Bool))) Pname$) State_triple$)
-(declare-fun uuw$ (Com$ State$ State$) Bool)
-(declare-fun uux$ (Nat$ (-> State$ (-> State$ Bool)) Com$ (-> State$ (-> State$ Bool))) Bool)
-(declare-fun uuy$ (State_triple$) Com_option$)
-(declare-fun uuz$ (Pname$) Com_option$)
-(declare-fun uva$ (State_triple$) State_triple_option$)
-(declare-fun uvb$ (Com$) State_triple_option$)
-(declare-fun uvc$ (Pname$) State_triple_option$)
-(declare-fun uvd$ (State_triple_option$) State_triple_option$)
-(declare-fun uve$ (State_triple_option$) Com_option$)
-(declare-fun uvf$ (Com_option$) State_triple_option$)
-(declare-fun uvg$ (Com_option$) Com_option$)
-(declare-fun uvh$ ((-> State_triple$ Com_option$) State_triple$) Bool)
-(declare-fun uvi$ ((-> Pname$ State_triple_option$) Pname$) Bool)
-(declare-fun uvj$ ((-> Pname$ Com_option$) Pname$) Bool)
-(declare-fun uvk$ ((-> Com$ Com$) Com$) Com_option$)
-(declare-fun bind$ (State_triple_option$ (-> State_triple$ Com_option$)) Com_option$)
-(declare-fun body$ (Pname$) Com_option$)
-(declare-fun bot$a () State_triple_option_set$)
-(declare-fun bot$b () Com_option_set$)
-(declare-fun bot$c () Com_set$)
-(declare-fun bot$d () State_triple_set$)
-(declare-fun bot$e () Pname_option_set$)
-(declare-fun bot$f () State_triple_option_option_set$)
-(declare-fun bot$g () Com_option_option_set$)
-(declare-fun call$ (Vname$ Pname$ (-> State$ Nat$)) Com$)
-(declare-fun comp$ ((-> Bool Bool) (-> State$ Bool)) (-> State$ Bool))
-(declare-fun cond$ ((-> State$ Bool) Com$ Com$) Com$)
-(declare-fun dom$a ((-> Com$ State_triple_option$)) Com_set$)
-(declare-fun dom$b ((-> Com$ Com_option$)) Com_set$)
-(declare-fun dom$c ((-> Pname$ State_triple_option$)) Pname_set$)
-(declare-fun dom$d ((-> State_triple_option$ State_triple_option$)) State_triple_option_set$)
-(declare-fun dom$e ((-> State_triple_option$ Com_option$)) State_triple_option_set$)
-(declare-fun dom$f ((-> Com_option$ State_triple_option$)) Com_option_set$)
-(declare-fun dom$g ((-> Com_option$ Com_option$)) Com_option_set$)
-(declare-fun dom$h ((-> Pname$ Com_option$)) Pname_set$)
-(declare-fun dom$i ((-> State_triple$ Com_option$)) State_triple_set$)
-(declare-fun none$ () Com_option$)
-(declare-fun plus$ (Nat$ Nat$) Nat$)
-(declare-fun ran$a ((-> Pname$ Com_option$)) Com_set$)
-(declare-fun semi$ (Com$ Com$) Com$)
-(declare-fun size$ (State_triple$) Nat$)
-(declare-fun skip$ () Com$)
-(declare-fun some$ (Com$) Com_option$)
-(declare-fun the$a (State_triple_option$) State_triple$)
-(declare-fun the$b (Pname_option$) Pname$)
-(declare-fun zero$ () Nat$)
-(declare-fun bind$a (Com_option$ (-> Com$ State_triple_option$)) State_triple_option$)
-(declare-fun bind$b (State_triple_option$ (-> State_triple$ State_triple_option$)) State_triple_option$)
-(declare-fun bind$c (Com_option$ (-> Com$ Com_option$)) Com_option$)
-(declare-fun body$a (Pname$) Com$)
-(declare-fun evalc$ (Com$ State$ State$) Bool)
-(declare-fun evaln$ (Com$ State$ Nat$ State$) Bool)
-(declare-fun image$ ((-> Pname$ State_triple$) Pname_set$) State_triple_set$)
-(declare-fun local$ (Loc$ (-> State$ Nat$) Com$) Com$)
-(declare-fun minus$ (Com_set$ Com_set$) Com_set$)
-(declare-fun none$a () State_triple_option$)
-(declare-fun none$b () Pname_option$)
-(declare-fun none$c () State_triple_option_option$)
-(declare-fun none$d () Com_option_option$)
-(declare-fun size$a (State_triple_option$) Nat$)
-(declare-fun size$b (Com_option$) Nat$)
-(declare-fun size$c (Vname$) Nat$)
-(declare-fun size$d (Com$) Nat$)
-(declare-fun some$a (State_triple$) State_triple_option$)
-(declare-fun these$ (Pname_option_set$) Pname_set$)
-(declare-fun while$ ((-> State$ Bool) Com$) Com$)
-(declare-fun finite$ (Pname_set$) Bool)
-(declare-fun insert$ (State_triple$ State_triple_set$) State_triple_set$)
-(declare-fun map_le$ ((-> State_triple$ Com_option$) (-> State_triple$ Com_option$)) Bool)
-(declare-fun member$ (State_triple$ State_triple_set$) Bool)
-(declare-fun minus$a (State_triple_option_set$ State_triple_option_set$) State_triple_option_set$)
-(declare-fun minus$b (Com_option_set$ Com_option_set$) Com_option_set$)
-(declare-fun minus$c (State_triple_set$ State_triple_set$) State_triple_set$)
-(declare-fun minus$d (Pname_set$ Pname_set$) Pname_set$)
-(declare-fun these$a (State_triple_option_option_set$) State_triple_option_set$)
-(declare-fun these$b (Com_option_option_set$) Com_option_set$)
-(declare-fun these$c (Com_option_set$) Com_set$)
-(declare-fun these$d (State_triple_option_set$) State_triple_set$)
-(declare-fun triple$ ((-> State$ (-> State$ Bool)) Com$ (-> State$ (-> State$ Bool))) State_triple$)
-(declare-fun uminus$ (State_triple_set$) State_triple_set$)
-(declare-fun update$ (State$ Vname$ Nat$) State$)
-(declare-fun collect$ ((-> Com$ Bool)) Com_set$)
-(declare-fun fun_upd$ ((-> State_triple$ Com_option$) State_triple$ Com_option$) (-> State_triple$ Com_option$))
-(declare-fun getlocs$ (State$) (-> Loc$ Nat$))
-(declare-fun insert$a (Com$ Com_set$) Com_set$)
-(declare-fun insert$b (Pname$ Pname_set$) Pname_set$)
-(declare-fun insert$c (State_triple_option$ State_triple_option_set$) State_triple_option_set$)
-(declare-fun insert$d (Com_option$ Com_option_set$) Com_option_set$)
-(declare-fun insert$e (Pname_option$ Pname_option_set$) Pname_option_set$)
-(declare-fun insert$f (State_triple_option_option$ State_triple_option_option_set$) State_triple_option_option_set$)
-(declare-fun insert$g (Com_option_option$ Com_option_option_set$) Com_option_option_set$)
-(declare-fun map_le$a ((-> Pname$ Com_option$) (-> Pname$ Com_option$)) Bool)
-(declare-fun member$a (Pname$ Pname_set$) Bool)
-(declare-fun member$b (Com$ Com_set$) Bool)
-(declare-fun member$c (State_triple_option$ State_triple_option_set$) Bool)
-(declare-fun member$d (Com_option$ Com_option_set$) Bool)
-(declare-fun newlocs$ () (-> Loc$ Nat$))
-(declare-fun setlocs$ (State$ (-> Loc$ Nat$)) State$)
-(declare-fun collect$a ((-> State_triple$ Bool)) State_triple_set$)
-(declare-fun collect$b ((-> Pname$ Bool)) Pname_set$)
-(declare-fun fun_upd$a ((-> Pname$ Com_option$) Pname$ Com_option$) (-> Pname$ Com_option$))
-(declare-fun fun_upd$b ((-> State_triple$ State_triple_option$) State_triple$ State_triple_option$) (-> State_triple$ State_triple_option$))
-(declare-fun fun_upd$c ((-> Com$ State_triple_option$) Com$ State_triple_option$) (-> Com$ State_triple_option$))
-(declare-fun fun_upd$d ((-> Com$ Com_option$) Com$ Com_option$) (-> Com$ Com_option$))
-(declare-fun fun_upd$e ((-> Pname$ State_triple_option$) Pname$ State_triple_option$) (-> Pname$ State_triple_option$))
-(declare-fun fun_upd$f ((-> State_triple_option$ State_triple_option$) State_triple_option$ State_triple_option$) (-> State_triple_option$ State_triple_option$))
-(declare-fun fun_upd$g ((-> State_triple_option$ Com_option$) State_triple_option$ Com_option$) (-> State_triple_option$ Com_option$))
-(declare-fun fun_upd$h ((-> Com_option$ State_triple_option$) Com_option$ State_triple_option$) (-> Com_option$ State_triple_option$))
-(declare-fun fun_upd$i ((-> Com_option$ Com_option$) Com_option$ Com_option$) (-> Com_option$ Com_option$))
-(declare-fun peek_and$ ((-> State$ (-> State$ Bool)) (-> State$ Bool)) (-> State$ (-> State$ Bool)))
-(declare-fun size_com$ (Com$) Nat$)
-(declare-fun wT_bodies$ () Bool)
-(declare-fun map_option$ ((-> Com$ Com$) Com_option$) Com_option$)
-(declare-fun set_option$ (Pname_option$) Pname_set$)
-(declare-fun size_vname$ (Vname$) Nat$)
-(declare-fun case_option$ (Bool (-> Com$ Bool) Com_option$) Bool)
-(declare-fun case_triple$ ((-> (-> State$ (-> State$ Bool)) (-> Com$ (-> (-> State$ (-> State$ Bool)) Bool))) State_triple$) Bool)
-(declare-fun map_option$a ((-> State_triple$ Com$) State_triple_option$) Com_option$)
-(declare-fun map_option$b ((-> Com$ State_triple$) Com_option$) State_triple_option$)
-(declare-fun map_option$c ((-> State_triple$ State_triple$) State_triple_option$) State_triple_option$)
-(declare-fun set_option$a (State_triple_option$) State_triple_set$)
-(declare-fun set_option$b (Com_option$) Com_set$)
-(declare-fun set_option$c (State_triple_option_option$) State_triple_option_set$)
-(declare-fun set_option$d (Com_option_option$) Com_option_set$)
-(declare-fun size_option$ ((-> State_triple$ Nat$)) (-> State_triple_option$ Nat$))
-(declare-fun size_triple$ ((-> State$ Nat$) State_triple$) Nat$)
-(declare-fun case_option$a (Bool (-> State_triple$ Bool) State_triple_option$) Bool)
-(declare-fun case_option$b (Com_option$ (-> Com$ Com_option$) Com_option$) Com_option$)
-(declare-fun hoare_derivs$ (State_triple_set$ State_triple_set$) Bool)
-(declare-fun hoare_valids$ (State_triple_set$ State_triple_set$) Bool)
-(declare-fun restrict_map$ ((-> Com$ Com_option$) Com_set$) (-> Com$ Com_option$))
-(declare-fun size_option$a ((-> Com$ Nat$)) (-> Com_option$ Nat$))
-(declare-fun triple_valid$ (Nat$ State_triple$) Bool)
-(declare-fun restrict_map$a ((-> Com$ State_triple_option$) Com_set$) (-> Com$ State_triple_option$))
-(declare-fun restrict_map$b ((-> State_triple_option$ Com_option$) State_triple_option_set$) (-> State_triple_option$ Com_option$))
-(declare-fun restrict_map$c ((-> State_triple_option$ State_triple_option$) State_triple_option_set$) (-> State_triple_option$ State_triple_option$))
-(declare-fun restrict_map$d ((-> Com_option$ Com_option$) Com_option_set$) (-> Com_option$ Com_option$))
-(declare-fun restrict_map$e ((-> Com_option$ State_triple_option$) Com_option_set$) (-> Com_option$ State_triple_option$))
-(declare-fun restrict_map$f ((-> State_triple$ State_triple_option$) State_triple_set$) (-> State_triple$ State_triple_option$))
-(declare-fun restrict_map$g ((-> Pname$ Com_option$) Pname_set$) (-> Pname$ Com_option$))
-(declare-fun restrict_map$h ((-> Pname$ State_triple_option$) Pname_set$) (-> Pname$ State_triple_option$))
-(declare-fun restrict_map$i ((-> State_triple$ Com_option$) State_triple_set$) (-> State_triple$ Com_option$))
-(declare-fun state_not_singleton$ () Bool)
-(assert (! (forall ((?v0 Bool)) (! (= (uut$ ?v0) (not ?v0)) :pattern ((uut$ ?v0)))) :named a0))
-(assert (! (forall ((?v0 State_triple_set$) (?v1 State_triple$)) (! (= (uua$ ?v0 ?v1) (member$ ?v1 ?v0)) :pattern ((uua$ ?v0 ?v1)))) :named a1))
-(assert (! (forall ((?v0 Pname_set$) (?v1 Pname$)) (! (= (uub$ ?v0 ?v1) (member$a ?v1 ?v0)) :pattern ((uub$ ?v0 ?v1)))) :named a2))
-(assert (! (forall ((?v0 Com_set$) (?v1 Com$)) (! (= (uu$ ?v0 ?v1) (member$b ?v1 ?v0)) :pattern ((uu$ ?v0 ?v1)))) :named a3))
-(assert (! (forall ((?v0 State$) (?v1 State$)) (! (= (uuq$ ?v0 ?v1) (= ?v0 ?v1)) :pattern ((uuq$ ?v0 ?v1)))) :named a4))
-(assert (! (forall ((?v0 (-> State_triple$ Com_option$)) (?v1 State_triple$)) (! (= (uvh$ ?v0 ?v1) (not (= (?v0 ?v1) none$))) :pattern ((uvh$ ?v0 ?v1)))) :named a5))
-(assert (! (forall ((?v0 (-> Pname$ State_triple_option$)) (?v1 Pname$)) (! (= (uvi$ ?v0 ?v1) (not (= (?v0 ?v1) none$a))) :pattern ((uvi$ ?v0 ?v1)))) :named a6))
-(assert (! (forall ((?v0 (-> Pname$ Com_option$)) (?v1 Pname$)) (! (= (uvj$ ?v0 ?v1) (not (= (?v0 ?v1) none$))) :pattern ((uvj$ ?v0 ?v1)))) :named a7))
-(assert (! (forall ((?v0 (-> Com$ Com$)) (?v1 Com$)) (! (= (uvk$ ?v0 ?v1) (some$ (?v0 ?v1))) :pattern ((uvk$ ?v0 ?v1)))) :named a8))
-(assert (! (forall ((?v0 (-> Pname$ (-> State$ (-> State$ Bool)))) (?v1 (-> Pname$ (-> State$ (-> State$ Bool)))) (?v2 Pname$)) (! (= (uus$ ?v0 ?v1 ?v2) (triple$ (?v0 ?v2) (the$ (body$ ?v2)) (?v1 ?v2))) :pattern ((uus$ ?v0 ?v1 ?v2)))) :named a9))
-(assert (! (forall ((?v0 (-> Pname$ (-> State$ (-> State$ Bool)))) (?v1 (-> Pname$ (-> State$ (-> State$ Bool)))) (?v2 Pname$)) (! (= (uur$ ?v0 ?v1 ?v2) (triple$ (?v0 ?v2) (body$a ?v2) (?v1 ?v2))) :pattern ((uur$ ?v0 ?v1 ?v2)))) :named a10))
-(assert (! (forall ((?v0 State$) (?v1 State$) (?v2 State$)) (! (= (uun$ ?v0 ?v1 ?v2) (= ?v2 ?v0)) :pattern ((uun$ ?v0 ?v1 ?v2)))) :named a11))
-(assert (! (forall ((?v0 (-> State$ (-> State$ Bool))) (?v1 State$) (?v2 State$)) (! (= (uuo$ ?v0 ?v1 ?v2) (?v0 ?v1)) :pattern ((uuo$ ?v0 ?v1 ?v2)))) :named a12))
-(assert (! (forall ((?v0 Com$) (?v1 State$) (?v2 State$)) (! (= (uuw$ ?v0 ?v1 ?v2) (forall ((?v3 State$)) (=> (evalc$ ?v0 ?v2 ?v3) (= ?v1 ?v3)))) :pattern ((uuw$ ?v0 ?v1 ?v2)))) :named a13))
-(assert (! (forall ((?v0 (-> Pname$ (-> State$ (-> State$ Bool)))) (?v1 (-> Pname$ Com$)) (?v2 (-> Pname$ (-> State$ (-> State$ Bool)))) (?v3 Pname$)) (! (= (uuu$ ?v0 ?v1 ?v2 ?v3) (triple$ (?v0 ?v3) (?v1 ?v3) (?v2 ?v3))) :pattern ((uuu$ ?v0 ?v1 ?v2 ?v3)))) :named a14))
-(assert (! (forall ((?v0 (-> Pname$ Com$)) (?v1 (-> Pname$ (-> State$ (-> State$ Bool)))) (?v2 (-> Pname$ (-> State$ (-> State$ Bool)))) (?v3 Pname$)) (! (= (uuv$ ?v0 ?v1 ?v2 ?v3) (triple$ (?v1 ?v3) (?v0 ?v3) (?v2 ?v3))) :pattern ((uuv$ ?v0 ?v1 ?v2 ?v3)))) :named a15))
-(assert (! (forall ((?v0 (-> State$ (-> State$ Bool))) (?v1 (-> State$ Bool)) (?v2 State$) (?v3 State$)) (! (= (uul$ ?v0 ?v1 ?v2 ?v3) (and (?v0 ?v2 ?v3) (not (?v1 ?v3)))) :pattern ((uul$ ?v0 ?v1 ?v2 ?v3)))) :named a16))
-(assert (! (forall ((?v0 Bool) (?v1 (-> State$ (-> State$ Bool))) (?v2 State$) (?v3 State$)) (! (= (uum$ ?v0 ?v1 ?v2 ?v3) (and (?v1 ?v2 ?v3) ?v0)) :pattern ((uum$ ?v0 ?v1 ?v2 ?v3)))) :named a17))
-(assert (! (forall ((?v0 Nat$) (?v1 (-> State$ (-> State$ Bool))) (?v2 Com$) (?v3 (-> State$ (-> State$ Bool)))) (! (= (uux$ ?v0 ?v1 ?v2 ?v3) (forall ((?v4 State$) (?v5 State$)) (=> (?v1 ?v4 ?v5) (forall ((?v6 State$)) (=> (evaln$ ?v2 ?v5 ?v0 ?v6) (?v3 ?v4 ?v6)))))) :pattern ((uux$ ?v0 ?v1 ?v2 ?v3)))) :named a18))
-(assert (! (forall ((?v0 (-> State$ (-> State$ Bool))) (?v1 State$) (?v2 Vname$) (?v3 State$) (?v4 State$)) (! (= (uuc$ ?v0 ?v1 ?v2 ?v3 ?v4) (?v0 ?v3 (update$ (setlocs$ ?v4 (getlocs$ ?v1)) ?v2 (getlocs$ ?v4 res$)))) :pattern ((uuc$ ?v0 ?v1 ?v2 ?v3 ?v4)))) :named a19))
-(assert (! (forall ((?v0 (-> State$ (-> State$ Bool))) (?v1 Loc$) (?v2 State$) (?v3 State$) (?v4 State$)) (! (= (uuj$ ?v0 ?v1 ?v2 ?v3 ?v4) (?v0 ?v3 (update$ ?v4 (loc$ ?v1) (getlocs$ ?v2 ?v1)))) :pattern ((uuj$ ?v0 ?v1 ?v2 ?v3 ?v4)))) :named a20))
-(assert (! (forall ((?v0 (-> State$ (-> State$ Bool))) (?v1 Vname$) (?v2 (-> State$ Nat$)) (?v3 State$) (?v4 State$)) (! (= (uup$ ?v0 ?v1 ?v2 ?v3 ?v4) (?v0 ?v3 (update$ ?v4 ?v1 (?v2 ?v4)))) :pattern ((uup$ ?v0 ?v1 ?v2 ?v3 ?v4)))) :named a21))
-(assert (! (forall ((?v0 (-> State$ (-> State$ Bool))) (?v1 State$) (?v2 (-> State$ Nat$)) (?v3 State$) (?v4 State$)) (! (= (uud$ ?v0 ?v1 ?v2 ?v3 ?v4) (and (= ?v1 ?v4) (?v0 ?v3 (update$ (setlocs$ ?v4 newlocs$) (loc$ arg$) (?v2 ?v4))))) :pattern ((uud$ ?v0 ?v1 ?v2 ?v3 ?v4)))) :named a22))
-(assert (! (forall ((?v0 (-> State$ (-> State$ Bool))) (?v1 Loc$) (?v2 State$) (?v3 (-> State$ Nat$)) (?v4 State$) (?v5 State$)) (! (= (uuk$ ?v0 ?v1 ?v2 ?v3 ?v4 ?v5) (and (= ?v2 ?v5) (?v0 ?v4 (update$ ?v5 (loc$ ?v1) (?v3 ?v5))))) :pattern ((uuk$ ?v0 ?v1 ?v2 ?v3 ?v4 ?v5)))) :named a23))
-(assert (! (forall ((?v0 State_triple$)) (! (= (uva$ ?v0) none$a) :pattern ((uva$ ?v0)))) :named a24))
-(assert (! (forall ((?v0 State_triple$)) (! (= (uuy$ ?v0) none$) :pattern ((uuy$ ?v0)))) :named a25))
-(assert (! (forall ((?v0 State_triple_option$)) (! (= (uvd$ ?v0) none$a) :pattern ((uvd$ ?v0)))) :named a26))
-(assert (! (forall ((?v0 State_triple_option$)) (! (= (uve$ ?v0) none$) :pattern ((uve$ ?v0)))) :named a27))
-(assert (! (forall ((?v0 Com_option$)) (! (= (uvf$ ?v0) none$a) :pattern ((uvf$ ?v0)))) :named a28))
-(assert (! (forall ((?v0 Com_option$)) (! (= (uvg$ ?v0) none$) :pattern ((uvg$ ?v0)))) :named a29))
-(assert (! (forall ((?v0 Pname$)) (! (= (uvc$ ?v0) none$a) :pattern ((uvc$ ?v0)))) :named a30))
-(assert (! (forall ((?v0 Pname$)) (! (= (uuz$ ?v0) none$) :pattern ((uuz$ ?v0)))) :named a31))
-(assert (! (forall ((?v0 Com$)) (! (= (uvb$ ?v0) none$a) :pattern ((uvb$ ?v0)))) :named a32))
-(assert (! (forall ((?v0 Com$)) (! (= (uue$ ?v0) none$) :pattern ((uue$ ?v0)))) :named a33))
-(assert (! (forall ((?v0 State_triple$)) (! (= (uuh$ ?v0) false) :pattern ((uuh$ ?v0)))) :named a34))
-(assert (! (forall ((?v0 Com$)) (! (= (uui$ ?v0) false) :pattern ((uui$ ?v0)))) :named a35))
-(assert (! (forall ((?v0 State_triple$)) (! (= (uuf$ ?v0) true) :pattern ((uuf$ ?v0)))) :named a36))
-(assert (! (forall ((?v0 Com$)) (! (= (uug$ ?v0) true) :pattern ((uug$ ?v0)))) :named a37))
-(assert (! (not false) :named a38))
-(assert (! (forall ((?v0 State$)) (= ?v0 s$)) :named a39))
-(assert (! (forall ((?v0 State$)) (not (evalc$ c$ z$ ?v0))) :named a40))
-(assert (! (forall ((?v0 State$)) (=> (forall ((?v1 State$)) (= ?v1 ?v0)) false)) :named a41))
-(assert (! (forall ((?v0 Com$) (?v1 State$) (?v2 State$) (?v3 State$)) (=> (and (evalc$ ?v0 ?v1 ?v2) (evalc$ ?v0 ?v1 ?v3)) (= ?v3 ?v2))) :named a42))
-(assert (! (=> state_not_singleton$ (forall ((?v0 State$)) (=> (forall ((?v1 State$)) (= ?v1 ?v0)) false))) :named a43))
-(assert (! (= state_not_singleton$ (exists ((?v0 State$) (?v1 State$)) (not (= ?v0 ?v1)))) :named a44))
-(assert (! (forall ((?v0 State$) (?v1 State$)) (=> (and (evalc$ skip$ ?v0 ?v1) (=> (= ?v1 ?v0) false)) false)) :named a45))
-(assert (! (forall ((?v0 State$)) (evalc$ skip$ ?v0 ?v0)) :named a46))
-(assert (! (forall ((?v0 Com$) (?v1 Com$) (?v2 State$) (?v3 State$)) (=> (and (evalc$ (semi$ ?v0 ?v1) ?v2 ?v3) (forall ((?v4 State$)) (=> (and (evalc$ ?v0 ?v2 ?v4) (evalc$ ?v1 ?v4 ?v3)) false))) false)) :named a47))
-(assert (! (forall ((?v0 Com$) (?v1 State$) (?v2 State$) (?v3 Com$) (?v4 State$)) (=> (and (evalc$ ?v0 ?v1 ?v2) (evalc$ ?v3 ?v2 ?v4)) (evalc$ (semi$ ?v0 ?v3) ?v1 ?v4))) :named a48))
-(assert (! (forall ((?v0 (-> State$ Bool)) (?v1 Com$) (?v2 Com$) (?v3 State$) (?v4 State$)) (=> (and (evalc$ (cond$ ?v0 ?v1 ?v2) ?v3 ?v4) (and (=> (and (?v0 ?v3) (evalc$ ?v1 ?v3 ?v4)) false) (=> (and (not (?v0 ?v3)) (evalc$ ?v2 ?v3 ?v4)) false))) false)) :named a49))
-(assert (! (forall ((?v0 (-> State$ Bool)) (?v1 State$) (?v2 Com$) (?v3 State$) (?v4 Com$)) (=> (and (?v0 ?v1) (evalc$ ?v2 ?v1 ?v3)) (evalc$ (cond$ ?v0 ?v2 ?v4) ?v1 ?v3))) :named a50))
-(assert (! (forall ((?v0 (-> State$ Bool)) (?v1 State$) (?v2 Com$) (?v3 State$) (?v4 Com$)) (=> (and (not (?v0 ?v1)) (evalc$ ?v2 ?v1 ?v3)) (evalc$ (cond$ ?v0 ?v4 ?v2) ?v1 ?v3))) :named a51))
-(assert (! (forall ((?v0 (-> State$ Bool)) (?v1 State$) (?v2 Com$) (?v3 State$) (?v4 State$)) (=> (and (?v0 ?v1) (and (evalc$ ?v2 ?v1 ?v3) (evalc$ (while$ ?v0 ?v2) ?v3 ?v4))) (evalc$ (while$ ?v0 ?v2) ?v1 ?v4))) :named a52))
-(assert (! (forall ((?v0 (-> State$ Bool)) (?v1 State$) (?v2 Com$)) (=> (not (?v0 ?v1)) (evalc$ (while$ ?v0 ?v2) ?v1 ?v1))) :named a53))
-(assert (! (forall ((?v0 (-> State$ Bool)) (?v1 Com$) (?v2 State$) (?v3 State$)) (=> (and (evalc$ (while$ ?v0 ?v1) ?v2 ?v3) (and (=> (and (= ?v3 ?v2) (not (?v0 ?v2))) false) (forall ((?v4 State$)) (=> (and (?v0 ?v2) (and (evalc$ ?v1 ?v2 ?v4) (evalc$ (while$ ?v0 ?v1) ?v4 ?v3))) false)))) false)) :named a54))
-(assert (! (forall ((?v0 Com$) (?v1 Com$) (?v2 Com$) (?v3 Com$)) (= (= (semi$ ?v0 ?v1) (semi$ ?v2 ?v3)) (and (= ?v0 ?v2) (= ?v1 ?v3)))) :named a55))
-(assert (! (forall ((?v0 (-> State$ Bool)) (?v1 Com$) (?v2 Com$) (?v3 (-> State$ Bool)) (?v4 Com$) (?v5 Com$)) (= (= (cond$ ?v0 ?v1 ?v2) (cond$ ?v3 ?v4 ?v5)) (and (= ?v0 ?v3) (and (= ?v1 ?v4) (= ?v2 ?v5))))) :named a56))
-(assert (! (forall ((?v0 (-> State$ Bool)) (?v1 Com$) (?v2 (-> State$ Bool)) (?v3 Com$)) (= (= (while$ ?v0 ?v1) (while$ ?v2 ?v3)) (and (= ?v0 ?v2) (= ?v1 ?v3)))) :named a57))
-(assert (! (forall ((?v0 Com$) (?v1 Com$)) (not (= skip$ (semi$ ?v0 ?v1)))) :named a58))
-(assert (! (forall ((?v0 (-> State$ Bool)) (?v1 Com$) (?v2 Com$)) (not (= skip$ (cond$ ?v0 ?v1 ?v2)))) :named a59))
-(assert (! (forall ((?v0 Com$) (?v1 Com$) (?v2 (-> State$ Bool)) (?v3 Com$) (?v4 Com$)) (not (= (semi$ ?v0 ?v1) (cond$ ?v2 ?v3 ?v4)))) :named a60))
-(assert (! (forall ((?v0 (-> State$ Bool)) (?v1 Com$)) (not (= skip$ (while$ ?v0 ?v1)))) :named a61))
-(assert (! (forall ((?v0 Com$) (?v1 Com$) (?v2 (-> State$ Bool)) (?v3 Com$)) (not (= (semi$ ?v0 ?v1) (while$ ?v2 ?v3)))) :named a62))
-(assert (! (forall ((?v0 (-> State$ Bool)) (?v1 Com$) (?v2 Com$) (?v3 (-> State$ Bool)) (?v4 Com$)) (not (= (cond$ ?v0 ?v1 ?v2) (while$ ?v3 ?v4)))) :named a63))
-(assert (! (forall ((?v0 State$) (?v1 Nat$) (?v2 State$)) (=> (and (evaln$ skip$ ?v0 ?v1 ?v2) (=> (= ?v2 ?v0) false)) false)) :named a64))
-(assert (! (forall ((?v0 State$) (?v1 Nat$)) (evaln$ skip$ ?v0 ?v1 ?v0)) :named a65))
-(assert (! (forall ((?v0 Com$) (?v1 State$) (?v2 Nat$) (?v3 State$) (?v4 Com$) (?v5 State$) (?v6 Nat$) (?v7 State$)) (=> (and (evaln$ ?v0 ?v1 ?v2 ?v3) (evaln$ ?v4 ?v5 ?v6 ?v7)) (exists ((?v8 Nat$)) (and (evaln$ ?v0 ?v1 ?v8 ?v3) (evaln$ ?v4 ?v5 ?v8 ?v7))))) :named a66))
-(assert (! (forall ((?v0 Com$) (?v1 State$) (?v2 State$)) (= (evalc$ ?v0 ?v1 ?v2) (exists ((?v3 Nat$)) (evaln$ ?v0 ?v1 ?v3 ?v2)))) :named a67))
-(assert (! (forall ((?v0 Com$) (?v1 State$) (?v2 State$)) (=> (evalc$ ?v0 ?v1 ?v2) (exists ((?v3 Nat$)) (evaln$ ?v0 ?v1 ?v3 ?v2)))) :named a68))
-(assert (! (forall ((?v0 Com$) (?v1 State$) (?v2 Nat$) (?v3 State$)) (=> (evaln$ ?v0 ?v1 ?v2 ?v3) (evalc$ ?v0 ?v1 ?v3))) :named a69))
-(assert (! (forall ((?v0 (-> State$ Bool)) (?v1 Com$) (?v2 State$) (?v3 Nat$) (?v4 State$)) (=> (and (evaln$ (while$ ?v0 ?v1) ?v2 ?v3 ?v4) (and (=> (and (= ?v4 ?v2) (not (?v0 ?v2))) false) (forall ((?v5 State$)) (=> (and (?v0 ?v2) (and (evaln$ ?v1 ?v2 ?v3 ?v5) (evaln$ (while$ ?v0 ?v1) ?v5 ?v3 ?v4))) false)))) false)) :named a70))
-(assert (! (forall ((?v0 (-> State$ Bool)) (?v1 State$) (?v2 Com$) (?v3 Nat$)) (=> (not (?v0 ?v1)) (evaln$ (while$ ?v0 ?v2) ?v1 ?v3 ?v1))) :named a71))
-(assert (! (forall ((?v0 (-> State$ Bool)) (?v1 State$) (?v2 Com$) (?v3 Nat$) (?v4 State$) (?v5 State$)) (=> (and (?v0 ?v1) (and (evaln$ ?v2 ?v1 ?v3 ?v4) (evaln$ (while$ ?v0 ?v2) ?v4 ?v3 ?v5))) (evaln$ (while$ ?v0 ?v2) ?v1 ?v3 ?v5))) :named a72))
-(assert (! (forall ((?v0 (-> State$ Bool)) (?v1 State$) (?v2 Com$) (?v3 Nat$) (?v4 State$) (?v5 Com$)) (=> (and (not (?v0 ?v1)) (evaln$ ?v2 ?v1 ?v3 ?v4)) (evaln$ (cond$ ?v0 ?v5 ?v2) ?v1 ?v3 ?v4))) :named a73))
-(assert (! (forall ((?v0 (-> State$ Bool)) (?v1 State$) (?v2 Com$) (?v3 Nat$) (?v4 State$) (?v5 Com$)) (=> (and (?v0 ?v1) (evaln$ ?v2 ?v1 ?v3 ?v4)) (evaln$ (cond$ ?v0 ?v2 ?v5) ?v1 ?v3 ?v4))) :named a74))
-(assert (! (forall ((?v0 (-> State$ Bool)) (?v1 Com$) (?v2 Com$) (?v3 State$) (?v4 Nat$) (?v5 State$)) (=> (and (evaln$ (cond$ ?v0 ?v1 ?v2) ?v3 ?v4 ?v5) (and (=> (and (?v0 ?v3) (evaln$ ?v1 ?v3 ?v4 ?v5)) false) (=> (and (not (?v0 ?v3)) (evaln$ ?v2 ?v3 ?v4 ?v5)) false))) false)) :named a75))
-(assert (! (forall ((?v0 Com$) (?v1 State$) (?v2 Nat$) (?v3 State$) (?v4 Com$) (?v5 State$)) (=> (and (evaln$ ?v0 ?v1 ?v2 ?v3) (evaln$ ?v4 ?v3 ?v2 ?v5)) (evaln$ (semi$ ?v0 ?v4) ?v1 ?v2 ?v5))) :named a76))
-(assert (! (forall ((?v0 Com$) (?v1 Com$) (?v2 State$) (?v3 Nat$) (?v4 State$)) (=> (and (evaln$ (semi$ ?v0 ?v1) ?v2 ?v3 ?v4) (forall ((?v5 State$)) (=> (and (evaln$ ?v0 ?v2 ?v3 ?v5) (evaln$ ?v1 ?v5 ?v3 ?v4)) false))) false)) :named a77))
-(assert (! (forall ((?v0 Vname$) (?v1 (-> State$ Nat$))) (not (= skip$ (ass$ ?v0 ?v1)))) :named a78))
-(assert (! (forall ((?v0 Com$) (?v1 (-> Com$ Bool))) (= (member$b ?v0 (collect$ ?v1)) (?v1 ?v0))) :named a79))
-(assert (! (forall ((?v0 State_triple$) (?v1 (-> State_triple$ Bool))) (= (member$ ?v0 (collect$a ?v1)) (?v1 ?v0))) :named a80))
-(assert (! (forall ((?v0 Pname$) (?v1 (-> Pname$ Bool))) (= (member$a ?v0 (collect$b ?v1)) (?v1 ?v0))) :named a81))
-(assert (! (forall ((?v0 Com_set$)) (= (collect$ (uu$ ?v0)) ?v0)) :named a82))
-(assert (! (forall ((?v0 State_triple_set$)) (= (collect$a (uua$ ?v0)) ?v0)) :named a83))
-(assert (! (forall ((?v0 Pname_set$)) (= (collect$b (uub$ ?v0)) ?v0)) :named a84))
-(assert (! (forall ((?v0 (-> Pname$ Bool)) (?v1 (-> Pname$ Bool))) (=> (forall ((?v2 Pname$)) (= (?v0 ?v2) (?v1 ?v2))) (= (collect$b ?v0) (collect$b ?v1)))) :named a85))
-(assert (! (forall ((?v0 Loc$) (?v1 (-> State$ Nat$)) (?v2 Com$)) (not (= skip$ (local$ ?v0 ?v1 ?v2)))) :named a86))
-(assert (! (forall ((?v0 Vname$) (?v1 (-> State$ Nat$)) (?v2 Vname$) (?v3 (-> State$ Nat$))) (= (= (ass$ ?v0 ?v1) (ass$ ?v2 ?v3)) (and (= ?v0 ?v2) (= ?v1 ?v3)))) :named a87))
-(assert (! (forall ((?v0 Loc$) (?v1 (-> State$ Nat$)) (?v2 Com$) (?v3 Loc$) (?v4 (-> State$ Nat$)) (?v5 Com$)) (= (= (local$ ?v0 ?v1 ?v2) (local$ ?v3 ?v4 ?v5)) (and (= ?v0 ?v3) (and (= ?v1 ?v4) (= ?v2 ?v5))))) :named a88))
-(assert (! (forall ((?v0 Vname$) (?v1 (-> State$ Nat$)) (?v2 Loc$) (?v3 (-> State$ Nat$)) (?v4 Com$)) (not (= (ass$ ?v0 ?v1) (local$ ?v2 ?v3 ?v4)))) :named a89))
-(assert (! (forall ((?v0 Loc$) (?v1 (-> State$ Nat$)) (?v2 Com$) (?v3 (-> State$ Bool)) (?v4 Com$)) (not (= (local$ ?v0 ?v1 ?v2) (while$ ?v3 ?v4)))) :named a90))
-(assert (! (forall ((?v0 Vname$) (?v1 (-> State$ Nat$)) (?v2 (-> State$ Bool)) (?v3 Com$)) (not (= (ass$ ?v0 ?v1) (while$ ?v2 ?v3)))) :named a91))
-(assert (! (forall ((?v0 Loc$) (?v1 (-> State$ Nat$)) (?v2 Com$) (?v3 (-> State$ Bool)) (?v4 Com$) (?v5 Com$)) (not (= (local$ ?v0 ?v1 ?v2) (cond$ ?v3 ?v4 ?v5)))) :named a92))
-(assert (! (forall ((?v0 Vname$) (?v1 (-> State$ Nat$)) (?v2 (-> State$ Bool)) (?v3 Com$) (?v4 Com$)) (not (= (ass$ ?v0 ?v1) (cond$ ?v2 ?v3 ?v4)))) :named a93))
-(assert (! (forall ((?v0 Loc$) (?v1 (-> State$ Nat$)) (?v2 Com$) (?v3 Com$) (?v4 Com$)) (not (= (local$ ?v0 ?v1 ?v2) (semi$ ?v3 ?v4)))) :named a94))
-(assert (! (forall ((?v0 Vname$) (?v1 (-> State$ Nat$)) (?v2 Com$) (?v3 Com$)) (not (= (ass$ ?v0 ?v1) (semi$ ?v2 ?v3)))) :named a95))
-(assert (! (forall ((?v0 Com$)) (=> (and (=> (= ?v0 skip$) false) (and (forall ((?v1 Vname$) (?v2 (-> State$ Nat$))) (=> (= ?v0 (ass$ ?v1 ?v2)) false)) (and (forall ((?v1 Loc$) (?v2 (-> State$ Nat$)) (?v3 Com$)) (=> (= ?v0 (local$ ?v1 ?v2 ?v3)) false)) (and (forall ((?v1 Com$) (?v2 Com$)) (=> (= ?v0 (semi$ ?v1 ?v2)) false)) (and (forall ((?v1 (-> State$ Bool)) (?v2 Com$) (?v3 Com$)) (=> (= ?v0 (cond$ ?v1 ?v2 ?v3)) false)) (and (forall ((?v1 (-> State$ Bool)) (?v2 Com$)) (=> (= ?v0 (while$ ?v1 ?v2)) false)) (and (forall ((?v1 Pname$)) (=> (= ?v0 (body$a ?v1)) false)) (forall ((?v1 Vname$) (?v2 Pname$) (?v3 (-> State$ Nat$))) (=> (= ?v0 (call$ ?v1 ?v2 ?v3)) false))))))))) false)) :named a96))
-(assert (! (forall ((?v0 Vname$) (?v1 (-> State$ Nat$)) (?v2 State$)) (evalc$ (ass$ ?v0 ?v1) ?v2 (update$ ?v2 ?v0 (?v1 ?v2)))) :named a97))
-(assert (! (forall ((?v0 Vname$) (?v1 (-> State$ Nat$)) (?v2 State$) (?v3 State$)) (=> (and (evalc$ (ass$ ?v0 ?v1) ?v2 ?v3) (=> (= ?v3 (update$ ?v2 ?v0 (?v1 ?v2))) false)) false)) :named a98))
-(assert (! (forall ((?v0 Vname$) (?v1 (-> State$ Nat$)) (?v2 State$) (?v3 Nat$)) (evaln$ (ass$ ?v0 ?v1) ?v2 ?v3 (update$ ?v2 ?v0 (?v1 ?v2)))) :named a99))
-(assert (! (forall ((?v0 Vname$) (?v1 (-> State$ Nat$)) (?v2 State$) (?v3 Nat$) (?v4 State$)) (=> (and (evaln$ (ass$ ?v0 ?v1) ?v2 ?v3 ?v4) (=> (= ?v4 (update$ ?v2 ?v0 (?v1 ?v2))) false)) false)) :named a100))
-(assert (! (forall ((?v0 Vname$) (?v1 Pname$) (?v2 (-> State$ Nat$))) (not (= skip$ (call$ ?v0 ?v1 ?v2)))) :named a101))
-(assert (! (forall ((?v0 Pname$) (?v1 Pname$)) (= (= (body$a ?v0) (body$a ?v1)) (= ?v0 ?v1))) :named a102))
-(assert (! (forall ((?v0 Vname$) (?v1 Pname$) (?v2 (-> State$ Nat$)) (?v3 Vname$) (?v4 Pname$) (?v5 (-> State$ Nat$))) (= (= (call$ ?v0 ?v1 ?v2) (call$ ?v3 ?v4 ?v5)) (and (= ?v0 ?v3) (and (= ?v1 ?v4) (= ?v2 ?v5))))) :named a103))
-(assert (! (forall ((?v0 Pname$) (?v1 Vname$) (?v2 Pname$) (?v3 (-> State$ Nat$))) (not (= (body$a ?v0) (call$ ?v1 ?v2 ?v3)))) :named a104))
-(assert (! (forall ((?v0 (-> State$ Bool)) (?v1 Com$) (?v2 Pname$)) (not (= (while$ ?v0 ?v1) (body$a ?v2)))) :named a105))
-(assert (! (forall ((?v0 (-> State$ Bool)) (?v1 Com$) (?v2 Com$) (?v3 Pname$)) (not (= (cond$ ?v0 ?v1 ?v2) (body$a ?v3)))) :named a106))
-(assert (! (forall ((?v0 Com$) (?v1 Com$) (?v2 Pname$)) (not (= (semi$ ?v0 ?v1) (body$a ?v2)))) :named a107))
-(assert (! (forall ((?v0 Loc$) (?v1 (-> State$ Nat$)) (?v2 Com$) (?v3 Pname$)) (not (= (local$ ?v0 ?v1 ?v2) (body$a ?v3)))) :named a108))
-(assert (! (forall ((?v0 Vname$) (?v1 (-> State$ Nat$)) (?v2 Pname$)) (not (= (ass$ ?v0 ?v1) (body$a ?v2)))) :named a109))
-(assert (! (forall ((?v0 Pname$)) (not (= skip$ (body$a ?v0)))) :named a110))
-(assert (! (forall ((?v0 (-> State$ Bool)) (?v1 Com$) (?v2 Vname$) (?v3 Pname$) (?v4 (-> State$ Nat$))) (not (= (while$ ?v0 ?v1) (call$ ?v2 ?v3 ?v4)))) :named a111))
-(assert (! (forall ((?v0 (-> State$ Bool)) (?v1 Com$) (?v2 Com$) (?v3 Vname$) (?v4 Pname$) (?v5 (-> State$ Nat$))) (not (= (cond$ ?v0 ?v1 ?v2) (call$ ?v3 ?v4 ?v5)))) :named a112))
-(assert (! (forall ((?v0 Com$) (?v1 Com$) (?v2 Vname$) (?v3 Pname$) (?v4 (-> State$ Nat$))) (not (= (semi$ ?v0 ?v1) (call$ ?v2 ?v3 ?v4)))) :named a113))
-(assert (! (forall ((?v0 Loc$) (?v1 (-> State$ Nat$)) (?v2 Com$) (?v3 Vname$) (?v4 Pname$) (?v5 (-> State$ Nat$))) (not (= (local$ ?v0 ?v1 ?v2) (call$ ?v3 ?v4 ?v5)))) :named a114))
-(assert (! (forall ((?v0 Vname$) (?v1 (-> State$ Nat$)) (?v2 Vname$) (?v3 Pname$) (?v4 (-> State$ Nat$))) (not (= (ass$ ?v0 ?v1) (call$ ?v2 ?v3 ?v4)))) :named a115))
-(assert (! (forall ((?v0 Com$)) (= (wt$ ?v0) (or (= ?v0 skip$) (or (exists ((?v1 Vname$) (?v2 (-> State$ Nat$))) (= ?v0 (ass$ ?v1 ?v2))) (or (exists ((?v1 Com$) (?v2 Loc$) (?v3 (-> State$ Nat$))) (and (= ?v0 (local$ ?v2 ?v3 ?v1)) (wt$ ?v1))) (or (exists ((?v1 Com$) (?v2 Com$)) (and (= ?v0 (semi$ ?v1 ?v2)) (and (wt$ ?v1) (wt$ ?v2)))) (or (exists ((?v1 Com$) (?v2 Com$) (?v3 (-> State$ Bool))) (and (= ?v0 (cond$ ?v3 ?v1 ?v2)) (and (wt$ ?v1) (wt$ ?v2)))) (or (exists ((?v1 Com$) (?v2 (-> State$ Bool))) (and (= ?v0 (while$ ?v2 ?v1)) (wt$ ?v1))) (or (exists ((?v1 Pname$)) (and (= ?v0 (body$a ?v1)) (not (= (body$ ?v1) none$)))) (exists ((?v1 Pname$) (?v2 Vname$) (?v3 (-> State$ Nat$))) (and (= ?v0 (call$ ?v2 ?v1 ?v3)) (wt$ (body$a ?v1))))))))))))) :named a116))
-(assert (! (forall ((?v0 Com$)) (=> (and (wt$ ?v0) (and (=> (= ?v0 skip$) false) (and (forall ((?v1 Vname$) (?v2 (-> State$ Nat$))) (=> (= ?v0 (ass$ ?v1 ?v2)) false)) (and (forall ((?v1 Com$) (?v2 Loc$) (?v3 (-> State$ Nat$))) (=> (and (= ?v0 (local$ ?v2 ?v3 ?v1)) (wt$ ?v1)) false)) (and (forall ((?v1 Com$) (?v2 Com$)) (=> (and (= ?v0 (semi$ ?v1 ?v2)) (and (wt$ ?v1) (wt$ ?v2))) false)) (and (forall ((?v1 Com$) (?v2 Com$) (?v3 (-> State$ Bool))) (=> (and (= ?v0 (cond$ ?v3 ?v1 ?v2)) (and (wt$ ?v1) (wt$ ?v2))) false)) (and (forall ((?v1 Com$) (?v2 (-> State$ Bool))) (=> (and (= ?v0 (while$ ?v2 ?v1)) (wt$ ?v1)) false)) (and (forall ((?v1 Pname$)) (=> (and (= ?v0 (body$a ?v1)) (not (= (body$ ?v1) none$))) false)) (forall ((?v1 Pname$) (?v2 Vname$) (?v3 (-> State$ Nat$))) (=> (and (= ?v0 (call$ ?v2 ?v1 ?v3)) (wt$ (body$a ?v1))) false)))))))))) false)) :named a117))
-(assert (! (forall ((?v0 Vname$) (?v1 Pname$) (?v2 (-> State$ Nat$))) (=> (and (wt$ (call$ ?v0 ?v1 ?v2)) (=> (wt$ (body$a ?v1)) false)) false)) :named a118))
-(assert (! (forall ((?v0 Pname$) (?v1 Vname$) (?v2 (-> State$ Nat$))) (=> (wt$ (body$a ?v0)) (wt$ (call$ ?v1 ?v0 ?v2)))) :named a119))
-(assert (! (forall ((?v0 Loc$) (?v1 (-> State$ Nat$)) (?v2 Com$) (?v3 State$) (?v4 State$)) (=> (and (evalc$ (local$ ?v0 ?v1 ?v2) ?v3 ?v4) (forall ((?v5 State$)) (=> (and (= ?v4 (update$ ?v5 (loc$ ?v0) (getlocs$ ?v3 ?v0))) (evalc$ ?v2 (update$ ?v3 (loc$ ?v0) (?v1 ?v3)) ?v5)) false))) false)) :named a120))
-(assert (! (forall ((?v0 Com$) (?v1 State$) (?v2 Loc$) (?v3 (-> State$ Nat$)) (?v4 State$)) (=> (evalc$ ?v0 (update$ ?v1 (loc$ ?v2) (?v3 ?v1)) ?v4) (evalc$ (local$ ?v2 ?v3 ?v0) ?v1 (update$ ?v4 (loc$ ?v2) (getlocs$ ?v1 ?v2))))) :named a121))
-(assert (! (forall ((?v0 Com$) (?v1 State$) (?v2 Loc$) (?v3 (-> State$ Nat$)) (?v4 Nat$) (?v5 State$)) (=> (evaln$ ?v0 (update$ ?v1 (loc$ ?v2) (?v3 ?v1)) ?v4 ?v5) (evaln$ (local$ ?v2 ?v3 ?v0) ?v1 ?v4 (update$ ?v5 (loc$ ?v2) (getlocs$ ?v1 ?v2))))) :named a122))
-(assert (! (forall ((?v0 Loc$) (?v1 Loc$)) (= (= (loc$ ?v0) (loc$ ?v1)) (= ?v0 ?v1))) :named a123))
-(assert (! (forall ((?v0 Pname$)) (=> (not (= (body$ ?v0) none$)) (wt$ (body$a ?v0)))) :named a124))
-(assert (! (forall ((?v0 (-> State$ Bool)) (?v1 Com$)) (=> (and (wt$ (while$ ?v0 ?v1)) (=> (wt$ ?v1) false)) false)) :named a125))
-(assert (! (forall ((?v0 Com$) (?v1 (-> State$ Bool))) (=> (wt$ ?v0) (wt$ (while$ ?v1 ?v0)))) :named a126))
-(assert (! (forall ((?v0 (-> State$ Bool)) (?v1 Com$) (?v2 Com$)) (=> (and (wt$ (cond$ ?v0 ?v1 ?v2)) (=> (and (wt$ ?v1) (wt$ ?v2)) false)) false)) :named a127))
-(assert (! (forall ((?v0 Com$) (?v1 Com$) (?v2 (-> State$ Bool))) (=> (and (wt$ ?v0) (wt$ ?v1)) (wt$ (cond$ ?v2 ?v0 ?v1)))) :named a128))
-(assert (! (forall ((?v0 Vname$) (?v1 (-> State$ Nat$))) (wt$ (ass$ ?v0 ?v1))) :named a129))
-(assert (! (forall ((?v0 Com$) (?v1 Loc$) (?v2 (-> State$ Nat$))) (=> (wt$ ?v0) (wt$ (local$ ?v1 ?v2 ?v0)))) :named a130))
-(assert (! (forall ((?v0 Vname$) (?v1 (-> State$ Nat$))) (=> (and (wt$ (ass$ ?v0 ?v1)) false) false)) :named a131))
-(assert (! (forall ((?v0 Loc$) (?v1 (-> State$ Nat$)) (?v2 Com$)) (=> (and (wt$ (local$ ?v0 ?v1 ?v2)) (=> (wt$ ?v2) false)) false)) :named a132))
-(assert (! (forall ((?v0 Com$) (?v1 Com$)) (=> (and (wt$ (semi$ ?v0 ?v1)) (=> (and (wt$ ?v0) (wt$ ?v1)) false)) false)) :named a133))
-(assert (! (forall ((?v0 Com$) (?v1 Com$)) (=> (and (wt$ ?v0) (wt$ ?v1)) (wt$ (semi$ ?v0 ?v1)))) :named a134))
-(assert (! (=> (and (wt$ skip$) false) false) :named a135))
-(assert (! (wt$ skip$) :named a136))
-(assert (! (forall ((?v0 Loc$) (?v1 (-> State$ Nat$)) (?v2 Com$) (?v3 State$) (?v4 Nat$) (?v5 State$)) (=> (and (evaln$ (local$ ?v0 ?v1 ?v2) ?v3 ?v4 ?v5) (forall ((?v6 State$)) (=> (and (= ?v5 (update$ ?v6 (loc$ ?v0) (getlocs$ ?v3 ?v0))) (evaln$ ?v2 (update$ ?v3 (loc$ ?v0) (?v1 ?v3)) ?v4 ?v6)) false))) false)) :named a137))
-(assert (! (forall ((?v0 Pname$) (?v1 State$) (?v2 State$)) (=> (evalc$ (the$ (body$ ?v0)) ?v1 ?v2) (evalc$ (body$a ?v0) ?v1 ?v2))) :named a138))
-(assert (! (forall ((?v0 Pname$) (?v1 State$) (?v2 State$)) (=> (and (evalc$ (body$a ?v0) ?v1 ?v2) (=> (evalc$ (the$ (body$ ?v0)) ?v1 ?v2) false)) false)) :named a139))
-(assert (! (forall ((?v0 Pname$) (?v1 State$) (?v2 (-> State$ Nat$)) (?v3 State$) (?v4 Vname$)) (=> (evalc$ (body$a ?v0) (update$ (setlocs$ ?v1 newlocs$) (loc$ arg$) (?v2 ?v1)) ?v3) (evalc$ (call$ ?v4 ?v0 ?v2) ?v1 (update$ (setlocs$ ?v3 (getlocs$ ?v1)) ?v4 (getlocs$ ?v3 res$))))) :named a140))
-(assert (! (forall ((?v0 Vname$) (?v1 Pname$) (?v2 (-> State$ Nat$)) (?v3 State$) (?v4 State$)) (=> (and (evalc$ (call$ ?v0 ?v1 ?v2) ?v3 ?v4) (forall ((?v5 State$)) (=> (and (= ?v4 (update$ (setlocs$ ?v5 (getlocs$ ?v3)) ?v0 (getlocs$ ?v5 res$))) (evalc$ (body$a ?v1) (update$ (setlocs$ ?v3 newlocs$) (loc$ arg$) (?v2 ?v3)) ?v5)) false))) false)) :named a141))
-(assert (! (forall ((?v0 Vname$) (?v1 Pname$) (?v2 (-> State$ Nat$)) (?v3 State$) (?v4 Nat$) (?v5 State$)) (=> (and (evaln$ (call$ ?v0 ?v1 ?v2) ?v3 ?v4 ?v5) (forall ((?v6 State$)) (=> (and (= ?v5 (update$ (setlocs$ ?v6 (getlocs$ ?v3)) ?v0 (getlocs$ ?v6 res$))) (evaln$ (body$a ?v1) (update$ (setlocs$ ?v3 newlocs$) (loc$ arg$) (?v2 ?v3)) ?v4 ?v6)) false))) false)) :named a142))
-(assert (! (forall ((?v0 Pname$) (?v1 State$) (?v2 (-> State$ Nat$)) (?v3 Nat$) (?v4 State$) (?v5 Vname$)) (=> (evaln$ (body$a ?v0) (update$ (setlocs$ ?v1 newlocs$) (loc$ arg$) (?v2 ?v1)) ?v3 ?v4) (evaln$ (call$ ?v5 ?v0 ?v2) ?v1 ?v3 (update$ (setlocs$ ?v4 (getlocs$ ?v1)) ?v5 (getlocs$ ?v4 res$))))) :named a143))
-(assert (! (forall ((?v0 State_triple_option$) (?v1 State_triple_option$)) (=> (and (= (= ?v0 none$a) (= ?v1 none$a)) (=> (and (not (= ?v0 none$a)) (not (= ?v1 none$a))) (= (the$a ?v0) (the$a ?v1)))) (= ?v0 ?v1))) :named a144))
-(assert (! (forall ((?v0 Com_option$) (?v1 Com_option$)) (=> (and (= (= ?v0 none$) (= ?v1 none$)) (=> (and (not (= ?v0 none$)) (not (= ?v1 none$))) (= (the$ ?v0) (the$ ?v1)))) (= ?v0 ?v1))) :named a145))
-(assert (! (forall ((?v0 Pname$) (?v1 State$) (?v2 Nat$) (?v3 State$)) (=> (and (evaln$ (body$a ?v0) ?v1 ?v2 ?v3) (forall ((?v4 Nat$)) (=> (and (= ?v2 (suc$ ?v4)) (evaln$ (the$ (body$ ?v0)) ?v1 ?v4 ?v3)) false))) false)) :named a146))
-(assert (! (forall ((?v0 Pname$) (?v1 State$) (?v2 Nat$) (?v3 State$)) (=> (evaln$ (the$ (body$ ?v0)) ?v1 ?v2 ?v3) (evaln$ (body$a ?v0) ?v1 (suc$ ?v2) ?v3))) :named a147))
-(assert (! (forall ((?v0 State_triple_option$)) (=> (and (=> (= ?v0 none$a) false) (=> (not (= ?v0 none$a)) false)) false)) :named a148))
-(assert (! (forall ((?v0 Com_option$)) (=> (and (=> (= ?v0 none$) false) (=> (not (= ?v0 none$)) false)) false)) :named a149))
-(assert (! (forall ((?v0 Com$) (?v1 State$) (?v2 Nat$) (?v3 State$)) (=> (evaln$ ?v0 ?v1 ?v2 ?v3) (evaln$ ?v0 ?v1 (suc$ ?v2) ?v3))) :named a150))
-(assert (! (forall ((?v0 Pname$)) (=> (and (wt$ (body$a ?v0)) (forall ((?v1 Com$)) (=> (= (body$ ?v0) (some$ ?v1)) false))) false)) :named a151))
-(assert (! (forall ((?v0 Bool) (?v1 (-> Com$ Bool)) (?v2 Com_option$)) (! (= (case_option$ ?v0 ?v1 ?v2) (ite (= ?v2 none$) ?v0 (?v1 (the$ ?v2)))) :pattern ((case_option$ ?v0 ?v1 ?v2)))) :named a152))
-(assert (! (forall ((?v0 Glb$) (?v1 Glb$)) (= (= (glb$ ?v0) (glb$ ?v1)) (= ?v0 ?v1))) :named a153))
-(assert (! (forall ((?v0 State_triple_option$)) (= (not (= ?v0 none$a)) (exists ((?v1 State_triple$)) (= ?v0 (some$a ?v1))))) :named a154))
-(assert (! (forall ((?v0 Com_option$)) (= (not (= ?v0 none$)) (exists ((?v1 Com$)) (= ?v0 (some$ ?v1))))) :named a155))
-(assert (! (forall ((?v0 State_triple_option$)) (= (forall ((?v1 State_triple$)) (not (= ?v0 (some$a ?v1)))) (= ?v0 none$a))) :named a156))
-(assert (! (forall ((?v0 Com_option$)) (= (forall ((?v1 Com$)) (not (= ?v0 (some$ ?v1)))) (= ?v0 none$))) :named a157))
-(assert (! (forall ((?v0 State_triple_option$)) (=> (not (= ?v0 none$a)) (= (some$a (the$a ?v0)) ?v0))) :named a158))
-(assert (! (forall ((?v0 Com_option$)) (=> (not (= ?v0 none$)) (= (some$ (the$ ?v0)) ?v0))) :named a159))
-(assert (! (forall ((?v0 (-> Bool Bool)) (?v1 Bool) (?v2 (-> Com$ Bool)) (?v3 Com_option$)) (= (?v0 (case_option$ ?v1 ?v2 ?v3)) (and (=> (= ?v3 none$) (?v0 ?v1)) (=> (= ?v3 (some$ (the$ ?v3))) (?v0 (?v2 (the$ ?v3))))))) :named a160))
-(assert (! (forall ((?v0 (-> Bool Bool)) (?v1 Bool) (?v2 (-> Com$ Bool)) (?v3 Com_option$)) (= (?v0 (case_option$ ?v1 ?v2 ?v3)) (not (or (and (= ?v3 none$) (not (?v0 ?v1))) (and (= ?v3 (some$ (the$ ?v3))) (not (?v0 (?v2 (the$ ?v3))))))))) :named a161))
-(assert (! (forall ((?v0 State_triple_option$) (?v1 (-> State_triple_option$ (-> State_triple_option$ Bool))) (?v2 State_triple_option$)) (=> (and (=> (= ?v0 none$a) (?v1 ?v0 ?v2)) (and (=> (= ?v2 none$a) (?v1 ?v0 ?v2)) (forall ((?v3 State_triple$) (?v4 State_triple$)) (=> (and (= ?v0 (some$a ?v3)) (= ?v2 (some$a ?v4))) (?v1 ?v0 ?v2))))) (?v1 ?v0 ?v2))) :named a162))
-(assert (! (forall ((?v0 State_triple_option$) (?v1 (-> State_triple_option$ (-> Com_option$ Bool))) (?v2 Com_option$)) (=> (and (=> (= ?v0 none$a) (?v1 ?v0 ?v2)) (and (=> (= ?v2 none$) (?v1 ?v0 ?v2)) (forall ((?v3 State_triple$) (?v4 Com$)) (=> (and (= ?v0 (some$a ?v3)) (= ?v2 (some$ ?v4))) (?v1 ?v0 ?v2))))) (?v1 ?v0 ?v2))) :named a163))
-(assert (! (forall ((?v0 Com_option$) (?v1 (-> Com_option$ (-> State_triple_option$ Bool))) (?v2 State_triple_option$)) (=> (and (=> (= ?v0 none$) (?v1 ?v0 ?v2)) (and (=> (= ?v2 none$a) (?v1 ?v0 ?v2)) (forall ((?v3 Com$) (?v4 State_triple$)) (=> (and (= ?v0 (some$ ?v3)) (= ?v2 (some$a ?v4))) (?v1 ?v0 ?v2))))) (?v1 ?v0 ?v2))) :named a164))
-(assert (! (forall ((?v0 Com_option$) (?v1 (-> Com_option$ (-> Com_option$ Bool))) (?v2 Com_option$)) (=> (and (=> (= ?v0 none$) (?v1 ?v0 ?v2)) (and (=> (= ?v2 none$) (?v1 ?v0 ?v2)) (forall ((?v3 Com$) (?v4 Com$)) (=> (and (= ?v0 (some$ ?v3)) (= ?v2 (some$ ?v4))) (?v1 ?v0 ?v2))))) (?v1 ?v0 ?v2))) :named a165))
-(assert (! (forall ((?v0 (-> State_triple_option$ Bool))) (= (forall ((?v1 State_triple_option$)) (?v0 ?v1)) (and (?v0 none$a) (forall ((?v1 State_triple$)) (?v0 (some$a ?v1)))))) :named a166))
-(assert (! (forall ((?v0 (-> Com_option$ Bool))) (= (forall ((?v1 Com_option$)) (?v0 ?v1)) (and (?v0 none$) (forall ((?v1 Com$)) (?v0 (some$ ?v1)))))) :named a167))
-(assert (! (forall ((?v0 (-> State_triple_option$ Bool))) (= (exists ((?v1 State_triple_option$)) (?v0 ?v1)) (or (?v0 none$a) (exists ((?v1 State_triple$)) (?v0 (some$a ?v1)))))) :named a168))
-(assert (! (forall ((?v0 (-> Com_option$ Bool))) (= (exists ((?v1 Com_option$)) (?v0 ?v1)) (or (?v0 none$) (exists ((?v1 Com$)) (?v0 (some$ ?v1)))))) :named a169))
-(assert (! (forall ((?v0 State_triple_option$)) (=> (and (=> (= ?v0 none$a) false) (forall ((?v1 State_triple$)) (=> (= ?v0 (some$a ?v1)) false))) false)) :named a170))
-(assert (! (forall ((?v0 Com_option$)) (=> (and (=> (= ?v0 none$) false) (forall ((?v1 Com$)) (=> (= ?v0 (some$ ?v1)) false))) false)) :named a171))
-(assert (! (forall ((?v0 State_triple_option$) (?v1 State_triple$)) (=> (= ?v0 (some$a ?v1)) (not (= ?v0 none$a)))) :named a172))
-(assert (! (forall ((?v0 Com_option$) (?v1 Com$)) (=> (= ?v0 (some$ ?v1)) (not (= ?v0 none$)))) :named a173))
-(assert (! (forall ((?v0 State_triple$)) (not (= none$a (some$a ?v0)))) :named a174))
-(assert (! (forall ((?v0 Com$)) (not (= none$ (some$ ?v0)))) :named a175))
-(assert (! (forall ((?v0 Bool) (?v1 (-> Com$ Bool))) (! (= (case_option$ ?v0 ?v1 none$) ?v0) :pattern ((case_option$ ?v0 ?v1)))) :named a176))
-(assert (! (forall ((?v0 State_triple_option$)) (=> (and (=> (= ?v0 none$a) false) (=> (= ?v0 (some$a (the$a ?v0))) false)) false)) :named a177))
-(assert (! (forall ((?v0 Com_option$)) (=> (and (=> (= ?v0 none$) false) (=> (= ?v0 (some$ (the$ ?v0))) false)) false)) :named a178))
-(assert (! (forall ((?v0 Glb$) (?v1 Loc$)) (not (= (glb$ ?v0) (loc$ ?v1)))) :named a179))
-(assert (! (forall ((?v0 Vname$)) (=> (and (forall ((?v1 Glb$)) (=> (= ?v0 (glb$ ?v1)) false)) (forall ((?v1 Loc$)) (=> (= ?v0 (loc$ ?v1)) false))) false)) :named a180))
-(assert (! (forall ((?v0 Pname$) (?v1 Com$)) (=> (and wT_bodies$ (= (body$ ?v0) (some$ ?v1))) (wt$ ?v1))) :named a181))
-(assert (! (forall ((?v0 Nat$) (?v1 (-> State$ (-> State$ Bool))) (?v2 Pname$) (?v3 (-> State$ (-> State$ Bool)))) (= (triple_valid$ ?v0 (triple$ ?v1 (the$ (body$ ?v2)) ?v3)) (triple_valid$ (suc$ ?v0) (triple$ ?v1 (body$a ?v2) ?v3)))) :named a182))
-(assert (! (forall ((?v0 Pname_option$)) (=> (not (= ?v0 none$b)) (member$a (the$b ?v0) (set_option$ ?v0)))) :named a183))
-(assert (! (forall ((?v0 State_triple_option$)) (=> (not (= ?v0 none$a)) (member$ (the$a ?v0) (set_option$a ?v0)))) :named a184))
-(assert (! (forall ((?v0 Com_option$)) (=> (not (= ?v0 none$)) (member$b (the$ ?v0) (set_option$b ?v0)))) :named a185))
-(assert (! (forall ((?v0 State_triple_option$) (?v1 (-> State_triple$ Com_option$))) (= (= (bind$ ?v0 ?v1) none$) (or (= ?v0 none$a) (= (?v1 (the$a ?v0)) none$)))) :named a186))
-(assert (! (forall ((?v0 Com_option$) (?v1 (-> Com$ State_triple_option$))) (= (= (bind$a ?v0 ?v1) none$a) (or (= ?v0 none$) (= (?v1 (the$ ?v0)) none$a)))) :named a187))
-(assert (! (forall ((?v0 State_triple_option$) (?v1 (-> State_triple$ State_triple_option$))) (= (= (bind$b ?v0 ?v1) none$a) (or (= ?v0 none$a) (= (?v1 (the$a ?v0)) none$a)))) :named a188))
-(assert (! (forall ((?v0 Com_option$) (?v1 (-> Com$ Com_option$))) (= (= (bind$c ?v0 ?v1) none$) (or (= ?v0 none$) (= (?v1 (the$ ?v0)) none$)))) :named a189))
-(assert (! (forall ((?v0 (-> State$ (-> State$ Bool))) (?v1 Com$) (?v2 (-> State$ (-> State$ Bool))) (?v3 (-> State$ (-> State$ Bool))) (?v4 Com$) (?v5 (-> State$ (-> State$ Bool)))) (= (= (triple$ ?v0 ?v1 ?v2) (triple$ ?v3 ?v4 ?v5)) (and (= ?v0 ?v3) (and (= ?v1 ?v4) (= ?v2 ?v5))))) :named a190))
-(assert (! (forall ((?v0 Nat$) (?v1 (-> State$ (-> State$ Bool))) (?v2 Com$) (?v3 (-> State$ (-> State$ Bool)))) (= (triple_valid$ ?v0 (triple$ ?v1 ?v2 ?v3)) (forall ((?v4 State$) (?v5 State$)) (=> (?v1 ?v4 ?v5) (forall ((?v6 State$)) (=> (evaln$ ?v2 ?v5 ?v0 ?v6) (?v3 ?v4 ?v6))))))) :named a191))
-(assert (! (forall ((?v0 State_triple$)) (=> (forall ((?v1 (-> State$ (-> State$ Bool))) (?v2 Com$) (?v3 (-> State$ (-> State$ Bool)))) (=> (= ?v0 (triple$ ?v1 ?v2 ?v3)) false)) false)) :named a192))
-(assert (! (forall ((?v0 (-> Com$ State_triple_option$))) (! (= (bind$a none$ ?v0) none$a) :pattern ((bind$a none$ ?v0)))) :named a193))
-(assert (! (forall ((?v0 (-> State_triple$ Com_option$))) (! (= (bind$ none$a ?v0) none$) :pattern ((bind$ none$a ?v0)))) :named a194))
-(assert (! (forall ((?v0 (-> State_triple$ State_triple_option$))) (! (= (bind$b none$a ?v0) none$a) :pattern ((bind$b none$a ?v0)))) :named a195))
-(assert (! (forall ((?v0 (-> Com$ Com_option$))) (! (= (bind$c none$ ?v0) none$) :pattern ((bind$c none$ ?v0)))) :named a196))
-(assert (! (forall ((?v0 Nat$) (?v1 State_triple$)) (=> (triple_valid$ (suc$ ?v0) ?v1) (triple_valid$ ?v0 ?v1))) :named a197))
-(assert (! (forall ((?v0 (-> Com_option$ Bool)) (?v1 State_triple_option$) (?v2 (-> State_triple$ Com_option$))) (= (?v0 (bind$ ?v1 ?v2)) (and (=> (= ?v1 none$a) (?v0 none$)) (forall ((?v3 State_triple$)) (=> (= ?v1 (some$a ?v3)) (?v0 (?v2 ?v3))))))) :named a198))
-(assert (! (forall ((?v0 (-> State_triple_option$ Bool)) (?v1 State_triple_option$) (?v2 (-> State_triple$ State_triple_option$))) (= (?v0 (bind$b ?v1 ?v2)) (and (=> (= ?v1 none$a) (?v0 none$a)) (forall ((?v3 State_triple$)) (=> (= ?v1 (some$a ?v3)) (?v0 (?v2 ?v3))))))) :named a199))
-(assert (! (forall ((?v0 (-> State_triple_option$ Bool)) (?v1 Com_option$) (?v2 (-> Com$ State_triple_option$))) (= (?v0 (bind$a ?v1 ?v2)) (and (=> (= ?v1 none$) (?v0 none$a)) (forall ((?v3 Com$)) (=> (= ?v1 (some$ ?v3)) (?v0 (?v2 ?v3))))))) :named a200))
-(assert (! (forall ((?v0 (-> Com_option$ Bool)) (?v1 Com_option$) (?v2 (-> Com$ Com_option$))) (= (?v0 (bind$c ?v1 ?v2)) (and (=> (= ?v1 none$) (?v0 none$)) (forall ((?v3 Com$)) (=> (= ?v1 (some$ ?v3)) (?v0 (?v2 ?v3))))))) :named a201))
-(assert (! (forall ((?v0 (-> Com_option$ Bool)) (?v1 State_triple_option$) (?v2 (-> State_triple$ Com_option$))) (= (?v0 (bind$ ?v1 ?v2)) (not (or (and (= ?v1 none$a) (not (?v0 none$))) (exists ((?v3 State_triple$)) (and (= ?v1 (some$a ?v3)) (not (?v0 (?v2 ?v3))))))))) :named a202))
-(assert (! (forall ((?v0 (-> State_triple_option$ Bool)) (?v1 State_triple_option$) (?v2 (-> State_triple$ State_triple_option$))) (= (?v0 (bind$b ?v1 ?v2)) (not (or (and (= ?v1 none$a) (not (?v0 none$a))) (exists ((?v3 State_triple$)) (and (= ?v1 (some$a ?v3)) (not (?v0 (?v2 ?v3))))))))) :named a203))
-(assert (! (forall ((?v0 (-> State_triple_option$ Bool)) (?v1 Com_option$) (?v2 (-> Com$ State_triple_option$))) (= (?v0 (bind$a ?v1 ?v2)) (not (or (and (= ?v1 none$) (not (?v0 none$a))) (exists ((?v3 Com$)) (and (= ?v1 (some$ ?v3)) (not (?v0 (?v2 ?v3))))))))) :named a204))
-(assert (! (forall ((?v0 (-> Com_option$ Bool)) (?v1 Com_option$) (?v2 (-> Com$ Com_option$))) (= (?v0 (bind$c ?v1 ?v2)) (not (or (and (= ?v1 none$) (not (?v0 none$))) (exists ((?v3 Com$)) (and (= ?v1 (some$ ?v3)) (not (?v0 (?v2 ?v3))))))))) :named a205))
-(assert (! (forall ((?v0 (-> State$ (-> State$ Bool))) (?v1 Pname$) (?v2 (-> State$ (-> State$ Bool)))) (triple_valid$ zero$ (triple$ ?v0 (body$a ?v1) ?v2))) :named a206))
-(assert (! (forall ((?v0 Pname_option$)) (= (= (set_option$ ?v0) bot$) (= ?v0 none$b))) :named a207))
-(assert (! (forall ((?v0 State_triple_option_option$)) (= (= (set_option$c ?v0) bot$a) (= ?v0 none$c))) :named a208))
-(assert (! (forall ((?v0 Com_option_option$)) (= (= (set_option$d ?v0) bot$b) (= ?v0 none$d))) :named a209))
-(assert (! (forall ((?v0 Com_option$)) (= (= (set_option$b ?v0) bot$c) (= ?v0 none$))) :named a210))
-(assert (! (forall ((?v0 State_triple_option$)) (= (= (set_option$a ?v0) bot$d) (= ?v0 none$a))) :named a211))
-(assert (! (= (set_option$ none$b) bot$) :named a212))
-(assert (! (= (set_option$c none$c) bot$a) :named a213))
-(assert (! (= (set_option$d none$d) bot$b) :named a214))
-(assert (! (= (set_option$b none$) bot$c) :named a215))
-(assert (! (= (set_option$a none$a) bot$d) :named a216))
-(assert (! (forall ((?v0 (-> State$ Nat$)) (?v1 (-> State$ (-> State$ Bool))) (?v2 Com$) (?v3 (-> State$ (-> State$ Bool)))) (! (= (size_triple$ ?v0 (triple$ ?v1 ?v2 ?v3)) (suc$ zero$)) :pattern ((size_triple$ ?v0 (triple$ ?v1 ?v2 ?v3))))) :named a217))
-(assert (! (forall ((?v0 Glb$)) (! (= (size_vname$ (glb$ ?v0)) zero$) :pattern ((glb$ ?v0)))) :named a218))
-(assert (! (forall ((?v0 Loc$)) (! (= (size_vname$ (loc$ ?v0)) zero$) :pattern ((loc$ ?v0)))) :named a219))
-(assert (! (forall ((?v0 (-> State_triple$ Nat$))) (! (= (size_option$ ?v0 none$a) (suc$ zero$)) :pattern ((size_option$ ?v0)))) :named a220))
-(assert (! (forall ((?v0 (-> Com$ Nat$))) (! (= (size_option$a ?v0 none$) (suc$ zero$)) :pattern ((size_option$a ?v0)))) :named a221))
-(assert (! (forall ((?v0 (-> State$ (-> State$ Bool))) (?v1 Com$) (?v2 (-> State$ (-> State$ Bool)))) (! (= (size$ (triple$ ?v0 ?v1 ?v2)) (suc$ zero$)) :pattern ((triple$ ?v0 ?v1 ?v2)))) :named a222))
-(assert (! (= (size$a none$a) (suc$ zero$)) :named a223))
-(assert (! (= (size$b none$) (suc$ zero$)) :named a224))
-(assert (! (forall ((?v0 State_triple$)) (not (= (size$ ?v0) zero$))) :named a225))
-(assert (! (forall ((?v0 Glb$)) (! (= (size$c (glb$ ?v0)) zero$) :pattern ((glb$ ?v0)))) :named a226))
-(assert (! (forall ((?v0 Loc$)) (! (= (size$c (loc$ ?v0)) zero$) :pattern ((loc$ ?v0)))) :named a227))
-(assert (! (= (size_com$ skip$) zero$) :named a228))
-(assert (! (forall ((?v0 Pname$)) (! (= (size_com$ (body$a ?v0)) zero$) :pattern ((body$a ?v0)))) :named a229))
-(assert (! (forall ((?v0 Vname$) (?v1 Pname$) (?v2 (-> State$ Nat$))) (! (= (size_com$ (call$ ?v0 ?v1 ?v2)) zero$) :pattern ((call$ ?v0 ?v1 ?v2)))) :named a230))
-(assert (! (forall ((?v0 Vname$) (?v1 (-> State$ Nat$))) (! (= (size_com$ (ass$ ?v0 ?v1)) zero$) :pattern ((ass$ ?v0 ?v1)))) :named a231))
-(assert (! (forall ((?v0 Loc$) (?v1 (-> State$ Nat$)) (?v2 Com$)) (! (= (size_com$ (local$ ?v0 ?v1 ?v2)) (plus$ (size_com$ ?v2) (suc$ zero$))) :pattern ((local$ ?v0 ?v1 ?v2)))) :named a232))
-(assert (! (forall ((?v0 Com$) (?v1 Com$)) (! (= (size_com$ (semi$ ?v0 ?v1)) (plus$ (plus$ (size_com$ ?v0) (size_com$ ?v1)) (suc$ zero$))) :pattern ((semi$ ?v0 ?v1)))) :named a233))
-(assert (! (forall ((?v0 (-> State$ Bool)) (?v1 Com$) (?v2 Com$)) (! (= (size_com$ (cond$ ?v0 ?v1 ?v2)) (plus$ (plus$ (size_com$ ?v1) (size_com$ ?v2)) (suc$ zero$))) :pattern ((cond$ ?v0 ?v1 ?v2)))) :named a234))
-(assert (! (forall ((?v0 (-> State$ Bool)) (?v1 Com$)) (! (= (size_com$ (while$ ?v0 ?v1)) (plus$ (size_com$ ?v1) (suc$ zero$))) :pattern ((while$ ?v0 ?v1)))) :named a235))
-(assert (! (forall ((?v0 Loc$) (?v1 (-> State$ Nat$)) (?v2 Com$)) (! (= (size$d (local$ ?v0 ?v1 ?v2)) (plus$ (size$d ?v2) (suc$ zero$))) :pattern ((local$ ?v0 ?v1 ?v2)))) :named a236))
-(assert (! (forall ((?v0 Com$) (?v1 Com$)) (! (= (size$d (semi$ ?v0 ?v1)) (plus$ (plus$ (size$d ?v0) (size$d ?v1)) (suc$ zero$))) :pattern ((semi$ ?v0 ?v1)))) :named a237))
-(assert (! (forall ((?v0 (-> State$ Bool)) (?v1 Com$) (?v2 Com$)) (! (= (size$d (cond$ ?v0 ?v1 ?v2)) (plus$ (plus$ (size$d ?v1) (size$d ?v2)) (suc$ zero$))) :pattern ((cond$ ?v0 ?v1 ?v2)))) :named a238))
-(assert (! (forall ((?v0 Pname$)) (! (= (size$d (body$a ?v0)) zero$) :pattern ((body$a ?v0)))) :named a239))
-(assert (! (forall ((?v0 Vname$) (?v1 Pname$) (?v2 (-> State$ Nat$))) (! (= (size$d (call$ ?v0 ?v1 ?v2)) zero$) :pattern ((call$ ?v0 ?v1 ?v2)))) :named a240))
-(assert (! (forall ((?v0 Vname$) (?v1 (-> State$ Nat$))) (! (= (size$d (ass$ ?v0 ?v1)) zero$) :pattern ((ass$ ?v0 ?v1)))) :named a241))
-(assert (! (= (size$d skip$) zero$) :named a242))
-(assert (! (forall ((?v0 (-> State$ Bool)) (?v1 Com$)) (! (= (size$d (while$ ?v0 ?v1)) (plus$ (size$d ?v1) (suc$ zero$))) :pattern ((while$ ?v0 ?v1)))) :named a243))
-(assert (! (forall ((?v0 State_triple_set$) (?v1 (-> State$ (-> State$ Bool))) (?v2 Pname$) (?v3 (-> State$ (-> State$ Bool))) (?v4 State$) (?v5 Vname$) (?v6 (-> State$ Nat$))) (=> (hoare_derivs$ ?v0 (insert$ (triple$ ?v1 (body$a ?v2) (uuc$ ?v3 ?v4 ?v5)) bot$d)) (hoare_derivs$ ?v0 (insert$ (triple$ (uud$ ?v1 ?v4 ?v6) (call$ ?v5 ?v2 ?v6) ?v3) bot$d)))) :named a244))
-(assert (! (forall ((?v0 Com_option$)) (= (bind$c ?v0 uue$) none$)) :named a245))
-(assert (! (forall ((?v0 Bool) (?v1 (-> State_triple$ Bool)) (?v2 State_triple_option$)) (=> (and (case_option$a ?v0 ?v1 ?v2) (and (=> (and (= ?v2 none$a) ?v0) false) (forall ((?v3 State_triple$)) (=> (and (= ?v2 (some$a ?v3)) (?v1 ?v3)) false)))) false)) :named a246))
-(assert (! (forall ((?v0 Bool) (?v1 (-> Com$ Bool)) (?v2 Com_option$)) (=> (and (case_option$ ?v0 ?v1 ?v2) (and (=> (and (= ?v2 none$) ?v0) false) (forall ((?v3 Com$)) (=> (and (= ?v2 (some$ ?v3)) (?v1 ?v3)) false)))) false)) :named a247))
-(assert (! (forall ((?v0 State_triple_set$) (?v1 State_triple_set$) (?v2 State_triple_set$)) (=> (and (hoare_derivs$ ?v0 ?v1) (hoare_derivs$ ?v2 ?v0)) (hoare_derivs$ ?v2 ?v1))) :named a248))
-(assert (! (forall ((?v0 State_triple_option$)) (= (not (= ?v0 none$a)) (case_option$a false uuf$ ?v0))) :named a249))
-(assert (! (forall ((?v0 Com_option$)) (= (not (= ?v0 none$)) (case_option$ false uug$ ?v0))) :named a250))
-(assert (! (forall ((?v0 State_triple_option$)) (= (= ?v0 none$a) (case_option$a true uuh$ ?v0))) :named a251))
-(assert (! (forall ((?v0 Com_option$)) (= (= ?v0 none$) (case_option$ true uui$ ?v0))) :named a252))
-(assert (! (forall ((?v0 State_triple_set$) (?v1 State_triple$) (?v2 State_triple_set$)) (=> (hoare_derivs$ ?v0 (insert$ ?v1 ?v2)) (and (hoare_derivs$ ?v0 (insert$ ?v1 bot$d)) (hoare_derivs$ ?v0 ?v2)))) :named a253))
-(assert (! (forall ((?v0 State_triple_set$)) (hoare_derivs$ ?v0 bot$d)) :named a254))
-(assert (! (forall ((?v0 State_triple_set$) (?v1 State_triple$) (?v2 State_triple_set$)) (=> (and (hoare_derivs$ ?v0 (insert$ ?v1 bot$d)) (hoare_derivs$ ?v0 ?v2)) (hoare_derivs$ ?v0 (insert$ ?v1 ?v2)))) :named a255))
-(assert (! (forall ((?v0 State_triple_set$) (?v1 (-> State$ (-> State$ Bool))) (?v2 Com$) (?v3 (-> State$ (-> State$ Bool))) (?v4 Loc$) (?v5 State$) (?v6 (-> State$ Nat$))) (=> (hoare_derivs$ ?v0 (insert$ (triple$ ?v1 ?v2 (uuj$ ?v3 ?v4 ?v5)) bot$d)) (hoare_derivs$ ?v0 (insert$ (triple$ (uuk$ ?v1 ?v4 ?v5 ?v6) (local$ ?v4 ?v6 ?v2) ?v3) bot$d)))) :named a256))
-(assert (! (forall ((?v0 State_triple_set$) (?v1 (-> State$ (-> State$ Bool))) (?v2 (-> State$ Bool)) (?v3 Com$)) (hoare_derivs$ ?v0 (insert$ (triple$ (uul$ ?v1 ?v2) (while$ ?v2 ?v3) ?v1) bot$d))) :named a257))
-(assert (! (forall ((?v0 State_triple_set$) (?v1 (-> State$ (-> State$ Bool))) (?v2 Com$) (?v3 (-> State$ (-> State$ Bool))) (?v4 Com$) (?v5 (-> State$ (-> State$ Bool)))) (=> (and (hoare_derivs$ ?v0 (insert$ (triple$ ?v1 ?v2 ?v3) bot$d)) (hoare_derivs$ ?v0 (insert$ (triple$ ?v3 ?v4 ?v5) bot$d))) (hoare_derivs$ ?v0 (insert$ (triple$ ?v1 (semi$ ?v2 ?v4) ?v5) bot$d)))) :named a258))
-(assert (! (forall ((?v0 State_triple_set$) (?v1 (-> State$ (-> State$ Bool)))) (hoare_derivs$ ?v0 (insert$ (triple$ ?v1 skip$ ?v1) bot$d))) :named a259))
-(assert (! (forall ((?v0 (-> State$ (-> State$ Bool))) (?v1 State_triple_set$) (?v2 Com$) (?v3 (-> State$ (-> State$ Bool)))) (=> (forall ((?v4 State$) (?v5 State$)) (=> (?v0 ?v4 ?v5) (exists ((?v6 (-> State$ (-> State$ Bool))) (?v7 (-> State$ (-> State$ Bool)))) (and (hoare_derivs$ ?v1 (insert$ (triple$ ?v6 ?v2 ?v7) bot$d)) (forall ((?v8 State$)) (=> (forall ((?v9 State$)) (=> (?v6 ?v9 ?v5) (?v7 ?v9 ?v8))) (?v3 ?v4 ?v8))))))) (hoare_derivs$ ?v1 (insert$ (triple$ ?v0 ?v2 ?v3) bot$d)))) :named a260))
-(assert (! (forall ((?v0 Bool) (?v1 State_triple_set$) (?v2 (-> State$ (-> State$ Bool))) (?v3 Com$) (?v4 (-> State$ (-> State$ Bool)))) (=> (=> ?v0 (hoare_derivs$ ?v1 (insert$ (triple$ ?v2 ?v3 ?v4) bot$d))) (hoare_derivs$ ?v1 (insert$ (triple$ (uum$ ?v0 ?v2) ?v3 ?v4) bot$d)))) :named a261))
-(assert (! (forall ((?v0 State_triple_set$) (?v1 (-> State$ (-> State$ Bool))) (?v2 Com$) (?v3 (-> State$ (-> State$ Bool))) (?v4 (-> State$ (-> State$ Bool))) (?v5 (-> State$ (-> State$ Bool)))) (=> (and (hoare_derivs$ ?v0 (insert$ (triple$ ?v1 ?v2 ?v3) bot$d)) (forall ((?v6 State$) (?v7 State$)) (=> (?v4 ?v6 ?v7) (forall ((?v8 State$)) (=> (forall ((?v9 State$)) (=> (?v1 ?v9 ?v7) (?v3 ?v9 ?v8))) (?v5 ?v6 ?v8)))))) (hoare_derivs$ ?v0 (insert$ (triple$ ?v4 ?v2 ?v5) bot$d)))) :named a262))
-(assert (! (forall ((?v0 State_triple_set$) (?v1 (-> State$ (-> State$ Bool))) (?v2 Com$) (?v3 (-> State$ (-> State$ Bool))) (?v4 (-> State$ (-> State$ Bool)))) (=> (and (hoare_derivs$ ?v0 (insert$ (triple$ ?v1 ?v2 ?v3) bot$d)) (forall ((?v5 State$) (?v6 State$)) (=> (?v3 ?v5 ?v6) (?v4 ?v5 ?v6)))) (hoare_derivs$ ?v0 (insert$ (triple$ ?v1 ?v2 ?v4) bot$d)))) :named a263))
-(assert (! (forall ((?v0 State_triple_set$) (?v1 (-> State$ (-> State$ Bool))) (?v2 Com$) (?v3 (-> State$ (-> State$ Bool))) (?v4 (-> State$ (-> State$ Bool)))) (=> (and (hoare_derivs$ ?v0 (insert$ (triple$ ?v1 ?v2 ?v3) bot$d)) (forall ((?v5 State$) (?v6 State$)) (=> (?v4 ?v5 ?v6) (?v1 ?v5 ?v6)))) (hoare_derivs$ ?v0 (insert$ (triple$ ?v4 ?v2 ?v3) bot$d)))) :named a264))
-(assert (! (forall ((?v0 (-> State$ (-> State$ Bool))) (?v1 State_triple_set$) (?v2 Com$) (?v3 (-> State$ (-> State$ Bool)))) (=> (forall ((?v4 State$) (?v5 State$)) (=> (?v0 ?v4 ?v5) (hoare_derivs$ ?v1 (insert$ (triple$ (uun$ ?v5) ?v2 (uuo$ ?v3 ?v4)) bot$d)))) (hoare_derivs$ ?v1 (insert$ (triple$ ?v0 ?v2 ?v3) bot$d)))) :named a265))
-(assert (! (forall ((?v0 State_triple_set$) (?v1 (-> State$ (-> State$ Bool))) (?v2 Vname$) (?v3 (-> State$ Nat$))) (hoare_derivs$ ?v0 (insert$ (triple$ (uup$ ?v1 ?v2 ?v3) (ass$ ?v2 ?v3) ?v1) bot$d))) :named a266))
-(assert (! (forall ((?v0 (-> State$ (-> State$ Bool))) (?v1 Pname$) (?v2 (-> State$ (-> State$ Bool))) (?v3 State_triple_set$)) (=> (hoare_derivs$ (insert$ (triple$ ?v0 (body$a ?v1) ?v2) ?v3) (insert$ (triple$ ?v0 (the$ (body$ ?v1)) ?v2) bot$d)) (hoare_derivs$ ?v3 (insert$ (triple$ ?v0 (body$a ?v1) ?v2) bot$d)))) :named a267))
-(assert (! (forall ((?v0 State_triple_set$) (?v1 (-> State$ (-> State$ Bool))) (?v2 Pname$) (?v3 (-> State$ (-> State$ Bool)))) (=> (hoare_derivs$ ?v0 (insert$ (triple$ ?v1 (the$ (body$ ?v2)) ?v3) bot$d)) (hoare_derivs$ ?v0 (insert$ (triple$ ?v1 (body$a ?v2) ?v3) bot$d)))) :named a268))
-(assert (! (forall ((?v0 Com$)) (! (= (mgt$ ?v0) (triple$ uuq$ ?v0 (evalc$ ?v0))) :pattern ((mgt$ ?v0)))) :named a269))
-(assert (! (forall ((?v0 State_triple_set$) (?v1 (-> Pname$ (-> State$ (-> State$ Bool)))) (?v2 (-> Pname$ (-> State$ (-> State$ Bool)))) (?v3 Pname_set$) (?v4 Pname$)) (=> (and (hoare_derivs$ (sup$ ?v0 (image$ (uur$ ?v1 ?v2) ?v3)) (image$ (uus$ ?v1 ?v2) ?v3)) (member$a ?v4 ?v3)) (hoare_derivs$ ?v0 (insert$ (triple$ (?v1 ?v4) (body$a ?v4) (?v2 ?v4)) bot$d)))) :named a270))
-(assert (! (forall ((?v0 State_triple_set$) (?v1 (-> State$ (-> State$ Bool))) (?v2 (-> State$ Bool)) (?v3 Com$) (?v4 (-> State$ (-> State$ Bool))) (?v5 Com$)) (=> (and (hoare_derivs$ ?v0 (insert$ (triple$ (peek_and$ ?v1 ?v2) ?v3 ?v4) bot$d)) (hoare_derivs$ ?v0 (insert$ (triple$ (peek_and$ ?v1 (comp$ uut$ ?v2)) ?v5 ?v4) bot$d))) (hoare_derivs$ ?v0 (insert$ (triple$ ?v1 (cond$ ?v2 ?v3 ?v5) ?v4) bot$d)))) :named a271))
-(assert (! (forall ((?v0 (-> State$ (-> State$ Bool))) (?v1 (-> State$ Bool)) (?v2 State$) (?v3 State$)) (! (= (peek_and$ ?v0 ?v1 ?v2 ?v3) (and (?v0 ?v2 ?v3) (?v1 ?v3))) :pattern ((peek_and$ ?v0 ?v1 ?v2 ?v3)))) :named a272))
-(assert (! (forall ((?v0 State_triple_set$) (?v1 (-> Pname$ (-> State$ (-> State$ Bool)))) (?v2 (-> Pname$ (-> State$ (-> State$ Bool)))) (?v3 Pname_set$)) (=> (hoare_derivs$ (sup$ ?v0 (image$ (uur$ ?v1 ?v2) ?v3)) (image$ (uus$ ?v1 ?v2) ?v3)) (hoare_derivs$ ?v0 (image$ (uur$ ?v1 ?v2) ?v3)))) :named a273))
-(assert (! (forall ((?v0 State_triple_set$) (?v1 (-> State$ (-> State$ Bool))) (?v2 (-> State$ Bool)) (?v3 Com$)) (=> (hoare_derivs$ ?v0 (insert$ (triple$ (peek_and$ ?v1 ?v2) ?v3 ?v1) bot$d)) (hoare_derivs$ ?v0 (insert$ (triple$ ?v1 (while$ ?v2 ?v3) (peek_and$ ?v1 (comp$ uut$ ?v2))) bot$d)))) :named a274))
-(assert (! (forall ((?v0 State_triple_set$) (?v1 (-> Pname$ (-> State$ (-> State$ Bool)))) (?v2 (-> Pname$ (-> State$ (-> State$ Bool)))) (?v3 Pname_set$)) (=> (hoare_valids$ (sup$ ?v0 (image$ (uur$ ?v1 ?v2) ?v3)) (image$ (uus$ ?v1 ?v2) ?v3)) (hoare_valids$ ?v0 (image$ (uur$ ?v1 ?v2) ?v3)))) :named a275))
-(assert (! (forall ((?v0 State_triple_set$) (?v1 (-> State$ (-> State$ Bool))) (?v2 (-> State$ Bool)) (?v3 Com$)) (=> (hoare_valids$ ?v0 (insert$ (triple$ (peek_and$ ?v1 ?v2) ?v3 ?v1) bot$d)) (hoare_valids$ ?v0 (insert$ (triple$ ?v1 (while$ ?v2 ?v3) (peek_and$ ?v1 (comp$ uut$ ?v2))) bot$d)))) :named a276))
-(assert (! (forall ((?v0 State_triple_set$) (?v1 State_triple_set$)) (=> (hoare_derivs$ ?v0 ?v1) (hoare_valids$ ?v0 ?v1))) :named a277))
-(assert (! (forall ((?v0 Pname_set$) (?v1 State_triple_set$) (?v2 (-> Pname$ (-> State$ (-> State$ Bool)))) (?v3 (-> Pname$ Com$)) (?v4 (-> Pname$ (-> State$ (-> State$ Bool)))) (?v5 (-> Pname$ (-> State$ (-> State$ Bool)))) (?v6 (-> Pname$ (-> State$ (-> State$ Bool))))) (=> (and (finite$ ?v0) (and (forall ((?v7 Pname$)) (=> (hoare_derivs$ ?v1 (insert$ (triple$ (?v2 ?v7) (?v3 ?v7) (?v4 ?v7)) bot$d)) (hoare_derivs$ ?v1 (insert$ (triple$ (?v5 ?v7) (?v3 ?v7) (?v6 ?v7)) bot$d)))) (hoare_derivs$ ?v1 (image$ (uuu$ ?v2 ?v3 ?v4) ?v0)))) (hoare_derivs$ ?v1 (image$ (uuv$ ?v3 ?v5 ?v6) ?v0)))) :named a278))
-(assert (! (forall ((?v0 State_triple_set$) (?v1 Com$)) (=> (hoare_derivs$ ?v0 (insert$ (mgt$ ?v1) bot$d)) (hoare_derivs$ ?v0 (insert$ (triple$ (uuw$ ?v1) ?v1 uuq$) bot$d)))) :named a279))
-(assert (! (forall ((?v0 Nat$) (?v1 State_triple$)) (= (triple_valid$ ?v0 ?v1) (case_triple$ (uux$ ?v0) ?v1))) :named a280))
-(assert (! (forall ((?v0 (-> State_triple$ Com_option$)) (?v1 State_triple$) (?v2 Com$)) (=> (= (?v0 ?v1) none$) (= (ran$ (fun_upd$ ?v0 ?v1 (some$ ?v2))) (insert$a ?v2 (ran$ ?v0))))) :named a281))
-(assert (! (forall ((?v0 (-> Pname$ Com_option$)) (?v1 Pname$) (?v2 Com$)) (=> (= (?v0 ?v1) none$) (= (ran$a (fun_upd$a ?v0 ?v1 (some$ ?v2))) (insert$a ?v2 (ran$a ?v0))))) :named a282))
-(assert (! (forall ((?v0 State_triple$) (?v1 State_triple$)) (= (fun_upd$ uuy$ ?v0 none$ ?v1) none$)) :named a283))
-(assert (! (forall ((?v0 Pname$) (?v1 Pname$)) (= (fun_upd$a uuz$ ?v0 none$ ?v1) none$)) :named a284))
-(assert (! (forall ((?v0 (-> State_triple$ Com_option$)) (?v1 State_triple$) (?v2 Com$)) (not (= (fun_upd$ ?v0 ?v1 (some$ ?v2)) uuy$))) :named a285))
-(assert (! (forall ((?v0 (-> Pname$ Com_option$)) (?v1 Pname$) (?v2 Com$)) (not (= (fun_upd$a ?v0 ?v1 (some$ ?v2)) uuz$))) :named a286))
-(assert (! (forall ((?v0 (-> State_triple$ State_triple_option$)) (?v1 State_triple$)) (= (= (dom$ ?v0) (insert$ ?v1 bot$d)) (exists ((?v2 State_triple$)) (= ?v0 (fun_upd$b uva$ ?v1 (some$a ?v2)))))) :named a287))
-(assert (! (forall ((?v0 (-> Com$ State_triple_option$)) (?v1 Com$)) (= (= (dom$a ?v0) (insert$a ?v1 bot$c)) (exists ((?v2 State_triple$)) (= ?v0 (fun_upd$c uvb$ ?v1 (some$a ?v2)))))) :named a288))
-(assert (! (forall ((?v0 (-> Com$ Com_option$)) (?v1 Com$)) (= (= (dom$b ?v0) (insert$a ?v1 bot$c)) (exists ((?v2 Com$)) (= ?v0 (fun_upd$d uue$ ?v1 (some$ ?v2)))))) :named a289))
-(assert (! (forall ((?v0 (-> Pname$ State_triple_option$)) (?v1 Pname$)) (= (= (dom$c ?v0) (insert$b ?v1 bot$)) (exists ((?v2 State_triple$)) (= ?v0 (fun_upd$e uvc$ ?v1 (some$a ?v2)))))) :named a290))
-(assert (! (forall ((?v0 (-> State_triple_option$ State_triple_option$)) (?v1 State_triple_option$)) (= (= (dom$d ?v0) (insert$c ?v1 bot$a)) (exists ((?v2 State_triple$)) (= ?v0 (fun_upd$f uvd$ ?v1 (some$a ?v2)))))) :named a291))
-(assert (! (forall ((?v0 (-> State_triple_option$ Com_option$)) (?v1 State_triple_option$)) (= (= (dom$e ?v0) (insert$c ?v1 bot$a)) (exists ((?v2 Com$)) (= ?v0 (fun_upd$g uve$ ?v1 (some$ ?v2)))))) :named a292))
-(assert (! (forall ((?v0 (-> Com_option$ State_triple_option$)) (?v1 Com_option$)) (= (= (dom$f ?v0) (insert$d ?v1 bot$b)) (exists ((?v2 State_triple$)) (= ?v0 (fun_upd$h uvf$ ?v1 (some$a ?v2)))))) :named a293))
-(assert (! (forall ((?v0 (-> Com_option$ Com_option$)) (?v1 Com_option$)) (= (= (dom$g ?v0) (insert$d ?v1 bot$b)) (exists ((?v2 Com$)) (= ?v0 (fun_upd$i uvg$ ?v1 (some$ ?v2)))))) :named a294))
-(assert (! (forall ((?v0 (-> Pname$ Com_option$)) (?v1 Pname$)) (= (= (dom$h ?v0) (insert$b ?v1 bot$)) (exists ((?v2 Com$)) (= ?v0 (fun_upd$a uuz$ ?v1 (some$ ?v2)))))) :named a295))
-(assert (! (forall ((?v0 (-> State_triple$ Com_option$)) (?v1 State_triple$)) (= (= (dom$i ?v0) (insert$ ?v1 bot$d)) (exists ((?v2 Com$)) (= ?v0 (fun_upd$ uuy$ ?v1 (some$ ?v2)))))) :named a296))
-(assert (! (forall ((?v0 (-> State_triple$ Com_option$)) (?v1 (-> State_triple$ Com_option$)) (?v2 State_triple$) (?v3 Com$)) (=> (map_le$ ?v0 ?v1) (map_le$ (fun_upd$ ?v0 ?v2 none$) (fun_upd$ ?v1 ?v2 (some$ ?v3))))) :named a297))
-(assert (! (forall ((?v0 (-> Pname$ Com_option$)) (?v1 (-> Pname$ Com_option$)) (?v2 Pname$) (?v3 Com$)) (=> (map_le$a ?v0 ?v1) (map_le$a (fun_upd$a ?v0 ?v2 none$) (fun_upd$a ?v1 ?v2 (some$ ?v3))))) :named a298))
-(assert (! (forall ((?v0 (-> State_triple$ State_triple_option$))) (= (= (dom$ ?v0) bot$d) (= ?v0 uva$))) :named a299))
-(assert (! (forall ((?v0 (-> Com$ Com_option$))) (= (= (dom$b ?v0) bot$c) (= ?v0 uue$))) :named a300))
-(assert (! (forall ((?v0 (-> Com$ State_triple_option$))) (= (= (dom$a ?v0) bot$c) (= ?v0 uvb$))) :named a301))
-(assert (! (forall ((?v0 (-> Pname$ State_triple_option$))) (= (= (dom$c ?v0) bot$) (= ?v0 uvc$))) :named a302))
-(assert (! (forall ((?v0 (-> State_triple_option$ Com_option$))) (= (= (dom$e ?v0) bot$a) (= ?v0 uve$))) :named a303))
-(assert (! (forall ((?v0 (-> State_triple_option$ State_triple_option$))) (= (= (dom$d ?v0) bot$a) (= ?v0 uvd$))) :named a304))
-(assert (! (forall ((?v0 (-> Com_option$ Com_option$))) (= (= (dom$g ?v0) bot$b) (= ?v0 uvg$))) :named a305))
-(assert (! (forall ((?v0 (-> Com_option$ State_triple_option$))) (= (= (dom$f ?v0) bot$b) (= ?v0 uvf$))) :named a306))
-(assert (! (forall ((?v0 (-> Pname$ Com_option$))) (= (= (dom$h ?v0) bot$) (= ?v0 uuz$))) :named a307))
-(assert (! (forall ((?v0 (-> State_triple$ Com_option$))) (= (= (dom$i ?v0) bot$d) (= ?v0 uuy$))) :named a308))
-(assert (! (= (dom$ uva$) bot$d) :named a309))
-(assert (! (= (dom$b uue$) bot$c) :named a310))
-(assert (! (= (dom$a uvb$) bot$c) :named a311))
-(assert (! (= (dom$c uvc$) bot$) :named a312))
-(assert (! (= (dom$e uve$) bot$a) :named a313))
-(assert (! (= (dom$d uvd$) bot$a) :named a314))
-(assert (! (= (dom$g uvg$) bot$b) :named a315))
-(assert (! (= (dom$f uvf$) bot$b) :named a316))
-(assert (! (= (dom$h uuz$) bot$) :named a317))
-(assert (! (= (dom$i uuy$) bot$d) :named a318))
-(assert (! (finite$ (dom$h body$)) :named a319))
-(assert (! (forall ((?v0 Com$) (?v1 (-> Com$ Com_option$))) (= (member$b ?v0 (dom$b ?v1)) (not (= (?v1 ?v0) none$)))) :named a320))
-(assert (! (forall ((?v0 State_triple$) (?v1 (-> State_triple$ Com_option$))) (= (member$ ?v0 (dom$i ?v1)) (not (= (?v1 ?v0) none$)))) :named a321))
-(assert (! (forall ((?v0 Com$) (?v1 (-> Com$ State_triple_option$))) (= (member$b ?v0 (dom$a ?v1)) (not (= (?v1 ?v0) none$a)))) :named a322))
-(assert (! (forall ((?v0 Pname$) (?v1 (-> Pname$ State_triple_option$))) (= (member$a ?v0 (dom$c ?v1)) (not (= (?v1 ?v0) none$a)))) :named a323))
-(assert (! (forall ((?v0 State_triple$) (?v1 (-> State_triple$ State_triple_option$))) (= (member$ ?v0 (dom$ ?v1)) (not (= (?v1 ?v0) none$a)))) :named a324))
-(assert (! (forall ((?v0 Pname$) (?v1 (-> Pname$ Com_option$))) (= (member$a ?v0 (dom$h ?v1)) (not (= (?v1 ?v0) none$)))) :named a325))
-(assert (! (forall ((?v0 (-> State_triple$ Com_option$))) (= (dom$i ?v0) (collect$a (uvh$ ?v0)))) :named a326))
-(assert (! (forall ((?v0 (-> Pname$ State_triple_option$))) (= (dom$c ?v0) (collect$b (uvi$ ?v0)))) :named a327))
-(assert (! (forall ((?v0 (-> Pname$ Com_option$))) (= (dom$h ?v0) (collect$b (uvj$ ?v0)))) :named a328))
-(assert (! (forall ((?v0 (-> State_triple$ Com_option$)) (?v1 State_triple$)) (map_le$ (fun_upd$ ?v0 ?v1 none$) ?v0)) :named a329))
-(assert (! (forall ((?v0 (-> Pname$ Com_option$)) (?v1 Pname$)) (map_le$a (fun_upd$a ?v0 ?v1 none$) ?v0)) :named a330))
-(assert (! (forall ((?v0 (-> Com$ Com_option$)) (?v1 Com$) (?v2 Com_option$)) (= (dom$b (fun_upd$d ?v0 ?v1 ?v2)) (ite (= ?v2 none$) (minus$ (dom$b ?v0) (insert$a ?v1 bot$c)) (insert$a ?v1 (dom$b ?v0))))) :named a331))
-(assert (! (forall ((?v0 (-> Com$ State_triple_option$)) (?v1 Com$) (?v2 State_triple_option$)) (= (dom$a (fun_upd$c ?v0 ?v1 ?v2)) (ite (= ?v2 none$a) (minus$ (dom$a ?v0) (insert$a ?v1 bot$c)) (insert$a ?v1 (dom$a ?v0))))) :named a332))
-(assert (! (forall ((?v0 (-> State_triple_option$ Com_option$)) (?v1 State_triple_option$) (?v2 Com_option$)) (= (dom$e (fun_upd$g ?v0 ?v1 ?v2)) (ite (= ?v2 none$) (minus$a (dom$e ?v0) (insert$c ?v1 bot$a)) (insert$c ?v1 (dom$e ?v0))))) :named a333))
-(assert (! (forall ((?v0 (-> State_triple_option$ State_triple_option$)) (?v1 State_triple_option$) (?v2 State_triple_option$)) (= (dom$d (fun_upd$f ?v0 ?v1 ?v2)) (ite (= ?v2 none$a) (minus$a (dom$d ?v0) (insert$c ?v1 bot$a)) (insert$c ?v1 (dom$d ?v0))))) :named a334))
-(assert (! (forall ((?v0 (-> Com_option$ Com_option$)) (?v1 Com_option$) (?v2 Com_option$)) (= (dom$g (fun_upd$i ?v0 ?v1 ?v2)) (ite (= ?v2 none$) (minus$b (dom$g ?v0) (insert$d ?v1 bot$b)) (insert$d ?v1 (dom$g ?v0))))) :named a335))
-(assert (! (forall ((?v0 (-> Com_option$ State_triple_option$)) (?v1 Com_option$) (?v2 State_triple_option$)) (= (dom$f (fun_upd$h ?v0 ?v1 ?v2)) (ite (= ?v2 none$a) (minus$b (dom$f ?v0) (insert$d ?v1 bot$b)) (insert$d ?v1 (dom$f ?v0))))) :named a336))
-(assert (! (forall ((?v0 (-> State_triple$ State_triple_option$)) (?v1 State_triple$) (?v2 State_triple_option$)) (= (dom$ (fun_upd$b ?v0 ?v1 ?v2)) (ite (= ?v2 none$a) (minus$c (dom$ ?v0) (insert$ ?v1 bot$d)) (insert$ ?v1 (dom$ ?v0))))) :named a337))
-(assert (! (forall ((?v0 (-> Pname$ State_triple_option$)) (?v1 Pname$) (?v2 State_triple_option$)) (= (dom$c (fun_upd$e ?v0 ?v1 ?v2)) (ite (= ?v2 none$a) (minus$d (dom$c ?v0) (insert$b ?v1 bot$)) (insert$b ?v1 (dom$c ?v0))))) :named a338))
-(assert (! (forall ((?v0 (-> Pname$ Com_option$)) (?v1 Pname$) (?v2 Com_option$)) (= (dom$h (fun_upd$a ?v0 ?v1 ?v2)) (ite (= ?v2 none$) (minus$d (dom$h ?v0) (insert$b ?v1 bot$)) (insert$b ?v1 (dom$h ?v0))))) :named a339))
-(assert (! (forall ((?v0 (-> State_triple$ Com_option$)) (?v1 State_triple$) (?v2 Com_option$)) (= (dom$i (fun_upd$ ?v0 ?v1 ?v2)) (ite (= ?v2 none$) (minus$c (dom$i ?v0) (insert$ ?v1 bot$d)) (insert$ ?v1 (dom$i ?v0))))) :named a340))
-(assert (! (forall ((?v0 (-> Com$ Com$)) (?v1 Com_option$)) (= (map_option$ ?v0 ?v1) (case_option$b none$ (uvk$ ?v0) ?v1))) :named a341))
-(assert (! (forall ((?v0 (-> State_triple$ Com$)) (?v1 State_triple_option$)) (= (= (map_option$a ?v0 ?v1) none$) (= ?v1 none$a))) :named a342))
-(assert (! (forall ((?v0 (-> Com$ State_triple$)) (?v1 Com_option$)) (= (= (map_option$b ?v0 ?v1) none$a) (= ?v1 none$))) :named a343))
-(assert (! (forall ((?v0 (-> State_triple$ State_triple$)) (?v1 State_triple_option$)) (= (= (map_option$c ?v0 ?v1) none$a) (= ?v1 none$a))) :named a344))
-(assert (! (forall ((?v0 (-> Com$ Com$)) (?v1 Com_option$)) (= (= (map_option$ ?v0 ?v1) none$) (= ?v1 none$))) :named a345))
-(assert (! (forall ((?v0 (-> State_triple$ Com$)) (?v1 State_triple_option$)) (= (= (map_option$a ?v0 ?v1) none$) (= ?v1 none$a))) :named a346))
-(assert (! (forall ((?v0 (-> Com$ State_triple$)) (?v1 Com_option$)) (= (= (map_option$b ?v0 ?v1) none$a) (= ?v1 none$))) :named a347))
-(assert (! (forall ((?v0 (-> State_triple$ State_triple$)) (?v1 State_triple_option$)) (= (= (map_option$c ?v0 ?v1) none$a) (= ?v1 none$a))) :named a348))
-(assert (! (forall ((?v0 (-> Com$ Com$)) (?v1 Com_option$)) (= (= (map_option$ ?v0 ?v1) none$) (= ?v1 none$))) :named a349))
-(assert (! (forall ((?v0 (-> State_triple$ Com$)) (?v1 State_triple_option$)) (= (= none$ (map_option$a ?v0 ?v1)) (= ?v1 none$a))) :named a350))
-(assert (! (forall ((?v0 (-> Com$ State_triple$)) (?v1 Com_option$)) (= (= none$a (map_option$b ?v0 ?v1)) (= ?v1 none$))) :named a351))
-(assert (! (forall ((?v0 (-> State_triple$ State_triple$)) (?v1 State_triple_option$)) (= (= none$a (map_option$c ?v0 ?v1)) (= ?v1 none$a))) :named a352))
-(assert (! (forall ((?v0 (-> Com$ Com$)) (?v1 Com_option$)) (= (= none$ (map_option$ ?v0 ?v1)) (= ?v1 none$))) :named a353))
-(assert (! (forall ((?v0 (-> Com$ State_triple$))) (! (= (map_option$b ?v0 none$) none$a) :pattern ((map_option$b ?v0)))) :named a354))
-(assert (! (forall ((?v0 (-> State_triple$ Com$))) (! (= (map_option$a ?v0 none$a) none$) :pattern ((map_option$a ?v0)))) :named a355))
-(assert (! (forall ((?v0 (-> State_triple$ State_triple$))) (! (= (map_option$c ?v0 none$a) none$a) :pattern ((map_option$c ?v0)))) :named a356))
-(assert (! (forall ((?v0 (-> Com$ Com$))) (! (= (map_option$ ?v0 none$) none$) :pattern ((map_option$ ?v0)))) :named a357))
-(assert (! (forall ((?v0 State_triple_option$) (?v1 (-> State_triple$ Com$))) (=> (not (= ?v0 none$a)) (= (the$ (map_option$a ?v1 ?v0)) (?v1 (the$a ?v0))))) :named a358))
-(assert (! (forall ((?v0 Com_option$) (?v1 (-> Com$ Com$))) (=> (not (= ?v0 none$)) (= (the$ (map_option$ ?v1 ?v0)) (?v1 (the$ ?v0))))) :named a359))
-(assert (! (forall ((?v0 (-> State_triple_option$ Com_option$)) (?v1 State_triple_option$) (?v2 State_triple_option_set$)) (=> (= (?v0 ?v1) none$) (= (minus$a (dom$e ?v0) (insert$c ?v1 ?v2)) (minus$a (dom$e ?v0) ?v2)))) :named a360))
-(assert (! (forall ((?v0 (-> Com_option$ Com_option$)) (?v1 Com_option$) (?v2 Com_option_set$)) (=> (= (?v0 ?v1) none$) (= (minus$b (dom$g ?v0) (insert$d ?v1 ?v2)) (minus$b (dom$g ?v0) ?v2)))) :named a361))
-(assert (! (forall ((?v0 (-> State_triple_option$ State_triple_option$)) (?v1 State_triple_option$) (?v2 State_triple_option_set$)) (=> (= (?v0 ?v1) none$a) (= (minus$a (dom$d ?v0) (insert$c ?v1 ?v2)) (minus$a (dom$d ?v0) ?v2)))) :named a362))
-(assert (! (forall ((?v0 (-> Com_option$ State_triple_option$)) (?v1 Com_option$) (?v2 Com_option_set$)) (=> (= (?v0 ?v1) none$a) (= (minus$b (dom$f ?v0) (insert$d ?v1 ?v2)) (minus$b (dom$f ?v0) ?v2)))) :named a363))
-(assert (! (forall ((?v0 (-> State_triple$ State_triple_option$)) (?v1 State_triple$) (?v2 State_triple_set$)) (=> (= (?v0 ?v1) none$a) (= (minus$c (dom$ ?v0) (insert$ ?v1 ?v2)) (minus$c (dom$ ?v0) ?v2)))) :named a364))
-(assert (! (forall ((?v0 (-> Pname$ State_triple_option$)) (?v1 Pname$) (?v2 Pname_set$)) (=> (= (?v0 ?v1) none$a) (= (minus$d (dom$c ?v0) (insert$b ?v1 ?v2)) (minus$d (dom$c ?v0) ?v2)))) :named a365))
-(assert (! (forall ((?v0 (-> Pname$ Com_option$)) (?v1 Pname$) (?v2 Pname_set$)) (=> (= (?v0 ?v1) none$) (= (minus$d (dom$h ?v0) (insert$b ?v1 ?v2)) (minus$d (dom$h ?v0) ?v2)))) :named a366))
-(assert (! (forall ((?v0 (-> State_triple$ Com_option$)) (?v1 State_triple$) (?v2 State_triple_set$)) (=> (= (?v0 ?v1) none$) (= (minus$c (dom$i ?v0) (insert$ ?v1 ?v2)) (minus$c (dom$i ?v0) ?v2)))) :named a367))
-(assert (! (forall ((?v0 (-> Com$ Com_option$)) (?v1 Com_set$) (?v2 Com$)) (= (fun_upd$d (restrict_map$ ?v0 ?v1) ?v2 none$) (ite (member$b ?v2 ?v1) (restrict_map$ ?v0 (minus$ ?v1 (insert$a ?v2 bot$c))) (restrict_map$ ?v0 ?v1)))) :named a368))
-(assert (! (forall ((?v0 (-> Com$ State_triple_option$)) (?v1 Com_set$) (?v2 Com$)) (= (fun_upd$c (restrict_map$a ?v0 ?v1) ?v2 none$a) (ite (member$b ?v2 ?v1) (restrict_map$a ?v0 (minus$ ?v1 (insert$a ?v2 bot$c))) (restrict_map$a ?v0 ?v1)))) :named a369))
-(assert (! (forall ((?v0 (-> State_triple_option$ Com_option$)) (?v1 State_triple_option_set$) (?v2 State_triple_option$)) (= (fun_upd$g (restrict_map$b ?v0 ?v1) ?v2 none$) (ite (member$c ?v2 ?v1) (restrict_map$b ?v0 (minus$a ?v1 (insert$c ?v2 bot$a))) (restrict_map$b ?v0 ?v1)))) :named a370))
-(assert (! (forall ((?v0 (-> State_triple_option$ State_triple_option$)) (?v1 State_triple_option_set$) (?v2 State_triple_option$)) (= (fun_upd$f (restrict_map$c ?v0 ?v1) ?v2 none$a) (ite (member$c ?v2 ?v1) (restrict_map$c ?v0 (minus$a ?v1 (insert$c ?v2 bot$a))) (restrict_map$c ?v0 ?v1)))) :named a371))
-(assert (! (forall ((?v0 (-> Com_option$ Com_option$)) (?v1 Com_option_set$) (?v2 Com_option$)) (= (fun_upd$i (restrict_map$d ?v0 ?v1) ?v2 none$) (ite (member$d ?v2 ?v1) (restrict_map$d ?v0 (minus$b ?v1 (insert$d ?v2 bot$b))) (restrict_map$d ?v0 ?v1)))) :named a372))
-(assert (! (forall ((?v0 (-> Com_option$ State_triple_option$)) (?v1 Com_option_set$) (?v2 Com_option$)) (= (fun_upd$h (restrict_map$e ?v0 ?v1) ?v2 none$a) (ite (member$d ?v2 ?v1) (restrict_map$e ?v0 (minus$b ?v1 (insert$d ?v2 bot$b))) (restrict_map$e ?v0 ?v1)))) :named a373))
-(assert (! (forall ((?v0 (-> State_triple$ State_triple_option$)) (?v1 State_triple_set$) (?v2 State_triple$)) (= (fun_upd$b (restrict_map$f ?v0 ?v1) ?v2 none$a) (ite (member$ ?v2 ?v1) (restrict_map$f ?v0 (minus$c ?v1 (insert$ ?v2 bot$d))) (restrict_map$f ?v0 ?v1)))) :named a374))
-(assert (! (forall ((?v0 (-> Pname$ Com_option$)) (?v1 Pname_set$) (?v2 Pname$)) (= (fun_upd$a (restrict_map$g ?v0 ?v1) ?v2 none$) (ite (member$a ?v2 ?v1) (restrict_map$g ?v0 (minus$d ?v1 (insert$b ?v2 bot$))) (restrict_map$g ?v0 ?v1)))) :named a375))
-(assert (! (forall ((?v0 (-> Pname$ State_triple_option$)) (?v1 Pname_set$) (?v2 Pname$)) (= (fun_upd$e (restrict_map$h ?v0 ?v1) ?v2 none$a) (ite (member$a ?v2 ?v1) (restrict_map$h ?v0 (minus$d ?v1 (insert$b ?v2 bot$))) (restrict_map$h ?v0 ?v1)))) :named a376))
-(assert (! (forall ((?v0 (-> State_triple$ Com_option$)) (?v1 State_triple_set$) (?v2 State_triple$)) (= (fun_upd$ (restrict_map$i ?v0 ?v1) ?v2 none$) (ite (member$ ?v2 ?v1) (restrict_map$i ?v0 (minus$c ?v1 (insert$ ?v2 bot$d))) (restrict_map$i ?v0 ?v1)))) :named a377))
-(assert (! (forall ((?v0 Pname_option_set$)) (= (not (= (these$ ?v0) bot$)) (and (not (= ?v0 bot$e)) (not (= ?v0 (insert$e none$b bot$e)))))) :named a378))
-(assert (! (forall ((?v0 State_triple_option_option_set$)) (= (not (= (these$a ?v0) bot$a)) (and (not (= ?v0 bot$f)) (not (= ?v0 (insert$f none$c bot$f)))))) :named a379))
-(assert (! (forall ((?v0 Com_option_option_set$)) (= (not (= (these$b ?v0) bot$b)) (and (not (= ?v0 bot$g)) (not (= ?v0 (insert$g none$d bot$g)))))) :named a380))
-(assert (! (forall ((?v0 Com_option_set$)) (= (not (= (these$c ?v0) bot$c)) (and (not (= ?v0 bot$b)) (not (= ?v0 (insert$d none$ bot$b)))))) :named a381))
-(assert (! (forall ((?v0 State_triple_option_set$)) (= (not (= (these$d ?v0) bot$d)) (and (not (= ?v0 bot$a)) (not (= ?v0 (insert$c none$a bot$a)))))) :named a382))
-(assert (! (forall ((?v0 Com$) (?v1 Com_set$) (?v2 (-> Com$ Com_option$))) (! (=> (not (member$b ?v0 ?v1)) (= (restrict_map$ ?v2 ?v1 ?v0) none$)) :pattern ((restrict_map$ ?v2 ?v1 ?v0)))) :named a383))
-(assert (! (forall ((?v0 Pname$) (?v1 Pname_set$) (?v2 (-> Pname$ Com_option$))) (! (=> (not (member$a ?v0 ?v1)) (= (restrict_map$g ?v2 ?v1 ?v0) none$)) :pattern ((restrict_map$g ?v2 ?v1 ?v0)))) :named a384))
-(assert (! (forall ((?v0 State_triple$) (?v1 State_triple_set$) (?v2 (-> State_triple$ Com_option$))) (! (=> (not (member$ ?v0 ?v1)) (= (restrict_map$i ?v2 ?v1 ?v0) none$)) :pattern ((restrict_map$i ?v2 ?v1 ?v0)))) :named a385))
-(assert (! (forall ((?v0 Com$) (?v1 Com_set$) (?v2 (-> Com$ State_triple_option$))) (! (=> (not (member$b ?v0 ?v1)) (= (restrict_map$a ?v2 ?v1 ?v0) none$a)) :pattern ((restrict_map$a ?v2 ?v1 ?v0)))) :named a386))
-(assert (! (forall ((?v0 Pname$) (?v1 Pname_set$) (?v2 (-> Pname$ State_triple_option$))) (! (=> (not (member$a ?v0 ?v1)) (= (restrict_map$h ?v2 ?v1 ?v0) none$a)) :pattern ((restrict_map$h ?v2 ?v1 ?v0)))) :named a387))
-(assert (! (forall ((?v0 State_triple$) (?v1 State_triple_set$) (?v2 (-> State_triple$ State_triple_option$))) (! (=> (not (member$ ?v0 ?v1)) (= (restrict_map$f ?v2 ?v1 ?v0) none$a)) :pattern ((restrict_map$f ?v2 ?v1 ?v0)))) :named a388))
-(assert (! (forall ((?v0 State_triple_set$) (?v1 State_triple$)) (= (restrict_map$i uuy$ ?v0 ?v1) none$)) :named a389))
-(assert (! (forall ((?v0 (-> Com_option$ Com_option$)) (?v1 Com_option$)) (= (restrict_map$d ?v0 bot$b ?v1) none$)) :named a390))
-(assert (! (forall ((?v0 (-> Com_option$ State_triple_option$)) (?v1 Com_option$)) (= (restrict_map$e ?v0 bot$b ?v1) none$a)) :named a391))
-(assert (! (forall ((?v0 (-> State_triple$ Com_option$)) (?v1 State_triple$)) (= (restrict_map$i ?v0 bot$d ?v1) none$)) :named a392))
-(assert (! (forall ((?v0 Com_option_set$)) (= (these$c (insert$d none$ ?v0)) (these$c ?v0))) :named a393))
-(assert (! (forall ((?v0 Com_option_set$)) (= (= (these$c ?v0) bot$c) (or (= ?v0 bot$b) (= ?v0 (insert$d none$ bot$b))))) :named a394))
-(assert (! (forall ((?v0 State_triple_option_set$)) (= (= (these$d ?v0) bot$d) (or (= ?v0 bot$a) (= ?v0 (insert$c none$a bot$a))))) :named a395))
-(assert (! (forall ((?v0 (-> State_triple$ Com_option$)) (?v1 State_triple$)) (= (restrict_map$i ?v0 (uminus$ (insert$ ?v1 bot$d))) (fun_upd$ ?v0 ?v1 none$))) :named a396))
-(check-sat)
-;(get-proof)
diff --git a/test/regress/regress0/hole6.cvc b/test/regress/regress0/hole6.cvc
deleted file mode 100644
index dfa9b72d5..000000000
--- a/test/regress/regress0/hole6.cvc
+++ /dev/null
@@ -1,179 +0,0 @@
-% EXPECT: valid
-x_1 : BOOLEAN;
-x_2 : BOOLEAN;
-x_3 : BOOLEAN;
-x_4 : BOOLEAN;
-x_5 : BOOLEAN;
-x_6 : BOOLEAN;
-x_7 : BOOLEAN;
-x_8 : BOOLEAN;
-x_9 : BOOLEAN;
-x_10 : BOOLEAN;
-x_11 : BOOLEAN;
-x_12 : BOOLEAN;
-x_13 : BOOLEAN;
-x_14 : BOOLEAN;
-x_15 : BOOLEAN;
-x_16 : BOOLEAN;
-x_17 : BOOLEAN;
-x_18 : BOOLEAN;
-x_19 : BOOLEAN;
-x_20 : BOOLEAN;
-x_21 : BOOLEAN;
-x_22 : BOOLEAN;
-x_23 : BOOLEAN;
-x_24 : BOOLEAN;
-x_25 : BOOLEAN;
-x_26 : BOOLEAN;
-x_27 : BOOLEAN;
-x_28 : BOOLEAN;
-x_29 : BOOLEAN;
-x_30 : BOOLEAN;
-x_31 : BOOLEAN;
-x_32 : BOOLEAN;
-x_33 : BOOLEAN;
-x_34 : BOOLEAN;
-x_35 : BOOLEAN;
-x_36 : BOOLEAN;
-x_37 : BOOLEAN;
-x_38 : BOOLEAN;
-x_39 : BOOLEAN;
-x_40 : BOOLEAN;
-x_41 : BOOLEAN;
-x_42 : BOOLEAN;
-ASSERT NOT x_1 OR NOT x_7;
-ASSERT NOT x_1 OR NOT x_13;
-ASSERT NOT x_1 OR NOT x_19;
-ASSERT NOT x_1 OR NOT x_25;
-ASSERT NOT x_1 OR NOT x_31;
-ASSERT NOT x_1 OR NOT x_37;
-ASSERT NOT x_7 OR NOT x_13;
-ASSERT NOT x_7 OR NOT x_19;
-ASSERT NOT x_7 OR NOT x_25;
-ASSERT NOT x_7 OR NOT x_31;
-ASSERT NOT x_7 OR NOT x_37;
-ASSERT NOT x_13 OR NOT x_19;
-ASSERT NOT x_13 OR NOT x_25;
-ASSERT NOT x_13 OR NOT x_31;
-ASSERT NOT x_13 OR NOT x_37;
-ASSERT NOT x_19 OR NOT x_25;
-ASSERT NOT x_19 OR NOT x_31;
-ASSERT NOT x_19 OR NOT x_37;
-ASSERT NOT x_25 OR NOT x_31;
-ASSERT NOT x_25 OR NOT x_37;
-ASSERT NOT x_31 OR NOT x_37;
-ASSERT NOT x_2 OR NOT x_8;
-ASSERT NOT x_2 OR NOT x_14;
-ASSERT NOT x_2 OR NOT x_20;
-ASSERT NOT x_2 OR NOT x_26;
-ASSERT NOT x_2 OR NOT x_32;
-ASSERT NOT x_2 OR NOT x_38;
-ASSERT NOT x_8 OR NOT x_14;
-ASSERT NOT x_8 OR NOT x_20;
-ASSERT NOT x_8 OR NOT x_26;
-ASSERT NOT x_8 OR NOT x_32;
-ASSERT NOT x_8 OR NOT x_38;
-ASSERT NOT x_14 OR NOT x_20;
-ASSERT NOT x_14 OR NOT x_26;
-ASSERT NOT x_14 OR NOT x_32;
-ASSERT NOT x_14 OR NOT x_38;
-ASSERT NOT x_20 OR NOT x_26;
-ASSERT NOT x_20 OR NOT x_32;
-ASSERT NOT x_20 OR NOT x_38;
-ASSERT NOT x_26 OR NOT x_32;
-ASSERT NOT x_26 OR NOT x_38;
-ASSERT NOT x_32 OR NOT x_38;
-ASSERT NOT x_3 OR NOT x_9;
-ASSERT NOT x_3 OR NOT x_15;
-ASSERT NOT x_3 OR NOT x_21;
-ASSERT NOT x_3 OR NOT x_27;
-ASSERT NOT x_3 OR NOT x_33;
-ASSERT NOT x_3 OR NOT x_39;
-ASSERT NOT x_9 OR NOT x_15;
-ASSERT NOT x_9 OR NOT x_21;
-ASSERT NOT x_9 OR NOT x_27;
-ASSERT NOT x_9 OR NOT x_33;
-ASSERT NOT x_9 OR NOT x_39;
-ASSERT NOT x_15 OR NOT x_21;
-ASSERT NOT x_15 OR NOT x_27;
-ASSERT NOT x_15 OR NOT x_33;
-ASSERT NOT x_15 OR NOT x_39;
-ASSERT NOT x_21 OR NOT x_27;
-ASSERT NOT x_21 OR NOT x_33;
-ASSERT NOT x_21 OR NOT x_39;
-ASSERT NOT x_27 OR NOT x_33;
-ASSERT NOT x_27 OR NOT x_39;
-ASSERT NOT x_33 OR NOT x_39;
-ASSERT NOT x_4 OR NOT x_10;
-ASSERT NOT x_4 OR NOT x_16;
-ASSERT NOT x_4 OR NOT x_22;
-ASSERT NOT x_4 OR NOT x_28;
-ASSERT NOT x_4 OR NOT x_34;
-ASSERT NOT x_4 OR NOT x_40;
-ASSERT NOT x_10 OR NOT x_16;
-ASSERT NOT x_10 OR NOT x_22;
-ASSERT NOT x_10 OR NOT x_28;
-ASSERT NOT x_10 OR NOT x_34;
-ASSERT NOT x_10 OR NOT x_40;
-ASSERT NOT x_16 OR NOT x_22;
-ASSERT NOT x_16 OR NOT x_28;
-ASSERT NOT x_16 OR NOT x_34;
-ASSERT NOT x_16 OR NOT x_40;
-ASSERT NOT x_22 OR NOT x_28;
-ASSERT NOT x_22 OR NOT x_34;
-ASSERT NOT x_22 OR NOT x_40;
-ASSERT NOT x_28 OR NOT x_34;
-ASSERT NOT x_28 OR NOT x_40;
-ASSERT NOT x_34 OR NOT x_40;
-ASSERT NOT x_5 OR NOT x_11;
-ASSERT NOT x_5 OR NOT x_17;
-ASSERT NOT x_5 OR NOT x_23;
-ASSERT NOT x_5 OR NOT x_29;
-ASSERT NOT x_5 OR NOT x_35;
-ASSERT NOT x_5 OR NOT x_41;
-ASSERT NOT x_11 OR NOT x_17;
-ASSERT NOT x_11 OR NOT x_23;
-ASSERT NOT x_11 OR NOT x_29;
-ASSERT NOT x_11 OR NOT x_35;
-ASSERT NOT x_11 OR NOT x_41;
-ASSERT NOT x_17 OR NOT x_23;
-ASSERT NOT x_17 OR NOT x_29;
-ASSERT NOT x_17 OR NOT x_35;
-ASSERT NOT x_17 OR NOT x_41;
-ASSERT NOT x_23 OR NOT x_29;
-ASSERT NOT x_23 OR NOT x_35;
-ASSERT NOT x_23 OR NOT x_41;
-ASSERT NOT x_29 OR NOT x_35;
-ASSERT NOT x_29 OR NOT x_41;
-ASSERT NOT x_35 OR NOT x_41;
-ASSERT NOT x_6 OR NOT x_12;
-ASSERT NOT x_6 OR NOT x_18;
-ASSERT NOT x_6 OR NOT x_24;
-ASSERT NOT x_6 OR NOT x_30;
-ASSERT NOT x_6 OR NOT x_36;
-ASSERT NOT x_6 OR NOT x_42;
-ASSERT NOT x_12 OR NOT x_18;
-ASSERT NOT x_12 OR NOT x_24;
-ASSERT NOT x_12 OR NOT x_30;
-ASSERT NOT x_12 OR NOT x_36;
-ASSERT NOT x_12 OR NOT x_42;
-ASSERT NOT x_18 OR NOT x_24;
-ASSERT NOT x_18 OR NOT x_30;
-ASSERT NOT x_18 OR NOT x_36;
-ASSERT NOT x_18 OR NOT x_42;
-ASSERT NOT x_24 OR NOT x_30;
-ASSERT NOT x_24 OR NOT x_36;
-ASSERT NOT x_24 OR NOT x_42;
-ASSERT NOT x_30 OR NOT x_36;
-ASSERT NOT x_30 OR NOT x_42;
-ASSERT NOT x_36 OR NOT x_42;
-ASSERT x_6 OR x_5 OR x_4 OR x_3 OR x_2 OR x_1;
-ASSERT x_12 OR x_11 OR x_10 OR x_9 OR x_8 OR x_7;
-ASSERT x_18 OR x_17 OR x_16 OR x_15 OR x_14 OR x_13;
-ASSERT x_24 OR x_23 OR x_22 OR x_21 OR x_20 OR x_19;
-ASSERT x_30 OR x_29 OR x_28 OR x_27 OR x_26 OR x_25;
-ASSERT x_36 OR x_35 OR x_34 OR x_33 OR x_32 OR x_31;
-ASSERT x_42 OR x_41 OR x_40 OR x_39 OR x_38 OR x_37;
-
-
-QUERY FALSE;
diff --git a/test/regress/regress0/issue1048-arrays-int-real.smt2 b/test/regress/regress0/issue1048-arrays-int-real.smt2
deleted file mode 100644
index 6bbfe4cb7..000000000
--- a/test/regress/regress0/issue1048-arrays-int-real.smt2
+++ /dev/null
@@ -1,6 +0,0 @@
-(set-logic QF_ALIRA)
-(declare-fun a () (Array Int Real))
-(declare-fun b () (Array Int Int))
-(assert (= a b))
-(assert (= (select a 0) 0.5))
-(check-sat)
diff --git a/test/regress/regress0/ite5.smt2 b/test/regress/regress0/ite5.smt2
deleted file mode 100644
index e3d2bc9b8..000000000
--- a/test/regress/regress0/ite5.smt2
+++ /dev/null
@@ -1,8 +0,0 @@
-(set-logic QF_AUFBV )
-(set-info :status sat)
-(declare-fun arr0 () (Array (_ BitVec 32) (_ BitVec 8) ) )
-(declare-fun arr1 () (Array (_ BitVec 32) (_ BitVec 8) ) )
-(declare-fun arr2 () (Array (_ BitVec 32) (_ BitVec 8) ) )
-(assert (bvult (ite (bvult (_ bv0 1) ((_ extract 0 0) (select arr1 (_ bv0 32)))) (concat (select arr0 (_ bv7 32)) (select arr0 (_ bv6 32)) (select arr0 (_ bv5 32)) (select arr0 (_ bv4 32)) (select arr0 (_ bv3 32)) (select arr0 (_ bv2 32)) (select arr0 (_ bv1 32)) (select arr0 (_ bv0 32))) (concat (_ bv0 57) ((_ extract 7 1) (select arr2 (_ bv0 32))))) (_ bv1 64) ))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/nl/Makefile.am b/test/regress/regress0/nl/Makefile.am
index e770ca9ba..c10b65931 100644
--- a/test/regress/regress0/nl/Makefile.am
+++ b/test/regress/regress0/nl/Makefile.am
@@ -21,68 +21,21 @@ MAKEFLAGS = -k
 # If a test shouldn't be run in e.g. competition mode,
 # put it below in "TESTS +="
 TESTS =	\
-  quant-nl.smt2 \
-  dist-big.smt2 \
-  simple-mono.smt2 \
   coeff-sat.smt2 \
-  combine.smt2 \
   magnitude-wrong-1020-m.smt2 \
-  nl-unk-quant.smt2 \
   mult-po.smt2 \
   very-simple-unsat.smt2 \
   subs0-unsat-confirm.smt2 \
-  simple-mono-unsat.smt2 \
-  ones.smt2 \
-  metitarski_3_4_2e.smt2 \
-  metitarski-1025.smt2 \
-  poly-1025.smt2 \
   very-easy-sat.smt2 \
-  coeff-unsat.smt2 \
-  coeff-unsat-base.smt2 \
-  red-exp.smt2 \
-  zero-subset.smt2 \
   nia-wrong-tl.smt2 \
-  nl-help-unsat-quant.smt2 \
-  metitarski-3-4.smt2 \
-  rewriting-sums.smt2 \
-  disj-eval.smt2 \
-  bug698.smt2  \
   real-div-ufnra.smt2 \
-  div-mod-partial.smt2 \
-  all-logic.smt2 \
-  sqrt-problem-1.smt2 \
   real-as-int.smt2 \
-  nta/bad-050217.smt2 \
-  nta/cos-bound.smt2 \
   nta/cos-sig-value.smt2 \
-  nta/exp_monotone.smt2 \
-  nta/shifting2.smt2 \
-  nta/shifting.smt2 \
-  nta/sin-compare-across-phase.smt2 \
-  nta/sin-compare.smt2 \
-  nta/sin-sign.smt2 \
-  nta/sin-sym2.smt2 \
   nta/sin-sym.smt2 \
-  nta/tan-rewrite2.smt2 \
   nta/tan-rewrite.smt2 \
-  nta/arrowsmith-050317.smt2 \
-  nta/sin-init-tangents.smt2 \
-  nta/cos1-tc.smt2 \
-  nta/sin1-ub.smt2 \
-  nta/sin1-lb.smt2 \
-  nta/sin2-ub.smt2 \
-  nta/sin2-lb.smt2 \
   nta/exp1-ub.smt2 \
-  nta/exp1-lb.smt2 \
-  nta/exp-4.5-lt.smt2 \
   nta/exp-n0.5-ub.smt2 \
-  nta/exp-n0.5-lb.smt2 \
-  nta/dumortier_llibre_artes_ex_5_13.transcendental.k2.smt2 \
-  nta/NAVIGATION2.smt2 \
-  nta/sin1-sat.smt2 \
-  nta/sugar-ident.smt2 \
-  nta/sugar-ident-2.smt2 \
-  nta/sugar-ident-3.smt2
+  nta/exp-n0.5-lb.smt2
 
 # unsolved : garbage_collect.cvc
 
diff --git a/test/regress/regress0/nl/bug698.smt2 b/test/regress/regress0/nl/bug698.smt2
deleted file mode 100644
index ffb1eead2..000000000
--- a/test/regress/regress0/nl/bug698.smt2
+++ /dev/null
@@ -1,33 +0,0 @@
-; COMMAND-LINE: --incremental --nl-ext --fmf-fun-rlv --no-check-models
-(set-logic UFNIA)
-(set-info :smt-lib-version 2.5)
-
-; EXPECT: sat
-(declare-fun fixedAdd() Int)
-(assert (= fixedAdd (+ 2 (+ 2 (+ 2 0)))))
-(check-sat)
-
-(define-fun-rec $$add$$ ((a Int)(b Int)) Int 
-    (ite (= b 0) 
-         0 
-         (+ a ($$add$$ a (- b 1)))))
-
-; EXPECT: sat
-(declare-fun variableAdd() Int)
-(assert (= variableAdd ($$add$$ 2 3)))
-(check-sat)
-
-; EXPECT: sat
-(declare-fun fixedTimes() Int)
-(assert (= fixedTimes (* 2 (* 2 (* 2 1)))))
-(check-sat)
-        
-; EXPECT: sat
-(define-fun-rec $$pow$$ ((a Int)(b Int)) Int 
-    (ite (= b 0) 
-         1 
-         (* a ($$pow$$ a (- b 1)))))
-
-(declare-fun variableTimes() Int)
-(assert (= variableTimes ($$pow$$ 2 3)))
-(check-sat)
diff --git a/test/regress/regress0/nl/coeff-unsat-base.smt2 b/test/regress/regress0/nl/coeff-unsat-base.smt2
deleted file mode 100644
index d56421bf9..000000000
--- a/test/regress/regress0/nl/coeff-unsat-base.smt2
+++ /dev/null
@@ -1,16 +0,0 @@
-; COMMAND-LINE: --nl-ext
-; EXPECT: unsat
-(set-logic QF_NRA)
-(set-info :status unsat)
-
-(declare-fun a () Real)
-(declare-fun b () Real)
-
-(assert (> a 0))
-(assert (> b 0))
-
-(assert (>= a (* 3 b)))
-
-(assert (< (* a a) (* 3 a b)))
-
-(check-sat)
diff --git a/test/regress/regress0/nl/coeff-unsat.smt2 b/test/regress/regress0/nl/coeff-unsat.smt2
deleted file mode 100644
index f86d08fe7..000000000
--- a/test/regress/regress0/nl/coeff-unsat.smt2
+++ /dev/null
@@ -1,16 +0,0 @@
-; COMMAND-LINE: --nl-ext
-; EXPECT: unsat
-(set-logic QF_NRA)
-(set-info :status unsat)
-
-(declare-fun a () Real)
-(declare-fun b () Real)
-
-(assert (> a 0))
-(assert (> b 0))
-
-(assert (>= a (* 3 b)))
-
-(assert (< (* a a) (* 8 b b)))
-
-(check-sat)
diff --git a/test/regress/regress0/nl/combine.smt2 b/test/regress/regress0/nl/combine.smt2
deleted file mode 100644
index 9f7e7a548..000000000
--- a/test/regress/regress0/nl/combine.smt2
+++ /dev/null
@@ -1,13 +0,0 @@
-; COMMAND-LINE: --nl-ext
-; EXPECT: unsat
-(set-logic QF_NRA)
-(set-info :status unsat)
-(declare-fun a () Real)
-(declare-fun b () Real)
-(declare-fun c () Real)
-(assert (> c 1))
-(assert (> (* a b) 1))
-
-(assert (< (* a b c) 1))
-
-(check-sat)
diff --git a/test/regress/regress0/nl/disj-eval.smt2 b/test/regress/regress0/nl/disj-eval.smt2
deleted file mode 100644
index ac8cfc937..000000000
--- a/test/regress/regress0/nl/disj-eval.smt2
+++ /dev/null
@@ -1,14 +0,0 @@
-; COMMAND-LINE: --nl-ext
-; EXPECT: sat
-(set-logic QF_NIA)
-(set-info :status sat)
-(declare-fun x () Int)
-(declare-fun y () Int)
-
-(assert (or (= x 5) (= x 7) (= x 9) (= x 27) (= x 10)))
-(assert (or (= y 0) (= y 1) (= y 9) (= y 8)))
-
-
-(assert (= (* x x) (* y y y)))
-
-(check-sat)
diff --git a/test/regress/regress0/nl/dist-big.smt2 b/test/regress/regress0/nl/dist-big.smt2
deleted file mode 100644
index 53c9c3f1d..000000000
--- a/test/regress/regress0/nl/dist-big.smt2
+++ /dev/null
@@ -1,16 +0,0 @@
-; COMMAND-LINE: --nl-ext
-; EXPECT: sat
-(set-logic QF_NRA)
-(set-info :status sat)
-(declare-fun v1 () Real)
-(declare-fun v2 () Real)
-(declare-fun v3 () Real)
-(declare-fun v4 () Real)
-(declare-fun v5 () Real)
-(declare-fun v6 () Real)
-(declare-fun v7 () Real)
-(declare-fun v8 () Real)
-
-(assert (= (* (+ v1 v2 v3 v4 v5 v6 v7 v8) (+ v1 v2 v3 v4 v5 v6 v7 v8) (+ v1 v2 v3 v4 v5 v6 v7 v8) (+ v1 v2 v3 v4 v5 v6 v7 v8)) 0))
-
-(check-sat)
diff --git a/test/regress/regress0/nl/div-mod-partial.smt2 b/test/regress/regress0/nl/div-mod-partial.smt2
deleted file mode 100644
index fa75ee594..000000000
--- a/test/regress/regress0/nl/div-mod-partial.smt2
+++ /dev/null
@@ -1,10 +0,0 @@
-; COMMAND-LINE: --nl-ext --nl-ext-tplanes
-; EXPECT: sat
-(set-logic QF_UFNIA)
-(set-info :status sat)
-(declare-fun x () Int)
-(declare-fun y () Int)
-(assert (not (= y 0)))
-; should be SAT if the partial functions for div and mod are different
-(assert (not (= (- y (* (div y x) x)) (mod y x))))
-(check-sat)
diff --git a/test/regress/regress0/nl/metitarski-1025.smt2 b/test/regress/regress0/nl/metitarski-1025.smt2
deleted file mode 100644
index 5a95364f3..000000000
--- a/test/regress/regress0/nl/metitarski-1025.smt2
+++ /dev/null
@@ -1,30 +0,0 @@
-; COMMAND-LINE: --nl-ext
-; EXPECT: sat
-(set-logic QF_NRA)
-(set-info :source |
-These benchmarks used in the paper:
-
-  Dejan Jovanovic and Leonardo de Moura.  Solving Non-Linear Arithmetic.
-  In IJCAR 2012, published as LNCS volume 7364, pp. 339--354.
-
-The meti-tarski benchmarks are proof obligations extracted from the
-Meti-Tarski project, see:
-
-  B. Akbarpour and L. C. Paulson. MetiTarski: An automatic theorem prover
-  for real-valued special functions. Journal of Automated Reasoning,
-  44(3):175-205, 2010.
-
-Submitted by Dejan Jovanovic for SMT-LIB.
-
-
-|)
-(set-info :smt-lib-version 2.0)
-(set-info :category "industrial")
-(set-info :status sat)
-(declare-fun skoCOSS () Real)
-(declare-fun skoSINS () Real)
-(declare-fun skoS () Real)
-(declare-fun pi () Real)
-(assert (and (= (* skoSINS skoSINS) (+ 1 (* skoCOSS (* skoCOSS (- 1))))) (and (not (<= (* pi (/ 1 2)) skoS)) (and (not (<= pi (/ 15707963 5000000))) (and (not (<= (/ 31415927 10000000) pi)) (and (<= 0 skoS) (and (<= 0 skoCOSS) (<= skoSINS skoS))))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/nl/metitarski-3-4.smt2 b/test/regress/regress0/nl/metitarski-3-4.smt2
deleted file mode 100644
index 835d60732..000000000
--- a/test/regress/regress0/nl/metitarski-3-4.smt2
+++ /dev/null
@@ -1,29 +0,0 @@
-; COMMAND-LINE: --nl-ext
-; EXPECT: sat
-(set-logic QF_NRA)
-(set-info :source |
-These benchmarks used in the paper:
-
-  Dejan Jovanovic and Leonardo de Moura.  Solving Non-Linear Arithmetic.
-  In IJCAR 2012, published as LNCS volume 7364, pp. 339--354.
-
-The meti-tarski benchmarks are proof obligations extracted from the
-Meti-Tarski project, see:
-
-  B. Akbarpour and L. C. Paulson. MetiTarski: An automatic theorem prover
-  for real-valued special functions. Journal of Automated Reasoning,
-  44(3):175-205, 2010.
-
-Submitted by Dejan Jovanovic for SMT-LIB.
-
-
-|)
-(set-info :smt-lib-version 2.0)
-(set-info :category "industrial")
-(set-info :status sat)
-(declare-fun skoX () Real)
-(declare-fun skoY () Real)
-(declare-fun skoZ () Real)
-(assert (let ((?v_0 (<= 0 skoY)) (?v_2 (<= (* skoZ (+ (- 1) (* skoY skoX))) (+ skoX skoY))) (?v_1 (* skoX (- 1)))) (let ((?v_3 (* skoX ?v_1))) (let ((?v_4 (* skoY (* skoX (+ (- 3) ?v_3))))) (and (<= (- 1) skoY) (and (not (= skoY 0)) (and (or (not ?v_2) ?v_0) (and (or ?v_0 (<= (* skoZ (+ 1 (* skoY ?v_1))) (+ (+ 1 ?v_1) (* skoY (+ (- 1) ?v_1))))) (and (or (not ?v_0) (or ?v_2 (<= (* skoZ (+ (+ 3 (* skoX skoX)) ?v_4)) (+ (* skoX ?v_3) (* skoY (+ (* skoX (* skoX (- 3))) ?v_4)))))) (and (not (<= skoZ 0)) (and (not (<= skoX (- 1))) (and (not (<= 1 skoY)) (not (<= skoY skoX))))))))))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/nl/metitarski_3_4_2e.smt2 b/test/regress/regress0/nl/metitarski_3_4_2e.smt2
deleted file mode 100644
index 3f12ec34b..000000000
--- a/test/regress/regress0/nl/metitarski_3_4_2e.smt2
+++ /dev/null
@@ -1,30 +0,0 @@
-; COMMAND-LINE: --nl-ext
-; EXPECT: sat
-(set-logic QF_NRA)
-(set-info :status sat)
-(set-info :source |
-These benchmarks used in the paper:
-
-  Dejan Jovanovic and Leonardo de Moura.  Solving Non-Linear Arithmetic.
-  In IJCAR 2012, published as LNCS volume 7364, pp. 339--354.
-
-The meti-tarski benchmarks are proof obligations extracted from the
-Meti-Tarski project, see:
-
-  B. Akbarpour and L. C. Paulson. MetiTarski: An automatic theorem prover
-  for real-valued special functions. Journal of Automated Reasoning,
-  44(3):175-205, 2010.
-
-Submitted by Dejan Jovanovic for SMT-LIB.
-
-
-|)
-(set-info :smt-lib-version 2.0)
-(set-info :category "industrial")
-(set-info :status sat)
-(declare-fun skoX () Real)
-(declare-fun skoS () Real)
-(declare-fun skoC () Real)
-(assert (let ((?v_0 (<= skoX 0)) (?v_2 (* skoC (/ 86400000 2025130727)))) (let ((?v_1 (<= ?v_2 skoS))) (and (<= (* skoX (+ (/ (- 69) 2000) (* skoX (/ (- 529) 16000000)))) 12) (and (not ?v_0) (and (or (not (<= (* skoX (+ (+ (+ (/ (- 23) 13) (* skoC (/ 621 8125))) (* skoS (/ (- 46578006721) 26000000000))) (* skoX (+ (+ (/ (- 529) 312000) (* skoC (/ (- 4761) 65000000))) (* skoS (/ 1071294154583 624000000000000)))))) (+ (+ (/ 8000 13) (* skoC (/ 1728 65))) (* skoS (/ (- 2025130727) 3250000))))) ?v_0) (and ?v_1 (and (or (not ?v_1) (not (<= skoS ?v_2))) (and (= (* skoS skoS) (+ 1 (* skoC (* skoC (- 1))))) (and (<= skoX 75) (<= 0 skoX)))))))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/nl/nl-help-unsat-quant.smt2 b/test/regress/regress0/nl/nl-help-unsat-quant.smt2
deleted file mode 100644
index f2f7667c8..000000000
--- a/test/regress/regress0/nl/nl-help-unsat-quant.smt2
+++ /dev/null
@@ -1,419 +0,0 @@
-; COMMAND-LINE: --nl-ext
-; EXPECT: unsat
-(set-logic UFNIA)
-(set-info :status unsat)
-(set-info :source |Benchmarks from the paper: "Extending Sledgehammer with SMT Solvers" by Jasmin Blanchette, Sascha Bohme, and Lawrence C. Paulson, CADE 2011.  Translated to SMT2 by Andrew Reynolds and Morgan Deters.|)
-(set-info :smt-lib-version 2.0)
-(set-info :category "industrial")
-(declare-sort S1 0)
-(declare-sort S2 0)
-(declare-sort S3 0)
-(declare-sort S4 0)
-(declare-sort S5 0)
-(declare-sort S6 0)
-(declare-sort S7 0)
-(declare-sort S8 0)
-(declare-sort S9 0)
-(declare-sort S10 0)
-(declare-sort S11 0)
-(declare-sort S12 0)
-(declare-sort S13 0)
-(declare-sort S14 0)
-(declare-sort S15 0)
-(declare-sort S16 0)
-(declare-sort S17 0)
-(declare-sort S18 0)
-(declare-sort S19 0)
-(declare-sort S20 0)
-(declare-sort S21 0)
-(declare-sort S22 0)
-(declare-sort S23 0)
-(declare-sort S24 0)
-(declare-sort S25 0)
-(declare-sort S26 0)
-(declare-sort S27 0)
-(declare-sort S28 0)
-(declare-sort S29 0)
-(declare-sort S30 0)
-(declare-sort S31 0)
-(declare-sort S32 0)
-(declare-sort S33 0)
-(declare-sort S34 0)
-(declare-sort S35 0)
-(declare-sort S36 0)
-(declare-sort S37 0)
-(declare-sort S38 0)
-(declare-sort S39 0)
-(declare-sort S40 0)
-(declare-sort S41 0)
-(declare-sort S42 0)
-(declare-sort S43 0)
-(declare-sort S44 0)
-(declare-sort S45 0)
-(declare-sort S46 0)
-(declare-sort S47 0)
-(declare-sort S48 0)
-(declare-sort S49 0)
-(declare-sort S50 0)
-(declare-sort S51 0)
-(declare-sort S52 0)
-(declare-sort S53 0)
-(declare-sort S54 0)
-(declare-sort S55 0)
-(declare-sort S56 0)
-(declare-sort S57 0)
-(declare-sort S58 0)
-(declare-sort S59 0)
-(declare-sort S60 0)
-(declare-sort S61 0)
-(declare-sort S62 0)
-(declare-sort S63 0)
-(declare-sort S64 0)
-(declare-sort S65 0)
-(declare-sort S66 0)
-(declare-sort S67 0)
-(declare-sort S68 0)
-(declare-sort S69 0)
-(declare-sort S70 0)
-(declare-sort S71 0)
-(declare-sort S72 0)
-(declare-sort S73 0)
-(declare-sort S74 0)
-(declare-sort S75 0)
-(declare-sort S76 0)
-(declare-sort S77 0)
-(declare-sort S78 0)
-(declare-sort S79 0)
-(declare-sort S80 0)
-(declare-sort S81 0)
-(declare-sort S82 0)
-(declare-sort S83 0)
-(declare-sort S84 0)
-(declare-sort S85 0)
-(declare-sort S86 0)
-(declare-sort S87 0)
-(declare-sort S88 0)
-(declare-sort S89 0)
-(declare-sort S90 0)
-(declare-sort S91 0)
-(declare-sort S92 0)
-(declare-sort S93 0)
-(declare-fun f1 () S1)
-(declare-fun f2 () S1)
-(declare-fun f3 (Int) S1)
-(declare-fun f4 () Int)
-(declare-fun f5 () Int)
-(declare-fun f6 (S2 S3) Int)
-(declare-fun f7 () S2)
-(declare-fun f8 (S4 Int) S3)
-(declare-fun f9 (S5 Int) S4)
-(declare-fun f10 () S5)
-(declare-fun f11 (S6 S3) S1)
-(declare-fun f12 (S7 S8) S1)
-(declare-fun f13 (S10 S9) S8)
-(declare-fun f14 (S11 S9) S10)
-(declare-fun f15 () S11)
-(declare-fun f16 (S12 S13) S1)
-(declare-fun f17 (S15 S14) S13)
-(declare-fun f18 (S16 S14) S15)
-(declare-fun f19 () S16)
-(declare-fun f20 (S17 S14) S1)
-(declare-fun f21 (S18 S3) S14)
-(declare-fun f22 (S19 Int) S18)
-(declare-fun f23 () S19)
-(declare-fun f24 (S20 S21) S1)
-(declare-fun f25 (S23 S22) S21)
-(declare-fun f26 (S24 S22) S23)
-(declare-fun f27 () S24)
-(declare-fun f28 (S25 S22) S1)
-(declare-fun f29 (S26 Int) S22)
-(declare-fun f30 (S27 S3) S26)
-(declare-fun f31 () S27)
-(declare-fun f32 (S28 S9) S1)
-(declare-fun f33 (S29 S3) S9)
-(declare-fun f34 (S30 S3) S29)
-(declare-fun f35 () S30)
-(declare-fun f36 (S31 Int) S1)
-(declare-fun f37 (S32 Int) S31)
-(declare-fun f38 (S6) S32)
-(declare-fun f39 (S3 S6) S1)
-(declare-fun f40 (S33 S9) S28)
-(declare-fun f41 (S7) S33)
-(declare-fun f42 (S8 S7) S1)
-(declare-fun f43 (S34 S14) S17)
-(declare-fun f44 (S12) S34)
-(declare-fun f45 (S13 S12) S1)
-(declare-fun f46 (S35 S22) S25)
-(declare-fun f47 (S20) S35)
-(declare-fun f48 (S21 S20) S1)
-(declare-fun f49 (S36 Int) S6)
-(declare-fun f50 (S17) S36)
-(declare-fun f51 (S14 S17) S1)
-(declare-fun f52 (S37 S3) S31)
-(declare-fun f53 (S25) S37)
-(declare-fun f54 (S22 S25) S1)
-(declare-fun f55 (S38 S3) S6)
-(declare-fun f56 (S28) S38)
-(declare-fun f57 (S9 S28) S1)
-(declare-fun f58 (S39 S36) S28)
-(declare-fun f59 (S31) S39)
-(declare-fun f60 (S40 S38) S20)
-(declare-fun f61 (S6) S40)
-(declare-fun f62 (S41 S9) S7)
-(declare-fun f63 (S42 S43) S1)
-(declare-fun f64 (S8 S8) S42)
-(declare-fun f65 (S44 S41) S43)
-(declare-fun f66 (S28) S44)
-(declare-fun f67 (S45 S14) S12)
-(declare-fun f68 (S46 S47) S1)
-(declare-fun f69 (S13 S13) S46)
-(declare-fun f70 (S48 S45) S47)
-(declare-fun f71 (S17) S48)
-(declare-fun f72 (S49 S22) S20)
-(declare-fun f73 (S50 S51) S1)
-(declare-fun f74 (S21 S21) S50)
-(declare-fun f75 (S52 S49) S51)
-(declare-fun f76 (S25) S52)
-(declare-fun f77 (S53 S3) S28)
-(declare-fun f78 (S54 S53) S7)
-(declare-fun f79 (S6) S54)
-(declare-fun f80 (S55 Int) S28)
-(declare-fun f81 (S56 S55) S12)
-(declare-fun f82 (S31) S56)
-(declare-fun f83 (S6) S1)
-(declare-fun f84 (S7) S1)
-(declare-fun f85 (S12) S1)
-(declare-fun f86 (S20) S1)
-(declare-fun f87 (S28) S1)
-(declare-fun f88 (S6) S1)
-(declare-fun f89 (S7) S1)
-(declare-fun f90 (S12) S1)
-(declare-fun f91 (S20) S1)
-(declare-fun f92 (S28) S1)
-(declare-fun f93 (S6) S32)
-(declare-fun f94 (S7) S33)
-(declare-fun f95 (S12) S34)
-(declare-fun f96 (S17) S36)
-(declare-fun f97 (S20) S35)
-(declare-fun f98 (S25) S37)
-(declare-fun f99 (S28) S38)
-(declare-fun f100 (S57 S58) S1)
-(declare-fun f101 (S59 S59) S57)
-(declare-fun f102 (S9 Int) S59)
-(declare-fun f103 (S7 S6) S58)
-(declare-fun f104 (S60 S61) S1)
-(declare-fun f105 (S62 S62) S60)
-(declare-fun f106 (S14 Int) S62)
-(declare-fun f107 (S12 S6) S61)
-(declare-fun f108 (S63 S64) S1)
-(declare-fun f109 (S65 S65) S63)
-(declare-fun f110 (S22 Int) S65)
-(declare-fun f111 (S20 S6) S64)
-(declare-fun f112 (S66 S6) S20)
-(declare-fun f113 (S28) S66)
-(declare-fun f114 (S67 S68) S1)
-(declare-fun f115 (S69 S69) S67)
-(declare-fun f116 (Int S9) S69)
-(declare-fun f117 (S6 S7) S68)
-(declare-fun f118 (S70 S71) S1)
-(declare-fun f119 (S72 S72) S70)
-(declare-fun f120 (Int S14) S72)
-(declare-fun f121 (S6 S12) S71)
-(declare-fun f122 (S73 S74) S1)
-(declare-fun f123 (S75 S75) S73)
-(declare-fun f124 (Int S22) S75)
-(declare-fun f125 (S6 S20) S74)
-(declare-fun f126 (S76 S28) S12)
-(declare-fun f127 (S6) S76)
-(declare-fun f128 (S77 S6) S28)
-(declare-fun f129 (S6) S77)
-(declare-fun f130 (S78 S7) S43)
-(declare-fun f131 (S7) S78)
-(declare-fun f132 (S79 S12) S47)
-(declare-fun f133 (S12) S79)
-(declare-fun f134 (S80 S20) S51)
-(declare-fun f135 (S20) S80)
-(declare-fun f136 (S81 S28) S7)
-(declare-fun f137 (S28) S81)
-(declare-fun f138 (S82) S6)
-(declare-fun f139 (S83 S84) Int)
-(declare-fun f140 () S83)
-(declare-fun f141 (S82 Int) S84)
-(declare-fun f142 (S85) S7)
-(declare-fun f143 (S85 S9) S84)
-(declare-fun f144 (S86) S12)
-(declare-fun f145 (S86 S14) S84)
-(declare-fun f146 (S87) S20)
-(declare-fun f147 (S87 S22) S84)
-(declare-fun f148 (S88) S28)
-(declare-fun f149 (S88 S3) S84)
-(declare-fun f150 (S89 S6) S6)
-(declare-fun f151 (S82) S89)
-(declare-fun f152 (S90 S7) S7)
-(declare-fun f153 (S85) S90)
-(declare-fun f154 (S91 S12) S12)
-(declare-fun f155 (S86) S91)
-(declare-fun f156 (S92 S20) S20)
-(declare-fun f157 (S87) S92)
-(declare-fun f158 (S93 S28) S28)
-(declare-fun f159 (S88) S93)
-(declare-fun f160 (S31 S6) S1)
-(declare-fun f161 (Int S31) S1)
-(declare-fun f162 (S17 S12) S1)
-(declare-fun f163 (S25 S20) S1)
-(declare-fun f164 (S7 S43) S1)
-(declare-fun f165 (S12 S47) S1)
-(declare-fun f166 (S20 S51) S1)
-(declare-fun f167 (S28 S7) S1)
-(declare-fun f168 (S6 S28) S1)
-(declare-fun f169 () S82)
-(assert (not (= f1 f2)))
-(assert (not (= (f3 (* f4 f5)) f1)))
-(assert (= (f3 f4) f1))
-(assert (= (f3 f5) f1))
-(assert (forall ((?v0 Int)) (= (= (f3 ?v0) f1) (exists ((?v1 Int) (?v2 Int)) (= (f6 f7 (f8 (f9 f10 ?v1) ?v2)) ?v0)))))
-(assert (forall ((?v0 Int) (?v1 Int) (?v2 Int) (?v3 Int)) (= (* (f6 f7 (f8 (f9 f10 ?v0) ?v1)) (f6 f7 (f8 (f9 f10 ?v2) ?v3))) (f6 f7 (f8 (f9 f10 (+ (* ?v0 ?v2) (* ?v1 ?v3))) (- (* ?v0 ?v3) (* ?v1 ?v2)))))))
-(assert (forall ((?v0 S6)) (= (forall ((?v1 S3)) (= (f11 ?v0 ?v1) f1)) (forall ((?v1 Int) (?v2 Int)) (= (f11 ?v0 (f8 (f9 f10 ?v1) ?v2)) f1)))))
-(assert (forall ((?v0 S7)) (= (forall ((?v1 S8)) (= (f12 ?v0 ?v1) f1)) (forall ((?v1 S9) (?v2 S9)) (= (f12 ?v0 (f13 (f14 f15 ?v1) ?v2)) f1)))))
-(assert (forall ((?v0 S12)) (= (forall ((?v1 S13)) (= (f16 ?v0 ?v1) f1)) (forall ((?v1 S14) (?v2 S14)) (= (f16 ?v0 (f17 (f18 f19 ?v1) ?v2)) f1)))))
-(assert (forall ((?v0 S17)) (= (forall ((?v1 S14)) (= (f20 ?v0 ?v1) f1)) (forall ((?v1 Int) (?v2 S3)) (= (f20 ?v0 (f21 (f22 f23 ?v1) ?v2)) f1)))))
-(assert (forall ((?v0 S20)) (= (forall ((?v1 S21)) (= (f24 ?v0 ?v1) f1)) (forall ((?v1 S22) (?v2 S22)) (= (f24 ?v0 (f25 (f26 f27 ?v1) ?v2)) f1)))))
-(assert (forall ((?v0 S25)) (= (forall ((?v1 S22)) (= (f28 ?v0 ?v1) f1)) (forall ((?v1 S3) (?v2 Int)) (= (f28 ?v0 (f29 (f30 f31 ?v1) ?v2)) f1)))))
-(assert (forall ((?v0 S28)) (= (forall ((?v1 S9)) (= (f32 ?v0 ?v1) f1)) (forall ((?v1 S3) (?v2 S3)) (= (f32 ?v0 (f33 (f34 f35 ?v1) ?v2)) f1)))))
-(assert (forall ((?v0 Int) (?v1 Int) (?v2 Int) (?v3 Int)) (= (= (f8 (f9 f10 ?v0) ?v1) (f8 (f9 f10 ?v2) ?v3)) (and (= ?v0 ?v2) (= ?v1 ?v3)))))
-(assert (forall ((?v0 S9) (?v1 S9) (?v2 S9) (?v3 S9)) (= (= (f13 (f14 f15 ?v0) ?v1) (f13 (f14 f15 ?v2) ?v3)) (and (= ?v0 ?v2) (= ?v1 ?v3)))))
-(assert (forall ((?v0 S14) (?v1 S14) (?v2 S14) (?v3 S14)) (= (= (f17 (f18 f19 ?v0) ?v1) (f17 (f18 f19 ?v2) ?v3)) (and (= ?v0 ?v2) (= ?v1 ?v3)))))
-(assert (forall ((?v0 Int) (?v1 S3) (?v2 Int) (?v3 S3)) (= (= (f21 (f22 f23 ?v0) ?v1) (f21 (f22 f23 ?v2) ?v3)) (and (= ?v0 ?v2) (= ?v1 ?v3)))))
-(assert (forall ((?v0 S22) (?v1 S22) (?v2 S22) (?v3 S22)) (= (= (f25 (f26 f27 ?v0) ?v1) (f25 (f26 f27 ?v2) ?v3)) (and (= ?v0 ?v2) (= ?v1 ?v3)))))
-(assert (forall ((?v0 S3) (?v1 Int) (?v2 S3) (?v3 Int)) (= (= (f29 (f30 f31 ?v0) ?v1) (f29 (f30 f31 ?v2) ?v3)) (and (= ?v0 ?v2) (= ?v1 ?v3)))))
-(assert (forall ((?v0 S3) (?v1 S3) (?v2 S3) (?v3 S3)) (= (= (f33 (f34 f35 ?v0) ?v1) (f33 (f34 f35 ?v2) ?v3)) (and (= ?v0 ?v2) (= ?v1 ?v3)))))
-(assert (forall ((?v0 Int) (?v1 Int) (?v2 Int) (?v3 Int)) (=> (= (f8 (f9 f10 ?v0) ?v1) (f8 (f9 f10 ?v2) ?v3)) (=> (=> (= ?v0 ?v2) (=> (= ?v1 ?v3) false)) false))))
-(assert (forall ((?v0 S9) (?v1 S9) (?v2 S9) (?v3 S9)) (=> (= (f13 (f14 f15 ?v0) ?v1) (f13 (f14 f15 ?v2) ?v3)) (=> (=> (= ?v0 ?v2) (=> (= ?v1 ?v3) false)) false))))
-(assert (forall ((?v0 S14) (?v1 S14) (?v2 S14) (?v3 S14)) (=> (= (f17 (f18 f19 ?v0) ?v1) (f17 (f18 f19 ?v2) ?v3)) (=> (=> (= ?v0 ?v2) (=> (= ?v1 ?v3) false)) false))))
-(assert (forall ((?v0 Int) (?v1 S3) (?v2 Int) (?v3 S3)) (=> (= (f21 (f22 f23 ?v0) ?v1) (f21 (f22 f23 ?v2) ?v3)) (=> (=> (= ?v0 ?v2) (=> (= ?v1 ?v3) false)) false))))
-(assert (forall ((?v0 S22) (?v1 S22) (?v2 S22) (?v3 S22)) (=> (= (f25 (f26 f27 ?v0) ?v1) (f25 (f26 f27 ?v2) ?v3)) (=> (=> (= ?v0 ?v2) (=> (= ?v1 ?v3) false)) false))))
-(assert (forall ((?v0 S3) (?v1 Int) (?v2 S3) (?v3 Int)) (=> (= (f29 (f30 f31 ?v0) ?v1) (f29 (f30 f31 ?v2) ?v3)) (=> (=> (= ?v0 ?v2) (=> (= ?v1 ?v3) false)) false))))
-(assert (forall ((?v0 S3) (?v1 S3) (?v2 S3) (?v3 S3)) (=> (= (f33 (f34 f35 ?v0) ?v1) (f33 (f34 f35 ?v2) ?v3)) (=> (=> (= ?v0 ?v2) (=> (= ?v1 ?v3) false)) false))))
-(assert (forall ((?v0 S6) (?v1 Int) (?v2 Int)) (= (= (f36 (f37 (f38 ?v0) ?v1) ?v2) f1) (= (f39 (f8 (f9 f10 ?v1) ?v2) ?v0) f1))))
-(assert (forall ((?v0 S7) (?v1 S9) (?v2 S9)) (= (= (f32 (f40 (f41 ?v0) ?v1) ?v2) f1) (= (f42 (f13 (f14 f15 ?v1) ?v2) ?v0) f1))))
-(assert (forall ((?v0 S12) (?v1 S14) (?v2 S14)) (= (= (f20 (f43 (f44 ?v0) ?v1) ?v2) f1) (= (f45 (f17 (f18 f19 ?v1) ?v2) ?v0) f1))))
-(assert (forall ((?v0 S20) (?v1 S22) (?v2 S22)) (= (= (f28 (f46 (f47 ?v0) ?v1) ?v2) f1) (= (f48 (f25 (f26 f27 ?v1) ?v2) ?v0) f1))))
-(assert (forall ((?v0 S17) (?v1 Int) (?v2 S3)) (= (= (f11 (f49 (f50 ?v0) ?v1) ?v2) f1) (= (f51 (f21 (f22 f23 ?v1) ?v2) ?v0) f1))))
-(assert (forall ((?v0 S25) (?v1 S3) (?v2 Int)) (= (= (f36 (f52 (f53 ?v0) ?v1) ?v2) f1) (= (f54 (f29 (f30 f31 ?v1) ?v2) ?v0) f1))))
-(assert (forall ((?v0 S28) (?v1 S3) (?v2 S3)) (= (= (f11 (f55 (f56 ?v0) ?v1) ?v2) f1) (= (f57 (f33 (f34 f35 ?v1) ?v2) ?v0) f1))))
-(assert (forall ((?v0 S31) (?v1 Int) (?v2 Int) (?v3 Int) (?v4 S36)) (let ((?v_0 (f9 f10 ?v1))) (=> (= (f36 ?v0 ?v1) f1) (=> (= (f39 (f8 (f9 f10 ?v2) ?v3) (f49 ?v4 ?v1)) f1) (= (f57 (f33 (f34 f35 (f8 ?v_0 ?v2)) (f8 ?v_0 ?v3)) (f58 (f59 ?v0) ?v4)) f1))))))
-(assert (forall ((?v0 S6) (?v1 S3) (?v2 Int) (?v3 Int) (?v4 S38)) (let ((?v_0 (f30 f31 ?v1))) (=> (= (f11 ?v0 ?v1) f1) (=> (= (f39 (f8 (f9 f10 ?v2) ?v3) (f55 ?v4 ?v1)) f1) (= (f48 (f25 (f26 f27 (f29 ?v_0 ?v2)) (f29 ?v_0 ?v3)) (f60 (f61 ?v0) ?v4)) f1))))))
-(assert (forall ((?v0 S28) (?v1 S9) (?v2 S9) (?v3 S9) (?v4 S41)) (let ((?v_0 (f14 f15 ?v1))) (=> (= (f32 ?v0 ?v1) f1) (=> (= (f42 (f13 (f14 f15 ?v2) ?v3) (f62 ?v4 ?v1)) f1) (= (f63 (f64 (f13 ?v_0 ?v2) (f13 ?v_0 ?v3)) (f65 (f66 ?v0) ?v4)) f1))))))
-(assert (forall ((?v0 S17) (?v1 S14) (?v2 S14) (?v3 S14) (?v4 S45)) (let ((?v_0 (f18 f19 ?v1))) (=> (= (f20 ?v0 ?v1) f1) (=> (= (f45 (f17 (f18 f19 ?v2) ?v3) (f67 ?v4 ?v1)) f1) (= (f68 (f69 (f17 ?v_0 ?v2) (f17 ?v_0 ?v3)) (f70 (f71 ?v0) ?v4)) f1))))))
-(assert (forall ((?v0 S25) (?v1 S22) (?v2 S22) (?v3 S22) (?v4 S49)) (let ((?v_0 (f26 f27 ?v1))) (=> (= (f28 ?v0 ?v1) f1) (=> (= (f48 (f25 (f26 f27 ?v2) ?v3) (f72 ?v4 ?v1)) f1) (= (f73 (f74 (f25 ?v_0 ?v2) (f25 ?v_0 ?v3)) (f75 (f76 ?v0) ?v4)) f1))))))
-(assert (forall ((?v0 S6) (?v1 S3) (?v2 S3) (?v3 S3) (?v4 S53)) (let ((?v_0 (f34 f35 ?v1))) (=> (= (f11 ?v0 ?v1) f1) (=> (= (f57 (f33 (f34 f35 ?v2) ?v3) (f77 ?v4 ?v1)) f1) (= (f42 (f13 (f14 f15 (f33 ?v_0 ?v2)) (f33 ?v_0 ?v3)) (f78 (f79 ?v0) ?v4)) f1))))))
-(assert (forall ((?v0 S31) (?v1 Int) (?v2 S3) (?v3 S3) (?v4 S55)) (let ((?v_0 (f22 f23 ?v1))) (=> (= (f36 ?v0 ?v1) f1) (=> (= (f57 (f33 (f34 f35 ?v2) ?v3) (f80 ?v4 ?v1)) f1) (= (f45 (f17 (f18 f19 (f21 ?v_0 ?v2)) (f21 ?v_0 ?v3)) (f81 (f82 ?v0) ?v4)) f1))))))
-(assert (forall ((?v0 S6)) (= (= (f83 ?v0) f1) (forall ((?v1 Int)) (= (f39 (f8 (f9 f10 ?v1) ?v1) ?v0) f1)))))
-(assert (forall ((?v0 S7)) (= (= (f84 ?v0) f1) (forall ((?v1 S9)) (= (f42 (f13 (f14 f15 ?v1) ?v1) ?v0) f1)))))
-(assert (forall ((?v0 S12)) (= (= (f85 ?v0) f1) (forall ((?v1 S14)) (= (f45 (f17 (f18 f19 ?v1) ?v1) ?v0) f1)))))
-(assert (forall ((?v0 S20)) (= (= (f86 ?v0) f1) (forall ((?v1 S22)) (= (f48 (f25 (f26 f27 ?v1) ?v1) ?v0) f1)))))
-(assert (forall ((?v0 S28)) (= (= (f87 ?v0) f1) (forall ((?v1 S3)) (= (f57 (f33 (f34 f35 ?v1) ?v1) ?v0) f1)))))
-(assert (forall ((?v0 S6)) (= (= (f88 ?v0) f1) (forall ((?v1 Int)) (not (= (f39 (f8 (f9 f10 ?v1) ?v1) ?v0) f1))))))
-(assert (forall ((?v0 S7)) (= (= (f89 ?v0) f1) (forall ((?v1 S9)) (not (= (f42 (f13 (f14 f15 ?v1) ?v1) ?v0) f1))))))
-(assert (forall ((?v0 S12)) (= (= (f90 ?v0) f1) (forall ((?v1 S14)) (not (= (f45 (f17 (f18 f19 ?v1) ?v1) ?v0) f1))))))
-(assert (forall ((?v0 S20)) (= (= (f91 ?v0) f1) (forall ((?v1 S22)) (not (= (f48 (f25 (f26 f27 ?v1) ?v1) ?v0) f1))))))
-(assert (forall ((?v0 S28)) (= (= (f92 ?v0) f1) (forall ((?v1 S3)) (not (= (f57 (f33 (f34 f35 ?v1) ?v1) ?v0) f1))))))
-(assert (forall ((?v0 S6)) (= (exists ((?v1 S3)) (= (f11 ?v0 ?v1) f1)) (exists ((?v1 Int) (?v2 Int)) (= (f11 ?v0 (f8 (f9 f10 ?v1) ?v2)) f1)))))
-(assert (forall ((?v0 S7)) (= (exists ((?v1 S8)) (= (f12 ?v0 ?v1) f1)) (exists ((?v1 S9) (?v2 S9)) (= (f12 ?v0 (f13 (f14 f15 ?v1) ?v2)) f1)))))
-(assert (forall ((?v0 S12)) (= (exists ((?v1 S13)) (= (f16 ?v0 ?v1) f1)) (exists ((?v1 S14) (?v2 S14)) (= (f16 ?v0 (f17 (f18 f19 ?v1) ?v2)) f1)))))
-(assert (forall ((?v0 S17)) (= (exists ((?v1 S14)) (= (f20 ?v0 ?v1) f1)) (exists ((?v1 Int) (?v2 S3)) (= (f20 ?v0 (f21 (f22 f23 ?v1) ?v2)) f1)))))
-(assert (forall ((?v0 S20)) (= (exists ((?v1 S21)) (= (f24 ?v0 ?v1) f1)) (exists ((?v1 S22) (?v2 S22)) (= (f24 ?v0 (f25 (f26 f27 ?v1) ?v2)) f1)))))
-(assert (forall ((?v0 S25)) (= (exists ((?v1 S22)) (= (f28 ?v0 ?v1) f1)) (exists ((?v1 S3) (?v2 Int)) (= (f28 ?v0 (f29 (f30 f31 ?v1) ?v2)) f1)))))
-(assert (forall ((?v0 S28)) (= (exists ((?v1 S9)) (= (f32 ?v0 ?v1) f1)) (exists ((?v1 S3) (?v2 S3)) (= (f32 ?v0 (f33 (f34 f35 ?v1) ?v2)) f1)))))
-(assert (forall ((?v0 S8)) (=> (forall ((?v1 S9) (?v2 S3) (?v3 Int) (?v4 Int)) (=> (= ?v0 (f13 (f14 f15 ?v1) (f33 (f34 f35 ?v2) (f8 (f9 f10 ?v3) ?v4)))) false)) false)))
-(assert (forall ((?v0 S13)) (=> (forall ((?v1 S14) (?v2 Int) (?v3 Int) (?v4 Int)) (=> (= ?v0 (f17 (f18 f19 ?v1) (f21 (f22 f23 ?v2) (f8 (f9 f10 ?v3) ?v4)))) false)) false)))
-(assert (forall ((?v0 S7) (?v1 S8)) (=> (forall ((?v2 S9) (?v3 S3) (?v4 Int) (?v5 Int)) (= (f12 ?v0 (f13 (f14 f15 ?v2) (f33 (f34 f35 ?v3) (f8 (f9 f10 ?v4) ?v5)))) f1)) (= (f12 ?v0 ?v1) f1))))
-(assert (forall ((?v0 S12) (?v1 S13)) (=> (forall ((?v2 S14) (?v3 Int) (?v4 Int) (?v5 Int)) (= (f16 ?v0 (f17 (f18 f19 ?v2) (f21 (f22 f23 ?v3) (f8 (f9 f10 ?v4) ?v5)))) f1)) (= (f16 ?v0 ?v1) f1))))
-(assert (forall ((?v0 S9)) (=> (forall ((?v1 S3) (?v2 Int) (?v3 Int)) (=> (= ?v0 (f33 (f34 f35 ?v1) (f8 (f9 f10 ?v2) ?v3))) false)) false)))
-(assert (forall ((?v0 S13)) (=> (forall ((?v1 S14) (?v2 Int) (?v3 S3)) (=> (= ?v0 (f17 (f18 f19 ?v1) (f21 (f22 f23 ?v2) ?v3))) false)) false)))
-(assert (forall ((?v0 S14)) (=> (forall ((?v1 Int) (?v2 Int) (?v3 Int)) (=> (= ?v0 (f21 (f22 f23 ?v1) (f8 (f9 f10 ?v2) ?v3))) false)) false)))
-(assert (forall ((?v0 S21)) (=> (forall ((?v1 S22) (?v2 S3) (?v3 Int)) (=> (= ?v0 (f25 (f26 f27 ?v1) (f29 (f30 f31 ?v2) ?v3))) false)) false)))
-(assert (forall ((?v0 S8)) (=> (forall ((?v1 S9) (?v2 S3) (?v3 S3)) (=> (= ?v0 (f13 (f14 f15 ?v1) (f33 (f34 f35 ?v2) ?v3))) false)) false)))
-(assert (forall ((?v0 S28) (?v1 S9)) (=> (forall ((?v2 S3) (?v3 Int) (?v4 Int)) (= (f32 ?v0 (f33 (f34 f35 ?v2) (f8 (f9 f10 ?v3) ?v4))) f1)) (= (f32 ?v0 ?v1) f1))))
-(assert (forall ((?v0 S12) (?v1 S13)) (=> (forall ((?v2 S14) (?v3 Int) (?v4 S3)) (= (f16 ?v0 (f17 (f18 f19 ?v2) (f21 (f22 f23 ?v3) ?v4))) f1)) (= (f16 ?v0 ?v1) f1))))
-(assert (forall ((?v0 S17) (?v1 S14)) (=> (forall ((?v2 Int) (?v3 Int) (?v4 Int)) (= (f20 ?v0 (f21 (f22 f23 ?v2) (f8 (f9 f10 ?v3) ?v4))) f1)) (= (f20 ?v0 ?v1) f1))))
-(assert (forall ((?v0 S20) (?v1 S21)) (=> (forall ((?v2 S22) (?v3 S3) (?v4 Int)) (= (f24 ?v0 (f25 (f26 f27 ?v2) (f29 (f30 f31 ?v3) ?v4))) f1)) (= (f24 ?v0 ?v1) f1))))
-(assert (forall ((?v0 S7) (?v1 S8)) (=> (forall ((?v2 S9) (?v3 S3) (?v4 S3)) (= (f12 ?v0 (f13 (f14 f15 ?v2) (f33 (f34 f35 ?v3) ?v4))) f1)) (= (f12 ?v0 ?v1) f1))))
-(assert (forall ((?v0 S3)) (=> (forall ((?v1 Int) (?v2 Int)) (=> (= ?v0 (f8 (f9 f10 ?v1) ?v2)) false)) false)))
-(assert (forall ((?v0 S8)) (=> (forall ((?v1 S9) (?v2 S9)) (=> (= ?v0 (f13 (f14 f15 ?v1) ?v2)) false)) false)))
-(assert (forall ((?v0 S13)) (=> (forall ((?v1 S14) (?v2 S14)) (=> (= ?v0 (f17 (f18 f19 ?v1) ?v2)) false)) false)))
-(assert (forall ((?v0 S14)) (=> (forall ((?v1 Int) (?v2 S3)) (=> (= ?v0 (f21 (f22 f23 ?v1) ?v2)) false)) false)))
-(assert (forall ((?v0 S21)) (=> (forall ((?v1 S22) (?v2 S22)) (=> (= ?v0 (f25 (f26 f27 ?v1) ?v2)) false)) false)))
-(assert (forall ((?v0 S22)) (=> (forall ((?v1 S3) (?v2 Int)) (=> (= ?v0 (f29 (f30 f31 ?v1) ?v2)) false)) false)))
-(assert (forall ((?v0 S9)) (=> (forall ((?v1 S3) (?v2 S3)) (=> (= ?v0 (f33 (f34 f35 ?v1) ?v2)) false)) false)))
-(assert (forall ((?v0 S3)) (=> (forall ((?v1 Int) (?v2 Int)) (=> (= ?v0 (f8 (f9 f10 ?v1) ?v2)) false)) false)))
-(assert (forall ((?v0 S8)) (=> (forall ((?v1 S9) (?v2 S9)) (=> (= ?v0 (f13 (f14 f15 ?v1) ?v2)) false)) false)))
-(assert (forall ((?v0 S13)) (=> (forall ((?v1 S14) (?v2 S14)) (=> (= ?v0 (f17 (f18 f19 ?v1) ?v2)) false)) false)))
-(assert (forall ((?v0 S14)) (=> (forall ((?v1 Int) (?v2 S3)) (=> (= ?v0 (f21 (f22 f23 ?v1) ?v2)) false)) false)))
-(assert (forall ((?v0 S21)) (=> (forall ((?v1 S22) (?v2 S22)) (=> (= ?v0 (f25 (f26 f27 ?v1) ?v2)) false)) false)))
-(assert (forall ((?v0 S22)) (=> (forall ((?v1 S3) (?v2 Int)) (=> (= ?v0 (f29 (f30 f31 ?v1) ?v2)) false)) false)))
-(assert (forall ((?v0 S9)) (=> (forall ((?v1 S3) (?v2 S3)) (=> (= ?v0 (f33 (f34 f35 ?v1) ?v2)) false)) false)))
-(assert (forall ((?v0 S6) (?v1 Int) (?v2 Int)) (=> (= (f11 ?v0 (f8 (f9 f10 ?v1) ?v2)) f1) (= (f36 (f37 (f93 ?v0) ?v1) ?v2) f1))))
-(assert (forall ((?v0 S7) (?v1 S9) (?v2 S9)) (=> (= (f12 ?v0 (f13 (f14 f15 ?v1) ?v2)) f1) (= (f32 (f40 (f94 ?v0) ?v1) ?v2) f1))))
-(assert (forall ((?v0 S12) (?v1 S14) (?v2 S14)) (=> (= (f16 ?v0 (f17 (f18 f19 ?v1) ?v2)) f1) (= (f20 (f43 (f95 ?v0) ?v1) ?v2) f1))))
-(assert (forall ((?v0 S17) (?v1 Int) (?v2 S3)) (=> (= (f20 ?v0 (f21 (f22 f23 ?v1) ?v2)) f1) (= (f11 (f49 (f96 ?v0) ?v1) ?v2) f1))))
-(assert (forall ((?v0 S20) (?v1 S22) (?v2 S22)) (=> (= (f24 ?v0 (f25 (f26 f27 ?v1) ?v2)) f1) (= (f28 (f46 (f97 ?v0) ?v1) ?v2) f1))))
-(assert (forall ((?v0 S25) (?v1 S3) (?v2 Int)) (=> (= (f28 ?v0 (f29 (f30 f31 ?v1) ?v2)) f1) (= (f36 (f52 (f98 ?v0) ?v1) ?v2) f1))))
-(assert (forall ((?v0 S28) (?v1 S3) (?v2 S3)) (=> (= (f32 ?v0 (f33 (f34 f35 ?v1) ?v2)) f1) (= (f11 (f55 (f99 ?v0) ?v1) ?v2) f1))))
-(assert (forall ((?v0 S9) (?v1 Int) (?v2 S9) (?v3 Int) (?v4 S7) (?v5 S6)) (= (= (f100 (f101 (f102 ?v0 ?v1) (f102 ?v2 ?v3)) (f103 ?v4 ?v5)) f1) (or (= (f42 (f13 (f14 f15 ?v0) ?v2) ?v4) f1) (and (= ?v0 ?v2) (= (f39 (f8 (f9 f10 ?v1) ?v3) ?v5) f1))))))
-(assert (forall ((?v0 S14) (?v1 Int) (?v2 S14) (?v3 Int) (?v4 S12) (?v5 S6)) (= (= (f104 (f105 (f106 ?v0 ?v1) (f106 ?v2 ?v3)) (f107 ?v4 ?v5)) f1) (or (= (f45 (f17 (f18 f19 ?v0) ?v2) ?v4) f1) (and (= ?v0 ?v2) (= (f39 (f8 (f9 f10 ?v1) ?v3) ?v5) f1))))))
-(assert (forall ((?v0 S22) (?v1 Int) (?v2 S22) (?v3 Int) (?v4 S20) (?v5 S6)) (= (= (f108 (f109 (f110 ?v0 ?v1) (f110 ?v2 ?v3)) (f111 ?v4 ?v5)) f1) (or (= (f48 (f25 (f26 f27 ?v0) ?v2) ?v4) f1) (and (= ?v0 ?v2) (= (f39 (f8 (f9 f10 ?v1) ?v3) ?v5) f1))))))
-(assert (forall ((?v0 S3) (?v1 Int) (?v2 S3) (?v3 Int) (?v4 S28) (?v5 S6)) (= (= (f48 (f25 (f26 f27 (f29 (f30 f31 ?v0) ?v1)) (f29 (f30 f31 ?v2) ?v3)) (f112 (f113 ?v4) ?v5)) f1) (or (= (f57 (f33 (f34 f35 ?v0) ?v2) ?v4) f1) (and (= ?v0 ?v2) (= (f39 (f8 (f9 f10 ?v1) ?v3) ?v5) f1))))))
-(assert (forall ((?v0 Int) (?v1 S9) (?v2 Int) (?v3 S9) (?v4 S6) (?v5 S7)) (= (= (f114 (f115 (f116 ?v0 ?v1) (f116 ?v2 ?v3)) (f117 ?v4 ?v5)) f1) (or (= (f39 (f8 (f9 f10 ?v0) ?v2) ?v4) f1) (and (= ?v0 ?v2) (= (f42 (f13 (f14 f15 ?v1) ?v3) ?v5) f1))))))
-(assert (forall ((?v0 Int) (?v1 S14) (?v2 Int) (?v3 S14) (?v4 S6) (?v5 S12)) (= (= (f118 (f119 (f120 ?v0 ?v1) (f120 ?v2 ?v3)) (f121 ?v4 ?v5)) f1) (or (= (f39 (f8 (f9 f10 ?v0) ?v2) ?v4) f1) (and (= ?v0 ?v2) (= (f45 (f17 (f18 f19 ?v1) ?v3) ?v5) f1))))))
-(assert (forall ((?v0 Int) (?v1 S22) (?v2 Int) (?v3 S22) (?v4 S6) (?v5 S20)) (= (= (f122 (f123 (f124 ?v0 ?v1) (f124 ?v2 ?v3)) (f125 ?v4 ?v5)) f1) (or (= (f39 (f8 (f9 f10 ?v0) ?v2) ?v4) f1) (and (= ?v0 ?v2) (= (f48 (f25 (f26 f27 ?v1) ?v3) ?v5) f1))))))
-(assert (forall ((?v0 Int) (?v1 S3) (?v2 Int) (?v3 S3) (?v4 S6) (?v5 S28)) (= (= (f45 (f17 (f18 f19 (f21 (f22 f23 ?v0) ?v1)) (f21 (f22 f23 ?v2) ?v3)) (f126 (f127 ?v4) ?v5)) f1) (or (= (f39 (f8 (f9 f10 ?v0) ?v2) ?v4) f1) (and (= ?v0 ?v2) (= (f57 (f33 (f34 f35 ?v1) ?v3) ?v5) f1))))))
-(assert (forall ((?v0 Int) (?v1 Int) (?v2 Int) (?v3 Int) (?v4 S6) (?v5 S6)) (let ((?v_0 (f9 f10 ?v0))) (= (= (f57 (f33 (f34 f35 (f8 ?v_0 ?v1)) (f8 (f9 f10 ?v2) ?v3)) (f128 (f129 ?v4) ?v5)) f1) (or (= (f39 (f8 ?v_0 ?v2) ?v4) f1) (and (= ?v0 ?v2) (= (f39 (f8 (f9 f10 ?v1) ?v3) ?v5) f1)))))))
-(assert (forall ((?v0 S9) (?v1 S9) (?v2 S9) (?v3 S9) (?v4 S7) (?v5 S7)) (let ((?v_0 (f14 f15 ?v0))) (= (= (f63 (f64 (f13 ?v_0 ?v1) (f13 (f14 f15 ?v2) ?v3)) (f130 (f131 ?v4) ?v5)) f1) (or (= (f42 (f13 ?v_0 ?v2) ?v4) f1) (and (= ?v0 ?v2) (= (f42 (f13 (f14 f15 ?v1) ?v3) ?v5) f1)))))))
-(assert (forall ((?v0 S14) (?v1 S14) (?v2 S14) (?v3 S14) (?v4 S12) (?v5 S12)) (let ((?v_0 (f18 f19 ?v0))) (= (= (f68 (f69 (f17 ?v_0 ?v1) (f17 (f18 f19 ?v2) ?v3)) (f132 (f133 ?v4) ?v5)) f1) (or (= (f45 (f17 ?v_0 ?v2) ?v4) f1) (and (= ?v0 ?v2) (= (f45 (f17 (f18 f19 ?v1) ?v3) ?v5) f1)))))))
-(assert (forall ((?v0 S22) (?v1 S22) (?v2 S22) (?v3 S22) (?v4 S20) (?v5 S20)) (let ((?v_0 (f26 f27 ?v0))) (= (= (f73 (f74 (f25 ?v_0 ?v1) (f25 (f26 f27 ?v2) ?v3)) (f134 (f135 ?v4) ?v5)) f1) (or (= (f48 (f25 ?v_0 ?v2) ?v4) f1) (and (= ?v0 ?v2) (= (f48 (f25 (f26 f27 ?v1) ?v3) ?v5) f1)))))))
-(assert (forall ((?v0 S3) (?v1 S3) (?v2 S3) (?v3 S3) (?v4 S28) (?v5 S28)) (let ((?v_0 (f34 f35 ?v0))) (= (= (f42 (f13 (f14 f15 (f33 ?v_0 ?v1)) (f33 (f34 f35 ?v2) ?v3)) (f136 (f137 ?v4) ?v5)) f1) (or (= (f57 (f33 ?v_0 ?v2) ?v4) f1) (and (= ?v0 ?v2) (= (f57 (f33 (f34 f35 ?v1) ?v3) ?v5) f1)))))))
-(assert (forall ((?v0 S6) (?v1 Int) (?v2 Int)) (= (= (f36 (f37 (f93 ?v0) ?v1) ?v2) f1) (= (f11 ?v0 (f8 (f9 f10 ?v1) ?v2)) f1))))
-(assert (forall ((?v0 S28) (?v1 S3) (?v2 S3)) (= (= (f11 (f55 (f99 ?v0) ?v1) ?v2) f1) (= (f32 ?v0 (f33 (f34 f35 ?v1) ?v2)) f1))))
-(assert (forall ((?v0 S6) (?v1 Int) (?v2 Int)) (=> (= (f36 (f37 (f93 ?v0) ?v1) ?v2) f1) (= (f11 ?v0 (f8 (f9 f10 ?v1) ?v2)) f1))))
-(assert (forall ((?v0 S7) (?v1 S9) (?v2 S9)) (=> (= (f32 (f40 (f94 ?v0) ?v1) ?v2) f1) (= (f12 ?v0 (f13 (f14 f15 ?v1) ?v2)) f1))))
-(assert (forall ((?v0 S12) (?v1 S14) (?v2 S14)) (=> (= (f20 (f43 (f95 ?v0) ?v1) ?v2) f1) (= (f16 ?v0 (f17 (f18 f19 ?v1) ?v2)) f1))))
-(assert (forall ((?v0 S17) (?v1 Int) (?v2 S3)) (=> (= (f11 (f49 (f96 ?v0) ?v1) ?v2) f1) (= (f20 ?v0 (f21 (f22 f23 ?v1) ?v2)) f1))))
-(assert (forall ((?v0 S20) (?v1 S22) (?v2 S22)) (=> (= (f28 (f46 (f97 ?v0) ?v1) ?v2) f1) (= (f24 ?v0 (f25 (f26 f27 ?v1) ?v2)) f1))))
-(assert (forall ((?v0 S25) (?v1 S3) (?v2 Int)) (=> (= (f36 (f52 (f98 ?v0) ?v1) ?v2) f1) (= (f28 ?v0 (f29 (f30 f31 ?v1) ?v2)) f1))))
-(assert (forall ((?v0 S28) (?v1 S3) (?v2 S3)) (=> (= (f11 (f55 (f99 ?v0) ?v1) ?v2) f1) (= (f32 ?v0 (f33 (f34 f35 ?v1) ?v2)) f1))))
-(assert (forall ((?v0 S6) (?v1 Int) (?v2 Int)) (=> (= (f36 (f37 (f93 ?v0) ?v1) ?v2) f1) (=> (=> (= (f11 ?v0 (f8 (f9 f10 ?v1) ?v2)) f1) false) false))))
-(assert (forall ((?v0 S7) (?v1 S9) (?v2 S9)) (=> (= (f32 (f40 (f94 ?v0) ?v1) ?v2) f1) (=> (=> (= (f12 ?v0 (f13 (f14 f15 ?v1) ?v2)) f1) false) false))))
-(assert (forall ((?v0 S12) (?v1 S14) (?v2 S14)) (=> (= (f20 (f43 (f95 ?v0) ?v1) ?v2) f1) (=> (=> (= (f16 ?v0 (f17 (f18 f19 ?v1) ?v2)) f1) false) false))))
-(assert (forall ((?v0 S17) (?v1 Int) (?v2 S3)) (=> (= (f11 (f49 (f96 ?v0) ?v1) ?v2) f1) (=> (=> (= (f20 ?v0 (f21 (f22 f23 ?v1) ?v2)) f1) false) false))))
-(assert (forall ((?v0 S20) (?v1 S22) (?v2 S22)) (=> (= (f28 (f46 (f97 ?v0) ?v1) ?v2) f1) (=> (=> (= (f24 ?v0 (f25 (f26 f27 ?v1) ?v2)) f1) false) false))))
-(assert (forall ((?v0 S25) (?v1 S3) (?v2 Int)) (=> (= (f36 (f52 (f98 ?v0) ?v1) ?v2) f1) (=> (=> (= (f28 ?v0 (f29 (f30 f31 ?v1) ?v2)) f1) false) false))))
-(assert (forall ((?v0 S28) (?v1 S3) (?v2 S3)) (=> (= (f11 (f55 (f99 ?v0) ?v1) ?v2) f1) (=> (=> (= (f32 ?v0 (f33 (f34 f35 ?v1) ?v2)) f1) false) false))))
-(assert (forall ((?v0 Int) (?v1 Int) (?v2 S82)) (= (= (f39 (f8 (f9 f10 ?v0) ?v1) (f138 ?v2)) f1) (< (f139 f140 (f141 ?v2 ?v0)) (f139 f140 (f141 ?v2 ?v1))))))
-(assert (forall ((?v0 S9) (?v1 S9) (?v2 S85)) (= (= (f42 (f13 (f14 f15 ?v0) ?v1) (f142 ?v2)) f1) (< (f139 f140 (f143 ?v2 ?v0)) (f139 f140 (f143 ?v2 ?v1))))))
-(assert (forall ((?v0 S14) (?v1 S14) (?v2 S86)) (= (= (f45 (f17 (f18 f19 ?v0) ?v1) (f144 ?v2)) f1) (< (f139 f140 (f145 ?v2 ?v0)) (f139 f140 (f145 ?v2 ?v1))))))
-(assert (forall ((?v0 S22) (?v1 S22) (?v2 S87)) (= (= (f48 (f25 (f26 f27 ?v0) ?v1) (f146 ?v2)) f1) (< (f139 f140 (f147 ?v2 ?v0)) (f139 f140 (f147 ?v2 ?v1))))))
-(assert (forall ((?v0 S3) (?v1 S3) (?v2 S88)) (= (= (f57 (f33 (f34 f35 ?v0) ?v1) (f148 ?v2)) f1) (< (f139 f140 (f149 ?v2 ?v0)) (f139 f140 (f149 ?v2 ?v1))))))
-(assert (forall ((?v0 S82) (?v1 Int) (?v2 Int) (?v3 S6)) (=> (< (f139 f140 (f141 ?v0 ?v1)) (f139 f140 (f141 ?v0 ?v2))) (= (f39 (f8 (f9 f10 ?v1) ?v2) (f150 (f151 ?v0) ?v3)) f1))))
-(assert (forall ((?v0 S85) (?v1 S9) (?v2 S9) (?v3 S7)) (=> (< (f139 f140 (f143 ?v0 ?v1)) (f139 f140 (f143 ?v0 ?v2))) (= (f42 (f13 (f14 f15 ?v1) ?v2) (f152 (f153 ?v0) ?v3)) f1))))
-(assert (forall ((?v0 S86) (?v1 S14) (?v2 S14) (?v3 S12)) (=> (< (f139 f140 (f145 ?v0 ?v1)) (f139 f140 (f145 ?v0 ?v2))) (= (f45 (f17 (f18 f19 ?v1) ?v2) (f154 (f155 ?v0) ?v3)) f1))))
-(assert (forall ((?v0 S87) (?v1 S22) (?v2 S22) (?v3 S20)) (=> (< (f139 f140 (f147 ?v0 ?v1)) (f139 f140 (f147 ?v0 ?v2))) (= (f48 (f25 (f26 f27 ?v1) ?v2) (f156 (f157 ?v0) ?v3)) f1))))
-(assert (forall ((?v0 S88) (?v1 S3) (?v2 S3) (?v3 S28)) (=> (< (f139 f140 (f149 ?v0 ?v1)) (f139 f140 (f149 ?v0 ?v2))) (= (f57 (f33 (f34 f35 ?v1) ?v2) (f158 (f159 ?v0) ?v3)) f1))))
-(assert (forall ((?v0 S82) (?v1 Int) (?v2 Int) (?v3 S6)) (let ((?v_0 (f8 (f9 f10 ?v1) ?v2))) (=> (<= (f139 f140 (f141 ?v0 ?v1)) (f139 f140 (f141 ?v0 ?v2))) (=> (= (f39 ?v_0 ?v3) f1) (= (f39 ?v_0 (f150 (f151 ?v0) ?v3)) f1))))))
-(assert (forall ((?v0 S85) (?v1 S9) (?v2 S9) (?v3 S7)) (let ((?v_0 (f13 (f14 f15 ?v1) ?v2))) (=> (<= (f139 f140 (f143 ?v0 ?v1)) (f139 f140 (f143 ?v0 ?v2))) (=> (= (f42 ?v_0 ?v3) f1) (= (f42 ?v_0 (f152 (f153 ?v0) ?v3)) f1))))))
-(assert (forall ((?v0 S86) (?v1 S14) (?v2 S14) (?v3 S12)) (let ((?v_0 (f17 (f18 f19 ?v1) ?v2))) (=> (<= (f139 f140 (f145 ?v0 ?v1)) (f139 f140 (f145 ?v0 ?v2))) (=> (= (f45 ?v_0 ?v3) f1) (= (f45 ?v_0 (f154 (f155 ?v0) ?v3)) f1))))))
-(assert (forall ((?v0 S87) (?v1 S22) (?v2 S22) (?v3 S20)) (let ((?v_0 (f25 (f26 f27 ?v1) ?v2))) (=> (<= (f139 f140 (f147 ?v0 ?v1)) (f139 f140 (f147 ?v0 ?v2))) (=> (= (f48 ?v_0 ?v3) f1) (= (f48 ?v_0 (f156 (f157 ?v0) ?v3)) f1))))))
-(assert (forall ((?v0 S88) (?v1 S3) (?v2 S3) (?v3 S28)) (let ((?v_0 (f33 (f34 f35 ?v1) ?v2))) (=> (<= (f139 f140 (f149 ?v0 ?v1)) (f139 f140 (f149 ?v0 ?v2))) (=> (= (f57 ?v_0 ?v3) f1) (= (f57 ?v_0 (f158 (f159 ?v0) ?v3)) f1))))))
-(assert (forall ((?v0 S31) (?v1 S6)) (= (= (f160 ?v0 ?v1) f1) (forall ((?v2 Int)) (=> (= (f161 ?v2 ?v0) f1) (forall ((?v3 Int)) (=> (= (f161 ?v3 ?v0) f1) (=> (not (= ?v2 ?v3)) (or (= (f39 (f8 (f9 f10 ?v2) ?v3) ?v1) f1) (= (f39 (f8 (f9 f10 ?v3) ?v2) ?v1) f1))))))))))
-(assert (forall ((?v0 S17) (?v1 S12)) (= (= (f162 ?v0 ?v1) f1) (forall ((?v2 S14)) (=> (= (f51 ?v2 ?v0) f1) (forall ((?v3 S14)) (=> (= (f51 ?v3 ?v0) f1) (=> (not (= ?v2 ?v3)) (or (= (f45 (f17 (f18 f19 ?v2) ?v3) ?v1) f1) (= (f45 (f17 (f18 f19 ?v3) ?v2) ?v1) f1))))))))))
-(assert (forall ((?v0 S25) (?v1 S20)) (= (= (f163 ?v0 ?v1) f1) (forall ((?v2 S22)) (=> (= (f54 ?v2 ?v0) f1) (forall ((?v3 S22)) (=> (= (f54 ?v3 ?v0) f1) (=> (not (= ?v2 ?v3)) (or (= (f48 (f25 (f26 f27 ?v2) ?v3) ?v1) f1) (= (f48 (f25 (f26 f27 ?v3) ?v2) ?v1) f1))))))))))
-(assert (forall ((?v0 S7) (?v1 S43)) (= (= (f164 ?v0 ?v1) f1) (forall ((?v2 S8)) (=> (= (f42 ?v2 ?v0) f1) (forall ((?v3 S8)) (=> (= (f42 ?v3 ?v0) f1) (=> (not (= ?v2 ?v3)) (or (= (f63 (f64 ?v2 ?v3) ?v1) f1) (= (f63 (f64 ?v3 ?v2) ?v1) f1))))))))))
-(assert (forall ((?v0 S12) (?v1 S47)) (= (= (f165 ?v0 ?v1) f1) (forall ((?v2 S13)) (=> (= (f45 ?v2 ?v0) f1) (forall ((?v3 S13)) (=> (= (f45 ?v3 ?v0) f1) (=> (not (= ?v2 ?v3)) (or (= (f68 (f69 ?v2 ?v3) ?v1) f1) (= (f68 (f69 ?v3 ?v2) ?v1) f1))))))))))
-(assert (forall ((?v0 S20) (?v1 S51)) (= (= (f166 ?v0 ?v1) f1) (forall ((?v2 S21)) (=> (= (f48 ?v2 ?v0) f1) (forall ((?v3 S21)) (=> (= (f48 ?v3 ?v0) f1) (=> (not (= ?v2 ?v3)) (or (= (f73 (f74 ?v2 ?v3) ?v1) f1) (= (f73 (f74 ?v3 ?v2) ?v1) f1))))))))))
-(assert (forall ((?v0 S28) (?v1 S7)) (= (= (f167 ?v0 ?v1) f1) (forall ((?v2 S9)) (=> (= (f57 ?v2 ?v0) f1) (forall ((?v3 S9)) (=> (= (f57 ?v3 ?v0) f1) (=> (not (= ?v2 ?v3)) (or (= (f42 (f13 (f14 f15 ?v2) ?v3) ?v1) f1) (= (f42 (f13 (f14 f15 ?v3) ?v2) ?v1) f1))))))))))
-(assert (forall ((?v0 S6) (?v1 S28)) (= (= (f168 ?v0 ?v1) f1) (forall ((?v2 S3)) (=> (= (f39 ?v2 ?v0) f1) (forall ((?v3 S3)) (=> (= (f39 ?v3 ?v0) f1) (=> (not (= ?v2 ?v3)) (or (= (f57 (f33 (f34 f35 ?v2) ?v3) ?v1) f1) (= (f57 (f33 (f34 f35 ?v3) ?v2) ?v1) f1))))))))))
-(assert (forall ((?v0 S84)) (= (f141 f169 (f139 f140 ?v0)) ?v0)))
-(assert (forall ((?v0 Int)) (=> (<= 0 ?v0) (= (f139 f140 (f141 f169 ?v0)) ?v0))))
-(assert (forall ((?v0 Int)) (=> (< ?v0 0) (= (f139 f140 (f141 f169 ?v0)) 0))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/nl/nl-unk-quant.smt2 b/test/regress/regress0/nl/nl-unk-quant.smt2
deleted file mode 100644
index bb5cd43df..000000000
--- a/test/regress/regress0/nl/nl-unk-quant.smt2
+++ /dev/null
@@ -1,29 +0,0 @@
-; COMMAND-LINE: --nl-ext
-; EXPECT: unsat
-(set-logic UFNIA)
-(set-info :source |Benchmarks from the paper: "Extending Sledgehammer with SMT Solvers" by Jasmin Blanchette, Sascha Bohme, and Lawrence C. Paulson, CADE 2011.  Translated to SMT2 by Andrew Reynolds and Morgan Deters.|)
-(set-info :smt-lib-version 2.0)
-(set-info :category "industrial")
-(set-info :status unsat)
-(declare-sort S1 0)
-(declare-sort S2 0)
-(declare-sort S3 0)
-(declare-sort S4 0)
-(declare-fun f1 () S1)
-(declare-fun f2 () S1)
-(declare-fun f3 () S2)
-(declare-fun f4 (S3 Int) S2)
-(declare-fun f5 () S3)
-(declare-fun f6 (S4 S2) Int)
-(declare-fun f7 () S4)
-(declare-fun f8 () Int)
-(declare-fun f9 (Int) S1)
-(declare-fun f10 () Int)
-(declare-fun f11 () S2)
-(assert (not (= f1 f2)))
-(assert (let ((?v_0 (f6 f7 f3)) (?v_1 (f6 f7 f11))) (not (=> (and (= f3 (f4 f5 (- (f6 f7 (f4 f5 f8)) 1))) (= (f9 (* (+ (* 4 f10) 1) (+ 1 ?v_0))) f1)) (=> (< f8 (+ 1 ?v_1)) (=> (< 0 f8) (< ?v_0 ?v_1)))))))
-(assert (forall ((?v0 S2)) (= (f4 f5 (f6 f7 ?v0)) ?v0)))
-(assert (forall ((?v0 Int)) (=> (<= 0 ?v0) (= (f6 f7 (f4 f5 ?v0)) ?v0))))
-(assert (forall ((?v0 Int)) (=> (< ?v0 0) (= (f6 f7 (f4 f5 ?v0)) 0))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/nl/nt-lemmas-bad.smt2 b/test/regress/regress0/nl/nt-lemmas-bad.smt2
deleted file mode 100644
index cea877c23..000000000
--- a/test/regress/regress0/nl/nt-lemmas-bad.smt2
+++ /dev/null
@@ -1,29 +0,0 @@
-; COMMAND-LINE: --nl-ext --nl-ext-tplanes
-; EXPECT: unsat
-(set-logic QF_NRA)
-(set-info :source |
-These benchmarks used in the paper:
-
-  Dejan Jovanovic and Leonardo de Moura.  Solving Non-Linear Arithmetic.
-  In IJCAR 2012, published as LNCS volume 7364, pp. 339--354.
-
-The meti-tarski benchmarks are proof obligations extracted from the
-Meti-Tarski project, see:
-
-  B. Akbarpour and L. C. Paulson. MetiTarski: An automatic theorem prover
-  for real-valued special functions. Journal of Automated Reasoning,
-  44(3):175-205, 2010.
-
-Submitted by Dejan Jovanovic for SMT-LIB.
-
-
-|)
-(set-info :smt-lib-version 2.0)
-(set-info :category "industrial")
-(set-info :status unsat)
-(declare-fun skoX () Real)
-(declare-fun skoY () Real)
-(declare-fun pi () Real)
-(assert (let ((?v_0 (* skoY skoY))) (and (<= (* skoY (+ (/ 11722184772546574330443595776 12341362258596589055135468582520347) (* pi (/ (- 20000116509245440) 3119868895908289175433)))) (* pi (- 20))) (and (<= 0 skoY) (and (not (<= (/ 31415927 10000000) pi)) (and (not (<= pi (/ 15707963 5000000))) (and (= ?v_0 (+ 277555600 (* skoX (* skoX (+ 15328072984 (* skoX (* skoX (+ 129098541721 (* skoX (* skoX (+ 21404723599 (* skoX (* skoX (+ 1024027285 (* skoX (* skoX 15132100)))))))))))))))) (= ?v_0 (+ 277555600 (* (/ 265 128) (* (/ 265 128) (+ 15328072984 (* (/ 265 128) (* (/ 265 128) (+ 129098541721 (* (/ 265 128) (* (/ 265 128) (+ 21404723599 (* (/ 265 128) (* (/ 265 128) (+ 1024027285 (* (/ 265 128) (* (/ 265 128) 15132100)))))))))))))))))))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/nl/nta/NAVIGATION2.smt2 b/test/regress/regress0/nl/nta/NAVIGATION2.smt2
deleted file mode 100644
index 445b8a21e..000000000
--- a/test/regress/regress0/nl/nta/NAVIGATION2.smt2
+++ /dev/null
@@ -1,23 +0,0 @@
-; COMMAND-LINE: --nl-ext-tf-tplanes
-; EXPECT: unsat
-(set-logic QF_NRA)
-(set-info :source |printed by MathSAT|)
-(declare-fun X () Real)
-
-(assert (let ((.def_44 (* (- (/ 11 10)) X)))
-(let ((.def_45 (exp .def_44)))
-(let ((.def_50 (* 250 .def_45)))
-(let ((.def_40 (* (- (/ 13 10)) X)))
-(let ((.def_41 (exp .def_40)))
-(let ((.def_52 (* 173 .def_41)))
-(let ((.def_53 (+ .def_52 .def_50)))
-(let ((.def_54 (* 250 X)))
-(let ((.def_55 (+ .def_54 .def_53)))
-(let ((.def_56 (<= .def_55 (/ 595 2))))
-(let ((.def_57 (not .def_56)))
-(let ((.def_31 (<= 0 X)))
-(let ((.def_32 (not .def_31)))
-(let ((.def_58 (or .def_32 .def_57)))
-(let ((.def_59 (not .def_58)))
-.def_59))))))))))))))))
-(check-sat)
diff --git a/test/regress/regress0/nl/nta/arrowsmith-050317.smt2 b/test/regress/regress0/nl/nta/arrowsmith-050317.smt2
deleted file mode 100644
index 04b06e1f5..000000000
--- a/test/regress/regress0/nl/nta/arrowsmith-050317.smt2
+++ /dev/null
@@ -1,95 +0,0 @@
-; COMMAND-LINE: --nl-ext
-; EXPECT: unsat
-(set-logic QF_NRA)
-(set-info :status unsat)
-(declare-fun time__AT0@0 () Real)
-(declare-fun instance.location.0__AT0@0 () Bool)
-(declare-fun instance.y__AT0@0 () Real)
-(declare-fun instance.x__AT0@0 () Real)
-(declare-fun instance.location.0__AT0@4 () Bool)
-(declare-fun event_is_timed__AT0@1 () Bool)
-(declare-fun event_is_timed__AT0@0 () Bool)
-(declare-fun instance.location.0__AT0@1 () Bool)
-(declare-fun instance.x__AT0@1 () Real)
-(declare-fun instance.y__AT0@1 () Real)
-(declare-fun instance.EVENT.0__AT0@0 () Bool)
-(declare-fun instance.EVENT.1__AT0@0 () Bool)
-(declare-fun time__AT0@1 () Real)
-(declare-fun event_is_timed__AT0@3 () Bool)
-(declare-fun instance.location.0__AT0@3 () Bool)
-(declare-fun instance.x__AT0@3 () Real)
-(declare-fun instance.y__AT0@3 () Real)
-(declare-fun instance.EVENT.0__AT0@2 () Bool)
-(declare-fun instance.EVENT.1__AT0@2 () Bool)
-(declare-fun time__AT0@3 () Real)
-(declare-fun event_is_timed__AT0@2 () Bool)
-(declare-fun instance.location.0__AT0@2 () Bool)
-(declare-fun instance.x__AT0@2 () Real)
-(declare-fun instance.y__AT0@2 () Real)
-(declare-fun instance.EVENT.0__AT0@1 () Bool)
-(declare-fun instance.EVENT.1__AT0@1 () Bool)
-(declare-fun time__AT0@2 () Real)
-(declare-fun event_is_timed__AT0@4 () Bool)
-(declare-fun instance.x__AT0@4 () Real)
-(declare-fun instance.y__AT0@4 () Real)
-(declare-fun instance.EVENT.0__AT0@3 () Bool)
-(declare-fun instance.EVENT.1__AT0@3 () Bool)
-(declare-fun time__AT0@4 () Real)
-(assert (let ((.def_0 (not instance.EVENT.1__AT0@3))) (let ((.def_1 (not instance.EVENT.0__AT0@3))) (let ((.def_2 (or .def_1 .def_0))) (let ((.def_3 (= event_is_timed__AT0@3 instance.EVENT.1__AT0@3))) (let ((.def_4 (<= time__AT0@3 
-time__AT0@4))) (let ((.def_5 (or .def_0 .def_4))) (let ((.def_6 (and .def_5 .def_3))) (let ((.def_7 (= time__AT0@3 time__AT0@4))) (let ((.def_8 (or instance.EVENT.1__AT0@3 .def_7))) (let ((.def_9 (and .def_8 .def_6))) (let 
-((.def_10 (<= instance.x__AT0@3 0.0))) (let ((.def_11 (not .def_10))) (let ((.def_12 (not instance.location.0__AT0@3))) (let ((.def_13 (and .def_12 .def_11))) (let ((.def_14 (and instance.location.0__AT0@4 .def_13))) (let ((.def_15 
-(= instance.x__AT0@3 instance.x__AT0@4))) (let ((.def_16 (and .def_15 .def_14))) (let ((.def_17 (= instance.y__AT0@3 instance.y__AT0@4))) (let ((.def_18 (and .def_17 .def_16))) (let ((.def_19 (<= instance.y__AT0@3 0.0))) (let 
-((.def_20 (and .def_12 .def_19))) (let ((.def_21 (and instance.location.0__AT0@4 .def_20))) (let ((.def_22 (and .def_15 .def_21))) (let ((.def_23 (and .def_17 .def_22))) (let ((.def_24 (or .def_23 .def_18))) (let ((.def_25 (and 
-.def_7 .def_24))) (let ((.def_26 (or instance.EVENT.1__AT0@3 .def_25))) (let ((.def_27 (not .def_7))) (let ((.def_28 (and .def_15 .def_17))) (let ((.def_29 (or .def_28 .def_27))) (let ((.def_30 (and .def_28 .def_29))) (let 
-((.def_31 (or .def_30 .def_12))) (let ((.def_32 (* (- 1.0) time__AT0@3))) (let ((.def_33 (+ .def_32 time__AT0@4))) (let ((.def_34 (exp .def_33))) (let ((.def_35 (* instance.x__AT0@3 .def_34))) (let ((.def_36 (= instance.x__AT0@4 
-.def_35))) (let ((.def_37 (* 2.0 instance.x__AT0@4))) (let ((.def_38 (* instance.y__AT0@4 .def_37))) (let ((.def_39 (* (- 1.0) .def_38))) (let ((.def_40 (* 2.0 instance.x__AT0@3))) (let ((.def_41 (* instance.y__AT0@3 .def_40))) 
-(let ((.def_42 (* (- 1.0) .def_41))) (let ((.def_43 (+ instance.y__AT0@3 .def_42))) (let ((.def_44 (* .def_43 .def_34))) (let ((.def_45 (* (- 1.0) .def_44))) (let ((.def_46 (+ .def_45 .def_39))) (let ((.def_47 (+ instance.y__AT0@4 
-.def_46))) (let ((.def_48 (= .def_47 0.0))) (let ((.def_49 (and .def_48 .def_36))) (let ((.def_50 (and .def_49 .def_29))) (let ((.def_51 (or instance.location.0__AT0@3 .def_50))) (let ((.def_52 (and .def_51 .def_31))) (let 
-((.def_53 (and .def_52 .def_4))) (let ((.def_54 (= instance.location.0__AT0@4 instance.location.0__AT0@3))) (let ((.def_55 (and .def_54 .def_53))) (let ((.def_56 (or .def_0 .def_55))) (let ((.def_57 (and .def_56 .def_26))) (let 
-((.def_58 (and .def_1 .def_0))) (let ((.def_59 (or .def_58 .def_57))) (let ((.def_60 (and .def_59 .def_9))) (let ((.def_61 (not .def_58))) (let ((.def_62 (and .def_54 .def_15))) (let ((.def_63 (and .def_62 .def_17))) (let ((.def_64 
-(or .def_63 .def_61))) (let ((.def_65 (and .def_64 .def_60))) (let ((.def_66 (not event_is_timed__AT0@3))) (let ((.def_67 (= event_is_timed__AT0@4 .def_66))) (let ((.def_68 (and .def_67 .def_65))) (let ((.def_69 (and .def_68 
-.def_2))) (let ((.def_70 (not instance.EVENT.1__AT0@2))) (let ((.def_71 (not instance.EVENT.0__AT0@2))) (let ((.def_72 (or .def_71 .def_70))) (let ((.def_73 (= event_is_timed__AT0@2 instance.EVENT.1__AT0@2))) (let ((.def_74 (<= 
-time__AT0@2 time__AT0@3))) (let ((.def_75 (or .def_70 .def_74))) (let ((.def_76 (and .def_75 .def_73))) (let ((.def_77 (= time__AT0@2 time__AT0@3))) (let ((.def_78 (or instance.EVENT.1__AT0@2 .def_77))) (let ((.def_79 (and .def_78 
-.def_76))) (let ((.def_80 (<= instance.x__AT0@2 0.0))) (let ((.def_81 (not .def_80))) (let ((.def_82 (not instance.location.0__AT0@2))) (let ((.def_83 (and .def_82 .def_81))) (let ((.def_84 (and instance.location.0__AT0@3 
-.def_83))) (let ((.def_85 (= instance.x__AT0@2 instance.x__AT0@3))) (let ((.def_86 (and .def_85 .def_84))) (let ((.def_87 (= instance.y__AT0@2 instance.y__AT0@3))) (let ((.def_88 (and .def_87 .def_86))) (let ((.def_89 (<= 
-instance.y__AT0@2 0.0))) (let ((.def_90 (and .def_82 .def_89))) (let ((.def_91 (and instance.location.0__AT0@3 .def_90))) (let ((.def_92 (and .def_85 .def_91))) (let ((.def_93 (and .def_87 .def_92))) (let ((.def_94 (or .def_93 
-.def_88))) (let ((.def_95 (and .def_77 .def_94))) (let ((.def_96 (or instance.EVENT.1__AT0@2 .def_95))) (let ((.def_97 (not .def_77))) (let ((.def_98 (and .def_85 .def_87))) (let ((.def_99 (or .def_98 .def_97))) (let ((.def_100 
-(and .def_98 .def_99))) (let ((.def_101 (or .def_100 .def_82))) (let ((.def_102 (* (- 1.0) time__AT0@2))) (let ((.def_103 (+ .def_102 time__AT0@3))) (let ((.def_104 (exp .def_103))) (let ((.def_105 (* instance.x__AT0@2 .def_104))) 
-(let ((.def_106 (= instance.x__AT0@3 .def_105))) (let ((.def_107 (* 2.0 instance.x__AT0@2))) (let ((.def_108 (* instance.y__AT0@2 .def_107))) (let ((.def_109 (* (- 1.0) .def_108))) (let ((.def_110 (+ instance.y__AT0@2 .def_109))) 
-(let ((.def_111 (* .def_110 .def_104))) (let ((.def_112 (* (- 1.0) .def_111))) (let ((.def_113 (+ .def_112 .def_42))) (let ((.def_114 (+ instance.y__AT0@3 .def_113))) (let ((.def_115 (= .def_114 0.0))) (let ((.def_116 (and .def_115 
-.def_106))) (let ((.def_117 (and .def_116 .def_99))) (let ((.def_118 (or instance.location.0__AT0@2 .def_117))) (let ((.def_119 (and .def_118 .def_101))) (let ((.def_120 (and .def_119 .def_74))) (let ((.def_121 (= 
-instance.location.0__AT0@2 instance.location.0__AT0@3))) (let ((.def_122 (and .def_121 .def_120))) (let ((.def_123 (or .def_70 .def_122))) (let ((.def_124 (and .def_123 .def_96))) (let ((.def_125 (and .def_71 .def_70))) (let 
-((.def_126 (or .def_125 .def_124))) (let ((.def_127 (and .def_126 .def_79))) (let ((.def_128 (not .def_125))) (let ((.def_129 (and .def_121 .def_85))) (let ((.def_130 (and .def_129 .def_87))) (let ((.def_131 (or .def_130 
-.def_128))) (let ((.def_132 (and .def_131 .def_127))) (let ((.def_133 (not event_is_timed__AT0@2))) (let ((.def_134 (= event_is_timed__AT0@3 .def_133))) (let ((.def_135 (and .def_134 .def_132))) (let ((.def_136 (and .def_135 
-.def_72))) (let ((.def_137 (not instance.EVENT.1__AT0@1))) (let ((.def_138 (not instance.EVENT.0__AT0@1))) (let ((.def_139 (or .def_138 .def_137))) (let ((.def_140 (= event_is_timed__AT0@1 instance.EVENT.1__AT0@1))) (let ((.def_141 
-(<= time__AT0@1 time__AT0@2))) (let ((.def_142 (or .def_137 .def_141))) (let ((.def_143 (and .def_142 .def_140))) (let ((.def_144 (= time__AT0@1 time__AT0@2))) (let ((.def_145 (or instance.EVENT.1__AT0@1 .def_144))) (let ((.def_146 
-(and .def_145 .def_143))) (let ((.def_147 (<= instance.x__AT0@1 0.0))) (let ((.def_148 (not .def_147))) (let ((.def_149 (not instance.location.0__AT0@1))) (let ((.def_150 (and .def_149 .def_148))) (let ((.def_151 (and 
-instance.location.0__AT0@2 .def_150))) (let ((.def_152 (= instance.x__AT0@1 instance.x__AT0@2))) (let ((.def_153 (and .def_152 .def_151))) (let ((.def_154 (= instance.y__AT0@1 instance.y__AT0@2))) (let ((.def_155 (and .def_154 
-.def_153))) (let ((.def_156 (<= instance.y__AT0@1 0.0))) (let ((.def_157 (and .def_149 .def_156))) (let ((.def_158 (and instance.location.0__AT0@2 .def_157))) (let ((.def_159 (and .def_152 .def_158))) (let ((.def_160 (and .def_154 
-.def_159))) (let ((.def_161 (or .def_160 .def_155))) (let ((.def_162 (and .def_144 .def_161))) (let ((.def_163 (or instance.EVENT.1__AT0@1 .def_162))) (let ((.def_164 (not .def_144))) (let ((.def_165 (and .def_152 .def_154))) (let 
-((.def_166 (or .def_165 .def_164))) (let ((.def_167 (and .def_165 .def_166))) (let ((.def_168 (or .def_167 .def_149))) (let ((.def_169 (* (- 1.0) time__AT0@1))) (let ((.def_170 (+ .def_169 time__AT0@2))) (let ((.def_171 (exp 
-.def_170))) (let ((.def_172 (* instance.x__AT0@1 .def_171))) (let ((.def_173 (= instance.x__AT0@2 .def_172))) (let ((.def_174 (* 2.0 instance.x__AT0@1))) (let ((.def_175 (* instance.y__AT0@1 .def_174))) (let ((.def_176 (* (- 1.0) 
-.def_175))) (let ((.def_177 (+ instance.y__AT0@1 .def_176))) (let ((.def_178 (* .def_177 .def_171))) (let ((.def_179 (* (- 1.0) .def_178))) (let ((.def_180 (+ .def_179 .def_109))) (let ((.def_181 (+ instance.y__AT0@2 .def_180))) 
-(let ((.def_182 (= .def_181 0.0))) (let ((.def_183 (and .def_182 .def_173))) (let ((.def_184 (and .def_183 .def_166))) (let ((.def_185 (or instance.location.0__AT0@1 .def_184))) (let ((.def_186 (and .def_185 .def_168))) (let 
-((.def_187 (and .def_186 .def_141))) (let ((.def_188 (= instance.location.0__AT0@1 instance.location.0__AT0@2))) (let ((.def_189 (and .def_188 .def_187))) (let ((.def_190 (or .def_137 .def_189))) (let ((.def_191 (and .def_190 
-.def_163))) (let ((.def_192 (and .def_138 .def_137))) (let ((.def_193 (or .def_192 .def_191))) (let ((.def_194 (and .def_193 .def_146))) (let ((.def_195 (not .def_192))) (let ((.def_196 (and .def_188 .def_152))) (let ((.def_197 
-(and .def_196 .def_154))) (let ((.def_198 (or .def_197 .def_195))) (let ((.def_199 (and .def_198 .def_194))) (let ((.def_200 (not event_is_timed__AT0@1))) (let ((.def_201 (= event_is_timed__AT0@2 .def_200))) (let ((.def_202 (and 
-.def_201 .def_199))) (let ((.def_203 (and .def_202 .def_139))) (let ((.def_204 (not instance.EVENT.1__AT0@0))) (let ((.def_205 (not instance.EVENT.0__AT0@0))) (let ((.def_206 (or .def_205 .def_204))) (let ((.def_207 (= 
-event_is_timed__AT0@0 instance.EVENT.1__AT0@0))) (let ((.def_208 (<= time__AT0@0 time__AT0@1))) (let ((.def_209 (or .def_204 .def_208))) (let ((.def_210 (and .def_209 .def_207))) (let ((.def_211 (= time__AT0@0 time__AT0@1))) (let 
-((.def_212 (or instance.EVENT.1__AT0@0 .def_211))) (let ((.def_213 (and .def_212 .def_210))) (let ((.def_214 (<= instance.x__AT0@0 0.0))) (let ((.def_215 (not .def_214))) (let ((.def_216 (not instance.location.0__AT0@0))) (let 
-((.def_217 (and .def_216 .def_215))) (let ((.def_218 (and instance.location.0__AT0@1 .def_217))) (let ((.def_219 (= instance.x__AT0@0 instance.x__AT0@1))) (let ((.def_220 (and .def_219 .def_218))) (let ((.def_221 (= 
-instance.y__AT0@0 instance.y__AT0@1))) (let ((.def_222 (and .def_221 .def_220))) (let ((.def_223 (<= instance.y__AT0@0 0.0))) (let ((.def_224 (and .def_216 .def_223))) (let ((.def_225 (and instance.location.0__AT0@1 .def_224))) 
-(let ((.def_226 (and .def_219 .def_225))) (let ((.def_227 (and .def_221 .def_226))) (let ((.def_228 (or .def_227 .def_222))) (let ((.def_229 (and .def_211 .def_228))) (let ((.def_230 (or instance.EVENT.1__AT0@0 .def_229))) (let 
-((.def_231 (not .def_211))) (let ((.def_232 (and .def_219 .def_221))) (let ((.def_233 (or .def_232 .def_231))) (let ((.def_234 (and .def_232 .def_233))) (let ((.def_235 (or .def_216 .def_234))) (let ((.def_236 (* (- 1.0) 
-time__AT0@0))) (let ((.def_237 (+ .def_236 time__AT0@1))) (let ((.def_238 (exp .def_237))) (let ((.def_239 (* instance.x__AT0@0 .def_238))) (let ((.def_240 (= instance.x__AT0@1 .def_239))) (let ((.def_241 (* 2.0 
-instance.x__AT0@0))) (let ((.def_242 (* instance.y__AT0@0 .def_241))) (let ((.def_243 (* (- 1.0) .def_242))) (let ((.def_244 (+ instance.y__AT0@0 .def_243))) (let ((.def_245 (* .def_244 .def_238))) (let ((.def_246 (* (- 1.0) 
-.def_245))) (let ((.def_247 (+ .def_246 .def_176))) (let ((.def_248 (+ instance.y__AT0@1 .def_247))) (let ((.def_249 (= .def_248 0.0))) (let ((.def_250 (and .def_249 .def_240))) (let ((.def_251 (and .def_250 .def_233))) (let 
-((.def_252 (or instance.location.0__AT0@0 .def_251))) (let ((.def_253 (and .def_252 .def_235))) (let ((.def_254 (and .def_253 .def_208))) (let ((.def_255 (= instance.location.0__AT0@0 instance.location.0__AT0@1))) (let ((.def_256 
-(and .def_255 .def_254))) (let ((.def_257 (or .def_204 .def_256))) (let ((.def_258 (and .def_257 .def_230))) (let ((.def_259 (and .def_205 .def_204))) (let ((.def_260 (or .def_259 .def_258))) (let ((.def_261 (and .def_260 
-.def_213))) (let ((.def_262 (not .def_259))) (let ((.def_263 (and .def_255 .def_219))) (let ((.def_264 (and .def_263 .def_221))) (let ((.def_265 (or .def_264 .def_262))) (let ((.def_266 (and .def_265 .def_261))) (let ((.def_267 
-(not event_is_timed__AT0@0))) (let ((.def_268 (= event_is_timed__AT0@1 .def_267))) (let ((.def_269 (and .def_268 .def_266))) (let ((.def_270 (and .def_269 .def_206))) (let ((.def_271 (= instance.x__AT0@0 (- 1.0)))) (let ((.def_272 
-(= instance.y__AT0@0 1.0))) (let ((.def_273 (and .def_272 .def_271))) (let ((.def_274 (and .def_216 .def_273))) (let ((.def_275 (= time__AT0@0 0.0))) (let ((.def_276 (and .def_275 .def_274))) (let ((.def_277 (and .def_276 .def_270 
-.def_203 .def_136 .def_69 instance.location.0__AT0@4))) 
-.def_277)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/nl/nta/bad-050217.smt2 b/test/regress/regress0/nl/nta/bad-050217.smt2
deleted file mode 100644
index 3b9310748..000000000
--- a/test/regress/regress0/nl/nta/bad-050217.smt2
+++ /dev/null
@@ -1,17 +0,0 @@
-; COMMAND-LINE: --nl-ext
-; EXPECT: sat
-(set-logic QF_NRA)
-(set-info :status sat)
-(declare-fun time__AT0@0 () Real)
-(declare-fun instance.y__AT0@0 () Real)
-(declare-fun instance.x__AT0@0 () Real)
-(declare-fun instance.x__AT0@1 () Real)
-(declare-fun event_is_timed__AT0@1 () Bool)
-(declare-fun event_is_timed__AT0@0 () Bool)
-(declare-fun instance.EVENT.0__AT0@0 () Bool)
-(declare-fun instance.EVENT.1__AT0@0 () Bool)
-(declare-fun instance.y__AT0@1 () Real)
-(declare-fun time__AT0@1 () Real)
-(assert (let ((.def_0 (<= 0.0 instance.x__AT0@1))) (let ((.def_1 (not .def_0))) (let ((.def_2 (not instance.EVENT.1__AT0@0))) (let ((.def_3 (not instance.EVENT.0__AT0@0))) (let ((.def_4 (or .def_3 .def_2))) (let ((.def_5 (= event_is_timed__AT0@0 instance.EVENT.1__AT0@0))) (let ((.def_6 (<= time__AT0@0 time__AT0@1))) (let ((.def_7 (or .def_2 .def_6))) (let ((.def_8 (and .def_7 .def_5))) (let ((.def_9 (= time__AT0@0 time__AT0@1))) (let ((.def_10 (or instance.EVENT.1__AT0@0 .def_9))) (let ((.def_11 (and .def_10 .def_8))) (let ((.def_12 (* (- 1.0) instance.y__AT0@0))) (let ((.def_13 (+ instance.x__AT0@0 .def_12))) (let ((.def_14 (* (- 1.0) time__AT0@0))) (let ((.def_15 (+ .def_14 time__AT0@1))) (let ((.def_16 (exp .def_15))) (let ((.def_17 (* .def_16 .def_13))) (let ((.def_18 (* (- 1.0) .def_17))) (let ((.def_19 (* (- 1.0) instance.y__AT0@1))) (let ((.def_20 (+ .def_19 .def_18))) (let ((.def_21 (+ instance.x__AT0@1 .def_20))) (let ((.def_22 (= .def_21 0.0))) (let ((.def_23 (+ instance.y__AT0@0 instance.x__AT0@0))) (let ((.def_24 (* .def_23 .def_16))) (let ((.def_25 (* (- 1.0) .def_24))) (let ((.def_26 (+ instance.y__AT0@1 .def_25))) (let ((.def_27 (+ instance.x__AT0@1 .def_26))) (let ((.def_28 (= .def_27 0.0))) (let ((.def_29 (and .def_28 .def_22))) (let ((.def_30 (not .def_9))) (let ((.def_31 (= instance.x__AT0@0 instance.x__AT0@1))) (let ((.def_32 (= instance.y__AT0@0 instance.y__AT0@1))) (let ((.def_33 (and .def_32 .def_31))) (let ((.def_34 (or .def_33 .def_30))) (let ((.def_35 (and .def_34 .def_29))) (let ((.def_36 (and .def_35 .def_6))) (let ((.def_37 (or .def_2 .def_36))) (let ((.def_38 (and .def_37 .def_10))) (let ((.def_39 (and .def_3 .def_2))) (let ((.def_40 (or .def_39 .def_38))) (let ((.def_41 (and .def_40 .def_11))) (let ((.def_42 (not .def_39))) (let ((.def_43 (or .def_42 .def_33))) (let ((.def_44 (and .def_43 .def_41))) (let ((.def_45 (not event_is_timed__AT0@0))) (let ((.def_46 (= event_is_timed__AT0@1 .def_45))) (let ((.def_47 (and .def_46 .def_44))) (let ((.def_48 (and .def_47 .def_4))) (let ((.def_49 (= instance.x__AT0@0 1.0))) (let ((.def_50 (= instance.y__AT0@0 0.0))) (let ((.def_51 (and .def_50 .def_49))) (let ((.def_52 (= time__AT0@0 0.0))) (let ((.def_53 (and .def_52 .def_51))) (let ((.def_54 (and .def_53 .def_48 .def_1))) .def_54))))))))))))))))))))))))))))))))))))))))))))))))))))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/nl/nta/cos-bound.smt2 b/test/regress/regress0/nl/nta/cos-bound.smt2
deleted file mode 100644
index e19260d63..000000000
--- a/test/regress/regress0/nl/nta/cos-bound.smt2
+++ /dev/null
@@ -1,6 +0,0 @@
-; COMMAND-LINE: --nl-ext
-; EXPECT: unsat
-(set-logic QF_UFNRA)
-(declare-fun x () Real)
-(assert (> (cos x) 1.0))
-(check-sat)
diff --git a/test/regress/regress0/nl/nta/cos1-tc.smt2 b/test/regress/regress0/nl/nta/cos1-tc.smt2
deleted file mode 100644
index 7ddae1453..000000000
--- a/test/regress/regress0/nl/nta/cos1-tc.smt2
+++ /dev/null
@@ -1,8 +0,0 @@
-; COMMAND-LINE: --nl-ext --no-nl-ext-tf-inc-prec
-; EXPECT: unknown
-(set-logic UFNRA)
-(declare-fun f (Real) Real)
-
-(assert (= (f 0.0) (cos 1)))
-
-(check-sat)
diff --git a/test/regress/regress0/nl/nta/dumortier-050317.smt2 b/test/regress/regress0/nl/nta/dumortier-050317.smt2
deleted file mode 100644
index 04c498ca0..000000000
--- a/test/regress/regress0/nl/nta/dumortier-050317.smt2
+++ /dev/null
@@ -1,38 +0,0 @@
-(set-logic QF_NRA)
-(declare-fun time__AT0@0 () Real)
-(declare-fun instance.y__AT0@0 () Real)
-(declare-fun instance.x__AT0@0 () Real)
-(declare-fun event_is_timed__AT0@3 () Bool)
-(declare-fun instance.EVENT.0__AT0@2 () Bool)
-(declare-fun instance.EVENT.1__AT0@2 () Bool)
-(declare-fun instance.y__AT0@3 () Real)
-(declare-fun instance.x__AT0@3 () Real)
-(declare-fun time__AT0@3 () Real)
-(declare-fun instance.y__AT0@5 () Real)
-(declare-fun event_is_timed__AT0@1 () Bool)
-(declare-fun event_is_timed__AT0@0 () Bool)
-(declare-fun instance.EVENT.0__AT0@0 () Bool)
-(declare-fun instance.EVENT.1__AT0@0 () Bool)
-(declare-fun instance.y__AT0@1 () Real)
-(declare-fun instance.x__AT0@1 () Real)
-(declare-fun time__AT0@1 () Real)
-(declare-fun event_is_timed__AT0@4 () Bool)
-(declare-fun instance.EVENT.0__AT0@3 () Bool)
-(declare-fun instance.EVENT.1__AT0@3 () Bool)
-(declare-fun instance.y__AT0@4 () Real)
-(declare-fun instance.x__AT0@4 () Real)
-(declare-fun time__AT0@4 () Real)
-(declare-fun event_is_timed__AT0@2 () Bool)
-(declare-fun instance.EVENT.0__AT0@1 () Bool)
-(declare-fun instance.EVENT.1__AT0@1 () Bool)
-(declare-fun instance.y__AT0@2 () Real)
-(declare-fun instance.x__AT0@2 () Real)
-(declare-fun time__AT0@2 () Real)
-(declare-fun event_is_timed__AT0@5 () Bool)
-(declare-fun instance.EVENT.0__AT0@4 () Bool)
-(declare-fun instance.EVENT.1__AT0@4 () Bool)
-(declare-fun instance.x__AT0@5 () Real)
-(declare-fun time__AT0@5 () Real)
-(assert (let ((.def_0 (<= instance.y__AT0@5 2.0))) (let ((.def_1 (not .def_0))) (let ((.def_2 (not instance.EVENT.1__AT0@4))) (let ((.def_3 (not instance.EVENT.0__AT0@4))) (let ((.def_4 (or .def_3 .def_2))) (let ((.def_5 (= event_is_timed__AT0@4 instance.EVENT.1__AT0@4))) (let ((.def_6 (<= time__AT0@4 time__AT0@5))) (let ((.def_7 (or .def_2 .def_6))) (let ((.def_8 (and .def_7 .def_5))) (let ((.def_9 (= time__AT0@4 time__AT0@5))) (let ((.def_10 (or instance.EVENT.1__AT0@4 .def_9))) (let ((.def_11 (and .def_10 .def_8))) (let ((.def_12 (* (- 1.0) time__AT0@4))) (let ((.def_13 (+ .def_12 time__AT0@5))) (let ((.def_14 (exp .def_13))) (let ((.def_15 (* instance.y__AT0@4 .def_14))) (let ((.def_16 (= instance.y__AT0@5 .def_15))) (let ((.def_17 (* 970143.0 instance.x__AT0@5))) (let ((.def_18 (* (- 970143.0) instance.x__AT0@4))) (let ((.def_19 (+ .def_18 .def_17))) (let ((.def_20 (* (- 242536.0) instance.y__AT0@4))) (let ((.def_21 (+ .def_20 .def_19))) (let ((.def_22 (* 242536.0 instance.y__AT0@5))) (let ((.def_23 (+ .def_22 .def_21))) (let ((.def_24 (= .def_23 0.0))) (let ((.def_25 (and .def_24 .def_16))) (let ((.def_26 (not .def_9))) (let ((.def_27 (= instance.x__AT0@4 instance.x__AT0@5))) (let ((.def_28 (= instance.y__AT0@5 instance.y__AT0@4))) (let ((.def_29 (and .def_28 .def_27))) (let ((.def_30 (or .def_29 .def_26))) (let ((.def_31 (and .def_30 .def_25))) (let ((.def_32 (and .def_31 .def_6))) (let ((.def_33 (or .def_2 .def_32))) (let ((.def_34 (and .def_33 .def_10))) (let ((.def_35 (and .def_3 .def_2))) (let ((.def_36 (or .def_35 .def_34))) (let ((.def_37 (and .def_36 .def_11))) (let ((.def_38 (not .def_35))) (let ((.def_39 (or .def_38 .def_29))) (let ((.def_40 (and .def_39 .def_37))) (let ((.def_41 (not event_is_timed__AT0@4))) (let ((.def_42 (= event_is_timed__AT0@5 .def_41))) (let ((.def_43 (and .def_42 .def_40))) (let ((.def_44 (and .def_43 .def_4))) (let ((.def_45 (not instance.EVENT.1__AT0@3))) (let ((.def_46 (not instance.EVENT.0__AT0@3))) (let ((.def_47 (or .def_46 .def_45))) (let ((.def_48 (= event_is_timed__AT0@3 instance.EVENT.1__AT0@3))) (let ((.def_49 (<= time__AT0@3 time__AT0@4))) (let ((.def_50 (or .def_45 .def_49))) (let ((.def_51 (and .def_50 .def_48))) (let ((.def_52 (= time__AT0@3 time__AT0@4))) (let ((.def_53 (or instance.EVENT.1__AT0@3 .def_52))) (let ((.def_54 (and .def_53 .def_51))) (let ((.def_55 (* (- 1.0) time__AT0@3))) (let ((.def_56 (+ .def_55 time__AT0@4))) (let ((.def_57 (exp .def_56))) (let ((.def_58 (* instance.y__AT0@3 .def_57))) (let ((.def_59 (= instance.y__AT0@4 .def_58))) (let ((.def_60 (+ .def_20 .def_18))) (let ((.def_61 (* 970143.0 instance.x__AT0@3))) (let ((.def_62 (+ .def_61 .def_60))) (let ((.def_63 (* 242536.0 instance.y__AT0@3))) (let ((.def_64 (+ .def_63 .def_62))) (let ((.def_65 (= .def_64 0.0))) (let ((.def_66 (and .def_65 .def_59))) (let ((.def_67 (not .def_52))) (let ((.def_68 (= instance.x__AT0@3 instance.x__AT0@4))) (let ((.def_69 (= instance.y__AT0@3 instance.y__AT0@4))) (let ((.def_70 (and .def_69 .def_68))) (let ((.def_71 (or .def_70 .def_67))) (let ((.def_72 (and .def_71 .def_66))) (let ((.def_73 (and .def_72 .def_49))) (let ((.def_74 (or .def_45 .def_73))) (let ((.def_75 (and .def_74 .def_53))) (let ((.def_76 (and .def_46 .def_45))) (let ((.def_77 (or .def_76 .def_75))) (let ((.def_78 (and .def_77 .def_54))) (let ((.def_79 (not .def_76))) (let ((.def_80 (or .def_79 .def_70))) (let ((.def_81 (and .def_80 .def_78))) (let ((.def_82 (not event_is_timed__AT0@3))) (let ((.def_83 (= event_is_timed__AT0@4 .def_82))) (let ((.def_84 (and .def_83 .def_81))) (let ((.def_85 (and .def_84 .def_47))) (let ((.def_86 (not instance.EVENT.1__AT0@2))) (let ((.def_87 (not instance.EVENT.0__AT0@2))) (let ((.def_88 (or .def_87 .def_86))) (let ((.def_89 (= event_is_timed__AT0@2 instance.EVENT.1__AT0@2))) (let ((.def_90 (<= time__AT0@2 time__AT0@3))) (let ((.def_91 (or .def_86 .def_90))) (let ((.def_92 (and .def_91 .def_89))) (let ((.def_93 (= time__AT0@2 time__AT0@3))) (let ((.def_94 (or instance.EVENT.1__AT0@2 .def_93))) (let ((.def_95 (and .def_94 .def_92))) (let ((.def_96 (* (- 1.0) time__AT0@2))) (let ((.def_97 (+ .def_96 time__AT0@3))) (let ((.def_98 (exp .def_97))) (let ((.def_99 (* instance.y__AT0@2 .def_98))) (let ((.def_100 (= instance.y__AT0@3 .def_99))) (let ((.def_101 (* (- 970143.0) instance.x__AT0@3))) (let ((.def_102 (* (- 242536.0) instance.y__AT0@3))) (let ((.def_103 (+ .def_102 .def_101))) (let ((.def_104 (* 970143.0 instance.x__AT0@2))) (let ((.def_105 (+ .def_104 .def_103))) (let ((.def_106 (* 242536.0 instance.y__AT0@2))) (let ((.def_107 (+ .def_106 .def_105))) (let ((.def_108 (= .def_107 0.0))) (let ((.def_109 (and .def_108 .def_100))) (let ((.def_110 (not .def_93))) (let ((.def_111 (= instance.x__AT0@2 instance.x__AT0@3))) (let ((.def_112 (= instance.y__AT0@2 instance.y__AT0@3))) (let ((.def_113 (and .def_112 .def_111))) (let ((.def_114 (or .def_113 .def_110))) (let ((.def_115 (and .def_114 .def_109))) (let ((.def_116 (and .def_115 .def_90))) (let ((.def_117 (or .def_86 .def_116))) (let ((.def_118 (and .def_117 .def_94))) (let ((.def_119 (and .def_87 .def_86))) (let ((.def_120 (or .def_119 .def_118))) (let ((.def_121 (and .def_120 .def_95))) (let ((.def_122 (not .def_119))) (let ((.def_123 (or .def_122 .def_113))) (let ((.def_124 (and .def_123 .def_121))) (let ((.def_125 (not event_is_timed__AT0@2))) (let ((.def_126 (= event_is_timed__AT0@3 .def_125))) (let ((.def_127 (and .def_126 .def_124))) (let ((.def_128 (and .def_127 .def_88))) (let ((.def_129 (not instance.EVENT.1__AT0@1))) (let ((.def_130 (not instance.EVENT.0__AT0@1))) (let ((.def_131 (or .def_130 .def_129))) (let ((.def_132 (= event_is_timed__AT0@1 instance.EVENT.1__AT0@1))) (let ((.def_133 (<= time__AT0@1 time__AT0@2))) (let ((.def_134 (or .def_129 .def_133))) (let ((.def_135 (and .def_134 .def_132))) (let ((.def_136 (= time__AT0@1 time__AT0@2))) (let ((.def_137 (or instance.EVENT.1__AT0@1 .def_136))) (let ((.def_138 (and .def_137 .def_135))) (let ((.def_139 (* (- 1.0) time__AT0@1))) (let ((.def_140 (+ .def_139 time__AT0@2))) (let ((.def_141 (exp .def_140))) (let ((.def_142 (* instance.y__AT0@1 .def_141))) (let ((.def_143 (= instance.y__AT0@2 .def_142))) (let ((.def_144 (* (- 970143.0) instance.x__AT0@2))) (let ((.def_145 (* (- 242536.0) instance.y__AT0@2))) (let ((.def_146 (+ .def_145 .def_144))) (let ((.def_147 (* 970143.0 instance.x__AT0@1))) (let ((.def_148 (+ .def_147 .def_146))) (let ((.def_149 (* 242536.0 instance.y__AT0@1))) (let ((.def_150 (+ .def_149 .def_148))) (let ((.def_151 (= .def_150 0.0))) (let ((.def_152 (and .def_151 .def_143))) (let ((.def_153 (not .def_136))) (let ((.def_154 (= instance.x__AT0@1 instance.x__AT0@2))) (let ((.def_155 (= instance.y__AT0@1 instance.y__AT0@2))) (let ((.def_156 (and .def_155 .def_154))) (let ((.def_157 (or .def_156 .def_153))) (let ((.def_158 (and .def_157 .def_152))) (let ((.def_159 (and .def_158 .def_133))) (let ((.def_160 (or .def_129 .def_159))) (let ((.def_161 (and .def_160 .def_137))) (let ((.def_162 (and .def_130 .def_129))) (let ((.def_163 (or .def_162 .def_161))) (let ((.def_164 (and .def_163 .def_138))) (let ((.def_165 (not .def_162))) (let ((.def_166 (or .def_165 .def_156))) (let ((.def_167 (and .def_166 .def_164))) (let ((.def_168 (not event_is_timed__AT0@1))) (let ((.def_169 (= event_is_timed__AT0@2 .def_168))) (let ((.def_170 (and .def_169 .def_167))) (let ((.def_171 (and .def_170 .def_131))) (let ((.def_172 (not instance.EVENT.1__AT0@0))) (let ((.def_173 (not instance.EVENT.0__AT0@0))) (let ((.def_174 (or .def_173 .def_172))) (let ((.def_175 (= event_is_timed__AT0@0 instance.EVENT.1__AT0@0))) (let ((.def_176 (<= time__AT0@0 time__AT0@1))) (let ((.def_177 (or .def_172 .def_176))) (let ((.def_178 (and .def_177 .def_175))) (let ((.def_179 (= time__AT0@0 time__AT0@1))) (let ((.def_180 (or instance.EVENT.1__AT0@0 .def_179))) (let ((.def_181 (and .def_180 .def_178))) (let ((.def_182 (* (- 1.0) time__AT0@0))) (let ((.def_183 (+ .def_182 time__AT0@1))) (let ((.def_184 (exp .def_183))) (let ((.def_185 (* instance.y__AT0@0 .def_184))) (let ((.def_186 (= instance.y__AT0@1 .def_185))) (let ((.def_187 (* (- 970143.0) instance.x__AT0@1))) (let ((.def_188 (* (- 242536.0) instance.y__AT0@1))) (let ((.def_189 (+ .def_188 .def_187))) (let ((.def_190 (* 970143.0 instance.x__AT0@0))) (let ((.def_191 (+ .def_190 .def_189))) (let ((.def_192 (* 242536.0 instance.y__AT0@0))) (let ((.def_193 (+ .def_192 .def_191))) (let ((.def_194 (= .def_193 0.0))) (let ((.def_195 (and .def_194 .def_186))) (let ((.def_196 (not .def_179))) (let ((.def_197 (= instance.x__AT0@0 instance.x__AT0@1))) (let ((.def_198 (= instance.y__AT0@0 instance.y__AT0@1))) (let ((.def_199 (and .def_198 .def_197))) (let ((.def_200 (or .def_199 .def_196))) (let ((.def_201 (and .def_200 .def_195))) (let ((.def_202 (and .def_201 .def_176))) (let ((.def_203 (or .def_172 .def_202))) (let ((.def_204 (and .def_203 .def_180))) (let ((.def_205 (and .def_173 .def_172))) (let ((.def_206 (or .def_205 .def_204))) (let ((.def_207 (and .def_206 .def_181))) (let ((.def_208 (not .def_205))) (let ((.def_209 (or .def_208 .def_199))) (let ((.def_210 (and .def_209 .def_207))) (let ((.def_211 (not event_is_timed__AT0@0))) (let ((.def_212 (= event_is_timed__AT0@1 .def_211))) (let ((.def_213 (and .def_212 .def_210))) (let ((.def_214 (and .def_213 .def_174))) (let ((.def_215 (<= instance.x__AT0@0 (- (/ 1 2))))) (let ((.def_216 (not .def_215))) (let ((.def_217 (<= 0.0 instance.x__AT0@0))) (let ((.def_218 (not .def_217))) (let ((.def_219 (and .def_218 .def_216))) (let ((.def_220 (<= 0.0 instance.y__AT0@0))) (let ((.def_221 (not .def_220))) (let ((.def_222 (<= (- (/ 1 2)) instance.y__AT0@0))) (let ((.def_223 (and .def_222 .def_221))) (let ((.def_224 (and .def_223 .def_219))) (let ((.def_225 (= time__AT0@0 0.0))) (let ((.def_226 (and .def_225 .def_224))) (let ((.def_227 (and .def_226 .def_214 .def_171 .def_128 .def_85 .def_44 .def_1))) .def_227)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/nl/nta/dumortier_llibre_artes_ex_5_13.transcendental.k2.smt2 b/test/regress/regress0/nl/nta/dumortier_llibre_artes_ex_5_13.transcendental.k2.smt2
deleted file mode 100644
index 5dce6ddca..000000000
--- a/test/regress/regress0/nl/nta/dumortier_llibre_artes_ex_5_13.transcendental.k2.smt2
+++ /dev/null
@@ -1,22 +0,0 @@
-; COMMAND-LINE: --nl-ext-tf-tplanes
-; EXPECT: sat
-(set-logic QF_NRA)
-(declare-fun time__AT0@0 () Real)
-(declare-fun instance.y__AT0@0 () Real)
-(declare-fun instance.x__AT0@0 () Real)
-(declare-fun instance.y__AT0@2 () Real)
-(declare-fun event_is_timed__AT0@2 () Bool)
-(declare-fun instance.EVENT.0__AT0@1 () Bool)
-(declare-fun instance.EVENT.1__AT0@1 () Bool)
-(declare-fun event_is_timed__AT0@1 () Bool)
-(declare-fun event_is_timed__AT0@0 () Bool)
-(declare-fun instance.EVENT.0__AT0@0 () Bool)
-(declare-fun instance.EVENT.1__AT0@0 () Bool)
-(declare-fun instance.y__AT0@1 () Real)
-(declare-fun instance.x__AT0@1 () Real)
-(declare-fun time__AT0@1 () Real)
-(declare-fun instance.x__AT0@2 () Real)
-(declare-fun time__AT0@2 () Real)
-(assert (let ((.def_0 (<= instance.y__AT0@2 2.0))) (let ((.def_1 (not .def_0))) (let ((.def_2 (not instance.EVENT.1__AT0@1))) (let ((.def_3 (not instance.EVENT.0__AT0@1))) (let ((.def_4 (or .def_3 .def_2))) (let ((.def_5 (= event_is_timed__AT0@1 instance.EVENT.1__AT0@1))) (let ((.def_6 (<= time__AT0@1 time__AT0@2))) (let ((.def_7 (or .def_2 .def_6))) (let ((.def_8 (and .def_7 .def_5))) (let ((.def_9 (= time__AT0@1 time__AT0@2))) (let ((.def_10 (or instance.EVENT.1__AT0@1 .def_9))) (let ((.def_11 (and .def_10 .def_8))) (let ((.def_12 (* (- 1.0) time__AT0@1))) (let ((.def_13 (+ .def_12 time__AT0@2))) (let ((.def_14 (exp .def_13))) (let ((.def_15 (* instance.y__AT0@1 .def_14))) (let ((.def_16 (= instance.y__AT0@2 .def_15))) (let ((.def_17 (* 970143.0 instance.x__AT0@2))) (let ((.def_18 (* (- 970143.0) instance.x__AT0@1))) (let ((.def_19 (+ .def_18 .def_17))) (let ((.def_20 (* (- 242536.0) instance.y__AT0@1))) (let ((.def_21 (+ .def_20 .def_19))) (let ((.def_22 (* 242536.0 instance.y__AT0@2))) (let ((.def_23 (+ .def_22 .def_21))) (let ((.def_24 (= .def_23 0.0))) (let ((.def_25 (and .def_24 .def_16))) (let ((.def_26 (not .def_9))) (let ((.def_27 (= instance.x__AT0@1 instance.x__AT0@2))) (let ((.def_28 (= instance.y__AT0@2 instance.y__AT0@1))) (let ((.def_29 (and .def_28 .def_27))) (let ((.def_30 (or .def_29 .def_26))) (let ((.def_31 (and .def_30 .def_25))) (let ((.def_32 (and .def_31 .def_6))) (let ((.def_33 (or .def_2 .def_32))) (let ((.def_34 (and .def_33 .def_10))) (let ((.def_35 (and .def_3 .def_2))) (let ((.def_36 (or .def_35 .def_34))) (let ((.def_37 (and .def_36 .def_11))) (let ((.def_38 (not .def_35))) (let ((.def_39 (or .def_38 .def_29))) (let ((.def_40 (and .def_39 .def_37))) (let ((.def_41 (not event_is_timed__AT0@1))) (let ((.def_42 (= event_is_timed__AT0@2 .def_41))) (let ((.def_43 (and .def_42 .def_40))) (let ((.def_44 (and .def_43 .def_4))) (let ((.def_45 (not instance.EVENT.1__AT0@0))) (let ((.def_46 (not instance.EVENT.0__AT0@0))) (let ((.def_47 (or .def_46 .def_45))) (let ((.def_48 (= event_is_timed__AT0@0 instance.EVENT.1__AT0@0))) (let ((.def_49 (<= time__AT0@0 time__AT0@1))) (let ((.def_50 (or .def_45 .def_49))) (let ((.def_51 (and .def_50 .def_48))) (let ((.def_52 (= time__AT0@0 time__AT0@1))) (let ((.def_53 (or instance.EVENT.1__AT0@0 .def_52))) (let ((.def_54 (and .def_53 .def_51))) (let ((.def_55 (* (- 1.0) time__AT0@0))) (let ((.def_56 (+ .def_55 time__AT0@1))) (let ((.def_57 (exp .def_56))) (let ((.def_58 (* instance.y__AT0@0 .def_57))) (let ((.def_59 (= instance.y__AT0@1 .def_58))) (let ((.def_60 (+ .def_20 .def_18))) (let ((.def_61 (* 970143.0 instance.x__AT0@0))) (let ((.def_62 (+ .def_61 .def_60))) (let ((.def_63 (* 242536.0 instance.y__AT0@0))) (let ((.def_64 (+ .def_63 .def_62))) (let ((.def_65 (= .def_64 0.0))) (let ((.def_66 (and .def_65 .def_59))) (let ((.def_67 (not .def_52))) (let ((.def_68 (= instance.x__AT0@0 instance.x__AT0@1))) (let ((.def_69 (= instance.y__AT0@0 instance.y__AT0@1))) (let ((.def_70 (and .def_69 .def_68))) (let ((.def_71 (or .def_70 .def_67))) (let ((.def_72 (and .def_71 .def_66))) (let ((.def_73 (and .def_72 .def_49))) (let ((.def_74 (or .def_45 .def_73))) (let ((.def_75 (and .def_74 .def_53))) (let ((.def_76 (and .def_46 .def_45))) (let ((.def_77 (or .def_76 .def_75))) (let ((.def_78 (and .def_77 .def_54))) (let ((.def_79 (not .def_76))) (let ((.def_80 (or .def_79 .def_70))) (let ((.def_81 (and .def_80 .def_78))) (let ((.def_82 (not event_is_timed__AT0@0))) (let ((.def_83 (= event_is_timed__AT0@1 .def_82))) (let ((.def_84 (and .def_83 .def_81))) (let ((.def_85 (and .def_84 .def_47))) (let ((.def_86 (<= instance.x__AT0@0 (- (/ 1 2))))) (let ((.def_87 (not .def_86))) (let ((.def_88 (<= 0.0 instance.x__AT0@0))) (let ((.def_89 (not .def_88))) (let ((.def_90 (and .def_89 .def_87))) (let ((.def_91 (<= 0.0 instance.y__AT0@0))) (let ((.def_92 (not .def_91))) (let ((.def_93 (<= (- (/ 1 2)) instance.y__AT0@0))) (let ((.def_94 (and .def_93 .def_92))) (let ((.def_95 (and .def_94 .def_90))) (let ((.def_96 (= time__AT0@0 0.0))) (let ((.def_97 (and .def_96 .def_95))) (let ((.def_98 (and .def_97 .def_85 .def_44 .def_1))) .def_98))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/nl/nta/exp-4.5-lt.smt2 b/test/regress/regress0/nl/nta/exp-4.5-lt.smt2
deleted file mode 100644
index b0d39ff44..000000000
--- a/test/regress/regress0/nl/nta/exp-4.5-lt.smt2
+++ /dev/null
@@ -1,9 +0,0 @@
-; COMMAND-LINE: --nl-ext-tf-tplanes
-; EXPECT: unsat
-(set-logic QF_NRA)
-(declare-fun x () Real)
-
-(assert (> (exp x) 2000.0))
-(assert (< x 4.5))
-
-(check-sat)
diff --git a/test/regress/regress0/nl/nta/exp1-lb.smt2 b/test/regress/regress0/nl/nta/exp1-lb.smt2
deleted file mode 100644
index b0bc3079c..000000000
--- a/test/regress/regress0/nl/nta/exp1-lb.smt2
+++ /dev/null
@@ -1,10 +0,0 @@
-; COMMAND-LINE: --nl-ext-tf-tplanes
-; EXPECT: unsat
-(set-logic QF_NRA)
-(set-info :status unsat)
-(declare-fun x () Real)
-
-(assert (> (exp 1) 2.719))
-(assert (= x (exp 1)))
-
-(check-sat)
diff --git a/test/regress/regress0/nl/nta/exp_monotone.smt2 b/test/regress/regress0/nl/nta/exp_monotone.smt2
deleted file mode 100644
index a1360dc22..000000000
--- a/test/regress/regress0/nl/nta/exp_monotone.smt2
+++ /dev/null
@@ -1,17 +0,0 @@
-; COMMAND-LINE: --nl-ext
-; EXPECT: unsat
-(set-logic QF_UFNRA)
-(set-info :status unsat)
-(declare-fun x () Real)
-(declare-fun y () Real)
-(declare-fun z () Real)
-(declare-fun w () Real)
-
-(assert (< x w))
-
-(assert (> (exp x) (exp y)))
-(assert (> (exp y) (exp z)))
-(assert (> (exp z) (exp w)))
-
-
-(check-sat)
diff --git a/test/regress/regress0/nl/nta/shifting.smt2 b/test/regress/regress0/nl/nta/shifting.smt2
deleted file mode 100644
index 320c92d58..000000000
--- a/test/regress/regress0/nl/nta/shifting.smt2
+++ /dev/null
@@ -1,20 +0,0 @@
-; COMMAND-LINE: --nl-ext --nl-ext-tplanes
-; EXPECT: sat
-(set-logic QF_NIRA)
-(set-info :status sat)
-(declare-fun pi () Real)
-
-(assert (and (< 3.0 pi) (< pi 3.5)))
-
-(declare-fun y () Real)
-(assert (and (<= (- pi) y) (<= y pi)))
-
-(declare-fun s () Int)
-
-(declare-fun z () Real)
-
-(assert (= z (* 2 pi s)))
-
-(assert (> z 60))
-
-(check-sat)
diff --git a/test/regress/regress0/nl/nta/shifting2.smt2 b/test/regress/regress0/nl/nta/shifting2.smt2
deleted file mode 100644
index c5e805c50..000000000
--- a/test/regress/regress0/nl/nta/shifting2.smt2
+++ /dev/null
@@ -1,22 +0,0 @@
-; COMMAND-LINE: --nl-ext
-; EXPECT: unsat
-(set-logic QF_NIRA)
-(set-info :status unsat)
-(declare-fun pi () Real)
-
-(assert (and (< 3.0 pi) (< pi 3.5)))
-
-(declare-fun y () Real)
-(assert (and (< (- pi) y) (< y pi)))
-
-(declare-fun s () Int)
-
-(declare-fun z () Real)
-
-(assert (= z (+ y (* 2 pi s))))
-
-(assert (and (< (- pi) z) (< z pi)))
-
-(assert (not (= z y)))
-
-(check-sat)
diff --git a/test/regress/regress0/nl/nta/sin-compare-across-phase.smt2 b/test/regress/regress0/nl/nta/sin-compare-across-phase.smt2
deleted file mode 100644
index f5d7fe32d..000000000
--- a/test/regress/regress0/nl/nta/sin-compare-across-phase.smt2
+++ /dev/null
@@ -1,7 +0,0 @@
-; COMMAND-LINE: --nl-ext --nl-ext-tplanes
-; EXPECT: unsat
-(set-logic QF_UFNRA)
-(set-info :status unsat)
-(declare-fun x () Real)
-(assert (< (sin 3.1) (sin 3.3)))
-(check-sat)
diff --git a/test/regress/regress0/nl/nta/sin-compare.smt2 b/test/regress/regress0/nl/nta/sin-compare.smt2
deleted file mode 100644
index 790d7037f..000000000
--- a/test/regress/regress0/nl/nta/sin-compare.smt2
+++ /dev/null
@@ -1,7 +0,0 @@
-; COMMAND-LINE: --nl-ext --nl-ext-tplanes
-; EXPECT: unsat
-(set-logic QF_UFNRA)
-(set-info :status unsat)
-(declare-fun x () Real)
-(assert (or (> (sin 0.1) (sin 0.2)) (> (sin 6.4) (sin 6.5)))) 
-(check-sat)
diff --git a/test/regress/regress0/nl/nta/sin-init-tangents.smt2 b/test/regress/regress0/nl/nta/sin-init-tangents.smt2
deleted file mode 100644
index e71ab231f..000000000
--- a/test/regress/regress0/nl/nta/sin-init-tangents.smt2
+++ /dev/null
@@ -1,6 +0,0 @@
-; COMMAND-LINE: --nl-ext
-; EXPECT: unsat
-(set-logic QF_NRA)
-(set-info :status unsat)
-(assert (or (> (sin 0.8) 0.9) (< (sin (- 0.7)) (- 0.75)) (= (sin 3.0) 0.8)))
-(check-sat)
diff --git a/test/regress/regress0/nl/nta/sin-sign.smt2 b/test/regress/regress0/nl/nta/sin-sign.smt2
deleted file mode 100644
index 9b05a3d52..000000000
--- a/test/regress/regress0/nl/nta/sin-sign.smt2
+++ /dev/null
@@ -1,7 +0,0 @@
-; COMMAND-LINE: --nl-ext --nl-ext-tplanes
-; EXPECT: unsat
-(set-logic QF_UFNRA)
-(set-info :status unsat)
-(declare-fun x () Real)
-(assert (or (< (sin 0.2) (- 0.1)) (> (sin (- 0.05)) 0.05))) 
-(check-sat)
diff --git a/test/regress/regress0/nl/nta/sin-sym2.smt2 b/test/regress/regress0/nl/nta/sin-sym2.smt2
deleted file mode 100644
index 2e5d4eac2..000000000
--- a/test/regress/regress0/nl/nta/sin-sym2.smt2
+++ /dev/null
@@ -1,10 +0,0 @@
-; COMMAND-LINE: --nl-ext --nl-ext-tplanes
-; EXPECT: unsat
-(set-logic QF_UFNRA)
-(set-info :status unsat)
-(declare-fun x () Real)
-(declare-fun y () Real)
-(assert (and (< 0.0 x) (< x 1.0) (< 0.0 y) (< y 1.0)))
-(assert (= (+ (sin x) (sin y)) 0.0))
-(assert (not (= (+ x y) 0.0)))
-(check-sat)
diff --git a/test/regress/regress0/nl/nta/sin1-lb.smt2 b/test/regress/regress0/nl/nta/sin1-lb.smt2
deleted file mode 100644
index f8070cdb8..000000000
--- a/test/regress/regress0/nl/nta/sin1-lb.smt2
+++ /dev/null
@@ -1,10 +0,0 @@
-; COMMAND-LINE: --nl-ext-tf-tplanes
-; EXPECT: unsat
-(set-logic QF_NRA)
-(set-info :status unsat)
-(declare-fun x () Real)
-
-(assert (> (sin 1) 0.842))
-(assert (= x (sin 1)))
-
-(check-sat)
diff --git a/test/regress/regress0/nl/nta/sin1-sat.smt2 b/test/regress/regress0/nl/nta/sin1-sat.smt2
deleted file mode 100644
index d6275c6e8..000000000
--- a/test/regress/regress0/nl/nta/sin1-sat.smt2
+++ /dev/null
@@ -1,12 +0,0 @@
-; COMMAND-LINE: --nl-ext-tf-tplanes --no-check-models
-; EXPECT: sat
-(set-logic QF_NRA)
-(set-info :status unsat)
-(declare-fun x () Real)
-
-(assert (> (sin 1) 0.84))
-(assert (< (sin 1) 0.85))
-(assert (< (- x (sin 1)) 0.000001))
-(assert (< (- (sin 1) x) 0.000001))
-
-(check-sat)
diff --git a/test/regress/regress0/nl/nta/sin1-ub.smt2 b/test/regress/regress0/nl/nta/sin1-ub.smt2
deleted file mode 100644
index 47d322a77..000000000
--- a/test/regress/regress0/nl/nta/sin1-ub.smt2
+++ /dev/null
@@ -1,10 +0,0 @@
-; COMMAND-LINE: --nl-ext-tf-tplanes
-; EXPECT: unsat
-(set-logic QF_NRA)
-(set-info :status unsat)
-(declare-fun x () Real)
-
-(assert (< (sin 1) 0.8414))
-(assert (= x (sin 1)))
-
-(check-sat)
diff --git a/test/regress/regress0/nl/nta/sin2-lb.smt2 b/test/regress/regress0/nl/nta/sin2-lb.smt2
deleted file mode 100644
index 686708230..000000000
--- a/test/regress/regress0/nl/nta/sin2-lb.smt2
+++ /dev/null
@@ -1,10 +0,0 @@
-; COMMAND-LINE: --nl-ext-tf-tplanes
-; EXPECT: unsat
-(set-logic QF_NRA)
-(set-info :status unsat)
-(declare-fun x () Real)
-
-(assert (> (sin 2) 0.96))
-(assert (= x (sin 2)))
-
-(check-sat)
diff --git a/test/regress/regress0/nl/nta/sin2-ub.smt2 b/test/regress/regress0/nl/nta/sin2-ub.smt2
deleted file mode 100644
index 51c9eb8a9..000000000
--- a/test/regress/regress0/nl/nta/sin2-ub.smt2
+++ /dev/null
@@ -1,10 +0,0 @@
-; COMMAND-LINE: --nl-ext-tf-tplanes
-; EXPECT: unsat
-(set-logic QF_NRA)
-(set-info :status unsat)
-(declare-fun x () Real)
-
-(assert (< (sin 2) 0.901))
-(assert (= x (sin 2)))
-
-(check-sat)
diff --git a/test/regress/regress0/nl/nta/sugar-ident-2.smt2 b/test/regress/regress0/nl/nta/sugar-ident-2.smt2
deleted file mode 100644
index 84c224715..000000000
--- a/test/regress/regress0/nl/nta/sugar-ident-2.smt2
+++ /dev/null
@@ -1,27 +0,0 @@
-; COMMAND-LINE: --nl-ext-tf-tplanes
-; EXPECT: unsat
-(set-logic QF_NRA)
-(set-info :status unsat)
-(declare-fun x1 () Real)
-(declare-fun x2 () Real)
-(declare-fun x3 () Real)
-(declare-fun x4 () Real)
-(declare-fun x5 () Real)
-
-(declare-fun a1 () Bool)
-(declare-fun a2 () Bool)
-(declare-fun a3 () Bool)
-(declare-fun a4 () Bool)
-(declare-fun a5 () Bool)
-(declare-fun a6 () Bool)
-(declare-fun a7 () Bool)
-
-(assert (= a2 (and (> (sin 1.0) 0.0) (> (cot 1.0) (/ (cos 1.0) (sin 1.0))))))
-(assert (= a7 (> (* (sec 1.0) (cos 1.0)) 1.0)))
-
-(assert (or
-a2
-a7
-))
-
-(check-sat)
diff --git a/test/regress/regress0/nl/nta/sugar-ident-3.smt2 b/test/regress/regress0/nl/nta/sugar-ident-3.smt2
deleted file mode 100644
index ab50bcb1d..000000000
--- a/test/regress/regress0/nl/nta/sugar-ident-3.smt2
+++ /dev/null
@@ -1,8 +0,0 @@
-; COMMAND-LINE: --nl-ext-tf-tplanes
-; EXPECT: unsat
-(set-logic QF_NRA)
-(set-info :status unsat)
-(declare-fun a6 () Bool)
-(assert (= a6 (> (* (csc 1.0) (sin 1.0)) 1.0)))
-(assert a6)
-(check-sat)
diff --git a/test/regress/regress0/nl/nta/sugar-ident.smt2 b/test/regress/regress0/nl/nta/sugar-ident.smt2
deleted file mode 100644
index 95dbbc5fc..000000000
--- a/test/regress/regress0/nl/nta/sugar-ident.smt2
+++ /dev/null
@@ -1,23 +0,0 @@
-; COMMAND-LINE: --nl-ext-tf-tplanes
-; EXPECT: unsat
-(set-logic QF_NRA)
-(set-info :status unsat)
-(declare-fun x1 () Real)
-(declare-fun x2 () Real)
-(declare-fun x3 () Real)
-(declare-fun x4 () Real)
-(declare-fun x5 () Real)
-
-(declare-fun a1 () Bool)
-(declare-fun a3 () Bool)
-(declare-fun a4 () Bool)
-(declare-fun a5 () Bool)
-(declare-fun a6 () Bool)
-
-(assert (= a1 (not (= (sin (arcsin x1)) x1))))
-(assert (= a3 (< (arccos x3) 0)))
-(assert (= a4 (> (arctan x4) 1.8)))
-
-(assert (or a1 a3 a4))
-
-(check-sat)
diff --git a/test/regress/regress0/nl/nta/tan-rewrite2.smt2 b/test/regress/regress0/nl/nta/tan-rewrite2.smt2
deleted file mode 100644
index af39f7559..000000000
--- a/test/regress/regress0/nl/nta/tan-rewrite2.smt2
+++ /dev/null
@@ -1,13 +0,0 @@
-; COMMAND-LINE: --nl-ext
-; EXPECT: unsat
-(set-logic QF_UFNRA)
-(set-info :status unsat)
-(declare-fun x () Real)
-
-
-(assert (= (tan x) (sin x)))
-(assert (> (cos x) 0))
-(assert (not (= (cos x) 1)))
-(assert (not (= (sin x) 0)))
-
-(check-sat)
diff --git a/test/regress/regress0/nl/ones.smt2 b/test/regress/regress0/nl/ones.smt2
deleted file mode 100644
index be06912d0..000000000
--- a/test/regress/regress0/nl/ones.smt2
+++ /dev/null
@@ -1,18 +0,0 @@
-; COMMAND-LINE: --nl-ext
-; EXPECT: unsat
-(set-logic QF_NRA)
-(set-info :status unsat)
-(declare-fun a () Real)
-(declare-fun b () Real)
-(declare-fun c () Real)
-(declare-fun d () Real)
-
-(assert (>= a 1))
-(assert (>= b 1))
-(assert (>= c 1))
-(assert (>= d 1))
-(assert (or (= a 1) (= b 1) (= c 1) (= d 1)))
-
-(assert (< (* a b c d) 1))
-
-(check-sat)
diff --git a/test/regress/regress0/nl/poly-1025.smt2 b/test/regress/regress0/nl/poly-1025.smt2
deleted file mode 100644
index 482696532..000000000
--- a/test/regress/regress0/nl/poly-1025.smt2
+++ /dev/null
@@ -1,29 +0,0 @@
-; COMMAND-LINE: --nl-ext
-; EXPECT: sat
-(set-logic QF_NRA)
-(set-info :source |
-These benchmarks used in the paper:
-
-  Dejan Jovanovic and Leonardo de Moura.  Solving Non-Linear Arithmetic.
-  In IJCAR 2012, published as LNCS volume 7364, pp. 339--354.
-
-The meti-tarski benchmarks are proof obligations extracted from the
-Meti-Tarski project, see:
-
-  B. Akbarpour and L. C. Paulson. MetiTarski: An automatic theorem prover
-  for real-valued special functions. Journal of Automated Reasoning,
-  44(3):175-205, 2010.
-
-Submitted by Dejan Jovanovic for SMT-LIB.
-
-
-|)
-(set-info :smt-lib-version 2.0)
-(set-info :category "industrial")
-(set-info :status sat)
-(declare-fun skoX () Real)
-(declare-fun skoY () Real)
-(declare-fun skoZ () Real)
-(assert (let ((?v_2 (not (<= skoZ 1)))) (let ((?v_3 (or (not (<= skoY 1)) ?v_2)) (?v_4 (not (<= skoX 1))) (?v_0 (* skoX (/ 1 4))) (?v_1 (* skoX (/ (- 5) 4))) (?v_5 (* skoX (/ 1 2))) (?v_6 (+ (/ (- 1) 4) (* skoX (/ (- 1) 4))))) (and (not (<= skoX 0)) (and (or (not (<= (* skoZ (* skoY (* skoY (+ (* skoX (* skoX (+ (/ (- 15) 4) ?v_0))) (* skoY (* skoX (* skoX (+ (/ 1 4) ?v_0)))))))) (* skoY (+ (* skoX (+ (/ 11 4) ?v_1)) (* skoY (* skoX (+ (/ (- 5) 4) ?v_1))))))) ?v_2) (and ?v_3 (and (or ?v_4 ?v_3) (and (<= skoZ 2) (and (<= skoY 2) (and (<= skoX 2) (and (<= 1 skoZ) (and (<= 1 skoY) (and (<= 1 skoX) (and (or ?v_4 ?v_2) (or (not (<= (* skoZ (* skoY (+ (* skoX (+ (/ (- 7) 2) ?v_5)) (* skoY (* skoX (+ (/ 1 2) ?v_5)))))) (+ ?v_6 (* skoY ?v_6)))) ?v_2)))))))))))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/nl/quant-nl.smt2 b/test/regress/regress0/nl/quant-nl.smt2
deleted file mode 100644
index 7d251ab7d..000000000
--- a/test/regress/regress0/nl/quant-nl.smt2
+++ /dev/null
@@ -1,857 +0,0 @@
-; COMMAND-LINE: --nl-ext
-; EXPECT: unsat
-(set-logic UFNIA)
-(set-info :status unsat)
-(set-info :source |Benchmarks from the paper: "Extending Sledgehammer with SMT Solvers" by Jasmin Blanchette, Sascha Bohme, and Lawrence C. Paulson, CADE 2011.  Translated to SMT2 by Andrew Reynolds and Morgan Deters.|)
-(set-info :smt-lib-version 2.0)
-(set-info :category "industrial")
-(declare-sort S1 0)
-(declare-sort S2 0)
-(declare-sort S3 0)
-(declare-sort S4 0)
-(declare-sort S5 0)
-(declare-sort S6 0)
-(declare-sort S7 0)
-(declare-sort S8 0)
-(declare-sort S9 0)
-(declare-sort S10 0)
-(declare-sort S11 0)
-(declare-sort S12 0)
-(declare-sort S13 0)
-(declare-sort S14 0)
-(declare-sort S15 0)
-(declare-sort S16 0)
-(declare-sort S17 0)
-(declare-sort S18 0)
-(declare-sort S19 0)
-(declare-sort S20 0)
-(declare-sort S21 0)
-(declare-sort S22 0)
-(declare-sort S23 0)
-(declare-sort S24 0)
-(declare-sort S25 0)
-(declare-sort S26 0)
-(declare-sort S27 0)
-(declare-sort S28 0)
-(declare-sort S29 0)
-(declare-sort S30 0)
-(declare-sort S31 0)
-(declare-sort S32 0)
-(declare-sort S33 0)
-(declare-sort S34 0)
-(declare-sort S35 0)
-(declare-sort S36 0)
-(declare-sort S37 0)
-(declare-sort S38 0)
-(declare-sort S39 0)
-(declare-sort S40 0)
-(declare-sort S41 0)
-(declare-sort S42 0)
-(declare-sort S43 0)
-(declare-sort S44 0)
-(declare-sort S45 0)
-(declare-sort S46 0)
-(declare-sort S47 0)
-(declare-sort S48 0)
-(declare-sort S49 0)
-(declare-sort S50 0)
-(declare-sort S51 0)
-(declare-sort S52 0)
-(declare-sort S53 0)
-(declare-sort S54 0)
-(declare-sort S55 0)
-(declare-sort S56 0)
-(declare-sort S57 0)
-(declare-sort S58 0)
-(declare-sort S59 0)
-(declare-sort S60 0)
-(declare-sort S61 0)
-(declare-sort S62 0)
-(declare-sort S63 0)
-(declare-sort S64 0)
-(declare-sort S65 0)
-(declare-sort S66 0)
-(declare-sort S67 0)
-(declare-sort S68 0)
-(declare-sort S69 0)
-(declare-sort S70 0)
-(declare-sort S71 0)
-(declare-sort S72 0)
-(declare-sort S73 0)
-(declare-sort S74 0)
-(declare-sort S75 0)
-(declare-sort S76 0)
-(declare-sort S77 0)
-(declare-sort S78 0)
-(declare-sort S79 0)
-(declare-sort S80 0)
-(declare-sort S81 0)
-(declare-sort S82 0)
-(declare-sort S83 0)
-(declare-sort S84 0)
-(declare-sort S85 0)
-(declare-sort S86 0)
-(declare-sort S87 0)
-(declare-sort S88 0)
-(declare-sort S89 0)
-(declare-sort S90 0)
-(declare-sort S91 0)
-(declare-sort S92 0)
-(declare-sort S93 0)
-(declare-sort S94 0)
-(declare-sort S95 0)
-(declare-sort S96 0)
-(declare-sort S97 0)
-(declare-sort S98 0)
-(declare-sort S99 0)
-(declare-sort S100 0)
-(declare-sort S101 0)
-(declare-sort S102 0)
-(declare-sort S103 0)
-(declare-sort S104 0)
-(declare-sort S105 0)
-(declare-sort S106 0)
-(declare-sort S107 0)
-(declare-sort S108 0)
-(declare-sort S109 0)
-(declare-sort S110 0)
-(declare-sort S111 0)
-(declare-sort S112 0)
-(declare-sort S113 0)
-(declare-sort S114 0)
-(declare-sort S115 0)
-(declare-sort S116 0)
-(declare-sort S117 0)
-(declare-sort S118 0)
-(declare-sort S119 0)
-(declare-sort S120 0)
-(declare-sort S121 0)
-(declare-sort S122 0)
-(declare-sort S123 0)
-(declare-sort S124 0)
-(declare-sort S125 0)
-(declare-sort S126 0)
-(declare-sort S127 0)
-(declare-sort S128 0)
-(declare-sort S129 0)
-(declare-sort S130 0)
-(declare-sort S131 0)
-(declare-sort S132 0)
-(declare-sort S133 0)
-(declare-sort S134 0)
-(declare-sort S135 0)
-(declare-sort S136 0)
-(declare-sort S137 0)
-(declare-sort S138 0)
-(declare-sort S139 0)
-(declare-sort S140 0)
-(declare-sort S141 0)
-(declare-sort S142 0)
-(declare-sort S143 0)
-(declare-sort S144 0)
-(declare-sort S145 0)
-(declare-sort S146 0)
-(declare-sort S147 0)
-(declare-sort S148 0)
-(declare-sort S149 0)
-(declare-sort S150 0)
-(declare-sort S151 0)
-(declare-sort S152 0)
-(declare-sort S153 0)
-(declare-sort S154 0)
-(declare-sort S155 0)
-(declare-sort S156 0)
-(declare-sort S157 0)
-(declare-sort S158 0)
-(declare-sort S159 0)
-(declare-sort S160 0)
-(declare-sort S161 0)
-(declare-sort S162 0)
-(declare-sort S163 0)
-(declare-sort S164 0)
-(declare-sort S165 0)
-(declare-sort S166 0)
-(declare-sort S167 0)
-(declare-sort S168 0)
-(declare-sort S169 0)
-(declare-sort S170 0)
-(declare-sort S171 0)
-(declare-sort S172 0)
-(declare-sort S173 0)
-(declare-sort S174 0)
-(declare-sort S175 0)
-(declare-sort S176 0)
-(declare-sort S177 0)
-(declare-sort S178 0)
-(declare-sort S179 0)
-(declare-sort S180 0)
-(declare-sort S181 0)
-(declare-sort S182 0)
-(declare-sort S183 0)
-(declare-sort S184 0)
-(declare-sort S185 0)
-(declare-fun f1 () S1)
-(declare-fun f2 () S1)
-(declare-fun f3 (Int) S1)
-(declare-fun f4 () Int)
-(declare-fun f5 () Int)
-(declare-fun f6 (S2 S3) Int)
-(declare-fun f7 () S2)
-(declare-fun f8 (S4 Int) S3)
-(declare-fun f9 (S5 Int) S4)
-(declare-fun f10 () S5)
-(declare-fun f11 (S6 S7) S1)
-(declare-fun f12 (S9 S8) S7)
-(declare-fun f13 (S10 S8) S9)
-(declare-fun f14 () S10)
-(declare-fun f15 (S11 S12) S1)
-(declare-fun f16 (S13 S3) S12)
-(declare-fun f17 (S14 S3) S13)
-(declare-fun f18 () S14)
-(declare-fun f19 (S15 S3) S1)
-(declare-fun f20 (S16 S17) S1)
-(declare-fun f21 (S19 S18) S17)
-(declare-fun f22 (S20 S18) S19)
-(declare-fun f23 () S20)
-(declare-fun f24 (S21 S8) S1)
-(declare-fun f25 (S22 S17) S8)
-(declare-fun f26 (S23 S17) S22)
-(declare-fun f27 () S23)
-(declare-fun f28 (S24 S8) S21)
-(declare-fun f29 (S6) S24)
-(declare-fun f30 (S7 S6) S1)
-(declare-fun f31 (S25 S3) S15)
-(declare-fun f32 (S11) S25)
-(declare-fun f33 (S12 S11) S1)
-(declare-fun f34 (S26 Int) S1)
-(declare-fun f35 (S27 Int) S26)
-(declare-fun f36 (S15) S27)
-(declare-fun f37 (S3 S15) S1)
-(declare-fun f38 (S28 S18) S1)
-(declare-fun f39 (S29 S18) S28)
-(declare-fun f40 (S16) S29)
-(declare-fun f41 (S17 S16) S1)
-(declare-fun f42 (S30 S17) S16)
-(declare-fun f43 (S21) S30)
-(declare-fun f44 (S8 S21) S1)
-(declare-fun f45 (S31 S8) S6)
-(declare-fun f46 (S32 S33) S1)
-(declare-fun f47 (S7 S7) S32)
-(declare-fun f48 (S34 S31) S33)
-(declare-fun f49 (S21) S34)
-(declare-fun f50 (S35 S3) S11)
-(declare-fun f51 (S36 S37) S1)
-(declare-fun f52 (S12 S12) S36)
-(declare-fun f53 (S38 S35) S37)
-(declare-fun f54 (S15) S38)
-(declare-fun f55 (S39 Int) S15)
-(declare-fun f56 (S40 S39) S11)
-(declare-fun f57 (S26) S40)
-(declare-fun f58 (S41 S17) S21)
-(declare-fun f59 (S42 S41) S6)
-(declare-fun f60 (S16) S42)
-(declare-fun f61 (S43 S18) S16)
-(declare-fun f62 (S44 S43) S21)
-(declare-fun f63 (S28) S44)
-(declare-fun f64 (S6) S1)
-(declare-fun f65 (S11) S1)
-(declare-fun f66 (S15) S1)
-(declare-fun f67 (S16) S1)
-(declare-fun f68 (S21) S1)
-(declare-fun f69 (S6) S1)
-(declare-fun f70 (S11) S1)
-(declare-fun f71 (S15) S1)
-(declare-fun f72 (S16) S1)
-(declare-fun f73 (S21) S1)
-(declare-fun f74 (S6) S24)
-(declare-fun f75 (S11) S25)
-(declare-fun f76 (S15) S27)
-(declare-fun f77 (S16) S29)
-(declare-fun f78 (S21) S30)
-(declare-fun f79 (S45 S6) S33)
-(declare-fun f80 (S6) S45)
-(declare-fun f81 (S46 S11) S37)
-(declare-fun f82 (S11) S46)
-(declare-fun f83 (S47 S15) S11)
-(declare-fun f84 (S15) S47)
-(declare-fun f85 (S48 S21) S6)
-(declare-fun f86 (S21) S48)
-(declare-fun f87 (S49 S50) S1)
-(declare-fun f88 (S51 S51) S49)
-(declare-fun f89 (Int S8) S51)
-(declare-fun f90 (S15 S6) S50)
-(declare-fun f91 (S52 S53) S1)
-(declare-fun f92 (S54 S54) S52)
-(declare-fun f93 (Int S3) S54)
-(declare-fun f94 (S15 S11) S53)
-(declare-fun f95 (S55 S56) S1)
-(declare-fun f96 (S57 S57) S55)
-(declare-fun f97 (S8 Int) S57)
-(declare-fun f98 (S6 S15) S56)
-(declare-fun f99 (S58 S59) S1)
-(declare-fun f100 (S60 S60) S58)
-(declare-fun f101 (S3 Int) S60)
-(declare-fun f102 (S11 S15) S59)
-(declare-fun f103 (S61 S16) S21)
-(declare-fun f104 (S16) S61)
-(declare-fun f105 (S62 S63) S1)
-(declare-fun f106 (S64 S64) S62)
-(declare-fun f107 (S18 Int) S64)
-(declare-fun f108 (S16 S15) S63)
-(declare-fun f109 (S65 S66) S1)
-(declare-fun f110 (S67 S67) S65)
-(declare-fun f111 (S18 S8) S67)
-(declare-fun f112 (S16 S6) S66)
-(declare-fun f113 (S68 S69) S1)
-(declare-fun f114 (S70 S70) S68)
-(declare-fun f115 (S18 S3) S70)
-(declare-fun f116 (S16 S11) S69)
-(declare-fun f117 (S71 S72) S1)
-(declare-fun f118 (S73 S73) S71)
-(declare-fun f119 (S17 Int) S73)
-(declare-fun f120 (S21 S15) S72)
-(declare-fun f121 (S74 S75) S1)
-(declare-fun f122 (S76 S76) S74)
-(declare-fun f123 (S17 S8) S76)
-(declare-fun f124 (S21 S6) S75)
-(declare-fun f125 (S77 S78) S1)
-(declare-fun f126 (S79 S79) S77)
-(declare-fun f127 (S17 S3) S79)
-(declare-fun f128 (S21 S11) S78)
-(declare-fun f129 (S80 S81) S1)
-(declare-fun f130 (S82 S82) S80)
-(declare-fun f131 (Int S18) S82)
-(declare-fun f132 (S15 S16) S81)
-(declare-fun f133 (S83 S84) S1)
-(declare-fun f134 (S85 S85) S83)
-(declare-fun f135 (S8 S18) S85)
-(declare-fun f136 (S6 S16) S84)
-(declare-fun f137 (S86 S87) S1)
-(declare-fun f138 (S88 S88) S86)
-(declare-fun f139 (S3 S18) S88)
-(declare-fun f140 (S11 S16) S87)
-(declare-fun f141 (S89 S90) S1)
-(declare-fun f142 (S91 S91) S89)
-(declare-fun f143 (Int S17) S91)
-(declare-fun f144 (S15 S21) S90)
-(declare-fun f145 (S92 S93) S1)
-(declare-fun f146 (S94 S94) S92)
-(declare-fun f147 (S8 S17) S94)
-(declare-fun f148 (S6 S21) S93)
-(declare-fun f149 (S95 S96) S1)
-(declare-fun f150 (S97 S97) S95)
-(declare-fun f151 (S3 S17) S97)
-(declare-fun f152 (S11 S21) S96)
-(declare-fun f153 (S98) S6)
-(declare-fun f154 (S99 S18) Int)
-(declare-fun f155 () S99)
-(declare-fun f156 (S98 S8) S18)
-(declare-fun f157 (S100) S11)
-(declare-fun f158 (S100 S3) S18)
-(declare-fun f159 (S101) S15)
-(declare-fun f160 (S101 Int) S18)
-(declare-fun f161 (S102) S16)
-(declare-fun f162 (S102 S18) S18)
-(declare-fun f163 (S103) S21)
-(declare-fun f164 (S103 S17) S18)
-(declare-fun f165 (S104 S6) S6)
-(declare-fun f166 (S98) S104)
-(declare-fun f167 (S105 S11) S11)
-(declare-fun f168 (S100) S105)
-(declare-fun f169 (S106 S15) S15)
-(declare-fun f170 (S101) S106)
-(declare-fun f171 (S107 S16) S16)
-(declare-fun f172 (S102) S107)
-(declare-fun f173 (S108 S21) S21)
-(declare-fun f174 (S103) S108)
-(declare-fun f175 (S15 S11) S1)
-(declare-fun f176 (S6 S33) S1)
-(declare-fun f177 (S11 S37) S1)
-(declare-fun f178 (S26 S15) S1)
-(declare-fun f179 (Int S26) S1)
-(declare-fun f180 (S21 S6) S1)
-(declare-fun f181 (S28 S16) S1)
-(declare-fun f182 (S18 S28) S1)
-(declare-fun f183 (S16 S21) S1)
-(declare-fun f184 () S109)
-(declare-fun f185 () S109)
-(declare-fun f186 () S110)
-(declare-fun f187 () S110)
-(declare-fun f188 () S111)
-(declare-fun f189 () S111)
-(declare-fun f190 (S113 S112) S15)
-(declare-fun f191 (S6) S113)
-(declare-fun f192 (S112 Int) S8)
-(declare-fun f193 (S114 S4) S15)
-(declare-fun f194 (S11) S114)
-(declare-fun f195 (S116 S115) S15)
-(declare-fun f196 (S15) S116)
-(declare-fun f197 (S115 Int) Int)
-(declare-fun f198 (S118 S117) S6)
-(declare-fun f199 (S15) S118)
-(declare-fun f200 (S117 S8) Int)
-(declare-fun f201 (S119 S2) S11)
-(declare-fun f202 (S15) S119)
-(declare-fun f203 (S120 S99) S16)
-(declare-fun f204 (S15) S120)
-(declare-fun f205 (S122 S121) S16)
-(declare-fun f206 (S6) S122)
-(declare-fun f207 (S121 S18) S8)
-(declare-fun f208 (S124 S123) S16)
-(declare-fun f209 (S11) S124)
-(declare-fun f210 (S123 S18) S3)
-(declare-fun f211 (S126 S125) S21)
-(declare-fun f212 (S15) S126)
-(declare-fun f213 (S125 S17) Int)
-(declare-fun f214 (S127 S22) S21)
-(declare-fun f215 (S6) S127)
-(declare-fun f216 (S129 S128) S21)
-(declare-fun f217 (S11) S129)
-(declare-fun f218 (S128 S17) S3)
-(declare-fun f219 (S130 S101) S15)
-(declare-fun f220 (S16) S130)
-(declare-fun f221 (S131 S98) S6)
-(declare-fun f222 (S16) S131)
-(declare-fun f223 (S132 S100) S11)
-(declare-fun f224 (S16) S132)
-(declare-fun f225 (S134 S133) S15)
-(declare-fun f226 (S21) S134)
-(declare-fun f227 (S133 Int) S17)
-(declare-fun f228 (S136 S135) S6)
-(declare-fun f229 (S21) S136)
-(declare-fun f230 (S135 S8) S17)
-(declare-fun f231 (S138 S137) S11)
-(declare-fun f232 (S21) S138)
-(declare-fun f233 (S137 S3) S17)
-(declare-fun f234 (S24) S6)
-(declare-fun f235 (S25) S11)
-(declare-fun f236 (S111 S27) S15)
-(declare-fun f237 (S110 S29) S16)
-(declare-fun f238 (S109 S30) S21)
-(declare-fun f239 (S139 Int) S39)
-(declare-fun f240 (S139) S25)
-(declare-fun f241 (S141 Int) S6)
-(declare-fun f242 (S140 Int) S141)
-(declare-fun f243 (S142 S3) S6)
-(declare-fun f244 (S140) S142)
-(declare-fun f245 (S144 Int) S11)
-(declare-fun f246 (S143 Int) S144)
-(declare-fun f247 (S143) S35)
-(declare-fun f248 (S146 Int) S28)
-(declare-fun f249 (S145 Int) S146)
-(declare-fun f250 (S147 S3) S28)
-(declare-fun f251 (S145) S147)
-(declare-fun f252 (S148 Int) S27)
-(declare-fun f253 (S149 S3) S26)
-(declare-fun f254 (S148) S149)
-(declare-fun f255 (S151 S18) S15)
-(declare-fun f256 (S150 S18) S151)
-(declare-fun f257 (S152 S17) S15)
-(declare-fun f258 (S150) S152)
-(declare-fun f259 (S154 S18) S6)
-(declare-fun f260 (S153 S18) S154)
-(declare-fun f261 (S155 S17) S6)
-(declare-fun f262 (S153) S155)
-(declare-fun f263 (S157 S18) S11)
-(declare-fun f264 (S156 S18) S157)
-(declare-fun f265 (S158 S17) S11)
-(declare-fun f266 (S156) S158)
-(declare-fun f267 (S159 S18) S29)
-(declare-fun f268 (S160 S17) S28)
-(declare-fun f269 (S159) S160)
-(declare-fun f270 (S162 S18) S26)
-(declare-fun f271 (S161 S18) S162)
-(declare-fun f272 (S163 S17) S26)
-(declare-fun f273 (S161) S163)
-(declare-fun f274 (S164 S17) S152)
-(declare-fun f275 (S165 S8) S15)
-(declare-fun f276 (S164) S165)
-(declare-fun f277 (S166 S17) S155)
-(declare-fun f278 (S166) S31)
-(declare-fun f279 (S167 S17) S158)
-(declare-fun f280 (S168 S8) S11)
-(declare-fun f281 (S167) S168)
-(declare-fun f282 (S169 S17) S160)
-(declare-fun f283 (S170 S8) S28)
-(declare-fun f284 (S169) S170)
-(declare-fun f285 (S171 S17) S163)
-(declare-fun f286 (S172 S8) S26)
-(declare-fun f287 (S171) S172)
-(declare-fun f288 (S174 S8) S16)
-(declare-fun f289 (S173 S8) S174)
-(declare-fun f290 (S175 S7) S16)
-(declare-fun f291 (S173) S175)
-(declare-fun f292 (S177 S3) S16)
-(declare-fun f293 (S176 S3) S177)
-(declare-fun f294 (S178 S12) S16)
-(declare-fun f295 (S176) S178)
-(declare-fun f296 (S179 S8) S24)
-(declare-fun f297 (S180 S7) S21)
-(declare-fun f298 (S179) S180)
-(declare-fun f299 (S182 S3) S21)
-(declare-fun f300 (S181 S3) S182)
-(declare-fun f301 (S183 S12) S21)
-(declare-fun f302 (S181) S183)
-(declare-fun f303 () S16)
-(declare-fun f304 () S21)
-(declare-fun f305 (S16) S1)
-(declare-fun f306 (S21) S1)
-(declare-fun f307 (S16) S1)
-(declare-fun f308 (S21) S1)
-(declare-fun f309 (S16) S1)
-(declare-fun f310 (S15) S1)
-(declare-fun f311 (S21) S1)
-(declare-fun f312 (S15) S1)
-(declare-fun f313 (S15) S1)
-(declare-fun f314 (S6) S1)
-(declare-fun f315 () S101)
-(declare-fun f316 (S30) S1)
-(declare-fun f317 (S29) S1)
-(declare-fun f318 (S24) S1)
-(declare-fun f319 () S16)
-(declare-fun f320 () S21)
-(declare-fun f321 (S184) S1)
-(declare-fun f322 (S21) S184)
-(declare-fun f323 (S185) S1)
-(declare-fun f324 (S16) S185)
-(declare-fun f325 (S16) S16)
-(declare-fun f326 (S21) S21)
-(declare-fun f327 (S15) S15)
-(declare-fun f328 (S21) S184)
-(declare-fun f329 (S16) S185)
-(declare-fun f330 (S6) S6)
-(declare-fun f331 (S11) S11)
-(assert (not (= f1 f2)))
-(assert (not (= (f3 (* f4 f5)) f1)))
-(assert (= (f3 f4) f1))
-(assert (= (f3 f5) f1))
-(assert (forall ((?v0 Int)) (= (= (f3 ?v0) f1) (exists ((?v1 Int) (?v2 Int)) (= (f6 f7 (f8 (f9 f10 ?v1) ?v2)) ?v0)))))
-(assert (forall ((?v0 Int) (?v1 Int) (?v2 Int) (?v3 Int)) (= (* (f6 f7 (f8 (f9 f10 ?v0) ?v1)) (f6 f7 (f8 (f9 f10 ?v2) ?v3))) (f6 f7 (f8 (f9 f10 (+ (* ?v0 ?v2) (* ?v1 ?v3))) (- (* ?v0 ?v3) (* ?v1 ?v2)))))))
-(assert (forall ((?v0 S6)) (= (forall ((?v1 S7)) (= (f11 ?v0 ?v1) f1)) (forall ((?v1 S8) (?v2 S8)) (= (f11 ?v0 (f12 (f13 f14 ?v1) ?v2)) f1)))))
-(assert (forall ((?v0 S11)) (= (forall ((?v1 S12)) (= (f15 ?v0 ?v1) f1)) (forall ((?v1 S3) (?v2 S3)) (= (f15 ?v0 (f16 (f17 f18 ?v1) ?v2)) f1)))))
-(assert (forall ((?v0 S15)) (= (forall ((?v1 S3)) (= (f19 ?v0 ?v1) f1)) (forall ((?v1 Int) (?v2 Int)) (= (f19 ?v0 (f8 (f9 f10 ?v1) ?v2)) f1)))))
-(assert (forall ((?v0 S16)) (= (forall ((?v1 S17)) (= (f20 ?v0 ?v1) f1)) (forall ((?v1 S18) (?v2 S18)) (= (f20 ?v0 (f21 (f22 f23 ?v1) ?v2)) f1)))))
-(assert (forall ((?v0 S21)) (= (forall ((?v1 S8)) (= (f24 ?v0 ?v1) f1)) (forall ((?v1 S17) (?v2 S17)) (= (f24 ?v0 (f25 (f26 f27 ?v1) ?v2)) f1)))))
-(assert (forall ((?v0 S8) (?v1 S8) (?v2 S8) (?v3 S8)) (= (= (f12 (f13 f14 ?v0) ?v1) (f12 (f13 f14 ?v2) ?v3)) (and (= ?v0 ?v2) (= ?v1 ?v3)))))
-(assert (forall ((?v0 S3) (?v1 S3) (?v2 S3) (?v3 S3)) (= (= (f16 (f17 f18 ?v0) ?v1) (f16 (f17 f18 ?v2) ?v3)) (and (= ?v0 ?v2) (= ?v1 ?v3)))))
-(assert (forall ((?v0 Int) (?v1 Int) (?v2 Int) (?v3 Int)) (= (= (f8 (f9 f10 ?v0) ?v1) (f8 (f9 f10 ?v2) ?v3)) (and (= ?v0 ?v2) (= ?v1 ?v3)))))
-(assert (forall ((?v0 S18) (?v1 S18) (?v2 S18) (?v3 S18)) (= (= (f21 (f22 f23 ?v0) ?v1) (f21 (f22 f23 ?v2) ?v3)) (and (= ?v0 ?v2) (= ?v1 ?v3)))))
-(assert (forall ((?v0 S17) (?v1 S17) (?v2 S17) (?v3 S17)) (= (= (f25 (f26 f27 ?v0) ?v1) (f25 (f26 f27 ?v2) ?v3)) (and (= ?v0 ?v2) (= ?v1 ?v3)))))
-(assert (forall ((?v0 S8) (?v1 S8) (?v2 S8) (?v3 S8)) (=> (= (f12 (f13 f14 ?v0) ?v1) (f12 (f13 f14 ?v2) ?v3)) (=> (=> (= ?v0 ?v2) (=> (= ?v1 ?v3) false)) false))))
-(assert (forall ((?v0 S3) (?v1 S3) (?v2 S3) (?v3 S3)) (=> (= (f16 (f17 f18 ?v0) ?v1) (f16 (f17 f18 ?v2) ?v3)) (=> (=> (= ?v0 ?v2) (=> (= ?v1 ?v3) false)) false))))
-(assert (forall ((?v0 Int) (?v1 Int) (?v2 Int) (?v3 Int)) (=> (= (f8 (f9 f10 ?v0) ?v1) (f8 (f9 f10 ?v2) ?v3)) (=> (=> (= ?v0 ?v2) (=> (= ?v1 ?v3) false)) false))))
-(assert (forall ((?v0 S18) (?v1 S18) (?v2 S18) (?v3 S18)) (=> (= (f21 (f22 f23 ?v0) ?v1) (f21 (f22 f23 ?v2) ?v3)) (=> (=> (= ?v0 ?v2) (=> (= ?v1 ?v3) false)) false))))
-(assert (forall ((?v0 S17) (?v1 S17) (?v2 S17) (?v3 S17)) (=> (= (f25 (f26 f27 ?v0) ?v1) (f25 (f26 f27 ?v2) ?v3)) (=> (=> (= ?v0 ?v2) (=> (= ?v1 ?v3) false)) false))))
-(assert (forall ((?v0 S6) (?v1 S8) (?v2 S8)) (= (= (f24 (f28 (f29 ?v0) ?v1) ?v2) f1) (= (f30 (f12 (f13 f14 ?v1) ?v2) ?v0) f1))))
-(assert (forall ((?v0 S11) (?v1 S3) (?v2 S3)) (= (= (f19 (f31 (f32 ?v0) ?v1) ?v2) f1) (= (f33 (f16 (f17 f18 ?v1) ?v2) ?v0) f1))))
-(assert (forall ((?v0 S15) (?v1 Int) (?v2 Int)) (= (= (f34 (f35 (f36 ?v0) ?v1) ?v2) f1) (= (f37 (f8 (f9 f10 ?v1) ?v2) ?v0) f1))))
-(assert (forall ((?v0 S16) (?v1 S18) (?v2 S18)) (= (= (f38 (f39 (f40 ?v0) ?v1) ?v2) f1) (= (f41 (f21 (f22 f23 ?v1) ?v2) ?v0) f1))))
-(assert (forall ((?v0 S21) (?v1 S17) (?v2 S17)) (= (= (f20 (f42 (f43 ?v0) ?v1) ?v2) f1) (= (f44 (f25 (f26 f27 ?v1) ?v2) ?v0) f1))))
-(assert (forall ((?v0 S21) (?v1 S8) (?v2 S8) (?v3 S8) (?v4 S31)) (let ((?v_0 (f13 f14 ?v1))) (=> (= (f24 ?v0 ?v1) f1) (=> (= (f30 (f12 (f13 f14 ?v2) ?v3) (f45 ?v4 ?v1)) f1) (= (f46 (f47 (f12 ?v_0 ?v2) (f12 ?v_0 ?v3)) (f48 (f49 ?v0) ?v4)) f1))))))
-(assert (forall ((?v0 S15) (?v1 S3) (?v2 S3) (?v3 S3) (?v4 S35)) (let ((?v_0 (f17 f18 ?v1))) (=> (= (f19 ?v0 ?v1) f1) (=> (= (f33 (f16 (f17 f18 ?v2) ?v3) (f50 ?v4 ?v1)) f1) (= (f51 (f52 (f16 ?v_0 ?v2) (f16 ?v_0 ?v3)) (f53 (f54 ?v0) ?v4)) f1))))))
-(assert (forall ((?v0 S26) (?v1 Int) (?v2 Int) (?v3 Int) (?v4 S39)) (let ((?v_0 (f9 f10 ?v1))) (=> (= (f34 ?v0 ?v1) f1) (=> (= (f37 (f8 (f9 f10 ?v2) ?v3) (f55 ?v4 ?v1)) f1) (= (f33 (f16 (f17 f18 (f8 ?v_0 ?v2)) (f8 ?v_0 ?v3)) (f56 (f57 ?v0) ?v4)) f1))))))
-(assert (forall ((?v0 S16) (?v1 S17) (?v2 S17) (?v3 S17) (?v4 S41)) (let ((?v_0 (f26 f27 ?v1))) (=> (= (f20 ?v0 ?v1) f1) (=> (= (f44 (f25 (f26 f27 ?v2) ?v3) (f58 ?v4 ?v1)) f1) (= (f30 (f12 (f13 f14 (f25 ?v_0 ?v2)) (f25 ?v_0 ?v3)) (f59 (f60 ?v0) ?v4)) f1))))))
-(assert (forall ((?v0 S28) (?v1 S18) (?v2 S18) (?v3 S18) (?v4 S43)) (let ((?v_0 (f22 f23 ?v1))) (=> (= (f38 ?v0 ?v1) f1) (=> (= (f41 (f21 (f22 f23 ?v2) ?v3) (f61 ?v4 ?v1)) f1) (= (f44 (f25 (f26 f27 (f21 ?v_0 ?v2)) (f21 ?v_0 ?v3)) (f62 (f63 ?v0) ?v4)) f1))))))
-(assert (forall ((?v0 S6)) (= (= (f64 ?v0) f1) (forall ((?v1 S8)) (= (f30 (f12 (f13 f14 ?v1) ?v1) ?v0) f1)))))
-(assert (forall ((?v0 S11)) (= (= (f65 ?v0) f1) (forall ((?v1 S3)) (= (f33 (f16 (f17 f18 ?v1) ?v1) ?v0) f1)))))
-(assert (forall ((?v0 S15)) (= (= (f66 ?v0) f1) (forall ((?v1 Int)) (= (f37 (f8 (f9 f10 ?v1) ?v1) ?v0) f1)))))
-(assert (forall ((?v0 S16)) (= (= (f67 ?v0) f1) (forall ((?v1 S18)) (= (f41 (f21 (f22 f23 ?v1) ?v1) ?v0) f1)))))
-(assert (forall ((?v0 S21)) (= (= (f68 ?v0) f1) (forall ((?v1 S17)) (= (f44 (f25 (f26 f27 ?v1) ?v1) ?v0) f1)))))
-(assert (forall ((?v0 S6)) (= (= (f69 ?v0) f1) (forall ((?v1 S8)) (not (= (f30 (f12 (f13 f14 ?v1) ?v1) ?v0) f1))))))
-(assert (forall ((?v0 S11)) (= (= (f70 ?v0) f1) (forall ((?v1 S3)) (not (= (f33 (f16 (f17 f18 ?v1) ?v1) ?v0) f1))))))
-(assert (forall ((?v0 S15)) (= (= (f71 ?v0) f1) (forall ((?v1 Int)) (not (= (f37 (f8 (f9 f10 ?v1) ?v1) ?v0) f1))))))
-(assert (forall ((?v0 S16)) (= (= (f72 ?v0) f1) (forall ((?v1 S18)) (not (= (f41 (f21 (f22 f23 ?v1) ?v1) ?v0) f1))))))
-(assert (forall ((?v0 S21)) (= (= (f73 ?v0) f1) (forall ((?v1 S17)) (not (= (f44 (f25 (f26 f27 ?v1) ?v1) ?v0) f1))))))
-(assert (forall ((?v0 S6)) (= (exists ((?v1 S7)) (= (f11 ?v0 ?v1) f1)) (exists ((?v1 S8) (?v2 S8)) (= (f11 ?v0 (f12 (f13 f14 ?v1) ?v2)) f1)))))
-(assert (forall ((?v0 S11)) (= (exists ((?v1 S12)) (= (f15 ?v0 ?v1) f1)) (exists ((?v1 S3) (?v2 S3)) (= (f15 ?v0 (f16 (f17 f18 ?v1) ?v2)) f1)))))
-(assert (forall ((?v0 S15)) (= (exists ((?v1 S3)) (= (f19 ?v0 ?v1) f1)) (exists ((?v1 Int) (?v2 Int)) (= (f19 ?v0 (f8 (f9 f10 ?v1) ?v2)) f1)))))
-(assert (forall ((?v0 S16)) (= (exists ((?v1 S17)) (= (f20 ?v0 ?v1) f1)) (exists ((?v1 S18) (?v2 S18)) (= (f20 ?v0 (f21 (f22 f23 ?v1) ?v2)) f1)))))
-(assert (forall ((?v0 S21)) (= (exists ((?v1 S8)) (= (f24 ?v0 ?v1) f1)) (exists ((?v1 S17) (?v2 S17)) (= (f24 ?v0 (f25 (f26 f27 ?v1) ?v2)) f1)))))
-(assert (forall ((?v0 S7)) (=> (forall ((?v1 S8) (?v2 S17) (?v3 S18) (?v4 S18)) (=> (= ?v0 (f12 (f13 f14 ?v1) (f25 (f26 f27 ?v2) (f21 (f22 f23 ?v3) ?v4)))) false)) false)))
-(assert (forall ((?v0 S6) (?v1 S7)) (=> (forall ((?v2 S8) (?v3 S17) (?v4 S18) (?v5 S18)) (= (f11 ?v0 (f12 (f13 f14 ?v2) (f25 (f26 f27 ?v3) (f21 (f22 f23 ?v4) ?v5)))) f1)) (= (f11 ?v0 ?v1) f1))))
-(assert (forall ((?v0 S8)) (=> (forall ((?v1 S17) (?v2 S18) (?v3 S18)) (=> (= ?v0 (f25 (f26 f27 ?v1) (f21 (f22 f23 ?v2) ?v3))) false)) false)))
-(assert (forall ((?v0 S12)) (=> (forall ((?v1 S3) (?v2 Int) (?v3 Int)) (=> (= ?v0 (f16 (f17 f18 ?v1) (f8 (f9 f10 ?v2) ?v3))) false)) false)))
-(assert (forall ((?v0 S7)) (=> (forall ((?v1 S8) (?v2 S17) (?v3 S17)) (=> (= ?v0 (f12 (f13 f14 ?v1) (f25 (f26 f27 ?v2) ?v3))) false)) false)))
-(assert (forall ((?v0 S21) (?v1 S8)) (=> (forall ((?v2 S17) (?v3 S18) (?v4 S18)) (= (f24 ?v0 (f25 (f26 f27 ?v2) (f21 (f22 f23 ?v3) ?v4))) f1)) (= (f24 ?v0 ?v1) f1))))
-(assert (forall ((?v0 S11) (?v1 S12)) (=> (forall ((?v2 S3) (?v3 Int) (?v4 Int)) (= (f15 ?v0 (f16 (f17 f18 ?v2) (f8 (f9 f10 ?v3) ?v4))) f1)) (= (f15 ?v0 ?v1) f1))))
-(assert (forall ((?v0 S6) (?v1 S7)) (=> (forall ((?v2 S8) (?v3 S17) (?v4 S17)) (= (f11 ?v0 (f12 (f13 f14 ?v2) (f25 (f26 f27 ?v3) ?v4))) f1)) (= (f11 ?v0 ?v1) f1))))
-(assert (forall ((?v0 S7)) (=> (forall ((?v1 S8) (?v2 S8)) (=> (= ?v0 (f12 (f13 f14 ?v1) ?v2)) false)) false)))
-(assert (forall ((?v0 S12)) (=> (forall ((?v1 S3) (?v2 S3)) (=> (= ?v0 (f16 (f17 f18 ?v1) ?v2)) false)) false)))
-(assert (forall ((?v0 S3)) (=> (forall ((?v1 Int) (?v2 Int)) (=> (= ?v0 (f8 (f9 f10 ?v1) ?v2)) false)) false)))
-(assert (forall ((?v0 S17)) (=> (forall ((?v1 S18) (?v2 S18)) (=> (= ?v0 (f21 (f22 f23 ?v1) ?v2)) false)) false)))
-(assert (forall ((?v0 S8)) (=> (forall ((?v1 S17) (?v2 S17)) (=> (= ?v0 (f25 (f26 f27 ?v1) ?v2)) false)) false)))
-(assert (forall ((?v0 S7)) (=> (forall ((?v1 S8) (?v2 S8)) (=> (= ?v0 (f12 (f13 f14 ?v1) ?v2)) false)) false)))
-(assert (forall ((?v0 S12)) (=> (forall ((?v1 S3) (?v2 S3)) (=> (= ?v0 (f16 (f17 f18 ?v1) ?v2)) false)) false)))
-(assert (forall ((?v0 S3)) (=> (forall ((?v1 Int) (?v2 Int)) (=> (= ?v0 (f8 (f9 f10 ?v1) ?v2)) false)) false)))
-(assert (forall ((?v0 S17)) (=> (forall ((?v1 S18) (?v2 S18)) (=> (= ?v0 (f21 (f22 f23 ?v1) ?v2)) false)) false)))
-(assert (forall ((?v0 S8)) (=> (forall ((?v1 S17) (?v2 S17)) (=> (= ?v0 (f25 (f26 f27 ?v1) ?v2)) false)) false)))
-(assert (forall ((?v0 S6) (?v1 S8) (?v2 S8)) (=> (= (f11 ?v0 (f12 (f13 f14 ?v1) ?v2)) f1) (= (f24 (f28 (f74 ?v0) ?v1) ?v2) f1))))
-(assert (forall ((?v0 S11) (?v1 S3) (?v2 S3)) (=> (= (f15 ?v0 (f16 (f17 f18 ?v1) ?v2)) f1) (= (f19 (f31 (f75 ?v0) ?v1) ?v2) f1))))
-(assert (forall ((?v0 S15) (?v1 Int) (?v2 Int)) (=> (= (f19 ?v0 (f8 (f9 f10 ?v1) ?v2)) f1) (= (f34 (f35 (f76 ?v0) ?v1) ?v2) f1))))
-(assert (forall ((?v0 S16) (?v1 S18) (?v2 S18)) (=> (= (f20 ?v0 (f21 (f22 f23 ?v1) ?v2)) f1) (= (f38 (f39 (f77 ?v0) ?v1) ?v2) f1))))
-(assert (forall ((?v0 S21) (?v1 S17) (?v2 S17)) (=> (= (f24 ?v0 (f25 (f26 f27 ?v1) ?v2)) f1) (= (f20 (f42 (f78 ?v0) ?v1) ?v2) f1))))
-(assert (forall ((?v0 S8) (?v1 S8) (?v2 S8) (?v3 S8) (?v4 S6) (?v5 S6)) (let ((?v_0 (f13 f14 ?v0))) (= (= (f46 (f47 (f12 ?v_0 ?v1) (f12 (f13 f14 ?v2) ?v3)) (f79 (f80 ?v4) ?v5)) f1) (or (= (f30 (f12 ?v_0 ?v2) ?v4) f1) (and (= ?v0 ?v2) (= (f30 (f12 (f13 f14 ?v1) ?v3) ?v5) f1)))))))
-(assert (forall ((?v0 S3) (?v1 S3) (?v2 S3) (?v3 S3) (?v4 S11) (?v5 S11)) (let ((?v_0 (f17 f18 ?v0))) (= (= (f51 (f52 (f16 ?v_0 ?v1) (f16 (f17 f18 ?v2) ?v3)) (f81 (f82 ?v4) ?v5)) f1) (or (= (f33 (f16 ?v_0 ?v2) ?v4) f1) (and (= ?v0 ?v2) (= (f33 (f16 (f17 f18 ?v1) ?v3) ?v5) f1)))))))
-(assert (forall ((?v0 Int) (?v1 Int) (?v2 Int) (?v3 Int) (?v4 S15) (?v5 S15)) (let ((?v_0 (f9 f10 ?v0))) (= (= (f33 (f16 (f17 f18 (f8 ?v_0 ?v1)) (f8 (f9 f10 ?v2) ?v3)) (f83 (f84 ?v4) ?v5)) f1) (or (= (f37 (f8 ?v_0 ?v2) ?v4) f1) (and (= ?v0 ?v2) (= (f37 (f8 (f9 f10 ?v1) ?v3) ?v5) f1)))))))
-(assert (forall ((?v0 S17) (?v1 S17) (?v2 S17) (?v3 S17) (?v4 S21) (?v5 S21)) (let ((?v_0 (f26 f27 ?v0))) (= (= (f30 (f12 (f13 f14 (f25 ?v_0 ?v1)) (f25 (f26 f27 ?v2) ?v3)) (f85 (f86 ?v4) ?v5)) f1) (or (= (f44 (f25 ?v_0 ?v2) ?v4) f1) (and (= ?v0 ?v2) (= (f44 (f25 (f26 f27 ?v1) ?v3) ?v5) f1)))))))
-(assert (forall ((?v0 Int) (?v1 S8) (?v2 Int) (?v3 S8) (?v4 S15) (?v5 S6)) (= (= (f87 (f88 (f89 ?v0 ?v1) (f89 ?v2 ?v3)) (f90 ?v4 ?v5)) f1) (or (= (f37 (f8 (f9 f10 ?v0) ?v2) ?v4) f1) (and (= ?v0 ?v2) (= (f30 (f12 (f13 f14 ?v1) ?v3) ?v5) f1))))))
-(assert (forall ((?v0 Int) (?v1 S3) (?v2 Int) (?v3 S3) (?v4 S15) (?v5 S11)) (= (= (f91 (f92 (f93 ?v0 ?v1) (f93 ?v2 ?v3)) (f94 ?v4 ?v5)) f1) (or (= (f37 (f8 (f9 f10 ?v0) ?v2) ?v4) f1) (and (= ?v0 ?v2) (= (f33 (f16 (f17 f18 ?v1) ?v3) ?v5) f1))))))
-(assert (forall ((?v0 S8) (?v1 Int) (?v2 S8) (?v3 Int) (?v4 S6) (?v5 S15)) (= (= (f95 (f96 (f97 ?v0 ?v1) (f97 ?v2 ?v3)) (f98 ?v4 ?v5)) f1) (or (= (f30 (f12 (f13 f14 ?v0) ?v2) ?v4) f1) (and (= ?v0 ?v2) (= (f37 (f8 (f9 f10 ?v1) ?v3) ?v5) f1))))))
-(assert (forall ((?v0 S3) (?v1 Int) (?v2 S3) (?v3 Int) (?v4 S11) (?v5 S15)) (= (= (f99 (f100 (f101 ?v0 ?v1) (f101 ?v2 ?v3)) (f102 ?v4 ?v5)) f1) (or (= (f33 (f16 (f17 f18 ?v0) ?v2) ?v4) f1) (and (= ?v0 ?v2) (= (f37 (f8 (f9 f10 ?v1) ?v3) ?v5) f1))))))
-(assert (forall ((?v0 S18) (?v1 S18) (?v2 S18) (?v3 S18) (?v4 S16) (?v5 S16)) (let ((?v_0 (f22 f23 ?v0))) (= (= (f44 (f25 (f26 f27 (f21 ?v_0 ?v1)) (f21 (f22 f23 ?v2) ?v3)) (f103 (f104 ?v4) ?v5)) f1) (or (= (f41 (f21 ?v_0 ?v2) ?v4) f1) (and (= ?v0 ?v2) (= (f41 (f21 (f22 f23 ?v1) ?v3) ?v5) f1)))))))
-(assert (forall ((?v0 S18) (?v1 Int) (?v2 S18) (?v3 Int) (?v4 S16) (?v5 S15)) (= (= (f105 (f106 (f107 ?v0 ?v1) (f107 ?v2 ?v3)) (f108 ?v4 ?v5)) f1) (or (= (f41 (f21 (f22 f23 ?v0) ?v2) ?v4) f1) (and (= ?v0 ?v2) (= (f37 (f8 (f9 f10 ?v1) ?v3) ?v5) f1))))))
-(assert (forall ((?v0 S18) (?v1 S8) (?v2 S18) (?v3 S8) (?v4 S16) (?v5 S6)) (= (= (f109 (f110 (f111 ?v0 ?v1) (f111 ?v2 ?v3)) (f112 ?v4 ?v5)) f1) (or (= (f41 (f21 (f22 f23 ?v0) ?v2) ?v4) f1) (and (= ?v0 ?v2) (= (f30 (f12 (f13 f14 ?v1) ?v3) ?v5) f1))))))
-(assert (forall ((?v0 S18) (?v1 S3) (?v2 S18) (?v3 S3) (?v4 S16) (?v5 S11)) (= (= (f113 (f114 (f115 ?v0 ?v1) (f115 ?v2 ?v3)) (f116 ?v4 ?v5)) f1) (or (= (f41 (f21 (f22 f23 ?v0) ?v2) ?v4) f1) (and (= ?v0 ?v2) (= (f33 (f16 (f17 f18 ?v1) ?v3) ?v5) f1))))))
-(assert (forall ((?v0 S17) (?v1 Int) (?v2 S17) (?v3 Int) (?v4 S21) (?v5 S15)) (= (= (f117 (f118 (f119 ?v0 ?v1) (f119 ?v2 ?v3)) (f120 ?v4 ?v5)) f1) (or (= (f44 (f25 (f26 f27 ?v0) ?v2) ?v4) f1) (and (= ?v0 ?v2) (= (f37 (f8 (f9 f10 ?v1) ?v3) ?v5) f1))))))
-(assert (forall ((?v0 S17) (?v1 S8) (?v2 S17) (?v3 S8) (?v4 S21) (?v5 S6)) (= (= (f121 (f122 (f123 ?v0 ?v1) (f123 ?v2 ?v3)) (f124 ?v4 ?v5)) f1) (or (= (f44 (f25 (f26 f27 ?v0) ?v2) ?v4) f1) (and (= ?v0 ?v2) (= (f30 (f12 (f13 f14 ?v1) ?v3) ?v5) f1))))))
-(assert (forall ((?v0 S17) (?v1 S3) (?v2 S17) (?v3 S3) (?v4 S21) (?v5 S11)) (= (= (f125 (f126 (f127 ?v0 ?v1) (f127 ?v2 ?v3)) (f128 ?v4 ?v5)) f1) (or (= (f44 (f25 (f26 f27 ?v0) ?v2) ?v4) f1) (and (= ?v0 ?v2) (= (f33 (f16 (f17 f18 ?v1) ?v3) ?v5) f1))))))
-(assert (forall ((?v0 Int) (?v1 S18) (?v2 Int) (?v3 S18) (?v4 S15) (?v5 S16)) (= (= (f129 (f130 (f131 ?v0 ?v1) (f131 ?v2 ?v3)) (f132 ?v4 ?v5)) f1) (or (= (f37 (f8 (f9 f10 ?v0) ?v2) ?v4) f1) (and (= ?v0 ?v2) (= (f41 (f21 (f22 f23 ?v1) ?v3) ?v5) f1))))))
-(assert (forall ((?v0 S8) (?v1 S18) (?v2 S8) (?v3 S18) (?v4 S6) (?v5 S16)) (= (= (f133 (f134 (f135 ?v0 ?v1) (f135 ?v2 ?v3)) (f136 ?v4 ?v5)) f1) (or (= (f30 (f12 (f13 f14 ?v0) ?v2) ?v4) f1) (and (= ?v0 ?v2) (= (f41 (f21 (f22 f23 ?v1) ?v3) ?v5) f1))))))
-(assert (forall ((?v0 S3) (?v1 S18) (?v2 S3) (?v3 S18) (?v4 S11) (?v5 S16)) (= (= (f137 (f138 (f139 ?v0 ?v1) (f139 ?v2 ?v3)) (f140 ?v4 ?v5)) f1) (or (= (f33 (f16 (f17 f18 ?v0) ?v2) ?v4) f1) (and (= ?v0 ?v2) (= (f41 (f21 (f22 f23 ?v1) ?v3) ?v5) f1))))))
-(assert (forall ((?v0 Int) (?v1 S17) (?v2 Int) (?v3 S17) (?v4 S15) (?v5 S21)) (= (= (f141 (f142 (f143 ?v0 ?v1) (f143 ?v2 ?v3)) (f144 ?v4 ?v5)) f1) (or (= (f37 (f8 (f9 f10 ?v0) ?v2) ?v4) f1) (and (= ?v0 ?v2) (= (f44 (f25 (f26 f27 ?v1) ?v3) ?v5) f1))))))
-(assert (forall ((?v0 S8) (?v1 S17) (?v2 S8) (?v3 S17) (?v4 S6) (?v5 S21)) (= (= (f145 (f146 (f147 ?v0 ?v1) (f147 ?v2 ?v3)) (f148 ?v4 ?v5)) f1) (or (= (f30 (f12 (f13 f14 ?v0) ?v2) ?v4) f1) (and (= ?v0 ?v2) (= (f44 (f25 (f26 f27 ?v1) ?v3) ?v5) f1))))))
-(assert (forall ((?v0 S3) (?v1 S17) (?v2 S3) (?v3 S17) (?v4 S11) (?v5 S21)) (= (= (f149 (f150 (f151 ?v0 ?v1) (f151 ?v2 ?v3)) (f152 ?v4 ?v5)) f1) (or (= (f33 (f16 (f17 f18 ?v0) ?v2) ?v4) f1) (and (= ?v0 ?v2) (= (f44 (f25 (f26 f27 ?v1) ?v3) ?v5) f1))))))
-(assert (forall ((?v0 S15) (?v1 Int) (?v2 Int)) (= (= (f34 (f35 (f76 ?v0) ?v1) ?v2) f1) (= (f19 ?v0 (f8 (f9 f10 ?v1) ?v2)) f1))))
-(assert (forall ((?v0 S16) (?v1 S18) (?v2 S18)) (= (= (f38 (f39 (f77 ?v0) ?v1) ?v2) f1) (= (f20 ?v0 (f21 (f22 f23 ?v1) ?v2)) f1))))
-(assert (forall ((?v0 S21) (?v1 S17) (?v2 S17)) (= (= (f20 (f42 (f78 ?v0) ?v1) ?v2) f1) (= (f24 ?v0 (f25 (f26 f27 ?v1) ?v2)) f1))))
-(assert (forall ((?v0 S6) (?v1 S8) (?v2 S8)) (=> (= (f24 (f28 (f74 ?v0) ?v1) ?v2) f1) (= (f11 ?v0 (f12 (f13 f14 ?v1) ?v2)) f1))))
-(assert (forall ((?v0 S11) (?v1 S3) (?v2 S3)) (=> (= (f19 (f31 (f75 ?v0) ?v1) ?v2) f1) (= (f15 ?v0 (f16 (f17 f18 ?v1) ?v2)) f1))))
-(assert (forall ((?v0 S15) (?v1 Int) (?v2 Int)) (=> (= (f34 (f35 (f76 ?v0) ?v1) ?v2) f1) (= (f19 ?v0 (f8 (f9 f10 ?v1) ?v2)) f1))))
-(assert (forall ((?v0 S16) (?v1 S18) (?v2 S18)) (=> (= (f38 (f39 (f77 ?v0) ?v1) ?v2) f1) (= (f20 ?v0 (f21 (f22 f23 ?v1) ?v2)) f1))))
-(assert (forall ((?v0 S21) (?v1 S17) (?v2 S17)) (=> (= (f20 (f42 (f78 ?v0) ?v1) ?v2) f1) (= (f24 ?v0 (f25 (f26 f27 ?v1) ?v2)) f1))))
-(assert (forall ((?v0 S6) (?v1 S8) (?v2 S8)) (=> (= (f24 (f28 (f74 ?v0) ?v1) ?v2) f1) (=> (=> (= (f11 ?v0 (f12 (f13 f14 ?v1) ?v2)) f1) false) false))))
-(assert (forall ((?v0 S11) (?v1 S3) (?v2 S3)) (=> (= (f19 (f31 (f75 ?v0) ?v1) ?v2) f1) (=> (=> (= (f15 ?v0 (f16 (f17 f18 ?v1) ?v2)) f1) false) false))))
-(assert (forall ((?v0 S15) (?v1 Int) (?v2 Int)) (=> (= (f34 (f35 (f76 ?v0) ?v1) ?v2) f1) (=> (=> (= (f19 ?v0 (f8 (f9 f10 ?v1) ?v2)) f1) false) false))))
-(assert (forall ((?v0 S16) (?v1 S18) (?v2 S18)) (=> (= (f38 (f39 (f77 ?v0) ?v1) ?v2) f1) (=> (=> (= (f20 ?v0 (f21 (f22 f23 ?v1) ?v2)) f1) false) false))))
-(assert (forall ((?v0 S21) (?v1 S17) (?v2 S17)) (=> (= (f20 (f42 (f78 ?v0) ?v1) ?v2) f1) (=> (=> (= (f24 ?v0 (f25 (f26 f27 ?v1) ?v2)) f1) false) false))))
-(assert (forall ((?v0 S8) (?v1 S8) (?v2 S98)) (= (= (f30 (f12 (f13 f14 ?v0) ?v1) (f153 ?v2)) f1) (< (f154 f155 (f156 ?v2 ?v0)) (f154 f155 (f156 ?v2 ?v1))))))
-(assert (forall ((?v0 S3) (?v1 S3) (?v2 S100)) (= (= (f33 (f16 (f17 f18 ?v0) ?v1) (f157 ?v2)) f1) (< (f154 f155 (f158 ?v2 ?v0)) (f154 f155 (f158 ?v2 ?v1))))))
-(assert (forall ((?v0 Int) (?v1 Int) (?v2 S101)) (= (= (f37 (f8 (f9 f10 ?v0) ?v1) (f159 ?v2)) f1) (< (f154 f155 (f160 ?v2 ?v0)) (f154 f155 (f160 ?v2 ?v1))))))
-(assert (forall ((?v0 S18) (?v1 S18) (?v2 S102)) (= (= (f41 (f21 (f22 f23 ?v0) ?v1) (f161 ?v2)) f1) (< (f154 f155 (f162 ?v2 ?v0)) (f154 f155 (f162 ?v2 ?v1))))))
-(assert (forall ((?v0 S17) (?v1 S17) (?v2 S103)) (= (= (f44 (f25 (f26 f27 ?v0) ?v1) (f163 ?v2)) f1) (< (f154 f155 (f164 ?v2 ?v0)) (f154 f155 (f164 ?v2 ?v1))))))
-(assert (forall ((?v0 S98) (?v1 S8) (?v2 S8) (?v3 S6)) (=> (< (f154 f155 (f156 ?v0 ?v1)) (f154 f155 (f156 ?v0 ?v2))) (= (f30 (f12 (f13 f14 ?v1) ?v2) (f165 (f166 ?v0) ?v3)) f1))))
-(assert (forall ((?v0 S100) (?v1 S3) (?v2 S3) (?v3 S11)) (=> (< (f154 f155 (f158 ?v0 ?v1)) (f154 f155 (f158 ?v0 ?v2))) (= (f33 (f16 (f17 f18 ?v1) ?v2) (f167 (f168 ?v0) ?v3)) f1))))
-(assert (forall ((?v0 S101) (?v1 Int) (?v2 Int) (?v3 S15)) (=> (< (f154 f155 (f160 ?v0 ?v1)) (f154 f155 (f160 ?v0 ?v2))) (= (f37 (f8 (f9 f10 ?v1) ?v2) (f169 (f170 ?v0) ?v3)) f1))))
-(assert (forall ((?v0 S102) (?v1 S18) (?v2 S18) (?v3 S16)) (=> (< (f154 f155 (f162 ?v0 ?v1)) (f154 f155 (f162 ?v0 ?v2))) (= (f41 (f21 (f22 f23 ?v1) ?v2) (f171 (f172 ?v0) ?v3)) f1))))
-(assert (forall ((?v0 S103) (?v1 S17) (?v2 S17) (?v3 S21)) (=> (< (f154 f155 (f164 ?v0 ?v1)) (f154 f155 (f164 ?v0 ?v2))) (= (f44 (f25 (f26 f27 ?v1) ?v2) (f173 (f174 ?v0) ?v3)) f1))))
-(assert (forall ((?v0 S98) (?v1 S8) (?v2 S8) (?v3 S6)) (let ((?v_0 (f12 (f13 f14 ?v1) ?v2))) (=> (<= (f154 f155 (f156 ?v0 ?v1)) (f154 f155 (f156 ?v0 ?v2))) (=> (= (f30 ?v_0 ?v3) f1) (= (f30 ?v_0 (f165 (f166 ?v0) ?v3)) f1))))))
-(assert (forall ((?v0 S100) (?v1 S3) (?v2 S3) (?v3 S11)) (let ((?v_0 (f16 (f17 f18 ?v1) ?v2))) (=> (<= (f154 f155 (f158 ?v0 ?v1)) (f154 f155 (f158 ?v0 ?v2))) (=> (= (f33 ?v_0 ?v3) f1) (= (f33 ?v_0 (f167 (f168 ?v0) ?v3)) f1))))))
-(assert (forall ((?v0 S101) (?v1 Int) (?v2 Int) (?v3 S15)) (let ((?v_0 (f8 (f9 f10 ?v1) ?v2))) (=> (<= (f154 f155 (f160 ?v0 ?v1)) (f154 f155 (f160 ?v0 ?v2))) (=> (= (f37 ?v_0 ?v3) f1) (= (f37 ?v_0 (f169 (f170 ?v0) ?v3)) f1))))))
-(assert (forall ((?v0 S102) (?v1 S18) (?v2 S18) (?v3 S16)) (let ((?v_0 (f21 (f22 f23 ?v1) ?v2))) (=> (<= (f154 f155 (f162 ?v0 ?v1)) (f154 f155 (f162 ?v0 ?v2))) (=> (= (f41 ?v_0 ?v3) f1) (= (f41 ?v_0 (f171 (f172 ?v0) ?v3)) f1))))))
-(assert (forall ((?v0 S103) (?v1 S17) (?v2 S17) (?v3 S21)) (let ((?v_0 (f25 (f26 f27 ?v1) ?v2))) (=> (<= (f154 f155 (f164 ?v0 ?v1)) (f154 f155 (f164 ?v0 ?v2))) (=> (= (f44 ?v_0 ?v3) f1) (= (f44 ?v_0 (f173 (f174 ?v0) ?v3)) f1))))))
-(assert (forall ((?v0 S15) (?v1 S11)) (= (= (f175 ?v0 ?v1) f1) (forall ((?v2 S3)) (=> (= (f37 ?v2 ?v0) f1) (forall ((?v3 S3)) (=> (= (f37 ?v3 ?v0) f1) (=> (not (= ?v2 ?v3)) (or (= (f33 (f16 (f17 f18 ?v2) ?v3) ?v1) f1) (= (f33 (f16 (f17 f18 ?v3) ?v2) ?v1) f1))))))))))
-(assert (forall ((?v0 S6) (?v1 S33)) (= (= (f176 ?v0 ?v1) f1) (forall ((?v2 S7)) (=> (= (f30 ?v2 ?v0) f1) (forall ((?v3 S7)) (=> (= (f30 ?v3 ?v0) f1) (=> (not (= ?v2 ?v3)) (or (= (f46 (f47 ?v2 ?v3) ?v1) f1) (= (f46 (f47 ?v3 ?v2) ?v1) f1))))))))))
-(assert (forall ((?v0 S11) (?v1 S37)) (= (= (f177 ?v0 ?v1) f1) (forall ((?v2 S12)) (=> (= (f33 ?v2 ?v0) f1) (forall ((?v3 S12)) (=> (= (f33 ?v3 ?v0) f1) (=> (not (= ?v2 ?v3)) (or (= (f51 (f52 ?v2 ?v3) ?v1) f1) (= (f51 (f52 ?v3 ?v2) ?v1) f1))))))))))
-(assert (forall ((?v0 S26) (?v1 S15)) (= (= (f178 ?v0 ?v1) f1) (forall ((?v2 Int)) (=> (= (f179 ?v2 ?v0) f1) (forall ((?v3 Int)) (=> (= (f179 ?v3 ?v0) f1) (=> (not (= ?v2 ?v3)) (or (= (f37 (f8 (f9 f10 ?v2) ?v3) ?v1) f1) (= (f37 (f8 (f9 f10 ?v3) ?v2) ?v1) f1))))))))))
-(assert (forall ((?v0 S21) (?v1 S6)) (= (= (f180 ?v0 ?v1) f1) (forall ((?v2 S8)) (=> (= (f44 ?v2 ?v0) f1) (forall ((?v3 S8)) (=> (= (f44 ?v3 ?v0) f1) (=> (not (= ?v2 ?v3)) (or (= (f30 (f12 (f13 f14 ?v2) ?v3) ?v1) f1) (= (f30 (f12 (f13 f14 ?v3) ?v2) ?v1) f1))))))))))
-(assert (forall ((?v0 S28) (?v1 S16)) (= (= (f181 ?v0 ?v1) f1) (forall ((?v2 S18)) (=> (= (f182 ?v2 ?v0) f1) (forall ((?v3 S18)) (=> (= (f182 ?v3 ?v0) f1) (=> (not (= ?v2 ?v3)) (or (= (f41 (f21 (f22 f23 ?v2) ?v3) ?v1) f1) (= (f41 (f21 (f22 f23 ?v3) ?v2) ?v1) f1))))))))))
-(assert (forall ((?v0 S16) (?v1 S21)) (= (= (f183 ?v0 ?v1) f1) (forall ((?v2 S17)) (=> (= (f41 ?v2 ?v0) f1) (forall ((?v3 S17)) (=> (= (f41 ?v3 ?v0) f1) (=> (not (= ?v2 ?v3)) (or (= (f44 (f25 (f26 f27 ?v2) ?v3) ?v1) f1) (= (f44 (f25 (f26 f27 ?v3) ?v2) ?v1) f1))))))))))
-(assert (= f184 f185))
-(assert (= f186 f187))
-(assert (= f188 f189))
-(assert (forall ((?v0 S7)) (exists ((?v1 S8) (?v2 S8)) (= ?v0 (f12 (f13 f14 ?v1) ?v2)))))
-(assert (forall ((?v0 S12)) (exists ((?v1 S3) (?v2 S3)) (= ?v0 (f16 (f17 f18 ?v1) ?v2)))))
-(assert (forall ((?v0 S3)) (exists ((?v1 Int) (?v2 Int)) (= ?v0 (f8 (f9 f10 ?v1) ?v2)))))
-(assert (forall ((?v0 S17)) (exists ((?v1 S18) (?v2 S18)) (= ?v0 (f21 (f22 f23 ?v1) ?v2)))))
-(assert (forall ((?v0 S8)) (exists ((?v1 S17) (?v2 S17)) (= ?v0 (f25 (f26 f27 ?v1) ?v2)))))
-(assert (forall ((?v0 Int) (?v1 Int) (?v2 S6) (?v3 S112)) (= (= (f37 (f8 (f9 f10 ?v0) ?v1) (f190 (f191 ?v2) ?v3)) f1) (= (f30 (f12 (f13 f14 (f192 ?v3 ?v0)) (f192 ?v3 ?v1)) ?v2) f1))))
-(assert (forall ((?v0 Int) (?v1 Int) (?v2 S11) (?v3 S4)) (= (= (f37 (f8 (f9 f10 ?v0) ?v1) (f193 (f194 ?v2) ?v3)) f1) (= (f33 (f16 (f17 f18 (f8 ?v3 ?v0)) (f8 ?v3 ?v1)) ?v2) f1))))
-(assert (forall ((?v0 Int) (?v1 Int) (?v2 S15) (?v3 S115)) (= (= (f37 (f8 (f9 f10 ?v0) ?v1) (f195 (f196 ?v2) ?v3)) f1) (= (f37 (f8 (f9 f10 (f197 ?v3 ?v0)) (f197 ?v3 ?v1)) ?v2) f1))))
-(assert (forall ((?v0 S8) (?v1 S8) (?v2 S15) (?v3 S117)) (= (= (f30 (f12 (f13 f14 ?v0) ?v1) (f198 (f199 ?v2) ?v3)) f1) (= (f37 (f8 (f9 f10 (f200 ?v3 ?v0)) (f200 ?v3 ?v1)) ?v2) f1))))
-(assert (forall ((?v0 S3) (?v1 S3) (?v2 S15) (?v3 S2)) (= (= (f33 (f16 (f17 f18 ?v0) ?v1) (f201 (f202 ?v2) ?v3)) f1) (= (f37 (f8 (f9 f10 (f6 ?v3 ?v0)) (f6 ?v3 ?v1)) ?v2) f1))))
-(assert (forall ((?v0 S18) (?v1 S18) (?v2 S15) (?v3 S99)) (= (= (f41 (f21 (f22 f23 ?v0) ?v1) (f203 (f204 ?v2) ?v3)) f1) (= (f37 (f8 (f9 f10 (f154 ?v3 ?v0)) (f154 ?v3 ?v1)) ?v2) f1))))
-(assert (forall ((?v0 S18) (?v1 S18) (?v2 S6) (?v3 S121)) (= (= (f41 (f21 (f22 f23 ?v0) ?v1) (f205 (f206 ?v2) ?v3)) f1) (= (f30 (f12 (f13 f14 (f207 ?v3 ?v0)) (f207 ?v3 ?v1)) ?v2) f1))))
-(assert (forall ((?v0 S18) (?v1 S18) (?v2 S11) (?v3 S123)) (= (= (f41 (f21 (f22 f23 ?v0) ?v1) (f208 (f209 ?v2) ?v3)) f1) (= (f33 (f16 (f17 f18 (f210 ?v3 ?v0)) (f210 ?v3 ?v1)) ?v2) f1))))
-(assert (forall ((?v0 S17) (?v1 S17) (?v2 S15) (?v3 S125)) (= (= (f44 (f25 (f26 f27 ?v0) ?v1) (f211 (f212 ?v2) ?v3)) f1) (= (f37 (f8 (f9 f10 (f213 ?v3 ?v0)) (f213 ?v3 ?v1)) ?v2) f1))))
-(assert (forall ((?v0 S17) (?v1 S17) (?v2 S6) (?v3 S22)) (= (= (f44 (f25 (f26 f27 ?v0) ?v1) (f214 (f215 ?v2) ?v3)) f1) (= (f30 (f12 (f13 f14 (f25 ?v3 ?v0)) (f25 ?v3 ?v1)) ?v2) f1))))
-(assert (forall ((?v0 S17) (?v1 S17) (?v2 S11) (?v3 S128)) (= (= (f44 (f25 (f26 f27 ?v0) ?v1) (f216 (f217 ?v2) ?v3)) f1) (= (f33 (f16 (f17 f18 (f218 ?v3 ?v0)) (f218 ?v3 ?v1)) ?v2) f1))))
-(assert (forall ((?v0 Int) (?v1 Int) (?v2 S16) (?v3 S101)) (= (= (f37 (f8 (f9 f10 ?v0) ?v1) (f219 (f220 ?v2) ?v3)) f1) (= (f41 (f21 (f22 f23 (f160 ?v3 ?v0)) (f160 ?v3 ?v1)) ?v2) f1))))
-(assert (forall ((?v0 S8) (?v1 S8) (?v2 S16) (?v3 S98)) (= (= (f30 (f12 (f13 f14 ?v0) ?v1) (f221 (f222 ?v2) ?v3)) f1) (= (f41 (f21 (f22 f23 (f156 ?v3 ?v0)) (f156 ?v3 ?v1)) ?v2) f1))))
-(assert (forall ((?v0 S3) (?v1 S3) (?v2 S16) (?v3 S100)) (= (= (f33 (f16 (f17 f18 ?v0) ?v1) (f223 (f224 ?v2) ?v3)) f1) (= (f41 (f21 (f22 f23 (f158 ?v3 ?v0)) (f158 ?v3 ?v1)) ?v2) f1))))
-(assert (forall ((?v0 Int) (?v1 Int) (?v2 S21) (?v3 S133)) (= (= (f37 (f8 (f9 f10 ?v0) ?v1) (f225 (f226 ?v2) ?v3)) f1) (= (f44 (f25 (f26 f27 (f227 ?v3 ?v0)) (f227 ?v3 ?v1)) ?v2) f1))))
-(assert (forall ((?v0 S8) (?v1 S8) (?v2 S21) (?v3 S135)) (= (= (f30 (f12 (f13 f14 ?v0) ?v1) (f228 (f229 ?v2) ?v3)) f1) (= (f44 (f25 (f26 f27 (f230 ?v3 ?v0)) (f230 ?v3 ?v1)) ?v2) f1))))
-(assert (forall ((?v0 S3) (?v1 S3) (?v2 S21) (?v3 S137)) (= (= (f33 (f16 (f17 f18 ?v0) ?v1) (f231 (f232 ?v2) ?v3)) f1) (= (f44 (f25 (f26 f27 (f233 ?v3 ?v0)) (f233 ?v3 ?v1)) ?v2) f1))))
-(assert (forall ((?v0 S24) (?v1 S8) (?v2 S8)) (=> (= (f24 (f28 ?v0 ?v1) ?v2) f1) (= (f11 (f234 ?v0) (f12 (f13 f14 ?v1) ?v2)) f1))))
-(assert (forall ((?v0 S25) (?v1 S3) (?v2 S3)) (=> (= (f19 (f31 ?v0 ?v1) ?v2) f1) (= (f15 (f235 ?v0) (f16 (f17 f18 ?v1) ?v2)) f1))))
-(assert (forall ((?v0 S27) (?v1 Int) (?v2 Int)) (=> (= (f34 (f35 ?v0 ?v1) ?v2) f1) (= (f19 (f236 f189 ?v0) (f8 (f9 f10 ?v1) ?v2)) f1))))
-(assert (forall ((?v0 S29) (?v1 S18) (?v2 S18)) (=> (= (f38 (f39 ?v0 ?v1) ?v2) f1) (= (f20 (f237 f187 ?v0) (f21 (f22 f23 ?v1) ?v2)) f1))))
-(assert (forall ((?v0 S30) (?v1 S17) (?v2 S17)) (=> (= (f20 (f42 ?v0 ?v1) ?v2) f1) (= (f24 (f238 f185 ?v0) (f25 (f26 f27 ?v1) ?v2)) f1))))
-(assert (forall ((?v0 S24) (?v1 S8) (?v2 S8)) (=> (= (f24 (f28 ?v0 ?v1) ?v2) f1) (= (f11 (f234 ?v0) (f12 (f13 f14 ?v1) ?v2)) f1))))
-(assert (forall ((?v0 S25) (?v1 S3) (?v2 S3)) (=> (= (f19 (f31 ?v0 ?v1) ?v2) f1) (= (f15 (f235 ?v0) (f16 (f17 f18 ?v1) ?v2)) f1))))
-(assert (forall ((?v0 S27) (?v1 Int) (?v2 Int)) (=> (= (f34 (f35 ?v0 ?v1) ?v2) f1) (= (f19 (f236 f189 ?v0) (f8 (f9 f10 ?v1) ?v2)) f1))))
-(assert (forall ((?v0 S29) (?v1 S18) (?v2 S18)) (=> (= (f38 (f39 ?v0 ?v1) ?v2) f1) (= (f20 (f237 f187 ?v0) (f21 (f22 f23 ?v1) ?v2)) f1))))
-(assert (forall ((?v0 S30) (?v1 S17) (?v2 S17)) (=> (= (f20 (f42 ?v0 ?v1) ?v2) f1) (= (f24 (f238 f185 ?v0) (f25 (f26 f27 ?v1) ?v2)) f1))))
-(assert (forall ((?v0 S3) (?v1 S139) (?v2 Int) (?v3 Int)) (=> (= (f37 ?v0 (f55 (f239 ?v1 ?v2) ?v3)) f1) (= (f37 ?v0 (f31 (f240 ?v1) (f8 (f9 f10 ?v2) ?v3))) f1))))
-(assert (forall ((?v0 S7) (?v1 S140) (?v2 Int) (?v3 Int)) (=> (= (f30 ?v0 (f241 (f242 ?v1 ?v2) ?v3)) f1) (= (f30 ?v0 (f243 (f244 ?v1) (f8 (f9 f10 ?v2) ?v3))) f1))))
-(assert (forall ((?v0 S12) (?v1 S143) (?v2 Int) (?v3 Int)) (=> (= (f33 ?v0 (f245 (f246 ?v1 ?v2) ?v3)) f1) (= (f33 ?v0 (f50 (f247 ?v1) (f8 (f9 f10 ?v2) ?v3))) f1))))
-(assert (forall ((?v0 S18) (?v1 S145) (?v2 Int) (?v3 Int)) (=> (= (f182 ?v0 (f248 (f249 ?v1 ?v2) ?v3)) f1) (= (f182 ?v0 (f250 (f251 ?v1) (f8 (f9 f10 ?v2) ?v3))) f1))))
-(assert (forall ((?v0 Int) (?v1 S148) (?v2 Int) (?v3 Int)) (=> (= (f179 ?v0 (f35 (f252 ?v1 ?v2) ?v3)) f1) (= (f179 ?v0 (f253 (f254 ?v1) (f8 (f9 f10 ?v2) ?v3))) f1))))
-(assert (forall ((?v0 S3) (?v1 S150) (?v2 S18) (?v3 S18)) (=> (= (f37 ?v0 (f255 (f256 ?v1 ?v2) ?v3)) f1) (= (f37 ?v0 (f257 (f258 ?v1) (f21 (f22 f23 ?v2) ?v3))) f1))))
-(assert (forall ((?v0 S7) (?v1 S153) (?v2 S18) (?v3 S18)) (=> (= (f30 ?v0 (f259 (f260 ?v1 ?v2) ?v3)) f1) (= (f30 ?v0 (f261 (f262 ?v1) (f21 (f22 f23 ?v2) ?v3))) f1))))
-(assert (forall ((?v0 S12) (?v1 S156) (?v2 S18) (?v3 S18)) (=> (= (f33 ?v0 (f263 (f264 ?v1 ?v2) ?v3)) f1) (= (f33 ?v0 (f265 (f266 ?v1) (f21 (f22 f23 ?v2) ?v3))) f1))))
-(assert (forall ((?v0 S18) (?v1 S159) (?v2 S18) (?v3 S18)) (=> (= (f182 ?v0 (f39 (f267 ?v1 ?v2) ?v3)) f1) (= (f182 ?v0 (f268 (f269 ?v1) (f21 (f22 f23 ?v2) ?v3))) f1))))
-(assert (forall ((?v0 Int) (?v1 S161) (?v2 S18) (?v3 S18)) (=> (= (f179 ?v0 (f270 (f271 ?v1 ?v2) ?v3)) f1) (= (f179 ?v0 (f272 (f273 ?v1) (f21 (f22 f23 ?v2) ?v3))) f1))))
-(assert (forall ((?v0 S3) (?v1 S164) (?v2 S17) (?v3 S17)) (=> (= (f37 ?v0 (f257 (f274 ?v1 ?v2) ?v3)) f1) (= (f37 ?v0 (f275 (f276 ?v1) (f25 (f26 f27 ?v2) ?v3))) f1))))
-(assert (forall ((?v0 S7) (?v1 S166) (?v2 S17) (?v3 S17)) (=> (= (f30 ?v0 (f261 (f277 ?v1 ?v2) ?v3)) f1) (= (f30 ?v0 (f45 (f278 ?v1) (f25 (f26 f27 ?v2) ?v3))) f1))))
-(assert (forall ((?v0 S12) (?v1 S167) (?v2 S17) (?v3 S17)) (=> (= (f33 ?v0 (f265 (f279 ?v1 ?v2) ?v3)) f1) (= (f33 ?v0 (f280 (f281 ?v1) (f25 (f26 f27 ?v2) ?v3))) f1))))
-(assert (forall ((?v0 S18) (?v1 S169) (?v2 S17) (?v3 S17)) (=> (= (f182 ?v0 (f268 (f282 ?v1 ?v2) ?v3)) f1) (= (f182 ?v0 (f283 (f284 ?v1) (f25 (f26 f27 ?v2) ?v3))) f1))))
-(assert (forall ((?v0 Int) (?v1 S171) (?v2 S17) (?v3 S17)) (=> (= (f179 ?v0 (f272 (f285 ?v1 ?v2) ?v3)) f1) (= (f179 ?v0 (f286 (f287 ?v1) (f25 (f26 f27 ?v2) ?v3))) f1))))
-(assert (forall ((?v0 S17) (?v1 S173) (?v2 S8) (?v3 S8)) (=> (= (f41 ?v0 (f288 (f289 ?v1 ?v2) ?v3)) f1) (= (f41 ?v0 (f290 (f291 ?v1) (f12 (f13 f14 ?v2) ?v3))) f1))))
-(assert (forall ((?v0 S17) (?v1 S176) (?v2 S3) (?v3 S3)) (=> (= (f41 ?v0 (f292 (f293 ?v1 ?v2) ?v3)) f1) (= (f41 ?v0 (f294 (f295 ?v1) (f16 (f17 f18 ?v2) ?v3))) f1))))
-(assert (forall ((?v0 S8) (?v1 S179) (?v2 S8) (?v3 S8)) (=> (= (f44 ?v0 (f28 (f296 ?v1 ?v2) ?v3)) f1) (= (f44 ?v0 (f297 (f298 ?v1) (f12 (f13 f14 ?v2) ?v3))) f1))))
-(assert (forall ((?v0 S8) (?v1 S181) (?v2 S3) (?v3 S3)) (=> (= (f44 ?v0 (f299 (f300 ?v1 ?v2) ?v3)) f1) (= (f44 ?v0 (f301 (f302 ?v1) (f16 (f17 f18 ?v2) ?v3))) f1))))
-(assert (forall ((?v0 S8) (?v1 S8) (?v2 S30)) (let ((?v_0 (f238 f185 ?v2))) (=> (= ?v0 ?v1) (= (= (f24 ?v_0 ?v0) f1) (= (f24 ?v_0 ?v1) f1))))))
-(assert (forall ((?v0 S17) (?v1 S17) (?v2 S29)) (let ((?v_0 (f237 f187 ?v2))) (=> (= ?v0 ?v1) (= (= (f20 ?v_0 ?v0) f1) (= (f20 ?v_0 ?v1) f1))))))
-(assert (forall ((?v0 S3) (?v1 S3) (?v2 S27)) (let ((?v_0 (f236 f189 ?v2))) (=> (= ?v0 ?v1) (= (= (f19 ?v_0 ?v0) f1) (= (f19 ?v_0 ?v1) f1))))))
-(assert (forall ((?v0 S24) (?v1 S8) (?v2 S8)) (=> (= (f11 (f234 ?v0) (f12 (f13 f14 ?v1) ?v2)) f1) (= (f24 (f28 ?v0 ?v1) ?v2) f1))))
-(assert (forall ((?v0 S25) (?v1 S3) (?v2 S3)) (=> (= (f15 (f235 ?v0) (f16 (f17 f18 ?v1) ?v2)) f1) (= (f19 (f31 ?v0 ?v1) ?v2) f1))))
-(assert (forall ((?v0 S27) (?v1 Int) (?v2 Int)) (=> (= (f19 (f236 f189 ?v0) (f8 (f9 f10 ?v1) ?v2)) f1) (= (f34 (f35 ?v0 ?v1) ?v2) f1))))
-(assert (forall ((?v0 S29) (?v1 S18) (?v2 S18)) (=> (= (f20 (f237 f187 ?v0) (f21 (f22 f23 ?v1) ?v2)) f1) (= (f38 (f39 ?v0 ?v1) ?v2) f1))))
-(assert (forall ((?v0 S30) (?v1 S17) (?v2 S17)) (=> (= (f24 (f238 f185 ?v0) (f25 (f26 f27 ?v1) ?v2)) f1) (= (f20 (f42 ?v0 ?v1) ?v2) f1))))
-(assert (forall ((?v0 S27) (?v1 Int) (?v2 Int)) (= (= (f19 (f236 f189 ?v0) (f8 (f9 f10 ?v1) ?v2)) f1) (= (f34 (f35 ?v0 ?v1) ?v2) f1))))
-(assert (forall ((?v0 S29) (?v1 S18) (?v2 S18)) (= (= (f20 (f237 f187 ?v0) (f21 (f22 f23 ?v1) ?v2)) f1) (= (f38 (f39 ?v0 ?v1) ?v2) f1))))
-(assert (forall ((?v0 S30) (?v1 S17) (?v2 S17)) (= (= (f24 (f238 f185 ?v0) (f25 (f26 f27 ?v1) ?v2)) f1) (= (f20 (f42 ?v0 ?v1) ?v2) f1))))
-(assert (forall ((?v0 S29) (?v1 S18) (?v2 S18)) (= (= (f20 (f237 f187 ?v0) (f21 (f22 f23 ?v1) ?v2)) f1) (= (f38 (f39 ?v0 ?v1) ?v2) f1))))
-(assert (forall ((?v0 S30) (?v1 S17) (?v2 S17)) (= (= (f24 (f238 f185 ?v0) (f25 (f26 f27 ?v1) ?v2)) f1) (= (f20 (f42 ?v0 ?v1) ?v2) f1))))
-(assert (forall ((?v0 S30) (?v1 S8)) (=> (= (f24 (f238 f185 ?v0) ?v1) f1) (=> (forall ((?v2 S17) (?v3 S17)) (=> (= ?v1 (f25 (f26 f27 ?v2) ?v3)) (=> (= (f20 (f42 ?v0 ?v2) ?v3) f1) false))) false))))
-(assert (forall ((?v0 S29) (?v1 S17)) (=> (= (f20 (f237 f187 ?v0) ?v1) f1) (=> (forall ((?v2 S18) (?v3 S18)) (=> (= ?v1 (f21 (f22 f23 ?v2) ?v3)) (=> (= (f38 (f39 ?v0 ?v2) ?v3) f1) false))) false))))
-(assert (forall ((?v0 S27) (?v1 S3)) (=> (= (f19 (f236 f189 ?v0) ?v1) f1) (=> (forall ((?v2 Int) (?v3 Int)) (=> (= ?v1 (f8 (f9 f10 ?v2) ?v3)) (=> (= (f34 (f35 ?v0 ?v2) ?v3) f1) false))) false))))
-(assert (forall ((?v0 S8) (?v1 S30)) (=> (forall ((?v2 S17) (?v3 S17)) (=> (= ?v0 (f25 (f26 f27 ?v2) ?v3)) (= (f20 (f42 ?v1 ?v2) ?v3) f1))) (= (f24 (f238 f185 ?v1) ?v0) f1))))
-(assert (forall ((?v0 S17) (?v1 S29)) (=> (forall ((?v2 S18) (?v3 S18)) (=> (= ?v0 (f21 (f22 f23 ?v2) ?v3)) (= (f38 (f39 ?v1 ?v2) ?v3) f1))) (= (f20 (f237 f187 ?v1) ?v0) f1))))
-(assert (forall ((?v0 S3) (?v1 S27)) (=> (forall ((?v2 Int) (?v3 Int)) (=> (= ?v0 (f8 (f9 f10 ?v2) ?v3)) (= (f34 (f35 ?v1 ?v2) ?v3) f1))) (= (f19 (f236 f189 ?v1) ?v0) f1))))
-(assert (forall ((?v0 S18) (?v1 S18)) (= (= (f41 (f21 (f22 f23 ?v0) ?v1) f303) f1) (< (f154 f155 ?v0) (f154 f155 ?v1)))))
-(assert (= f304 (f103 (f104 f303) f303)))
-(assert (= (f305 f303) f1))
-(assert (forall ((?v0 S103)) (= (f306 (f163 ?v0)) f1)))
-(assert (forall ((?v0 S102)) (= (f307 (f161 ?v0)) f1)))
-(assert (forall ((?v0 S21)) (= (= (f308 ?v0) f1) (forall ((?v1 S17) (?v2 S17)) (=> (= (f44 (f25 (f26 f27 ?v1) ?v2) ?v0) f1) (=> (= (f44 (f25 (f26 f27 ?v2) ?v1) ?v0) f1) (= ?v1 ?v2)))))))
-(assert (forall ((?v0 S16)) (= (= (f309 ?v0) f1) (forall ((?v1 S18) (?v2 S18)) (=> (= (f41 (f21 (f22 f23 ?v1) ?v2) ?v0) f1) (=> (= (f41 (f21 (f22 f23 ?v2) ?v1) ?v0) f1) (= ?v1 ?v2)))))))
-(assert (forall ((?v0 S15)) (= (= (f310 ?v0) f1) (forall ((?v1 Int) (?v2 Int)) (=> (= (f37 (f8 (f9 f10 ?v1) ?v2) ?v0) f1) (=> (= (f37 (f8 (f9 f10 ?v2) ?v1) ?v0) f1) (= ?v1 ?v2)))))))
-(assert (= (f307 f303) f1))
-(assert (forall ((?v0 S16) (?v1 S16)) (=> (= (f307 ?v0) f1) (=> (= (f307 ?v1) f1) (= (f306 (f103 (f104 ?v0) ?v1)) f1)))))
-(assert (forall ((?v0 S16) (?v1 S16)) (=> (= (f305 ?v0) f1) (=> (= (f305 ?v1) f1) (= (f311 (f103 (f104 ?v0) ?v1)) f1)))))
-(assert (forall ((?v0 S18) (?v1 S18) (?v2 S18) (?v3 S18)) (=> (<= (f154 f155 ?v0) (f154 f155 ?v1)) (=> (< (f154 f155 ?v2) (f154 f155 ?v3)) (= (f44 (f25 (f26 f27 (f21 (f22 f23 ?v0) ?v2)) (f21 (f22 f23 ?v1) ?v3)) f304) f1)))))
-(assert (forall ((?v0 S18) (?v1 S18) (?v2 S18) (?v3 S18)) (=> (< (f154 f155 ?v0) (f154 f155 ?v1)) (= (f44 (f25 (f26 f27 (f21 (f22 f23 ?v0) ?v2)) (f21 (f22 f23 ?v1) ?v3)) f304) f1))))
-(assert (= (f306 f304) f1))
-(assert (forall ((?v0 S21) (?v1 S17)) (=> (= (f306 ?v0) f1) (=> (=> (not (= (f44 (f25 (f26 f27 ?v1) ?v1) ?v0) f1)) false) false))))
-(assert (forall ((?v0 S16) (?v1 S18)) (=> (= (f307 ?v0) f1) (=> (=> (not (= (f41 (f21 (f22 f23 ?v1) ?v1) ?v0) f1)) false) false))))
-(assert (forall ((?v0 S15) (?v1 Int)) (=> (= (f312 ?v0) f1) (=> (=> (not (= (f37 (f8 (f9 f10 ?v1) ?v1) ?v0) f1)) false) false))))
-(assert (forall ((?v0 S21) (?v1 S17) (?v2 S17)) (=> (= (f306 ?v0) f1) (=> (= (f44 (f25 (f26 f27 ?v1) ?v2) ?v0) f1) (=> (=> (not (= (f44 (f25 (f26 f27 ?v2) ?v1) ?v0) f1)) false) false)))))
-(assert (forall ((?v0 S16) (?v1 S18) (?v2 S18)) (=> (= (f307 ?v0) f1) (=> (= (f41 (f21 (f22 f23 ?v1) ?v2) ?v0) f1) (=> (=> (not (= (f41 (f21 (f22 f23 ?v2) ?v1) ?v0) f1)) false) false)))))
-(assert (forall ((?v0 S15) (?v1 Int) (?v2 Int)) (=> (= (f312 ?v0) f1) (=> (= (f37 (f8 (f9 f10 ?v1) ?v2) ?v0) f1) (=> (=> (not (= (f37 (f8 (f9 f10 ?v2) ?v1) ?v0) f1)) false) false)))))
-(assert (forall ((?v0 S21) (?v1 S17) (?v2 S17)) (=> (= (f306 ?v0) f1) (=> (= (f44 (f25 (f26 f27 ?v1) ?v2) ?v0) f1) (not (= (f44 (f25 (f26 f27 ?v2) ?v1) ?v0) f1))))))
-(assert (forall ((?v0 S16) (?v1 S18) (?v2 S18)) (=> (= (f307 ?v0) f1) (=> (= (f41 (f21 (f22 f23 ?v1) ?v2) ?v0) f1) (not (= (f41 (f21 (f22 f23 ?v2) ?v1) ?v0) f1))))))
-(assert (forall ((?v0 S15) (?v1 Int) (?v2 Int)) (=> (= (f312 ?v0) f1) (=> (= (f37 (f8 (f9 f10 ?v1) ?v2) ?v0) f1) (not (= (f37 (f8 (f9 f10 ?v2) ?v1) ?v0) f1))))))
-(assert (forall ((?v0 S21) (?v1 S17)) (=> (= (f306 ?v0) f1) (not (= (f44 (f25 (f26 f27 ?v1) ?v1) ?v0) f1)))))
-(assert (forall ((?v0 S16) (?v1 S18)) (=> (= (f307 ?v0) f1) (not (= (f41 (f21 (f22 f23 ?v1) ?v1) ?v0) f1)))))
-(assert (forall ((?v0 S15) (?v1 Int)) (=> (= (f312 ?v0) f1) (not (= (f37 (f8 (f9 f10 ?v1) ?v1) ?v0) f1)))))
-(assert (forall ((?v0 S8) (?v1 S21)) (= (= (f44 ?v0 ?v1) f1) (= (f24 ?v1 ?v0) f1))))
-(assert (forall ((?v0 S17) (?v1 S16)) (= (= (f41 ?v0 ?v1) f1) (= (f20 ?v1 ?v0) f1))))
-(assert (forall ((?v0 S21) (?v1 S17) (?v2 S17) (?v3 S17)) (let ((?v_0 (f26 f27 ?v1))) (=> (= (f311 ?v0) f1) (=> (= (f44 (f25 ?v_0 ?v2) ?v0) f1) (=> (= (f44 (f25 (f26 f27 ?v2) ?v3) ?v0) f1) (= (f44 (f25 ?v_0 ?v3) ?v0) f1)))))))
-(assert (forall ((?v0 S16) (?v1 S18) (?v2 S18) (?v3 S18)) (let ((?v_0 (f22 f23 ?v1))) (=> (= (f305 ?v0) f1) (=> (= (f41 (f21 ?v_0 ?v2) ?v0) f1) (=> (= (f41 (f21 (f22 f23 ?v2) ?v3) ?v0) f1) (= (f41 (f21 ?v_0 ?v3) ?v0) f1)))))))
-(assert (forall ((?v0 S15) (?v1 Int) (?v2 Int) (?v3 Int)) (let ((?v_0 (f9 f10 ?v1))) (=> (= (f313 ?v0) f1) (=> (= (f37 (f8 ?v_0 ?v2) ?v0) f1) (=> (= (f37 (f8 (f9 f10 ?v2) ?v3) ?v0) f1) (= (f37 (f8 ?v_0 ?v3) ?v0) f1)))))))
-(assert (forall ((?v0 S21)) (= (= (f311 ?v0) f1) (forall ((?v1 S17) (?v2 S17) (?v3 S17)) (let ((?v_0 (f26 f27 ?v1))) (=> (= (f44 (f25 ?v_0 ?v2) ?v0) f1) (=> (= (f44 (f25 (f26 f27 ?v2) ?v3) ?v0) f1) (= (f44 (f25 ?v_0 ?v3) ?v0) f1))))))))
-(assert (forall ((?v0 S16)) (= (= (f305 ?v0) f1) (forall ((?v1 S18) (?v2 S18) (?v3 S18)) (let ((?v_0 (f22 f23 ?v1))) (=> (= (f41 (f21 ?v_0 ?v2) ?v0) f1) (=> (= (f41 (f21 (f22 f23 ?v2) ?v3) ?v0) f1) (= (f41 (f21 ?v_0 ?v3) ?v0) f1))))))))
-(assert (forall ((?v0 S15)) (= (= (f313 ?v0) f1) (forall ((?v1 Int) (?v2 Int) (?v3 Int)) (let ((?v_0 (f9 f10 ?v1))) (=> (= (f37 (f8 ?v_0 ?v2) ?v0) f1) (=> (= (f37 (f8 (f9 f10 ?v2) ?v3) ?v0) f1) (= (f37 (f8 ?v_0 ?v3) ?v0) f1))))))))
-(assert (forall ((?v0 S21) (?v1 S103)) (=> (= (f306 ?v0) f1) (= (f306 (f173 (f174 ?v1) ?v0)) f1))))
-(assert (forall ((?v0 S16) (?v1 S102)) (=> (= (f307 ?v0) f1) (= (f307 (f171 (f172 ?v1) ?v0)) f1))))
-(assert (forall ((?v0 S21) (?v1 S17) (?v2 S17)) (=> (= (f308 ?v0) f1) (=> (= (f44 (f25 (f26 f27 ?v1) ?v2) ?v0) f1) (=> (= (f44 (f25 (f26 f27 ?v2) ?v1) ?v0) f1) (= ?v1 ?v2))))))
-(assert (forall ((?v0 S16) (?v1 S18) (?v2 S18)) (=> (= (f309 ?v0) f1) (=> (= (f41 (f21 (f22 f23 ?v1) ?v2) ?v0) f1) (=> (= (f41 (f21 (f22 f23 ?v2) ?v1) ?v0) f1) (= ?v1 ?v2))))))
-(assert (forall ((?v0 S15) (?v1 Int) (?v2 Int)) (=> (= (f310 ?v0) f1) (=> (= (f37 (f8 (f9 f10 ?v1) ?v2) ?v0) f1) (=> (= (f37 (f8 (f9 f10 ?v2) ?v1) ?v0) f1) (= ?v1 ?v2))))))
-(assert (forall ((?v0 S28) (?v1 S43)) (=> (forall ((?v2 S18)) (=> (= (f38 ?v0 ?v2) f1) (= (f307 (f61 ?v1 ?v2)) f1))) (= (f306 (f62 (f63 ?v0) ?v1)) f1))))
-(assert (forall ((?v0 S21)) (=> (forall ((?v1 S17) (?v2 S17)) (=> (= (f44 (f25 (f26 f27 ?v1) ?v2) ?v0) f1) (=> (= (f44 (f25 (f26 f27 ?v2) ?v1) ?v0) f1) (= ?v1 ?v2)))) (= (f308 ?v0) f1))))
-(assert (forall ((?v0 S16)) (=> (forall ((?v1 S18) (?v2 S18)) (=> (= (f41 (f21 (f22 f23 ?v1) ?v2) ?v0) f1) (=> (= (f41 (f21 (f22 f23 ?v2) ?v1) ?v0) f1) (= ?v1 ?v2)))) (= (f309 ?v0) f1))))
-(assert (forall ((?v0 S15)) (=> (forall ((?v1 Int) (?v2 Int)) (=> (= (f37 (f8 (f9 f10 ?v1) ?v2) ?v0) f1) (=> (= (f37 (f8 (f9 f10 ?v2) ?v1) ?v0) f1) (= ?v1 ?v2)))) (= (f310 ?v0) f1))))
-(assert (forall ((?v0 S21)) (=> (forall ((?v1 S17) (?v2 S17) (?v3 S17)) (let ((?v_0 (f26 f27 ?v1))) (=> (= (f44 (f25 ?v_0 ?v2) ?v0) f1) (=> (= (f44 (f25 (f26 f27 ?v2) ?v3) ?v0) f1) (= (f44 (f25 ?v_0 ?v3) ?v0) f1))))) (= (f311 ?v0) f1))))
-(assert (forall ((?v0 S16)) (=> (forall ((?v1 S18) (?v2 S18) (?v3 S18)) (let ((?v_0 (f22 f23 ?v1))) (=> (= (f41 (f21 ?v_0 ?v2) ?v0) f1) (=> (= (f41 (f21 (f22 f23 ?v2) ?v3) ?v0) f1) (= (f41 (f21 ?v_0 ?v3) ?v0) f1))))) (= (f305 ?v0) f1))))
-(assert (forall ((?v0 S15)) (=> (forall ((?v1 Int) (?v2 Int) (?v3 Int)) (let ((?v_0 (f9 f10 ?v1))) (=> (= (f37 (f8 ?v_0 ?v2) ?v0) f1) (=> (= (f37 (f8 (f9 f10 ?v2) ?v3) ?v0) f1) (= (f37 (f8 ?v_0 ?v3) ?v0) f1))))) (= (f313 ?v0) f1))))
-(assert (forall ((?v0 S21)) (= (= (f306 ?v0) f1) (forall ((?v1 S16) (?v2 S17)) (=> (= (f41 ?v2 ?v1) f1) (exists ((?v3 S17)) (and (= (f41 ?v3 ?v1) f1) (forall ((?v4 S17)) (=> (= (f44 (f25 (f26 f27 ?v4) ?v3) ?v0) f1) (not (= (f41 ?v4 ?v1) f1)))))))))))
-(assert (forall ((?v0 S16)) (= (= (f307 ?v0) f1) (forall ((?v1 S28) (?v2 S18)) (=> (= (f182 ?v2 ?v1) f1) (exists ((?v3 S18)) (and (= (f182 ?v3 ?v1) f1) (forall ((?v4 S18)) (=> (= (f41 (f21 (f22 f23 ?v4) ?v3) ?v0) f1) (not (= (f182 ?v4 ?v1) f1)))))))))))
-(assert (forall ((?v0 S6)) (= (= (f314 ?v0) f1) (forall ((?v1 S21) (?v2 S8)) (=> (= (f44 ?v2 ?v1) f1) (exists ((?v3 S8)) (and (= (f44 ?v3 ?v1) f1) (forall ((?v4 S8)) (=> (= (f30 (f12 (f13 f14 ?v4) ?v3) ?v0) f1) (not (= (f44 ?v4 ?v1) f1)))))))))))
-(assert (forall ((?v0 S15)) (= (= (f312 ?v0) f1) (forall ((?v1 S26) (?v2 Int)) (=> (= (f179 ?v2 ?v1) f1) (exists ((?v3 Int)) (and (= (f179 ?v3 ?v1) f1) (forall ((?v4 Int)) (=> (= (f37 (f8 (f9 f10 ?v4) ?v3) ?v0) f1) (not (= (f179 ?v4 ?v1) f1)))))))))))
-(assert (forall ((?v0 S21) (?v1 S103) (?v2 S103)) (=> (forall ((?v3 S17) (?v4 S17)) (let ((?v_0 (f154 f155 (f164 ?v1 ?v3))) (?v_1 (f154 f155 (f164 ?v2 ?v4)))) (=> (= (f44 (f25 (f26 f27 ?v4) ?v3) ?v0) f1) (and (<= (f154 f155 (f164 ?v1 ?v4)) ?v_0) (and (<= ?v_1 ?v_0) (< (f154 f155 (f164 ?v2 ?v3)) ?v_1)))))) (= (f306 ?v0) f1))))
-(assert (forall ((?v0 S16) (?v1 S102) (?v2 S102)) (=> (forall ((?v3 S18) (?v4 S18)) (let ((?v_0 (f154 f155 (f162 ?v1 ?v3))) (?v_1 (f154 f155 (f162 ?v2 ?v4)))) (=> (= (f41 (f21 (f22 f23 ?v4) ?v3) ?v0) f1) (and (<= (f154 f155 (f162 ?v1 ?v4)) ?v_0) (and (<= ?v_1 ?v_0) (< (f154 f155 (f162 ?v2 ?v3)) ?v_1)))))) (= (f307 ?v0) f1))))
-(assert (forall ((?v0 S15) (?v1 S101) (?v2 S101)) (=> (forall ((?v3 Int) (?v4 Int)) (let ((?v_0 (f154 f155 (f160 ?v1 ?v3))) (?v_1 (f154 f155 (f160 ?v2 ?v4)))) (=> (= (f37 (f8 (f9 f10 ?v4) ?v3) ?v0) f1) (and (<= (f154 f155 (f160 ?v1 ?v4)) ?v_0) (and (<= ?v_1 ?v_0) (< (f154 f155 (f160 ?v2 ?v3)) ?v_1)))))) (= (f312 ?v0) f1))))
-(assert (forall ((?v0 S21)) (= (= (f306 ?v0) f1) (not (exists ((?v1 S19)) (forall ((?v2 S18)) (= (f44 (f25 (f26 f27 (f21 ?v1 (f160 f315 (+ (f154 f155 ?v2) 1)))) (f21 ?v1 ?v2)) ?v0) f1)))))))
-(assert (forall ((?v0 S16)) (= (= (f307 ?v0) f1) (not (exists ((?v1 S102)) (forall ((?v2 S18)) (= (f41 (f21 (f22 f23 (f162 ?v1 (f160 f315 (+ (f154 f155 ?v2) 1)))) (f162 ?v1 ?v2)) ?v0) f1)))))))
-(assert (forall ((?v0 S15)) (= (= (f312 ?v0) f1) (not (exists ((?v1 S99)) (forall ((?v2 S18)) (= (f37 (f8 (f9 f10 (f154 ?v1 (f160 f315 (+ (f154 f155 ?v2) 1)))) (f154 ?v1 ?v2)) ?v0) f1)))))))
-(assert (forall ((?v0 S21)) (=> (= (f306 ?v0) f1) (= (f316 (f43 ?v0)) f1))))
-(assert (forall ((?v0 S16)) (=> (= (f307 ?v0) f1) (= (f317 (f40 ?v0)) f1))))
-(assert (forall ((?v0 S21) (?v1 S19)) (=> (= (f306 ?v0) f1) (=> (forall ((?v2 S18)) (=> (not (= (f44 (f25 (f26 f27 (f21 ?v1 (f160 f315 (+ (f154 f155 ?v2) 1)))) (f21 ?v1 ?v2)) ?v0) f1)) false)) false))))
-(assert (forall ((?v0 S16) (?v1 S102)) (=> (= (f307 ?v0) f1) (=> (forall ((?v2 S18)) (=> (not (= (f41 (f21 (f22 f23 (f162 ?v1 (f160 f315 (+ (f154 f155 ?v2) 1)))) (f162 ?v1 ?v2)) ?v0) f1)) false)) false))))
-(assert (forall ((?v0 S15) (?v1 S99)) (=> (= (f312 ?v0) f1) (=> (forall ((?v2 S18)) (=> (not (= (f37 (f8 (f9 f10 (f154 ?v1 (f160 f315 (+ (f154 f155 ?v2) 1)))) (f154 ?v1 ?v2)) ?v0) f1)) false)) false))))
-(assert (forall ((?v0 S24)) (= (= (f318 ?v0) f1) (forall ((?v1 S21) (?v2 S8)) (=> (= (f44 ?v2 ?v1) f1) (exists ((?v3 S8)) (and (= (f44 ?v3 ?v1) f1) (forall ((?v4 S8)) (=> (= (f24 (f28 ?v0 ?v4) ?v3) f1) (not (= (f44 ?v4 ?v1) f1)))))))))))
-(assert (forall ((?v0 S30)) (= (= (f316 ?v0) f1) (forall ((?v1 S16) (?v2 S17)) (=> (= (f41 ?v2 ?v1) f1) (exists ((?v3 S17)) (and (= (f41 ?v3 ?v1) f1) (forall ((?v4 S17)) (=> (= (f20 (f42 ?v0 ?v4) ?v3) f1) (not (= (f41 ?v4 ?v1) f1)))))))))))
-(assert (= (f307 f319) f1))
-(assert (forall ((?v0 S18) (?v1 S18) (?v2 S18) (?v3 S18)) (=> (< (f154 f155 ?v0) (f154 f155 ?v1)) (= (f44 (f25 (f26 f27 (f21 (f22 f23 ?v0) ?v2)) (f21 (f22 f23 ?v1) ?v3)) f320) f1))))
-(assert (forall ((?v0 S18) (?v1 S18) (?v2 S18) (?v3 S18)) (=> (<= (f154 f155 ?v0) (f154 f155 ?v1)) (=> (<= (f154 f155 ?v2) (f154 f155 ?v3)) (= (f44 (f25 (f26 f27 (f21 (f22 f23 ?v0) ?v2)) (f21 (f22 f23 ?v1) ?v3)) f320) f1)))))
-(assert (forall ((?v0 S21)) (= (= (f306 ?v0) f1) (forall ((?v1 S16)) (=> (forall ((?v2 S17)) (=> (forall ((?v3 S17)) (=> (= (f44 (f25 (f26 f27 ?v3) ?v2) ?v0) f1) (= (f20 ?v1 ?v3) f1))) (= (f20 ?v1 ?v2) f1))) (forall ((?v2 S17)) (= (f20 ?v1 ?v2) f1)))))))
-(assert (forall ((?v0 S16)) (= (= (f307 ?v0) f1) (forall ((?v1 S28)) (=> (forall ((?v2 S18)) (=> (forall ((?v3 S18)) (=> (= (f41 (f21 (f22 f23 ?v3) ?v2) ?v0) f1) (= (f38 ?v1 ?v3) f1))) (= (f38 ?v1 ?v2) f1))) (forall ((?v2 S18)) (= (f38 ?v1 ?v2) f1)))))))
-(assert (forall ((?v0 S15)) (= (= (f312 ?v0) f1) (forall ((?v1 S26)) (=> (forall ((?v2 Int)) (=> (forall ((?v3 Int)) (=> (= (f37 (f8 (f9 f10 ?v3) ?v2) ?v0) f1) (= (f34 ?v1 ?v3) f1))) (= (f34 ?v1 ?v2) f1))) (forall ((?v2 Int)) (= (f34 ?v1 ?v2) f1)))))))
-(assert (forall ((?v0 S21)) (=> (forall ((?v1 S17) (?v2 S16)) (=> (= (f41 ?v1 ?v2) f1) (exists ((?v3 S17)) (and (= (f41 ?v3 ?v2) f1) (forall ((?v4 S17)) (=> (= (f44 (f25 (f26 f27 ?v4) ?v3) ?v0) f1) (not (= (f41 ?v4 ?v2) f1)))))))) (= (f306 ?v0) f1))))
-(assert (forall ((?v0 S16)) (=> (forall ((?v1 S18) (?v2 S28)) (=> (= (f182 ?v1 ?v2) f1) (exists ((?v3 S18)) (and (= (f182 ?v3 ?v2) f1) (forall ((?v4 S18)) (=> (= (f41 (f21 (f22 f23 ?v4) ?v3) ?v0) f1) (not (= (f182 ?v4 ?v2) f1)))))))) (= (f307 ?v0) f1))))
-(assert (forall ((?v0 S6)) (=> (forall ((?v1 S8) (?v2 S21)) (=> (= (f44 ?v1 ?v2) f1) (exists ((?v3 S8)) (and (= (f44 ?v3 ?v2) f1) (forall ((?v4 S8)) (=> (= (f30 (f12 (f13 f14 ?v4) ?v3) ?v0) f1) (not (= (f44 ?v4 ?v2) f1)))))))) (= (f314 ?v0) f1))))
-(assert (forall ((?v0 S15)) (=> (forall ((?v1 Int) (?v2 S26)) (=> (= (f179 ?v1 ?v2) f1) (exists ((?v3 Int)) (and (= (f179 ?v3 ?v2) f1) (forall ((?v4 Int)) (=> (= (f37 (f8 (f9 f10 ?v4) ?v3) ?v0) f1) (not (= (f179 ?v4 ?v2) f1)))))))) (= (f312 ?v0) f1))))
-(assert (forall ((?v0 S21) (?v1 S16) (?v2 S17)) (=> (= (f306 ?v0) f1) (=> (forall ((?v3 S17)) (=> (forall ((?v4 S17)) (=> (= (f44 (f25 (f26 f27 ?v4) ?v3) ?v0) f1) (= (f20 ?v1 ?v4) f1))) (= (f20 ?v1 ?v3) f1))) (= (f20 ?v1 ?v2) f1)))))
-(assert (forall ((?v0 S16) (?v1 S28) (?v2 S18)) (=> (= (f307 ?v0) f1) (=> (forall ((?v3 S18)) (=> (forall ((?v4 S18)) (=> (= (f41 (f21 (f22 f23 ?v4) ?v3) ?v0) f1) (= (f38 ?v1 ?v4) f1))) (= (f38 ?v1 ?v3) f1))) (= (f38 ?v1 ?v2) f1)))))
-(assert (forall ((?v0 S15) (?v1 S26) (?v2 Int)) (=> (= (f312 ?v0) f1) (=> (forall ((?v3 Int)) (=> (forall ((?v4 Int)) (=> (= (f37 (f8 (f9 f10 ?v4) ?v3) ?v0) f1) (= (f34 ?v1 ?v4) f1))) (= (f34 ?v1 ?v3) f1))) (= (f34 ?v1 ?v2) f1)))))
-(assert (forall ((?v0 S21) (?v1 S16) (?v2 S17)) (=> (= (f306 ?v0) f1) (=> (forall ((?v3 S17)) (=> (forall ((?v4 S17)) (=> (= (f44 (f25 (f26 f27 ?v4) ?v3) ?v0) f1) (= (f20 ?v1 ?v4) f1))) (= (f20 ?v1 ?v3) f1))) (= (f20 ?v1 ?v2) f1)))))
-(assert (forall ((?v0 S16) (?v1 S28) (?v2 S18)) (=> (= (f307 ?v0) f1) (=> (forall ((?v3 S18)) (=> (forall ((?v4 S18)) (=> (= (f41 (f21 (f22 f23 ?v4) ?v3) ?v0) f1) (= (f38 ?v1 ?v4) f1))) (= (f38 ?v1 ?v3) f1))) (= (f38 ?v1 ?v2) f1)))))
-(assert (forall ((?v0 S15) (?v1 S26) (?v2 Int)) (=> (= (f312 ?v0) f1) (=> (forall ((?v3 Int)) (=> (forall ((?v4 Int)) (=> (= (f37 (f8 (f9 f10 ?v4) ?v3) ?v0) f1) (= (f34 ?v1 ?v4) f1))) (= (f34 ?v1 ?v3) f1))) (= (f34 ?v1 ?v2) f1)))))
-(assert (forall ((?v0 S21) (?v1 S17) (?v2 S16)) (=> (= (f306 ?v0) f1) (=> (= (f41 ?v1 ?v2) f1) (=> (forall ((?v3 S17)) (=> (= (f41 ?v3 ?v2) f1) (=> (forall ((?v4 S17)) (=> (= (f44 (f25 (f26 f27 ?v4) ?v3) ?v0) f1) (not (= (f41 ?v4 ?v2) f1)))) false))) false)))))
-(assert (forall ((?v0 S16) (?v1 S18) (?v2 S28)) (=> (= (f307 ?v0) f1) (=> (= (f182 ?v1 ?v2) f1) (=> (forall ((?v3 S18)) (=> (= (f182 ?v3 ?v2) f1) (=> (forall ((?v4 S18)) (=> (= (f41 (f21 (f22 f23 ?v4) ?v3) ?v0) f1) (not (= (f182 ?v4 ?v2) f1)))) false))) false)))))
-(assert (forall ((?v0 S6) (?v1 S8) (?v2 S21)) (=> (= (f314 ?v0) f1) (=> (= (f44 ?v1 ?v2) f1) (=> (forall ((?v3 S8)) (=> (= (f44 ?v3 ?v2) f1) (=> (forall ((?v4 S8)) (=> (= (f30 (f12 (f13 f14 ?v4) ?v3) ?v0) f1) (not (= (f44 ?v4 ?v2) f1)))) false))) false)))))
-(assert (forall ((?v0 S15) (?v1 Int) (?v2 S26)) (=> (= (f312 ?v0) f1) (=> (= (f179 ?v1 ?v2) f1) (=> (forall ((?v3 Int)) (=> (= (f179 ?v3 ?v2) f1) (=> (forall ((?v4 Int)) (=> (= (f37 (f8 (f9 f10 ?v4) ?v3) ?v0) f1) (not (= (f179 ?v4 ?v2) f1)))) false))) false)))))
-(assert (forall ((?v0 S21)) (=> (= (f306 ?v0) f1) (forall ((?v1 S16)) (=> (forall ((?v2 S17)) (=> (forall ((?v3 S17)) (=> (= (f44 (f25 (f26 f27 ?v3) ?v2) ?v0) f1) (= (f20 ?v1 ?v3) f1))) (= (f20 ?v1 ?v2) f1))) (forall ((?v2 S17)) (= (f20 ?v1 ?v2) f1)))))))
-(assert (forall ((?v0 S16)) (=> (= (f307 ?v0) f1) (forall ((?v1 S28)) (=> (forall ((?v2 S18)) (=> (forall ((?v3 S18)) (=> (= (f41 (f21 (f22 f23 ?v3) ?v2) ?v0) f1) (= (f38 ?v1 ?v3) f1))) (= (f38 ?v1 ?v2) f1))) (forall ((?v2 S18)) (= (f38 ?v1 ?v2) f1)))))))
-(assert (forall ((?v0 S15)) (=> (= (f312 ?v0) f1) (forall ((?v1 S26)) (=> (forall ((?v2 Int)) (=> (forall ((?v3 Int)) (=> (= (f37 (f8 (f9 f10 ?v3) ?v2) ?v0) f1) (= (f34 ?v1 ?v3) f1))) (= (f34 ?v1 ?v2) f1))) (forall ((?v2 Int)) (= (f34 ?v1 ?v2) f1)))))))
-(assert (forall ((?v0 S21)) (=> (= (f306 ?v0) f1) (= (f321 (f322 ?v0)) f1))))
-(assert (forall ((?v0 S16)) (=> (= (f307 ?v0) f1) (= (f323 (f324 ?v0)) f1))))
-(assert (= f303 (f325 f319)))
-(assert (forall ((?v0 S18) (?v1 S18)) (= (= (f41 (f21 (f22 f23 ?v0) ?v1) (f325 f319)) f1) (< (f154 f155 ?v0) (f154 f155 ?v1)))))
-(assert (forall ((?v0 S21)) (=> (= (f306 ?v0) f1) (= (f306 (f326 ?v0)) f1))))
-(assert (forall ((?v0 S16)) (=> (= (f307 ?v0) f1) (= (f307 (f325 ?v0)) f1))))
-(assert (forall ((?v0 S17) (?v1 S17) (?v2 S21)) (let ((?v_0 (f25 (f26 f27 ?v0) ?v1))) (=> (= (f44 ?v_0 ?v2) f1) (= (f44 ?v_0 (f326 ?v2)) f1)))))
-(assert (forall ((?v0 S18) (?v1 S18) (?v2 S16)) (let ((?v_0 (f21 (f22 f23 ?v0) ?v1))) (=> (= (f41 ?v_0 ?v2) f1) (= (f41 ?v_0 (f325 ?v2)) f1)))))
-(assert (forall ((?v0 Int) (?v1 Int) (?v2 S15)) (let ((?v_0 (f8 (f9 f10 ?v0) ?v1))) (=> (= (f37 ?v_0 ?v2) f1) (= (f37 ?v_0 (f327 ?v2)) f1)))))
-(assert (forall ((?v0 S16)) (=> (= (f305 ?v0) f1) (= (f325 ?v0) ?v0))))
-(assert (forall ((?v0 S16)) (= (f305 (f325 ?v0)) f1)))
-(assert (forall ((?v0 S17) (?v1 S17) (?v2 S21) (?v3 S17)) (let ((?v_0 (f26 f27 ?v0))) (=> (= (f44 (f25 ?v_0 ?v1) ?v2) f1) (=> (= (f44 (f25 (f26 f27 ?v1) ?v3) ?v2) f1) (= (f44 (f25 ?v_0 ?v3) (f326 ?v2)) f1))))))
-(assert (forall ((?v0 S18) (?v1 S18) (?v2 S16) (?v3 S18)) (let ((?v_0 (f22 f23 ?v0))) (=> (= (f41 (f21 ?v_0 ?v1) ?v2) f1) (=> (= (f41 (f21 (f22 f23 ?v1) ?v3) ?v2) f1) (= (f41 (f21 ?v_0 ?v3) (f325 ?v2)) f1))))))
-(assert (forall ((?v0 Int) (?v1 Int) (?v2 S15) (?v3 Int)) (let ((?v_0 (f9 f10 ?v0))) (=> (= (f37 (f8 ?v_0 ?v1) ?v2) f1) (=> (= (f37 (f8 (f9 f10 ?v1) ?v3) ?v2) f1) (= (f37 (f8 ?v_0 ?v3) (f327 ?v2)) f1))))))
-(assert (forall ((?v0 S17) (?v1 S17) (?v2 S21) (?v3 S17)) (let ((?v_0 (f26 f27 ?v0)) (?v_1 (f326 ?v2))) (=> (= (f44 (f25 ?v_0 ?v1) ?v2) f1) (=> (= (f44 (f25 (f26 f27 ?v1) ?v3) ?v_1) f1) (= (f44 (f25 ?v_0 ?v3) ?v_1) f1))))))
-(assert (forall ((?v0 S18) (?v1 S18) (?v2 S16) (?v3 S18)) (let ((?v_0 (f22 f23 ?v0)) (?v_1 (f325 ?v2))) (=> (= (f41 (f21 ?v_0 ?v1) ?v2) f1) (=> (= (f41 (f21 (f22 f23 ?v1) ?v3) ?v_1) f1) (= (f41 (f21 ?v_0 ?v3) ?v_1) f1))))))
-(assert (forall ((?v0 Int) (?v1 Int) (?v2 S15) (?v3 Int)) (let ((?v_0 (f9 f10 ?v0)) (?v_1 (f327 ?v2))) (=> (= (f37 (f8 ?v_0 ?v1) ?v2) f1) (=> (= (f37 (f8 (f9 f10 ?v1) ?v3) ?v_1) f1) (= (f37 (f8 ?v_0 ?v3) ?v_1) f1))))))
-(assert (forall ((?v0 S8) (?v1 S21)) (=> (= (f44 ?v0 ?v1) f1) (= (f44 ?v0 (f326 ?v1)) f1))))
-(assert (forall ((?v0 S17) (?v1 S16)) (=> (= (f41 ?v0 ?v1) f1) (= (f41 ?v0 (f325 ?v1)) f1))))
-(assert (forall ((?v0 S17) (?v1 S17) (?v2 S21) (?v3 S17)) (let ((?v_1 (f26 f27 ?v0)) (?v_0 (f326 ?v2))) (=> (= (f44 (f25 ?v_1 ?v1) ?v_0) f1) (=> (= (f44 (f25 (f26 f27 ?v1) ?v3) ?v_0) f1) (= (f44 (f25 ?v_1 ?v3) ?v_0) f1))))))
-(assert (forall ((?v0 S18) (?v1 S18) (?v2 S16) (?v3 S18)) (let ((?v_1 (f22 f23 ?v0)) (?v_0 (f325 ?v2))) (=> (= (f41 (f21 ?v_1 ?v1) ?v_0) f1) (=> (= (f41 (f21 (f22 f23 ?v1) ?v3) ?v_0) f1) (= (f41 (f21 ?v_1 ?v3) ?v_0) f1))))))
-(assert (forall ((?v0 Int) (?v1 Int) (?v2 S15) (?v3 Int)) (let ((?v_1 (f9 f10 ?v0)) (?v_0 (f327 ?v2))) (=> (= (f37 (f8 ?v_1 ?v1) ?v_0) f1) (=> (= (f37 (f8 (f9 f10 ?v1) ?v3) ?v_0) f1) (= (f37 (f8 ?v_1 ?v3) ?v_0) f1))))))
-(assert (forall ((?v0 S17) (?v1 S17) (?v2 S21) (?v3 S17)) (let ((?v_0 (f26 f27 ?v0)) (?v_1 (f326 ?v2))) (=> (= (f44 (f25 ?v_0 ?v1) ?v_1) f1) (=> (= (f44 (f25 (f26 f27 ?v1) ?v3) ?v2) f1) (= (f44 (f25 ?v_0 ?v3) ?v_1) f1))))))
-(assert (forall ((?v0 S18) (?v1 S18) (?v2 S16) (?v3 S18)) (let ((?v_0 (f22 f23 ?v0)) (?v_1 (f325 ?v2))) (=> (= (f41 (f21 ?v_0 ?v1) ?v_1) f1) (=> (= (f41 (f21 (f22 f23 ?v1) ?v3) ?v2) f1) (= (f41 (f21 ?v_0 ?v3) ?v_1) f1))))))
-(assert (forall ((?v0 Int) (?v1 Int) (?v2 S15) (?v3 Int)) (let ((?v_0 (f9 f10 ?v0)) (?v_1 (f327 ?v2))) (=> (= (f37 (f8 ?v_0 ?v1) ?v_1) f1) (=> (= (f37 (f8 (f9 f10 ?v1) ?v3) ?v2) f1) (= (f37 (f8 ?v_0 ?v3) ?v_1) f1))))))
-(assert (forall ((?v0 S17) (?v1 S17) (?v2 S21)) (let ((?v_0 (f25 (f26 f27 ?v0) ?v1))) (=> (= (f44 ?v_0 (f326 ?v2)) f1) (=> (=> (= (f44 ?v_0 ?v2) f1) false) (=> (forall ((?v3 S17)) (=> (= (f44 (f25 (f26 f27 ?v0) ?v3) (f326 ?v2)) f1) (=> (= (f44 (f25 (f26 f27 ?v3) ?v1) ?v2) f1) false))) false))))))
-(assert (forall ((?v0 S18) (?v1 S18) (?v2 S16)) (let ((?v_0 (f21 (f22 f23 ?v0) ?v1))) (=> (= (f41 ?v_0 (f325 ?v2)) f1) (=> (=> (= (f41 ?v_0 ?v2) f1) false) (=> (forall ((?v3 S18)) (=> (= (f41 (f21 (f22 f23 ?v0) ?v3) (f325 ?v2)) f1) (=> (= (f41 (f21 (f22 f23 ?v3) ?v1) ?v2) f1) false))) false))))))
-(assert (forall ((?v0 Int) (?v1 Int) (?v2 S15)) (let ((?v_0 (f8 (f9 f10 ?v0) ?v1))) (=> (= (f37 ?v_0 (f327 ?v2)) f1) (=> (=> (= (f37 ?v_0 ?v2) f1) false) (=> (forall ((?v3 Int)) (=> (= (f37 (f8 (f9 f10 ?v0) ?v3) (f327 ?v2)) f1) (=> (= (f37 (f8 (f9 f10 ?v3) ?v1) ?v2) f1) false))) false))))))
-(assert (forall ((?v0 S17) (?v1 S17) (?v2 S21)) (let ((?v_0 (f25 (f26 f27 ?v0) ?v1))) (=> (= (f44 ?v_0 (f326 ?v2)) f1) (=> (=> (= (f44 ?v_0 ?v2) f1) false) (=> (forall ((?v3 S17)) (=> (= (f44 (f25 (f26 f27 ?v0) ?v3) ?v2) f1) (=> (= (f44 (f25 (f26 f27 ?v3) ?v1) (f326 ?v2)) f1) false))) false))))))
-(assert (forall ((?v0 S18) (?v1 S18) (?v2 S16)) (let ((?v_0 (f21 (f22 f23 ?v0) ?v1))) (=> (= (f41 ?v_0 (f325 ?v2)) f1) (=> (=> (= (f41 ?v_0 ?v2) f1) false) (=> (forall ((?v3 S18)) (=> (= (f41 (f21 (f22 f23 ?v0) ?v3) ?v2) f1) (=> (= (f41 (f21 (f22 f23 ?v3) ?v1) (f325 ?v2)) f1) false))) false))))))
-(assert (forall ((?v0 Int) (?v1 Int) (?v2 S15)) (let ((?v_0 (f8 (f9 f10 ?v0) ?v1))) (=> (= (f37 ?v_0 (f327 ?v2)) f1) (=> (=> (= (f37 ?v_0 ?v2) f1) false) (=> (forall ((?v3 Int)) (=> (= (f37 (f8 (f9 f10 ?v0) ?v3) ?v2) f1) (=> (= (f37 (f8 (f9 f10 ?v3) ?v1) (f327 ?v2)) f1) false))) false))))))
-(assert (forall ((?v0 S21) (?v1 S17) (?v2 S17)) (=> (forall ((?v3 S17)) (not (= (f44 (f25 (f26 f27 ?v3) ?v3) (f326 ?v0)) f1))) (=> (= (f44 (f25 (f26 f27 ?v1) ?v2) ?v0) f1) (not (= ?v1 ?v2))))))
-(assert (forall ((?v0 S16) (?v1 S18) (?v2 S18)) (=> (forall ((?v3 S18)) (not (= (f41 (f21 (f22 f23 ?v3) ?v3) (f325 ?v0)) f1))) (=> (= (f41 (f21 (f22 f23 ?v1) ?v2) ?v0) f1) (not (= ?v1 ?v2))))))
-(assert (forall ((?v0 S15) (?v1 Int) (?v2 Int)) (=> (forall ((?v3 Int)) (not (= (f37 (f8 (f9 f10 ?v3) ?v3) (f327 ?v0)) f1))) (=> (= (f37 (f8 (f9 f10 ?v1) ?v2) ?v0) f1) (not (= ?v1 ?v2))))))
-(assert (forall ((?v0 S21)) (=> (= (f306 ?v0) f1) (= (f321 (f328 ?v0)) f1))))
-(assert (forall ((?v0 S16)) (=> (= (f307 ?v0) f1) (= (f323 (f329 ?v0)) f1))))
-(assert (forall ((?v0 S18) (?v1 S18) (?v2 S18) (?v3 S18) (?v4 S21) (?v5 S29)) (=> (= (f44 (f25 (f26 f27 (f21 (f22 f23 ?v0) ?v1)) (f21 (f22 f23 ?v2) ?v3)) (f326 ?v4)) f1) (=> (forall ((?v6 S18) (?v7 S18)) (=> (= (f44 (f25 (f26 f27 (f21 (f22 f23 ?v0) ?v1)) (f21 (f22 f23 ?v6) ?v7)) ?v4) f1) (= (f38 (f39 ?v5 ?v6) ?v7) f1))) (=> (forall ((?v6 S18) (?v7 S18) (?v8 S18) (?v9 S18)) (let ((?v_0 (f21 (f22 f23 ?v6) ?v7))) (=> (= (f44 (f25 (f26 f27 (f21 (f22 f23 ?v0) ?v1)) ?v_0) (f326 ?v4)) f1) (=> (= (f44 (f25 (f26 f27 ?v_0) (f21 (f22 f23 ?v8) ?v9)) ?v4) f1) (=> (= (f38 (f39 ?v5 ?v6) ?v7) f1) (= (f38 (f39 ?v5 ?v8) ?v9) f1)))))) (= (f38 (f39 ?v5 ?v2) ?v3) f1))))))
-(assert (forall ((?v0 S17) (?v1 S17) (?v2 S17) (?v3 S17) (?v4 S6) (?v5 S30)) (=> (= (f30 (f12 (f13 f14 (f25 (f26 f27 ?v0) ?v1)) (f25 (f26 f27 ?v2) ?v3)) (f330 ?v4)) f1) (=> (forall ((?v6 S17) (?v7 S17)) (=> (= (f30 (f12 (f13 f14 (f25 (f26 f27 ?v0) ?v1)) (f25 (f26 f27 ?v6) ?v7)) ?v4) f1) (= (f20 (f42 ?v5 ?v6) ?v7) f1))) (=> (forall ((?v6 S17) (?v7 S17) (?v8 S17) (?v9 S17)) (let ((?v_0 (f25 (f26 f27 ?v6) ?v7))) (=> (= (f30 (f12 (f13 f14 (f25 (f26 f27 ?v0) ?v1)) ?v_0) (f330 ?v4)) f1) (=> (= (f30 (f12 (f13 f14 ?v_0) (f25 (f26 f27 ?v8) ?v9)) ?v4) f1) (=> (= (f20 (f42 ?v5 ?v6) ?v7) f1) (= (f20 (f42 ?v5 ?v8) ?v9) f1)))))) (= (f20 (f42 ?v5 ?v2) ?v3) f1))))))
-(assert (forall ((?v0 Int) (?v1 Int) (?v2 Int) (?v3 Int) (?v4 S11) (?v5 S27)) (=> (= (f33 (f16 (f17 f18 (f8 (f9 f10 ?v0) ?v1)) (f8 (f9 f10 ?v2) ?v3)) (f331 ?v4)) f1) (=> (forall ((?v6 Int) (?v7 Int)) (=> (= (f33 (f16 (f17 f18 (f8 (f9 f10 ?v0) ?v1)) (f8 (f9 f10 ?v6) ?v7)) ?v4) f1) (= (f34 (f35 ?v5 ?v6) ?v7) f1))) (=> (forall ((?v6 Int) (?v7 Int) (?v8 Int) (?v9 Int)) (let ((?v_0 (f8 (f9 f10 ?v6) ?v7))) (=> (= (f33 (f16 (f17 f18 (f8 (f9 f10 ?v0) ?v1)) ?v_0) (f331 ?v4)) f1) (=> (= (f33 (f16 (f17 f18 ?v_0) (f8 (f9 f10 ?v8) ?v9)) ?v4) f1) (=> (= (f34 (f35 ?v5 ?v6) ?v7) f1) (= (f34 (f35 ?v5 ?v8) ?v9) f1)))))) (= (f34 (f35 ?v5 ?v2) ?v3) f1))))))
-(assert (forall ((?v0 S17) (?v1 S17) (?v2 S21) (?v3 S16)) (=> (= (f44 (f25 (f26 f27 ?v0) ?v1) (f326 ?v2)) f1) (=> (forall ((?v4 S17)) (=> (= (f44 (f25 (f26 f27 ?v4) ?v1) ?v2) f1) (= (f20 ?v3 ?v4) f1))) (=> (forall ((?v4 S17) (?v5 S17)) (=> (= (f44 (f25 (f26 f27 ?v4) ?v5) ?v2) f1) (=> (= (f44 (f25 (f26 f27 ?v5) ?v1) (f326 ?v2)) f1) (=> (= (f20 ?v3 ?v5) f1) (= (f20 ?v3 ?v4) f1))))) (= (f20 ?v3 ?v0) f1))))))
-(assert (forall ((?v0 S18) (?v1 S18) (?v2 S16) (?v3 S28)) (=> (= (f41 (f21 (f22 f23 ?v0) ?v1) (f325 ?v2)) f1) (=> (forall ((?v4 S18)) (=> (= (f41 (f21 (f22 f23 ?v4) ?v1) ?v2) f1) (= (f38 ?v3 ?v4) f1))) (=> (forall ((?v4 S18) (?v5 S18)) (=> (= (f41 (f21 (f22 f23 ?v4) ?v5) ?v2) f1) (=> (= (f41 (f21 (f22 f23 ?v5) ?v1) (f325 ?v2)) f1) (=> (= (f38 ?v3 ?v5) f1) (= (f38 ?v3 ?v4) f1))))) (= (f38 ?v3 ?v0) f1))))))
-(assert (forall ((?v0 Int) (?v1 Int) (?v2 S15) (?v3 S26)) (=> (= (f37 (f8 (f9 f10 ?v0) ?v1) (f327 ?v2)) f1) (=> (forall ((?v4 Int)) (=> (= (f37 (f8 (f9 f10 ?v4) ?v1) ?v2) f1) (= (f34 ?v3 ?v4) f1))) (=> (forall ((?v4 Int) (?v5 Int)) (=> (= (f37 (f8 (f9 f10 ?v4) ?v5) ?v2) f1) (=> (= (f37 (f8 (f9 f10 ?v5) ?v1) (f327 ?v2)) f1) (=> (= (f34 ?v3 ?v5) f1) (= (f34 ?v3 ?v4) f1))))) (= (f34 ?v3 ?v0) f1))))))
-(assert (forall ((?v0 S17) (?v1 S17) (?v2 S21) (?v3 S16)) (=> (= (f44 (f25 (f26 f27 ?v0) ?v1) (f326 ?v2)) f1) (=> (forall ((?v4 S17)) (=> (= (f44 (f25 (f26 f27 ?v0) ?v4) ?v2) f1) (= (f20 ?v3 ?v4) f1))) (=> (forall ((?v4 S17) (?v5 S17)) (=> (= (f44 (f25 (f26 f27 ?v0) ?v4) (f326 ?v2)) f1) (=> (= (f44 (f25 (f26 f27 ?v4) ?v5) ?v2) f1) (=> (= (f20 ?v3 ?v4) f1) (= (f20 ?v3 ?v5) f1))))) (= (f20 ?v3 ?v1) f1))))))
-(assert (forall ((?v0 S18) (?v1 S18) (?v2 S16) (?v3 S28)) (=> (= (f41 (f21 (f22 f23 ?v0) ?v1) (f325 ?v2)) f1) (=> (forall ((?v4 S18)) (=> (= (f41 (f21 (f22 f23 ?v0) ?v4) ?v2) f1) (= (f38 ?v3 ?v4) f1))) (=> (forall ((?v4 S18) (?v5 S18)) (=> (= (f41 (f21 (f22 f23 ?v0) ?v4) (f325 ?v2)) f1) (=> (= (f41 (f21 (f22 f23 ?v4) ?v5) ?v2) f1) (=> (= (f38 ?v3 ?v4) f1) (= (f38 ?v3 ?v5) f1))))) (= (f38 ?v3 ?v1) f1))))))
-(assert (forall ((?v0 Int) (?v1 Int) (?v2 S15) (?v3 S26)) (=> (= (f37 (f8 (f9 f10 ?v0) ?v1) (f327 ?v2)) f1) (=> (forall ((?v4 Int)) (=> (= (f37 (f8 (f9 f10 ?v0) ?v4) ?v2) f1) (= (f34 ?v3 ?v4) f1))) (=> (forall ((?v4 Int) (?v5 Int)) (=> (= (f37 (f8 (f9 f10 ?v0) ?v4) (f327 ?v2)) f1) (=> (= (f37 (f8 (f9 f10 ?v4) ?v5) ?v2) f1) (=> (= (f34 ?v3 ?v4) f1) (= (f34 ?v3 ?v5) f1))))) (= (f34 ?v3 ?v1) f1))))))
-(assert (forall ((?v0 S18)) (= (f160 f315 (f154 f155 ?v0)) ?v0)))
-(assert (forall ((?v0 Int)) (=> (<= 0 ?v0) (= (f154 f155 (f160 f315 ?v0)) ?v0))))
-(assert (forall ((?v0 Int)) (=> (< ?v0 0) (= (f154 f155 (f160 f315 ?v0)) 0))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/nl/red-exp.smt2 b/test/regress/regress0/nl/red-exp.smt2
deleted file mode 100644
index 5dc5258e2..000000000
--- a/test/regress/regress0/nl/red-exp.smt2
+++ /dev/null
@@ -1,11 +0,0 @@
-; COMMAND-LINE: --nl-ext
-; EXPECT: unsat
-(set-logic QF_NRA)
-(set-info :status unsat)
-
-(declare-fun a () Real)
-(declare-fun b () Real)
-
-(assert (or (= a (* b b)) (and (= a 9) (= b 3))))
-(assert (not (= (* a a) (* b b b b))))
-(check-sat)
diff --git a/test/regress/regress0/nl/rewriting-sums.smt2 b/test/regress/regress0/nl/rewriting-sums.smt2
deleted file mode 100644
index ca2edf024..000000000
--- a/test/regress/regress0/nl/rewriting-sums.smt2
+++ /dev/null
@@ -1,18 +0,0 @@
-; COMMAND-LINE: --nl-ext
-; EXPECT: unsat
-(set-logic QF_NIA)
-(set-info :status unsat)
-(declare-fun x () Int)
-(declare-fun y () Int)
-(declare-fun z () Int)
-
-
-(assert (or (= x 5) (= x 7) (= x 9)))
-
-(assert (or (= y (+ x 1)) (= y (+ x 2))))
-
-(assert (or (= z (+ y 5)) (= z (+ y 10))))
-
-(assert (> (* z z) 1000000000))
-
-(check-sat)
diff --git a/test/regress/regress0/nl/simple-mono-unsat.smt2 b/test/regress/regress0/nl/simple-mono-unsat.smt2
deleted file mode 100644
index b82b7ad7c..000000000
--- a/test/regress/regress0/nl/simple-mono-unsat.smt2
+++ /dev/null
@@ -1,18 +0,0 @@
-; COMMAND-LINE: --nl-ext
-; EXPECT: unsat
-(set-logic QF_NRA)
-(set-info :status unsat)
-
-(declare-fun a () Real)
-(declare-fun b () Real)
-(declare-fun c () Real)
-(declare-fun d () Real)
-
-(assert (or (= a 4) (= a 3)))
-
-(assert (> b 0))
-(assert (> c 0))
-
-(assert (< (* a b c d d) 0))
-
-(check-sat)
diff --git a/test/regress/regress0/nl/simple-mono.smt2 b/test/regress/regress0/nl/simple-mono.smt2
deleted file mode 100644
index 3d4adad28..000000000
--- a/test/regress/regress0/nl/simple-mono.smt2
+++ /dev/null
@@ -1,17 +0,0 @@
-; COMMAND-LINE: --nl-ext
-; EXPECT: unsat
-(set-logic QF_NRA)
-(set-info :status unsat)
-(declare-fun x () Real)
-(declare-fun y () Real)
-(declare-fun z () Real)
-
-
-(assert (> z 0))
-(assert (> x y))
-
-;(assert (not (> (* x z) (* y z))))
-(assert (< (* x z) (* y z)))
-
-
-(check-sat)
diff --git a/test/regress/regress0/nl/sqrt-problem-1.smt2 b/test/regress/regress0/nl/sqrt-problem-1.smt2
deleted file mode 100644
index e74af3a2d..000000000
--- a/test/regress/regress0/nl/sqrt-problem-1.smt2
+++ /dev/null
@@ -1,41 +0,0 @@
-; COMMAND-LINE: --nl-ext-tplanes
-; EXPECT: unsat
-(set-logic ALL)
-(set-info :status unsat)
-(declare-fun X () Real)
-(declare-fun |sqrt{10}| () Real)
-(declare-fun |sqrt{8}| () Real)
-(assert (let ((.def_48 (<= X (to_real 300))))
-(let ((.def_47 (<= (to_real (- 300)) X)))
-(let ((.def_49 (and .def_47 .def_48)))
-(let ((.def_44 (<= |sqrt{10}| (to_real 300))))
-(let ((.def_43 (<= (to_real (- 300)) |sqrt{10}|)))
-(let ((.def_45 (and .def_43 .def_44)))
-(let ((.def_40 (<= |sqrt{8}| (to_real 300))))
-(let ((.def_39 (<= (to_real (- 300)) |sqrt{8}|)))
-(let ((.def_41 (and .def_39 .def_40)))
-(let ((.def_35 (<= (to_real 0) |sqrt{8}|)))
-(let ((.def_31 (* |sqrt{8}| |sqrt{8}|)))
-(let ((.def_33 (= .def_31 (to_real 3))))
-(let ((.def_29 (<= (to_real 0) |sqrt{10}|)))
-(let ((.def_26 (* |sqrt{10}| |sqrt{10}|)))
-(let ((.def_27 (= X .def_26)))
-(let ((.def_21 (<= X (to_real 2))))
-(let ((.def_19 (<= (to_real 0) X)))
-(let ((.def_22 (and .def_19 .def_21)))
-(let ((.def_23 (not .def_22)))
-(let ((.def_11 (+ |sqrt{10}| |sqrt{8}|)))
-(let ((.def_15 (<= (/ 63 20) .def_11)))
-(let ((.def_16 (not .def_15)))
-(let ((.def_24 (or .def_16 .def_23)))
-(let ((.def_25 (not .def_24)))
-(let ((.def_28 (and .def_25 .def_27)))
-(let ((.def_30 (and .def_28 .def_29)))
-(let ((.def_34 (and .def_30 .def_33)))
-(let ((.def_36 (and .def_34 .def_35)))
-(let ((.def_42 (and .def_36 .def_41)))
-(let ((.def_46 (and .def_42 .def_45)))
-(let ((.def_50 (and .def_46 .def_49)))
-.def_50))))))))))))))))))))))))))))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/nl/zero-subset.smt2 b/test/regress/regress0/nl/zero-subset.smt2
deleted file mode 100644
index a8ce65b02..000000000
--- a/test/regress/regress0/nl/zero-subset.smt2
+++ /dev/null
@@ -1,15 +0,0 @@
-; COMMAND-LINE: --nl-ext
-; EXPECT: unsat
-(set-logic QF_NRA)
-(set-info :status unsat)
-(declare-fun a () Real)
-(declare-fun b () Real)
-(declare-fun c () Real)
-(declare-fun d () Real)
-(declare-fun e () Real)
-
-(assert (= (* a b c d) 0))
-
-(assert (not (= (* a b c d e) 0)))
-
-(check-sat)
diff --git a/test/regress/regress0/non-fatal-errors.smt2 b/test/regress/regress0/non-fatal-errors.smt2
deleted file mode 100644
index 1e1865883..000000000
--- a/test/regress/regress0/non-fatal-errors.smt2
+++ /dev/null
@@ -1,29 +0,0 @@
-; SCRUBBER: sed 's/".*"/""/g'
-; EXPECT: success
-; EXPECT: success
-; EXPECT: success
-; EXPECT: success
-; EXPECT: success
-; EXPECT: success
-; EXPECT: success
-; EXPECT: (error "")
-; EXPECT: (error "")
-; EXPECT: (error "")
-; EXPECT: (error "")
-; EXPECT: (error "")
-; EXPECT: success
-; EXPECT: sat
-(set-option :print-success true)
-(set-option :produce-unsat-cores true)
-(set-option :produce-models true)
-(set-option :produce-proofs true)
-(set-option :produce-assignments true)
-(set-logic UF)
-(declare-fun p () Bool)
-(get-unsat-core)
-(get-value (p))
-(get-proof)
-(get-model)
-(get-assignment)
-(assert true)
-(check-sat)
diff --git a/test/regress/regress0/push-pop/Makefile.am b/test/regress/regress0/push-pop/Makefile.am
index 0f2508144..06225dfb6 100644
--- a/test/regress/regress0/push-pop/Makefile.am
+++ b/test/regress/regress0/push-pop/Makefile.am
@@ -1,4 +1,4 @@
-SUBDIRS = boolean arith . 
+SUBDIRS = boolean . 
 
 # don't override a BINARY imported from a personal.mk
 @mk_if@eq ($(BINARY),)
@@ -32,31 +32,18 @@ SMT2_TESTS = \
   tiny_bug.smt2
 
 BUG_TESTS = \
-	bug216.smt2 \
 	bug233.cvc \
-	bug326.smt2 \
-	arith_lra_01.smt2 \
-  arith_lra_02.smt2 \
-  quant-fun-proc.smt2 \
-  quant-fun-proc-unmacro.smt2 \
-  quant-fun-proc-unfd.smt2 \
-  bug654-dd.smt2 \
-  bug-fmf-fun-skolem.smt2 \
-  bug674.smt2 \
-  inc-double-u.smt2 \
-  fmf-fun-dbu.smt2 \
-  inc-define.smt2 \
-  bug765.smt2 \
-  bug691.smt2 \
-  bug694-Unapply1.scala-0.smt2 \
-  simple_unsat_cores.smt2 \
-  bug821.smt2
+	quant-fun-proc-unfd.smt2 \
+	bug654-dd.smt2 \
+	inc-double-u.smt2 \
+	inc-define.smt2 \
+	bug691.smt2 \
+	simple_unsat_cores.smt2 \
+	bug821.smt2
 
 TESTS =	$(SMT_TESTS) $(SMT2_TESTS) $(CVC_TESTS) $(BUG_TESTS)
 
-EXTRA_DIST = $(TESTS) \
-	bug216.smt2.expect \
-	bug396.smt2
+EXTRA_DIST = $(TESTS)
 
 # synonyms for "check" in this directory
 .PHONY: regress regress0 test
diff --git a/test/regress/regress0/push-pop/arith/Makefile b/test/regress/regress0/push-pop/arith/Makefile
deleted file mode 100644
index d0abd99f5..000000000
--- a/test/regress/regress0/push-pop/arith/Makefile
+++ /dev/null
@@ -1,8 +0,0 @@
-topdir = ../../../../..
-srcdir = test/regress/regress0/push-pop/arith
-
-include $(topdir)/Makefile.subdir
-
-# synonyms for "check"
-.PHONY: test
-test: check
diff --git a/test/regress/regress0/push-pop/arith/Makefile.am b/test/regress/regress0/push-pop/arith/Makefile.am
deleted file mode 100644
index e692c86b2..000000000
--- a/test/regress/regress0/push-pop/arith/Makefile.am
+++ /dev/null
@@ -1,62 +0,0 @@
-SUBDIRS = . 
-
-# don't override a BINARY imported from a personal.mk
-@mk_if@eq ($(BINARY),)
-@mk_empty@BINARY = cvc4
-end@mk_if@
-
-LOG_COMPILER = @srcdir@/../../../run_regression
-AM_LOG_FLAGS = $(RUN_REGRESSION_ARGS) @abs_top_builddir@/src/main/$(BINARY)$(EXEEXT)
-
-if AUTOMAKE_1_11
-# old-style (pre-automake 1.12) test harness
-TESTS_ENVIRONMENT = \
-	$(LOG_COMPILER) \
-	$(AM_LOG_FLAGS) $(LOG_FLAGS)
-endif
-
-MAKEFLAGS = -k
-
-# These are run for all build profiles.
-# If a test shouldn't be run in e.g. competition mode,
-# put it below in "TESTS +="
-
-# Regression tests for SMT inputs
-CVC_TESTS =
-
-SMT2_TESTS = \
-	fuzz_3_10.smt2 \
-	fuzz_3_11.smt2 \
-	fuzz_3_12.smt2 \
-	fuzz_3_13.smt2 \
-	fuzz_3_14.smt2 \
-	fuzz_3_15.smt2 \
-	fuzz_3_1.smt2 \
-	fuzz_3_2.smt2 \
-	fuzz_3_3.smt2 \
-	fuzz_3_4.smt2 \
-	fuzz_3_5.smt2 \
-	fuzz_3_6.smt2 \
-	fuzz_3_7.smt2 \
-	fuzz_3_8.smt2 \
-	fuzz_3_9.smt2 \
-	fuzz_5_1.smt2 \
-	fuzz_5_2.smt2 \
-	fuzz_5_3.smt2 \
-	fuzz_5_4.smt2 \
-	fuzz_5_5.smt2 \
-	fuzz_5_6.smt2
-
-BUG_TESTS = 
-
-TESTS =	$(SMT_TESTS) $(SMT2_TESTS) $(CVC_TESTS) $(BUG_TESTS)
-
-EXTRA_DIST = $(TESTS) 
-
-# synonyms for "check" in this directory
-.PHONY: regress regress0 test
-regress regress0 test: check
-
-# do nothing in this subdir
-.PHONY: regress1 regress2 regress3 regress4
-regress1 regress2 regress3 regress4:
diff --git a/test/regress/regress0/push-pop/arith/fuzz_3_1.smt2 b/test/regress/regress0/push-pop/arith/fuzz_3_1.smt2
deleted file mode 100644
index bf2d2a8c3..000000000
--- a/test/regress/regress0/push-pop/arith/fuzz_3_1.smt2
+++ /dev/null
@@ -1,31 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-(set-logic QF_LRA)
-(declare-fun x0 () Real)
-(declare-fun x1 () Real)
-(declare-fun x2 () Real)
-(assert (or (not (<= (+ (* (- 24) x0 ) (* (- 15) x2 ) (* (- 18) x2 ) ) 2)) (not (< (+ (* (- 21) x2 ) (* 6 x2 ) ) (- 11))) (> (+ (* (- 3) x0 ) (* 8 x1 ) ) 11) ))
-(assert (not (> (+ (* (- 4) x2 ) (* (- 23) x2 ) ) (- 26))) )
-(assert (or (not (< (+ (* 35 x2 ) (* 40 x0 ) (* 38 x0 ) ) (- 4))) (not (<= (+ (* 46 x0 ) (* (- 16) x1 ) ) (- 44))) (> (+ (* 33 x2 ) (* (- 47) x2 ) (* (- 38) x0 ) ) 32) ))
-(assert (or (<= (+ (* 49 x2 ) (* 42 x0 ) (* 36 x0 ) (* (- 15) x0 ) ) 41) (not (= (+ (* 5 x2 ) (* (- 2) x0 ) ) (- 23))) ))
-(assert (or (< (+ (* 9 x1 ) (* (- 16) x1 ) (* 47 x2 ) (* 2 x0 ) ) (- 18)) (not (>= (+ (* 43 x0 ) (* (- 24) x1 ) ) (- 22))) (not (< (+ (* (- 37) x1 ) (* (- 27) x2 ) (* (- 40) x0 ) (* (- 34) x0 ) ) (- 42))) ))
-(assert (or (not (<= (+ (* (- 26) x1 ) (* (- 20) x0 ) ) 26)) (<= (+ (* 24 x0 ) (* (- 40) x2 ) ) (- 50)) ))
-(check-sat)
-(push 1)
-(assert (or (< (+ (* (- 23) x0 ) (* 25 x2 ) ) 47) (not (>= (+ (* (- 3) x0 ) (* 20 x1 ) (* (- 22) x0 ) ) 4)) (<= (+ (* (- 14) x0 ) (* 32 x2 ) (* 2 x0 ) (* 13 x1 ) ) (- 3)) ))
-(assert (or (>= (+ (* (- 6) x0 ) (* (- 22) x2 ) ) (- 41)) (not (< (+ (* 26 x0 ) (* 15 x1 ) ) 6)) ))
-(assert (<= (+ (* (- 14) x2 ) (* (- 39) x0 ) (* (- 31) x1 ) ) 24) )
-(assert (or (> (+ (* (- 27) x2 ) (* (- 35) x1 ) ) (- 46)) (< (+ (* (- 41) x0 ) (* 46 x1 ) (* 16 x2 ) (* (- 31) x2 ) ) 29) (not (<= (+ (* (- 44) x2 ) (* 46 x0 ) (* (- 33) x1 ) ) (- 14))) ))
-(check-sat)
-(assert (not (>= (+ (* 23 x2 ) (* 5 x1 ) ) (- 16))) )
-(assert (or (>= (+ (* (- 3) x0 ) (* 3 x1 ) (* 44 x0 ) ) (- 39)) (> (+ (* 28 x1 ) (* 26 x1 ) (* (- 22) x2 ) (* (- 36) x2 ) ) 27) (not (= (+ (* 16 x0 ) (* 41 x2 ) (* 16 x2 ) ) (- 47))) ))
-(check-sat)
-(pop 1)
-(assert (not (<= (+ (* (- 28) x1 ) (* (- 11) x0 ) (* 9 x0 ) (* (- 4) x0 ) ) 23)) )
-(assert (not (< (+ (* 16 x1 ) (* (- 18) x2 ) ) 34)) )
-(assert (or (> (+ (* (- 41) x0 ) (* (- 12) x2 ) ) 11) (>= (+ (* 11 x1 ) (* 26 x0 ) (* 11 x1 ) (* 43 x1 ) ) 8) ))
-(assert (or (> (+ (* 17 x2 ) (* (- 35) x2 ) ) 49) (not (= (+ (* 2 x0 ) (* 32 x1 ) (* 40 x1 ) (* 1 x0 ) ) (- 6))) (> (+ (* (- 18) x1 ) (* (- 40) x0 ) (* (- 40) x0 ) ) (- 36)) ))
-(check-sat)
diff --git a/test/regress/regress0/push-pop/arith/fuzz_3_10.smt2 b/test/regress/regress0/push-pop/arith/fuzz_3_10.smt2
deleted file mode 100644
index 389c91573..000000000
--- a/test/regress/regress0/push-pop/arith/fuzz_3_10.smt2
+++ /dev/null
@@ -1,22 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-(set-logic QF_LRA)
-(declare-fun x0 () Real)
-(declare-fun x1 () Real)
-(declare-fun x2 () Real)
-(assert (or (not (<= (+ (* 30 x2 ) (* 34 x2 ) (* 16 x2 ) ) 30)) (not (>= (+ (* (- 7) x1 ) (* 5 x1 ) ) (- 36))) ))
-(assert (= (+ (* (- 33) x2 ) (* (- 46) x0 ) (* (- 32) x1 ) ) (- 30)) )
-(assert (or (>= (+ (* (- 35) x1 ) (* (- 29) x1 ) (* 30 x1 ) (* 20 x1 ) ) 27) (> (+ (* 30 x1 ) (* 33 x0 ) ) 16) (= (+ (* (- 28) x2 ) (* 7 x1 ) (* 8 x0 ) ) 37) ))
-(assert (or (< (+ (* 6 x2 ) (* (- 12) x1 ) ) (- 14)) (not (<= (+ (* (- 23) x1 ) (* 44 x1 ) ) 9)) (not (<= (+ (* (- 18) x2 ) (* 16 x0 ) (* 47 x0 ) ) 25)) ))
-(assert (or (< (+ (* (- 8) x1 ) (* 12 x2 ) (* 23 x1 ) ) (- 50)) (not (> (+ (* 37 x1 ) (* (- 30) x2 ) (* 1 x0 ) (* 13 x1 ) ) (- 22))) ))
-(check-sat)
-(push 1)
-(assert (or (not (= (+ (* (- 3) x0 ) (* (- 49) x1 ) ) 25)) (<= (+ (* 47 x2 ) (* 9 x0 ) ) (- 5)) ))
-(assert (or (not (< (+ (* 34 x0 ) (* 28 x0 ) (* 36 x0 ) (* 1 x0 ) ) (- 9))) (>= (+ (* (- 4) x2 ) (* 15 x1 ) (* (- 35) x0 ) (* (- 2) x1 ) ) (- 20)) ))
-(assert (not (<= (+ (* (- 4) x1 ) (* 22 x1 ) (* 22 x2 ) (* (- 33) x0 ) ) 12)) )
-(check-sat)
-(pop 1)
-(assert (<= (+ (* 36 x0 ) (* (- 25) x2 ) (* 48 x2 ) (* (- 14) x1 ) ) (- 9)) )
-(check-sat)
diff --git a/test/regress/regress0/push-pop/arith/fuzz_3_11.smt2 b/test/regress/regress0/push-pop/arith/fuzz_3_11.smt2
deleted file mode 100644
index 81fe3b046..000000000
--- a/test/regress/regress0/push-pop/arith/fuzz_3_11.smt2
+++ /dev/null
@@ -1,40 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-(set-logic QF_LRA)
-(declare-fun x0 () Real)
-(declare-fun x1 () Real)
-(declare-fun x2 () Real)
-(assert (or (= (+ (* 25 x1 ) (* (- 35) x1 ) ) 3) (> (+ (* 31 x1 ) (* (- 25) x2 ) (* 24 x1 ) (* (- 37) x2 ) ) 37) ))
-(assert (or (= (+ (* (- 18) x1 ) (* (- 42) x0 ) (* (- 41) x2 ) ) 18) (= (+ (* (- 34) x2 ) (* 14 x0 ) (* 33 x0 ) (* (- 40) x2 ) ) (- 34)) ))
-(assert (or (>= (+ (* (- 45) x1 ) (* (- 21) x1 ) ) 30) (>= (+ (* 6 x2 ) (* (- 32) x0 ) (* (- 38) x0 ) ) 4) ))
-(assert (or (not (< (+ (* (- 39) x2 ) (* (- 47) x2 ) ) 23)) (>= (+ (* 12 x2 ) (* 32 x1 ) (* (- 46) x2 ) ) 13) (not (= (+ (* 48 x2 ) (* 26 x1 ) (* 45 x2 ) ) (- 10))) ))
-(check-sat)
-(push 1)
-(assert (or (not (<= (+ (* (- 34) x2 ) (* (- 24) x1 ) ) 39)) (<= (+ (* 34 x1 ) (* (- 35) x0 ) (* (- 13) x1 ) (* 2 x2 ) ) (- 2)) ))
-(check-sat)
-(push 1)
-(assert (or (not (<= (+ (* (- 12) x0 ) (* 37 x1 ) (* (- 30) x0 ) ) (- 43))) (> (+ (* 28 x0 ) (* (- 49) x1 ) ) (- 22)) ))
-(check-sat)
-(pop 1)
-(assert (or (not (>= (+ (* 49 x1 ) (* (- 19) x2 ) ) (- 4))) (not (< (+ (* (- 50) x2 ) (* (- 18) x1 ) ) (- 11))) (not (< (+ (* 43 x0 ) (* 11 x1 ) (* 26 x0 ) (* (- 46) x2 ) ) (- 11))) ))
-(assert (or (< (+ (* 38 x0 ) (* (- 19) x1 ) ) (- 31)) (= (+ (* (- 15) x0 ) (* 28 x2 ) (* 9 x2 ) ) (- 43)) ))
-(assert (or (>= (+ (* (- 4) x0 ) (* 20 x1 ) (* (- 30) x1 ) (* 17 x0 ) ) (- 13)) (< (+ (* 6 x0 ) (* (- 22) x2 ) (* (- 37) x1 ) (* (- 1) x2 ) ) (- 50)) ))
-(assert (or (not (< (+ (* 33 x1 ) (* (- 30) x2 ) (* (- 18) x1 ) ) (- 32))) (> (+ (* 26 x0 ) (* (- 21) x1 ) ) 46) ))
-(assert (or (not (<= (+ (* 3 x0 ) (* (- 19) x2 ) (* (- 50) x1 ) (* 31 x2 ) ) 23)) (= (+ (* 46 x0 ) (* 47 x1 ) (* (- 38) x2 ) (* 32 x0 ) ) 30) (<= (+ (* (- 44) x1 ) (* 32 x0 ) (* 29 x1 ) ) 19) ))
-(assert (not (= (+ (* (- 21) x1 ) (* (- 4) x0 ) (* 38 x1 ) (* 17 x1 ) ) 35)) )
-(assert (or (<= (+ (* (- 42) x1 ) (* 8 x0 ) (* 37 x1 ) ) (- 33)) (not (> (+ (* 40 x0 ) (* 41 x0 ) (* 4 x1 ) (* (- 17) x2 ) ) 33)) ))
-(assert (or (not (<= (+ (* (- 26) x2 ) (* 25 x0 ) (* 42 x0 ) (* 40 x2 ) ) 2)) (> (+ (* (- 33) x2 ) (* 18 x2 ) ) 47) ))
-(check-sat)
-(push 1)
-(assert (or (not (>= (+ (* 13 x2 ) (* (- 16) x2 ) (* (- 18) x0 ) ) (- 15))) (not (< (+ (* 1 x0 ) (* 0 x2 ) (* (- 3) x2 ) (* 43 x0 ) ) 30)) (not (> (+ (* 10 x2 ) (* 36 x1 ) ) (- 17))) ))
-(assert (or (not (< (+ (* (- 34) x0 ) (* (- 19) x1 ) (* 31 x0 ) (* 11 x1 ) ) 34)) (= (+ (* (- 45) x2 ) (* 48 x2 ) (* (- 43) x1 ) ) (- 44)) (>= (+ (* 16 x2 ) (* 10 x2 ) (* (- 21) x1 ) ) 23) ))
-(check-sat)
-(pop 1)
-(assert (or (< (+ (* 27 x1 ) (* 6 x2 ) ) 13) (not (<= (+ (* 11 x1 ) (* 19 x0 ) (* (- 41) x0 ) (* (- 29) x1 ) ) (- 6))) (not (= (+ (* (- 16) x2 ) (* (- 8) x1 ) ) 2)) ))
-(assert (or (= (+ (* (- 48) x1 ) (* (- 26) x1 ) (* (- 30) x0 ) ) 39) (>= (+ (* 21 x1 ) (* 25 x2 ) (* (- 35) x1 ) ) (- 2)) (= (+ (* (- 4) x1 ) (* 46 x0 ) (* 23 x2 ) ) 38) ))
-(check-sat)
diff --git a/test/regress/regress0/push-pop/arith/fuzz_3_12.smt2 b/test/regress/regress0/push-pop/arith/fuzz_3_12.smt2
deleted file mode 100644
index d797c1897..000000000
--- a/test/regress/regress0/push-pop/arith/fuzz_3_12.smt2
+++ /dev/null
@@ -1,49 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-(set-logic QF_LRA)
-(declare-fun x0 () Real)
-(declare-fun x1 () Real)
-(declare-fun x2 () Real)
-(check-sat)
-(push 1)
-(check-sat)
-(pop 1)
-(assert (or (not (> (+ (* (- 45) x0 ) (* 2 x2 ) (* (- 18) x1 ) (* 12 x2 ) ) (- 39))) (not (< (+ (* 12 x1 ) (* (- 34) x2 ) (* (- 6) x2 ) (* (- 11) x1 ) ) 14)) ))
-(assert (or (<= (+ (* (- 4) x0 ) (* (- 42) x2 ) (* (- 22) x0 ) ) 15) (not (= (+ (* (- 24) x0 ) (* (- 4) x2 ) ) (- 18))) (>= (+ (* 43 x2 ) (* (- 47) x1 ) (* 22 x0 ) (* 4 x1 ) ) (- 33)) ))
-(assert (or (not (<= (+ (* (- 10) x0 ) (* (- 4) x0 ) (* 40 x0 ) ) 47)) (not (= (+ (* 8 x0 ) (* (- 35) x0 ) ) 6)) (not (< (+ (* 13 x1 ) (* (- 1) x2 ) (* 16 x2 ) (* 6 x1 ) ) (- 43))) ))
-(assert (or (<= (+ (* 35 x2 ) (* 39 x0 ) (* 25 x1 ) (* 46 x0 ) ) 9) (= (+ (* (- 40) x2 ) (* (- 2) x2 ) (* 17 x2 ) (* (- 48) x1 ) ) 18) ))
-(assert (or (> (+ (* (- 47) x2 ) (* (- 24) x2 ) (* (- 25) x0 ) ) 13) (= (+ (* (- 41) x2 ) (* (- 3) x0 ) (* (- 6) x2 ) ) (- 13)) ))
-(check-sat)
-(push 1)
-(check-sat)
-(pop 1)
-(assert (= (+ (* (- 7) x2 ) (* 6 x0 ) ) (- 1)) )
-(assert (or (> (+ (* 21 x0 ) (* (- 48) x0 ) (* (- 39) x0 ) (* (- 3) x2 ) ) (- 48)) (< (+ (* 12 x2 ) (* 26 x1 ) (* 40 x2 ) ) (- 10)) ))
-(check-sat)
-(push 1)
-(assert (or (= (+ (* (- 23) x2 ) (* 31 x2 ) ) 23) (< (+ (* 26 x0 ) (* 45 x0 ) (* (- 17) x1 ) (* (- 38) x2 ) ) (- 31)) (not (>= (+ (* 21 x1 ) (* (- 12) x2 ) ) (- 38))) ))
-(check-sat)
-(push 1)
-(assert (not (<= (+ (* 26 x1 ) (* (- 40) x1 ) (* 22 x0 ) ) 8)) )
-(assert (or (not (>= (+ (* 20 x0 ) (* 0 x0 ) (* 29 x1 ) ) (- 14))) (< (+ (* 12 x1 ) (* (- 25) x2 ) ) (- 50)) ))
-(check-sat)
-(pop 1)
-(assert (or (= (+ (* 37 x1 ) (* (- 10) x1 ) (* (- 50) x1 ) (* (- 15) x1 ) ) 21) (not (< (+ (* (- 27) x0 ) (* 4 x0 ) ) (- 8))) ))
-(assert (or (= (+ (* 0 x1 ) (* (- 43) x0 ) (* 32 x1 ) (* 16 x0 ) ) 11) (not (> (+ (* 20 x2 ) (* (- 11) x2 ) (* (- 14) x0 ) ) (- 43))) (= (+ (* 30 x1 ) (* (- 18) x2 ) (* 0 x1 ) (* (- 32) x0 ) ) (- 5)) ))
-(assert (> (+ (* 43 x2 ) (* (- 3) x0 ) ) 4) )
-(assert (> (+ (* 44 x0 ) (* 4 x2 ) ) (- 41)) )
-(check-sat)
-(pop 1)
-(assert (or (< (+ (* 17 x0 ) (* 11 x0 ) (* 45 x1 ) ) (- 38)) (> (+ (* 49 x1 ) (* (- 9) x2 ) (* 7 x2 ) (* 3 x2 ) ) (- 20)) (not (< (+ (* 10 x2 ) (* 31 x0 ) ) (- 38))) ))
-(assert (not (>= (+ (* (- 43) x2 ) (* (- 8) x1 ) (* (- 8) x0 ) ) 34)) )
-(assert (not (>= (+ (* (- 42) x1 ) (* (- 40) x0 ) (* (- 22) x0 ) (* (- 37) x2 ) ) 21)) )
-(check-sat)
-(push 1)
diff --git a/test/regress/regress0/push-pop/arith/fuzz_3_13.smt2 b/test/regress/regress0/push-pop/arith/fuzz_3_13.smt2
deleted file mode 100644
index 2e4b9d2b8..000000000
--- a/test/regress/regress0/push-pop/arith/fuzz_3_13.smt2
+++ /dev/null
@@ -1,48 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-(set-logic QF_LRA)
-(declare-fun x0 () Real)
-(declare-fun x1 () Real)
-(declare-fun x2 () Real)
-(check-sat)
-(push 1)
-(check-sat)
-(pop 1)
-(assert (or (<= (+ (* 49 x2 ) (* 24 x0 ) (* (- 41) x0 ) ) 40) (not (>= (+ (* 9 x2 ) (* 2 x1 ) (* 48 x1 ) (* 6 x2 ) ) 48)) ))
-(assert (or (not (= (+ (* (- 2) x0 ) (* 22 x0 ) (* (- 37) x0 ) ) 29)) (not (= (+ (* (- 27) x1 ) (* (- 47) x0 ) ) 39)) ))
-(assert (or (not (>= (+ (* (- 5) x2 ) (* (- 39) x0 ) (* (- 28) x2 ) ) 47)) (not (= (+ (* (- 25) x2 ) (* (- 1) x0 ) (* (- 26) x2 ) ) (- 35))) (not (<= (+ (* (- 26) x1 ) (* (- 31) x0 ) ) (- 22))) ))
-(assert (or (> (+ (* 27 x1 ) (* (- 38) x0 ) (* 43 x2 ) (* (- 13) x0 ) ) 41) (>= (+ (* 34 x2 ) (* 1 x2 ) (* (- 20) x1 ) (* 21 x1 ) ) (- 40)) ))
-(assert (> (+ (* (- 28) x1 ) (* 48 x1 ) (* (- 24) x1 ) (* 7 x1 ) ) 41) )
-(check-sat)
-(push 1)
-(assert (<= (+ (* (- 42) x1 ) (* 25 x0 ) (* (- 47) x2 ) (* 4 x0 ) ) (- 15)) )
-(check-sat)
-(push 1)
-(assert (or (not (= (+ (* (- 15) x0 ) (* (- 4) x1 ) (* (- 4) x1 ) ) 24)) (not (< (+ (* (- 35) x0 ) (* (- 45) x1 ) (* (- 8) x2 ) (* 19 x2 ) ) 19)) ))
-(assert (or (not (< (+ (* (- 39) x1 ) (* 15 x0 ) (* 37 x0 ) ) (- 7))) (<= (+ (* 24 x0 ) (* 20 x0 ) (* 43 x1 ) ) 13) ))
-(assert (or (< (+ (* 19 x1 ) (* (- 25) x1 ) ) 8) (> (+ (* 44 x0 ) (* (- 41) x0 ) ) 9) (>= (+ (* 20 x0 ) (* 10 x2 ) (* 23 x0 ) ) 32) ))
-(assert (or (>= (+ (* (- 12) x0 ) (* 17 x2 ) ) (- 43)) (not (> (+ (* 25 x1 ) (* (- 38) x2 ) (* (- 10) x0 ) ) 24)) ))
-(assert (or (not (< (+ (* (- 50) x2 ) (* 43 x0 ) (* (- 37) x2 ) (* (- 5) x0 ) ) (- 40))) (= (+ (* (- 16) x2 ) (* 6 x2 ) ) (- 11)) (> (+ (* 48 x0 ) (* 29 x1 ) ) 40) ))
-(check-sat)
-(push 1)
-(assert (or (< (+ (* 1 x1 ) (* (- 24) x0 ) (* (- 2) x1 ) ) 21) (not (> (+ (* (- 42) x0 ) (* 40 x0 ) ) (- 33))) ))
-(assert (or (not (> (+ (* 23 x0 ) (* (- 14) x2 ) (* (- 23) x0 ) (* (- 37) x0 ) ) 25)) (not (<= (+ (* 12 x2 ) (* 24 x1 ) (* (- 25) x0 ) ) 3)) ))
-(check-sat)
-(pop 1)
-(assert (<= (+ (* 19 x0 ) (* 23 x0 ) (* (- 9) x1 ) (* (- 31) x1 ) ) 27) )
-(assert (or (> (+ (* 33 x1 ) (* (- 24) x1 ) (* (- 48) x2 ) (* (- 42) x1 ) ) 30) (not (<= (+ (* (- 36) x1 ) (* 5 x1 ) ) (- 36))) ))
-(assert (or (not (>= (+ (* 20 x1 ) (* 29 x1 ) (* 48 x2 ) ) 40)) (not (> (+ (* (- 26) x2 ) (* 23 x1 ) (* (- 14) x0 ) ) 32)) ))
-(assert (>= (+ (* 31 x2 ) (* 43 x1 ) ) 28) )
-(assert (or (= (+ (* 21 x2 ) (* (- 30) x1 ) (* 28 x1 ) (* 43 x0 ) ) 39) (not (<= (+ (* (- 3) x0 ) (* (- 49) x0 ) (* 9 x0 ) (* 24 x2 ) ) 14)) (not (> (+ (* 35 x1 ) (* (- 6) x2 ) (* 37 x0 ) ) 3)) ))
-(assert (or (not (<= (+ (* 46 x0 ) (* 11 x1 ) ) 40)) (not (= (+ (* 3 x1 ) (* 49 x1 ) ) (- 38))) ))
-(assert (not (<= (+ (* (- 39) x2 ) (* 23 x1 ) ) 5)) )
-(assert (or (not (< (+ (* 44 x1 ) (* (- 23) x1 ) (* 26 x1 ) ) 39)) (> (+ (* 14 x2 ) (* 2 x2 ) (* (- 5) x2 ) ) (- 22)) ))
-(assert (not (<= (+ (* (- 15) x2 ) (* 17 x2 ) (* 19 x1 ) ) 30)) )
-(check-sat)
-(push 1)
diff --git a/test/regress/regress0/push-pop/arith/fuzz_3_14.smt2 b/test/regress/regress0/push-pop/arith/fuzz_3_14.smt2
deleted file mode 100644
index 0399bbffa..000000000
--- a/test/regress/regress0/push-pop/arith/fuzz_3_14.smt2
+++ /dev/null
@@ -1,34 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-(set-logic QF_LRA)
-(declare-fun x0 () Real)
-(declare-fun x1 () Real)
-(declare-fun x2 () Real)
-(assert (or (> (+ (* (- 34) x2 ) (* 33 x1 ) (* (- 6) x1 ) (* (- 44) x1 ) ) (- 40)) (not (= (+ (* 7 x0 ) (* (- 27) x2 ) (* 10 x0 ) (* (- 42) x1 ) ) 7)) ))
-(assert (or (< (+ (* (- 39) x1 ) (* 32 x1 ) (* 42 x1 ) (* 18 x1 ) ) 26) (not (= (+ (* (- 23) x2 ) (* 17 x1 ) ) (- 39))) ))
-(assert (or (>= (+ (* (- 45) x0 ) (* (- 40) x1 ) (* (- 29) x0 ) (* (- 2) x0 ) ) 22) (not (>= (+ (* 11 x1 ) (* (- 42) x1 ) (* (- 21) x0 ) ) 41)) (not (= (+ (* 30 x2 ) (* (- 13) x2 ) (* 21 x1 ) (* (- 16) x2 ) ) 36)) ))
-(check-sat)
-(push 1)
-(check-sat)
-(pop 1)
-(assert (or (= (+ (* 20 x2 ) (* 13 x2 ) (* (- 10) x0 ) ) (- 34)) (> (+ (* 23 x1 ) (* 10 x1 ) ) 49) (not (< (+ (* 28 x0 ) (* 22 x2 ) (* 6 x2 ) ) 13)) ))
-(assert (or (not (< (+ (* (- 37) x2 ) (* (- 22) x1 ) (* 6 x1 ) ) 18)) (= (+ (* (- 20) x1 ) (* 32 x2 ) (* 16 x1 ) ) (- 49)) ))
-(assert (or (>= (+ (* (- 2) x2 ) (* (- 23) x1 ) (* 39 x2 ) (* 35 x2 ) ) (- 8)) (not (<= (+ (* (- 19) x2 ) (* (- 43) x2 ) (* 22 x1 ) (* (- 27) x1 ) ) (- 48))) (not (= (+ (* (- 44) x1 ) (* 39 x1 ) (* 28 x2 ) ) (- 35))) ))
-(assert (or (not (<= (+ (* (- 47) x1 ) (* (- 22) x2 ) (* 43 x2 ) ) (- 5))) (not (>= (+ (* (- 45) x2 ) (* (- 35) x2 ) (* 44 x0 ) ) (- 14))) ))
-(assert (or (not (>= (+ (* (- 7) x1 ) (* (- 24) x2 ) (* 49 x1 ) ) (- 27))) (< (+ (* 48 x1 ) (* 19 x0 ) ) (- 6)) (not (< (+ (* 39 x0 ) (* 48 x1 ) ) 7)) ))
-(assert (or (<= (+ (* (- 11) x2 ) (* 29 x0 ) ) (- 16)) (not (< (+ (* 31 x1 ) (* 5 x2 ) ) 44)) (>= (+ (* 0 x1 ) (* 42 x2 ) (* 27 x1 ) ) (- 17)) ))
-(assert (not (< (+ (* 49 x1 ) (* 1 x0 ) ) 40)) )
-(check-sat)
-(push 1)
-(check-sat)
-(push 1)
-(assert (or (not (<= (+ (* 40 x2 ) (* (- 42) x1 ) (* 1 x0 ) (* 0 x0 ) ) 24)) (not (> (+ (* (- 27) x0 ) (* 46 x1 ) (* (- 48) x0 ) (* 29 x0 ) ) 11)) ))
-(check-sat)
-(pop 1)
-(assert (not (< (+ (* 16 x1 ) (* (- 26) x0 ) (* (- 6) x0 ) ) 34)) )
-(check-sat)
diff --git a/test/regress/regress0/push-pop/arith/fuzz_3_15.smt2 b/test/regress/regress0/push-pop/arith/fuzz_3_15.smt2
deleted file mode 100644
index 2a8ffe0fa..000000000
--- a/test/regress/regress0/push-pop/arith/fuzz_3_15.smt2
+++ /dev/null
@@ -1,35 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-(set-logic QF_LRA)
-(declare-fun x0 () Real)
-(declare-fun x1 () Real)
-(declare-fun x2 () Real)
-(assert (not (<= (+ (* (- 3) x0 ) (* 38 x0 ) (* 34 x1 ) ) (- 5))) )
-(assert (or (not (> (+ (* (- 27) x0 ) (* 26 x1 ) ) (- 50))) (not (>= (+ (* 32 x0 ) (* 10 x0 ) (* (- 43) x1 ) (* (- 39) x0 ) ) (- 36))) ))
-(check-sat)
-(push 1)
-(assert (> (+ (* (- 23) x2 ) (* 49 x2 ) ) 14) )
-(assert (not (= (+ (* 20 x1 ) (* (- 38) x2 ) ) 33)) )
-(assert (not (<= (+ (* 30 x0 ) (* (- 13) x1 ) (* 21 x1 ) ) 20)) )
-(assert (or (<= (+ (* 48 x0 ) (* (- 42) x0 ) (* 34 x1 ) (* 47 x1 ) ) 12) (not (>= (+ (* 0 x1 ) (* (- 1) x1 ) (* (- 19) x1 ) ) 40)) (not (>= (+ (* (- 40) x2 ) (* 3 x2 ) (* 4 x0 ) (* 19 x2 ) ) 34)) ))
-(assert (or (= (+ (* (- 7) x1 ) (* 15 x0 ) (* (- 12) x0 ) ) 6) (not (<= (+ (* (- 41) x2 ) (* 10 x0 ) (* 12 x2 ) ) 49)) ))
-(assert (or (<= (+ (* 12 x2 ) (* (- 50) x1 ) ) (- 25)) (= (+ (* (- 29) x2 ) (* (- 11) x2 ) (* (- 8) x2 ) (* (- 3) x2 ) ) (- 39)) ))
-(assert (or (= (+ (* 33 x2 ) (* 44 x0 ) (* (- 4) x1 ) ) 5) (not (< (+ (* 27 x2 ) (* (- 45) x0 ) (* 43 x2 ) (* 40 x0 ) ) 17)) (not (<= (+ (* (- 40) x2 ) (* 3 x0 ) (* 16 x2 ) (* (- 37) x1 ) ) 29)) ))
-(check-sat)
-(push 1)
-(check-sat)
-(push 1)
-(check-sat)
-(push 1)
-(assert (or (= (+ (* (- 21) x0 ) (* 5 x2 ) ) (- 27)) (not (<= (+ (* (- 20) x0 ) (* 19 x0 ) (* (- 50) x1 ) (* (- 24) x0 ) ) (- 32))) ))
-(check-sat)
-(pop 1)
-(assert (not (<= (+ (* 9 x2 ) (* 0 x0 ) (* (- 40) x0 ) (* 49 x2 ) ) (- 11))) )
-(assert (or (not (< (+ (* (- 2) x0 ) (* 2 x2 ) ) 19)) (= (+ (* (- 28) x1 ) (* (- 1) x2 ) (* (- 4) x1 ) ) 38) ))
-(check-sat)
-(push 1)
diff --git a/test/regress/regress0/push-pop/arith/fuzz_3_2.smt2 b/test/regress/regress0/push-pop/arith/fuzz_3_2.smt2
deleted file mode 100644
index cbff796c6..000000000
--- a/test/regress/regress0/push-pop/arith/fuzz_3_2.smt2
+++ /dev/null
@@ -1,34 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-(set-logic QF_LRA)
-(declare-fun x0 () Real)
-(declare-fun x1 () Real)
-(declare-fun x2 () Real)
-(assert (or (not (>= (+ (* 47 x0 ) (* (- 1) x2 ) (* 13 x2 ) ) (- 9))) (not (< (+ (* 23 x1 ) (* (- 50) x0 ) (* 35 x1 ) (* 12 x2 ) ) 14)) ))
-(assert (or (not (<= (+ (* 3 x0 ) (* (- 15) x2 ) (* 34 x0 ) ) (- 39))) (not (> (+ (* (- 35) x0 ) (* 36 x2 ) (* (- 3) x1 ) ) 22)) (not (> (+ (* 46 x2 ) (* 2 x2 ) (* (- 33) x1 ) (* (- 24) x0 ) ) (- 39))) ))
-(assert (or (<= (+ (* 27 x1 ) (* 18 x2 ) (* (- 3) x2 ) ) (- 2)) (= (+ (* 27 x0 ) (* (- 26) x2 ) (* 15 x2 ) (* 23 x0 ) ) 11) ))
-(assert (or (= (+ (* 23 x1 ) (* (- 1) x1 ) (* (- 3) x2 ) (* 49 x1 ) ) (- 26)) (not (> (+ (* (- 30) x0 ) (* (- 1) x0 ) (* 15 x1 ) ) (- 23))) ))
-(check-sat)
-(push 1)
-(assert (or (not (= (+ (* 24 x1 ) (* 5 x2 ) (* (- 18) x1 ) (* (- 40) x2 ) ) (- 6))) (not (< (+ (* 6 x0 ) (* (- 29) x0 ) (* 16 x2 ) ) (- 42))) ))
-(assert (or (= (+ (* (- 33) x0 ) (* 40 x0 ) (* (- 28) x1 ) (* (- 29) x0 ) ) (- 1)) (<= (+ (* (- 17) x1 ) (* 0 x0 ) (* 2 x1 ) ) (- 8)) (not (= (+ (* 39 x2 ) (* 4 x0 ) (* 12 x1 ) (* (- 1) x2 ) ) (- 40))) ))
-(check-sat)
-(push 1)
-(assert (not (<= (+ (* 24 x2 ) (* 9 x2 ) (* 38 x0 ) (* 9 x2 ) ) (- 12))) )
-(check-sat)
-(push 1)
-(check-sat)
-(pop 1)
-(check-sat)
-(push 1)
-(assert (not (> (+ (* (- 33) x1 ) (* 1 x0 ) (* (- 27) x1 ) (* (- 39) x1 ) ) 30)) )
-(check-sat)
-(pop 1)
-(assert (not (>= (+ (* (- 36) x1 ) (* 34 x0 ) (* 39 x0 ) (* 2 x2 ) ) 16)) )
-(check-sat)
diff --git a/test/regress/regress0/push-pop/arith/fuzz_3_3.smt2 b/test/regress/regress0/push-pop/arith/fuzz_3_3.smt2
deleted file mode 100644
index ec072821c..000000000
--- a/test/regress/regress0/push-pop/arith/fuzz_3_3.smt2
+++ /dev/null
@@ -1,27 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-(set-logic QF_LRA)
-(declare-fun x0 () Real)
-(declare-fun x1 () Real)
-(declare-fun x2 () Real)
-(assert (or (= (+ (* (- 47) x1 ) (* 42 x2 ) ) (- 13)) (< (+ (* 5 x2 ) (* 8 x2 ) ) 41) (not (= (+ (* (- 20) x2 ) (* (- 3) x2 ) (* 38 x1 ) (* (- 38) x0 ) ) (- 30))) ))
-(assert (or (= (+ (* (- 23) x2 ) (* 29 x2 ) ) (- 30)) (not (>= (+ (* 46 x1 ) (* (- 49) x0 ) (* (- 17) x0 ) (* 17 x0 ) ) 2)) (not (<= (+ (* (- 32) x0 ) (* 23 x0 ) (* (- 5) x1 ) (* (- 50) x2 ) ) (- 46))) ))
-(check-sat)
-(push 1)
-(assert (or (not (<= (+ (* 36 x2 ) (* 21 x2 ) ) (- 31))) (not (= (+ (* 48 x2 ) (* (- 2) x1 ) (* 32 x0 ) ) 48)) (> (+ (* (- 43) x0 ) (* 7 x2 ) (* 1 x1 ) (* 2 x1 ) ) 15) ))
-(assert (or (not (<= (+ (* (- 27) x1 ) (* 4 x0 ) (* 43 x2 ) ) (- 23))) (not (> (+ (* (- 4) x1 ) (* 31 x2 ) (* 22 x2 ) ) 0)) ))
-(assert (or (not (<= (+ (* 19 x0 ) (* (- 29) x0 ) (* 18 x2 ) (* 6 x0 ) ) 24)) (>= (+ (* 32 x2 ) (* 36 x1 ) (* 41 x1 ) ) 44) ))
-(assert (> (+ (* 30 x0 ) (* (- 9) x2 ) (* (- 22) x0 ) ) 38) )
-(assert (or (>= (+ (* (- 19) x0 ) (* 32 x2 ) (* (- 48) x2 ) ) (- 14)) (>= (+ (* (- 49) x2 ) (* 29 x2 ) (* 15 x1 ) ) (- 34)) ))
-(assert (or (not (< (+ (* (- 6) x0 ) (* (- 43) x1 ) ) 35)) (= (+ (* (- 48) x2 ) (* (- 31) x0 ) ) 34) (not (< (+ (* (- 41) x0 ) (* 45 x2 ) (* (- 17) x1 ) (* (- 38) x2 ) ) 1)) ))
-(assert (or (not (<= (+ (* (- 10) x2 ) (* 45 x1 ) ) 49)) (not (<= (+ (* 38 x2 ) (* 17 x2 ) (* (- 18) x1 ) (* (- 17) x1 ) ) 3)) ))
-(assert (not (= (+ (* 20 x1 ) (* (- 3) x2 ) (* 15 x1 ) ) (- 11))) )
-(check-sat)
-(push 1)
-(assert (not (<= (+ (* (- 24) x1 ) (* 47 x2 ) (* (- 32) x2 ) ) (- 34))) )
-(check-sat)
-(pop 1)
-(check-sat)
diff --git a/test/regress/regress0/push-pop/arith/fuzz_3_4.smt2 b/test/regress/regress0/push-pop/arith/fuzz_3_4.smt2
deleted file mode 100644
index 93be94865..000000000
--- a/test/regress/regress0/push-pop/arith/fuzz_3_4.smt2
+++ /dev/null
@@ -1,35 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-(set-logic QF_LRA)
-(declare-fun x0 () Real)
-(declare-fun x1 () Real)
-(declare-fun x2 () Real)
-(assert (or (< (+ (* (- 15) x0 ) (* (- 4) x0 ) (* (- 33) x2 ) ) (- 21)) (<= (+ (* (- 2) x1 ) (* 12 x1 ) (* 48 x1 ) ) (- 21)) (> (+ (* 43 x2 ) (* (- 6) x2 ) ) (- 26)) ))
-(assert (not (<= (+ (* (- 9) x2 ) (* 28 x0 ) (* (- 26) x0 ) ) (- 2))) )
-(assert (or (= (+ (* (- 43) x0 ) (* 49 x1 ) (* (- 49) x0 ) ) 25) (not (= (+ (* 39 x0 ) (* (- 23) x2 ) ) (- 12))) ))
-(assert (or (not (<= (+ (* 13 x1 ) (* (- 17) x1 ) (* (- 27) x0 ) (* (- 24) x0 ) ) (- 47))) (not (<= (+ (* 5 x1 ) (* (- 31) x1 ) (* (- 40) x2 ) ) 28)) ))
-(assert (or (not (< (+ (* (- 7) x2 ) (* (- 24) x0 ) (* 42 x0 ) ) (- 27))) (not (< (+ (* (- 4) x2 ) (* (- 16) x0 ) (* (- 20) x2 ) ) (- 14))) (not (<= (+ (* 2 x2 ) (* 26 x1 ) ) 12)) ))
-(assert (< (+ (* (- 9) x0 ) (* 45 x1 ) (* (- 12) x2 ) ) 37) )
-(assert (or (= (+ (* 23 x2 ) (* 15 x1 ) (* 32 x1 ) (* (- 30) x2 ) ) 30) (>= (+ (* 36 x1 ) (* (- 36) x0 ) (* (- 22) x2 ) (* 36 x1 ) ) 20) ))
-(assert (or (not (< (+ (* (- 22) x2 ) (* 34 x0 ) ) (- 10))) (not (>= (+ (* (- 38) x2 ) (* (- 46) x2 ) ) 34)) (not (>= (+ (* 24 x0 ) (* (- 48) x1 ) (* 7 x0 ) ) (- 19))) ))
-(assert (<= (+ (* (- 49) x2 ) (* (- 18) x0 ) (* 17 x0 ) ) 18) )
-(assert (or (not (<= (+ (* (- 16) x2 ) (* 24 x1 ) (* (- 38) x2 ) ) 33)) (<= (+ (* 29 x2 ) (* (- 22) x1 ) ) (- 19)) ))
-(assert (or (< (+ (* 19 x1 ) (* (- 30) x0 ) ) 39) (= (+ (* (- 47) x0 ) (* 46 x1 ) (* 37 x0 ) ) (- 28)) (not (= (+ (* (- 12) x0 ) (* 19 x0 ) ) 19)) ))
-(assert (or (not (> (+ (* 35 x1 ) (* 35 x0 ) (* 17 x1 ) (* 46 x2 ) ) 46)) (not (>= (+ (* (- 8) x0 ) (* 43 x1 ) (* (- 26) x2 ) ) 21)) (not (< (+ (* (- 29) x1 ) (* (- 10) x2 ) (* (- 35) x1 ) ) 42)) ))
-(check-sat)
-(push 1)
-(assert (or (>= (+ (* 21 x2 ) (* (- 38) x1 ) (* (- 21) x2 ) ) 28) (= (+ (* 28 x1 ) (* 2 x1 ) (* (- 16) x2 ) (* 47 x0 ) ) (- 45)) ))
-(assert (not (= (+ (* 33 x0 ) (* 26 x0 ) (* 33 x1 ) (* (- 41) x2 ) ) 4)) )
-(assert (or (= (+ (* 40 x1 ) (* (- 23) x1 ) (* 27 x0 ) ) (- 19)) (>= (+ (* (- 29) x0 ) (* (- 12) x0 ) (* 42 x0 ) ) (- 30)) ))
-(assert (or (not (<= (+ (* 35 x0 ) (* 40 x2 ) (* (- 46) x0 ) ) (- 35))) (>= (+ (* 34 x0 ) (* 33 x0 ) (* 27 x0 ) (* (- 21) x1 ) ) (- 4)) ))
-(assert (not (<= (+ (* 42 x1 ) (* (- 4) x1 ) (* (- 30) x0 ) (* (- 23) x0 ) ) (- 44))) )
-(check-sat)
-(pop 1)
-(check-sat)
-(push 1)
-(assert (not (>= (+ (* 3 x1 ) (* 41 x2 ) (* (- 28) x1 ) ) (- 49))) )
-(assert (or (not (<= (+ (* (- 29) x1 ) (* (- 5) x2 ) (* 15 x2 ) (* (- 26) x1 ) ) (- 14))) (>= (+ (* (- 47) x1 ) (* (- 31) x1 ) ) 46) ))
-(check-sat)
diff --git a/test/regress/regress0/push-pop/arith/fuzz_3_5.smt2 b/test/regress/regress0/push-pop/arith/fuzz_3_5.smt2
deleted file mode 100644
index fd9204081..000000000
--- a/test/regress/regress0/push-pop/arith/fuzz_3_5.smt2
+++ /dev/null
@@ -1,37 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-(set-logic QF_LRA)
-(declare-fun x0 () Real)
-(declare-fun x1 () Real)
-(declare-fun x2 () Real)
-(assert (< (+ (* 23 x1 ) (* (- 27) x1 ) (* 22 x0 ) ) (- 22)) )
-(assert (>= (+ (* (- 4) x0 ) (* (- 9) x1 ) (* (- 40) x0 ) (* 40 x2 ) ) (- 27)) )
-(assert (or (not (>= (+ (* (- 34) x0 ) (* (- 36) x1 ) ) (- 26))) (not (>= (+ (* 6 x2 ) (* (- 6) x1 ) ) (- 43))) ))
-(assert (or (>= (+ (* 20 x2 ) (* 12 x0 ) (* (- 50) x1 ) ) (- 46)) (not (> (+ (* 11 x1 ) (* (- 30) x0 ) ) (- 21))) ))
-(check-sat)
-(push 1)
-(assert (or (not (>= (+ (* (- 17) x2 ) (* 25 x1 ) (* 43 x0 ) (* (- 9) x0 ) ) (- 19))) (> (+ (* 4 x1 ) (* (- 22) x1 ) ) 8) (> (+ (* 19 x1 ) (* (- 1) x1 ) (* (- 22) x1 ) (* (- 47) x2 ) ) 46) ))
-(assert (or (> (+ (* (- 12) x1 ) (* 25 x1 ) ) (- 18)) (not (= (+ (* (- 47) x0 ) (* (- 13) x2 ) (* (- 13) x1 ) (* (- 10) x0 ) ) (- 27))) ))
-(check-sat)
-(pop 1)
-(check-sat)
-(push 1)
-(assert (or (not (>= (+ (* 9 x2 ) (* (- 18) x1 ) (* (- 7) x0 ) (* (- 2) x2 ) ) (- 40))) (< (+ (* 2 x1 ) (* (- 4) x1 ) (* (- 48) x2 ) ) 32) ))
-(check-sat)
-(push 1)
-(check-sat)
-(push 1)
-(check-sat)
-(pop 1)
-(assert (not (<= (+ (* (- 10) x2 ) (* (- 20) x1 ) (* 9 x2 ) ) 23)) )
-(check-sat)
-(pop 1)
-(check-sat)
-(push 1)
diff --git a/test/regress/regress0/push-pop/arith/fuzz_3_6.smt2 b/test/regress/regress0/push-pop/arith/fuzz_3_6.smt2
deleted file mode 100644
index 1901016c2..000000000
--- a/test/regress/regress0/push-pop/arith/fuzz_3_6.smt2
+++ /dev/null
@@ -1,36 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: sat
-(set-logic QF_LRA)
-(declare-fun x0 () Real)
-(declare-fun x1 () Real)
-(declare-fun x2 () Real)
-(assert (or (= (+ (* 40 x1 ) (* (- 35) x0 ) (* 10 x1 ) ) 4) (not (= (+ (* 38 x1 ) (* 40 x1 ) (* (- 28) x2 ) ) 44)) (< (+ (* (- 46) x1 ) (* (- 18) x0 ) ) 37) ))
-(assert (or (<= (+ (* (- 4) x2 ) (* (- 29) x1 ) ) (- 37)) (not (> (+ (* (- 10) x2 ) (* 13 x0 ) ) (- 21))) ))
-(check-sat)
-(push 1)
-(assert (or (> (+ (* 21 x0 ) (* 13 x2 ) ) 49) (>= (+ (* 19 x2 ) (* 45 x2 ) (* 9 x1 ) ) (- 45)) ))
-(assert (or (= (+ (* (- 17) x0 ) (* 22 x0 ) ) 12) (<= (+ (* 28 x1 ) (* 27 x0 ) (* 39 x0 ) (* (- 49) x2 ) ) (- 9)) ))
-(assert (or (not (<= (+ (* (- 49) x2 ) (* (- 28) x1 ) (* 24 x2 ) ) 47)) (>= (+ (* 13 x2 ) (* 49 x0 ) (* (- 45) x0 ) (* (- 44) x1 ) ) (- 14)) ))
-(assert (or (> (+ (* 9 x1 ) (* 18 x2 ) ) 31) (not (<= (+ (* 10 x2 ) (* 49 x1 ) (* (- 29) x2 ) (* (- 45) x2 ) ) (- 22))) ))
-(assert (not (<= (+ (* 49 x0 ) (* (- 50) x0 ) (* 0 x1 ) ) 40)) )
-(assert (or (> (+ (* 37 x1 ) (* (- 37) x2 ) ) (- 13)) (not (< (+ (* (- 38) x2 ) (* (- 15) x2 ) (* (- 39) x2 ) (* (- 13) x1 ) ) 20)) (>= (+ (* 8 x2 ) (* 47 x1 ) (* (- 21) x2 ) (* 41 x0 ) ) 13) ))
-(assert (or (> (+ (* (- 26) x2 ) (* 9 x0 ) (* (- 47) x1 ) (* (- 30) x0 ) ) (- 12)) (not (>= (+ (* 3 x0 ) (* 24 x0 ) ) (- 10))) ))
-(check-sat)
-(push 1)
-(assert (or (= (+ (* (- 27) x1 ) (* 34 x2 ) (* (- 14) x2 ) (* (- 24) x1 ) ) (- 38)) (<= (+ (* (- 41) x2 ) (* 36 x1 ) (* (- 44) x2 ) (* (- 19) x2 ) ) 9) ))
-(assert (or (not (<= (+ (* (- 2) x1 ) (* (- 7) x1 ) ) 45)) (<= (+ (* (- 39) x0 ) (* (- 18) x2 ) ) (- 13)) ))
-(assert (or (= (+ (* (- 32) x2 ) (* 37 x2 ) ) (- 26)) (< (+ (* 26 x0 ) (* 4 x1 ) ) (- 32)) ))
-(check-sat)
-(push 1)
-(check-sat)
-(pop 1)
-(assert (or (< (+ (* (- 23) x2 ) (* (- 14) x2 ) (* 3 x1 ) ) (- 39)) (not (> (+ (* 48 x1 ) (* 14 x0 ) ) (- 32))) (>= (+ (* (- 10) x0 ) (* (- 46) x0 ) ) 12) ))
-(check-sat)
-(pop 1)
-(assert (< (+ (* (- 41) x1 ) (* (- 42) x1 ) (* 41 x1 ) ) (- 36)) )
-(check-sat)
diff --git a/test/regress/regress0/push-pop/arith/fuzz_3_7.smt2 b/test/regress/regress0/push-pop/arith/fuzz_3_7.smt2
deleted file mode 100644
index c3b8aadc7..000000000
--- a/test/regress/regress0/push-pop/arith/fuzz_3_7.smt2
+++ /dev/null
@@ -1,36 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-(set-logic QF_LRA)
-(declare-fun x0 () Real)
-(declare-fun x1 () Real)
-(declare-fun x2 () Real)
-(check-sat)
-(push 1)
-(assert (or (not (>= (+ (* 25 x1 ) (* (- 37) x2 ) (* (- 48) x1 ) ) (- 37))) (not (<= (+ (* (- 6) x1 ) (* 0 x2 ) (* 22 x1 ) ) (- 25))) ))
-(assert (or (not (> (+ (* 25 x2 ) (* (- 14) x1 ) ) (- 40))) (not (> (+ (* (- 44) x1 ) (* (- 5) x0 ) ) (- 31))) ))
-(assert (or (< (+ (* (- 31) x2 ) (* (- 42) x1 ) (* (- 7) x0 ) (* (- 4) x2 ) ) 18) (<= (+ (* 8 x1 ) (* (- 46) x2 ) ) (- 4)) ))
-(check-sat)
-(push 1)
-(assert (or (> (+ (* (- 45) x1 ) (* 45 x0 ) (* (- 12) x0 ) (* (- 24) x2 ) ) (- 41)) (< (+ (* 17 x2 ) (* 38 x0 ) (* 16 x2 ) ) 40) ))
-(assert (or (< (+ (* 14 x2 ) (* 45 x0 ) (* (- 13) x0 ) (* (- 40) x0 ) ) 44) (= (+ (* (- 28) x1 ) (* (- 34) x1 ) (* (- 1) x0 ) ) 49) ))
-(assert (or (>= (+ (* 2 x0 ) (* 21 x2 ) ) 21) (< (+ (* (- 5) x2 ) (* 41 x1 ) (* (- 16) x1 ) ) 3) ))
-(assert (= (+ (* (- 17) x2 ) (* 34 x1 ) (* (- 20) x0 ) (* (- 47) x2 ) ) (- 39)) )
-(check-sat)
-(push 1)
-(assert (or (< (+ (* 26 x2 ) (* (- 29) x2 ) (* 3 x2 ) (* (- 42) x0 ) ) (- 10)) (not (<= (+ (* 9 x0 ) (* (- 31) x1 ) ) (- 6))) ))
-(assert (or (not (< (+ (* (- 15) x0 ) (* (- 44) x1 ) (* (- 5) x2 ) (* 25 x2 ) ) 38)) (= (+ (* (- 24) x1 ) (* 20 x0 ) (* 8 x0 ) ) (- 10)) (not (> (+ (* (- 35) x1 ) (* (- 14) x2 ) ) 6)) ))
-(assert (or (> (+ (* (- 13) x0 ) (* 10 x2 ) ) (- 16)) (= (+ (* 38 x0 ) (* 38 x2 ) (* 3 x0 ) ) 8) (not (<= (+ (* 18 x1 ) (* (- 26) x0 ) ) (- 14))) ))
-(check-sat)
-(push 1)
-(assert (or (< (+ (* (- 11) x1 ) (* 42 x1 ) ) (- 50)) (not (> (+ (* (- 24) x0 ) (* 8 x1 ) (* 44 x2 ) (* 27 x0 ) ) 48)) (< (+ (* 2 x0 ) (* 32 x2 ) ) (- 30)) ))
-(assert (>= (+ (* 28 x2 ) (* 29 x1 ) (* (- 7) x2 ) (* 16 x0 ) ) (- 19)) )
-(check-sat)
-(pop 1)
-(assert (or (not (> (+ (* 1 x1 ) (* (- 33) x1 ) (* (- 2) x1 ) ) (- 29))) (>= (+ (* 7 x2 ) (* 4 x0 ) (* 49 x2 ) ) (- 17)) ))
-(check-sat)
-(push 1)
diff --git a/test/regress/regress0/push-pop/arith/fuzz_3_8.smt2 b/test/regress/regress0/push-pop/arith/fuzz_3_8.smt2
deleted file mode 100644
index cebf4d3e6..000000000
--- a/test/regress/regress0/push-pop/arith/fuzz_3_8.smt2
+++ /dev/null
@@ -1,47 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-(set-logic QF_LRA)
-(declare-fun x0 () Real)
-(declare-fun x1 () Real)
-(declare-fun x2 () Real)
-(assert (or (not (> (+ (* (- 25) x0 ) (* 16 x2 ) ) 21)) (>= (+ (* 18 x1 ) (* (- 35) x0 ) (* 18 x0 ) (* 24 x0 ) ) (- 50)) ))
-(assert (> (+ (* (- 40) x0 ) (* 29 x2 ) ) 9) )
-(check-sat)
-(push 1)
-(assert (or (not (> (+ (* 32 x1 ) (* (- 23) x0 ) (* 46 x2 ) ) 11)) (not (< (+ (* (- 12) x0 ) (* (- 40) x0 ) (* 43 x2 ) (* (- 13) x1 ) ) 49)) ))
-(assert (not (>= (+ (* (- 47) x0 ) (* 24 x1 ) ) 32)) )
-(check-sat)
-(pop 1)
-(assert (or (= (+ (* 8 x0 ) (* 31 x1 ) (* 38 x1 ) ) (- 31)) (<= (+ (* (- 16) x1 ) (* (- 22) x2 ) (* 27 x2 ) (* (- 23) x0 ) ) (- 12)) ))
-(assert (or (not (>= (+ (* 43 x1 ) (* (- 29) x1 ) (* 32 x0 ) (* (- 29) x1 ) ) (- 10))) (>= (+ (* 24 x0 ) (* (- 31) x1 ) ) 34) ))
-(assert (or (not (>= (+ (* (- 39) x2 ) (* (- 48) x2 ) (* (- 46) x0 ) (* 2 x1 ) ) 19)) (not (<= (+ (* (- 44) x0 ) (* (- 36) x2 ) ) (- 23))) ))
-(check-sat)
-(push 1)
-(assert (not (<= (+ (* 37 x1 ) (* 19 x2 ) (* 24 x1 ) (* (- 15) x0 ) ) (- 12))) )
-(assert (or (>= (+ (* (- 24) x0 ) (* (- 29) x0 ) (* 40 x2 ) ) (- 39)) (not (<= (+ (* (- 41) x0 ) (* 40 x2 ) (* 41 x1 ) (* (- 3) x0 ) ) 28)) ))
-(check-sat)
-(push 1)
-(check-sat)
-(pop 1)
-(assert (or (not (> (+ (* 38 x0 ) (* (- 47) x0 ) (* 19 x0 ) (* 40 x2 ) ) (- 39))) (not (< (+ (* 30 x2 ) (* 39 x1 ) ) (- 28))) ))
-(assert (or (>= (+ (* (- 12) x0 ) (* (- 26) x1 ) (* (- 13) x1 ) ) 28) (> (+ (* (- 10) x0 ) (* (- 32) x1 ) ) 12) ))
-(check-sat)
-(push 1)
-(assert (< (+ (* (- 33) x2 ) (* (- 13) x0 ) ) 42) )
-(assert (or (not (= (+ (* 17 x2 ) (* 4 x2 ) ) 7)) (<= (+ (* 19 x1 ) (* 22 x1 ) (* 19 x1 ) ) 26) (not (<= (+ (* 9 x2 ) (* 0 x0 ) (* 24 x2 ) ) (- 10))) ))
-(assert (< (+ (* 45 x1 ) (* (- 38) x0 ) (* 19 x2 ) (* 17 x1 ) ) (- 14)) )
-(check-sat)
-(pop 1)
-(assert (not (< (+ (* 10 x0 ) (* (- 31) x2 ) (* (- 21) x0 ) ) (- 29))) )
-(check-sat)
-(pop 1)
-(check-sat)
-(push 1)
diff --git a/test/regress/regress0/push-pop/arith/fuzz_3_9.smt2 b/test/regress/regress0/push-pop/arith/fuzz_3_9.smt2
deleted file mode 100644
index 96aaf9f51..000000000
--- a/test/regress/regress0/push-pop/arith/fuzz_3_9.smt2
+++ /dev/null
@@ -1,52 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-(set-logic QF_LRA)
-(declare-fun x0 () Real)
-(declare-fun x1 () Real)
-(declare-fun x2 () Real)
-(assert (or (not (>= (+ (* (- 32) x2 ) (* (- 10) x0 ) (* (- 33) x0 ) (* 16 x1 ) ) (- 35))) (< (+ (* (- 46) x1 ) (* 44 x1 ) (* (- 15) x1 ) (* (- 22) x2 ) ) (- 20)) ))
-(check-sat)
-(push 1)
-(assert (or (not (< (+ (* (- 1) x2 ) (* (- 26) x0 ) ) 32)) (> (+ (* 39 x1 ) (* 31 x1 ) (* (- 16) x0 ) ) 27) ))
-(check-sat)
-(pop 1)
-(assert (or (> (+ (* 46 x1 ) (* 48 x1 ) (* 26 x0 ) ) 12) (= (+ (* 30 x1 ) (* 1 x0 ) (* 8 x2 ) (* 11 x2 ) ) (- 3)) ))
-(assert (<= (+ (* (- 11) x1 ) (* (- 27) x2 ) (* (- 29) x2 ) (* 23 x1 ) ) 19) )
-(assert (not (> (+ (* 15 x0 ) (* 25 x1 ) ) 47)) )
-(assert (<= (+ (* (- 3) x2 ) (* 1 x1 ) (* 36 x1 ) ) (- 27)) )
-(check-sat)
-(push 1)
-(assert (not (<= (+ (* (- 3) x0 ) (* (- 33) x2 ) (* 7 x2 ) (* (- 37) x0 ) ) 13)) )
-(check-sat)
-(pop 1)
-(assert (or (not (> (+ (* 24 x2 ) (* (- 48) x0 ) (* 18 x1 ) ) (- 46))) (not (< (+ (* (- 31) x1 ) (* 18 x0 ) (* (- 32) x0 ) (* (- 9) x0 ) ) 37)) ))
-(assert (or (not (< (+ (* (- 30) x2 ) (* (- 32) x0 ) (* 27 x0 ) ) 28)) (not (= (+ (* (- 20) x2 ) (* (- 10) x2 ) ) (- 3))) (<= (+ (* 42 x0 ) (* 49 x0 ) (* 28 x0 ) (* 0 x2 ) ) (- 30)) ))
-(assert (or (not (<= (+ (* 15 x2 ) (* 22 x2 ) ) (- 7))) (< (+ (* (- 7) x1 ) (* (- 42) x0 ) (* (- 27) x2 ) (* 19 x2 ) ) 15) (< (+ (* (- 25) x1 ) (* 39 x2 ) (* (- 24) x1 ) (* 17 x1 ) ) (- 48)) ))
-(assert (or (= (+ (* (- 49) x0 ) (* 27 x1 ) (* 16 x0 ) (* (- 26) x2 ) ) (- 24)) (<= (+ (* (- 33) x0 ) (* (- 7) x1 ) (* (- 7) x2 ) (* 1 x0 ) ) 34) ))
-(assert (not (<= (+ (* 30 x0 ) (* 17 x0 ) (* (- 48) x0 ) ) 19)) )
-(check-sat)
-(push 1)
-(check-sat)
-(pop 1)
-(assert (or (not (= (+ (* 24 x2 ) (* 13 x2 ) (* (- 13) x0 ) (* 14 x2 ) ) 8)) (> (+ (* (- 30) x2 ) (* (- 32) x1 ) (* (- 45) x0 ) (* (- 2) x2 ) ) 15) ))
-(assert (or (> (+ (* (- 9) x0 ) (* (- 21) x1 ) ) 3) (not (= (+ (* (- 26) x2 ) (* 3 x0 ) ) (- 10))) ))
-(assert (or (not (> (+ (* (- 20) x0 ) (* 43 x0 ) ) (- 14))) (> (+ (* 13 x1 ) (* (- 38) x1 ) (* 4 x1 ) (* (- 12) x2 ) ) (- 15)) (not (< (+ (* (- 38) x2 ) (* (- 3) x0 ) ) 15)) ))
-(assert (or (>= (+ (* (- 33) x0 ) (* 8 x1 ) (* 16 x0 ) ) 32) (not (<= (+ (* 23 x0 ) (* (- 28) x0 ) (* 30 x1 ) (* 17 x2 ) ) 41)) (>= (+ (* 28 x1 ) (* (- 42) x0 ) ) (- 12)) ))
-(assert (or (not (<= (+ (* 23 x1 ) (* 20 x2 ) (* (- 34) x0 ) (* (- 40) x2 ) ) 28)) (not (= (+ (* 17 x2 ) (* 30 x2 ) ) (- 15))) (<= (+ (* (- 47) x1 ) (* (- 24) x0 ) (* (- 37) x0 ) ) 19) ))
-(assert (or (= (+ (* 14 x0 ) (* (- 22) x1 ) ) 30) (<= (+ (* 28 x1 ) (* 33 x2 ) (* 49 x2 ) ) (- 35)) (<= (+ (* (- 47) x0 ) (* (- 45) x2 ) (* (- 7) x1 ) (* (- 47) x1 ) ) 47) ))
-(check-sat)
-(push 1)
-(assert (or (not (> (+ (* 35 x2 ) (* (- 46) x0 ) ) 26)) (>= (+ (* 3 x1 ) (* 1 x2 ) (* (- 14) x0 ) ) 27) (> (+ (* (- 27) x2 ) (* 20 x2 ) (* 19 x1 ) (* 23 x2 ) ) 39) ))
-(assert (or (not (> (+ (* 20 x0 ) (* 9 x2 ) ) 6)) (not (< (+ (* 19 x1 ) (* (- 45) x1 ) ) (- 45))) ))
-(check-sat)
-(pop 1)
-(check-sat)
-(push 1)
diff --git a/test/regress/regress0/push-pop/arith/fuzz_5_1.smt2 b/test/regress/regress0/push-pop/arith/fuzz_5_1.smt2
deleted file mode 100644
index 05414230a..000000000
--- a/test/regress/regress0/push-pop/arith/fuzz_5_1.smt2
+++ /dev/null
@@ -1,83 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-(set-logic QF_LRA)
-(declare-fun x0 () Real)
-(declare-fun x1 () Real)
-(declare-fun x2 () Real)
-(declare-fun x3 () Real)
-(declare-fun x4 () Real)
-(assert (<= (+ (* 27 x2 ) (* 30 x4 ) ) (- 46)) )
-(assert (or (not (>= (+ (* (- 16) x0 ) (* (- 10) x4 ) (* 21 x3 ) (* (- 46) x0 ) (* 29 x0 ) (* 41 x4 ) (* 32 x0 ) (* 33 x2 ) (* (- 37) x1 ) (* 36 x3 ) (* 18 x3 ) ) (- 34))) (<= (+ (* (- 40) x2 ) (* (- 3) x1 ) (* (- 44) x4 ) (* (- 45) x1 ) (* 20 x1 ) (* 48 x1 ) (* 28 x1 ) (* (- 27) x3 ) (* 35 x4 ) ) (- 45)) ))
-(assert (or (not (= (+ (* (- 41) x2 ) (* 28 x2 ) (* (- 8) x3 ) (* 27 x0 ) (* (- 19) x2 ) (* (- 7) x4 ) ) (- 13))) (< (+ (* (- 26) x3 ) (* (- 44) x4 ) (* 14 x2 ) (* (- 27) x4 ) (* 37 x0 ) (* (- 32) x3 ) (* (- 46) x1 ) (* 23 x2 ) ) 15) ))
-(assert (not (>= (+ (* 31 x1 ) (* (- 15) x1 ) (* 25 x2 ) (* 27 x3 ) (* 23 x1 ) ) (- 48))) )
-(assert (or (< (+ (* (- 38) x2 ) (* 15 x3 ) (* 9 x3 ) (* 25 x0 ) (* 37 x0 ) (* 39 x2 ) (* 41 x1 ) (* (- 18) x3 ) ) (- 26)) (not (> (+ (* 15 x2 ) (* 18 x1 ) (* 35 x3 ) (* 20 x1 ) (* 31 x1 ) (* (- 25) x2 ) (* 30 x3 ) (* 26 x1 ) (* (- 37) x2 ) (* 27 x4 ) (* (- 32) x0 ) ) 16)) ))
-(assert (or (not (= (+ (* 27 x3 ) (* (- 50) x1 ) (* (- 28) x2 ) ) (- 30))) (not (>= (+ (* (- 50) x3 ) (* (- 15) x0 ) (* 15 x3 ) (* 19 x2 ) ) (- 8))) ))
-(assert (or (>= (+ (* 4 x1 ) (* 27 x3 ) (* 15 x3 ) (* (- 39) x4 ) (* (- 45) x4 ) (* 38 x3 ) (* 33 x4 ) (* 40 x1 ) (* (- 26) x2 ) (* 44 x1 ) ) (- 39)) (> (+ (* 4 x0 ) (* (- 26) x3 ) (* (- 24) x2 ) ) (- 40)) ))
-(assert (not (> (+ (* (- 39) x1 ) (* 32 x4 ) ) 19)) )
-(assert (or (= (+ (* (- 13) x1 ) (* (- 16) x3 ) ) 33) (not (> (+ (* 47 x4 ) (* (- 3) x4 ) (* (- 49) x3 ) (* (- 15) x1 ) (* (- 39) x1 ) (* 20 x1 ) (* 44 x4 ) (* 30 x4 ) (* 5 x1 ) (* 49 x4 ) (* 23 x0 ) ) 41)) ))
-(assert (or (< (+ (* 41 x0 ) (* (- 50) x1 ) (* 41 x3 ) (* (- 37) x4 ) (* 27 x4 ) (* (- 32) x4 ) (* (- 43) x3 ) (* (- 46) x3 ) (* (- 28) x3 ) (* 31 x4 ) (* 45 x2 ) ) 31) (not (= (+ (* (- 19) x0 ) (* (- 30) x4 ) (* (- 24) x4 ) (* (- 27) x1 ) (* 2 x1 ) (* 28 x4 ) (* (- 40) x2 ) ) 5)) (>= (+ (* 19 x2 ) (* (- 20) x0 ) (* 35 x1 ) (* (- 29) x2 ) (* (- 5) x0 ) (* (- 49) x1 ) (* (- 9) x4 ) (* 3 x0 ) (* (- 36) x3 ) (* 27 x0 ) ) (- 13)) ))
-(assert (or (> (+ (* 42 x4 ) (* 44 x4 ) (* (- 4) x3 ) (* 38 x3 ) (* (- 43) x2 ) ) (- 25)) (> (+ (* (- 16) x1 ) (* 5 x4 ) (* (- 6) x2 ) ) 11) ))
-(assert (or (> (+ (* 1 x3 ) (* (- 10) x4 ) (* 20 x1 ) (* 20 x4 ) (* (- 26) x4 ) ) (- 33)) (< (+ (* 40 x2 ) (* (- 35) x2 ) ) (- 2)) ))
-(assert (or (<= (+ (* (- 5) x4 ) (* (- 35) x3 ) (* 45 x3 ) (* 44 x0 ) (* (- 31) x1 ) (* (- 50) x4 ) (* 20 x1 ) (* 8 x0 ) (* (- 11) x1 ) (* (- 40) x3 ) (* 27 x0 ) ) 2) (= (+ (* (- 5) x1 ) (* (- 16) x2 ) (* (- 34) x2 ) (* (- 47) x4 ) (* 20 x3 ) (* 48 x3 ) ) 14) ))
-(assert (or (not (< (+ (* 17 x2 ) (* (- 32) x4 ) ) (- 43))) (= (+ (* (- 17) x1 ) (* 30 x4 ) (* 20 x2 ) (* (- 1) x2 ) (* 5 x1 ) (* (- 14) x2 ) (* 2 x3 ) (* 6 x3 ) (* 24 x1 ) (* 23 x3 ) (* 0 x4 ) ) (- 14)) (< (+ (* 27 x1 ) (* 48 x2 ) (* 4 x1 ) (* 40 x3 ) (* (- 29) x4 ) (* 14 x3 ) (* 19 x2 ) (* (- 10) x4 ) (* (- 21) x0 ) (* (- 35) x4 ) ) (- 13)) ))
-(assert (or (<= (+ (* 7 x3 ) (* 13 x3 ) (* (- 19) x0 ) ) (- 10)) (= (+ (* (- 37) x3 ) (* (- 25) x2 ) (* (- 33) x1 ) (* (- 41) x4 ) (* 10 x2 ) (* (- 6) x1 ) ) (- 9)) (> (+ (* (- 1) x3 ) (* 15 x1 ) (* (- 35) x2 ) (* 30 x4 ) (* (- 9) x3 ) (* 21 x2 ) (* 44 x1 ) ) (- 17)) ))
-(check-sat)
-(push 1)
-(assert (<= (+ (* 5 x2 ) (* 44 x2 ) (* 36 x3 ) (* 3 x0 ) (* 16 x3 ) ) 48) )
-(check-sat)
-(pop 1)
-(check-sat)
-(push 1)
-(assert (not (<= (+ (* (- 39) x4 ) (* (- 40) x1 ) ) (- 45))) )
-(assert (= (+ (* 35 x3 ) (* 20 x1 ) (* (- 49) x4 ) (* (- 32) x3 ) (* 33 x3 ) (* 4 x1 ) (* (- 34) x4 ) (* 0 x4 ) (* (- 50) x3 ) ) 42) )
-(assert (or (> (+ (* 2 x3 ) (* (- 33) x4 ) (* 15 x1 ) (* 34 x4 ) (* (- 3) x2 ) (* (- 16) x1 ) (* (- 14) x3 ) (* 39 x2 ) ) 21) (not (<= (+ (* 39 x2 ) (* 22 x2 ) (* (- 50) x0 ) (* (- 23) x0 ) (* (- 48) x3 ) (* (- 31) x3 ) (* 9 x1 ) (* (- 23) x1 ) (* 27 x1 ) (* 29 x3 ) ) (- 26))) (not (<= (+ (* 15 x0 ) (* 26 x1 ) (* 11 x0 ) (* 24 x4 ) (* (- 9) x3 ) (* (- 5) x2 ) (* 4 x3 ) (* 24 x2 ) (* (- 5) x3 ) (* 16 x3 ) (* 31 x2 ) ) 43)) ))
-(assert (or (>= (+ (* 27 x4 ) (* 36 x1 ) (* 27 x4 ) (* (- 18) x0 ) (* (- 1) x4 ) (* 44 x1 ) (* (- 45) x2 ) (* 38 x4 ) (* (- 39) x2 ) (* (- 30) x2 ) ) (- 41)) (not (< (+ (* (- 18) x3 ) (* 48 x1 ) (* 14 x3 ) (* (- 28) x2 ) (* 46 x1 ) (* 38 x4 ) (* (- 26) x0 ) ) (- 30))) ))
-(assert (or (= (+ (* (- 1) x4 ) (* 46 x0 ) (* 19 x3 ) (* 24 x3 ) (* (- 43) x1 ) (* 14 x2 ) (* (- 7) x2 ) (* 35 x2 ) ) 9) (not (< (+ (* (- 34) x3 ) (* 18 x1 ) (* 11 x2 ) (* (- 33) x0 ) (* 45 x4 ) (* (- 27) x0 ) (* 42 x2 ) (* (- 40) x1 ) (* (- 10) x2 ) ) 34)) ))
-(assert (or (not (>= (+ (* 15 x1 ) (* (- 19) x1 ) (* 34 x4 ) (* 9 x4 ) (* (- 25) x2 ) (* (- 5) x3 ) (* 15 x1 ) (* 27 x4 ) (* 49 x2 ) (* (- 41) x1 ) ) 42)) (not (< (+ (* (- 43) x4 ) (* (- 38) x4 ) (* (- 3) x0 ) (* (- 43) x3 ) ) 15)) ))
-(assert (or (>= (+ (* 18 x4 ) (* 19 x4 ) (* (- 13) x0 ) (* 30 x1 ) (* 48 x4 ) (* 17 x1 ) (* 25 x0 ) (* 33 x2 ) (* 6 x1 ) (* (- 24) x1 ) (* (- 24) x0 ) ) (- 25)) (not (<= (+ (* 25 x1 ) (* (- 26) x2 ) (* (- 37) x1 ) (* 2 x4 ) (* (- 40) x2 ) (* (- 30) x1 ) (* 6 x2 ) (* (- 25) x0 ) ) 25)) ))
-(assert (or (>= (+ (* 7 x1 ) (* 46 x2 ) (* 40 x0 ) (* (- 29) x2 ) (* 30 x0 ) (* (- 46) x3 ) (* 0 x4 ) (* (- 1) x2 ) (* 1 x4 ) ) (- 39)) (not (<= (+ (* (- 8) x2 ) (* 29 x0 ) (* (- 15) x4 ) (* 40 x4 ) (* 25 x0 ) (* (- 16) x2 ) (* (- 15) x3 ) (* (- 2) x4 ) ) (- 42))) ))
-(assert (or (not (<= (+ (* (- 19) x3 ) (* (- 37) x4 ) (* 47 x4 ) (* 8 x4 ) (* (- 37) x2 ) (* 34 x0 ) (* 26 x4 ) (* (- 7) x0 ) ) (- 31))) (> (+ (* 44 x3 ) (* (- 45) x3 ) (* 11 x2 ) (* (- 28) x2 ) ) 20) (not (> (+ (* 43 x3 ) (* (- 5) x3 ) (* 4 x0 ) (* (- 6) x3 ) (* 5 x2 ) (* 14 x1 ) (* (- 49) x3 ) ) (- 43))) ))
-(check-sat)
-(pop 1)
-(assert (or (>= (+ (* 16 x3 ) (* (- 8) x1 ) (* 8 x3 ) (* (- 2) x0 ) (* 30 x3 ) ) (- 9)) (not (>= (+ (* 30 x1 ) (* (- 44) x0 ) (* 11 x2 ) (* 21 x0 ) ) (- 36))) (not (< (+ (* 44 x2 ) (* 33 x2 ) (* 15 x1 ) (* (- 41) x4 ) (* 40 x0 ) (* 32 x2 ) (* (- 45) x3 ) (* (- 19) x2 ) (* (- 10) x2 ) (* 26 x2 ) (* (- 2) x0 ) ) (- 16))) ))
-(assert (or (not (< (+ (* 6 x0 ) (* (- 5) x2 ) (* 24 x1 ) (* (- 26) x3 ) (* 28 x2 ) (* 2 x3 ) ) (- 30))) (<= (+ (* (- 2) x2 ) (* (- 3) x1 ) ) (- 10)) (not (> (+ (* (- 41) x4 ) (* 20 x3 ) (* (- 46) x0 ) ) (- 4))) ))
-(assert (not (> (+ (* (- 26) x0 ) (* 4 x2 ) (* 22 x4 ) (* (- 24) x3 ) (* (- 6) x4 ) (* 32 x1 ) (* (- 21) x0 ) (* 35 x4 ) ) 40)) )
-(check-sat)
-(push 1)
-(assert (or (not (= (+ (* (- 23) x0 ) (* 30 x0 ) (* 6 x0 ) (* (- 47) x3 ) (* (- 46) x4 ) (* 23 x3 ) (* 17 x0 ) ) (- 18))) (< (+ (* 24 x4 ) (* (- 45) x1 ) (* 9 x0 ) (* (- 39) x3 ) (* 49 x2 ) (* (- 21) x1 ) (* 8 x3 ) (* 44 x3 ) (* (- 2) x0 ) (* (- 32) x2 ) ) (- 46)) ))
-(assert (or (not (< (+ (* 29 x1 ) (* 8 x4 ) (* (- 50) x2 ) (* 31 x4 ) (* (- 11) x1 ) (* (- 44) x0 ) (* 47 x2 ) (* 28 x0 ) (* (- 19) x3 ) ) (- 14))) (not (>= (+ (* (- 23) x2 ) (* 41 x2 ) (* (- 26) x1 ) (* (- 2) x0 ) (* 7 x0 ) (* (- 13) x2 ) (* 36 x0 ) (* (- 50) x2 ) (* 45 x2 ) ) 41)) ))
-(check-sat)
-(pop 1)
-(assert (or (= (+ (* (- 37) x0 ) (* 17 x4 ) (* 12 x2 ) (* (- 9) x4 ) (* (- 3) x0 ) (* 46 x0 ) (* 28 x0 ) (* 24 x0 ) (* (- 30) x0 ) (* (- 46) x1 ) (* (- 22) x2 ) ) (- 50)) (> (+ (* 47 x0 ) (* (- 16) x2 ) (* 4 x4 ) (* (- 39) x2 ) (* (- 11) x1 ) (* 18 x0 ) ) 31) (not (> (+ (* (- 39) x3 ) (* 33 x3 ) ) 35)) ))
-(assert (or (> (+ (* (- 50) x2 ) (* 17 x2 ) (* (- 48) x0 ) (* (- 32) x4 ) (* (- 2) x2 ) (* (- 14) x2 ) (* 44 x4 ) (* 34 x1 ) ) 12) (not (>= (+ (* (- 5) x4 ) (* 38 x0 ) (* (- 24) x4 ) (* 35 x3 ) (* 33 x4 ) (* (- 47) x3 ) (* 8 x0 ) (* (- 9) x0 ) (* (- 16) x2 ) (* (- 1) x1 ) (* (- 15) x0 ) ) (- 12))) (not (< (+ (* 45 x1 ) (* 0 x0 ) (* 36 x0 ) (* 15 x0 ) (* 26 x4 ) (* (- 40) x3 ) ) 11)) ))
-(assert (not (> (+ (* (- 4) x0 ) (* 47 x1 ) (* (- 13) x0 ) (* 17 x4 ) (* (- 13) x4 ) (* (- 44) x4 ) (* (- 5) x3 ) (* (- 20) x3 ) (* 28 x2 ) ) 18)) )
-(assert (or (not (< (+ (* (- 18) x0 ) (* (- 48) x1 ) (* 37 x4 ) (* 46 x0 ) (* 11 x0 ) (* (- 33) x4 ) (* (- 5) x0 ) ) 35)) (>= (+ (* (- 13) x3 ) (* 36 x1 ) (* (- 7) x4 ) (* 37 x0 ) (* (- 37) x2 ) (* (- 42) x2 ) (* (- 11) x4 ) ) (- 9)) (= (+ (* 27 x2 ) (* 42 x1 ) (* (- 3) x1 ) (* (- 9) x4 ) (* 44 x2 ) (* (- 24) x3 ) (* (- 49) x3 ) (* 39 x0 ) (* 36 x0 ) (* 7 x4 ) ) (- 25)) ))
-(assert (or (< (+ (* (- 27) x4 ) (* 43 x4 ) ) (- 22)) (not (>= (+ (* (- 36) x3 ) (* (- 47) x1 ) (* (- 30) x2 ) ) (- 1))) (> (+ (* (- 37) x1 ) (* (- 29) x4 ) (* 19 x1 ) (* 26 x3 ) (* (- 50) x3 ) (* 23 x1 ) (* 38 x2 ) (* 23 x4 ) (* 27 x3 ) (* 6 x0 ) ) 8) ))
-(assert (or (not (<= (+ (* (- 25) x1 ) (* (- 46) x3 ) (* (- 11) x0 ) (* 6 x4 ) (* (- 30) x3 ) (* (- 7) x2 ) (* (- 30) x1 ) (* 35 x4 ) ) (- 4))) (not (<= (+ (* 8 x1 ) (* (- 27) x2 ) (* 32 x2 ) (* 39 x1 ) (* 21 x3 ) ) 21)) (< (+ (* (- 30) x0 ) (* 1 x3 ) (* (- 12) x2 ) (* 4 x1 ) (* (- 31) x1 ) (* 27 x2 ) (* 23 x1 ) (* 31 x2 ) ) 18) ))
-(assert (or (< (+ (* (- 30) x1 ) (* 44 x2 ) (* (- 26) x2 ) (* 42 x0 ) ) 7) (not (= (+ (* (- 8) x3 ) (* (- 26) x0 ) (* 4 x1 ) (* 25 x0 ) ) 33)) ))
-(assert (not (> (+ (* 27 x2 ) (* 11 x2 ) (* (- 12) x3 ) (* (- 9) x4 ) (* 28 x4 ) (* (- 46) x2 ) (* (- 24) x0 ) (* (- 15) x3 ) ) (- 41))) )
-(check-sat)
-(push 1)
-(assert (or (= (+ (* (- 49) x3 ) (* (- 15) x1 ) (* (- 43) x0 ) (* 20 x0 ) (* 48 x1 ) (* (- 41) x3 ) (* 23 x3 ) (* 29 x3 ) (* (- 29) x3 ) ) 46) (> (+ (* 29 x3 ) (* 34 x4 ) (* (- 33) x2 ) (* 33 x4 ) (* 9 x0 ) (* 26 x4 ) ) (- 4)) ))
-(assert (not (< (+ (* (- 6) x1 ) (* 5 x2 ) (* (- 14) x2 ) (* (- 23) x1 ) (* (- 15) x4 ) (* 3 x2 ) (* (- 35) x0 ) (* 44 x0 ) ) 1)) )
-(assert (or (not (> (+ (* (- 37) x1 ) (* (- 18) x4 ) (* (- 19) x2 ) (* (- 37) x1 ) (* 17 x4 ) (* (- 43) x2 ) (* (- 24) x4 ) ) (- 7))) (>= (+ (* 46 x3 ) (* 8 x0 ) (* 45 x3 ) ) (- 46)) (not (<= (+ (* (- 32) x4 ) (* 30 x4 ) (* 30 x3 ) (* (- 15) x3 ) (* 14 x2 ) (* 28 x0 ) (* 7 x3 ) (* 8 x0 ) ) (- 14))) ))
-(assert (or (not (>= (+ (* 45 x3 ) (* 3 x4 ) ) (- 8))) (not (< (+ (* (- 37) x0 ) (* (- 14) x1 ) (* 34 x4 ) (* 9 x4 ) (* (- 17) x2 ) ) (- 27))) ))
-(assert (or (>= (+ (* (- 32) x1 ) (* (- 11) x4 ) (* 16 x0 ) (* 0 x0 ) (* 41 x1 ) (* 5 x3 ) (* (- 28) x4 ) (* 27 x3 ) (* (- 11) x3 ) (* (- 16) x3 ) ) (- 26)) (not (> (+ (* 18 x2 ) (* (- 19) x0 ) (* 4 x1 ) (* 45 x0 ) (* (- 41) x2 ) (* (- 18) x4 ) ) 26)) (>= (+ (* (- 13) x3 ) (* 15 x0 ) (* 33 x2 ) (* (- 50) x2 ) (* (- 43) x0 ) (* 1 x1 ) (* 29 x2 ) (* 11 x4 ) (* 21 x4 ) ) 42) ))
-(assert (<= (+ (* 9 x4 ) (* (- 40) x3 ) (* (- 33) x1 ) (* 46 x1 ) ) (- 43)) )
-(assert (or (<= (+ (* 9 x1 ) (* 7 x3 ) (* 7 x0 ) (* 11 x3 ) (* 37 x0 ) (* 13 x4 ) (* (- 40) x4 ) (* (- 13) x2 ) (* (- 29) x3 ) (* 46 x1 ) (* 2 x1 ) ) 15) (= (+ (* 12 x3 ) (* 17 x1 ) (* (- 36) x4 ) (* (- 18) x1 ) (* 38 x1 ) (* 9 x1 ) (* (- 38) x1 ) ) (- 4)) (not (< (+ (* (- 36) x3 ) (* 11 x0 ) (* 46 x1 ) (* (- 31) x4 ) (* 25 x0 ) (* (- 50) x4 ) (* 40 x4 ) (* 41 x4 ) ) 7)) ))
-(assert (>= (+ (* 12 x4 ) (* (- 24) x0 ) (* (- 11) x4 ) (* 3 x2 ) (* (- 38) x2 ) (* (- 48) x2 ) (* 5 x4 ) (* 33 x3 ) ) (- 23)) )
-(assert (> (+ (* 15 x3 ) (* 31 x1 ) (* 8 x1 ) ) (- 33)) )
-(assert (not (<= (+ (* (- 41) x4 ) (* 33 x4 ) (* (- 29) x2 ) (* (- 20) x1 ) (* (- 28) x0 ) ) (- 13))) )
-(assert (or (not (< (+ (* 23 x3 ) (* (- 29) x1 ) (* (- 23) x0 ) (* (- 7) x4 ) (* 21 x2 ) (* (- 21) x0 ) ) (- 33))) (not (< (+ (* 30 x3 ) (* (- 30) x2 ) (* (- 30) x3 ) (* 30 x2 ) (* (- 10) x2 ) (* (- 3) x3 ) (* (- 22) x4 ) (* (- 48) x0 ) (* (- 9) x3 ) (* (- 6) x4 ) ) (- 30))) (not (<= (+ (* 2 x2 ) (* (- 31) x4 ) ) 3)) ))
-(check-sat)
-(pop 1)
-(check-sat)
-(push 1)
diff --git a/test/regress/regress0/push-pop/arith/fuzz_5_2.smt2 b/test/regress/regress0/push-pop/arith/fuzz_5_2.smt2
deleted file mode 100644
index 9c387d89f..000000000
--- a/test/regress/regress0/push-pop/arith/fuzz_5_2.smt2
+++ /dev/null
@@ -1,91 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-(set-logic QF_LRA)
-(declare-fun x0 () Real)
-(declare-fun x1 () Real)
-(declare-fun x2 () Real)
-(declare-fun x3 () Real)
-(declare-fun x4 () Real)
-(assert (> (+ (* (- 32) x4 ) (* 46 x3 ) ) 21) )
-(assert (< (+ (* 12 x3 ) (* (- 7) x2 ) (* (- 7) x0 ) (* (- 49) x1 ) (* (- 32) x3 ) ) (- 17)) )
-(assert (or (not (>= (+ (* (- 10) x2 ) (* 37 x1 ) (* 33 x0 ) (* 33 x0 ) ) 29)) (not (<= (+ (* 25 x3 ) (* 32 x4 ) (* (- 27) x3 ) (* 13 x2 ) (* (- 22) x1 ) (* (- 8) x4 ) (* (- 1) x4 ) (* 9 x4 ) (* 1 x1 ) (* 40 x1 ) ) 41)) ))
-(assert (not (= (+ (* (- 12) x1 ) (* 5 x3 ) (* 36 x4 ) (* (- 35) x0 ) (* 18 x0 ) ) (- 12))) )
-(assert (>= (+ (* (- 25) x4 ) (* (- 20) x4 ) (* 12 x2 ) (* 3 x1 ) (* (- 26) x3 ) (* (- 20) x2 ) (* (- 13) x2 ) (* 35 x0 ) (* 30 x0 ) ) (- 10)) )
-(assert (or (not (= (+ (* (- 48) x1 ) (* 25 x0 ) (* 13 x4 ) ) 24)) (not (> (+ (* (- 24) x0 ) (* 24 x1 ) ) (- 19))) ))
-(assert (not (< (+ (* (- 12) x2 ) (* (- 25) x3 ) ) (- 32))) )
-(assert (not (<= (+ (* 28 x4 ) (* 11 x4 ) (* 0 x3 ) (* (- 22) x4 ) (* (- 37) x0 ) (* 2 x3 ) (* 39 x1 ) ) (- 24))) )
-(assert (or (not (>= (+ (* 34 x3 ) (* 36 x2 ) (* (- 39) x4 ) (* 33 x2 ) (* 39 x1 ) (* 22 x3 ) (* 9 x3 ) ) (- 17))) (not (= (+ (* 19 x1 ) (* (- 45) x3 ) (* 16 x1 ) (* (- 50) x1 ) (* (- 23) x1 ) ) (- 25))) ))
-(assert (or (<= (+ (* 24 x3 ) (* (- 17) x1 ) ) 7) (= (+ (* (- 8) x1 ) (* 39 x1 ) (* (- 5) x1 ) (* 19 x4 ) (* (- 28) x1 ) (* (- 11) x4 ) ) 38) ))
-(assert (< (+ (* 35 x4 ) (* (- 28) x3 ) (* (- 11) x0 ) (* 49 x3 ) (* 7 x2 ) (* 44 x3 ) (* (- 10) x4 ) (* (- 28) x4 ) (* (- 45) x1 ) (* 30 x4 ) (* (- 13) x1 ) ) (- 48)) )
-(assert (or (> (+ (* 28 x4 ) (* (- 16) x1 ) (* 47 x0 ) (* (- 25) x3 ) (* 6 x1 ) ) 26) (not (<= (+ (* 49 x4 ) (* (- 7) x2 ) (* (- 17) x3 ) (* 42 x0 ) (* (- 23) x1 ) (* (- 30) x4 ) (* 7 x0 ) (* (- 44) x3 ) (* 38 x2 ) (* (- 36) x1 ) ) (- 28))) ))
-(assert (or (>= (+ (* (- 45) x3 ) (* (- 47) x2 ) (* (- 37) x2 ) (* 19 x2 ) ) 7) (= (+ (* (- 30) x4 ) (* (- 2) x1 ) (* (- 34) x1 ) (* 6 x2 ) (* (- 15) x2 ) (* (- 40) x4 ) (* (- 32) x1 ) ) (- 37)) ))
-(assert (not (<= (+ (* 24 x1 ) (* 18 x0 ) (* (- 3) x2 ) (* 46 x2 ) (* (- 7) x4 ) (* (- 5) x4 ) ) 14)) )
-(assert (or (not (> (+ (* (- 17) x3 ) (* (- 40) x0 ) (* 41 x4 ) (* (- 41) x0 ) (* (- 17) x2 ) (* (- 28) x3 ) (* 4 x3 ) (* 19 x3 ) (* (- 15) x2 ) ) 18)) (<= (+ (* (- 12) x0 ) (* 21 x0 ) (* (- 12) x0 ) ) (- 22)) ))
-(assert (or (not (> (+ (* (- 29) x3 ) (* (- 14) x4 ) (* (- 17) x0 ) (* 36 x4 ) (* 42 x2 ) ) (- 10))) (not (<= (+ (* (- 16) x2 ) (* (- 24) x1 ) (* (- 17) x1 ) (* (- 29) x4 ) (* 47 x1 ) (* 34 x4 ) (* 2 x3 ) ) (- 20))) ))
-(assert (or (< (+ (* 19 x1 ) (* 40 x1 ) (* 3 x0 ) (* (- 3) x0 ) (* (- 50) x0 ) (* 5 x2 ) (* (- 9) x4 ) ) 31) (> (+ (* 33 x4 ) (* (- 50) x2 ) (* (- 15) x4 ) (* (- 1) x3 ) (* (- 10) x3 ) (* 41 x0 ) (* (- 42) x4 ) ) (- 38)) ))
-(check-sat)
-(push 1)
-(assert (or (= (+ (* 36 x1 ) (* 23 x1 ) (* 24 x1 ) (* 38 x0 ) (* 3 x1 ) (* (- 14) x2 ) (* 28 x0 ) (* 37 x0 ) ) 33) (<= (+ (* 34 x4 ) (* 2 x4 ) (* (- 20) x1 ) (* 18 x3 ) (* 39 x3 ) (* (- 44) x0 ) (* 18 x1 ) (* (- 1) x0 ) (* (- 15) x3 ) ) (- 13)) (<= (+ (* (- 10) x2 ) (* (- 11) x0 ) (* 30 x4 ) (* 22 x3 ) (* (- 6) x0 ) (* 35 x3 ) (* 6 x4 ) (* 2 x2 ) ) (- 26)) ))
-(assert (or (not (<= (+ (* (- 9) x0 ) (* (- 27) x4 ) (* 6 x3 ) ) 21)) (not (> (+ (* 18 x0 ) (* 42 x4 ) (* (- 7) x0 ) (* 6 x1 ) (* 26 x4 ) (* 38 x3 ) (* 10 x2 ) (* (- 41) x3 ) (* 37 x2 ) (* 30 x0 ) ) (- 41))) ))
-(assert (or (not (= (+ (* 48 x1 ) (* (- 38) x3 ) (* (- 15) x3 ) (* (- 2) x2 ) (* (- 17) x2 ) (* 45 x3 ) (* 32 x4 ) (* 32 x1 ) (* (- 46) x3 ) (* (- 34) x4 ) ) 15)) (not (<= (+ (* 14 x1 ) (* 17 x0 ) (* (- 33) x2 ) ) 20)) (<= (+ (* 19 x2 ) (* (- 25) x0 ) ) 19) ))
-(assert (or (not (>= (+ (* 29 x4 ) (* (- 28) x1 ) (* (- 23) x3 ) (* (- 50) x3 ) (* 43 x3 ) (* 31 x0 ) ) 7)) (not (< (+ (* 21 x0 ) (* 11 x3 ) (* (- 24) x1 ) (* (- 2) x2 ) (* 2 x3 ) (* (- 37) x3 ) (* (- 34) x3 ) ) (- 38))) ))
-(assert (not (<= (+ (* 29 x2 ) (* (- 38) x0 ) (* 17 x4 ) (* 31 x0 ) (* 44 x0 ) (* (- 10) x4 ) (* 18 x0 ) ) (- 49))) )
-(assert (< (+ (* 44 x4 ) (* (- 42) x4 ) (* 28 x0 ) (* 7 x0 ) (* (- 33) x0 ) (* 49 x4 ) (* 19 x1 ) ) (- 39)) )
-(assert (or (>= (+ (* 39 x3 ) (* (- 30) x4 ) (* 27 x4 ) (* 5 x4 ) (* (- 10) x2 ) (* 2 x1 ) (* (- 28) x4 ) (* (- 5) x2 ) ) 2) (= (+ (* 44 x1 ) (* (- 45) x1 ) (* 39 x3 ) (* (- 46) x1 ) (* (- 18) x0 ) (* (- 50) x3 ) (* (- 38) x3 ) (* 32 x1 ) (* (- 23) x1 ) (* 4 x4 ) (* 47 x2 ) ) 8) (not (= (+ (* (- 27) x3 ) (* 3 x1 ) (* (- 32) x2 ) ) (- 3))) ))
-(assert (or (not (> (+ (* 17 x2 ) (* (- 43) x0 ) (* (- 39) x2 ) (* 38 x0 ) ) 43)) (not (<= (+ (* (- 16) x4 ) (* (- 21) x4 ) (* (- 42) x3 ) (* 36 x1 ) (* (- 37) x1 ) ) 41)) ))
-(assert (or (> (+ (* 34 x3 ) (* 22 x1 ) ) 1) (not (<= (+ (* 1 x4 ) (* (- 45) x1 ) (* 28 x0 ) (* 34 x2 ) (* 26 x0 ) (* 3 x1 ) (* (- 33) x4 ) (* 18 x1 ) (* 33 x2 ) (* 15 x4 ) ) (- 25))) ))
-(assert (or (> (+ (* (- 43) x2 ) (* (- 16) x4 ) (* 48 x0 ) (* (- 9) x0 ) (* (- 48) x0 ) (* (- 3) x1 ) (* (- 14) x4 ) (* (- 45) x1 ) (* (- 38) x1 ) (* 35 x2 ) ) (- 18)) (< (+ (* (- 5) x2 ) (* 0 x2 ) (* 13 x1 ) (* 28 x0 ) (* 29 x3 ) (* (- 45) x2 ) (* 0 x0 ) (* 35 x1 ) (* (- 33) x2 ) ) 35) (< (+ (* (- 3) x0 ) (* (- 27) x0 ) (* 8 x2 ) (* 2 x0 ) (* 4 x4 ) ) 48) ))
-(check-sat)
-(push 1)
-(assert (= (+ (* (- 33) x3 ) (* 8 x2 ) (* (- 5) x4 ) (* (- 27) x1 ) (* 31 x4 ) (* (- 30) x2 ) (* 17 x2 ) (* (- 31) x3 ) (* 2 x2 ) ) 27) )
-(assert (not (= (+ (* 39 x2 ) (* 46 x3 ) (* (- 13) x1 ) (* 17 x0 ) (* 39 x1 ) (* (- 25) x0 ) ) 36)) )
-(assert (or (> (+ (* (- 2) x1 ) (* (- 9) x2 ) (* (- 20) x3 ) ) (- 4)) (> (+ (* (- 13) x4 ) (* (- 1) x2 ) (* 45 x2 ) (* 15 x2 ) (* (- 10) x4 ) (* 41 x2 ) (* (- 40) x1 ) ) 18) ))
-(assert (or (not (<= (+ (* (- 8) x4 ) (* (- 21) x3 ) (* (- 44) x1 ) ) 9)) (= (+ (* (- 27) x2 ) (* 49 x2 ) (* (- 14) x4 ) (* (- 28) x1 ) ) (- 49)) (< (+ (* (- 7) x3 ) (* 44 x3 ) ) 13) ))
-(assert (or (not (<= (+ (* (- 38) x2 ) (* 13 x1 ) (* (- 5) x0 ) (* 24 x2 ) (* (- 16) x4 ) (* (- 29) x0 ) ) 35)) (not (< (+ (* (- 39) x1 ) (* (- 40) x1 ) (* 37 x4 ) (* 47 x1 ) (* 19 x1 ) (* 46 x2 ) ) (- 44))) ))
-(check-sat)
-(pop 1)
-(assert (<= (+ (* 47 x1 ) (* (- 49) x2 ) (* (- 33) x3 ) (* 18 x4 ) (* (- 18) x1 ) (* (- 10) x4 ) (* (- 38) x0 ) (* (- 6) x2 ) (* 10 x4 ) (* (- 18) x3 ) (* (- 25) x0 ) ) (- 21)) )
-(assert (or (not (<= (+ (* (- 29) x1 ) (* 12 x3 ) (* 15 x3 ) (* (- 49) x0 ) (* 40 x2 ) (* (- 25) x4 ) ) 24)) (not (>= (+ (* 18 x4 ) (* (- 14) x0 ) ) (- 22))) (<= (+ (* (- 1) x0 ) (* (- 31) x3 ) (* 21 x1 ) (* 12 x4 ) (* (- 28) x2 ) (* 12 x1 ) (* 42 x4 ) (* (- 29) x3 ) (* 34 x4 ) (* 10 x2 ) ) 6) ))
-(assert (>= (+ (* 15 x1 ) (* (- 1) x4 ) (* (- 11) x0 ) (* (- 24) x1 ) (* 37 x3 ) ) (- 1)) )
-(assert (or (not (= (+ (* (- 1) x1 ) (* 22 x4 ) (* 5 x2 ) (* (- 29) x1 ) (* 15 x0 ) (* 46 x1 ) ) (- 40))) (< (+ (* (- 4) x0 ) (* 13 x2 ) ) 36) ))
-(assert (or (<= (+ (* 33 x3 ) (* 43 x4 ) (* (- 9) x1 ) (* 32 x4 ) (* 18 x3 ) (* (- 29) x3 ) (* (- 45) x0 ) (* 26 x3 ) ) (- 48)) (>= (+ (* 36 x4 ) (* (- 18) x1 ) (* 27 x4 ) (* (- 8) x2 ) (* 12 x0 ) (* (- 41) x2 ) (* 19 x0 ) (* 8 x4 ) (* (- 2) x0 ) (* 25 x3 ) ) (- 34)) ))
-(assert (or (>= (+ (* 40 x1 ) (* 35 x4 ) (* 29 x0 ) (* 28 x1 ) (* 22 x3 ) (* (- 8) x0 ) (* (- 18) x4 ) (* 48 x4 ) (* (- 48) x1 ) (* 45 x2 ) ) 10) (not (<= (+ (* 14 x1 ) (* (- 45) x3 ) (* 27 x2 ) (* (- 41) x1 ) (* (- 15) x4 ) (* 4 x1 ) (* (- 33) x1 ) (* 31 x2 ) (* (- 11) x1 ) (* 5 x4 ) (* (- 22) x2 ) ) (- 45))) (> (+ (* (- 7) x3 ) (* (- 42) x2 ) (* 9 x3 ) (* 39 x4 ) (* (- 3) x1 ) (* (- 38) x1 ) (* 35 x3 ) ) 49) ))
-(assert (or (not (< (+ (* 14 x2 ) (* 21 x1 ) (* (- 10) x1 ) (* 26 x2 ) (* (- 16) x0 ) (* 20 x1 ) (* (- 46) x4 ) (* (- 20) x4 ) ) (- 35))) (not (> (+ (* 35 x2 ) (* (- 40) x2 ) (* (- 4) x2 ) (* (- 36) x1 ) (* (- 11) x2 ) ) 41)) ))
-(check-sat)
-(pop 1)
-(assert (or (not (= (+ (* (- 42) x2 ) (* (- 42) x4 ) (* 5 x4 ) (* (- 40) x4 ) (* (- 19) x0 ) (* (- 46) x3 ) (* 18 x4 ) (* 11 x1 ) (* (- 34) x3 ) (* (- 3) x0 ) ) (- 20))) (> (+ (* 44 x1 ) (* 22 x4 ) (* (- 15) x4 ) (* 33 x1 ) (* (- 13) x4 ) (* 25 x2 ) ) 43) (not (> (+ (* 48 x2 ) (* (- 44) x0 ) (* 26 x3 ) (* (- 1) x0 ) (* (- 18) x2 ) (* 25 x1 ) (* (- 16) x1 ) (* 43 x0 ) (* 35 x0 ) (* 7 x2 ) ) 22)) ))
-(assert (or (>= (+ (* (- 39) x3 ) (* (- 22) x0 ) (* (- 13) x4 ) (* (- 26) x4 ) (* 47 x0 ) (* (- 35) x3 ) (* 47 x1 ) (* 44 x2 ) (* 6 x2 ) (* (- 25) x4 ) ) (- 49)) (> (+ (* (- 16) x3 ) (* 9 x3 ) (* (- 34) x3 ) ) 45) ))
-(assert (or (not (>= (+ (* (- 44) x2 ) (* 23 x3 ) ) (- 47))) (= (+ (* (- 10) x1 ) (* (- 30) x1 ) (* 27 x1 ) (* 47 x0 ) (* (- 43) x1 ) (* (- 41) x2 ) (* 15 x2 ) (* 47 x0 ) (* (- 34) x4 ) (* 11 x3 ) ) (- 42)) ))
-(assert (or (< (+ (* (- 18) x1 ) (* 1 x4 ) (* 20 x1 ) (* (- 16) x3 ) (* (- 11) x3 ) (* 38 x2 ) (* (- 47) x3 ) (* 5 x3 ) ) 14) (not (= (+ (* (- 43) x2 ) (* 32 x0 ) ) (- 30))) (not (> (+ (* (- 17) x4 ) (* (- 40) x4 ) (* (- 45) x2 ) (* (- 47) x4 ) (* 7 x3 ) ) 40)) ))
-(assert (not (= (+ (* 9 x2 ) (* 23 x0 ) (* (- 32) x4 ) (* 38 x0 ) ) 27)) )
-(check-sat)
-(push 1)
-(assert (or (= (+ (* 11 x0 ) (* (- 7) x3 ) (* 39 x4 ) ) 7) (not (< (+ (* 38 x4 ) (* 28 x0 ) (* (- 45) x4 ) (* 9 x2 ) (* 11 x0 ) (* (- 30) x0 ) ) (- 27))) (not (< (+ (* 48 x4 ) (* 2 x2 ) (* (- 46) x3 ) ) (- 37))) ))
-(assert (not (< (+ (* (- 6) x4 ) (* (- 47) x0 ) (* 40 x4 ) (* (- 14) x4 ) (* (- 29) x0 ) (* 47 x2 ) ) (- 16))) )
-(check-sat)
-(pop 1)
-(assert (not (>= (+ (* 23 x2 ) (* (- 30) x1 ) (* (- 48) x4 ) (* 27 x1 ) (* (- 16) x1 ) (* 27 x0 ) (* 10 x3 ) (* 13 x3 ) ) (- 47))) )
-(assert (or (< (+ (* 25 x3 ) (* 15 x0 ) ) (- 17)) (< (+ (* 3 x0 ) (* (- 11) x1 ) (* (- 10) x3 ) (* (- 19) x3 ) (* (- 11) x4 ) (* 5 x0 ) (* 46 x2 ) (* (- 48) x2 ) ) (- 39)) ))
-(assert (or (not (>= (+ (* 19 x3 ) (* 15 x4 ) (* 19 x1 ) (* (- 28) x3 ) ) 5)) (not (< (+ (* 2 x0 ) (* (- 32) x4 ) (* (- 22) x4 ) (* (- 49) x4 ) (* 28 x3 ) (* (- 47) x4 ) ) 30)) ))
-(assert (or (< (+ (* 32 x4 ) (* 45 x2 ) (* (- 44) x3 ) (* (- 19) x0 ) (* (- 30) x0 ) (* (- 42) x2 ) (* 44 x4 ) (* 48 x0 ) (* 46 x2 ) (* 24 x1 ) (* 12 x0 ) ) 2) (not (> (+ (* (- 8) x0 ) (* (- 16) x4 ) (* (- 5) x1 ) (* (- 42) x2 ) (* (- 33) x1 ) (* (- 44) x1 ) (* 49 x0 ) (* (- 32) x3 ) (* (- 33) x4 ) (* (- 31) x4 ) (* 27 x2 ) ) 18)) (not (> (+ (* 5 x0 ) (* 27 x2 ) (* (- 21) x0 ) (* 25 x4 ) (* 10 x1 ) (* (- 17) x2 ) (* (- 37) x1 ) (* (- 11) x2 ) ) 21)) ))
-(check-sat)
-(push 1)
-(assert (not (>= (+ (* 19 x2 ) (* 16 x2 ) (* (- 17) x4 ) (* (- 43) x4 ) ) 43)) )
-(assert (not (> (+ (* (- 6) x1 ) (* 4 x4 ) (* 9 x1 ) (* 32 x0 ) ) 11)) )
-(assert (or (not (> (+ (* 4 x1 ) (* (- 25) x3 ) (* 12 x0 ) (* 14 x1 ) (* 10 x2 ) ) (- 27))) (<= (+ (* 3 x4 ) (* (- 43) x0 ) (* 34 x4 ) (* 16 x1 ) ) (- 7)) ))
-(assert (not (> (+ (* (- 38) x1 ) (* (- 43) x2 ) (* (- 18) x3 ) (* (- 4) x2 ) (* 25 x1 ) (* 43 x0 ) (* (- 16) x0 ) (* 22 x2 ) ) 36)) )
-(assert (= (+ (* 22 x2 ) (* (- 23) x0 ) (* 47 x2 ) (* (- 31) x3 ) (* 4 x0 ) (* 9 x3 ) (* (- 48) x4 ) (* 48 x1 ) ) (- 2)) )
-(assert (or (>= (+ (* (- 31) x1 ) (* (- 16) x3 ) ) (- 28)) (<= (+ (* (- 36) x2 ) (* (- 11) x4 ) (* (- 29) x1 ) (* 26 x1 ) (* 36 x1 ) ) (- 19)) (<= (+ (* 39 x3 ) (* 28 x0 ) (* 19 x4 ) (* (- 37) x1 ) (* 39 x1 ) (* 14 x3 ) (* (- 43) x4 ) (* 8 x4 ) ) 42) ))
-(assert (< (+ (* 46 x0 ) (* 18 x3 ) (* (- 24) x3 ) (* 31 x4 ) (* 25 x3 ) ) 20) )
-(check-sat)
-(pop 1)
-(check-sat)
-(push 1)
diff --git a/test/regress/regress0/push-pop/arith/fuzz_5_3.smt2 b/test/regress/regress0/push-pop/arith/fuzz_5_3.smt2
deleted file mode 100644
index b61eb001f..000000000
--- a/test/regress/regress0/push-pop/arith/fuzz_5_3.smt2
+++ /dev/null
@@ -1,66 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-(set-logic QF_LRA)
-(declare-fun x0 () Real)
-(declare-fun x1 () Real)
-(declare-fun x2 () Real)
-(declare-fun x3 () Real)
-(declare-fun x4 () Real)
-(assert (or (<= (+ (* 30 x0 ) (* 33 x1 ) (* 40 x1 ) (* 27 x3 ) (* 17 x3 ) (* (- 18) x0 ) (* (- 30) x0 ) ) (- 46)) (> (+ (* 48 x3 ) (* 16 x1 ) (* (- 20) x4 ) (* (- 22) x1 ) (* (- 11) x3 ) (* (- 27) x0 ) (* 8 x2 ) (* (- 17) x1 ) (* (- 21) x1 ) (* 19 x0 ) ) 8) (not (> (+ (* 24 x4 ) (* (- 7) x0 ) (* 11 x4 ) (* (- 17) x1 ) (* 3 x1 ) (* 36 x1 ) (* (- 16) x0 ) ) 16)) ))
-(assert (or (> (+ (* (- 30) x1 ) (* (- 6) x3 ) (* 33 x4 ) (* 9 x4 ) (* (- 47) x0 ) ) 30) (not (<= (+ (* 44 x3 ) (* (- 34) x1 ) (* (- 5) x2 ) (* (- 20) x1 ) (* 6 x1 ) (* (- 1) x4 ) (* 40 x2 ) (* 11 x4 ) (* 48 x3 ) (* 23 x3 ) (* (- 16) x2 ) ) 6)) ))
-(assert (or (not (> (+ (* (- 9) x3 ) (* (- 49) x4 ) (* (- 23) x2 ) (* (- 36) x2 ) (* (- 11) x2 ) (* 5 x1 ) (* 10 x2 ) (* (- 6) x1 ) (* 1 x1 ) (* (- 34) x0 ) ) (- 1))) (> (+ (* 48 x4 ) (* 20 x0 ) ) 47) (not (<= (+ (* 39 x1 ) (* (- 7) x3 ) (* (- 3) x4 ) (* 43 x4 ) (* (- 45) x1 ) ) (- 49))) ))
-(assert (>= (+ (* 38 x0 ) (* 11 x0 ) (* (- 23) x3 ) (* 5 x0 ) (* 7 x1 ) (* 25 x0 ) (* (- 30) x0 ) (* (- 21) x2 ) (* (- 20) x0 ) ) (- 26)) )
-(assert (or (> (+ (* (- 25) x1 ) (* (- 41) x4 ) (* 34 x3 ) (* 45 x3 ) (* (- 34) x2 ) (* (- 47) x2 ) ) (- 7)) (< (+ (* 33 x1 ) (* (- 7) x1 ) (* (- 50) x3 ) (* 15 x2 ) ) 32) (= (+ (* 23 x3 ) (* 24 x0 ) (* (- 16) x3 ) (* (- 17) x4 ) (* 12 x0 ) (* (- 7) x4 ) (* (- 12) x0 ) (* 24 x3 ) (* 6 x2 ) ) (- 3)) ))
-(assert (< (+ (* (- 11) x1 ) (* 29 x2 ) (* 10 x3 ) (* 21 x3 ) (* (- 27) x3 ) (* (- 18) x2 ) (* 31 x4 ) (* 29 x2 ) ) 46) )
-(assert (= (+ (* 38 x2 ) (* 2 x0 ) (* 21 x1 ) (* (- 20) x3 ) (* 46 x3 ) (* (- 20) x1 ) (* (- 41) x2 ) (* 20 x2 ) ) (- 18)) )
-(assert (or (= (+ (* 27 x3 ) (* 9 x4 ) (* (- 42) x4 ) (* (- 38) x2 ) (* (- 8) x3 ) (* (- 37) x1 ) (* 14 x4 ) (* 44 x0 ) (* 5 x4 ) (* (- 35) x0 ) (* (- 32) x2 ) ) 26) (> (+ (* (- 16) x0 ) (* (- 35) x0 ) (* 3 x3 ) (* (- 28) x3 ) (* 19 x4 ) (* (- 49) x3 ) (* (- 34) x1 ) (* (- 16) x0 ) (* 39 x4 ) (* 16 x4 ) (* 43 x3 ) ) (- 29)) (not (<= (+ (* (- 13) x4 ) (* 34 x0 ) (* (- 5) x1 ) (* 38 x3 ) (* 9 x3 ) (* 8 x1 ) (* (- 45) x1 ) (* (- 34) x4 ) ) 8)) ))
-(check-sat)
-(push 1)
-(assert (or (<= (+ (* (- 18) x3 ) (* 41 x1 ) (* 7 x1 ) (* (- 34) x2 ) (* (- 8) x3 ) (* (- 13) x3 ) (* 6 x0 ) (* (- 22) x1 ) (* 17 x4 ) ) 19) (< (+ (* (- 33) x3 ) (* 20 x1 ) (* (- 8) x1 ) (* 17 x4 ) (* 17 x0 ) (* 23 x2 ) (* (- 40) x1 ) (* (- 35) x2 ) (* (- 15) x3 ) (* (- 13) x2 ) (* 47 x2 ) ) 43) ))
-(assert (or (not (< (+ (* (- 2) x3 ) (* 1 x2 ) (* 11 x0 ) (* (- 32) x3 ) (* (- 7) x3 ) (* (- 5) x3 ) ) (- 40))) (< (+ (* (- 50) x2 ) (* (- 20) x2 ) ) 37) ))
-(assert (or (= (+ (* 19 x2 ) (* (- 10) x1 ) ) (- 34)) (<= (+ (* 7 x0 ) (* 46 x1 ) (* 7 x0 ) (* (- 37) x4 ) (* (- 1) x2 ) (* 23 x0 ) (* 9 x3 ) (* 10 x0 ) (* (- 37) x0 ) (* (- 41) x1 ) (* 0 x0 ) ) 24) ))
-(check-sat)
-(push 1)
-(check-sat)
-(pop 1)
-(assert (= (+ (* (- 20) x1 ) (* 32 x3 ) (* (- 21) x2 ) (* (- 9) x2 ) (* 5 x1 ) (* 4 x4 ) (* 42 x4 ) (* 6 x4 ) (* 22 x2 ) (* 32 x3 ) (* 42 x3 ) ) 1) )
-(assert (or (not (>= (+ (* (- 39) x0 ) (* 19 x4 ) (* (- 1) x3 ) ) (- 47))) (not (<= (+ (* (- 40) x4 ) (* (- 10) x2 ) (* 22 x4 ) (* (- 20) x4 ) ) 30)) ))
-(assert (not (= (+ (* (- 23) x0 ) (* 33 x4 ) (* (- 43) x0 ) (* (- 48) x4 ) (* 8 x1 ) (* (- 34) x1 ) (* 24 x3 ) (* 37 x4 ) (* (- 27) x2 ) (* (- 16) x4 ) ) (- 35))) )
-(assert (not (>= (+ (* (- 1) x3 ) (* 19 x4 ) ) 29)) )
-(assert (or (not (> (+ (* (- 36) x3 ) (* (- 16) x0 ) (* 12 x3 ) (* (- 17) x2 ) (* 1 x3 ) ) 22)) (< (+ (* (- 8) x2 ) (* (- 40) x1 ) (* (- 17) x4 ) (* 37 x1 ) (* 41 x2 ) (* (- 37) x1 ) (* (- 46) x3 ) ) (- 33)) ))
-(assert (<= (+ (* 27 x1 ) (* 18 x4 ) ) 12) )
-(assert (or (not (> (+ (* (- 43) x0 ) (* 43 x0 ) (* 36 x2 ) (* 21 x1 ) (* 11 x1 ) (* 32 x4 ) ) 24)) (not (< (+ (* 33 x0 ) (* 29 x3 ) (* 39 x3 ) (* 17 x4 ) (* 21 x0 ) (* 32 x2 ) (* (- 38) x1 ) (* (- 37) x0 ) (* 23 x4 ) ) (- 43))) (not (<= (+ (* 35 x4 ) (* 23 x1 ) (* 23 x0 ) (* (- 39) x0 ) (* (- 13) x4 ) (* (- 10) x1 ) (* (- 33) x2 ) (* 28 x1 ) (* 41 x4 ) (* 43 x4 ) ) 23)) ))
-(check-sat)
-(pop 1)
-(assert (or (not (= (+ (* (- 12) x0 ) (* (- 26) x2 ) (* (- 34) x1 ) (* 46 x0 ) (* (- 38) x4 ) (* (- 45) x4 ) ) 0)) (not (>= (+ (* (- 23) x2 ) (* 9 x2 ) (* 48 x0 ) (* (- 6) x2 ) (* (- 40) x1 ) (* (- 19) x0 ) (* (- 21) x4 ) ) 13)) (not (<= (+ (* 45 x1 ) (* 28 x3 ) (* (- 13) x1 ) ) 40)) ))
-(check-sat)
-(push 1)
-(assert (or (>= (+ (* (- 31) x0 ) (* 39 x3 ) (* (- 43) x2 ) (* (- 12) x4 ) (* (- 46) x0 ) (* 46 x3 ) (* 19 x0 ) (* (- 8) x4 ) (* 41 x3 ) (* 34 x0 ) ) (- 10)) (not (>= (+ (* (- 20) x3 ) (* (- 19) x4 ) (* (- 33) x3 ) (* 18 x2 ) (* (- 47) x1 ) (* 28 x0 ) (* 6 x0 ) (* (- 23) x1 ) (* 6 x0 ) (* 0 x0 ) ) (- 25))) ))
-(assert (or (not (>= (+ (* 19 x0 ) (* 27 x4 ) (* (- 45) x4 ) (* (- 27) x2 ) (* (- 5) x3 ) (* (- 20) x0 ) ) 16)) (not (> (+ (* 45 x4 ) (* (- 22) x4 ) (* 46 x4 ) (* (- 1) x1 ) (* 12 x3 ) (* (- 7) x0 ) (* 15 x3 ) (* 28 x4 ) (* 26 x4 ) (* 35 x2 ) (* (- 35) x1 ) ) 11)) ))
-(assert (or (not (<= (+ (* 35 x2 ) (* 44 x3 ) (* 44 x2 ) ) (- 28))) (> (+ (* 39 x3 ) (* (- 6) x2 ) (* 2 x4 ) (* (- 5) x4 ) (* 45 x2 ) (* 40 x1 ) (* 4 x1 ) (* (- 8) x0 ) (* (- 33) x3 ) ) 45) ))
-(assert (or (> (+ (* 46 x4 ) (* (- 4) x0 ) ) 5) (>= (+ (* (- 21) x1 ) (* 22 x0 ) (* 19 x3 ) (* (- 34) x3 ) (* 41 x1 ) (* (- 1) x1 ) (* (- 39) x1 ) ) 41) ))
-(assert (<= (+ (* (- 38) x4 ) (* 43 x1 ) (* 46 x4 ) (* 14 x1 ) (* 49 x3 ) (* (- 18) x3 ) (* 38 x0 ) (* (- 36) x4 ) (* 24 x4 ) (* 28 x0 ) (* (- 14) x3 ) ) (- 23)) )
-(assert (not (< (+ (* 36 x0 ) (* (- 19) x4 ) (* 5 x3 ) ) 26)) )
-(assert (or (> (+ (* (- 46) x3 ) (* 1 x0 ) (* 37 x0 ) (* (- 44) x0 ) (* 45 x3 ) (* (- 19) x1 ) (* 14 x3 ) (* (- 16) x2 ) (* 35 x2 ) (* 47 x0 ) (* (- 21) x3 ) ) 30) (< (+ (* (- 11) x3 ) (* 7 x2 ) (* (- 5) x3 ) ) (- 37)) ))
-(assert (not (> (+ (* 23 x4 ) (* (- 45) x0 ) ) 6)) )
-(assert (or (not (> (+ (* 45 x4 ) (* (- 38) x2 ) (* (- 13) x4 ) (* 11 x0 ) (* (- 32) x0 ) (* 22 x2 ) ) (- 23))) (> (+ (* (- 32) x0 ) (* 24 x3 ) (* (- 26) x4 ) (* (- 6) x2 ) ) (- 20)) ))
-(check-sat)
-(push 1)
-(assert (or (>= (+ (* 19 x4 ) (* 39 x3 ) (* 0 x2 ) (* (- 46) x2 ) (* (- 44) x4 ) (* (- 2) x4 ) (* 1 x4 ) (* 14 x1 ) (* 47 x4 ) (* 3 x3 ) (* (- 12) x1 ) ) 0) (<= (+ (* 4 x0 ) (* 17 x4 ) (* (- 26) x0 ) (* (- 30) x1 ) (* 45 x0 ) ) 20) ))
-(assert (or (not (< (+ (* 24 x2 ) (* (- 17) x2 ) (* 3 x0 ) ) 32)) (not (< (+ (* (- 41) x4 ) (* 15 x4 ) (* 16 x4 ) ) (- 31))) (not (< (+ (* 24 x4 ) (* 1 x1 ) ) 19)) ))
-(assert (or (< (+ (* 2 x1 ) (* (- 12) x0 ) (* (- 37) x2 ) (* 22 x4 ) (* (- 47) x4 ) ) (- 22)) (>= (+ (* 13 x0 ) (* (- 49) x1 ) (* 41 x3 ) (* 10 x4 ) (* (- 25) x0 ) (* 37 x1 ) (* 32 x3 ) ) 10) (= (+ (* (- 50) x4 ) (* 49 x2 ) (* (- 49) x3 ) (* 9 x1 ) (* 1 x1 ) (* (- 30) x4 ) (* (- 44) x0 ) ) 33) ))
-(assert (or (< (+ (* (- 45) x1 ) (* 34 x3 ) (* (- 41) x4 ) (* 7 x3 ) (* (- 2) x1 ) (* 26 x4 ) (* (- 17) x1 ) (* (- 36) x2 ) (* 48 x2 ) (* (- 7) x1 ) (* 0 x4 ) ) (- 34)) (not (< (+ (* (- 34) x3 ) (* (- 22) x0 ) (* (- 17) x0 ) ) 35)) ))
-(assert (or (not (> (+ (* 48 x2 ) (* 13 x2 ) ) (- 24))) (> (+ (* (- 15) x4 ) (* 32 x3 ) ) (- 19)) (not (= (+ (* (- 8) x0 ) (* (- 15) x3 ) (* (- 39) x3 ) (* 15 x0 ) (* (- 49) x1 ) (* 16 x1 ) ) 33)) ))
-(assert (not (>= (+ (* 41 x2 ) (* 35 x4 ) (* 40 x4 ) (* 49 x3 ) ) 23)) )
-(assert (or (not (>= (+ (* (- 45) x0 ) (* (- 40) x4 ) (* 0 x1 ) (* 15 x1 ) (* (- 38) x3 ) (* 36 x1 ) (* (- 12) x1 ) (* 47 x0 ) (* 47 x2 ) (* (- 34) x3 ) ) (- 16))) (not (>= (+ (* (- 18) x4 ) (* (- 10) x0 ) (* 20 x2 ) (* (- 8) x4 ) (* (- 25) x1 ) (* (- 6) x2 ) (* 30 x2 ) ) (- 41))) (> (+ (* 26 x3 ) (* (- 22) x1 ) ) 23) ))
-(check-sat)
-(pop 1)
-(check-sat)
-(push 1)
diff --git a/test/regress/regress0/push-pop/arith/fuzz_5_4.smt2 b/test/regress/regress0/push-pop/arith/fuzz_5_4.smt2
deleted file mode 100644
index 5d46d281f..000000000
--- a/test/regress/regress0/push-pop/arith/fuzz_5_4.smt2
+++ /dev/null
@@ -1,54 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-(set-logic QF_LRA)
-(declare-fun x0 () Real)
-(declare-fun x1 () Real)
-(declare-fun x2 () Real)
-(declare-fun x3 () Real)
-(declare-fun x4 () Real)
-(check-sat)
-(push 1)
-(assert (or (not (< (+ (* 22 x2 ) (* (- 45) x4 ) (* (- 27) x4 ) (* (- 23) x1 ) (* (- 38) x4 ) (* 12 x0 ) (* 11 x2 ) (* 6 x4 ) (* (- 34) x3 ) (* (- 28) x3 ) ) (- 7))) (> (+ (* 49 x3 ) (* (- 9) x3 ) (* (- 6) x2 ) (* (- 39) x2 ) (* 49 x3 ) (* (- 6) x4 ) (* 35 x4 ) (* (- 5) x1 ) ) 47) (not (= (+ (* (- 37) x0 ) (* 23 x0 ) (* 8 x0 ) (* (- 25) x3 ) (* (- 10) x4 ) (* (- 31) x3 ) (* (- 7) x1 ) (* (- 9) x2 ) (* 42 x4 ) (* 9 x2 ) (* (- 29) x1 ) ) (- 47))) ))
-(assert (or (> (+ (* 20 x0 ) (* 28 x0 ) (* 40 x0 ) (* (- 33) x1 ) (* 1 x3 ) (* 24 x2 ) (* (- 40) x1 ) (* 33 x1 ) ) (- 45)) (>= (+ (* 26 x0 ) (* 43 x3 ) (* 8 x3 ) (* (- 41) x0 ) (* 23 x0 ) (* (- 18) x2 ) (* 13 x0 ) (* 32 x0 ) (* (- 36) x0 ) (* (- 44) x0 ) ) 15) ))
-(assert (or (not (> (+ (* (- 40) x0 ) (* (- 34) x4 ) (* 41 x2 ) (* (- 40) x4 ) (* 44 x2 ) (* (- 3) x1 ) (* (- 44) x3 ) (* (- 29) x2 ) (* (- 31) x3 ) ) (- 14))) (< (+ (* (- 48) x0 ) (* 30 x4 ) (* (- 18) x4 ) ) 39) (>= (+ (* 1 x2 ) (* (- 31) x2 ) (* (- 8) x0 ) ) 31) ))
-(assert (or (not (= (+ (* (- 46) x0 ) (* 1 x3 ) (* (- 1) x3 ) (* 27 x2 ) ) (- 8))) (not (= (+ (* 26 x4 ) (* 39 x4 ) (* (- 14) x4 ) (* (- 9) x0 ) (* 18 x0 ) (* (- 15) x2 ) (* (- 4) x2 ) (* 0 x2 ) (* 48 x3 ) ) (- 8))) (<= (+ (* (- 20) x2 ) (* (- 34) x1 ) (* 49 x4 ) ) 33) ))
-(assert (or (not (>= (+ (* (- 2) x3 ) (* (- 4) x0 ) (* (- 3) x0 ) (* 4 x1 ) (* 30 x4 ) (* (- 49) x0 ) ) (- 20))) (> (+ (* 8 x0 ) (* 24 x0 ) (* 39 x3 ) (* (- 2) x0 ) (* (- 25) x0 ) (* (- 17) x1 ) (* (- 40) x1 ) (* (- 15) x2 ) (* 9 x3 ) (* (- 2) x3 ) (* 49 x4 ) ) (- 47)) (not (<= (+ (* 11 x0 ) (* 49 x4 ) (* 16 x4 ) (* 17 x4 ) (* 0 x2 ) ) 6)) ))
-(assert (or (not (< (+ (* 21 x1 ) (* 35 x1 ) (* (- 41) x3 ) (* 41 x1 ) (* 5 x3 ) (* (- 37) x2 ) (* 23 x4 ) (* (- 6) x3 ) (* (- 25) x4 ) (* (- 29) x0 ) ) (- 7))) (< (+ (* (- 2) x4 ) (* (- 46) x0 ) (* (- 20) x1 ) (* 27 x0 ) (* (- 2) x3 ) (* (- 39) x4 ) ) 8) ))
-(check-sat)
-(push 1)
-(assert (or (not (<= (+ (* (- 49) x1 ) (* 5 x1 ) (* 8 x3 ) (* (- 28) x1 ) (* 18 x2 ) (* 19 x0 ) (* (- 18) x1 ) (* (- 38) x0 ) ) 12)) (not (= (+ (* 5 x1 ) (* (- 21) x3 ) (* 34 x3 ) (* 34 x4 ) (* 32 x2 ) ) 49)) (= (+ (* (- 36) x1 ) (* 39 x0 ) (* (- 16) x3 ) (* 0 x3 ) (* 24 x3 ) ) 33) ))
-(assert (or (<= (+ (* (- 23) x0 ) (* 45 x1 ) (* 4 x4 ) (* 8 x0 ) (* 14 x0 ) (* (- 9) x1 ) (* 27 x3 ) (* 29 x3 ) (* (- 27) x3 ) ) 18) (not (< (+ (* (- 37) x4 ) (* (- 33) x3 ) (* 42 x1 ) (* (- 48) x0 ) (* 30 x2 ) (* 10 x4 ) ) (- 23))) (= (+ (* 6 x4 ) (* (- 8) x2 ) ) 47) ))
-(assert (not (< (+ (* 43 x2 ) (* (- 13) x0 ) (* 35 x2 ) (* (- 25) x2 ) ) (- 48))) )
-(assert (or (>= (+ (* (- 19) x4 ) (* 27 x0 ) (* (- 34) x2 ) (* (- 27) x1 ) (* 10 x0 ) (* 24 x2 ) (* (- 10) x4 ) (* (- 23) x2 ) (* (- 44) x1 ) (* 7 x1 ) (* 43 x3 ) ) 44) (> (+ (* 37 x0 ) (* (- 3) x3 ) (* (- 31) x3 ) (* 28 x4 ) (* 3 x1 ) (* 35 x2 ) (* (- 26) x3 ) (* (- 5) x2 ) (* 2 x3 ) ) 35) ))
-(assert (= (+ (* (- 23) x0 ) (* 44 x0 ) (* (- 35) x0 ) ) 45) )
-(assert (or (< (+ (* 3 x2 ) (* 31 x1 ) (* 10 x1 ) (* (- 16) x1 ) (* 13 x4 ) ) (- 19)) (not (< (+ (* (- 3) x2 ) (* 46 x4 ) (* 10 x4 ) (* 47 x1 ) (* 3 x1 ) (* (- 49) x2 ) (* (- 35) x2 ) ) 16)) (>= (+ (* (- 39) x2 ) (* (- 42) x0 ) (* 48 x2 ) (* (- 42) x4 ) (* (- 25) x3 ) (* 31 x3 ) (* 6 x3 ) (* 3 x0 ) (* 29 x4 ) (* 30 x0 ) (* (- 27) x1 ) ) 35) ))
-(assert (or (> (+ (* (- 44) x2 ) (* (- 33) x2 ) (* 24 x4 ) (* (- 9) x2 ) (* 22 x4 ) ) 0) (not (<= (+ (* (- 7) x1 ) (* 1 x1 ) (* 8 x3 ) (* (- 37) x2 ) (* (- 39) x3 ) (* 26 x1 ) (* (- 37) x2 ) (* (- 38) x4 ) (* (- 47) x2 ) (* 1 x0 ) ) (- 30))) ))
-(assert (or (not (= (+ (* 33 x2 ) (* (- 27) x2 ) (* 13 x0 ) (* (- 16) x3 ) (* 16 x1 ) (* (- 1) x2 ) (* (- 20) x1 ) (* (- 30) x2 ) (* 14 x3 ) (* (- 3) x0 ) ) (- 22))) (not (> (+ (* (- 27) x1 ) (* (- 26) x2 ) (* 20 x3 ) (* (- 3) x3 ) (* 21 x0 ) (* 36 x1 ) ) (- 16))) (< (+ (* (- 38) x0 ) (* 41 x2 ) (* (- 36) x4 ) ) 13) ))
-(assert (or (> (+ (* 5 x3 ) (* (- 9) x3 ) (* (- 5) x1 ) (* 6 x2 ) (* 46 x3 ) (* (- 25) x1 ) (* 29 x2 ) (* 3 x3 ) (* (- 15) x0 ) (* 30 x1 ) (* 10 x4 ) ) (- 26)) (= (+ (* 6 x4 ) (* (- 47) x3 ) (* (- 18) x1 ) (* 24 x1 ) (* 44 x0 ) (* (- 7) x2 ) ) (- 48)) ))
-(assert (or (not (> (+ (* 31 x2 ) (* 8 x1 ) (* (- 32) x1 ) (* (- 34) x3 ) (* (- 36) x3 ) (* (- 45) x2 ) (* (- 37) x2 ) (* 40 x3 ) (* 30 x3 ) (* 29 x4 ) ) (- 44))) (not (<= (+ (* (- 22) x0 ) (* (- 16) x2 ) ) 36)) (>= (+ (* 5 x3 ) (* (- 9) x4 ) ) (- 25)) ))
-(assert (or (not (> (+ (* 43 x3 ) (* (- 24) x3 ) (* 7 x3 ) (* (- 40) x3 ) (* (- 33) x3 ) (* (- 36) x2 ) (* 7 x2 ) (* 20 x2 ) ) (- 7))) (= (+ (* 37 x4 ) (* 40 x4 ) ) 30) ))
-(assert (or (>= (+ (* 43 x0 ) (* 4 x4 ) ) 21) (not (= (+ (* 1 x4 ) (* (- 44) x4 ) (* 48 x0 ) (* 9 x0 ) ) 18)) ))
-(check-sat)
-(push 1)
-(assert (or (not (>= (+ (* (- 48) x2 ) (* 4 x1 ) (* (- 2) x4 ) (* (- 41) x0 ) (* 9 x1 ) (* 14 x0 ) (* 28 x3 ) (* (- 12) x3 ) ) (- 20))) (= (+ (* (- 38) x1 ) (* (- 34) x4 ) (* 1 x4 ) (* (- 26) x4 ) (* (- 30) x2 ) (* 36 x3 ) (* (- 14) x2 ) (* (- 32) x2 ) (* 2 x4 ) ) (- 22)) ))
-(assert (or (not (<= (+ (* 42 x4 ) (* (- 46) x0 ) (* 41 x4 ) (* (- 13) x3 ) (* (- 36) x0 ) ) (- 44))) (not (= (+ (* 15 x4 ) (* 24 x2 ) ) 1)) (< (+ (* (- 4) x0 ) (* 0 x3 ) (* 10 x3 ) (* 18 x1 ) ) (- 33)) ))
-(assert (or (= (+ (* (- 19) x3 ) (* (- 39) x4 ) (* (- 5) x1 ) (* (- 39) x3 ) ) (- 48)) (= (+ (* 30 x3 ) (* (- 15) x1 ) (* 8 x1 ) (* (- 26) x1 ) (* 6 x4 ) (* 5 x1 ) (* 3 x4 ) (* (- 13) x2 ) (* (- 47) x2 ) (* 23 x4 ) (* 28 x4 ) ) 34) (= (+ (* (- 20) x4 ) (* (- 30) x3 ) ) (- 36)) ))
-(check-sat)
-(push 1)
-(assert (or (not (>= (+ (* 20 x0 ) (* 43 x2 ) (* (- 49) x2 ) (* (- 46) x2 ) (* 14 x3 ) (* 27 x4 ) (* 43 x2 ) (* 23 x3 ) (* (- 14) x1 ) (* 20 x2 ) ) 16)) (< (+ (* 45 x1 ) (* (- 31) x3 ) ) 25) (<= (+ (* 15 x4 ) (* 41 x4 ) (* 23 x4 ) (* (- 41) x2 ) ) 39) ))
-(check-sat)
-(pop 1)
-(assert (or (> (+ (* (- 43) x0 ) (* (- 49) x0 ) (* (- 8) x2 ) (* (- 29) x4 ) (* (- 32) x2 ) (* (- 37) x0 ) (* 31 x2 ) (* 27 x0 ) (* 21 x3 ) ) (- 30)) (> (+ (* (- 16) x4 ) (* 20 x1 ) (* 28 x3 ) (* 15 x4 ) (* (- 46) x3 ) (* 10 x2 ) (* 12 x2 ) (* 42 x3 ) (* 42 x3 ) (* 25 x0 ) (* (- 26) x2 ) ) (- 42)) (not (>= (+ (* 24 x4 ) (* 21 x3 ) (* 9 x4 ) (* (- 30) x0 ) (* (- 32) x4 ) ) 1)) ))
-(assert (or (<= (+ (* 10 x2 ) (* (- 23) x4 ) (* (- 41) x4 ) ) (- 31)) (>= (+ (* (- 5) x0 ) (* (- 6) x2 ) (* 8 x4 ) (* 34 x3 ) (* 14 x4 ) (* 36 x4 ) (* 23 x1 ) (* (- 11) x1 ) ) (- 26)) (not (< (+ (* 25 x1 ) (* (- 20) x3 ) (* (- 8) x2 ) (* 23 x4 ) (* 25 x3 ) (* 1 x2 ) ) 22)) ))
-(assert (or (not (<= (+ (* 28 x3 ) (* (- 41) x4 ) (* (- 33) x0 ) (* (- 29) x4 ) (* 8 x2 ) (* (- 42) x2 ) (* 23 x2 ) (* 25 x0 ) (* (- 13) x3 ) (* 44 x0 ) ) (- 40))) (<= (+ (* (- 8) x1 ) (* (- 22) x1 ) ) (- 27)) (not (< (+ (* 24 x2 ) (* (- 6) x0 ) (* 29 x2 ) (* (- 1) x2 ) (* (- 15) x0 ) (* (- 23) x4 ) (* 46 x3 ) (* 14 x4 ) (* 26 x3 ) (* 45 x3 ) ) (- 43))) ))
-(assert (or (not (>= (+ (* 48 x2 ) (* 12 x4 ) (* 41 x4 ) (* (- 19) x2 ) (* 31 x2 ) (* (- 45) x2 ) (* 2 x2 ) (* (- 7) x0 ) (* (- 50) x4 ) (* (- 16) x4 ) ) 14)) (> (+ (* 19 x4 ) (* (- 18) x0 ) (* (- 20) x0 ) (* 29 x3 ) ) (- 22)) ))
-(check-sat)
-(pop 1)
-(check-sat)
-(push 1)
diff --git a/test/regress/regress0/push-pop/arith/fuzz_5_5.smt2 b/test/regress/regress0/push-pop/arith/fuzz_5_5.smt2
deleted file mode 100644
index 72b2aa088..000000000
--- a/test/regress/regress0/push-pop/arith/fuzz_5_5.smt2
+++ /dev/null
@@ -1,78 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-(set-logic QF_LRA)
-(declare-fun x0 () Real)
-(declare-fun x1 () Real)
-(declare-fun x2 () Real)
-(declare-fun x3 () Real)
-(declare-fun x4 () Real)
-(assert (or (not (= (+ (* 23 x2 ) (* (- 43) x4 ) (* (- 39) x3 ) (* 4 x2 ) ) (- 2))) (>= (+ (* (- 1) x2 ) (* 0 x0 ) (* 31 x1 ) (* 20 x1 ) (* (- 27) x2 ) ) 22) (<= (+ (* 42 x1 ) (* (- 4) x4 ) (* 12 x2 ) (* 36 x1 ) (* (- 36) x4 ) (* 18 x4 ) (* 47 x0 ) ) (- 19)) ))
-(assert (or (>= (+ (* 4 x1 ) (* (- 32) x2 ) (* 47 x1 ) ) 43) (< (+ (* 31 x4 ) (* 33 x0 ) (* 27 x2 ) (* 0 x0 ) (* (- 35) x0 ) (* 14 x4 ) (* 35 x0 ) (* 17 x4 ) (* 7 x3 ) (* (- 19) x3 ) ) (- 42)) ))
-(assert (not (>= (+ (* (- 36) x0 ) (* (- 28) x2 ) (* (- 49) x2 ) (* (- 17) x0 ) (* (- 16) x2 ) ) (- 40))) )
-(assert (or (not (>= (+ (* 35 x4 ) (* (- 42) x1 ) (* (- 31) x4 ) (* (- 36) x3 ) (* 28 x3 ) (* (- 10) x0 ) (* 37 x1 ) (* 11 x1 ) (* (- 29) x3 ) (* 31 x1 ) ) (- 28))) (>= (+ (* 26 x1 ) (* 12 x4 ) (* (- 7) x1 ) ) (- 39)) ))
-(check-sat)
-(push 1)
-(assert (or (< (+ (* 48 x4 ) (* 8 x4 ) (* (- 34) x4 ) (* (- 47) x4 ) (* (- 7) x3 ) (* 46 x1 ) (* (- 13) x1 ) (* (- 28) x3 ) (* (- 20) x3 ) (* 30 x0 ) (* (- 35) x1 ) ) 36) (>= (+ (* (- 22) x0 ) (* (- 14) x4 ) (* (- 22) x4 ) (* (- 25) x2 ) (* 1 x3 ) (* 18 x1 ) (* (- 34) x4 ) (* 12 x1 ) (* (- 8) x2 ) (* 33 x0 ) (* (- 47) x1 ) ) 15) ))
-(assert (>= (+ (* 12 x2 ) (* 14 x3 ) (* (- 36) x2 ) ) (- 49)) )
-(assert (or (> (+ (* (- 40) x1 ) (* 47 x1 ) (* 14 x1 ) (* 41 x4 ) (* (- 39) x3 ) (* (- 23) x4 ) (* 41 x2 ) (* (- 48) x1 ) (* (- 18) x2 ) (* 46 x1 ) ) (- 4)) (not (< (+ (* (- 36) x3 ) (* (- 47) x4 ) (* 3 x4 ) (* (- 5) x4 ) ) 13)) (< (+ (* (- 45) x2 ) (* (- 33) x2 ) (* 8 x2 ) (* 34 x4 ) ) (- 1)) ))
-(assert (or (<= (+ (* 25 x0 ) (* 41 x4 ) (* (- 33) x1 ) (* (- 50) x2 ) (* (- 39) x3 ) ) 3) (> (+ (* (- 48) x4 ) (* 13 x0 ) (* 44 x2 ) (* (- 26) x3 ) ) 3) (= (+ (* (- 3) x2 ) (* 48 x1 ) (* 16 x4 ) (* (- 27) x0 ) (* 43 x4 ) (* 16 x2 ) (* 15 x4 ) (* 49 x2 ) (* 35 x4 ) ) (- 30)) ))
-(assert (not (>= (+ (* (- 18) x4 ) (* 27 x4 ) ) 12)) )
-(assert (> (+ (* 42 x4 ) (* 10 x1 ) (* (- 3) x2 ) (* (- 38) x0 ) (* 49 x3 ) (* (- 8) x4 ) ) 1) )
-(check-sat)
-(pop 1)
-(assert (or (not (< (+ (* 27 x0 ) (* (- 19) x4 ) (* (- 7) x2 ) (* 41 x1 ) (* (- 9) x4 ) (* (- 37) x1 ) (* 47 x4 ) (* 3 x0 ) ) 46)) (not (>= (+ (* 45 x2 ) (* 35 x3 ) (* (- 20) x1 ) ) 6)) ))
-(check-sat)
-(push 1)
-(assert (>= (+ (* (- 10) x3 ) (* (- 29) x3 ) (* 39 x3 ) (* (- 6) x0 ) (* 16 x0 ) (* (- 1) x0 ) (* 34 x3 ) (* 24 x0 ) (* (- 44) x1 ) ) (- 41)) )
-(assert (< (+ (* (- 45) x3 ) (* 14 x2 ) (* (- 3) x0 ) (* (- 17) x3 ) (* 3 x2 ) (* (- 8) x2 ) ) (- 8)) )
-(check-sat)
-(pop 1)
-(assert (or (not (>= (+ (* (- 10) x0 ) (* (- 43) x3 ) (* (- 46) x1 ) (* (- 43) x2 ) (* (- 38) x4 ) (* (- 48) x3 ) (* (- 13) x2 ) (* (- 26) x1 ) (* (- 28) x0 ) (* 22 x3 ) (* 15 x0 ) ) (- 35))) (>= (+ (* 0 x1 ) (* (- 38) x0 ) ) 21) ))
-(assert (or (> (+ (* (- 3) x1 ) (* 20 x0 ) (* (- 41) x4 ) (* (- 21) x4 ) (* 40 x1 ) (* 33 x3 ) ) 14) (<= (+ (* (- 27) x0 ) (* (- 45) x2 ) (* (- 20) x4 ) (* (- 46) x2 ) (* 28 x2 ) ) (- 13)) ))
-(assert (or (<= (+ (* 14 x2 ) (* (- 14) x2 ) (* 11 x0 ) (* (- 26) x2 ) (* (- 27) x4 ) (* 18 x2 ) (* (- 35) x1 ) (* 17 x0 ) (* (- 28) x3 ) ) (- 26)) (not (> (+ (* (- 3) x1 ) (* (- 37) x3 ) (* (- 41) x3 ) (* (- 50) x3 ) (* (- 30) x2 ) (* (- 36) x0 ) (* (- 8) x3 ) (* 28 x1 ) (* 30 x1 ) (* 24 x1 ) (* (- 11) x3 ) ) 39)) (<= (+ (* 32 x3 ) (* 38 x1 ) (* (- 23) x2 ) (* 32 x3 ) (* 36 x3 ) (* 38 x2 ) (* 19 x2 ) (* (- 46) x0 ) (* (- 30) x0 ) (* (- 39) x1 ) (* 15 x3 ) ) (- 7)) ))
-(assert (or (not (<= (+ (* 47 x0 ) (* (- 10) x0 ) (* 14 x2 ) (* (- 49) x4 ) (* 19 x1 ) (* (- 14) x4 ) ) 5)) (>= (+ (* (- 14) x2 ) (* 34 x0 ) (* (- 1) x4 ) (* (- 43) x3 ) (* 41 x4 ) (* 3 x4 ) (* 0 x2 ) (* (- 6) x3 ) (* (- 4) x4 ) (* 33 x0 ) ) (- 40)) (not (> (+ (* (- 29) x0 ) (* 40 x2 ) (* (- 32) x4 ) (* 48 x2 ) (* 37 x2 ) (* (- 34) x2 ) (* (- 20) x1 ) (* 0 x0 ) ) 24)) ))
-(assert (or (< (+ (* (- 14) x3 ) (* (- 7) x4 ) (* (- 1) x4 ) ) (- 41)) (< (+ (* (- 2) x0 ) (* 24 x3 ) (* 25 x2 ) (* (- 24) x4 ) (* (- 43) x3 ) (* 49 x4 ) ) 39) ))
-(assert (or (= (+ (* 42 x2 ) (* (- 15) x0 ) (* 39 x3 ) (* (- 2) x0 ) (* 41 x0 ) ) (- 46)) (not (<= (+ (* (- 25) x0 ) (* (- 38) x1 ) (* (- 17) x1 ) (* (- 34) x0 ) (* 34 x0 ) (* 31 x2 ) (* 19 x1 ) ) (- 5))) ))
-(assert (or (< (+ (* (- 15) x1 ) (* 41 x1 ) (* (- 37) x0 ) (* (- 11) x4 ) (* (- 29) x0 ) (* 6 x1 ) ) 48) (< (+ (* (- 39) x3 ) (* 5 x2 ) ) (- 3)) ))
-(assert (or (< (+ (* 37 x4 ) (* (- 24) x2 ) (* 18 x1 ) (* (- 6) x1 ) (* 46 x1 ) (* (- 5) x2 ) (* 18 x0 ) ) (- 32)) (= (+ (* 46 x4 ) (* (- 48) x0 ) (* 38 x4 ) (* 9 x2 ) (* 43 x0 ) (* 33 x4 ) (* 34 x2 ) (* 36 x3 ) (* (- 6) x0 ) (* (- 27) x2 ) (* (- 32) x0 ) ) (- 31)) ))
-(assert (or (not (< (+ (* 43 x0 ) (* 4 x0 ) (* 26 x0 ) (* (- 1) x3 ) (* 15 x1 ) (* (- 7) x3 ) (* (- 25) x1 ) (* (- 12) x1 ) ) (- 41))) (< (+ (* 33 x2 ) (* (- 13) x4 ) (* 15 x2 ) ) 37) (not (>= (+ (* 41 x1 ) (* 14 x3 ) ) 47)) ))
-(assert (or (not (< (+ (* 0 x3 ) (* (- 16) x4 ) (* 27 x0 ) (* 34 x4 ) (* (- 49) x1 ) (* 30 x2 ) (* 3 x4 ) (* (- 12) x3 ) ) 20)) (> (+ (* 19 x1 ) (* 9 x1 ) (* (- 16) x3 ) (* 23 x4 ) (* (- 9) x2 ) (* (- 35) x1 ) (* (- 18) x1 ) (* 16 x2 ) (* 28 x1 ) ) (- 48)) (not (>= (+ (* 18 x3 ) (* (- 7) x4 ) (* 34 x1 ) (* (- 31) x0 ) ) (- 21))) ))
-(check-sat)
-(push 1)
-(assert (or (not (<= (+ (* 44 x4 ) (* 15 x2 ) (* 9 x2 ) (* 9 x1 ) (* 24 x1 ) ) (- 30))) (<= (+ (* (- 13) x1 ) (* 41 x3 ) ) 1) (= (+ (* 19 x0 ) (* 48 x2 ) (* 33 x2 ) (* 28 x1 ) (* (- 2) x3 ) ) (- 26)) ))
-(assert (or (= (+ (* (- 2) x0 ) (* 32 x3 ) (* (- 25) x0 ) ) (- 3)) (= (+ (* 16 x0 ) (* (- 45) x0 ) (* (- 43) x3 ) (* 20 x4 ) (* (- 19) x1 ) ) (- 45)) (not (> (+ (* 35 x2 ) (* (- 7) x2 ) (* 4 x3 ) (* 48 x2 ) (* 15 x4 ) (* (- 4) x2 ) (* 30 x2 ) (* 7 x4 ) (* (- 34) x4 ) (* 42 x0 ) (* 30 x3 ) ) 49)) ))
-(assert (> (+ (* (- 7) x0 ) (* 14 x4 ) (* (- 34) x0 ) (* 18 x4 ) (* (- 22) x0 ) (* 26 x3 ) (* 1 x4 ) ) (- 28)) )
-(assert (or (not (= (+ (* 22 x2 ) (* (- 24) x1 ) (* 46 x0 ) (* (- 42) x0 ) (* (- 42) x3 ) (* (- 10) x3 ) ) (- 47))) (not (>= (+ (* (- 34) x4 ) (* 6 x2 ) (* 21 x0 ) (* 41 x3 ) (* (- 43) x4 ) (* 7 x4 ) (* (- 21) x1 ) (* (- 6) x1 ) (* 8 x1 ) ) (- 28))) ))
-(assert (>= (+ (* (- 15) x2 ) (* (- 39) x0 ) (* (- 45) x4 ) (* 40 x2 ) (* 49 x3 ) (* (- 32) x2 ) (* (- 18) x2 ) (* (- 2) x4 ) (* (- 9) x4 ) ) (- 45)) )
-(assert (or (not (> (+ (* (- 1) x2 ) (* 33 x2 ) (* (- 50) x3 ) (* 6 x2 ) (* (- 8) x2 ) (* (- 6) x4 ) (* 16 x4 ) (* 23 x4 ) (* 31 x2 ) (* 42 x3 ) (* (- 45) x0 ) ) (- 10))) (> (+ (* 18 x0 ) (* (- 31) x2 ) (* (- 4) x3 ) (* 27 x0 ) (* 18 x4 ) (* (- 27) x0 ) (* 19 x1 ) (* (- 3) x3 ) (* 19 x3 ) ) 15) (> (+ (* (- 12) x1 ) (* (- 3) x2 ) (* (- 31) x0 ) (* 43 x1 ) (* 46 x2 ) (* 36 x3 ) (* 6 x0 ) (* (- 15) x4 ) (* 15 x1 ) (* 18 x0 ) ) 39) ))
-(assert (not (< (+ (* 47 x3 ) (* (- 27) x1 ) (* (- 18) x2 ) (* 9 x3 ) (* (- 42) x1 ) (* 37 x3 ) (* (- 2) x1 ) (* (- 36) x0 ) (* 0 x1 ) (* 21 x2 ) (* 10 x2 ) ) (- 14))) )
-(assert (or (not (< (+ (* 10 x1 ) (* 15 x4 ) (* (- 30) x2 ) (* 39 x0 ) (* (- 45) x4 ) (* (- 14) x3 ) (* 29 x3 ) (* 16 x0 ) (* (- 39) x4 ) ) (- 18))) (not (>= (+ (* 1 x3 ) (* (- 25) x2 ) (* 45 x1 ) (* (- 25) x2 ) (* 41 x3 ) (* (- 16) x0 ) (* (- 7) x3 ) ) 4)) (< (+ (* 35 x3 ) (* (- 32) x4 ) (* 24 x4 ) (* 45 x4 ) (* (- 34) x2 ) (* 1 x0 ) (* (- 49) x2 ) (* 39 x4 ) (* (- 48) x1 ) (* 30 x2 ) ) (- 23)) ))
-(check-sat)
-(pop 1)
-(assert (or (not (> (+ (* (- 6) x4 ) (* 34 x4 ) (* (- 45) x4 ) (* (- 5) x2 ) (* 36 x0 ) (* (- 33) x0 ) (* 2 x4 ) (* (- 21) x0 ) (* 24 x3 ) (* (- 19) x3 ) (* (- 43) x1 ) ) (- 38))) (<= (+ (* 49 x0 ) (* (- 19) x2 ) (* (- 4) x4 ) (* (- 49) x2 ) (* 6 x1 ) (* 35 x1 ) (* 36 x3 ) ) (- 26)) ))
-(assert (< (+ (* (- 47) x2 ) (* 28 x1 ) (* 29 x0 ) (* 49 x2 ) (* 49 x0 ) (* (- 43) x4 ) (* 3 x0 ) (* (- 5) x3 ) (* 16 x0 ) (* 33 x1 ) ) 24) )
-(check-sat)
-(push 1)
-(assert (or (> (+ (* (- 27) x4 ) (* (- 23) x3 ) (* (- 23) x2 ) (* 10 x0 ) (* (- 40) x2 ) ) 48) (not (= (+ (* 6 x2 ) (* (- 49) x3 ) (* (- 5) x1 ) ) 3)) (not (> (+ (* (- 3) x4 ) (* (- 31) x3 ) (* 3 x0 ) (* (- 9) x4 ) (* 18 x1 ) (* 8 x1 ) ) 45)) ))
-(assert (or (not (< (+ (* (- 40) x2 ) (* (- 29) x3 ) (* (- 32) x3 ) (* 15 x4 ) (* (- 23) x0 ) (* 8 x4 ) (* (- 30) x2 ) (* 26 x3 ) (* (- 2) x1 ) (* (- 14) x1 ) (* 7 x2 ) ) 6)) (not (> (+ (* (- 12) x4 ) (* 30 x4 ) (* 36 x1 ) (* (- 20) x2 ) (* 11 x2 ) ) (- 50))) ))
-(assert (or (not (= (+ (* 31 x1 ) (* 34 x3 ) (* (- 31) x2 ) (* (- 12) x0 ) (* 29 x2 ) (* 13 x2 ) (* 16 x2 ) (* (- 42) x3 ) (* 32 x2 ) (* 18 x3 ) ) 18)) (> (+ (* (- 47) x4 ) (* 20 x2 ) (* (- 27) x1 ) ) (- 21)) ))
-(assert (> (+ (* 21 x4 ) (* (- 14) x3 ) (* (- 48) x0 ) (* (- 6) x2 ) (* 20 x4 ) (* 28 x4 ) (* 43 x3 ) (* 23 x1 ) (* 47 x1 ) ) (- 49)) )
-(assert (> (+ (* 21 x4 ) (* 45 x2 ) (* 8 x1 ) (* (- 40) x1 ) (* (- 34) x1 ) (* (- 19) x1 ) (* 0 x1 ) ) (- 23)) )
-(assert (< (+ (* (- 34) x2 ) (* (- 45) x4 ) (* 3 x0 ) (* (- 33) x2 ) ) 18) )
-(assert (or (<= (+ (* 25 x2 ) (* (- 30) x0 ) (* 7 x0 ) (* 34 x1 ) (* (- 43) x0 ) (* 18 x4 ) (* (- 43) x4 ) (* 19 x2 ) (* (- 21) x3 ) (* 35 x3 ) (* 5 x4 ) ) (- 12)) (not (> (+ (* (- 33) x2 ) (* 26 x3 ) (* (- 25) x4 ) ) (- 46))) ))
-(check-sat)
-(pop 1)
-(assert (or (not (>= (+ (* (- 38) x3 ) (* (- 6) x4 ) (* (- 19) x4 ) (* (- 45) x1 ) (* (- 46) x2 ) ) 40)) (not (<= (+ (* (- 14) x1 ) (* 45 x3 ) (* (- 42) x4 ) (* 38 x2 ) (* 26 x0 ) (* 32 x0 ) (* 19 x2 ) (* 45 x1 ) (* 11 x1 ) (* (- 38) x2 ) ) (- 45))) ))
-(assert (not (> (+ (* 27 x2 ) (* (- 11) x4 ) (* (- 30) x2 ) ) (- 23))) )
-(assert (or (<= (+ (* 44 x2 ) (* (- 26) x3 ) (* (- 13) x1 ) ) 44) (= (+ (* 41 x0 ) (* 13 x4 ) (* (- 15) x2 ) (* (- 41) x4 ) (* (- 36) x4 ) (* 5 x2 ) ) (- 45)) (not (= (+ (* 41 x1 ) (* (- 45) x1 ) (* 38 x3 ) (* 1 x4 ) (* 25 x2 ) (* 8 x4 ) (* 23 x0 ) (* 27 x2 ) ) 15)) ))
-(assert (or (= (+ (* (- 42) x3 ) (* 37 x1 ) (* 48 x3 ) (* 41 x4 ) (* (- 18) x0 ) (* (- 2) x2 ) (* (- 32) x2 ) (* (- 14) x1 ) (* (- 49) x4 ) (* 8 x4 ) (* 34 x1 ) ) 34) (not (< (+ (* 4 x3 ) (* (- 8) x0 ) (* (- 10) x1 ) (* 24 x3 ) (* (- 32) x3 ) (* 14 x2 ) (* 4 x4 ) (* (- 6) x1 ) (* (- 16) x3 ) (* 41 x2 ) (* (- 19) x2 ) ) 42)) (< (+ (* (- 24) x2 ) (* (- 14) x2 ) (* (- 15) x2 ) (* (- 31) x0 ) (* 21 x2 ) (* (- 18) x4 ) (* (- 11) x0 ) (* 19 x1 ) ) (- 47)) ))
-(check-sat)
-(push 1)
diff --git a/test/regress/regress0/push-pop/arith/fuzz_5_6.smt2 b/test/regress/regress0/push-pop/arith/fuzz_5_6.smt2
deleted file mode 100644
index 1cffc92cb..000000000
--- a/test/regress/regress0/push-pop/arith/fuzz_5_6.smt2
+++ /dev/null
@@ -1,49 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-(set-logic QF_LRA)
-(declare-fun x0 () Real)
-(declare-fun x1 () Real)
-(declare-fun x2 () Real)
-(declare-fun x3 () Real)
-(declare-fun x4 () Real)
-(assert (or (= (+ (* 24 x2 ) (* (- 12) x4 ) (* (- 11) x2 ) (* 21 x1 ) ) (- 25)) (not (< (+ (* (- 42) x2 ) (* 19 x2 ) (* (- 48) x1 ) (* 37 x0 ) ) 38)) ))
-(assert (< (+ (* (- 40) x2 ) (* 1 x3 ) (* (- 30) x4 ) (* (- 45) x2 ) (* 39 x3 ) ) (- 6)) )
-(assert (or (not (> (+ (* 26 x0 ) (* (- 42) x1 ) (* (- 40) x2 ) (* (- 33) x0 ) (* 1 x2 ) (* (- 5) x4 ) (* 46 x4 ) (* 13 x1 ) (* (- 49) x4 ) (* (- 22) x4 ) (* (- 6) x1 ) ) (- 16))) (not (<= (+ (* 48 x3 ) (* 27 x0 ) (* (- 23) x2 ) (* (- 35) x3 ) ) 37)) (not (<= (+ (* 25 x0 ) (* 16 x1 ) (* 47 x2 ) (* (- 22) x0 ) ) 10)) ))
-(assert (>= (+ (* 38 x0 ) (* 6 x1 ) (* (- 48) x1 ) (* (- 27) x4 ) (* 33 x1 ) (* (- 14) x2 ) (* 40 x4 ) (* 26 x3 ) ) 42) )
-(check-sat)
-(push 1)
-(check-sat)
-(pop 1)
-(assert (or (<= (+ (* (- 32) x2 ) (* 30 x1 ) (* 41 x2 ) (* (- 37) x1 ) ) (- 21)) (< (+ (* 9 x0 ) (* (- 1) x2 ) (* 48 x1 ) (* (- 47) x0 ) (* (- 22) x4 ) (* 49 x0 ) (* (- 10) x4 ) (* 9 x1 ) (* (- 30) x4 ) (* 38 x2 ) (* 5 x0 ) ) 19) ))
-(check-sat)
-(push 1)
-(assert (or (< (+ (* 9 x4 ) (* 25 x1 ) (* 47 x4 ) (* (- 26) x1 ) (* (- 10) x2 ) (* 28 x3 ) (* (- 37) x2 ) (* (- 22) x2 ) (* 23 x1 ) (* (- 36) x2 ) ) (- 10)) (< (+ (* (- 31) x2 ) (* (- 6) x4 ) (* (- 28) x4 ) (* 13 x0 ) (* 21 x4 ) ) 40) ))
-(check-sat)
-(pop 1)
-(assert (not (> (+ (* (- 44) x3 ) (* (- 40) x3 ) (* (- 46) x4 ) (* (- 1) x4 ) (* 26 x3 ) (* (- 27) x4 ) (* 26 x4 ) (* 21 x4 ) (* 44 x0 ) (* (- 3) x3 ) ) (- 41))) )
-(assert (or (not (< (+ (* 22 x2 ) (* (- 4) x0 ) ) (- 28))) (<= (+ (* 41 x1 ) (* 7 x4 ) ) (- 10)) ))
-(assert (not (<= (+ (* (- 21) x2 ) (* (- 6) x3 ) (* (- 24) x3 ) (* (- 17) x1 ) (* 11 x1 ) (* (- 5) x0 ) ) (- 45))) )
-(assert (or (< (+ (* 16 x2 ) (* 48 x3 ) (* 20 x2 ) (* (- 1) x2 ) (* 43 x0 ) (* 15 x0 ) (* (- 33) x0 ) ) 44) (not (<= (+ (* (- 46) x4 ) (* 22 x0 ) (* (- 10) x3 ) (* (- 27) x0 ) (* (- 11) x4 ) (* (- 32) x0 ) (* 17 x3 ) (* (- 39) x4 ) (* (- 8) x3 ) (* (- 25) x1 ) ) (- 7))) ))
-(check-sat)
-(push 1)
-(check-sat)
-(pop 1)
-(assert (or (not (< (+ (* (- 5) x2 ) (* (- 22) x3 ) (* 2 x0 ) (* 42 x1 ) (* (- 29) x2 ) (* 12 x3 ) (* 16 x3 ) (* (- 19) x0 ) (* (- 42) x0 ) (* (- 6) x1 ) ) 40)) (> (+ (* 27 x2 ) (* (- 28) x2 ) (* 7 x0 ) (* 9 x1 ) (* 14 x2 ) (* 4 x3 ) (* (- 16) x3 ) (* 41 x1 ) ) (- 42)) ))
-(assert (or (= (+ (* (- 36) x4 ) (* 5 x0 ) (* 2 x4 ) ) (- 16)) (< (+ (* (- 10) x1 ) (* 13 x3 ) (* 39 x4 ) (* (- 47) x3 ) (* (- 39) x0 ) (* 24 x2 ) (* 5 x2 ) (* (- 45) x2 ) (* 24 x1 ) ) (- 21)) ))
-(check-sat)
-(push 1)
-(assert (or (< (+ (* (- 7) x3 ) (* 35 x2 ) (* (- 42) x1 ) (* 43 x3 ) (* 27 x3 ) (* (- 47) x2 ) (* (- 5) x2 ) (* 13 x0 ) (* 36 x4 ) ) (- 38)) (not (<= (+ (* 27 x0 ) (* 25 x1 ) (* 36 x0 ) (* 46 x2 ) (* (- 9) x2 ) (* 4 x1 ) (* (- 6) x3 ) (* (- 6) x4 ) (* (- 22) x2 ) (* (- 19) x3 ) (* (- 25) x3 ) ) (- 22))) ))
-(assert (or (= (+ (* (- 13) x3 ) (* 3 x4 ) (* (- 25) x2 ) (* (- 26) x0 ) ) (- 38)) (< (+ (* 13 x2 ) (* (- 44) x3 ) (* 12 x2 ) (* (- 6) x2 ) (* 25 x2 ) (* 27 x2 ) ) (- 50)) ))
-(assert (or (not (= (+ (* (- 18) x4 ) (* (- 31) x1 ) ) (- 13))) (= (+ (* (- 42) x3 ) (* 10 x2 ) (* 29 x0 ) (* 0 x4 ) (* (- 19) x2 ) ) (- 38)) (= (+ (* (- 47) x4 ) (* (- 36) x1 ) (* 11 x1 ) (* (- 50) x1 ) (* 1 x0 ) (* (- 33) x3 ) (* 20 x2 ) (* (- 32) x2 ) (* (- 30) x0 ) (* 42 x2 ) (* (- 21) x1 ) ) 21) ))
-(check-sat)
-(pop 1)
-(check-sat)
-(push 1)
diff --git a/test/regress/regress0/push-pop/arith_lra_01.smt2 b/test/regress/regress0/push-pop/arith_lra_01.smt2
deleted file mode 100644
index 4216f429a..000000000
--- a/test/regress/regress0/push-pop/arith_lra_01.smt2
+++ /dev/null
@@ -1,105 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-(set-logic QF_LRA)
-(declare-fun x0 () Real)
-(declare-fun x1 () Real)
-(declare-fun x2 () Real)
-(declare-fun x3 () Real)
-(declare-fun x4 () Real)
-(assert (or (not (>= (+ (* 17 x1 ) (* 46 x1 ) (* (- 8) x2 ) (* 12 x4 ) (* (- 39) x4 ) (* (- 21) x4 ) (* (- 24) x0 ) (* 31 x3 ) (* (- 31) x2 ) (* 37 x0 ) ) (- 8))) (>= (+ (* (- 2) x3 ) (* (- 22) x1 ) ) (- 42)) ))
-(assert (or (not (> (+ (* 49 x0 ) (* 34 x2 ) (* 18 x4 ) ) 45)) (not (= (+ (* 39 x3 ) (* (- 50) x0 ) (* 18 x3 ) (* (- 48) x4 ) (* 26 x3 ) (* 36 x3 ) (* 32 x1 ) ) (- 36))) (> (+ (* (- 41) x3 ) (* (- 22) x1 ) (* 5 x4 ) (* 25 x4 ) (* (- 39) x0 ) (* (- 26) x2 ) (* (- 15) x1 ) (* (- 49) x3 ) ) (- 15)) ))
-(assert (or (<= (+ (* (- 17) x2 ) (* (- 20) x3 ) (* (- 15) x0 ) (* (- 23) x2 ) (* 27 x3 ) (* 12 x2 ) (* 48 x2 ) (* (- 29) x2 ) ) (- 25)) (= (+ (* 0 x4 ) (* (- 15) x2 ) (* (- 11) x4 ) (* 23 x0 ) (* (- 10) x2 ) (* (- 30) x0 ) (* (- 26) x4 ) ) (- 48)) (not (< (+ (* (- 43) x2 ) (* (- 44) x3 ) (* (- 43) x4 ) (* (- 11) x4 ) (* (- 21) x0 ) (* 15 x1 ) (* (- 45) x3 ) (* 0 x2 ) (* 21 x2 ) (* (- 45) x1 ) (* 8 x0 ) ) (- 5))) ))
-(check-sat)
-(push 1)
-(assert (not (< (+ (* (- 44) x0 ) (* 45 x3 ) (* 34 x2 ) (* 14 x1 ) (* (- 43) x0 ) (* 19 x0 ) (* 12 x3 ) (* (- 49) x2 ) ) (- 21))) )
-(check-sat)
-(pop 1)
-(assert (or (>= (+ (* 21 x0 ) (* (- 15) x3 ) (* 29 x2 ) (* 35 x3 ) (* 39 x4 ) (* 12 x2 ) ) 13) (not (= (+ (* (- 38) x2 ) (* (- 11) x2 ) ) 26)) (< (+ (* 41 x0 ) (* (- 27) x4 ) (* 20 x0 ) (* (- 29) x4 ) (* (- 30) x3 ) (* (- 30) x3 ) (* 21 x4 ) (* (- 15) x2 ) (* 0 x2 ) (* (- 23) x3 ) (* 43 x2 ) ) (- 18)) ))
-(assert (or (not (< (+ (* (- 19) x3 ) (* 25 x2 ) (* (- 47) x2 ) (* 39 x4 ) (* (- 15) x3 ) (* 16 x2 ) ) 5)) (>= (+ (* 46 x1 ) (* 9 x2 ) (* 42 x1 ) (* 48 x3 ) (* 20 x0 ) ) 40) ))
-(assert (or (not (= (+ (* (- 40) x2 ) (* 24 x3 ) (* 7 x0 ) (* 40 x1 ) (* 28 x4 ) (* 2 x3 ) (* (- 3) x3 ) (* (- 50) x3 ) (* (- 50) x3 ) (* (- 9) x1 ) (* (- 1) x2 ) ) 41)) (= (+ (* (- 1) x0 ) (* 9 x3 ) ) (- 19)) (not (>= (+ (* 37 x2 ) (* 0 x3 ) (* (- 7) x2 ) (* 36 x4 ) (* 32 x0 ) (* (- 45) x0 ) (* 30 x4 ) (* (- 5) x1 ) ) (- 29))) ))
-(assert (= (+ (* (- 44) x3 ) (* (- 48) x1 ) (* 49 x0 ) (* (- 12) x0 ) (* (- 6) x4 ) (* (- 11) x0 ) ) 45) )
-(assert (not (>= (+ (* (- 20) x0 ) (* (- 5) x0 ) (* 43 x0 ) (* 33 x0 ) (* 35 x1 ) (* (- 30) x2 ) (* (- 4) x4 ) (* 22 x1 ) ) (- 50))) )
-(assert (not (> (+ (* 9 x1 ) (* 3 x2 ) (* 37 x1 ) (* (- 39) x4 ) ) 18)) )
-(assert (or (not (< (+ (* (- 23) x3 ) (* (- 10) x4 ) (* (- 17) x0 ) (* 19 x2 ) (* 40 x1 ) (* (- 19) x4 ) (* (- 32) x3 ) ) (- 5))) (not (= (+ (* 33 x2 ) (* (- 7) x2 ) (* 37 x2 ) (* 41 x1 ) (* (- 3) x2 ) (* 14 x1 ) (* 45 x0 ) (* (- 14) x1 ) ) 37)) (< (+ (* 3 x3 ) (* (- 26) x1 ) (* (- 24) x0 ) (* (- 20) x2 ) (* 23 x4 ) (* (- 28) x4 ) (* 42 x3 ) (* (- 19) x2 ) (* (- 26) x1 ) (* (- 40) x2 ) ) (- 27)) ))
-(check-sat)
-(push 1)
-(assert (or (not (= (+ (* (- 24) x4 ) (* 7 x4 ) (* (- 12) x1 ) (* 30 x3 ) (* 26 x3 ) (* (- 45) x2 ) (* (- 3) x1 ) (* (- 7) x2 ) (* (- 14) x0 ) ) 10)) (not (>= (+ (* (- 21) x0 ) (* 31 x3 ) (* (- 16) x3 ) (* 22 x0 ) (* 5 x1 ) (* 31 x0 ) (* 8 x4 ) (* 13 x4 ) ) 40)) (not (>= (+ (* (- 38) x1 ) (* 45 x1 ) (* (- 31) x0 ) (* 18 x3 ) (* 0 x2 ) (* (- 32) x4 ) ) (- 19))) ))
-(check-sat)
-(pop 1)
-(assert (not (= (+ (* 11 x3 ) (* (- 27) x0 ) (* 1 x0 ) ) (- 12))) )
-(check-sat)
-(push 1)
-(assert (or (= (+ (* 46 x3 ) (* (- 41) x4 ) (* (- 33) x4 ) (* 32 x2 ) (* (- 13) x2 ) (* 36 x3 ) (* (- 50) x3 ) (* 41 x2 ) (* 34 x4 ) ) (- 48)) (= (+ (* 17 x4 ) (* (- 43) x2 ) (* (- 2) x4 ) (* (- 38) x4 ) ) (- 8)) ))
-(check-sat)
-(push 1)
-(assert (or (not (< (+ (* (- 15) x2 ) (* (- 15) x3 ) ) 24)) (not (< (+ (* (- 4) x1 ) (* 25 x2 ) (* 13 x4 ) (* 13 x2 ) (* (- 31) x0 ) (* 44 x2 ) (* 6 x3 ) (* (- 40) x3 ) (* (- 31) x1 ) (* (- 35) x4 ) ) 9)) ))
-(check-sat)
-(push 1)
-(assert (or (= (+ (* 6 x1 ) (* 7 x3 ) (* (- 15) x2 ) (* 23 x3 ) (* (- 13) x3 ) (* 30 x4 ) (* (- 39) x2 ) (* 27 x4 ) ) 18) (not (< (+ (* (- 4) x4 ) (* (- 35) x1 ) (* 34 x4 ) (* (- 33) x3 ) (* 18 x2 ) (* 28 x0 ) (* (- 15) x4 ) ) 37)) ))
-(assert (or (< (+ (* 43 x3 ) (* 17 x2 ) ) (- 45)) (<= (+ (* 37 x3 ) (* 19 x1 ) (* (- 8) x3 ) (* 49 x1 ) (* (- 14) x3 ) (* (- 30) x2 ) (* 14 x0 ) (* 31 x0 ) (* (- 13) x4 ) (* (- 28) x2 ) ) 8) ))
-(assert (<= (+ (* (- 35) x2 ) (* (- 15) x3 ) (* (- 6) x0 ) (* 16 x4 ) (* (- 42) x3 ) (* (- 48) x0 ) (* 40 x2 ) (* 26 x3 ) (* 45 x0 ) (* 10 x0 ) ) 27) )
-(assert (or (<= (+ (* 12 x1 ) (* (- 33) x3 ) (* 17 x2 ) (* (- 7) x2 ) (* (- 25) x4 ) (* (- 22) x2 ) (* 2 x1 ) (* (- 46) x3 ) (* (- 2) x1 ) (* (- 5) x4 ) (* 7 x4 ) ) (- 10)) (not (>= (+ (* (- 31) x4 ) (* 25 x4 ) (* (- 33) x4 ) (* 9 x3 ) (* (- 48) x4 ) (* (- 31) x1 ) (* (- 18) x0 ) (* 34 x4 ) (* (- 15) x1 ) ) 39)) (not (<= (+ (* 36 x2 ) (* 24 x0 ) (* (- 17) x3 ) (* (- 38) x1 ) (* 2 x2 ) (* 11 x2 ) (* (- 39) x2 ) (* (- 33) x1 ) (* 15 x1 ) (* (- 1) x0 ) (* (- 33) x4 ) ) 32)) ))
-(check-sat)
-(push 1)
-(assert (or (= (+ (* 44 x3 ) (* (- 19) x3 ) (* 38 x0 ) (* 13 x4 ) (* (- 32) x1 ) ) (- 35)) (>= (+ (* 13 x3 ) (* 21 x4 ) (* 34 x3 ) (* 15 x1 ) (* 5 x3 ) (* (- 43) x3 ) (* 11 x0 ) ) 0) ))
-(assert (< (+ (* 14 x2 ) (* 38 x0 ) (* (- 42) x2 ) ) (- 44)) )
-(assert (or (not (< (+ (* (- 45) x1 ) (* 32 x3 ) (* 36 x1 ) (* 44 x2 ) (* 42 x3 ) (* (- 7) x2 ) (* 2 x1 ) (* (- 23) x1 ) (* 36 x0 ) (* (- 33) x3 ) ) 0)) (not (> (+ (* (- 34) x1 ) (* (- 49) x4 ) (* 15 x1 ) (* 10 x0 ) (* 10 x0 ) (* (- 39) x2 ) (* (- 9) x1 ) (* (- 11) x1 ) (* 10 x3 ) (* (- 11) x4 ) ) (- 38))) (<= (+ (* 10 x3 ) (* (- 34) x2 ) (* (- 13) x0 ) (* 19 x1 ) (* 20 x3 ) (* 9 x0 ) (* (- 33) x1 ) (* (- 44) x4 ) (* (- 37) x2 ) ) (- 32)) ))
-(assert (or (<= (+ (* (- 50) x1 ) (* (- 50) x4 ) (* 48 x0 ) (* (- 5) x0 ) (* 40 x0 ) (* 20 x1 ) (* (- 43) x2 ) (* (- 18) x1 ) ) 28) (not (< (+ (* 13 x1 ) (* (- 41) x2 ) (* (- 8) x3 ) (* 33 x4 ) ) (- 32))) (not (< (+ (* 4 x3 ) (* (- 15) x2 ) (* (- 33) x2 ) (* 12 x1 ) (* (- 8) x2 ) ) 35)) ))
-(assert (or (= (+ (* 12 x0 ) (* (- 28) x3 ) (* (- 28) x2 ) (* (- 45) x3 ) (* (- 31) x0 ) (* (- 15) x3 ) (* (- 39) x2 ) (* 28 x2 ) ) 16) (not (<= (+ (* 44 x3 ) (* 28 x0 ) (* 20 x4 ) ) 14)) (<= (+ (* 39 x3 ) (* 23 x2 ) (* 24 x3 ) ) 45) ))
-(assert (or (not (<= (+ (* (- 10) x0 ) (* (- 8) x3 ) (* (- 49) x3 ) (* (- 19) x3 ) ) 22)) (= (+ (* 17 x3 ) (* (- 42) x4 ) (* 27 x0 ) (* 35 x0 ) (* 42 x3 ) ) 8) ))
-(assert (or (not (>= (+ (* (- 5) x0 ) (* 20 x1 ) (* (- 45) x0 ) (* 5 x4 ) (* (- 43) x1 ) (* (- 20) x1 ) (* (- 34) x2 ) ) (- 11))) (not (<= (+ (* (- 5) x1 ) (* 21 x3 ) (* 16 x2 ) (* (- 10) x0 ) (* 35 x3 ) (* (- 23) x3 ) (* 18 x1 ) (* (- 42) x4 ) ) (- 12))) (not (= (+ (* 21 x4 ) (* (- 47) x1 ) (* 35 x4 ) (* (- 5) x1 ) (* (- 43) x1 ) (* (- 21) x1 ) (* 14 x4 ) (* 37 x0 ) (* 17 x2 ) (* 32 x4 ) (* 27 x2 ) ) (- 40))) ))
-(assert (or (not (= (+ (* 14 x1 ) (* (- 38) x4 ) (* (- 48) x2 ) (* (- 9) x2 ) (* (- 11) x3 ) (* (- 9) x2 ) (* 5 x1 ) (* (- 48) x1 ) ) 21)) (not (> (+ (* (- 29) x1 ) (* 45 x1 ) (* 48 x0 ) (* (- 2) x1 ) (* 35 x4 ) ) (- 15))) (not (= (+ (* (- 13) x0 ) (* 14 x1 ) (* (- 31) x0 ) (* 19 x3 ) ) (- 37))) ))
-(check-sat)
-(push 1)
-(assert (or (not (<= (+ (* 0 x4 ) (* (- 13) x1 ) (* (- 33) x3 ) (* 34 x2 ) (* (- 27) x2 ) (* (- 46) x0 ) (* 21 x1 ) ) (- 17))) (<= (+ (* 41 x2 ) (* 23 x1 ) (* (- 1) x0 ) (* 35 x4 ) (* 28 x3 ) ) (- 18)) ))
-(assert (or (not (= (+ (* 43 x2 ) (* (- 41) x1 ) (* 30 x3 ) (* (- 50) x3 ) (* (- 9) x0 ) ) (- 27))) (>= (+ (* (- 35) x0 ) (* 22 x0 ) ) 38) (not (> (+ (* 9 x2 ) (* (- 45) x3 ) (* 19 x2 ) (* 49 x0 ) (* (- 37) x2 ) (* (- 27) x3 ) (* (- 27) x4 ) ) (- 46))) ))
-(assert (or (> (+ (* (- 4) x1 ) (* 49 x2 ) (* 7 x2 ) ) (- 27)) (not (< (+ (* (- 33) x0 ) (* (- 39) x0 ) (* 9 x4 ) (* (- 33) x0 ) ) 9)) (>= (+ (* 6 x3 ) (* 22 x4 ) (* 4 x1 ) (* (- 34) x0 ) ) (- 46)) ))
-(assert (not (>= (+ (* 0 x1 ) (* (- 9) x1 ) (* (- 1) x2 ) (* 4 x1 ) (* (- 13) x0 ) (* (- 10) x4 ) (* (- 25) x4 ) (* (- 14) x3 ) (* (- 49) x1 ) ) 43)) )
-(assert (or (<= (+ (* 20 x2 ) (* 42 x3 ) (* (- 4) x2 ) (* (- 44) x3 ) (* (- 45) x1 ) (* 45 x2 ) (* (- 40) x4 ) (* 16 x0 ) (* (- 34) x3 ) (* 4 x1 ) (* 41 x1 ) ) 41) (< (+ (* 19 x4 ) (* (- 50) x0 ) (* (- 28) x4 ) (* (- 20) x0 ) ) 17) ))
-(assert (or (< (+ (* 35 x0 ) (* 1 x2 ) ) 46) (not (>= (+ (* 26 x0 ) (* 33 x3 ) (* (- 9) x2 ) (* 10 x2 ) (* 41 x2 ) (* (- 28) x1 ) ) 41)) (not (> (+ (* (- 34) x3 ) (* 1 x3 ) (* (- 19) x1 ) ) (- 23))) ))
-(assert (or (not (> (+ (* 25 x0 ) (* 17 x4 ) (* 9 x3 ) ) (- 48))) (not (>= (+ (* (- 20) x2 ) (* 14 x0 ) ) (- 45))) ))
-(assert (not (<= (+ (* 2 x3 ) (* (- 24) x3 ) (* (- 40) x1 ) (* 3 x0 ) ) (- 36))) )
-(assert (not (= (+ (* (- 30) x4 ) (* 11 x1 ) (* (- 11) x0 ) ) (- 29))) )
-(assert (not (= (+ (* 44 x4 ) (* (- 22) x4 ) (* 49 x1 ) (* (- 41) x0 ) (* 18 x2 ) ) 21)) )
-(check-sat)
-(pop 1)
-(assert (not (= (+ (* 38 x3 ) (* 7 x2 ) (* (- 23) x4 ) (* (- 28) x3 ) (* 20 x2 ) (* 39 x3 ) (* 17 x2 ) (* 28 x0 ) (* 11 x2 ) (* 29 x4 ) (* (- 43) x0 ) ) (- 2))) )
-(assert (not (>= (+ (* 6 x1 ) (* 29 x3 ) (* 25 x4 ) (* (- 4) x3 ) (* (- 13) x4 ) (* 9 x0 ) (* (- 32) x2 ) (* (- 45) x3 ) (* (- 14) x2 ) (* 34 x3 ) (* (- 37) x2 ) ) 14)) )
-(check-sat)
-(push 1)
-(check-sat)
-(push 1)
-(assert (or (>= (+ (* (- 50) x2 ) (* 48 x1 ) (* 16 x0 ) (* 31 x4 ) (* (- 33) x3 ) ) (- 10)) (not (< (+ (* (- 25) x3 ) (* (- 47) x4 ) (* (- 24) x1 ) (* 27 x3 ) (* 42 x3 ) ) (- 9))) ))
-(check-sat)
-(pop 1)
-(assert (or (not (> (+ (* 49 x0 ) (* (- 28) x3 ) (* (- 47) x1 ) (* (- 29) x1 ) (* (- 2) x0 ) (* (- 43) x4 ) (* (- 46) x4 ) ) 34)) (> (+ (* (- 22) x2 ) (* 45 x0 ) ) (- 29)) ))
-(push 1)
-(push 1)
-(check-sat)
-(push 1)
-(check-sat)
-(push 1)
-(assert (or (<= (+ (* (- 22) x4 ) (* (- 39) x1 ) (* (- 9) x1 ) (* (- 32) x1 ) (* 5 x2 ) (* 7 x3 ) (* (- 13) x3 ) (* 31 x3 ) ) 35) (<= (+ (* 44 x2 ) (* 21 x3 ) (* (- 9) x1 ) ) (- 29)) ))
-(assert (or (not (>= (+ (* 22 x1 ) (* (- 1) x2 ) (* (- 47) x0 ) (* 12 x4 ) (* (- 42) x4 ) ) 22)) (not (<= (+ (* 32 x0 ) (* 45 x1 ) (* 40 x4 ) (* 44 x4 ) (* 3 x2 ) (* 33 x2 ) ) (- 17))) ))
-(check-sat)
-(pop 1)
-(assert (or (not (> (+ (* (- 26) x1 ) (* 26 x0 ) ) 48)) (>= (+ (* 35 x3 ) (* (- 43) x2 ) (* 29 x0 ) (* (- 31) x2 ) (* (- 20) x2 ) (* 22 x1 ) ) 49) (>= (+ (* (- 31) x2 ) (* (- 2) x1 ) (* (- 45) x2 ) (* 25 x2 ) (* 29 x4 ) (* (- 23) x1 ) (* (- 1) x0 ) (* 18 x1 ) (* 0 x2 ) (* (- 43) x2 ) (* 24 x2 ) ) (- 23)) ))
-(assert (or (<= (+ (* 5 x0 ) (* (- 8) x0 ) (* 18 x4 ) (* (- 12) x3 ) (* (- 18) x3 ) (* (- 48) x3 ) (* (- 34) x1 ) (* (- 2) x1 ) (* (- 50) x3 ) (* (- 45) x3 ) ) (- 48)) (>= (+ (* 41 x0 ) (* 25 x2 ) (* (- 17) x2 ) (* (- 6) x0 ) (* (- 48) x3 ) (* (- 36) x3 ) (* 31 x0 ) (* (- 7) x3 ) ) 15) ))
-(check-sat)
-
diff --git a/test/regress/regress0/push-pop/arith_lra_02.smt2 b/test/regress/regress0/push-pop/arith_lra_02.smt2
deleted file mode 100644
index 3cb5674d1..000000000
--- a/test/regress/regress0/push-pop/arith_lra_02.smt2
+++ /dev/null
@@ -1,95 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: sat
-(set-logic QF_LRA)
-(declare-fun x0 () Real)
-(declare-fun x1 () Real)
-(declare-fun x2 () Real)
-(declare-fun x3 () Real)
-(declare-fun x4 () Real)
-(assert (or (not (>= (+ (* (- 29) x2 ) (* 3 x2 ) (* 49 x0 ) (* 46 x1 ) (* (- 18) x0 ) (* (- 17) x2 ) (* 35 x0 ) (* 9 x2 ) (* (- 16) x0 ) ) 16)) (= (+ (* 25 x1 ) (* 15 x2 ) (* 27 x4 ) (* 7 x2 ) (* 27 x3 ) (* (- 45) x4 ) ) (- 20)) (not (< (+ (* (- 13) x3 ) (* 47 x3 ) (* 20 x3 ) ) 33)) ))
-(check-sat)
-(assert (or (not (<= (+ (* (- 35) x1 ) (* 11 x4 ) ) (- 21))) (not (< (+ (* 12 x1 ) (* (- 24) x2 ) (* (- 41) x4 ) (* 25 x3 ) (* (- 29) x4 ) ) 41)) ))
-(assert (or (not (>= (+ (* (- 3) x1 ) (* (- 12) x0 ) (* 29 x4 ) ) 0)) (>= (+ (* (- 27) x3 ) (* (- 15) x2 ) (* (- 30) x0 ) (* 29 x0 ) (* 44 x2 ) (* (- 20) x0 ) (* (- 9) x2 ) ) (- 47)) ))
-(check-sat)
-(push 1)
-(assert (or (not (<= (+ (* (- 30) x2 ) (* (- 42) x0 ) (* (- 30) x4 ) (* (- 4) x0 ) (* (- 5) x4 ) (* (- 12) x4 ) (* (- 18) x4 ) (* 15 x0 ) ) 32)) (> (+ (* 44 x2 ) (* (- 37) x0 ) (* (- 35) x0 ) (* (- 1) x3 ) (* 25 x2 ) (* (- 39) x0 ) (* 40 x0 ) (* 7 x4 ) (* (- 20) x2 ) (* 27 x3 ) (* (- 50) x2 ) ) 17) ))
-(check-sat)
-(push 1)
-(assert (or (= (+ (* 47 x4 ) (* (- 1) x1 ) (* 39 x4 ) (* (- 44) x0 ) ) (- 34)) (>= (+ (* 39 x0 ) (* 7 x1 ) (* (- 26) x1 ) (* 48 x1 ) ) 26) ))
-(check-sat)
-(push 1)
-(assert (or (= (+ (* (- 25) x2 ) (* 16 x4 ) (* (- 13) x4 ) (* (- 12) x2 ) ) 29) (not (= (+ (* 13 x2 ) (* (- 33) x1 ) (* (- 18) x2 ) (* 26 x4 ) (* (- 37) x4 ) (* (- 13) x4 ) (* (- 2) x3 ) (* (- 7) x3 ) (* 26 x3 ) (* (- 20) x2 ) (* (- 27) x1 ) ) (- 2))) ))
-(assert (or (>= (+ (* (- 7) x0 ) (* (- 15) x1 ) (* 35 x3 ) ) 11) (= (+ (* (- 21) x0 ) (* (- 1) x4 ) (* 21 x3 ) (* (- 6) x2 ) (* (- 49) x0 ) ) (- 15)) (not (< (+ (* 47 x3 ) (* (- 47) x4 ) (* 3 x0 ) (* 16 x3 ) (* (- 21) x1 ) (* 1 x3 ) (* 16 x2 ) ) (- 25))) ))
-(assert (> (+ (* (- 7) x1 ) (* (- 20) x1 ) (* (- 1) x2 ) (* 24 x3 ) (* (- 14) x4 ) (* 24 x2 ) (* 38 x4 ) (* (- 44) x2 ) (* (- 50) x1 ) ) 22) )
-(assert (not (>= (+ (* 16 x1 ) (* (- 43) x4 ) (* (- 22) x3 ) (* 11 x0 ) (* (- 22) x3 ) (* (- 40) x2 ) (* 25 x2 ) ) (- 13))) )
-(assert (or (not (> (+ (* (- 5) x3 ) (* (- 46) x4 ) (* (- 21) x2 ) (* 29 x1 ) (* 38 x4 ) (* 48 x3 ) ) (- 44))) (not (<= (+ (* (- 13) x0 ) (* (- 42) x3 ) (* 27 x2 ) (* 45 x1 ) (* (- 42) x3 ) (* (- 33) x3 ) ) (- 16))) (not (= (+ (* 21 x3 ) (* 0 x4 ) (* (- 50) x0 ) (* (- 43) x0 ) (* (- 40) x3 ) (* 45 x2 ) (* (- 36) x2 ) (* 2 x2 ) (* 2 x3 ) (* (- 30) x2 ) ) (- 20))) ))
-(assert (or (not (< (+ (* 28 x2 ) (* 21 x4 ) (* 19 x0 ) (* 31 x2 ) (* 45 x1 ) (* 3 x4 ) (* 24 x4 ) ) (- 34))) (not (> (+ (* (- 10) x2 ) (* (- 18) x2 ) (* 49 x3 ) (* (- 27) x2 ) (* (- 30) x3 ) ) 8)) (= (+ (* 42 x1 ) (* (- 18) x3 ) (* (- 23) x3 ) (* 34 x0 ) (* 49 x4 ) (* 30 x0 ) (* (- 44) x4 ) (* 45 x3 ) ) 39) ))
-(assert (or (< (+ (* (- 41) x2 ) (* (- 40) x4 ) (* (- 36) x4 ) (* 7 x4 ) (* (- 5) x3 ) (* 11 x1 ) (* 16 x4 ) (* (- 3) x0 ) ) (- 48)) (= (+ (* 22 x0 ) (* 41 x3 ) (* (- 11) x0 ) (* (- 42) x3 ) (* 18 x0 ) (* (- 7) x4 ) (* (- 5) x2 ) ) (- 45)) (not (< (+ (* (- 11) x2 ) (* (- 30) x4 ) (* (- 25) x2 ) (* 42 x1 ) (* (- 10) x2 ) (* 21 x2 ) (* 5 x3 ) (* (- 19) x3 ) (* (- 35) x1 ) (* 11 x3 ) ) (- 27))) ))
-(assert (or (not (> (+ (* 41 x4 ) (* (- 30) x3 ) (* (- 15) x4 ) (* 35 x1 ) (* 13 x0 ) (* 43 x3 ) ) 6)) (<= (+ (* (- 31) x3 ) (* 4 x2 ) (* 18 x0 ) (* 23 x4 ) (* 43 x0 ) (* (- 39) x4 ) (* (- 1) x2 ) ) (- 28)) (<= (+ (* 32 x1 ) (* (- 47) x1 ) (* (- 17) x4 ) (* 32 x3 ) (* 24 x4 ) (* 15 x0 ) (* (- 22) x2 ) (* 14 x4 ) (* 36 x2 ) (* 2 x0 ) (* (- 35) x2 ) ) (- 5)) ))
-(check-sat)
-(push 1)
-(assert (or (not (= (+ (* (- 33) x3 ) (* 19 x4 ) ) 22)) (<= (+ (* 35 x3 ) (* (- 22) x0 ) (* 9 x0 ) (* (- 16) x1 ) (* 41 x3 ) (* (- 42) x3 ) (* 35 x3 ) ) 25) (not (>= (+ (* (- 8) x1 ) (* 22 x1 ) ) 14)) ))
-(assert (or (< (+ (* 27 x1 ) (* 4 x1 ) ) 12) (<= (+ (* (- 8) x2 ) (* (- 47) x4 ) (* (- 26) x3 ) (* (- 22) x1 ) (* (- 11) x4 ) (* (- 28) x3 ) (* 17 x3 ) (* 1 x0 ) (* 31 x4 ) (* 30 x3 ) ) (- 48)) (not (> (+ (* (- 6) x0 ) (* (- 35) x4 ) (* (- 12) x0 ) (* (- 6) x0 ) (* (- 19) x2 ) ) (- 3))) ))
-(check-sat)
-(push 1)
-(check-sat)
-(push 1)
-(assert (or (<= (+ (* 7 x4 ) (* (- 25) x1 ) (* 49 x3 ) (* (- 10) x0 ) (* 48 x0 ) (* (- 23) x0 ) (* 44 x4 ) (* (- 39) x2 ) (* 24 x4 ) ) 6) (<= (+ (* (- 36) x2 ) (* (- 17) x1 ) (* 18 x1 ) (* (- 27) x0 ) (* 36 x3 ) (* 12 x2 ) (* 21 x1 ) (* 18 x3 ) (* 38 x3 ) (* (- 44) x1 ) (* (- 37) x3 ) ) 2) (= (+ (* (- 18) x2 ) (* 45 x1 ) (* 43 x3 ) (* (- 44) x1 ) ) 28) ))
-(assert (= (+ (* (- 2) x2 ) (* 31 x4 ) (* 20 x1 ) ) (- 1)) )
-(assert (not (> (+ (* 47 x3 ) (* 7 x1 ) (* (- 20) x4 ) (* 42 x0 ) (* (- 20) x2 ) (* (- 12) x2 ) (* (- 34) x3 ) (* (- 35) x2 ) (* 0 x4 ) (* 18 x0 ) ) 49)) )
-(check-sat)
-(pop 1)
-(check-sat)
-(push 1)
-(assert (not (< (+ (* (- 46) x0 ) (* (- 32) x4 ) (* 40 x3 ) (* (- 47) x0 ) (* 27 x0 ) (* 22 x0 ) (* (- 24) x2 ) (* 0 x0 ) (* (- 11) x3 ) ) (- 50))) )
-(check-sat)
-(push 1)
-(assert (or (>= (+ (* 37 x2 ) (* 33 x1 ) (* 29 x1 ) (* (- 48) x4 ) (* 3 x2 ) (* 48 x2 ) (* (- 23) x3 ) (* 44 x2 ) (* 45 x2 ) (* (- 6) x2 ) (* 15 x2 ) ) 34) (not (>= (+ (* (- 11) x1 ) (* (- 23) x0 ) (* (- 32) x0 ) (* 49 x1 ) (* 14 x3 ) (* 43 x3 ) (* (- 23) x1 ) (* 9 x1 ) (* (- 44) x2 ) ) (- 12))) (= (+ (* (- 26) x2 ) (* (- 1) x2 ) (* (- 27) x0 ) (* (- 39) x3 ) (* 49 x4 ) (* (- 26) x0 ) (* (- 3) x3 ) ) 44) ))
-(assert (not (>= (+ (* (- 22) x3 ) (* 41 x4 ) (* 31 x4 ) (* (- 21) x2 ) (* 0 x3 ) (* (- 8) x2 ) (* 9 x4 ) (* (- 34) x1 ) (* (- 8) x4 ) (* 3 x2 ) ) 43)) )
-(check-sat)
-(pop 1)
-(check-sat)
-(pop 1)
-(assert (or (= (+ (* 15 x0 ) (* (- 46) x0 ) (* (- 49) x3 ) (* (- 45) x0 ) (* 26 x1 ) ) 5) (= (+ (* 12 x4 ) (* (- 2) x3 ) (* (- 24) x4 ) (* (- 1) x1 ) (* (- 20) x0 ) ) 23) ))
-(assert (< (+ (* (- 42) x4 ) (* 41 x3 ) (* 1 x2 ) (* (- 1) x3 ) (* (- 26) x2 ) (* 14 x0 ) ) (- 23)) )
-(assert (or (= (+ (* (- 36) x1 ) (* 44 x3 ) (* (- 20) x3 ) (* 39 x4 ) (* (- 19) x2 ) ) (- 15)) (not (>= (+ (* 3 x0 ) (* 49 x3 ) (* (- 49) x1 ) (* (- 37) x0 ) (* 28 x0 ) (* (- 46) x0 ) (* (- 22) x4 ) ) 47)) ))
-(assert (<= (+ (* (- 37) x4 ) (* 10 x3 ) ) 4) )
-(assert (or (not (< (+ (* (- 38) x1 ) (* (- 36) x4 ) ) (- 39))) (not (> (+ (* 42 x1 ) (* 8 x1 ) ) (- 2))) (<= (+ (* (- 38) x4 ) (* (- 1) x2 ) (* 21 x4 ) (* (- 3) x3 ) (* 19 x4 ) (* 25 x2 ) (* 24 x4 ) ) (- 22)) ))
-(check-sat)
-(push 1)
-(assert (or (not (<= (+ (* 23 x3 ) (* 4 x4 ) (* 43 x1 ) (* 19 x2 ) (* 23 x0 ) (* 28 x3 ) (* 48 x3 ) (* (- 12) x1 ) (* 35 x0 ) (* (- 7) x2 ) (* (- 31) x3 ) ) (- 33))) (not (< (+ (* (- 29) x1 ) (* 23 x0 ) (* 20 x3 ) ) (- 4))) (not (>= (+ (* 49 x3 ) (* 3 x3 ) (* (- 18) x2 ) (* (- 3) x3 ) (* 35 x0 ) (* (- 23) x2 ) (* (- 5) x2 ) (* (- 15) x0 ) (* (- 10) x1 ) (* (- 45) x4 ) ) (- 2))) ))
-(check-sat)
-(push 1)
-(check-sat)
-(assert (or (>= (+ (* (- 11) x1 ) (* 38 x4 ) (* (- 29) x1 ) ) (- 21)) (not (>= (+ (* (- 16) x4 ) (* (- 43) x2 ) (* (- 10) x0 ) (* 38 x1 ) (* (- 1) x2 ) (* (- 3) x2 ) ) 25)) ))
-(assert (or (not (< (+ (* (- 45) x4 ) (* (- 9) x0 ) (* (- 29) x2 ) (* (- 35) x1 ) (* (- 40) x2 ) (* 25 x1 ) (* (- 20) x2 ) (* (- 16) x1 ) ) 39)) (= (+ (* (- 10) x4 ) (* 9 x1 ) (* 16 x4 ) ) 5) (not (< (+ (* 34 x4 ) (* 17 x3 ) (* (- 8) x2 ) ) 38)) ))
-(assert (or (not (<= (+ (* 13 x3 ) (* 22 x2 ) (* 1 x4 ) (* 26 x3 ) (* (- 15) x3 ) ) 18)) (> (+ (* (- 49) x3 ) (* 28 x4 ) (* (- 20) x4 ) (* (- 16) x4 ) (* 42 x2 ) (* 36 x2 ) (* 36 x3 ) (* (- 26) x4 ) ) 17) ))
-(assert (or (not (= (+ (* (- 13) x1 ) (* (- 24) x0 ) (* (- 16) x2 ) (* (- 32) x3 ) (* (- 32) x2 ) (* 13 x4 ) (* (- 42) x3 ) (* 12 x3 ) (* 41 x4 ) (* 21 x1 ) (* (- 41) x4 ) ) 8)) (<= (+ (* 24 x1 ) (* 35 x1 ) ) 13) ))
-(assert (< (+ (* (- 21) x0 ) (* (- 41) x4 ) (* (- 15) x2 ) ) 22) )
-(assert (or (not (>= (+ (* (- 34) x0 ) (* (- 9) x1 ) (* 21 x2 ) (* 13 x1 ) (* (- 25) x3 ) (* 4 x4 ) (* (- 45) x0 ) (* 34 x4 ) (* 10 x1 ) ) 32)) (not (> (+ (* (- 10) x2 ) (* 36 x0 ) (* 30 x2 ) (* 46 x3 ) (* (- 34) x1 ) ) 14)) ))
-(assert (not (< (+ (* (- 45) x2 ) (* (- 3) x3 ) (* 38 x0 ) (* (- 44) x2 ) (* 40 x4 ) (* 8 x1 ) ) (- 7))) )
-(assert (not (> (+ (* 36 x3 ) (* 48 x0 ) (* (- 4) x4 ) (* 49 x4 ) (* (- 26) x1 ) (* (- 12) x3 ) (* (- 48) x0 ) ) (- 6))) )
-(check-sat)
-(pop 1)
-(assert (or (>= (+ (* 30 x0 ) (* (- 12) x4 ) (* 39 x4 ) (* (- 12) x0 ) (* (- 12) x2 ) (* 9 x1 ) (* (- 40) x2 ) ) 7) (not (> (+ (* 4 x2 ) (* 2 x2 ) (* 23 x4 ) ) (- 43))) ))
-(check-sat)
-(pop 1)
-(check-sat)
-
diff --git a/test/regress/regress0/push-pop/boolean/Makefile.am b/test/regress/regress0/push-pop/boolean/Makefile.am
index a1eb4fd31..56a27c527 100644
--- a/test/regress/regress0/push-pop/boolean/Makefile.am
+++ b/test/regress/regress0/push-pop/boolean/Makefile.am
@@ -25,57 +25,24 @@ MAKEFLAGS = -k
 CVC_TESTS =
 
 SMT2_TESTS = \
-	fuzz_1.smt2 \
 	fuzz_2.smt2 \
 	fuzz_3.smt2 \
-	fuzz_4.smt2 \
-	fuzz_5.smt2 \
-	fuzz_6.smt2 \
-	fuzz_7.smt2 \
-	fuzz_8.smt2 \
-	fuzz_9.smt2 \
-	fuzz_10.smt2 \
-	fuzz_11.smt2 \
 	fuzz_12.smt2 \
 	fuzz_13.smt2 \
 	fuzz_14.smt2 \
-	fuzz_15.smt2 \
-	fuzz_16.smt2 \
 	fuzz_18.smt2 \
-	fuzz_19.smt2 \
-	fuzz_20.smt2 \
 	fuzz_21.smt2 \
 	fuzz_22.smt2 \
-	fuzz_23.smt2 \
-	fuzz_24.smt2 \
-	fuzz_25.smt2 \
-	fuzz_26.smt2 \
 	fuzz_27.smt2 \
-	fuzz_28.smt2 \
-	fuzz_29.smt2 \
-	fuzz_30.smt2 \
 	fuzz_31.smt2 \
-	fuzz_32.smt2 \
 	fuzz_33.smt2 \
-	fuzz_34.smt2 \
-	fuzz_35.smt2 \
 	fuzz_36.smt2 \
-	fuzz_37.smt2 \
 	fuzz_38.smt2 \
-	fuzz_39.smt2 \
-	fuzz_40.smt2 \
-	fuzz_41.smt2 \
-	fuzz_42.smt2 \
-	fuzz_43.smt2 \
-	fuzz_44.smt2 \
-	fuzz_45.smt2 \
 	fuzz_46.smt2 \
 	fuzz_47.smt2 \
 	fuzz_48.smt2 \
 	fuzz_49.smt2 \
-	fuzz_50.smt2 \
-	fuzz_51.smt2 \
-	fuzz_52.smt2 
+	fuzz_50.smt2
 
 # Disabled because they take too long
 #	fuzz_1_to_52_merged.smt2 \
diff --git a/test/regress/regress0/push-pop/boolean/fuzz_1.smt2 b/test/regress/regress0/push-pop/boolean/fuzz_1.smt2
deleted file mode 100644
index 0af648d26..000000000
--- a/test/regress/regress0/push-pop/boolean/fuzz_1.smt2
+++ /dev/null
@@ -1,62 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-(set-logic QF_LIA)
-(declare-fun x0 () Bool)
-(declare-fun x1 () Bool)
-(declare-fun x2 () Bool)
-(declare-fun x3 () Bool)
-(declare-fun x4 () Bool)
-(declare-fun x5 () Bool)
-(declare-fun x6 () Bool)
-(declare-fun x7 () Bool)
-(declare-fun x8 () Bool)
-(declare-fun x9 () Bool)
-(assert (or (and (or (and (and (or (and (and (and x6 x1) (not x7)) (not (and x5 x9))) (or (or (and x8 x7) (or x5 x4)) (and (and x3 x2) (and x2 x9)))) (and (or (not (or x8 x3)) (and (or x1 x0) (not x9))) (or (or (and x7 x1) (not x5)) (not (and x1 x8))))) (not (and (and (or (and x4 x2) (or x5 x5)) (and (and x4 x6) (not x8))) (and (or (or x7 x4) (and x3 x1)) (or (and x8 x7) (or x9 x8)))))) (or (or (or (and (not (not x6)) (or (and x1 x5) (or x5 x2))) (or (not (or x3 x1)) (and (not x3) (or x0 x9)))) (and (or (not (or x0 x7)) (or (or x8 x3) (or x5 x9))) (or (or (not x3) (and x0 x5)) (and (or x7 x8) (or x6 x7))))) (not (not (not (and (and x0 x3) (and x1 x0))))))) (and (and (or (and (and (not (not x0)) (or (or x3 x4) (and x0 x9))) (not (not (and x1 x5)))) (not (not (or (and x7 x5) (not x0))))) (or (not (and (or (or x0 x9) (not x8)) (not (and x4 x5)))) (not (or (and (and x9 x3) (not x8)) (or (or x4 x9) (and x9 x7)))))) (and (or (not (and (not (not x8)) (or (not x8) (or x2 x1)))) (or (or (not (not x6)) (and (and x5 x2) (or x3 x8))) (not (and (or x7 x7) (or x5 x2))))) (or (or (and (not (not x2)) (and (or x2 x9) (or x8 x5))) (or (or (and x3 x4) (and x7 x5)) (and (not x1) (not x6)))) (or (or (and (not x4) (and x3 x3)) (and (not x5) (or x7 x9))) (not (and (not x8) (and x5 x0)))))))) (or (not (or (or (not (and (or (not x5) (and x0 x6)) (not (not x0)))) (and (not (or (or x5 x1) (or x4 x0))) (and (not (or x4 x9)) (or (or x4 x1) (or x7 x8))))) (or (or (not (or (and x2 x3) (and x1 x4))) (not (and (and x2 x3) (or x5 x7)))) (not (not (or (or x7 x9) (and x3 x5))))))) (not (not (or (not (or (or (not x0) (not x9)) (or (or x3 x9) (or x9 x1)))) (or (and (not (not x1)) (and (and x9 x3) (or x0 x8))) (or (and (and x3 x7) (or x6 x8)) (not (or x9 x1))))))))))
-(check-sat)
-(push 1)
-(assert (and (not (or (not (or (not (not x3)) (and (and x2 x3) (and x9 x3)))) (or (or (or (and x5 x8) (and x4 x6)) (not (or x7 x3))) (not (and (or x8 x6) (and x4 x7)))))) (or (or (not (not (or (and x5 x1) (or x8 x3)))) (and (not (and (not x5) (not x1))) (or (not (not x0)) (not (not x6))))) (or (and (not (and (or x1 x2) (and x5 x4))) (and (not (and x3 x9)) (or (not x9) (not x7)))) (and (not (and (or x6 x2) (or x9 x9))) (or (and (not x9) (or x4 x4)) (not (and x4 x7))))))))
-(check-sat)
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-(check-sat)
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-(check-sat)
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-(assert (not (and (not (not x1)) (or (or x8 x7) (and x1 x2)))))
-(check-sat)
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-(check-sat)
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-(assert (not (or x6 x2)))
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-(assert (or (and (not (and (and x3 x6) (and x6 x9))) (not (or (and x1 x6) (and x5 x1)))) (and (not (or (and x2 x8) (not x4))) (or (not (not x3)) (or (not x3) (or x1 x7))))))
-(check-sat)
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-(assert (not (or (and (or (or x6 x2) (and x9 x1)) (and (not x3) (and x8 x2))) (or (and (or x0 x0) (not x7)) (and (not x1) (and x7 x1))))))
-(check-sat)
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-(assert (and (and (or x9 x9) (or x2 x7)) (and (and x0 x3) (and x5 x2))))
-(assert (and (and (or (or x2 x2) (or x5 x2)) (and (or x6 x3) (or x1 x8))) (or (not (or x6 x4)) (or (or x2 x7) (or x4 x4)))))
-(check-sat)
-(push 1)
diff --git a/test/regress/regress0/push-pop/boolean/fuzz_10.smt2 b/test/regress/regress0/push-pop/boolean/fuzz_10.smt2
deleted file mode 100644
index 53493d261..000000000
--- a/test/regress/regress0/push-pop/boolean/fuzz_10.smt2
+++ /dev/null
@@ -1,62 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: sat
-(set-logic QF_LIA)
-(declare-fun x0 () Bool)
-(declare-fun x1 () Bool)
-(declare-fun x2 () Bool)
-(declare-fun x3 () Bool)
-(declare-fun x4 () Bool)
-(declare-fun x5 () Bool)
-(declare-fun x6 () Bool)
-(assert (or (not (and (or x4 x1) (and x5 x3))) (not (or (not x3) (not x3)))))
-(assert (and (or (not (and (or (or x1 x0) (not x0)) (and (not x1) (and x5 x2)))) (not (and (and (and x3 x4) (and x0 x6)) (or (not x1) (and x4 x5))))) (or (or (and (not (and x1 x5)) (not (not x5))) (and (and (and x0 x6) (and x0 x4)) (not (not x5)))) (not (and (and (not x6) (and x0 x0)) (and (not x2) (not x2)))))))
-(assert (or (not (or x6 x1)) (and (or x5 x1) (or x5 x6))))
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-(assert (and (or (not (not (not (and (not (and x3 x0)) (and (or x6 x1) (not x1)))))) (not (and (not (or (and (or x3 x5) (and x0 x6)) (or (not x1) (not x4)))) (not (and (and (not x6) (and x1 x2)) (and (and x3 x0) (and x6 x0))))))) (or (not (or (and (and (or (and x1 x4) (not x0)) (not (and x6 x3))) (or (and (or x2 x6) (and x3 x5)) (not (not x0)))) (or (or (not (and x1 x6)) (or (or x3 x3) (and x0 x2))) (or (not (not x0)) (and (or x2 x6) (and x1 x6)))))) (not (and (and (and (or (and x0 x4) (and x3 x4)) (and (or x2 x6) (or x4 x4))) (or (and (or x3 x0) (or x5 x6)) (not (or x4 x0)))) (and (and (or (or x5 x2) (not x5)) (or (and x6 x1) (or x0 x4))) (not (and (and x6 x6) (not x3)))))))))
-(assert (or (or x5 x5) (or x0 x3)))
-(check-sat)
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-(assert (and (or (and (and (or (not (and (not (and (and x1 x4) (and x1 x6))) (not (and (not x2) (and x1 x2))))) (not (or (or (or (or x3 x1) (or x5 x4)) (or (or x2 x4) (or x5 x2))) (not (and (or x3 x6) (not x0)))))) (or (or (and (not (or (not x5) (not x5))) (or (or (and x2 x2) (not x5)) (not (or x0 x5)))) (not (and (and (and x1 x3) (not x2)) (and (and x2 x1) (not x0))))) (and (not (or (and (not x2) (or x3 x2)) (and (not x3) (and x2 x5)))) (not (or (and (or x2 x2) (not x4)) (or (not x4) (not x1))))))) (and (and (or (and (not (and (not x0) (and x0 x4))) (and (and (not x6) (or x6 x2)) (or (and x5 x3) (and x5 x1)))) (and (or (and (not x0) (and x1 x4)) (not (or x2 x4))) (not (and (or x2 x5) (and x2 x2))))) (or (and (not (or (and x5 x5) (or x3 x1))) (not (not (not x3)))) (or (not (not (not x1))) (and (or (and x1 x4) (not x0)) (or (and x1 x0) (not x6)))))) (or (and (or (and (or (not x2) (and x4 x0)) (not (or x3 x1))) (or (or (or x0 x6) (or x2 x5)) (or (and x4 x4) (and x3 x2)))) (and (and (and (and x6 x1) (and x2 x3)) (or (not x1) (or x1 x4))) (or (and (or x6 x4) (not x3)) (or (or x1 x1) (and x5 x2))))) (or (or (or (not (not x4)) (and (not x0) (and x6 x6))) (or (and (not x4) (and x5 x2)) (not (not x4)))) (not (and (or (or x0 x3) (and x3 x5)) (not (not x2)))))))) (not (and (and (not (or (and (or (or x4 x3) (not x4)) (or (and x2 x5) (and x0 x3))) (and (and (or x2 x5) (or x1 x0)) (or (or x6 x4) (and x3 x2))))) (or (not (or (or (or x1 x5) (or x5 x3)) (not (not x1)))) (and (and (not (not x4)) (or (not x1) (and x1 x6))) (not (and (not x0) (not x6)))))) (not (or (and (or (and (not x1) (or x2 x4)) (not (or x5 x3))) (not (or (not x1) (not x0)))) (not (or (not (or x5 x1)) (and (or x1 x0) (and x1 x0))))))))) (or (or (and (and (not (not (not (or (or x3 x1) (or x6 x4))))) (or (not (not (and (and x2 x4) (and x0 x5)))) (and (and (and (and x4 x4) (or x5 x5)) (not (not x3))) (or (not (not x5)) (not (and x4 x1)))))) (and (or (and (or (not (and x6 x6)) (or (or x5 x1) (and x1 x2))) (not (not (and x1 x2)))) (and (and (or (and x3 x6) (not x4)) (and (not x5) (or x6 x5))) (not (and (not x5) (or x4 x3))))) (or (not (not (and (not x6) (and x3 x0)))) (or (and (and (and x3 x1) (and x6 x5)) (and (or x2 x5) (not x0))) (and (and (not x1) (not x6)) (not (not x3))))))) (not (and (not (not (not (and (or x6 x3) (not x6))))) (and (not (and (and (and x0 x0) (not x4)) (not (or x6 x1)))) (or (not (or (not x3) (not x5))) (or (or (not x6) (not x5)) (and (or x2 x6) (not x2)))))))) (and (and (not (or (and (not (not (or x5 x3))) (not (not (not x1)))) (not (not (not (and x2 x3)))))) (not (and (or (or (or (not x2) (or x2 x2)) (and (not x3) (or x4 x4))) (not (not (not x0)))) (and (and (and (and x5 x6) (or x1 x5)) (or (or x6 x1) (and x6 x1))) (and (not (or x0 x1)) (and (not x4) (and x5 x0))))))) (not (and (or (not (or (not (and x4 x6)) (or (not x5) (or x5 x0)))) (and (or (and (or x6 x1) (or x6 x1)) (and (not x2) (and x2 x0))) (or (not (and x5 x5)) (not (or x0 x5))))) (not (and (and (and (and x5 x1) (or x5 x2)) (and (and x3 x3) (or x2 x5))) (or (not (not x5)) (not (not x5)))))))))))
-(check-sat)
-(push 1)
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-(check-sat)
-(push 1)
-(check-sat)
-(push 1)
-(assert (and (not (or x6 x3)) (or (and x5 x4) (and x1 x0))))
-(assert (not (not (not x1))))
-(assert (and (not (not (or (and x3 x5) (and x6 x3)))) (and (and (not (not x4)) (or (or x5 x5) (or x4 x4))) (or (not (not x0)) (and (and x1 x3) (or x4 x6))))))
-(check-sat)
-(pop 1)
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-(assert (and (or x2 x3) (or x1 x5)))
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-(check-sat)
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-(check-sat)
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diff --git a/test/regress/regress0/push-pop/boolean/fuzz_11.smt2 b/test/regress/regress0/push-pop/boolean/fuzz_11.smt2
deleted file mode 100644
index 5307ec839..000000000
--- a/test/regress/regress0/push-pop/boolean/fuzz_11.smt2
+++ /dev/null
@@ -1,77 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-(set-logic QF_LIA)
-(declare-fun x0 () Bool)
-(declare-fun x1 () Bool)
-(declare-fun x2 () Bool)
-(declare-fun x3 () Bool)
-(declare-fun x4 () Bool)
-(declare-fun x5 () Bool)
-(assert (not (not (or (or (not (or (not (or (or (not x3) (or x3 x3)) (not (not x3)))) (and (not (and (and x2 x1) (not x3))) (and (or (or x3 x1) (not x5)) (or (not x3) (or x4 x0)))))) (and (not (or (not (and (and x3 x0) (and x4 x5))) (or (not (and x0 x0)) (and (and x5 x4) (not x3))))) (and (and (or (not (and x3 x0)) (or (not x2) (or x5 x1))) (not (and (and x2 x0) (or x5 x4)))) (not (or (not (and x2 x1)) (or (not x4) (and x3 x5))))))) (or (or (and (and (or (not (or x5 x0)) (or (not x2) (not x3))) (not (not (and x1 x1)))) (and (or (or (or x2 x5) (not x1)) (or (or x2 x0) (and x0 x4))) (or (and (and x3 x5) (and x1 x4)) (and (or x5 x0) (and x1 x2))))) (not (or (not (or (and x2 x2) (or x4 x3))) (not (or (or x3 x4) (and x0 x0)))))) (or (not (not (not (and (and x1 x2) (or x5 x0))))) (or (and (or (and (and x0 x5) (and x0 x3)) (or (or x2 x0) (or x3 x3))) (or (and (or x4 x4) (or x0 x5)) (not (not x5)))) (or (not (or (or x4 x1) (and x4 x2))) (and (not (not x5)) (or (or x5 x4) (and x2 x1)))))))))))
-(check-sat)
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-(assert (not (and (and (and (not (or (not x3) (and x0 x2))) (and (not (not x5)) (not (not x1)))) (not (or (or (or x5 x1) (not x5)) (not (not x3))))) (and (not (and (or (or x2 x2) (and x5 x5)) (not (not x5)))) (not (not (not (and x4 x2))))))))
-(assert (not (or (not (not (and (and (not (and (and x3 x5) (or x4 x3))) (and (and (or x0 x1) (and x3 x1)) (and (not x0) (and x4 x3)))) (and (and (not (or x0 x4)) (or (not x3) (not x1))) (or (or (or x4 x5) (and x3 x4)) (or (and x5 x2) (and x4 x0))))))) (not (or (not (or (and (or (or x3 x4) (or x5 x2)) (not (or x1 x0))) (or (not (not x0)) (not (and x1 x4))))) (not (not (or (and (and x0 x2) (or x1 x1)) (not (not x5))))))))))
-(check-sat)
-(push 1)
-(check-sat)
-(pop 1)
-(assert (not (and (or (or (or (not x0) (or x1 x4)) (not (not x4))) (and (and (or x0 x1) (not x1)) (or (and x4 x5) (and x4 x5)))) (or (and (and (or x3 x3) (or x4 x0)) (or (and x1 x2) (and x3 x2))) (or (not (or x0 x0)) (not (and x5 x0)))))))
-(check-sat)
-(pop 1)
-(check-sat)
-(push 1)
-(assert (and (and (or (or x5 x1) (or x3 x0)) (and (and x2 x3) (or x3 x5))) (or (and (not x3) (or x0 x3)) (and (not x3) (or x4 x0)))))
-(assert (not (and (and (not x2) (or x0 x5)) (and (not x1) (or x3 x1)))))
-(assert (not (or (or x3 x4) (or x5 x5))))
-(assert (and (not (and (and (or (or (or (not (or x3 x3)) (and (not x4) (or x1 x0))) (and (or (not x4) (or x0 x5)) (and (not x2) (and x2 x3)))) (and (or (or (not x2) (and x4 x3)) (and (not x0) (not x0))) (or (and (and x1 x4) (not x1)) (and (and x2 x2) (or x4 x5))))) (and (not (and (and (and x5 x5) (and x5 x1)) (or (not x4) (not x0)))) (or (not (or (not x1) (not x1))) (or (and (not x0) (and x2 x4)) (or (and x5 x3) (and x2 x2)))))) (and (not (and (or (and (and x3 x5) (or x3 x3)) (or (and x5 x1) (and x4 x5))) (not (and (or x5 x1) (not x5))))) (or (and (or (not (or x5 x0)) (or (or x1 x2) (not x4))) (not (not (not x0)))) (not (and (or (and x2 x2) (and x2 x1)) (not (and x2 x1)))))))) (not (or (not (not (not (and (not (or x1 x3)) (and (and x5 x0) (or x4 x5)))))) (or (and (and (or (or (and x5 x4) (and x4 x3)) (or (and x2 x2) (and x3 x2))) (not (and (and x5 x0) (not x4)))) (and (and (not (and x3 x2)) (and (not x1) (not x5))) (or (or (and x1 x4) (not x2)) (not (or x5 x2))))) (or (and (not (and (and x5 x4) (or x1 x3))) (or (and (and x0 x0) (or x3 x5)) (not (not x2)))) (not (and (and (not x2) (and x1 x0)) (and (and x3 x0) (and x5 x5))))))))))
-(assert (or (not (and (and (or (or (and (and (or (not x4) (not x0)) (or (or x2 x0) (not x2))) (not (and (not x3) (and x3 x3)))) (not (or (and (or x1 x4) (and x3 x2)) (and (or x4 x3) (and x4 x5))))) (not (and (or (or (or x3 x5) (or x5 x4)) (or (or x5 x1) (not x0))) (and (or (or x1 x5) (and x4 x1)) (and (or x3 x5) (not x5)))))) (and (and (or (and (and (not x3) (and x3 x2)) (or (or x3 x3) (and x5 x3))) (and (or (not x2) (not x4)) (and (and x2 x2) (and x1 x5)))) (and (not (and (not x5) (and x4 x2))) (not (not (and x0 x0))))) (not (and (not (not (and x0 x2))) (and (or (not x3) (not x3)) (not (not x5))))))) (not (and (and (not (and (or (and x2 x3) (or x2 x0)) (or (or x0 x3) (and x4 x4)))) (or (and (and (not x5) (and x0 x2)) (not (or x1 x2))) (not (and (or x3 x5) (not x4))))) (not (or (or (and (or x4 x4) (not x5)) (or (or x3 x4) (not x0))) (and (not (and x1 x4)) (and (not x4) (and x5 x2))))))))) (and (not (not (and (and (and (not (not (not x0))) (or (not (or x4 x5)) (or (and x1 x5) (not x2)))) (not (and (and (and x3 x4) (not x1)) (and (not x3) (and x1 x5))))) (or (not (and (or (not x2) (and x1 x5)) (not (and x3 x2)))) (or (and (and (or x1 x3) (or x5 x0)) (not (or x1 x3))) (not (not (not x4)))))))) (not (not (and (not (or (and (and (not x3) (not x2)) (not (or x4 x2))) (and (and (or x5 x1) (or x3 x5)) (not (and x4 x3))))) (or (or (not (not (or x3 x1))) (not (or (or x4 x0) (and x0 x3)))) (or (not (not (or x0 x3))) (or (and (not x2) (not x1)) (and (or x5 x0) (and x4 x5)))))))))))
-(check-sat)
-(push 1)
-(assert (or (and (and (not (not (not (and (or (or x3 x0) (or x3 x1)) (not (not x2)))))) (not (not (or (and (or (and x4 x0) (not x4)) (not (or x4 x1))) (and (or (not x1) (or x3 x2)) (or (or x5 x1) (not x1))))))) (and (not (and (or (not (and (or x3 x1) (not x2))) (and (and (and x4 x5) (not x5)) (and (and x0 x0) (and x1 x2)))) (not (not (or (not x2) (and x3 x1)))))) (not (or (or (or (and (not x0) (and x4 x5)) (or (not x2) (and x2 x1))) (not (or (not x0) (not x0)))) (and (not (and (and x2 x0) (not x5))) (or (and (or x4 x0) (not x0)) (or (and x4 x3) (or x4 x5)))))))) (and (and (not (and (and (and (not (and x3 x0)) (and (not x1) (or x5 x1))) (or (not (not x1)) (not (or x0 x2)))) (and (or (not (not x0)) (or (and x4 x4) (and x2 x4))) (or (not (not x4)) (not (and x3 x4)))))) (not (or (not (not (and (or x0 x0) (or x4 x0)))) (not (and (not (not x4)) (or (and x0 x5) (or x3 x3))))))) (and (not (not (not (or (and (or x2 x3) (and x2 x2)) (not (or x0 x3)))))) (or (or (and (or (and (or x2 x4) (and x1 x4)) (and (and x5 x1) (not x0))) (not (not (or x0 x3)))) (not (and (and (not x4) (not x2)) (or (not x1) (or x3 x4))))) (not (and (not (or (or x4 x2) (and x2 x5))) (or (not (not x5)) (not (not x3))))))))))
-(check-sat)
-(push 1)
-(check-sat)
-(pop 1)
-(assert (or (and (not x3) (not x3)) (and (and x2 x3) (or x4 x1))))
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-(check-sat)
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-(check-sat)
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-(check-sat)
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-(assert (and (or (not (not (not (or (not x0) (and x3 x1))))) (or (not (not (or (not x2) (and x2 x3)))) (or (and (or (and x0 x3) (not x4)) (or (not x0) (not x1))) (or (and (or x4 x5) (and x0 x2)) (not (and x2 x5)))))) (not (not (not (and (and (not x1) (and x1 x0)) (not (and x2 x4))))))))
-(assert (not x0))
-(check-sat)
-(pop 1)
-(check-sat)
-(push 1)
diff --git a/test/regress/regress0/push-pop/boolean/fuzz_15.smt2 b/test/regress/regress0/push-pop/boolean/fuzz_15.smt2
deleted file mode 100644
index 4345c3231..000000000
--- a/test/regress/regress0/push-pop/boolean/fuzz_15.smt2
+++ /dev/null
@@ -1,30 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-(set-logic QF_LIA)
-(declare-fun x0 () Bool)
-(declare-fun x1 () Bool)
-(declare-fun x2 () Bool)
-(declare-fun x3 () Bool)
-(declare-fun x4 () Bool)
-(declare-fun x5 () Bool)
-(declare-fun x6 () Bool)
-(declare-fun x7 () Bool)
-(check-sat)
-(push 1)
-(check-sat)
-(push 1)
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-(check-sat)
-(push 1)
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-(assert (and (not (not (and (not (or x5 x6)) (or (and x7 x0) (not x2))))) (or (not (not (and (not x5) (not x7)))) (or (and (and (not x3) (or x0 x6)) (or (and x2 x7) (or x5 x0))) (and (and (or x4 x3) (or x7 x6)) (not (and x7 x4)))))))
-(assert (not x2))
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-(check-sat)
-(pop 1)
-(assert (not (not (not x3))))
-(check-sat)
diff --git a/test/regress/regress0/push-pop/boolean/fuzz_16.smt2 b/test/regress/regress0/push-pop/boolean/fuzz_16.smt2
deleted file mode 100644
index 715b1872c..000000000
--- a/test/regress/regress0/push-pop/boolean/fuzz_16.smt2
+++ /dev/null
@@ -1,47 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-(set-logic QF_LIA)
-(declare-fun x0 () Bool)
-(declare-fun x1 () Bool)
-(declare-fun x2 () Bool)
-(declare-fun x3 () Bool)
-(declare-fun x4 () Bool)
-(assert (or (or (and (not (not (not x0))) (not (and (not x4) (not x1)))) (and (and (or (and x3 x1) (not x1)) (and (not x3) (and x3 x4))) (and (or (or x1 x4) (and x3 x2)) (and (and x2 x4) (or x1 x4))))) (not (or (or (and (and x4 x1) (or x4 x2)) (and (or x0 x3) (not x2))) (not (or (or x0 x0) (and x0 x2)))))))
-(check-sat)
-(push 1)
-(check-sat)
-(push 1)
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-(check-sat)
-(pop 1)
-(check-sat)
-(push 1)
-(check-sat)
-(pop 1)
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-(check-sat)
-(push 1)
-(check-sat)
-(pop 1)
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-(check-sat)
-(push 1)
-(assert (or (or (and (and (and (and (or (or (not (and x4 x4)) (and (and x4 x0) (not x3))) (and (not (or x4 x0)) (not (or x0 x0)))) (not (or (not (and x3 x0)) (or (and x4 x0) (and x1 x3))))) (or (not (not (not (or x4 x1)))) (not (not (not (not x3)))))) (not (not (not (or (and (not x3) (or x1 x3)) (and (and x2 x3) (or x2 x2))))))) (not (not (or (not (and (not (or x4 x1)) (and (and x1 x4) (and x2 x2)))) (and (not (not (or x3 x2))) (not (not (not x4)))))))) (or (or (and (or (not (not (not (or x1 x1)))) (not (not (not (or x0 x1))))) (not (not (and (not (not x3)) (and (not x2) (and x4 x3)))))) (and (not (or (and (not (and x1 x0)) (and (and x3 x1) (or x1 x0))) (or (not (and x3 x2)) (or (or x1 x4) (and x2 x1))))) (not (not (or (and (and x2 x0) (not x0)) (and (and x2 x0) (and x0 x4))))))) (and (and (not (and (and (or (or x2 x4) (and x0 x3)) (not (or x1 x2))) (not (and (and x1 x1) (or x4 x3))))) (and (not (or (not (or x2 x3)) (or (or x2 x0) (and x3 x4)))) (not (not (or (and x2 x0) (not x4)))))) (or (not (and (not (not (or x0 x0))) (not (not (or x1 x3))))) (and (not (and (and (and x3 x4) (or x1 x0)) (or (and x2 x4) (not x2)))) (not (not (and (and x0 x1) (and x2 x4))))))))) (not (and (or (not (and (and (and (not (or x4 x2)) (and (not x0) (not x0))) (not (or (or x0 x1) (not x2)))) (or (or (and (and x3 x1) (or x4 x3)) (not (and x0 x2))) (or (and (and x1 x0) (not x0)) (or (not x2) (and x3 x3)))))) (not (and (and (and (or (and x3 x4) (and x3 x3)) (not (or x3 x4))) (not (not (and x3 x0)))) (or (and (not (or x4 x4)) (not (not x3))) (and (not (and x4 x1)) (or (and x2 x3) (and x0 x1))))))) (or (and (and (not (or (or (not x3) (not x4)) (not (or x1 x0)))) (and (or (or (and x1 x3) (and x1 x4)) (not (or x3 x1))) (and (not (and x0 x3)) (not (or x1 x1))))) (not (or (not (and (or x0 x0) (and x2 x2))) (not (or (not x4) (not x4)))))) (or (or (and (and (and (and x1 x2) (or x1 x0)) (or (or x1 x2) (or x2 x2))) (not (and (not x0) (or x1 x3)))) (not (or (or (or x0 x1) (or x4 x1)) (not (not x1))))) (not (or (not (and (not x3) (not x3))) (and (or (and x0 x0) (or x0 x1)) (or (and x1 x1) (not x4)))))))))))
-(assert (or (and (not (not (or (not (and x1 x3)) (not (not x3))))) (not (not (or (and (or x4 x0) (not x0)) (and (and x0 x0) (and x4 x1)))))) (not (and (and (not (and (or x2 x0) (or x0 x2))) (or (not (not x3)) (and (and x2 x1) (and x1 x3)))) (not (and (not (or x4 x0)) (or (not x2) (not x1))))))))
-(assert (or (and (not (not (and (and (and (not x0) (and x2 x3)) (or (or x1 x0) (and x4 x2))) (or (and (or x1 x0) (and x2 x4)) (or (and x0 x3) (not x4)))))) (or (and (not (not (and (not x2) (not x4)))) (or (or (or (and x0 x2) (and x4 x4)) (not (or x2 x4))) (and (not (and x0 x4)) (or (or x0 x2) (or x0 x2))))) (or (and (not (or (or x1 x1) (and x2 x0))) (not (and (not x2) (or x2 x2)))) (or (or (not (and x4 x4)) (or (and x0 x3) (not x1))) (and (not (not x4)) (or (or x0 x3) (not x1))))))) (and (or (and (or (or (and (or x3 x4) (or x2 x2)) (not (and x3 x0))) (or (not (and x2 x2)) (or (or x2 x1) (or x1 x1)))) (or (and (and (not x4) (not x1)) (or (and x1 x3) (and x3 x2))) (and (or (not x3) (or x2 x1)) (not (and x3 x2))))) (not (and (or (or (or x2 x3) (not x2)) (and (not x1) (not x2))) (or (and (or x3 x1) (and x3 x2)) (and (or x4 x2) (or x0 x4)))))) (and (or (and (or (not (and x4 x2)) (or (and x1 x3) (and x2 x3))) (or (not (and x0 x1)) (not (or x1 x2)))) (and (not (or (not x2) (or x3 x2))) (and (and (and x3 x3) (not x2)) (not (and x3 x3))))) (not (and (not (or (not x4) (not x3))) (or (or (and x1 x1) (not x0)) (and (not x0) (and x4 x3)))))))))
-(assert (or (and (or (or (and x2 x2) (or x1 x2)) (or (or x2 x3) (not x0))) (not (not (not x3)))) (or (and (and (and x3 x4) (or x4 x4)) (and (or x0 x2) (and x2 x3))) (and (or (and x4 x4) (and x2 x1)) (or (not x3) (or x4 x4))))))
-(check-sat)
-(pop 1)
-(check-sat)
diff --git a/test/regress/regress0/push-pop/boolean/fuzz_19.smt2 b/test/regress/regress0/push-pop/boolean/fuzz_19.smt2
deleted file mode 100644
index cbfda64df..000000000
--- a/test/regress/regress0/push-pop/boolean/fuzz_19.smt2
+++ /dev/null
@@ -1,44 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-(set-logic QF_LIA)
-(declare-fun x0 () Bool)
-(declare-fun x1 () Bool)
-(declare-fun x2 () Bool)
-(declare-fun x3 () Bool)
-(declare-fun x4 () Bool)
-(check-sat)
-(push 1)
-(check-sat)
-(pop 1)
-(assert (or (or (not (and (not (or (or (and (not (and x0 x3)) (not (not x1))) (or (not (and x4 x4)) (or (not x4) (not x4)))) (or (not (or (or x4 x0) (and x4 x2))) (not (or (and x4 x0) (or x1 x3)))))) (not (or (and (or (or (or x4 x2) (and x3 x2)) (or (not x3) (or x3 x4))) (or (not (or x2 x2)) (and (or x1 x1) (not x4)))) (or (and (not (or x0 x4)) (and (or x0 x3) (not x0))) (not (and (and x1 x2) (and x1 x4)))))))) (not (and (not (and (or (and (not (or x0 x4)) (or (and x1 x4) (and x3 x3))) (or (or (not x3) (or x1 x1)) (not (not x4)))) (not (and (and (and x2 x4) (and x2 x4)) (not (not x4)))))) (and (and (not (not (or (not x4) (and x4 x0)))) (not (and (not (and x0 x0)) (or (not x4) (or x3 x2))))) (not (not (and (and (not x2) (and x4 x4)) (not (and x1 x2))))))))) (and (or (and (not (and (not (or (or (and x1 x2) (not x0)) (or (not x4) (and x3 x0)))) (or (not (or (or x1 x3) (not x0))) (and (or (or x3 x0) (and x2 x0)) (not (not x0)))))) (or (and (and (and (and (not x0) (and x0 x1)) (and (not x1) (or x1 x3))) (not (not (or x1 x1)))) (or (not (or (or x2 x3) (or x2 x1))) (or (not (not x4)) (and (and x0 x4) (not x0))))) (or (and (or (not (not x1)) (or (not x2) (or x1 x4))) (or (or (not x3) (not x4)) (not (and x2 x2)))) (or (and (or (and x3 x1) (and x1 x1)) (not (and x4 x2))) (and (or (not x2) (and x4 x3)) (and (not x2) (or x0 x2))))))) (and (or (and (or (or (and (not x1) (or x0 x4)) (not (not x3))) (not (or (or x3 x1) (and x1 x0)))) (or (and (or (and x3 x3) (not x3)) (or (and x0 x2) (not x4))) (and (not (not x2)) (and (and x3 x2) (and x4 x3))))) (and (not (not (or (not x2) (and x0 x3)))) (not (and (and (not x3) (not x4)) (not (not x4)))))) (or (not (or (not (not (not x2))) (and (and (not x0) (and x3 x4)) (or (not x4) (and x0 x1))))) (not (or (and (or (and x2 x1) (or x3 x2)) (not (and x1 x4))) (and (not (or x0 x4)) (not (not x1)))))))) (or (and (and (not (or (or (and (and x3 x0) (not x2)) (and (or x0 x4) (and x3 x2))) (and (or (and x1 x3) (and x2 x0)) (or (not x0) (or x0 x3))))) (not (not (and (or (and x4 x3) (or x1 x0)) (not (and x2 x3)))))) (not (or (not (and (and (and x3 x4) (or x3 x4)) (or (or x1 x2) (and x1 x4)))) (not (not (or (and x2 x2) (and x4 x4))))))) (or (or (not (or (or (or (or x2 x0) (not x2)) (or (not x0) (or x4 x4))) (or (or (and x2 x0) (or x1 x1)) (and (or x3 x0) (not x0))))) (or (or (and (not (not x3)) (not (and x3 x4))) (not (and (not x0) (not x0)))) (and (or (or (or x2 x3) (and x3 x0)) (or (or x0 x3) (or x2 x2))) (not (not (and x3 x0)))))) (or (or (not (or (not (not x4)) (and (and x4 x0) (and x2 x2)))) (or (and (or (or x4 x2) (and x0 x3)) (and (and x0 x3) (not x0))) (not (and (or x3 x0) (and x0 x4))))) (and (or (and (or (and x2 x2) (and x0 x2)) (not (not x1))) (not (or (and x1 x1) (and x1 x2)))) (and (not (not (not x2))) (or (or (not x1) (and x0 x4)) (or (not x0) (not x0)))))))))))
-(assert (or (or (or (and x2 x1) (and x4 x4)) (or (or x1 x4) (and x2 x3))) (not (and (and x3 x4) (not x0)))))
-(check-sat)
-(push 1)
-(check-sat)
-(push 1)
-(check-sat)
-(pop 1)
-(assert (and (not (and (not (and (not (or (or x3 x0) (and x0 x2))) (not (and (and x2 x0) (not x3))))) (and (or (or (not (and x3 x1)) (not (and x4 x4))) (or (or (or x0 x3) (or x4 x4)) (not (not x3)))) (not (or (not (not x0)) (and (or x1 x0) (and x3 x2))))))) (not (and (and (and (or (or (or x2 x1) (and x0 x1)) (and (or x3 x0) (or x0 x0))) (or (and (and x3 x1) (or x3 x4)) (not (not x4)))) (not (and (or (and x2 x1) (and x4 x0)) (not (not x0))))) (and (and (or (or (and x3 x3) (or x1 x4)) (and (and x2 x3) (not x1))) (not (and (or x4 x2) (or x4 x4)))) (not (not (or (and x1 x1) (and x4 x3)))))))))
-(assert (not (not (not (not (and (or (not (or (and (not x4) (not x2)) (and (not x4) (not x1)))) (not (and (and (and x2 x2) (and x4 x3)) (not (and x1 x0))))) (not (or (and (not (and x3 x2)) (not (not x2))) (not (not (not x2)))))))))))
-(check-sat)
-(push 1)
-(assert (or (or (or (or (not x4) (not x1)) (not (not x1))) (and (and (and x4 x1) (and x4 x4)) (and (and x4 x0) (or x0 x2)))) (not (and (not (and x3 x0)) (and (not x2) (or x1 x0))))))
-(check-sat)
-(pop 1)
-(assert (not (or (not (not x3)) (or (not x2) (not x4)))))
-(assert (and (or x3 x4) (and x4 x0)))
-(assert (and (not (not (not (or (or (or (and (and (or x2 x3) (or x3 x1)) (and (or x0 x3) (and x4 x4))) (and (not (and x2 x4)) (or (and x4 x0) (or x4 x3)))) (not (or (and (and x0 x4) (not x4)) (not (or x3 x4))))) (and (and (or (not (and x1 x4)) (or (not x1) (and x4 x2))) (not (or (or x1 x2) (and x4 x3)))) (not (or (or (not x2) (not x4)) (and (or x1 x3) (not x3))))))))) (not (or (and (not (and (and (and (not (and x3 x3)) (not (and x1 x1))) (not (or (not x4) (or x2 x1)))) (and (not (or (not x4) (and x4 x2))) (or (or (and x1 x2) (not x4)) (and (or x3 x4) (not x0)))))) (and (or (or (or (or (or x3 x2) (or x1 x3)) (or (not x4) (or x1 x4))) (or (not (and x1 x0)) (and (and x4 x3) (and x0 x0)))) (and (or (not (not x0)) (or (or x0 x3) (or x4 x4))) (and (not (or x2 x2)) (not (and x2 x4))))) (or (not (and (or (and x1 x1) (or x1 x1)) (not (or x0 x0)))) (and (not (and (or x1 x3) (or x3 x3))) (or (and (or x0 x1) (not x2)) (or (or x3 x0) (or x3 x1))))))) (not (not (or (and (not (or (or x2 x2) (or x0 x3))) (or (and (and x4 x3) (not x4)) (or (or x0 x4) (and x3 x0)))) (and (or (and (or x1 x0) (or x0 x1)) (not (and x3 x4))) (and (or (or x2 x2) (or x1 x3)) (not (or x0 x1)))))))))))
-(assert (or (not (and (and (or (and x3 x4) (not x3)) (not (or x1 x0))) (and (and (or x3 x2) (or x2 x1)) (and (and x0 x1) (and x0 x2))))) (not (not (or (not (not x1)) (or (or x1 x3) (or x1 x4)))))))
-(check-sat)
-(pop 1)
-(assert (not (or x1 x2)))
-(assert (or (and (or (or x2 x0) (not x4)) (or (not x4) (or x2 x2))) (not (not (or x2 x3)))))
-(check-sat)
diff --git a/test/regress/regress0/push-pop/boolean/fuzz_1_to_52_merged.smt2 b/test/regress/regress0/push-pop/boolean/fuzz_1_to_52_merged.smt2
deleted file mode 100644
index 5b225557f..000000000
--- a/test/regress/regress0/push-pop/boolean/fuzz_1_to_52_merged.smt2
+++ /dev/null
@@ -1,2282 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: sat
-(set-logic QF_LIA)
-(push 1)
-(declare-fun x0 () Bool)
-(declare-fun x1 () Bool)
-(declare-fun x2 () Bool)
-(declare-fun x3 () Bool)
-(declare-fun x4 () Bool)
-(declare-fun x5 () Bool)
-(declare-fun x6 () Bool)
-(assert (or (not (and (or x4 x1) (and x5 x3))) (not (or (not x3) (not x3)))))
-(assert (and (or (not (and (or (or x1 x0) (not x0)) (and (not x1) (and x5 x2)))) (not (and (and (and x3 x4) (and x0 x6)) (or (not x1) (and x4 x5))))) (or (or (and (not (and x1 x5)) (not (not x5))) (and (and (and x0 x6) (and x0 x4)) (not (not x5)))) (not (and (and (not x6) (and x0 x0)) (and (not x2) (not x2)))))))
-(assert (or (not (or x6 x1)) (and (or x5 x1) (or x5 x6))))
-(assert (not (or (and (and (or (not (not (and x1 x0))) (not (and (or x1 x4) (or x6 x6)))) (not (not (not (or x4 x6))))) (and (or (or (or (and x2 x6) (and x1 x2)) (or (not x3) (not x3))) (or (or (and x4 x3) (and x2 x3)) (not (not x0)))) (and (not (and (and x4 x3) (not x2))) (or (and (or x0 x2) (not x2)) (or (not x3) (or x3 x3)))))) (and (not (not (or (or (or x5 x3) (or x4 x4)) (not (and x0 x6))))) (and (or (not (and (and x4 x5) (and x2 x6))) (or (and (and x2 x1) (and x3 x0)) (and (and x5 x4) (and x6 x2)))) (and (and (and (not x6) (not x4)) (and (and x0 x6) (not x4))) (not (and (or x4 x3) (not x6)))))))))
-(assert (and (or (not (not (not (and (not (and x3 x0)) (and (or x6 x1) (not x1)))))) (not (and (not (or (and (or x3 x5) (and x0 x6)) (or (not x1) (not x4)))) (not (and (and (not x6) (and x1 x2)) (and (and x3 x0) (and x6 x0))))))) (or (not (or (and (and (or (and x1 x4) (not x0)) (not (and x6 x3))) (or (and (or x2 x6) (and x3 x5)) (not (not x0)))) (or (or (not (and x1 x6)) (or (or x3 x3) (and x0 x2))) (or (not (not x0)) (and (or x2 x6) (and x1 x6)))))) (not (and (and (and (or (and x0 x4) (and x3 x4)) (and (or x2 x6) (or x4 x4))) (or (and (or x3 x0) (or x5 x6)) (not (or x4 x0)))) (and (and (or (or x5 x2) (not x5)) (or (and x6 x1) (or x0 x4))) (not (and (and x6 x6) (not x3)))))))))
-(assert (or (or x5 x5) (or x0 x3)))
-(check-sat)
-(push 1)
-(assert (not (and (not x6) (not x2))))
-(assert (not (or (and (not (not (or (and (not (and x3 x0)) (not (or x6 x3))) (and (or (or x5 x0) (or x1 x1)) (or (or x4 x4) (or x5 x1)))))) (or (or (or (not (or (or x6 x2) (or x3 x5))) (and (not (not x4)) (not (and x6 x1)))) (and (or (and (and x6 x6) (and x2 x3)) (not (or x3 x3))) (or (or (not x0) (or x3 x2)) (and (not x5) (and x5 x4))))) (and (not (and (or (or x0 x0) (not x6)) (and (not x3) (not x3)))) (not (not (and (and x0 x0) (not x0))))))) (not (or (and (not (not (not (or x1 x1)))) (not (not (and (not x2) (or x6 x2))))) (or (or (and (or (or x2 x6) (or x6 x1)) (and (not x0) (and x4 x0))) (not (not (and x5 x2)))) (and (not (not (or x4 x1))) (or (and (not x4) (or x0 x5)) (or (and x1 x5) (not x5))))))))))
-(assert (and (or (and (and (or (not (and (not (and (and x1 x4) (and x1 x6))) (not (and (not x2) (and x1 x2))))) (not (or (or (or (or x3 x1) (or x5 x4)) (or (or x2 x4) (or x5 x2))) (not (and (or x3 x6) (not x0)))))) (or (or (and (not (or (not x5) (not x5))) (or (or (and x2 x2) (not x5)) (not (or x0 x5)))) (not (and (and (and x1 x3) (not x2)) (and (and x2 x1) (not x0))))) (and (not (or (and (not x2) (or x3 x2)) (and (not x3) (and x2 x5)))) (not (or (and (or x2 x2) (not x4)) (or (not x4) (not x1))))))) (and (and (or (and (not (and (not x0) (and x0 x4))) (and (and (not x6) (or x6 x2)) (or (and x5 x3) (and x5 x1)))) (and (or (and (not x0) (and x1 x4)) (not (or x2 x4))) (not (and (or x2 x5) (and x2 x2))))) (or (and (not (or (and x5 x5) (or x3 x1))) (not (not (not x3)))) (or (not (not (not x1))) (and (or (and x1 x4) (not x0)) (or (and x1 x0) (not x6)))))) (or (and (or (and (or (not x2) (and x4 x0)) (not (or x3 x1))) (or (or (or x0 x6) (or x2 x5)) (or (and x4 x4) (and x3 x2)))) (and (and (and (and x6 x1) (and x2 x3)) (or (not x1) (or x1 x4))) (or (and (or x6 x4) (not x3)) (or (or x1 x1) (and x5 x2))))) (or (or (or (not (not x4)) (and (not x0) (and x6 x6))) (or (and (not x4) (and x5 x2)) (not (not x4)))) (not (and (or (or x0 x3) (and x3 x5)) (not (not x2)))))))) (not (and (and (not (or (and (or (or x4 x3) (not x4)) (or (and x2 x5) (and x0 x3))) (and (and (or x2 x5) (or x1 x0)) (or (or x6 x4) (and x3 x2))))) (or (not (or (or (or x1 x5) (or x5 x3)) (not (not x1)))) (and (and (not (not x4)) (or (not x1) (and x1 x6))) (not (and (not x0) (not x6)))))) (not (or (and (or (and (not x1) (or x2 x4)) (not (or x5 x3))) (not (or (not x1) (not x0)))) (not (or (not (or x5 x1)) (and (or x1 x0) (and x1 x0))))))))) (or (or (and (and (not (not (not (or (or x3 x1) (or x6 x4))))) (or (not (not (and (and x2 x4) (and x0 x5)))) (and (and (and (and x4 x4) (or x5 x5)) (not (not x3))) (or (not (not x5)) (not (and x4 x1)))))) (and (or (and (or (not (and x6 x6)) (or (or x5 x1) (and x1 x2))) (not (not (and x1 x2)))) (and (and (or (and x3 x6) (not x4)) (and (not x5) (or x6 x5))) (not (and (not x5) (or x4 x3))))) (or (not (not (and (not x6) (and x3 x0)))) (or (and (and (and x3 x1) (and x6 x5)) (and (or x2 x5) (not x0))) (and (and (not x1) (not x6)) (not (not x3))))))) (not (and (not (not (not (and (or x6 x3) (not x6))))) (and (not (and (and (and x0 x0) (not x4)) (not (or x6 x1)))) (or (not (or (not x3) (not x5))) (or (or (not x6) (not x5)) (and (or x2 x6) (not x2)))))))) (and (and (not (or (and (not (not (or x5 x3))) (not (not (not x1)))) (not (not (not (and x2 x3)))))) (not (and (or (or (or (not x2) (or x2 x2)) (and (not x3) (or x4 x4))) (not (not (not x0)))) (and (and (and (and x5 x6) (or x1 x5)) (or (or x6 x1) (and x6 x1))) (and (not (or x0 x1)) (and (not x4) (and x5 x0))))))) (not (and (or (not (or (not (and x4 x6)) (or (not x5) (or x5 x0)))) (and (or (and (or x6 x1) (or x6 x1)) (and (not x2) (and x2 x0))) (or (not (and x5 x5)) (not (or x0 x5))))) (not (and (and (and (and x5 x1) (or x5 x2)) (and (and x3 x3) (or x2 x5))) (or (not (not x5)) (not (not x5)))))))))))
-(check-sat)
-(push 1)
-(assert (not (or (and (and (not (or (and (or x4 x2) (or x0 x4)) (and (or x5 x2) (or x0 x5)))) (and (not (or (not x4) (and x4 x5))) (or (or (or x4 x5) (not x5)) (and (not x4) (or x0 x6))))) (or (and (not (not (not x6))) (or (and (not x1) (or x4 x3)) (or (or x5 x2) (or x6 x6)))) (and (not (and (or x4 x6) (not x1))) (or (or (and x2 x4) (and x3 x3)) (and (or x5 x0) (and x4 x2)))))) (not (not (and (not (not (and x1 x3))) (or (and (or x6 x5) (not x5)) (not (or x6 x5)))))))))
-(check-sat)
-(push 1)
-(check-sat)
-(push 1)
-(assert (and (not (or x6 x3)) (or (and x5 x4) (and x1 x0))))
-(assert (not (not (not x1))))
-(assert (and (not (not (or (and x3 x5) (and x6 x3)))) (and (and (not (not x4)) (or (or x5 x5) (or x4 x4))) (or (not (not x0)) (and (and x1 x3) (or x4 x6))))))
-(check-sat)
-(pop 1)
-(check-sat)
-(push 1)
-(check-sat)
-(push 1)
-(check-sat)
-(pop 1)
-(check-sat)
-(push 1)
-(assert (and (or x2 x3) (or x1 x5)))
-(check-sat)
-(pop 1)
-(assert (and (or (or (or (or (and (or x1 x3) (and x2 x6)) (or (not x1) (not x1))) (or (not (and x6 x2)) (and (not x1) (or x1 x3)))) (and (and (or (and x3 x4) (not x5)) (and (or x6 x4) (and x6 x3))) (and (not (not x2)) (and (not x2) (or x2 x2))))) (and (and (not (not (and x0 x3))) (or (or (or x4 x4) (or x0 x1)) (or (not x3) (and x3 x5)))) (or (and (and (not x0) (and x4 x2)) (not (not x2))) (and (not (or x4 x1)) (not (and x1 x5)))))) (and (not (or (not (or (or x6 x6) (and x0 x4))) (and (and (not x6) (not x0)) (and (or x0 x0) (and x2 x2))))) (and (or (and (or (not x1) (or x3 x0)) (or (and x3 x2) (or x2 x3))) (and (not (not x1)) (and (and x1 x4) (or x2 x2)))) (not (not (and (or x5 x2) (and x3 x5))))))))
-(check-sat)
-(pop 1)
-(assert (not (and (not (and (and (or (and (not (not (and x0 x2))) (or (or (not x1) (and x6 x5)) (and (and x6 x0) (and x6 x4)))) (and (or (or (and x0 x0) (or x1 x5)) (not (or x5 x2))) (not (or (not x5) (or x1 x3))))) (not (not (not (or (or x4 x1) (or x0 x1)))))) (not (and (and (not (not (or x3 x3))) (or (and (not x3) (or x5 x6)) (and (not x5) (not x4)))) (and (not (not (and x1 x0))) (or (or (not x2) (and x3 x6)) (not (or x1 x0)))))))) (not (and (not (and (or (or (and (or x1 x3) (not x6)) (not (not x0))) (not (and (not x1) (not x5)))) (or (and (not (and x0 x6)) (and (and x6 x6) (and x2 x4))) (or (or (or x5 x5) (or x1 x0)) (or (and x6 x4) (and x0 x3)))))) (not (not (or (not (and (not x3) (not x5))) (not (and (and x6 x4) (and x2 x0)))))))))))
-(check-sat)
-(pop 1)
-(assert (and (and (or (and (or (or (or (not (and (or x1 x0) (or x5 x0))) (and (not (not x2)) (not (or x4 x6)))) (or (not (or (or x4 x2) (not x0))) (not (or (not x1) (and x1 x3))))) (and (and (not (not (or x0 x6))) (or (and (and x5 x4) (not x3)) (not (and x3 x5)))) (not (and (or (or x0 x5) (or x3 x6)) (not (not x5)))))) (not (or (or (and (and (or x0 x5) (and x2 x3)) (not (not x1))) (not (not (and x0 x6)))) (or (and (and (and x4 x4) (not x0)) (not (not x3))) (or (and (not x0) (and x5 x0)) (or (and x6 x3) (not x2))))))) (not (not (not (or (and (or (and x2 x5) (and x2 x2)) (not (and x1 x1))) (and (or (and x5 x1) (or x5 x5)) (and (or x4 x5) (not x0)))))))) (or (not (not (or (or (and (not (or x4 x4)) (and (not x4) (and x0 x3))) (and (and (and x3 x4) (and x6 x1)) (or (not x5) (or x3 x3)))) (or (not (and (or x2 x5) (not x1))) (not (or (and x5 x4) (not x6))))))) (or (or (not (not (or (or (and x4 x4) (not x0)) (not (or x0 x2))))) (and (not (not (and (or x5 x6) (not x4)))) (or (or (not (and x3 x5)) (and (not x0) (and x2 x4))) (and (or (and x0 x4) (or x1 x2)) (or (and x4 x1) (and x5 x3)))))) (not (not (and (and (not (not x5)) (and (and x3 x2) (and x2 x2))) (or (or (and x0 x6) (or x4 x0)) (and (or x2 x3) (and x4 x2))))))))) (or (or (and (or (not (not (or (not (and x1 x6)) (or (or x5 x6) (not x3))))) (and (and (and (and (not x5) (and x5 x3)) (or (or x4 x1) (not x2))) (not (or (and x4 x3) (or x6 x1)))) (not (or (not (not x4)) (or (not x0) (and x2 x2)))))) (not (or (or (and (or (and x3 x4) (not x2)) (and (or x6 x0) (not x4))) (and (not (not x2)) (or (not x0) (or x4 x5)))) (or (not (or (and x5 x3) (not x5))) (not (not (not x4))))))) (not (and (and (not (not (or (not x0) (not x3)))) (not (not (or (not x5) (and x1 x3))))) (and (or (not (and (not x2) (not x0))) (not (and (and x5 x5) (and x4 x3)))) (or (not (and (not x1) (and x5 x0))) (and (and (or x4 x5) (or x5 x3)) (not (not x1)))))))) (and (not (not (or (and (or (not (or x6 x0)) (or (or x3 x2) (not x5))) (not (and (and x1 x4) (not x1)))) (and (or (and (and x2 x3) (or x2 x1)) (not (or x4 x0))) (not (or (not x3) (and x3 x5))))))) (or (or (or (or (not (and (and x5 x1) (or x4 x1))) (not (or (and x3 x1) (or x5 x0)))) (or (not (or (not x2) (and x3 x5))) (or (or (and x3 x5) (and x3 x3)) (not (not x1))))) (not (and (not (not (and x2 x2))) (or (and (not x3) (and x1 x1)) (not (or x3 x4)))))) (or (not (not (or (and (or x2 x2) (not x5)) (or (not x5) (not x2))))) (or (not (and (or (not x3) (and x6 x6)) (not (not x5)))) (or (and (or (and x5 x0) (and x2 x0)) (and (and x0 x2) (not x1))) (and (or (or x5 x6) (and x2 x1)) (or (and x4 x1) (and x1 x0)))))))))))
-(pop 2)
-(pop 1)
-(push 1)
-(declare-fun x0 () Bool)
-(declare-fun x1 () Bool)
-(declare-fun x2 () Bool)
-(declare-fun x3 () Bool)
-(declare-fun x4 () Bool)
-(declare-fun x5 () Bool)
-(assert (not (not (or (or (not (or (not (or (or (not x3) (or x3 x3)) (not (not x3)))) (and (not (and (and x2 x1) (not x3))) (and (or (or x3 x1) (not x5)) (or (not x3) (or x4 x0)))))) (and (not (or (not (and (and x3 x0) (and x4 x5))) (or (not (and x0 x0)) (and (and x5 x4) (not x3))))) (and (and (or (not (and x3 x0)) (or (not x2) (or x5 x1))) (not (and (and x2 x0) (or x5 x4)))) (not (or (not (and x2 x1)) (or (not x4) (and x3 x5))))))) (or (or (and (and (or (not (or x5 x0)) (or (not x2) (not x3))) (not (not (and x1 x1)))) (and (or (or (or x2 x5) (not x1)) (or (or x2 x0) (and x0 x4))) (or (and (and x3 x5) (and x1 x4)) (and (or x5 x0) (and x1 x2))))) (not (or (not (or (and x2 x2) (or x4 x3))) (not (or (or x3 x4) (and x0 x0)))))) (or (not (not (not (and (and x1 x2) (or x5 x0))))) (or (and (or (and (and x0 x5) (and x0 x3)) (or (or x2 x0) (or x3 x3))) (or (and (or x4 x4) (or x0 x5)) (not (not x5)))) (or (not (or (or x4 x1) (and x4 x2))) (and (not (not x5)) (or (or x5 x4) (and x2 x1)))))))))))
-(check-sat)
-(push 1)
-(assert (not (not (not x1))))
-(check-sat)
-(pop 1)
-(check-sat)
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-(assert (not (and (and (and (not (or (not x3) (and x0 x2))) (and (not (not x5)) (not (not x1)))) (not (or (or (or x5 x1) (not x5)) (not (not x3))))) (and (not (and (or (or x2 x2) (and x5 x5)) (not (not x5)))) (not (not (not (and x4 x2))))))))
-(assert (not (or (not (not (and (and (not (and (and x3 x5) (or x4 x3))) (and (and (or x0 x1) (and x3 x1)) (and (not x0) (and x4 x3)))) (and (and (not (or x0 x4)) (or (not x3) (not x1))) (or (or (or x4 x5) (and x3 x4)) (or (and x5 x2) (and x4 x0))))))) (not (or (not (or (and (or (or x3 x4) (or x5 x2)) (not (or x1 x0))) (or (not (not x0)) (not (and x1 x4))))) (not (not (or (and (and x0 x2) (or x1 x1)) (not (not x5))))))))))
-(check-sat)
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-(check-sat)
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-(assert (not (and (or (or (or (not x0) (or x1 x4)) (not (not x4))) (and (and (or x0 x1) (not x1)) (or (and x4 x5) (and x4 x5)))) (or (and (and (or x3 x3) (or x4 x0)) (or (and x1 x2) (and x3 x2))) (or (not (or x0 x0)) (not (and x5 x0)))))))
-(check-sat)
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-(check-sat)
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-(assert (and (and (or (or x5 x1) (or x3 x0)) (and (and x2 x3) (or x3 x5))) (or (and (not x3) (or x0 x3)) (and (not x3) (or x4 x0)))))
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-(assert (not (and (not (or (not (or (not (or x8 x1)) (or (not x6) (not x4)))) (or (or (and (and x0 x7) (or x2 x7)) (or (or x7 x3) (and x5 x2))) (or (or (and x7 x0) (and x1 x1)) (and (not x7) (or x6 x7)))))) (or (and (and (and (not (not x0)) (and (or x7 x4) (or x3 x6))) (not (not (not x6)))) (or (or (and (and x1 x5) (or x7 x5)) (not (and x2 x3))) (not (or (not x8) (and x1 x8))))) (not (and (not (and (not x8) (and x1 x6))) (or (and (and x0 x0) (not x0)) (not (not x7)))))))))
-(assert (or x1 x2))
-(check-sat)
-(pop 1)
-(check-sat)
-(pop 1)
-(assert (not (and (not (and (not x5) (not x7))) (and (or (not x1) (and x4 x1)) (not (and x5 x8))))))
-(assert (not (and (or (and (not (and (and (not (or (not x5) (and x4 x7))) (and (and (and x6 x1) (not x3)) (not (and x5 x1)))) (and (or (or (or x7 x2) (or x2 x6)) (not (not x2))) (and (and (not x6) (and x4 x8)) (and (not x5) (or x1 x6)))))) (or (not (or (not (and (and x3 x5) (or x7 x3))) (or (not (not x7)) (not (not x0))))) (or (not (not (and (or x3 x6) (and x6 x2)))) (or (not (or (or x7 x3) (not x5))) (or (or (and x1 x2) (and x4 x2)) (not (not x7))))))) (and (not (not (or (not (or (not x0) (not x4))) (or (and (and x3 x2) (and x8 x3)) (and (not x1) (not x6)))))) (not (not (or (or (and (or x8 x3) (not x8)) (or (or x7 x5) (or x7 x7))) (and (or (or x4 x4) (or x3 x3)) (and (not x8) (not x7)))))))) (and (not (or (not (or (or (not (and x4 x4)) (or (and x5 x8) (or x5 x4))) (not (not (and x6 x3))))) (not (or (or (or (not x3) (or x5 x2)) (not (not x0))) (and (or (or x6 x4) (and x0 x3)) (and (not x2) (not x0))))))) (and (not (not (or (or (or (or x6 x6) (and x6 x8)) (or (or x1 x5) (or x8 x4))) (and (and (not x6) (or x8 x0)) (not (or x0 x5)))))) (or (not (not (or (or (not x0) (and x3 x4)) (or (and x3 x3) (not x2))))) (and (or (or (or (not x1) (not x0)) (not (or x0 x2))) (and (and (and x8 x7) (and x8 x2)) (or (or x7 x4) (and x1 x3)))) (or (or (or (or x8 x1) (or x8 x6)) (not (not x6))) (or (or (and x8 x7) (or x4 x6)) (and (not x3) (and x0 x0)))))))))))
-(check-sat)
-(pop 1)
-(check-sat)
-(pop 1)
-(assert (not (and (and x7 x2) (or x4 x6))))
-(check-sat)
-(push 1)
-(pop 2)
-(pop 1)
diff --git a/test/regress/regress0/push-pop/boolean/fuzz_20.smt2 b/test/regress/regress0/push-pop/boolean/fuzz_20.smt2
deleted file mode 100644
index b37d6c035..000000000
--- a/test/regress/regress0/push-pop/boolean/fuzz_20.smt2
+++ /dev/null
@@ -1,52 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-(set-logic QF_LIA)
-(declare-fun x0 () Bool)
-(declare-fun x1 () Bool)
-(declare-fun x2 () Bool)
-(declare-fun x3 () Bool)
-(declare-fun x4 () Bool)
-(declare-fun x5 () Bool)
-(declare-fun x6 () Bool)
-(declare-fun x7 () Bool)
-(declare-fun x8 () Bool)
-(declare-fun x9 () Bool)
-(check-sat)
-(push 1)
-(check-sat)
-(pop 1)
-(assert (not (and x7 x7)))
-(check-sat)
-(push 1)
-(assert (or (or x0 x1) (not x7)))
-(assert (not (and x6 x9)))
-(assert (and (and (not (or x7 x5)) (or (or x3 x8) (or x5 x8))) (or (or (or x1 x5) (and x3 x6)) (or (and x2 x5) (or x1 x1)))))
-(assert (or (not (or (not (not (not x9))) (and (or (and x2 x6) (and x2 x4)) (not (or x8 x2))))) (not (or (and (and (not x2) (not x3)) (and (or x0 x0) (and x7 x5))) (not (not (or x1 x9)))))))
-(assert (or (or (not (or (and (not (and (or (or x6 x6) (and x0 x2)) (or (not x5) (not x3)))) (not (and (or (and x1 x2) (not x1)) (not (not x3))))) (or (not (not (or (or x9 x0) (not x6)))) (and (or (and (and x2 x6) (not x4)) (not (not x9))) (not (or (not x7) (or x4 x9))))))) (and (not (and (and (or (or (and x1 x2) (and x1 x5)) (and (not x7) (or x5 x1))) (or (not (and x0 x1)) (or (not x6) (not x1)))) (and (or (not (not x3)) (or (not x1) (not x2))) (or (and (and x4 x6) (not x4)) (and (or x1 x6) (or x2 x3)))))) (and (and (and (or (not (or x9 x9)) (not (or x7 x3))) (or (not (and x5 x3)) (not (not x8)))) (not (or (or (not x1) (or x4 x9)) (not (and x4 x0))))) (or (or (and (or (or x0 x7) (or x4 x4)) (or (or x5 x4) (and x0 x4))) (or (not (and x7 x3)) (or (and x8 x0) (or x7 x8)))) (not (not (and (not x9) (and x1 x9)))))))) (not (and (or (not (not (and (and (and x4 x1) (or x5 x1)) (and (or x5 x4) (not x5))))) (not (not (and (or (and x3 x7) (or x2 x7)) (or (or x5 x0) (or x7 x4)))))) (not (not (not (not (or (or x3 x0) (or x7 x7))))))))))
-(check-sat)
-(pop 1)
-(assert (or (not (or (and (or (not (and (or x8 x0) (and x5 x2))) (not (not (or x6 x0)))) (not (and (or (or x6 x9) (and x5 x7)) (and (or x1 x7) (and x0 x0))))) (or (and (and (not (not x1)) (not (and x8 x5))) (and (and (and x5 x2) (and x7 x1)) (not (and x0 x0)))) (or (not (and (and x3 x5) (not x3))) (not (or (and x1 x0) (and x2 x4))))))) (not (and (and (and (not (or (not x4) (or x3 x7))) (not (not (not x3)))) (or (not (not (and x2 x1))) (and (or (not x6) (and x0 x8)) (not (not x3))))) (or (or (not (and (or x2 x5) (and x9 x8))) (or (or (and x2 x6) (not x3)) (not (and x7 x3)))) (or (or (not (or x6 x4)) (not (not x0))) (or (or (not x3) (or x6 x7)) (not (and x6 x7)))))))))
-(check-sat)
-(push 1)
-(assert (or (and (or (and (or (or (and (not x5) (not x9)) (or (and x3 x6) (and x3 x4))) (not (or (not x5) (or x6 x4)))) (and (and (and (not x4) (not x1)) (not (and x6 x2))) (and (or (not x4) (not x8)) (or (and x1 x3) (not x6))))) (not (not (and (or (not x8) (and x9 x1)) (and (not x3) (or x9 x4)))))) (not (and (or (not (or (or x1 x8) (or x9 x5))) (not (not (or x8 x8)))) (and (not (not (and x2 x5))) (or (or (not x6) (or x1 x2)) (or (not x0) (and x8 x4))))))) (and (or (or (and (and (not (and x7 x8)) (or (or x8 x3) (or x5 x2))) (not (or (and x3 x0) (and x8 x1)))) (or (and (and (not x2) (and x2 x2)) (or (not x1) (and x6 x6))) (or (and (not x2) (or x6 x9)) (not (and x8 x3))))) (not (and (or (or (or x7 x1) (not x6)) (and (and x6 x5) (not x8))) (not (not (not x4)))))) (and (not (not (or (or (or x6 x5) (not x6)) (or (or x7 x8) (or x2 x2))))) (not (or (and (or (and x1 x3) (not x7)) (and (and x4 x9) (or x2 x2))) (or (not (or x9 x7)) (not (and x5 x2)))))))))
-(assert (and (not (and (and (or x2 x3) (or x1 x6)) (and (and x3 x6) (or x0 x7)))) (not (or (or (or x4 x0) (and x3 x4)) (and (not x6) (or x5 x8))))))
-(check-sat)
-(push 1)
-(assert (not (and (and (and x4 x6) (or x9 x4)) (or (and x1 x9) (not x1)))))
-(check-sat)
-(push 1)
-(assert (or (not (and (or (and (not x2) (not x5)) (not (and x0 x5))) (not (and (and x2 x9) (and x2 x3))))) (not (not (and (not (or x7 x9)) (and (and x7 x4) (or x8 x3)))))))
-(check-sat)
-(pop 1)
-(assert (not (or x0 x0)))
-(assert (not (not (or (or (and (and (not (or (and (not x0) (not x1)) (and (and x4 x9) (and x3 x9)))) (not (or (not (or x9 x3)) (and (and x4 x2) (not x7))))) (and (not (and (or (not x1) (and x9 x5)) (not (or x9 x3)))) (and (or (and (or x6 x1) (or x6 x6)) (or (not x0) (not x0))) (or (and (not x3) (and x5 x7)) (not (and x9 x7)))))) (not (not (or (not (or (and x1 x0) (not x5))) (or (and (or x5 x5) (and x5 x7)) (and (and x1 x7) (and x4 x6))))))) (and (not (not (or (or (or (or x9 x0) (or x7 x3)) (or (not x0) (or x8 x0))) (and (or (and x3 x1) (or x4 x7)) (and (not x5) (and x0 x1)))))) (or (or (and (and (or (not x0) (not x2)) (not (and x3 x9))) (or (and (or x9 x6) (or x6 x0)) (or (not x6) (or x8 x0)))) (not (or (and (and x8 x6) (not x1)) (and (not x4) (or x5 x3))))) (or (or (or (or (and x2 x7) (and x5 x4)) (and (or x7 x5) (or x7 x8))) (and (not (and x7 x0)) (and (not x2) (not x0)))) (and (and (or (and x9 x6) (or x5 x9)) (not (or x8 x3))) (or (and (or x8 x4) (and x5 x2)) (or (or x5 x1) (and x5 x8)))))))))))
-(assert (and (or (and (or (and (not (and x3 x6)) (or (and x1 x3) (not x2))) (and (not (not x7)) (and (not x1) (not x5)))) (not (not (not (or x6 x5))))) (or (and (or (not (and x2 x0)) (and (or x6 x8) (and x9 x2))) (or (not (and x7 x3)) (and (not x3) (or x7 x0)))) (not (or (not (not x2)) (or (or x3 x7) (not x9)))))) (and (not (or (and (not (or x9 x3)) (or (not x6) (and x1 x2))) (and (or (or x2 x3) (and x6 x7)) (and (and x2 x8) (and x5 x7))))) (not (or (not (and (not x0) (and x8 x1))) (not (not (or x7 x2))))))))
-(check-sat)
diff --git a/test/regress/regress0/push-pop/boolean/fuzz_23.smt2 b/test/regress/regress0/push-pop/boolean/fuzz_23.smt2
deleted file mode 100644
index 22ed7dfa5..000000000
--- a/test/regress/regress0/push-pop/boolean/fuzz_23.smt2
+++ /dev/null
@@ -1,41 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-(set-logic QF_LIA)
-(declare-fun x0 () Bool)
-(declare-fun x1 () Bool)
-(declare-fun x2 () Bool)
-(declare-fun x3 () Bool)
-(declare-fun x4 () Bool)
-(declare-fun x5 () Bool)
-(declare-fun x6 () Bool)
-(declare-fun x7 () Bool)
-(declare-fun x8 () Bool)
-(check-sat)
-(push 1)
-(assert (or x1 x3))
-(assert (or (or x5 x0) (not x0)))
-(check-sat)
-(push 1)
-(assert (and (not (or (or (not (or (or (or (and (not x2) (not x0)) (or (and x1 x0) (not x3))) (not (or (and x2 x8) (and x6 x6)))) (or (not (not (not x4))) (and (or (and x1 x1) (not x1)) (or (not x1) (not x6)))))) (not (or (and (or (and (not x4) (and x0 x6)) (and (not x1) (or x8 x1))) (not (not (not x0)))) (not (and (not (not x4)) (and (not x3) (and x2 x0))))))) (or (and (or (and (not (or (not x7) (and x1 x2))) (and (not (not x1)) (and (not x1) (or x3 x2)))) (or (or (and (and x2 x0) (or x3 x2)) (and (and x0 x1) (or x0 x5))) (not (and (and x3 x8) (not x4))))) (and (and (not (and (and x1 x5) (or x1 x6))) (and (or (or x4 x7) (and x4 x3)) (or (or x2 x0) (or x5 x1)))) (or (or (not (not x1)) (or (and x6 x1) (or x4 x2))) (not (and (and x0 x8) (and x7 x1)))))) (and (or (or (and (and (and x6 x8) (and x3 x7)) (and (and x7 x0) (or x5 x6))) (and (or (or x5 x6) (and x8 x7)) (and (and x0 x6) (and x1 x1)))) (and (not (or (not x1) (or x1 x2))) (and (and (or x2 x8) (not x5)) (not (or x0 x3))))) (or (and (and (not (not x3)) (not (or x1 x6))) (and (not (not x8)) (or (and x0 x6) (or x0 x8)))) (not (and (or (not x3) (or x4 x3)) (and (not x7) (not x7))))))))) (and (or (not (or (and (or (or (not (or x2 x2)) (not (and x0 x8))) (or (or (not x8) (not x8)) (and (not x0) (and x1 x4)))) (and (or (not (or x4 x0)) (not (or x1 x6))) (and (and (and x4 x7) (or x3 x5)) (and (or x6 x6) (and x0 x3))))) (or (or (or (and (not x6) (and x2 x6)) (and (not x6) (or x5 x5))) (and (or (or x2 x8) (not x1)) (or (or x8 x4) (or x3 x5)))) (and (or (or (and x7 x8) (not x2)) (or (and x8 x2) (and x3 x2))) (or (or (and x2 x5) (and x1 x8)) (or (not x8) (not x5))))))) (not (not (and (and (or (not (and x8 x0)) (or (not x0) (not x8))) (or (and (and x3 x7) (not x8)) (and (and x4 x7) (and x8 x0)))) (or (and (or (and x1 x5) (not x2)) (not (and x8 x5))) (and (and (and x1 x8) (not x2)) (and (not x7) (or x5 x6)))))))) (not (and (and (or (or (not (and (not x6) (not x7))) (or (or (and x3 x7) (and x7 x0)) (not (not x8)))) (not (and (not (or x4 x6)) (and (not x1) (and x4 x3))))) (not (not (and (or (not x8) (and x5 x8)) (and (or x0 x5) (and x7 x3)))))) (not (and (not (and (not (and x6 x8)) (or (not x7) (and x3 x0)))) (or (not (not (and x8 x0))) (or (or (not x0) (not x6)) (or (not x8) (or x0 x7)))))))))))
-(check-sat)
-(push 1)
-(assert (or (or x5 x6) (not x3)))
-(assert (or (and (not (and (not (or (not (or x1 x5)) (or (and x2 x4) (and x1 x1)))) (and (or (and (or x5 x1) (and x2 x6)) (not (or x7 x6))) (or (not (and x7 x3)) (or (and x3 x7) (or x8 x4)))))) (and (or (and (or (not (not x6)) (or (and x6 x0) (not x7))) (or (not (not x0)) (or (not x8) (or x5 x6)))) (and (or (not (or x5 x2)) (not (or x8 x6))) (and (not (or x5 x2)) (and (and x7 x1) (and x3 x1))))) (and (not (not (or (or x8 x4) (not x3)))) (not (not (or (or x8 x2) (and x0 x8))))))) (and (not (or (and (not (not (not x4))) (or (or (or x5 x3) (not x1)) (not (not x2)))) (not (or (and (not x7) (not x5)) (and (and x5 x5) (not x3)))))) (and (not (or (or (not (not x3)) (or (and x4 x7) (and x7 x1))) (not (and (and x2 x1) (not x1))))) (and (and (or (and (not x0) (and x6 x2)) (and (and x8 x2) (not x5))) (not (not (or x6 x2)))) (not (not (and (and x2 x7) (not x2)))))))))
-(check-sat)
-(push 1)
-(assert (or (or (not x6) (or x4 x3)) (or (or x8 x6) (not x4))))
-(check-sat)
-(pop 1)
-(check-sat)
-(push 1)
-(assert (or (or (or (and (or (and (not (not (and (and x6 x0) (not x1)))) (not (or (and (and x4 x3) (and x1 x0)) (not (not x7))))) (and (not (not (and (and x3 x7) (or x5 x8)))) (and (not (and (or x4 x0) (or x1 x8))) (or (and (and x8 x6) (and x4 x7)) (not (or x1 x4)))))) (not (not (or (and (or (and x6 x0) (and x6 x3)) (or (not x3) (not x6))) (not (or (or x3 x5) (not x2))))))) (or (and (and (and (and (not (and x2 x4)) (or (not x3) (and x1 x8))) (or (or (not x6) (and x2 x7)) (and (and x0 x2) (not x1)))) (or (and (or (or x5 x6) (or x3 x3)) (not (or x7 x2))) (not (or (or x0 x8) (or x7 x2))))) (and (or (not (and (and x0 x8) (and x2 x1))) (not (and (not x7) (and x8 x1)))) (and (not (and (not x8) (or x2 x8))) (and (or (not x3) (not x7)) (not (not x7)))))) (or (and (not (or (or (not x7) (or x4 x7)) (and (not x7) (or x2 x7)))) (and (and (or (not x4) (or x6 x3)) (not (and x2 x4))) (and (not (or x1 x6)) (or (not x3) (or x1 x1))))) (not (or (not (not (not x5))) (not (or (or x4 x1) (not x0)))))))) (not (and (or (not (not (or (and (and x8 x7) (and x3 x5)) (or (and x1 x3) (or x0 x1))))) (not (not (or (or (not x0) (and x7 x8)) (not (not x2)))))) (or (or (not (or (or (or x8 x6) (or x4 x0)) (or (and x2 x7) (and x8 x8)))) (not (or (not (or x1 x2)) (not (not x7))))) (not (not (and (not (or x7 x4)) (and (not x0) (and x2 x1))))))))) (not (or (and (and (or (and (and (and (or x7 x1) (or x5 x2)) (or (not x8) (not x1))) (not (or (and x5 x4) (not x4)))) (and (or (or (and x7 x2) (not x4)) (not (or x8 x6))) (and (or (not x3) (and x7 x3)) (not (or x2 x4))))) (or (not (not (and (or x4 x7) (and x1 x5)))) (not (not (and (not x5) (not x2)))))) (not (not (not (and (not (not x7)) (not (and x1 x7))))))) (or (and (or (or (and (or (not x7) (not x6)) (or (or x2 x3) (or x2 x7))) (not (and (or x8 x8) (and x1 x8)))) (and (not (and (not x7) (not x6))) (or (and (and x5 x4) (or x1 x7)) (and (and x2 x1) (not x6))))) (or (or (or (or (and x3 x8) (not x4)) (and (or x2 x6) (and x0 x0))) (and (and (and x1 x3) (or x4 x2)) (not (or x4 x8)))) (or (and (not (or x8 x8)) (and (or x0 x3) (or x3 x0))) (and (not (and x5 x3)) (and (not x0) (and x3 x1)))))) (not (and (and (and (or (or x0 x3) (and x3 x7)) (and (or x3 x1) (and x4 x8))) (and (not (and x7 x6)) (or (not x0) (not x0)))) (and (or (and (or x0 x3) (not x0)) (or (or x1 x2) (or x8 x3))) (and (or (not x0) (or x2 x4)) (not (or x1 x1)))))))))))
-(check-sat)
-(pop 1)
-(check-sat)
diff --git a/test/regress/regress0/push-pop/boolean/fuzz_24.smt2 b/test/regress/regress0/push-pop/boolean/fuzz_24.smt2
deleted file mode 100644
index edff03a9d..000000000
--- a/test/regress/regress0/push-pop/boolean/fuzz_24.smt2
+++ /dev/null
@@ -1,42 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-(set-logic QF_LIA)
-(declare-fun x0 () Bool)
-(declare-fun x1 () Bool)
-(declare-fun x2 () Bool)
-(declare-fun x3 () Bool)
-(declare-fun x4 () Bool)
-(declare-fun x5 () Bool)
-(declare-fun x6 () Bool)
-(assert (or (or x1 x1) (not x4)))
-(assert (not (and (or (not (or (and (and x2 x0) (and x1 x4)) (and (or x4 x1) (and x2 x6)))) (and (or (not (and x4 x2)) (or (and x4 x3) (not x3))) (or (or (not x0) (or x2 x2)) (not (or x5 x6))))) (not (not (not (or (or x5 x6) (or x0 x3))))))))
-(check-sat)
-(push 1)
-(assert (not (not (or (not x4) (not x6)))))
-(assert (not (and (not (or (and (and (or (not (or x3 x4)) (or (and x0 x3) (or x3 x3))) (and (or (and x2 x1) (or x2 x4)) (and (not x2) (or x6 x2)))) (not (not (and (or x0 x1) (and x6 x4))))) (and (or (and (and (not x3) (not x2)) (or (or x3 x0) (and x4 x0))) (and (and (and x5 x0) (not x6)) (not (not x0)))) (or (and (not (and x2 x4)) (not (or x0 x2))) (not (not (and x6 x3))))))) (and (or (or (or (or (not (or x4 x1)) (not (and x6 x4))) (and (and (or x3 x0) (and x3 x2)) (or (or x6 x6) (and x5 x5)))) (not (not (and (and x6 x3) (or x2 x2))))) (or (or (and (not (not x3)) (or (and x5 x4) (or x3 x1))) (and (or (not x6) (or x6 x2)) (or (not x4) (or x4 x6)))) (or (and (not (and x0 x2)) (not (not x0))) (not (or (or x5 x1) (and x0 x4)))))) (and (or (and (or (not (and x0 x6)) (not (and x1 x5))) (or (or (or x2 x4) (or x1 x6)) (or (not x4) (or x3 x4)))) (and (or (not (or x6 x0)) (and (and x2 x0) (or x0 x4))) (not (or (not x3) (or x4 x0))))) (or (not (not (or (and x6 x5) (and x6 x6)))) (and (not (or (or x4 x5) (or x3 x0))) (not (and (not x2) (not x5))))))))))
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-(check-sat)
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-(check-sat)
-(push 1)
-(assert (not (not (and x3 x3))))
-(check-sat)
-(pop 1)
-(assert (not (or x4 x2)))
-(assert (and (not (and x3 x3)) (or (not x2) (or x4 x2))))
-(assert (and (or x0 x1) (or x2 x5)))
-(check-sat)
diff --git a/test/regress/regress0/push-pop/boolean/fuzz_25.smt2 b/test/regress/regress0/push-pop/boolean/fuzz_25.smt2
deleted file mode 100644
index 8ec42e5fc..000000000
--- a/test/regress/regress0/push-pop/boolean/fuzz_25.smt2
+++ /dev/null
@@ -1,79 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-(set-logic QF_LIA)
-(declare-fun x0 () Bool)
-(declare-fun x1 () Bool)
-(declare-fun x2 () Bool)
-(declare-fun x3 () Bool)
-(declare-fun x4 () Bool)
-(declare-fun x5 () Bool)
-(declare-fun x6 () Bool)
-(check-sat)
-(push 1)
-(check-sat)
-(push 1)
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-(assert (and (and (not (not x1)) (not (or x2 x0))) (and (and (not x4) (and x3 x3)) (or (not x4) (and x6 x4)))))
-(assert (or (or (or (or (and x6 x0) (not x6)) (and (or x5 x0) (or x0 x6))) (not (not (or x0 x0)))) (or (or (or (not x3) (not x1)) (and (not x2) (and x5 x4))) (not (and (not x5) (not x6))))))
-(assert (and (or (and (not (and x0 x2)) (or (not x0) (or x6 x2))) (or (not (and x2 x0)) (and (not x5) (not x4)))) (not (and (or (or x2 x5) (not x2)) (not (and x0 x1))))))
-(assert (and (or (and x4 x5) (and x4 x4)) (or (not x4) (or x4 x0))))
-(assert (and x2 x6))
-(assert (or (or (and (or x5 x6) (or x6 x4)) (or (not x2) (and x3 x0))) (not (or (and x1 x6) (not x2)))))
-(check-sat)
-(push 1)
-(check-sat)
-(pop 1)
-(check-sat)
-(pop 1)
-(check-sat)
-(pop 1)
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-(check-sat)
-(push 1)
-(assert (and (and (or (and (or (or (not x2) (or x6 x4)) (not (not x4))) (or (not (or x3 x0)) (or (and x5 x6) (or x3 x2)))) (and (not (and (or x1 x5) (and x5 x6))) (or (and (or x2 x4) (or x4 x2)) (or (or x6 x6) (and x2 x6))))) (not (not (or (or (not x4) (and x5 x3)) (and (not x2) (and x4 x0)))))) (not (and (not (and (and (not x6) (not x2)) (not (or x6 x5)))) (not (or (not (and x2 x5)) (not (not x0))))))))
-(assert (not x2))
-(assert (and (not (and (and (and (or (not (or (not x3) (not x0))) (and (or (and x4 x0) (not x0)) (not (not x3)))) (not (not (or (and x2 x4) (and x0 x0))))) (not (or (and (or (not x4) (and x5 x1)) (or (or x1 x2) (and x4 x0))) (and (not (and x1 x5)) (and (and x5 x4) (or x1 x6)))))) (and (or (or (or (and (not x3) (and x0 x3)) (and (not x4) (not x1))) (not (or (or x0 x0) (or x0 x1)))) (or (and (and (and x3 x0) (or x2 x6)) (and (or x4 x5) (not x0))) (not (or (or x6 x3) (not x0))))) (not (and (and (and (or x6 x5) (not x0)) (and (and x1 x6) (not x1))) (and (or (or x2 x5) (or x5 x6)) (not (not x0)))))))) (or (or (and (not (and (or (not (or x4 x2)) (and (and x5 x2) (or x6 x1))) (or (not (and x2 x5)) (not (not x2))))) (and (and (or (or (and x6 x0) (not x5)) (or (and x3 x3) (not x1))) (and (and (not x2) (not x2)) (and (or x0 x3) (not x0)))) (and (not (and (or x6 x2) (and x5 x1))) (not (not (and x1 x4)))))) (or (or (and (or (and (not x3) (or x4 x1)) (and (or x2 x6) (and x2 x6))) (or (and (or x0 x1) (not x6)) (or (and x2 x3) (or x3 x0)))) (or (and (or (and x2 x3) (not x6)) (not (and x3 x2))) (and (or (not x3) (and x1 x3)) (and (not x2) (and x1 x6))))) (or (and (not (and (and x2 x4) (not x1))) (or (or (and x2 x2) (and x1 x5)) (not (not x5)))) (and (or (and (not x5) (or x2 x0)) (and (and x0 x6) (or x2 x3))) (and (and (and x0 x4) (and x3 x1)) (not (and x3 x2))))))) (or (or (not (not (not (or (or x6 x2) (or x1 x0))))) (not (and (not (not (not x1))) (not (and (or x1 x6) (and x3 x2)))))) (and (or (and (not (or (and x6 x0) (and x4 x3))) (and (not (not x2)) (or (not x1) (not x2)))) (or (not (or (not x2) (and x3 x6))) (or (or (not x3) (and x4 x1)) (not (and x5 x3))))) (not (or (and (and (or x6 x6) (and x1 x0)) (and (and x0 x6) (not x0))) (not (and (and x5 x1) (not x4))))))))))
-(assert (and (and (and (or (and (and (or (not x6) (and x5 x4)) (or (and x5 x4) (or x0 x2))) (and (and (and x6 x3) (not x4)) (and (not x2) (or x3 x1)))) (and (not (or (or x4 x4) (or x2 x4))) (or (or (and x2 x2) (or x2 x1)) (or (not x1) (and x5 x4))))) (or (and (not (or (not x5) (not x2))) (not (and (not x2) (and x4 x6)))) (or (not (and (and x2 x1) (or x3 x1))) (and (not (not x2)) (and (and x4 x5) (not x3)))))) (or (not (not (not (not (not x5))))) (and (not (or (or (or x4 x3) (and x0 x6)) (and (or x2 x2) (and x6 x1)))) (or (not (not (not x3))) (not (or (or x0 x1) (not x3))))))) (or (or (or (not (and (not (or x4 x6)) (not (not x3)))) (or (not (and (not x3) (or x2 x2))) (or (not (and x4 x0)) (or (or x5 x6) (not x1))))) (and (or (or (and (not x2) (and x0 x2)) (or (not x5) (not x5))) (and (and (and x4 x5) (and x5 x3)) (or (not x3) (or x5 x1)))) (not (not (not (or x1 x6)))))) (and (or (or (or (or (and x2 x4) (or x4 x2)) (and (not x1) (or x5 x3))) (or (and (or x5 x2) (and x1 x1)) (and (not x1) (and x5 x6)))) (and (not (or (and x1 x3) (or x5 x3))) (and (and (not x2) (not x2)) (and (and x5 x5) (and x1 x6))))) (or (or (and (and (not x0) (or x3 x6)) (not (and x5 x4))) (and (or (not x3) (or x3 x6)) (not (and x4 x6)))) (not (and (not (or x5 x3)) (and (not x3) (or x2 x1)))))))))
-(check-sat)
-(pop 1)
-(assert (or (not (or (not (and (or (or (and x3 x5) (not x5)) (and (and x5 x2) (not x0))) (not (not (or x6 x5))))) (or (or (not (not (and x0 x6))) (and (not (not x6)) (or (and x6 x5) (or x0 x3)))) (or (and (not (not x4)) (and (and x2 x3) (and x4 x2))) (and (or (or x3 x5) (not x1)) (and (or x5 x2) (or x6 x4))))))) (and (not (and (or (or (and (and x6 x0) (and x1 x2)) (and (and x0 x3) (or x6 x4))) (and (not (or x4 x1)) (and (and x0 x4) (not x4)))) (or (or (and (not x0) (and x4 x1)) (not (or x0 x0))) (and (and (not x5) (and x1 x3)) (not (and x3 x2)))))) (not (not (not (and (not (and x0 x0)) (not (not x0)))))))))
-(assert (and (or (or (and x3 x2) (and x1 x6)) (or (or x6 x3) (not x0))) (or (not (and x5 x5)) (or (not x1) (or x3 x6)))))
-(check-sat)
-(push 1)
-(check-sat)
-(push 1)
-(assert (and (or (not (not (and (and (not (and x2 x5)) (and (or x1 x2) (not x1))) (not (or (or x0 x2) (not x6)))))) (not (or (or (and (or (not x1) (not x6)) (and (not x3) (or x6 x0))) (and (not (or x4 x1)) (or (or x1 x6) (or x1 x2)))) (and (not (not (not x0))) (or (not (and x2 x6)) (not (and x5 x3))))))) (not (and (and (or (not (and (or x5 x4) (and x1 x1))) (and (or (or x1 x1) (not x3)) (and (and x3 x6) (and x6 x1)))) (and (or (or (or x5 x4) (not x2)) (or (not x2) (or x2 x4))) (not (and (not x6) (not x5))))) (and (and (not (or (and x0 x3) (and x3 x2))) (or (not (not x6)) (not (not x4)))) (or (and (and (not x3) (not x1)) (and (and x2 x4) (not x3))) (not (and (and x1 x1) (or x0 x4)))))))))
-(assert (not (not (not (or (or (or (not x4) (or x1 x4)) (or (and x2 x3) (or x4 x5))) (and (not (not x5)) (and (and x0 x6) (and x5 x1))))))))
-(check-sat)
-(pop 1)
-(assert (and (and x2 x0) (not x4)))
-(check-sat)
-(pop 1)
-(check-sat)
-(push 1)
-(check-sat)
-(pop 1)
-(assert (or (or (or (or (not (or (and (and x5 x5) (not x5)) (or (or x1 x2) (not x1)))) (not (and (and (and x6 x5) (or x6 x5)) (and (or x6 x0) (and x6 x4))))) (and (or (or (or (not x3) (or x0 x1)) (or (or x0 x4) (or x6 x4))) (and (and (and x3 x4) (and x0 x0)) (or (and x6 x3) (or x3 x0)))) (not (or (and (or x1 x1) (or x1 x0)) (and (or x0 x3) (and x0 x5)))))) (or (or (and (and (not (not x5)) (and (or x4 x0) (or x3 x2))) (and (and (or x1 x2) (and x0 x2)) (and (and x4 x6) (and x0 x4)))) (or (not (and (and x5 x2) (or x1 x5))) (not (not (not x2))))) (or (not (or (not (and x3 x5)) (and (not x3) (and x2 x3)))) (and (or (and (and x2 x0) (or x6 x4)) (or (or x0 x2) (or x3 x3))) (or (or (not x1) (and x2 x4)) (not (and x2 x6))))))) (and (not (or (or (and (and (and x4 x4) (not x2)) (or (or x3 x2) (not x5))) (and (not (or x5 x2)) (not (or x2 x5)))) (or (not (not (or x3 x0))) (and (not (not x5)) (and (or x0 x1) (or x2 x5)))))) (and (not (and (or (and (and x5 x6) (not x0)) (and (or x0 x1) (and x4 x5))) (not (and (and x4 x0) (or x0 x4))))) (or (not (and (not (or x2 x5)) (or (not x0) (not x0)))) (or (and (or (or x3 x6) (not x2)) (and (not x5) (and x0 x2))) (not (or (or x6 x3) (not x6)))))))))
-(check-sat)
-(push 1)
-(check-sat)
-(pop 1)
-(assert (and (or (or x4 x3) (and x5 x3)) (and (and x3 x2) (not x1))))
-(check-sat)
-(push 1)
diff --git a/test/regress/regress0/push-pop/boolean/fuzz_26.smt2 b/test/regress/regress0/push-pop/boolean/fuzz_26.smt2
deleted file mode 100644
index d4fd2c710..000000000
--- a/test/regress/regress0/push-pop/boolean/fuzz_26.smt2
+++ /dev/null
@@ -1,49 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-(set-logic QF_LIA)
-(declare-fun x0 () Bool)
-(declare-fun x1 () Bool)
-(declare-fun x2 () Bool)
-(declare-fun x3 () Bool)
-(declare-fun x4 () Bool)
-(declare-fun x5 () Bool)
-(declare-fun x6 () Bool)
-(check-sat)
-(push 1)
-(check-sat)
-(push 1)
-(assert (or (or x4 x2) (or x4 x2)))
-(assert (not (not (or (not (or (and x3 x5) (not x6))) (or (or (or x1 x5) (or x0 x3)) (not (or x3 x6)))))))
-(assert (or (and (and (or (and x1 x6) (or x2 x4)) (and (and x1 x0) (or x1 x4))) (and (not (and x3 x6)) (not (not x0)))) (and (not (not (and x4 x0))) (not (or (not x6) (and x6 x5))))))
-(assert (or (and (and (and (or (not (and (or (or (not x4) (not x3)) (not (and x3 x3))) (and (not (not x3)) (not (and x0 x2))))) (and (and (not (and (and x1 x0) (or x2 x2))) (or (or (or x3 x4) (not x0)) (not (not x5)))) (or (not (and (not x3) (or x4 x4))) (or (not (and x0 x2)) (not (or x3 x0)))))) (or (or (or (not (and (and x0 x6) (not x3))) (or (not (not x3)) (and (not x3) (or x5 x0)))) (or (and (or (or x0 x5) (and x6 x3)) (and (and x3 x6) (not x3))) (and (or (not x1) (or x4 x5)) (and (or x1 x6) (not x4))))) (and (not (and (and (or x0 x4) (or x3 x6)) (or (and x2 x3) (not x6)))) (and (not (or (not x5) (not x2))) (not (not (not x2))))))) (not (or (or (or (and (or (and x3 x5) (or x0 x0)) (not (and x5 x5))) (and (and (and x0 x1) (or x6 x4)) (or (not x4) (and x6 x5)))) (and (and (not (not x0)) (or (not x4) (and x4 x2))) (or (or (and x6 x1) (not x6)) (not (or x4 x2))))) (and (or (or (not (not x1)) (or (and x4 x4) (not x5))) (and (not (not x5)) (not (and x0 x6)))) (and (or (not (or x3 x0)) (not (or x3 x5))) (or (not (and x2 x2)) (and (and x2 x4) (or x4 x1)))))))) (and (not (or (or (and (or (not (not x5)) (or (or x3 x1) (not x1))) (and (not (or x5 x3)) (not (or x3 x0)))) (not (and (not (or x2 x5)) (and (or x1 x0) (and x0 x5))))) (and (or (and (not (and x3 x1)) (or (and x1 x4) (not x5))) (or (or (not x2) (not x4)) (not (not x4)))) (and (not (or (and x5 x1) (or x4 x5))) (not (and (or x2 x1) (not x1))))))) (or (not (not (and (and (not (not x0)) (and (or x0 x3) (not x0))) (or (and (and x0 x6) (and x0 x4)) (not (and x6 x5)))))) (and (and (or (not (not (and x4 x3))) (or (or (and x1 x4) (or x3 x4)) (not (or x2 x2)))) (or (not (or (and x6 x0) (or x2 x3))) (not (or (and x3 x2) (and x6 x5))))) (or (and (not (and (and x6 x0) (not x0))) (or (and (not x5) (and x3 x3)) (not (or x0 x2)))) (and (not (or (and x5 x3) (not x0))) (or (and (and x6 x4) (or x2 x5)) (or (or x5 x1) (or x0 x2))))))))) (or (not (or (or (not (and (or (or (not x2) (or x3 x0)) (not (and x0 x2))) (or (not (and x3 x4)) (or (and x3 x4) (or x2 x6))))) (not (not (not (not (not x1)))))) (not (or (and (or (not (or x2 x3)) (or (or x4 x3) (or x3 x4))) (and (or (not x0) (and x3 x3)) (and (not x2) (and x0 x0)))) (and (or (and (and x1 x3) (and x0 x0)) (and (and x2 x2) (not x3))) (and (or (and x4 x0) (or x4 x4)) (not (or x5 x0)))))))) (and (or (not (not (and (or (and (not x2) (not x6)) (and (and x3 x4) (not x5))) (or (not (not x2)) (and (not x0) (not x3)))))) (and (and (or (or (or (not x0) (not x3)) (or (or x3 x1) (not x0))) (and (not (not x2)) (or (and x6 x2) (not x2)))) (and (and (not (or x4 x4)) (not (or x0 x0))) (and (not (and x5 x5)) (and (not x2) (and x0 x0))))) (not (or (or (or (and x4 x5) (and x2 x5)) (not (and x6 x3))) (not (not (or x5 x4))))))) (or (not (not (and (or (not (or x6 x3)) (not (not x1))) (not (or (or x6 x0) (or x4 x6)))))) (or (not (and (not (not (and x3 x4))) (not (not (not x5))))) (and (and (not (or (or x5 x4) (not x4))) (not (not (or x6 x1)))) (and (not (and (and x1 x0) (or x0 x1))) (and (and (and x5 x2) (and x2 x5)) (or (not x1) (or x6 x4)))))))))))
-(check-sat)
-(push 1)
-(assert (and (and (or (not (or (not x5) (and x3 x3))) (or (or (not x4) (or x5 x2)) (not (or x2 x0)))) (and (not (not (not x4))) (and (and (not x3) (or x5 x0)) (not (or x3 x5))))) (and (or (or (not (and x6 x4)) (or (and x2 x6) (and x2 x1))) (or (not (not x4)) (not (and x6 x3)))) (or (and (not (and x3 x3)) (not (or x0 x2))) (or (not (or x5 x4)) (or (and x2 x2) (and x1 x5)))))))
-(check-sat)
-(pop 1)
-(check-sat)
-(push 1)
-(check-sat)
-(push 1)
-(check-sat)
-(pop 1)
-(check-sat)
-(push 1)
-(check-sat)
-(pop 1)
-(assert (not (not (or (or (or (and (or (not (or x1 x0)) (not (or x2 x0))) (not (and (and x4 x3) (or x0 x6)))) (and (and (and (or x4 x1) (or x1 x2)) (or (not x1) (not x6))) (not (and (not x4) (and x6 x1))))) (or (and (and (not (not x6)) (or (and x6 x3) (not x1))) (or (or (and x5 x6) (or x5 x5)) (or (or x4 x6) (or x5 x6)))) (and (not (or (or x5 x2) (not x3))) (or (or (and x6 x6) (or x0 x5)) (or (and x1 x2) (and x6 x5)))))) (and (and (and (or (or (and x6 x2) (or x3 x5)) (and (or x6 x1) (and x1 x1))) (not (not (not x5)))) (or (or (not (or x3 x1)) (not (not x0))) (or (or (and x0 x4) (or x6 x6)) (and (not x2) (or x6 x1))))) (and (and (not (not (or x0 x1))) (not (or (or x2 x1) (not x1)))) (or (and (not (or x5 x2)) (or (not x0) (not x6))) (and (and (or x2 x4) (not x5)) (or (and x6 x5) (and x0 x6))))))))))
-(assert (or (or (or (and x2 x5) (and x5 x3)) (not (not x5))) (not (not (or x6 x2)))))
-(assert (not x3))
-(check-sat)
-(pop 1)
-(check-sat)
diff --git a/test/regress/regress0/push-pop/boolean/fuzz_28.smt2 b/test/regress/regress0/push-pop/boolean/fuzz_28.smt2
deleted file mode 100644
index 09933d521..000000000
--- a/test/regress/regress0/push-pop/boolean/fuzz_28.smt2
+++ /dev/null
@@ -1,45 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: sat
-(set-logic QF_LIA)
-(declare-fun x0 () Bool)
-(declare-fun x1 () Bool)
-(declare-fun x2 () Bool)
-(declare-fun x3 () Bool)
-(declare-fun x4 () Bool)
-(declare-fun x5 () Bool)
-(declare-fun x6 () Bool)
-(declare-fun x7 () Bool)
-(declare-fun x8 () Bool)
-(declare-fun x9 () Bool)
-(assert (not (and (or (and (or (or (not (not (or (not x3) (or x9 x2)))) (and (not (or (and x8 x5) (and x0 x4))) (not (and (not x6) (not x1))))) (or (not (or (and (or x2 x9) (and x1 x9)) (not (not x2)))) (not (not (and (or x8 x0) (not x8)))))) (or (and (and (and (or (not x2) (not x5)) (not (or x1 x6))) (not (not (or x2 x4)))) (or (not (and (not x7) (or x1 x6))) (and (or (or x6 x7) (or x8 x7)) (not (and x0 x8))))) (and (not (and (and (and x2 x1) (and x0 x5)) (not (or x8 x8)))) (not (and (and (not x2) (or x5 x8)) (not (not x1))))))) (and (and (not (or (and (or (and x3 x3) (or x2 x5)) (and (or x8 x9) (not x2))) (and (or (not x5) (not x1)) (and (or x6 x7) (not x1))))) (not (and (and (and (or x1 x5) (and x4 x8)) (not (and x6 x4))) (and (or (or x0 x8) (and x3 x5)) (not (and x6 x1)))))) (not (and (and (not (or (or x0 x4) (or x9 x7))) (or (and (and x8 x4) (not x4)) (or (and x0 x5) (or x1 x9)))) (not (and (and (and x3 x5) (and x8 x6)) (and (or x9 x8) (or x2 x7)))))))) (or (or (or (or (or (not (or (or x8 x3) (or x3 x7))) (not (and (not x7) (or x1 x0)))) (and (or (and (or x5 x7) (or x3 x0)) (and (and x0 x6) (not x2))) (not (not (or x4 x3))))) (or (and (not (or (and x2 x4) (or x0 x6))) (not (and (and x6 x7) (not x3)))) (not (and (and (and x7 x5) (and x3 x0)) (and (not x8) (and x6 x1)))))) (and (not (not (not (or (not x2) (not x3))))) (or (or (not (and (not x8) (not x5))) (and (or (or x0 x1) (and x6 x1)) (not (not x1)))) (not (not (or (or x1 x5) (not x0))))))) (and (or (not (and (or (or (not x6) (not x7)) (and (not x3) (and x7 x3))) (and (not (not x0)) (and (not x1) (or x4 x6))))) (or (and (not (and (and x8 x7) (and x9 x7))) (not (or (not x2) (and x0 x6)))) (or (not (not (or x3 x3))) (not (not (or x9 x7)))))) (and (not (not (not (or (and x2 x2) (or x9 x7))))) (or (and (and (or (or x5 x7) (and x2 x0)) (and (or x8 x4) (not x7))) (not (not (and x6 x9)))) (and (not (not (not x0))) (or (and (not x9) (or x1 x7)) (not (or x9 x7)))))))))))
-(assert (not (and (not (not (or x9 x8))) (or (not (not x9)) (or (and x4 x6) (or x3 x8))))))
-(assert (or (or (not (or (and (and (and x9 x5) (or x3 x6)) (not (not x9))) (and (and (and x7 x6) (and x8 x3)) (or (and x1 x8) (and x0 x9))))) (not (not (or (and (and x8 x7) (or x9 x2)) (and (not x1) (not x1)))))) (and (or (and (and (not (or x7 x2)) (not (or x6 x5))) (and (or (and x8 x6) (and x8 x7)) (or (not x6) (not x7)))) (or (or (not (not x3)) (and (and x0 x5) (not x4))) (and (not (or x7 x2)) (not (and x1 x9))))) (or (not (and (or (and x5 x4) (or x1 x0)) (or (and x6 x2) (not x1)))) (and (or (not (not x1)) (and (or x2 x7) (or x6 x1))) (not (or (and x2 x0) (not x4))))))))
-(check-sat)
-(push 1)
-(check-sat)
-(push 1)
-(assert (or (or (or (not (not (not (or (and (or (not x2) (and x1 x3)) (not (not x3))) (or (not (not x8)) (or (or x9 x7) (and x3 x3))))))) (not (or (and (not (or (or (and x6 x6) (not x6)) (and (not x1) (not x4)))) (and (not (not (and x9 x7))) (and (and (and x6 x9) (and x1 x2)) (not (or x3 x1))))) (or (or (or (not (not x9)) (not (and x4 x4))) (or (not (and x4 x0)) (or (not x0) (or x2 x0)))) (and (and (and (or x1 x1) (not x9)) (or (or x7 x7) (not x2))) (and (or (and x1 x7) (or x2 x9)) (and (not x2) (not x2)))))))) (and (or (not (and (not (and (not (or x5 x6)) (not (or x3 x8)))) (or (not (not (or x6 x3))) (and (or (or x6 x1) (not x9)) (not (or x8 x2)))))) (not (and (not (or (or (or x7 x1) (not x3)) (or (or x6 x9) (and x8 x1)))) (not (not (not (and x6 x7))))))) (or (not (not (and (and (or (not x3) (not x0)) (or (or x3 x3) (or x4 x3))) (or (and (and x8 x6) (or x7 x7)) (not (or x4 x4)))))) (and (and (and (not (or (or x2 x7) (not x6))) (and (or (not x2) (or x3 x6)) (and (not x8) (not x9)))) (and (not (and (or x1 x5) (and x6 x1))) (or (not (or x6 x1)) (or (or x0 x8) (not x5))))) (and (or (not (not (and x5 x3))) (or (not (or x8 x1)) (not (or x7 x4)))) (and (and (and (or x3 x0) (or x1 x4)) (and (or x6 x7) (not x1))) (or (or (not x0) (and x6 x5)) (not (not x4))))))))) (and (or (and (and (and (not (not (not (and x3 x6)))) (and (or (not (not x6)) (not (not x3))) (or (not (not x6)) (and (or x4 x9) (not x0))))) (and (or (not (not (or x5 x6))) (or (and (and x8 x2) (and x5 x2)) (or (or x0 x4) (or x4 x6)))) (or (and (or (not x0) (or x6 x4)) (not (and x5 x6))) (and (or (and x8 x7) (not x7)) (or (and x2 x5) (and x7 x5)))))) (or (and (not (not (or (not x7) (or x7 x8)))) (not (not (or (and x0 x9) (or x4 x6))))) (and (and (or (not (and x1 x4)) (not (and x5 x4))) (or (or (or x9 x0) (and x9 x9)) (not (or x7 x7)))) (or (not (or (not x3) (or x8 x0))) (or (not (or x3 x4)) (not (not x1))))))) (or (not (and (not (or (not (or x0 x6)) (or (not x9) (not x9)))) (or (not (not (and x6 x9))) (not (and (not x9) (and x8 x2)))))) (not (or (or (and (and (not x6) (or x7 x2)) (and (and x8 x5) (and x0 x8))) (and (not (not x7)) (or (not x6) (or x8 x9)))) (or (and (and (and x5 x6) (and x4 x2)) (and (or x1 x2) (not x4))) (not (and (and x4 x8) (and x7 x7)))))))) (or (and (and (or (or (or (and (and x5 x5) (or x8 x2)) (not (not x8))) (and (not (not x3)) (or (or x9 x8) (not x2)))) (and (or (and (and x4 x8) (and x7 x7)) (and (not x3) (and x8 x0))) (and (not (and x2 x5)) (and (and x9 x4) (and x5 x3))))) (not (and (or (not (not x7)) (and (not x1) (or x5 x1))) (not (not (and x6 x5)))))) (or (not (not (or (and (not x1) (or x1 x0)) (and (and x6 x8) (and x1 x0))))) (or (or (and (not (or x9 x2)) (or (and x5 x6) (and x1 x2))) (not (not (and x7 x2)))) (or (not (not (and x0 x3))) (or (not (and x8 x0)) (and (not x5) (not x7))))))) (or (or (or (and (and (or (and x9 x0) (or x1 x9)) (not (and x4 x4))) (and (and (not x8) (not x1)) (and (or x0 x9) (not x2)))) (not (not (not (not x2))))) (not (and (not (not (or x5 x1))) (and (or (not x9) (not x6)) (not (or x1 x6)))))) (not (or (or (and (and (or x5 x1) (not x1)) (and (not x4) (not x2))) (or (and (and x6 x2) (or x4 x3)) (and (and x1 x7) (and x8 x0)))) (or (or (not (or x9 x4)) (or (and x7 x8) (or x1 x6))) (or (or (or x0 x7) (and x6 x2)) (or (not x5) (not x0)))))))))))
-(assert (not (and (and (and (and (or (and (or x7 x6) (and x4 x6)) (not (or x4 x2))) (and (and (or x7 x6) (or x9 x1)) (or (not x1) (and x1 x8)))) (not (not (and (or x7 x1) (not x7))))) (not (or (not (and (or x7 x2) (and x2 x2))) (or (and (or x5 x1) (and x8 x1)) (or (and x2 x8) (not x6)))))) (or (or (not (not (or (not x2) (or x2 x8)))) (not (and (not (not x9)) (not (and x9 x6))))) (and (or (or (not (and x1 x3)) (not (not x3))) (and (and (and x1 x4) (and x1 x9)) (not (or x1 x7)))) (not (not (or (not x2) (not x0)))))))))
-(check-sat)
-(push 1)
-(assert (and (not (and (and (or (and (and (or (not (or x0 x2)) (not (and x3 x8))) (or (and (not x3) (or x1 x7)) (and (or x0 x3) (or x0 x0)))) (and (not (and (not x6) (not x9))) (or (not (and x9 x4)) (and (or x1 x3) (not x7))))) (or (not (and (and (not x9) (not x4)) (not (not x1)))) (not (or (or (or x7 x9) (and x0 x1)) (not (and x6 x3)))))) (or (not (not (or (and (not x5) (not x0)) (and (and x1 x9) (and x7 x1))))) (or (and (or (and (not x3) (or x9 x8)) (not (and x0 x6))) (not (not (not x5)))) (and (and (and (and x7 x6) (and x7 x2)) (and (not x9) (and x8 x1))) (and (not (not x4)) (not (or x5 x7))))))) (not (not (or (and (and (or (and x5 x6) (not x1)) (or (not x7) (not x6))) (and (or (and x3 x6) (or x4 x3)) (or (and x7 x3) (not x5)))) (or (not (not (or x7 x4))) (and (or (not x6) (or x4 x6)) (or (or x1 x3) (not x2))))))))) (or (and (not (and (or (and (not (not (and x3 x8))) (and (not (and x4 x9)) (not (not x0)))) (or (and (or (or x7 x5) (not x1)) (or (and x8 x0) (not x1))) (and (and (and x8 x9) (or x3 x2)) (not (not x9))))) (or (or (or (and (or x2 x6) (not x1)) (or (not x6) (not x4))) (or (or (not x4) (or x6 x7)) (and (and x8 x0) (and x3 x5)))) (or (and (not (or x1 x6)) (not (not x0))) (not (not (not x0))))))) (or (not (not (and (or (or (and x6 x5) (and x5 x6)) (not (or x9 x2))) (not (not (and x8 x0)))))) (or (not (and (not (not (and x1 x4))) (and (and (not x9) (and x4 x1)) (or (not x9) (not x7))))) (and (or (and (not (or x4 x1)) (not (and x9 x1))) (and (not (and x0 x4)) (and (or x8 x0) (not x5)))) (or (not (and (or x7 x1) (not x9))) (not (not (not x0)))))))) (not (or (or (not (or (and (not (not x3)) (and (or x5 x0) (not x1))) (not (not (not x8))))) (and (and (or (and (and x3 x3) (or x2 x3)) (not (or x5 x3))) (and (and (and x3 x2) (or x6 x8)) (and (or x8 x1) (not x9)))) (or (and (and (and x7 x0) (and x7 x4)) (and (and x8 x3) (not x4))) (not (not (not x8)))))) (and (not (and (not (and (or x6 x4) (or x9 x9))) (or (and (or x8 x3) (or x0 x0)) (not (or x0 x7))))) (or (and (or (and (and x5 x9) (or x7 x2)) (and (not x2) (not x4))) (and (or (not x8) (or x4 x4)) (not (or x9 x4)))) (or (not (not (and x0 x5))) (or (and (not x9) (not x5)) (not (or x7 x7)))))))))))
-(assert (and (not (or x6 x8)) (or (or x4 x6) (or x4 x6))))
-(assert (or (or (not (not (and (or x3 x4) (or x4 x9)))) (or (not (and (not x2) (and x9 x7))) (and (and (and x4 x9) (not x2)) (not (and x8 x5))))) (or (or (and (not (not x3)) (or (and x9 x9) (and x1 x8))) (or (and (and x7 x3) (and x4 x8)) (not (not x4)))) (and (not (not (or x4 x5))) (and (or (or x7 x0) (and x2 x6)) (not (or x7 x7)))))))
-(check-sat)
-(pop 1)
-(check-sat)
-(push 1)
-(assert (not (and (or (not (and (or (or (or (not (not x9)) (not (and x2 x7))) (not (or (or x3 x5) (not x6)))) (not (and (and (and x9 x5) (and x2 x4)) (and (or x0 x9) (not x7))))) (and (or (not (and (not x8) (or x6 x7))) (not (and (or x7 x6) (or x3 x5)))) (and (and (and (and x4 x9) (or x0 x8)) (not (not x9))) (not (not (and x6 x1))))))) (or (not (and (and (and (not (or x0 x7)) (not (or x1 x7))) (and (or (or x4 x1) (or x3 x3)) (or (not x7) (or x3 x0)))) (or (and (and (not x6) (and x5 x0)) (not (or x8 x2))) (and (and (or x7 x0) (and x9 x8)) (and (and x0 x2) (not x2)))))) (and (not (not (not (and (not x2) (or x6 x1))))) (and (and (and (and (and x9 x7) (or x2 x0)) (and (or x5 x5) (and x6 x8))) (or (and (and x6 x9) (or x4 x1)) (not (and x5 x5)))) (and (not (and (not x0) (or x9 x1))) (not (not (or x0 x3)))))))) (or (not (and (not (and (or (not (or x2 x6)) (and (or x2 x6) (not x8))) (or (or (and x0 x9) (and x0 x0)) (or (or x3 x0) (and x3 x3))))) (not (not (and (or (or x2 x1) (and x5 x9)) (or (or x1 x1) (and x2 x5))))))) (and (not (or (and (not (or (or x4 x0) (and x6 x9))) (or (not (and x5 x5)) (and (and x0 x7) (or x7 x7)))) (not (not (not (not x9)))))) (or (and (or (and (and (and x2 x6) (and x6 x9)) (or (not x8) (and x3 x0))) (and (not (not x6)) (and (not x1) (or x3 x1)))) (not (or (and (and x8 x7) (and x0 x4)) (or (not x1) (not x0))))) (or (not (or (or (and x7 x1) (and x8 x7)) (and (or x3 x1) (or x6 x2)))) (and (not (not (not x0))) (not (and (or x2 x3) (or x5 x3)))))))))))
-(check-sat)
-(pop 1)
-(assert (and x5 x7))
-(check-sat)
-(pop 1)
-(check-sat)
diff --git a/test/regress/regress0/push-pop/boolean/fuzz_29.smt2 b/test/regress/regress0/push-pop/boolean/fuzz_29.smt2
deleted file mode 100644
index 38e72425e..000000000
--- a/test/regress/regress0/push-pop/boolean/fuzz_29.smt2
+++ /dev/null
@@ -1,46 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-(set-logic QF_LIA)
-(declare-fun x0 () Bool)
-(declare-fun x1 () Bool)
-(declare-fun x2 () Bool)
-(declare-fun x3 () Bool)
-(declare-fun x4 () Bool)
-(declare-fun x5 () Bool)
-(declare-fun x6 () Bool)
-(check-sat)
-(push 1)
-(assert (and (or (or (not (and (not (or (or (not x5) (not x2)) (and (and x5 x2) (not x2)))) (or (or (and (not x2) (or x2 x1)) (or (or x3 x1) (and x3 x6))) (not (or (or x0 x4) (or x5 x0)))))) (not (and (not (or (not (and x1 x3)) (not (and x5 x4)))) (not (or (or (or x6 x0) (or x5 x3)) (and (or x4 x5) (or x4 x0))))))) (not (or (not (and (not (or (or x0 x6) (and x2 x2))) (or (and (or x3 x6) (or x1 x5)) (and (not x3) (not x3))))) (or (not (and (and (and x2 x3) (not x0)) (not (not x2)))) (not (or (not (and x1 x2)) (not (or x6 x6)))))))) (not (not (not (not (and (and (or (and x4 x2) (and x4 x4)) (or (and x5 x5) (and x0 x4))) (not (not (or x4 x0))))))))))
-(check-sat)
-(pop 1)
-(assert (and (and (not (and (or (not (or (or (or (not x1) (and x6 x5)) (and (and x2 x3) (and x5 x1))) (and (not (not x4)) (and (and x4 x5) (not x1))))) (and (and (not (not (not x5))) (or (or (and x6 x3) (and x3 x6)) (or (not x2) (not x0)))) (and (or (or (or x6 x4) (and x6 x1)) (or (and x1 x6) (or x1 x0))) (or (and (not x6) (and x2 x2)) (not (and x2 x0)))))) (and (and (or (or (not (and x1 x6)) (and (not x0) (not x4))) (or (and (not x4) (not x4)) (and (or x4 x1) (and x2 x1)))) (or (or (not (or x6 x0)) (and (and x6 x5) (not x0))) (and (and (and x2 x2) (and x0 x0)) (or (or x0 x0) (and x3 x4))))) (not (and (not (not (and x1 x5))) (and (and (and x1 x3) (and x4 x2)) (or (or x5 x2) (and x5 x1)))))))) (not (and (not (not (and (and (or (and x6 x2) (and x3 x0)) (or (or x3 x5) (and x4 x4))) (not (or (or x2 x3) (and x5 x6)))))) (or (not (not (or (and (not x2) (not x4)) (and (not x1) (and x1 x2))))) (and (or (and (not (or x5 x5)) (not (or x3 x1))) (and (and (and x4 x3) (or x1 x0)) (and (and x0 x3) (or x3 x3)))) (or (not (not (or x0 x0))) (not (not (and x0 x0))))))))) (or (not (and (or (not (or (not (not (or x5 x5))) (not (not (or x2 x6))))) (and (and (and (not (not x4)) (not (or x2 x4))) (not (or (and x0 x5) (or x4 x1)))) (or (or (or (not x6) (and x5 x2)) (or (not x1) (and x5 x1))) (or (or (and x5 x3) (or x3 x5)) (and (not x1) (or x0 x0)))))) (and (and (not (not (and (or x3 x0) (and x1 x2)))) (not (not (or (or x6 x0) (not x5))))) (not (or (or (not (not x4)) (and (not x6) (or x1 x4))) (and (or (or x6 x0) (and x3 x5)) (not (not x0)))))))) (not (not (not (or (and (or (or (or x0 x2) (and x0 x0)) (or (and x6 x6) (not x6))) (and (or (not x3) (not x2)) (and (and x0 x3) (or x6 x5)))) (and (or (not (not x3)) (or (or x1 x0) (and x2 x6))) (not (not (and x0 x2)))))))))))
-(assert (not x6))
-(assert (or (not (or (and (and (not (not (not x0))) (and (not (not x3)) (or (not x5) (not x6)))) (and (or (or (or x0 x4) (and x0 x6)) (or (not x3) (or x3 x3))) (and (and (not x6) (and x2 x6)) (or (or x5 x3) (and x4 x6))))) (or (and (not (and (or x1 x3) (not x5))) (or (or (and x1 x4) (not x2)) (or (not x5) (or x1 x3)))) (or (and (and (or x4 x3) (and x2 x2)) (or (and x4 x0) (not x5))) (or (or (and x4 x1) (and x3 x5)) (and (or x5 x1) (not x2))))))) (or (or (and (and (not (and (or x4 x0) (not x5))) (and (not (or x2 x1)) (and (and x0 x0) (or x2 x2)))) (or (or (not (or x2 x3)) (or (and x4 x2) (not x4))) (and (and (or x3 x2) (or x1 x4)) (not (not x6))))) (or (or (not (not (or x2 x0))) (not (not (and x0 x0)))) (not (not (and (or x6 x4) (and x3 x5)))))) (or (or (not (or (and (and x4 x1) (or x1 x1)) (and (not x0) (not x5)))) (not (and (not (and x4 x1)) (and (or x3 x0) (and x5 x3))))) (and (and (not (not (not x6))) (or (or (not x5) (or x2 x5)) (and (and x5 x3) (or x3 x1)))) (or (not (and (not x2) (not x5))) (and (or (not x3) (not x5)) (not (not x6)))))))))
-(check-sat)
-(push 1)
-(check-sat)
-(push 1)
-(check-sat)
-(push 1)
-(assert (or (or (or (or (not (and (and x2 x5) (and x5 x0))) (not (or (and x0 x0) (or x3 x6)))) (not (not (or (or x5 x1) (and x4 x0))))) (and (not (or (and (and x3 x1) (or x1 x3)) (not (not x0)))) (not (and (or (or x0 x2) (or x4 x2)) (or (and x6 x1) (or x6 x1)))))) (not (not (not (or (or (or x1 x1) (or x3 x0)) (or (and x3 x2) (or x4 x4))))))))
-(assert (not (and (not (and (not (and (and (and (not x1) (not x2)) (not (and x4 x2))) (or (or (or x5 x6) (and x0 x1)) (and (or x1 x5) (not x3))))) (or (and (or (not (not x4)) (not (and x2 x0))) (and (and (or x5 x3) (or x5 x0)) (or (not x3) (or x1 x3)))) (and (or (or (not x1) (and x5 x2)) (not (or x1 x0))) (or (not (and x2 x1)) (or (not x1) (and x6 x2))))))) (and (not (and (and (and (not (not x1)) (or (or x6 x0) (not x5))) (and (and (and x4 x1) (and x4 x4)) (not (or x3 x1)))) (or (and (not (and x5 x4)) (or (or x2 x2) (not x6))) (or (not (and x0 x2)) (and (or x6 x2) (or x1 x2)))))) (and (or (or (not (and (or x0 x4) (not x1))) (not (or (and x2 x4) (and x2 x2)))) (or (and (not (and x4 x4)) (not (and x3 x3))) (and (or (and x1 x0) (not x0)) (or (or x5 x6) (not x0))))) (or (or (and (or (not x5) (or x4 x1)) (and (not x4) (and x3 x5))) (or (not (and x3 x1)) (or (or x6 x1) (not x3)))) (and (or (not (or x0 x1)) (and (and x3 x6) (or x1 x1))) (and (and (and x0 x6) (and x5 x0)) (or (not x4) (or x5 x0))))))))))
-(check-sat)
-(push 1)
-(assert (not (and (or (not (and (not (and (and (and x6 x2) (not x0)) (and (or x5 x6) (and x4 x5)))) (or (or (or (and x4 x1) (not x1)) (and (or x6 x3) (not x3))) (or (and (and x6 x3) (or x4 x4)) (not (or x3 x3)))))) (not (or (or (or (and (or x4 x1) (and x1 x2)) (or (and x5 x3) (not x1))) (not (not (or x3 x3)))) (not (not (and (not x4) (and x6 x0))))))) (or (not (and (and (or (or (not x6) (not x1)) (or (not x5) (not x4))) (and (not (or x6 x4)) (or (not x0) (or x1 x6)))) (or (and (and (or x3 x4) (or x1 x5)) (or (not x2) (or x4 x1))) (and (and (and x6 x0) (and x2 x4)) (and (and x4 x6) (not x6)))))) (or (or (and (not (not (and x4 x4))) (not (and (not x1) (or x2 x2)))) (or (not (or (not x1) (or x6 x0))) (and (not (and x4 x5)) (and (not x5) (and x5 x4))))) (not (or (or (and (not x5) (or x0 x6)) (not (not x0))) (not (not (or x0 x1))))))))))
-(check-sat)
-(push 1)
-(assert (or (not (or (or (and (and x4 x3) (or x1 x4)) (and (not x4) (and x2 x0))) (and (or (not x4) (and x6 x6)) (and (and x5 x5) (not x4))))) (and (or (and (or (and x6 x3) (and x0 x2)) (or (or x3 x1) (or x2 x1))) (or (or (not x0) (not x1)) (and (or x2 x0) (or x5 x6)))) (and (and (not (not x0)) (or (or x3 x1) (or x3 x3))) (not (and (and x3 x0) (and x3 x1)))))))
-(assert (and (or (or (or (and x3 x0) (or x3 x4)) (not (or x5 x6))) (and (and (and x2 x3) (not x4)) (or (and x4 x0) (not x6)))) (not (and (not (not x2)) (or (or x2 x1) (or x0 x2))))))
-(assert (or (not (or (or (or (and (or (or (and (or x4 x2) (and x2 x3)) (and (not x4) (or x4 x5))) (not (not (and x1 x6)))) (not (and (or (and x3 x4) (and x4 x3)) (and (and x1 x6) (or x1 x4))))) (or (and (or (and (or x3 x0) (and x1 x5)) (and (or x2 x1) (or x2 x2))) (or (or (and x3 x4) (and x6 x1)) (or (not x5) (or x0 x2)))) (and (not (and (not x4) (not x1))) (and (or (not x5) (or x2 x6)) (or (and x6 x4) (not x5)))))) (or (and (not (or (and (or x4 x3) (not x2)) (or (or x6 x6) (and x4 x0)))) (or (or (and (or x6 x5) (or x3 x3)) (and (or x6 x4) (not x4))) (not (not (and x4 x3))))) (not (or (or (or (and x5 x4) (or x0 x6)) (or (not x6) (and x2 x3))) (and (or (not x1) (or x6 x5)) (and (and x0 x2) (or x6 x6))))))) (and (and (and (and (or (not (not x6)) (and (and x5 x3) (and x2 x4))) (not (not (not x0)))) (and (or (or (and x6 x4) (not x4)) (not (or x3 x3))) (not (or (not x2) (and x1 x5))))) (or (or (or (or (and x3 x2) (not x1)) (not (not x6))) (and (not (not x4)) (and (not x6) (not x4)))) (or (and (not (or x2 x0)) (or (or x2 x5) (or x3 x3))) (and (not (not x2)) (not (or x2 x5)))))) (and (or (or (and (and (and x0 x0) (and x2 x5)) (not (and x4 x2))) (or (not (and x1 x0)) (not (and x3 x0)))) (and (and (or (or x0 x3) (not x4)) (or (not x5) (not x5))) (or (or (or x6 x2) (and x0 x5)) (not (and x0 x1))))) (or (not (not (and (not x0) (or x1 x6)))) (and (or (or (or x5 x6) (or x1 x5)) (not (or x2 x5))) (or (or (and x4 x2) (not x1)) (or (and x0 x0) (or x2 x6))))))))) (and (and (and (not (or (not (or (or (not x6) (and x4 x2)) (or (not x4) (and x4 x6)))) (or (or (and (not x1) (and x6 x1)) (or (not x4) (and x4 x5))) (or (and (not x3) (not x0)) (or (not x3) (or x6 x2)))))) (or (or (not (and (or (or x6 x1) (or x0 x1)) (not (and x0 x1)))) (or (or (or (and x5 x2) (and x6 x1)) (not (not x3))) (not (or (and x3 x2) (not x0))))) (and (not (not (and (or x2 x3) (not x1)))) (not (or (or (not x3) (not x1)) (and (and x2 x6) (and x2 x1))))))) (and (or (or (or (and (and (not x5) (or x4 x1)) (and (or x3 x5) (not x3))) (not (or (not x0) (or x2 x6)))) (not (and (or (or x2 x2) (or x6 x6)) (and (and x4 x6) (and x2 x1))))) (or (or (and (and (not x0) (and x0 x2)) (and (and x0 x4) (not x0))) (not (and (not x0) (and x2 x0)))) (not (or (and (and x3 x1) (or x5 x2)) (or (or x4 x3) (or x4 x4)))))) (and (or (not (not (and (or x0 x4) (not x4)))) (and (or (or (or x5 x5) (or x0 x5)) (or (or x6 x4) (not x5))) (and (not (or x6 x0)) (and (or x2 x6) (or x0 x6))))) (and (or (not (not (or x2 x0))) (or (not (not x5)) (or (not x4) (or x5 x0)))) (and (or (or (or x0 x6) (not x4)) (not (or x2 x0))) (and (or (and x2 x3) (and x5 x5)) (or (and x4 x5) (not x2)))))))) (and (not (and (or (and (not (or (not x2) (or x6 x1))) (or (and (or x1 x3) (and x0 x5)) (or (not x5) (or x0 x5)))) (and (and (and (not x3) (or x2 x1)) (or (or x3 x0) (not x5))) (or (and (and x5 x6) (and x6 x2)) (or (not x1) (not x6))))) (not (not (not (not (not x0))))))) (or (not (not (and (and (or (not x3) (not x3)) (and (not x5) (not x5))) (not (not (or x0 x3)))))) (or (not (not (not (not (and x1 x0))))) (or (or (not (not (not x0))) (or (or (or x0 x2) (and x1 x3)) (or (and x6 x4) (and x6 x6)))) (and (not (or (and x4 x1) (and x4 x0))) (not (or (and x6 x6) (or x6 x4)))))))))))
-(check-sat)
-(pop 1)
-(assert (and (and (and x5 x2) (and x2 x2)) (not (and x1 x1))))
-(check-sat)
diff --git a/test/regress/regress0/push-pop/boolean/fuzz_30.smt2 b/test/regress/regress0/push-pop/boolean/fuzz_30.smt2
deleted file mode 100644
index 58f55bda0..000000000
--- a/test/regress/regress0/push-pop/boolean/fuzz_30.smt2
+++ /dev/null
@@ -1,69 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-(set-logic QF_LIA)
-(declare-fun x0 () Bool)
-(declare-fun x1 () Bool)
-(declare-fun x2 () Bool)
-(declare-fun x3 () Bool)
-(declare-fun x4 () Bool)
-(declare-fun x5 () Bool)
-(declare-fun x6 () Bool)
-(declare-fun x7 () Bool)
-(declare-fun x8 () Bool)
-(check-sat)
-(push 1)
-(check-sat)
-(push 1)
-(check-sat)
-(pop 1)
-(check-sat)
-(push 1)
-(assert (or (not (or (and (not (or (or (and (or (or x7 x2) (and x4 x1)) (or (or x0 x5) (and x1 x2))) (not (or (not x5) (or x8 x6)))) (not (or (or (not x0) (and x1 x1)) (not (or x4 x6)))))) (and (and (and (or (or (not x1) (or x3 x0)) (not (not x0))) (or (not (or x2 x7)) (or (and x2 x3) (and x0 x5)))) (or (and (not (and x3 x5)) (and (or x1 x7) (and x0 x7))) (not (and (not x2) (and x5 x0))))) (and (not (not (or (not x1) (or x0 x3)))) (and (not (and (or x2 x5) (and x5 x3))) (and (or (or x2 x5) (and x8 x6)) (or (not x2) (or x8 x6))))))) (or (or (and (not (and (not (or x4 x0)) (or (or x1 x6) (or x6 x0)))) (and (not (not (not x8))) (not (and (not x5) (and x2 x6))))) (not (not (or (not (not x8)) (not (and x7 x8)))))) (or (not (and (and (and (not x2) (not x5)) (and (not x1) (and x5 x0))) (not (not (and x5 x1))))) (and (not (or (not (not x0)) (not (and x8 x0)))) (not (or (or (or x8 x5) (not x8)) (and (not x4) (and x7 x0))))))))) (or (not (or (not (or (not (or (not (not x8)) (not (not x8)))) (and (and (not (not x6)) (not (or x1 x3))) (or (and (not x8) (and x6 x4)) (not (or x2 x1)))))) (not (or (or (and (and (not x4) (or x8 x7)) (or (and x0 x8) (and x4 x3))) (not (or (or x3 x7) (or x2 x5)))) (not (and (not (or x5 x1)) (not (not x8)))))))) (and (or (and (or (not (not (or (not x6) (or x0 x8)))) (and (and (and (not x5) (not x1)) (not (or x4 x4))) (and (and (not x3) (or x7 x6)) (not (or x8 x7))))) (not (and (or (not (and x8 x0)) (not (and x7 x6))) (and (and (or x0 x0) (or x3 x4)) (not (or x8 x5)))))) (and (or (not (or (not (or x5 x8)) (or (and x2 x2) (not x8)))) (or (not (not (not x0))) (or (and (and x1 x5) (not x3)) (or (and x1 x7) (not x2))))) (and (and (or (not (and x2 x7)) (not (or x7 x8))) (and (and (or x6 x1) (or x6 x4)) (not (and x3 x7)))) (and (or (not (or x7 x1)) (not (not x0))) (and (not (or x3 x6)) (not (not x7))))))) (or (or (not (not (and (not (or x4 x1)) (not (and x6 x3))))) (not (not (and (not (or x4 x7)) (or (and x5 x7) (and x2 x1)))))) (and (and (not (or (not (not x6)) (not (and x1 x3)))) (or (not (or (and x6 x4) (and x2 x2))) (or (or (or x7 x6) (not x3)) (and (and x3 x4) (not x7))))) (or (or (not (or (and x7 x4) (not x8))) (and (not (or x6 x5)) (and (and x6 x5) (and x4 x0)))) (and (not (or (not x4) (and x3 x8))) (and (not (not x8)) (not (not x4)))))))))))
-(check-sat)
-(pop 1)
-(check-sat)
-(push 1)
-(assert (and (or (or (and (and (and (and (and x3 x7) (or x3 x2)) (or (and x7 x7) (and x6 x5))) (or (or (and x4 x5) (or x6 x6)) (and (and x4 x3) (and x5 x5)))) (and (and (or (or x5 x0) (and x8 x2)) (and (or x1 x6) (and x5 x0))) (or (not (and x8 x4)) (and (not x8) (or x0 x1))))) (and (or (or (and (not x8) (not x8)) (and (not x7) (and x8 x5))) (not (and (or x1 x3) (or x5 x0)))) (not (and (not (and x8 x1)) (not (not x2)))))) (and (or (and (not (not (or x2 x5))) (or (not (or x8 x8)) (and (not x6) (and x7 x8)))) (or (and (not (or x6 x2)) (and (not x1) (and x2 x2))) (not (or (or x6 x3) (and x6 x0))))) (not (or (or (not (or x1 x7)) (or (and x3 x6) (and x5 x6))) (and (or (not x0) (or x0 x2)) (or (not x2) (and x0 x8))))))) (not (or (or (not (not (and (or x5 x4) (or x4 x2)))) (and (not (or (or x1 x6) (not x8))) (or (not (not x3)) (and (or x4 x7) (and x2 x4))))) (and (not (not (or (or x0 x8) (not x4)))) (or (and (and (not x4) (and x2 x5)) (not (and x3 x5))) (and (not (or x0 x0)) (not (not x3)))))))))
-(check-sat)
-(pop 1)
-(assert (or x3 x3))
-(check-sat)
-(pop 1)
-(assert (not (and (not (and (or x4 x1) (and x6 x3))) (and (not (and x3 x6)) (and (not x6) (and x5 x6))))))
-(assert (or (not (or (and (or (or (not (and x6 x7)) (or (not x8) (not x6))) (or (not (and x1 x8)) (or (not x6) (not x4)))) (and (and (or (not x4) (not x3)) (and (not x7) (and x4 x7))) (and (and (or x2 x7) (or x5 x2)) (and (not x1) (not x2))))) (not (not (or (and (and x5 x0) (not x1)) (and (and x4 x8) (not x1))))))) (not (and (not (or (not (or (or x7 x4) (not x1))) (not (not (not x2))))) (not (not (not (not (or x7 x7)))))))))
-(check-sat)
-(push 1)
-(assert (or (and (not (or (and (or x8 x2) (and x3 x4)) (not (or x3 x4)))) (and (not (and (and x2 x4) (or x7 x1))) (not (not (or x7 x1))))) (and (not (not (or (and x5 x4) (or x2 x6)))) (and (or (or (and x1 x1) (or x2 x3)) (not (or x3 x1))) (or (and (or x6 x7) (or x2 x0)) (not (and x8 x0)))))))
-(check-sat)
-(pop 1)
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-(check-sat)
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-(assert (and (and (and x1 x2) (or x4 x0)) (or (and x2 x6) (not x1))))
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-(pop 1)
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-(assert (or (or (or (not (and (and x4 x0) (or x0 x7))) (and (or (or x8 x3) (and x2 x0)) (and (and x4 x0) (and x1 x8)))) (not (or (or (not x8) (not x3)) (not (and x5 x7))))) (or (not (not (and (not x6) (and x8 x6)))) (or (or (or (and x7 x7) (or x7 x4)) (not (and x7 x3))) (or (and (not x8) (not x5)) (and (and x3 x4) (not x6)))))))
-(assert (not (not (and (or x8 x1) (or x5 x7)))))
-(check-sat)
-(pop 1)
-(assert (not (or (not (not (or (and (and (not (or x0 x1)) (not (and x5 x5))) (not (or (or x7 x4) (not x4)))) (and (not (not (or x6 x5))) (or (and (not x2) (and x6 x4)) (not (and x6 x8))))))) (not (and (or (and (or (or (and x0 x1) (not x5)) (not (not x8))) (and (and (and x4 x5) (or x8 x1)) (and (not x4) (and x4 x6)))) (not (not (or (and x4 x6) (or x7 x1))))) (not (not (or (not (not x8)) (not (and x6 x1))))))))))
-(assert (and (and x6 x5) (or x5 x0)))
-(check-sat)
diff --git a/test/regress/regress0/push-pop/boolean/fuzz_32.smt2 b/test/regress/regress0/push-pop/boolean/fuzz_32.smt2
deleted file mode 100644
index 109b86ec0..000000000
--- a/test/regress/regress0/push-pop/boolean/fuzz_32.smt2
+++ /dev/null
@@ -1,68 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-(set-logic QF_LIA)
-(declare-fun x0 () Bool)
-(declare-fun x1 () Bool)
-(declare-fun x2 () Bool)
-(declare-fun x3 () Bool)
-(declare-fun x4 () Bool)
-(declare-fun x5 () Bool)
-(declare-fun x6 () Bool)
-(assert (and (or x3 x1) (not x6)))
-(check-sat)
-(push 1)
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-(check-sat)
-(push 1)
-(check-sat)
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-(assert (not (and (and (or (not (not (and (not (or x5 x2)) (not (not x6))))) (not (and (not (or (or x0 x5) (not x0))) (or (and (or x2 x2) (or x3 x6)) (or (or x4 x0) (and x0 x0)))))) (or (and (and (and (or (and x6 x0) (or x3 x6)) (and (or x2 x1) (or x6 x6))) (not (not (not x4)))) (not (or (not (and x6 x0)) (not (not x5))))) (or (and (not (not (not x6))) (and (not (not x1)) (and (and x2 x6) (or x2 x5)))) (and (not (and (or x4 x0) (and x4 x0))) (or (not (not x3)) (not (not x4))))))) (not (not (and (or (not (and (or x4 x1) (not x4))) (or (not (or x3 x6)) (not (or x0 x0)))) (not (or (not (not x2)) (and (not x4) (or x3 x1))))))))))
-(assert (or (or (not (not (not (not (not (and x2 x3)))))) (or (or (not (not (and (and x0 x2) (and x3 x4)))) (and (and (and (and x3 x3) (and x2 x2)) (not (or x0 x0))) (not (not (not x5))))) (and (not (or (not (or x6 x5)) (and (not x3) (and x5 x0)))) (and (not (not (not x4))) (not (not (and x5 x4))))))) (or (not (not (or (not (or (or x6 x5) (or x6 x1))) (or (not (or x2 x0)) (or (and x3 x6) (and x5 x3)))))) (or (or (or (or (not (not x4)) (and (and x0 x1) (and x3 x6))) (and (not (not x4)) (and (or x0 x3) (not x5)))) (not (not (not (and x2 x4))))) (not (and (not (not (not x5))) (and (and (or x2 x3) (not x1)) (not (and x4 x4)))))))))
-(assert (and (and (or (or (not (not x2)) (and (not x3) (not x1))) (not (or (and x0 x0) (or x4 x4)))) (and (not (or (and x3 x3) (or x0 x0))) (and (and (or x5 x5) (or x2 x0)) (not (not x4))))) (not (and (or (and (and x4 x3) (not x6)) (not (and x5 x3))) (and (and (and x0 x4) (or x0 x3)) (and (not x1) (or x2 x1)))))))
-(assert (not (or (not (and (and (and x6 x4) (not x5)) (not (and x4 x6)))) (and (or (or (and x2 x1) (and x3 x2)) (not (not x3))) (or (or (or x5 x0) (or x1 x3)) (and (and x3 x4) (or x4 x3)))))))
-(check-sat)
-(pop 1)
-(assert (not (not (not (or x3 x2)))))
-(check-sat)
-(push 1)
-(assert (not (and (not (and (and (or (or (not (not (and x4 x0))) (not (or (or x1 x2) (or x3 x1)))) (not (or (and (not x2) (and x4 x4)) (and (not x6) (not x4))))) (or (or (not (and (or x1 x5) (and x5 x5))) (not (or (or x5 x2) (or x1 x3)))) (not (and (and (not x3) (and x2 x5)) (or (or x3 x5) (and x4 x6)))))) (and (and (not (or (not (not x2)) (and (not x2) (and x4 x4)))) (not (and (and (not x5) (or x4 x0)) (not (and x5 x5))))) (or (not (not (not (not x1)))) (and (or (not (not x2)) (not (not x4))) (and (and (or x0 x1) (or x6 x4)) (or (not x4) (or x2 x3)))))))) (or (not (not (or (not (and (not (and x3 x4)) (not (not x6)))) (not (and (and (not x4) (or x1 x4)) (not (or x1 x5))))))) (and (and (not (or (or (and (or x5 x0) (or x3 x1)) (or (not x2) (or x0 x5))) (not (not (and x5 x4))))) (not (or (and (and (or x3 x3) (and x2 x6)) (and (and x3 x5) (and x1 x5))) (not (or (not x2) (not x0)))))) (and (and (and (or (and (or x3 x1) (or x6 x4)) (and (or x5 x3) (and x6 x1))) (or (and (or x2 x2) (or x6 x5)) (or (or x0 x0) (or x3 x5)))) (or (or (not (or x4 x4)) (and (and x0 x3) (and x5 x5))) (or (or (and x1 x3) (and x1 x5)) (and (and x1 x2) (or x2 x0))))) (or (and (or (and (or x0 x1) (not x4)) (and (not x4) (not x3))) (or (not (not x3)) (or (or x6 x4) (and x4 x4)))) (or (or (not (or x6 x5)) (and (or x2 x2) (and x2 x1))) (not (and (not x2) (or x1 x5)))))))))))
-(assert (or x5 x5))
-(assert (or (or (not x5) (and x4 x3)) (not (and x1 x4))))
-(check-sat)
-(pop 1)
-(check-sat)
-(pop 1)
-(check-sat)
-(push 1)
-(assert (or (not (and x1 x1)) (not (not x3))))
-(check-sat)
-(push 1)
-(assert (or (not (not x6)) (and (not x2) (or x6 x1))))
-(check-sat)
-(pop 1)
-(assert (or (not (not (and (not x3) (and x1 x4)))) (or (and (not (or x5 x0)) (not (or x1 x2))) (or (or (not x6) (or x3 x5)) (and (or x4 x5) (or x0 x6))))))
-(check-sat)
-(push 1)
-(check-sat)
-(pop 1)
-(assert (or (and (and x4 x3) (not x4)) (or (or x3 x5) (or x1 x6))))
-(assert (not (not (not (not (not (not x6)))))))
-(check-sat)
-(pop 1)
-(assert (not (and (and (and (not (and x1 x1)) (or (and x5 x4) (not x1))) (not (and (or x0 x2) (or x0 x5)))) (not (and (and (or x0 x3) (and x4 x0)) (or (not x3) (not x1)))))))
-(assert (and (or (not x3) (and x0 x2)) (not (not x2))))
-(check-sat)
diff --git a/test/regress/regress0/push-pop/boolean/fuzz_34.smt2 b/test/regress/regress0/push-pop/boolean/fuzz_34.smt2
deleted file mode 100644
index e1ea02cad..000000000
--- a/test/regress/regress0/push-pop/boolean/fuzz_34.smt2
+++ /dev/null
@@ -1,47 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-(set-logic QF_LIA)
-(declare-fun x0 () Bool)
-(declare-fun x1 () Bool)
-(declare-fun x2 () Bool)
-(declare-fun x3 () Bool)
-(declare-fun x4 () Bool)
-(declare-fun x5 () Bool)
-(declare-fun x6 () Bool)
-(assert (and (or (and (or (not (and (or (and (not x1) (or x0 x2)) (and (not x3) (and x1 x1))) (not (or (not x0) (not x6))))) (and (not (and (not (and x6 x5)) (not (and x2 x3)))) (or (or (or (not x0) (and x4 x0)) (or (and x3 x3) (and x4 x1))) (and (not (and x1 x2)) (or (and x4 x3) (or x2 x0)))))) (or (and (and (not (and (and x5 x0) (and x4 x2))) (or (not (and x1 x5)) (and (not x0) (or x0 x0)))) (not (not (and (not x0) (and x6 x2))))) (not (and (or (and (or x5 x5) (and x3 x3)) (and (not x0) (or x5 x1))) (not (or (or x0 x0) (or x0 x2))))))) (or (or (not (not (and (or (or x0 x6) (and x2 x0)) (and (and x3 x1) (and x2 x4))))) (and (or (or (not (or x6 x3)) (or (and x0 x4) (or x5 x5))) (not (and (not x4) (not x3)))) (or (and (and (or x2 x6) (and x4 x6)) (and (not x6) (not x5))) (and (not (and x2 x5)) (or (and x0 x2) (or x5 x4)))))) (not (or (or (not (not (not x0))) (or (not (or x4 x1)) (not (not x4)))) (or (and (or (or x5 x6) (not x0)) (not (or x5 x3))) (and (and (or x3 x1) (or x3 x2)) (or (and x0 x4) (or x3 x1)))))))) (not (not (not (not (not (and (or (and x6 x1) (or x4 x4)) (and (not x0) (and x1 x2))))))))))
-(check-sat)
-(push 1)
-(assert (not (or (not (or x6 x1)) (and (not x0) (and x3 x0)))))
-(assert (not (or (and (and (not (not x4)) (or (and x6 x1) (not x1))) (not (and (not x1) (and x5 x3)))) (not (not (not (not x2)))))))
-(check-sat)
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-(assert (or (not (or x6 x5)) (and (not x3) (or x1 x3))))
-(check-sat)
-(push 1)
-(check-sat)
-(pop 1)
-(assert (or (not (or (not (or (or (or (not x0) (not x3)) (and (or x3 x5) (or x3 x1))) (not (or (not x4) (or x1 x5))))) (not (or (and (and (not x2) (and x5 x5)) (not (not x1))) (or (not (and x2 x4)) (not (or x0 x5))))))) (and (and (or (not (and (not (and x1 x0)) (or (not x1) (and x6 x4)))) (or (not (and (and x1 x5) (not x4))) (and (or (or x3 x3) (and x3 x6)) (not (not x3))))) (not (not (and (and (and x1 x0) (or x3 x5)) (and (or x3 x1) (not x5)))))) (or (and (or (and (or (or x2 x5) (not x5)) (or (or x1 x2) (and x0 x0))) (and (not (not x2)) (and (and x3 x5) (not x1)))) (and (and (not (not x3)) (and (or x0 x3) (and x2 x6))) (and (and (not x6) (or x1 x6)) (and (and x0 x5) (or x0 x0))))) (not (or (and (not (not x4)) (and (not x0) (and x1 x3))) (or (or (not x3) (and x6 x2)) (and (not x5) (and x0 x3)))))))))
-(check-sat)
-(push 1)
-(assert (and (not (or (or (not (not x2)) (not (not x2))) (not (or (or x3 x6) (and x6 x4))))) (or (and (or (or (not x3) (not x6)) (not (not x5))) (not (or (or x4 x6) (and x3 x6)))) (not (not (not (and x3 x6)))))))
-(assert (or (and x4 x1) (and x6 x3)))
-(assert (not (and (not (not (and x3 x0))) (and (not (not x1)) (or (or x0 x6) (and x2 x5))))))
-(check-sat)
-(pop 1)
-(check-sat)
-(push 1)
-(check-sat)
-(pop 1)
-(assert (and x4 x3))
-(assert (not (or (not (not x5)) (and (and x6 x6) (or x1 x0)))))
-(assert (not (and (and (not (or (not (not x6)) (and (and x0 x5) (or x2 x1)))) (or (not (or (or x6 x3) (or x1 x2))) (and (and (and x5 x5) (or x3 x6)) (not (or x0 x6))))) (not (and (or (or (or x2 x2) (or x4 x4)) (and (or x1 x1) (or x4 x5))) (not (and (and x5 x2) (or x3 x3))))))))
-(check-sat)
diff --git a/test/regress/regress0/push-pop/boolean/fuzz_35.smt2 b/test/regress/regress0/push-pop/boolean/fuzz_35.smt2
deleted file mode 100644
index a2fc1e367..000000000
--- a/test/regress/regress0/push-pop/boolean/fuzz_35.smt2
+++ /dev/null
@@ -1,43 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-(set-logic QF_LIA)
-(declare-fun x0 () Bool)
-(declare-fun x1 () Bool)
-(declare-fun x2 () Bool)
-(declare-fun x3 () Bool)
-(declare-fun x4 () Bool)
-(declare-fun x5 () Bool)
-(assert (and (not (not (and (not (not (or (or (or x2 x1) (and x5 x0)) (or (not x3) (and x4 x0))))) (or (or (not (not (not x1))) (and (or (or x5 x4) (or x2 x0)) (and (not x3) (and x3 x2)))) (and (not (or (or x2 x4) (not x4))) (or (or (not x4) (not x1)) (and (and x3 x3) (and x4 x3)))))))) (or (not (or (and (and (not (not (or x0 x4))) (and (or (not x2) (or x4 x1)) (and (and x3 x3) (or x0 x3)))) (not (and (and (not x0) (or x3 x4)) (or (and x2 x5) (and x4 x3))))) (not (or (not (not (not x5))) (and (or (and x2 x3) (and x4 x1)) (and (and x0 x3) (not x1))))))) (and (not (not (or (or (and (or x3 x3) (and x4 x5)) (or (or x3 x5) (not x4))) (and (and (or x5 x3) (and x0 x3)) (or (not x4) (not x4)))))) (and (or (or (and (and (and x1 x4) (not x4)) (or (not x1) (and x5 x4))) (and (or (not x2) (and x5 x4)) (or (or x1 x3) (not x5)))) (and (or (and (not x1) (or x3 x1)) (and (or x3 x0) (or x5 x1))) (not (not (or x4 x5))))) (or (or (not (or (and x3 x0) (or x4 x3))) (and (not (and x2 x4)) (not (not x0)))) (or (not (or (and x0 x4) (and x2 x4))) (not (or (not x5) (or x2 x4))))))))))
-(assert (and (and (or (or (not (and (or (or x4 x3) (and x1 x3)) (and (and x3 x3) (not x5)))) (or (not (or (not x2) (not x4))) (not (or (or x1 x3) (not x3))))) (or (not (or (not (or x4 x1)) (and (not x2) (and x1 x2)))) (not (not (and (and x3 x4) (not x2)))))) (or (not (not (or (not (or x5 x5)) (not (or x3 x5))))) (and (or (or (not (and x2 x2)) (and (or x1 x3) (or x3 x5))) (and (and (or x1 x1) (or x4 x0)) (not (or x0 x1)))) (and (and (not (not x4)) (or (not x2) (or x0 x4))) (or (and (and x4 x5) (and x5 x4)) (or (and x0 x0) (and x3 x4))))))) (and (or (not (or (not (or (not x5) (not x0))) (and (and (not x1) (not x0)) (not (not x5))))) (or (and (and (or (or x1 x2) (or x1 x0)) (not (or x2 x2))) (or (or (not x4) (not x3)) (not (or x1 x4)))) (not (or (and (not x2) (or x2 x0)) (not (or x3 x3)))))) (or (or (not (not (and (and x0 x2) (and x4 x5)))) (not (not (or (not x4) (or x0 x3))))) (or (or (not (or (or x5 x0) (or x5 x1))) (or (not (and x5 x5)) (and (or x3 x1) (not x0)))) (not (or (not (not x3)) (not (and x1 x5)))))))))
-(assert (or (and (or (or x4 x1) (or x1 x2)) (and (and x5 x3) (and x0 x2))) (not (not (and x2 x2)))))
-(check-sat)
-(push 1)
-(check-sat)
-(pop 1)
-(check-sat)
-(push 1)
-(assert (and (and (or (and (not (and (and (not (or (or x3 x4) (and x0 x0))) (or (or (and x4 x3) (and x1 x2)) (and (and x4 x4) (or x2 x4)))) (and (and (not (not x5)) (not (not x5))) (not (not (not x4)))))) (not (and (and (not (not (not x1))) (or (or (not x5) (not x4)) (or (and x3 x1) (or x5 x3)))) (and (and (not (and x1 x1)) (or (not x5) (or x0 x1))) (not (and (and x1 x3) (or x0 x0))))))) (or (not (or (not (and (not (or x3 x0)) (not (or x5 x4)))) (or (and (and (or x2 x0) (not x2)) (or (and x5 x2) (not x1))) (or (not (not x2)) (not (not x5)))))) (not (or (not (or (or (or x0 x1) (or x3 x5)) (and (and x2 x3) (and x2 x3)))) (not (or (or (not x5) (not x2)) (not (and x4 x5)))))))) (or (not (not (not (and (or (or (not x1) (not x5)) (not (not x4))) (or (and (and x2 x4) (or x5 x1)) (or (and x4 x2) (and x3 x1))))))) (and (or (not (or (or (not (not x4)) (or (not x3) (not x2))) (not (not (and x0 x1))))) (or (not (not (or (and x4 x1) (or x2 x1)))) (not (or (not (or x3 x3)) (and (and x5 x1) (or x5 x4)))))) (and (not (or (or (and (and x3 x2) (not x3)) (and (or x2 x5) (not x5))) (not (or (and x2 x1) (or x4 x4))))) (and (or (or (or (and x3 x1) (not x3)) (not (not x5))) (and (or (not x1) (or x1 x3)) (not (and x2 x2)))) (and (or (and (and x1 x1) (or x5 x0)) (and (or x3 x5) (and x5 x1))) (and (not (and x4 x4)) (and (and x4 x5) (or x1 x2))))))))) (and (and (and (or (and (or (or (or (and x4 x0) (not x0)) (and (or x5 x5) (or x1 x5))) (or (not (or x2 x4)) (and (or x1 x4) (not x4)))) (and (or (or (and x2 x1) (not x3)) (and (and x3 x0) (and x5 x4))) (or (not (not x4)) (and (or x2 x3) (or x4 x4))))) (and (not (and (and (and x5 x4) (or x4 x4)) (and (not x1) (not x4)))) (or (and (not (or x0 x3)) (not (or x0 x2))) (and (not (not x1)) (or (and x4 x3) (not x2)))))) (not (not (and (not (not (and x0 x2))) (or (and (or x3 x0) (or x3 x0)) (or (and x4 x3) (or x0 x5))))))) (not (not (or (or (or (and (and x3 x4) (and x2 x3)) (and (and x1 x0) (and x3 x4))) (not (or (and x0 x2) (not x4)))) (or (not (and (or x3 x1) (or x4 x0))) (and (not (and x5 x3)) (or (not x4) (not x0)))))))) (or (or (and (and (not (and (not (or x5 x1)) (or (and x5 x1) (or x4 x2)))) (not (not (or (not x3) (and x4 x2))))) (not (not (and (and (not x5) (not x2)) (and (or x5 x5) (or x1 x2)))))) (not (and (and (not (not (not x3))) (not (not (not x0)))) (not (or (and (or x3 x3) (not x2)) (and (not x2) (and x2 x1))))))) (not (not (and (not (or (and (not x3) (or x2 x2)) (or (not x2) (not x2)))) (or (and (or (and x3 x3) (not x0)) (and (not x0) (and x0 x0))) (not (or (not x3) (or x4 x2)))))))))))
-(check-sat)
-(pop 1)
-(assert (and (or (not (and (or (not (and (not (not x3)) (or (and x3 x4) (not x0)))) (not (or (and (not x0) (not x5)) (or (or x3 x4) (or x4 x1))))) (or (or (not (not (and x3 x1))) (or (or (and x0 x1) (not x1)) (or (not x5) (not x3)))) (and (and (or (or x0 x5) (or x2 x3)) (and (or x4 x1) (or x4 x1))) (not (and (or x3 x5) (and x1 x4))))))) (not (or (and (and (or (or (not x4) (not x5)) (and (or x2 x5) (not x5))) (or (or (not x2) (and x4 x3)) (or (or x1 x1) (or x0 x3)))) (and (not (and (or x0 x4) (or x0 x3))) (or (and (not x0) (or x5 x4)) (and (or x2 x4) (and x0 x2))))) (and (not (not (or (or x3 x4) (or x4 x4)))) (and (and (not (or x2 x3)) (and (or x1 x0) (and x1 x3))) (or (or (not x2) (and x3 x0)) (and (not x5) (and x3 x0)))))))) (not (not (or (and (or (or (and (or x1 x3) (and x2 x1)) (not (or x3 x1))) (not (and (not x4) (or x4 x5)))) (or (not (and (and x1 x2) (and x1 x1))) (not (not (or x5 x0))))) (or (and (not (not (or x1 x4))) (not (and (or x1 x3) (or x3 x0)))) (not (not (and (and x0 x2) (or x0 x1))))))))))
-(assert (and (and (or (and (not (and (or (and (or x4 x2) (not x3)) (and (not x2) (and x0 x5))) (not (not (and x5 x4))))) (or (not (not (or (and x4 x4) (or x3 x1)))) (not (or (not (not x2)) (or (not x3) (not x2)))))) (and (not (or (and (or (not x4) (or x2 x1)) (not (not x1))) (and (or (or x4 x5) (or x1 x4)) (not (not x2))))) (or (not (not (not (not x5)))) (not (and (not (not x0)) (or (not x3) (or x5 x4))))))) (or (and (or (not (not (or (and x2 x4) (not x1)))) (not (or (or (not x2) (not x1)) (not (not x4))))) (or (not (and (not (or x4 x5)) (and (or x3 x5) (and x1 x2)))) (and (not (or (and x1 x3) (not x3))) (or (or (or x2 x0) (and x2 x4)) (or (or x3 x1) (or x4 x5)))))) (not (or (not (or (not (and x5 x4)) (or (or x1 x2) (and x5 x5)))) (not (or (not (not x4)) (not (and x0 x1)))))))) (and (and (not (and (and (and (or (and x4 x1) (or x5 x3)) (or (or x3 x3) (or x3 x2))) (or (not (and x3 x5)) (and (and x5 x2) (or x4 x2)))) (and (or (or (and x2 x3) (or x5 x2)) (or (not x0) (not x5))) (and (not (not x5)) (or (not x5) (not x4)))))) (not (and (not (not (and (not x0) (or x2 x2)))) (and (or (not (or x3 x5)) (not (not x1))) (not (and (and x5 x1) (and x2 x1))))))) (not (and (not (or (or (and (or x0 x2) (and x1 x1)) (or (or x2 x4) (or x5 x5))) (or (or (and x4 x0) (or x5 x5)) (not (not x1))))) (and (and (or (or (and x1 x4) (and x2 x5)) (not (and x0 x0))) (and (or (and x1 x4) (and x2 x1)) (or (and x1 x1) (and x5 x4)))) (or (or (not (and x1 x1)) (or (and x3 x2) (and x0 x5))) (not (and (or x4 x5) (and x3 x1))))))))))
-(assert (not (and (and (and (or x3 x0) (and x1 x5)) (and (or x4 x2) (and x3 x4))) (or (and (and x2 x0) (or x2 x2)) (or (not x0) (and x3 x4))))))
-(check-sat)
-(push 1)
-(assert (not (not (not (and (or (and (and (or (not (or x3 x0)) (and (and x1 x2) (and x1 x1))) (not (not (or x5 x1)))) (and (and (and (not x5) (and x2 x5)) (and (or x4 x2) (and x2 x3))) (or (or (or x1 x5) (not x2)) (and (and x2 x0) (or x4 x4))))) (or (or (not (and (and x3 x1) (or x5 x4))) (not (not (or x2 x1)))) (or (not (not (and x5 x2))) (or (not (not x3)) (and (and x3 x4) (not x1)))))) (not (not (not (and (not (not x3)) (or (not x2) (or x2 x3)))))))))))
-(assert (and (not (and (or (or (or (and (not x4) (and x2 x2)) (or (and x3 x2) (and x0 x1))) (not (or (and x3 x4) (not x3)))) (and (and (or (and x0 x4) (and x1 x5)) (and (or x4 x2) (and x3 x4))) (and (or (not x4) (or x1 x3)) (not (not x0))))) (not (or (and (and (or x1 x0) (and x0 x0)) (or (and x5 x3) (or x2 x5))) (not (and (or x4 x3) (not x0))))))) (not (or (not (not (not (and (or x2 x1) (not x1))))) (not (or (not (or (or x3 x0) (or x3 x1))) (or (or (or x3 x5) (not x1)) (not (and x5 x5)))))))))
-(check-sat)
-(pop 1)
-(assert (or (or (and x5 x2) (or x1 x1)) (or (not x5) (or x3 x2))))
-(assert (or (not (and (or (and x0 x5) (and x4 x5)) (or (not x4) (not x0)))) (not (or (not (not x4)) (or (not x5) (and x4 x2))))))
-(assert (not (or (not (or (not (or x1 x1)) (and (and x2 x5) (or x2 x5)))) (not (or (or (not x0) (and x5 x4)) (not (and x1 x3)))))))
-(assert (not (or (and (or (not x1) (or x0 x2)) (and (and x1 x1) (and x2 x4))) (and (not (not x5)) (not (not x0))))))
-(assert (not (or (or (or (and x1 x2) (not x0)) (and (not x2) (and x0 x2))) (and (not (and x2 x4)) (and (and x5 x0) (or x2 x4))))))
-(assert (or (or (or x3 x0) (or x0 x0)) (and (not x0) (not x1))))
-(check-sat)
diff --git a/test/regress/regress0/push-pop/boolean/fuzz_37.smt2 b/test/regress/regress0/push-pop/boolean/fuzz_37.smt2
deleted file mode 100644
index cf34c5d35..000000000
--- a/test/regress/regress0/push-pop/boolean/fuzz_37.smt2
+++ /dev/null
@@ -1,54 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: sat
-(set-logic QF_LIA)
-(declare-fun x0 () Bool)
-(declare-fun x1 () Bool)
-(assert (or (not (or (not (not x0)) (and (or x1 x0) (not x0)))) (and (and (or (and x1 x1) (and x0 x1)) (not (not x1))) (or (not (or x0 x1)) (or (not x1) (or x0 x0))))))
-(check-sat)
-(push 1)
-(assert (or (not (and (and (or (not (not (and x1 x1))) (not (and (or x1 x0) (or x0 x1)))) (or (not (and (not x0) (and x0 x0))) (and (and (or x1 x0) (and x1 x1)) (not (not x1))))) (not (and (or (or (and x1 x0) (and x1 x1)) (not (or x1 x1))) (and (not (not x0)) (not (or x1 x1))))))) (and (not (and (or (and (and (not x0) (not x0)) (or (or x0 x1) (or x0 x1))) (not (and (or x1 x0) (and x1 x0)))) (and (not (or (not x1) (not x1))) (not (or (or x0 x1) (and x0 x0)))))) (not (or (and (or (and (and x0 x1) (or x1 x0)) (or (or x0 x1) (or x1 x1))) (and (not (not x1)) (and (not x1) (not x1)))) (not (or (not (or x0 x0)) (and (or x0 x1) (or x0 x0)))))))))
-(assert (not (not (not x0))))
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-(check-sat)
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-(check-sat)
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-(check-sat)
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-(assert (not x0))
-(check-sat)
-(pop 1)
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-(pop 1)
-(check-sat)
diff --git a/test/regress/regress0/push-pop/boolean/fuzz_39.smt2 b/test/regress/regress0/push-pop/boolean/fuzz_39.smt2
deleted file mode 100644
index abadcc2c1..000000000
--- a/test/regress/regress0/push-pop/boolean/fuzz_39.smt2
+++ /dev/null
@@ -1,82 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-(set-logic QF_LIA)
-(declare-fun x0 () Bool)
-(declare-fun x1 () Bool)
-(declare-fun x2 () Bool)
-(declare-fun x3 () Bool)
-(declare-fun x4 () Bool)
-(declare-fun x5 () Bool)
-(check-sat)
-(push 1)
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-(check-sat)
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-(check-sat)
-(pop 1)
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-(assert (not (not (or (not x0) (not x4)))))
-(assert (not (not (and (and x0 x0) (not x0)))))
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-(check-sat)
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-(assert (not (or x0 x1)))
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-(check-sat)
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-(check-sat)
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-(assert (and (not (not x5)) (and (or x2 x0) (or x2 x1))))
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-(assert (or (or x4 x1) (not x5)))
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-(assert (or (and (or (or x0 x3) (or x3 x4)) (not (or x5 x3))) (or (and (or x2 x3) (not x4)) (not (not x1)))))
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-(check-sat)
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-(assert (and (not (and (not (not (not (or (and x5 x1) (or x2 x2))))) (not (not (not (and (or x2 x4) (and x0 x1))))))) (not (or (or (and (or (and (and x3 x3) (and x5 x0)) (not (and x0 x3))) (and (not (not x5)) (or (and x2 x2) (and x3 x3)))) (not (not (or (and x2 x5) (and x3 x3))))) (or (not (and (or (and x4 x3) (or x3 x1)) (and (or x1 x0) (or x1 x3)))) (not (and (and (or x4 x1) (not x0)) (not (not x5)))))))))
-(check-sat)
diff --git a/test/regress/regress0/push-pop/boolean/fuzz_4.smt2 b/test/regress/regress0/push-pop/boolean/fuzz_4.smt2
deleted file mode 100644
index db191f610..000000000
--- a/test/regress/regress0/push-pop/boolean/fuzz_4.smt2
+++ /dev/null
@@ -1,58 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-(set-logic QF_LIA)
-(declare-fun x0 () Bool)
-(declare-fun x1 () Bool)
-(declare-fun x2 () Bool)
-(declare-fun x3 () Bool)
-(declare-fun x4 () Bool)
-(declare-fun x5 () Bool)
-(declare-fun x6 () Bool)
-(declare-fun x7 () Bool)
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-(assert (or (or x2 x1) (or x2 x4)))
-(check-sat)
-(push 1)
-(check-sat)
-(push 1)
-(check-sat)
-(pop 1)
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-(assert (or x5 x7))
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-(assert (or (and (not (and (or (and (or (and x2 x3) (not x4)) (or (and x1 x1) (or x3 x5))) (or (not (and x4 x7)) (and (and x1 x2) (or x4 x0)))) (and (not (not (or x0 x3))) (or (not (not x4)) (and (and x1 x5) (not x2)))))) (and (or (not (not (or (and x1 x5) (not x5)))) (and (or (and (not x6) (or x7 x3)) (or (and x7 x0) (and x4 x4))) (not (not (not x5))))) (and (and (not (and (and x2 x4) (or x4 x1))) (or (and (and x4 x0) (not x2)) (and (or x6 x2) (and x5 x2)))) (not (not (not (not x7))))))) (or (and (or (and (and (not (or x3 x4)) (and (not x5) (not x1))) (not (or (not x7) (or x5 x0)))) (and (not (and (and x1 x7) (or x7 x5))) (not (and (not x0) (or x2 x0))))) (not (and (or (or (not x1) (or x6 x6)) (and (and x5 x4) (or x5 x6))) (not (or (not x4) (and x5 x4)))))) (not (not (or (and (and (not x5) (not x2)) (and (not x3) (or x3 x2))) (not (and (not x5) (and x6 x1)))))))))
-(assert (or (not (or (not (not (or (and (and (and x5 x4) (not x4)) (or (not x6) (and x2 x1))) (or (and (or x0 x7) (not x5)) (not (and x7 x4)))))) (not (and (and (or (and (or x7 x3) (not x3)) (or (not x5) (not x3))) (not (not (not x7)))) (not (or (not (or x2 x4)) (not (and x3 x0)))))))) (and (not (not (or (and (or (and (not x7) (not x1)) (not (not x4))) (not (and (or x4 x1) (or x3 x5)))) (or (not (and (not x3) (and x3 x6))) (and (not (or x0 x5)) (not (and x5 x6))))))) (or (not (not (not (and (not (and x4 x3)) (not (not x1)))))) (not (and (or (and (or (or x2 x7) (and x0 x7)) (or (and x7 x7) (and x7 x4))) (and (and (not x6) (or x2 x2)) (and (and x5 x3) (and x6 x2)))) (or (and (not (or x5 x3)) (or (or x3 x3) (or x1 x2))) (not (not (or x3 x1))))))))))
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-(assert (not x0))
-(assert (and x0 x7))
-(assert (not (not (or (and x6 x2) (and x0 x6)))))
-(assert (or (not x2) (and x5 x0)))
-(check-sat)
-(pop 1)
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-(check-sat)
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-(check-sat)
diff --git a/test/regress/regress0/push-pop/boolean/fuzz_40.smt2 b/test/regress/regress0/push-pop/boolean/fuzz_40.smt2
deleted file mode 100644
index dfde9eef6..000000000
--- a/test/regress/regress0/push-pop/boolean/fuzz_40.smt2
+++ /dev/null
@@ -1,41 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-(set-logic QF_LIA)
-(declare-fun x0 () Bool)
-(declare-fun x1 () Bool)
-(declare-fun x2 () Bool)
-(declare-fun x3 () Bool)
-(check-sat)
-(push 1)
-(check-sat)
-(pop 1)
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-(check-sat)
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-(check-sat)
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-(assert (or (not (and (not x1) (not x3))) (or (not (and x2 x0)) (and (or x1 x0) (or x2 x1)))))
-(assert (and (not (or (and x2 x0) (not x0))) (or (not (and x1 x1)) (and (and x1 x3) (and x3 x3)))))
-(check-sat)
diff --git a/test/regress/regress0/push-pop/boolean/fuzz_41.smt2 b/test/regress/regress0/push-pop/boolean/fuzz_41.smt2
deleted file mode 100644
index b6d2e884f..000000000
--- a/test/regress/regress0/push-pop/boolean/fuzz_41.smt2
+++ /dev/null
@@ -1,25 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-(set-logic QF_LIA)
-(declare-fun x0 () Bool)
-(declare-fun x1 () Bool)
-(declare-fun x2 () Bool)
-(check-sat)
-(push 1)
-(assert (or (or (or (and (and (not (and (or x0 x0) (not x0))) (not (or (or x2 x2) (not x0)))) (or (or (not (or x0 x0)) (or (and x0 x2) (or x0 x2))) (and (and (and x1 x1) (and x2 x1)) (not (not x2))))) (and (not (not (and (not x2) (and x0 x2)))) (not (not (and (not x2) (not x1)))))) (not (or (and (not (and (not x2) (not x0))) (and (not (not x0)) (and (not x1) (and x2 x2)))) (and (not (and (not x2) (or x1 x0))) (or (or (or x1 x0) (or x0 x0)) (or (or x0 x0) (not x1))))))) (not (not (not (and (not (or (or x2 x0) (not x2))) (not (and (not x0) (or x0 x1)))))))))
-(assert (or (not (or (and (or (or x0 x0) (or x2 x2)) (and (not x1) (or x2 x2))) (and (not (not x1)) (and (or x0 x0) (or x0 x1))))) (not (and (or (and (and x1 x2) (not x1)) (not (not x2))) (not (and (and x2 x0) (not x1)))))))
-(assert (or (not (not x2)) (not (not x0))))
-(assert (not (or (not (or (and (and (and x0 x0) (or x1 x1)) (or (or x0 x2) (not x1))) (not (or (or x0 x1) (or x0 x0))))) (not (not (not (or (or x1 x1) (not x2))))))))
-(check-sat)
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-(check-sat)
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-(check-sat)
-(pop 1)
-(check-sat)
diff --git a/test/regress/regress0/push-pop/boolean/fuzz_42.smt2 b/test/regress/regress0/push-pop/boolean/fuzz_42.smt2
deleted file mode 100644
index 2e737763f..000000000
--- a/test/regress/regress0/push-pop/boolean/fuzz_42.smt2
+++ /dev/null
@@ -1,48 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-(set-logic QF_LIA)
-(declare-fun x0 () Bool)
-(declare-fun x1 () Bool)
-(declare-fun x2 () Bool)
-(declare-fun x3 () Bool)
-(declare-fun x4 () Bool)
-(declare-fun x5 () Bool)
-(declare-fun x6 () Bool)
-(declare-fun x7 () Bool)
-(declare-fun x8 () Bool)
-(declare-fun x9 () Bool)
-(assert (or (and (and (or (or (not (not (not (and x3 x2)))) (and (and (or (and x1 x1) (not x9)) (or (or x9 x5) (not x5))) (or (not (or x6 x3)) (not (not x5))))) (or (not (or (and (and x2 x5) (or x5 x6)) (not (or x0 x5)))) (not (or (or (or x0 x6) (not x1)) (not (not x9)))))) (or (and (not (or (or (not x2) (and x9 x9)) (or (not x6) (and x8 x5)))) (and (or (not (not x8)) (not (not x5))) (and (or (or x7 x1) (and x6 x9)) (or (and x5 x5) (and x0 x8))))) (and (and (or (or (not x9) (and x3 x0)) (and (or x6 x4) (and x0 x2))) (not (not (not x3)))) (or (or (or (or x2 x4) (or x8 x5)) (not (not x5))) (and (not (or x9 x9)) (not (not x1))))))) (and (or (and (and (not (not (or x9 x7))) (not (or (or x1 x5) (and x5 x0)))) (and (and (or (and x4 x3) (or x4 x4)) (and (or x7 x7) (or x6 x3))) (not (or (not x5) (or x8 x5))))) (or (or (not (and (or x1 x1) (and x4 x7))) (or (or (or x0 x3) (or x6 x8)) (and (not x5) (not x9)))) (and (and (and (and x8 x4) (and x5 x7)) (and (not x5) (not x5))) (not (not (not x8)))))) (not (or (and (or (or (not x6) (and x6 x9)) (and (and x0 x3) (or x4 x3))) (not (and (not x8) (and x3 x2)))) (or (and (not (or x6 x9)) (and (or x2 x4) (or x6 x4))) (not (and (or x1 x4) (and x1 x9)))))))) (or (not (and (not (and (or (not (not x0)) (not (or x5 x5))) (or (or (not x9) (or x8 x5)) (and (or x2 x1) (or x4 x4))))) (not (and (or (and (and x5 x6) (or x2 x3)) (or (not x3) (and x1 x0))) (and (and (and x3 x9) (and x1 x7)) (or (not x9) (and x7 x5))))))) (or (not (or (or (not (not (and x5 x0))) (or (and (not x3) (not x8)) (or (and x5 x7) (not x8)))) (or (and (and (or x3 x9) (or x5 x6)) (or (or x0 x7) (and x7 x6))) (or (or (or x3 x3) (not x7)) (not (or x4 x4)))))) (not (not (and (not (or (or x8 x5) (not x9))) (not (or (and x3 x3) (or x3 x2))))))))))
-(check-sat)
-(push 1)
-(check-sat)
-(push 1)
-(check-sat)
-(pop 1)
-(assert (and (or (or x0 x9) (not x9)) (not (or x8 x3))))
-(check-sat)
-(push 1)
-(assert (or (not (not (and x5 x8))) (not (not (not x7)))))
-(check-sat)
-(pop 1)
-(assert (not (not (or (or (not x4) (not x5)) (not (not x6))))))
-(assert (not (not (and (and x8 x5) (or x4 x1)))))
-(assert (and (not (not (or (or (and (and (or (and x7 x6) (or x2 x3)) (or (or x3 x4) (not x6))) (or (not (or x9 x1)) (not (and x7 x8)))) (and (not (not (and x2 x0))) (not (and (not x7) (or x3 x3))))) (and (or (and (not (and x2 x0)) (and (or x5 x9) (and x4 x2))) (or (or (not x2) (and x4 x4)) (or (and x4 x7) (not x0)))) (and (or (not (not x8)) (or (or x2 x0) (or x2 x6))) (and (and (not x3) (or x9 x9)) (or (not x2) (and x4 x6)))))))) (not (or (not (not (and (not (or (and x7 x9) (or x0 x0))) (not (not (or x7 x9)))))) (and (not (or (and (not (or x0 x6)) (and (and x7 x3) (and x7 x8))) (or (and (not x7) (or x5 x6)) (and (not x9) (or x4 x2))))) (and (not (or (or (and x2 x2) (not x3)) (or (and x2 x0) (or x5 x4)))) (not (or (or (not x7) (or x0 x5)) (or (or x4 x8) (and x8 x2))))))))))
-(assert (or (not (and x0 x3)) (or (or x0 x1) (or x2 x7))))
-(check-sat)
-(pop 1)
-(assert (or x4 x9))
-(check-sat)
-(push 1)
-(assert (or (or (or (not (or x9 x3)) (and (and x1 x9) (not x3))) (not (or (or x6 x1) (or x9 x8)))) (and (and (not (and x0 x6)) (and (not x0) (not x2))) (and (and (or x4 x5) (or x2 x8)) (and (and x5 x1) (and x4 x9))))))
-(check-sat)
-(pop 1)
-(assert (and (not (or (and (not (not (not (or x9 x5)))) (not (or (not (or x5 x4)) (not (or x8 x9))))) (and (or (not (and (or x0 x0) (not x8))) (not (or (and x7 x5) (or x0 x2)))) (or (not (not (not x2))) (and (and (or x0 x4) (and x2 x2)) (and (and x6 x7) (not x9))))))) (and (and (not (not (or (or (not x8) (and x9 x1)) (and (and x5 x8) (or x9 x3))))) (and (and (not (or (not x7) (and x0 x9))) (and (not (and x3 x4)) (not (or x4 x0)))) (or (or (and (and x0 x0) (or x1 x5)) (and (and x7 x5) (and x6 x0))) (and (and (or x4 x7) (not x6)) (not (and x1 x0)))))) (or (or (and (and (or (and x5 x1) (not x5)) (not (and x2 x4))) (and (and (not x6) (or x1 x6)) (not (and x1 x1)))) (and (and (and (or x1 x6) (or x7 x2)) (not (not x8))) (not (and (and x6 x1) (not x1))))) (not (or (or (and (or x0 x9) (not x6)) (not (not x8))) (and (and (or x7 x2) (or x7 x0)) (not (not x5)))))))))
-(check-sat)
diff --git a/test/regress/regress0/push-pop/boolean/fuzz_43.smt2 b/test/regress/regress0/push-pop/boolean/fuzz_43.smt2
deleted file mode 100644
index 88349dbff..000000000
--- a/test/regress/regress0/push-pop/boolean/fuzz_43.smt2
+++ /dev/null
@@ -1,53 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-(set-logic QF_LIA)
-(declare-fun x0 () Bool)
-(declare-fun x1 () Bool)
-(declare-fun x2 () Bool)
-(check-sat)
-(push 1)
-(assert (not (not (or (and (or (or x1 x1) (and x0 x1)) (or (or x2 x0) (or x0 x0))) (not (and (or x2 x0) (not x1)))))))
-(assert (and (and x0 x1) (and x1 x0)))
-(assert (or (not (or (or (or (and (or (and (and x1 x2) (and x1 x1)) (and (not x1) (and x2 x0))) (or (not (not x2)) (or (and x1 x1) (and x2 x1)))) (or (or (not (or x1 x2)) (and (or x0 x2) (or x2 x1))) (not (or (and x1 x2) (or x2 x0))))) (or (not (or (and (or x2 x0) (or x2 x1)) (and (not x2) (and x2 x1)))) (or (not (and (or x2 x1) (and x2 x2))) (and (and (not x1) (and x0 x2)) (and (and x0 x2) (or x1 x2)))))) (not (and (or (or (or (not x2) (and x0 x1)) (or (or x2 x2) (or x2 x2))) (and (and (not x2) (not x0)) (not (and x1 x0)))) (or (not (not (or x2 x0))) (and (not (or x2 x2)) (not (not x2)))))))) (not (or (and (not (and (and (not (not x2)) (and (not x2) (not x2))) (or (and (not x0) (or x1 x1)) (or (and x1 x0) (and x0 x0))))) (and (or (or (not (and x1 x1)) (not (or x1 x1))) (not (and (and x1 x0) (or x2 x0)))) (not (not (or (not x2) (and x0 x0)))))) (or (or (and (and (not (and x1 x1)) (or (or x0 x0) (or x2 x2))) (not (and (and x1 x0) (not x0)))) (or (not (not (and x1 x2))) (or (or (not x1) (and x1 x2)) (or (or x0 x2) (and x0 x0))))) (and (or (not (and (or x2 x2) (and x2 x2))) (and (not (not x1)) (and (or x1 x2) (and x1 x0)))) (not (or (not (or x1 x0)) (not (or x0 x2))))))))))
-(check-sat)
-(pop 1)
-(check-sat)
-(push 1)
-(assert (not (and (not (and x1 x1)) (and (and x0 x0) (not x2)))))
-(check-sat)
-(push 1)
-(assert (or (and (or (and (or (and x0 x0) (not x0)) (and (and x1 x0) (or x0 x1))) (or (or (or x1 x1) (and x2 x2)) (not (and x0 x0)))) (or (and (and (and x2 x0) (not x1)) (or (or x2 x2) (and x0 x0))) (and (or (and x1 x1) (and x2 x1)) (and (not x0) (and x1 x0))))) (not (not (or (or (or x1 x1) (or x1 x0)) (not (or x2 x1)))))))
-(assert (not (not (and (and (or (or (and x0 x2) (or x2 x0)) (and (and x1 x1) (or x1 x2))) (and (or (and x1 x0) (not x1)) (or (and x0 x0) (not x2)))) (not (and (not (or x2 x0)) (not (not x0))))))))
-(assert (not (or (and (and x1 x0) (not x2)) (or (or x2 x1) (or x0 x2)))))
-(assert (or (not (and (or (and (or (not (or (and x1 x0) (not x2))) (and (not (or x2 x1)) (not (or x0 x2)))) (and (not (and (not x2) (or x0 x2))) (not (or (not x0) (and x0 x2))))) (or (not (and (and (or x1 x2) (not x1)) (or (not x0) (or x0 x1)))) (or (and (and (not x1) (and x2 x1)) (and (and x2 x1) (or x1 x0))) (or (not (or x1 x1)) (or (or x1 x2) (not x1)))))) (not (or (not (not (not (or x1 x0)))) (not (or (and (or x0 x0) (not x2)) (not (or x1 x2)))))))) (or (and (or (not (or (or (or (and x1 x0) (or x0 x0)) (or (or x2 x1) (not x2))) (not (not (and x2 x2))))) (not (not (or (and (or x2 x1) (or x1 x2)) (or (and x2 x1) (or x0 x1)))))) (not (and (not (not (not (and x2 x1)))) (and (and (not (not x1)) (and (not x0) (not x1))) (or (or (or x2 x1) (not x2)) (and (not x1) (not x0))))))) (or (and (or (not (not (not (and x1 x2)))) (or (not (and (or x0 x0) (not x0))) (and (not (not x1)) (not (and x0 x2))))) (and (and (and (and (and x2 x1) (or x2 x2)) (not (or x0 x1))) (not (not (and x1 x2)))) (and (and (not (or x0 x1)) (or (and x2 x2) (not x1))) (and (and (or x2 x2) (not x1)) (and (or x1 x1) (or x2 x0)))))) (or (and (not (and (and (and x0 x1) (not x1)) (or (or x0 x0) (not x0)))) (and (or (not (and x1 x2)) (not (or x0 x2))) (and (or (or x0 x1) (or x2 x0)) (not (or x1 x0))))) (not (and (not (and (and x0 x1) (and x0 x0))) (not (or (not x0) (or x1 x0))))))))))
-(check-sat)
-(pop 1)
-(check-sat)
-(pop 1)
-(assert (not (and (and (or (and x0 x2) (not x2)) (and (and x1 x0) (not x0))) (not (and (and x2 x1) (or x0 x1))))))
-(check-sat)
-(push 1)
-(assert (and (not (and (or (not (and (and (not (not (or x2 x1))) (or (not (or x2 x2)) (and (not x2) (and x0 x1)))) (or (and (not (or x1 x2)) (and (and x2 x1) (or x2 x0))) (not (and (or x1 x2) (not x0)))))) (not (or (or (not (not (not x2))) (not (or (or x1 x1) (and x0 x1)))) (or (and (not (not x0)) (and (or x0 x0) (not x1))) (or (not (and x1 x2)) (and (and x0 x0) (and x1 x0))))))) (and (and (or (or (and (or (and x2 x0) (not x0)) (or (or x2 x1) (and x2 x1))) (or (or (or x2 x1) (not x0)) (or (and x2 x2) (not x2)))) (or (and (or (or x2 x0) (and x0 x1)) (not (and x1 x0))) (or (or (not x0) (not x0)) (or (not x2) (not x0))))) (not (or (and (and (not x1) (and x0 x0)) (not (and x1 x0))) (or (and (and x0 x2) (and x1 x0)) (and (and x0 x0) (not x1)))))) (or (and (or (or (and (and x2 x0) (or x0 x2)) (or (and x2 x2) (not x2))) (or (and (or x0 x1) (and x2 x2)) (or (and x0 x0) (or x2 x1)))) (not (or (and (and x2 x1) (not x2)) (and (not x1) (and x1 x0))))) (or (or (and (not (and x0 x1)) (and (or x0 x1) (not x1))) (not (or (and x2 x0) (and x1 x1)))) (or (or (and (and x2 x0) (or x0 x1)) (and (not x2) (or x2 x1))) (and (or (not x1) (not x1)) (or (and x2 x1) (not x1))))))))) (and (or (not (or (not (or (and (and (or x2 x1) (or x0 x2)) (or (or x0 x2) (and x1 x0))) (not (or (or x0 x1) (and x2 x2))))) (or (or (and (and (and x2 x0) (and x1 x1)) (and (or x0 x0) (and x1 x1))) (and (and (and x1 x1) (not x0)) (and (not x1) (not x0)))) (and (or (and (not x2) (not x1)) (not (or x0 x0))) (not (not (and x1 x0))))))) (or (not (not (not (and (and (and x2 x0) (not x1)) (or (or x1 x0) (and x2 x2)))))) (not (and (and (or (or (not x0) (not x0)) (and (and x1 x1) (and x0 x1))) (and (and (not x2) (and x2 x1)) (not (not x2)))) (and (or (and (or x2 x0) (or x2 x1)) (and (and x2 x1) (and x0 x2))) (not (not (not x0)))))))) (and (or (not (and (and (and (and (or x1 x1) (not x0)) (not (not x1))) (or (not (not x2)) (and (and x1 x1) (not x0)))) (and (or (or (and x2 x2) (or x0 x1)) (and (and x0 x2) (not x1))) (and (not (not x2)) (and (not x2) (not x1)))))) (not (or (or (or (and (and x1 x1) (not x0)) (not (and x2 x0))) (and (and (and x1 x1) (not x0)) (or (and x2 x0) (or x2 x0)))) (not (and (not (not x2)) (or (or x1 x2) (not x0))))))) (and (not (not (or (and (and (and x2 x2) (not x1)) (not (or x2 x1))) (or (not (and x0 x0)) (not (and x2 x1)))))) (or (not (not (not (not (not x0))))) (or (not (and (or (and x2 x0) (and x2 x0)) (or (not x1) (or x1 x2)))) (or (not (not (or x2 x1))) (not (not (not x0)))))))))))
-(check-sat)
-(push 1)
-(assert (or (and (and (and (not (or (or (or (not x1) (and x2 x0)) (or (not x1) (or x0 x1))) (not (or (not x1) (or x1 x0))))) (and (or (or (and (not x2) (not x1)) (or (or x2 x2) (or x1 x0))) (not (and (and x0 x1) (or x0 x2)))) (not (or (or (and x1 x0) (or x0 x2)) (and (and x1 x1) (or x0 x0)))))) (not (and (not (not (or (or x0 x2) (not x2)))) (or (not (not (and x2 x2))) (not (not (and x1 x1))))))) (not (not (or (and (not (not (not x0))) (and (or (not x2) (not x2)) (not (and x0 x0)))) (or (or (and (not x2) (not x2)) (or (not x2) (and x2 x1))) (and (and (not x0) (or x2 x2)) (and (or x1 x1) (not x0)))))))) (not (or (and (or (or (or (and (and x0 x1) (or x0 x1)) (and (or x0 x0) (not x2))) (not (and (not x0) (or x2 x2)))) (and (or (and (not x1) (or x2 x0)) (not (not x0))) (or (or (and x1 x1) (not x0)) (not (or x0 x0))))) (not (not (or (or (not x1) (not x2)) (and (or x2 x2) (not x1)))))) (and (and (not (or (and (or x0 x2) (not x2)) (not (and x2 x2)))) (and (and (or (or x1 x1) (not x1)) (not (and x0 x0))) (not (not (not x2))))) (and (and (and (and (and x1 x1) (not x0)) (not (not x2))) (and (not (not x0)) (or (or x1 x0) (and x1 x1)))) (or (or (and (and x0 x1) (or x0 x0)) (or (not x1) (and x0 x1))) (not (and (and x1 x1) (not x1))))))))))
-(check-sat)
-(pop 1)
-(check-sat)
-(push 1)
-(check-sat)
-(pop 1)
-(assert (and x2 x2))
-(check-sat)
-(push 1)
diff --git a/test/regress/regress0/push-pop/boolean/fuzz_44.smt2 b/test/regress/regress0/push-pop/boolean/fuzz_44.smt2
deleted file mode 100644
index 968d30c2e..000000000
--- a/test/regress/regress0/push-pop/boolean/fuzz_44.smt2
+++ /dev/null
@@ -1,30 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-(set-logic QF_LIA)
-(declare-fun x0 () Bool)
-(declare-fun x1 () Bool)
-(declare-fun x2 () Bool)
-(declare-fun x3 () Bool)
-(declare-fun x4 () Bool)
-(declare-fun x5 () Bool)
-(declare-fun x6 () Bool)
-(declare-fun x7 () Bool)
-(declare-fun x8 () Bool)
-(assert (or (not (not (and (and (not (not (not (not (or x2 x4))))) (and (not (or (not (not x4)) (or (or x2 x8) (or x3 x7)))) (and (or (or (not x8) (not x8)) (not (not x5))) (or (not (not x3)) (or (or x3 x7) (or x5 x2)))))) (or (and (and (or (and (and x8 x5) (not x5)) (and (or x8 x6) (not x7))) (and (and (or x7 x2) (or x6 x5)) (and (or x8 x6) (and x4 x0)))) (not (or (and (not x3) (and x6 x6)) (or (not x8) (or x1 x3))))) (and (not (and (or (and x5 x0) (not x0)) (or (or x8 x3) (or x0 x5)))) (and (or (or (and x6 x0) (not x1)) (or (or x3 x3) (or x2 x7))) (not (and (not x3) (or x0 x1))))))))) (not (and (and (or (or (not (and (not (or x2 x2)) (and (and x6 x2) (or x7 x6)))) (or (and (and (not x3) (not x7)) (or (not x8) (or x0 x0))) (and (not (or x7 x3)) (or (or x8 x6) (and x2 x1))))) (not (not (or (and (and x1 x1) (or x2 x3)) (not (not x0)))))) (not (not (not (or (or (or x8 x6) (and x7 x0)) (and (not x0) (not x7))))))) (or (and (and (or (not (not (not x7))) (and (or (and x2 x8) (or x2 x8)) (or (not x8) (or x6 x8)))) (or (and (and (and x6 x4) (not x0)) (or (or x2 x4) (or x8 x1))) (or (or (not x4) (not x8)) (or (or x8 x2) (and x8 x8))))) (and (not (not (or (and x0 x2) (not x5)))) (not (or (or (not x8) (and x8 x6)) (or (or x1 x6) (and x4 x6)))))) (not (and (or (not (or (not x8) (or x8 x4))) (or (and (or x6 x7) (or x5 x2)) (or (and x8 x2) (and x5 x0)))) (not (and (or (and x2 x1) (and x1 x5)) (or (not x7) (or x5 x4)))))))))))
-(assert (or (and (or (and (and (not (and x5 x1)) (and (and x6 x6) (and x6 x4))) (not (not (and x4 x1)))) (and (or (not (or x5 x0)) (or (and x4 x0) (not x2))) (and (and (or x4 x3) (or x5 x4)) (and (or x0 x3) (and x2 x5))))) (and (and (and (not (or x7 x7)) (or (and x5 x4) (or x0 x2))) (not (not (or x7 x6)))) (and (not (or (and x4 x2) (and x4 x3))) (or (and (and x1 x5) (not x3)) (or (and x2 x0) (or x7 x2)))))) (or (or (and (or (not (and x2 x6)) (or (not x3) (and x6 x4))) (or (not (and x7 x0)) (not (or x3 x2)))) (and (or (and (and x4 x1) (or x6 x8)) (or (not x0) (or x0 x0))) (and (or (not x8) (not x7)) (or (or x7 x0) (not x7))))) (or (or (not (not (not x3))) (and (or (not x6) (and x0 x5)) (or (not x6) (and x6 x6)))) (not (and (and (not x6) (not x4)) (and (or x4 x4) (not x7))))))))
-(check-sat)
-(push 1)
-(assert (and (or (or x8 x0) (and x1 x0)) (and (and x6 x5) (not x3))))
-(assert (and x6 x2))
-(check-sat)
-(pop 1)
-(assert (and (and (or x0 x6) (not x3)) (or (and x7 x7) (and x7 x3))))
-(assert (not (not (not (or x5 x3)))))
-(assert (not (and (and (and (not (and x2 x3)) (or (and x1 x5) (or x4 x2))) (or (or (or x4 x7) (and x5 x1)) (and (not x1) (and x1 x4)))) (or (or (and (not x6) (not x1)) (and (not x4) (or x6 x5))) (not (not (and x4 x8)))))))
-(assert (and (or (not (and (not (or (or (or (not x2) (not x0)) (or (or x6 x0) (or x7 x6))) (or (or (or x2 x3) (not x5)) (and (and x4 x6) (and x3 x0))))) (and (and (or (not (not x3)) (or (not x6) (and x6 x1))) (not (and (not x4) (and x3 x5)))) (and (not (not (and x1 x8))) (or (or (not x5) (and x4 x7)) (and (and x5 x4) (or x8 x7))))))) (or (and (not (or (or (or (not x2) (not x2)) (not (or x5 x2))) (not (and (and x6 x5) (and x0 x1))))) (or (not (or (and (and x7 x8) (and x5 x3)) (not (and x6 x4)))) (not (not (and (not x6) (or x5 x0)))))) (or (not (not (not (or (not x7) (and x7 x5))))) (or (and (or (not (or x0 x3)) (not (and x0 x2))) (not (and (not x8) (not x7)))) (or (or (and (and x7 x5) (and x7 x5)) (or (or x4 x5) (not x4))) (and (or (or x4 x4) (and x8 x5)) (not (and x8 x3)))))))) (and (or (and (not (or (not (or (and x1 x6) (or x8 x3))) (not (not (not x8))))) (and (and (or (or (not x8) (and x2 x5)) (and (and x6 x4) (not x8))) (and (and (and x0 x7) (not x2)) (not (or x3 x6)))) (and (not (not (or x7 x8))) (not (not (or x0 x5)))))) (and (not (and (or (and (not x5) (and x4 x4)) (or (or x4 x1) (or x7 x7))) (and (and (and x3 x7) (not x7)) (or (not x2) (not x2))))) (not (not (or (not (or x7 x1)) (and (and x2 x8) (not x5))))))) (or (not (and (and (or (or (or x5 x5) (and x1 x5)) (not (and x4 x1))) (and (and (and x3 x0) (and x2 x5)) (not (or x6 x5)))) (or (or (and (or x8 x4) (not x3)) (and (not x6) (and x3 x7))) (and (and (not x0) (or x5 x5)) (or (not x5) (and x8 x1)))))) (and (or (not (and (and (not x6) (not x3)) (and (not x6) (or x5 x2)))) (not (or (or (or x8 x1) (and x8 x6)) (or (not x3) (or x8 x3))))) (not (or (and (and (and x2 x2) (not x5)) (not (and x8 x0))) (and (and (not x3) (not x1)) (and (and x2 x3) (not x6))))))))))
-(assert (or (or (and (and (not x7) (or x2 x6)) (or (and x3 x2) (and x8 x1))) (not (or (and x6 x5) (or x7 x1)))) (or (and (not (not x4)) (and (and x2 x5) (or x4 x1))) (not (not (or x7 x5))))))
-(assert (or (or (and (and (and (not (or (and x4 x7) (or x6 x2))) (and (or (and x2 x8) (or x2 x4)) (and (or x4 x2) (or x7 x7)))) (or (not (or (or x3 x2) (not x1))) (and (or (or x4 x8) (or x8 x1)) (and (not x6) (and x5 x1))))) (and (and (or (not (not x3)) (and (not x1) (and x1 x5))) (not (and (and x5 x4) (or x6 x7)))) (not (or (or (not x4) (and x2 x8)) (and (not x1) (or x3 x2)))))) (not (or (not (or (or (and x2 x4) (or x5 x6)) (not (not x8)))) (not (or (not (or x1 x5)) (not (or x4 x5))))))) (or (not (and (not (not (or (not x0) (and x7 x1)))) (and (or (and (or x0 x0) (or x5 x0)) (and (not x5) (or x5 x6))) (not (or (and x1 x5) (not x7)))))) (not (and (and (not (or (and x4 x8) (or x3 x8))) (not (or (or x6 x4) (not x5)))) (not (or (and (not x0) (not x2)) (or (or x4 x6) (or x0 x2)))))))))
-(assert (not (and (and (or x3 x2) (or x1 x8)) (and (and x5 x5) (not x8)))))
-(check-sat)
diff --git a/test/regress/regress0/push-pop/boolean/fuzz_45.smt2 b/test/regress/regress0/push-pop/boolean/fuzz_45.smt2
deleted file mode 100644
index 1294df46f..000000000
--- a/test/regress/regress0/push-pop/boolean/fuzz_45.smt2
+++ /dev/null
@@ -1,51 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: sat
-(set-logic QF_LIA)
-(declare-fun x0 () Bool)
-(declare-fun x1 () Bool)
-(declare-fun x2 () Bool)
-(declare-fun x3 () Bool)
-(declare-fun x4 () Bool)
-(declare-fun x5 () Bool)
-(declare-fun x6 () Bool)
-(assert (or (or (not (and (or (or (not (and (or x6 x3) (not x4))) (and (or (and x2 x3) (not x3)) (and (or x4 x1) (or x4 x3)))) (or (and (not (and x2 x5)) (and (and x2 x0) (and x5 x0))) (and (or (or x1 x4) (and x0 x0)) (or (and x1 x2) (not x5))))) (or (or (or (and (and x6 x5) (not x6)) (and (and x2 x3) (not x4))) (and (not (or x5 x0)) (or (and x1 x3) (and x1 x5)))) (and (not (or (and x0 x5) (and x2 x0))) (or (or (or x6 x2) (not x1)) (or (and x3 x6) (and x4 x2))))))) (and (not (or (or (not (not (or x4 x0))) (or (not (or x2 x4)) (and (not x2) (or x1 x3)))) (or (or (not (not x3)) (and (and x0 x4) (or x0 x0))) (not (and (not x0) (or x3 x2)))))) (or (or (or (or (and (not x3) (or x5 x6)) (and (or x6 x4) (or x5 x5))) (not (or (or x1 x2) (and x6 x4)))) (not (or (and (and x2 x4) (and x5 x2)) (and (not x5) (and x2 x1))))) (not (or (or (not (not x4)) (not (not x1))) (or (not (not x2)) (or (or x4 x6) (and x6 x1)))))))) (not (not (or (or (or (not (and (or x3 x2) (or x1 x4))) (and (or (and x3 x2) (and x4 x0)) (or (not x2) (and x2 x6)))) (and (not (and (and x3 x4) (not x1))) (or (not (and x3 x5)) (and (not x4) (or x5 x5))))) (not (or (or (or (or x6 x5) (or x1 x4)) (or (or x1 x4) (and x6 x0))) (not (not (not x6))))))))))
-(assert (or (and (or (and (or (and (not (and (and x5 x5) (not x6))) (not (not (not x3)))) (and (and (and (and x5 x0) (and x4 x3)) (not (and x2 x1))) (not (or (and x1 x3) (and x0 x6))))) (not (and (not (and (or x4 x1) (not x0))) (and (not (or x3 x3)) (or (or x4 x4) (not x3)))))) (or (or (not (or (and (or x3 x2) (or x3 x1)) (not (and x6 x4)))) (not (and (not (or x1 x6)) (or (not x2) (or x1 x6))))) (and (not (or (and (not x3) (and x1 x4)) (and (or x4 x1) (and x6 x6)))) (not (or (and (or x2 x2) (or x3 x1)) (or (not x2) (and x3 x1))))))) (and (not (and (not (not (or (and x6 x1) (and x1 x6)))) (or (or (and (or x5 x6) (not x5)) (or (and x5 x2) (not x5))) (and (or (and x1 x0) (or x6 x3)) (or (and x0 x5) (and x1 x3)))))) (or (and (not (or (not (or x3 x5)) (or (and x4 x2) (not x5)))) (and (not (or (not x6) (and x5 x4))) (and (or (not x3) (or x6 x3)) (not (and x1 x2))))) (and (not (and (not (or x5 x0)) (not (and x1 x3)))) (not (or (and (not x3) (or x0 x6)) (not (or x5 x3)))))))) (and (not (not (and (not (and (or (and x2 x3) (or x5 x6)) (and (not x0) (or x4 x1)))) (or (not (and (and x0 x4) (or x6 x4))) (and (not (or x3 x5)) (or (and x2 x1) (and x6 x3))))))) (not (not (not (or (and (not (or x1 x0)) (or (and x4 x1) (not x4))) (and (not (not x2)) (and (not x2) (and x3 x3))))))))))
-(check-sat)
-(push 1)
-(assert (or (not (not (not x6))) (and (or (and x1 x1) (not x2)) (and (or x4 x3) (not x1)))))
-(assert (not (and (and x0 x3) (or x3 x4))))
-(assert (or (and x5 x3) (not x4)))
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-(assert (or (and (not (not (not (or (and (or (or x3 x5) (not x3)) (not (or x0 x5))) (or (or (not x3) (or x0 x2)) (or (not x3) (not x4))))))) (not (or (not (and (or (and (or x5 x1) (and x5 x2)) (not (not x5))) (not (or (not x1) (and x6 x6))))) (and (or (and (or (or x3 x1) (or x5 x4)) (and (not x2) (and x1 x2))) (and (or (and x0 x2) (and x6 x6)) (and (and x3 x4) (not x2)))) (or (and (not (not x2)) (and (not x3) (and x1 x5))) (and (not (or x1 x1)) (or (and x2 x5) (not x2)))))))) (and (or (not (not (not (and (and (not x4) (not x0)) (and (and x0 x3) (and x1 x0)))))) (and (or (not (and (and (or x2 x3) (not x2)) (or (not x2) (and x5 x4)))) (not (not (not (and x1 x4))))) (or (and (or (not (or x0 x4)) (and (not x4) (not x2))) (not (and (and x5 x0) (or x5 x1)))) (not (and (and (or x2 x4) (not x0)) (not (not x2))))))) (and (or (not (or (or (or (not x6) (not x1)) (not (or x6 x4))) (and (and (not x6) (not x4)) (not (and x3 x6))))) (not (not (not (not (not x1)))))) (not (or (or (and (not (and x4 x0)) (and (not x6) (or x4 x5))) (not (and (not x6) (or x5 x1)))) (or (and (or (or x1 x2) (or x5 x5)) (not (not x1))) (or (and (and x6 x6) (not x4)) (or (or x2 x0) (and x3 x0))))))))))
-(check-sat)
-(pop 1)
-(assert (or (and (not (and x2 x5)) (and (or x3 x4) (or x0 x3))) (or (or (not x1) (and x3 x3)) (not (or x5 x1)))))
-(check-sat)
-(push 1)
-(assert (not (not (not (or (or x2 x3) (and x2 x1))))))
-(assert (not (and (not (and (or (or x4 x4) (or x1 x5)) (or (and x1 x1) (or x4 x3)))) (or (or (and (not x6) (not x6)) (and (not x1) (or x3 x6))) (not (not (and x4 x0)))))))
-(check-sat)
-(push 1)
-(check-sat)
-(push 1)
-(assert (and (and (not (not (and (or (and x6 x6) (and x4 x4)) (or (or x2 x1) (or x0 x2))))) (and (and (not (or (and x0 x5) (or x2 x4))) (not (or (not x1) (not x1)))) (or (and (and (not x1) (not x3)) (not (or x4 x6))) (or (or (or x2 x6) (or x3 x4)) (and (and x3 x3) (or x0 x1)))))) (or (not (not (or (not (not x4)) (and (or x6 x0) (or x2 x0))))) (or (not (and (and (and x1 x3) (not x4)) (not (and x0 x1)))) (or (and (or (or x6 x4) (or x0 x6)) (or (or x6 x4) (not x4))) (and (not (or x5 x3)) (and (or x2 x2) (not x5))))))))
-(check-sat)
-(push 1)
-(check-sat)
-(pop 1)
-(check-sat)
-(pop 1)
-(assert (or (and (or (not (or (or (or (or x1 x4) (and x3 x2)) (or (or x5 x1) (or x6 x2))) (or (not (and x3 x5)) (or (and x0 x1) (not x6))))) (and (and (and (or (and x3 x3) (or x2 x5)) (not (and x0 x4))) (not (not (not x4)))) (or (and (or (or x2 x1) (and x2 x2)) (not (or x1 x4))) (not (and (not x1) (and x0 x2)))))) (not (or (not (and (and (not x1) (and x3 x4)) (and (not x6) (or x6 x1)))) (not (not (and (or x2 x2) (and x4 x6))))))) (not (or (and (and (not (and (or x6 x5) (and x5 x2))) (not (or (not x4) (or x6 x1)))) (or (or (and (not x0) (not x4)) (or (and x4 x5) (not x4))) (or (and (or x6 x1) (and x3 x6)) (or (not x6) (or x4 x1))))) (not (or (and (and (or x2 x6) (not x3)) (or (or x3 x6) (or x1 x4))) (not (and (not x5) (not x0)))))))))
-(check-sat)
-(pop 1)
-(check-sat)
-(push 1)
diff --git a/test/regress/regress0/push-pop/boolean/fuzz_5.smt2 b/test/regress/regress0/push-pop/boolean/fuzz_5.smt2
deleted file mode 100644
index a29fda6e1..000000000
--- a/test/regress/regress0/push-pop/boolean/fuzz_5.smt2
+++ /dev/null
@@ -1,65 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-(set-logic QF_LIA)
-(declare-fun x0 () Bool)
-(declare-fun x1 () Bool)
-(declare-fun x2 () Bool)
-(declare-fun x3 () Bool)
-(declare-fun x4 () Bool)
-(declare-fun x5 () Bool)
-(declare-fun x6 () Bool)
-(assert (or (or (not (not (and (and x3 x0) (not x2)))) (and (not (not (and x1 x6))) (and (and (or x1 x4) (or x0 x3)) (or (or x0 x4) (or x3 x3))))) (and (and (not (not (or x5 x3))) (or (or (and x5 x1) (not x4)) (and (or x4 x3) (and x4 x5)))) (not (or (not (not x6)) (or (not x0) (not x6)))))))
-(check-sat)
-(push 1)
-(assert (not (not (or (not (not (and (and x6 x1) (or x2 x1)))) (and (or (not (or x1 x0)) (or (not x1) (or x3 x6))) (or (not (and x3 x1)) (not (not x1))))))))
-(assert (or (not (not (or x4 x3))) (or (not (and x4 x4)) (not (or x3 x5)))))
-(check-sat)
-(push 1)
-(check-sat)
-(push 1)
-(check-sat)
-(pop 1)
-(assert (not (or (not (not (and (and (not (not (not x5))) (and (not (and x5 x4)) (not (or x1 x0)))) (not (and (or (or x2 x4) (not x4)) (or (and x3 x6) (and x6 x2))))))) (and (and (not (and (or (not (or x1 x2)) (not (or x6 x1))) (or (and (not x3) (or x3 x5)) (or (and x4 x4) (and x6 x6))))) (not (and (not (or (or x3 x2) (not x2))) (not (or (not x2) (not x6)))))) (or (not (or (not (not (or x4 x3))) (and (and (and x2 x6) (or x6 x5)) (or (or x1 x3) (and x2 x3))))) (or (and (and (or (and x6 x0) (and x5 x1)) (not (not x1))) (or (or (and x0 x2) (not x0)) (not (or x0 x5)))) (and (not (and (not x2) (not x2))) (not (or (not x3) (not x5))))))))))
-(check-sat)
-(pop 1)
-(check-sat)
-(pop 1)
-(assert (or (and (and (and (and (or (not (not (and (not x1) (not x2)))) (not (and (not (and x0 x4)) (and (not x3) (or x5 x1))))) (or (or (and (or (and x3 x6) (and x3 x1)) (not (or x1 x4))) (and (or (not x5) (not x0)) (not (not x3)))) (or (and (and (or x6 x5) (and x5 x5)) (or (and x1 x6) (and x5 x6))) (or (and (or x5 x6) (or x5 x4)) (not (or x2 x0)))))) (or (and (and (and (or (or x4 x2) (or x5 x1)) (and (or x5 x0) (and x5 x5))) (not (and (not x5) (or x3 x1)))) (not (and (and (or x5 x1) (and x0 x2)) (not (and x6 x3))))) (and (not (or (not (or x2 x2)) (and (or x0 x2) (not x0)))) (not (or (not (not x3)) (not (and x4 x6))))))) (or (not (or (or (or (or (not x3) (or x0 x3)) (not (and x0 x6))) (or (and (or x2 x4) (or x2 x6)) (and (or x3 x0) (not x6)))) (and (or (and (or x1 x4) (not x3)) (and (not x2) (not x0))) (not (or (not x5) (not x2)))))) (not (or (not (or (or (and x3 x2) (or x3 x6)) (and (and x1 x2) (or x1 x6)))) (not (and (or (not x4) (not x2)) (not (and x0 x0)))))))) (or (not (and (or (not (and (and (or x3 x4) (and x4 x1)) (not (not x1)))) (not (not (not (or x0 x2))))) (and (not (or (and (or x6 x2) (not x5)) (and (and x6 x6) (or x6 x6)))) (and (and (or (or x2 x2) (or x2 x1)) (or (not x1) (and x4 x1))) (or (or (not x4) (and x5 x6)) (or (not x0) (not x2))))))) (not (not (not (or (not (and (or x0 x5) (and x4 x0))) (not (not (and x3 x3))))))))) (or (and (not (not (or (and (or (not (and x3 x2)) (not (and x2 x3))) (not (or (not x2) (and x4 x0)))) (or (and (and (not x3) (and x6 x5)) (or (and x3 x3) (or x5 x0))) (not (or (or x4 x5) (or x2 x1))))))) (or (or (or (not (not (not (or x4 x4)))) (and (not (or (or x0 x4) (and x1 x3))) (and (not (and x5 x4)) (or (not x5) (not x5))))) (or (or (not (or (and x3 x6) (and x6 x1))) (not (or (and x5 x1) (not x5)))) (and (or (or (not x4) (not x4)) (and (and x2 x2) (or x4 x0))) (and (not (or x5 x2)) (or (not x5) (or x3 x5)))))) (not (and (not (and (and (not x0) (not x3)) (not (or x2 x2)))) (and (or (or (and x4 x6) (not x1)) (and (not x4) (or x3 x6))) (or (and (or x0 x1) (and x1 x4)) (or (and x4 x2) (and x2 x0)))))))) (and (or (or (not (and (or (or (or x2 x2) (not x1)) (and (or x4 x3) (or x1 x3))) (or (or (or x4 x0) (not x2)) (or (and x1 x3) (or x2 x5))))) (and (or (and (and (and x3 x3) (and x3 x4)) (not (and x6 x3))) (not (or (or x6 x1) (or x1 x6)))) (or (or (or (not x2) (not x0)) (or (and x6 x6) (not x6))) (not (not (not x0)))))) (and (not (or (or (and (and x1 x1) (and x6 x2)) (or (not x2) (and x2 x2))) (and (not (or x0 x5)) (and (not x4) (not x4))))) (or (not (and (and (or x0 x3) (and x2 x6)) (not (not x0)))) (not (or (not (and x3 x3)) (or (not x5) (and x1 x6))))))) (not (or (or (and (not (not (not x4))) (and (and (not x3) (and x4 x3)) (not (or x4 x2)))) (or (not (or (and x2 x6) (or x5 x2))) (and (not (or x6 x6)) (not (not x0))))) (and (not (and (or (or x4 x3) (and x1 x4)) (and (or x1 x6) (or x0 x1)))) (or (or (and (or x5 x1) (not x3)) (or (not x0) (or x1 x5))) (or (and (or x3 x6) (not x0)) (or (not x2) (or x2 x4)))))))))))
-(check-sat)
-(push 1)
-(check-sat)
-(push 1)
-(assert (or (and (not (not x0)) (and (and x0 x1) (or x2 x1))) (not (and (not x4) (or x6 x0)))))
-(assert (not (not (and (or (or (and (and (or x4 x6) (or x3 x1)) (not (and x4 x5))) (or (not (not x3)) (and (not x6) (and x3 x6)))) (and (and (not (not x0)) (not (and x5 x5))) (or (not (or x1 x0)) (and (and x2 x3) (not x6))))) (or (and (and (not (or x0 x2)) (and (not x4) (or x3 x1))) (not (or (not x6) (and x4 x4)))) (not (not (not (and x6 x2)))))))))
-(check-sat)
-(pop 1)
-(check-sat)
-(push 1)
-(check-sat)
-(pop 1)
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-(assert (or (or (and (not (not (and (not x3) (or x3 x3)))) (or (or (not (or x1 x6)) (and (and x2 x6) (or x1 x0))) (or (not (and x5 x0)) (or (or x6 x0) (not x0))))) (or (or (not (and (and x5 x4) (not x5))) (or (or (or x4 x1) (and x4 x0)) (or (not x0) (or x5 x6)))) (not (or (or (or x3 x1) (or x3 x6)) (or (or x1 x5) (or x5 x6)))))) (or (not (or (or (and (not x2) (and x0 x0)) (or (or x2 x6) (and x5 x5))) (or (or (not x6) (and x2 x3)) (not (and x4 x4))))) (and (and (or (not (and x3 x5)) (or (and x6 x4) (and x6 x6))) (not (or (not x6) (and x1 x2)))) (not (not (and (and x0 x4) (and x1 x0))))))))
-(check-sat)
-(pop 1)
-(check-sat)
-(push 1)
-(assert (not (not (and x6 x6))))
-(check-sat)
-(pop 1)
-(assert (not (or (or (or x6 x6) (or x1 x5)) (and (not x2) (and x2 x3)))))
-(check-sat)
-(push 1)
diff --git a/test/regress/regress0/push-pop/boolean/fuzz_51.smt2 b/test/regress/regress0/push-pop/boolean/fuzz_51.smt2
deleted file mode 100644
index f9bdb084f..000000000
--- a/test/regress/regress0/push-pop/boolean/fuzz_51.smt2
+++ /dev/null
@@ -1,36 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-(set-logic QF_LIA)
-(declare-fun x0 () Bool)
-(check-sat)
-(push 1)
-(assert (not (and (or (and (and (or x0 x0) (or x0 x0)) (or (not x0) (and x0 x0))) (and (or (or x0 x0) (not x0)) (not (and x0 x0)))) (or (or (or (not x0) (or x0 x0)) (and (or x0 x0) (and x0 x0))) (or (or (not x0) (or x0 x0)) (not (or x0 x0)))))))
-(check-sat)
-(push 1)
-(check-sat)
-(pop 1)
-(check-sat)
-(pop 1)
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-(check-sat)
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-(check-sat)
-(push 1)
-(check-sat)
-(push 1)
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-(check-sat)
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-(assert (or (not (and (or x0 x0) (or x0 x0))) (or (not (or x0 x0)) (not (not x0)))))
-(assert (not (and (not (and (or (and (or x0 x0) (and x0 x0)) (not (and x0 x0))) (not (not (or x0 x0))))) (and (and (not (or (not x0) (not x0))) (and (or (and x0 x0) (or x0 x0)) (and (not x0) (not x0)))) (or (and (and (and x0 x0) (and x0 x0)) (or (not x0) (not x0))) (and (and (or x0 x0) (or x0 x0)) (or (not x0) (not x0))))))))
-(check-sat)
diff --git a/test/regress/regress0/push-pop/boolean/fuzz_52.smt2 b/test/regress/regress0/push-pop/boolean/fuzz_52.smt2
deleted file mode 100644
index 2ab146602..000000000
--- a/test/regress/regress0/push-pop/boolean/fuzz_52.smt2
+++ /dev/null
@@ -1,47 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-(set-logic QF_LIA)
-(declare-fun x0 () Bool)
-(declare-fun x1 () Bool)
-(declare-fun x2 () Bool)
-(declare-fun x3 () Bool)
-(declare-fun x4 () Bool)
-(declare-fun x5 () Bool)
-(declare-fun x6 () Bool)
-(declare-fun x7 () Bool)
-(assert (not (and (not x3) (or x2 x1))))
-(assert (or (not (or (and (not (or (or (or (not x2) (not x7)) (and (or x7 x4) (or x6 x7))) (not (not (or x6 x4))))) (not (or (or (and (or x1 x5) (and x4 x7)) (or (and x4 x6) (and x0 x0))) (not (and (and x5 x7) (and x0 x5)))))) (and (or (not (and (not (or x1 x7)) (and (or x1 x5) (and x6 x1)))) (or (and (not (not x5)) (not (not x5))) (and (or (or x0 x5) (and x1 x3)) (or (or x0 x6) (and x2 x7))))) (not (or (not (and (and x0 x4) (not x2))) (not (and (or x1 x3) (not x7)))))))) (not (and (and (not (or (or (or (not x7) (and x0 x5)) (not (or x4 x3))) (or (and (and x3 x1) (and x7 x4)) (or (and x5 x4) (not x6))))) (not (not (or (or (not x1) (or x7 x1)) (and (or x1 x5) (or x3 x1)))))) (or (and (not (and (and (and x2 x7) (or x4 x5)) (not (or x6 x4)))) (not (and (or (or x5 x2) (and x4 x3)) (or (or x4 x0) (and x0 x1))))) (not (and (and (and (not x1) (or x2 x1)) (not (or x7 x6))) (not (or (and x4 x4) (not x2))))))))))
-(assert (and (or (and (not (or (and (and (or (not x0) (and x1 x7)) (and (not x0) (or x4 x5))) (or (or (and x6 x7) (or x3 x3)) (or (or x2 x2) (and x5 x6)))) (not (not (and (or x3 x6) (and x6 x0)))))) (and (not (not (not (not (and x7 x6))))) (or (not (or (not (or x7 x4)) (or (or x7 x4) (or x4 x2)))) (not (and (and (not x3) (or x3 x1)) (not (or x5 x4))))))) (and (and (and (not (not (and (not x5) (and x7 x5)))) (not (not (and (not x4) (and x5 x6))))) (or (not (and (and (or x4 x3) (not x6)) (and (and x2 x5) (or x5 x2)))) (or (and (or (and x0 x1) (not x3)) (or (not x4) (or x0 x2))) (not (or (not x6) (not x0)))))) (not (not (or (and (and (and x3 x0) (not x0)) (not (not x3))) (not (and (and x5 x3) (not x7)))))))) (and (or (not (and (or (and (and (not x0) (or x4 x2)) (or (and x3 x0) (or x6 x0))) (or (or (not x6) (not x7)) (not (and x5 x0)))) (and (not (or (and x1 x5) (not x2))) (or (not (and x3 x4)) (and (and x2 x0) (and x1 x6)))))) (not (and (or (and (and (or x5 x5) (not x2)) (or (or x6 x7) (or x7 x5))) (not (and (and x0 x4) (or x5 x1)))) (and (or (or (not x0) (or x7 x2)) (or (not x3) (and x1 x0))) (or (not (not x3)) (and (or x0 x0) (and x0 x2))))))) (or (or (and (and (and (and (not x5) (and x7 x6)) (and (and x0 x2) (or x3 x4))) (not (and (not x7) (or x3 x1)))) (and (not (or (or x4 x3) (or x5 x1))) (not (and (and x0 x0) (or x7 x6))))) (not (and (not (not (and x2 x6))) (and (and (or x3 x6) (or x4 x3)) (or (and x2 x1) (and x7 x6)))))) (and (not (and (and (not (not x3)) (not (or x3 x1))) (not (or (or x2 x3) (not x0))))) (not (or (not (or (and x2 x1) (or x4 x2))) (not (or (not x4) (or x2 x7))))))))))
-(check-sat)
-(push 1)
-(assert (not (not (not (or (and (or (and x6 x5) (or x6 x7)) (or (not x2) (not x7))) (or (or (and x6 x3) (and x7 x7)) (or (and x6 x4) (or x0 x6))))))))
-(assert (not (or (not (and (not (or (not (and (or x0 x1) (not x1))) (or (or (and x3 x1) (and x2 x0)) (or (and x1 x3) (or x7 x3))))) (or (or (and (and (not x2) (not x0)) (and (not x4) (not x2))) (not (and (not x6) (not x7)))) (not (not (not (or x0 x2))))))) (and (and (or (not (or (and (or x4 x2) (and x6 x4)) (and (or x4 x3) (and x1 x6)))) (and (or (or (not x5) (and x1 x5)) (and (and x6 x0) (not x0))) (or (and (or x5 x2) (and x7 x4)) (not (not x6))))) (or (and (or (not (or x7 x4)) (and (and x3 x3) (or x4 x0))) (not (not (or x0 x3)))) (or (not (not (and x3 x2))) (or (not (or x1 x6)) (or (and x5 x6) (and x6 x6)))))) (or (and (and (or (and (or x3 x7) (not x4)) (not (not x0))) (or (not (and x4 x3)) (not (and x6 x1)))) (not (not (or (and x1 x5) (and x7 x3))))) (and (or (or (not (and x4 x0)) (or (and x5 x0) (or x5 x4))) (or (and (and x6 x7) (not x4)) (and (not x0) (and x3 x1)))) (or (not (or (not x6) (or x2 x4))) (or (or (or x1 x5) (not x1)) (or (not x5) (and x3 x6))))))))))
-(assert (not (or (not (not x4)) (and (and x5 x0) (and x6 x7)))))
-(assert (not (not (and (and (or (not x5) (or x4 x5)) (or (and x7 x5) (or x7 x0))) (not (not (and x1 x7)))))))
-(check-sat)
-(push 1)
-(check-sat)
-(pop 1)
-(check-sat)
-(pop 1)
-(check-sat)
-(push 1)
-(assert (or (not (or x0 x6)) (not (and x1 x7))))
-(check-sat)
-(push 1)
-(assert (or (and (not x7) (not x4)) (or (not x3) (or x7 x7))))
-(assert (not (and (or (and (not (or (and (not (and (and x0 x0) (and x3 x3))) (and (and (not x3) (or x2 x5)) (not (not x0)))) (not (not (or (or x3 x5) (not x4)))))) (and (not (not (not (or (or x3 x4) (or x3 x6))))) (not (or (or (or (or x5 x1) (not x2)) (and (not x3) (and x1 x2))) (not (and (not x5) (and x1 x5))))))) (not (and (or (not (not (or (or x3 x0) (not x2)))) (and (or (or (and x2 x6) (or x5 x6)) (and (or x7 x7) (not x3))) (not (not (and x0 x7))))) (or (or (and (or (not x7) (or x0 x0)) (and (and x2 x4) (not x1))) (not (or (not x3) (and x7 x2)))) (and (not (and (or x4 x0) (not x4))) (not (or (or x5 x7) (or x5 x3)))))))) (or (not (not (and (or (and (not (or x0 x2)) (not (and x4 x1))) (or (not (and x4 x3)) (and (or x4 x0) (not x0)))) (and (or (or (not x7) (and x7 x4)) (and (and x3 x3) (or x3 x4))) (or (or (or x7 x7) (or x5 x7)) (not (not x3))))))) (not (not (or (not (not (and (and x3 x6) (not x5)))) (and (and (or (or x6 x2) (and x2 x6)) (not (or x6 x0))) (not (and (or x6 x6) (not x1)))))))))))
-(check-sat)
-(pop 1)
-(check-sat)
-(push 1)
-(assert (not (or (and (or (not x6) (and x4 x4)) (not (and x3 x3))) (and (not (or x2 x4)) (and (not x1) (or x4 x6))))))
-(check-sat)
diff --git a/test/regress/regress0/push-pop/boolean/fuzz_6.smt2 b/test/regress/regress0/push-pop/boolean/fuzz_6.smt2
deleted file mode 100644
index 14e82a48a..000000000
--- a/test/regress/regress0/push-pop/boolean/fuzz_6.smt2
+++ /dev/null
@@ -1,35 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-(set-logic QF_LIA)
-(declare-fun x0 () Bool)
-(declare-fun x1 () Bool)
-(declare-fun x2 () Bool)
-(declare-fun x3 () Bool)
-(declare-fun x4 () Bool)
-(declare-fun x5 () Bool)
-(declare-fun x6 () Bool)
-(assert (and (or (or (or (not (and (and (or (and x2 x1) (and x0 x4)) (and (and x0 x2) (not x1))) (or (not (not x3)) (not (and x6 x0))))) (and (and (or (or (and x2 x0) (and x0 x0)) (and (and x1 x6) (not x6))) (or (not (and x1 x4)) (or (or x0 x0) (or x3 x0)))) (not (or (or (and x1 x2) (and x1 x4)) (not (and x3 x2)))))) (or (or (and (and (and (or x1 x4) (not x1)) (or (not x1) (and x4 x5))) (and (not (or x3 x2)) (and (not x4) (not x6)))) (or (not (not (not x6))) (not (not (or x0 x2))))) (and (and (or (or (or x6 x3) (or x3 x1)) (not (and x4 x1))) (and (not (or x1 x3)) (or (or x3 x4) (or x4 x1)))) (or (not (or (not x0) (and x4 x5))) (not (not (or x4 x4))))))) (or (not (or (or (and (or (not x1) (and x3 x3)) (not (or x4 x0))) (and (and (not x6) (and x6 x3)) (and (not x1) (not x6)))) (or (or (not (and x5 x0)) (or (not x1) (or x3 x0))) (and (not (and x0 x0)) (and (and x5 x6) (not x2)))))) (and (not (and (not (not (not x0))) (and (or (and x2 x2) (or x1 x4)) (or (and x1 x6) (and x5 x3))))) (and (not (not (not (or x0 x0)))) (or (or (and (or x0 x2) (or x5 x2)) (not (not x2))) (not (or (and x3 x2) (or x5 x3)))))))) (or (and (or (or (not (not (or (not x6) (and x1 x2)))) (not (and (not (and x1 x3)) (and (not x2) (and x1 x4))))) (not (or (and (and (or x1 x2) (or x0 x2)) (and (or x6 x6) (and x4 x0))) (and (and (or x0 x4) (or x6 x0)) (and (and x0 x2) (or x3 x6)))))) (or (and (or (or (and (and x4 x6) (or x2 x6)) (and (not x6) (or x6 x1))) (not (not (not x3)))) (or (and (not (and x5 x2)) (or (or x5 x1) (or x4 x6))) (and (not (or x3 x4)) (or (not x2) (not x2))))) (or (or (not (not (or x1 x1))) (and (not (or x6 x4)) (and (or x6 x1) (not x5)))) (and (and (not (or x0 x0)) (and (or x0 x6) (not x6))) (or (and (not x0) (or x2 x1)) (or (and x6 x3) (not x3))))))) (not (or (not (not (or (or (and x3 x0) (and x3 x5)) (and (or x3 x0) (and x3 x0))))) (not (or (not (or (or x6 x4) (not x5))) (not (or (and x5 x2) (and x4 x4))))))))))
-(assert (or x3 x5))
-(assert (or (and (not x1) (not x6)) (not (not x6))))
-(assert (not (not (and (and (or (or (and (not (or (or x0 x4) (and x4 x1))) (and (and (or x4 x5) (or x3 x1)) (or (not x0) (or x3 x4)))) (or (or (or (or x5 x5) (or x1 x4)) (or (and x5 x6) (not x1))) (or (or (or x2 x0) (or x0 x3)) (and (or x0 x4) (or x5 x6))))) (not (or (not (not (or x0 x2))) (and (and (and x0 x1) (and x0 x5)) (not (and x6 x0)))))) (and (not (or (not (or (or x2 x3) (and x6 x6))) (and (or (not x1) (or x2 x6)) (or (and x6 x4) (and x6 x5))))) (not (not (not (and (not x5) (or x1 x4))))))) (or (not (or (not (not (or (or x4 x0) (and x2 x6)))) (and (and (not (not x0)) (not (not x2))) (not (not (and x5 x6)))))) (or (and (and (and (or (not x4) (not x1)) (and (not x3) (not x1))) (not (and (not x1) (not x0)))) (or (or (or (or x3 x3) (not x3)) (or (not x0) (and x5 x5))) (or (not (and x0 x6)) (and (and x6 x1) (or x0 x3))))) (not (or (or (and (and x1 x5) (and x3 x6)) (and (not x0) (not x4))) (and (and (and x6 x0) (or x4 x0)) (or (and x0 x4) (not x5)))))))))))
-(check-sat)
-(push 1)
-(check-sat)
-(push 1)
-(assert (and x2 x0))
-(check-sat)
-(push 1)
-(assert (and (not (and (or x3 x3) (and x6 x0))) (or (not (or x6 x4)) (or (or x1 x2) (and x4 x6)))))
-(assert (and (not (or (and (and (and x4 x2) (not x3)) (or (or x5 x6) (not x2))) (not (or (not x0) (not x4))))) (or (or (not (or (not x0) (or x2 x2))) (and (and (not x5) (not x1)) (or (not x6) (not x5)))) (and (and (not (and x2 x1)) (not (or x6 x0))) (or (not (or x0 x2)) (not (and x1 x2)))))))
-(check-sat)
-(pop 1)
-(check-sat)
-(pop 1)
-(assert (and (not (or (not (not x4)) (or (or x1 x6) (and x2 x4)))) (not (and (and (or x1 x1) (and x1 x6)) (not (not x2))))))
-(assert (not (not x3)))
-(check-sat)
diff --git a/test/regress/regress0/push-pop/boolean/fuzz_7.smt2 b/test/regress/regress0/push-pop/boolean/fuzz_7.smt2
deleted file mode 100644
index b39a6f88f..000000000
--- a/test/regress/regress0/push-pop/boolean/fuzz_7.smt2
+++ /dev/null
@@ -1,42 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-(set-logic QF_LIA)
-(declare-fun x0 () Bool)
-(declare-fun x1 () Bool)
-(declare-fun x2 () Bool)
-(declare-fun x3 () Bool)
-(declare-fun x4 () Bool)
-(declare-fun x5 () Bool)
-(declare-fun x6 () Bool)
-(declare-fun x7 () Bool)
-(declare-fun x8 () Bool)
-(declare-fun x9 () Bool)
-(assert (and (and (or (or (and (not (and (and (or x9 x6) (or x8 x9)) (not (not x2)))) (and (not (and (and x3 x1) (or x7 x0))) (or (and (or x6 x7) (not x2)) (or (or x8 x8) (not x0))))) (and (or (and (or (or x7 x5) (or x2 x8)) (not (not x3))) (and (and (and x2 x0) (and x1 x9)) (and (and x7 x5) (or x8 x5)))) (and (or (and (or x3 x6) (and x9 x4)) (or (not x8) (and x2 x6))) (not (and (not x7) (or x6 x1)))))) (not (or (or (and (and (and x6 x2) (or x5 x9)) (not (not x2))) (or (or (and x5 x0) (or x3 x0)) (or (or x6 x9) (not x5)))) (or (not (or (not x0) (or x7 x7))) (not (or (and x6 x1) (not x1))))))) (or (and (or (and (not (or (or x4 x2) (and x4 x3))) (or (not (or x1 x7)) (not (not x7)))) (or (or (or (or x3 x0) (and x0 x2)) (and (not x1) (or x3 x8))) (not (or (not x3) (or x3 x0))))) (or (not (or (and (and x3 x7) (not x2)) (or (not x6) (or x8 x9)))) (not (not (or (and x1 x2) (and x6 x3)))))) (and (or (or (not (and (not x3) (not x0))) (and (and (not x4) (and x6 x6)) (and (and x4 x1) (not x3)))) (and (and (or (or x9 x9) (not x5)) (or (and x3 x0) (and x3 x2))) (not (or (not x9) (not x7))))) (or (or (or (or (not x4) (and x0 x2)) (not (or x1 x7))) (and (and (or x1 x8) (and x1 x1)) (and (or x7 x7) (or x0 x1)))) (and (and (not (not x3)) (or (or x2 x0) (not x4))) (and (not (not x8)) (or (and x0 x0) (not x8)))))))) (or (not (or (and (and (not (not (and x1 x2))) (and (not (not x5)) (or (not x9) (and x2 x8)))) (and (or (or (or x7 x1) (not x7)) (not (not x8))) (or (not (and x9 x9)) (or (not x3) (and x0 x0))))) (and (not (not (not (and x6 x6)))) (or (or (and (or x6 x6) (and x0 x9)) (not (not x1))) (or (or (not x2) (or x3 x5)) (or (or x7 x5) (and x1 x0))))))) (not (not (or (or (not (and (and x9 x4) (not x7))) (and (not (and x3 x7)) (and (and x4 x4) (and x1 x0)))) (and (and (and (or x3 x7) (or x5 x7)) (not (not x3))) (not (or (not x7) (or x6 x4))))))))))
-(check-sat)
-(push 1)
-(assert (not (or (or (and x3 x8) (or x4 x0)) (and (not x9) (and x6 x8)))))
-(assert (not (and (and (or (or x9 x5) (and x4 x3)) (not (and x2 x9))) (and (or (and x3 x4) (not x4)) (and (and x0 x3) (or x6 x2))))))
-(check-sat)
-(pop 1)
-(check-sat)
-(push 1)
-(assert (or (or (or (not x4) (and x9 x9)) (or (or x1 x5) (not x4))) (or (and (or x6 x0) (not x3)) (and (or x8 x7) (or x4 x4)))))
-(check-sat)
-(push 1)
-(assert (or (and (and x9 x7) (or x8 x2)) (or (not x9) (or x6 x0))))
-(check-sat)
-(pop 1)
-(assert (and (not (not (not (and (not (or (not x4) (not x2))) (and (and (and x3 x1) (and x0 x0)) (or (not x2) (not x4))))))) (or (or (not (or (not (not (and x9 x0))) (and (and (not x0) (and x4 x4)) (or (not x0) (not x7))))) (or (or (not (not (and x8 x1))) (or (or (and x1 x3) (and x4 x4)) (or (not x6) (not x7)))) (and (not (and (not x5) (not x1))) (not (and (not x1) (not x2)))))) (or (not (and (and (and (or x0 x8) (not x5)) (not (or x0 x8))) (not (not (not x1))))) (or (not (and (or (and x3 x2) (and x7 x2)) (and (or x6 x8) (not x1)))) (and (and (or (and x0 x6) (and x5 x4)) (and (and x0 x6) (and x1 x0))) (or (or (not x7) (and x2 x3)) (not (or x2 x9)))))))))
-(check-sat)
-(push 1)
-(assert (and (or (and (not (not (and (and x0 x4) (and x6 x4)))) (not (not (and (not x5) (not x9))))) (not (and (or (or (or x0 x1) (or x5 x5)) (not (not x6))) (and (or (and x2 x3) (and x3 x7)) (not (and x3 x3)))))) (or (not (not (or (not (not x8)) (and (not x7) (not x8))))) (not (or (not (not (or x8 x4))) (and (not (or x7 x6)) (not (and x5 x5))))))))
-(assert (not (or (and (and (or (or (or (and (not x4) (not x8)) (not (not x2))) (not (and (not x8) (or x6 x2)))) (not (not (or (and x7 x6) (and x0 x4))))) (or (or (not (not (and x3 x7))) (or (not (not x1)) (not (not x8)))) (and (not (or (not x6) (and x6 x8))) (or (and (not x4) (not x6)) (or (or x3 x1) (and x8 x3)))))) (or (and (not (or (not (and x7 x6)) (and (not x7) (and x5 x7)))) (not (and (not (and x6 x8)) (and (not x8) (not x5))))) (not (and (or (or (or x4 x0) (not x6)) (and (not x3) (not x8))) (not (and (not x1) (and x4 x9))))))) (and (or (and (and (and (and (and x9 x1) (not x9)) (or (or x5 x5) (not x7))) (or (and (not x5) (not x8)) (not (and x0 x1)))) (or (or (or (not x4) (or x1 x6)) (or (or x2 x0) (not x5))) (or (not (not x7)) (not (not x5))))) (or (and (not (or (and x1 x3) (or x1 x7))) (or (or (not x0) (not x6)) (or (not x9) (and x0 x0)))) (and (or (or (or x8 x1) (or x5 x8)) (or (or x1 x7) (and x2 x2))) (not (and (and x5 x9) (and x5 x8)))))) (or (not (and (and (and (or x4 x2) (and x8 x5)) (not (and x2 x2))) (not (not (not x3))))) (and (and (or (or (and x3 x3) (not x2)) (not (or x2 x6))) (or (and (and x9 x1) (not x1)) (not (and x6 x8)))) (not (not (or (not x2) (or x4 x1))))))))))
-(assert (and (not x4) (not x3)))
-(assert (and (or x8 x9) (not x1)))
-(check-sat)
diff --git a/test/regress/regress0/push-pop/boolean/fuzz_8.smt2 b/test/regress/regress0/push-pop/boolean/fuzz_8.smt2
deleted file mode 100644
index a12773352..000000000
--- a/test/regress/regress0/push-pop/boolean/fuzz_8.smt2
+++ /dev/null
@@ -1,45 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: sat
-(set-logic QF_LIA)
-(declare-fun x0 () Bool)
-(declare-fun x1 () Bool)
-(declare-fun x2 () Bool)
-(declare-fun x3 () Bool)
-(declare-fun x4 () Bool)
-(declare-fun x5 () Bool)
-(check-sat)
-(push 1)
-(assert (or (or (and (and (and (not (and (or (not (or x1 x0)) (not (and x4 x3))) (and (or (not x1) (and x1 x5)) (or (and x4 x5) (and x0 x2))))) (and (and (or (and (or x5 x0) (not x2)) (or (not x1) (or x5 x0))) (not (or (or x3 x2) (and x2 x1)))) (and (or (not (not x0)) (and (or x1 x0) (not x4))) (and (not (or x1 x5)) (or (and x0 x2) (or x5 x3)))))) (not (not (or (or (not (not x3)) (or (or x0 x3) (or x4 x5))) (or (not (not x5)) (and (and x3 x1) (or x0 x5))))))) (not (or (and (not (or (not (or x0 x5)) (or (and x1 x0) (and x2 x4)))) (not (not (and (and x0 x0) (and x0 x4))))) (not (and (and (not (and x1 x2)) (or (or x2 x0) (or x3 x4))) (not (or (not x4) (not x2)))))))) (and (and (and (or (not (or (or (or x5 x1) (not x5)) (or (and x2 x0) (not x4)))) (or (or (or (and x4 x3) (not x0)) (not (or x2 x5))) (not (or (or x4 x1) (and x5 x3))))) (not (and (not (not (or x3 x1))) (not (and (and x3 x1) (not x2)))))) (not (or (or (not (and (not x5) (and x2 x5))) (not (and (or x3 x2) (or x4 x2)))) (and (and (and (not x2) (not x4)) (or (and x0 x4) (or x2 x1))) (and (not (or x0 x3)) (and (and x3 x3) (and x4 x5))))))) (or (and (or (and (or (not (or x2 x5)) (not (not x2))) (or (or (not x1) (not x2)) (or (and x5 x5) (not x2)))) (or (and (and (and x3 x2) (and x0 x1)) (not (not x5))) (not (or (and x4 x0) (and x0 x4))))) (not (or (or (not (not x4)) (or (not x3) (or x2 x4))) (not (or (not x0) (and x2 x0)))))) (or (and (or (not (and (and x1 x2) (not x3))) (and (or (not x1) (or x3 x4)) (not (or x4 x0)))) (not (or (and (and x1 x5) (and x0 x1)) (not (or x2 x0))))) (not (or (not (and (or x4 x5) (not x2))) (or (and (or x0 x3) (or x4 x1)) (and (or x5 x0) (not x4))))))))) (not (and (and (or (and (and (or (not (not x4)) (and (and x4 x0) (and x4 x2))) (and (or (or x5 x4) (and x3 x5)) (or (and x2 x4) (and x1 x3)))) (or (not (and (and x2 x5) (and x4 x3))) (or (not (not x3)) (and (and x3 x3) (and x1 x2))))) (or (not (or (not (not x2)) (not (or x3 x1)))) (and (and (or (or x1 x2) (not x2)) (and (or x0 x5) (and x1 x3))) (not (not (and x5 x0)))))) (or (not (or (and (or (and x3 x3) (not x5)) (and (not x4) (and x2 x5))) (not (or (not x3) (or x0 x0))))) (and (and (and (not (and x3 x1)) (not (and x4 x0))) (or (and (not x1) (and x1 x0)) (or (or x5 x3) (and x2 x2)))) (and (not (or (not x2) (and x4 x2))) (not (and (or x3 x5) (or x1 x1))))))) (and (and (or (or (or (not (and x1 x4)) (or (and x1 x1) (and x3 x5))) (or (or (and x4 x4) (or x4 x4)) (and (and x5 x4) (not x1)))) (or (or (not (and x0 x3)) (and (or x3 x2) (or x1 x3))) (and (or (and x0 x2) (or x5 x4)) (not (and x2 x4))))) (or (or (or (not (or x2 x3)) (and (or x2 x3) (or x4 x3))) (and (and (or x1 x2) (and x1 x1)) (not (or x4 x5)))) (and (or (or (and x5 x1) (not x1)) (and (or x3 x5) (not x0))) (and (not (not x5)) (not (and x4 x5)))))) (not (and (and (and (or (and x2 x2) (and x2 x3)) (not (or x3 x0))) (or (not (not x1)) (or (and x4 x2) (not x3)))) (and (or (or (or x4 x3) (or x3 x3)) (not (and x2 x2))) (or (and (and x1 x1) (or x2 x5)) (and (and x2 x3) (not x3)))))))))))
-(assert (and (not (not (not (or (and (and (not (and (not x5) (or x1 x1))) (not (or (or x2 x4) (not x0)))) (and (and (and (or x1 x4) (not x3)) (or (and x5 x0) (and x1 x0))) (not (not (not x4))))) (not (not (not (not (not x5))))))))) (not (or (not (and (not (not (not (and (and x0 x3) (or x5 x0))))) (and (and (not (and (and x4 x3) (or x1 x3))) (or (and (and x5 x0) (or x2 x0)) (or (and x4 x2) (and x0 x3)))) (or (or (and (and x3 x4) (or x0 x1)) (or (and x5 x0) (not x1))) (and (not (or x2 x5)) (and (not x1) (and x0 x1))))))) (not (or (not (or (and (or (and x0 x2) (and x5 x3)) (and (and x0 x3) (not x4))) (or (and (not x2) (not x0)) (and (or x2 x1) (not x1))))) (not (not (and (not (not x3)) (or (or x4 x0) (not x1)))))))))))
-(check-sat)
-(push 1)
-(assert (not (not (not (or (or (or x3 x5) (or x2 x0)) (or (or x3 x4) (or x2 x4)))))))
-(assert (and (and (or (not x5) (or x0 x3)) (or (and x2 x0) (or x0 x1))) (not (or (not x1) (and x4 x0)))))
-(assert (or (not (or x4 x0)) (and (or x1 x3) (and x5 x3))))
-(check-sat)
-(pop 1)
-(check-sat)
-(push 1)
-(assert (or (not (or (not (not x1)) (and (or x5 x4) (and x3 x4)))) (not (not (not (and x3 x2))))))
-(assert (not (not (and x2 x4))))
-(check-sat)
-(push 1)
-(assert (and x3 x3))
-(assert (not (and (not x1) (and x0 x5))))
-(assert (not (and (not (or (and (and (or x2 x1) (not x3)) (and (not x2) (or x1 x1))) (and (and (not x4) (not x5)) (not (not x4))))) (not (or (and (and (not x5) (and x2 x0)) (or (and x3 x5) (or x0 x3))) (not (or (or x2 x4) (not x1))))))))
-(check-sat)
-(pop 1)
-(assert (not (or (or (or (not x0) (not x5)) (or (and x3 x5) (not x0))) (and (not (and x2 x0)) (and (not x1) (not x1))))))
-(assert (or (not x4) (or x3 x4)))
-(assert (not (not (and (and (and x1 x4) (not x4)) (or (or x4 x3) (and x0 x2))))))
-(check-sat)
-(pop 1)
-(assert (not x1))
-(check-sat)
diff --git a/test/regress/regress0/push-pop/boolean/fuzz_9.smt2 b/test/regress/regress0/push-pop/boolean/fuzz_9.smt2
deleted file mode 100644
index 3ed852966..000000000
--- a/test/regress/regress0/push-pop/boolean/fuzz_9.smt2
+++ /dev/null
@@ -1,55 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: sat
-(set-logic QF_LIA)
-(declare-fun x0 () Bool)
-(declare-fun x1 () Bool)
-(declare-fun x2 () Bool)
-(declare-fun x3 () Bool)
-(declare-fun x4 () Bool)
-(declare-fun x5 () Bool)
-(declare-fun x6 () Bool)
-(declare-fun x7 () Bool)
-(declare-fun x8 () Bool)
-(assert (or (or (not (or (or (not (or (and x4 x4) (not x7))) (not (and (and x5 x7) (not x7)))) (and (and (and (and x6 x6) (not x0)) (not (or x3 x1))) (and (or (not x1) (and x5 x3)) (or (or x7 x6) (not x4)))))) (not (or (or (or (not (or x3 x7)) (not (and x2 x8))) (and (not (not x1)) (or (and x0 x3) (or x2 x5)))) (or (or (or (and x8 x1) (or x3 x0)) (and (not x5) (and x8 x6))) (not (not (and x2 x5))))))) (not (not (and (not (or (or (not x7) (and x8 x2)) (not (or x6 x3)))) (not (and (not (and x8 x3)) (or (not x3) (or x8 x2)))))))))
-(check-sat)
-(push 1)
-(assert (and (and (or (or (and (and (or x1 x5) (not x8)) (and (not x8) (and x0 x8))) (or (or (and x0 x3) (and x0 x6)) (and (or x7 x7) (and x7 x0)))) (or (and (or (and x8 x7) (or x3 x2)) (not (not x7))) (not (and (not x8) (not x5))))) (or (or (and (and (or x2 x6) (or x7 x4)) (and (or x4 x3) (not x5))) (and (or (not x2) (or x2 x7)) (not (and x8 x7)))) (and (and (and (and x5 x4) (not x3)) (not (not x8))) (or (and (or x6 x1) (or x0 x7)) (not (and x8 x4)))))) (and (not (and (or (not (or x5 x5)) (and (and x6 x3) (or x0 x0))) (and (not (or x0 x0)) (and (not x6) (and x8 x6))))) (or (and (not (not (and x3 x8))) (or (not (not x0)) (and (and x5 x6) (or x0 x4)))) (or (and (and (not x2) (not x0)) (and (and x4 x2) (or x1 x6))) (or (and (not x5) (not x8)) (not (and x5 x3))))))))
-(check-sat)
-(push 1)
-(assert (and (or x7 x5) (and x2 x6)))
-(check-sat)
-(push 1)
-(check-sat)
-(push 1)
-(assert (not (and x1 x6)))
-(assert (or x7 x7))
-(assert (not (or x0 x7)))
-(check-sat)
-(push 1)
-(assert (and (not (or (or (and x6 x2) (or x2 x8)) (or (and x7 x3) (or x2 x5)))) (and (or (not (not x4)) (and (not x4) (not x2))) (not (not (or x1 x7))))))
-(assert (not (and (or (and (and (not (and x6 x1)) (or (and x5 x3) (or x3 x1))) (or (or (not x2) (or x0 x1)) (not (or x7 x5)))) (not (or (not (not x8)) (and (not x4) (and x5 x8))))) (not (or (or (or (or x1 x1) (and x2 x3)) (and (and x5 x8) (not x7))) (and (not (or x5 x8)) (or (not x5) (and x2 x2))))))))
-(assert (not x4))
-(assert (not (and (not (or (not (or (not (or x8 x1)) (or (not x6) (not x4)))) (or (or (and (and x0 x7) (or x2 x7)) (or (or x7 x3) (and x5 x2))) (or (or (and x7 x0) (and x1 x1)) (and (not x7) (or x6 x7)))))) (or (and (and (and (not (not x0)) (and (or x7 x4) (or x3 x6))) (not (not (not x6)))) (or (or (and (and x1 x5) (or x7 x5)) (not (and x2 x3))) (not (or (not x8) (and x1 x8))))) (not (and (not (and (not x8) (and x1 x6))) (or (and (and x0 x0) (not x0)) (not (not x7)))))))))
-(assert (or x1 x2))
-(check-sat)
-(pop 1)
-(check-sat)
-(pop 1)
-(assert (not (and (not (and (not x5) (not x7))) (and (or (not x1) (and x4 x1)) (not (and x5 x8))))))
-(assert (not (and (or (and (not (and (and (not (or (not x5) (and x4 x7))) (and (and (and x6 x1) (not x3)) (not (and x5 x1)))) (and (or (or (or x7 x2) (or x2 x6)) (not (not x2))) (and (and (not x6) (and x4 x8)) (and (not x5) (or x1 x6)))))) (or (not (or (not (and (and x3 x5) (or x7 x3))) (or (not (not x7)) (not (not x0))))) (or (not (not (and (or x3 x6) (and x6 x2)))) (or (not (or (or x7 x3) (not x5))) (or (or (and x1 x2) (and x4 x2)) (not (not x7))))))) (and (not (not (or (not (or (not x0) (not x4))) (or (and (and x3 x2) (and x8 x3)) (and (not x1) (not x6)))))) (not (not (or (or (and (or x8 x3) (not x8)) (or (or x7 x5) (or x7 x7))) (and (or (or x4 x4) (or x3 x3)) (and (not x8) (not x7)))))))) (and (not (or (not (or (or (not (and x4 x4)) (or (and x5 x8) (or x5 x4))) (not (not (and x6 x3))))) (not (or (or (or (not x3) (or x5 x2)) (not (not x0))) (and (or (or x6 x4) (and x0 x3)) (and (not x2) (not x0))))))) (and (not (not (or (or (or (or x6 x6) (and x6 x8)) (or (or x1 x5) (or x8 x4))) (and (and (not x6) (or x8 x0)) (not (or x0 x5)))))) (or (not (not (or (or (not x0) (and x3 x4)) (or (and x3 x3) (not x2))))) (and (or (or (or (not x1) (not x0)) (not (or x0 x2))) (and (and (and x8 x7) (and x8 x2)) (or (or x7 x4) (and x1 x3)))) (or (or (or (or x8 x1) (or x8 x6)) (not (not x6))) (or (or (and x8 x7) (or x4 x6)) (and (not x3) (and x0 x0)))))))))))
-(check-sat)
-(pop 1)
-(check-sat)
-(pop 1)
-(assert (not (and (and x7 x2) (or x4 x6))))
-(check-sat)
-(push 1)
diff --git a/test/regress/regress0/push-pop/bug-fmf-fun-skolem.smt2 b/test/regress/regress0/push-pop/bug-fmf-fun-skolem.smt2
deleted file mode 100644
index 229a5e17a..000000000
--- a/test/regress/regress0/push-pop/bug-fmf-fun-skolem.smt2
+++ /dev/null
@@ -1,25 +0,0 @@
-; COMMAND-LINE: --incremental --fmf-fun
-(set-logic ALL_SUPPORTED)
-(declare-datatypes ((Lst 0)) (((cons (head Int) (tail Lst)) (nil))))
-(define-fun-rec sum ((l Lst)) Int (ite (is-nil l) 0 (+ (head l) (sum (tail l)))))
-
-(declare-fun input () Int)
-(declare-fun p () Bool)
-(declare-fun acc () Lst)
-(assert (and (= acc (ite (>= input 0) (cons input nil) nil))
-             (= p (>= (sum acc) 0))))
-
-
-; EXPECT: unsat
-(push 1)
-(assert (not p))
-(check-sat)
-(pop 1)
-
-; EXPECT: unsat
-(push 1)
-(assert (not p))
-(check-sat)
-(pop 1)
-
-
diff --git a/test/regress/regress0/push-pop/bug216.smt2 b/test/regress/regress0/push-pop/bug216.smt2
deleted file mode 100644
index 78e0f716c..000000000
--- a/test/regress/regress0/push-pop/bug216.smt2
+++ /dev/null
@@ -1,8 +0,0 @@
-(set-logic QF_UF)
-(declare-fun x () Bool)
-(declare-fun y () Bool)
-(assert (=> x y))
-(check-sat) ; returns sat
-(assert (=> y x))
-(assert (and x (not y)))
-(check-sat) ; returns sat --> ERROR
diff --git a/test/regress/regress0/push-pop/bug216.smt2.expect b/test/regress/regress0/push-pop/bug216.smt2.expect
deleted file mode 100644
index fe118171a..000000000
--- a/test/regress/regress0/push-pop/bug216.smt2.expect
+++ /dev/null
@@ -1,3 +0,0 @@
-% COMMAND-LINE: --incremental
-% EXPECT: sat
-% EXPECT: unsat
diff --git a/test/regress/regress0/push-pop/bug326.smt2 b/test/regress/regress0/push-pop/bug326.smt2
deleted file mode 100644
index f1506b3e8..000000000
--- a/test/regress/regress0/push-pop/bug326.smt2
+++ /dev/null
@@ -1,41 +0,0 @@
-; COMMAND-LINE: --incremental --rewrite-rules
-
-(set-logic AUFLIA)
-
-(declare-fun R (Int Int) Bool)
-
-;; reflexive
-(assert-rewrite ((x Int)) () () (R x x) true)
-
-;; anti-symmetric
-(assert-reduction ((x Int) (y Int)) () () ((R x y) (R y x)) (= x y))
-
-;; transitive
-(assert-propagation ((x Int) (y Int) (z Int)) () () ((R x y) (R y z)) (R x z))
-
-
-(declare-fun e1 () Int)
-(declare-fun e2 () Int)
-(declare-fun e3 () Int)
-(declare-fun e4 () Int)
-
-; EXPECT: unsat
-(push);;unsat
-(assert (not (=> (and (R e1 e2) (R e2 e4) (R e1 e3) (R e3 e4) (= e1 e4)) (= e2 e3))))
-(check-sat)
-(pop)
-
-; EXPECT: unsat
-(push);;unsat
-(assert (not (=> (and (R e1 e2) (R e1 e3) (or (R e2 e4) (R e3 e4)) ) (R e1 e4))))
-(check-sat)
-(pop)
-
-; EXPECT: sat
-(push);;sat
-(assert (and (not (R e1 e3)) (R e4 e1)))
-(check-sat)
-(pop)
-
-
-(exit)
diff --git a/test/regress/regress0/push-pop/bug396.smt2 b/test/regress/regress0/push-pop/bug396.smt2
deleted file mode 100644
index 8e93cf447..000000000
--- a/test/regress/regress0/push-pop/bug396.smt2
+++ /dev/null
@@ -1,3294 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: sat
-; EXPECT: unsat
-; EXPECT: unsat
-; EXPECT: unsat
-;(set-option :produce-unsat-cores true)
-(set-option :print-success false)
-(set-info :smt-lib-version 2.0)
-;(set-option :produce-models true)
-(set-logic ALL_SUPPORTED)
-; done setting options
-
-; Boogie universal background predicate
-; Copyright (c) 2004-2010, Microsoft Corp.
-(set-info :category "industrial")
-(declare-sort |T@U| 0)
-(declare-sort |T@T| 0)
-(declare-fun int_div (Int Int) Int)
-(declare-fun int_mod (Int Int) Int)
-(declare-fun UOrdering2 (|T@U| |T@U|) Bool)
-(declare-fun UOrdering3 (|T@T| |T@U| |T@U|) Bool)
-
-(declare-fun group_size_y () (_ BitVec 32))
-(declare-fun group_size_z () (_ BitVec 32))
-(declare-fun num_groups_y () (_ BitVec 32))
-(declare-fun num_groups_z () (_ BitVec 32))
-(declare-fun group_size_x () (_ BitVec 32))
-(declare-fun num_groups_x () (_ BitVec 32))
-(declare-fun ControlFlow (Int Int) Int)
-(declare-fun %lbl%+8971 () Bool)
-(declare-fun call3746formal@_offset$2@0 () (_ BitVec 32))
-(declare-fun v1$2@0 () (_ BitVec 32))
-(declare-fun %lbl%@30054 () Bool)
-(declare-fun _P$2 () Bool)
-(declare-fun _WRITE_HAS_OCCURRED_$$newVelocity$1@3 () Bool)
-(declare-fun _WRITE_OFFSET_$$newVelocity$1@3 () (_ BitVec 32))
-(declare-fun %lbl%@30066 () Bool)
-(declare-fun _READ_HAS_OCCURRED_$$newVelocity$1 () Bool)
-(declare-fun _READ_OFFSET_$$newVelocity$1 () (_ BitVec 32))
-(declare-fun %lbl%+8965 () Bool)
-(declare-fun _P$1 () Bool)
-(declare-fun inline$_LOG_WRITE_$$newVelocity$3$track@0 () Bool)
-(declare-fun _WRITE_HAS_OCCURRED_$$newVelocity$1@2 () Bool)
-(declare-fun inline$_LOG_WRITE_$$newVelocity$3$_offset$1@0 () (_ BitVec 32))
-(declare-fun _WRITE_OFFSET_$$newVelocity$1@2 () (_ BitVec 32))
-(declare-fun _WRITE_SOURCE_$$newVelocity$1@3 () (_ BitVec 32))
-(declare-fun _WRITE_SOURCE_$$newVelocity$1@2 () (_ BitVec 32))
-(declare-fun %lbl%+8963 () Bool)
-(declare-fun v1$1@0 () (_ BitVec 32))
-(declare-fun %lbl%+8969 () Bool)
-(declare-fun call3709formal@_offset$2@0 () (_ BitVec 32))
-(declare-fun %lbl%@29931 () Bool)
-(declare-fun %lbl%@29943 () Bool)
-(declare-fun %lbl%@29957 () Bool)
-(declare-fun %lbl%+8883 () Bool)
-(declare-fun inline$_LOG_WRITE_$$newVelocity$2$track@0 () Bool)
-(declare-fun _WRITE_HAS_OCCURRED_$$newVelocity$1@1 () Bool)
-(declare-fun inline$_LOG_WRITE_$$newVelocity$2$_offset$1@0 () (_ BitVec 32))
-(declare-fun _WRITE_OFFSET_$$newVelocity$1@1 () (_ BitVec 32))
-(declare-fun _WRITE_SOURCE_$$newVelocity$1@1 () (_ BitVec 32))
-(declare-fun %lbl%+8881 () Bool)
-(declare-fun %lbl%+8887 () Bool)
-(declare-fun call3672formal@_offset$2@0 () (_ BitVec 32))
-(declare-fun %lbl%@29808 () Bool)
-(declare-fun %lbl%@29820 () Bool)
-(declare-fun %lbl%@29834 () Bool)
-(declare-fun %lbl%+8801 () Bool)
-(declare-fun inline$_LOG_WRITE_$$newVelocity$1$track@0 () Bool)
-(declare-fun _WRITE_HAS_OCCURRED_$$newVelocity$1@0 () Bool)
-(declare-fun inline$_LOG_WRITE_$$newVelocity$1$_offset$1@0 () (_ BitVec 32))
-(declare-fun _WRITE_OFFSET_$$newVelocity$1@0 () (_ BitVec 32))
-(declare-fun _WRITE_SOURCE_$$newVelocity$1@0 () (_ BitVec 32))
-(declare-fun %lbl%+8799 () Bool)
-(declare-fun %lbl%+8805 () Bool)
-(declare-fun call3635formal@_offset$2@0 () (_ BitVec 32))
-(declare-fun %lbl%@29685 () Bool)
-(declare-fun %lbl%@29697 () Bool)
-(declare-fun %lbl%@29711 () Bool)
-(declare-fun %lbl%+8719 () Bool)
-(declare-fun inline$_LOG_WRITE_$$newVelocity$0$track@0 () Bool)
-(declare-fun _WRITE_HAS_OCCURRED_$$newVelocity$1 () Bool)
-(declare-fun inline$_LOG_WRITE_$$newVelocity$0$_offset$1@0 () (_ BitVec 32))
-(declare-fun _WRITE_OFFSET_$$newVelocity$1 () (_ BitVec 32))
-(declare-fun _WRITE_SOURCE_$$newVelocity$1 () (_ BitVec 32))
-(declare-fun %lbl%+8717 () Bool)
-(declare-fun %lbl%+8723 () Bool)
-(declare-fun call3604formal@_offset$2@0 () (_ BitVec 32))
-(declare-fun %lbl%@29564 () Bool)
-(declare-fun _WRITE_HAS_OCCURRED_$$newPosition$1@3 () Bool)
-(declare-fun _WRITE_OFFSET_$$newPosition$1@3 () (_ BitVec 32))
-(declare-fun %lbl%@29576 () Bool)
-(declare-fun _READ_HAS_OCCURRED_$$newPosition$1 () Bool)
-(declare-fun _READ_OFFSET_$$newPosition$1 () (_ BitVec 32))
-(declare-fun %lbl%@29590 () Bool)
-(declare-fun %lbl%+8637 () Bool)
-(declare-fun inline$_LOG_WRITE_$$newPosition$3$track@0 () Bool)
-(declare-fun _WRITE_HAS_OCCURRED_$$newPosition$1@2 () Bool)
-(declare-fun inline$_LOG_WRITE_$$newPosition$3$_offset$1@0 () (_ BitVec 32))
-(declare-fun _WRITE_OFFSET_$$newPosition$1@2 () (_ BitVec 32))
-(declare-fun _WRITE_SOURCE_$$newPosition$1@3 () (_ BitVec 32))
-(declare-fun _WRITE_SOURCE_$$newPosition$1@2 () (_ BitVec 32))
-(declare-fun %lbl%+8635 () Bool)
-(declare-fun %lbl%+8641 () Bool)
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-(declare-fun %lbl%+7030 () Bool)
-(declare-fun %lbl%+7002 () Bool)
-(declare-fun %lbl%@23449 () Bool)
-(declare-fun %lbl%+7034 () Bool)
-(declare-fun call2152formal@_offset$2@0 () (_ BitVec 32))
-(declare-fun v0$2@0 () (_ BitVec 32))
-(declare-fun %lbl%@23317 () Bool)
-(declare-fun %lbl%@23353 () Bool)
-(declare-fun %lbl%+6495 () Bool)
-(declare-fun inline$_LOG_WRITE_$$localPos$3$track@1 () Bool)
-(declare-fun _WRITE_HAS_OCCURRED_$$localPos$1@3 () Bool)
-(declare-fun inline$_LOG_WRITE_$$localPos$3$_offset$1@1 () (_ BitVec 32))
-(declare-fun _WRITE_OFFSET_$$localPos$1@3 () (_ BitVec 32))
-(declare-fun _WRITE_SOURCE_$$localPos$1@3 () (_ BitVec 32))
-(declare-fun %lbl%+6493 () Bool)
-(declare-fun v0$1@0 () (_ BitVec 32))
-(declare-fun %lbl%+6499 () Bool)
-(declare-fun call2115formal@_offset$2@0 () (_ BitVec 32))
-(declare-fun %lbl%@23151 () Bool)
-(declare-fun %lbl%@23187 () Bool)
-(declare-fun %lbl%@23223 () Bool)
-(declare-fun %lbl%+6413 () Bool)
-(declare-fun inline$_LOG_WRITE_$$localPos$2$track@1 () Bool)
-(declare-fun _WRITE_HAS_OCCURRED_$$localPos$1@2 () Bool)
-(declare-fun inline$_LOG_WRITE_$$localPos$2$_offset$1@1 () (_ BitVec 32))
-(declare-fun _WRITE_OFFSET_$$localPos$1@2 () (_ BitVec 32))
-(declare-fun _WRITE_SOURCE_$$localPos$1@2 () (_ BitVec 32))
-(declare-fun %lbl%+6411 () Bool)
-(declare-fun %lbl%+6417 () Bool)
-(declare-fun call2078formal@_offset$2@0 () (_ BitVec 32))
-(declare-fun %lbl%@22985 () Bool)
-(declare-fun %lbl%@23021 () Bool)
-(declare-fun %lbl%@23057 () Bool)
-(declare-fun %lbl%+6331 () Bool)
-(declare-fun inline$_LOG_WRITE_$$localPos$1$track@1 () Bool)
-(declare-fun _WRITE_HAS_OCCURRED_$$localPos$1@1 () Bool)
-(declare-fun inline$_LOG_WRITE_$$localPos$1$_offset$1@1 () (_ BitVec 32))
-(declare-fun _WRITE_OFFSET_$$localPos$1@1 () (_ BitVec 32))
-(declare-fun _WRITE_SOURCE_$$localPos$1@1 () (_ BitVec 32))
-(declare-fun %lbl%+6329 () Bool)
-(declare-fun %lbl%+6335 () Bool)
-(declare-fun call2041formal@_offset$2@0 () (_ BitVec 32))
-(declare-fun %lbl%@22819 () Bool)
-(declare-fun %lbl%@22855 () Bool)
-(declare-fun %lbl%@22891 () Bool)
-(declare-fun %lbl%+6249 () Bool)
-(declare-fun inline$_LOG_WRITE_$$localPos$0$track@1 () Bool)
-(declare-fun _WRITE_HAS_OCCURRED_$$localPos$1@0 () Bool)
-(declare-fun inline$_LOG_WRITE_$$localPos$0$_offset$1@1 () (_ BitVec 32))
-(declare-fun _WRITE_OFFSET_$$localPos$1@0 () (_ BitVec 32))
-(declare-fun _WRITE_SOURCE_$$localPos$1@0 () (_ BitVec 32))
-(declare-fun %lbl%+6247 () Bool)
-(declare-fun %lbl%+6253 () Bool)
-(declare-fun call2010formal@_offset$2@0 () (_ BitVec 32))
-(declare-fun %lbl%@22719 () Bool)
-(declare-fun _WRITE_OFFSET_$$pos$1 () (_ BitVec 32))
-(declare-fun %lbl%@22733 () Bool)
-(declare-fun %lbl%+6167 () Bool)
-(declare-fun inline$_LOG_READ_$$pos$7$track@1 () Bool)
-(declare-fun _READ_HAS_OCCURRED_$$pos$1@7 () Bool)
-(declare-fun inline$_LOG_READ_$$pos$7$_offset$1@1 () (_ BitVec 32))
-(declare-fun _READ_OFFSET_$$pos$1@7 () (_ BitVec 32))
-(declare-fun _READ_SOURCE_$$pos$1@7 () (_ BitVec 32))
-(declare-fun %lbl%+6165 () Bool)
-(declare-fun %lbl%+6171 () Bool)
-(declare-fun call1945formal@_offset$2@0 () (_ BitVec 32))
-(declare-fun %lbl%@22572 () Bool)
-(declare-fun %lbl%@22586 () Bool)
-(declare-fun v11$1@1 () (_ BitVec 32))
-(declare-fun _HAVOC_bv32$1@8 () (_ BitVec 32))
-(declare-fun v11$1@0 () (_ BitVec 32))
-(declare-fun v11$2@1 () (_ BitVec 32))
-(declare-fun _HAVOC_bv32$2@8 () (_ BitVec 32))
-(declare-fun v11$2@0 () (_ BitVec 32))
-(declare-fun %lbl%+6085 () Bool)
-(declare-fun inline$_LOG_READ_$$pos$6$track@1 () Bool)
-(declare-fun _READ_HAS_OCCURRED_$$pos$1@6 () Bool)
-(declare-fun inline$_LOG_READ_$$pos$6$_offset$1@1 () (_ BitVec 32))
-(declare-fun _READ_OFFSET_$$pos$1@6 () (_ BitVec 32))
-(declare-fun _READ_SOURCE_$$pos$1@6 () (_ BitVec 32))
-(declare-fun %lbl%+6083 () Bool)
-(declare-fun %lbl%+6089 () Bool)
-(declare-fun call1880formal@_offset$2@0 () (_ BitVec 32))
-(declare-fun %lbl%@22425 () Bool)
-(declare-fun %lbl%@22439 () Bool)
-(declare-fun v10$1@1 () (_ BitVec 32))
-(declare-fun _HAVOC_bv32$1@7 () (_ BitVec 32))
-(declare-fun v10$1@0 () (_ BitVec 32))
-(declare-fun v10$2@1 () (_ BitVec 32))
-(declare-fun _HAVOC_bv32$2@7 () (_ BitVec 32))
-(declare-fun v10$2@0 () (_ BitVec 32))
-(declare-fun %lbl%+6003 () Bool)
-(declare-fun inline$_LOG_READ_$$pos$5$track@1 () Bool)
-(declare-fun _READ_HAS_OCCURRED_$$pos$1@5 () Bool)
-(declare-fun inline$_LOG_READ_$$pos$5$_offset$1@1 () (_ BitVec 32))
-(declare-fun _READ_OFFSET_$$pos$1@5 () (_ BitVec 32))
-(declare-fun _READ_SOURCE_$$pos$1@5 () (_ BitVec 32))
-(declare-fun %lbl%+6001 () Bool)
-(declare-fun %lbl%+6007 () Bool)
-(declare-fun call1815formal@_offset$2@0 () (_ BitVec 32))
-(declare-fun %lbl%@22278 () Bool)
-(declare-fun %lbl%@22292 () Bool)
-(declare-fun v9$1@1 () (_ BitVec 32))
-(declare-fun _HAVOC_bv32$1@6 () (_ BitVec 32))
-(declare-fun v9$1@0 () (_ BitVec 32))
-(declare-fun v9$2@1 () (_ BitVec 32))
-(declare-fun _HAVOC_bv32$2@6 () (_ BitVec 32))
-(declare-fun v9$2@0 () (_ BitVec 32))
-(declare-fun %lbl%+5921 () Bool)
-(declare-fun inline$_LOG_READ_$$pos$4$track@1 () Bool)
-(declare-fun _READ_HAS_OCCURRED_$$pos$1@4 () Bool)
-(declare-fun inline$_LOG_READ_$$pos$4$_offset$1@1 () (_ BitVec 32))
-(declare-fun _READ_OFFSET_$$pos$1@4 () (_ BitVec 32))
-(declare-fun _READ_SOURCE_$$pos$1@4 () (_ BitVec 32))
-(declare-fun %lbl%+5919 () Bool)
-(declare-fun %lbl%+5925 () Bool)
-(declare-fun p0$1@1 () Bool)
-(declare-fun p0$2@1 () Bool)
-(declare-fun v7$1@1 () Bool)
-(declare-fun $numBodies$1 () (_ BitVec 32))
-(declare-fun v7$1@0 () Bool)
-(declare-fun v7$2@1 () Bool)
-(declare-fun $numBodies$2 () (_ BitVec 32))
-(declare-fun v7$2@0 () Bool)
-(declare-fun %lbl%@22153 () Bool)
-(declare-fun v8$1@1 () (_ BitVec 32))
-(declare-fun _HAVOC_bv32$1@5 () (_ BitVec 32))
-(declare-fun v8$1@0 () (_ BitVec 32))
-(declare-fun v8$2@1 () (_ BitVec 32))
-(declare-fun _HAVOC_bv32$2@5 () (_ BitVec 32))
-(declare-fun v8$2@0 () (_ BitVec 32))
-(declare-fun %lbl%+5843 () Bool)
-(declare-fun call1006formal@_offset$2@0 () (_ BitVec 32))
-(declare-fun %lbl%@19579 () Bool)
-(declare-fun $acc.0$1@0 () (_ BitVec 128))
-(declare-fun $acc.0$1 () (_ BitVec 128))
-(declare-fun $acc.0$2@0 () (_ BitVec 128))
-(declare-fun $acc.0$2 () (_ BitVec 128))
-(declare-fun $i.0$1@0 () (_ BitVec 32))
-(declare-fun $i.0$1 () (_ BitVec 32))
-(declare-fun $i.0$2@0 () (_ BitVec 32))
-(declare-fun $i.0$2 () (_ BitVec 32))
-(declare-fun p0$1@0 () Bool)
-(declare-fun p0$2@0 () Bool)
-(declare-fun %lbl%@19676 () Bool)
-(declare-fun _WRITE_HAS_OCCURRED_$$localPos$1 () Bool)
-(declare-fun _WRITE_OFFSET_$$localPos$1 () (_ BitVec 32))
-(declare-fun %lbl%@19742 () Bool)
-(declare-fun _READ_HAS_OCCURRED_$$localPos$1 () Bool)
-(declare-fun _READ_OFFSET_$$localPos$1 () (_ BitVec 32))
-(declare-fun %lbl%@19944 () Bool)
-(declare-fun %lbl%@19952 () Bool)
-(declare-fun %lbl%@19960 () Bool)
-(declare-fun _READ_HAS_OCCURRED_$$pos$1@3 () Bool)
-(declare-fun _READ_OFFSET_$$pos$1@3 () (_ BitVec 32))
-(declare-fun %lbl%@20181 () Bool)
-(declare-fun %lbl%@20188 () Bool)
-(declare-fun $j.0$1 () (_ BitVec 32))
-(declare-fun $j.0$2 () (_ BitVec 32))
-(declare-fun %lbl%@20204 () Bool)
-(declare-fun $acc.1$1 () (_ BitVec 128))
-(declare-fun $acc.1$2 () (_ BitVec 128))
-(declare-fun %lbl%@20220 () Bool)
-(declare-fun %lbl%@20234 () Bool)
-(declare-fun %lbl%@20248 () Bool)
-(declare-fun %lbl%@20256 () Bool)
-(declare-fun %lbl%@20290 () Bool)
-(declare-fun %lbl%@20296 () Bool)
-(declare-fun %lbl%@20308 () Bool)
-(declare-fun %lbl%@20320 () Bool)
-(declare-fun _READ_SOURCE_$$pos$1@3 () (_ BitVec 32))
-(declare-fun %lbl%@20377 () Bool)
-(declare-fun %lbl%@20383 () Bool)
-(declare-fun %lbl%@20393 () Bool)
-(declare-fun %lbl%@20405 () Bool)
-(declare-fun _READ_SOURCE_$$localPos$1 () (_ BitVec 32))
-(declare-fun %lbl%@20447 () Bool)
-(declare-fun _WRITE_SOURCE_$$localPos$1 () (_ BitVec 32))
-(declare-fun %lbl%@20481 () Bool)
-(declare-fun %lbl%@20493 () Bool)
-(declare-fun %lbl%@20505 () Bool)
-(declare-fun %lbl%@20511 () Bool)
-(declare-fun %lbl%@20545 () Bool)
-(declare-fun %lbl%@20557 () Bool)
-(declare-fun %lbl%@20569 () Bool)
-(declare-fun %lbl%@20575 () Bool)
-(declare-fun %lbl%@20609 () Bool)
-(declare-fun %lbl%@20621 () Bool)
-(declare-fun %lbl%@20633 () Bool)
-(declare-fun %lbl%@20638 () Bool)
-(declare-fun %lbl%+5837 () Bool)
-(declare-fun inline$_LOG_READ_$$pos$3$track@0 () Bool)
-(declare-fun _READ_HAS_OCCURRED_$$pos$1@2 () Bool)
-(declare-fun inline$_LOG_READ_$$pos$3$_offset$1@0 () (_ BitVec 32))
-(declare-fun _READ_OFFSET_$$pos$1@2 () (_ BitVec 32))
-(declare-fun _READ_SOURCE_$$pos$1@2 () (_ BitVec 32))
-(declare-fun %lbl%+5835 () Bool)
-(declare-fun %lbl%+5841 () Bool)
-(declare-fun call953formal@_offset$2@0 () (_ BitVec 32))
-(declare-fun %lbl%@19437 () Bool)
-(declare-fun %lbl%@19451 () Bool)
-(declare-fun _HAVOC_bv32$1@3 () (_ BitVec 32))
-(declare-fun v6$1 () (_ BitVec 32))
-(declare-fun _HAVOC_bv32$2@3 () (_ BitVec 32))
-(declare-fun v6$2 () (_ BitVec 32))
-(declare-fun %lbl%+5755 () Bool)
-(declare-fun inline$_LOG_READ_$$pos$2$track@0 () Bool)
-(declare-fun _READ_HAS_OCCURRED_$$pos$1@1 () Bool)
-(declare-fun inline$_LOG_READ_$$pos$2$_offset$1@0 () (_ BitVec 32))
-(declare-fun _READ_OFFSET_$$pos$1@1 () (_ BitVec 32))
-(declare-fun _READ_SOURCE_$$pos$1@1 () (_ BitVec 32))
-(declare-fun %lbl%+5753 () Bool)
-(declare-fun %lbl%+5759 () Bool)
-(declare-fun call900formal@_offset$2@0 () (_ BitVec 32))
-(declare-fun %lbl%@19295 () Bool)
-(declare-fun %lbl%@19309 () Bool)
-(declare-fun _HAVOC_bv32$1@2 () (_ BitVec 32))
-(declare-fun v5$1 () (_ BitVec 32))
-(declare-fun _HAVOC_bv32$2@2 () (_ BitVec 32))
-(declare-fun v5$2 () (_ BitVec 32))
-(declare-fun %lbl%+5673 () Bool)
-(declare-fun inline$_LOG_READ_$$pos$1$track@0 () Bool)
-(declare-fun _READ_HAS_OCCURRED_$$pos$1@0 () Bool)
-(declare-fun inline$_LOG_READ_$$pos$1$_offset$1@0 () (_ BitVec 32))
-(declare-fun _READ_OFFSET_$$pos$1@0 () (_ BitVec 32))
-(declare-fun _READ_SOURCE_$$pos$1@0 () (_ BitVec 32))
-(declare-fun %lbl%+5671 () Bool)
-(declare-fun %lbl%+5677 () Bool)
-(declare-fun call847formal@_offset$2@0 () (_ BitVec 32))
-(declare-fun %lbl%@19153 () Bool)
-(declare-fun %lbl%@19167 () Bool)
-(declare-fun _HAVOC_bv32$1@1 () (_ BitVec 32))
-(declare-fun v4$1 () (_ BitVec 32))
-(declare-fun _HAVOC_bv32$2@1 () (_ BitVec 32))
-(declare-fun v4$2 () (_ BitVec 32))
-(declare-fun %lbl%+5591 () Bool)
-(declare-fun inline$_LOG_READ_$$pos$0$track@0 () Bool)
-(declare-fun _READ_HAS_OCCURRED_$$pos$1 () Bool)
-(declare-fun inline$_LOG_READ_$$pos$0$_offset$1@0 () (_ BitVec 32))
-(declare-fun _READ_OFFSET_$$pos$1 () (_ BitVec 32))
-(declare-fun _READ_SOURCE_$$pos$1 () (_ BitVec 32))
-(declare-fun %lbl%+5589 () Bool)
-(declare-fun %lbl%+5595 () Bool)
-(declare-fun v0$1 () (_ BitVec 32))
-(declare-fun local_id_x$2 () (_ BitVec 32))
-(declare-fun v0$2 () (_ BitVec 32))
-(declare-fun v1$1 () (_ BitVec 32))
-(declare-fun v1$2 () (_ BitVec 32))
-(declare-fun v2$1 () (_ BitVec 32))
-(declare-fun v2$2 () (_ BitVec 32))
-(declare-fun %lbl%@19027 () Bool)
-(declare-fun _HAVOC_bv32$1@0 () (_ BitVec 32))
-(declare-fun v3$1 () (_ BitVec 32))
-(declare-fun _HAVOC_bv32$2@0 () (_ BitVec 32))
-(declare-fun v3$2 () (_ BitVec 32))
-(declare-fun %lbl%+17409 () Bool)
-(declare-fun local_id_y$1 () (_ BitVec 32))
-(declare-fun local_id_y$2 () (_ BitVec 32))
-(declare-fun local_id_z$1 () (_ BitVec 32))
-(declare-fun local_id_z$2 () (_ BitVec 32))
-(declare-fun $deltaTime$1 () (_ BitVec 32))
-(declare-fun $deltaTime$2 () (_ BitVec 32))
-(assert (not (= (ite (= group_size_y #x00000001) #b1 #b0) #b0)))
-(assert (not (= (ite (= group_size_z #x00000001) #b1 #b0) #b0)))
-(assert (not (= (ite (= num_groups_y #x00000001) #b1 #b0) #b0)))
-(assert (not (= (ite (= num_groups_z #x00000001) #b1 #b0) #b0)))
-(assert (not (= (ite (= group_size_x #x00000100) #b1 #b0) #b0)))
-(assert (not (= (ite (= num_groups_x #x00000004) #b1 #b0) #b0)))
-(define-fun $nbody_sim () Bool (=> (= (ControlFlow 0 0) 17409) (let (($for.cond.tail$12_correct (=> (and %lbl%+8971 true) (=> (= call3746formal@_offset$2@0 (bvadd (bvmul v1$2@0 #x00000004) #x00000003)) (and
-(or %lbl%@30054 (=> (= (ControlFlow 0 8971) (- 0 30054)) (not (and
-_P$2
-_WRITE_HAS_OCCURRED_$$newVelocity$1@3
-(= _WRITE_OFFSET_$$newVelocity$1@3 call3746formal@_offset$2@0)))))
-(=> (not (and
-_P$2
-_WRITE_HAS_OCCURRED_$$newVelocity$1@3
-(= _WRITE_OFFSET_$$newVelocity$1@3 call3746formal@_offset$2@0))) (and
-(or %lbl%@30066 (=> (= (ControlFlow 0 8971) (- 0 30066)) (not (and
-_P$2
-_READ_HAS_OCCURRED_$$newVelocity$1
-(= _READ_OFFSET_$$newVelocity$1 call3746formal@_offset$2@0)))))
-(=> (not (and
-_P$2
-_READ_HAS_OCCURRED_$$newVelocity$1
-(= _READ_OFFSET_$$newVelocity$1 call3746formal@_offset$2@0))) true))))))))
-(let ((inline$_LOG_WRITE_$$newVelocity$3$_LOG_WRITE_correct (=> (and %lbl%+8965 true) (=> (and
-(= _WRITE_HAS_OCCURRED_$$newVelocity$1@3 (ite (and
-_P$1
-inline$_LOG_WRITE_$$newVelocity$3$track@0) true _WRITE_HAS_OCCURRED_$$newVelocity$1@2))
-(= _WRITE_OFFSET_$$newVelocity$1@3 (ite (and
-_P$1
-inline$_LOG_WRITE_$$newVelocity$3$track@0) inline$_LOG_WRITE_$$newVelocity$3$_offset$1@0 _WRITE_OFFSET_$$newVelocity$1@2))
-(= _WRITE_SOURCE_$$newVelocity$1@3 (ite (and
-_P$1
-inline$_LOG_WRITE_$$newVelocity$3$track@0) #x00000010 _WRITE_SOURCE_$$newVelocity$1@2))
-(= (ControlFlow 0 8965) 8971)) $for.cond.tail$12_correct))))
-(let ((inline$_LOG_WRITE_$$newVelocity$3$Entry_correct (=> (and %lbl%+8963 true) (=> (and
-(= inline$_LOG_WRITE_$$newVelocity$3$_offset$1@0 (bvadd (bvmul v1$1@0 #x00000004) #x00000003))
-(= (ControlFlow 0 8963) 8965)) inline$_LOG_WRITE_$$newVelocity$3$_LOG_WRITE_correct))))
-(let (($for.cond.tail$11_correct (=> (and %lbl%+8969 true) (=> (= call3709formal@_offset$2@0 (bvadd (bvmul v1$2@0 #x00000004) #x00000002)) (and
-(or %lbl%@29931 (=> (= (ControlFlow 0 8969) (- 0 29931)) (not (and
-_P$2
-_WRITE_HAS_OCCURRED_$$newVelocity$1@2
-(= _WRITE_OFFSET_$$newVelocity$1@2 call3709formal@_offset$2@0)))))
-(=> (not (and
-_P$2
-_WRITE_HAS_OCCURRED_$$newVelocity$1@2
-(= _WRITE_OFFSET_$$newVelocity$1@2 call3709formal@_offset$2@0))) (and
-(or %lbl%@29943 (=> (= (ControlFlow 0 8969) (- 0 29943)) (not (and
-_P$2
-_READ_HAS_OCCURRED_$$newVelocity$1
-(= _READ_OFFSET_$$newVelocity$1 call3709formal@_offset$2@0)))))
-(=> (not (and
-_P$2
-_READ_HAS_OCCURRED_$$newVelocity$1
-(= _READ_OFFSET_$$newVelocity$1 call3709formal@_offset$2@0))) (and
-(or %lbl%@29957 (=> (= (ControlFlow 0 8969) (- 0 29957)) (=> _P$1 true)))
-(=> (=> _P$1 true) (=> (= (ControlFlow 0 8969) 8963) inline$_LOG_WRITE_$$newVelocity$3$Entry_correct)))))))))))
-(let ((inline$_LOG_WRITE_$$newVelocity$2$_LOG_WRITE_correct (=> (and %lbl%+8883 true) (=> (and
-(= _WRITE_HAS_OCCURRED_$$newVelocity$1@2 (ite (and
-_P$1
-inline$_LOG_WRITE_$$newVelocity$2$track@0) true _WRITE_HAS_OCCURRED_$$newVelocity$1@1))
-(= _WRITE_OFFSET_$$newVelocity$1@2 (ite (and
-_P$1
-inline$_LOG_WRITE_$$newVelocity$2$track@0) inline$_LOG_WRITE_$$newVelocity$2$_offset$1@0 _WRITE_OFFSET_$$newVelocity$1@1))
-(= _WRITE_SOURCE_$$newVelocity$1@2 (ite (and
-_P$1
-inline$_LOG_WRITE_$$newVelocity$2$track@0) #x0000000f _WRITE_SOURCE_$$newVelocity$1@1))
-(= (ControlFlow 0 8883) 8969)) $for.cond.tail$11_correct))))
-(let ((inline$_LOG_WRITE_$$newVelocity$2$Entry_correct (=> (and %lbl%+8881 true) (=> (and
-(= inline$_LOG_WRITE_$$newVelocity$2$_offset$1@0 (bvadd (bvmul v1$1@0 #x00000004) #x00000002))
-(= (ControlFlow 0 8881) 8883)) inline$_LOG_WRITE_$$newVelocity$2$_LOG_WRITE_correct))))
-(let (($for.cond.tail$10_correct (=> (and %lbl%+8887 true) (=> (= call3672formal@_offset$2@0 (bvadd (bvmul v1$2@0 #x00000004) #x00000001)) (and
-(or %lbl%@29808 (=> (= (ControlFlow 0 8887) (- 0 29808)) (not (and
-_P$2
-_WRITE_HAS_OCCURRED_$$newVelocity$1@1
-(= _WRITE_OFFSET_$$newVelocity$1@1 call3672formal@_offset$2@0)))))
-(=> (not (and
-_P$2
-_WRITE_HAS_OCCURRED_$$newVelocity$1@1
-(= _WRITE_OFFSET_$$newVelocity$1@1 call3672formal@_offset$2@0))) (and
-(or %lbl%@29820 (=> (= (ControlFlow 0 8887) (- 0 29820)) (not (and
-_P$2
-_READ_HAS_OCCURRED_$$newVelocity$1
-(= _READ_OFFSET_$$newVelocity$1 call3672formal@_offset$2@0)))))
-(=> (not (and
-_P$2
-_READ_HAS_OCCURRED_$$newVelocity$1
-(= _READ_OFFSET_$$newVelocity$1 call3672formal@_offset$2@0))) (and
-(or %lbl%@29834 (=> (= (ControlFlow 0 8887) (- 0 29834)) (=> _P$1 true)))
-(=> (=> _P$1 true) (=> (= (ControlFlow 0 8887) 8881) inline$_LOG_WRITE_$$newVelocity$2$Entry_correct)))))))))))
-(let ((inline$_LOG_WRITE_$$newVelocity$1$_LOG_WRITE_correct (=> (and %lbl%+8801 true) (=> (and
-(= _WRITE_HAS_OCCURRED_$$newVelocity$1@1 (ite (and
-_P$1
-inline$_LOG_WRITE_$$newVelocity$1$track@0) true _WRITE_HAS_OCCURRED_$$newVelocity$1@0))
-(= _WRITE_OFFSET_$$newVelocity$1@1 (ite (and
-_P$1
-inline$_LOG_WRITE_$$newVelocity$1$track@0) inline$_LOG_WRITE_$$newVelocity$1$_offset$1@0 _WRITE_OFFSET_$$newVelocity$1@0))
-(= _WRITE_SOURCE_$$newVelocity$1@1 (ite (and
-_P$1
-inline$_LOG_WRITE_$$newVelocity$1$track@0) #x0000000e _WRITE_SOURCE_$$newVelocity$1@0))
-(= (ControlFlow 0 8801) 8887)) $for.cond.tail$10_correct))))
-(let ((inline$_LOG_WRITE_$$newVelocity$1$Entry_correct (=> (and %lbl%+8799 true) (=> (and
-(= inline$_LOG_WRITE_$$newVelocity$1$_offset$1@0 (bvadd (bvmul v1$1@0 #x00000004) #x00000001))
-(= (ControlFlow 0 8799) 8801)) inline$_LOG_WRITE_$$newVelocity$1$_LOG_WRITE_correct))))
-(let (($for.cond.tail$9_correct (=> (and %lbl%+8805 true) (=> (= call3635formal@_offset$2@0 (bvmul v1$2@0 #x00000004)) (and
-(or %lbl%@29685 (=> (= (ControlFlow 0 8805) (- 0 29685)) (not (and
-_P$2
-_WRITE_HAS_OCCURRED_$$newVelocity$1@0
-(= _WRITE_OFFSET_$$newVelocity$1@0 call3635formal@_offset$2@0)))))
-(=> (not (and
-_P$2
-_WRITE_HAS_OCCURRED_$$newVelocity$1@0
-(= _WRITE_OFFSET_$$newVelocity$1@0 call3635formal@_offset$2@0))) (and
-(or %lbl%@29697 (=> (= (ControlFlow 0 8805) (- 0 29697)) (not (and
-_P$2
-_READ_HAS_OCCURRED_$$newVelocity$1
-(= _READ_OFFSET_$$newVelocity$1 call3635formal@_offset$2@0)))))
-(=> (not (and
-_P$2
-_READ_HAS_OCCURRED_$$newVelocity$1
-(= _READ_OFFSET_$$newVelocity$1 call3635formal@_offset$2@0))) (and
-(or %lbl%@29711 (=> (= (ControlFlow 0 8805) (- 0 29711)) (=> _P$1 true)))
-(=> (=> _P$1 true) (=> (= (ControlFlow 0 8805) 8799) inline$_LOG_WRITE_$$newVelocity$1$Entry_correct)))))))))))
-(let ((inline$_LOG_WRITE_$$newVelocity$0$_LOG_WRITE_correct (=> (and %lbl%+8719 true) (=> (and
-(= _WRITE_HAS_OCCURRED_$$newVelocity$1@0 (ite (and
-_P$1
-inline$_LOG_WRITE_$$newVelocity$0$track@0) true _WRITE_HAS_OCCURRED_$$newVelocity$1))
-(= _WRITE_OFFSET_$$newVelocity$1@0 (ite (and
-_P$1
-inline$_LOG_WRITE_$$newVelocity$0$track@0) inline$_LOG_WRITE_$$newVelocity$0$_offset$1@0 _WRITE_OFFSET_$$newVelocity$1))
-(= _WRITE_SOURCE_$$newVelocity$1@0 (ite (and
-_P$1
-inline$_LOG_WRITE_$$newVelocity$0$track@0) #x0000000d _WRITE_SOURCE_$$newVelocity$1))
-(= (ControlFlow 0 8719) 8805)) $for.cond.tail$9_correct))))
-(let ((inline$_LOG_WRITE_$$newVelocity$0$Entry_correct (=> (and %lbl%+8717 true) (=> (and
-(= inline$_LOG_WRITE_$$newVelocity$0$_offset$1@0 (bvmul v1$1@0 #x00000004))
-(= (ControlFlow 0 8717) 8719)) inline$_LOG_WRITE_$$newVelocity$0$_LOG_WRITE_correct))))
-(let (($for.cond.tail$8_correct (=> (and %lbl%+8723 true) (=> (= call3604formal@_offset$2@0 (bvadd (bvmul v1$2@0 #x00000004) #x00000003)) (and
-(or %lbl%@29564 (=> (= (ControlFlow 0 8723) (- 0 29564)) (not (and
-_P$2
-_WRITE_HAS_OCCURRED_$$newPosition$1@3
-(= _WRITE_OFFSET_$$newPosition$1@3 call3604formal@_offset$2@0)))))
-(=> (not (and
-_P$2
-_WRITE_HAS_OCCURRED_$$newPosition$1@3
-(= _WRITE_OFFSET_$$newPosition$1@3 call3604formal@_offset$2@0))) (and
-(or %lbl%@29576 (=> (= (ControlFlow 0 8723) (- 0 29576)) (not (and
-_P$2
-_READ_HAS_OCCURRED_$$newPosition$1
-(= _READ_OFFSET_$$newPosition$1 call3604formal@_offset$2@0)))))
-(=> (not (and
-_P$2
-_READ_HAS_OCCURRED_$$newPosition$1
-(= _READ_OFFSET_$$newPosition$1 call3604formal@_offset$2@0))) (and
-(or %lbl%@29590 (=> (= (ControlFlow 0 8723) (- 0 29590)) (=> _P$1 true)))
-(=> (=> _P$1 true) (=> (= (ControlFlow 0 8723) 8717) inline$_LOG_WRITE_$$newVelocity$0$Entry_correct)))))))))))
-(let ((inline$_LOG_WRITE_$$newPosition$3$_LOG_WRITE_correct (=> (and %lbl%+8637 true) (=> (and
-(= _WRITE_HAS_OCCURRED_$$newPosition$1@3 (ite (and
-_P$1
-inline$_LOG_WRITE_$$newPosition$3$track@0) true _WRITE_HAS_OCCURRED_$$newPosition$1@2))
-(= _WRITE_OFFSET_$$newPosition$1@3 (ite (and
-_P$1
-inline$_LOG_WRITE_$$newPosition$3$track@0) inline$_LOG_WRITE_$$newPosition$3$_offset$1@0 _WRITE_OFFSET_$$newPosition$1@2))
-(= _WRITE_SOURCE_$$newPosition$1@3 (ite (and
-_P$1
-inline$_LOG_WRITE_$$newPosition$3$track@0) #x0000000c _WRITE_SOURCE_$$newPosition$1@2))
-(= (ControlFlow 0 8637) 8723)) $for.cond.tail$8_correct))))
-(let ((inline$_LOG_WRITE_$$newPosition$3$Entry_correct (=> (and %lbl%+8635 true) (=> (and
-(= inline$_LOG_WRITE_$$newPosition$3$_offset$1@0 (bvadd (bvmul v1$1@0 #x00000004) #x00000003))
-(= (ControlFlow 0 8635) 8637)) inline$_LOG_WRITE_$$newPosition$3$_LOG_WRITE_correct))))
-(let (($for.cond.tail$7_correct (=> (and %lbl%+8641 true) (=> (= call3567formal@_offset$2@0 (bvadd (bvmul v1$2@0 #x00000004) #x00000002)) (and
-(or %lbl%@29441 (=> (= (ControlFlow 0 8641) (- 0 29441)) (not (and
-_P$2
-_WRITE_HAS_OCCURRED_$$newPosition$1@2
-(= _WRITE_OFFSET_$$newPosition$1@2 call3567formal@_offset$2@0)))))
-(=> (not (and
-_P$2
-_WRITE_HAS_OCCURRED_$$newPosition$1@2
-(= _WRITE_OFFSET_$$newPosition$1@2 call3567formal@_offset$2@0))) (and
-(or %lbl%@29453 (=> (= (ControlFlow 0 8641) (- 0 29453)) (not (and
-_P$2
-_READ_HAS_OCCURRED_$$newPosition$1
-(= _READ_OFFSET_$$newPosition$1 call3567formal@_offset$2@0)))))
-(=> (not (and
-_P$2
-_READ_HAS_OCCURRED_$$newPosition$1
-(= _READ_OFFSET_$$newPosition$1 call3567formal@_offset$2@0))) (and
-(or %lbl%@29467 (=> (= (ControlFlow 0 8641) (- 0 29467)) (=> _P$1 true)))
-(=> (=> _P$1 true) (=> (= (ControlFlow 0 8641) 8635) inline$_LOG_WRITE_$$newPosition$3$Entry_correct)))))))))))
-(let ((inline$_LOG_WRITE_$$newPosition$2$_LOG_WRITE_correct (=> (and %lbl%+8555 true) (=> (and
-(= _WRITE_HAS_OCCURRED_$$newPosition$1@2 (ite (and
-_P$1
-inline$_LOG_WRITE_$$newPosition$2$track@0) true _WRITE_HAS_OCCURRED_$$newPosition$1@1))
-(= _WRITE_OFFSET_$$newPosition$1@2 (ite (and
-_P$1
-inline$_LOG_WRITE_$$newPosition$2$track@0) inline$_LOG_WRITE_$$newPosition$2$_offset$1@0 _WRITE_OFFSET_$$newPosition$1@1))
-(= _WRITE_SOURCE_$$newPosition$1@2 (ite (and
-_P$1
-inline$_LOG_WRITE_$$newPosition$2$track@0) #x0000000b _WRITE_SOURCE_$$newPosition$1@1))
-(= (ControlFlow 0 8555) 8641)) $for.cond.tail$7_correct))))
-(let ((inline$_LOG_WRITE_$$newPosition$2$Entry_correct (=> (and %lbl%+8553 true) (=> (and
-(= inline$_LOG_WRITE_$$newPosition$2$_offset$1@0 (bvadd (bvmul v1$1@0 #x00000004) #x00000002))
-(= (ControlFlow 0 8553) 8555)) inline$_LOG_WRITE_$$newPosition$2$_LOG_WRITE_correct))))
-(let (($for.cond.tail$6_correct (=> (and %lbl%+8559 true) (=> (= call3530formal@_offset$2@0 (bvadd (bvmul v1$2@0 #x00000004) #x00000001)) (and
-(or %lbl%@29318 (=> (= (ControlFlow 0 8559) (- 0 29318)) (not (and
-_P$2
-_WRITE_HAS_OCCURRED_$$newPosition$1@1
-(= _WRITE_OFFSET_$$newPosition$1@1 call3530formal@_offset$2@0)))))
-(=> (not (and
-_P$2
-_WRITE_HAS_OCCURRED_$$newPosition$1@1
-(= _WRITE_OFFSET_$$newPosition$1@1 call3530formal@_offset$2@0))) (and
-(or %lbl%@29330 (=> (= (ControlFlow 0 8559) (- 0 29330)) (not (and
-_P$2
-_READ_HAS_OCCURRED_$$newPosition$1
-(= _READ_OFFSET_$$newPosition$1 call3530formal@_offset$2@0)))))
-(=> (not (and
-_P$2
-_READ_HAS_OCCURRED_$$newPosition$1
-(= _READ_OFFSET_$$newPosition$1 call3530formal@_offset$2@0))) (and
-(or %lbl%@29344 (=> (= (ControlFlow 0 8559) (- 0 29344)) (=> _P$1 true)))
-(=> (=> _P$1 true) (=> (= (ControlFlow 0 8559) 8553) inline$_LOG_WRITE_$$newPosition$2$Entry_correct)))))))))))
-(let ((inline$_LOG_WRITE_$$newPosition$1$_LOG_WRITE_correct (=> (and %lbl%+8473 true) (=> (and
-(= _WRITE_HAS_OCCURRED_$$newPosition$1@1 (ite (and
-_P$1
-inline$_LOG_WRITE_$$newPosition$1$track@0) true _WRITE_HAS_OCCURRED_$$newPosition$1@0))
-(= _WRITE_OFFSET_$$newPosition$1@1 (ite (and
-_P$1
-inline$_LOG_WRITE_$$newPosition$1$track@0) inline$_LOG_WRITE_$$newPosition$1$_offset$1@0 _WRITE_OFFSET_$$newPosition$1@0))
-(= _WRITE_SOURCE_$$newPosition$1@1 (ite (and
-_P$1
-inline$_LOG_WRITE_$$newPosition$1$track@0) #x0000000a _WRITE_SOURCE_$$newPosition$1@0))
-(= (ControlFlow 0 8473) 8559)) $for.cond.tail$6_correct))))
-(let ((inline$_LOG_WRITE_$$newPosition$1$Entry_correct (=> (and %lbl%+8471 true) (=> (and
-(= inline$_LOG_WRITE_$$newPosition$1$_offset$1@0 (bvadd (bvmul v1$1@0 #x00000004) #x00000001))
-(= (ControlFlow 0 8471) 8473)) inline$_LOG_WRITE_$$newPosition$1$_LOG_WRITE_correct))))
-(let (($for.cond.tail$5_correct (=> (and %lbl%+8477 true) (=> (= call3493formal@_offset$2@0 (bvmul v1$2@0 #x00000004)) (and
-(or %lbl%@29195 (=> (= (ControlFlow 0 8477) (- 0 29195)) (not (and
-_P$2
-_WRITE_HAS_OCCURRED_$$newPosition$1@0
-(= _WRITE_OFFSET_$$newPosition$1@0 call3493formal@_offset$2@0)))))
-(=> (not (and
-_P$2
-_WRITE_HAS_OCCURRED_$$newPosition$1@0
-(= _WRITE_OFFSET_$$newPosition$1@0 call3493formal@_offset$2@0))) (and
-(or %lbl%@29207 (=> (= (ControlFlow 0 8477) (- 0 29207)) (not (and
-_P$2
-_READ_HAS_OCCURRED_$$newPosition$1
-(= _READ_OFFSET_$$newPosition$1 call3493formal@_offset$2@0)))))
-(=> (not (and
-_P$2
-_READ_HAS_OCCURRED_$$newPosition$1
-(= _READ_OFFSET_$$newPosition$1 call3493formal@_offset$2@0))) (and
-(or %lbl%@29221 (=> (= (ControlFlow 0 8477) (- 0 29221)) (=> _P$1 true)))
-(=> (=> _P$1 true) (=> (= (ControlFlow 0 8477) 8471) inline$_LOG_WRITE_$$newPosition$1$Entry_correct)))))))))))
-(let ((inline$_LOG_WRITE_$$newPosition$0$_LOG_WRITE_correct (=> (and %lbl%+8391 true) (=> (and
-(= _WRITE_HAS_OCCURRED_$$newPosition$1@0 (ite (and
-_P$1
-inline$_LOG_WRITE_$$newPosition$0$track@0) true _WRITE_HAS_OCCURRED_$$newPosition$1))
-(= _WRITE_OFFSET_$$newPosition$1@0 (ite (and
-_P$1
-inline$_LOG_WRITE_$$newPosition$0$track@0) inline$_LOG_WRITE_$$newPosition$0$_offset$1@0 _WRITE_OFFSET_$$newPosition$1))
-(= _WRITE_SOURCE_$$newPosition$1@0 (ite (and
-_P$1
-inline$_LOG_WRITE_$$newPosition$0$track@0) #x00000009 _WRITE_SOURCE_$$newPosition$1))
-(= (ControlFlow 0 8391) 8477)) $for.cond.tail$5_correct))))
-(let ((inline$_LOG_WRITE_$$newPosition$0$Entry_correct (=> (and %lbl%+8389 true) (=> (and
-(= inline$_LOG_WRITE_$$newPosition$0$_offset$1@0 (bvmul v1$1@0 #x00000004))
-(= (ControlFlow 0 8389) 8391)) inline$_LOG_WRITE_$$newPosition$0$_LOG_WRITE_correct))))
-(let (($for.cond.tail$4_correct (=> (and %lbl%+8395 true) (=> (= call3462formal@_offset$2@0 (bvadd (bvmul v1$2@0 #x00000004) #x00000003)) (and
-(or %lbl%@29086 (=> (= (ControlFlow 0 8395) (- 0 29086)) (not (and
-_P$2
-_WRITE_HAS_OCCURRED_$$vel$1
-(= _WRITE_OFFSET_$$vel$1 call3462formal@_offset$2@0)))))
-(=> (not (and
-_P$2
-_WRITE_HAS_OCCURRED_$$vel$1
-(= _WRITE_OFFSET_$$vel$1 call3462formal@_offset$2@0))) (and
-(or %lbl%@29100 (=> (= (ControlFlow 0 8395) (- 0 29100)) (=> _P$1 true)))
-(=> (=> _P$1 true) (=> (= (ControlFlow 0 8395) 8389) inline$_LOG_WRITE_$$newPosition$0$Entry_correct)))))))))
-(let ((inline$_LOG_READ_$$vel$3$_LOG_READ_correct (=> (and %lbl%+8309 true) (=> (and
-(= _READ_HAS_OCCURRED_$$vel$1@3 (ite (and
-_P$1
-inline$_LOG_READ_$$vel$3$track@0) true _READ_HAS_OCCURRED_$$vel$1@2))
-(= _READ_OFFSET_$$vel$1@3 (ite (and
-_P$1
-inline$_LOG_READ_$$vel$3$track@0) inline$_LOG_READ_$$vel$3$_offset$1@0 _READ_OFFSET_$$vel$1@2))
-(= _READ_SOURCE_$$vel$1@3 (ite (and
-_P$1
-inline$_LOG_READ_$$vel$3$track@0) #x00000008 _READ_SOURCE_$$vel$1@2))
-(= (ControlFlow 0 8309) 8395)) $for.cond.tail$4_correct))))
-(let ((inline$_LOG_READ_$$vel$3$Entry_correct (=> (and %lbl%+8307 true) (=> (and
-(= inline$_LOG_READ_$$vel$3$_offset$1@0 (bvadd (bvmul v1$1@0 #x00000004) #x00000003))
-(= (ControlFlow 0 8307) 8309)) inline$_LOG_READ_$$vel$3$_LOG_READ_correct))))
-(let (($for.cond.tail$3_correct (=> (and %lbl%+8313 true) (=> (= call3409formal@_offset$2@0 (bvadd (bvmul v1$2@0 #x00000004) #x00000002)) (and
-(or %lbl%@28944 (=> (= (ControlFlow 0 8313) (- 0 28944)) (not (and
-_P$2
-_WRITE_HAS_OCCURRED_$$vel$1
-(= _WRITE_OFFSET_$$vel$1 call3409formal@_offset$2@0)))))
-(=> (not (and
-_P$2
-_WRITE_HAS_OCCURRED_$$vel$1
-(= _WRITE_OFFSET_$$vel$1 call3409formal@_offset$2@0))) (and
-(or %lbl%@28958 (=> (= (ControlFlow 0 8313) (- 0 28958)) (=> _P$1 true)))
-(=> (=> _P$1 true) (=> (and
-(= v26$1@0 (ite _P$1 _HAVOC_bv32$1@18 v26$1))
-(= v26$2@0 (ite _P$2 _HAVOC_bv32$2@18 v26$2))
-(= (ControlFlow 0 8313) 8307)) inline$_LOG_READ_$$vel$3$Entry_correct)))))))))
-(let ((inline$_LOG_READ_$$vel$2$_LOG_READ_correct (=> (and %lbl%+8227 true) (=> (and
-(= _READ_HAS_OCCURRED_$$vel$1@2 (ite (and
-_P$1
-inline$_LOG_READ_$$vel$2$track@0) true _READ_HAS_OCCURRED_$$vel$1@1))
-(= _READ_OFFSET_$$vel$1@2 (ite (and
-_P$1
-inline$_LOG_READ_$$vel$2$track@0) inline$_LOG_READ_$$vel$2$_offset$1@0 _READ_OFFSET_$$vel$1@1))
-(= _READ_SOURCE_$$vel$1@2 (ite (and
-_P$1
-inline$_LOG_READ_$$vel$2$track@0) #x00000007 _READ_SOURCE_$$vel$1@1))
-(= (ControlFlow 0 8227) 8313)) $for.cond.tail$3_correct))))
-(let ((inline$_LOG_READ_$$vel$2$Entry_correct (=> (and %lbl%+8225 true) (=> (and
-(= inline$_LOG_READ_$$vel$2$_offset$1@0 (bvadd (bvmul v1$1@0 #x00000004) #x00000002))
-(= (ControlFlow 0 8225) 8227)) inline$_LOG_READ_$$vel$2$_LOG_READ_correct))))
-(let (($for.cond.tail$2_correct (=> (and %lbl%+8231 true) (=> (= call3356formal@_offset$2@0 (bvadd (bvmul v1$2@0 #x00000004) #x00000001)) (and
-(or %lbl%@28802 (=> (= (ControlFlow 0 8231) (- 0 28802)) (not (and
-_P$2
-_WRITE_HAS_OCCURRED_$$vel$1
-(= _WRITE_OFFSET_$$vel$1 call3356formal@_offset$2@0)))))
-(=> (not (and
-_P$2
-_WRITE_HAS_OCCURRED_$$vel$1
-(= _WRITE_OFFSET_$$vel$1 call3356formal@_offset$2@0))) (and
-(or %lbl%@28816 (=> (= (ControlFlow 0 8231) (- 0 28816)) (=> _P$1 true)))
-(=> (=> _P$1 true) (=> (and
-(= v25$1@0 (ite _P$1 _HAVOC_bv32$1@17 v25$1))
-(= v25$2@0 (ite _P$2 _HAVOC_bv32$2@17 v25$2))
-(= (ControlFlow 0 8231) 8225)) inline$_LOG_READ_$$vel$2$Entry_correct)))))))))
-(let ((inline$_LOG_READ_$$vel$1$_LOG_READ_correct (=> (and %lbl%+8145 true) (=> (and
-(= _READ_HAS_OCCURRED_$$vel$1@1 (ite (and
-_P$1
-inline$_LOG_READ_$$vel$1$track@0) true _READ_HAS_OCCURRED_$$vel$1@0))
-(= _READ_OFFSET_$$vel$1@1 (ite (and
-_P$1
-inline$_LOG_READ_$$vel$1$track@0) inline$_LOG_READ_$$vel$1$_offset$1@0 _READ_OFFSET_$$vel$1@0))
-(= _READ_SOURCE_$$vel$1@1 (ite (and
-_P$1
-inline$_LOG_READ_$$vel$1$track@0) #x00000006 _READ_SOURCE_$$vel$1@0))
-(= (ControlFlow 0 8145) 8231)) $for.cond.tail$2_correct))))
-(let ((inline$_LOG_READ_$$vel$1$Entry_correct (=> (and %lbl%+8143 true) (=> (and
-(= inline$_LOG_READ_$$vel$1$_offset$1@0 (bvadd (bvmul v1$1@0 #x00000004) #x00000001))
-(= (ControlFlow 0 8143) 8145)) inline$_LOG_READ_$$vel$1$_LOG_READ_correct))))
-(let (($for.cond.tail$1_correct (=> (and %lbl%+8149 true) (=> (= call3303formal@_offset$2@0 (bvmul v1$2@0 #x00000004)) (and
-(or %lbl%@28660 (=> (= (ControlFlow 0 8149) (- 0 28660)) (not (and
-_P$2
-_WRITE_HAS_OCCURRED_$$vel$1
-(= _WRITE_OFFSET_$$vel$1 call3303formal@_offset$2@0)))))
-(=> (not (and
-_P$2
-_WRITE_HAS_OCCURRED_$$vel$1
-(= _WRITE_OFFSET_$$vel$1 call3303formal@_offset$2@0))) (and
-(or %lbl%@28674 (=> (= (ControlFlow 0 8149) (- 0 28674)) (=> _P$1 true)))
-(=> (=> _P$1 true) (=> (and
-(= v24$1@0 (ite _P$1 _HAVOC_bv32$1@16 v24$1))
-(= v24$2@0 (ite _P$2 _HAVOC_bv32$2@16 v24$2))
-(= (ControlFlow 0 8149) 8143)) inline$_LOG_READ_$$vel$1$Entry_correct)))))))))
-(let ((inline$_LOG_READ_$$vel$0$_LOG_READ_correct (=> (and %lbl%+8063 true) (=> (and
-(= _READ_HAS_OCCURRED_$$vel$1@0 (ite (and
-_P$1
-inline$_LOG_READ_$$vel$0$track@0) true _READ_HAS_OCCURRED_$$vel$1))
-(= _READ_OFFSET_$$vel$1@0 (ite (and
-_P$1
-inline$_LOG_READ_$$vel$0$track@0) inline$_LOG_READ_$$vel$0$_offset$1@0 _READ_OFFSET_$$vel$1))
-(= _READ_SOURCE_$$vel$1@0 (ite (and
-_P$1
-inline$_LOG_READ_$$vel$0$track@0) #x00000005 _READ_SOURCE_$$vel$1))
-(= (ControlFlow 0 8063) 8149)) $for.cond.tail$1_correct))))
-(let ((inline$_LOG_READ_$$vel$0$Entry_correct (=> (and %lbl%+8061 true) (=> (and
-(= inline$_LOG_READ_$$vel$0$_offset$1@0 (bvmul v1$1@0 #x00000004))
-(= (ControlFlow 0 8061) 8063)) inline$_LOG_READ_$$vel$0$_LOG_READ_correct))))
-(let (($for.cond.tail_correct (=> (and %lbl%+8067 true) (=> (and
-(not p0$1@3)
-(not p0$2@3)) (and
-(or %lbl%@28534 (=> (= (ControlFlow 0 8067) (- 0 28534)) (=> _P$1 true)))
-(=> (=> _P$1 true) (=> (and
-(= v23$1@0 (ite _P$1 _HAVOC_bv32$1@15 v23$1))
-(= v23$2@0 (ite _P$2 _HAVOC_bv32$2@15 v23$2))
-(= (ControlFlow 0 8067) 8061)) inline$_LOG_READ_$$vel$0$Entry_correct)))))))
-(let (($for.cond.backedge_correct (=> (and %lbl%+8973 true) (=> (or
-p0$1@3
-p0$2@3) (and
-(or %lbl%@27591 (=> (= (ControlFlow 0 8973) (- 0 27591)) (=> _b10 (=> _WRITE_HAS_OCCURRED_$$localPos$1@4 (or
-(= _WRITE_OFFSET_$$localPos$1@4 (bvmul local_id_x$1 #x00000004))
-(= _WRITE_OFFSET_$$localPos$1@4 (bvadd (bvmul local_id_x$1 #x00000004) #x00000001))
-(= _WRITE_OFFSET_$$localPos$1@4 (bvadd (bvmul local_id_x$1 #x00000004) #x00000002))
-(= _WRITE_OFFSET_$$localPos$1@4 (bvadd (bvmul local_id_x$1 #x00000004) #x00000003)))))))
-(=> (=> _b10 (=> _WRITE_HAS_OCCURRED_$$localPos$1@4 (or
-(= _WRITE_OFFSET_$$localPos$1@4 (bvmul local_id_x$1 #x00000004))
-(= _WRITE_OFFSET_$$localPos$1@4 (bvadd (bvmul local_id_x$1 #x00000004) #x00000001))
-(= _WRITE_OFFSET_$$localPos$1@4 (bvadd (bvmul local_id_x$1 #x00000004) #x00000002))
-(= _WRITE_OFFSET_$$localPos$1@4 (bvadd (bvmul local_id_x$1 #x00000004) #x00000003))))) (and
-(or %lbl%@27652 (=> (= (ControlFlow 0 8973) (- 0 27652)) (=> _b9 (=> _READ_HAS_OCCURRED_$$localPos$1@6 (or
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1@6) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvmul #x00000000 #x00000004)))
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1@6) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000001)))
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1@6) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000002)))
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1@6) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000003)))
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1@6) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000003))))))))
-(=> (=> _b9 (=> _READ_HAS_OCCURRED_$$localPos$1@6 (or
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1@6) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvmul #x00000000 #x00000004)))
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1@6) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000001)))
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1@6) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000002)))
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1@6) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000003)))
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1@6) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000003)))))) (and
-(or %lbl%@27848 (=> (= (ControlFlow 0 8973) (- 0 27848)) (=> _b8 (not _WRITE_HAS_OCCURRED_$$localPos$1@4))))
-(=> (=> _b8 (not _WRITE_HAS_OCCURRED_$$localPos$1@4)) (and
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-(=> (=> _b7 (not _READ_HAS_OCCURRED_$$localPos$1@6)) (and
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-(= (bvand (bvsub (bvmul (bvmul #x00000001 group_size_x) #x00000004) #x00000001) _READ_OFFSET_$$pos$1@8) (bvand (bvsub (bvmul (bvmul #x00000001 group_size_x) #x00000004) #x00000001) (bvadd (bvmul (bvadd (bvmul #x00000000 group_size_x) local_id_x$1) #x00000004) #x00000002)))
-(= (bvand (bvsub (bvmul (bvmul #x00000001 group_size_x) #x00000004) #x00000001) _READ_OFFSET_$$pos$1@8) (bvand (bvsub (bvmul (bvmul #x00000001 group_size_x) #x00000004) #x00000001) (bvadd (bvmul (bvadd (bvmul #x00000000 group_size_x) local_id_x$1) #x00000004) #x00000003))))))))
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-p0$2@3) (= $i.0$1@2 $i.0$2@2))) (and
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-(= _READ_SOURCE_$$vel$1 #x00000008)))))
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-(= _READ_SOURCE_$$vel$1 #x00000008))) (and
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-(=> (=> (not _WRITE_HAS_OCCURRED_$$vel$1) (= _WRITE_SOURCE_$$vel$1 #x00000000)) (and
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-(= _READ_SOURCE_$$pos$1@8 #x00000014)))))
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-(= _READ_SOURCE_$$pos$1@8 #x00000004)
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-(= _READ_SOURCE_$$pos$1@8 #x00000012)
-(= _READ_SOURCE_$$pos$1@8 #x00000013)
-(= _READ_SOURCE_$$pos$1@8 #x00000014))) (and
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-(= _READ_SOURCE_$$localPos$1@6 #x0000001d)))))
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-(= _WRITE_SOURCE_$$localPos$1@4 #x00000017)
-(= _WRITE_SOURCE_$$localPos$1@4 #x00000018)))))
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-(= _WRITE_SOURCE_$$localPos$1@4 #x00000017)
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-(= _WRITE_SOURCE_$$newVelocity$1 #x0000000f)
-(= _WRITE_SOURCE_$$newVelocity$1 #x00000010)))))
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-(= _WRITE_SOURCE_$$newVelocity$1 #x0000000f)
-(= _WRITE_SOURCE_$$newVelocity$1 #x00000010))) (and
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-(=> (=> (not _READ_HAS_OCCURRED_$$newVelocity$1) (= _READ_SOURCE_$$newVelocity$1 #x00000000)) (and
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-(=> (=> (not _WRITE_HAS_OCCURRED_$$newVelocity$1) (= _WRITE_SOURCE_$$newVelocity$1 #x00000000)) (and
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-(=> (=> _READ_HAS_OCCURRED_$$newPosition$1 false) (and
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-(= _WRITE_SOURCE_$$newPosition$1 #x00000009)
-(= _WRITE_SOURCE_$$newPosition$1 #x0000000a)
-(= _WRITE_SOURCE_$$newPosition$1 #x0000000b)
-(= _WRITE_SOURCE_$$newPosition$1 #x0000000c)))))
-(=> (=> _WRITE_HAS_OCCURRED_$$newPosition$1 (or
-(= _WRITE_SOURCE_$$newPosition$1 #x00000009)
-(= _WRITE_SOURCE_$$newPosition$1 #x0000000a)
-(= _WRITE_SOURCE_$$newPosition$1 #x0000000b)
-(= _WRITE_SOURCE_$$newPosition$1 #x0000000c))) (and
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-(=> (=> (not _READ_HAS_OCCURRED_$$newPosition$1) (= _READ_SOURCE_$$newPosition$1 #x00000000)) (and
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-(=> (=> (not _WRITE_HAS_OCCURRED_$$newPosition$1) (= _WRITE_SOURCE_$$newPosition$1 #x00000000)) (and
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-(=> (=> p0$1@3 _P$1) (and
-(or %lbl%@28521 (=> (= (ControlFlow 0 8973) (- 0 28521)) (=> p0$2@3 _P$2)))
-(=> (=> p0$2@3 _P$2) true))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))
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-(= $acc.0$1@2 (ite p1$1@1 $acc.1$1@3 $acc.0$1@1))
-(= $acc.0$2@2 (ite p1$2@1 $acc.1$2@3 $acc.0$2@1))
-(= $i.0$1@2 (ite p1$1@1 (bvadd $i.0$1@1 #x00000001) $i.0$1@1))
-(= $i.0$2@2 (ite p1$2@1 (bvadd $i.0$2@1 #x00000001) $i.0$2@1))
-(= p0$1@3 (ite p1$1@1 true p0$1@2))
-(= p0$2@3 (ite p1$2@1 true p0$2@2))) (and
-(=> (= (ControlFlow 0 7985) 8973) $for.cond.backedge_correct)
-(=> (= (ControlFlow 0 7985) 8067) $for.cond.tail_correct))))))
-(let ((inline$$bugle_barrier$1$Return_correct (=> (and %lbl%+7981 true) (=> (= (ControlFlow 0 7981) 7985) $for.cond5.tail$1_correct))))
-(let ((inline$$bugle_barrier$1$anon18_Else_correct (=> (and %lbl%+7969 true) (=> (and
-(not (and
-p1$2@1
-(= inline$$bugle_barrier$1$$1$2@1 #b1)))
-(= (ControlFlow 0 7969) 7981)) inline$$bugle_barrier$1$Return_correct))))
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-p1$2@1
-(= inline$$bugle_barrier$1$$1$2@1 #b1)
-(= (ControlFlow 0 7971) 7981)) inline$$bugle_barrier$1$Return_correct))))
-(let ((inline$$bugle_barrier$1$anon9_correct (=> (and %lbl%+7967 true) (and
-(=> (= (ControlFlow 0 7967) 7971) inline$$bugle_barrier$1$anon18_Then_correct)
-(=> (= (ControlFlow 0 7967) 7969) inline$$bugle_barrier$1$anon18_Else_correct)))))
-(let ((inline$$bugle_barrier$1$anon17_Else_correct (=> (and %lbl%+7965 true) (=> (and
-(not (and
-p1$1@1
-(= inline$$bugle_barrier$1$$1$1@1 #b1)))
-(= (ControlFlow 0 7965) 7967)) inline$$bugle_barrier$1$anon9_correct))))
-(let ((inline$$bugle_barrier$1$anon17_Then_correct (=> (and %lbl%+7973 true) (=> (and
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-(= inline$$bugle_barrier$1$$1$1@1 #b1)) (=> (and
-(=> (and
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2)) (not _READ_HAS_OCCURRED_$$pos$1@8))
-(=> (and
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2)) (not _WRITE_HAS_OCCURRED_$$pos$1))
-(=> (and
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-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2)) (not _READ_HAS_OCCURRED_$$vel$1))
-(=> (and
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2)) (not _WRITE_HAS_OCCURRED_$$vel$1))
-(=> (and
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2)) (not _READ_HAS_OCCURRED_$$newPosition$1))
-(=> (and
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2)) (not _WRITE_HAS_OCCURRED_$$newPosition$1))
-(=> (and
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2)) (not _READ_HAS_OCCURRED_$$newVelocity$1))
-(=> (and
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2)) (not _WRITE_HAS_OCCURRED_$$newVelocity$1))) (and
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-(=> (= (ControlFlow 0 7973) 7969) inline$$bugle_barrier$1$anon18_Else_correct)))))))
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-(=> (= (ControlFlow 0 7963) 7973) inline$$bugle_barrier$1$anon17_Then_correct)
-(=> (= (ControlFlow 0 7963) 7965) inline$$bugle_barrier$1$anon17_Else_correct)))))
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-(not (and
-p1$2@1
-(= inline$$bugle_barrier$1$$0$2@1 #b1)))
-(= (ControlFlow 0 7961) 7963)) inline$$bugle_barrier$1$anon4_correct))))
-(let ((inline$$bugle_barrier$1$anon16_Then_correct (=> (and %lbl%+7975 true) (=> (and
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-(= inline$$bugle_barrier$1$$0$2@1 #b1)) (and
-(=> (= (ControlFlow 0 7975) 7973) inline$$bugle_barrier$1$anon17_Then_correct)
-(=> (= (ControlFlow 0 7975) 7965) inline$$bugle_barrier$1$anon17_Else_correct))))))
-(let ((inline$$bugle_barrier$1$anon2_correct (=> (and %lbl%+7959 true) (and
-(=> (= (ControlFlow 0 7959) 7975) inline$$bugle_barrier$1$anon16_Then_correct)
-(=> (= (ControlFlow 0 7959) 7961) inline$$bugle_barrier$1$anon16_Else_correct)))))
-(let ((inline$$bugle_barrier$1$anon15_Else_correct (=> (and %lbl%+7957 true) (=> (and
-(not (and
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-(= inline$$bugle_barrier$1$$0$1@1 #b1)))
-(= (ControlFlow 0 7957) 7959)) inline$$bugle_barrier$1$anon2_correct))))
-(let ((inline$$bugle_barrier$1$anon15_Then_correct (=> (and %lbl%+7977 true) (=> (and
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-(= inline$$bugle_barrier$1$$0$1@1 #b1)
-(not _READ_HAS_OCCURRED_$$localPos$1@6)
-(not _WRITE_HAS_OCCURRED_$$localPos$1@4)) (and
-(=> (= (ControlFlow 0 7977) 7975) inline$$bugle_barrier$1$anon16_Then_correct)
-(=> (= (ControlFlow 0 7977) 7961) inline$$bugle_barrier$1$anon16_Else_correct))))))
-(let ((inline$$bugle_barrier$1$anon14_Else_correct (=> (and %lbl%+7955 true) (=> (not (or
-(and
-(not p1$1@1)
-(not p1$2@1))
-(and
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2)
-(or
-(not p1$1@1)
-(not p1$2@1))))) (and
-(=> (= (ControlFlow 0 7955) 7977) inline$$bugle_barrier$1$anon15_Then_correct)
-(=> (= (ControlFlow 0 7955) 7957) inline$$bugle_barrier$1$anon15_Else_correct))))))
-(let ((inline$$bugle_barrier$1$anon14_Then_correct (=> (and %lbl%+7979 true) (=> (and
-(or
-(and
-(not p1$1@1)
-(not p1$2@1))
-(and
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2)
-(or
-(not p1$1@1)
-(not p1$2@1))))
-(= (ControlFlow 0 7979) 7985)) $for.cond5.tail$1_correct))))
-(let ((inline$$bugle_barrier$1$Entry_correct (=> (and %lbl%+7951 true) (=> (and
-(= inline$$bugle_barrier$1$$0$1@1 (ite true #b1 #b0))
-(= inline$$bugle_barrier$1$$1$1@1 (ite false #b1 #b0))
-(= inline$$bugle_barrier$1$$0$2@1 (ite true #b1 #b0))
-(= inline$$bugle_barrier$1$$1$2@1 (ite false #b1 #b0))) (and
-(or %lbl%@27100 (=> (= (ControlFlow 0 7951) (- 0 27100)) (=> (and
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2)) (= p1$1@1 p1$2@1))))
-(=> (=> (and
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2)) (= p1$1@1 p1$2@1)) (and
-(=> (= (ControlFlow 0 7951) 7979) inline$$bugle_barrier$1$anon14_Then_correct)
-(=> (= (ControlFlow 0 7951) 7955) inline$$bugle_barrier$1$anon14_Else_correct))))))))
-(let (($for.cond5.tail_correct (=> (and %lbl%+7983 true) (=> (not p2$1@4) (=> (and
-(not p2$2@4)
-(= (ControlFlow 0 7983) 7951)) inline$$bugle_barrier$1$Entry_correct)))))
-(let (($for.cond5.backedge_correct (=> (and %lbl%+8975 true) (=> (or
-p2$1@4
-p2$2@4) (and
-(or %lbl%@26466 (=> (= (ControlFlow 0 8975) (- 0 26466)) (=> _b11 (=> _READ_HAS_OCCURRED_$$localPos$1@6 (or
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1@6) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvmul #x00000000 #x00000004)))
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1@6) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000001)))
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1@6) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000002)))
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1@6) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000003)))
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1@6) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000003))))))))
-(=> (=> _b11 (=> _READ_HAS_OCCURRED_$$localPos$1@6 (or
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-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1@6) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000001)))
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1@6) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000002)))
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1@6) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000003)))
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1@6) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000003)))))) (and
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-(= _READ_SOURCE_$$vel$1 #x00000007)
-(= _READ_SOURCE_$$vel$1 #x00000008)))))
-(=> (=> _READ_HAS_OCCURRED_$$vel$1 (or
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-(= _READ_SOURCE_$$vel$1 #x00000006)
-(= _READ_SOURCE_$$vel$1 #x00000007)
-(= _READ_SOURCE_$$vel$1 #x00000008))) (and
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-(=> (=> _WRITE_HAS_OCCURRED_$$vel$1 false) (and
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-(=> (=> (not _READ_HAS_OCCURRED_$$vel$1) (= _READ_SOURCE_$$vel$1 #x00000000)) (and
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-(=> (=> (not _WRITE_HAS_OCCURRED_$$vel$1) (= _WRITE_SOURCE_$$vel$1 #x00000000)) (and
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-(= _READ_SOURCE_$$pos$1@8 #x00000002)
-(= _READ_SOURCE_$$pos$1@8 #x00000003)
-(= _READ_SOURCE_$$pos$1@8 #x00000004)
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-(= _READ_SOURCE_$$pos$1@8 #x00000012)
-(= _READ_SOURCE_$$pos$1@8 #x00000013)
-(= _READ_SOURCE_$$pos$1@8 #x00000014)))))
-(=> (=> _READ_HAS_OCCURRED_$$pos$1@8 (or
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-(= _READ_SOURCE_$$pos$1@8 #x00000004)
-(= _READ_SOURCE_$$pos$1@8 #x00000011)
-(= _READ_SOURCE_$$pos$1@8 #x00000012)
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-(= _READ_SOURCE_$$pos$1@8 #x00000014))) (and
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-(=> (=> (not _WRITE_HAS_OCCURRED_$$pos$1) (= _WRITE_SOURCE_$$pos$1 #x00000000)) (and
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-(= _READ_SOURCE_$$localPos$1@6 #x0000001a)
-(= _READ_SOURCE_$$localPos$1@6 #x0000001b)
-(= _READ_SOURCE_$$localPos$1@6 #x0000001c)
-(= _READ_SOURCE_$$localPos$1@6 #x0000001d)))))
-(=> (=> _READ_HAS_OCCURRED_$$localPos$1@6 (or
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-(= _READ_SOURCE_$$localPos$1@6 #x0000001a)
-(= _READ_SOURCE_$$localPos$1@6 #x0000001b)
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-(= _WRITE_SOURCE_$$localPos$1@4 #x00000017)
-(= _WRITE_SOURCE_$$localPos$1@4 #x00000018)))))
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-(=> (=> _READ_HAS_OCCURRED_$$newVelocity$1 false) (and
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-(= _WRITE_SOURCE_$$newVelocity$1 #x0000000e)
-(= _WRITE_SOURCE_$$newVelocity$1 #x0000000f)
-(= _WRITE_SOURCE_$$newVelocity$1 #x00000010)))))
-(=> (=> _WRITE_HAS_OCCURRED_$$newVelocity$1 (or
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-(= _WRITE_SOURCE_$$newVelocity$1 #x0000000e)
-(= _WRITE_SOURCE_$$newVelocity$1 #x0000000f)
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-(=> (=> (not _READ_HAS_OCCURRED_$$newVelocity$1) (= _READ_SOURCE_$$newVelocity$1 #x00000000)) (and
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-(=> (=> (not _WRITE_HAS_OCCURRED_$$newVelocity$1) (= _WRITE_SOURCE_$$newVelocity$1 #x00000000)) (and
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-(=> (=> _READ_HAS_OCCURRED_$$newPosition$1 false) (and
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-(= _WRITE_SOURCE_$$newPosition$1 #x0000000a)
-(= _WRITE_SOURCE_$$newPosition$1 #x0000000b)
-(= _WRITE_SOURCE_$$newPosition$1 #x0000000c)))))
-(=> (=> _WRITE_HAS_OCCURRED_$$newPosition$1 (or
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-(= _WRITE_SOURCE_$$newPosition$1 #x0000000b)
-(= _WRITE_SOURCE_$$newPosition$1 #x0000000c))) (and
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-(=> (=> (not _READ_HAS_OCCURRED_$$newPosition$1) (= _READ_SOURCE_$$newPosition$1 #x00000000)) (and
-(or %lbl%@27012 (=> (= (ControlFlow 0 8975) (- 0 27012)) (=> (not _WRITE_HAS_OCCURRED_$$newPosition$1) (= _WRITE_SOURCE_$$newPosition$1 #x00000000))))
-(=> (=> (not _WRITE_HAS_OCCURRED_$$newPosition$1) (= _WRITE_SOURCE_$$newPosition$1 #x00000000)) (and
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-(=> (=> p2$1@4 p0$1@2) (and
-(or %lbl%@27028 (=> (= (ControlFlow 0 8975) (- 0 27028)) (=> p2$2@4 p0$2@2)))
-(=> (=> p2$2@4 p0$2@2) true))))))))))))))))))))))))))))))))))))))))))))))))))
-(let (($for.cond5$5_correct (=> (and %lbl%+7448 true) (=> (= call3008formal@_offset$2@0 (bvadd (bvmul $j.0$2@2 #x00000004) #x00000003)) (and
-(or %lbl%@26241 (=> (= (ControlFlow 0 7448) (- 0 26241)) (not (and
-p3$2@2
-_WRITE_HAS_OCCURRED_$$localPos$1@4
-(= _WRITE_OFFSET_$$localPos$1@4 call3008formal@_offset$2@0)
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2)))))
-(=> (not (and
-p3$2@2
-_WRITE_HAS_OCCURRED_$$localPos$1@4
-(= _WRITE_OFFSET_$$localPos$1@4 call3008formal@_offset$2@0)
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2))) (=> (and
-(= v22$1@2 (ite p3$1@2 (FMUL32 v21$1@2 (FMUL32 (FMUL32 v20$1@2 v20$1@2) v20$1@2)) v22$1@1))
-(= v22$2@2 (ite p3$2@2 (FMUL32 v21$2@2 (FMUL32 (FMUL32 v20$2@2 v20$2@2) v20$2@2)) v22$2@1))) (=> (and
-(= $acc.1$1@3 (ite p3$1@2 (concat (concat (concat (FADD32 ((_ extract 127 96) $acc.1$1@2) (FMUL32 v22$1@2 (FSUB32 v16$1@2 v6$1@0))) (FADD32 ((_ extract 95 64) $acc.1$1@2) (FMUL32 v22$1@2 v19$1@2))) (FADD32 ((_ extract 63 32) $acc.1$1@2) (FMUL32 v22$1@2 v18$1@2))) (FADD32 ((_ extract 31 0) $acc.1$1@2) (FMUL32 v22$1@2 v17$1@2))) $acc.1$1@2))
-(= $acc.1$2@3 (ite p3$2@2 (concat (concat (concat (FADD32 ((_ extract 127 96) $acc.1$2@2) (FMUL32 v22$2@2 (FSUB32 v16$2@2 v6$2@0))) (FADD32 ((_ extract 95 64) $acc.1$2@2) (FMUL32 v22$2@2 v19$2@2))) (FADD32 ((_ extract 63 32) $acc.1$2@2) (FMUL32 v22$2@2 v18$2@2))) (FADD32 ((_ extract 31 0) $acc.1$2@2) (FMUL32 v22$2@2 v17$2@2))) $acc.1$2@2))
-(= $j.0$1@3 (ite p3$1@2 (bvadd $j.0$1@2 #x00000001) $j.0$1@2))
-(= $j.0$2@3 (ite p3$2@2 (bvadd $j.0$2@2 #x00000001) $j.0$2@2))
-(= p2$1@4 (ite p3$1@2 true p2$1@3))
-(= p2$2@4 (ite p3$2@2 true p2$2@3))) (and
-(=> (= (ControlFlow 0 7448) 8975) $for.cond5.backedge_correct)
-(=> (= (ControlFlow 0 7448) 7983) $for.cond5.tail_correct))))))))))
-(let ((inline$_LOG_READ_$$localPos$4$_LOG_READ_correct (=> (and %lbl%+7442 true) (=> (and
-(= _READ_HAS_OCCURRED_$$localPos$1@6 (ite (and
-p3$1@2
-inline$_LOG_READ_$$localPos$4$track@2) true _READ_HAS_OCCURRED_$$localPos$1@5))
-(= _READ_OFFSET_$$localPos$1@6 (ite (and
-p3$1@2
-inline$_LOG_READ_$$localPos$4$track@2) inline$_LOG_READ_$$localPos$4$_offset$1@2 _READ_OFFSET_$$localPos$1@5))
-(= _READ_SOURCE_$$localPos$1@6 (ite (and
-p3$1@2
-inline$_LOG_READ_$$localPos$4$track@2) #x0000001d _READ_SOURCE_$$localPos$1@5))
-(= (ControlFlow 0 7442) 7448)) $for.cond5$5_correct))))
-(let ((inline$_LOG_READ_$$localPos$4$Entry_correct (=> (and %lbl%+7440 true) (=> (and
-(= inline$_LOG_READ_$$localPos$4$_offset$1@2 (bvadd (bvmul $j.0$1@2 #x00000004) #x00000003))
-(= (ControlFlow 0 7440) 7442)) inline$_LOG_READ_$$localPos$4$_LOG_READ_correct))))
-(let (($for.cond5$4_correct (=> (and %lbl%+7446 true) (=> (= call2839formal@_offset$2@0 (bvadd (bvmul $j.0$2@2 #x00000004) #x00000003)) (and
-(or %lbl%@25932 (=> (= (ControlFlow 0 7446) (- 0 25932)) (not (and
-p3$2@2
-_WRITE_HAS_OCCURRED_$$localPos$1@4
-(= _WRITE_OFFSET_$$localPos$1@4 call2839formal@_offset$2@0)
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2)))))
-(=> (not (and
-p3$2@2
-_WRITE_HAS_OCCURRED_$$localPos$1@4
-(= _WRITE_OFFSET_$$localPos$1@4 call2839formal@_offset$2@0)
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2))) (=> (and
-(= v17$1@2 (ite p3$1@2 (FSUB32 v13$1@2 v3$1@0) v17$1@1))
-(= v17$2@2 (ite p3$2@2 (FSUB32 v13$2@2 v3$2@0) v17$2@1))
-(= v18$1@2 (ite p3$1@2 (FSUB32 v14$1@2 v4$1@0) v18$1@1))
-(= v18$2@2 (ite p3$2@2 (FSUB32 v14$2@2 v4$2@0) v18$2@1))
-(= v19$1@2 (ite p3$1@2 (FSUB32 v15$1@2 v5$1@0) v19$1@1))
-(= v19$2@2 (ite p3$2@2 (FSUB32 v15$2@2 v5$2@0) v19$2@1))
-(= v20$1@2 (ite p3$1@2 (FDIV32 #x3f800000 (FSQRT32 (FADD32 (FADD32 (FADD32 (FMUL32 v17$1@2 v17$1@2) (FMUL32 v18$1@2 v18$1@2)) (FMUL32 v19$1@2 v19$1@2)) $epsSqr$1))) v20$1@1))
-(= v20$2@2 (ite p3$2@2 (FDIV32 #x3f800000 (FSQRT32 (FADD32 (FADD32 (FADD32 (FMUL32 v17$2@2 v17$2@2) (FMUL32 v18$2@2 v18$2@2)) (FMUL32 v19$2@2 v19$2@2)) $epsSqr$2))) v20$2@1))) (and
-(or %lbl%@26120 (=> (= (ControlFlow 0 7446) (- 0 26120)) (=> p3$1@2 true)))
-(=> (=> p3$1@2 true) (=> (and
-(= v21$1@2 (ite p3$1@2 _HAVOC_bv32$1@14 v21$1@1))
-(= v21$2@2 (ite p3$2@2 _HAVOC_bv32$2@14 v21$2@1))
-(= (ControlFlow 0 7446) 7440)) inline$_LOG_READ_$$localPos$4$Entry_correct))))))))))
-(let ((inline$_LOG_READ_$$localPos$3$_LOG_READ_correct (=> (and %lbl%+7360 true) (=> (and
-(= _READ_HAS_OCCURRED_$$localPos$1@5 (ite (and
-p3$1@2
-inline$_LOG_READ_$$localPos$3$track@2) true _READ_HAS_OCCURRED_$$localPos$1@4))
-(= _READ_OFFSET_$$localPos$1@5 (ite (and
-p3$1@2
-inline$_LOG_READ_$$localPos$3$track@2) inline$_LOG_READ_$$localPos$3$_offset$1@2 _READ_OFFSET_$$localPos$1@4))
-(= _READ_SOURCE_$$localPos$1@5 (ite (and
-p3$1@2
-inline$_LOG_READ_$$localPos$3$track@2) #x0000001c _READ_SOURCE_$$localPos$1@4))
-(= (ControlFlow 0 7360) 7446)) $for.cond5$4_correct))))
-(let ((inline$_LOG_READ_$$localPos$3$Entry_correct (=> (and %lbl%+7358 true) (=> (and
-(= inline$_LOG_READ_$$localPos$3$_offset$1@2 (bvadd (bvmul $j.0$1@2 #x00000004) #x00000003))
-(= (ControlFlow 0 7358) 7360)) inline$_LOG_READ_$$localPos$3$_LOG_READ_correct))))
-(let (($for.cond5$3_correct (=> (and %lbl%+7364 true) (=> (= call2786formal@_offset$2@0 (bvadd (bvmul $j.0$2@2 #x00000004) #x00000002)) (and
-(or %lbl%@25775 (=> (= (ControlFlow 0 7364) (- 0 25775)) (not (and
-p3$2@2
-_WRITE_HAS_OCCURRED_$$localPos$1@4
-(= _WRITE_OFFSET_$$localPos$1@4 call2786formal@_offset$2@0)
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2)))))
-(=> (not (and
-p3$2@2
-_WRITE_HAS_OCCURRED_$$localPos$1@4
-(= _WRITE_OFFSET_$$localPos$1@4 call2786formal@_offset$2@0)
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2))) (and
-(or %lbl%@25811 (=> (= (ControlFlow 0 7364) (- 0 25811)) (=> p3$1@2 true)))
-(=> (=> p3$1@2 true) (=> (and
-(= v16$1@2 (ite p3$1@2 _HAVOC_bv32$1@13 v16$1@1))
-(= v16$2@2 (ite p3$2@2 _HAVOC_bv32$2@13 v16$2@1))
-(= (ControlFlow 0 7364) 7358)) inline$_LOG_READ_$$localPos$3$Entry_correct)))))))))
-(let ((inline$_LOG_READ_$$localPos$2$_LOG_READ_correct (=> (and %lbl%+7278 true) (=> (and
-(= _READ_HAS_OCCURRED_$$localPos$1@4 (ite (and
-p3$1@2
-inline$_LOG_READ_$$localPos$2$track@2) true _READ_HAS_OCCURRED_$$localPos$1@3))
-(= _READ_OFFSET_$$localPos$1@4 (ite (and
-p3$1@2
-inline$_LOG_READ_$$localPos$2$track@2) inline$_LOG_READ_$$localPos$2$_offset$1@2 _READ_OFFSET_$$localPos$1@3))
-(= _READ_SOURCE_$$localPos$1@4 (ite (and
-p3$1@2
-inline$_LOG_READ_$$localPos$2$track@2) #x0000001b _READ_SOURCE_$$localPos$1@3))
-(= (ControlFlow 0 7278) 7364)) $for.cond5$3_correct))))
-(let ((inline$_LOG_READ_$$localPos$2$Entry_correct (=> (and %lbl%+7276 true) (=> (and
-(= inline$_LOG_READ_$$localPos$2$_offset$1@2 (bvadd (bvmul $j.0$1@2 #x00000004) #x00000002))
-(= (ControlFlow 0 7276) 7278)) inline$_LOG_READ_$$localPos$2$_LOG_READ_correct))))
-(let (($for.cond5$2_correct (=> (and %lbl%+7282 true) (=> (= call2733formal@_offset$2@0 (bvadd (bvmul $j.0$2@2 #x00000004) #x00000001)) (and
-(or %lbl%@25618 (=> (= (ControlFlow 0 7282) (- 0 25618)) (not (and
-p3$2@2
-_WRITE_HAS_OCCURRED_$$localPos$1@4
-(= _WRITE_OFFSET_$$localPos$1@4 call2733formal@_offset$2@0)
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2)))))
-(=> (not (and
-p3$2@2
-_WRITE_HAS_OCCURRED_$$localPos$1@4
-(= _WRITE_OFFSET_$$localPos$1@4 call2733formal@_offset$2@0)
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2))) (and
-(or %lbl%@25654 (=> (= (ControlFlow 0 7282) (- 0 25654)) (=> p3$1@2 true)))
-(=> (=> p3$1@2 true) (=> (and
-(= v15$1@2 (ite p3$1@2 _HAVOC_bv32$1@12 v15$1@1))
-(= v15$2@2 (ite p3$2@2 _HAVOC_bv32$2@12 v15$2@1))
-(= (ControlFlow 0 7282) 7276)) inline$_LOG_READ_$$localPos$2$Entry_correct)))))))))
-(let ((inline$_LOG_READ_$$localPos$1$_LOG_READ_correct (=> (and %lbl%+7196 true) (=> (and
-(= _READ_HAS_OCCURRED_$$localPos$1@3 (ite (and
-p3$1@2
-inline$_LOG_READ_$$localPos$1$track@2) true _READ_HAS_OCCURRED_$$localPos$1@2))
-(= _READ_OFFSET_$$localPos$1@3 (ite (and
-p3$1@2
-inline$_LOG_READ_$$localPos$1$track@2) inline$_LOG_READ_$$localPos$1$_offset$1@2 _READ_OFFSET_$$localPos$1@2))
-(= _READ_SOURCE_$$localPos$1@3 (ite (and
-p3$1@2
-inline$_LOG_READ_$$localPos$1$track@2) #x0000001a _READ_SOURCE_$$localPos$1@2))
-(= (ControlFlow 0 7196) 7282)) $for.cond5$2_correct))))
-(let ((inline$_LOG_READ_$$localPos$1$Entry_correct (=> (and %lbl%+7194 true) (=> (and
-(= inline$_LOG_READ_$$localPos$1$_offset$1@2 (bvadd (bvmul $j.0$1@2 #x00000004) #x00000001))
-(= (ControlFlow 0 7194) 7196)) inline$_LOG_READ_$$localPos$1$_LOG_READ_correct))))
-(let (($for.cond5$1_correct (=> (and %lbl%+7200 true) (=> (= call2680formal@_offset$2@0 (bvmul $j.0$2@2 #x00000004)) (and
-(or %lbl%@25461 (=> (= (ControlFlow 0 7200) (- 0 25461)) (not (and
-p3$2@2
-_WRITE_HAS_OCCURRED_$$localPos$1@4
-(= _WRITE_OFFSET_$$localPos$1@4 call2680formal@_offset$2@0)
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2)))))
-(=> (not (and
-p3$2@2
-_WRITE_HAS_OCCURRED_$$localPos$1@4
-(= _WRITE_OFFSET_$$localPos$1@4 call2680formal@_offset$2@0)
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2))) (and
-(or %lbl%@25497 (=> (= (ControlFlow 0 7200) (- 0 25497)) (=> p3$1@2 true)))
-(=> (=> p3$1@2 true) (=> (and
-(= v14$1@2 (ite p3$1@2 _HAVOC_bv32$1@11 v14$1@1))
-(= v14$2@2 (ite p3$2@2 _HAVOC_bv32$2@11 v14$2@1))
-(= (ControlFlow 0 7200) 7194)) inline$_LOG_READ_$$localPos$1$Entry_correct)))))))))
-(let ((inline$_LOG_READ_$$localPos$0$_LOG_READ_correct (=> (and %lbl%+7114 true) (=> (and
-(= _READ_HAS_OCCURRED_$$localPos$1@2 (ite (and
-p3$1@2
-inline$_LOG_READ_$$localPos$0$track@2) true _READ_HAS_OCCURRED_$$localPos$1@1))
-(= _READ_OFFSET_$$localPos$1@2 (ite (and
-p3$1@2
-inline$_LOG_READ_$$localPos$0$track@2) inline$_LOG_READ_$$localPos$0$_offset$1@2 _READ_OFFSET_$$localPos$1@1))
-(= _READ_SOURCE_$$localPos$1@2 (ite (and
-p3$1@2
-inline$_LOG_READ_$$localPos$0$track@2) #x00000019 _READ_SOURCE_$$localPos$1@1))
-(= (ControlFlow 0 7114) 7200)) $for.cond5$1_correct))))
-(let ((inline$_LOG_READ_$$localPos$0$Entry_correct (=> (and %lbl%+7112 true) (=> (and
-(= inline$_LOG_READ_$$localPos$0$_offset$1@2 (bvmul $j.0$1@2 #x00000004))
-(= (ControlFlow 0 7112) 7114)) inline$_LOG_READ_$$localPos$0$_LOG_READ_correct))))
-(let (($for.cond5_correct (=> (and %lbl%+7118 true) (=> (=> _b11 (=> _READ_HAS_OCCURRED_$$localPos$1@1 (or
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1@1) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvmul #x00000000 #x00000004)))
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1@1) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000001)))
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1@1) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000002)))
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1@1) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000003)))
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1@1) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000003)))))) (=> (and
-(=> _READ_HAS_OCCURRED_$$vel$1 (or
-(= _READ_SOURCE_$$vel$1 #x00000005)
-(= _READ_SOURCE_$$vel$1 #x00000006)
-(= _READ_SOURCE_$$vel$1 #x00000007)
-(= _READ_SOURCE_$$vel$1 #x00000008)))
-(=> _WRITE_HAS_OCCURRED_$$vel$1 false)
-(=> (not _READ_HAS_OCCURRED_$$vel$1) (= _READ_SOURCE_$$vel$1 #x00000000))
-(=> (not _WRITE_HAS_OCCURRED_$$vel$1) (= _WRITE_SOURCE_$$vel$1 #x00000000))) (=> (and
-(=> _READ_HAS_OCCURRED_$$pos$1@8 (or
-(= _READ_SOURCE_$$pos$1@8 #x00000001)
-(= _READ_SOURCE_$$pos$1@8 #x00000002)
-(= _READ_SOURCE_$$pos$1@8 #x00000003)
-(= _READ_SOURCE_$$pos$1@8 #x00000004)
-(= _READ_SOURCE_$$pos$1@8 #x00000011)
-(= _READ_SOURCE_$$pos$1@8 #x00000012)
-(= _READ_SOURCE_$$pos$1@8 #x00000013)
-(= _READ_SOURCE_$$pos$1@8 #x00000014)))
-(=> _WRITE_HAS_OCCURRED_$$pos$1 false)
-(=> (not _READ_HAS_OCCURRED_$$pos$1@8) (= _READ_SOURCE_$$pos$1@8 #x00000000))
-(=> (not _WRITE_HAS_OCCURRED_$$pos$1) (= _WRITE_SOURCE_$$pos$1 #x00000000))
-(=> _READ_HAS_OCCURRED_$$localPos$1@1 (or
-(= _READ_SOURCE_$$localPos$1@1 #x00000019)
-(= _READ_SOURCE_$$localPos$1@1 #x0000001a)
-(= _READ_SOURCE_$$localPos$1@1 #x0000001b)
-(= _READ_SOURCE_$$localPos$1@1 #x0000001c)
-(= _READ_SOURCE_$$localPos$1@1 #x0000001d)))
-(=> _WRITE_HAS_OCCURRED_$$localPos$1@4 (or
-(= _WRITE_SOURCE_$$localPos$1@4 #x00000015)
-(= _WRITE_SOURCE_$$localPos$1@4 #x00000016)
-(= _WRITE_SOURCE_$$localPos$1@4 #x00000017)
-(= _WRITE_SOURCE_$$localPos$1@4 #x00000018)))
-(=> (not _READ_HAS_OCCURRED_$$localPos$1@1) (= _READ_SOURCE_$$localPos$1@1 #x00000000))
-(=> (not _WRITE_HAS_OCCURRED_$$localPos$1@4) (= _WRITE_SOURCE_$$localPos$1@4 #x00000000))) (=> (and
-(=> _READ_HAS_OCCURRED_$$newVelocity$1 false)
-(=> _WRITE_HAS_OCCURRED_$$newVelocity$1 (or
-(= _WRITE_SOURCE_$$newVelocity$1 #x0000000d)
-(= _WRITE_SOURCE_$$newVelocity$1 #x0000000e)
-(= _WRITE_SOURCE_$$newVelocity$1 #x0000000f)
-(= _WRITE_SOURCE_$$newVelocity$1 #x00000010)))
-(=> (not _READ_HAS_OCCURRED_$$newVelocity$1) (= _READ_SOURCE_$$newVelocity$1 #x00000000))
-(=> (not _WRITE_HAS_OCCURRED_$$newVelocity$1) (= _WRITE_SOURCE_$$newVelocity$1 #x00000000))
-(=> _READ_HAS_OCCURRED_$$newPosition$1 false)
-(=> _WRITE_HAS_OCCURRED_$$newPosition$1 (or
-(= _WRITE_SOURCE_$$newPosition$1 #x00000009)
-(= _WRITE_SOURCE_$$newPosition$1 #x0000000a)
-(= _WRITE_SOURCE_$$newPosition$1 #x0000000b)
-(= _WRITE_SOURCE_$$newPosition$1 #x0000000c)))
-(=> (not _READ_HAS_OCCURRED_$$newPosition$1) (= _READ_SOURCE_$$newPosition$1 #x00000000))
-(=> (not _WRITE_HAS_OCCURRED_$$newPosition$1) (= _WRITE_SOURCE_$$newPosition$1 #x00000000))
-(=> p2$1@2 p0$1@2)
-(=> p2$2@2 p0$2@2)
-(= v12$1@2 (ite p2$1@2 (bvult $j.0$1@2 v2$1@0) v12$1@1))
-(= v12$2@2 (ite p2$2@2 (bvult $j.0$2@2 v2$2@0) v12$2@1))
-(= p3$1@2 (ite p2$1@2 v12$1@2 false))
-(= p3$2@2 (ite p2$2@2 v12$2@2 false))
-(= p2$1@3 (ite p2$1@2 v12$1@2 p2$1@2))
-(= p2$2@3 (ite p2$2@2 v12$2@2 p2$2@2))) (and
-(or %lbl%@25348 (=> (= (ControlFlow 0 7118) (- 0 25348)) (=> p3$1@2 true)))
-(=> (=> p3$1@2 true) (=> (and
-(= v13$1@2 (ite p3$1@2 _HAVOC_bv32$1@10 v13$1@1))
-(= v13$2@2 (ite p3$2@2 _HAVOC_bv32$2@10 v13$2@1))
-(= (ControlFlow 0 7118) 7112)) inline$_LOG_READ_$$localPos$0$Entry_correct))))))))))
-(let (($for.cond$9_correct (=> (and %lbl%+7036 true) (=> (and
-(= $acc.1$1@1 (ite p1$1@1 $acc.0$1@1 $acc.1$1@0))
-(= $acc.1$2@1 (ite p1$2@1 $acc.0$2@1 $acc.1$2@0))
-(= $j.0$1@1 (ite p1$1@1 #x00000000 $j.0$1@0))
-(= $j.0$2@1 (ite p1$2@1 #x00000000 $j.0$2@0))
-(= p2$1@1 (ite p1$1@1 true false))
-(= p2$2@1 (ite p1$2@1 true false))) (and
-(or %lbl%@23930 (=> (= (ControlFlow 0 7036) (- 0 23930)) (=> _b11 (=> _READ_HAS_OCCURRED_$$localPos$1@0 (or
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1@0) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvmul #x00000000 #x00000004)))
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1@0) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000001)))
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1@0) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000002)))
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1@0) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000003)))
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1@0) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000003))))))))
-(=> (=> _b11 (=> _READ_HAS_OCCURRED_$$localPos$1@0 (or
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1@0) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvmul #x00000000 #x00000004)))
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1@0) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000001)))
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1@0) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000002)))
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1@0) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000003)))
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1@0) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000003)))))) (and
-(or %lbl%@24126 (=> (= (ControlFlow 0 7036) (- 0 24126)) (=> _READ_HAS_OCCURRED_$$vel$1 (or
-(= _READ_SOURCE_$$vel$1 #x00000005)
-(= _READ_SOURCE_$$vel$1 #x00000006)
-(= _READ_SOURCE_$$vel$1 #x00000007)
-(= _READ_SOURCE_$$vel$1 #x00000008)))))
-(=> (=> _READ_HAS_OCCURRED_$$vel$1 (or
-(= _READ_SOURCE_$$vel$1 #x00000005)
-(= _READ_SOURCE_$$vel$1 #x00000006)
-(= _READ_SOURCE_$$vel$1 #x00000007)
-(= _READ_SOURCE_$$vel$1 #x00000008))) (and
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-(=> (=> _WRITE_HAS_OCCURRED_$$vel$1 false) (and
-(or %lbl%@24166 (=> (= (ControlFlow 0 7036) (- 0 24166)) (=> (not _READ_HAS_OCCURRED_$$vel$1) (= _READ_SOURCE_$$vel$1 #x00000000))))
-(=> (=> (not _READ_HAS_OCCURRED_$$vel$1) (= _READ_SOURCE_$$vel$1 #x00000000)) (and
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-(=> (=> (not _WRITE_HAS_OCCURRED_$$vel$1) (= _WRITE_SOURCE_$$vel$1 #x00000000)) (and
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-(= _READ_SOURCE_$$pos$1@8 #x00000001)
-(= _READ_SOURCE_$$pos$1@8 #x00000002)
-(= _READ_SOURCE_$$pos$1@8 #x00000003)
-(= _READ_SOURCE_$$pos$1@8 #x00000004)
-(= _READ_SOURCE_$$pos$1@8 #x00000011)
-(= _READ_SOURCE_$$pos$1@8 #x00000012)
-(= _READ_SOURCE_$$pos$1@8 #x00000013)
-(= _READ_SOURCE_$$pos$1@8 #x00000014)))))
-(=> (=> _READ_HAS_OCCURRED_$$pos$1@8 (or
-(= _READ_SOURCE_$$pos$1@8 #x00000001)
-(= _READ_SOURCE_$$pos$1@8 #x00000002)
-(= _READ_SOURCE_$$pos$1@8 #x00000003)
-(= _READ_SOURCE_$$pos$1@8 #x00000004)
-(= _READ_SOURCE_$$pos$1@8 #x00000011)
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-(= _READ_SOURCE_$$pos$1@8 #x00000014))) (and
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-(=> (=> _WRITE_HAS_OCCURRED_$$pos$1 false) (and
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-(=> (=> (not _READ_HAS_OCCURRED_$$pos$1@8) (= _READ_SOURCE_$$pos$1@8 #x00000000)) (and
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-(=> (=> (not _WRITE_HAS_OCCURRED_$$pos$1) (= _WRITE_SOURCE_$$pos$1 #x00000000)) (and
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-(= _READ_SOURCE_$$localPos$1@0 #x0000001a)
-(= _READ_SOURCE_$$localPos$1@0 #x0000001b)
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-(= _WRITE_SOURCE_$$localPos$1@4 #x00000018)))))
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-(=> (=> (not _WRITE_HAS_OCCURRED_$$localPos$1@4) (= _WRITE_SOURCE_$$localPos$1@4 #x00000000)) (and
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-(= _WRITE_SOURCE_$$newPosition$1 #x0000000c)))))
-(=> (=> _WRITE_HAS_OCCURRED_$$newPosition$1 (or
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-(=> (=> (not _WRITE_HAS_OCCURRED_$$newPosition$1) (= _WRITE_SOURCE_$$newPosition$1 #x00000000)) (and
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-(=> (=> p2$2@1 p0$2@2) (=> (= (ControlFlow 0 7036) 7118) $for.cond5_correct)))))))))))))))))))))))))))))))))))))))))))))))))))
-(let ((inline$$bugle_barrier$0$Return_correct (=> (and %lbl%+7032 true) (=> (= (ControlFlow 0 7032) 7036) $for.cond$9_correct))))
-(let ((inline$$bugle_barrier$0$anon18_Else_correct (=> (and %lbl%+7020 true) (=> (and
-(not (and
-p1$2@1
-(= inline$$bugle_barrier$0$$1$2@1 #b1)))
-(= (ControlFlow 0 7020) 7032)) inline$$bugle_barrier$0$Return_correct))))
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-p1$2@1
-(= inline$$bugle_barrier$0$$1$2@1 #b1)
-(= (ControlFlow 0 7022) 7032)) inline$$bugle_barrier$0$Return_correct))))
-(let ((inline$$bugle_barrier$0$anon9_correct (=> (and %lbl%+7018 true) (and
-(=> (= (ControlFlow 0 7018) 7022) inline$$bugle_barrier$0$anon18_Then_correct)
-(=> (= (ControlFlow 0 7018) 7020) inline$$bugle_barrier$0$anon18_Else_correct)))))
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-(not (and
-p1$1@1
-(= inline$$bugle_barrier$0$$1$1@1 #b1)))
-(= (ControlFlow 0 7016) 7018)) inline$$bugle_barrier$0$anon9_correct))))
-(let ((inline$$bugle_barrier$0$anon17_Then_correct (=> (and %lbl%+7024 true) (=> (and
-p1$1@1
-(= inline$$bugle_barrier$0$$1$1@1 #b1)) (=> (and
-(=> (and
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2)) (not _READ_HAS_OCCURRED_$$pos$1@8))
-(=> (and
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2)) (not _WRITE_HAS_OCCURRED_$$pos$1))
-(=> (and
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2)) (not _READ_HAS_OCCURRED_$$vel$1))
-(=> (and
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2)) (not _WRITE_HAS_OCCURRED_$$vel$1))
-(=> (and
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2)) (not _READ_HAS_OCCURRED_$$newPosition$1))
-(=> (and
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2)) (not _WRITE_HAS_OCCURRED_$$newPosition$1))
-(=> (and
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2)) (not _READ_HAS_OCCURRED_$$newVelocity$1))
-(=> (and
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2)) (not _WRITE_HAS_OCCURRED_$$newVelocity$1))) (and
-(=> (= (ControlFlow 0 7024) 7022) inline$$bugle_barrier$0$anon18_Then_correct)
-(=> (= (ControlFlow 0 7024) 7020) inline$$bugle_barrier$0$anon18_Else_correct)))))))
-(let ((inline$$bugle_barrier$0$anon4_correct (=> (and %lbl%+7014 true) (and
-(=> (= (ControlFlow 0 7014) 7024) inline$$bugle_barrier$0$anon17_Then_correct)
-(=> (= (ControlFlow 0 7014) 7016) inline$$bugle_barrier$0$anon17_Else_correct)))))
-(let ((inline$$bugle_barrier$0$anon16_Else_correct (=> (and %lbl%+7012 true) (=> (and
-(not (and
-p1$2@1
-(= inline$$bugle_barrier$0$$0$2@1 #b1)))
-(= (ControlFlow 0 7012) 7014)) inline$$bugle_barrier$0$anon4_correct))))
-(let ((inline$$bugle_barrier$0$anon16_Then_correct (=> (and %lbl%+7026 true) (=> (and
-p1$2@1
-(= inline$$bugle_barrier$0$$0$2@1 #b1)) (and
-(=> (= (ControlFlow 0 7026) 7024) inline$$bugle_barrier$0$anon17_Then_correct)
-(=> (= (ControlFlow 0 7026) 7016) inline$$bugle_barrier$0$anon17_Else_correct))))))
-(let ((inline$$bugle_barrier$0$anon2_correct (=> (and %lbl%+7010 true) (and
-(=> (= (ControlFlow 0 7010) 7026) inline$$bugle_barrier$0$anon16_Then_correct)
-(=> (= (ControlFlow 0 7010) 7012) inline$$bugle_barrier$0$anon16_Else_correct)))))
-(let ((inline$$bugle_barrier$0$anon15_Else_correct (=> (and %lbl%+7008 true) (=> (and
-(not (and
-p1$1@1
-(= inline$$bugle_barrier$0$$0$1@1 #b1)))
-(= (ControlFlow 0 7008) 7010)) inline$$bugle_barrier$0$anon2_correct))))
-(let ((inline$$bugle_barrier$0$anon15_Then_correct (=> (and %lbl%+7028 true) (=> (and
-p1$1@1
-(= inline$$bugle_barrier$0$$0$1@1 #b1)
-(not _READ_HAS_OCCURRED_$$localPos$1@0)
-(not _WRITE_HAS_OCCURRED_$$localPos$1@4)) (and
-(=> (= (ControlFlow 0 7028) 7026) inline$$bugle_barrier$0$anon16_Then_correct)
-(=> (= (ControlFlow 0 7028) 7012) inline$$bugle_barrier$0$anon16_Else_correct))))))
-(let ((inline$$bugle_barrier$0$anon14_Else_correct (=> (and %lbl%+7006 true) (=> (not (or
-(and
-(not p1$1@1)
-(not p1$2@1))
-(and
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2)
-(or
-(not p1$1@1)
-(not p1$2@1))))) (and
-(=> (= (ControlFlow 0 7006) 7028) inline$$bugle_barrier$0$anon15_Then_correct)
-(=> (= (ControlFlow 0 7006) 7008) inline$$bugle_barrier$0$anon15_Else_correct))))))
-(let ((inline$$bugle_barrier$0$anon14_Then_correct (=> (and %lbl%+7030 true) (=> (and
-(or
-(and
-(not p1$1@1)
-(not p1$2@1))
-(and
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2)
-(or
-(not p1$1@1)
-(not p1$2@1))))
-(= (ControlFlow 0 7030) 7036)) $for.cond$9_correct))))
-(let ((inline$$bugle_barrier$0$Entry_correct (=> (and %lbl%+7002 true) (=> (and
-(= inline$$bugle_barrier$0$$0$1@1 (ite true #b1 #b0))
-(= inline$$bugle_barrier$0$$1$1@1 (ite false #b1 #b0))
-(= inline$$bugle_barrier$0$$0$2@1 (ite true #b1 #b0))
-(= inline$$bugle_barrier$0$$1$2@1 (ite false #b1 #b0))) (and
-(or %lbl%@23449 (=> (= (ControlFlow 0 7002) (- 0 23449)) (=> (and
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2)) (= p1$1@1 p1$2@1))))
-(=> (=> (and
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2)) (= p1$1@1 p1$2@1)) (and
-(=> (= (ControlFlow 0 7002) 7030) inline$$bugle_barrier$0$anon14_Then_correct)
-(=> (= (ControlFlow 0 7002) 7006) inline$$bugle_barrier$0$anon14_Else_correct))))))))
-(let (($for.cond$8_correct (=> (and %lbl%+7034 true) (=> (= call2152formal@_offset$2@0 (bvadd (bvmul v0$2@0 #x00000004) #x00000003)) (and
-(or %lbl%@23317 (=> (= (ControlFlow 0 7034) (- 0 23317)) (not (and
-p1$2@1
-_WRITE_HAS_OCCURRED_$$localPos$1@4
-(= _WRITE_OFFSET_$$localPos$1@4 call2152formal@_offset$2@0)
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2)))))
-(=> (not (and
-p1$2@1
-_WRITE_HAS_OCCURRED_$$localPos$1@4
-(= _WRITE_OFFSET_$$localPos$1@4 call2152formal@_offset$2@0)
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2))) (and
-(or %lbl%@23353 (=> (= (ControlFlow 0 7034) (- 0 23353)) (not (and
-p1$2@1
-_READ_HAS_OCCURRED_$$localPos$1@0
-(= _READ_OFFSET_$$localPos$1@0 call2152formal@_offset$2@0)
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2)))))
-(=> (not (and
-p1$2@1
-_READ_HAS_OCCURRED_$$localPos$1@0
-(= _READ_OFFSET_$$localPos$1@0 call2152formal@_offset$2@0)
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2))) (=> (= (ControlFlow 0 7034) 7002) inline$$bugle_barrier$0$Entry_correct)))))))))
-(let ((inline$_LOG_WRITE_$$localPos$3$_LOG_WRITE_correct (=> (and %lbl%+6495 true) (=> (and
-(= _WRITE_HAS_OCCURRED_$$localPos$1@4 (ite (and
-p1$1@1
-inline$_LOG_WRITE_$$localPos$3$track@1) true _WRITE_HAS_OCCURRED_$$localPos$1@3))
-(= _WRITE_OFFSET_$$localPos$1@4 (ite (and
-p1$1@1
-inline$_LOG_WRITE_$$localPos$3$track@1) inline$_LOG_WRITE_$$localPos$3$_offset$1@1 _WRITE_OFFSET_$$localPos$1@3))
-(= _WRITE_SOURCE_$$localPos$1@4 (ite (and
-p1$1@1
-inline$_LOG_WRITE_$$localPos$3$track@1) #x00000018 _WRITE_SOURCE_$$localPos$1@3))
-(= (ControlFlow 0 6495) 7034)) $for.cond$8_correct))))
-(let ((inline$_LOG_WRITE_$$localPos$3$Entry_correct (=> (and %lbl%+6493 true) (=> (and
-(= inline$_LOG_WRITE_$$localPos$3$_offset$1@1 (bvadd (bvmul v0$1@0 #x00000004) #x00000003))
-(= (ControlFlow 0 6493) 6495)) inline$_LOG_WRITE_$$localPos$3$_LOG_WRITE_correct))))
-(let (($for.cond$7_correct (=> (and %lbl%+6499 true) (=> (= call2115formal@_offset$2@0 (bvadd (bvmul v0$2@0 #x00000004) #x00000002)) (and
-(or %lbl%@23151 (=> (= (ControlFlow 0 6499) (- 0 23151)) (not (and
-p1$2@1
-_WRITE_HAS_OCCURRED_$$localPos$1@3
-(= _WRITE_OFFSET_$$localPos$1@3 call2115formal@_offset$2@0)
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2)))))
-(=> (not (and
-p1$2@1
-_WRITE_HAS_OCCURRED_$$localPos$1@3
-(= _WRITE_OFFSET_$$localPos$1@3 call2115formal@_offset$2@0)
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2))) (and
-(or %lbl%@23187 (=> (= (ControlFlow 0 6499) (- 0 23187)) (not (and
-p1$2@1
-_READ_HAS_OCCURRED_$$localPos$1@0
-(= _READ_OFFSET_$$localPos$1@0 call2115formal@_offset$2@0)
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2)))))
-(=> (not (and
-p1$2@1
-_READ_HAS_OCCURRED_$$localPos$1@0
-(= _READ_OFFSET_$$localPos$1@0 call2115formal@_offset$2@0)
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2))) (and
-(or %lbl%@23223 (=> (= (ControlFlow 0 6499) (- 0 23223)) (=> p1$1@1 true)))
-(=> (=> p1$1@1 true) (=> (= (ControlFlow 0 6499) 6493) inline$_LOG_WRITE_$$localPos$3$Entry_correct)))))))))))
-(let ((inline$_LOG_WRITE_$$localPos$2$_LOG_WRITE_correct (=> (and %lbl%+6413 true) (=> (and
-(= _WRITE_HAS_OCCURRED_$$localPos$1@3 (ite (and
-p1$1@1
-inline$_LOG_WRITE_$$localPos$2$track@1) true _WRITE_HAS_OCCURRED_$$localPos$1@2))
-(= _WRITE_OFFSET_$$localPos$1@3 (ite (and
-p1$1@1
-inline$_LOG_WRITE_$$localPos$2$track@1) inline$_LOG_WRITE_$$localPos$2$_offset$1@1 _WRITE_OFFSET_$$localPos$1@2))
-(= _WRITE_SOURCE_$$localPos$1@3 (ite (and
-p1$1@1
-inline$_LOG_WRITE_$$localPos$2$track@1) #x00000017 _WRITE_SOURCE_$$localPos$1@2))
-(= (ControlFlow 0 6413) 6499)) $for.cond$7_correct))))
-(let ((inline$_LOG_WRITE_$$localPos$2$Entry_correct (=> (and %lbl%+6411 true) (=> (and
-(= inline$_LOG_WRITE_$$localPos$2$_offset$1@1 (bvadd (bvmul v0$1@0 #x00000004) #x00000002))
-(= (ControlFlow 0 6411) 6413)) inline$_LOG_WRITE_$$localPos$2$_LOG_WRITE_correct))))
-(let (($for.cond$6_correct (=> (and %lbl%+6417 true) (=> (= call2078formal@_offset$2@0 (bvadd (bvmul v0$2@0 #x00000004) #x00000001)) (and
-(or %lbl%@22985 (=> (= (ControlFlow 0 6417) (- 0 22985)) (not (and
-p1$2@1
-_WRITE_HAS_OCCURRED_$$localPos$1@2
-(= _WRITE_OFFSET_$$localPos$1@2 call2078formal@_offset$2@0)
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2)))))
-(=> (not (and
-p1$2@1
-_WRITE_HAS_OCCURRED_$$localPos$1@2
-(= _WRITE_OFFSET_$$localPos$1@2 call2078formal@_offset$2@0)
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2))) (and
-(or %lbl%@23021 (=> (= (ControlFlow 0 6417) (- 0 23021)) (not (and
-p1$2@1
-_READ_HAS_OCCURRED_$$localPos$1@0
-(= _READ_OFFSET_$$localPos$1@0 call2078formal@_offset$2@0)
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2)))))
-(=> (not (and
-p1$2@1
-_READ_HAS_OCCURRED_$$localPos$1@0
-(= _READ_OFFSET_$$localPos$1@0 call2078formal@_offset$2@0)
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2))) (and
-(or %lbl%@23057 (=> (= (ControlFlow 0 6417) (- 0 23057)) (=> p1$1@1 true)))
-(=> (=> p1$1@1 true) (=> (= (ControlFlow 0 6417) 6411) inline$_LOG_WRITE_$$localPos$2$Entry_correct)))))))))))
-(let ((inline$_LOG_WRITE_$$localPos$1$_LOG_WRITE_correct (=> (and %lbl%+6331 true) (=> (and
-(= _WRITE_HAS_OCCURRED_$$localPos$1@2 (ite (and
-p1$1@1
-inline$_LOG_WRITE_$$localPos$1$track@1) true _WRITE_HAS_OCCURRED_$$localPos$1@1))
-(= _WRITE_OFFSET_$$localPos$1@2 (ite (and
-p1$1@1
-inline$_LOG_WRITE_$$localPos$1$track@1) inline$_LOG_WRITE_$$localPos$1$_offset$1@1 _WRITE_OFFSET_$$localPos$1@1))
-(= _WRITE_SOURCE_$$localPos$1@2 (ite (and
-p1$1@1
-inline$_LOG_WRITE_$$localPos$1$track@1) #x00000016 _WRITE_SOURCE_$$localPos$1@1))
-(= (ControlFlow 0 6331) 6417)) $for.cond$6_correct))))
-(let ((inline$_LOG_WRITE_$$localPos$1$Entry_correct (=> (and %lbl%+6329 true) (=> (and
-(= inline$_LOG_WRITE_$$localPos$1$_offset$1@1 (bvadd (bvmul v0$1@0 #x00000004) #x00000001))
-(= (ControlFlow 0 6329) 6331)) inline$_LOG_WRITE_$$localPos$1$_LOG_WRITE_correct))))
-(let (($for.cond$5_correct (=> (and %lbl%+6335 true) (=> (= call2041formal@_offset$2@0 (bvmul v0$2@0 #x00000004)) (and
-(or %lbl%@22819 (=> (= (ControlFlow 0 6335) (- 0 22819)) (not (and
-p1$2@1
-_WRITE_HAS_OCCURRED_$$localPos$1@1
-(= _WRITE_OFFSET_$$localPos$1@1 call2041formal@_offset$2@0)
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2)))))
-(=> (not (and
-p1$2@1
-_WRITE_HAS_OCCURRED_$$localPos$1@1
-(= _WRITE_OFFSET_$$localPos$1@1 call2041formal@_offset$2@0)
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2))) (and
-(or %lbl%@22855 (=> (= (ControlFlow 0 6335) (- 0 22855)) (not (and
-p1$2@1
-_READ_HAS_OCCURRED_$$localPos$1@0
-(= _READ_OFFSET_$$localPos$1@0 call2041formal@_offset$2@0)
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2)))))
-(=> (not (and
-p1$2@1
-_READ_HAS_OCCURRED_$$localPos$1@0
-(= _READ_OFFSET_$$localPos$1@0 call2041formal@_offset$2@0)
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2))) (and
-(or %lbl%@22891 (=> (= (ControlFlow 0 6335) (- 0 22891)) (=> p1$1@1 true)))
-(=> (=> p1$1@1 true) (=> (= (ControlFlow 0 6335) 6329) inline$_LOG_WRITE_$$localPos$1$Entry_correct)))))))))))
-(let ((inline$_LOG_WRITE_$$localPos$0$_LOG_WRITE_correct (=> (and %lbl%+6249 true) (=> (and
-(= _WRITE_HAS_OCCURRED_$$localPos$1@1 (ite (and
-p1$1@1
-inline$_LOG_WRITE_$$localPos$0$track@1) true _WRITE_HAS_OCCURRED_$$localPos$1@0))
-(= _WRITE_OFFSET_$$localPos$1@1 (ite (and
-p1$1@1
-inline$_LOG_WRITE_$$localPos$0$track@1) inline$_LOG_WRITE_$$localPos$0$_offset$1@1 _WRITE_OFFSET_$$localPos$1@0))
-(= _WRITE_SOURCE_$$localPos$1@1 (ite (and
-p1$1@1
-inline$_LOG_WRITE_$$localPos$0$track@1) #x00000015 _WRITE_SOURCE_$$localPos$1@0))
-(= (ControlFlow 0 6249) 6335)) $for.cond$5_correct))))
-(let ((inline$_LOG_WRITE_$$localPos$0$Entry_correct (=> (and %lbl%+6247 true) (=> (and
-(= inline$_LOG_WRITE_$$localPos$0$_offset$1@1 (bvmul v0$1@0 #x00000004))
-(= (ControlFlow 0 6247) 6249)) inline$_LOG_WRITE_$$localPos$0$_LOG_WRITE_correct))))
-(let (($for.cond$4_correct (=> (and %lbl%+6253 true) (=> (= call2010formal@_offset$2@0 (bvadd (bvmul (bvadd (bvmul $i.0$2@1 v2$2@0) v0$2@0) #x00000004) #x00000003)) (and
-(or %lbl%@22719 (=> (= (ControlFlow 0 6253) (- 0 22719)) (not (and
-p1$2@1
-_WRITE_HAS_OCCURRED_$$pos$1
-(= _WRITE_OFFSET_$$pos$1 call2010formal@_offset$2@0)))))
-(=> (not (and
-p1$2@1
-_WRITE_HAS_OCCURRED_$$pos$1
-(= _WRITE_OFFSET_$$pos$1 call2010formal@_offset$2@0))) (and
-(or %lbl%@22733 (=> (= (ControlFlow 0 6253) (- 0 22733)) (=> p1$1@1 true)))
-(=> (=> p1$1@1 true) (=> (= (ControlFlow 0 6253) 6247) inline$_LOG_WRITE_$$localPos$0$Entry_correct)))))))))
-(let ((inline$_LOG_READ_$$pos$7$_LOG_READ_correct (=> (and %lbl%+6167 true) (=> (and
-(= _READ_HAS_OCCURRED_$$pos$1@8 (ite (and
-p1$1@1
-inline$_LOG_READ_$$pos$7$track@1) true _READ_HAS_OCCURRED_$$pos$1@7))
-(= _READ_OFFSET_$$pos$1@8 (ite (and
-p1$1@1
-inline$_LOG_READ_$$pos$7$track@1) inline$_LOG_READ_$$pos$7$_offset$1@1 _READ_OFFSET_$$pos$1@7))
-(= _READ_SOURCE_$$pos$1@8 (ite (and
-p1$1@1
-inline$_LOG_READ_$$pos$7$track@1) #x00000014 _READ_SOURCE_$$pos$1@7))
-(= (ControlFlow 0 6167) 6253)) $for.cond$4_correct))))
-(let ((inline$_LOG_READ_$$pos$7$Entry_correct (=> (and %lbl%+6165 true) (=> (and
-(= inline$_LOG_READ_$$pos$7$_offset$1@1 (bvadd (bvmul (bvadd (bvmul $i.0$1@1 v2$1@0) v0$1@0) #x00000004) #x00000003))
-(= (ControlFlow 0 6165) 6167)) inline$_LOG_READ_$$pos$7$_LOG_READ_correct))))
-(let (($for.cond$3_correct (=> (and %lbl%+6171 true) (=> (= call1945formal@_offset$2@0 (bvadd (bvmul (bvadd (bvmul $i.0$2@1 v2$2@0) v0$2@0) #x00000004) #x00000002)) (and
-(or %lbl%@22572 (=> (= (ControlFlow 0 6171) (- 0 22572)) (not (and
-p1$2@1
-_WRITE_HAS_OCCURRED_$$pos$1
-(= _WRITE_OFFSET_$$pos$1 call1945formal@_offset$2@0)))))
-(=> (not (and
-p1$2@1
-_WRITE_HAS_OCCURRED_$$pos$1
-(= _WRITE_OFFSET_$$pos$1 call1945formal@_offset$2@0))) (and
-(or %lbl%@22586 (=> (= (ControlFlow 0 6171) (- 0 22586)) (=> p1$1@1 true)))
-(=> (=> p1$1@1 true) (=> (and
-(= v11$1@1 (ite p1$1@1 _HAVOC_bv32$1@8 v11$1@0))
-(= v11$2@1 (ite p1$2@1 _HAVOC_bv32$2@8 v11$2@0))
-(= (ControlFlow 0 6171) 6165)) inline$_LOG_READ_$$pos$7$Entry_correct)))))))))
-(let ((inline$_LOG_READ_$$pos$6$_LOG_READ_correct (=> (and %lbl%+6085 true) (=> (and
-(= _READ_HAS_OCCURRED_$$pos$1@7 (ite (and
-p1$1@1
-inline$_LOG_READ_$$pos$6$track@1) true _READ_HAS_OCCURRED_$$pos$1@6))
-(= _READ_OFFSET_$$pos$1@7 (ite (and
-p1$1@1
-inline$_LOG_READ_$$pos$6$track@1) inline$_LOG_READ_$$pos$6$_offset$1@1 _READ_OFFSET_$$pos$1@6))
-(= _READ_SOURCE_$$pos$1@7 (ite (and
-p1$1@1
-inline$_LOG_READ_$$pos$6$track@1) #x00000013 _READ_SOURCE_$$pos$1@6))
-(= (ControlFlow 0 6085) 6171)) $for.cond$3_correct))))
-(let ((inline$_LOG_READ_$$pos$6$Entry_correct (=> (and %lbl%+6083 true) (=> (and
-(= inline$_LOG_READ_$$pos$6$_offset$1@1 (bvadd (bvmul (bvadd (bvmul $i.0$1@1 v2$1@0) v0$1@0) #x00000004) #x00000002))
-(= (ControlFlow 0 6083) 6085)) inline$_LOG_READ_$$pos$6$_LOG_READ_correct))))
-(let (($for.cond$2_correct (=> (and %lbl%+6089 true) (=> (= call1880formal@_offset$2@0 (bvadd (bvmul (bvadd (bvmul $i.0$2@1 v2$2@0) v0$2@0) #x00000004) #x00000001)) (and
-(or %lbl%@22425 (=> (= (ControlFlow 0 6089) (- 0 22425)) (not (and
-p1$2@1
-_WRITE_HAS_OCCURRED_$$pos$1
-(= _WRITE_OFFSET_$$pos$1 call1880formal@_offset$2@0)))))
-(=> (not (and
-p1$2@1
-_WRITE_HAS_OCCURRED_$$pos$1
-(= _WRITE_OFFSET_$$pos$1 call1880formal@_offset$2@0))) (and
-(or %lbl%@22439 (=> (= (ControlFlow 0 6089) (- 0 22439)) (=> p1$1@1 true)))
-(=> (=> p1$1@1 true) (=> (and
-(= v10$1@1 (ite p1$1@1 _HAVOC_bv32$1@7 v10$1@0))
-(= v10$2@1 (ite p1$2@1 _HAVOC_bv32$2@7 v10$2@0))
-(= (ControlFlow 0 6089) 6083)) inline$_LOG_READ_$$pos$6$Entry_correct)))))))))
-(let ((inline$_LOG_READ_$$pos$5$_LOG_READ_correct (=> (and %lbl%+6003 true) (=> (and
-(= _READ_HAS_OCCURRED_$$pos$1@6 (ite (and
-p1$1@1
-inline$_LOG_READ_$$pos$5$track@1) true _READ_HAS_OCCURRED_$$pos$1@5))
-(= _READ_OFFSET_$$pos$1@6 (ite (and
-p1$1@1
-inline$_LOG_READ_$$pos$5$track@1) inline$_LOG_READ_$$pos$5$_offset$1@1 _READ_OFFSET_$$pos$1@5))
-(= _READ_SOURCE_$$pos$1@6 (ite (and
-p1$1@1
-inline$_LOG_READ_$$pos$5$track@1) #x00000012 _READ_SOURCE_$$pos$1@5))
-(= (ControlFlow 0 6003) 6089)) $for.cond$2_correct))))
-(let ((inline$_LOG_READ_$$pos$5$Entry_correct (=> (and %lbl%+6001 true) (=> (and
-(= inline$_LOG_READ_$$pos$5$_offset$1@1 (bvadd (bvmul (bvadd (bvmul $i.0$1@1 v2$1@0) v0$1@0) #x00000004) #x00000001))
-(= (ControlFlow 0 6001) 6003)) inline$_LOG_READ_$$pos$5$_LOG_READ_correct))))
-(let (($for.cond$1_correct (=> (and %lbl%+6007 true) (=> (= call1815formal@_offset$2@0 (bvmul (bvadd (bvmul $i.0$2@1 v2$2@0) v0$2@0) #x00000004)) (and
-(or %lbl%@22278 (=> (= (ControlFlow 0 6007) (- 0 22278)) (not (and
-p1$2@1
-_WRITE_HAS_OCCURRED_$$pos$1
-(= _WRITE_OFFSET_$$pos$1 call1815formal@_offset$2@0)))))
-(=> (not (and
-p1$2@1
-_WRITE_HAS_OCCURRED_$$pos$1
-(= _WRITE_OFFSET_$$pos$1 call1815formal@_offset$2@0))) (and
-(or %lbl%@22292 (=> (= (ControlFlow 0 6007) (- 0 22292)) (=> p1$1@1 true)))
-(=> (=> p1$1@1 true) (=> (and
-(= v9$1@1 (ite p1$1@1 _HAVOC_bv32$1@6 v9$1@0))
-(= v9$2@1 (ite p1$2@1 _HAVOC_bv32$2@6 v9$2@0))
-(= (ControlFlow 0 6007) 6001)) inline$_LOG_READ_$$pos$5$Entry_correct)))))))))
-(let ((inline$_LOG_READ_$$pos$4$_LOG_READ_correct (=> (and %lbl%+5921 true) (=> (and
-(= _READ_HAS_OCCURRED_$$pos$1@5 (ite (and
-p1$1@1
-inline$_LOG_READ_$$pos$4$track@1) true _READ_HAS_OCCURRED_$$pos$1@4))
-(= _READ_OFFSET_$$pos$1@5 (ite (and
-p1$1@1
-inline$_LOG_READ_$$pos$4$track@1) inline$_LOG_READ_$$pos$4$_offset$1@1 _READ_OFFSET_$$pos$1@4))
-(= _READ_SOURCE_$$pos$1@5 (ite (and
-p1$1@1
-inline$_LOG_READ_$$pos$4$track@1) #x00000011 _READ_SOURCE_$$pos$1@4))
-(= (ControlFlow 0 5921) 6007)) $for.cond$1_correct))))
-(let ((inline$_LOG_READ_$$pos$4$Entry_correct (=> (and %lbl%+5919 true) (=> (and
-(= inline$_LOG_READ_$$pos$4$_offset$1@1 (bvmul (bvadd (bvmul $i.0$1@1 v2$1@0) v0$1@0) #x00000004))
-(= (ControlFlow 0 5919) 5921)) inline$_LOG_READ_$$pos$4$_LOG_READ_correct))))
-(let (($for.cond_correct (=> (and %lbl%+5925 true) (=> (=> _b10 (=> _WRITE_HAS_OCCURRED_$$localPos$1@0 (or
-(= _WRITE_OFFSET_$$localPos$1@0 (bvmul local_id_x$1 #x00000004))
-(= _WRITE_OFFSET_$$localPos$1@0 (bvadd (bvmul local_id_x$1 #x00000004) #x00000001))
-(= _WRITE_OFFSET_$$localPos$1@0 (bvadd (bvmul local_id_x$1 #x00000004) #x00000002))
-(= _WRITE_OFFSET_$$localPos$1@0 (bvadd (bvmul local_id_x$1 #x00000004) #x00000003))))) (=> (and
-(=> _b9 (=> _READ_HAS_OCCURRED_$$localPos$1@0 (or
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1@0) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvmul #x00000000 #x00000004)))
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1@0) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000001)))
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1@0) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000002)))
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1@0) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000003)))
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1@0) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000003))))))
-(=> _b8 (not _WRITE_HAS_OCCURRED_$$localPos$1@0))) (=> (and
-(=> _b7 (not _READ_HAS_OCCURRED_$$localPos$1@0))
-(=> _b6 (=> _READ_HAS_OCCURRED_$$pos$1@4 (or
-(= (bvand (bvsub (bvmul (bvmul #x00000001 group_size_x) #x00000004) #x00000001) _READ_OFFSET_$$pos$1@4) (bvand (bvsub (bvmul (bvmul #x00000001 group_size_x) #x00000004) #x00000001) (bvmul (bvadd (bvmul #x00000000 group_size_x) local_id_x$1) #x00000004)))
-(= (bvand (bvsub (bvmul (bvmul #x00000001 group_size_x) #x00000004) #x00000001) _READ_OFFSET_$$pos$1@4) (bvand (bvsub (bvmul (bvmul #x00000001 group_size_x) #x00000004) #x00000001) (bvadd (bvmul (bvadd (bvmul #x00000000 group_size_x) local_id_x$1) #x00000004) #x00000001)))
-(= (bvand (bvsub (bvmul (bvmul #x00000001 group_size_x) #x00000004) #x00000001) _READ_OFFSET_$$pos$1@4) (bvand (bvsub (bvmul (bvmul #x00000001 group_size_x) #x00000004) #x00000001) (bvadd (bvmul (bvadd (bvmul #x00000000 group_size_x) local_id_x$1) #x00000004) #x00000002)))
-(= (bvand (bvsub (bvmul (bvmul #x00000001 group_size_x) #x00000004) #x00000001) _READ_OFFSET_$$pos$1@4) (bvand (bvsub (bvmul (bvmul #x00000001 group_size_x) #x00000004) #x00000001) (bvadd (bvmul (bvadd (bvmul #x00000000 group_size_x) local_id_x$1) #x00000004) #x00000003))))))
-(=> _b5 (not _READ_HAS_OCCURRED_$$pos$1@4))
-(=> _b4 (=> (and
-p0$1@1
-p0$2@1) (= $j.0$1@0 $j.0$2@0)))) (=> (and
-(=> _b3 (=> (and
-p0$1@1
-p0$2@1) (= $acc.1$1@0 $acc.1$2@0)))
-(=> _b2 (=> (and
-p0$1@1
-p0$2@1) (= $i.0$1@1 $i.0$2@1)))
-(=> _b1 (=> (and
-p0$1@1
-p0$2@1) (= $acc.0$1@1 $acc.0$2@1)))
-(=> _b0 (= p0$1@1 p0$2@1))
-(=> _READ_HAS_OCCURRED_$$vel$1 (or
-(= _READ_SOURCE_$$vel$1 #x00000005)
-(= _READ_SOURCE_$$vel$1 #x00000006)
-(= _READ_SOURCE_$$vel$1 #x00000007)
-(= _READ_SOURCE_$$vel$1 #x00000008)))
-(=> _WRITE_HAS_OCCURRED_$$vel$1 false)
-(=> (not _READ_HAS_OCCURRED_$$vel$1) (= _READ_SOURCE_$$vel$1 #x00000000))
-(=> (not _WRITE_HAS_OCCURRED_$$vel$1) (= _WRITE_SOURCE_$$vel$1 #x00000000))
-(=> _READ_HAS_OCCURRED_$$pos$1@4 (or
-(= _READ_SOURCE_$$pos$1@4 #x00000001)
-(= _READ_SOURCE_$$pos$1@4 #x00000002)
-(= _READ_SOURCE_$$pos$1@4 #x00000003)
-(= _READ_SOURCE_$$pos$1@4 #x00000004)
-(= _READ_SOURCE_$$pos$1@4 #x00000011)
-(= _READ_SOURCE_$$pos$1@4 #x00000012)
-(= _READ_SOURCE_$$pos$1@4 #x00000013)
-(= _READ_SOURCE_$$pos$1@4 #x00000014)))
-(=> _WRITE_HAS_OCCURRED_$$pos$1 false)
-(=> (not _READ_HAS_OCCURRED_$$pos$1@4) (= _READ_SOURCE_$$pos$1@4 #x00000000))
-(=> (not _WRITE_HAS_OCCURRED_$$pos$1) (= _WRITE_SOURCE_$$pos$1 #x00000000))
-(=> _READ_HAS_OCCURRED_$$localPos$1@0 (or
-(= _READ_SOURCE_$$localPos$1@0 #x00000019)
-(= _READ_SOURCE_$$localPos$1@0 #x0000001a)
-(= _READ_SOURCE_$$localPos$1@0 #x0000001b)
-(= _READ_SOURCE_$$localPos$1@0 #x0000001c)
-(= _READ_SOURCE_$$localPos$1@0 #x0000001d)))
-(=> _WRITE_HAS_OCCURRED_$$localPos$1@0 (or
-(= _WRITE_SOURCE_$$localPos$1@0 #x00000015)
-(= _WRITE_SOURCE_$$localPos$1@0 #x00000016)
-(= _WRITE_SOURCE_$$localPos$1@0 #x00000017)
-(= _WRITE_SOURCE_$$localPos$1@0 #x00000018)))
-(=> (not _READ_HAS_OCCURRED_$$localPos$1@0) (= _READ_SOURCE_$$localPos$1@0 #x00000000))
-(=> (not _WRITE_HAS_OCCURRED_$$localPos$1@0) (= _WRITE_SOURCE_$$localPos$1@0 #x00000000))
-(=> _READ_HAS_OCCURRED_$$newVelocity$1 false)
-(=> _WRITE_HAS_OCCURRED_$$newVelocity$1 (or
-(= _WRITE_SOURCE_$$newVelocity$1 #x0000000d)
-(= _WRITE_SOURCE_$$newVelocity$1 #x0000000e)
-(= _WRITE_SOURCE_$$newVelocity$1 #x0000000f)
-(= _WRITE_SOURCE_$$newVelocity$1 #x00000010)))
-(=> (not _READ_HAS_OCCURRED_$$newVelocity$1) (= _READ_SOURCE_$$newVelocity$1 #x00000000))
-(=> (not _WRITE_HAS_OCCURRED_$$newVelocity$1) (= _WRITE_SOURCE_$$newVelocity$1 #x00000000))
-(=> _READ_HAS_OCCURRED_$$newPosition$1 false)
-(=> _WRITE_HAS_OCCURRED_$$newPosition$1 (or
-(= _WRITE_SOURCE_$$newPosition$1 #x00000009)
-(= _WRITE_SOURCE_$$newPosition$1 #x0000000a)
-(= _WRITE_SOURCE_$$newPosition$1 #x0000000b)
-(= _WRITE_SOURCE_$$newPosition$1 #x0000000c)))
-(=> (not _READ_HAS_OCCURRED_$$newPosition$1) (= _READ_SOURCE_$$newPosition$1 #x00000000))
-(=> (not _WRITE_HAS_OCCURRED_$$newPosition$1) (= _WRITE_SOURCE_$$newPosition$1 #x00000000))
-(=> p0$1@1 _P$1)
-(=> p0$2@1 _P$2)
-(= v7$1@1 (ite p0$1@1 (bvult $i.0$1@1 (bvudiv $numBodies$1 v2$1@0)) v7$1@0))
-(= v7$2@1 (ite p0$2@1 (bvult $i.0$2@1 (bvudiv $numBodies$2 v2$2@0)) v7$2@0))
-(= p1$1@1 (ite p0$1@1 v7$1@1 false))
-(= p1$2@1 (ite p0$2@1 v7$2@1 false))
-(= p0$1@2 (ite p0$1@1 v7$1@1 p0$1@1))
-(= p0$2@2 (ite p0$2@1 v7$2@1 p0$2@1))) (and
-(or %lbl%@22153 (=> (= (ControlFlow 0 5925) (- 0 22153)) (=> p1$1@1 true)))
-(=> (=> p1$1@1 true) (=> (and
-(= v8$1@1 (ite p1$1@1 _HAVOC_bv32$1@5 v8$1@0))
-(= v8$2@1 (ite p1$2@1 _HAVOC_bv32$2@5 v8$2@0))
-(= (ControlFlow 0 5925) 5919)) inline$_LOG_READ_$$pos$4$Entry_correct))))))))))
-(let (($entry$4_correct (=> (and %lbl%+5843 true) (=> (= call1006formal@_offset$2@0 (bvadd (bvmul v1$2@0 #x00000004) #x00000003)) (and
-(or %lbl%@19579 (=> (= (ControlFlow 0 5843) (- 0 19579)) (not (and
-_P$2
-_WRITE_HAS_OCCURRED_$$pos$1
-(= _WRITE_OFFSET_$$pos$1 call1006formal@_offset$2@0)))))
-(=> (not (and
-_P$2
-_WRITE_HAS_OCCURRED_$$pos$1
-(= _WRITE_OFFSET_$$pos$1 call1006formal@_offset$2@0))) (=> (and
-(= $acc.0$1@0 (ite _P$1 #x00000000000000000000000000000000 $acc.0$1))
-(= $acc.0$2@0 (ite _P$2 #x00000000000000000000000000000000 $acc.0$2))
-(= $i.0$1@0 (ite _P$1 #x00000000 $i.0$1))
-(= $i.0$2@0 (ite _P$2 #x00000000 $i.0$2))
-(= p0$1@0 (ite _P$1 true false))
-(= p0$2@0 (ite _P$2 true false))) (and
-(or %lbl%@19676 (=> (= (ControlFlow 0 5843) (- 0 19676)) (=> _b10 (=> _WRITE_HAS_OCCURRED_$$localPos$1 (or
-(= _WRITE_OFFSET_$$localPos$1 (bvmul local_id_x$1 #x00000004))
-(= _WRITE_OFFSET_$$localPos$1 (bvadd (bvmul local_id_x$1 #x00000004) #x00000001))
-(= _WRITE_OFFSET_$$localPos$1 (bvadd (bvmul local_id_x$1 #x00000004) #x00000002))
-(= _WRITE_OFFSET_$$localPos$1 (bvadd (bvmul local_id_x$1 #x00000004) #x00000003)))))))
-(=> (=> _b10 (=> _WRITE_HAS_OCCURRED_$$localPos$1 (or
-(= _WRITE_OFFSET_$$localPos$1 (bvmul local_id_x$1 #x00000004))
-(= _WRITE_OFFSET_$$localPos$1 (bvadd (bvmul local_id_x$1 #x00000004) #x00000001))
-(= _WRITE_OFFSET_$$localPos$1 (bvadd (bvmul local_id_x$1 #x00000004) #x00000002))
-(= _WRITE_OFFSET_$$localPos$1 (bvadd (bvmul local_id_x$1 #x00000004) #x00000003))))) (and
-(or %lbl%@19742 (=> (= (ControlFlow 0 5843) (- 0 19742)) (=> _b9 (=> _READ_HAS_OCCURRED_$$localPos$1 (or
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvmul #x00000000 #x00000004)))
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000001)))
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000002)))
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000003)))
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000003))))))))
-(=> (=> _b9 (=> _READ_HAS_OCCURRED_$$localPos$1 (or
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvmul #x00000000 #x00000004)))
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000001)))
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000002)))
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000003)))
-(= (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) _READ_OFFSET_$$localPos$1) (bvand (bvsub (bvmul #x00000001 #x00000004) #x00000001) (bvadd (bvmul #x00000000 #x00000004) #x00000003)))))) (and
-(or %lbl%@19944 (=> (= (ControlFlow 0 5843) (- 0 19944)) (=> _b8 (not _WRITE_HAS_OCCURRED_$$localPos$1))))
-(=> (=> _b8 (not _WRITE_HAS_OCCURRED_$$localPos$1)) (and
-(or %lbl%@19952 (=> (= (ControlFlow 0 5843) (- 0 19952)) (=> _b7 (not _READ_HAS_OCCURRED_$$localPos$1))))
-(=> (=> _b7 (not _READ_HAS_OCCURRED_$$localPos$1)) (and
-(or %lbl%@19960 (=> (= (ControlFlow 0 5843) (- 0 19960)) (=> _b6 (=> _READ_HAS_OCCURRED_$$pos$1@3 (or
-(= (bvand (bvsub (bvmul (bvmul #x00000001 group_size_x) #x00000004) #x00000001) _READ_OFFSET_$$pos$1@3) (bvand (bvsub (bvmul (bvmul #x00000001 group_size_x) #x00000004) #x00000001) (bvmul (bvadd (bvmul #x00000000 group_size_x) local_id_x$1) #x00000004)))
-(= (bvand (bvsub (bvmul (bvmul #x00000001 group_size_x) #x00000004) #x00000001) _READ_OFFSET_$$pos$1@3) (bvand (bvsub (bvmul (bvmul #x00000001 group_size_x) #x00000004) #x00000001) (bvadd (bvmul (bvadd (bvmul #x00000000 group_size_x) local_id_x$1) #x00000004) #x00000001)))
-(= (bvand (bvsub (bvmul (bvmul #x00000001 group_size_x) #x00000004) #x00000001) _READ_OFFSET_$$pos$1@3) (bvand (bvsub (bvmul (bvmul #x00000001 group_size_x) #x00000004) #x00000001) (bvadd (bvmul (bvadd (bvmul #x00000000 group_size_x) local_id_x$1) #x00000004) #x00000002)))
-(= (bvand (bvsub (bvmul (bvmul #x00000001 group_size_x) #x00000004) #x00000001) _READ_OFFSET_$$pos$1@3) (bvand (bvsub (bvmul (bvmul #x00000001 group_size_x) #x00000004) #x00000001) (bvadd (bvmul (bvadd (bvmul #x00000000 group_size_x) local_id_x$1) #x00000004) #x00000003))))))))
-(=> (=> _b6 (=> _READ_HAS_OCCURRED_$$pos$1@3 (or
-(= (bvand (bvsub (bvmul (bvmul #x00000001 group_size_x) #x00000004) #x00000001) _READ_OFFSET_$$pos$1@3) (bvand (bvsub (bvmul (bvmul #x00000001 group_size_x) #x00000004) #x00000001) (bvmul (bvadd (bvmul #x00000000 group_size_x) local_id_x$1) #x00000004)))
-(= (bvand (bvsub (bvmul (bvmul #x00000001 group_size_x) #x00000004) #x00000001) _READ_OFFSET_$$pos$1@3) (bvand (bvsub (bvmul (bvmul #x00000001 group_size_x) #x00000004) #x00000001) (bvadd (bvmul (bvadd (bvmul #x00000000 group_size_x) local_id_x$1) #x00000004) #x00000001)))
-(= (bvand (bvsub (bvmul (bvmul #x00000001 group_size_x) #x00000004) #x00000001) _READ_OFFSET_$$pos$1@3) (bvand (bvsub (bvmul (bvmul #x00000001 group_size_x) #x00000004) #x00000001) (bvadd (bvmul (bvadd (bvmul #x00000000 group_size_x) local_id_x$1) #x00000004) #x00000002)))
-(= (bvand (bvsub (bvmul (bvmul #x00000001 group_size_x) #x00000004) #x00000001) _READ_OFFSET_$$pos$1@3) (bvand (bvsub (bvmul (bvmul #x00000001 group_size_x) #x00000004) #x00000001) (bvadd (bvmul (bvadd (bvmul #x00000000 group_size_x) local_id_x$1) #x00000004) #x00000003)))))) (and
-(or %lbl%@20181 (=> (= (ControlFlow 0 5843) (- 0 20181)) (=> _b5 (not _READ_HAS_OCCURRED_$$pos$1@3))))
-(=> (=> _b5 (not _READ_HAS_OCCURRED_$$pos$1@3)) (and
-(or %lbl%@20188 (=> (= (ControlFlow 0 5843) (- 0 20188)) (=> _b4 (=> (and
-p0$1@0
-p0$2@0) (= $j.0$1 $j.0$2)))))
-(=> (=> _b4 (=> (and
-p0$1@0
-p0$2@0) (= $j.0$1 $j.0$2))) (and
-(or %lbl%@20204 (=> (= (ControlFlow 0 5843) (- 0 20204)) (=> _b3 (=> (and
-p0$1@0
-p0$2@0) (= $acc.1$1 $acc.1$2)))))
-(=> (=> _b3 (=> (and
-p0$1@0
-p0$2@0) (= $acc.1$1 $acc.1$2))) (and
-(or %lbl%@20220 (=> (= (ControlFlow 0 5843) (- 0 20220)) (=> _b2 (=> (and
-p0$1@0
-p0$2@0) (= $i.0$1@0 $i.0$2@0)))))
-(=> (=> _b2 (=> (and
-p0$1@0
-p0$2@0) (= $i.0$1@0 $i.0$2@0))) (and
-(or %lbl%@20234 (=> (= (ControlFlow 0 5843) (- 0 20234)) (=> _b1 (=> (and
-p0$1@0
-p0$2@0) (= $acc.0$1@0 $acc.0$2@0)))))
-(=> (=> _b1 (=> (and
-p0$1@0
-p0$2@0) (= $acc.0$1@0 $acc.0$2@0))) (and
-(or %lbl%@20248 (=> (= (ControlFlow 0 5843) (- 0 20248)) (=> _b0 (= p0$1@0 p0$2@0))))
-(=> (=> _b0 (= p0$1@0 p0$2@0)) (and
-(or %lbl%@20256 (=> (= (ControlFlow 0 5843) (- 0 20256)) (=> _READ_HAS_OCCURRED_$$vel$1 (or
-(= _READ_SOURCE_$$vel$1 #x00000005)
-(= _READ_SOURCE_$$vel$1 #x00000006)
-(= _READ_SOURCE_$$vel$1 #x00000007)
-(= _READ_SOURCE_$$vel$1 #x00000008)))))
-(=> (=> _READ_HAS_OCCURRED_$$vel$1 (or
-(= _READ_SOURCE_$$vel$1 #x00000005)
-(= _READ_SOURCE_$$vel$1 #x00000006)
-(= _READ_SOURCE_$$vel$1 #x00000007)
-(= _READ_SOURCE_$$vel$1 #x00000008))) (and
-(or %lbl%@20290 (=> (= (ControlFlow 0 5843) (- 0 20290)) (=> _WRITE_HAS_OCCURRED_$$vel$1 false)))
-(=> (=> _WRITE_HAS_OCCURRED_$$vel$1 false) (and
-(or %lbl%@20296 (=> (= (ControlFlow 0 5843) (- 0 20296)) (=> (not _READ_HAS_OCCURRED_$$vel$1) (= _READ_SOURCE_$$vel$1 #x00000000))))
-(=> (=> (not _READ_HAS_OCCURRED_$$vel$1) (= _READ_SOURCE_$$vel$1 #x00000000)) (and
-(or %lbl%@20308 (=> (= (ControlFlow 0 5843) (- 0 20308)) (=> (not _WRITE_HAS_OCCURRED_$$vel$1) (= _WRITE_SOURCE_$$vel$1 #x00000000))))
-(=> (=> (not _WRITE_HAS_OCCURRED_$$vel$1) (= _WRITE_SOURCE_$$vel$1 #x00000000)) (and
-(or %lbl%@20320 (=> (= (ControlFlow 0 5843) (- 0 20320)) (=> _READ_HAS_OCCURRED_$$pos$1@3 (or
-(= _READ_SOURCE_$$pos$1@3 #x00000001)
-(= _READ_SOURCE_$$pos$1@3 #x00000002)
-(= _READ_SOURCE_$$pos$1@3 #x00000003)
-(= _READ_SOURCE_$$pos$1@3 #x00000004)
-(= _READ_SOURCE_$$pos$1@3 #x00000011)
-(= _READ_SOURCE_$$pos$1@3 #x00000012)
-(= _READ_SOURCE_$$pos$1@3 #x00000013)
-(= _READ_SOURCE_$$pos$1@3 #x00000014)))))
-(=> (=> _READ_HAS_OCCURRED_$$pos$1@3 (or
-(= _READ_SOURCE_$$pos$1@3 #x00000001)
-(= _READ_SOURCE_$$pos$1@3 #x00000002)
-(= _READ_SOURCE_$$pos$1@3 #x00000003)
-(= _READ_SOURCE_$$pos$1@3 #x00000004)
-(= _READ_SOURCE_$$pos$1@3 #x00000011)
-(= _READ_SOURCE_$$pos$1@3 #x00000012)
-(= _READ_SOURCE_$$pos$1@3 #x00000013)
-(= _READ_SOURCE_$$pos$1@3 #x00000014))) (and
-(or %lbl%@20377 (=> (= (ControlFlow 0 5843) (- 0 20377)) (=> _WRITE_HAS_OCCURRED_$$pos$1 false)))
-(=> (=> _WRITE_HAS_OCCURRED_$$pos$1 false) (and
-(or %lbl%@20383 (=> (= (ControlFlow 0 5843) (- 0 20383)) (=> (not _READ_HAS_OCCURRED_$$pos$1@3) (= _READ_SOURCE_$$pos$1@3 #x00000000))))
-(=> (=> (not _READ_HAS_OCCURRED_$$pos$1@3) (= _READ_SOURCE_$$pos$1@3 #x00000000)) (and
-(or %lbl%@20393 (=> (= (ControlFlow 0 5843) (- 0 20393)) (=> (not _WRITE_HAS_OCCURRED_$$pos$1) (= _WRITE_SOURCE_$$pos$1 #x00000000))))
-(=> (=> (not _WRITE_HAS_OCCURRED_$$pos$1) (= _WRITE_SOURCE_$$pos$1 #x00000000)) (and
-(or %lbl%@20405 (=> (= (ControlFlow 0 5843) (- 0 20405)) (=> _READ_HAS_OCCURRED_$$localPos$1 (or
-(= _READ_SOURCE_$$localPos$1 #x00000019)
-(= _READ_SOURCE_$$localPos$1 #x0000001a)
-(= _READ_SOURCE_$$localPos$1 #x0000001b)
-(= _READ_SOURCE_$$localPos$1 #x0000001c)
-(= _READ_SOURCE_$$localPos$1 #x0000001d)))))
-(=> (=> _READ_HAS_OCCURRED_$$localPos$1 (or
-(= _READ_SOURCE_$$localPos$1 #x00000019)
-(= _READ_SOURCE_$$localPos$1 #x0000001a)
-(= _READ_SOURCE_$$localPos$1 #x0000001b)
-(= _READ_SOURCE_$$localPos$1 #x0000001c)
-(= _READ_SOURCE_$$localPos$1 #x0000001d))) (and
-(or %lbl%@20447 (=> (= (ControlFlow 0 5843) (- 0 20447)) (=> _WRITE_HAS_OCCURRED_$$localPos$1 (or
-(= _WRITE_SOURCE_$$localPos$1 #x00000015)
-(= _WRITE_SOURCE_$$localPos$1 #x00000016)
-(= _WRITE_SOURCE_$$localPos$1 #x00000017)
-(= _WRITE_SOURCE_$$localPos$1 #x00000018)))))
-(=> (=> _WRITE_HAS_OCCURRED_$$localPos$1 (or
-(= _WRITE_SOURCE_$$localPos$1 #x00000015)
-(= _WRITE_SOURCE_$$localPos$1 #x00000016)
-(= _WRITE_SOURCE_$$localPos$1 #x00000017)
-(= _WRITE_SOURCE_$$localPos$1 #x00000018))) (and
-(or %lbl%@20481 (=> (= (ControlFlow 0 5843) (- 0 20481)) (=> (not _READ_HAS_OCCURRED_$$localPos$1) (= _READ_SOURCE_$$localPos$1 #x00000000))))
-(=> (=> (not _READ_HAS_OCCURRED_$$localPos$1) (= _READ_SOURCE_$$localPos$1 #x00000000)) (and
-(or %lbl%@20493 (=> (= (ControlFlow 0 5843) (- 0 20493)) (=> (not _WRITE_HAS_OCCURRED_$$localPos$1) (= _WRITE_SOURCE_$$localPos$1 #x00000000))))
-(=> (=> (not _WRITE_HAS_OCCURRED_$$localPos$1) (= _WRITE_SOURCE_$$localPos$1 #x00000000)) (and
-(or %lbl%@20505 (=> (= (ControlFlow 0 5843) (- 0 20505)) (=> _READ_HAS_OCCURRED_$$newVelocity$1 false)))
-(=> (=> _READ_HAS_OCCURRED_$$newVelocity$1 false) (and
-(or %lbl%@20511 (=> (= (ControlFlow 0 5843) (- 0 20511)) (=> _WRITE_HAS_OCCURRED_$$newVelocity$1 (or
-(= _WRITE_SOURCE_$$newVelocity$1 #x0000000d)
-(= _WRITE_SOURCE_$$newVelocity$1 #x0000000e)
-(= _WRITE_SOURCE_$$newVelocity$1 #x0000000f)
-(= _WRITE_SOURCE_$$newVelocity$1 #x00000010)))))
-(=> (=> _WRITE_HAS_OCCURRED_$$newVelocity$1 (or
-(= _WRITE_SOURCE_$$newVelocity$1 #x0000000d)
-(= _WRITE_SOURCE_$$newVelocity$1 #x0000000e)
-(= _WRITE_SOURCE_$$newVelocity$1 #x0000000f)
-(= _WRITE_SOURCE_$$newVelocity$1 #x00000010))) (and
-(or %lbl%@20545 (=> (= (ControlFlow 0 5843) (- 0 20545)) (=> (not _READ_HAS_OCCURRED_$$newVelocity$1) (= _READ_SOURCE_$$newVelocity$1 #x00000000))))
-(=> (=> (not _READ_HAS_OCCURRED_$$newVelocity$1) (= _READ_SOURCE_$$newVelocity$1 #x00000000)) (and
-(or %lbl%@20557 (=> (= (ControlFlow 0 5843) (- 0 20557)) (=> (not _WRITE_HAS_OCCURRED_$$newVelocity$1) (= _WRITE_SOURCE_$$newVelocity$1 #x00000000))))
-(=> (=> (not _WRITE_HAS_OCCURRED_$$newVelocity$1) (= _WRITE_SOURCE_$$newVelocity$1 #x00000000)) (and
-(or %lbl%@20569 (=> (= (ControlFlow 0 5843) (- 0 20569)) (=> _READ_HAS_OCCURRED_$$newPosition$1 false)))
-(=> (=> _READ_HAS_OCCURRED_$$newPosition$1 false) (and
-(or %lbl%@20575 (=> (= (ControlFlow 0 5843) (- 0 20575)) (=> _WRITE_HAS_OCCURRED_$$newPosition$1 (or
-(= _WRITE_SOURCE_$$newPosition$1 #x00000009)
-(= _WRITE_SOURCE_$$newPosition$1 #x0000000a)
-(= _WRITE_SOURCE_$$newPosition$1 #x0000000b)
-(= _WRITE_SOURCE_$$newPosition$1 #x0000000c)))))
-(=> (=> _WRITE_HAS_OCCURRED_$$newPosition$1 (or
-(= _WRITE_SOURCE_$$newPosition$1 #x00000009)
-(= _WRITE_SOURCE_$$newPosition$1 #x0000000a)
-(= _WRITE_SOURCE_$$newPosition$1 #x0000000b)
-(= _WRITE_SOURCE_$$newPosition$1 #x0000000c))) (and
-(or %lbl%@20609 (=> (= (ControlFlow 0 5843) (- 0 20609)) (=> (not _READ_HAS_OCCURRED_$$newPosition$1) (= _READ_SOURCE_$$newPosition$1 #x00000000))))
-(=> (=> (not _READ_HAS_OCCURRED_$$newPosition$1) (= _READ_SOURCE_$$newPosition$1 #x00000000)) (and
-(or %lbl%@20621 (=> (= (ControlFlow 0 5843) (- 0 20621)) (=> (not _WRITE_HAS_OCCURRED_$$newPosition$1) (= _WRITE_SOURCE_$$newPosition$1 #x00000000))))
-(=> (=> (not _WRITE_HAS_OCCURRED_$$newPosition$1) (= _WRITE_SOURCE_$$newPosition$1 #x00000000)) (and
-(or %lbl%@20633 (=> (= (ControlFlow 0 5843) (- 0 20633)) (=> p0$1@0 _P$1)))
-(=> (=> p0$1@0 _P$1) (and
-(or %lbl%@20638 (=> (= (ControlFlow 0 5843) (- 0 20638)) (=> p0$2@0 _P$2)))
-(=> (=> p0$2@0 _P$2) (=> (= (ControlFlow 0 5843) 5925) $for.cond_correct))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))
-(let ((inline$_LOG_READ_$$pos$3$_LOG_READ_correct (=> (and %lbl%+5837 true) (=> (and
-(= _READ_HAS_OCCURRED_$$pos$1@3 (ite (and
-_P$1
-inline$_LOG_READ_$$pos$3$track@0) true _READ_HAS_OCCURRED_$$pos$1@2))
-(= _READ_OFFSET_$$pos$1@3 (ite (and
-_P$1
-inline$_LOG_READ_$$pos$3$track@0) inline$_LOG_READ_$$pos$3$_offset$1@0 _READ_OFFSET_$$pos$1@2))
-(= _READ_SOURCE_$$pos$1@3 (ite (and
-_P$1
-inline$_LOG_READ_$$pos$3$track@0) #x00000004 _READ_SOURCE_$$pos$1@2))
-(= (ControlFlow 0 5837) 5843)) $entry$4_correct))))
-(let ((inline$_LOG_READ_$$pos$3$Entry_correct (=> (and %lbl%+5835 true) (=> (and
-(= inline$_LOG_READ_$$pos$3$_offset$1@0 (bvadd (bvmul v1$1@0 #x00000004) #x00000003))
-(= (ControlFlow 0 5835) 5837)) inline$_LOG_READ_$$pos$3$_LOG_READ_correct))))
-(let (($entry$3_correct (=> (and %lbl%+5841 true) (=> (= call953formal@_offset$2@0 (bvadd (bvmul v1$2@0 #x00000004) #x00000002)) (and
-(or %lbl%@19437 (=> (= (ControlFlow 0 5841) (- 0 19437)) (not (and
-_P$2
-_WRITE_HAS_OCCURRED_$$pos$1
-(= _WRITE_OFFSET_$$pos$1 call953formal@_offset$2@0)))))
-(=> (not (and
-_P$2
-_WRITE_HAS_OCCURRED_$$pos$1
-(= _WRITE_OFFSET_$$pos$1 call953formal@_offset$2@0))) (and
-(or %lbl%@19451 (=> (= (ControlFlow 0 5841) (- 0 19451)) (=> _P$1 true)))
-(=> (=> _P$1 true) (=> (and
-(= v6$1@0 (ite _P$1 _HAVOC_bv32$1@3 v6$1))
-(= v6$2@0 (ite _P$2 _HAVOC_bv32$2@3 v6$2))
-(= (ControlFlow 0 5841) 5835)) inline$_LOG_READ_$$pos$3$Entry_correct)))))))))
-(let ((inline$_LOG_READ_$$pos$2$_LOG_READ_correct (=> (and %lbl%+5755 true) (=> (and
-(= _READ_HAS_OCCURRED_$$pos$1@2 (ite (and
-_P$1
-inline$_LOG_READ_$$pos$2$track@0) true _READ_HAS_OCCURRED_$$pos$1@1))
-(= _READ_OFFSET_$$pos$1@2 (ite (and
-_P$1
-inline$_LOG_READ_$$pos$2$track@0) inline$_LOG_READ_$$pos$2$_offset$1@0 _READ_OFFSET_$$pos$1@1))
-(= _READ_SOURCE_$$pos$1@2 (ite (and
-_P$1
-inline$_LOG_READ_$$pos$2$track@0) #x00000003 _READ_SOURCE_$$pos$1@1))
-(= (ControlFlow 0 5755) 5841)) $entry$3_correct))))
-(let ((inline$_LOG_READ_$$pos$2$Entry_correct (=> (and %lbl%+5753 true) (=> (and
-(= inline$_LOG_READ_$$pos$2$_offset$1@0 (bvadd (bvmul v1$1@0 #x00000004) #x00000002))
-(= (ControlFlow 0 5753) 5755)) inline$_LOG_READ_$$pos$2$_LOG_READ_correct))))
-(let (($entry$2_correct (=> (and %lbl%+5759 true) (=> (= call900formal@_offset$2@0 (bvadd (bvmul v1$2@0 #x00000004) #x00000001)) (and
-(or %lbl%@19295 (=> (= (ControlFlow 0 5759) (- 0 19295)) (not (and
-_P$2
-_WRITE_HAS_OCCURRED_$$pos$1
-(= _WRITE_OFFSET_$$pos$1 call900formal@_offset$2@0)))))
-(=> (not (and
-_P$2
-_WRITE_HAS_OCCURRED_$$pos$1
-(= _WRITE_OFFSET_$$pos$1 call900formal@_offset$2@0))) (and
-(or %lbl%@19309 (=> (= (ControlFlow 0 5759) (- 0 19309)) (=> _P$1 true)))
-(=> (=> _P$1 true) (=> (and
-(= v5$1@0 (ite _P$1 _HAVOC_bv32$1@2 v5$1))
-(= v5$2@0 (ite _P$2 _HAVOC_bv32$2@2 v5$2))
-(= (ControlFlow 0 5759) 5753)) inline$_LOG_READ_$$pos$2$Entry_correct)))))))))
-(let ((inline$_LOG_READ_$$pos$1$_LOG_READ_correct (=> (and %lbl%+5673 true) (=> (and
-(= _READ_HAS_OCCURRED_$$pos$1@1 (ite (and
-_P$1
-inline$_LOG_READ_$$pos$1$track@0) true _READ_HAS_OCCURRED_$$pos$1@0))
-(= _READ_OFFSET_$$pos$1@1 (ite (and
-_P$1
-inline$_LOG_READ_$$pos$1$track@0) inline$_LOG_READ_$$pos$1$_offset$1@0 _READ_OFFSET_$$pos$1@0))
-(= _READ_SOURCE_$$pos$1@1 (ite (and
-_P$1
-inline$_LOG_READ_$$pos$1$track@0) #x00000002 _READ_SOURCE_$$pos$1@0))
-(= (ControlFlow 0 5673) 5759)) $entry$2_correct))))
-(let ((inline$_LOG_READ_$$pos$1$Entry_correct (=> (and %lbl%+5671 true) (=> (and
-(= inline$_LOG_READ_$$pos$1$_offset$1@0 (bvadd (bvmul v1$1@0 #x00000004) #x00000001))
-(= (ControlFlow 0 5671) 5673)) inline$_LOG_READ_$$pos$1$_LOG_READ_correct))))
-(let (($entry$1_correct (=> (and %lbl%+5677 true) (=> (= call847formal@_offset$2@0 (bvmul v1$2@0 #x00000004)) (and
-(or %lbl%@19153 (=> (= (ControlFlow 0 5677) (- 0 19153)) (not (and
-_P$2
-_WRITE_HAS_OCCURRED_$$pos$1
-(= _WRITE_OFFSET_$$pos$1 call847formal@_offset$2@0)))))
-(=> (not (and
-_P$2
-_WRITE_HAS_OCCURRED_$$pos$1
-(= _WRITE_OFFSET_$$pos$1 call847formal@_offset$2@0))) (and
-(or %lbl%@19167 (=> (= (ControlFlow 0 5677) (- 0 19167)) (=> _P$1 true)))
-(=> (=> _P$1 true) (=> (and
-(= v4$1@0 (ite _P$1 _HAVOC_bv32$1@1 v4$1))
-(= v4$2@0 (ite _P$2 _HAVOC_bv32$2@1 v4$2))
-(= (ControlFlow 0 5677) 5671)) inline$_LOG_READ_$$pos$1$Entry_correct)))))))))
-(let ((inline$_LOG_READ_$$pos$0$_LOG_READ_correct (=> (and %lbl%+5591 true) (=> (and
-(= _READ_HAS_OCCURRED_$$pos$1@0 (ite (and
-_P$1
-inline$_LOG_READ_$$pos$0$track@0) true _READ_HAS_OCCURRED_$$pos$1))
-(= _READ_OFFSET_$$pos$1@0 (ite (and
-_P$1
-inline$_LOG_READ_$$pos$0$track@0) inline$_LOG_READ_$$pos$0$_offset$1@0 _READ_OFFSET_$$pos$1))
-(= _READ_SOURCE_$$pos$1@0 (ite (and
-_P$1
-inline$_LOG_READ_$$pos$0$track@0) #x00000001 _READ_SOURCE_$$pos$1))
-(= (ControlFlow 0 5591) 5677)) $entry$1_correct))))
-(let ((inline$_LOG_READ_$$pos$0$Entry_correct (=> (and %lbl%+5589 true) (=> (and
-(= inline$_LOG_READ_$$pos$0$_offset$1@0 (bvmul v1$1@0 #x00000004))
-(= (ControlFlow 0 5589) 5591)) inline$_LOG_READ_$$pos$0$_LOG_READ_correct))))
-(let (($entry_correct (=> (and %lbl%+5595 true) (=> (and
-(= v0$1@0 (ite _P$1 local_id_x$1 v0$1))
-(= v0$2@0 (ite _P$2 local_id_x$2 v0$2))) (=> (and
-(= v1$1@0 (ite _P$1 (bvadd (bvmul group_size_x group_id_x$1) local_id_x$1) v1$1))
-(= v1$2@0 (ite _P$2 (bvadd (bvmul group_size_x group_id_x$2) local_id_x$2) v1$2))
-(= v2$1@0 (ite _P$1 group_size_x v2$1))
-(= v2$2@0 (ite _P$2 group_size_x v2$2))) (and
-(or %lbl%@19027 (=> (= (ControlFlow 0 5595) (- 0 19027)) (=> _P$1 true)))
-(=> (=> _P$1 true) (=> (and
-(= v3$1@0 (ite _P$1 _HAVOC_bv32$1@0 v3$1))
-(= v3$2@0 (ite _P$2 _HAVOC_bv32$2@0 v3$2))
-(= (ControlFlow 0 5595) 5589)) inline$_LOG_READ_$$pos$0$Entry_correct))))))))
-(let ((PreconditionGeneratedEntry_correct (=> (and %lbl%+17409 true) (=> (and
-(not _READ_HAS_OCCURRED_$$pos$1)
-(not _WRITE_HAS_OCCURRED_$$pos$1)
-(= _READ_SOURCE_$$pos$1 #x00000000)
-(= _WRITE_SOURCE_$$pos$1 #x00000000)
-(not _READ_HAS_OCCURRED_$$vel$1)
-(not _WRITE_HAS_OCCURRED_$$vel$1)
-(= _READ_SOURCE_$$vel$1 #x00000000)
-(= _WRITE_SOURCE_$$vel$1 #x00000000)) (=> (and
-(not _READ_HAS_OCCURRED_$$newPosition$1)
-(not _WRITE_HAS_OCCURRED_$$newPosition$1)
-(= _READ_SOURCE_$$newPosition$1 #x00000000)
-(= _WRITE_SOURCE_$$newPosition$1 #x00000000)
-(not _READ_HAS_OCCURRED_$$newVelocity$1)
-(not _WRITE_HAS_OCCURRED_$$newVelocity$1)
-(= _READ_SOURCE_$$newVelocity$1 #x00000000)
-(= _WRITE_SOURCE_$$newVelocity$1 #x00000000)
-(not _READ_HAS_OCCURRED_$$localPos$1)
-(not _WRITE_HAS_OCCURRED_$$localPos$1)
-(= _READ_SOURCE_$$localPos$1 #x00000000)
-(= _WRITE_SOURCE_$$localPos$1 #x00000000)
-(bvsgt group_size_x #x00000000)
-(bvsgt num_groups_x #x00000000)
-(bvsge group_id_x$1 #x00000000)
-(bvsge group_id_x$2 #x00000000)) (=> (and
-(bvslt group_id_x$1 num_groups_x)
-(bvslt group_id_x$2 num_groups_x)
-(bvsge local_id_x$1 #x00000000)
-(bvsge local_id_x$2 #x00000000)
-(bvslt local_id_x$1 group_size_x)
-(bvslt local_id_x$2 group_size_x)
-(bvsgt group_size_y #x00000000)
-(bvsgt num_groups_y #x00000000)
-(bvsge group_id_y$1 #x00000000)
-(bvsge group_id_y$2 #x00000000)
-(bvslt group_id_y$1 num_groups_y)
-(bvslt group_id_y$2 num_groups_y)
-(bvsge local_id_y$1 #x00000000)
-(bvsge local_id_y$2 #x00000000)
-(bvslt local_id_y$1 group_size_y)
-(bvslt local_id_y$2 group_size_y)
-(bvsgt group_size_z #x00000000)
-(bvsgt num_groups_z #x00000000)
-(bvsge group_id_z$1 #x00000000)
-(bvsge group_id_z$2 #x00000000)
-(bvslt group_id_z$1 num_groups_z)
-(bvslt group_id_z$2 num_groups_z)
-(bvsge local_id_z$1 #x00000000)
-(bvsge local_id_z$2 #x00000000)
-(bvslt local_id_z$1 group_size_z)
-(bvslt local_id_z$2 group_size_z)
-(=> (and
-(= group_id_x$1 group_id_x$2)
-(= group_id_y$1 group_id_y$2)
-(= group_id_z$1 group_id_z$2)) (or
-(not (= local_id_x$1 local_id_x$2))
-(not (= local_id_y$1 local_id_y$2))
-(not (= local_id_z$1 local_id_z$2))))
-(= _P$1 _P$2)
-(= $numBodies$1 $numBodies$2)
-(= $deltaTime$1 $deltaTime$2)
-(= $epsSqr$1 $epsSqr$2)
-(= (ControlFlow 0 17409) 5595)) $entry_correct))))))
-PreconditionGeneratedEntry_correct)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))
-(push 1)
-;(set-info :boogie-vc-id $nbody_sim)
-(assert (not
-(=> (and
-true
-_b0
-_b1
-_b2
-_b3
-_b4
-_b5
-_b6
-_b7
-_b8
-_b9
-_b10
-_b11) $nbody_sim)
-))
-(check-sat)
-;(get-value ((ControlFlow 0 0)))
-;(get-value ((ControlFlow 0 17409)))
-;(get-value ((ControlFlow 0 5595)))
-;(get-value ((ControlFlow 0 5589)))
-;(get-value ((ControlFlow 0 5591)))
-;(get-value ((ControlFlow 0 5677)))
-;(get-value ((ControlFlow 0 5671)))
-;(get-value ((ControlFlow 0 5673)))
-;(get-value ((ControlFlow 0 5759)))
-;(get-value ((ControlFlow 0 5753)))
-;(get-value ((ControlFlow 0 5755)))
-;(get-value ((ControlFlow 0 5841)))
-;(get-value ((ControlFlow 0 5835)))
-;(get-value ((ControlFlow 0 5837)))
-;(get-value ((ControlFlow 0 5843)))
-(assert (not (= (ControlFlow 0 5843) (- 20181))))
-(check-sat)
-;(get-value ((ControlFlow 0 0)))
-;(get-value ((ControlFlow 0 17409)))
-;(get-value ((ControlFlow 0 5595)))
-;(get-value ((ControlFlow 0 5589)))
-;(get-value ((ControlFlow 0 5591)))
-;(get-value ((ControlFlow 0 5677)))
-;(get-value ((ControlFlow 0 5671)))
-;(get-value ((ControlFlow 0 5673)))
-;(get-value ((ControlFlow 0 5759)))
-;(get-value ((ControlFlow 0 5753)))
-;(get-value ((ControlFlow 0 5755)))
-;(get-value ((ControlFlow 0 5841)))
-;(get-value ((ControlFlow 0 5835)))
-;(get-value ((ControlFlow 0 5837)))
-;(get-value ((ControlFlow 0 5843)))
-(assert (not (= (ControlFlow 0 5843) (- 20188))))
-(check-sat)
-;(get-value ((ControlFlow 0 0)))
-;(get-value ((ControlFlow 0 17409)))
-;(get-value ((ControlFlow 0 5595)))
-;(get-value ((ControlFlow 0 5589)))
-;(get-value ((ControlFlow 0 5591)))
-;(get-value ((ControlFlow 0 5677)))
-;(get-value ((ControlFlow 0 5671)))
-;(get-value ((ControlFlow 0 5673)))
-;(get-value ((ControlFlow 0 5759)))
-;(get-value ((ControlFlow 0 5753)))
-;(get-value ((ControlFlow 0 5755)))
-;(get-value ((ControlFlow 0 5841)))
-;(get-value ((ControlFlow 0 5835)))
-;(get-value ((ControlFlow 0 5837)))
-;(get-value ((ControlFlow 0 5843)))
-(assert (not (= (ControlFlow 0 5843) (- 20204))))
-(check-sat)
-;(get-value ((ControlFlow 0 0)))
-;(get-value ((ControlFlow 0 17409)))
-;(get-value ((ControlFlow 0 5595)))
-;(get-value ((ControlFlow 0 5589)))
-;(get-value ((ControlFlow 0 5591)))
-;(get-value ((ControlFlow 0 5677)))
-;(get-value ((ControlFlow 0 5671)))
-;(get-value ((ControlFlow 0 5673)))
-;(get-value ((ControlFlow 0 5759)))
-;(get-value ((ControlFlow 0 5753)))
-;(get-value ((ControlFlow 0 5755)))
-;(get-value ((ControlFlow 0 5841)))
-;(get-value ((ControlFlow 0 5835)))
-;(get-value ((ControlFlow 0 5837)))
-;(get-value ((ControlFlow 0 5843)))
-;(get-value ((ControlFlow 0 5925)))
-;(get-value ((ControlFlow 0 5919)))
-;(get-value ((ControlFlow 0 5921)))
-;(get-value ((ControlFlow 0 6007)))
-;(get-value ((ControlFlow 0 6001)))
-;(get-value ((ControlFlow 0 6003)))
-;(get-value ((ControlFlow 0 6089)))
-;(get-value ((ControlFlow 0 6083)))
-;(get-value ((ControlFlow 0 6085)))
-;(get-value ((ControlFlow 0 6171)))
-;(get-value ((ControlFlow 0 6165)))
-;(get-value ((ControlFlow 0 6167)))
-;(get-value ((ControlFlow 0 6253)))
-;(get-value ((ControlFlow 0 6247)))
-;(get-value ((ControlFlow 0 6249)))
-;(get-value ((ControlFlow 0 6335)))
-;(get-value ((ControlFlow 0 6329)))
-;(get-value ((ControlFlow 0 6331)))
-;(get-value ((ControlFlow 0 6417)))
-;(get-value ((ControlFlow 0 6411)))
-;(get-value ((ControlFlow 0 6413)))
-;(get-value ((ControlFlow 0 6499)))
-;(get-value ((ControlFlow 0 6493)))
-;(get-value ((ControlFlow 0 6495)))
-;(get-value ((ControlFlow 0 7034)))
-;(get-value ((ControlFlow 0 7002)))
-;(get-value ((ControlFlow 0 7006)))
-;(get-value ((ControlFlow 0 7028)))
-;(get-value ((ControlFlow 0 7026)))
-;(get-value ((ControlFlow 0 7016)))
-;(get-value ((ControlFlow 0 7018)))
-;(get-value ((ControlFlow 0 7020)))
-;(get-value ((ControlFlow 0 7032)))
-;(get-value ((ControlFlow 0 7036)))
-;(get-value ((ControlFlow 0 7118)))
-;(get-value ((ControlFlow 0 7112)))
-;(get-value ((ControlFlow 0 7114)))
-;(get-value ((ControlFlow 0 7200)))
-;(get-value ((ControlFlow 0 7194)))
-;(get-value ((ControlFlow 0 7196)))
-;(get-value ((ControlFlow 0 7282)))
-;(get-value ((ControlFlow 0 7276)))
-;(get-value ((ControlFlow 0 7278)))
-;(get-value ((ControlFlow 0 7364)))
-;(get-value ((ControlFlow 0 7358)))
-;(get-value ((ControlFlow 0 7360)))
-;(get-value ((ControlFlow 0 7446)))
-;(get-value ((ControlFlow 0 7440)))
-;(get-value ((ControlFlow 0 7442)))
-;(get-value ((ControlFlow 0 7448)))
-;(get-value ((ControlFlow 0 7983)))
-;(get-value ((ControlFlow 0 7951)))
-;(get-value ((ControlFlow 0 7955)))
-;(get-value ((ControlFlow 0 7977)))
-;(get-value ((ControlFlow 0 7975)))
-;(get-value ((ControlFlow 0 7965)))
-;(get-value ((ControlFlow 0 7967)))
-;(get-value ((ControlFlow 0 7969)))
-;(get-value ((ControlFlow 0 7981)))
-;(get-value ((ControlFlow 0 7985)))
-;(get-value ((ControlFlow 0 8973)))
-(assert (not (= (ControlFlow 0 8973) (- 28090))))
-(check-sat)
-;(get-value ((ControlFlow 0 0)))
-;(get-value ((ControlFlow 0 17409)))
-;(get-value ((ControlFlow 0 5595)))
-;(get-value ((ControlFlow 0 5589)))
-;(get-value ((ControlFlow 0 5591)))
-;(get-value ((ControlFlow 0 5677)))
-;(get-value ((ControlFlow 0 5671)))
-;(get-value ((ControlFlow 0 5673)))
-;(get-value ((ControlFlow 0 5759)))
-;(get-value ((ControlFlow 0 5753)))
-;(get-value ((ControlFlow 0 5755)))
-;(get-value ((ControlFlow 0 5841)))
-;(get-value ((ControlFlow 0 5835)))
-;(get-value ((ControlFlow 0 5837)))
-;(get-value ((ControlFlow 0 5843)))
-;(get-value ((ControlFlow 0 5925)))
-;(get-value ((ControlFlow 0 5919)))
-;(get-value ((ControlFlow 0 5921)))
-;(get-value ((ControlFlow 0 6007)))
-;(get-value ((ControlFlow 0 6001)))
-;(get-value ((ControlFlow 0 6003)))
-;(get-value ((ControlFlow 0 6089)))
-;(get-value ((ControlFlow 0 6083)))
-;(get-value ((ControlFlow 0 6085)))
-;(get-value ((ControlFlow 0 6171)))
-;(get-value ((ControlFlow 0 6165)))
-;(get-value ((ControlFlow 0 6167)))
-;(get-value ((ControlFlow 0 6253)))
-;(get-value ((ControlFlow 0 6247)))
-;(get-value ((ControlFlow 0 6249)))
-;(get-value ((ControlFlow 0 6335)))
-;(get-value ((ControlFlow 0 6329)))
-;(get-value ((ControlFlow 0 6331)))
-;(get-value ((ControlFlow 0 6417)))
-;(get-value ((ControlFlow 0 6411)))
-;(get-value ((ControlFlow 0 6413)))
-;(get-value ((ControlFlow 0 6499)))
-;(get-value ((ControlFlow 0 6493)))
-;(get-value ((ControlFlow 0 6495)))
-;(get-value ((ControlFlow 0 7034)))
-;(get-value ((ControlFlow 0 7002)))
-;(get-value ((ControlFlow 0 7006)))
-;(get-value ((ControlFlow 0 7028)))
-;(get-value ((ControlFlow 0 7026)))
-;(get-value ((ControlFlow 0 7016)))
-;(get-value ((ControlFlow 0 7018)))
-;(get-value ((ControlFlow 0 7020)))
-;(get-value ((ControlFlow 0 7032)))
-;(get-value ((ControlFlow 0 7036)))
-;(get-value ((ControlFlow 0 7118)))
-;(get-value ((ControlFlow 0 7112)))
-;(get-value ((ControlFlow 0 7114)))
-;(get-value ((ControlFlow 0 7200)))
-;(get-value ((ControlFlow 0 7194)))
-;(get-value ((ControlFlow 0 7196)))
-;(get-value ((ControlFlow 0 7282)))
-;(get-value ((ControlFlow 0 7276)))
-;(get-value ((ControlFlow 0 7278)))
-;(get-value ((ControlFlow 0 7364)))
-;(get-value ((ControlFlow 0 7358)))
-;(get-value ((ControlFlow 0 7360)))
-;(get-value ((ControlFlow 0 7446)))
-;(get-value ((ControlFlow 0 7440)))
-;(get-value ((ControlFlow 0 7442)))
-;(get-value ((ControlFlow 0 7448)))
-;(get-value ((ControlFlow 0 7983)))
-;(get-value ((ControlFlow 0 7951)))
-;(get-value ((ControlFlow 0 7955)))
-;(get-value ((ControlFlow 0 7977)))
-;(get-value ((ControlFlow 0 7975)))
-;(get-value ((ControlFlow 0 7965)))
-;(get-value ((ControlFlow 0 7967)))
-;(get-value ((ControlFlow 0 7969)))
-;(get-value ((ControlFlow 0 7981)))
-;(get-value ((ControlFlow 0 7985)))
-;(get-value ((ControlFlow 0 8973)))
-(pop 1)
-(push 1)
-;(set-info :boogie-vc-id $nbody_sim)
-(assert (not
-(=> (and
-true
-_b0
-_b1
-_b2
-(not _b3)
-(not _b4)
-(not _b5)
-_b6
-_b7
-_b8
-_b9
-_b10
-_b11) $nbody_sim)
-))
-(check-sat)
-;(get-value ((ControlFlow 0 0)))
-;(get-value ((ControlFlow 0 17409)))
-;(get-value ((ControlFlow 0 5595)))
-;(get-value ((ControlFlow 0 5589)))
-;(get-value ((ControlFlow 0 5591)))
-;(get-value ((ControlFlow 0 5677)))
-;(get-value ((ControlFlow 0 5671)))
-;(get-value ((ControlFlow 0 5673)))
-;(get-value ((ControlFlow 0 5759)))
-;(get-value ((ControlFlow 0 5753)))
-;(get-value ((ControlFlow 0 5755)))
-;(get-value ((ControlFlow 0 5841)))
-;(get-value ((ControlFlow 0 5835)))
-;(get-value ((ControlFlow 0 5837)))
-;(get-value ((ControlFlow 0 5843)))
-;(get-value ((ControlFlow 0 5925)))
-;(get-value ((ControlFlow 0 5919)))
-;(get-value ((ControlFlow 0 5921)))
-;(get-value ((ControlFlow 0 6007)))
-;(get-value ((ControlFlow 0 6001)))
-;(get-value ((ControlFlow 0 6003)))
-;(get-value ((ControlFlow 0 6089)))
-;(get-value ((ControlFlow 0 6083)))
-;(get-value ((ControlFlow 0 6085)))
-;(get-value ((ControlFlow 0 6171)))
-;(get-value ((ControlFlow 0 6165)))
-;(get-value ((ControlFlow 0 6167)))
-;(get-value ((ControlFlow 0 6253)))
-;(get-value ((ControlFlow 0 6247)))
-;(get-value ((ControlFlow 0 6249)))
-;(get-value ((ControlFlow 0 6335)))
-;(get-value ((ControlFlow 0 6329)))
-;(get-value ((ControlFlow 0 6331)))
-;(get-value ((ControlFlow 0 6417)))
-;(get-value ((ControlFlow 0 6411)))
-;(get-value ((ControlFlow 0 6413)))
-;(get-value ((ControlFlow 0 6499)))
-;(get-value ((ControlFlow 0 6493)))
-;(get-value ((ControlFlow 0 6495)))
-;(get-value ((ControlFlow 0 7034)))
-;(get-value ((ControlFlow 0 7002)))
-;(get-value ((ControlFlow 0 7006)))
-;(get-value ((ControlFlow 0 7028)))
-;(get-value ((ControlFlow 0 7026)))
-;(get-value ((ControlFlow 0 7016)))
-;(get-value ((ControlFlow 0 7018)))
-;(get-value ((ControlFlow 0 7020)))
-;(get-value ((ControlFlow 0 7032)))
-;(get-value ((ControlFlow 0 7036)))
-;(get-value ((ControlFlow 0 7118)))
-;(get-value ((ControlFlow 0 7112)))
-;(get-value ((ControlFlow 0 7114)))
-;(get-value ((ControlFlow 0 7200)))
-;(get-value ((ControlFlow 0 7194)))
-;(get-value ((ControlFlow 0 7196)))
-;(get-value ((ControlFlow 0 7282)))
-;(get-value ((ControlFlow 0 7276)))
-;(get-value ((ControlFlow 0 7278)))
-;(get-value ((ControlFlow 0 7364)))
-;(get-value ((ControlFlow 0 7358)))
-;(get-value ((ControlFlow 0 7360)))
-;(get-value ((ControlFlow 0 7446)))
-;(get-value ((ControlFlow 0 7440)))
-;(get-value ((ControlFlow 0 7442)))
-;(get-value ((ControlFlow 0 7448)))
-;(get-value ((ControlFlow 0 7983)))
-;(get-value ((ControlFlow 0 7951)))
-;(get-value ((ControlFlow 0 7955)))
-;(get-value ((ControlFlow 0 7977)))
-;(get-value ((ControlFlow 0 7975)))
-;(get-value ((ControlFlow 0 7965)))
-;(get-value ((ControlFlow 0 7967)))
-;(get-value ((ControlFlow 0 7969)))
-;(get-value ((ControlFlow 0 7981)))
-;(get-value ((ControlFlow 0 7985)))
-;(get-value ((ControlFlow 0 8973)))
-(assert (not (= (ControlFlow 0 8973) (- 28118))))
-(check-sat)
-;(get-value ((ControlFlow 0 0)))
-;(get-value ((ControlFlow 0 17409)))
-;(get-value ((ControlFlow 0 5595)))
-;(get-value ((ControlFlow 0 5589)))
-;(get-value ((ControlFlow 0 5591)))
-;(get-value ((ControlFlow 0 5677)))
-;(get-value ((ControlFlow 0 5671)))
-;(get-value ((ControlFlow 0 5673)))
-;(get-value ((ControlFlow 0 5759)))
-;(get-value ((ControlFlow 0 5753)))
-;(get-value ((ControlFlow 0 5755)))
-;(get-value ((ControlFlow 0 5841)))
-;(get-value ((ControlFlow 0 5835)))
-;(get-value ((ControlFlow 0 5837)))
-;(get-value ((ControlFlow 0 5843)))
-;(get-value ((ControlFlow 0 5925)))
-;(get-value ((ControlFlow 0 5919)))
-;(get-value ((ControlFlow 0 5921)))
-;(get-value ((ControlFlow 0 6007)))
-;(get-value ((ControlFlow 0 6001)))
-;(get-value ((ControlFlow 0 6003)))
-;(get-value ((ControlFlow 0 6089)))
-;(get-value ((ControlFlow 0 6083)))
-;(get-value ((ControlFlow 0 6085)))
-;(get-value ((ControlFlow 0 6171)))
-;(get-value ((ControlFlow 0 6165)))
-;(get-value ((ControlFlow 0 6167)))
-;(get-value ((ControlFlow 0 6253)))
-;(get-value ((ControlFlow 0 6247)))
-;(get-value ((ControlFlow 0 6249)))
-;(get-value ((ControlFlow 0 6335)))
-;(get-value ((ControlFlow 0 6329)))
-;(get-value ((ControlFlow 0 6331)))
-;(get-value ((ControlFlow 0 6417)))
-;(get-value ((ControlFlow 0 6411)))
-;(get-value ((ControlFlow 0 6413)))
-;(get-value ((ControlFlow 0 6499)))
-;(get-value ((ControlFlow 0 6493)))
-;(get-value ((ControlFlow 0 6495)))
-;(get-value ((ControlFlow 0 7034)))
-;(get-value ((ControlFlow 0 7002)))
-;(get-value ((ControlFlow 0 7006)))
-;(get-value ((ControlFlow 0 7028)))
-;(get-value ((ControlFlow 0 7026)))
-;(get-value ((ControlFlow 0 7016)))
-;(get-value ((ControlFlow 0 7018)))
-;(get-value ((ControlFlow 0 7020)))
-;(get-value ((ControlFlow 0 7032)))
-;(get-value ((ControlFlow 0 7036)))
-;(get-value ((ControlFlow 0 7118)))
-;(get-value ((ControlFlow 0 7112)))
-;(get-value ((ControlFlow 0 7114)))
-;(get-value ((ControlFlow 0 7200)))
-;(get-value ((ControlFlow 0 7194)))
-;(get-value ((ControlFlow 0 7196)))
-;(get-value ((ControlFlow 0 7282)))
-;(get-value ((ControlFlow 0 7276)))
-;(get-value ((ControlFlow 0 7278)))
-;(get-value ((ControlFlow 0 7364)))
-;(get-value ((ControlFlow 0 7358)))
-;(get-value ((ControlFlow 0 7360)))
-;(get-value ((ControlFlow 0 7446)))
-;(get-value ((ControlFlow 0 7440)))
-;(get-value ((ControlFlow 0 7442)))
-;(get-value ((ControlFlow 0 7448)))
-;(get-value ((ControlFlow 0 7983)))
-;(get-value ((ControlFlow 0 7951)))
-;(get-value ((ControlFlow 0 7955)))
-;(get-value ((ControlFlow 0 7977)))
-;(get-value ((ControlFlow 0 7975)))
-;(get-value ((ControlFlow 0 7965)))
-;(get-value ((ControlFlow 0 7967)))
-;(get-value ((ControlFlow 0 7969)))
-;(get-value ((ControlFlow 0 7981)))
-;(get-value ((ControlFlow 0 7985)))
-;(get-value ((ControlFlow 0 8973)))
-(assert (not (= (ControlFlow 0 8973) (- 28132))))
-(check-sat)
-;(get-value ((ControlFlow 0 0)))
-;(get-value ((ControlFlow 0 17409)))
-;(get-value ((ControlFlow 0 5595)))
-;(get-value ((ControlFlow 0 5589)))
-;(get-value ((ControlFlow 0 5591)))
-;(get-value ((ControlFlow 0 5677)))
-;(get-value ((ControlFlow 0 5671)))
-;(get-value ((ControlFlow 0 5673)))
-;(get-value ((ControlFlow 0 5759)))
-;(get-value ((ControlFlow 0 5753)))
-;(get-value ((ControlFlow 0 5755)))
-;(get-value ((ControlFlow 0 5841)))
-;(get-value ((ControlFlow 0 5835)))
-;(get-value ((ControlFlow 0 5837)))
-;(get-value ((ControlFlow 0 5843)))
-(assert (not (= (ControlFlow 0 5843) (- 20234))))
-(check-sat)
-;(get-value ((ControlFlow 0 0)))
-;(get-value ((ControlFlow 0 17409)))
-;(get-value ((ControlFlow 0 5595)))
-;(get-value ((ControlFlow 0 5589)))
-;(get-value ((ControlFlow 0 5591)))
-;(get-value ((ControlFlow 0 5677)))
-;(get-value ((ControlFlow 0 5671)))
-;(get-value ((ControlFlow 0 5673)))
-;(get-value ((ControlFlow 0 5759)))
-;(get-value ((ControlFlow 0 5753)))
-;(get-value ((ControlFlow 0 5755)))
-;(get-value ((ControlFlow 0 5841)))
-;(get-value ((ControlFlow 0 5835)))
-;(get-value ((ControlFlow 0 5837)))
-;(get-value ((ControlFlow 0 5843)))
-(assert (not (= (ControlFlow 0 5843) (- 20220))))
-(check-sat)
-;(get-value ((ControlFlow 0 0)))
-;(get-value ((ControlFlow 0 17409)))
-;(get-value ((ControlFlow 0 5595)))
-;(get-value ((ControlFlow 0 5589)))
-;(get-value ((ControlFlow 0 5591)))
-;(get-value ((ControlFlow 0 5677)))
-;(get-value ((ControlFlow 0 5671)))
-;(get-value ((ControlFlow 0 5673)))
-;(get-value ((ControlFlow 0 5759)))
-;(get-value ((ControlFlow 0 5753)))
-;(get-value ((ControlFlow 0 5755)))
-;(get-value ((ControlFlow 0 5841)))
-;(get-value ((ControlFlow 0 5835)))
-;(get-value ((ControlFlow 0 5837)))
-;(get-value ((ControlFlow 0 5843)))
-(pop 1)
diff --git a/test/regress/regress0/push-pop/bug674.smt2 b/test/regress/regress0/push-pop/bug674.smt2
deleted file mode 100644
index fccde862a..000000000
--- a/test/regress/regress0/push-pop/bug674.smt2
+++ /dev/null
@@ -1,28 +0,0 @@
-; COMMAND-LINE: --quant-ind --incremental --rewrite-divk
-(set-logic ALL_SUPPORTED)
-(declare-datatypes ((Lst 0)) (((cons (head Int) (tail Lst)) (nil))))
-(define-fun-rec app ((l1 Lst) (l2 Lst)) Lst (ite (is-nil l1) l2 (cons (head l1) (app (tail l1) l2))))
-(define-fun-rec rev ((l Lst)) Lst (ite (is-nil l) nil (app (rev (tail l)) (cons (head l) nil))))
-; EXPECT: unsat
-(push 1)
-(assert (not (=> true (and (forall (($l1$0 Lst) ($l2$0 Lst) ($l3$0 Lst)) (= (app $l1$0 (app $l2$0 $l3$0)) (app (app $l1$0 $l2$0) $l3$0)))))))
-(check-sat)
-(pop 1)
-
-(assert (forall (($l1$0 Lst) ($l2$0 Lst) ($l3$0 Lst)) (= (app $l1$0 (app $l2$0 $l3$0)) (app (app $l1$0 $l2$0) $l3$0))))
-
-; EXPECT: unsat
-(push 1)
-(assert (not (=> true (and (forall (($l1$0 Lst) ($l2$0 Lst)) (= (rev (app $l1$0 $l2$0)) (app (rev $l2$0) (rev $l1$0))))))))
-(check-sat)
-(pop 1)
-
-(assert (forall (($l1$0 Lst) ($l2$0 Lst)) (= (rev (app $l1$0 $l2$0)) (app (rev $l2$0) (rev $l1$0)))))
-
-; EXPECT: unsat
-(push 1)
-(assert (not (=> true (and (forall (($l1$0 Lst)) (= (rev (rev $l1$0)) $l1$0))))))
-(check-sat)
-(pop 1)
-
-
diff --git a/test/regress/regress0/push-pop/bug694-Unapply1.scala-0.smt2 b/test/regress/regress0/push-pop/bug694-Unapply1.scala-0.smt2
deleted file mode 100644
index 7680a7daf..000000000
--- a/test/regress/regress0/push-pop/bug694-Unapply1.scala-0.smt2
+++ /dev/null
@@ -1,147 +0,0 @@
-; COMMAND-LINE: --incremental --lang=smt2.5
-; EXPECT: unsat
-; EXPECT: sat
-; EXPECT: sat
-(set-logic ALL)
-(declare-fun start!1 () Bool)
-
-(assert start!1)
-
-(declare-fun b!15 () Bool)
-
-(declare-fun e!22 () Bool)
-
-(declare-fun error_value!0 () Bool)
-
-(assert (=> b!15 (= e!22 error_value!0)))
-
-(declare-fun b!16 () Bool)
-
-(declare-fun e!20 () Bool)
-
-(assert (=> b!16 (= e!20 e!22)))
-
-(declare-fun b!20 () Bool)
-
-(declare-datatypes () ( (Option!3 (None!1) (Some!1 (v!71 tuple2!0)))  (tuple2!0 (tuple2!1 (_1!0 Unit!0) (_2!0 Bool)))  (Unit!0 (Unit!1)) ))
-
-(declare-fun lt!7 () Option!3)
-
-(declare-fun Unit!2 () Unit!0)
-
-(assert (=> b!16 (= b!20 (ite (is-Some!1 lt!7) (= (_1!0 (v!71 lt!7)) Unit!2) false))))
-
-(assert (=> b!16 (or (not b!20) (not b!15))))
-
-(assert (=> b!16 (or b!20 b!15)))
-
-(declare-datatypes () ( (tuple3!0 (tuple3!1 (_1!1 (_ BitVec 32)) (_2!1 Bool) (_3!0 Unit!0))) ))
-
-(declare-fun unapply!2 (tuple3!0) Option!3)
-
-(declare-fun Unit!3 () Unit!0)
-
-(assert (=> b!16 (= lt!7 (unapply!2 (tuple3!1 #x0000002A false Unit!3)))))
-
-(declare-fun b!17 () Bool)
-
-(declare-fun e!21 () Bool)
-
-(assert (=> b!17 e!21))
-
-(declare-fun b!18 () Bool)
-
-(declare-fun Unit!4 () Unit!0)
-
-(assert (=> b!18 (= e!20 (_2!0 (v!71 (unapply!2 (tuple3!1 #x0000002A false Unit!4)))))))
-
-(declare-fun lt!6 () Bool)
-
-(assert (=> start!1 (not lt!6)))
-
-(assert (=> start!1 (= lt!6 e!20)))
-
-(assert (=> start!1 (= b!18 e!21)))
-
-(assert (=> start!1 (or (not b!18) (not b!16))))
-
-(assert (=> start!1 (or b!18 b!16)))
-
-(declare-fun b!19 () Bool)
-
-(assert (=> (and start!1 (not b!19)) (not e!21)))
-
-(declare-fun lt!8 () Option!3)
-
-(assert (=> start!1 (= b!19 (ite (is-Some!1 lt!8) true false))))
-
-(declare-fun Unit!5 () Unit!0)
-
-(assert (=> start!1 (= lt!8 (unapply!2 (tuple3!1 #x0000002A false Unit!5)))))
-
-(assert (=> (and b!19 (not b!17)) (not e!21)))
-
-(declare-fun Unit!6 () Unit!0)
-
-(assert (=> b!19 (= b!17 (_2!0 (v!71 (unapply!2 (tuple3!1 #x0000002A false Unit!6)))))))
-
-(declare-fun Unit!7 () Unit!0)
-
-(assert (=> b!20 (= e!22 (_2!0 (v!71 (unapply!2 (tuple3!1 #x0000002A false Unit!7)))))))
-
-(push 1)
-
-(assert (and (and (and (and (not b!19) (not start!1)) (not b!20)) (not b!18)) (not b!16)))
-
-(check-sat)
-
-(pop 1)
-
-(push 1)
-
-(assert true)
-
-(check-sat)
-
-(pop 1)
-
-(declare-fun d!1 () Bool)
-
-(declare-fun e!25 () Bool)
-
-(assert (=> d!1 e!25))
-
-(declare-fun b!23 () Bool)
-
-(assert (=> (and d!1 (not b!23)) (not e!25)))
-
-(declare-fun Unit!8 () Unit!0)
-
-(declare-fun Unit!9 () Unit!0)
-
-(declare-fun Unit!10 () Unit!0)
-
-(declare-fun Unit!11 () Unit!0)
-
-(assert (=> d!1 (= b!23 (= (unapply!2 (tuple3!1 #x0000002A false Unit!8)) (ite (= (_1!1 (tuple3!1 #x0000002A false Unit!9)) #x00000000) None!1 (Some!1 (tuple2!1 (_3!0 (tuple3!1 #x0000002A false Unit!10)) (_2!1 (tuple3!1 #x0000002A false Unit!11)))))))))
-
-(assert (=> b!23 (= e!25 true)))
-
-(assert (=> b!18 d!1))
-
-(assert (=> start!1 d!1))
-
-(assert (=> b!16 d!1))
-
-(assert (=> b!20 d!1))
-
-(assert (=> b!19 d!1))
-
-(push 1)
-
-(assert true)
-
-(check-sat)
-
-(pop 1)
-
diff --git a/test/regress/regress0/push-pop/bug765.smt2 b/test/regress/regress0/push-pop/bug765.smt2
deleted file mode 100644
index 2144de060..000000000
--- a/test/regress/regress0/push-pop/bug765.smt2
+++ /dev/null
@@ -1,30 +0,0 @@
-; COMMAND-LINE: --incremental --fmf-fun-rlv --no-check-models --lang=smt2.5
-(set-logic ALL_SUPPORTED)
-
-(declare-datatypes () (
-    (Color (red) (white) (blue))
-) )
-
-(define-fun ColorToString ((c Color)) String (ite (is-red c) "red" (ite (is-white c) "white" "blue")) )
-(declare-fun ColorFromString (String) Color)
-(assert (forall ((c Color)) (= c (ColorFromString (ColorToString c)))))
-
-(declare-datatypes () (
-    (CP (cp (c1 Color) (c2 Color)))
-) )
-
-(define-fun-rec CPToString ((cp CP)) String (str.++ "cp(" (ColorToString (c1 cp)) "," (ColorToString (c2 cp)) ")"))
-(declare-fun CPFromString (String) CP)
-(assert (forall ((cp1 CP)) (= cp1 (CPFromString (CPToString cp1)))))
-
-(declare-fun cpx() CP)
-(assert (= cpx (CPFromString "cp(white,red)")))
-
-; EXPECT: sat
-(check-sat)
-
-(declare-fun cpy() CP)
-(assert (= cpy (CPFromString "cp(red,blue)")))
-
-; EXPECT: sat
-(check-sat)
diff --git a/test/regress/regress0/push-pop/fmf-fun-dbu.smt2 b/test/regress/regress0/push-pop/fmf-fun-dbu.smt2
deleted file mode 100644
index b35c98aa9..000000000
--- a/test/regress/regress0/push-pop/fmf-fun-dbu.smt2
+++ /dev/null
@@ -1,14 +0,0 @@
-; COMMAND-LINE: --incremental --fmf-fun --no-check-models
-(set-logic UFDTLIA)
-(set-option :produce-models true)
-(declare-datatypes ((List 0)) (((Nil) (Cons (Cons$head Int) (Cons$tail List)))))
-(define-fun-rec all-z ((x List)) Bool (=> ((_ is Cons) x) (and (= 0 (Cons$head x)) (all-z (Cons$tail x)))))
-(define-fun-rec len ((x List)) Int (ite ((_ is Nil) x) 0 (+ 1 (len (Cons$tail x)))))
-(declare-fun root() List)
-; EXPECT: sat
-(assert (and (all-z root) (<= 1 (len root))))
-(check-sat)
-; EXPECT: sat
-(assert (= root (Cons 0 Nil)))
-(check-sat)
-
diff --git a/test/regress/regress0/push-pop/quant-fun-proc-unmacro.smt2 b/test/regress/regress0/push-pop/quant-fun-proc-unmacro.smt2
deleted file mode 100644
index 7cacfca98..000000000
--- a/test/regress/regress0/push-pop/quant-fun-proc-unmacro.smt2
+++ /dev/null
@@ -1,34 +0,0 @@
-; COMMAND-LINE: --incremental --fmf-fun --macros-quant --no-check-models
-(set-logic UFLIA)
-
-
-(define-fun f ((x Int)) Int x)
-
-(define-fun-rec g ((x Int)) Int (ite (<= x 0) 0 (+ (g x) x)))
-
-; EXPECT: sat
-(declare-fun h (Int) Int)
-(push 1)
-(assert (forall ((x Int)) (= (h x) 0)))
-(check-sat)
-(pop 1)
-
-
-; EXPECT: unsat
-(push 1)
-(assert (= (f 1) 2))
-(check-sat)
-(pop 1)
-
-; EXPECT: unsat
-(push 1)
-(assert (= (g 1) 5))
-(check-sat)
-(pop 1)
-
-; EXPECT: sat
-(push 1)
-(assert (= (h 1) 5))
-(check-sat)
-(pop 1)
-
diff --git a/test/regress/regress0/push-pop/quant-fun-proc.smt2 b/test/regress/regress0/push-pop/quant-fun-proc.smt2
deleted file mode 100644
index 2a12cb677..000000000
--- a/test/regress/regress0/push-pop/quant-fun-proc.smt2
+++ /dev/null
@@ -1,30 +0,0 @@
-; COMMAND-LINE: --incremental --fmf-fun --macros-quant --macros-quant-mode=ground --no-check-models
-(set-logic UFLIA)
-
-(define-fun f ((x Int)) Int x)
-
-(define-fun-rec g ((x Int)) Int (ite (<= x 0) 0 (+ (g x) x)))
-
-(declare-fun h (Int) Int)
-(assert (forall ((x Int)) (= (h x) (+ x 3))))
-
-; EXPECT: sat
-(check-sat)
-
-; EXPECT: unsat
-(push 1)
-(assert (= (f 1) 2))
-(check-sat)
-(pop 1)
-
-; EXPECT: unsat
-(push 1)
-(assert (= (g 1) 5))
-(check-sat)
-(pop 1)
-
-; EXPECT: unsat
-(push 1)
-(assert (= (h 1) 5))
-(check-sat)
-(pop 1)
diff --git a/test/regress/regress0/quantifiers/006-cbqi-ite.smt2 b/test/regress/regress0/quantifiers/006-cbqi-ite.smt2
deleted file mode 100644
index bfa3ef22b..000000000
--- a/test/regress/regress0/quantifiers/006-cbqi-ite.smt2
+++ /dev/null
@@ -1,299 +0,0 @@
-(set-logic LIA)
-(set-info :status unsat)
-(declare-fun W_S2_V6 () Bool)
-(declare-fun W_S2_V4 () Bool)
-(declare-fun W_S2_V2 () Bool)
-(declare-fun W_S2_V3 () Bool)
-(declare-fun W_S2_V1 () Bool)
-(declare-fun W_S1_V6 () Bool)
-(declare-fun W_S1_V5 () Bool)
-(declare-fun W_S1_V2 () Bool)
-(declare-fun W_S1_V3 () Bool)
-(declare-fun W_S1_V1 () Bool)
-(declare-fun R_S1_V1 () Bool)
-(declare-fun R_S2_V6 () Bool)
-(declare-fun R_S2_V4 () Bool)
-(declare-fun R_S2_V5 () Bool)
-(declare-fun R_S2_V2 () Bool)
-(declare-fun R_S2_V3 () Bool)
-(declare-fun R_S2_V1 () Bool)
-(declare-fun R_E1_V6 () Bool)
-(declare-fun R_E1_V4 () Bool)
-(declare-fun R_E1_V5 () Bool)
-(declare-fun R_E1_V2 () Bool)
-(declare-fun R_E1_V3 () Bool)
-(declare-fun R_E1_V1 () Bool)
-(declare-fun DISJ_W_S2_R_E1 () Bool)
-(declare-fun DISJ_W_S2_R_S2 () Bool)
-(declare-fun R_S1_V6 () Bool)
-(declare-fun R_S1_V4 () Bool)
-(declare-fun R_S1_V5 () Bool)
-(declare-fun R_S1_V2 () Bool)
-(declare-fun R_S1_V3 () Bool)
-(declare-fun DISJ_W_S2_R_S1 () Bool)
-(declare-fun DISJ_W_S1_W_S2 () Bool)
-(declare-fun DISJ_W_S1_R_E1 () Bool)
-(declare-fun DISJ_W_S1_R_S2 () Bool)
-(declare-fun DISJ_W_S1_R_S1 () Bool)
-(declare-fun W_S2_V5 () Bool)
-(declare-fun W_S1_V4 () Bool)
-(assert
- (let
- (($x1615
-   (forall
-    ((V1_0 Int) (V3_0 Int) 
-     (V2_0 Int) (V5_0 Int) 
-     (V4_0 Int) (V6_0 Int) 
-     (MW_S1_V1 Bool) (MW_S1_V3 Bool) 
-     (MW_S1_V2 Bool) (MW_S1_V5 Bool) 
-     (MW_S1_V4 Bool) (MW_S1_V6 Bool) 
-     (MW_S2_V1 Bool) (MW_S2_V3 Bool) 
-     (MW_S2_V2 Bool) (MW_S2_V5 Bool) 
-     (MW_S2_V4 Bool) (MW_S2_V6 Bool) 
-     (S1_V1_!158 Int) (S1_V1_!171 Int) 
-     (S2_V5_!167 Int) (S2_V5_!180 Int) 
-     (S1_V3_!159 Int) (S1_V3_!172 Int) 
-     (S1_V2_!160 Int) (S1_V2_!173 Int) 
-     (E1_!157 Int) (E1_!170 Int) 
-     (E1_!183 Int) (S2_V4_!168 Int) 
-     (S2_V4_!181 Int) (S2_V6_!169 Int) 
-     (S2_V6_!182 Int) (S1_V5_!161 Int) 
-     (S1_V5_!174 Int) (S2_V1_!164 Int) 
-     (S2_V1_!177 Int) (S1_V4_!162 Int) 
-     (S1_V4_!175 Int) (S2_V3_!165 Int) 
-     (S2_V3_!178 Int) (S2_V2_!166 Int) 
-     (S2_V2_!179 Int) (S1_V6_!163 Int) 
-     (S1_V6_!176 Int))
-    (let ((?x1431 (ite MW_S1_V6 S1_V6_!176 V6_0)))
-    (let ((?x1432 (ite MW_S2_V6 S2_V6_!182 ?x1431)))
-    (let ((?x1433 (ite MW_S1_V6 S1_V6_!163 V6_0)))
-    (let ((?x1434 (ite MW_S2_V6 S2_V6_!169 ?x1433)))
-    (let (($x1435 (= ?x1434 ?x1432)))
-    (let ((?x1436 (ite MW_S1_V4 S1_V4_!175 V4_0)))
-    (let ((?x1437 (ite MW_S2_V4 S2_V4_!181 ?x1436)))
-    (let ((?x1438 (ite MW_S1_V4 S1_V4_!162 V4_0)))
-    (let ((?x1439 (ite MW_S2_V4 S2_V4_!168 ?x1438)))
-    (let (($x1440 (= ?x1439 ?x1437)))
-    (let ((?x1441 (ite MW_S1_V5 S1_V5_!174 V5_0)))
-    (let ((?x1442 (ite MW_S2_V5 S2_V5_!180 ?x1441)))
-    (let ((?x1444 (ite MW_S1_V5 S1_V5_!161 V5_0)))
-    (let ((?x1445 (ite MW_S2_V5 S2_V5_!167 ?x1444)))
-    (let (($x1446 (= ?x1445 ?x1442)))
-    (let ((?x1447 (ite MW_S1_V2 S1_V2_!173 V2_0)))
-    (let ((?x1448 (ite MW_S2_V2 S2_V2_!179 ?x1447)))
-    (let ((?x1449 (ite MW_S1_V2 S1_V2_!160 V2_0)))
-    (let ((?x1450 (ite MW_S2_V2 S2_V2_!166 ?x1449)))
-    (let (($x1451 (= ?x1450 ?x1448)))
-    (let ((?x1467 (ite MW_S1_V3 S1_V3_!159 V3_0)))
-    (let ((?x1468 (+ 1 ?x1467)))
-    (let ((?x1458 (ite MW_S2_V3 S2_V3_!165 ?x1468)))
-    (let
-    (($x1459
-      (= ?x1458
-      (+ (ite MW_S2_V3 S2_V3_!178 (ite MW_S1_V3 S1_V3_!172 V3_0)) ?x1448
-      (* (- 1) E1_!183)))))
-    (let ((?x1460 (ite MW_S1_V1 S1_V1_!171 E1_!170)))
-    (let ((?x1487 (ite MW_S2_V1 S2_V1_!177 ?x1460)))
-    (let ((?x1453 (ite MW_S1_V1 S1_V1_!158 E1_!157)))
-    (let ((?x1489 (ite MW_S2_V1 S2_V1_!164 ?x1453)))
-    (let (($x1289 (= ?x1489 ?x1487)))
-    (let ((?x1455 (+ (- 1) ?x1448)))
-    (let (($x1376 (>= ?x1487 ?x1455)))
-    (let (($x1377 (<= V2_0 E1_!170)))
-    (let (($x1379 (not $x1377)))
-    (let ((?x1380 (+ (- 1) ?x1450)))
-    (let (($x1381 (>= ?x1489 ?x1380)))
-    (let (($x1479 (<= V2_0 E1_!157)))
-    (let (($x1456 (not $x1479)))
-    (let (($x1499 (and $x1456 $x1381 $x1379 $x1376)))
-    (let (($x1500 (not $x1499)))
-    (let (($x1502 (not MW_S2_V6)))
-    (let (($x1503 (or $x1502 W_S2_V6)))
-    (let (($x1504 (not MW_S2_V4)))
-    (let (($x1505 (or $x1504 W_S2_V4)))
-    (let (($x1508 (not MW_S2_V2)))
-    (let (($x1509 (or $x1508 W_S2_V2)))
-    (let (($x1510 (not MW_S2_V3)))
-    (let (($x1511 (or $x1510 W_S2_V3)))
-    (let (($x1512 (not MW_S2_V1)))
-    (let (($x1513 (or $x1512 W_S2_V1)))
-    (let (($x1514 (not MW_S1_V6)))
-    (let (($x1515 (or $x1514 W_S1_V6)))
-    (let (($x1518 (not MW_S1_V5)))
-    (let (($x1519 (or $x1518 W_S1_V5)))
-    (let (($x1520 (not MW_S1_V2)))
-    (let (($x1521 (or $x1520 W_S1_V2)))
-    (let (($x1522 (not MW_S1_V3)))
-    (let (($x1523 (or $x1522 W_S1_V3)))
-    (let (($x1524 (not MW_S1_V1)))
-    (let (($x1525 (or $x1524 W_S1_V1)))
-    (let (($x1527 (= S1_V6_!176 S1_V6_!163)))
-    (let (($x1528 (= E1_!170 E1_!157)))
-    (let (($x228 (not R_S1_V1)))
-    (let (($x1529 (or $x228 $x1528)))
-    (let (($x1530 (not $x1529)))
-    (let (($x1531 (or $x1530 $x1527)))
-    (let (($x1532 (= S2_V2_!179 S2_V2_!166)))
-    (let (($x1533 (= ?x1431 ?x1433)))
-    (let (($x253 (not R_S2_V6)))
-    (let (($x1534 (or $x253 $x1533)))
-    (let (($x1535 (= ?x1436 ?x1438)))
-    (let (($x251 (not R_S2_V4)))
-    (let (($x1536 (or $x251 $x1535)))
-    (let (($x1537 (= ?x1441 ?x1444)))
-    (let (($x249 (not R_S2_V5)))
-    (let (($x1538 (or $x249 $x1537)))
-    (let (($x1539 (= ?x1447 ?x1449)))
-    (let (($x247 (not R_S2_V2)))
-    (let (($x1540 (or $x247 $x1539)))
-    (let ((?x1462 (ite MW_S1_V3 S1_V3_!172 V3_0)))
-    (let (($x1541 (= ?x1462 ?x1468)))
-    (let (($x245 (not R_S2_V3)))
-    (let (($x1542 (or $x245 $x1541)))
-    (let (($x1543 (= ?x1460 ?x1453)))
-    (let (($x243 (not R_S2_V1)))
-    (let (($x1544 (or $x243 $x1543)))
-    (let (($x1545 (and $x1544 $x1542 $x1540 $x1538 $x1536 $x1534)))
-    (let (($x1546 (not $x1545)))
-    (let (($x1547 (or $x1546 $x1532)))
-    (let (($x1548 (= S2_V3_!165 S2_V3_!178)))
-    (let (($x1549 (= ?x1433 ?x1431)))
-    (let (($x1550 (or $x253 $x1549)))
-    (let (($x1551 (= ?x1438 ?x1436)))
-    (let (($x1552 (or $x251 $x1551)))
-    (let (($x1553 (= ?x1444 ?x1441)))
-    (let (($x1554 (or $x249 $x1553)))
-    (let (($x1555 (= ?x1449 ?x1447)))
-    (let (($x1556 (or $x247 $x1555)))
-    (let ((?x1557 (+ (- 1) ?x1462)))
-    (let (($x1558 (= ?x1467 ?x1557)))
-    (let (($x1559 (or $x245 $x1558)))
-    (let (($x1560 (= ?x1453 ?x1460)))
-    (let (($x1561 (or $x243 $x1560)))
-    (let (($x1562 (and $x1561 $x1559 $x1556 $x1554 $x1552 $x1550)))
-    (let (($x1563 (not $x1562)))
-    (let (($x1564 (or $x1563 $x1548)))
-    (let (($x1565 (= S1_V4_!175 S1_V4_!162)))
-    (let (($x1566 (or $x1530 $x1565)))
-    (let (($x1567 (= S2_V1_!177 S2_V1_!164)))
-    (let (($x1568 (or $x1546 $x1567)))
-    (let (($x1569 (= S1_V5_!174 S1_V5_!161)))
-    (let (($x1570 (or $x1530 $x1569)))
-    (let (($x1571 (= S2_V6_!182 S2_V6_!169)))
-    (let (($x1572 (or $x1546 $x1571)))
-    (let (($x1573 (= S2_V4_!168 S2_V4_!181)))
-    (let (($x1574 (or $x1563 $x1573)))
-    (let (($x1575 (= E1_!170 E1_!183)))
-    (let (($x1576 (= V6_0 ?x1432)))
-    (let (($x177 (not R_E1_V6)))
-    (let (($x1577 (or $x177 $x1576)))
-    (let (($x1578 (= V4_0 ?x1437)))
-    (let (($x175 (not R_E1_V4)))
-    (let (($x1579 (or $x175 $x1578)))
-    (let (($x1580 (= V5_0 ?x1442)))
-    (let (($x173 (not R_E1_V5)))
-    (let (($x1581 (or $x173 $x1580)))
-    (let (($x1582 (= V2_0 ?x1448)))
-    (let (($x171 (not R_E1_V2)))
-    (let (($x1583 (or $x171 $x1582)))
-    (let ((?x1463 (ite MW_S2_V3 S2_V3_!178 ?x1462)))
-    (let (($x1584 (= V3_0 ?x1463)))
-    (let (($x169 (not R_E1_V3)))
-    (let (($x1585 (or $x169 $x1584)))
-    (let ((?x1586 (+ 1 ?x1487)))
-    (let (($x1587 (= V1_0 ?x1586)))
-    (let (($x167 (not R_E1_V1)))
-    (let (($x1588 (or $x167 $x1587)))
-    (let (($x1589 (and $x1588 $x1585 $x1583 $x1581 $x1579 $x1577)))
-    (let (($x1590 (not $x1589)))
-    (let (($x1591 (or $x1590 $x1575)))
-    (let (($x1592 (= E1_!157 E1_!183)))
-    (let (($x1593 (or $x1590 $x1592)))
-    (let (($x1594 (= E1_!157 E1_!170)))
-    (let (($x1595 (= S1_V2_!173 S1_V2_!160)))
-    (let (($x1596 (or $x1530 $x1595)))
-    (let (($x1597 (= S1_V3_!159 S1_V3_!172)))
-    (let (($x1598 (or $x228 $x1594)))
-    (let (($x1599 (not $x1598)))
-    (let (($x1600 (or $x1599 $x1597)))
-    (let (($x1601 (= S2_V5_!180 S2_V5_!167)))
-    (let (($x1602 (or $x1546 $x1601)))
-    (let (($x1603 (= S1_V1_!158 S1_V1_!171)))
-    (let (($x1604 (or $x1599 $x1603)))
-    (let
-    (($x1612
-      (and $x1604 $x1602 $x1600 $x1596 $x1594 $x1593 $x1591 $x1574 $x1572
-      $x1570 $x1568 $x1566 $x1564 $x1547 $x1531 $x1525 $x1523 $x1521 $x1519
-      $x1515 $x1513 $x1511 $x1509 $x1505 $x1503)))
-    (let (($x1613 (not $x1612)))
-    (or $x1613 $x1500 (and $x1289 $x1459 $x1451 $x1446 $x1440 $x1435)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))
- (let (($x103 (and W_S2_V6 R_E1_V6)))
- (let (($x102 (and W_S2_V4 R_E1_V4)))
- (let (($x100 (and W_S2_V2 R_E1_V2)))
- (let (($x99 (and W_S2_V3 R_E1_V3)))
- (let (($x98 (and W_S2_V1 R_E1_V1)))
- (let (($x128 (or $x98 $x99 $x100 R_E1_V5 $x102 $x103)))
- (let (($x129 (not $x128)))
- (let (($x130 (= DISJ_W_S2_R_E1 $x129)))
- (let (($x93 (and W_S2_V6 R_S2_V6)))
- (let (($x92 (and W_S2_V4 R_S2_V4)))
- (let (($x90 (and W_S2_V2 R_S2_V2)))
- (let (($x89 (and W_S2_V3 R_S2_V3)))
- (let (($x88 (and W_S2_V1 R_S2_V1)))
- (let (($x125 (or $x88 $x89 $x90 R_S2_V5 $x92 $x93)))
- (let (($x126 (not $x125)))
- (let (($x127 (= DISJ_W_S2_R_S2 $x126)))
- (let (($x83 (and W_S2_V6 R_S1_V6)))
- (let (($x82 (and W_S2_V4 R_S1_V4)))
- (let (($x80 (and W_S2_V2 R_S1_V2)))
- (let (($x79 (and W_S2_V3 R_S1_V3)))
- (let (($x78 (and W_S2_V1 R_S1_V1)))
- (let (($x122 (or $x78 $x79 $x80 R_S1_V5 $x82 $x83)))
- (let (($x123 (not $x122)))
- (let (($x124 (= DISJ_W_S2_R_S1 $x123)))
- (let (($x73 (and W_S1_V6 W_S2_V6)))
- (let (($x68 (and W_S1_V2 W_S2_V2)))
- (let (($x66 (and W_S1_V3 W_S2_V3)))
- (let (($x64 (and W_S1_V1 W_S2_V1)))
- (let (($x119 (or $x64 $x66 $x68 W_S1_V5 W_S2_V4 $x73)))
- (let (($x120 (not $x119)))
- (let (($x121 (= DISJ_W_S1_W_S2 $x120)))
- (let (($x58 (and W_S1_V6 R_E1_V6)))
- (let (($x54 (and W_S1_V5 R_E1_V5)))
- (let (($x52 (and W_S1_V2 R_E1_V2)))
- (let (($x50 (and W_S1_V3 R_E1_V3)))
- (let (($x48 (and W_S1_V1 R_E1_V1)))
- (let (($x116 (or $x48 $x50 $x52 $x54 R_E1_V4 $x58)))
- (let (($x117 (not $x116)))
- (let (($x118 (= DISJ_W_S1_R_E1 $x117)))
- (let (($x42 (and W_S1_V6 R_S2_V6)))
- (let (($x38 (and W_S1_V5 R_S2_V5)))
- (let (($x36 (and W_S1_V2 R_S2_V2)))
- (let (($x34 (and W_S1_V3 R_S2_V3)))
- (let (($x32 (and W_S1_V1 R_S2_V1)))
- (let (($x113 (or $x32 $x34 $x36 $x38 R_S2_V4 $x42)))
- (let (($x114 (not $x113)))
- (let (($x115 (= DISJ_W_S1_R_S2 $x114)))
- (let (($x26 (and W_S1_V6 R_S1_V6)))
- (let (($x21 (and W_S1_V5 R_S1_V5)))
- (let (($x18 (and W_S1_V2 R_S1_V2)))
- (let (($x15 (and W_S1_V3 R_S1_V3)))
- (let (($x12 (and W_S1_V1 R_S1_V1)))
- (let (($x110 (or $x12 $x15 $x18 $x21 R_S1_V4 $x26)))
- (let (($x111 (not $x110)))
- (let (($x112 (= DISJ_W_S1_R_S1 $x111)))
- (and W_S1_V4 W_S2_V5 $x112 $x115 $x118 $x121 $x124 $x127 $x130 $x1615))))))))))))))))))))))))))))))))))))))))))))))))))))))))))
-(assert
- (let (($x1192 (not W_S2_V2)))
- (let (($x1189 (not W_S2_V3)))
- (let (($x1186 (not W_S2_V1)))
- (let (($x1091 (not W_S1_V2)))
- (let (($x1078 (not W_S1_V1)))
- (let (($x245 (not R_S2_V3)))
- (let (($x167 (not R_E1_V1)))
- (let
- (($x1647
-   (and $x167 $x245 $x1078 $x1091 $x1186 $x1189 $x1192 DISJ_W_S1_R_E1
-   DISJ_W_S2_R_E1))) (not $x1647))))))))))
-(check-sat)
-
diff --git a/test/regress/regress0/quantifiers/AdditiveMethods_AdditiveMethods..ctor.smt2 b/test/regress/regress0/quantifiers/AdditiveMethods_AdditiveMethods..ctor.smt2
deleted file mode 100644
index bbd32d988..000000000
--- a/test/regress/regress0/quantifiers/AdditiveMethods_AdditiveMethods..ctor.smt2
+++ /dev/null
@@ -1,399 +0,0 @@
-(set-logic AUFLIA)
-(set-info :source | 
-  Boogie/Spec# benchmarks.
-  This benchmark was translated by Michal Moskal.
-|)
-(set-info :smt-lib-version 2.0)
-(set-info :category "industrial")
-(set-info :status unsat)
-(declare-fun boolIff (Int Int) Int)
-(declare-fun PeerGroupPlaceholder_ () Int)
-(declare-fun intGreater (Int Int) Int)
-(declare-fun IfThenElse_ (Int Int Int) Int)
-(declare-fun CONCVARSYM (Int) Int)
-(declare-fun SharingMode_Unshared_ () Int)
-(declare-fun OwnedResults.Mz_ (Int Int) Int)
-(declare-fun System.Reflection.IReflect () Int)
-(declare-fun int_m2147483648 () Int)
-(declare-fun System.Int32 () Int)
-(declare-fun intAtMost (Int Int) Int)
-(declare-fun multiply (Int Int) Int)
-(declare-fun Is_ (Int Int) Int)
-(declare-fun Smt.true () Int)
-(declare-fun ElementType_ (Int) Int)
-(declare-fun divide (Int Int) Int)
-(declare-fun int_m9223372036854775808 () Int)
-(declare-fun divides (Int Int) Int)
-(declare-fun select1 (Int Int) Int)
-(declare-fun store1 (Int Int Int) Int)
-(declare-fun select2 (Int Int Int) Int)
-(declare-fun nullObject () Int)
-(declare-fun store2 (Int Int Int Int) Int)
-(declare-fun modulo (Int Int) Int)
-(declare-fun ownerRef_ () Int)
-(declare-fun StructSet_ (Int Int Int) Int)
-(declare-fun AsDirectSubClass (Int Int) Int)
-(declare-fun OwnedResults.Pw_ (Int Int) Int)
-(declare-fun System.Boolean () Int)
-(declare-fun shl_ (Int Int) Int)
-(declare-fun DimLength_ (Int Int) Int)
-(declare-fun anyEqual (Int Int) Int)
-(declare-fun System.Array () Int)
-(declare-fun System.Reflection.ICustomAttributeProvider () Int)
-(declare-fun SharingMode_LockProtected_ () Int)
-(declare-fun IsMemberlessType_ (Int) Int)
-(declare-fun System.UInt16 () Int)
-(declare-fun ClassRepr (Int) Int)
-(declare-fun System.Runtime.InteropServices._Type () Int)
-(declare-fun block3927_correct () Int)
-(declare-fun boolNot (Int) Int)
-(declare-fun T () Int)
-(declare-fun System.Runtime.InteropServices._MemberInfo () Int)
-(declare-fun boolAnd (Int Int) Int)
-(declare-fun boolImplies (Int Int) Int)
-(declare-fun Unbox (Int) Int)
-(declare-fun intAtLeast (Int Int) Int)
-(declare-fun ownerFrame_ () Int)
-(declare-fun int_4294967295 () Int)
-(declare-fun IsAllocated (Int Int) Int)
-(declare-fun TypeName (Int) Int)
-(declare-fun AsPeerField (Int) Int)
-(declare-fun int_9223372036854775807 () Int)
-(declare-fun AsRepField (Int Int) Int)
-(declare-fun System.Reflection.MemberInfo () Int)
-(declare-fun ArrayCategoryValue_ () Int)
-(declare-fun is (Int Int) Int)
-(declare-fun InRange (Int Int) Bool)
-(declare-fun AsOwner (Int Int) Int)
-(declare-fun OwnedResults.Qz_System.Int32_ (Int Int Int) Int)
-(declare-fun System.Int64 () Int)
-(declare-fun or_ (Int Int) Int)
-(declare-fun As_ (Int Int) Int)
-(declare-fun exposeVersion_ () Int)
-(declare-fun System.Type () Int)
-(declare-fun intLess (Int Int) Int)
-(declare-fun AsImmutable_ (Int) Int)
-(declare-fun NonNullFieldsAreInitialized_ () Int)
-(declare-fun LBound_ (Int Int) Int)
-(declare-fun System.Object () Int)
-(declare-fun System.UInt32 () Int)
-(declare-fun localinv_ () Int)
-(declare-fun inv_ () Int)
-(declare-fun OwnedResults.Static0_ (Int) Int)
-(declare-fun Heap_0_ () Int)
-(declare-fun entry_correct () Int)
-(declare-fun OwnedResults.Pz_ (Int Int) Int)
-(declare-fun FirstConsistentOwner_ () Int)
-(declare-fun UnboxedType (Int) Int)
-(declare-fun AsRefField (Int Int) Int)
-(declare-fun System.Byte () Int)
-(declare-fun AdditiveMethods () Int)
-(declare-fun this () Int)
-(declare-fun int_2147483647 () Int)
-(declare-fun ArrayCategoryRef_ () Int)
-(declare-fun Heap_ () Int)
-(declare-fun OwnedResults.Qz_System.Int32_.1 (Int Int) Int)
-(declare-fun Length_ (Int) Int)
-(declare-fun AsNonNullRefField (Int Int) Int)
-(declare-fun Sub () Int)
-(declare-fun IsHeap (Int) Int)
-(declare-fun OwnedResults.Static1_ (Int) Int)
-(declare-fun Heap_1_ () Int)
-(declare-fun UBound_ (Int Int) Int)
-(declare-fun System.String () Int)
-(declare-fun System.String.IsInterned_System.String_notnull_ (Int) Int)
-(declare-fun UnknownRef_ () Int)
-(declare-fun Rank_ (Int) Int)
-(declare-fun RefArraySet (Int Int Int) Int)
-(declare-fun ValueArraySet (Int Int Int) Int)
-(declare-fun boolOr (Int Int) Int)
-(declare-fun sharingMode_ () Int)
-(declare-fun AdditiveMethods.amRep () Int)
-(declare-fun subtypes (Int Int) Bool)
-(declare-fun System.String.Equals_System.String_System.String_ (Int Int) Int)
-(declare-fun anyNeq (Int Int) Int)
-(declare-fun IsStaticField (Int) Int)
-(declare-fun IsNotNull_ (Int Int) Int)
-(declare-fun typeof_ (Int) Int)
-(declare-fun OwnedResults () Int)
-(declare-fun ArrayCategoryNonNullRef_ () Int)
-(declare-fun RefArrayGet (Int Int) Int)
-(declare-fun ValueArrayGet (Int Int) Int)
-(declare-fun TypeObject (Int) Int)
-(declare-fun and_ (Int Int) Int)
-(declare-fun OwnedResults.x () Int)
-(declare-fun block3910_correct () Int)
-(declare-fun BoxTester (Int Int) Int)
-(declare-fun OwnedResults.y () Int)
-(declare-fun OwnedResults.Static2_ () Int)
-(declare-fun IsValueType_ (Int) Int)
-(declare-fun AsRangeField (Int Int) Int)
-(declare-fun AdditiveMethods.amPeer () Int)
-(declare-fun System.SByte () Int)
-(declare-fun BeingConstructed_ () Int)
-(declare-fun FieldDependsOnFCO_ (Int Int Int) Int)
-(declare-fun NonNullRefArray (Int Int) Int)
-(declare-fun RefArray (Int Int) Int)
-(declare-fun ArrayCategory_ (Int) Int)
-(declare-fun AsPureObject_ (Int) Int)
-(declare-fun System.String.Equals_System.String_ (Int Int) Int)
-(declare-fun System.Int16 () Int)
-(declare-fun AsMutable_ (Int) Int)
-(declare-fun OwnedResults.Pw_.1 (Int) Int)
-(declare-fun System.Char () Int)
-(declare-fun System.UInt64 () Int)
-(declare-fun StructGet_ (Int Int) Int)
-(declare-fun OneClassDown (Int Int) Int)
-(declare-fun ArrayIndex (Int Int Int Int) Int)
-(declare-fun Box (Int Int) Int)
-(declare-fun int_18446744073709551615 () Int)
-(declare-fun shr_ (Int Int) Int)
-(declare-fun OwnedResults.Pz_.1 (Int) Int)
-(declare-fun IsDirectlyModifiableField (Int) Int)
-(declare-fun StringLength_ (Int) Int)
-(declare-fun allocated_ () Int)
-(declare-fun BaseClass_ (Int) Int)
-(declare-fun ValueArray (Int Int) Int)
-(declare-fun Smt.false () Int)
-(declare-fun IsImmutable_ (Int) Int)
-(declare-fun elements_ () Int)
-(declare-fun DeclType (Int) Int)
-(declare-fun ReallyLastGeneratedExit_correct () Int)
-(assert (distinct allocated_ elements_ inv_ localinv_ exposeVersion_ sharingMode_ SharingMode_Unshared_ SharingMode_LockProtected_ ownerRef_ ownerFrame_ PeerGroupPlaceholder_ ArrayCategoryValue_ ArrayCategoryRef_ ArrayCategoryNonNullRef_ System.Array System.Object System.Type BeingConstructed_ NonNullFieldsAreInitialized_ System.String FirstConsistentOwner_ System.SByte System.Byte System.Int16 System.UInt16 System.Int32 System.UInt32 System.Int64 System.UInt64 System.Char int_m2147483648 int_2147483647 int_4294967295 int_m9223372036854775808 int_9223372036854775807 int_18446744073709551615 UnknownRef_ OwnedResults.x AdditiveMethods.amPeer AdditiveMethods.amRep OwnedResults.y OwnedResults System.Runtime.InteropServices._Type System.Runtime.InteropServices._MemberInfo System.Reflection.IReflect Sub System.Reflection.ICustomAttributeProvider System.Boolean AdditiveMethods T System.Reflection.MemberInfo))
-(assert (= (DeclType exposeVersion_) System.Object))
-(assert (forall ((?c0 Int) (?c1 Int)) (! (=> (not (= ?c0 ?c1)) (not (= (ClassRepr ?c0) (ClassRepr ?c1)))) :pattern ((ClassRepr ?c0) (ClassRepr ?c1)) )))
-(assert (forall ((?T Int)) (not (subtypes (typeof_ (ClassRepr ?T)) System.Object))))
-(assert (forall ((?T Int)) (not (= (ClassRepr ?T) nullObject))))
-(assert (forall ((?T Int) (?h Int)) (! (=> (= (IsHeap ?h) Smt.true) (= (select2 ?h (ClassRepr ?T) ownerFrame_) PeerGroupPlaceholder_)) :pattern ((select2 ?h (ClassRepr ?T) ownerFrame_)) )))
-(assert (not (= (IsDirectlyModifiableField allocated_) Smt.true)))
-(assert (= (IsDirectlyModifiableField elements_) Smt.true))
-(assert (not (= (IsDirectlyModifiableField inv_) Smt.true)))
-(assert (not (= (IsDirectlyModifiableField localinv_) Smt.true)))
-(assert (not (= (IsDirectlyModifiableField ownerRef_) Smt.true)))
-(assert (not (= (IsDirectlyModifiableField ownerFrame_) Smt.true)))
-(assert (not (= (IsDirectlyModifiableField exposeVersion_) Smt.true)))
-(assert (not (= (IsStaticField allocated_) Smt.true)))
-(assert (not (= (IsStaticField elements_) Smt.true)))
-(assert (not (= (IsStaticField inv_) Smt.true)))
-(assert (not (= (IsStaticField localinv_) Smt.true)))
-(assert (not (= (IsStaticField exposeVersion_) Smt.true)))
-(assert (forall ((?A Int) (?i Int) (?x Int)) (= (ValueArrayGet (ValueArraySet ?A ?i ?x) ?i) ?x)))
-(assert (forall ((?A Int) (?i Int) (?j Int) (?x Int)) (=> (not (= ?i ?j)) (= (ValueArrayGet (ValueArraySet ?A ?i ?x) ?j) (ValueArrayGet ?A ?j)))))
-(assert (forall ((?A Int) (?i Int) (?x Int)) (= (RefArrayGet (RefArraySet ?A ?i ?x) ?i) ?x)))
-(assert (forall ((?A Int) (?i Int) (?j Int) (?x Int)) (=> (not (= ?i ?j)) (= (RefArrayGet (RefArraySet ?A ?i ?x) ?j) (RefArrayGet ?A ?j)))))
-(assert (forall ((?a Int) (?d Int) (?x Int) (?y Int) (|?x'| Int) (|?y'| Int)) (! (=> (= (ArrayIndex ?a ?d ?x ?y) (ArrayIndex ?a ?d |?x'| |?y'|)) (and (= ?x |?x'|) (= ?y |?y'|))) :pattern ((ArrayIndex ?a ?d ?x ?y) (ArrayIndex ?a ?d |?x'| |?y'|)) )))
-(assert (forall ((?a Int) (?T Int) (?i Int) (?r Int) (?heap Int)) (! (=> (and (= (IsHeap ?heap) Smt.true) (subtypes (typeof_ ?a) (RefArray ?T ?r))) (= (Is_ (RefArrayGet (select2 ?heap ?a elements_) ?i) ?T) Smt.true)) :pattern ((subtypes (typeof_ ?a) (RefArray ?T ?r)) (RefArrayGet (select2 ?heap ?a elements_) ?i)) )))
-(assert (forall ((?a Int) (?T Int) (?i Int) (?r Int) (?heap Int)) (! (=> (and (= (IsHeap ?heap) Smt.true) (subtypes (typeof_ ?a) (NonNullRefArray ?T ?r))) (= (IsNotNull_ (RefArrayGet (select2 ?heap ?a elements_) ?i) ?T) Smt.true)) :pattern ((subtypes (typeof_ ?a) (NonNullRefArray ?T ?r)) (RefArrayGet (select2 ?heap ?a elements_) ?i)) )))
-(assert (forall ((?a Int)) (<= 1 (Rank_ ?a))))
-(assert (forall ((?a Int) (?T Int) (?r Int)) (! (=> (and (not (= ?a nullObject)) (subtypes (typeof_ ?a) (RefArray ?T ?r))) (= (Rank_ ?a) ?r)) :pattern ((subtypes (typeof_ ?a) (RefArray ?T ?r))) )))
-(assert (forall ((?a Int) (?T Int) (?r Int)) (! (=> (and (not (= ?a nullObject)) (subtypes (typeof_ ?a) (NonNullRefArray ?T ?r))) (= (Rank_ ?a) ?r)) :pattern ((subtypes (typeof_ ?a) (NonNullRefArray ?T ?r))) )))
-(assert (forall ((?a Int) (?T Int) (?r Int)) (! (=> (and (not (= ?a nullObject)) (subtypes (typeof_ ?a) (ValueArray ?T ?r))) (= (Rank_ ?a) ?r)) :pattern ((subtypes (typeof_ ?a) (ValueArray ?T ?r))) )))
-(assert (forall ((?a Int)) (! (<= 0 (Length_ ?a)) :pattern ((Length_ ?a)) )))
-(assert (forall ((?a Int) (?i Int)) (<= 0 (DimLength_ ?a ?i))))
-(assert (forall ((?a Int)) (! (=> (= (Rank_ ?a) 1) (= (DimLength_ ?a 0) (Length_ ?a))) :pattern ((DimLength_ ?a 0)) )))
-(assert (forall ((?a Int) (?i Int)) (! (= (LBound_ ?a ?i) 0) :pattern ((LBound_ ?a ?i)) )))
-(assert (forall ((?a Int) (?i Int)) (! (= (UBound_ ?a ?i) (- (DimLength_ ?a ?i) 1)) :pattern ((UBound_ ?a ?i)) )))
-(assert (forall ((?T Int) (?ET Int) (?r Int)) (! (=> (subtypes ?T (ValueArray ?ET ?r)) (= (ArrayCategory_ ?T) ArrayCategoryValue_)) :pattern ((subtypes ?T (ValueArray ?ET ?r))) )))
-(assert (forall ((?T Int) (?ET Int) (?r Int)) (! (=> (subtypes ?T (RefArray ?ET ?r)) (= (ArrayCategory_ ?T) ArrayCategoryRef_)) :pattern ((subtypes ?T (RefArray ?ET ?r))) )))
-(assert (forall ((?T Int) (?ET Int) (?r Int)) (! (=> (subtypes ?T (NonNullRefArray ?ET ?r)) (= (ArrayCategory_ ?T) ArrayCategoryNonNullRef_)) :pattern ((subtypes ?T (NonNullRefArray ?ET ?r))) )))
-(assert (subtypes System.Array System.Object))
-(assert (forall ((?T Int) (?r Int)) (! (subtypes (ValueArray ?T ?r) System.Array) :pattern ((ValueArray ?T ?r)) )))
-(assert (forall ((?T Int) (?r Int)) (! (subtypes (RefArray ?T ?r) System.Array) :pattern ((RefArray ?T ?r)) )))
-(assert (forall ((?T Int) (?r Int)) (! (subtypes (NonNullRefArray ?T ?r) System.Array) :pattern ((NonNullRefArray ?T ?r)) )))
-(assert (forall ((?T Int) (?U Int) (?r Int)) (=> (subtypes ?U ?T) (subtypes (RefArray ?U ?r) (RefArray ?T ?r)))))
-(assert (forall ((?T Int) (?U Int) (?r Int)) (=> (subtypes ?U ?T) (subtypes (NonNullRefArray ?U ?r) (NonNullRefArray ?T ?r)))))
-(assert (forall ((?A Int) (?r Int)) (= (ElementType_ (ValueArray ?A ?r)) ?A)))
-(assert (forall ((?A Int) (?r Int)) (= (ElementType_ (RefArray ?A ?r)) ?A)))
-(assert (forall ((?A Int) (?r Int)) (= (ElementType_ (NonNullRefArray ?A ?r)) ?A)))
-(assert (forall ((?A Int) (?r Int) (?T Int)) (! (let ((?v_0 (ElementType_ ?T))) (=> (subtypes ?T (RefArray ?A ?r)) (and (= ?T (RefArray ?v_0 ?r)) (subtypes ?v_0 ?A)))) :pattern ((subtypes ?T (RefArray ?A ?r))) )))
-(assert (forall ((?A Int) (?r Int) (?T Int)) (! (let ((?v_0 (ElementType_ ?T))) (=> (subtypes ?T (NonNullRefArray ?A ?r)) (and (= ?T (NonNullRefArray ?v_0 ?r)) (subtypes ?v_0 ?A)))) :pattern ((subtypes ?T (NonNullRefArray ?A ?r))) )))
-(assert (forall ((?A Int) (?r Int) (?T Int)) (let ((?v_0 (ValueArray ?A ?r))) (=> (subtypes ?T ?v_0) (= ?T ?v_0)))))
-(assert (forall ((?A Int) (?r Int) (?T Int)) (let ((?v_0 (ElementType_ ?T))) (=> (subtypes (RefArray ?A ?r) ?T) (or (subtypes System.Array ?T) (and (= ?T (RefArray ?v_0 ?r)) (subtypes ?A ?v_0)))))))
-(assert (forall ((?A Int) (?r Int) (?T Int)) (let ((?v_0 (ElementType_ ?T))) (=> (subtypes (NonNullRefArray ?A ?r) ?T) (or (subtypes System.Array ?T) (and (= ?T (NonNullRefArray ?v_0 ?r)) (subtypes ?A ?v_0)))))))
-(assert (forall ((?A Int) (?r Int) (?T Int)) (let ((?v_0 (ValueArray ?A ?r))) (=> (subtypes ?v_0 ?T) (or (subtypes System.Array ?T) (= ?T ?v_0))))))
-(assert (forall ((?s Int) (?f Int) (?x Int)) (= (StructGet_ (StructSet_ ?s ?f ?x) ?f) ?x)))
-(assert (forall ((?s Int) (?f Int) (|?f'| Int) (?x Int)) (=> (not (= ?f |?f'|)) (= (StructGet_ (StructSet_ ?s ?f ?x) |?f'|) (StructGet_ ?s |?f'|)))))
-(assert (forall ((?A Int) (?B Int) (?C Int)) (! (=> (subtypes ?C (AsDirectSubClass ?B ?A)) (= (OneClassDown ?C ?A) ?B)) :pattern ((subtypes ?C (AsDirectSubClass ?B ?A))) )))
-(assert (forall ((?T Int)) (=> (= (IsValueType_ ?T) Smt.true) (and (forall ((?U Int)) (=> (subtypes ?T ?U) (= ?T ?U))) (forall ((?U Int)) (=> (subtypes ?U ?T) (= ?T ?U)))))))
-(assert (subtypes System.Type System.Object))
-(assert (forall ((?T Int)) (! (= (IsNotNull_ (TypeObject ?T) System.Type) Smt.true) :pattern ((TypeObject ?T)) )))
-(assert (forall ((?T Int)) (! (= (TypeName (TypeObject ?T)) ?T) :pattern ((TypeObject ?T)) )))
-(assert (forall ((?o Int) (?T Int)) (! (= (= (Is_ ?o ?T) Smt.true) (or (= ?o nullObject) (subtypes (typeof_ ?o) ?T))) :pattern ((Is_ ?o ?T)) )))
-(assert (forall ((?o Int) (?T Int)) (! (= (= (IsNotNull_ ?o ?T) Smt.true) (and (not (= ?o nullObject)) (= (Is_ ?o ?T) Smt.true))) :pattern ((IsNotNull_ ?o ?T)) )))
-(assert (forall ((?o Int) (?T Int)) (=> (= (Is_ ?o ?T) Smt.true) (= (As_ ?o ?T) ?o))))
-(assert (forall ((?o Int) (?T Int)) (=> (not (= (Is_ ?o ?T) Smt.true)) (= (As_ ?o ?T) nullObject))))
-(assert (forall ((?h Int) (?o Int)) (! (let ((?v_0 (typeof_ ?o))) (=> (and (= (IsHeap ?h) Smt.true) (not (= ?o nullObject)) (subtypes ?v_0 System.Array)) (and (= (select2 ?h ?o inv_) ?v_0) (= (select2 ?h ?o localinv_) ?v_0)))) :pattern ((select2 ?h ?o inv_)) )))
-(assert (forall ((?h Int) (?o Int) (?f Int)) (! (=> (and (= (IsHeap ?h) Smt.true) (= (select2 ?h ?o allocated_) Smt.true)) (= (IsAllocated ?h (select2 ?h ?o ?f)) Smt.true)) :pattern ((IsAllocated ?h (select2 ?h ?o ?f))) )))
-(assert (forall ((?h Int) (?o Int) (?f Int)) (! (=> (and (= (IsHeap ?h) Smt.true) (= (select2 ?h ?o allocated_) Smt.true)) (= (select2 ?h (select2 ?h ?o ?f) allocated_) Smt.true)) :pattern ((select2 ?h (select2 ?h ?o ?f) allocated_)) )))
-(assert (forall ((?h Int) (?s Int) (?f Int)) (! (=> (= (IsAllocated ?h ?s) Smt.true) (= (IsAllocated ?h (StructGet_ ?s ?f)) Smt.true)) :pattern ((IsAllocated ?h (StructGet_ ?s ?f))) )))
-(assert (forall ((?h Int) (?e Int) (?i Int)) (! (=> (= (IsAllocated ?h ?e) Smt.true) (= (IsAllocated ?h (RefArrayGet ?e ?i)) Smt.true)) :pattern ((IsAllocated ?h (RefArrayGet ?e ?i))) )))
-(assert (forall ((?h Int) (?e Int) (?i Int)) (! (=> (= (IsAllocated ?h ?e) Smt.true) (= (IsAllocated ?h (ValueArrayGet ?e ?i)) Smt.true)) :pattern ((IsAllocated ?h (ValueArrayGet ?e ?i))) )))
-(assert (forall ((?h Int) (?o Int)) (! (=> (= (IsAllocated ?h ?o) Smt.true) (= (select2 ?h ?o allocated_) Smt.true)) :pattern ((select2 ?h ?o allocated_)) )))
-(assert (forall ((?h Int) (?c Int)) (! (=> (= (IsHeap ?h) Smt.true) (= (select2 ?h (ClassRepr ?c) allocated_) Smt.true)) :pattern ((select2 ?h (ClassRepr ?c) allocated_)) )))
-(assert (forall ((?f Int) (?T Int)) (! (=> (= (AsNonNullRefField ?f ?T) ?f) (= (AsRefField ?f ?T) ?f)) :pattern ((AsNonNullRefField ?f ?T)) )))
-(assert (forall ((?h Int) (?o Int) (?f Int) (?T Int)) (! (=> (= (IsHeap ?h) Smt.true) (= (Is_ (select2 ?h ?o (AsRefField ?f ?T)) ?T) Smt.true)) :pattern ((select2 ?h ?o (AsRefField ?f ?T))) )))
-(assert (forall ((?h Int) (?o Int) (?f Int) (?T Int)) (! (=> (and (= (IsHeap ?h) Smt.true) (not (= ?o nullObject)) (or (not (= ?o BeingConstructed_)) (= (= (select2 ?h BeingConstructed_ NonNullFieldsAreInitialized_) Smt.true) true))) (not (= (select2 ?h ?o (AsNonNullRefField ?f ?T)) nullObject))) :pattern ((select2 ?h ?o (AsNonNullRefField ?f ?T))) )))
-(assert (forall ((?h Int) (?o Int) (?f Int) (?T Int)) (! (=> (= (IsHeap ?h) Smt.true) (InRange (select2 ?h ?o (AsRangeField ?f ?T)) ?T)) :pattern ((select2 ?h ?o (AsRangeField ?f ?T))) )))
-(assert (forall ((?o Int)) (! (not (= (IsMemberlessType_ (typeof_ ?o)) Smt.true)) :pattern ((IsMemberlessType_ (typeof_ ?o))) )))
-(assert (not (= (IsImmutable_ System.Object) Smt.true)))
-(assert (forall ((?T Int) (?U Int)) (! (=> (subtypes ?U (AsImmutable_ ?T)) (and (= (IsImmutable_ ?U) Smt.true) (= (AsImmutable_ ?U) ?U))) :pattern ((subtypes ?U (AsImmutable_ ?T))) )))
-(assert (forall ((?T Int) (?U Int)) (! (=> (subtypes ?U (AsMutable_ ?T)) (and (not (= (IsImmutable_ ?U) Smt.true)) (= (AsMutable_ ?U) ?U))) :pattern ((subtypes ?U (AsMutable_ ?T))) )))
-(assert (forall ((?o Int) (?T Int)) (! (=> (and (not (= ?o nullObject)) (not (= ?o BeingConstructed_)) (subtypes (typeof_ ?o) (AsImmutable_ ?T))) (forall ((?h Int)) (! (let ((?v_0 (typeof_ ?o))) (=> (= (IsHeap ?h) Smt.true) (and (= (select2 ?h ?o inv_) ?v_0) (= (select2 ?h ?o localinv_) ?v_0) (= (select2 ?h ?o ownerFrame_) PeerGroupPlaceholder_) (= (AsOwner ?o (select2 ?h ?o ownerRef_)) ?o) (forall ((?t Int)) (! (=> (= (AsOwner ?o (select2 ?h ?t ownerRef_)) ?o) (or (= ?t ?o) (not (= (select2 ?h ?t ownerFrame_) PeerGroupPlaceholder_)))) :pattern ((AsOwner ?o (select2 ?h ?t ownerRef_))) ))))) :pattern ((IsHeap ?h)) ))) :pattern ((subtypes (typeof_ ?o) (AsImmutable_ ?T))) )))
-(assert (forall ((?s Int)) (! (<= 0 (StringLength_ ?s)) :pattern ((StringLength_ ?s)) )))
-(assert (forall ((?h Int) (?o Int) (?f Int) (?T Int)) (! (let ((?v_0 (select2 ?h ?o (AsRepField ?f ?T)))) (=> (and (= (IsHeap ?h) Smt.true) (not (= ?v_0 nullObject))) (and (= (select2 ?h ?v_0 ownerRef_) ?o) (= (select2 ?h ?v_0 ownerFrame_) ?T)))) :pattern ((select2 ?h ?o (AsRepField ?f ?T))) )))
-(assert (forall ((?h Int) (?o Int) (?f Int)) (! (let ((?v_0 (select2 ?h ?o (AsPeerField ?f)))) (=> (and (= (IsHeap ?h) Smt.true) (not (= ?v_0 nullObject))) (and (= (select2 ?h ?v_0 ownerRef_) (select2 ?h ?o ownerRef_)) (= (select2 ?h ?v_0 ownerFrame_) (select2 ?h ?o ownerFrame_))))) :pattern ((select2 ?h ?o (AsPeerField ?f))) )))
-(assert (forall ((?h Int) (?o Int)) (let ((?v_0 (select2 ?h ?o ownerFrame_)) (?v_1 (select2 ?h ?o ownerRef_)) (?v_2 (typeof_ ?o))) (=> (and (= (IsHeap ?h) Smt.true) (not (= ?v_0 PeerGroupPlaceholder_)) (subtypes (select2 ?h ?v_1 inv_) ?v_0) (not (= (select2 ?h ?v_1 localinv_) (BaseClass_ ?v_0)))) (and (= (select2 ?h ?o inv_) ?v_2) (= (select2 ?h ?o localinv_) ?v_2))))))
-(assert (forall ((?o Int) (?f Int) (?h Int)) (! (let ((?v_0 (select2 ?h ?o ownerFrame_)) (?v_1 (select2 ?h ?o ownerRef_))) (=> (and (= (IsHeap ?h) Smt.true) (not (= ?o nullObject)) (= (= (select2 ?h ?o allocated_) Smt.true) true) (not (= ?v_0 PeerGroupPlaceholder_)) (subtypes (select2 ?h ?v_1 inv_) ?v_0) (not (= (select2 ?h ?v_1 localinv_) (BaseClass_ ?v_0)))) (= (select2 ?h ?o ?f) (FieldDependsOnFCO_ ?o ?f (select2 ?h (select2 ?h ?o FirstConsistentOwner_) exposeVersion_))))) :pattern ((select2 ?h (AsPureObject_ ?o) ?f)) )))
-(assert (forall ((?o Int) (?h Int)) (! (let ((?v_0 (select2 ?h ?o ownerFrame_)) (?v_1 (select2 ?h ?o ownerRef_)) (?v_2 (select2 ?h ?o FirstConsistentOwner_))) (let ((?v_3 (select2 ?h ?v_2 ownerFrame_)) (?v_4 (select2 ?h ?v_2 ownerRef_))) (=> (and (= (IsHeap ?h) Smt.true) (not (= ?o nullObject)) (= (= (select2 ?h ?o allocated_) Smt.true) true) (not (= ?v_0 PeerGroupPlaceholder_)) (subtypes (select2 ?h ?v_1 inv_) ?v_0) (not (= (select2 ?h ?v_1 localinv_) (BaseClass_ ?v_0)))) (and (not (= ?v_2 nullObject)) (= (= (select2 ?h ?v_2 allocated_) Smt.true) true) (or (= ?v_3 PeerGroupPlaceholder_) (not (subtypes (select2 ?h ?v_4 inv_) ?v_3)) (= (select2 ?h ?v_4 localinv_) (BaseClass_ ?v_3))))))) :pattern ((select2 ?h ?o FirstConsistentOwner_)) )))
-(assert (forall ((?x Int) (?p Int)) (! (= (Unbox (Box ?x ?p)) ?x) :pattern ((Unbox (Box ?x ?p))) )))
-(assert (forall ((?p Int)) (! (=> (= (IsValueType_ (UnboxedType ?p)) Smt.true) (forall ((?heap Int) (?x Int)) (let ((?v_0 (Box ?x ?p))) (let ((?v_1 (typeof_ ?v_0))) (=> (= (IsHeap ?heap) Smt.true) (and (= (select2 ?heap ?v_0 inv_) ?v_1) (= (select2 ?heap ?v_0 localinv_) ?v_1))))))) :pattern ((IsValueType_ (UnboxedType ?p))) )))
-(assert (forall ((?x Int) (?p Int)) (let ((?v_0 (Box ?x ?p))) (=> (and (subtypes (UnboxedType ?v_0) System.Object) (= ?v_0 ?p)) (= ?x ?p)))))
-(assert (forall ((?p Int) (?typ Int)) (! (= (= (UnboxedType ?p) ?typ) (not (= (BoxTester ?p ?typ) nullObject))) :pattern ((BoxTester ?p ?typ)) )))
-(assert (= (IsValueType_ System.SByte) Smt.true))
-(assert (= (IsValueType_ System.Byte) Smt.true))
-(assert (= (IsValueType_ System.Int16) Smt.true))
-(assert (= (IsValueType_ System.UInt16) Smt.true))
-(assert (= (IsValueType_ System.Int32) Smt.true))
-(assert (= (IsValueType_ System.UInt32) Smt.true))
-(assert (= (IsValueType_ System.Int64) Smt.true))
-(assert (= (IsValueType_ System.UInt64) Smt.true))
-(assert (= (IsValueType_ System.Char) Smt.true))
-(assert (< int_m9223372036854775808 int_m2147483648))
-(assert (< int_m2147483648 (- 0 100000)))
-(assert (< 100000 int_2147483647))
-(assert (< int_2147483647 int_4294967295))
-(assert (< int_4294967295 int_9223372036854775807))
-(assert (< int_9223372036854775807 int_18446744073709551615))
-(assert (forall ((?i Int)) (= (InRange ?i System.SByte) (and (<= (- 0 128) ?i) (< ?i 128)))))
-(assert (forall ((?i Int)) (= (InRange ?i System.Byte) (and (<= 0 ?i) (< ?i 256)))))
-(assert (forall ((?i Int)) (= (InRange ?i System.Int16) (and (<= (- 0 32768) ?i) (< ?i 32768)))))
-(assert (forall ((?i Int)) (= (InRange ?i System.UInt16) (and (<= 0 ?i) (< ?i 65536)))))
-(assert (forall ((?i Int)) (= (InRange ?i System.Int32) (and (<= int_m2147483648 ?i) (<= ?i int_2147483647)))))
-(assert (forall ((?i Int)) (= (InRange ?i System.UInt32) (and (<= 0 ?i) (<= ?i int_4294967295)))))
-(assert (forall ((?i Int)) (= (InRange ?i System.Int64) (and (<= int_m9223372036854775808 ?i) (<= ?i int_9223372036854775807)))))
-(assert (forall ((?i Int)) (= (InRange ?i System.UInt64) (and (<= 0 ?i) (<= ?i int_18446744073709551615)))))
-(assert (forall ((?i Int)) (= (InRange ?i System.Char) (and (<= 0 ?i) (< ?i 65536)))))
-(assert (forall ((?b Int) (?x Int) (?y Int)) (! (=> (= ?b Smt.true) (= (IfThenElse_ ?b ?x ?y) ?x)) :pattern ((IfThenElse_ ?b ?x ?y)) )))
-(assert (forall ((?b Int) (?x Int) (?y Int)) (! (=> (not (= ?b Smt.true)) (= (IfThenElse_ ?b ?x ?y) ?y)) :pattern ((IfThenElse_ ?b ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (= (modulo ?x ?y) (- ?x (multiply (divide ?x ?y) ?y))) :pattern ((modulo ?x ?y))  :pattern ((divide ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (let ((?v_0 (modulo ?x ?y))) (=> (and (<= 0 ?x) (< 0 ?y)) (and (<= 0 ?v_0) (< ?v_0 ?y)))) :pattern ((modulo ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (let ((?v_0 (modulo ?x ?y))) (=> (and (<= 0 ?x) (< ?y 0)) (and (<= 0 ?v_0) (< ?v_0 (- 0 ?y))))) :pattern ((modulo ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (let ((?v_0 (modulo ?x ?y))) (=> (and (<= ?x 0) (< 0 ?y)) (and (< (- 0 ?y) ?v_0) (<= ?v_0 0)))) :pattern ((modulo ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (let ((?v_0 (modulo ?x ?y))) (=> (and (<= ?x 0) (< ?y 0)) (and (< ?y ?v_0) (<= ?v_0 0)))) :pattern ((modulo ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (=> (and (<= 0 ?x) (<= 0 ?y)) (= (modulo (+ ?x ?y) ?y) (modulo ?x ?y)))))
-(assert (forall ((?x Int) (?y Int)) (=> (and (<= 0 ?x) (<= 0 ?y)) (= (modulo (+ ?y ?x) ?y) (modulo ?x ?y)))))
-(assert (forall ((?x Int) (?y Int)) (let ((?v_0 (- ?x ?y))) (=> (and (<= 0 ?v_0) (<= 0 ?y)) (= (modulo ?v_0 ?y) (modulo ?x ?y))))))
-(assert (forall ((?a Int) (?b Int) (?d Int)) (! (=> (and (<= 2 ?d) (= (modulo ?a ?d) (modulo ?b ?d)) (< ?a ?b)) (<= (+ ?a ?d) ?b)) :pattern ((modulo ?a ?d) (modulo ?b ?d)) )))
-(assert (forall ((?x Int) (?y Int)) (! (=> (or (<= 0 ?x) (<= 0 ?y)) (<= 0 (and_ ?x ?y))) :pattern ((and_ ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (let ((?v_0 (or_ ?x ?y))) (=> (and (<= 0 ?x) (<= 0 ?y)) (and (<= 0 ?v_0) (<= ?v_0 (+ ?x ?y))))) :pattern ((or_ ?x ?y)) )))
-(assert (forall ((?i Int)) (! (= (shl_ ?i 0) ?i) :pattern ((shl_ ?i 0)) )))
-(assert (forall ((?i Int) (?j Int)) (=> (<= 0 ?j) (= (shl_ ?i (+ ?j 1)) (* (shl_ ?i ?j) 2)))))
-(assert (forall ((?i Int)) (! (= (shr_ ?i 0) ?i) :pattern ((shr_ ?i 0)) )))
-(assert (forall ((?i Int) (?j Int)) (=> (<= 0 ?j) (= (shr_ ?i (+ ?j 1)) (divide (shr_ ?i ?j) 2)))))
-(assert (forall ((?a Int) (?b Int)) (! (= (= (System.String.Equals_System.String_ ?a ?b) Smt.true) (= (System.String.Equals_System.String_System.String_ ?a ?b) Smt.true)) :pattern ((System.String.Equals_System.String_ ?a ?b)) )))
-(assert (forall ((?a Int) (?b Int)) (! (= (= (System.String.Equals_System.String_System.String_ ?a ?b) Smt.true) (= (System.String.Equals_System.String_System.String_ ?b ?a) Smt.true)) :pattern ((System.String.Equals_System.String_System.String_ ?a ?b)) )))
-(assert (forall ((?a Int) (?b Int)) (! (=> (and (not (= ?a nullObject)) (not (= ?b nullObject)) (= (System.String.Equals_System.String_System.String_ ?a ?b) Smt.true)) (= (System.String.IsInterned_System.String_notnull_ ?a) (System.String.IsInterned_System.String_notnull_ ?b))) :pattern ((System.String.Equals_System.String_System.String_ ?a ?b)) )))
-(assert (not (= (IsStaticField AdditiveMethods.amPeer) Smt.true)))
-(assert (= (IsDirectlyModifiableField AdditiveMethods.amPeer) Smt.true))
-(assert (= (AsPeerField AdditiveMethods.amPeer) AdditiveMethods.amPeer))
-(assert (= (DeclType AdditiveMethods.amPeer) AdditiveMethods))
-(assert (= (AsRefField AdditiveMethods.amPeer AdditiveMethods) AdditiveMethods.amPeer))
-(assert (not (= (IsStaticField AdditiveMethods.amRep) Smt.true)))
-(assert (= (IsDirectlyModifiableField AdditiveMethods.amRep) Smt.true))
-(assert (= (AsRepField AdditiveMethods.amRep AdditiveMethods) AdditiveMethods.amRep))
-(assert (= (DeclType AdditiveMethods.amRep) AdditiveMethods))
-(assert (= (AsRefField AdditiveMethods.amRep AdditiveMethods) AdditiveMethods.amRep))
-(assert (not (= (IsStaticField OwnedResults.x) Smt.true)))
-(assert (= (IsDirectlyModifiableField OwnedResults.x) Smt.true))
-(assert (= (AsRepField OwnedResults.x OwnedResults) OwnedResults.x))
-(assert (= (DeclType OwnedResults.x) OwnedResults))
-(assert (= (AsRefField OwnedResults.x T) OwnedResults.x))
-(assert (not (= (IsStaticField OwnedResults.y) Smt.true)))
-(assert (= (IsDirectlyModifiableField OwnedResults.y) Smt.true))
-(assert (= (AsPeerField OwnedResults.y) OwnedResults.y))
-(assert (= (DeclType OwnedResults.y) OwnedResults))
-(assert (= (AsRefField OwnedResults.y T) OwnedResults.y))
-(assert (subtypes AdditiveMethods AdditiveMethods))
-(assert (= (BaseClass_ AdditiveMethods) System.Object))
-(assert (subtypes AdditiveMethods (BaseClass_ AdditiveMethods)))
-(assert (= (AsDirectSubClass AdditiveMethods (BaseClass_ AdditiveMethods)) AdditiveMethods))
-(assert (not (= (IsImmutable_ AdditiveMethods) Smt.true)))
-(assert (= (AsMutable_ AdditiveMethods) AdditiveMethods))
-(assert (subtypes System.Type System.Type))
-(assert (subtypes System.Reflection.MemberInfo System.Reflection.MemberInfo))
-(assert (= (BaseClass_ System.Reflection.MemberInfo) System.Object))
-(assert (subtypes System.Reflection.MemberInfo (BaseClass_ System.Reflection.MemberInfo)))
-(assert (= (AsDirectSubClass System.Reflection.MemberInfo (BaseClass_ System.Reflection.MemberInfo)) System.Reflection.MemberInfo))
-(assert (= (IsImmutable_ System.Reflection.MemberInfo) Smt.true))
-(assert (= (AsImmutable_ System.Reflection.MemberInfo) System.Reflection.MemberInfo))
-(assert (subtypes System.Reflection.ICustomAttributeProvider System.Object))
-(assert (= (IsMemberlessType_ System.Reflection.ICustomAttributeProvider) Smt.true))
-(assert (subtypes System.Reflection.MemberInfo System.Reflection.ICustomAttributeProvider))
-(assert (subtypes System.Runtime.InteropServices._MemberInfo System.Object))
-(assert (= (IsMemberlessType_ System.Runtime.InteropServices._MemberInfo) Smt.true))
-(assert (subtypes System.Reflection.MemberInfo System.Runtime.InteropServices._MemberInfo))
-(assert (= (IsMemberlessType_ System.Reflection.MemberInfo) Smt.true))
-(assert (= (BaseClass_ System.Type) System.Reflection.MemberInfo))
-(assert (subtypes System.Type (BaseClass_ System.Type)))
-(assert (= (AsDirectSubClass System.Type (BaseClass_ System.Type)) System.Type))
-(assert (= (IsImmutable_ System.Type) Smt.true))
-(assert (= (AsImmutable_ System.Type) System.Type))
-(assert (subtypes System.Runtime.InteropServices._Type System.Object))
-(assert (= (IsMemberlessType_ System.Runtime.InteropServices._Type) Smt.true))
-(assert (subtypes System.Type System.Runtime.InteropServices._Type))
-(assert (subtypes System.Reflection.IReflect System.Object))
-(assert (= (IsMemberlessType_ System.Reflection.IReflect) Smt.true))
-(assert (subtypes System.Type System.Reflection.IReflect))
-(assert (= (IsMemberlessType_ System.Type) Smt.true))
-(assert (subtypes Sub Sub))
-(assert (= (BaseClass_ Sub) AdditiveMethods))
-(assert (subtypes Sub (BaseClass_ Sub)))
-(assert (= (AsDirectSubClass Sub (BaseClass_ Sub)) Sub))
-(assert (not (= (IsImmutable_ Sub) Smt.true)))
-(assert (= (AsMutable_ Sub) Sub))
-(assert (subtypes OwnedResults OwnedResults))
-(assert (= (BaseClass_ OwnedResults) System.Object))
-(assert (subtypes OwnedResults (BaseClass_ OwnedResults)))
-(assert (= (AsDirectSubClass OwnedResults (BaseClass_ OwnedResults)) OwnedResults))
-(assert (not (= (IsImmutable_ OwnedResults) Smt.true)))
-(assert (= (AsMutable_ OwnedResults) OwnedResults))
-(assert (subtypes T T))
-(assert (= (BaseClass_ T) System.Object))
-(assert (subtypes T (BaseClass_ T)))
-(assert (= (AsDirectSubClass T (BaseClass_ T)) T))
-(assert (not (= (IsImmutable_ T) Smt.true)))
-(assert (= (AsMutable_ T) T))
-(assert (forall ((?Heap_ Int) (?this Int)) (! (let ((?v_0 (OwnedResults.Mz_ ?Heap_ ?this))) (=> (and (= (IsHeap ?Heap_) Smt.true) (forall ((?pc_ Int)) (let ((?v_1 (typeof_ ?pc_))) (=> (and (not (= ?pc_ nullObject)) (= (= (select2 ?Heap_ ?pc_ allocated_) Smt.true) true) (= (select2 ?Heap_ ?pc_ ownerRef_) (select2 ?Heap_ ?this ownerRef_)) (= (select2 ?Heap_ ?pc_ ownerFrame_) (select2 ?Heap_ ?this ownerFrame_))) (and (= (select2 ?Heap_ ?pc_ inv_) ?v_1) (= (select2 ?Heap_ ?pc_ localinv_) ?v_1)))))) (and (= (= (select2 ?Heap_ ?v_0 allocated_) Smt.true) true) (= (Is_ ?v_0 T) Smt.true) (or (= ?v_0 nullObject) (forall ((?pc_ Int)) (let ((?v_2 (typeof_ ?pc_))) (=> (and (not (= ?pc_ nullObject)) (= (= (select2 ?Heap_ ?pc_ allocated_) Smt.true) true) (= (select2 ?Heap_ ?pc_ ownerRef_) (select2 ?Heap_ ?v_0 ownerRef_)) (= (select2 ?Heap_ ?pc_ ownerFrame_) (select2 ?Heap_ ?v_0 ownerFrame_))) (and (= (select2 ?Heap_ ?pc_ inv_) ?v_2) (= (select2 ?Heap_ ?pc_ localinv_) ?v_2)))))) (= ?v_0 (select2 ?Heap_ ?this OwnedResults.x))))) :pattern ((OwnedResults.Mz_ ?Heap_ ?this)) )))
-(assert (forall ((?Heap_ Int) (?this Int)) (! (let ((?v_0 (OwnedResults.Pz_ ?Heap_ ?this))) (=> (and (= (IsHeap ?Heap_) Smt.true) (forall ((?pc_ Int)) (let ((?v_1 (typeof_ ?pc_))) (=> (and (not (= ?pc_ nullObject)) (= (= (select2 ?Heap_ ?pc_ allocated_) Smt.true) true) (= (select2 ?Heap_ ?pc_ ownerRef_) (select2 ?Heap_ ?this ownerRef_)) (= (select2 ?Heap_ ?pc_ ownerFrame_) (select2 ?Heap_ ?this ownerFrame_))) (and (= (select2 ?Heap_ ?pc_ inv_) ?v_1) (= (select2 ?Heap_ ?pc_ localinv_) ?v_1)))))) (and (= (= (select2 ?Heap_ ?v_0 allocated_) Smt.true) true) (= (Is_ ?v_0 T) Smt.true) (or (= ?v_0 nullObject) (forall ((?pc_ Int)) (let ((?v_2 (typeof_ ?pc_))) (=> (and (not (= ?pc_ nullObject)) (= (= (select2 ?Heap_ ?pc_ allocated_) Smt.true) true) (= (select2 ?Heap_ ?pc_ ownerRef_) (select2 ?Heap_ ?v_0 ownerRef_)) (= (select2 ?Heap_ ?pc_ ownerFrame_) (select2 ?Heap_ ?v_0 ownerFrame_))) (and (= (select2 ?Heap_ ?pc_ inv_) ?v_2) (= (select2 ?Heap_ ?pc_ localinv_) ?v_2)))))) (= ?v_0 (select2 ?Heap_ ?this OwnedResults.x))))) :pattern ((OwnedResults.Pz_ ?Heap_ ?this)) )))
-(assert (forall ((?Heap_ Int) (?this Int)) (! (let ((?v_0 (typeof_ ?this))) (=> (and (not (= ?this nullObject)) (subtypes ?v_0 OwnedResults) (= (select2 ?Heap_ ?this inv_) ?v_0) (= (select2 ?Heap_ ?this localinv_) ?v_0) (= (IsHeap ?Heap_) Smt.true) (= (= (select2 ?Heap_ ?this allocated_) Smt.true) true)) (= (OwnedResults.Pz_ ?Heap_ ?this) (OwnedResults.Pz_.1 (select2 ?Heap_ ?this exposeVersion_))))) :pattern ((OwnedResults.Pz_ ?Heap_ ?this)) )))
-(assert (forall ((?Heap_ Int) (?this Int)) (! (let ((?v_0 (OwnedResults.Pw_ ?Heap_ ?this))) (=> (and (= (IsHeap ?Heap_) Smt.true) (forall ((?pc_ Int)) (let ((?v_1 (typeof_ ?pc_))) (=> (and (not (= ?pc_ nullObject)) (= (= (select2 ?Heap_ ?pc_ allocated_) Smt.true) true) (= (select2 ?Heap_ ?pc_ ownerRef_) (select2 ?Heap_ ?this ownerRef_)) (= (select2 ?Heap_ ?pc_ ownerFrame_) (select2 ?Heap_ ?this ownerFrame_))) (and (= (select2 ?Heap_ ?pc_ inv_) ?v_1) (= (select2 ?Heap_ ?pc_ localinv_) ?v_1)))))) (and (= (= (select2 ?Heap_ ?v_0 allocated_) Smt.true) true) (= (Is_ ?v_0 T) Smt.true) (or (= ?v_0 nullObject) (forall ((?pc_ Int)) (let ((?v_2 (typeof_ ?pc_))) (=> (and (not (= ?pc_ nullObject)) (= (= (select2 ?Heap_ ?pc_ allocated_) Smt.true) true) (= (select2 ?Heap_ ?pc_ ownerRef_) (select2 ?Heap_ ?v_0 ownerRef_)) (= (select2 ?Heap_ ?pc_ ownerFrame_) (select2 ?Heap_ ?v_0 ownerFrame_))) (and (= (select2 ?Heap_ ?pc_ inv_) ?v_2) (= (select2 ?Heap_ ?pc_ localinv_) ?v_2)))))) (= ?v_0 (select2 ?Heap_ ?this OwnedResults.y))))) :pattern ((OwnedResults.Pw_ ?Heap_ ?this)) )))
-(assert (forall ((?Heap_ Int) (?this Int)) (! (let ((?v_0 (typeof_ ?this))) (=> (and (not (= ?this nullObject)) (subtypes ?v_0 OwnedResults) (= (select2 ?Heap_ ?this inv_) ?v_0) (= (select2 ?Heap_ ?this localinv_) ?v_0) (= (IsHeap ?Heap_) Smt.true) (= (= (select2 ?Heap_ ?this allocated_) Smt.true) true)) (= (OwnedResults.Pw_ ?Heap_ ?this) (OwnedResults.Pw_.1 (select2 ?Heap_ ?this exposeVersion_))))) :pattern ((OwnedResults.Pw_ ?Heap_ ?this)) )))
-(assert (forall ((?Heap_ Int) (?this Int) (?k_in Int)) (! (let ((?v_0 (OwnedResults.Qz_System.Int32_ ?Heap_ ?this ?k_in))) (=> (and (= (IsHeap ?Heap_) Smt.true) (InRange ?k_in System.Int32) (forall ((?pc_ Int)) (let ((?v_1 (typeof_ ?pc_))) (=> (and (not (= ?pc_ nullObject)) (= (= (select2 ?Heap_ ?pc_ allocated_) Smt.true) true) (= (select2 ?Heap_ ?pc_ ownerRef_) (select2 ?Heap_ ?this ownerRef_)) (= (select2 ?Heap_ ?pc_ ownerFrame_) (select2 ?Heap_ ?this ownerFrame_))) (and (= (select2 ?Heap_ ?pc_ inv_) ?v_1) (= (select2 ?Heap_ ?pc_ localinv_) ?v_1)))))) (and (= (= (select2 ?Heap_ ?v_0 allocated_) Smt.true) true) (= (Is_ ?v_0 T) Smt.true) (or (= ?v_0 nullObject) (forall ((?pc_ Int)) (let ((?v_2 (typeof_ ?pc_))) (=> (and (not (= ?pc_ nullObject)) (= (= (select2 ?Heap_ ?pc_ allocated_) Smt.true) true) (= (select2 ?Heap_ ?pc_ ownerRef_) (select2 ?Heap_ ?v_0 ownerRef_)) (= (select2 ?Heap_ ?pc_ ownerFrame_) (select2 ?Heap_ ?v_0 ownerFrame_))) (and (= (select2 ?Heap_ ?pc_ inv_) ?v_2) (= (select2 ?Heap_ ?pc_ localinv_) ?v_2))))))))) :pattern ((OwnedResults.Qz_System.Int32_ ?Heap_ ?this ?k_in)) )))
-(assert (forall ((?Heap_ Int) (?this Int) (?k_in Int)) (! (let ((?v_0 (typeof_ ?this))) (=> (and (not (= ?this nullObject)) (subtypes ?v_0 OwnedResults) (= (select2 ?Heap_ ?this inv_) ?v_0) (= (select2 ?Heap_ ?this localinv_) ?v_0) (= (IsHeap ?Heap_) Smt.true) (= (= (select2 ?Heap_ ?this allocated_) Smt.true) true)) (= (OwnedResults.Qz_System.Int32_ ?Heap_ ?this ?k_in) (OwnedResults.Qz_System.Int32_.1 (select2 ?Heap_ ?this exposeVersion_) ?k_in)))) :pattern ((OwnedResults.Qz_System.Int32_ ?Heap_ ?this ?k_in)) )))
-(assert (forall ((?U_ Int)) (! (=> (subtypes ?U_ System.Boolean) (= ?U_ System.Boolean)) :pattern ((subtypes ?U_ System.Boolean)) )))
-(assert (forall ((?Heap_ Int)) (! (let ((?v_0 (OwnedResults.Static0_ ?Heap_))) (=> (= (IsHeap ?Heap_) Smt.true) (and (= (= (select2 ?Heap_ ?v_0 allocated_) Smt.true) true) (= (IsNotNull_ ?v_0 T) Smt.true) (forall ((?pc_ Int)) (let ((?v_1 (typeof_ ?pc_))) (=> (and (not (= ?pc_ nullObject)) (= (= (select2 ?Heap_ ?pc_ allocated_) Smt.true) true) (= (select2 ?Heap_ ?pc_ ownerRef_) (select2 ?Heap_ ?v_0 ownerRef_)) (= (select2 ?Heap_ ?pc_ ownerFrame_) (select2 ?Heap_ ?v_0 ownerFrame_))) (and (= (select2 ?Heap_ ?pc_ inv_) ?v_1) (= (select2 ?Heap_ ?pc_ localinv_) ?v_1)))))))) :pattern ((OwnedResults.Static0_ ?Heap_)) )))
-(assert (forall ((?Heap_ Int)) (! (let ((?v_0 (OwnedResults.Static1_ ?Heap_))) (=> (= (IsHeap ?Heap_) Smt.true) (and (= (= (select2 ?Heap_ ?v_0 allocated_) Smt.true) true) (= (IsNotNull_ ?v_0 T) Smt.true) (forall ((?pc_ Int)) (let ((?v_1 (typeof_ ?pc_))) (=> (and (not (= ?pc_ nullObject)) (= (= (select2 ?Heap_ ?pc_ allocated_) Smt.true) true) (= (select2 ?Heap_ ?pc_ ownerRef_) (select2 ?Heap_ ?v_0 ownerRef_)) (= (select2 ?Heap_ ?pc_ ownerFrame_) (select2 ?Heap_ ?v_0 ownerFrame_))) (and (= (select2 ?Heap_ ?pc_ inv_) ?v_1) (= (select2 ?Heap_ ?pc_ localinv_) ?v_1)))))))) :pattern ((OwnedResults.Static1_ ?Heap_)) )))
-(assert (=> true (= (IsNotNull_ OwnedResults.Static2_ T) Smt.true)))
-(assert (forall ((?A Int) (?i Int) (?v Int)) (= (select1 (store1 ?A ?i ?v) ?i) ?v)))
-(assert (forall ((?A Int) (?i Int) (?j Int) (?v Int)) (=> (not (= ?i ?j)) (= (select1 (store1 ?A ?i ?v) ?j) (select1 ?A ?j)))))
-(assert (forall ((?A Int) (?o Int) (?f Int) (?v Int)) (= (select2 (store2 ?A ?o ?f ?v) ?o ?f) ?v)))
-(assert (forall ((?A Int) (?o Int) (?f Int) (?p Int) (?g Int) (?v Int)) (=> (not (= ?o ?p)) (= (select2 (store2 ?A ?o ?f ?v) ?p ?g) (select2 ?A ?p ?g)))))
-(assert (forall ((?A Int) (?o Int) (?f Int) (?p Int) (?g Int) (?v Int)) (=> (not (= ?f ?g)) (= (select2 (store2 ?A ?o ?f ?v) ?p ?g) (select2 ?A ?p ?g)))))
-(assert (forall ((?x Int) (?y Int)) (= (= (boolIff ?x ?y) Smt.true) (= (= ?x Smt.true) (= ?y Smt.true)))))
-(assert (forall ((?x Int) (?y Int)) (= (= (boolImplies ?x ?y) Smt.true) (=> (= ?x Smt.true) (= ?y Smt.true)))))
-(assert (forall ((?x Int) (?y Int)) (= (= (boolAnd ?x ?y) Smt.true) (and (= ?x Smt.true) (= ?y Smt.true)))))
-(assert (forall ((?x Int) (?y Int)) (= (= (boolOr ?x ?y) Smt.true) (or (= ?x Smt.true) (= ?y Smt.true)))))
-(assert (forall ((?x Int)) (! (= (= (boolNot ?x) Smt.true) (not (= ?x Smt.true))) :pattern ((boolNot ?x)) )))
-(assert (forall ((?x Int) (?y Int)) (= (= (anyEqual ?x ?y) Smt.true) (= ?x ?y))))
-(assert (forall ((?x Int) (?y Int)) (! (= (= (anyNeq ?x ?y) Smt.true) (not (= ?x ?y))) :pattern ((anyNeq ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (= (= (intLess ?x ?y) Smt.true) (< ?x ?y))))
-(assert (forall ((?x Int) (?y Int)) (= (= (intAtMost ?x ?y) Smt.true) (<= ?x ?y))))
-(assert (forall ((?x Int) (?y Int)) (= (= (intAtLeast ?x ?y) Smt.true) (>= ?x ?y))))
-(assert (forall ((?x Int) (?y Int)) (= (= (intGreater ?x ?y) Smt.true) (> ?x ?y))))
-(assert (distinct Smt.false Smt.true))
-(assert (forall ((?t Int)) (! (subtypes ?t ?t) :pattern ((subtypes ?t ?t)) )))
-(assert (forall ((?t Int) (?u Int) (?v Int)) (! (=> (and (subtypes ?t ?u) (subtypes ?u ?v)) (subtypes ?t ?v)) :pattern ((subtypes ?t ?u) (subtypes ?u ?v)) )))
-(assert (forall ((?t Int) (?u Int)) (! (=> (and (subtypes ?t ?u) (subtypes ?u ?t)) (= ?t ?u)) :pattern ((subtypes ?t ?u) (subtypes ?u ?t)) )))
-(assert (let ((?v_1 (select2 Heap_ this ownerRef_)) (?v_2 (select2 Heap_ this ownerFrame_))) (let ((?v_0 (= ?v_2 PeerGroupPlaceholder_)) (?v_6 (typeof_ this)) (?v_3 (not (= this nullObject))) (?v_4 (select2 Heap_0_ this ownerFrame_)) (?v_5 (select2 Heap_0_ this ownerRef_)) (?v_7 (= (select2 Heap_0_ this inv_) System.Object))) (let ((?v_8 (= (select2 Heap_0_ this localinv_) ?v_6)) (?v_9 (forall ((?p_ Int)) (let ((?v_23 (typeof_ ?p_))) (=> (and (not (= ?p_ nullObject)) (= (= (select2 Heap_0_ ?p_ allocated_) Smt.true) true) (= (select2 Heap_0_ ?p_ ownerRef_) this) (= (select2 Heap_0_ ?p_ ownerFrame_) AdditiveMethods)) (and (= (select2 Heap_0_ ?p_ inv_) ?v_23) (= (select2 Heap_0_ ?p_ localinv_) ?v_23)))))) (?v_10 (forall ((?o_ Int)) (=> (and (not (= ?o_ nullObject)) (= (= (select2 Heap_ ?o_ allocated_) Smt.true) true)) (and (= (select2 Heap_ ?o_ ownerRef_) (select2 Heap_1_ ?o_ ownerRef_)) (= (select2 Heap_ ?o_ ownerFrame_) (select2 Heap_1_ ?o_ ownerFrame_)))))) (?v_11 (= (select2 Heap_1_ this sharingMode_) SharingMode_Unshared_)) (?v_15 (select2 Heap_1_ this ownerRef_))) (let ((?v_12 (= ?v_15 ?v_1)) (?v_14 (select2 Heap_1_ this ownerFrame_))) (let ((?v_13 (= ?v_14 ?v_2)) (?v_16 (or (= ?v_14 PeerGroupPlaceholder_) (not (subtypes (select2 Heap_1_ ?v_15 inv_) ?v_14)) (= (select2 Heap_1_ ?v_15 localinv_) (BaseClass_ ?v_14)))) (?v_17 (= (select2 Heap_1_ this inv_) AdditiveMethods)) (?v_18 (= (select2 Heap_1_ this localinv_) ?v_6)) (?v_19 (= ReallyLastGeneratedExit_correct Smt.true)) (?v_20 (= block3927_correct Smt.true)) (?v_21 (= block3910_correct Smt.true)) (?v_22 (= entry_correct Smt.true))) (not (=> (=> (=> true (=> (= (IsHeap Heap_) Smt.true) (=> (= BeingConstructed_ this) (=> (forall ((?o_ Int)) (=> (and (= (select2 Heap_ ?o_ ownerRef_) ?v_1) (= (select2 Heap_ ?o_ ownerFrame_) ?v_2)) (= ?o_ this))) (=> (and (= ?v_1 this) ?v_0) (=> (forall ((?o_ Int)) (=> (not (= ?o_ this)) (not (= (select2 Heap_ ?o_ ownerRef_) this)))) (=> true (=> (= (IsNotNull_ this AdditiveMethods) Smt.true) (=> (= (= (select2 Heap_ this allocated_) Smt.true) true) (=> (and (or ?v_0 (not (subtypes (select2 Heap_ ?v_1 inv_) ?v_2)) (= (select2 Heap_ ?v_1 localinv_) (BaseClass_ ?v_2))) (= (select2 Heap_ this inv_) System.Object) (= (select2 Heap_ this localinv_) ?v_6)) (=> (= (select2 Heap_ this AdditiveMethods.amPeer) nullObject) (=> (= (select2 Heap_ this AdditiveMethods.amRep) nullObject) (=> true (=> (=> (=> true (=> true (=> true (=> (=> (=> true (=> true (and ?v_3 (=> ?v_3 (=> (= (IsHeap Heap_0_) Smt.true) (=> (and (or (= ?v_4 PeerGroupPlaceholder_) (not (subtypes (select2 Heap_0_ ?v_5 inv_) ?v_4)) (= (select2 Heap_0_ ?v_5 localinv_) (BaseClass_ ?v_4))) ?v_7 ?v_8) (=> (and (= ?v_5 ?v_1) (= ?v_4 ?v_2)) (=> (= (select2 Heap_0_ this sharingMode_) SharingMode_Unshared_) (=> (forall ((?o_ Int)) (let ((?v_24 (typeof_ ?o_))) (=> (and (not (= ?o_ nullObject)) (= (= (select2 Heap_ ?o_ allocated_) Smt.true) (not true)) (= (= (select2 Heap_0_ ?o_ allocated_) Smt.true) true)) (and (= (select2 Heap_0_ ?o_ inv_) ?v_24) (= (select2 Heap_0_ ?o_ localinv_) ?v_24))))) (=> (forall ((?o_ Int)) (! (let ((?v_25 (select2 Heap_ ?o_ FirstConsistentOwner_))) (=> (= (select2 Heap_ ?v_25 exposeVersion_) (select2 Heap_0_ ?v_25 exposeVersion_)) (= ?v_25 (select2 Heap_0_ ?o_ FirstConsistentOwner_)))) :pattern ((select2 Heap_0_ ?o_ FirstConsistentOwner_)) )) (=> (forall ((?o_ Int)) (=> (and (not (= ?o_ nullObject)) (= (= (select2 Heap_ ?o_ allocated_) Smt.true) true)) (and (= (select2 Heap_ ?o_ ownerRef_) (select2 Heap_0_ ?o_ ownerRef_)) (= (select2 Heap_ ?o_ ownerFrame_) (select2 Heap_0_ ?o_ ownerFrame_))))) (=> (forall ((?o_ Int) (?f_ Int)) (! (let ((?v_26 (select2 Heap_ ?o_ ownerFrame_)) (?v_27 (select2 Heap_ ?o_ ownerRef_))) (=> (and (not (= ?f_ inv_)) (not (= ?f_ localinv_)) (not (= ?f_ FirstConsistentOwner_)) (or (not (= (IsStaticField ?f_) Smt.true)) (not (= (IsDirectlyModifiableField ?f_) Smt.true))) (not (= ?o_ nullObject)) (= (= (select2 Heap_ ?o_ allocated_) Smt.true) true) (or (= ?v_26 PeerGroupPlaceholder_) (not (subtypes (select2 Heap_ ?v_27 inv_) ?v_26)) (= (select2 Heap_ ?v_27 localinv_) (BaseClass_ ?v_26))) (or (not (= ?o_ this)) (not (subtypes System.Object (DeclType ?f_)))) true) (= (select2 Heap_ ?o_ ?f_) (select2 Heap_0_ ?o_ ?f_)))) :pattern ((select2 Heap_0_ ?o_ ?f_)) )) (=> (forall ((?o_ Int)) (or (= ?o_ this) (and (= (select2 Heap_ ?o_ inv_) (select2 Heap_0_ ?o_ inv_)) (= (select2 Heap_ ?o_ localinv_) (select2 Heap_0_ ?o_ localinv_))) (= (= (select2 Heap_ ?o_ allocated_) Smt.true) (not true)))) (=> (and (forall ((?o_ Int)) (=> (= (= (select2 Heap_ ?o_ allocated_) Smt.true) true) (= (= (select2 Heap_0_ ?o_ allocated_) Smt.true) true))) (forall ((?ot_ Int)) (let ((?v_28 (select2 Heap_ ?ot_ ownerFrame_))) (=> (and (= (= (select2 Heap_ ?ot_ allocated_) Smt.true) true) (not (= ?v_28 PeerGroupPlaceholder_))) (and (= (select2 Heap_0_ ?ot_ ownerRef_) (select2 Heap_ ?ot_ ownerRef_)) (= (select2 Heap_0_ ?ot_ ownerFrame_) ?v_28))))) (= (= (select2 Heap_ BeingConstructed_ NonNullFieldsAreInitialized_) Smt.true) (= (select2 Heap_0_ BeingConstructed_ NonNullFieldsAreInitialized_) Smt.true))) (=> (forall ((?o_ Int)) (or (= ?o_ this) (= (select2 Heap_ ?o_ sharingMode_) (select2 Heap_0_ ?o_ sharingMode_)))) (and ?v_3 (=> ?v_3 (and ?v_7 ?v_8 (=> (and ?v_7 ?v_8) (and ?v_9 (=> ?v_9 (=> (= Heap_1_ (store2 Heap_0_ this inv_ AdditiveMethods)) (=> (= (IsHeap Heap_1_) Smt.true) (=> true (=> (=> (=> true (and ?v_10 (=> ?v_10 (and ?v_11 (=> ?v_11 (and ?v_12 ?v_13 (=> (and ?v_12 ?v_13) (and ?v_16 ?v_17 ?v_18 (=> (and ?v_16 ?v_17 ?v_18) (=> true true)))))))))) ?v_19) ?v_19))))))))))))))))))))))))) ?v_20) ?v_20)))) ?v_21) ?v_21)))))))))))))) ?v_22) ?v_22))))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/quantifiers/AdditiveMethods_OwnedResults.Mz.smt2 b/test/regress/regress0/quantifiers/AdditiveMethods_OwnedResults.Mz.smt2
deleted file mode 100644
index 670dcc006..000000000
--- a/test/regress/regress0/quantifiers/AdditiveMethods_OwnedResults.Mz.smt2
+++ /dev/null
@@ -1,399 +0,0 @@
-(set-logic AUFLIA)
-(set-info :source | 
-  Boogie/Spec# benchmarks.
-  This benchmark was translated by Michal Moskal.
-|)
-(set-info :smt-lib-version 2.0)
-(set-info :category "industrial")
-(set-info :status unsat)
-(declare-fun boolIff (Int Int) Int)
-(declare-fun PeerGroupPlaceholder_ () Int)
-(declare-fun intGreater (Int Int) Int)
-(declare-fun IfThenElse_ (Int Int Int) Int)
-(declare-fun CONCVARSYM (Int) Int)
-(declare-fun SharingMode_Unshared_ () Int)
-(declare-fun OwnedResults.Mz_ (Int Int) Int)
-(declare-fun System.Reflection.IReflect () Int)
-(declare-fun int_m2147483648 () Int)
-(declare-fun System.Int32 () Int)
-(declare-fun intAtMost (Int Int) Int)
-(declare-fun multiply (Int Int) Int)
-(declare-fun Is_ (Int Int) Int)
-(declare-fun Smt.true () Int)
-(declare-fun ElementType_ (Int) Int)
-(declare-fun divide (Int Int) Int)
-(declare-fun int_m9223372036854775808 () Int)
-(declare-fun divides (Int Int) Int)
-(declare-fun select1 (Int Int) Int)
-(declare-fun store1 (Int Int Int) Int)
-(declare-fun select2 (Int Int Int) Int)
-(declare-fun nullObject () Int)
-(declare-fun store2 (Int Int Int Int) Int)
-(declare-fun modulo (Int Int) Int)
-(declare-fun ownerRef_ () Int)
-(declare-fun StructSet_ (Int Int Int) Int)
-(declare-fun AsDirectSubClass (Int Int) Int)
-(declare-fun OwnedResults.Pw_ (Int Int) Int)
-(declare-fun System.Boolean () Int)
-(declare-fun shl_ (Int Int) Int)
-(declare-fun DimLength_ (Int Int) Int)
-(declare-fun block8823_correct () Int)
-(declare-fun anyEqual (Int Int) Int)
-(declare-fun System.Array () Int)
-(declare-fun System.Reflection.ICustomAttributeProvider () Int)
-(declare-fun SharingMode_LockProtected_ () Int)
-(declare-fun IsMemberlessType_ (Int) Int)
-(declare-fun System.UInt16 () Int)
-(declare-fun ClassRepr (Int) Int)
-(declare-fun System.Runtime.InteropServices._Type () Int)
-(declare-fun boolNot (Int) Int)
-(declare-fun T () Int)
-(declare-fun System.Runtime.InteropServices._MemberInfo () Int)
-(declare-fun boolAnd (Int Int) Int)
-(declare-fun boolImplies (Int Int) Int)
-(declare-fun Unbox (Int) Int)
-(declare-fun intAtLeast (Int Int) Int)
-(declare-fun ownerFrame_ () Int)
-(declare-fun int_4294967295 () Int)
-(declare-fun IsAllocated (Int Int) Int)
-(declare-fun TypeName (Int) Int)
-(declare-fun AsPeerField (Int) Int)
-(declare-fun int_9223372036854775807 () Int)
-(declare-fun block8840_correct () Int)
-(declare-fun AsRepField (Int Int) Int)
-(declare-fun System.Reflection.MemberInfo () Int)
-(declare-fun ArrayCategoryValue_ () Int)
-(declare-fun is (Int Int) Int)
-(declare-fun InRange (Int Int) Bool)
-(declare-fun AsOwner (Int Int) Int)
-(declare-fun OwnedResults.Qz_System.Int32_ (Int Int Int) Int)
-(declare-fun System.Int64 () Int)
-(declare-fun or_ (Int Int) Int)
-(declare-fun As_ (Int Int) Int)
-(declare-fun exposeVersion_ () Int)
-(declare-fun System.Type () Int)
-(declare-fun intLess (Int Int) Int)
-(declare-fun AsImmutable_ (Int) Int)
-(declare-fun NonNullFieldsAreInitialized_ () Int)
-(declare-fun LBound_ (Int Int) Int)
-(declare-fun System.Object () Int)
-(declare-fun System.UInt32 () Int)
-(declare-fun localinv_ () Int)
-(declare-fun inv_ () Int)
-(declare-fun OwnedResults.Static0_ (Int) Int)
-(declare-fun entry_correct () Int)
-(declare-fun OwnedResults.Pz_ (Int Int) Int)
-(declare-fun FirstConsistentOwner_ () Int)
-(declare-fun UnboxedType (Int) Int)
-(declare-fun AsRefField (Int Int) Int)
-(declare-fun System.Byte () Int)
-(declare-fun AdditiveMethods () Int)
-(declare-fun this () Int)
-(declare-fun int_2147483647 () Int)
-(declare-fun ArrayCategoryRef_ () Int)
-(declare-fun Heap_ () Int)
-(declare-fun OwnedResults.Qz_System.Int32_.1 (Int Int) Int)
-(declare-fun Length_ (Int) Int)
-(declare-fun AsNonNullRefField (Int Int) Int)
-(declare-fun Sub () Int)
-(declare-fun IsHeap (Int) Int)
-(declare-fun OwnedResults.Static1_ (Int) Int)
-(declare-fun UBound_ (Int Int) Int)
-(declare-fun System.String () Int)
-(declare-fun System.String.IsInterned_System.String_notnull_ (Int) Int)
-(declare-fun UnknownRef_ () Int)
-(declare-fun Rank_ (Int) Int)
-(declare-fun RefArraySet (Int Int Int) Int)
-(declare-fun ValueArraySet (Int Int Int) Int)
-(declare-fun boolOr (Int Int) Int)
-(declare-fun sharingMode_ () Int)
-(declare-fun AdditiveMethods.amRep () Int)
-(declare-fun subtypes (Int Int) Bool)
-(declare-fun System.String.Equals_System.String_System.String_ (Int Int) Int)
-(declare-fun anyNeq (Int Int) Int)
-(declare-fun IsStaticField (Int) Int)
-(declare-fun IsNotNull_ (Int Int) Int)
-(declare-fun typeof_ (Int) Int)
-(declare-fun OwnedResults () Int)
-(declare-fun ArrayCategoryNonNullRef_ () Int)
-(declare-fun RefArrayGet (Int Int) Int)
-(declare-fun ValueArrayGet (Int Int) Int)
-(declare-fun TypeObject (Int) Int)
-(declare-fun and_ (Int Int) Int)
-(declare-fun OwnedResults.x () Int)
-(declare-fun BoxTester (Int Int) Int)
-(declare-fun OwnedResults.y () Int)
-(declare-fun OwnedResults.Static2_ () Int)
-(declare-fun IsValueType_ (Int) Int)
-(declare-fun AsRangeField (Int Int) Int)
-(declare-fun AdditiveMethods.amPeer () Int)
-(declare-fun System.SByte () Int)
-(declare-fun BeingConstructed_ () Int)
-(declare-fun FieldDependsOnFCO_ (Int Int Int) Int)
-(declare-fun NonNullRefArray (Int Int) Int)
-(declare-fun RefArray (Int Int) Int)
-(declare-fun ArrayCategory_ (Int) Int)
-(declare-fun return.value_0 () Int)
-(declare-fun AsPureObject_ (Int) Int)
-(declare-fun System.String.Equals_System.String_ (Int Int) Int)
-(declare-fun System.Int16 () Int)
-(declare-fun AsMutable_ (Int) Int)
-(declare-fun OwnedResults.Pw_.1 (Int) Int)
-(declare-fun System.Char () Int)
-(declare-fun System.UInt64 () Int)
-(declare-fun StructGet_ (Int Int) Int)
-(declare-fun OneClassDown (Int Int) Int)
-(declare-fun ArrayIndex (Int Int Int Int) Int)
-(declare-fun Box (Int Int) Int)
-(declare-fun int_18446744073709551615 () Int)
-(declare-fun shr_ (Int Int) Int)
-(declare-fun OwnedResults.Pz_.1 (Int) Int)
-(declare-fun IsDirectlyModifiableField (Int) Int)
-(declare-fun StringLength_ (Int) Int)
-(declare-fun allocated_ () Int)
-(declare-fun block8806_correct () Int)
-(declare-fun BaseClass_ (Int) Int)
-(declare-fun ValueArray (Int Int) Int)
-(declare-fun Smt.false () Int)
-(declare-fun IsImmutable_ (Int) Int)
-(declare-fun elements_ () Int)
-(declare-fun DeclType (Int) Int)
-(declare-fun ReallyLastGeneratedExit_correct () Int)
-(assert (distinct allocated_ elements_ inv_ localinv_ exposeVersion_ sharingMode_ SharingMode_Unshared_ SharingMode_LockProtected_ ownerRef_ ownerFrame_ PeerGroupPlaceholder_ ArrayCategoryValue_ ArrayCategoryRef_ ArrayCategoryNonNullRef_ System.Array System.Object System.Type BeingConstructed_ NonNullFieldsAreInitialized_ System.String FirstConsistentOwner_ System.SByte System.Byte System.Int16 System.UInt16 System.Int32 System.UInt32 System.Int64 System.UInt64 System.Char int_m2147483648 int_2147483647 int_4294967295 int_m9223372036854775808 int_9223372036854775807 int_18446744073709551615 UnknownRef_ OwnedResults.x AdditiveMethods.amPeer AdditiveMethods.amRep OwnedResults.y OwnedResults System.Runtime.InteropServices._Type System.Runtime.InteropServices._MemberInfo System.Reflection.IReflect Sub System.Reflection.ICustomAttributeProvider System.Boolean AdditiveMethods T System.Reflection.MemberInfo))
-(assert (= (DeclType exposeVersion_) System.Object))
-(assert (forall ((?c0 Int) (?c1 Int)) (! (=> (not (= ?c0 ?c1)) (not (= (ClassRepr ?c0) (ClassRepr ?c1)))) :pattern ((ClassRepr ?c0) (ClassRepr ?c1)) )))
-(assert (forall ((?T Int)) (not (subtypes (typeof_ (ClassRepr ?T)) System.Object))))
-(assert (forall ((?T Int)) (not (= (ClassRepr ?T) nullObject))))
-(assert (forall ((?T Int) (?h Int)) (! (=> (= (IsHeap ?h) Smt.true) (= (select2 ?h (ClassRepr ?T) ownerFrame_) PeerGroupPlaceholder_)) :pattern ((select2 ?h (ClassRepr ?T) ownerFrame_)) )))
-(assert (not (= (IsDirectlyModifiableField allocated_) Smt.true)))
-(assert (= (IsDirectlyModifiableField elements_) Smt.true))
-(assert (not (= (IsDirectlyModifiableField inv_) Smt.true)))
-(assert (not (= (IsDirectlyModifiableField localinv_) Smt.true)))
-(assert (not (= (IsDirectlyModifiableField ownerRef_) Smt.true)))
-(assert (not (= (IsDirectlyModifiableField ownerFrame_) Smt.true)))
-(assert (not (= (IsDirectlyModifiableField exposeVersion_) Smt.true)))
-(assert (not (= (IsStaticField allocated_) Smt.true)))
-(assert (not (= (IsStaticField elements_) Smt.true)))
-(assert (not (= (IsStaticField inv_) Smt.true)))
-(assert (not (= (IsStaticField localinv_) Smt.true)))
-(assert (not (= (IsStaticField exposeVersion_) Smt.true)))
-(assert (forall ((?A Int) (?i Int) (?x Int)) (= (ValueArrayGet (ValueArraySet ?A ?i ?x) ?i) ?x)))
-(assert (forall ((?A Int) (?i Int) (?j Int) (?x Int)) (=> (not (= ?i ?j)) (= (ValueArrayGet (ValueArraySet ?A ?i ?x) ?j) (ValueArrayGet ?A ?j)))))
-(assert (forall ((?A Int) (?i Int) (?x Int)) (= (RefArrayGet (RefArraySet ?A ?i ?x) ?i) ?x)))
-(assert (forall ((?A Int) (?i Int) (?j Int) (?x Int)) (=> (not (= ?i ?j)) (= (RefArrayGet (RefArraySet ?A ?i ?x) ?j) (RefArrayGet ?A ?j)))))
-(assert (forall ((?a Int) (?d Int) (?x Int) (?y Int) (|?x'| Int) (|?y'| Int)) (! (=> (= (ArrayIndex ?a ?d ?x ?y) (ArrayIndex ?a ?d |?x'| |?y'|)) (and (= ?x |?x'|) (= ?y |?y'|))) :pattern ((ArrayIndex ?a ?d ?x ?y) (ArrayIndex ?a ?d |?x'| |?y'|)) )))
-(assert (forall ((?a Int) (?T Int) (?i Int) (?r Int) (?heap Int)) (! (=> (and (= (IsHeap ?heap) Smt.true) (subtypes (typeof_ ?a) (RefArray ?T ?r))) (= (Is_ (RefArrayGet (select2 ?heap ?a elements_) ?i) ?T) Smt.true)) :pattern ((subtypes (typeof_ ?a) (RefArray ?T ?r)) (RefArrayGet (select2 ?heap ?a elements_) ?i)) )))
-(assert (forall ((?a Int) (?T Int) (?i Int) (?r Int) (?heap Int)) (! (=> (and (= (IsHeap ?heap) Smt.true) (subtypes (typeof_ ?a) (NonNullRefArray ?T ?r))) (= (IsNotNull_ (RefArrayGet (select2 ?heap ?a elements_) ?i) ?T) Smt.true)) :pattern ((subtypes (typeof_ ?a) (NonNullRefArray ?T ?r)) (RefArrayGet (select2 ?heap ?a elements_) ?i)) )))
-(assert (forall ((?a Int)) (<= 1 (Rank_ ?a))))
-(assert (forall ((?a Int) (?T Int) (?r Int)) (! (=> (and (not (= ?a nullObject)) (subtypes (typeof_ ?a) (RefArray ?T ?r))) (= (Rank_ ?a) ?r)) :pattern ((subtypes (typeof_ ?a) (RefArray ?T ?r))) )))
-(assert (forall ((?a Int) (?T Int) (?r Int)) (! (=> (and (not (= ?a nullObject)) (subtypes (typeof_ ?a) (NonNullRefArray ?T ?r))) (= (Rank_ ?a) ?r)) :pattern ((subtypes (typeof_ ?a) (NonNullRefArray ?T ?r))) )))
-(assert (forall ((?a Int) (?T Int) (?r Int)) (! (=> (and (not (= ?a nullObject)) (subtypes (typeof_ ?a) (ValueArray ?T ?r))) (= (Rank_ ?a) ?r)) :pattern ((subtypes (typeof_ ?a) (ValueArray ?T ?r))) )))
-(assert (forall ((?a Int)) (! (<= 0 (Length_ ?a)) :pattern ((Length_ ?a)) )))
-(assert (forall ((?a Int) (?i Int)) (<= 0 (DimLength_ ?a ?i))))
-(assert (forall ((?a Int)) (! (=> (= (Rank_ ?a) 1) (= (DimLength_ ?a 0) (Length_ ?a))) :pattern ((DimLength_ ?a 0)) )))
-(assert (forall ((?a Int) (?i Int)) (! (= (LBound_ ?a ?i) 0) :pattern ((LBound_ ?a ?i)) )))
-(assert (forall ((?a Int) (?i Int)) (! (= (UBound_ ?a ?i) (- (DimLength_ ?a ?i) 1)) :pattern ((UBound_ ?a ?i)) )))
-(assert (forall ((?T Int) (?ET Int) (?r Int)) (! (=> (subtypes ?T (ValueArray ?ET ?r)) (= (ArrayCategory_ ?T) ArrayCategoryValue_)) :pattern ((subtypes ?T (ValueArray ?ET ?r))) )))
-(assert (forall ((?T Int) (?ET Int) (?r Int)) (! (=> (subtypes ?T (RefArray ?ET ?r)) (= (ArrayCategory_ ?T) ArrayCategoryRef_)) :pattern ((subtypes ?T (RefArray ?ET ?r))) )))
-(assert (forall ((?T Int) (?ET Int) (?r Int)) (! (=> (subtypes ?T (NonNullRefArray ?ET ?r)) (= (ArrayCategory_ ?T) ArrayCategoryNonNullRef_)) :pattern ((subtypes ?T (NonNullRefArray ?ET ?r))) )))
-(assert (subtypes System.Array System.Object))
-(assert (forall ((?T Int) (?r Int)) (! (subtypes (ValueArray ?T ?r) System.Array) :pattern ((ValueArray ?T ?r)) )))
-(assert (forall ((?T Int) (?r Int)) (! (subtypes (RefArray ?T ?r) System.Array) :pattern ((RefArray ?T ?r)) )))
-(assert (forall ((?T Int) (?r Int)) (! (subtypes (NonNullRefArray ?T ?r) System.Array) :pattern ((NonNullRefArray ?T ?r)) )))
-(assert (forall ((?T Int) (?U Int) (?r Int)) (=> (subtypes ?U ?T) (subtypes (RefArray ?U ?r) (RefArray ?T ?r)))))
-(assert (forall ((?T Int) (?U Int) (?r Int)) (=> (subtypes ?U ?T) (subtypes (NonNullRefArray ?U ?r) (NonNullRefArray ?T ?r)))))
-(assert (forall ((?A Int) (?r Int)) (= (ElementType_ (ValueArray ?A ?r)) ?A)))
-(assert (forall ((?A Int) (?r Int)) (= (ElementType_ (RefArray ?A ?r)) ?A)))
-(assert (forall ((?A Int) (?r Int)) (= (ElementType_ (NonNullRefArray ?A ?r)) ?A)))
-(assert (forall ((?A Int) (?r Int) (?T Int)) (! (let ((?v_0 (ElementType_ ?T))) (=> (subtypes ?T (RefArray ?A ?r)) (and (= ?T (RefArray ?v_0 ?r)) (subtypes ?v_0 ?A)))) :pattern ((subtypes ?T (RefArray ?A ?r))) )))
-(assert (forall ((?A Int) (?r Int) (?T Int)) (! (let ((?v_0 (ElementType_ ?T))) (=> (subtypes ?T (NonNullRefArray ?A ?r)) (and (= ?T (NonNullRefArray ?v_0 ?r)) (subtypes ?v_0 ?A)))) :pattern ((subtypes ?T (NonNullRefArray ?A ?r))) )))
-(assert (forall ((?A Int) (?r Int) (?T Int)) (let ((?v_0 (ValueArray ?A ?r))) (=> (subtypes ?T ?v_0) (= ?T ?v_0)))))
-(assert (forall ((?A Int) (?r Int) (?T Int)) (let ((?v_0 (ElementType_ ?T))) (=> (subtypes (RefArray ?A ?r) ?T) (or (subtypes System.Array ?T) (and (= ?T (RefArray ?v_0 ?r)) (subtypes ?A ?v_0)))))))
-(assert (forall ((?A Int) (?r Int) (?T Int)) (let ((?v_0 (ElementType_ ?T))) (=> (subtypes (NonNullRefArray ?A ?r) ?T) (or (subtypes System.Array ?T) (and (= ?T (NonNullRefArray ?v_0 ?r)) (subtypes ?A ?v_0)))))))
-(assert (forall ((?A Int) (?r Int) (?T Int)) (let ((?v_0 (ValueArray ?A ?r))) (=> (subtypes ?v_0 ?T) (or (subtypes System.Array ?T) (= ?T ?v_0))))))
-(assert (forall ((?s Int) (?f Int) (?x Int)) (= (StructGet_ (StructSet_ ?s ?f ?x) ?f) ?x)))
-(assert (forall ((?s Int) (?f Int) (|?f'| Int) (?x Int)) (=> (not (= ?f |?f'|)) (= (StructGet_ (StructSet_ ?s ?f ?x) |?f'|) (StructGet_ ?s |?f'|)))))
-(assert (forall ((?A Int) (?B Int) (?C Int)) (! (=> (subtypes ?C (AsDirectSubClass ?B ?A)) (= (OneClassDown ?C ?A) ?B)) :pattern ((subtypes ?C (AsDirectSubClass ?B ?A))) )))
-(assert (forall ((?T Int)) (=> (= (IsValueType_ ?T) Smt.true) (and (forall ((?U Int)) (=> (subtypes ?T ?U) (= ?T ?U))) (forall ((?U Int)) (=> (subtypes ?U ?T) (= ?T ?U)))))))
-(assert (subtypes System.Type System.Object))
-(assert (forall ((?T Int)) (! (= (IsNotNull_ (TypeObject ?T) System.Type) Smt.true) :pattern ((TypeObject ?T)) )))
-(assert (forall ((?T Int)) (! (= (TypeName (TypeObject ?T)) ?T) :pattern ((TypeObject ?T)) )))
-(assert (forall ((?o Int) (?T Int)) (! (= (= (Is_ ?o ?T) Smt.true) (or (= ?o nullObject) (subtypes (typeof_ ?o) ?T))) :pattern ((Is_ ?o ?T)) )))
-(assert (forall ((?o Int) (?T Int)) (! (= (= (IsNotNull_ ?o ?T) Smt.true) (and (not (= ?o nullObject)) (= (Is_ ?o ?T) Smt.true))) :pattern ((IsNotNull_ ?o ?T)) )))
-(assert (forall ((?o Int) (?T Int)) (=> (= (Is_ ?o ?T) Smt.true) (= (As_ ?o ?T) ?o))))
-(assert (forall ((?o Int) (?T Int)) (=> (not (= (Is_ ?o ?T) Smt.true)) (= (As_ ?o ?T) nullObject))))
-(assert (forall ((?h Int) (?o Int)) (! (let ((?v_0 (typeof_ ?o))) (=> (and (= (IsHeap ?h) Smt.true) (not (= ?o nullObject)) (subtypes ?v_0 System.Array)) (and (= (select2 ?h ?o inv_) ?v_0) (= (select2 ?h ?o localinv_) ?v_0)))) :pattern ((select2 ?h ?o inv_)) )))
-(assert (forall ((?h Int) (?o Int) (?f Int)) (! (=> (and (= (IsHeap ?h) Smt.true) (= (select2 ?h ?o allocated_) Smt.true)) (= (IsAllocated ?h (select2 ?h ?o ?f)) Smt.true)) :pattern ((IsAllocated ?h (select2 ?h ?o ?f))) )))
-(assert (forall ((?h Int) (?o Int) (?f Int)) (! (=> (and (= (IsHeap ?h) Smt.true) (= (select2 ?h ?o allocated_) Smt.true)) (= (select2 ?h (select2 ?h ?o ?f) allocated_) Smt.true)) :pattern ((select2 ?h (select2 ?h ?o ?f) allocated_)) )))
-(assert (forall ((?h Int) (?s Int) (?f Int)) (! (=> (= (IsAllocated ?h ?s) Smt.true) (= (IsAllocated ?h (StructGet_ ?s ?f)) Smt.true)) :pattern ((IsAllocated ?h (StructGet_ ?s ?f))) )))
-(assert (forall ((?h Int) (?e Int) (?i Int)) (! (=> (= (IsAllocated ?h ?e) Smt.true) (= (IsAllocated ?h (RefArrayGet ?e ?i)) Smt.true)) :pattern ((IsAllocated ?h (RefArrayGet ?e ?i))) )))
-(assert (forall ((?h Int) (?e Int) (?i Int)) (! (=> (= (IsAllocated ?h ?e) Smt.true) (= (IsAllocated ?h (ValueArrayGet ?e ?i)) Smt.true)) :pattern ((IsAllocated ?h (ValueArrayGet ?e ?i))) )))
-(assert (forall ((?h Int) (?o Int)) (! (=> (= (IsAllocated ?h ?o) Smt.true) (= (select2 ?h ?o allocated_) Smt.true)) :pattern ((select2 ?h ?o allocated_)) )))
-(assert (forall ((?h Int) (?c Int)) (! (=> (= (IsHeap ?h) Smt.true) (= (select2 ?h (ClassRepr ?c) allocated_) Smt.true)) :pattern ((select2 ?h (ClassRepr ?c) allocated_)) )))
-(assert (forall ((?f Int) (?T Int)) (! (=> (= (AsNonNullRefField ?f ?T) ?f) (= (AsRefField ?f ?T) ?f)) :pattern ((AsNonNullRefField ?f ?T)) )))
-(assert (forall ((?h Int) (?o Int) (?f Int) (?T Int)) (! (=> (= (IsHeap ?h) Smt.true) (= (Is_ (select2 ?h ?o (AsRefField ?f ?T)) ?T) Smt.true)) :pattern ((select2 ?h ?o (AsRefField ?f ?T))) )))
-(assert (forall ((?h Int) (?o Int) (?f Int) (?T Int)) (! (=> (and (= (IsHeap ?h) Smt.true) (not (= ?o nullObject)) (or (not (= ?o BeingConstructed_)) (= (= (select2 ?h BeingConstructed_ NonNullFieldsAreInitialized_) Smt.true) true))) (not (= (select2 ?h ?o (AsNonNullRefField ?f ?T)) nullObject))) :pattern ((select2 ?h ?o (AsNonNullRefField ?f ?T))) )))
-(assert (forall ((?h Int) (?o Int) (?f Int) (?T Int)) (! (=> (= (IsHeap ?h) Smt.true) (InRange (select2 ?h ?o (AsRangeField ?f ?T)) ?T)) :pattern ((select2 ?h ?o (AsRangeField ?f ?T))) )))
-(assert (forall ((?o Int)) (! (not (= (IsMemberlessType_ (typeof_ ?o)) Smt.true)) :pattern ((IsMemberlessType_ (typeof_ ?o))) )))
-(assert (not (= (IsImmutable_ System.Object) Smt.true)))
-(assert (forall ((?T Int) (?U Int)) (! (=> (subtypes ?U (AsImmutable_ ?T)) (and (= (IsImmutable_ ?U) Smt.true) (= (AsImmutable_ ?U) ?U))) :pattern ((subtypes ?U (AsImmutable_ ?T))) )))
-(assert (forall ((?T Int) (?U Int)) (! (=> (subtypes ?U (AsMutable_ ?T)) (and (not (= (IsImmutable_ ?U) Smt.true)) (= (AsMutable_ ?U) ?U))) :pattern ((subtypes ?U (AsMutable_ ?T))) )))
-(assert (forall ((?o Int) (?T Int)) (! (=> (and (not (= ?o nullObject)) (not (= ?o BeingConstructed_)) (subtypes (typeof_ ?o) (AsImmutable_ ?T))) (forall ((?h Int)) (! (let ((?v_0 (typeof_ ?o))) (=> (= (IsHeap ?h) Smt.true) (and (= (select2 ?h ?o inv_) ?v_0) (= (select2 ?h ?o localinv_) ?v_0) (= (select2 ?h ?o ownerFrame_) PeerGroupPlaceholder_) (= (AsOwner ?o (select2 ?h ?o ownerRef_)) ?o) (forall ((?t Int)) (! (=> (= (AsOwner ?o (select2 ?h ?t ownerRef_)) ?o) (or (= ?t ?o) (not (= (select2 ?h ?t ownerFrame_) PeerGroupPlaceholder_)))) :pattern ((AsOwner ?o (select2 ?h ?t ownerRef_))) ))))) :pattern ((IsHeap ?h)) ))) :pattern ((subtypes (typeof_ ?o) (AsImmutable_ ?T))) )))
-(assert (forall ((?s Int)) (! (<= 0 (StringLength_ ?s)) :pattern ((StringLength_ ?s)) )))
-(assert (forall ((?h Int) (?o Int) (?f Int) (?T Int)) (! (let ((?v_0 (select2 ?h ?o (AsRepField ?f ?T)))) (=> (and (= (IsHeap ?h) Smt.true) (not (= ?v_0 nullObject))) (and (= (select2 ?h ?v_0 ownerRef_) ?o) (= (select2 ?h ?v_0 ownerFrame_) ?T)))) :pattern ((select2 ?h ?o (AsRepField ?f ?T))) )))
-(assert (forall ((?h Int) (?o Int) (?f Int)) (! (let ((?v_0 (select2 ?h ?o (AsPeerField ?f)))) (=> (and (= (IsHeap ?h) Smt.true) (not (= ?v_0 nullObject))) (and (= (select2 ?h ?v_0 ownerRef_) (select2 ?h ?o ownerRef_)) (= (select2 ?h ?v_0 ownerFrame_) (select2 ?h ?o ownerFrame_))))) :pattern ((select2 ?h ?o (AsPeerField ?f))) )))
-(assert (forall ((?h Int) (?o Int)) (let ((?v_0 (select2 ?h ?o ownerFrame_)) (?v_1 (select2 ?h ?o ownerRef_)) (?v_2 (typeof_ ?o))) (=> (and (= (IsHeap ?h) Smt.true) (not (= ?v_0 PeerGroupPlaceholder_)) (subtypes (select2 ?h ?v_1 inv_) ?v_0) (not (= (select2 ?h ?v_1 localinv_) (BaseClass_ ?v_0)))) (and (= (select2 ?h ?o inv_) ?v_2) (= (select2 ?h ?o localinv_) ?v_2))))))
-(assert (forall ((?o Int) (?f Int) (?h Int)) (! (let ((?v_0 (select2 ?h ?o ownerFrame_)) (?v_1 (select2 ?h ?o ownerRef_))) (=> (and (= (IsHeap ?h) Smt.true) (not (= ?o nullObject)) (= (= (select2 ?h ?o allocated_) Smt.true) true) (not (= ?v_0 PeerGroupPlaceholder_)) (subtypes (select2 ?h ?v_1 inv_) ?v_0) (not (= (select2 ?h ?v_1 localinv_) (BaseClass_ ?v_0)))) (= (select2 ?h ?o ?f) (FieldDependsOnFCO_ ?o ?f (select2 ?h (select2 ?h ?o FirstConsistentOwner_) exposeVersion_))))) :pattern ((select2 ?h (AsPureObject_ ?o) ?f)) )))
-(assert (forall ((?o Int) (?h Int)) (! (let ((?v_0 (select2 ?h ?o ownerFrame_)) (?v_1 (select2 ?h ?o ownerRef_)) (?v_2 (select2 ?h ?o FirstConsistentOwner_))) (let ((?v_3 (select2 ?h ?v_2 ownerFrame_)) (?v_4 (select2 ?h ?v_2 ownerRef_))) (=> (and (= (IsHeap ?h) Smt.true) (not (= ?o nullObject)) (= (= (select2 ?h ?o allocated_) Smt.true) true) (not (= ?v_0 PeerGroupPlaceholder_)) (subtypes (select2 ?h ?v_1 inv_) ?v_0) (not (= (select2 ?h ?v_1 localinv_) (BaseClass_ ?v_0)))) (and (not (= ?v_2 nullObject)) (= (= (select2 ?h ?v_2 allocated_) Smt.true) true) (or (= ?v_3 PeerGroupPlaceholder_) (not (subtypes (select2 ?h ?v_4 inv_) ?v_3)) (= (select2 ?h ?v_4 localinv_) (BaseClass_ ?v_3))))))) :pattern ((select2 ?h ?o FirstConsistentOwner_)) )))
-(assert (forall ((?x Int) (?p Int)) (! (= (Unbox (Box ?x ?p)) ?x) :pattern ((Unbox (Box ?x ?p))) )))
-(assert (forall ((?p Int)) (! (=> (= (IsValueType_ (UnboxedType ?p)) Smt.true) (forall ((?heap Int) (?x Int)) (let ((?v_0 (Box ?x ?p))) (let ((?v_1 (typeof_ ?v_0))) (=> (= (IsHeap ?heap) Smt.true) (and (= (select2 ?heap ?v_0 inv_) ?v_1) (= (select2 ?heap ?v_0 localinv_) ?v_1))))))) :pattern ((IsValueType_ (UnboxedType ?p))) )))
-(assert (forall ((?x Int) (?p Int)) (let ((?v_0 (Box ?x ?p))) (=> (and (subtypes (UnboxedType ?v_0) System.Object) (= ?v_0 ?p)) (= ?x ?p)))))
-(assert (forall ((?p Int) (?typ Int)) (! (= (= (UnboxedType ?p) ?typ) (not (= (BoxTester ?p ?typ) nullObject))) :pattern ((BoxTester ?p ?typ)) )))
-(assert (= (IsValueType_ System.SByte) Smt.true))
-(assert (= (IsValueType_ System.Byte) Smt.true))
-(assert (= (IsValueType_ System.Int16) Smt.true))
-(assert (= (IsValueType_ System.UInt16) Smt.true))
-(assert (= (IsValueType_ System.Int32) Smt.true))
-(assert (= (IsValueType_ System.UInt32) Smt.true))
-(assert (= (IsValueType_ System.Int64) Smt.true))
-(assert (= (IsValueType_ System.UInt64) Smt.true))
-(assert (= (IsValueType_ System.Char) Smt.true))
-(assert (< int_m9223372036854775808 int_m2147483648))
-(assert (< int_m2147483648 (- 0 100000)))
-(assert (< 100000 int_2147483647))
-(assert (< int_2147483647 int_4294967295))
-(assert (< int_4294967295 int_9223372036854775807))
-(assert (< int_9223372036854775807 int_18446744073709551615))
-(assert (forall ((?i Int)) (= (InRange ?i System.SByte) (and (<= (- 0 128) ?i) (< ?i 128)))))
-(assert (forall ((?i Int)) (= (InRange ?i System.Byte) (and (<= 0 ?i) (< ?i 256)))))
-(assert (forall ((?i Int)) (= (InRange ?i System.Int16) (and (<= (- 0 32768) ?i) (< ?i 32768)))))
-(assert (forall ((?i Int)) (= (InRange ?i System.UInt16) (and (<= 0 ?i) (< ?i 65536)))))
-(assert (forall ((?i Int)) (= (InRange ?i System.Int32) (and (<= int_m2147483648 ?i) (<= ?i int_2147483647)))))
-(assert (forall ((?i Int)) (= (InRange ?i System.UInt32) (and (<= 0 ?i) (<= ?i int_4294967295)))))
-(assert (forall ((?i Int)) (= (InRange ?i System.Int64) (and (<= int_m9223372036854775808 ?i) (<= ?i int_9223372036854775807)))))
-(assert (forall ((?i Int)) (= (InRange ?i System.UInt64) (and (<= 0 ?i) (<= ?i int_18446744073709551615)))))
-(assert (forall ((?i Int)) (= (InRange ?i System.Char) (and (<= 0 ?i) (< ?i 65536)))))
-(assert (forall ((?b Int) (?x Int) (?y Int)) (! (=> (= ?b Smt.true) (= (IfThenElse_ ?b ?x ?y) ?x)) :pattern ((IfThenElse_ ?b ?x ?y)) )))
-(assert (forall ((?b Int) (?x Int) (?y Int)) (! (=> (not (= ?b Smt.true)) (= (IfThenElse_ ?b ?x ?y) ?y)) :pattern ((IfThenElse_ ?b ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (= (modulo ?x ?y) (- ?x (multiply (divide ?x ?y) ?y))) :pattern ((modulo ?x ?y))  :pattern ((divide ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (let ((?v_0 (modulo ?x ?y))) (=> (and (<= 0 ?x) (< 0 ?y)) (and (<= 0 ?v_0) (< ?v_0 ?y)))) :pattern ((modulo ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (let ((?v_0 (modulo ?x ?y))) (=> (and (<= 0 ?x) (< ?y 0)) (and (<= 0 ?v_0) (< ?v_0 (- 0 ?y))))) :pattern ((modulo ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (let ((?v_0 (modulo ?x ?y))) (=> (and (<= ?x 0) (< 0 ?y)) (and (< (- 0 ?y) ?v_0) (<= ?v_0 0)))) :pattern ((modulo ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (let ((?v_0 (modulo ?x ?y))) (=> (and (<= ?x 0) (< ?y 0)) (and (< ?y ?v_0) (<= ?v_0 0)))) :pattern ((modulo ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (=> (and (<= 0 ?x) (<= 0 ?y)) (= (modulo (+ ?x ?y) ?y) (modulo ?x ?y)))))
-(assert (forall ((?x Int) (?y Int)) (=> (and (<= 0 ?x) (<= 0 ?y)) (= (modulo (+ ?y ?x) ?y) (modulo ?x ?y)))))
-(assert (forall ((?x Int) (?y Int)) (let ((?v_0 (- ?x ?y))) (=> (and (<= 0 ?v_0) (<= 0 ?y)) (= (modulo ?v_0 ?y) (modulo ?x ?y))))))
-(assert (forall ((?a Int) (?b Int) (?d Int)) (! (=> (and (<= 2 ?d) (= (modulo ?a ?d) (modulo ?b ?d)) (< ?a ?b)) (<= (+ ?a ?d) ?b)) :pattern ((modulo ?a ?d) (modulo ?b ?d)) )))
-(assert (forall ((?x Int) (?y Int)) (! (=> (or (<= 0 ?x) (<= 0 ?y)) (<= 0 (and_ ?x ?y))) :pattern ((and_ ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (let ((?v_0 (or_ ?x ?y))) (=> (and (<= 0 ?x) (<= 0 ?y)) (and (<= 0 ?v_0) (<= ?v_0 (+ ?x ?y))))) :pattern ((or_ ?x ?y)) )))
-(assert (forall ((?i Int)) (! (= (shl_ ?i 0) ?i) :pattern ((shl_ ?i 0)) )))
-(assert (forall ((?i Int) (?j Int)) (=> (<= 0 ?j) (= (shl_ ?i (+ ?j 1)) (* (shl_ ?i ?j) 2)))))
-(assert (forall ((?i Int)) (! (= (shr_ ?i 0) ?i) :pattern ((shr_ ?i 0)) )))
-(assert (forall ((?i Int) (?j Int)) (=> (<= 0 ?j) (= (shr_ ?i (+ ?j 1)) (divide (shr_ ?i ?j) 2)))))
-(assert (forall ((?a Int) (?b Int)) (! (= (= (System.String.Equals_System.String_ ?a ?b) Smt.true) (= (System.String.Equals_System.String_System.String_ ?a ?b) Smt.true)) :pattern ((System.String.Equals_System.String_ ?a ?b)) )))
-(assert (forall ((?a Int) (?b Int)) (! (= (= (System.String.Equals_System.String_System.String_ ?a ?b) Smt.true) (= (System.String.Equals_System.String_System.String_ ?b ?a) Smt.true)) :pattern ((System.String.Equals_System.String_System.String_ ?a ?b)) )))
-(assert (forall ((?a Int) (?b Int)) (! (=> (and (not (= ?a nullObject)) (not (= ?b nullObject)) (= (System.String.Equals_System.String_System.String_ ?a ?b) Smt.true)) (= (System.String.IsInterned_System.String_notnull_ ?a) (System.String.IsInterned_System.String_notnull_ ?b))) :pattern ((System.String.Equals_System.String_System.String_ ?a ?b)) )))
-(assert (not (= (IsStaticField AdditiveMethods.amPeer) Smt.true)))
-(assert (= (IsDirectlyModifiableField AdditiveMethods.amPeer) Smt.true))
-(assert (= (AsPeerField AdditiveMethods.amPeer) AdditiveMethods.amPeer))
-(assert (= (DeclType AdditiveMethods.amPeer) AdditiveMethods))
-(assert (= (AsRefField AdditiveMethods.amPeer AdditiveMethods) AdditiveMethods.amPeer))
-(assert (not (= (IsStaticField AdditiveMethods.amRep) Smt.true)))
-(assert (= (IsDirectlyModifiableField AdditiveMethods.amRep) Smt.true))
-(assert (= (AsRepField AdditiveMethods.amRep AdditiveMethods) AdditiveMethods.amRep))
-(assert (= (DeclType AdditiveMethods.amRep) AdditiveMethods))
-(assert (= (AsRefField AdditiveMethods.amRep AdditiveMethods) AdditiveMethods.amRep))
-(assert (not (= (IsStaticField OwnedResults.x) Smt.true)))
-(assert (= (IsDirectlyModifiableField OwnedResults.x) Smt.true))
-(assert (= (AsRepField OwnedResults.x OwnedResults) OwnedResults.x))
-(assert (= (DeclType OwnedResults.x) OwnedResults))
-(assert (= (AsRefField OwnedResults.x T) OwnedResults.x))
-(assert (not (= (IsStaticField OwnedResults.y) Smt.true)))
-(assert (= (IsDirectlyModifiableField OwnedResults.y) Smt.true))
-(assert (= (AsPeerField OwnedResults.y) OwnedResults.y))
-(assert (= (DeclType OwnedResults.y) OwnedResults))
-(assert (= (AsRefField OwnedResults.y T) OwnedResults.y))
-(assert (subtypes AdditiveMethods AdditiveMethods))
-(assert (= (BaseClass_ AdditiveMethods) System.Object))
-(assert (subtypes AdditiveMethods (BaseClass_ AdditiveMethods)))
-(assert (= (AsDirectSubClass AdditiveMethods (BaseClass_ AdditiveMethods)) AdditiveMethods))
-(assert (not (= (IsImmutable_ AdditiveMethods) Smt.true)))
-(assert (= (AsMutable_ AdditiveMethods) AdditiveMethods))
-(assert (subtypes System.Type System.Type))
-(assert (subtypes System.Reflection.MemberInfo System.Reflection.MemberInfo))
-(assert (= (BaseClass_ System.Reflection.MemberInfo) System.Object))
-(assert (subtypes System.Reflection.MemberInfo (BaseClass_ System.Reflection.MemberInfo)))
-(assert (= (AsDirectSubClass System.Reflection.MemberInfo (BaseClass_ System.Reflection.MemberInfo)) System.Reflection.MemberInfo))
-(assert (= (IsImmutable_ System.Reflection.MemberInfo) Smt.true))
-(assert (= (AsImmutable_ System.Reflection.MemberInfo) System.Reflection.MemberInfo))
-(assert (subtypes System.Reflection.ICustomAttributeProvider System.Object))
-(assert (= (IsMemberlessType_ System.Reflection.ICustomAttributeProvider) Smt.true))
-(assert (subtypes System.Reflection.MemberInfo System.Reflection.ICustomAttributeProvider))
-(assert (subtypes System.Runtime.InteropServices._MemberInfo System.Object))
-(assert (= (IsMemberlessType_ System.Runtime.InteropServices._MemberInfo) Smt.true))
-(assert (subtypes System.Reflection.MemberInfo System.Runtime.InteropServices._MemberInfo))
-(assert (= (IsMemberlessType_ System.Reflection.MemberInfo) Smt.true))
-(assert (= (BaseClass_ System.Type) System.Reflection.MemberInfo))
-(assert (subtypes System.Type (BaseClass_ System.Type)))
-(assert (= (AsDirectSubClass System.Type (BaseClass_ System.Type)) System.Type))
-(assert (= (IsImmutable_ System.Type) Smt.true))
-(assert (= (AsImmutable_ System.Type) System.Type))
-(assert (subtypes System.Runtime.InteropServices._Type System.Object))
-(assert (= (IsMemberlessType_ System.Runtime.InteropServices._Type) Smt.true))
-(assert (subtypes System.Type System.Runtime.InteropServices._Type))
-(assert (subtypes System.Reflection.IReflect System.Object))
-(assert (= (IsMemberlessType_ System.Reflection.IReflect) Smt.true))
-(assert (subtypes System.Type System.Reflection.IReflect))
-(assert (= (IsMemberlessType_ System.Type) Smt.true))
-(assert (subtypes Sub Sub))
-(assert (= (BaseClass_ Sub) AdditiveMethods))
-(assert (subtypes Sub (BaseClass_ Sub)))
-(assert (= (AsDirectSubClass Sub (BaseClass_ Sub)) Sub))
-(assert (not (= (IsImmutable_ Sub) Smt.true)))
-(assert (= (AsMutable_ Sub) Sub))
-(assert (subtypes OwnedResults OwnedResults))
-(assert (= (BaseClass_ OwnedResults) System.Object))
-(assert (subtypes OwnedResults (BaseClass_ OwnedResults)))
-(assert (= (AsDirectSubClass OwnedResults (BaseClass_ OwnedResults)) OwnedResults))
-(assert (not (= (IsImmutable_ OwnedResults) Smt.true)))
-(assert (= (AsMutable_ OwnedResults) OwnedResults))
-(assert (subtypes T T))
-(assert (= (BaseClass_ T) System.Object))
-(assert (subtypes T (BaseClass_ T)))
-(assert (= (AsDirectSubClass T (BaseClass_ T)) T))
-(assert (not (= (IsImmutable_ T) Smt.true)))
-(assert (= (AsMutable_ T) T))
-(assert (forall ((?Heap_ Int) (?this Int)) (! (let ((?v_0 (OwnedResults.Mz_ ?Heap_ ?this))) (=> (and (= (IsHeap ?Heap_) Smt.true) (forall ((?pc_ Int)) (let ((?v_1 (typeof_ ?pc_))) (=> (and (not (= ?pc_ nullObject)) (= (= (select2 ?Heap_ ?pc_ allocated_) Smt.true) true) (= (select2 ?Heap_ ?pc_ ownerRef_) (select2 ?Heap_ ?this ownerRef_)) (= (select2 ?Heap_ ?pc_ ownerFrame_) (select2 ?Heap_ ?this ownerFrame_))) (and (= (select2 ?Heap_ ?pc_ inv_) ?v_1) (= (select2 ?Heap_ ?pc_ localinv_) ?v_1)))))) (and (= (= (select2 ?Heap_ ?v_0 allocated_) Smt.true) true) (= (Is_ ?v_0 T) Smt.true) (or (= ?v_0 nullObject) (forall ((?pc_ Int)) (let ((?v_2 (typeof_ ?pc_))) (=> (and (not (= ?pc_ nullObject)) (= (= (select2 ?Heap_ ?pc_ allocated_) Smt.true) true) (= (select2 ?Heap_ ?pc_ ownerRef_) (select2 ?Heap_ ?v_0 ownerRef_)) (= (select2 ?Heap_ ?pc_ ownerFrame_) (select2 ?Heap_ ?v_0 ownerFrame_))) (and (= (select2 ?Heap_ ?pc_ inv_) ?v_2) (= (select2 ?Heap_ ?pc_ localinv_) ?v_2)))))) (= ?v_0 (select2 ?Heap_ ?this OwnedResults.x))))) :pattern ((OwnedResults.Mz_ ?Heap_ ?this)) )))
-(assert (forall ((?Heap_ Int) (?this Int)) (! (let ((?v_0 (OwnedResults.Pz_ ?Heap_ ?this))) (=> (and (= (IsHeap ?Heap_) Smt.true) (forall ((?pc_ Int)) (let ((?v_1 (typeof_ ?pc_))) (=> (and (not (= ?pc_ nullObject)) (= (= (select2 ?Heap_ ?pc_ allocated_) Smt.true) true) (= (select2 ?Heap_ ?pc_ ownerRef_) (select2 ?Heap_ ?this ownerRef_)) (= (select2 ?Heap_ ?pc_ ownerFrame_) (select2 ?Heap_ ?this ownerFrame_))) (and (= (select2 ?Heap_ ?pc_ inv_) ?v_1) (= (select2 ?Heap_ ?pc_ localinv_) ?v_1)))))) (and (= (= (select2 ?Heap_ ?v_0 allocated_) Smt.true) true) (= (Is_ ?v_0 T) Smt.true) (or (= ?v_0 nullObject) (forall ((?pc_ Int)) (let ((?v_2 (typeof_ ?pc_))) (=> (and (not (= ?pc_ nullObject)) (= (= (select2 ?Heap_ ?pc_ allocated_) Smt.true) true) (= (select2 ?Heap_ ?pc_ ownerRef_) (select2 ?Heap_ ?v_0 ownerRef_)) (= (select2 ?Heap_ ?pc_ ownerFrame_) (select2 ?Heap_ ?v_0 ownerFrame_))) (and (= (select2 ?Heap_ ?pc_ inv_) ?v_2) (= (select2 ?Heap_ ?pc_ localinv_) ?v_2)))))) (= ?v_0 (select2 ?Heap_ ?this OwnedResults.x))))) :pattern ((OwnedResults.Pz_ ?Heap_ ?this)) )))
-(assert (forall ((?Heap_ Int) (?this Int)) (! (let ((?v_0 (typeof_ ?this))) (=> (and (not (= ?this nullObject)) (subtypes ?v_0 OwnedResults) (= (select2 ?Heap_ ?this inv_) ?v_0) (= (select2 ?Heap_ ?this localinv_) ?v_0) (= (IsHeap ?Heap_) Smt.true) (= (= (select2 ?Heap_ ?this allocated_) Smt.true) true)) (= (OwnedResults.Pz_ ?Heap_ ?this) (OwnedResults.Pz_.1 (select2 ?Heap_ ?this exposeVersion_))))) :pattern ((OwnedResults.Pz_ ?Heap_ ?this)) )))
-(assert (forall ((?Heap_ Int) (?this Int)) (! (let ((?v_0 (OwnedResults.Pw_ ?Heap_ ?this))) (=> (and (= (IsHeap ?Heap_) Smt.true) (forall ((?pc_ Int)) (let ((?v_1 (typeof_ ?pc_))) (=> (and (not (= ?pc_ nullObject)) (= (= (select2 ?Heap_ ?pc_ allocated_) Smt.true) true) (= (select2 ?Heap_ ?pc_ ownerRef_) (select2 ?Heap_ ?this ownerRef_)) (= (select2 ?Heap_ ?pc_ ownerFrame_) (select2 ?Heap_ ?this ownerFrame_))) (and (= (select2 ?Heap_ ?pc_ inv_) ?v_1) (= (select2 ?Heap_ ?pc_ localinv_) ?v_1)))))) (and (= (= (select2 ?Heap_ ?v_0 allocated_) Smt.true) true) (= (Is_ ?v_0 T) Smt.true) (or (= ?v_0 nullObject) (forall ((?pc_ Int)) (let ((?v_2 (typeof_ ?pc_))) (=> (and (not (= ?pc_ nullObject)) (= (= (select2 ?Heap_ ?pc_ allocated_) Smt.true) true) (= (select2 ?Heap_ ?pc_ ownerRef_) (select2 ?Heap_ ?v_0 ownerRef_)) (= (select2 ?Heap_ ?pc_ ownerFrame_) (select2 ?Heap_ ?v_0 ownerFrame_))) (and (= (select2 ?Heap_ ?pc_ inv_) ?v_2) (= (select2 ?Heap_ ?pc_ localinv_) ?v_2)))))) (= ?v_0 (select2 ?Heap_ ?this OwnedResults.y))))) :pattern ((OwnedResults.Pw_ ?Heap_ ?this)) )))
-(assert (forall ((?Heap_ Int) (?this Int)) (! (let ((?v_0 (typeof_ ?this))) (=> (and (not (= ?this nullObject)) (subtypes ?v_0 OwnedResults) (= (select2 ?Heap_ ?this inv_) ?v_0) (= (select2 ?Heap_ ?this localinv_) ?v_0) (= (IsHeap ?Heap_) Smt.true) (= (= (select2 ?Heap_ ?this allocated_) Smt.true) true)) (= (OwnedResults.Pw_ ?Heap_ ?this) (OwnedResults.Pw_.1 (select2 ?Heap_ ?this exposeVersion_))))) :pattern ((OwnedResults.Pw_ ?Heap_ ?this)) )))
-(assert (forall ((?Heap_ Int) (?this Int) (?k_in Int)) (! (let ((?v_0 (OwnedResults.Qz_System.Int32_ ?Heap_ ?this ?k_in))) (=> (and (= (IsHeap ?Heap_) Smt.true) (InRange ?k_in System.Int32) (forall ((?pc_ Int)) (let ((?v_1 (typeof_ ?pc_))) (=> (and (not (= ?pc_ nullObject)) (= (= (select2 ?Heap_ ?pc_ allocated_) Smt.true) true) (= (select2 ?Heap_ ?pc_ ownerRef_) (select2 ?Heap_ ?this ownerRef_)) (= (select2 ?Heap_ ?pc_ ownerFrame_) (select2 ?Heap_ ?this ownerFrame_))) (and (= (select2 ?Heap_ ?pc_ inv_) ?v_1) (= (select2 ?Heap_ ?pc_ localinv_) ?v_1)))))) (and (= (= (select2 ?Heap_ ?v_0 allocated_) Smt.true) true) (= (Is_ ?v_0 T) Smt.true) (or (= ?v_0 nullObject) (forall ((?pc_ Int)) (let ((?v_2 (typeof_ ?pc_))) (=> (and (not (= ?pc_ nullObject)) (= (= (select2 ?Heap_ ?pc_ allocated_) Smt.true) true) (= (select2 ?Heap_ ?pc_ ownerRef_) (select2 ?Heap_ ?v_0 ownerRef_)) (= (select2 ?Heap_ ?pc_ ownerFrame_) (select2 ?Heap_ ?v_0 ownerFrame_))) (and (= (select2 ?Heap_ ?pc_ inv_) ?v_2) (= (select2 ?Heap_ ?pc_ localinv_) ?v_2))))))))) :pattern ((OwnedResults.Qz_System.Int32_ ?Heap_ ?this ?k_in)) )))
-(assert (forall ((?Heap_ Int) (?this Int) (?k_in Int)) (! (let ((?v_0 (typeof_ ?this))) (=> (and (not (= ?this nullObject)) (subtypes ?v_0 OwnedResults) (= (select2 ?Heap_ ?this inv_) ?v_0) (= (select2 ?Heap_ ?this localinv_) ?v_0) (= (IsHeap ?Heap_) Smt.true) (= (= (select2 ?Heap_ ?this allocated_) Smt.true) true)) (= (OwnedResults.Qz_System.Int32_ ?Heap_ ?this ?k_in) (OwnedResults.Qz_System.Int32_.1 (select2 ?Heap_ ?this exposeVersion_) ?k_in)))) :pattern ((OwnedResults.Qz_System.Int32_ ?Heap_ ?this ?k_in)) )))
-(assert (forall ((?U_ Int)) (! (=> (subtypes ?U_ System.Boolean) (= ?U_ System.Boolean)) :pattern ((subtypes ?U_ System.Boolean)) )))
-(assert (forall ((?Heap_ Int)) (! (let ((?v_0 (OwnedResults.Static0_ ?Heap_))) (=> (= (IsHeap ?Heap_) Smt.true) (and (= (= (select2 ?Heap_ ?v_0 allocated_) Smt.true) true) (= (IsNotNull_ ?v_0 T) Smt.true) (forall ((?pc_ Int)) (let ((?v_1 (typeof_ ?pc_))) (=> (and (not (= ?pc_ nullObject)) (= (= (select2 ?Heap_ ?pc_ allocated_) Smt.true) true) (= (select2 ?Heap_ ?pc_ ownerRef_) (select2 ?Heap_ ?v_0 ownerRef_)) (= (select2 ?Heap_ ?pc_ ownerFrame_) (select2 ?Heap_ ?v_0 ownerFrame_))) (and (= (select2 ?Heap_ ?pc_ inv_) ?v_1) (= (select2 ?Heap_ ?pc_ localinv_) ?v_1)))))))) :pattern ((OwnedResults.Static0_ ?Heap_)) )))
-(assert (forall ((?Heap_ Int)) (! (let ((?v_0 (OwnedResults.Static1_ ?Heap_))) (=> (= (IsHeap ?Heap_) Smt.true) (and (= (= (select2 ?Heap_ ?v_0 allocated_) Smt.true) true) (= (IsNotNull_ ?v_0 T) Smt.true) (forall ((?pc_ Int)) (let ((?v_1 (typeof_ ?pc_))) (=> (and (not (= ?pc_ nullObject)) (= (= (select2 ?Heap_ ?pc_ allocated_) Smt.true) true) (= (select2 ?Heap_ ?pc_ ownerRef_) (select2 ?Heap_ ?v_0 ownerRef_)) (= (select2 ?Heap_ ?pc_ ownerFrame_) (select2 ?Heap_ ?v_0 ownerFrame_))) (and (= (select2 ?Heap_ ?pc_ inv_) ?v_1) (= (select2 ?Heap_ ?pc_ localinv_) ?v_1)))))))) :pattern ((OwnedResults.Static1_ ?Heap_)) )))
-(assert (=> true (= (IsNotNull_ OwnedResults.Static2_ T) Smt.true)))
-(assert (forall ((?A Int) (?i Int) (?v Int)) (= (select1 (store1 ?A ?i ?v) ?i) ?v)))
-(assert (forall ((?A Int) (?i Int) (?j Int) (?v Int)) (=> (not (= ?i ?j)) (= (select1 (store1 ?A ?i ?v) ?j) (select1 ?A ?j)))))
-(assert (forall ((?A Int) (?o Int) (?f Int) (?v Int)) (= (select2 (store2 ?A ?o ?f ?v) ?o ?f) ?v)))
-(assert (forall ((?A Int) (?o Int) (?f Int) (?p Int) (?g Int) (?v Int)) (=> (not (= ?o ?p)) (= (select2 (store2 ?A ?o ?f ?v) ?p ?g) (select2 ?A ?p ?g)))))
-(assert (forall ((?A Int) (?o Int) (?f Int) (?p Int) (?g Int) (?v Int)) (=> (not (= ?f ?g)) (= (select2 (store2 ?A ?o ?f ?v) ?p ?g) (select2 ?A ?p ?g)))))
-(assert (forall ((?x Int) (?y Int)) (= (= (boolIff ?x ?y) Smt.true) (= (= ?x Smt.true) (= ?y Smt.true)))))
-(assert (forall ((?x Int) (?y Int)) (= (= (boolImplies ?x ?y) Smt.true) (=> (= ?x Smt.true) (= ?y Smt.true)))))
-(assert (forall ((?x Int) (?y Int)) (= (= (boolAnd ?x ?y) Smt.true) (and (= ?x Smt.true) (= ?y Smt.true)))))
-(assert (forall ((?x Int) (?y Int)) (= (= (boolOr ?x ?y) Smt.true) (or (= ?x Smt.true) (= ?y Smt.true)))))
-(assert (forall ((?x Int)) (! (= (= (boolNot ?x) Smt.true) (not (= ?x Smt.true))) :pattern ((boolNot ?x)) )))
-(assert (forall ((?x Int) (?y Int)) (= (= (anyEqual ?x ?y) Smt.true) (= ?x ?y))))
-(assert (forall ((?x Int) (?y Int)) (! (= (= (anyNeq ?x ?y) Smt.true) (not (= ?x ?y))) :pattern ((anyNeq ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (= (= (intLess ?x ?y) Smt.true) (< ?x ?y))))
-(assert (forall ((?x Int) (?y Int)) (= (= (intAtMost ?x ?y) Smt.true) (<= ?x ?y))))
-(assert (forall ((?x Int) (?y Int)) (= (= (intAtLeast ?x ?y) Smt.true) (>= ?x ?y))))
-(assert (forall ((?x Int) (?y Int)) (= (= (intGreater ?x ?y) Smt.true) (> ?x ?y))))
-(assert (distinct Smt.false Smt.true))
-(assert (forall ((?t Int)) (! (subtypes ?t ?t) :pattern ((subtypes ?t ?t)) )))
-(assert (forall ((?t Int) (?u Int) (?v Int)) (! (=> (and (subtypes ?t ?u) (subtypes ?u ?v)) (subtypes ?t ?v)) :pattern ((subtypes ?t ?u) (subtypes ?u ?v)) )))
-(assert (forall ((?t Int) (?u Int)) (! (=> (and (subtypes ?t ?u) (subtypes ?u ?t)) (= ?t ?u)) :pattern ((subtypes ?t ?u) (subtypes ?u ?t)) )))
-(assert (let ((?v_0 (not (= this nullObject))) (?v_1 (forall ((?o_ Int)) (let ((?v_10 (select2 Heap_ ?o_ ownerRef_)) (?v_11 (select2 Heap_ ?o_ ownerFrame_))) (=> (and (not (= ?o_ nullObject)) (= (= (select2 Heap_ ?o_ allocated_) Smt.true) true)) (and (= ?v_10 ?v_10) (= ?v_11 ?v_11)))))) (?v_3 (= return.value_0 nullObject))) (let ((?v_2 (or ?v_3 (and (= (select2 Heap_ return.value_0 ownerRef_) this) (= (select2 Heap_ return.value_0 ownerFrame_) OwnedResults)))) (?v_4 (or ?v_3 (forall ((?pc_ Int)) (let ((?v_12 (typeof_ ?pc_))) (=> (and (not (= ?pc_ nullObject)) (= (= (select2 Heap_ ?pc_ allocated_) Smt.true) true) (= (select2 Heap_ ?pc_ ownerRef_) (select2 Heap_ return.value_0 ownerRef_)) (= (select2 Heap_ ?pc_ ownerFrame_) (select2 Heap_ return.value_0 ownerFrame_))) (and (= (select2 Heap_ ?pc_ inv_) ?v_12) (= (select2 Heap_ ?pc_ localinv_) ?v_12))))))) (?v_5 (= ReallyLastGeneratedExit_correct Smt.true)) (?v_6 (= block8840_correct Smt.true)) (?v_7 (= block8823_correct Smt.true)) (?v_8 (= block8806_correct Smt.true)) (?v_9 (= entry_correct Smt.true))) (not (=> (=> (=> true (=> (= (IsHeap Heap_) Smt.true) (=> (= BeingConstructed_ nullObject) (=> (= (AsPureObject_ this) this) (=> (forall ((?pc_ Int)) (let ((?v_13 (typeof_ ?pc_))) (=> (and (not (= ?pc_ nullObject)) (= (= (select2 Heap_ ?pc_ allocated_) Smt.true) true) (= (select2 Heap_ ?pc_ ownerRef_) (select2 Heap_ this ownerRef_)) (= (select2 Heap_ ?pc_ ownerFrame_) (select2 Heap_ this ownerFrame_))) (and (= (select2 Heap_ ?pc_ inv_) ?v_13) (= (select2 Heap_ ?pc_ localinv_) ?v_13))))) (=> true (=> (= (IsNotNull_ this OwnedResults) Smt.true) (=> (= (= (select2 Heap_ this allocated_) Smt.true) true) (=> true (=> (=> (=> true (=> true (=> true (=> (=> (=> true (=> true (and ?v_0 (=> ?v_0 (=> (= return.value_0 (select2 Heap_ this OwnedResults.x)) (=> true (=> (=> (=> true (=> true (=> true (=> (=> (=> true (and ?v_1 (=> ?v_1 (and ?v_2 (=> ?v_2 (and ?v_4 (=> ?v_4 (=> true true)))))))) ?v_5) ?v_5)))) ?v_6) ?v_6))))))) ?v_7) ?v_7)))) ?v_8) ?v_8)))))))))) ?v_9) ?v_9)))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/quantifiers/Arrays_Q1-noinfer.smt2 b/test/regress/regress0/quantifiers/Arrays_Q1-noinfer.smt2
deleted file mode 100644
index 3398f5f84..000000000
--- a/test/regress/regress0/quantifiers/Arrays_Q1-noinfer.smt2
+++ /dev/null
@@ -1,73 +0,0 @@
-(set-logic AUFLIA)
-(set-info :source | 
-  Boogie/Spec# benchmarks.
-  This benchmark was translated by Michal Moskal.
-|)
-(set-info :smt-lib-version 2.0)
-(set-info :category "industrial")
-(set-info :status unsat)
-(declare-fun InRange (Int Int) Bool)
-(declare-fun o () Int)
-(declare-fun q () Int)
-(declare-fun int_18446744073709551615 () Int)
-(declare-fun Smt.false () Int)
-(declare-fun anyEqual (Int Int) Int)
-(declare-fun y () Int)
-(declare-fun select1 (Int Int) Int)
-(declare-fun select2 (Int Int Int) Int)
-(declare-fun CONCVARSYM (Int) Int)
-(declare-fun divides (Int Int) Int)
-(declare-fun intAtMost (Int Int) Int)
-(declare-fun subtypes (Int Int) Bool)
-(declare-fun store1 (Int Int Int) Int)
-(declare-fun store2 (Int Int Int Int) Int)
-(declare-fun B_0 () Int)
-(declare-fun B_1 () Int)
-(declare-fun intAtLeast (Int Int) Int)
-(declare-fun int_2147483647 () Int)
-(declare-fun boolOr (Int Int) Int)
-(declare-fun ReallyLastGeneratedExit_correct () Int)
-(declare-fun int_m9223372036854775808 () Int)
-(declare-fun Smt.true () Int)
-(declare-fun int_4294967295 () Int)
-(declare-fun start_correct () Int)
-(declare-fun B () Int)
-(declare-fun F () Int)
-(declare-fun G () Int)
-(declare-fun boolAnd (Int Int) Int)
-(declare-fun boolNot (Int) Int)
-(declare-fun k_0 () Int)
-(declare-fun intLess (Int Int) Int)
-(declare-fun intGreater (Int Int) Int)
-(declare-fun anyNeq (Int Int) Int)
-(declare-fun is (Int Int) Int)
-(declare-fun int_m2147483648 () Int)
-(declare-fun modulo (Int Int) Int)
-(declare-fun boolImplies (Int Int) Int)
-(declare-fun boolIff (Int Int) Int)
-(declare-fun int_9223372036854775807 () Int)
-(assert true)
-(assert true)
-(assert (forall ((?A Int) (?i Int) (?v Int)) (= (select1 (store1 ?A ?i ?v) ?i) ?v)))
-(assert (forall ((?A Int) (?i Int) (?j Int) (?v Int)) (=> (not (= ?i ?j)) (= (select1 (store1 ?A ?i ?v) ?j) (select1 ?A ?j)))))
-(assert (forall ((?A Int) (?o Int) (?f Int) (?v Int)) (= (select2 (store2 ?A ?o ?f ?v) ?o ?f) ?v)))
-(assert (forall ((?A Int) (?o Int) (?f Int) (?p Int) (?g Int) (?v Int)) (=> (not (= ?o ?p)) (= (select2 (store2 ?A ?o ?f ?v) ?p ?g) (select2 ?A ?p ?g)))))
-(assert (forall ((?A Int) (?o Int) (?f Int) (?p Int) (?g Int) (?v Int)) (=> (not (= ?f ?g)) (= (select2 (store2 ?A ?o ?f ?v) ?p ?g) (select2 ?A ?p ?g)))))
-(assert (forall ((?x Int) (?y Int)) (= (= (boolIff ?x ?y) Smt.true) (= (= ?x Smt.true) (= ?y Smt.true)))))
-(assert (forall ((?x Int) (?y Int)) (= (= (boolImplies ?x ?y) Smt.true) (=> (= ?x Smt.true) (= ?y Smt.true)))))
-(assert (forall ((?x Int) (?y Int)) (= (= (boolAnd ?x ?y) Smt.true) (and (= ?x Smt.true) (= ?y Smt.true)))))
-(assert (forall ((?x Int) (?y Int)) (= (= (boolOr ?x ?y) Smt.true) (or (= ?x Smt.true) (= ?y Smt.true)))))
-(assert (forall ((?x Int)) (! (= (= (boolNot ?x) Smt.true) (not (= ?x Smt.true))) :pattern ((boolNot ?x)) )))
-(assert (forall ((?x Int) (?y Int)) (= (= (anyEqual ?x ?y) Smt.true) (= ?x ?y))))
-(assert (forall ((?x Int) (?y Int)) (! (= (= (anyNeq ?x ?y) Smt.true) (not (= ?x ?y))) :pattern ((anyNeq ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (= (= (intLess ?x ?y) Smt.true) (< ?x ?y))))
-(assert (forall ((?x Int) (?y Int)) (= (= (intAtMost ?x ?y) Smt.true) (<= ?x ?y))))
-(assert (forall ((?x Int) (?y Int)) (= (= (intAtLeast ?x ?y) Smt.true) (>= ?x ?y))))
-(assert (forall ((?x Int) (?y Int)) (= (= (intGreater ?x ?y) Smt.true) (> ?x ?y))))
-(assert (distinct Smt.false Smt.true))
-(assert (forall ((?t Int)) (! (subtypes ?t ?t) :pattern ((subtypes ?t ?t)) )))
-(assert (forall ((?t Int) (?u Int) (?v Int)) (! (=> (and (subtypes ?t ?u) (subtypes ?u ?v)) (subtypes ?t ?v)) :pattern ((subtypes ?t ?u) (subtypes ?u ?v)) )))
-(assert (forall ((?t Int) (?u Int)) (! (=> (and (subtypes ?t ?u) (subtypes ?u ?t)) (= ?t ?u)) :pattern ((subtypes ?t ?u) (subtypes ?u ?t)) )))
-(assert (let ((?v_0 (forall ((?p Int) (?f Int)) (or (= (select2 B_1 ?p ?f) (select2 B ?p ?f)) (and (= ?p o) (= ?f F))))) (?v_1 (= ReallyLastGeneratedExit_correct Smt.true)) (?v_2 (= start_correct Smt.true))) (not (=> (=> (=> true (=> (= k_0 (select2 B q G)) (=> (= B_0 (store2 B o F (+ y (select2 B o F)))) (=> (= B_1 (store2 B_0 q G k_0)) (=> (=> (=> true (and ?v_0 (=> ?v_0 (=> true true)))) ?v_1) ?v_1))))) ?v_2) ?v_2))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/quantifiers/Makefile.am b/test/regress/regress0/quantifiers/Makefile.am
index 64f8b6f16..1711c301e 100644
--- a/test/regress/regress0/quantifiers/Makefile.am
+++ b/test/regress/regress0/quantifiers/Makefile.am
@@ -22,138 +22,56 @@ TESTS =	\
 	bug269.smt2 \
 	bug290.smt2 \
 	bug291.smt2 \
-	Arrays_Q1-noinfer.smt2 \
-	bignum_quant.smt2 \
 	bug269.smt2 \
-	burns13.smt2 \
-	burns4.smt2 \
 	ex3.smt2 \
 	ex6.smt2 \
-	opisavailable-12.smt2 \
-	ricart-agrawala6.smt2 \
-	set8.smt2 \
-	smtlib384a03.smt2 \
-	smtlib46f14a.smt2 \
-	smtlibf957ea.smt2 \
-	gauss_init_0030.fof.smt2 \
-	qcft-javafe.filespace.TreeWalker.006.smt2 \
-	qcft-smtlib3dbc51.smt2 \
-	javafe.ast.StmtVec.009.smt2 \
 	ARI176e1.smt2 \
-	bi-artm-s.smt2 \
 	simp-typ-test.smt2 \
 	macros-int-real.smt2 \
-	stream-x2014-09-18-unsat.smt2 \
 	simp-len.smt2 \
-	is-even.smt2 \
 	is-even-pred.smt2 \
 	delta-simp.smt2  \
 	nested-delta.smt2 \
 	nested-inf.smt2 \
-	RND-small.smt2 \
 	clock-3.smt2 \
-	006-cbqi-ite.smt2 \
 	cbqi-lia-dt-simp.smt2 \
 	is-int.smt2 \
 	floor.smt2 \
-	array-unsat-simp3.smt2 \
 	mix-simp.smt2 \
-	mix-coeff.smt2 \
 	mix-match.smt2 \
 	ari056.smt2 \
-	ext-ex-deq-trigger.smt2 \
 	matching-lia-1arg.smt2 \
-	RND_4_16.smt2 \
-	cdt-0208-to.smt2 \
-	psyco-196.smt2 \
 	agg-rew-test.smt2 \
 	agg-rew-test-cf.smt2 \
-	rew-to-0211-dd.smt2 \
 	rew-to-scala.smt2 \
 	macros-real-arg.smt2 \
-	anti-sk-simp.smt2 \
 	pure_dt_cbqi.smt2 \
-	florian-case-ax.smt2 \
 	double-pattern.smt2 \
 	qcf-rel-dom-opt.smt2 \
-	parametric-lists.smt2 \
 	partial-trigger.smt2 \
-	inst-max-level-segf.smt2 \
-	z3.620661-no-fv-trigger.smt2 \
-	bug_743.smt2 \
-	quaternion_ds1_symm_0428.fof.smt2 \
 	bug749-rounding.smt2 \
-	RNDPRE_4_1-dd-nqe.smt2 \
 	mix-complete-strat.smt2 \
-	cbqi-sdlx-fixpoint-3-dd.smt2 \
 	qbv-simp.smt2 \
-	psyco-001-bv.smt2 \
-	bug822.smt2 \
-	qbv-disequality3.smt2 \
 	qbv-inequality2.smt2 \
-	qbv-simple-2vars-vo.smt2 \
 	qbv-test-invert-bvadd-neq.smt2 \
 	qbv-test-invert-bvand.smt2 \
 	qbv-test-invert-bvand-neq.smt2 \
-	qbv-test-invert-bvashr-0.smt2 \
 	qbv-test-invert-bvashr-0-neq.smt2 \
-	qbv-test-invert-bvashr-1.smt2 \
 	qbv-test-invert-bvashr-1-neq.smt2 \
 	qbv-test-invert-bvlshr-0.smt2 \
 	qbv-test-invert-bvlshr-0-neq.smt2 \
-	qbv-test-invert-bvlshr-1.smt2 \
 	qbv-test-invert-bvlshr-1-neq.smt2 \
-	qbv-test-invert-bvmul.smt2 \
-	qbv-test-invert-bvmul-neq.smt2 \
 	qbv-test-invert-bvor.smt2 \
 	qbv-test-invert-bvor-neq.smt2 \
 	qbv-test-invert-bvshl-0.smt2 \
-	qbv-test-invert-bvudiv-0.smt2 \
-	qbv-test-invert-bvudiv-0-neq.smt2 \
-	qbv-test-invert-bvudiv-1.smt2 \
-	qbv-test-invert-bvudiv-1-neq.smt2 \
 	qbv-test-invert-bvult-1.smt2 \
- 	qbv-test-invert-bvurem-1.smt2 \
-	qbv-test-invert-bvurem-1-neq.smt2 \
 	qbv-test-invert-bvxor.smt2 \
 	qbv-test-invert-bvxor-neq.smt2 \
 	qbv-test-invert-concat-0.smt2 \
 	qbv-test-invert-concat-1.smt2 \
 	qbv-test-invert-sign-extend.smt2 \
-	qbv-test-urem-rewrite.smt2 \
-	intersection-example-onelane.proof-node22337.smt2 \
- 	nested9_true-unreach-call.i_575.smt2 \
- 	small-pipeline-fixpoint-3.smt2 \
-	NUM878.smt2 \
-	psyco-107-bv.smt2 \
-	ari118-bv-2occ-x.smt2 \
-	extract-nproc.smt2 \
-	javafe.ast.StandardPrettyPrint.319.smt2 \
-	javafe.ast.StmtVec.009.smt2 \
-	javafe.ast.WhileStmt.447.smt2 \
 	clock-10.smt2 \
-	javafe.tc.FlowInsensitiveChecks.682.smt2 \
-	javafe.tc.CheckCompilationUnit.001.smt2 \
-	model_6_1_bv.smt2 \
 	lra-triv-gn.smt2
- 
-
-# regression can be solved with --finite-model-find --fmf-inst-engine
-# set3.smt2
-
-# disabled since bvcomp handling is currently disabled
-# qbv-test-invert-bvcomp.smt2
-
-# disabled, broken by variable elimination (was solved heuristically previously)
-# small-bug1-fixpoint-3.smt2 
-
-# removed because they take more than 20s
-#		javafe.ast.ArrayInit.35.smt2
-
-# FIXME: I've disabled these since they give different error messages on production and debug
-#	macro-subtype-param.smt2 
-#	subtype-param-unk.smt2 
-#	subtype-param.smt2 
 
 EXTRA_DIST = $(TESTS) \
 	bug291.smt2.expect
diff --git a/test/regress/regress0/quantifiers/NUM878.smt2 b/test/regress/regress0/quantifiers/NUM878.smt2
deleted file mode 100644
index 8d78bf861..000000000
--- a/test/regress/regress0/quantifiers/NUM878.smt2
+++ /dev/null
@@ -1,7 +0,0 @@
-; COMMAND-LINE: --cbqi-bv
-; EXPECT: unsat
-(set-logic BV)
-(set-info :status unsat)
-(assert (not (exists ((?X (_ BitVec 32))) (= (bvmul ?X ?X) ?X))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/quantifiers/RND-small.smt2 b/test/regress/regress0/quantifiers/RND-small.smt2
deleted file mode 100644
index cf5c3bc7e..000000000
--- a/test/regress/regress0/quantifiers/RND-small.smt2
+++ /dev/null
@@ -1,9 +0,0 @@
-; COMMAND-LINE: --no-check-models
-; EXPECT: sat
-(set-logic LRA)
-(declare-fun y1 () Real)
-(declare-fun y2 () Real)
-(declare-fun x1 () Real)
-(assert (forall ((?y1 Real)) (exists ((?y2 Real)) (or (and (>= (+ (+ (* 69 ?y2) (* (- 80) ?y1)) (* 48 x1)) (- 77)) (and (not (= (+ (* (- 1) ?y2) (* (- 48) x1)) 0)) (not (= (+ (* 14 ?y1) (* (- 98) x1)) 83)))) (and (and (<= (+ (+ (* (- 95) ?y2) (* 34 ?y1)) (* (- 54) x1)) 51) (= (+ (+ (* 27 ?y2) (* (- 17) ?y1)) (* 75 x1)) 24)) (not (= (+ (* (- 96) ?y1) (* 90 x1)) (- 39))))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/quantifiers/RNDPRE_4_1-dd-nqe.smt2 b/test/regress/regress0/quantifiers/RNDPRE_4_1-dd-nqe.smt2
deleted file mode 100644
index 6379d6cec..000000000
--- a/test/regress/regress0/quantifiers/RNDPRE_4_1-dd-nqe.smt2
+++ /dev/null
@@ -1,18 +0,0 @@
-; COMMAND-LINE: --cbqi-nested-qe
-; EXPECT: unsat
-(set-logic LRA)
-
-(declare-fun c () Real)
-
-(assert 
-(forall ((?x2 Real)) 
-(exists ((?x3 Real)) 
-(and
-(forall ((?x4 Real)) (or 
-(not (>= ?x4 4)) 
-(and (> c (+ ?x2 ?x3)) (> (+ c ?x3 ?x4) 0))) )
-(not (> (+ c ?x2 ?x3) 0)) )
-)) )
-
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/quantifiers/RND_4_16.smt2 b/test/regress/regress0/quantifiers/RND_4_16.smt2
deleted file mode 100644
index 2bdb1f56e..000000000
--- a/test/regress/regress0/quantifiers/RND_4_16.smt2
+++ /dev/null
@@ -1,10 +0,0 @@
-(set-logic LRA)
-(set-info :status unsat)
-(declare-fun y2 () Real)
-(declare-fun y3 () Real)
-(declare-fun y4 () Real)
-(declare-fun x1 () Real)
-(declare-fun y1 () Real)
-(assert (or (and (and (and (exists ((?y2 Real)) (or (forall ((?y3 Real)) (forall ((?y4 Real)) (or (< (+ (+ (* (- 53) ?y4) (* 77 ?y3)) (* 51 ?y2)) 79) (not (= (* (- 56) ?y4) 0))))) (or (exists ((?y3 Real)) (not (= (+ (* (- 94) ?y2) (* 90 x1)) (- 54)))) (and (<= (+ (* (- 28) ?y2) (* 4 x1)) 62) (exists ((?y3 Real)) (>= (+ (+ (* (- 83) ?y3) (* (- 2) ?y2)) (* 78 x1)) 34)))))) (forall ((?y1 Real)) (forall ((?y2 Real)) (and (forall ((?y4 Real)) (or (= (+ (* (- 27) ?y1) (* (- 64) x1)) 12) (< (+ (+ (* (- 91) ?y4) (* (- 61) ?y1)) (* 20 x1)) 25))) (or (forall ((?y4 Real)) (> (+ (+ (+ (* 22 ?y4) (* (- 35) ?y2)) (* (- 77) ?y1)) (* (- 78) x1)) (- 49))) (and (= (+ (* (- 55) ?y1) (* (- 71) x1)) 51) (<= (* (- 2) ?y1) 0))))))) (or (and (forall ((?y1 Real)) (exists ((?y2 Real)) (forall ((?y3 Real)) (and (>= (+ (* (- 42) ?y2) (* (- 88) ?y1)) 0) (not (= (+ (* 94 ?y3) (* (- 41) ?y2)) 20)))))) (exists ((?y1 Real)) (forall ((?y2 Real)) (exists ((?y3 Real)) (forall ((?y4 Real)) (or (<= (+ (+ (* 84 ?y4) (* 79 ?y3)) (* 42 ?y2)) 5) (= (+ (+ (* (- 58) ?y3) (* (- 13) ?y2)) (* 93 x1)) (- 1)))))))) (or (and (or (= (* 21 x1) (- 18)) (>= (* 76 x1) 0)) (or (>= (* (- 79) x1) 61) (>= (* (- 32) x1) (- 26)))) (and (and (or (>= (* (- 44) x1) 58) (not (= (* (- 68) x1) (- 93)))) (forall ((?y3 Real)) (>= (* (- 14) x1) 91))) (forall ((?y2 Real)) (and (and (> (* (- 65) x1) 74) (>= (+ (* 27 ?y2) (* (- 84) x1)) (- 68))) (and (>= (+ (* 11 ?y2) (* (- 77) x1)) 0) (< (+ (* (- 67) ?y2) (* (- 42) x1)) 88)))))))) (forall ((?y1 Real)) (exists ((?y2 Real)) (exists ((?y3 Real)) (forall ((?y4 Real)) (let ((?v_0 (* 66 ?y4))) (and (or (>= (+ (+ (+ (* 48 ?y4) (* (- 47) ?y3)) (* 1 ?y1)) (* 38 x1)) 61) (>= (+ (+ (* (- 19) ?y4) (* (- 80) ?y3)) (* (- 66) ?y2)) 25)) (or (or (and (<= (+ (+ (* (- 4) ?y4) (* (- 22) ?y2)) (* (- 18) ?y1)) (- 28)) (not (= (+ (+ (+ (* 1 ?y3) (* 20 ?y2)) (* (- 42) ?y1)) (* 74 x1)) (- 63)))) (and (= (+ (+ (+ (* 13 ?y3) (* (- 7) ?y2)) (* 52 ?y1)) (* 94 x1)) 0) (< (+ (+ (+ (+ (* 87 ?y4) (* (- 36) ?y3)) (* 55 ?y2)) (* (- 99) ?y1)) (* (- 56) x1)) (- 98)))) (or (or (not (= (+ (+ (+ (+ (* 73 ?y4) (* (- 15) ?y3)) (* 52 ?y2)) (* 12 ?y1)) (* 69 x1)) 72)) (<= (+ (+ ?v_0 (* (- 89) ?y1)) (* (- 49) x1)) 47)) (and (>= (+ (+ (* 82 ?y3) (* 69 ?y2)) (* 67 ?y1)) 10) (= (+ (+ (+ ?v_0 (* 4 ?y3)) (* 21 ?y2)) (* (- 35) ?y1)) 77))))))))))) (exists ((?y1 Real)) (forall ((?y2 Real)) (and (forall ((?y3 Real)) (forall ((?y4 Real)) (let ((?v_1 (* (- 41) ?y2))) (or (and (and (not (= (+ (+ (+ (* 33 ?y3) (* 7 ?y2)) (* 84 ?y1)) (* (- 79) x1)) 0)) (and (< (+ (+ (+ (* 57 ?y4) ?v_1) (* (- 82) ?y1)) (* (- 5) x1)) 40) (>= (+ (+ (+ (* 18 ?y3) (* (- 64) ?y2)) (* (- 87) ?y1)) (* (- 37) x1)) 16))) (and (or (not (= (+ (+ (+ (+ (* (- 19) ?y4) (* (- 74) ?y3)) (* 40 ?y2)) (* (- 73) ?y1)) (* (- 81) x1)) (- 6))) (< (+ (+ (+ (* (- 86) ?y4) (* (- 83) ?y2)) (* 46 ?y1)) (* (- 74) x1)) 94)) (or (> (+ (* (- 69) ?y2) (* (- 45) ?y1)) 0) (>= (+ (+ (* 16 ?y4) (* (- 18) ?y3)) (* (- 92) ?y2)) (- 32))))) (and (and (or (not (= (+ (+ (+ (* 11 ?y4) (* 75 ?y3)) (* 6 ?y1)) (* (- 63) x1)) 57)) (not (= (+ (+ (+ (+ (* (- 90) ?y4) (* 48 ?y3)) (* (- 94) ?y2)) (* (- 48) ?y1)) (* 96 x1)) (- 45)))) (or (>= (+ (+ (+ (* 36 ?y4) (* 67 ?y3)) (* 11 ?y2)) (* (- 84) x1)) (- 8)) (>= (+ (+ (* 75 ?y4) (* (- 65) ?y2)) (* (- 77) x1)) 34))) (or (or (> (+ (* 70 ?y1) (* (- 85) x1)) 0) (<= (+ (* 3 ?y2) (* (- 78) ?y1)) (- 7))) (and (= (+ (+ (* 44 ?y4) ?v_1) (* 48 x1)) 0) (< (+ (+ (+ (+ (* 27 ?y4) (* (- 24) ?y3)) (* 89 ?y2)) (* (- 93) ?y1)) (* 65 x1)) (- 17))))))))) (forall ((?y4 Real)) (let ((?v_2 (* 11 x1))) (and (and (or (and (< (* 99 ?y4) (- 32)) (<= (+ (+ (* 47 ?y4) (* (- 90) ?y1)) (* 78 x1)) (- 33))) (= (+ (* (- 19) ?y2) (* (- 97) ?y1)) 5)) (and (and (<= (+ (+ (* (- 54) ?y2) (* (- 87) ?y1)) (* (- 32) x1)) 51) (> (+ (+ (+ (* 46 ?y4) (* (- 11) ?y2)) (* (- 68) ?y1)) (* 77 x1)) 77)) (and (< (+ (+ (* 1 ?y4) (* 53 ?y2)) (* (- 60) x1)) (- 86)) (< (+ (* (- 12) ?y2) (* 38 x1)) 79)))) (or (or (>= (+ (* (- 46) ?y2) ?v_2) 37) (= (* (- 2) ?y1) 50)) (or (not (= (+ (+ (+ (* (- 95) ?y4) (* (- 96) ?y2)) (* (- 74) ?y1)) (* 59 x1)) (- 24))) (< (+ (* (- 70) ?y1) ?v_2) 0)))))))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/quantifiers/anti-sk-simp.smt2 b/test/regress/regress0/quantifiers/anti-sk-simp.smt2
deleted file mode 100644
index 2ae54a075..000000000
--- a/test/regress/regress0/quantifiers/anti-sk-simp.smt2
+++ /dev/null
@@ -1,10 +0,0 @@
-; COMMAND-LINE: --cbqi --quant-anti-skolem
-; EXPECT: unsat
-(set-logic ALL_SUPPORTED)
-(set-info :status unsat)
-(declare-fun f (Int) Int)
-(declare-fun a () Int)
-(declare-fun b () Int)
-(assert (forall ((X Int)) (< X (f X))))
-(assert (forall ((X Int)) (> (+ a b) (f X))))
-(check-sat)
diff --git a/test/regress/regress0/quantifiers/ari118-bv-2occ-x.smt2 b/test/regress/regress0/quantifiers/ari118-bv-2occ-x.smt2
deleted file mode 100644
index 2d70dfb8e..000000000
--- a/test/regress/regress0/quantifiers/ari118-bv-2occ-x.smt2
+++ /dev/null
@@ -1,8 +0,0 @@
-; COMMAND-LINE: --cbqi-bv
-; EXPECT: unsat
-(set-logic BV)
-(set-info :status unsat)
-; two occurrences of x
-(assert (not (exists ((?X (_ BitVec 32)) (?Y (_ BitVec 32))) (= (bvmul ?X ?Y) ?X))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/quantifiers/array-unsat-simp3.smt2 b/test/regress/regress0/quantifiers/array-unsat-simp3.smt2
deleted file mode 100644
index 9dade2073..000000000
--- a/test/regress/regress0/quantifiers/array-unsat-simp3.smt2
+++ /dev/null
@@ -1,23 +0,0 @@
-; COMMAND-LINE: --full-saturate-quant
-; EXPECT: unsat
-(set-logic AUFLIA)
-(set-info :smt-lib-version 2.0)
-(set-info :category "crafted")
-(set-info :status unsat)
-(declare-sort Index 0)
-(declare-sort Element 0)
-(declare-sort Array_uf 0)
-(declare-fun store_uf (Array_uf Index Element) Array_uf)
-(declare-fun select_uf (Array_uf Index) Element)
-(declare-fun a1 () Array_uf)
-(declare-fun e1 () Element)
-(declare-fun e2 () Element)
-(declare-fun i1 () Index)
-(declare-fun i2 () Index)
-(assert (forall ((?a Array_uf) (?i Index) (?e Element)) (= (select_uf (store_uf ?a ?i ?e) ?i) ?e)))
-(assert (forall ((?a Array_uf) (?i Index) (?j Index) (?e Element)) (or (= ?i ?j)(= (select_uf (store_uf ?a ?i ?e) ?j) (select_uf ?a ?j)))))
-(assert (forall ((?a Array_uf) (?b Array_uf)) (=> (forall ((?i Index)) (= (select_uf ?a ?i) (select_uf ?b ?i))) (= ?a ?b))))
-(assert (not (= i1 i2)))
-(assert (not (= (store_uf (store_uf a1 i1 e1) i2 e2) (store_uf (store_uf a1 i2 e2) i1 e1))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/quantifiers/bi-artm-s.smt2 b/test/regress/regress0/quantifiers/bi-artm-s.smt2
deleted file mode 100644
index b97c339fc..000000000
--- a/test/regress/regress0/quantifiers/bi-artm-s.smt2
+++ /dev/null
@@ -1,29 +0,0 @@
-; COMMAND-LINE: --fmf-bound-lazy
-; EXPECT: unsat
-(set-option :incremental "false")
-(set-info :status unsat)
-(set-logic ALL_SUPPORTED)
-(declare-fun Y () String)
-(set-info :notes "ufP_1 is uf type conv P")
-(declare-fun ufP_1 (Int) Int)
-(set-info :notes "ufM_2 is uf type conv M")
-(declare-fun ufM_2 (Int) Int)
-(declare-fun z1_3 () String)
-(declare-fun z2_4 () String)
-(declare-fun z3_5 () String)
-(declare-fun V_253 () String) 
-(declare-fun V_254 () String)
-
-(assert (or (= Y "1") (= Y "0")))
-(assert (>= (ufP_1 0) 32))
-(assert 
-
-(forall ((V_243 Int)) 
-(or 
-(not (and (>= V_243 0) (>= (+ (str.len Y) (* (- 1) V_243)) 1))) 
-(and 
-(or (not (= (str.len Y) (+ 1 V_243))) (= (ufP_1 V_243) (ufM_2 V_243))) 
-(not (>= (ufM_2 V_243) 10)) 
-(not (or (not (= (str.len Y) (+ 1 V_243 (str.len V_253)))) (not (= Y (str.++ V_253 (ite (= (ufM_2 V_243) 0) "0" "1") V_254)))) ))) ))
-
-(check-sat)
diff --git a/test/regress/regress0/quantifiers/bignum_quant.smt2 b/test/regress/regress0/quantifiers/bignum_quant.smt2
deleted file mode 100644
index 74b08a2da..000000000
--- a/test/regress/regress0/quantifiers/bignum_quant.smt2
+++ /dev/null
@@ -1,12 +0,0 @@
-(set-logic AUFLIA)
-(set-info :source | SMT-COMP'06 organizers |)
-(set-info :smt-lib-version 2.0)
-(set-info :category "check")
-(set-info :status unsat)
-(set-info :notes |This benchmark is designed to check if the DP supports bignumbers.|)
-(declare-fun f (Int) Int)
-(assert (= (f 0) 1))
-(assert (forall ((?x Int)) (=> (> ?x 0) (= (f ?x) (* (- 1000) (f (- ?x 1)))))))
-(assert (< (f 20) 0))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/quantifiers/bug822.smt2 b/test/regress/regress0/quantifiers/bug822.smt2
deleted file mode 100644
index cc1b5ed50..000000000
--- a/test/regress/regress0/quantifiers/bug822.smt2
+++ /dev/null
@@ -1,1181 +0,0 @@
-(set-logic UFDT)
-(set-info :source |
-Generated by: Andrew Reynolds
-Generated on: 2017-04-28
-Generator: Sledgehammer, converted to v2.6 by CVC4
-Application: Verfication goals in Isabelle
-Target solver: CVC4, Z3
-Publications: "A Decision Procedure for (Co)Datatypes" by Andrew Reynolds and Jasmin Blanchette, CADE 2015.
-|)
-(set-info :status unsat)
-(declare-sort A$ 0)
-(declare-sort B$ 0)
-(declare-sort A_a_fun$ 0)
-(declare-sort A_b_fun$ 0)
-(declare-sort B_a_fun$ 0)
-(declare-sort B_b_fun$ 0)
-(declare-sort A_bool_fun$ 0)
-(declare-sort B_bool_fun$ 0)
-(declare-sort A_a_tree_fun$ 0)
-(declare-sort A_b_tree_fun$ 0)
-(declare-sort A_tree_b_fun$ 0)
-(declare-sort B_a_tree_fun$ 0)
-(declare-sort B_b_tree_fun$ 0)
-(declare-sort B_tree_b_fun$ 0)
-(declare-sort A_a_sum_a_fun$ 0)
-(declare-sort A_a_sum_b_fun$ 0)
-(declare-sort A_b_fun_b_fun$ 0)
-(declare-sort B_b_fun_b_fun$ 0)
-(declare-sort B_b_sum_b_fun$ 0)
-(declare-sort A_a_a_prod_fun$ 0)
-(declare-sort A_b_b_prod_fun$ 0)
-(declare-sort B_b_b_prod_fun$ 0)
-(declare-sort B_b_prod_b_fun$ 0)
-(declare-sort B_tree_bool_fun$ 0)
-(declare-sort A_b_fun_bool_fun$ 0)
-(declare-sort B_b_bool_fun_fun$ 0)
-(declare-sort A_tree_a_tree_fun$ 0)
-(declare-sort A_tree_b_tree_fun$ 0)
-(declare-sort B_tree_a_tree_fun$ 0)
-(declare-sort B_tree_b_tree_fun$ 0)
-(declare-sort A_b_fun_b_tree_fun$ 0)
-(declare-sort B_b_tree_sum_b_fun$ 0)
-(declare-sort A_a_fun_a_a_fun_fun$ 0)
-(declare-sort A_a_fun_a_b_fun_fun$ 0)
-(declare-sort A_a_sum_a_a_sum_fun$ 0)
-(declare-sort A_a_sum_b_b_sum_fun$ 0)
-(declare-sort A_b_fun_a_a_fun_fun$ 0)
-(declare-sort A_b_fun_a_b_fun_fun$ 0)
-(declare-sort A_b_sum_b_b_sum_fun$ 0)
-(declare-sort B_a_fun_b_a_fun_fun$ 0)
-(declare-sort B_a_fun_b_b_fun_fun$ 0)
-(declare-sort B_b_b_tree_prod_fun$ 0)
-(declare-sort B_b_fun_b_a_fun_fun$ 0)
-(declare-sort B_b_fun_b_b_fun_fun$ 0)
-(declare-sort B_b_sum_b_b_sum_fun$ 0)
-(declare-sort A_a_prod_a_a_prod_fun$ 0)
-(declare-sort A_a_prod_b_b_prod_fun$ 0)
-(declare-sort B_a_b_b_prod_prod_fun$ 0)
-(declare-sort B_b_b_b_prod_prod_fun$ 0)
-(declare-sort B_b_prod_b_b_prod_fun$ 0)
-(declare-sort A_a_sum_tree_a_tree_fun$ 0)
-(declare-sort A_a_sum_tree_b_tree_fun$ 0)
-(declare-sort B_tree_b_sum_b_tree_fun$ 0)
-(declare-sort A_a_fun_a_a_tree_fun_fun$ 0)
-(declare-sort A_tree_b_b_prod_tree_fun$ 0)
-(declare-sort B_b_fun_b_b_tree_fun_fun$ 0)
-(declare-sort B_b_sum_b_tree_b_sum_fun$ 0)
-(declare-sort B_b_tree_a_b_fun_sum_fun$ 0)
-(declare-sort B_tree_a_b_fun_sum_b_fun$ 0)
-(declare-sort B_tree_b_sum_b_b_sum_fun$ 0)
-(declare-sort B_tree_b_tree_b_prod_fun$ 0)
-(declare-sort A_a_fun_a_a_sum_a_fun_fun$ 0)
-(declare-sort A_a_fun_a_b_b_prod_fun_fun$ 0)
-(declare-sort A_b_fun_a_b_b_prod_fun_fun$ 0)
-(declare-sort B_b_b_prod_fun_b_b_fun_fun$ 0)
-(declare-sort B_b_prod_b_tree_b_prod_fun$ 0)
-(declare-sort B_tree_b_prod_b_b_prod_fun$ 0)
-(declare-sort B_tree_b_tree_bool_fun_fun$ 0)
-(declare-sort B_tree_a_b_fun_sum_bool_fun$ 0)
-(declare-sort B_tree_tree_b_tree_tree_fun$ 0)
-(declare-sort B_b_fun_b_b_bool_fun_fun_fun$ 0)
-(declare-sort B_tree_b_tree_fun_b_tree_fun$ 0)
-(declare-sort B_tree_b_tree_sum_b_tree_fun$ 0)
-(declare-sort A_b_fun_tree_a_b_fun_tree_fun$ 0)
-(declare-sort A_b_tree_sum_b_b_tree_sum_fun$ 0)
-(declare-sort A_tree_b_sum_a_tree_b_sum_fun$ 0)
-(declare-sort A_tree_b_sum_b_tree_b_sum_fun$ 0)
-(declare-sort B_a_tree_fun_b_b_tree_fun_fun$ 0)
-(declare-sort B_b_fun_tree_b_b_fun_tree_fun$ 0)
-(declare-sort B_b_sum_tree_b_b_sum_tree_fun$ 0)
-(declare-sort B_b_tree_fun_b_b_tree_fun_fun$ 0)
-(declare-sort B_b_tree_sum_b_b_tree_sum_fun$ 0)
-(declare-sort B_tree_a_b_fun_sum_b_tree_fun$ 0)
-(declare-sort B_tree_b_fun_b_tree_b_fun_fun$ 0)
-(declare-sort B_tree_b_sum_b_tree_b_sum_fun$ 0)
-(declare-sort B_tree_b_tree_a_b_fun_sum_fun$ 0)
-(declare-sort B_tree_b_tree_b_tree_prod_fun$ 0)
-(declare-sort B_tree_b_tree_prod_b_tree_fun$ 0)
-(declare-sort A_b_fun_b_tree_a_b_fun_sum_fun$ 0)
-(declare-sort B_b_tree_b_tree_prod_prod_b_fun$ 0)
-(declare-sort B_b_tree_prod_b_b_tree_prod_fun$ 0)
-(declare-sort B_tree_b_prod_b_tree_b_prod_fun$ 0)
-(declare-sort A_a_a_prod_fun_a_b_b_prod_fun_fun$ 0)
-(declare-sort B_b_b_fun_b_b_bool_fun_fun_fun_fun$ 0)
-(declare-sort B_b_tree_sum_b_tree_b_tree_sum_fun$ 0)
-(declare-sort B_tree_b_tree_fun_b_tree_b_fun_fun$ 0)
-(declare-sort B_tree_b_tree_sum_b_b_tree_sum_fun$ 0)
-(declare-sort A_a_a_prod_prod_a_a_a_prod_prod_fun$ 0)
-(declare-sort A_a_a_prod_prod_b_b_b_prod_prod_fun$ 0)
-(declare-sort A_b_b_prod_prod_a_b_b_prod_prod_fun$ 0)
-(declare-sort A_b_b_prod_prod_b_b_b_prod_prod_fun$ 0)
-(declare-sort B_b_b_prod_prod_b_b_b_prod_prod_fun$ 0)
-(declare-sort A_a_fun_a_a_fun_a_a_tree_fun_fun_fun$ 0)
-(declare-sort A_tree_a_a_tree_a_tree_prod_prod_fun$ 0)
-(declare-sort A_tree_b_b_tree_b_tree_prod_prod_fun$ 0)
-(declare-sort B_b_tree_prod_b_tree_b_tree_prod_fun$ 0)
-(declare-sort B_tree_a_b_tree_b_tree_prod_prod_fun$ 0)
-(declare-sort B_tree_b_b_tree_b_tree_prod_prod_fun$ 0)
-(declare-sort B_tree_b_tree_prod_b_b_tree_prod_fun$ 0)
-(declare-sort A_b_fun_b_b_tree_b_tree_prod_prod_fun$ 0)
-(declare-sort A_tree_a_tree_fun_a_tree_a_tree_fun_fun$ 0)
-(declare-sort A_tree_a_tree_fun_a_tree_b_tree_fun_fun$ 0)
-(declare-sort A_tree_b_tree_fun_a_tree_a_tree_fun_fun$ 0)
-(declare-sort A_tree_b_tree_fun_a_tree_b_tree_fun_fun$ 0)
-(declare-sort A_tree_b_tree_sum_a_tree_b_tree_sum_fun$ 0)
-(declare-sort A_tree_b_tree_sum_b_tree_b_tree_sum_fun$ 0)
-(declare-sort B_tree_a_tree_fun_b_tree_b_tree_fun_fun$ 0)
-(declare-sort B_tree_b_tree_fun_b_tree_b_tree_fun_fun$ 0)
-(declare-sort B_tree_b_tree_sum_b_tree_b_tree_sum_fun$ 0)
-(declare-sort A_a_tree_fun_a_a_fun_a_a_tree_fun_fun_fun$ 0)
-(declare-sort A_b_fun_b_tree_fun_a_b_fun_b_tree_fun_fun$ 0)
-(declare-sort B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_fun$ 0)
-(declare-sort B_tree_a_b_fun_sum_b_tree_b_tree_prod_fun$ 0)
-(declare-sort B_tree_b_tree_prod_b_tree_b_tree_prod_fun$ 0)
-(declare-sort A_b_fun_a_b_fun_fun_a_b_fun_b_tree_fun_fun$ 0)
-(declare-sort B_a_a_tree_b_sum_a_tree_b_sum_prod_prod_fun$ 0)
-(declare-sort B_b_b_tree_b_sum_b_tree_b_sum_prod_prod_fun$ 0)
-(declare-sort B_tree_b_b_prod_prod_b_tree_b_b_prod_prod_fun$ 0)
-(declare-sort B_b_fun_b_b_b_fun_b_b_bool_fun_fun_fun_fun_fun$ 0)
-(declare-sort B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_set$ 0)
-(declare-sort B_a_b_b_prod_prod_fun_b_a_b_b_prod_prod_fun_fun$ 0)
-(declare-sort A_b_fun_bool_fun_b_tree_a_b_fun_sum_bool_fun_fun$ 0)
-(declare-sort B_b_tree_b_tree_prod_prod_b_tree_b_tree_prod_fun$ 0)
-(declare-sort B_tree_b_tree_fun_b_tree_b_tree_bool_fun_fun_fun$ 0)
-(declare-sort B_tree_b_tree_fun_tree_b_tree_b_tree_fun_tree_fun$ 0)
-(declare-sort B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_bool_fun_fun$ 0)
-(declare-sort B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_bool_fun$ 0)
-(declare-sort B_tree_b_tree_a_b_fun_sum_fun_b_tree_b_tree_fun_fun$ 0)
-(declare-sort B_tree_b_tree_b_tree_prod_fun_b_tree_b_tree_fun_fun$ 0)
-(declare-sort A_b_fun_b_tree_fun_b_tree_a_b_fun_sum_b_tree_fun_fun$ 0)
-(declare-sort A_b_fun_b_tree_a_b_fun_sum_fun_a_b_fun_b_tree_fun_fun$ 0)
-(declare-sort B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_set$ 0)
-(declare-sort B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_fun$ 0)
-(declare-sort A_a_tree_a_tree_prod_prod_a_a_tree_a_tree_prod_prod_fun$ 0)
-(declare-sort A_a_tree_a_tree_prod_prod_b_b_tree_b_tree_prod_prod_fun$ 0)
-(declare-sort A_b_tree_b_tree_prod_prod_a_b_tree_b_tree_prod_prod_fun$ 0)
-(declare-sort A_b_tree_b_tree_prod_prod_b_b_tree_b_tree_prod_prod_fun$ 0)
-(declare-sort B_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun$ 0)
-(declare-sort B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_b_fun$ 0)
-(declare-sort B_b_tree_b_tree_prod_prod_b_b_tree_b_tree_prod_prod_fun$ 0)
-(declare-sort A_bool_fun_a_a_tree_fun_a_a_fun_a_a_tree_fun_fun_fun_fun$ 0)
-(declare-sort B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_bool_fun_fun$ 0)
-(declare-sort B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_bool_fun_fun$ 0)
-(declare-sort B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_bool_fun$ 0)
-(declare-sort B_tree_a_a_tree_b_tree_sum_a_tree_b_tree_sum_prod_prod_fun$ 0)
-(declare-sort B_tree_b_b_tree_b_tree_sum_b_tree_b_tree_sum_prod_prod_fun$ 0)
-(declare-sort B_tree_b_tree_b_tree_fun_b_tree_b_tree_bool_fun_fun_fun_fun$ 0)
-(declare-sort A_b_fun_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun$ 0)
-(declare-sort B_tree_a_b_fun_sum_b_tree_fun_b_tree_a_b_fun_sum_b_tree_fun_fun$ 0)
-(declare-sort B_tree_b_tree_fun_b_tree_b_tree_prod_b_tree_b_tree_prod_fun_fun$ 0)
-(declare-sort B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_b_tree_b_tree_prod_fun_fun$ 0)
-(declare-sort A_b_fun_a_b_fun_fun_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_fun_fun$ 0)
-(declare-sort A_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_b_tree_fun_fun_fun$ 0)
-(declare-sort B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun$ 0)
-(declare-sort B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_fun$ 0)
-(declare-sort B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun$ 0)
-(declare-sort B_tree_b_tree_b_tree_prod_prod_b_tree_b_tree_b_tree_prod_prod_fun$ 0)
-(declare-sort A_b_fun_a_b_fun_fun_a_b_fun_a_b_fun_fun_a_b_fun_b_tree_fun_fun_fun$ 0)
-(declare-sort A_a_fun_a_bool_fun_a_a_tree_fun_a_a_fun_a_a_tree_fun_fun_fun_fun_fun$ 0)
-(declare-sort B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_b_tree_b_tree_prod_fun$ 0)
-(declare-sort B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_b_tree_b_tree_prod_prod_fun$ 0)
-(declare-sort B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_fun_b_tree_a_b_fun_sum_b_tree_fun_fun$ 0)
-(declare-sort B_tree_a_b_tree_b_tree_prod_prod_fun_b_tree_a_b_tree_b_tree_prod_prod_fun_fun$ 0)
-(declare-sort B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_b_tree_b_tree_prod_prod_fun_fun$ 0)
-(declare-sort A_a_tree_b_sum_a_tree_b_sum_prod_prod_a_a_tree_b_sum_a_tree_b_sum_prod_prod_fun$ 0)
-(declare-sort A_a_tree_b_sum_a_tree_b_sum_prod_prod_b_b_tree_b_sum_b_tree_b_sum_prod_prod_fun$ 0)
-(declare-sort B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_b_b_tree_b_tree_prod_prod_fun$ 0)
-(declare-sort B_tree_b_tree_fun_b_tree_b_tree_b_tree_fun_b_tree_b_tree_bool_fun_fun_fun_fun_fun$ 0)
-(declare-sort A_a_tree_fun_a_a_fun_a_bool_fun_a_a_tree_fun_a_a_fun_a_a_tree_fun_fun_fun_fun_fun_fun$ 0)
-(declare-sort A_b_fun_a_b_fun_fun_a_b_fun_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun_fun$ 0)
-(declare-sort A_b_fun_bool_fun_a_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_b_tree_fun_fun_fun_fun$ 0)
-(declare-sort B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun_fun$ 0)
-(declare-sort B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun$ 0)
-(declare-sort B_a_a_tree_b_sum_a_tree_b_sum_prod_prod_fun_b_a_a_tree_b_sum_a_tree_b_sum_prod_prod_fun_fun$ 0)
-(declare-sort B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun$ 0)
-(declare-sort B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun$ 0)
-(declare-sort A_a_tree_b_tree_sum_a_tree_b_tree_sum_prod_prod_a_a_tree_b_tree_sum_a_tree_b_tree_sum_prod_prod_fun$ 0)
-(declare-sort A_a_tree_b_tree_sum_a_tree_b_tree_sum_prod_prod_b_b_tree_b_tree_sum_b_tree_b_tree_sum_prod_prod_fun$ 0)
-(declare-sort B_tree_a_b_fun_sum_b_tree_fun_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun_fun$ 0)
-(declare-sort A_bool_fun_a_a_tree_fun_a_a_fun_a_bool_fun_a_a_tree_fun_a_a_fun_a_a_tree_fun_fun_fun_fun_fun_fun_fun$ 0)
-(declare-sort B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun_fun$ 0)
-(declare-sort B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun_fun$ 0)
-(declare-sort B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun$ 0)
-(declare-sort B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_prod_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun$ 0)
-(declare-sort A_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun_fun_fun$ 0)
-(declare-sort A_b_fun_a_b_fun_fun_a_b_fun_bool_fun_a_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_b_tree_fun_fun_fun_fun_fun$ 0)
-(declare-sort B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_fun_fun$ 0)
-(declare-sort B_tree_a_a_tree_b_tree_sum_a_tree_b_tree_sum_prod_prod_fun_b_tree_a_a_tree_b_tree_sum_a_tree_b_tree_sum_prod_prod_fun_fun$ 0)
-(declare-sort A_b_fun_bool_fun_a_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun_fun_fun_fun$ 0)
-(declare-sort A_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_bool_fun_a_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_b_tree_fun_fun_fun_fun_fun_fun$ 0)
-(declare-sort B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_fun_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun_fun$ 0)
-(declare-sort B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun_fun$ 0)
-(declare-sort A_b_fun_a_b_fun_fun_a_b_fun_bool_fun_a_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun_fun_fun_fun_fun$ 0)
-(declare-sort A_b_fun_bool_fun_a_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_bool_fun_a_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_b_tree_fun_fun_fun_fun_fun_fun_fun$ 0)
-(declare-sort B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_fun_fun$ 0)
-(declare-sort B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun_fun$ 0)
-(declare-sort A_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_bool_fun_a_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun_fun_fun_fun_fun_fun$ 0)
-(declare-sort A_b_fun_bool_fun_a_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_bool_fun_a_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun_fun_fun_fun_fun_fun_fun$ 0)
-(declare-sort B_tree$ 0)
-(declare-fun root$ (B_tree$) B$)
-(declare-fun left$ (B_tree$) B_tree$)
-(declare-fun right$ (B_tree$) B_tree$)
-(declare-fun node$ (B$ B_tree$ B_tree$) B_tree$)
-(declare-datatypes ((B_tree_b_tree_prod$ 0)(B_b_tree_b_tree_prod_prod$ 0)(B_tree_a_b_fun_sum$ 0)(B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$ 0)(B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$ 0)) (((pair$ (fst$ B_tree$) (snd$ B_tree$)))
-((pair$a (fst$a B$) (snd$a B_tree_b_tree_prod$)))
-((inl$ (select$ B_tree$)) (inr$ (selecta$ A_b_fun$)))
-((pair$b (fst$b B_tree_a_b_fun_sum$) (snd$b B_tree_a_b_fun_sum$)))
-((pair$c (fst$c B$) (snd$c B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)))
-))
-(declare-sort A_tree$ 0)
-(declare-fun root$a (A_tree$) A$)
-(declare-fun left$a (A_tree$) A_tree$)
-(declare-fun right$a (A_tree$) A_tree$)
-(declare-fun node$a (A$ A_tree$ A_tree$) A_tree$)
-(declare-datatypes ((A_tree_a_tree_prod$ 0)(A_a_tree_a_tree_prod_prod$ 0)(B_b_prod$ 0)) (((pair$d (fst$d A_tree$) (snd$d A_tree$)))
-((pair$e (fst$e A$) (snd$e A_tree_a_tree_prod$)))
-((pair$f (fst$f B$) (snd$f B$)))
-))
-(declare-sort B_b_prod_tree$ 0)
-(declare-fun root$b (B_b_prod_tree$) B_b_prod$)
-(declare-fun left$b (B_b_prod_tree$) B_b_prod_tree$)
-(declare-fun right$b (B_b_prod_tree$) B_b_prod_tree$)
-(declare-fun node$b (B_b_prod$ B_b_prod_tree$ B_b_prod_tree$) B_b_prod_tree$)
-(declare-datatypes ((A_a_sum$ 0)) (((inl$a (projl$ A$)) (inr$a (projr$ A$)))
-))
-(declare-sort A_a_sum_tree$ 0)
-(declare-sort B_tree_tree$ 0)
-(declare-fun root$c (A_a_sum_tree$) A_a_sum$)
-(declare-fun left$c (A_a_sum_tree$) A_a_sum_tree$)
-(declare-fun right$c (A_a_sum_tree$) A_a_sum_tree$)
-(declare-fun node$c (A_a_sum$ A_a_sum_tree$ A_a_sum_tree$) A_a_sum_tree$)
-(declare-fun root$d (B_tree_tree$) B_tree$)
-(declare-fun left$d (B_tree_tree$) B_tree_tree$)
-(declare-fun right$d (B_tree_tree$) B_tree_tree$)
-(declare-fun node$d (B_tree$ B_tree_tree$ B_tree_tree$) B_tree_tree$)
-(declare-datatypes ((B_b_sum$ 0)) (((inl$b (projl$a B$)) (inr$b (projr$a B$)))
-))
-(declare-sort B_b_sum_tree$ 0)
-(declare-sort B_tree_b_tree_fun_tree$ 0)
-(declare-sort B_b_fun_tree$ 0)
-(declare-sort A_b_fun_tree$ 0)
-(declare-fun root$e (B_b_sum_tree$) B_b_sum$)
-(declare-fun left$e (B_b_sum_tree$) B_b_sum_tree$)
-(declare-fun right$e (B_b_sum_tree$) B_b_sum_tree$)
-(declare-fun node$e (B_b_sum$ B_b_sum_tree$ B_b_sum_tree$) B_b_sum_tree$)
-(declare-fun selectb$ (B_tree_b_tree_fun_tree$) B_tree_b_tree_fun$)
-(declare-fun selectc$ (B_tree_b_tree_fun_tree$) B_tree_b_tree_fun_tree$)
-(declare-fun selectd$ (B_tree_b_tree_fun_tree$) B_tree_b_tree_fun_tree$)
-(declare-fun node$f (B_tree_b_tree_fun$ B_tree_b_tree_fun_tree$ B_tree_b_tree_fun_tree$) B_tree_b_tree_fun_tree$)
-(declare-fun selecte$ (B_b_fun_tree$) B_b_fun$)
-(declare-fun selectf$ (B_b_fun_tree$) B_b_fun_tree$)
-(declare-fun selectg$ (B_b_fun_tree$) B_b_fun_tree$)
-(declare-fun node$g (B_b_fun$ B_b_fun_tree$ B_b_fun_tree$) B_b_fun_tree$)
-(declare-fun selecth$ (A_b_fun_tree$) A_b_fun$)
-(declare-fun selecti$ (A_b_fun_tree$) A_b_fun_tree$)
-(declare-fun selectj$ (A_b_fun_tree$) A_b_fun_tree$)
-(declare-fun node$h (A_b_fun$ A_b_fun_tree$ A_b_fun_tree$) A_b_fun_tree$)
-(declare-datatypes ((A_a_prod$ 0)(A_b_tree_sum$ 0)(A_b_sum$ 0)(B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_prod$ 0)(B_b_tree_prod$ 0)(B_tree_b_prod$ 0)(B_b_b_prod_prod$ 0)(A_a_a_prod_prod$ 0)(B_tree_b_b_prod_prod$ 0)(B_tree_b_tree_b_tree_prod_prod$ 0)(A_b_b_prod_prod$ 0)(A_b_tree_b_tree_prod_prod$ 0)(A_tree_b_sum$ 0)(A_tree_b_sum_a_tree_b_sum_prod$ 0)(A_a_tree_b_sum_a_tree_b_sum_prod_prod$ 0)(B_tree_b_sum$ 0)(B_tree_b_sum_b_tree_b_sum_prod$ 0)(B_b_tree_b_sum_b_tree_b_sum_prod_prod$ 0)(A_tree_b_tree_sum$ 0)(A_tree_b_tree_sum_a_tree_b_tree_sum_prod$ 0)(A_a_tree_b_tree_sum_a_tree_b_tree_sum_prod_prod$ 0)(B_tree_b_tree_sum$ 0)(B_tree_b_tree_sum_b_tree_b_tree_sum_prod$ 0)(B_b_tree_b_tree_sum_b_tree_b_tree_sum_prod_prod$ 0)(B_b_tree_sum$ 0)) (((pair$g (fst$g A$) (snd$g A$)))
-((inl$c (projl$b A$)) (inr$c (projr$b B_tree$)))
-((inl$d (projl$c A$)) (inr$d (projr$c B$)))
-((pair$h (fst$h B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$) (snd$h B$)))
-((pair$i (fst$i B$) (snd$i B_tree$)))
-((pair$j (fst$j B_tree$) (snd$j B$)))
-((pair$k (fst$k B$) (snd$k B_b_prod$)))
-((pair$l (fst$l A$) (snd$l A_a_prod$)))
-((pair$m (fst$m B_tree$) (snd$m B_b_prod$)))
-((pair$n (fst$n B_tree$) (snd$n B_tree_b_tree_prod$)))
-((pair$o (fst$o A$) (snd$o B_b_prod$)))
-((pair$p (fst$p A$) (snd$p B_tree_b_tree_prod$)))
-((inl$e (projl$d A_tree$)) (inr$e (projr$d B$)))
-((pair$q (fst$q A_tree_b_sum$) (snd$q A_tree_b_sum$)))
-((pair$r (fst$r A$) (snd$r A_tree_b_sum_a_tree_b_sum_prod$)))
-((inl$f (projl$e B_tree$)) (inr$f (projr$e B$)))
-((pair$s (fst$s B_tree_b_sum$) (snd$s B_tree_b_sum$)))
-((pair$t (fst$t B$) (snd$t B_tree_b_sum_b_tree_b_sum_prod$)))
-((inl$g (projl$f A_tree$)) (inr$g (projr$f B_tree$)))
-((pair$u (fst$u A_tree_b_tree_sum$) (snd$u A_tree_b_tree_sum$)))
-((pair$v (fst$v A$) (snd$v A_tree_b_tree_sum_a_tree_b_tree_sum_prod$)))
-((inl$h (projl$g B_tree$)) (inr$h (projr$g B_tree$)))
-((pair$w (fst$w B_tree_b_tree_sum$) (snd$w B_tree_b_tree_sum$)))
-((pair$x (fst$x B$) (snd$x B_tree_b_tree_sum_b_tree_b_tree_sum_prod$)))
-((inl$i (projl$h B$)) (inr$i (projr$h B_tree$)))
-))
-(declare-fun l$ () A_a_fun$)
-(declare-fun r$ () A_a_fun$)
-(declare-fun t$ () A_tree$)
-(declare-fun x$ () A$)
-(declare-fun id$ () B_b_fun$)
-(declare-fun uu$ () A_b_fun_b_tree_fun$)
-(declare-fun id$a () B_tree_b_tree_fun$)
-(declare-fun id$b () B_b_sum_b_b_sum_fun$)
-(declare-fun id$c () B_tree_b_tree_fun_b_tree_b_tree_fun_fun$)
-(declare-fun id$d () B_b_fun_b_b_fun_fun$)
-(declare-fun id$e () A_b_fun_a_b_fun_fun$)
-(declare-fun id$f () A_a_fun$)
-(declare-fun id$g () B_b_sum_tree_b_b_sum_tree_fun$)
-(declare-fun id$h () B_tree_b_tree_fun_tree_b_tree_b_tree_fun_tree_fun$)
-(declare-fun id$i () B_b_fun_tree_b_b_fun_tree_fun$)
-(declare-fun id$j () A_b_fun_tree_a_b_fun_tree_fun$)
-(declare-fun id$k () B_tree_tree_b_tree_tree_fun$)
-(declare-fun id$l () A_tree_a_tree_fun$)
-(declare-fun id$m () B_b_tree_b_tree_prod_prod_b_b_tree_b_tree_prod_prod_fun$)
-(declare-fun id$n () B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun$)
-(declare-fun id$o () B_b_prod_b_b_prod_fun$)
-(declare-fun id$p () A_a_prod_a_a_prod_fun$)
-(declare-fun id$q () B_b_tree_prod_b_b_tree_prod_fun$)
-(declare-fun id$r () B_tree_b_prod_b_tree_b_prod_fun$)
-(declare-fun id$s () B_tree_b_tree_prod_b_tree_b_tree_prod_fun$)
-(declare-fun id$t () B_b_b_prod_prod_b_b_b_prod_prod_fun$)
-(declare-fun id$u () B_tree_b_b_prod_prod_b_tree_b_b_prod_prod_fun$)
-(declare-fun id$v () B_tree_b_tree_b_tree_prod_prod_b_tree_b_tree_b_tree_prod_prod_fun$)
-(declare-fun id$w () B_b_tree_sum_b_b_tree_sum_fun$)
-(declare-fun id$x () B_tree_b_sum_b_tree_b_sum_fun$)
-(declare-fun id$y () B_tree_b_tree_sum_b_tree_b_tree_sum_fun$)
-(declare-fun id$z (B_tree_a_b_fun_sum$) B_tree_a_b_fun_sum$)
-(declare-fun uua$ () B_b_fun$)
-(declare-fun uub$ () B_tree_b_tree_fun$)
-(declare-fun uuc$ () A_a_fun$)
-(declare-fun uud$ (B$) B_b_fun$)
-(declare-fun uue$ (B$) A_b_fun$)
-(declare-fun uuf$ (B$) B_tree_b_fun$)
-(declare-fun uug$ (A$) A_a_fun$)
-(declare-fun uuh$ (B_tree$) B_tree_b_tree_fun$)
-(declare-fun uui$ (B_tree$) A_b_fun_b_tree_fun$)
-(declare-fun uuj$ () B_tree_b_tree_prod_b_tree_b_tree_prod_fun$)
-(declare-fun uuk$ () B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun$)
-(declare-fun uul$ (B_tree_b_tree_fun$) B_tree_b_tree_fun_b_tree_b_tree_fun_fun$)
-(declare-fun uum$ (B_tree_b_tree_fun$) A_b_fun_b_tree_fun_a_b_fun_b_tree_fun_fun$)
-(declare-fun uun$ () A_b_fun_b_tree_a_b_fun_sum_fun$)
-(declare-fun uuo$ (A$) A_b_fun_b_fun$)
-(declare-fun uup$ (A_a_fun$) A_b_fun_a_b_fun_fun$)
-(declare-fun uuq$ (A_b_fun_b_fun$) A_b_fun_bool_fun_a_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_bool_fun_a_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun_fun_fun_fun_fun_fun_fun$)
-(declare-fun uur$ () B_tree_b_tree_a_b_fun_sum_fun$)
-(declare-fun uus$ (B_tree_a_b_fun_sum_b_tree_fun$) B_tree_b_tree_fun$)
-(declare-fun uut$ (B_tree_a_b_fun_sum_b_tree_fun$) A_b_fun_b_tree_fun$)
-(declare-fun uuu$ (B$) B_b_fun_b_fun$)
-(declare-fun uuv$ (B_b_fun$) B_b_fun_b_b_fun_fun$)
-(declare-fun uuw$ (B_tree$) B_tree_b_tree_fun_b_tree_fun$)
-(declare-fun uux$ (B_tree_b_tree_fun$) B_tree_b_tree_fun_b_tree_b_tree_fun_fun$)
-(declare-fun uuy$ (B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_set$) B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_bool_fun_fun$)
-(declare-fun uuz$ (B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_set$) B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_bool_fun_fun$)
-(declare-fun uva$ () B_b_tree_b_tree_prod_prod_b_fun$)
-(declare-fun uvb$ () B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_b_fun$)
-(declare-fun uvc$ () B_tree_b_tree_prod_b_tree_fun$)
-(declare-fun uvd$ () B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_fun$)
-(declare-fun uve$ () B_b_tree_b_tree_prod_prod_b_tree_b_tree_prod_fun$)
-(declare-fun uvf$ () B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun$)
-(declare-fun uvg$ () B_tree_b_tree_prod_b_tree_fun$)
-(declare-fun uvh$ () B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_fun$)
-(declare-fun uvi$ () B_b_prod_b_fun$)
-(declare-fun uvj$ () B_b_b_prod_fun$)
-(declare-fun uvk$ () B_tree_b_tree_b_tree_prod_fun$)
-(declare-fun uvl$ () B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun$)
-(declare-fun uvm$ () B_b_prod_b_fun$)
-(declare-fun uvn$ () B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun_fun$)
-(declare-fun uvo$ () B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun_fun$)
-(declare-fun uvp$ () B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun_fun$)
-(declare-fun uvq$ () B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun_fun$)
-(declare-fun uvr$ (B_b_fun$ B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun$) B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_b_tree_b_tree_prod_prod_fun_fun$)
-(declare-fun uvs$ (B_tree_a_b_fun_sum_b_tree_fun$ B_tree_a_b_fun_sum_b_tree_fun$) B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_b_tree_b_tree_prod_fun_fun$)
-(declare-fun comp$ (B_tree_b_tree_fun$) B_tree_b_tree_fun_b_tree_b_tree_fun_fun$)
-(declare-fun id$aa () B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun$)
-(declare-fun swap$ (B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_prod$) B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$)
-(declare-fun xtor$ (B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$) B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)
-(declare-fun apfst$ (B_b_fun$ B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$) B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$)
-(declare-fun apsnd$ (B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun$ B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$) B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$)
-(declare-fun comp$a (B_b_fun$) B_b_fun_b_b_fun_fun$)
-(declare-fun comp$b (A_b_fun$) A_a_fun_a_b_fun_fun$)
-(declare-fun comp$c (B_b_fun$) A_b_fun_a_b_fun_fun$)
-(declare-fun comp$d (B_a_fun$) A_b_fun_a_a_fun_fun$)
-(declare-fun comp$e (A_a_fun$) A_a_fun_a_a_fun_fun$)
-(declare-fun comp$f (A_b_fun$) B_a_fun_b_b_fun_fun$)
-(declare-fun comp$g (A_a_fun$) B_a_fun_b_a_fun_fun$)
-(declare-fun comp$h (B_a_fun$) B_b_fun_b_a_fun_fun$)
-(declare-fun comp$i (A_b_b_prod_fun$) A_a_fun_a_b_b_prod_fun_fun$)
-(declare-fun comp$j (A_b_fun$ A_a_sum_a_fun$) A_a_sum_b_fun$)
-(declare-fun comp$k (B_tree_b_tree_fun$) A_tree_b_tree_fun_a_tree_b_tree_fun_fun$)
-(declare-fun comp$l (A_tree_b_tree_fun$) A_tree_a_tree_fun_a_tree_b_tree_fun_fun$)
-(declare-fun comp$m (B_tree_a_tree_fun$) A_tree_b_tree_fun_a_tree_a_tree_fun_fun$)
-(declare-fun comp$n (A_tree_a_tree_fun$) A_tree_a_tree_fun_a_tree_a_tree_fun_fun$)
-(declare-fun comp$o (A_tree_a_tree_fun$ B_tree_a_tree_fun$) B_tree_a_tree_fun$)
-(declare-fun comp$p (B_tree_a_tree_fun$ B_tree_b_tree_fun$) B_tree_a_tree_fun$)
-(declare-fun comp$q (A_tree_b_tree_fun$) B_tree_a_tree_fun_b_tree_b_tree_fun_fun$)
-(declare-fun comp$r (A_tree_b_b_prod_tree_fun$ A_tree_a_tree_fun$) A_tree_b_b_prod_tree_fun$)
-(declare-fun comp$s (A_tree_b_tree_fun$ A_a_sum_tree_a_tree_fun$) A_a_sum_tree_b_tree_fun$)
-(declare-fun comp$t (A_a_prod_b_b_prod_fun$ A_a_prod_a_a_prod_fun$) A_a_prod_b_b_prod_fun$)
-(declare-fun comp$u (B_b_tree_b_tree_prod_prod_b_b_tree_b_tree_prod_prod_fun$ B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_b_b_tree_b_tree_prod_prod_fun$) B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_b_b_tree_b_tree_prod_prod_fun$)
-(declare-fun comp$v (B_tree_b_tree_prod_b_tree_b_tree_prod_fun$) B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun_fun$)
-(declare-fun comp$w (B_tree_b_tree_fun$) B_tree_a_b_fun_sum_b_tree_fun_b_tree_a_b_fun_sum_b_tree_fun_fun$)
-(declare-fun comp$x (B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_b_b_tree_b_tree_prod_prod_fun$ B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun$) B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_b_b_tree_b_tree_prod_prod_fun$)
-(declare-fun comp$y (B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun$) B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun_fun$)
-(declare-fun comp$z (B_tree_a_b_fun_sum_b_tree_fun$) B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_fun_b_tree_a_b_fun_sum_b_tree_fun_fun$)
-(declare-fun swap$a (B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$) B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_prod$)
-(declare-fun swap$b (B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$) B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)
-(declare-fun xtor$a (B_b_tree_b_tree_prod_prod$) B_b_tree_b_tree_prod_prod$)
-(declare-fun xtor$b (B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$) B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$)
-(declare-fun xtor$c (B_tree_a_b_fun_sum$) B_tree_a_b_fun_sum$)
-(declare-fun apfst$a (B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_fun$) B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun$)
-(declare-fun apsnd$a (B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_fun$) B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun$)
-(declare-fun apsnd$b (B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun$) B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_b_b_tree_b_tree_prod_prod_fun$)
-(declare-fun comp$aa (B_tree_a_b_fun_sum_b_tree_fun$) A_b_fun_b_tree_a_b_fun_sum_fun_a_b_fun_b_tree_fun_fun$)
-(declare-fun comp$ab (B_tree_b_tree_fun$) A_b_fun_b_tree_fun_a_b_fun_b_tree_fun_fun$)
-(declare-fun comp$ac (A_tree_b_tree_fun$ A_a_tree_fun$) A_b_tree_fun$)
-(declare-fun comp$ad (B_tree_a_b_fun_sum_b_tree_fun$) B_tree_b_tree_a_b_fun_sum_fun_b_tree_b_tree_fun_fun$)
-(declare-fun comp$ae (B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_b_b_tree_b_tree_prod_prod_fun$ A_b_fun_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun$) A_b_fun_b_b_tree_b_tree_prod_prod_fun$)
-(declare-fun comp$af (B_tree_b_b_tree_b_tree_prod_prod_fun$ A_b_fun_b_tree_fun$) A_b_fun_b_b_tree_b_tree_prod_prod_fun$)
-(declare-fun comp$ag (A_a_a_prod_prod_b_b_b_prod_prod_fun$ A_a_a_prod_prod_a_a_a_prod_prod_fun$) A_a_a_prod_prod_b_b_b_prod_prod_fun$)
-(declare-fun comp$ah (A_tree_b_tree_fun$) B_a_tree_fun_b_b_tree_fun_fun$)
-(declare-fun comp$ai (A_b_b_prod_prod_b_b_b_prod_prod_fun$ B_a_b_b_prod_prod_fun$) B_b_b_b_prod_prod_fun$)
-(declare-fun comp$aj (A_b_tree_b_tree_prod_prod_b_b_tree_b_tree_prod_prod_fun$ B_tree_a_b_tree_b_tree_prod_prod_fun$) B_tree_b_b_tree_b_tree_prod_prod_fun$)
-(declare-fun comp$ak (A_tree_a_tree_fun$ B_a_tree_fun$) B_a_tree_fun$)
-(declare-fun comp$al (A_b_b_prod_prod_a_b_b_prod_prod_fun$) B_a_b_b_prod_prod_fun_b_a_b_b_prod_prod_fun_fun$)
-(declare-fun comp$am (A_b_tree_b_tree_prod_prod_a_b_tree_b_tree_prod_prod_fun$) B_tree_a_b_tree_b_tree_prod_prod_fun_b_tree_a_b_tree_b_tree_prod_prod_fun_fun$)
-(declare-fun comp$an (B_b_prod_b_b_prod_fun$ B_b_b_prod_fun$ B$) B_b_prod$)
-(declare-fun comp$ao (B_b_prod_b_tree_b_prod_fun$ B_b_b_prod_fun$ B$) B_tree_b_prod$)
-(declare-fun comp$ap (B_tree_b_tree_fun$) B_b_tree_fun_b_b_tree_fun_fun$)
-(declare-fun comp$aq (B_tree_b_prod_b_b_prod_fun$ B_tree_b_tree_b_prod_fun$ B_tree$) B_b_prod$)
-(declare-fun comp$ar (B_b_fun$) B_tree_b_fun_b_tree_b_fun_fun$)
-(declare-fun comp$as (B_tree_b_prod_b_tree_b_prod_fun$ B_tree_b_tree_b_prod_fun$ B_tree$) B_tree_b_prod$)
-(declare-fun comp$at (B_b_tree_prod_b_b_tree_prod_fun$ B_b_b_tree_prod_fun$ B$) B_b_tree_prod$)
-(declare-fun comp$au (B_b_tree_prod_b_tree_b_tree_prod_fun$ B_b_b_tree_prod_fun$ B$) B_tree_b_tree_prod$)
-(declare-fun comp$av (B_tree_b_tree_prod_b_b_tree_prod_fun$ B_tree_b_tree_b_tree_prod_fun$ B_tree$) B_b_tree_prod$)
-(declare-fun comp$aw (B_tree_b_tree_prod_b_tree_b_tree_prod_fun$ B_tree_b_tree_b_tree_prod_fun$ B_tree$) B_tree_b_tree_prod$)
-(declare-fun comp$ax (A_tree_a_a_tree_a_tree_prod_prod_fun$ A_tree_a_tree_fun$) A_tree_a_a_tree_a_tree_prod_prod_fun$)
-(declare-fun comp$ay (A_a_tree_a_tree_prod_prod_a_a_tree_a_tree_prod_prod_fun$ A_tree_a_a_tree_a_tree_prod_prod_fun$) A_tree_a_a_tree_a_tree_prod_prod_fun$)
-(declare-fun comp$az (B_tree_b_b_tree_b_tree_prod_prod_fun$ A_tree_b_tree_fun$) A_tree_b_b_tree_b_tree_prod_prod_fun$)
-(declare-fun comp$ba (A_a_tree_a_tree_prod_prod_b_b_tree_b_tree_prod_prod_fun$ A_tree_a_a_tree_a_tree_prod_prod_fun$) A_tree_b_b_tree_b_tree_prod_prod_fun$)
-(declare-fun comp$bb (B_tree_b_b_tree_b_tree_prod_prod_fun$ B_tree_b_tree_fun$) B_tree_b_b_tree_b_tree_prod_prod_fun$)
-(declare-fun comp$bc (B_b_tree_b_tree_prod_prod_b_b_tree_b_tree_prod_prod_fun$ B_tree_b_b_tree_b_tree_prod_prod_fun$) B_tree_b_b_tree_b_tree_prod_prod_fun$)
-(declare-fun comp$bd (A_a_prod_b_b_prod_fun$) A_a_a_prod_fun_a_b_b_prod_fun_fun$)
-(declare-fun comp$be (A_a_tree_b_sum_a_tree_b_sum_prod_prod_b_b_tree_b_sum_b_tree_b_sum_prod_prod_fun$ B_a_a_tree_b_sum_a_tree_b_sum_prod_prod_fun$) B_b_b_tree_b_sum_b_tree_b_sum_prod_prod_fun$)
-(declare-fun comp$bf (A_a_tree_b_tree_sum_a_tree_b_tree_sum_prod_prod_b_b_tree_b_tree_sum_b_tree_b_tree_sum_prod_prod_fun$ B_tree_a_a_tree_b_tree_sum_a_tree_b_tree_sum_prod_prod_fun$) B_tree_b_b_tree_b_tree_sum_b_tree_b_tree_sum_prod_prod_fun$)
-(declare-fun comp$bg (A_a_tree_b_sum_a_tree_b_sum_prod_prod_a_a_tree_b_sum_a_tree_b_sum_prod_prod_fun$) B_a_a_tree_b_sum_a_tree_b_sum_prod_prod_fun_b_a_a_tree_b_sum_a_tree_b_sum_prod_prod_fun_fun$)
-(declare-fun comp$bh (A_a_tree_b_tree_sum_a_tree_b_tree_sum_prod_prod_a_a_tree_b_tree_sum_a_tree_b_tree_sum_prod_prod_fun$) B_tree_a_a_tree_b_tree_sum_a_tree_b_tree_sum_prod_prod_fun_b_tree_a_a_tree_b_tree_sum_a_tree_b_tree_sum_prod_prod_fun_fun$)
-(declare-fun comp$bi (A_a_sum_b_b_sum_fun$ A_a_sum_a_a_sum_fun$) A_a_sum_b_b_sum_fun$)
-(declare-fun comp$bj (B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_fun$ A_b_fun_b_tree_a_b_fun_sum_fun$) A_b_fun_b_tree_a_b_fun_sum_fun$)
-(declare-fun comp$bk (A_b_fun_b_tree_a_b_fun_sum_fun$ A_b_fun_a_b_fun_fun$) A_b_fun_b_tree_a_b_fun_sum_fun$)
-(declare-fun comp$bl (A_a_sum_b_fun$ A_a_sum_a_a_sum_fun$) A_a_sum_b_fun$)
-(declare-fun comp$bm (A_b_fun_b_tree_fun$) A_b_fun_a_b_fun_fun_a_b_fun_b_tree_fun_fun$)
-(declare-fun comp$bn (B_b_sum_b_fun$ B_b_sum_b_b_sum_fun$ B_b_sum$) B$)
-(declare-fun comp$bo (B_b_sum_b_fun$ A_b_sum_b_b_sum_fun$ A_b_sum$) B$)
-(declare-fun comp$bp (B_b_sum_b_fun$ B_tree_b_sum_b_b_sum_fun$ B_tree_b_sum$) B$)
-(declare-fun comp$bq (B_tree_b_fun$) B_tree_b_tree_fun_b_tree_b_fun_fun$)
-(declare-fun comp$br (B_b_tree_sum_b_fun$ B_b_tree_sum_b_b_tree_sum_fun$ B_b_tree_sum$) B$)
-(declare-fun comp$bs (B_tree_b_sum_b_tree_fun$ B_b_sum_b_tree_b_sum_fun$ B_b_sum$) B_tree$)
-(declare-fun comp$bt (B_b_tree_fun$) B_b_fun_b_b_tree_fun_fun$)
-(declare-fun comp$bu (B_b_tree_sum_b_fun$ A_b_tree_sum_b_b_tree_sum_fun$ A_b_tree_sum$) B$)
-(declare-fun comp$bv (B_b_tree_sum_b_fun$ B_tree_b_tree_sum_b_b_tree_sum_fun$ B_tree_b_tree_sum$) B$)
-(declare-fun comp$bw (B_tree_b_sum_b_tree_fun$ B_tree_b_sum_b_tree_b_sum_fun$ B_tree_b_sum$) B_tree$)
-(declare-fun comp$bx (B_tree_b_tree_sum_b_tree_fun$ B_b_tree_sum_b_tree_b_tree_sum_fun$ B_b_tree_sum$) B_tree$)
-(declare-fun comp$by (B_tree_b_tree_sum_b_tree_fun$ B_tree_b_tree_sum_b_tree_b_tree_sum_fun$ B_tree_b_tree_sum$) B_tree$)
-(declare-fun comp$bz (B_b_tree_b_tree_prod_prod_b_fun$ B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_b_b_tree_b_tree_prod_prod_fun$) B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_b_fun$)
-(declare-fun comp$ca (B_b_fun$ B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_b_fun$) B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_b_fun$)
-(declare-fun comp$cb (B_tree_b_tree_prod_b_tree_fun$ B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun$) B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_fun$)
-(declare-fun comp$cc (B_tree_a_b_fun_sum_b_tree_fun$ B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_fun$) B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_fun$)
-(declare-fun comp$cd (B_b_tree_b_tree_prod_prod_b_tree_b_tree_prod_fun$ B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_b_b_tree_b_tree_prod_prod_fun$) B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_b_tree_b_tree_prod_fun$)
-(declare-fun comp$ce (B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun$ B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun$) B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_b_tree_b_tree_prod_fun$)
-(declare-fun comp$cf (B_b_prod_b_fun$) B_b_b_prod_fun_b_b_fun_fun$)
-(declare-fun comp$cg (B_tree_b_tree_prod_b_tree_fun$) B_tree_b_tree_b_tree_prod_fun_b_tree_b_tree_fun_fun$)
-(declare-fun comp$ch (B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_fun$) B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_fun_fun$)
-(declare-fun comp$ci (B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_b_fun$ B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_prod_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun$ B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_prod$) B$)
-(declare-fun comp$cj (B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_fun$) B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_fun_fun$)
-(declare-fun convol$ (B_b_fun$ B_b_fun$) B_b_b_prod_fun$)
-(declare-fun id_bnf$ (B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$) B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$)
-(declare-fun member$ (B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$ B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_set$) Bool)
-(declare-fun convol$a (B_b_tree_fun$ B_b_fun$ B$) B_tree_b_prod$)
-(declare-fun convol$b (B_tree_b_tree_fun$ B_tree_b_fun$) B_tree_b_tree_b_prod_fun$)
-(declare-fun convol$c (B_tree_b_fun$ B_tree_b_fun$ B_tree$) B_b_prod$)
-(declare-fun convol$d (B_b_fun$ B_b_tree_fun$) B_b_b_tree_prod_fun$)
-(declare-fun convol$e (B_b_tree_fun$ B_b_tree_fun$ B$) B_tree_b_tree_prod$)
-(declare-fun convol$f (B_tree_b_tree_fun$ B_tree_b_tree_fun$) B_tree_b_tree_b_tree_prod_fun$)
-(declare-fun convol$g (B_tree_b_fun$ B_tree_b_tree_fun$ B_tree$) B_b_tree_prod$)
-(declare-fun convol$h (A_b_fun$) A_b_fun_a_b_b_prod_fun_fun$)
-(declare-fun convol$i (A_a_fun$ A_a_fun$) A_a_a_prod_fun$)
-(declare-fun fun_app$ (B_tree_b_tree_b_tree_prod_fun$ B_tree$) B_tree_b_tree_prod$)
-(declare-fun id_bnf$a (B_b_tree_b_tree_prod_prod$) B_b_tree_b_tree_prod_prod$)
-(declare-fun id_bnf$b (A_a_tree_a_tree_prod_prod$) A_a_tree_a_tree_prod_prod$)
-(declare-fun id_bnf$c () A_a_fun$)
-(declare-fun id_bnf$d (B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$) B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)
-(declare-fun id_bnf$e (B_tree_a_b_fun_sum$) B_tree_a_b_fun_sum$)
-(declare-fun map_sum$ (A_tree_b_tree_fun$ B_b_fun$) A_tree_b_sum_b_tree_b_sum_fun$)
-(declare-fun member$a (B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$ B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_set$) Bool)
-(declare-fun uncurry$ (B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun_fun$) B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_prod_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun$)
-(declare-fun case_sum$ (B_tree_b_tree_fun$) A_b_fun_b_tree_fun_b_tree_a_b_fun_sum_b_tree_fun_fun$)
-(declare-fun ctor_rec$ (A_b_fun$) A_b_fun$)
-(declare-fun fun_app$a (B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun$ B_tree_a_b_fun_sum$) B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)
-(declare-fun fun_app$b (B_b_b_prod_fun$ B$) B_b_prod$)
-(declare-fun fun_app$c (A_b_fun_b_tree_fun$ A_b_fun$) B_tree$)
-(declare-fun fun_app$d (A_tree_b_tree_fun$ A_tree$) B_tree$)
-(declare-fun fun_app$e (B_tree_b_tree_prod_b_tree_fun$ B_tree_b_tree_prod$) B_tree$)
-(declare-fun fun_app$f (B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_fun$ B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$) B_tree_a_b_fun_sum$)
-(declare-fun fun_app$g (B_b_tree_b_tree_prod_prod_b_tree_b_tree_prod_fun$ B_b_tree_b_tree_prod_prod$) B_tree_b_tree_prod$)
-(declare-fun fun_app$h (B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun$ B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$) B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)
-(declare-fun fun_app$i (B_b_prod_b_fun$ B_b_prod$) B$)
-(declare-fun fun_app$j (B_b_tree_b_tree_prod_prod_b_fun$ B_b_tree_b_tree_prod_prod$) B$)
-(declare-fun fun_app$k (B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_b_fun$ B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$) B$)
-(declare-fun fun_app$l (A_b_fun_b_tree_a_b_fun_sum_fun$ A_b_fun$) B_tree_a_b_fun_sum$)
-(declare-fun fun_app$m (B_tree_b_tree_a_b_fun_sum_fun$ B_tree$) B_tree_a_b_fun_sum$)
-(declare-fun fun_app$n (B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun_fun$ B_tree_a_b_fun_sum$) B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun$)
-(declare-fun fun_app$o (B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun$ B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$) B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$)
-(declare-fun fun_app$p (B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun_fun$ B$) B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun$)
-(declare-fun fun_app$q (B_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun$ B$) B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$)
-(declare-fun fun_app$r (B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun_fun$ B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$) B_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun$)
-(declare-fun fun_app$s (B_tree_b_tree_fun_b_tree_b_tree_fun_fun$ B_tree_b_tree_fun$) B_tree_b_tree_fun$)
-(declare-fun fun_app$t (B_b_fun_b_b_fun_fun$ B_b_fun$) B_b_fun$)
-(declare-fun fun_app$u (A_b_fun_a_b_fun_fun$ A_b_fun$) A_b_fun$)
-(declare-fun fun_app$v (A_a_fun_a_b_fun_fun$ A_a_fun$) A_b_fun$)
-(declare-fun fun_app$w (B_tree_a_b_fun_sum_b_tree_fun$ B_tree_a_b_fun_sum$) B_tree$)
-(declare-fun fun_app$x (B_tree_b_tree_fun$ B_tree$) B_tree$)
-(declare-fun fun_app$y (B_tree_b_tree_fun_b_tree_fun$ B_tree_b_tree_fun$) B_tree$)
-(declare-fun fun_app$z (B_b_fun_b_fun$ B_b_fun$) B$)
-(declare-fun map_prod$ (B_b_fun$ B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun$) B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_b_b_tree_b_tree_prod_prod_fun$)
-(declare-fun map_sum$a (A_tree_b_tree_fun$ B_tree_b_tree_fun$) A_tree_b_tree_sum_b_tree_b_tree_sum_fun$)
-(declare-fun map_sum$b (A_tree_a_tree_fun$ B_b_fun$) A_tree_b_sum_a_tree_b_sum_fun$)
-(declare-fun map_sum$c (A_tree_a_tree_fun$ B_tree_b_tree_fun$) A_tree_b_tree_sum_a_tree_b_tree_sum_fun$)
-(declare-fun map_sum$d (A_b_fun$ A_b_fun$) A_a_sum_b_b_sum_fun$)
-(declare-fun map_sum$e (A_a_fun$ A_a_fun$) A_a_sum_a_a_sum_fun$)
-(declare-fun map_sum$f (B_b_fun$ B_b_fun$) B_b_sum_b_b_sum_fun$)
-(declare-fun map_sum$g (B_b_fun$ B_tree_b_tree_fun$) B_b_tree_sum_b_b_tree_sum_fun$)
-(declare-fun map_sum$h (B_tree_b_tree_fun$ B_b_fun$) B_tree_b_sum_b_tree_b_sum_fun$)
-(declare-fun map_sum$i (B_tree_b_tree_fun$ B_tree_b_tree_fun$) B_tree_b_tree_sum_b_tree_b_tree_sum_fun$)
-(declare-fun map_sum$j (B_tree_b_tree_fun$) A_b_fun_a_b_fun_fun_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_fun_fun$)
-(declare-fun map_sum$k (A_b_fun$ B_b_fun$) A_b_sum_b_b_sum_fun$)
-(declare-fun map_sum$l (B_tree_b_fun$ B_b_fun$) B_tree_b_sum_b_b_sum_fun$)
-(declare-fun map_sum$m (B_b_tree_fun$ B_b_fun$) B_b_sum_b_tree_b_sum_fun$)
-(declare-fun map_sum$n (A_b_fun$ B_tree_b_tree_fun$) A_b_tree_sum_b_b_tree_sum_fun$)
-(declare-fun map_sum$o (B_tree_b_fun$ B_tree_b_tree_fun$) B_tree_b_tree_sum_b_b_tree_sum_fun$)
-(declare-fun map_sum$p (B_b_tree_fun$ B_tree_b_tree_fun$) B_b_tree_sum_b_tree_b_tree_sum_fun$)
-(declare-fun map_tree$ (A_b_fun$) A_tree_b_tree_fun$)
-(declare-fun uncurry$a (B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun_fun$) B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun$)
-(declare-fun uncurry$b (B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun_fun$) B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun$)
-(declare-fun uncurry$c (B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_b_tree_b_tree_prod_prod_fun_fun$) B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_b_b_tree_b_tree_prod_prod_fun$)
-(declare-fun uncurry$d (B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_b_tree_b_tree_prod_fun_fun$) B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun$)
-(declare-fun case_sum$a (B_b_fun$ B_b_fun$) B_b_sum_b_fun$)
-(declare-fun case_sum$b (A_b_fun$ B_tree_b_fun$ A_b_tree_sum$) B$)
-(declare-fun case_sum$c (A_b_fun$ B_b_fun$ A_b_sum$) B$)
-(declare-fun case_sum$d (A_b_fun$ A_b_fun$) A_a_sum_b_fun$)
-(declare-fun case_sum$e (A_a_fun$) A_a_fun_a_a_sum_a_fun_fun$)
-(declare-fun case_sum$f (B_tree_bool_fun$) A_b_fun_bool_fun_b_tree_a_b_fun_sum_bool_fun_fun$)
-(declare-fun case_sum$g (B_tree_b_fun$ B_b_fun$ B_tree_b_sum$) B$)
-(declare-fun case_sum$h (B_b_fun$ B_tree_b_fun$) B_b_tree_sum_b_fun$)
-(declare-fun case_sum$i (B_tree_b_tree_fun$ B_b_tree_fun$) B_tree_b_sum_b_tree_fun$)
-(declare-fun case_sum$j (B_b_tree_fun$ B_b_tree_fun$ B_b_sum$) B_tree$)
-(declare-fun case_sum$k (B_tree_b_fun$ B_tree_b_fun$ B_tree_b_tree_sum$) B$)
-(declare-fun case_sum$l (B_tree_b_tree_fun$ B_tree_b_tree_fun$) B_tree_b_tree_sum_b_tree_fun$)
-(declare-fun case_sum$m (B_b_tree_fun$ B_tree_b_tree_fun$ B_b_tree_sum$) B_tree$)
-(declare-fun ctor_tree$ (B_b_tree_b_tree_prod_prod$) B_tree$)
-(declare-fun dtor_tree$ () B_tree_b_b_tree_b_tree_prod_prod_fun$)
-(declare-fun fun_app$aa (B_b_fun$ B$) B$)
-(declare-fun fun_app$ab (A_b_fun_b_fun$ A_b_fun$) B$)
-(declare-fun fun_app$ac (A_b_fun$ A$) B$)
-(declare-fun fun_app$ad (B_tree_a_b_fun_sum_bool_fun$ B_tree_a_b_fun_sum$) Bool)
-(declare-fun fun_app$ae (B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_bool_fun_fun$ B_tree_a_b_fun_sum$) B_tree_a_b_fun_sum_bool_fun$)
-(declare-fun fun_app$af (B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_bool_fun$ B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$) Bool)
-(declare-fun fun_app$ag (B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_bool_fun_fun$ B$) B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_bool_fun$)
-(declare-fun fun_app$ah (A_b_fun_b_tree_fun_a_b_fun_b_tree_fun_fun$ A_b_fun_b_tree_fun$) A_b_fun_b_tree_fun$)
-(declare-fun fun_app$ai (B_tree_a_b_fun_sum_b_tree_b_tree_prod_fun$ B_tree_a_b_fun_sum$) B_tree_b_tree_prod$)
-(declare-fun fun_app$aj (B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_b_tree_b_tree_prod_fun_fun$ B_tree_a_b_fun_sum$) B_tree_a_b_fun_sum_b_tree_b_tree_prod_fun$)
-(declare-fun fun_app$ak (B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_b_tree_b_tree_prod_prod_fun$ B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$) B_b_tree_b_tree_prod_prod$)
-(declare-fun fun_app$al (B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_b_tree_b_tree_prod_prod_fun_fun$ B$) B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_b_tree_b_tree_prod_prod_fun$)
-(declare-fun fun_app$am (B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun$ B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$) B_tree_b_tree_prod$)
-(declare-fun fun_app$an (A_b_fun_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun$ A_b_fun$) B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$)
-(declare-fun fun_app$ao (A_b_fun_a_b_fun_fun_a_b_fun_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun_fun$ A_b_fun_a_b_fun_fun$) A_b_fun_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun$)
-(declare-fun fun_app$ap (A_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun_fun_fun$ A_b_fun_b_tree_fun$) A_b_fun_a_b_fun_fun_a_b_fun_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun_fun$)
-(declare-fun fun_app$aq (A_b_fun_bool_fun_a_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun_fun_fun_fun$ A_b_fun_bool_fun$) A_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun_fun_fun$)
-(declare-fun fun_app$ar (A_b_fun_a_b_fun_fun_a_b_fun_bool_fun_a_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun_fun_fun_fun_fun$ A_b_fun_a_b_fun_fun$) A_b_fun_bool_fun_a_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun_fun_fun_fun$)
-(declare-fun fun_app$as (A_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_bool_fun_a_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun_fun_fun_fun_fun_fun$ A_b_fun_b_tree_fun$) A_b_fun_a_b_fun_fun_a_b_fun_bool_fun_a_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun_fun_fun_fun_fun$)
-(declare-fun fun_app$at (A_b_fun_bool_fun_a_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_bool_fun_a_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun_fun_fun_fun_fun_fun_fun$ A_b_fun_bool_fun$) A_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_bool_fun_a_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun_fun_fun_fun_fun_fun$)
-(declare-fun fun_app$au (A_b_fun_bool_fun$ A_b_fun$) Bool)
-(declare-fun fun_app$av (B_tree_b_fun$ B_tree$) B$)
-(declare-fun fun_app$aw (A_a_fun$ A$) A$)
-(declare-fun fun_app$ax (B_tree_b_tree_prod_b_tree_b_tree_prod_fun$ B_tree_b_tree_prod$) B_tree_b_tree_prod$)
-(declare-fun fun_app$ay (B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun$ B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$) B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)
-(declare-fun fun_app$az (B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_b_b_tree_b_tree_prod_prod_fun$ B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$) B_b_tree_b_tree_prod_prod$)
-(declare-fun fun_app$ba (B_tree_a_b_fun_sum_b_tree_fun_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun_fun$ B_tree_a_b_fun_sum_b_tree_fun$) B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun$)
-(declare-fun fun_app$bb (A_b_fun_b_tree_fun_b_tree_a_b_fun_sum_b_tree_fun_fun$ A_b_fun_b_tree_fun$) B_tree_a_b_fun_sum_b_tree_fun$)
-(declare-fun fun_app$bc (B_tree_b_b_tree_b_tree_prod_prod_fun$ B_tree$) B_b_tree_b_tree_prod_prod$)
-(declare-fun fun_app$bd (A_tree_a_a_tree_a_tree_prod_prod_fun$ A_tree$) A_a_tree_a_tree_prod_prod$)
-(declare-fun fun_app$be (B_tree_a_tree_fun$ B_tree$) A_tree$)
-(declare-fun fun_app$bf (A_tree_a_tree_fun$ A_tree$) A_tree$)
-(declare-fun fun_app$bg (A_b_fun_a_a_fun_fun$ A_b_fun$) A_a_fun$)
-(declare-fun fun_app$bh (A_a_fun_a_a_fun_fun$ A_a_fun$) A_a_fun$)
-(declare-fun fun_app$bi (B_a_fun_b_b_fun_fun$ B_a_fun$) B_b_fun$)
-(declare-fun fun_app$bj (B_a_fun_b_a_fun_fun$ B_a_fun$) B_a_fun$)
-(declare-fun fun_app$bk (B_b_fun_b_a_fun_fun$ B_b_fun$) B_a_fun$)
-(declare-fun fun_app$bl (A_tree_b_b_prod_tree_fun$ A_tree$) B_b_prod_tree$)
-(declare-fun fun_app$bm (A_a_fun_a_b_b_prod_fun_fun$ A_a_fun$) A_b_b_prod_fun$)
-(declare-fun fun_app$bn (A_a_sum_tree_a_tree_fun$ A_a_sum_tree$) A_tree$)
-(declare-fun fun_app$bo (A_a_sum_tree_b_tree_fun$ A_a_sum_tree$) B_tree$)
-(declare-fun fun_app$bp (A_tree_b_tree_fun_a_tree_b_tree_fun_fun$ A_tree_b_tree_fun$) A_tree_b_tree_fun$)
-(declare-fun fun_app$bq (A_tree_a_tree_fun_a_tree_b_tree_fun_fun$ A_tree_a_tree_fun$) A_tree_b_tree_fun$)
-(declare-fun fun_app$br (A_tree_b_tree_fun_a_tree_a_tree_fun_fun$ A_tree_b_tree_fun$) A_tree_a_tree_fun$)
-(declare-fun fun_app$bs (A_tree_a_tree_fun_a_tree_a_tree_fun_fun$ A_tree_a_tree_fun$) A_tree_a_tree_fun$)
-(declare-fun fun_app$bt (B_tree_a_tree_fun_b_tree_b_tree_fun_fun$ B_tree_a_tree_fun$) B_tree_b_tree_fun$)
-(declare-fun fun_app$bu (B_tree_tree_b_tree_tree_fun$ B_tree_tree$) B_tree_tree$)
-(declare-fun fun_app$bv (B_b_sum_tree_b_b_sum_tree_fun$ B_b_sum_tree$) B_b_sum_tree$)
-(declare-fun fun_app$bw (B_tree_b_tree_fun_tree_b_tree_b_tree_fun_tree_fun$ B_tree_b_tree_fun_tree$) B_tree_b_tree_fun_tree$)
-(declare-fun fun_app$bx (B_b_fun_tree_b_b_fun_tree_fun$ B_b_fun_tree$) B_b_fun_tree$)
-(declare-fun fun_app$by (A_b_fun_tree_a_b_fun_tree_fun$ A_b_fun_tree$) A_b_fun_tree$)
-(declare-fun fun_app$bz (B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_fun_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun_fun$ B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_fun$) B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun$)
-(declare-fun fun_app$ca (B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_fun$ B_tree_a_b_fun_sum$) B_tree_a_b_fun_sum$)
-(declare-fun fun_app$cb (B_b_tree_a_b_fun_sum_fun$ B$) B_tree_a_b_fun_sum$)
-(declare-fun fun_app$cc (B_tree_a_b_fun_sum_b_fun$ B_tree_a_b_fun_sum$) B$)
-(declare-fun fun_app$cd (B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun$ B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$) B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$)
-(declare-fun fun_app$ce (B_b_prod_b_b_prod_fun$ B_b_prod$) B_b_prod$)
-(declare-fun fun_app$cf (A_a_prod_b_b_prod_fun$ A_a_prod$) B_b_prod$)
-(declare-fun fun_app$cg (A_a_prod_a_a_prod_fun$ A_a_prod$) A_a_prod$)
-(declare-fun fun_app$ch (A_tree_b_fun$ A_tree$) B$)
-(declare-fun fun_app$ci (B_b_sum_b_fun$ B_b_sum$) B$)
-(declare-fun fun_app$cj (A_a_sum_b_fun$ A_a_sum$) B$)
-(declare-fun fun_app$ck (A_a_sum_a_fun$ A_a_sum$) A$)
-(declare-fun fun_app$cl (A_a_fun_a_a_sum_a_fun_fun$ A_a_fun$) A_a_sum_a_fun$)
-(declare-fun fun_app$cm (B_b_tree_b_tree_prod_prod_b_b_tree_b_tree_prod_prod_fun$ B_b_tree_b_tree_prod_prod$) B_b_tree_b_tree_prod_prod$)
-(declare-fun fun_app$cn (B_b_sum_b_b_sum_fun$ B_b_sum$) B_b_sum$)
-(declare-fun fun_app$co (B_a_fun$ B$) A$)
-(declare-fun fun_app$cp (A_b_b_prod_fun$ A$) B_b_prod$)
-(declare-fun fun_app$cq (B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_bool_fun$ B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$) Bool)
-(declare-fun fun_app$cr (B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun_fun$ B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun$) B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun$)
-(declare-fun fun_app$cs (B_tree_b_tree_fun_b_tree_b_tree_prod_b_tree_b_tree_prod_fun_fun$ B_tree_b_tree_fun$) B_tree_b_tree_prod_b_tree_b_tree_prod_fun$)
-(declare-fun fun_app$ct (B_tree_a_b_fun_sum_b_tree_fun_b_tree_a_b_fun_sum_b_tree_fun_fun$ B_tree_a_b_fun_sum_b_tree_fun$) B_tree_a_b_fun_sum_b_tree_fun$)
-(declare-fun fun_app$cu (B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun_fun$ B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun$) B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun$)
-(declare-fun fun_app$cv (B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_fun_b_tree_a_b_fun_sum_b_tree_fun_fun$ B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_fun$) B_tree_a_b_fun_sum_b_tree_fun$)
-(declare-fun fun_app$cw (B_b_tree_prod_b_b_tree_prod_fun$ B_b_tree_prod$) B_b_tree_prod$)
-(declare-fun fun_app$cx (B_tree_b_prod_b_tree_b_prod_fun$ B_tree_b_prod$) B_tree_b_prod$)
-(declare-fun fun_app$cy (A_b_fun_b_tree_a_b_fun_sum_fun_a_b_fun_b_tree_fun_fun$ A_b_fun_b_tree_a_b_fun_sum_fun$) A_b_fun_b_tree_fun$)
-(declare-fun fun_app$cz (A_a_fun_a_a_tree_fun_fun$ A_a_fun$) A_a_tree_fun$)
-(declare-fun fun_app$da (A_a_tree_fun_a_a_fun_a_a_tree_fun_fun_fun$ A_a_tree_fun$) A_a_fun_a_a_tree_fun_fun$)
-(declare-fun fun_app$db (A_bool_fun_a_a_tree_fun_a_a_fun_a_a_tree_fun_fun_fun_fun$ A_bool_fun$) A_a_tree_fun_a_a_fun_a_a_tree_fun_fun_fun$)
-(declare-fun fun_app$dc (A_a_fun_a_bool_fun_a_a_tree_fun_a_a_fun_a_a_tree_fun_fun_fun_fun_fun$ A_a_fun$) A_bool_fun_a_a_tree_fun_a_a_fun_a_a_tree_fun_fun_fun_fun$)
-(declare-fun fun_app$dd (A_a_tree_fun_a_a_fun_a_bool_fun_a_a_tree_fun_a_a_fun_a_a_tree_fun_fun_fun_fun_fun_fun$ A_a_tree_fun$) A_a_fun_a_bool_fun_a_a_tree_fun_a_a_fun_a_a_tree_fun_fun_fun_fun_fun$)
-(declare-fun fun_app$de (A_bool_fun_a_a_tree_fun_a_a_fun_a_bool_fun_a_a_tree_fun_a_a_fun_a_a_tree_fun_fun_fun_fun_fun_fun_fun$ A_bool_fun$) A_a_tree_fun_a_a_fun_a_bool_fun_a_a_tree_fun_a_a_fun_a_a_tree_fun_fun_fun_fun_fun_fun$)
-(declare-fun fun_app$df (A_b_fun_bool_fun_b_tree_a_b_fun_sum_bool_fun_fun$ A_b_fun_bool_fun$) B_tree_a_b_fun_sum_bool_fun$)
-(declare-fun fun_app$dg (B_tree_bool_fun$ B_tree$) Bool)
-(declare-fun fun_app$dh (A_b_fun_a_b_fun_fun_a_b_fun_b_tree_fun_fun$ A_b_fun_a_b_fun_fun$) A_b_fun_b_tree_fun$)
-(declare-fun fun_app$di (A_b_fun_a_b_fun_fun_a_b_fun_a_b_fun_fun_a_b_fun_b_tree_fun_fun_fun$ A_b_fun_a_b_fun_fun$) A_b_fun_a_b_fun_fun_a_b_fun_b_tree_fun_fun$)
-(declare-fun fun_app$dj (A_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_b_tree_fun_fun_fun$ A_b_fun_b_tree_fun$) A_b_fun_a_b_fun_fun_a_b_fun_b_tree_fun_fun$)
-(declare-fun fun_app$dk (A_b_fun_bool_fun_a_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_b_tree_fun_fun_fun_fun$ A_b_fun_bool_fun$) A_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_b_tree_fun_fun_fun$)
-(declare-fun fun_app$dl (A_b_fun_a_b_fun_fun_a_b_fun_bool_fun_a_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_b_tree_fun_fun_fun_fun_fun$ A_b_fun_a_b_fun_fun$) A_b_fun_bool_fun_a_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_b_tree_fun_fun_fun_fun$)
-(declare-fun fun_app$dm (A_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_bool_fun_a_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_b_tree_fun_fun_fun_fun_fun_fun$ A_b_fun_b_tree_fun$) A_b_fun_a_b_fun_fun_a_b_fun_bool_fun_a_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_b_tree_fun_fun_fun_fun_fun$)
-(declare-fun fun_app$dn (A_b_fun_bool_fun_a_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_bool_fun_a_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_b_tree_fun_fun_fun_fun_fun_fun_fun$ A_b_fun_bool_fun$) A_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_bool_fun_a_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_b_tree_fun_fun_fun_fun_fun_fun$)
-(declare-fun fun_app$do (B_tree_b_tree_a_b_fun_sum_fun_b_tree_b_tree_fun_fun$ B_tree_b_tree_a_b_fun_sum_fun$) B_tree_b_tree_fun$)
-(declare-fun fun_app$dp (A_a_tree_fun$ A$) A_tree$)
-(declare-fun fun_app$dq (A_a_fun_a_a_fun_a_a_tree_fun_fun_fun$ A_a_fun$) A_a_fun_a_a_tree_fun_fun$)
-(declare-fun fun_app$dr (A_a_a_prod_prod_b_b_b_prod_prod_fun$ A_a_a_prod_prod$) B_b_b_prod_prod$)
-(declare-fun fun_app$ds (A_a_a_prod_prod_a_a_a_prod_prod_fun$ A_a_a_prod_prod$) A_a_a_prod_prod$)
-(declare-fun fun_app$dt (B_b_b_prod_prod_b_b_b_prod_prod_fun$ B_b_b_prod_prod$) B_b_b_prod_prod$)
-(declare-fun fun_app$du (B_tree_b_b_prod_prod_b_tree_b_b_prod_prod_fun$ B_tree_b_b_prod_prod$) B_tree_b_b_prod_prod$)
-(declare-fun fun_app$dv (B_tree_b_tree_b_tree_prod_prod_b_tree_b_tree_b_tree_prod_prod_fun$ B_tree_b_tree_b_tree_prod_prod$) B_tree_b_tree_b_tree_prod_prod$)
-(declare-fun fun_app$dw (B_a_tree_fun_b_b_tree_fun_fun$ B_a_tree_fun$) B_b_tree_fun$)
-(declare-fun fun_app$dx (B_a_b_b_prod_prod_fun_b_a_b_b_prod_prod_fun_fun$ B_a_b_b_prod_prod_fun$) B_a_b_b_prod_prod_fun$)
-(declare-fun fun_app$dy (B_tree_a_b_tree_b_tree_prod_prod_fun_b_tree_a_b_tree_b_tree_prod_prod_fun_fun$ B_tree_a_b_tree_b_tree_prod_prod_fun$) B_tree_a_b_tree_b_tree_prod_prod_fun$)
-(declare-fun fun_app$dz (B_b_tree_fun$ B$) B_tree$)
-(declare-fun fun_app$ea (B_b_fun_b_b_tree_fun_fun$ B_b_fun$) B_b_tree_fun$)
-(declare-fun fun_app$eb (B_b_tree_fun_b_b_tree_fun_fun$ B_b_tree_fun$) B_b_tree_fun$)
-(declare-fun fun_app$ec (B_tree_b_fun_b_tree_b_fun_fun$ B_tree_b_fun$) B_tree_b_fun$)
-(declare-fun fun_app$ed (B_tree_b_tree_b_prod_fun$ B_tree$) B_tree_b_prod$)
-(declare-fun fun_app$ee (B_b_b_tree_prod_fun$ B$) B_b_tree_prod$)
-(declare-fun fun_app$ef (A_a_tree_a_tree_prod_prod_a_a_tree_a_tree_prod_prod_fun$ A_a_tree_a_tree_prod_prod$) A_a_tree_a_tree_prod_prod$)
-(declare-fun fun_app$eg (A_a_tree_a_tree_prod_prod_b_b_tree_b_tree_prod_prod_fun$ A_a_tree_a_tree_prod_prod$) B_b_tree_b_tree_prod_prod$)
-(declare-fun fun_app$eh (A_b_fun_a_b_b_prod_fun_fun$ A_b_fun$) A_b_b_prod_fun$)
-(declare-fun fun_app$ei (A_a_a_prod_fun_a_b_b_prod_fun_fun$ A_a_a_prod_fun$) A_b_b_prod_fun$)
-(declare-fun fun_app$ej (B_a_a_tree_b_sum_a_tree_b_sum_prod_prod_fun_b_a_a_tree_b_sum_a_tree_b_sum_prod_prod_fun_fun$ B_a_a_tree_b_sum_a_tree_b_sum_prod_prod_fun$) B_a_a_tree_b_sum_a_tree_b_sum_prod_prod_fun$)
-(declare-fun fun_app$ek (B_tree_a_a_tree_b_tree_sum_a_tree_b_tree_sum_prod_prod_fun_b_tree_a_a_tree_b_tree_sum_a_tree_b_tree_sum_prod_prod_fun_fun$ B_tree_a_a_tree_b_tree_sum_a_tree_b_tree_sum_prod_prod_fun$) B_tree_a_a_tree_b_tree_sum_a_tree_b_tree_sum_prod_prod_fun$)
-(declare-fun fun_app$el (A_a_sum_b_b_sum_fun$ A_a_sum$) B_b_sum$)
-(declare-fun fun_app$em (A_a_sum_a_a_sum_fun$ A_a_sum$) A_a_sum$)
-(declare-fun fun_app$en (B_b_tree_sum_b_b_tree_sum_fun$ B_b_tree_sum$) B_b_tree_sum$)
-(declare-fun fun_app$eo (B_tree_b_sum_b_tree_b_sum_fun$ B_tree_b_sum$) B_tree_b_sum$)
-(declare-fun fun_app$ep (B_tree_b_tree_sum_b_tree_b_tree_sum_fun$ B_tree_b_tree_sum$) B_tree_b_tree_sum$)
-(declare-fun fun_app$eq (A_b_fun_a_b_fun_fun_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_fun_fun$ A_b_fun_a_b_fun_fun$) B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_fun$)
-(declare-fun fun_app$er (B_tree_b_tree_fun_b_tree_b_fun_fun$ B_tree_b_tree_fun$) B_tree_b_fun$)
-(declare-fun fun_app$es (B_b_tree_sum_b_fun$ B_b_tree_sum$) B$)
-(declare-fun fun_app$et (B_tree_b_sum_b_tree_fun$ B_tree_b_sum$) B_tree$)
-(declare-fun fun_app$eu (B_tree_b_tree_sum_b_tree_fun$ B_tree_b_tree_sum$) B_tree$)
-(declare-fun fun_app$ev (A_bool_fun$ A$) Bool)
-(declare-fun fun_app$ew (B_bool_fun$ B$) Bool)
-(declare-fun fun_app$ex (B_b_bool_fun_fun$ B$) B_bool_fun$)
-(declare-fun fun_app$ey (B_b_fun_b_b_bool_fun_fun_fun$ B_b_fun$) B_b_bool_fun_fun$)
-(declare-fun fun_app$ez (B_b_b_fun_b_b_bool_fun_fun_fun_fun$ B$) B_b_fun_b_b_bool_fun_fun_fun$)
-(declare-fun fun_app$fa (B_b_fun_b_b_b_fun_b_b_bool_fun_fun_fun_fun_fun$ B_b_fun$) B_b_b_fun_b_b_bool_fun_fun_fun_fun$)
-(declare-fun fun_app$fb (B_tree_b_tree_bool_fun_fun$ B_tree$) B_tree_bool_fun$)
-(declare-fun fun_app$fc (B_tree_b_tree_fun_b_tree_b_tree_bool_fun_fun_fun$ B_tree_b_tree_fun$) B_tree_b_tree_bool_fun_fun$)
-(declare-fun fun_app$fd (B_tree_b_tree_b_tree_fun_b_tree_b_tree_bool_fun_fun_fun_fun$ B_tree$) B_tree_b_tree_fun_b_tree_b_tree_bool_fun_fun_fun$)
-(declare-fun fun_app$fe (B_tree_b_tree_fun_b_tree_b_tree_b_tree_fun_b_tree_b_tree_bool_fun_fun_fun_fun_fun$ B_tree_b_tree_fun$) B_tree_b_tree_b_tree_fun_b_tree_b_tree_bool_fun_fun_fun_fun$)
-(declare-fun fun_app$ff (B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_bool_fun_fun$ B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$) B_bool_fun$)
-(declare-fun fun_app$fg (B_b_b_prod_fun_b_b_fun_fun$ B_b_b_prod_fun$) B_b_fun$)
-(declare-fun fun_app$fh (B_tree_b_tree_b_tree_prod_fun_b_tree_b_tree_fun_fun$ B_tree_b_tree_b_tree_prod_fun$) B_tree_b_tree_fun$)
-(declare-fun fun_app$fi (B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_fun_fun$ B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun$) B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_fun$)
-(declare-fun fun_app$fj (B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_fun_fun$ B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun$) B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_fun$)
-(declare-fun map_prod$a (B_tree_a_b_fun_sum_b_tree_fun$) B_tree_a_b_fun_sum_b_tree_fun_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun_fun$)
-(declare-fun map_prod$b (B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_fun$) B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_fun_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun_fun$)
-(declare-fun map_prod$c (B_b_tree_a_b_fun_sum_fun$ B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_fun$ B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$) B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)
-(declare-fun map_prod$d (B_tree_a_b_fun_sum_b_fun$ B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun$ B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$) B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$)
-(declare-fun map_prod$e (B_b_fun$ B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun$) B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun$)
-(declare-fun map_prod$f (B_b_fun$ B_b_fun$) B_b_prod_b_b_prod_fun$)
-(declare-fun map_prod$g (A_b_fun$ A_b_fun$) A_a_prod_b_b_prod_fun$)
-(declare-fun map_prod$h (A_a_fun$ A_a_fun$) A_a_prod_a_a_prod_fun$)
-(declare-fun map_prod$i (A_tree_b_fun$ A_tree_b_fun$ A_tree_a_tree_prod$) B_b_prod$)
-(declare-fun map_prod$j (B_b_fun$ B_tree_b_tree_prod_b_tree_b_tree_prod_fun$) B_b_tree_b_tree_prod_prod_b_b_tree_b_tree_prod_prod_fun$)
-(declare-fun map_prod$k (B_tree_b_tree_fun$) B_tree_b_tree_fun_b_tree_b_tree_prod_b_tree_b_tree_prod_fun_fun$)
-(declare-fun map_prod$l (B_b_fun$ B_tree_b_tree_fun$) B_b_tree_prod_b_b_tree_prod_fun$)
-(declare-fun map_prod$m (B_tree_b_tree_fun$ B_b_fun$) B_tree_b_prod_b_tree_b_prod_fun$)
-(declare-fun map_prod$n (B_b_tree_fun$ B_b_fun$) B_b_prod_b_tree_b_prod_fun$)
-(declare-fun map_prod$o (B_tree_b_fun$ B_b_fun$) B_tree_b_prod_b_b_prod_fun$)
-(declare-fun map_prod$p (B_b_tree_fun$ B_tree_b_tree_fun$) B_b_tree_prod_b_tree_b_tree_prod_fun$)
-(declare-fun map_prod$q (B_tree_b_fun$ B_tree_b_tree_fun$) B_tree_b_tree_prod_b_b_tree_prod_fun$)
-(declare-fun map_tree$a (B_b_fun$) B_tree_b_tree_fun$)
-(declare-fun map_tree$b (B_a_fun$) B_tree_a_tree_fun$)
-(declare-fun map_tree$c (A_a_fun$) A_tree_a_tree_fun$)
-(declare-fun map_tree$d (A_b_b_prod_fun$) A_tree_b_b_prod_tree_fun$)
-(declare-fun map_tree$e (A_a_sum_a_fun$) A_a_sum_tree_a_tree_fun$)
-(declare-fun map_tree$f (A_a_sum_b_fun$) A_a_sum_tree_b_tree_fun$)
-(declare-fun map_tree$g (B_tree_b_tree_fun$) B_tree_tree_b_tree_tree_fun$)
-(declare-fun map_tree$h (B_b_sum_b_b_sum_fun$) B_b_sum_tree_b_b_sum_tree_fun$)
-(declare-fun map_tree$i (B_tree_b_tree_fun_b_tree_b_tree_fun_fun$) B_tree_b_tree_fun_tree_b_tree_b_tree_fun_tree_fun$)
-(declare-fun map_tree$j (B_b_fun_b_b_fun_fun$) B_b_fun_tree_b_b_fun_tree_fun$)
-(declare-fun map_tree$k (A_b_fun_a_b_fun_fun$) A_b_fun_tree_a_b_fun_tree_fun$)
-(declare-fun pred_tree$ (A_bool_fun$ A_tree$) Bool)
-(declare-fun corec_tree$ (A_a_fun$) A_bool_fun_a_a_tree_fun_a_a_fun_a_bool_fun_a_a_tree_fun_a_a_fun_a_a_tree_fun_fun_fun_fun_fun_fun_fun$)
-(declare-fun ctor_tree$a (A_a_tree_a_tree_prod_prod$) A_tree$)
-(declare-fun dtor_tree$a () A_tree_a_a_tree_a_tree_prod_prod_fun$)
-(declare-fun corec_tree$a (A_b_fun$ A_bool_fun$ A_b_tree_fun$ A_a_fun$ A_bool_fun$ A_b_tree_fun$ A_a_fun$) A_b_tree_fun$)
-(declare-fun corec_tree$b (A_b_fun_b_fun$) A_b_fun_bool_fun_a_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_bool_fun_a_b_fun_b_tree_fun_a_b_fun_a_b_fun_fun_a_b_fun_b_tree_fun_fun_fun_fun_fun_fun_fun$)
-(declare-fun unfold_tree$ (A_b_fun_b_fun$) A_b_fun_a_b_fun_fun_a_b_fun_a_b_fun_fun_a_b_fun_b_tree_fun_fun_fun$)
-(declare-fun map_pre_tree$ (B_b_fun$ B_tree_a_b_fun_sum_b_tree_fun$) B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_b_b_tree_b_tree_prod_prod_fun$)
-(declare-fun tree_recurse$ (B_b_fun$) B_b_fun_b_b_tree_fun_fun$)
-(declare-fun unfold_tree$a (A_a_fun$) A_a_fun_a_a_fun_a_a_tree_fun_fun_fun$)
-(declare-fun unfold_tree$b (A_b_fun$ A_a_fun$ A_a_fun$ A$) B_tree$)
-(declare-fun unfold_tree$c (B_b_fun_b_fun$ B_b_fun_b_b_fun_fun$ B_b_fun_b_b_fun_fun$ B_b_fun$) B_tree$)
-(declare-fun unfold_tree$d (B_tree_b_tree_fun_b_tree_fun$ B_tree_b_tree_fun_b_tree_b_tree_fun_fun$ B_tree_b_tree_fun_b_tree_b_tree_fun_fun$ B_tree_b_tree_fun$) B_tree_tree$)
-(declare-fun map_pre_tree$a (A_b_fun$ A_b_fun$) A_a_a_prod_prod_b_b_b_prod_prod_fun$)
-(declare-fun map_pre_tree$b (A_a_fun$ A_a_fun$) A_a_a_prod_prod_a_a_a_prod_prod_fun$)
-(declare-fun map_pre_tree$c (B_b_fun$ B_b_fun$) B_b_b_prod_prod_b_b_b_prod_prod_fun$)
-(declare-fun map_pre_tree$d (B_b_fun$ B_tree_b_tree_fun$) B_b_tree_b_tree_prod_prod_b_b_tree_b_tree_prod_prod_fun$)
-(declare-fun map_pre_tree$e (B_tree_b_tree_fun$ B_b_fun$) B_tree_b_b_prod_prod_b_tree_b_b_prod_prod_fun$)
-(declare-fun map_pre_tree$f (B_tree_b_tree_fun$ B_tree_b_tree_fun$) B_tree_b_tree_b_tree_prod_prod_b_tree_b_tree_b_tree_prod_prod_fun$)
-(declare-fun map_pre_tree$g (A_b_fun$ B_b_fun$) A_b_b_prod_prod_b_b_b_prod_prod_fun$)
-(declare-fun map_pre_tree$h (A_b_fun$ B_tree_b_tree_fun$) A_b_tree_b_tree_prod_prod_b_b_tree_b_tree_prod_prod_fun$)
-(declare-fun map_pre_tree$i (A_a_fun$ B_b_fun$) A_b_b_prod_prod_a_b_b_prod_prod_fun$)
-(declare-fun map_pre_tree$j (A_a_fun$ B_tree_b_tree_fun$) A_b_tree_b_tree_prod_prod_a_b_tree_b_tree_prod_prod_fun$)
-(declare-fun map_pre_tree$k (A_a_fun$ A_tree_a_tree_fun$) A_a_tree_a_tree_prod_prod_a_a_tree_a_tree_prod_prod_fun$)
-(declare-fun map_pre_tree$l (A_b_fun$ A_tree_b_tree_fun$) A_a_tree_a_tree_prod_prod_b_b_tree_b_tree_prod_prod_fun$)
-(declare-fun map_pre_tree$m (A_b_fun$ A_tree_b_sum_b_tree_b_sum_fun$) A_a_tree_b_sum_a_tree_b_sum_prod_prod_b_b_tree_b_sum_b_tree_b_sum_prod_prod_fun$)
-(declare-fun map_pre_tree$n (A_b_fun$ A_tree_b_tree_sum_b_tree_b_tree_sum_fun$) A_a_tree_b_tree_sum_a_tree_b_tree_sum_prod_prod_b_b_tree_b_tree_sum_b_tree_b_tree_sum_prod_prod_fun$)
-(declare-fun map_pre_tree$o (A_a_fun$ A_tree_b_sum_a_tree_b_sum_fun$) A_a_tree_b_sum_a_tree_b_sum_prod_prod_a_a_tree_b_sum_a_tree_b_sum_prod_prod_fun$)
-(declare-fun map_pre_tree$p (A_a_fun$ A_tree_b_tree_sum_a_tree_b_tree_sum_fun$) A_a_tree_b_tree_sum_a_tree_b_tree_sum_prod_prod_a_a_tree_b_tree_sum_a_tree_b_tree_sum_prod_prod_fun$)
-(declare-fun tree_recurse$a (B_tree_b_tree_fun$ B_tree_b_tree_fun$ B_tree$) B_tree_tree$)
-(declare-fun tree_recurse$b (A_a_fun$) A_a_fun_a_a_tree_fun_fun$)
-(declare-fun dtor_corec_tree$ (A_b_fun_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun$) A_b_fun_b_tree_fun$)
-(declare-fun dtor_corec_tree$a (B_a_a_tree_b_sum_a_tree_b_sum_prod_prod_fun$) B_a_tree_fun$)
-(declare-fun dtor_corec_tree$b (B_b_b_tree_b_sum_b_tree_b_sum_prod_prod_fun$) B_b_tree_fun$)
-(declare-fun dtor_corec_tree$c (B_tree_a_a_tree_b_tree_sum_a_tree_b_tree_sum_prod_prod_fun$) B_tree_a_tree_fun$)
-(declare-fun dtor_corec_tree$d (B_tree_b_b_tree_b_tree_sum_b_tree_b_tree_sum_prod_prod_fun$) B_tree_b_tree_fun$)
-(declare-fun dtor_unfold_tree$ (B_a_b_b_prod_prod_fun$) B_a_tree_fun$)
-(declare-fun dtor_unfold_tree$a (B_b_b_b_prod_prod_fun$) B_b_tree_fun$)
-(declare-fun dtor_unfold_tree$b (B_tree_a_b_tree_b_tree_prod_prod_fun$) B_tree_a_tree_fun$)
-(declare-fun dtor_unfold_tree$c (B_tree_b_b_tree_b_tree_prod_prod_fun$) B_tree_b_tree_fun$)
-(declare-fun iso_tuple_update_accessor_eq_assist$ (B_b_fun_b_b_fun_fun$) B_b_fun_b_b_b_fun_b_b_bool_fun_fun_fun_fun_fun$)
-(declare-fun iso_tuple_update_accessor_eq_assist$a (B_tree_b_tree_fun_b_tree_b_tree_fun_fun$) B_tree_b_tree_fun_b_tree_b_tree_b_tree_fun_b_tree_b_tree_bool_fun_fun_fun_fun_fun$)
-(assert (forall ((?v0 B_tree$)) (! (= (fun_app$ uvk$ ?v0) (pair$ ?v0 ?v0)) :pattern ((fun_app$ uvk$ ?v0)))))
-(assert (forall ((?v0 B_tree_a_b_fun_sum$)) (! (= (fun_app$a uvl$ ?v0) (pair$b ?v0 ?v0)) :pattern ((fun_app$a uvl$ ?v0)))))
-(assert (forall ((?v0 B$)) (! (= (fun_app$b uvj$ ?v0) (pair$f ?v0 ?v0)) :pattern ((fun_app$b uvj$ ?v0)))))
-(assert (forall ((?v0 A_b_fun$)) (! (= (fun_app$c uu$ ?v0) (fun_app$d (map_tree$ ?v0) t$)) :pattern ((fun_app$c uu$ ?v0)))))
-(assert (forall ((?v0 B_tree_b_tree_prod$)) (! (= (fun_app$e uvg$ ?v0) (snd$ ?v0)) :pattern ((fun_app$e uvg$ ?v0)))))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (! (= (fun_app$f uvh$ ?v0) (snd$b ?v0)) :pattern ((fun_app$f uvh$ ?v0)))))
-(assert (forall ((?v0 B_b_tree_b_tree_prod_prod$)) (! (= (fun_app$g uve$ ?v0) (snd$a ?v0)) :pattern ((fun_app$g uve$ ?v0)))))
-(assert (forall ((?v0 B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$)) (! (= (fun_app$h uvf$ ?v0) (snd$c ?v0)) :pattern ((fun_app$h uvf$ ?v0)))))
-(assert (forall ((?v0 B_b_prod$)) (! (= (fun_app$i uvi$ ?v0) (snd$f ?v0)) :pattern ((fun_app$i uvi$ ?v0)))))
-(assert (forall ((?v0 B_tree_b_tree_prod$)) (! (= (fun_app$e uvc$ ?v0) (fst$ ?v0)) :pattern ((fun_app$e uvc$ ?v0)))))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (! (= (fun_app$f uvd$ ?v0) (fst$b ?v0)) :pattern ((fun_app$f uvd$ ?v0)))))
-(assert (forall ((?v0 B_b_tree_b_tree_prod_prod$)) (! (= (fun_app$j uva$ ?v0) (fst$a ?v0)) :pattern ((fun_app$j uva$ ?v0)))))
-(assert (forall ((?v0 B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$)) (! (= (fun_app$k uvb$ ?v0) (fst$c ?v0)) :pattern ((fun_app$k uvb$ ?v0)))))
-(assert (forall ((?v0 B_b_prod$)) (! (= (fun_app$i uvm$ ?v0) (fst$f ?v0)) :pattern ((fun_app$i uvm$ ?v0)))))
-(assert (forall ((?v0 A_b_fun$)) (! (= (fun_app$l uun$ ?v0) (inr$ ?v0)) :pattern ((fun_app$l uun$ ?v0)))))
-(assert (forall ((?v0 B_tree$)) (! (= (fun_app$m uur$ ?v0) (inl$ ?v0)) :pattern ((fun_app$m uur$ ?v0)))))
-(assert (forall ((?v0 B_tree_a_b_fun_sum$) (?v1 B_tree_a_b_fun_sum$)) (! (= (fun_app$a (fun_app$n uvq$ ?v0) ?v1) (pair$b ?v0 ?v1)) :pattern ((fun_app$a (fun_app$n uvq$ ?v0) ?v1)))))
-(assert (forall ((?v0 B$) (?v1 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (! (= (fun_app$o (fun_app$p uvp$ ?v0) ?v1) (pair$c ?v0 ?v1)) :pattern ((fun_app$o (fun_app$p uvp$ ?v0) ?v1)))))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$) (?v1 B$)) (! (= (fun_app$q (fun_app$r uvn$ ?v0) ?v1) (pair$c ?v1 ?v0)) :pattern ((fun_app$q (fun_app$r uvn$ ?v0) ?v1)))))
-(assert (forall ((?v0 B_tree_a_b_fun_sum$) (?v1 B_tree_a_b_fun_sum$)) (! (= (fun_app$a (fun_app$n uvo$ ?v0) ?v1) (pair$b ?v1 ?v0)) :pattern ((fun_app$a (fun_app$n uvo$ ?v0) ?v1)))))
-(assert (forall ((?v0 B_tree_b_tree_fun$) (?v1 B_tree_b_tree_fun$)) (! (= (fun_app$s (uux$ ?v0) ?v1) (fun_app$s (comp$ ?v1) ?v0)) :pattern ((fun_app$s (uux$ ?v0) ?v1)))))
-(assert (forall ((?v0 B_b_fun$) (?v1 B_b_fun$)) (! (= (fun_app$t (uuv$ ?v0) ?v1) (fun_app$t (comp$a ?v1) ?v0)) :pattern ((fun_app$t (uuv$ ?v0) ?v1)))))
-(assert (forall ((?v0 A_a_fun$) (?v1 A_b_fun$)) (! (= (fun_app$u (uup$ ?v0) ?v1) (fun_app$v (comp$b ?v1) ?v0)) :pattern ((fun_app$u (uup$ ?v0) ?v1)))))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_fun$) (?v1 A_b_fun$)) (! (= (fun_app$c (uut$ ?v0) ?v1) (fun_app$w ?v0 (inr$ ?v1))) :pattern ((fun_app$c (uut$ ?v0) ?v1)))))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_fun$) (?v1 B_tree$)) (! (= (fun_app$x (uus$ ?v0) ?v1) (fun_app$w ?v0 (inl$ ?v1))) :pattern ((fun_app$x (uus$ ?v0) ?v1)))))
-(assert (forall ((?v0 B_tree$) (?v1 B_tree_b_tree_fun$)) (! (= (fun_app$y (uuw$ ?v0) ?v1) (fun_app$x ?v1 ?v0)) :pattern ((fun_app$y (uuw$ ?v0) ?v1)))))
-(assert (forall ((?v0 B$) (?v1 B_b_fun$)) (! (= (fun_app$z (uuu$ ?v0) ?v1) (fun_app$aa ?v1 ?v0)) :pattern ((fun_app$z (uuu$ ?v0) ?v1)))))
-(assert (forall ((?v0 A$) (?v1 A_b_fun$)) (! (= (fun_app$ab (uuo$ ?v0) ?v1) (fun_app$ac ?v1 ?v0)) :pattern ((fun_app$ab (uuo$ ?v0) ?v1)))))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_set$) (?v1 B_tree_a_b_fun_sum$) (?v2 B_tree_a_b_fun_sum$)) (! (= (fun_app$ad (fun_app$ae (uuz$ ?v0) ?v1) ?v2) (member$ (pair$b ?v1 ?v2) ?v0)) :pattern ((fun_app$ad (fun_app$ae (uuz$ ?v0) ?v1) ?v2)))))
-(assert (forall ((?v0 B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_set$) (?v1 B$) (?v2 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (! (= (fun_app$af (fun_app$ag (uuy$ ?v0) ?v1) ?v2) (member$a (pair$c ?v1 ?v2) ?v0)) :pattern ((fun_app$af (fun_app$ag (uuy$ ?v0) ?v1) ?v2)))))
-(assert (forall ((?v0 B_tree_b_tree_fun$) (?v1 B_tree_b_tree_fun$) (?v2 B_tree$)) (! (= (fun_app$x (fun_app$s (uul$ ?v0) ?v1) ?v2) (fun_app$x ?v0 (fun_app$x ?v1 ?v2))) :pattern ((fun_app$x (fun_app$s (uul$ ?v0) ?v1) ?v2)))))
-(assert (forall ((?v0 B_tree_b_tree_fun$) (?v1 A_b_fun_b_tree_fun$) (?v2 A_b_fun$)) (! (= (fun_app$c (fun_app$ah (uum$ ?v0) ?v1) ?v2) (fun_app$x ?v0 (fun_app$c ?v1 ?v2))) :pattern ((fun_app$c (fun_app$ah (uum$ ?v0) ?v1) ?v2)))))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_fun$) (?v1 B_tree_a_b_fun_sum_b_tree_fun$) (?v2 B_tree_a_b_fun_sum$) (?v3 B_tree_a_b_fun_sum$)) (! (= (fun_app$ai (fun_app$aj (uvs$ ?v0 ?v1) ?v2) ?v3) (pair$ (fun_app$w ?v0 ?v2) (fun_app$w ?v1 ?v3))) :pattern ((fun_app$ai (fun_app$aj (uvs$ ?v0 ?v1) ?v2) ?v3)))))
-(assert (forall ((?v0 B_b_fun$) (?v1 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun$) (?v2 B$) (?v3 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (! (= (fun_app$ak (fun_app$al (uvr$ ?v0 ?v1) ?v2) ?v3) (pair$a (fun_app$aa ?v0 ?v2) (fun_app$am ?v1 ?v3))) :pattern ((fun_app$ak (fun_app$al (uvr$ ?v0 ?v1) ?v2) ?v3)))))
-(assert (forall ((?v0 A_b_fun_b_fun$) (?v1 A_b_fun_bool_fun$) (?v2 A_b_fun_b_tree_fun$) (?v3 A_b_fun_a_b_fun_fun$) (?v4 A_b_fun_bool_fun$) (?v5 A_b_fun_b_tree_fun$) (?v6 A_b_fun_a_b_fun_fun$) (?v7 A_b_fun$)) (! (= (fun_app$an (fun_app$ao (fun_app$ap (fun_app$aq (fun_app$ar (fun_app$as (fun_app$at (uuq$ ?v0) ?v1) ?v2) ?v3) ?v4) ?v5) ?v6) ?v7) (id_bnf$ (pair$c (fun_app$ab ?v0 ?v7) (pair$b (ite (fun_app$au ?v1 ?v7) (inl$ (fun_app$c ?v2 ?v7)) (inr$ (fun_app$u ?v3 ?v7))) (ite (fun_app$au ?v4 ?v7) (inl$ (fun_app$c ?v5 ?v7)) (inr$ (fun_app$u ?v6 ?v7))))))) :pattern ((fun_app$an (fun_app$ao (fun_app$ap (fun_app$aq (fun_app$ar (fun_app$as (fun_app$at (uuq$ ?v0) ?v1) ?v2) ?v3) ?v4) ?v5) ?v6) ?v7)))))
-(assert (forall ((?v0 B_tree$) (?v1 B_tree$)) (! (= (fun_app$x (uuh$ ?v0) ?v1) ?v0) :pattern ((fun_app$x (uuh$ ?v0) ?v1)))))
-(assert (forall ((?v0 B_tree$) (?v1 A_b_fun$)) (! (= (fun_app$c (uui$ ?v0) ?v1) ?v0) :pattern ((fun_app$c (uui$ ?v0) ?v1)))))
-(assert (forall ((?v0 B$) (?v1 B_tree$)) (! (= (fun_app$av (uuf$ ?v0) ?v1) ?v0) :pattern ((fun_app$av (uuf$ ?v0) ?v1)))))
-(assert (forall ((?v0 B$) (?v1 B$)) (! (= (fun_app$aa (uud$ ?v0) ?v1) ?v0) :pattern ((fun_app$aa (uud$ ?v0) ?v1)))))
-(assert (forall ((?v0 B$) (?v1 A$)) (! (= (fun_app$ac (uue$ ?v0) ?v1) ?v0) :pattern ((fun_app$ac (uue$ ?v0) ?v1)))))
-(assert (forall ((?v0 A$) (?v1 A$)) (! (= (fun_app$aw (uug$ ?v0) ?v1) ?v0) :pattern ((fun_app$aw (uug$ ?v0) ?v1)))))
-(assert (forall ((?v0 B_tree$)) (! (= (fun_app$x uub$ ?v0) ?v0) :pattern ((fun_app$x uub$ ?v0)))))
-(assert (forall ((?v0 B_tree_b_tree_prod$)) (! (= (fun_app$ax uuj$ ?v0) ?v0) :pattern ((fun_app$ax uuj$ ?v0)))))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (! (= (fun_app$ay uuk$ ?v0) ?v0) :pattern ((fun_app$ay uuk$ ?v0)))))
-(assert (forall ((?v0 B$)) (! (= (fun_app$aa uua$ ?v0) ?v0) :pattern ((fun_app$aa uua$ ?v0)))))
-(assert (forall ((?v0 A$)) (! (= (fun_app$aw uuc$ ?v0) ?v0) :pattern ((fun_app$aw uuc$ ?v0)))))
-(assert (not (forall ((?v0 A_b_fun$)) (= (id_bnf$a (fun_app$az (map_prod$ id$ (fun_app$ba (map_prod$a (fun_app$bb (case_sum$ id$a) uu$)) (fun_app$bb (case_sum$ id$a) uu$))) (id_bnf$ (id_bnf$ (pair$c (fun_app$ac ?v0 x$) (pair$b (inr$ (fun_app$v (comp$b ?v0) l$)) (inr$ (fun_app$v (comp$b ?v0) r$)))))))) (fun_app$bc dtor_tree$ (fun_app$d (map_tree$ ?v0) t$))) )))
-(assert (forall ((?v0 A_tree$) (?v1 A_tree$)) (= (= (fun_app$bd dtor_tree$a ?v0) (fun_app$bd dtor_tree$a ?v1)) (= ?v0 ?v1)) ))
-(assert (forall ((?v0 B_tree$) (?v1 B_tree$)) (= (= (fun_app$bc dtor_tree$ ?v0) (fun_app$bc dtor_tree$ ?v1)) (= ?v0 ?v1)) ))
-(assert (forall ((?v0 B_b_fun$) (?v1 A_b_fun$) (?v2 A_tree$)) (= (fun_app$x (map_tree$a ?v0) (fun_app$d (map_tree$ ?v1) ?v2)) (fun_app$d (map_tree$ (fun_app$u (comp$c ?v0) ?v1)) ?v2)) ))
-(assert (forall ((?v0 B_a_fun$) (?v1 A_b_fun$) (?v2 A_tree$)) (= (fun_app$be (map_tree$b ?v0) (fun_app$d (map_tree$ ?v1) ?v2)) (fun_app$bf (map_tree$c (fun_app$bg (comp$d ?v0) ?v1)) ?v2)) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_a_fun$) (?v2 A_tree$)) (= (fun_app$d (map_tree$ ?v0) (fun_app$bf (map_tree$c ?v1) ?v2)) (fun_app$d (map_tree$ (fun_app$v (comp$b ?v0) ?v1)) ?v2)) ))
-(assert (forall ((?v0 A_a_fun$) (?v1 A_a_fun$) (?v2 A_tree$)) (= (fun_app$bf (map_tree$c ?v0) (fun_app$bf (map_tree$c ?v1) ?v2)) (fun_app$bf (map_tree$c (fun_app$bh (comp$e ?v0) ?v1)) ?v2)) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 B_a_fun$) (?v2 B_tree$)) (= (fun_app$d (map_tree$ ?v0) (fun_app$be (map_tree$b ?v1) ?v2)) (fun_app$x (map_tree$a (fun_app$bi (comp$f ?v0) ?v1)) ?v2)) ))
-(assert (forall ((?v0 A_a_fun$) (?v1 B_a_fun$) (?v2 B_tree$)) (= (fun_app$bf (map_tree$c ?v0) (fun_app$be (map_tree$b ?v1) ?v2)) (fun_app$be (map_tree$b (fun_app$bj (comp$g ?v0) ?v1)) ?v2)) ))
-(assert (forall ((?v0 B_a_fun$) (?v1 B_b_fun$) (?v2 B_tree$)) (= (fun_app$be (map_tree$b ?v0) (fun_app$x (map_tree$a ?v1) ?v2)) (fun_app$be (map_tree$b (fun_app$bk (comp$h ?v0) ?v1)) ?v2)) ))
-(assert (forall ((?v0 B_b_fun$) (?v1 B_b_fun$) (?v2 B_tree$)) (= (fun_app$x (map_tree$a ?v0) (fun_app$x (map_tree$a ?v1) ?v2)) (fun_app$x (map_tree$a (fun_app$t (comp$a ?v0) ?v1)) ?v2)) ))
-(assert (forall ((?v0 A_b_b_prod_fun$) (?v1 A_a_fun$) (?v2 A_tree$)) (= (fun_app$bl (map_tree$d ?v0) (fun_app$bf (map_tree$c ?v1) ?v2)) (fun_app$bl (map_tree$d (fun_app$bm (comp$i ?v0) ?v1)) ?v2)) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_a_sum_a_fun$) (?v2 A_a_sum_tree$)) (= (fun_app$d (map_tree$ ?v0) (fun_app$bn (map_tree$e ?v1) ?v2)) (fun_app$bo (map_tree$f (comp$j ?v0 ?v1)) ?v2)) ))
-(assert (forall ((?v0 B_b_fun$) (?v1 A_b_fun$)) (= (map_tree$ (fun_app$u (comp$c ?v0) ?v1)) (fun_app$bp (comp$k (map_tree$a ?v0)) (map_tree$ ?v1))) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_a_fun$)) (= (map_tree$ (fun_app$v (comp$b ?v0) ?v1)) (fun_app$bq (comp$l (map_tree$ ?v0)) (map_tree$c ?v1))) ))
-(assert (forall ((?v0 B_a_fun$) (?v1 A_b_fun$)) (= (map_tree$c (fun_app$bg (comp$d ?v0) ?v1)) (fun_app$br (comp$m (map_tree$b ?v0)) (map_tree$ ?v1))) ))
-(assert (forall ((?v0 A_a_fun$) (?v1 A_a_fun$)) (= (map_tree$c (fun_app$bh (comp$e ?v0) ?v1)) (fun_app$bs (comp$n (map_tree$c ?v0)) (map_tree$c ?v1))) ))
-(assert (forall ((?v0 A_a_fun$) (?v1 B_a_fun$)) (= (map_tree$b (fun_app$bj (comp$g ?v0) ?v1)) (comp$o (map_tree$c ?v0) (map_tree$b ?v1))) ))
-(assert (forall ((?v0 B_a_fun$) (?v1 B_b_fun$)) (= (map_tree$b (fun_app$bk (comp$h ?v0) ?v1)) (comp$p (map_tree$b ?v0) (map_tree$a ?v1))) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 B_a_fun$)) (= (map_tree$a (fun_app$bi (comp$f ?v0) ?v1)) (fun_app$bt (comp$q (map_tree$ ?v0)) (map_tree$b ?v1))) ))
-(assert (forall ((?v0 B_b_fun$) (?v1 B_b_fun$)) (= (map_tree$a (fun_app$t (comp$a ?v0) ?v1)) (fun_app$s (comp$ (map_tree$a ?v0)) (map_tree$a ?v1))) ))
-(assert (forall ((?v0 A_b_b_prod_fun$) (?v1 A_a_fun$)) (= (map_tree$d (fun_app$bm (comp$i ?v0) ?v1)) (comp$r (map_tree$d ?v0) (map_tree$c ?v1))) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_a_sum_a_fun$)) (= (map_tree$f (comp$j ?v0 ?v1)) (comp$s (map_tree$ ?v0) (map_tree$e ?v1))) ))
-(assert (forall ((?v0 B_tree$)) (= (fun_app$x (map_tree$a uua$) ?v0) ?v0) ))
-(assert (forall ((?v0 B_tree_tree$)) (= (fun_app$bu (map_tree$g uub$) ?v0) ?v0) ))
-(assert (forall ((?v0 A_tree$)) (= (fun_app$bf (map_tree$c uuc$) ?v0) ?v0) ))
-(assert (forall ((?v0 B_b_sum_tree$)) (= (fun_app$bv (map_tree$h id$b) ?v0) ?v0) ))
-(assert (forall ((?v0 B_tree_b_tree_fun_tree$)) (= (fun_app$bw (map_tree$i id$c) ?v0) ?v0) ))
-(assert (forall ((?v0 B_b_fun_tree$)) (= (fun_app$bx (map_tree$j id$d) ?v0) ?v0) ))
-(assert (forall ((?v0 A_b_fun_tree$)) (= (fun_app$by (map_tree$k id$e) ?v0) ?v0) ))
-(assert (forall ((?v0 B_tree$)) (= (fun_app$x (map_tree$a id$) ?v0) ?v0) ))
-(assert (forall ((?v0 B_tree_tree$)) (= (fun_app$bu (map_tree$g id$a) ?v0) ?v0) ))
-(assert (forall ((?v0 A_tree$)) (= (fun_app$bf (map_tree$c id$f) ?v0) ?v0) ))
-(assert (= (map_tree$h id$b) id$g))
-(assert (= (map_tree$i id$c) id$h))
-(assert (= (map_tree$j id$d) id$i))
-(assert (= (map_tree$k id$e) id$j))
-(assert (= (map_tree$a id$) id$a))
-(assert (= (map_tree$g id$a) id$k))
-(assert (= (map_tree$c id$f) id$l))
-(assert (forall ((?v0 A_a_tree_a_tree_prod_prod$)) (=> (forall ((?v1 A_tree$)) (=> (= ?v0 (fun_app$bd dtor_tree$a ?v1)) false) ) false) ))
-(assert (forall ((?v0 B_b_tree_b_tree_prod_prod$)) (=> (forall ((?v1 B_tree$)) (=> (= ?v0 (fun_app$bc dtor_tree$ ?v1)) false) ) false) ))
-(assert (= t$ (node$a x$ (fun_app$bf (map_tree$c l$) t$) (fun_app$bf (map_tree$c r$) t$))))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_fun$) (?v1 B_tree_a_b_fun_sum_b_tree_fun$) (?v2 B_tree_a_b_fun_sum$) (?v3 B_tree_a_b_fun_sum$)) (! (= (fun_app$am (fun_app$ba (map_prod$a ?v0) ?v1) (pair$b ?v2 ?v3)) (pair$ (fun_app$w ?v0 ?v2) (fun_app$w ?v1 ?v3))) :pattern ((fun_app$am (fun_app$ba (map_prod$a ?v0) ?v1) (pair$b ?v2 ?v3))))))
-(assert (forall ((?v0 B_b_fun$) (?v1 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun$) (?v2 B$) (?v3 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (! (= (fun_app$az (map_prod$ ?v0 ?v1) (pair$c ?v2 ?v3)) (pair$a (fun_app$aa ?v0 ?v2) (fun_app$am ?v1 ?v3))) :pattern ((fun_app$az (map_prod$ ?v0 ?v1) (pair$c ?v2 ?v3))))))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_fun$) (?v1 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_fun$) (?v2 B_tree_a_b_fun_sum$) (?v3 B_tree_a_b_fun_sum$)) (! (= (fun_app$ay (fun_app$bz (map_prod$b ?v0) ?v1) (pair$b ?v2 ?v3)) (pair$b (fun_app$ca ?v0 ?v2) (fun_app$ca ?v1 ?v3))) :pattern ((fun_app$ay (fun_app$bz (map_prod$b ?v0) ?v1) (pair$b ?v2 ?v3))))))
-(assert (forall ((?v0 B_b_tree_a_b_fun_sum_fun$) (?v1 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_fun$) (?v2 B$) (?v3 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (! (= (map_prod$c ?v0 ?v1 (pair$c ?v2 ?v3)) (pair$b (fun_app$cb ?v0 ?v2) (fun_app$f ?v1 ?v3))) :pattern ((map_prod$c ?v0 ?v1 (pair$c ?v2 ?v3))))))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_fun$) (?v1 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun$) (?v2 B_tree_a_b_fun_sum$) (?v3 B_tree_a_b_fun_sum$)) (! (= (map_prod$d ?v0 ?v1 (pair$b ?v2 ?v3)) (pair$c (fun_app$cc ?v0 ?v2) (fun_app$a ?v1 ?v3))) :pattern ((map_prod$d ?v0 ?v1 (pair$b ?v2 ?v3))))))
-(assert (forall ((?v0 B_b_fun$) (?v1 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun$) (?v2 B$) (?v3 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (! (= (fun_app$cd (map_prod$e ?v0 ?v1) (pair$c ?v2 ?v3)) (pair$c (fun_app$aa ?v0 ?v2) (fun_app$ay ?v1 ?v3))) :pattern ((fun_app$cd (map_prod$e ?v0 ?v1) (pair$c ?v2 ?v3))))))
-(assert (forall ((?v0 B_b_fun$) (?v1 B_b_fun$) (?v2 B$) (?v3 B$)) (! (= (fun_app$ce (map_prod$f ?v0 ?v1) (pair$f ?v2 ?v3)) (pair$f (fun_app$aa ?v0 ?v2) (fun_app$aa ?v1 ?v3))) :pattern ((fun_app$ce (map_prod$f ?v0 ?v1) (pair$f ?v2 ?v3))))))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_b_fun$) (?v2 A$) (?v3 A$)) (! (= (fun_app$cf (map_prod$g ?v0 ?v1) (pair$g ?v2 ?v3)) (pair$f (fun_app$ac ?v0 ?v2) (fun_app$ac ?v1 ?v3))) :pattern ((fun_app$cf (map_prod$g ?v0 ?v1) (pair$g ?v2 ?v3))))))
-(assert (forall ((?v0 A_a_fun$) (?v1 A_a_fun$) (?v2 A$) (?v3 A$)) (! (= (fun_app$cg (map_prod$h ?v0 ?v1) (pair$g ?v2 ?v3)) (pair$g (fun_app$aw ?v0 ?v2) (fun_app$aw ?v1 ?v3))) :pattern ((fun_app$cg (map_prod$h ?v0 ?v1) (pair$g ?v2 ?v3))))))
-(assert (forall ((?v0 A_tree_b_fun$) (?v1 A_tree_b_fun$) (?v2 A_tree$) (?v3 A_tree$)) (! (= (map_prod$i ?v0 ?v1 (pair$d ?v2 ?v3)) (pair$f (fun_app$ch ?v0 ?v2) (fun_app$ch ?v1 ?v3))) :pattern ((map_prod$i ?v0 ?v1 (pair$d ?v2 ?v3))))))
-(assert (forall ((?v0 A_b_b_prod_fun$)) (= (fun_app$bm (comp$i ?v0) id$f) ?v0) ))
-(assert (forall ((?v0 A_a_fun$)) (= (fun_app$bh (comp$e ?v0) id$f) ?v0) ))
-(assert (forall ((?v0 A_b_fun$)) (= (fun_app$v (comp$b ?v0) id$f) ?v0) ))
-(assert (forall ((?v0 A_b_fun$)) (= (fun_app$u (comp$c id$) ?v0) ?v0) ))
-(assert (forall ((?v0 A_a_fun$)) (= (fun_app$bh (comp$e id$f) ?v0) ?v0) ))
-(assert (forall ((?v0 A_b_fun$)) (= (fun_app$u (comp$c id$) ?v0) ?v0) ))
-(assert (forall ((?v0 A_a_fun$)) (= (fun_app$bh (comp$e id$f) ?v0) ?v0) ))
-(assert (forall ((?v0 B$) (?v1 B_b_sum$)) (= (fun_app$ci (case_sum$a (uud$ ?v0) (uud$ ?v0)) ?v1) ?v0) ))
-(assert (forall ((?v0 B$) (?v1 A_b_tree_sum$)) (= (case_sum$b (uue$ ?v0) (uuf$ ?v0) ?v1) ?v0) ))
-(assert (forall ((?v0 B$) (?v1 A_b_sum$)) (= (case_sum$c (uue$ ?v0) (uud$ ?v0) ?v1) ?v0) ))
-(assert (forall ((?v0 B$) (?v1 A_a_sum$)) (= (fun_app$cj (case_sum$d (uue$ ?v0) (uue$ ?v0)) ?v1) ?v0) ))
-(assert (forall ((?v0 A$) (?v1 A_a_sum$)) (= (fun_app$ck (fun_app$cl (case_sum$e (uug$ ?v0)) (uug$ ?v0)) ?v1) ?v0) ))
-(assert (forall ((?v0 B_tree$) (?v1 B_tree_a_b_fun_sum$)) (= (fun_app$w (fun_app$bb (case_sum$ (uuh$ ?v0)) (uui$ ?v0)) ?v1) ?v0) ))
-(assert (forall ((?v0 B_b_tree_b_tree_prod_prod$)) (= (fun_app$cm (map_prod$j uua$ uuj$) ?v0) ?v0) ))
-(assert (forall ((?v0 B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$)) (= (fun_app$cd (map_prod$e uua$ uuk$) ?v0) ?v0) ))
-(assert (forall ((?v0 B_b_prod$)) (= (fun_app$ce (map_prod$f uua$ uua$) ?v0) ?v0) ))
-(assert (forall ((?v0 A_a_prod$)) (= (fun_app$cg (map_prod$h uuc$ uuc$) ?v0) ?v0) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_b_fun$)) (= (= (inr$ ?v0) (inr$ ?v1)) (= ?v0 ?v1)) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_b_fun$)) (= (= (inr$ ?v0) (inr$ ?v1)) (= ?v0 ?v1)) ))
-(assert (forall ((?v0 B_b_sum$)) (! (= (fun_app$cn id$b ?v0) ?v0) :pattern ((fun_app$cn id$b ?v0)))))
-(assert (forall ((?v0 B_tree_b_tree_fun$)) (! (= (fun_app$s id$c ?v0) ?v0) :pattern ((fun_app$s id$c ?v0)))))
-(assert (forall ((?v0 B_b_fun$)) (! (= (fun_app$t id$d ?v0) ?v0) :pattern ((fun_app$t id$d ?v0)))))
-(assert (forall ((?v0 A_b_fun$)) (! (= (fun_app$u id$e ?v0) ?v0) :pattern ((fun_app$u id$e ?v0)))))
-(assert (forall ((?v0 A$)) (! (= (fun_app$aw id$f ?v0) ?v0) :pattern ((fun_app$aw id$f ?v0)))))
-(assert (forall ((?v0 B$)) (! (= (fun_app$aa id$ ?v0) ?v0) :pattern ((fun_app$aa id$ ?v0)))))
-(assert (forall ((?v0 B_tree$)) (! (= (fun_app$x id$a ?v0) ?v0) :pattern ((fun_app$x id$a ?v0)))))
-(assert (forall ((?v0 B_b_fun$) (?v1 A_b_fun$) (?v2 A$)) (! (= (fun_app$ac (fun_app$u (comp$c ?v0) ?v1) ?v2) (fun_app$aa ?v0 (fun_app$ac ?v1 ?v2))) :pattern ((fun_app$ac (fun_app$u (comp$c ?v0) ?v1) ?v2)))))
-(assert (forall ((?v0 B_a_fun$) (?v1 A_b_fun$) (?v2 A$)) (! (= (fun_app$aw (fun_app$bg (comp$d ?v0) ?v1) ?v2) (fun_app$co ?v0 (fun_app$ac ?v1 ?v2))) :pattern ((fun_app$aw (fun_app$bg (comp$d ?v0) ?v1) ?v2)))))
-(assert (forall ((?v0 A_b_b_prod_fun$) (?v1 A_a_fun$) (?v2 A$)) (! (= (fun_app$cp (fun_app$bm (comp$i ?v0) ?v1) ?v2) (fun_app$cp ?v0 (fun_app$aw ?v1 ?v2))) :pattern ((fun_app$cp (fun_app$bm (comp$i ?v0) ?v1) ?v2)))))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_a_sum_a_fun$) (?v2 A_a_sum$)) (! (= (fun_app$cj (comp$j ?v0 ?v1) ?v2) (fun_app$ac ?v0 (fun_app$ck ?v1 ?v2))) :pattern ((fun_app$cj (comp$j ?v0 ?v1) ?v2)))))
-(assert (forall ((?v0 A_a_fun$) (?v1 A_a_fun$) (?v2 A$)) (! (= (fun_app$aw (fun_app$bh (comp$e ?v0) ?v1) ?v2) (fun_app$aw ?v0 (fun_app$aw ?v1 ?v2))) :pattern ((fun_app$aw (fun_app$bh (comp$e ?v0) ?v1) ?v2)))))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_a_fun$) (?v2 A$)) (! (= (fun_app$ac (fun_app$v (comp$b ?v0) ?v1) ?v2) (fun_app$ac ?v0 (fun_app$aw ?v1 ?v2))) :pattern ((fun_app$ac (fun_app$v (comp$b ?v0) ?v1) ?v2)))))
-(assert (forall ((?v0 A_tree$) (?v1 A_tree$) (?v2 A_tree$) (?v3 A_tree$)) (= (= (pair$d ?v0 ?v1) (pair$d ?v2 ?v3)) (and (= ?v0 ?v2) (= ?v1 ?v3))) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$) (?v1 B$) (?v2 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$) (?v3 B$)) (= (= (pair$h ?v0 ?v1) (pair$h ?v2 ?v3)) (and (= ?v0 ?v2) (= ?v1 ?v3))) ))
-(assert (forall ((?v0 B$) (?v1 B_tree_b_tree_prod$) (?v2 B$) (?v3 B_tree_b_tree_prod$)) (= (= (pair$a ?v0 ?v1) (pair$a ?v2 ?v3)) (and (= ?v0 ?v2) (= ?v1 ?v3))) ))
-(assert (forall ((?v0 B$) (?v1 B$) (?v2 B$) (?v3 B$)) (= (= (pair$f ?v0 ?v1) (pair$f ?v2 ?v3)) (and (= ?v0 ?v2) (= ?v1 ?v3))) ))
-(assert (forall ((?v0 A$) (?v1 A_tree_a_tree_prod$) (?v2 A$) (?v3 A_tree_a_tree_prod$)) (= (= (pair$e ?v0 ?v1) (pair$e ?v2 ?v3)) (and (= ?v0 ?v2) (= ?v1 ?v3))) ))
-(assert (forall ((?v0 B$) (?v1 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$) (?v2 B$) (?v3 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (= (= (pair$c ?v0 ?v1) (pair$c ?v2 ?v3)) (and (= ?v0 ?v2) (= ?v1 ?v3))) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum$) (?v1 B_tree_a_b_fun_sum$) (?v2 B_tree_a_b_fun_sum$) (?v3 B_tree_a_b_fun_sum$)) (= (= (pair$b ?v0 ?v1) (pair$b ?v2 ?v3)) (and (= ?v0 ?v2) (= ?v1 ?v3))) ))
-(assert (forall ((?v0 A_tree$) (?v1 A_tree$) (?v2 A_tree$) (?v3 A_tree$)) (= (= (pair$d ?v0 ?v1) (pair$d ?v2 ?v3)) (and (= ?v0 ?v2) (= ?v1 ?v3))) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$) (?v1 B$) (?v2 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$) (?v3 B$)) (= (= (pair$h ?v0 ?v1) (pair$h ?v2 ?v3)) (and (= ?v0 ?v2) (= ?v1 ?v3))) ))
-(assert (forall ((?v0 B$) (?v1 B_tree_b_tree_prod$) (?v2 B$) (?v3 B_tree_b_tree_prod$)) (= (= (pair$a ?v0 ?v1) (pair$a ?v2 ?v3)) (and (= ?v0 ?v2) (= ?v1 ?v3))) ))
-(assert (forall ((?v0 B$) (?v1 B$) (?v2 B$) (?v3 B$)) (= (= (pair$f ?v0 ?v1) (pair$f ?v2 ?v3)) (and (= ?v0 ?v2) (= ?v1 ?v3))) ))
-(assert (forall ((?v0 A$) (?v1 A_tree_a_tree_prod$) (?v2 A$) (?v3 A_tree_a_tree_prod$)) (= (= (pair$e ?v0 ?v1) (pair$e ?v2 ?v3)) (and (= ?v0 ?v2) (= ?v1 ?v3))) ))
-(assert (forall ((?v0 B$) (?v1 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$) (?v2 B$) (?v3 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (= (= (pair$c ?v0 ?v1) (pair$c ?v2 ?v3)) (and (= ?v0 ?v2) (= ?v1 ?v3))) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum$) (?v1 B_tree_a_b_fun_sum$) (?v2 B_tree_a_b_fun_sum$) (?v3 B_tree_a_b_fun_sum$)) (= (= (pair$b ?v0 ?v1) (pair$b ?v2 ?v3)) (and (= ?v0 ?v2) (= ?v1 ?v3))) ))
-(assert (forall ((?v0 B$) (?v1 B_tree$) (?v2 B_tree$) (?v3 B$) (?v4 B_tree$) (?v5 B_tree$)) (= (= (node$ ?v0 ?v1 ?v2) (node$ ?v3 ?v4 ?v5)) (and (= ?v0 ?v3) (and (= ?v1 ?v4) (= ?v2 ?v5)))) ))
-(assert (forall ((?v0 A$) (?v1 A_tree$) (?v2 A_tree$) (?v3 A$) (?v4 A_tree$) (?v5 A_tree$)) (= (= (node$a ?v0 ?v1 ?v2) (node$a ?v3 ?v4 ?v5)) (and (= ?v0 ?v3) (and (= ?v1 ?v4) (= ?v2 ?v5)))) ))
-(assert (forall ((?v0 B_tree$)) (=> (forall ((?v1 B$) (?v2 B_tree$) (?v3 B_tree$)) (=> (= ?v0 (node$ ?v1 ?v2 ?v3)) false) ) false) ))
-(assert (forall ((?v0 A_tree$)) (=> (forall ((?v1 A$) (?v2 A_tree$) (?v3 A_tree$)) (=> (= ?v0 (node$a ?v1 ?v2 ?v3)) false) ) false) ))
-(assert (= (map_prod$j uua$ uuj$) id$m))
-(assert (= (map_prod$e uua$ uuk$) id$n))
-(assert (= (map_prod$f uua$ uua$) id$o))
-(assert (= (map_prod$h uuc$ uuc$) id$p))
-(assert (forall ((?v0 B_a_fun$) (?v1 B$) (?v2 B_tree$) (?v3 B_tree$)) (! (= (fun_app$be (map_tree$b ?v0) (node$ ?v1 ?v2 ?v3)) (node$a (fun_app$co ?v0 ?v1) (fun_app$be (map_tree$b ?v0) ?v2) (fun_app$be (map_tree$b ?v0) ?v3))) :pattern ((fun_app$be (map_tree$b ?v0) (node$ ?v1 ?v2 ?v3))))))
-(assert (forall ((?v0 B_b_fun$) (?v1 B$) (?v2 B_tree$) (?v3 B_tree$)) (! (= (fun_app$x (map_tree$a ?v0) (node$ ?v1 ?v2 ?v3)) (node$ (fun_app$aa ?v0 ?v1) (fun_app$x (map_tree$a ?v0) ?v2) (fun_app$x (map_tree$a ?v0) ?v3))) :pattern ((fun_app$x (map_tree$a ?v0) (node$ ?v1 ?v2 ?v3))))))
-(assert (forall ((?v0 B_tree_b_tree_fun$) (?v1 B_tree$) (?v2 B_tree_tree$) (?v3 B_tree_tree$)) (! (= (fun_app$bu (map_tree$g ?v0) (node$d ?v1 ?v2 ?v3)) (node$d (fun_app$x ?v0 ?v1) (fun_app$bu (map_tree$g ?v0) ?v2) (fun_app$bu (map_tree$g ?v0) ?v3))) :pattern ((fun_app$bu (map_tree$g ?v0) (node$d ?v1 ?v2 ?v3))))))
-(assert (forall ((?v0 A_b_fun$) (?v1 A$) (?v2 A_tree$) (?v3 A_tree$)) (! (= (fun_app$d (map_tree$ ?v0) (node$a ?v1 ?v2 ?v3)) (node$ (fun_app$ac ?v0 ?v1) (fun_app$d (map_tree$ ?v0) ?v2) (fun_app$d (map_tree$ ?v0) ?v3))) :pattern ((fun_app$d (map_tree$ ?v0) (node$a ?v1 ?v2 ?v3))))))
-(assert (forall ((?v0 A_a_fun$) (?v1 A$) (?v2 A_tree$) (?v3 A_tree$)) (! (= (fun_app$bf (map_tree$c ?v0) (node$a ?v1 ?v2 ?v3)) (node$a (fun_app$aw ?v0 ?v1) (fun_app$bf (map_tree$c ?v0) ?v2) (fun_app$bf (map_tree$c ?v0) ?v3))) :pattern ((fun_app$bf (map_tree$c ?v0) (node$a ?v1 ?v2 ?v3))))))
-(assert (forall ((?v0 B_b_prod$)) (exists ((?v1 B$) (?v2 B$)) (= ?v0 (pair$f ?v1 ?v2)) ) ))
-(assert (forall ((?v0 A_a_tree_a_tree_prod_prod$)) (exists ((?v1 A$) (?v2 A_tree_a_tree_prod$)) (= ?v0 (pair$e ?v1 ?v2)) ) ))
-(assert (forall ((?v0 B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$)) (exists ((?v1 B$) (?v2 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (= ?v0 (pair$c ?v1 ?v2)) ) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (exists ((?v1 B_tree_a_b_fun_sum$) (?v2 B_tree_a_b_fun_sum$)) (= ?v0 (pair$b ?v1 ?v2)) ) ))
-(assert (forall ((?v0 B$) (?v1 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$) (?v2 B$) (?v3 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (=> (and (= (pair$c ?v0 ?v1) (pair$c ?v2 ?v3)) (=> (and (= ?v0 ?v2) (= ?v1 ?v3)) false)) false) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum$) (?v1 B_tree_a_b_fun_sum$) (?v2 B_tree_a_b_fun_sum$) (?v3 B_tree_a_b_fun_sum$)) (=> (and (= (pair$b ?v0 ?v1) (pair$b ?v2 ?v3)) (=> (and (= ?v0 ?v2) (= ?v1 ?v3)) false)) false) ))
-(assert (forall ((?v0 B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_bool_fun$) (?v1 B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$)) (=> (forall ((?v2 B$) (?v3 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (fun_app$cq ?v0 (pair$c ?v2 ?v3)) ) (fun_app$cq ?v0 ?v1)) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_bool_fun$) (?v1 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (=> (forall ((?v2 B_tree_a_b_fun_sum$) (?v3 B_tree_a_b_fun_sum$)) (fun_app$af ?v0 (pair$b ?v2 ?v3)) ) (fun_app$af ?v0 ?v1)) ))
-(assert (forall ((?v0 B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$)) (=> (forall ((?v1 B$) (?v2 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (=> (= ?v0 (pair$c ?v1 ?v2)) false) ) false) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (=> (forall ((?v1 B_tree_a_b_fun_sum$) (?v2 B_tree_a_b_fun_sum$)) (=> (= ?v0 (pair$b ?v1 ?v2)) false) ) false) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_a_fun$) (?v2 A_b_fun$) (?v3 A$)) (=> (= (fun_app$v (comp$b ?v0) ?v1) ?v2) (= (fun_app$ac ?v0 (fun_app$aw ?v1 ?v3)) (fun_app$ac ?v2 ?v3))) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_a_fun$) (?v2 A_b_fun$) (?v3 A_a_fun$) (?v4 A$)) (=> (= (fun_app$v (comp$b ?v0) ?v1) (fun_app$v (comp$b ?v2) ?v3)) (= (fun_app$ac ?v0 (fun_app$aw ?v1 ?v4)) (fun_app$ac ?v2 (fun_app$aw ?v3 ?v4)))) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_a_fun$) (?v2 A_b_fun$) (?v3 A_a_fun$)) (=> (and (= (fun_app$v (comp$b ?v0) ?v1) (fun_app$v (comp$b ?v2) ?v3)) (=> (forall ((?v4 A$)) (= (fun_app$ac ?v0 (fun_app$aw ?v1 ?v4)) (fun_app$ac ?v2 (fun_app$aw ?v3 ?v4))) ) false)) false) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_a_fun$) (?v2 A$)) (! (= (fun_app$ac (fun_app$v (comp$b ?v0) ?v1) ?v2) (fun_app$ac ?v0 (fun_app$aw ?v1 ?v2))) :pattern ((fun_app$ac (fun_app$v (comp$b ?v0) ?v1) ?v2)))))
-(assert (forall ((?v0 B_b_fun$) (?v1 A_b_fun$) (?v2 A_a_fun$)) (= (fun_app$v (comp$b (fun_app$u (comp$c ?v0) ?v1)) ?v2) (fun_app$u (comp$c ?v0) (fun_app$v (comp$b ?v1) ?v2))) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_a_fun$) (?v2 A_a_fun$)) (= (fun_app$v (comp$b (fun_app$v (comp$b ?v0) ?v1)) ?v2) (fun_app$v (comp$b ?v0) (fun_app$bh (comp$e ?v1) ?v2))) ))
-(assert (forall ((?v0 B_b_fun$) (?v1 A_b_fun$) (?v2 A_a_fun$)) (= (fun_app$u (comp$c ?v0) (fun_app$v (comp$b ?v1) ?v2)) (fun_app$v (comp$b (fun_app$u (comp$c ?v0) ?v1)) ?v2)) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_a_fun$) (?v2 A_a_fun$)) (= (fun_app$v (comp$b ?v0) (fun_app$bh (comp$e ?v1) ?v2)) (fun_app$v (comp$b (fun_app$v (comp$b ?v0) ?v1)) ?v2)) ))
-(assert (forall ((?v0 B$)) (! (= (fun_app$aa id$ ?v0) ?v0) :pattern ((fun_app$aa id$ ?v0)))))
-(assert (forall ((?v0 B_tree$)) (! (= (fun_app$x id$a ?v0) ?v0) :pattern ((fun_app$x id$a ?v0)))))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_b_fun$)) (=> (= (inr$ ?v0) (inr$ ?v1)) (= ?v0 ?v1)) ))
-(assert (forall ((?v0 B_tree_b_tree_fun$) (?v1 A_b_fun_b_tree_fun$) (?v2 B_tree_b_tree_fun$) (?v3 A_b_fun_b_tree_fun$)) (=> (and (= (fun_app$bb (case_sum$ ?v0) ?v1) (fun_app$bb (case_sum$ ?v2) ?v3)) (=> (and (= ?v0 ?v2) (= ?v1 ?v3)) false)) false) ))
-(assert (forall ((?v0 B_tree_b_tree_fun$) (?v1 B_tree_b_tree_fun$) (?v2 A_b_fun_b_tree_fun$) (?v3 B_tree_a_b_fun_sum$)) (= (fun_app$x ?v0 (fun_app$w (fun_app$bb (case_sum$ ?v1) ?v2) ?v3)) (fun_app$w (fun_app$bb (case_sum$ (fun_app$s (uul$ ?v0) ?v1)) (fun_app$ah (uum$ ?v0) ?v2)) ?v3)) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_a_fun$) (?v2 A_b_fun$) (?v3 A$)) (=> (= (fun_app$v (comp$b ?v0) ?v1) (fun_app$u (comp$c id$) ?v2)) (= (fun_app$ac ?v0 (fun_app$aw ?v1 ?v3)) (fun_app$ac ?v2 ?v3))) ))
-(assert (forall ((?v0 B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$)) (=> (forall ((?v1 B$) (?v2 B_tree_a_b_fun_sum$) (?v3 B_tree_a_b_fun_sum$)) (=> (= ?v0 (pair$c ?v1 (pair$b ?v2 ?v3))) false) ) false) ))
-(assert (forall ((?v0 B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_bool_fun$) (?v1 B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$)) (=> (forall ((?v2 B$) (?v3 B_tree_a_b_fun_sum$) (?v4 B_tree_a_b_fun_sum$)) (fun_app$cq ?v0 (pair$c ?v2 (pair$b ?v3 ?v4))) ) (fun_app$cq ?v0 ?v1)) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_b_fun$) (?v2 A_a_fun$) (?v3 A_a_fun$)) (= (comp$t (map_prod$g ?v0 ?v1) (map_prod$h ?v2 ?v3)) (map_prod$g (fun_app$v (comp$b ?v0) ?v2) (fun_app$v (comp$b ?v1) ?v3))) ))
-(assert (forall ((?v0 B_b_fun$) (?v1 B_tree_b_tree_prod_b_tree_b_tree_prod_fun$) (?v2 B_b_fun$) (?v3 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun$)) (= (comp$u (map_prod$j ?v0 ?v1) (map_prod$ ?v2 ?v3)) (map_prod$ (fun_app$t (comp$a ?v0) ?v2) (fun_app$cr (comp$v ?v1) ?v3))) ))
-(assert (forall ((?v0 B_tree_b_tree_fun$) (?v1 B_tree_b_tree_fun$) (?v2 B_tree_a_b_fun_sum_b_tree_fun$) (?v3 B_tree_a_b_fun_sum_b_tree_fun$)) (= (fun_app$cr (comp$v (fun_app$cs (map_prod$k ?v0) ?v1)) (fun_app$ba (map_prod$a ?v2) ?v3)) (fun_app$ba (map_prod$a (fun_app$ct (comp$w ?v0) ?v2)) (fun_app$ct (comp$w ?v1) ?v3))) ))
-(assert (forall ((?v0 B_b_fun$) (?v1 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun$) (?v2 B_b_fun$) (?v3 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun$)) (= (comp$x (map_prod$ ?v0 ?v1) (map_prod$e ?v2 ?v3)) (map_prod$ (fun_app$t (comp$a ?v0) ?v2) (fun_app$cu (comp$y ?v1) ?v3))) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_fun$) (?v1 B_tree_a_b_fun_sum_b_tree_fun$) (?v2 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_fun$) (?v3 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_fun$)) (= (fun_app$cu (comp$y (fun_app$ba (map_prod$a ?v0) ?v1)) (fun_app$bz (map_prod$b ?v2) ?v3)) (fun_app$ba (map_prod$a (fun_app$cv (comp$z ?v0) ?v2)) (fun_app$cv (comp$z ?v1) ?v3))) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_a_fun$) (?v2 A_b_fun$) (?v3 A_a_fun$)) (= (map_prod$g (fun_app$v (comp$b ?v0) ?v1) (fun_app$v (comp$b ?v2) ?v3)) (comp$t (map_prod$g ?v0 ?v2) (map_prod$h ?v1 ?v3))) ))
-(assert (forall ((?v0 B_b_fun$) (?v1 B_b_fun$) (?v2 B_tree_b_tree_prod_b_tree_b_tree_prod_fun$) (?v3 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun$)) (= (map_prod$ (fun_app$t (comp$a ?v0) ?v1) (fun_app$cr (comp$v ?v2) ?v3)) (comp$u (map_prod$j ?v0 ?v2) (map_prod$ ?v1 ?v3))) ))
-(assert (forall ((?v0 B_b_fun$) (?v1 B_b_fun$) (?v2 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun$) (?v3 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun$)) (= (map_prod$ (fun_app$t (comp$a ?v0) ?v1) (fun_app$cu (comp$y ?v2) ?v3)) (comp$x (map_prod$ ?v0 ?v2) (map_prod$e ?v1 ?v3))) ))
-(assert (forall ((?v0 B_tree_b_tree_fun$) (?v1 B_tree_a_b_fun_sum_b_tree_fun$) (?v2 B_tree_b_tree_fun$) (?v3 B_tree_a_b_fun_sum_b_tree_fun$)) (= (fun_app$ba (map_prod$a (fun_app$ct (comp$w ?v0) ?v1)) (fun_app$ct (comp$w ?v2) ?v3)) (fun_app$cr (comp$v (fun_app$cs (map_prod$k ?v0) ?v2)) (fun_app$ba (map_prod$a ?v1) ?v3))) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_fun$) (?v1 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_fun$) (?v2 B_tree_a_b_fun_sum_b_tree_fun$) (?v3 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_fun$)) (= (fun_app$ba (map_prod$a (fun_app$cv (comp$z ?v0) ?v1)) (fun_app$cv (comp$z ?v2) ?v3)) (fun_app$cu (comp$y (fun_app$ba (map_prod$a ?v0) ?v2)) (fun_app$bz (map_prod$b ?v1) ?v3))) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_b_fun$) (?v2 A_a_fun$) (?v3 A_a_fun$) (?v4 A_a_prod$)) (= (fun_app$cf (map_prod$g ?v0 ?v1) (fun_app$cg (map_prod$h ?v2 ?v3) ?v4)) (fun_app$cf (map_prod$g (fun_app$v (comp$b ?v0) ?v2) (fun_app$v (comp$b ?v1) ?v3)) ?v4)) ))
-(assert (forall ((?v0 B_b_fun$) (?v1 B_tree_b_tree_prod_b_tree_b_tree_prod_fun$) (?v2 B_b_fun$) (?v3 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun$) (?v4 B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$)) (= (fun_app$cm (map_prod$j ?v0 ?v1) (fun_app$az (map_prod$ ?v2 ?v3) ?v4)) (fun_app$az (map_prod$ (fun_app$t (comp$a ?v0) ?v2) (fun_app$cr (comp$v ?v1) ?v3)) ?v4)) ))
-(assert (forall ((?v0 B_tree_b_tree_fun$) (?v1 B_tree_b_tree_fun$) (?v2 B_tree_a_b_fun_sum_b_tree_fun$) (?v3 B_tree_a_b_fun_sum_b_tree_fun$) (?v4 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (= (fun_app$ax (fun_app$cs (map_prod$k ?v0) ?v1) (fun_app$am (fun_app$ba (map_prod$a ?v2) ?v3) ?v4)) (fun_app$am (fun_app$ba (map_prod$a (fun_app$ct (comp$w ?v0) ?v2)) (fun_app$ct (comp$w ?v1) ?v3)) ?v4)) ))
-(assert (forall ((?v0 B_b_fun$) (?v1 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun$) (?v2 B_b_fun$) (?v3 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun$) (?v4 B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$)) (= (fun_app$az (map_prod$ ?v0 ?v1) (fun_app$cd (map_prod$e ?v2 ?v3) ?v4)) (fun_app$az (map_prod$ (fun_app$t (comp$a ?v0) ?v2) (fun_app$cu (comp$y ?v1) ?v3)) ?v4)) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_fun$) (?v1 B_tree_a_b_fun_sum_b_tree_fun$) (?v2 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_fun$) (?v3 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_fun$) (?v4 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (= (fun_app$am (fun_app$ba (map_prod$a ?v0) ?v1) (fun_app$ay (fun_app$bz (map_prod$b ?v2) ?v3) ?v4)) (fun_app$am (fun_app$ba (map_prod$a (fun_app$cv (comp$z ?v0) ?v2)) (fun_app$cv (comp$z ?v1) ?v3)) ?v4)) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_b_fun$) (?v2 A_a_fun$) (?v3 A_a_fun$) (?v4 A_a_prod$)) (= (fun_app$cf (map_prod$g ?v0 ?v1) (fun_app$cg (map_prod$h ?v2 ?v3) ?v4)) (fun_app$cf (map_prod$g (fun_app$v (comp$b ?v0) ?v2) (fun_app$v (comp$b ?v1) ?v3)) ?v4)) ))
-(assert (forall ((?v0 B_b_fun$) (?v1 B_tree_b_tree_prod_b_tree_b_tree_prod_fun$) (?v2 B_b_fun$) (?v3 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun$) (?v4 B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$)) (= (fun_app$cm (map_prod$j ?v0 ?v1) (fun_app$az (map_prod$ ?v2 ?v3) ?v4)) (fun_app$az (map_prod$ (fun_app$t (comp$a ?v0) ?v2) (fun_app$cr (comp$v ?v1) ?v3)) ?v4)) ))
-(assert (forall ((?v0 B_tree_b_tree_fun$) (?v1 B_tree_b_tree_fun$) (?v2 B_tree_a_b_fun_sum_b_tree_fun$) (?v3 B_tree_a_b_fun_sum_b_tree_fun$) (?v4 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (= (fun_app$ax (fun_app$cs (map_prod$k ?v0) ?v1) (fun_app$am (fun_app$ba (map_prod$a ?v2) ?v3) ?v4)) (fun_app$am (fun_app$ba (map_prod$a (fun_app$ct (comp$w ?v0) ?v2)) (fun_app$ct (comp$w ?v1) ?v3)) ?v4)) ))
-(assert (forall ((?v0 B_b_fun$) (?v1 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun$) (?v2 B_b_fun$) (?v3 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun$) (?v4 B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$)) (= (fun_app$az (map_prod$ ?v0 ?v1) (fun_app$cd (map_prod$e ?v2 ?v3) ?v4)) (fun_app$az (map_prod$ (fun_app$t (comp$a ?v0) ?v2) (fun_app$cu (comp$y ?v1) ?v3)) ?v4)) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_fun$) (?v1 B_tree_a_b_fun_sum_b_tree_fun$) (?v2 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_fun$) (?v3 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_fun$) (?v4 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (= (fun_app$am (fun_app$ba (map_prod$a ?v0) ?v1) (fun_app$ay (fun_app$bz (map_prod$b ?v2) ?v3) ?v4)) (fun_app$am (fun_app$ba (map_prod$a (fun_app$cv (comp$z ?v0) ?v2)) (fun_app$cv (comp$z ?v1) ?v3)) ?v4)) ))
-(assert (= (map_prod$f id$ id$) id$o))
-(assert (= (map_prod$l id$ id$a) id$q))
-(assert (= (map_prod$m id$a id$) id$r))
-(assert (= (fun_app$cs (map_prod$k id$a) id$a) id$s))
-(assert (forall ((?v0 B_b_prod$)) (= (fun_app$ce (map_prod$f id$ id$) ?v0) ?v0) ))
-(assert (forall ((?v0 B_b_tree_prod$)) (= (fun_app$cw (map_prod$l id$ id$a) ?v0) ?v0) ))
-(assert (forall ((?v0 B_tree_b_prod$)) (= (fun_app$cx (map_prod$m id$a id$) ?v0) ?v0) ))
-(assert (forall ((?v0 B_tree_b_tree_prod$)) (= (fun_app$ax (fun_app$cs (map_prod$k id$a) id$a) ?v0) ?v0) ))
-(assert (forall ((?v0 B_tree_b_tree_fun$) (?v1 A_b_fun_b_tree_fun$) (?v2 A_b_fun$)) (! (= (fun_app$w (fun_app$bb (case_sum$ ?v0) ?v1) (inr$ ?v2)) (fun_app$c ?v1 ?v2)) :pattern ((fun_app$w (fun_app$bb (case_sum$ ?v0) ?v1) (inr$ ?v2))))))
-(assert (forall ((?v0 B$) (?v1 B_tree$) (?v2 B_tree$)) (! (= (node$ ?v0 ?v1 ?v2) (ctor_tree$ (id_bnf$a (pair$a ?v0 (pair$ ?v1 ?v2))))) :pattern ((node$ ?v0 ?v1 ?v2)))))
-(assert (forall ((?v0 A$) (?v1 A_tree$) (?v2 A_tree$)) (! (= (node$a ?v0 ?v1 ?v2) (ctor_tree$a (id_bnf$b (pair$e ?v0 (pair$d ?v1 ?v2))))) :pattern ((node$a ?v0 ?v1 ?v2)))))
-(assert (forall ((?v0 B_tree_b_tree_fun$) (?v1 A_b_fun_b_tree_fun$)) (= (fun_app$cy (comp$aa (fun_app$bb (case_sum$ ?v0) ?v1)) uun$) ?v1) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_a_fun$) (?v2 A_a_fun$)) (= (comp$j ?v0 (fun_app$cl (case_sum$e ?v1) ?v2)) (case_sum$d (fun_app$v (comp$b ?v0) ?v1) (fun_app$v (comp$b ?v0) ?v2))) ))
-(assert (forall ((?v0 B_tree_b_tree_fun$) (?v1 B_tree_b_tree_fun$) (?v2 A_b_fun_b_tree_fun$)) (= (fun_app$ct (comp$w ?v0) (fun_app$bb (case_sum$ ?v1) ?v2)) (fun_app$bb (case_sum$ (fun_app$s (comp$ ?v0) ?v1)) (fun_app$ah (comp$ab ?v0) ?v2))) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_a_fun$) (?v2 A_bool_fun$) (?v3 A_a_tree_fun$) (?v4 A_a_fun$) (?v5 A_bool_fun$) (?v6 A_a_tree_fun$) (?v7 A_a_fun$)) (= (comp$ac (map_tree$ ?v0) (fun_app$cz (fun_app$da (fun_app$db (fun_app$dc (fun_app$dd (fun_app$de (corec_tree$ ?v1) ?v2) ?v3) ?v4) ?v5) ?v6) ?v7)) (corec_tree$a (fun_app$v (comp$b ?v0) ?v1) ?v2 (comp$ac (map_tree$ ?v0) ?v3) ?v4 ?v5 (comp$ac (map_tree$ ?v0) ?v6) ?v7)) ))
-(assert (forall ((?v0 B_tree_bool_fun$) (?v1 A_b_fun_bool_fun$) (?v2 B_tree_a_b_fun_sum$) (?v3 B_tree_bool_fun$) (?v4 B_tree_b_tree_fun$) (?v5 A_b_fun_b_tree_fun$)) (=> (and (fun_app$ad (fun_app$df (case_sum$f ?v0) ?v1) ?v2) (and (forall ((?v6 B_tree$)) (=> (fun_app$dg ?v0 ?v6) (fun_app$dg ?v3 (fun_app$x ?v4 ?v6))) ) (forall ((?v6 A_b_fun$)) (=> (fun_app$au ?v1 ?v6) (fun_app$dg ?v3 (fun_app$c ?v5 ?v6))) ))) (fun_app$dg ?v3 (fun_app$w (fun_app$bb (case_sum$ ?v4) ?v5) ?v2))) ))
-(assert (forall ((?v0 B_b_fun$) (?v1 A$) (?v2 A_a_fun$) (?v3 A_a_fun$) (?v4 A_b_fun$)) (= (fun_app$x (map_tree$a ?v0) (fun_app$c (fun_app$dh (fun_app$di (unfold_tree$ (uuo$ ?v1)) (uup$ ?v2)) (uup$ ?v3)) ?v4)) (fun_app$c (fun_app$dh (fun_app$di (unfold_tree$ (uuo$ ?v1)) (uup$ ?v2)) (uup$ ?v3)) (fun_app$u (comp$c ?v0) ?v4))) ))
-(assert (forall ((?v0 A_b_fun_b_fun$) (?v1 A_b_fun_bool_fun$) (?v2 A_b_fun_b_tree_fun$) (?v3 A_b_fun_a_b_fun_fun$) (?v4 A_b_fun_bool_fun$) (?v5 A_b_fun_b_tree_fun$) (?v6 A_b_fun_a_b_fun_fun$)) (= (fun_app$dh (fun_app$dj (fun_app$dk (fun_app$dl (fun_app$dm (fun_app$dn (corec_tree$b ?v0) ?v1) ?v2) ?v3) ?v4) ?v5) ?v6) (dtor_corec_tree$ (fun_app$ao (fun_app$ap (fun_app$aq (fun_app$ar (fun_app$as (fun_app$at (uuq$ ?v0) ?v1) ?v2) ?v3) ?v4) ?v5) ?v6))) ))
-(assert (forall ((?v0 B_tree$) (?v1 A_b_fun$)) (= (= (inl$ ?v0) (inr$ ?v1)) false) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 B_tree$)) (= (= (inr$ ?v0) (inl$ ?v1)) false) ))
-(assert (forall ((?v0 B_tree_b_tree_fun$) (?v1 A_b_fun_b_tree_fun$)) (= (fun_app$do (comp$ad (fun_app$bb (case_sum$ ?v0) ?v1)) uur$) ?v0) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_bool_fun$)) (= (exists ((?v1 B_tree_a_b_fun_sum$)) (fun_app$ad ?v0 ?v1) ) (or (exists ((?v1 B_tree$)) (fun_app$ad ?v0 (inl$ ?v1)) ) (exists ((?v1 A_b_fun$)) (fun_app$ad ?v0 (inr$ ?v1)) ))) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_bool_fun$)) (= (forall ((?v1 B_tree_a_b_fun_sum$)) (fun_app$ad ?v0 ?v1) ) (and (forall ((?v1 B_tree$)) (fun_app$ad ?v0 (inl$ ?v1)) ) (forall ((?v1 A_b_fun$)) (fun_app$ad ?v0 (inr$ ?v1)) ))) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum$)) (=> (and (forall ((?v1 B_tree$)) (=> (= ?v0 (inl$ ?v1)) false) ) (forall ((?v1 A_b_fun$)) (=> (= ?v0 (inr$ ?v1)) false) )) false) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum$)) (=> (and (forall ((?v1 B_tree$)) (=> (= ?v0 (inl$ ?v1)) false) ) (forall ((?v1 A_b_fun$)) (=> (= ?v0 (inr$ ?v1)) false) )) false) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 B_tree$)) (not (= (inr$ ?v0) (inl$ ?v1))) ))
-(assert (forall ((?v0 B_tree$) (?v1 A_b_fun$)) (not (= (inl$ ?v0) (inr$ ?v1))) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 B_tree$)) (not (= (inr$ ?v0) (inl$ ?v1))) ))
-(assert (forall ((?v0 B_tree$) (?v1 A_b_fun$)) (not (= (inl$ ?v0) (inr$ ?v1))) ))
-(assert (forall ((?v0 B_tree_b_tree_fun$) (?v1 A_b_fun_b_tree_fun$) (?v2 B_tree$)) (! (= (fun_app$w (fun_app$bb (case_sum$ ?v0) ?v1) (inl$ ?v2)) (fun_app$x ?v0 ?v2)) :pattern ((fun_app$w (fun_app$bb (case_sum$ ?v0) ?v1) (inl$ ?v2))))))
-(assert (forall ((?v0 B_tree_b_tree_fun$) (?v1 A_b_fun_b_tree_fun$) (?v2 Bool) (?v3 B_tree$) (?v4 A_b_fun$)) (= (fun_app$w (fun_app$bb (case_sum$ ?v0) ?v1) (ite ?v2 (inl$ ?v3) (inr$ ?v4))) (ite ?v2 (fun_app$x ?v0 ?v3) (fun_app$c ?v1 ?v4))) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_fun$)) (= (fun_app$bb (case_sum$ (uus$ ?v0)) (uut$ ?v0)) ?v0) ))
-(assert (forall ((?v0 B_tree$)) (= (ctor_tree$ (fun_app$bc dtor_tree$ ?v0)) ?v0) ))
-(assert (forall ((?v0 B_b_tree_b_tree_prod_prod$)) (= (fun_app$bc dtor_tree$ (ctor_tree$ ?v0)) ?v0) ))
-(assert (forall ((?v0 A_a_fun$) (?v1 A_a_fun$) (?v2 A_a_fun$) (?v3 A_a_fun$) (?v4 A_b_fun$) (?v5 A_b_fun$)) (=> (and (= (fun_app$bh (comp$e ?v0) ?v1) (fun_app$bh (comp$e ?v2) ?v3)) (= (fun_app$v (comp$b ?v4) ?v2) ?v5)) (= (fun_app$v (comp$b (fun_app$v (comp$b ?v4) ?v0)) ?v1) (fun_app$v (comp$b ?v5) ?v3))) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_a_fun$) (?v2 A_b_fun$) (?v3 A_a_fun$) (?v4 B_b_fun$) (?v5 A_b_fun$)) (=> (and (= (fun_app$v (comp$b ?v0) ?v1) (fun_app$v (comp$b ?v2) ?v3)) (= (fun_app$u (comp$c ?v4) ?v2) ?v5)) (= (fun_app$v (comp$b (fun_app$u (comp$c ?v4) ?v0)) ?v1) (fun_app$v (comp$b ?v5) ?v3))) ))
-(assert (forall ((?v0 B_b_fun$) (?v1 A_b_fun$) (?v2 A_b_fun$) (?v3 A_a_fun$) (?v4 A_a_fun$) (?v5 A_a_fun$)) (=> (and (= (fun_app$u (comp$c ?v0) ?v1) (fun_app$v (comp$b ?v2) ?v3)) (= (fun_app$bh (comp$e ?v3) ?v4) ?v5)) (= (fun_app$u (comp$c ?v0) (fun_app$v (comp$b ?v1) ?v4)) (fun_app$v (comp$b ?v2) ?v5))) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_a_fun$) (?v2 B_b_fun$) (?v3 A_b_fun$) (?v4 A_a_fun$) (?v5 A_b_fun$)) (=> (and (= (fun_app$v (comp$b ?v0) ?v1) (fun_app$u (comp$c ?v2) ?v3)) (= (fun_app$v (comp$b ?v3) ?v4) ?v5)) (= (fun_app$v (comp$b ?v0) (fun_app$bh (comp$e ?v1) ?v4)) (fun_app$u (comp$c ?v2) ?v5))) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_a_fun$) (?v2 A_b_fun$) (?v3 A_a_fun$) (?v4 A_a_fun$) (?v5 A_a_fun$)) (=> (and (= (fun_app$v (comp$b ?v0) ?v1) (fun_app$v (comp$b ?v2) ?v3)) (= (fun_app$bh (comp$e ?v3) ?v4) ?v5)) (= (fun_app$v (comp$b ?v0) (fun_app$bh (comp$e ?v1) ?v4)) (fun_app$v (comp$b ?v2) ?v5))) ))
-(assert (forall ((?v0 A_a_fun$) (?v1 A_a_fun$) (?v2 A_a_fun$) (?v3 A_b_fun$)) (=> (= (fun_app$bh (comp$e ?v0) ?v1) ?v2) (= (fun_app$v (comp$b (fun_app$v (comp$b ?v3) ?v0)) ?v1) (fun_app$v (comp$b ?v3) ?v2))) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_a_fun$) (?v2 A_b_fun$) (?v3 B_b_fun$)) (=> (= (fun_app$v (comp$b ?v0) ?v1) ?v2) (= (fun_app$v (comp$b (fun_app$u (comp$c ?v3) ?v0)) ?v1) (fun_app$u (comp$c ?v3) ?v2))) ))
-(assert (forall ((?v0 B_b_fun$) (?v1 A_b_fun$) (?v2 A_b_fun$) (?v3 A_a_fun$)) (=> (= (fun_app$u (comp$c ?v0) ?v1) ?v2) (= (fun_app$u (comp$c ?v0) (fun_app$v (comp$b ?v1) ?v3)) (fun_app$v (comp$b ?v2) ?v3))) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_a_fun$) (?v2 A_b_fun$) (?v3 A_a_fun$)) (=> (= (fun_app$v (comp$b ?v0) ?v1) ?v2) (= (fun_app$v (comp$b ?v0) (fun_app$bh (comp$e ?v1) ?v3)) (fun_app$v (comp$b ?v2) ?v3))) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_a_fun$) (?v2 A$) (?v3 A_b_fun$) (?v4 A_a_fun$)) (=> (= (fun_app$ac ?v0 (fun_app$aw ?v1 ?v2)) (fun_app$ac ?v3 (fun_app$aw ?v4 ?v2))) (= (fun_app$ac (fun_app$v (comp$b ?v0) ?v1) ?v2) (fun_app$ac (fun_app$v (comp$b ?v3) ?v4) ?v2))) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_a_fun$) (?v2 A_a_fun$) (?v3 A_a_fun$) (?v4 A$)) (= (fun_app$d (map_tree$ ?v0) (fun_app$dp (fun_app$cz (fun_app$dq (unfold_tree$a ?v1) ?v2) ?v3) ?v4)) (unfold_tree$b (fun_app$v (comp$b ?v0) ?v1) ?v2 ?v3 ?v4)) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_fun$) (?v1 B_tree_b_tree_fun$) (?v2 A_b_fun_b_tree_fun$)) (=> (= (fun_app$do (comp$ad ?v0) uur$) ?v1) (= (= ?v2 (fun_app$cy (comp$aa ?v0) uun$)) (= (fun_app$bb (case_sum$ ?v1) ?v2) ?v0))) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_fun$) (?v1 B_tree_b_tree_fun$) (?v2 B_tree_a_b_fun_sum$)) (=> (= (fun_app$do (comp$ad ?v0) uur$) ?v1) (= (fun_app$w ?v0 ?v2) (fun_app$w (fun_app$bb (case_sum$ ?v1) (fun_app$cy (comp$aa ?v0) uun$)) ?v2))) ))
-(assert (forall ((?v0 A_b_fun_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun$) (?v1 A_b_fun$)) (= (fun_app$bc dtor_tree$ (fun_app$c (dtor_corec_tree$ ?v0) ?v1)) (fun_app$az (map_pre_tree$ id$ (fun_app$bb (case_sum$ id$a) (dtor_corec_tree$ ?v0))) (fun_app$an ?v0 ?v1))) ))
-(assert (forall ((?v0 A_b_fun_b_tree_fun$) (?v1 A_b_fun_b_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_fun$)) (=> (= (comp$ae (map_pre_tree$ id$ (fun_app$bb (case_sum$ id$a) ?v0)) ?v1) (comp$af dtor_tree$ ?v0)) (= ?v0 (dtor_corec_tree$ ?v1))) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum$)) (=> (and (forall ((?v1 B_tree$)) (=> (= ?v0 (inl$ ?v1)) false) ) (forall ((?v1 A_b_fun$)) (=> (= ?v0 (inr$ ?v1)) false) )) false) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$) (?v1 B$)) (= (swap$ (pair$h ?v0 ?v1)) (pair$c ?v1 ?v0)) ))
-(assert (forall ((?v0 B$) (?v1 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (= (swap$a (pair$c ?v0 ?v1)) (pair$h ?v1 ?v0)) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum$) (?v1 B_tree_a_b_fun_sum$)) (= (swap$b (pair$b ?v0 ?v1)) (pair$b ?v1 ?v0)) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_a_fun$) (?v2 A_b_fun$) (?v3 A_a_fun$)) (= (map_pre_tree$a (fun_app$v (comp$b ?v0) ?v1) (fun_app$v (comp$b ?v2) ?v3)) (comp$ag (map_pre_tree$a ?v0 ?v2) (map_pre_tree$b ?v1 ?v3))) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_b_fun$) (?v2 A_a_fun$) (?v3 A_a_fun$) (?v4 A_a_a_prod_prod$)) (= (fun_app$dr (map_pre_tree$a ?v0 ?v1) (fun_app$ds (map_pre_tree$b ?v2 ?v3) ?v4)) (fun_app$dr (map_pre_tree$a (fun_app$v (comp$b ?v0) ?v2) (fun_app$v (comp$b ?v1) ?v3)) ?v4)) ))
-(assert (= (map_pre_tree$c id$ id$) id$t))
-(assert (= (map_pre_tree$d id$ id$a) id$m))
-(assert (= (map_pre_tree$e id$a id$) id$u))
-(assert (= (map_pre_tree$f id$a id$a) id$v))
-(assert (forall ((?v0 B_b_b_prod_prod$)) (= (fun_app$dt (map_pre_tree$c id$ id$) ?v0) ?v0) ))
-(assert (forall ((?v0 B_b_tree_b_tree_prod_prod$)) (= (fun_app$cm (map_pre_tree$d id$ id$a) ?v0) ?v0) ))
-(assert (forall ((?v0 B_tree_b_b_prod_prod$)) (= (fun_app$du (map_pre_tree$e id$a id$) ?v0) ?v0) ))
-(assert (forall ((?v0 B_tree_b_tree_b_tree_prod_prod$)) (= (fun_app$dv (map_pre_tree$f id$a id$a) ?v0) ?v0) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_b_fun$)) (=> (not (= ?v0 ?v1)) (not (= (inr$ ?v0) (inr$ ?v1)))) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 B_a_b_b_prod_prod_fun$)) (= (fun_app$dw (comp$ah (map_tree$ ?v0)) (dtor_unfold_tree$ ?v1)) (dtor_unfold_tree$a (comp$ai (map_pre_tree$g ?v0 id$) ?v1))) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 B_tree_a_b_tree_b_tree_prod_prod_fun$)) (= (fun_app$bt (comp$q (map_tree$ ?v0)) (dtor_unfold_tree$b ?v1)) (dtor_unfold_tree$c (comp$aj (map_pre_tree$h ?v0 id$a) ?v1))) ))
-(assert (forall ((?v0 A_a_fun$) (?v1 B_a_b_b_prod_prod_fun$)) (= (comp$ak (map_tree$c ?v0) (dtor_unfold_tree$ ?v1)) (dtor_unfold_tree$ (fun_app$dx (comp$al (map_pre_tree$i ?v0 id$)) ?v1))) ))
-(assert (forall ((?v0 A_a_fun$) (?v1 B_tree_a_b_tree_b_tree_prod_prod_fun$)) (= (comp$o (map_tree$c ?v0) (dtor_unfold_tree$b ?v1)) (dtor_unfold_tree$b (fun_app$dy (comp$am (map_pre_tree$j ?v0 id$a)) ?v1))) ))
-(assert (forall ((?v0 B_b_fun$) (?v1 B_b_fun$) (?v2 B$)) (= (fun_app$dz (fun_app$ea (tree_recurse$ ?v0) ?v1) ?v2) (unfold_tree$c (uuu$ ?v2) (uuv$ ?v0) (uuv$ ?v1) id$)) ))
-(assert (forall ((?v0 B_tree_b_tree_fun$) (?v1 B_tree_b_tree_fun$) (?v2 B_tree$)) (= (tree_recurse$a ?v0 ?v1 ?v2) (unfold_tree$d (uuw$ ?v2) (uux$ ?v0) (uux$ ?v1) id$a)) ))
-(assert (forall ((?v0 B_b_fun$) (?v1 B_b_fun$) (?v2 B$)) (= (comp$an (map_prod$f ?v0 id$) (convol$ id$ ?v1) ?v2) (fun_app$b (convol$ (fun_app$t (comp$a id$) ?v0) ?v1) ?v2)) ))
-(assert (forall ((?v0 B_b_tree_fun$) (?v1 B_b_fun$) (?v2 B$)) (= (comp$ao (map_prod$n ?v0 id$) (convol$ id$ ?v1) ?v2) (convol$a (fun_app$eb (comp$ap id$a) ?v0) ?v1 ?v2)) ))
-(assert (forall ((?v0 B_tree_b_fun$) (?v1 B_tree_b_fun$) (?v2 B_tree$)) (= (comp$aq (map_prod$o ?v0 id$) (convol$b id$a ?v1) ?v2) (convol$c (fun_app$ec (comp$ar id$) ?v0) ?v1 ?v2)) ))
-(assert (forall ((?v0 B_tree_b_tree_fun$) (?v1 B_tree_b_fun$) (?v2 B_tree$)) (= (comp$as (map_prod$m ?v0 id$) (convol$b id$a ?v1) ?v2) (fun_app$ed (convol$b (fun_app$s (comp$ id$a) ?v0) ?v1) ?v2)) ))
-(assert (forall ((?v0 B_b_fun$) (?v1 B_b_tree_fun$) (?v2 B$)) (= (comp$at (map_prod$l ?v0 id$a) (convol$d id$ ?v1) ?v2) (fun_app$ee (convol$d (fun_app$t (comp$a id$) ?v0) ?v1) ?v2)) ))
-(assert (forall ((?v0 B_b_tree_fun$) (?v1 B_b_tree_fun$) (?v2 B$)) (= (comp$au (map_prod$p ?v0 id$a) (convol$d id$ ?v1) ?v2) (convol$e (fun_app$eb (comp$ap id$a) ?v0) ?v1 ?v2)) ))
-(assert (forall ((?v0 B_tree_b_fun$) (?v1 B_tree_b_tree_fun$) (?v2 B_tree$)) (= (comp$av (map_prod$q ?v0 id$a) (convol$f id$a ?v1) ?v2) (convol$g (fun_app$ec (comp$ar id$) ?v0) ?v1 ?v2)) ))
-(assert (forall ((?v0 B_tree_b_tree_fun$) (?v1 B_tree_b_tree_fun$) (?v2 B_tree$)) (= (comp$aw (fun_app$cs (map_prod$k ?v0) id$a) (convol$f id$a ?v1) ?v2) (fun_app$ (convol$f (fun_app$s (comp$ id$a) ?v0) ?v1) ?v2)) ))
-(assert (forall ((?v0 A_a_fun$) (?v1 A_tree$)) (= (fun_app$bd dtor_tree$a (fun_app$bf (map_tree$c ?v0) ?v1)) (fun_app$ef (map_pre_tree$k ?v0 (map_tree$c ?v0)) (fun_app$bd dtor_tree$a ?v1))) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_tree$)) (= (fun_app$bc dtor_tree$ (fun_app$d (map_tree$ ?v0) ?v1)) (fun_app$eg (map_pre_tree$l ?v0 (map_tree$ ?v0)) (fun_app$bd dtor_tree$a ?v1))) ))
-(assert (forall ((?v0 B_b_fun$) (?v1 B_tree$)) (= (fun_app$bc dtor_tree$ (fun_app$x (map_tree$a ?v0) ?v1)) (fun_app$cm (map_pre_tree$d ?v0 (map_tree$a ?v0)) (fun_app$bc dtor_tree$ ?v1))) ))
-(assert (forall ((?v0 A_tree_a_tree_fun$) (?v1 A_a_fun$)) (=> (= (comp$ax dtor_tree$a ?v0) (comp$ay (map_pre_tree$k ?v1 ?v0) dtor_tree$a)) (= ?v0 (map_tree$c ?v1))) ))
-(assert (forall ((?v0 A_tree_b_tree_fun$) (?v1 A_b_fun$)) (=> (= (comp$az dtor_tree$ ?v0) (comp$ba (map_pre_tree$l ?v1 ?v0) dtor_tree$a)) (= ?v0 (map_tree$ ?v1))) ))
-(assert (forall ((?v0 B_tree_b_tree_fun$) (?v1 B_b_fun$)) (=> (= (comp$bb dtor_tree$ ?v0) (comp$bc (map_pre_tree$d ?v1 ?v0) dtor_tree$)) (= ?v0 (map_tree$a ?v1))) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_b_fun$) (?v2 A_a_fun$)) (= (fun_app$bm (comp$i (fun_app$eh (convol$h ?v0) ?v1)) ?v2) (fun_app$eh (convol$h (fun_app$v (comp$b ?v0) ?v2)) (fun_app$v (comp$b ?v1) ?v2))) ))
-(assert (forall ((?v0 A_a_fun$) (?v1 A_a_fun$) (?v2 A$)) (! (= (fun_app$dp (fun_app$cz (tree_recurse$b ?v0) ?v1) ?v2) (node$a ?v2 (fun_app$bf (map_tree$c ?v0) (fun_app$dp (fun_app$cz (tree_recurse$b ?v0) ?v1) ?v2)) (fun_app$bf (map_tree$c ?v1) (fun_app$dp (fun_app$cz (tree_recurse$b ?v0) ?v1) ?v2)))) :pattern ((fun_app$dp (fun_app$cz (tree_recurse$b ?v0) ?v1) ?v2)))))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_b_fun$) (?v2 A_a_fun$) (?v3 A_a_fun$)) (= (fun_app$ei (comp$bd (map_prod$g ?v0 ?v1)) (convol$i ?v2 ?v3)) (fun_app$eh (convol$h (fun_app$v (comp$b ?v0) ?v2)) (fun_app$v (comp$b ?v1) ?v3))) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 B_a_a_tree_b_sum_a_tree_b_sum_prod_prod_fun$)) (= (fun_app$dw (comp$ah (map_tree$ ?v0)) (dtor_corec_tree$a ?v1)) (dtor_corec_tree$b (comp$be (map_pre_tree$m ?v0 (map_sum$ (map_tree$ ?v0) id$)) ?v1))) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 B_tree_a_a_tree_b_tree_sum_a_tree_b_tree_sum_prod_prod_fun$)) (= (fun_app$bt (comp$q (map_tree$ ?v0)) (dtor_corec_tree$c ?v1)) (dtor_corec_tree$d (comp$bf (map_pre_tree$n ?v0 (map_sum$a (map_tree$ ?v0) id$a)) ?v1))) ))
-(assert (forall ((?v0 A_a_fun$) (?v1 B_a_a_tree_b_sum_a_tree_b_sum_prod_prod_fun$)) (= (comp$ak (map_tree$c ?v0) (dtor_corec_tree$a ?v1)) (dtor_corec_tree$a (fun_app$ej (comp$bg (map_pre_tree$o ?v0 (map_sum$b (map_tree$c ?v0) id$))) ?v1))) ))
-(assert (forall ((?v0 A_a_fun$) (?v1 B_tree_a_a_tree_b_tree_sum_a_tree_b_tree_sum_prod_prod_fun$)) (= (comp$o (map_tree$c ?v0) (dtor_corec_tree$c ?v1)) (dtor_corec_tree$c (fun_app$ek (comp$bh (map_pre_tree$p ?v0 (map_sum$c (map_tree$c ?v0) id$a))) ?v1))) ))
-(assert (forall ((?v0 B$) (?v1 A_a_fun$) (?v2 A$)) (= (fun_app$ac (fun_app$v (comp$b (uue$ ?v0)) ?v1) ?v2) ?v0) ))
-(assert (forall ((?v0 B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_set$) (?v1 B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_set$)) (= (= (uuy$ ?v0) (uuy$ ?v1)) (= ?v0 ?v1)) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_set$) (?v1 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_set$)) (= (= (uuz$ ?v0) (uuz$ ?v1)) (= ?v0 ?v1)) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_b_fun$) (?v2 A_a_fun$) (?v3 A_a_fun$)) (= (comp$bi (map_sum$d ?v0 ?v1) (map_sum$e ?v2 ?v3)) (map_sum$d (fun_app$v (comp$b ?v0) ?v2) (fun_app$v (comp$b ?v1) ?v3))) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_b_fun$) (?v2 A_a_fun$) (?v3 A_a_fun$) (?v4 A_a_sum$)) (= (fun_app$el (map_sum$d ?v0 ?v1) (fun_app$em (map_sum$e ?v2 ?v3) ?v4)) (fun_app$el (map_sum$d (fun_app$v (comp$b ?v0) ?v2) (fun_app$v (comp$b ?v1) ?v3)) ?v4)) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_b_fun$) (?v2 A_a_fun$) (?v3 A_a_fun$) (?v4 A_a_sum$)) (= (fun_app$el (map_sum$d ?v0 ?v1) (fun_app$em (map_sum$e ?v2 ?v3) ?v4)) (fun_app$el (map_sum$d (fun_app$v (comp$b ?v0) ?v2) (fun_app$v (comp$b ?v1) ?v3)) ?v4)) ))
-(assert (= (map_sum$f id$ id$) id$b))
-(assert (= (map_sum$g id$ id$a) id$w))
-(assert (= (map_sum$h id$a id$) id$x))
-(assert (= (map_sum$i id$a id$a) id$y))
-(assert (forall ((?v0 B_b_sum$)) (= (fun_app$cn (map_sum$f id$ id$) ?v0) ?v0) ))
-(assert (forall ((?v0 B_b_tree_sum$)) (= (fun_app$en (map_sum$g id$ id$a) ?v0) ?v0) ))
-(assert (forall ((?v0 B_tree_b_sum$)) (= (fun_app$eo (map_sum$h id$a id$) ?v0) ?v0) ))
-(assert (forall ((?v0 B_tree_b_tree_sum$)) (= (fun_app$ep (map_sum$i id$a id$a) ?v0) ?v0) ))
-(assert (forall ((?v0 B_tree_b_tree_fun$) (?v1 A_b_fun_a_b_fun_fun$) (?v2 Bool) (?v3 A_b_fun$) (?v4 B_tree_a_b_fun_sum$)) (= (fun_app$ca (fun_app$eq (map_sum$j ?v0) ?v1) (ite ?v2 (inr$ ?v3) ?v4)) (ite ?v2 (inr$ (fun_app$u ?v1 ?v3)) (fun_app$ca (fun_app$eq (map_sum$j ?v0) ?v1) ?v4))) ))
-(assert (forall ((?v0 B_tree_b_tree_fun$) (?v1 A_b_fun_a_b_fun_fun$) (?v2 Bool) (?v3 B_tree_a_b_fun_sum$) (?v4 A_b_fun$)) (= (fun_app$ca (fun_app$eq (map_sum$j ?v0) ?v1) (ite ?v2 ?v3 (inr$ ?v4))) (ite ?v2 (fun_app$ca (fun_app$eq (map_sum$j ?v0) ?v1) ?v3) (inr$ (fun_app$u ?v1 ?v4)))) ))
-(assert (forall ((?v0 B_tree_b_tree_fun$) (?v1 A_b_fun_a_b_fun_fun$)) (= (comp$bj (fun_app$eq (map_sum$j ?v0) ?v1) uun$) (comp$bk uun$ ?v1)) ))
-(assert (forall ((?v0 B_tree_b_tree_fun$) (?v1 A_b_fun_a_b_fun_fun$) (?v2 A_b_fun$)) (! (= (fun_app$ca (fun_app$eq (map_sum$j ?v0) ?v1) (inr$ ?v2)) (inr$ (fun_app$u ?v1 ?v2))) :pattern ((fun_app$ca (fun_app$eq (map_sum$j ?v0) ?v1) (inr$ ?v2))))))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_b_fun$) (?v2 A_a_fun$) (?v3 A_a_fun$)) (= (comp$bl (case_sum$d ?v0 ?v1) (map_sum$e ?v2 ?v3)) (case_sum$d (fun_app$v (comp$b ?v0) ?v2) (fun_app$v (comp$b ?v1) ?v3))) ))
-(assert (forall ((?v0 B_tree_b_tree_fun$) (?v1 A_b_fun_b_tree_fun$) (?v2 B_tree_b_tree_fun$) (?v3 A_b_fun_a_b_fun_fun$)) (= (fun_app$cv (comp$z (fun_app$bb (case_sum$ ?v0) ?v1)) (fun_app$eq (map_sum$j ?v2) ?v3)) (fun_app$bb (case_sum$ (fun_app$s (comp$ ?v0) ?v2)) (fun_app$dh (comp$bm ?v1) ?v3))) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_b_fun$) (?v2 A_a_fun$) (?v3 A_a_fun$) (?v4 A_a_sum$)) (= (fun_app$cj (case_sum$d ?v0 ?v1) (fun_app$em (map_sum$e ?v2 ?v3) ?v4)) (fun_app$cj (case_sum$d (fun_app$v (comp$b ?v0) ?v2) (fun_app$v (comp$b ?v1) ?v3)) ?v4)) ))
-(assert (forall ((?v0 B_tree_b_tree_fun$) (?v1 A_b_fun_b_tree_fun$) (?v2 B_tree_b_tree_fun$) (?v3 A_b_fun_a_b_fun_fun$) (?v4 B_tree_a_b_fun_sum$)) (= (fun_app$w (fun_app$bb (case_sum$ ?v0) ?v1) (fun_app$ca (fun_app$eq (map_sum$j ?v2) ?v3) ?v4)) (fun_app$w (fun_app$bb (case_sum$ (fun_app$s (comp$ ?v0) ?v2)) (fun_app$dh (comp$bm ?v1) ?v3)) ?v4)) ))
-(assert (forall ((?v0 B_b_fun$) (?v1 B_b_fun$) (?v2 B_b_sum$)) (= (comp$bn (case_sum$a id$ ?v0) (map_sum$f ?v1 id$) ?v2) (fun_app$ci (case_sum$a (fun_app$t (comp$a ?v1) id$) ?v0) ?v2)) ))
-(assert (forall ((?v0 B_b_fun$) (?v1 A_b_fun$) (?v2 A_b_sum$)) (= (comp$bo (case_sum$a id$ ?v0) (map_sum$k ?v1 id$) ?v2) (case_sum$c (fun_app$v (comp$b ?v1) id$f) ?v0 ?v2)) ))
-(assert (forall ((?v0 B_b_fun$) (?v1 B_tree_b_fun$) (?v2 B_tree_b_sum$)) (= (comp$bp (case_sum$a id$ ?v0) (map_sum$l ?v1 id$) ?v2) (case_sum$g (fun_app$er (comp$bq ?v1) id$a) ?v0 ?v2)) ))
-(assert (forall ((?v0 B_tree_b_fun$) (?v1 B_b_fun$) (?v2 B_b_tree_sum$)) (= (comp$br (case_sum$h id$ ?v0) (map_sum$g ?v1 id$a) ?v2) (fun_app$es (case_sum$h (fun_app$t (comp$a ?v1) id$) ?v0) ?v2)) ))
-(assert (forall ((?v0 B_b_tree_fun$) (?v1 B_b_tree_fun$) (?v2 B_b_sum$)) (= (comp$bs (case_sum$i id$a ?v0) (map_sum$m ?v1 id$) ?v2) (case_sum$j (fun_app$ea (comp$bt ?v1) id$) ?v0 ?v2)) ))
-(assert (forall ((?v0 B_tree_b_fun$) (?v1 A_b_fun$) (?v2 A_b_tree_sum$)) (= (comp$bu (case_sum$h id$ ?v0) (map_sum$n ?v1 id$a) ?v2) (case_sum$b (fun_app$v (comp$b ?v1) id$f) ?v0 ?v2)) ))
-(assert (forall ((?v0 B_tree_b_fun$) (?v1 B_tree_b_fun$) (?v2 B_tree_b_tree_sum$)) (= (comp$bv (case_sum$h id$ ?v0) (map_sum$o ?v1 id$a) ?v2) (case_sum$k (fun_app$er (comp$bq ?v1) id$a) ?v0 ?v2)) ))
-(assert (forall ((?v0 B_b_tree_fun$) (?v1 B_tree_b_tree_fun$) (?v2 B_tree_b_sum$)) (= (comp$bw (case_sum$i id$a ?v0) (map_sum$h ?v1 id$) ?v2) (fun_app$et (case_sum$i (fun_app$s (comp$ ?v1) id$a) ?v0) ?v2)) ))
-(assert (forall ((?v0 B_tree_b_tree_fun$) (?v1 B_b_tree_fun$) (?v2 B_b_tree_sum$)) (= (comp$bx (case_sum$l id$a ?v0) (map_sum$p ?v1 id$a) ?v2) (case_sum$m (fun_app$ea (comp$bt ?v1) id$) ?v0 ?v2)) ))
-(assert (forall ((?v0 B_tree_b_tree_fun$) (?v1 B_tree_b_tree_fun$) (?v2 B_tree_b_tree_sum$)) (= (comp$by (case_sum$l id$a ?v0) (map_sum$i ?v1 id$a) ?v2) (fun_app$eu (case_sum$l (fun_app$s (comp$ ?v1) id$a) ?v0) ?v2)) ))
-(assert (forall ((?v0 A_bool_fun$) (?v1 A$) (?v2 A_tree$) (?v3 A_tree$)) (! (= (pred_tree$ ?v0 (node$a ?v1 ?v2 ?v3)) (and (fun_app$ev ?v0 ?v1) (and (pred_tree$ ?v0 ?v2) (pred_tree$ ?v0 ?v3)))) :pattern ((pred_tree$ ?v0 (node$a ?v1 ?v2 ?v3))))))
-(assert (forall ((?v0 B_b_tree_b_tree_prod_prod$)) (! (= (id_bnf$a ?v0) ?v0) :pattern ((id_bnf$a ?v0)))))
-(assert (forall ((?v0 B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$)) (! (= (id_bnf$ ?v0) ?v0) :pattern ((id_bnf$ ?v0)))))
-(assert (forall ((?v0 B_b_fun$) (?v1 B$) (?v2 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (! (= (apfst$ ?v0 (pair$c ?v1 ?v2)) (pair$c (fun_app$aa ?v0 ?v1) ?v2)) :pattern ((apfst$ ?v0 (pair$c ?v1 ?v2))))))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_fun$) (?v1 B_tree_a_b_fun_sum$) (?v2 B_tree_a_b_fun_sum$)) (! (= (fun_app$ay (apfst$a ?v0) (pair$b ?v1 ?v2)) (pair$b (fun_app$ca ?v0 ?v1) ?v2)) :pattern ((fun_app$ay (apfst$a ?v0) (pair$b ?v1 ?v2))))))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_fun$) (?v1 B$) (?v2 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (! (= (apsnd$ ?v0 (pair$c ?v1 ?v2)) (pair$c ?v1 (fun_app$ay ?v0 ?v2))) :pattern ((apsnd$ ?v0 (pair$c ?v1 ?v2))))))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_fun$) (?v1 B_tree_a_b_fun_sum$) (?v2 B_tree_a_b_fun_sum$)) (! (= (fun_app$ay (apsnd$a ?v0) (pair$b ?v1 ?v2)) (pair$b ?v1 (fun_app$ca ?v0 ?v2))) :pattern ((fun_app$ay (apsnd$a ?v0) (pair$b ?v1 ?v2))))))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun$)) (! (= (apsnd$b ?v0) (map_prod$ id$ ?v0)) :pattern ((apsnd$b ?v0)))))
-(assert (forall ((?v0 A_a_fun$) (?v1 A_a_fun$) (?v2 A$) (?v3 A_a_fun$) (?v4 A_a_fun$) (?v5 A_b_fun$)) (=> (= (fun_app$aw ?v0 (fun_app$aw ?v1 ?v2)) (fun_app$aw ?v3 (fun_app$aw ?v4 ?v2))) (= (fun_app$ac (fun_app$v (comp$b (fun_app$v (comp$b ?v5) ?v0)) ?v1) ?v2) (fun_app$ac (fun_app$v (comp$b (fun_app$v (comp$b ?v5) ?v3)) ?v4) ?v2))) ))
-(assert (forall ((?v0 B_b_tree_b_tree_prod_prod$)) (! (= (id_bnf$a ?v0) ?v0) :pattern ((id_bnf$a ?v0)))))
-(assert (forall ((?v0 B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$)) (! (= (id_bnf$ ?v0) ?v0) :pattern ((id_bnf$ ?v0)))))
-(assert (forall ((?v0 B$) (?v1 B_b_fun$) (?v2 B$)) (=> (= ?v0 (fun_app$aa ?v1 ?v2)) (fun_app$ew (fun_app$ex (fun_app$ey (fun_app$ez (fun_app$fa (iso_tuple_update_accessor_eq_assist$ id$d) id$) ?v2) ?v1) ?v0) ?v2)) ))
-(assert (forall ((?v0 B_tree$) (?v1 B_tree_b_tree_fun$) (?v2 B_tree$)) (=> (= ?v0 (fun_app$x ?v1 ?v2)) (fun_app$dg (fun_app$fb (fun_app$fc (fun_app$fd (fun_app$fe (iso_tuple_update_accessor_eq_assist$a id$c) id$a) ?v2) ?v1) ?v0) ?v2)) ))
-(assert (forall ((?v0 B_b_fun$) (?v1 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun$) (?v2 B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$)) (= (fst$a (fun_app$az (map_prod$ ?v0 ?v1) ?v2)) (fun_app$aa ?v0 (fst$c ?v2))) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_fun$) (?v1 B_tree_a_b_fun_sum_b_tree_fun$) (?v2 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (= (fst$ (fun_app$am (fun_app$ba (map_prod$a ?v0) ?v1) ?v2)) (fun_app$w ?v0 (fst$b ?v2))) ))
-(assert (forall ((?v0 B_b_fun$) (?v1 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun$) (?v2 B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$)) (= (snd$a (fun_app$az (map_prod$ ?v0 ?v1) ?v2)) (fun_app$am ?v1 (snd$c ?v2))) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_fun$) (?v1 B_tree_a_b_fun_sum_b_tree_fun$) (?v2 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (= (snd$ (fun_app$am (fun_app$ba (map_prod$a ?v0) ?v1) ?v2)) (fun_app$w ?v1 (snd$b ?v2))) ))
-(assert (forall ((?v0 B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$)) (= (pair$c (fst$c ?v0) (snd$c ?v0)) ?v0) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (= (pair$b (fst$b ?v0) (snd$b ?v0)) ?v0) ))
-(assert (forall ((?v0 B_b_fun$) (?v1 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun$)) (= (comp$bz uva$ (map_prod$ ?v0 ?v1)) (comp$ca ?v0 uvb$)) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_fun$) (?v1 B_tree_a_b_fun_sum_b_tree_fun$)) (= (comp$cb uvc$ (fun_app$ba (map_prod$a ?v0) ?v1)) (comp$cc ?v0 uvd$)) ))
-(assert (forall ((?v0 B_b_fun$) (?v1 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun$)) (= (comp$cd uve$ (map_prod$ ?v0 ?v1)) (comp$ce ?v1 uvf$)) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_fun$) (?v1 B_tree_a_b_fun_sum_b_tree_fun$)) (= (comp$cb uvg$ (fun_app$ba (map_prod$a ?v0) ?v1)) (comp$cc ?v1 uvh$)) ))
-(assert (forall ((?v0 B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$)) (= ?v0 (pair$c (fst$c ?v0) (snd$c ?v0))) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (= ?v0 (pair$b (fst$b ?v0) (snd$b ?v0))) ))
-(assert (forall ((?v0 B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$)) (=> (=> (= ?v0 (pair$c (fst$c ?v0) (snd$c ?v0))) false) false) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (=> (=> (= ?v0 (pair$b (fst$b ?v0) (snd$b ?v0))) false) false) ))
-(assert (forall ((?v0 B_bool_fun$) (?v1 B$) (?v2 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_bool_fun$) (?v3 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (=> (and (fun_app$ew ?v0 ?v1) (fun_app$af ?v2 ?v3)) (and (fun_app$ew ?v0 (fst$c (pair$c ?v1 ?v3))) (fun_app$af ?v2 (snd$c (pair$c ?v1 ?v3))))) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_bool_fun$) (?v1 B_tree_a_b_fun_sum$) (?v2 B_tree_a_b_fun_sum_bool_fun$) (?v3 B_tree_a_b_fun_sum$)) (=> (and (fun_app$ad ?v0 ?v1) (fun_app$ad ?v2 ?v3)) (and (fun_app$ad ?v0 (fst$b (pair$b ?v1 ?v3))) (fun_app$ad ?v2 (snd$b (pair$b ?v1 ?v3))))) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_bool_fun_fun$) (?v1 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$) (?v2 B$)) (=> (fun_app$ew (fun_app$ff ?v0 ?v1) ?v2) (fun_app$ew (fun_app$ff ?v0 (snd$c (pair$c ?v2 ?v1))) (fst$c (pair$c ?v2 ?v1)))) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_bool_fun_fun$) (?v1 B_tree_a_b_fun_sum$) (?v2 B_tree_a_b_fun_sum$)) (=> (fun_app$ad (fun_app$ae ?v0 ?v1) ?v2) (fun_app$ad (fun_app$ae ?v0 (snd$b (pair$b ?v2 ?v1))) (fst$b (pair$b ?v2 ?v1)))) ))
-(assert (forall ((?v0 B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$) (?v1 B$) (?v2 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (=> (= ?v0 (pair$c ?v1 ?v2)) (= (fst$c ?v0) ?v1)) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$) (?v1 B_tree_a_b_fun_sum$) (?v2 B_tree_a_b_fun_sum$)) (=> (= ?v0 (pair$b ?v1 ?v2)) (= (fst$b ?v0) ?v1)) ))
-(assert (forall ((?v0 B$) (?v1 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (! (= (fst$c (pair$c ?v0 ?v1)) ?v0) :pattern ((pair$c ?v0 ?v1)))))
-(assert (forall ((?v0 B_tree_a_b_fun_sum$) (?v1 B_tree_a_b_fun_sum$)) (! (= (fst$b (pair$b ?v0 ?v1)) ?v0) :pattern ((pair$b ?v0 ?v1)))))
-(assert (forall ((?v0 B$) (?v1 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$) (?v2 B$)) (=> (= (fst$c (pair$c ?v0 ?v1)) ?v2) (= ?v0 ?v2)) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum$) (?v1 B_tree_a_b_fun_sum$) (?v2 B_tree_a_b_fun_sum$)) (=> (= (fst$b (pair$b ?v0 ?v1)) ?v2) (= ?v0 ?v2)) ))
-(assert (forall ((?v0 B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$) (?v1 B$) (?v2 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (=> (= ?v0 (pair$c ?v1 ?v2)) (= (snd$c ?v0) ?v2)) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$) (?v1 B_tree_a_b_fun_sum$) (?v2 B_tree_a_b_fun_sum$)) (=> (= ?v0 (pair$b ?v1 ?v2)) (= (snd$b ?v0) ?v2)) ))
-(assert (forall ((?v0 B$) (?v1 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (! (= (snd$c (pair$c ?v0 ?v1)) ?v1) :pattern ((pair$c ?v0 ?v1)))))
-(assert (forall ((?v0 B_tree_a_b_fun_sum$) (?v1 B_tree_a_b_fun_sum$)) (! (= (snd$b (pair$b ?v0 ?v1)) ?v1) :pattern ((pair$b ?v0 ?v1)))))
-(assert (forall ((?v0 B$) (?v1 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$) (?v2 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (=> (= (snd$c (pair$c ?v0 ?v1)) ?v2) (= ?v1 ?v2)) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum$) (?v1 B_tree_a_b_fun_sum$) (?v2 B_tree_a_b_fun_sum$)) (=> (= (snd$b (pair$b ?v0 ?v1)) ?v2) (= ?v1 ?v2)) ))
-(assert (forall ((?v0 B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_bool_fun_fun$) (?v1 B$) (?v2 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$) (?v3 B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$)) (=> (and (fun_app$af (fun_app$ag ?v0 ?v1) ?v2) (= ?v3 (pair$c ?v1 ?v2))) (fun_app$af (fun_app$ag ?v0 (fst$c ?v3)) (snd$c ?v3))) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_bool_fun_fun$) (?v1 B_tree_a_b_fun_sum$) (?v2 B_tree_a_b_fun_sum$) (?v3 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (=> (and (fun_app$ad (fun_app$ae ?v0 ?v1) ?v2) (= ?v3 (pair$b ?v1 ?v2))) (fun_app$ad (fun_app$ae ?v0 (fst$b ?v3)) (snd$b ?v3))) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_prod$)) (! (= (swap$ ?v0) (pair$c (snd$h ?v0) (fst$h ?v0))) :pattern ((swap$ ?v0)))))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (! (= (swap$b ?v0) (pair$b (snd$b ?v0) (fst$b ?v0))) :pattern ((swap$b ?v0)))))
-(assert (forall ((?v0 B$)) (= (fun_app$aa (fun_app$fg (comp$cf uvi$) uvj$) ?v0) (fun_app$aa id$ ?v0)) ))
-(assert (forall ((?v0 B_tree$)) (= (fun_app$x (fun_app$fh (comp$cg uvg$) uvk$) ?v0) (fun_app$x id$a ?v0)) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum$)) (= (fun_app$ca (fun_app$fi (comp$ch uvh$) uvl$) ?v0) (id$z ?v0)) ))
-(assert (forall ((?v0 B$)) (= (fun_app$aa (fun_app$fg (comp$cf uvm$) uvj$) ?v0) (fun_app$aa id$ ?v0)) ))
-(assert (forall ((?v0 B_tree$)) (= (fun_app$x (fun_app$fh (comp$cg uvc$) uvk$) ?v0) (fun_app$x id$a ?v0)) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum$)) (= (fun_app$ca (fun_app$fi (comp$ch uvd$) uvl$) ?v0) (id$z ?v0)) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$) (?v1 B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$)) (= (= ?v0 (snd$c ?v1)) (exists ((?v2 B$)) (= ?v1 (pair$c ?v2 ?v0)) )) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum$) (?v1 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (= (= ?v0 (snd$b ?v1)) (exists ((?v2 B_tree_a_b_fun_sum$)) (= ?v1 (pair$b ?v2 ?v0)) )) ))
-(assert (forall ((?v0 B$) (?v1 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$) (?v2 B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod_set$) (?v3 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (=> (and (member$a (pair$c ?v0 ?v1) ?v2) (= ?v3 ?v1)) (member$a (pair$c ?v0 ?v3) ?v2)) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum$) (?v1 B_tree_a_b_fun_sum$) (?v2 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_set$) (?v3 B_tree_a_b_fun_sum$)) (=> (and (member$ (pair$b ?v0 ?v1) ?v2) (= ?v3 ?v1)) (member$ (pair$b ?v0 ?v3) ?v2)) ))
-(assert (forall ((?v0 B$) (?v1 B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$)) (= (= ?v0 (fst$c ?v1)) (exists ((?v2 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (= ?v1 (pair$c ?v0 ?v2)) )) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum$) (?v1 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (= (= ?v0 (fst$b ?v1)) (exists ((?v2 B_tree_a_b_fun_sum$)) (= ?v1 (pair$b ?v0 ?v2)) )) ))
-(assert (forall ((?v0 A_b_fun$) (?v1 A_a_fun$)) (= (fun_app$v (comp$b (ctor_rec$ ?v0)) ?v1) (ctor_rec$ (fun_app$v (comp$b ?v0) (fun_app$bh (comp$e (fun_app$bh (comp$e id_bnf$c) ?v1)) id_bnf$c)))) ))
-(assert (forall ((?v0 A_b_fun$)) (= ?v0 (ctor_rec$ (fun_app$v (comp$b ?v0) id_bnf$c))) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum$) (?v1 B_tree_a_b_fun_sum$)) (! (= (pair$b ?v0 ?v1) (xtor$ (id_bnf$d (pair$b ?v0 ?v1)))) :pattern ((pair$b ?v0 ?v1)))))
-(assert (forall ((?v0 B$) (?v1 B_tree_b_tree_prod$)) (! (= (pair$a ?v0 ?v1) (xtor$a (id_bnf$a (pair$a ?v0 ?v1)))) :pattern ((pair$a ?v0 ?v1)))))
-(assert (forall ((?v0 B$) (?v1 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (! (= (pair$c ?v0 ?v1) (xtor$b (id_bnf$ (pair$c ?v0 ?v1)))) :pattern ((pair$c ?v0 ?v1)))))
-(assert (forall ((?v0 A_b_fun$)) (! (= (inr$ ?v0) (xtor$c (id_bnf$e (inr$ ?v0)))) :pattern ((inr$ ?v0)))))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_prod$)) (= (snd$h ?v0) (comp$ci uvb$ (uncurry$ uvn$) ?v0)) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (= (snd$b ?v0) (fun_app$f (fun_app$fj (comp$cj uvd$) (uncurry$a uvo$)) ?v0)) ))
-(assert (= (uncurry$b uvp$) id$n))
-(assert (= (uncurry$a uvq$) id$aa))
-(assert (forall ((?v0 B_b_fun$) (?v1 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_b_tree_b_tree_prod_fun$)) (= (map_prod$ ?v0 ?v1) (uncurry$c (uvr$ ?v0 ?v1))) ))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_fun$) (?v1 B_tree_a_b_fun_sum_b_tree_fun$)) (= (fun_app$ba (map_prod$a ?v0) ?v1) (uncurry$d (uvs$ ?v0 ?v1))) ))
-(assert (forall ((?v0 B_b_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod_prod$)) (! (= (fun_app$cd (uncurry$b uvp$) ?v0) ?v0) :pattern ((fun_app$cd (uncurry$b uvp$) ?v0)))))
-(assert (forall ((?v0 B_tree_a_b_fun_sum_b_tree_a_b_fun_sum_prod$)) (! (= (fun_app$ay (uncurry$a uvq$) ?v0) ?v0) :pattern ((fun_app$ay (uncurry$a uvq$) ?v0)))))
-(check-sat)
-(exit)
-
diff --git a/test/regress/regress0/quantifiers/bug_743.smt2 b/test/regress/regress0/quantifiers/bug_743.smt2
deleted file mode 100644
index ec5a5149e..000000000
--- a/test/regress/regress0/quantifiers/bug_743.smt2
+++ /dev/null
@@ -1,777 +0,0 @@
-; COMMAND-LINE: --lang=smt2.5
-; EXPECT: unsat
-
-;; produced by cvc4_14.drv ;;
-(set-logic AUFBVDTNIRA)
-(set-info :source |VC generated by SPARK 2014|)
-(set-info :smt-lib-version 2.0)
-(set-info :category industrial)
-(set-info :status unsat)
-;;; generated by SMT-LIB2 driver
-;;; SMT-LIB2 driver: bit-vectors, common part
-;;; SMT-LIB2: integer arithmetic
-(declare-datatypes () ((tuple0 (Tuple0))))
-(declare-sort us_private 0)
-
-(declare-fun us_null_ext__ () us_private)
-
-(declare-sort us_type_of_heap 0)
-
-(declare-datatypes ()
-((us_type_of_heap__ref
- (mk___type_of_heap__ref (us_type_of_heap__content us_type_of_heap)))))
-(declare-sort us_image 0)
-
-(declare-datatypes () ((int__ref (mk_int__ref (int__content Int)))))
-(declare-datatypes () ((bool__ref (mk_bool__ref (bool__content Bool)))))
-(declare-datatypes () ((real__ref (mk_real__ref (real__content Real)))))
-(declare-datatypes ()
-((us_private__ref (mk___private__ref (us_private__content us_private)))))
-(define-fun int__ref___projection ((a int__ref)) Int (int__content a))
-
-(define-fun bool__ref___projection ((a bool__ref)) Bool (bool__content a))
-
-(define-fun real__ref___projection ((a real__ref)) Real (real__content a))
-
-(define-fun us_private__ref___projection ((a us_private__ref)) us_private
-  (us_private__content a))
-
-(declare-fun us_compatible_tags (Int Int) Bool)
-
-;; __compatible_tags_refl
-  (assert (forall ((tag Int)) (us_compatible_tags tag tag)))
-
-(define-fun to_int1 ((b Bool)) Int (ite (= b true) 1 0))
-
-(define-fun of_int ((i Int)) Bool (ite (= i 0) false true))
-
-(define-fun in_range ((x Int)) Bool (or (= x 0) (= x 1)))
-
-(declare-fun attr__ATTRIBUTE_IMAGE (Bool) us_image)
-
-(declare-fun attr__ATTRIBUTE_VALUE__pre_check (us_image) Bool)
-
-(declare-fun attr__ATTRIBUTE_VALUE (us_image) Bool)
-
-(declare-sort integer 0)
-
-(define-fun in_range1 ((x Int)) Bool (and (<= (- 2147483648) x)
-                                     (<= x 2147483647)))
-
-(define-fun bool_eq ((x Int) (y Int)) Bool (ite (= x y) true false))
-
-(declare-fun attr__ATTRIBUTE_IMAGE1 (Int) us_image)
-
-(declare-fun attr__ATTRIBUTE_VALUE__pre_check1 (us_image) Bool)
-
-(declare-fun attr__ATTRIBUTE_VALUE1 (us_image) Int)
-
-(declare-fun to_rep (integer) Int)
-
-(declare-fun of_rep (Int) integer)
-
-(declare-fun user_eq (integer integer) Bool)
-
-(declare-fun dummy () integer)
-
-;; inversion_axiom
-  (assert
-  (forall ((x integer)) (! (= (of_rep (to_rep x)) x) :pattern ((to_rep x)) 
-)))
-
-;; range_axiom
-  (assert
-  (forall ((x integer)) (! (in_range1 (to_rep x)) :pattern ((to_rep x)) 
-)))
-
-;; coerce_axiom
-  (assert
-  (forall ((x Int))
-  (! (=> (in_range1 x) (= (to_rep (of_rep x)) x)) :pattern ((to_rep
-                                                            (of_rep x))) 
-)))
-
-(declare-datatypes ()
-((integer__ref (mk_integer__ref (integer__content integer)))))
-(define-fun integer__ref___projection ((a integer__ref)) integer 
-(integer__content
-                                                                 a))
-
-(declare-sort natural 0)
-
-(define-fun in_range2 ((x Int)) Bool (and (<= 0 x) (<= x 2147483647)))
-
-(define-fun bool_eq1 ((x Int) (y Int)) Bool (ite (= x y) true false))
-
-(declare-fun attr__ATTRIBUTE_IMAGE2 (Int) us_image)
-
-(declare-fun attr__ATTRIBUTE_VALUE__pre_check2 (us_image) Bool)
-
-(declare-fun attr__ATTRIBUTE_VALUE2 (us_image) Int)
-
-(declare-fun to_rep1 (natural) Int)
-
-(declare-fun of_rep1 (Int) natural)
-
-(declare-fun user_eq1 (natural natural) Bool)
-
-(declare-fun dummy1 () natural)
-
-;; inversion_axiom
-  (assert
-  (forall ((x natural))
-  (! (= (of_rep1 (to_rep1 x)) x) :pattern ((to_rep1 x)) )))
-
-;; range_axiom
-  (assert
-  (forall ((x natural)) (! (in_range2 (to_rep1 x)) :pattern ((to_rep1 x)) 
-)))
-
-;; coerce_axiom
-  (assert
-  (forall ((x Int))
-  (! (=> (in_range2 x) (= (to_rep1 (of_rep1 x)) x)) :pattern ((to_rep1
-                                                              (of_rep1 
-x))) )))
-
-(declare-datatypes ()
-((natural__ref (mk_natural__ref (natural__content natural)))))
-(define-fun natural__ref___projection ((a natural__ref)) natural 
-(natural__content
-                                                                 a))
-
-(define-fun dynamic_invariant ((temp___expr_33 Int) (temp___is_init_30 
-Bool)
-  (temp___do_constant_31 Bool)
-  (temp___do_toplevel_32 Bool)) Bool (=>
-                                     (or (= temp___is_init_30 true)
-                                     (<= 0 2147483647)) (in_range2
-                                     temp___expr_33)))
-
-(declare-sort index 0)
-
-(define-fun in_range3 ((x Int)) Bool (and (<= 1 x) (<= x 100)))
-
-(define-fun bool_eq2 ((x Int) (y Int)) Bool (ite (= x y) true false))
-
-(declare-fun attr__ATTRIBUTE_IMAGE3 (Int) us_image)
-
-(declare-fun attr__ATTRIBUTE_VALUE__pre_check3 (us_image) Bool)
-
-(declare-fun attr__ATTRIBUTE_VALUE3 (us_image) Int)
-
-(declare-fun to_rep2 (index) Int)
-
-(declare-fun of_rep2 (Int) index)
-
-(declare-fun user_eq2 (index index) Bool)
-
-(declare-fun dummy2 () index)
-
-;; inversion_axiom
-  (assert
-  (forall ((x index))
-  (! (= (of_rep2 (to_rep2 x)) x) :pattern ((to_rep2 x)) )))
-
-;; range_axiom
-  (assert
-  (forall ((x index)) (! (in_range3 (to_rep2 x)) :pattern ((to_rep2 x)) 
-)))
-
-;; coerce_axiom
-  (assert
-  (forall ((x Int))
-  (! (=> (in_range3 x) (= (to_rep2 (of_rep2 x)) x)) :pattern ((to_rep2
-                                                              (of_rep2 
-x))) )))
-
-(declare-datatypes () ((index__ref (mk_index__ref (index__content 
-index)))))
-(define-fun index__ref___projection ((a index__ref)) index (index__content 
-a))
-
-(define-fun dynamic_invariant1 ((temp___expr_144 Int)
-  (temp___is_init_141 Bool) (temp___do_constant_142 Bool)
-  (temp___do_toplevel_143 Bool)) Bool (=>
-                                      (or (= temp___is_init_141 true)
-                                      (<= 1 100)) (in_range3
-                                      temp___expr_144)))
-
-(declare-datatypes ()
-((map__ref (mk_map__ref (map__content (Array Int natural))))))
-(declare-fun bool_eq3 ((Array Int natural) Int Int (Array Int natural) Int
-  Int) Bool)
-
-;; T__ada_array___equal_def
-  (assert
-  (forall ((a (Array Int natural)))
-  (forall ((af Int))
-  (forall ((al Int))
-  (forall ((b (Array Int natural)))
-  (forall ((bf Int))
-  (forall ((bl Int))
-  (! (=
-     (and (ite (<= af al) (= (+ (- al af) 1) (+ (- bl bf) 1)) (< bl bf))
-     (forall ((i Int))
-     (! (=> (and (<= af i) (<= i al))
-        (= (select a i) (select b (+ (- bf af) i)))) :pattern ((select a 
-i)) )))
-     (= (bool_eq3 a af al b bf bl) true)) :pattern ((bool_eq3 a af al b bf
-                                                    bl)) ))))))))
-
-(declare-fun slide ((Array Int natural) Int Int) (Array Int natural))
-
-;; slide_eq
-  (assert
-  (forall ((a (Array Int natural)))
-  (forall ((first Int))
-  (! (= (slide a first first) a) :pattern ((slide a first first)) ))))
-
-;; slide_def
-  (assert
-  (forall ((a (Array Int natural)))
-  (forall ((old_first Int))
-  (forall ((new_first Int))
-  (forall ((i Int))
-  (! (= (select (slide a old_first new_first) i) (select a (- i (- 
-new_first old_first)))) :pattern ((select
-  (slide a old_first new_first) i)) ))))))
-
-(declare-fun concat1 ((Array Int natural) Int Int (Array Int natural) Int
-  Int) (Array Int natural))
-
-;; concat_def
-  (assert
-  (forall ((a (Array Int natural)) (b (Array Int natural)))
-  (forall ((a_first Int) (a_last Int) (b_first Int) (b_last Int))
-  (forall ((i Int))
-  (! (and
-     (=> (and (<= a_first i) (<= i a_last))
-     (= (select (concat1 a a_first a_last b b_first b_last) i) (select a 
-i)))
-     (=> (< a_last i)
-     (= (select (concat1 a a_first a_last b b_first b_last) i) (select b 
-(+ (- i a_last) (- b_first 1)))))) :pattern ((select
-  (concat1 a a_first a_last b b_first b_last) i)) )))))
-
-(declare-fun singleton (natural Int) (Array Int natural))
-
-;; singleton_def
-  (assert
-  (forall ((v natural))
-  (forall ((i Int))
-  (! (= (select (singleton v i) i) v) :pattern ((select (singleton v i) 
-i)) ))))
-
-(declare-fun compare ((Array Int natural) Int Int (Array Int natural) Int
-  Int) Int)
-
-;; compare_def
-  (assert
-  (forall ((a (Array Int natural)) (b (Array Int natural)))
-  (forall ((a_first Int) (a_last Int) (b_first Int) (b_last Int))
-  (! (and
-     (= (= (compare a a_first a_last b b_first b_last) 0)
-     (= (bool_eq3 a a_first a_last b b_first b_last) true))
-     (and
-     (= (< (compare a a_first a_last b b_first b_last) 0)
-     (exists ((i Int) (j Int))
-     (and (<= i a_last)
-     (and (< j b_last)
-     (and (= (bool_eq3 a a_first i b b_first j) true)
-     (or (= i a_last)
-     (and (< i a_last)
-     (< (to_rep1 (select a (+ i 1))) (to_rep1 (select b (+ j 1)))))))))))
-     (= (< 0 (compare a a_first a_last b b_first b_last))
-     (exists ((i Int) (j Int))
-     (and (<= i b_last)
-     (and (< j a_last)
-     (and (= (bool_eq3 a a_first j b b_first i) true)
-     (or (= i b_last)
-     (and (< i b_last)
-     (< (to_rep1 (select b (+ i 1))) (to_rep1 (select a (+ j 
-1))))))))))))) :pattern (
-  (compare a a_first a_last b b_first b_last)) ))))
-
-(declare-sort t 0)
-
-(declare-fun first (t) integer)
-
-(declare-fun last (t) integer)
-
-(declare-fun mk (Int Int) t)
-
-;; mk_def
-  (assert
-  (forall ((f Int) (l Int))
-  (! (=> (in_range1 f)
-     (=> (in_range1 l)
-     (and (= (to_rep (first (mk f l))) f) (= (to_rep (last (mk f l))) 
-l)))) :pattern (
-  (mk f l)) )))
-
-(define-fun dynamic_property ((range_first Int) (range_last Int) (low Int)
-  (high Int)) Bool (and (in_range1 low)
-                   (and (in_range1 high)
-                   (=> (<= low high) (and (in_range3 low) (in_range3 
-high))))))
-
-(declare-datatypes () ((us_t (mk___t (elts (Array Int natural))(rt t)))))
-(define-fun to_array ((a us_t)) (Array Int natural) (elts a))
-
-(define-fun of_array ((a (Array Int natural)) (f Int)
-  (l Int)) us_t (mk___t a (mk f l)))
-
-(define-fun first1 ((a us_t)) Int (to_rep (first (rt a))))
-
-(define-fun last1 ((a us_t)) Int (to_rep (last (rt a))))
-
-(define-fun length ((a us_t)) Int (ite (<= (first1 a) (last1 a))
-                                  (+ (- (last1 a) (first1 a)) 1) 0))
-
-(declare-fun value__size () Int)
-
-(declare-fun object__size ((Array Int natural)) Int)
-
-(declare-fun value__component__size () Int)
-
-(declare-fun object__component__size ((Array Int natural)) Int)
-
-(declare-fun value__alignment () Int)
-
-(declare-fun object__alignment ((Array Int natural)) Int)
-
-;; value__size_axiom
-  (assert (<= 0 value__size))
-
-;; object__size_axiom
-  (assert (forall ((a (Array Int natural))) (<= 0 (object__size a))))
-
-;; value__component__size_axiom
-  (assert (<= 0 value__component__size))
-
-;; object__component__size_axiom
-  (assert
-  (forall ((a (Array Int natural))) (<= 0 (object__component__size a))))
-
-;; value__alignment_axiom
-  (assert (<= 0 value__alignment))
-
-;; object__alignment_axiom
-  (assert (forall ((a (Array Int natural))) (<= 0 (object__alignment a))))
-
-(define-fun bool_eq4 ((x us_t)
-  (y us_t)) Bool (bool_eq3 (elts x) (to_rep (first (rt x)))
-                 (to_rep (last (rt x))) (elts y) (to_rep (first (rt y)))
-                 (to_rep (last (rt y)))))
-
-(declare-fun user_eq3 (us_t us_t) Bool)
-
-(declare-fun dummy3 () us_t)
-
-(declare-datatypes ()
-((nat_array__ref (mk_nat_array__ref (nat_array__content us_t)))))
-(define-fun nat_array__ref___projection ((a nat_array__ref)) us_t 
-(nat_array__content
-                                                                  a))
-
-(define-fun dynamic_invariant2 ((temp___expr_150 us_t)
-  (temp___is_init_147 Bool) (temp___do_constant_148 Bool)
-  (temp___do_toplevel_149 Bool)) Bool (=>
-                                      (not (= temp___do_constant_148 
-true))
-                                      (dynamic_property 1 100
-                                      (first1 temp___expr_150)
-                                      (last1 temp___expr_150))))
-
-(declare-fun remove_last (us_t) us_t)
-
-(declare-fun first2 () Int)
-
-(declare-fun last2 () Int)
-
-(define-fun dynamic_property1 ((first_int Int) (last_int Int)
-  (x Int)) Bool (and (<= first_int x) (<= x last_int)))
-
-(define-fun bool_eq5 ((x Int) (y Int)) Bool (ite (= x y) true false))
-
-(declare-fun attr__ATTRIBUTE_IMAGE4 (Int) us_image)
-
-(declare-fun attr__ATTRIBUTE_VALUE__pre_check4 (us_image) Bool)
-
-(declare-fun attr__ATTRIBUTE_VALUE4 (us_image) Int)
-
-(declare-fun user_eq4 (integer integer) Bool)
-
-(declare-fun dummy4 () integer)
-
-(declare-datatypes () ((t15s__ref (mk_t15s__ref (t15s__content 
-integer)))))
-(define-fun t15s__ref___projection ((a t15s__ref)) integer (t15s__content 
-a))
-
-(declare-sort t1 0)
-
-(declare-fun first3 (t1) integer)
-
-(declare-fun last3 (t1) integer)
-
-(declare-fun mk1 (Int Int) t1)
-
-;; mk_def
-  (assert
-  (forall ((f Int) (l Int))
-  (! (=> (in_range1 f)
-     (=> (in_range1 l)
-     (and (= (to_rep (first3 (mk1 f l))) f) (= (to_rep (last3 (mk1 f l))) 
-l)))) :pattern (
-  (mk1 f l)) )))
-
-(define-fun dynamic_property2 ((range_first Int) (range_last Int) (low 
-Int)
-  (high Int)) Bool (and (in_range1 low)
-                   (and (in_range1 high)
-                   (=> (<= low high)
-                   (and (dynamic_property1 range_first range_last low)
-                   (dynamic_property1 range_first range_last high))))))
-
-(declare-datatypes ()
-((us_t1 (mk___t1 (elts1 (Array Int natural))(rt1 t1)))))
-(define-fun to_array1 ((a us_t1)) (Array Int natural) (elts1 a))
-
-(define-fun of_array1 ((a (Array Int natural)) (f Int)
-  (l Int)) us_t1 (mk___t1 a (mk1 f l)))
-
-(define-fun first4 ((a us_t1)) Int (to_rep (first3 (rt1 a))))
-
-(define-fun last4 ((a us_t1)) Int (to_rep (last3 (rt1 a))))
-
-(define-fun length1 ((a us_t1)) Int (ite (<= (first4 a) (last4 a))
-                                    (+ (- (last4 a) (first4 a)) 1) 0))
-
-(declare-fun value__size1 () Int)
-
-(declare-fun object__size1 ((Array Int natural)) Int)
-
-(declare-fun value__component__size1 () Int)
-
-(declare-fun object__component__size1 ((Array Int natural)) Int)
-
-(declare-fun value__alignment1 () Int)
-
-(declare-fun object__alignment1 ((Array Int natural)) Int)
-
-;; value__size_axiom
-  (assert (<= 0 value__size1))
-
-;; object__size_axiom
-  (assert (forall ((a (Array Int natural))) (<= 0 (object__size1 a))))
-
-;; value__component__size_axiom
-  (assert (<= 0 value__component__size1))
-
-;; object__component__size_axiom
-  (assert
-  (forall ((a (Array Int natural))) (<= 0 (object__component__size1 a))))
-
-;; value__alignment_axiom
-  (assert (<= 0 value__alignment1))
-
-;; object__alignment_axiom
-  (assert (forall ((a (Array Int natural))) (<= 0 (object__alignment1 
-a))))
-
-(define-fun bool_eq6 ((x us_t1)
-  (y us_t1)) Bool (bool_eq3 (elts1 x) (to_rep (first3 (rt1 x)))
-                  (to_rep (last3 (rt1 x))) (elts1 y)
-                  (to_rep (first3 (rt1 y))) (to_rep (last3 (rt1 y)))))
-
-(declare-fun user_eq5 (us_t1 us_t1) Bool)
-
-(declare-fun dummy5 () us_t1)
-
-(declare-datatypes () ((t16s__ref (mk_t16s__ref (t16s__content us_t1)))))
-(define-fun t16s__ref___projection ((a t16s__ref)) us_t1 (t16s__content 
-a))
-
-;; remove_last__post_axiom
-  (assert
-  (forall ((a us_t))
-  (! (=> (and (dynamic_invariant2 a true true true) (< 0 (length a)))
-     (dynamic_invariant2 (remove_last a) true false true)) :pattern (
-  (remove_last a)) )))
-
-;; remove_last__def_axiom
-  (assert
-  (forall ((a us_t))
-  (! (=> (dynamic_invariant2 a true true true)
-     (= (remove_last a) (let ((temp___163 (let ((temp___162 (- (last1 a) 
-1)))
-                                          (let ((temp___161 (first1 a)))
-                                          (of_array1 (to_array a) 
-temp___161
-                                          temp___162)))))
-                        (of_array (to_array1 temp___163) (first4 
-temp___163)
-                        (last4 temp___163))))) :pattern ((remove_last a)) 
-)))
-
-(declare-fun occ (us_t Int) Int)
-
-(declare-sort nb_occ 0)
-
-(define-fun in_range4 ((x Int)) Bool (and (<= 0 x) (<= x 100)))
-
-(define-fun bool_eq7 ((x Int) (y Int)) Bool (ite (= x y) true false))
-
-(declare-fun attr__ATTRIBUTE_IMAGE5 (Int) us_image)
-
-(declare-fun attr__ATTRIBUTE_VALUE__pre_check5 (us_image) Bool)
-
-(declare-fun attr__ATTRIBUTE_VALUE5 (us_image) Int)
-
-(declare-fun to_rep3 (nb_occ) Int)
-
-(declare-fun of_rep3 (Int) nb_occ)
-
-(declare-fun user_eq6 (nb_occ nb_occ) Bool)
-
-(declare-fun dummy6 () nb_occ)
-
-;; inversion_axiom
-  (assert
-  (forall ((x nb_occ))
-  (! (= (of_rep3 (to_rep3 x)) x) :pattern ((to_rep3 x)) )))
-
-;; range_axiom
-  (assert
-  (forall ((x nb_occ)) (! (in_range4 (to_rep3 x)) :pattern ((to_rep3 x)) 
-)))
-
-;; coerce_axiom
-  (assert
-  (forall ((x Int))
-  (! (=> (in_range4 x) (= (to_rep3 (of_rep3 x)) x)) :pattern ((to_rep3
-                                                              (of_rep3 
-x))) )))
-
-(declare-datatypes ()
-((nb_occ__ref (mk_nb_occ__ref (nb_occ__content nb_occ)))))
-(define-fun nb_occ__ref___projection ((a nb_occ__ref)) nb_occ 
-(nb_occ__content
-                                                              a))
-
-(define-fun dynamic_invariant3 ((temp___expr_155 Int)
-  (temp___is_init_152 Bool) (temp___do_constant_153 Bool)
-  (temp___do_toplevel_154 Bool)) Bool (=>
-                                      (or (= temp___is_init_152 true)
-                                      (<= 0 100)) (in_range4
-                                      temp___expr_155)))
-
-(declare-fun occ_def (us_t Int) Int)
-
-;; occ__post_axiom
-  (assert
-  (forall ((a us_t))
-  (forall ((e Int))
-  (! (=> (and (dynamic_invariant2 a true true true) (in_range2 e))
-     (let ((result (occ a e)))
-     (and (<= result (length a)) (dynamic_invariant3 result true false 
-true)))) :pattern (
-  (occ a e)) ))))
-
-;; occ__def_axiom
-  (assert
-  (forall ((a us_t))
-  (forall ((e Int))
-  (! (=> (and (dynamic_invariant2 a true true true) (in_range2 e))
-     (= (occ a e) (occ_def a e))) :pattern ((occ a e)) ))))
-
-(declare-fun is_set (us_t Int Int us_t) Bool)
-
-;; is_set__def_axiom
-  (assert
-  (forall ((a us_t) (r us_t))
-  (forall ((i Int) (v Int))
-  (! (= (= (is_set a i v r) true)
-     (and
-     (and (and (= (first1 r) (first1 a)) (= (last1 r) (last1 a)))
-     (= (to_rep1 (select (to_array r) i)) v))
-     (forall ((j Int))
-     (=> (and (<= (first1 a) j) (<= j (last1 a)))
-     (=> (not (= i j))
-     (= (to_rep1 (select (to_array r) j)) (to_rep1 (select (to_array a) 
-j)))))))) :pattern (
-  (is_set a i v r)) ))))
-
-(declare-fun a () us_t)
-
-(declare-fun attr__ATTRIBUTE_ADDRESS () Int)
-
-(declare-fun i () Int)
-
-(declare-fun attr__ATTRIBUTE_ADDRESS1 () Int)
-
-(declare-fun v () Int)
-
-(declare-fun attr__ATTRIBUTE_ADDRESS2 () Int)
-
-(declare-fun e () Int)
-
-(declare-fun attr__ATTRIBUTE_ADDRESS3 () Int)
-
-(declare-fun r () us_t)
-
-(declare-fun attr__ATTRIBUTE_ADDRESS4 () Int)
-
-(declare-fun b__first () integer)
-
-(declare-fun b__last () integer)
-
-(declare-fun attr__ATTRIBUTE_ADDRESS5 () Int)
-
-(define-fun dynamic_invariant4 ((temp___expr_15 Int) (temp___is_init_12 
-Bool)
-  (temp___do_constant_13 Bool)
-  (temp___do_toplevel_14 Bool)) Bool (=>
-                                     (or (= temp___is_init_12 true)
-                                     (<= (- 2147483648) 2147483647))
-                                     (in_range1 temp___expr_15)))
-
-;; occ_def__def_axiom
-  (assert
-  (forall ((a1 us_t))
-  (forall ((e1 Int))
-  (! (=> (and (dynamic_invariant2 a1 true true true) (in_range2 e1))
-     (= (occ_def a1 e1) (ite (= (length a1) 0) 0
-                        (ite (= (to_rep1 (select (to_array a1) (last1 
-a1))) e1)
-                        (+ (occ_def (remove_last a1) e1) 1)
-                        (occ_def (remove_last a1) e1))))) :pattern 
-((occ_def
-                                                                    a1 
-e1)) ))))
-
-(declare-fun b () (Array Int natural))
-
-(declare-fun perm__occ_set__b__assume () (Array Int natural))
-
-(declare-fun perm__occ_set__b__assume1 () t)
-
-(declare-fun o () natural)
-
-(declare-fun o1 () Int)
-
-(declare-fun o2 () (Array Int natural))
-
-(declare-fun o3 () (Array Int natural))
-
-(declare-fun o4 () t)
-
-(declare-fun result () (Array Int natural))
-
-(declare-fun b1 () (Array Int natural))
-
-(declare-fun result1 () (Array Int natural))
-
-(declare-fun b2 () (Array Int natural))
-
-(define-fun o5 () us_t (mk___t o3 o4))
-
-(define-fun perm__occ_set__b__assume2 () us_t (mk___t
-                                              perm__occ_set__b__assume
-                                              perm__occ_set__b__assume1))
-
-;; H
-  (assert (dynamic_invariant2 a true false true))
-
-;; H
-  (assert (in_range3 i))
-
-;; H
-  (assert (in_range2 v))
-
-;; H
-  (assert (in_range2 e))
-
-;; H
-  (assert (dynamic_invariant2 r true false true))
-
-;; H
-  (assert
-  (and (and (<= (to_rep (first (rt a))) i) (<= i (to_rep (last (rt a)))))
-  (= (is_set a i v r) true)))
-
-;; H
-  (assert
-  (and (= perm__occ_set__b__assume2 (remove_last a))
-  (and (dynamic_invariant2 perm__occ_set__b__assume2 true false true)
-  (and (= (elts a) perm__occ_set__b__assume)
-  (= (mk
-     (to_rep
-     (first3 (mk1 (to_rep (first (rt a))) (- (to_rep (last (rt a))) 1))))
-     (to_rep
-     (last3 (mk1 (to_rep (first (rt a))) (- (to_rep (last (rt a))) 1)))))
-  perm__occ_set__b__assume1)))))
-
-;; H
-  (assert (= (mk_map__ref result) (mk_map__ref b)))
-
-;; H
-  (assert (= b1 perm__occ_set__b__assume))
-
-;; H
-  (assert (= (to_rep b__first) (to_rep (first 
-perm__occ_set__b__assume1))))
-
-;; H
-  (assert (= (to_rep b__last) (to_rep (last perm__occ_set__b__assume1))))
-
-;; H
-  (assert (dynamic_property 1 100 (to_rep b__first) (to_rep b__last)))
-
-;; H
-  (assert (not (= (length a) 0)))
-
-;; H
-  (assert (not (= i (to_rep (last (rt a))))))
-
-;; H
-  (assert (= (to_rep1 o) v))
-
-;; H
-  (assert (and (<= (to_rep b__first) i) (<= i (to_rep b__last))))
-
-;; H
-  (assert (= o1 i))
-
-;; H
-  (assert (= o2 (store b1 o1 o)))
-
-;; H
-  (assert (= b1 result1))
-
-;; H
-  (assert (= b2 o2))
-
-;; H
-  (assert
-  (and (= o5 (remove_last r))
-  (and (dynamic_invariant2 o5 true false true)
-  (and (= (elts r) o3)
-  (= (mk
-     (to_rep
-     (first3 (mk1 (to_rep (first (rt r))) (- (to_rep (last (rt r))) 1))))
-     (to_rep
-     (last3 (mk1 (to_rep (first (rt r))) (- (to_rep (last (rt r))) 1)))))
-  o4)))))
-
-(assert
-;; WP_parameter_def
- ;; File "perm.ads", line 21, characters 0-0
-  (not
-  (= (bool_eq3 o3 (to_rep (first o4)) (to_rep (last o4)) b2
-     (to_rep (first (mk (to_rep b__first) (to_rep b__last))))
-     (to_rep (last (mk (to_rep b__first) (to_rep b__last))))) true)))
-(check-sat)
-
diff --git a/test/regress/regress0/quantifiers/burns13.smt2 b/test/regress/regress0/quantifiers/burns13.smt2
deleted file mode 100644
index 3424c161e..000000000
--- a/test/regress/regress0/quantifiers/burns13.smt2
+++ /dev/null
@@ -1,20 +0,0 @@
-; COMMAND-LINE: --full-saturate-quant --decision=internal
-; EXPECT: unsat
-(set-logic AUFLIA)
-(set-info :source | Burns mutual exclusion protocol. This is a benchmark of the haRVey theorem prover. It was translated to SMT-LIB by Leonardo  de Moura |)
-(set-info :smt-lib-version 2.0)
-(set-info :category "industrial")
-(set-info :status unsat)
-(declare-fun s_0 (Int) Bool)
-(declare-fun s_1 (Int) Bool)
-(declare-fun s_2 (Int) Bool)
-(declare-fun s_3 (Int) Bool)
-(declare-fun s_4 (Int) Bool)
-(declare-fun s_5 (Int) Bool)
-(declare-fun s (Int Int) Bool)
-(declare-fun flag (Int) Bool)
-(declare-fun p () Int)
-(declare-fun q () Int)
-(assert (not (=> (and (forall ((?p Int)) (=> (not (flag ?p)) (or (s_0 ?p) (s_1 ?p) (s_2 ?p)))) (forall ((?p Int)) (forall ((?q Int)) (=> (s_2 ?p) (not (s ?p ?q))))) (forall ((?p Int)) (forall ((?q Int)) (=> (and (< ?q ?p) (flag ?q) (or (s_5 ?p) (s_4 ?p) (and (s_3 ?p) (s ?p ?q)))) (and (not (s_5 ?q)) (not (and (s_4 ?q) (s ?q ?p))))))) (forall ((?p Int)) (=> (s_0 ?p) (not (or (s_1 ?p) (s_2 ?p) (s_3 ?p) (s_4 ?p) (s_5 ?p))))) (forall ((?p Int)) (=> (s_1 ?p) (not (or (s_2 ?p) (s_3 ?p) (s_4 ?p) (s_5 ?p))))) (forall ((?p Int)) (=> (s_2 ?p) (not (or (s_3 ?p) (s_4 ?p) (s_5 ?p))))) (forall ((?p Int)) (=> (s_3 ?p) (not (or (s_4 ?p) (s_5 ?p))))) (forall ((?p Int)) (=> (s_4 ?p) (not (s_5 ?p)))) (forall ((?r Int)) (let ((?v_0 (not (= ?r p)))) (=> (s_0 ?r) (not (or (s_1 ?r) (s_2 ?r) (s_3 ?r) (=> ?v_0 (and ?v_0 (=> ?v_0 (s_4 ?r)))) (s_5 ?r)))))) (forall ((?r Int)) (let ((?v_1 (not (= ?r p)))) (=> (s_1 ?r) (not (or (s_2 ?r) (s_3 ?r) (=> ?v_1 (and ?v_1 (=> ?v_1 (s_4 ?r)))) (s_5 ?r)))))) (forall ((?r Int)) (let ((?v_2 (not (= ?r p)))) (=> (s_2 ?r) (not (or (s_3 ?r) (=> ?v_2 (and ?v_2 (=> ?v_2 (s_4 ?r)))) (s_5 ?r)))))) (forall ((?r Int)) (let ((?v_3 (not (= ?r p)))) (=> (s_3 ?r) (not (or (=> ?v_3 (and ?v_3 (=> ?v_3 (s_4 ?r)))) (s_5 ?r)))))) (forall ((?r Int)) (let ((?v_4 (not (= ?r p)))) (=> (=> ?v_4 (and ?v_4 (=> ?v_4 (s_4 ?r)))) (not (s_5 ?r))))) (s_4 p) (not (s p q)) (< p q) (not (flag q))) (and (forall ((?t Int)) (=> (not (flag ?t)) (or (s_0 ?t) (s_1 ?t) (s_2 ?t)))) (forall ((?t Int)) (forall ((?r Int)) (=> (s_2 ?t) (not (=> (not (and (= ?r q) (= ?t p))) (s ?t ?r)))))) (forall ((?t Int)) (forall ((?r Int)) (let ((?v_6 (= ?t p))) (let ((?v_5 (not ?v_6)) (?v_8 (= ?r p))) (let ((?v_7 (not ?v_8))) (=> (and (< ?r ?t) (flag ?r) (or (s_5 ?t) (=> ?v_5 (and ?v_5 (=> ?v_5 (s_4 ?t)))) (and (s_3 ?t) (=> (not (and (= ?r q) ?v_6)) (s ?t ?r))))) (and (not (s_5 ?r)) (not (and (=> ?v_7 (and ?v_7 (=> ?v_7 (s_4 ?r)))) (=> (not (and (= ?t q) ?v_8)) (s ?r ?t)))))))))))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/quantifiers/burns4.smt2 b/test/regress/regress0/quantifiers/burns4.smt2
deleted file mode 100644
index 72023fd4f..000000000
--- a/test/regress/regress0/quantifiers/burns4.smt2
+++ /dev/null
@@ -1,20 +0,0 @@
-; COMMAND-LINE: --full-saturate-quant
-; EXPECT: unsat
-(set-logic AUFLIA)
-(set-info :source | Burns mutual exclusion protocol. This is a benchmark of the haRVey theorem prover. It was translated to SMT-LIB by Leonardo  de Moura |)
-(set-info :smt-lib-version 2.0)
-(set-info :category "industrial")
-(set-info :status unsat)
-(declare-fun s_0 (Int) Bool)
-(declare-fun s_1 (Int) Bool)
-(declare-fun s_2 (Int) Bool)
-(declare-fun s_3 (Int) Bool)
-(declare-fun s_4 (Int) Bool)
-(declare-fun s_5 (Int) Bool)
-(declare-fun s (Int Int) Bool)
-(declare-fun flag (Int) Bool)
-(declare-fun p () Int)
-(declare-fun q () Int)
-(assert (not (=> (and (forall ((?p Int)) (=> (not (flag ?p)) (or (s_0 ?p) (s_1 ?p) (s_2 ?p)))) (forall ((?p Int)) (forall ((?q Int)) (=> (s_2 ?p) (not (s ?p ?q))))) (forall ((?p Int)) (forall ((?q Int)) (=> (and (< ?q ?p) (flag ?q) (or (s_5 ?p) (s_4 ?p) (and (s_3 ?p) (s ?p ?q)))) (and (not (s_5 ?q)) (not (and (s_4 ?q) (s ?q ?p))))))) (forall ((?p Int)) (=> (s_0 ?p) (not (or (s_1 ?p) (s_2 ?p) (s_3 ?p) (s_4 ?p) (s_5 ?p))))) (forall ((?p Int)) (=> (s_1 ?p) (not (or (s_2 ?p) (s_3 ?p) (s_4 ?p) (s_5 ?p))))) (forall ((?p Int)) (=> (s_2 ?p) (not (or (s_3 ?p) (s_4 ?p) (s_5 ?p))))) (forall ((?p Int)) (=> (s_3 ?p) (not (or (s_4 ?p) (s_5 ?p))))) (forall ((?p Int)) (=> (s_4 ?p) (not (s_5 ?p))))) (forall ((?p Int)) (forall ((?q Int)) (=> (not (= ?p ?q)) (or (not (s_5 ?p)) (not (s_5 ?q)))))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/quantifiers/cbqi-sdlx-fixpoint-3-dd.smt2 b/test/regress/regress0/quantifiers/cbqi-sdlx-fixpoint-3-dd.smt2
deleted file mode 100644
index 4d5cf4ec4..000000000
--- a/test/regress/regress0/quantifiers/cbqi-sdlx-fixpoint-3-dd.smt2
+++ /dev/null
@@ -1,19 +0,0 @@
-; COMMAND-LINE: --cbqi --decision=internal
-; EXPECT: unsat
-(set-logic LIA)
-(set-info :status unsat)
-
-(assert (or 
-(forall ((H Int) (G Int)) (= (= G 0) (= H 0)))
-
-(forall ((C Int) (D Int) (E Int)) (or 
-(= (= D 0) (= C 0)) 
-(and 
-(not (forall ((G Int)) (= (= E 0) (= G 0)))) 
-(not (forall ((A Int)) 
-  (not (= (ite (= A 0) 0 1) (ite (= C 0) 0 2)))
-))
-)))
-))
-
-(check-sat)
diff --git a/test/regress/regress0/quantifiers/cdt-0208-to.smt2 b/test/regress/regress0/quantifiers/cdt-0208-to.smt2
deleted file mode 100644
index 9eff608bb..000000000
--- a/test/regress/regress0/quantifiers/cdt-0208-to.smt2
+++ /dev/null
@@ -1,767 +0,0 @@
-; COMMAND-LINE: --full-saturate-quant --lang=smt2.5
-; EXPECT: unsat
-(set-logic ALL_SUPPORTED)
-(set-info :status unsat)
-(declare-sort A$ 0)
-(declare-sort A_set$ 0)
-(declare-sort A_a_fun$ 0)
-(declare-sort A_bool_fun$ 0)
-(declare-sort Bool_a_fun$ 0)
-(declare-sort A_a_llist_fun$ 0)
-(declare-sort A_llist_a_fun$ 0)
-(declare-sort Bool_bool_fun$ 0)
-(declare-sort A_a_bool_fun_fun$ 0)
-(declare-sort A_llist_bool_fun$ 0)
-(declare-sort Bool_a_llist_fun$ 0)
-(declare-sort A_llist_a_set_fun$ 0)
-(declare-sort A_a_llist_a_fun_fun$ 0)
-(declare-sort A_llist_a_llist_fun$ 0)
-(declare-sort A_a_llist_bool_fun_fun$ 0)
-(declare-sort A_llist_a_llist_prod_set$ 0)
-(declare-sort A_a_llist_a_llist_fun_fun$ 0)
-(declare-sort A_llist_a_llist_bool_fun_fun$ 0)
-(declare-sort A_llist_a_llist_a_set_fun_fun$ 0)
-(declare-sort A_llist_a_llist_prod_bool_fun$ 0)
-(declare-sort Bool_a_llist_a_llist_prod_fun$ 0)
-(declare-sort A_llist_a_llist_prod_a_set_fun$ 0)
-(declare-sort A_llist_a_llist_a_llist_prod_fun$ 0)
-(declare-sort A_llist_a_llist_prod_a_llist_fun$ 0)
-(declare-sort A_llist_a_llist_prod_set_bool_fun$ 0)
-(declare-sort Bool_a_llist_a_llist_prod_set_fun$ 0)
-(declare-sort A_llist_a_llist_prod_llist_bool_fun$ 0)
-(declare-sort A_llist_a_llist_a_llist_prod_set_fun$ 0)
-(declare-sort A_a_llist_a_fun_fun_a_llist_a_fun_fun$ 0)
-(declare-sort A_llist_a_llist_prod_bool_fun_bool_fun$ 0)
-(declare-sort Bool_a_llist_a_llist_prod_bool_fun_fun$ 0)
-(declare-sort A_llist_a_llist_a_llist_bool_fun_fun_fun$ 0)
-(declare-sort A_llist_a_llist_a_llist_prod_bool_fun_fun$ 0)
-(declare-sort A_a_llist_a_fun_fun_a_a_llist_a_fun_fun_fun$ 0)
-(declare-sort A_a_llist_bool_fun_fun_a_llist_bool_fun_fun$ 0)
-(declare-sort A_llist_a_llist_fun_a_llist_a_llist_fun_fun$ 0)
-(declare-sort A_llist_a_llist_a_llist_a_llist_prod_fun_fun$ 0)
-(declare-sort A_llist_a_llist_prod_a_llist_a_llist_prod_fun$ 0)
-(declare-sort A_a_llist_a_fun_fun_a_a_llist_bool_fun_fun_fun$ 0)
-(declare-sort A_a_llist_bool_fun_fun_a_a_llist_a_fun_fun_fun$ 0)
-(declare-sort A_llist_a_llist_a_llist_a_llist_prod_set_fun_fun$ 0)
-(declare-sort A_a_llist_a_fun_fun_a_a_llist_a_llist_fun_fun_fun$ 0)
-(declare-sort A_a_llist_a_llist_fun_fun_a_a_llist_a_fun_fun_fun$ 0)
-(declare-sort A_a_llist_a_llist_fun_fun_a_llist_a_llist_fun_fun$ 0)
-(declare-sort A_a_llist_bool_fun_fun_a_a_llist_bool_fun_fun_fun$ 0)
-(declare-sort A_llist_a_llist_prod_a_llist_a_llist_prod_set_fun$ 0)
-(declare-sort A_llist_a_llist_prod_set_a_llist_a_llist_prod_fun$ 0)
-(declare-sort A_llist_a_llist_prod_a_llist_a_llist_prod_prod_set$ 0)
-(declare-sort A_llist_a_llist_prod_llist_a_llist_a_llist_prod_fun$ 0)
-(declare-sort A_a_llist_a_llist_fun_fun_a_a_llist_bool_fun_fun_fun$ 0)
-(declare-sort A_a_llist_bool_fun_fun_a_a_llist_a_llist_fun_fun_fun$ 0)
-(declare-sort A_llist_a_llist_a_llist_a_llist_bool_fun_fun_fun_fun$ 0)
-(declare-sort A_llist_a_llist_fun_a_llist_a_llist_bool_fun_fun_fun$ 0)
-(declare-sort A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun$ 0)
-(declare-sort A_llist_a_llist_prod_a_llist_a_llist_bool_fun_fun_fun$ 0)
-(declare-sort A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$ 0)
-(declare-sort A_a_llist_a_llist_fun_fun_a_a_llist_a_llist_fun_fun_fun$ 0)
-(declare-sort A_llist_a_llist_prod_a_llist_a_llist_prod_a_set_fun_fun$ 0)
-(declare-sort A_llist_a_llist_prod_a_llist_a_llist_prod_prod_bool_fun$ 0)
-(declare-sort A_llist_a_llist_prod_llist_a_llist_a_llist_prod_llist_fun$ 0)
-(declare-sort A_llist_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_fun$ 0)
-(declare-sort A_llist_a_llist_prod_set_a_llist_a_llist_prod_bool_fun_fun$ 0)
-(declare-sort A_llist_a_llist_prod_a_llist_a_llist_prod_llist_bool_fun_fun$ 0)
-(declare-sort A_llist_a_fun_a_llist_a_llist_fun_a_llist_a_llist_fun_fun_fun$ 0)
-(declare-sort A_llist_a_llist_bool_fun_fun_a_llist_a_llist_bool_fun_fun_fun$ 0)
-(declare-sort A_llist_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_set_fun$ 0)
-(declare-sort A_llist_a_llist_bool_fun_fun_a_llist_a_llist_prod_bool_fun_fun$ 0)
-(declare-sort A_llist_a_llist_prod_llist_a_llist_a_llist_prod_llist_prod_set$ 0)
-(declare-sort A_llist_a_llist_prod_bool_fun_a_llist_a_llist_prod_bool_fun_fun$ 0)
-(declare-sort A_llist_a_llist_prod_llist_a_llist_a_llist_prod_llist_bool_fun_fun$ 0)
-(declare-sort A_llist_a_llist_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_fun_fun$ 0)
-(declare-sort A_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_fun_fun$ 0)
-(declare-sort A_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_fun$ 0)
-(declare-sort A_llist_a_llist_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_set_fun_fun$ 0)
-(declare-sort A_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_set_fun_fun$ 0)
-(declare-sort A_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_set_fun$ 0)
-(declare-sort A_llist_a_llist_prod_a_llist_a_llist_prod_llist_a_llist_a_llist_prod_fun_fun$ 0)
-(declare-sort A_llist_a_llist_a_llist_a_llist_prod_fun_fun_a_llist_a_llist_bool_fun_fun_fun$ 0)
-(declare-sort A_llist_a_llist_a_llist_a_llist_prod_set_fun_fun_a_llist_a_llist_bool_fun_fun_fun$ 0)
-(declare-sort A_llist_a_llist_bool_fun_fun_a_llist_a_llist_a_llist_a_llist_prod_set_fun_fun_fun$ 0)
-(declare-sort A_llist_a_llist_prod_set_a_llist_a_llist_a_llist_a_llist_bool_fun_fun_fun_fun_fun$ 0)
-(declare-sort A_llist_a_llist_prod_a_llist_a_llist_prod_llist_a_llist_a_llist_prod_llist_fun_fun$ 0)
-(declare-sort A_llist_a_llist_prod_set_a_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun_fun$ 0)
-(declare-sort A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun_a_llist_a_llist_bool_fun_fun_fun$ 0)
-(declare-sort A_llist_a_llist_bool_fun_fun_a_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun_fun$ 0)
-(declare-sort A_llist_a_llist_a_llist_prod_set_fun_a_llist_a_llist_a_llist_a_llist_bool_fun_fun_fun_fun_fun$ 0)
-(declare-sort A_llist_a_llist_a_llist_a_llist_prod_fun_fun_a_llist_a_llist_prod_a_llist_a_llist_prod_fun_fun$ 0)
-(declare-sort A_llist_a_llist_a_llist_prod_set_fun_a_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun_fun$ 0)
-(declare-sort A_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_fun_fun$ 0)
-(declare-sort A_llist_a_llist_a_llist_a_llist_prod_fun_fun_a_llist_a_llist_a_llist_a_llist_prod_set_fun_fun_fun$ 0)
-(declare-sort A_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_set_fun_fun$ 0)
-(declare-sort A_llist_a_llist_prod_a_llist_a_llist_prod_llist_bool_fun_fun_a_llist_a_llist_prod_llist_bool_fun_fun$ 0)
-(declare-sort A_llist_a_llist_a_llist_a_llist_prod_fun_fun_a_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun_fun$ 0)
-(declare-sort A_llist_a_llist_a_llist_a_llist_prod_set_fun_fun_a_llist_a_llist_prod_a_llist_a_llist_prod_set_fun_fun$ 0)
-(declare-sort A_llist_a_llist_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_fun_fun_a_llist_a_llist_bool_fun_fun_fun$ 0)
-(declare-sort A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun_a_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun_fun$ 0)
-(declare-sort A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun_a_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun_fun$ 0)
-(declare-sort A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_bool_fun_fun$ 0)
-(declare-sort A_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_fun_fun_a_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun_fun$ 0)
-(declare-sort A_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_fun_fun_a_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun_fun$ 0)
-(declare-codatatypes () ((A_llist$ (lNil$) (lCons$ (lhd$ A$) (ltl$ A_llist$)))))
-(declare-datatypes () ((A_llist_a_llist_prod$ (pair$ (fst$ A_llist$) (snd$ A_llist$)))))
-(declare-codatatypes () ((A_llist_a_llist_prod_llist$ (lNil$a) (lCons$a (lhd$a A_llist_a_llist_prod$) (ltl$a A_llist_a_llist_prod_llist$)))))
-(declare-datatypes () ((A_llist_a_llist_prod_llist_a_llist_a_llist_prod_llist_prod$ (pair$a (fst$a A_llist_a_llist_prod_llist$) (snd$a A_llist_a_llist_prod_llist$)))
-  (A_llist_a_llist_prod_a_llist_a_llist_prod_prod$ (pair$b (fst$b A_llist_a_llist_prod$) (snd$b A_llist_a_llist_prod$)))))
-(declare-fun p$ () A_llist_a_llist_bool_fun_fun$)
-(declare-fun uu$ (Bool) A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun_a_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun_fun$)
-(declare-fun xs$ () A_llist$)
-(declare-fun ys$ () A_llist$)
-(declare-fun sup$ (A_llist_a_llist_prod_set$ A_llist_a_llist_prod_set$) A_llist_a_llist_prod_set$)
-(declare-fun the$ (A_llist_a_llist_prod_bool_fun$) A_llist_a_llist_prod$)
-(declare-fun uua$ (Bool) A_llist_a_llist_bool_fun_fun_a_llist_a_llist_bool_fun_fun_fun$)
-(declare-fun uub$ (A_llist_a_llist_prod_a_llist_a_llist_prod_set_fun$) A_llist_a_llist_a_llist_a_llist_prod_set_fun_fun$)
-(declare-fun uuc$ (A_llist_a_llist_prod_a_llist_a_llist_prod_fun$) A_llist_a_llist_a_llist_a_llist_prod_fun_fun$)
-(declare-fun uud$ (A_llist_a_llist_prod_a_llist_a_llist_prod_prod_bool_fun$) A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$)
-(declare-fun uue$ (A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$) A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun$)
-(declare-fun uuf$ (A_llist_a_llist_prod_bool_fun$) A_llist_a_llist_bool_fun_fun$)
-(declare-fun uug$ (A_set$) A_bool_fun$)
-(declare-fun uuh$ (A_llist_a_llist_prod_a_llist_a_llist_prod_prod_set$) A_llist_a_llist_prod_a_llist_a_llist_prod_prod_bool_fun$)
-(declare-fun uui$ (A_llist_a_llist_prod_set$) A_llist_a_llist_prod_bool_fun$)
-(declare-fun uuj$ (Bool_bool_fun$) A_llist_a_llist_bool_fun_fun_a_llist_a_llist_bool_fun_fun_fun$)
-(declare-fun uuk$ (Bool_a_llist_a_llist_prod_fun$ A_llist_a_llist_bool_fun_fun$) A_llist_a_llist_a_llist_a_llist_prod_fun_fun$)
-(declare-fun uul$ (A_llist_a_llist_prod_bool_fun$) A_llist_a_llist_a_llist_a_llist_prod_fun_fun_a_llist_a_llist_bool_fun_fun_fun$)
-(declare-fun uum$ (Bool_a_llist_a_llist_prod_set_fun$) A_llist_a_llist_bool_fun_fun_a_llist_a_llist_a_llist_a_llist_prod_set_fun_fun_fun$)
-(declare-fun uun$ (A_llist_a_llist_prod_set_bool_fun$) A_llist_a_llist_a_llist_a_llist_prod_set_fun_fun_a_llist_a_llist_bool_fun_fun_fun$)
-(declare-fun uuo$ (Bool_a_llist_a_llist_prod_bool_fun_fun$) A_llist_a_llist_bool_fun_fun_a_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun_fun$)
-(declare-fun uup$ (Bool_bool_fun$) A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun_a_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun_fun$)
-(declare-fun uuq$ (A_llist_a_llist_prod_bool_fun_bool_fun$) A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun_a_llist_a_llist_bool_fun_fun_fun$)
-(declare-fun uur$ (A_llist_a_llist_prod_a_llist_a_llist_prod_fun$ A_llist_a_llist_a_llist_a_llist_prod_fun_fun$) A_llist_a_llist_a_llist_a_llist_prod_fun_fun$)
-(declare-fun uus$ (A_llist_a_llist_prod_set_a_llist_a_llist_prod_fun$ A_llist_a_llist_a_llist_a_llist_prod_set_fun_fun$) A_llist_a_llist_a_llist_a_llist_prod_fun_fun$)
-(declare-fun uut$ (A_llist_a_llist_bool_fun_fun$) A_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_fun_fun_a_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun_fun$)
-(declare-fun uuu$ (A_llist_a_llist_a_llist_a_llist_prod_set_fun_fun$) A_llist_a_llist_a_llist_a_llist_prod_fun_fun_a_llist_a_llist_a_llist_a_llist_prod_set_fun_fun_fun$)
-(declare-fun uuv$ (A_llist_a_llist_a_llist_a_llist_prod_fun_fun$ A_llist_a_llist_a_llist_a_llist_prod_fun_fun$) A_llist_a_llist_a_llist_a_llist_prod_fun_fun$)
-(declare-fun uuw$ (A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$) A_llist_a_llist_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_fun_fun_a_llist_a_llist_bool_fun_fun_fun$)
-(declare-fun uux$ (A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$) A_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_fun_fun_a_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun_fun$)
-(declare-fun uuy$ (A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun$) A_llist_a_llist_a_llist_a_llist_prod_fun_fun_a_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun_fun$)
-(declare-fun uuz$ (A_llist_a_llist_bool_fun_fun$) A_llist_a_llist_a_llist_a_llist_prod_fun_fun_a_llist_a_llist_bool_fun_fun_fun$)
-(declare-fun uva$ () A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$)
-(declare-fun uvb$ () A_llist_a_llist_bool_fun_fun$)
-(declare-fun uvc$ () A_llist_a_llist_prod_llist_a_llist_a_llist_prod_fun$)
-(declare-fun uvd$ () A_llist_a_llist_prod_llist_a_llist_a_llist_prod_llist_fun$)
-(declare-fun uve$ () A_llist_a_fun$)
-(declare-fun uvf$ () A_llist_a_llist_fun$)
-(declare-fun uvg$ (A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun$) A_llist_a_llist_prod_a_llist_a_llist_bool_fun_fun_fun$)
-(declare-fun uvh$ (Bool_bool_fun$) A_a_llist_bool_fun_fun_a_a_llist_bool_fun_fun_fun$)
-(declare-fun uvi$ (Bool_a_llist_fun$) A_a_llist_bool_fun_fun_a_a_llist_a_llist_fun_fun_fun$)
-(declare-fun uvj$ (Bool_a_fun$) A_a_llist_bool_fun_fun_a_a_llist_a_fun_fun_fun$)
-(declare-fun uvk$ (A_llist_bool_fun$) A_a_llist_a_llist_fun_fun_a_a_llist_bool_fun_fun_fun$)
-(declare-fun uvl$ (A_llist_a_llist_fun$) A_a_llist_a_llist_fun_fun_a_a_llist_a_llist_fun_fun_fun$)
-(declare-fun uvm$ (A_llist_a_fun$) A_a_llist_a_llist_fun_fun_a_a_llist_a_fun_fun_fun$)
-(declare-fun uvn$ (A_bool_fun$) A_a_llist_a_fun_fun_a_a_llist_bool_fun_fun_fun$)
-(declare-fun uvo$ (A_a_llist_fun$) A_a_llist_a_fun_fun_a_a_llist_a_llist_fun_fun_fun$)
-(declare-fun uvp$ (A_a_fun$) A_a_llist_a_fun_fun_a_a_llist_a_fun_fun_fun$)
-(declare-fun uvq$ () A_llist_a_llist_prod_a_llist_a_llist_prod_llist_bool_fun_fun$)
-(declare-fun uvr$ () A_a_llist_bool_fun_fun$)
-(declare-fun uvs$ () A_llist_a_llist_prod_a_llist_a_llist_prod_llist_bool_fun_fun$)
-(declare-fun uvt$ () A_a_llist_bool_fun_fun$)
-(declare-fun uvu$ () A_llist_a_llist_prod_a_llist_a_llist_prod_llist_a_llist_a_llist_prod_llist_fun_fun$)
-(declare-fun uvv$ () A_a_llist_a_llist_fun_fun$)
-(declare-fun uvw$ () A_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_fun_fun$)
-(declare-fun uvx$ () A_llist_a_llist_a_llist_a_llist_prod_fun_fun$)
-(declare-fun uvy$ (A_llist_a_llist_prod_a_llist_a_llist_prod_prod_set$) A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$)
-(declare-fun uvz$ (A_llist_a_llist_prod_set$) A_llist_a_llist_bool_fun_fun$)
-(declare-fun uwa$ () A_llist_a_llist_prod_a_llist_a_llist_prod_llist_a_llist_a_llist_prod_fun_fun$)
-(declare-fun uwb$ () A_a_llist_a_fun_fun$)
-(declare-fun uwc$ (A_llist_a_llist_a_llist_a_llist_prod_set_fun_fun$) A_llist_a_llist_a_llist_a_llist_prod_set_fun_fun$)
-(declare-fun uwd$ (A_llist_a_llist_a_llist_a_llist_prod_fun_fun$) A_llist_a_llist_a_llist_a_llist_prod_fun_fun$)
-(declare-fun uwe$ (A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$) A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$)
-(declare-fun uwf$ (A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun$) A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun$)
-(declare-fun uwg$ (A_llist_a_llist_bool_fun_fun$) A_llist_a_llist_bool_fun_fun$)
-(declare-fun uwh$ (A_llist_a_llist_prod_llist$) A_llist_a_llist_prod_a_llist_a_llist_prod_llist_a_llist_a_llist_prod_llist_fun_fun$)
-(declare-fun uwi$ (A_llist$) A_a_llist_a_llist_fun_fun$)
-(declare-fun uwj$ (A_llist$) A_a_llist_a_llist_fun_fun$)
-(declare-fun uwk$ (A_llist_a_llist_prod_set$) A_llist_a_llist_fun_a_llist_a_llist_bool_fun_fun_fun$)
-(declare-fun uwl$ (A_llist_bool_fun$) A_llist_a_llist_a_llist_prod_set_fun_a_llist_a_llist_a_llist_a_llist_bool_fun_fun_fun_fun_fun$)
-(declare-fun uwm$ (A_llist_bool_fun$) A_llist_a_llist_a_llist_prod_set_fun_a_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun_fun$)
-(declare-fun uwn$ (A_llist_a_llist_prod_set$) A_llist_a_llist_prod_set_a_llist_a_llist_a_llist_a_llist_bool_fun_fun_fun_fun_fun$)
-(declare-fun uwo$ (A_llist_a_llist_prod_set$) A_llist_a_llist_prod_set_a_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun_fun$)
-(declare-fun uwp$ (A_llist_a_llist_prod_bool_fun$) A_llist_a_llist_prod_bool_fun_a_llist_a_llist_prod_bool_fun_fun$)
-(declare-fun uwq$ (A_llist_a_llist_prod_set$) A_llist_a_llist_prod_set_a_llist_a_llist_prod_bool_fun_fun$)
-(declare-fun uwr$ (A_llist_a_llist_prod_bool_fun$) A_llist_a_llist_prod_bool_fun_a_llist_a_llist_prod_bool_fun_fun$)
-(declare-fun uws$ (A_llist_a_llist_prod_set$) A_llist_a_llist_prod_bool_fun_a_llist_a_llist_prod_bool_fun_fun$)
-(declare-fun uwt$ (A_llist$) A_llist_a_llist_a_llist_bool_fun_fun_fun$)
-(declare-fun lset$ (A_llist_a_llist_prod_llist$) A_llist_a_llist_prod_set$)
-(declare-fun swap$ (A_llist_a_llist_prod$) A_llist_a_llist_prod$)
-(declare-fun lnull$ () A_llist_bool_fun$)
-(declare-fun lset$a (A_llist$) A_set$)
-(declare-fun swap$a (A_llist_a_llist_prod_a_llist_a_llist_prod_prod$) A_llist_a_llist_prod_a_llist_a_llist_prod_prod$)
-(declare-fun image2$ (A_llist_a_llist_prod_set$ A_llist_a_llist_prod_a_llist_fun$ A_llist_a_llist_prod_a_llist_fun$) A_llist_a_llist_prod_set$)
-(declare-fun in_rel$ (A_llist_a_llist_prod_set$) A_llist_a_llist_bool_fun_fun$)
-(declare-fun lnull$a () A_llist_a_llist_prod_llist_bool_fun$)
-(declare-fun member$ (A_llist_a_llist_prod$) A_llist_a_llist_prod_set_bool_fun$)
-(declare-fun collect$ (A_llist_a_llist_prod_bool_fun$) A_llist_a_llist_prod_set$)
-(declare-fun fun_app$ (A_llist_a_llist_prod_llist_a_llist_a_llist_prod_llist_fun$ A_llist_a_llist_prod_llist$) A_llist_a_llist_prod_llist$)
-(declare-fun lappend$ (A_llist_a_llist_prod_llist$) A_llist_a_llist_prod_llist_a_llist_a_llist_prod_llist_fun$)
-(declare-fun less_eq$ (A_llist_a_llist_prod_set$) A_llist_a_llist_prod_set_bool_fun$)
-(declare-fun lfinite$ (A_llist_a_llist_prod_llist$) Bool)
-(declare-fun lmember$ (A_llist_a_llist_prod$) A_llist_a_llist_prod_llist_bool_fun$)
-(declare-fun lprefix$ (A_llist$) A_llist_bool_fun$)
-(declare-fun member$a (A_llist_a_llist_prod_a_llist_a_llist_prod_prod$ A_llist_a_llist_prod_a_llist_a_llist_prod_prod_set$) Bool)
-(declare-fun member$b (A$ A_set$) Bool)
-(declare-fun member$c (A_llist_a_llist_prod_llist_a_llist_a_llist_prod_llist_prod$ A_llist_a_llist_prod_llist_a_llist_a_llist_prod_llist_prod_set$) Bool)
-(declare-fun uncurry$ () A_llist_a_llist_a_llist_a_llist_prod_fun_fun_a_llist_a_llist_prod_a_llist_a_llist_prod_fun_fun$)
-(declare-fun collect$a (A_llist_a_llist_prod_a_llist_a_llist_prod_prod_bool_fun$) A_llist_a_llist_prod_a_llist_a_llist_prod_prod_set$)
-(declare-fun collect$b (A_bool_fun$) A_set$)
-(declare-fun fun_app$a (A_llist_a_llist_fun$ A_llist$) A_llist$)
-(declare-fun fun_app$b (A_llist_a_llist_prod_llist_a_llist_a_llist_prod_fun$ A_llist_a_llist_prod_llist$) A_llist_a_llist_prod$)
-(declare-fun fun_app$c (A_llist_a_fun$ A_llist$) A$)
-(declare-fun fun_app$d (A_llist_a_llist_a_llist_prod_fun$ A_llist$) A_llist_a_llist_prod$)
-(declare-fun fun_app$e (A_llist_a_llist_a_llist_a_llist_prod_fun_fun$ A_llist$) A_llist_a_llist_a_llist_prod_fun$)
-(declare-fun fun_app$f (A_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_fun$ A_llist_a_llist_prod$) A_llist_a_llist_prod_a_llist_a_llist_prod_prod$)
-(declare-fun fun_app$g (A_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_fun_fun$ A_llist_a_llist_prod$) A_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_fun$)
-(declare-fun fun_app$h (A_llist_a_llist_prod_bool_fun$ A_llist_a_llist_prod$) Bool)
-(declare-fun fun_app$i (A_llist_a_llist_prod_set_bool_fun$ A_llist_a_llist_prod_set$) Bool)
-(declare-fun fun_app$j (A_llist_a_llist_prod_a_llist_a_llist_prod_prod_bool_fun$ A_llist_a_llist_prod_a_llist_a_llist_prod_prod$) Bool)
-(declare-fun fun_app$k (A_bool_fun$ A$) Bool)
-(declare-fun fun_app$l (A_llist_bool_fun$ A_llist$) Bool)
-(declare-fun fun_app$m (A_llist_a_llist_bool_fun_fun$ A_llist$) A_llist_bool_fun$)
-(declare-fun fun_app$n (A_llist_a_llist_a_llist_prod_set_fun$ A_llist$) A_llist_a_llist_prod_set$)
-(declare-fun fun_app$o (A_llist_a_llist_a_llist_a_llist_prod_set_fun_fun$ A_llist$) A_llist_a_llist_a_llist_prod_set_fun$)
-(declare-fun fun_app$p (A_llist_a_llist_a_llist_prod_bool_fun_fun$ A_llist$) A_llist_a_llist_prod_bool_fun$)
-(declare-fun fun_app$q (A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun$ A_llist$) A_llist_a_llist_a_llist_prod_bool_fun_fun$)
-(declare-fun fun_app$r (A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$ A_llist_a_llist_prod$) A_llist_a_llist_prod_bool_fun$)
-(declare-fun fun_app$s (A_llist_a_llist_prod_set_a_llist_a_llist_prod_bool_fun_fun$ A_llist_a_llist_prod_set$) A_llist_a_llist_prod_bool_fun$)
-(declare-fun fun_app$t (A_llist_a_llist_prod_bool_fun_a_llist_a_llist_prod_bool_fun_fun$ A_llist_a_llist_prod_bool_fun$) A_llist_a_llist_prod_bool_fun$)
-(declare-fun fun_app$u (A_llist_a_llist_prod_a_llist_a_llist_prod_llist_a_llist_a_llist_prod_llist_fun_fun$ A_llist_a_llist_prod$) A_llist_a_llist_prod_llist_a_llist_a_llist_prod_llist_fun$)
-(declare-fun fun_app$v (A_a_llist_a_llist_fun_fun$ A$) A_llist_a_llist_fun$)
-(declare-fun fun_app$w (A_llist_a_llist_prod_a_llist_a_llist_prod_fun$ A_llist_a_llist_prod$) A_llist_a_llist_prod$)
-(declare-fun fun_app$x (A_llist_a_llist_prod_a_llist_a_llist_prod_set_fun$ A_llist_a_llist_prod$) A_llist_a_llist_prod_set$)
-(declare-fun fun_app$y (A_llist_a_llist_prod_a_llist_a_llist_bool_fun_fun_fun$ A_llist_a_llist_prod$) A_llist_a_llist_bool_fun_fun$)
-(declare-fun fun_app$z (A_llist_a_llist_fun_a_llist_a_llist_bool_fun_fun_fun$ A_llist_a_llist_fun$) A_llist_a_llist_bool_fun_fun$)
-(declare-fun lappend$a (A_llist$) A_llist_a_llist_fun$)
-(declare-fun less_eq$a (A_set$ A_set$) Bool)
-(declare-fun less_eq$b (A_llist_a_llist_prod_bool_fun$) A_llist_a_llist_prod_bool_fun_bool_fun$)
-(declare-fun less_eq$c (A_llist_a_llist_bool_fun_fun$ A_llist_a_llist_bool_fun_fun$) Bool)
-(declare-fun lex_prod$ (A_llist_a_llist_prod_set$ A_llist_a_llist_prod_set$) A_llist_a_llist_prod_a_llist_a_llist_prod_prod_set$)
-(declare-fun lfinite$a (A_llist$) Bool)
-(declare-fun lmember$a (A$) A_llist_bool_fun$)
-(declare-fun lprefix$a (A_llist_a_llist_prod_llist$) A_llist_a_llist_prod_llist_bool_fun$)
-(declare-fun same_fst$ (A_llist_bool_fun$ A_llist_a_llist_a_llist_prod_set_fun$) A_llist_a_llist_prod_a_llist_a_llist_prod_prod_set$)
-(declare-fun uncurry$a () A_llist_a_llist_bool_fun_fun_a_llist_a_llist_prod_bool_fun_fun$)
-(declare-fun uncurry$b () A_llist_a_llist_a_llist_a_llist_prod_set_fun_fun_a_llist_a_llist_prod_a_llist_a_llist_prod_set_fun_fun$)
-(declare-fun uncurry$c () A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun_a_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun_fun$)
-(declare-fun uncurry$d () A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_bool_fun_fun$)
-(declare-fun uncurry$e (A_llist_a_llist_a_set_fun_fun$ A_llist_a_llist_prod$) A_set$)
-(declare-fun uncurry$f (A_llist_a_llist_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_set_fun_fun$ A_llist_a_llist_prod$) A_llist_a_llist_prod_a_llist_a_llist_prod_prod_set$)
-(declare-fun uncurry$g (A_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_set_fun_fun$ A_llist_a_llist_prod_a_llist_a_llist_prod_prod$) A_llist_a_llist_prod_set$)
-(declare-fun uncurry$h (A_llist_a_llist_prod_a_llist_a_llist_prod_a_set_fun_fun$ A_llist_a_llist_prod_a_llist_a_llist_prod_prod$) A_set$)
-(declare-fun uncurry$i (A_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_set_fun_fun$ A_llist_a_llist_prod_a_llist_a_llist_prod_prod$) A_llist_a_llist_prod_a_llist_a_llist_prod_prod_set$)
-(declare-fun uncurry$j (A_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_fun_fun$ A_llist_a_llist_prod_a_llist_a_llist_prod_prod$) A_llist_a_llist_prod$)
-(declare-fun uncurry$k (A_llist_a_llist_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_fun_fun$ A_llist_a_llist_prod$) A_llist_a_llist_prod_a_llist_a_llist_prod_prod$)
-(declare-fun uncurry$l (A_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_fun_fun$ A_llist_a_llist_prod_a_llist_a_llist_prod_prod$) A_llist_a_llist_prod_a_llist_a_llist_prod_prod$)
-(declare-fun fun_app$aa (A_llist_a_llist_a_llist_bool_fun_fun_fun$ A_llist$) A_llist_a_llist_bool_fun_fun$)
-(declare-fun fun_app$ab (A_llist_a_llist_a_llist_a_llist_prod_fun_fun_a_llist_a_llist_prod_a_llist_a_llist_prod_fun_fun$ A_llist_a_llist_a_llist_a_llist_prod_fun_fun$) A_llist_a_llist_prod_a_llist_a_llist_prod_fun$)
-(declare-fun fun_app$ac (A_llist_a_llist_a_llist_a_llist_prod_fun_fun_a_llist_a_llist_bool_fun_fun_fun$ A_llist_a_llist_a_llist_a_llist_prod_fun_fun$) A_llist_a_llist_bool_fun_fun$)
-(declare-fun fun_app$ad (A_llist_a_llist_bool_fun_fun_a_llist_a_llist_prod_bool_fun_fun$ A_llist_a_llist_bool_fun_fun$) A_llist_a_llist_prod_bool_fun$)
-(declare-fun fun_app$ae (A_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_fun_fun_a_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun_fun$ A_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_fun_fun$) A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$)
-(declare-fun fun_app$af (A_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_fun_fun$ A_llist_a_llist_prod$) A_llist_a_llist_prod_a_llist_a_llist_prod_fun$)
-(declare-fun fun_app$ag (A_llist_a_llist_a_llist_a_llist_prod_fun_fun_a_llist_a_llist_a_llist_a_llist_prod_set_fun_fun_fun$ A_llist_a_llist_a_llist_a_llist_prod_fun_fun$) A_llist_a_llist_a_llist_a_llist_prod_set_fun_fun$)
-(declare-fun fun_app$ah (A_llist_a_llist_a_llist_a_llist_prod_set_fun_fun_a_llist_a_llist_prod_a_llist_a_llist_prod_set_fun_fun$ A_llist_a_llist_a_llist_a_llist_prod_set_fun_fun$) A_llist_a_llist_prod_a_llist_a_llist_prod_set_fun$)
-(declare-fun fun_app$ai (A_llist_a_llist_a_llist_a_llist_prod_fun_fun_a_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun_fun$ A_llist_a_llist_a_llist_a_llist_prod_fun_fun$) A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun$)
-(declare-fun fun_app$aj (A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun_a_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun_fun$ A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun$) A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$)
-(declare-fun fun_app$ak (A_llist_a_llist_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_fun_fun_a_llist_a_llist_bool_fun_fun_fun$ A_llist_a_llist_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_fun_fun$) A_llist_a_llist_bool_fun_fun$)
-(declare-fun fun_app$al (A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_bool_fun_fun$ A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$) A_llist_a_llist_prod_a_llist_a_llist_prod_prod_bool_fun$)
-(declare-fun fun_app$am (A_llist_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_fun$ A_llist$) A_llist_a_llist_prod_a_llist_a_llist_prod_prod$)
-(declare-fun fun_app$an (A_llist_a_llist_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_fun_fun$ A_llist$) A_llist_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_fun$)
-(declare-fun fun_app$ao (A_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_fun_fun_a_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun_fun$ A_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_fun_fun$) A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$)
-(declare-fun fun_app$ap (A_llist_a_llist_bool_fun_fun_a_llist_a_llist_bool_fun_fun_fun$ A_llist_a_llist_bool_fun_fun$) A_llist_a_llist_bool_fun_fun$)
-(declare-fun fun_app$aq (A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun_a_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun_fun$ A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$) A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$)
-(declare-fun fun_app$ar (A_a_llist_a_llist_fun_fun_a_a_llist_a_llist_fun_fun_fun$ A_a_llist_a_llist_fun_fun$) A_a_llist_a_llist_fun_fun$)
-(declare-fun fun_app$as (A_a_llist_bool_fun_fun$ A$) A_llist_bool_fun$)
-(declare-fun fun_app$at (A_a_llist_a_llist_fun_fun_a_a_llist_bool_fun_fun_fun$ A_a_llist_a_llist_fun_fun$) A_a_llist_bool_fun_fun$)
-(declare-fun fun_app$au (A_a_llist_a_fun_fun$ A$) A_llist_a_fun$)
-(declare-fun fun_app$av (A_a_llist_a_llist_fun_fun_a_a_llist_a_fun_fun_fun$ A_a_llist_a_llist_fun_fun$) A_a_llist_a_fun_fun$)
-(declare-fun fun_app$aw (A_a_llist_bool_fun_fun_a_a_llist_a_llist_fun_fun_fun$ A_a_llist_bool_fun_fun$) A_a_llist_a_llist_fun_fun$)
-(declare-fun fun_app$ax (Bool_a_llist_fun$ Bool) A_llist$)
-(declare-fun fun_app$ay (Bool_a_llist_a_llist_prod_fun$ Bool) A_llist_a_llist_prod$)
-(declare-fun fun_app$az (Bool_bool_fun$ Bool) Bool)
-(declare-fun fun_app$ba (A_a_llist_bool_fun_fun_a_a_llist_bool_fun_fun_fun$ A_a_llist_bool_fun_fun$) A_a_llist_bool_fun_fun$)
-(declare-fun fun_app$bb (A_llist_a_llist_bool_fun_fun_a_llist_a_llist_a_llist_a_llist_prod_set_fun_fun_fun$ A_llist_a_llist_bool_fun_fun$) A_llist_a_llist_a_llist_a_llist_prod_set_fun_fun$)
-(declare-fun fun_app$bc (Bool_a_llist_a_llist_prod_set_fun$ Bool) A_llist_a_llist_prod_set$)
-(declare-fun fun_app$bd (A_llist_a_llist_bool_fun_fun_a_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun_fun$ A_llist_a_llist_bool_fun_fun$) A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun$)
-(declare-fun fun_app$be (Bool_a_llist_a_llist_prod_bool_fun_fun$ Bool) A_llist_a_llist_prod_bool_fun$)
-(declare-fun fun_app$bf (A_a_llist_bool_fun_fun_a_a_llist_a_fun_fun_fun$ A_a_llist_bool_fun_fun$) A_a_llist_a_fun_fun$)
-(declare-fun fun_app$bg (Bool_a_fun$ Bool) A$)
-(declare-fun fun_app$bh (A_llist_a_llist_prod_set_a_llist_a_llist_prod_fun$ A_llist_a_llist_prod_set$) A_llist_a_llist_prod$)
-(declare-fun fun_app$bi (A_llist_a_llist_a_llist_a_llist_prod_set_fun_fun_a_llist_a_llist_bool_fun_fun_fun$ A_llist_a_llist_a_llist_a_llist_prod_set_fun_fun$) A_llist_a_llist_bool_fun_fun$)
-(declare-fun fun_app$bj (A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun_a_llist_a_llist_bool_fun_fun_fun$ A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun$) A_llist_a_llist_bool_fun_fun$)
-(declare-fun fun_app$bk (A_llist_a_llist_prod_bool_fun_bool_fun$ A_llist_a_llist_prod_bool_fun$) Bool)
-(declare-fun fun_app$bl (A_a_llist_a_fun_fun_a_a_llist_a_llist_fun_fun_fun$ A_a_llist_a_fun_fun$) A_a_llist_a_llist_fun_fun$)
-(declare-fun fun_app$bm (A_a_llist_fun$ A$) A_llist$)
-(declare-fun fun_app$bn (A_a_llist_a_fun_fun_a_a_llist_bool_fun_fun_fun$ A_a_llist_a_fun_fun$) A_a_llist_bool_fun_fun$)
-(declare-fun fun_app$bo (A_a_llist_a_fun_fun_a_a_llist_a_fun_fun_fun$ A_a_llist_a_fun_fun$) A_a_llist_a_fun_fun$)
-(declare-fun fun_app$bp (A_a_fun$ A$) A$)
-(declare-fun fun_app$bq (A_llist_a_llist_prod_set_a_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun_fun$ A_llist_a_llist_prod_set$) A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun$)
-(declare-fun fun_app$br (A_llist_a_llist_a_llist_a_llist_bool_fun_fun_fun_fun$ A_llist$) A_llist_a_llist_a_llist_bool_fun_fun_fun$)
-(declare-fun fun_app$bs (A_llist_a_llist_prod_set_a_llist_a_llist_a_llist_a_llist_bool_fun_fun_fun_fun_fun$ A_llist_a_llist_prod_set$) A_llist_a_llist_a_llist_a_llist_bool_fun_fun_fun_fun$)
-(declare-fun fun_app$bt (A_llist_a_llist_a_llist_prod_set_fun_a_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun_fun$ A_llist_a_llist_a_llist_prod_set_fun$) A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun$)
-(declare-fun fun_app$bu (A_llist_a_llist_a_llist_prod_set_fun_a_llist_a_llist_a_llist_a_llist_bool_fun_fun_fun_fun_fun$ A_llist_a_llist_a_llist_prod_set_fun$) A_llist_a_llist_a_llist_a_llist_bool_fun_fun_fun_fun$)
-(declare-fun fun_app$bv (A_llist_a_llist_prod_a_llist_a_llist_prod_llist_a_llist_a_llist_prod_fun_fun$ A_llist_a_llist_prod$) A_llist_a_llist_prod_llist_a_llist_a_llist_prod_fun$)
-(declare-fun fun_app$bw (A_llist_a_llist_prod_llist_bool_fun$ A_llist_a_llist_prod_llist$) Bool)
-(declare-fun fun_app$bx (A_llist_a_llist_prod_a_llist_a_llist_prod_llist_bool_fun_fun$ A_llist_a_llist_prod$) A_llist_a_llist_prod_llist_bool_fun$)
-(declare-fun fun_app$by (A_llist_a_llist_prod_llist_a_llist_a_llist_prod_llist_bool_fun_fun$ A_llist_a_llist_prod_llist$) A_llist_a_llist_prod_llist_bool_fun$)
-(declare-fun fun_app$bz (A_llist_a_set_fun$ A_llist$) A_set$)
-(declare-fun fun_app$ca (A_llist_a_llist_a_set_fun_fun$ A_llist$) A_llist_a_set_fun$)
-(declare-fun fun_app$cb (A_llist_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_set_fun$ A_llist$) A_llist_a_llist_prod_a_llist_a_llist_prod_prod_set$)
-(declare-fun fun_app$cc (A_llist_a_llist_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_set_fun_fun$ A_llist$) A_llist_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_set_fun$)
-(declare-fun fun_app$cd (A_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_set_fun_fun$ A_llist_a_llist_prod$) A_llist_a_llist_prod_a_llist_a_llist_prod_set_fun$)
-(declare-fun fun_app$ce (A_llist_a_llist_prod_a_set_fun$ A_llist_a_llist_prod$) A_set$)
-(declare-fun fun_app$cf (A_llist_a_llist_prod_a_llist_a_llist_prod_a_set_fun_fun$ A_llist_a_llist_prod$) A_llist_a_llist_prod_a_set_fun$)
-(declare-fun fun_app$cg (A_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_set_fun$ A_llist_a_llist_prod$) A_llist_a_llist_prod_a_llist_a_llist_prod_prod_set$)
-(declare-fun fun_app$ch (A_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_set_fun_fun$ A_llist_a_llist_prod$) A_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_set_fun$)
-(declare-fun fun_app$ci (A_a_llist_bool_fun_fun_a_llist_bool_fun_fun$ A_a_llist_bool_fun_fun$) A_llist_bool_fun$)
-(declare-fun fun_app$cj (A_a_llist_a_llist_fun_fun_a_llist_a_llist_fun_fun$ A_a_llist_a_llist_fun_fun$) A_llist_a_llist_fun$)
-(declare-fun fun_app$ck (A_a_llist_a_fun_fun_a_llist_a_fun_fun$ A_a_llist_a_fun_fun$) A_llist_a_fun$)
-(declare-fun fun_app$cl (A_llist_a_llist_fun_a_llist_a_llist_fun_fun$ A_llist_a_llist_fun$) A_llist_a_llist_fun$)
-(declare-fun fun_app$cm (A_llist_a_fun_a_llist_a_llist_fun_a_llist_a_llist_fun_fun_fun$ A_llist_a_fun$) A_llist_a_llist_fun_a_llist_a_llist_fun_fun$)
-(declare-fun fun_app$cn (A_llist_a_llist_prod_a_llist_a_llist_prod_llist_bool_fun_fun_a_llist_a_llist_prod_llist_bool_fun_fun$ A_llist_a_llist_prod_a_llist_a_llist_prod_llist_bool_fun_fun$) A_llist_a_llist_prod_llist_bool_fun$)
-(declare-fun fun_app$co (A_a_bool_fun_fun$ A$) A_bool_fun$)
-(declare-fun fun_app$cp (A_llist_a_llist_prod_a_llist_fun$ A_llist_a_llist_prod$) A_llist$)
-(declare-fun inv_image$ (A_llist_a_llist_prod_set$ A_llist_a_llist_fun$) A_llist_a_llist_prod_set$)
-(declare-fun undefined$ () A_llist$)
-(declare-fun case_llist$ (Bool) A_a_llist_bool_fun_fun_a_llist_bool_fun_fun$)
-(declare-fun llist_all2$ (A_a_bool_fun_fun$) A_llist_a_llist_bool_fun_fun$)
-(declare-fun pred_llist$ (A_bool_fun$) A_llist_bool_fun$)
-(declare-fun undefined$a () A$)
-(declare-fun case_llist$a (A_llist$) A_a_llist_a_llist_fun_fun_a_llist_a_llist_fun_fun$)
-(declare-fun case_llist$b (A$) A_a_llist_a_fun_fun_a_llist_a_fun_fun$)
-(declare-fun case_llist$c (Bool) A_llist_a_llist_prod_a_llist_a_llist_prod_llist_bool_fun_fun_a_llist_a_llist_prod_llist_bool_fun_fun$)
-(declare-fun case_llist$d (A_llist_a_llist_prod_llist$ A_llist_a_llist_prod_a_llist_a_llist_prod_llist_a_llist_a_llist_prod_llist_fun_fun$ A_llist_a_llist_prod_llist$) A_llist_a_llist_prod_llist$)
-(declare-fun case_llist$e (A_llist_a_llist_prod$ A_llist_a_llist_prod_a_llist_a_llist_prod_llist_a_llist_a_llist_prod_fun_fun$ A_llist_a_llist_prod_llist$) A_llist_a_llist_prod$)
-(declare-fun llist_all2$a (A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$) A_llist_a_llist_prod_llist_a_llist_a_llist_prod_llist_bool_fun_fun$)
-(declare-fun pred_llist$a (A_llist_a_llist_prod_bool_fun$) A_llist_a_llist_prod_llist_bool_fun$)
-(declare-fun unfold_llist$ (A_llist_a_llist_prod_llist_bool_fun$ A_llist_a_llist_prod_llist_a_llist_a_llist_prod_fun$ A_llist_a_llist_prod_llist_a_llist_a_llist_prod_llist_fun$ A_llist_a_llist_prod_llist$) A_llist_a_llist_prod_llist$)
-(declare-fun unfold_llist$a (A_llist_bool_fun$) A_llist_a_fun_a_llist_a_llist_fun_a_llist_a_llist_fun_fun_fun$)
-(declare-fun internal_split$ () A_llist_a_llist_a_llist_a_llist_prod_set_fun_fun_a_llist_a_llist_prod_a_llist_a_llist_prod_set_fun_fun$)
-(declare-fun internal_split$a () A_llist_a_llist_a_llist_a_llist_prod_fun_fun_a_llist_a_llist_prod_a_llist_a_llist_prod_fun_fun$)
-(declare-fun internal_split$b () A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_bool_fun_fun$)
-(declare-fun internal_split$c () A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun_a_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun_fun$)
-(declare-fun internal_split$d () A_llist_a_llist_bool_fun_fun_a_llist_a_llist_prod_bool_fun_fun$)
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$)) (! (= (fun_app$ uvd$ ?v0) (ltl$a ?v0)) :pattern ((fun_app$ uvd$ ?v0)))) :named a0))
-(assert (! (forall ((?v0 A_llist$)) (! (= (fun_app$a uvf$ ?v0) (ltl$ ?v0)) :pattern ((fun_app$a uvf$ ?v0)))) :named a1))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$)) (! (= (fun_app$b uvc$ ?v0) (lhd$a ?v0)) :pattern ((fun_app$b uvc$ ?v0)))) :named a2))
-(assert (! (forall ((?v0 A_llist$)) (! (= (fun_app$c uve$ ?v0) (lhd$ ?v0)) :pattern ((fun_app$c uve$ ?v0)))) :named a3))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_llist$)) (! (= (fun_app$d (fun_app$e uvx$ ?v0) ?v1) (pair$ ?v0 ?v1)) :pattern ((fun_app$d (fun_app$e uvx$ ?v0) ?v1)))) :named a4))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod$)) (! (= (fun_app$f (fun_app$g uvw$ ?v0) ?v1) (pair$b ?v0 ?v1)) :pattern ((fun_app$f (fun_app$g uvw$ ?v0) ?v1)))) :named a5))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_set$) (?v1 A_llist_a_llist_prod$)) (! (= (fun_app$h (uui$ ?v0) ?v1) (fun_app$i (member$ ?v1) ?v0)) :pattern ((fun_app$h (uui$ ?v0) ?v1)))) :named a6))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_prod_set$) (?v1 A_llist_a_llist_prod_a_llist_a_llist_prod_prod$)) (! (= (fun_app$j (uuh$ ?v0) ?v1) (member$a ?v1 ?v0)) :pattern ((fun_app$j (uuh$ ?v0) ?v1)))) :named a7))
-(assert (! (forall ((?v0 A_set$) (?v1 A$)) (! (= (fun_app$k (uug$ ?v0) ?v1) (member$b ?v1 ?v0)) :pattern ((fun_app$k (uug$ ?v0) ?v1)))) :named a8))
-(assert (! (forall ((?v0 A_llist_a_llist_a_llist_a_llist_prod_fun_fun$) (?v1 A_llist$) (?v2 A_llist$)) (! (= (fun_app$d (fun_app$e (uwd$ ?v0) ?v1) ?v2) (fun_app$d (fun_app$e ?v0 ?v2) ?v1)) :pattern ((fun_app$d (fun_app$e (uwd$ ?v0) ?v1) ?v2)))) :named a9))
-(assert (! (forall ((?v0 A_llist_a_llist_bool_fun_fun$) (?v1 A_llist$) (?v2 A_llist$)) (! (= (fun_app$l (fun_app$m (uwg$ ?v0) ?v1) ?v2) (fun_app$l (fun_app$m ?v0 ?v2) ?v1)) :pattern ((fun_app$l (fun_app$m (uwg$ ?v0) ?v1) ?v2)))) :named a10))
-(assert (! (forall ((?v0 A_llist_a_llist_a_llist_a_llist_prod_set_fun_fun$) (?v1 A_llist$) (?v2 A_llist$)) (! (= (fun_app$n (fun_app$o (uwc$ ?v0) ?v1) ?v2) (fun_app$n (fun_app$o ?v0 ?v2) ?v1)) :pattern ((fun_app$n (fun_app$o (uwc$ ?v0) ?v1) ?v2)))) :named a11))
-(assert (! (forall ((?v0 A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun$) (?v1 A_llist$) (?v2 A_llist$)) (! (= (fun_app$p (fun_app$q (uwf$ ?v0) ?v1) ?v2) (fun_app$p (fun_app$q ?v0 ?v2) ?v1)) :pattern ((fun_app$p (fun_app$q (uwf$ ?v0) ?v1) ?v2)))) :named a12))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$) (?v1 A_llist_a_llist_prod$) (?v2 A_llist_a_llist_prod$)) (! (= (fun_app$h (fun_app$r (uwe$ ?v0) ?v1) ?v2) (fun_app$h (fun_app$r ?v0 ?v2) ?v1)) :pattern ((fun_app$h (fun_app$r (uwe$ ?v0) ?v1) ?v2)))) :named a13))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_set$) (?v1 A_llist_a_llist_prod_set$) (?v2 A_llist_a_llist_prod$)) (! (= (fun_app$h (fun_app$s (uwq$ ?v0) ?v1) ?v2) (or (fun_app$i (member$ ?v2) ?v0) (fun_app$i (member$ ?v2) ?v1))) :pattern ((fun_app$h (fun_app$s (uwq$ ?v0) ?v1) ?v2)))) :named a14))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_set$) (?v1 A_llist_a_llist_prod_bool_fun$) (?v2 A_llist_a_llist_prod$)) (! (= (fun_app$h (fun_app$t (uws$ ?v0) ?v1) ?v2) (and (fun_app$i (member$ ?v2) ?v0) (fun_app$h ?v1 ?v2))) :pattern ((fun_app$h (fun_app$t (uws$ ?v0) ?v1) ?v2)))) :named a15))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_set$) (?v1 A_llist$) (?v2 A_llist$)) (! (= (fun_app$l (fun_app$m (uvz$ ?v0) ?v1) ?v2) (fun_app$i (member$ (pair$ ?v1 ?v2)) ?v0)) :pattern ((fun_app$l (fun_app$m (uvz$ ?v0) ?v1) ?v2)))) :named a16))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_prod_set$) (?v1 A_llist_a_llist_prod$) (?v2 A_llist_a_llist_prod$)) (! (= (fun_app$h (fun_app$r (uvy$ ?v0) ?v1) ?v2) (member$a (pair$b ?v1 ?v2) ?v0)) :pattern ((fun_app$h (fun_app$r (uvy$ ?v0) ?v1) ?v2)))) :named a17))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_bool_fun$) (?v1 A_llist_a_llist_prod_bool_fun$) (?v2 A_llist_a_llist_prod$)) (! (= (fun_app$h (fun_app$t (uwp$ ?v0) ?v1) ?v2) (or (fun_app$h ?v0 ?v2) (fun_app$h ?v1 ?v2))) :pattern ((fun_app$h (fun_app$t (uwp$ ?v0) ?v1) ?v2)))) :named a18))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_bool_fun$) (?v1 A_llist_a_llist_prod_bool_fun$) (?v2 A_llist_a_llist_prod$)) (! (= (fun_app$h (fun_app$t (uwr$ ?v0) ?v1) ?v2) (and (fun_app$h ?v0 ?v2) (fun_app$h ?v1 ?v2))) :pattern ((fun_app$h (fun_app$t (uwr$ ?v0) ?v1) ?v2)))) :named a19))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$) (?v1 A_llist_a_llist_prod$) (?v2 A_llist_a_llist_prod_llist$)) (! (= (fun_app$ (fun_app$u (uwh$ ?v0) ?v1) ?v2) (lCons$a ?v1 (fun_app$ (lappend$ ?v2) ?v0))) :pattern ((fun_app$ (fun_app$u (uwh$ ?v0) ?v1) ?v2)))) :named a20))
-(assert (! (forall ((?v0 A_llist$) (?v1 A$) (?v2 A_llist$)) (! (= (fun_app$a (fun_app$v (uwi$ ?v0) ?v1) ?v2) (lCons$ ?v1 (fun_app$a (lappend$a ?v2) ?v0))) :pattern ((fun_app$a (fun_app$v (uwi$ ?v0) ?v1) ?v2)))) :named a21))
-(assert (! (forall ((?v0 A_llist$) (?v1 A$) (?v2 A_llist$)) (! (= (fun_app$a (fun_app$v (uwj$ ?v0) ?v1) ?v2) (fun_app$a (lappend$a ?v2) ?v0)) :pattern ((fun_app$a (fun_app$v (uwj$ ?v0) ?v1) ?v2)))) :named a22))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_fun$) (?v1 A_llist$) (?v2 A_llist$)) (! (= (fun_app$d (fun_app$e (uuc$ ?v0) ?v1) ?v2) (fun_app$w ?v0 (pair$ ?v1 ?v2))) :pattern ((fun_app$d (fun_app$e (uuc$ ?v0) ?v1) ?v2)))) :named a23))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_bool_fun$) (?v1 A_llist$) (?v2 A_llist$)) (! (= (fun_app$l (fun_app$m (uuf$ ?v0) ?v1) ?v2) (fun_app$h ?v0 (pair$ ?v1 ?v2))) :pattern ((fun_app$l (fun_app$m (uuf$ ?v0) ?v1) ?v2)))) :named a24))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_set_fun$) (?v1 A_llist$) (?v2 A_llist$)) (! (= (fun_app$n (fun_app$o (uub$ ?v0) ?v1) ?v2) (fun_app$x ?v0 (pair$ ?v1 ?v2))) :pattern ((fun_app$n (fun_app$o (uub$ ?v0) ?v1) ?v2)))) :named a25))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$) (?v1 A_llist$) (?v2 A_llist$)) (! (= (fun_app$p (fun_app$q (uue$ ?v0) ?v1) ?v2) (fun_app$r ?v0 (pair$ ?v1 ?v2))) :pattern ((fun_app$p (fun_app$q (uue$ ?v0) ?v1) ?v2)))) :named a26))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_prod_bool_fun$) (?v1 A_llist_a_llist_prod$) (?v2 A_llist_a_llist_prod$)) (! (= (fun_app$h (fun_app$r (uud$ ?v0) ?v1) ?v2) (fun_app$j ?v0 (pair$b ?v1 ?v2))) :pattern ((fun_app$h (fun_app$r (uud$ ?v0) ?v1) ?v2)))) :named a27))
-(assert (! (forall ((?v0 A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun$) (?v1 A_llist_a_llist_prod$) (?v2 A_llist$) (?v3 A_llist$)) (! (= (fun_app$l (fun_app$m (fun_app$y (uvg$ ?v0) ?v1) ?v2) ?v3) (fun_app$h (fun_app$p (fun_app$q ?v0 ?v2) ?v3) ?v1)) :pattern ((fun_app$l (fun_app$m (fun_app$y (uvg$ ?v0) ?v1) ?v2) ?v3)))) :named a28))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_set$) (?v1 A_llist_a_llist_fun$) (?v2 A_llist$) (?v3 A_llist$)) (! (= (fun_app$l (fun_app$m (fun_app$z (uwk$ ?v0) ?v1) ?v2) ?v3) (fun_app$i (member$ (pair$ (fun_app$a ?v1 ?v2) (fun_app$a ?v1 ?v3))) ?v0)) :pattern ((fun_app$l (fun_app$m (fun_app$z (uwk$ ?v0) ?v1) ?v2) ?v3)))) :named a29))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_llist$) (?v2 A_llist$) (?v3 A_llist$)) (! (= (fun_app$l (fun_app$m (fun_app$aa (uwt$ ?v0) ?v1) ?v2) ?v3) (and (= ?v0 ?v2) (= ?v1 ?v3))) :pattern ((fun_app$l (fun_app$m (fun_app$aa (uwt$ ?v0) ?v1) ?v2) ?v3)))) :named a30))
-(assert (! (forall ((?v0 A_llist_a_llist_a_llist_a_llist_prod_fun_fun$) (?v1 A_llist_a_llist_a_llist_a_llist_prod_fun_fun$) (?v2 A_llist$) (?v3 A_llist$)) (! (= (fun_app$d (fun_app$e (uuv$ ?v0 ?v1) ?v2) ?v3) (fun_app$w (fun_app$ab uncurry$ ?v0) (fun_app$d (fun_app$e ?v1 ?v2) ?v3))) :pattern ((fun_app$d (fun_app$e (uuv$ ?v0 ?v1) ?v2) ?v3)))) :named a31))
-(assert (! (forall ((?v0 A_llist_a_llist_bool_fun_fun$) (?v1 A_llist_a_llist_a_llist_a_llist_prod_fun_fun$) (?v2 A_llist$) (?v3 A_llist$)) (! (= (fun_app$l (fun_app$m (fun_app$ac (uuz$ ?v0) ?v1) ?v2) ?v3) (fun_app$h (fun_app$ad uncurry$a ?v0) (fun_app$d (fun_app$e ?v1 ?v2) ?v3))) :pattern ((fun_app$l (fun_app$m (fun_app$ac (uuz$ ?v0) ?v1) ?v2) ?v3)))) :named a32))
-(assert (! (forall ((?v0 A_llist_a_llist_bool_fun_fun$) (?v1 A_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_fun_fun$) (?v2 A_llist_a_llist_prod$) (?v3 A_llist_a_llist_prod$)) (! (= (fun_app$h (fun_app$r (fun_app$ae (uut$ ?v0) ?v1) ?v2) ?v3) (fun_app$h (fun_app$ad uncurry$a ?v0) (fun_app$w (fun_app$af ?v1 ?v2) ?v3))) :pattern ((fun_app$h (fun_app$r (fun_app$ae (uut$ ?v0) ?v1) ?v2) ?v3)))) :named a33))
-(assert (! (forall ((?v0 A_llist_a_llist_a_llist_a_llist_prod_set_fun_fun$) (?v1 A_llist_a_llist_a_llist_a_llist_prod_fun_fun$) (?v2 A_llist$) (?v3 A_llist$)) (! (= (fun_app$n (fun_app$o (fun_app$ag (uuu$ ?v0) ?v1) ?v2) ?v3) (fun_app$x (fun_app$ah uncurry$b ?v0) (fun_app$d (fun_app$e ?v1 ?v2) ?v3))) :pattern ((fun_app$n (fun_app$o (fun_app$ag (uuu$ ?v0) ?v1) ?v2) ?v3)))) :named a34))
-(assert (! (forall ((?v0 A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun$) (?v1 A_llist_a_llist_a_llist_a_llist_prod_fun_fun$) (?v2 A_llist$) (?v3 A_llist$)) (! (= (fun_app$p (fun_app$q (fun_app$ai (uuy$ ?v0) ?v1) ?v2) ?v3) (fun_app$r (fun_app$aj uncurry$c ?v0) (fun_app$d (fun_app$e ?v1 ?v2) ?v3))) :pattern ((fun_app$p (fun_app$q (fun_app$ai (uuy$ ?v0) ?v1) ?v2) ?v3)))) :named a35))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$) (?v1 A_llist_a_llist_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_fun_fun$) (?v2 A_llist$) (?v3 A_llist$)) (! (= (fun_app$l (fun_app$m (fun_app$ak (uuw$ ?v0) ?v1) ?v2) ?v3) (fun_app$j (fun_app$al uncurry$d ?v0) (fun_app$am (fun_app$an ?v1 ?v2) ?v3))) :pattern ((fun_app$l (fun_app$m (fun_app$ak (uuw$ ?v0) ?v1) ?v2) ?v3)))) :named a36))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$) (?v1 A_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_fun_fun$) (?v2 A_llist_a_llist_prod$) (?v3 A_llist_a_llist_prod$)) (! (= (fun_app$h (fun_app$r (fun_app$ao (uux$ ?v0) ?v1) ?v2) ?v3) (fun_app$j (fun_app$al uncurry$d ?v0) (fun_app$f (fun_app$g ?v1 ?v2) ?v3))) :pattern ((fun_app$h (fun_app$r (fun_app$ao (uux$ ?v0) ?v1) ?v2) ?v3)))) :named a37))
-(assert (! (forall ((?v0 Bool) (?v1 A_llist_a_llist_bool_fun_fun$) (?v2 A_llist$) (?v3 A_llist$)) (! (= (fun_app$l (fun_app$m (fun_app$ap (uua$ ?v0) ?v1) ?v2) ?v3) (and ?v0 (fun_app$l (fun_app$m ?v1 ?v2) ?v3))) :pattern ((fun_app$l (fun_app$m (fun_app$ap (uua$ ?v0) ?v1) ?v2) ?v3)))) :named a38))
-(assert (! (forall ((?v0 Bool) (?v1 A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$) (?v2 A_llist_a_llist_prod$) (?v3 A_llist_a_llist_prod$)) (! (= (fun_app$h (fun_app$r (fun_app$aq (uu$ ?v0) ?v1) ?v2) ?v3) (and ?v0 (fun_app$h (fun_app$r ?v1 ?v2) ?v3))) :pattern ((fun_app$h (fun_app$r (fun_app$aq (uu$ ?v0) ?v1) ?v2) ?v3)))) :named a39))
-(assert (! (forall ((?v0 A_llist_a_llist_fun$) (?v1 A_a_llist_a_llist_fun_fun$) (?v2 A$) (?v3 A_llist$)) (! (= (fun_app$a (fun_app$v (fun_app$ar (uvl$ ?v0) ?v1) ?v2) ?v3) (fun_app$a ?v0 (fun_app$a (fun_app$v ?v1 ?v2) ?v3))) :pattern ((fun_app$a (fun_app$v (fun_app$ar (uvl$ ?v0) ?v1) ?v2) ?v3)))) :named a40))
-(assert (! (forall ((?v0 A_llist_bool_fun$) (?v1 A_a_llist_a_llist_fun_fun$) (?v2 A$) (?v3 A_llist$)) (! (= (fun_app$l (fun_app$as (fun_app$at (uvk$ ?v0) ?v1) ?v2) ?v3) (fun_app$l ?v0 (fun_app$a (fun_app$v ?v1 ?v2) ?v3))) :pattern ((fun_app$l (fun_app$as (fun_app$at (uvk$ ?v0) ?v1) ?v2) ?v3)))) :named a41))
-(assert (! (forall ((?v0 A_llist_a_fun$) (?v1 A_a_llist_a_llist_fun_fun$) (?v2 A$) (?v3 A_llist$)) (! (= (fun_app$c (fun_app$au (fun_app$av (uvm$ ?v0) ?v1) ?v2) ?v3) (fun_app$c ?v0 (fun_app$a (fun_app$v ?v1 ?v2) ?v3))) :pattern ((fun_app$c (fun_app$au (fun_app$av (uvm$ ?v0) ?v1) ?v2) ?v3)))) :named a42))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_fun$) (?v1 A_llist_a_llist_a_llist_a_llist_prod_fun_fun$) (?v2 A_llist$) (?v3 A_llist$)) (! (= (fun_app$d (fun_app$e (uur$ ?v0 ?v1) ?v2) ?v3) (fun_app$w ?v0 (fun_app$d (fun_app$e ?v1 ?v2) ?v3))) :pattern ((fun_app$d (fun_app$e (uur$ ?v0 ?v1) ?v2) ?v3)))) :named a43))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_bool_fun$) (?v1 A_llist_a_llist_a_llist_a_llist_prod_fun_fun$) (?v2 A_llist$) (?v3 A_llist$)) (! (= (fun_app$l (fun_app$m (fun_app$ac (uul$ ?v0) ?v1) ?v2) ?v3) (fun_app$h ?v0 (fun_app$d (fun_app$e ?v1 ?v2) ?v3))) :pattern ((fun_app$l (fun_app$m (fun_app$ac (uul$ ?v0) ?v1) ?v2) ?v3)))) :named a44))
-(assert (! (forall ((?v0 Bool_a_llist_fun$) (?v1 A_a_llist_bool_fun_fun$) (?v2 A$) (?v3 A_llist$)) (! (= (fun_app$a (fun_app$v (fun_app$aw (uvi$ ?v0) ?v1) ?v2) ?v3) (fun_app$ax ?v0 (fun_app$l (fun_app$as ?v1 ?v2) ?v3))) :pattern ((fun_app$a (fun_app$v (fun_app$aw (uvi$ ?v0) ?v1) ?v2) ?v3)))) :named a45))
-(assert (! (forall ((?v0 Bool_a_llist_a_llist_prod_fun$) (?v1 A_llist_a_llist_bool_fun_fun$) (?v2 A_llist$) (?v3 A_llist$)) (! (= (fun_app$d (fun_app$e (uuk$ ?v0 ?v1) ?v2) ?v3) (fun_app$ay ?v0 (fun_app$l (fun_app$m ?v1 ?v2) ?v3))) :pattern ((fun_app$d (fun_app$e (uuk$ ?v0 ?v1) ?v2) ?v3)))) :named a46))
-(assert (! (forall ((?v0 Bool_bool_fun$) (?v1 A_llist_a_llist_bool_fun_fun$) (?v2 A_llist$) (?v3 A_llist$)) (! (= (fun_app$l (fun_app$m (fun_app$ap (uuj$ ?v0) ?v1) ?v2) ?v3) (fun_app$az ?v0 (fun_app$l (fun_app$m ?v1 ?v2) ?v3))) :pattern ((fun_app$l (fun_app$m (fun_app$ap (uuj$ ?v0) ?v1) ?v2) ?v3)))) :named a47))
-(assert (! (forall ((?v0 Bool_bool_fun$) (?v1 A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$) (?v2 A_llist_a_llist_prod$) (?v3 A_llist_a_llist_prod$)) (! (= (fun_app$h (fun_app$r (fun_app$aq (uup$ ?v0) ?v1) ?v2) ?v3) (fun_app$az ?v0 (fun_app$h (fun_app$r ?v1 ?v2) ?v3))) :pattern ((fun_app$h (fun_app$r (fun_app$aq (uup$ ?v0) ?v1) ?v2) ?v3)))) :named a48))
-(assert (! (forall ((?v0 Bool_bool_fun$) (?v1 A_a_llist_bool_fun_fun$) (?v2 A$) (?v3 A_llist$)) (! (= (fun_app$l (fun_app$as (fun_app$ba (uvh$ ?v0) ?v1) ?v2) ?v3) (fun_app$az ?v0 (fun_app$l (fun_app$as ?v1 ?v2) ?v3))) :pattern ((fun_app$l (fun_app$as (fun_app$ba (uvh$ ?v0) ?v1) ?v2) ?v3)))) :named a49))
-(assert (! (forall ((?v0 Bool_a_llist_a_llist_prod_set_fun$) (?v1 A_llist_a_llist_bool_fun_fun$) (?v2 A_llist$) (?v3 A_llist$)) (! (= (fun_app$n (fun_app$o (fun_app$bb (uum$ ?v0) ?v1) ?v2) ?v3) (fun_app$bc ?v0 (fun_app$l (fun_app$m ?v1 ?v2) ?v3))) :pattern ((fun_app$n (fun_app$o (fun_app$bb (uum$ ?v0) ?v1) ?v2) ?v3)))) :named a50))
-(assert (! (forall ((?v0 Bool_a_llist_a_llist_prod_bool_fun_fun$) (?v1 A_llist_a_llist_bool_fun_fun$) (?v2 A_llist$) (?v3 A_llist$)) (! (= (fun_app$p (fun_app$q (fun_app$bd (uuo$ ?v0) ?v1) ?v2) ?v3) (fun_app$be ?v0 (fun_app$l (fun_app$m ?v1 ?v2) ?v3))) :pattern ((fun_app$p (fun_app$q (fun_app$bd (uuo$ ?v0) ?v1) ?v2) ?v3)))) :named a51))
-(assert (! (forall ((?v0 Bool_a_fun$) (?v1 A_a_llist_bool_fun_fun$) (?v2 A$) (?v3 A_llist$)) (! (= (fun_app$c (fun_app$au (fun_app$bf (uvj$ ?v0) ?v1) ?v2) ?v3) (fun_app$bg ?v0 (fun_app$l (fun_app$as ?v1 ?v2) ?v3))) :pattern ((fun_app$c (fun_app$au (fun_app$bf (uvj$ ?v0) ?v1) ?v2) ?v3)))) :named a52))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_set_a_llist_a_llist_prod_fun$) (?v1 A_llist_a_llist_a_llist_a_llist_prod_set_fun_fun$) (?v2 A_llist$) (?v3 A_llist$)) (! (= (fun_app$d (fun_app$e (uus$ ?v0 ?v1) ?v2) ?v3) (fun_app$bh ?v0 (fun_app$n (fun_app$o ?v1 ?v2) ?v3))) :pattern ((fun_app$d (fun_app$e (uus$ ?v0 ?v1) ?v2) ?v3)))) :named a53))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_set_bool_fun$) (?v1 A_llist_a_llist_a_llist_a_llist_prod_set_fun_fun$) (?v2 A_llist$) (?v3 A_llist$)) (! (= (fun_app$l (fun_app$m (fun_app$bi (uun$ ?v0) ?v1) ?v2) ?v3) (fun_app$i ?v0 (fun_app$n (fun_app$o ?v1 ?v2) ?v3))) :pattern ((fun_app$l (fun_app$m (fun_app$bi (uun$ ?v0) ?v1) ?v2) ?v3)))) :named a54))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_bool_fun_bool_fun$) (?v1 A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun$) (?v2 A_llist$) (?v3 A_llist$)) (! (= (fun_app$l (fun_app$m (fun_app$bj (uuq$ ?v0) ?v1) ?v2) ?v3) (fun_app$bk ?v0 (fun_app$p (fun_app$q ?v1 ?v2) ?v3))) :pattern ((fun_app$l (fun_app$m (fun_app$bj (uuq$ ?v0) ?v1) ?v2) ?v3)))) :named a55))
-(assert (! (forall ((?v0 A_a_llist_fun$) (?v1 A_a_llist_a_fun_fun$) (?v2 A$) (?v3 A_llist$)) (! (= (fun_app$a (fun_app$v (fun_app$bl (uvo$ ?v0) ?v1) ?v2) ?v3) (fun_app$bm ?v0 (fun_app$c (fun_app$au ?v1 ?v2) ?v3))) :pattern ((fun_app$a (fun_app$v (fun_app$bl (uvo$ ?v0) ?v1) ?v2) ?v3)))) :named a56))
-(assert (! (forall ((?v0 A_bool_fun$) (?v1 A_a_llist_a_fun_fun$) (?v2 A$) (?v3 A_llist$)) (! (= (fun_app$l (fun_app$as (fun_app$bn (uvn$ ?v0) ?v1) ?v2) ?v3) (fun_app$k ?v0 (fun_app$c (fun_app$au ?v1 ?v2) ?v3))) :pattern ((fun_app$l (fun_app$as (fun_app$bn (uvn$ ?v0) ?v1) ?v2) ?v3)))) :named a57))
-(assert (! (forall ((?v0 A_a_fun$) (?v1 A_a_llist_a_fun_fun$) (?v2 A$) (?v3 A_llist$)) (! (= (fun_app$c (fun_app$au (fun_app$bo (uvp$ ?v0) ?v1) ?v2) ?v3) (fun_app$bp ?v0 (fun_app$c (fun_app$au ?v1 ?v2) ?v3))) :pattern ((fun_app$c (fun_app$au (fun_app$bo (uvp$ ?v0) ?v1) ?v2) ?v3)))) :named a58))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_set$) (?v1 A_llist_a_llist_prod_set$) (?v2 A_llist$) (?v3 A_llist$)) (! (= (fun_app$p (fun_app$q (fun_app$bq (uwo$ ?v0) ?v1) ?v2) ?v3) (fun_app$ad uncurry$a (fun_app$aa (fun_app$br (fun_app$bs (uwn$ ?v0) ?v1) ?v2) ?v3))) :pattern ((fun_app$p (fun_app$q (fun_app$bq (uwo$ ?v0) ?v1) ?v2) ?v3)))) :named a59))
-(assert (! (forall ((?v0 A_llist_bool_fun$) (?v1 A_llist_a_llist_a_llist_prod_set_fun$) (?v2 A_llist$) (?v3 A_llist$)) (! (= (fun_app$p (fun_app$q (fun_app$bt (uwm$ ?v0) ?v1) ?v2) ?v3) (fun_app$ad uncurry$a (fun_app$aa (fun_app$br (fun_app$bu (uwl$ ?v0) ?v1) ?v2) ?v3))) :pattern ((fun_app$p (fun_app$q (fun_app$bt (uwm$ ?v0) ?v1) ?v2) ?v3)))) :named a60))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_set$) (?v1 A_llist_a_llist_prod_set$) (?v2 A_llist$) (?v3 A_llist$) (?v4 A_llist$) (?v5 A_llist$)) (! (= (fun_app$l (fun_app$m (fun_app$aa (fun_app$br (fun_app$bs (uwn$ ?v0) ?v1) ?v2) ?v3) ?v4) ?v5) (or (fun_app$i (member$ (pair$ ?v2 ?v4)) ?v0) (and (= ?v2 ?v4) (fun_app$i (member$ (pair$ ?v3 ?v5)) ?v1)))) :pattern ((fun_app$l (fun_app$m (fun_app$aa (fun_app$br (fun_app$bs (uwn$ ?v0) ?v1) ?v2) ?v3) ?v4) ?v5)))) :named a61))
-(assert (! (forall ((?v0 A_llist_bool_fun$) (?v1 A_llist_a_llist_a_llist_prod_set_fun$) (?v2 A_llist$) (?v3 A_llist$) (?v4 A_llist$) (?v5 A_llist$)) (! (= (fun_app$l (fun_app$m (fun_app$aa (fun_app$br (fun_app$bu (uwl$ ?v0) ?v1) ?v2) ?v3) ?v4) ?v5) (and (= ?v2 ?v4) (and (fun_app$l ?v0 ?v4) (fun_app$i (member$ (pair$ ?v3 ?v5)) (fun_app$n ?v1 ?v4))))) :pattern ((fun_app$l (fun_app$m (fun_app$aa (fun_app$br (fun_app$bu (uwl$ ?v0) ?v1) ?v2) ?v3) ?v4) ?v5)))) :named a62))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod_llist$)) (! (= (fun_app$b (fun_app$bv uwa$ ?v0) ?v1) ?v0) :pattern ((fun_app$b (fun_app$bv uwa$ ?v0) ?v1)))) :named a63))
-(assert (! (forall ((?v0 A$) (?v1 A_llist$)) (! (= (fun_app$c (fun_app$au uwb$ ?v0) ?v1) ?v0) :pattern ((fun_app$c (fun_app$au uwb$ ?v0) ?v1)))) :named a64))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod_llist$)) (! (= (fun_app$ (fun_app$u uvu$ ?v0) ?v1) ?v1) :pattern ((fun_app$ (fun_app$u uvu$ ?v0) ?v1)))) :named a65))
-(assert (! (forall ((?v0 A$) (?v1 A_llist$)) (! (= (fun_app$a (fun_app$v uvv$ ?v0) ?v1) ?v1) :pattern ((fun_app$a (fun_app$v uvv$ ?v0) ?v1)))) :named a66))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod_llist$)) (! (= (fun_app$bw (fun_app$bx uvs$ ?v0) ?v1) false) :pattern ((fun_app$bw (fun_app$bx uvs$ ?v0) ?v1)))) :named a67))
-(assert (! (forall ((?v0 A$) (?v1 A_llist$)) (! (= (fun_app$l (fun_app$as uvt$ ?v0) ?v1) false) :pattern ((fun_app$l (fun_app$as uvt$ ?v0) ?v1)))) :named a68))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_llist$)) (! (= (fun_app$l (fun_app$m uvb$ ?v0) ?v1) true) :pattern ((fun_app$l (fun_app$m uvb$ ?v0) ?v1)))) :named a69))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod_llist$)) (! (= (fun_app$bw (fun_app$bx uvq$ ?v0) ?v1) true) :pattern ((fun_app$bw (fun_app$bx uvq$ ?v0) ?v1)))) :named a70))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod$)) (! (= (fun_app$h (fun_app$r uva$ ?v0) ?v1) true) :pattern ((fun_app$h (fun_app$r uva$ ?v0) ?v1)))) :named a71))
-(assert (! (forall ((?v0 A$) (?v1 A_llist$)) (! (= (fun_app$l (fun_app$as uvr$ ?v0) ?v1) true) :pattern ((fun_app$l (fun_app$as uvr$ ?v0) ?v1)))) :named a72))
-(assert (! (not (fun_app$l (lprefix$ xs$) ys$)) :named a73))
-(assert (! (fun_app$l (fun_app$m p$ xs$) ys$) :named a74))
-(assert (! (fun_app$i (member$ (pair$ xs$ ys$)) (collect$ (fun_app$ad uncurry$a p$))) :named a75))
-(assert (! (forall ((?v0 A_llist$)) (fun_app$l (lprefix$ lNil$) ?v0)) :named a76))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$) (?v1 A_llist_a_llist_prod_llist$) (?v2 A_llist_a_llist_prod$)) (=> (fun_app$bw (lprefix$a ?v0) ?v1) (fun_app$bw (lprefix$a (lCons$a ?v2 ?v0)) (lCons$a ?v2 ?v1)))) :named a77))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_llist$) (?v2 A$)) (=> (fun_app$l (lprefix$ ?v0) ?v1) (fun_app$l (lprefix$ (lCons$ ?v2 ?v0)) (lCons$ ?v2 ?v1)))) :named a78))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_llist$)) (=> (fun_app$l (fun_app$m p$ ?v0) ?v1) (and (=> (fun_app$l lnull$ ?v1) (fun_app$l lnull$ ?v0)) (=> (and (not (fun_app$l lnull$ ?v0)) (not (fun_app$l lnull$ ?v1))) (and (= (lhd$ ?v0) (lhd$ ?v1)) (or (fun_app$l (fun_app$m p$ (ltl$ ?v0)) (ltl$ ?v1)) (fun_app$l (lprefix$ (ltl$ ?v0)) (ltl$ ?v1)))))))) :named a79))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$) (?v1 A_llist_a_llist_prod_llist$)) (= (fun_app$bw (lprefix$a ?v0) ?v1) (or (exists ((?v2 A_llist_a_llist_prod_llist$)) (and (= ?v0 lNil$a) (= ?v1 ?v2))) (exists ((?v2 A_llist_a_llist_prod_llist$) (?v3 A_llist_a_llist_prod_llist$) (?v4 A_llist_a_llist_prod$)) (and (= ?v0 (lCons$a ?v4 ?v2)) (and (= ?v1 (lCons$a ?v4 ?v3)) (fun_app$bw (lprefix$a ?v2) ?v3))))))) :named a80))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_llist$)) (= (fun_app$l (lprefix$ ?v0) ?v1) (or (exists ((?v2 A_llist$)) (and (= ?v0 lNil$) (= ?v1 ?v2))) (exists ((?v2 A_llist$) (?v3 A_llist$) (?v4 A$)) (and (= ?v0 (lCons$ ?v4 ?v2)) (and (= ?v1 (lCons$ ?v4 ?v3)) (fun_app$l (lprefix$ ?v2) ?v3))))))) :named a81))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$) (?v1 A_llist_a_llist_prod_llist$)) (=> (and (fun_app$bw (lprefix$a ?v0) ?v1) (and (forall ((?v2 A_llist_a_llist_prod_llist$)) (=> (and (= ?v0 lNil$a) (= ?v1 ?v2)) false)) (forall ((?v2 A_llist_a_llist_prod_llist$) (?v3 A_llist_a_llist_prod_llist$) (?v4 A_llist_a_llist_prod$)) (=> (and (= ?v0 (lCons$a ?v4 ?v2)) (and (= ?v1 (lCons$a ?v4 ?v3)) (fun_app$bw (lprefix$a ?v2) ?v3))) false)))) false)) :named a82))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_llist$)) (=> (and (fun_app$l (lprefix$ ?v0) ?v1) (and (forall ((?v2 A_llist$)) (=> (and (= ?v0 lNil$) (= ?v1 ?v2)) false)) (forall ((?v2 A_llist$) (?v3 A_llist$) (?v4 A$)) (=> (and (= ?v0 (lCons$ ?v4 ?v2)) (and (= ?v1 (lCons$ ?v4 ?v3)) (fun_app$l (lprefix$ ?v2) ?v3))) false)))) false)) :named a83))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist_a_llist_a_llist_prod_llist_bool_fun_fun$) (?v1 A_llist_a_llist_prod_llist$) (?v2 A_llist_a_llist_prod_llist$)) (=> (and (fun_app$bw (fun_app$by ?v0 ?v1) ?v2) (forall ((?v3 A_llist_a_llist_prod_llist$) (?v4 A_llist_a_llist_prod_llist$)) (=> (fun_app$bw (fun_app$by ?v0 ?v3) ?v4) (or (exists ((?v5 A_llist_a_llist_prod_llist$)) (and (= ?v3 lNil$a) (= ?v4 ?v5))) (exists ((?v5 A_llist_a_llist_prod_llist$) (?v6 A_llist_a_llist_prod_llist$) (?v7 A_llist_a_llist_prod$)) (and (= ?v3 (lCons$a ?v7 ?v5)) (and (= ?v4 (lCons$a ?v7 ?v6)) (or (fun_app$bw (fun_app$by ?v0 ?v5) ?v6) (fun_app$bw (lprefix$a ?v5) ?v6))))))))) (fun_app$bw (lprefix$a ?v1) ?v2))) :named a84))
-(assert (! (forall ((?v0 A_llist_a_llist_bool_fun_fun$) (?v1 A_llist$) (?v2 A_llist$)) (=> (and (fun_app$l (fun_app$m ?v0 ?v1) ?v2) (forall ((?v3 A_llist$) (?v4 A_llist$)) (=> (fun_app$l (fun_app$m ?v0 ?v3) ?v4) (or (exists ((?v5 A_llist$)) (and (= ?v3 lNil$) (= ?v4 ?v5))) (exists ((?v5 A_llist$) (?v6 A_llist$) (?v7 A$)) (and (= ?v3 (lCons$ ?v7 ?v5)) (and (= ?v4 (lCons$ ?v7 ?v6)) (or (fun_app$l (fun_app$m ?v0 ?v5) ?v6) (fun_app$l (lprefix$ ?v5) ?v6))))))))) (fun_app$l (lprefix$ ?v1) ?v2))) :named a85))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$) (?v1 A_llist_a_llist_prod_llist$) (?v2 A_llist_a_llist_prod_llist_a_llist_a_llist_prod_llist_prod_set$)) (=> (and (member$c (pair$a ?v0 ?v1) ?v2) (forall ((?v3 A_llist_a_llist_prod_llist$) (?v4 A_llist_a_llist_prod_llist$)) (=> (member$c (pair$a ?v3 ?v4) ?v2) (or (fun_app$bw lnull$a ?v3) (exists ((?v5 A_llist_a_llist_prod$) (?v6 A_llist_a_llist_prod_llist$) (?v7 A_llist_a_llist_prod_llist$)) (and (= ?v3 (lCons$a ?v5 ?v6)) (and (= ?v4 (lCons$a ?v5 ?v7)) (or (member$c (pair$a ?v6 ?v7) ?v2) (fun_app$bw (lprefix$a ?v6) ?v7))))))))) (fun_app$bw (lprefix$a ?v0) ?v1))) :named a86))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_llist$) (?v2 A_llist_a_llist_prod_set$)) (=> (and (fun_app$i (member$ (pair$ ?v0 ?v1)) ?v2) (forall ((?v3 A_llist$) (?v4 A_llist$)) (=> (fun_app$i (member$ (pair$ ?v3 ?v4)) ?v2) (or (fun_app$l lnull$ ?v3) (exists ((?v5 A$) (?v6 A_llist$) (?v7 A_llist$)) (and (= ?v3 (lCons$ ?v5 ?v6)) (and (= ?v4 (lCons$ ?v5 ?v7)) (or (fun_app$i (member$ (pair$ ?v6 ?v7)) ?v2) (fun_app$l (lprefix$ ?v6) ?v7))))))))) (fun_app$l (lprefix$ ?v0) ?v1))) :named a87))
-(assert (! (forall ((?v0 A$) (?v1 A_llist$) (?v2 A$) (?v3 A_llist$)) (= (= (lCons$ ?v0 ?v1) (lCons$ ?v2 ?v3)) (and (= ?v0 ?v2) (= ?v1 ?v3)))) :named a88))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod_llist$) (?v2 A_llist_a_llist_prod$) (?v3 A_llist_a_llist_prod_llist$)) (= (= (lCons$a ?v0 ?v1) (lCons$a ?v2 ?v3)) (and (= ?v0 ?v2) (= ?v1 ?v3)))) :named a89))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$)) (=> (not (fun_app$bw lnull$a ?v0)) (= (lCons$a (lhd$a ?v0) (ltl$a ?v0)) ?v0))) :named a90))
-(assert (! (forall ((?v0 A_llist$)) (=> (not (fun_app$l lnull$ ?v0)) (= (lCons$ (lhd$ ?v0) (ltl$ ?v0)) ?v0))) :named a91))
-(assert (! (forall ((?v0 A_llist$)) (= (not (= ?v0 lNil$)) (exists ((?v1 A$) (?v2 A_llist$)) (= ?v0 (lCons$ ?v1 ?v2))))) :named a92))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$)) (= (not (= ?v0 lNil$a)) (exists ((?v1 A_llist_a_llist_prod$) (?v2 A_llist_a_llist_prod_llist$)) (= ?v0 (lCons$a ?v1 ?v2))))) :named a93))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$)) (= (not (fun_app$bw lnull$a ?v0)) (exists ((?v1 A_llist_a_llist_prod$) (?v2 A_llist_a_llist_prod_llist$)) (= ?v0 (lCons$a ?v1 ?v2))))) :named a94))
-(assert (! (forall ((?v0 A_llist$)) (= (not (fun_app$l lnull$ ?v0)) (exists ((?v1 A$) (?v2 A_llist$)) (= ?v0 (lCons$ ?v1 ?v2))))) :named a95))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$)) (! (= (fun_app$bw lnull$a ?v0) (= ?v0 lNil$a)) :pattern ((fun_app$bw lnull$a ?v0)))) :named a96))
-(assert (! (forall ((?v0 A_llist$)) (! (= (fun_app$l lnull$ ?v0) (= ?v0 lNil$)) :pattern ((fun_app$l lnull$ ?v0)))) :named a97))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod_llist$)) (! (= (lhd$a (lCons$a ?v0 ?v1)) ?v0) :pattern ((lCons$a ?v0 ?v1)))) :named a98))
-(assert (! (forall ((?v0 A$) (?v1 A_llist$)) (! (= (lhd$ (lCons$ ?v0 ?v1)) ?v0) :pattern ((lCons$ ?v0 ?v1)))) :named a99))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod_llist$)) (! (= (ltl$a (lCons$a ?v0 ?v1)) ?v1) :pattern ((lCons$a ?v0 ?v1)))) :named a100))
-(assert (! (forall ((?v0 A$) (?v1 A_llist$)) (! (= (ltl$ (lCons$ ?v0 ?v1)) ?v1) :pattern ((lCons$ ?v0 ?v1)))) :named a101))
-(assert (! (= (ltl$a lNil$a) lNil$a) :named a102))
-(assert (! (= (ltl$ lNil$) lNil$) :named a103))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$)) (=> (and (=> (= ?v0 lNil$a) false) (=> (= ?v0 (lCons$a (lhd$a ?v0) (ltl$a ?v0))) false)) false)) :named a104))
-(assert (! (forall ((?v0 A_llist$)) (=> (and (=> (= ?v0 lNil$) false) (=> (= ?v0 (lCons$ (lhd$ ?v0) (ltl$ ?v0))) false)) false)) :named a105))
-(assert (! (forall ((?v0 A_llist$)) (=> (and (=> (= ?v0 lNil$) false) (forall ((?v1 A$) (?v2 A_llist$)) (=> (= ?v0 (lCons$ ?v1 ?v2)) false))) false)) :named a106))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$)) (=> (and (=> (= ?v0 lNil$a) false) (forall ((?v1 A_llist_a_llist_prod$) (?v2 A_llist_a_llist_prod_llist$)) (=> (= ?v0 (lCons$a ?v1 ?v2)) false))) false)) :named a107))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$) (?v1 A_llist_a_llist_prod_llist$)) (=> (and (=> (and (fun_app$bw lnull$a ?v0) (fun_app$bw lnull$a ?v1)) false) (=> (or (not (fun_app$bw lnull$a ?v0)) (not (fun_app$bw lnull$a ?v1))) false)) false)) :named a108))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_llist$)) (=> (and (=> (and (fun_app$l lnull$ ?v0) (fun_app$l lnull$ ?v1)) false) (=> (or (not (fun_app$l lnull$ ?v0)) (not (fun_app$l lnull$ ?v1))) false)) false)) :named a109))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$)) (=> (and (=> (fun_app$bw lnull$a ?v0) false) (=> (not (fun_app$bw lnull$a ?v0)) false)) false)) :named a110))
-(assert (! (forall ((?v0 A_llist$)) (=> (and (=> (fun_app$l lnull$ ?v0) false) (=> (not (fun_app$l lnull$ ?v0)) false)) false)) :named a111))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$) (?v1 A_llist_a_llist_prod_llist$)) (=> (and (= (fun_app$bw lnull$a ?v0) (fun_app$bw lnull$a ?v1)) (=> (and (not (fun_app$bw lnull$a ?v0)) (not (fun_app$bw lnull$a ?v1))) (and (= (lhd$a ?v0) (lhd$a ?v1)) (= (ltl$a ?v0) (ltl$a ?v1))))) (= ?v0 ?v1))) :named a112))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_llist$)) (=> (and (= (fun_app$l lnull$ ?v0) (fun_app$l lnull$ ?v1)) (=> (and (not (fun_app$l lnull$ ?v0)) (not (fun_app$l lnull$ ?v1))) (and (= (lhd$ ?v0) (lhd$ ?v1)) (= (ltl$ ?v0) (ltl$ ?v1))))) (= ?v0 ?v1))) :named a113))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$) (?v1 A_llist_a_llist_prod$) (?v2 A_llist_a_llist_prod_llist$)) (=> (= ?v0 (lCons$a ?v1 ?v2)) (and (not (= ?v0 lNil$a)) (and (= (lhd$a ?v0) ?v1) (= (ltl$a ?v0) ?v2))))) :named a114))
-(assert (! (forall ((?v0 A_llist$) (?v1 A$) (?v2 A_llist$)) (=> (= ?v0 (lCons$ ?v1 ?v2)) (and (not (= ?v0 lNil$)) (and (= (lhd$ ?v0) ?v1) (= (ltl$ ?v0) ?v2))))) :named a115))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$) (?v1 A_llist_a_llist_prod$) (?v2 A_llist_a_llist_prod_llist$)) (=> (= ?v0 (lCons$a ?v1 ?v2)) (not (fun_app$bw lnull$a ?v0)))) :named a116))
-(assert (! (forall ((?v0 A_llist$) (?v1 A$) (?v2 A_llist$)) (=> (= ?v0 (lCons$ ?v1 ?v2)) (not (fun_app$l lnull$ ?v0)))) :named a117))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$)) (=> (= ?v0 lNil$a) (fun_app$bw lnull$a ?v0))) :named a118))
-(assert (! (forall ((?v0 A_llist$)) (=> (= ?v0 lNil$) (fun_app$l lnull$ ?v0))) :named a119))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$)) (=> (fun_app$bw lnull$a ?v0) (= ?v0 lNil$a))) :named a120))
-(assert (! (forall ((?v0 A_llist$)) (=> (fun_app$l lnull$ ?v0) (= ?v0 lNil$))) :named a121))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$)) (=> (fun_app$bw lnull$a ?v0) (fun_app$bw lnull$a (ltl$a ?v0)))) :named a122))
-(assert (! (forall ((?v0 A_llist$)) (=> (fun_app$l lnull$ ?v0) (fun_app$l lnull$ (ltl$ ?v0)))) :named a123))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist_a_llist_a_llist_prod_llist_bool_fun_fun$) (?v1 A_llist_a_llist_prod_llist$) (?v2 A_llist_a_llist_prod_llist$)) (=> (and (fun_app$bw (fun_app$by ?v0 ?v1) ?v2) (forall ((?v3 A_llist_a_llist_prod_llist$) (?v4 A_llist_a_llist_prod_llist$)) (=> (fun_app$bw (fun_app$by ?v0 ?v3) ?v4) (and (= (fun_app$bw lnull$a ?v3) (fun_app$bw lnull$a ?v4)) (=> (and (not (fun_app$bw lnull$a ?v3)) (not (fun_app$bw lnull$a ?v4))) (and (= (lhd$a ?v3) (lhd$a ?v4)) (or (fun_app$bw (fun_app$by ?v0 (ltl$a ?v3)) (ltl$a ?v4)) (= (ltl$a ?v3) (ltl$a ?v4))))))))) (= ?v1 ?v2))) :named a124))
-(assert (! (forall ((?v0 A_llist_a_llist_bool_fun_fun$) (?v1 A_llist$) (?v2 A_llist$)) (=> (and (fun_app$l (fun_app$m ?v0 ?v1) ?v2) (forall ((?v3 A_llist$) (?v4 A_llist$)) (=> (fun_app$l (fun_app$m ?v0 ?v3) ?v4) (and (= (fun_app$l lnull$ ?v3) (fun_app$l lnull$ ?v4)) (=> (and (not (fun_app$l lnull$ ?v3)) (not (fun_app$l lnull$ ?v4))) (and (= (lhd$ ?v3) (lhd$ ?v4)) (or (fun_app$l (fun_app$m ?v0 (ltl$ ?v3)) (ltl$ ?v4)) (= (ltl$ ?v3) (ltl$ ?v4))))))))) (= ?v1 ?v2))) :named a125))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist_a_llist_a_llist_prod_llist_bool_fun_fun$) (?v1 A_llist_a_llist_prod_llist$) (?v2 A_llist_a_llist_prod_llist$)) (=> (and (fun_app$bw (fun_app$by ?v0 ?v1) ?v2) (forall ((?v3 A_llist_a_llist_prod_llist$) (?v4 A_llist_a_llist_prod_llist$)) (=> (fun_app$bw (fun_app$by ?v0 ?v3) ?v4) (and (= (fun_app$bw lnull$a ?v3) (fun_app$bw lnull$a ?v4)) (=> (and (not (fun_app$bw lnull$a ?v3)) (not (fun_app$bw lnull$a ?v4))) (and (= (lhd$a ?v3) (lhd$a ?v4)) (fun_app$bw (fun_app$by ?v0 (ltl$a ?v3)) (ltl$a ?v4)))))))) (= ?v1 ?v2))) :named a126))
-(assert (! (forall ((?v0 A_llist_a_llist_bool_fun_fun$) (?v1 A_llist$) (?v2 A_llist$)) (=> (and (fun_app$l (fun_app$m ?v0 ?v1) ?v2) (forall ((?v3 A_llist$) (?v4 A_llist$)) (=> (fun_app$l (fun_app$m ?v0 ?v3) ?v4) (and (= (fun_app$l lnull$ ?v3) (fun_app$l lnull$ ?v4)) (=> (and (not (fun_app$l lnull$ ?v3)) (not (fun_app$l lnull$ ?v4))) (and (= (lhd$ ?v3) (lhd$ ?v4)) (fun_app$l (fun_app$m ?v0 (ltl$ ?v3)) (ltl$ ?v4)))))))) (= ?v1 ?v2))) :named a127))
-(assert (! (forall ((?v0 A$) (?v1 A_llist$)) (not (= lNil$ (lCons$ ?v0 ?v1)))) :named a128))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod_llist$)) (not (= lNil$a (lCons$a ?v0 ?v1)))) :named a129))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod_llist$)) (not (fun_app$bw lnull$a (lCons$a ?v0 ?v1)))) :named a130))
-(assert (! (forall ((?v0 A$) (?v1 A_llist$)) (not (fun_app$l lnull$ (lCons$ ?v0 ?v1)))) :named a131))
-(assert (! (fun_app$bw lnull$a lNil$a) :named a132))
-(assert (! (fun_app$l lnull$ lNil$) :named a133))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_prod$) (?v1 A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$)) (=> (forall ((?v2 A_llist_a_llist_prod$) (?v3 A_llist_a_llist_prod$)) (=> (= ?v0 (pair$b ?v2 ?v3)) (fun_app$h (fun_app$r ?v1 ?v2) ?v3))) (fun_app$j (fun_app$al uncurry$d ?v1) ?v0))) :named a134))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_bool_fun_fun$)) (=> (forall ((?v2 A_llist$) (?v3 A_llist$)) (=> (= ?v0 (pair$ ?v2 ?v3)) (fun_app$l (fun_app$m ?v1 ?v2) ?v3))) (fun_app$h (fun_app$ad uncurry$a ?v1) ?v0))) :named a135))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$) (?v1 A_llist_a_llist_prod$) (?v2 A_llist_a_llist_prod$)) (=> (fun_app$h (fun_app$r ?v0 ?v1) ?v2) (fun_app$j (fun_app$al uncurry$d ?v0) (pair$b ?v1 ?v2)))) :named a136))
-(assert (! (forall ((?v0 A_llist_a_llist_bool_fun_fun$) (?v1 A_llist$) (?v2 A_llist$)) (=> (fun_app$l (fun_app$m ?v0 ?v1) ?v2) (fun_app$h (fun_app$ad uncurry$a ?v0) (pair$ ?v1 ?v2)))) :named a137))
-(assert (! (forall ((?v0 A_llist_a_llist_a_llist_a_llist_prod_set_fun_fun$) (?v1 A_llist$) (?v2 A_llist$)) (! (= (fun_app$x (fun_app$ah uncurry$b ?v0) (pair$ ?v1 ?v2)) (fun_app$n (fun_app$o ?v0 ?v1) ?v2)) :pattern ((fun_app$x (fun_app$ah uncurry$b ?v0) (pair$ ?v1 ?v2))))) :named a138))
-(assert (! (forall ((?v0 A_llist_a_llist_a_llist_a_llist_prod_fun_fun$) (?v1 A_llist$) (?v2 A_llist$)) (! (= (fun_app$w (fun_app$ab uncurry$ ?v0) (pair$ ?v1 ?v2)) (fun_app$d (fun_app$e ?v0 ?v1) ?v2)) :pattern ((fun_app$w (fun_app$ab uncurry$ ?v0) (pair$ ?v1 ?v2))))) :named a139))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$) (?v1 A_llist_a_llist_prod$) (?v2 A_llist_a_llist_prod$)) (! (= (fun_app$j (fun_app$al uncurry$d ?v0) (pair$b ?v1 ?v2)) (fun_app$h (fun_app$r ?v0 ?v1) ?v2)) :pattern ((fun_app$j (fun_app$al uncurry$d ?v0) (pair$b ?v1 ?v2))))) :named a140))
-(assert (! (forall ((?v0 A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun$) (?v1 A_llist$) (?v2 A_llist$)) (! (= (fun_app$r (fun_app$aj uncurry$c ?v0) (pair$ ?v1 ?v2)) (fun_app$p (fun_app$q ?v0 ?v1) ?v2)) :pattern ((fun_app$r (fun_app$aj uncurry$c ?v0) (pair$ ?v1 ?v2))))) :named a141))
-(assert (! (forall ((?v0 A_llist_a_llist_bool_fun_fun$) (?v1 A_llist$) (?v2 A_llist$)) (! (= (fun_app$h (fun_app$ad uncurry$a ?v0) (pair$ ?v1 ?v2)) (fun_app$l (fun_app$m ?v0 ?v1) ?v2)) :pattern ((fun_app$h (fun_app$ad uncurry$a ?v0) (pair$ ?v1 ?v2))))) :named a142))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$) (?v1 A_llist_a_llist_prod$) (?v2 A_llist_a_llist_prod$)) (=> (fun_app$h (fun_app$r ?v0 ?v1) ?v2) (fun_app$j (fun_app$al uncurry$d ?v0) (pair$b ?v1 ?v2)))) :named a143))
-(assert (! (forall ((?v0 A_llist_a_llist_bool_fun_fun$) (?v1 A_llist$) (?v2 A_llist$)) (=> (fun_app$l (fun_app$m ?v0 ?v1) ?v2) (fun_app$h (fun_app$ad uncurry$a ?v0) (pair$ ?v1 ?v2)))) :named a144))
-(assert (! (forall ((?v0 Bool) (?v1 A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$) (?v2 A_llist_a_llist_prod_a_llist_a_llist_prod_prod$)) (= (fun_app$j (fun_app$al uncurry$d (fun_app$aq (uu$ ?v0) ?v1)) ?v2) (and ?v0 (fun_app$j (fun_app$al uncurry$d ?v1) ?v2)))) :named a145))
-(assert (! (forall ((?v0 Bool) (?v1 A_llist_a_llist_bool_fun_fun$) (?v2 A_llist_a_llist_prod$)) (= (fun_app$h (fun_app$ad uncurry$a (fun_app$ap (uua$ ?v0) ?v1)) ?v2) (and ?v0 (fun_app$h (fun_app$ad uncurry$a ?v1) ?v2)))) :named a146))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod$) (?v2 A_llist_a_llist_prod$) (?v3 A_llist_a_llist_prod$)) (= (= (pair$b ?v0 ?v1) (pair$b ?v2 ?v3)) (and (= ?v0 ?v2) (= ?v1 ?v3)))) :named a147))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_llist$) (?v2 A_llist$) (?v3 A_llist$)) (= (= (pair$ ?v0 ?v1) (pair$ ?v2 ?v3)) (and (= ?v0 ?v2) (= ?v1 ?v3)))) :named a148))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod$) (?v2 A_llist_a_llist_prod$) (?v3 A_llist_a_llist_prod$)) (= (= (pair$b ?v0 ?v1) (pair$b ?v2 ?v3)) (and (= ?v0 ?v2) (= ?v1 ?v3)))) :named a149))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_llist$) (?v2 A_llist$) (?v3 A_llist$)) (= (= (pair$ ?v0 ?v1) (pair$ ?v2 ?v3)) (and (= ?v0 ?v2) (= ?v1 ?v3)))) :named a150))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$) (?v1 A_llist_a_llist_prod$) (?v2 A_llist_a_llist_prod$)) (=> (fun_app$j (fun_app$al uncurry$d ?v0) (pair$b ?v1 ?v2)) (fun_app$h (fun_app$r ?v0 ?v1) ?v2))) :named a151))
-(assert (! (forall ((?v0 A_llist_a_llist_bool_fun_fun$) (?v1 A_llist$) (?v2 A_llist$)) (=> (fun_app$h (fun_app$ad uncurry$a ?v0) (pair$ ?v1 ?v2)) (fun_app$l (fun_app$m ?v0 ?v1) ?v2))) :named a152))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$) (?v1 A_llist_a_llist_prod_a_llist_a_llist_prod_prod$)) (=> (and (fun_app$j (fun_app$al uncurry$d ?v0) ?v1) (forall ((?v2 A_llist_a_llist_prod$) (?v3 A_llist_a_llist_prod$)) (=> (and (= ?v1 (pair$b ?v2 ?v3)) (fun_app$h (fun_app$r ?v0 ?v2) ?v3)) false))) false)) :named a153))
-(assert (! (forall ((?v0 A_llist_a_llist_bool_fun_fun$) (?v1 A_llist_a_llist_prod$)) (=> (and (fun_app$h (fun_app$ad uncurry$a ?v0) ?v1) (forall ((?v2 A_llist$) (?v3 A_llist$)) (=> (and (= ?v1 (pair$ ?v2 ?v3)) (fun_app$l (fun_app$m ?v0 ?v2) ?v3)) false))) false)) :named a154))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_set_fun$)) (= (fun_app$ah uncurry$b (uub$ ?v0)) ?v0)) :named a155))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_fun$)) (= (fun_app$ab uncurry$ (uuc$ ?v0)) ?v0)) :named a156))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_prod_bool_fun$)) (= (fun_app$al uncurry$d (uud$ ?v0)) ?v0)) :named a157))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$)) (= (fun_app$aj uncurry$c (uue$ ?v0)) ?v0)) :named a158))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_bool_fun$)) (= (fun_app$ad uncurry$a (uuf$ ?v0)) ?v0)) :named a159))
-(assert (! (forall ((?v0 A_llist_a_llist_a_llist_a_llist_prod_set_fun_fun$) (?v1 A_llist_a_llist_prod_a_llist_a_llist_prod_set_fun$)) (=> (forall ((?v2 A_llist$) (?v3 A_llist$)) (= (fun_app$n (fun_app$o ?v0 ?v2) ?v3) (fun_app$x ?v1 (pair$ ?v2 ?v3)))) (= (fun_app$ah uncurry$b ?v0) ?v1))) :named a160))
-(assert (! (forall ((?v0 A_llist_a_llist_a_llist_a_llist_prod_fun_fun$) (?v1 A_llist_a_llist_prod_a_llist_a_llist_prod_fun$)) (=> (forall ((?v2 A_llist$) (?v3 A_llist$)) (= (fun_app$d (fun_app$e ?v0 ?v2) ?v3) (fun_app$w ?v1 (pair$ ?v2 ?v3)))) (= (fun_app$ab uncurry$ ?v0) ?v1))) :named a161))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$) (?v1 A_llist_a_llist_prod_a_llist_a_llist_prod_prod_bool_fun$)) (=> (forall ((?v2 A_llist_a_llist_prod$) (?v3 A_llist_a_llist_prod$)) (= (fun_app$h (fun_app$r ?v0 ?v2) ?v3) (fun_app$j ?v1 (pair$b ?v2 ?v3)))) (= (fun_app$al uncurry$d ?v0) ?v1))) :named a162))
-(assert (! (forall ((?v0 A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun$) (?v1 A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$)) (=> (forall ((?v2 A_llist$) (?v3 A_llist$)) (= (fun_app$p (fun_app$q ?v0 ?v2) ?v3) (fun_app$r ?v1 (pair$ ?v2 ?v3)))) (= (fun_app$aj uncurry$c ?v0) ?v1))) :named a163))
-(assert (! (forall ((?v0 A_llist_a_llist_bool_fun_fun$) (?v1 A_llist_a_llist_prod_bool_fun$)) (=> (forall ((?v2 A_llist$) (?v3 A_llist$)) (= (fun_app$l (fun_app$m ?v0 ?v2) ?v3) (fun_app$h ?v1 (pair$ ?v2 ?v3)))) (= (fun_app$ad uncurry$a ?v0) ?v1))) :named a164))
-(assert (! (forall ((?v0 A$) (?v1 A_llist_a_llist_a_set_fun_fun$) (?v2 A_llist$) (?v3 A_llist$)) (=> (member$b ?v0 (fun_app$bz (fun_app$ca ?v1 ?v2) ?v3)) (member$b ?v0 (uncurry$e ?v1 (pair$ ?v2 ?v3))))) :named a165))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_prod$) (?v1 A_llist_a_llist_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_set_fun_fun$) (?v2 A_llist$) (?v3 A_llist$)) (=> (member$a ?v0 (fun_app$cb (fun_app$cc ?v1 ?v2) ?v3)) (member$a ?v0 (uncurry$f ?v1 (pair$ ?v2 ?v3))))) :named a166))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_set_fun_fun$) (?v2 A_llist_a_llist_prod$) (?v3 A_llist_a_llist_prod$)) (=> (fun_app$i (member$ ?v0) (fun_app$x (fun_app$cd ?v1 ?v2) ?v3)) (fun_app$i (member$ ?v0) (uncurry$g ?v1 (pair$b ?v2 ?v3))))) :named a167))
-(assert (! (forall ((?v0 A$) (?v1 A_llist_a_llist_prod_a_llist_a_llist_prod_a_set_fun_fun$) (?v2 A_llist_a_llist_prod$) (?v3 A_llist_a_llist_prod$)) (=> (member$b ?v0 (fun_app$ce (fun_app$cf ?v1 ?v2) ?v3)) (member$b ?v0 (uncurry$h ?v1 (pair$b ?v2 ?v3))))) :named a168))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_prod$) (?v1 A_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_set_fun_fun$) (?v2 A_llist_a_llist_prod$) (?v3 A_llist_a_llist_prod$)) (=> (member$a ?v0 (fun_app$cg (fun_app$ch ?v1 ?v2) ?v3)) (member$a ?v0 (uncurry$i ?v1 (pair$b ?v2 ?v3))))) :named a169))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_a_llist_a_llist_prod_set_fun_fun$) (?v2 A_llist$) (?v3 A_llist$)) (=> (fun_app$i (member$ ?v0) (fun_app$n (fun_app$o ?v1 ?v2) ?v3)) (fun_app$i (member$ ?v0) (fun_app$x (fun_app$ah uncurry$b ?v1) (pair$ ?v2 ?v3))))) :named a170))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A$) (?v2 A_llist_a_llist_a_set_fun_fun$)) (=> (forall ((?v3 A_llist$) (?v4 A_llist$)) (=> (= ?v0 (pair$ ?v3 ?v4)) (member$b ?v1 (fun_app$bz (fun_app$ca ?v2 ?v3) ?v4)))) (member$b ?v1 (uncurry$e ?v2 ?v0)))) :named a171))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod_a_llist_a_llist_prod_prod$) (?v2 A_llist_a_llist_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_set_fun_fun$)) (=> (forall ((?v3 A_llist$) (?v4 A_llist$)) (=> (= ?v0 (pair$ ?v3 ?v4)) (member$a ?v1 (fun_app$cb (fun_app$cc ?v2 ?v3) ?v4)))) (member$a ?v1 (uncurry$f ?v2 ?v0)))) :named a172))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_prod$) (?v1 A_llist_a_llist_prod$) (?v2 A_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_set_fun_fun$)) (=> (forall ((?v3 A_llist_a_llist_prod$) (?v4 A_llist_a_llist_prod$)) (=> (= ?v0 (pair$b ?v3 ?v4)) (fun_app$i (member$ ?v1) (fun_app$x (fun_app$cd ?v2 ?v3) ?v4)))) (fun_app$i (member$ ?v1) (uncurry$g ?v2 ?v0)))) :named a173))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_prod$) (?v1 A$) (?v2 A_llist_a_llist_prod_a_llist_a_llist_prod_a_set_fun_fun$)) (=> (forall ((?v3 A_llist_a_llist_prod$) (?v4 A_llist_a_llist_prod$)) (=> (= ?v0 (pair$b ?v3 ?v4)) (member$b ?v1 (fun_app$ce (fun_app$cf ?v2 ?v3) ?v4)))) (member$b ?v1 (uncurry$h ?v2 ?v0)))) :named a174))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_prod$) (?v1 A_llist_a_llist_prod_a_llist_a_llist_prod_prod$) (?v2 A_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_set_fun_fun$)) (=> (forall ((?v3 A_llist_a_llist_prod$) (?v4 A_llist_a_llist_prod$)) (=> (= ?v0 (pair$b ?v3 ?v4)) (member$a ?v1 (fun_app$cg (fun_app$ch ?v2 ?v3) ?v4)))) (member$a ?v1 (uncurry$i ?v2 ?v0)))) :named a175))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod$) (?v2 A_llist_a_llist_a_llist_a_llist_prod_set_fun_fun$)) (=> (forall ((?v3 A_llist$) (?v4 A_llist$)) (=> (= ?v0 (pair$ ?v3 ?v4)) (fun_app$i (member$ ?v1) (fun_app$n (fun_app$o ?v2 ?v3) ?v4)))) (fun_app$i (member$ ?v1) (fun_app$x (fun_app$ah uncurry$b ?v2) ?v0)))) :named a176))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_prod_bool_fun$) (?v1 A_llist_a_llist_prod_a_llist_a_llist_prod_prod_bool_fun$)) (=> (forall ((?v2 A_llist_a_llist_prod_a_llist_a_llist_prod_prod$)) (= (fun_app$j ?v0 ?v2) (fun_app$j ?v1 ?v2))) (= (collect$a ?v0) (collect$a ?v1)))) :named a177))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_bool_fun$) (?v1 A_llist_a_llist_prod_bool_fun$)) (=> (forall ((?v2 A_llist_a_llist_prod$)) (= (fun_app$h ?v0 ?v2) (fun_app$h ?v1 ?v2))) (= (collect$ ?v0) (collect$ ?v1)))) :named a178))
-(assert (! (forall ((?v0 A_set$)) (= (collect$b (uug$ ?v0)) ?v0)) :named a179))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_prod_set$)) (= (collect$a (uuh$ ?v0)) ?v0)) :named a180))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_set$)) (= (collect$ (uui$ ?v0)) ?v0)) :named a181))
-(assert (! (forall ((?v0 A$) (?v1 A_bool_fun$)) (= (member$b ?v0 (collect$b ?v1)) (fun_app$k ?v1 ?v0))) :named a182))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_prod$) (?v1 A_llist_a_llist_prod_a_llist_a_llist_prod_prod_bool_fun$)) (= (member$a ?v0 (collect$a ?v1)) (fun_app$j ?v1 ?v0))) :named a183))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod_bool_fun$)) (= (fun_app$i (member$ ?v0) (collect$ ?v1)) (fun_app$h ?v1 ?v0))) :named a184))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun$) (?v2 A_llist_a_llist_prod$)) (=> (forall ((?v3 A_llist$) (?v4 A_llist$)) (=> (= (pair$ ?v3 ?v4) ?v0) (fun_app$h (fun_app$p (fun_app$q ?v1 ?v3) ?v4) ?v2))) (fun_app$h (fun_app$r (fun_app$aj uncurry$c ?v1) ?v0) ?v2))) :named a185))
-(assert (! (forall ((?v0 A$) (?v1 A_llist_a_llist_a_set_fun_fun$) (?v2 A_llist_a_llist_prod$)) (=> (and (member$b ?v0 (uncurry$e ?v1 ?v2)) (forall ((?v3 A_llist$) (?v4 A_llist$)) (=> (and (= ?v2 (pair$ ?v3 ?v4)) (member$b ?v0 (fun_app$bz (fun_app$ca ?v1 ?v3) ?v4))) false))) false)) :named a186))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_prod$) (?v1 A_llist_a_llist_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_set_fun_fun$) (?v2 A_llist_a_llist_prod$)) (=> (and (member$a ?v0 (uncurry$f ?v1 ?v2)) (forall ((?v3 A_llist$) (?v4 A_llist$)) (=> (and (= ?v2 (pair$ ?v3 ?v4)) (member$a ?v0 (fun_app$cb (fun_app$cc ?v1 ?v3) ?v4))) false))) false)) :named a187))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_set_fun_fun$) (?v2 A_llist_a_llist_prod_a_llist_a_llist_prod_prod$)) (=> (and (fun_app$i (member$ ?v0) (uncurry$g ?v1 ?v2)) (forall ((?v3 A_llist_a_llist_prod$) (?v4 A_llist_a_llist_prod$)) (=> (and (= ?v2 (pair$b ?v3 ?v4)) (fun_app$i (member$ ?v0) (fun_app$x (fun_app$cd ?v1 ?v3) ?v4))) false))) false)) :named a188))
-(assert (! (forall ((?v0 A$) (?v1 A_llist_a_llist_prod_a_llist_a_llist_prod_a_set_fun_fun$) (?v2 A_llist_a_llist_prod_a_llist_a_llist_prod_prod$)) (=> (and (member$b ?v0 (uncurry$h ?v1 ?v2)) (forall ((?v3 A_llist_a_llist_prod$) (?v4 A_llist_a_llist_prod$)) (=> (and (= ?v2 (pair$b ?v3 ?v4)) (member$b ?v0 (fun_app$ce (fun_app$cf ?v1 ?v3) ?v4))) false))) false)) :named a189))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_prod$) (?v1 A_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_set_fun_fun$) (?v2 A_llist_a_llist_prod_a_llist_a_llist_prod_prod$)) (=> (and (member$a ?v0 (uncurry$i ?v1 ?v2)) (forall ((?v3 A_llist_a_llist_prod$) (?v4 A_llist_a_llist_prod$)) (=> (and (= ?v2 (pair$b ?v3 ?v4)) (member$a ?v0 (fun_app$cg (fun_app$ch ?v1 ?v3) ?v4))) false))) false)) :named a190))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_a_llist_a_llist_prod_set_fun_fun$) (?v2 A_llist_a_llist_prod$)) (=> (and (fun_app$i (member$ ?v0) (fun_app$x (fun_app$ah uncurry$b ?v1) ?v2)) (forall ((?v3 A_llist$) (?v4 A_llist$)) (=> (and (= ?v2 (pair$ ?v3 ?v4)) (fun_app$i (member$ ?v0) (fun_app$n (fun_app$o ?v1 ?v3) ?v4))) false))) false)) :named a191))
-(assert (! (forall ((?v0 A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun$) (?v1 A_llist_a_llist_prod$) (?v2 A_llist_a_llist_prod$)) (=> (and (fun_app$h (fun_app$r (fun_app$aj uncurry$c ?v0) ?v1) ?v2) (forall ((?v3 A_llist$) (?v4 A_llist$)) (=> (and (= ?v1 (pair$ ?v3 ?v4)) (fun_app$h (fun_app$p (fun_app$q ?v0 ?v3) ?v4) ?v2)) false))) false)) :named a192))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun$) (?v2 A_llist_a_llist_prod$)) (=> (forall ((?v3 A_llist$) (?v4 A_llist$)) (=> (= (pair$ ?v3 ?v4) ?v0) (fun_app$h (fun_app$p (fun_app$q ?v1 ?v3) ?v4) ?v2))) (fun_app$h (fun_app$r (fun_app$aj uncurry$c ?v1) ?v0) ?v2))) :named a193))
-(assert (! (forall ((?v0 A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun$) (?v1 A_llist_a_llist_prod$) (?v2 A_llist_a_llist_prod$)) (=> (and (fun_app$h (fun_app$r (fun_app$aj uncurry$c ?v0) ?v1) ?v2) (forall ((?v3 A_llist$) (?v4 A_llist$)) (=> (and (= ?v1 (pair$ ?v3 ?v4)) (fun_app$h (fun_app$p (fun_app$q ?v0 ?v3) ?v4) ?v2)) false))) false)) :named a194))
-(assert (! (forall ((?v0 A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun$) (?v1 A_llist$) (?v2 A_llist$) (?v3 A_llist_a_llist_prod$)) (=> (fun_app$h (fun_app$r (fun_app$aj uncurry$c ?v0) (pair$ ?v1 ?v2)) ?v3) (fun_app$h (fun_app$p (fun_app$q ?v0 ?v1) ?v2) ?v3))) :named a195))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_prod$)) (exists ((?v1 A_llist_a_llist_prod$) (?v2 A_llist_a_llist_prod$)) (= ?v0 (pair$b ?v1 ?v2)))) :named a196))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$)) (exists ((?v1 A_llist$) (?v2 A_llist$)) (= ?v0 (pair$ ?v1 ?v2)))) :named a197))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod$) (?v2 A_llist_a_llist_prod$) (?v3 A_llist_a_llist_prod$)) (=> (and (= (pair$b ?v0 ?v1) (pair$b ?v2 ?v3)) (=> (and (= ?v0 ?v2) (= ?v1 ?v3)) false)) false)) :named a198))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_llist$) (?v2 A_llist$) (?v3 A_llist$)) (=> (and (= (pair$ ?v0 ?v1) (pair$ ?v2 ?v3)) (=> (and (= ?v0 ?v2) (= ?v1 ?v3)) false)) false)) :named a199))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_prod_bool_fun$) (?v1 A_llist_a_llist_prod_a_llist_a_llist_prod_prod$)) (=> (forall ((?v2 A_llist_a_llist_prod$) (?v3 A_llist_a_llist_prod$)) (fun_app$j ?v0 (pair$b ?v2 ?v3))) (fun_app$j ?v0 ?v1))) :named a200))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_bool_fun$) (?v1 A_llist_a_llist_prod$)) (=> (forall ((?v2 A_llist$) (?v3 A_llist$)) (fun_app$h ?v0 (pair$ ?v2 ?v3))) (fun_app$h ?v0 ?v1))) :named a201))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_prod$)) (=> (forall ((?v1 A_llist_a_llist_prod$) (?v2 A_llist$) (?v3 A_llist$)) (=> (= ?v0 (pair$b ?v1 (pair$ ?v2 ?v3))) false)) false)) :named a202))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_prod_bool_fun$) (?v1 A_llist_a_llist_prod_a_llist_a_llist_prod_prod$)) (=> (forall ((?v2 A_llist_a_llist_prod$) (?v3 A_llist$) (?v4 A_llist$)) (fun_app$j ?v0 (pair$b ?v2 (pair$ ?v3 ?v4)))) (fun_app$j ?v0 ?v1))) :named a203))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_prod$)) (=> (forall ((?v1 A_llist_a_llist_prod$) (?v2 A_llist_a_llist_prod$)) (=> (= ?v0 (pair$b ?v1 ?v2)) false)) false)) :named a204))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$)) (=> (forall ((?v1 A_llist$) (?v2 A_llist$)) (=> (= ?v0 (pair$ ?v1 ?v2)) false)) false)) :named a205))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod$) (?v2 A_llist_a_llist_a_llist_a_llist_prod_set_fun_fun$)) (=> (= ?v0 ?v1) (= (fun_app$x (fun_app$ah uncurry$b ?v2) ?v0) (fun_app$x (fun_app$ah uncurry$b ?v2) ?v1)))) :named a206))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod$) (?v2 A_llist_a_llist_a_llist_a_llist_prod_fun_fun$)) (=> (= ?v0 ?v1) (= (fun_app$w (fun_app$ab uncurry$ ?v2) ?v0) (fun_app$w (fun_app$ab uncurry$ ?v2) ?v1)))) :named a207))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_prod$) (?v1 A_llist_a_llist_prod_a_llist_a_llist_prod_prod$) (?v2 A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$)) (=> (= ?v0 ?v1) (= (fun_app$j (fun_app$al uncurry$d ?v2) ?v0) (fun_app$j (fun_app$al uncurry$d ?v2) ?v1)))) :named a208))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod$) (?v2 A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun$)) (=> (= ?v0 ?v1) (= (fun_app$r (fun_app$aj uncurry$c ?v2) ?v0) (fun_app$r (fun_app$aj uncurry$c ?v2) ?v1)))) :named a209))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod$) (?v2 A_llist_a_llist_bool_fun_fun$)) (=> (= ?v0 ?v1) (= (fun_app$h (fun_app$ad uncurry$a ?v2) ?v0) (fun_app$h (fun_app$ad uncurry$a ?v2) ?v1)))) :named a210))
-(assert (! (forall ((?v0 Bool_bool_fun$) (?v1 A_llist_a_llist_bool_fun_fun$) (?v2 A_llist_a_llist_prod$)) (= (fun_app$az ?v0 (fun_app$h (fun_app$ad uncurry$a ?v1) ?v2)) (fun_app$h (fun_app$ad uncurry$a (fun_app$ap (uuj$ ?v0) ?v1)) ?v2))) :named a211))
-(assert (! (forall ((?v0 Bool_a_llist_a_llist_prod_fun$) (?v1 A_llist_a_llist_bool_fun_fun$) (?v2 A_llist_a_llist_prod$)) (= (fun_app$ay ?v0 (fun_app$h (fun_app$ad uncurry$a ?v1) ?v2)) (fun_app$w (fun_app$ab uncurry$ (uuk$ ?v0 ?v1)) ?v2))) :named a212))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_bool_fun$) (?v1 A_llist_a_llist_a_llist_a_llist_prod_fun_fun$) (?v2 A_llist_a_llist_prod$)) (= (fun_app$h ?v0 (fun_app$w (fun_app$ab uncurry$ ?v1) ?v2)) (fun_app$h (fun_app$ad uncurry$a (fun_app$ac (uul$ ?v0) ?v1)) ?v2))) :named a213))
-(assert (! (forall ((?v0 Bool_a_llist_a_llist_prod_set_fun$) (?v1 A_llist_a_llist_bool_fun_fun$) (?v2 A_llist_a_llist_prod$)) (= (fun_app$bc ?v0 (fun_app$h (fun_app$ad uncurry$a ?v1) ?v2)) (fun_app$x (fun_app$ah uncurry$b (fun_app$bb (uum$ ?v0) ?v1)) ?v2))) :named a214))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_set_bool_fun$) (?v1 A_llist_a_llist_a_llist_a_llist_prod_set_fun_fun$) (?v2 A_llist_a_llist_prod$)) (= (fun_app$i ?v0 (fun_app$x (fun_app$ah uncurry$b ?v1) ?v2)) (fun_app$h (fun_app$ad uncurry$a (fun_app$bi (uun$ ?v0) ?v1)) ?v2))) :named a215))
-(assert (! (forall ((?v0 Bool_a_llist_a_llist_prod_bool_fun_fun$) (?v1 A_llist_a_llist_bool_fun_fun$) (?v2 A_llist_a_llist_prod$)) (= (fun_app$be ?v0 (fun_app$h (fun_app$ad uncurry$a ?v1) ?v2)) (fun_app$r (fun_app$aj uncurry$c (fun_app$bd (uuo$ ?v0) ?v1)) ?v2))) :named a216))
-(assert (! (forall ((?v0 Bool_bool_fun$) (?v1 A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$) (?v2 A_llist_a_llist_prod_a_llist_a_llist_prod_prod$)) (= (fun_app$az ?v0 (fun_app$j (fun_app$al uncurry$d ?v1) ?v2)) (fun_app$j (fun_app$al uncurry$d (fun_app$aq (uup$ ?v0) ?v1)) ?v2))) :named a217))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_bool_fun_bool_fun$) (?v1 A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun$) (?v2 A_llist_a_llist_prod$)) (= (fun_app$bk ?v0 (fun_app$r (fun_app$aj uncurry$c ?v1) ?v2)) (fun_app$h (fun_app$ad uncurry$a (fun_app$bj (uuq$ ?v0) ?v1)) ?v2))) :named a218))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_fun$) (?v1 A_llist_a_llist_a_llist_a_llist_prod_fun_fun$) (?v2 A_llist_a_llist_prod$)) (= (fun_app$w ?v0 (fun_app$w (fun_app$ab uncurry$ ?v1) ?v2)) (fun_app$w (fun_app$ab uncurry$ (uur$ ?v0 ?v1)) ?v2))) :named a219))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_set_a_llist_a_llist_prod_fun$) (?v1 A_llist_a_llist_a_llist_a_llist_prod_set_fun_fun$) (?v2 A_llist_a_llist_prod$)) (= (fun_app$bh ?v0 (fun_app$x (fun_app$ah uncurry$b ?v1) ?v2)) (fun_app$w (fun_app$ab uncurry$ (uus$ ?v0 ?v1)) ?v2))) :named a220))
-(assert (! (forall ((?v0 Bool_bool_fun$) (?v1 A_llist_a_llist_bool_fun_fun$) (?v2 A_llist_a_llist_prod$)) (= (fun_app$az ?v0 (fun_app$h (fun_app$ad uncurry$a ?v1) ?v2)) (fun_app$h (fun_app$ad uncurry$a (fun_app$ap (uuj$ ?v0) ?v1)) ?v2))) :named a221))
-(assert (! (forall ((?v0 Bool_a_llist_a_llist_prod_fun$) (?v1 A_llist_a_llist_bool_fun_fun$) (?v2 A_llist_a_llist_prod$)) (= (fun_app$ay ?v0 (fun_app$h (fun_app$ad uncurry$a ?v1) ?v2)) (fun_app$w (fun_app$ab uncurry$ (uuk$ ?v0 ?v1)) ?v2))) :named a222))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_bool_fun$) (?v1 A_llist_a_llist_a_llist_a_llist_prod_fun_fun$) (?v2 A_llist_a_llist_prod$)) (= (fun_app$h ?v0 (fun_app$w (fun_app$ab uncurry$ ?v1) ?v2)) (fun_app$h (fun_app$ad uncurry$a (fun_app$ac (uul$ ?v0) ?v1)) ?v2))) :named a223))
-(assert (! (forall ((?v0 Bool_a_llist_a_llist_prod_set_fun$) (?v1 A_llist_a_llist_bool_fun_fun$) (?v2 A_llist_a_llist_prod$)) (= (fun_app$bc ?v0 (fun_app$h (fun_app$ad uncurry$a ?v1) ?v2)) (fun_app$x (fun_app$ah uncurry$b (fun_app$bb (uum$ ?v0) ?v1)) ?v2))) :named a224))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_set_bool_fun$) (?v1 A_llist_a_llist_a_llist_a_llist_prod_set_fun_fun$) (?v2 A_llist_a_llist_prod$)) (= (fun_app$i ?v0 (fun_app$x (fun_app$ah uncurry$b ?v1) ?v2)) (fun_app$h (fun_app$ad uncurry$a (fun_app$bi (uun$ ?v0) ?v1)) ?v2))) :named a225))
-(assert (! (forall ((?v0 Bool_a_llist_a_llist_prod_bool_fun_fun$) (?v1 A_llist_a_llist_bool_fun_fun$) (?v2 A_llist_a_llist_prod$)) (= (fun_app$be ?v0 (fun_app$h (fun_app$ad uncurry$a ?v1) ?v2)) (fun_app$r (fun_app$aj uncurry$c (fun_app$bd (uuo$ ?v0) ?v1)) ?v2))) :named a226))
-(assert (! (forall ((?v0 Bool_bool_fun$) (?v1 A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$) (?v2 A_llist_a_llist_prod_a_llist_a_llist_prod_prod$)) (= (fun_app$az ?v0 (fun_app$j (fun_app$al uncurry$d ?v1) ?v2)) (fun_app$j (fun_app$al uncurry$d (fun_app$aq (uup$ ?v0) ?v1)) ?v2))) :named a227))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_bool_fun_bool_fun$) (?v1 A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun$) (?v2 A_llist_a_llist_prod$)) (= (fun_app$bk ?v0 (fun_app$r (fun_app$aj uncurry$c ?v1) ?v2)) (fun_app$h (fun_app$ad uncurry$a (fun_app$bj (uuq$ ?v0) ?v1)) ?v2))) :named a228))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_fun$) (?v1 A_llist_a_llist_a_llist_a_llist_prod_fun_fun$) (?v2 A_llist_a_llist_prod$)) (= (fun_app$w ?v0 (fun_app$w (fun_app$ab uncurry$ ?v1) ?v2)) (fun_app$w (fun_app$ab uncurry$ (uur$ ?v0 ?v1)) ?v2))) :named a229))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_set_a_llist_a_llist_prod_fun$) (?v1 A_llist_a_llist_a_llist_a_llist_prod_set_fun_fun$) (?v2 A_llist_a_llist_prod$)) (= (fun_app$bh ?v0 (fun_app$x (fun_app$ah uncurry$b ?v1) ?v2)) (fun_app$w (fun_app$ab uncurry$ (uus$ ?v0 ?v1)) ?v2))) :named a230))
-(assert (! (forall ((?v0 A_llist_a_llist_bool_fun_fun$) (?v1 A_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_fun_fun$) (?v2 A_llist_a_llist_prod_a_llist_a_llist_prod_prod$)) (= (fun_app$h (fun_app$ad uncurry$a ?v0) (uncurry$j ?v1 ?v2)) (fun_app$j (fun_app$al uncurry$d (fun_app$ae (uut$ ?v0) ?v1)) ?v2))) :named a231))
-(assert (! (forall ((?v0 A_llist_a_llist_a_llist_a_llist_prod_set_fun_fun$) (?v1 A_llist_a_llist_a_llist_a_llist_prod_fun_fun$) (?v2 A_llist_a_llist_prod$)) (= (fun_app$x (fun_app$ah uncurry$b ?v0) (fun_app$w (fun_app$ab uncurry$ ?v1) ?v2)) (fun_app$x (fun_app$ah uncurry$b (fun_app$ag (uuu$ ?v0) ?v1)) ?v2))) :named a232))
-(assert (! (forall ((?v0 A_llist_a_llist_a_llist_a_llist_prod_fun_fun$) (?v1 A_llist_a_llist_a_llist_a_llist_prod_fun_fun$) (?v2 A_llist_a_llist_prod$)) (= (fun_app$w (fun_app$ab uncurry$ ?v0) (fun_app$w (fun_app$ab uncurry$ ?v1) ?v2)) (fun_app$w (fun_app$ab uncurry$ (uuv$ ?v0 ?v1)) ?v2))) :named a233))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$) (?v1 A_llist_a_llist_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_fun_fun$) (?v2 A_llist_a_llist_prod$)) (= (fun_app$j (fun_app$al uncurry$d ?v0) (uncurry$k ?v1 ?v2)) (fun_app$h (fun_app$ad uncurry$a (fun_app$ak (uuw$ ?v0) ?v1)) ?v2))) :named a234))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$) (?v1 A_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_a_llist_a_llist_prod_prod_fun_fun$) (?v2 A_llist_a_llist_prod_a_llist_a_llist_prod_prod$)) (= (fun_app$j (fun_app$al uncurry$d ?v0) (uncurry$l ?v1 ?v2)) (fun_app$j (fun_app$al uncurry$d (fun_app$ao (uux$ ?v0) ?v1)) ?v2))) :named a235))
-(assert (! (forall ((?v0 A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun$) (?v1 A_llist_a_llist_a_llist_a_llist_prod_fun_fun$) (?v2 A_llist_a_llist_prod$)) (= (fun_app$r (fun_app$aj uncurry$c ?v0) (fun_app$w (fun_app$ab uncurry$ ?v1) ?v2)) (fun_app$r (fun_app$aj uncurry$c (fun_app$ai (uuy$ ?v0) ?v1)) ?v2))) :named a236))
-(assert (! (forall ((?v0 A_llist_a_llist_bool_fun_fun$) (?v1 A_llist_a_llist_a_llist_a_llist_prod_fun_fun$) (?v2 A_llist_a_llist_prod$)) (= (fun_app$h (fun_app$ad uncurry$a ?v0) (fun_app$w (fun_app$ab uncurry$ ?v1) ?v2)) (fun_app$h (fun_app$ad uncurry$a (fun_app$ac (uuz$ ?v0) ?v1)) ?v2))) :named a237))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_prod$)) (= (= ?v0 ?v0) (fun_app$j (fun_app$al uncurry$d uva$) ?v0))) :named a238))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$)) (= (= ?v0 ?v0) (fun_app$h (fun_app$ad uncurry$a uvb$) ?v0))) :named a239))
-(assert (! (forall ((?v0 A_llist_a_llist_a_llist_a_llist_prod_set_fun_fun$) (?v1 A_llist$) (?v2 A_llist$)) (! (= (fun_app$x (fun_app$ah uncurry$b ?v0) (pair$ ?v1 ?v2)) (fun_app$n (fun_app$o ?v0 ?v1) ?v2)) :pattern ((fun_app$x (fun_app$ah uncurry$b ?v0) (pair$ ?v1 ?v2))))) :named a240))
-(assert (! (forall ((?v0 A_llist_a_llist_a_llist_a_llist_prod_fun_fun$) (?v1 A_llist$) (?v2 A_llist$)) (! (= (fun_app$w (fun_app$ab uncurry$ ?v0) (pair$ ?v1 ?v2)) (fun_app$d (fun_app$e ?v0 ?v1) ?v2)) :pattern ((fun_app$w (fun_app$ab uncurry$ ?v0) (pair$ ?v1 ?v2))))) :named a241))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$) (?v1 A_llist_a_llist_prod$) (?v2 A_llist_a_llist_prod$)) (! (= (fun_app$j (fun_app$al uncurry$d ?v0) (pair$b ?v1 ?v2)) (fun_app$h (fun_app$r ?v0 ?v1) ?v2)) :pattern ((fun_app$j (fun_app$al uncurry$d ?v0) (pair$b ?v1 ?v2))))) :named a242))
-(assert (! (forall ((?v0 A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun$) (?v1 A_llist$) (?v2 A_llist$)) (! (= (fun_app$r (fun_app$aj uncurry$c ?v0) (pair$ ?v1 ?v2)) (fun_app$p (fun_app$q ?v0 ?v1) ?v2)) :pattern ((fun_app$r (fun_app$aj uncurry$c ?v0) (pair$ ?v1 ?v2))))) :named a243))
-(assert (! (forall ((?v0 A_llist_a_llist_bool_fun_fun$) (?v1 A_llist$) (?v2 A_llist$)) (! (= (fun_app$h (fun_app$ad uncurry$a ?v0) (pair$ ?v1 ?v2)) (fun_app$l (fun_app$m ?v0 ?v1) ?v2)) :pattern ((fun_app$h (fun_app$ad uncurry$a ?v0) (pair$ ?v1 ?v2))))) :named a244))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$) (?v1 A_llist_a_llist_prod_a_llist_a_llist_prod_prod$)) (=> (and (fun_app$j (fun_app$al uncurry$d ?v0) ?v1) (forall ((?v2 A_llist_a_llist_prod$) (?v3 A_llist_a_llist_prod$)) (=> (and (= ?v1 (pair$b ?v2 ?v3)) (fun_app$h (fun_app$r ?v0 ?v2) ?v3)) false))) false)) :named a245))
-(assert (! (forall ((?v0 A_llist_a_llist_bool_fun_fun$) (?v1 A_llist_a_llist_prod$)) (=> (and (fun_app$h (fun_app$ad uncurry$a ?v0) ?v1) (forall ((?v2 A_llist$) (?v3 A_llist$)) (=> (and (= ?v1 (pair$ ?v2 ?v3)) (fun_app$l (fun_app$m ?v0 ?v2) ?v3)) false))) false)) :named a246))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_prod$) (?v1 A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$)) (=> (forall ((?v2 A_llist_a_llist_prod$) (?v3 A_llist_a_llist_prod$)) (=> (= ?v0 (pair$b ?v2 ?v3)) (fun_app$h (fun_app$r ?v1 ?v2) ?v3))) (fun_app$j (fun_app$al uncurry$d ?v1) ?v0))) :named a247))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_bool_fun_fun$)) (=> (forall ((?v2 A_llist$) (?v3 A_llist$)) (=> (= ?v0 (pair$ ?v2 ?v3)) (fun_app$l (fun_app$m ?v1 ?v2) ?v3))) (fun_app$h (fun_app$ad uncurry$a ?v1) ?v0))) :named a248))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_set_bool_fun$) (?v1 A_llist_a_llist_a_llist_a_llist_prod_set_fun_fun$) (?v2 A_llist_a_llist_prod$)) (=> (and (fun_app$i ?v0 (fun_app$x (fun_app$ah uncurry$b ?v1) ?v2)) (forall ((?v3 A_llist$) (?v4 A_llist$)) (=> (and (= ?v2 (pair$ ?v3 ?v4)) (fun_app$i ?v0 (fun_app$n (fun_app$o ?v1 ?v3) ?v4))) false))) false)) :named a249))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_bool_fun$) (?v1 A_llist_a_llist_a_llist_a_llist_prod_fun_fun$) (?v2 A_llist_a_llist_prod$)) (=> (and (fun_app$h ?v0 (fun_app$w (fun_app$ab uncurry$ ?v1) ?v2)) (forall ((?v3 A_llist$) (?v4 A_llist$)) (=> (and (= ?v2 (pair$ ?v3 ?v4)) (fun_app$h ?v0 (fun_app$d (fun_app$e ?v1 ?v3) ?v4))) false))) false)) :named a250))
-(assert (! (forall ((?v0 Bool_bool_fun$) (?v1 A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$) (?v2 A_llist_a_llist_prod_a_llist_a_llist_prod_prod$)) (=> (and (fun_app$az ?v0 (fun_app$j (fun_app$al uncurry$d ?v1) ?v2)) (forall ((?v3 A_llist_a_llist_prod$) (?v4 A_llist_a_llist_prod$)) (=> (and (= ?v2 (pair$b ?v3 ?v4)) (fun_app$az ?v0 (fun_app$h (fun_app$r ?v1 ?v3) ?v4))) false))) false)) :named a251))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_bool_fun_bool_fun$) (?v1 A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun$) (?v2 A_llist_a_llist_prod$)) (=> (and (fun_app$bk ?v0 (fun_app$r (fun_app$aj uncurry$c ?v1) ?v2)) (forall ((?v3 A_llist$) (?v4 A_llist$)) (=> (and (= ?v2 (pair$ ?v3 ?v4)) (fun_app$bk ?v0 (fun_app$p (fun_app$q ?v1 ?v3) ?v4))) false))) false)) :named a252))
-(assert (! (forall ((?v0 Bool_bool_fun$) (?v1 A_llist_a_llist_bool_fun_fun$) (?v2 A_llist_a_llist_prod$)) (=> (and (fun_app$az ?v0 (fun_app$h (fun_app$ad uncurry$a ?v1) ?v2)) (forall ((?v3 A_llist$) (?v4 A_llist$)) (=> (and (= ?v2 (pair$ ?v3 ?v4)) (fun_app$az ?v0 (fun_app$l (fun_app$m ?v1 ?v3) ?v4))) false))) false)) :named a253))
-(assert (! (forall ((?v0 Bool_bool_fun$) (?v1 Bool) (?v2 A_a_llist_bool_fun_fun$) (?v3 A_llist$)) (= (fun_app$az ?v0 (fun_app$l (fun_app$ci (case_llist$ ?v1) ?v2) ?v3)) (and (=> (= ?v3 lNil$) (fun_app$az ?v0 ?v1)) (=> (= ?v3 (lCons$ (lhd$ ?v3) (ltl$ ?v3))) (fun_app$az ?v0 (fun_app$l (fun_app$as ?v2 (lhd$ ?v3)) (ltl$ ?v3))))))) :named a254))
-(assert (! (forall ((?v0 A_llist_bool_fun$) (?v1 A_llist$) (?v2 A_a_llist_a_llist_fun_fun$) (?v3 A_llist$)) (= (fun_app$l ?v0 (fun_app$a (fun_app$cj (case_llist$a ?v1) ?v2) ?v3)) (and (=> (= ?v3 lNil$) (fun_app$l ?v0 ?v1)) (=> (= ?v3 (lCons$ (lhd$ ?v3) (ltl$ ?v3))) (fun_app$l ?v0 (fun_app$a (fun_app$v ?v2 (lhd$ ?v3)) (ltl$ ?v3))))))) :named a255))
-(assert (! (forall ((?v0 A_bool_fun$) (?v1 A$) (?v2 A_a_llist_a_fun_fun$) (?v3 A_llist$)) (= (fun_app$k ?v0 (fun_app$c (fun_app$ck (case_llist$b ?v1) ?v2) ?v3)) (and (=> (= ?v3 lNil$) (fun_app$k ?v0 ?v1)) (=> (= ?v3 (lCons$ (lhd$ ?v3) (ltl$ ?v3))) (fun_app$k ?v0 (fun_app$c (fun_app$au ?v2 (lhd$ ?v3)) (ltl$ ?v3))))))) :named a256))
-(assert (! (forall ((?v0 Bool_bool_fun$) (?v1 Bool) (?v2 A_a_llist_bool_fun_fun$) (?v3 A_llist$)) (= (fun_app$az ?v0 (fun_app$l (fun_app$ci (case_llist$ ?v1) ?v2) ?v3)) (not (or (and (= ?v3 lNil$) (not (fun_app$az ?v0 ?v1))) (and (= ?v3 (lCons$ (lhd$ ?v3) (ltl$ ?v3))) (not (fun_app$az ?v0 (fun_app$l (fun_app$as ?v2 (lhd$ ?v3)) (ltl$ ?v3))))))))) :named a257))
-(assert (! (forall ((?v0 A_llist_bool_fun$) (?v1 A_llist$) (?v2 A_a_llist_a_llist_fun_fun$) (?v3 A_llist$)) (= (fun_app$l ?v0 (fun_app$a (fun_app$cj (case_llist$a ?v1) ?v2) ?v3)) (not (or (and (= ?v3 lNil$) (not (fun_app$l ?v0 ?v1))) (and (= ?v3 (lCons$ (lhd$ ?v3) (ltl$ ?v3))) (not (fun_app$l ?v0 (fun_app$a (fun_app$v ?v2 (lhd$ ?v3)) (ltl$ ?v3))))))))) :named a258))
-(assert (! (forall ((?v0 A_bool_fun$) (?v1 A$) (?v2 A_a_llist_a_fun_fun$) (?v3 A_llist$)) (= (fun_app$k ?v0 (fun_app$c (fun_app$ck (case_llist$b ?v1) ?v2) ?v3)) (not (or (and (= ?v3 lNil$) (not (fun_app$k ?v0 ?v1))) (and (= ?v3 (lCons$ (lhd$ ?v3) (ltl$ ?v3))) (not (fun_app$k ?v0 (fun_app$c (fun_app$au ?v2 (lhd$ ?v3)) (ltl$ ?v3))))))))) :named a259))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_a_llist_a_llist_prod_set_fun_fun$) (?v2 A_llist_a_llist_a_llist_a_llist_prod_set_fun_fun$) (?v3 A_llist_a_llist_prod$)) (=> (and (forall ((?v4 A_llist$) (?v5 A_llist$)) (=> (= (pair$ ?v4 ?v5) ?v0) (= (fun_app$n (fun_app$o ?v1 ?v4) ?v5) (fun_app$n (fun_app$o ?v2 ?v4) ?v5)))) (= ?v3 ?v0)) (= (fun_app$x (fun_app$ah uncurry$b ?v1) ?v3) (fun_app$x (fun_app$ah uncurry$b ?v2) ?v0)))) :named a260))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_a_llist_a_llist_prod_fun_fun$) (?v2 A_llist_a_llist_a_llist_a_llist_prod_fun_fun$) (?v3 A_llist_a_llist_prod$)) (=> (and (forall ((?v4 A_llist$) (?v5 A_llist$)) (=> (= (pair$ ?v4 ?v5) ?v0) (= (fun_app$d (fun_app$e ?v1 ?v4) ?v5) (fun_app$d (fun_app$e ?v2 ?v4) ?v5)))) (= ?v3 ?v0)) (= (fun_app$w (fun_app$ab uncurry$ ?v1) ?v3) (fun_app$w (fun_app$ab uncurry$ ?v2) ?v0)))) :named a261))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_prod$) (?v1 A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$) (?v2 A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$) (?v3 A_llist_a_llist_prod_a_llist_a_llist_prod_prod$)) (=> (and (forall ((?v4 A_llist_a_llist_prod$) (?v5 A_llist_a_llist_prod$)) (=> (= (pair$b ?v4 ?v5) ?v0) (= (fun_app$h (fun_app$r ?v1 ?v4) ?v5) (fun_app$h (fun_app$r ?v2 ?v4) ?v5)))) (= ?v3 ?v0)) (= (fun_app$j (fun_app$al uncurry$d ?v1) ?v3) (fun_app$j (fun_app$al uncurry$d ?v2) ?v0)))) :named a262))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun$) (?v2 A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun$) (?v3 A_llist_a_llist_prod$)) (=> (and (forall ((?v4 A_llist$) (?v5 A_llist$)) (=> (= (pair$ ?v4 ?v5) ?v0) (= (fun_app$p (fun_app$q ?v1 ?v4) ?v5) (fun_app$p (fun_app$q ?v2 ?v4) ?v5)))) (= ?v3 ?v0)) (= (fun_app$r (fun_app$aj uncurry$c ?v1) ?v3) (fun_app$r (fun_app$aj uncurry$c ?v2) ?v0)))) :named a263))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_bool_fun_fun$) (?v2 A_llist_a_llist_bool_fun_fun$) (?v3 A_llist_a_llist_prod$)) (=> (and (forall ((?v4 A_llist$) (?v5 A_llist$)) (=> (= (pair$ ?v4 ?v5) ?v0) (= (fun_app$l (fun_app$m ?v1 ?v4) ?v5) (fun_app$l (fun_app$m ?v2 ?v4) ?v5)))) (= ?v3 ?v0)) (= (fun_app$h (fun_app$ad uncurry$a ?v1) ?v3) (fun_app$h (fun_app$ad uncurry$a ?v2) ?v0)))) :named a264))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$)) (= (unfold_llist$ lnull$a uvc$ uvd$ ?v0) ?v0)) :named a265))
-(assert (! (forall ((?v0 A_llist$)) (= (fun_app$a (fun_app$cl (fun_app$cm (unfold_llist$a lnull$) uve$) uvf$) ?v0) ?v0)) :named a266))
-(assert (! (forall ((?v0 Bool) (?v1 A_a_llist_bool_fun_fun$) (?v2 A_llist$)) (! (= (fun_app$l (fun_app$ci (case_llist$ ?v0) ?v1) ?v2) (ite (fun_app$l lnull$ ?v2) ?v0 (fun_app$l (fun_app$as ?v1 (lhd$ ?v2)) (ltl$ ?v2)))) :pattern ((fun_app$l (fun_app$ci (case_llist$ ?v0) ?v1) ?v2)))) :named a267))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_a_llist_a_llist_fun_fun$) (?v2 A_llist$)) (! (= (fun_app$a (fun_app$cj (case_llist$a ?v0) ?v1) ?v2) (ite (fun_app$l lnull$ ?v2) ?v0 (fun_app$a (fun_app$v ?v1 (lhd$ ?v2)) (ltl$ ?v2)))) :pattern ((fun_app$a (fun_app$cj (case_llist$a ?v0) ?v1) ?v2)))) :named a268))
-(assert (! (forall ((?v0 A$) (?v1 A_a_llist_a_fun_fun$) (?v2 A_llist$)) (! (= (fun_app$c (fun_app$ck (case_llist$b ?v0) ?v1) ?v2) (ite (fun_app$l lnull$ ?v2) ?v0 (fun_app$c (fun_app$au ?v1 (lhd$ ?v2)) (ltl$ ?v2)))) :pattern ((fun_app$c (fun_app$ck (case_llist$b ?v0) ?v1) ?v2)))) :named a269))
-(assert (! (forall ((?v0 A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun$) (?v1 A_llist_a_llist_prod$) (?v2 A_llist_a_llist_prod$)) (= (fun_app$h (fun_app$r (fun_app$aj uncurry$c ?v0) ?v1) ?v2) (fun_app$h (fun_app$ad uncurry$a (fun_app$y (uvg$ ?v0) ?v2)) ?v1))) :named a270))
-(assert (! (= internal_split$ uncurry$b) :named a271))
-(assert (! (= internal_split$a uncurry$) :named a272))
-(assert (! (= internal_split$b uncurry$d) :named a273))
-(assert (! (= internal_split$c uncurry$c) :named a274))
-(assert (! (= internal_split$d uncurry$a) :named a275))
-(assert (! (forall ((?v0 A_llist_bool_fun$) (?v1 A_llist_a_fun$) (?v2 A_llist_a_llist_fun$) (?v3 A_llist$)) (= (not (fun_app$l lnull$ (fun_app$a (fun_app$cl (fun_app$cm (unfold_llist$a ?v0) ?v1) ?v2) ?v3))) (not (fun_app$l ?v0 ?v3)))) :named a276))
-(assert (! (forall ((?v0 A_llist_bool_fun$) (?v1 A_llist_a_fun$) (?v2 A_llist_a_llist_fun$) (?v3 A_llist$)) (= (fun_app$l lnull$ (fun_app$a (fun_app$cl (fun_app$cm (unfold_llist$a ?v0) ?v1) ?v2) ?v3)) (fun_app$l ?v0 ?v3))) :named a277))
-(assert (! (forall ((?v0 A_llist_bool_fun$) (?v1 A_llist_a_fun$) (?v2 A_llist_a_llist_fun$) (?v3 A_llist$) (?v4 A$) (?v5 A_llist$)) (= (= (fun_app$a (fun_app$cl (fun_app$cm (unfold_llist$a ?v0) ?v1) ?v2) ?v3) (lCons$ ?v4 ?v5)) (and (not (fun_app$l ?v0 ?v3)) (and (= ?v4 (fun_app$c ?v1 ?v3)) (= ?v5 (fun_app$a (fun_app$cl (fun_app$cm (unfold_llist$a ?v0) ?v1) ?v2) (fun_app$a ?v2 ?v3))))))) :named a278))
-(assert (! (forall ((?v0 Bool_bool_fun$) (?v1 Bool) (?v2 A_a_llist_bool_fun_fun$) (?v3 A_llist$)) (= (fun_app$az ?v0 (fun_app$l (fun_app$ci (case_llist$ ?v1) ?v2) ?v3)) (fun_app$l (fun_app$ci (case_llist$ (fun_app$az ?v0 ?v1)) (fun_app$ba (uvh$ ?v0) ?v2)) ?v3))) :named a279))
-(assert (! (forall ((?v0 Bool_a_llist_fun$) (?v1 Bool) (?v2 A_a_llist_bool_fun_fun$) (?v3 A_llist$)) (= (fun_app$ax ?v0 (fun_app$l (fun_app$ci (case_llist$ ?v1) ?v2) ?v3)) (fun_app$a (fun_app$cj (case_llist$a (fun_app$ax ?v0 ?v1)) (fun_app$aw (uvi$ ?v0) ?v2)) ?v3))) :named a280))
-(assert (! (forall ((?v0 Bool_a_fun$) (?v1 Bool) (?v2 A_a_llist_bool_fun_fun$) (?v3 A_llist$)) (= (fun_app$bg ?v0 (fun_app$l (fun_app$ci (case_llist$ ?v1) ?v2) ?v3)) (fun_app$c (fun_app$ck (case_llist$b (fun_app$bg ?v0 ?v1)) (fun_app$bf (uvj$ ?v0) ?v2)) ?v3))) :named a281))
-(assert (! (forall ((?v0 A_llist_bool_fun$) (?v1 A_llist$) (?v2 A_a_llist_a_llist_fun_fun$) (?v3 A_llist$)) (= (fun_app$l ?v0 (fun_app$a (fun_app$cj (case_llist$a ?v1) ?v2) ?v3)) (fun_app$l (fun_app$ci (case_llist$ (fun_app$l ?v0 ?v1)) (fun_app$at (uvk$ ?v0) ?v2)) ?v3))) :named a282))
-(assert (! (forall ((?v0 A_llist_a_llist_fun$) (?v1 A_llist$) (?v2 A_a_llist_a_llist_fun_fun$) (?v3 A_llist$)) (= (fun_app$a ?v0 (fun_app$a (fun_app$cj (case_llist$a ?v1) ?v2) ?v3)) (fun_app$a (fun_app$cj (case_llist$a (fun_app$a ?v0 ?v1)) (fun_app$ar (uvl$ ?v0) ?v2)) ?v3))) :named a283))
-(assert (! (forall ((?v0 A_llist_a_fun$) (?v1 A_llist$) (?v2 A_a_llist_a_llist_fun_fun$) (?v3 A_llist$)) (= (fun_app$c ?v0 (fun_app$a (fun_app$cj (case_llist$a ?v1) ?v2) ?v3)) (fun_app$c (fun_app$ck (case_llist$b (fun_app$c ?v0 ?v1)) (fun_app$av (uvm$ ?v0) ?v2)) ?v3))) :named a284))
-(assert (! (forall ((?v0 A_bool_fun$) (?v1 A$) (?v2 A_a_llist_a_fun_fun$) (?v3 A_llist$)) (= (fun_app$k ?v0 (fun_app$c (fun_app$ck (case_llist$b ?v1) ?v2) ?v3)) (fun_app$l (fun_app$ci (case_llist$ (fun_app$k ?v0 ?v1)) (fun_app$bn (uvn$ ?v0) ?v2)) ?v3))) :named a285))
-(assert (! (forall ((?v0 A_a_llist_fun$) (?v1 A$) (?v2 A_a_llist_a_fun_fun$) (?v3 A_llist$)) (= (fun_app$bm ?v0 (fun_app$c (fun_app$ck (case_llist$b ?v1) ?v2) ?v3)) (fun_app$a (fun_app$cj (case_llist$a (fun_app$bm ?v0 ?v1)) (fun_app$bl (uvo$ ?v0) ?v2)) ?v3))) :named a286))
-(assert (! (forall ((?v0 A_a_fun$) (?v1 A$) (?v2 A_a_llist_a_fun_fun$) (?v3 A_llist$)) (= (fun_app$bp ?v0 (fun_app$c (fun_app$ck (case_llist$b ?v1) ?v2) ?v3)) (fun_app$c (fun_app$ck (case_llist$b (fun_app$bp ?v0 ?v1)) (fun_app$bo (uvp$ ?v0) ?v2)) ?v3))) :named a287))
-(assert (! (forall ((?v0 A_llist_bool_fun$) (?v1 A_llist$) (?v2 A_llist_a_fun$) (?v3 A_llist_a_llist_fun$)) (=> (not (fun_app$l ?v0 ?v1)) (not (fun_app$l lnull$ (fun_app$a (fun_app$cl (fun_app$cm (unfold_llist$a ?v0) ?v2) ?v3) ?v1))))) :named a288))
-(assert (! (forall ((?v0 A_llist_bool_fun$) (?v1 A_llist$) (?v2 A_llist_a_fun$) (?v3 A_llist_a_llist_fun$)) (=> (fun_app$l ?v0 ?v1) (fun_app$l lnull$ (fun_app$a (fun_app$cl (fun_app$cm (unfold_llist$a ?v0) ?v2) ?v3) ?v1)))) :named a289))
-(assert (! (forall ((?v0 A_llist_bool_fun$) (?v1 A_llist$) (?v2 A_llist_a_fun$) (?v3 A_llist_a_llist_fun$)) (=> (not (fun_app$l ?v0 ?v1)) (= (fun_app$a (fun_app$cl (fun_app$cm (unfold_llist$a ?v0) ?v2) ?v3) ?v1) (lCons$ (fun_app$c ?v2 ?v1) (fun_app$a (fun_app$cl (fun_app$cm (unfold_llist$a ?v0) ?v2) ?v3) (fun_app$a ?v3 ?v1)))))) :named a290))
-(assert (! (forall ((?v0 A_llist_bool_fun$) (?v1 A_llist$) (?v2 A_llist_a_fun$) (?v3 A_llist_a_llist_fun$)) (! (=> (fun_app$l ?v0 ?v1) (= (fun_app$a (fun_app$cl (fun_app$cm (unfold_llist$a ?v0) ?v2) ?v3) ?v1) lNil$)) :pattern ((fun_app$a (fun_app$cl (fun_app$cm (unfold_llist$a ?v0) ?v2) ?v3) ?v1)))) :named a291))
-(assert (! (forall ((?v0 A_llist_bool_fun$) (?v1 A_llist$) (?v2 A_llist_a_fun$) (?v3 A_llist_a_llist_fun$)) (=> (not (fun_app$l ?v0 ?v1)) (= (ltl$ (fun_app$a (fun_app$cl (fun_app$cm (unfold_llist$a ?v0) ?v2) ?v3) ?v1)) (fun_app$a (fun_app$cl (fun_app$cm (unfold_llist$a ?v0) ?v2) ?v3) (fun_app$a ?v3 ?v1))))) :named a292))
-(assert (! (forall ((?v0 A_llist_bool_fun$) (?v1 A_llist$) (?v2 A_llist_a_fun$) (?v3 A_llist_a_llist_fun$)) (=> (not (fun_app$l ?v0 ?v1)) (= (lhd$ (fun_app$a (fun_app$cl (fun_app$cm (unfold_llist$a ?v0) ?v2) ?v3) ?v1)) (fun_app$c ?v2 ?v1)))) :named a293))
-(assert (! (forall ((?v0 Bool) (?v1 A_a_llist_bool_fun_fun$) (?v2 A$) (?v3 A_llist$)) (! (= (fun_app$l (fun_app$ci (case_llist$ ?v0) ?v1) (lCons$ ?v2 ?v3)) (fun_app$l (fun_app$as ?v1 ?v2) ?v3)) :pattern ((fun_app$l (fun_app$ci (case_llist$ ?v0) ?v1) (lCons$ ?v2 ?v3))))) :named a294))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_a_llist_a_llist_fun_fun$) (?v2 A$) (?v3 A_llist$)) (! (= (fun_app$a (fun_app$cj (case_llist$a ?v0) ?v1) (lCons$ ?v2 ?v3)) (fun_app$a (fun_app$v ?v1 ?v2) ?v3)) :pattern ((fun_app$a (fun_app$cj (case_llist$a ?v0) ?v1) (lCons$ ?v2 ?v3))))) :named a295))
-(assert (! (forall ((?v0 A$) (?v1 A_a_llist_a_fun_fun$) (?v2 A$) (?v3 A_llist$)) (! (= (fun_app$c (fun_app$ck (case_llist$b ?v0) ?v1) (lCons$ ?v2 ?v3)) (fun_app$c (fun_app$au ?v1 ?v2) ?v3)) :pattern ((fun_app$c (fun_app$ck (case_llist$b ?v0) ?v1) (lCons$ ?v2 ?v3))))) :named a296))
-(assert (! (forall ((?v0 Bool) (?v1 A_a_llist_bool_fun_fun$)) (! (= (fun_app$l (fun_app$ci (case_llist$ ?v0) ?v1) lNil$) ?v0) :pattern ((fun_app$ci (case_llist$ ?v0) ?v1)))) :named a297))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_a_llist_a_llist_fun_fun$)) (! (= (fun_app$a (fun_app$cj (case_llist$a ?v0) ?v1) lNil$) ?v0) :pattern ((fun_app$cj (case_llist$a ?v0) ?v1)))) :named a298))
-(assert (! (forall ((?v0 A$) (?v1 A_a_llist_a_fun_fun$)) (! (= (fun_app$c (fun_app$ck (case_llist$b ?v0) ?v1) lNil$) ?v0) :pattern ((fun_app$ck (case_llist$b ?v0) ?v1)))) :named a299))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$)) (= (not (fun_app$bw lnull$a ?v0)) (fun_app$bw (fun_app$cn (case_llist$c false) uvq$) ?v0))) :named a300))
-(assert (! (forall ((?v0 A_llist$)) (= (not (fun_app$l lnull$ ?v0)) (fun_app$l (fun_app$ci (case_llist$ false) uvr$) ?v0))) :named a301))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$)) (! (= (fun_app$bw lnull$a ?v0) (fun_app$bw (fun_app$cn (case_llist$c true) uvs$) ?v0)) :pattern ((fun_app$bw lnull$a ?v0)))) :named a302))
-(assert (! (forall ((?v0 A_llist$)) (! (= (fun_app$l lnull$ ?v0) (fun_app$l (fun_app$ci (case_llist$ true) uvt$) ?v0)) :pattern ((fun_app$l lnull$ ?v0)))) :named a303))
-(assert (! (forall ((?v0 A_llist_bool_fun$) (?v1 A_llist_a_fun$) (?v2 A_llist_a_llist_fun$) (?v3 A_llist$)) (= (fun_app$a (fun_app$cl (fun_app$cm (unfold_llist$a ?v0) ?v1) ?v2) ?v3) (ite (fun_app$l ?v0 ?v3) lNil$ (lCons$ (fun_app$c ?v1 ?v3) (fun_app$a (fun_app$cl (fun_app$cm (unfold_llist$a ?v0) ?v1) ?v2) (fun_app$a ?v2 ?v3)))))) :named a304))
-(assert (! (forall ((?v0 A_llist_bool_fun$) (?v1 A_llist_a_fun$) (?v2 A_llist_a_llist_fun$) (?v3 A_llist$)) (= (ltl$ (fun_app$a (fun_app$cl (fun_app$cm (unfold_llist$a ?v0) ?v1) ?v2) ?v3)) (ite (fun_app$l ?v0 ?v3) lNil$ (fun_app$a (fun_app$cl (fun_app$cm (unfold_llist$a ?v0) ?v1) ?v2) (fun_app$a ?v2 ?v3))))) :named a305))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$)) (= (ltl$a ?v0) (case_llist$d lNil$a uvu$ ?v0))) :named a306))
-(assert (! (forall ((?v0 A_llist$)) (= (ltl$ ?v0) (fun_app$a (fun_app$cj (case_llist$a lNil$) uvv$) ?v0))) :named a307))
-(assert (! (forall ((?v0 A_llist_a_llist_bool_fun_fun$) (?v1 A_llist$) (?v2 A_llist$)) (! (= (fun_app$h (fun_app$ad internal_split$d ?v0) (pair$ ?v1 ?v2)) (fun_app$l (fun_app$m ?v0 ?v1) ?v2)) :pattern ((fun_app$h (fun_app$ad internal_split$d ?v0) (pair$ ?v1 ?v2))))) :named a308))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_prod$)) (! (= (uncurry$l uvw$ ?v0) ?v0) :pattern ((uncurry$l uvw$ ?v0)))) :named a309))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$)) (! (= (fun_app$w (fun_app$ab uncurry$ uvx$) ?v0) ?v0) :pattern ((fun_app$w (fun_app$ab uncurry$ uvx$) ?v0)))) :named a310))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_prod_set$) (?v1 A_llist_a_llist_prod_a_llist_a_llist_prod_prod_set$)) (= (= (uvy$ ?v0) (uvy$ ?v1)) (= ?v0 ?v1))) :named a311))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_set$) (?v1 A_llist_a_llist_prod_set$)) (= (= (uvz$ ?v0) (uvz$ ?v1)) (= ?v0 ?v1))) :named a312))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$) (?v1 A_llist_a_llist_prod_llist$)) (=> (or (not (fun_app$bw lnull$a ?v0)) (not (fun_app$bw lnull$a ?v1))) (= (lhd$a (fun_app$ (lappend$ ?v0) ?v1)) (case_llist$e (lhd$a ?v1) uwa$ ?v0)))) :named a313))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_llist$)) (=> (or (not (fun_app$l lnull$ ?v0)) (not (fun_app$l lnull$ ?v1))) (= (lhd$ (fun_app$a (lappend$a ?v0) ?v1)) (fun_app$c (fun_app$ck (case_llist$b (lhd$ ?v1)) uwb$) ?v0)))) :named a314))
-(assert (! (forall ((?v0 A_bool_fun$) (?v1 A$) (?v2 A_llist$)) (! (= (fun_app$l (pred_llist$ ?v0) (lCons$ ?v1 ?v2)) (and (fun_app$k ?v0 ?v1) (fun_app$l (pred_llist$ ?v0) ?v2))) :pattern ((fun_app$l (pred_llist$ ?v0) (lCons$ ?v1 ?v2))))) :named a315))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_bool_fun$) (?v1 A_llist_a_llist_prod$) (?v2 A_llist_a_llist_prod_llist$)) (! (= (fun_app$bw (pred_llist$a ?v0) (lCons$a ?v1 ?v2)) (and (fun_app$h ?v0 ?v1) (fun_app$bw (pred_llist$a ?v0) ?v2))) :pattern ((fun_app$bw (pred_llist$a ?v0) (lCons$a ?v1 ?v2))))) :named a316))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$)) (! (= (fun_app$bw (lmember$ ?v0) lNil$a) false) :pattern ((lmember$ ?v0)))) :named a317))
-(assert (! (forall ((?v0 A$)) (! (= (fun_app$l (lmember$a ?v0) lNil$) false) :pattern ((lmember$a ?v0)))) :named a318))
-(assert (! (forall ((?v0 A_llist_a_llist_a_llist_a_llist_prod_set_fun_fun$) (?v1 A_llist_a_llist_prod$)) (= (fun_app$x (fun_app$ah uncurry$b (uwc$ ?v0)) (swap$ ?v1)) (fun_app$x (fun_app$ah uncurry$b ?v0) ?v1))) :named a319))
-(assert (! (forall ((?v0 A_llist_a_llist_a_llist_a_llist_prod_fun_fun$) (?v1 A_llist_a_llist_prod$)) (= (fun_app$w (fun_app$ab uncurry$ (uwd$ ?v0)) (swap$ ?v1)) (fun_app$w (fun_app$ab uncurry$ ?v0) ?v1))) :named a320))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$) (?v1 A_llist_a_llist_prod_a_llist_a_llist_prod_prod$)) (= (fun_app$j (fun_app$al uncurry$d (uwe$ ?v0)) (swap$a ?v1)) (fun_app$j (fun_app$al uncurry$d ?v0) ?v1))) :named a321))
-(assert (! (forall ((?v0 A_llist_a_llist_a_llist_a_llist_prod_bool_fun_fun_fun$) (?v1 A_llist_a_llist_prod$)) (= (fun_app$r (fun_app$aj uncurry$c (uwf$ ?v0)) (swap$ ?v1)) (fun_app$r (fun_app$aj uncurry$c ?v0) ?v1))) :named a322))
-(assert (! (forall ((?v0 A_llist_a_llist_bool_fun_fun$) (?v1 A_llist_a_llist_prod$)) (= (fun_app$h (fun_app$ad uncurry$a (uwg$ ?v0)) (swap$ ?v1)) (fun_app$h (fun_app$ad uncurry$a ?v0) ?v1))) :named a323))
-(assert (! (forall ((?v0 A$) (?v1 A$) (?v2 A_llist$)) (! (= (fun_app$l (lmember$a ?v0) (lCons$ ?v1 ?v2)) (or (= ?v0 ?v1) (fun_app$l (lmember$a ?v0) ?v2))) :pattern ((fun_app$l (lmember$a ?v0) (lCons$ ?v1 ?v2))))) :named a324))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod$) (?v2 A_llist_a_llist_prod_llist$)) (! (= (fun_app$bw (lmember$ ?v0) (lCons$a ?v1 ?v2)) (or (= ?v0 ?v1) (fun_app$bw (lmember$ ?v0) ?v2))) :pattern ((fun_app$bw (lmember$ ?v0) (lCons$a ?v1 ?v2))))) :named a325))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$)) (= (swap$ (swap$ ?v0)) ?v0)) :named a326))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$) (?v1 A_llist_a_llist_prod_llist$)) (= (fun_app$bw lnull$a (fun_app$ (lappend$ ?v0) ?v1)) (and (fun_app$bw lnull$a ?v0) (fun_app$bw lnull$a ?v1)))) :named a327))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_llist$)) (= (fun_app$l lnull$ (fun_app$a (lappend$a ?v0) ?v1)) (and (fun_app$l lnull$ ?v0) (fun_app$l lnull$ ?v1)))) :named a328))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$) (?v1 A_llist_a_llist_prod_llist$)) (= (not (fun_app$bw lnull$a (fun_app$ (lappend$ ?v0) ?v1))) (or (not (fun_app$bw lnull$a ?v0)) (not (fun_app$bw lnull$a ?v1))))) :named a329))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_llist$)) (= (not (fun_app$l lnull$ (fun_app$a (lappend$a ?v0) ?v1))) (or (not (fun_app$l lnull$ ?v0)) (not (fun_app$l lnull$ ?v1))))) :named a330))
-(assert (! (forall ((?v0 A$) (?v1 A_llist$) (?v2 A_llist$)) (! (= (fun_app$a (lappend$a (lCons$ ?v0 ?v1)) ?v2) (lCons$ ?v0 (fun_app$a (lappend$a ?v1) ?v2))) :pattern ((fun_app$a (lappend$a (lCons$ ?v0 ?v1)) ?v2)))) :named a331))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod_llist$) (?v2 A_llist_a_llist_prod_llist$)) (! (= (fun_app$ (lappend$ (lCons$a ?v0 ?v1)) ?v2) (lCons$a ?v0 (fun_app$ (lappend$ ?v1) ?v2))) :pattern ((fun_app$ (lappend$ (lCons$a ?v0 ?v1)) ?v2)))) :named a332))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$)) (! (= (fun_app$ (lappend$ lNil$a) ?v0) ?v0) :pattern ((fun_app$ (lappend$ lNil$a) ?v0)))) :named a333))
-(assert (! (forall ((?v0 A_llist$)) (! (= (fun_app$a (lappend$a lNil$) ?v0) ?v0) :pattern ((fun_app$a (lappend$a lNil$) ?v0)))) :named a334))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$)) (! (= (fun_app$ (lappend$ ?v0) lNil$a) ?v0) :pattern ((lappend$ ?v0)))) :named a335))
-(assert (! (forall ((?v0 A_llist$)) (! (= (fun_app$a (lappend$a ?v0) lNil$) ?v0) :pattern ((lappend$a ?v0)))) :named a336))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod$)) (= (swap$a (pair$b ?v0 ?v1)) (pair$b ?v1 ?v0))) :named a337))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_llist$)) (= (swap$ (pair$ ?v0 ?v1)) (pair$ ?v1 ?v0))) :named a338))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$) (?v1 A_llist_a_llist_prod_llist$)) (= (ltl$a (fun_app$ (lappend$ ?v0) ?v1)) (ite (fun_app$bw lnull$a ?v0) (ltl$a ?v1) (fun_app$ (lappend$ (ltl$a ?v0)) ?v1)))) :named a339))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_llist$)) (= (ltl$ (fun_app$a (lappend$a ?v0) ?v1)) (ite (fun_app$l lnull$ ?v0) (ltl$ ?v1) (fun_app$a (lappend$a (ltl$ ?v0)) ?v1)))) :named a340))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$) (?v1 A_llist_a_llist_prod_llist$)) (= (lhd$a (fun_app$ (lappend$ ?v0) ?v1)) (ite (fun_app$bw lnull$a ?v0) (lhd$a ?v1) (lhd$a ?v0)))) :named a341))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_llist$)) (= (lhd$ (fun_app$a (lappend$a ?v0) ?v1)) (ite (fun_app$l lnull$ ?v0) (lhd$ ?v1) (lhd$ ?v0)))) :named a342))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_llist$) (?v2 A_llist$)) (= (fun_app$a (lappend$a (fun_app$a (lappend$a ?v0) ?v1)) ?v2) (fun_app$a (lappend$a ?v0) (fun_app$a (lappend$a ?v1) ?v2)))) :named a343))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$) (?v1 A_llist_a_llist_prod_llist$) (?v2 A_llist_a_llist_prod_llist$)) (= (fun_app$ (lappend$ (fun_app$ (lappend$ ?v0) ?v1)) ?v2) (fun_app$ (lappend$ ?v0) (fun_app$ (lappend$ ?v1) ?v2)))) :named a344))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$) (?v1 A_llist_a_llist_prod_llist$)) (! (=> (fun_app$bw lnull$a ?v0) (= (fun_app$ (lappend$ ?v0) ?v1) ?v1)) :pattern ((fun_app$ (lappend$ ?v0) ?v1)))) :named a345))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_llist$)) (! (=> (fun_app$l lnull$ ?v0) (= (fun_app$a (lappend$a ?v0) ?v1) ?v1)) :pattern ((fun_app$a (lappend$a ?v0) ?v1)))) :named a346))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$) (?v1 A_llist_a_llist_prod_llist$)) (! (=> (fun_app$bw lnull$a ?v0) (= (fun_app$ (lappend$ ?v1) ?v0) ?v1)) :pattern ((fun_app$ (lappend$ ?v1) ?v0)))) :named a347))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_llist$)) (! (=> (fun_app$l lnull$ ?v0) (= (fun_app$a (lappend$a ?v1) ?v0) ?v1)) :pattern ((fun_app$a (lappend$a ?v1) ?v0)))) :named a348))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$) (?v1 A_llist_a_llist_prod_llist$)) (=> (and (fun_app$bw lnull$a ?v0) (fun_app$bw lnull$a ?v1)) (fun_app$bw lnull$a (fun_app$ (lappend$ ?v0) ?v1)))) :named a349))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_llist$)) (=> (and (fun_app$l lnull$ ?v0) (fun_app$l lnull$ ?v1)) (fun_app$l lnull$ (fun_app$a (lappend$a ?v0) ?v1)))) :named a350))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$) (?v1 A_llist_a_llist_prod_llist$)) (=> (or (not (fun_app$bw lnull$a ?v0)) (not (fun_app$bw lnull$a ?v1))) (not (fun_app$bw lnull$a (fun_app$ (lappend$ ?v0) ?v1))))) :named a351))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_llist$)) (=> (or (not (fun_app$l lnull$ ?v0)) (not (fun_app$l lnull$ ?v1))) (not (fun_app$l lnull$ (fun_app$a (lappend$a ?v0) ?v1))))) :named a352))
-(assert (! (= (fun_app$ (lappend$ lNil$a) lNil$a) lNil$a) :named a353))
-(assert (! (= (fun_app$a (lappend$a lNil$) lNil$) lNil$) :named a354))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$) (?v1 A_llist_a_llist_prod_llist$)) (= (= (fun_app$ (lappend$ ?v0) ?v1) lNil$a) (and (= ?v0 lNil$a) (= ?v1 lNil$a)))) :named a355))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_llist$)) (= (= (fun_app$a (lappend$a ?v0) ?v1) lNil$) (and (= ?v0 lNil$) (= ?v1 lNil$)))) :named a356))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$) (?v1 A_llist_a_llist_prod_llist$)) (= (= lNil$a (fun_app$ (lappend$ ?v0) ?v1)) (and (= ?v0 lNil$a) (= ?v1 lNil$a)))) :named a357))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_llist$)) (= (= lNil$ (fun_app$a (lappend$a ?v0) ?v1)) (and (= ?v0 lNil$) (= ?v1 lNil$)))) :named a358))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$) (?v1 A_llist_a_llist_prod_llist$)) (= (fun_app$ (lappend$ ?v0) ?v1) (case_llist$d ?v1 (uwh$ ?v1) ?v0))) :named a359))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_llist$)) (= (fun_app$a (lappend$a ?v0) ?v1) (fun_app$a (fun_app$cj (case_llist$a ?v1) (uwi$ ?v1)) ?v0))) :named a360))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$) (?v1 A_llist_a_llist_prod_llist$)) (! (=> (and (fun_app$bw lnull$a ?v0) (fun_app$bw lnull$a ?v1)) (= (fun_app$ (lappend$ ?v0) ?v1) lNil$a)) :pattern ((fun_app$ (lappend$ ?v0) ?v1)))) :named a361))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_llist$)) (! (=> (and (fun_app$l lnull$ ?v0) (fun_app$l lnull$ ?v1)) (= (fun_app$a (lappend$a ?v0) ?v1) lNil$)) :pattern ((fun_app$a (lappend$a ?v0) ?v1)))) :named a362))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$) (?v1 A_llist_a_llist_prod$) (?v2 A_llist_a_llist_prod_llist$)) (= (fun_app$ (lappend$ (fun_app$ (lappend$ ?v0) (lCons$a ?v1 lNil$a))) ?v2) (fun_app$ (lappend$ ?v0) (lCons$a ?v1 ?v2)))) :named a363))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_llist$)) (=> (not (fun_app$l lnull$ ?v0)) (= (fun_app$a (lappend$a (ltl$ ?v0)) ?v1) (ltl$ (fun_app$a (lappend$a ?v0) ?v1))))) :named a364))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_llist$)) (=> (or (not (fun_app$l lnull$ ?v0)) (not (fun_app$l lnull$ ?v1))) (= (fun_app$a (lappend$a ?v0) ?v1) (lCons$ (fun_app$c (fun_app$ck (case_llist$b (lhd$ ?v1)) uwb$) ?v0) (fun_app$a (fun_app$cj (case_llist$a (fun_app$a (fun_app$cj (case_llist$a undefined$) uvv$) ?v1)) (uwj$ ?v1)) ?v0))))) :named a365))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_llist$)) (=> (or (not (fun_app$l lnull$ ?v0)) (not (fun_app$l lnull$ ?v1))) (= (ltl$ (fun_app$a (lappend$a ?v0) ?v1)) (fun_app$a (fun_app$cj (case_llist$a (fun_app$a (fun_app$cj (case_llist$a undefined$) uvv$) ?v1)) (uwj$ ?v1)) ?v0)))) :named a366))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_set$) (?v1 A_llist_a_llist_fun$)) (= (inv_image$ ?v0 ?v1) (collect$ (fun_app$ad uncurry$a (fun_app$z (uwk$ ?v0) ?v1))))) :named a367))
-(assert (! (forall ((?v0 A_llist_bool_fun$) (?v1 A_llist_a_llist_a_llist_prod_set_fun$)) (= (same_fst$ ?v0 ?v1) (collect$a (fun_app$al uncurry$d (fun_app$aj uncurry$c (fun_app$bt (uwm$ ?v0) ?v1)))))) :named a368))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod_llist$) (?v2 A_llist_a_llist_prod_a_llist_a_llist_prod_llist_bool_fun_fun$)) (=> (and (fun_app$i (member$ ?v0) (lset$ ?v1)) (and (forall ((?v3 A_llist_a_llist_prod_llist$)) (=> (not (fun_app$bw lnull$a ?v3)) (fun_app$bw (fun_app$bx ?v2 (lhd$a ?v3)) ?v3))) (forall ((?v3 A_llist_a_llist_prod_llist$) (?v4 A_llist_a_llist_prod$)) (=> (and (not (fun_app$bw lnull$a ?v3)) (and (fun_app$i (member$ ?v4) (lset$ (ltl$a ?v3))) (fun_app$bw (fun_app$bx ?v2 ?v4) (ltl$a ?v3)))) (fun_app$bw (fun_app$bx ?v2 ?v4) ?v3))))) (fun_app$bw (fun_app$bx ?v2 ?v0) ?v1))) :named a369))
-(assert (! (forall ((?v0 A$) (?v1 A_llist$) (?v2 A_a_llist_bool_fun_fun$)) (=> (and (member$b ?v0 (lset$a ?v1)) (and (forall ((?v3 A_llist$)) (=> (not (fun_app$l lnull$ ?v3)) (fun_app$l (fun_app$as ?v2 (lhd$ ?v3)) ?v3))) (forall ((?v3 A_llist$) (?v4 A$)) (=> (and (not (fun_app$l lnull$ ?v3)) (and (member$b ?v4 (lset$a (ltl$ ?v3))) (fun_app$l (fun_app$as ?v2 ?v4) (ltl$ ?v3)))) (fun_app$l (fun_app$as ?v2 ?v4) ?v3))))) (fun_app$l (fun_app$as ?v2 ?v0) ?v1))) :named a370))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_llist$) (?v2 A_llist_a_llist_prod_set$) (?v3 A_llist_a_llist_fun$)) (= (fun_app$i (member$ (pair$ ?v0 ?v1)) (inv_image$ ?v2 ?v3)) (fun_app$i (member$ (pair$ (fun_app$a ?v3 ?v0) (fun_app$a ?v3 ?v1))) ?v2))) :named a371))
-(assert (! (forall ((?v0 A_llist_bool_fun$) (?v1 A_llist$) (?v2 A_llist$) (?v3 A_llist$) (?v4 A_llist_a_llist_a_llist_prod_set_fun$)) (=> (and (fun_app$l ?v0 ?v1) (fun_app$i (member$ (pair$ ?v2 ?v3)) (fun_app$n ?v4 ?v1))) (member$a (pair$b (pair$ ?v1 ?v2) (pair$ ?v1 ?v3)) (same_fst$ ?v0 ?v4)))) :named a372))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod_llist$)) (fun_app$i (member$ ?v0) (lset$ (lCons$a ?v0 ?v1)))) :named a373))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod_llist$)) (fun_app$i (member$ ?v0) (lset$ (lCons$a ?v0 ?v1)))) :named a374))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod_llist$) (?v2 A_llist_a_llist_prod$)) (=> (fun_app$i (member$ ?v0) (lset$ ?v1)) (fun_app$i (member$ ?v0) (lset$ (lCons$a ?v2 ?v1))))) :named a375))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod_llist$) (?v2 A_llist_a_llist_prod$)) (=> (fun_app$i (member$ ?v0) (lset$ ?v1)) (fun_app$i (member$ ?v0) (lset$ (lCons$a ?v2 ?v1))))) :named a376))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod_llist$)) (=> (and (fun_app$i (member$ ?v0) (lset$ ?v1)) (and (forall ((?v2 A_llist_a_llist_prod_llist$)) (=> (= ?v1 (lCons$a ?v0 ?v2)) false)) (forall ((?v2 A_llist_a_llist_prod$) (?v3 A_llist_a_llist_prod_llist$)) (=> (and (= ?v1 (lCons$a ?v2 ?v3)) (fun_app$i (member$ ?v0) (lset$ ?v3))) false)))) false)) :named a377))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod_llist$) (?v2 A_llist_a_llist_prod_llist_bool_fun$)) (=> (and (fun_app$i (member$ ?v0) (lset$ ?v1)) (and (forall ((?v3 A_llist_a_llist_prod_llist$)) (fun_app$bw ?v2 (lCons$a ?v0 ?v3))) (forall ((?v3 A_llist_a_llist_prod$) (?v4 A_llist_a_llist_prod_llist$)) (=> (and (fun_app$i (member$ ?v0) (lset$ ?v4)) (and (not (= ?v0 ?v3)) (fun_app$bw ?v2 ?v4))) (fun_app$bw ?v2 (lCons$a ?v3 ?v4)))))) (fun_app$bw ?v2 ?v1))) :named a378))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod_llist$) (?v2 A_llist_a_llist_prod_llist_bool_fun$)) (=> (and (fun_app$i (member$ ?v0) (lset$ ?v1)) (and (forall ((?v3 A_llist_a_llist_prod_llist$)) (fun_app$bw ?v2 (lCons$a ?v0 ?v3))) (forall ((?v3 A_llist_a_llist_prod$) (?v4 A_llist_a_llist_prod_llist$)) (=> (and (fun_app$i (member$ ?v0) (lset$ ?v4)) (fun_app$bw ?v2 ?v4)) (fun_app$bw ?v2 (lCons$a ?v3 ?v4)))))) (fun_app$bw ?v2 ?v1))) :named a379))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod_llist$)) (=> (and (fun_app$i (member$ ?v0) (lset$ ?v1)) (and (forall ((?v2 A_llist_a_llist_prod_llist$)) (=> (= ?v1 (lCons$a ?v0 ?v2)) false)) (forall ((?v2 A_llist_a_llist_prod$) (?v3 A_llist_a_llist_prod_llist$)) (=> (and (= ?v1 (lCons$a ?v2 ?v3)) (fun_app$i (member$ ?v0) (lset$ ?v3))) false)))) false)) :named a380))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod_llist$) (?v2 A_llist_a_llist_prod_a_llist_a_llist_prod_llist_bool_fun_fun$)) (=> (and (fun_app$i (member$ ?v0) (lset$ ?v1)) (and (forall ((?v3 A_llist_a_llist_prod$) (?v4 A_llist_a_llist_prod_llist$)) (fun_app$bw (fun_app$bx ?v2 ?v3) (lCons$a ?v3 ?v4))) (forall ((?v3 A_llist_a_llist_prod$) (?v4 A_llist_a_llist_prod_llist$) (?v5 A_llist_a_llist_prod$)) (=> (and (fun_app$i (member$ ?v5) (lset$ ?v4)) (fun_app$bw (fun_app$bx ?v2 ?v5) ?v4)) (fun_app$bw (fun_app$bx ?v2 ?v5) (lCons$a ?v3 ?v4)))))) (fun_app$bw (fun_app$bx ?v2 ?v0) ?v1))) :named a381))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod_llist$)) (=> (fun_app$i (member$ ?v0) (lset$ (ltl$a ?v1))) (fun_app$i (member$ ?v0) (lset$ ?v1)))) :named a382))
-(assert (! (forall ((?v0 A$) (?v1 A_llist$)) (=> (member$b ?v0 (lset$a (ltl$ ?v1))) (member$b ?v0 (lset$a ?v1)))) :named a383))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod_llist$)) (= (fun_app$i (member$ ?v0) (lset$ ?v1)) (fun_app$bw (lmember$ ?v0) ?v1))) :named a384))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$) (?v1 A_llist_a_llist_prod$)) (=> (and (not (fun_app$bw lnull$a ?v0)) (fun_app$i (member$ ?v1) (lset$ (ltl$a ?v0)))) (fun_app$i (member$ ?v1) (lset$ ?v0)))) :named a385))
-(assert (! (forall ((?v0 A_llist$) (?v1 A$)) (=> (and (not (fun_app$l lnull$ ?v0)) (member$b ?v1 (lset$a (ltl$ ?v0)))) (member$b ?v1 (lset$a ?v0)))) :named a386))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_llist$)) (=> (not (fun_app$bw lnull$a ?v0)) (fun_app$i (member$ (lhd$a ?v0)) (lset$ ?v0)))) :named a387))
-(assert (! (forall ((?v0 A_llist$)) (=> (not (fun_app$l lnull$ ?v0)) (member$b (lhd$ ?v0) (lset$a ?v0)))) :named a388))
-(assert (! (forall ((?v0 A_llist$)) (= (lhd$ ?v0) (fun_app$c (fun_app$ck (case_llist$b undefined$a) uwb$) ?v0))) :named a389))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_set$) (?v1 A_llist_a_llist_prod_set$)) (= (lex_prod$ ?v0 ?v1) (collect$a (fun_app$al uncurry$d (fun_app$aj uncurry$c (fun_app$bq (uwo$ ?v0) ?v1)))))) :named a390))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod_llist$)) (=> (fun_app$i (member$ ?v0) (lset$ ?v1)) (exists ((?v2 A_llist_a_llist_prod_llist$) (?v3 A_llist_a_llist_prod_llist$)) (and (= ?v1 (fun_app$ (lappend$ ?v2) (lCons$a ?v0 ?v3))) (and (lfinite$ ?v2) (not (fun_app$i (member$ ?v0) (lset$ ?v2)))))))) :named a391))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod_llist$)) (=> (fun_app$i (member$ ?v0) (lset$ ?v1)) (exists ((?v2 A_llist_a_llist_prod_llist$) (?v3 A_llist_a_llist_prod_llist$)) (and (= ?v1 (fun_app$ (lappend$ ?v2) (lCons$a ?v0 ?v3))) (lfinite$ ?v2))))) :named a392))
-(assert (! (forall ((?v0 A_llist$)) (= (lfinite$a (ltl$ ?v0)) (lfinite$a ?v0))) :named a393))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_llist$) (?v2 A_llist$) (?v3 A_llist$) (?v4 A_llist_a_llist_prod_set$) (?v5 A_llist_a_llist_prod_set$)) (= (member$a (pair$b (pair$ ?v0 ?v1) (pair$ ?v2 ?v3)) (lex_prod$ ?v4 ?v5)) (or (fun_app$i (member$ (pair$ ?v0 ?v2)) ?v4) (and (= ?v0 ?v2) (fun_app$i (member$ (pair$ ?v1 ?v3)) ?v5))))) :named a394))
-(assert (! (forall ((?v0 A_llist$)) (=> (fun_app$l lnull$ ?v0) (lfinite$a ?v0))) :named a395))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_llist_bool_fun$)) (=> (and (lfinite$a ?v0) (and (forall ((?v2 A_llist$)) (=> (fun_app$l lnull$ ?v2) (fun_app$l ?v1 ?v2))) (forall ((?v2 A_llist$)) (=> (and (lfinite$a ?v2) (and (not (fun_app$l lnull$ ?v2)) (fun_app$l ?v1 (ltl$ ?v2)))) (fun_app$l ?v1 ?v2))))) (fun_app$l ?v1 ?v0))) :named a396))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod_llist$) (?v2 A_llist_a_llist_prod_llist$)) (= (fun_app$i (member$ ?v0) (lset$ (fun_app$ (lappend$ ?v1) ?v2))) (or (fun_app$i (member$ ?v0) (lset$ ?v1)) (and (lfinite$ ?v1) (fun_app$i (member$ ?v0) (lset$ ?v2)))))) :named a397))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_bool_fun$) (?v1 A_llist_a_llist_prod_bool_fun$)) (= (collect$ (fun_app$t (uwp$ ?v0) ?v1)) (sup$ (collect$ ?v0) (collect$ ?v1)))) :named a398))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_set$) (?v1 A_llist_a_llist_prod_set$)) (= (sup$ ?v0 ?v1) (collect$ (fun_app$s (uwq$ ?v0) ?v1)))) :named a399))
-(assert (! (forall ((?v0 A_llist_a_llist_bool_fun_fun$) (?v1 A_llist$) (?v2 A_llist$) (?v3 A_a_bool_fun_fun$)) (=> (and (fun_app$l (fun_app$m ?v0 ?v1) ?v2) (forall ((?v4 A_llist$) (?v5 A_llist$)) (=> (fun_app$l (fun_app$m ?v0 ?v4) ?v5) (and (= (fun_app$l lnull$ ?v4) (fun_app$l lnull$ ?v5)) (=> (and (not (fun_app$l lnull$ ?v4)) (not (fun_app$l lnull$ ?v5))) (and (fun_app$k (fun_app$co ?v3 (lhd$ ?v4)) (lhd$ ?v5)) (fun_app$l (fun_app$m ?v0 (ltl$ ?v4)) (ltl$ ?v5)))))))) (fun_app$l (fun_app$m (llist_all2$ ?v3) ?v1) ?v2))) :named a400))
-(assert (! (forall ((?v0 A_a_bool_fun_fun$) (?v1 A_llist$) (?v2 A_llist$)) (= (fun_app$l (fun_app$m (llist_all2$ ?v0) ?v1) ?v2) (and (= (fun_app$l lnull$ ?v1) (fun_app$l lnull$ ?v2)) (=> (and (not (fun_app$l lnull$ ?v1)) (not (fun_app$l lnull$ ?v2))) (and (fun_app$k (fun_app$co ?v0 (lhd$ ?v1)) (lhd$ ?v2)) (fun_app$l (fun_app$m (llist_all2$ ?v0) (ltl$ ?v1)) (ltl$ ?v2))))))) :named a401))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_set$) (?v1 A_llist_a_llist_prod_set$)) (=> (forall ((?v2 A_llist$) (?v3 A_llist$)) (=> (fun_app$i (member$ (pair$ ?v2 ?v3)) ?v0) (fun_app$i (member$ (pair$ ?v2 ?v3)) ?v1))) (fun_app$i (less_eq$ ?v0) ?v1))) :named a402))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$) (?v1 A_llist_a_llist_prod_llist$) (?v2 A_llist_a_llist_prod_llist$) (?v3 A_llist_a_llist_prod_a_llist_a_llist_prod_bool_fun_fun$)) (=> (and (fun_app$bw (fun_app$by (llist_all2$a ?v0) ?v1) ?v2) (forall ((?v4 A_llist_a_llist_prod$) (?v5 A_llist_a_llist_prod$)) (=> (and (fun_app$i (member$ ?v4) (lset$ ?v1)) (and (fun_app$i (member$ ?v5) (lset$ ?v2)) (fun_app$h (fun_app$r ?v0 ?v4) ?v5))) (fun_app$h (fun_app$r ?v3 ?v4) ?v5)))) (fun_app$bw (fun_app$by (llist_all2$a ?v3) ?v1) ?v2))) :named a403))
-(assert (! (forall ((?v0 A_llist$)) (less_eq$a (lset$a (ltl$ ?v0)) (lset$a ?v0))) :named a404))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_set$) (?v1 A_llist_a_llist_prod_bool_fun$) (?v2 A_llist_a_llist_prod_bool_fun$)) (= (fun_app$i (less_eq$ ?v0) (collect$ (fun_app$t (uwr$ ?v1) ?v2))) (and (fun_app$i (less_eq$ ?v0) (collect$ ?v1)) (fun_app$i (less_eq$ ?v0) (collect$ ?v2))))) :named a405))
-(assert (! (forall ((?v0 A_llist_a_llist_prod$) (?v1 A_llist_a_llist_prod_set$) (?v2 A_llist_a_llist_prod_set$) (?v3 A_llist_a_llist_prod_bool_fun$)) (=> (and (fun_app$i (member$ ?v0) ?v1) (fun_app$i (less_eq$ ?v1) (collect$ (fun_app$t (uws$ ?v2) ?v3)))) (fun_app$h ?v3 ?v0))) :named a406))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_set$) (?v1 A_llist_a_llist_prod_set$) (?v2 A_llist_a_llist_prod_bool_fun$) (?v3 A_llist_a_llist_prod_bool_fun$)) (=> (and (fun_app$i (less_eq$ ?v0) ?v1) (forall ((?v4 A_llist_a_llist_prod$)) (=> (and (fun_app$i (member$ ?v4) ?v0) (fun_app$h ?v2 ?v4)) (fun_app$h ?v3 ?v4)))) (fun_app$i (less_eq$ (collect$ (fun_app$t (uws$ ?v0) ?v2))) (collect$ (fun_app$t (uws$ ?v1) ?v3))))) :named a407))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_set$) (?v1 A_llist_a_llist_prod_set$)) (= (fun_app$i (less_eq$ ?v0) ?v1) (fun_app$bk (less_eq$b (uui$ ?v0)) (uui$ ?v1)))) :named a408))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_set$) (?v1 A_llist_a_llist_prod_set$)) (= (fun_app$bk (less_eq$b (uui$ ?v0)) (uui$ ?v1)) (fun_app$i (less_eq$ ?v0) ?v1))) :named a409))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_set$) (?v1 A_llist_a_llist_prod_set$)) (= (less_eq$c (uvz$ ?v0) (uvz$ ?v1)) (fun_app$i (less_eq$ ?v0) ?v1))) :named a410))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_llist$) (?v2 A_llist_a_llist_prod_set$) (?v3 A_llist$)) (=> (and (fun_app$i (member$ (pair$ ?v0 ?v1)) ?v2) (= ?v3 ?v1)) (fun_app$i (member$ (pair$ ?v0 ?v3)) ?v2))) :named a411))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_set$) (?v1 A_llist_a_llist_prod_bool_fun$)) (fun_app$i (less_eq$ (collect$ (fun_app$t (uws$ ?v0) ?v1))) ?v0)) :named a412))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_set$) (?v1 A_llist_a_llist_prod_set$) (?v2 A_llist_a_llist_prod_bool_fun$)) (=> (fun_app$i (less_eq$ ?v0) ?v1) (= (fun_app$i (less_eq$ ?v0) (collect$ (fun_app$t (uws$ ?v1) ?v2))) (forall ((?v3 A_llist_a_llist_prod$)) (=> (fun_app$i (member$ ?v3) ?v0) (fun_app$h ?v2 ?v3)))))) :named a413))
-(assert (! (forall ((?v0 A_llist_a_llist_bool_fun_fun$) (?v1 A_llist_a_llist_bool_fun_fun$)) (=> (less_eq$c ?v0 ?v1) (fun_app$i (less_eq$ (collect$ (fun_app$ad uncurry$a ?v0))) (collect$ (fun_app$ad uncurry$a ?v1))))) :named a414))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_set$) (?v1 A_llist_a_llist_prod_set$)) (=> (and (fun_app$i (less_eq$ ?v0) (collect$ (fun_app$ad uncurry$a (in_rel$ ?v1)))) (=> (fun_app$i (less_eq$ ?v0) ?v1) false)) false)) :named a415))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_set$) (?v1 A_llist$) (?v2 A_llist$)) (! (= (fun_app$l (fun_app$m (in_rel$ ?v0) ?v1) ?v2) (fun_app$i (member$ (pair$ ?v1 ?v2)) ?v0)) :pattern ((fun_app$l (fun_app$m (in_rel$ ?v0) ?v1) ?v2)))) :named a416))
-(assert (! (forall ((?v0 A_llist_a_llist_bool_fun_fun$)) (= (in_rel$ (collect$ (fun_app$ad uncurry$a ?v0))) ?v0)) :named a417))
-(assert (! (forall ((?v0 A_llist_a_llist_prod_set$) (?v1 A_llist_a_llist_prod_set$)) (=> (fun_app$i (less_eq$ ?v0) ?v1) (fun_app$i (less_eq$ ?v0) (collect$ (fun_app$ad uncurry$a (in_rel$ ?v1)))))) :named a418))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_llist_a_llist_prod_a_llist_fun$) (?v2 A_llist_a_llist_prod$) (?v3 A_llist$) (?v4 A_llist_a_llist_prod_a_llist_fun$) (?v5 A_llist_a_llist_prod_set$)) (=> (and (= ?v0 (fun_app$cp ?v1 ?v2)) (and (= ?v3 (fun_app$cp ?v4 ?v2)) (fun_app$i (member$ ?v2) ?v5))) (fun_app$i (member$ (pair$ ?v0 ?v3)) (image2$ ?v5 ?v1 ?v4)))) :named a419))
-(assert (! (forall ((?v0 A_llist$) (?v1 A_llist$)) (= (the$ (fun_app$ad uncurry$a (fun_app$aa (uwt$ ?v0) ?v1))) (pair$ ?v0 ?v1))) :named a420))
-(check-sat)
-
diff --git a/test/regress/regress0/quantifiers/ext-ex-deq-trigger.smt2 b/test/regress/regress0/quantifiers/ext-ex-deq-trigger.smt2
deleted file mode 100644
index f6f96fe02..000000000
--- a/test/regress/regress0/quantifiers/ext-ex-deq-trigger.smt2
+++ /dev/null
@@ -1,26 +0,0 @@
-; COMMAND-LINE: --relational-triggers
-; EXPECT: unsat
-(set-logic ALL_SUPPORTED)
-(set-info :status unsat)
-
-(declare-sort U 0)
-
-(declare-const k U)
-(declare-const ff U) 
-(declare-const ffk U)
-(declare-fun fun1 (Int) Int)
-(declare-fun fun2 (Int) Int)
-(declare-fun c (U U) U)
-(declare-fun app (U Int) Int)
-
-(assert (forall ((f U) (g U)) (=> (forall ((x Int)) (= (app f x) (app g x))) (= f g))  ))
-
-(assert (forall ((x Int)) (= (app ff x) (+ (fun1 x) (fun2 x)))))
-(assert (forall ((x Int)) (= (app ffk x) (+ (fun1 (app k x)) (fun2 (app k x))))))
-
-(assert (forall ((f U) (g U) (x Int)) (= (app (c f g) x) (app f (app g x)))))
-
-(assert (not (= (c ff k) ffk)))
-
-(check-sat)
-
diff --git a/test/regress/regress0/quantifiers/extract-nproc.smt2 b/test/regress/regress0/quantifiers/extract-nproc.smt2
deleted file mode 100644
index 6072776dc..000000000
--- a/test/regress/regress0/quantifiers/extract-nproc.smt2
+++ /dev/null
@@ -1,9 +0,0 @@
-; COMMAND-LINE: --cbqi-bv --cbqi-bv-rm-extract
-; EXPECT: sat
-(set-logic BV)
-(declare-fun k_3 () (_ BitVec 8))
-(declare-fun k_4 () (_ BitVec 8))
-(declare-fun k_5 () (_ BitVec 8))
-(assert 
-(forall ((x (_ BitVec 8))) (or (= k_5 x) (not (= k_3 (bvadd (concat #b0000 ((_ extract 7 4) x)) #b01000001))) (not (= k_4 (bvadd (concat #b0000 ((_ extract 3 0) x)) #b01000001)))) ))
-(check-sat)
diff --git a/test/regress/regress0/quantifiers/florian-case-ax.smt2 b/test/regress/regress0/quantifiers/florian-case-ax.smt2
deleted file mode 100644
index 35ebb28e9..000000000
--- a/test/regress/regress0/quantifiers/florian-case-ax.smt2
+++ /dev/null
@@ -1,168 +0,0 @@
-(set-logic AUFLIA)
-(set-info :status unsat)
-(declare-sort U 0)
-(declare-fun A (U U U
-  U U U U
-  U U U U
-  U U U U
-  U U U U
-  U U U U
-  U U U U
-  U U U U
-  U U U U
-  U U U U
-  U U U U
-  U U U U
-  U U U U
-  U U U U
-  U U
-  U) (Array Int U))
-
-(assert
-  (forall ((v_184 U) (v_185 U)
-  (v_186 U) (v_187 U)
-  (v_188 U) (v_189 U)
-  (v_190 U) (v_191 U)
-  (v_192 U) (v_193 U)
-  (v_194 U) (v_195 U)
-  (v_196 U) (v_197 U)
-  (v_198 U) (v_199 U)
-  (v_200 U) (v_201 U)
-  (v_202 U) (v_203 U)
-  (v_204 U) (v_205 U)
-  (v_206 U) (v_207 U)
-  (v_208 U) (v_209 U)
-  (v_210 U) (v_211 U)
-  (v_212 U) (v_213 U)
-  (v_214 U) (v_215 U)
-  (v_216 U) (v_217 U)
-  (v_218 U) (v_219 U)
-  (v_220 U) (v_221 U)
-  (v_222 U) (v_223 U)
-  (v_224 U) (v_225 U)
-  (v_226 U) (v_227 U)
-  (v_228 U) (v_229 U)
-  (v_230 U) (v_231 U)
-  (v_232 U) (v_233 U)
-  (v_234 U) (v_235 U)
-  (v_236 U) (v_237 U)
-  (v_238 U) (v_239 U)
-  (v_240 U) (v_241 U) (v_242 Int))
-  (let ((v_183 (A v_184 v_185 v_186 v_187
-                    v_188 v_189 v_190 v_191 v_192
-                    v_193 v_194 v_195 v_196 v_197
-                    v_198 v_199 v_200 v_201 v_202
-                    v_203 v_204 v_205 v_206 v_207
-                    v_208 v_209 v_210 v_211 v_212
-                    v_213 v_214 v_215 v_216 v_217
-                    v_218 v_219 v_220 v_221 v_222
-                    v_223 v_224 v_225 v_226 v_227
-                    v_228 v_229 v_230 v_231 v_232
-                    v_233 v_234 v_235 v_236 v_237
-                    v_238 v_239 v_240 v_241)))
-  (ite (= v_242 59) (= (select v_183 v_242) v_240)
-  (ite (= v_242 58) (= (select v_183 v_242) v_239)
-  (ite (= v_242 57) (= (select v_183 v_242) v_238)
-  (ite (= v_242 56) (= (select v_183 v_242) v_237)
-  (ite (= v_242 55) (= (select v_183 v_242) v_236)
-  (ite (= v_242 54) (= (select v_183 v_242) v_235)
-  (ite (= v_242 53) (= (select v_183 v_242) v_234)
-  (ite (= v_242 52) (= (select v_183 v_242) v_233)
-  (ite (= v_242 51) (= (select v_183 v_242) v_232)
-  (ite (= v_242 50) (= (select v_183 v_242) v_231)
-  (ite (= v_242 49) (= (select v_183 v_242) v_230)
-  (ite (= v_242 48) (= (select v_183 v_242) v_229)
-  (ite (= v_242 47) (= (select v_183 v_242) v_228)
-  (ite (= v_242 46) (= (select v_183 v_242) v_227)
-  (ite (= v_242 45) (= (select v_183 v_242) v_226)
-  (ite (= v_242 44) (= (select v_183 v_242) v_225)
-  (ite (= v_242 43) (= (select v_183 v_242) v_224)
-  (ite (= v_242 41) (= (select v_183 v_242) v_223)
-  (ite (= v_242 40) (= (select v_183 v_242) v_222)
-  (ite (= v_242 39) (= (select v_183 v_242) v_221)
-  (ite (= v_242 37) (= (select v_183 v_242) v_220)
-  (ite (= v_242 36) (= (select v_183 v_242) v_219)
-  (ite (= v_242 34) (= (select v_183 v_242) v_218)
-  (ite (= v_242 33) (= (select v_183 v_242) v_217)
-  (ite (= v_242 32) (= (select v_183 v_242) v_216)
-  (ite (= v_242 31) (= (select v_183 v_242) v_215)
-  (ite (= v_242 30) (= (select v_183 v_242) v_214)
-  (ite (= v_242 29) (= (select v_183 v_242) v_213)
-  (ite (= v_242 28) (= (select v_183 v_242) v_212)
-  (ite (= v_242 27) (= (select v_183 v_242) v_211)
-  (ite (= v_242 26) (= (select v_183 v_242) v_210)
-  (ite (= v_242 25) (= (select v_183 v_242) v_209)
-  (ite (= v_242 24) (= (select v_183 v_242) v_208)
-  (ite (= v_242 23) (= (select v_183 v_242) v_207)
-  (ite (= v_242 22) (= (select v_183 v_242) v_206)
-  (ite (= v_242 21) (= (select v_183 v_242) v_205)
-  (ite (= v_242 20) (= (select v_183 v_242) v_204)
-  (ite (= v_242 19) (= (select v_183 v_242) v_203)
-  (ite (= v_242 18) (= (select v_183 v_242) v_202)
-  (ite (= v_242 17) (= (select v_183 v_242) v_201)
-  (ite (= v_242 16) (= (select v_183 v_242) v_200)
-  (ite (= v_242 15) (= (select v_183 v_242) v_199)
-  (ite (= v_242 14) (= (select v_183 v_242) v_198)
-  (ite (= v_242 13) (= (select v_183 v_242) v_197)
-  (ite (= v_242 12) (= (select v_183 v_242) v_196)
-  (ite (= v_242 11) (= (select v_183 v_242) v_195)
-  (ite (= v_242 10) (= (select v_183 v_242) v_194)
-  (ite (= v_242 9) (= (select v_183 v_242) v_193)
-  (ite (= v_242 8) (= (select v_183 v_242) v_192)
-  (ite (= v_242 7) (= (select v_183 v_242) v_191)
-  (ite (= v_242 6) (= (select v_183 v_242) v_190)
-  (ite (= v_242 5) (= (select v_183 v_242) v_189)
-  (ite (= v_242 4) (= (select v_183 v_242) v_188)
-  (ite (= v_242 3) (= (select v_183 v_242) v_187)
-  (ite (= v_242 2) (= (select v_183 v_242) v_186)
-  (ite (= v_242 1) (= (select v_183 v_242) v_185)
-  (ite (= v_242 0) (= (select v_183 v_242) v_184)
-  (= (select v_183 v_242) v_241)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))
-  
-(declare-const c_184 U) (declare-const c_185 U)
-(declare-const c_186 U) (declare-const c_187 U)
-(declare-const c_188 U) (declare-const c_189 U)
-(declare-const c_190 U) (declare-const c_191 U)
-(declare-const c_192 U) (declare-const c_193 U)
-(declare-const c_194 U) (declare-const c_195 U)
-(declare-const c_196 U) (declare-const c_197 U)
-(declare-const c_198 U) (declare-const c_199 U)
-(declare-const c_200 U) (declare-const c_201 U)
-(declare-const c_202 U) (declare-const c_203 U)
-(declare-const c_204 U) (declare-const c_205 U)
-(declare-const c_206 U) (declare-const c_207 U)
-(declare-const c_208 U) (declare-const c_209 U)
-(declare-const c_210 U) (declare-const c_211 U)
-(declare-const c_212 U) (declare-const c_213 U)
-(declare-const c_214 U) (declare-const c_215 U)
-(declare-const c_216 U) (declare-const c_217 U)
-(declare-const c_218 U) (declare-const c_219 U)
-(declare-const c_220 U) (declare-const c_221 U)
-(declare-const c_222 U) (declare-const c_223 U)
-(declare-const c_224 U) (declare-const c_225 U)
-(declare-const c_226 U) (declare-const c_227 U)
-(declare-const c_228 U) (declare-const c_229 U)
-(declare-const c_230 U) (declare-const c_231 U)
-(declare-const c_232 U) (declare-const c_233 U)
-(declare-const c_234 U) (declare-const c_235 U)
-(declare-const c_236 U) (declare-const c_237 U)
-(declare-const c_238 U) (declare-const c_239 U)
-(declare-const c_240 U) (declare-const c_241 U)
-  
-(declare-fun b () Int)
-(declare-fun c () U)
-(assert (not (= (select (A c_184 c_185 c_186 c_187
-                          c_188 c_189 c_190 c_191 c_192
-                          c_193 c_194 c_195 c_196 c_197
-                          c_198 c_199 c_200 c_201 c_202
-                          c_203 c_204 c_205 c_206 c_207
-                          c_208 c_209 c_210 c_211 c_212
-                          c_213 c_214 c_215 c_216 c_217
-                          c_218 c_219 c_220 c_221 c_222
-                          c_223 c_224 c_225 c_226 c_227
-                          c_228 c_229 c_230 c_231 c_232
-                          c_233 c_234 c_235 c_236 c_237
-                          c_238 c_239 c_240 c_241) b) c)))
-(assert (and (= b 28) (= c c_212)))
-
-(check-sat)
diff --git a/test/regress/regress0/quantifiers/gauss_init_0030.fof.smt2 b/test/regress/regress0/quantifiers/gauss_init_0030.fof.smt2
deleted file mode 100644
index e9f0490a6..000000000
--- a/test/regress/regress0/quantifiers/gauss_init_0030.fof.smt2
+++ /dev/null
@@ -1,61 +0,0 @@
-(set-logic AUFLIRA)
-(set-info :source |
-NASA benchmarks from "Using Automated Theorem Provers to Certify Auto-generated
-Aerospace Software", IJCAR 2004.  Translated from TPTP format by Yeting Ge and
-Clark Barrett
-
-|)
-(set-info :smt-lib-version 2.0)
-(set-info :category "industrial")
-(set-info :status unsat)
-(declare-fun def () Real)
-(declare-fun init () Real)
-(declare-fun loopcounter () Int)
-(declare-fun pv1403 () Real)
-(declare-fun s_best7 () Int)
-(declare-fun s_best7_init () Real)
-(declare-fun s_sworst7 () Int)
-(declare-fun s_sworst7_init () Real)
-(declare-fun s_values7_init () (Array Int Real))
-(declare-fun s_worst7 () Int)
-(declare-fun s_worst7_init () Real)
-(declare-fun simplex7_init () (Array Int (Array Int Real)))
-(declare-fun tptp_float_0_001 () Real)
-(declare-fun use () Real)
-(declare-fun uniform_int_rnd (Int Int) Int)
-(declare-fun abs_ (Real) Real)
-(declare-fun log (Real) Real)
-(declare-fun exp (Real) Real)
-(declare-fun cos (Real) Real)
-(declare-fun sin (Real) Real)
-(declare-fun sqrt (Real) Real)
-(declare-fun divide (Real Real) Real)
-(declare-fun cond (Int Real Real) Real)
-(declare-fun tptp_term_equal (Real Real) Int)
-(declare-fun tptp_term_equals (Real Real) Int)
-(declare-fun tptp_term_and (Real Real) Int)
-(declare-fun sum (Int Int Real) Real)
-(declare-fun dim (Int Int) Int)
-(declare-fun trans ((Array Int (Array Int Real))) (Array Int (Array Int Real)))
-(declare-fun inv ((Array Int (Array Int Real))) (Array Int (Array Int Real)))
-(declare-fun tptp_mmul ((Array Int (Array Int Real)) (Array Int (Array Int Real))) (Array Int (Array Int Real)))
-(declare-fun tptp_madd ((Array Int (Array Int Real)) (Array Int (Array Int Real))) (Array Int (Array Int Real)))
-(declare-fun tptp_msub ((Array Int (Array Int Real)) (Array Int (Array Int Real))) (Array Int (Array Int Real)))
-(declare-fun tptp_const_array1 (Int Real) (Array Int Real))
-(declare-fun tptp_const_array2 (Int Int Real) (Array Int (Array Int Real)))
-(assert (forall ((?X_0 Int) (?C_1 Int)) (=> (>= ?X_0 0) (<= (uniform_int_rnd ?C_1 ?X_0) ?X_0))))
-(assert (forall ((?X_2 Int) (?C_3 Int)) (=> (>= ?X_2 0) (>= (uniform_int_rnd ?C_3 ?X_2) 0))))
-(assert (forall ((?I_4 Int) (?L_5 Int) (?U_6 Int) (?Val_7 Real)) (=> (and (<= ?L_5 ?I_4) (<= ?I_4 ?U_6)) (= (select (tptp_const_array1 (dim ?L_5 ?U_6) ?Val_7) ?I_4) ?Val_7))))
-(assert (forall ((?I_8 Int) (?L1_9 Int) (?U1_10 Int) (?J_11 Int) (?L2_12 Int) (?U2_13 Int) (?Val_14 Real)) (=> (and (and (and (<= ?L1_9 ?I_8) (<= ?I_8 ?U1_10)) (<= ?L2_12 ?J_11)) (<= ?J_11 ?U2_13)) (= (select (select (tptp_const_array2 (dim ?L1_9 ?U1_10) (dim ?L2_12 ?U2_13) ?Val_14) ?I_8) ?J_11) ?Val_14))))
-(assert (forall ((?I0_15 Int) (?J0_16 Int) (?A_17 (Array Int (Array Int Real))) (?B_18 (Array Int (Array Int Real))) (?N_19 Int)) (let ((?v_0 (tptp_mmul ?A_17 (tptp_mmul ?B_18 (trans ?A_17))))) (=> (and (and (and (and (>= ?I0_15 0) (<= ?I0_15 ?N_19)) (>= ?J0_16 0)) (<= ?J0_16 ?N_19)) (= (select (select ?B_18 ?I0_15) ?J0_16) (select (select ?B_18 ?J0_16) ?I0_15))) (= (select (select ?v_0 ?I0_15) ?J0_16) (select (select ?v_0 ?J0_16) ?I0_15))))))
-(assert (forall ((?I0_20 Int) (?J0_21 Int) (?I_22 Int) (?J_23 Int) (?A_24 (Array Int (Array Int Real))) (?B_25 (Array Int (Array Int Real))) (?N_26 Int) (?M_27 Int)) (let ((?v_0 (tptp_mmul ?A_24 (tptp_mmul ?B_25 (trans ?A_24))))) (=> (and (and (and (and (and (and (and (and (>= ?I0_20 0) (<= ?I0_20 ?N_26)) (>= ?J0_21 0)) (<= ?J0_21 ?N_26)) (>= ?I_22 0)) (<= ?I_22 ?M_27)) (>= ?J_23 0)) (<= ?J_23 ?M_27)) (= (select (select ?B_25 ?I_22) ?J_23) (select (select ?B_25 ?J_23) ?I_22))) (= (select (select ?v_0 ?I0_20) ?J0_21) (select (select ?v_0 ?J0_21) ?I0_20))))))
-(assert (forall ((?I_28 Int) (?J_29 Int) (?A_30 (Array Int (Array Int Real))) (?B_31 (Array Int (Array Int Real))) (?N_32 Int)) (let ((?v_0 (tptp_madd ?A_30 ?B_31))) (=> (and (and (and (and (and (>= ?I_28 0) (<= ?I_28 ?N_32)) (>= ?J_29 0)) (<= ?J_29 ?N_32)) (= (select (select ?A_30 ?I_28) ?J_29) (select (select ?A_30 ?J_29) ?I_28))) (= (select (select ?B_31 ?I_28) ?J_29) (select (select ?B_31 ?J_29) ?I_28))) (= (select (select ?v_0 ?I_28) ?J_29) (select (select ?v_0 ?J_29) ?I_28))))))
-(assert (forall ((?I_33 Int) (?J_34 Int) (?A_35 (Array Int (Array Int Real))) (?B_36 (Array Int (Array Int Real))) (?N_37 Int)) (let ((?v_0 (tptp_msub ?A_35 ?B_36))) (=> (and (and (and (and (and (>= ?I_33 0) (<= ?I_33 ?N_37)) (>= ?J_34 0)) (<= ?J_34 ?N_37)) (= (select (select ?A_35 ?I_33) ?J_34) (select (select ?A_35 ?J_34) ?I_33))) (= (select (select ?B_36 ?I_33) ?J_34) (select (select ?B_36 ?J_34) ?I_33))) (= (select (select ?v_0 ?I_33) ?J_34) (select (select ?v_0 ?J_34) ?I_33))))))
-(assert (forall ((?I_38 Int) (?J_39 Int) (?A_40 (Array Int (Array Int Real))) (?N_41 Int)) (let ((?v_0 (trans ?A_40))) (=> (and (and (and (and (>= ?I_38 0) (<= ?I_38 ?N_41)) (>= ?J_39 0)) (<= ?J_39 ?N_41)) (= (select (select ?A_40 ?I_38) ?J_39) (select (select ?A_40 ?J_39) ?I_38))) (= (select (select ?v_0 ?I_38) ?J_39) (select (select ?v_0 ?J_39) ?I_38))))))
-(assert (forall ((?I_42 Int) (?J_43 Int) (?A_44 (Array Int (Array Int Real))) (?N_45 Int)) (let ((?v_0 (inv ?A_44))) (=> (and (and (and (and (>= ?I_42 0) (<= ?I_42 ?N_45)) (>= ?J_43 0)) (<= ?J_43 ?N_45)) (= (select (select ?A_44 ?I_42) ?J_43) (select (select ?A_44 ?J_43) ?I_42))) (= (select (select ?v_0 ?I_42) ?J_43) (select (select ?v_0 ?J_43) ?I_42))))))
-(assert (forall ((?I0_46 Int) (?J0_47 Int) (?I_48 Int) (?J_49 Int) (?A_50 (Array Int (Array Int Real))) (?B_51 (Array Int (Array Int Real))) (?C_52 (Array Int (Array Int Real))) (?D_53 (Array Int (Array Int Real))) (?E_54 (Array Int (Array Int Real))) (?F_55 (Array Int (Array Int Real))) (?N_56 Int) (?M_57 Int)) (let ((?v_0 (tptp_madd ?A_50 (tptp_mmul ?B_51 (tptp_mmul (tptp_madd (tptp_mmul ?C_52 (tptp_mmul ?D_53 (trans ?C_52))) (tptp_mmul ?E_54 (tptp_mmul ?F_55 (trans ?E_54)))) (trans ?B_51)))))) (=> (and (and (and (and (and (and (and (and (and (and (>= ?I0_46 0) (<= ?I0_46 ?N_56)) (>= ?J0_47 0)) (<= ?J0_47 ?N_56)) (>= ?I_48 0)) (<= ?I_48 ?M_57)) (>= ?J_49 0)) (<= ?J_49 ?M_57)) (= (select (select ?D_53 ?I_48) ?J_49) (select (select ?D_53 ?J_49) ?I_48))) (= (select (select ?A_50 ?I0_46) ?J0_47) (select (select ?A_50 ?J0_47) ?I0_46))) (= (select (select ?F_55 ?I0_46) ?J0_47) (select (select ?F_55 ?J0_47) ?I0_46))) (= (select (select ?v_0 ?I0_46) ?J0_47) (select (select ?v_0 ?J0_47) ?I0_46))))))
-(assert (forall ((?Body_58 Real)) (= (sum 0 (- 1) ?Body_58) 0.0)))
-(assert (not (= def use)))
-(assert (let ((?v_0 (not (<= tptp_float_0_001 pv1403))) (?v_1 (= s_best7_init init)) (?v_3 (= s_sworst7_init init)) (?v_4 (= s_worst7_init init)) (?v_5 (>= s_best7 0)) (?v_6 (>= s_sworst7 0)) (?v_7 (>= s_worst7 0)) (?v_8 (<= s_best7 3)) (?v_9 (<= s_sworst7 3)) (?v_10 (<= s_worst7 3)) (?v_2 (> loopcounter 0))) (not (=> (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and ?v_0 (forall ((?A_59 Int)) (=> (and (>= ?A_59 0) (<= ?A_59 2)) (forall ((?B_60 Int)) (=> (and (>= ?B_60 0) (<= ?B_60 3)) (= (select (select simplex7_init ?B_60) ?A_59) init)))))) (forall ((?C_61 Int)) (=> (and (>= ?C_61 0) (<= ?C_61 3)) (= (select s_values7_init ?C_61) init)))) (=> ?v_0 ?v_1)) (=> ?v_0 ?v_3)) (=> ?v_0 ?v_4)) (=> ?v_0 ?v_5)) (=> ?v_0 ?v_6)) (=> ?v_0 ?v_7)) (=> ?v_0 ?v_8)) (=> ?v_0 ?v_9)) (=> ?v_0 ?v_10)) (=> ?v_2 ?v_1)) (=> ?v_2 ?v_3)) (=> ?v_2 ?v_4)) (=> ?v_2 (= (select s_values7_init s_best7) init))) (=> ?v_2 (= (select s_values7_init s_sworst7) init))) (=> ?v_2 (= (select s_values7_init s_worst7) init))) (=> ?v_2 ?v_5)) (=> ?v_2 ?v_6)) (=> ?v_2 ?v_7)) (=> ?v_2 ?v_8)) (=> ?v_2 ?v_9)) (=> ?v_2 ?v_10)) (= (select (select simplex7_init s_best7) 0) init)))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/quantifiers/inst-max-level-segf.smt2 b/test/regress/regress0/quantifiers/inst-max-level-segf.smt2
deleted file mode 100644
index d85f3d094..000000000
--- a/test/regress/regress0/quantifiers/inst-max-level-segf.smt2
+++ /dev/null
@@ -1,326 +0,0 @@
-; COMMAND-LINE: --inst-max-level=0 --simplification=none
-; EXPECT: unsat
-(set-logic UF)
-(set-info :status unsat)
-(declare-sort Node 0)
-(declare-sort GrassPat 0)
-(declare-sort GrassArray 1)
-(declare-sort ArrayCell 1)
-(declare-sort Loc 1)
-(declare-sort Set 1)
-(declare-sort Map 2)
-(declare-sort GrassByte 0)
-(declare-fun grass_null$0 () (Loc Node))
-(declare-fun grass_read$0 ((Map (Loc Node) (Loc Node)) (Loc Node))
-             (Loc Node))
-(declare-fun grass_emptyset$0 () (Set (Loc Node)))
-(declare-fun grass_singleton$0 ((Loc Node)) (Set (Loc Node)))
-(declare-fun grass_union$0 ((Set (Loc Node)) (Set (Loc Node)))
-             (Set (Loc Node)))
-(declare-fun grass_intersection$0 ((Set (Loc Node)) (Set (Loc Node)))
-             (Set (Loc Node)))
-(declare-fun grass_setminus$0 ((Set (Loc Node)) (Set (Loc Node)))
-             (Set (Loc Node)))
-(declare-fun grass_Btwn$0 ((Map (Loc Node) (Loc Node)) (Loc Node) (Loc Node)
-             (Loc Node)) Bool)
-(declare-fun grass_member$0 ((Loc Node) (Set (Loc Node))) Bool)
-(declare-fun grass_known$0 ((Map (Loc Node) (Loc Node))) GrassPat)
-(declare-fun grass_known$1 (Bool) GrassPat)
-(declare-fun Alloc_Node$0 () (Set (Loc Node)))
-(declare-fun FP_Caller_Node$0 () (Set (Loc Node)))
-(declare-fun FP_Caller_Node_1$0 () (Set (Loc Node)))
-(declare-fun FP_Caller_final_Node_2$0 () (Set (Loc Node)))
-(declare-fun FP_Node$0 () (Set (Loc Node)))
-(declare-fun Label$0 () Bool)
-(declare-fun Label_1$0 () Bool)
-(declare-fun Label_2$0 () Bool)
-(declare-fun Label_3$0 () Bool)
-(declare-fun elt$0 () (Loc Node))
-(declare-fun lseg$0 ((Map (Loc Node) (Loc Node)) (Loc Node) (Loc Node)
-             (Set (Loc Node))) Bool)
-(declare-fun lst$0 () (Loc Node))
-(declare-fun next$0 () (Map (Loc Node) (Loc Node)))
-(declare-fun res_2$0 () (Loc Node))
-(declare-fun set_compr$0 ((Map (Loc Node) (Loc Node)) (Loc Node) (Loc Node))
-             (Set (Loc Node)))
-(declare-fun sk_?X$0 () (Set (Loc Node)))
-(declare-fun sk_?X_1$0 () (Set (Loc Node)))
-(declare-fun sk_?X_2$0 () (Set (Loc Node)))
-(declare-fun sk_?X_3$0 () (Set (Loc Node)))
-(declare-fun sk_?X_4$0 () (Set (Loc Node)))
-(declare-fun sk_?e$0 () (Loc Node))
-
-(assert (not (grass_member$0 grass_null$0 Alloc_Node$0)))
-(assert
-        (and
-          (or
-            (or
-              (and (and (grass_member$0 sk_?e$0 sk_?X_4$0) Label_1$0)
-                (and
-                  (not
-                    (grass_member$0 sk_?e$0
-                      (set_compr$0 next$0 res_2$0 grass_null$0)))
-                  Label_1$0))
-              (and
-                (and
-                  (grass_member$0 sk_?e$0
-                    (set_compr$0 next$0 res_2$0 grass_null$0))
-                  Label_1$0)
-                (and (not (grass_member$0 sk_?e$0 sk_?X_4$0)) Label_1$0)))
-            (and
-              (not (grass_Btwn$0 next$0 res_2$0 grass_null$0 grass_null$0))
-              Label$0))
-          Label_2$0))
-(assert (forall ((x (Loc Node))) (not (grass_member$0 x grass_emptyset$0))))
-(assert
-        (forall ((y (Loc Node)) (x (Loc Node)))
-                (or (and (= x y) (grass_member$0 x (grass_singleton$0 y)))
-                  (and (not (= x y))
-                    (not (grass_member$0 x (grass_singleton$0 y)))))))
-(assert
-        (forall ((x (Loc Node)))
-                (or
-                  (and (grass_member$0 x FP_Caller_Node$0)
-                    (grass_member$0 x
-                      (grass_setminus$0 FP_Caller_Node$0 FP_Node$0))
-                    (not (grass_member$0 x FP_Node$0)))
-                  (and
-                    (or (grass_member$0 x FP_Node$0)
-                      (not (grass_member$0 x FP_Caller_Node$0)))
-                    (not
-                      (grass_member$0 x
-                        (grass_setminus$0 FP_Caller_Node$0 FP_Node$0)))))))
-(assert
-        (forall ((x (Loc Node)))
-                (or
-                  (and (grass_member$0 x Alloc_Node$0)
-                    (grass_member$0 x
-                      (grass_setminus$0 Alloc_Node$0 Alloc_Node$0))
-                    (not (grass_member$0 x Alloc_Node$0)))
-                  (and
-                    (or (grass_member$0 x Alloc_Node$0)
-                      (not (grass_member$0 x Alloc_Node$0)))
-                    (not
-                      (grass_member$0 x
-                        (grass_setminus$0 Alloc_Node$0 Alloc_Node$0)))))))
-(assert
-        (forall ((x (Loc Node)))
-                (or
-                  (and (grass_member$0 x Alloc_Node$0)
-                    (grass_member$0 x FP_Node$0)
-                    (grass_member$0 x
-                      (grass_intersection$0 Alloc_Node$0 FP_Node$0)))
-                  (and
-                    (or (not (grass_member$0 x Alloc_Node$0))
-                      (not (grass_member$0 x FP_Node$0)))
-                    (not
-                      (grass_member$0 x
-                        (grass_intersection$0 Alloc_Node$0 FP_Node$0)))))))
-(assert
-        (forall ((x (Loc Node)))
-                (or
-                  (and (grass_member$0 x sk_?X$0)
-                    (grass_member$0 x sk_?X_1$0)
-                    (grass_member$0 x
-                      (grass_intersection$0 sk_?X$0 sk_?X_1$0)))
-                  (and
-                    (or (not (grass_member$0 x sk_?X$0))
-                      (not (grass_member$0 x sk_?X_1$0)))
-                    (not
-                      (grass_member$0 x
-                        (grass_intersection$0 sk_?X$0 sk_?X_1$0)))))))
-(assert
-        (forall ((x (Loc Node)))
-                (or
-                  (and
-                    (grass_member$0 x
-                      (grass_union$0
-                        (grass_intersection$0 Alloc_Node$0 FP_Node$0)
-                        (grass_setminus$0 Alloc_Node$0 Alloc_Node$0)))
-                    (or
-                      (grass_member$0 x
-                        (grass_intersection$0 Alloc_Node$0 FP_Node$0))
-                      (grass_member$0 x
-                        (grass_setminus$0 Alloc_Node$0 Alloc_Node$0))))
-                  (and
-                    (not
-                      (grass_member$0 x
-                        (grass_intersection$0 Alloc_Node$0 FP_Node$0)))
-                    (not
-                      (grass_member$0 x
-                        (grass_setminus$0 Alloc_Node$0 Alloc_Node$0)))
-                    (not
-                      (grass_member$0 x
-                        (grass_union$0
-                          (grass_intersection$0 Alloc_Node$0 FP_Node$0)
-                          (grass_setminus$0 Alloc_Node$0 Alloc_Node$0))))))))
-(assert
-        (forall ((x (Loc Node)))
-                (or
-                  (and (grass_member$0 x (grass_union$0 sk_?X$0 sk_?X_1$0))
-                    (or (grass_member$0 x sk_?X$0)
-                      (grass_member$0 x sk_?X_1$0)))
-                  (and (not (grass_member$0 x sk_?X$0))
-                    (not (grass_member$0 x sk_?X_1$0))
-                    (not
-                      (grass_member$0 x (grass_union$0 sk_?X$0 sk_?X_1$0)))))))
-(assert
-        (forall ((x (Loc Node)))
-                (or
-                  (and
-                    (grass_member$0 x
-                      (grass_union$0 FP_Caller_Node_1$0 FP_Node$0))
-                    (or (grass_member$0 x FP_Caller_Node_1$0)
-                      (grass_member$0 x FP_Node$0)))
-                  (and (not (grass_member$0 x FP_Caller_Node_1$0))
-                    (not (grass_member$0 x FP_Node$0))
-                    (not
-                      (grass_member$0 x
-                        (grass_union$0 FP_Caller_Node_1$0 FP_Node$0)))))))
-(assert
-        (forall ((x (Loc Node)))
-                (or
-                  (and
-                    (grass_member$0 x
-                      (grass_union$0 FP_Node$0 FP_Caller_Node$0))
-                    (or (grass_member$0 x FP_Node$0)
-                      (grass_member$0 x FP_Caller_Node$0)))
-                  (and (not (grass_member$0 x FP_Node$0))
-                    (not (grass_member$0 x FP_Caller_Node$0))
-                    (not
-                      (grass_member$0 x
-                        (grass_union$0 FP_Node$0 FP_Caller_Node$0)))))))
-(assert
-        (forall ((x (Loc Node)))
-                (or
-                  (and
-                    (grass_member$0 x
-                      (grass_union$0 FP_Caller_Node$0 Alloc_Node$0))
-                    (or (grass_member$0 x FP_Caller_Node$0)
-                      (grass_member$0 x Alloc_Node$0)))
-                  (and (not (grass_member$0 x FP_Caller_Node$0))
-                    (not (grass_member$0 x Alloc_Node$0))
-                    (not
-                      (grass_member$0 x
-                        (grass_union$0 FP_Caller_Node$0 Alloc_Node$0)))))))
-(assert
-        (or (grass_Btwn$0 next$0 lst$0 lst$0 lst$0)
-          (not (lseg$0 next$0 lst$0 lst$0 sk_?X$0))))
-(assert
-        (forall
-                ((next (Map (Loc Node) (Loc Node))) (x (Loc Node))
-                 (y (Loc Node)) (z (Loc Node)))
-                (or
-                  (and (grass_Btwn$0 next x z y)
-                    (grass_member$0 z (set_compr$0 next x y)) (not (= z y)))
-                  (and (or (= z y) (not (grass_Btwn$0 next x z y)))
-                    (not (grass_member$0 z (set_compr$0 next x y)))))))
-(assert
-        (forall
-                ((?u (Loc Node)) (?x (Loc Node)) (?y (Loc Node))
-                 (?z (Loc Node)))
-                (or (not (grass_Btwn$0 next$0 ?x ?y ?z))
-                  (not (grass_Btwn$0 next$0 ?x ?u ?y))
-                  (and (grass_Btwn$0 next$0 ?x ?u ?z)
-                    (grass_Btwn$0 next$0 ?u ?y ?z)))))
-(assert
-        (forall
-                ((?u (Loc Node)) (?x (Loc Node)) (?y (Loc Node))
-                 (?z (Loc Node)))
-                (or (not (grass_Btwn$0 next$0 ?x ?y ?z))
-                  (not (grass_Btwn$0 next$0 ?y ?u ?z))
-                  (and (grass_Btwn$0 next$0 ?x ?y ?u)
-                    (grass_Btwn$0 next$0 ?x ?u ?z)))))
-(assert
-        (forall ((?x (Loc Node)) (?y (Loc Node)) (?z (Loc Node)))
-                (or (not (grass_Btwn$0 next$0 ?x ?y ?y))
-                  (not (grass_Btwn$0 next$0 ?y ?z ?z))
-                  (grass_Btwn$0 next$0 ?x ?z ?z))))
-(assert
-        (forall ((?x (Loc Node)) (?y (Loc Node)) (?z (Loc Node)))
-                (or (not (grass_Btwn$0 next$0 ?x ?y ?z))
-                  (and (grass_Btwn$0 next$0 ?x ?y ?y)
-                    (grass_Btwn$0 next$0 ?y ?z ?z)))))
-(assert
-        (forall ((?x (Loc Node)) (?y (Loc Node)) (?z (Loc Node)))
-                (or (not (grass_Btwn$0 next$0 ?x ?y ?y))
-                  (not (grass_Btwn$0 next$0 ?x ?z ?z))
-                  (grass_Btwn$0 next$0 ?x ?y ?z)
-                  (grass_Btwn$0 next$0 ?x ?z ?y))))
-(assert
-        (forall ((?x (Loc Node)) (?y (Loc Node)))
-                (or (not (grass_Btwn$0 next$0 ?x ?y ?x)) (= ?x ?y))))
-(assert
-        (forall ((?y (Loc Node)))
-                (or (not (grass_Btwn$0 next$0 res_2$0 ?y ?y)) (= res_2$0 ?y)
-                  (grass_Btwn$0 next$0 res_2$0 (grass_read$0 next$0 res_2$0)
-                    ?y))))
-(assert
-        (forall ((?y (Loc Node)))
-                (or (not (grass_Btwn$0 next$0 lst$0 ?y ?y)) (= lst$0 ?y)
-                  (grass_Btwn$0 next$0 lst$0 (grass_read$0 next$0 lst$0) ?y))))
-(assert
-        (forall ((?y (Loc Node)))
-                (or (not (= (grass_read$0 next$0 res_2$0) res_2$0))
-                  (not (grass_Btwn$0 next$0 res_2$0 ?y ?y)) (= res_2$0 ?y))))
-(assert
-        (forall ((?y (Loc Node)))
-                (or (not (= (grass_read$0 next$0 lst$0) lst$0))
-                  (not (grass_Btwn$0 next$0 lst$0 ?y ?y)) (= lst$0 ?y))))
-(assert
-        (grass_Btwn$0 next$0 res_2$0 (grass_read$0 next$0 res_2$0)
-          (grass_read$0 next$0 res_2$0)))
-(assert
-        (grass_Btwn$0 next$0 lst$0 (grass_read$0 next$0 lst$0)
-          (grass_read$0 next$0 lst$0)))
-(assert (forall ((?x (Loc Node))) (grass_Btwn$0 next$0 ?x ?x ?x)))
-(assert
-        (or (= sk_?X$0 (set_compr$0 next$0 lst$0 lst$0))
-          (not (lseg$0 next$0 lst$0 lst$0 sk_?X$0))))
-(assert (= (grass_read$0 next$0 grass_null$0) grass_null$0))
-(assert (= FP_Caller_Node_1$0 (grass_setminus$0 FP_Caller_Node$0 FP_Node$0)))
-(assert (and (= lst$0 grass_null$0) Label_3$0))
-(assert (= Alloc_Node$0 (grass_union$0 FP_Caller_Node$0 Alloc_Node$0)))
-(assert
-        (= sk_?X_4$0
-          (grass_union$0 (grass_intersection$0 Alloc_Node$0 FP_Node$0)
-            (grass_setminus$0 Alloc_Node$0 Alloc_Node$0))))
-(assert (= sk_?X_3$0 (grass_union$0 sk_?X$0 sk_?X_2$0)))
-(assert (= sk_?X_2$0 sk_?X_1$0))
-(assert (= sk_?X_1$0 (grass_singleton$0 elt$0)))
-(assert (= (grass_read$0 next$0 elt$0) grass_null$0))
-(assert (= FP_Node$0 sk_?X_3$0))
-(assert (= FP_Caller_Node$0 (grass_union$0 FP_Node$0 FP_Caller_Node$0)))
-(assert (= grass_emptyset$0 (grass_intersection$0 sk_?X$0 sk_?X_2$0)))
-(assert (= grass_emptyset$0 grass_emptyset$0))
-(assert (lseg$0 next$0 lst$0 grass_null$0 sk_?X$0))
-(assert
-        (= FP_Caller_final_Node_2$0
-          (grass_union$0 FP_Caller_Node_1$0 FP_Node$0)))
-(assert (= res_2$0 elt$0))
-(assert (= (grass_union$0 FP_Caller_Node$0 Alloc_Node$0) Alloc_Node$0))
-(assert (= (grass_read$0 next$0 grass_null$0) grass_null$0))
-(assert (= (grass_read$0 next$0 grass_null$0) lst$0))
-(assert (= (grass_read$0 next$0 grass_null$0) (grass_read$0 next$0 elt$0)))
-(assert
-        (= (grass_known$1 (lseg$0 next$0 lst$0 grass_null$0 sk_?X$0))
-          (grass_known$1 (lseg$0 next$0 lst$0 lst$0 sk_?X$0))))
-(assert (= (grass_intersection$0 sk_?X$0 sk_?X_2$0) grass_emptyset$0))
-(assert
-        (=
-          (grass_union$0 (grass_intersection$0 Alloc_Node$0 FP_Node$0)
-            (grass_setminus$0 Alloc_Node$0 Alloc_Node$0))
-          sk_?X_4$0))
-(assert (= res_2$0 elt$0))
-(assert (= (grass_union$0 FP_Node$0 FP_Caller_Node$0) FP_Caller_Node$0))
-(assert (= sk_?X_1$0 (grass_singleton$0 elt$0)))
-(assert (= sk_?X_1$0 sk_?X_2$0))
-(assert
-        (= FP_Caller_final_Node_2$0
-          (grass_union$0 FP_Caller_Node_1$0 FP_Node$0)))
-(assert (= FP_Node$0 sk_?X_3$0))
-(assert (= FP_Node$0 (grass_union$0 sk_?X$0 sk_?X_2$0)))
-(assert (= FP_Caller_Node_1$0 (grass_setminus$0 FP_Caller_Node$0 FP_Node$0)))
-(assert (= sk_?X$0 (set_compr$0 next$0 lst$0 lst$0)))
-(assert (= sk_?X$0 (set_compr$0 next$0 lst$0 grass_null$0)))
-(check-sat)
diff --git a/test/regress/regress0/quantifiers/intersection-example-onelane.proof-node22337.smt2 b/test/regress/regress0/quantifiers/intersection-example-onelane.proof-node22337.smt2
deleted file mode 100644
index 38a4ed127..000000000
--- a/test/regress/regress0/quantifiers/intersection-example-onelane.proof-node22337.smt2
+++ /dev/null
@@ -1,20 +0,0 @@
-; COMMAND-LINE: --cbqi-bv
-; EXPECT: sat
-(set-logic BV)
-(set-info :status sat)
-(declare-fun xI () (_ BitVec 32))
-(declare-fun A () (_ BitVec 32))
-(declare-fun B () (_ BitVec 32))
-(declare-fun vuscore2dollarskuscore80 () (_ BitVec 32))
-(declare-fun I1 () (_ BitVec 32))
-(declare-fun xuscore2dollarskuscore74 () (_ BitVec 32))
-(declare-fun v () (_ BitVec 32))
-(declare-fun ts49uscore0 () (_ BitVec 32))
-(declare-fun V () (_ BitVec 32))
-(declare-fun t87uscore0dollarskuscore0 () (_ BitVec 32))
-(declare-fun ep () (_ BitVec 32))
-(declare-fun I1uscore2dollarskuscore74 () (_ BitVec 32))
-(declare-fun x () (_ BitVec 32))
-(assert (not (exists ((ts49uscore0 (_ BitVec 32))) (let ((?v_0 (bvsge vuscore2dollarskuscore80 (_ bv0 32))) (?v_1 (bvsle vuscore2dollarskuscore80 V)) (?v_3 (bvsdiv (bvmul vuscore2dollarskuscore80 vuscore2dollarskuscore80) (bvmul (_ bv2 32) B))) (?v_2 (bvmul (bvsdiv (_ bv1 32) (_ bv2 32)) (bvadd (bvmul (bvmul (_ bv2 32) t87uscore0dollarskuscore0) vuscore2dollarskuscore80) (bvmul (_ bv2 32) xuscore2dollarskuscore74))))) (=> (and (and (and (and (and (and (and (and (and (and (and (and (and (and (= I1uscore2dollarskuscore74 (_ bv2 32)) (=> (and (bvsle (_ bv0 32) ts49uscore0) (bvsle ts49uscore0 t87uscore0dollarskuscore0)) (and (and ?v_0 ?v_1) (bvsle ts49uscore0 ep)))) (bvsge t87uscore0dollarskuscore0 (_ bv0 32))) (= vuscore2dollarskuscore80 (_ bv0 32))) ?v_0) ?v_1) (bvsgt xI (bvadd xuscore2dollarskuscore74 ?v_3))) (= I1 (_ bv2 32))) (bvslt xI x)) (bvsgt B (_ bv0 32))) (bvsge v (_ bv0 32))) (bvsle v V)) (bvsge A (_ bv0 32))) (bvsgt V (_ bv0 32))) (bvsgt ep (_ bv0 32))) (or (or (= xI xuscore2dollarskuscore74) (bvslt xI ?v_2)) (bvsgt xI (bvadd ?v_2 ?v_3))))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/quantifiers/is-even.smt2 b/test/regress/regress0/quantifiers/is-even.smt2
deleted file mode 100644
index 9aaac5e09..000000000
--- a/test/regress/regress0/quantifiers/is-even.smt2
+++ /dev/null
@@ -1,7 +0,0 @@
-(set-logic ALL_SUPPORTED)
-(set-info :status unsat)
-
-(define-funs-rec ((is-even ((x Int)) Int) (is-odd ((y Int)) Int)) ((ite (= x 0) 1 (ite (= (is-odd (- x 1)) 0) 1 0)) (ite (= y 0) 0 (ite (= (is-even (- y 1)) 0) 1 0))))
-
-(assert (= (is-even 4) 0))
-(check-sat)
diff --git a/test/regress/regress0/quantifiers/javafe.ast.ArrayInit.35.smt2 b/test/regress/regress0/quantifiers/javafe.ast.ArrayInit.35.smt2
deleted file mode 100644
index 811796bbf..000000000
--- a/test/regress/regress0/quantifiers/javafe.ast.ArrayInit.35.smt2
+++ /dev/null
@@ -1,746 +0,0 @@
-(set-logic AUFLIA)
-(set-info :source | Simplify Theorem Prover Benchmark Suite |)
-(set-info :smt-lib-version 2.0)
-(set-info :category "industrial")
-(set-info :status unsat)
-(declare-fun true_term () Int)
-(declare-fun false_term () Int)
-(assert (= true_term 1))
-(assert (= false_term 0))
-(declare-fun S_select (Int Int) Int)
-(declare-fun S_store (Int Int Int) Int)
-(assert (forall ((?m Int) (?i Int) (?x Int)) (= (S_select (S_store ?m ?i ?x) ?i) ?x)))
-(assert (forall ((?m Int) (?i Int) (?j Int) (?x Int)) (=> (not (= ?i ?j)) (= (S_select (S_store ?m ?i ?x) ?j) (S_select ?m ?j)))))
-(declare-fun PO_LT (Int Int) Int)
-(assert (forall ((?t Int)) (= (PO_LT ?t ?t) true_term)))
-(declare-fun T_java_lang_Object () Int)
-(assert (= (PO_LT T_java_lang_Object T_java_lang_Object) true_term))
-(assert (forall ((?t0 Int) (?t1 Int) (?t2 Int)) (=> (and (= (PO_LT ?t0 ?t1) true_term) (= (PO_LT ?t1 ?t2) true_term)) (= (PO_LT ?t0 ?t2) true_term))))
-(assert (forall ((?t0 Int) (?t1 Int)) (=> (and (= (PO_LT ?t0 ?t1) true_term) (= (PO_LT ?t1 ?t0) true_term)) (= ?t0 ?t1))))
-(declare-fun T_boolean () Int)
-(assert (forall ((?t Int)) (=> (= (PO_LT ?t T_boolean) true_term) (= ?t T_boolean))))
-(declare-fun T_char () Int)
-(assert (forall ((?t Int)) (=> (= (PO_LT ?t T_char) true_term) (= ?t T_char))))
-(declare-fun T_byte () Int)
-(assert (forall ((?t Int)) (=> (= (PO_LT ?t T_byte) true_term) (= ?t T_byte))))
-(declare-fun T_short () Int)
-(assert (forall ((?t Int)) (=> (= (PO_LT ?t T_short) true_term) (= ?t T_short))))
-(declare-fun T_int () Int)
-(assert (forall ((?t Int)) (=> (= (PO_LT ?t T_int) true_term) (= ?t T_int))))
-(declare-fun T_long () Int)
-(assert (forall ((?t Int)) (=> (= (PO_LT ?t T_long) true_term) (= ?t T_long))))
-(declare-fun T_float () Int)
-(assert (forall ((?t Int)) (=> (= (PO_LT ?t T_float) true_term) (= ?t T_float))))
-(declare-fun T_double () Int)
-(assert (forall ((?t Int)) (=> (= (PO_LT ?t T_double) true_term) (= ?t T_double))))
-(assert (forall ((?t Int)) (=> (= (PO_LT T_boolean ?t) true_term) (= ?t T_boolean))))
-(assert (forall ((?t Int)) (=> (= (PO_LT T_char ?t) true_term) (= ?t T_char))))
-(assert (forall ((?t Int)) (=> (= (PO_LT T_byte ?t) true_term) (= ?t T_byte))))
-(assert (forall ((?t Int)) (=> (= (PO_LT T_short ?t) true_term) (= ?t T_short))))
-(assert (forall ((?t Int)) (=> (= (PO_LT T_int ?t) true_term) (= ?t T_int))))
-(assert (forall ((?t Int)) (=> (= (PO_LT T_long ?t) true_term) (= ?t T_long))))
-(assert (forall ((?t Int)) (=> (= (PO_LT T_float ?t) true_term) (= ?t T_float))))
-(assert (forall ((?t Int)) (=> (= (PO_LT T_double ?t) true_term) (= ?t T_double))))
-(declare-fun asChild (Int Int) Int)
-(declare-fun classDown (Int Int) Int)
-(assert (forall ((?t0 Int) (?t1 Int) (?t2 Int)) (let ((?v_0 (asChild ?t1 ?t2))) (=> (= (PO_LT ?t0 ?v_0) true_term) (= (classDown ?t2 ?t0) ?v_0)))))
-(declare-fun T_java_lang_Cloneable () Int)
-(assert (= (PO_LT T_java_lang_Cloneable T_java_lang_Object) true_term))
-(declare-fun array (Int) Int)
-(assert (forall ((?t Int)) (= (PO_LT (array ?t) T_java_lang_Cloneable) true_term)))
-(declare-fun elemtype (Int) Int)
-(assert (forall ((?t Int)) (= (elemtype (array ?t)) ?t)))
-(assert (forall ((?t0 Int) (?t1 Int)) (let ((?v_0 (elemtype ?t0))) (= (= (PO_LT ?t0 (array ?t1)) true_term) (and (= ?t0 (array ?v_0)) (= (PO_LT ?v_0 ?t1) true_term))))))
-(declare-fun is (Int Int) Int)
-(declare-fun cast (Int Int) Int)
-(assert (forall ((?x Int) (?t Int)) (= (is (cast ?x ?t) ?t) true_term)))
-(assert (forall ((?x Int) (?t Int)) (=> (= (is ?x ?t) true_term) (= (cast ?x ?t) ?x))))
-(assert true)
-(assert (forall ((?x Int)) (= (= (is ?x T_char) true_term) (and (<= 0 ?x) (<= ?x 65535)))))
-(assert (forall ((?x Int)) (= (= (is ?x T_byte) true_term) (and (<= (- 128) ?x) (<= ?x 127)))))
-(assert (forall ((?x Int)) (= (= (is ?x T_short) true_term) (and (<= (- 32768) ?x) (<= ?x 32767)))))
-(declare-fun intFirst () Int)
-(declare-fun intLast () Int)
-(assert (forall ((?x Int)) (= (= (is ?x T_int) true_term) (and (<= intFirst ?x) (<= ?x intLast)))))
-(declare-fun longFirst () Int)
-(declare-fun longLast () Int)
-(assert (forall ((?x Int)) (= (= (is ?x T_long) true_term) (and (<= longFirst ?x) (<= ?x longLast)))))
-(assert (< longFirst intFirst))
-(assert (< intFirst (- 1000000)))
-(assert (< 1000000 intLast))
-(assert (< intLast longLast))
-(declare-fun null () Int)
-(declare-fun typeof (Int) Int)
-(assert (forall ((?x Int) (?t Int)) (=> (= (PO_LT ?t T_java_lang_Object) true_term) (= (= (is ?x ?t) true_term) (or (= ?x null) (= (PO_LT (typeof ?x) ?t) true_term))))))
-(declare-fun asField (Int Int) Int)
-(assert (forall ((?f Int) (?t Int) (?x Int)) (= (is (S_select (asField ?f ?t) ?x) ?t) true_term)))
-(declare-fun asElems (Int) Int)
-(assert (forall ((?e Int) (?a Int) (?i Int)) (= (is (S_select (S_select (asElems ?e) ?a) ?i) (elemtype (typeof ?a))) true_term)))
-(declare-fun vAllocTime (Int) Int)
-(declare-fun isAllocated (Int Int) Int)
-(assert (forall ((?x Int) (?a0 Int)) (= (= (isAllocated ?x ?a0) true_term) (< (vAllocTime ?x) ?a0))))
-(declare-fun fClosedTime (Int) Int)
-(assert (forall ((?x Int) (?f Int) (?a0 Int)) (=> (and (< (fClosedTime ?f) ?a0) (= (isAllocated ?x ?a0) true_term)) (= (isAllocated (S_select ?f ?x) ?a0) true_term))))
-(declare-fun eClosedTime (Int) Int)
-(assert (forall ((?a Int) (?e Int) (?i Int) (?a0 Int)) (=> (and (< (eClosedTime ?e) ?a0) (= (isAllocated ?a ?a0) true_term)) (= (isAllocated (S_select (S_select ?e ?a) ?i) ?a0) true_term))))
-(declare-fun asLockSet (Int) Int)
-(declare-fun max (Int) Int)
-(assert (forall ((?S Int)) (let ((?v_0 (asLockSet ?S))) (= (S_select ?v_0 (max ?v_0)) true_term))))
-(assert (forall ((?S Int)) (= (S_select (asLockSet ?S) null) true_term)))
-(declare-fun lockLE (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (lockLE ?x ?y) true_term) (<= ?x ?y))))
-(declare-fun lockLT (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (lockLT ?x ?y) true_term) (< ?x ?y))))
-(assert (forall ((?S Int) (?mu Int)) (let ((?v_0 (asLockSet ?S))) (=> (= (S_select ?v_0 ?mu) true_term) (= (lockLE ?mu (max ?v_0)) true_term)))))
-(assert (forall ((?x Int)) (=> (= (PO_LT (typeof ?x) T_java_lang_Object) true_term) (= (lockLE null ?x) true_term))))
-(declare-fun arrayLength (Int) Int)
-(assert (forall ((?a Int)) (let ((?v_0 (arrayLength ?a))) (and (<= 0 ?v_0) (= (is ?v_0 T_int) true_term)))))
-(declare-fun arrayFresh (Int Int Int Int Int Int Int) Int)
-(declare-fun arrayShapeMore (Int Int) Int)
-(declare-fun arrayParent (Int) Int)
-(declare-fun arrayPosition (Int) Int)
-(assert (forall ((?a Int) (?a0 Int) (?b0 Int) (?e Int) (?n Int) (?s Int) (?T Int) (?v Int)) (= (= (arrayFresh ?a ?a0 ?b0 ?e (arrayShapeMore ?n ?s) ?T ?v) true_term) (and (<= ?a0 (vAllocTime ?a)) (= (isAllocated ?a ?b0) true_term) (not (= ?a null)) (= (typeof ?a) ?T) (= (arrayLength ?a) ?n) (forall ((?i Int)) (let ((?v_0 (S_select (S_select ?e ?a) ?i))) (and (= (arrayFresh ?v_0 ?a0 ?b0 ?e ?s (elemtype ?T) ?v) true_term) (= (arrayParent ?v_0) ?a) (= (arrayPosition ?v_0) ?i))))))))
-(declare-fun arrayShapeOne (Int) Int)
-(assert (forall ((?a Int) (?a0 Int) (?b0 Int) (?e Int) (?n Int) (?T Int) (?v Int)) (= (= (arrayFresh ?a ?a0 ?b0 ?e (arrayShapeOne ?n) ?T ?v) true_term) (and (<= ?a0 (vAllocTime ?a)) (= (isAllocated ?a ?b0) true_term) (not (= ?a null)) (= (typeof ?a) ?T) (= (arrayLength ?a) ?n) (forall ((?i Int)) (= (S_select (S_select ?e ?a) ?i) ?v))))))
-(declare-fun arrayType () Int)
-(assert (= arrayType (asChild arrayType T_java_lang_Object)))
-(assert (forall ((?t Int)) (= (PO_LT (array ?t) arrayType) true_term)))
-(declare-fun isNewArray (Int) Int)
-(assert (forall ((?s Int)) (=> (= true_term (isNewArray ?s)) (= (PO_LT (typeof ?s) arrayType) true_term))))
-(declare-fun boolAnd (Int Int) Int)
-(assert (forall ((?a Int) (?b Int)) (= (= (boolAnd ?a ?b) true_term) (and (= ?a true_term) (= ?b true_term)))))
-(declare-fun boolEq (Int Int) Int)
-(assert (forall ((?a Int) (?b Int)) (= (= (boolEq ?a ?b) true_term) (= (= ?a true_term) (= ?b true_term)))))
-(declare-fun boolImplies (Int Int) Int)
-(assert (forall ((?a Int) (?b Int)) (= (= (boolImplies ?a ?b) true_term) (=> (= ?a true_term) (= ?b true_term)))))
-(declare-fun boolNE (Int Int) Int)
-(assert (forall ((?a Int) (?b Int)) (= (= (boolNE ?a ?b) true_term) (not (= (= ?a true_term) (= ?b true_term))))))
-(declare-fun boolNot (Int) Int)
-(assert (forall ((?a Int)) (= (= (boolNot ?a) true_term) (not (= ?a true_term)))))
-(declare-fun boolOr (Int Int) Int)
-(assert (forall ((?a Int) (?b Int)) (= (= (boolOr ?a ?b) true_term) (or (= ?a true_term) (= ?b true_term)))))
-(declare-fun integralEQ (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (integralEQ ?x ?y) true_term) (= ?x ?y))))
-(declare-fun stringCat (Int Int) Int)
-(declare-fun T_java_lang_String () Int)
-(assert (forall ((?x Int) (?y Int)) (let ((?v_0 (stringCat ?x ?y))) (and (not (= ?v_0 null)) (= (PO_LT (typeof ?v_0) T_java_lang_String) true_term)))))
-(declare-fun integralGE (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (integralGE ?x ?y) true_term) (>= ?x ?y))))
-(declare-fun integralGT (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (integralGT ?x ?y) true_term) (> ?x ?y))))
-(declare-fun integralLE (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (integralLE ?x ?y) true_term) (<= ?x ?y))))
-(declare-fun integralLT (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (integralLT ?x ?y) true_term) (< ?x ?y))))
-(declare-fun integralNE (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (integralNE ?x ?y) true_term) (not (= ?x ?y)))))
-(declare-fun refEQ (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (refEQ ?x ?y) true_term) (= ?x ?y))))
-(declare-fun refNE (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (refNE ?x ?y) true_term) (not (= ?x ?y)))))
-(declare-fun nonnullelements (Int Int) Int)
-(assert (forall ((?x Int) (?e Int)) (= (= (nonnullelements ?x ?e) true_term) (and (not (= ?x null)) (forall ((?i Int)) (=> (and (<= 0 ?i) (< ?i (arrayLength ?x))) (not (= (S_select (S_select ?e ?x) ?i) null))))))))
-(declare-fun classLiteral (Int) Int)
-(declare-fun T_java_lang_Class () Int)
-(declare-fun alloc () Int)
-(assert (forall ((?t Int)) (let ((?v_0 (classLiteral ?t))) (and (not (= ?v_0 null)) (= (is ?v_0 T_java_lang_Class) true_term) (= (isAllocated ?v_0 alloc) true_term)))))
-(declare-fun integralAnd (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (=> (or (<= 0 ?x) (<= 0 ?y)) (<= 0 (integralAnd ?x ?y)))))
-(assert (forall ((?x Int) (?y Int)) (=> (<= 0 ?x) (<= (integralAnd ?x ?y) ?x))))
-(assert (forall ((?x Int) (?y Int)) (=> (<= 0 ?y) (<= (integralAnd ?x ?y) ?y))))
-(declare-fun integralOr (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (let ((?v_0 (integralOr ?x ?y))) (=> (and (<= 0 ?x) (<= 0 ?y)) (and (<= ?x ?v_0) (<= ?y ?v_0))))))
-(declare-fun integralXor (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (=> (and (<= 0 ?x) (<= 0 ?y)) (<= 0 (integralXor ?x ?y)))))
-(declare-fun intShiftL (Int Int) Int)
-(assert (forall ((?n Int)) (=> (and (<= 0 ?n) (< ?n 31)) (<= 1 (intShiftL 1 ?n)))))
-(declare-fun longShiftL (Int Int) Int)
-(assert (forall ((?n Int)) (=> (and (<= 0 ?n) (< ?n 63)) (<= 1 (longShiftL 1 ?n)))))
-(assert true)
-(declare-fun T_javafe_ast_ConstructorInvocation () Int)
-(declare-fun T_javafe_ast_Stmt () Int)
-(declare-fun T_javafe_ast_VariableAccess () Int)
-(declare-fun T_javafe_ast_Expr () Int)
-(declare-fun T_javafe_ast_ImportDecl () Int)
-(declare-fun T_javafe_ast_ASTNode () Int)
-(declare-fun T_javafe_ast_TryCatchStmt () Int)
-(declare-fun T_javafe_ast_OperatorTags () Int)
-(declare-fun T_javafe_ast_GeneratedTags () Int)
-(declare-fun T_javafe_ast_TagConstants () Int)
-(declare-fun T_javafe_tc_FieldDeclVec () Int)
-(declare-fun T_javafe_ast_BlockStmt () Int)
-(declare-fun T_javafe_ast_GenericBlockStmt () Int)
-(declare-fun T_javafe_ast_RoutineDecl () Int)
-(declare-fun T_javafe_ast_TypeDeclElem () Int)
-(declare-fun T_javafe_ast_VarInit () Int)
-(declare-fun T_javafe_ast_ParenExpr () Int)
-(declare-fun T_javafe_ast_Type () Int)
-(declare-fun T_javafe_ast_EvalStmt () Int)
-(declare-fun T_javafe_ast_TypeObjectDesignator () Int)
-(declare-fun T_javafe_ast_ObjectDesignator () Int)
-(declare-fun T_java_lang_RuntimeException () Int)
-(declare-fun T_java_lang_Exception () Int)
-(declare-fun T_javafe_ast_IfStmt () Int)
-(declare-fun T_javafe_ast_ArrayInit () Int)
-(declare-fun T_java_lang_Throwable () Int)
-(declare-fun T_java_util_Map () Int)
-(declare-fun T_java_util_EscjavaKeyValue () Int)
-(declare-fun T_java_lang_Long () Int)
-(declare-fun T_java_lang_Number () Int)
-(declare-fun T_java_lang_Comparable () Int)
-(declare-fun T_javafe_ast_CondExpr () Int)
-(declare-fun T_javafe_util_Location () Int)
-(declare-fun T_javafe_tc_MethodDeclVec () Int)
-(declare-fun T_javafe_ast_VarDeclStmt () Int)
-(declare-fun T_javafe_ast_MethodDecl () Int)
-(declare-fun T_javafe_ast_TypeName () Int)
-(declare-fun T_javafe_ast_LiteralExpr () Int)
-(declare-fun T_java_io_Serializable () Int)
-(declare-fun T_javafe_ast_ThrowStmt () Int)
-(declare-fun T_java_lang_Boolean () Int)
-(declare-fun T_javafe_ast_SkipStmt () Int)
-(declare-fun T_javafe_ast_LocalVarDecl () Int)
-(declare-fun T_javafe_ast_GenericVarDecl () Int)
-(declare-fun T_javafe_ast_CastExpr () Int)
-(declare-fun T_javafe_ast_WhileStmt () Int)
-(declare-fun T_javafe_ast_TypeDecl () Int)
-(declare-fun T_javafe_ast_MethodInvocation () Int)
-(declare-fun T_javafe_ast_Identifier () Int)
-(declare-fun T_javafe_ast_NewInstanceExpr () Int)
-(declare-fun T_java_util_Hashtable () Int)
-(declare-fun T_java_util_Dictionary () Int)
-(declare-fun T_javafe_tc_Env () Int)
-(declare-fun T_javafe_ast_SingleTypeImportDecl () Int)
-(declare-fun T_javafe_ast_Name () Int)
-(declare-fun T_javafe_ast_CompilationUnit () Int)
-(declare-fun T_javafe_ast_BreakStmt () Int)
-(declare-fun T_javafe_ast_BranchStmt () Int)
-(declare-fun T_javafe_ast_VisitorArgResult () Int)
-(declare-fun T_javafe_ast_AmbiguousVariableAccess () Int)
-(declare-fun T_javafe_ast_FormalParaDecl () Int)
-(declare-fun T_javafe_ast_TryFinallyStmt () Int)
-(declare-fun T_javafe_ast_SuperObjectDesignator () Int)
-(declare-fun T_javafe_ast_UnaryExpr () Int)
-(declare-fun T_javafe_ast_InterfaceDecl () Int)
-(declare-fun T_javafe_ast_SynchronizeStmt () Int)
-(declare-fun T_java_lang_IndexOutOfBoundsException () Int)
-(declare-fun T_javafe_ast_LabelStmt () Int)
-(declare-fun T_javafe_ast_CompoundName () Int)
-(declare-fun T_javafe_ast_CatchClause () Int)
-(declare-fun T_javafe_ast_FieldAccess () Int)
-(declare-fun T_javafe_ast_IdentifierVec () Int)
-(declare-fun T_java_lang_Integer () Int)
-(declare-fun T_javafe_ast_ExprVec () Int)
-(declare-fun T_javafe_tc_TagConstants () Int)
-(declare-fun T_javafe_parser_TagConstants () Int)
-(declare-fun T_javafe_ast_ConstructorDecl () Int)
-(declare-fun T_javafe_ast_SwitchStmt () Int)
-(declare-fun T_java_lang_Double () Int)
-(declare-fun T_javafe_ast_PrimitiveType () Int)
-(declare-fun T_javafe_ast_ReturnStmt () Int)
-(declare-fun T_java_lang_Float () Int)
-(declare-fun T_javafe_ast_ThisExpr () Int)
-(declare-fun T_javafe_ast_ExprObjectDesignator () Int)
-(declare-fun T_javafe_ast_ForStmt () Int)
-(declare-fun T_javafe_ast_InstanceOfExpr () Int)
-(declare-fun T_javafe_ast_OnDemandImportDecl () Int)
-(declare-fun T_javafe_ast_ClassDeclStmt () Int)
-(declare-fun T_javafe_tc_TypeSig () Int)
-(declare-fun T_javafe_ast_InitBlock () Int)
-(declare-fun T_javafe_ast_ArrayRefExpr () Int)
-(declare-fun T_javafe_ast_ArrayType () Int)
-(declare-fun T_javafe_ast_ASTDecoration () Int)
-(declare-fun T_javafe_ast_VarInitVec () Int)
-(declare-fun T_javafe_ast_Visitor () Int)
-(declare-fun T_javafe_ast_SwitchLabel () Int)
-(declare-fun T_javafe_ast_FieldDecl () Int)
-(declare-fun T_javafe_ast_BinaryExpr () Int)
-(declare-fun T_javafe_ast_ClassDecl () Int)
-(declare-fun T_javafe_ast_ClassLiteral () Int)
-(declare-fun T_javafe_ast_DoStmt () Int)
-(declare-fun T_javafe_ast_NewArrayExpr () Int)
-(declare-fun T_javafe_ast_AmbiguousMethodInvocation () Int)
-(declare-fun T_javafe_ast_ContinueStmt () Int)
-(declare-fun T_javafe_ast_SimpleName () Int)
-(declare-fun DIST_ZERO_1 () Int)
-(declare-fun T__TYPE () Int)
-(declare-fun TRYCATCHSTMT_19_43_7 () Int)
-(declare-fun UNARYSUB_18_55_26 () Int)
-(declare-fun TYPEDECLELEMPRAGMA_29_27_26 () Int)
-(declare-fun SHORTTYPE_17_36_26 () Int)
-(declare-fun WHILESTMT_19_29_7 () Int)
-(declare-fun STAR_18_37_26 () Int)
-(declare-fun VARIABLEACCESS_19_56_7 () Int)
-(declare-fun SINGLETYPEIMPORTDECL_19_15_7 () Int)
-(declare-fun BITAND_18_23_26 () Int)
-(declare-fun TRYFINALLYSTMT_19_42_7 () Int)
-(declare-fun UNARYADD_18_54_26 () Int)
-(declare-fun BYTETYPE_17_35_26 () Int)
-(declare-fun CLASSDECLSTMT_19_28_7 () Int)
-(declare-fun MOD_18_36_26 () Int)
-(declare-fun STMTPRAGMA_29_26_26 () Int)
-(declare-fun AMBIGUOUSVARIABLEACCESS_19_55_7 () Int)
-(declare-fun COMPILATIONUNIT_19_14_7 () Int)
-(declare-fun BITXOR_18_22_26 () Int)
-(declare-fun SWITCHLABEL_19_41_7 () Int)
-(declare-fun ASGBITXOR_18_51_26 () Int)
-(declare-fun punctuationStrings_29_134_22 () Int)
-(declare-fun NULLTYPE_17_34_26 () Int)
-(declare-fun VARDECLSTMT_19_27_7 () Int)
-(declare-fun DIV_18_35_26 () Int)
-(declare-fun otherStrings_29_193_30 () Int)
-(declare-fun PARENEXPR_19_54_7 () Int)
-(declare-fun BITOR_18_21_26 () Int)
-(declare-fun MODIFIERPRAGMA_29_25_26 () Int)
-(declare-fun noTokens_29_212_27 () Int)
-(declare-fun SKIPSTMT_19_40_7 () Int)
-(declare-fun ASGBITOR_18_50_26 () Int)
-(declare-fun COMPOUNDNAME_19_67_7 () Int)
-(declare-fun VOIDTYPE_17_33_26 () Int)
-(declare-fun SWITCHSTMT_19_26_7 () Int)
-(declare-fun SUB_18_34_26 () Int)
-(declare-fun CASTEXPR_19_53_7 () Int)
-(declare-fun TYPESIG_28_6_28 () Int)
-(declare-fun FORSTMT_19_39_7 () Int)
-(declare-fun LEXICALPRAGMA_29_24_26 () Int)
-(declare-fun ASGBITAND_18_49_26 () Int)
-(declare-fun SIMPLENAME_19_66_7 () Int)
-(declare-fun DOUBLETYPE_17_32_26 () Int)
-(declare-fun BLOCKSTMT_19_25_7 () Int)
-(declare-fun ADD_18_33_26 () Int)
-(declare-fun FIRST_KEYWORD_29_51_26 () Int)
-(declare-fun INSTANCEOFEXPR_19_52_7 () Int)
-(declare-fun AND_18_20_26 () Int)
-(declare-fun IFSTMT_19_38_7 () Int)
-(declare-fun LAST_KEYWORD_29_103_26 () Int)
-(declare-fun ASGURSHIFT_18_48_26 () Int)
-(declare-fun ARRAYTYPE_19_65_7 () Int)
-(declare-fun FORMALPARADECL_19_24_7 () Int)
-(declare-fun FLOATTYPE_17_31_26 () Int)
-(declare-fun URSHIFT_18_32_26 () Int)
-(declare-fun CONDEXPR_19_51_7 () Int)
-(declare-fun OR_18_19_26 () Int)
-(declare-fun LABELSTMT_19_37_7 () Int)
-(declare-fun NULLLIT_17_45_26 () Int)
-(declare-fun ASGRSHIFT_18_47_26 () Int)
-(declare-fun NULL_29_82_26 () Int)
-(declare-fun TYPENAME_19_64_7 () Int)
-(declare-fun CHARTYPE_17_30_26 () Int)
-(declare-fun FIELDDECL_19_23_7 () Int)
-(declare-fun RSHIFT_18_31_26 () Int)
-(declare-fun NEWARRAYEXPR_19_50_7 () Int)
-(declare-fun CONTINUESTMT_19_36_7 () Int)
-(declare-fun STRINGLIT_17_44_26 () Int)
-(declare-fun ASGLSHIFT_18_46_26 () Int)
-(declare-fun SUPEROBJECTDESIGNATOR_19_63_7 () Int)
-(declare-fun LONGTYPE_17_29_26 () Int)
-(declare-fun LOCALVARDECL_19_22_7 () Int)
-(declare-fun LSHIFT_18_30_26 () Int)
-(declare-fun NEWINSTANCEEXPR_19_49_7 () Int)
-(declare-fun POSTFIXDEC_18_63_26 () Int)
-(declare-fun BREAKSTMT_19_35_7 () Int)
-(declare-fun DOUBLELIT_17_43_26 () Int)
-(declare-fun ASGSUB_18_45_26 () Int)
-(declare-fun TYPEOBJECTDESIGNATOR_19_62_7 () Int)
-(declare-fun INTTYPE_17_28_26 () Int)
-(declare-fun INITBLOCK_19_21_7 () Int)
-(declare-fun LT_18_29_26 () Int)
-(declare-fun ARRAYREFEXPR_19_48_7 () Int)
-(declare-fun POSTFIXINC_18_62_26 () Int)
-(declare-fun THROWSTMT_19_34_7 () Int)
-(declare-fun FLOATLIT_17_42_26 () Int)
-(declare-fun ASGADD_18_44_26 () Int)
-(declare-fun EXPROBJECTDESIGNATOR_19_61_7 () Int)
-(declare-fun otherCodes_29_202_27 () Int)
-(declare-fun BOOLEANTYPE_17_27_26 () Int)
-(declare-fun METHODDECL_19_20_7 () Int)
-(declare-fun LE_18_28_26 () Int)
-(declare-fun THISEXPR_19_47_7 () Int)
-(declare-fun DEC_18_59_26 () Int)
-(declare-fun CHARLIT_17_41_26 () Int)
-(declare-fun RETURNSTMT_19_33_7 () Int)
-(declare-fun punctuationCodes_29_164_19 () Int)
-(declare-fun ASGREM_18_43_26 () Int)
-(declare-fun CLASSLITERAL_19_60_7 () Int)
-(declare-fun IDENT_17_25_26 () Int)
-(declare-fun CONSTRUCTORDECL_19_19_7 () Int)
-(declare-fun GT_18_27_26 () Int)
-(declare-fun ARRAYINIT_19_46_7 () Int)
-(declare-fun INC_18_58_26 () Int)
-(declare-fun LONGLIT_17_40_26 () Int)
-(declare-fun EVALSTMT_19_32_7 () Int)
-(declare-fun ASGDIV_18_42_26 () Int)
-(declare-fun METHODINVOCATION_19_59_7 () Int)
-(declare-fun INTERFACEDECL_19_18_7 () Int)
-(declare-fun GE_18_26_26 () Int)
-(declare-fun CATCHCLAUSE_19_45_7 () Int)
-(declare-fun BITNOT_18_57_26 () Int)
-(declare-fun keywordStrings_29_181_30 () Int)
-(declare-fun NULL_13_60_26 () Int)
-(declare-fun SYNCHRONIZESTMT_19_31_7 () Int)
-(declare-fun INTLIT_17_39_26 () Int)
-(declare-fun ASGMUL_18_41_26 () Int)
-(declare-fun AMBIGUOUSMETHODINVOCATION_19_58_7 () Int)
-(declare-fun CLASSDECL_19_17_7 () Int)
-(declare-fun EQ_18_25_26 () Int)
-(declare-fun TYPEMODIFIERPRAGMA_29_28_26 () Int)
-(declare-fun CONSTRUCTORINVOCATION_19_44_7 () Int)
-(declare-fun NOT_18_56_26 () Int)
-(declare-fun BOOLEANLIT_17_38_26 () Int)
-(declare-fun DOSTMT_19_30_7 () Int)
-(declare-fun ASSIGN_18_40_26 () Int)
-(declare-fun FIELDACCESS_19_57_7 () Int)
-(declare-fun ONDEMANDIMPORTDECL_19_16_7 () Int)
-(declare-fun NE_18_24_26 () Int)
-(assert (let ((?v_0 (array T_java_lang_String)) (?v_1 (array T_int))) (and (= (PO_LT T_javafe_ast_ConstructorInvocation T_javafe_ast_Stmt) true_term) (= T_javafe_ast_ConstructorInvocation (asChild T_javafe_ast_ConstructorInvocation T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_VariableAccess T_javafe_ast_Expr) true_term) (= T_javafe_ast_VariableAccess (asChild T_javafe_ast_VariableAccess T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_ImportDecl T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_ImportDecl (asChild T_javafe_ast_ImportDecl T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_TryCatchStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_TryCatchStmt (asChild T_javafe_ast_TryCatchStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_OperatorTags T_java_lang_Object) true_term) (= T_javafe_ast_OperatorTags (asChild T_javafe_ast_OperatorTags T_java_lang_Object)) (= (PO_LT T_javafe_ast_OperatorTags T_javafe_ast_GeneratedTags) true_term) (= (PO_LT T_javafe_ast_TagConstants T_javafe_ast_OperatorTags) true_term) (= T_javafe_ast_TagConstants (asChild T_javafe_ast_TagConstants T_javafe_ast_OperatorTags)) (= (PO_LT T_javafe_tc_FieldDeclVec T_java_lang_Object) true_term) (= T_javafe_tc_FieldDeclVec (asChild T_javafe_tc_FieldDeclVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_BlockStmt T_javafe_ast_GenericBlockStmt) true_term) (= T_javafe_ast_BlockStmt (asChild T_javafe_ast_BlockStmt T_javafe_ast_GenericBlockStmt)) (= (PO_LT T_javafe_ast_RoutineDecl T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_RoutineDecl (asChild T_javafe_ast_RoutineDecl T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_RoutineDecl T_javafe_ast_TypeDeclElem) true_term) (= (PO_LT T_javafe_ast_Stmt T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_Stmt (asChild T_javafe_ast_Stmt T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_Expr T_javafe_ast_VarInit) true_term) (= T_javafe_ast_Expr (asChild T_javafe_ast_Expr T_javafe_ast_VarInit)) (= (PO_LT T_javafe_ast_TypeDeclElem T_java_lang_Object) true_term) (= (PO_LT T_javafe_ast_ParenExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_ParenExpr (asChild T_javafe_ast_ParenExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_Type T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_Type (asChild T_javafe_ast_Type T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_EvalStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_EvalStmt (asChild T_javafe_ast_EvalStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_TypeObjectDesignator T_javafe_ast_ObjectDesignator) true_term) (= T_javafe_ast_TypeObjectDesignator (asChild T_javafe_ast_TypeObjectDesignator T_javafe_ast_ObjectDesignator)) (= (PO_LT T_java_lang_RuntimeException T_java_lang_Exception) true_term) (= T_java_lang_RuntimeException (asChild T_java_lang_RuntimeException T_java_lang_Exception)) (= (PO_LT T_javafe_ast_GeneratedTags T_java_lang_Object) true_term) (= (PO_LT T_javafe_ast_IfStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_IfStmt (asChild T_javafe_ast_IfStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_ArrayInit T_javafe_ast_VarInit) true_term) (= T_javafe_ast_ArrayInit (asChild T_javafe_ast_ArrayInit T_javafe_ast_VarInit)) (= (PO_LT T_java_lang_Exception T_java_lang_Throwable) true_term) (= T_java_lang_Exception (asChild T_java_lang_Exception T_java_lang_Throwable)) (= (PO_LT T_java_util_Map T_java_lang_Object) true_term) (= (PO_LT T_java_util_Map T_java_util_EscjavaKeyValue) true_term) (= (PO_LT T_java_lang_Long T_java_lang_Number) true_term) (= T_java_lang_Long (asChild T_java_lang_Long T_java_lang_Number)) (forall ((?t Int)) (= (= (PO_LT ?t T_java_lang_Long) true_term) (= ?t T_java_lang_Long))) (= (PO_LT T_java_lang_Long T_java_lang_Comparable) true_term) (= (PO_LT T_javafe_ast_CondExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_CondExpr (asChild T_javafe_ast_CondExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_util_Location T_java_lang_Object) true_term) (= T_javafe_util_Location (asChild T_javafe_util_Location T_java_lang_Object)) (= (PO_LT T_javafe_tc_MethodDeclVec T_java_lang_Object) true_term) (= T_javafe_tc_MethodDeclVec (asChild T_javafe_tc_MethodDeclVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_VarDeclStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_VarDeclStmt (asChild T_javafe_ast_VarDeclStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_MethodDecl T_javafe_ast_RoutineDecl) true_term) (= T_javafe_ast_MethodDecl (asChild T_javafe_ast_MethodDecl T_javafe_ast_RoutineDecl)) (= (PO_LT T_javafe_ast_TypeName T_javafe_ast_Type) true_term) (= T_javafe_ast_TypeName (asChild T_javafe_ast_TypeName T_javafe_ast_Type)) (= (PO_LT T_javafe_ast_LiteralExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_LiteralExpr (asChild T_javafe_ast_LiteralExpr T_javafe_ast_Expr)) (= (PO_LT T_java_lang_Throwable T_java_lang_Object) true_term) (= T_java_lang_Throwable (asChild T_java_lang_Throwable T_java_lang_Object)) (= (PO_LT T_java_lang_Throwable T_java_io_Serializable) true_term) (= (PO_LT T_javafe_ast_ThrowStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_ThrowStmt (asChild T_javafe_ast_ThrowStmt T_javafe_ast_Stmt)) (= (PO_LT T_java_lang_Boolean T_java_lang_Object) true_term) (= T_java_lang_Boolean (asChild T_java_lang_Boolean T_java_lang_Object)) (forall ((?t Int)) (= (= (PO_LT ?t T_java_lang_Boolean) true_term) (= ?t T_java_lang_Boolean))) (= (PO_LT T_java_lang_Boolean T_java_io_Serializable) true_term) (= (PO_LT T_java_io_Serializable T_java_lang_Object) true_term) (= (PO_LT T_javafe_ast_SkipStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_SkipStmt (asChild T_javafe_ast_SkipStmt T_javafe_ast_Stmt)) (= (PO_LT T_java_lang_Comparable T_java_lang_Object) true_term) (= (PO_LT T_javafe_ast_LocalVarDecl T_javafe_ast_GenericVarDecl) true_term) (= T_javafe_ast_LocalVarDecl (asChild T_javafe_ast_LocalVarDecl T_javafe_ast_GenericVarDecl)) (= (PO_LT T_javafe_ast_ObjectDesignator T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_ObjectDesignator (asChild T_javafe_ast_ObjectDesignator T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_CastExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_CastExpr (asChild T_javafe_ast_CastExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_WhileStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_WhileStmt (asChild T_javafe_ast_WhileStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_TypeDecl T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_TypeDecl (asChild T_javafe_ast_TypeDecl T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_TypeDecl T_javafe_ast_TypeDeclElem) true_term) (= (PO_LT T_javafe_ast_MethodInvocation T_javafe_ast_Expr) true_term) (= T_javafe_ast_MethodInvocation (asChild T_javafe_ast_MethodInvocation T_javafe_ast_Expr)) (= (PO_LT T_java_lang_Cloneable T_java_lang_Object) true_term) (= (PO_LT T_javafe_ast_Identifier T_java_lang_Object) true_term) (= T_javafe_ast_Identifier (asChild T_javafe_ast_Identifier T_java_lang_Object)) (forall ((?t Int)) (= (= (PO_LT ?t T_javafe_ast_Identifier) true_term) (= ?t T_javafe_ast_Identifier))) (= (PO_LT T_javafe_ast_NewInstanceExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_NewInstanceExpr (asChild T_javafe_ast_NewInstanceExpr T_javafe_ast_Expr)) (= (PO_LT T_java_util_Hashtable T_java_util_Dictionary) true_term) (= T_java_util_Hashtable (asChild T_java_util_Hashtable T_java_util_Dictionary)) (= (PO_LT T_java_util_Hashtable T_java_util_Map) true_term) (= (PO_LT T_java_util_Hashtable T_java_lang_Cloneable) true_term) (= (PO_LT T_java_util_Hashtable T_java_io_Serializable) true_term) (= (PO_LT T_javafe_tc_Env T_java_lang_Object) true_term) (= T_javafe_tc_Env (asChild T_javafe_tc_Env T_java_lang_Object)) (= (PO_LT T_javafe_ast_SingleTypeImportDecl T_javafe_ast_ImportDecl) true_term) (= T_javafe_ast_SingleTypeImportDecl (asChild T_javafe_ast_SingleTypeImportDecl T_javafe_ast_ImportDecl)) (= (PO_LT T_javafe_ast_Name T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_Name (asChild T_javafe_ast_Name T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_CompilationUnit T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_CompilationUnit (asChild T_javafe_ast_CompilationUnit T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_BreakStmt T_javafe_ast_BranchStmt) true_term) (= T_javafe_ast_BreakStmt (asChild T_javafe_ast_BreakStmt T_javafe_ast_BranchStmt)) (= (PO_LT T_java_lang_Number T_java_lang_Object) true_term) (= T_java_lang_Number (asChild T_java_lang_Number T_java_lang_Object)) (= (PO_LT T_java_lang_Number T_java_io_Serializable) true_term) (= (PO_LT T_javafe_ast_VisitorArgResult T_java_lang_Object) true_term) (= T_javafe_ast_VisitorArgResult (asChild T_javafe_ast_VisitorArgResult T_java_lang_Object)) (= (PO_LT T_java_util_EscjavaKeyValue T_java_lang_Object) true_term) (= (PO_LT T_javafe_ast_GenericBlockStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_GenericBlockStmt (asChild T_javafe_ast_GenericBlockStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_AmbiguousVariableAccess T_javafe_ast_Expr) true_term) (= T_javafe_ast_AmbiguousVariableAccess (asChild T_javafe_ast_AmbiguousVariableAccess T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_FormalParaDecl T_javafe_ast_GenericVarDecl) true_term) (= T_javafe_ast_FormalParaDecl (asChild T_javafe_ast_FormalParaDecl T_javafe_ast_GenericVarDecl)) (= (PO_LT T_javafe_ast_TryFinallyStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_TryFinallyStmt (asChild T_javafe_ast_TryFinallyStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_SuperObjectDesignator T_javafe_ast_ObjectDesignator) true_term) (= T_javafe_ast_SuperObjectDesignator (asChild T_javafe_ast_SuperObjectDesignator T_javafe_ast_ObjectDesignator)) (= (PO_LT T_javafe_ast_UnaryExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_UnaryExpr (asChild T_javafe_ast_UnaryExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_InterfaceDecl T_javafe_ast_TypeDecl) true_term) (= T_javafe_ast_InterfaceDecl (asChild T_javafe_ast_InterfaceDecl T_javafe_ast_TypeDecl)) (= (PO_LT T_javafe_ast_SynchronizeStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_SynchronizeStmt (asChild T_javafe_ast_SynchronizeStmt T_javafe_ast_Stmt)) (= (PO_LT T_java_lang_IndexOutOfBoundsException T_java_lang_RuntimeException) true_term) (= T_java_lang_IndexOutOfBoundsException (asChild T_java_lang_IndexOutOfBoundsException T_java_lang_RuntimeException)) (= (PO_LT T_javafe_ast_LabelStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_LabelStmt (asChild T_javafe_ast_LabelStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_CompoundName T_javafe_ast_Name) true_term) (= T_javafe_ast_CompoundName (asChild T_javafe_ast_CompoundName T_javafe_ast_Name)) (= (PO_LT T_javafe_ast_CatchClause T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_CatchClause (asChild T_javafe_ast_CatchClause T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_FieldAccess T_javafe_ast_Expr) true_term) (= T_javafe_ast_FieldAccess (asChild T_javafe_ast_FieldAccess T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_IdentifierVec T_java_lang_Object) true_term) (= T_javafe_ast_IdentifierVec (asChild T_javafe_ast_IdentifierVec T_java_lang_Object)) (= (PO_LT T_java_lang_Integer T_java_lang_Number) true_term) (= T_java_lang_Integer (asChild T_java_lang_Integer T_java_lang_Number)) (forall ((?t Int)) (= (= (PO_LT ?t T_java_lang_Integer) true_term) (= ?t T_java_lang_Integer))) (= (PO_LT T_java_lang_Integer T_java_lang_Comparable) true_term) (= (PO_LT T_javafe_ast_ExprVec T_java_lang_Object) true_term) (= T_javafe_ast_ExprVec (asChild T_javafe_ast_ExprVec T_java_lang_Object)) (= (PO_LT T_javafe_tc_TagConstants T_javafe_parser_TagConstants) true_term) (= T_javafe_tc_TagConstants (asChild T_javafe_tc_TagConstants T_javafe_parser_TagConstants)) (= (PO_LT T_javafe_ast_ConstructorDecl T_javafe_ast_RoutineDecl) true_term) (= T_javafe_ast_ConstructorDecl (asChild T_javafe_ast_ConstructorDecl T_javafe_ast_RoutineDecl)) (= (PO_LT T_javafe_ast_SwitchStmt T_javafe_ast_GenericBlockStmt) true_term) (= T_javafe_ast_SwitchStmt (asChild T_javafe_ast_SwitchStmt T_javafe_ast_GenericBlockStmt)) (= (PO_LT T_javafe_parser_TagConstants T_javafe_ast_TagConstants) true_term) (= T_javafe_parser_TagConstants (asChild T_javafe_parser_TagConstants T_javafe_ast_TagConstants)) (= (PO_LT T_javafe_ast_ASTNode T_java_lang_Object) true_term) (= T_javafe_ast_ASTNode (asChild T_javafe_ast_ASTNode T_java_lang_Object)) (= (PO_LT T_javafe_ast_ASTNode T_java_lang_Cloneable) true_term) (= (PO_LT T_java_lang_Double T_java_lang_Number) true_term) (= T_java_lang_Double (asChild T_java_lang_Double T_java_lang_Number)) (forall ((?t Int)) (= (= (PO_LT ?t T_java_lang_Double) true_term) (= ?t T_java_lang_Double))) (= (PO_LT T_java_lang_Double T_java_lang_Comparable) true_term) (= (PO_LT T_javafe_ast_PrimitiveType T_javafe_ast_Type) true_term) (= T_javafe_ast_PrimitiveType (asChild T_javafe_ast_PrimitiveType T_javafe_ast_Type)) (= (PO_LT T_javafe_ast_ReturnStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_ReturnStmt (asChild T_javafe_ast_ReturnStmt T_javafe_ast_Stmt)) (= (PO_LT T_java_lang_Float T_java_lang_Number) true_term) (= T_java_lang_Float (asChild T_java_lang_Float T_java_lang_Number)) (forall ((?t Int)) (= (= (PO_LT ?t T_java_lang_Float) true_term) (= ?t T_java_lang_Float))) (= (PO_LT T_java_lang_Float T_java_lang_Comparable) true_term) (= (PO_LT T_javafe_ast_ThisExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_ThisExpr (asChild T_javafe_ast_ThisExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_VarInit T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_VarInit (asChild T_javafe_ast_VarInit T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_ExprObjectDesignator T_javafe_ast_ObjectDesignator) true_term) (= T_javafe_ast_ExprObjectDesignator (asChild T_javafe_ast_ExprObjectDesignator T_javafe_ast_ObjectDesignator)) (= (PO_LT T_java_util_Dictionary T_java_lang_Object) true_term) (= T_java_util_Dictionary (asChild T_java_util_Dictionary T_java_lang_Object)) (= (PO_LT T_java_util_Dictionary T_java_util_EscjavaKeyValue) true_term) (= (PO_LT T_javafe_ast_ForStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_ForStmt (asChild T_javafe_ast_ForStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_InstanceOfExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_InstanceOfExpr (asChild T_javafe_ast_InstanceOfExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_GenericVarDecl T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_GenericVarDecl (asChild T_javafe_ast_GenericVarDecl T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_OnDemandImportDecl T_javafe_ast_ImportDecl) true_term) (= T_javafe_ast_OnDemandImportDecl (asChild T_javafe_ast_OnDemandImportDecl T_javafe_ast_ImportDecl)) (= (PO_LT T_javafe_ast_ClassDeclStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_ClassDeclStmt (asChild T_javafe_ast_ClassDeclStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_tc_TypeSig T_javafe_ast_Type) true_term) (= T_javafe_tc_TypeSig (asChild T_javafe_tc_TypeSig T_javafe_ast_Type)) (= (PO_LT T_javafe_ast_InitBlock T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_InitBlock (asChild T_javafe_ast_InitBlock T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_InitBlock T_javafe_ast_TypeDeclElem) true_term) (= (PO_LT T_javafe_ast_ArrayRefExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_ArrayRefExpr (asChild T_javafe_ast_ArrayRefExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_ArrayType T_javafe_ast_Type) true_term) (= T_javafe_ast_ArrayType (asChild T_javafe_ast_ArrayType T_javafe_ast_Type)) (= (PO_LT T_javafe_ast_BranchStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_BranchStmt (asChild T_javafe_ast_BranchStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_ASTDecoration T_java_lang_Object) true_term) (= T_javafe_ast_ASTDecoration (asChild T_javafe_ast_ASTDecoration T_java_lang_Object)) (= (PO_LT T_javafe_ast_VarInitVec T_java_lang_Object) true_term) (= T_javafe_ast_VarInitVec (asChild T_javafe_ast_VarInitVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_Visitor T_java_lang_Object) true_term) (= T_javafe_ast_Visitor (asChild T_javafe_ast_Visitor T_java_lang_Object)) (= (PO_LT T_javafe_ast_SwitchLabel T_javafe_ast_Stmt) true_term) (= T_javafe_ast_SwitchLabel (asChild T_javafe_ast_SwitchLabel T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_FieldDecl T_javafe_ast_GenericVarDecl) true_term) (= T_javafe_ast_FieldDecl (asChild T_javafe_ast_FieldDecl T_javafe_ast_GenericVarDecl)) (= (PO_LT T_javafe_ast_FieldDecl T_javafe_ast_TypeDeclElem) true_term) (= (PO_LT T_javafe_ast_BinaryExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_BinaryExpr (asChild T_javafe_ast_BinaryExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_ClassDecl T_javafe_ast_TypeDecl) true_term) (= T_javafe_ast_ClassDecl (asChild T_javafe_ast_ClassDecl T_javafe_ast_TypeDecl)) (= (PO_LT T_javafe_ast_ClassLiteral T_javafe_ast_Expr) true_term) (= T_javafe_ast_ClassLiteral (asChild T_javafe_ast_ClassLiteral T_javafe_ast_Expr)) (= (PO_LT T_java_lang_String T_java_lang_Object) true_term) (= T_java_lang_String (asChild T_java_lang_String T_java_lang_Object)) (forall ((?t Int)) (= (= (PO_LT ?t T_java_lang_String) true_term) (= ?t T_java_lang_String))) (= (PO_LT T_java_lang_String T_java_io_Serializable) true_term) (= (PO_LT T_java_lang_String T_java_lang_Comparable) true_term) (= (PO_LT T_javafe_ast_DoStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_DoStmt (asChild T_javafe_ast_DoStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_NewArrayExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_NewArrayExpr (asChild T_javafe_ast_NewArrayExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_AmbiguousMethodInvocation T_javafe_ast_Expr) true_term) (= T_javafe_ast_AmbiguousMethodInvocation (asChild T_javafe_ast_AmbiguousMethodInvocation T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_ContinueStmt T_javafe_ast_BranchStmt) true_term) (= T_javafe_ast_ContinueStmt (asChild T_javafe_ast_ContinueStmt T_javafe_ast_BranchStmt)) (= (PO_LT T_javafe_ast_SimpleName T_javafe_ast_Name) true_term) (= T_javafe_ast_SimpleName (asChild T_javafe_ast_SimpleName T_javafe_ast_Name)) (and (= arrayType (+ DIST_ZERO_1 0)) (= T_boolean (+ DIST_ZERO_1 1)) (= T_char (+ DIST_ZERO_1 2)) (= T_byte (+ DIST_ZERO_1 3)) (= T_short (+ DIST_ZERO_1 4)) (= T_int (+ DIST_ZERO_1 5)) (= T_long (+ DIST_ZERO_1 6)) (= T_float (+ DIST_ZERO_1 7)) (= T_double (+ DIST_ZERO_1 8)) (= T__TYPE (+ DIST_ZERO_1 9)) (= T_javafe_ast_ConstructorInvocation (+ DIST_ZERO_1 10)) (= T_javafe_ast_VariableAccess (+ DIST_ZERO_1 11)) (= T_javafe_ast_ImportDecl (+ DIST_ZERO_1 12)) (= T_javafe_ast_TryCatchStmt (+ DIST_ZERO_1 13)) (= T_javafe_ast_OperatorTags (+ DIST_ZERO_1 14)) (= T_javafe_ast_TagConstants (+ DIST_ZERO_1 15)) (= T_javafe_tc_FieldDeclVec (+ DIST_ZERO_1 16)) (= T_javafe_ast_BlockStmt (+ DIST_ZERO_1 17)) (= T_javafe_ast_RoutineDecl (+ DIST_ZERO_1 18)) (= T_javafe_ast_Stmt (+ DIST_ZERO_1 19)) (= T_javafe_ast_Expr (+ DIST_ZERO_1 20)) (= T_javafe_ast_TypeDeclElem (+ DIST_ZERO_1 21)) (= T_javafe_ast_ParenExpr (+ DIST_ZERO_1 22)) (= T_javafe_ast_Type (+ DIST_ZERO_1 23)) (= T_javafe_ast_EvalStmt (+ DIST_ZERO_1 24)) (= T_javafe_ast_TypeObjectDesignator (+ DIST_ZERO_1 25)) (= T_java_lang_RuntimeException (+ DIST_ZERO_1 26)) (= T_javafe_ast_GeneratedTags (+ DIST_ZERO_1 27)) (= T_javafe_ast_IfStmt (+ DIST_ZERO_1 28)) (= T_javafe_ast_ArrayInit (+ DIST_ZERO_1 29)) (= T_java_lang_Exception (+ DIST_ZERO_1 30)) (= T_java_util_Map (+ DIST_ZERO_1 31)) (= T_java_lang_Long (+ DIST_ZERO_1 32)) (= T_javafe_ast_CondExpr (+ DIST_ZERO_1 33)) (= T_javafe_util_Location (+ DIST_ZERO_1 34)) (= T_javafe_tc_MethodDeclVec (+ DIST_ZERO_1 35)) (= T_javafe_ast_VarDeclStmt (+ DIST_ZERO_1 36)) (= T_javafe_ast_MethodDecl (+ DIST_ZERO_1 37)) (= T_javafe_ast_TypeName (+ DIST_ZERO_1 38)) (= T_javafe_ast_LiteralExpr (+ DIST_ZERO_1 39)) (= T_java_lang_Throwable (+ DIST_ZERO_1 40)) (= T_javafe_ast_ThrowStmt (+ DIST_ZERO_1 41)) (= T_java_lang_Boolean (+ DIST_ZERO_1 42)) (= T_java_io_Serializable (+ DIST_ZERO_1 43)) (= T_javafe_ast_SkipStmt (+ DIST_ZERO_1 44)) (= T_java_lang_Comparable (+ DIST_ZERO_1 45)) (= T_javafe_ast_LocalVarDecl (+ DIST_ZERO_1 46)) (= T_javafe_ast_ObjectDesignator (+ DIST_ZERO_1 47)) (= T_javafe_ast_CastExpr (+ DIST_ZERO_1 48)) (= T_javafe_ast_WhileStmt (+ DIST_ZERO_1 49)) (= T_javafe_ast_TypeDecl (+ DIST_ZERO_1 50)) (= T_javafe_ast_MethodInvocation (+ DIST_ZERO_1 51)) (= T_java_lang_Cloneable (+ DIST_ZERO_1 52)) (= T_javafe_ast_Identifier (+ DIST_ZERO_1 53)) (= T_javafe_ast_NewInstanceExpr (+ DIST_ZERO_1 54)) (= T_java_lang_Object (+ DIST_ZERO_1 55)) (= T_java_util_Hashtable (+ DIST_ZERO_1 56)) (= T_javafe_tc_Env (+ DIST_ZERO_1 57)) (= T_javafe_ast_SingleTypeImportDecl (+ DIST_ZERO_1 58)) (= T_javafe_ast_Name (+ DIST_ZERO_1 59)) (= T_javafe_ast_CompilationUnit (+ DIST_ZERO_1 60)) (= T_javafe_ast_BreakStmt (+ DIST_ZERO_1 61)) (= T_java_lang_Number (+ DIST_ZERO_1 62)) (= T_javafe_ast_VisitorArgResult (+ DIST_ZERO_1 63)) (= T_java_util_EscjavaKeyValue (+ DIST_ZERO_1 64)) (= T_javafe_ast_GenericBlockStmt (+ DIST_ZERO_1 65)) (= T_javafe_ast_AmbiguousVariableAccess (+ DIST_ZERO_1 66)) (= T_javafe_ast_FormalParaDecl (+ DIST_ZERO_1 67)) (= T_javafe_ast_TryFinallyStmt (+ DIST_ZERO_1 68)) (= T_javafe_ast_SuperObjectDesignator (+ DIST_ZERO_1 69)) (= T_javafe_ast_UnaryExpr (+ DIST_ZERO_1 70)) (= T_javafe_ast_InterfaceDecl (+ DIST_ZERO_1 71)) (= T_javafe_ast_SynchronizeStmt (+ DIST_ZERO_1 72)) (= T_java_lang_IndexOutOfBoundsException (+ DIST_ZERO_1 73)) (= T_javafe_ast_LabelStmt (+ DIST_ZERO_1 74)) (= T_javafe_ast_CompoundName (+ DIST_ZERO_1 75)) (= T_javafe_ast_CatchClause (+ DIST_ZERO_1 76)) (= T_javafe_ast_FieldAccess (+ DIST_ZERO_1 77)) (= T_javafe_ast_IdentifierVec (+ DIST_ZERO_1 78)) (= T_java_lang_Integer (+ DIST_ZERO_1 79)) (= T_javafe_ast_ExprVec (+ DIST_ZERO_1 80)) (= T_javafe_tc_TagConstants (+ DIST_ZERO_1 81)) (= T_javafe_ast_ConstructorDecl (+ DIST_ZERO_1 82)) (= T_javafe_ast_SwitchStmt (+ DIST_ZERO_1 83)) (= T_javafe_parser_TagConstants (+ DIST_ZERO_1 84)) (= T_javafe_ast_ASTNode (+ DIST_ZERO_1 85)) (= T_java_lang_Double (+ DIST_ZERO_1 86)) (= T_javafe_ast_PrimitiveType (+ DIST_ZERO_1 87)) (= T_javafe_ast_ReturnStmt (+ DIST_ZERO_1 88)) (= T_java_lang_Float (+ DIST_ZERO_1 89)) (= T_javafe_ast_ThisExpr (+ DIST_ZERO_1 90)) (= T_javafe_ast_VarInit (+ DIST_ZERO_1 91)) (= T_javafe_ast_ExprObjectDesignator (+ DIST_ZERO_1 92)) (= T_java_util_Dictionary (+ DIST_ZERO_1 93)) (= T_javafe_ast_ForStmt (+ DIST_ZERO_1 94)) (= T_javafe_ast_InstanceOfExpr (+ DIST_ZERO_1 95)) (= T_javafe_ast_GenericVarDecl (+ DIST_ZERO_1 96)) (= T_javafe_ast_OnDemandImportDecl (+ DIST_ZERO_1 97)) (= T_javafe_ast_ClassDeclStmt (+ DIST_ZERO_1 98)) (= T_javafe_tc_TypeSig (+ DIST_ZERO_1 99)) (= T_javafe_ast_InitBlock (+ DIST_ZERO_1 100)) (= T_javafe_ast_ArrayRefExpr (+ DIST_ZERO_1 101)) (= T_javafe_ast_ArrayType (+ DIST_ZERO_1 102)) (= T_javafe_ast_BranchStmt (+ DIST_ZERO_1 103)) (= T_javafe_ast_ASTDecoration (+ DIST_ZERO_1 104)) (= T_javafe_ast_VarInitVec (+ DIST_ZERO_1 105)) (= T_javafe_ast_Visitor (+ DIST_ZERO_1 106)) (= T_javafe_ast_SwitchLabel (+ DIST_ZERO_1 107)) (= T_javafe_ast_FieldDecl (+ DIST_ZERO_1 108)) (= T_javafe_ast_BinaryExpr (+ DIST_ZERO_1 109)) (= T_javafe_ast_ClassDecl (+ DIST_ZERO_1 110)) (= T_javafe_ast_ClassLiteral (+ DIST_ZERO_1 111)) (= T_java_lang_String (+ DIST_ZERO_1 112)) (= T_javafe_ast_DoStmt (+ DIST_ZERO_1 113)) (= T_javafe_ast_NewArrayExpr (+ DIST_ZERO_1 114)) (= T_javafe_ast_AmbiguousMethodInvocation (+ DIST_ZERO_1 115)) (= T_javafe_ast_ContinueStmt (+ DIST_ZERO_1 116)) (= T_javafe_ast_SimpleName (+ DIST_ZERO_1 117))) (= true_term (is TRYCATCHSTMT_19_43_7 T_int)) (= TRYCATCHSTMT_19_43_7 29) (= true_term (is UNARYSUB_18_55_26 T_int)) (= UNARYSUB_18_55_26 86) (= true_term (is TYPEDECLELEMPRAGMA_29_27_26 T_int)) (= TYPEDECLELEMPRAGMA_29_27_26 117) (= true_term (is SHORTTYPE_17_36_26 T_int)) (= SHORTTYPE_17_36_26 103) (= true_term (is WHILESTMT_19_29_7 T_int)) (= WHILESTMT_19_29_7 15) (= true_term (is STAR_18_37_26 T_int)) (= STAR_18_37_26 72) (= true_term (is VARIABLEACCESS_19_56_7 T_int)) (= VARIABLEACCESS_19_56_7 42) (= true_term (is SINGLETYPEIMPORTDECL_19_15_7 T_int)) (= SINGLETYPEIMPORTDECL_19_15_7 1) (= true_term (is BITAND_18_23_26 T_int)) (= BITAND_18_23_26 58) (= true_term (is TRYFINALLYSTMT_19_42_7 T_int)) (= TRYFINALLYSTMT_19_42_7 28) (= true_term (is UNARYADD_18_54_26 T_int)) (= UNARYADD_18_54_26 85) (= true_term (is BYTETYPE_17_35_26 T_int)) (= BYTETYPE_17_35_26 102) (= true_term (is CLASSDECLSTMT_19_28_7 T_int)) (= CLASSDECLSTMT_19_28_7 14) (= true_term (is MOD_18_36_26 T_int)) (= MOD_18_36_26 71) (= true_term (is STMTPRAGMA_29_26_26 T_int)) (= STMTPRAGMA_29_26_26 116) (= true_term (is AMBIGUOUSVARIABLEACCESS_19_55_7 T_int)) (= AMBIGUOUSVARIABLEACCESS_19_55_7 41) (= true_term (is COMPILATIONUNIT_19_14_7 T_int)) (= COMPILATIONUNIT_19_14_7 0) (= true_term (is BITXOR_18_22_26 T_int)) (= BITXOR_18_22_26 57) (= true_term (is SWITCHLABEL_19_41_7 T_int)) (= SWITCHLABEL_19_41_7 27) (= true_term (is ASGBITXOR_18_51_26 T_int)) (= ASGBITXOR_18_51_26 84) (= true_term (is punctuationStrings_29_134_22 ?v_0)) (not (= punctuationStrings_29_134_22 null)) (= (typeof punctuationStrings_29_134_22) ?v_0) (= (arrayLength punctuationStrings_29_134_22) 48) (= true_term (is NULLTYPE_17_34_26 T_int)) (= NULLTYPE_17_34_26 101) (= true_term (is VARDECLSTMT_19_27_7 T_int)) (= VARDECLSTMT_19_27_7 13) (= true_term (is DIV_18_35_26 T_int)) (= DIV_18_35_26 70) (= true_term (is otherStrings_29_193_30 ?v_0)) (not (= otherStrings_29_193_30 null)) (= (typeof otherStrings_29_193_30) ?v_0) (= (arrayLength otherStrings_29_193_30) 15) (= true_term (is PARENEXPR_19_54_7 T_int)) (= PARENEXPR_19_54_7 40) (= true_term (is BITOR_18_21_26 T_int)) (= BITOR_18_21_26 56) (= true_term (is MODIFIERPRAGMA_29_25_26 T_int)) (= MODIFIERPRAGMA_29_25_26 115) (= true_term (is noTokens_29_212_27 T_int)) (= true_term (is SKIPSTMT_19_40_7 T_int)) (= SKIPSTMT_19_40_7 26) (= true_term (is ASGBITOR_18_50_26 T_int)) (= ASGBITOR_18_50_26 83) (= true_term (is COMPOUNDNAME_19_67_7 T_int)) (= COMPOUNDNAME_19_67_7 53) (= true_term (is VOIDTYPE_17_33_26 T_int)) (= VOIDTYPE_17_33_26 100) (= true_term (is SWITCHSTMT_19_26_7 T_int)) (= SWITCHSTMT_19_26_7 12) (= true_term (is SUB_18_34_26 T_int)) (= SUB_18_34_26 69) (= true_term (is CASTEXPR_19_53_7 T_int)) (= CASTEXPR_19_53_7 39) (= true_term (is TYPESIG_28_6_28 T_int)) (= TYPESIG_28_6_28 184) (= true_term (is FORSTMT_19_39_7 T_int)) (= FORSTMT_19_39_7 25) (= true_term (is LEXICALPRAGMA_29_24_26 T_int)) (= LEXICALPRAGMA_29_24_26 114) (= true_term (is ASGBITAND_18_49_26 T_int)) (= ASGBITAND_18_49_26 82) (= true_term (is SIMPLENAME_19_66_7 T_int)) (= SIMPLENAME_19_66_7 52) (= true_term (is DOUBLETYPE_17_32_26 T_int)) (= DOUBLETYPE_17_32_26 99) (= true_term (is BLOCKSTMT_19_25_7 T_int)) (= BLOCKSTMT_19_25_7 11) (= true_term (is ADD_18_33_26 T_int)) (= ADD_18_33_26 68) (= true_term (is FIRST_KEYWORD_29_51_26 T_int)) (= FIRST_KEYWORD_29_51_26 133) (= true_term (is INSTANCEOFEXPR_19_52_7 T_int)) (= INSTANCEOFEXPR_19_52_7 38) (= true_term (is AND_18_20_26 T_int)) (= AND_18_20_26 55) (= true_term (is IFSTMT_19_38_7 T_int)) (= IFSTMT_19_38_7 24) (= true_term (is LAST_KEYWORD_29_103_26 T_int)) (= LAST_KEYWORD_29_103_26 183) (= true_term (is ASGURSHIFT_18_48_26 T_int)) (= ASGURSHIFT_18_48_26 81) (= true_term (is ARRAYTYPE_19_65_7 T_int)) (= ARRAYTYPE_19_65_7 51) (= true_term (is FORMALPARADECL_19_24_7 T_int)) (= FORMALPARADECL_19_24_7 10) (= true_term (is FLOATTYPE_17_31_26 T_int)) (= FLOATTYPE_17_31_26 98) (= true_term (is URSHIFT_18_32_26 T_int)) (= URSHIFT_18_32_26 67) (= true_term (is CONDEXPR_19_51_7 T_int)) (= CONDEXPR_19_51_7 37) (= true_term (is OR_18_19_26 T_int)) (= OR_18_19_26 54) (= true_term (is LABELSTMT_19_37_7 T_int)) (= LABELSTMT_19_37_7 23) (= true_term (is NULLLIT_17_45_26 T_int)) (= NULLLIT_17_45_26 111) (= true_term (is ASGRSHIFT_18_47_26 T_int)) (= ASGRSHIFT_18_47_26 80) (= true_term (is NULL_29_82_26 T_int)) (= NULL_29_82_26 163) (= true_term (is TYPENAME_19_64_7 T_int)) (= TYPENAME_19_64_7 50) (= true_term (is CHARTYPE_17_30_26 T_int)) (= CHARTYPE_17_30_26 97) (= true_term (is FIELDDECL_19_23_7 T_int)) (= FIELDDECL_19_23_7 9) (= true_term (is RSHIFT_18_31_26 T_int)) (= RSHIFT_18_31_26 66) (= true_term (is NEWARRAYEXPR_19_50_7 T_int)) (= NEWARRAYEXPR_19_50_7 36) (= true_term (is CONTINUESTMT_19_36_7 T_int)) (= CONTINUESTMT_19_36_7 22) (= true_term (is STRINGLIT_17_44_26 T_int)) (= STRINGLIT_17_44_26 110) (= true_term (is ASGLSHIFT_18_46_26 T_int)) (= ASGLSHIFT_18_46_26 79) (= true_term (is SUPEROBJECTDESIGNATOR_19_63_7 T_int)) (= SUPEROBJECTDESIGNATOR_19_63_7 49) (= true_term (is LONGTYPE_17_29_26 T_int)) (= LONGTYPE_17_29_26 96) (= true_term (is LOCALVARDECL_19_22_7 T_int)) (= LOCALVARDECL_19_22_7 8) (= true_term (is LSHIFT_18_30_26 T_int)) (= LSHIFT_18_30_26 65) (= true_term (is NEWINSTANCEEXPR_19_49_7 T_int)) (= NEWINSTANCEEXPR_19_49_7 35) (= true_term (is POSTFIXDEC_18_63_26 T_int)) (= POSTFIXDEC_18_63_26 92) (= true_term (is BREAKSTMT_19_35_7 T_int)) (= BREAKSTMT_19_35_7 21) (= true_term (is DOUBLELIT_17_43_26 T_int)) (= DOUBLELIT_17_43_26 109) (= true_term (is ASGSUB_18_45_26 T_int)) (= ASGSUB_18_45_26 78) (= true_term (is TYPEOBJECTDESIGNATOR_19_62_7 T_int)) (= TYPEOBJECTDESIGNATOR_19_62_7 48) (= true_term (is INTTYPE_17_28_26 T_int)) (= INTTYPE_17_28_26 95) (= true_term (is INITBLOCK_19_21_7 T_int)) (= INITBLOCK_19_21_7 7) (= true_term (is LT_18_29_26 T_int)) (= LT_18_29_26 64) (= true_term (is ARRAYREFEXPR_19_48_7 T_int)) (= ARRAYREFEXPR_19_48_7 34) (= true_term (is POSTFIXINC_18_62_26 T_int)) (= POSTFIXINC_18_62_26 91) (= true_term (is THROWSTMT_19_34_7 T_int)) (= THROWSTMT_19_34_7 20) (= true_term (is FLOATLIT_17_42_26 T_int)) (= FLOATLIT_17_42_26 108) (= true_term (is ASGADD_18_44_26 T_int)) (= ASGADD_18_44_26 77) (= true_term (is EXPROBJECTDESIGNATOR_19_61_7 T_int)) (= EXPROBJECTDESIGNATOR_19_61_7 47) (= true_term (is otherCodes_29_202_27 ?v_1)) (not (= otherCodes_29_202_27 null)) (= (typeof otherCodes_29_202_27) ?v_1) (= (arrayLength otherCodes_29_202_27) 15) (= true_term (is BOOLEANTYPE_17_27_26 T_int)) (= BOOLEANTYPE_17_27_26 94) (= true_term (is METHODDECL_19_20_7 T_int)) (= METHODDECL_19_20_7 6) (= true_term (is LE_18_28_26 T_int)) (= LE_18_28_26 63) (= true_term (is THISEXPR_19_47_7 T_int)) (= THISEXPR_19_47_7 33) (= true_term (is DEC_18_59_26 T_int)) (= DEC_18_59_26 90) (= true_term (is CHARLIT_17_41_26 T_int)) (= CHARLIT_17_41_26 107) (= true_term (is RETURNSTMT_19_33_7 T_int)) (= RETURNSTMT_19_33_7 19) (= true_term (is punctuationCodes_29_164_19 ?v_1)) (not (= punctuationCodes_29_164_19 null)) (= (typeof punctuationCodes_29_164_19) ?v_1) (= (arrayLength punctuationCodes_29_164_19) 48) (= true_term (is ASGREM_18_43_26 T_int)) (= ASGREM_18_43_26 76) (= true_term (is CLASSLITERAL_19_60_7 T_int)) (= CLASSLITERAL_19_60_7 46) (= true_term (is IDENT_17_25_26 T_int)) (= IDENT_17_25_26 93) (= true_term (is CONSTRUCTORDECL_19_19_7 T_int)) (= CONSTRUCTORDECL_19_19_7 5) (= true_term (is GT_18_27_26 T_int)) (= GT_18_27_26 62) (= true_term (is ARRAYINIT_19_46_7 T_int)) (= ARRAYINIT_19_46_7 32) (= true_term (is INC_18_58_26 T_int)) (= INC_18_58_26 89) (= true_term (is LONGLIT_17_40_26 T_int)) (= LONGLIT_17_40_26 106) (= true_term (is EVALSTMT_19_32_7 T_int)) (= EVALSTMT_19_32_7 18) (= true_term (is ASGDIV_18_42_26 T_int)) (= ASGDIV_18_42_26 75) (= true_term (is METHODINVOCATION_19_59_7 T_int)) (= METHODINVOCATION_19_59_7 45) (= true_term (is INTERFACEDECL_19_18_7 T_int)) (= INTERFACEDECL_19_18_7 4) (= true_term (is GE_18_26_26 T_int)) (= GE_18_26_26 61) (= true_term (is CATCHCLAUSE_19_45_7 T_int)) (= CATCHCLAUSE_19_45_7 31) (= true_term (is BITNOT_18_57_26 T_int)) (= BITNOT_18_57_26 88) (= true_term (is keywordStrings_29_181_30 ?v_0)) (not (= keywordStrings_29_181_30 null)) (= (typeof keywordStrings_29_181_30) ?v_0) (= (arrayLength keywordStrings_29_181_30) 51) (= true_term (is NULL_13_60_26 T_int)) (= NULL_13_60_26 0) (= true_term (is SYNCHRONIZESTMT_19_31_7 T_int)) (= SYNCHRONIZESTMT_19_31_7 17) (= true_term (is INTLIT_17_39_26 T_int)) (= INTLIT_17_39_26 105) (= true_term (is ASGMUL_18_41_26 T_int)) (= ASGMUL_18_41_26 74) (= true_term (is AMBIGUOUSMETHODINVOCATION_19_58_7 T_int)) (= AMBIGUOUSMETHODINVOCATION_19_58_7 44) (= true_term (is CLASSDECL_19_17_7 T_int)) (= CLASSDECL_19_17_7 3) (= true_term (is EQ_18_25_26 T_int)) (= EQ_18_25_26 60) (= true_term (is TYPEMODIFIERPRAGMA_29_28_26 T_int)) (= TYPEMODIFIERPRAGMA_29_28_26 118) (= true_term (is CONSTRUCTORINVOCATION_19_44_7 T_int)) (= CONSTRUCTORINVOCATION_19_44_7 30) (= true_term (is NOT_18_56_26 T_int)) (= NOT_18_56_26 87) (= true_term (is BOOLEANLIT_17_38_26 T_int)) (= BOOLEANLIT_17_38_26 104) (= true_term (is DOSTMT_19_30_7 T_int)) (= DOSTMT_19_30_7 16) (= true_term (is ASSIGN_18_40_26 T_int)) (= ASSIGN_18_40_26 73) (= true_term (is FIELDACCESS_19_57_7 T_int)) (= FIELDACCESS_19_57_7 43) (= true_term (is ONDEMANDIMPORTDECL_19_16_7 T_int)) (= ONDEMANDIMPORTDECL_19_16_7 2) (= true_term (is NE_18_24_26 T_int)) (= NE_18_24_26 59))))
-(declare-fun locOpenBrace_pre_80_36_13 () Int)
-(declare-fun locOpenBrace_80_36_13 () Int)
-(declare-fun TRYCATCHSTMT_pre_19_43_7 () Int)
-(declare-fun UNARYSUB_pre_18_55_26 () Int)
-(declare-fun TYPEDECLELEMPRAGMA_pre_29_27_26 () Int)
-(declare-fun SHORTTYPE_pre_17_36_26 () Int)
-(declare-fun WHILESTMT_pre_19_29_7 () Int)
-(declare-fun body_pre_80_34_19 () Int)
-(declare-fun body_80_34_19 () Int)
-(declare-fun STAR_pre_18_37_26 () Int)
-(declare-fun elems_pre_18_34 () Int)
-(declare-fun elems_18_34 () Int)
-(declare-fun enclosingInstance_pre_122_25_14 () Int)
-(declare-fun enclosingInstance_122_25_14 () Int)
-(declare-fun loc_pre_110_18_13 () Int)
-(declare-fun loc_110_18_13 () Int)
-(declare-fun elements_pre_124_61_33 () Int)
-(declare-fun elements_124_61_33 () Int)
-(declare-fun loc_pre_122_49_13 () Int)
-(declare-fun loc_122_49_13 () Int)
-(declare-fun VARIABLEACCESS_pre_19_56_7 () Int)
-(declare-fun SINGLETYPEIMPORTDECL_pre_19_15_7 () Int)
-(declare-fun BITAND_pre_18_23_26 () Int)
-(declare-fun locCloseBrace_pre_90_25_13 () Int)
-(declare-fun locCloseBrace_90_25_13 () Int)
-(declare-fun loc_pre_139_20_13 () Int)
-(declare-fun loc_139_20_13 () Int)
-(declare-fun TRYFINALLYSTMT_pre_19_42_7 () Int)
-(declare-fun UNARYADD_pre_18_54_26 () Int)
-(declare-fun locFirstSemi_pre_114_36_13 () Int)
-(declare-fun locFirstSemi_114_36_13 () Int)
-(declare-fun elemType_pre_138_18_28 () Int)
-(declare-fun elemType_138_18_28 () Int)
-(declare-fun BYTETYPE_pre_17_35_26 () Int)
-(declare-fun CLASSDECLSTMT_pre_19_28_7 () Int)
-(declare-fun MOD_pre_18_36_26 () Int)
-(declare-fun STMTPRAGMA_pre_29_26_26 () Int)
-(declare-fun op_pre_26_26_13 () Int)
-(declare-fun op_26_26_13 () Int)
-(declare-fun init_pre_123_35_19 () Int)
-(declare-fun init_123_35_19 () Int)
-(declare-fun AMBIGUOUSVARIABLEACCESS_pre_19_55_7 () Int)
-(declare-fun COMPILATIONUNIT_pre_19_14_7 () Int)
-(declare-fun BITXOR_pre_18_22_26 () Int)
-(declare-fun locCloseParen_pre_127_24_13 () Int)
-(declare-fun locCloseParen_127_24_13 () Int)
-(declare-fun locKeyword_pre_119_45_13 () Int)
-(declare-fun locKeyword_119_45_13 () Int)
-(declare-fun SWITCHLABEL_pre_19_41_7 () Int)
-(declare-fun ASGBITXOR_pre_18_51_26 () Int)
-(declare-fun punctuationStrings_pre_29_134_22 () Int)
-(declare-fun locOpenParen_pre_105_23_13 () Int)
-(declare-fun locOpenParen_105_23_13 () Int)
-(declare-fun tag_pre_27_30_13 () Int)
-(declare-fun tag_27_30_13 () Int)
-(declare-fun loc_pre_62_45_13 () Int)
-(declare-fun loc_62_45_13 () Int)
-(declare-fun loc_pre_93_18_13 () Int)
-(declare-fun loc_93_18_13 () Int)
-(declare-fun elements_pre_14_61_36 () Int)
-(declare-fun elements_14_61_36 () Int)
-(declare-fun NULLTYPE_pre_17_34_26 () Int)
-(declare-fun VARDECLSTMT_pre_19_27_7 () Int)
-(declare-fun DIV_pre_18_35_26 () Int)
-(declare-fun locOpenParen_pre_128_18_13 () Int)
-(declare-fun locOpenParen_128_18_13 () Int)
-(declare-fun type_pre_126_18_28 () Int)
-(declare-fun type_126_18_28 () Int)
-(declare-fun count_pre_124_67_33 () Int)
-(declare-fun count_124_67_33 () Int)
-(declare-fun otherStrings_pre_29_193_30 () Int)
-(declare-fun loc_pre_23_50_13 () Int)
-(declare-fun loc_23_50_13 () Int)
-(declare-fun PARENEXPR_pre_19_54_7 () Int)
-(declare-fun loc_pre_83_29_13 () Int)
-(declare-fun loc_83_29_13 () Int)
-(declare-fun BITOR_pre_18_21_26 () Int)
-(declare-fun loc_pre_100_18_13 () Int)
-(declare-fun loc_100_18_13 () Int)
-(declare-fun MODIFIERPRAGMA_pre_29_25_26 () Int)
-(declare-fun noTokens_pre_29_212_27 () Int)
-(declare-fun tag_pre_23_32_13 () Int)
-(declare-fun tag_23_32_13 () Int)
-(declare-fun SKIPSTMT_pre_19_40_7 () Int)
-(declare-fun ASGBITOR_pre_18_50_26 () Int)
-(declare-fun loc_pre_118_23_13 () Int)
-(declare-fun loc_118_23_13 () Int)
-(declare-fun superCall_pre_119_24_17 () Int)
-(declare-fun superCall_119_24_17 () Int)
-(declare-fun locQuestion_pre_125_22_13 () Int)
-(declare-fun locQuestion_125_22_13 () Int)
-(declare-fun COMPOUNDNAME_pre_19_67_7 () Int)
-(declare-fun VOIDTYPE_pre_17_33_26 () Int)
-(declare-fun SWITCHSTMT_pre_19_26_7 () Int)
-(declare-fun SUB_pre_18_34_26 () Int)
-(declare-fun locDot_pre_84_21_13 () Int)
-(declare-fun locDot_84_21_13 () Int)
-(declare-fun CASTEXPR_pre_19_53_7 () Int)
-(declare-fun locSuper_pre_137_20_13 () Int)
-(declare-fun locSuper_137_20_13 () Int)
-(declare-fun TYPESIG_pre_28_6_28 () Int)
-(declare-fun FORSTMT_pre_19_39_7 () Int)
-(declare-fun count_pre_14_67_33 () Int)
-(declare-fun count_14_67_33 () Int)
-(declare-fun locOpenBrace_pre_90_22_13 () Int)
-(declare-fun locOpenBrace_90_22_13 () Int)
-(declare-fun LEXICALPRAGMA_pre_29_24_26 () Int)
-(declare-fun ASGBITAND_pre_18_49_26 () Int)
-(declare-fun locDot_pre_133_23_13 () Int)
-(declare-fun locDot_133_23_13 () Int)
-(declare-fun SIMPLENAME_pre_19_66_7 () Int)
-(declare-fun DOUBLETYPE_pre_17_32_26 () Int)
-(declare-fun BLOCKSTMT_pre_19_25_7 () Int)
-(declare-fun locId_pre_112_20_13 () Int)
-(declare-fun locId_112_20_13 () Int)
-(declare-fun ADD_pre_18_33_26 () Int)
-(declare-fun locId_pre_80_43_13 () Int)
-(declare-fun locId_80_43_13 () Int)
-(declare-fun FIRST_KEYWORD_pre_29_51_26 () Int)
-(declare-fun INSTANCEOFEXPR_pre_19_52_7 () Int)
-(declare-fun loc_pre_113_22_13 () Int)
-(declare-fun loc_113_22_13 () Int)
-(declare-fun AND_pre_18_20_26 () Int)
-(declare-fun locId_pre_77_38_13 () Int)
-(declare-fun locId_77_38_13 () Int)
-(declare-fun IFSTMT_pre_19_38_7 () Int)
-(declare-fun LAST_KEYWORD_pre_29_103_26 () Int)
-(declare-fun ASGURSHIFT_pre_18_48_26 () Int)
-(declare-fun locOpenParen_pre_127_21_13 () Int)
-(declare-fun locOpenParen_127_21_13 () Int)
-(declare-fun locDot_pre_119_41_13 () Int)
-(declare-fun locDot_119_41_13 () Int)
-(declare-fun loc_pre_114_33_13 () Int)
-(declare-fun loc_114_33_13 () Int)
-(declare-fun ARRAYTYPE_pre_19_65_7 () Int)
-(declare-fun locFinally_pre_117_25_13 () Int)
-(declare-fun locFinally_117_25_13 () Int)
-(declare-fun FORMALPARADECL_pre_19_24_7 () Int)
-(declare-fun FLOATTYPE_pre_17_31_26 () Int)
-(declare-fun URSHIFT_pre_18_32_26 () Int)
-(declare-fun locOpenParen_pre_132_28_13 () Int)
-(declare-fun locOpenParen_132_28_13 () Int)
-(declare-fun locOp_pre_25_43_13 () Int)
-(declare-fun locOp_25_43_13 () Int)
-(declare-fun value_pre_23_45_16 () Int)
-(declare-fun value_23_45_16 () Int)
-(declare-fun locId_pre_130_24_13 () Int)
-(declare-fun locId_130_24_13 () Int)
-(declare-fun CONDEXPR_pre_19_51_7 () Int)
-(declare-fun elements_pre_140_61_39 () Int)
-(declare-fun elements_140_61_39 () Int)
-(declare-fun locCloseBrace_pre_24_13 () Int)
-(declare-fun locCloseBrace_24_13 () Int)
-(declare-fun OR_pre_18_19_26 () Int)
-(declare-fun LABELSTMT_pre_19_37_7 () Int)
-(declare-fun NULLLIT_pre_17_45_26 () Int)
-(declare-fun ASGRSHIFT_pre_18_47_26 () Int)
-(declare-fun locGuardOpenParen_pre_103_23_13 () Int)
-(declare-fun locGuardOpenParen_103_23_13 () Int)
-(declare-fun elements_pre_73_61_39 () Int)
-(declare-fun elements_73_61_39 () Int)
-(declare-fun loc_pre_108_18_13 () Int)
-(declare-fun loc_108_18_13 () Int)
-(declare-fun NULL_pre_29_82_26 () Int)
-(declare-fun TYPENAME_pre_19_64_7 () Int)
-(declare-fun CHARTYPE_pre_17_30_26 () Int)
-(declare-fun FIELDDECL_pre_19_23_7 () Int)
-(declare-fun RSHIFT_pre_18_31_26 () Int)
-(declare-fun locCloseBrace_pre_62_54_13 () Int)
-(declare-fun locCloseBrace_62_54_13 () Int)
-(declare-fun loc_pre_105_20_13 () Int)
-(declare-fun loc_105_20_13 () Int)
-(declare-fun loc_pre_123_49_13 () Int)
-(declare-fun loc_123_49_13 () Int)
-(declare-fun loc_pre_104_20_13 () Int)
-(declare-fun loc_104_20_13 () Int)
-(declare-fun NEWARRAYEXPR_pre_19_50_7 () Int)
-(declare-fun locType_pre_79_21_13 () Int)
-(declare-fun locType_79_21_13 () Int)
-(declare-fun type_pre_123_24_28 () Int)
-(declare-fun type_123_24_28 () Int)
-(declare-fun I_will_establish_invariants_afterwards_pre_5_236_34 () Int)
-(declare-fun I_will_establish_invariants_afterwards_5_236_34 () Int)
-(declare-fun CONTINUESTMT_pre_19_36_7 () Int)
-(declare-fun STRINGLIT_pre_17_44_26 () Int)
-(declare-fun ASGLSHIFT_pre_18_46_26 () Int)
-(declare-fun SUPEROBJECTDESIGNATOR_pre_19_63_7 () Int)
-(declare-fun LONGTYPE_pre_17_29_26 () Int)
-(declare-fun LOCALVARDECL_pre_19_22_7 () Int)
-(declare-fun LSHIFT_pre_18_30_26 () Int)
-(declare-fun loc_pre_80_40_13 () Int)
-(declare-fun loc_80_40_13 () Int)
-(declare-fun loc_pre_120_22_13 () Int)
-(declare-fun loc_120_22_13 () Int)
-(declare-fun NEWINSTANCEEXPR_pre_19_49_7 () Int)
-(declare-fun loc_pre_129_22_13 () Int)
-(declare-fun loc_129_22_13 () Int)
-(declare-fun locOpenBrackets_pre_123_65_29 () Int)
-(declare-fun locOpenBrackets_123_65_29 () Int)
-(declare-fun POSTFIXDEC_pre_18_63_26 () Int)
-(declare-fun BREAKSTMT_pre_19_35_7 () Int)
-(declare-fun type_pre_77_35_28 () Int)
-(declare-fun type_77_35_28 () Int)
-(declare-fun count_pre_140_67_33 () Int)
-(declare-fun count_140_67_33 () Int)
-(declare-fun DOUBLELIT_pre_17_43_26 () Int)
-(declare-fun ASGSUB_pre_18_45_26 () Int)
-(declare-fun ids_pre_141_19_37 () Int)
-(declare-fun ids_141_19_37 () Int)
-(declare-fun type_pre_127_18_28 () Int)
-(declare-fun type_127_18_28 () Int)
-(declare-fun TYPEOBJECTDESIGNATOR_pre_19_62_7 () Int)
-(declare-fun count_pre_73_67_33 () Int)
-(declare-fun count_73_67_33 () Int)
-(declare-fun INTTYPE_pre_17_28_26 () Int)
-(declare-fun INITBLOCK_pre_19_21_7 () Int)
-(declare-fun LT_pre_18_29_26 () Int)
-(declare-fun locId_pre_132_25_13 () Int)
-(declare-fun locId_132_25_13 () Int)
-(declare-fun type_pre_133_20_28 () Int)
-(declare-fun type_133_20_28 () Int)
-(declare-fun ARRAYREFEXPR_pre_19_48_7 () Int)
-(declare-fun POSTFIXINC_pre_18_62_26 () Int)
-(declare-fun loc_pre_63_30_13 () Int)
-(declare-fun loc_63_30_13 () Int)
-(declare-fun THROWSTMT_pre_19_34_7 () Int)
-(declare-fun FLOATLIT_pre_17_42_26 () Int)
-(declare-fun ASGADD_pre_18_44_26 () Int)
-(declare-fun length_pre_81_50_25 () Int)
-(declare-fun length_81_50_25 () Int)
-(declare-fun enclosingInstance_pre_119_37_14 () Int)
-(declare-fun enclosingInstance_119_37_14 () Int)
-(declare-fun loc_pre_116_29_13 () Int)
-(declare-fun loc_116_29_13 () Int)
-(declare-fun loc_pre_117_22_13 () Int)
-(declare-fun loc_117_22_13 () Int)
-(declare-fun EXPROBJECTDESIGNATOR_pre_19_61_7 () Int)
-(declare-fun otherCodes_pre_29_202_27 () Int)
-(declare-fun BOOLEANTYPE_pre_17_27_26 () Int)
-(declare-fun METHODDECL_pre_19_20_7 () Int)
-(declare-fun LE_pre_18_28_26 () Int)
-(declare-fun locOpenBrace_pre_21_13 () Int)
-(declare-fun locOpenBrace_21_13 () Int)
-(declare-fun locOpenBrace_pre_62_51_13 () Int)
-(declare-fun locOpenBrace_62_51_13 () Int)
-(declare-fun loc_pre_107_18_13 () Int)
-(declare-fun loc_107_18_13 () Int)
-(declare-fun dims_pre_123_45_31 () Int)
-(declare-fun dims_123_45_31 () Int)
-(declare-fun THISEXPR_pre_19_47_7 () Int)
-(declare-fun DEC_pre_18_59_26 () Int)
-(declare-fun locCloseBracket_pre_121_23_13 () Int)
-(declare-fun locCloseBracket_121_23_13 () Int)
-(declare-fun CHARLIT_pre_17_41_26 () Int)
-(declare-fun RETURNSTMT_pre_19_33_7 () Int)
-(declare-fun locOp_pre_26_32_13 () Int)
-(declare-fun locOp_26_32_13 () Int)
-(declare-fun punctuationCodes_pre_29_164_19 () Int)
-(declare-fun ASGREM_pre_18_43_26 () Int)
-(declare-fun CLASSLITERAL_pre_19_60_7 () Int)
-(declare-fun IDENT_pre_17_25_26 () Int)
-(declare-fun CONSTRUCTORDECL_pre_19_19_7 () Int)
-(declare-fun locDot_pre_122_29_13 () Int)
-(declare-fun locDot_122_29_13 () Int)
-(declare-fun GT_pre_18_27_26 () Int)
-(declare-fun locOpenBracket_pre_138_21_13 () Int)
-(declare-fun locOpenBracket_138_21_13 () Int)
-(declare-fun elements_pre_72_61_38 () Int)
-(declare-fun elements_72_61_38 () Int)
-(declare-fun ARRAYINIT_pre_19_46_7 () Int)
-(declare-fun INC_pre_18_58_26 () Int)
-(declare-fun owner_pre_8_35_28 () Int)
-(declare-fun owner_8_35_28 () Int)
-(declare-fun locIds_pre_141_25_29 () Int)
-(declare-fun locIds_141_25_29 () Int)
-(declare-fun loc_pre_103_20_13 () Int)
-(declare-fun loc_103_20_13 () Int)
-(declare-fun LONGLIT_pre_17_40_26 () Int)
-(declare-fun EVALSTMT_pre_19_32_7 () Int)
-(declare-fun ASGDIV_pre_18_42_26 () Int)
-(declare-fun locOpenParen_pre_122_52_13 () Int)
-(declare-fun locOpenParen_122_52_13 () Int)
-(declare-fun METHODINVOCATION_pre_19_59_7 () Int)
-(declare-fun tokenType_pre_78_90_8 () Int)
-(declare-fun tokenType_78_90_8 () Int)
-(declare-fun INTERFACEDECL_pre_19_18_7 () Int)
-(declare-fun GE_pre_18_26_26 () Int)
-(declare-fun locCloseParen_pre_128_21_13 () Int)
-(declare-fun locCloseParen_128_21_13 () Int)
-(declare-fun CATCHCLAUSE_pre_19_45_7 () Int)
-(declare-fun BITNOT_pre_18_57_26 () Int)
-(declare-fun keywordStrings_pre_29_181_30 () Int)
-(declare-fun locOpenParen_pre_131_30_13 () Int)
-(declare-fun locOpenParen_131_30_13 () Int)
-(declare-fun NULL_pre_13_60_26 () Int)
-(declare-fun SYNCHRONIZESTMT_pre_19_31_7 () Int)
-(declare-fun INTLIT_pre_17_39_26 () Int)
-(declare-fun ASGMUL_pre_18_41_26 () Int)
-(declare-fun loc_pre_115_16_13 () Int)
-(declare-fun loc_115_16_13 () Int)
-(declare-fun AMBIGUOUSMETHODINVOCATION_pre_19_58_7 () Int)
-(declare-fun CLASSDECL_pre_19_17_7 () Int)
-(declare-fun EQ_pre_18_25_26 () Int)
-(declare-fun locOpenParen_pre_119_48_13 () Int)
-(declare-fun locOpenParen_119_48_13 () Int)
-(declare-fun loc_pre_27_35_13 () Int)
-(declare-fun loc_27_35_13 () Int)
-(declare-fun TYPEMODIFIERPRAGMA_pre_29_28_26 () Int)
-(declare-fun locId_pre_62_48_13 () Int)
-(declare-fun locId_62_48_13 () Int)
-(declare-fun CONSTRUCTORINVOCATION_pre_19_44_7 () Int)
-(declare-fun count_pre_72_67_33 () Int)
-(declare-fun count_72_67_33 () Int)
-(declare-fun NOT_pre_18_56_26 () Int)
-(declare-fun returnType_pre_79_18_28 () Int)
-(declare-fun returnType_79_18_28 () Int)
-(declare-fun locDots_pre_141_31_29 () Int)
-(declare-fun locDots_141_31_29 () Int)
-(declare-fun BOOLEANLIT_pre_17_38_26 () Int)
-(declare-fun DOSTMT_pre_19_30_7 () Int)
-(declare-fun ASSIGN_pre_18_40_26 () Int)
-(declare-fun loc_pre_126_21_13 () Int)
-(declare-fun loc_126_21_13 () Int)
-(declare-fun op_pre_25_35_13 () Int)
-(declare-fun op_25_35_13 () Int)
-(declare-fun FIELDACCESS_pre_19_57_7 () Int)
-(declare-fun syntax_pre_22_28_29 () Int)
-(declare-fun syntax_22_28_29 () Int)
-(declare-fun ONDEMANDIMPORTDECL_pre_19_16_7 () Int)
-(declare-fun NE_pre_18_24_26 () Int)
-(declare-fun locColon_pre_125_25_13 () Int)
-(declare-fun locColon_125_25_13 () Int)
-(declare-fun locOpenBracket_pre_121_20_13 () Int)
-(declare-fun locOpenBracket_121_20_13 () Int)
-(declare-fun elems_pre () Int)
-(declare-fun elems () Int)
-(declare-fun LS () Int)
-(declare-fun alloc_pre () Int)
-(declare-fun elems_91_56 () Int)
-(declare-fun locOpenBrace_91_67 () Int)
-(declare-fun locCloseBrace_91_85 () Int)
-(declare-fun after_93_24_93_24 () Int)
-(declare-fun RES_93_24_93_24 () Int)
-(declare-fun EC_93_24_93_24 () Int)
-(declare-fun ecReturn () Int)
-(declare-fun elems_94_12 () Int)
-(declare-fun locOpenBrace_95_12 () Int)
-(declare-fun locCloseBrace_96_12 () Int)
-(assert (let ((?v_0 (array T_java_lang_String)) (?v_1 (array T_int)) (?v_2 (= true_term true_term)) (?v_5 (< alloc after_93_24_93_24)) (?v_3 (not (= RES_93_24_93_24 null))) (?v_6 (not (= true_term (isAllocated RES_93_24_93_24 alloc)))) (?v_7 (= true_term (is RES_93_24_93_24 T_javafe_ast_ArrayInit))) (?v_8 (= true_term (isAllocated RES_93_24_93_24 after_93_24_93_24))) (?v_9 (= EC_93_24_93_24 ecReturn)) (?v_10 (= (S_select owner_8_35_28 RES_93_24_93_24) null)) (?v_11 (= (typeof RES_93_24_93_24) T_javafe_ast_ArrayInit))) (let ((?v_4 (not ?v_3)) (?v_12 (= elems_94_12 (S_store elems_18_34 RES_93_24_93_24 elems_91_56))) (?v_13 (= locOpenBrace_95_12 (S_store locOpenBrace_21_13 RES_93_24_93_24 locOpenBrace_91_67))) (?v_14 (= ecReturn ecReturn))) (let ((?v_15 (=> ?v_14 ?v_3))) (not (=> true (=> (and (= locOpenBrace_pre_80_36_13 locOpenBrace_80_36_13) (= locOpenBrace_80_36_13 (asField locOpenBrace_80_36_13 T_int)) (= TRYCATCHSTMT_pre_19_43_7 TRYCATCHSTMT_19_43_7) (= true_term (is TRYCATCHSTMT_19_43_7 T_int)) (= UNARYSUB_pre_18_55_26 UNARYSUB_18_55_26) (= true_term (is UNARYSUB_18_55_26 T_int)) (= TYPEDECLELEMPRAGMA_pre_29_27_26 TYPEDECLELEMPRAGMA_29_27_26) (= true_term (is TYPEDECLELEMPRAGMA_29_27_26 T_int)) (= SHORTTYPE_pre_17_36_26 SHORTTYPE_17_36_26) (= true_term (is SHORTTYPE_17_36_26 T_int)) (= WHILESTMT_pre_19_29_7 WHILESTMT_19_29_7) (= true_term (is WHILESTMT_19_29_7 T_int)) (= body_pre_80_34_19 body_80_34_19) (= body_80_34_19 (asField body_80_34_19 T_javafe_ast_BlockStmt)) (< (fClosedTime body_80_34_19) alloc) (= STAR_pre_18_37_26 STAR_18_37_26) (= true_term (is STAR_18_37_26 T_int)) (= elems_pre_18_34 elems_18_34) (= elems_18_34 (asField elems_18_34 T_javafe_ast_VarInitVec)) (< (fClosedTime elems_18_34) alloc) (forall ((?s Int)) (=> (not (= ?s null)) (not (= (S_select elems_18_34 ?s) null)))) (= enclosingInstance_pre_122_25_14 enclosingInstance_122_25_14) (= enclosingInstance_122_25_14 (asField enclosingInstance_122_25_14 T_javafe_ast_Expr)) (< (fClosedTime enclosingInstance_122_25_14) alloc) (= loc_pre_110_18_13 loc_110_18_13) (= loc_110_18_13 (asField loc_110_18_13 T_int)) (= elements_pre_124_61_33 elements_124_61_33) (= elements_124_61_33 (asField elements_124_61_33 (array T_javafe_ast_Expr))) (< (fClosedTime elements_124_61_33) alloc) (forall ((?s_1_ Int)) (=> (not (= ?s_1_ null)) (not (= (S_select elements_124_61_33 ?s_1_) null)))) (= loc_pre_122_49_13 loc_122_49_13) (= loc_122_49_13 (asField loc_122_49_13 T_int)) (= VARIABLEACCESS_pre_19_56_7 VARIABLEACCESS_19_56_7) (= true_term (is VARIABLEACCESS_19_56_7 T_int)) (= SINGLETYPEIMPORTDECL_pre_19_15_7 SINGLETYPEIMPORTDECL_19_15_7) (= true_term (is SINGLETYPEIMPORTDECL_19_15_7 T_int)) (= BITAND_pre_18_23_26 BITAND_18_23_26) (= true_term (is BITAND_18_23_26 T_int)) (= locCloseBrace_pre_90_25_13 locCloseBrace_90_25_13) (= locCloseBrace_90_25_13 (asField locCloseBrace_90_25_13 T_int)) (= loc_pre_139_20_13 loc_139_20_13) (= loc_139_20_13 (asField loc_139_20_13 T_int)) (= TRYFINALLYSTMT_pre_19_42_7 TRYFINALLYSTMT_19_42_7) (= true_term (is TRYFINALLYSTMT_19_42_7 T_int)) (= UNARYADD_pre_18_54_26 UNARYADD_18_54_26) (= true_term (is UNARYADD_18_54_26 T_int)) (= locFirstSemi_pre_114_36_13 locFirstSemi_114_36_13) (= locFirstSemi_114_36_13 (asField locFirstSemi_114_36_13 T_int)) (= elemType_pre_138_18_28 elemType_138_18_28) (= elemType_138_18_28 (asField elemType_138_18_28 T_javafe_ast_Type)) (< (fClosedTime elemType_138_18_28) alloc) (forall ((?s_2_ Int)) (=> (not (= ?s_2_ null)) (not (= (S_select elemType_138_18_28 ?s_2_) null)))) (= BYTETYPE_pre_17_35_26 BYTETYPE_17_35_26) (= true_term (is BYTETYPE_17_35_26 T_int)) (= CLASSDECLSTMT_pre_19_28_7 CLASSDECLSTMT_19_28_7) (= true_term (is CLASSDECLSTMT_19_28_7 T_int)) (= MOD_pre_18_36_26 MOD_18_36_26) (= true_term (is MOD_18_36_26 T_int)) (= STMTPRAGMA_pre_29_26_26 STMTPRAGMA_29_26_26) (= true_term (is STMTPRAGMA_29_26_26 T_int)) (= op_pre_26_26_13 op_26_26_13) (= op_26_26_13 (asField op_26_26_13 T_int)) (= init_pre_123_35_19 init_123_35_19) (= init_123_35_19 (asField init_123_35_19 T_javafe_ast_ArrayInit)) (< (fClosedTime init_123_35_19) alloc) (= AMBIGUOUSVARIABLEACCESS_pre_19_55_7 AMBIGUOUSVARIABLEACCESS_19_55_7) (= true_term (is AMBIGUOUSVARIABLEACCESS_19_55_7 T_int)) (= COMPILATIONUNIT_pre_19_14_7 COMPILATIONUNIT_19_14_7) (= true_term (is COMPILATIONUNIT_19_14_7 T_int)) (= BITXOR_pre_18_22_26 BITXOR_18_22_26) (= true_term (is BITXOR_18_22_26 T_int)) (= locCloseParen_pre_127_24_13 locCloseParen_127_24_13) (= locCloseParen_127_24_13 (asField locCloseParen_127_24_13 T_int)) (= locKeyword_pre_119_45_13 locKeyword_119_45_13) (= locKeyword_119_45_13 (asField locKeyword_119_45_13 T_int)) (= SWITCHLABEL_pre_19_41_7 SWITCHLABEL_19_41_7) (= true_term (is SWITCHLABEL_19_41_7 T_int)) (= ASGBITXOR_pre_18_51_26 ASGBITXOR_18_51_26) (= true_term (is ASGBITXOR_18_51_26 T_int)) (= punctuationStrings_pre_29_134_22 punctuationStrings_29_134_22) (= true_term (is punctuationStrings_29_134_22 ?v_0)) (= true_term (isAllocated punctuationStrings_29_134_22 alloc)) (= locOpenParen_pre_105_23_13 locOpenParen_105_23_13) (= locOpenParen_105_23_13 (asField locOpenParen_105_23_13 T_int)) (= tag_pre_27_30_13 tag_27_30_13) (= tag_27_30_13 (asField tag_27_30_13 T_int)) (= loc_pre_62_45_13 loc_62_45_13) (= loc_62_45_13 (asField loc_62_45_13 T_int)) (= loc_pre_93_18_13 loc_93_18_13) (= loc_93_18_13 (asField loc_93_18_13 T_int)) (= elements_pre_14_61_36 elements_14_61_36) (= elements_14_61_36 (asField elements_14_61_36 (array T_javafe_ast_VarInit))) (< (fClosedTime elements_14_61_36) alloc) (forall ((?s_3_ Int)) (=> (not (= ?s_3_ null)) (not (= (S_select elements_14_61_36 ?s_3_) null)))) (= NULLTYPE_pre_17_34_26 NULLTYPE_17_34_26) (= true_term (is NULLTYPE_17_34_26 T_int)) (= VARDECLSTMT_pre_19_27_7 VARDECLSTMT_19_27_7) (= true_term (is VARDECLSTMT_19_27_7 T_int)) (= DIV_pre_18_35_26 DIV_18_35_26) (= true_term (is DIV_18_35_26 T_int)) (= locOpenParen_pre_128_18_13 locOpenParen_128_18_13) (= locOpenParen_128_18_13 (asField locOpenParen_128_18_13 T_int)) (= type_pre_126_18_28 type_126_18_28) (= type_126_18_28 (asField type_126_18_28 T_javafe_ast_Type)) (< (fClosedTime type_126_18_28) alloc) (forall ((?s_4_ Int)) (=> (not (= ?s_4_ null)) (not (= (S_select type_126_18_28 ?s_4_) null)))) (= count_pre_124_67_33 count_124_67_33) (= count_124_67_33 (asField count_124_67_33 T_int)) (= otherStrings_pre_29_193_30 otherStrings_29_193_30) (= true_term (is otherStrings_29_193_30 ?v_0)) (= true_term (isAllocated otherStrings_29_193_30 alloc)) (= loc_pre_23_50_13 loc_23_50_13) (= loc_23_50_13 (asField loc_23_50_13 T_int)) (= PARENEXPR_pre_19_54_7 PARENEXPR_19_54_7) (= true_term (is PARENEXPR_19_54_7 T_int)) (= loc_pre_83_29_13 loc_83_29_13) (= loc_83_29_13 (asField loc_83_29_13 T_int)) (= BITOR_pre_18_21_26 BITOR_18_21_26) (= true_term (is BITOR_18_21_26 T_int)) (= loc_pre_100_18_13 loc_100_18_13) (= loc_100_18_13 (asField loc_100_18_13 T_int)) (= MODIFIERPRAGMA_pre_29_25_26 MODIFIERPRAGMA_29_25_26) (= true_term (is MODIFIERPRAGMA_29_25_26 T_int)) (= noTokens_pre_29_212_27 noTokens_29_212_27) (= true_term (is noTokens_29_212_27 T_int)) (= tag_pre_23_32_13 tag_23_32_13) (= tag_23_32_13 (asField tag_23_32_13 T_int)) (= SKIPSTMT_pre_19_40_7 SKIPSTMT_19_40_7) (= true_term (is SKIPSTMT_19_40_7 T_int)) (= ASGBITOR_pre_18_50_26 ASGBITOR_18_50_26) (= true_term (is ASGBITOR_18_50_26 T_int)) (= loc_pre_118_23_13 loc_118_23_13) (= loc_118_23_13 (asField loc_118_23_13 T_int)) (= superCall_pre_119_24_17 superCall_119_24_17) (= superCall_119_24_17 (asField superCall_119_24_17 T_boolean)) (= locQuestion_pre_125_22_13 locQuestion_125_22_13) (= locQuestion_125_22_13 (asField locQuestion_125_22_13 T_int)) (= COMPOUNDNAME_pre_19_67_7 COMPOUNDNAME_19_67_7) (= true_term (is COMPOUNDNAME_19_67_7 T_int)) (= VOIDTYPE_pre_17_33_26 VOIDTYPE_17_33_26) (= true_term (is VOIDTYPE_17_33_26 T_int)) (= SWITCHSTMT_pre_19_26_7 SWITCHSTMT_19_26_7) (= true_term (is SWITCHSTMT_19_26_7 T_int)) (= SUB_pre_18_34_26 SUB_18_34_26) (= true_term (is SUB_18_34_26 T_int)) (= locDot_pre_84_21_13 locDot_84_21_13) (= locDot_84_21_13 (asField locDot_84_21_13 T_int)) (= CASTEXPR_pre_19_53_7 CASTEXPR_19_53_7) (= true_term (is CASTEXPR_19_53_7 T_int)) (= locSuper_pre_137_20_13 locSuper_137_20_13) (= locSuper_137_20_13 (asField locSuper_137_20_13 T_int)) (= TYPESIG_pre_28_6_28 TYPESIG_28_6_28) (= true_term (is TYPESIG_28_6_28 T_int)) (= FORSTMT_pre_19_39_7 FORSTMT_19_39_7) (= true_term (is FORSTMT_19_39_7 T_int)) (= count_pre_14_67_33 count_14_67_33) (= count_14_67_33 (asField count_14_67_33 T_int)) (= locOpenBrace_pre_90_22_13 locOpenBrace_90_22_13) (= locOpenBrace_90_22_13 (asField locOpenBrace_90_22_13 T_int)) (= LEXICALPRAGMA_pre_29_24_26 LEXICALPRAGMA_29_24_26) (= true_term (is LEXICALPRAGMA_29_24_26 T_int)) (= ASGBITAND_pre_18_49_26 ASGBITAND_18_49_26) (= true_term (is ASGBITAND_18_49_26 T_int)) (= locDot_pre_133_23_13 locDot_133_23_13) (= locDot_133_23_13 (asField locDot_133_23_13 T_int)) (= SIMPLENAME_pre_19_66_7 SIMPLENAME_19_66_7) (= true_term (is SIMPLENAME_19_66_7 T_int)) (= DOUBLETYPE_pre_17_32_26 DOUBLETYPE_17_32_26) (= true_term (is DOUBLETYPE_17_32_26 T_int)) (= BLOCKSTMT_pre_19_25_7 BLOCKSTMT_19_25_7) (= true_term (is BLOCKSTMT_19_25_7 T_int)) (= locId_pre_112_20_13 locId_112_20_13) (= locId_112_20_13 (asField locId_112_20_13 T_int)) (= ADD_pre_18_33_26 ADD_18_33_26) (= true_term (is ADD_18_33_26 T_int)) (= locId_pre_80_43_13 locId_80_43_13) (= locId_80_43_13 (asField locId_80_43_13 T_int)) (= FIRST_KEYWORD_pre_29_51_26 FIRST_KEYWORD_29_51_26) (= true_term (is FIRST_KEYWORD_29_51_26 T_int)) (= INSTANCEOFEXPR_pre_19_52_7 INSTANCEOFEXPR_19_52_7) (= true_term (is INSTANCEOFEXPR_19_52_7 T_int)) (= loc_pre_113_22_13 loc_113_22_13) (= loc_113_22_13 (asField loc_113_22_13 T_int)) (= AND_pre_18_20_26 AND_18_20_26) (= true_term (is AND_18_20_26 T_int)) (= locId_pre_77_38_13 locId_77_38_13) (= locId_77_38_13 (asField locId_77_38_13 T_int)) (= IFSTMT_pre_19_38_7 IFSTMT_19_38_7) (= true_term (is IFSTMT_19_38_7 T_int)) (= LAST_KEYWORD_pre_29_103_26 LAST_KEYWORD_29_103_26) (= true_term (is LAST_KEYWORD_29_103_26 T_int)) (= ASGURSHIFT_pre_18_48_26 ASGURSHIFT_18_48_26) (= true_term (is ASGURSHIFT_18_48_26 T_int)) (= locOpenParen_pre_127_21_13 locOpenParen_127_21_13) (= locOpenParen_127_21_13 (asField locOpenParen_127_21_13 T_int)) (= locDot_pre_119_41_13 locDot_119_41_13) (= locDot_119_41_13 (asField locDot_119_41_13 T_int)) (= loc_pre_114_33_13 loc_114_33_13) (= loc_114_33_13 (asField loc_114_33_13 T_int)) (= ARRAYTYPE_pre_19_65_7 ARRAYTYPE_19_65_7) (= true_term (is ARRAYTYPE_19_65_7 T_int)) (= locFinally_pre_117_25_13 locFinally_117_25_13) (= locFinally_117_25_13 (asField locFinally_117_25_13 T_int)) (= FORMALPARADECL_pre_19_24_7 FORMALPARADECL_19_24_7) (= true_term (is FORMALPARADECL_19_24_7 T_int)) (= FLOATTYPE_pre_17_31_26 FLOATTYPE_17_31_26) (= true_term (is FLOATTYPE_17_31_26 T_int)) (= URSHIFT_pre_18_32_26 URSHIFT_18_32_26) (= true_term (is URSHIFT_18_32_26 T_int)) (= locOpenParen_pre_132_28_13 locOpenParen_132_28_13) (= locOpenParen_132_28_13 (asField locOpenParen_132_28_13 T_int)) (= locOp_pre_25_43_13 locOp_25_43_13) (= locOp_25_43_13 (asField locOp_25_43_13 T_int)) (= value_pre_23_45_16 value_23_45_16) (= value_23_45_16 (asField value_23_45_16 T_java_lang_Object)) (< (fClosedTime value_23_45_16) alloc) (= locId_pre_130_24_13 locId_130_24_13) (= locId_130_24_13 (asField locId_130_24_13 T_int)) (= CONDEXPR_pre_19_51_7 CONDEXPR_19_51_7) (= true_term (is CONDEXPR_19_51_7 T_int)) (= elements_pre_140_61_39 elements_140_61_39) (= elements_140_61_39 (asField elements_140_61_39 (array T_javafe_ast_Identifier))) (< (fClosedTime elements_140_61_39) alloc) (forall ((?s_5_ Int)) (=> (not (= ?s_5_ null)) (not (= (S_select elements_140_61_39 ?s_5_) null)))) (= locCloseBrace_pre_24_13 locCloseBrace_24_13) (= locCloseBrace_24_13 (asField locCloseBrace_24_13 T_int)) (= OR_pre_18_19_26 OR_18_19_26) (= true_term (is OR_18_19_26 T_int)) (= LABELSTMT_pre_19_37_7 LABELSTMT_19_37_7) (= true_term (is LABELSTMT_19_37_7 T_int)) (= NULLLIT_pre_17_45_26 NULLLIT_17_45_26) (= true_term (is NULLLIT_17_45_26 T_int)) (= ASGRSHIFT_pre_18_47_26 ASGRSHIFT_18_47_26) (= true_term (is ASGRSHIFT_18_47_26 T_int)) (= locGuardOpenParen_pre_103_23_13 locGuardOpenParen_103_23_13) (= locGuardOpenParen_103_23_13 (asField locGuardOpenParen_103_23_13 T_int)) (= elements_pre_73_61_39 elements_73_61_39) (= elements_73_61_39 (asField elements_73_61_39 (array T_javafe_ast_MethodDecl))) (< (fClosedTime elements_73_61_39) alloc) (forall ((?s_6_ Int)) (=> (not (= ?s_6_ null)) (not (= (S_select elements_73_61_39 ?s_6_) null)))) (= loc_pre_108_18_13 loc_108_18_13) (= loc_108_18_13 (asField loc_108_18_13 T_int)) (= NULL_pre_29_82_26 NULL_29_82_26) (= true_term (is NULL_29_82_26 T_int)) (= TYPENAME_pre_19_64_7 TYPENAME_19_64_7) (= true_term (is TYPENAME_19_64_7 T_int)) (= CHARTYPE_pre_17_30_26 CHARTYPE_17_30_26) (= true_term (is CHARTYPE_17_30_26 T_int)) (= FIELDDECL_pre_19_23_7 FIELDDECL_19_23_7) (= true_term (is FIELDDECL_19_23_7 T_int)) (= RSHIFT_pre_18_31_26 RSHIFT_18_31_26) (= true_term (is RSHIFT_18_31_26 T_int)) (= locCloseBrace_pre_62_54_13 locCloseBrace_62_54_13) (= locCloseBrace_62_54_13 (asField locCloseBrace_62_54_13 T_int)) (= loc_pre_105_20_13 loc_105_20_13) (= loc_105_20_13 (asField loc_105_20_13 T_int)) (= loc_pre_123_49_13 loc_123_49_13) (= loc_123_49_13 (asField loc_123_49_13 T_int)) (= loc_pre_104_20_13 loc_104_20_13) (= loc_104_20_13 (asField loc_104_20_13 T_int)) (= NEWARRAYEXPR_pre_19_50_7 NEWARRAYEXPR_19_50_7) (= true_term (is NEWARRAYEXPR_19_50_7 T_int)) (= locType_pre_79_21_13 locType_79_21_13) (= locType_79_21_13 (asField locType_79_21_13 T_int)) (= type_pre_123_24_28 type_123_24_28) (= type_123_24_28 (asField type_123_24_28 T_javafe_ast_Type)) (< (fClosedTime type_123_24_28) alloc) (forall ((?s_7_ Int)) (=> (not (= ?s_7_ null)) (not (= (S_select type_123_24_28 ?s_7_) null)))) (= I_will_establish_invariants_afterwards_pre_5_236_34 I_will_establish_invariants_afterwards_5_236_34) (= true_term (is I_will_establish_invariants_afterwards_5_236_34 T_boolean)) (= CONTINUESTMT_pre_19_36_7 CONTINUESTMT_19_36_7) (= true_term (is CONTINUESTMT_19_36_7 T_int)) (= STRINGLIT_pre_17_44_26 STRINGLIT_17_44_26) (= true_term (is STRINGLIT_17_44_26 T_int)) (= ASGLSHIFT_pre_18_46_26 ASGLSHIFT_18_46_26) (= true_term (is ASGLSHIFT_18_46_26 T_int)) (= SUPEROBJECTDESIGNATOR_pre_19_63_7 SUPEROBJECTDESIGNATOR_19_63_7) (= true_term (is SUPEROBJECTDESIGNATOR_19_63_7 T_int)) (= LONGTYPE_pre_17_29_26 LONGTYPE_17_29_26) (= true_term (is LONGTYPE_17_29_26 T_int)) (= LOCALVARDECL_pre_19_22_7 LOCALVARDECL_19_22_7) (= true_term (is LOCALVARDECL_19_22_7 T_int)) (= LSHIFT_pre_18_30_26 LSHIFT_18_30_26) (= true_term (is LSHIFT_18_30_26 T_int)) (= loc_pre_80_40_13 loc_80_40_13) (= loc_80_40_13 (asField loc_80_40_13 T_int)) (= loc_pre_120_22_13 loc_120_22_13) (= loc_120_22_13 (asField loc_120_22_13 T_int)) (= NEWINSTANCEEXPR_pre_19_49_7 NEWINSTANCEEXPR_19_49_7) (= true_term (is NEWINSTANCEEXPR_19_49_7 T_int)) (= loc_pre_129_22_13 loc_129_22_13) (= loc_129_22_13 (asField loc_129_22_13 T_int)) (= locOpenBrackets_pre_123_65_29 locOpenBrackets_123_65_29) (= locOpenBrackets_123_65_29 (asField locOpenBrackets_123_65_29 ?v_1)) (< (fClosedTime locOpenBrackets_123_65_29) alloc) (forall ((?s_8_ Int)) (=> (not (= ?s_8_ null)) (not (= (S_select locOpenBrackets_123_65_29 ?s_8_) null)))) (= POSTFIXDEC_pre_18_63_26 POSTFIXDEC_18_63_26) (= true_term (is POSTFIXDEC_18_63_26 T_int)) (= BREAKSTMT_pre_19_35_7 BREAKSTMT_19_35_7) (= true_term (is BREAKSTMT_19_35_7 T_int)) (= type_pre_77_35_28 type_77_35_28) (= type_77_35_28 (asField type_77_35_28 T_javafe_ast_Type)) (< (fClosedTime type_77_35_28) alloc) (forall ((?s_9_ Int)) (=> (not (= ?s_9_ null)) (not (= (S_select type_77_35_28 ?s_9_) null)))) (= count_pre_140_67_33 count_140_67_33) (= count_140_67_33 (asField count_140_67_33 T_int)) (= DOUBLELIT_pre_17_43_26 DOUBLELIT_17_43_26) (= true_term (is DOUBLELIT_17_43_26 T_int)) (= ASGSUB_pre_18_45_26 ASGSUB_18_45_26) (= true_term (is ASGSUB_18_45_26 T_int)) (= ids_pre_141_19_37 ids_141_19_37) (= ids_141_19_37 (asField ids_141_19_37 T_javafe_ast_IdentifierVec)) (< (fClosedTime ids_141_19_37) alloc) (forall ((?s_10_ Int)) (=> (not (= ?s_10_ null)) (not (= (S_select ids_141_19_37 ?s_10_) null)))) (= type_pre_127_18_28 type_127_18_28) (= type_127_18_28 (asField type_127_18_28 T_javafe_ast_Type)) (< (fClosedTime type_127_18_28) alloc) (forall ((?s_11_ Int)) (=> (not (= ?s_11_ null)) (not (= (S_select type_127_18_28 ?s_11_) null)))) (= TYPEOBJECTDESIGNATOR_pre_19_62_7 TYPEOBJECTDESIGNATOR_19_62_7) (= true_term (is TYPEOBJECTDESIGNATOR_19_62_7 T_int)) (= count_pre_73_67_33 count_73_67_33) (= count_73_67_33 (asField count_73_67_33 T_int)) (= INTTYPE_pre_17_28_26 INTTYPE_17_28_26) (= true_term (is INTTYPE_17_28_26 T_int)) (= INITBLOCK_pre_19_21_7 INITBLOCK_19_21_7) (= true_term (is INITBLOCK_19_21_7 T_int)) (= LT_pre_18_29_26 LT_18_29_26) (= true_term (is LT_18_29_26 T_int)) (= locId_pre_132_25_13 locId_132_25_13) (= locId_132_25_13 (asField locId_132_25_13 T_int)) (= type_pre_133_20_28 type_133_20_28) (= type_133_20_28 (asField type_133_20_28 T_javafe_ast_Type)) (< (fClosedTime type_133_20_28) alloc) (forall ((?s_12_ Int)) (=> (not (= ?s_12_ null)) (not (= (S_select type_133_20_28 ?s_12_) null)))) (= ARRAYREFEXPR_pre_19_48_7 ARRAYREFEXPR_19_48_7) (= true_term (is ARRAYREFEXPR_19_48_7 T_int)) (= POSTFIXINC_pre_18_62_26 POSTFIXINC_18_62_26) (= true_term (is POSTFIXINC_18_62_26 T_int)) (= loc_pre_63_30_13 loc_63_30_13) (= loc_63_30_13 (asField loc_63_30_13 T_int)) (= THROWSTMT_pre_19_34_7 THROWSTMT_19_34_7) (= true_term (is THROWSTMT_19_34_7 T_int)) (= FLOATLIT_pre_17_42_26 FLOATLIT_17_42_26) (= true_term (is FLOATLIT_17_42_26 T_int)) (= ASGADD_pre_18_44_26 ASGADD_18_44_26) (= true_term (is ASGADD_18_44_26 T_int)) (= length_pre_81_50_25 length_81_50_25) (= length_81_50_25 (asField length_81_50_25 T_int)) (= enclosingInstance_pre_119_37_14 enclosingInstance_119_37_14) (= enclosingInstance_119_37_14 (asField enclosingInstance_119_37_14 T_javafe_ast_Expr)) (< (fClosedTime enclosingInstance_119_37_14) alloc) (= loc_pre_116_29_13 loc_116_29_13) (= loc_116_29_13 (asField loc_116_29_13 T_int)) (= loc_pre_117_22_13 loc_117_22_13) (= loc_117_22_13 (asField loc_117_22_13 T_int)) (= EXPROBJECTDESIGNATOR_pre_19_61_7 EXPROBJECTDESIGNATOR_19_61_7) (= true_term (is EXPROBJECTDESIGNATOR_19_61_7 T_int)) (= otherCodes_pre_29_202_27 otherCodes_29_202_27) (= true_term (is otherCodes_29_202_27 ?v_1)) (= true_term (isAllocated otherCodes_29_202_27 alloc)) (= BOOLEANTYPE_pre_17_27_26 BOOLEANTYPE_17_27_26) (= true_term (is BOOLEANTYPE_17_27_26 T_int)) (= METHODDECL_pre_19_20_7 METHODDECL_19_20_7) (= true_term (is METHODDECL_19_20_7 T_int)) (= LE_pre_18_28_26 LE_18_28_26) (= true_term (is LE_18_28_26 T_int)) (= locOpenBrace_pre_21_13 locOpenBrace_21_13) (= locOpenBrace_21_13 (asField locOpenBrace_21_13 T_int)) (= locOpenBrace_pre_62_51_13 locOpenBrace_62_51_13) (= locOpenBrace_62_51_13 (asField locOpenBrace_62_51_13 T_int)) (= loc_pre_107_18_13 loc_107_18_13) (= loc_107_18_13 (asField loc_107_18_13 T_int)) (= dims_pre_123_45_31 dims_123_45_31) (= dims_123_45_31 (asField dims_123_45_31 T_javafe_ast_ExprVec)) (< (fClosedTime dims_123_45_31) alloc) (forall ((?s_13_ Int)) (=> (not (= ?s_13_ null)) (not (= (S_select dims_123_45_31 ?s_13_) null)))) (= THISEXPR_pre_19_47_7 THISEXPR_19_47_7) (= true_term (is THISEXPR_19_47_7 T_int)) (= DEC_pre_18_59_26 DEC_18_59_26) (= true_term (is DEC_18_59_26 T_int)) (= locCloseBracket_pre_121_23_13 locCloseBracket_121_23_13) (= locCloseBracket_121_23_13 (asField locCloseBracket_121_23_13 T_int)) (= CHARLIT_pre_17_41_26 CHARLIT_17_41_26) (= true_term (is CHARLIT_17_41_26 T_int)) (= RETURNSTMT_pre_19_33_7 RETURNSTMT_19_33_7) (= true_term (is RETURNSTMT_19_33_7 T_int)) (= locOp_pre_26_32_13 locOp_26_32_13) (= locOp_26_32_13 (asField locOp_26_32_13 T_int)) (= punctuationCodes_pre_29_164_19 punctuationCodes_29_164_19) (= true_term (is punctuationCodes_29_164_19 ?v_1)) (= true_term (isAllocated punctuationCodes_29_164_19 alloc)) (= ASGREM_pre_18_43_26 ASGREM_18_43_26) (= true_term (is ASGREM_18_43_26 T_int)) (= CLASSLITERAL_pre_19_60_7 CLASSLITERAL_19_60_7) (= true_term (is CLASSLITERAL_19_60_7 T_int)) (= IDENT_pre_17_25_26 IDENT_17_25_26) (= true_term (is IDENT_17_25_26 T_int)) (= CONSTRUCTORDECL_pre_19_19_7 CONSTRUCTORDECL_19_19_7) (= true_term (is CONSTRUCTORDECL_19_19_7 T_int)) (= locDot_pre_122_29_13 locDot_122_29_13) (= locDot_122_29_13 (asField locDot_122_29_13 T_int)) (= GT_pre_18_27_26 GT_18_27_26) (= true_term (is GT_18_27_26 T_int)) (= locOpenBracket_pre_138_21_13 locOpenBracket_138_21_13) (= locOpenBracket_138_21_13 (asField locOpenBracket_138_21_13 T_int)) (= elements_pre_72_61_38 elements_72_61_38) (= elements_72_61_38 (asField elements_72_61_38 (array T_javafe_ast_FieldDecl))) (< (fClosedTime elements_72_61_38) alloc) (forall ((?s_14_ Int)) (=> (not (= ?s_14_ null)) (not (= (S_select elements_72_61_38 ?s_14_) null)))) (= ARRAYINIT_pre_19_46_7 ARRAYINIT_19_46_7) (= true_term (is ARRAYINIT_19_46_7 T_int)) (= INC_pre_18_58_26 INC_18_58_26) (= true_term (is INC_18_58_26 T_int)) (= owner_pre_8_35_28 owner_8_35_28) (= owner_8_35_28 (asField owner_8_35_28 T_java_lang_Object)) (< (fClosedTime owner_8_35_28) alloc) (= locIds_pre_141_25_29 locIds_141_25_29) (= locIds_141_25_29 (asField locIds_141_25_29 ?v_1)) (< (fClosedTime locIds_141_25_29) alloc) (forall ((?s_15_ Int)) (=> (not (= ?s_15_ null)) (not (= (S_select locIds_141_25_29 ?s_15_) null)))) (= loc_pre_103_20_13 loc_103_20_13) (= loc_103_20_13 (asField loc_103_20_13 T_int)) (= LONGLIT_pre_17_40_26 LONGLIT_17_40_26) (= true_term (is LONGLIT_17_40_26 T_int)) (= EVALSTMT_pre_19_32_7 EVALSTMT_19_32_7) (= true_term (is EVALSTMT_19_32_7 T_int)) (= ASGDIV_pre_18_42_26 ASGDIV_18_42_26) (= true_term (is ASGDIV_18_42_26 T_int)) (= locOpenParen_pre_122_52_13 locOpenParen_122_52_13) (= locOpenParen_122_52_13 (asField locOpenParen_122_52_13 T_int)) (= METHODINVOCATION_pre_19_59_7 METHODINVOCATION_19_59_7) (= true_term (is METHODINVOCATION_19_59_7 T_int)) (= tokenType_pre_78_90_8 tokenType_78_90_8) (= tokenType_78_90_8 (asField tokenType_78_90_8 T_int)) (= INTERFACEDECL_pre_19_18_7 INTERFACEDECL_19_18_7) (= true_term (is INTERFACEDECL_19_18_7 T_int)) (= GE_pre_18_26_26 GE_18_26_26) (= true_term (is GE_18_26_26 T_int)) (= locCloseParen_pre_128_21_13 locCloseParen_128_21_13) (= locCloseParen_128_21_13 (asField locCloseParen_128_21_13 T_int)) (= CATCHCLAUSE_pre_19_45_7 CATCHCLAUSE_19_45_7) (= true_term (is CATCHCLAUSE_19_45_7 T_int)) (= BITNOT_pre_18_57_26 BITNOT_18_57_26) (= true_term (is BITNOT_18_57_26 T_int)) (= keywordStrings_pre_29_181_30 keywordStrings_29_181_30) (= true_term (is keywordStrings_29_181_30 ?v_0)) (= true_term (isAllocated keywordStrings_29_181_30 alloc)) (= locOpenParen_pre_131_30_13 locOpenParen_131_30_13) (= locOpenParen_131_30_13 (asField locOpenParen_131_30_13 T_int)) (= NULL_pre_13_60_26 NULL_13_60_26) (= true_term (is NULL_13_60_26 T_int)) (= SYNCHRONIZESTMT_pre_19_31_7 SYNCHRONIZESTMT_19_31_7) (= true_term (is SYNCHRONIZESTMT_19_31_7 T_int)) (= INTLIT_pre_17_39_26 INTLIT_17_39_26) (= true_term (is INTLIT_17_39_26 T_int)) (= ASGMUL_pre_18_41_26 ASGMUL_18_41_26) (= true_term (is ASGMUL_18_41_26 T_int)) (= loc_pre_115_16_13 loc_115_16_13) (= loc_115_16_13 (asField loc_115_16_13 T_int)) (= AMBIGUOUSMETHODINVOCATION_pre_19_58_7 AMBIGUOUSMETHODINVOCATION_19_58_7) (= true_term (is AMBIGUOUSMETHODINVOCATION_19_58_7 T_int)) (= CLASSDECL_pre_19_17_7 CLASSDECL_19_17_7) (= true_term (is CLASSDECL_19_17_7 T_int)) (= EQ_pre_18_25_26 EQ_18_25_26) (= true_term (is EQ_18_25_26 T_int)) (= locOpenParen_pre_119_48_13 locOpenParen_119_48_13) (= locOpenParen_119_48_13 (asField locOpenParen_119_48_13 T_int)) (= loc_pre_27_35_13 loc_27_35_13) (= loc_27_35_13 (asField loc_27_35_13 T_int)) (= TYPEMODIFIERPRAGMA_pre_29_28_26 TYPEMODIFIERPRAGMA_29_28_26) (= true_term (is TYPEMODIFIERPRAGMA_29_28_26 T_int)) (= locId_pre_62_48_13 locId_62_48_13) (= locId_62_48_13 (asField locId_62_48_13 T_int)) (= CONSTRUCTORINVOCATION_pre_19_44_7 CONSTRUCTORINVOCATION_19_44_7) (= true_term (is CONSTRUCTORINVOCATION_19_44_7 T_int)) (= count_pre_72_67_33 count_72_67_33) (= count_72_67_33 (asField count_72_67_33 T_int)) (= NOT_pre_18_56_26 NOT_18_56_26) (= true_term (is NOT_18_56_26 T_int)) (= returnType_pre_79_18_28 returnType_79_18_28) (= returnType_79_18_28 (asField returnType_79_18_28 T_javafe_ast_Type)) (< (fClosedTime returnType_79_18_28) alloc) (forall ((?s_16_ Int)) (=> (not (= ?s_16_ null)) (not (= (S_select returnType_79_18_28 ?s_16_) null)))) (= locDots_pre_141_31_29 locDots_141_31_29) (= locDots_141_31_29 (asField locDots_141_31_29 ?v_1)) (< (fClosedTime locDots_141_31_29) alloc) (forall ((?s_17_ Int)) (=> (not (= ?s_17_ null)) (not (= (S_select locDots_141_31_29 ?s_17_) null)))) (= BOOLEANLIT_pre_17_38_26 BOOLEANLIT_17_38_26) (= true_term (is BOOLEANLIT_17_38_26 T_int)) (= DOSTMT_pre_19_30_7 DOSTMT_19_30_7) (= true_term (is DOSTMT_19_30_7 T_int)) (= ASSIGN_pre_18_40_26 ASSIGN_18_40_26) (= true_term (is ASSIGN_18_40_26 T_int)) (= loc_pre_126_21_13 loc_126_21_13) (= loc_126_21_13 (asField loc_126_21_13 T_int)) (= op_pre_25_35_13 op_25_35_13) (= op_25_35_13 (asField op_25_35_13 T_int)) (= FIELDACCESS_pre_19_57_7 FIELDACCESS_19_57_7) (= true_term (is FIELDACCESS_19_57_7 T_int)) (= syntax_pre_22_28_29 syntax_22_28_29) (= syntax_22_28_29 (asField syntax_22_28_29 T_boolean)) (= ONDEMANDIMPORTDECL_pre_19_16_7 ONDEMANDIMPORTDECL_19_16_7) (= true_term (is ONDEMANDIMPORTDECL_19_16_7 T_int)) (= NE_pre_18_24_26 NE_18_24_26) (= true_term (is NE_18_24_26 T_int)) (= locColon_pre_125_25_13 locColon_125_25_13) (= locColon_125_25_13 (asField locColon_125_25_13 T_int)) (= locOpenBracket_pre_121_20_13 locOpenBracket_121_20_13) (= locOpenBracket_121_20_13 (asField locOpenBracket_121_20_13 T_int)) (= elems_pre elems) (= elems (asElems elems)) (< (eClosedTime elems) alloc) (= LS (asLockSet LS)) (= alloc_pre alloc)) (not (and (= true_term (is elems_91_56 T_javafe_ast_VarInitVec)) (= true_term (isAllocated elems_91_56 alloc)) (not (= elems_91_56 null)) (= true_term (is locOpenBrace_91_67 T_int)) (= true_term (is locCloseBrace_91_85 T_int)) (not (= locOpenBrace_91_67 NULL_13_60_26)) (not (= locCloseBrace_91_85 NULL_13_60_26)) (forall ((?brokenObj Int)) (=> (and (= true_term (is ?brokenObj T_javafe_ast_ArrayInit)) (not (= ?brokenObj null))) (not (= (S_select locOpenBrace_21_13 ?brokenObj) NULL_13_60_26)))) (forall ((?brokenObj_1_ Int)) (=> (and (= true_term (is ?brokenObj_1_ T_javafe_ast_ArrayInit)) (not (= ?brokenObj_1_ null))) (not (= (S_select locCloseBrace_24_13 ?brokenObj_1_) NULL_13_60_26)))) (or (not ?v_2) (and ?v_2 ?v_5 ?v_3 ?v_6 ?v_7 ?v_8 ?v_9 ?v_10 ?v_11 (or ?v_4 (and ?v_3 ?v_12 (or ?v_4 (and ?v_3 ?v_13 ?v_4))))) (and ?v_2 ?v_5 ?v_3 ?v_6 ?v_7 ?v_8 ?v_9 ?v_10 ?v_11 ?v_3 ?v_12 ?v_3 ?v_13 ?v_3 (= locCloseBrace_96_12 (S_store locCloseBrace_24_13 RES_93_24_93_24 locCloseBrace_91_85)) ?v_2 (or (not ?v_14) (and ?v_14 (or (not ?v_15) (and ?v_15 (or (not (forall ((?brokenObj Int)) (=> (and (= true_term (is ?brokenObj T_javafe_ast_ArrayInit)) (= true_term (isAllocated ?brokenObj after_93_24_93_24)) (not (= ?brokenObj null))) (not (= (S_select locOpenBrace_95_12 ?brokenObj) NULL_13_60_26))))) (not (forall ((?brokenObj_1_ Int)) (=> (and (= true_term (is ?brokenObj_1_ T_javafe_ast_ArrayInit)) (= true_term (isAllocated ?brokenObj_1_ after_93_24_93_24)) (not (= ?brokenObj_1_ null))) (not (= (S_select locCloseBrace_96_12 ?brokenObj_1_) NULL_13_60_26)))))))))))))))))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/quantifiers/javafe.ast.StandardPrettyPrint.319.smt2 b/test/regress/regress0/quantifiers/javafe.ast.StandardPrettyPrint.319.smt2
deleted file mode 100644
index fd672bd3b..000000000
--- a/test/regress/regress0/quantifiers/javafe.ast.StandardPrettyPrint.319.smt2
+++ /dev/null
@@ -1,1014 +0,0 @@
-(set-logic AUFLIA)
-(set-info :source | Simplify Theorem Prover Benchmark Suite |)
-(set-info :smt-lib-version 2.0)
-(set-info :category "industrial")
-(set-info :status unsat)
-(declare-fun true_term () Int)
-(declare-fun false_term () Int)
-(assert (= true_term 1))
-(assert (= false_term 0))
-(declare-fun S_select (Int Int) Int)
-(declare-fun S_store (Int Int Int) Int)
-(assert (forall ((?m Int) (?i Int) (?x Int)) (= (S_select (S_store ?m ?i ?x) ?i) ?x)))
-(assert (forall ((?m Int) (?i Int) (?j Int) (?x Int)) (=> (not (= ?i ?j)) (= (S_select (S_store ?m ?i ?x) ?j) (S_select ?m ?j)))))
-(declare-fun PO_LT (Int Int) Int)
-(assert (forall ((?t Int)) (= (PO_LT ?t ?t) true_term)))
-(declare-fun T_java_lang_Object () Int)
-(assert (= (PO_LT T_java_lang_Object T_java_lang_Object) true_term))
-(assert (forall ((?t0 Int) (?t1 Int) (?t2 Int)) (=> (and (= (PO_LT ?t0 ?t1) true_term) (= (PO_LT ?t1 ?t2) true_term)) (= (PO_LT ?t0 ?t2) true_term))))
-(assert (forall ((?t0 Int) (?t1 Int)) (=> (and (= (PO_LT ?t0 ?t1) true_term) (= (PO_LT ?t1 ?t0) true_term)) (= ?t0 ?t1))))
-(declare-fun T_boolean () Int)
-(assert (forall ((?t Int)) (=> (= (PO_LT ?t T_boolean) true_term) (= ?t T_boolean))))
-(declare-fun T_char () Int)
-(assert (forall ((?t Int)) (=> (= (PO_LT ?t T_char) true_term) (= ?t T_char))))
-(declare-fun T_byte () Int)
-(assert (forall ((?t Int)) (=> (= (PO_LT ?t T_byte) true_term) (= ?t T_byte))))
-(declare-fun T_short () Int)
-(assert (forall ((?t Int)) (=> (= (PO_LT ?t T_short) true_term) (= ?t T_short))))
-(declare-fun T_int () Int)
-(assert (forall ((?t Int)) (=> (= (PO_LT ?t T_int) true_term) (= ?t T_int))))
-(declare-fun T_long () Int)
-(assert (forall ((?t Int)) (=> (= (PO_LT ?t T_long) true_term) (= ?t T_long))))
-(declare-fun T_float () Int)
-(assert (forall ((?t Int)) (=> (= (PO_LT ?t T_float) true_term) (= ?t T_float))))
-(declare-fun T_double () Int)
-(assert (forall ((?t Int)) (=> (= (PO_LT ?t T_double) true_term) (= ?t T_double))))
-(assert (forall ((?t Int)) (=> (= (PO_LT T_boolean ?t) true_term) (= ?t T_boolean))))
-(assert (forall ((?t Int)) (=> (= (PO_LT T_char ?t) true_term) (= ?t T_char))))
-(assert (forall ((?t Int)) (=> (= (PO_LT T_byte ?t) true_term) (= ?t T_byte))))
-(assert (forall ((?t Int)) (=> (= (PO_LT T_short ?t) true_term) (= ?t T_short))))
-(assert (forall ((?t Int)) (=> (= (PO_LT T_int ?t) true_term) (= ?t T_int))))
-(assert (forall ((?t Int)) (=> (= (PO_LT T_long ?t) true_term) (= ?t T_long))))
-(assert (forall ((?t Int)) (=> (= (PO_LT T_float ?t) true_term) (= ?t T_float))))
-(assert (forall ((?t Int)) (=> (= (PO_LT T_double ?t) true_term) (= ?t T_double))))
-(declare-fun asChild (Int Int) Int)
-(declare-fun classDown (Int Int) Int)
-(assert (forall ((?t0 Int) (?t1 Int) (?t2 Int)) (let ((?v_0 (asChild ?t1 ?t2))) (=> (= (PO_LT ?t0 ?v_0) true_term) (= (classDown ?t2 ?t0) ?v_0)))))
-(declare-fun T_java_lang_Cloneable () Int)
-(assert (= (PO_LT T_java_lang_Cloneable T_java_lang_Object) true_term))
-(declare-fun array (Int) Int)
-(assert (forall ((?t Int)) (= (PO_LT (array ?t) T_java_lang_Cloneable) true_term)))
-(declare-fun elemtype (Int) Int)
-(assert (forall ((?t Int)) (= (elemtype (array ?t)) ?t)))
-(assert (forall ((?t0 Int) (?t1 Int)) (let ((?v_0 (elemtype ?t0))) (= (= (PO_LT ?t0 (array ?t1)) true_term) (and (= ?t0 (array ?v_0)) (= (PO_LT ?v_0 ?t1) true_term))))))
-(declare-fun is (Int Int) Int)
-(declare-fun cast (Int Int) Int)
-(assert (forall ((?x Int) (?t Int)) (= (is (cast ?x ?t) ?t) true_term)))
-(assert (forall ((?x Int) (?t Int)) (=> (= (is ?x ?t) true_term) (= (cast ?x ?t) ?x))))
-(assert true)
-(assert (forall ((?x Int)) (= (= (is ?x T_char) true_term) (and (<= 0 ?x) (<= ?x 65535)))))
-(assert (forall ((?x Int)) (= (= (is ?x T_byte) true_term) (and (<= (- 128) ?x) (<= ?x 127)))))
-(assert (forall ((?x Int)) (= (= (is ?x T_short) true_term) (and (<= (- 32768) ?x) (<= ?x 32767)))))
-(declare-fun intFirst () Int)
-(declare-fun intLast () Int)
-(assert (forall ((?x Int)) (= (= (is ?x T_int) true_term) (and (<= intFirst ?x) (<= ?x intLast)))))
-(declare-fun longFirst () Int)
-(declare-fun longLast () Int)
-(assert (forall ((?x Int)) (= (= (is ?x T_long) true_term) (and (<= longFirst ?x) (<= ?x longLast)))))
-(assert (< longFirst intFirst))
-(assert (< intFirst (- 1000000)))
-(assert (< 1000000 intLast))
-(assert (< intLast longLast))
-(declare-fun null () Int)
-(declare-fun typeof (Int) Int)
-(assert (forall ((?x Int) (?t Int)) (=> (= (PO_LT ?t T_java_lang_Object) true_term) (= (= (is ?x ?t) true_term) (or (= ?x null) (= (PO_LT (typeof ?x) ?t) true_term))))))
-(declare-fun asField (Int Int) Int)
-(assert (forall ((?f Int) (?t Int) (?x Int)) (= (is (S_select (asField ?f ?t) ?x) ?t) true_term)))
-(declare-fun asElems (Int) Int)
-(assert (forall ((?e Int) (?a Int) (?i Int)) (= (is (S_select (S_select (asElems ?e) ?a) ?i) (elemtype (typeof ?a))) true_term)))
-(declare-fun vAllocTime (Int) Int)
-(declare-fun isAllocated (Int Int) Int)
-(assert (forall ((?x Int) (?a0 Int)) (= (= (isAllocated ?x ?a0) true_term) (< (vAllocTime ?x) ?a0))))
-(declare-fun fClosedTime (Int) Int)
-(assert (forall ((?x Int) (?f Int) (?a0 Int)) (=> (and (< (fClosedTime ?f) ?a0) (= (isAllocated ?x ?a0) true_term)) (= (isAllocated (S_select ?f ?x) ?a0) true_term))))
-(declare-fun eClosedTime (Int) Int)
-(assert (forall ((?a Int) (?e Int) (?i Int) (?a0 Int)) (=> (and (< (eClosedTime ?e) ?a0) (= (isAllocated ?a ?a0) true_term)) (= (isAllocated (S_select (S_select ?e ?a) ?i) ?a0) true_term))))
-(declare-fun asLockSet (Int) Int)
-(declare-fun max (Int) Int)
-(assert (forall ((?S Int)) (let ((?v_0 (asLockSet ?S))) (= (S_select ?v_0 (max ?v_0)) true_term))))
-(assert (forall ((?S Int)) (= (S_select (asLockSet ?S) null) true_term)))
-(declare-fun lockLE (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (lockLE ?x ?y) true_term) (<= ?x ?y))))
-(declare-fun lockLT (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (lockLT ?x ?y) true_term) (< ?x ?y))))
-(assert (forall ((?S Int) (?mu Int)) (let ((?v_0 (asLockSet ?S))) (=> (= (S_select ?v_0 ?mu) true_term) (= (lockLE ?mu (max ?v_0)) true_term)))))
-(assert (forall ((?x Int)) (=> (= (PO_LT (typeof ?x) T_java_lang_Object) true_term) (= (lockLE null ?x) true_term))))
-(declare-fun arrayLength (Int) Int)
-(assert (forall ((?a Int)) (let ((?v_0 (arrayLength ?a))) (and (<= 0 ?v_0) (= (is ?v_0 T_int) true_term)))))
-(declare-fun arrayFresh (Int Int Int Int Int Int Int) Int)
-(declare-fun arrayShapeMore (Int Int) Int)
-(declare-fun arrayParent (Int) Int)
-(declare-fun arrayPosition (Int) Int)
-(assert (forall ((?a Int) (?a0 Int) (?b0 Int) (?e Int) (?n Int) (?s Int) (?T Int) (?v Int)) (= (= (arrayFresh ?a ?a0 ?b0 ?e (arrayShapeMore ?n ?s) ?T ?v) true_term) (and (<= ?a0 (vAllocTime ?a)) (= (isAllocated ?a ?b0) true_term) (not (= ?a null)) (= (typeof ?a) ?T) (= (arrayLength ?a) ?n) (forall ((?i Int)) (let ((?v_0 (S_select (S_select ?e ?a) ?i))) (and (= (arrayFresh ?v_0 ?a0 ?b0 ?e ?s (elemtype ?T) ?v) true_term) (= (arrayParent ?v_0) ?a) (= (arrayPosition ?v_0) ?i))))))))
-(declare-fun arrayShapeOne (Int) Int)
-(assert (forall ((?a Int) (?a0 Int) (?b0 Int) (?e Int) (?n Int) (?T Int) (?v Int)) (= (= (arrayFresh ?a ?a0 ?b0 ?e (arrayShapeOne ?n) ?T ?v) true_term) (and (<= ?a0 (vAllocTime ?a)) (= (isAllocated ?a ?b0) true_term) (not (= ?a null)) (= (typeof ?a) ?T) (= (arrayLength ?a) ?n) (forall ((?i Int)) (= (S_select (S_select ?e ?a) ?i) ?v))))))
-(declare-fun arrayType () Int)
-(assert (= arrayType (asChild arrayType T_java_lang_Object)))
-(assert (forall ((?t Int)) (= (PO_LT (array ?t) arrayType) true_term)))
-(declare-fun isNewArray (Int) Int)
-(assert (forall ((?s Int)) (=> (= true_term (isNewArray ?s)) (= (PO_LT (typeof ?s) arrayType) true_term))))
-(declare-fun boolAnd (Int Int) Int)
-(assert (forall ((?a Int) (?b Int)) (= (= (boolAnd ?a ?b) true_term) (and (= ?a true_term) (= ?b true_term)))))
-(declare-fun boolEq (Int Int) Int)
-(assert (forall ((?a Int) (?b Int)) (= (= (boolEq ?a ?b) true_term) (= (= ?a true_term) (= ?b true_term)))))
-(declare-fun boolImplies (Int Int) Int)
-(assert (forall ((?a Int) (?b Int)) (= (= (boolImplies ?a ?b) true_term) (=> (= ?a true_term) (= ?b true_term)))))
-(declare-fun boolNE (Int Int) Int)
-(assert (forall ((?a Int) (?b Int)) (= (= (boolNE ?a ?b) true_term) (not (= (= ?a true_term) (= ?b true_term))))))
-(declare-fun boolNot (Int) Int)
-(assert (forall ((?a Int)) (= (= (boolNot ?a) true_term) (not (= ?a true_term)))))
-(declare-fun boolOr (Int Int) Int)
-(assert (forall ((?a Int) (?b Int)) (= (= (boolOr ?a ?b) true_term) (or (= ?a true_term) (= ?b true_term)))))
-(declare-fun integralEQ (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (integralEQ ?x ?y) true_term) (= ?x ?y))))
-(declare-fun stringCat (Int Int) Int)
-(declare-fun T_java_lang_String () Int)
-(assert (forall ((?x Int) (?y Int)) (let ((?v_0 (stringCat ?x ?y))) (and (not (= ?v_0 null)) (= (PO_LT (typeof ?v_0) T_java_lang_String) true_term)))))
-(declare-fun integralGE (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (integralGE ?x ?y) true_term) (>= ?x ?y))))
-(declare-fun integralGT (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (integralGT ?x ?y) true_term) (> ?x ?y))))
-(declare-fun integralLE (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (integralLE ?x ?y) true_term) (<= ?x ?y))))
-(declare-fun integralLT (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (integralLT ?x ?y) true_term) (< ?x ?y))))
-(declare-fun integralNE (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (integralNE ?x ?y) true_term) (not (= ?x ?y)))))
-(declare-fun refEQ (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (refEQ ?x ?y) true_term) (= ?x ?y))))
-(declare-fun refNE (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (refNE ?x ?y) true_term) (not (= ?x ?y)))))
-(declare-fun nonnullelements (Int Int) Int)
-(assert (forall ((?x Int) (?e Int)) (= (= (nonnullelements ?x ?e) true_term) (and (not (= ?x null)) (forall ((?i Int)) (=> (and (<= 0 ?i) (< ?i (arrayLength ?x))) (not (= (S_select (S_select ?e ?x) ?i) null))))))))
-(declare-fun classLiteral (Int) Int)
-(declare-fun T_java_lang_Class () Int)
-(declare-fun alloc () Int)
-(assert (forall ((?t Int)) (let ((?v_0 (classLiteral ?t))) (and (not (= ?v_0 null)) (= (is ?v_0 T_java_lang_Class) true_term) (= (isAllocated ?v_0 alloc) true_term)))))
-(declare-fun integralAnd (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (=> (or (<= 0 ?x) (<= 0 ?y)) (<= 0 (integralAnd ?x ?y)))))
-(assert (forall ((?x Int) (?y Int)) (=> (<= 0 ?x) (<= (integralAnd ?x ?y) ?x))))
-(assert (forall ((?x Int) (?y Int)) (=> (<= 0 ?y) (<= (integralAnd ?x ?y) ?y))))
-(declare-fun integralOr (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (let ((?v_0 (integralOr ?x ?y))) (=> (and (<= 0 ?x) (<= 0 ?y)) (and (<= ?x ?v_0) (<= ?y ?v_0))))))
-(declare-fun integralXor (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (=> (and (<= 0 ?x) (<= 0 ?y)) (<= 0 (integralXor ?x ?y)))))
-(declare-fun intShiftL (Int Int) Int)
-(assert (forall ((?n Int)) (=> (and (<= 0 ?n) (< ?n 31)) (<= 1 (intShiftL 1 ?n)))))
-(declare-fun longShiftL (Int Int) Int)
-(assert (forall ((?n Int)) (=> (and (<= 0 ?n) (< ?n 63)) (<= 1 (longShiftL 1 ?n)))))
-(assert true)
-(declare-fun T_javafe_ast_Stmt () Int)
-(declare-fun T_javafe_ast_ASTNode () Int)
-(declare-fun T_javafe_ast_InstanceOfExpr () Int)
-(declare-fun T_javafe_ast_Expr () Int)
-(declare-fun T_java_util_Hashtable () Int)
-(declare-fun T_java_util_Dictionary () Int)
-(declare-fun T_java_util_Map () Int)
-(declare-fun T_java_io_Serializable () Int)
-(declare-fun T_javafe_ast_NewArrayExpr () Int)
-(declare-fun T_javafe_ast_StmtPragma () Int)
-(declare-fun T_javafe_ast_MethodInvocation () Int)
-(declare-fun T_java_lang_Float () Int)
-(declare-fun T_java_lang_Number () Int)
-(declare-fun T_java_lang_Comparable () Int)
-(declare-fun T_javafe_ast_Name () Int)
-(declare-fun T_javafe_ast_InitBlock () Int)
-(declare-fun T_javafe_ast_TypeDeclElem () Int)
-(declare-fun T_javafe_tc_Env () Int)
-(declare-fun T_javafe_ast_Modifiers () Int)
-(declare-fun T_javafe_tc_TagConstants () Int)
-(declare-fun T_javafe_parser_TagConstants () Int)
-(declare-fun T_javafe_ast_ObjectDesignator () Int)
-(declare-fun T_javafe_ast_LocalVarDecl () Int)
-(declare-fun T_javafe_ast_GenericVarDecl () Int)
-(declare-fun T_java_lang__the_root_interface_ () Int)
-(declare-fun T_javafe_tc_FieldDeclVec () Int)
-(declare-fun T_javafe_ast_CatchClause () Int)
-(declare-fun T_javafe_ast_GeneratedTags () Int)
-(declare-fun T_javafe_ast_SwitchStmt () Int)
-(declare-fun T_javafe_ast_GenericBlockStmt () Int)
-(declare-fun T_javafe_ast_LexicalPragmaVec () Int)
-(declare-fun T_javafe_ast_IdentifierVec () Int)
-(declare-fun T_javafe_util_Assert () Int)
-(declare-fun T_javafe_ast_FormalParaDeclVec () Int)
-(declare-fun T_javafe_ast_IfStmt () Int)
-(declare-fun T_java_lang_Boolean () Int)
-(declare-fun T_java_lang_Long () Int)
-(declare-fun T_javafe_ast_NewInstanceExpr () Int)
-(declare-fun T_javafe_ast_LiteralExpr () Int)
-(declare-fun T_javafe_ast_Identifier () Int)
-(declare-fun T_java_util_EscjavaKeyValue () Int)
-(declare-fun T_javafe_ast_SynchronizeStmt () Int)
-(declare-fun T_javafe_ast_CastExpr () Int)
-(declare-fun T_javafe_tc_MethodDeclVec () Int)
-(declare-fun T_javafe_ast_SwitchLabel () Int)
-(declare-fun T_javafe_ast_OnDemandImportDecl () Int)
-(declare-fun T_javafe_ast_ImportDecl () Int)
-(declare-fun T_javafe_ast_LexicalPragma () Int)
-(declare-fun T_javafe_ast_StandardPrettyPrint () Int)
-(declare-fun T_javafe_ast_PrettyPrint () Int)
-(declare-fun T_javafe_ast_BinaryExpr () Int)
-(declare-fun T_javafe_ast_TypeDeclElemVec () Int)
-(declare-fun T_javafe_ast_ConstructorInvocation () Int)
-(declare-fun T_javafe_ast_ThisExpr () Int)
-(declare-fun T_javafe_ast_TryFinallyStmt () Int)
-(declare-fun T_javafe_ast_TypeDecl () Int)
-(declare-fun T_javafe_ast_TypeModifierPragma () Int)
-(declare-fun T_javafe_ast_Type () Int)
-(declare-fun T_javafe_ast_ModifierPragma () Int)
-(declare-fun T_javafe_ast_SuperObjectDesignator () Int)
-(declare-fun T_java_lang_Integer () Int)
-(declare-fun T_javafe_ast_SingleTypeImportDecl () Int)
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-(declare-fun T_javafe_ast_DoStmt () Int)
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-(declare-fun T_javafe_ast_ExprObjectDesignator () Int)
-(declare-fun T_javafe_ast_VarInitVec () Int)
-(declare-fun T_javafe_ast_VariableAccess () Int)
-(declare-fun T_javafe_ast_TypeDeclVec () Int)
-(declare-fun T_javafe_ast_ThrowStmt () Int)
-(declare-fun T_javafe_ast_StmtVec () Int)
-(declare-fun T_javafe_ast_AmbiguousVariableAccess () Int)
-(declare-fun T_java_io_OutputStream () Int)
-(declare-fun T_javafe_ast_ClassDeclStmt () Int)
-(declare-fun T_javafe_ast_PrimitiveType () Int)
-(declare-fun T_java_lang_Character () Int)
-(declare-fun T_javafe_ast_AmbiguousMethodInvocation () Int)
-(declare-fun T_javafe_ast_TagConstants () Int)
-(declare-fun T_javafe_ast_OperatorTags () Int)
-(declare-fun T_javafe_ast_EvalStmt () Int)
-(declare-fun T_javafe_ast_ClassDecl () Int)
-(declare-fun T_javafe_ast_UnaryExpr () Int)
-(declare-fun T_javafe_ast_TryCatchStmt () Int)
-(declare-fun T_javafe_ast_FieldAccess () Int)
-(declare-fun T_javafe_ast_CompilationUnit () Int)
-(declare-fun T_javafe_ast_FieldDecl () Int)
-(declare-fun T_java_lang_Double () Int)
-(declare-fun T_javafe_ast_ClassLiteral () Int)
-(declare-fun T_javafe_ast_VarInit () Int)
-(declare-fun T_javafe_ast_ReturnStmt () Int)
-(declare-fun T_javafe_ast_FormalParaDecl () Int)
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-(declare-fun T_javafe_ast_RoutineDecl () Int)
-(declare-fun T_javafe_ast_TypeObjectDesignator () Int)
-(declare-fun T_javafe_ast_TypeNameVec () Int)
-(declare-fun T_javafe_ast_ModifierPragmaVec () Int)
-(declare-fun T_javafe_ast_VarDeclStmt () Int)
-(declare-fun T_javafe_ast_ArrayRefExpr () Int)
-(declare-fun T_javafe_ast_BreakStmt () Int)
-(declare-fun T_javafe_ast_BranchStmt () Int)
-(declare-fun T_java_lang_StringBuffer () Int)
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-(declare-fun T_javafe_tc_TypeSig () Int)
-(declare-fun T_javafe_ast_TypeModifierPragmaVec () Int)
-(declare-fun T_javafe_ast_CondExpr () Int)
-(declare-fun T_javafe_ast_ArrayType () Int)
-(declare-fun T_javafe_ast_CompoundName () Int)
-(declare-fun T_javafe_ast_ArrayInit () Int)
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-(declare-fun T_javafe_util_Location () Int)
-(declare-fun T_javafe_ast_TypeName () Int)
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-(declare-fun T__TYPE () Int)
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-(declare-fun FLOATLIT_31_42_26 () Int)
-(declare-fun TYPEDECLELEMPRAGMA_119_27_26 () Int)
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-(declare-fun NEWARRAYEXPR_33_50_7 () Int)
-(declare-fun ASGADD_32_44_26 () Int)
-(declare-fun CHARLIT_31_41_26 () Int)
-(declare-fun STMTPRAGMA_119_26_26 () Int)
-(declare-fun LOCALVARDECL_33_22_7 () Int)
-(declare-fun NEWINSTANCEEXPR_33_49_7 () Int)
-(declare-fun ASGREM_32_43_26 () Int)
-(declare-fun LONGLIT_31_40_26 () Int)
-(declare-fun MODIFIERPRAGMA_119_25_26 () Int)
-(declare-fun INITBLOCK_33_21_7 () Int)
-(declare-fun ARRAYREFEXPR_33_48_7 () Int)
-(declare-fun ASGDIV_32_42_26 () Int)
-(declare-fun INTLIT_31_39_26 () Int)
-(declare-fun LEXICALPRAGMA_119_24_26 () Int)
-(declare-fun METHODDECL_33_20_7 () Int)
-(declare-fun otherCodes_119_202_27 () Int)
-(declare-fun THISEXPR_33_47_7 () Int)
-(declare-fun ASGMUL_32_41_26 () Int)
-(declare-fun BOOLEANLIT_31_38_26 () Int)
-(declare-fun CONSTRUCTORDECL_33_19_7 () Int)
-(declare-fun FIRST_KEYWORD_119_51_26 () Int)
-(declare-fun ARRAYINIT_33_46_7 () Int)
-(declare-fun ASSIGN_32_40_26 () Int)
-(declare-fun SHORTTYPE_31_36_26 () Int)
-(declare-fun INTERFACEDECL_33_18_7 () Int)
-(declare-fun CATCHCLAUSE_33_45_7 () Int)
-(declare-fun STAR_32_37_26 () Int)
-(declare-fun BYTETYPE_31_35_26 () Int)
-(declare-fun CLASSDECL_33_17_7 () Int)
-(declare-fun CONSTRUCTORINVOCATION_33_44_7 () Int)
-(declare-fun MOD_32_36_26 () Int)
-(declare-fun TYPESIG_118_6_28 () Int)
-(declare-fun NULLTYPE_31_34_26 () Int)
-(declare-fun ONDEMANDIMPORTDECL_33_16_7 () Int)
-(declare-fun TRYCATCHSTMT_33_43_7 () Int)
-(declare-fun DIV_32_35_26 () Int)
-(declare-fun VOIDTYPE_31_33_26 () Int)
-(declare-fun SINGLETYPEIMPORTDECL_33_15_7 () Int)
-(declare-fun TRYFINALLYSTMT_33_42_7 () Int)
-(declare-fun SUB_32_34_26 () Int)
-(declare-fun DOUBLETYPE_31_32_26 () Int)
-(declare-fun MIN_VALUE_105_39_30 () Int)
-(declare-fun neg2147483648 () Int)
-(declare-fun COMPILATIONUNIT_33_14_7 () Int)
-(declare-fun SWITCHLABEL_33_41_7 () Int)
-(declare-fun ADD_32_33_26 () Int)
-(declare-fun FLOATTYPE_31_31_26 () Int)
-(declare-fun otherStrings_119_193_30 () Int)
-(declare-fun SKIPSTMT_33_40_7 () Int)
-(declare-fun URSHIFT_32_32_26 () Int)
-(declare-fun COMPOUNDNAME_33_67_7 () Int)
-(declare-fun CHARTYPE_31_30_26 () Int)
-(declare-fun FORSTMT_33_39_7 () Int)
-(declare-fun RSHIFT_32_31_26 () Int)
-(declare-fun SIMPLENAME_33_66_7 () Int)
-(declare-fun LONGTYPE_31_29_26 () Int)
-(declare-fun IFSTMT_33_38_7 () Int)
-(declare-fun LSHIFT_32_30_26 () Int)
-(declare-fun ARRAYTYPE_33_65_7 () Int)
-(declare-fun INTTYPE_31_28_26 () Int)
-(declare-fun POSTFIXDEC_32_63_26 () Int)
-(declare-fun LABELSTMT_33_37_7 () Int)
-(declare-fun LT_32_29_26 () Int)
-(declare-fun TYPENAME_33_64_7 () Int)
-(declare-fun BOOLEANTYPE_31_27_26 () Int)
-(declare-fun POSTFIXINC_32_62_26 () Int)
-(declare-fun CONTINUESTMT_33_36_7 () Int)
-(declare-fun LE_32_28_26 () Int)
-(declare-fun SUPEROBJECTDESIGNATOR_33_63_7 () Int)
-(declare-fun IDENT_31_25_26 () Int)
-(declare-fun DEC_32_59_26 () Int)
-(declare-fun BREAKSTMT_33_35_7 () Int)
-(declare-fun GT_32_27_26 () Int)
-(declare-fun TYPEOBJECTDESIGNATOR_33_62_7 () Int)
-(declare-fun INC_32_58_26 () Int)
-(declare-fun THROWSTMT_33_34_7 () Int)
-(declare-fun GE_32_26_26 () Int)
-(declare-fun EXPROBJECTDESIGNATOR_33_61_7 () Int)
-(declare-fun BITNOT_32_57_26 () Int)
-(declare-fun RETURNSTMT_33_33_7 () Int)
-(declare-fun punctuationCodes_119_164_19 () Int)
-(declare-fun punctuationStrings_119_134_22 () Int)
-(declare-fun EQ_32_25_26 () Int)
-(declare-fun CLASSLITERAL_33_60_7 () Int)
-(declare-fun NOT_32_56_26 () Int)
-(declare-fun EVALSTMT_33_32_7 () Int)
-(declare-fun NE_32_24_26 () Int)
-(declare-fun METHODINVOCATION_33_59_7 () Int)
-(declare-fun LAST_KEYWORD_119_103_26 () Int)
-(declare-fun UNARYSUB_32_55_26 () Int)
-(declare-fun MIN_VALUE_107_38_29 () Int)
-(declare-fun neg9223372036854775808 () Int)
-(declare-fun keywordStrings_119_181_30 () Int)
-(declare-fun SYNCHRONIZESTMT_33_31_7 () Int)
-(declare-fun NULL_119_82_26 () Int)
-(declare-fun BITAND_32_23_26 () Int)
-(declare-fun AMBIGUOUSMETHODINVOCATION_33_58_7 () Int)
-(declare-fun UNARYADD_32_54_26 () Int)
-(declare-fun DOSTMT_33_30_7 () Int)
-(declare-fun BITXOR_32_22_26 () Int)
-(declare-fun FIELDACCESS_33_57_7 () Int)
-(declare-fun ASGBITXOR_32_51_26 () Int)
-(declare-fun WHILESTMT_33_29_7 () Int)
-(declare-fun BITOR_32_21_26 () Int)
-(declare-fun VARIABLEACCESS_33_56_7 () Int)
-(declare-fun NULL_116_60_26 () Int)
-(declare-fun ASGBITOR_32_50_26 () Int)
-(declare-fun CLASSDECLSTMT_33_28_7 () Int)
-(declare-fun AMBIGUOUSVARIABLEACCESS_33_55_7 () Int)
-(declare-fun ASGBITAND_32_49_26 () Int)
-(assert (let ((?v_0 (array T_int)) (?v_1 (array T_java_lang_String))) (and (= (PO_LT T_javafe_ast_Stmt T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_Stmt (asChild T_javafe_ast_Stmt T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_InstanceOfExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_InstanceOfExpr (asChild T_javafe_ast_InstanceOfExpr T_javafe_ast_Expr)) (= (PO_LT T_java_util_Hashtable T_java_util_Dictionary) true_term) (= T_java_util_Hashtable (asChild T_java_util_Hashtable T_java_util_Dictionary)) (= (PO_LT T_java_util_Hashtable T_java_util_Map) true_term) (= (PO_LT T_java_util_Hashtable T_java_lang_Cloneable) true_term) (= (PO_LT T_java_util_Hashtable T_java_io_Serializable) true_term) (= (PO_LT T_javafe_ast_NewArrayExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_NewArrayExpr (asChild T_javafe_ast_NewArrayExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_StmtPragma T_javafe_ast_Stmt) true_term) (= T_javafe_ast_StmtPragma (asChild T_javafe_ast_StmtPragma T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_MethodInvocation T_javafe_ast_Expr) true_term) (= T_javafe_ast_MethodInvocation (asChild T_javafe_ast_MethodInvocation T_javafe_ast_Expr)) (= (PO_LT T_java_lang_Float T_java_lang_Number) true_term) (= T_java_lang_Float (asChild T_java_lang_Float T_java_lang_Number)) (forall ((?t Int)) (= (= (PO_LT ?t T_java_lang_Float) true_term) (= ?t T_java_lang_Float))) (= (PO_LT T_java_lang_Float T_java_lang_Comparable) true_term) (= (PO_LT T_javafe_ast_Name T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_Name (asChild T_javafe_ast_Name T_javafe_ast_ASTNode)) (= (PO_LT T_java_io_Serializable T_java_lang_Object) true_term) (= (PO_LT T_javafe_ast_InitBlock T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_InitBlock (asChild T_javafe_ast_InitBlock T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_InitBlock T_javafe_ast_TypeDeclElem) true_term) (= (PO_LT T_javafe_tc_Env T_java_lang_Object) true_term) (= T_javafe_tc_Env (asChild T_javafe_tc_Env T_java_lang_Object)) (= (PO_LT 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T_javafe_tc_FieldDeclVec (asChild T_javafe_tc_FieldDeclVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_CatchClause T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_CatchClause (asChild T_javafe_ast_CatchClause T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_GeneratedTags T_java_lang_Object) true_term) (= (PO_LT T_javafe_ast_SwitchStmt T_javafe_ast_GenericBlockStmt) true_term) (= T_javafe_ast_SwitchStmt (asChild T_javafe_ast_SwitchStmt T_javafe_ast_GenericBlockStmt)) (= (PO_LT T_javafe_ast_LexicalPragmaVec T_java_lang_Object) true_term) (= T_javafe_ast_LexicalPragmaVec (asChild T_javafe_ast_LexicalPragmaVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_IdentifierVec T_java_lang_Object) true_term) (= T_javafe_ast_IdentifierVec (asChild T_javafe_ast_IdentifierVec T_java_lang_Object)) (= (PO_LT T_java_lang_Comparable T_java_lang_Object) true_term) (= (PO_LT T_javafe_util_Assert T_java_lang_Object) true_term) (= T_javafe_util_Assert (asChild T_javafe_util_Assert T_java_lang_Object)) (= (PO_LT T_javafe_ast_FormalParaDeclVec T_java_lang_Object) true_term) (= T_javafe_ast_FormalParaDeclVec (asChild T_javafe_ast_FormalParaDeclVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_IfStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_IfStmt (asChild T_javafe_ast_IfStmt T_javafe_ast_Stmt)) (= (PO_LT T_java_lang_Boolean T_java_lang_Object) true_term) (= T_java_lang_Boolean (asChild T_java_lang_Boolean T_java_lang_Object)) (forall ((?t Int)) (= (= (PO_LT ?t T_java_lang_Boolean) true_term) (= ?t T_java_lang_Boolean))) (= (PO_LT T_java_lang_Boolean T_java_io_Serializable) true_term) (= (PO_LT T_java_lang_Long T_java_lang_Number) true_term) (= T_java_lang_Long (asChild T_java_lang_Long T_java_lang_Number)) (forall ((?t Int)) (= (= (PO_LT ?t T_java_lang_Long) true_term) (= ?t T_java_lang_Long))) (= (PO_LT T_java_lang_Long T_java_lang_Comparable) true_term) (= (PO_LT T_javafe_ast_NewInstanceExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_NewInstanceExpr (asChild T_javafe_ast_NewInstanceExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_LiteralExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_LiteralExpr (asChild T_javafe_ast_LiteralExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_Identifier T_java_lang_Object) true_term) (= T_javafe_ast_Identifier (asChild T_javafe_ast_Identifier T_java_lang_Object)) (forall ((?t Int)) (= (= (PO_LT ?t T_javafe_ast_Identifier) true_term) (= ?t T_javafe_ast_Identifier))) (= (PO_LT T_java_util_Map T_java_lang_Object) true_term) (= (PO_LT T_java_util_Map T_java_util_EscjavaKeyValue) true_term) (= (PO_LT T_javafe_ast_SynchronizeStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_SynchronizeStmt (asChild T_javafe_ast_SynchronizeStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_CastExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_CastExpr (asChild T_javafe_ast_CastExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_tc_MethodDeclVec T_java_lang_Object) true_term) (= T_javafe_tc_MethodDeclVec (asChild T_javafe_tc_MethodDeclVec T_java_lang_Object)) (= (PO_LT 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T_javafe_ast_SingleTypeImportDecl T_javafe_ast_ImportDecl)) (= (PO_LT T_javafe_ast_ImportDecl T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_ImportDecl (asChild T_javafe_ast_ImportDecl T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_ForStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_ForStmt (asChild T_javafe_ast_ForStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_DoStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_DoStmt (asChild T_javafe_ast_DoStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_ASTDecoration T_java_lang_Object) true_term) (= T_javafe_ast_ASTDecoration (asChild T_javafe_ast_ASTDecoration T_java_lang_Object)) (= (PO_LT T_javafe_ast_ExprObjectDesignator T_javafe_ast_ObjectDesignator) true_term) (= T_javafe_ast_ExprObjectDesignator (asChild T_javafe_ast_ExprObjectDesignator T_javafe_ast_ObjectDesignator)) (= (PO_LT T_javafe_ast_VarInitVec T_java_lang_Object) true_term) (= T_javafe_ast_VarInitVec (asChild T_javafe_ast_VarInitVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_VariableAccess T_javafe_ast_Expr) true_term) (= T_javafe_ast_VariableAccess (asChild T_javafe_ast_VariableAccess T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_TypeDeclVec T_java_lang_Object) true_term) (= T_javafe_ast_TypeDeclVec (asChild T_javafe_ast_TypeDeclVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_ThrowStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_ThrowStmt (asChild T_javafe_ast_ThrowStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_StmtVec T_java_lang_Object) true_term) (= T_javafe_ast_StmtVec (asChild T_javafe_ast_StmtVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_AmbiguousVariableAccess T_javafe_ast_Expr) true_term) (= T_javafe_ast_AmbiguousVariableAccess (asChild T_javafe_ast_AmbiguousVariableAccess T_javafe_ast_Expr)) (= (PO_LT T_java_io_OutputStream T_java_lang_Object) true_term) (= T_java_io_OutputStream (asChild T_java_io_OutputStream T_java_lang_Object)) (= (PO_LT T_java_util_Dictionary T_java_lang_Object) true_term) (= T_java_util_Dictionary (asChild T_java_util_Dictionary T_java_lang_Object)) (= (PO_LT T_java_util_Dictionary T_java_util_EscjavaKeyValue) true_term) (= (PO_LT T_javafe_ast_GenericVarDecl T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_GenericVarDecl (asChild T_javafe_ast_GenericVarDecl T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_ClassDeclStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_ClassDeclStmt (asChild T_javafe_ast_ClassDeclStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_PrettyPrint T_java_lang_Object) true_term) (= T_javafe_ast_PrettyPrint (asChild T_javafe_ast_PrettyPrint T_java_lang_Object)) (= (PO_LT T_javafe_ast_GenericBlockStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_GenericBlockStmt (asChild T_javafe_ast_GenericBlockStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_PrimitiveType T_javafe_ast_Type) true_term) (= T_javafe_ast_PrimitiveType (asChild T_javafe_ast_PrimitiveType T_javafe_ast_Type)) (= (PO_LT T_java_lang_Character T_java_lang_Object) true_term) (= T_java_lang_Character (asChild T_java_lang_Character T_java_lang_Object)) (forall ((?t Int)) (= (= (PO_LT ?t T_java_lang_Character) true_term) (= ?t T_java_lang_Character))) (= (PO_LT T_java_lang_Character T_java_io_Serializable) true_term) (= (PO_LT T_java_lang_Character T_java_lang_Comparable) true_term) (= (PO_LT T_javafe_ast_TypeDeclElem T_java_lang_Object) true_term) (= (PO_LT T_javafe_ast_AmbiguousMethodInvocation T_javafe_ast_Expr) true_term) (= T_javafe_ast_AmbiguousMethodInvocation (asChild T_javafe_ast_AmbiguousMethodInvocation T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_TagConstants T_javafe_ast_OperatorTags) true_term) (= T_javafe_ast_TagConstants (asChild T_javafe_ast_TagConstants T_javafe_ast_OperatorTags)) (= (PO_LT T_javafe_ast_EvalStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_EvalStmt (asChild T_javafe_ast_EvalStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_ClassDecl T_javafe_ast_TypeDecl) true_term) (= T_javafe_ast_ClassDecl (asChild T_javafe_ast_ClassDecl T_javafe_ast_TypeDecl)) (= (PO_LT T_javafe_ast_UnaryExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_UnaryExpr (asChild T_javafe_ast_UnaryExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_TryCatchStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_TryCatchStmt (asChild T_javafe_ast_TryCatchStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_FieldAccess T_javafe_ast_Expr) true_term) (= T_javafe_ast_FieldAccess (asChild T_javafe_ast_FieldAccess T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_CompilationUnit T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_CompilationUnit (asChild T_javafe_ast_CompilationUnit T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_FieldDecl T_javafe_ast_GenericVarDecl) true_term) (= T_javafe_ast_FieldDecl (asChild T_javafe_ast_FieldDecl T_javafe_ast_GenericVarDecl)) (= (PO_LT T_javafe_ast_FieldDecl T_javafe_ast_TypeDeclElem) true_term) (= (PO_LT T_java_lang_Double T_java_lang_Number) true_term) (= T_java_lang_Double (asChild T_java_lang_Double T_java_lang_Number)) (forall ((?t Int)) (= (= (PO_LT ?t T_java_lang_Double) true_term) (= ?t T_java_lang_Double))) (= (PO_LT T_java_lang_Double T_java_lang_Comparable) true_term) (= (PO_LT T_javafe_ast_ClassLiteral T_javafe_ast_Expr) true_term) (= T_javafe_ast_ClassLiteral (asChild T_javafe_ast_ClassLiteral T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_VarInit T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_VarInit (asChild T_javafe_ast_VarInit T_javafe_ast_ASTNode)) (= (PO_LT T_java_lang_Cloneable T_java_lang_Object) true_term) (= (PO_LT T_javafe_ast_ReturnStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_ReturnStmt (asChild T_javafe_ast_ReturnStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_FormalParaDecl T_javafe_ast_GenericVarDecl) true_term) (= T_javafe_ast_FormalParaDecl (asChild T_javafe_ast_FormalParaDecl T_javafe_ast_GenericVarDecl)) (= (PO_LT T_javafe_ast_TypeDeclElemPragma T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_TypeDeclElemPragma (asChild T_javafe_ast_TypeDeclElemPragma T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_TypeDeclElemPragma T_javafe_ast_TypeDeclElem) true_term) (= (PO_LT T_javafe_ast_RoutineDecl T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_RoutineDecl (asChild T_javafe_ast_RoutineDecl T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_RoutineDecl T_javafe_ast_TypeDeclElem) true_term) (= (PO_LT T_javafe_ast_TypeObjectDesignator T_javafe_ast_ObjectDesignator) true_term) (= T_javafe_ast_TypeObjectDesignator (asChild T_javafe_ast_TypeObjectDesignator T_javafe_ast_ObjectDesignator)) (= (PO_LT T_javafe_ast_TypeNameVec T_java_lang_Object) true_term) (= T_javafe_ast_TypeNameVec (asChild T_javafe_ast_TypeNameVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_ModifierPragmaVec T_java_lang_Object) true_term) (= T_javafe_ast_ModifierPragmaVec (asChild T_javafe_ast_ModifierPragmaVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_VarDeclStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_VarDeclStmt (asChild T_javafe_ast_VarDeclStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_ArrayRefExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_ArrayRefExpr (asChild T_javafe_ast_ArrayRefExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_BreakStmt T_javafe_ast_BranchStmt) true_term) (= T_javafe_ast_BreakStmt (asChild T_javafe_ast_BreakStmt T_javafe_ast_BranchStmt)) (= (PO_LT T_javafe_ast_OperatorTags T_java_lang_Object) true_term) (= T_javafe_ast_OperatorTags (asChild T_javafe_ast_OperatorTags T_java_lang_Object)) (= (PO_LT T_javafe_ast_OperatorTags T_javafe_ast_GeneratedTags) true_term) (= (PO_LT T_java_lang_StringBuffer T_java_lang_Object) true_term) (= T_java_lang_StringBuffer (asChild T_java_lang_StringBuffer T_java_lang_Object)) (forall ((?t Int)) (= (= (PO_LT ?t T_java_lang_StringBuffer) true_term) (= ?t T_java_lang_StringBuffer))) (= (PO_LT T_java_lang_StringBuffer T_java_io_Serializable) true_term) (= (PO_LT T_javafe_ast_CatchClauseVec T_java_lang_Object) true_term) (= T_javafe_ast_CatchClauseVec (asChild T_javafe_ast_CatchClauseVec T_java_lang_Object)) (= (PO_LT T_javafe_tc_TypeSig T_javafe_ast_Type) true_term) (= T_javafe_tc_TypeSig (asChild T_javafe_tc_TypeSig T_javafe_ast_Type)) (= (PO_LT T_javafe_ast_TypeModifierPragmaVec T_java_lang_Object) true_term) (= T_javafe_ast_TypeModifierPragmaVec (asChild T_javafe_ast_TypeModifierPragmaVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_CondExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_CondExpr (asChild T_javafe_ast_CondExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_ArrayType T_javafe_ast_Type) true_term) (= T_javafe_ast_ArrayType (asChild T_javafe_ast_ArrayType T_javafe_ast_Type)) (= (PO_LT T_javafe_parser_TagConstants T_javafe_ast_TagConstants) true_term) (= T_javafe_parser_TagConstants (asChild T_javafe_parser_TagConstants T_javafe_ast_TagConstants)) (= (PO_LT T_javafe_ast_CompoundName T_javafe_ast_Name) true_term) (= T_javafe_ast_CompoundName (asChild T_javafe_ast_CompoundName T_javafe_ast_Name)) (= (PO_LT T_javafe_ast_ArrayInit T_javafe_ast_VarInit) true_term) (= T_javafe_ast_ArrayInit (asChild T_javafe_ast_ArrayInit T_javafe_ast_VarInit)) (= (PO_LT T_javafe_ast_ImportDeclVec T_java_lang_Object) true_term) (= T_javafe_ast_ImportDeclVec (asChild T_javafe_ast_ImportDeclVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_ExprVec T_java_lang_Object) true_term) (= T_javafe_ast_ExprVec (asChild T_javafe_ast_ExprVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_WhileStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_WhileStmt (asChild T_javafe_ast_WhileStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_BlockStmt T_javafe_ast_GenericBlockStmt) true_term) (= T_javafe_ast_BlockStmt (asChild T_javafe_ast_BlockStmt T_javafe_ast_GenericBlockStmt)) (= (PO_LT T_javafe_ast_ParenExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_ParenExpr (asChild T_javafe_ast_ParenExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_MethodDecl T_javafe_ast_RoutineDecl) true_term) (= T_javafe_ast_MethodDecl (asChild T_javafe_ast_MethodDecl T_javafe_ast_RoutineDecl)) (= (PO_LT T_javafe_ast_InterfaceDecl T_javafe_ast_TypeDecl) true_term) (= T_javafe_ast_InterfaceDecl (asChild T_javafe_ast_InterfaceDecl T_javafe_ast_TypeDecl)) (= (PO_LT T_javafe_ast_ContinueStmt T_javafe_ast_BranchStmt) true_term) (= T_javafe_ast_ContinueStmt (asChild T_javafe_ast_ContinueStmt T_javafe_ast_BranchStmt)) (= (PO_LT T_javafe_ast_SimpleName T_javafe_ast_Name) true_term) (= T_javafe_ast_SimpleName (asChild T_javafe_ast_SimpleName T_javafe_ast_Name)) (= (PO_LT T_javafe_ast_Expr T_javafe_ast_VarInit) true_term) (= T_javafe_ast_Expr (asChild T_javafe_ast_Expr T_javafe_ast_VarInit)) (= (PO_LT T_java_lang_String T_java_lang_Object) true_term) (= T_java_lang_String (asChild T_java_lang_String T_java_lang_Object)) (forall ((?t Int)) (= (= (PO_LT ?t T_java_lang_String) true_term) (= ?t T_java_lang_String))) (= (PO_LT T_java_lang_String T_java_io_Serializable) true_term) (= (PO_LT T_java_lang_String T_java_lang_Comparable) true_term) (= (PO_LT T_javafe_ast_SkipStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_SkipStmt (asChild T_javafe_ast_SkipStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_ConstructorDecl T_javafe_ast_RoutineDecl) true_term) (= T_javafe_ast_ConstructorDecl (asChild T_javafe_ast_ConstructorDecl T_javafe_ast_RoutineDecl)) (= (PO_LT T_java_util_EscjavaKeyValue T_java_lang_Object) true_term) (= (PO_LT T_javafe_ast_LabelStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_LabelStmt (asChild T_javafe_ast_LabelStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_BranchStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_BranchStmt (asChild T_javafe_ast_BranchStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_util_Location T_java_lang_Object) true_term) (= T_javafe_util_Location (asChild T_javafe_util_Location T_java_lang_Object)) (= (PO_LT T_javafe_ast_TypeName T_javafe_ast_Type) true_term) (= T_javafe_ast_TypeName (asChild T_javafe_ast_TypeName T_javafe_ast_Type)) (and (= arrayType (+ DIST_ZERO_1 0)) (= T_boolean (+ DIST_ZERO_1 1)) (= T_char (+ DIST_ZERO_1 2)) (= T_byte (+ DIST_ZERO_1 3)) (= T_short (+ DIST_ZERO_1 4)) (= T_int (+ DIST_ZERO_1 5)) (= T_long (+ DIST_ZERO_1 6)) (= T_float (+ DIST_ZERO_1 7)) (= T_double (+ DIST_ZERO_1 8)) (= T__TYPE (+ DIST_ZERO_1 9)) (= T_javafe_ast_Stmt (+ DIST_ZERO_1 10)) (= T_javafe_ast_InstanceOfExpr (+ DIST_ZERO_1 11)) (= T_java_util_Hashtable (+ DIST_ZERO_1 12)) (= T_javafe_ast_NewArrayExpr (+ DIST_ZERO_1 13)) (= T_javafe_ast_StmtPragma (+ DIST_ZERO_1 14)) (= T_javafe_ast_MethodInvocation (+ DIST_ZERO_1 15)) (= T_java_lang_Float (+ DIST_ZERO_1 16)) (= T_javafe_ast_Name (+ DIST_ZERO_1 17)) (= T_java_io_Serializable (+ DIST_ZERO_1 18)) (= T_javafe_ast_InitBlock (+ DIST_ZERO_1 19)) (= T_javafe_tc_Env (+ DIST_ZERO_1 20)) (= T_javafe_ast_Modifiers (+ DIST_ZERO_1 21)) (= T_javafe_tc_TagConstants (+ DIST_ZERO_1 22)) (= T_javafe_ast_ObjectDesignator (+ DIST_ZERO_1 23)) (= T_javafe_ast_ASTNode (+ DIST_ZERO_1 24)) (= T_javafe_ast_LocalVarDecl (+ DIST_ZERO_1 25)) (= T_java_lang__the_root_interface_ (+ DIST_ZERO_1 26)) (= T_javafe_tc_FieldDeclVec (+ DIST_ZERO_1 27)) (= T_javafe_ast_CatchClause (+ DIST_ZERO_1 28)) (= T_javafe_ast_GeneratedTags (+ DIST_ZERO_1 29)) (= T_javafe_ast_SwitchStmt (+ DIST_ZERO_1 30)) (= T_javafe_ast_LexicalPragmaVec (+ DIST_ZERO_1 31)) (= T_javafe_ast_IdentifierVec (+ DIST_ZERO_1 32)) (= T_java_lang_Comparable (+ DIST_ZERO_1 33)) (= T_javafe_util_Assert (+ DIST_ZERO_1 34)) (= T_javafe_ast_FormalParaDeclVec (+ DIST_ZERO_1 35)) (= T_javafe_ast_IfStmt (+ DIST_ZERO_1 36)) (= T_java_lang_Boolean (+ DIST_ZERO_1 37)) (= T_java_lang_Long (+ DIST_ZERO_1 38)) (= T_javafe_ast_NewInstanceExpr (+ DIST_ZERO_1 39)) (= T_javafe_ast_LiteralExpr (+ DIST_ZERO_1 40)) (= T_java_lang_Object (+ DIST_ZERO_1 41)) (= T_javafe_ast_Identifier (+ DIST_ZERO_1 42)) (= T_java_util_Map (+ DIST_ZERO_1 43)) (= T_javafe_ast_SynchronizeStmt (+ DIST_ZERO_1 44)) (= T_javafe_ast_CastExpr (+ DIST_ZERO_1 45)) (= T_javafe_tc_MethodDeclVec (+ DIST_ZERO_1 46)) (= T_javafe_ast_SwitchLabel (+ DIST_ZERO_1 47)) (= T_javafe_ast_OnDemandImportDecl (+ DIST_ZERO_1 48)) (= T_javafe_ast_LexicalPragma (+ DIST_ZERO_1 49)) (= T_javafe_ast_StandardPrettyPrint (+ DIST_ZERO_1 50)) (= T_javafe_ast_BinaryExpr (+ DIST_ZERO_1 51)) (= T_javafe_ast_TypeDeclElemVec (+ DIST_ZERO_1 52)) (= T_javafe_ast_ConstructorInvocation (+ DIST_ZERO_1 53)) (= T_javafe_ast_ThisExpr (+ DIST_ZERO_1 54)) (= T_javafe_ast_TryFinallyStmt (+ DIST_ZERO_1 55)) (= T_javafe_ast_TypeDecl (+ DIST_ZERO_1 56)) (= T_javafe_ast_TypeModifierPragma (+ DIST_ZERO_1 57)) (= T_javafe_ast_Type (+ DIST_ZERO_1 58)) (= T_javafe_ast_ModifierPragma (+ DIST_ZERO_1 59)) (= T_javafe_ast_SuperObjectDesignator (+ DIST_ZERO_1 60)) (= T_java_lang_Integer (+ DIST_ZERO_1 61)) (= T_java_lang_Number (+ DIST_ZERO_1 62)) (= T_javafe_ast_SingleTypeImportDecl (+ DIST_ZERO_1 63)) (= T_javafe_ast_ImportDecl (+ DIST_ZERO_1 64)) (= T_javafe_ast_ForStmt (+ DIST_ZERO_1 65)) (= T_javafe_ast_DoStmt (+ DIST_ZERO_1 66)) (= T_javafe_ast_ASTDecoration (+ DIST_ZERO_1 67)) (= T_javafe_ast_ExprObjectDesignator (+ DIST_ZERO_1 68)) (= T_javafe_ast_VarInitVec (+ DIST_ZERO_1 69)) (= T_javafe_ast_VariableAccess (+ DIST_ZERO_1 70)) (= T_javafe_ast_TypeDeclVec (+ DIST_ZERO_1 71)) (= T_javafe_ast_ThrowStmt (+ DIST_ZERO_1 72)) (= T_javafe_ast_StmtVec (+ DIST_ZERO_1 73)) (= T_javafe_ast_AmbiguousVariableAccess (+ DIST_ZERO_1 74)) (= T_java_io_OutputStream (+ DIST_ZERO_1 75)) (= T_java_util_Dictionary (+ DIST_ZERO_1 76)) (= T_javafe_ast_GenericVarDecl (+ DIST_ZERO_1 77)) (= T_javafe_ast_ClassDeclStmt (+ DIST_ZERO_1 78)) (= T_javafe_ast_PrettyPrint (+ DIST_ZERO_1 79)) (= T_javafe_ast_GenericBlockStmt (+ DIST_ZERO_1 80)) (= T_javafe_ast_PrimitiveType (+ DIST_ZERO_1 81)) (= T_java_lang_Character (+ DIST_ZERO_1 82)) (= T_javafe_ast_TypeDeclElem (+ DIST_ZERO_1 83)) (= T_javafe_ast_AmbiguousMethodInvocation (+ DIST_ZERO_1 84)) (= T_javafe_ast_TagConstants (+ DIST_ZERO_1 85)) (= T_javafe_ast_EvalStmt (+ DIST_ZERO_1 86)) (= T_javafe_ast_ClassDecl (+ DIST_ZERO_1 87)) (= T_javafe_ast_UnaryExpr (+ DIST_ZERO_1 88)) (= T_javafe_ast_TryCatchStmt (+ DIST_ZERO_1 89)) (= T_javafe_ast_FieldAccess (+ DIST_ZERO_1 90)) (= T_javafe_ast_CompilationUnit (+ DIST_ZERO_1 91)) (= T_javafe_ast_FieldDecl (+ DIST_ZERO_1 92)) (= T_java_lang_Double (+ DIST_ZERO_1 93)) (= T_javafe_ast_ClassLiteral (+ DIST_ZERO_1 94)) (= T_javafe_ast_VarInit (+ DIST_ZERO_1 95)) (= T_java_lang_Cloneable (+ DIST_ZERO_1 96)) (= T_javafe_ast_ReturnStmt (+ DIST_ZERO_1 97)) (= T_javafe_ast_FormalParaDecl (+ DIST_ZERO_1 98)) (= T_javafe_ast_TypeDeclElemPragma (+ DIST_ZERO_1 99)) (= T_javafe_ast_RoutineDecl (+ DIST_ZERO_1 100)) (= T_javafe_ast_TypeObjectDesignator (+ DIST_ZERO_1 101)) (= T_javafe_ast_TypeNameVec (+ DIST_ZERO_1 102)) (= T_javafe_ast_ModifierPragmaVec (+ DIST_ZERO_1 103)) (= T_javafe_ast_VarDeclStmt (+ DIST_ZERO_1 104)) (= T_javafe_ast_ArrayRefExpr (+ DIST_ZERO_1 105)) (= T_javafe_ast_BreakStmt (+ DIST_ZERO_1 106)) (= T_javafe_ast_OperatorTags (+ DIST_ZERO_1 107)) (= T_java_lang_StringBuffer (+ DIST_ZERO_1 108)) (= T_javafe_ast_CatchClauseVec (+ DIST_ZERO_1 109)) (= T_javafe_tc_TypeSig (+ DIST_ZERO_1 110)) (= T_javafe_ast_TypeModifierPragmaVec (+ DIST_ZERO_1 111)) (= T_javafe_ast_CondExpr (+ DIST_ZERO_1 112)) (= T_javafe_ast_ArrayType (+ DIST_ZERO_1 113)) (= T_javafe_parser_TagConstants (+ DIST_ZERO_1 114)) (= T_javafe_ast_CompoundName (+ DIST_ZERO_1 115)) (= T_javafe_ast_ArrayInit (+ DIST_ZERO_1 116)) (= T_javafe_ast_ImportDeclVec (+ DIST_ZERO_1 117)) (= T_javafe_ast_ExprVec (+ DIST_ZERO_1 118)) (= T_javafe_ast_WhileStmt (+ DIST_ZERO_1 119)) (= T_javafe_ast_BlockStmt (+ DIST_ZERO_1 120)) (= T_javafe_ast_ParenExpr (+ DIST_ZERO_1 121)) (= T_javafe_ast_MethodDecl (+ DIST_ZERO_1 122)) (= T_javafe_ast_InterfaceDecl (+ DIST_ZERO_1 123)) (= T_javafe_ast_ContinueStmt (+ DIST_ZERO_1 124)) (= T_javafe_ast_SimpleName (+ DIST_ZERO_1 125)) (= T_javafe_ast_Expr (+ DIST_ZERO_1 126)) (= T_java_lang_String (+ DIST_ZERO_1 127)) (= T_javafe_ast_SkipStmt (+ DIST_ZERO_1 128)) (= T_javafe_ast_ConstructorDecl (+ DIST_ZERO_1 129)) (= T_java_util_EscjavaKeyValue (+ DIST_ZERO_1 130)) (= T_javafe_ast_LabelStmt (+ DIST_ZERO_1 131)) (= T_javafe_ast_BranchStmt (+ DIST_ZERO_1 132)) (= T_javafe_util_Location (+ DIST_ZERO_1 133)) (= T_javafe_ast_TypeName (+ DIST_ZERO_1 134))) (= true_term (is VARDECLSTMT_33_27_7 T_int)) (= VARDECLSTMT_33_27_7 13) (= true_term (is AND_32_20_26 T_int)) (= AND_32_20_26 55) (= true_term (is PARENEXPR_33_54_7 T_int)) (= PARENEXPR_33_54_7 40) (= true_term (is ASGURSHIFT_32_48_26 T_int)) (= ASGURSHIFT_32_48_26 81) (= true_term (is noTokens_119_212_27 T_int)) (= true_term (is NULLLIT_31_45_26 T_int)) (= NULLLIT_31_45_26 111) (= true_term (is SWITCHSTMT_33_26_7 T_int)) (= SWITCHSTMT_33_26_7 12) (= true_term (is OR_32_19_26 T_int)) (= OR_32_19_26 54) (= true_term (is CASTEXPR_33_53_7 T_int)) (= CASTEXPR_33_53_7 39) (= true_term (is ASGRSHIFT_32_47_26 T_int)) (= ASGRSHIFT_32_47_26 80) (= true_term (is STRINGLIT_31_44_26 T_int)) (= STRINGLIT_31_44_26 110) (= true_term (is BLOCKSTMT_33_25_7 T_int)) (= BLOCKSTMT_33_25_7 11) (= true_term (is INSTANCEOFEXPR_33_52_7 T_int)) (= INSTANCEOFEXPR_33_52_7 38) (= true_term (is ASGLSHIFT_32_46_26 T_int)) (= ASGLSHIFT_32_46_26 79) (= true_term (is DOUBLELIT_31_43_26 T_int)) (= DOUBLELIT_31_43_26 109) (= true_term (is TYPEMODIFIERPRAGMA_119_28_26 T_int)) (= TYPEMODIFIERPRAGMA_119_28_26 118) (= true_term (is FORMALPARADECL_33_24_7 T_int)) (= FORMALPARADECL_33_24_7 10) (= true_term (is CONDEXPR_33_51_7 T_int)) (= CONDEXPR_33_51_7 37) (= true_term (is ASGSUB_32_45_26 T_int)) (= ASGSUB_32_45_26 78) (= true_term (is FLOATLIT_31_42_26 T_int)) (= FLOATLIT_31_42_26 108) (= true_term (is TYPEDECLELEMPRAGMA_119_27_26 T_int)) (= TYPEDECLELEMPRAGMA_119_27_26 117) (= true_term (is FIELDDECL_33_23_7 T_int)) (= FIELDDECL_33_23_7 9) (= true_term (is NEWARRAYEXPR_33_50_7 T_int)) (= NEWARRAYEXPR_33_50_7 36) (= true_term (is ASGADD_32_44_26 T_int)) (= ASGADD_32_44_26 77) (= true_term (is CHARLIT_31_41_26 T_int)) (= CHARLIT_31_41_26 107) (= true_term (is STMTPRAGMA_119_26_26 T_int)) (= STMTPRAGMA_119_26_26 116) (= true_term (is LOCALVARDECL_33_22_7 T_int)) (= LOCALVARDECL_33_22_7 8) (= true_term (is NEWINSTANCEEXPR_33_49_7 T_int)) (= NEWINSTANCEEXPR_33_49_7 35) (= true_term (is ASGREM_32_43_26 T_int)) (= ASGREM_32_43_26 76) (= true_term (is LONGLIT_31_40_26 T_int)) (= LONGLIT_31_40_26 106) (= true_term (is MODIFIERPRAGMA_119_25_26 T_int)) (= MODIFIERPRAGMA_119_25_26 115) (= true_term (is INITBLOCK_33_21_7 T_int)) (= INITBLOCK_33_21_7 7) (= true_term (is ARRAYREFEXPR_33_48_7 T_int)) (= ARRAYREFEXPR_33_48_7 34) (= true_term (is ASGDIV_32_42_26 T_int)) (= ASGDIV_32_42_26 75) (= true_term (is INTLIT_31_39_26 T_int)) (= INTLIT_31_39_26 105) (= true_term (is LEXICALPRAGMA_119_24_26 T_int)) (= LEXICALPRAGMA_119_24_26 114) (= true_term (is METHODDECL_33_20_7 T_int)) (= METHODDECL_33_20_7 6) (= true_term (is otherCodes_119_202_27 ?v_0)) (not (= otherCodes_119_202_27 null)) (= (typeof otherCodes_119_202_27) ?v_0) (= (arrayLength otherCodes_119_202_27) 15) (= true_term (is THISEXPR_33_47_7 T_int)) (= THISEXPR_33_47_7 33) (= true_term (is ASGMUL_32_41_26 T_int)) (= ASGMUL_32_41_26 74) (= true_term (is BOOLEANLIT_31_38_26 T_int)) (= BOOLEANLIT_31_38_26 104) (= true_term (is CONSTRUCTORDECL_33_19_7 T_int)) (= CONSTRUCTORDECL_33_19_7 5) (= true_term (is FIRST_KEYWORD_119_51_26 T_int)) (= FIRST_KEYWORD_119_51_26 133) (= true_term (is ARRAYINIT_33_46_7 T_int)) (= ARRAYINIT_33_46_7 32) (= true_term (is ASSIGN_32_40_26 T_int)) (= ASSIGN_32_40_26 73) (= true_term (is SHORTTYPE_31_36_26 T_int)) (= SHORTTYPE_31_36_26 103) (= true_term (is INTERFACEDECL_33_18_7 T_int)) (= INTERFACEDECL_33_18_7 4) (= true_term (is CATCHCLAUSE_33_45_7 T_int)) (= CATCHCLAUSE_33_45_7 31) (= true_term (is STAR_32_37_26 T_int)) (= STAR_32_37_26 72) (= true_term (is BYTETYPE_31_35_26 T_int)) (= BYTETYPE_31_35_26 102) (= true_term (is CLASSDECL_33_17_7 T_int)) (= CLASSDECL_33_17_7 3) (= true_term (is CONSTRUCTORINVOCATION_33_44_7 T_int)) (= CONSTRUCTORINVOCATION_33_44_7 30) (= true_term (is MOD_32_36_26 T_int)) (= MOD_32_36_26 71) (= true_term (is TYPESIG_118_6_28 T_int)) (= TYPESIG_118_6_28 184) (= true_term (is NULLTYPE_31_34_26 T_int)) (= NULLTYPE_31_34_26 101) (= true_term (is ONDEMANDIMPORTDECL_33_16_7 T_int)) (= ONDEMANDIMPORTDECL_33_16_7 2) (= true_term (is TRYCATCHSTMT_33_43_7 T_int)) (= TRYCATCHSTMT_33_43_7 29) (= true_term (is DIV_32_35_26 T_int)) (= DIV_32_35_26 70) (= true_term (is VOIDTYPE_31_33_26 T_int)) (= VOIDTYPE_31_33_26 100) (= true_term (is SINGLETYPEIMPORTDECL_33_15_7 T_int)) (= SINGLETYPEIMPORTDECL_33_15_7 1) (= true_term (is TRYFINALLYSTMT_33_42_7 T_int)) (= TRYFINALLYSTMT_33_42_7 28) (= true_term (is SUB_32_34_26 T_int)) (= SUB_32_34_26 69) (= true_term (is DOUBLETYPE_31_32_26 T_int)) (= DOUBLETYPE_31_32_26 99) (= true_term (is MIN_VALUE_105_39_30 T_int)) (= MIN_VALUE_105_39_30 neg2147483648) (= true_term (is COMPILATIONUNIT_33_14_7 T_int)) (= COMPILATIONUNIT_33_14_7 0) (= true_term (is SWITCHLABEL_33_41_7 T_int)) (= SWITCHLABEL_33_41_7 27) (= true_term (is ADD_32_33_26 T_int)) (= ADD_32_33_26 68) (= true_term (is FLOATTYPE_31_31_26 T_int)) (= FLOATTYPE_31_31_26 98) (= true_term (is otherStrings_119_193_30 ?v_1)) (not (= otherStrings_119_193_30 null)) (= (typeof otherStrings_119_193_30) ?v_1) (= (arrayLength otherStrings_119_193_30) 15) (= true_term (is SKIPSTMT_33_40_7 T_int)) (= SKIPSTMT_33_40_7 26) (= true_term (is URSHIFT_32_32_26 T_int)) (= URSHIFT_32_32_26 67) (= true_term (is COMPOUNDNAME_33_67_7 T_int)) (= COMPOUNDNAME_33_67_7 53) (= true_term (is CHARTYPE_31_30_26 T_int)) (= CHARTYPE_31_30_26 97) (= true_term (is FORSTMT_33_39_7 T_int)) (= FORSTMT_33_39_7 25) (= true_term (is RSHIFT_32_31_26 T_int)) (= RSHIFT_32_31_26 66) (= true_term (is SIMPLENAME_33_66_7 T_int)) (= SIMPLENAME_33_66_7 52) (= true_term (is LONGTYPE_31_29_26 T_int)) (= LONGTYPE_31_29_26 96) (= true_term (is IFSTMT_33_38_7 T_int)) (= IFSTMT_33_38_7 24) (= true_term (is LSHIFT_32_30_26 T_int)) (= LSHIFT_32_30_26 65) (= true_term (is ARRAYTYPE_33_65_7 T_int)) (= ARRAYTYPE_33_65_7 51) (= true_term (is INTTYPE_31_28_26 T_int)) (= INTTYPE_31_28_26 95) (= true_term (is POSTFIXDEC_32_63_26 T_int)) (= POSTFIXDEC_32_63_26 92) (= true_term (is LABELSTMT_33_37_7 T_int)) (= LABELSTMT_33_37_7 23) (= true_term (is LT_32_29_26 T_int)) (= LT_32_29_26 64) (= true_term (is TYPENAME_33_64_7 T_int)) (= TYPENAME_33_64_7 50) (= true_term (is BOOLEANTYPE_31_27_26 T_int)) (= BOOLEANTYPE_31_27_26 94) (= true_term (is POSTFIXINC_32_62_26 T_int)) (= POSTFIXINC_32_62_26 91) (= true_term (is CONTINUESTMT_33_36_7 T_int)) (= CONTINUESTMT_33_36_7 22) (= true_term (is LE_32_28_26 T_int)) (= LE_32_28_26 63) (= true_term (is SUPEROBJECTDESIGNATOR_33_63_7 T_int)) (= SUPEROBJECTDESIGNATOR_33_63_7 49) (= true_term (is IDENT_31_25_26 T_int)) (= IDENT_31_25_26 93) (= true_term (is DEC_32_59_26 T_int)) (= DEC_32_59_26 90) (= true_term (is BREAKSTMT_33_35_7 T_int)) (= BREAKSTMT_33_35_7 21) (= true_term (is GT_32_27_26 T_int)) (= GT_32_27_26 62) (= true_term (is TYPEOBJECTDESIGNATOR_33_62_7 T_int)) (= TYPEOBJECTDESIGNATOR_33_62_7 48) (= true_term (is INC_32_58_26 T_int)) (= INC_32_58_26 89) (= true_term (is THROWSTMT_33_34_7 T_int)) (= THROWSTMT_33_34_7 20) (= true_term (is GE_32_26_26 T_int)) (= GE_32_26_26 61) (= true_term (is EXPROBJECTDESIGNATOR_33_61_7 T_int)) (= EXPROBJECTDESIGNATOR_33_61_7 47) (= true_term (is BITNOT_32_57_26 T_int)) (= BITNOT_32_57_26 88) (= true_term (is RETURNSTMT_33_33_7 T_int)) (= RETURNSTMT_33_33_7 19) (= true_term (is punctuationCodes_119_164_19 ?v_0)) (not (= punctuationCodes_119_164_19 null)) (= (typeof punctuationCodes_119_164_19) ?v_0) (= (arrayLength punctuationCodes_119_164_19) 48) (= true_term (is punctuationStrings_119_134_22 ?v_1)) (not (= punctuationStrings_119_134_22 null)) (= (typeof punctuationStrings_119_134_22) ?v_1) (= (arrayLength punctuationStrings_119_134_22) 48) (= true_term (is EQ_32_25_26 T_int)) (= EQ_32_25_26 60) (= true_term (is CLASSLITERAL_33_60_7 T_int)) (= CLASSLITERAL_33_60_7 46) (= true_term (is NOT_32_56_26 T_int)) (= NOT_32_56_26 87) (= true_term (is EVALSTMT_33_32_7 T_int)) (= EVALSTMT_33_32_7 18) (= true_term (is NE_32_24_26 T_int)) (= NE_32_24_26 59) (= true_term (is METHODINVOCATION_33_59_7 T_int)) (= METHODINVOCATION_33_59_7 45) (= true_term (is LAST_KEYWORD_119_103_26 T_int)) (= LAST_KEYWORD_119_103_26 183) (= true_term (is UNARYSUB_32_55_26 T_int)) (= UNARYSUB_32_55_26 86) (= true_term (is MIN_VALUE_107_38_29 T_long)) (= MIN_VALUE_107_38_29 neg9223372036854775808) (= true_term (is keywordStrings_119_181_30 ?v_1)) (not (= keywordStrings_119_181_30 null)) (= (typeof keywordStrings_119_181_30) ?v_1) (= (arrayLength keywordStrings_119_181_30) 51) (= true_term (is SYNCHRONIZESTMT_33_31_7 T_int)) (= SYNCHRONIZESTMT_33_31_7 17) (= true_term (is NULL_119_82_26 T_int)) (= NULL_119_82_26 163) (= true_term (is BITAND_32_23_26 T_int)) (= BITAND_32_23_26 58) (= true_term (is AMBIGUOUSMETHODINVOCATION_33_58_7 T_int)) (= AMBIGUOUSMETHODINVOCATION_33_58_7 44) (= true_term (is UNARYADD_32_54_26 T_int)) (= UNARYADD_32_54_26 85) (= true_term (is DOSTMT_33_30_7 T_int)) (= DOSTMT_33_30_7 16) (= true_term (is BITXOR_32_22_26 T_int)) (= BITXOR_32_22_26 57) (= true_term (is FIELDACCESS_33_57_7 T_int)) (= FIELDACCESS_33_57_7 43) (= true_term (is ASGBITXOR_32_51_26 T_int)) (= ASGBITXOR_32_51_26 84) (= true_term (is WHILESTMT_33_29_7 T_int)) (= WHILESTMT_33_29_7 15) (= true_term (is BITOR_32_21_26 T_int)) (= BITOR_32_21_26 56) (= true_term (is VARIABLEACCESS_33_56_7 T_int)) (= VARIABLEACCESS_33_56_7 42) (= true_term (is NULL_116_60_26 T_int)) (= NULL_116_60_26 0) (= true_term (is ASGBITOR_32_50_26 T_int)) (= ASGBITOR_32_50_26 83) (= true_term (is CLASSDECLSTMT_33_28_7 T_int)) (= CLASSDECLSTMT_33_28_7 14) (= true_term (is AMBIGUOUSVARIABLEACCESS_33_55_7 T_int)) (= AMBIGUOUSVARIABLEACCESS_33_55_7 41) (= true_term (is ASGBITAND_32_49_26 T_int)) (= ASGBITAND_32_49_26 82))))
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-(declare-fun S_1068_13 () Int)
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-(declare-fun loc_71_29_13 () Int)
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-(declare-fun loc_68_33_13 () Int)
-(declare-fun VARDECLSTMT_pre_33_27_7 () Int)
-(declare-fun name_pre_96_20_28 () Int)
-(declare-fun name_96_20_28 () Int)
-(declare-fun tag_pre_117_30_13 () Int)
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-(declare-fun label_pre_58_15_34 () Int)
-(declare-fun label_58_15_34 () Int)
-(declare-fun type_pre_87_32_32 () Int)
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-(declare-fun locOp_pre_93_43_13 () Int)
-(declare-fun locOp_93_43_13 () Int)
-(declare-fun locOpenParen_pre_101_28_13 () Int)
-(declare-fun locOpenParen_101_28_13 () Int)
-(declare-fun name_pre_100_25_28 () Int)
-(declare-fun name_100_25_28 () Int)
-(declare-fun args_pre_70_51_31 () Int)
-(declare-fun args_70_51_31 () Int)
-(declare-fun AND_pre_32_20_26 () Int)
-(declare-fun PARENEXPR_pre_33_54_7 () Int)
-(declare-fun loc_pre_55_20_13 () Int)
-(declare-fun loc_55_20_13 () Int)
-(declare-fun ASGURSHIFT_pre_32_48_26 () Int)
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-(declare-fun count_26_67_33 () Int)
-(declare-fun NULLLIT_pre_31_45_26 () Int)
-(declare-fun modifiers_pre_24_28_13 () Int)
-(declare-fun modifiers_24_28_13 () Int)
-(declare-fun locGuardOpenParen_pre_49_23_13 () Int)
-(declare-fun locGuardOpenParen_49_23_13 () Int)
-(declare-fun type_pre_91_18_28 () Int)
-(declare-fun type_91_18_28 () Int)
-(declare-fun SWITCHSTMT_pre_33_26_7 () Int)
-(declare-fun tmodifiers_pre_21_30_33 () Int)
-(declare-fun tmodifiers_21_30_33 () Int)
-(declare-fun OR_pre_32_19_26 () Int)
-(declare-fun specOnly_pre_24_26_17 () Int)
-(declare-fun specOnly_24_26_17 () Int)
-(declare-fun CASTEXPR_pre_33_53_7 () Int)
-(declare-fun pmodifiers_pre_76_26_27 () Int)
-(declare-fun pmodifiers_76_26_27 () Int)
-(declare-fun loc_pre_90_21_13 () Int)
-(declare-fun loc_90_21_13 () Int)
-(declare-fun ASGRSHIFT_pre_32_47_26 () Int)
-(declare-fun locCloseParen_pre_95_21_13 () Int)
-(declare-fun locCloseParen_95_21_13 () Int)
-(declare-fun count_pre_84_67_33 () Int)
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-(declare-fun hasParent_pre_25_149_30 () Int)
-(declare-fun hasParent_25_149_30 () Int)
-(declare-fun BLOCKSTMT_pre_33_25_7 () Int)
-(declare-fun modifiers_pre_76_24_13 () Int)
-(declare-fun modifiers_76_24_13 () Int)
-(declare-fun locFinally_pre_59_25_13 () Int)
-(declare-fun locFinally_59_25_13 () Int)
-(declare-fun locDot_pre_87_29_13 () Int)
-(declare-fun locDot_87_29_13 () Int)
-(declare-fun locDot_pre_92_23_13 () Int)
-(declare-fun locDot_92_23_13 () Int)
-(declare-fun locOpenParen_pre_70_48_13 () Int)
-(declare-fun locOpenParen_70_48_13 () Int)
-(declare-fun loc_pre_162_20_13 () Int)
-(declare-fun loc_162_20_13 () Int)
-(declare-fun syntax_pre_21_28_29 () Int)
-(declare-fun syntax_21_28_29 () Int)
-(declare-fun INSTANCEOFEXPR_pre_33_52_7 () Int)
-(declare-fun ASGLSHIFT_pre_32_46_26 () Int)
-(declare-fun implicit_pre_76_23_17 () Int)
-(declare-fun implicit_76_23_17 () Int)
-(declare-fun dims_pre_88_45_31 () Int)
-(declare-fun dims_88_45_31 () Int)
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-(declare-fun DOUBLELIT_pre_31_43_26 () Int)
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-(declare-fun classPrefix_71_25_14 () Int)
-(declare-fun init_pre_73_20_17 () Int)
-(declare-fun init_73_20_17 () Int)
-(declare-fun body_pre_68_30_28 () Int)
-(declare-fun body_68_30_28 () Int)
-(declare-fun FORMALPARADECL_pre_33_24_7 () Int)
-(declare-fun tag_pre_85_32_13 () Int)
-(declare-fun tag_85_32_13 () Int)
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-(declare-fun elements_82_61_47 () Int)
-(declare-fun locId_pre_101_25_13 () Int)
-(declare-fun locId_101_25_13 () Int)
-(declare-fun parent_pre_76_21_18 () Int)
-(declare-fun parent_76_21_18 () Int)
-(declare-fun CONDEXPR_pre_33_51_7 () Int)
-(declare-fun ASGSUB_pre_32_45_26 () Int)
-(declare-fun stmt_pre_55_17_33 () Int)
-(declare-fun stmt_55_17_33 () Int)
-(declare-fun parent_pre_73_18_18 () Int)
-(declare-fun parent_73_18_18 () Int)
-(declare-fun right_pre_93_40_28 () Int)
-(declare-fun right_93_40_28 () Int)
-(declare-fun parent_pre_24_59_18 () Int)
-(declare-fun parent_24_59_18 () Int)
-(declare-fun FLOATLIT_pre_31_42_26 () Int)
-(declare-fun TYPEDECLELEMPRAGMA_pre_119_27_26 () Int)
-(declare-fun pkgName_pre_22_15_28 () Int)
-(declare-fun pkgName_22_15_28 () Int)
-(declare-fun FIELDDECL_pre_33_23_7 () Int)
-(declare-fun loc_pre_6_30_13 () Int)
-(declare-fun loc_6_30_13 () Int)
-(declare-fun NEWARRAYEXPR_pre_33_50_7 () Int)
-(declare-fun elements_pre_17_61_39 () Int)
-(declare-fun elements_17_61_39 () Int)
-(declare-fun loc_pre_85_50_13 () Int)
-(declare-fun loc_85_50_13 () Int)
-(declare-fun ASGADD_pre_32_44_26 () Int)
-(declare-fun type_pre_90_18_28 () Int)
-(declare-fun type_90_18_28 () Int)
-(declare-fun value_pre_29_91_31 () Int)
-(declare-fun value_29_91_31 () Int)
-(declare-fun CHARLIT_pre_31_41_26 () Int)
-(declare-fun STMTPRAGMA_pre_119_26_26 () Int)
-(declare-fun count_pre_61_67_33 () Int)
-(declare-fun count_61_67_33 () Int)
-(declare-fun expr_pre_91_15_28 () Int)
-(declare-fun expr_91_15_28 () Int)
-(declare-fun forUpdate_pre_68_28_31 () Int)
-(declare-fun forUpdate_68_28_31 () Int)
-(declare-fun LOCALVARDECL_pre_33_22_7 () Int)
-(declare-fun elements_pre_155_61_39 () Int)
-(declare-fun elements_155_61_39 () Int)
-(declare-fun locKeyword_pre_70_45_13 () Int)
-(declare-fun locKeyword_70_45_13 () Int)
-(declare-fun NEWINSTANCEEXPR_pre_33_49_7 () Int)
-(declare-fun count_pre_35_67_33 () Int)
-(declare-fun count_35_67_33 () Int)
-(declare-fun expr_pre_55_15_28 () Int)
-(declare-fun expr_55_15_28 () Int)
-(declare-fun ASGREM_pre_32_43_26 () Int)
-(declare-fun left_pre_93_38_28 () Int)
-(declare-fun left_93_38_28 () Int)
-(declare-fun loc_pre_49_20_13 () Int)
-(declare-fun loc_49_20_13 () Int)
-(declare-fun loc_pre_59_22_13 () Int)
-(declare-fun loc_59_22_13 () Int)
-(declare-fun LONGLIT_pre_31_40_26 () Int)
-(declare-fun MODIFIERPRAGMA_pre_119_25_26 () Int)
-(declare-fun locCloseBracket_pre_86_23_13 () Int)
-(declare-fun locCloseBracket_86_23_13 () Int)
-(declare-fun enclosingInstance_pre_87_25_14 () Int)
-(declare-fun enclosingInstance_87_25_14 () Int)
-(declare-fun INITBLOCK_pre_33_21_7 () Int)
-(declare-fun locOpenParen_pre_95_18_13 () Int)
-(declare-fun locOpenParen_95_18_13 () Int)
-(declare-fun elements_pre_14_61_42 () Int)
-(declare-fun elements_14_61_42 () Int)
-(declare-fun count_pre_77_67_33 () Int)
-(declare-fun count_77_67_33 () Int)
-(declare-fun ARRAYREFEXPR_pre_33_48_7 () Int)
-(declare-fun ASGDIV_pre_32_42_26 () Int)
-(declare-fun type_pre_92_20_28 () Int)
-(declare-fun type_92_20_28 () Int)
-(declare-fun INTLIT_pre_31_39_26 () Int)
-(declare-fun locCloseBrace_pre_24_54_13 () Int)
-(declare-fun locCloseBrace_24_54_13 () Int)
-(declare-fun LEXICALPRAGMA_pre_119_24_26 () Int)
-(declare-fun id_pre_101_20_34 () Int)
-(declare-fun id_101_20_34 () Int)
-(declare-fun test_pre_68_26_28 () Int)
-(declare-fun test_68_26_28 () Int)
-(declare-fun displayInferred_pre_4_73_26 () Int)
-(declare-fun displayInferred_4_73_26 () Int)
-(declare-fun METHODDECL_pre_33_20_7 () Int)
-(declare-fun otherCodes_pre_119_202_27 () Int)
-(declare-fun count_pre_143_67_33 () Int)
-(declare-fun count_143_67_33 () Int)
-(declare-fun elements_pre_23_61_37 () Int)
-(declare-fun elements_23_61_37 () Int)
-(declare-fun THISEXPR_pre_33_47_7 () Int)
-(declare-fun ASGMUL_pre_32_41_26 () Int)
-(declare-fun value_pre_85_45_16 () Int)
-(declare-fun value_85_45_16 () Int)
-(declare-fun elems_pre_6_27_35 () Int)
-(declare-fun elems_6_27_35 () Int)
-(declare-fun op_pre_93_35_13 () Int)
-(declare-fun op_93_35_13 () Int)
-(declare-fun parent_pre_79_18_18 () Int)
-(declare-fun parent_79_18_18 () Int)
-(declare-fun loc_pre_60_23_13 () Int)
-(declare-fun loc_60_23_13 () Int)
-(declare-fun BOOLEANLIT_pre_31_38_26 () Int)
-(declare-fun CONSTRUCTORDECL_pre_33_19_7 () Int)
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-(declare-fun EC_1069_4_1069_4 () Int)
-(assert (let ((?v_0 (array T_int)) (?v_1 (array T_java_lang_String)) (?v_6 (not (= o_1067_33 null))) (?v_2 (not (= lp_1067_50 null)))) (let ((?v_8 (not ?v_2)) (?v_11 (= true_term (is RES_1068_42_1068_42 T_int))) (?v_3 (= EC_1068_42_1068_42 ecReturn)) (?v_4 (= true_term (is lp_1067_50 T_javafe_ast_Type))) (?v_5 (not (= RES_1068_42_1068_42 NULL_116_60_26)))) (let ((?v_12 (=> (and ?v_3 (not (and ?v_4 ?v_2))) ?v_5)) (?v_13 (=> (and ?v_3 ?v_4 ?v_2 (= true_term (S_select syntax_21_28_29 (cast lp_1067_50 T_javafe_ast_Type)))) ?v_5)) (?v_7 (= s_1068_4_1068_4_4_381_50 (stringCat (stringCat S_1068_13 RES_1068_42_1068_42) S_1068_58))) (?v_14 (= EC_1068_4_1068_4 ecReturn)) (?v_15 (= true_term (is RES_1069_18_1069_18 T_java_lang_String))) (?v_16 (= true_term (isAllocated RES_1069_18_1069_18 alloc))) (?v_9 (= EC_1069_18_1069_18 ecReturn)) (?v_10 (not (= RES_1069_18_1069_18 null)))) (let ((?v_17 (=> ?v_9 ?v_10))) (not (=> (and true (not (= S_1068_58 null)) (= (typeof S_1068_58) T_java_lang_String) (not (= S_1068_13 null)) (= (typeof S_1068_13) T_java_lang_String) (< neg9223372036854775808 neg2147483648) (< neg2147483648 (- 1000000))) (=> (and (= loc_pre_71_29_13 loc_71_29_13) (= loc_71_29_13 (asField loc_71_29_13 T_int)) (= loc_pre_68_33_13 loc_68_33_13) (= loc_68_33_13 (asField loc_68_33_13 T_int)) (= VARDECLSTMT_pre_33_27_7 VARDECLSTMT_33_27_7) (= true_term (is VARDECLSTMT_33_27_7 T_int)) (= name_pre_96_20_28 name_96_20_28) (= name_96_20_28 (asField name_96_20_28 T_javafe_ast_Name)) (< (fClosedTime name_96_20_28) alloc) (forall ((?s Int)) (=> (not (= ?s null)) (not (= (S_select name_96_20_28 ?s) null)))) (= tag_pre_117_30_13 tag_117_30_13) (= tag_117_30_13 (asField tag_117_30_13 T_int)) (= label_pre_58_15_34 label_58_15_34) (= label_58_15_34 (asField label_58_15_34 T_javafe_ast_Identifier)) (< (fClosedTime label_58_15_34) alloc) (forall ((?s_1_ Int)) (=> (not (= ?s_1_ null)) (not (= (S_select label_58_15_34 ?s_1_) null)))) (= type_pre_87_32_32 type_87_32_32) (= type_87_32_32 (asField type_87_32_32 T_javafe_ast_TypeName)) (< (fClosedTime type_87_32_32) alloc) (forall ((?s_2_ Int)) (=> (not (= ?s_2_ null)) (not (= (S_select type_87_32_32 ?s_2_) null)))) (= locOp_pre_93_43_13 locOp_93_43_13) (= locOp_93_43_13 (asField locOp_93_43_13 T_int)) (= locOpenParen_pre_101_28_13 locOpenParen_101_28_13) (= locOpenParen_101_28_13 (asField locOpenParen_101_28_13 T_int)) (= name_pre_100_25_28 name_100_25_28) (= name_100_25_28 (asField name_100_25_28 T_javafe_ast_Name)) (< (fClosedTime name_100_25_28) alloc) (forall ((?s_3_ Int)) (=> (not (= ?s_3_ null)) (not (= (S_select name_100_25_28 ?s_3_) null)))) (= args_pre_70_51_31 args_70_51_31) (= args_70_51_31 (asField args_70_51_31 T_javafe_ast_ExprVec)) (< (fClosedTime args_70_51_31) alloc) (forall ((?s_4_ Int)) (=> (not (= ?s_4_ null)) (not (= (S_select args_70_51_31 ?s_4_) null)))) (= AND_pre_32_20_26 AND_32_20_26) (= true_term (is AND_32_20_26 T_int)) (= PARENEXPR_pre_33_54_7 PARENEXPR_33_54_7) (= true_term (is PARENEXPR_33_54_7 T_int)) (= loc_pre_55_20_13 loc_55_20_13) (= loc_55_20_13 (asField loc_55_20_13 T_int)) (= ASGURSHIFT_pre_32_48_26 ASGURSHIFT_32_48_26) (= true_term (is ASGURSHIFT_32_48_26 T_int)) (= id_pre_97_19_34 id_97_19_34) (= id_97_19_34 (asField id_97_19_34 T_javafe_ast_Identifier)) (< (fClosedTime id_97_19_34) alloc) (forall ((?s_5_ Int)) (=> (not (= ?s_5_ null)) (not (= (S_select id_97_19_34 ?s_5_) null)))) (= noTokens_pre_119_212_27 noTokens_119_212_27) (= true_term (is noTokens_119_212_27 T_int)) (= count_pre_26_67_33 count_26_67_33) (= count_26_67_33 (asField count_26_67_33 T_int)) (= NULLLIT_pre_31_45_26 NULLLIT_31_45_26) (= true_term (is NULLLIT_31_45_26 T_int)) (= modifiers_pre_24_28_13 modifiers_24_28_13) (= modifiers_24_28_13 (asField modifiers_24_28_13 T_int)) (= locGuardOpenParen_pre_49_23_13 locGuardOpenParen_49_23_13) (= locGuardOpenParen_49_23_13 (asField locGuardOpenParen_49_23_13 T_int)) (= type_pre_91_18_28 type_91_18_28) (= type_91_18_28 (asField type_91_18_28 T_javafe_ast_Type)) (< (fClosedTime type_91_18_28) alloc) (forall ((?s_6_ Int)) (=> (not (= ?s_6_ null)) (not (= (S_select type_91_18_28 ?s_6_) null)))) (= SWITCHSTMT_pre_33_26_7 SWITCHSTMT_33_26_7) (= true_term (is SWITCHSTMT_33_26_7 T_int)) (= tmodifiers_pre_21_30_33 tmodifiers_21_30_33) (= tmodifiers_21_30_33 (asField tmodifiers_21_30_33 T_javafe_ast_TypeModifierPragmaVec)) (< (fClosedTime tmodifiers_21_30_33) alloc) (= OR_pre_32_19_26 OR_32_19_26) (= true_term (is OR_32_19_26 T_int)) (= specOnly_pre_24_26_17 specOnly_24_26_17) (= specOnly_24_26_17 (asField specOnly_24_26_17 T_boolean)) (= CASTEXPR_pre_33_53_7 CASTEXPR_33_53_7) (= true_term (is CASTEXPR_33_53_7 T_int)) (= pmodifiers_pre_76_26_27 pmodifiers_76_26_27) (= pmodifiers_76_26_27 (asField pmodifiers_76_26_27 T_javafe_ast_ModifierPragmaVec)) (< (fClosedTime pmodifiers_76_26_27) alloc) (= loc_pre_90_21_13 loc_90_21_13) (= loc_90_21_13 (asField loc_90_21_13 T_int)) (= ASGRSHIFT_pre_32_47_26 ASGRSHIFT_32_47_26) (= true_term (is ASGRSHIFT_32_47_26 T_int)) (= locCloseParen_pre_95_21_13 locCloseParen_95_21_13) (= locCloseParen_95_21_13 (asField locCloseParen_95_21_13 T_int)) (= count_pre_84_67_33 count_84_67_33) (= count_84_67_33 (asField count_84_67_33 T_int)) (= STRINGLIT_pre_31_44_26 STRINGLIT_31_44_26) (= true_term (is STRINGLIT_31_44_26 T_int)) (= hasParent_pre_25_149_30 hasParent_25_149_30) (= hasParent_25_149_30 (asField hasParent_25_149_30 T_boolean)) (= BLOCKSTMT_pre_33_25_7 BLOCKSTMT_33_25_7) (= true_term (is BLOCKSTMT_33_25_7 T_int)) (= modifiers_pre_76_24_13 modifiers_76_24_13) (= modifiers_76_24_13 (asField modifiers_76_24_13 T_int)) (= locFinally_pre_59_25_13 locFinally_59_25_13) (= locFinally_59_25_13 (asField locFinally_59_25_13 T_int)) (= locDot_pre_87_29_13 locDot_87_29_13) (= locDot_87_29_13 (asField locDot_87_29_13 T_int)) (= locDot_pre_92_23_13 locDot_92_23_13) (= locDot_92_23_13 (asField locDot_92_23_13 T_int)) (= locOpenParen_pre_70_48_13 locOpenParen_70_48_13) (= locOpenParen_70_48_13 (asField locOpenParen_70_48_13 T_int)) (= loc_pre_162_20_13 loc_162_20_13) (= loc_162_20_13 (asField loc_162_20_13 T_int)) (= syntax_pre_21_28_29 syntax_21_28_29) (= syntax_21_28_29 (asField syntax_21_28_29 T_boolean)) (= INSTANCEOFEXPR_pre_33_52_7 INSTANCEOFEXPR_33_52_7) (= true_term (is INSTANCEOFEXPR_33_52_7 T_int)) (= ASGLSHIFT_pre_32_46_26 ASGLSHIFT_32_46_26) (= true_term (is ASGLSHIFT_32_46_26 T_int)) (= implicit_pre_76_23_17 implicit_76_23_17) (= implicit_76_23_17 (asField implicit_76_23_17 T_boolean)) (= dims_pre_88_45_31 dims_88_45_31) (= dims_88_45_31 (asField dims_88_45_31 T_javafe_ast_ExprVec)) (< (fClosedTime dims_88_45_31) alloc) (forall ((?s_7_ Int)) (=> (not (= ?s_7_ null)) (not (= (S_select dims_88_45_31 ?s_7_) null)))) (= count_pre_46_67_33 count_46_67_33) (= count_46_67_33 (asField count_46_67_33 T_int)) (= DOUBLELIT_pre_31_43_26 DOUBLELIT_31_43_26) (= true_term (is DOUBLELIT_31_43_26 T_int)) (= TYPEMODIFIERPRAGMA_pre_119_28_26 TYPEMODIFIERPRAGMA_119_28_26) (= true_term (is TYPEMODIFIERPRAGMA_119_28_26 T_int)) (= classPrefix_pre_71_25_14 classPrefix_71_25_14) (= classPrefix_71_25_14 (asField classPrefix_71_25_14 T_javafe_ast_Type)) (< (fClosedTime classPrefix_71_25_14) alloc) (= init_pre_73_20_17 init_73_20_17) (= init_73_20_17 (asField init_73_20_17 T_javafe_ast_VarInit)) (< (fClosedTime init_73_20_17) alloc) (= body_pre_68_30_28 body_68_30_28) (= body_68_30_28 (asField body_68_30_28 T_javafe_ast_Stmt)) (< (fClosedTime body_68_30_28) alloc) (forall ((?s_8_ Int)) (=> (not (= ?s_8_ null)) (not (= (S_select body_68_30_28 ?s_8_) null)))) (= FORMALPARADECL_pre_33_24_7 FORMALPARADECL_33_24_7) (= true_term (is FORMALPARADECL_33_24_7 T_int)) (= tag_pre_85_32_13 tag_85_32_13) (= tag_85_32_13 (asField tag_85_32_13 T_int)) (= elements_pre_82_61_47 elements_82_61_47) (= elements_82_61_47 (asField elements_82_61_47 (array T_javafe_ast_TypeModifierPragma))) (< (fClosedTime elements_82_61_47) alloc) (forall ((?s_9_ Int)) (=> (not (= ?s_9_ null)) (not (= (S_select elements_82_61_47 ?s_9_) null)))) (= locId_pre_101_25_13 locId_101_25_13) (= locId_101_25_13 (asField locId_101_25_13 T_int)) (= parent_pre_76_21_18 parent_76_21_18) (= parent_76_21_18 (asField parent_76_21_18 T_javafe_ast_TypeDecl)) (< (fClosedTime parent_76_21_18) alloc) (= CONDEXPR_pre_33_51_7 CONDEXPR_33_51_7) (= true_term (is CONDEXPR_33_51_7 T_int)) (= ASGSUB_pre_32_45_26 ASGSUB_32_45_26) (= true_term (is ASGSUB_32_45_26 T_int)) (= stmt_pre_55_17_33 stmt_55_17_33) (= stmt_55_17_33 (asField stmt_55_17_33 T_javafe_ast_BlockStmt)) (< (fClosedTime stmt_55_17_33) alloc) (forall ((?s_10_ Int)) (=> (not (= ?s_10_ null)) (not (= (S_select stmt_55_17_33 ?s_10_) null)))) (= parent_pre_73_18_18 parent_73_18_18) (= parent_73_18_18 (asField parent_73_18_18 T_javafe_ast_TypeDecl)) (< (fClosedTime parent_73_18_18) alloc) (= right_pre_93_40_28 right_93_40_28) (= right_93_40_28 (asField right_93_40_28 T_javafe_ast_Expr)) (< (fClosedTime right_93_40_28) alloc) (forall ((?s_11_ Int)) (=> (not (= ?s_11_ null)) (not (= (S_select right_93_40_28 ?s_11_) null)))) (= parent_pre_24_59_18 parent_24_59_18) (= parent_24_59_18 (asField parent_24_59_18 T_javafe_ast_TypeDecl)) (< (fClosedTime parent_24_59_18) alloc) (= FLOATLIT_pre_31_42_26 FLOATLIT_31_42_26) (= true_term (is FLOATLIT_31_42_26 T_int)) (= TYPEDECLELEMPRAGMA_pre_119_27_26 TYPEDECLELEMPRAGMA_119_27_26) (= true_term (is TYPEDECLELEMPRAGMA_119_27_26 T_int)) (= pkgName_pre_22_15_28 pkgName_22_15_28) (= pkgName_22_15_28 (asField pkgName_22_15_28 T_javafe_ast_Name)) (< (fClosedTime pkgName_22_15_28) alloc) (forall ((?s_12_ Int)) (=> (not (= ?s_12_ null)) (not (= (S_select pkgName_22_15_28 ?s_12_) null)))) (= FIELDDECL_pre_33_23_7 FIELDDECL_33_23_7) (= true_term (is FIELDDECL_33_23_7 T_int)) (= loc_pre_6_30_13 loc_6_30_13) (= loc_6_30_13 (asField loc_6_30_13 T_int)) (= NEWARRAYEXPR_pre_33_50_7 NEWARRAYEXPR_33_50_7) (= true_term (is NEWARRAYEXPR_33_50_7 T_int)) (= elements_pre_17_61_39 elements_17_61_39) (= elements_17_61_39 (asField elements_17_61_39 (array T_javafe_ast_ImportDecl))) (< (fClosedTime elements_17_61_39) alloc) (forall ((?s_13_ Int)) (=> (not (= ?s_13_ null)) (not (= (S_select elements_17_61_39 ?s_13_) null)))) (= loc_pre_85_50_13 loc_85_50_13) (= loc_85_50_13 (asField loc_85_50_13 T_int)) (= ASGADD_pre_32_44_26 ASGADD_32_44_26) (= true_term (is ASGADD_32_44_26 T_int)) (= type_pre_90_18_28 type_90_18_28) (= type_90_18_28 (asField type_90_18_28 T_javafe_ast_Type)) (< (fClosedTime type_90_18_28) alloc) (forall ((?s_14_ Int)) (=> (not (= ?s_14_ null)) (not (= (S_select type_90_18_28 ?s_14_) null)))) (= value_pre_29_91_31 value_29_91_31) (= value_29_91_31 (asField value_29_91_31 (array T_char))) (< (fClosedTime value_29_91_31) alloc) (forall ((?s_15_ Int)) (=> (not (= ?s_15_ null)) (not (= (S_select value_29_91_31 ?s_15_) null)))) (= CHARLIT_pre_31_41_26 CHARLIT_31_41_26) (= true_term (is CHARLIT_31_41_26 T_int)) (= STMTPRAGMA_pre_119_26_26 STMTPRAGMA_119_26_26) (= true_term (is STMTPRAGMA_119_26_26 T_int)) (= count_pre_61_67_33 count_61_67_33) (= count_61_67_33 (asField count_61_67_33 T_int)) (= expr_pre_91_15_28 expr_91_15_28) (= expr_91_15_28 (asField expr_91_15_28 T_javafe_ast_Expr)) (< (fClosedTime expr_91_15_28) alloc) (forall ((?s_16_ Int)) (=> (not (= ?s_16_ null)) (not (= (S_select expr_91_15_28 ?s_16_) null)))) (= forUpdate_pre_68_28_31 forUpdate_68_28_31) (= forUpdate_68_28_31 (asField forUpdate_68_28_31 T_javafe_ast_ExprVec)) (< (fClosedTime forUpdate_68_28_31) alloc) (forall ((?s_17_ Int)) (=> (not (= ?s_17_ null)) (not (= (S_select forUpdate_68_28_31 ?s_17_) null)))) (= LOCALVARDECL_pre_33_22_7 LOCALVARDECL_33_22_7) (= true_term (is LOCALVARDECL_33_22_7 T_int)) (= elements_pre_155_61_39 elements_155_61_39) (= elements_155_61_39 (asField elements_155_61_39 (array T_javafe_ast_MethodDecl))) (< (fClosedTime elements_155_61_39) alloc) (forall ((?s_18_ Int)) (=> (not (= ?s_18_ null)) (not (= (S_select elements_155_61_39 ?s_18_) null)))) (= locKeyword_pre_70_45_13 locKeyword_70_45_13) (= locKeyword_70_45_13 (asField locKeyword_70_45_13 T_int)) (= NEWINSTANCEEXPR_pre_33_49_7 NEWINSTANCEEXPR_33_49_7) (= true_term (is NEWINSTANCEEXPR_33_49_7 T_int)) (= count_pre_35_67_33 count_35_67_33) (= count_35_67_33 (asField count_35_67_33 T_int)) (= expr_pre_55_15_28 expr_55_15_28) (= expr_55_15_28 (asField expr_55_15_28 T_javafe_ast_Expr)) (< (fClosedTime expr_55_15_28) alloc) (forall ((?s_19_ Int)) (=> (not (= ?s_19_ null)) (not (= (S_select expr_55_15_28 ?s_19_) null)))) (= ASGREM_pre_32_43_26 ASGREM_32_43_26) (= true_term (is ASGREM_32_43_26 T_int)) (= left_pre_93_38_28 left_93_38_28) (= left_93_38_28 (asField left_93_38_28 T_javafe_ast_Expr)) (< (fClosedTime left_93_38_28) alloc) (forall ((?s_20_ Int)) (=> (not (= ?s_20_ null)) (not (= (S_select left_93_38_28 ?s_20_) null)))) (= loc_pre_49_20_13 loc_49_20_13) (= loc_49_20_13 (asField loc_49_20_13 T_int)) (= loc_pre_59_22_13 loc_59_22_13) (= loc_59_22_13 (asField loc_59_22_13 T_int)) (= LONGLIT_pre_31_40_26 LONGLIT_31_40_26) (= true_term (is LONGLIT_31_40_26 T_int)) (= MODIFIERPRAGMA_pre_119_25_26 MODIFIERPRAGMA_119_25_26) (= true_term (is MODIFIERPRAGMA_119_25_26 T_int)) (= locCloseBracket_pre_86_23_13 locCloseBracket_86_23_13) (= locCloseBracket_86_23_13 (asField locCloseBracket_86_23_13 T_int)) (= enclosingInstance_pre_87_25_14 enclosingInstance_87_25_14) (= enclosingInstance_87_25_14 (asField enclosingInstance_87_25_14 T_javafe_ast_Expr)) (< (fClosedTime enclosingInstance_87_25_14) alloc) (= INITBLOCK_pre_33_21_7 INITBLOCK_33_21_7) (= true_term (is INITBLOCK_33_21_7 T_int)) (= locOpenParen_pre_95_18_13 locOpenParen_95_18_13) (= locOpenParen_95_18_13 (asField locOpenParen_95_18_13 T_int)) (= elements_pre_14_61_42 elements_14_61_42) (= elements_14_61_42 (asField elements_14_61_42 (array T_javafe_ast_LexicalPragma))) (< (fClosedTime elements_14_61_42) alloc) (forall ((?s_21_ Int)) (=> (not (= ?s_21_ null)) (not (= (S_select elements_14_61_42 ?s_21_) null)))) (= count_pre_77_67_33 count_77_67_33) (= count_77_67_33 (asField count_77_67_33 T_int)) (= ARRAYREFEXPR_pre_33_48_7 ARRAYREFEXPR_33_48_7) (= true_term (is ARRAYREFEXPR_33_48_7 T_int)) (= ASGDIV_pre_32_42_26 ASGDIV_32_42_26) (= true_term (is ASGDIV_32_42_26 T_int)) (= type_pre_92_20_28 type_92_20_28) (= type_92_20_28 (asField type_92_20_28 T_javafe_ast_Type)) (< (fClosedTime type_92_20_28) alloc) (forall ((?s_22_ Int)) (=> (not (= ?s_22_ null)) (not (= (S_select type_92_20_28 ?s_22_) null)))) (= INTLIT_pre_31_39_26 INTLIT_31_39_26) (= true_term (is INTLIT_31_39_26 T_int)) (= locCloseBrace_pre_24_54_13 locCloseBrace_24_54_13) (= locCloseBrace_24_54_13 (asField locCloseBrace_24_54_13 T_int)) (= LEXICALPRAGMA_pre_119_24_26 LEXICALPRAGMA_119_24_26) (= true_term (is LEXICALPRAGMA_119_24_26 T_int)) (= id_pre_101_20_34 id_101_20_34) (= id_101_20_34 (asField id_101_20_34 T_javafe_ast_Identifier)) (< (fClosedTime id_101_20_34) alloc) (forall ((?s_23_ Int)) (=> (not (= ?s_23_ null)) (not (= (S_select id_101_20_34 ?s_23_) null)))) (= test_pre_68_26_28 test_68_26_28) (= test_68_26_28 (asField test_68_26_28 T_javafe_ast_Expr)) (< (fClosedTime test_68_26_28) alloc) (forall ((?s_24_ Int)) (=> (not (= ?s_24_ null)) (not (= (S_select test_68_26_28 ?s_24_) null)))) (= displayInferred_pre_4_73_26 displayInferred_4_73_26) (= true_term (is displayInferred_4_73_26 T_boolean)) (= METHODDECL_pre_33_20_7 METHODDECL_33_20_7) (= true_term (is METHODDECL_33_20_7 T_int)) (= otherCodes_pre_119_202_27 otherCodes_119_202_27) (= true_term (is otherCodes_119_202_27 ?v_0)) (= true_term (isAllocated otherCodes_119_202_27 alloc)) (= count_pre_143_67_33 count_143_67_33) (= count_143_67_33 (asField count_143_67_33 T_int)) (= elements_pre_23_61_37 elements_23_61_37) (= elements_23_61_37 (asField elements_23_61_37 (array T_javafe_ast_TypeDecl))) (< (fClosedTime elements_23_61_37) alloc) (forall ((?s_25_ Int)) (=> (not (= ?s_25_ null)) (not (= (S_select elements_23_61_37 ?s_25_) null)))) (= THISEXPR_pre_33_47_7 THISEXPR_33_47_7) (= true_term (is THISEXPR_33_47_7 T_int)) (= ASGMUL_pre_32_41_26 ASGMUL_32_41_26) (= true_term (is ASGMUL_32_41_26 T_int)) (= value_pre_85_45_16 value_85_45_16) (= value_85_45_16 (asField value_85_45_16 T_java_lang_Object)) (< (fClosedTime value_85_45_16) alloc) (= elems_pre_6_27_35 elems_6_27_35) (= elems_6_27_35 (asField elems_6_27_35 T_javafe_ast_TypeDeclVec)) (< (fClosedTime elems_6_27_35) alloc) (forall ((?s_26_ Int)) (=> (not (= ?s_26_ null)) (not (= (S_select elems_6_27_35 ?s_26_) null)))) (= op_pre_93_35_13 op_93_35_13) (= op_93_35_13 (asField op_93_35_13 T_int)) (= parent_pre_79_18_18 parent_79_18_18) (= parent_79_18_18 (asField parent_79_18_18 T_javafe_ast_TypeDecl)) (< (fClosedTime parent_79_18_18) alloc) (= loc_pre_60_23_13 loc_60_23_13) (= loc_60_23_13 (asField loc_60_23_13 T_int)) (= BOOLEANLIT_pre_31_38_26 BOOLEANLIT_31_38_26) (= true_term (is BOOLEANLIT_31_38_26 T_int)) (= CONSTRUCTORDECL_pre_33_19_7 CONSTRUCTORDECL_33_19_7) (= true_term (is CONSTRUCTORDECL_33_19_7 T_int)) (= loc_pre_51_22_13 loc_51_22_13) (= loc_51_22_13 (asField loc_51_22_13 T_int)) (= locOpenBracket_pre_81_21_13 locOpenBracket_81_21_13) (= locOpenBracket_81_21_13 (asField locOpenBracket_81_21_13 T_int)) (= FIRST_KEYWORD_pre_119_51_26 FIRST_KEYWORD_119_51_26) (= true_term (is FIRST_KEYWORD_119_51_26 T_int)) (= ARRAYINIT_pre_33_46_7 ARRAYINIT_33_46_7) (= true_term (is ARRAYINIT_33_46_7 T_int)) (= ASSIGN_pre_32_40_26 ASSIGN_32_40_26) (= true_term (is ASSIGN_32_40_26 T_int)) (= expr_pre_90_15_28 expr_90_15_28) (= expr_90_15_28 (asField expr_90_15_28 T_javafe_ast_Expr)) (< (fClosedTime expr_90_15_28) alloc) (forall ((?s_27_ Int)) (=> (not (= ?s_27_ null)) (not (= (S_select expr_90_15_28 ?s_27_) null)))) (= INDENT_pre_4_65_22 INDENT_4_65_22) (= true_term (is INDENT_4_65_22 T_int)) (= locDot_pre_70_41_13 locDot_70_41_13) (= locDot_70_41_13 (asField locDot_70_41_13 T_int)) (= ids_pre_163_19_37 ids_163_19_37) (= ids_163_19_37 (asField ids_163_19_37 T_javafe_ast_IdentifierVec)) (< (fClosedTime ids_163_19_37) alloc) (forall ((?s_28_ Int)) (=> (not (= ?s_28_ null)) (not (= (S_select ids_163_19_37 ?s_28_) null)))) (= stmt_pre_49_17_28 stmt_49_17_28) (= stmt_49_17_28 (asField stmt_49_17_28 T_javafe_ast_Stmt)) (< (fClosedTime stmt_49_17_28) alloc) (forall ((?s_29_ Int)) (=> (not (= ?s_29_ null)) (not (= (S_select stmt_49_17_28 ?s_29_) null)))) (= finallyClause_pre_59_19_28 finallyClause_59_19_28) (= finallyClause_59_19_28 (asField finallyClause_59_19_28 T_javafe_ast_Stmt)) (< (fClosedTime finallyClause_59_19_28) alloc) (forall ((?s_30_ Int)) (=> (not (= ?s_30_ null)) (not (= (S_select finallyClause_59_19_28 ?s_30_) null)))) (= init_pre_88_35_19 init_88_35_19) (= init_88_35_19 (asField init_88_35_19 T_javafe_ast_ArrayInit)) (< (fClosedTime init_88_35_19) alloc) (= SHORTTYPE_pre_31_36_26 SHORTTYPE_31_36_26) (= true_term (is SHORTTYPE_31_36_26 T_int)) (= od_pre_101_18_40 od_101_18_40) (= od_101_18_40 (asField od_101_18_40 T_javafe_ast_ObjectDesignator)) (< (fClosedTime od_101_18_40) alloc) (forall ((?s_31_ Int)) (=> (not (= ?s_31_ null)) (not (= (S_select od_101_18_40 ?s_31_) null)))) (= forInit_pre_68_24_31 forInit_68_24_31) (= forInit_68_24_31 (asField forInit_68_24_31 T_javafe_ast_StmtVec)) (< (fClosedTime forInit_68_24_31) alloc) (forall ((?s_32_ Int)) (=> (not (= ?s_32_ null)) (not (= (S_select forInit_68_24_31 ?s_32_) null)))) (= decl_pre_98_28_19 decl_98_28_19) (= decl_98_28_19 (asField decl_98_28_19 T_javafe_ast_FieldDecl)) (< (fClosedTime decl_98_28_19) alloc) (= INTERFACEDECL_pre_33_18_7 INTERFACEDECL_33_18_7) (= true_term (is INTERFACEDECL_33_18_7 T_int)) (= expr_pre_95_15_28 expr_95_15_28) (= expr_95_15_28 (asField expr_95_15_28 T_javafe_ast_Expr)) (< (fClosedTime expr_95_15_28) alloc) (forall ((?s_33_ Int)) (=> (not (= ?s_33_ null)) (not (= (S_select expr_95_15_28 ?s_33_) null)))) (= locOpenBracket_pre_86_20_13 locOpenBracket_86_20_13) (= locOpenBracket_86_20_13 (asField locOpenBracket_86_20_13 T_int)) (= CATCHCLAUSE_pre_33_45_7 CATCHCLAUSE_33_45_7) (= true_term (is CATCHCLAUSE_33_45_7 T_int)) (= STAR_pre_32_37_26 STAR_32_37_26) (= true_term (is STAR_32_37_26 T_int)) (= locOp_pre_94_32_13 locOp_94_32_13) (= locOp_94_32_13 (asField locOp_94_32_13 T_int)) (= length_pre_16_50_25 length_16_50_25) (= length_16_50_25 (asField length_16_50_25 T_int)) (= imports_pre_6_25_37 imports_6_25_37) (= imports_6_25_37 (asField imports_6_25_37 T_javafe_ast_ImportDeclVec)) (< (fClosedTime imports_6_25_37) alloc) (forall ((?s_34_ Int)) (=> (not (= ?s_34_ null)) (not (= (S_select imports_6_25_37 ?s_34_) null)))) (= BYTETYPE_pre_31_35_26 BYTETYPE_31_35_26) (= true_term (is BYTETYPE_31_35_26 T_int)) (= locOpenBrace_pre_24_51_13 locOpenBrace_24_51_13) (= locOpenBrace_24_51_13 (asField locOpenBrace_24_51_13 T_int)) (= CLASSDECL_pre_33_17_7 CLASSDECL_33_17_7) (= true_term (is CLASSDECL_33_17_7 T_int)) (= CONSTRUCTORINVOCATION_pre_33_44_7 CONSTRUCTORINVOCATION_33_44_7) (= true_term (is CONSTRUCTORINVOCATION_33_44_7 T_int)) (= MOD_pre_32_36_26 MOD_32_36_26) (= true_term (is MOD_32_36_26 T_int)) (= TYPESIG_pre_118_6_28 TYPESIG_118_6_28) (= true_term (is TYPESIG_118_6_28 T_int)) (= expr_pre_49_15_28 expr_49_15_28) (= expr_49_15_28 (asField expr_49_15_28 T_javafe_ast_Expr)) (< (fClosedTime expr_49_15_28) alloc) (forall ((?s_35_ Int)) (=> (not (= ?s_35_ null)) (not (= (S_select expr_49_15_28 ?s_35_) null)))) (= tryClause_pre_59_17_28 tryClause_59_17_28) (= tryClause_59_17_28 (asField tryClause_59_17_28 T_javafe_ast_Stmt)) (< (fClosedTime tryClause_59_17_28) alloc) (forall ((?s_36_ Int)) (=> (not (= ?s_36_ null)) (not (= (S_select tryClause_59_17_28 ?s_36_) null)))) (= NULLTYPE_pre_31_34_26 NULLTYPE_31_34_26) (= true_term (is NULLTYPE_31_34_26 T_int)) (= count_pre_69_67_33 count_69_67_33) (= count_69_67_33 (asField count_69_67_33 T_int)) (= ONDEMANDIMPORTDECL_pre_33_16_7 ONDEMANDIMPORTDECL_33_16_7) (= true_term (is ONDEMANDIMPORTDECL_33_16_7 T_int)) (= els_pre_51_19_28 els_51_19_28) (= els_51_19_28 (asField els_51_19_28 T_javafe_ast_Stmt)) (< (fClosedTime els_51_19_28) alloc) (forall ((?s_37_ Int)) (=> (not (= ?s_37_ null)) (not (= (S_select els_51_19_28 ?s_37_) null)))) (= loc_pre_50_20_13 loc_50_20_13) (= loc_50_20_13 (asField loc_50_20_13 T_int)) (= count_pre_154_67_33 count_154_67_33) (= count_154_67_33 (asField count_154_67_33 T_int)) (= locCloseBrace_pre_45_25_13 locCloseBrace_45_25_13) (= locCloseBrace_45_25_13 (asField locCloseBrace_45_25_13 T_int)) (= TRYCATCHSTMT_pre_33_43_7 TRYCATCHSTMT_33_43_7) (= true_term (is TRYCATCHSTMT_33_43_7 T_int)) (= locType_pre_75_21_13 locType_75_21_13) (= locType_75_21_13 (asField locType_75_21_13 T_int)) (= DIV_pre_32_35_26 DIV_32_35_26) (= true_term (is DIV_32_35_26 T_int)) (= loc_pre_44_18_13 loc_44_18_13) (= loc_44_18_13 (asField loc_44_18_13 T_int)) (= VOIDTYPE_pre_31_33_26 VOIDTYPE_31_33_26) (= true_term (is VOIDTYPE_31_33_26 T_int)) (= catchClauses_pre_60_20_38 catchClauses_60_20_38) (= catchClauses_60_20_38 (asField catchClauses_60_20_38 T_javafe_ast_CatchClauseVec)) (< (fClosedTime catchClauses_60_20_38) alloc) (forall ((?s_38_ Int)) (=> (not (= ?s_38_ null)) (not (= (S_select catchClauses_60_20_38 ?s_38_) null)))) (= SINGLETYPEIMPORTDECL_pre_33_15_7 SINGLETYPEIMPORTDECL_33_15_7) (= true_term (is SINGLETYPEIMPORTDECL_33_15_7 T_int)) (= lexicalPragmas_pre_6_23_26 lexicalPragmas_6_23_26) (= lexicalPragmas_6_23_26 (asField lexicalPragmas_6_23_26 T_javafe_ast_LexicalPragmaVec)) (< (fClosedTime lexicalPragmas_6_23_26) alloc) (= count_pre_38_67_33 count_38_67_33) (= count_38_67_33 (asField count_38_67_33 T_int)) (= loc_pre_40_18_13 loc_40_18_13) (= loc_40_18_13 (asField loc_40_18_13 T_int)) (= elements_pre_26_61_43 elements_26_61_43) (= elements_26_61_43 (asField elements_26_61_43 (array T_javafe_ast_ModifierPragma))) (< (fClosedTime elements_26_61_43) alloc) (forall ((?s_39_ Int)) (=> (not (= ?s_39_ null)) (not (= (S_select elements_26_61_43 ?s_39_) null)))) (= TRYFINALLYSTMT_pre_33_42_7 TRYFINALLYSTMT_33_42_7) (= true_term (is TRYFINALLYSTMT_33_42_7 T_int)) (= index_pre_86_17_28 index_86_17_28) (= index_86_17_28 (asField index_86_17_28 T_javafe_ast_Expr)) (< (fClosedTime index_86_17_28) alloc) (forall ((?s_40_ Int)) (=> (not (= ?s_40_ null)) (not (= (S_select index_86_17_28 ?s_40_) null)))) (= SUB_pre_32_34_26 SUB_32_34_26) (= true_term (is SUB_32_34_26 T_int)) (= expr_pre_94_29_28 expr_94_29_28) (= expr_94_29_28 (asField expr_94_29_28 T_javafe_ast_Expr)) (< (fClosedTime expr_94_29_28) alloc) (forall ((?s_41_ Int)) (=> (not (= ?s_41_ null)) (not (= (S_select expr_94_29_28 ?s_41_) null)))) (= locCloseBrace_pre_83_24_13 locCloseBrace_83_24_13) (= locCloseBrace_83_24_13 (asField locCloseBrace_83_24_13 T_int)) (= loc_pre_62_22_13 loc_62_22_13) (= loc_62_22_13 (asField loc_62_22_13 T_int)) (= locId_pre_98_24_13 locId_98_24_13) (= locId_98_24_13 (asField locId_98_24_13 T_int)) (= DOUBLETYPE_pre_31_32_26 DOUBLETYPE_31_32_26) (= true_term (is DOUBLETYPE_31_32_26 T_int)) (= MIN_VALUE_pre_105_39_30 MIN_VALUE_105_39_30) (= true_term (is MIN_VALUE_105_39_30 T_int)) (= COMPILATIONUNIT_pre_33_14_7 COMPILATIONUNIT_33_14_7) (= true_term (is COMPILATIONUNIT_33_14_7 T_int)) (= thn_pre_51_17_28 thn_51_17_28) (= thn_51_17_28 (asField thn_51_17_28 T_javafe_ast_Stmt)) (< (fClosedTime thn_51_17_28) alloc) (forall ((?s_42_ Int)) (=> (not (= ?s_42_ null)) (not (= (S_select thn_51_17_28 ?s_42_) null)))) (= elemType_pre_81_18_28 elemType_81_18_28) (= elemType_81_18_28 (asField elemType_81_18_28 T_javafe_ast_Type)) (< (fClosedTime elemType_81_18_28) alloc) (forall ((?s_43_ Int)) (=> (not (= ?s_43_ null)) (not (= (S_select elemType_81_18_28 ?s_43_) null)))) (= pkgName_pre_6_21_14 pkgName_6_21_14) (= pkgName_6_21_14 (asField pkgName_6_21_14 T_javafe_ast_Name)) (< (fClosedTime pkgName_6_21_14) alloc) (= enclosingInstance_pre_70_37_14 enclosingInstance_70_37_14) (= enclosingInstance_70_37_14 (asField enclosingInstance_70_37_14 T_javafe_ast_Expr)) (< (fClosedTime enclosingInstance_70_37_14) alloc) (= locId_pre_24_48_13 locId_24_48_13) (= locId_24_48_13 (asField locId_24_48_13 T_int)) (= elements_pre_84_61_36 elements_84_61_36) (= elements_84_61_36 (asField elements_84_61_36 (array T_javafe_ast_VarInit))) (< (fClosedTime elements_84_61_36) alloc) (forall ((?s_44_ Int)) (=> (not (= ?s_44_ null)) (not (= (S_select elements_84_61_36 ?s_44_) null)))) (= SWITCHLABEL_pre_33_41_7 SWITCHLABEL_33_41_7) (= true_term (is SWITCHLABEL_33_41_7 T_int)) (= ADD_pre_32_33_26 ADD_32_33_26) (= true_term (is ADD_32_33_26 T_int)) (= locDots_pre_163_31_29 locDots_163_31_29) (= locDots_163_31_29 (asField locDots_163_31_29 ?v_0)) (< (fClosedTime locDots_163_31_29) alloc) (forall ((?s_45_ Int)) (=> (not (= ?s_45_ null)) (not (= (S_select locDots_163_31_29 ?s_45_) null)))) (= typeName_pre_19_15_32 typeName_19_15_32) (= typeName_19_15_32 (asField typeName_19_15_32 T_javafe_ast_TypeName)) (< (fClosedTime typeName_19_15_32) alloc) (forall ((?s_46_ Int)) (=> (not (= ?s_46_ null)) (not (= (S_select typeName_19_15_32 ?s_46_) null)))) (= type_pre_88_24_28 type_88_24_28) (= type_88_24_28 (asField type_88_24_28 T_javafe_ast_Type)) (< (fClosedTime type_88_24_28) alloc) (forall ((?s_47_ Int)) (=> (not (= ?s_47_ null)) (not (= (S_select type_88_24_28 ?s_47_) null)))) (= type_pre_103_27_28 type_103_27_28) (= type_103_27_28 (asField type_103_27_28 T_javafe_ast_Type)) (< (fClosedTime type_103_27_28) alloc) (forall ((?s_48_ Int)) (=> (not (= ?s_48_ null)) (not (= (S_select type_103_27_28 ?s_48_) null)))) (= FLOATTYPE_pre_31_31_26 FLOATTYPE_31_31_26) (= true_term (is FLOATTYPE_31_31_26 T_int)) (= name_pre_20_18_28 name_20_18_28) (= name_20_18_28 (asField name_20_18_28 T_javafe_ast_Name)) (< (fClosedTime name_20_18_28) alloc) (forall ((?s_49_ Int)) (=> (not (= ?s_49_ null)) (not (= (S_select name_20_18_28 ?s_49_) null)))) (= locId_pre_76_43_13 locId_76_43_13) (= locId_76_43_13 (asField locId_76_43_13 T_int)) (= otherStrings_pre_119_193_30 otherStrings_119_193_30) (= true_term (is otherStrings_119_193_30 ?v_1)) (= true_term (isAllocated otherStrings_119_193_30 alloc)) (= stmt_pre_50_17_28 stmt_50_17_28) (= stmt_50_17_28 (asField stmt_50_17_28 T_javafe_ast_Stmt)) (< (fClosedTime stmt_50_17_28) alloc) (forall ((?s_50_ Int)) (=> (not (= ?s_50_ null)) (not (= (S_select stmt_50_17_28 ?s_50_) null)))) (= tryClause_pre_60_18_28 tryClause_60_18_28) (= tryClause_60_18_28 (asField tryClause_60_18_28 T_javafe_ast_Stmt)) (< (fClosedTime tryClause_60_18_28) alloc) (forall ((?s_51_ Int)) (=> (not (= ?s_51_ null)) (not (= (S_select tryClause_60_18_28 ?s_51_) null)))) (= elements_pre_46_61_33 elements_46_61_33) (= elements_46_61_33 (asField elements_46_61_33 (array T_javafe_ast_Stmt))) (< (fClosedTime elements_46_61_33) alloc) (forall ((?s_52_ Int)) (=> (not (= ?s_52_ null)) (not (= (S_select elements_46_61_33 ?s_52_) null)))) (= array_pre_86_15_28 array_86_15_28) (= array_86_15_28 (asField array_86_15_28 T_javafe_ast_Expr)) (< (fClosedTime array_86_15_28) alloc) (forall ((?s_53_ Int)) (=> (not (= ?s_53_ null)) (not (= (S_select array_86_15_28 ?s_53_) null)))) (= SKIPSTMT_pre_33_40_7 SKIPSTMT_33_40_7) (= true_term (is SKIPSTMT_33_40_7 T_int)) (= locOpenBrace_pre_45_22_13 locOpenBrace_45_22_13) (= locOpenBrace_45_22_13 (asField locOpenBrace_45_22_13 T_int)) (= op_pre_94_26_13 op_94_26_13) (= op_94_26_13 (asField op_94_26_13 T_int)) (= URSHIFT_pre_32_32_26 URSHIFT_32_32_26) (= true_term (is URSHIFT_32_32_26 T_int)) (= expr_pre_44_15_28 expr_44_15_28) (= expr_44_15_28 (asField expr_44_15_28 T_javafe_ast_Expr)) (< (fClosedTime expr_44_15_28) alloc) (forall ((?s_54_ Int)) (=> (not (= ?s_54_ null)) (not (= (S_select expr_44_15_28 ?s_54_) null)))) (= locOpenBrackets_pre_88_65_29 locOpenBrackets_88_65_29) (= locOpenBrackets_88_65_29 (asField locOpenBrackets_88_65_29 ?v_0)) (< (fClosedTime locOpenBrackets_88_65_29) alloc) (forall ((?s_55_ Int)) (=> (not (= ?s_55_ null)) (not (= (S_select locOpenBrackets_88_65_29 ?s_55_) null)))) (= COMPOUNDNAME_pre_33_67_7 COMPOUNDNAME_33_67_7) (= true_term (is COMPOUNDNAME_33_67_7 T_int)) (= CHARTYPE_pre_31_30_26 CHARTYPE_31_30_26) (= true_term (is CHARTYPE_31_30_26 T_int)) (= locId_pre_64_38_13 locId_64_38_13) (= locId_64_38_13 (asField locId_64_38_13 T_int)) (= expr_pre_51_15_28 expr_51_15_28) (= expr_51_15_28 (asField expr_51_15_28 T_javafe_ast_Expr)) (< (fClosedTime expr_51_15_28) alloc) (forall ((?s_56_ Int)) (=> (not (= ?s_56_ null)) (not (= (S_select expr_51_15_28 ?s_56_) null)))) (= expr_pre_40_15_14 expr_40_15_14) (= expr_40_15_14 (asField expr_40_15_14 T_javafe_ast_Expr)) (< (fClosedTime expr_40_15_14) alloc) (= FORSTMT_pre_33_39_7 FORSTMT_33_39_7) (= true_term (is FORSTMT_33_39_7 T_int)) (= RSHIFT_pre_32_31_26 RSHIFT_32_31_26) (= true_term (is RSHIFT_32_31_26 T_int)) (= body_pre_62_19_33 body_62_19_33) (= body_62_19_33 (asField body_62_19_33 T_javafe_ast_BlockStmt)) (< (fClosedTime body_62_19_33) alloc) (forall ((?s_57_ Int)) (=> (not (= ?s_57_ null)) (not (= (S_select body_62_19_33 ?s_57_) null)))) (= locOpenBrace_pre_83_21_13 locOpenBrace_83_21_13) (= locOpenBrace_83_21_13 (asField locOpenBrace_83_21_13 T_int)) (= id_pre_98_21_34 id_98_21_34) (= id_98_21_34 (asField id_98_21_34 T_javafe_ast_Identifier)) (< (fClosedTime id_98_21_34) alloc) (forall ((?s_58_ Int)) (=> (not (= ?s_58_ null)) (not (= (S_select id_98_21_34 ?s_58_) null)))) (= block_pre_74_28_33 block_74_28_33) (= block_74_28_33 (asField block_74_28_33 T_javafe_ast_BlockStmt)) (< (fClosedTime block_74_28_33) alloc) (forall ((?s_59_ Int)) (=> (not (= ?s_59_ null)) (not (= (S_select block_74_28_33 ?s_59_) null)))) (= SIMPLENAME_pre_33_66_7 SIMPLENAME_33_66_7) (= true_term (is SIMPLENAME_33_66_7 T_int)) (= LONGTYPE_pre_31_29_26 LONGTYPE_31_29_26) (= true_term (is LONGTYPE_31_29_26 T_int)) (= expr_pre_50_15_28 expr_50_15_28) (= expr_50_15_28 (asField expr_50_15_28 T_javafe_ast_Expr)) (< (fClosedTime expr_50_15_28) alloc) (forall ((?s_60_ Int)) (=> (not (= ?s_60_ null)) (not (= (S_select expr_50_15_28 ?s_60_) null)))) (= locColon_pre_89_25_13 locColon_89_25_13) (= locColon_89_25_13 (asField locColon_89_25_13 T_int)) (= superClass_pre_34_15_18 superClass_34_15_18) (= superClass_34_15_18 (asField superClass_34_15_18 T_javafe_ast_TypeName)) (< (fClosedTime superClass_34_15_18) alloc) (= returnType_pre_75_18_28 returnType_75_18_28) (= returnType_75_18_28 (asField returnType_75_18_28 T_javafe_ast_Type)) (< (fClosedTime returnType_75_18_28) alloc) (forall ((?s_61_ Int)) (=> (not (= ?s_61_ null)) (not (= (S_select returnType_75_18_28 ?s_61_) null)))) (= IFSTMT_pre_33_38_7 IFSTMT_33_38_7) (= true_term (is IFSTMT_33_38_7 T_int)) (= elements_pre_61_61_40 elements_61_61_40) (= elements_61_61_40 (asField elements_61_61_40 (array T_javafe_ast_CatchClause))) (< (fClosedTime elements_61_61_40) alloc) (forall ((?s_62_ Int)) (=> (not (= ?s_62_ null)) (not (= (S_select elements_61_61_40 ?s_62_) null)))) (= LSHIFT_pre_32_30_26 LSHIFT_32_30_26) (= true_term (is LSHIFT_32_30_26 T_int)) (= self_pre_4_41_37 self_4_41_37) (= self_4_41_37 (asField self_4_41_37 T_javafe_ast_PrettyPrint)) (< (fClosedTime self_4_41_37) alloc) (forall ((?s_63_ Int)) (=> (not (= ?s_63_ null)) (not (= (S_select self_4_41_37 ?s_63_) null)))) (= loc_pre_24_45_13 loc_24_45_13) (= loc_24_45_13 (asField loc_24_45_13 T_int)) (= ARRAYTYPE_pre_33_65_7 ARRAYTYPE_33_65_7) (= true_term (is ARRAYTYPE_33_65_7 T_int)) (= INTTYPE_pre_31_28_26 INTTYPE_31_28_26) (= true_term (is INTTYPE_31_28_26 T_int)) (= POSTFIXDEC_pre_32_63_26 POSTFIXDEC_32_63_26) (= true_term (is POSTFIXDEC_32_63_26 T_int)) (= locOpenParen_pre_87_52_13 locOpenParen_87_52_13) (= locOpenParen_87_52_13 (asField locOpenParen_87_52_13 T_int)) (= elements_pre_35_61_37 elements_35_61_37) (= elements_35_61_37 (asField elements_35_61_37 (array T_javafe_ast_TypeName))) (< (fClosedTime elements_35_61_37) alloc) (forall ((?s_64_ Int)) (=> (not (= ?s_64_ null)) (not (= (S_select elements_35_61_37 ?s_64_) null)))) (= loc_pre_76_40_13 loc_76_40_13) (= loc_76_40_13 (asField loc_76_40_13 T_int)) (= LABELSTMT_pre_33_37_7 LABELSTMT_33_37_7) (= true_term (is LABELSTMT_33_37_7 T_int)) (= stmts_pre_45_19_31 stmts_45_19_31) (= stmts_45_19_31 (asField stmts_45_19_31 T_javafe_ast_StmtVec)) (< (fClosedTime stmts_45_19_31) alloc) (forall ((?s_65_ Int)) (=> (not (= ?s_65_ null)) (not (= (S_select stmts_45_19_31 ?s_65_) null)))) (= LT_pre_32_29_26 LT_32_29_26) (= true_term (is LT_32_29_26 T_int)) (= arg_pre_62_17_38 arg_62_17_38) (= arg_62_17_38 (asField arg_62_17_38 T_javafe_ast_FormalParaDecl)) (< (fClosedTime arg_62_17_38) alloc) (forall ((?s_66_ Int)) (=> (not (= ?s_66_ null)) (not (= (S_select arg_62_17_38 ?s_66_) null)))) (= od_pre_98_19_40 od_98_19_40) (= od_98_19_40 (asField od_98_19_40 T_javafe_ast_ObjectDesignator)) (< (fClosedTime od_98_19_40) alloc) (forall ((?s_67_ Int)) (=> (not (= ?s_67_ null)) (not (= (S_select od_98_19_40 ?s_67_) null)))) (= pmodifiers_pre_74_26_27 pmodifiers_74_26_27) (= pmodifiers_74_26_27 (asField pmodifiers_74_26_27 T_javafe_ast_ModifierPragmaVec)) (< (fClosedTime pmodifiers_74_26_27) alloc) (= elements_pre_77_61_43 elements_77_61_43) (= elements_77_61_43 (asField elements_77_61_43 (array T_javafe_ast_FormalParaDecl))) (< (fClosedTime elements_77_61_43) alloc) (forall ((?s_68_ Int)) (=> (not (= ?s_68_ null)) (not (= (S_select elements_77_61_43 ?s_68_) null)))) (= TYPENAME_pre_33_64_7 TYPENAME_33_64_7) (= true_term (is TYPENAME_33_64_7 T_int)) (= BOOLEANTYPE_pre_31_27_26 BOOLEANTYPE_31_27_26) (= true_term (is BOOLEANTYPE_31_27_26 T_int)) (= POSTFIXINC_pre_32_62_26 POSTFIXINC_32_62_26) (= true_term (is POSTFIXINC_32_62_26 T_int)) (= type_pre_64_35_28 type_64_35_28) (= type_64_35_28 (asField type_64_35_28 T_javafe_ast_Type)) (< (fClosedTime type_64_35_28) alloc) (forall ((?s_69_ Int)) (=> (not (= ?s_69_ null)) (not (= (S_select type_64_35_28 ?s_69_) null)))) (= init_pre_67_19_17 init_67_19_17) (= init_67_19_17 (asField init_67_19_17 T_javafe_ast_VarInit)) (< (fClosedTime init_67_19_17) alloc) (= modifiers_pre_74_24_13 modifiers_74_24_13) (= modifiers_74_24_13 (asField modifiers_74_24_13 T_int)) (= CONTINUESTMT_pre_33_36_7 CONTINUESTMT_33_36_7) (= true_term (is CONTINUESTMT_33_36_7 T_int)) (= LE_pre_32_28_26 LE_32_28_26) (= true_term (is LE_32_28_26 T_int)) (= elems_pre_83_18_34 elems_83_18_34) (= elems_83_18_34 (asField elems_83_18_34 T_javafe_ast_VarInitVec)) (< (fClosedTime elems_83_18_34) alloc) (forall ((?s_70_ Int)) (=> (not (= ?s_70_ null)) (not (= (S_select elems_83_18_34 ?s_70_) null)))) (= SUPEROBJECTDESIGNATOR_pre_33_63_7 SUPEROBJECTDESIGNATOR_33_63_7) (= true_term (is SUPEROBJECTDESIGNATOR_33_63_7 T_int)) (= parent_pre_74_22_18 parent_74_22_18) (= parent_74_22_18 (asField parent_74_22_18 T_javafe_ast_TypeDecl)) (< (fClosedTime parent_74_22_18) alloc) (= IDENT_pre_31_25_26 IDENT_31_25_26) (= true_term (is IDENT_31_25_26 T_int)) (= DEC_pre_32_59_26 DEC_32_59_26) (= true_term (is DEC_32_59_26 T_int)) (= elements_pre_143_61_39 elements_143_61_39) (= elements_143_61_39 (asField elements_143_61_39 (array T_javafe_ast_Identifier))) (< (fClosedTime elements_143_61_39) alloc) (forall ((?s_71_ Int)) (=> (not (= ?s_71_ null)) (not (= (S_select elements_143_61_39 ?s_71_) null)))) (= count_pre_82_67_33 count_82_67_33) (= count_82_67_33 (asField count_82_67_33 T_int)) (= loc_pre_47_29_13 loc_47_29_13) (= loc_47_29_13 (asField loc_47_29_13 T_int)) (= tokenType_pre_37_90_8 tokenType_37_90_8) (= tokenType_37_90_8 (asField tokenType_37_90_8 T_int)) (= BREAKSTMT_pre_33_35_7 BREAKSTMT_33_35_7) (= true_term (is BREAKSTMT_33_35_7 T_int)) (= loc_pre_43_18_13 loc_43_18_13) (= loc_43_18_13 (asField loc_43_18_13 T_int)) (= locQuestion_pre_89_22_13 locQuestion_89_22_13) (= locQuestion_89_22_13 (asField locQuestion_89_22_13 T_int)) (= GT_pre_32_27_26 GT_32_27_26) (= true_term (is GT_32_27_26 T_int)) (= elems_pre_24_41_39 elems_24_41_39) (= elems_24_41_39 (asField elems_24_41_39 T_javafe_ast_TypeDeclElemVec)) (< (fClosedTime elems_24_41_39) alloc) (forall ((?s_72_ Int)) (=> (not (= ?s_72_ null)) (not (= (S_select elems_24_41_39 ?s_72_) null)))) (= TYPEOBJECTDESIGNATOR_pre_33_62_7 TYPEOBJECTDESIGNATOR_33_62_7) (= true_term (is TYPEOBJECTDESIGNATOR_33_62_7 T_int)) (= INC_pre_32_58_26 INC_32_58_26) (= true_term (is INC_32_58_26 T_int)) (= loc_pre_87_49_13 loc_87_49_13) (= loc_87_49_13 (asField loc_87_49_13 T_int)) (= count_pre_17_67_33 count_17_67_33) (= count_17_67_33 (asField count_17_67_33 T_int)) (= id_pre_75_15_34 id_75_15_34) (= id_75_15_34 (asField id_75_15_34 T_javafe_ast_Identifier)) (< (fClosedTime id_75_15_34) alloc) (forall ((?s_73_ Int)) (=> (not (= ?s_73_ null)) (not (= (S_select id_75_15_34 ?s_73_) null)))) (= THROWSTMT_pre_33_34_7 THROWSTMT_33_34_7) (= true_term (is THROWSTMT_33_34_7 T_int)) (= superCall_pre_70_24_17 superCall_70_24_17) (= superCall_70_24_17 (asField superCall_70_24_17 T_boolean)) (= GE_pre_32_26_26 GE_32_26_26) (= true_term (is GE_32_26_26 T_int)) (= decl_pre_97_26_38 decl_97_26_38) (= decl_97_26_38 (asField decl_97_26_38 T_javafe_ast_GenericVarDecl)) (< (fClosedTime decl_97_26_38) alloc) (forall ((?s_74_ Int)) (=> (not (= ?s_74_ null)) (not (= (S_select decl_97_26_38 ?s_74_) null)))) (= EXPROBJECTDESIGNATOR_pre_33_61_7 EXPROBJECTDESIGNATOR_33_61_7) (= true_term (is EXPROBJECTDESIGNATOR_33_61_7 T_int)) (= BITNOT_pre_32_57_26 BITNOT_32_57_26) (= true_term (is BITNOT_32_57_26 T_int)) (= count_pre_155_67_33 count_155_67_33) (= count_155_67_33 (asField count_155_67_33 T_int)) (= RETURNSTMT_pre_33_33_7 RETURNSTMT_33_33_7) (= true_term (is RETURNSTMT_33_33_7 T_int)) (= punctuationCodes_pre_119_164_19 punctuationCodes_119_164_19) (= true_term (is punctuationCodes_119_164_19 ?v_0)) (= true_term (isAllocated punctuationCodes_119_164_19 alloc)) (= count_pre_14_67_33 count_14_67_33) (= count_14_67_33 (asField count_14_67_33 T_int)) (= punctuationStrings_pre_119_134_22 punctuationStrings_119_134_22) (= true_term (is punctuationStrings_119_134_22 ?v_1)) (= true_term (isAllocated punctuationStrings_119_134_22 alloc)) (= EQ_pre_32_25_26 EQ_32_25_26) (= true_term (is EQ_32_25_26 T_int)) (= loc_pre_53_18_13 loc_53_18_13) (= loc_53_18_13 (asField loc_53_18_13 T_int)) (= locDot_pre_99_21_13 locDot_99_21_13) (= locDot_99_21_13 (asField locDot_99_21_13 T_int)) (= CLASSLITERAL_pre_33_60_7 CLASSLITERAL_33_60_7) (= true_term (is CLASSLITERAL_33_60_7 T_int)) (= locSuper_pre_161_20_13 locSuper_161_20_13) (= locSuper_161_20_13 (asField locSuper_161_20_13 T_int)) (= NOT_pre_32_56_26 NOT_32_56_26) (= true_term (is NOT_32_56_26 T_int)) (= loc_pre_160_16_13 loc_160_16_13) (= loc_160_16_13 (asField loc_160_16_13 T_int)) (= locCloseParen_pre_91_24_13 locCloseParen_91_24_13) (= locCloseParen_91_24_13 (asField locCloseParen_91_24_13 T_int)) (= args_pre_100_32_31 args_100_32_31) (= args_100_32_31 (asField args_100_32_31 T_javafe_ast_ExprVec)) (< (fClosedTime args_100_32_31) alloc) (forall ((?s_75_ Int)) (=> (not (= ?s_75_ null)) (not (= (S_select args_100_32_31 ?s_75_) null)))) (= decl_pre_101_34_20 decl_101_34_20) (= decl_101_34_20 (asField decl_101_34_20 T_javafe_ast_MethodDecl)) (< (fClosedTime decl_101_34_20) alloc) (= id_pre_64_32_34 id_64_32_34) (= id_64_32_34 (asField id_64_32_34 T_javafe_ast_Identifier)) (< (fClosedTime id_64_32_34) alloc) (forall ((?s_76_ Int)) (=> (not (= ?s_76_ null)) (not (= (S_select id_64_32_34 ?s_76_) null)))) (= expr_pre_47_26_14 expr_47_26_14) (= expr_47_26_14 (asField expr_47_26_14 T_javafe_ast_Expr)) (< (fClosedTime expr_47_26_14) alloc) (= decl_pre_66_15_36 decl_66_15_36) (= decl_66_15_36 (asField decl_66_15_36 T_javafe_ast_LocalVarDecl)) (< (fClosedTime decl_66_15_36) alloc) (forall ((?s_77_ Int)) (=> (not (= ?s_77_ null)) (not (= (S_select decl_66_15_36 ?s_77_) null)))) (= locOpenParen_pre_55_23_13 locOpenParen_55_23_13) (= locOpenParen_55_23_13 (asField locOpenParen_55_23_13 T_int)) (= EVALSTMT_pre_33_32_7 EVALSTMT_33_32_7) (= true_term (is EVALSTMT_33_32_7 T_int)) (= elements_pre_69_61_33 elements_69_61_33) (= elements_69_61_33 (asField elements_69_61_33 (array T_javafe_ast_Expr))) (< (fClosedTime elements_69_61_33) alloc) (forall ((?s_78_ Int)) (=> (not (= ?s_78_ null)) (not (= (S_select elements_69_61_33 ?s_78_) null)))) (= owner_pre_5_35_28 owner_5_35_28) (= owner_5_35_28 (asField owner_5_35_28 T_java_lang_Object)) (< (fClosedTime owner_5_35_28) alloc) (= expr_pre_43_15_28 expr_43_15_28) (= expr_43_15_28 (asField expr_43_15_28 T_javafe_ast_Expr)) (< (fClosedTime expr_43_15_28) alloc) (forall ((?s_79_ Int)) (=> (not (= ?s_79_ null)) (not (= (S_select expr_43_15_28 ?s_79_) null)))) (= NE_pre_32_24_26 NE_32_24_26) (= true_term (is NE_32_24_26 T_int)) (= locId_pre_58_20_13 locId_58_20_13) (= locId_58_20_13 (asField locId_58_20_13 T_int)) (= elements_pre_154_61_38 elements_154_61_38) (= elements_154_61_38 (asField elements_154_61_38 (array T_javafe_ast_FieldDecl))) (< (fClosedTime elements_154_61_38) alloc) (forall ((?s_80_ Int)) (=> (not (= ?s_80_ null)) (not (= (S_select elements_154_61_38 ?s_80_) null)))) (= METHODINVOCATION_pre_33_59_7 METHODINVOCATION_33_59_7) (= true_term (is METHODINVOCATION_33_59_7 T_int)) (= els_pre_89_19_28 els_89_19_28) (= els_89_19_28 (asField els_89_19_28 T_javafe_ast_Expr)) (< (fClosedTime els_89_19_28) alloc) (forall ((?s_81_ Int)) (=> (not (= ?s_81_ null)) (not (= (S_select els_89_19_28 ?s_81_) null)))) (= LAST_KEYWORD_pre_119_103_26 LAST_KEYWORD_119_103_26) (= true_term (is LAST_KEYWORD_119_103_26 T_int)) (= UNARYSUB_pre_32_55_26 UNARYSUB_32_55_26) (= true_term (is UNARYSUB_32_55_26 T_int)) (= MIN_VALUE_pre_107_38_29 MIN_VALUE_107_38_29) (= true_term (is MIN_VALUE_107_38_29 T_long)) (= anonDecl_pre_87_45_19 anonDecl_87_45_19) (= anonDecl_87_45_19 (asField anonDecl_87_45_19 T_javafe_ast_ClassDecl)) (< (fClosedTime anonDecl_87_45_19) alloc) (= count_pre_23_67_33 count_23_67_33) (= count_23_67_33 (asField count_23_67_33 T_int)) (= loc_pre_18_18_13 loc_18_18_13) (= loc_18_18_13 (asField loc_18_18_13 T_int)) (= superInterfaces_pre_24_34_35 superInterfaces_24_34_35) (= superInterfaces_24_34_35 (asField superInterfaces_24_34_35 T_javafe_ast_TypeNameVec)) (< (fClosedTime superInterfaces_24_34_35) alloc) (forall ((?s_82_ Int)) (=> (not (= ?s_82_ null)) (not (= (S_select superInterfaces_24_34_35 ?s_82_) null)))) (= keywordStrings_pre_119_181_30 keywordStrings_119_181_30) (= true_term (is keywordStrings_119_181_30 ?v_1)) (= true_term (isAllocated keywordStrings_119_181_30 alloc)) (= locOpenBrace_pre_76_36_13 locOpenBrace_76_36_13) (= locOpenBrace_76_36_13 (asField locOpenBrace_76_36_13 T_int)) (= SYNCHRONIZESTMT_pre_33_31_7 SYNCHRONIZESTMT_33_31_7) (= true_term (is SYNCHRONIZESTMT_33_31_7 T_int)) (= NULL_pre_119_82_26 NULL_119_82_26) (= true_term (is NULL_119_82_26 T_int)) (= BITAND_pre_32_23_26 BITAND_32_23_26) (= true_term (is BITAND_32_23_26 T_int)) (= count_pre_29_99_33 count_29_99_33) (= count_29_99_33 (asField count_29_99_33 T_int)) (= elements_pre_38_61_41 elements_38_61_41) (= elements_38_61_41 (asField elements_38_61_41 (array T_javafe_ast_TypeDeclElem))) (< (fClosedTime elements_38_61_41) alloc) (forall ((?s_83_ Int)) (=> (not (= ?s_83_ null)) (not (= (S_select elements_38_61_41 ?s_83_) null)))) (= body_pre_76_34_19 body_76_34_19) (= body_76_34_19 (asField body_76_34_19 T_javafe_ast_BlockStmt)) (< (fClosedTime body_76_34_19) alloc) (= AMBIGUOUSMETHODINVOCATION_pre_33_58_7 AMBIGUOUSMETHODINVOCATION_33_58_7) (= true_term (is AMBIGUOUSMETHODINVOCATION_33_58_7 T_int)) (= UNARYADD_pre_32_54_26 UNARYADD_32_54_26) (= true_term (is UNARYADD_32_54_26 T_int)) (= pmodifiers_pre_64_30_27 pmodifiers_64_30_27) (= pmodifiers_64_30_27 (asField pmodifiers_64_30_27 T_javafe_ast_ModifierPragmaVec)) (< (fClosedTime pmodifiers_64_30_27) alloc) (= locOpenParen_pre_100_30_13 locOpenParen_100_30_13) (= locOpenParen_100_30_13 (asField locOpenParen_100_30_13 T_int)) (= locFirstSemi_pre_68_36_13 locFirstSemi_68_36_13) (= locFirstSemi_68_36_13 (asField locFirstSemi_68_36_13 T_int)) (= loc_pre_117_35_13 loc_117_35_13) (= loc_117_35_13 (asField loc_117_35_13 T_int)) (= raises_pre_76_32_35 raises_76_32_35) (= raises_76_32_35 (asField raises_76_32_35 T_javafe_ast_TypeNameVec)) (< (fClosedTime raises_76_32_35) alloc) (forall ((?s_84_ Int)) (=> (not (= ?s_84_ null)) (not (= (S_select raises_76_32_35 ?s_84_) null)))) (= inst_pre_4_29_44 inst_4_29_44) (= true_term (is inst_4_29_44 T_javafe_ast_PrettyPrint)) (= true_term (isAllocated inst_4_29_44 alloc)) (not (= inst_4_29_44 null)) (= DOSTMT_pre_33_30_7 DOSTMT_33_30_7) (= true_term (is DOSTMT_33_30_7 T_int)) (= expr_pre_57_15_28 expr_57_15_28) (= expr_57_15_28 (asField expr_57_15_28 T_javafe_ast_Expr)) (< (fClosedTime expr_57_15_28) alloc) (forall ((?s_85_ Int)) (=> (not (= ?s_85_ null)) (not (= (S_select expr_57_15_28 ?s_85_) null)))) (= BITXOR_pre_32_22_26 BITXOR_32_22_26) (= true_term (is BITXOR_32_22_26 T_int)) (= modifiers_pre_64_28_13 modifiers_64_28_13) (= modifiers_64_28_13 (asField modifiers_64_28_13 T_int)) (= label_pre_53_15_20 label_53_15_20) (= label_53_15_20 (asField label_53_15_20 T_javafe_ast_Identifier)) (< (fClosedTime label_53_15_20) alloc) (= FIELDACCESS_pre_33_57_7 FIELDACCESS_33_57_7) (= true_term (is FIELDACCESS_33_57_7 T_int)) (= thn_pre_89_17_28 thn_89_17_28) (= thn_89_17_28 (asField thn_89_17_28 T_javafe_ast_Expr)) (< (fClosedTime thn_89_17_28) alloc) (forall ((?s_86_ Int)) (=> (not (= ?s_86_ null)) (not (= (S_select thn_89_17_28 ?s_86_) null)))) (= ASGBITXOR_pre_32_51_26 ASGBITXOR_32_51_26) (= true_term (is ASGBITXOR_32_51_26 T_int)) (= loc_pre_97_22_13 loc_97_22_13) (= loc_97_22_13 (asField loc_97_22_13 T_int)) (= locIds_pre_163_25_29 locIds_163_25_29) (= locIds_163_25_29 (asField locIds_163_25_29 ?v_0)) (< (fClosedTime locIds_163_25_29) alloc) (forall ((?s_87_ Int)) (=> (not (= ?s_87_ null)) (not (= (S_select locIds_163_25_29 ?s_87_) null)))) (= id_pre_24_32_34 id_24_32_34) (= id_24_32_34 (asField id_24_32_34 T_javafe_ast_Identifier)) (< (fClosedTime id_24_32_34) alloc) (forall ((?s_88_ Int)) (=> (not (= ?s_88_ null)) (not (= (S_select id_24_32_34 ?s_88_) null)))) (= locOpenParen_pre_91_21_13 locOpenParen_91_21_13) (= locOpenParen_91_21_13 (asField locOpenParen_91_21_13 T_int)) (= WHILESTMT_pre_33_29_7 WHILESTMT_33_29_7) (= true_term (is WHILESTMT_33_29_7 T_int)) (= BITOR_pre_32_21_26 BITOR_32_21_26) (= true_term (is BITOR_32_21_26 T_int)) (= stmt_pre_58_17_28 stmt_58_17_28) (= stmt_58_17_28 (asField stmt_58_17_28 T_javafe_ast_Stmt)) (< (fClosedTime stmt_58_17_28) alloc) (forall ((?s_89_ Int)) (=> (not (= ?s_89_ null)) (not (= (S_select stmt_58_17_28 ?s_89_) null)))) (= args_pre_101_30_31 args_101_30_31) (= args_101_30_31 (asField args_101_30_31 T_javafe_ast_ExprVec)) (< (fClosedTime args_101_30_31) alloc) (forall ((?s_90_ Int)) (=> (not (= ?s_90_ null)) (not (= (S_select args_101_30_31 ?s_90_) null)))) (= args_pre_87_34_31 args_87_34_31) (= args_87_34_31 (asField args_87_34_31 T_javafe_ast_ExprVec)) (< (fClosedTime args_87_34_31) alloc) (forall ((?s_91_ Int)) (=> (not (= ?s_91_ null)) (not (= (S_select args_87_34_31 ?s_91_) null)))) (= VARIABLEACCESS_pre_33_56_7 VARIABLEACCESS_33_56_7) (= true_term (is VARIABLEACCESS_33_56_7 T_int)) (= NULL_pre_116_60_26 NULL_116_60_26) (= true_term (is NULL_116_60_26 T_int)) (= ASGBITOR_pre_32_50_26 ASGBITOR_32_50_26) (= true_term (is ASGBITOR_32_50_26 T_int)) (= inferred_pre_71_33_17 inferred_71_33_17) (= inferred_71_33_17 (asField inferred_71_33_17 T_boolean)) (= expr_pre_102_22_28 expr_102_22_28) (= expr_102_22_28 (asField expr_102_22_28 T_javafe_ast_Expr)) (< (fClosedTime expr_102_22_28) alloc) (forall ((?s_92_ Int)) (=> (not (= ?s_92_ null)) (not (= (S_select expr_102_22_28 ?s_92_) null)))) (= decl_pre_65_15_33 decl_65_15_33) (= decl_65_15_33 (asField decl_65_15_33 T_javafe_ast_ClassDecl)) (< (fClosedTime decl_65_15_33) alloc) (forall ((?s_93_ Int)) (=> (not (= ?s_93_ null)) (not (= (S_select decl_65_15_33 ?s_93_) null)))) (= args_pre_76_30_41 args_76_30_41) (= args_76_30_41 (asField args_76_30_41 T_javafe_ast_FormalParaDeclVec)) (< (fClosedTime args_76_30_41) alloc) (forall ((?s_94_ Int)) (=> (not (= ?s_94_ null)) (not (= (S_select args_76_30_41 ?s_94_) null)))) (= CLASSDECLSTMT_pre_33_28_7 CLASSDECLSTMT_33_28_7) (= true_term (is CLASSDECLSTMT_33_28_7 T_int)) (= test_pre_89_15_28 test_89_15_28) (= test_89_15_28 (asField test_89_15_28 T_javafe_ast_Expr)) (< (fClosedTime test_89_15_28) alloc) (forall ((?s_95_ Int)) (=> (not (= ?s_95_ null)) (not (= (S_select test_89_15_28 ?s_95_) null)))) (= AMBIGUOUSVARIABLEACCESS_pre_33_55_7 AMBIGUOUSVARIABLEACCESS_33_55_7) (= true_term (is AMBIGUOUSVARIABLEACCESS_33_55_7 T_int)) (= ASGBITAND_pre_32_49_26 ASGBITAND_32_49_26) (= true_term (is ASGBITAND_32_49_26 T_int)) (= loc_pre_88_49_13 loc_88_49_13) (= loc_88_49_13 (asField loc_88_49_13 T_int)) (= pmodifiers_pre_24_30_27 pmodifiers_24_30_27) (= pmodifiers_24_30_27 (asField pmodifiers_24_30_27 T_javafe_ast_ModifierPragmaVec)) (< (fClosedTime pmodifiers_24_30_27) alloc) (= elems_pre elems) (= elems (asElems elems)) (< (eClosedTime elems) alloc) (= LS (asLockSet LS)) (= alloc_pre alloc)) (not (and (= true_term (is this T_javafe_ast_StandardPrettyPrint)) (= true_term (isAllocated this alloc)) (not (= this null)) (= true_term (is o_1067_33 T_java_io_OutputStream)) (= true_term (isAllocated o_1067_33 alloc)) (= true_term (is lp_1067_50 T_javafe_ast_LexicalPragma)) (= true_term (isAllocated lp_1067_50 alloc)) ?v_6 ?v_2 (or ?v_8 (and ?v_2 ?v_11 ?v_3 ?v_12 ?v_13 (or (and ?v_7 (not (and ?v_6 (not (= s_1068_4_1068_4_4_381_50 null))))) (and ?v_7 ?v_14 (or ?v_8 (and ?v_2 ?v_15 ?v_16 ?v_9 ?v_17 (not (and ?v_6 ?v_10))))))) (and ?v_2 ?v_11 ?v_3 ?v_12 ?v_13 ?v_7 ?v_14 ?v_2 ?v_15 ?v_16 ?v_9 ?v_17 (= EC_1069_4_1069_4 ecReturn) (not (= ecReturn ecReturn))))))))))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/quantifiers/javafe.ast.StmtVec.009.smt2 b/test/regress/regress0/quantifiers/javafe.ast.StmtVec.009.smt2
deleted file mode 100644
index 1c3aa1d8b..000000000
--- a/test/regress/regress0/quantifiers/javafe.ast.StmtVec.009.smt2
+++ /dev/null
@@ -1,398 +0,0 @@
-(set-logic AUFLIA)
-(set-info :source | 
-  Simplify front end test suite.
-  This benchmark was translated by Michal Moskal.
-|)
-(set-info :smt-lib-version 2.0)
-(set-info :category "industrial")
-(set-info :status unsat)
-(declare-fun after_133.8_133.8 () Int)
-(declare-fun integralOr (Int Int) Int)
-(declare-fun els_81.27 () Int)
-(declare-fun arrayShapeMore (Int Int) Int)
-(declare-fun count_150.3 () Int)
-(declare-fun tmp0_cor_166.15 () Int)
-(declare-fun tmp1_elements_179.1 () Int)
-(declare-fun integralAnd (Int Int) Int)
-(declare-fun T_.TYPE () Int)
-(declare-fun EC_167.11_167.11 () Int)
-(declare-fun EC_178.11_178.11 () Int)
-(declare-fun elements_83.6 () Int)
-(declare-fun currentStackBottom_pre_19.87.33 () Int)
-(declare-fun index_164.36 () Int)
-(declare-fun intFirst () Int)
-(declare-fun after_113.8_113.8 () Int)
-(declare-fun elementType_pre_19.43.27 () Int)
-(declare-fun eClosedTime (Int) Int)
-(declare-fun int_m9223372036854775808 () Int)
-(declare-fun RES_167.11_167.11 () Int)
-(declare-fun RES_121.14_121.14 () Int)
-(declare-fun int_m2147483648 () Int)
-(declare-fun T_java.lang.Comparable () Int)
-(declare-fun EC_81.32_81.32 () Int)
-(declare-fun arrayPosition (Int) Int)
-(declare-fun after_81.32_81.32 () Int)
-(declare-fun RES_91.29_91.29 () Int)
-(declare-fun EC_169.20_169.20 () Int)
-(declare-fun after_151.3_151.3_19.296.17 () Int)
-(declare-fun select1 (Int Int) Int)
-(declare-fun select2 (Int Int Int) Int)
-(declare-fun T_java.util.EscjavaKeyValue () Int)
-(declare-fun cnt_91.24 () Int)
-(declare-fun elems_1_ () Int)
-(declare-fun owner_84.18 () Int)
-(declare-fun T_long () Int)
-(declare-fun T_javafe.util.StackVector () Int)
-(declare-fun count_123.8 () Int)
-(declare-fun lockLE (Int Int) Bool)
-(declare-fun classLiteral (Int) Int)
-(declare-fun after_86.8_86.8_9.342.17 () Int)
-(declare-fun elements_61.33 () Int)
-(declare-fun count_82.6 () Int)
-(declare-fun T_java.lang.RuntimeException () Int)
-(declare-fun RES_147.12_147.12 () Int)
-(declare-fun lockLT (Int Int) Bool)
-(declare-fun elems_2_ () Int)
-(declare-fun RES_107.8_107.8 () Int)
-(declare-fun elements_zero () Int)
-(declare-fun T_float () Int)
-(declare-fun elements_19.72.21 () Int)
-(declare-fun alloc () Int)
-(declare-fun RES_122.18_122.18 () Int)
-(declare-fun asChild (Int Int) Int)
-(declare-fun CONCVARSYM (Int) Int)
-(declare-fun T_int () Int)
-(declare-fun int_2147483647 () Int)
-(declare-fun elementCount_pre_19.79.33 () Int)
-(declare-fun int_9223372036854775807 () Int)
-(declare-fun this () Int)
-(declare-fun T_byte () Int)
-(declare-fun T_java.lang.System () Int)
-(declare-fun store1 (Int Int Int) Int)
-(declare-fun store2 (Int Int Int Int) Int)
-(declare-fun RES_148.13_148.13 () Int)
-(declare-fun elementType_12.65.27 () Int)
-(declare-fun owner_pre_4.35.28 () Int)
-(declare-fun containsNull_12.70.29 () Int)
-(declare-fun elements_pre_19.72.21 () Int)
-(declare-fun max (Int) Int)
-(declare-fun currentStackBottom_19.87.33 () Int)
-(declare-fun T_java.util.List () Int)
-(declare-fun objectToBeConstructed () Int)
-(declare-fun T_java.util.Map () Int)
-(declare-fun elementData_10.79.35 () Int)
-(declare-fun EC_91.29_91.29 () Int)
-(declare-fun integralDiv (Int Int) Int)
-(declare-fun after_151.3_151.3_19.298.17 () Int)
-(declare-fun T_java.util.AbstractCollection () Int)
-(declare-fun elems_86.8_9.342.17 () Int)
-(declare-fun T_java.lang.Class () Int)
-(declare-fun obj_169.20_169.20_23.30.38 () Int)
-(declare-fun after_151.3_151.3_19.298.31 () Int)
-(declare-fun vectorCount_19.97.33 () Int)
-(declare-fun T_java.lang.Object () Int)
-(declare-fun tmp1_elements_84.9 () Int)
-(declare-fun tmp1_cond_92.36 () Int)
-(declare-fun RES_178.11_178.11 () Int)
-(declare-fun tmp3_elements_86.25 () Int)
-(declare-fun longLast () Int)
-(declare-fun termConditional (Int Int Int) Int)
-(declare-fun vectorCount_151.3_19.296.17 () Int)
-(declare-fun elements_92.6 () Int)
-(declare-fun T_java.util.Dictionary () Int)
-(declare-fun vec_120.38 () Int)
-(declare-fun elements_pre_61.33 () Int)
-(declare-fun bool_false () Int)
-(declare-fun Smt.true () Int)
-(declare-fun EC_149.3_149.3 () Int)
-(declare-fun asLockSet (Int) Int)
-(declare-fun integralMod (Int Int) Int)
-(declare-fun count_67.33_1_ () Int)
-(declare-fun Smt.false () Int)
-(declare-fun typeof (Int) Int)
-(declare-fun int_18446744073709551615 () Int)
-(declare-fun owner_4.35.28 () Int)
-(declare-fun count_112.35 () Int)
-(declare-fun elementCount_pre_10.90.35 () Int)
-(declare-fun x_175.40 () Int)
-(declare-fun stringCat (Int Int) Int)
-(declare-fun T_java.util.Vector () Int)
-(declare-fun tmp0_cor_177.5 () Int)
-(declare-fun T_boolean () Int)
-(declare-fun longFirst () Int)
-(declare-fun T_java.util.Hashtable () Int)
-(declare-fun T_java.util.Properties () Int)
-(declare-fun after_91.29_91.29 () Int)
-(declare-fun arrayFresh (Int Int Int Int Int Int Int) Bool)
-(declare-fun tmp0_new_Stmt___92.17 () Int)
-(declare-fun RES () Int)
-(declare-fun EC_86.8_86.8 () Int)
-(declare-fun count_95.6 () Int)
-(declare-fun EC_107.8_107.8 () Int)
-(declare-fun elementCount_19.79.33 () Int)
-(declare-fun after_107.8_107.8 () Int)
-(declare-fun intLast () Int)
-(declare-fun arrayType () Int)
-(declare-fun boolEq (Int Int) Bool)
-(declare-fun arrayLength (Int) Int)
-(declare-fun cast (Int Int) Int)
-(declare-fun tmp0_cor_166.5 () Int)
-(declare-fun asElems (Int) Int)
-(declare-fun s_145.71 () Int)
-(declare-fun T_char () Int)
-(declare-fun RES_133.8_133.8 () Int)
-(declare-fun owner_93.18 () Int)
-(declare-fun dst_149.3_149.3_19.228.40 () Int)
-(declare-fun count_pre_67.33 () Int)
-(declare-fun elementType_pre_12.65.27 () Int)
-(declare-fun T_javafe.ast.ASTNode () Int)
-(declare-fun ecThrow () Int)
-(declare-fun elementCount_151.3_19.298.17 () Int)
-(declare-fun divides (Int Int) Int)
-(declare-fun RES_113.8_113.8 () Int)
-(declare-fun length_86.8_86.8_9.360.44 () Int)
-(declare-fun anArray_124.5_124.5_10.188.45 () Int)
-(declare-fun elementType_19.43.27 () Int)
-(declare-fun T_javafe.util.Assert () Int)
-(declare-fun InRange (Int Int) Bool)
-(declare-fun count_67.33 () Int)
-(declare-fun RES_81.32_81.32 () Int)
-(declare-fun tmp0_cor_177.15 () Int)
-(declare-fun elems_149.3_19.225.17 () Int)
-(declare-fun tmp2_elements_93.9 () Int)
-(declare-fun elementData_pre_10.79.35 () Int)
-(declare-fun refEQ (Int Int) Int)
-(declare-fun after_149.3_149.3_19.225.17 () Int)
-(declare-fun is (Int Int) Int)
-(declare-fun index_175.48 () Int)
-(declare-fun vectorCount_pre_19.97.33 () Int)
-(declare-fun integralEQ (Int Int) Int)
-(declare-fun T_java.lang.ArrayIndexOutOfBoundsException () Int)
-(declare-fun containsNull_pre_12.70.29 () Int)
-(declare-fun boolNE (Int Int) Bool)
-(declare-fun isNewArray (Int) Int)
-(declare-fun elems_pre () Int)
-(declare-fun T_javafe.ast.Stmt () Int)
-(declare-fun intShiftL (Int Int) Int)
-(declare-fun nonnullelements (Int Int) Bool)
-(declare-fun T_java.util.AbstractList () Int)
-(declare-fun elementCount_10.90.35 () Int)
-(declare-fun multiply (Int Int) Int)
-(declare-fun integralGE (Int Int) Int)
-(declare-fun T_short () Int)
-(declare-fun EC_151.3_151.3 () Int)
-(declare-fun alloc_pre () Int)
-(declare-fun integralGT (Int Int) Int)
-(declare-fun EC () Int)
-(declare-fun elements_61.33_1_ () Int)
-(declare-fun EC_121.14_121.14 () Int)
-(declare-fun boolAnd (Int Int) Bool)
-(declare-fun EC_113.8_113.8 () Int)
-(declare-fun T_java.util.Collection () Int)
-(declare-fun arrayShapeOne (Int) Int)
-(declare-fun T_double () Int)
-(declare-fun longShiftL (Int Int) Int)
-(declare-fun T_java.io.Serializable () Int)
-(declare-fun boolOr (Int Int) Bool)
-(declare-fun int_4294967295 () Int)
-(declare-fun modulo (Int Int) Int)
-(declare-fun EC_124.5_124.5 () Int)
-(declare-fun T_java.lang.StringBuffer () Int)
-(declare-fun after_122.18_122.18 () Int)
-(declare-fun EC_147.12_147.12 () Int)
-(declare-fun null () Int)
-(declare-fun T_java.lang.Exception () Int)
-(declare-fun T_java.lang.Throwable () Int)
-(declare-fun currentStackBottom_151.3_19.298.31 () Int)
-(declare-fun T_java.lang.String () Int)
-(declare-fun EC_122.18_122.18 () Int)
-(declare-fun asField (Int Int) Int)
-(declare-fun after_148.13_148.13 () Int)
-(declare-fun T_javafe.ast.StmtVec () Int)
-(declare-fun T_java.lang.IndexOutOfBoundsException () Int)
-(declare-fun boolImplies (Int Int) Bool)
-(declare-fun integralLE (Int Int) Int)
-(declare-fun RES_1_ () Int)
-(declare-fun integralLT (Int Int) Int)
-(declare-fun vAllocTime (Int) Int)
-(declare-fun EC_148.13_148.13 () Int)
-(declare-fun T_java.lang.Cloneable () Int)
-(declare-fun boolNot (Int) Bool)
-(declare-fun refNE (Int Int) Int)
-(declare-fun integralXor (Int Int) Int)
-(declare-fun classDown (Int Int) Int)
-(declare-fun els_132.38 () Int)
-(declare-fun integralNE (Int Int) Int)
-(declare-fun arrayParent (Int) Int)
-(declare-fun elemtype (Int) Int)
-(declare-fun fClosedTime (Int) Int)
-(declare-fun alloc_1_ () Int)
-(declare-fun array (Int) Int)
-(declare-fun LS () Int)
-(declare-fun ecReturn () Int)
-(declare-fun isAllocated (Int Int) Bool)
-(declare-fun after_167.11_167.11 () Int)
-(declare-fun after_178.11_178.11 () Int)
-(declare-fun elems () Int)
-(declare-fun subtypes (Int Int) Bool)
-(declare-fun tmp0_new_Stmt___83.17 () Int)
-(declare-fun EC_133.8_133.8 () Int)
-(assert (subtypes T_java.lang.Exception T_java.lang.Throwable))
-(assert (= T_java.lang.Exception (asChild T_java.lang.Exception T_java.lang.Throwable)))
-(assert (subtypes T_javafe.ast.Stmt T_javafe.ast.ASTNode))
-(assert (= T_javafe.ast.Stmt (asChild T_javafe.ast.Stmt T_javafe.ast.ASTNode)))
-(assert (subtypes T_javafe.util.Assert T_java.lang.Object))
-(assert (= T_javafe.util.Assert (asChild T_javafe.util.Assert T_java.lang.Object)))
-(assert (subtypes T_java.util.Properties T_java.util.Hashtable))
-(assert (= T_java.util.Properties (asChild T_java.util.Properties T_java.util.Hashtable)))
-(assert (subtypes T_java.lang.Cloneable T_java.lang.Object))
-(assert (subtypes T_java.lang.IndexOutOfBoundsException T_java.lang.RuntimeException))
-(assert (= T_java.lang.IndexOutOfBoundsException (asChild T_java.lang.IndexOutOfBoundsException T_java.lang.RuntimeException)))
-(assert (subtypes T_java.util.Dictionary T_java.lang.Object))
-(assert (= T_java.util.Dictionary (asChild T_java.util.Dictionary T_java.lang.Object)))
-(assert (subtypes T_java.util.Dictionary T_java.util.EscjavaKeyValue))
-(assert (subtypes T_java.lang.ArrayIndexOutOfBoundsException T_java.lang.IndexOutOfBoundsException))
-(assert (= T_java.lang.ArrayIndexOutOfBoundsException (asChild T_java.lang.ArrayIndexOutOfBoundsException T_java.lang.IndexOutOfBoundsException)))
-(assert (subtypes T_java.util.Map T_java.lang.Object))
-(assert (subtypes T_java.util.Map T_java.util.EscjavaKeyValue))
-(assert (subtypes T_java.io.Serializable T_java.lang.Object))
-(assert (subtypes T_java.lang.StringBuffer T_java.lang.Object))
-(assert (= T_java.lang.StringBuffer (asChild T_java.lang.StringBuffer T_java.lang.Object)))
-(assert (forall ((?t Int)) (! (= (subtypes ?t T_java.lang.StringBuffer) (= ?t T_java.lang.StringBuffer)) :pattern ((subtypes ?t T_java.lang.StringBuffer)) )))
-(assert (subtypes T_java.lang.StringBuffer T_java.io.Serializable))
-(assert (subtypes T_javafe.ast.StmtVec T_java.lang.Object))
-(assert (= T_javafe.ast.StmtVec (asChild T_javafe.ast.StmtVec T_java.lang.Object)))
-(assert (subtypes T_java.util.AbstractCollection T_java.lang.Object))
-(assert (= T_java.util.AbstractCollection (asChild T_java.util.AbstractCollection T_java.lang.Object)))
-(assert (subtypes T_java.util.AbstractCollection T_java.util.Collection))
-(assert (subtypes T_java.util.Vector T_java.util.AbstractList))
-(assert (= T_java.util.Vector (asChild T_java.util.Vector T_java.util.AbstractList)))
-(assert (subtypes T_java.util.Vector T_java.util.List))
-(assert (subtypes T_java.util.Vector T_java.lang.Cloneable))
-(assert (subtypes T_java.util.Vector T_java.io.Serializable))
-(assert (subtypes T_java.util.Hashtable T_java.util.Dictionary))
-(assert (= T_java.util.Hashtable (asChild T_java.util.Hashtable T_java.util.Dictionary)))
-(assert (subtypes T_java.util.Hashtable T_java.util.Map))
-(assert (subtypes T_java.util.Hashtable T_java.lang.Cloneable))
-(assert (subtypes T_java.util.Hashtable T_java.io.Serializable))
-(assert (subtypes T_java.lang.System T_java.lang.Object))
-(assert (= T_java.lang.System (asChild T_java.lang.System T_java.lang.Object)))
-(assert (forall ((?t Int)) (! (= (subtypes ?t T_java.lang.System) (= ?t T_java.lang.System)) :pattern ((subtypes ?t T_java.lang.System)) )))
-(assert (subtypes T_javafe.util.StackVector T_java.lang.Object))
-(assert (= T_javafe.util.StackVector (asChild T_javafe.util.StackVector T_java.lang.Object)))
-(assert (forall ((?t Int)) (! (= (subtypes ?t T_javafe.util.StackVector) (= ?t T_javafe.util.StackVector)) :pattern ((subtypes ?t T_javafe.util.StackVector)) )))
-(assert (subtypes T_java.lang.String T_java.lang.Object))
-(assert (= T_java.lang.String (asChild T_java.lang.String T_java.lang.Object)))
-(assert (forall ((?t Int)) (! (= (subtypes ?t T_java.lang.String) (= ?t T_java.lang.String)) :pattern ((subtypes ?t T_java.lang.String)) )))
-(assert (subtypes T_java.lang.String T_java.io.Serializable))
-(assert (subtypes T_java.lang.String T_java.lang.Comparable))
-(assert (subtypes T_java.util.AbstractList T_java.util.AbstractCollection))
-(assert (= T_java.util.AbstractList (asChild T_java.util.AbstractList T_java.util.AbstractCollection)))
-(assert (subtypes T_java.util.AbstractList T_java.util.List))
-(assert (subtypes T_java.util.List T_java.lang.Object))
-(assert (subtypes T_java.util.List T_java.util.Collection))
-(assert (subtypes T_java.lang.Throwable T_java.lang.Object))
-(assert (= T_java.lang.Throwable (asChild T_java.lang.Throwable T_java.lang.Object)))
-(assert (subtypes T_java.lang.Throwable T_java.io.Serializable))
-(assert (subtypes T_java.util.Collection T_java.lang.Object))
-(assert (subtypes T_java.lang.RuntimeException T_java.lang.Exception))
-(assert (= T_java.lang.RuntimeException (asChild T_java.lang.RuntimeException T_java.lang.Exception)))
-(assert (subtypes T_java.util.EscjavaKeyValue T_java.lang.Object))
-(assert (subtypes T_java.lang.Comparable T_java.lang.Object))
-(assert (subtypes T_javafe.ast.ASTNode T_java.lang.Object))
-(assert (= T_javafe.ast.ASTNode (asChild T_javafe.ast.ASTNode T_java.lang.Object)))
-(assert (subtypes T_javafe.ast.ASTNode T_java.lang.Cloneable))
-(assert (distinct arrayType T_boolean T_char T_byte T_short T_int T_long T_float T_double T_.TYPE T_java.lang.Exception T_javafe.ast.Stmt T_javafe.util.Assert T_java.util.Properties T_java.lang.Cloneable T_java.lang.IndexOutOfBoundsException T_java.util.Dictionary T_java.lang.ArrayIndexOutOfBoundsException T_java.util.Map T_java.io.Serializable T_java.lang.StringBuffer T_javafe.ast.StmtVec T_java.util.AbstractCollection T_java.util.Vector T_java.util.Hashtable T_java.lang.System T_javafe.util.StackVector T_java.lang.String T_java.lang.Object T_java.util.AbstractList T_java.util.List T_java.lang.Throwable T_java.util.Collection T_java.lang.RuntimeException T_java.util.EscjavaKeyValue T_java.lang.Comparable T_javafe.ast.ASTNode))
-(assert (forall ((?n Int)) (! (=> (and (<= 0 ?n) (< ?n 63)) (<= 1 (longShiftL 1 ?n))) :pattern ((longShiftL 1 ?n)) )))
-(assert (forall ((?n Int)) (! (=> (and (<= 0 ?n) (< ?n 31)) (<= 1 (intShiftL 1 ?n))) :pattern ((intShiftL 1 ?n)) )))
-(assert (forall ((?x Int) (?y Int)) (! (=> (and (<= 0 ?x) (<= 0 ?y)) (<= 0 (integralXor ?x ?y))) :pattern ((integralXor ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (let ((?v_0 (integralDiv ?x ?y))) (=> (and (<= 0 ?x) (< 0 ?y)) (and (<= 0 ?v_0) (<= ?v_0 ?x)))) :pattern ((integralDiv ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (let ((?v_0 (integralOr ?x ?y))) (=> (and (<= 0 ?x) (<= 0 ?y)) (and (<= ?x ?v_0) (<= ?y ?v_0)))) :pattern ((integralOr ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (=> (<= 0 ?y) (<= (integralAnd ?x ?y) ?y)) :pattern ((integralAnd ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (=> (<= 0 ?x) (<= (integralAnd ?x ?y) ?x)) :pattern ((integralAnd ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (=> (or (<= 0 ?x) (<= 0 ?y)) (<= 0 (integralAnd ?x ?y))) :pattern ((integralAnd ?x ?y)) )))
-(assert (forall ((?t Int)) (! (let ((?v_0 (classLiteral ?t))) (and (not (= ?v_0 null)) (= Smt.true (is ?v_0 T_java.lang.Class)) (isAllocated ?v_0 alloc))) :pattern ((classLiteral ?t)) )))
-(assert (forall ((?x Int) (?e Int)) (= (nonnullelements ?x ?e) (and (not (= ?x null)) (forall ((?i Int)) (=> (and (<= 0 ?i) (< ?i (arrayLength ?x))) (not (= (select1 (select1 ?e ?x) ?i) null))))))))
-(assert (forall ((?b Int) (?x Int) (?y Int)) (! (=> (not (= ?b Smt.true)) (= (termConditional ?b ?x ?y) ?y)) :pattern ((termConditional ?b ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (= (termConditional Smt.true ?x ?y) ?x) :pattern ((termConditional Smt.true ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (= (= (refNE ?x ?y) Smt.true) (not (= ?x ?y))) :pattern ((refNE ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (= (= (refEQ ?x ?y) Smt.true) (= ?x ?y)) :pattern ((refEQ ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (= (= (integralNE ?x ?y) Smt.true) (not (= ?x ?y))) :pattern ((integralNE ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (= (= (integralLT ?x ?y) Smt.true) (< ?x ?y)) :pattern ((integralLT ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (= (= (integralLE ?x ?y) Smt.true) (<= ?x ?y)) :pattern ((integralLE ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (= (= (integralGT ?x ?y) Smt.true) (> ?x ?y)) :pattern ((integralGT ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (= (= (integralGE ?x ?y) Smt.true) (>= ?x ?y)) :pattern ((integralGE ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (let ((?v_0 (stringCat ?x ?y))) (and (not (= ?v_0 null)) (subtypes (typeof ?v_0) T_java.lang.String))) :pattern ((stringCat ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (= (= (integralEQ ?x ?y) Smt.true) (= ?x ?y)) :pattern ((integralEQ ?x ?y)) )))
-(assert (forall ((?a Int) (?b Int)) (= (boolOr ?a ?b) (or (= ?a Smt.true) (= ?b Smt.true)))))
-(assert (forall ((?a Int)) (= (boolNot ?a) (not (= ?a Smt.true)))))
-(assert (forall ((?a Int) (?b Int)) (= (boolNE ?a ?b) (not (= (= ?a Smt.true) (= ?b Smt.true))))))
-(assert (forall ((?a Int) (?b Int)) (= (boolImplies ?a ?b) (=> (= ?a Smt.true) (= ?b Smt.true)))))
-(assert (forall ((?a Int) (?b Int)) (= (boolEq ?a ?b) (= (= ?a Smt.true) (= ?b Smt.true)))))
-(assert (forall ((?a Int) (?b Int)) (= (boolAnd ?a ?b) (and (= ?a Smt.true) (= ?b Smt.true)))))
-(assert (forall ((?x Int) (?y Int)) (let ((?v_0 (multiply ?x ?y))) (= (multiply (integralDiv ?v_0 ?y) ?y) ?v_0))))
-(assert (forall ((?i Int) (?j Int)) (= (integralMod (+ ?j ?i) ?j) (integralMod ?i ?j))))
-(assert (forall ((?i Int) (?j Int)) (= (integralMod (+ ?i ?j) ?j) (integralMod ?i ?j))))
-(assert (forall ((?i Int) (?j Int)) (! (let ((?v_0 (integralMod ?i ?j))) (=> (< ?j 0) (and (< ?j ?v_0) (<= ?v_0 0)))) :pattern ((integralMod ?i ?j)) )))
-(assert (forall ((?i Int) (?j Int)) (! (let ((?v_0 (integralMod ?i ?j))) (=> (< 0 ?j) (and (<= 0 ?v_0) (< ?v_0 ?j)))) :pattern ((integralMod ?i ?j)) )))
-(assert (forall ((?i Int) (?j Int)) (! (= (+ (multiply (integralDiv ?i ?j) ?j) (integralMod ?i ?j)) ?i) :pattern ((integralMod ?i ?j))  :pattern ((integralDiv ?i ?j)) )))
-(assert (forall ((?s Int)) (! (=> (= Smt.true (isNewArray ?s)) (subtypes (typeof ?s) arrayType)) :pattern ((isNewArray ?s)) )))
-(assert (forall ((?t Int)) (! (subtypes (array ?t) arrayType) :pattern ((array ?t)) )))
-(assert (= arrayType (asChild arrayType T_java.lang.Object)))
-(assert (forall ((?a Int) (?a0 Int) (?b0 Int) (?e Int) (?n Int) (?T Int) (?v Int)) (! (= (arrayFresh ?a ?a0 ?b0 ?e (arrayShapeOne ?n) ?T ?v) (and (<= ?a0 (vAllocTime ?a)) (isAllocated ?a ?b0) (not (= ?a null)) (= (typeof ?a) ?T) (= (arrayLength ?a) ?n) (forall ((?i Int)) (! (= (select1 (select1 ?e ?a) ?i) ?v) :pattern ((select1 (select1 ?e ?a) ?i)) )))) :pattern ((arrayFresh ?a ?a0 ?b0 ?e (arrayShapeOne ?n) ?T ?v)) )))
-(assert (forall ((?a Int) (?a0 Int) (?b0 Int) (?e Int) (?n Int) (?s Int) (?T Int) (?v Int)) (! (= (arrayFresh ?a ?a0 ?b0 ?e (arrayShapeMore ?n ?s) ?T ?v) (and (<= ?a0 (vAllocTime ?a)) (isAllocated ?a ?b0) (not (= ?a null)) (= (typeof ?a) ?T) (= (arrayLength ?a) ?n) (forall ((?i Int)) (! (let ((?v_0 (select1 (select1 ?e ?a) ?i))) (and (arrayFresh ?v_0 ?a0 ?b0 ?e ?s (elemtype ?T) ?v) (= (arrayParent ?v_0) ?a) (= (arrayPosition ?v_0) ?i))) :pattern ((select1 (select1 ?e ?a) ?i)) )))) :pattern ((arrayFresh ?a ?a0 ?b0 ?e (arrayShapeMore ?n ?s) ?T ?v)) )))
-(assert (forall ((?a Int)) (! (let ((?v_0 (arrayLength ?a))) (and (<= 0 ?v_0) (= Smt.true (is ?v_0 T_int)))) :pattern ((arrayLength ?a)) )))
-(assert (forall ((?x Int)) (! (=> (subtypes (typeof ?x) T_java.lang.Object) (lockLE null ?x)) :pattern ((lockLE null ?x))  :pattern ((lockLT null ?x))  :pattern ((lockLE ?x null))  :pattern ((lockLT ?x null)) )))
-(assert (forall ((?S Int) (?mu Int)) (let ((?v_0 (asLockSet ?S))) (=> (= (select1 ?v_0 ?mu) Smt.true) (lockLE ?mu (max ?v_0))))))
-(assert (forall ((?x Int) (?y Int)) (= (lockLT ?x ?y) (< ?x ?y))))
-(assert (forall ((?x Int) (?y Int)) (= (lockLE ?x ?y) (<= ?x ?y))))
-(assert (forall ((?S Int)) (! (= (select1 (asLockSet ?S) null) Smt.true) :pattern ((asLockSet ?S)) )))
-(assert (forall ((?S Int)) (let ((?v_0 (asLockSet ?S))) (= (select1 ?v_0 (max ?v_0)) Smt.true))))
-(assert (forall ((?a Int) (?e Int) (?i Int) (?a0 Int)) (! (=> (and (< (eClosedTime ?e) ?a0) (isAllocated ?a ?a0)) (isAllocated (select1 (select1 ?e ?a) ?i) ?a0)) :pattern ((isAllocated (select1 (select1 ?e ?a) ?i) ?a0)) )))
-(assert (forall ((?x Int) (?f Int) (?a0 Int)) (! (=> (and (< (fClosedTime ?f) ?a0) (isAllocated ?x ?a0)) (isAllocated (select1 ?f ?x) ?a0)) :pattern ((isAllocated (select1 ?f ?x) ?a0)) )))
-(assert (forall ((?x Int) (?a0 Int)) (= (isAllocated ?x ?a0) (< (vAllocTime ?x) ?a0))))
-(assert (forall ((?e Int) (?a Int) (?i Int)) (! (= Smt.true (is (select1 (select1 (asElems ?e) ?a) ?i) (elemtype (typeof ?a)))) :pattern ((select1 (select1 (asElems ?e) ?a) ?i)) )))
-(assert (forall ((?f Int) (?t Int) (?x Int)) (! (= Smt.true (is (select1 (asField ?f ?t) ?x) ?t)) :pattern ((select1 (asField ?f ?t) ?x)) )))
-(assert (forall ((?x Int) (?t Int)) (! (=> (subtypes ?t T_java.lang.Object) (= (= Smt.true (is ?x ?t)) (or (= ?x null) (subtypes (typeof ?x) ?t)))) :pattern ((subtypes ?t T_java.lang.Object) (is ?x ?t)) )))
-(assert (< intLast longLast))
-(assert (< 1000000 intLast))
-(assert (< intFirst (- 1000000)))
-(assert (< longFirst intFirst))
-(assert (forall ((?x Int)) (! (= (= Smt.true (is ?x T_long)) (and (<= longFirst ?x) (<= ?x longLast))) :pattern ((is ?x T_long)) )))
-(assert (forall ((?x Int)) (! (= (= Smt.true (is ?x T_int)) (and (<= intFirst ?x) (<= ?x intLast))) :pattern ((is ?x T_int)) )))
-(assert (forall ((?x Int)) (= (= Smt.true (is ?x T_short)) (and (<= (- 32768) ?x) (<= ?x 32767)))))
-(assert (forall ((?x Int)) (= (= Smt.true (is ?x T_byte)) (and (<= (- 128) ?x) (<= ?x 127)))))
-(assert (forall ((?x Int)) (! (= (= Smt.true (is ?x T_char)) (and (<= 0 ?x) (<= ?x 65535))) :pattern ((is ?x T_char)) )))
-(assert (distinct bool_false Smt.true))
-(assert (forall ((?x Int) (?t Int)) (! (=> (= Smt.true (is ?x ?t)) (= (cast ?x ?t) ?x)) :pattern ((cast ?x ?t)) )))
-(assert (forall ((?x Int) (?t Int)) (! (= Smt.true (is (cast ?x ?t) ?t)) :pattern ((cast ?x ?t)) )))
-(assert (forall ((?t0 Int) (?t1 Int)) (! (let ((?v_0 (elemtype ?t0))) (= (subtypes ?t0 (array ?t1)) (and (= ?t0 (array ?v_0)) (subtypes ?v_0 ?t1)))) :pattern ((subtypes ?t0 (array ?t1))) )))
-(assert (forall ((?t Int)) (! (= (elemtype (array ?t)) ?t) :pattern ((elemtype (array ?t))) )))
-(assert (forall ((?t Int)) (! (subtypes (array ?t) T_java.lang.Cloneable) :pattern ((array ?t)) )))
-(assert (subtypes T_java.lang.Cloneable T_java.lang.Object))
-(assert (forall ((?t0 Int) (?t1 Int) (?t2 Int)) (let ((?v_0 (asChild ?t1 ?t2))) (=> (subtypes ?t0 ?v_0) (= (classDown ?t2 ?t0) ?v_0)))))
-(assert (forall ((?t Int)) (! (=> (subtypes T_double ?t) (= ?t T_double)) :pattern ((subtypes T_double ?t)) )))
-(assert (forall ((?t Int)) (! (=> (subtypes T_float ?t) (= ?t T_float)) :pattern ((subtypes T_float ?t)) )))
-(assert (forall ((?t Int)) (! (=> (subtypes T_long ?t) (= ?t T_long)) :pattern ((subtypes T_long ?t)) )))
-(assert (forall ((?t Int)) (! (=> (subtypes T_int ?t) (= ?t T_int)) :pattern ((subtypes T_int ?t)) )))
-(assert (forall ((?t Int)) (! (=> (subtypes T_short ?t) (= ?t T_short)) :pattern ((subtypes T_short ?t)) )))
-(assert (forall ((?t Int)) (! (=> (subtypes T_byte ?t) (= ?t T_byte)) :pattern ((subtypes T_byte ?t)) )))
-(assert (forall ((?t Int)) (! (=> (subtypes T_char ?t) (= ?t T_char)) :pattern ((subtypes T_char ?t)) )))
-(assert (forall ((?t Int)) (! (=> (subtypes T_boolean ?t) (= ?t T_boolean)) :pattern ((subtypes T_boolean ?t)) )))
-(assert (forall ((?t Int)) (! (=> (subtypes ?t T_double) (= ?t T_double)) :pattern ((subtypes ?t T_double)) )))
-(assert (forall ((?t Int)) (! (=> (subtypes ?t T_float) (= ?t T_float)) :pattern ((subtypes ?t T_float)) )))
-(assert (forall ((?t Int)) (! (=> (subtypes ?t T_long) (= ?t T_long)) :pattern ((subtypes ?t T_long)) )))
-(assert (forall ((?t Int)) (! (=> (subtypes ?t T_int) (= ?t T_int)) :pattern ((subtypes ?t T_int)) )))
-(assert (forall ((?t Int)) (! (=> (subtypes ?t T_short) (= ?t T_short)) :pattern ((subtypes ?t T_short)) )))
-(assert (forall ((?t Int)) (! (=> (subtypes ?t T_byte) (= ?t T_byte)) :pattern ((subtypes ?t T_byte)) )))
-(assert (forall ((?t Int)) (! (=> (subtypes ?t T_char) (= ?t T_char)) :pattern ((subtypes ?t T_char)) )))
-(assert (forall ((?t Int)) (! (=> (subtypes ?t T_boolean) (= ?t T_boolean)) :pattern ((subtypes ?t T_boolean)) )))
-(assert (forall ((?t0 Int) (?t1 Int)) (! (=> (and (subtypes ?t0 ?t1) (subtypes ?t1 ?t0)) (= ?t0 ?t1)) :pattern ((subtypes ?t0 ?t1) (subtypes ?t1 ?t0)) )))
-(assert (forall ((?t0 Int) (?t1 Int) (?t2 Int)) (! (=> (and (subtypes ?t0 ?t1) (subtypes ?t1 ?t2)) (subtypes ?t0 ?t2)) :pattern ((subtypes ?t0 ?t1) (subtypes ?t1 ?t2)) )))
-(assert (subtypes T_java.lang.Object T_java.lang.Object))
-(assert (forall ((?t Int)) (! (subtypes ?t ?t) :pattern ((subtypes ?t ?t)) )))
-(assert (forall ((?m Int) (?i Int) (?j Int) (?x Int)) (=> (not (= ?i ?j)) (= (select1 (store1 ?m ?i ?x) ?j) (select1 ?m ?j)))))
-(assert (forall ((?m Int) (?i Int) (?x Int)) (= (select1 (store1 ?m ?i ?x) ?i) ?x)))
-(assert (let ((?v_0 (array T_java.lang.Object)) (?v_6 (<= 0 index_175.48)) (?v_2 (select1 count_67.33 this)) (?v_1 (< index_175.48 0)) (?v_3 (= Smt.true Smt.true))) (let ((?v_8 (or (and ?v_1 ?v_3 (= tmp0_cor_177.15 Smt.true)) (and (not ?v_1) (= tmp0_cor_177.5 (integralGE index_175.48 ?v_2)) (= tmp0_cor_177.15 tmp0_cor_177.5)))) (?v_5 (= Smt.true tmp0_cor_177.15)) (?v_12 (< alloc after_178.11_178.11)) (?v_4 (not (= RES_178.11_178.11 null))) (?v_13 (not (isAllocated RES_178.11_178.11 alloc))) (?v_14 (= Smt.true (is RES_178.11_178.11 T_java.lang.ArrayIndexOutOfBoundsException))) (?v_15 (isAllocated RES_178.11_178.11 after_178.11_178.11)) (?v_16 (= EC_178.11_178.11 ecReturn)) (?v_17 (= (select1 owner_4.35.28 RES_178.11_178.11) null)) (?v_18 (= (typeof RES_178.11_178.11) T_java.lang.ArrayIndexOutOfBoundsException))) (let ((?v_9 (not ?v_5)) (?v_10 (= tmp1_elements_179.1 (select1 elements_61.33 this))) (?v_7 (< index_175.48 (arrayLength tmp1_elements_179.1))) (?v_11 (= Smt.true (is x_175.40 (elemtype (typeof tmp1_elements_179.1))))) (?v_19 (= EC ecReturn))) (not (=> (distinct ecReturn ecThrow) (=> (and (= elementCount_pre_19.79.33 elementCount_19.79.33) (= elementCount_19.79.33 (asField elementCount_19.79.33 T_int)) (= elementData_pre_10.79.35 elementData_10.79.35) (= elementData_10.79.35 (asField elementData_10.79.35 ?v_0)) (< (fClosedTime elementData_10.79.35) alloc) (forall ((?s Int)) (=> (not (= ?s null)) (not (= (select1 elementData_10.79.35 ?s) null)))) (= count_pre_67.33 count_67.33) (= count_67.33 (asField count_67.33 T_int)) (= owner_pre_4.35.28 owner_4.35.28) (= owner_4.35.28 (asField owner_4.35.28 T_java.lang.Object)) (< (fClosedTime owner_4.35.28) alloc) (= elementType_pre_19.43.27 elementType_19.43.27) (= elementType_19.43.27 (asField elementType_19.43.27 T_.TYPE)) (= containsNull_pre_12.70.29 containsNull_12.70.29) (= containsNull_12.70.29 (asField containsNull_12.70.29 T_boolean)) (= elements_pre_19.72.21 elements_19.72.21) (= elements_19.72.21 (asField elements_19.72.21 ?v_0)) (< (fClosedTime elements_19.72.21) alloc) (= elements_pre_61.33 elements_61.33) (= elements_61.33 (asField elements_61.33 (array T_javafe.ast.Stmt))) (< (fClosedTime elements_61.33) alloc) (forall ((?s_1_ Int)) (=> (not (= ?s_1_ null)) (not (= (select1 elements_61.33 ?s_1_) null)))) (= elementType_pre_12.65.27 elementType_12.65.27) (= elementType_12.65.27 (asField elementType_12.65.27 T_.TYPE)) (= elementCount_pre_10.90.35 elementCount_10.90.35) (= elementCount_10.90.35 (asField elementCount_10.90.35 T_int)) (= currentStackBottom_pre_19.87.33 currentStackBottom_19.87.33) (= currentStackBottom_19.87.33 (asField currentStackBottom_19.87.33 T_int)) (= vectorCount_pre_19.97.33 vectorCount_19.97.33) (= vectorCount_19.97.33 (asField vectorCount_19.97.33 T_int)) (= elems_pre elems) (= elems (asElems elems)) (< (eClosedTime elems) alloc) (= LS (asLockSet LS)) (= alloc_pre alloc)) (not (and (= Smt.true (is this T_javafe.ast.StmtVec)) (isAllocated this alloc) (not (= this null)) (= Smt.true (is x_175.40 T_javafe.ast.Stmt)) (isAllocated x_175.40 alloc) (= Smt.true (is index_175.48 T_int)) ?v_6 (< index_175.48 ?v_2) (not (= x_175.40 null)) (forall ((?brokenObj Int)) (=> (and (= Smt.true (is ?brokenObj T_javafe.ast.StmtVec)) (not (= ?brokenObj null))) (forall ((?i_62.31 Int)) (=> (and (<= 0 ?i_62.31) (< ?i_62.31 (select1 count_67.33 ?brokenObj))) (not (= (select1 (select1 elems (select1 elements_61.33 ?brokenObj)) ?i_62.31) null)))))) (forall ((?brokenObj_1_ Int)) (=> (and (= Smt.true (is ?brokenObj_1_ T_javafe.ast.StmtVec)) (not (= ?brokenObj_1_ null))) (<= (select1 count_67.33 ?brokenObj_1_) (arrayLength (select1 elements_61.33 ?brokenObj_1_))))) (forall ((?brokenObj_2_ Int)) (=> (and (= Smt.true (is ?brokenObj_2_ T_javafe.ast.StmtVec)) (not (= ?brokenObj_2_ null))) (<= 0 (select1 count_67.33 ?brokenObj_2_)))) (forall ((?brokenObj_3_ Int)) (=> (and (= Smt.true (is ?brokenObj_3_ T_javafe.ast.StmtVec)) (not (= ?brokenObj_3_ null))) (= (select1 owner_4.35.28 (select1 elements_61.33 ?brokenObj_3_)) ?brokenObj_3_))) (forall ((?brokenObj_4_ Int)) (=> (and (= Smt.true (is ?brokenObj_4_ T_javafe.ast.StmtVec)) (not (= ?brokenObj_4_ null))) (= (typeof (select1 elements_61.33 ?brokenObj_4_)) (array T_javafe.ast.Stmt)))) (or (and ?v_8 (or (and ?v_5 ?v_3 ?v_12 ?v_4 ?v_13 ?v_14 ?v_15 ?v_16 ?v_17 ?v_18 (not ?v_4)) (and ?v_9 ?v_3 ?v_10 (or (not ?v_6) (and ?v_6 (or (not ?v_7) (and ?v_7 (not ?v_11)))))))) (and (or (and ?v_8 ?v_9 ?v_3 ?v_10 ?v_6 ?v_7 ?v_11 (= elems_1_ (store1 elems tmp1_elements_179.1 (store1 (select1 elems tmp1_elements_179.1) index_175.48 x_175.40))) (= elems_2_ elems_1_) ?v_19 (= alloc_1_ alloc)) (and ?v_8 ?v_5 ?v_3 ?v_12 ?v_4 ?v_13 ?v_14 ?v_15 ?v_16 ?v_17 ?v_18 ?v_4 ?v_3 (= elems_2_ elems) (= EC ecThrow) (= alloc_1_ after_178.11_178.11))) (or (not ?v_19) (and ?v_19 (not (forall ((?brokenObj Int)) (=> (and (= Smt.true (is ?brokenObj T_javafe.ast.StmtVec)) (isAllocated ?brokenObj alloc_1_) (not (= ?brokenObj null))) (forall ((?i_62.31 Int)) (=> (and (<= 0 ?i_62.31) (< ?i_62.31 (select1 count_67.33 ?brokenObj))) (not (= (select1 (select1 elems_2_ (select1 elements_61.33 ?brokenObj)) ?i_62.31) null))))))))))))))))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/quantifiers/javafe.ast.WhileStmt.447.smt2 b/test/regress/regress0/quantifiers/javafe.ast.WhileStmt.447.smt2
deleted file mode 100644
index 9a5c07194..000000000
--- a/test/regress/regress0/quantifiers/javafe.ast.WhileStmt.447.smt2
+++ /dev/null
@@ -1,737 +0,0 @@
-(set-logic AUFLIA)
-(set-info :source | Simplify Theorem Prover Benchmark Suite |)
-(set-info :smt-lib-version 2.0)
-(set-info :category "industrial")
-(set-info :status unsat)
-(declare-fun true_term () Int)
-(declare-fun false_term () Int)
-(assert (= true_term 1))
-(assert (= false_term 0))
-(declare-fun S_select (Int Int) Int)
-(declare-fun S_store (Int Int Int) Int)
-(assert (forall ((?m Int) (?i Int) (?x Int)) (= (S_select (S_store ?m ?i ?x) ?i) ?x)))
-(assert (forall ((?m Int) (?i Int) (?j Int) (?x Int)) (=> (not (= ?i ?j)) (= (S_select (S_store ?m ?i ?x) ?j) (S_select ?m ?j)))))
-(declare-fun PO_LT (Int Int) Int)
-(assert (forall ((?t Int)) (= (PO_LT ?t ?t) true_term)))
-(declare-fun T_java_lang_Object () Int)
-(assert (= (PO_LT T_java_lang_Object T_java_lang_Object) true_term))
-(assert (forall ((?t0 Int) (?t1 Int) (?t2 Int)) (=> (and (= (PO_LT ?t0 ?t1) true_term) (= (PO_LT ?t1 ?t2) true_term)) (= (PO_LT ?t0 ?t2) true_term))))
-(assert (forall ((?t0 Int) (?t1 Int)) (=> (and (= (PO_LT ?t0 ?t1) true_term) (= (PO_LT ?t1 ?t0) true_term)) (= ?t0 ?t1))))
-(declare-fun T_boolean () Int)
-(assert (forall ((?t Int)) (=> (= (PO_LT ?t T_boolean) true_term) (= ?t T_boolean))))
-(declare-fun T_char () Int)
-(assert (forall ((?t Int)) (=> (= (PO_LT ?t T_char) true_term) (= ?t T_char))))
-(declare-fun T_byte () Int)
-(assert (forall ((?t Int)) (=> (= (PO_LT ?t T_byte) true_term) (= ?t T_byte))))
-(declare-fun T_short () Int)
-(assert (forall ((?t Int)) (=> (= (PO_LT ?t T_short) true_term) (= ?t T_short))))
-(declare-fun T_int () Int)
-(assert (forall ((?t Int)) (=> (= (PO_LT ?t T_int) true_term) (= ?t T_int))))
-(declare-fun T_long () Int)
-(assert (forall ((?t Int)) (=> (= (PO_LT ?t T_long) true_term) (= ?t T_long))))
-(declare-fun T_float () Int)
-(assert (forall ((?t Int)) (=> (= (PO_LT ?t T_float) true_term) (= ?t T_float))))
-(declare-fun T_double () Int)
-(assert (forall ((?t Int)) (=> (= (PO_LT ?t T_double) true_term) (= ?t T_double))))
-(assert (forall ((?t Int)) (=> (= (PO_LT T_boolean ?t) true_term) (= ?t T_boolean))))
-(assert (forall ((?t Int)) (=> (= (PO_LT T_char ?t) true_term) (= ?t T_char))))
-(assert (forall ((?t Int)) (=> (= (PO_LT T_byte ?t) true_term) (= ?t T_byte))))
-(assert (forall ((?t Int)) (=> (= (PO_LT T_short ?t) true_term) (= ?t T_short))))
-(assert (forall ((?t Int)) (=> (= (PO_LT T_int ?t) true_term) (= ?t T_int))))
-(assert (forall ((?t Int)) (=> (= (PO_LT T_long ?t) true_term) (= ?t T_long))))
-(assert (forall ((?t Int)) (=> (= (PO_LT T_float ?t) true_term) (= ?t T_float))))
-(assert (forall ((?t Int)) (=> (= (PO_LT T_double ?t) true_term) (= ?t T_double))))
-(declare-fun asChild (Int Int) Int)
-(declare-fun classDown (Int Int) Int)
-(assert (forall ((?t0 Int) (?t1 Int) (?t2 Int)) (let ((?v_0 (asChild ?t1 ?t2))) (=> (= (PO_LT ?t0 ?v_0) true_term) (= (classDown ?t2 ?t0) ?v_0)))))
-(declare-fun T_java_lang_Cloneable () Int)
-(assert (= (PO_LT T_java_lang_Cloneable T_java_lang_Object) true_term))
-(declare-fun array (Int) Int)
-(assert (forall ((?t Int)) (= (PO_LT (array ?t) T_java_lang_Cloneable) true_term)))
-(declare-fun elemtype (Int) Int)
-(assert (forall ((?t Int)) (= (elemtype (array ?t)) ?t)))
-(assert (forall ((?t0 Int) (?t1 Int)) (let ((?v_0 (elemtype ?t0))) (= (= (PO_LT ?t0 (array ?t1)) true_term) (and (= ?t0 (array ?v_0)) (= (PO_LT ?v_0 ?t1) true_term))))))
-(declare-fun is (Int Int) Int)
-(declare-fun cast (Int Int) Int)
-(assert (forall ((?x Int) (?t Int)) (= (is (cast ?x ?t) ?t) true_term)))
-(assert (forall ((?x Int) (?t Int)) (=> (= (is ?x ?t) true_term) (= (cast ?x ?t) ?x))))
-(assert true)
-(assert (forall ((?x Int)) (= (= (is ?x T_char) true_term) (and (<= 0 ?x) (<= ?x 65535)))))
-(assert (forall ((?x Int)) (= (= (is ?x T_byte) true_term) (and (<= (- 128) ?x) (<= ?x 127)))))
-(assert (forall ((?x Int)) (= (= (is ?x T_short) true_term) (and (<= (- 32768) ?x) (<= ?x 32767)))))
-(declare-fun intFirst () Int)
-(declare-fun intLast () Int)
-(assert (forall ((?x Int)) (= (= (is ?x T_int) true_term) (and (<= intFirst ?x) (<= ?x intLast)))))
-(declare-fun longFirst () Int)
-(declare-fun longLast () Int)
-(assert (forall ((?x Int)) (= (= (is ?x T_long) true_term) (and (<= longFirst ?x) (<= ?x longLast)))))
-(assert (< longFirst intFirst))
-(assert (< intFirst (- 1000000)))
-(assert (< 1000000 intLast))
-(assert (< intLast longLast))
-(declare-fun null () Int)
-(declare-fun typeof (Int) Int)
-(assert (forall ((?x Int) (?t Int)) (=> (= (PO_LT ?t T_java_lang_Object) true_term) (= (= (is ?x ?t) true_term) (or (= ?x null) (= (PO_LT (typeof ?x) ?t) true_term))))))
-(declare-fun asField (Int Int) Int)
-(assert (forall ((?f Int) (?t Int) (?x Int)) (= (is (S_select (asField ?f ?t) ?x) ?t) true_term)))
-(declare-fun asElems (Int) Int)
-(assert (forall ((?e Int) (?a Int) (?i Int)) (= (is (S_select (S_select (asElems ?e) ?a) ?i) (elemtype (typeof ?a))) true_term)))
-(declare-fun vAllocTime (Int) Int)
-(declare-fun isAllocated (Int Int) Int)
-(assert (forall ((?x Int) (?a0 Int)) (= (= (isAllocated ?x ?a0) true_term) (< (vAllocTime ?x) ?a0))))
-(declare-fun fClosedTime (Int) Int)
-(assert (forall ((?x Int) (?f Int) (?a0 Int)) (=> (and (< (fClosedTime ?f) ?a0) (= (isAllocated ?x ?a0) true_term)) (= (isAllocated (S_select ?f ?x) ?a0) true_term))))
-(declare-fun eClosedTime (Int) Int)
-(assert (forall ((?a Int) (?e Int) (?i Int) (?a0 Int)) (=> (and (< (eClosedTime ?e) ?a0) (= (isAllocated ?a ?a0) true_term)) (= (isAllocated (S_select (S_select ?e ?a) ?i) ?a0) true_term))))
-(declare-fun asLockSet (Int) Int)
-(declare-fun max (Int) Int)
-(assert (forall ((?S Int)) (let ((?v_0 (asLockSet ?S))) (= (S_select ?v_0 (max ?v_0)) true_term))))
-(assert (forall ((?S Int)) (= (S_select (asLockSet ?S) null) true_term)))
-(declare-fun lockLE (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (lockLE ?x ?y) true_term) (<= ?x ?y))))
-(declare-fun lockLT (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (lockLT ?x ?y) true_term) (< ?x ?y))))
-(assert (forall ((?S Int) (?mu Int)) (let ((?v_0 (asLockSet ?S))) (=> (= (S_select ?v_0 ?mu) true_term) (= (lockLE ?mu (max ?v_0)) true_term)))))
-(assert (forall ((?x Int)) (=> (= (PO_LT (typeof ?x) T_java_lang_Object) true_term) (= (lockLE null ?x) true_term))))
-(declare-fun arrayLength (Int) Int)
-(assert (forall ((?a Int)) (let ((?v_0 (arrayLength ?a))) (and (<= 0 ?v_0) (= (is ?v_0 T_int) true_term)))))
-(declare-fun arrayFresh (Int Int Int Int Int Int Int) Int)
-(declare-fun arrayShapeMore (Int Int) Int)
-(declare-fun arrayParent (Int) Int)
-(declare-fun arrayPosition (Int) Int)
-(assert (forall ((?a Int) (?a0 Int) (?b0 Int) (?e Int) (?n Int) (?s Int) (?T Int) (?v Int)) (= (= (arrayFresh ?a ?a0 ?b0 ?e (arrayShapeMore ?n ?s) ?T ?v) true_term) (and (<= ?a0 (vAllocTime ?a)) (= (isAllocated ?a ?b0) true_term) (not (= ?a null)) (= (typeof ?a) ?T) (= (arrayLength ?a) ?n) (forall ((?i Int)) (let ((?v_0 (S_select (S_select ?e ?a) ?i))) (and (= (arrayFresh ?v_0 ?a0 ?b0 ?e ?s (elemtype ?T) ?v) true_term) (= (arrayParent ?v_0) ?a) (= (arrayPosition ?v_0) ?i))))))))
-(declare-fun arrayShapeOne (Int) Int)
-(assert (forall ((?a Int) (?a0 Int) (?b0 Int) (?e Int) (?n Int) (?T Int) (?v Int)) (= (= (arrayFresh ?a ?a0 ?b0 ?e (arrayShapeOne ?n) ?T ?v) true_term) (and (<= ?a0 (vAllocTime ?a)) (= (isAllocated ?a ?b0) true_term) (not (= ?a null)) (= (typeof ?a) ?T) (= (arrayLength ?a) ?n) (forall ((?i Int)) (= (S_select (S_select ?e ?a) ?i) ?v))))))
-(declare-fun arrayType () Int)
-(assert (= arrayType (asChild arrayType T_java_lang_Object)))
-(assert (forall ((?t Int)) (= (PO_LT (array ?t) arrayType) true_term)))
-(declare-fun isNewArray (Int) Int)
-(assert (forall ((?s Int)) (=> (= true_term (isNewArray ?s)) (= (PO_LT (typeof ?s) arrayType) true_term))))
-(declare-fun boolAnd (Int Int) Int)
-(assert (forall ((?a Int) (?b Int)) (= (= (boolAnd ?a ?b) true_term) (and (= ?a true_term) (= ?b true_term)))))
-(declare-fun boolEq (Int Int) Int)
-(assert (forall ((?a Int) (?b Int)) (= (= (boolEq ?a ?b) true_term) (= (= ?a true_term) (= ?b true_term)))))
-(declare-fun boolImplies (Int Int) Int)
-(assert (forall ((?a Int) (?b Int)) (= (= (boolImplies ?a ?b) true_term) (=> (= ?a true_term) (= ?b true_term)))))
-(declare-fun boolNE (Int Int) Int)
-(assert (forall ((?a Int) (?b Int)) (= (= (boolNE ?a ?b) true_term) (not (= (= ?a true_term) (= ?b true_term))))))
-(declare-fun boolNot (Int) Int)
-(assert (forall ((?a Int)) (= (= (boolNot ?a) true_term) (not (= ?a true_term)))))
-(declare-fun boolOr (Int Int) Int)
-(assert (forall ((?a Int) (?b Int)) (= (= (boolOr ?a ?b) true_term) (or (= ?a true_term) (= ?b true_term)))))
-(declare-fun integralEQ (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (integralEQ ?x ?y) true_term) (= ?x ?y))))
-(declare-fun stringCat (Int Int) Int)
-(declare-fun T_java_lang_String () Int)
-(assert (forall ((?x Int) (?y Int)) (let ((?v_0 (stringCat ?x ?y))) (and (not (= ?v_0 null)) (= (PO_LT (typeof ?v_0) T_java_lang_String) true_term)))))
-(declare-fun integralGE (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (integralGE ?x ?y) true_term) (>= ?x ?y))))
-(declare-fun integralGT (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (integralGT ?x ?y) true_term) (> ?x ?y))))
-(declare-fun integralLE (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (integralLE ?x ?y) true_term) (<= ?x ?y))))
-(declare-fun integralLT (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (integralLT ?x ?y) true_term) (< ?x ?y))))
-(declare-fun integralNE (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (integralNE ?x ?y) true_term) (not (= ?x ?y)))))
-(declare-fun refEQ (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (refEQ ?x ?y) true_term) (= ?x ?y))))
-(declare-fun refNE (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (refNE ?x ?y) true_term) (not (= ?x ?y)))))
-(declare-fun nonnullelements (Int Int) Int)
-(assert (forall ((?x Int) (?e Int)) (= (= (nonnullelements ?x ?e) true_term) (and (not (= ?x null)) (forall ((?i Int)) (=> (and (<= 0 ?i) (< ?i (arrayLength ?x))) (not (= (S_select (S_select ?e ?x) ?i) null))))))))
-(declare-fun classLiteral (Int) Int)
-(declare-fun T_java_lang_Class () Int)
-(declare-fun alloc () Int)
-(assert (forall ((?t Int)) (let ((?v_0 (classLiteral ?t))) (and (not (= ?v_0 null)) (= (is ?v_0 T_java_lang_Class) true_term) (= (isAllocated ?v_0 alloc) true_term)))))
-(declare-fun integralAnd (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (=> (or (<= 0 ?x) (<= 0 ?y)) (<= 0 (integralAnd ?x ?y)))))
-(assert (forall ((?x Int) (?y Int)) (=> (<= 0 ?x) (<= (integralAnd ?x ?y) ?x))))
-(assert (forall ((?x Int) (?y Int)) (=> (<= 0 ?y) (<= (integralAnd ?x ?y) ?y))))
-(declare-fun integralOr (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (let ((?v_0 (integralOr ?x ?y))) (=> (and (<= 0 ?x) (<= 0 ?y)) (and (<= ?x ?v_0) (<= ?y ?v_0))))))
-(declare-fun integralXor (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (=> (and (<= 0 ?x) (<= 0 ?y)) (<= 0 (integralXor ?x ?y)))))
-(declare-fun intShiftL (Int Int) Int)
-(assert (forall ((?n Int)) (=> (and (<= 0 ?n) (< ?n 31)) (<= 1 (intShiftL 1 ?n)))))
-(declare-fun longShiftL (Int Int) Int)
-(assert (forall ((?n Int)) (=> (and (<= 0 ?n) (< ?n 63)) (<= 1 (longShiftL 1 ?n)))))
-(assert true)
-(declare-fun T_javafe_tc_MethodDeclVec () Int)
-(declare-fun T_javafe_ast_VarDeclStmt () Int)
-(declare-fun T_javafe_ast_Stmt () Int)
-(declare-fun T_javafe_ast_BinaryExpr () Int)
-(declare-fun T_javafe_ast_Expr () Int)
-(declare-fun T_java_lang_Comparable () Int)
-(declare-fun T_javafe_ast_BranchStmt () Int)
-(declare-fun T_javafe_ast_ClassLiteral () Int)
-(declare-fun T_javafe_ast_ConstructorDecl () Int)
-(declare-fun T_javafe_ast_RoutineDecl () Int)
-(declare-fun T_javafe_ast_ArrayRefExpr () Int)
-(declare-fun T_java_lang_Long () Int)
-(declare-fun T_java_lang_Number () Int)
-(declare-fun T_javafe_ast_AmbiguousMethodInvocation () Int)
-(declare-fun T_javafe_tc_TypeSig () Int)
-(declare-fun T_javafe_ast_Type () Int)
-(declare-fun T_javafe_ast_SimpleName () Int)
-(declare-fun T_javafe_ast_Name () Int)
-(declare-fun T_javafe_ast_WhileStmt () Int)
-(declare-fun T_javafe_ast_SwitchLabel () Int)
-(declare-fun T_javafe_ast_VariableAccess () Int)
-(declare-fun T_javafe_ast_DoStmt () Int)
-(declare-fun T_javafe_ast_VarInit () Int)
-(declare-fun T_javafe_tc_Env () Int)
-(declare-fun T_javafe_ast_ASTNode () Int)
-(declare-fun T_javafe_ast_OnDemandImportDecl () Int)
-(declare-fun T_javafe_ast_ImportDecl () Int)
-(declare-fun T_java_io_Serializable () Int)
-(declare-fun T_javafe_ast_ParenExpr () Int)
-(declare-fun T_javafe_ast_GenericVarDecl () Int)
-(declare-fun T_javafe_ast_ContinueStmt () Int)
-(declare-fun T_javafe_ast_InitBlock () Int)
-(declare-fun T_javafe_ast_TypeDeclElem () Int)
-(declare-fun T_javafe_ast_NewArrayExpr () Int)
-(declare-fun T_javafe_ast_TypeObjectDesignator () Int)
-(declare-fun T_javafe_ast_ObjectDesignator () Int)
-(declare-fun T_javafe_ast_Visitor () Int)
-(declare-fun T_java_lang_Exception () Int)
-(declare-fun T_java_lang_Throwable () Int)
-(declare-fun T_javafe_ast_ConstructorInvocation () Int)
-(declare-fun T_javafe_ast_ExprVec () Int)
-(declare-fun T_javafe_ast_GenericBlockStmt () Int)
-(declare-fun T_javafe_ast_TryCatchStmt () Int)
-(declare-fun T_javafe_ast_EvalStmt () Int)
-(declare-fun T_java_util_Map () Int)
-(declare-fun T_java_util_EscjavaKeyValue () Int)
-(declare-fun T_java_lang_Integer () Int)
-(declare-fun T_javafe_ast_FieldDecl () Int)
-(declare-fun T_javafe_ast_ClassDecl () Int)
-(declare-fun T_javafe_ast_TypeDecl () Int)
-(declare-fun T_javafe_ast_TypeName () Int)
-(declare-fun T_javafe_ast_ArrayInit () Int)
-(declare-fun T_javafe_ast_InstanceOfExpr () Int)
-(declare-fun T_javafe_ast_IfStmt () Int)
-(declare-fun T_javafe_ast_SwitchStmt () Int)
-(declare-fun T_javafe_ast_ThrowStmt () Int)
-(declare-fun T_javafe_ast_ASTDecoration () Int)
-(declare-fun T_javafe_ast_MethodInvocation () Int)
-(declare-fun T_javafe_ast_LiteralExpr () Int)
-(declare-fun T_javafe_ast_IdentifierVec () Int)
-(declare-fun T_javafe_util_Location () Int)
-(declare-fun T_javafe_ast_SkipStmt () Int)
-(declare-fun T_javafe_ast_AmbiguousVariableAccess () Int)
-(declare-fun T_javafe_ast_ClassDeclStmt () Int)
-(declare-fun T_java_lang_Double () Int)
-(declare-fun T_javafe_ast_UnaryExpr () Int)
-(declare-fun T_javafe_ast_SuperObjectDesignator () Int)
-(declare-fun T_java_lang_RuntimeException () Int)
-(declare-fun T_javafe_ast_BreakStmt () Int)
-(declare-fun T_javafe_ast_NewInstanceExpr () Int)
-(declare-fun T_javafe_ast_MethodDecl () Int)
-(declare-fun T_java_lang_Boolean () Int)
-(declare-fun T_javafe_ast_OperatorTags () Int)
-(declare-fun T_javafe_ast_GeneratedTags () Int)
-(declare-fun T_javafe_ast_Identifier () Int)
-(declare-fun T_javafe_ast_CompoundName () Int)
-(declare-fun T_javafe_ast_SynchronizeStmt () Int)
-(declare-fun T_javafe_ast_TryFinallyStmt () Int)
-(declare-fun T_javafe_ast_FieldAccess () Int)
-(declare-fun T_javafe_ast_LocalVarDecl () Int)
-(declare-fun T_javafe_ast_PrimitiveType () Int)
-(declare-fun T_javafe_ast_SingleTypeImportDecl () Int)
-(declare-fun T_javafe_ast_LabelStmt () Int)
-(declare-fun T_javafe_util_Assert () Int)
-(declare-fun T_javafe_ast_CondExpr () Int)
-(declare-fun T_javafe_ast_CompilationUnit () Int)
-(declare-fun T_java_lang_Float () Int)
-(declare-fun T_javafe_ast_VisitorArgResult () Int)
-(declare-fun T_javafe_ast_CatchClause () Int)
-(declare-fun T_javafe_parser_TagConstants () Int)
-(declare-fun T_javafe_ast_TagConstants () Int)
-(declare-fun T_javafe_ast_ExprObjectDesignator () Int)
-(declare-fun T_javafe_tc_TagConstants () Int)
-(declare-fun T_javafe_ast_BlockStmt () Int)
-(declare-fun T_javafe_ast_ReturnStmt () Int)
-(declare-fun T_javafe_tc_FieldDeclVec () Int)
-(declare-fun T_java_lang_IndexOutOfBoundsException () Int)
-(declare-fun T_java_util_Hashtable () Int)
-(declare-fun T_java_util_Dictionary () Int)
-(declare-fun T_javafe_ast_FormalParaDecl () Int)
-(declare-fun T_javafe_ast_ThisExpr () Int)
-(declare-fun T_javafe_ast_InterfaceDecl () Int)
-(declare-fun T_javafe_ast_ArrayType () Int)
-(declare-fun T_javafe_ast_CastExpr () Int)
-(declare-fun T_javafe_ast_ForStmt () Int)
-(declare-fun DIST_ZERO_1 () Int)
-(declare-fun T__TYPE () Int)
-(declare-fun VOIDTYPE_14_33_26 () Int)
-(declare-fun INSTANCEOFEXPR_16_52_7 () Int)
-(declare-fun AND_15_20_26 () Int)
-(declare-fun ASGURSHIFT_15_48_26 () Int)
-(declare-fun IFSTMT_16_38_7 () Int)
-(declare-fun URSHIFT_15_32_26 () Int)
-(declare-fun ARRAYTYPE_16_65_7 () Int)
-(declare-fun FORMALPARADECL_16_24_7 () Int)
-(declare-fun DOUBLETYPE_14_32_26 () Int)
-(declare-fun CONDEXPR_16_51_7 () Int)
-(declare-fun TYPEDECLELEMPRAGMA_30_27_26 () Int)
-(declare-fun OR_15_19_26 () Int)
-(declare-fun ASGRSHIFT_15_47_26 () Int)
-(declare-fun LABELSTMT_16_37_7 () Int)
-(declare-fun RSHIFT_15_31_26 () Int)
-(declare-fun TYPENAME_16_64_7 () Int)
-(declare-fun FIELDDECL_16_23_7 () Int)
-(declare-fun FLOATTYPE_14_31_26 () Int)
-(declare-fun NEWARRAYEXPR_16_50_7 () Int)
-(declare-fun ASGLSHIFT_15_46_26 () Int)
-(declare-fun CONTINUESTMT_16_36_7 () Int)
-(declare-fun STMTPRAGMA_30_26_26 () Int)
-(declare-fun LSHIFT_15_30_26 () Int)
-(declare-fun NULLLIT_14_45_26 () Int)
-(declare-fun SUPEROBJECTDESIGNATOR_16_63_7 () Int)
-(declare-fun LOCALVARDECL_16_22_7 () Int)
-(declare-fun punctuationStrings_30_134_22 () Int)
-(declare-fun POSTFIXDEC_15_63_26 () Int)
-(declare-fun CHARTYPE_14_30_26 () Int)
-(declare-fun NEWINSTANCEEXPR_16_49_7 () Int)
-(declare-fun ASGSUB_15_45_26 () Int)
-(declare-fun BREAKSTMT_16_35_7 () Int)
-(declare-fun otherStrings_30_193_30 () Int)
-(declare-fun LT_15_29_26 () Int)
-(declare-fun MODIFIERPRAGMA_30_25_26 () Int)
-(declare-fun STRINGLIT_14_44_26 () Int)
-(declare-fun TYPEOBJECTDESIGNATOR_16_62_7 () Int)
-(declare-fun INITBLOCK_16_21_7 () Int)
-(declare-fun noTokens_30_212_27 () Int)
-(declare-fun POSTFIXINC_15_62_26 () Int)
-(declare-fun LONGTYPE_14_29_26 () Int)
-(declare-fun ARRAYREFEXPR_16_48_7 () Int)
-(declare-fun ASGADD_15_44_26 () Int)
-(declare-fun THROWSTMT_16_34_7 () Int)
-(declare-fun TYPESIG_29_6_28 () Int)
-(declare-fun LE_15_28_26 () Int)
-(declare-fun DOUBLELIT_14_43_26 () Int)
-(declare-fun EXPROBJECTDESIGNATOR_16_61_7 () Int)
-(declare-fun METHODDECL_16_20_7 () Int)
-(declare-fun DEC_15_59_26 () Int)
-(declare-fun LEXICALPRAGMA_30_24_26 () Int)
-(declare-fun INTTYPE_14_28_26 () Int)
-(declare-fun THISEXPR_16_47_7 () Int)
-(declare-fun ASGREM_15_43_26 () Int)
-(declare-fun RETURNSTMT_16_33_7 () Int)
-(declare-fun LAST_KEYWORD_30_103_26 () Int)
-(declare-fun GT_15_27_26 () Int)
-(declare-fun FLOATLIT_14_42_26 () Int)
-(declare-fun CLASSLITERAL_16_60_7 () Int)
-(declare-fun CONSTRUCTORDECL_16_19_7 () Int)
-(declare-fun FIRST_KEYWORD_30_51_26 () Int)
-(declare-fun INC_15_58_26 () Int)
-(declare-fun BOOLEANTYPE_14_27_26 () Int)
-(declare-fun ARRAYINIT_16_46_7 () Int)
-(declare-fun ASGDIV_15_42_26 () Int)
-(declare-fun EVALSTMT_16_32_7 () Int)
-(declare-fun GE_15_26_26 () Int)
-(declare-fun CHARLIT_14_41_26 () Int)
-(declare-fun METHODINVOCATION_16_59_7 () Int)
-(declare-fun INTERFACEDECL_16_18_7 () Int)
-(declare-fun BITNOT_15_57_26 () Int)
-(declare-fun IDENT_14_25_26 () Int)
-(declare-fun CATCHCLAUSE_16_45_7 () Int)
-(declare-fun NULL_30_82_26 () Int)
-(declare-fun ASGMUL_15_41_26 () Int)
-(declare-fun SYNCHRONIZESTMT_16_31_7 () Int)
-(declare-fun EQ_15_25_26 () Int)
-(declare-fun LONGLIT_14_40_26 () Int)
-(declare-fun AMBIGUOUSMETHODINVOCATION_16_58_7 () Int)
-(declare-fun CLASSDECL_16_17_7 () Int)
-(declare-fun NOT_15_56_26 () Int)
-(declare-fun CONSTRUCTORINVOCATION_16_44_7 () Int)
-(declare-fun ASSIGN_15_40_26 () Int)
-(declare-fun DOSTMT_16_30_7 () Int)
-(declare-fun NE_15_24_26 () Int)
-(declare-fun INTLIT_14_39_26 () Int)
-(declare-fun FIELDACCESS_16_57_7 () Int)
-(declare-fun ONDEMANDIMPORTDECL_16_16_7 () Int)
-(declare-fun UNARYSUB_15_55_26 () Int)
-(declare-fun TRYCATCHSTMT_16_43_7 () Int)
-(declare-fun STAR_15_37_26 () Int)
-(declare-fun WHILESTMT_16_29_7 () Int)
-(declare-fun BITAND_15_23_26 () Int)
-(declare-fun BOOLEANLIT_14_38_26 () Int)
-(declare-fun VARIABLEACCESS_16_56_7 () Int)
-(declare-fun SINGLETYPEIMPORTDECL_16_15_7 () Int)
-(declare-fun UNARYADD_15_54_26 () Int)
-(declare-fun TRYFINALLYSTMT_16_42_7 () Int)
-(declare-fun MOD_15_36_26 () Int)
-(declare-fun otherCodes_30_202_27 () Int)
-(declare-fun CLASSDECLSTMT_16_28_7 () Int)
-(declare-fun BITXOR_15_22_26 () Int)
-(declare-fun SHORTTYPE_14_36_26 () Int)
-(declare-fun AMBIGUOUSVARIABLEACCESS_16_55_7 () Int)
-(declare-fun COMPILATIONUNIT_16_14_7 () Int)
-(declare-fun ASGBITXOR_15_51_26 () Int)
-(declare-fun punctuationCodes_30_164_19 () Int)
-(declare-fun NULL_13_60_26 () Int)
-(declare-fun SWITCHLABEL_16_41_7 () Int)
-(declare-fun DIV_15_35_26 () Int)
-(declare-fun VARDECLSTMT_16_27_7 () Int)
-(declare-fun BITOR_15_21_26 () Int)
-(declare-fun BYTETYPE_14_35_26 () Int)
-(declare-fun PARENEXPR_16_54_7 () Int)
-(declare-fun ASGBITOR_15_50_26 () Int)
-(declare-fun SKIPSTMT_16_40_7 () Int)
-(declare-fun SUB_15_34_26 () Int)
-(declare-fun COMPOUNDNAME_16_67_7 () Int)
-(declare-fun SWITCHSTMT_16_26_7 () Int)
-(declare-fun keywordStrings_30_181_30 () Int)
-(declare-fun NULLTYPE_14_34_26 () Int)
-(declare-fun CASTEXPR_16_53_7 () Int)
-(declare-fun ASGBITAND_15_49_26 () Int)
-(declare-fun FORSTMT_16_39_7 () Int)
-(declare-fun ADD_15_33_26 () Int)
-(declare-fun SIMPLENAME_16_66_7 () Int)
-(declare-fun BLOCKSTMT_16_25_7 () Int)
-(declare-fun TYPEMODIFIERPRAGMA_30_28_26 () Int)
-(assert (let ((?v_0 (array T_java_lang_String)) (?v_1 (array T_int))) (and (= (PO_LT T_javafe_tc_MethodDeclVec T_java_lang_Object) true_term) (= T_javafe_tc_MethodDeclVec (asChild T_javafe_tc_MethodDeclVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_VarDeclStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_VarDeclStmt (asChild T_javafe_ast_VarDeclStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_BinaryExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_BinaryExpr (asChild T_javafe_ast_BinaryExpr T_javafe_ast_Expr)) (= (PO_LT T_java_lang_Comparable T_java_lang_Object) true_term) (= (PO_LT T_javafe_ast_BranchStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_BranchStmt (asChild T_javafe_ast_BranchStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_ClassLiteral T_javafe_ast_Expr) true_term) (= T_javafe_ast_ClassLiteral (asChild T_javafe_ast_ClassLiteral T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_ConstructorDecl T_javafe_ast_RoutineDecl) true_term) (= T_javafe_ast_ConstructorDecl (asChild T_javafe_ast_ConstructorDecl T_javafe_ast_RoutineDecl)) (= (PO_LT T_javafe_ast_ArrayRefExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_ArrayRefExpr (asChild T_javafe_ast_ArrayRefExpr T_javafe_ast_Expr)) (= (PO_LT T_java_lang_Long T_java_lang_Number) true_term) (= T_java_lang_Long (asChild T_java_lang_Long T_java_lang_Number)) (forall ((?t Int)) (= (= (PO_LT ?t T_java_lang_Long) true_term) (= ?t T_java_lang_Long))) (= (PO_LT T_java_lang_Long T_java_lang_Comparable) true_term) (= (PO_LT T_javafe_ast_AmbiguousMethodInvocation T_javafe_ast_Expr) true_term) (= T_javafe_ast_AmbiguousMethodInvocation (asChild T_javafe_ast_AmbiguousMethodInvocation T_javafe_ast_Expr)) (= (PO_LT T_javafe_tc_TypeSig T_javafe_ast_Type) true_term) (= T_javafe_tc_TypeSig (asChild T_javafe_tc_TypeSig T_javafe_ast_Type)) (= (PO_LT T_javafe_ast_SimpleName T_javafe_ast_Name) true_term) (= T_javafe_ast_SimpleName (asChild T_javafe_ast_SimpleName T_javafe_ast_Name)) (= (PO_LT T_javafe_ast_WhileStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_WhileStmt (asChild T_javafe_ast_WhileStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_SwitchLabel T_javafe_ast_Stmt) true_term) (= T_javafe_ast_SwitchLabel (asChild T_javafe_ast_SwitchLabel T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_VariableAccess T_javafe_ast_Expr) true_term) (= T_javafe_ast_VariableAccess (asChild T_javafe_ast_VariableAccess T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_DoStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_DoStmt (asChild T_javafe_ast_DoStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_Expr T_javafe_ast_VarInit) true_term) (= T_javafe_ast_Expr (asChild T_javafe_ast_Expr T_javafe_ast_VarInit)) (= (PO_LT T_javafe_tc_Env T_java_lang_Object) true_term) (= T_javafe_tc_Env (asChild T_javafe_tc_Env T_java_lang_Object)) (= (PO_LT T_javafe_ast_VarInit T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_VarInit (asChild T_javafe_ast_VarInit T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_OnDemandImportDecl T_javafe_ast_ImportDecl) true_term) (= T_javafe_ast_OnDemandImportDecl (asChild T_javafe_ast_OnDemandImportDecl T_javafe_ast_ImportDecl)) (= (PO_LT T_java_lang_String T_java_lang_Object) true_term) (= T_java_lang_String (asChild T_java_lang_String T_java_lang_Object)) (forall ((?t Int)) (= (= (PO_LT ?t T_java_lang_String) true_term) (= ?t T_java_lang_String))) (= (PO_LT T_java_lang_String T_java_io_Serializable) true_term) (= (PO_LT T_java_lang_String T_java_lang_Comparable) true_term) (= (PO_LT T_javafe_ast_ParenExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_ParenExpr (asChild T_javafe_ast_ParenExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_GenericVarDecl T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_GenericVarDecl (asChild T_javafe_ast_GenericVarDecl T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_ContinueStmt T_javafe_ast_BranchStmt) true_term) (= T_javafe_ast_ContinueStmt (asChild T_javafe_ast_ContinueStmt T_javafe_ast_BranchStmt)) (= (PO_LT T_javafe_ast_Type T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_Type (asChild T_javafe_ast_Type T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_InitBlock T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_InitBlock (asChild T_javafe_ast_InitBlock T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_InitBlock T_javafe_ast_TypeDeclElem) true_term) (= (PO_LT T_javafe_ast_NewArrayExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_NewArrayExpr (asChild T_javafe_ast_NewArrayExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_TypeObjectDesignator T_javafe_ast_ObjectDesignator) true_term) (= T_javafe_ast_TypeObjectDesignator (asChild T_javafe_ast_TypeObjectDesignator T_javafe_ast_ObjectDesignator)) (= (PO_LT T_javafe_ast_Visitor T_java_lang_Object) true_term) (= T_javafe_ast_Visitor (asChild T_javafe_ast_Visitor T_java_lang_Object)) (= (PO_LT T_java_lang_Exception T_java_lang_Throwable) true_term) (= T_java_lang_Exception (asChild T_java_lang_Exception T_java_lang_Throwable)) (= (PO_LT T_javafe_ast_ConstructorInvocation T_javafe_ast_Stmt) true_term) (= T_javafe_ast_ConstructorInvocation (asChild T_javafe_ast_ConstructorInvocation T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_ExprVec T_java_lang_Object) true_term) (= T_javafe_ast_ExprVec (asChild T_javafe_ast_ExprVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_GenericBlockStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_GenericBlockStmt (asChild T_javafe_ast_GenericBlockStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_TryCatchStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_TryCatchStmt (asChild T_javafe_ast_TryCatchStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_EvalStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_EvalStmt (asChild T_javafe_ast_EvalStmt T_javafe_ast_Stmt)) (= (PO_LT T_java_util_Map T_java_lang_Object) true_term) (= (PO_LT T_java_util_Map T_java_util_EscjavaKeyValue) true_term) (= (PO_LT T_java_lang_Integer T_java_lang_Number) true_term) (= T_java_lang_Integer (asChild T_java_lang_Integer T_java_lang_Number)) (forall ((?t Int)) (= (= (PO_LT ?t T_java_lang_Integer) true_term) (= ?t T_java_lang_Integer))) (= (PO_LT T_java_lang_Integer T_java_lang_Comparable) true_term) (= (PO_LT T_javafe_ast_FieldDecl T_javafe_ast_GenericVarDecl) true_term) (= T_javafe_ast_FieldDecl (asChild T_javafe_ast_FieldDecl T_javafe_ast_GenericVarDecl)) (= (PO_LT T_javafe_ast_FieldDecl T_javafe_ast_TypeDeclElem) true_term) (= (PO_LT T_javafe_ast_ClassDecl T_javafe_ast_TypeDecl) true_term) (= T_javafe_ast_ClassDecl (asChild T_javafe_ast_ClassDecl T_javafe_ast_TypeDecl)) (= (PO_LT T_javafe_ast_TypeName T_javafe_ast_Type) true_term) (= T_javafe_ast_TypeName (asChild T_javafe_ast_TypeName T_javafe_ast_Type)) (= (PO_LT T_javafe_ast_ArrayInit T_javafe_ast_VarInit) true_term) (= T_javafe_ast_ArrayInit (asChild T_javafe_ast_ArrayInit T_javafe_ast_VarInit)) (= (PO_LT T_javafe_ast_InstanceOfExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_InstanceOfExpr (asChild T_javafe_ast_InstanceOfExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_IfStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_IfStmt (asChild T_javafe_ast_IfStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_ImportDecl T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_ImportDecl (asChild T_javafe_ast_ImportDecl T_javafe_ast_ASTNode)) (= (PO_LT T_java_io_Serializable T_java_lang_Object) true_term) (= (PO_LT T_javafe_ast_SwitchStmt T_javafe_ast_GenericBlockStmt) true_term) (= T_javafe_ast_SwitchStmt (asChild T_javafe_ast_SwitchStmt T_javafe_ast_GenericBlockStmt)) (= (PO_LT T_javafe_ast_ObjectDesignator T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_ObjectDesignator (asChild T_javafe_ast_ObjectDesignator T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_ThrowStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_ThrowStmt (asChild T_javafe_ast_ThrowStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_ASTDecoration T_java_lang_Object) true_term) (= T_javafe_ast_ASTDecoration (asChild T_javafe_ast_ASTDecoration T_java_lang_Object)) (= (PO_LT T_java_lang_Number T_java_lang_Object) true_term) (= T_java_lang_Number (asChild T_java_lang_Number T_java_lang_Object)) (= (PO_LT T_java_lang_Number T_java_io_Serializable) true_term) (= (PO_LT T_javafe_ast_MethodInvocation T_javafe_ast_Expr) true_term) (= T_javafe_ast_MethodInvocation (asChild T_javafe_ast_MethodInvocation T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_RoutineDecl T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_RoutineDecl (asChild T_javafe_ast_RoutineDecl T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_RoutineDecl T_javafe_ast_TypeDeclElem) true_term) (= (PO_LT T_javafe_ast_LiteralExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_LiteralExpr (asChild T_javafe_ast_LiteralExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_IdentifierVec T_java_lang_Object) true_term) (= T_javafe_ast_IdentifierVec (asChild T_javafe_ast_IdentifierVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_TypeDeclElem T_java_lang_Object) true_term) (= (PO_LT T_javafe_ast_Name T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_Name (asChild T_javafe_ast_Name T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_util_Location T_java_lang_Object) true_term) (= T_javafe_util_Location (asChild T_javafe_util_Location T_java_lang_Object)) (= (PO_LT T_javafe_ast_SkipStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_SkipStmt (asChild T_javafe_ast_SkipStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_AmbiguousVariableAccess T_javafe_ast_Expr) true_term) (= T_javafe_ast_AmbiguousVariableAccess (asChild T_javafe_ast_AmbiguousVariableAccess T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_ClassDeclStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_ClassDeclStmt (asChild T_javafe_ast_ClassDeclStmt T_javafe_ast_Stmt)) (= (PO_LT T_java_lang_Double T_java_lang_Number) true_term) (= T_java_lang_Double (asChild T_java_lang_Double T_java_lang_Number)) (forall ((?t Int)) (= (= (PO_LT ?t T_java_lang_Double) true_term) (= ?t T_java_lang_Double))) (= (PO_LT T_java_lang_Double T_java_lang_Comparable) true_term) (= (PO_LT T_javafe_ast_UnaryExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_UnaryExpr (asChild T_javafe_ast_UnaryExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_SuperObjectDesignator T_javafe_ast_ObjectDesignator) true_term) (= T_javafe_ast_SuperObjectDesignator (asChild T_javafe_ast_SuperObjectDesignator T_javafe_ast_ObjectDesignator)) (= (PO_LT T_java_lang_RuntimeException T_java_lang_Exception) true_term) (= T_java_lang_RuntimeException (asChild T_java_lang_RuntimeException T_java_lang_Exception)) (= (PO_LT T_java_lang_Cloneable T_java_lang_Object) true_term) (= (PO_LT T_javafe_ast_BreakStmt T_javafe_ast_BranchStmt) true_term) (= T_javafe_ast_BreakStmt (asChild T_javafe_ast_BreakStmt T_javafe_ast_BranchStmt)) (= (PO_LT T_java_lang_Throwable T_java_lang_Object) true_term) (= T_java_lang_Throwable (asChild T_java_lang_Throwable T_java_lang_Object)) (= (PO_LT T_java_lang_Throwable T_java_io_Serializable) true_term) (= (PO_LT T_javafe_ast_NewInstanceExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_NewInstanceExpr (asChild T_javafe_ast_NewInstanceExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_MethodDecl T_javafe_ast_RoutineDecl) true_term) (= T_javafe_ast_MethodDecl (asChild T_javafe_ast_MethodDecl T_javafe_ast_RoutineDecl)) (= (PO_LT T_java_lang_Boolean T_java_lang_Object) true_term) (= T_java_lang_Boolean (asChild T_java_lang_Boolean T_java_lang_Object)) (forall ((?t Int)) (= (= (PO_LT ?t T_java_lang_Boolean) true_term) (= ?t T_java_lang_Boolean))) (= (PO_LT T_java_lang_Boolean T_java_io_Serializable) true_term) (= (PO_LT T_javafe_ast_OperatorTags T_java_lang_Object) true_term) (= T_javafe_ast_OperatorTags (asChild T_javafe_ast_OperatorTags T_java_lang_Object)) (= (PO_LT T_javafe_ast_OperatorTags T_javafe_ast_GeneratedTags) true_term) (= (PO_LT T_javafe_ast_Identifier T_java_lang_Object) true_term) (= T_javafe_ast_Identifier (asChild T_javafe_ast_Identifier T_java_lang_Object)) (forall ((?t Int)) (= (= (PO_LT ?t T_javafe_ast_Identifier) true_term) (= ?t T_javafe_ast_Identifier))) (= (PO_LT T_javafe_ast_Stmt T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_Stmt (asChild T_javafe_ast_Stmt T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_CompoundName T_javafe_ast_Name) true_term) (= T_javafe_ast_CompoundName (asChild T_javafe_ast_CompoundName T_javafe_ast_Name)) (= (PO_LT T_javafe_ast_SynchronizeStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_SynchronizeStmt (asChild T_javafe_ast_SynchronizeStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_TryFinallyStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_TryFinallyStmt (asChild T_javafe_ast_TryFinallyStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_FieldAccess T_javafe_ast_Expr) true_term) (= T_javafe_ast_FieldAccess (asChild T_javafe_ast_FieldAccess T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_ASTNode T_java_lang_Object) true_term) (= T_javafe_ast_ASTNode (asChild T_javafe_ast_ASTNode T_java_lang_Object)) (= (PO_LT T_javafe_ast_ASTNode T_java_lang_Cloneable) true_term) (= (PO_LT T_javafe_ast_LocalVarDecl T_javafe_ast_GenericVarDecl) true_term) (= T_javafe_ast_LocalVarDecl (asChild T_javafe_ast_LocalVarDecl T_javafe_ast_GenericVarDecl)) (= (PO_LT T_javafe_ast_TypeDecl T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_TypeDecl (asChild T_javafe_ast_TypeDecl T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_TypeDecl T_javafe_ast_TypeDeclElem) true_term) (= (PO_LT T_java_util_EscjavaKeyValue T_java_lang_Object) true_term) (= (PO_LT T_javafe_ast_GeneratedTags T_java_lang_Object) true_term) (= (PO_LT T_javafe_ast_PrimitiveType T_javafe_ast_Type) true_term) (= T_javafe_ast_PrimitiveType (asChild T_javafe_ast_PrimitiveType T_javafe_ast_Type)) (= (PO_LT T_javafe_ast_SingleTypeImportDecl T_javafe_ast_ImportDecl) true_term) (= T_javafe_ast_SingleTypeImportDecl (asChild T_javafe_ast_SingleTypeImportDecl T_javafe_ast_ImportDecl)) (= (PO_LT T_javafe_ast_LabelStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_LabelStmt (asChild T_javafe_ast_LabelStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_util_Assert T_java_lang_Object) true_term) (= T_javafe_util_Assert (asChild T_javafe_util_Assert T_java_lang_Object)) (= (PO_LT T_javafe_ast_CondExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_CondExpr (asChild T_javafe_ast_CondExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_CompilationUnit T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_CompilationUnit (asChild T_javafe_ast_CompilationUnit T_javafe_ast_ASTNode)) (= (PO_LT T_java_lang_Float T_java_lang_Number) true_term) (= T_java_lang_Float (asChild T_java_lang_Float T_java_lang_Number)) (forall ((?t Int)) (= (= (PO_LT ?t T_java_lang_Float) true_term) (= ?t T_java_lang_Float))) (= (PO_LT T_java_lang_Float T_java_lang_Comparable) true_term) (= (PO_LT T_javafe_ast_VisitorArgResult T_java_lang_Object) true_term) (= T_javafe_ast_VisitorArgResult (asChild T_javafe_ast_VisitorArgResult T_java_lang_Object)) (= (PO_LT T_javafe_ast_CatchClause T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_CatchClause (asChild T_javafe_ast_CatchClause T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_parser_TagConstants T_javafe_ast_TagConstants) true_term) (= T_javafe_parser_TagConstants (asChild T_javafe_parser_TagConstants T_javafe_ast_TagConstants)) (= (PO_LT T_javafe_ast_ExprObjectDesignator T_javafe_ast_ObjectDesignator) true_term) (= T_javafe_ast_ExprObjectDesignator (asChild T_javafe_ast_ExprObjectDesignator T_javafe_ast_ObjectDesignator)) (= (PO_LT T_javafe_tc_TagConstants T_javafe_parser_TagConstants) true_term) (= T_javafe_tc_TagConstants (asChild T_javafe_tc_TagConstants T_javafe_parser_TagConstants)) (= (PO_LT T_javafe_ast_BlockStmt T_javafe_ast_GenericBlockStmt) true_term) (= T_javafe_ast_BlockStmt (asChild T_javafe_ast_BlockStmt T_javafe_ast_GenericBlockStmt)) (= (PO_LT T_javafe_ast_ReturnStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_ReturnStmt (asChild T_javafe_ast_ReturnStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_tc_FieldDeclVec T_java_lang_Object) true_term) (= T_javafe_tc_FieldDeclVec (asChild T_javafe_tc_FieldDeclVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_TagConstants T_javafe_ast_OperatorTags) true_term) (= T_javafe_ast_TagConstants (asChild T_javafe_ast_TagConstants T_javafe_ast_OperatorTags)) (= (PO_LT T_java_lang_IndexOutOfBoundsException T_java_lang_RuntimeException) true_term) (= T_java_lang_IndexOutOfBoundsException (asChild T_java_lang_IndexOutOfBoundsException T_java_lang_RuntimeException)) (= (PO_LT T_java_util_Hashtable T_java_util_Dictionary) true_term) (= T_java_util_Hashtable (asChild T_java_util_Hashtable T_java_util_Dictionary)) (= (PO_LT T_java_util_Hashtable T_java_util_Map) true_term) (= (PO_LT T_java_util_Hashtable T_java_lang_Cloneable) true_term) (= (PO_LT T_java_util_Hashtable T_java_io_Serializable) true_term) (= (PO_LT T_javafe_ast_FormalParaDecl T_javafe_ast_GenericVarDecl) true_term) (= T_javafe_ast_FormalParaDecl (asChild T_javafe_ast_FormalParaDecl T_javafe_ast_GenericVarDecl)) (= (PO_LT T_javafe_ast_ThisExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_ThisExpr (asChild T_javafe_ast_ThisExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_InterfaceDecl T_javafe_ast_TypeDecl) true_term) (= T_javafe_ast_InterfaceDecl (asChild T_javafe_ast_InterfaceDecl T_javafe_ast_TypeDecl)) (= (PO_LT T_javafe_ast_ArrayType T_javafe_ast_Type) true_term) (= T_javafe_ast_ArrayType (asChild T_javafe_ast_ArrayType T_javafe_ast_Type)) (= (PO_LT T_java_util_Dictionary T_java_lang_Object) true_term) (= T_java_util_Dictionary (asChild T_java_util_Dictionary T_java_lang_Object)) (= (PO_LT T_java_util_Dictionary T_java_util_EscjavaKeyValue) true_term) (= (PO_LT T_javafe_ast_CastExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_CastExpr (asChild T_javafe_ast_CastExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_ForStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_ForStmt (asChild T_javafe_ast_ForStmt T_javafe_ast_Stmt)) (and (= arrayType (+ DIST_ZERO_1 0)) (= T_boolean (+ DIST_ZERO_1 1)) (= T_char (+ DIST_ZERO_1 2)) (= T_byte (+ DIST_ZERO_1 3)) (= T_short (+ DIST_ZERO_1 4)) (= T_int (+ DIST_ZERO_1 5)) (= T_long (+ DIST_ZERO_1 6)) (= T_float (+ DIST_ZERO_1 7)) (= T_double (+ DIST_ZERO_1 8)) (= T__TYPE (+ DIST_ZERO_1 9)) (= T_javafe_tc_MethodDeclVec (+ DIST_ZERO_1 10)) (= T_javafe_ast_VarDeclStmt (+ DIST_ZERO_1 11)) (= T_javafe_ast_BinaryExpr (+ DIST_ZERO_1 12)) (= T_java_lang_Comparable (+ DIST_ZERO_1 13)) (= T_javafe_ast_BranchStmt (+ DIST_ZERO_1 14)) (= T_javafe_ast_ClassLiteral (+ DIST_ZERO_1 15)) (= T_javafe_ast_ConstructorDecl (+ DIST_ZERO_1 16)) (= T_javafe_ast_ArrayRefExpr (+ DIST_ZERO_1 17)) (= T_java_lang_Long (+ DIST_ZERO_1 18)) (= T_javafe_ast_AmbiguousMethodInvocation (+ DIST_ZERO_1 19)) (= T_javafe_tc_TypeSig (+ DIST_ZERO_1 20)) (= T_javafe_ast_SimpleName (+ DIST_ZERO_1 21)) (= T_javafe_ast_WhileStmt (+ DIST_ZERO_1 22)) (= T_javafe_ast_SwitchLabel (+ DIST_ZERO_1 23)) (= T_javafe_ast_VariableAccess (+ DIST_ZERO_1 24)) (= T_javafe_ast_DoStmt (+ DIST_ZERO_1 25)) (= T_javafe_ast_Expr (+ DIST_ZERO_1 26)) (= T_javafe_tc_Env (+ DIST_ZERO_1 27)) (= T_javafe_ast_VarInit (+ DIST_ZERO_1 28)) (= T_javafe_ast_OnDemandImportDecl (+ DIST_ZERO_1 29)) (= T_java_lang_String (+ DIST_ZERO_1 30)) (= T_javafe_ast_ParenExpr (+ DIST_ZERO_1 31)) (= T_javafe_ast_GenericVarDecl (+ DIST_ZERO_1 32)) (= T_javafe_ast_ContinueStmt (+ DIST_ZERO_1 33)) (= T_javafe_ast_Type (+ DIST_ZERO_1 34)) (= T_javafe_ast_InitBlock (+ DIST_ZERO_1 35)) (= T_javafe_ast_NewArrayExpr (+ DIST_ZERO_1 36)) (= T_javafe_ast_TypeObjectDesignator (+ DIST_ZERO_1 37)) (= T_javafe_ast_Visitor (+ DIST_ZERO_1 38)) (= T_java_lang_Exception (+ DIST_ZERO_1 39)) (= T_javafe_ast_ConstructorInvocation (+ DIST_ZERO_1 40)) (= T_javafe_ast_ExprVec (+ DIST_ZERO_1 41)) (= T_javafe_ast_GenericBlockStmt (+ DIST_ZERO_1 42)) (= T_javafe_ast_TryCatchStmt (+ DIST_ZERO_1 43)) (= T_javafe_ast_EvalStmt (+ DIST_ZERO_1 44)) (= T_java_util_Map (+ DIST_ZERO_1 45)) (= T_java_lang_Integer (+ DIST_ZERO_1 46)) (= T_javafe_ast_FieldDecl (+ DIST_ZERO_1 47)) (= T_javafe_ast_ClassDecl (+ DIST_ZERO_1 48)) (= T_javafe_ast_TypeName (+ DIST_ZERO_1 49)) (= T_javafe_ast_ArrayInit (+ DIST_ZERO_1 50)) (= T_javafe_ast_InstanceOfExpr (+ DIST_ZERO_1 51)) (= T_javafe_ast_IfStmt (+ DIST_ZERO_1 52)) (= T_javafe_ast_ImportDecl (+ DIST_ZERO_1 53)) (= T_java_lang_Object (+ DIST_ZERO_1 54)) (= T_java_io_Serializable (+ DIST_ZERO_1 55)) (= T_javafe_ast_SwitchStmt (+ DIST_ZERO_1 56)) (= T_javafe_ast_ObjectDesignator (+ DIST_ZERO_1 57)) (= T_javafe_ast_ThrowStmt (+ DIST_ZERO_1 58)) (= T_javafe_ast_ASTDecoration (+ DIST_ZERO_1 59)) (= T_java_lang_Number (+ DIST_ZERO_1 60)) (= T_javafe_ast_MethodInvocation (+ DIST_ZERO_1 61)) (= T_javafe_ast_RoutineDecl (+ DIST_ZERO_1 62)) (= T_javafe_ast_LiteralExpr (+ DIST_ZERO_1 63)) (= T_javafe_ast_IdentifierVec (+ DIST_ZERO_1 64)) (= T_javafe_ast_TypeDeclElem (+ DIST_ZERO_1 65)) (= T_javafe_ast_Name (+ DIST_ZERO_1 66)) (= T_javafe_util_Location (+ DIST_ZERO_1 67)) (= T_javafe_ast_SkipStmt (+ DIST_ZERO_1 68)) (= T_javafe_ast_AmbiguousVariableAccess (+ DIST_ZERO_1 69)) (= T_javafe_ast_ClassDeclStmt (+ DIST_ZERO_1 70)) (= T_java_lang_Double (+ DIST_ZERO_1 71)) (= T_javafe_ast_UnaryExpr (+ DIST_ZERO_1 72)) (= T_javafe_ast_SuperObjectDesignator (+ DIST_ZERO_1 73)) (= T_java_lang_RuntimeException (+ DIST_ZERO_1 74)) (= T_java_lang_Cloneable (+ DIST_ZERO_1 75)) (= T_javafe_ast_BreakStmt (+ DIST_ZERO_1 76)) (= T_java_lang_Throwable (+ DIST_ZERO_1 77)) (= T_javafe_ast_NewInstanceExpr (+ DIST_ZERO_1 78)) (= T_javafe_ast_MethodDecl (+ DIST_ZERO_1 79)) (= T_java_lang_Boolean (+ DIST_ZERO_1 80)) (= T_javafe_ast_OperatorTags (+ DIST_ZERO_1 81)) (= T_javafe_ast_Identifier (+ DIST_ZERO_1 82)) (= T_javafe_ast_Stmt (+ DIST_ZERO_1 83)) (= T_javafe_ast_CompoundName (+ DIST_ZERO_1 84)) (= T_javafe_ast_SynchronizeStmt (+ DIST_ZERO_1 85)) (= T_javafe_ast_TryFinallyStmt (+ DIST_ZERO_1 86)) (= T_javafe_ast_FieldAccess (+ DIST_ZERO_1 87)) (= T_javafe_ast_ASTNode (+ DIST_ZERO_1 88)) (= T_javafe_ast_LocalVarDecl (+ DIST_ZERO_1 89)) (= T_javafe_ast_TypeDecl (+ DIST_ZERO_1 90)) (= T_java_util_EscjavaKeyValue (+ DIST_ZERO_1 91)) (= T_javafe_ast_GeneratedTags (+ DIST_ZERO_1 92)) (= T_javafe_ast_PrimitiveType (+ DIST_ZERO_1 93)) (= T_javafe_ast_SingleTypeImportDecl (+ DIST_ZERO_1 94)) (= T_javafe_ast_LabelStmt (+ DIST_ZERO_1 95)) (= T_javafe_util_Assert (+ DIST_ZERO_1 96)) (= T_javafe_ast_CondExpr (+ DIST_ZERO_1 97)) (= T_javafe_ast_CompilationUnit (+ DIST_ZERO_1 98)) (= T_java_lang_Float (+ DIST_ZERO_1 99)) (= T_javafe_ast_VisitorArgResult (+ DIST_ZERO_1 100)) (= T_javafe_ast_CatchClause (+ DIST_ZERO_1 101)) (= T_javafe_parser_TagConstants (+ DIST_ZERO_1 102)) (= T_javafe_ast_ExprObjectDesignator (+ DIST_ZERO_1 103)) (= T_javafe_tc_TagConstants (+ DIST_ZERO_1 104)) (= T_javafe_ast_BlockStmt (+ DIST_ZERO_1 105)) (= T_javafe_ast_ReturnStmt (+ DIST_ZERO_1 106)) (= T_javafe_tc_FieldDeclVec (+ DIST_ZERO_1 107)) (= T_javafe_ast_TagConstants (+ DIST_ZERO_1 108)) (= T_java_lang_IndexOutOfBoundsException (+ DIST_ZERO_1 109)) (= T_java_util_Hashtable (+ DIST_ZERO_1 110)) (= T_javafe_ast_FormalParaDecl (+ DIST_ZERO_1 111)) (= T_javafe_ast_ThisExpr (+ DIST_ZERO_1 112)) (= T_javafe_ast_InterfaceDecl (+ DIST_ZERO_1 113)) (= T_javafe_ast_ArrayType (+ DIST_ZERO_1 114)) (= T_java_util_Dictionary (+ DIST_ZERO_1 115)) (= T_javafe_ast_CastExpr (+ DIST_ZERO_1 116)) (= T_javafe_ast_ForStmt (+ DIST_ZERO_1 117))) (= true_term (is VOIDTYPE_14_33_26 T_int)) (= VOIDTYPE_14_33_26 100) (= true_term (is INSTANCEOFEXPR_16_52_7 T_int)) (= INSTANCEOFEXPR_16_52_7 38) (= true_term (is AND_15_20_26 T_int)) (= AND_15_20_26 55) (= true_term (is ASGURSHIFT_15_48_26 T_int)) (= ASGURSHIFT_15_48_26 81) (= true_term (is IFSTMT_16_38_7 T_int)) (= IFSTMT_16_38_7 24) (= true_term (is URSHIFT_15_32_26 T_int)) (= URSHIFT_15_32_26 67) (= true_term (is ARRAYTYPE_16_65_7 T_int)) (= ARRAYTYPE_16_65_7 51) (= true_term (is FORMALPARADECL_16_24_7 T_int)) (= FORMALPARADECL_16_24_7 10) (= true_term (is DOUBLETYPE_14_32_26 T_int)) (= DOUBLETYPE_14_32_26 99) (= true_term (is CONDEXPR_16_51_7 T_int)) (= CONDEXPR_16_51_7 37) (= true_term (is TYPEDECLELEMPRAGMA_30_27_26 T_int)) (= TYPEDECLELEMPRAGMA_30_27_26 117) (= true_term (is OR_15_19_26 T_int)) (= OR_15_19_26 54) (= true_term (is ASGRSHIFT_15_47_26 T_int)) (= ASGRSHIFT_15_47_26 80) (= true_term (is LABELSTMT_16_37_7 T_int)) (= LABELSTMT_16_37_7 23) (= true_term (is RSHIFT_15_31_26 T_int)) (= RSHIFT_15_31_26 66) (= true_term (is TYPENAME_16_64_7 T_int)) (= TYPENAME_16_64_7 50) (= true_term (is FIELDDECL_16_23_7 T_int)) (= FIELDDECL_16_23_7 9) (= true_term (is FLOATTYPE_14_31_26 T_int)) (= FLOATTYPE_14_31_26 98) (= true_term (is NEWARRAYEXPR_16_50_7 T_int)) (= NEWARRAYEXPR_16_50_7 36) (= true_term (is ASGLSHIFT_15_46_26 T_int)) (= ASGLSHIFT_15_46_26 79) (= true_term (is CONTINUESTMT_16_36_7 T_int)) (= CONTINUESTMT_16_36_7 22) (= true_term (is STMTPRAGMA_30_26_26 T_int)) (= STMTPRAGMA_30_26_26 116) (= true_term (is LSHIFT_15_30_26 T_int)) (= LSHIFT_15_30_26 65) (= true_term (is NULLLIT_14_45_26 T_int)) (= NULLLIT_14_45_26 111) (= true_term (is SUPEROBJECTDESIGNATOR_16_63_7 T_int)) (= SUPEROBJECTDESIGNATOR_16_63_7 49) (= true_term (is LOCALVARDECL_16_22_7 T_int)) (= LOCALVARDECL_16_22_7 8) (= true_term (is punctuationStrings_30_134_22 ?v_0)) (not (= punctuationStrings_30_134_22 null)) (= (typeof punctuationStrings_30_134_22) ?v_0) (= (arrayLength punctuationStrings_30_134_22) 48) (= true_term (is POSTFIXDEC_15_63_26 T_int)) (= POSTFIXDEC_15_63_26 92) (= true_term (is CHARTYPE_14_30_26 T_int)) (= CHARTYPE_14_30_26 97) (= true_term (is NEWINSTANCEEXPR_16_49_7 T_int)) (= NEWINSTANCEEXPR_16_49_7 35) (= true_term (is ASGSUB_15_45_26 T_int)) (= ASGSUB_15_45_26 78) (= true_term (is BREAKSTMT_16_35_7 T_int)) (= BREAKSTMT_16_35_7 21) (= true_term (is otherStrings_30_193_30 ?v_0)) (not (= otherStrings_30_193_30 null)) (= (typeof otherStrings_30_193_30) ?v_0) (= (arrayLength otherStrings_30_193_30) 15) (= true_term (is LT_15_29_26 T_int)) (= LT_15_29_26 64) (= true_term (is MODIFIERPRAGMA_30_25_26 T_int)) (= MODIFIERPRAGMA_30_25_26 115) (= true_term (is STRINGLIT_14_44_26 T_int)) (= STRINGLIT_14_44_26 110) (= true_term (is TYPEOBJECTDESIGNATOR_16_62_7 T_int)) (= TYPEOBJECTDESIGNATOR_16_62_7 48) (= true_term (is INITBLOCK_16_21_7 T_int)) (= INITBLOCK_16_21_7 7) (= true_term (is noTokens_30_212_27 T_int)) (= true_term (is POSTFIXINC_15_62_26 T_int)) (= POSTFIXINC_15_62_26 91) (= true_term (is LONGTYPE_14_29_26 T_int)) (= LONGTYPE_14_29_26 96) (= true_term (is ARRAYREFEXPR_16_48_7 T_int)) (= ARRAYREFEXPR_16_48_7 34) (= true_term (is ASGADD_15_44_26 T_int)) (= ASGADD_15_44_26 77) (= true_term (is THROWSTMT_16_34_7 T_int)) (= THROWSTMT_16_34_7 20) (= true_term (is TYPESIG_29_6_28 T_int)) (= TYPESIG_29_6_28 184) (= true_term (is LE_15_28_26 T_int)) (= LE_15_28_26 63) (= true_term (is DOUBLELIT_14_43_26 T_int)) (= DOUBLELIT_14_43_26 109) (= true_term (is EXPROBJECTDESIGNATOR_16_61_7 T_int)) (= EXPROBJECTDESIGNATOR_16_61_7 47) (= true_term (is METHODDECL_16_20_7 T_int)) (= METHODDECL_16_20_7 6) (= true_term (is DEC_15_59_26 T_int)) (= DEC_15_59_26 90) (= true_term (is LEXICALPRAGMA_30_24_26 T_int)) (= LEXICALPRAGMA_30_24_26 114) (= true_term (is INTTYPE_14_28_26 T_int)) (= INTTYPE_14_28_26 95) (= true_term (is THISEXPR_16_47_7 T_int)) (= THISEXPR_16_47_7 33) (= true_term (is ASGREM_15_43_26 T_int)) (= ASGREM_15_43_26 76) (= true_term (is RETURNSTMT_16_33_7 T_int)) (= RETURNSTMT_16_33_7 19) (= true_term (is LAST_KEYWORD_30_103_26 T_int)) (= LAST_KEYWORD_30_103_26 183) (= true_term (is GT_15_27_26 T_int)) (= GT_15_27_26 62) (= true_term (is FLOATLIT_14_42_26 T_int)) (= FLOATLIT_14_42_26 108) (= true_term (is CLASSLITERAL_16_60_7 T_int)) (= CLASSLITERAL_16_60_7 46) (= true_term (is CONSTRUCTORDECL_16_19_7 T_int)) (= CONSTRUCTORDECL_16_19_7 5) (= true_term (is FIRST_KEYWORD_30_51_26 T_int)) (= FIRST_KEYWORD_30_51_26 133) (= true_term (is INC_15_58_26 T_int)) (= INC_15_58_26 89) (= true_term (is BOOLEANTYPE_14_27_26 T_int)) (= BOOLEANTYPE_14_27_26 94) (= true_term (is ARRAYINIT_16_46_7 T_int)) (= ARRAYINIT_16_46_7 32) (= true_term (is ASGDIV_15_42_26 T_int)) (= ASGDIV_15_42_26 75) (= true_term (is EVALSTMT_16_32_7 T_int)) (= EVALSTMT_16_32_7 18) (= true_term (is GE_15_26_26 T_int)) (= GE_15_26_26 61) (= true_term (is CHARLIT_14_41_26 T_int)) (= CHARLIT_14_41_26 107) (= true_term (is METHODINVOCATION_16_59_7 T_int)) (= METHODINVOCATION_16_59_7 45) (= true_term (is INTERFACEDECL_16_18_7 T_int)) (= INTERFACEDECL_16_18_7 4) (= true_term (is BITNOT_15_57_26 T_int)) (= BITNOT_15_57_26 88) (= true_term (is IDENT_14_25_26 T_int)) (= IDENT_14_25_26 93) (= true_term (is CATCHCLAUSE_16_45_7 T_int)) (= CATCHCLAUSE_16_45_7 31) (= true_term (is NULL_30_82_26 T_int)) (= NULL_30_82_26 163) (= true_term (is ASGMUL_15_41_26 T_int)) (= ASGMUL_15_41_26 74) (= true_term (is SYNCHRONIZESTMT_16_31_7 T_int)) (= SYNCHRONIZESTMT_16_31_7 17) (= true_term (is EQ_15_25_26 T_int)) (= EQ_15_25_26 60) (= true_term (is LONGLIT_14_40_26 T_int)) (= LONGLIT_14_40_26 106) (= true_term (is AMBIGUOUSMETHODINVOCATION_16_58_7 T_int)) (= AMBIGUOUSMETHODINVOCATION_16_58_7 44) (= true_term (is CLASSDECL_16_17_7 T_int)) (= CLASSDECL_16_17_7 3) (= true_term (is NOT_15_56_26 T_int)) (= NOT_15_56_26 87) (= true_term (is CONSTRUCTORINVOCATION_16_44_7 T_int)) (= CONSTRUCTORINVOCATION_16_44_7 30) (= true_term (is ASSIGN_15_40_26 T_int)) (= ASSIGN_15_40_26 73) (= true_term (is DOSTMT_16_30_7 T_int)) (= DOSTMT_16_30_7 16) (= true_term (is NE_15_24_26 T_int)) (= NE_15_24_26 59) (= true_term (is INTLIT_14_39_26 T_int)) (= INTLIT_14_39_26 105) (= true_term (is FIELDACCESS_16_57_7 T_int)) (= FIELDACCESS_16_57_7 43) (= true_term (is ONDEMANDIMPORTDECL_16_16_7 T_int)) (= ONDEMANDIMPORTDECL_16_16_7 2) (= true_term (is UNARYSUB_15_55_26 T_int)) (= UNARYSUB_15_55_26 86) (= true_term (is TRYCATCHSTMT_16_43_7 T_int)) (= TRYCATCHSTMT_16_43_7 29) (= true_term (is STAR_15_37_26 T_int)) (= STAR_15_37_26 72) (= true_term (is WHILESTMT_16_29_7 T_int)) (= WHILESTMT_16_29_7 15) (= true_term (is BITAND_15_23_26 T_int)) (= BITAND_15_23_26 58) (= true_term (is BOOLEANLIT_14_38_26 T_int)) (= BOOLEANLIT_14_38_26 104) (= true_term (is VARIABLEACCESS_16_56_7 T_int)) (= VARIABLEACCESS_16_56_7 42) (= true_term (is SINGLETYPEIMPORTDECL_16_15_7 T_int)) (= SINGLETYPEIMPORTDECL_16_15_7 1) (= true_term (is UNARYADD_15_54_26 T_int)) (= UNARYADD_15_54_26 85) (= true_term (is TRYFINALLYSTMT_16_42_7 T_int)) (= TRYFINALLYSTMT_16_42_7 28) (= true_term (is MOD_15_36_26 T_int)) (= MOD_15_36_26 71) (= true_term (is otherCodes_30_202_27 ?v_1)) (not (= otherCodes_30_202_27 null)) (= (typeof otherCodes_30_202_27) ?v_1) (= (arrayLength otherCodes_30_202_27) 15) (= true_term (is CLASSDECLSTMT_16_28_7 T_int)) (= CLASSDECLSTMT_16_28_7 14) (= true_term (is BITXOR_15_22_26 T_int)) (= BITXOR_15_22_26 57) (= true_term (is SHORTTYPE_14_36_26 T_int)) (= SHORTTYPE_14_36_26 103) (= true_term (is AMBIGUOUSVARIABLEACCESS_16_55_7 T_int)) (= AMBIGUOUSVARIABLEACCESS_16_55_7 41) (= true_term (is COMPILATIONUNIT_16_14_7 T_int)) (= COMPILATIONUNIT_16_14_7 0) (= true_term (is ASGBITXOR_15_51_26 T_int)) (= ASGBITXOR_15_51_26 84) (= true_term (is punctuationCodes_30_164_19 ?v_1)) (not (= punctuationCodes_30_164_19 null)) (= (typeof punctuationCodes_30_164_19) ?v_1) (= (arrayLength punctuationCodes_30_164_19) 48) (= true_term (is NULL_13_60_26 T_int)) (= NULL_13_60_26 0) (= true_term (is SWITCHLABEL_16_41_7 T_int)) (= SWITCHLABEL_16_41_7 27) (= true_term (is DIV_15_35_26 T_int)) (= DIV_15_35_26 70) (= true_term (is VARDECLSTMT_16_27_7 T_int)) (= VARDECLSTMT_16_27_7 13) (= true_term (is BITOR_15_21_26 T_int)) (= BITOR_15_21_26 56) (= true_term (is BYTETYPE_14_35_26 T_int)) (= BYTETYPE_14_35_26 102) (= true_term (is PARENEXPR_16_54_7 T_int)) (= PARENEXPR_16_54_7 40) (= true_term (is ASGBITOR_15_50_26 T_int)) (= ASGBITOR_15_50_26 83) (= true_term (is SKIPSTMT_16_40_7 T_int)) (= SKIPSTMT_16_40_7 26) (= true_term (is SUB_15_34_26 T_int)) (= SUB_15_34_26 69) (= true_term (is COMPOUNDNAME_16_67_7 T_int)) (= COMPOUNDNAME_16_67_7 53) (= true_term (is SWITCHSTMT_16_26_7 T_int)) (= SWITCHSTMT_16_26_7 12) (= true_term (is keywordStrings_30_181_30 ?v_0)) (not (= keywordStrings_30_181_30 null)) (= (typeof keywordStrings_30_181_30) ?v_0) (= (arrayLength keywordStrings_30_181_30) 51) (= true_term (is NULLTYPE_14_34_26 T_int)) (= NULLTYPE_14_34_26 101) (= true_term (is CASTEXPR_16_53_7 T_int)) (= CASTEXPR_16_53_7 39) (= true_term (is ASGBITAND_15_49_26 T_int)) (= ASGBITAND_15_49_26 82) (= true_term (is FORSTMT_16_39_7 T_int)) (= FORSTMT_16_39_7 25) (= true_term (is ADD_15_33_26 T_int)) (= ADD_15_33_26 68) (= true_term (is SIMPLENAME_16_66_7 T_int)) (= SIMPLENAME_16_66_7 52) (= true_term (is BLOCKSTMT_16_25_7 T_int)) (= BLOCKSTMT_16_25_7 11) (= true_term (is TYPEMODIFIERPRAGMA_30_28_26 T_int)) (= TYPEMODIFIERPRAGMA_30_28_26 118))))
-(declare-fun length_pre_81_50_25 () Int)
-(declare-fun length_81_50_25 () Int)
-(declare-fun count_pre_72_67_33 () Int)
-(declare-fun count_72_67_33 () Int)
-(declare-fun VOIDTYPE_pre_14_33_26 () Int)
-(declare-fun INSTANCEOFEXPR_pre_16_52_7 () Int)
-(declare-fun AND_pre_15_20_26 () Int)
-(declare-fun loc_pre_123_49_13 () Int)
-(declare-fun loc_123_49_13 () Int)
-(declare-fun ASGURSHIFT_pre_15_48_26 () Int)
-(declare-fun expr_pre_15_28 () Int)
-(declare-fun expr_15_28 () Int)
-(declare-fun IFSTMT_pre_16_38_7 () Int)
-(declare-fun type_pre_123_24_28 () Int)
-(declare-fun type_123_24_28 () Int)
-(declare-fun locId_pre_111_20_13 () Int)
-(declare-fun locId_111_20_13 () Int)
-(declare-fun URSHIFT_pre_15_32_26 () Int)
-(declare-fun tokenType_pre_78_90_8 () Int)
-(declare-fun tokenType_78_90_8 () Int)
-(declare-fun ARRAYTYPE_pre_16_65_7 () Int)
-(declare-fun FORMALPARADECL_pre_16_24_7 () Int)
-(declare-fun enclosingInstance_pre_122_25_14 () Int)
-(declare-fun enclosingInstance_122_25_14 () Int)
-(declare-fun loc_pre_122_49_13 () Int)
-(declare-fun loc_122_49_13 () Int)
-(declare-fun DOUBLETYPE_pre_14_32_26 () Int)
-(declare-fun CONDEXPR_pre_16_51_7 () Int)
-(declare-fun TYPEDECLELEMPRAGMA_pre_30_27_26 () Int)
-(declare-fun OR_pre_15_19_26 () Int)
-(declare-fun ASGRSHIFT_pre_15_47_26 () Int)
-(declare-fun locQuestion_pre_125_22_13 () Int)
-(declare-fun locQuestion_125_22_13 () Int)
-(declare-fun locIds_pre_141_25_29 () Int)
-(declare-fun locIds_141_25_29 () Int)
-(declare-fun locSuper_pre_137_20_13 () Int)
-(declare-fun locSuper_137_20_13 () Int)
-(declare-fun LABELSTMT_pre_16_37_7 () Int)
-(declare-fun locOpenBrackets_pre_123_65_29 () Int)
-(declare-fun locOpenBrackets_123_65_29 () Int)
-(declare-fun op_pre_26_35_13 () Int)
-(declare-fun op_26_35_13 () Int)
-(declare-fun locOpenBrace_pre_91_22_13 () Int)
-(declare-fun locOpenBrace_91_22_13 () Int)
-(declare-fun RSHIFT_pre_15_31_26 () Int)
-(declare-fun locOpenParen_pre_118_48_13 () Int)
-(declare-fun locOpenParen_118_48_13 () Int)
-(declare-fun TYPENAME_pre_16_64_7 () Int)
-(declare-fun FIELDDECL_pre_16_23_7 () Int)
-(declare-fun loc_pre_63_30_13 () Int)
-(declare-fun loc_63_30_13 () Int)
-(declare-fun loc_pre_113_33_13 () Int)
-(declare-fun loc_113_33_13 () Int)
-(declare-fun FLOATTYPE_pre_14_31_26 () Int)
-(declare-fun NEWARRAYEXPR_pre_16_50_7 () Int)
-(declare-fun ASGLSHIFT_pre_15_46_26 () Int)
-(declare-fun I_will_establish_invariants_afterwards_pre_5_236_34 () Int)
-(declare-fun I_will_establish_invariants_afterwards_5_236_34 () Int)
-(declare-fun CONTINUESTMT_pre_16_36_7 () Int)
-(declare-fun loc_pre_80_40_13 () Int)
-(declare-fun loc_80_40_13 () Int)
-(declare-fun STMTPRAGMA_pre_30_26_26 () Int)
-(declare-fun elements_pre_140_61_39 () Int)
-(declare-fun elements_140_61_39 () Int)
-(declare-fun loc_pre_116_22_13 () Int)
-(declare-fun loc_116_22_13 () Int)
-(declare-fun op_pre_27_26_13 () Int)
-(declare-fun op_27_26_13 () Int)
-(declare-fun locOpenParen_pre_131_30_13 () Int)
-(declare-fun locOpenParen_131_30_13 () Int)
-(declare-fun locGuardOpenParen_pre_23_13 () Int)
-(declare-fun locGuardOpenParen_23_13 () Int)
-(declare-fun LSHIFT_pre_15_30_26 () Int)
-(declare-fun locCloseBrace_pre_62_54_13 () Int)
-(declare-fun locCloseBrace_62_54_13 () Int)
-(declare-fun NULLLIT_pre_14_45_26 () Int)
-(declare-fun SUPEROBJECTDESIGNATOR_pre_16_63_7 () Int)
-(declare-fun loc_pre_83_29_13 () Int)
-(declare-fun loc_83_29_13 () Int)
-(declare-fun LOCALVARDECL_pre_16_22_7 () Int)
-(declare-fun loc_pre_107_18_13 () Int)
-(declare-fun loc_107_18_13 () Int)
-(declare-fun punctuationStrings_pre_30_134_22 () Int)
-(declare-fun POSTFIXDEC_pre_15_63_26 () Int)
-(declare-fun CHARTYPE_pre_14_30_26 () Int)
-(declare-fun NEWINSTANCEEXPR_pre_16_49_7 () Int)
-(declare-fun tag_pre_28_30_13 () Int)
-(declare-fun tag_28_30_13 () Int)
-(declare-fun loc_pre_117_23_13 () Int)
-(declare-fun loc_117_23_13 () Int)
-(declare-fun type_pre_133_20_28 () Int)
-(declare-fun type_133_20_28 () Int)
-(declare-fun dims_pre_123_45_31 () Int)
-(declare-fun dims_123_45_31 () Int)
-(declare-fun ASGSUB_pre_15_45_26 () Int)
-(declare-fun BREAKSTMT_pre_16_35_7 () Int)
-(declare-fun locDots_pre_141_31_29 () Int)
-(declare-fun locDots_141_31_29 () Int)
-(declare-fun otherStrings_pre_30_193_30 () Int)
-(declare-fun LT_pre_15_29_26 () Int)
-(declare-fun MODIFIERPRAGMA_pre_30_25_26 () Int)
-(declare-fun STRINGLIT_pre_14_44_26 () Int)
-(declare-fun TYPEOBJECTDESIGNATOR_pre_16_62_7 () Int)
-(declare-fun locDot_pre_84_21_13 () Int)
-(declare-fun locDot_84_21_13 () Int)
-(declare-fun INITBLOCK_pre_16_21_7 () Int)
-(declare-fun loc_pre_93_18_13 () Int)
-(declare-fun loc_93_18_13 () Int)
-(declare-fun locType_pre_79_21_13 () Int)
-(declare-fun locType_79_21_13 () Int)
-(declare-fun noTokens_pre_30_212_27 () Int)
-(declare-fun loc_pre_103_20_13 () Int)
-(declare-fun loc_103_20_13 () Int)
-(declare-fun POSTFIXINC_pre_15_62_26 () Int)
-(declare-fun LONGTYPE_pre_14_29_26 () Int)
-(declare-fun ARRAYREFEXPR_pre_16_48_7 () Int)
-(declare-fun ASGADD_pre_15_44_26 () Int)
-(declare-fun THROWSTMT_pre_16_34_7 () Int)
-(declare-fun count_pre_140_67_33 () Int)
-(declare-fun count_140_67_33 () Int)
-(declare-fun elements_pre_124_61_33 () Int)
-(declare-fun elements_124_61_33 () Int)
-(declare-fun TYPESIG_pre_29_6_28 () Int)
-(declare-fun LE_pre_15_28_26 () Int)
-(declare-fun DOUBLELIT_pre_14_43_26 () Int)
-(declare-fun EXPROBJECTDESIGNATOR_pre_16_61_7 () Int)
-(declare-fun locKeyword_pre_118_45_13 () Int)
-(declare-fun locKeyword_118_45_13 () Int)
-(declare-fun METHODDECL_pre_16_20_7 () Int)
-(declare-fun locCloseBracket_pre_121_23_13 () Int)
-(declare-fun locCloseBracket_121_23_13 () Int)
-(declare-fun syntax_pre_24_28_29 () Int)
-(declare-fun syntax_24_28_29 () Int)
-(declare-fun loc_pre_109_18_13 () Int)
-(declare-fun loc_109_18_13 () Int)
-(declare-fun DEC_pre_15_59_26 () Int)
-(declare-fun LEXICALPRAGMA_pre_30_24_26 () Int)
-(declare-fun INTTYPE_pre_14_28_26 () Int)
-(declare-fun THISEXPR_pre_16_47_7 () Int)
-(declare-fun loc_pre_100_18_13 () Int)
-(declare-fun loc_100_18_13 () Int)
-(declare-fun ASGREM_pre_15_43_26 () Int)
-(declare-fun RETURNSTMT_pre_16_33_7 () Int)
-(declare-fun LAST_KEYWORD_pre_30_103_26 () Int)
-(declare-fun GT_pre_15_27_26 () Int)
-(declare-fun locOpenParen_pre_132_28_13 () Int)
-(declare-fun locOpenParen_132_28_13 () Int)
-(declare-fun FLOATLIT_pre_14_42_26 () Int)
-(declare-fun CLASSLITERAL_pre_16_60_7 () Int)
-(declare-fun CONSTRUCTORDECL_pre_16_19_7 () Int)
-(declare-fun FIRST_KEYWORD_pre_30_51_26 () Int)
-(declare-fun INC_pre_15_58_26 () Int)
-(declare-fun superCall_pre_118_24_17 () Int)
-(declare-fun superCall_118_24_17 () Int)
-(declare-fun BOOLEANTYPE_pre_14_27_26 () Int)
-(declare-fun ARRAYINIT_pre_16_46_7 () Int)
-(declare-fun locCloseParen_pre_128_21_13 () Int)
-(declare-fun locCloseParen_128_21_13 () Int)
-(declare-fun owner_pre_8_35_28 () Int)
-(declare-fun owner_8_35_28 () Int)
-(declare-fun ASGDIV_pre_15_42_26 () Int)
-(declare-fun locOpenBrace_pre_62_51_13 () Int)
-(declare-fun locOpenBrace_62_51_13 () Int)
-(declare-fun locCloseParen_pre_127_24_13 () Int)
-(declare-fun locCloseParen_127_24_13 () Int)
-(declare-fun EVALSTMT_pre_16_32_7 () Int)
-(declare-fun count_pre_124_67_33 () Int)
-(declare-fun count_124_67_33 () Int)
-(declare-fun GE_pre_15_26_26 () Int)
-(declare-fun CHARLIT_pre_14_41_26 () Int)
-(declare-fun METHODINVOCATION_pre_16_59_7 () Int)
-(declare-fun INTERFACEDECL_pre_16_18_7 () Int)
-(declare-fun BITNOT_pre_15_57_26 () Int)
-(declare-fun IDENT_pre_14_25_26 () Int)
-(declare-fun CATCHCLAUSE_pre_16_45_7 () Int)
-(declare-fun loc_pre_115_29_13 () Int)
-(declare-fun loc_115_29_13 () Int)
-(declare-fun NULL_pre_30_82_26 () Int)
-(declare-fun ASGMUL_pre_15_41_26 () Int)
-(declare-fun SYNCHRONIZESTMT_pre_16_31_7 () Int)
-(declare-fun locOp_pre_26_43_13 () Int)
-(declare-fun locOp_26_43_13 () Int)
-(declare-fun loc_pre_20_13 () Int)
-(declare-fun loc_20_13 () Int)
-(declare-fun locCloseBrace_pre_120_24_13 () Int)
-(declare-fun locCloseBrace_120_24_13 () Int)
-(declare-fun EQ_pre_15_25_26 () Int)
-(declare-fun locId_pre_77_38_13 () Int)
-(declare-fun locId_77_38_13 () Int)
-(declare-fun LONGLIT_pre_14_40_26 () Int)
-(declare-fun AMBIGUOUSMETHODINVOCATION_pre_16_58_7 () Int)
-(declare-fun CLASSDECL_pre_16_17_7 () Int)
-(declare-fun loc_pre_112_22_13 () Int)
-(declare-fun loc_112_22_13 () Int)
-(declare-fun elements_pre_73_61_39 () Int)
-(declare-fun elements_73_61_39 () Int)
-(declare-fun NOT_pre_15_56_26 () Int)
-(declare-fun locDot_pre_118_41_13 () Int)
-(declare-fun locDot_118_41_13 () Int)
-(declare-fun CONSTRUCTORINVOCATION_pre_16_44_7 () Int)
-(declare-fun locOpenParen_pre_104_23_13 () Int)
-(declare-fun locOpenParen_104_23_13 () Int)
-(declare-fun locOpenBracket_pre_121_20_13 () Int)
-(declare-fun locOpenBracket_121_20_13 () Int)
-(declare-fun ASSIGN_pre_15_40_26 () Int)
-(declare-fun DOSTMT_pre_16_30_7 () Int)
-(declare-fun locOpenBrace_pre_80_36_13 () Int)
-(declare-fun locOpenBrace_80_36_13 () Int)
-(declare-fun NE_pre_15_24_26 () Int)
-(declare-fun INTLIT_pre_14_39_26 () Int)
-(declare-fun locId_pre_132_25_13 () Int)
-(declare-fun locId_132_25_13 () Int)
-(declare-fun FIELDACCESS_pre_16_57_7 () Int)
-(declare-fun locOpenBracket_pre_138_21_13 () Int)
-(declare-fun locOpenBracket_138_21_13 () Int)
-(declare-fun ONDEMANDIMPORTDECL_pre_16_16_7 () Int)
-(declare-fun init_pre_123_35_19 () Int)
-(declare-fun init_123_35_19 () Int)
-(declare-fun UNARYSUB_pre_15_55_26 () Int)
-(declare-fun returnType_pre_79_18_28 () Int)
-(declare-fun returnType_79_18_28 () Int)
-(declare-fun loc_pre_114_16_13 () Int)
-(declare-fun loc_114_16_13 () Int)
-(declare-fun loc_pre_129_22_13 () Int)
-(declare-fun loc_129_22_13 () Int)
-(declare-fun TRYCATCHSTMT_pre_16_43_7 () Int)
-(declare-fun body_pre_80_34_19 () Int)
-(declare-fun body_80_34_19 () Int)
-(declare-fun loc_pre_126_21_13 () Int)
-(declare-fun loc_126_21_13 () Int)
-(declare-fun STAR_pre_15_37_26 () Int)
-(declare-fun WHILESTMT_pre_16_29_7 () Int)
-(declare-fun loc_pre_139_20_13 () Int)
-(declare-fun loc_139_20_13 () Int)
-(declare-fun BITAND_pre_15_23_26 () Int)
-(declare-fun locOpenParen_pre_127_21_13 () Int)
-(declare-fun locOpenParen_127_21_13 () Int)
-(declare-fun BOOLEANLIT_pre_14_38_26 () Int)
-(declare-fun VARIABLEACCESS_pre_16_56_7 () Int)
-(declare-fun SINGLETYPEIMPORTDECL_pre_16_15_7 () Int)
-(declare-fun UNARYADD_pre_15_54_26 () Int)
-(declare-fun locId_pre_62_48_13 () Int)
-(declare-fun locId_62_48_13 () Int)
-(declare-fun TRYFINALLYSTMT_pre_16_42_7 () Int)
-(declare-fun count_pre_73_67_33 () Int)
-(declare-fun count_73_67_33 () Int)
-(declare-fun MOD_pre_15_36_26 () Int)
-(declare-fun otherCodes_pre_30_202_27 () Int)
-(declare-fun loc_pre_119_22_13 () Int)
-(declare-fun loc_119_22_13 () Int)
-(declare-fun loc_pre_25_50_13 () Int)
-(declare-fun loc_25_50_13 () Int)
-(declare-fun CLASSDECLSTMT_pre_16_28_7 () Int)
-(declare-fun locOpenBrace_pre_120_21_13 () Int)
-(declare-fun locOpenBrace_120_21_13 () Int)
-(declare-fun BITXOR_pre_15_22_26 () Int)
-(declare-fun locOpenParen_pre_128_18_13 () Int)
-(declare-fun locOpenParen_128_18_13 () Int)
-(declare-fun locDot_pre_122_29_13 () Int)
-(declare-fun locDot_122_29_13 () Int)
-(declare-fun SHORTTYPE_pre_14_36_26 () Int)
-(declare-fun AMBIGUOUSVARIABLEACCESS_pre_16_55_7 () Int)
-(declare-fun type_pre_77_35_28 () Int)
-(declare-fun type_77_35_28 () Int)
-(declare-fun COMPILATIONUNIT_pre_16_14_7 () Int)
-(declare-fun ASGBITXOR_pre_15_51_26 () Int)
-(declare-fun tag_pre_25_32_13 () Int)
-(declare-fun tag_25_32_13 () Int)
-(declare-fun punctuationCodes_pre_30_164_19 () Int)
-(declare-fun NULL_pre_13_60_26 () Int)
-(declare-fun SWITCHLABEL_pre_16_41_7 () Int)
-(declare-fun loc_pre_106_18_13 () Int)
-(declare-fun loc_106_18_13 () Int)
-(declare-fun locOp_pre_27_32_13 () Int)
-(declare-fun locOp_27_32_13 () Int)
-(declare-fun DIV_pre_15_35_26 () Int)
-(declare-fun VARDECLSTMT_pre_16_27_7 () Int)
-(declare-fun locOpenParen_pre_122_52_13 () Int)
-(declare-fun locOpenParen_122_52_13 () Int)
-(declare-fun locFirstSemi_pre_113_36_13 () Int)
-(declare-fun locFirstSemi_113_36_13 () Int)
-(declare-fun elements_pre_72_61_38 () Int)
-(declare-fun elements_72_61_38 () Int)
-(declare-fun BITOR_pre_15_21_26 () Int)
-(declare-fun locColon_pre_125_25_13 () Int)
-(declare-fun locColon_125_25_13 () Int)
-(declare-fun BYTETYPE_pre_14_35_26 () Int)
-(declare-fun PARENEXPR_pre_16_54_7 () Int)
-(declare-fun stmt_pre_17_28 () Int)
-(declare-fun stmt_17_28 () Int)
-(declare-fun ASGBITOR_pre_15_50_26 () Int)
-(declare-fun SKIPSTMT_pre_16_40_7 () Int)
-(declare-fun enclosingInstance_pre_118_37_14 () Int)
-(declare-fun enclosingInstance_118_37_14 () Int)
-(declare-fun type_pre_126_18_28 () Int)
-(declare-fun type_126_18_28 () Int)
-(declare-fun locCloseBrace_pre_91_25_13 () Int)
-(declare-fun locCloseBrace_91_25_13 () Int)
-(declare-fun SUB_pre_15_34_26 () Int)
-(declare-fun COMPOUNDNAME_pre_16_67_7 () Int)
-(declare-fun locDot_pre_133_23_13 () Int)
-(declare-fun locDot_133_23_13 () Int)
-(declare-fun ids_pre_141_19_37 () Int)
-(declare-fun ids_141_19_37 () Int)
-(declare-fun SWITCHSTMT_pre_16_26_7 () Int)
-(declare-fun loc_pre_104_20_13 () Int)
-(declare-fun loc_104_20_13 () Int)
-(declare-fun locId_pre_130_24_13 () Int)
-(declare-fun locId_130_24_13 () Int)
-(declare-fun keywordStrings_pre_30_181_30 () Int)
-(declare-fun NULLTYPE_pre_14_34_26 () Int)
-(declare-fun CASTEXPR_pre_16_53_7 () Int)
-(declare-fun type_pre_127_18_28 () Int)
-(declare-fun type_127_18_28 () Int)
-(declare-fun locFinally_pre_116_25_13 () Int)
-(declare-fun locFinally_116_25_13 () Int)
-(declare-fun ASGBITAND_pre_15_49_26 () Int)
-(declare-fun FORSTMT_pre_16_39_7 () Int)
-(declare-fun locId_pre_80_43_13 () Int)
-(declare-fun locId_80_43_13 () Int)
-(declare-fun elemType_pre_138_18_28 () Int)
-(declare-fun elemType_138_18_28 () Int)
-(declare-fun loc_pre_62_45_13 () Int)
-(declare-fun loc_62_45_13 () Int)
-(declare-fun ADD_pre_15_33_26 () Int)
-(declare-fun SIMPLENAME_pre_16_66_7 () Int)
-(declare-fun BLOCKSTMT_pre_16_25_7 () Int)
-(declare-fun value_pre_25_45_16 () Int)
-(declare-fun value_25_45_16 () Int)
-(declare-fun loc_pre_28_35_13 () Int)
-(declare-fun loc_28_35_13 () Int)
-(declare-fun TYPEMODIFIERPRAGMA_pre_30_28_26 () Int)
-(declare-fun elems_pre () Int)
-(declare-fun elems () Int)
-(declare-fun LS () Int)
-(declare-fun alloc_pre () Int)
-(declare-fun this () Int)
-(declare-fun RES () Int)
-(declare-fun ecReturn () Int)
-(assert (let ((?v_1 (array T_java_lang_String)) (?v_0 (array T_int)) (?v_3 (not (= this null))) (?v_2 (= ecReturn ecReturn)) (?v_4 (= true_term (is this T_javafe_ast_Type))) (?v_5 (not (= RES NULL_13_60_26)))) (not (=> true (=> (and (= length_pre_81_50_25 length_81_50_25) (= length_81_50_25 (asField length_81_50_25 T_int)) (= count_pre_72_67_33 count_72_67_33) (= count_72_67_33 (asField count_72_67_33 T_int)) (= VOIDTYPE_pre_14_33_26 VOIDTYPE_14_33_26) (= true_term (is VOIDTYPE_14_33_26 T_int)) (= INSTANCEOFEXPR_pre_16_52_7 INSTANCEOFEXPR_16_52_7) (= true_term (is INSTANCEOFEXPR_16_52_7 T_int)) (= AND_pre_15_20_26 AND_15_20_26) (= true_term (is AND_15_20_26 T_int)) (= loc_pre_123_49_13 loc_123_49_13) (= loc_123_49_13 (asField loc_123_49_13 T_int)) (= ASGURSHIFT_pre_15_48_26 ASGURSHIFT_15_48_26) (= true_term (is ASGURSHIFT_15_48_26 T_int)) (= expr_pre_15_28 expr_15_28) (= expr_15_28 (asField expr_15_28 T_javafe_ast_Expr)) (< (fClosedTime expr_15_28) alloc) (forall ((?s Int)) (=> (not (= ?s null)) (not (= (S_select expr_15_28 ?s) null)))) (= IFSTMT_pre_16_38_7 IFSTMT_16_38_7) (= true_term (is IFSTMT_16_38_7 T_int)) (= type_pre_123_24_28 type_123_24_28) (= type_123_24_28 (asField type_123_24_28 T_javafe_ast_Type)) (< (fClosedTime type_123_24_28) alloc) (forall ((?s_1_ Int)) (=> (not (= ?s_1_ null)) (not (= (S_select type_123_24_28 ?s_1_) null)))) (= locId_pre_111_20_13 locId_111_20_13) (= locId_111_20_13 (asField locId_111_20_13 T_int)) (= URSHIFT_pre_15_32_26 URSHIFT_15_32_26) (= true_term (is URSHIFT_15_32_26 T_int)) (= tokenType_pre_78_90_8 tokenType_78_90_8) (= tokenType_78_90_8 (asField tokenType_78_90_8 T_int)) (= ARRAYTYPE_pre_16_65_7 ARRAYTYPE_16_65_7) (= true_term (is ARRAYTYPE_16_65_7 T_int)) (= FORMALPARADECL_pre_16_24_7 FORMALPARADECL_16_24_7) (= true_term (is FORMALPARADECL_16_24_7 T_int)) (= enclosingInstance_pre_122_25_14 enclosingInstance_122_25_14) (= enclosingInstance_122_25_14 (asField enclosingInstance_122_25_14 T_javafe_ast_Expr)) (< (fClosedTime enclosingInstance_122_25_14) alloc) (= loc_pre_122_49_13 loc_122_49_13) (= loc_122_49_13 (asField loc_122_49_13 T_int)) (= DOUBLETYPE_pre_14_32_26 DOUBLETYPE_14_32_26) (= true_term (is DOUBLETYPE_14_32_26 T_int)) (= CONDEXPR_pre_16_51_7 CONDEXPR_16_51_7) (= true_term (is CONDEXPR_16_51_7 T_int)) (= TYPEDECLELEMPRAGMA_pre_30_27_26 TYPEDECLELEMPRAGMA_30_27_26) (= true_term (is TYPEDECLELEMPRAGMA_30_27_26 T_int)) (= OR_pre_15_19_26 OR_15_19_26) (= true_term (is OR_15_19_26 T_int)) (= ASGRSHIFT_pre_15_47_26 ASGRSHIFT_15_47_26) (= true_term (is ASGRSHIFT_15_47_26 T_int)) (= locQuestion_pre_125_22_13 locQuestion_125_22_13) (= locQuestion_125_22_13 (asField locQuestion_125_22_13 T_int)) (= locIds_pre_141_25_29 locIds_141_25_29) (= locIds_141_25_29 (asField locIds_141_25_29 ?v_0)) (< (fClosedTime locIds_141_25_29) alloc) (forall ((?s_2_ Int)) (=> (not (= ?s_2_ null)) (not (= (S_select locIds_141_25_29 ?s_2_) null)))) (= locSuper_pre_137_20_13 locSuper_137_20_13) (= locSuper_137_20_13 (asField locSuper_137_20_13 T_int)) (= LABELSTMT_pre_16_37_7 LABELSTMT_16_37_7) (= true_term (is LABELSTMT_16_37_7 T_int)) (= locOpenBrackets_pre_123_65_29 locOpenBrackets_123_65_29) (= locOpenBrackets_123_65_29 (asField locOpenBrackets_123_65_29 ?v_0)) (< (fClosedTime locOpenBrackets_123_65_29) alloc) (forall ((?s_3_ Int)) (=> (not (= ?s_3_ null)) (not (= (S_select locOpenBrackets_123_65_29 ?s_3_) null)))) (= op_pre_26_35_13 op_26_35_13) (= op_26_35_13 (asField op_26_35_13 T_int)) (= locOpenBrace_pre_91_22_13 locOpenBrace_91_22_13) (= locOpenBrace_91_22_13 (asField locOpenBrace_91_22_13 T_int)) (= RSHIFT_pre_15_31_26 RSHIFT_15_31_26) (= true_term (is RSHIFT_15_31_26 T_int)) (= locOpenParen_pre_118_48_13 locOpenParen_118_48_13) (= locOpenParen_118_48_13 (asField locOpenParen_118_48_13 T_int)) (= TYPENAME_pre_16_64_7 TYPENAME_16_64_7) (= true_term (is TYPENAME_16_64_7 T_int)) (= FIELDDECL_pre_16_23_7 FIELDDECL_16_23_7) (= true_term (is FIELDDECL_16_23_7 T_int)) (= loc_pre_63_30_13 loc_63_30_13) (= loc_63_30_13 (asField loc_63_30_13 T_int)) (= loc_pre_113_33_13 loc_113_33_13) (= loc_113_33_13 (asField loc_113_33_13 T_int)) (= FLOATTYPE_pre_14_31_26 FLOATTYPE_14_31_26) (= true_term (is FLOATTYPE_14_31_26 T_int)) (= NEWARRAYEXPR_pre_16_50_7 NEWARRAYEXPR_16_50_7) (= true_term (is NEWARRAYEXPR_16_50_7 T_int)) (= ASGLSHIFT_pre_15_46_26 ASGLSHIFT_15_46_26) (= true_term (is ASGLSHIFT_15_46_26 T_int)) (= I_will_establish_invariants_afterwards_pre_5_236_34 I_will_establish_invariants_afterwards_5_236_34) (= true_term (is I_will_establish_invariants_afterwards_5_236_34 T_boolean)) (= CONTINUESTMT_pre_16_36_7 CONTINUESTMT_16_36_7) (= true_term (is CONTINUESTMT_16_36_7 T_int)) (= loc_pre_80_40_13 loc_80_40_13) (= loc_80_40_13 (asField loc_80_40_13 T_int)) (= STMTPRAGMA_pre_30_26_26 STMTPRAGMA_30_26_26) (= true_term (is STMTPRAGMA_30_26_26 T_int)) (= elements_pre_140_61_39 elements_140_61_39) (= elements_140_61_39 (asField elements_140_61_39 (array T_javafe_ast_Identifier))) (< (fClosedTime elements_140_61_39) alloc) (forall ((?s_4_ Int)) (=> (not (= ?s_4_ null)) (not (= (S_select elements_140_61_39 ?s_4_) null)))) (= loc_pre_116_22_13 loc_116_22_13) (= loc_116_22_13 (asField loc_116_22_13 T_int)) (= op_pre_27_26_13 op_27_26_13) (= op_27_26_13 (asField op_27_26_13 T_int)) (= locOpenParen_pre_131_30_13 locOpenParen_131_30_13) (= locOpenParen_131_30_13 (asField locOpenParen_131_30_13 T_int)) (= locGuardOpenParen_pre_23_13 locGuardOpenParen_23_13) (= locGuardOpenParen_23_13 (asField locGuardOpenParen_23_13 T_int)) (= LSHIFT_pre_15_30_26 LSHIFT_15_30_26) (= true_term (is LSHIFT_15_30_26 T_int)) (= locCloseBrace_pre_62_54_13 locCloseBrace_62_54_13) (= locCloseBrace_62_54_13 (asField locCloseBrace_62_54_13 T_int)) (= NULLLIT_pre_14_45_26 NULLLIT_14_45_26) (= true_term (is NULLLIT_14_45_26 T_int)) (= SUPEROBJECTDESIGNATOR_pre_16_63_7 SUPEROBJECTDESIGNATOR_16_63_7) (= true_term (is SUPEROBJECTDESIGNATOR_16_63_7 T_int)) (= loc_pre_83_29_13 loc_83_29_13) (= loc_83_29_13 (asField loc_83_29_13 T_int)) (= LOCALVARDECL_pre_16_22_7 LOCALVARDECL_16_22_7) (= true_term (is LOCALVARDECL_16_22_7 T_int)) (= loc_pre_107_18_13 loc_107_18_13) (= loc_107_18_13 (asField loc_107_18_13 T_int)) (= punctuationStrings_pre_30_134_22 punctuationStrings_30_134_22) (= true_term (is punctuationStrings_30_134_22 ?v_1)) (= true_term (isAllocated punctuationStrings_30_134_22 alloc)) (= POSTFIXDEC_pre_15_63_26 POSTFIXDEC_15_63_26) (= true_term (is POSTFIXDEC_15_63_26 T_int)) (= CHARTYPE_pre_14_30_26 CHARTYPE_14_30_26) (= true_term (is CHARTYPE_14_30_26 T_int)) (= NEWINSTANCEEXPR_pre_16_49_7 NEWINSTANCEEXPR_16_49_7) (= true_term (is NEWINSTANCEEXPR_16_49_7 T_int)) (= tag_pre_28_30_13 tag_28_30_13) (= tag_28_30_13 (asField tag_28_30_13 T_int)) (= loc_pre_117_23_13 loc_117_23_13) (= loc_117_23_13 (asField loc_117_23_13 T_int)) (= type_pre_133_20_28 type_133_20_28) (= type_133_20_28 (asField type_133_20_28 T_javafe_ast_Type)) (< (fClosedTime type_133_20_28) alloc) (forall ((?s_5_ Int)) (=> (not (= ?s_5_ null)) (not (= (S_select type_133_20_28 ?s_5_) null)))) (= dims_pre_123_45_31 dims_123_45_31) (= dims_123_45_31 (asField dims_123_45_31 T_javafe_ast_ExprVec)) (< (fClosedTime dims_123_45_31) alloc) (forall ((?s_6_ Int)) (=> (not (= ?s_6_ null)) (not (= (S_select dims_123_45_31 ?s_6_) null)))) (= ASGSUB_pre_15_45_26 ASGSUB_15_45_26) (= true_term (is ASGSUB_15_45_26 T_int)) (= BREAKSTMT_pre_16_35_7 BREAKSTMT_16_35_7) (= true_term (is BREAKSTMT_16_35_7 T_int)) (= locDots_pre_141_31_29 locDots_141_31_29) (= locDots_141_31_29 (asField locDots_141_31_29 ?v_0)) (< (fClosedTime locDots_141_31_29) alloc) (forall ((?s_7_ Int)) (=> (not (= ?s_7_ null)) (not (= (S_select locDots_141_31_29 ?s_7_) null)))) (= otherStrings_pre_30_193_30 otherStrings_30_193_30) (= true_term (is otherStrings_30_193_30 ?v_1)) (= true_term (isAllocated otherStrings_30_193_30 alloc)) (= LT_pre_15_29_26 LT_15_29_26) (= true_term (is LT_15_29_26 T_int)) (= MODIFIERPRAGMA_pre_30_25_26 MODIFIERPRAGMA_30_25_26) (= true_term (is MODIFIERPRAGMA_30_25_26 T_int)) (= STRINGLIT_pre_14_44_26 STRINGLIT_14_44_26) (= true_term (is STRINGLIT_14_44_26 T_int)) (= TYPEOBJECTDESIGNATOR_pre_16_62_7 TYPEOBJECTDESIGNATOR_16_62_7) (= true_term (is TYPEOBJECTDESIGNATOR_16_62_7 T_int)) (= locDot_pre_84_21_13 locDot_84_21_13) (= locDot_84_21_13 (asField locDot_84_21_13 T_int)) (= INITBLOCK_pre_16_21_7 INITBLOCK_16_21_7) (= true_term (is INITBLOCK_16_21_7 T_int)) (= loc_pre_93_18_13 loc_93_18_13) (= loc_93_18_13 (asField loc_93_18_13 T_int)) (= locType_pre_79_21_13 locType_79_21_13) (= locType_79_21_13 (asField locType_79_21_13 T_int)) (= noTokens_pre_30_212_27 noTokens_30_212_27) (= true_term (is noTokens_30_212_27 T_int)) (= loc_pre_103_20_13 loc_103_20_13) (= loc_103_20_13 (asField loc_103_20_13 T_int)) (= POSTFIXINC_pre_15_62_26 POSTFIXINC_15_62_26) (= true_term (is POSTFIXINC_15_62_26 T_int)) (= LONGTYPE_pre_14_29_26 LONGTYPE_14_29_26) (= true_term (is LONGTYPE_14_29_26 T_int)) (= ARRAYREFEXPR_pre_16_48_7 ARRAYREFEXPR_16_48_7) (= true_term (is ARRAYREFEXPR_16_48_7 T_int)) (= ASGADD_pre_15_44_26 ASGADD_15_44_26) (= true_term (is ASGADD_15_44_26 T_int)) (= THROWSTMT_pre_16_34_7 THROWSTMT_16_34_7) (= true_term (is THROWSTMT_16_34_7 T_int)) (= count_pre_140_67_33 count_140_67_33) (= count_140_67_33 (asField count_140_67_33 T_int)) (= elements_pre_124_61_33 elements_124_61_33) (= elements_124_61_33 (asField elements_124_61_33 (array T_javafe_ast_Expr))) (< (fClosedTime elements_124_61_33) alloc) (forall ((?s_8_ Int)) (=> (not (= ?s_8_ null)) (not (= (S_select elements_124_61_33 ?s_8_) null)))) (= TYPESIG_pre_29_6_28 TYPESIG_29_6_28) (= true_term (is TYPESIG_29_6_28 T_int)) (= LE_pre_15_28_26 LE_15_28_26) (= true_term (is LE_15_28_26 T_int)) (= DOUBLELIT_pre_14_43_26 DOUBLELIT_14_43_26) (= true_term (is DOUBLELIT_14_43_26 T_int)) (= EXPROBJECTDESIGNATOR_pre_16_61_7 EXPROBJECTDESIGNATOR_16_61_7) (= true_term (is EXPROBJECTDESIGNATOR_16_61_7 T_int)) (= locKeyword_pre_118_45_13 locKeyword_118_45_13) (= locKeyword_118_45_13 (asField locKeyword_118_45_13 T_int)) (= METHODDECL_pre_16_20_7 METHODDECL_16_20_7) (= true_term (is METHODDECL_16_20_7 T_int)) (= locCloseBracket_pre_121_23_13 locCloseBracket_121_23_13) (= locCloseBracket_121_23_13 (asField locCloseBracket_121_23_13 T_int)) (= syntax_pre_24_28_29 syntax_24_28_29) (= syntax_24_28_29 (asField syntax_24_28_29 T_boolean)) (= loc_pre_109_18_13 loc_109_18_13) (= loc_109_18_13 (asField loc_109_18_13 T_int)) (= DEC_pre_15_59_26 DEC_15_59_26) (= true_term (is DEC_15_59_26 T_int)) (= LEXICALPRAGMA_pre_30_24_26 LEXICALPRAGMA_30_24_26) (= true_term (is LEXICALPRAGMA_30_24_26 T_int)) (= INTTYPE_pre_14_28_26 INTTYPE_14_28_26) (= true_term (is INTTYPE_14_28_26 T_int)) (= THISEXPR_pre_16_47_7 THISEXPR_16_47_7) (= true_term (is THISEXPR_16_47_7 T_int)) (= loc_pre_100_18_13 loc_100_18_13) (= loc_100_18_13 (asField loc_100_18_13 T_int)) (= ASGREM_pre_15_43_26 ASGREM_15_43_26) (= true_term (is ASGREM_15_43_26 T_int)) (= RETURNSTMT_pre_16_33_7 RETURNSTMT_16_33_7) (= true_term (is RETURNSTMT_16_33_7 T_int)) (= LAST_KEYWORD_pre_30_103_26 LAST_KEYWORD_30_103_26) (= true_term (is LAST_KEYWORD_30_103_26 T_int)) (= GT_pre_15_27_26 GT_15_27_26) (= true_term (is GT_15_27_26 T_int)) (= locOpenParen_pre_132_28_13 locOpenParen_132_28_13) (= locOpenParen_132_28_13 (asField locOpenParen_132_28_13 T_int)) (= FLOATLIT_pre_14_42_26 FLOATLIT_14_42_26) (= true_term (is FLOATLIT_14_42_26 T_int)) (= CLASSLITERAL_pre_16_60_7 CLASSLITERAL_16_60_7) (= true_term (is CLASSLITERAL_16_60_7 T_int)) (= CONSTRUCTORDECL_pre_16_19_7 CONSTRUCTORDECL_16_19_7) (= true_term (is CONSTRUCTORDECL_16_19_7 T_int)) (= FIRST_KEYWORD_pre_30_51_26 FIRST_KEYWORD_30_51_26) (= true_term (is FIRST_KEYWORD_30_51_26 T_int)) (= INC_pre_15_58_26 INC_15_58_26) (= true_term (is INC_15_58_26 T_int)) (= superCall_pre_118_24_17 superCall_118_24_17) (= superCall_118_24_17 (asField superCall_118_24_17 T_boolean)) (= BOOLEANTYPE_pre_14_27_26 BOOLEANTYPE_14_27_26) (= true_term (is BOOLEANTYPE_14_27_26 T_int)) (= ARRAYINIT_pre_16_46_7 ARRAYINIT_16_46_7) (= true_term (is ARRAYINIT_16_46_7 T_int)) (= locCloseParen_pre_128_21_13 locCloseParen_128_21_13) (= locCloseParen_128_21_13 (asField locCloseParen_128_21_13 T_int)) (= owner_pre_8_35_28 owner_8_35_28) (= owner_8_35_28 (asField owner_8_35_28 T_java_lang_Object)) (< (fClosedTime owner_8_35_28) alloc) (= ASGDIV_pre_15_42_26 ASGDIV_15_42_26) (= true_term (is ASGDIV_15_42_26 T_int)) (= locOpenBrace_pre_62_51_13 locOpenBrace_62_51_13) (= locOpenBrace_62_51_13 (asField locOpenBrace_62_51_13 T_int)) (= locCloseParen_pre_127_24_13 locCloseParen_127_24_13) (= locCloseParen_127_24_13 (asField locCloseParen_127_24_13 T_int)) (= EVALSTMT_pre_16_32_7 EVALSTMT_16_32_7) (= true_term (is EVALSTMT_16_32_7 T_int)) (= count_pre_124_67_33 count_124_67_33) (= count_124_67_33 (asField count_124_67_33 T_int)) (= GE_pre_15_26_26 GE_15_26_26) (= true_term (is GE_15_26_26 T_int)) (= CHARLIT_pre_14_41_26 CHARLIT_14_41_26) (= true_term (is CHARLIT_14_41_26 T_int)) (= METHODINVOCATION_pre_16_59_7 METHODINVOCATION_16_59_7) (= true_term (is METHODINVOCATION_16_59_7 T_int)) (= INTERFACEDECL_pre_16_18_7 INTERFACEDECL_16_18_7) (= true_term (is INTERFACEDECL_16_18_7 T_int)) (= BITNOT_pre_15_57_26 BITNOT_15_57_26) (= true_term (is BITNOT_15_57_26 T_int)) (= IDENT_pre_14_25_26 IDENT_14_25_26) (= true_term (is IDENT_14_25_26 T_int)) (= CATCHCLAUSE_pre_16_45_7 CATCHCLAUSE_16_45_7) (= true_term (is CATCHCLAUSE_16_45_7 T_int)) (= loc_pre_115_29_13 loc_115_29_13) (= loc_115_29_13 (asField loc_115_29_13 T_int)) (= NULL_pre_30_82_26 NULL_30_82_26) (= true_term (is NULL_30_82_26 T_int)) (= ASGMUL_pre_15_41_26 ASGMUL_15_41_26) (= true_term (is ASGMUL_15_41_26 T_int)) (= SYNCHRONIZESTMT_pre_16_31_7 SYNCHRONIZESTMT_16_31_7) (= true_term (is SYNCHRONIZESTMT_16_31_7 T_int)) (= locOp_pre_26_43_13 locOp_26_43_13) (= locOp_26_43_13 (asField locOp_26_43_13 T_int)) (= loc_pre_20_13 loc_20_13) (= loc_20_13 (asField loc_20_13 T_int)) (= locCloseBrace_pre_120_24_13 locCloseBrace_120_24_13) (= locCloseBrace_120_24_13 (asField locCloseBrace_120_24_13 T_int)) (= EQ_pre_15_25_26 EQ_15_25_26) (= true_term (is EQ_15_25_26 T_int)) (= locId_pre_77_38_13 locId_77_38_13) (= locId_77_38_13 (asField locId_77_38_13 T_int)) (= LONGLIT_pre_14_40_26 LONGLIT_14_40_26) (= true_term (is LONGLIT_14_40_26 T_int)) (= AMBIGUOUSMETHODINVOCATION_pre_16_58_7 AMBIGUOUSMETHODINVOCATION_16_58_7) (= true_term (is AMBIGUOUSMETHODINVOCATION_16_58_7 T_int)) (= CLASSDECL_pre_16_17_7 CLASSDECL_16_17_7) (= true_term (is CLASSDECL_16_17_7 T_int)) (= loc_pre_112_22_13 loc_112_22_13) (= loc_112_22_13 (asField loc_112_22_13 T_int)) (= elements_pre_73_61_39 elements_73_61_39) (= elements_73_61_39 (asField elements_73_61_39 (array T_javafe_ast_MethodDecl))) (< (fClosedTime elements_73_61_39) alloc) (forall ((?s_9_ Int)) (=> (not (= ?s_9_ null)) (not (= (S_select elements_73_61_39 ?s_9_) null)))) (= NOT_pre_15_56_26 NOT_15_56_26) (= true_term (is NOT_15_56_26 T_int)) (= locDot_pre_118_41_13 locDot_118_41_13) (= locDot_118_41_13 (asField locDot_118_41_13 T_int)) (= CONSTRUCTORINVOCATION_pre_16_44_7 CONSTRUCTORINVOCATION_16_44_7) (= true_term (is CONSTRUCTORINVOCATION_16_44_7 T_int)) (= locOpenParen_pre_104_23_13 locOpenParen_104_23_13) (= locOpenParen_104_23_13 (asField locOpenParen_104_23_13 T_int)) (= locOpenBracket_pre_121_20_13 locOpenBracket_121_20_13) (= locOpenBracket_121_20_13 (asField locOpenBracket_121_20_13 T_int)) (= ASSIGN_pre_15_40_26 ASSIGN_15_40_26) (= true_term (is ASSIGN_15_40_26 T_int)) (= DOSTMT_pre_16_30_7 DOSTMT_16_30_7) (= true_term (is DOSTMT_16_30_7 T_int)) (= locOpenBrace_pre_80_36_13 locOpenBrace_80_36_13) (= locOpenBrace_80_36_13 (asField locOpenBrace_80_36_13 T_int)) (= NE_pre_15_24_26 NE_15_24_26) (= true_term (is NE_15_24_26 T_int)) (= INTLIT_pre_14_39_26 INTLIT_14_39_26) (= true_term (is INTLIT_14_39_26 T_int)) (= locId_pre_132_25_13 locId_132_25_13) (= locId_132_25_13 (asField locId_132_25_13 T_int)) (= FIELDACCESS_pre_16_57_7 FIELDACCESS_16_57_7) (= true_term (is FIELDACCESS_16_57_7 T_int)) (= locOpenBracket_pre_138_21_13 locOpenBracket_138_21_13) (= locOpenBracket_138_21_13 (asField locOpenBracket_138_21_13 T_int)) (= ONDEMANDIMPORTDECL_pre_16_16_7 ONDEMANDIMPORTDECL_16_16_7) (= true_term (is ONDEMANDIMPORTDECL_16_16_7 T_int)) (= init_pre_123_35_19 init_123_35_19) (= init_123_35_19 (asField init_123_35_19 T_javafe_ast_ArrayInit)) (< (fClosedTime init_123_35_19) alloc) (= UNARYSUB_pre_15_55_26 UNARYSUB_15_55_26) (= true_term (is UNARYSUB_15_55_26 T_int)) (= returnType_pre_79_18_28 returnType_79_18_28) (= returnType_79_18_28 (asField returnType_79_18_28 T_javafe_ast_Type)) (< (fClosedTime returnType_79_18_28) alloc) (forall ((?s_10_ Int)) (=> (not (= ?s_10_ null)) (not (= (S_select returnType_79_18_28 ?s_10_) null)))) (= loc_pre_114_16_13 loc_114_16_13) (= loc_114_16_13 (asField loc_114_16_13 T_int)) (= loc_pre_129_22_13 loc_129_22_13) (= loc_129_22_13 (asField loc_129_22_13 T_int)) (= TRYCATCHSTMT_pre_16_43_7 TRYCATCHSTMT_16_43_7) (= true_term (is TRYCATCHSTMT_16_43_7 T_int)) (= body_pre_80_34_19 body_80_34_19) (= body_80_34_19 (asField body_80_34_19 T_javafe_ast_BlockStmt)) (< (fClosedTime body_80_34_19) alloc) (= loc_pre_126_21_13 loc_126_21_13) (= loc_126_21_13 (asField loc_126_21_13 T_int)) (= STAR_pre_15_37_26 STAR_15_37_26) (= true_term (is STAR_15_37_26 T_int)) (= WHILESTMT_pre_16_29_7 WHILESTMT_16_29_7) (= true_term (is WHILESTMT_16_29_7 T_int)) (= loc_pre_139_20_13 loc_139_20_13) (= loc_139_20_13 (asField loc_139_20_13 T_int)) (= BITAND_pre_15_23_26 BITAND_15_23_26) (= true_term (is BITAND_15_23_26 T_int)) (= locOpenParen_pre_127_21_13 locOpenParen_127_21_13) (= locOpenParen_127_21_13 (asField locOpenParen_127_21_13 T_int)) (= BOOLEANLIT_pre_14_38_26 BOOLEANLIT_14_38_26) (= true_term (is BOOLEANLIT_14_38_26 T_int)) (= VARIABLEACCESS_pre_16_56_7 VARIABLEACCESS_16_56_7) (= true_term (is VARIABLEACCESS_16_56_7 T_int)) (= SINGLETYPEIMPORTDECL_pre_16_15_7 SINGLETYPEIMPORTDECL_16_15_7) (= true_term (is SINGLETYPEIMPORTDECL_16_15_7 T_int)) (= UNARYADD_pre_15_54_26 UNARYADD_15_54_26) (= true_term (is UNARYADD_15_54_26 T_int)) (= locId_pre_62_48_13 locId_62_48_13) (= locId_62_48_13 (asField locId_62_48_13 T_int)) (= TRYFINALLYSTMT_pre_16_42_7 TRYFINALLYSTMT_16_42_7) (= true_term (is TRYFINALLYSTMT_16_42_7 T_int)) (= count_pre_73_67_33 count_73_67_33) (= count_73_67_33 (asField count_73_67_33 T_int)) (= MOD_pre_15_36_26 MOD_15_36_26) (= true_term (is MOD_15_36_26 T_int)) (= otherCodes_pre_30_202_27 otherCodes_30_202_27) (= true_term (is otherCodes_30_202_27 ?v_0)) (= true_term (isAllocated otherCodes_30_202_27 alloc)) (= loc_pre_119_22_13 loc_119_22_13) (= loc_119_22_13 (asField loc_119_22_13 T_int)) (= loc_pre_25_50_13 loc_25_50_13) (= loc_25_50_13 (asField loc_25_50_13 T_int)) (= CLASSDECLSTMT_pre_16_28_7 CLASSDECLSTMT_16_28_7) (= true_term (is CLASSDECLSTMT_16_28_7 T_int)) (= locOpenBrace_pre_120_21_13 locOpenBrace_120_21_13) (= locOpenBrace_120_21_13 (asField locOpenBrace_120_21_13 T_int)) (= BITXOR_pre_15_22_26 BITXOR_15_22_26) (= true_term (is BITXOR_15_22_26 T_int)) (= locOpenParen_pre_128_18_13 locOpenParen_128_18_13) (= locOpenParen_128_18_13 (asField locOpenParen_128_18_13 T_int)) (= locDot_pre_122_29_13 locDot_122_29_13) (= locDot_122_29_13 (asField locDot_122_29_13 T_int)) (= SHORTTYPE_pre_14_36_26 SHORTTYPE_14_36_26) (= true_term (is SHORTTYPE_14_36_26 T_int)) (= AMBIGUOUSVARIABLEACCESS_pre_16_55_7 AMBIGUOUSVARIABLEACCESS_16_55_7) (= true_term (is AMBIGUOUSVARIABLEACCESS_16_55_7 T_int)) (= type_pre_77_35_28 type_77_35_28) (= type_77_35_28 (asField type_77_35_28 T_javafe_ast_Type)) (< (fClosedTime type_77_35_28) alloc) (forall ((?s_11_ Int)) (=> (not (= ?s_11_ null)) (not (= (S_select type_77_35_28 ?s_11_) null)))) (= COMPILATIONUNIT_pre_16_14_7 COMPILATIONUNIT_16_14_7) (= true_term (is COMPILATIONUNIT_16_14_7 T_int)) (= ASGBITXOR_pre_15_51_26 ASGBITXOR_15_51_26) (= true_term (is ASGBITXOR_15_51_26 T_int)) (= tag_pre_25_32_13 tag_25_32_13) (= tag_25_32_13 (asField tag_25_32_13 T_int)) (= punctuationCodes_pre_30_164_19 punctuationCodes_30_164_19) (= true_term (is punctuationCodes_30_164_19 ?v_0)) (= true_term (isAllocated punctuationCodes_30_164_19 alloc)) (= NULL_pre_13_60_26 NULL_13_60_26) (= true_term (is NULL_13_60_26 T_int)) (= SWITCHLABEL_pre_16_41_7 SWITCHLABEL_16_41_7) (= true_term (is SWITCHLABEL_16_41_7 T_int)) (= loc_pre_106_18_13 loc_106_18_13) (= loc_106_18_13 (asField loc_106_18_13 T_int)) (= locOp_pre_27_32_13 locOp_27_32_13) (= locOp_27_32_13 (asField locOp_27_32_13 T_int)) (= DIV_pre_15_35_26 DIV_15_35_26) (= true_term (is DIV_15_35_26 T_int)) (= VARDECLSTMT_pre_16_27_7 VARDECLSTMT_16_27_7) (= true_term (is VARDECLSTMT_16_27_7 T_int)) (= locOpenParen_pre_122_52_13 locOpenParen_122_52_13) (= locOpenParen_122_52_13 (asField locOpenParen_122_52_13 T_int)) (= locFirstSemi_pre_113_36_13 locFirstSemi_113_36_13) (= locFirstSemi_113_36_13 (asField locFirstSemi_113_36_13 T_int)) (= elements_pre_72_61_38 elements_72_61_38) (= elements_72_61_38 (asField elements_72_61_38 (array T_javafe_ast_FieldDecl))) (< (fClosedTime elements_72_61_38) alloc) (forall ((?s_12_ Int)) (=> (not (= ?s_12_ null)) (not (= (S_select elements_72_61_38 ?s_12_) null)))) (= BITOR_pre_15_21_26 BITOR_15_21_26) (= true_term (is BITOR_15_21_26 T_int)) (= locColon_pre_125_25_13 locColon_125_25_13) (= locColon_125_25_13 (asField locColon_125_25_13 T_int)) (= BYTETYPE_pre_14_35_26 BYTETYPE_14_35_26) (= true_term (is BYTETYPE_14_35_26 T_int)) (= PARENEXPR_pre_16_54_7 PARENEXPR_16_54_7) (= true_term (is PARENEXPR_16_54_7 T_int)) (= stmt_pre_17_28 stmt_17_28) (= stmt_17_28 (asField stmt_17_28 T_javafe_ast_Stmt)) (< (fClosedTime stmt_17_28) alloc) (forall ((?s_13_ Int)) (=> (not (= ?s_13_ null)) (not (= (S_select stmt_17_28 ?s_13_) null)))) (= ASGBITOR_pre_15_50_26 ASGBITOR_15_50_26) (= true_term (is ASGBITOR_15_50_26 T_int)) (= SKIPSTMT_pre_16_40_7 SKIPSTMT_16_40_7) (= true_term (is SKIPSTMT_16_40_7 T_int)) (= enclosingInstance_pre_118_37_14 enclosingInstance_118_37_14) (= enclosingInstance_118_37_14 (asField enclosingInstance_118_37_14 T_javafe_ast_Expr)) (< (fClosedTime enclosingInstance_118_37_14) alloc) (= type_pre_126_18_28 type_126_18_28) (= type_126_18_28 (asField type_126_18_28 T_javafe_ast_Type)) (< (fClosedTime type_126_18_28) alloc) (forall ((?s_14_ Int)) (=> (not (= ?s_14_ null)) (not (= (S_select type_126_18_28 ?s_14_) null)))) (= locCloseBrace_pre_91_25_13 locCloseBrace_91_25_13) (= locCloseBrace_91_25_13 (asField locCloseBrace_91_25_13 T_int)) (= SUB_pre_15_34_26 SUB_15_34_26) (= true_term (is SUB_15_34_26 T_int)) (= COMPOUNDNAME_pre_16_67_7 COMPOUNDNAME_16_67_7) (= true_term (is COMPOUNDNAME_16_67_7 T_int)) (= locDot_pre_133_23_13 locDot_133_23_13) (= locDot_133_23_13 (asField locDot_133_23_13 T_int)) (= ids_pre_141_19_37 ids_141_19_37) (= ids_141_19_37 (asField ids_141_19_37 T_javafe_ast_IdentifierVec)) (< (fClosedTime ids_141_19_37) alloc) (forall ((?s_15_ Int)) (=> (not (= ?s_15_ null)) (not (= (S_select ids_141_19_37 ?s_15_) null)))) (= SWITCHSTMT_pre_16_26_7 SWITCHSTMT_16_26_7) (= true_term (is SWITCHSTMT_16_26_7 T_int)) (= loc_pre_104_20_13 loc_104_20_13) (= loc_104_20_13 (asField loc_104_20_13 T_int)) (= locId_pre_130_24_13 locId_130_24_13) (= locId_130_24_13 (asField locId_130_24_13 T_int)) (= keywordStrings_pre_30_181_30 keywordStrings_30_181_30) (= true_term (is keywordStrings_30_181_30 ?v_1)) (= true_term (isAllocated keywordStrings_30_181_30 alloc)) (= NULLTYPE_pre_14_34_26 NULLTYPE_14_34_26) (= true_term (is NULLTYPE_14_34_26 T_int)) (= CASTEXPR_pre_16_53_7 CASTEXPR_16_53_7) (= true_term (is CASTEXPR_16_53_7 T_int)) (= type_pre_127_18_28 type_127_18_28) (= type_127_18_28 (asField type_127_18_28 T_javafe_ast_Type)) (< (fClosedTime type_127_18_28) alloc) (forall ((?s_16_ Int)) (=> (not (= ?s_16_ null)) (not (= (S_select type_127_18_28 ?s_16_) null)))) (= locFinally_pre_116_25_13 locFinally_116_25_13) (= locFinally_116_25_13 (asField locFinally_116_25_13 T_int)) (= ASGBITAND_pre_15_49_26 ASGBITAND_15_49_26) (= true_term (is ASGBITAND_15_49_26 T_int)) (= FORSTMT_pre_16_39_7 FORSTMT_16_39_7) (= true_term (is FORSTMT_16_39_7 T_int)) (= locId_pre_80_43_13 locId_80_43_13) (= locId_80_43_13 (asField locId_80_43_13 T_int)) (= elemType_pre_138_18_28 elemType_138_18_28) (= elemType_138_18_28 (asField elemType_138_18_28 T_javafe_ast_Type)) (< (fClosedTime elemType_138_18_28) alloc) (forall ((?s_17_ Int)) (=> (not (= ?s_17_ null)) (not (= (S_select elemType_138_18_28 ?s_17_) null)))) (= loc_pre_62_45_13 loc_62_45_13) (= loc_62_45_13 (asField loc_62_45_13 T_int)) (= ADD_pre_15_33_26 ADD_15_33_26) (= true_term (is ADD_15_33_26 T_int)) (= SIMPLENAME_pre_16_66_7 SIMPLENAME_16_66_7) (= true_term (is SIMPLENAME_16_66_7 T_int)) (= BLOCKSTMT_pre_16_25_7 BLOCKSTMT_16_25_7) (= true_term (is BLOCKSTMT_16_25_7 T_int)) (= value_pre_25_45_16 value_25_45_16) (= value_25_45_16 (asField value_25_45_16 T_java_lang_Object)) (< (fClosedTime value_25_45_16) alloc) (= loc_pre_28_35_13 loc_28_35_13) (= loc_28_35_13 (asField loc_28_35_13 T_int)) (= TYPEMODIFIERPRAGMA_pre_30_28_26 TYPEMODIFIERPRAGMA_30_28_26) (= true_term (is TYPEMODIFIERPRAGMA_30_28_26 T_int)) (= elems_pre elems) (= elems (asElems elems)) (< (eClosedTime elems) alloc) (= LS (asLockSet LS)) (= alloc_pre alloc)) (not (and (= true_term (is this T_javafe_ast_WhileStmt)) (= true_term (isAllocated this alloc)) ?v_3 (forall ((?brokenObj Int)) (=> (and (= true_term (is ?brokenObj T_javafe_ast_WhileStmt)) (not (= ?brokenObj null))) (not (= (S_select locGuardOpenParen_23_13 ?brokenObj) NULL_13_60_26)))) (forall ((?brokenObj_1_ Int)) (=> (and (= true_term (is ?brokenObj_1_ T_javafe_ast_WhileStmt)) (not (= ?brokenObj_1_ null))) (not (= (S_select loc_20_13 ?brokenObj_1_) NULL_13_60_26)))) (= RES (S_select loc_20_13 this)) (= true_term true_term) (or (not ?v_2) (and ?v_2 (or (not (=> (and ?v_2 (not (and ?v_4 ?v_3))) ?v_5)) (not (=> (and ?v_2 ?v_4 ?v_3 (= true_term (S_select syntax_24_28_29 (cast this T_javafe_ast_Type)))) ?v_5))))))))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/quantifiers/javafe.tc.CheckCompilationUnit.001.smt2 b/test/regress/regress0/quantifiers/javafe.tc.CheckCompilationUnit.001.smt2
deleted file mode 100644
index e0938975c..000000000
--- a/test/regress/regress0/quantifiers/javafe.tc.CheckCompilationUnit.001.smt2
+++ /dev/null
@@ -1,676 +0,0 @@
-(set-logic AUFLIA)
-(set-info :source | 
-  Simplify front end test suite.
-  This benchmark was translated by Michal Moskal.
-|)
-(set-info :smt-lib-version 2.0)
-(set-info :category "industrial")
-(set-info :status unsat)
-(declare-fun L_102.5 () Int)
-(declare-fun integralOr (Int Int) Int)
-(declare-fun type_86.35.28 () Int)
-(declare-fun RES_88.1_0_126.5_0_127.18_127.18 () Int)
-(declare-fun j_88.1_0_102.5_0_102.43 () Int)
-(declare-fun arrayShapeMore (Int Int) Int)
-(declare-fun typeEnv_pre_35.323.32 () Int)
-(declare-fun integralAnd (Int Int) Int)
-(declare-fun RES_6_ () Int)
-(declare-fun T_.TYPE () Int)
-(declare-fun T_javafe.ast.MethodDecl () Int)
-(declare-fun EC_127.12_1_ () Int)
-(declare-fun i_97.24_88.1_0_97.24_22.62.48 () Int)
-(declare-fun elems_pre_6.27.35 () Int)
-(declare-fun intFirst () Int)
-(declare-fun syntax_21.28.29 () Int)
-(declare-fun RES_88.1_0_126.5_0_144.29_144.29 () Int)
-(declare-fun tmp13_88.1_0_102.5_0_115.3 () Int)
-(declare-fun T_javafe.ast.FieldDecl () Int)
-(declare-fun RES_7_ () Int)
-(declare-fun eClosedTime (Int) Int)
-(declare-fun int_m9223372036854775808 () Int)
-(declare-fun EC_90.24 () Int)
-(declare-fun EC_88.1_0_126.5_0_136.7_136.7 () Int)
-(declare-fun elements_82.61.38 () Int)
-(declare-fun S_143.10 () Int)
-(declare-fun int_m2147483648 () Int)
-(declare-fun T_java.lang.Comparable () Int)
-(declare-fun T_javafe.ast.TypeName () Int)
-(declare-fun TYPEDECLELEMPRAGMA_pre_56.27.26 () Int)
-(declare-fun arrayPosition (Int) Int)
-(declare-fun loc_pre_88.40.13 () Int)
-(declare-fun TYPEDECLELEMPRAGMA_56.27.26 () Int)
-(declare-fun RES_8_ () Int)
-(declare-fun keywordStrings_56.181.30 () Int)
-(declare-fun select1 (Int Int) Int)
-(declare-fun select2 (Int Int Int) Int)
-(declare-fun RES_88.1_0_126.5_0_126.27_126.27 () Int)
-(declare-fun T_java.util.EscjavaKeyValue () Int)
-(declare-fun T_javafe.ast.TypeDecl () Int)
-(declare-fun EC_54.14_54.14 () Int)
-(declare-fun T_long () Int)
-(declare-fun RES_88.1_0_126.5_0_136.27_136.27 () Int)
-(declare-fun elements_17.61.39 () Int)
-(declare-fun RES_9_ () Int)
-(declare-fun T_javafe.filespace.Extension () Int)
-(declare-fun INTLIT_57.39.26 () Int)
-(declare-fun C_126.5 () Int)
-(declare-fun lockLE (Int Int) Bool)
-(declare-fun classLiteral (Int) Int)
-(declare-fun RES_88.1_0_102.5_1_102.35_102.35 () Int)
-(declare-fun S_142.5 () Int)
-(declare-fun lockLT (Int Int) Bool)
-(declare-fun RES_127.12 () Int)
-(declare-fun body_88.34.19 () Int)
-(declare-fun T_float () Int)
-(declare-fun alloc () Int)
-(declare-fun elems_77.1 () Int)
-(declare-fun id_26.32.34 () Int)
-(declare-fun EC_88.1_0_88.29_88.29 () Int)
-(declare-fun locOpenBrace_pre_88.36.13 () Int)
-(declare-fun T_javafe.ast.Modifiers () Int)
-(declare-fun asChild (Int Int) Int)
-(declare-fun CONCVARSYM (Int) Int)
-(declare-fun len_136.7_88.1_0_126.5_0_136.7_22.171.36 () Int)
-(declare-fun T_int () Int)
-(declare-fun EC_57.14_57.14 () Int)
-(declare-fun otherCodes_pre_56.202.27 () Int)
-(declare-fun EC_88.1_0_126.5_0_132.13_132.13 () Int)
-(declare-fun locId_86.38.13 () Int)
-(declare-fun RES_127.12_1_ () Int)
-(declare-fun otherStrings_pre_56.193.30 () Int)
-(declare-fun int_2147483647 () Int)
-(declare-fun T_javafe.ast.GenericBlockStmt () Int)
-(declare-fun elements_pre_17.61.39 () Int)
-(declare-fun int_9223372036854775807 () Int)
-(declare-fun RES_88.1_0_126.5_1_126.27_126.27 () Int)
-(declare-fun T_byte () Int)
-(declare-fun loc_6.30.13 () Int)
-(declare-fun punctuationStrings_56.134.22 () Int)
-(declare-fun j_loopold_88.1_0_102.14 () Int)
-(declare-fun typeName_19.15.32 () Int)
-(declare-fun store1 (Int Int Int) Int)
-(declare-fun store2 (Int Int Int Int) Int)
-(declare-fun body_pre_88.34.19 () Int)
-(declare-fun FIRST_KEYWORD_56.51.26 () Int)
-(declare-fun loc_57.14_57.14_15.98.40 () Int)
-(declare-fun S_115.3 () Int)
-(declare-fun owner_pre_4.35.28 () Int)
-(declare-fun checkedField_pre_30.33 () Int)
-(declare-fun max (Int) Int)
-(declare-fun T_javafe.ast.ImportDecl () Int)
-(declare-fun checkedField_30.33 () Int)
-(declare-fun T_java.util.Map () Int)
-(declare-fun LEXICALPRAGMA_pre_56.24.26 () Int)
-(declare-fun LONGLIT_57.40.26 () Int)
-(declare-fun noTokens_56.212.27 () Int)
-(declare-fun FLOATLIT_pre_57.42.26 () Int)
-(declare-fun count_17.67.33 () Int)
-(declare-fun RES_90.24 () Int)
-(declare-fun NULL_56.82.26 () Int)
-(declare-fun STMTPRAGMA_pre_56.26.26 () Int)
-(declare-fun L_88.1 () Int)
-(declare-fun EC_88.1_0_102.5_0_114.15_114.15 () Int)
-(declare-fun locOpenBrace_pre_26.51.13 () Int)
-(declare-fun noTokens_pre_56.212.27 () Int)
-(declare-fun otherStrings_56.193.30 () Int)
-(declare-fun integralDiv (Int Int) Int)
-(declare-fun NULL_15.60.26 () Int)
-(declare-fun T_javafe.ast.Identifier () Int)
-(declare-fun locCloseBrace_97.25.13 () Int)
-(declare-fun TYPEMODIFIERPRAGMA_56.28.26 () Int)
-(declare-fun locId_pre_86.38.13 () Int)
-(declare-fun EC_loopold_88.1_0 () Int)
-(declare-fun elems_6.27.35 () Int)
-(declare-fun T_javafe.ast.TagConstants () Int)
-(declare-fun T_java.lang.Class () Int)
-(declare-fun L_126.5 () Int)
-(declare-fun RES_52.18_52.18 () Int)
-(declare-fun T_java.lang.Object () Int)
-(declare-fun RES_88.1_0_126.5_0_141.6_141.6 () Int)
-(declare-fun returnType_pre_87.18.28 () Int)
-(declare-fun EC_88.1_0_102.5_0_113.21_113.21 () Int)
-(declare-fun T_javafe.parser.TagConstants () Int)
-(declare-fun pkgName_pre_6.21.14 () Int)
-(declare-fun STRINGLIT_57.44.26 () Int)
-(declare-fun imports_76.1 () Int)
-(declare-fun longLast () Int)
-(declare-fun T_javafe.ast.PrettyPrint () Int)
-(declare-fun termConditional (Int Int Int) Int)
-(declare-fun EC_88.1_0_102.5_0_111.21_111.21 () Int)
-(declare-fun BOOLEANLIT_57.38.26 () Int)
-(declare-fun i_loopold_88.10 () Int)
-(declare-fun locCloseBrace_pre_26.54.13 () Int)
-(declare-fun modifiers_pre_26.28.13 () Int)
-(declare-fun EC_52.5_1_ () Int)
-(declare-fun imports_pre_6.25.37 () Int)
-(declare-fun loc_pre_6.30.13 () Int)
-(declare-fun RES_90.24_1_ () Int)
-(declare-fun T_java.util.Dictionary () Int)
-(declare-fun bool_false () Int)
-(declare-fun Smt.true () Int)
-(declare-fun punctuationStrings_pre_56.134.22 () Int)
-(declare-fun EC_88.1_0_126.5_0_140.18_140.18 () Int)
-(declare-fun EC_88.1_0_102.5_0_116.22_116.22 () Int)
-(declare-fun name_pre_20.18.28 () Int)
-(declare-fun asLockSet (Int) Int)
-(declare-fun integralMod (Int Int) Int)
-(declare-fun T_javafe.ast.BlockStmt () Int)
-(declare-fun EC_88.1_0_90.32_90.32 () Int)
-(declare-fun count_pre_83.67.33 () Int)
-(declare-fun EC_104.21 () Int)
-(declare-fun EC_88.1_0_126.5_0_135.13_135.13 () Int)
-(declare-fun Smt.false () Int)
-(declare-fun typeof (Int) Int)
-(declare-fun int_18446744073709551615 () Int)
-(declare-fun RES_54.22_54.22 () Int)
-(declare-fun EC_88.1_0_97.24_97.24 () Int)
-(declare-fun owner_4.35.28 () Int)
-(declare-fun RES_88.1_0_97.40_97.40 () Int)
-(declare-fun length_22.50.25 () Int)
-(declare-fun DOUBLELIT_pre_57.43.26 () Int)
-(declare-fun stringCat (Int Int) Int)
-(declare-fun otherCodes_56.202.27 () Int)
-(declare-fun LAST_KEYWORD_pre_56.103.26 () Int)
-(declare-fun T_boolean () Int)
-(declare-fun EC_loopold_88.1_0_1_ () Int)
-(declare-fun EC_52.18_52.18 () Int)
-(declare-fun longFirst () Int)
-(declare-fun decorationType_5.48.27 () Int)
-(declare-fun returnType_87.18.28 () Int)
-(declare-fun T_java.util.Hashtable () Int)
-(declare-fun RES_10_ () Int)
-(declare-fun NULL_pre_15.60.26 () Int)
-(declare-fun EC_88.1_0_126.5_0_136.17_136.17 () Int)
-(declare-fun RES_11_ () Int)
-(declare-fun EC_10_ () Int)
-(declare-fun arrayFresh (Int Int Int Int Int Int Int) Bool)
-(declare-fun decorationType_pre_5.48.27 () Int)
-(declare-fun locId_26.48.13 () Int)
-(declare-fun locOpenBrace_88.36.13 () Int)
-(declare-fun EC_88.1_0_126.5_0_144.14_144.14 () Int)
-(declare-fun T_javafe.tc.Env () Int)
-(declare-fun locOpenBrace_pre_97.22.13 () Int)
-(declare-fun punctuationCodes_56.164.19 () Int)
-(declare-fun RES () Int)
-(declare-fun type_pre_86.35.28 () Int)
-(declare-fun msg_140.18_88.1_0_126.5_0_140.18_24.220.45 () Int)
-(declare-fun EC_11_ () Int)
-(declare-fun i_88.1_0_88.37 () Int)
-(declare-fun locType_pre_87.21.13 () Int)
-(declare-fun RES_88.1_0_126.5_0_136.7_136.7 () Int)
-(declare-fun LAST_KEYWORD_56.103.26 () Int)
-(declare-fun count_pre_25.67.33 () Int)
-(declare-fun S_118.9 () Int)
-(declare-fun RES_88.1_0_102.5_0_113.21_113.21 () Int)
-(declare-fun EC_12_ () Int)
-(declare-fun EC_88.1_0_126.5_0_127.18_127.18 () Int)
-(declare-fun intLast () Int)
-(declare-fun EC_88.1_0_102.5_0_102.35_102.35 () Int)
-(declare-fun arrayType () Int)
-(declare-fun typeEnv_35.323.32 () Int)
-(declare-fun FLOATLIT_57.42.26 () Int)
-(declare-fun RES_88.1_0_102.5_0_111.21_111.21 () Int)
-(declare-fun EC_88.1_0_102.5_0_114.24_114.24 () Int)
-(declare-fun boolEq (Int Int) Bool)
-(declare-fun EC_13_ () Int)
-(declare-fun count_pre_82.67.33 () Int)
-(declare-fun STMTPRAGMA_56.26.26 () Int)
-(declare-fun T_javafe.ast.Name () Int)
-(declare-fun arrayLength (Int) Int)
-(declare-fun RES_88.1_1_88.29_88.29 () Int)
-(declare-fun S_56.10 () Int)
-(declare-fun locOpenBrace_26.51.13 () Int)
-(declare-fun cast (Int Int) Int)
-(declare-fun asElems (Int) Int)
-(declare-fun locCloseBrace_pre_97.25.13 () Int)
-(declare-fun locId_pre_26.48.13 () Int)
-(declare-fun T_char () Int)
-(declare-fun i_111.21_88.1_0_102.5_0_111.21_22.62.48 () Int)
-(declare-fun whereDecoration_pre_35.597.41 () Int)
-(declare-fun other_136.27_88.1_0_126.5_0_136.27_22.42.42 () Int)
-(declare-fun EC_88.1_0_126.5_0_126.27_126.27 () Int)
-(declare-fun tmp17_cand_135.22 () Int)
-(declare-fun loc_18.18.13 () Int)
-(declare-fun T_javafe.tc.CheckCompilationUnit () Int)
-(declare-fun punctuationCodes_pre_56.164.19 () Int)
-(declare-fun T_javafe.ast.ASTNode () Int)
-(declare-fun RES_88.1_0_126.5_0_135.13_135.13 () Int)
-(declare-fun T_javafe.tc.EnvForCU () Int)
-(declare-fun locType_87.21.13 () Int)
-(declare-fun divides (Int Int) Int)
-(declare-fun name_20.18.28 () Int)
-(declare-fun length_pre_22.50.25 () Int)
-(declare-fun T_javafe.genericfile.GenericFile () Int)
-(declare-fun elements_83.61.39 () Int)
-(declare-fun RES_88.1_0_126.5_0_132.13_132.13 () Int)
-(declare-fun T_javafe.ast.GenericVarDecl () Int)
-(declare-fun T_javafe.ast.TypeDeclElem () Int)
-(declare-fun InRange (Int Int) Bool)
-(declare-fun loc_pre_18.18.13 () Int)
-(declare-fun inst_pre_36.29.44 () Int)
-(declare-fun MODIFIERPRAGMA_pre_56.25.26 () Int)
-(declare-fun EC_88.1_0_126.5_0_140.27_140.27 () Int)
-(declare-fun j_loopold_88.1_0_126.14 () Int)
-(declare-fun msg_114.15_88.1_0_102.5_0_114.15_24.220.45 () Int)
-(declare-fun EC_88.1_0_102.5_0_115.34_115.34 () Int)
-(declare-fun modifiers_26.28.13 () Int)
-(declare-fun CHARLIT_pre_57.41.26 () Int)
-(declare-fun INTLIT_pre_57.39.26 () Int)
-(declare-fun msg_56.6_56.6_16.69.34 () Int)
-(declare-fun tmp9_cand_88.1_0_102.5_0_113.6 () Bool)
-(declare-fun FIRST_KEYWORD_pre_56.51.26 () Int)
-(declare-fun S_57.35 () Int)
-(declare-fun refEQ (Int Int) Int)
-(declare-fun NULL_pre_56.82.26 () Int)
-(declare-fun T_javafe.ast.OperatorTags () Int)
-(declare-fun EC_loopold () Int)
-(declare-fun CHARLIT_57.41.26 () Int)
-(declare-fun T_javafe.tc.TypeSig () Int)
-(declare-fun EC_88.1_0_102.5_0_104.29_104.29 () Int)
-(declare-fun elements_pre_83.61.39 () Int)
-(declare-fun RES_88.1_0_102.5_0_114.15_114.15 () Int)
-(declare-fun BOOLEANLIT_pre_57.38.26 () Int)
-(declare-fun T_javafe.ast.ASTDecoration () Int)
-(declare-fun RES_88.1_0_126.5_0_144.14_144.14 () Int)
-(declare-fun IDENT_57.25.26 () Int)
-(declare-fun T_javafe.ast.GeneratedTags () Int)
-(declare-fun is (Int Int) Int)
-(declare-fun EC_88.1_0_102.5_0_111.37_111.37 () Int)
-(declare-fun locId_88.43.13 () Int)
-(declare-fun T_javafe.ast.TypeDeclVec () Int)
-(declare-fun integralEQ (Int Int) Int)
-(declare-fun RES_104.21 () Int)
-(declare-fun syntax_pre_21.28.29 () Int)
-(declare-fun boolNE (Int Int) Bool)
-(declare-fun EC_90.24_1_ () Int)
-(declare-fun isNewArray (Int) Int)
-(declare-fun S_117.9 () Int)
-(declare-fun loc_144.14_88.1_0_126.5_0_144.14_15.152.36 () Int)
-(declare-fun elems_pre () Int)
-(declare-fun T_javafe.ast.Stmt () Int)
-(declare-fun intShiftL (Int Int) Int)
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-(declare-fun multiply (Int Int) Int)
-(declare-fun T_javafe.util.ErrorSet () Int)
-(declare-fun RES_88.1_0_102.5_0_102.35_102.35 () Int)
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-(declare-fun EC_127.12 () Int)
-(declare-fun count_83.67.33 () Int)
-(declare-fun T_short () Int)
-(declare-fun elements_25.61.37 () Int)
-(declare-fun RES_88.1_0_102.5_0_114.24_114.24 () Int)
-(declare-fun alloc_pre () Int)
-(declare-fun loc_88.40.13 () Int)
-(declare-fun integralGT (Int Int) Int)
-(declare-fun EC () Int)
-(declare-fun boolAnd (Int Int) Bool)
-(declare-fun T_javafe.ast.Type () Int)
-(declare-fun loc_26.45.13 () Int)
-(declare-fun EC_1_ () Int)
-(declare-fun T_javafe.tc.MethodDeclVec () Int)
-(declare-fun arrayShapeOne (Int) Int)
-(declare-fun T_double () Int)
-(declare-fun EC_54.22_54.22 () Int)
-(declare-fun after_54.22_54.22 () Int)
-(declare-fun longShiftL (Int Int) Int)
-(declare-fun T_java.io.Serializable () Int)
-(declare-fun boolOr (Int Int) Bool)
-(declare-fun N2_88.1_0_102.5_0_110.2 () Int)
-(declare-fun int_4294967295 () Int)
-(declare-fun modulo (Int Int) Int)
-(declare-fun EC_88.1_0_126.5_0_144.29_144.29 () Int)
-(declare-fun EC_2_ () Int)
-(declare-fun EC_88.1_0_97.40_97.40 () Int)
-(declare-fun EC_67.1_67.1 () Int)
-(declare-fun locId_pre_88.43.13 () Int)
-(declare-fun sigDecoration_pre_33.104.38 () Int)
-(declare-fun C_88.1 () Int)
-(declare-fun C_102.5 () Int)
-(declare-fun loc_pre_26.45.13 () Int)
-(declare-fun keywordStrings_pre_56.181.30 () Int)
-(declare-fun locOpenBrace_97.22.13 () Int)
-(declare-fun LONGLIT_pre_57.40.26 () Int)
-(declare-fun RES_88.1_0_126.5_0_140.18_140.18 () Int)
-(declare-fun count_pre_17.67.33 () Int)
-(declare-fun RES_88.1_0_102.5_0_116.22_116.22 () Int)
-(declare-fun EC_88.1_0_126.5_0_141.6_141.6 () Int)
-(declare-fun EC_3_ () Int)
-(declare-fun imports_6.25.37 () Int)
-(declare-fun null () Int)
-(declare-fun EC_56.6_56.6 () Int)
-(declare-fun inst_36.29.44 () Int)
-(declare-fun elements_pre_25.61.37 () Int)
-(declare-fun j_88.1_0_126.5_0_126.35 () Int)
-(declare-fun T_java.lang.Boolean () Int)
-(declare-fun EC_52.5 () Int)
-(declare-fun EC_88.1_0_126.5_0_136.27_136.27 () Int)
-(declare-fun T_javafe.tc.FieldDeclVec () Int)
-(declare-fun T_java.lang.String () Int)
-(declare-fun EC_4_ () Int)
-(declare-fun asField (Int Int) Int)
-(declare-fun pkgName_6.21.14 () Int)
-(declare-fun EC_88.1_0_102.5_1_102.35_102.35 () Int)
-(declare-fun tmp9_cand_113.13 () Bool)
-(declare-fun TYPEMODIFIERPRAGMA_pre_56.28.26 () Int)
-(declare-fun elements_pre_82.61.38 () Int)
-(declare-fun boolImplies (Int Int) Bool)
-(declare-fun sigDecoration_33.104.38 () Int)
-(declare-fun EC_5_ () Int)
-(declare-fun integralLE (Int Int) Int)
-(declare-fun RES_1_ () Int)
-(declare-fun T_javafe.ast.ImportDeclVec () Int)
-(declare-fun EC_61.1_61.1 () Int)
-(declare-fun id_pre_26.32.34 () Int)
-(declare-fun T_javafe.ast.CompilationUnit () Int)
-(declare-fun RES_88.1_0_126.5_0_140.27_140.27 () Int)
-(declare-fun tokenType_pre_23.90.8 () Int)
-(declare-fun tmp22_88.1_0_126.5_0_141.3 () Int)
-(declare-fun integralLT (Int Int) Int)
-(declare-fun typeName_pre_19.15.32 () Int)
-(declare-fun T_javafe.ast.SingleTypeImportDecl () Int)
-(declare-fun count_25.67.33 () Int)
-(declare-fun vAllocTime (Int) Int)
-(declare-fun j_88.1_0_102.10 () Int)
-(declare-fun EC_6_ () Int)
-(declare-fun RES_88.1_0_102.5_0_115.34_115.34 () Int)
-(declare-fun T_java.lang.Cloneable () Int)
-(declare-fun RES_2_ () Int)
-(declare-fun boolNot (Int) Bool)
-(declare-fun refNE (Int Int) Int)
-(declare-fun integralXor (Int Int) Int)
-(declare-fun classDown (Int Int) Int)
-(declare-fun N1_88.1_0_96.5 () Int)
-(declare-fun T_javafe.util.Info () Int)
-(declare-fun EC_7_ () Int)
-(declare-fun integralNE (Int Int) Int)
-(declare-fun RES_88.1_0_102.5_0_104.29_104.29 () Int)
-(declare-fun RES_88.1_0_126.5_0_136.17_136.17 () Int)
-(declare-fun RES_3_ () Int)
-(declare-fun EC_88.1_0_126.5_1_126.27_126.27 () Int)
-(declare-fun count_82.67.33 () Int)
-(declare-fun STRINGLIT_pre_57.44.26 () Int)
-(declare-fun RES_88.1_0_102.5_0_111.37_111.37 () Int)
-(declare-fun tokenType_23.90.8 () Int)
-(declare-fun arrayParent (Int) Int)
-(declare-fun elemtype (Int) Int)
-(declare-fun DOUBLELIT_57.43.26 () Int)
-(declare-fun fClosedTime (Int) Int)
-(declare-fun MODIFIERPRAGMA_56.25.26 () Int)
-(declare-fun cu_48.60 () Int)
-(declare-fun array (Int) Int)
-(declare-fun EC_8_ () Int)
-(declare-fun T_javafe.ast.RoutineDecl () Int)
-(declare-fun T_javafe.util.Location () Int)
-(declare-fun LS () Int)
-(declare-fun RES_4_ () Int)
-(declare-fun whereDecoration_35.597.41 () Int)
-(declare-fun RES_88.1_0_90.32_90.32 () Int)
-(declare-fun ecReturn () Int)
-(declare-fun S_116.9 () Int)
-(declare-fun EC_88.1_1_88.29_88.29 () Int)
-(declare-fun isAllocated (Int Int) Bool)
-(declare-fun elems () Int)
-(declare-fun locCloseBrace_26.54.13 () Int)
-(declare-fun subtypes (Int Int) Bool)
-(declare-fun RES_88.1_0_88.29_88.29 () Int)
-(declare-fun EC_9_ () Int)
-(declare-fun RES_88.1_0_97.24_97.24 () Int)
-(declare-fun LEXICALPRAGMA_56.24.26 () Int)
-(declare-fun RES_5_ () Int)
-(declare-fun RES_57.14_57.14 () Int)
-(assert (subtypes T_javafe.ast.ImportDecl T_javafe.ast.ASTNode))
-(assert (= T_javafe.ast.ImportDecl (asChild T_javafe.ast.ImportDecl T_javafe.ast.ASTNode)))
-(assert (subtypes T_javafe.ast.Type T_javafe.ast.ASTNode))
-(assert (= T_javafe.ast.Type (asChild T_javafe.ast.Type T_javafe.ast.ASTNode)))
-(assert (subtypes T_java.util.EscjavaKeyValue T_java.lang.Object))
-(assert (subtypes T_javafe.ast.GenericVarDecl T_javafe.ast.ASTNode))
-(assert (= T_javafe.ast.GenericVarDecl (asChild T_javafe.ast.GenericVarDecl T_javafe.ast.ASTNode)))
-(assert (subtypes T_javafe.tc.MethodDeclVec T_java.lang.Object))
-(assert (= T_javafe.tc.MethodDeclVec (asChild T_javafe.tc.MethodDeclVec T_java.lang.Object)))
-(assert (subtypes T_javafe.genericfile.GenericFile T_java.lang.Object))
-(assert (subtypes T_java.io.Serializable T_java.lang.Object))
-(assert (subtypes T_javafe.ast.BlockStmt T_javafe.ast.GenericBlockStmt))
-(assert (= T_javafe.ast.BlockStmt (asChild T_javafe.ast.BlockStmt T_javafe.ast.GenericBlockStmt)))
-(assert (subtypes T_javafe.ast.Name T_javafe.ast.ASTNode))
-(assert (= T_javafe.ast.Name (asChild T_javafe.ast.Name T_javafe.ast.ASTNode)))
-(assert (subtypes T_javafe.ast.GenericBlockStmt T_javafe.ast.Stmt))
-(assert (= T_javafe.ast.GenericBlockStmt (asChild T_javafe.ast.GenericBlockStmt T_javafe.ast.Stmt)))
-(assert (subtypes T_javafe.ast.TypeName T_javafe.ast.Type))
-(assert (= T_javafe.ast.TypeName (asChild T_javafe.ast.TypeName T_javafe.ast.Type)))
-(assert (subtypes T_javafe.ast.GeneratedTags T_java.lang.Object))
-(assert (subtypes T_javafe.ast.CompilationUnit T_javafe.ast.ASTNode))
-(assert (= T_javafe.ast.CompilationUnit (asChild T_javafe.ast.CompilationUnit T_javafe.ast.ASTNode)))
-(assert (subtypes T_javafe.ast.RoutineDecl T_javafe.ast.ASTNode))
-(assert (= T_javafe.ast.RoutineDecl (asChild T_javafe.ast.RoutineDecl T_javafe.ast.ASTNode)))
-(assert (subtypes T_javafe.ast.RoutineDecl T_javafe.ast.TypeDeclElem))
-(assert (subtypes T_javafe.ast.ImportDeclVec T_java.lang.Object))
-(assert (= T_javafe.ast.ImportDeclVec (asChild T_javafe.ast.ImportDeclVec T_java.lang.Object)))
-(assert (subtypes T_java.lang.Boolean T_java.lang.Object))
-(assert (= T_java.lang.Boolean (asChild T_java.lang.Boolean T_java.lang.Object)))
-(assert (forall ((?t Int)) (! (= (subtypes ?t T_java.lang.Boolean) (= ?t T_java.lang.Boolean)) :pattern ((subtypes ?t T_java.lang.Boolean)) )))
-(assert (subtypes T_java.lang.Boolean T_java.io.Serializable))
-(assert (subtypes T_javafe.ast.PrettyPrint T_java.lang.Object))
-(assert (= T_javafe.ast.PrettyPrint (asChild T_javafe.ast.PrettyPrint T_java.lang.Object)))
-(assert (subtypes T_javafe.tc.CheckCompilationUnit T_java.lang.Object))
-(assert (= T_javafe.tc.CheckCompilationUnit (asChild T_javafe.tc.CheckCompilationUnit T_java.lang.Object)))
-(assert (subtypes T_javafe.ast.Stmt T_javafe.ast.ASTNode))
-(assert (= T_javafe.ast.Stmt (asChild T_javafe.ast.Stmt T_javafe.ast.ASTNode)))
-(assert (subtypes T_javafe.parser.TagConstants T_javafe.ast.TagConstants))
-(assert (= T_javafe.parser.TagConstants (asChild T_javafe.parser.TagConstants T_javafe.ast.TagConstants)))
-(assert (subtypes T_java.util.Hashtable T_java.util.Dictionary))
-(assert (= T_java.util.Hashtable (asChild T_java.util.Hashtable T_java.util.Dictionary)))
-(assert (subtypes T_java.util.Hashtable T_java.util.Map))
-(assert (subtypes T_java.util.Hashtable T_java.lang.Cloneable))
-(assert (subtypes T_java.util.Hashtable T_java.io.Serializable))
-(assert (subtypes T_javafe.util.ErrorSet T_java.lang.Object))
-(assert (= T_javafe.util.ErrorSet (asChild T_javafe.util.ErrorSet T_java.lang.Object)))
-(assert (subtypes T_javafe.util.Info T_java.lang.Object))
-(assert (= T_javafe.util.Info (asChild T_javafe.util.Info T_java.lang.Object)))
-(assert (subtypes T_java.lang.Comparable T_java.lang.Object))
-(assert (subtypes T_javafe.ast.TypeDeclElem T_java.lang.Object))
-(assert (subtypes T_javafe.ast.Modifiers T_java.lang.Object))
-(assert (= T_javafe.ast.Modifiers (asChild T_javafe.ast.Modifiers T_java.lang.Object)))
-(assert (subtypes T_java.lang.Cloneable T_java.lang.Object))
-(assert (subtypes T_javafe.filespace.Extension T_java.lang.Object))
-(assert (= T_javafe.filespace.Extension (asChild T_javafe.filespace.Extension T_java.lang.Object)))
-(assert (subtypes T_javafe.ast.TypeDeclVec T_java.lang.Object))
-(assert (= T_javafe.ast.TypeDeclVec (asChild T_javafe.ast.TypeDeclVec T_java.lang.Object)))
-(assert (subtypes T_javafe.ast.OperatorTags T_java.lang.Object))
-(assert (= T_javafe.ast.OperatorTags (asChild T_javafe.ast.OperatorTags T_java.lang.Object)))
-(assert (subtypes T_javafe.ast.OperatorTags T_javafe.ast.GeneratedTags))
-(assert (subtypes T_javafe.ast.ASTDecoration T_java.lang.Object))
-(assert (= T_javafe.ast.ASTDecoration (asChild T_javafe.ast.ASTDecoration T_java.lang.Object)))
-(assert (subtypes T_javafe.ast.TagConstants T_javafe.ast.OperatorTags))
-(assert (= T_javafe.ast.TagConstants (asChild T_javafe.ast.TagConstants T_javafe.ast.OperatorTags)))
-(assert (subtypes T_java.lang.String T_java.lang.Object))
-(assert (= T_java.lang.String (asChild T_java.lang.String T_java.lang.Object)))
-(assert (forall ((?t Int)) (! (= (subtypes ?t T_java.lang.String) (= ?t T_java.lang.String)) :pattern ((subtypes ?t T_java.lang.String)) )))
-(assert (subtypes T_java.lang.String T_java.io.Serializable))
-(assert (subtypes T_java.lang.String T_java.lang.Comparable))
-(assert (subtypes T_javafe.tc.Env T_java.lang.Object))
-(assert (= T_javafe.tc.Env (asChild T_javafe.tc.Env T_java.lang.Object)))
-(assert (subtypes T_javafe.ast.FieldDecl T_javafe.ast.GenericVarDecl))
-(assert (= T_javafe.ast.FieldDecl (asChild T_javafe.ast.FieldDecl T_javafe.ast.GenericVarDecl)))
-(assert (subtypes T_javafe.ast.FieldDecl T_javafe.ast.TypeDeclElem))
-(assert (subtypes T_javafe.ast.ASTNode T_java.lang.Object))
-(assert (= T_javafe.ast.ASTNode (asChild T_javafe.ast.ASTNode T_java.lang.Object)))
-(assert (subtypes T_javafe.ast.ASTNode T_java.lang.Cloneable))
-(assert (subtypes T_javafe.ast.Identifier T_java.lang.Object))
-(assert (= T_javafe.ast.Identifier (asChild T_javafe.ast.Identifier T_java.lang.Object)))
-(assert (forall ((?t Int)) (! (= (subtypes ?t T_javafe.ast.Identifier) (= ?t T_javafe.ast.Identifier)) :pattern ((subtypes ?t T_javafe.ast.Identifier)) )))
-(assert (subtypes T_javafe.ast.MethodDecl T_javafe.ast.RoutineDecl))
-(assert (= T_javafe.ast.MethodDecl (asChild T_javafe.ast.MethodDecl T_javafe.ast.RoutineDecl)))
-(assert (subtypes T_javafe.ast.TypeDecl T_javafe.ast.ASTNode))
-(assert (= T_javafe.ast.TypeDecl (asChild T_javafe.ast.TypeDecl T_javafe.ast.ASTNode)))
-(assert (subtypes T_javafe.ast.TypeDecl T_javafe.ast.TypeDeclElem))
-(assert (subtypes T_java.util.Map T_java.lang.Object))
-(assert (subtypes T_java.util.Map T_java.util.EscjavaKeyValue))
-(assert (subtypes T_javafe.tc.TypeSig T_javafe.ast.Type))
-(assert (= T_javafe.tc.TypeSig (asChild T_javafe.tc.TypeSig T_javafe.ast.Type)))
-(assert (subtypes T_javafe.tc.FieldDeclVec T_java.lang.Object))
-(assert (= T_javafe.tc.FieldDeclVec (asChild T_javafe.tc.FieldDeclVec T_java.lang.Object)))
-(assert (subtypes T_javafe.tc.EnvForCU T_javafe.tc.Env))
-(assert (= T_javafe.tc.EnvForCU (asChild T_javafe.tc.EnvForCU T_javafe.tc.Env)))
-(assert (subtypes T_javafe.util.Location T_java.lang.Object))
-(assert (= T_javafe.util.Location (asChild T_javafe.util.Location T_java.lang.Object)))
-(assert (subtypes T_javafe.ast.SingleTypeImportDecl T_javafe.ast.ImportDecl))
-(assert (= T_javafe.ast.SingleTypeImportDecl (asChild T_javafe.ast.SingleTypeImportDecl T_javafe.ast.ImportDecl)))
-(assert (subtypes T_java.util.Dictionary T_java.lang.Object))
-(assert (= T_java.util.Dictionary (asChild T_java.util.Dictionary T_java.lang.Object)))
-(assert (subtypes T_java.util.Dictionary T_java.util.EscjavaKeyValue))
-(assert (distinct arrayType T_boolean T_char T_byte T_short T_int T_long T_float T_double T_.TYPE T_javafe.ast.ImportDecl T_javafe.ast.Type T_java.util.EscjavaKeyValue T_javafe.ast.GenericVarDecl T_javafe.tc.MethodDeclVec T_javafe.genericfile.GenericFile T_java.io.Serializable T_javafe.ast.BlockStmt T_javafe.ast.Name T_javafe.ast.GenericBlockStmt T_javafe.ast.TypeName T_javafe.ast.GeneratedTags T_javafe.ast.CompilationUnit T_javafe.ast.RoutineDecl T_javafe.ast.ImportDeclVec T_java.lang.Boolean T_javafe.ast.PrettyPrint T_javafe.tc.CheckCompilationUnit T_javafe.ast.Stmt T_javafe.parser.TagConstants T_java.util.Hashtable T_javafe.util.ErrorSet T_javafe.util.Info T_java.lang.Comparable T_javafe.ast.TypeDeclElem T_javafe.ast.Modifiers T_java.lang.Cloneable T_javafe.filespace.Extension T_javafe.ast.TypeDeclVec T_javafe.ast.OperatorTags T_javafe.ast.ASTDecoration T_javafe.ast.TagConstants T_java.lang.String T_javafe.tc.Env T_javafe.ast.FieldDecl T_javafe.ast.ASTNode T_javafe.ast.Identifier T_javafe.ast.MethodDecl T_javafe.ast.TypeDecl T_java.util.Map T_javafe.tc.TypeSig T_javafe.tc.FieldDeclVec T_javafe.tc.EnvForCU T_javafe.util.Location T_java.lang.Object T_javafe.ast.SingleTypeImportDecl T_java.util.Dictionary))
-(assert (= Smt.true (is NULL_56.82.26 T_int)))
-(assert (= NULL_56.82.26 163))
-(assert (= Smt.true (is TYPEMODIFIERPRAGMA_56.28.26 T_int)))
-(assert (= TYPEMODIFIERPRAGMA_56.28.26 118))
-(assert (= Smt.true (is STRINGLIT_57.44.26 T_int)))
-(assert (= STRINGLIT_57.44.26 110))
-(assert (= Smt.true (is IDENT_57.25.26 T_int)))
-(assert (= IDENT_57.25.26 93))
-(assert (= Smt.true (is otherCodes_56.202.27 (array T_int))))
-(assert (not (= otherCodes_56.202.27 null)))
-(assert (= (typeof otherCodes_56.202.27) (array T_int)))
-(assert (= (arrayLength otherCodes_56.202.27) 15))
-(assert (= Smt.true (is LAST_KEYWORD_56.103.26 T_int)))
-(assert (= LAST_KEYWORD_56.103.26 183))
-(assert (= Smt.true (is punctuationStrings_56.134.22 (array T_java.lang.String))))
-(assert (not (= punctuationStrings_56.134.22 null)))
-(assert (= (typeof punctuationStrings_56.134.22) (array T_java.lang.String)))
-(assert (= (arrayLength punctuationStrings_56.134.22) 48))
-(assert (= Smt.true (is punctuationCodes_56.164.19 (array T_int))))
-(assert (not (= punctuationCodes_56.164.19 null)))
-(assert (= (typeof punctuationCodes_56.164.19) (array T_int)))
-(assert (= (arrayLength punctuationCodes_56.164.19) 48))
-(assert (= Smt.true (is whereDecoration_35.597.41 T_javafe.ast.ASTDecoration)))
-(assert (not (= whereDecoration_35.597.41 null)))
-(assert (= (typeof whereDecoration_35.597.41) T_javafe.ast.ASTDecoration))
-(assert (= Smt.true (is noTokens_56.212.27 T_int)))
-(assert (= Smt.true (is LEXICALPRAGMA_56.24.26 T_int)))
-(assert (= LEXICALPRAGMA_56.24.26 114))
-(assert (= Smt.true (is LONGLIT_57.40.26 T_int)))
-(assert (= LONGLIT_57.40.26 106))
-(assert (= Smt.true (is sigDecoration_33.104.38 T_javafe.ast.ASTDecoration)))
-(assert (not (= sigDecoration_33.104.38 null)))
-(assert (= (typeof sigDecoration_33.104.38) T_javafe.ast.ASTDecoration))
-(assert (= Smt.true (is TYPEDECLELEMPRAGMA_56.27.26 T_int)))
-(assert (= TYPEDECLELEMPRAGMA_56.27.26 117))
-(assert (= Smt.true (is NULL_15.60.26 T_int)))
-(assert (= NULL_15.60.26 0))
-(assert (= Smt.true (is DOUBLELIT_57.43.26 T_int)))
-(assert (= DOUBLELIT_57.43.26 109))
-(assert (= Smt.true (is FIRST_KEYWORD_56.51.26 T_int)))
-(assert (= FIRST_KEYWORD_56.51.26 133))
-(assert (= Smt.true (is INTLIT_57.39.26 T_int)))
-(assert (= INTLIT_57.39.26 105))
-(assert (= Smt.true (is STMTPRAGMA_56.26.26 T_int)))
-(assert (= STMTPRAGMA_56.26.26 116))
-(assert (= Smt.true (is keywordStrings_56.181.30 (array T_java.lang.String))))
-(assert (not (= keywordStrings_56.181.30 null)))
-(assert (= (typeof keywordStrings_56.181.30) (array T_java.lang.String)))
-(assert (= (arrayLength keywordStrings_56.181.30) 51))
-(assert (= Smt.true (is FLOATLIT_57.42.26 T_int)))
-(assert (= FLOATLIT_57.42.26 108))
-(assert (= Smt.true (is BOOLEANLIT_57.38.26 T_int)))
-(assert (= BOOLEANLIT_57.38.26 104))
-(assert (= Smt.true (is otherStrings_56.193.30 (array T_java.lang.String))))
-(assert (not (= otherStrings_56.193.30 null)))
-(assert (= (typeof otherStrings_56.193.30) (array T_java.lang.String)))
-(assert (= (arrayLength otherStrings_56.193.30) 15))
-(assert (= Smt.true (is MODIFIERPRAGMA_56.25.26 T_int)))
-(assert (= MODIFIERPRAGMA_56.25.26 115))
-(assert (= Smt.true (is CHARLIT_57.41.26 T_int)))
-(assert (= CHARLIT_57.41.26 107))
-(assert (forall ((?n Int)) (! (=> (and (<= 0 ?n) (< ?n 63)) (<= 1 (longShiftL 1 ?n))) :pattern ((longShiftL 1 ?n)) )))
-(assert (forall ((?n Int)) (! (=> (and (<= 0 ?n) (< ?n 31)) (<= 1 (intShiftL 1 ?n))) :pattern ((intShiftL 1 ?n)) )))
-(assert (forall ((?x Int) (?y Int)) (! (=> (and (<= 0 ?x) (<= 0 ?y)) (<= 0 (integralXor ?x ?y))) :pattern ((integralXor ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (let ((?v_0 (integralDiv ?x ?y))) (=> (and (<= 0 ?x) (< 0 ?y)) (and (<= 0 ?v_0) (<= ?v_0 ?x)))) :pattern ((integralDiv ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (let ((?v_0 (integralOr ?x ?y))) (=> (and (<= 0 ?x) (<= 0 ?y)) (and (<= ?x ?v_0) (<= ?y ?v_0)))) :pattern ((integralOr ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (=> (<= 0 ?y) (<= (integralAnd ?x ?y) ?y)) :pattern ((integralAnd ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (=> (<= 0 ?x) (<= (integralAnd ?x ?y) ?x)) :pattern ((integralAnd ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (=> (or (<= 0 ?x) (<= 0 ?y)) (<= 0 (integralAnd ?x ?y))) :pattern ((integralAnd ?x ?y)) )))
-(assert (forall ((?t Int)) (! (let ((?v_0 (classLiteral ?t))) (and (not (= ?v_0 null)) (= Smt.true (is ?v_0 T_java.lang.Class)) (isAllocated ?v_0 alloc))) :pattern ((classLiteral ?t)) )))
-(assert (forall ((?x Int) (?e Int)) (= (nonnullelements ?x ?e) (and (not (= ?x null)) (forall ((?i Int)) (=> (and (<= 0 ?i) (< ?i (arrayLength ?x))) (not (= (select1 (select1 ?e ?x) ?i) null))))))))
-(assert (forall ((?b Int) (?x Int) (?y Int)) (! (=> (not (= ?b Smt.true)) (= (termConditional ?b ?x ?y) ?y)) :pattern ((termConditional ?b ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (= (termConditional Smt.true ?x ?y) ?x) :pattern ((termConditional Smt.true ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (= (= (refNE ?x ?y) Smt.true) (not (= ?x ?y))) :pattern ((refNE ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (= (= (refEQ ?x ?y) Smt.true) (= ?x ?y)) :pattern ((refEQ ?x ?y)) )))
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RES_88.1_0_102.5_0_111.21_111.21 after_54.22_54.22)) (?v_44 (= EC_88.1_0_102.5_0_111.21_111.21 ecReturn))) (let ((?v_64 (=> ?v_44 (not (= RES_88.1_0_102.5_0_111.21_111.21 null)))) (?v_45 (= RES_88.1_0_97.24_97.24 RES_88.1_0_102.5_0_111.21_111.21)) (?v_46 (= EC_88.1_0_102.5_0_113.21_113.21 ecReturn))) (let ((?v_65 (or (and ?v_45 ?v_27 (= Smt.true (is RES_88.1_0_102.5_0_113.21_113.21 T_boolean)) ?v_46 (=> (and ?v_46 ?v_47) (not (= Smt.true RES_88.1_0_102.5_0_113.21_113.21))) (= tmp9_cand_88.1_0_102.5_0_113.6 (boolNot RES_88.1_0_102.5_0_113.21_113.21)) (= RES RES_88.1_0_102.5_0_113.21_113.21) (= EC EC_88.1_0_102.5_0_113.21_113.21) (= tmp9_cand_113.13 tmp9_cand_88.1_0_102.5_0_113.6)) (and (not ?v_45) ?v_17 (= RES RES_88.1_0_102.5_0_111.21_111.21) (= EC EC_88.1_0_102.5_0_111.21_111.21) (= tmp9_cand_113.13 (= Smt.true bool_false))))) (?v_110 (not (and ?v_48 (< 0 ?v_30)))) (?v_66 (= Smt.true (is RES_88.1_0_102.5_0_114.24_114.24 T_int))) (?v_49 (= EC_88.1_0_102.5_0_114.24_114.24 ecReturn)) (?v_52 (not (= RES_88.1_0_102.5_0_114.24_114.24 NULL_15.60.26)))) (let ((?v_67 (=> ?v_49 ?v_52)) (?v_68 (= Smt.true (is RES_88.1_0_102.5_0_115.34_115.34 T_java.lang.String))) (?v_69 (isAllocated RES_88.1_0_102.5_0_115.34_115.34 after_54.22_54.22)) (?v_50 (= EC_88.1_0_102.5_0_115.34_115.34 ecReturn))) (let ((?v_70 (=> ?v_50 (not (= RES_88.1_0_102.5_0_115.34_115.34 null)))) (?v_71 (= tmp13_88.1_0_102.5_0_115.3 (stringCat (stringCat S_115.3 RES_88.1_0_102.5_0_115.34_115.34) S_116.9))) (?v_72 (= Smt.true (is RES_88.1_0_102.5_0_116.22_116.22 T_java.lang.String))) (?v_73 (isAllocated RES_88.1_0_102.5_0_116.22_116.22 after_54.22_54.22)) (?v_51 (= EC_88.1_0_102.5_0_116.22_116.22 ecReturn))) (let ((?v_74 (=> ?v_51 (not (= RES_88.1_0_102.5_0_116.22_116.22 null)))) (?v_75 (= msg_114.15_88.1_0_102.5_0_114.15_24.220.45 (stringCat (stringCat (stringCat (stringCat tmp13_88.1_0_102.5_0_115.3 RES_88.1_0_102.5_0_116.22_116.22) S_117.9) RES_88.1_0_97.24_97.24) S_118.9))) (?v_76 (= EC_88.1_0_102.5_0_114.15_114.15 ecReturn)) (?v_80 (not (and ?v_36 ?v_35))) (?v_81 (= C_102.5 C_102.5))) (let ((?v_82 (or (and ?v_18 ?v_56 ?v_57 ?v_34 ?v_58 ?v_36 ?v_35 ?v_17 ?v_36 ?v_37 ?v_59 ?v_39 ?v_60 ?v_40 ?v_61 ?v_39 ?v_43 ?v_62 ?v_63 ?v_44 ?v_64 ?v_65 (or (and tmp9_cand_113.13 ?v_17 ?v_27 ?v_66 ?v_49 ?v_67 ?v_27 ?v_68 ?v_69 ?v_50 ?v_70 ?v_71 ?v_39 ?v_72 ?v_73 ?v_51 ?v_74 ?v_75 ?v_52 ?v_76 (not ?v_76) (= RES_1_ RES_88.1_0_102.5_0_114.15_114.15) (= EC_1_ EC_88.1_0_102.5_0_114.15_114.15)) (and (not tmp9_cand_113.13) ?v_17 (= RES_1_ RES) (= EC_1_ EC))) (= RES_104.21 RES_1_) (= EC_104.21 EC_1_)) (and ?v_18 ?v_56 ?v_57 ?v_34 ?v_58 ?v_80 ?v_17 ?v_17 ?v_81 (= RES_104.21 RES_88.1_0_102.5_0_104.29_104.29) (= EC_104.21 C_102.5)))) (?v_83 (= j_88.1_0_102.5_0_102.43 (+ j_88.1_0_102.10 1))) (?v_84 (= EC_88.1_0_102.5_1_102.35_102.35 ecReturn)) (?v_85 (= EC_3_ L_102.5))) (let ((?v_161 (or (and ?v_17 (or (and ?v_18 ?v_53 ?v_33 ?v_54 (not ?v_55) (= RES_2_ RES_88.1_0_102.5_0_102.35_102.35) (= EC_2_ L_102.5)) (and ?v_18 ?v_53 ?v_33 ?v_54 ?v_55 ?v_18 ?v_56 ?v_57 ?v_34 ?v_58 ?v_80 ?v_17 ?v_17 (not ?v_81) (= RES_2_ RES_88.1_0_102.5_0_104.29_104.29) (= EC_2_ C_102.5))) (= RES_3_ RES_2_) (= EC_3_ EC_2_)) (and ?v_17 ?v_18 ?v_53 ?v_33 ?v_54 ?v_55 ?v_82 ?v_83 ?v_17 ?v_18 (= Smt.true (is RES_88.1_0_102.5_1_102.35_102.35 T_int)) ?v_84 (=> ?v_84 (= RES_88.1_0_102.5_1_102.35_102.35 ?v_21)) (not (< j_88.1_0_102.5_0_102.43 RES_88.1_0_102.5_1_102.35_102.35)) (= RES_3_ RES_88.1_0_102.5_1_102.35_102.35) ?v_85))) (?v_162 (= RES_4_ RES_3_)) (?v_163 (= EC_4_ EC_3_)) (?v_164 (= 0 j_loopold_88.1_0_126.14)) (?v_165 (= EC_4_ EC_loopold_88.1_0_1_)) (?v_86 (not (= elems_77.1 null)))) (let ((?v_88 (not ?v_86)) (?v_117 (= Smt.true (is RES_88.1_0_126.5_0_126.27_126.27 T_int))) (?v_87 (= EC_88.1_0_126.5_0_126.27_126.27 ecReturn)) (?v_89 (select1 count_25.67.33 elems_77.1))) (let ((?v_118 (=> ?v_87 (= RES_88.1_0_126.5_0_126.27_126.27 ?v_89))) (?v_119 (< 0 RES_88.1_0_126.5_0_126.27_126.27)) (?v_113 (not (and ?v_48 (< 0 ?v_89)))) (?v_120 (= Smt.true (is RES_88.1_0_126.5_0_127.18_127.18 T_javafe.ast.TypeDecl))) (?v_121 (isAllocated RES_88.1_0_126.5_0_127.18_127.18 after_54.22_54.22)) (?v_90 (= EC_88.1_0_126.5_0_127.18_127.18 ecReturn)) (?v_91 (not (= RES_88.1_0_126.5_0_127.18_127.18 null)))) (let ((?v_122 (=> ?v_90 ?v_91)) (?v_140 (not (= RES_88.1_0_97.24_97.24 (select1 id_26.32.34 RES_88.1_0_126.5_0_127.18_127.18))))) (let ((?v_123 (not ?v_140)) (?v_108 (select1 pkgName_6.21.14 cu_48.60))) (let ((?v_92 (= ?v_108 null))) (let ((?v_99 (not ?v_92)) (?v_100 (= Smt.true (is RES_88.1_0_126.5_0_135.13_135.13 T_int))) (?v_93 (= EC_88.1_0_126.5_0_135.13_135.13 ecReturn))) (let ((?v_101 (=> ?v_93 (= RES_88.1_0_126.5_0_135.13_135.13 ?v_30))) (?v_102 (> RES_88.1_0_126.5_0_135.13_135.13 1)) (?v_103 (= Smt.true (is RES_88.1_0_126.5_0_136.17_136.17 T_int))) (?v_94 (= EC_88.1_0_126.5_0_136.17_136.17 ecReturn))) (let ((?v_104 (=> ?v_94 (= RES_88.1_0_126.5_0_136.17_136.17 ?v_30))) (?v_95 (= len_136.7_88.1_0_126.5_0_136.7_22.171.36 (- RES_88.1_0_126.5_0_136.17_136.17 1))) (?v_105 (= Smt.true (is RES_88.1_0_126.5_0_136.7_136.7 T_javafe.ast.Name))) (?v_106 (isAllocated RES_88.1_0_126.5_0_136.7_136.7 after_54.22_54.22)) (?v_96 (= EC_88.1_0_126.5_0_136.7_136.7 ecReturn)) (?v_97 (not (= RES_88.1_0_126.5_0_136.7_136.7 null)))) (let ((?v_107 (=> ?v_96 ?v_97)) (?v_141 (= Smt.true (is RES_88.1_0_126.5_0_132.13_132.13 T_int))) (?v_98 (= EC_88.1_0_126.5_0_132.13_132.13 ecReturn))) (let ((?v_142 (=> ?v_98 (= RES_88.1_0_126.5_0_132.13_132.13 ?v_30))) (?v_143 (= RES_88.1_0_126.5_0_132.13_132.13 1)) (?v_109 (= EC_88.1_0_126.5_0_136.27_136.27 ecReturn))) (let ((?v_144 (or (and ?v_102 ?v_27 ?v_103 ?v_94 ?v_104 ?v_27 ?v_95 ?v_105 ?v_106 ?v_96 ?v_107 ?v_7 ?v_97 (= other_136.27_88.1_0_126.5_0_136.27_22.42.42 ?v_108) (= Smt.true (is RES_88.1_0_126.5_0_136.27_136.27 T_boolean)) ?v_109 (=> (and ?v_109 (= other_136.27_88.1_0_126.5_0_136.27_22.42.42 null)) (not (= Smt.true RES_88.1_0_126.5_0_136.27_136.27))) (= RES_6_ RES_88.1_0_126.5_0_136.27_136.27) (= tmp17_cand_135.22 RES_88.1_0_126.5_0_136.27_136.27) (= EC_6_ EC_88.1_0_126.5_0_136.27_136.27)) (and (not ?v_102) ?v_17 (= RES_6_ RES_88.1_0_126.5_0_135.13_135.13) (= tmp17_cand_135.22 bool_false) (= EC_6_ EC_88.1_0_126.5_0_135.13_135.13)))) (?v_145 (= Smt.true tmp17_cand_135.22))) (let ((?v_124 (or (and ?v_92 ?v_17 ?v_27 ?v_141 ?v_98 ?v_142 (not ?v_143) ?v_17 (= RES_5_ RES_88.1_0_126.5_0_132.13_132.13) (= EC_5_ EC_88.1_0_126.5_0_132.13_132.13)) (and ?v_99 ?v_17 ?v_27 ?v_100 ?v_93 ?v_101 ?v_144 (not ?v_145) ?v_17 (= RES_5_ RES_6_) (= EC_5_ EC_6_)))) (?v_125 (= Smt.true (is RES_88.1_0_126.5_0_140.27_140.27 T_int))) (?v_111 (= EC_88.1_0_126.5_0_140.27_140.27 ecReturn)) (?v_116 (not (= RES_88.1_0_126.5_0_140.27_140.27 NULL_15.60.26)))) (let ((?v_126 (=> ?v_111 ?v_116)) (?v_127 (= Smt.true (is RES_88.1_0_126.5_0_141.6_141.6 T_java.lang.String))) (?v_128 (isAllocated RES_88.1_0_126.5_0_141.6_141.6 after_54.22_54.22)) (?v_112 (= EC_88.1_0_126.5_0_141.6_141.6 ecReturn))) (let ((?v_129 (=> ?v_112 (not (= RES_88.1_0_126.5_0_141.6_141.6 null)))) (?v_130 (= tmp22_88.1_0_126.5_0_141.3 (stringCat (stringCat (stringCat RES_88.1_0_126.5_0_141.6_141.6 S_142.5) RES_88.1_0_97.24_97.24) S_143.10))) (?v_131 (= Smt.true (is RES_88.1_0_126.5_0_144.29_144.29 T_javafe.ast.TypeDecl))) (?v_132 (isAllocated RES_88.1_0_126.5_0_144.29_144.29 after_54.22_54.22)) (?v_114 (= EC_88.1_0_126.5_0_144.29_144.29 ecReturn)) (?v_115 (not (= RES_88.1_0_126.5_0_144.29_144.29 null)))) (let ((?v_133 (=> ?v_114 ?v_115)) (?v_134 (= loc_144.14_88.1_0_126.5_0_144.14_15.152.36 (select1 loc_26.45.13 RES_88.1_0_126.5_0_144.29_144.29))) (?v_135 (= Smt.true (is RES_88.1_0_126.5_0_144.14_144.14 T_java.lang.String))) (?v_136 (isAllocated RES_88.1_0_126.5_0_144.14_144.14 after_54.22_54.22)) (?v_137 (= EC_88.1_0_126.5_0_144.14_144.14 ecReturn)) (?v_138 (= msg_140.18_88.1_0_126.5_0_140.18_24.220.45 (stringCat tmp22_88.1_0_126.5_0_141.3 RES_88.1_0_126.5_0_144.14_144.14))) (?v_139 (= EC_88.1_0_126.5_0_140.18_140.18 ecReturn)) (?v_147 (= EC_127.12_1_ C_126.5)) (?v_146 (= EC_7_ C_126.5))) (let ((?v_166 (or (and ?v_140 ?v_17 ?v_17 (= RES_127.12_1_ RES_88.1_0_126.5_0_127.18_127.18) ?v_147) (and ?v_123 ?v_17 ?v_7 (or (and ?v_92 ?v_17 ?v_27 ?v_141 ?v_98 ?v_142 ?v_143 ?v_17 ?v_17 (= RES_7_ RES_88.1_0_126.5_0_132.13_132.13) ?v_146) (and ?v_99 ?v_17 ?v_27 ?v_100 ?v_93 ?v_101 ?v_144 ?v_145 ?v_17 ?v_17 (= RES_7_ RES_6_) ?v_146)) (= RES_127.12_1_ RES_7_) (= EC_127.12_1_ EC_7_))))) (let ((?v_167 (or (and ?v_86 ?v_120 ?v_121 ?v_90 ?v_122 ?v_91 ?v_123 ?v_17 ?v_7 ?v_124 ?v_27 ?v_125 ?v_111 ?v_126 ?v_27 ?v_127 ?v_128 ?v_112 ?v_129 ?v_130 ?v_86 ?v_131 ?v_132 ?v_114 ?v_133 ?v_115 ?v_134 ?v_135 ?v_136 ?v_137 ?v_138 ?v_116 ?v_139 (not ?v_139) (= RES_127.12 RES_88.1_0_126.5_0_140.18_140.18) (= EC_127.12 EC_88.1_0_126.5_0_140.18_140.18)) (and ?v_86 ?v_120 ?v_121 ?v_90 ?v_122 ?v_91 ?v_166 ?v_147 (= RES_127.12 RES_127.12_1_) (= EC_127.12 EC_127.12_1_)))) (?v_168 (= j_88.1_0_126.5_0_126.35 ?v_148)) (?v_169 (= EC_88.1_0_126.5_1_126.27_126.27 ecReturn)) (?v_170 (= EC_9_ L_126.5))) (let ((?v_171 (or (and ?v_17 (or (and ?v_86 ?v_117 ?v_87 ?v_118 (not ?v_119) (= RES_8_ RES_88.1_0_126.5_0_126.27_126.27) (= EC_8_ L_126.5)) (and ?v_86 ?v_117 ?v_87 ?v_118 ?v_119 ?v_86 ?v_120 ?v_121 ?v_90 ?v_122 ?v_91 ?v_166 (not ?v_147) (= RES_8_ RES_127.12_1_) (= EC_8_ EC_127.12_1_))) (= RES_9_ RES_8_) (= EC_9_ EC_8_)) (and ?v_17 ?v_86 ?v_117 ?v_87 ?v_118 ?v_119 ?v_167 ?v_168 ?v_17 ?v_86 (= Smt.true (is RES_88.1_0_126.5_1_126.27_126.27 T_int)) ?v_169 (=> ?v_169 (= RES_88.1_0_126.5_1_126.27_126.27 ?v_89)) (not (< j_88.1_0_126.5_0_126.35 RES_88.1_0_126.5_1_126.27_126.27)) (= RES_9_ RES_88.1_0_126.5_1_126.27_126.27) ?v_170))) (?v_172 (= EC_90.24_1_ C_88.1))) (let ((?v_197 (or (and (not (and ?v_24 ?v_23)) ?v_17 ?v_17 (= RES_90.24_1_ RES_88.1_0_90.32_90.32) ?v_172) (and ?v_24 ?v_23 ?v_17 ?v_24 ?v_25 ?v_155 ?v_27 ?v_156 ?v_28 ?v_157 ?v_27 ?v_31 ?v_158 ?v_159 ?v_32 ?v_160 (or (and ?v_77 ?v_78 ?v_79 ?v_161 (not ?v_85) (= RES_90.24_1_ RES_3_) (= EC_90.24_1_ EC_3_)) (and ?v_77 ?v_78 ?v_79 ?v_161 ?v_85 ?v_162 ?v_163 ?v_164 ?v_165 ?v_171 (not ?v_170) (= RES_90.24_1_ RES_9_) (= EC_90.24_1_ EC_9_))))))) (let ((?v_198 (or (and ?v_18 ?v_152 ?v_153 ?v_22 ?v_154 ?v_24 ?v_23 ?v_17 ?v_24 ?v_25 ?v_155 ?v_27 ?v_156 ?v_28 ?v_157 ?v_27 ?v_31 ?v_158 ?v_159 ?v_32 ?v_160 ?v_77 ?v_78 ?v_79 ?v_161 ?v_85 ?v_162 ?v_163 ?v_164 ?v_165 ?v_171 ?v_170 (= RES_10_ RES_9_) (= EC_10_ EC_9_) (= RES_90.24 RES_10_) (= EC_90.24 EC_10_)) (and ?v_18 ?v_152 ?v_153 ?v_22 ?v_154 ?v_197 ?v_172 (= RES_90.24 RES_90.24_1_) (= EC_90.24 EC_90.24_1_)))) (?v_199 (= i_88.1_0_88.37 ?v_148)) (?v_200 (= EC_88.1_1_88.29_88.29 ecReturn)) (?v_201 (= EC_12_ L_88.1))) (let ((?v_203 (or (and ?v_17 (or (and ?v_18 ?v_149 ?v_19 ?v_150 (not ?v_151) (= RES_11_ RES_88.1_0_88.29_88.29) (= EC_11_ L_88.1)) (and ?v_18 ?v_149 ?v_19 ?v_150 ?v_151 ?v_18 ?v_152 ?v_153 ?v_22 ?v_154 ?v_197 (not ?v_172) (= RES_11_ RES_90.24_1_) (= EC_11_ EC_90.24_1_))) (= EC_12_ EC_11_)) (and ?v_17 ?v_18 ?v_149 ?v_19 ?v_150 ?v_151 ?v_198 ?v_199 ?v_17 ?v_18 (= Smt.true (is RES_88.1_1_88.29_88.29 T_int)) ?v_200 (=> ?v_200 (= RES_88.1_1_88.29_88.29 ?v_21)) (not (< i_88.1_0_88.37 RES_88.1_1_88.29_88.29)) ?v_201))) (?v_204 (= EC_52.5 ecReturn))) (not (=> (and (distinct C_126.5 C_102.5 ecReturn C_88.1 L_126.5 L_102.5 L_88.1) (not (= S_118.9 null)) (= (typeof S_118.9) T_java.lang.String) (not (= S_57.35 null)) (= (typeof S_57.35) T_java.lang.String) (not (= S_117.9 null)) (= (typeof S_117.9) T_java.lang.String) (not (= S_143.10 null)) (= (typeof S_143.10) T_java.lang.String) (not (= S_56.10 null)) (= (typeof S_56.10) T_java.lang.String) (not (= S_142.5 null)) (= (typeof S_142.5) T_java.lang.String) (not (= S_116.9 null)) (= (typeof S_116.9) T_java.lang.String) (not (= S_115.3 null)) (= (typeof S_115.3) T_java.lang.String)) (=> (and (= NULL_pre_56.82.26 NULL_56.82.26) (= Smt.true (is NULL_56.82.26 T_int)) (= name_pre_20.18.28 name_20.18.28) (= name_20.18.28 (asField name_20.18.28 T_javafe.ast.Name)) (< (fClosedTime name_20.18.28) alloc) (forall ((?s Int)) (=> (not (= ?s null)) (not (= (select1 name_20.18.28 ?s) null)))) (= loc_pre_18.18.13 loc_18.18.13) (= loc_18.18.13 (asField loc_18.18.13 T_int)) (= TYPEMODIFIERPRAGMA_pre_56.28.26 TYPEMODIFIERPRAGMA_56.28.26) (= Smt.true (is TYPEMODIFIERPRAGMA_56.28.26 T_int)) (= locId_pre_86.38.13 locId_86.38.13) (= locId_86.38.13 (asField locId_86.38.13 T_int)) (= locId_pre_88.43.13 locId_88.43.13) (= locId_88.43.13 (asField locId_88.43.13 T_int)) (= pkgName_pre_6.21.14 pkgName_6.21.14) (= pkgName_6.21.14 (asField pkgName_6.21.14 T_javafe.ast.Name)) (< (fClosedTime pkgName_6.21.14) alloc) (= STRINGLIT_pre_57.44.26 STRINGLIT_57.44.26) (= Smt.true (is STRINGLIT_57.44.26 T_int)) (= IDENT_pre_57.25.26 IDENT_57.25.26) (= Smt.true (is IDENT_57.25.26 T_int)) (= imports_pre_6.25.37 imports_6.25.37) (= imports_6.25.37 (asField imports_6.25.37 T_javafe.ast.ImportDeclVec)) (< (fClosedTime imports_6.25.37) alloc) (forall ((?s_1_ Int)) (=> (not (= ?s_1_ null)) (not (= (select1 imports_6.25.37 ?s_1_) null)))) (= elements_pre_83.61.39 elements_83.61.39) (= elements_83.61.39 (asField elements_83.61.39 (array T_javafe.ast.MethodDecl))) (< (fClosedTime elements_83.61.39) alloc) (forall ((?s_2_ Int)) (=> (not (= ?s_2_ null)) (not (= (select1 elements_83.61.39 ?s_2_) null)))) (= count_pre_17.67.33 count_17.67.33) (= count_17.67.33 (asField count_17.67.33 T_int)) (= otherCodes_pre_56.202.27 otherCodes_56.202.27) (= Smt.true (is otherCodes_56.202.27 ?v_0)) (isAllocated otherCodes_56.202.27 alloc) (= LAST_KEYWORD_pre_56.103.26 LAST_KEYWORD_56.103.26) (= Smt.true (is LAST_KEYWORD_56.103.26 T_int)) (= locType_pre_87.21.13 locType_87.21.13) (= locType_87.21.13 (asField locType_87.21.13 T_int)) (= punctuationStrings_pre_56.134.22 punctuationStrings_56.134.22) (= Smt.true (is punctuationStrings_56.134.22 ?v_1)) (isAllocated punctuationStrings_56.134.22 alloc) (= punctuationCodes_pre_56.164.19 punctuationCodes_56.164.19) (= Smt.true (is punctuationCodes_56.164.19 ?v_0)) (isAllocated punctuationCodes_56.164.19 alloc) (= loc_pre_26.45.13 loc_26.45.13) (= loc_26.45.13 (asField loc_26.45.13 T_int)) (= whereDecoration_pre_35.597.41 whereDecoration_35.597.41) (= Smt.true (is whereDecoration_35.597.41 T_javafe.ast.ASTDecoration)) (isAllocated whereDecoration_35.597.41 alloc) (= noTokens_pre_56.212.27 noTokens_56.212.27) (= Smt.true (is noTokens_56.212.27 T_int)) (= LEXICALPRAGMA_pre_56.24.26 LEXICALPRAGMA_56.24.26) (= Smt.true (is LEXICALPRAGMA_56.24.26 T_int)) (= syntax_pre_21.28.29 syntax_21.28.29) (= syntax_21.28.29 (asField syntax_21.28.29 T_boolean)) (= locOpenBrace_pre_97.22.13 locOpenBrace_97.22.13) (= locOpenBrace_97.22.13 (asField locOpenBrace_97.22.13 T_int)) (= LONGLIT_pre_57.40.26 LONGLIT_57.40.26) (= Smt.true (is LONGLIT_57.40.26 T_int)) (= tokenType_pre_23.90.8 tokenType_23.90.8) (= tokenType_23.90.8 (asField tokenType_23.90.8 T_int)) (= sigDecoration_pre_33.104.38 sigDecoration_33.104.38) (= Smt.true (is sigDecoration_33.104.38 T_javafe.ast.ASTDecoration)) (isAllocated sigDecoration_33.104.38 alloc) (= locId_pre_26.48.13 locId_26.48.13) (= locId_26.48.13 (asField locId_26.48.13 T_int)) (= locOpenBrace_pre_26.51.13 locOpenBrace_26.51.13) (= locOpenBrace_26.51.13 (asField locOpenBrace_26.51.13 T_int)) (= elements_pre_82.61.38 elements_82.61.38) (= elements_82.61.38 (asField elements_82.61.38 (array T_javafe.ast.FieldDecl))) (< (fClosedTime elements_82.61.38) alloc) (forall ((?s_3_ Int)) (=> (not (= ?s_3_ null)) (not (= (select1 elements_82.61.38 ?s_3_) null)))) (= locCloseBrace_pre_26.54.13 locCloseBrace_26.54.13) (= locCloseBrace_26.54.13 (asField locCloseBrace_26.54.13 T_int)) (= TYPEDECLELEMPRAGMA_pre_56.27.26 TYPEDECLELEMPRAGMA_56.27.26) (= Smt.true (is TYPEDECLELEMPRAGMA_56.27.26 T_int)) (= locCloseBrace_pre_97.25.13 locCloseBrace_97.25.13) (= locCloseBrace_97.25.13 (asField locCloseBrace_97.25.13 T_int)) (= NULL_pre_15.60.26 NULL_15.60.26) (= Smt.true (is NULL_15.60.26 T_int)) (= DOUBLELIT_pre_57.43.26 DOUBLELIT_57.43.26) (= Smt.true (is DOUBLELIT_57.43.26 T_int)) (= typeName_pre_19.15.32 typeName_19.15.32) (= typeName_19.15.32 (asField typeName_19.15.32 T_javafe.ast.TypeName)) (< (fClosedTime typeName_19.15.32) alloc) (forall ((?s_4_ Int)) (=> (not (= ?s_4_ null)) (not (= (select1 typeName_19.15.32 ?s_4_) null)))) (= FIRST_KEYWORD_pre_56.51.26 FIRST_KEYWORD_56.51.26) (= Smt.true (is FIRST_KEYWORD_56.51.26 T_int)) (= count_pre_25.67.33 count_25.67.33) (= count_25.67.33 (asField count_25.67.33 T_int)) (= length_pre_22.50.25 length_22.50.25) (= length_22.50.25 (asField length_22.50.25 T_int)) (= loc_pre_6.30.13 loc_6.30.13) (= loc_6.30.13 (asField loc_6.30.13 T_int)) (= elems_pre_6.27.35 elems_6.27.35) (= elems_6.27.35 (asField elems_6.27.35 T_javafe.ast.TypeDeclVec)) (< (fClosedTime elems_6.27.35) alloc) (forall ((?s_5_ Int)) (=> (not (= ?s_5_ null)) (not (= (select1 elems_6.27.35 ?s_5_) null)))) (= INTLIT_pre_57.39.26 INTLIT_57.39.26) (= Smt.true (is INTLIT_57.39.26 T_int)) (= STMTPRAGMA_pre_56.26.26 STMTPRAGMA_56.26.26) (= Smt.true (is STMTPRAGMA_56.26.26 T_int)) (= returnType_pre_87.18.28 returnType_87.18.28) (= returnType_87.18.28 (asField returnType_87.18.28 T_javafe.ast.Type)) (< (fClosedTime returnType_87.18.28) alloc) (forall ((?s_6_ Int)) (=> (not (= ?s_6_ null)) (not (= (select1 returnType_87.18.28 ?s_6_) null)))) (= keywordStrings_pre_56.181.30 keywordStrings_56.181.30) (= Smt.true (is keywordStrings_56.181.30 ?v_1)) (isAllocated keywordStrings_56.181.30 alloc) (= elements_pre_17.61.39 elements_17.61.39) (= elements_17.61.39 (asField elements_17.61.39 (array T_javafe.ast.ImportDecl))) (< (fClosedTime elements_17.61.39) alloc) (forall ((?s_7_ Int)) (=> (not (= ?s_7_ null)) (not (= (select1 elements_17.61.39 ?s_7_) null)))) (= FLOATLIT_pre_57.42.26 FLOATLIT_57.42.26) (= Smt.true (is FLOATLIT_57.42.26 T_int)) (= owner_pre_4.35.28 owner_4.35.28) (= owner_4.35.28 (asField owner_4.35.28 T_java.lang.Object)) (< (fClosedTime owner_4.35.28) alloc) (= count_pre_83.67.33 count_83.67.33) (= count_83.67.33 (asField count_83.67.33 T_int)) (= typeEnv_pre_35.323.32 typeEnv_35.323.32) (= Smt.true (is typeEnv_35.323.32 T_javafe.ast.ASTDecoration)) (isAllocated typeEnv_35.323.32 alloc) (= checkedField_pre_30.33 checkedField_30.33) (= Smt.true (is checkedField_30.33 T_javafe.ast.ASTDecoration)) (isAllocated checkedField_30.33 alloc) (= locOpenBrace_pre_88.36.13 locOpenBrace_88.36.13) (= locOpenBrace_88.36.13 (asField locOpenBrace_88.36.13 T_int)) (= BOOLEANLIT_pre_57.38.26 BOOLEANLIT_57.38.26) (= Smt.true (is BOOLEANLIT_57.38.26 T_int)) (= inst_pre_36.29.44 inst_36.29.44) (= Smt.true (is inst_36.29.44 T_javafe.ast.PrettyPrint)) (isAllocated inst_36.29.44 alloc) (not (= inst_36.29.44 null)) (= elements_pre_25.61.37 elements_25.61.37) (= elements_25.61.37 (asField elements_25.61.37 (array T_javafe.ast.TypeDecl))) (< (fClosedTime elements_25.61.37) alloc) (forall ((?s_8_ Int)) (=> (not (= ?s_8_ null)) (not (= (select1 elements_25.61.37 ?s_8_) null)))) (= body_pre_88.34.19 body_88.34.19) (= body_88.34.19 (asField body_88.34.19 T_javafe.ast.BlockStmt)) (< (fClosedTime body_88.34.19) alloc) (= modifiers_pre_26.28.13 modifiers_26.28.13) (= modifiers_26.28.13 (asField modifiers_26.28.13 T_int)) (= count_pre_82.67.33 count_82.67.33) (= count_82.67.33 (asField count_82.67.33 T_int)) (= id_pre_26.32.34 id_26.32.34) (= id_26.32.34 (asField id_26.32.34 T_javafe.ast.Identifier)) (< (fClosedTime id_26.32.34) alloc) (forall ((?s_9_ Int)) (=> (not (= ?s_9_ null)) (not (= (select1 id_26.32.34 ?s_9_) null)))) (= otherStrings_pre_56.193.30 otherStrings_56.193.30) (= Smt.true (is otherStrings_56.193.30 ?v_1)) (isAllocated otherStrings_56.193.30 alloc) (= MODIFIERPRAGMA_pre_56.25.26 MODIFIERPRAGMA_56.25.26) (= Smt.true (is MODIFIERPRAGMA_56.25.26 T_int)) (= decorationType_pre_5.48.27 decorationType_5.48.27) (= decorationType_5.48.27 (asField decorationType_5.48.27 T_.TYPE)) (= type_pre_86.35.28 type_86.35.28) (= type_86.35.28 (asField type_86.35.28 T_javafe.ast.Type)) (< (fClosedTime type_86.35.28) alloc) (forall ((?s_10_ Int)) (=> (not (= ?s_10_ null)) (not (= (select1 type_86.35.28 ?s_10_) null)))) (= loc_pre_88.40.13 loc_88.40.13) (= loc_88.40.13 (asField loc_88.40.13 T_int)) (= CHARLIT_pre_57.41.26 CHARLIT_57.41.26) (= Smt.true (is CHARLIT_57.41.26 T_int)) (= elems_pre elems) (= elems (asElems elems)) (< (eClosedTime elems) alloc) (= LS (asLockSet LS)) (= alloc_pre alloc)) (not (and (= Smt.true (is cu_48.60 T_javafe.ast.CompilationUnit)) (isAllocated cu_48.60 alloc) ?v_7 (forall ((?i_56.147.29 Int)) (=> (and (<= 0 ?i_56.147.29) (<= ?i_56.147.29 (arrayLength punctuationCodes_56.164.19))) (not (= (select1 (select1 elems punctuationCodes_56.164.19) ?i_56.147.29) NULL_56.82.26)))) (forall ((?brokenObj Int)) (=> (and (= Smt.true (is ?brokenObj T_javafe.ast.TypeDeclVec)) (not (= ?brokenObj null))) (= (typeof (select1 elements_25.61.37 ?brokenObj)) (array T_javafe.ast.TypeDecl)))) (forall ((?brokenObj_1_ Int)) (=> (and (= Smt.true (is ?brokenObj_1_ T_javafe.ast.ImportDeclVec)) (not (= ?brokenObj_1_ null))) (= (select1 owner_4.35.28 (select1 elements_17.61.39 ?brokenObj_1_)) ?brokenObj_1_))) (= Smt.true (is ?v_2 T_javafe.parser.TagConstants)) (not (= ?v_2 null)) (= (arrayLength punctuationCodes_56.164.19) ?v_4) (forall ((?brokenObj_2_ Int)) (=> (and (= Smt.true (is ?brokenObj_2_ T_javafe.ast.ImportDeclVec)) (not (= ?brokenObj_2_ null))) (forall ((?i_17.62.31 Int)) (=> (and (<= 0 ?i_17.62.31) (< ?i_17.62.31 (select1 count_17.67.33 ?brokenObj_2_))) (not (= (select1 (select1 elems (select1 elements_17.61.39 ?brokenObj_2_)) ?i_17.62.31) null)))))) (= ?v_9 T_java.lang.Boolean) (= ?v_3 (- (+ 1 LAST_KEYWORD_56.103.26) FIRST_KEYWORD_56.51.26)) (forall ((?brokenObj_3_ Int)) (=> (and (= Smt.true (is ?brokenObj_3_ T_javafe.ast.CompilationUnit)) (not (= ?brokenObj_3_ null))) (not (= (select1 loc_6.30.13 ?brokenObj_3_) NULL_15.60.26)))) (forall ((?brokenObj_4_ Int)) (let ((?v_205 (select1 tokenType_23.90.8 ?brokenObj_4_))) (=> (and (= Smt.true (is ?brokenObj_4_ T_javafe.ast.Identifier)) (not (= ?brokenObj_4_ null))) (and (not (= ?v_205 BOOLEANLIT_57.38.26)) (not (= ?v_205 INTLIT_57.39.26)) (not (= ?v_205 LONGLIT_57.40.26)) (not (= ?v_205 FLOATLIT_57.42.26)) (not (= ?v_205 DOUBLELIT_57.43.26)) (not (= ?v_205 STRINGLIT_57.44.26)) (not (= ?v_205 CHARLIT_57.41.26)) (not (= ?v_205 LEXICALPRAGMA_56.24.26)) (not (= ?v_205 MODIFIERPRAGMA_56.25.26)) (not (= ?v_205 STMTPRAGMA_56.26.26)) (not (= ?v_205 TYPEDECLELEMPRAGMA_56.27.26)) (not (= ?v_205 TYPEMODIFIERPRAGMA_56.28.26)))))) (nonnullelements otherStrings_56.193.30 elems) ?v_6 (forall ((?brokenObj_5_ Int)) (=> (and (= Smt.true (is ?brokenObj_5_ T_javafe.ast.TypeDeclVec)) (not (= ?brokenObj_5_ null))) (<= 0 (select1 count_25.67.33 ?brokenObj_5_)))) (forall ((?brokenObj_6_ Int)) (=> (and (= Smt.true (is ?brokenObj_6_ T_javafe.ast.ImportDeclVec)) (not (= ?brokenObj_6_ null))) (<= (select1 count_17.67.33 ?brokenObj_6_) (arrayLength (select1 elements_17.61.39 ?brokenObj_6_))))) (= (arrayLength otherCodes_56.202.27) ?v_5) (forall ((?brokenObj_7_ Int)) (=> (and (= Smt.true (is ?brokenObj_7_ T_javafe.ast.ImportDeclVec)) (not (= ?brokenObj_7_ null))) (= (typeof (select1 elements_17.61.39 ?brokenObj_7_)) (array T_javafe.ast.ImportDecl)))) (forall ((?i_56.149.29 Int)) (let ((?v_206 (select1 (select1 elems punctuationCodes_56.164.19) ?i_56.149.29))) (=> (and (<= 0 ?i_56.149.29) (<= ?i_56.149.29 (arrayLength punctuationCodes_56.164.19))) (and (not (= ?v_206 IDENT_57.25.26)) (not (= ?v_206 BOOLEANLIT_57.38.26)) (not (= ?v_206 INTLIT_57.39.26)) (not (= ?v_206 LONGLIT_57.40.26)) (not (= ?v_206 FLOATLIT_57.42.26)) (not (= ?v_206 DOUBLELIT_57.43.26)) (not (= ?v_206 STRINGLIT_57.44.26)) (not (= ?v_206 CHARLIT_57.41.26)) (not (= ?v_206 LEXICALPRAGMA_56.24.26)) (not (= ?v_206 MODIFIERPRAGMA_56.25.26)) (not (= ?v_206 STMTPRAGMA_56.26.26)) (not (= ?v_206 TYPEDECLELEMPRAGMA_56.27.26)) (not (= ?v_206 TYPEMODIFIERPRAGMA_56.28.26)))))) (forall ((?brokenObj_8_ Int)) (=> (and (= Smt.true (is ?brokenObj_8_ T_javafe.ast.TypeDeclVec)) (not (= ?brokenObj_8_ null))) (= (select1 owner_4.35.28 (select1 elements_25.61.37 ?brokenObj_8_)) ?brokenObj_8_))) (forall ((?brokenObj_9_ Int)) (=> (and (= Smt.true (is ?brokenObj_9_ T_javafe.ast.ImportDecl)) (not (= ?brokenObj_9_ null))) (not (= (select1 loc_18.18.13 ?brokenObj_9_) NULL_15.60.26)))) (forall ((?brokenObj_10_ Int)) (=> (and (= Smt.true (is ?brokenObj_10_ T_javafe.ast.Name)) (not (= ?brokenObj_10_ null))) (>= (select1 length_22.50.25 ?brokenObj_10_) 1))) (forall ((?brokenObj_11_ Int)) (=> (and (= Smt.true (is ?brokenObj_11_ T_javafe.ast.TypeDeclVec)) (not (= ?brokenObj_11_ null))) (forall ((?i_25.62.31 Int)) (=> (and (<= 0 ?i_25.62.31) (< ?i_25.62.31 (select1 count_25.67.33 ?brokenObj_11_))) (not (= (select1 (select1 elems (select1 elements_25.61.37 ?brokenObj_11_)) ?i_25.62.31) null)))))) (forall ((?brokenObj_12_ Int)) (=> (and (= Smt.true (is ?brokenObj_12_ T_javafe.ast.TypeDecl)) (not (= ?brokenObj_12_ null))) (not (= (select1 loc_26.45.13 ?brokenObj_12_) NULL_15.60.26)))) (nonnullelements punctuationStrings_56.134.22 elems) (forall ((?brokenObj_13_ Int)) (=> (and (= Smt.true (is ?brokenObj_13_ T_javafe.ast.ImportDeclVec)) (not (= ?brokenObj_13_ null))) (<= 0 (select1 count_17.67.33 ?brokenObj_13_)))) (forall ((?brokenObj_14_ Int)) (=> (and (= Smt.true (is ?brokenObj_14_ T_javafe.ast.TypeDeclVec)) (not (= ?brokenObj_14_ null))) (<= (select1 count_25.67.33 ?brokenObj_14_) (arrayLength (select1 elements_25.61.37 ?brokenObj_14_))))) (nonnullelements keywordStrings_56.181.30 elems) (= noTokens_56.212.27 (+ (+ ?v_3 ?v_4) ?v_5)) (forall ((?brokenObj_15_ Int)) (=> (and (= Smt.true (is ?brokenObj_15_ T_javafe.ast.TypeDecl)) (not (= ?brokenObj_15_ null))) (not (= (select1 locCloseBrace_26.54.13 ?brokenObj_15_) NULL_15.60.26)))) (forall ((?brokenObj_16_ Int)) (=> (and (= Smt.true (is ?brokenObj_16_ T_javafe.ast.TypeDecl)) (not (= ?brokenObj_16_ null))) (not (= (select1 locId_26.48.13 ?brokenObj_16_) NULL_15.60.26)))) (forall ((?brokenObj_17_ Int)) (=> (and (= Smt.true (is ?brokenObj_17_ T_javafe.ast.TypeDecl)) (not (= ?brokenObj_17_ null))) (not (= (select1 locOpenBrace_26.51.13 ?brokenObj_17_) NULL_15.60.26)))) (or ?v_10 (and ?v_6 (or ?v_11 (and ?v_7 ?v_173 ?v_174 ?v_8 ?v_175 ?v_176 ?v_17 ?v_177 ?v_178 ?v_179 ?v_180 ?v_181 ?v_182 ?v_183 ?v_184 (or ?v_10 (and ?v_6 (or ?v_11 (and ?v_7 (not ?v_13)) (and ?v_7 ?v_13 ?v_185 (or ?v_11 (and ?v_7 (or (and ?v_14 (not ?v_15)) (and ?v_14 ?v_15 ?v_186 ?v_187 ?v_16 ?v_188 ?v_189 ?v_190 (or ?v_11 (and ?v_7 ?v_191 (or ?v_11 (and ?v_7 ?v_192 (or ?v_11 (and ?v_7 ?v_193 (or ?v_11 (and ?v_7 ?v_194 ?v_195 ?v_196 (or (and ?v_17 (or ?v_20 (and ?v_18 ?v_149 ?v_19 ?v_150 ?v_151 (or ?v_20 (and ?v_18 (or (not (and ?v_48 (< 0 ?v_21))) (and ?v_152 ?v_153 ?v_22 ?v_154 ?v_24 ?v_23 ?v_17 (or (not ?v_24) (and ?v_24 (or (not ?v_25) (and ?v_25 ?v_155 (or ?v_29 (and ?v_27 ?v_156 ?v_28 ?v_157 (or ?v_29 (and ?v_27 (or (and ?v_31 (not (and (<= 0 i_97.24_88.1_0_97.24_22.62.48) (< i_97.24_88.1_0_97.24_22.62.48 ?v_30)))) (and ?v_31 ?v_158 ?v_159 ?v_32 ?v_160 (or (and ?v_77 ?v_78 ?v_79 (or (and ?v_17 (or ?v_20 (and ?v_18 ?v_53 ?v_33 ?v_54 ?v_55 (or ?v_20 (and ?v_18 (or (not (and (<= 0 j_88.1_0_102.10) (< j_88.1_0_102.10 ?v_21))) (and ?v_56 ?v_57 ?v_34 ?v_58 ?v_36 ?v_35 ?v_17 (or (not ?v_36) (and ?v_36 (or (not ?v_37) (and ?v_37 ?v_59 (or ?v_41 (and ?v_39 ?v_60 ?v_40 ?v_61 (or ?v_41 (and ?v_39 (or (and ?v_43 (not (and (<= 0 i_111.21_88.1_0_102.5_0_111.21_22.62.48) (< i_111.21_88.1_0_102.5_0_111.21_22.62.48 ?v_42)))) (and ?v_43 ?v_62 ?v_63 ?v_44 ?v_64 (or (and ?v_45 ?v_29) (and ?v_65 tmp9_cand_113.13 ?v_17 (or ?v_29 (and ?v_27 (or ?v_110 (and ?v_66 ?v_49 ?v_67 (or ?v_29 (and ?v_27 ?v_68 ?v_69 ?v_50 ?v_70 ?v_71 (or ?v_41 (and ?v_39 ?v_72 ?v_73 ?v_51 ?v_74 ?v_75 (not ?v_52)))))))))))))))))))))))))))) (and ?v_17 ?v_18 ?v_53 ?v_33 ?v_54 ?v_55 ?v_82 ?v_83 ?v_17 ?v_20))) (and ?v_77 ?v_78 ?v_79 ?v_161 ?v_85 ?v_162 ?v_163 ?v_164 ?v_165 (or (and ?v_17 (or ?v_88 (and ?v_86 ?v_117 ?v_87 ?v_118 ?v_119 (or ?v_88 (and ?v_86 (or ?v_113 (and ?v_120 ?v_121 ?v_90 ?v_122 (or (not ?v_91) (and ?v_91 ?v_123 ?v_17 (or ?v_11 (and ?v_7 (or (and ?v_92 ?v_17 ?v_29) (and ?v_99 ?v_17 (or ?v_29 (and ?v_27 ?v_100 ?v_93 ?v_101 ?v_102 (or ?v_29 (and ?v_27 ?v_103 ?v_94 ?v_104 (or ?v_29 (and ?v_27 (or (and ?v_95 (not (and (< 0 len_136.7_88.1_0_126.5_0_136.7_22.171.36) (<= len_136.7_88.1_0_126.5_0_136.7_22.171.36 ?v_30)))) (and ?v_95 ?v_105 ?v_106 ?v_96 ?v_107 (or ?v_11 (and ?v_7 (not ?v_97)))))))))))) (and ?v_124 (or ?v_29 (and ?v_27 (or ?v_110 (and ?v_125 ?v_111 ?v_126 (or ?v_29 (and ?v_27 ?v_127 ?v_128 ?v_112 ?v_129 ?v_130 (or ?v_88 (and ?v_86 (or ?v_113 (and ?v_131 ?v_132 ?v_114 ?v_133 (or (not ?v_115) (and ?v_115 ?v_134 ?v_135 ?v_136 ?v_137 ?v_138 (not ?v_116)))))))))))))))))))))))))) (and ?v_17 ?v_86 ?v_117 ?v_87 ?v_118 ?v_119 ?v_167 ?v_168 ?v_17 ?v_88))))))))))))))))))))) (and ?v_17 ?v_18 ?v_149 ?v_19 ?v_150 ?v_151 ?v_198 ?v_199 ?v_17 ?v_20))))))))))))))))))))) (and (or (and ?v_6 ?v_7 ?v_173 ?v_174 ?v_8 ?v_175 ?v_176 ?v_17 ?v_177 ?v_178 ?v_179 ?v_180 ?v_181 ?v_182 ?v_183 ?v_184 ?v_6 ?v_7 ?v_13 ?v_185 ?v_7 ?v_14 ?v_15 ?v_186 ?v_187 ?v_16 ?v_188 ?v_189 ?v_190 ?v_7 ?v_191 ?v_7 ?v_192 ?v_7 ?v_193 ?v_7 ?v_194 ?v_195 ?v_196 ?v_203 ?v_201 (= EC_13_ EC_12_) ?v_204) (and ?v_6 ?v_7 ?v_173 ?v_174 ?v_8 ?v_175 (or (and ?v_202 ?v_17 ?v_17 (= EC_52.5_1_ ecReturn)) (and ?v_176 ?v_17 ?v_177 ?v_178 ?v_179 ?v_180 ?v_181 ?v_182 ?v_183 ?v_184 ?v_6 ?v_7 ?v_13 ?v_185 ?v_7 ?v_14 ?v_15 ?v_186 ?v_187 ?v_16 ?v_188 ?v_189 ?v_190 ?v_7 ?v_191 ?v_7 ?v_192 ?v_7 ?v_193 ?v_7 ?v_194 ?v_195 ?v_196 ?v_203 (not ?v_201) (= EC_52.5_1_ EC_12_))) (= EC_52.5 EC_52.5_1_))) (not ?v_204)))))))))))))))))))))))))))))))))))))))))))))))))))))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/quantifiers/javafe.tc.FlowInsensitiveChecks.682.smt2 b/test/regress/regress0/quantifiers/javafe.tc.FlowInsensitiveChecks.682.smt2
deleted file mode 100644
index 2867e618f..000000000
--- a/test/regress/regress0/quantifiers/javafe.tc.FlowInsensitiveChecks.682.smt2
+++ /dev/null
@@ -1,1193 +0,0 @@
-(set-logic AUFLIA)
-(set-info :source | Simplify Theorem Prover Benchmark Suite |)
-(set-info :smt-lib-version 2.0)
-(set-info :category "industrial")
-(set-info :status unsat)
-(declare-fun true_term () Int)
-(declare-fun false_term () Int)
-(assert (= true_term 1))
-(assert (= false_term 0))
-(declare-fun S_select (Int Int) Int)
-(declare-fun S_store (Int Int Int) Int)
-(assert (forall ((?m Int) (?i Int) (?x Int)) (= (S_select (S_store ?m ?i ?x) ?i) ?x)))
-(assert (forall ((?m Int) (?i Int) (?j Int) (?x Int)) (=> (not (= ?i ?j)) (= (S_select (S_store ?m ?i ?x) ?j) (S_select ?m ?j)))))
-(declare-fun PO_LT (Int Int) Int)
-(assert (forall ((?t Int)) (= (PO_LT ?t ?t) true_term)))
-(declare-fun T_java_lang_Object () Int)
-(assert (= (PO_LT T_java_lang_Object T_java_lang_Object) true_term))
-(assert (forall ((?t0 Int) (?t1 Int) (?t2 Int)) (=> (and (= (PO_LT ?t0 ?t1) true_term) (= (PO_LT ?t1 ?t2) true_term)) (= (PO_LT ?t0 ?t2) true_term))))
-(assert (forall ((?t0 Int) (?t1 Int)) (=> (and (= (PO_LT ?t0 ?t1) true_term) (= (PO_LT ?t1 ?t0) true_term)) (= ?t0 ?t1))))
-(declare-fun T_boolean () Int)
-(assert (forall ((?t Int)) (=> (= (PO_LT ?t T_boolean) true_term) (= ?t T_boolean))))
-(declare-fun T_char () Int)
-(assert (forall ((?t Int)) (=> (= (PO_LT ?t T_char) true_term) (= ?t T_char))))
-(declare-fun T_byte () Int)
-(assert (forall ((?t Int)) (=> (= (PO_LT ?t T_byte) true_term) (= ?t T_byte))))
-(declare-fun T_short () Int)
-(assert (forall ((?t Int)) (=> (= (PO_LT ?t T_short) true_term) (= ?t T_short))))
-(declare-fun T_int () Int)
-(assert (forall ((?t Int)) (=> (= (PO_LT ?t T_int) true_term) (= ?t T_int))))
-(declare-fun T_long () Int)
-(assert (forall ((?t Int)) (=> (= (PO_LT ?t T_long) true_term) (= ?t T_long))))
-(declare-fun T_float () Int)
-(assert (forall ((?t Int)) (=> (= (PO_LT ?t T_float) true_term) (= ?t T_float))))
-(declare-fun T_double () Int)
-(assert (forall ((?t Int)) (=> (= (PO_LT ?t T_double) true_term) (= ?t T_double))))
-(assert (forall ((?t Int)) (=> (= (PO_LT T_boolean ?t) true_term) (= ?t T_boolean))))
-(assert (forall ((?t Int)) (=> (= (PO_LT T_char ?t) true_term) (= ?t T_char))))
-(assert (forall ((?t Int)) (=> (= (PO_LT T_byte ?t) true_term) (= ?t T_byte))))
-(assert (forall ((?t Int)) (=> (= (PO_LT T_short ?t) true_term) (= ?t T_short))))
-(assert (forall ((?t Int)) (=> (= (PO_LT T_int ?t) true_term) (= ?t T_int))))
-(assert (forall ((?t Int)) (=> (= (PO_LT T_long ?t) true_term) (= ?t T_long))))
-(assert (forall ((?t Int)) (=> (= (PO_LT T_float ?t) true_term) (= ?t T_float))))
-(assert (forall ((?t Int)) (=> (= (PO_LT T_double ?t) true_term) (= ?t T_double))))
-(declare-fun asChild (Int Int) Int)
-(declare-fun classDown (Int Int) Int)
-(assert (forall ((?t0 Int) (?t1 Int) (?t2 Int)) (let ((?v_0 (asChild ?t1 ?t2))) (=> (= (PO_LT ?t0 ?v_0) true_term) (= (classDown ?t2 ?t0) ?v_0)))))
-(declare-fun T_java_lang_Cloneable () Int)
-(assert (= (PO_LT T_java_lang_Cloneable T_java_lang_Object) true_term))
-(declare-fun array (Int) Int)
-(assert (forall ((?t Int)) (= (PO_LT (array ?t) T_java_lang_Cloneable) true_term)))
-(declare-fun elemtype (Int) Int)
-(assert (forall ((?t Int)) (= (elemtype (array ?t)) ?t)))
-(assert (forall ((?t0 Int) (?t1 Int)) (let ((?v_0 (elemtype ?t0))) (= (= (PO_LT ?t0 (array ?t1)) true_term) (and (= ?t0 (array ?v_0)) (= (PO_LT ?v_0 ?t1) true_term))))))
-(declare-fun is (Int Int) Int)
-(declare-fun cast (Int Int) Int)
-(assert (forall ((?x Int) (?t Int)) (= (is (cast ?x ?t) ?t) true_term)))
-(assert (forall ((?x Int) (?t Int)) (=> (= (is ?x ?t) true_term) (= (cast ?x ?t) ?x))))
-(assert true)
-(assert (forall ((?x Int)) (= (= (is ?x T_char) true_term) (and (<= 0 ?x) (<= ?x 65535)))))
-(assert (forall ((?x Int)) (= (= (is ?x T_byte) true_term) (and (<= (- 128) ?x) (<= ?x 127)))))
-(assert (forall ((?x Int)) (= (= (is ?x T_short) true_term) (and (<= (- 32768) ?x) (<= ?x 32767)))))
-(declare-fun intFirst () Int)
-(declare-fun intLast () Int)
-(assert (forall ((?x Int)) (= (= (is ?x T_int) true_term) (and (<= intFirst ?x) (<= ?x intLast)))))
-(declare-fun longFirst () Int)
-(declare-fun longLast () Int)
-(assert (forall ((?x Int)) (= (= (is ?x T_long) true_term) (and (<= longFirst ?x) (<= ?x longLast)))))
-(assert (< longFirst intFirst))
-(assert (< intFirst (- 1000000)))
-(assert (< 1000000 intLast))
-(assert (< intLast longLast))
-(declare-fun null () Int)
-(declare-fun typeof (Int) Int)
-(assert (forall ((?x Int) (?t Int)) (=> (= (PO_LT ?t T_java_lang_Object) true_term) (= (= (is ?x ?t) true_term) (or (= ?x null) (= (PO_LT (typeof ?x) ?t) true_term))))))
-(declare-fun asField (Int Int) Int)
-(assert (forall ((?f Int) (?t Int) (?x Int)) (= (is (S_select (asField ?f ?t) ?x) ?t) true_term)))
-(declare-fun asElems (Int) Int)
-(assert (forall ((?e Int) (?a Int) (?i Int)) (= (is (S_select (S_select (asElems ?e) ?a) ?i) (elemtype (typeof ?a))) true_term)))
-(declare-fun vAllocTime (Int) Int)
-(declare-fun isAllocated (Int Int) Int)
-(assert (forall ((?x Int) (?a0 Int)) (= (= (isAllocated ?x ?a0) true_term) (< (vAllocTime ?x) ?a0))))
-(declare-fun fClosedTime (Int) Int)
-(assert (forall ((?x Int) (?f Int) (?a0 Int)) (=> (and (< (fClosedTime ?f) ?a0) (= (isAllocated ?x ?a0) true_term)) (= (isAllocated (S_select ?f ?x) ?a0) true_term))))
-(declare-fun eClosedTime (Int) Int)
-(assert (forall ((?a Int) (?e Int) (?i Int) (?a0 Int)) (=> (and (< (eClosedTime ?e) ?a0) (= (isAllocated ?a ?a0) true_term)) (= (isAllocated (S_select (S_select ?e ?a) ?i) ?a0) true_term))))
-(declare-fun asLockSet (Int) Int)
-(declare-fun max (Int) Int)
-(assert (forall ((?S Int)) (let ((?v_0 (asLockSet ?S))) (= (S_select ?v_0 (max ?v_0)) true_term))))
-(assert (forall ((?S Int)) (= (S_select (asLockSet ?S) null) true_term)))
-(declare-fun lockLE (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (lockLE ?x ?y) true_term) (<= ?x ?y))))
-(declare-fun lockLT (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (lockLT ?x ?y) true_term) (< ?x ?y))))
-(assert (forall ((?S Int) (?mu Int)) (let ((?v_0 (asLockSet ?S))) (=> (= (S_select ?v_0 ?mu) true_term) (= (lockLE ?mu (max ?v_0)) true_term)))))
-(assert (forall ((?x Int)) (=> (= (PO_LT (typeof ?x) T_java_lang_Object) true_term) (= (lockLE null ?x) true_term))))
-(declare-fun arrayLength (Int) Int)
-(assert (forall ((?a Int)) (let ((?v_0 (arrayLength ?a))) (and (<= 0 ?v_0) (= (is ?v_0 T_int) true_term)))))
-(declare-fun arrayFresh (Int Int Int Int Int Int Int) Int)
-(declare-fun arrayShapeMore (Int Int) Int)
-(declare-fun arrayParent (Int) Int)
-(declare-fun arrayPosition (Int) Int)
-(assert (forall ((?a Int) (?a0 Int) (?b0 Int) (?e Int) (?n Int) (?s Int) (?T Int) (?v Int)) (= (= (arrayFresh ?a ?a0 ?b0 ?e (arrayShapeMore ?n ?s) ?T ?v) true_term) (and (<= ?a0 (vAllocTime ?a)) (= (isAllocated ?a ?b0) true_term) (not (= ?a null)) (= (typeof ?a) ?T) (= (arrayLength ?a) ?n) (forall ((?i Int)) (let ((?v_0 (S_select (S_select ?e ?a) ?i))) (and (= (arrayFresh ?v_0 ?a0 ?b0 ?e ?s (elemtype ?T) ?v) true_term) (= (arrayParent ?v_0) ?a) (= (arrayPosition ?v_0) ?i))))))))
-(declare-fun arrayShapeOne (Int) Int)
-(assert (forall ((?a Int) (?a0 Int) (?b0 Int) (?e Int) (?n Int) (?T Int) (?v Int)) (= (= (arrayFresh ?a ?a0 ?b0 ?e (arrayShapeOne ?n) ?T ?v) true_term) (and (<= ?a0 (vAllocTime ?a)) (= (isAllocated ?a ?b0) true_term) (not (= ?a null)) (= (typeof ?a) ?T) (= (arrayLength ?a) ?n) (forall ((?i Int)) (= (S_select (S_select ?e ?a) ?i) ?v))))))
-(declare-fun arrayType () Int)
-(assert (= arrayType (asChild arrayType T_java_lang_Object)))
-(assert (forall ((?t Int)) (= (PO_LT (array ?t) arrayType) true_term)))
-(declare-fun isNewArray (Int) Int)
-(assert (forall ((?s Int)) (=> (= true_term (isNewArray ?s)) (= (PO_LT (typeof ?s) arrayType) true_term))))
-(declare-fun boolAnd (Int Int) Int)
-(assert (forall ((?a Int) (?b Int)) (= (= (boolAnd ?a ?b) true_term) (and (= ?a true_term) (= ?b true_term)))))
-(declare-fun boolEq (Int Int) Int)
-(assert (forall ((?a Int) (?b Int)) (= (= (boolEq ?a ?b) true_term) (= (= ?a true_term) (= ?b true_term)))))
-(declare-fun boolImplies (Int Int) Int)
-(assert (forall ((?a Int) (?b Int)) (= (= (boolImplies ?a ?b) true_term) (=> (= ?a true_term) (= ?b true_term)))))
-(declare-fun boolNE (Int Int) Int)
-(assert (forall ((?a Int) (?b Int)) (= (= (boolNE ?a ?b) true_term) (not (= (= ?a true_term) (= ?b true_term))))))
-(declare-fun boolNot (Int) Int)
-(assert (forall ((?a Int)) (= (= (boolNot ?a) true_term) (not (= ?a true_term)))))
-(declare-fun boolOr (Int Int) Int)
-(assert (forall ((?a Int) (?b Int)) (= (= (boolOr ?a ?b) true_term) (or (= ?a true_term) (= ?b true_term)))))
-(declare-fun integralEQ (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (integralEQ ?x ?y) true_term) (= ?x ?y))))
-(declare-fun stringCat (Int Int) Int)
-(declare-fun T_java_lang_String () Int)
-(assert (forall ((?x Int) (?y Int)) (let ((?v_0 (stringCat ?x ?y))) (and (not (= ?v_0 null)) (= (PO_LT (typeof ?v_0) T_java_lang_String) true_term)))))
-(declare-fun integralGE (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (integralGE ?x ?y) true_term) (>= ?x ?y))))
-(declare-fun integralGT (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (integralGT ?x ?y) true_term) (> ?x ?y))))
-(declare-fun integralLE (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (integralLE ?x ?y) true_term) (<= ?x ?y))))
-(declare-fun integralLT (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (integralLT ?x ?y) true_term) (< ?x ?y))))
-(declare-fun integralNE (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (integralNE ?x ?y) true_term) (not (= ?x ?y)))))
-(declare-fun refEQ (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (refEQ ?x ?y) true_term) (= ?x ?y))))
-(declare-fun refNE (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (= (= (refNE ?x ?y) true_term) (not (= ?x ?y)))))
-(declare-fun nonnullelements (Int Int) Int)
-(assert (forall ((?x Int) (?e Int)) (= (= (nonnullelements ?x ?e) true_term) (and (not (= ?x null)) (forall ((?i Int)) (=> (and (<= 0 ?i) (< ?i (arrayLength ?x))) (not (= (S_select (S_select ?e ?x) ?i) null))))))))
-(declare-fun classLiteral (Int) Int)
-(declare-fun T_java_lang_Class () Int)
-(declare-fun alloc () Int)
-(assert (forall ((?t Int)) (let ((?v_0 (classLiteral ?t))) (and (not (= ?v_0 null)) (= (is ?v_0 T_java_lang_Class) true_term) (= (isAllocated ?v_0 alloc) true_term)))))
-(declare-fun integralAnd (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (=> (or (<= 0 ?x) (<= 0 ?y)) (<= 0 (integralAnd ?x ?y)))))
-(assert (forall ((?x Int) (?y Int)) (=> (<= 0 ?x) (<= (integralAnd ?x ?y) ?x))))
-(assert (forall ((?x Int) (?y Int)) (=> (<= 0 ?y) (<= (integralAnd ?x ?y) ?y))))
-(declare-fun integralOr (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (let ((?v_0 (integralOr ?x ?y))) (=> (and (<= 0 ?x) (<= 0 ?y)) (and (<= ?x ?v_0) (<= ?y ?v_0))))))
-(declare-fun integralXor (Int Int) Int)
-(assert (forall ((?x Int) (?y Int)) (=> (and (<= 0 ?x) (<= 0 ?y)) (<= 0 (integralXor ?x ?y)))))
-(declare-fun intShiftL (Int Int) Int)
-(assert (forall ((?n Int)) (=> (and (<= 0 ?n) (< ?n 31)) (<= 1 (intShiftL 1 ?n)))))
-(declare-fun longShiftL (Int Int) Int)
-(assert (forall ((?n Int)) (=> (and (<= 0 ?n) (< ?n 63)) (<= 1 (longShiftL 1 ?n)))))
-(assert true)
-(declare-fun T_javafe_ast_VarInitVec () Int)
-(declare-fun T_javafe_ast_WhileStmt () Int)
-(declare-fun T_javafe_ast_Stmt () Int)
-(declare-fun T_javafe_ast_StmtVec () Int)
-(declare-fun T_javafe_ast_ExprVec () Int)
-(declare-fun T_javafe_ast_CastExpr () Int)
-(declare-fun T_javafe_ast_Expr () Int)
-(declare-fun T_javafe_ast_AmbiguousMethodInvocation () Int)
-(declare-fun T_javafe_ast_TypeDecl () Int)
-(declare-fun T_javafe_ast_ASTNode () Int)
-(declare-fun T_javafe_ast_TypeDeclElem () Int)
-(declare-fun T_java_lang_Throwable () Int)
-(declare-fun T_java_io_Serializable () Int)
-(declare-fun T_javafe_ast_LiteralExpr () Int)
-(declare-fun T_javafe_ast_ImportDecl () Int)
-(declare-fun T_javafe_ast_TryFinallyStmt () Int)
-(declare-fun T_javafe_ast_InterfaceDecl () Int)
-(declare-fun T_java_lang_RuntimeException () Int)
-(declare-fun T_java_lang_Exception () Int)
-(declare-fun T_javafe_ast_VariableAccess () Int)
-(declare-fun T_javafe_tc_Types () Int)
-(declare-fun T_javafe_ast_ThrowStmt () Int)
-(declare-fun T_javafe_ast_PrimitiveType () Int)
-(declare-fun T_javafe_ast_Type () Int)
-(declare-fun T_javafe_tc_PrepTypeDeclaration () Int)
-(declare-fun T_javafe_ast_ConstructorInvocation () Int)
-(declare-fun T_javafe_ast_SwitchStmt () Int)
-(declare-fun T_javafe_ast_GenericBlockStmt () Int)
-(declare-fun T_javafe_ast_FormalParaDecl () Int)
-(declare-fun T_javafe_ast_GenericVarDecl () Int)
-(declare-fun T_javafe_tc_TagConstants () Int)
-(declare-fun T_javafe_parser_TagConstants () Int)
-(declare-fun T_java_util_EscjavaKeyValue () Int)
-(declare-fun T_javafe_ast_CompilationUnit () Int)
-(declare-fun T_javafe_ast_VarInit () Int)
-(declare-fun T_java_lang_Integer () Int)
-(declare-fun T_java_lang_Number () Int)
-(declare-fun T_java_lang_Comparable () Int)
-(declare-fun T_javafe_ast_ModifierPragmaVec () Int)
-(declare-fun T_javafe_ast_TypeObjectDesignator () Int)
-(declare-fun T_javafe_ast_ObjectDesignator () Int)
-(declare-fun T_javafe_ast_CompoundName () Int)
-(declare-fun T_javafe_ast_Name () Int)
-(declare-fun T_javafe_ast_TryCatchStmt () Int)
-(declare-fun T_javafe_ast_Modifiers () Int)
-(declare-fun T_javafe_tc_FlowInsensitiveChecks () Int)
-(declare-fun T_javafe_ast_TypeModifierPragma () Int)
-(declare-fun T_javafe_ast_TypeNameVec () Int)
-(declare-fun T_javafe_ast_ContinueStmt () Int)
-(declare-fun T_javafe_ast_BranchStmt () Int)
-(declare-fun T_javafe_ast_UnaryExpr () Int)
-(declare-fun T_javafe_ast_NewInstanceExpr () Int)
-(declare-fun T_javafe_ast_IfStmt () Int)
-(declare-fun T_javafe_ast_TagConstants () Int)
-(declare-fun T_javafe_ast_OperatorTags () Int)
-(declare-fun T_javafe_ast_MethodInvocation () Int)
-(declare-fun T_javafe_util_ErrorSet () Int)
-(declare-fun T_javafe_ast_IdentifierVec () Int)
-(declare-fun T_javafe_ast_RoutineDecl () Int)
-(declare-fun T_javafe_ast_SimpleName () Int)
-(declare-fun T_javafe_ast_TypeDeclElemPragma () Int)
-(declare-fun T_javafe_tc_TypeSig () Int)
-(declare-fun T_javafe_ast_SwitchLabel () Int)
-(declare-fun T_javafe_ast_SkipStmt () Int)
-(declare-fun T_javafe_tc_FieldDeclVec () Int)
-(declare-fun T_javafe_tc_TypeSigVec () Int)
-(declare-fun T_javafe_ast_ParenExpr () Int)
-(declare-fun T_javafe_tc_Env () Int)
-(declare-fun T_javafe_tc_EnvForLocalType () Int)
-(declare-fun T_javafe_ast_ArrayInit () Int)
-(declare-fun T_javafe_tc_LookupException () Int)
-(declare-fun T_java_lang_Double () Int)
-(declare-fun T_javafe_ast_GeneratedTags () Int)
-(declare-fun T_javafe_ast_TypeName () Int)
-(declare-fun T_javafe_ast_LocalVarDecl () Int)
-(declare-fun T_javafe_util_Set () Int)
-(declare-fun T_javafe_tc_MethodDeclVec () Int)
-(declare-fun T_javafe_ast_ModifierPragma () Int)
-(declare-fun T_javafe_ast_ReturnStmt () Int)
-(declare-fun T_javafe_ast_FieldAccess () Int)
-(declare-fun T_javafe_ast_BlockStmt () Int)
-(declare-fun T_javafe_ast_Identifier () Int)
-(declare-fun T_javafe_ast_OnDemandImportDecl () Int)
-(declare-fun T_java_util_Map () Int)
-(declare-fun T_javafe_util_Location () Int)
-(declare-fun T_java_lang_ClassCastException () Int)
-(declare-fun T_javafe_ast_InstanceOfExpr () Int)
-(declare-fun T_javafe_ast_ThisExpr () Int)
-(declare-fun T_javafe_ast_ClassDeclStmt () Int)
-(declare-fun T_java_util_Dictionary () Int)
-(declare-fun T_java_lang_Float () Int)
-(declare-fun T_javafe_ast_InitBlock () Int)
-(declare-fun T_javafe_tc_EnvForCU () Int)
-(declare-fun T_javafe_ast_ClassDecl () Int)
-(declare-fun T_javafe_ast_DoStmt () Int)
-(declare-fun T_javafe_ast_BreakStmt () Int)
-(declare-fun T_javafe_ast_ClassLiteral () Int)
-(declare-fun T_javafe_ast_ConstructorDecl () Int)
-(declare-fun T_javafe_tc_ConstantExpr () Int)
-(declare-fun T_javafe_ast_BinaryExpr () Int)
-(declare-fun T_javafe_ast_CatchClause () Int)
-(declare-fun T_javafe_ast_ArrayRefExpr () Int)
-(declare-fun T_javafe_ast_VarDeclStmt () Int)
-(declare-fun T_java_util_Hashtable () Int)
-(declare-fun T_javafe_ast_ArrayType () Int)
-(declare-fun T_javafe_tc_EnvForLocals () Int)
-(declare-fun T_javafe_ast_LabelStmt () Int)
-(declare-fun T_javafe_util_Assert () Int)
-(declare-fun T_javafe_ast_TypeDeclElemVec () Int)
-(declare-fun T_javafe_ast_ExprObjectDesignator () Int)
-(declare-fun T_javafe_ast_ASTDecoration () Int)
-(declare-fun T_java_lang_Boolean () Int)
-(declare-fun T_javafe_ast_CondExpr () Int)
-(declare-fun T_javafe_ast_SingleTypeImportDecl () Int)
-(declare-fun T_javafe_ast_FormalParaDeclVec () Int)
-(declare-fun T_javafe_ast_AmbiguousVariableAccess () Int)
-(declare-fun T_javafe_ast_SuperObjectDesignator () Int)
-(declare-fun T_javafe_ast_MethodDecl () Int)
-(declare-fun T_javafe_ast_EvalStmt () Int)
-(declare-fun T_javafe_ast_SynchronizeStmt () Int)
-(declare-fun T_javafe_util_StackVector () Int)
-(declare-fun T_javafe_ast_ForStmt () Int)
-(declare-fun T_javafe_ast_TypeModifierPragmaVec () Int)
-(declare-fun T_javafe_ast_CatchClauseVec () Int)
-(declare-fun T_javafe_ast_NewArrayExpr () Int)
-(declare-fun T_javafe_ast_PrettyPrint () Int)
-(declare-fun T_javafe_ast_FieldDecl () Int)
-(declare-fun T_javafe_tc_EnvForTypeSig () Int)
-(declare-fun T_java_lang_Long () Int)
-(declare-fun T_javafe_ast_StmtPragma () Int)
-(declare-fun DIST_ZERO_1 () Int)
-(declare-fun T__TYPE () Int)
-(declare-fun EQ_29_25_26 () Int)
-(declare-fun ACC_FINAL_31_23_26 () Int)
-(declare-fun RETURNSTMT_30_33_7 () Int)
-(declare-fun NOT_29_56_26 () Int)
-(declare-fun CLASSLITERAL_30_60_7 () Int)
-(declare-fun ACC_STATIC_31_22_26 () Int)
-(declare-fun NE_29_24_26 () Int)
-(declare-fun EVALSTMT_30_32_7 () Int)
-(declare-fun UNARYSUB_29_55_26 () Int)
-(declare-fun METHODINVOCATION_30_59_7 () Int)
-(declare-fun BITAND_29_23_26 () Int)
-(declare-fun SYNCHRONIZESTMT_30_31_7 () Int)
-(declare-fun UNARYADD_29_54_26 () Int)
-(declare-fun AMBIGUOUSMETHODINVOCATION_30_58_7 () Int)
-(declare-fun otherCodes_27_202_27 () Int)
-(declare-fun BITXOR_29_22_26 () Int)
-(declare-fun DOSTMT_30_30_7 () Int)
-(declare-fun ASGBITXOR_29_51_26 () Int)
-(declare-fun FIELDACCESS_30_57_7 () Int)
-(declare-fun punctuationStrings_27_134_22 () Int)
-(declare-fun CHECKED_5_776_28 () Int)
-(declare-fun BITOR_29_21_26 () Int)
-(declare-fun WHILESTMT_30_29_7 () Int)
-(declare-fun ASGBITOR_29_50_26 () Int)
-(declare-fun PREPPED_5_775_28 () Int)
-(declare-fun VARIABLEACCESS_30_56_7 () Int)
-(declare-fun CLASSDECLSTMT_30_28_7 () Int)
-(declare-fun ASGBITAND_29_49_26 () Int)
-(declare-fun AMBIGUOUSVARIABLEACCESS_30_55_7 () Int)
-(declare-fun AND_29_20_26 () Int)
-(declare-fun VARDECLSTMT_30_27_7 () Int)
-(declare-fun ASGURSHIFT_29_48_26 () Int)
-(declare-fun PARENEXPR_30_54_7 () Int)
-(declare-fun NULLLIT_28_45_26 () Int)
-(declare-fun PARSED_5_772_28 () Int)
-(declare-fun OR_29_19_26 () Int)
-(declare-fun SWITCHSTMT_30_26_7 () Int)
-(declare-fun ASGRSHIFT_29_47_26 () Int)
-(declare-fun CASTEXPR_30_53_7 () Int)
-(declare-fun LAST_KEYWORD_27_103_26 () Int)
-(declare-fun STRINGLIT_28_44_26 () Int)
-(declare-fun BLOCKSTMT_30_25_7 () Int)
-(declare-fun NULL_27_82_26 () Int)
-(declare-fun ASGLSHIFT_29_46_26 () Int)
-(declare-fun INSTANCEOFEXPR_30_52_7 () Int)
-(declare-fun DOUBLELIT_28_43_26 () Int)
-(declare-fun FORMALPARADECL_30_24_7 () Int)
-(declare-fun map_5_301_35 () Int)
-(declare-fun ASGSUB_29_45_26 () Int)
-(declare-fun CONDEXPR_30_51_7 () Int)
-(declare-fun otherStrings_27_193_30 () Int)
-(declare-fun FLOATLIT_28_42_26 () Int)
-(declare-fun FIELDDECL_30_23_7 () Int)
-(declare-fun ASGADD_29_44_26 () Int)
-(declare-fun NEWARRAYEXPR_30_50_7 () Int)
-(declare-fun CHARLIT_28_41_26 () Int)
-(declare-fun LOCALVARDECL_30_22_7 () Int)
-(declare-fun whereDecoration_20_597_41 () Int)
-(declare-fun ASGREM_29_43_26 () Int)
-(declare-fun NEWINSTANCEEXPR_30_49_7 () Int)
-(declare-fun LONGLIT_28_40_26 () Int)
-(declare-fun INITBLOCK_30_21_7 () Int)
-(declare-fun ASGDIV_29_42_26 () Int)
-(declare-fun ARRAYREFEXPR_30_48_7 () Int)
-(declare-fun INTLIT_28_39_26 () Int)
-(declare-fun METHODDECL_30_20_7 () Int)
-(declare-fun ASGMUL_29_41_26 () Int)
-(declare-fun THISEXPR_30_47_7 () Int)
-(declare-fun BOOLEANLIT_28_38_26 () Int)
-(declare-fun CONSTRUCTORDECL_30_19_7 () Int)
-(declare-fun ASSIGN_29_40_26 () Int)
-(declare-fun TYPEMODIFIERPRAGMA_27_28_26 () Int)
-(declare-fun ARRAYINIT_30_46_7 () Int)
-(declare-fun SHORTTYPE_28_36_26 () Int)
-(declare-fun INTERFACEDECL_30_18_7 () Int)
-(declare-fun TYPESIG_26_6_28 () Int)
-(declare-fun STAR_29_37_26 () Int)
-(declare-fun CATCHCLAUSE_30_45_7 () Int)
-(declare-fun NOTACCESSIBLE_86_13_26 () Int)
-(declare-fun TYPEDECLELEMPRAGMA_27_27_26 () Int)
-(declare-fun BYTETYPE_28_35_26 () Int)
-(declare-fun CLASSDECL_30_17_7 () Int)
-(declare-fun MOD_29_36_26 () Int)
-(declare-fun BADTYPECOMBO_86_12_26 () Int)
-(declare-fun CONSTRUCTORINVOCATION_30_44_7 () Int)
-(declare-fun NULLTYPE_28_34_26 () Int)
-(declare-fun STMTPRAGMA_27_26_26 () Int)
-(declare-fun ONDEMANDIMPORTDECL_30_16_7 () Int)
-(declare-fun DIV_29_35_26 () Int)
-(declare-fun TRYCATCHSTMT_30_43_7 () Int)
-(declare-fun VOIDTYPE_28_33_26 () Int)
-(declare-fun SINGLETYPEIMPORTDECL_30_15_7 () Int)
-(declare-fun SUB_29_34_26 () Int)
-(declare-fun AMBIGUOUS_86_11_26 () Int)
-(declare-fun MODIFIERPRAGMA_27_25_26 () Int)
-(declare-fun TRYFINALLYSTMT_30_42_7 () Int)
-(declare-fun DOUBLETYPE_28_32_26 () Int)
-(declare-fun NOTFOUND_86_10_26 () Int)
-(declare-fun COMPILATIONUNIT_30_14_7 () Int)
-(declare-fun ADD_29_33_26 () Int)
-(declare-fun FIRST_KEYWORD_27_51_26 () Int)
-(declare-fun SWITCHLABEL_30_41_7 () Int)
-(declare-fun LEXICALPRAGMA_27_24_26 () Int)
-(declare-fun FLOATTYPE_28_31_26 () Int)
-(declare-fun URSHIFT_29_32_26 () Int)
-(declare-fun SKIPSTMT_30_40_7 () Int)
-(declare-fun COMPOUNDNAME_30_67_7 () Int)
-(declare-fun CHARTYPE_28_30_26 () Int)
-(declare-fun RSHIFT_29_31_26 () Int)
-(declare-fun FORSTMT_30_39_7 () Int)
-(declare-fun SIMPLENAME_30_66_7 () Int)
-(declare-fun LONGTYPE_28_29_26 () Int)
-(declare-fun LSHIFT_29_30_26 () Int)
-(declare-fun IFSTMT_30_38_7 () Int)
-(declare-fun POSTFIXDEC_29_63_26 () Int)
-(declare-fun ARRAYTYPE_30_65_7 () Int)
-(declare-fun INTTYPE_28_28_26 () Int)
-(declare-fun LT_29_29_26 () Int)
-(declare-fun LABELSTMT_30_37_7 () Int)
-(declare-fun POSTFIXINC_29_62_26 () Int)
-(declare-fun noTokens_27_212_27 () Int)
-(declare-fun TYPENAME_30_64_7 () Int)
-(declare-fun BOOLEANTYPE_28_27_26 () Int)
-(declare-fun LE_29_28_26 () Int)
-(declare-fun CONTINUESTMT_30_36_7 () Int)
-(declare-fun punctuationCodes_27_164_19 () Int)
-(declare-fun DEC_29_59_26 () Int)
-(declare-fun SUPEROBJECTDESIGNATOR_30_63_7 () Int)
-(declare-fun IDENT_28_25_26 () Int)
-(declare-fun GT_29_27_26 () Int)
-(declare-fun BREAKSTMT_30_35_7 () Int)
-(declare-fun INC_29_58_26 () Int)
-(declare-fun TYPEOBJECTDESIGNATOR_30_62_7 () Int)
-(declare-fun sigDecoration_5_104_38 () Int)
-(declare-fun GE_29_26_26 () Int)
-(declare-fun keywordStrings_27_181_30 () Int)
-(declare-fun THROWSTMT_30_34_7 () Int)
-(declare-fun NULL_44_60_26 () Int)
-(declare-fun BITNOT_29_57_26 () Int)
-(declare-fun EXPROBJECTDESIGNATOR_30_61_7 () Int)
-(assert (let ((?v_0 (array T_int)) (?v_1 (array T_java_lang_String))) (and (= (PO_LT T_javafe_ast_VarInitVec T_java_lang_Object) true_term) (= T_javafe_ast_VarInitVec (asChild T_javafe_ast_VarInitVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_WhileStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_WhileStmt (asChild T_javafe_ast_WhileStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_StmtVec T_java_lang_Object) true_term) (= T_javafe_ast_StmtVec (asChild T_javafe_ast_StmtVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_ExprVec T_java_lang_Object) true_term) (= T_javafe_ast_ExprVec (asChild T_javafe_ast_ExprVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_CastExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_CastExpr (asChild T_javafe_ast_CastExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_AmbiguousMethodInvocation T_javafe_ast_Expr) true_term) (= T_javafe_ast_AmbiguousMethodInvocation (asChild T_javafe_ast_AmbiguousMethodInvocation T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_TypeDecl T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_TypeDecl (asChild T_javafe_ast_TypeDecl T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_TypeDecl T_javafe_ast_TypeDeclElem) true_term) (= (PO_LT T_java_lang_Throwable T_java_lang_Object) true_term) (= T_java_lang_Throwable (asChild T_java_lang_Throwable T_java_lang_Object)) (= (PO_LT T_java_lang_Throwable T_java_io_Serializable) true_term) (= (PO_LT T_javafe_ast_LiteralExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_LiteralExpr (asChild T_javafe_ast_LiteralExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_ImportDecl T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_ImportDecl (asChild T_javafe_ast_ImportDecl T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_TryFinallyStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_TryFinallyStmt (asChild T_javafe_ast_TryFinallyStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_InterfaceDecl T_javafe_ast_TypeDecl) true_term) (= T_javafe_ast_InterfaceDecl (asChild T_javafe_ast_InterfaceDecl T_javafe_ast_TypeDecl)) (= (PO_LT T_java_lang_RuntimeException T_java_lang_Exception) true_term) (= T_java_lang_RuntimeException (asChild T_java_lang_RuntimeException T_java_lang_Exception)) (= (PO_LT T_javafe_ast_VariableAccess T_javafe_ast_Expr) true_term) (= T_javafe_ast_VariableAccess (asChild T_javafe_ast_VariableAccess T_javafe_ast_Expr)) (= (PO_LT T_javafe_tc_Types T_java_lang_Object) true_term) (= T_javafe_tc_Types (asChild T_javafe_tc_Types T_java_lang_Object)) (= (PO_LT T_javafe_ast_ThrowStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_ThrowStmt (asChild T_javafe_ast_ThrowStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_PrimitiveType T_javafe_ast_Type) true_term) (= T_javafe_ast_PrimitiveType (asChild T_javafe_ast_PrimitiveType T_javafe_ast_Type)) (= (PO_LT T_javafe_tc_PrepTypeDeclaration T_java_lang_Object) true_term) (= T_javafe_tc_PrepTypeDeclaration (asChild T_javafe_tc_PrepTypeDeclaration T_java_lang_Object)) (= (PO_LT T_javafe_ast_ConstructorInvocation T_javafe_ast_Stmt) true_term) (= T_javafe_ast_ConstructorInvocation (asChild T_javafe_ast_ConstructorInvocation T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_SwitchStmt T_javafe_ast_GenericBlockStmt) true_term) (= T_javafe_ast_SwitchStmt (asChild T_javafe_ast_SwitchStmt T_javafe_ast_GenericBlockStmt)) (= (PO_LT T_javafe_ast_FormalParaDecl T_javafe_ast_GenericVarDecl) true_term) (= T_javafe_ast_FormalParaDecl (asChild T_javafe_ast_FormalParaDecl T_javafe_ast_GenericVarDecl)) (= (PO_LT T_javafe_tc_TagConstants T_javafe_parser_TagConstants) true_term) (= T_javafe_tc_TagConstants (asChild T_javafe_tc_TagConstants T_javafe_parser_TagConstants)) (= (PO_LT T_java_util_EscjavaKeyValue T_java_lang_Object) true_term) (= (PO_LT T_javafe_ast_CompilationUnit T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_CompilationUnit (asChild T_javafe_ast_CompilationUnit T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_Expr T_javafe_ast_VarInit) true_term) (= T_javafe_ast_Expr (asChild T_javafe_ast_Expr T_javafe_ast_VarInit)) (= (PO_LT T_java_lang_Integer T_java_lang_Number) true_term) (= T_java_lang_Integer (asChild T_java_lang_Integer T_java_lang_Number)) (forall ((?t Int)) (= (= (PO_LT ?t T_java_lang_Integer) true_term) (= ?t T_java_lang_Integer))) (= (PO_LT T_java_lang_Integer T_java_lang_Comparable) true_term) (= (PO_LT T_javafe_ast_ModifierPragmaVec T_java_lang_Object) true_term) (= T_javafe_ast_ModifierPragmaVec (asChild T_javafe_ast_ModifierPragmaVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_TypeObjectDesignator T_javafe_ast_ObjectDesignator) true_term) (= T_javafe_ast_TypeObjectDesignator (asChild T_javafe_ast_TypeObjectDesignator T_javafe_ast_ObjectDesignator)) (= (PO_LT T_javafe_ast_CompoundName T_javafe_ast_Name) true_term) (= T_javafe_ast_CompoundName (asChild T_javafe_ast_CompoundName T_javafe_ast_Name)) (= (PO_LT T_javafe_ast_TryCatchStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_TryCatchStmt (asChild T_javafe_ast_TryCatchStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_Modifiers T_java_lang_Object) true_term) (= T_javafe_ast_Modifiers (asChild T_javafe_ast_Modifiers T_java_lang_Object)) (= (PO_LT T_javafe_tc_FlowInsensitiveChecks T_java_lang_Object) true_term) (= T_javafe_tc_FlowInsensitiveChecks (asChild T_javafe_tc_FlowInsensitiveChecks T_java_lang_Object)) (= (PO_LT T_javafe_ast_TypeModifierPragma T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_TypeModifierPragma (asChild T_javafe_ast_TypeModifierPragma T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_TypeNameVec T_java_lang_Object) true_term) (= T_javafe_ast_TypeNameVec (asChild T_javafe_ast_TypeNameVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_GenericVarDecl T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_GenericVarDecl (asChild T_javafe_ast_GenericVarDecl T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_ContinueStmt T_javafe_ast_BranchStmt) true_term) (= T_javafe_ast_ContinueStmt (asChild T_javafe_ast_ContinueStmt T_javafe_ast_BranchStmt)) (= (PO_LT T_javafe_ast_UnaryExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_UnaryExpr (asChild T_javafe_ast_UnaryExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_NewInstanceExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_NewInstanceExpr (asChild T_javafe_ast_NewInstanceExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_IfStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_IfStmt (asChild T_javafe_ast_IfStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_TypeDeclElem T_java_lang_Object) true_term) (= (PO_LT T_javafe_ast_TagConstants T_javafe_ast_OperatorTags) true_term) (= T_javafe_ast_TagConstants (asChild T_javafe_ast_TagConstants T_javafe_ast_OperatorTags)) (= (PO_LT T_javafe_ast_MethodInvocation T_javafe_ast_Expr) true_term) (= T_javafe_ast_MethodInvocation (asChild T_javafe_ast_MethodInvocation T_javafe_ast_Expr)) (= (PO_LT T_java_lang_String T_java_lang_Object) true_term) (= T_java_lang_String (asChild T_java_lang_String T_java_lang_Object)) (forall ((?t Int)) (= (= (PO_LT ?t T_java_lang_String) true_term) (= ?t T_java_lang_String))) (= (PO_LT T_java_lang_String T_java_io_Serializable) true_term) (= (PO_LT T_java_lang_String T_java_lang_Comparable) true_term) (= (PO_LT T_javafe_util_ErrorSet T_java_lang_Object) true_term) (= T_javafe_util_ErrorSet (asChild T_javafe_util_ErrorSet T_java_lang_Object)) (= (PO_LT T_javafe_parser_TagConstants T_javafe_ast_TagConstants) true_term) (= T_javafe_parser_TagConstants (asChild T_javafe_parser_TagConstants T_javafe_ast_TagConstants)) (= (PO_LT T_java_lang_Exception T_java_lang_Throwable) true_term) (= T_java_lang_Exception (asChild T_java_lang_Exception T_java_lang_Throwable)) (= (PO_LT T_javafe_ast_IdentifierVec T_java_lang_Object) true_term) (= T_javafe_ast_IdentifierVec (asChild T_javafe_ast_IdentifierVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_RoutineDecl T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_RoutineDecl (asChild T_javafe_ast_RoutineDecl T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_RoutineDecl T_javafe_ast_TypeDeclElem) true_term) (= (PO_LT T_javafe_ast_SimpleName T_javafe_ast_Name) true_term) (= T_javafe_ast_SimpleName (asChild T_javafe_ast_SimpleName T_javafe_ast_Name)) (= (PO_LT T_javafe_ast_TypeDeclElemPragma T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_TypeDeclElemPragma (asChild T_javafe_ast_TypeDeclElemPragma T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_TypeDeclElemPragma T_javafe_ast_TypeDeclElem) true_term) (= (PO_LT T_javafe_tc_TypeSig T_javafe_ast_Type) true_term) (= T_javafe_tc_TypeSig (asChild T_javafe_tc_TypeSig T_javafe_ast_Type)) (= (PO_LT T_javafe_ast_SwitchLabel T_javafe_ast_Stmt) true_term) (= T_javafe_ast_SwitchLabel (asChild T_javafe_ast_SwitchLabel T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_SkipStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_SkipStmt (asChild T_javafe_ast_SkipStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_tc_FieldDeclVec T_java_lang_Object) true_term) (= T_javafe_tc_FieldDeclVec (asChild T_javafe_tc_FieldDeclVec T_java_lang_Object)) (= (PO_LT T_javafe_tc_TypeSigVec T_java_lang_Object) true_term) (= T_javafe_tc_TypeSigVec (asChild T_javafe_tc_TypeSigVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_ParenExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_ParenExpr (asChild T_javafe_ast_ParenExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_tc_Env T_java_lang_Object) true_term) (= T_javafe_tc_Env (asChild T_javafe_tc_Env T_java_lang_Object)) (= (PO_LT T_javafe_ast_BranchStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_BranchStmt (asChild T_javafe_ast_BranchStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_tc_EnvForLocalType T_javafe_tc_Env) true_term) (= T_javafe_tc_EnvForLocalType (asChild T_javafe_tc_EnvForLocalType T_javafe_tc_Env)) (= (PO_LT T_javafe_tc_EnvForLocalType T_java_lang_Cloneable) true_term) (= (PO_LT T_javafe_ast_ArrayInit T_javafe_ast_VarInit) true_term) (= T_javafe_ast_ArrayInit (asChild T_javafe_ast_ArrayInit T_javafe_ast_VarInit)) (= (PO_LT T_javafe_tc_LookupException T_java_lang_Exception) true_term) (= T_javafe_tc_LookupException (asChild T_javafe_tc_LookupException T_java_lang_Exception)) (= (PO_LT T_java_lang_Double T_java_lang_Number) true_term) (= T_java_lang_Double (asChild T_java_lang_Double T_java_lang_Number)) (forall ((?t Int)) (= (= (PO_LT ?t T_java_lang_Double) true_term) (= ?t T_java_lang_Double))) (= (PO_LT T_java_lang_Double T_java_lang_Comparable) true_term) (= (PO_LT T_javafe_ast_OperatorTags T_java_lang_Object) true_term) (= T_javafe_ast_OperatorTags (asChild T_javafe_ast_OperatorTags T_java_lang_Object)) (= (PO_LT T_javafe_ast_OperatorTags T_javafe_ast_GeneratedTags) true_term) (= (PO_LT T_javafe_ast_VarInit T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_VarInit (asChild T_javafe_ast_VarInit T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_TypeName T_javafe_ast_Type) true_term) (= T_javafe_ast_TypeName (asChild T_javafe_ast_TypeName T_javafe_ast_Type)) (= (PO_LT T_javafe_ast_LocalVarDecl T_javafe_ast_GenericVarDecl) true_term) (= T_javafe_ast_LocalVarDecl (asChild T_javafe_ast_LocalVarDecl T_javafe_ast_GenericVarDecl)) (= (PO_LT T_javafe_util_Set T_java_lang_Object) true_term) (= T_javafe_util_Set (asChild T_javafe_util_Set T_java_lang_Object)) (= (PO_LT T_javafe_util_Set T_java_lang_Cloneable) true_term) (= (PO_LT T_javafe_ast_ASTNode T_java_lang_Object) true_term) (= T_javafe_ast_ASTNode (asChild T_javafe_ast_ASTNode T_java_lang_Object)) (= (PO_LT T_javafe_ast_ASTNode T_java_lang_Cloneable) true_term) (= (PO_LT T_javafe_tc_MethodDeclVec T_java_lang_Object) true_term) (= T_javafe_tc_MethodDeclVec (asChild T_javafe_tc_MethodDeclVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_ModifierPragma T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_ModifierPragma (asChild T_javafe_ast_ModifierPragma T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_ReturnStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_ReturnStmt (asChild T_javafe_ast_ReturnStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_FieldAccess T_javafe_ast_Expr) true_term) (= T_javafe_ast_FieldAccess (asChild T_javafe_ast_FieldAccess T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_BlockStmt T_javafe_ast_GenericBlockStmt) true_term) (= T_javafe_ast_BlockStmt (asChild T_javafe_ast_BlockStmt T_javafe_ast_GenericBlockStmt)) (= (PO_LT T_javafe_ast_Identifier T_java_lang_Object) true_term) (= T_javafe_ast_Identifier (asChild T_javafe_ast_Identifier T_java_lang_Object)) (forall ((?t Int)) (= (= (PO_LT ?t T_javafe_ast_Identifier) true_term) (= ?t T_javafe_ast_Identifier))) (= (PO_LT T_javafe_ast_OnDemandImportDecl T_javafe_ast_ImportDecl) true_term) (= T_javafe_ast_OnDemandImportDecl (asChild T_javafe_ast_OnDemandImportDecl T_javafe_ast_ImportDecl)) (= (PO_LT T_java_util_Map T_java_lang_Object) true_term) (= (PO_LT T_java_util_Map T_java_util_EscjavaKeyValue) true_term) (= (PO_LT T_javafe_ast_ObjectDesignator T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_ObjectDesignator (asChild T_javafe_ast_ObjectDesignator T_javafe_ast_ASTNode)) (= (PO_LT T_java_lang_Comparable T_java_lang_Object) true_term) (= (PO_LT T_javafe_util_Location T_java_lang_Object) true_term) (= T_javafe_util_Location (asChild T_javafe_util_Location T_java_lang_Object)) (= (PO_LT T_java_lang_ClassCastException T_java_lang_RuntimeException) true_term) (= T_java_lang_ClassCastException (asChild T_java_lang_ClassCastException T_java_lang_RuntimeException)) (= (PO_LT T_javafe_ast_InstanceOfExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_InstanceOfExpr (asChild T_javafe_ast_InstanceOfExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_ThisExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_ThisExpr (asChild T_javafe_ast_ThisExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_ClassDeclStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_ClassDeclStmt (asChild T_javafe_ast_ClassDeclStmt T_javafe_ast_Stmt)) (= (PO_LT T_java_util_Dictionary T_java_lang_Object) true_term) (= T_java_util_Dictionary (asChild T_java_util_Dictionary T_java_lang_Object)) (= (PO_LT T_java_util_Dictionary T_java_util_EscjavaKeyValue) true_term) (= (PO_LT T_java_lang_Float T_java_lang_Number) true_term) (= T_java_lang_Float (asChild T_java_lang_Float T_java_lang_Number)) (forall ((?t Int)) (= (= (PO_LT ?t T_java_lang_Float) true_term) (= ?t T_java_lang_Float))) (= (PO_LT T_java_lang_Float T_java_lang_Comparable) true_term) (= (PO_LT T_javafe_ast_InitBlock T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_InitBlock (asChild T_javafe_ast_InitBlock T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_InitBlock T_javafe_ast_TypeDeclElem) true_term) (= (PO_LT T_javafe_tc_EnvForCU T_javafe_tc_Env) true_term) (= T_javafe_tc_EnvForCU (asChild T_javafe_tc_EnvForCU T_javafe_tc_Env)) (= (PO_LT T_javafe_ast_ClassDecl T_javafe_ast_TypeDecl) true_term) (= T_javafe_ast_ClassDecl (asChild T_javafe_ast_ClassDecl T_javafe_ast_TypeDecl)) (= (PO_LT T_javafe_ast_DoStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_DoStmt (asChild T_javafe_ast_DoStmt T_javafe_ast_Stmt)) (= (PO_LT T_java_io_Serializable T_java_lang_Object) true_term) (= (PO_LT T_javafe_ast_BreakStmt T_javafe_ast_BranchStmt) true_term) (= T_javafe_ast_BreakStmt (asChild T_javafe_ast_BreakStmt T_javafe_ast_BranchStmt)) (= (PO_LT T_javafe_ast_ClassLiteral T_javafe_ast_Expr) true_term) (= T_javafe_ast_ClassLiteral (asChild T_javafe_ast_ClassLiteral T_javafe_ast_Expr)) (= (PO_LT T_java_lang_Cloneable T_java_lang_Object) true_term) (= (PO_LT T_javafe_ast_ConstructorDecl T_javafe_ast_RoutineDecl) true_term) (= T_javafe_ast_ConstructorDecl (asChild T_javafe_ast_ConstructorDecl T_javafe_ast_RoutineDecl)) (= (PO_LT T_javafe_tc_ConstantExpr T_java_lang_Object) true_term) (= T_javafe_tc_ConstantExpr (asChild T_javafe_tc_ConstantExpr T_java_lang_Object)) (= (PO_LT T_javafe_ast_BinaryExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_BinaryExpr (asChild T_javafe_ast_BinaryExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_Name T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_Name (asChild T_javafe_ast_Name T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_CatchClause T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_CatchClause (asChild T_javafe_ast_CatchClause T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_ArrayRefExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_ArrayRefExpr (asChild T_javafe_ast_ArrayRefExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_VarDeclStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_VarDeclStmt (asChild T_javafe_ast_VarDeclStmt T_javafe_ast_Stmt)) (= (PO_LT T_java_util_Hashtable T_java_util_Dictionary) true_term) (= T_java_util_Hashtable (asChild T_java_util_Hashtable T_java_util_Dictionary)) (= (PO_LT T_java_util_Hashtable T_java_util_Map) true_term) (= (PO_LT T_java_util_Hashtable T_java_lang_Cloneable) true_term) (= (PO_LT T_java_util_Hashtable T_java_io_Serializable) true_term) (= (PO_LT T_javafe_ast_ArrayType T_javafe_ast_Type) true_term) (= T_javafe_ast_ArrayType (asChild T_javafe_ast_ArrayType T_javafe_ast_Type)) (= (PO_LT T_javafe_tc_EnvForLocals T_javafe_tc_Env) true_term) (= T_javafe_tc_EnvForLocals (asChild T_javafe_tc_EnvForLocals 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T_int)) (= BLOCKSTMT_30_25_7 11) (= true_term (is NULL_27_82_26 T_int)) (= NULL_27_82_26 163) (= true_term (is ASGLSHIFT_29_46_26 T_int)) (= ASGLSHIFT_29_46_26 79) (= true_term (is INSTANCEOFEXPR_30_52_7 T_int)) (= INSTANCEOFEXPR_30_52_7 38) (= true_term (is DOUBLELIT_28_43_26 T_int)) (= DOUBLELIT_28_43_26 109) (= true_term (is FORMALPARADECL_30_24_7 T_int)) (= FORMALPARADECL_30_24_7 10) (= true_term (is map_5_301_35 T_java_util_Hashtable)) (not (= map_5_301_35 null)) (= (typeof map_5_301_35) T_java_util_Hashtable) (= true_term (is ASGSUB_29_45_26 T_int)) (= ASGSUB_29_45_26 78) (= true_term (is CONDEXPR_30_51_7 T_int)) (= CONDEXPR_30_51_7 37) (= true_term (is otherStrings_27_193_30 ?v_1)) (not (= otherStrings_27_193_30 null)) (= (typeof otherStrings_27_193_30) ?v_1) (= (arrayLength otherStrings_27_193_30) 15) (= true_term (is FLOATLIT_28_42_26 T_int)) (= FLOATLIT_28_42_26 108) (= true_term (is FIELDDECL_30_23_7 T_int)) (= FIELDDECL_30_23_7 9) (= true_term (is ASGADD_29_44_26 T_int)) (= ASGADD_29_44_26 77) (= true_term (is NEWARRAYEXPR_30_50_7 T_int)) (= NEWARRAYEXPR_30_50_7 36) (= true_term (is CHARLIT_28_41_26 T_int)) (= CHARLIT_28_41_26 107) (= true_term (is LOCALVARDECL_30_22_7 T_int)) (= LOCALVARDECL_30_22_7 8) (= true_term (is whereDecoration_20_597_41 T_javafe_ast_ASTDecoration)) (not (= whereDecoration_20_597_41 null)) (= (typeof whereDecoration_20_597_41) T_javafe_ast_ASTDecoration) (= true_term (is ASGREM_29_43_26 T_int)) (= ASGREM_29_43_26 76) (= true_term (is NEWINSTANCEEXPR_30_49_7 T_int)) (= NEWINSTANCEEXPR_30_49_7 35) (= true_term (is LONGLIT_28_40_26 T_int)) (= LONGLIT_28_40_26 106) (= true_term (is INITBLOCK_30_21_7 T_int)) (= INITBLOCK_30_21_7 7) (= true_term (is ASGDIV_29_42_26 T_int)) (= ASGDIV_29_42_26 75) (= true_term (is ARRAYREFEXPR_30_48_7 T_int)) (= ARRAYREFEXPR_30_48_7 34) (= true_term (is INTLIT_28_39_26 T_int)) (= INTLIT_28_39_26 105) (= true_term (is METHODDECL_30_20_7 T_int)) (= METHODDECL_30_20_7 6) (= true_term (is ASGMUL_29_41_26 T_int)) (= ASGMUL_29_41_26 74) (= true_term (is THISEXPR_30_47_7 T_int)) (= THISEXPR_30_47_7 33) (= true_term (is BOOLEANLIT_28_38_26 T_int)) (= BOOLEANLIT_28_38_26 104) (= true_term (is CONSTRUCTORDECL_30_19_7 T_int)) (= CONSTRUCTORDECL_30_19_7 5) (= true_term (is ASSIGN_29_40_26 T_int)) (= ASSIGN_29_40_26 73) (= true_term (is TYPEMODIFIERPRAGMA_27_28_26 T_int)) (= TYPEMODIFIERPRAGMA_27_28_26 118) (= true_term (is ARRAYINIT_30_46_7 T_int)) (= ARRAYINIT_30_46_7 32) (= true_term (is SHORTTYPE_28_36_26 T_int)) (= SHORTTYPE_28_36_26 103) (= true_term (is INTERFACEDECL_30_18_7 T_int)) (= INTERFACEDECL_30_18_7 4) (= true_term (is TYPESIG_26_6_28 T_int)) (= TYPESIG_26_6_28 184) (= true_term (is STAR_29_37_26 T_int)) (= STAR_29_37_26 72) (= true_term (is CATCHCLAUSE_30_45_7 T_int)) (= CATCHCLAUSE_30_45_7 31) (= true_term (is NOTACCESSIBLE_86_13_26 T_int)) (= NOTACCESSIBLE_86_13_26 3) (= true_term (is TYPEDECLELEMPRAGMA_27_27_26 T_int)) (= TYPEDECLELEMPRAGMA_27_27_26 117) (= true_term (is BYTETYPE_28_35_26 T_int)) (= BYTETYPE_28_35_26 102) (= true_term (is CLASSDECL_30_17_7 T_int)) (= CLASSDECL_30_17_7 3) (= true_term (is MOD_29_36_26 T_int)) (= MOD_29_36_26 71) (= true_term (is BADTYPECOMBO_86_12_26 T_int)) (= BADTYPECOMBO_86_12_26 2) (= true_term (is CONSTRUCTORINVOCATION_30_44_7 T_int)) (= CONSTRUCTORINVOCATION_30_44_7 30) (= true_term (is NULLTYPE_28_34_26 T_int)) (= NULLTYPE_28_34_26 101) (= true_term (is STMTPRAGMA_27_26_26 T_int)) (= STMTPRAGMA_27_26_26 116) (= true_term (is ONDEMANDIMPORTDECL_30_16_7 T_int)) (= ONDEMANDIMPORTDECL_30_16_7 2) (= true_term (is DIV_29_35_26 T_int)) (= DIV_29_35_26 70) (= true_term (is TRYCATCHSTMT_30_43_7 T_int)) (= TRYCATCHSTMT_30_43_7 29) (= true_term (is VOIDTYPE_28_33_26 T_int)) (= VOIDTYPE_28_33_26 100) (= true_term (is SINGLETYPEIMPORTDECL_30_15_7 T_int)) (= SINGLETYPEIMPORTDECL_30_15_7 1) (= true_term (is SUB_29_34_26 T_int)) (= SUB_29_34_26 69) (= true_term (is AMBIGUOUS_86_11_26 T_int)) (= AMBIGUOUS_86_11_26 1) (= true_term (is MODIFIERPRAGMA_27_25_26 T_int)) (= MODIFIERPRAGMA_27_25_26 115) (= true_term (is TRYFINALLYSTMT_30_42_7 T_int)) (= TRYFINALLYSTMT_30_42_7 28) (= true_term (is DOUBLETYPE_28_32_26 T_int)) (= DOUBLETYPE_28_32_26 99) (= true_term (is NOTFOUND_86_10_26 T_int)) (= NOTFOUND_86_10_26 0) (= true_term (is COMPILATIONUNIT_30_14_7 T_int)) (= COMPILATIONUNIT_30_14_7 0) (= true_term (is ADD_29_33_26 T_int)) (= ADD_29_33_26 68) (= true_term (is FIRST_KEYWORD_27_51_26 T_int)) (= FIRST_KEYWORD_27_51_26 133) (= true_term (is SWITCHLABEL_30_41_7 T_int)) (= SWITCHLABEL_30_41_7 27) (= true_term (is LEXICALPRAGMA_27_24_26 T_int)) (= LEXICALPRAGMA_27_24_26 114) (= true_term (is FLOATTYPE_28_31_26 T_int)) (= FLOATTYPE_28_31_26 98) (= true_term (is URSHIFT_29_32_26 T_int)) (= URSHIFT_29_32_26 67) (= true_term (is SKIPSTMT_30_40_7 T_int)) (= SKIPSTMT_30_40_7 26) (= true_term (is COMPOUNDNAME_30_67_7 T_int)) (= COMPOUNDNAME_30_67_7 53) (= true_term (is CHARTYPE_28_30_26 T_int)) (= CHARTYPE_28_30_26 97) (= true_term (is RSHIFT_29_31_26 T_int)) (= RSHIFT_29_31_26 66) (= true_term (is FORSTMT_30_39_7 T_int)) (= FORSTMT_30_39_7 25) (= true_term (is SIMPLENAME_30_66_7 T_int)) (= SIMPLENAME_30_66_7 52) (= true_term (is LONGTYPE_28_29_26 T_int)) (= LONGTYPE_28_29_26 96) (= true_term (is LSHIFT_29_30_26 T_int)) (= LSHIFT_29_30_26 65) (= true_term (is IFSTMT_30_38_7 T_int)) (= IFSTMT_30_38_7 24) (= true_term (is POSTFIXDEC_29_63_26 T_int)) (= POSTFIXDEC_29_63_26 92) (= true_term (is ARRAYTYPE_30_65_7 T_int)) (= ARRAYTYPE_30_65_7 51) (= true_term (is INTTYPE_28_28_26 T_int)) (= INTTYPE_28_28_26 95) (= true_term (is LT_29_29_26 T_int)) (= LT_29_29_26 64) (= true_term (is LABELSTMT_30_37_7 T_int)) (= LABELSTMT_30_37_7 23) (= true_term (is POSTFIXINC_29_62_26 T_int)) (= POSTFIXINC_29_62_26 91) (= true_term (is noTokens_27_212_27 T_int)) (= true_term (is TYPENAME_30_64_7 T_int)) (= TYPENAME_30_64_7 50) (= true_term (is BOOLEANTYPE_28_27_26 T_int)) (= BOOLEANTYPE_28_27_26 94) (= true_term (is LE_29_28_26 T_int)) (= LE_29_28_26 63) (= true_term (is CONTINUESTMT_30_36_7 T_int)) (= CONTINUESTMT_30_36_7 22) (= true_term (is punctuationCodes_27_164_19 ?v_0)) (not (= punctuationCodes_27_164_19 null)) (= (typeof punctuationCodes_27_164_19) ?v_0) (= (arrayLength punctuationCodes_27_164_19) 48) (= true_term (is DEC_29_59_26 T_int)) (= DEC_29_59_26 90) (= true_term (is SUPEROBJECTDESIGNATOR_30_63_7 T_int)) (= SUPEROBJECTDESIGNATOR_30_63_7 49) (= true_term (is IDENT_28_25_26 T_int)) (= IDENT_28_25_26 93) (= true_term (is GT_29_27_26 T_int)) (= GT_29_27_26 62) (= true_term (is BREAKSTMT_30_35_7 T_int)) (= BREAKSTMT_30_35_7 21) (= true_term (is INC_29_58_26 T_int)) (= INC_29_58_26 89) (= true_term (is TYPEOBJECTDESIGNATOR_30_62_7 T_int)) (= TYPEOBJECTDESIGNATOR_30_62_7 48) (= true_term (is sigDecoration_5_104_38 T_javafe_ast_ASTDecoration)) (not (= sigDecoration_5_104_38 null)) (= (typeof sigDecoration_5_104_38) T_javafe_ast_ASTDecoration) (= true_term (is GE_29_26_26 T_int)) (= 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-(declare-fun RES_1560_15_1560_15 () Int)
-(declare-fun EC_1560_15_1560_15 () Int)
-(declare-fun RES_1561_14_1561_14 () Int)
-(declare-fun EC_1561_14_1561_14 () Int)
-(declare-fun RES_2_ () Int)
-(declare-fun EC_2_ () Int)
-(declare-fun tmp5_cand_1560_53 () Int)
-(declare-fun RES_1570_16_1570_16 () Int)
-(declare-fun EC_1570_16_1570_16 () Int)
-(declare-fun RES_3_ () Int)
-(declare-fun tmp10_cor_1570_53 () Int)
-(declare-fun EC_3_ () Int)
-(declare-fun RES_1571_10_1571_10 () Int)
-(declare-fun EC_1571_10_1571_10 () Int)
-(declare-fun RES_4_ () Int)
-(declare-fun EC_4_ () Int)
-(declare-fun tmp9_cor_1571_48 () Int)
-(declare-fun RES_1572_10_1572_10 () Int)
-(declare-fun EC_1572_10_1572_10 () Int)
-(declare-fun RES_1574_35_1574_35 () Int)
-(declare-fun EC_1574_35_1574_35 () Int)
-(declare-fun t_1574_2_1574_2_67_16_71 () Int)
-(declare-fun RES_1574_2_1574_2 () Int)
-(declare-fun EC_1574_2_1574_2 () Int)
-(declare-fun RES_5_ () Int)
-(declare-fun tmp8_cand_1573_2 () Int)
-(declare-fun EC_5_ () Int)
-(declare-fun RES_1577_16_1577_16 () Int)
-(declare-fun EC_1577_16_1577_16 () Int)
-(declare-fun RES_6_ () Int)
-(declare-fun EC_6_ () Int)
-(declare-fun tmp17_cor_1577_54 () Int)
-(declare-fun RES_1578_10_1578_10 () Int)
-(declare-fun EC_1578_10_1578_10 () Int)
-(declare-fun RES_7_ () Int)
-(declare-fun tmp16_cor_1578_49 () Int)
-(declare-fun EC_7_ () Int)
-(declare-fun RES_1579_10_1579_10 () Int)
-(declare-fun EC_1579_10_1579_10 () Int)
-(declare-fun RES_1581_35_1581_35 () Int)
-(declare-fun EC_1581_35_1581_35 () Int)
-(declare-fun t_1581_2_1581_2_67_16_71 () Int)
-(declare-fun RES_1599_11_1599_11 () Int)
-(declare-fun EC_1599_11_1599_11 () Int)
-(declare-fun RES_1600_11_1600_11 () Int)
-(declare-fun EC_1600_11_1600_11 () Int)
-(declare-fun RES_8_ () Int)
-(declare-fun EC_8_ () Int)
-(declare-fun tmp23_cand_1599_48 () Int)
-(declare-fun RES_1602_11_1602_11 () Int)
-(declare-fun EC_1602_11_1602_11 () Int)
-(declare-fun RES_1603_11_1603_11 () Int)
-(declare-fun EC_1603_11_1603_11 () Int)
-(declare-fun RES_9_ () Int)
-(declare-fun EC_9_ () Int)
-(declare-fun tmp25_cand_1602_49 () Int)
-(declare-fun RES_1615_11_1615_11 () Int)
-(declare-fun EC_1615_11_1615_11 () Int)
-(declare-fun RES_1616_14_1616_14 () Int)
-(declare-fun EC_1616_14_1616_14 () Int)
-(declare-fun RES_10_ () Int)
-(declare-fun EC_10_ () Int)
-(declare-fun tmp27_cand_1616_5 () Int)
-(declare-fun RES_1617_9_1617_9 () Int)
-(declare-fun EC_1617_9_1617_9 () Int)
-(declare-fun RES_11_ () Int)
-(declare-fun RES_1581_2_1581_2 () Int)
-(declare-fun EC_1581_2_1581_2 () Int)
-(declare-fun RES_12_ () Int)
-(declare-fun EC_11_ () Int)
-(declare-fun tmp15_cand_1580_2 () Int)
-(declare-fun RES_1591_18_1591_18 () Int)
-(declare-fun EC_1591_18_1591_18 () Int)
-(declare-fun RES_1619_9_1619_9 () Int)
-(declare-fun EC_1619_9_1619_9 () Int)
-(declare-fun EC_12_ () Int)
-(assert (let ((?v_0 (array T_int)) (?v_1 (array T_java_lang_String)) (?v_64 (= true_term (is nullType_38_131_4 T_javafe_ast_PrimitiveType))) (?v_38 (= true_term (is charType_38_127_4 T_javafe_ast_PrimitiveType))) (?v_20 (= true_term (is shortType_38_139_4 T_javafe_ast_PrimitiveType))) (?v_15 (= true_term (is byteType_38_135_4 T_javafe_ast_PrimitiveType))) (?v_2 (not (= leftExpr_1535_39 null))) (?v_4 (not (= rightExpr_1535_54 null))) (?v_12 (not (= byteType_38_135_4 null))) (?v_17 (not (= shortType_38_139_4 null))) (?v_34 (not (= charType_38_127_4 null))) (?v_62 (not (= nullType_38_131_4 null)))) (let ((?v_59 (not ?v_2)) (?v_70 (= true_term (is RES_1536_24_1536_24 T_javafe_ast_Type))) (?v_71 (= true_term (isAllocated RES_1536_24_1536_24 alloc))) (?v_3 (= EC_1536_24_1536_24 ecReturn)) (?v_6 (not (= RES_1536_24_1536_24 null)))) (let ((?v_72 (=> ?v_3 ?v_6)) (?v_39 (not ?v_4)) (?v_73 (= true_term (is RES_1537_18_1537_18 T_javafe_ast_Type))) (?v_74 (= true_term (isAllocated RES_1537_18_1537_18 alloc))) (?v_5 (= EC_1537_18_1537_18 ecReturn)) (?v_7 (not (= RES_1537_18_1537_18 null)))) (let ((?v_75 (=> ?v_5 ?v_7)) (?v_76 (= true_term (is RES_1543_11_1543_11 T_boolean))) (?v_8 (= EC_1543_11_1543_11 ecReturn)) (?v_9 (= true_term RES_1543_11_1543_11)) (?v_40 (= true_term (is RES_1536_24_1536_24 T_javafe_ast_PrimitiveType)))) (let ((?v_14 (and ?v_40 ?v_6)) (?v_60 (= true_term (is RES_1537_18_1537_18 T_javafe_ast_PrimitiveType)))) (let ((?v_19 (and ?v_60 ?v_7))) (let ((?v_77 (=> (and ?v_8 ?v_9) (= ?v_14 ?v_19))) (?v_78 (not ?v_9)) (?v_11 (= true_term true_term)) (?v_79 (= true_term (is RES_1550_11_1550_11 T_boolean))) (?v_80 (= EC_1550_11_1550_11 ecReturn)) (?v_10 (= true_term RES_1550_11_1550_11))) (let ((?v_81 (or (and ?v_10 (= true_term (is RES_1551_14_1551_14 T_boolean)) (= EC_1551_14_1551_14 ecReturn) (= RES RES_1551_14_1551_14) (= EC EC_1551_14_1551_14) (= tmp1_cand_1551_5 RES_1551_14_1551_14)) (and (not ?v_10) ?v_11 (= RES RES_1550_11_1550_11) (= EC EC_1550_11_1550_11) (= tmp1_cand_1551_5 false_term)))) (?v_61 (= true_term tmp1_cand_1551_5)) (?v_26 (not (and ?v_6 ?v_12))) (?v_82 (= true_term (is RES_1557_15_1557_15 T_boolean))) (?v_13 (= EC_1557_15_1557_15 ecReturn)) (?v_16 (= true_term RES_1557_15_1557_15)) (?v_22 (and ?v_15 ?v_12))) (let ((?v_28 (= ?v_14 ?v_22))) (let ((?v_83 (=> (and ?v_13 ?v_16) ?v_28)) (?v_51 (not (and ?v_7 ?v_17))) (?v_18 (= EC_1558_14_1558_14 ecReturn)) (?v_25 (and ?v_20 ?v_17))) (let ((?v_54 (= ?v_19 ?v_25))) (let ((?v_84 (or (and ?v_16 (= true_term (is RES_1558_14_1558_14 T_boolean)) ?v_18 (=> (and ?v_18 (= true_term RES_1558_14_1558_14)) ?v_54) (= RES_1_ RES_1558_14_1558_14) (= tmp2_cand_1557_52 RES_1558_14_1558_14) (= EC_1_ EC_1558_14_1558_14)) (and (not ?v_16) ?v_11 (= RES_1_ RES_1557_15_1557_15) (= tmp2_cand_1557_52 false_term) (= EC_1_ EC_1557_15_1557_15)))) (?v_85 (= true_term tmp2_cand_1557_52))) (let ((?v_86 (not ?v_85)) (?v_47 (not (and ?v_7 ?v_12))) (?v_87 (= true_term (is RES_1560_15_1560_15 T_boolean))) (?v_21 (= EC_1560_15_1560_15 ecReturn)) (?v_23 (= true_term RES_1560_15_1560_15)) (?v_49 (= ?v_19 ?v_22))) (let ((?v_88 (=> (and ?v_21 ?v_23) ?v_49)) (?v_30 (not (and ?v_6 ?v_17))) (?v_24 (= EC_1561_14_1561_14 ecReturn)) (?v_33 (= ?v_14 ?v_25))) (let ((?v_89 (or (and ?v_23 (= true_term (is RES_1561_14_1561_14 T_boolean)) ?v_24 (=> (and ?v_24 (= true_term RES_1561_14_1561_14)) ?v_33) (= RES_2_ RES_1561_14_1561_14) (= EC_2_ EC_1561_14_1561_14) (= tmp5_cand_1560_53 RES_1561_14_1561_14)) (and (not ?v_23) ?v_11 (= RES_2_ RES_1560_15_1560_15) (= EC_2_ EC_1560_15_1560_15) (= tmp5_cand_1560_53 false_term)))) (?v_90 (= true_term tmp5_cand_1560_53))) (let ((?v_92 (not ?v_90)) (?v_93 (= true_term (is RES_1570_16_1570_16 T_boolean))) (?v_27 (= EC_1570_16_1570_16 ecReturn)) (?v_29 (= true_term RES_1570_16_1570_16))) (let ((?v_94 (=> (and ?v_27 ?v_29) ?v_28)) (?v_31 (not ?v_29)) (?v_32 (= EC_1571_10_1571_10 ecReturn))) (let ((?v_95 (or (and ?v_29 ?v_11 (= RES_3_ RES_1570_16_1570_16) (= tmp10_cor_1570_53 true_term) (= EC_3_ EC_1570_16_1570_16)) (and ?v_31 (= true_term (is RES_1571_10_1571_10 T_boolean)) ?v_32 (=> (and ?v_32 (= true_term RES_1571_10_1571_10)) ?v_33) (= RES_3_ RES_1571_10_1571_10) (= tmp10_cor_1570_53 RES_1571_10_1571_10) (= EC_3_ EC_1571_10_1571_10)))) (?v_35 (= true_term tmp10_cor_1570_53))) (let ((?v_36 (not ?v_35)) (?v_37 (= EC_1572_10_1572_10 ecReturn)) (?v_58 (and ?v_38 ?v_34))) (let ((?v_96 (or (and ?v_35 ?v_11 (= RES_4_ RES_3_) (= EC_4_ EC_3_) (= tmp9_cor_1571_48 true_term)) (and ?v_36 (= true_term (is RES_1572_10_1572_10 T_boolean)) ?v_37 (=> (and ?v_37 (= true_term RES_1572_10_1572_10)) (= ?v_14 ?v_58)) (= RES_4_ RES_1572_10_1572_10) (= EC_4_ EC_1572_10_1572_10) (= tmp9_cor_1571_48 RES_1572_10_1572_10)))) (?v_41 (= true_term tmp9_cor_1571_48)) (?v_42 (= true_term (is RES_1574_35_1574_35 T_java_lang_Object))) (?v_43 (= true_term (isAllocated RES_1574_35_1574_35 alloc))) (?v_44 (= EC_1574_35_1574_35 ecReturn)) (?v_45 (= t_1574_2_1574_2_67_16_71 (cast RES_1536_24_1536_24 T_javafe_ast_PrimitiveType))) (?v_46 (not (= t_1574_2_1574_2_67_16_71 null)))) (let ((?v_97 (or (and ?v_41 ?v_4 ?v_42 ?v_43 ?v_44 ?v_40 ?v_45 ?v_46 (= true_term (is RES_1574_2_1574_2 T_boolean)) (= EC_1574_2_1574_2 ecReturn) (= RES_5_ RES_1574_2_1574_2) (= tmp8_cand_1573_2 RES_1574_2_1574_2) (= EC_5_ EC_1574_2_1574_2)) (and (not ?v_41) ?v_11 (= RES_5_ RES_4_) (= tmp8_cand_1573_2 false_term) (= EC_5_ EC_4_)))) (?v_98 (= true_term tmp8_cand_1573_2))) (let ((?v_99 (not ?v_98)) (?v_100 (= true_term (is RES_1577_16_1577_16 T_boolean))) (?v_48 (= EC_1577_16_1577_16 ecReturn)) (?v_50 (= true_term RES_1577_16_1577_16))) (let ((?v_101 (=> (and ?v_48 ?v_50) ?v_49)) (?v_52 (not ?v_50)) (?v_53 (= EC_1578_10_1578_10 ecReturn))) (let ((?v_102 (or (and ?v_50 ?v_11 (= RES_6_ RES_1577_16_1577_16) (= EC_6_ EC_1577_16_1577_16) (= tmp17_cor_1577_54 true_term)) (and ?v_52 (= true_term (is RES_1578_10_1578_10 T_boolean)) ?v_53 (=> (and ?v_53 (= true_term RES_1578_10_1578_10)) ?v_54) (= RES_6_ RES_1578_10_1578_10) (= EC_6_ EC_1578_10_1578_10) (= tmp17_cor_1577_54 RES_1578_10_1578_10)))) (?v_55 (= true_term tmp17_cor_1577_54))) (let ((?v_56 (not ?v_55)) (?v_57 (= EC_1579_10_1579_10 ecReturn))) (let ((?v_103 (or (and ?v_55 ?v_11 (= RES_7_ RES_6_) (= tmp16_cor_1578_49 true_term) (= EC_7_ EC_6_)) (and ?v_56 (= true_term (is RES_1579_10_1579_10 T_boolean)) ?v_57 (=> (and ?v_57 (= true_term RES_1579_10_1579_10)) (= ?v_19 ?v_58)) (= RES_7_ RES_1579_10_1579_10) (= tmp16_cor_1578_49 RES_1579_10_1579_10) (= EC_7_ EC_1579_10_1579_10)))) (?v_104 (= true_term tmp16_cor_1578_49)) (?v_105 (= true_term (is RES_1581_35_1581_35 T_java_lang_Object))) (?v_106 (= true_term (isAllocated RES_1581_35_1581_35 alloc))) (?v_107 (= EC_1581_35_1581_35 ecReturn)) (?v_108 (= t_1581_2_1581_2_67_16_71 (cast RES_1537_18_1537_18 T_javafe_ast_PrimitiveType))) (?v_109 (not (= t_1581_2_1581_2_67_16_71 null))) (?v_112 (not ?v_61)) (?v_113 (= true_term (is RES_1599_11_1599_11 T_boolean))) (?v_63 (= EC_1599_11_1599_11 ecReturn)) (?v_65 (= true_term RES_1599_11_1599_11)) (?v_67 (and ?v_64 ?v_62))) (let ((?v_114 (=> (and ?v_63 ?v_65) (= ?v_14 ?v_67))) (?v_115 (or (and ?v_65 (= true_term (is RES_1600_11_1600_11 T_boolean)) (= EC_1600_11_1600_11 ecReturn) (= RES_8_ RES_1600_11_1600_11) (= EC_8_ EC_1600_11_1600_11) (= tmp23_cand_1599_48 RES_1600_11_1600_11)) (and (not ?v_65) ?v_11 (= RES_8_ RES_1599_11_1599_11) (= EC_8_ EC_1599_11_1599_11) (= tmp23_cand_1599_48 false_term)))) (?v_116 (= true_term tmp23_cand_1599_48))) (let ((?v_117 (not ?v_116)) (?v_118 (= true_term (is RES_1602_11_1602_11 T_boolean))) (?v_66 (= EC_1602_11_1602_11 ecReturn)) (?v_68 (= true_term RES_1602_11_1602_11))) (let ((?v_119 (=> (and ?v_66 ?v_68) (= ?v_19 ?v_67))) (?v_120 (or (and ?v_68 (= true_term (is RES_1603_11_1603_11 T_boolean)) (= EC_1603_11_1603_11 ecReturn) (= RES_9_ RES_1603_11_1603_11) (= EC_9_ EC_1603_11_1603_11) (= tmp25_cand_1602_49 RES_1603_11_1603_11)) (and (not ?v_68) ?v_11 (= RES_9_ RES_1602_11_1602_11) (= EC_9_ EC_1602_11_1602_11) (= tmp25_cand_1602_49 false_term)))) (?v_121 (= true_term tmp25_cand_1602_49))) (let ((?v_122 (not ?v_121)) (?v_123 (= true_term (is RES_1615_11_1615_11 T_boolean))) (?v_124 (= EC_1615_11_1615_11 ecReturn)) (?v_69 (= true_term RES_1615_11_1615_11))) (let ((?v_125 (or (and ?v_69 (= true_term (is RES_1616_14_1616_14 T_boolean)) (= EC_1616_14_1616_14 ecReturn) (= RES_10_ RES_1616_14_1616_14) (= EC_10_ EC_1616_14_1616_14) (= tmp27_cand_1616_5 RES_1616_14_1616_14)) (and (not ?v_69) ?v_11 (= RES_10_ RES_1615_11_1615_11) (= EC_10_ EC_1615_11_1615_11) (= tmp27_cand_1616_5 false_term)))) (?v_126 (= true_term tmp27_cand_1616_5)) (?v_127 (= true_term (is RES_1617_9_1617_9 T_boolean))) (?v_128 (= EC_1617_9_1617_9 ecReturn)) (?v_129 (= true_term RES_1617_9_1617_9))) (let ((?v_130 (not ?v_129)) (?v_91 (= RES_11_ shortType_38_139_4)) (?v_110 (= true_term tmp15_cand_1580_2)) (?v_111 (= EC_1591_18_1591_18 ecReturn)) (?v_131 (= true_term (is RES_1619_9_1619_9 T_boolean))) (?v_132 (= EC_1619_9_1619_9 ecReturn)) (?v_133 (= true_term RES_1619_9_1619_9))) (not (=> true (=> (and (= EQ_pre_29_25_26 EQ_29_25_26) (= true_term (is EQ_29_25_26 T_int)) (= tmodifiers_pre_7_30_33 tmodifiers_7_30_33) (= tmodifiers_7_30_33 (asField tmodifiers_7_30_33 T_javafe_ast_TypeModifierPragmaVec)) (< (fClosedTime tmodifiers_7_30_33) alloc) (= ACC_FINAL_pre_31_23_26 ACC_FINAL_31_23_26) (= true_term (is ACC_FINAL_31_23_26 T_int)) (= RETURNSTMT_pre_30_33_7 RETURNSTMT_30_33_7) (= true_term (is RETURNSTMT_30_33_7 T_int)) (= expr_pre_78_15_28 expr_78_15_28) (= expr_78_15_28 (asField expr_78_15_28 T_javafe_ast_Expr)) (< (fClosedTime expr_78_15_28) alloc) (forall ((?s Int)) (=> (not (= ?s null)) (not (= (S_select expr_78_15_28 ?s) null)))) (= expr_pre_81_15_28 expr_81_15_28) (= expr_81_15_28 (asField expr_81_15_28 T_javafe_ast_Expr)) (< (fClosedTime expr_81_15_28) alloc) (forall ((?s_1_ Int)) (=> (not (= ?s_1_ null)) (not (= (S_select expr_81_15_28 ?s_1_) null)))) (= NOT_pre_29_56_26 NOT_29_56_26) (= true_term (is NOT_29_56_26 T_int)) (= loc_pre_164_16_13 loc_164_16_13) (= loc_164_16_13 (asField loc_164_16_13 T_int)) (= ids_pre_167_19_37 ids_167_19_37) (= ids_167_19_37 (asField ids_167_19_37 T_javafe_ast_IdentifierVec)) (< (fClosedTime ids_167_19_37) alloc) (forall ((?s_2_ Int)) (=> (not (= ?s_2_ null)) (not (= (S_select ids_167_19_37 ?s_2_) null)))) (= locOpenBracket_pre_89_21_13 locOpenBracket_89_21_13) (= locOpenBracket_89_21_13 (asField locOpenBracket_89_21_13 T_int)) (= locOpenParen_pre_42_48_13 locOpenParen_42_48_13) (= locOpenParen_42_48_13 (asField locOpenParen_42_48_13 T_int)) (= name_pre_107_20_28 name_107_20_28) (= name_107_20_28 (asField name_107_20_28 T_javafe_ast_Name)) (< (fClosedTime name_107_20_28) alloc) (forall ((?s_3_ Int)) (=> (not (= ?s_3_ null)) (not (= (S_select name_107_20_28 ?s_3_) null)))) (= CLASSLITERAL_pre_30_60_7 CLASSLITERAL_30_60_7) (= true_term (is CLASSLITERAL_30_60_7 T_int)) (= ACC_STATIC_pre_31_22_26 ACC_STATIC_31_22_26) (= true_term (is ACC_STATIC_31_22_26 T_int)) (= elements_pre_45_61_37 elements_45_61_37) (= elements_45_61_37 (asField elements_45_61_37 (array T_javafe_ast_TypeName))) (< (fClosedTime elements_45_61_37) alloc) (forall ((?s_4_ Int)) (=> (not (= ?s_4_ null)) (not (= (S_select elements_45_61_37 ?s_4_) null)))) (= state_pre_5_787_15 state_5_787_15) (= state_5_787_15 (asField state_5_787_15 T_int)) (= id_pre_33_15_34 id_33_15_34) (= id_33_15_34 (asField id_33_15_34 T_javafe_ast_Identifier)) (< (fClosedTime id_33_15_34) alloc) (forall ((?s_5_ Int)) (=> (not (= ?s_5_ null)) (not (= (S_select id_33_15_34 ?s_5_) null)))) (= stmt_pre_73_17_28 stmt_73_17_28) (= stmt_73_17_28 (asField stmt_73_17_28 T_javafe_ast_Stmt)) (< (fClosedTime stmt_73_17_28) alloc) (forall ((?s_6_ Int)) (=> (not (= ?s_6_ null)) (not (= (S_select stmt_73_17_28 ?s_6_) null)))) (= locCloseBrace_pre_18_54_13 locCloseBrace_18_54_13) (= locCloseBrace_18_54_13 (asField locCloseBrace_18_54_13 T_int)) (= NE_pre_29_24_26 NE_29_24_26) (= true_term (is NE_29_24_26 T_int)) (= loc_pre_74_33_13 loc_74_33_13) (= loc_74_33_13 (asField loc_74_33_13 T_int)) (= EVALSTMT_pre_30_32_7 EVALSTMT_30_32_7) (= true_term (is EVALSTMT_30_32_7 T_int)) (= syntax_pre_7_28_29 syntax_7_28_29) (= syntax_7_28_29 (asField syntax_7_28_29 T_boolean)) (= sig_pre_48_39 sig_48_39) (= sig_48_39 (asField sig_48_39 T_javafe_tc_TypeSig)) (< (fClosedTime sig_48_39) alloc) (= UNARYSUB_pre_29_55_26 UNARYSUB_29_55_26) (= true_term (is UNARYSUB_29_55_26 T_int)) (= METHODINVOCATION_pre_30_59_7 METHODINVOCATION_30_59_7) (= true_term (is METHODINVOCATION_30_59_7 T_int)) (= loc_pre_165_20_13 loc_165_20_13) (= loc_165_20_13 (asField loc_165_20_13 T_int)) (= type_pre_23_35_28 type_23_35_28) (= type_23_35_28 (asField type_23_35_28 T_javafe_ast_Type)) (< (fClosedTime type_23_35_28) alloc) (forall ((?s_7_ Int)) (=> (not (= ?s_7_ null)) (not (= (S_select type_23_35_28 ?s_7_) null)))) (= nullType_pre_38_131_4 nullType_38_131_4) ?v_64 (= true_term (isAllocated nullType_38_131_4 alloc)) (= BITAND_pre_29_23_26 BITAND_29_23_26) (= true_term (is BITAND_29_23_26 T_int)) (= SYNCHRONIZESTMT_pre_30_31_7 SYNCHRONIZESTMT_30_31_7) (= true_term (is SYNCHRONIZESTMT_30_31_7 T_int)) (= parent_pre_52_18_18 parent_52_18_18) (= parent_52_18_18 (asField parent_52_18_18 T_javafe_ast_TypeDecl)) (< (fClosedTime parent_52_18_18) alloc) (= UNARYADD_pre_29_54_26 UNARYADD_29_54_26) (= true_term (is UNARYADD_29_54_26 T_int)) (= AMBIGUOUSMETHODINVOCATION_pre_30_58_7 AMBIGUOUSMETHODINVOCATION_30_58_7) (= true_term (is AMBIGUOUSMETHODINVOCATION_30_58_7 T_int)) (= label_pre_73_15_34 label_73_15_34) (= label_73_15_34 (asField label_73_15_34 T_javafe_ast_Identifier)) (< (fClosedTime label_73_15_34) alloc) (forall ((?s_8_ Int)) (=> (not (= ?s_8_ null)) (not (= (S_select label_73_15_34 ?s_8_) null)))) (= otherCodes_pre_27_202_27 otherCodes_27_202_27) (= true_term (is otherCodes_27_202_27 ?v_0)) (= true_term (isAllocated otherCodes_27_202_27 alloc)) (= BITXOR_pre_29_22_26 BITXOR_29_22_26) (= true_term (is BITXOR_29_22_26 T_int)) (= loc_pre_80_20_13 loc_80_20_13) (= loc_80_20_13 (asField loc_80_20_13 T_int)) (= DOSTMT_pre_30_30_7 DOSTMT_30_30_7) (= true_term (is DOSTMT_30_30_7 T_int)) (= loc_pre_112_22_13 loc_112_22_13) (= loc_112_22_13 (asField loc_112_22_13 T_int)) (= type_pre_99_24_28 type_99_24_28) (= type_99_24_28 (asField type_99_24_28 T_javafe_ast_Type)) (< (fClosedTime type_99_24_28) alloc) (forall ((?s_9_ Int)) (=> (not (= ?s_9_ null)) (not (= (S_select type_99_24_28 ?s_9_) null)))) (= ASGBITXOR_pre_29_51_26 ASGBITXOR_29_51_26) (= true_term (is ASGBITXOR_29_51_26 T_int)) (= FIELDACCESS_pre_30_57_7 FIELDACCESS_30_57_7) (= true_term (is FIELDACCESS_30_57_7 T_int)) (= locKeyword_pre_42_45_13 locKeyword_42_45_13) (= locKeyword_42_45_13 (asField locKeyword_42_45_13 T_int)) (= punctuationStrings_pre_27_134_22 punctuationStrings_27_134_22) (= true_term (is punctuationStrings_27_134_22 ?v_1)) (= true_term (isAllocated punctuationStrings_27_134_22 alloc)) (= length_pre_98_50_25 length_98_50_25) (= length_98_50_25 (asField length_98_50_25 T_int)) (= loc_pre_39_35_13 loc_39_35_13) (= loc_39_35_13 (asField loc_39_35_13 T_int)) (= CHECKED_pre_5_776_28 CHECKED_5_776_28) (= true_term (is CHECKED_5_776_28 T_int)) (= locCloseBracket_pre_94_23_13 locCloseBracket_94_23_13) (= locCloseBracket_94_23_13 (asField locCloseBracket_94_23_13 T_int)) (= BITOR_pre_29_21_26 BITOR_29_21_26) (= true_term (is BITOR_29_21_26 T_int)) (= loc_pre_85_22_13 loc_85_22_13) (= loc_85_22_13 (asField loc_85_22_13 T_int)) (= count_pre_166_67_33 count_166_67_33) (= count_166_67_33 (asField count_166_67_33 T_int)) (= body_pre_74_30_28 body_74_30_28) (= body_74_30_28 (asField body_74_30_28 T_javafe_ast_Stmt)) (< (fClosedTime body_74_30_28) alloc) (forall ((?s_10_ Int)) (=> (not (= ?s_10_ null)) (not (= (S_select body_74_30_28 ?s_10_) null)))) (= WHILESTMT_pre_30_29_7 WHILESTMT_30_29_7) (= true_term (is WHILESTMT_30_29_7 T_int)) (= count_pre_90_67_33 count_90_67_33) (= count_90_67_33 (asField count_90_67_33 T_int)) (= permitsNullValue_pre_64_31_27 permitsNullValue_64_31_27) (= permitsNullValue_64_31_27 (asField permitsNullValue_64_31_27 T_boolean)) (= locOpenBrace_pre_18_51_13 locOpenBrace_18_51_13) (= locOpenBrace_18_51_13 (asField locOpenBrace_18_51_13 T_int)) (= ASGBITOR_pre_29_50_26 ASGBITOR_29_50_26) (= true_term (is ASGBITOR_29_50_26 T_int)) (= fieldSeq_pre_48_162_38 fieldSeq_48_162_38) (= fieldSeq_48_162_38 (asField fieldSeq_48_162_38 T_javafe_util_StackVector)) (< (fClosedTime fieldSeq_48_162_38) alloc) (forall ((?s_11_ Int)) (=> (not (= ?s_11_ null)) (not (= (S_select fieldSeq_48_162_38 ?s_11_) null)))) (= PREPPED_pre_5_775_28 PREPPED_5_775_28) (= true_term (is PREPPED_5_775_28 T_int)) (= VARIABLEACCESS_pre_30_56_7 VARIABLEACCESS_30_56_7) (= true_term (is VARIABLEACCESS_30_56_7 T_int)) (= elemType_pre_89_18_28 elemType_89_18_28) (= elemType_89_18_28 (asField elemType_89_18_28 T_javafe_ast_Type)) (< (fClosedTime elemType_89_18_28) alloc) (forall ((?s_12_ Int)) (=> (not (= ?s_12_ null)) (not (= (S_select elemType_89_18_28 ?s_12_) null)))) (= locDots_pre_167_31_29 locDots_167_31_29) (= locDots_167_31_29 (asField locDots_167_31_29 ?v_0)) (< (fClosedTime locDots_167_31_29) alloc) (forall ((?s_13_ Int)) (=> (not (= ?s_13_ null)) (not (= (S_select locDots_167_31_29 ?s_13_) null)))) (= count_pre_122_67_33 count_122_67_33) (= count_122_67_33 (asField count_122_67_33 T_int)) (= CLASSDECLSTMT_pre_30_28_7 CLASSDECLSTMT_30_28_7) (= true_term (is CLASSDECLSTMT_30_28_7 T_int)) (= locOpenBrackets_pre_99_65_29 locOpenBrackets_99_65_29) (= locOpenBrackets_99_65_29 (asField locOpenBrackets_99_65_29 ?v_0)) (< (fClosedTime locOpenBrackets_99_65_29) alloc) (forall ((?s_14_ Int)) (=> (not (= ?s_14_ null)) (not (= (S_select locOpenBrackets_99_65_29 ?s_14_) null)))) (= decl_pre_95_55_25 decl_95_55_25) (= decl_95_55_25 (asField decl_95_55_25 T_javafe_ast_ConstructorDecl)) (< (fClosedTime decl_95_55_25) alloc) (= charType_pre_38_127_4 charType_38_127_4) ?v_38 (= true_term (isAllocated charType_38_127_4 alloc)) (= ASGBITAND_pre_29_49_26 ASGBITAND_29_49_26) (= true_term (is ASGBITAND_29_49_26 T_int)) (= elements_pre_24_61_43 elements_24_61_43) (= elements_24_61_43 (asField elements_24_61_43 (array T_javafe_ast_ModifierPragma))) (< (fClosedTime elements_24_61_43) alloc) (forall ((?s_15_ Int)) (=> (not (= ?s_15_ null)) (not (= (S_select elements_24_61_43 ?s_15_) null)))) (= locOpenBrace_pre_32_36_13 locOpenBrace_32_36_13) (= locOpenBrace_32_36_13 (asField locOpenBrace_32_36_13 T_int)) (= AMBIGUOUSVARIABLEACCESS_pre_30_55_7 AMBIGUOUSVARIABLEACCESS_30_55_7) (= true_term (is AMBIGUOUSVARIABLEACCESS_30_55_7 T_int)) (= decl_pre_59_35_37 decl_59_35_37) (= decl_59_35_37 (asField decl_59_35_37 T_javafe_ast_TypeDecl)) (< (fClosedTime decl_59_35_37) alloc) (forall ((?s_16_ Int)) (=> (not (= ?s_16_ null)) (not (= (S_select decl_59_35_37 ?s_16_) null)))) (= id_pre_23_32_34 id_23_32_34) (= id_23_32_34 (asField id_23_32_34 T_javafe_ast_Identifier)) (< (fClosedTime id_23_32_34) alloc) (forall ((?s_17_ Int)) (=> (not (= ?s_17_ null)) (not (= (S_select id_23_32_34 ?s_17_) null)))) (= locDot_pre_108_21_13 locDot_108_21_13) (= locDot_108_21_13 (asField locDot_108_21_13 T_int)) (= locCloseParen_pre_102_24_13 locCloseParen_102_24_13) (= locCloseParen_102_24_13 (asField locCloseParen_102_24_13 T_int)) (= locOpenParen_pre_95_52_13 locOpenParen_95_52_13) (= locOpenParen_95_52_13 (asField locOpenParen_95_52_13 T_int)) (= body_pre_32_34_19 body_32_34_19) (= body_32_34_19 (asField body_32_34_19 T_javafe_ast_BlockStmt)) (< (fClosedTime body_32_34_19) alloc) (= stmt_pre_80_17_33 stmt_80_17_33) (= stmt_80_17_33 (asField stmt_80_17_33 T_javafe_ast_BlockStmt)) (< (fClosedTime stmt_80_17_33) alloc) (forall ((?s_18_ Int)) (=> (not (= ?s_18_ null)) (not (= (S_select stmt_80_17_33 ?s_18_) null)))) (= forUpdate_pre_74_28_31 forUpdate_74_28_31) (= forUpdate_74_28_31 (asField forUpdate_74_28_31 T_javafe_ast_ExprVec)) (< (fClosedTime forUpdate_74_28_31) alloc) (forall ((?s_19_ Int)) (=> (not (= ?s_19_ null)) (not (= (S_select forUpdate_74_28_31 ?s_19_) null)))) (= loc_pre_76_20_13 loc_76_20_13) (= loc_76_20_13 (asField loc_76_20_13 T_int)) (= AND_pre_29_20_26 AND_29_20_26) (= true_term (is AND_29_20_26 T_int)) (= VARDECLSTMT_pre_30_27_7 VARDECLSTMT_30_27_7) (= true_term (is VARDECLSTMT_30_27_7 T_int)) (= id_pre_112_19_34 id_112_19_34) (= id_112_19_34 (asField id_112_19_34 T_javafe_ast_Identifier)) (< (fClosedTime id_112_19_34) alloc) (forall ((?s_20_ Int)) (=> (not (= ?s_20_ null)) (not (= (S_select id_112_19_34 ?s_20_) null)))) (= ASGURSHIFT_pre_29_48_26 ASGURSHIFT_29_48_26) (= true_term (is ASGURSHIFT_29_48_26 T_int)) (= elements_pre_123_61_39 elements_123_61_39) (= elements_123_61_39 (asField elements_123_61_39 (array T_javafe_ast_MethodDecl))) (< (fClosedTime elements_123_61_39) alloc) (forall ((?s_21_ Int)) (=> (not (= ?s_21_ null)) (not (= (S_select elements_123_61_39 ?s_21_) null)))) (= PARENEXPR_pre_30_54_7 PARENEXPR_30_54_7) (= true_term (is PARENEXPR_30_54_7 T_int)) (= locDot_pre_42_41_13 locDot_42_41_13) (= locDot_42_41_13 (asField locDot_42_41_13 T_int)) (= raises_pre_32_32_35 raises_32_32_35) (= raises_32_32_35 (asField raises_32_32_35 T_javafe_ast_TypeNameVec)) (< (fClosedTime raises_32_32_35) alloc) (forall ((?s_22_ Int)) (=> (not (= ?s_22_ null)) (not (= (S_select raises_32_32_35 ?s_22_) null)))) (= typeDecoration_pre_1853_31 typeDecoration_1853_31) (= true_term (is typeDecoration_1853_31 T_javafe_ast_ASTDecoration)) (= true_term (isAllocated typeDecoration_1853_31 alloc)) (= elementType_pre_64_26_25 elementType_64_26_25) (= elementType_64_26_25 (asField elementType_64_26_25 T__TYPE)) (= tag_pre_39_30_13 tag_39_30_13) (= tag_39_30_13 (asField tag_39_30_13 T_int)) (= NULLLIT_pre_28_45_26 NULLLIT_28_45_26) (= true_term (is NULLLIT_28_45_26 T_int)) (= body_pre_85_19_33 body_85_19_33) (= body_85_19_33 (asField body_85_19_33 T_javafe_ast_BlockStmt)) (< (fClosedTime body_85_19_33) alloc) (forall ((?s_23_ Int)) (=> (not (= ?s_23_ null)) (not (= (S_select body_85_19_33 ?s_23_) null)))) (= PARSED_pre_5_772_28 PARSED_5_772_28) (= true_term (is PARSED_5_772_28 T_int)) (= OR_pre_29_19_26 OR_29_19_26) (= true_term (is OR_29_19_26 T_int)) (= SWITCHSTMT_pre_30_26_7 SWITCHSTMT_30_26_7) (= true_term (is SWITCHSTMT_30_26_7 T_int)) (= locOpenBracket_pre_94_20_13 locOpenBracket_94_20_13) (= locOpenBracket_94_20_13 (asField locOpenBracket_94_20_13 T_int)) (= ASGRSHIFT_pre_29_47_26 ASGRSHIFT_29_47_26) (= true_term (is ASGRSHIFT_29_47_26 T_int)) (= decl_pre_91_28_19 decl_91_28_19) (= decl_91_28_19 (asField decl_91_28_19 T_javafe_ast_FieldDecl)) (< (fClosedTime decl_91_28_19) alloc) (= locId_pre_18_48_13 locId_18_48_13) (= locId_18_48_13 (asField locId_18_48_13 T_int)) (= CASTEXPR_pre_30_53_7 CASTEXPR_30_53_7) (= true_term (is CASTEXPR_30_53_7 T_int)) (= LAST_KEYWORD_pre_27_103_26 LAST_KEYWORD_27_103_26) (= true_term (is LAST_KEYWORD_27_103_26 T_int)) (= elements_pre_43_61_33 elements_43_61_33) (= elements_43_61_33 (asField elements_43_61_33 (array T_javafe_ast_Expr))) (< (fClosedTime elements_43_61_33) alloc) (forall ((?s_24_ Int)) (=> (not (= ?s_24_ null)) (not (= (S_select elements_43_61_33 ?s_24_) null)))) (= pmodifiers_pre_23_30_27 pmodifiers_23_30_27) (= pmodifiers_23_30_27 (asField pmodifiers_23_30_27 T_javafe_ast_ModifierPragmaVec)) (< (fClosedTime pmodifiers_23_30_27) alloc) (= expr_pre_80_15_28 expr_80_15_28) (= expr_80_15_28 (asField expr_80_15_28 T_javafe_ast_Expr)) (< (fClosedTime expr_80_15_28) alloc) (forall ((?s_25_ Int)) (=> (not (= ?s_25_ null)) (not (= (S_select expr_80_15_28 ?s_25_) null)))) (= test_pre_74_26_28 test_74_26_28) (= test_74_26_28 (asField test_74_26_28 T_javafe_ast_Expr)) (< (fClosedTime test_74_26_28) alloc) (forall ((?s_26_ Int)) (=> (not (= ?s_26_ null)) (not (= (S_select test_74_26_28 ?s_26_) null)))) (= STRINGLIT_pre_28_44_26 STRINGLIT_28_44_26) (= true_term (is STRINGLIT_28_44_26 T_int)) (= locColon_pre_100_25_13 locColon_100_25_13) (= locColon_100_25_13 (asField locColon_100_25_13 T_int)) (= BLOCKSTMT_pre_30_25_7 BLOCKSTMT_30_25_7) (= true_term (is BLOCKSTMT_30_25_7 T_int)) (= inst_pre_48_25_52 inst_48_25_52) (= true_term (is inst_48_25_52 T_javafe_tc_PrepTypeDeclaration)) (= true_term (isAllocated inst_48_25_52 alloc)) (not (= inst_48_25_52 null)) (= NULL_pre_27_82_26 NULL_27_82_26) (= true_term (is NULL_27_82_26 T_int)) (= ASGLSHIFT_pre_29_46_26 ASGLSHIFT_29_46_26) (= true_term (is ASGLSHIFT_29_46_26 T_int)) (= modifiers_pre_23_28_13 modifiers_23_28_13) (= modifiers_23_28_13 (asField modifiers_23_28_13 T_int)) (= INSTANCEOFEXPR_pre_30_52_7 INSTANCEOFEXPR_30_52_7) (= true_term (is INSTANCEOFEXPR_30_52_7 T_int)) (= args_pre_32_30_41 args_32_30_41) (= args_32_30_41 (asField args_32_30_41 T_javafe_ast_FormalParaDeclVec)) (< (fClosedTime args_32_30_41) alloc) (forall ((?s_27_ Int)) (=> (not (= ?s_27_ null)) (not (= (S_select args_32_30_41 ?s_27_) null)))) (= tokenType_pre_58_90_8 tokenType_58_90_8) (= tokenType_58_90_8 (asField tokenType_58_90_8 T_int)) (= longType_pre_38_123_4 longType_38_123_4) (= true_term (is longType_38_123_4 T_javafe_ast_PrimitiveType)) (= true_term (isAllocated longType_38_123_4 alloc)) (= elements_pre_16_61_33 elements_16_61_33) (= elements_16_61_33 (asField elements_16_61_33 (array T_javafe_ast_Stmt))) (< (fClosedTime elements_16_61_33) alloc) (forall ((?s_28_ Int)) (=> (not (= ?s_28_ null)) (not (= (S_select elements_16_61_33 ?s_28_) null)))) (= superClass_pre_57_15_18 superClass_57_15_18) (= superClass_57_15_18 (asField superClass_57_15_18 T_javafe_ast_TypeName)) (< (fClosedTime superClass_57_15_18) alloc) (= arg_pre_85_17_38 arg_85_17_38) (= arg_85_17_38 (asField arg_85_17_38 T_javafe_ast_FormalParaDecl)) (< (fClosedTime arg_85_17_38) alloc) (forall ((?s_29_ Int)) (=> (not (= ?s_29_ null)) (not (= (S_select arg_85_17_38 ?s_29_) null)))) (= DOUBLELIT_pre_28_43_26 DOUBLELIT_28_43_26) (= true_term (is DOUBLELIT_28_43_26 T_int)) (= stmt_pre_76_17_28 stmt_76_17_28) (= stmt_76_17_28 (asField stmt_76_17_28 T_javafe_ast_Stmt)) (< (fClosedTime stmt_76_17_28) alloc) (forall ((?s_30_ Int)) (=> (not (= ?s_30_ null)) (not (= (S_select stmt_76_17_28 ?s_30_) null)))) (= loc_pre_95_49_13 loc_95_49_13) (= loc_95_49_13 (asField loc_95_49_13 T_int)) (= FORMALPARADECL_pre_30_24_7 FORMALPARADECL_30_24_7) (= true_term (is FORMALPARADECL_30_24_7 T_int)) (= map_pre_5_301_35 map_5_301_35) (= true_term (is map_5_301_35 T_java_util_Hashtable)) (= true_term (isAllocated map_5_301_35 alloc)) (= locOpenParen_pre_102_21_13 locOpenParen_102_21_13) (= locOpenParen_102_21_13 (asField locOpenParen_102_21_13 T_int)) (= locDot_pre_103_23_13 locDot_103_23_13) (= locDot_103_23_13 (asField locDot_103_23_13 T_int)) (= ASGSUB_pre_29_45_26 ASGSUB_29_45_26) (= true_term (is ASGSUB_29_45_26 T_int)) (= permitsNullKey_pre_64_21_27 permitsNullKey_64_21_27) (= permitsNullKey_64_21_27 (asField permitsNullKey_64_21_27 T_boolean)) (= elements_pre_21_61_41 elements_21_61_41) (= elements_21_61_41 (asField elements_21_61_41 (array T_javafe_ast_TypeDeclElem))) (< (fClosedTime elements_21_61_41) alloc) (forall ((?s_31_ Int)) (=> (not (= ?s_31_ null)) (not (= (S_select elements_21_61_41 ?s_31_) null)))) (= CONDEXPR_pre_30_51_7 CONDEXPR_30_51_7) (= true_term (is CONDEXPR_30_51_7 T_int)) (= decl_pre_111_34_20 decl_111_34_20) (= decl_111_34_20 (asField decl_111_34_20 T_javafe_ast_MethodDecl)) (< (fClosedTime decl_111_34_20) alloc) (= otherStrings_pre_27_193_30 otherStrings_27_193_30) (= true_term (is otherStrings_27_193_30 ?v_1)) (= true_term (isAllocated otherStrings_27_193_30 alloc)) (= elements_pre_153_72_21 elements_153_72_21) (= elements_153_72_21 (asField elements_153_72_21 (array T_java_lang_Object))) (< (fClosedTime elements_153_72_21) alloc) (= loc_pre_66_29_13 loc_66_29_13) (= loc_66_29_13 (asField loc_66_29_13 T_int)) (= forInit_pre_74_24_31 forInit_74_24_31) (= forInit_74_24_31 (asField forInit_74_24_31 T_javafe_ast_StmtVec)) (< (fClosedTime forInit_74_24_31) alloc) (forall ((?s_32_ Int)) (=> (not (= ?s_32_ null)) (not (= (S_select forInit_74_24_31 ?s_32_) null)))) (= FLOATLIT_pre_28_42_26 FLOATLIT_28_42_26) (= true_term (is FLOATLIT_28_42_26 T_int)) (= locGuardOpenParen_pre_75_23_13 locGuardOpenParen_75_23_13) (= locGuardOpenParen_75_23_13 (asField locGuardOpenParen_75_23_13 T_int)) (= loc_pre_101_21_13 loc_101_21_13) (= loc_101_21_13 (asField loc_101_21_13 T_int)) (= FIELDDECL_pre_30_23_7 FIELDDECL_30_23_7) (= true_term (is FIELDDECL_30_23_7 T_int)) (= count_pre_118_67_33 count_118_67_33) (= count_118_67_33 (asField count_118_67_33 T_int)) (= decorationType_pre_115_48_27 decorationType_115_48_27) (= decorationType_115_48_27 (asField decorationType_115_48_27 T__TYPE)) (= ASGADD_pre_29_44_26 ASGADD_29_44_26) (= true_term (is ASGADD_29_44_26 T_int)) (= index_pre_94_17_28 index_94_17_28) (= index_94_17_28 (asField index_94_17_28 T_javafe_ast_Expr)) (< (fClosedTime index_94_17_28) alloc) (forall ((?s_33_ Int)) (=> (not (= ?s_33_ null)) (not (= (S_select index_94_17_28 ?s_33_) null)))) (= loc_pre_18_45_13 loc_18_45_13) (= loc_18_45_13 (asField loc_18_45_13 T_int)) (= enclosingEnv_pre_5_52_36 enclosingEnv_5_52_36) (= enclosingEnv_5_52_36 (asField enclosingEnv_5_52_36 T_javafe_tc_Env)) (< (fClosedTime enclosingEnv_5_52_36) alloc) (= NEWARRAYEXPR_pre_30_50_7 NEWARRAYEXPR_30_50_7) (= true_term (is NEWARRAYEXPR_30_50_7 T_int)) (= enclosingInstance_pre_42_37_14 enclosingInstance_42_37_14) (= enclosingInstance_42_37_14 (asField enclosingInstance_42_37_14 T_javafe_ast_Expr)) (< (fClosedTime enclosingInstance_42_37_14) alloc) (= elements_pre_84_61_40 elements_84_61_40) (= elements_84_61_40 (asField elements_84_61_40 (array T_javafe_ast_CatchClause))) (< (fClosedTime elements_84_61_40) alloc) (forall ((?s_34_ Int)) (=> (not (= ?s_34_ null)) (not (= (S_select elements_84_61_40 ?s_34_) null)))) (= dontAddImplicitConstructorInvocations_pre_23_26 dontAddImplicitConstructorInvocations_23_26) (= true_term (is dontAddImplicitConstructorInvocations_23_26 T_boolean)) (= locId_pre_91_24_13 locId_91_24_13) (= locId_91_24_13 (asField locId_91_24_13 T_int)) (= CHARLIT_pre_28_41_26 CHARLIT_28_41_26) (= true_term (is CHARLIT_28_41_26 T_int)) (= expr_pre_76_15_28 expr_76_15_28) (= expr_76_15_28 (asField expr_76_15_28 T_javafe_ast_Expr)) (< (fClosedTime expr_76_15_28) alloc) (forall ((?s_35_ Int)) (=> (not (= ?s_35_ null)) (not (= (S_select expr_76_15_28 ?s_35_) null)))) (= LOCALVARDECL_pre_30_22_7 LOCALVARDECL_30_22_7) (= true_term (is LOCALVARDECL_30_22_7 T_int)) (= enclosingLabels_pre_77_22 enclosingLabels_77_22) (= enclosingLabels_77_22 (asField enclosingLabels_77_22 T_javafe_ast_StmtVec)) (< (fClosedTime enclosingLabels_77_22) alloc) (= whereDecoration_pre_20_597_41 whereDecoration_20_597_41) (= true_term (is whereDecoration_20_597_41 T_javafe_ast_ASTDecoration)) (= true_term (isAllocated whereDecoration_20_597_41 alloc)) (= ASGREM_pre_29_43_26 ASGREM_29_43_26) (= true_term (is ASGREM_29_43_26 T_int)) (= locQuestion_pre_100_22_13 locQuestion_100_22_13) (= locQuestion_100_22_13 (asField locQuestion_100_22_13 T_int)) (= pmodifiers_pre_32_26_27 pmodifiers_32_26_27) (= pmodifiers_32_26_27 (asField pmodifiers_32_26_27 T_javafe_ast_ModifierPragmaVec)) (< (fClosedTime pmodifiers_32_26_27) alloc) (= NEWINSTANCEEXPR_pre_30_49_7 NEWINSTANCEEXPR_30_49_7) (= true_term (is NEWINSTANCEEXPR_30_49_7 T_int)) (= loc_pre_92_29_13 loc_92_29_13) (= loc_92_29_13 (asField loc_92_29_13 T_int)) (= LONGLIT_pre_28_40_26 LONGLIT_28_40_26) (= true_term (is LONGLIT_28_40_26 T_int)) (= overridesDecoration_pre_48_154_45 overridesDecoration_48_154_45) (= true_term (is overridesDecoration_48_154_45 T_javafe_ast_ASTDecoration)) (= true_term (isAllocated overridesDecoration_48_154_45 alloc)) (not (= overridesDecoration_48_154_45 null)) (= modifiers_pre_32_24_13 modifiers_32_24_13) (= modifiers_32_24_13 (asField modifiers_32_24_13 T_int)) (= anonDecl_pre_95_45_19 anonDecl_95_45_19) (= anonDecl_95_45_19 (asField anonDecl_95_45_19 T_javafe_ast_ClassDecl)) (< (fClosedTime anonDecl_95_45_19) alloc) (= keyType_pre_64_16_25 keyType_64_16_25) (= keyType_64_16_25 (asField keyType_64_16_25 T__TYPE)) (= INITBLOCK_pre_30_21_7 INITBLOCK_30_21_7) (= true_term (is INITBLOCK_30_21_7 T_int)) (= loc_pre_83_23_13 loc_83_23_13) (= loc_83_23_13 (asField loc_83_23_13 T_int)) (= floatType_pre_38_119_4 floatType_38_119_4) (= true_term (is floatType_38_119_4 T_javafe_ast_PrimitiveType)) (= true_term (isAllocated floatType_38_119_4 alloc)) (= type_pre_102_18_28 type_102_18_28) (= type_102_18_28 (asField type_102_18_28 T_javafe_ast_Type)) (< (fClosedTime type_102_18_28) alloc) (forall ((?s_36_ Int)) (=> (not (= ?s_36_ null)) (not (= (S_select type_102_18_28 ?s_36_) null)))) (= array_pre_94_15_28 array_94_15_28) (= array_94_15_28 (asField array_94_15_28 T_javafe_ast_Expr)) (< (fClosedTime array_94_15_28) alloc) (forall ((?s_37_ Int)) (=> (not (= ?s_37_ null)) (not (= (S_select array_94_15_28 ?s_37_) null)))) (= ASGDIV_pre_29_42_26 ASGDIV_29_42_26) (= true_term (is ASGDIV_29_42_26 T_int)) (= ARRAYREFEXPR_pre_30_48_7 ARRAYREFEXPR_30_48_7) (= true_term (is ARRAYREFEXPR_30_48_7 T_int)) (= expr_pre_66_26_14 expr_66_26_14) (= expr_66_26_14 (asField expr_66_26_14 T_javafe_ast_Expr)) (< (fClosedTime expr_66_26_14) alloc) (= type_pre_109_27_28 type_109_27_28) (= type_109_27_28 (asField type_109_27_28 T_javafe_ast_Type)) (< (fClosedTime type_109_27_28) alloc) (forall ((?s_38_ Int)) (=> (not (= ?s_38_ null)) (not (= (S_select type_109_27_28 ?s_38_) null)))) (= locCloseBrace_pre_40_25_13 locCloseBrace_40_25_13) (= locCloseBrace_40_25_13 (asField locCloseBrace_40_25_13 T_int)) (= INTLIT_pre_28_39_26 INTLIT_28_39_26) (= true_term (is INTLIT_28_39_26 T_int)) (= type_pre_101_18_28 type_101_18_28) (= type_101_18_28 (asField type_101_18_28 T_javafe_ast_Type)) (< (fClosedTime type_101_18_28) alloc) (forall ((?s_39_ Int)) (=> (not (= ?s_39_ null)) (not (= (S_select type_101_18_28 ?s_39_) null)))) (= METHODDECL_pre_30_20_7 METHODDECL_30_20_7) (= true_term (is METHODDECL_30_20_7 T_int)) (= args_pre_111_30_31 args_111_30_31) (= args_111_30_31 (asField args_111_30_31 T_javafe_ast_ExprVec)) (< (fClosedTime args_111_30_31) alloc) (forall ((?s_40_ Int)) (=> (not (= ?s_40_ null)) (not (= (S_select args_111_30_31 ?s_40_) null)))) (= ht_pre_155_33_36 ht_155_33_36) (= ht_155_33_36 (asField ht_155_33_36 T_java_util_Hashtable)) (< (fClosedTime ht_155_33_36) alloc) (forall ((?s_41_ Int)) (=> (not (= ?s_41_ null)) (not (= (S_select ht_155_33_36 ?s_41_) null)))) (= ASGMUL_pre_29_41_26 ASGMUL_29_41_26) (= true_term (is ASGMUL_29_41_26 T_int)) (= typeEnv_pre_20_323_32 typeEnv_20_323_32) (= true_term (is typeEnv_20_323_32 T_javafe_ast_ASTDecoration)) (= true_term (isAllocated typeEnv_20_323_32 alloc)) (= elems_pre_18_41_39 elems_18_41_39) (= elems_18_41_39 (asField elems_18_41_39 T_javafe_ast_TypeDeclElemVec)) (< (fClosedTime elems_18_41_39) alloc) (forall ((?s_42_ Int)) (=> (not (= ?s_42_ null)) (not (= (S_select elems_18_41_39 ?s_42_) null)))) (= lengthFieldDecl_pre_38_917_40 lengthFieldDecl_38_917_40) (= true_term (is lengthFieldDecl_38_917_40 T_javafe_ast_FieldDecl)) (= true_term (isAllocated lengthFieldDecl_38_917_40 alloc)) (not (= lengthFieldDecl_38_917_40 null)) (= THISEXPR_pre_30_47_7 THISEXPR_30_47_7) (= true_term (is THISEXPR_30_47_7 T_int)) (= parent_pre_32_21_18 parent_32_21_18) (= parent_32_21_18 (asField parent_32_21_18 T_javafe_ast_TypeDecl)) (< (fClosedTime parent_32_21_18) alloc) (= count_pre_47_67_33 count_47_67_33) (= count_47_67_33 (asField count_47_67_33 T_int)) (= locFinally_pre_82_25_13 locFinally_82_25_13) (= locFinally_82_25_13 (asField locFinally_82_25_13 T_int)) (= count_pre_15_67_33 count_15_67_33) (= count_15_67_33 (asField count_15_67_33 T_int)) (= loc_pre_60_18_13 loc_60_18_13) (= loc_60_18_13 (asField loc_60_18_13 T_int)) (= type_pre_103_20_28 type_103_20_28) (= type_103_20_28 (asField type_103_20_28 T_javafe_ast_Type)) (< (fClosedTime type_103_20_28) alloc) (forall ((?s_43_ Int)) (=> (not (= ?s_43_ null)) (not (= (S_select type_103_20_28 ?s_43_) null)))) (= id_pre_91_21_34 id_91_21_34) (= id_91_21_34 (asField id_91_21_34 T_javafe_ast_Identifier)) (< (fClosedTime id_91_21_34) alloc) (forall ((?s_44_ Int)) (=> (not (= ?s_44_ null)) (not (= (S_select id_91_21_34 ?s_44_) null)))) (= BOOLEANLIT_pre_28_38_26 BOOLEANLIT_28_38_26) (= true_term (is BOOLEANLIT_28_38_26 T_int)) (= loc_pre_72_18_13 loc_72_18_13) (= loc_72_18_13 (asField loc_72_18_13 T_int)) (= CONSTRUCTORDECL_pre_30_19_7 CONSTRUCTORDECL_30_19_7) (= true_term (is CONSTRUCTORDECL_30_19_7 T_int)) (= ASSIGN_pre_29_40_26 ASSIGN_29_40_26) (= true_term (is ASSIGN_29_40_26 T_int)) (= TYPEMODIFIERPRAGMA_pre_27_28_26 TYPEMODIFIERPRAGMA_27_28_26) (= true_term (is TYPEMODIFIERPRAGMA_27_28_26 T_int)) (= ARRAYINIT_pre_30_46_7 ARRAYINIT_30_46_7) (= true_term (is ARRAYINIT_30_46_7 T_int)) (= els_pre_100_19_28 els_100_19_28) (= els_100_19_28 (asField els_100_19_28 T_javafe_ast_Expr)) (< (fClosedTime els_100_19_28) alloc) (forall ((?s_45_ Int)) (=> (not (= ?s_45_ null)) (not (= (S_select els_100_19_28 ?s_45_) null)))) (= member_pre_5_44_39 member_5_44_39) (= member_5_44_39 (asField member_5_44_39 T_boolean)) (= args_pre_95_34_31 args_95_34_31) (= args_95_34_31 (asField args_95_34_31 T_javafe_ast_ExprVec)) (< (fClosedTime args_95_34_31) alloc) (forall ((?s_46_ Int)) (=> (not (= ?s_46_ null)) (not (= (S_select args_95_34_31 ?s_46_) null)))) (= classPrefix_pre_92_25_14 classPrefix_92_25_14) (= classPrefix_92_25_14 (asField classPrefix_92_25_14 T_javafe_ast_Type)) (< (fClosedTime classPrefix_92_25_14) alloc) (= loc_pre_75_20_13 loc_75_20_13) (= loc_75_20_13 (asField loc_75_20_13 T_int)) (= SHORTTYPE_pre_28_36_26 SHORTTYPE_28_36_26) (= true_term (is SHORTTYPE_28_36_26 T_int)) (= locOpenParen_pre_111_28_13 locOpenParen_111_28_13) (= locOpenParen_111_28_13 (asField locOpenParen_111_28_13 T_int)) (= INTERFACEDECL_pre_30_18_7 INTERFACEDECL_30_18_7) (= true_term (is INTERFACEDECL_30_18_7 T_int)) (= inst_pre_93_29_44 inst_93_29_44) (= true_term (is inst_93_29_44 T_javafe_ast_PrettyPrint)) (= true_term (isAllocated inst_93_29_44 alloc)) (not (= inst_93_29_44 null)) (= init_pre_22_20_17 init_22_20_17) (= init_22_20_17 (asField init_22_20_17 T_javafe_ast_VarInit)) (< (fClosedTime init_22_20_17) alloc) (= TYPESIG_pre_26_6_28 TYPESIG_26_6_28) (= true_term (is TYPESIG_26_6_28 T_int)) (= STAR_pre_29_37_26 STAR_29_37_26) (= true_term (is STAR_29_37_26 T_int)) (= locCloseParen_pre_106_21_13 locCloseParen_106_21_13) (= locCloseParen_106_21_13 (asField locCloseParen_106_21_13 T_int)) (= allowedExceptions_pre_74_25 allowedExceptions_74_25) (= allowedExceptions_74_25 (asField allowedExceptions_74_25 T_javafe_tc_TypeSigVec)) (< (fClosedTime allowedExceptions_74_25) alloc) (= CATCHCLAUSE_pre_30_45_7 CATCHCLAUSE_30_45_7) (= true_term (is CATCHCLAUSE_30_45_7 T_int)) (= elements_pre_166_61_39 elements_166_61_39) (= elements_166_61_39 (asField elements_166_61_39 (array T_javafe_ast_Identifier))) (< (fClosedTime elements_166_61_39) alloc) (forall ((?s_47_ Int)) (=> (not (= ?s_47_ null)) (not (= (S_select elements_166_61_39 ?s_47_) null)))) (= elements_pre_90_61_36 elements_90_61_36) (= elements_90_61_36 (asField elements_90_61_36 (array T_javafe_ast_VarInit))) (< (fClosedTime elements_90_61_36) alloc) (forall ((?s_48_ Int)) (=> (not (= ?s_48_ null)) (not (= (S_select elements_90_61_36 ?s_48_) null)))) (= methods_pre_5_883_26 methods_5_883_26) (= methods_5_883_26 (asField methods_5_883_26 T_javafe_tc_MethodDeclVec)) (< (fClosedTime methods_5_883_26) alloc) (= NOTACCESSIBLE_pre_86_13_26 NOTACCESSIBLE_86_13_26) (= true_term (is NOTACCESSIBLE_86_13_26 T_int)) (= TYPEDECLELEMPRAGMA_pre_27_27_26 TYPEDECLELEMPRAGMA_27_27_26) (= true_term (is TYPEDECLELEMPRAGMA_27_27_26 T_int)) (= od_pre_91_19_40 od_91_19_40) (= od_91_19_40 (asField od_91_19_40 T_javafe_ast_ObjectDesignator)) (< (fClosedTime od_91_19_40) alloc) (forall ((?s_49_ Int)) (=> (not (= ?s_49_ null)) (not (= (S_select od_91_19_40 ?s_49_) null)))) (= doubleType_pre_38_115_4 doubleType_38_115_4) (= true_term (is doubleType_38_115_4 T_javafe_ast_PrimitiveType)) (= true_term (isAllocated doubleType_38_115_4 alloc)) (= parent_pre_22_18_18 parent_22_18_18) (= parent_22_18_18 (asField parent_22_18_18 T_javafe_ast_TypeDecl)) (< (fClosedTime parent_22_18_18) alloc) (= locOpenBrace_pre_40_22_13 locOpenBrace_40_22_13) (= locOpenBrace_40_22_13 (asField locOpenBrace_40_22_13 T_int)) (= BYTETYPE_pre_28_35_26 BYTETYPE_28_35_26) (= true_term (is BYTETYPE_28_35_26 T_int)) (= CLASSDECL_pre_30_17_7 CLASSDECL_30_17_7) (= true_term (is CLASSDECL_30_17_7 T_int)) (= expr_pre_102_15_28 expr_102_15_28) (= expr_102_15_28 (asField expr_102_15_28 T_javafe_ast_Expr)) (< (fClosedTime expr_102_15_28) alloc) (forall ((?s_50_ Int)) (=> (not (= ?s_50_ null)) (not (= (S_select expr_102_15_28 ?s_50_) null)))) (= MOD_pre_29_36_26 MOD_29_36_26) (= true_term (is MOD_29_36_26 T_int)) (= constructorSeq_pre_48_171_38 constructorSeq_48_171_38) (= constructorSeq_48_171_38 (asField constructorSeq_48_171_38 T_javafe_util_StackVector)) (< (fClosedTime constructorSeq_48_171_38) alloc) (forall ((?s_51_ Int)) (=> (not (= ?s_51_ null)) (not (= (S_select constructorSeq_48_171_38 ?s_51_) null)))) (= BADTYPECOMBO_pre_86_12_26 BADTYPECOMBO_86_12_26) (= true_term (is BADTYPECOMBO_86_12_26 T_int)) (= thn_pre_100_17_28 thn_100_17_28) (= thn_100_17_28 (asField thn_100_17_28 T_javafe_ast_Expr)) (< (fClosedTime thn_100_17_28) alloc) (forall ((?s_52_ Int)) (=> (not (= ?s_52_ null)) (not (= (S_select thn_100_17_28 ?s_52_) null)))) (= CONSTRUCTORINVOCATION_pre_30_44_7 CONSTRUCTORINVOCATION_30_44_7) (= true_term (is CONSTRUCTORINVOCATION_30_44_7 T_int)) (= superInterfaces_pre_18_34_35 superInterfaces_18_34_35) (= superInterfaces_18_34_35 (asField superInterfaces_18_34_35 T_javafe_ast_TypeNameVec)) (< (fClosedTime superInterfaces_18_34_35) alloc) (forall ((?s_53_ Int)) (=> (not (= ?s_53_ null)) (not (= (S_select superInterfaces_18_34_35 ?s_53_) null)))) (= elements_pre_122_61_38 elements_122_61_38) (= elements_122_61_38 (asField elements_122_61_38 (array T_javafe_ast_FieldDecl))) (< (fClosedTime elements_122_61_38) alloc) (forall ((?s_54_ Int)) (=> (not (= ?s_54_ null)) (not (= (S_select elements_122_61_38 ?s_54_) null)))) (= catchClauses_pre_83_20_38 catchClauses_83_20_38) (= catchClauses_83_20_38 (asField catchClauses_83_20_38 T_javafe_ast_CatchClauseVec)) (< (fClosedTime catchClauses_83_20_38) alloc) (forall ((?s_55_ Int)) (=> (not (= ?s_55_ null)) (not (= (S_select catchClauses_83_20_38 ?s_55_) null)))) (= locIds_pre_167_25_29 locIds_167_25_29) (= locIds_167_25_29 (asField locIds_167_25_29 ?v_0)) (< (fClosedTime locIds_167_25_29) alloc) (forall ((?s_56_ Int)) (=> (not (= ?s_56_ null)) (not (= (S_select locIds_167_25_29 ?s_56_) null)))) (= count_pre_45_67_33 count_45_67_33) (= count_45_67_33 (asField count_45_67_33 T_int)) (= type_pre_95_32_32 type_95_32_32) (= type_95_32_32 (asField type_95_32_32 T_javafe_ast_TypeName)) (< (fClosedTime type_95_32_32) alloc) (forall ((?s_57_ Int)) (=> (not (= ?s_57_ null)) (not (= (S_select type_95_32_32 ?s_57_) null)))) (= locOp_pre_104_43_13 locOp_104_43_13) (= locOp_104_43_13 (asField locOp_104_43_13 T_int)) (= expr_pre_60_15_28 expr_60_15_28) (= expr_60_15_28 (asField expr_60_15_28 T_javafe_ast_Expr)) (< (fClosedTime expr_60_15_28) alloc) (forall ((?s_58_ Int)) (=> (not (= ?s_58_ null)) (not (= (S_select expr_60_15_28 ?s_58_) null)))) (= loc_pre_82_22_13 loc_82_22_13) (= loc_82_22_13 (asField loc_82_22_13 T_int)) (= loc_pre_99_49_13 loc_99_49_13) (= loc_99_49_13 (asField loc_99_49_13 T_int)) (= expr_pre_113_22_28 expr_113_22_28) (= expr_113_22_28 (asField expr_113_22_28 T_javafe_ast_Expr)) (< (fClosedTime expr_113_22_28) alloc) (forall ((?s_59_ Int)) (=> (not (= ?s_59_ null)) (not (= (S_select expr_113_22_28 ?s_59_) null)))) (= NULLTYPE_pre_28_34_26 NULLTYPE_28_34_26) (= true_term (is NULLTYPE_28_34_26 T_int)) (= expr_pre_101_15_28 expr_101_15_28) (= expr_101_15_28 (asField expr_101_15_28 T_javafe_ast_Expr)) (< (fClosedTime expr_101_15_28) alloc) (forall ((?s_60_ Int)) (=> (not (= ?s_60_ null)) (not (= (S_select expr_101_15_28 ?s_60_) null)))) (= label_pre_72_15_20 label_72_15_20) (= label_72_15_20 (asField label_72_15_20 T_javafe_ast_Identifier)) (< (fClosedTime label_72_15_20) alloc) (= STMTPRAGMA_pre_27_26_26 STMTPRAGMA_27_26_26) (= true_term (is STMTPRAGMA_27_26_26 T_int)) (= ONDEMANDIMPORTDECL_pre_30_16_7 ONDEMANDIMPORTDECL_30_16_7) (= true_term (is ONDEMANDIMPORTDECL_30_16_7 T_int)) (= locOp_pre_105_32_13 locOp_105_32_13) (= locOp_105_32_13 (asField locOp_105_32_13 T_int)) (= DIV_pre_29_35_26 DIV_29_35_26) (= true_term (is DIV_29_35_26 T_int)) (= TRYCATCHSTMT_pre_30_43_7 TRYCATCHSTMT_30_43_7) (= true_term (is TRYCATCHSTMT_30_43_7 T_int)) (= currentStackBottom_pre_153_87_33 currentStackBottom_153_87_33) (= currentStackBottom_153_87_33 (asField currentStackBottom_153_87_33 T_int)) (= superCall_pre_42_24_17 superCall_42_24_17) (= superCall_42_24_17 (asField superCall_42_24_17 T_boolean)) (= stmt_pre_75_17_28 stmt_75_17_28) (= stmt_75_17_28 (asField stmt_75_17_28 T_javafe_ast_Stmt)) (< (fClosedTime stmt_75_17_28) alloc) (forall ((?s_61_ Int)) (=> (not (= ?s_61_ null)) (not (= (S_select stmt_75_17_28 ?s_61_) null)))) (= simpleName_pre_5_37_38 simpleName_5_37_38) (= simpleName_5_37_38 (asField simpleName_5_37_38 T_java_lang_String)) (< (fClosedTime simpleName_5_37_38) alloc) (= VOIDTYPE_pre_28_33_26 VOIDTYPE_28_33_26) (= true_term (is VOIDTYPE_28_33_26 T_int)) (= SINGLETYPEIMPORTDECL_pre_30_15_7 SINGLETYPEIMPORTDECL_30_15_7) (= true_term (is SINGLETYPEIMPORTDECL_30_15_7 T_int)) (= locId_pre_111_25_13 locId_111_25_13) (= locId_111_25_13 (asField locId_111_25_13 T_int)) (= locSuper_pre_114_20_13 locSuper_114_20_13) (= locSuper_114_20_13 (asField locSuper_114_20_13 T_int)) (= SUB_pre_29_34_26 SUB_29_34_26) (= true_term (is SUB_29_34_26 T_int)) (= AMBIGUOUS_pre_86_11_26 AMBIGUOUS_86_11_26) (= true_term (is AMBIGUOUS_86_11_26 T_int)) (= MODIFIERPRAGMA_pre_27_25_26 MODIFIERPRAGMA_27_25_26) (= true_term (is MODIFIERPRAGMA_27_25_26 T_int)) (= test_pre_100_15_28 test_100_15_28) (= test_100_15_28 (asField test_100_15_28 T_javafe_ast_Expr)) (< (fClosedTime test_100_15_28) alloc) (forall ((?s_62_ Int)) (=> (not (= ?s_62_ null)) (not (= (S_select test_100_15_28 ?s_62_) null)))) (= locCloseBrace_pre_88_24_13 locCloseBrace_88_24_13) (= locCloseBrace_88_24_13 (asField locCloseBrace_88_24_13 T_int)) (= TRYFINALLYSTMT_pre_30_42_7 TRYFINALLYSTMT_30_42_7) (= true_term (is TRYFINALLYSTMT_30_42_7 T_int)) (= locDot_pre_95_29_13 locDot_95_29_13) (= locDot_95_29_13 (asField locDot_95_29_13 T_int)) (= decl_pre_50_38_43 decl_50_38_43) (= decl_50_38_43 (asField decl_50_38_43 T_javafe_ast_GenericVarDecl)) (< (fClosedTime decl_50_38_43) alloc) (forall ((?s_63_ Int)) (=> (not (= ?s_63_ null)) (not (= (S_select decl_50_38_43 ?s_63_) null)))) (= id_pre_18_32_34 id_18_32_34) (= id_18_32_34 (asField id_18_32_34 T_javafe_ast_Identifier)) (< (fClosedTime id_18_32_34) alloc) (forall ((?s_64_ Int)) (=> (not (= ?s_64_ null)) (not (= (S_select id_18_32_34 ?s_64_) null)))) (= tryClause_pre_83_18_28 tryClause_83_18_28) (= tryClause_83_18_28 (asField tryClause_83_18_28 T_javafe_ast_Stmt)) (< (fClosedTime tryClause_83_18_28) alloc) (forall ((?s_65_ Int)) (=> (not (= ?s_65_ null)) (not (= (S_select tryClause_83_18_28 ?s_65_) null)))) (= stmts_pre_40_19_31 stmts_40_19_31) (= stmts_40_19_31 (asField stmts_40_19_31 T_javafe_ast_StmtVec)) (< (fClosedTime stmts_40_19_31) alloc) (forall ((?s_66_ Int)) (=> (not (= ?s_66_ null)) (not (= (S_select stmts_40_19_31 ?s_66_) null)))) (= loc_pre_79_22_13 loc_79_22_13) (= loc_79_22_13 (asField loc_79_22_13 T_int)) (= DOUBLETYPE_pre_28_32_26 DOUBLETYPE_28_32_26) (= true_term (is DOUBLETYPE_28_32_26 T_int)) (= NOTFOUND_pre_86_10_26 NOTFOUND_86_10_26) (= true_term (is NOTFOUND_86_10_26 T_int)) (= COMPILATIONUNIT_pre_30_14_7 COMPILATIONUNIT_30_14_7) (= true_term (is COMPILATIONUNIT_30_14_7 T_int)) (= loc_pre_77_18_13 loc_77_18_13) (= loc_77_18_13 (asField loc_77_18_13 T_int)) (= ADD_pre_29_33_26 ADD_29_33_26) (= true_term (is ADD_29_33_26 T_int)) (= intType_pre_38_111_4 intType_38_111_4) (= true_term (is intType_38_111_4 T_javafe_ast_PrimitiveType)) (= true_term (isAllocated intType_38_111_4 alloc)) (= FIRST_KEYWORD_pre_27_51_26 FIRST_KEYWORD_27_51_26) (= true_term (is FIRST_KEYWORD_27_51_26 T_int)) (= locType_pre_33_21_13 locType_33_21_13) (= locType_33_21_13 (asField locType_33_21_13 T_int)) (= SWITCHLABEL_pre_30_41_7 SWITCHLABEL_30_41_7) (= true_term (is SWITCHLABEL_30_41_7 T_int)) (= LEXICALPRAGMA_pre_27_24_26 LEXICALPRAGMA_27_24_26) (= true_term (is LEXICALPRAGMA_27_24_26 T_int)) (= enclosingType_pre_5_32_39 enclosingType_5_32_39) (= enclosingType_5_32_39 (asField enclosingType_5_32_39 T_javafe_tc_TypeSig)) (< (fClosedTime enclosingType_5_32_39) alloc) (= reason_pre_86_8_13 reason_86_8_13) (= reason_86_8_13 (asField reason_86_8_13 T_int)) (= right_pre_104_40_28 right_104_40_28) (= right_104_40_28 (asField right_104_40_28 T_javafe_ast_Expr)) (< (fClosedTime right_104_40_28) alloc) (forall ((?s_67_ Int)) (=> (not (= ?s_67_ null)) (not (= (S_select right_104_40_28 ?s_67_) null)))) (= expr_pre_75_15_28 expr_75_15_28) (= expr_75_15_28 (asField expr_75_15_28 T_javafe_ast_Expr)) (< (fClosedTime expr_75_15_28) alloc) (forall ((?s_68_ Int)) (=> (not (= ?s_68_ null)) (not (= (S_select expr_75_15_28 ?s_68_) null)))) (= locOpenParen_pre_106_18_13 locOpenParen_106_18_13) (= locOpenParen_106_18_13 (asField locOpenParen_106_18_13 T_int)) (= finallyClause_pre_82_19_28 finallyClause_82_19_28) (= finallyClause_82_19_28 (asField finallyClause_82_19_28 T_javafe_ast_Stmt)) (< (fClosedTime finallyClause_82_19_28) alloc) (forall ((?s_69_ Int)) (=> (not (= ?s_69_ null)) (not (= (S_select finallyClause_82_19_28 ?s_69_) null)))) (= dims_pre_99_45_31 dims_99_45_31) (= dims_99_45_31 (asField dims_99_45_31 T_javafe_ast_ExprVec)) (< (fClosedTime dims_99_45_31) alloc) (forall ((?s_70_ Int)) (=> (not (= ?s_70_ null)) (not (= (S_select dims_99_45_31 ?s_70_) null)))) (= FLOATTYPE_pre_28_31_26 FLOATTYPE_28_31_26) (= true_term (is FLOATTYPE_28_31_26 T_int)) (= expr_pre_105_29_28 expr_105_29_28) (= expr_105_29_28 (asField expr_105_29_28 T_javafe_ast_Expr)) (< (fClosedTime expr_105_29_28) alloc) (forall ((?s_71_ Int)) (=> (not (= ?s_71_ null)) (not (= (S_select expr_105_29_28 ?s_71_) null)))) (= returnType_pre_68_19 returnType_68_19) (= returnType_68_19 (asField returnType_68_19 T_javafe_ast_Type)) (< (fClosedTime returnType_68_19) alloc) (= URSHIFT_pre_29_32_26 URSHIFT_29_32_26) (= true_term (is URSHIFT_29_32_26 T_int)) (= locOpenParen_pre_110_30_13 locOpenParen_110_30_13) (= locOpenParen_110_30_13 (asField locOpenParen_110_30_13 T_int)) (= SKIPSTMT_pre_30_40_7 SKIPSTMT_30_40_7) (= true_term (is SKIPSTMT_30_40_7 T_int)) (= decl_pre_56_15_33 decl_56_15_33) (= decl_56_15_33 (asField decl_56_15_33 T_javafe_ast_ClassDecl)) (< (fClosedTime decl_56_15_33) alloc) (forall ((?s_72_ Int)) (=> (not (= ?s_72_ null)) (not (= (S_select decl_56_15_33 ?s_72_) null)))) (= pmodifiers_pre_18_30_27 pmodifiers_18_30_27) (= pmodifiers_18_30_27 (asField pmodifiers_18_30_27 T_javafe_ast_ModifierPragmaVec)) (< (fClosedTime pmodifiers_18_30_27) alloc) (= COMPOUNDNAME_pre_30_67_7 COMPOUNDNAME_30_67_7) (= true_term (is COMPOUNDNAME_30_67_7 T_int)) (= fields_pre_5_875_27 fields_5_875_27) (= fields_5_875_27 (asField fields_5_875_27 T_javafe_tc_FieldDeclVec)) (< (fClosedTime fields_5_875_27) alloc) (= CHARTYPE_pre_28_30_26 CHARTYPE_28_30_26) (= true_term (is CHARTYPE_28_30_26 T_int)) (= count_pre_24_67_33 count_24_67_33) (= count_24_67_33 (asField count_24_67_33 T_int)) (= init_pre_55_19_17 init_55_19_17) (= init_55_19_17 (asField init_55_19_17 T_javafe_ast_VarInit)) (< (fClosedTime init_55_19_17) alloc) (= RSHIFT_pre_29_31_26 RSHIFT_29_31_26) (= true_term (is RSHIFT_29_31_26 T_int)) (= modifiers_pre_18_28_13 modifiers_18_28_13) (= modifiers_18_28_13 (asField modifiers_18_28_13 T_int)) (= CU_pre_5_71_30 CU_5_71_30) (= CU_5_71_30 (asField CU_5_71_30 T_javafe_ast_CompilationUnit)) (< (fClosedTime CU_5_71_30) alloc) (= FORSTMT_pre_30_39_7 FORSTMT_30_39_7) (= true_term (is FORSTMT_30_39_7 T_int)) (= locOpenBrace_pre_88_21_13 locOpenBrace_88_21_13) (= locOpenBrace_88_21_13 (asField locOpenBrace_88_21_13 T_int)) (= tag_pre_124_32_13 tag_124_32_13) (= tag_124_32_13 (asField tag_124_32_13 T_int)) (= left_pre_104_38_28 left_104_38_28) (= left_104_38_28 (asField left_104_38_28 T_javafe_ast_Expr)) (< (fClosedTime left_104_38_28) alloc) (forall ((?s_73_ Int)) (=> (not (= ?s_73_ null)) (not (= (S_select left_104_38_28 ?s_73_) null)))) (= elements_pre_118_61_47 elements_118_61_47) (= elements_118_61_47 (asField elements_118_61_47 (array T_javafe_ast_TypeModifierPragma))) (< (fClosedTime elements_118_61_47) alloc) (forall ((?s_74_ Int)) (=> (not (= ?s_74_ null)) (not (= (S_select elements_118_61_47 ?s_74_) null)))) (= leftToRight_pre_65_22 leftToRight_65_22) (= leftToRight_65_22 (asField leftToRight_65_22 T_boolean)) (= specOnly_pre_18_26_17 specOnly_18_26_17) (= specOnly_18_26_17 (asField specOnly_18_26_17 T_boolean)) (= id_pre_111_20_34 id_111_20_34) (= id_111_20_34 (asField id_111_20_34 T_javafe_ast_Identifier)) (< (fClosedTime id_111_20_34) alloc) (forall ((?s_75_ Int)) (=> (not (= ?s_75_ null)) (not (= (S_select id_111_20_34 ?s_75_) null)))) (= SIMPLENAME_pre_30_66_7 SIMPLENAME_30_66_7) (= true_term (is SIMPLENAME_30_66_7 T_int)) (= lenId_pre_38_914_30 lenId_38_914_30) (= true_term (is lenId_38_914_30 T_javafe_ast_Identifier)) (= true_term (isAllocated lenId_38_914_30 alloc)) (= tryClause_pre_82_17_28 tryClause_82_17_28) (= tryClause_82_17_28 (asField tryClause_82_17_28 T_javafe_ast_Stmt)) (< (fClosedTime tryClause_82_17_28) alloc) (forall ((?s_76_ Int)) (=> (not (= ?s_76_ null)) (not (= (S_select tryClause_82_17_28 ?s_76_) null)))) (= LONGTYPE_pre_28_29_26 LONGTYPE_28_29_26) (= true_term (is LONGTYPE_28_29_26 T_int)) (= els_pre_79_19_28 els_79_19_28) (= els_79_19_28 (asField els_79_19_28 T_javafe_ast_Stmt)) (< (fClosedTime els_79_19_28) alloc) (forall ((?s_77_ Int)) (=> (not (= ?s_77_ null)) (not (= (S_select els_79_19_28 ?s_77_) null)))) (= hasParent_pre_19_149_30 hasParent_19_149_30) (= hasParent_19_149_30 (asField hasParent_19_149_30 T_boolean)) (= op_pre_105_26_13 op_105_26_13) (= op_105_26_13 (asField op_105_26_13 T_int)) (= count_pre_123_67_33 count_123_67_33) (= count_123_67_33 (asField count_123_67_33 T_int)) (= expr_pre_77_15_14 expr_77_15_14) (= expr_77_15_14 (asField expr_77_15_14 T_javafe_ast_Expr)) (< (fClosedTime expr_77_15_14) alloc) (= shortType_pre_38_139_4 shortType_38_139_4) ?v_20 (= true_term (isAllocated shortType_38_139_4 alloc)) (= LSHIFT_pre_29_30_26 LSHIFT_29_30_26) (= true_term (is LSHIFT_29_30_26 T_int)) (= enclosingInstance_pre_95_25_14 enclosingInstance_95_25_14) (= enclosingInstance_95_25_14 (asField enclosingInstance_95_25_14 T_javafe_ast_Expr)) (< (fClosedTime enclosingInstance_95_25_14) alloc) (= IFSTMT_pre_30_38_7 IFSTMT_30_38_7) (= true_term (is IFSTMT_30_38_7 T_int)) (= POSTFIXDEC_pre_29_63_26 POSTFIXDEC_29_63_26) (= true_term (is POSTFIXDEC_29_63_26 T_int)) (= loc_pre_160_18_13 loc_160_18_13) (= loc_160_18_13 (asField loc_160_18_13 T_int)) (= booleanType_pre_38_107_4 booleanType_38_107_4) (= true_term (is booleanType_38_107_4 T_javafe_ast_PrimitiveType)) (= true_term (isAllocated booleanType_38_107_4 alloc)) (= ARRAYTYPE_pre_30_65_7 ARRAYTYPE_30_65_7) (= true_term (is ARRAYTYPE_30_65_7 T_int)) (= expr_pre_106_15_28 expr_106_15_28) (= expr_106_15_28 (asField expr_106_15_28 T_javafe_ast_Expr)) (< (fClosedTime expr_106_15_28) alloc) (forall ((?s_78_ Int)) (=> (not (= ?s_78_ null)) (not (= (S_select expr_106_15_28 ?s_78_) null)))) (= loc_pre_124_50_13 loc_124_50_13) (= loc_124_50_13 (asField loc_124_50_13 T_int)) (= INTTYPE_pre_28_28_26 INTTYPE_28_28_26) (= true_term (is INTTYPE_28_28_26 T_int)) (= LT_pre_29_29_26 LT_29_29_26) (= true_term (is LT_29_29_26 T_int)) (= block_pre_51_28_33 block_51_28_33) (= block_51_28_33 (asField block_51_28_33 T_javafe_ast_BlockStmt)) (< (fClosedTime block_51_28_33) alloc) (forall ((?s_79_ Int)) (=> (not (= ?s_79_ null)) (not (= (S_select block_51_28_33 ?s_79_) null)))) (= LABELSTMT_pre_30_37_7 LABELSTMT_30_37_7) (= true_term (is LABELSTMT_30_37_7 T_int)) (= count_pre_43_67_33 count_43_67_33) (= count_43_67_33 (asField count_43_67_33 T_int)) (= POSTFIXINC_pre_29_62_26 POSTFIXINC_29_62_26) (= true_term (is POSTFIXINC_29_62_26 T_int)) (= op_pre_104_35_13 op_104_35_13) (= op_104_35_13 (asField op_104_35_13 T_int)) (= locId_pre_32_43_13 locId_32_43_13) (= locId_32_43_13 (asField locId_32_43_13 T_int)) (= noTokens_pre_27_212_27 noTokens_27_212_27) (= true_term (is noTokens_27_212_27 T_int)) (= od_pre_111_18_40 od_111_18_40) (= od_111_18_40 (asField od_111_18_40 T_javafe_ast_ObjectDesignator)) (< (fClosedTime od_111_18_40) alloc) (forall ((?s_80_ Int)) (=> (not (= ?s_80_ null)) (not (= (S_select od_111_18_40 ?s_80_) null)))) (= TYPENAME_pre_30_64_7 TYPENAME_30_64_7) (= true_term (is TYPENAME_30_64_7 T_int)) (= thn_pre_79_17_28 thn_79_17_28) (= thn_79_17_28 (asField thn_79_17_28 T_javafe_ast_Stmt)) (< (fClosedTime thn_79_17_28) alloc) (forall ((?s_81_ Int)) (=> (not (= ?s_81_ null)) (not (= (S_select thn_79_17_28 ?s_81_) null)))) (= BOOLEANTYPE_pre_28_27_26 BOOLEANTYPE_28_27_26) (= true_term (is BOOLEANTYPE_28_27_26 T_int)) (= owner_pre_4_35_28 owner_4_35_28) (= owner_4_35_28 (asField owner_4_35_28 T_java_lang_Object)) (< (fClosedTime owner_4_35_28) alloc) (= methodSeq_pre_48_167_38 methodSeq_48_167_38) (= methodSeq_48_167_38 (asField methodSeq_48_167_38 T_javafe_util_StackVector)) (< (fClosedTime methodSeq_48_167_38) alloc) (forall ((?s_82_ Int)) (=> (not (= ?s_82_ null)) (not (= (S_select methodSeq_48_167_38 ?s_82_) null)))) (= returnType_pre_33_18_28 returnType_33_18_28) (= returnType_33_18_28 (asField returnType_33_18_28 T_javafe_ast_Type)) (< (fClosedTime returnType_33_18_28) alloc) (forall ((?s_83_ Int)) (=> (not (= ?s_83_ null)) (not (= (S_select returnType_33_18_28 ?s_83_) null)))) (= loc_pre_121_30_13 loc_121_30_13) (= loc_121_30_13 (asField loc_121_30_13 T_int)) (= LE_pre_29_28_26 LE_29_28_26) (= true_term (is LE_29_28_26 T_int)) (= CONTINUESTMT_pre_30_36_7 CONTINUESTMT_30_36_7) (= true_term (is CONTINUESTMT_30_36_7 T_int)) (= loc_pre_78_18_13 loc_78_18_13) (= loc_78_18_13 (asField loc_78_18_13 T_int)) (= punctuationCodes_pre_27_164_19 punctuationCodes_27_164_19) (= true_term (is punctuationCodes_27_164_19 ?v_0)) (= true_term (isAllocated punctuationCodes_27_164_19 alloc)) (= elems_pre_88_18_34 elems_88_18_34) (= elems_88_18_34 (asField elems_88_18_34 T_javafe_ast_VarInitVec)) (< (fClosedTime elems_88_18_34) alloc) (forall ((?s_84_ Int)) (=> (not (= ?s_84_ null)) (not (= (S_select elems_88_18_34 ?s_84_) null)))) (= DEC_pre_29_59_26 DEC_29_59_26) (= true_term (is DEC_29_59_26 T_int)) (= rootSEnv_pre_54_45 rootSEnv_54_45) (= rootSEnv_54_45 (asField rootSEnv_54_45 T_javafe_tc_EnvForTypeSig)) (< (fClosedTime rootSEnv_54_45) alloc) (= count_pre_16_67_33 count_16_67_33) (= count_16_67_33 (asField count_16_67_33 T_int)) (= locFirstSemi_pre_74_36_13 locFirstSemi_74_36_13) (= locFirstSemi_74_36_13 (asField locFirstSemi_74_36_13 T_int)) (= SUPEROBJECTDESIGNATOR_pre_30_63_7 SUPEROBJECTDESIGNATOR_30_63_7) (= true_term (is SUPEROBJECTDESIGNATOR_30_63_7 T_int)) (= IDENT_pre_28_25_26 IDENT_28_25_26) (= true_term (is IDENT_28_25_26 T_int)) (= parent_pre_18_59_18 parent_18_59_18) (= parent_18_59_18 (asField parent_18_59_18 T_javafe_ast_TypeDecl)) (< (fClosedTime parent_18_59_18) alloc) (= elements_pre_47_61_43 elements_47_61_43) (= elements_47_61_43 (asField elements_47_61_43 (array T_javafe_ast_FormalParaDecl))) (< (fClosedTime elements_47_61_43) alloc) (forall ((?s_85_ Int)) (=> (not (= ?s_85_ null)) (not (= (S_select elements_47_61_43 ?s_85_) null)))) (= branchDecoration_pre_1898_31 branchDecoration_1898_31) (= true_term (is branchDecoration_1898_31 T_javafe_ast_ASTDecoration)) (= true_term (isAllocated branchDecoration_1898_31 alloc)) (= decl_pre_42_54_25 decl_42_54_25) (= decl_42_54_25 (asField decl_42_54_25 T_javafe_ast_ConstructorDecl)) (< (fClosedTime decl_42_54_25) alloc) (= locId_pre_73_20_13 locId_73_20_13) (= locId_73_20_13 (asField locId_73_20_13 T_int)) (= name_pre_46_18_28 name_46_18_28) (= name_46_18_28 (asField name_46_18_28 T_javafe_ast_Name)) (< (fClosedTime name_46_18_28) alloc) (forall ((?s_86_ Int)) (=> (not (= ?s_86_ null)) (not (= (S_select name_46_18_28 ?s_86_) null)))) (= count_pre_21_67_33 count_21_67_33) (= count_21_67_33 (asField count_21_67_33 T_int)) (= GT_pre_29_27_26 GT_29_27_26) (= true_term (is GT_29_27_26 T_int)) (= decl_pre_54_15_36 decl_54_15_36) (= decl_54_15_36 (asField decl_54_15_36 T_javafe_ast_LocalVarDecl)) (< (fClosedTime decl_54_15_36) alloc) (forall ((?s_87_ Int)) (=> (not (= ?s_87_ null)) (not (= (S_select decl_54_15_36 ?s_87_) null)))) (= elementType_pre_155_22_27 elementType_155_22_27) (= elementType_155_22_27 (asField elementType_155_22_27 T__TYPE)) (= elements_pre_15_61_36 elements_15_61_36) (= elements_15_61_36 (asField elements_15_61_36 (array T_javafe_tc_TypeSig))) (< (fClosedTime elements_15_61_36) alloc) (forall ((?s_88_ Int)) (=> (not (= ?s_88_ null)) (not (= (S_select elements_15_61_36 ?s_88_) null)))) (= BREAKSTMT_pre_30_35_7 BREAKSTMT_30_35_7) (= true_term (is BREAKSTMT_30_35_7 T_int)) (= INC_pre_29_58_26 INC_29_58_26) (= true_term (is INC_29_58_26 T_int)) (= init_pre_99_35_19 init_99_35_19) (= init_99_35_19 (asField init_99_35_19 T_javafe_ast_ArrayInit)) (< (fClosedTime init_99_35_19) alloc) (= byteType_pre_38_135_4 byteType_38_135_4) ?v_15 (= true_term (isAllocated byteType_38_135_4 alloc)) (= args_pre_42_51_31 args_42_51_31) (= args_42_51_31 (asField args_42_51_31 T_javafe_ast_ExprVec)) (< (fClosedTime args_42_51_31) alloc) (forall ((?s_89_ Int)) (=> (not (= ?s_89_ null)) (not (= (S_select args_42_51_31 ?s_89_) null)))) (= TYPEOBJECTDESIGNATOR_pre_30_62_7 TYPEOBJECTDESIGNATOR_30_62_7) (= true_term (is TYPEOBJECTDESIGNATOR_30_62_7 T_int)) (= sigDecoration_pre_5_104_38 sigDecoration_5_104_38) (= true_term (is sigDecoration_5_104_38 T_javafe_ast_ASTDecoration)) (= true_term (isAllocated sigDecoration_5_104_38 alloc)) (= expr_pre_79_15_28 expr_79_15_28) (= expr_79_15_28 (asField expr_79_15_28 T_javafe_ast_Expr)) (< (fClosedTime expr_79_15_28) alloc) (forall ((?s_90_ Int)) (=> (not (= ?s_90_ null)) (not (= (S_select expr_79_15_28 ?s_90_) null)))) (= value_pre_124_45_16 value_124_45_16) (= value_124_45_16 (asField value_124_45_16 T_java_lang_Object)) (< (fClosedTime value_124_45_16) alloc) (= elementCount_pre_153_79_33 elementCount_153_79_33) (= elementCount_153_79_33 (asField elementCount_153_79_33 T_int)) (= locOpenParen_pre_80_23_13 locOpenParen_80_23_13) (= locOpenParen_80_23_13 (asField locOpenParen_80_23_13 T_int)) (= modifiers_pre_51_24_13 modifiers_51_24_13) (= modifiers_51_24_13 (asField modifiers_51_24_13 T_int)) (= elementType_pre_153_43_27 elementType_153_43_27) (= elementType_153_43_27 (asField elementType_153_43_27 T__TYPE)) (= locId_pre_23_38_13 locId_23_38_13) (= locId_23_38_13 (asField locId_23_38_13 T_int)) (= decl_pre_112_26_38 decl_112_26_38) (= decl_112_26_38 (asField decl_112_26_38 T_javafe_ast_GenericVarDecl)) (< (fClosedTime decl_112_26_38) alloc) (forall ((?s_91_ Int)) (=> (not (= ?s_91_ null)) (not (= (S_select decl_112_26_38 ?s_91_) null)))) (= GE_pre_29_26_26 GE_29_26_26) (= true_term (is GE_29_26_26 T_int)) (= voidType_pre_38_103_4 voidType_38_103_4) (= true_term (is voidType_38_103_4 T_javafe_ast_PrimitiveType)) (= true_term (isAllocated voidType_38_103_4 alloc)) (= keywordStrings_pre_27_181_30 keywordStrings_27_181_30) (= true_term (is keywordStrings_27_181_30 ?v_1)) (= true_term (isAllocated keywordStrings_27_181_30 alloc)) (= myTypeDecl_pre_5_63_40 myTypeDecl_5_63_40) (= myTypeDecl_5_63_40 (asField myTypeDecl_5_63_40 T_javafe_ast_TypeDecl)) (< (fClosedTime myTypeDecl_5_63_40) alloc) (= THROWSTMT_pre_30_34_7 THROWSTMT_30_34_7) (= true_term (is THROWSTMT_30_34_7 T_int)) (= NULL_pre_44_60_26 NULL_44_60_26) (= true_term (is NULL_44_60_26 T_int)) (= parent_pre_51_22_18 parent_51_22_18) (= parent_51_22_18 (asField parent_51_22_18 T_javafe_ast_TypeDecl)) (< (fClosedTime parent_51_22_18) alloc) (= count_pre_84_67_33 count_84_67_33) (= count_84_67_33 (asField count_84_67_33 T_int)) (= rootIEnv_pre_51_45 rootIEnv_51_45) (= rootIEnv_51_45 (asField rootIEnv_51_45 T_javafe_tc_EnvForTypeSig)) (< (fClosedTime rootIEnv_51_45) alloc) (= BITNOT_pre_29_57_26 BITNOT_29_57_26) (= true_term (is BITNOT_29_57_26 T_int)) (= loc_pre_32_40_13 loc_32_40_13) (= loc_32_40_13 (asField loc_32_40_13 T_int)) (= EXPROBJECTDESIGNATOR_pre_30_61_7 EXPROBJECTDESIGNATOR_30_61_7) (= true_term (is EXPROBJECTDESIGNATOR_30_61_7 T_int)) (= elems_pre elems) (= elems (asElems elems)) (< (eClosedTime elems) alloc) (= LS (asLockSet LS)) (= alloc_pre alloc)) (not (and (= true_term (is this T_javafe_tc_FlowInsensitiveChecks)) (= true_term (isAllocated this alloc)) (not (= this null)) (= true_term (is leftExpr_1535_39 T_javafe_ast_Expr)) (= true_term (isAllocated leftExpr_1535_39 alloc)) (= true_term (is rightExpr_1535_54 T_javafe_ast_Expr)) (= true_term (isAllocated rightExpr_1535_54 alloc)) ?v_2 ?v_4 ?v_12 ?v_17 ?v_34 ?v_62 (or ?v_59 (and ?v_2 ?v_70 ?v_71 ?v_3 ?v_72 (or ?v_39 (and ?v_4 ?v_73 ?v_74 ?v_5 ?v_75 (or (not (and ?v_6 ?v_7)) (and ?v_76 ?v_8 ?v_77 ?v_78 ?v_11 ?v_79 ?v_80 ?v_81 (or (and ?v_61 ?v_11 (or ?v_26 (and ?v_82 ?v_13 ?v_83 (or (and ?v_16 ?v_51) (and ?v_84 ?v_86 ?v_11 (or ?v_47 (and ?v_87 ?v_21 ?v_88 (or (and ?v_23 ?v_30) (and ?v_89 ?v_92 ?v_11 (or ?v_26 (and ?v_93 ?v_27 ?v_94 (or (and ?v_31 ?v_30) (and ?v_95 (or (and ?v_36 (not (and ?v_6 ?v_34))) (and ?v_96 (or (and ?v_41 (or ?v_39 (and ?v_4 ?v_42 ?v_43 ?v_44 (or (not ?v_40) (and ?v_40 ?v_45 (not ?v_46)))))) (and ?v_97 ?v_99 ?v_11 (or ?v_47 (and ?v_100 ?v_48 ?v_101 (or (and ?v_52 ?v_51) (and ?v_102 (or (and ?v_56 (not (and ?v_7 ?v_34))) (and ?v_103 ?v_104 (or ?v_59 (and ?v_2 ?v_105 ?v_106 ?v_107 (or (not ?v_60) (and ?v_60 ?v_108 (not ?v_109)))))))))))))))))))))))))))) (and ?v_112 ?v_11 (or (not (and ?v_6 ?v_62)) (and ?v_113 ?v_63 ?v_114 ?v_115 ?v_117 ?v_11 (or (not (and ?v_7 ?v_62)) (and ?v_118 ?v_66 ?v_119 ?v_120 ?v_122 ?v_11 ?v_123 ?v_124 ?v_125 ?v_126 ?v_11 (or (not (and ?v_2 ?v_7)) (and ?v_127 ?v_128 ?v_130 ?v_11 (not (and ?v_4 ?v_6))))))))))))))) (and ?v_2 ?v_70 ?v_71 ?v_3 ?v_72 ?v_4 ?v_73 ?v_74 ?v_5 ?v_75 ?v_76 ?v_8 ?v_77 (or (and ?v_9 ?v_11 ?v_11) (and ?v_78 ?v_11 ?v_79 ?v_80 ?v_81 (or (and ?v_61 ?v_11 ?v_82 ?v_13 ?v_83 ?v_84 (or (and ?v_85 ?v_11 ?v_11 ?v_91) (and ?v_86 ?v_11 ?v_87 ?v_21 ?v_88 ?v_89 (or (and ?v_90 ?v_11 ?v_11 ?v_91) (and ?v_92 ?v_11 ?v_93 ?v_27 ?v_94 ?v_95 ?v_96 ?v_97 (or (and ?v_98 ?v_11 ?v_11 (= RES_11_ RES_1536_24_1536_24)) (and ?v_99 ?v_11 ?v_100 ?v_48 ?v_101 ?v_102 ?v_103 (or (and ?v_104 ?v_2 ?v_105 ?v_106 ?v_107 ?v_60 ?v_108 ?v_109 (= true_term (is RES_1581_2_1581_2 T_boolean)) (= EC_1581_2_1581_2 ecReturn) (= RES_12_ RES_1581_2_1581_2) (= EC_11_ EC_1581_2_1581_2) (= tmp15_cand_1580_2 RES_1581_2_1581_2)) (and (not ?v_104) ?v_11 (= RES_12_ RES_7_) (= EC_11_ EC_7_) (= tmp15_cand_1580_2 false_term))) (or (and ?v_110 ?v_11 ?v_11 (= RES_11_ RES_1537_18_1537_18)) (and (not ?v_110) ?v_11 (= true_term (is RES_1591_18_1591_18 T_javafe_ast_Type)) (= true_term (isAllocated RES_1591_18_1591_18 alloc)) ?v_111 (=> ?v_111 (not (= RES_1591_18_1591_18 null))) ?v_11 (= RES_11_ RES_1591_18_1591_18)))))))))) (and ?v_112 ?v_11 ?v_113 ?v_63 ?v_114 ?v_115 (or (and ?v_116 ?v_11 ?v_11) (and ?v_117 ?v_11 ?v_118 ?v_66 ?v_119 ?v_120 (or (and ?v_121 ?v_11 ?v_11) (and ?v_122 ?v_11 ?v_123 ?v_124 ?v_125 (or (and ?v_126 ?v_11 ?v_127 ?v_128 (or (and ?v_129 ?v_11 ?v_11) (and ?v_130 ?v_11 ?v_131 ?v_132 ?v_133 ?v_11 ?v_11))) (and (or (and ?v_126 ?v_11 ?v_127 ?v_128 ?v_130 ?v_11 ?v_131 ?v_132 (not ?v_133) ?v_11 (= EC_12_ EC_1619_9_1619_9)) (and (not ?v_126) ?v_11 (= EC_12_ EC_10_))) ?v_11)))))))))) (not (= ecReturn ecReturn))))))))))))))))))))))))))))))))))))))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/quantifiers/macro-subtype-param.smt2 b/test/regress/regress0/quantifiers/macro-subtype-param.smt2
deleted file mode 100644
index 97ff827a7..000000000
--- a/test/regress/regress0/quantifiers/macro-subtype-param.smt2
+++ /dev/null
@@ -1,23 +0,0 @@
-; COMMAND-LINE: --macros-quant
-; EXPECT: (error "argument type is not a subtype of the function's argument type:
-; EXPECT: argument:  x
-; EXPECT: has type:  (List Int)
-; EXPECT: not subtype: (List Real)
-; EXPECT: in term : (R (as x (List Real)))")
-; EXIT: 1
-
-(set-logic ALL_SUPPORTED)
-
-(declare-datatypes ((List 1)) ((par (T) ((cons (hd T) (tl (List T))) (nil)))))
-
-(declare-fun R ((List Real)) Bool)
-(assert (forall ((x (List Int))) (R x)))
-(declare-fun j1 () (List Real))
-(assert (not (R j1)))
-
-(declare-fun Q ((Array Int Real)) Bool)
-(assert (forall ((x (Array Real Int))) (Q x)))
-(declare-fun j2 () (Array Real Real))
-(assert (not (Q j2)))
-
-(check-sat)
diff --git a/test/regress/regress0/quantifiers/mix-coeff.smt2 b/test/regress/regress0/quantifiers/mix-coeff.smt2
deleted file mode 100644
index 23ecba49e..000000000
--- a/test/regress/regress0/quantifiers/mix-coeff.smt2
+++ /dev/null
@@ -1,4 +0,0 @@
-(set-logic LIRA)
-(set-info :status unsat)
-(assert (forall ((x Int) (y Int) (a Real) (z Int)) (or (> x (+ a (* (/ 2 3) y) (* (/ 4 5) z))) (< x (+ 10 (* 3 a) (* (/ 2 5) y) (* (/ 4 7) z))))))
-(check-sat)
diff --git a/test/regress/regress0/quantifiers/model_6_1_bv.smt2 b/test/regress/regress0/quantifiers/model_6_1_bv.smt2
deleted file mode 100644
index 011430bd6..000000000
--- a/test/regress/regress0/quantifiers/model_6_1_bv.smt2
+++ /dev/null
@@ -1,15 +0,0 @@
-; COMMAND-LINE: --cbqi-nested-qe
-; EXPECT: sat
-(set-logic BV)
-(set-info :status sat)
-(declare-fun lambda () (_ BitVec 32))
-(declare-fun lambdaprime () (_ BitVec 32))
-(declare-fun x5 () (_ BitVec 32))
-(declare-fun x4 () (_ BitVec 32))
-(declare-fun bool.b22 () Bool)
-(declare-fun bool.b7 () Bool)
-(declare-fun bool.b5 () Bool)
-(declare-fun bool.b6 () Bool)
-(assert (forall ((?lambda (_ BitVec 32))) (or (or (exists ((?lambdaprime (_ BitVec 32))) (let ((?v_1 (not bool.b22)) (?v_3 (not bool.b7)) (?v_4 (not bool.b5))) (let ((?v_2 (and ?v_4 (not bool.b6))) (?v_0 (bvmul (bvneg (_ bv1 32)) (bvadd x4 (bvmul (_ bv30 32) ?lambdaprime))))) (and (and (bvsle (_ bv0 32) ?lambdaprime) (bvsle ?lambdaprime ?lambda)) (not (and (not (bvsle (bvmul (bvneg (_ bv1 32)) (bvadd x5 (bvmul (_ bv1 32) ?lambdaprime))) (bvneg (_ bv10 32)))) (and (and (not (and (bvsle ?v_0 (bvneg (_ bv4100 32))) (and ?v_1 (and ?v_3 ?v_2)))) (not (and (bvsle ?v_0 (bvneg (_ bv4500 32))) (and ?v_1 (and bool.b7 ?v_2))))) (not (and (bvsle ?v_0 (bvneg (_ bv4910 32))) (and ?v_1 (and ?v_3 (and ?v_4 bool.b6)))))))))))) (bvslt ?lambda (_ bv0 32))) (not (and (not bool.b22) (and (not bool.b7) (and bool.b5 (not bool.b6))))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/quantifiers/nested9_true-unreach-call.i_575.smt2 b/test/regress/regress0/quantifiers/nested9_true-unreach-call.i_575.smt2
deleted file mode 100644
index 2a46d2a21..000000000
--- a/test/regress/regress0/quantifiers/nested9_true-unreach-call.i_575.smt2
+++ /dev/null
@@ -1,21 +0,0 @@
-; COMMAND-LINE: --cbqi-bv
-; EXPECT: unsat
-(set-logic BV)
-(set-info :status unsat)
-(declare-fun c_main_~i~6 () (_ BitVec 32))
-(declare-fun c_main_~j~6 () (_ BitVec 32))
-(declare-fun c_main_~k~6 () (_ BitVec 32))
-(assert
- (and (bvsle c_main_~i~6 (_ bv3 32)) (bvsle c_main_~i~6 (_ bv2 32))
- (exists ((v_nnf_34 (_ BitVec 32)))
-  (and (bvsle (bvadd v_nnf_34 (_ bv3 32)) c_main_~k~6) 
-  (bvsle v_nnf_34 (_ bv3 32)) (bvsle c_main_~j~6 (bvadd (bvmul (_ bv2 32) v_nnf_34) (_ bv1 32)))))))
-(assert
- (not
- (and (bvsle c_main_~i~6 (_ bv3 32)) (bvsle c_main_~i~6 (_ bv2 32))
- (exists ((v_nnf_30 (_ BitVec 32)))
-  (and (bvsle (bvadd v_nnf_30 (_ bv1 32)) c_main_~k~6) 
-  (bvsle v_nnf_30 (_ bv3 32)) (bvsle c_main_~j~6 (bvadd (bvmul (_ bv2 32) v_nnf_30) (_ bv1 32))))))))
-(check-sat)
-(exit)
-
diff --git a/test/regress/regress0/quantifiers/opisavailable-12.smt2 b/test/regress/regress0/quantifiers/opisavailable-12.smt2
deleted file mode 100644
index c529b409f..000000000
--- a/test/regress/regress0/quantifiers/opisavailable-12.smt2
+++ /dev/null
@@ -1,276 +0,0 @@
-(set-logic AUFLIA)
-(set-info :source |
-      Tokeneer case study <http://www.adacore.com/home/products/gnatpro/tokeneer/>
-  |)
-(set-info :smt-lib-version 2.0)
-(set-info :category "industrial")
-(set-info :status unsat)
-(declare-fun field.datat.length () Int)
-(declare-fun field.datat.minmatchlength () Int)
-(declare-fun field.datat.text () Int)
-(declare-fun field.keyboard__datat.length () Int)
-(declare-fun field.keyboard__datat.text () Int)
-(declare-fun field.t.rolepresent () Int)
-(declare-fun field.t.currentop () Int)
-(declare-fun archivelog () Int)
-(declare-fun character__base__first () Int)
-(declare-fun character__base__last () Int)
-(declare-fun character__first () Int)
-(declare-fun character__last () Int)
-(declare-fun character__size () Int)
-(declare-fun datai__base__first () Int)
-(declare-fun datai__base__last () Int)
-(declare-fun datai__first () Int)
-(declare-fun datai__last () Int)
-(declare-fun datai__size () Int)
-(declare-fun datalengtht__base__first () Int)
-(declare-fun datalengtht__base__last () Int)
-(declare-fun datalengtht__first () Int)
-(declare-fun datalengtht__last () Int)
-(declare-fun datalengtht__size () Int)
-(declare-fun integer__base__first () Int)
-(declare-fun integer__base__last () Int)
-(declare-fun integer__first () Int)
-(declare-fun integer__last () Int)
-(declare-fun integer__size () Int)
-(declare-fun isavailable () Int)
-(declare-fun keyboard__datai__base__first () Int)
-(declare-fun keyboard__datai__base__last () Int)
-(declare-fun keyboard__datai__first () Int)
-(declare-fun keyboard__datai__last () Int)
-(declare-fun keyboard__datai__size () Int)
-(declare-fun keyboard__datalengtht__base__first () Int)
-(declare-fun keyboard__datalengtht__base__last () Int)
-(declare-fun keyboard__datalengtht__first () Int)
-(declare-fun keyboard__datalengtht__last () Int)
-(declare-fun keyboard__datalengtht__size () Int)
-(declare-fun null__string () Int)
-(declare-fun nullop () Int)
-(declare-fun opandnullt__base__first () Int)
-(declare-fun opandnullt__base__last () Int)
-(declare-fun opandnullt__first () Int)
-(declare-fun opandnullt__last () Int)
-(declare-fun opandnullt__size () Int)
-(declare-fun opt__base__first () Int)
-(declare-fun opt__base__last () Int)
-(declare-fun opt__first () Int)
-(declare-fun opt__last () Int)
-(declare-fun opt__size () Int)
-(declare-fun optokeyed () Int)
-(declare-fun overridelock () Int)
-(declare-fun positive__base__first () Int)
-(declare-fun positive__base__last () Int)
-(declare-fun positive__first () Int)
-(declare-fun positive__last () Int)
-(declare-fun positive__size () Int)
-(declare-fun privtypes__adminprivileget__base__first () Int)
-(declare-fun privtypes__adminprivileget__base__last () Int)
-(declare-fun privtypes__adminprivileget__first () Int)
-(declare-fun privtypes__adminprivileget__last () Int)
-(declare-fun privtypes__adminprivileget__size () Int)
-(declare-fun privtypes__auditmanager () Int)
-(declare-fun privtypes__guard () Int)
-(declare-fun privtypes__privileget__base__first () Int)
-(declare-fun privtypes__privileget__base__last () Int)
-(declare-fun privtypes__privileget__first () Int)
-(declare-fun privtypes__privileget__last () Int)
-(declare-fun privtypes__privileget__size () Int)
-(declare-fun privtypes__securityofficer () Int)
-(declare-fun privtypes__useronly () Int)
-(declare-fun shutdownop () Int)
-(declare-fun updateconfigdata () Int)
-(declare-fun keyedop () Int)
-(declare-fun keyedop__entry__loop__2 () Int)
-(declare-fun init.keyedop__entry__loop__2 () Int)
-(declare-fun init.keyedop () Int)
-(declare-fun loop__1__op () Int)
-(declare-fun init.loop__1__op () Int)
-(declare-fun loop__2__i () Int)
-(declare-fun init.loop__2__i () Int)
-(declare-fun theadmin () Int)
-(declare-fun init.theadmin () Int)
-(declare-fun theop () Int)
-(declare-fun init.theop () Int)
-(declare-fun bit__and (Int Int) Int)
-(declare-fun bit__not (Int Int) Int)
-(declare-fun bit__or (Int Int) Int)
-(declare-fun bit__xor (Int Int) Int)
-(declare-fun character__pos (Int) Int)
-(declare-fun character__val (Int) Int)
-(declare-fun integer__pred (Int) Int)
-(declare-fun integer__succ (Int) Int)
-(declare-fun opandnullt__pos (Int) Int)
-(declare-fun opandnullt__pred (Int) Int)
-(declare-fun opandnullt__succ (Int) Int)
-(declare-fun opandnullt__val (Int) Int)
-(declare-fun privtypes__privileget__pos (Int) Int)
-(declare-fun privtypes__privileget__pred (Int) Int)
-(declare-fun privtypes__privileget__succ (Int) Int)
-(declare-fun privtypes__privileget__val (Int) Int)
-(declare-fun round__ (Int) Int)
-(declare-fun i.div (Int Int) Int)
-(declare-fun i.mod (Int Int) Int)
-(declare-fun i.mult (Int Int) Int)
-(declare-fun i.exp (Int Int) Int)
-(declare-fun tm.true () Int)
-(declare-fun tm.false () Int)
-(declare-fun tm.not (Int) Int)
-(declare-fun tm.and (Int Int) Int)
-(declare-fun tm.or (Int Int) Int)
-(declare-fun tm.iff (Int Int) Int)
-(declare-fun tm.eq (Int Int) Int)
-(declare-fun tm.ne (Int Int) Int)
-(declare-fun tm.lt (Int Int) Int)
-(declare-fun tm.le (Int Int) Int)
-(declare-fun tuple.2 (Int Int) Int)
-(declare-fun a.store (Int Int Int) Int)
-(declare-fun a.select (Int Int) Int)
-(declare-fun a.mk_const_array (Int) Int)
-(declare-fun a.default_array () Int)
-(declare-fun r.default_record () Int)
-(declare-fun matched () Bool)
-(declare-fun init.matched () Bool)
-(declare-fun ispresent (Int) Bool)
-(declare-fun opandnullt__LE (Int Int) Bool)
-(declare-fun opandnullt__LT (Int Int) Bool)
-(declare-fun privtypes__privileget__LE (Int Int) Bool)
-(declare-fun privtypes__privileget__LT (Int Int) Bool)
-(assert (forall ((?i Int)) (=> (and (<= 0 ?i) (< ?i 4)) (= (privtypes__privileget__pos ?i) ?i))))
-(assert (forall ((?i Int)) (=> (and (<= 0 ?i) (< ?i 4)) (= (privtypes__privileget__val ?i) ?i))))
-(assert (forall ((?i Int)) (=> (and (<= 0 ?i) (< ?i 3)) (= (privtypes__privileget__succ ?i) (+ ?i 1)))))
-(assert (forall ((?i Int)) (=> (and (<= 1 ?i) (< ?i 4)) (= (privtypes__privileget__pred ?i) (- ?i 1)))))
-(assert (= privtypes__useronly 0))
-(assert (= privtypes__guard 1))
-(assert (= privtypes__auditmanager 2))
-(assert (= privtypes__securityofficer 3))
-(assert (forall ((?i Int)) (=> (and (<= 0 ?i) (< ?i 5)) (= (opandnullt__pos ?i) ?i))))
-(assert (forall ((?i Int)) (=> (and (<= 0 ?i) (< ?i 5)) (= (opandnullt__val ?i) ?i))))
-(assert (forall ((?i Int)) (=> (and (<= 0 ?i) (< ?i 4)) (= (opandnullt__succ ?i) (+ ?i 1)))))
-(assert (forall ((?i Int)) (=> (and (<= 1 ?i) (< ?i 5)) (= (opandnullt__pred ?i) (- ?i 1)))))
-(assert (= nullop 0))
-(assert (= archivelog 1))
-(assert (= updateconfigdata 2))
-(assert (= overridelock 3))
-(assert (= shutdownop 4))
-(assert (forall ((?I Int)) (=> (and (<= archivelog ?I) (<= ?I shutdownop)) (<= datalengtht__first (a.select (a.select optokeyed ?I) field.datat.length)))))
-(assert (forall ((?I Int)) (=> (and (<= archivelog ?I) (<= ?I shutdownop)) (<= (a.select (a.select optokeyed ?I) field.datat.length) datalengtht__last))))
-(assert (forall ((?I Int)) (=> (and (<= archivelog ?I) (<= ?I shutdownop)) (<= datai__first (a.select (a.select optokeyed ?I) field.datat.minmatchlength)))))
-(assert (forall ((?I Int)) (=> (and (<= archivelog ?I) (<= ?I shutdownop)) (<= (a.select (a.select optokeyed ?I) field.datat.minmatchlength) datai__last))))
-(assert (forall ((?I Int) (?J Int)) (=> (and (<= archivelog ?I) (<= ?I shutdownop) (<= 1 ?J) (<= ?J 18)) (<= character__first (a.select (a.select (a.select optokeyed ?I) field.datat.text) ?J)))))
-(assert (forall ((?I Int) (?J Int)) (=> (and (<= archivelog ?I) (<= ?I shutdownop) (<= 1 ?J) (<= ?J 18)) (<= (a.select (a.select (a.select optokeyed ?I) field.datat.text) ?J) character__last))))
-(assert (<= 0 integer__size))
-(assert (= integer__first (- 2147483648)))
-(assert (= integer__last 2147483647))
-(assert (= integer__base__first (- 2147483648)))
-(assert (= integer__base__last 2147483647))
-(assert (<= 0 character__size))
-(assert (= character__first 0))
-(assert (= character__last 255))
-(assert (= character__base__first 0))
-(assert (= character__base__last 255))
-(assert (<= 0 positive__size))
-(assert (= positive__first 1))
-(assert (= positive__last 2147483647))
-(assert (= positive__base__first (- 2147483648)))
-(assert (= positive__base__last 2147483647))
-(assert (<= 0 privtypes__privileget__size))
-(assert (= privtypes__privileget__first privtypes__useronly))
-(assert (= privtypes__privileget__last privtypes__securityofficer))
-(assert (= privtypes__privileget__base__first privtypes__useronly))
-(assert (= privtypes__privileget__base__last privtypes__securityofficer))
-(assert (<= 0 privtypes__adminprivileget__size))
-(assert (= privtypes__adminprivileget__first privtypes__guard))
-(assert (= privtypes__adminprivileget__last privtypes__securityofficer))
-(assert (= privtypes__adminprivileget__base__first privtypes__useronly))
-(assert (= privtypes__adminprivileget__base__last privtypes__securityofficer))
-(assert (<= 0 keyboard__datalengtht__size))
-(assert (= keyboard__datalengtht__first 0))
-(assert (= keyboard__datalengtht__last 78))
-(assert (= keyboard__datalengtht__base__first (- 2147483648)))
-(assert (= keyboard__datalengtht__base__last 2147483647))
-(assert (<= 0 keyboard__datai__size))
-(assert (= keyboard__datai__first 1))
-(assert (= keyboard__datai__last 78))
-(assert (= keyboard__datai__base__first (- 2147483648)))
-(assert (= keyboard__datai__base__last 2147483647))
-(assert (<= 0 opandnullt__size))
-(assert (= opandnullt__first nullop))
-(assert (= opandnullt__last shutdownop))
-(assert (= opandnullt__base__first nullop))
-(assert (= opandnullt__base__last shutdownop))
-(assert (<= 0 opt__size))
-(assert (= opt__first archivelog))
-(assert (= opt__last shutdownop))
-(assert (= opt__base__first nullop))
-(assert (= opt__base__last shutdownop))
-(assert (<= 0 datalengtht__size))
-(assert (= datalengtht__first 0))
-(assert (= datalengtht__last 18))
-(assert (= datalengtht__base__first (- 2147483648)))
-(assert (= datalengtht__base__last 2147483647))
-(assert (<= 0 datai__size))
-(assert (= datai__first 1))
-(assert (= datai__last 18))
-(assert (= datai__base__first (- 2147483648)))
-(assert (= datai__base__last 2147483647))
-(assert (forall ((?X Int) (?Y Int)) (=> (< 0 ?Y) (<= 0 (i.mod ?X ?Y)))))
-(assert (forall ((?X Int) (?Y Int)) (=> (< 0 ?Y) (< (i.mod ?X ?Y) ?Y))))
-(assert (forall ((?X Int) (?Y Int)) (=> (and (<= 0 ?X) (< 0 ?Y)) (<= (i.mult ?Y (i.div ?X ?Y)) ?X))))
-(assert (forall ((?X Int) (?Y Int)) (=> (and (<= 0 ?X) (< 0 ?Y)) (< (- ?X ?Y) (i.mult ?Y (i.div ?X ?Y))))))
-(assert (forall ((?X Int) (?Y Int)) (=> (and (<= ?X 0) (< 0 ?Y)) (<= ?X (i.mult ?Y (i.div ?X ?Y))))))
-(assert (forall ((?X Int) (?Y Int)) (=> (and (<= ?X 0) (< 0 ?Y)) (< (i.mult ?Y (i.div ?X ?Y)) (+ ?X ?Y)))))
-(assert (forall ((?X Int) (?Y Int)) (=> (and (<= 0 ?X) (<= 0 ?Y)) (<= 0 (bit__or ?X ?Y)))))
-(assert (forall ((?X Int) (?Y Int)) (=> (and (<= 0 ?X) (<= 0 ?Y)) (<= ?X (bit__or ?X ?Y)))))
-(assert (forall ((?X Int) (?Y Int)) (=> (and (<= 0 ?X) (<= 0 ?Y)) (<= ?Y (bit__or ?X ?Y)))))
-(assert (forall ((?X Int) (?Y Int)) (=> (and (<= 0 ?X) (<= 0 ?Y)) (<= (bit__or ?X ?Y) (+ ?X ?Y)))))
-(assert (distinct field.datat.length field.datat.minmatchlength field.datat.text))
-(assert (distinct field.keyboard__datat.length field.keyboard__datat.text))
-(assert (distinct field.t.rolepresent field.t.currentop))
-(assert (distinct tm.true tm.false))
-(assert (forall ((?x Int)) (! (= (= (tm.not ?x) tm.true) (not (= ?x tm.true))) :pattern ((tm.not ?x)) )))
-(assert (forall ((?x Int) (?y Int)) (! (= (= (tm.and ?x ?y) tm.true) (and (= ?x tm.true) (= ?y tm.true))) :pattern ((tm.and ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (= (= (tm.or ?x ?y) tm.true) (or (= ?x tm.true) (= ?y tm.true))) :pattern ((tm.or ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (= (= (tm.iff ?x ?y) tm.true) (= (= ?x tm.true) (= ?y tm.true))) :pattern ((tm.iff ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (= (= (tm.eq ?x ?y) tm.true) (= ?x ?y)) :pattern ((tm.eq ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (= (= (tm.ne ?x ?y) tm.true) (not (= ?x ?y))) :pattern ((tm.ne ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (= (= (tm.lt ?x ?y) tm.true) (< ?x ?y)) :pattern ((tm.lt ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (= (= (tm.le ?x ?y) tm.true) (<= ?x ?y)) :pattern ((tm.le ?x ?y)) )))
-(assert (forall ((?a Int) (?i Int) (?v Int)) (! (= (a.select (a.store ?a ?i ?v) ?i) ?v) :pattern ((a.select (a.store ?a ?i ?v) ?i)) )))
-(assert (forall ((?a Int) (?i Int) (?v Int) (?j Int)) (! (or (= ?i ?j) (= (a.select (a.store ?a ?i ?v) ?j) (a.select ?a ?j))) :pattern ((a.select (a.store ?a ?i ?v) ?j)) )))
-(assert (forall ((?i Int) (?v Int)) (! (= (a.select (a.mk_const_array ?v) ?i) ?v) :pattern ((a.select (a.mk_const_array ?v) ?i)) )))
-(assert (<= opt__first loop__1__op))
-(assert (<= loop__1__op opt__last))
-(assert (<= datai__first loop__2__i))
-(assert (<= loop__2__i datai__last))
-(assert (<= loop__2__i (a.select keyedop field.keyboard__datat.length)))
-(assert (<= datai__first (a.select keyedop field.keyboard__datat.length)))
-(assert (<= (a.select keyedop field.keyboard__datat.length) datai__last))
-(assert (= keyedop keyedop__entry__loop__2))
-(assert (<= privtypes__adminprivileget__first (a.select theadmin field.t.rolepresent)))
-(assert (<= (a.select theadmin field.t.rolepresent) privtypes__adminprivileget__last))
-(assert (= theop nullop))
-(assert (<= opandnullt__first (a.select theadmin field.t.currentop)))
-(assert (<= (a.select theadmin field.t.currentop) opandnullt__last))
-(assert (<= privtypes__privileget__first (a.select theadmin field.t.rolepresent)))
-(assert (<= (a.select theadmin field.t.rolepresent) privtypes__privileget__last))
-(assert (forall ((?i___1 Int)) (let ((?v_0 (a.select (a.select keyedop field.keyboard__datat.text) ?i___1))) (=> (and (<= keyboard__datai__first ?i___1) (<= ?i___1 keyboard__datai__last)) (and (<= character__first ?v_0) (<= ?v_0 character__last))))))
-(assert (<= keyboard__datalengtht__first (a.select keyedop field.keyboard__datat.length)))
-(assert (<= (a.select keyedop field.keyboard__datat.length) keyboard__datalengtht__last))
-(assert (ispresent theadmin))
-(assert (<= datai__first loop__2__i))
-(assert (<= loop__2__i datai__last))
-(assert (<= loop__2__i (a.select keyedop__entry__loop__2 field.keyboard__datat.length)))
-(assert (<= opt__first loop__1__op))
-(assert (<= loop__1__op opt__last))
-(assert (<= loop__1__op opt__last))
-(assert (<= keyboard__datai__first loop__2__i))
-(assert (<= loop__2__i keyboard__datai__last))
-(assert (<= datai__first loop__2__i))
-(assert (<= loop__2__i datai__last))
-(assert (<= opt__first loop__1__op))
-(assert (<= loop__1__op opt__last))
-(assert (not (not (= (a.select (a.select (a.select optokeyed loop__1__op) field.datat.text) loop__2__i) (a.select (a.select keyedop field.keyboard__datat.text) loop__2__i)))))
-(assert (not (= loop__2__i (a.select keyedop__entry__loop__2 field.keyboard__datat.length))))
-(assert (let ((?v_6 (<= opt__first loop__1__op)) (?v_7 (<= loop__1__op opt__last)) (?v_1 (a.select keyedop field.keyboard__datat.length)) (?v_2 (a.select theadmin field.t.rolepresent)) (?v_3 (a.select theadmin field.t.currentop)) (?v_0 (+ loop__2__i 1))) (let ((?v_4 (<= datai__first ?v_0)) (?v_5 (<= ?v_0 datai__last))) (not (and ?v_6 ?v_7 ?v_4 ?v_5 (<= ?v_0 ?v_1) (<= datai__first ?v_1) (<= ?v_1 datai__last) (= keyedop keyedop__entry__loop__2) (<= privtypes__adminprivileget__first ?v_2) (<= ?v_2 privtypes__adminprivileget__last) (= theop nullop) (<= opandnullt__first ?v_3) (<= ?v_3 opandnullt__last) (<= privtypes__privileget__first ?v_2) (<= ?v_2 privtypes__privileget__last) (forall ((?i___1 Int)) (let ((?v_8 (a.select (a.select keyedop field.keyboard__datat.text) ?i___1))) (=> (and (<= keyboard__datai__first ?i___1) (<= ?i___1 keyboard__datai__last)) (and (<= character__first ?v_8) (<= ?v_8 character__last))))) (<= keyboard__datalengtht__first ?v_1) (<= ?v_1 keyboard__datalengtht__last) (ispresent theadmin) ?v_4 ?v_5 (<= ?v_0 (a.select keyedop__entry__loop__2 field.keyboard__datat.length)) ?v_6 ?v_7 ?v_7)))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/quantifiers/parametric-lists.smt2 b/test/regress/regress0/quantifiers/parametric-lists.smt2
deleted file mode 100644
index c45152d6f..000000000
--- a/test/regress/regress0/quantifiers/parametric-lists.smt2
+++ /dev/null
@@ -1,44 +0,0 @@
-; COMMAND-LINE: --lang=smt2.5
-; EXPECT: unsat
-(set-logic ALL_SUPPORTED)
-(set-info :status unsat)
-(declare-datatypes (T) ((List (cons (head T) (tail (List T))) (nil))))
-(declare-datatypes () ((KV (kv (key Int) (value Int)) (nilKV)))) ; key value pair
-(declare-fun mapper ((List Int)) (List KV))
-(assert
-  (forall
-    ((input (List Int)))
-     (ite
-        (= input (as nil (List Int)))
-        (= (as nil (List KV)) (mapper input))
-        (= (cons (kv 0 (head input)) (mapper (tail input))) (mapper input))
-     )
-  )                                                                                                                            
-)
-(declare-fun reduce ((List KV)) Int)
-(assert
-  (forall
-    ((inputk (List KV)))
-    (ite
-      (= inputk (as nil (List KV)))
-      (= 0 (reduce inputk))
-      (= (+ (value (head inputk)) (reduce (tail inputk))) (reduce inputk))
-    )
-  )
-)
-(declare-fun sum ((List Int)) Int)
-(assert
-  (forall
-    ((input (List Int)))
-    (ite
-      (= input (as nil (List Int)))
-      (= 0 (sum input))
-      (= (+ (head input) (sum (tail input))) (sum input))
-    )
-  )
-)
-(assert
-  (not (= (sum (cons 0 (as nil (List Int)))) (reduce (mapper (cons 0 (as nil (List Int)))))))
-)
-(check-sat)
-
diff --git a/test/regress/regress0/quantifiers/psyco-001-bv.smt2 b/test/regress/regress0/quantifiers/psyco-001-bv.smt2
deleted file mode 100644
index e3428de17..000000000
--- a/test/regress/regress0/quantifiers/psyco-001-bv.smt2
+++ /dev/null
@@ -1,76 +0,0 @@
-(set-logic BV)
-(set-info :status sat)
-(declare-fun W_S1_V1 () Bool)
-(declare-fun W_S1_V2 () Bool)
-(declare-fun W_S1_V4 () Bool)
-(declare-fun R_S1_V1 () Bool)
-(declare-fun R_E1_V1 () Bool)
-(declare-fun R_E1_V3 () Bool)
-(declare-fun R_E1_V2 () Bool)
-(declare-fun R_E1_V4 () Bool)
-(declare-fun DISJ_W_S1_R_E1 () Bool)
-(declare-fun R_S1_V3 () Bool)
-(declare-fun R_S1_V2 () Bool)
-(declare-fun R_S1_V4 () Bool)
-(declare-fun DISJ_W_S1_R_S1 () Bool)
-(declare-fun W_S1_V3 () Bool)
-(assert
- (let
- (($x324
-   (forall
-    ((V4_0 (_ BitVec 32)) (V2_0 (_ BitVec 32)) 
-     (V3_0 (_ BitVec 32)) (V1_0 (_ BitVec 32)) 
-     (MW_S1_V4 Bool) (MW_S1_V2 Bool) 
-     (MW_S1_V3 Bool) (MW_S1_V1 Bool) 
-     (S1_V3_!14 (_ BitVec 32)) (S1_V3_!20 (_ BitVec 32)) 
-     (E1_!11 (_ BitVec 32)) (E1_!16 (_ BitVec 32)) 
-     (E1_!17 (_ BitVec 32)) (S1_V1_!15 (_ BitVec 32)) 
-     (S1_V1_!21 (_ BitVec 32)) (S1_V2_!13 (_ BitVec 32)) 
-     (S1_V2_!19 (_ BitVec 32)) (S1_V4_!12 (_ BitVec 32)) 
-     (S1_V4_!18 (_ BitVec 32)))
-    (let
-    (($x267
-      (and (= (ite MW_S1_V4 S1_V4_!12 V4_0) (ite MW_S1_V4 S1_V4_!18 V4_0))
-      (= E1_!16 (ite MW_S1_V1 S1_V1_!21 E1_!17))
-      (= (ite MW_S1_V3 S1_V3_!14 V3_0) (ite MW_S1_V3 S1_V3_!20 V3_0))
-      (= (ite MW_S1_V1 S1_V1_!15 E1_!11) (ite MW_S1_V1 S1_V1_!21 E1_!17)))))
-    (let
-    (($x297
-      (and (or (not R_E1_V4) (= (ite MW_S1_V4 S1_V4_!12 V4_0) V4_0))
-      (or (not R_E1_V2) (= (ite MW_S1_V2 S1_V2_!13 V2_0) V2_0))
-      (or (not R_E1_V3) (= (ite MW_S1_V3 S1_V3_!14 V3_0) V3_0))
-      (or (not R_E1_V1) (= (ite MW_S1_V1 S1_V1_!15 E1_!11) V1_0)))))
-    (let
-    (($x310
-      (and (or (not R_E1_V4) (= V4_0 (ite MW_S1_V4 S1_V4_!12 V4_0)))
-      (or (not R_E1_V2) (= V2_0 (ite MW_S1_V2 S1_V2_!13 V2_0)))
-      (or (not R_E1_V3) (= V3_0 (ite MW_S1_V3 S1_V3_!14 V3_0)))
-      (or (not R_E1_V1) (= V1_0 (ite MW_S1_V1 S1_V1_!15 E1_!11))))))
-    (let
-    (($x321
-      (and
-      (or (not (or (not R_S1_V1) (= E1_!17 E1_!11))) (= S1_V3_!20 S1_V3_!14))
-      (or (not $x310) (= E1_!11 E1_!16)) 
-      (= E1_!11 E1_!17) (or (not $x297) (= E1_!16 E1_!17))
-      (or (not (or (not R_S1_V1) (= E1_!17 E1_!11))) (= S1_V1_!21 S1_V1_!15))
-      (or (not (or (not R_S1_V1) (= E1_!17 E1_!11))) (= S1_V2_!19 S1_V2_!13))
-      (or (not (or (not R_S1_V1) (= E1_!17 E1_!11))) (= S1_V4_!18 S1_V4_!12))
-      (or (not MW_S1_V4) W_S1_V4) 
-      (or (not MW_S1_V2) W_S1_V2) 
-      (or (not MW_S1_V1) W_S1_V1)))) 
-    (or (not $x321) $x267))))))))
- (let
- (($x40
-   (or (and W_S1_V4 R_E1_V4) 
-   (and W_S1_V2 R_E1_V2) R_E1_V3 
-   (and W_S1_V1 R_E1_V1))))
- (let (($x42 (= DISJ_W_S1_R_E1 (not $x40))))
- (let
- (($x37
-   (or (and W_S1_V4 R_S1_V4) 
-   (and W_S1_V2 R_S1_V2) R_S1_V3 
-   (and W_S1_V1 R_S1_V1))))
- (let (($x39 (= DISJ_W_S1_R_S1 (not $x37)))) (and W_S1_V3 $x39 $x42 $x324)))))))
-(check-sat)
-(exit)
-
diff --git a/test/regress/regress0/quantifiers/psyco-107-bv.smt2 b/test/regress/regress0/quantifiers/psyco-107-bv.smt2
deleted file mode 100644
index 82b54a231..000000000
--- a/test/regress/regress0/quantifiers/psyco-107-bv.smt2
+++ /dev/null
@@ -1,162 +0,0 @@
-; COMMAND-LINE: --cbqi-bv --cbqi-bv-ineq=eq-boundary
-; EXPECT: unsat
-(set-logic BV)
-(set-info :status unsat)
-(declare-fun W_S1_V6 () Bool)
-(declare-fun W_S1_V4 () Bool)
-(declare-fun W_S1_V2 () Bool)
-(declare-fun W_S1_V3 () Bool)
-(declare-fun W_S1_V1 () Bool)
-(declare-fun R_E2_V1 () Bool)
-(declare-fun R_E2_V3 () Bool)
-(declare-fun R_E1_V3 () Bool)
-(declare-fun R_E1_V1 () Bool)
-(declare-fun R_E1_V6 () Bool)
-(declare-fun R_E1_V4 () Bool)
-(declare-fun R_E1_V5 () Bool)
-(declare-fun R_E1_V2 () Bool)
-(declare-fun DISJ_W_S1_R_E1 () Bool)
-(declare-fun R_S1_V6 () Bool)
-(declare-fun R_S1_V4 () Bool)
-(declare-fun R_S1_V5 () Bool)
-(declare-fun R_S1_V2 () Bool)
-(declare-fun R_S1_V3 () Bool)
-(declare-fun R_S1_V1 () Bool)
-(declare-fun DISJ_W_S1_R_S1 () Bool)
-(declare-fun R_E2_V6 () Bool)
-(declare-fun R_E2_V4 () Bool)
-(declare-fun R_E2_V5 () Bool)
-(declare-fun R_E2_V2 () Bool)
-(declare-fun DISJ_W_S1_R_E2 () Bool)
-(declare-fun W_S1_V5 () Bool)
-(assert
- (let
- (($x59848
-   (forall
-    ((V1_0 (_ BitVec 32)) (V3_0 (_ BitVec 32)) 
-     (V2_0 (_ BitVec 32)) (V5_0 (_ BitVec 32)) 
-     (V4_0 (_ BitVec 32)) (V6_0 (_ BitVec 32)) 
-     (MW_S1_V1 Bool) (MW_S1_V3 Bool) 
-     (MW_S1_V2 Bool) (MW_S1_V5 Bool) 
-     (MW_S1_V4 Bool) (MW_S1_V6 Bool) 
-     (S1_V1_!5000 (_ BitVec 32)) (S1_V3_!5001 (_ BitVec 32)) 
-     (S1_V2_!5002 (_ BitVec 32)) (E1_!4994 (_ BitVec 32)) 
-     (E1_!4997 (_ BitVec 32)) (E1_!4999 (_ BitVec 32)) 
-     (S1_V5_!5003 (_ BitVec 32)) (E2_!4995 (_ BitVec 32)) 
-     (E2_!4996 (_ BitVec 32)) (E2_!4998 (_ BitVec 32)) 
-     (S1_V4_!5004 (_ BitVec 32)) (S1_V6_!5005 (_ BitVec 32)))
-    (let ((?x62719 (ite MW_S1_V6 S1_V6_!5005 V6_0)))
-    (let (($x60064 (= V6_0 ?x62719)))
-    (let ((?x61425 (ite MW_S1_V4 S1_V4_!5004 V4_0)))
-    (let (($x59873 (= V4_0 ?x61425)))
-    (let ((?x59861 (ite MW_S1_V5 S1_V5_!5003 V5_0)))
-    (let (($x62312 (= V5_0 ?x59861)))
-    (let ((?x60966 (ite MW_S1_V2 S1_V2_!5002 V2_0)))
-    (let (($x61331 (= V2_0 ?x60966)))
-    (let ((?x62280 (ite MW_S1_V3 S1_V3_!5001 E2_!4998)))
-    (let ((?x60903 (bvadd (_ bv1 32) ?x62280)))
-    (let (($x61268 (= E2_!4996 ?x60903)))
-    (let ((?x60065 (ite MW_S1_V1 S1_V1_!5000 E1_!4999)))
-    (let (($x60169 (= E1_!4994 ?x60065)))
-    (let (($x62661 (and $x60169 $x61268 $x61331 $x62312 $x59873 $x60064)))
-    (let ((?x62301 (bvadd (bvneg (_ bv1 32)) ?x61425)))
-    (let (($x61124 (bvsge ?x62280 ?x62301)))
-    (let ((?x61096 (bvadd (bvneg (_ bv1 32)) ?x60966)))
-    (let (($x60960 (bvsge ?x60065 ?x61096)))
-    (let (($x62453 (bvsle V2_0 E1_!4999)))
-    (let (($x61140 (not $x62453)))
-    (let (($x60239 (bvsle V4_0 E2_!4998)))
-    (let (($x61367 (not $x60239)))
-    (let (($x59857 (bvsle V2_0 E1_!4997)))
-    (let (($x62570 (not $x59857)))
-    (let ((?x62418 (bvadd (bvneg (_ bv1 32)) V2_0)))
-    (let (($x60189 (bvsge E1_!4994 ?x62418)))
-    (let (($x62421 (bvsge E2_!4996 V4_0)))
-    (let (($x60898 (bvsle V2_0 E1_!4994)))
-    (let (($x59938 (not $x60898)))
-    (let (($x62400 (bvsle V4_0 E2_!4995)))
-    (let (($x60971 (not $x62400)))
-    (let
-    (($x62394
-      (and $x60971 $x59938 $x62421 $x60189 $x62570 $x61367 $x61140 $x60960
-      $x61124)))
-    (let (($x62485 (not $x62394)))
-    (let (($x60905 (not MW_S1_V6)))
-    (let (($x61285 (or $x60905 W_S1_V6)))
-    (let (($x61317 (not MW_S1_V4)))
-    (let (($x60137 (or $x61317 W_S1_V4)))
-    (let (($x62306 (not MW_S1_V2)))
-    (let (($x62708 (or $x62306 W_S1_V2)))
-    (let (($x62310 (not MW_S1_V3)))
-    (let (($x60291 (or $x62310 W_S1_V3)))
-    (let (($x62641 (not MW_S1_V1)))
-    (let (($x61174 (or $x62641 W_S1_V1)))
-    (let (($x62627 (= E2_!4998 E2_!4995)))
-    (let (($x60904 (= E1_!4997 E1_!4994)))
-    (let (($x128 (not R_E2_V1)))
-    (let (($x60161 (or $x128 $x60904)))
-    (let (($x62415 (not $x60161)))
-    (let (($x62645 (or $x62415 $x62627)))
-    (let (($x60924 (= E2_!4996 E2_!4998)))
-    (let (($x62711 (= E2_!4995 V3_0)))
-    (let (($x130 (not R_E2_V3)))
-    (let (($x62623 (or $x130 $x62711)))
-    (let (($x60954 (= E1_!4994 E1_!4997)))
-    (let (($x59868 (or $x128 $x60954)))
-    (let (($x62319 (and $x59868 $x62623)))
-    (let (($x62554 (not $x62319)))
-    (let (($x60985 (or $x62554 $x60924)))
-    (let (($x62256 (= E2_!4996 E2_!4995)))
-    (let (($x62540 (not $x62623)))
-    (let (($x60968 (or $x62540 $x62256)))
-    (let (($x62486 (= E1_!4999 E1_!4997)))
-    (let (($x60109 (= E2_!4998 V3_0)))
-    (let (($x115 (not R_E1_V3)))
-    (let (($x60129 (or $x115 $x60109)))
-    (let (($x60976 (= E1_!4997 V1_0)))
-    (let (($x113 (not R_E1_V1)))
-    (let (($x62568 (or $x113 $x60976)))
-    (let (($x60942 (and $x62568 $x60129)))
-    (let (($x60209 (not $x60942)))
-    (let (($x62263 (or $x60209 $x62486)))
-    (let (($x60965 (= E1_!4999 E1_!4994)))
-    (let (($x62348 (or $x60209 $x60965)))
-    (let
-    (($x60285
-      (and $x60954 $x62348 $x62263 $x60968 $x60985 $x62645 $x61174 $x60291
-      $x62708 $x60137 $x61285)))
-    (let (($x62430 (not $x60285))) (or $x62430 $x62485 $x62661)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))
- (let (($x56 (and W_S1_V6 R_E1_V6)))
- (let (($x54 (and W_S1_V4 R_E1_V4)))
- (let (($x50 (and W_S1_V2 R_E1_V2)))
- (let (($x48 (and W_S1_V3 R_E1_V3)))
- (let (($x46 (and W_S1_V1 R_E1_V1)))
- (let (($x69 (or $x46 $x48 $x50 R_E1_V5 $x54 $x56)))
- (let (($x70 (not $x69)))
- (let (($x71 (= DISJ_W_S1_R_E1 $x70)))
- (let (($x40 (and W_S1_V6 R_S1_V6)))
- (let (($x38 (and W_S1_V4 R_S1_V4)))
- (let (($x34 (and W_S1_V2 R_S1_V2)))
- (let (($x32 (and W_S1_V3 R_S1_V3)))
- (let (($x30 (and W_S1_V1 R_S1_V1)))
- (let (($x66 (or $x30 $x32 $x34 R_S1_V5 $x38 $x40)))
- (let (($x67 (not $x66)))
- (let (($x68 (= DISJ_W_S1_R_S1 $x67)))
- (let (($x24 (and W_S1_V6 R_E2_V6)))
- (let (($x21 (and W_S1_V4 R_E2_V4)))
- (let (($x16 (and W_S1_V2 R_E2_V2)))
- (let (($x13 (and W_S1_V3 R_E2_V3)))
- (let (($x10 (and W_S1_V1 R_E2_V1)))
- (let (($x63 (or $x10 $x13 $x16 R_E2_V5 $x21 $x24)))
- (let (($x64 (not $x63)))
- (let (($x65 (= DISJ_W_S1_R_E2 $x64)))
- (let (($x130 (not R_E2_V3)))
- (let (($x115 (not R_E1_V3)))
- (let (($x113 (not R_E1_V1)))
- (let (($x60916 (and $x113 $x115)))
- (let (($x62291 (or $x60916 $x130)))
- (and $x62291 W_S1_V5 $x65 $x68 $x71 $x59848))))))))))))))))))))))))))))))))
-(assert R_E2_V3)
-(check-sat)
-(exit)
-
diff --git a/test/regress/regress0/quantifiers/psyco-196.smt2 b/test/regress/regress0/quantifiers/psyco-196.smt2
deleted file mode 100644
index fef1a24c6..000000000
--- a/test/regress/regress0/quantifiers/psyco-196.smt2
+++ /dev/null
@@ -1,422 +0,0 @@
-; COMMAND-LINE: --no-check-models
-; EXPECT: sat
-(set-logic LIA)
-(set-info :status sat)
-(declare-fun W_S1_V5 () Bool)
-(declare-fun W_S1_V4 () Bool)
-(declare-fun W_S1_V6 () Bool)
-(declare-fun W_S1_V1 () Bool)
-(declare-fun W_S1_V3 () Bool)
-(declare-fun W_S1_V2 () Bool)
-(declare-fun R_S1_V5 () Bool)
-(declare-fun R_S1_V4 () Bool)
-(declare-fun R_S1_V6 () Bool)
-(declare-fun R_S1_V1 () Bool)
-(declare-fun R_S1_V3 () Bool)
-(declare-fun R_S1_V2 () Bool)
-(declare-fun R_E2_V1 () Bool)
-(declare-fun R_E1_V1 () Bool)
-(declare-fun R_E1_V3 () Bool)
-(declare-fun R_E2_V3 () Bool)
-(assert
- (let
- (($x62242
-   (forall
-    ((V2_0 Int) (V6_0 Int) 
-     (V4_0 Int) (V5_0 Int) 
-     (S1_V3_!5556 Int) (S1_V3_!5562 Int) 
-     (S1_V3_!5571 Int) (S1_V3_!5577 Int) 
-     (E1_!5552 Int) (E1_!5567 Int) 
-     (E1_!5569 Int) (S1_V2_!5555 Int) 
-     (S1_V2_!5561 Int) (S1_V2_!5570 Int) 
-     (S1_V2_!5576 Int) (S1_V5_!5560 Int) 
-     (S1_V5_!5566 Int) (S1_V5_!5575 Int) 
-     (S1_V5_!5581 Int) (S1_V4_!5559 Int) 
-     (S1_V4_!5565 Int) (S1_V4_!5574 Int) 
-     (S1_V4_!5580 Int) (S1_V6_!5558 Int) 
-     (S1_V6_!5564 Int) (S1_V6_!5573 Int) 
-     (S1_V6_!5579 Int) (E2_!5553 Int) 
-     (E2_!5554 Int) (E2_!5568 Int) 
-     (S1_V1_!5557 Int) (S1_V1_!5563 Int) 
-     (S1_V1_!5572 Int) (S1_V1_!5578 Int))
-    (let (($x59864 (= S1_V5_!5566 S1_V5_!5581)))
-    (let (($x59925 (not W_S1_V5)))
-    (let (($x62779 (or $x59925 $x59864)))
-    (let (($x62200 (= S1_V4_!5565 S1_V4_!5580)))
-    (let (($x59923 (not W_S1_V4)))
-    (let (($x62447 (or $x59923 $x62200)))
-    (let (($x62602 (= S1_V6_!5564 S1_V6_!5579)))
-    (let (($x62610 (not W_S1_V6)))
-    (let (($x62230 (or $x62610 $x62602)))
-    (let (($x61214 (= S1_V1_!5563 S1_V1_!5578)))
-    (let (($x60986 (= S1_V3_!5562 S1_V3_!5577)))
-    (let (($x62444 (= S1_V2_!5561 S1_V2_!5576)))
-    (let (($x62507 (not W_S1_V2)))
-    (let (($x62441 (or $x62507 $x62444)))
-    (let
-    (($x62532
-      (and $x62441
-      (ite W_S1_V3 $x60986
-      (= (ite W_S1_V3 S1_V3_!5556 E2_!5554) (+ (- 1) E2_!5568)))
-      (ite W_S1_V1 $x61214
-      (= E1_!5552 (+ 1 (ite W_S1_V1 S1_V1_!5572 E1_!5569)))) $x62230 $x62447
-      $x62779)))
-    (let ((?x62367 (ite W_S1_V1 S1_V1_!5572 E1_!5569)))
-    (let ((?x60865 (+ 1 ?x62367)))
-    (let ((?x62511 (ite W_S1_V1 S1_V1_!5578 ?x60865)))
-    (let ((?x60218 (ite W_S1_V3 S1_V3_!5556 E2_!5554)))
-    (let ((?x60222 (+ 1 ?x60218)))
-    (let ((?x62533 (ite W_S1_V3 S1_V3_!5562 ?x60222)))
-    (let
-    (($x62746
-      (and (not (<= V4_0 E2_!5553)) 
-      (not (<= V2_0 E1_!5552)) 
-      (not (<= V4_0 E2_!5554))
-      (not (<= (ite W_S1_V4 S1_V4_!5559 V4_0) ?x60222))
-      (>= ?x62533 (+ (- 1) (ite W_S1_V4 S1_V4_!5565 V4_0)))
-      (>= (ite W_S1_V1 S1_V1_!5563 E1_!5552)
-      (+ (- 1) (ite W_S1_V2 S1_V2_!5561 V2_0))) 
-      (not (<= V2_0 E1_!5567)) 
-      (not (<= V4_0 E2_!5568)) 
-      (not (<= V2_0 E1_!5569))
-      (not (<= (ite W_S1_V2 S1_V2_!5570 V2_0) ?x60865))
-      (>= ?x62511 (+ (- 1) (ite W_S1_V2 S1_V2_!5576 V2_0)))
-      (>= (ite W_S1_V3 S1_V3_!5577 E2_!5568)
-      (+ (- 1) (ite W_S1_V4 S1_V4_!5580 V4_0))))))
-    (let (($x62780 (= S1_V1_!5578 S1_V1_!5572)))
-    (let (($x161 (not R_S1_V5)))
-    (let (($x62589 (or $x161 (= (ite W_S1_V5 S1_V5_!5575 V5_0) V5_0))))
-    (let (($x159 (not R_S1_V4)))
-    (let (($x62548 (or $x159 (= (ite W_S1_V4 S1_V4_!5574 V4_0) V4_0))))
-    (let (($x157 (not R_S1_V6)))
-    (let (($x62737 (or $x157 (= (ite W_S1_V6 S1_V6_!5573 V6_0) V6_0))))
-    (let (($x153 (not R_S1_V3)))
-    (let
-    (($x62224 (or $x153 (= (ite W_S1_V3 S1_V3_!5571 E2_!5568) E2_!5568))))
-    (let (($x151 (not R_S1_V2)))
-    (let (($x62641 (or $x151 (= (ite W_S1_V2 S1_V2_!5570 V2_0) V2_0))))
-    (let
-    (($x60228
-      (and $x62641 $x62224 
-      (or (not R_S1_V1) (= ?x62367 (+ (- 1) E1_!5569))) $x62737 $x62548
-      $x62589)))
-    (let (($x62356 (not $x60228)))
-    (let (($x62680 (= S1_V1_!5578 S1_V1_!5563)))
-    (let (($x62272 (or $x161 $x59925 (= S1_V5_!5575 S1_V5_!5560))))
-    (let (($x61083 (= S1_V4_!5574 S1_V4_!5559)))
-    (let (($x62455 (or $x159 $x59923 $x61083)))
-    (let (($x60917 (= S1_V6_!5573 S1_V6_!5558)))
-    (let (($x62584 (or $x157 $x62610 $x60917)))
-    (let (($x59905 (= S1_V2_!5570 S1_V2_!5555)))
-    (let (($x62549 (or $x151 $x62507 $x59905)))
-    (let
-    (($x62675
-      (and $x62549 (or $x153 (= (ite W_S1_V3 S1_V3_!5571 E2_!5568) ?x60222))
-      (or (not R_S1_V1)
-      (= ?x62367 (+ (- 1) (ite W_S1_V1 S1_V1_!5557 E1_!5552)))) $x62584
-      $x62455 $x62272)))
-    (let (($x59892 (= S1_V1_!5578 S1_V1_!5557)))
-    (let
-    (($x60942 (or $x153 (= (ite W_S1_V3 S1_V3_!5571 E2_!5568) E2_!5554))))
-    (let
-    (($x62564
-      (and $x62641 $x60942 
-      (or (not R_S1_V1) (= ?x62367 (+ (- 1) E1_!5552))) $x62737 $x62548
-      $x62589)))
-    (let (($x59819 (not $x62564)))
-    (let (($x60234 (= S1_V1_!5563 S1_V1_!5572)))
-    (let (($x61232 (or $x161 (= (ite W_S1_V5 S1_V5_!5560 V5_0) V5_0))))
-    (let (($x61254 (or $x159 (= (ite W_S1_V4 S1_V4_!5559 V4_0) V4_0))))
-    (let (($x59994 (or $x157 (= (ite W_S1_V6 S1_V6_!5558 V6_0) V6_0))))
-    (let (($x155 (not R_S1_V1)))
-    (let
-    (($x62420 (or $x155 (= (ite W_S1_V1 S1_V1_!5557 E1_!5552) E1_!5569))))
-    (let (($x62368 (or $x151 (= (ite W_S1_V2 S1_V2_!5555 V2_0) V2_0))))
-    (let
-    (($x62830
-      (not
-      (and $x62368 (or $x153 (= ?x60218 (+ (- 1) E2_!5568))) $x62420 $x59994
-      $x61254 $x61232))))
-    (let (($x62636 (= S1_V1_!5563 S1_V1_!5557)))
-    (let
-    (($x59733 (or $x155 (= (ite W_S1_V1 S1_V1_!5557 E1_!5552) E1_!5552))))
-    (let
-    (($x62306
-      (not
-      (and $x62368 (or $x153 (= ?x60218 (+ (- 1) E2_!5554))) $x59733 $x59994
-      $x61254 $x61232))))
-    (let (($x60134 (= S1_V1_!5557 S1_V1_!5572)))
-    (let
-    (($x59719
-      (not
-      (and (or $x153 (= E2_!5554 E2_!5568)) (or $x155 (= E1_!5552 E1_!5569))))))
-    (let (($x61406 (= E2_!5554 E2_!5568)))
-    (let (($x59878 (not (or (not R_E2_V1) (= E1_!5552 E1_!5567)))))
-    (let (($x59949 (or $x59878 $x61406)))
-    (let (($x62775 (or $x59878 (= E2_!5553 E2_!5568))))
-    (let (($x59743 (= E2_!5553 E2_!5554)))
-    (let (($x62428 (= S1_V6_!5573 S1_V6_!5579)))
-    (let (($x60152 (or $x161 (= V5_0 (ite W_S1_V5 S1_V5_!5575 V5_0)))))
-    (let (($x60212 (or $x159 (= V4_0 (ite W_S1_V4 S1_V4_!5574 V4_0)))))
-    (let (($x61260 (or $x157 (= V6_0 (ite W_S1_V6 S1_V6_!5573 V6_0)))))
-    (let
-    (($x60887 (or $x153 (= E2_!5568 (ite W_S1_V3 S1_V3_!5571 E2_!5568)))))
-    (let (($x62275 (or $x151 (= V2_0 (ite W_S1_V2 S1_V2_!5570 V2_0)))))
-    (let
-    (($x61258
-      (or
-      (not
-      (and $x62275 $x60887 
-      (or $x155 (= E1_!5569 ?x60865)) $x61260 $x60212 $x60152)) $x62428)))
-    (let
-    (($x61266
-      (not
-      (and (or $x153 (= E2_!5568 E2_!5554)) (or $x155 (= E1_!5569 E1_!5552))))))
-    (let (($x61122 (= S1_V5_!5560 S1_V5_!5575)))
-    (let (($x59790 (or $x161 $x59925 $x61122)))
-    (let (($x62797 (or $x159 $x59923 (= S1_V4_!5559 S1_V4_!5574))))
-    (let (($x62684 (or $x157 $x62610 (= S1_V6_!5558 S1_V6_!5573))))
-    (let (($x62354 (or $x151 $x62507 (= S1_V2_!5555 S1_V2_!5570))))
-    (let
-    (($x60910
-      (and $x62354
-      (or $x153 (= ?x60218 (+ (- 1) (ite W_S1_V3 S1_V3_!5571 E2_!5568))))
-      (or $x155 (= (ite W_S1_V1 S1_V1_!5557 E1_!5552) ?x60865)) $x62684
-      $x62797 $x59790)))
-    (let (($x59844 (not $x60910)))
-    (let (($x62494 (= S1_V5_!5560 S1_V5_!5581)))
-    (let
-    (($x62623 (or $x153 (= E2_!5554 (ite W_S1_V3 S1_V3_!5571 E2_!5568)))))
-    (let
-    (($x61100
-      (or
-      (not
-      (and $x62275 $x62623 
-      (or $x155 (= E1_!5552 ?x60865)) $x61260 $x60212 $x60152)) $x62494)))
-    (let (($x60862 (= S1_V5_!5560 S1_V5_!5566)))
-    (let (($x62353 (or $x161 (= V5_0 (ite W_S1_V5 S1_V5_!5560 V5_0)))))
-    (let (($x60875 (or $x159 (= V4_0 (ite W_S1_V4 S1_V4_!5559 V4_0)))))
-    (let (($x62491 (or $x157 (= V6_0 (ite W_S1_V6 S1_V6_!5558 V6_0)))))
-    (let
-    (($x62399 (or $x155 (= E1_!5552 (ite W_S1_V1 S1_V1_!5557 E1_!5552)))))
-    (let (($x62431 (or $x151 (= V2_0 (ite W_S1_V2 S1_V2_!5555 V2_0)))))
-    (let
-    (($x62297
-      (or
-      (not
-      (and $x62431 (or $x153 (= E2_!5554 ?x60222)) $x62399 $x62491 $x60875
-      $x62353)) $x60862)))
-    (let (($x60874 (= S1_V2_!5570 S1_V2_!5576)))
-    (let
-    (($x62369
-      (or
-      (not
-      (and $x62275 $x60887 
-      (or $x155 (= E1_!5569 ?x60865)) $x61260 $x60212 $x60152)) $x60874)))
-    (let (($x62594 (= S1_V2_!5555 S1_V2_!5576)))
-    (let
-    (($x59910
-      (or
-      (not
-      (and $x62275 $x62623 
-      (or $x155 (= E1_!5552 ?x60865)) $x61260 $x60212 $x60152)) $x62594)))
-    (let (($x62531 (= E1_!5569 E1_!5567)))
-    (let (($x59835 (= E1_!5552 E1_!5569)))
-    (let (($x62312 (= E1_!5552 E1_!5567)))
-    (let
-    (($x62715
-      (and (or $x59719 (= S1_V3_!5556 S1_V3_!5571))
-      (or $x62306 (= S1_V3_!5562 S1_V3_!5556))
-      (or $x62830 (= S1_V3_!5562 S1_V3_!5571))
-      (or $x59819 (= S1_V3_!5577 S1_V3_!5556))
-      (or (not $x62675) (= S1_V3_!5577 S1_V3_!5562))
-      (or $x62356 (= S1_V3_!5577 S1_V3_!5571)) $x62312 $x59835 $x62531
-      $x59910 (or $x62306 (= S1_V2_!5561 S1_V2_!5555))
-      (or $x62830 (= S1_V2_!5561 S1_V2_!5570)) 
-      (or $x59844 $x62444) 
-      (or $x61266 $x59905) $x62369 $x62297 
-      (or $x59719 $x61122) $x61100 
-      (or $x62830 (= S1_V5_!5566 S1_V5_!5575)) 
-      (or $x59844 $x59864) 
-      (or $x62356 (= S1_V5_!5581 S1_V5_!5575))
-      (or $x62306 (= S1_V4_!5565 S1_V4_!5559))
-      (or $x62830 (= S1_V4_!5565 S1_V4_!5574)) 
-      (or $x59844 $x62200) 
-      (or $x61266 $x61083) 
-      (or $x59819 (= S1_V4_!5580 S1_V4_!5559))
-      (or $x62356 (= S1_V4_!5580 S1_V4_!5574))
-      (or $x62306 (= S1_V6_!5564 S1_V6_!5558))
-      (or $x62830 (= S1_V6_!5564 S1_V6_!5573)) 
-      (or $x59844 $x62602) 
-      (or $x61266 $x60917) $x61258 
-      (or $x59819 (= S1_V6_!5579 S1_V6_!5558)) $x59743 $x62775 $x59949
-      (or $x59719 $x60134) 
-      (or $x62306 $x62636) 
-      (or $x62830 $x60234) 
-      (or $x59819 $x59892) 
-      (or (not $x62675) $x62680) 
-      (or $x62356 $x62780)))) 
-    (or (not $x62715) (not $x62746) $x62532)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))
- (let (($x13 (or W_S1_V2 W_S1_V3 W_S1_V1 W_S1_V6 W_S1_V4 W_S1_V5)))
- (let (($x65 (not R_E1_V1)))
- (let (($x63 (not R_E1_V3)))
- (let (($x84 (not R_E2_V3))) (and $x84 $x63 $x65 $x13 $x62242)))))))
-(assert (not (and (not W_S1_V4) (not W_S1_V3))))
-(assert (not (and (not W_S1_V1) (not W_S1_V2))))
-(assert (not (and (not R_S1_V3) (not R_S1_V1) (not W_S1_V4) (not W_S1_V2))))
-(assert
- (let (($x62714 (not W_S1_V3)))
- (let (($x161 (not R_S1_V5)))
- (let (($x159 (not R_S1_V4)))
- (let (($x157 (not R_S1_V6)))
- (let (($x155 (not R_S1_V1)))
- (let (($x151 (not R_S1_V2)))
- (not (and $x151 $x155 $x157 $x159 $x161 $x62714)))))))))
-(assert
- (let (($x62610 (not W_S1_V6)))
- (let (($x62507 (not W_S1_V2)))
- (let (($x59925 (not W_S1_V5)))
- (let (($x159 (not R_S1_V4)))
- (let (($x155 (not R_S1_V1)))
- (let (($x153 (not R_S1_V3)))
- (not (and $x153 $x155 $x159 $x59925 $x62507 $x62610)))))))))
-(assert
- (let (($x161 (not R_S1_V5)))
- (let (($x159 (not R_S1_V4)))
- (let (($x157 (not R_S1_V6)))
- (let (($x155 (not R_S1_V1)))
- (let (($x153 (not R_S1_V3)))
- (let (($x151 (not R_S1_V2)))
- (not (and $x151 $x153 $x155 $x157 $x159 $x161)))))))))
-(assert (not (and W_S1_V3 (not R_S1_V3) (not R_S1_V1) (not W_S1_V2))))
-(assert (not (and W_S1_V3 W_S1_V1 (not R_S1_V3) (not R_S1_V1))))
-(assert
- (let (($x62232 (not W_S1_V1)))
- (let (($x59925 (not W_S1_V5)))
- (let (($x159 (not R_S1_V4)))
- (let (($x157 (not R_S1_V6)))
- (let (($x153 (not R_S1_V3)))
- (let (($x151 (not R_S1_V2)))
- (not (and $x151 $x153 $x157 $x159 $x59925 $x62232)))))))))
-(assert
- (let (($x62610 (not W_S1_V6)))
- (let (($x62232 (not W_S1_V1)))
- (let (($x59925 (not W_S1_V5)))
- (let (($x159 (not R_S1_V4)))
- (let (($x153 (not R_S1_V3)))
- (let (($x151 (not R_S1_V2)))
- (not (and $x151 $x153 $x159 $x59925 $x62232 $x62610)))))))))
-(assert
- (let (($x62610 (not W_S1_V6)))
- (let (($x59923 (not W_S1_V4)))
- (let (($x161 (not R_S1_V5)))
- (let (($x155 (not R_S1_V1)))
- (let (($x153 (not R_S1_V3)))
- (let (($x151 (not R_S1_V2)))
- (not (and $x151 $x153 $x155 $x161 $x59923 $x62610)))))))))
-(assert
- (let (($x62610 (not W_S1_V6)))
- (let (($x62232 (not W_S1_V1)))
- (let (($x161 (not R_S1_V5)))
- (let (($x159 (not R_S1_V4)))
- (let (($x153 (not R_S1_V3)))
- (let (($x151 (not R_S1_V2)))
- (not (and $x151 $x153 $x159 $x161 $x62232 $x62610)))))))))
-(assert
- (let (($x62232 (not W_S1_V1)))
- (let (($x59925 (not W_S1_V5)))
- (let (($x59923 (not W_S1_V4)))
- (let (($x157 (not R_S1_V6)))
- (let (($x153 (not R_S1_V3)))
- (let (($x151 (not R_S1_V2)))
- (not (and $x151 $x153 $x157 $x59923 $x59925 $x62232)))))))))
-(assert
- (let (($x62610 (not W_S1_V6)))
- (let (($x59925 (not W_S1_V5)))
- (let (($x59923 (not W_S1_V4)))
- (let (($x155 (not R_S1_V1)))
- (let (($x153 (not R_S1_V3)))
- (let (($x151 (not R_S1_V2)))
- (not (and $x151 $x153 $x155 $x59923 $x59925 $x62610)))))))))
-(assert
- (let (($x59923 (not W_S1_V4)))
- (let (($x161 (not R_S1_V5)))
- (let (($x157 (not R_S1_V6)))
- (let (($x155 (not R_S1_V1)))
- (let (($x153 (not R_S1_V3)))
- (let (($x151 (not R_S1_V2)))
- (not (and $x151 $x153 $x155 $x157 $x161 $x59923)))))))))
-(assert
- (let (($x62232 (not W_S1_V1)))
- (let (($x59923 (not W_S1_V4)))
- (let (($x161 (not R_S1_V5)))
- (let (($x157 (not R_S1_V6)))
- (let (($x153 (not R_S1_V3)))
- (let (($x151 (not R_S1_V2)))
- (not (and $x151 $x153 $x157 $x161 $x59923 $x62232)))))))))
-(assert
- (let (($x62714 (not W_S1_V3)))
- (let (($x62507 (not W_S1_V2)))
- (let (($x161 (not R_S1_V5)))
- (let (($x159 (not R_S1_V4)))
- (let (($x157 (not R_S1_V6)))
- (let (($x155 (not R_S1_V1)))
- (not (and $x155 $x157 $x159 $x161 $x62507 $x62714)))))))))
-(assert
- (let (($x62714 (not W_S1_V3)))
- (let (($x62610 (not W_S1_V6)))
- (let (($x161 (not R_S1_V5)))
- (let (($x159 (not R_S1_V4)))
- (let (($x155 (not R_S1_V1)))
- (let (($x151 (not R_S1_V2)))
- (not (and $x151 $x155 $x159 $x161 $x62610 $x62714)))))))))
-(assert
- (let (($x62714 (not W_S1_V3)))
- (let (($x62610 (not W_S1_V6)))
- (let (($x62507 (not W_S1_V2)))
- (let (($x161 (not R_S1_V5)))
- (let (($x159 (not R_S1_V4)))
- (let (($x155 (not R_S1_V1)))
- (not (and $x155 $x159 $x161 $x62507 $x62610 $x62714)))))))))
-(assert
- (let (($x62714 (not W_S1_V3)))
- (let (($x59925 (not W_S1_V5)))
- (let (($x159 (not R_S1_V4)))
- (let (($x157 (not R_S1_V6)))
- (let (($x155 (not R_S1_V1)))
- (let (($x151 (not R_S1_V2)))
- (not (and $x151 $x155 $x157 $x159 $x59925 $x62714)))))))))
-(assert
- (let (($x62714 (not W_S1_V3)))
- (let (($x62507 (not W_S1_V2)))
- (let (($x59925 (not W_S1_V5)))
- (let (($x159 (not R_S1_V4)))
- (let (($x157 (not R_S1_V6)))
- (let (($x155 (not R_S1_V1)))
- (not (and $x155 $x157 $x159 $x59925 $x62507 $x62714)))))))))
-(assert
- (let (($x62714 (not W_S1_V3)))
- (let (($x62610 (not W_S1_V6)))
- (let (($x59925 (not W_S1_V5)))
- (let (($x159 (not R_S1_V4)))
- (let (($x155 (not R_S1_V1)))
- (let (($x151 (not R_S1_V2)))
- (not (and $x151 $x155 $x159 $x59925 $x62610 $x62714)))))))))
-(assert
- (let (($x62714 (not W_S1_V3)))
- (let (($x62610 (not W_S1_V6)))
- (let (($x62507 (not W_S1_V2)))
- (let (($x59925 (not W_S1_V5)))
- (let (($x159 (not R_S1_V4)))
- (let (($x155 (not R_S1_V1)))
- (not (and $x155 $x159 $x59925 $x62507 $x62610 $x62714)))))))))
-(assert
- (let (($x62232 (not W_S1_V1)))
- (let (($x161 (not R_S1_V5)))
- (let (($x159 (not R_S1_V4)))
- (let (($x157 (not R_S1_V6)))
- (let (($x153 (not R_S1_V3)))
- (let (($x151 (not R_S1_V2)))
- (not (and $x151 $x153 $x157 $x159 $x161 $x62232)))))))))
-(check-sat)
-
diff --git a/test/regress/regress0/quantifiers/qbv-disequality3.smt2 b/test/regress/regress0/quantifiers/qbv-disequality3.smt2
deleted file mode 100644
index d16157509..000000000
--- a/test/regress/regress0/quantifiers/qbv-disequality3.smt2
+++ /dev/null
@@ -1,10 +0,0 @@
-; COMMAND-LINE: --cbqi-bv --cbqi-bv-ineq=keep --no-cbqi-full
-; EXPECT: sat
-(set-logic BV)
-(set-info :status sat)
-(declare-fun a () (_ BitVec 8))
-(declare-fun b () (_ BitVec 8))
-
-(assert (forall ((x (_ BitVec 8))) (= (bvmul (bvadd x b) a)  b)))
-
-(check-sat)
diff --git a/test/regress/regress0/quantifiers/qbv-simple-2vars-vo.smt2 b/test/regress/regress0/quantifiers/qbv-simple-2vars-vo.smt2
deleted file mode 100644
index c36322aac..000000000
--- a/test/regress/regress0/quantifiers/qbv-simple-2vars-vo.smt2
+++ /dev/null
@@ -1,16 +0,0 @@
-; COMMAND-LINE: --cbqi-bv --cbqi-bv-ineq=keep
-; EXPECT: sat
-(set-logic BV)
-(set-info :status sat)
-(declare-fun a () (_ BitVec 8))
-(declare-fun b () (_ BitVec 8))
-(declare-fun c () (_ BitVec 8))
-
-(assert (not (= a #x00)))
-
-(assert (forall ((x (_ BitVec 8)) (y (_ BitVec 8))) (or 
-(not (= (bvmul x y) #x0A))
-(not (= (bvadd y a) #x10))
-)))
-
-(check-sat)
diff --git a/test/regress/regress0/quantifiers/qbv-test-invert-bvashr-0.smt2 b/test/regress/regress0/quantifiers/qbv-test-invert-bvashr-0.smt2
deleted file mode 100644
index 30e7c2f8b..000000000
--- a/test/regress/regress0/quantifiers/qbv-test-invert-bvashr-0.smt2
+++ /dev/null
@@ -1,10 +0,0 @@
-; COMMAND-LINE: --cbqi-bv --cbqi-bv-ineq=keep --no-cbqi-full
-; EXPECT: sat
-(set-logic BV)
-(set-info :status sat)
-(declare-fun a () (_ BitVec 8))
-(declare-fun b () (_ BitVec 8))
-
-(assert (forall ((x (_ BitVec 8))) (not (= (bvashr x a) b))))
-
-(check-sat)
diff --git a/test/regress/regress0/quantifiers/qbv-test-invert-bvashr-1.smt2 b/test/regress/regress0/quantifiers/qbv-test-invert-bvashr-1.smt2
deleted file mode 100644
index c3de64c4c..000000000
--- a/test/regress/regress0/quantifiers/qbv-test-invert-bvashr-1.smt2
+++ /dev/null
@@ -1,10 +0,0 @@
-; COMMAND-LINE: --cbqi-bv --cbqi-bv-ineq=keep --no-cbqi-full
-; EXPECT: sat
-(set-logic BV)
-(set-info :status sat)
-(declare-fun a () (_ BitVec 8))
-(declare-fun b () (_ BitVec 8))
-
-(assert (forall ((x (_ BitVec 8))) (not (= (bvashr a x) b))))
-
-(check-sat)
diff --git a/test/regress/regress0/quantifiers/qbv-test-invert-bvcomp.smt2 b/test/regress/regress0/quantifiers/qbv-test-invert-bvcomp.smt2
deleted file mode 100644
index 3b55c0b9a..000000000
--- a/test/regress/regress0/quantifiers/qbv-test-invert-bvcomp.smt2
+++ /dev/null
@@ -1,11 +0,0 @@
-; COMMAND-LINE: --cbqi-bv --cbqi-bv-ineq=keep --no-cbqi-full
-; EXPECT: unsat
-(set-logic BV)
-(set-info :status sat)
-(declare-fun a () (_ BitVec 8))
-(declare-fun b () (_ BitVec 8))
-(declare-fun c () (_ BitVec 1))
-
-(assert (forall ((x (_ BitVec 8))) (not (= (bvcomp x a) ((_ extract 7 7) (bvmul a b))))))
-
-(check-sat)
diff --git a/test/regress/regress0/quantifiers/qbv-test-invert-bvlshr-1.smt2 b/test/regress/regress0/quantifiers/qbv-test-invert-bvlshr-1.smt2
deleted file mode 100644
index 08479d90e..000000000
--- a/test/regress/regress0/quantifiers/qbv-test-invert-bvlshr-1.smt2
+++ /dev/null
@@ -1,10 +0,0 @@
-; COMMAND-LINE: --cbqi-bv --cbqi-bv-ineq=keep --no-cbqi-full
-; EXPECT: sat
-(set-logic BV)
-(set-info :status sat)
-(declare-fun a () (_ BitVec 8))
-(declare-fun b () (_ BitVec 8))
-
-(assert (forall ((x (_ BitVec 8))) (not (= (bvlshr a x) b))))
-
-(check-sat)
diff --git a/test/regress/regress0/quantifiers/qbv-test-invert-bvmul-neq.smt2 b/test/regress/regress0/quantifiers/qbv-test-invert-bvmul-neq.smt2
deleted file mode 100644
index 9dc9f98ac..000000000
--- a/test/regress/regress0/quantifiers/qbv-test-invert-bvmul-neq.smt2
+++ /dev/null
@@ -1,10 +0,0 @@
-; COMMAND-LINE: --cbqi-bv --cbqi-bv-ineq=keep --no-cbqi-full
-; EXPECT: sat
-(set-logic BV)
-(set-info :status sat)
-(declare-fun a () (_ BitVec 8))
-(declare-fun b () (_ BitVec 8))
-
-(assert (forall ((x (_ BitVec 8))) (= (bvmul x a) b)))
-
-(check-sat)
diff --git a/test/regress/regress0/quantifiers/qbv-test-invert-bvmul.smt2 b/test/regress/regress0/quantifiers/qbv-test-invert-bvmul.smt2
deleted file mode 100644
index f3dad679b..000000000
--- a/test/regress/regress0/quantifiers/qbv-test-invert-bvmul.smt2
+++ /dev/null
@@ -1,10 +0,0 @@
-; COMMAND-LINE: --cbqi-bv --cbqi-bv-ineq=keep --no-cbqi-full
-; EXPECT: sat
-(set-logic BV)
-(set-info :status sat)
-(declare-fun a () (_ BitVec 8))
-(declare-fun b () (_ BitVec 8))
-
-(assert (forall ((x (_ BitVec 8))) (not (= (bvmul x a) b))))
-
-(check-sat)
diff --git a/test/regress/regress0/quantifiers/qbv-test-invert-bvudiv-0-neq.smt2 b/test/regress/regress0/quantifiers/qbv-test-invert-bvudiv-0-neq.smt2
deleted file mode 100644
index 3748eca24..000000000
--- a/test/regress/regress0/quantifiers/qbv-test-invert-bvudiv-0-neq.smt2
+++ /dev/null
@@ -1,11 +0,0 @@
-; COMMAND-LINE: --cbqi-bv --cbqi-bv-ineq=keep --no-cbqi-full
-; EXPECT: unsat
-(set-logic BV)
-(set-info :status unsat)
-(declare-fun a () (_ BitVec 8))
-(declare-fun b () (_ BitVec 8))
-
-(assert (distinct a b (_ bv0 8)))
-(assert (forall ((x (_ BitVec 8))) (= (bvudiv x a) b)))
-
-(check-sat)
diff --git a/test/regress/regress0/quantifiers/qbv-test-invert-bvudiv-0.smt2 b/test/regress/regress0/quantifiers/qbv-test-invert-bvudiv-0.smt2
deleted file mode 100644
index 2cabb502e..000000000
--- a/test/regress/regress0/quantifiers/qbv-test-invert-bvudiv-0.smt2
+++ /dev/null
@@ -1,11 +0,0 @@
-; COMMAND-LINE: --cbqi-bv --cbqi-bv-ineq=keep --no-cbqi-full
-; EXPECT: sat
-(set-logic BV)
-(set-info :status sat)
-(declare-fun a () (_ BitVec 8))
-(declare-fun b () (_ BitVec 8))
-
-(assert (distinct a b (_ bv0 8)))
-(assert (forall ((x (_ BitVec 8))) (not (= (bvudiv x a) b))))
-
-(check-sat)
diff --git a/test/regress/regress0/quantifiers/qbv-test-invert-bvudiv-1-neq.smt2 b/test/regress/regress0/quantifiers/qbv-test-invert-bvudiv-1-neq.smt2
deleted file mode 100644
index a0e1b62c2..000000000
--- a/test/regress/regress0/quantifiers/qbv-test-invert-bvudiv-1-neq.smt2
+++ /dev/null
@@ -1,11 +0,0 @@
-; COMMAND-LINE: --cbqi-bv --cbqi-bv-ineq=keep --no-cbqi-full --bv-div-zero-const
-; EXPECT: unsat
-(set-logic BV)
-(set-info :status unsat)
-(declare-fun a () (_ BitVec 8))
-(declare-fun b () (_ BitVec 8))
-
-(assert (distinct a b (_ bv0 8)))
-(assert (forall ((x (_ BitVec 8))) (= (bvudiv a x) b)))
-
-(check-sat)
diff --git a/test/regress/regress0/quantifiers/qbv-test-invert-bvudiv-1.smt2 b/test/regress/regress0/quantifiers/qbv-test-invert-bvudiv-1.smt2
deleted file mode 100644
index 2690a0ac9..000000000
--- a/test/regress/regress0/quantifiers/qbv-test-invert-bvudiv-1.smt2
+++ /dev/null
@@ -1,11 +0,0 @@
-; COMMAND-LINE: --cbqi-bv --cbqi-bv-ineq=keep --no-cbqi-full --bv-div-zero-const
-; EXPECT: sat
-(set-logic BV)
-(set-info :status sat)
-(declare-fun a () (_ BitVec 8))
-(declare-fun b () (_ BitVec 8))
-
-(assert (distinct a b (_ bv0 8)))
-(assert (forall ((x (_ BitVec 8))) (not (= (bvudiv a x) b))))
-
-(check-sat)
diff --git a/test/regress/regress0/quantifiers/qbv-test-invert-bvurem-1-neq.smt2 b/test/regress/regress0/quantifiers/qbv-test-invert-bvurem-1-neq.smt2
deleted file mode 100644
index 871df4827..000000000
--- a/test/regress/regress0/quantifiers/qbv-test-invert-bvurem-1-neq.smt2
+++ /dev/null
@@ -1,10 +0,0 @@
-; COMMAND-LINE: --cbqi-bv --cbqi-bv-ineq=keep --no-cbqi-full
-; EXPECT: sat
-(set-logic BV)
-(set-info :status sat)
-(declare-fun a () (_ BitVec 8))
-(declare-fun b () (_ BitVec 8))
-
-(assert (forall ((x (_ BitVec 8))) (= (bvurem a x) b)))
-
-(check-sat)
diff --git a/test/regress/regress0/quantifiers/qbv-test-invert-bvurem-1.smt2 b/test/regress/regress0/quantifiers/qbv-test-invert-bvurem-1.smt2
deleted file mode 100644
index 22bd306ee..000000000
--- a/test/regress/regress0/quantifiers/qbv-test-invert-bvurem-1.smt2
+++ /dev/null
@@ -1,10 +0,0 @@
-; COMMAND-LINE: --cbqi-bv --cbqi-bv-ineq=keep --no-cbqi-full
-; EXPECT: sat
-(set-logic BV)
-(set-info :status sat)
-(declare-fun a () (_ BitVec 8))
-(declare-fun b () (_ BitVec 8))
-
-(assert (forall ((x (_ BitVec 8))) (not (= (bvurem a x) b))))
-
-(check-sat)
diff --git a/test/regress/regress0/quantifiers/qbv-test-urem-rewrite.smt2 b/test/regress/regress0/quantifiers/qbv-test-urem-rewrite.smt2
deleted file mode 100644
index e57352b8f..000000000
--- a/test/regress/regress0/quantifiers/qbv-test-urem-rewrite.smt2
+++ /dev/null
@@ -1,10 +0,0 @@
-; COMMAND-LINE: --cbqi-bv --cbqi-bv-ineq=keep --no-cbqi-full
-; EXPECT: sat
-(set-logic BV)
-(set-info :status sat)
-(declare-fun a () (_ BitVec 4))
-(declare-fun b () (_ BitVec 4))
-
-(assert (forall ((x (_ BitVec 4))) (not (= (bvurem x a) b))))
-
-(check-sat)
diff --git a/test/regress/regress0/quantifiers/qcft-javafe.filespace.TreeWalker.006.smt2 b/test/regress/regress0/quantifiers/qcft-javafe.filespace.TreeWalker.006.smt2
deleted file mode 100644
index 2a5eb34a7..000000000
--- a/test/regress/regress0/quantifiers/qcft-javafe.filespace.TreeWalker.006.smt2
+++ /dev/null
@@ -1,432 +0,0 @@
-; COMMAND-LINE: --qcf-tconstraint
-; EXPECT: unsat
-(set-logic AUFLIA)
-(set-info :source | 
-  Simplify front end test suite.
-  This benchmark was translated by Michal Moskal.
-|)
-(set-info :smt-lib-version 2.0)
-(set-info :category "industrial")
-(set-info :status unsat)
-(declare-fun EC_134.22_134.22 () Int)
-(declare-fun integralOr (Int Int) Int)
-(declare-fun this_95.46_87.8_0_95.46 () Int)
-(declare-fun EC_183.16_183.16 () Int)
-(declare-fun arrayShapeMore (Int Int) Int)
-(declare-fun integralAnd (Int Int) Int)
-(declare-fun T_.TYPE () Int)
-(declare-fun EC_156.1_0_158.5_0_159.22_159.22 () Int)
-(declare-fun intFirst () Int)
-(declare-fun after_192.22_192.22 () Int)
-(declare-fun T_javafe.filespace.HashTree () Int)
-(declare-fun lookAhead_4.43.19 () Int)
-(declare-fun after_90.24_87.8_0_90.24_5.89.17 () Int)
-(declare-fun eClosedTime (Int) Int)
-(declare-fun int_m9223372036854775808 () Int)
-(declare-fun C_87.8 () Int)
-(declare-fun int_m2147483648 () Int)
-(declare-fun T_java.lang.Comparable () Int)
-(declare-fun arrayPosition (Int) Int)
-(declare-fun treeName_186.1 () Int)
-(declare-fun remainingNodes_loopold_48.26 () Int)
-(declare-fun after_189.12_189.12 () Int)
-(declare-fun this_159.11_156.1_0_158.5_0_159.11 () Int)
-(declare-fun select1 (Int Int) Int)
-(declare-fun select2 (Int Int Int) Int)
-(declare-fun EC_192.22_192.22 () Int)
-(declare-fun L_158.5 () Int)
-(declare-fun T_java.util.EscjavaKeyValue () Int)
-(declare-fun elems_1_ () Int)
-(declare-fun c_loopold_133.5 () Int)
-(declare-fun T_long () Int)
-(declare-fun EC_121.8_121.8 () Int)
-(declare-fun EC_65.1_65.1 () Int)
-(declare-fun moreElements_192.1_0_193.28_5.89.17 () Int)
-(declare-fun after_121.8_121.8 () Int)
-(declare-fun T_javafe.filespace.LookAheadEnum () Int)
-(declare-fun lockLE (Int Int) Bool)
-(declare-fun classLiteral (Int) Int)
-(declare-fun lockLT (Int Int) Bool)
-(declare-fun T_javafe.filespace.Tree () Int)
-(declare-fun elems_2_ () Int)
-(declare-fun EC_189.12_189.12 () Int)
-(declare-fun T_float () Int)
-(declare-fun alloc () Int)
-(declare-fun T_java.io.OutputStream () Int)
-(declare-fun EC_87.8_0_89.24_89.24 () Int)
-(declare-fun S_194.56 () Int)
-(declare-fun asChild (Int Int) Int)
-(declare-fun CONCVARSYM (Int) Int)
-(declare-fun T_int () Int)
-(declare-fun after_65.1_65.1 () Int)
-(declare-fun int_2147483647 () Int)
-(declare-fun RES_130.35 () Int)
-(declare-fun remainingNodes_48.26_1_ () Int)
-(declare-fun int_9223372036854775807 () Int)
-(declare-fun this () Int)
-(declare-fun T_byte () Int)
-(declare-fun T_java.lang.System () Int)
-(declare-fun store1 (Int Int Int) Int)
-(declare-fun store2 (Int Int Int Int) Int)
-(declare-fun RES_loopold () Int)
-(declare-fun remainingNodes_48.26_2_ () Int)
-(declare-fun max (Int) Int)
-(declare-fun elems_156.1_0_158.5_0_1_ () Int)
-(declare-fun moreElements_pre_5.58.29 () Int)
-(declare-fun moreElements_87.8_0_90.24_5.89.17 () Int)
-(declare-fun objectToBeConstructed () Int)
-(declare-fun T_java.util.Map () Int)
-(declare-fun tmp4_156.1_0_158.5_0_163.8 () Int)
-(declare-fun T_javafe.filespace.TreeWalker () Int)
-(declare-fun after_189.25_189.25 () Int)
-(declare-fun integralDiv (Int Int) Int)
-(declare-fun i_156.1_0_158.5_0_158.33 () Int)
-(declare-fun after_135.35_134.1_0_135.35_5.89.17 () Int)
-(declare-fun EC_130.36_130.36 () Int)
-(declare-fun RES_121.33_121.33 () Int)
-(declare-fun moreElements_loopold_5.58.29 () Int)
-(declare-fun RES_134.22_134.22 () Int)
-(declare-fun list_210.13 () Int)
-(declare-fun EC_189.25_189.25 () Int)
-(declare-fun T_java.lang.Class () Int)
-(declare-fun T_java.lang.Object () Int)
-(declare-fun tmp_156.1_0_158.5_0_161.6 () Int)
-(declare-fun remainingChildren_pre_39.26 () Int)
-(declare-fun EC_192.1_1_192.45_192.45 () Int)
-(declare-fun RES_192.1_1_192.45_192.45 () Int)
-(declare-fun RES_156.1_0_158.5_0_160.18_160.18 () Int)
-(declare-fun longLast () Int)
-(declare-fun termConditional (Int Int Int) Int)
-(declare-fun T_java.util.Dictionary () Int)
-(declare-fun C_156.1 () Int)
-(declare-fun bool_false () Int)
-(declare-fun RES_192.22_192.22 () Int)
-(declare-fun T_javafe.filespace.FileTree () Int)
-(declare-fun alloc_loopold () Int)
-(declare-fun Smt.true () Int)
-(declare-fun returnsNull_5.79.29 () Int)
-(declare-fun c_134.1_0_135.20 () Int)
-(declare-fun asLockSet (Int) Int)
-(declare-fun integralMod (Int Int) Int)
-(declare-fun RES_67.21_67.21 () Int)
-(declare-fun RES_156.1_0_158.5_0_159.11_159.11 () Int)
-(declare-fun Smt.false () Int)
-(declare-fun typeof (Int) Int)
-(declare-fun int_18446744073709551615 () Int)
-(declare-fun RES_189.12_189.12 () Int)
-(declare-fun this_160.18_156.1_0_158.5_0_160.18 () Int)
-(declare-fun EC_134.1_0_134.36_134.36 () Int)
-(declare-fun RES_89.23 () Int)
-(declare-fun RES_134.1_0_134.36_134.36 () Int)
-(declare-fun RES_87.8_0_93.28_93.28 () Int)
-(declare-fun elementType_5.74.27 () Int)
-(declare-fun stringCat (Int Int) Int)
-(declare-fun remainingChildren_39.26_1_ () Int)
-(declare-fun RES_87.8_0_95.46_95.46 () Int)
-(declare-fun lookAheadValid_4.40.20 () Int)
-(declare-fun T_boolean () Int)
-(declare-fun longFirst () Int)
-(declare-fun elems_loopold_156.1_0 () Int)
-(declare-fun T_java.util.Hashtable () Int)
-(declare-fun elems_loopold () Int)
-(declare-fun T_java.util.Properties () Int)
-(declare-fun L_87.8 () Int)
-(declare-fun RES_68.21_68.21 () Int)
-(declare-fun RES_65.1_65.1 () Int)
-(declare-fun arrayFresh (Int Int Int Int Int Int Int) Bool)
-(declare-fun RES () Int)
-(declare-fun elementType_pre_5.74.27 () Int)
-(declare-fun L_156.1 () Int)
-(declare-fun intLast () Int)
-(declare-fun RES_130.36_130.36 () Int)
-(declare-fun RES_87.8_0_90.24_90.24 () Int)
-(declare-fun arrayType () Int)
-(declare-fun RES_189.25_189.25 () Int)
-(declare-fun boolEq (Int Int) Bool)
-(declare-fun EC_134.1_0_135.35_135.35 () Int)
-(declare-fun after_193.28_192.1_0_193.28_5.89.17 () Int)
-(declare-fun RES_134.1_0_135.35_135.35 () Int)
-(declare-fun T_129.49 () Int)
-(declare-fun arrayLength (Int) Int)
-(declare-fun cast (Int Int) Int)
-(declare-fun nextChild_87.8_0_95.5 () Int)
-(declare-fun elementType_71.16 () Int)
-(declare-fun asElems (Int) Int)
-(declare-fun T_javafe.filespace.PreloadedTree () Int)
-(declare-fun moreElements_5.58.29 () Int)
-(declare-fun T_char () Int)
-(declare-fun EC_192.1_0_194.16_194.16 () Int)
-(declare-fun owner_pre_6.35.28 () Int)
-(declare-fun RES_156.1_0_158.5_0_159.22_159.22 () Int)
-(declare-fun EC_140.1_140.1 () Int)
-(declare-fun divides (Int Int) Int)
-(declare-fun returnsNull_72.16 () Int)
-(declare-fun remainingChildren_39.26 () Int)
-(declare-fun remainingNodes_68.1 () Int)
-(declare-fun T_javafe.filespace.TreeWalker_ArrayEnum () Int)
-(declare-fun arg0_194.16_192.1_0_194.16_17.. () Int)
-(declare-fun InRange (Int Int) Bool)
-(declare-fun moreElements_87.8_0_95.46_5.89.17 () Int)
-(declare-fun sorted_157.13 () Int)
-(declare-fun moreElements_134.1_0_135.35_5.89.17 () Int)
-(declare-fun out_pre_16.83.49 () Int)
-(declare-fun elementType_69.24 () Int)
-(declare-fun RES_121.8_121.8 () Int)
-(declare-fun lookAheadValid_pre_4.40.20 () Int)
-(declare-fun refEQ (Int Int) Int)
-(declare-fun EC_loopold () Int)
-(declare-fun EC_157.5 () Int)
-(declare-fun remainingNodes_pre_48.26 () Int)
-(declare-fun EC_156.1_0_158.5_0_160.18_160.18 () Int)
-(declare-fun subtree_192.1_0_193.5 () Int)
-(declare-fun is (Int Int) Int)
-(declare-fun i_loopold_156.1_0_158.14 () Int)
-(declare-fun integralEQ (Int Int) Int)
-(declare-fun RES_87.8_0_89.24_89.24 () Int)
-(declare-fun boolNE (Int Int) Bool)
-(declare-fun EC_134.1_1_134.36_134.36 () Int)
-(declare-fun RES_134.1_1_134.36_134.36 () Int)
-(declare-fun T_java.io.FilterOutputStream () Int)
-(declare-fun remainingNodes_48.26 () Int)
-(declare-fun tmp0_new_Tree___130.25 () Int)
-(declare-fun isNewArray (Int) Int)
-(declare-fun L_192.1 () Int)
-(declare-fun elems_pre () Int)
-(declare-fun T_63.27 () Int)
-(declare-fun intShiftL (Int Int) Int)
-(declare-fun nonnullelements (Int Int) Bool)
-(declare-fun multiply (Int Int) Int)
-(declare-fun integralGE (Int Int) Int)
-(declare-fun lookAhead_pre_4.43.19 () Int)
-(declare-fun T_short () Int)
-(declare-fun EC_67.21_67.21 () Int)
-(declare-fun alloc_pre () Int)
-(declare-fun integralGT (Int Int) Int)
-(declare-fun EC () Int)
-(declare-fun boolAnd (Int Int) Bool)
-(declare-fun EC_156.1_0_158.5_0_159.11_159.11 () Int)
-(declare-fun EC_1_ () Int)
-(declare-fun EC_192.1_0_194.32_194.32 () Int)
-(declare-fun RES_192.1_0_194.32_194.32 () Int)
-(declare-fun arrayShapeOne (Int) Int)
-(declare-fun T_double () Int)
-(declare-fun out_16.83.49 () Int)
-(declare-fun owner_6.35.28 () Int)
-(declare-fun longShiftL (Int Int) Int)
-(declare-fun list_pre_210.13 () Int)
-(declare-fun T_java.io.Serializable () Int)
-(declare-fun boolOr (Int Int) Bool)
-(declare-fun L_134.1 () Int)
-(declare-fun int_4294967295 () Int)
-(declare-fun modulo (Int Int) Int)
-(declare-fun EC_87.8_0_93.28_93.28 () Int)
-(declare-fun EC_2_ () Int)
-(declare-fun EC_130.35 () Int)
-(declare-fun elems_134.1_0 () Int)
-(declare-fun T_120.50 () Int)
-(declare-fun returnsNull_pre_5.79.29 () Int)
-(declare-fun EC_152.6 () Int)
-(declare-fun EC_87.8_0_95.46_95.46 () Int)
-(declare-fun EC_182.16 () Int)
-(declare-fun after_95.46_87.8_0_95.46_5.89.17 () Int)
-(declare-fun null () Int)
-(declare-fun args_181.36 () Int)
-(declare-fun EC_152.6_1_ () Int)
-(declare-fun T_java.lang.String () Int)
-(declare-fun asField (Int Int) Int)
-(declare-fun a_150.36 () Int)
-(declare-fun EC_68.21_68.21 () Int)
-(declare-fun T_java.io.File () Int)
-(declare-fun after_68.21_68.21 () Int)
-(declare-fun boolImplies (Int Int) Bool)
-(declare-fun sorted_157.13_1_ () Int)
-(declare-fun integralLE (Int Int) Int)
-(declare-fun RES_1_ () Int)
-(declare-fun tmp0_remainingNodes_69.9 () Int)
-(declare-fun elems_156.1_0_158.5_0 () Int)
-(declare-fun integralLT (Int Int) Int)
-(declare-fun this_93.28_87.8_0_93.28 () Int)
-(declare-fun T_java.util.Enumeration () Int)
-(declare-fun vAllocTime (Int) Int)
-(declare-fun EC_192.1_0_193.28_193.28 () Int)
-(declare-fun sorted_157.13_2_ () Int)
-(declare-fun this_89.24_87.8_0_89.24 () Int)
-(declare-fun T_java.lang.Cloneable () Int)
-(declare-fun RES_192.1_0_193.28_193.28 () Int)
-(declare-fun RES_2_ () Int)
-(declare-fun boolNot (Int) Bool)
-(declare-fun refNE (Int Int) Int)
-(declare-fun integralXor (Int Int) Int)
-(declare-fun classDown (Int Int) Int)
-(declare-fun EC_loopold_156.1_0 () Int)
-(declare-fun sorted_loopold_156.1_0_157.13 () Int)
-(declare-fun this_90.24_87.8_0_90.24 () Int)
-(declare-fun integralNE (Int Int) Int)
-(declare-fun T_java.io.PrintStream () Int)
-(declare-fun EC_87.8_0_90.24_90.24 () Int)
-(declare-fun arrayParent (Int) Int)
-(declare-fun elemtype (Int) Int)
-(declare-fun fClosedTime (Int) Int)
-(declare-fun alloc_1_ () Int)
-(declare-fun EC_192.1_0_192.45_192.45 () Int)
-(declare-fun array (Int) Int)
-(declare-fun RES_192.1_0_192.45_192.45 () Int)
-(declare-fun LS () Int)
-(declare-fun remainingChildren_67.1 () Int)
-(declare-fun ecReturn () Int)
-(declare-fun isAllocated (Int Int) Bool)
-(declare-fun alloc_2_ () Int)
-(declare-fun elems () Int)
-(declare-fun subtypes (Int Int) Bool)
-(declare-fun T_javafe.filespace.EmptyEnum () Int)
-(declare-fun EC_182.16_1_ () Int)
-(declare-fun EC_121.33_121.33 () Int)
-(assert (subtypes T_java.io.OutputStream T_java.lang.Object))
-(assert (= T_java.io.OutputStream (asChild T_java.io.OutputStream T_java.lang.Object)))
-(assert (subtypes T_java.io.FilterOutputStream T_java.io.OutputStream))
-(assert (= T_java.io.FilterOutputStream (asChild T_java.io.FilterOutputStream T_java.io.OutputStream)))
-(assert (subtypes T_javafe.filespace.TreeWalker T_javafe.filespace.LookAheadEnum))
-(assert (= T_javafe.filespace.TreeWalker (asChild T_javafe.filespace.TreeWalker T_javafe.filespace.LookAheadEnum)))
-(assert (forall ((?t Int)) (! (= (subtypes ?t T_javafe.filespace.TreeWalker) (= ?t T_javafe.filespace.TreeWalker)) :pattern ((subtypes ?t T_javafe.filespace.TreeWalker)) )))
-(assert (subtypes T_javafe.filespace.FileTree T_javafe.filespace.PreloadedTree))
-(assert (= T_javafe.filespace.FileTree (asChild T_javafe.filespace.FileTree T_javafe.filespace.PreloadedTree)))
-(assert (subtypes T_javafe.filespace.LookAheadEnum T_java.lang.Object))
-(assert (= T_javafe.filespace.LookAheadEnum (asChild T_javafe.filespace.LookAheadEnum T_java.lang.Object)))
-(assert (subtypes T_javafe.filespace.LookAheadEnum T_java.util.Enumeration))
-(assert (subtypes T_javafe.filespace.TreeWalker_ArrayEnum T_javafe.filespace.LookAheadEnum))
-(assert (= T_javafe.filespace.TreeWalker_ArrayEnum (asChild T_javafe.filespace.TreeWalker_ArrayEnum T_javafe.filespace.LookAheadEnum)))
-(assert (subtypes T_javafe.filespace.HashTree T_javafe.filespace.Tree))
-(assert (= T_javafe.filespace.HashTree (asChild T_javafe.filespace.HashTree T_javafe.filespace.Tree)))
-(assert (subtypes T_java.lang.System T_java.lang.Object))
-(assert (= T_java.lang.System (asChild T_java.lang.System T_java.lang.Object)))
-(assert (forall ((?t Int)) (! (= (subtypes ?t T_java.lang.System) (= ?t T_java.lang.System)) :pattern ((subtypes ?t T_java.lang.System)) )))
-(assert (subtypes T_java.util.EscjavaKeyValue T_java.lang.Object))
-(assert (subtypes T_java.util.Properties T_java.util.Hashtable))
-(assert (= T_java.util.Properties (asChild T_java.util.Properties T_java.util.Hashtable)))
-(assert (subtypes T_javafe.filespace.Tree T_java.lang.Object))
-(assert (= T_javafe.filespace.Tree (asChild T_javafe.filespace.Tree T_java.lang.Object)))
-(assert (subtypes T_java.lang.String T_java.lang.Object))
-(assert (= T_java.lang.String (asChild T_java.lang.String T_java.lang.Object)))
-(assert (forall ((?t Int)) (! (= (subtypes ?t T_java.lang.String) (= ?t T_java.lang.String)) :pattern ((subtypes ?t T_java.lang.String)) )))
-(assert (subtypes T_java.lang.String T_java.io.Serializable))
-(assert (subtypes T_java.lang.String T_java.lang.Comparable))
-(assert (subtypes T_java.util.Enumeration T_java.lang.Object))
-(assert (subtypes T_java.lang.Comparable T_java.lang.Object))
-(assert (subtypes T_java.util.Map T_java.lang.Object))
-(assert (subtypes T_java.util.Map T_java.util.EscjavaKeyValue))
-(assert (subtypes T_java.util.Dictionary T_java.lang.Object))
-(assert (= T_java.util.Dictionary (asChild T_java.util.Dictionary T_java.lang.Object)))
-(assert (subtypes T_java.util.Dictionary T_java.util.EscjavaKeyValue))
-(assert (subtypes T_java.io.Serializable T_java.lang.Object))
-(assert (subtypes T_java.io.PrintStream T_java.io.FilterOutputStream))
-(assert (= T_java.io.PrintStream (asChild T_java.io.PrintStream T_java.io.FilterOutputStream)))
-(assert (subtypes T_javafe.filespace.PreloadedTree T_javafe.filespace.HashTree))
-(assert (= T_javafe.filespace.PreloadedTree (asChild T_javafe.filespace.PreloadedTree T_javafe.filespace.HashTree)))
-(assert (subtypes T_java.util.Hashtable T_java.util.Dictionary))
-(assert (= T_java.util.Hashtable (asChild T_java.util.Hashtable T_java.util.Dictionary)))
-(assert (subtypes T_java.util.Hashtable T_java.util.Map))
-(assert (subtypes T_java.util.Hashtable T_java.lang.Cloneable))
-(assert (subtypes T_java.util.Hashtable T_java.io.Serializable))
-(assert (subtypes T_java.lang.Cloneable T_java.lang.Object))
-(assert (subtypes T_javafe.filespace.EmptyEnum T_java.lang.Object))
-(assert (= T_javafe.filespace.EmptyEnum (asChild T_javafe.filespace.EmptyEnum T_java.lang.Object)))
-(assert (subtypes T_javafe.filespace.EmptyEnum T_java.util.Enumeration))
-(assert (subtypes T_java.io.File T_java.lang.Object))
-(assert (= T_java.io.File (asChild T_java.io.File T_java.lang.Object)))
-(assert (subtypes T_java.io.File T_java.io.Serializable))
-(assert (subtypes T_java.io.File T_java.lang.Comparable))
-(assert (distinct arrayType T_boolean T_char T_byte T_short T_int T_long T_float T_double T_.TYPE T_java.io.OutputStream T_java.io.FilterOutputStream T_javafe.filespace.TreeWalker T_javafe.filespace.FileTree T_javafe.filespace.LookAheadEnum T_javafe.filespace.TreeWalker_ArrayEnum T_javafe.filespace.HashTree T_java.lang.System T_java.util.EscjavaKeyValue T_java.util.Properties T_javafe.filespace.Tree T_java.lang.String T_java.util.Enumeration T_java.lang.Comparable T_java.util.Map T_java.util.Dictionary T_java.io.Serializable T_java.io.PrintStream T_javafe.filespace.PreloadedTree T_java.util.Hashtable T_java.lang.Cloneable T_javafe.filespace.EmptyEnum T_java.io.File T_java.lang.Object))
-(assert (= Smt.true (is out_16.83.49 T_java.io.PrintStream)))
-(assert (forall ((?n Int)) (! (=> (and (<= 0 ?n) (< ?n 63)) (<= 1 (longShiftL 1 ?n))) :pattern ((longShiftL 1 ?n)) )))
-(assert (forall ((?n Int)) (! (=> (and (<= 0 ?n) (< ?n 31)) (<= 1 (intShiftL 1 ?n))) :pattern ((intShiftL 1 ?n)) )))
-(assert (forall ((?x Int) (?y Int)) (! (=> (and (<= 0 ?x) (<= 0 ?y)) (<= 0 (integralXor ?x ?y))) :pattern ((integralXor ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (let ((?v_0 (integralDiv ?x ?y))) (=> (and (<= 0 ?x) (< 0 ?y)) (and (<= 0 ?v_0) (<= ?v_0 ?x)))) :pattern ((integralDiv ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (let ((?v_0 (integralOr ?x ?y))) (=> (and (<= 0 ?x) (<= 0 ?y)) (and (<= ?x ?v_0) (<= ?y ?v_0)))) :pattern ((integralOr ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (=> (<= 0 ?y) (<= (integralAnd ?x ?y) ?y)) :pattern ((integralAnd ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (=> (<= 0 ?x) (<= (integralAnd ?x ?y) ?x)) :pattern ((integralAnd ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (=> (or (<= 0 ?x) (<= 0 ?y)) (<= 0 (integralAnd ?x ?y))) :pattern ((integralAnd ?x ?y)) )))
-(assert (forall ((?t Int)) (! (let ((?v_0 (classLiteral ?t))) (and (not (= ?v_0 null)) (= Smt.true (is ?v_0 T_java.lang.Class)) (isAllocated ?v_0 alloc))) :pattern ((classLiteral ?t)) )))
-(assert (forall ((?x Int) (?e Int)) (= (nonnullelements ?x ?e) (and (not (= ?x null)) (forall ((?i Int)) (=> (and (<= 0 ?i) (< ?i (arrayLength ?x))) (not (= (select1 (select1 ?e ?x) ?i) null))))))))
-(assert (forall ((?b Int) (?x Int) (?y Int)) (! (=> (not (= ?b Smt.true)) (= (termConditional ?b ?x ?y) ?y)) :pattern ((termConditional ?b ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (= (termConditional Smt.true ?x ?y) ?x) :pattern ((termConditional Smt.true ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (= (= (refNE ?x ?y) Smt.true) (not (= ?x ?y))) :pattern ((refNE ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (= (= (refEQ ?x ?y) Smt.true) (= ?x ?y)) :pattern ((refEQ ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (= (= (integralNE ?x ?y) Smt.true) (not (= ?x ?y))) :pattern ((integralNE ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (= (= (integralLT ?x ?y) Smt.true) (< ?x ?y)) :pattern ((integralLT ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (= (= (integralLE ?x ?y) Smt.true) (<= ?x ?y)) :pattern ((integralLE ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (= (= (integralGT ?x ?y) Smt.true) (> ?x ?y)) :pattern ((integralGT ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (= (= (integralGE ?x ?y) Smt.true) (>= ?x ?y)) :pattern ((integralGE ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (let ((?v_0 (stringCat ?x ?y))) (and (not (= ?v_0 null)) (subtypes (typeof ?v_0) T_java.lang.String))) :pattern ((stringCat ?x ?y)) )))
-(assert (forall ((?x Int) (?y Int)) (! (= (= (integralEQ ?x ?y) Smt.true) (= ?x ?y)) :pattern ((integralEQ ?x ?y)) )))
-(assert (forall ((?a Int) (?b Int)) (= (boolOr ?a ?b) (or (= ?a Smt.true) (= ?b Smt.true)))))
-(assert (forall ((?a Int)) (= (boolNot ?a) (not (= ?a Smt.true)))))
-(assert (forall ((?a Int) (?b Int)) (= (boolNE ?a ?b) (not (= (= ?a Smt.true) (= ?b Smt.true))))))
-(assert (forall ((?a Int) (?b Int)) (= (boolImplies ?a ?b) (=> (= ?a Smt.true) (= ?b Smt.true)))))
-(assert (forall ((?a Int) (?b Int)) (= (boolEq ?a ?b) (= (= ?a Smt.true) (= ?b Smt.true)))))
-(assert (forall ((?a Int) (?b Int)) (= (boolAnd ?a ?b) (and (= ?a Smt.true) (= ?b Smt.true)))))
-(assert (forall ((?x Int) (?y Int)) (let ((?v_0 (multiply ?x ?y))) (= (multiply (integralDiv ?v_0 ?y) ?y) ?v_0))))
-(assert (forall ((?i Int) (?j Int)) (= (integralMod (+ ?j ?i) ?j) (integralMod ?i ?j))))
-(assert (forall ((?i Int) (?j Int)) (= (integralMod (+ ?i ?j) ?j) (integralMod ?i ?j))))
-(assert (forall ((?i Int) (?j Int)) (! (let ((?v_0 (integralMod ?i ?j))) (=> (< ?j 0) (and (< ?j ?v_0) (<= ?v_0 0)))) :pattern ((integralMod ?i ?j)) )))
-(assert (forall ((?i Int) (?j Int)) (! (let ((?v_0 (integralMod ?i ?j))) (=> (< 0 ?j) (and (<= 0 ?v_0) (< ?v_0 ?j)))) :pattern ((integralMod ?i ?j)) )))
-(assert (forall ((?i Int) (?j Int)) (! (= (+ (multiply (integralDiv ?i ?j) ?j) (integralMod ?i ?j)) ?i) :pattern ((integralMod ?i ?j))  :pattern ((integralDiv ?i ?j)) )))
-(assert (forall ((?s Int)) (! (=> (= Smt.true (isNewArray ?s)) (subtypes (typeof ?s) arrayType)) :pattern ((isNewArray ?s)) )))
-(assert (forall ((?t Int)) (! (subtypes (array ?t) arrayType) :pattern ((array ?t)) )))
-(assert (= arrayType (asChild arrayType T_java.lang.Object)))
-(assert (forall ((?a Int) (?a0 Int) (?b0 Int) (?e Int) (?n Int) (?T Int) (?v Int)) (! (= (arrayFresh ?a ?a0 ?b0 ?e (arrayShapeOne ?n) ?T ?v) (and (<= ?a0 (vAllocTime ?a)) (isAllocated ?a ?b0) (not (= ?a null)) (= (typeof ?a) ?T) (= (arrayLength ?a) ?n) (forall ((?i Int)) (! (= (select1 (select1 ?e ?a) ?i) ?v) :pattern ((select1 (select1 ?e ?a) ?i)) )))) :pattern ((arrayFresh ?a ?a0 ?b0 ?e (arrayShapeOne ?n) ?T ?v)) )))
-(assert (forall ((?a Int) (?a0 Int) (?b0 Int) (?e Int) (?n Int) (?s Int) (?T Int) (?v Int)) (! (= (arrayFresh ?a ?a0 ?b0 ?e (arrayShapeMore ?n ?s) ?T ?v) (and (<= ?a0 (vAllocTime ?a)) (isAllocated ?a ?b0) (not (= ?a null)) (= (typeof ?a) ?T) (= (arrayLength ?a) ?n) (forall ((?i Int)) (! (let ((?v_0 (select1 (select1 ?e ?a) ?i))) (and (arrayFresh ?v_0 ?a0 ?b0 ?e ?s (elemtype ?T) ?v) (= (arrayParent ?v_0) ?a) (= (arrayPosition ?v_0) ?i))) :pattern ((select1 (select1 ?e ?a) ?i)) )))) :pattern ((arrayFresh ?a ?a0 ?b0 ?e (arrayShapeMore ?n ?s) ?T ?v)) )))
-(assert (forall ((?a Int)) (! (let ((?v_0 (arrayLength ?a))) (and (<= 0 ?v_0) (= Smt.true (is ?v_0 T_int)))) :pattern ((arrayLength ?a)) )))
-(assert (forall ((?x Int)) (! (=> (subtypes (typeof ?x) T_java.lang.Object) (lockLE null ?x)) :pattern ((lockLE null ?x))  :pattern ((lockLT null ?x))  :pattern ((lockLE ?x null))  :pattern ((lockLT ?x null)) )))
-(assert (forall ((?S Int) (?mu Int)) (let ((?v_0 (asLockSet ?S))) (=> (= (select1 ?v_0 ?mu) Smt.true) (lockLE ?mu (max ?v_0))))))
-(assert (forall ((?x Int) (?y Int)) (= (lockLT ?x ?y) (< ?x ?y))))
-(assert (forall ((?x Int) (?y Int)) (= (lockLE ?x ?y) (<= ?x ?y))))
-(assert (forall ((?S Int)) (! (= (select1 (asLockSet ?S) null) Smt.true) :pattern ((asLockSet ?S)) )))
-(assert (forall ((?S Int)) (let ((?v_0 (asLockSet ?S))) (= (select1 ?v_0 (max ?v_0)) Smt.true))))
-(assert (forall ((?a Int) (?e Int) (?i Int) (?a0 Int)) (! (=> (and (< (eClosedTime ?e) ?a0) (isAllocated ?a ?a0)) (isAllocated (select1 (select1 ?e ?a) ?i) ?a0)) :pattern ((isAllocated (select1 (select1 ?e ?a) ?i) ?a0)) )))
-(assert (forall ((?x Int) (?f Int) (?a0 Int)) (! (=> (and (< (fClosedTime ?f) ?a0) (isAllocated ?x ?a0)) (isAllocated (select1 ?f ?x) ?a0)) :pattern ((isAllocated (select1 ?f ?x) ?a0)) )))
-(assert (forall ((?x Int) (?a0 Int)) (= (isAllocated ?x ?a0) (< (vAllocTime ?x) ?a0))))
-(assert (forall ((?e Int) (?a Int) (?i Int)) (! (= Smt.true (is (select1 (select1 (asElems ?e) ?a) ?i) (elemtype (typeof ?a)))) :pattern ((select1 (select1 (asElems ?e) ?a) ?i)) )))
-(assert (forall ((?f Int) (?t Int) (?x Int)) (! (= Smt.true (is (select1 (asField ?f ?t) ?x) ?t)) :pattern ((select1 (asField ?f ?t) ?x)) )))
-(assert (forall ((?x Int) (?t Int)) (! (=> (subtypes ?t T_java.lang.Object) (= (= Smt.true (is ?x ?t)) (or (= ?x null) (subtypes (typeof ?x) ?t)))) :pattern ((subtypes ?t T_java.lang.Object) (is ?x ?t)) )))
-(assert (< intLast longLast))
-(assert (< 1000000 intLast))
-(assert (< intFirst (- 1000000)))
-(assert (< longFirst intFirst))
-(assert (forall ((?x Int)) (! (= (= Smt.true (is ?x T_long)) (and (<= longFirst ?x) (<= ?x longLast))) :pattern ((is ?x T_long)) )))
-(assert (forall ((?x Int)) (! (= (= Smt.true (is ?x T_int)) (and (<= intFirst ?x) (<= ?x intLast))) :pattern ((is ?x T_int)) )))
-(assert (forall ((?x Int)) (= (= Smt.true (is ?x T_short)) (and (<= (- 32768) ?x) (<= ?x 32767)))))
-(assert (forall ((?x Int)) (= (= Smt.true (is ?x T_byte)) (and (<= (- 128) ?x) (<= ?x 127)))))
-(assert (forall ((?x Int)) (! (= (= Smt.true (is ?x T_char)) (and (<= 0 ?x) (<= ?x 65535))) :pattern ((is ?x T_char)) )))
-(assert (distinct bool_false Smt.true))
-(assert (forall ((?x Int) (?t Int)) (! (=> (= Smt.true (is ?x ?t)) (= (cast ?x ?t) ?x)) :pattern ((cast ?x ?t)) )))
-(assert (forall ((?x Int) (?t Int)) (! (= Smt.true (is (cast ?x ?t) ?t)) :pattern ((cast ?x ?t)) )))
-(assert (forall ((?t0 Int) (?t1 Int)) (! (let ((?v_0 (elemtype ?t0))) (= (subtypes ?t0 (array ?t1)) (and (= ?t0 (array ?v_0)) (subtypes ?v_0 ?t1)))) :pattern ((subtypes ?t0 (array ?t1))) )))
-(assert (forall ((?t Int)) (! (= (elemtype (array ?t)) ?t) :pattern ((elemtype (array ?t))) )))
-(assert (forall ((?t Int)) (! (subtypes (array ?t) T_java.lang.Cloneable) :pattern ((array ?t)) )))
-(assert (subtypes T_java.lang.Cloneable T_java.lang.Object))
-(assert (forall ((?t0 Int) (?t1 Int) (?t2 Int)) (let ((?v_0 (asChild ?t1 ?t2))) (=> (subtypes ?t0 ?v_0) (= (classDown ?t2 ?t0) ?v_0)))))
-(assert (forall ((?t Int)) (! (=> (subtypes T_double ?t) (= ?t T_double)) :pattern ((subtypes T_double ?t)) )))
-(assert (forall ((?t Int)) (! (=> (subtypes T_float ?t) (= ?t T_float)) :pattern ((subtypes T_float ?t)) )))
-(assert (forall ((?t Int)) (! (=> (subtypes T_long ?t) (= ?t T_long)) :pattern ((subtypes T_long ?t)) )))
-(assert (forall ((?t Int)) (! (=> (subtypes T_int ?t) (= ?t T_int)) :pattern ((subtypes T_int ?t)) )))
-(assert (forall ((?t Int)) (! (=> (subtypes T_short ?t) (= ?t T_short)) :pattern ((subtypes T_short ?t)) )))
-(assert (forall ((?t Int)) (! (=> (subtypes T_byte ?t) (= ?t T_byte)) :pattern ((subtypes T_byte ?t)) )))
-(assert (forall ((?t Int)) (! (=> (subtypes T_char ?t) (= ?t T_char)) :pattern ((subtypes T_char ?t)) )))
-(assert (forall ((?t Int)) (! (=> (subtypes T_boolean ?t) (= ?t T_boolean)) :pattern ((subtypes T_boolean ?t)) )))
-(assert (forall ((?t Int)) (! (=> (subtypes ?t T_double) (= ?t T_double)) :pattern ((subtypes ?t T_double)) )))
-(assert (forall ((?t Int)) (! (=> (subtypes ?t T_float) (= ?t T_float)) :pattern ((subtypes ?t T_float)) )))
-(assert (forall ((?t Int)) (! (=> (subtypes ?t T_long) (= ?t T_long)) :pattern ((subtypes ?t T_long)) )))
-(assert (forall ((?t Int)) (! (=> (subtypes ?t T_int) (= ?t T_int)) :pattern ((subtypes ?t T_int)) )))
-(assert (forall ((?t Int)) (! (=> (subtypes ?t T_short) (= ?t T_short)) :pattern ((subtypes ?t T_short)) )))
-(assert (forall ((?t Int)) (! (=> (subtypes ?t T_byte) (= ?t T_byte)) :pattern ((subtypes ?t T_byte)) )))
-(assert (forall ((?t Int)) (! (=> (subtypes ?t T_char) (= ?t T_char)) :pattern ((subtypes ?t T_char)) )))
-(assert (forall ((?t Int)) (! (=> (subtypes ?t T_boolean) (= ?t T_boolean)) :pattern ((subtypes ?t T_boolean)) )))
-(assert (forall ((?t0 Int) (?t1 Int)) (! (=> (and (subtypes ?t0 ?t1) (subtypes ?t1 ?t0)) (= ?t0 ?t1)) :pattern ((subtypes ?t0 ?t1) (subtypes ?t1 ?t0)) )))
-(assert (forall ((?t0 Int) (?t1 Int) (?t2 Int)) (! (=> (and (subtypes ?t0 ?t1) (subtypes ?t1 ?t2)) (subtypes ?t0 ?t2)) :pattern ((subtypes ?t0 ?t1) (subtypes ?t1 ?t2)) )))
-(assert (subtypes T_java.lang.Object T_java.lang.Object))
-(assert (forall ((?t Int)) (! (subtypes ?t ?t) :pattern ((subtypes ?t ?t)) )))
-(assert (forall ((?m Int) (?i Int) (?j Int) (?x Int)) (=> (not (= ?i ?j)) (= (select1 (store1 ?m ?i ?x) ?j) (select1 ?m ?j)))))
-(assert (forall ((?m Int) (?i Int) (?x Int)) (= (select1 (store1 ?m ?i ?x) ?i) ?x)))
-(assert (let ((?v_0 (not (= args_181.36 null)))) (let ((?v_1 (not ?v_0)) (?v_3 (arrayLength args_181.36))) (let ((?v_61 (not (= ?v_3 1)))) (let ((?v_29 (not ?v_61)) (?v_8 (= Smt.true Smt.true)) (?v_2 (<= 0 0)) (?v_4 (< 0 ?v_3)) (?v_30 (= treeName_186.1 (select1 (select1 elems args_181.36) 0))) (?v_5 (not (= treeName_186.1 null))) (?v_31 (< alloc after_189.25_189.25)) (?v_6 (not (= RES_189.25_189.25 null))) (?v_32 (not (isAllocated RES_189.25_189.25 alloc))) (?v_33 (= Smt.true (is RES_189.25_189.25 T_java.io.File))) (?v_34 (isAllocated RES_189.25_189.25 after_189.25_189.25)) (?v_35 (= EC_189.25_189.25 ecReturn)) (?v_36 (= (select1 owner_6.35.28 RES_189.25_189.25) null)) (?v_37 (= (typeof RES_189.25_189.25) T_java.io.File)) (?v_38 (< after_189.25_189.25 after_189.12_189.12)) (?v_7 (not (= RES_189.12_189.12 null))) (?v_39 (not (isAllocated RES_189.12_189.12 after_189.25_189.25))) (?v_40 (= Smt.true (is RES_189.12_189.12 T_javafe.filespace.FileTree))) (?v_41 (isAllocated RES_189.12_189.12 after_189.12_189.12)) (?v_42 (= EC_189.12_189.12 ecReturn)) (?v_43 (= (select1 owner_6.35.28 RES_189.12_189.12) null)) (?v_44 (= (typeof RES_189.12_189.12) T_javafe.filespace.FileTree)) (?v_45 (< after_189.12_189.12 after_192.22_192.22)) (?v_9 (not (= RES_192.22_192.22 null))) (?v_46 (not (isAllocated RES_192.22_192.22 after_189.12_189.12))) (?v_47 (= Smt.true (is RES_192.22_192.22 T_javafe.filespace.TreeWalker))) (?v_48 (isAllocated RES_192.22_192.22 after_192.22_192.22)) (?v_49 (= EC_192.22_192.22 ecReturn)) (?v_50 (= (select1 owner_6.35.28 RES_192.22_192.22) null)) (?v_51 (= (typeof RES_192.22_192.22) T_javafe.filespace.TreeWalker)) (?v_52 (= EC_192.22_192.22 EC_loopold)) (?v_53 (= moreElements_5.58.29 moreElements_loopold_5.58.29))) (let ((?v_12 (not ?v_9)) (?v_17 (= Smt.true (is RES_192.1_0_192.45_192.45 T_boolean))) (?v_10 (= EC_192.1_0_192.45_192.45 ecReturn)) (?v_11 (= Smt.true RES_192.1_0_192.45_192.45)) (?v_13 (= Smt.true (select1 moreElements_5.58.29 RES_192.22_192.22)))) (let ((?v_18 (=> ?v_10 (= ?v_11 ?v_13))) (?v_19 (= moreElements_192.1_0_193.28_5.89.17 (store1 moreElements_5.58.29 RES_192.22_192.22 after_193.28_192.1_0_193.28_5.89.17))) (?v_20 (= moreElements_192.1_0_193.28_5.89.17 (asField moreElements_192.1_0_193.28_5.89.17 T_boolean))) (?v_21 (= Smt.true (is RES_192.1_0_193.28_193.28 T_java.lang.Object))) (?v_22 (isAllocated RES_192.1_0_193.28_193.28 after_192.22_192.22)) (?v_14 (= EC_192.1_0_193.28_193.28 ecReturn)) (?v_15 (= RES_192.1_0_193.28_193.28 null))) (let ((?v_23 (=> ?v_14 (or (subtypes (typeof RES_192.1_0_193.28_193.28) (select1 elementType_5.74.27 RES_192.22_192.22)) ?v_15))) (?v_24 (=> (and ?v_14 (not (= Smt.true (select1 returnsNull_5.79.29 RES_192.22_192.22)))) (not ?v_15))) (?v_25 (forall ((?brokenObj_11_ Int)) (let ((?v_65 (= Smt.true (select1 lookAheadValid_4.40.20 ?brokenObj_11_))) (?v_66 (not (= (select1 lookAhead_4.43.19 ?brokenObj_11_) null)))) (=> (and (= Smt.true (is ?brokenObj_11_ T_javafe.filespace.LookAheadEnum)) (not (= ?brokenObj_11_ null)) (=> ?v_65 (= (= Smt.true (select1 moreElements_5.58.29 ?brokenObj_11_)) ?v_66)) ?v_65) (= (= Smt.true (select1 moreElements_192.1_0_193.28_5.89.17 ?brokenObj_11_)) ?v_66))))) (?v_16 (= Smt.true (is RES_192.1_0_193.28_193.28 T_javafe.filespace.Tree))) (?v_26 (= subtree_192.1_0_193.5 (cast RES_192.1_0_193.28_193.28 T_javafe.filespace.Tree))) (?v_27 (not (= subtree_192.1_0_193.5 null))) (?v_54 (= Smt.true (is RES_192.1_0_194.32_194.32 T_java.lang.String))) (?v_55 (isAllocated RES_192.1_0_194.32_194.32 after_192.22_192.22)) (?v_28 (= EC_192.1_0_194.32_194.32 ecReturn))) (let ((?v_56 (=> ?v_28 (not (= RES_192.1_0_194.32_194.32 null)))) (?v_57 (= arg0_194.16_192.1_0_194.16_17.. (stringCat RES_192.1_0_194.32_194.32 S_194.56))) (?v_58 (= EC_192.1_0_194.16_194.16 ecReturn)) (?v_59 (= EC_192.1_1_192.45_192.45 ecReturn)) (?v_60 (= Smt.true RES_192.1_1_192.45_192.45))) (let ((?v_62 (or (and ?v_8 ?v_9 ?v_17 ?v_10 ?v_18 (not ?v_11)) (and ?v_8 ?v_9 ?v_17 ?v_10 ?v_18 ?v_11 ?v_9 ?v_13 ?v_19 ?v_20 ?v_21 ?v_22 ?v_14 ?v_23 ?v_24 ?v_25 ?v_16 ?v_26 ?v_27 ?v_54 ?v_55 ?v_28 ?v_56 ?v_57 ?v_58 ?v_8 ?v_9 (= Smt.true (is RES_192.1_1_192.45_192.45 T_boolean)) ?v_59 (=> ?v_59 (= ?v_60 (= Smt.true (select1 moreElements_192.1_0_193.28_5.89.17 RES_192.22_192.22)))) (not ?v_60)))) (?v_63 (= L_192.1 L_192.1)) (?v_64 (= EC_182.16 ecReturn))) (not (=> (and (distinct ecReturn L_192.1) (not (= S_194.56 null)) (= (typeof S_194.56) T_java.lang.String)) (=> (and (= elementType_pre_5.74.27 elementType_5.74.27) (= elementType_5.74.27 (asField elementType_5.74.27 T_.TYPE)) (= owner_pre_6.35.28 owner_6.35.28) (= owner_6.35.28 (asField owner_6.35.28 T_java.lang.Object)) (< (fClosedTime owner_6.35.28) alloc) (= list_pre_210.13 list_210.13) (= list_210.13 (asField list_210.13 (array T_java.lang.Object))) (< (fClosedTime list_210.13) alloc) (= lookAheadValid_pre_4.40.20 lookAheadValid_4.40.20) (= lookAheadValid_4.40.20 (asField lookAheadValid_4.40.20 T_boolean)) (= remainingNodes_pre_48.26 remainingNodes_48.26) (= remainingNodes_48.26 (asField remainingNodes_48.26 T_java.util.Enumeration)) (< (fClosedTime remainingNodes_48.26) alloc) (= out_pre_16.83.49 out_16.83.49) (= Smt.true (is out_16.83.49 T_java.io.PrintStream)) (isAllocated out_16.83.49 alloc) (not (= out_16.83.49 null)) (= lookAhead_pre_4.43.19 lookAhead_4.43.19) (= lookAhead_4.43.19 (asField lookAhead_4.43.19 T_java.lang.Object)) (< (fClosedTime lookAhead_4.43.19) alloc) (= returnsNull_pre_5.79.29 returnsNull_5.79.29) (= returnsNull_5.79.29 (asField returnsNull_5.79.29 T_boolean)) (= moreElements_pre_5.58.29 moreElements_5.58.29) (= moreElements_5.58.29 (asField moreElements_5.58.29 T_boolean)) (= remainingChildren_pre_39.26 remainingChildren_39.26) (= remainingChildren_39.26 (asField remainingChildren_39.26 T_java.util.Enumeration)) (< (fClosedTime remainingChildren_39.26) alloc) (= elems_pre elems) (= elems (asElems elems)) (< (eClosedTime elems) alloc) (= LS (asLockSet LS)) (= alloc_pre alloc)) (not (and (= Smt.true (is args_181.36 (array T_java.lang.String))) (isAllocated args_181.36 alloc) (nonnullelements args_181.36 elems) (forall ((?brokenObj Int)) (=> (and (= Smt.true (is ?brokenObj T_javafe.filespace.TreeWalker)) (not (= ?brokenObj null))) (= (select1 elementType_5.74.27 (select1 remainingChildren_39.26 ?brokenObj)) T_javafe.filespace.Tree))) (forall ((?brokenObj_1_ Int)) (=> (and (= Smt.true (is ?brokenObj_1_ T_javafe.filespace.TreeWalker)) (not (= ?brokenObj_1_ null))) (not (= (select1 remainingChildren_39.26 ?brokenObj_1_) null)))) (forall ((?brokenObj_2_ Int)) (=> (and (= Smt.true (is ?brokenObj_2_ T_javafe.filespace.TreeWalker)) (not (= ?brokenObj_2_ null))) (not (= Smt.true (select1 returnsNull_5.79.29 ?brokenObj_2_))))) (forall ((?brokenObj_3_ Int)) (=> (and (= Smt.true (is ?brokenObj_3_ T_javafe.filespace.TreeWalker)) (not (= ?brokenObj_3_ null))) (= (select1 elementType_5.74.27 (select1 remainingNodes_48.26 ?brokenObj_3_)) T_javafe.filespace.Tree))) (forall ((?brokenObj_4_ Int)) (=> (and (= Smt.true (is ?brokenObj_4_ T_javafe.filespace.LookAheadEnum)) (not (= ?brokenObj_4_ null)) (= Smt.true (select1 lookAheadValid_4.40.20 ?brokenObj_4_))) (= (= Smt.true (select1 moreElements_5.58.29 ?brokenObj_4_)) (not (= (select1 lookAhead_4.43.19 ?brokenObj_4_) null))))) (forall ((?brokenObj_5_ Int)) (=> (and (= Smt.true (is ?brokenObj_5_ T_javafe.filespace.TreeWalker)) (not (= ?brokenObj_5_ null))) (not (= (select1 remainingNodes_48.26 ?brokenObj_5_) null)))) (forall ((?brokenObj_6_ Int)) (=> (and (= Smt.true (is ?brokenObj_6_ T_javafe.filespace.TreeWalker)) (not (= ?brokenObj_6_ null))) (not (= Smt.true (select1 returnsNull_5.79.29 (select1 remainingChildren_39.26 ?brokenObj_6_)))))) (forall ((?brokenObj_7_ Int)) (=> (and (= Smt.true (is ?brokenObj_7_ T_javafe.filespace.TreeWalker)) (not (= ?brokenObj_7_ null))) (= (select1 elementType_5.74.27 ?brokenObj_7_) T_javafe.filespace.Tree))) (forall ((?brokenObj_8_ Int)) (let ((?v_67 (select1 lookAhead_4.43.19 ?brokenObj_8_))) (=> (and (= Smt.true (is ?brokenObj_8_ T_javafe.filespace.LookAheadEnum)) (not (= ?brokenObj_8_ null))) (or (subtypes (typeof ?v_67) (select1 elementType_5.74.27 ?brokenObj_8_)) (= ?v_67 null))))) (forall ((?brokenObj_9_ Int)) (=> (and (= Smt.true (is ?brokenObj_9_ T_javafe.filespace.TreeWalker)) (not (= ?brokenObj_9_ null))) (not (= Smt.true (select1 returnsNull_5.79.29 (select1 remainingNodes_48.26 ?brokenObj_9_)))))) (forall ((?brokenObj_10_ Int)) (=> (and (= Smt.true (is ?brokenObj_10_ T_javafe.filespace.LookAheadEnum)) (not (= ?brokenObj_10_ null))) (not (= Smt.true (select1 returnsNull_5.79.29 ?brokenObj_10_))))) (or ?v_1 (and ?v_0 ?v_29 ?v_8 (or ?v_1 (and ?v_0 (or (not ?v_2) (and ?v_2 (or (not ?v_4) (and ?v_4 ?v_30 (or (not ?v_5) (and ?v_5 ?v_31 ?v_6 ?v_32 ?v_33 ?v_34 ?v_35 ?v_36 ?v_37 (or (not ?v_6) (and ?v_6 ?v_38 ?v_7 ?v_39 ?v_40 ?v_41 ?v_42 ?v_43 ?v_44 (or (not ?v_7) (and ?v_7 ?v_45 ?v_9 ?v_46 ?v_47 ?v_48 ?v_49 ?v_50 ?v_51 ?v_52 ?v_53 (or (and ?v_8 (or ?v_12 (and ?v_9 ?v_17 ?v_10 ?v_18 ?v_11 (or ?v_12 (and ?v_9 (or (not ?v_13) (and ?v_13 ?v_19 ?v_20 ?v_21 ?v_22 ?v_14 ?v_23 ?v_24 ?v_25 (or (not ?v_16) (and ?v_16 ?v_26 (not ?v_27)))))))))) (and ?v_8 ?v_9 ?v_17 ?v_10 ?v_18 ?v_11 ?v_9 ?v_13 ?v_19 ?v_20 ?v_21 ?v_22 ?v_14 ?v_23 ?v_24 ?v_25 ?v_16 ?v_26 ?v_27 ?v_54 ?v_55 ?v_28 ?v_56 ?v_57 ?v_58 ?v_8 ?v_12))))))))))))))) (and (or (and ?v_0 ?v_29 ?v_8 ?v_0 ?v_2 ?v_4 ?v_30 ?v_5 ?v_31 ?v_6 ?v_32 ?v_33 ?v_34 ?v_35 ?v_36 ?v_37 ?v_6 ?v_38 ?v_7 ?v_39 ?v_40 ?v_41 ?v_42 ?v_43 ?v_44 ?v_7 ?v_45 ?v_9 ?v_46 ?v_47 ?v_48 ?v_49 ?v_50 ?v_51 ?v_52 ?v_53 ?v_62 ?v_63 (= EC L_192.1) ?v_64) (and ?v_0 (or (and ?v_61 ?v_8 (= EC_183.16_183.16 ecReturn) ?v_8 (= EC_182.16_1_ ecReturn)) (and ?v_29 ?v_8 ?v_0 ?v_2 ?v_4 ?v_30 ?v_5 ?v_31 ?v_6 ?v_32 ?v_33 ?v_34 ?v_35 ?v_36 ?v_37 ?v_6 ?v_38 ?v_7 ?v_39 ?v_40 ?v_41 ?v_42 ?v_43 ?v_44 ?v_7 ?v_45 ?v_9 ?v_46 ?v_47 ?v_48 ?v_49 ?v_50 ?v_51 ?v_52 ?v_53 ?v_62 (not ?v_63) (= EC_182.16_1_ L_192.1))) (= EC_182.16 EC_182.16_1_))) (not ?v_64))))))))))))))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/quantifiers/qcft-smtlib3dbc51.smt2 b/test/regress/regress0/quantifiers/qcft-smtlib3dbc51.smt2
deleted file mode 100644
index 6874c522e..000000000
--- a/test/regress/regress0/quantifiers/qcft-smtlib3dbc51.smt2
+++ /dev/null
@@ -1,233 +0,0 @@
-; COMMAND-LINE: --qcf-tconstraint
-; EXPECT: unsat
-(set-logic AUFLIRA)
-(set-info :source |http://proval.lri.fr/why-benchmarks |)
-(set-info :smt-lib-version 2.0)
-(set-info :category "industrial")
-(set-info :status unsat)
-(declare-sort Unit 0)
-(declare-sort c_unique 0)
-(declare-sort c_ssorted 0)
-(declare-sort c_type 0)
-(declare-sort c_Boolean 0)
-(declare-fun c_sort (c_type c_unique) c_ssorted)
-(declare-fun c_Boolean_true () c_Boolean)
-(declare-fun c_Boolean_false () c_Boolean)
-(assert (forall ((?b_22_1 c_Boolean)) (or (= c_Boolean_true ?b_22_1) (= c_Boolean_false ?b_22_1))))
-(assert (not (= c_Boolean_true c_Boolean_false)))
-(declare-fun int2U (Int) c_unique)
-(declare-fun ss2Int (c_ssorted) Int)
-(declare-fun real2U (Real) c_unique)
-(declare-fun ss2Real (c_ssorted) Real)
-(declare-fun bool2U (c_Boolean) c_unique)
-(declare-fun ss2Bool (c_ssorted) c_Boolean)
-(declare-fun c_int () c_type)
-(declare-fun c_bool () c_type)
-(declare-fun c_real () c_type)
-(declare-fun c_unit () c_type)
-(declare-fun c_ref (c_unique) c_unique)
-(assert (forall ((?t_21_2 c_type)) (forall ((?x_20_3 c_unique)) (forall ((?y_19_4 c_unique)) (=> (= (c_sort ?t_21_2 ?x_20_3) (c_sort ?t_21_2 ?y_19_4)) (= ?x_20_3 ?y_19_4))))))
-(assert (forall ((?x_18_5 Int)) (= (ss2Int (c_sort c_int (int2U ?x_18_5))) ?x_18_5)))
-(assert (forall ((?x_17_6 Int)) (forall ((?y_16_7 Int)) (=> (= (int2U ?x_17_6) (int2U ?y_16_7)) (= ?x_17_6 ?y_16_7)))))
-(assert (forall ((?x_15_8 Real)) (forall ((?y_14_9 Real)) (=> (= (real2U ?x_15_8) (real2U ?y_14_9)) (= ?x_15_8 ?y_14_9)))))
-(assert (forall ((?x_13_10 c_Boolean)) (forall ((?y_12_11 c_Boolean)) (=> (= (bool2U ?x_13_10) (bool2U ?y_12_11)) (= ?x_13_10 ?y_12_11)))))
-(assert (forall ((?x_11_12 c_ssorted)) (forall ((?y_10_13 c_ssorted)) (=> (= (ss2Int ?x_11_12) (ss2Int ?y_10_13)) (= ?x_11_12 ?y_10_13)))))
-(assert (forall ((?x_9_14 c_ssorted)) (forall ((?y_8_15 c_ssorted)) (=> (= (ss2Real ?x_9_14) (ss2Real ?y_8_15)) (= ?x_9_14 ?y_8_15)))))
-(assert (forall ((?x_7_16 c_ssorted)) (forall ((?y_6_17 c_ssorted)) (=> (= (ss2Bool ?x_7_16) (ss2Bool ?y_6_17)) (= ?x_7_16 ?y_6_17)))))
-(assert (forall ((?x_5_18 Real)) (= (ss2Real (c_sort c_real (real2U ?x_5_18))) ?x_5_18)))
-(assert (forall ((?x_4_19 c_Boolean)) (= (ss2Bool (c_sort c_bool (bool2U ?x_4_19))) ?x_4_19)))
-(assert (forall ((?x_3_20 c_unique)) (= (int2U (ss2Int (c_sort c_int ?x_3_20))) ?x_3_20)))
-(assert (forall ((?x_2_21 c_unique)) (= (real2U (ss2Real (c_sort c_real ?x_2_21))) ?x_2_21)))
-(assert (forall ((?x_1_22 c_unique)) (= (bool2U (ss2Bool (c_sort c_bool ?x_1_22))) ?x_1_22)))
-(declare-fun eq_int (Int Int) Bool)
-(declare-fun neq_int (Int Int) Bool)
-(declare-fun lt_int_bool (Int Int) c_Boolean)
-(declare-fun le_int_bool (Int Int) c_Boolean)
-(declare-fun gt_int_bool (Int Int) c_Boolean)
-(declare-fun ge_int_bool (Int Int) c_Boolean)
-(declare-fun eq_int_bool (Int Int) c_Boolean)
-(declare-fun neq_int_bool (Int Int) c_Boolean)
-(assert (forall ((?x_40_23 Int)) (forall ((?y_39_24 Int)) (= (= (lt_int_bool ?x_40_23 ?y_39_24) c_Boolean_true) (< ?x_40_23 ?y_39_24)))))
-(assert (forall ((?x_42_25 Int)) (forall ((?y_41_26 Int)) (= (= (le_int_bool ?x_42_25 ?y_41_26) c_Boolean_true) (<= ?x_42_25 ?y_41_26)))))
-(assert (forall ((?x_44_27 Int)) (forall ((?y_43_28 Int)) (= (= (gt_int_bool ?x_44_27 ?y_43_28) c_Boolean_true) (> ?x_44_27 ?y_43_28)))))
-(assert (forall ((?x_46_29 Int)) (forall ((?y_45_30 Int)) (= (= (ge_int_bool ?x_46_29 ?y_45_30) c_Boolean_true) (>= ?x_46_29 ?y_45_30)))))
-(assert (forall ((?x_48_31 Int)) (forall ((?y_47_32 Int)) (= (= (eq_int_bool ?x_48_31 ?y_47_32) c_Boolean_true) (= ?x_48_31 ?y_47_32)))))
-(assert (forall ((?x_50_33 Int)) (forall ((?y_49_34 Int)) (= (= (neq_int_bool ?x_50_33 ?y_49_34) c_Boolean_true) (not (= ?x_50_33 ?y_49_34))))))
-(declare-fun add_real (Real Real) Real)
-(declare-fun sub_real (Real Real) Real)
-(declare-fun mul_real (Real Real) Real)
-(declare-fun div_real (Real Real) Real)
-(declare-fun pow_real (Real Real) Real)
-(declare-fun neg_real (Real) Real)
-(declare-fun abs_real (Real) Real)
-(declare-fun sqrt_real (Real) Real)
-(declare-fun real_of_int (Int) Real)
-(declare-fun int_of_real (Real) Int)
-(declare-fun lt_real (Real Real) Bool)
-(declare-fun le_real (Real Real) Bool)
-(declare-fun gt_real (Real Real) Bool)
-(declare-fun ge_real (Real Real) Bool)
-(declare-fun eq_real (Real Real) Bool)
-(declare-fun neq_real (Real Real) Bool)
-(declare-fun eq_bool (c_Boolean c_Boolean) Bool)
-(declare-fun neq_bool (c_Boolean c_Boolean) Bool)
-(declare-fun eq_unit (c_ssorted c_ssorted) Bool)
-(declare-fun neq_unit (c_ssorted c_ssorted) Bool)
-(declare-fun smtlib__ite (c_Boolean c_ssorted c_ssorted) c_unique)
-(assert (forall ((?t_1_76_35 c_type)) (forall ((?x_75_36 c_unique)) (forall ((?y_74_37 c_unique)) (= (smtlib__ite c_Boolean_true (c_sort ?t_1_76_35 ?x_75_36) (c_sort ?t_1_76_35 ?y_74_37)) ?x_75_36)))))
-(assert (forall ((?t_2_79_38 c_type)) (forall ((?x_78_39 c_unique)) (forall ((?y_77_40 c_unique)) (= (smtlib__ite c_Boolean_false (c_sort ?t_2_79_38 ?x_78_39) (c_sort ?t_2_79_38 ?y_77_40)) ?y_77_40)))))
-(declare-fun bw_compl (Int) Int)
-(declare-fun bw_and (Int Int) Int)
-(declare-fun bw_xor (Int Int) Int)
-(declare-fun bw_or (Int Int) Int)
-(declare-fun lsl (Int Int) Int)
-(declare-fun lsr (Int Int) Int)
-(declare-fun non_int (Int) Int)
-(declare-fun type_pointer (c_type) c_type)
-(declare-fun type_addr (c_type) c_type)
-(declare-fun type_alloc_table () c_type)
-(declare-fun block_length (c_ssorted c_ssorted) Int)
-(declare-fun base_addr (c_ssorted) c_unique)
-(declare-fun offset (c_ssorted) Int)
-(declare-fun shift (c_ssorted Int) c_unique)
-(declare-fun sub_pointer (c_ssorted c_ssorted) Int)
-(declare-fun lt_pointer (c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_3_88_41 c_type)) (forall ((?p1_87_42 c_unique)) (forall ((?p2_86_43 c_unique)) (let ((?v_0 (type_pointer ?t_3_88_41))) (let ((?v_1 (c_sort ?v_0 ?p1_87_42)) (?v_2 (c_sort ?v_0 ?p2_86_43))) (= (lt_pointer ?v_1 ?v_2) (and (= (base_addr ?v_1) (base_addr ?v_2)) (< (offset ?v_1) (offset ?v_2))))))))))
-(declare-fun le_pointer (c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_4_91_44 c_type)) (forall ((?p1_90_45 c_unique)) (forall ((?p2_89_46 c_unique)) (let ((?v_0 (type_pointer ?t_4_91_44))) (let ((?v_1 (c_sort ?v_0 ?p1_90_45)) (?v_2 (c_sort ?v_0 ?p2_89_46))) (= (le_pointer ?v_1 ?v_2) (and (= (base_addr ?v_1) (base_addr ?v_2)) (<= (offset ?v_1) (offset ?v_2))))))))))
-(declare-fun gt_pointer (c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_5_94_47 c_type)) (forall ((?p1_93_48 c_unique)) (forall ((?p2_92_49 c_unique)) (let ((?v_0 (type_pointer ?t_5_94_47))) (let ((?v_1 (c_sort ?v_0 ?p1_93_48)) (?v_2 (c_sort ?v_0 ?p2_92_49))) (= (gt_pointer ?v_1 ?v_2) (and (= (base_addr ?v_1) (base_addr ?v_2)) (> (offset ?v_1) (offset ?v_2))))))))))
-(declare-fun ge_pointer (c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_6_97_50 c_type)) (forall ((?p1_96_51 c_unique)) (forall ((?p2_95_52 c_unique)) (let ((?v_0 (type_pointer ?t_6_97_50))) (let ((?v_1 (c_sort ?v_0 ?p1_96_51)) (?v_2 (c_sort ?v_0 ?p2_95_52))) (= (ge_pointer ?v_1 ?v_2) (and (= (base_addr ?v_1) (base_addr ?v_2)) (>= (offset ?v_1) (offset ?v_2))))))))))
-(declare-fun valid (c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_7_104_53 c_type)) (forall ((?a_103_54 c_unique)) (forall ((?p_102_55 c_unique)) (let ((?v_2 (c_sort type_alloc_table ?a_103_54)) (?v_0 (c_sort (type_pointer ?t_7_104_53) ?p_102_55))) (let ((?v_1 (offset ?v_0))) (= (valid ?v_2 ?v_0) (and (<= 0 ?v_1) (< ?v_1 (block_length ?v_2 ?v_0))))))))))
-(declare-fun valid_index (c_ssorted c_ssorted Int) Bool)
-(assert (forall ((?t_8_108_56 c_type)) (forall ((?a_107_57 c_unique)) (forall ((?p_106_58 c_unique)) (forall ((?i_105_59 Int)) (let ((?v_2 (c_sort type_alloc_table ?a_107_57)) (?v_0 (c_sort (type_pointer ?t_8_108_56) ?p_106_58))) (let ((?v_1 (+ (offset ?v_0) ?i_105_59))) (= (valid_index ?v_2 ?v_0 ?i_105_59) (and (<= 0 ?v_1) (< ?v_1 (block_length ?v_2 ?v_0)))))))))))
-(declare-fun valid_range (c_ssorted c_ssorted Int Int) Bool)
-(assert (forall ((?t_9_113_60 c_type)) (forall ((?a_112_61 c_unique)) (forall ((?p_111_62 c_unique)) (forall ((?i_110_63 Int)) (forall ((?j_109_64 Int)) (let ((?v_2 (c_sort type_alloc_table ?a_112_61)) (?v_0 (c_sort (type_pointer ?t_9_113_60) ?p_111_62))) (let ((?v_1 (offset ?v_0))) (= (valid_range ?v_2 ?v_0 ?i_110_63 ?j_109_64) (and (<= 0 (+ ?v_1 ?i_110_63)) (< (+ ?v_1 ?j_109_64) (block_length ?v_2 ?v_0))))))))))))
-(assert (forall ((?t_10_116_65 c_type)) (forall ((?p_115_66 c_unique)) (forall ((?i_114_67 Int)) (let ((?v_0 (type_pointer ?t_10_116_65))) (let ((?v_1 (c_sort ?v_0 ?p_115_66))) (= (offset (c_sort ?v_0 (shift ?v_1 ?i_114_67))) (+ (offset ?v_1) ?i_114_67))))))))
-(assert (forall ((?t_11_118_68 c_type)) (forall ((?p_117_69 c_unique)) (= (shift (c_sort (type_pointer ?t_11_118_68) ?p_117_69) 0) ?p_117_69))))
-(assert (forall ((?t_12_122_70 c_type)) (forall ((?p_121_71 c_unique)) (forall ((?i_120_72 Int)) (forall ((?j_119_73 Int)) (let ((?v_0 (type_pointer ?t_12_122_70))) (let ((?v_1 (c_sort ?v_0 ?p_121_71))) (= (shift (c_sort ?v_0 (shift ?v_1 ?i_120_72)) ?j_119_73) (shift ?v_1 (+ ?i_120_72 ?j_119_73))))))))))
-(assert (forall ((?t_13_125_74 c_type)) (forall ((?p_124_75 c_unique)) (forall ((?i_123_76 Int)) (let ((?v_0 (type_pointer ?t_13_125_74))) (let ((?v_1 (c_sort ?v_0 ?p_124_75))) (= (base_addr (c_sort ?v_0 (shift ?v_1 ?i_123_76))) (base_addr ?v_1))))))))
-(assert (forall ((?t_14_129_77 c_type)) (forall ((?a_128_78 c_unique)) (forall ((?p_127_79 c_unique)) (forall ((?i_126_80 Int)) (let ((?v_1 (c_sort type_alloc_table ?a_128_78)) (?v_0 (type_pointer ?t_14_129_77))) (let ((?v_2 (c_sort ?v_0 ?p_127_79))) (= (block_length ?v_1 (c_sort ?v_0 (shift ?v_2 ?i_126_80))) (block_length ?v_1 ?v_2)))))))))
-(assert (forall ((?t_15_133_81 c_type)) (forall ((?a_132_82 c_unique)) (forall ((?p1_131_83 c_unique)) (forall ((?p2_130_84 c_unique)) (let ((?v_0 (type_pointer ?t_15_133_81))) (let ((?v_1 (c_sort ?v_0 ?p1_131_83)) (?v_3 (c_sort ?v_0 ?p2_130_84)) (?v_2 (c_sort type_alloc_table ?a_132_82))) (=> (= (base_addr ?v_1) (base_addr ?v_3)) (= (block_length ?v_2 ?v_1) (block_length ?v_2 ?v_3))))))))))
-(assert (forall ((?t_16_136_85 c_type)) (forall ((?p1_135_86 c_unique)) (forall ((?p2_134_87 c_unique)) (let ((?v_0 (type_pointer ?t_16_136_85))) (let ((?v_1 (c_sort ?v_0 ?p1_135_86)) (?v_2 (c_sort ?v_0 ?p2_134_87))) (=> (and (= (base_addr ?v_1) (base_addr ?v_2)) (= (offset ?v_1) (offset ?v_2))) (= ?p1_135_86 ?p2_134_87))))))))
-(assert (forall ((?t_17_139_88 c_type)) (forall ((?p1_138_89 c_unique)) (forall ((?p2_137_90 c_unique)) (let ((?v_0 (type_pointer ?t_17_139_88))) (let ((?v_1 (c_sort ?v_0 ?p1_138_89)) (?v_2 (c_sort ?v_0 ?p2_137_90))) (=> (= ?p1_138_89 ?p2_137_90) (and (= (base_addr ?v_1) (base_addr ?v_2)) (= (offset ?v_1) (offset ?v_2))))))))))
-(assert (forall ((?t_18_144_91 c_type)) (forall ((?p1_143_92 c_unique)) (forall ((?p2_142_93 c_unique)) (forall ((?i_141_94 Int)) (forall ((?j_140_95 Int)) (let ((?v_0 (type_pointer ?t_18_144_91))) (let ((?v_1 (c_sort ?v_0 ?p1_143_92)) (?v_2 (c_sort ?v_0 ?p2_142_93))) (=> (not (= (base_addr ?v_1) (base_addr ?v_2))) (not (= (shift ?v_1 ?i_141_94) (shift ?v_2 ?j_140_95))))))))))))
-(assert (forall ((?t_19_149_96 c_type)) (forall ((?p1_148_97 c_unique)) (forall ((?p2_147_98 c_unique)) (forall ((?i_146_99 Int)) (forall ((?j_145_100 Int)) (let ((?v_0 (type_pointer ?t_19_149_96))) (let ((?v_1 (c_sort ?v_0 ?p1_148_97)) (?v_2 (c_sort ?v_0 ?p2_147_98))) (=> (not (= (+ (offset ?v_1) ?i_146_99) (+ (offset ?v_2) ?j_145_100))) (not (= (shift ?v_1 ?i_146_99) (shift ?v_2 ?j_145_100))))))))))))
-(assert (forall ((?t_20_154_101 c_type)) (forall ((?p1_153_102 c_unique)) (forall ((?p2_152_103 c_unique)) (forall ((?i_151_104 Int)) (forall ((?j_150_105 Int)) (let ((?v_0 (type_pointer ?t_20_154_101))) (let ((?v_1 (c_sort ?v_0 ?p1_153_102)) (?v_2 (c_sort ?v_0 ?p2_152_103))) (=> (= (base_addr ?v_1) (base_addr ?v_2)) (=> (= (+ (offset ?v_1) ?i_151_104) (+ (offset ?v_2) ?j_150_105)) (= (shift ?v_1 ?i_151_104) (shift ?v_2 ?j_150_105))))))))))))
-(assert (forall ((?t_21_158_106 c_type)) (forall ((?a_157_107 c_unique)) (forall ((?p_156_108 c_unique)) (forall ((?i_155_109 Int)) (let ((?v_0 (c_sort type_alloc_table ?a_157_107)) (?v_1 (type_pointer ?t_21_158_106))) (let ((?v_2 (c_sort ?v_1 ?p_156_108))) (=> (valid_index ?v_0 ?v_2 ?i_155_109) (valid ?v_0 (c_sort ?v_1 (shift ?v_2 ?i_155_109)))))))))))
-(assert (forall ((?t_22_164_110 c_type)) (forall ((?a_163_111 c_unique)) (forall ((?p_162_112 c_unique)) (forall ((?i_161_113 Int)) (forall ((?j_160_114 Int)) (forall ((?k_159_115 Int)) (let ((?v_0 (c_sort type_alloc_table ?a_163_111)) (?v_1 (type_pointer ?t_22_164_110))) (let ((?v_2 (c_sort ?v_1 ?p_162_112))) (=> (valid_range ?v_0 ?v_2 ?i_161_113 ?j_160_114) (=> (and (<= ?i_161_113 ?k_159_115) (<= ?k_159_115 ?j_160_114)) (valid ?v_0 (c_sort ?v_1 (shift ?v_2 ?k_159_115))))))))))))))
-(assert (forall ((?t_23_169_116 c_type)) (forall ((?a_168_117 c_unique)) (forall ((?p_167_118 c_unique)) (forall ((?i_166_119 Int)) (forall ((?j_165_120 Int)) (let ((?v_0 (c_sort type_alloc_table ?a_168_117)) (?v_1 (c_sort (type_pointer ?t_23_169_116) ?p_167_118))) (=> (valid_range ?v_0 ?v_1 ?i_166_119 ?j_165_120) (=> (and (<= ?i_166_119 0) (<= 0 ?j_165_120)) (valid ?v_0 ?v_1))))))))))
-(assert (forall ((?t_24_175_121 c_type)) (forall ((?a_174_122 c_unique)) (forall ((?p_173_123 c_unique)) (forall ((?i_172_124 Int)) (forall ((?j_171_125 Int)) (forall ((?k_170_126 Int)) (let ((?v_0 (c_sort type_alloc_table ?a_174_122)) (?v_1 (c_sort (type_pointer ?t_24_175_121) ?p_173_123))) (=> (valid_range ?v_0 ?v_1 ?i_172_124 ?j_171_125) (=> (and (<= ?i_172_124 ?k_170_126) (<= ?k_170_126 ?j_171_125)) (valid_index ?v_0 ?v_1 ?k_170_126)))))))))))
-(assert (forall ((?t_25_178_127 c_type)) (forall ((?p1_177_128 c_unique)) (forall ((?p2_176_129 c_unique)) (let ((?v_0 (type_pointer ?t_25_178_127))) (let ((?v_1 (c_sort ?v_0 ?p1_177_128)) (?v_2 (c_sort ?v_0 ?p2_176_129))) (=> (= (base_addr ?v_1) (base_addr ?v_2)) (= (sub_pointer ?v_1 ?v_2) (- (offset ?v_1) (offset ?v_2))))))))))
-(declare-fun type_memory (c_type c_type) c_type)
-(declare-fun acc (c_ssorted c_ssorted) c_unique)
-(declare-fun upd (c_ssorted c_ssorted c_ssorted) c_unique)
-(assert (forall ((?t_27_212_130 c_type)) (forall ((?t_26_211_131 c_type)) (forall ((?m_210_132 c_unique)) (forall ((?p_209_133 c_unique)) (forall ((?a_208_134 c_unique)) (let ((?v_0 (type_memory ?t_26_211_131 ?t_27_212_130)) (?v_1 (c_sort (type_pointer ?t_27_212_130) ?p_209_133))) (= (acc (c_sort ?v_0 (upd (c_sort ?v_0 ?m_210_132) ?v_1 (c_sort ?t_26_211_131 ?a_208_134))) ?v_1) ?a_208_134))))))))
-(assert (forall ((?t_29_218_135 c_type)) (forall ((?t_28_217_136 c_type)) (forall ((?m_216_137 c_unique)) (forall ((?p1_215_138 c_unique)) (forall ((?p2_214_139 c_unique)) (forall ((?a_213_140 c_unique)) (let ((?v_0 (type_memory ?t_28_217_136 ?t_29_218_135))) (let ((?v_2 (c_sort ?v_0 ?m_216_137)) (?v_1 (type_pointer ?t_29_218_135))) (let ((?v_3 (c_sort ?v_1 ?p2_214_139))) (=> (not (= ?p1_215_138 ?p2_214_139)) (= (acc (c_sort ?v_0 (upd ?v_2 (c_sort ?v_1 ?p1_215_138) (c_sort ?t_28_217_136 ?a_213_140))) ?v_3) (acc ?v_2 ?v_3)))))))))))))
-(assert (not (= c_Boolean_false c_Boolean_true)))
-(declare-fun type_pset (c_type) c_type)
-(declare-fun pset_empty () c_unique)
-(declare-fun pset_singleton (c_ssorted) c_unique)
-(declare-fun pset_star (c_ssorted c_ssorted) c_unique)
-(declare-fun pset_all (c_ssorted) c_unique)
-(declare-fun pset_range (c_ssorted Int Int) c_unique)
-(declare-fun pset_range_left (c_ssorted Int) c_unique)
-(declare-fun pset_range_right (c_ssorted Int) c_unique)
-(declare-fun pset_acc_all (c_ssorted c_ssorted) c_unique)
-(declare-fun pset_acc_range (c_ssorted c_ssorted Int Int) c_unique)
-(declare-fun pset_acc_range_left (c_ssorted c_ssorted Int) c_unique)
-(declare-fun pset_acc_range_right (c_ssorted c_ssorted Int) c_unique)
-(declare-fun pset_union (c_ssorted c_ssorted) c_unique)
-(declare-fun not_in_pset (c_ssorted c_ssorted) Bool)
-(declare-fun not_assigns (c_ssorted c_ssorted c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_31_225_141 c_type)) (forall ((?t_30_224_142 c_type)) (forall ((?a_223_143 c_unique)) (forall ((?m1_222_144 c_unique)) (forall ((?m2_221_145 c_unique)) (forall ((?l_220_146 c_unique)) (let ((?v_0 (type_memory ?t_30_224_142 ?t_31_225_141))) (= (not_assigns (c_sort type_alloc_table ?a_223_143) (c_sort ?v_0 ?m1_222_144) (c_sort ?v_0 ?m2_221_145) (c_sort (type_pset ?t_31_225_141) ?l_220_146)) (forall ((?p_219_147 c_unique)) (let ((?v_1 (c_sort (type_pointer ?t_31_225_141) ?p_219_147))) (=> (valid (c_sort type_alloc_table ?a_223_143) ?v_1) (=> (not_in_pset ?v_1 (c_sort (type_pset ?t_31_225_141) ?l_220_146)) (= (acc (c_sort ?v_0 ?m2_221_145) ?v_1) (acc (c_sort ?v_0 ?m1_222_144) ?v_1)))))))))))))))
-(assert (forall ((?t_32_227_148 c_type)) (forall ((?p_226_149 c_unique)) (not_in_pset (c_sort (type_pointer ?t_32_227_148) ?p_226_149) (c_sort (type_pset ?t_32_227_148) pset_empty)))))
-(assert (forall ((?t_33_230_150 c_type)) (forall ((?p1_229_151 c_unique)) (forall ((?p2_228_152 c_unique)) (let ((?v_0 (type_pointer ?t_33_230_150))) (=> (not (= ?p1_229_151 ?p2_228_152)) (not_in_pset (c_sort ?v_0 ?p1_229_151) (c_sort (type_pset ?t_33_230_150) (pset_singleton (c_sort ?v_0 ?p2_228_152))))))))))
-(assert (forall ((?t_34_233_153 c_type)) (forall ((?p1_232_154 c_unique)) (forall ((?p2_231_155 c_unique)) (let ((?v_0 (type_pointer ?t_34_233_153))) (=> (not_in_pset (c_sort ?v_0 ?p1_232_154) (c_sort (type_pset ?t_34_233_153) (pset_singleton (c_sort ?v_0 ?p2_231_155)))) (not (= ?p1_232_154 ?p2_231_155))))))))
-(assert (forall ((?t_35_235_156 c_type)) (forall ((?p_234_157 c_unique)) (let ((?v_0 (c_sort (type_pointer ?t_35_235_156) ?p_234_157))) (not (not_in_pset ?v_0 (c_sort (type_pset ?t_35_235_156) (pset_singleton ?v_0))))))))
-(assert (forall ((?t_36_239_158 c_type)) (forall ((?l1_238_159 c_unique)) (forall ((?l2_237_160 c_unique)) (forall ((?p_236_161 c_unique)) (let ((?v_0 (c_sort (type_pointer ?t_36_239_158) ?p_236_161)) (?v_1 (type_pset ?t_36_239_158))) (let ((?v_2 (c_sort ?v_1 ?l1_238_159)) (?v_3 (c_sort ?v_1 ?l2_237_160))) (=> (and (not_in_pset ?v_0 ?v_2) (not_in_pset ?v_0 ?v_3)) (not_in_pset ?v_0 (c_sort ?v_1 (pset_union ?v_2 ?v_3)))))))))))
-(assert (forall ((?t_37_243_162 c_type)) (forall ((?l1_242_163 c_unique)) (forall ((?l2_241_164 c_unique)) (forall ((?p_240_165 c_unique)) (let ((?v_1 (c_sort (type_pointer ?t_37_243_162) ?p_240_165)) (?v_0 (type_pset ?t_37_243_162))) (let ((?v_2 (c_sort ?v_0 ?l1_242_163))) (=> (not_in_pset ?v_1 (c_sort ?v_0 (pset_union ?v_2 (c_sort ?v_0 ?l2_241_164)))) (not_in_pset ?v_1 ?v_2)))))))))
-(assert (forall ((?t_38_247_166 c_type)) (forall ((?l1_246_167 c_unique)) (forall ((?l2_245_168 c_unique)) (forall ((?p_244_169 c_unique)) (let ((?v_1 (c_sort (type_pointer ?t_38_247_166) ?p_244_169)) (?v_0 (type_pset ?t_38_247_166))) (let ((?v_2 (c_sort ?v_0 ?l2_245_168))) (=> (not_in_pset ?v_1 (c_sort ?v_0 (pset_union (c_sort ?v_0 ?l1_246_167) ?v_2))) (not_in_pset ?v_1 ?v_2)))))))))
-(assert (forall ((?t_40_253_170 c_type)) (forall ((?t_39_252_171 c_type)) (forall ((?l_251_172 c_unique)) (forall ((?m_250_173 c_unique)) (forall ((?p_249_174 c_unique)) (let ((?v_0 (type_pointer ?t_40_253_170))) (=> (forall ((?p1_248_175 c_unique)) (let ((?v_1 (c_sort (type_pointer ?t_39_252_171) ?p1_248_175))) (=> (= ?p_249_174 (acc (c_sort (type_memory ?v_0 ?t_39_252_171) ?m_250_173) ?v_1)) (not_in_pset ?v_1 (c_sort (type_pset ?t_39_252_171) ?l_251_172))))) (not_in_pset (c_sort ?v_0 ?p_249_174) (c_sort (type_pset ?t_40_253_170) (pset_star (c_sort (type_pset ?t_39_252_171) ?l_251_172) (c_sort (type_memory ?v_0 ?t_39_252_171) ?m_250_173))))))))))))
-(assert (forall ((?t_42_259_176 c_type)) (forall ((?t_41_258_177 c_type)) (forall ((?l_257_178 c_unique)) (forall ((?m_256_179 c_unique)) (forall ((?p_255_180 c_unique)) (let ((?v_0 (type_pointer ?t_42_259_176))) (=> (not_in_pset (c_sort ?v_0 ?p_255_180) (c_sort (type_pset ?t_42_259_176) (pset_star (c_sort (type_pset ?t_41_258_177) ?l_257_178) (c_sort (type_memory ?v_0 ?t_41_258_177) ?m_256_179)))) (forall ((?p1_254_181 c_unique)) (let ((?v_1 (c_sort (type_pointer ?t_41_258_177) ?p1_254_181))) (=> (= ?p_255_180 (acc (c_sort (type_memory ?v_0 ?t_41_258_177) ?m_256_179) ?v_1)) (not_in_pset ?v_1 (c_sort (type_pset ?t_41_258_177) ?l_257_178)))))))))))))
-(assert (forall ((?t_43_263_182 c_type)) (forall ((?p_262_183 c_unique)) (forall ((?l_261_184 c_unique)) (let ((?v_0 (type_pset ?t_43_263_182))) (=> (forall ((?p1_260_185 c_unique)) (let ((?v_1 (type_pointer ?t_43_263_182))) (let ((?v_2 (c_sort ?v_1 ?p1_260_185))) (=> (not (not_in_pset ?v_2 (c_sort ?v_0 ?l_261_184))) (not (= (base_addr (c_sort ?v_1 ?p_262_183)) (base_addr ?v_2))))))) (not_in_pset (c_sort (type_pointer ?t_43_263_182) ?p_262_183) (c_sort ?v_0 (pset_all (c_sort ?v_0 ?l_261_184))))))))))
-(assert (forall ((?t_44_267_186 c_type)) (forall ((?p_266_187 c_unique)) (forall ((?l_265_188 c_unique)) (let ((?v_0 (type_pset ?t_44_267_186))) (=> (not_in_pset (c_sort (type_pointer ?t_44_267_186) ?p_266_187) (c_sort ?v_0 (pset_all (c_sort ?v_0 ?l_265_188)))) (forall ((?p1_264_189 c_unique)) (let ((?v_1 (type_pointer ?t_44_267_186))) (let ((?v_2 (c_sort ?v_1 ?p1_264_189))) (=> (not (not_in_pset ?v_2 (c_sort ?v_0 ?l_265_188))) (not (= (base_addr (c_sort ?v_1 ?p_266_187)) (base_addr ?v_2)))))))))))))
-(assert (forall ((?t_45_274_190 c_type)) (forall ((?p_273_191 c_unique)) (forall ((?l_272_192 c_unique)) (forall ((?a_271_193 Int)) (forall ((?b_270_194 Int)) (let ((?v_0 (type_pset ?t_45_274_190))) (=> (forall ((?p1_269_195 c_unique)) (or (not_in_pset (c_sort (type_pointer ?t_45_274_190) ?p1_269_195) (c_sort ?v_0 ?l_272_192)) (forall ((?i_268_196 Int)) (=> (and (<= ?a_271_193 ?i_268_196) (<= ?i_268_196 ?b_270_194)) (not (= ?p_273_191 (shift (c_sort (type_pointer ?t_45_274_190) ?p1_269_195) ?i_268_196))))))) (not_in_pset (c_sort (type_pointer ?t_45_274_190) ?p_273_191) (c_sort ?v_0 (pset_range (c_sort ?v_0 ?l_272_192) ?a_271_193 ?b_270_194)))))))))))
-(assert (forall ((?t_46_281_197 c_type)) (forall ((?p_280_198 c_unique)) (forall ((?l_279_199 c_unique)) (forall ((?a_278_200 Int)) (forall ((?b_277_201 Int)) (let ((?v_0 (type_pset ?t_46_281_197))) (=> (not_in_pset (c_sort (type_pointer ?t_46_281_197) ?p_280_198) (c_sort ?v_0 (pset_range (c_sort ?v_0 ?l_279_199) ?a_278_200 ?b_277_201))) (forall ((?p1_276_202 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_46_281_197) ?p1_276_202) (c_sort ?v_0 ?l_279_199))) (forall ((?i_275_203 Int)) (=> (and (<= ?a_278_200 ?i_275_203) (<= ?i_275_203 ?b_277_201)) (not (= (shift (c_sort (type_pointer ?t_46_281_197) ?p1_276_202) ?i_275_203) ?p_280_198))))))))))))))
-(assert (forall ((?t_47_287_204 c_type)) (forall ((?p_286_205 c_unique)) (forall ((?l_285_206 c_unique)) (forall ((?a_284_207 Int)) (let ((?v_0 (type_pset ?t_47_287_204))) (=> (forall ((?p1_283_208 c_unique)) (or (not_in_pset (c_sort (type_pointer ?t_47_287_204) ?p1_283_208) (c_sort ?v_0 ?l_285_206)) (forall ((?i_282_209 Int)) (=> (<= ?i_282_209 ?a_284_207) (not (= ?p_286_205 (shift (c_sort (type_pointer ?t_47_287_204) ?p1_283_208) ?i_282_209))))))) (not_in_pset (c_sort (type_pointer ?t_47_287_204) ?p_286_205) (c_sort ?v_0 (pset_range_left (c_sort ?v_0 ?l_285_206) ?a_284_207))))))))))
-(assert (forall ((?t_48_293_210 c_type)) (forall ((?p_292_211 c_unique)) (forall ((?l_291_212 c_unique)) (forall ((?a_290_213 Int)) (let ((?v_0 (type_pset ?t_48_293_210))) (=> (not_in_pset (c_sort (type_pointer ?t_48_293_210) ?p_292_211) (c_sort ?v_0 (pset_range_left (c_sort ?v_0 ?l_291_212) ?a_290_213))) (forall ((?p1_289_214 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_48_293_210) ?p1_289_214) (c_sort ?v_0 ?l_291_212))) (forall ((?i_288_215 Int)) (=> (<= ?i_288_215 ?a_290_213) (not (= (shift (c_sort (type_pointer ?t_48_293_210) ?p1_289_214) ?i_288_215) ?p_292_211)))))))))))))
-(assert (forall ((?t_49_299_216 c_type)) (forall ((?p_298_217 c_unique)) (forall ((?l_297_218 c_unique)) (forall ((?a_296_219 Int)) (let ((?v_0 (type_pset ?t_49_299_216))) (=> (forall ((?p1_295_220 c_unique)) (or (not_in_pset (c_sort (type_pointer ?t_49_299_216) ?p1_295_220) (c_sort ?v_0 ?l_297_218)) (forall ((?i_294_221 Int)) (=> (<= ?a_296_219 ?i_294_221) (not (= ?p_298_217 (shift (c_sort (type_pointer ?t_49_299_216) ?p1_295_220) ?i_294_221))))))) (not_in_pset (c_sort (type_pointer ?t_49_299_216) ?p_298_217) (c_sort ?v_0 (pset_range_right (c_sort ?v_0 ?l_297_218) ?a_296_219))))))))))
-(assert (forall ((?t_50_305_222 c_type)) (forall ((?p_304_223 c_unique)) (forall ((?l_303_224 c_unique)) (forall ((?a_302_225 Int)) (let ((?v_0 (type_pset ?t_50_305_222))) (=> (not_in_pset (c_sort (type_pointer ?t_50_305_222) ?p_304_223) (c_sort ?v_0 (pset_range_right (c_sort ?v_0 ?l_303_224) ?a_302_225))) (forall ((?p1_301_226 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_50_305_222) ?p1_301_226) (c_sort ?v_0 ?l_303_224))) (forall ((?i_300_227 Int)) (=> (<= ?a_302_225 ?i_300_227) (not (= (shift (c_sort (type_pointer ?t_50_305_222) ?p1_301_226) ?i_300_227) ?p_304_223)))))))))))))
-(assert (forall ((?t_52_312_228 c_type)) (forall ((?t_51_311_229 c_type)) (forall ((?p_310_230 c_unique)) (forall ((?l_309_231 c_unique)) (forall ((?m_308_232 c_unique)) (let ((?v_0 (type_pointer ?t_51_311_229))) (=> (forall ((?p1_307_233 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_52_312_228) ?p1_307_233) (c_sort (type_pset ?t_52_312_228) ?l_309_231))) (forall ((?i_306_234 Int)) (let ((?v_1 (type_pointer ?t_52_312_228))) (not (= ?p_310_230 (acc (c_sort (type_memory ?v_0 ?t_52_312_228) ?m_308_232) (c_sort ?v_1 (shift (c_sort ?v_1 ?p1_307_233) ?i_306_234))))))))) (not_in_pset (c_sort ?v_0 ?p_310_230) (c_sort (type_pset ?t_51_311_229) (pset_acc_all (c_sort (type_pset ?t_52_312_228) ?l_309_231) (c_sort (type_memory ?v_0 ?t_52_312_228) ?m_308_232))))))))))))
-(assert (forall ((?t_54_319_235 c_type)) (forall ((?t_53_318_236 c_type)) (forall ((?p_317_237 c_unique)) (forall ((?l_316_238 c_unique)) (forall ((?m_315_239 c_unique)) (let ((?v_0 (type_pointer ?t_53_318_236))) (=> (not_in_pset (c_sort ?v_0 ?p_317_237) (c_sort (type_pset ?t_53_318_236) (pset_acc_all (c_sort (type_pset ?t_54_319_235) ?l_316_238) (c_sort (type_memory ?v_0 ?t_54_319_235) ?m_315_239)))) (forall ((?p1_314_240 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_54_319_235) ?p1_314_240) (c_sort (type_pset ?t_54_319_235) ?l_316_238))) (forall ((?i_313_241 Int)) (let ((?v_1 (type_pointer ?t_54_319_235))) (not (= (acc (c_sort (type_memory ?v_0 ?t_54_319_235) ?m_315_239) (c_sort ?v_1 (shift (c_sort ?v_1 ?p1_314_240) ?i_313_241))) ?p_317_237))))))))))))))
-(assert (forall ((?t_56_328_242 c_type)) (forall ((?t_55_327_243 c_type)) (forall ((?p_326_244 c_unique)) (forall ((?l_325_245 c_unique)) (forall ((?m_324_246 c_unique)) (forall ((?a_323_247 Int)) (forall ((?b_322_248 Int)) (let ((?v_0 (type_pointer ?t_55_327_243))) (=> (forall ((?p1_321_249 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_56_328_242) ?p1_321_249) (c_sort (type_pset ?t_56_328_242) ?l_325_245))) (forall ((?i_320_250 Int)) (let ((?v_1 (type_pointer ?t_56_328_242))) (=> (and (<= ?a_323_247 ?i_320_250) (<= ?i_320_250 ?b_322_248)) (not (= ?p_326_244 (acc (c_sort (type_memory ?v_0 ?t_56_328_242) ?m_324_246) (c_sort ?v_1 (shift (c_sort ?v_1 ?p1_321_249) ?i_320_250)))))))))) (not_in_pset (c_sort ?v_0 ?p_326_244) (c_sort (type_pset ?t_55_327_243) (pset_acc_range (c_sort (type_pset ?t_56_328_242) ?l_325_245) (c_sort (type_memory ?v_0 ?t_56_328_242) ?m_324_246) ?a_323_247 ?b_322_248)))))))))))))
-(assert (forall ((?t_58_337_251 c_type)) (forall ((?t_57_336_252 c_type)) (forall ((?p_335_253 c_unique)) (forall ((?l_334_254 c_unique)) (forall ((?m_333_255 c_unique)) (forall ((?a_332_256 Int)) (forall ((?b_331_257 Int)) (let ((?v_0 (type_pointer ?t_57_336_252))) (=> (not_in_pset (c_sort ?v_0 ?p_335_253) (c_sort (type_pset ?t_57_336_252) (pset_acc_range (c_sort (type_pset ?t_58_337_251) ?l_334_254) (c_sort (type_memory ?v_0 ?t_58_337_251) ?m_333_255) ?a_332_256 ?b_331_257))) (forall ((?p1_330_258 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_58_337_251) ?p1_330_258) (c_sort (type_pset ?t_58_337_251) ?l_334_254))) (forall ((?i_329_259 Int)) (let ((?v_1 (type_pointer ?t_58_337_251))) (=> (and (<= ?a_332_256 ?i_329_259) (<= ?i_329_259 ?b_331_257)) (not (= (acc (c_sort (type_memory ?v_0 ?t_58_337_251) ?m_333_255) (c_sort ?v_1 (shift (c_sort ?v_1 ?p1_330_258) ?i_329_259))) ?p_335_253)))))))))))))))))
-(assert (forall ((?t_60_345_260 c_type)) (forall ((?t_59_344_261 c_type)) (forall ((?p_343_262 c_unique)) (forall ((?l_342_263 c_unique)) (forall ((?m_341_264 c_unique)) (forall ((?a_340_265 Int)) (let ((?v_0 (type_pointer ?t_59_344_261))) (=> (forall ((?p1_339_266 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_60_345_260) ?p1_339_266) (c_sort (type_pset ?t_60_345_260) ?l_342_263))) (forall ((?i_338_267 Int)) (let ((?v_1 (type_pointer ?t_60_345_260))) (=> (<= ?i_338_267 ?a_340_265) (not (= ?p_343_262 (acc (c_sort (type_memory ?v_0 ?t_60_345_260) ?m_341_264) (c_sort ?v_1 (shift (c_sort ?v_1 ?p1_339_266) ?i_338_267)))))))))) (not_in_pset (c_sort ?v_0 ?p_343_262) (c_sort (type_pset ?t_59_344_261) (pset_acc_range_left (c_sort (type_pset ?t_60_345_260) ?l_342_263) (c_sort (type_memory ?v_0 ?t_60_345_260) ?m_341_264) ?a_340_265))))))))))))
-(assert (forall ((?t_62_353_268 c_type)) (forall ((?t_61_352_269 c_type)) (forall ((?p_351_270 c_unique)) (forall ((?l_350_271 c_unique)) (forall ((?m_349_272 c_unique)) (forall ((?a_348_273 Int)) (let ((?v_0 (type_pointer ?t_61_352_269))) (=> (not_in_pset (c_sort ?v_0 ?p_351_270) (c_sort (type_pset ?t_61_352_269) (pset_acc_range_left (c_sort (type_pset ?t_62_353_268) ?l_350_271) (c_sort (type_memory ?v_0 ?t_62_353_268) ?m_349_272) ?a_348_273))) (forall ((?p1_347_274 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_62_353_268) ?p1_347_274) (c_sort (type_pset ?t_62_353_268) ?l_350_271))) (forall ((?i_346_275 Int)) (let ((?v_1 (type_pointer ?t_62_353_268))) (=> (<= ?i_346_275 ?a_348_273) (not (= (acc (c_sort (type_memory ?v_0 ?t_62_353_268) ?m_349_272) (c_sort ?v_1 (shift (c_sort ?v_1 ?p1_347_274) ?i_346_275))) ?p_351_270))))))))))))))))
-(assert (forall ((?t_64_361_276 c_type)) (forall ((?t_63_360_277 c_type)) (forall ((?p_359_278 c_unique)) (forall ((?l_358_279 c_unique)) (forall ((?m_357_280 c_unique)) (forall ((?a_356_281 Int)) (let ((?v_0 (type_pointer ?t_63_360_277))) (=> (forall ((?p1_355_282 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_64_361_276) ?p1_355_282) (c_sort (type_pset ?t_64_361_276) ?l_358_279))) (forall ((?i_354_283 Int)) (let ((?v_1 (type_pointer ?t_64_361_276))) (=> (<= ?a_356_281 ?i_354_283) (not (= ?p_359_278 (acc (c_sort (type_memory ?v_0 ?t_64_361_276) ?m_357_280) (c_sort ?v_1 (shift (c_sort ?v_1 ?p1_355_282) ?i_354_283)))))))))) (not_in_pset (c_sort ?v_0 ?p_359_278) (c_sort (type_pset ?t_63_360_277) (pset_acc_range_right (c_sort (type_pset ?t_64_361_276) ?l_358_279) (c_sort (type_memory ?v_0 ?t_64_361_276) ?m_357_280) ?a_356_281))))))))))))
-(assert (forall ((?t_66_369_284 c_type)) (forall ((?t_65_368_285 c_type)) (forall ((?p_367_286 c_unique)) (forall ((?l_366_287 c_unique)) (forall ((?m_365_288 c_unique)) (forall ((?a_364_289 Int)) (let ((?v_0 (type_pointer ?t_65_368_285))) (=> (not_in_pset (c_sort ?v_0 ?p_367_286) (c_sort (type_pset ?t_65_368_285) (pset_acc_range_right (c_sort (type_pset ?t_66_369_284) ?l_366_287) (c_sort (type_memory ?v_0 ?t_66_369_284) ?m_365_288) ?a_364_289))) (forall ((?p1_363_290 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_66_369_284) ?p1_363_290) (c_sort (type_pset ?t_66_369_284) ?l_366_287))) (forall ((?i_362_291 Int)) (let ((?v_1 (type_pointer ?t_66_369_284))) (=> (<= ?a_364_289 ?i_362_291) (not (= (acc (c_sort (type_memory ?v_0 ?t_66_369_284) ?m_365_288) (c_sort ?v_1 (shift (c_sort ?v_1 ?p1_363_290) ?i_362_291))) ?p_367_286))))))))))))))))
-(assert (forall ((?t_68_376_292 c_type)) (forall ((?t_67_375_293 c_type)) (forall ((?a_374_294 c_unique)) (forall ((?l_373_295 c_unique)) (forall ((?m1_372_296 c_unique)) (forall ((?m2_371_297 c_unique)) (forall ((?m3_370_298 c_unique)) (let ((?v_1 (c_sort type_alloc_table ?a_374_294)) (?v_0 (type_memory ?t_68_376_292 ?t_67_375_293))) (let ((?v_4 (c_sort ?v_0 ?m1_372_296)) (?v_2 (c_sort ?v_0 ?m2_371_297)) (?v_3 (c_sort (type_pset ?t_67_375_293) ?l_373_295)) (?v_5 (c_sort ?v_0 ?m3_370_298))) (=> (not_assigns ?v_1 ?v_4 ?v_2 ?v_3) (=> (not_assigns ?v_1 ?v_2 ?v_5 ?v_3) (not_assigns ?v_1 ?v_4 ?v_5 ?v_3)))))))))))))
-(assert (forall ((?t_70_381_299 c_type)) (forall ((?t_69_380_300 c_type)) (forall ((?a_379_301 c_unique)) (forall ((?l_378_302 c_unique)) (forall ((?m_377_303 c_unique)) (let ((?v_0 (c_sort (type_memory ?t_70_381_299 ?t_69_380_300) ?m_377_303))) (not_assigns (c_sort type_alloc_table ?a_379_301) ?v_0 ?v_0 (c_sort (type_pset ?t_69_380_300) ?l_378_302)))))))))
-(declare-fun valid_acc (c_ssorted) Bool)
-(assert (forall ((?t_72_386_304 c_type)) (forall ((?t_71_385_305 c_type)) (forall ((?m1_384_306 c_unique)) (= (valid_acc (c_sort (type_memory (type_pointer ?t_71_385_305) ?t_72_386_304) ?m1_384_306)) (forall ((?p_383_307 c_unique)) (forall ((?a_382_308 c_unique)) (let ((?v_1 (type_pointer ?t_71_385_305)) (?v_0 (c_sort type_alloc_table ?a_382_308)) (?v_2 (c_sort (type_pointer ?t_72_386_304) ?p_383_307))) (=> (valid ?v_0 ?v_2) (valid ?v_0 (c_sort ?v_1 (acc (c_sort (type_memory ?v_1 ?t_72_386_304) ?m1_384_306) ?v_2))))))))))))
-(declare-fun valid_acc_range (c_ssorted Int) Bool)
-(assert (forall ((?t_74_392_309 c_type)) (forall ((?t_73_391_310 c_type)) (forall ((?m1_390_311 c_unique)) (forall ((?size_389_312 Int)) (= (valid_acc_range (c_sort (type_memory (type_pointer ?t_73_391_310) ?t_74_392_309) ?m1_390_311) ?size_389_312) (forall ((?p_388_313 c_unique)) (forall ((?a_387_314 c_unique)) (let ((?v_1 (type_pointer ?t_73_391_310)) (?v_0 (c_sort type_alloc_table ?a_387_314)) (?v_2 (c_sort (type_pointer ?t_74_392_309) ?p_388_313))) (=> (valid ?v_0 ?v_2) (valid_range ?v_0 (c_sort ?v_1 (acc (c_sort (type_memory ?v_1 ?t_74_392_309) ?m1_390_311) ?v_2)) 0 (- ?size_389_312 1))))))))))))
-(assert (forall ((?t_76_398_315 c_type)) (forall ((?t_75_397_316 c_type)) (forall ((?m1_396_317 c_unique)) (forall ((?size_395_318 Int)) (forall ((?p_394_319 c_unique)) (forall ((?a_393_320 c_unique)) (let ((?v_1 (type_pointer ?t_75_397_316))) (let ((?v_2 (c_sort (type_memory ?v_1 ?t_76_398_315) ?m1_396_317)) (?v_0 (c_sort type_alloc_table ?a_393_320)) (?v_3 (c_sort (type_pointer ?t_76_398_315) ?p_394_319))) (=> (valid_acc_range ?v_2 ?size_395_318) (=> (valid ?v_0 ?v_3) (valid ?v_0 (c_sort ?v_1 (acc ?v_2 ?v_3))))))))))))))
-(declare-fun separation1 (c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_78_404_321 c_type)) (forall ((?t_77_403_322 c_type)) (forall ((?m1_402_323 c_unique)) (forall ((?m2_401_324 c_unique)) (let ((?v_0 (type_memory (type_pointer ?t_77_403_322) ?t_78_404_321))) (= (separation1 (c_sort ?v_0 ?m1_402_323) (c_sort ?v_0 ?m2_401_324)) (forall ((?p_400_325 c_unique)) (forall ((?a_399_326 c_unique)) (let ((?v_1 (type_pointer ?t_77_403_322)) (?v_2 (c_sort (type_pointer ?t_78_404_321) ?p_400_325))) (=> (valid (c_sort type_alloc_table ?a_399_326) ?v_2) (not (= (base_addr (c_sort ?v_1 (acc (c_sort ?v_0 ?m1_402_323) ?v_2))) (base_addr (c_sort ?v_1 (acc (c_sort ?v_0 ?m2_401_324) ?v_2))))))))))))))))
-(declare-fun separation1_range1 (c_ssorted c_ssorted Int) Bool)
-(assert (forall ((?t_80_412_327 c_type)) (forall ((?t_79_411_328 c_type)) (forall ((?m1_410_329 c_unique)) (forall ((?m2_409_330 c_unique)) (forall ((?size_408_331 Int)) (let ((?v_0 (type_memory (type_pointer ?t_79_411_328) ?t_80_412_327))) (= (separation1_range1 (c_sort ?v_0 ?m1_410_329) (c_sort ?v_0 ?m2_409_330) ?size_408_331) (forall ((?p_407_332 c_unique)) (forall ((?a_406_333 c_unique)) (=> (valid (c_sort type_alloc_table ?a_406_333) (c_sort (type_pointer ?t_80_412_327) ?p_407_332)) (forall ((?i_405_334 Int)) (let ((?v_1 (type_pointer ?t_79_411_328)) (?v_2 (type_pointer ?t_80_412_327))) (let ((?v_3 (c_sort ?v_2 ?p_407_332))) (=> (and (<= 0 ?i_405_334) (< ?i_405_334 ?size_408_331)) (not (= (base_addr (c_sort ?v_1 (acc (c_sort ?v_0 ?m1_410_329) (c_sort ?v_2 (shift ?v_3 ?i_405_334))))) (base_addr (c_sort ?v_1 (acc (c_sort ?v_0 ?m2_409_330) ?v_3))))))))))))))))))))
-(declare-fun separation1_range (c_ssorted Int) Bool)
-(assert (forall ((?t_82_420_335 c_type)) (forall ((?t_81_419_336 c_type)) (forall ((?m_418_337 c_unique)) (forall ((?size_417_338 Int)) (= (separation1_range (c_sort (type_memory (type_pointer ?t_81_419_336) ?t_82_420_335) ?m_418_337) ?size_417_338) (forall ((?p_416_339 c_unique)) (forall ((?a_415_340 c_unique)) (=> (valid (c_sort type_alloc_table ?a_415_340) (c_sort (type_pointer ?t_82_420_335) ?p_416_339)) (forall ((?i1_414_341 Int)) (forall ((?i2_413_342 Int)) (let ((?v_0 (type_pointer ?t_81_419_336))) (let ((?v_2 (c_sort (type_memory ?v_0 ?t_82_420_335) ?m_418_337)) (?v_1 (type_pointer ?t_82_420_335))) (let ((?v_3 (c_sort ?v_1 ?p_416_339))) (=> (and (<= 0 ?i1_414_341) (< ?i1_414_341 ?size_417_338)) (=> (and (<= 0 ?i2_413_342) (< ?i2_413_342 ?size_417_338)) (=> (not (= ?i1_414_341 ?i2_413_342)) (not (= (base_addr (c_sort ?v_0 (acc ?v_2 (c_sort ?v_1 (shift ?v_3 ?i1_414_341))))) (base_addr (c_sort ?v_0 (acc ?v_2 (c_sort ?v_1 (shift ?v_3 ?i2_413_342))))))))))))))))))))))))
-(declare-fun separation2 (c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_84_426_343 c_type)) (forall ((?t_83_425_344 c_type)) (forall ((?m1_424_345 c_unique)) (forall ((?m2_423_346 c_unique)) (let ((?v_0 (type_memory (type_pointer ?t_83_425_344) ?t_84_426_343))) (= (separation2 (c_sort ?v_0 ?m1_424_345) (c_sort ?v_0 ?m2_423_346)) (forall ((?p1_422_347 c_unique)) (forall ((?p2_421_348 c_unique)) (let ((?v_1 (type_pointer ?t_83_425_344)) (?v_2 (type_pointer ?t_84_426_343))) (=> (not (= ?p1_422_347 ?p2_421_348)) (not (= (base_addr (c_sort ?v_1 (acc (c_sort ?v_0 ?m1_424_345) (c_sort ?v_2 ?p1_422_347)))) (base_addr (c_sort ?v_1 (acc (c_sort ?v_0 ?m2_423_346) (c_sort ?v_2 ?p2_421_348)))))))))))))))))
-(declare-fun separation2_range1 (c_ssorted c_ssorted Int) Bool)
-(assert (forall ((?t_86_435_349 c_type)) (forall ((?t_85_434_350 c_type)) (forall ((?m1_433_351 c_unique)) (forall ((?m2_432_352 c_unique)) (forall ((?size_431_353 Int)) (let ((?v_0 (type_memory (type_pointer ?t_85_434_350) ?t_86_435_349))) (= (separation2_range1 (c_sort ?v_0 ?m1_433_351) (c_sort ?v_0 ?m2_432_352) ?size_431_353) (forall ((?p_430_354 c_unique)) (forall ((?q_429_355 c_unique)) (forall ((?a_428_356 c_unique)) (forall ((?i_427_357 Int)) (let ((?v_1 (type_pointer ?t_85_434_350)) (?v_2 (type_pointer ?t_86_435_349))) (=> (and (<= 0 ?i_427_357) (< ?i_427_357 ?size_431_353)) (not (= (base_addr (c_sort ?v_1 (acc (c_sort ?v_0 ?m1_433_351) (c_sort ?v_2 (shift (c_sort ?v_2 ?p_430_354) ?i_427_357))))) (base_addr (c_sort ?v_1 (acc (c_sort ?v_0 ?m2_432_352) (c_sort ?v_2 ?q_429_355))))))))))))))))))))
-(declare-fun on_heap (c_ssorted c_ssorted) Bool)
-(declare-fun on_stack (c_ssorted c_ssorted) Bool)
-(declare-fun fresh (c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_87_438_358 c_type)) (forall ((?a_437_359 c_unique)) (forall ((?p_436_360 c_unique)) (let ((?v_0 (c_sort type_alloc_table ?a_437_359)) (?v_1 (c_sort (type_pointer ?t_87_438_358) ?p_436_360))) (=> (fresh ?v_0 ?v_1) (not (valid ?v_0 ?v_1))))))))
-(assert (forall ((?t_88_442_361 c_type)) (forall ((?a_441_362 c_unique)) (forall ((?p_440_363 c_unique)) (=> (fresh (c_sort type_alloc_table ?a_441_362) (c_sort (type_pointer ?t_88_442_361) ?p_440_363)) (forall ((?i_439_364 Int)) (let ((?v_0 (type_pointer ?t_88_442_361))) (not (valid (c_sort type_alloc_table ?a_441_362) (c_sort ?v_0 (shift (c_sort ?v_0 ?p_440_363) ?i_439_364)))))))))))
-(declare-fun alloc_extends (c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_89_446_365 c_type)) (forall ((?a1_445_366 c_unique)) (forall ((?a2_444_367 c_unique)) (=> (alloc_extends (c_sort type_alloc_table ?a1_445_366) (c_sort type_alloc_table ?a2_444_367)) (forall ((?q_443_368 c_unique)) (let ((?v_0 (c_sort (type_pointer ?t_89_446_365) ?q_443_368))) (=> (valid (c_sort type_alloc_table ?a1_445_366) ?v_0) (valid (c_sort type_alloc_table ?a2_444_367) ?v_0)))))))))
-(assert (forall ((?t_90_451_369 c_type)) (forall ((?a1_450_370 c_unique)) (forall ((?a2_449_371 c_unique)) (=> (alloc_extends (c_sort type_alloc_table ?a1_450_370) (c_sort type_alloc_table ?a2_449_371)) (forall ((?q_448_372 c_unique)) (forall ((?i_447_373 Int)) (let ((?v_0 (c_sort (type_pointer ?t_90_451_369) ?q_448_372))) (=> (valid_index (c_sort type_alloc_table ?a1_450_370) ?v_0 ?i_447_373) (valid_index (c_sort type_alloc_table ?a2_449_371) ?v_0 ?i_447_373))))))))))
-(assert (forall ((?t_91_457_374 c_type)) (forall ((?a1_456_375 c_unique)) (forall ((?a2_455_376 c_unique)) (=> (alloc_extends (c_sort type_alloc_table ?a1_456_375) (c_sort type_alloc_table ?a2_455_376)) (forall ((?q_454_377 c_unique)) (forall ((?i_453_378 Int)) (forall ((?j_452_379 Int)) (let ((?v_0 (c_sort (type_pointer ?t_91_457_374) ?q_454_377))) (=> (valid_range (c_sort type_alloc_table ?a1_456_375) ?v_0 ?i_453_378 ?j_452_379) (valid_range (c_sort type_alloc_table ?a2_455_376) ?v_0 ?i_453_378 ?j_452_379)))))))))))
-(assert (forall ((?a_458_380 c_unique)) (let ((?v_0 (c_sort type_alloc_table ?a_458_380))) (alloc_extends ?v_0 ?v_0))))
-(assert (forall ((?a1_461_381 c_unique)) (forall ((?a2_460_382 c_unique)) (forall ((?a3_459_383 c_unique)) (let ((?v_1 (c_sort type_alloc_table ?a1_461_381)) (?v_0 (c_sort type_alloc_table ?a2_460_382)) (?v_2 (c_sort type_alloc_table ?a3_459_383))) (=> (alloc_extends ?v_1 ?v_0) (=> (alloc_extends ?v_0 ?v_2) (alloc_extends ?v_1 ?v_2))))))))
-(declare-fun free_stack (c_ssorted c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_92_466_384 c_type)) (forall ((?a1_465_385 c_unique)) (forall ((?a2_464_386 c_unique)) (forall ((?a3_463_387 c_unique)) (=> (free_stack (c_sort type_alloc_table ?a1_465_385) (c_sort type_alloc_table ?a2_464_386) (c_sort type_alloc_table ?a3_463_387)) (forall ((?p_462_388 c_unique)) (let ((?v_0 (c_sort type_alloc_table ?a2_464_386)) (?v_1 (c_sort (type_pointer ?t_92_466_384) ?p_462_388))) (=> (valid ?v_0 ?v_1) (=> (on_heap ?v_0 ?v_1) (valid (c_sort type_alloc_table ?a3_463_387) ?v_1)))))))))))
-(assert (forall ((?t_93_471_389 c_type)) (forall ((?a1_470_390 c_unique)) (forall ((?a2_469_391 c_unique)) (forall ((?a3_468_392 c_unique)) (=> (free_stack (c_sort type_alloc_table ?a1_470_390) (c_sort type_alloc_table ?a2_469_391) (c_sort type_alloc_table ?a3_468_392)) (forall ((?p_467_393 c_unique)) (let ((?v_0 (c_sort type_alloc_table ?a1_470_390)) (?v_1 (c_sort (type_pointer ?t_93_471_389) ?p_467_393))) (=> (valid ?v_0 ?v_1) (=> (on_stack ?v_0 ?v_1) (valid (c_sort type_alloc_table ?a3_468_392) ?v_1)))))))))))
-(declare-fun null () c_unique)
-(assert (forall ((?t_94_475_394 c_type)) (forall ((?a_474_395 c_unique)) (not (valid (c_sort type_alloc_table ?a_474_395) (c_sort (type_pointer ?t_94_475_394) null))))))
-(declare-fun type_global () c_type)
-(declare-fun separation_anonymous_0_int (c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted) Bool)
-(assert (forall ((?x_global_489_396 c_unique)) (forall ((?anonymous_0PM_global_488_397 c_unique)) (forall ((?tab_487_398 c_unique)) (forall ((?v_486_399 c_unique)) (forall ((?alloc_485_400 c_unique)) (let ((?v_1 (type_pointer type_global))) (let ((?v_0 (type_memory ?v_1 type_global)) (?v_2 (c_sort ?v_1 ?tab_487_398)) (?v_3 (c_sort ?v_1 ?v_486_399))) (= (separation_anonymous_0_int (c_sort ?v_0 ?x_global_489_396) (c_sort ?v_0 ?anonymous_0PM_global_488_397) ?v_2 ?v_3 (c_sort type_alloc_table ?alloc_485_400)) (and (not (= (base_addr ?v_2) (base_addr ?v_3))) (forall ((?index_3_484_401 Int)) (=> (and (<= 0 ?index_3_484_401) (< ?index_3_484_401 5)) (not (= (base_addr ?v_3) (base_addr (c_sort ?v_1 (acc (c_sort ?v_0 ?x_global_489_396) (c_sort ?v_1 (acc (c_sort ?v_0 ?anonymous_0PM_global_488_397) (c_sort ?v_1 (shift ?v_2 ?index_3_484_401)))))))))))))))))))))
-(declare-fun separation_anonymous_0_s1 (c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted) Bool)
-(assert (forall ((?x_global_498_402 c_unique)) (forall ((?u_global_497_403 c_unique)) (forall ((?t_global_496_404 c_unique)) (forall ((?s1PM_global_495_405 c_unique)) (forall ((?anonymous_0PM_global_494_406 c_unique)) (forall ((?tab_493_407 c_unique)) (forall ((?s_492_408 c_unique)) (forall ((?alloc_491_409 c_unique)) (let ((?v_1 (type_pointer type_global))) (let ((?v_0 (type_memory ?v_1 type_global))) (let ((?v_7 (c_sort ?v_0 ?u_global_497_403)) (?v_5 (c_sort ?v_0 ?t_global_496_404)) (?v_6 (c_sort ?v_0 ?s1PM_global_495_405)) (?v_2 (c_sort ?v_1 ?tab_493_407)) (?v_3 (c_sort ?v_1 ?s_492_408))) (let ((?v_4 (base_addr ?v_2)) (?v_8 (c_sort ?v_1 (acc ?v_6 ?v_3)))) (= (separation_anonymous_0_s1 (c_sort ?v_0 ?x_global_498_402) ?v_7 ?v_5 ?v_6 (c_sort ?v_0 ?anonymous_0PM_global_494_406) ?v_2 ?v_3 (c_sort type_alloc_table ?alloc_491_409)) (and (not (= ?v_4 (base_addr ?v_3))) (and (forall ((?index_6_490_410 Int)) (=> (and (<= 0 ?index_6_490_410) (< ?index_6_490_410 5)) (not (= (base_addr ?v_3) (base_addr (c_sort ?v_1 (acc (c_sort ?v_0 ?x_global_498_402) (c_sort ?v_1 (acc (c_sort ?v_0 ?anonymous_0PM_global_494_406) (c_sort ?v_1 (shift ?v_2 ?index_6_490_410))))))))))) (and (not (= ?v_4 (base_addr (c_sort ?v_1 (acc ?v_5 ?v_8))))) (not (= ?v_4 (base_addr (c_sort ?v_1 (acc ?v_7 ?v_8))))))))))))))))))))))
-(declare-fun separation_anonymous_1_anonymous_0 (c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted) Bool)
-(assert (forall ((?x_global_507_411 c_unique)) (forall ((?p2_global_506_412 c_unique)) (forall ((?p1_global_505_413 c_unique)) (forall ((?anonymous_1PM_global_504_414 c_unique)) (forall ((?anonymous_0PM_global_503_415 c_unique)) (forall ((?u1_502_416 c_unique)) (forall ((?tab_501_417 c_unique)) (forall ((?alloc_500_418 c_unique)) (let ((?v_1 (type_pointer type_global))) (let ((?v_0 (type_memory ?v_1 type_global))) (let ((?v_7 (c_sort ?v_0 ?p2_global_506_412)) (?v_5 (c_sort ?v_0 ?p1_global_505_413)) (?v_6 (c_sort ?v_0 ?anonymous_1PM_global_504_414)) (?v_2 (c_sort ?v_1 ?u1_502_416)) (?v_3 (c_sort ?v_1 ?tab_501_417))) (let ((?v_4 (base_addr ?v_3)) (?v_8 (c_sort ?v_1 (acc ?v_6 ?v_2)))) (= (separation_anonymous_1_anonymous_0 (c_sort ?v_0 ?x_global_507_411) ?v_7 ?v_5 ?v_6 (c_sort ?v_0 ?anonymous_0PM_global_503_415) ?v_2 ?v_3 (c_sort type_alloc_table ?alloc_500_418)) (and (not (= (base_addr ?v_2) ?v_4)) (and (and (not (= ?v_4 (base_addr (c_sort ?v_1 (acc ?v_5 ?v_8))))) (not (= ?v_4 (base_addr (c_sort ?v_1 (acc ?v_7 ?v_8)))))) (forall ((?index_7_499_419 Int)) (=> (and (<= 0 ?index_7_499_419) (< ?index_7_499_419 5)) (not (= (base_addr ?v_2) (base_addr (c_sort ?v_1 (acc (c_sort ?v_0 ?x_global_507_411) (c_sort ?v_1 (acc (c_sort ?v_0 ?anonymous_0PM_global_503_415) (c_sort ?v_1 (shift ?v_3 ?index_7_499_419)))))))))))))))))))))))))))
-(declare-fun separation_anonymous_1_anonymous_1 (c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted) Bool)
-(assert (forall ((?p2_global_513_420 c_unique)) (forall ((?p1_global_512_421 c_unique)) (forall ((?anonymous_1PM_global_511_422 c_unique)) (forall ((?u2_510_423 c_unique)) (forall ((?u1_509_424 c_unique)) (forall ((?alloc_508_425 c_unique)) (let ((?v_1 (type_pointer type_global))) (let ((?v_0 (type_memory ?v_1 type_global))) (let ((?v_7 (c_sort ?v_0 ?p2_global_513_420)) (?v_5 (c_sort ?v_0 ?p1_global_512_421)) (?v_6 (c_sort ?v_0 ?anonymous_1PM_global_511_422)) (?v_2 (c_sort ?v_1 ?u2_510_423)) (?v_3 (c_sort ?v_1 ?u1_509_424))) (let ((?v_9 (base_addr ?v_2)) (?v_4 (base_addr ?v_3)) (?v_8 (c_sort ?v_1 (acc ?v_6 ?v_2))) (?v_10 (c_sort ?v_1 (acc ?v_6 ?v_3)))) (= (separation_anonymous_1_anonymous_1 ?v_7 ?v_5 ?v_6 ?v_2 ?v_3 (c_sort type_alloc_table ?alloc_508_425)) (and (not (= ?v_9 ?v_4)) (and (and (not (= ?v_4 (base_addr (c_sort ?v_1 (acc ?v_5 ?v_8))))) (not (= ?v_4 (base_addr (c_sort ?v_1 (acc ?v_7 ?v_8)))))) (and (not (= ?v_9 (base_addr (c_sort ?v_1 (acc ?v_5 ?v_10))))) (not (= ?v_9 (base_addr (c_sort ?v_1 (acc ?v_7 ?v_10))))))))))))))))))))
-(declare-fun separation_anonymous_1_int (c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted) Bool)
-(assert (forall ((?p2_global_519_426 c_unique)) (forall ((?p1_global_518_427 c_unique)) (forall ((?anonymous_1PM_global_517_428 c_unique)) (forall ((?u1_516_429 c_unique)) (forall ((?v_515_430 c_unique)) (forall ((?alloc_514_431 c_unique)) (let ((?v_1 (type_pointer type_global))) (let ((?v_0 (type_memory ?v_1 type_global))) (let ((?v_7 (c_sort ?v_0 ?p2_global_519_426)) (?v_5 (c_sort ?v_0 ?p1_global_518_427)) (?v_6 (c_sort ?v_0 ?anonymous_1PM_global_517_428)) (?v_2 (c_sort ?v_1 ?u1_516_429)) (?v_3 (c_sort ?v_1 ?v_515_430))) (let ((?v_4 (base_addr ?v_3)) (?v_8 (c_sort ?v_1 (acc ?v_6 ?v_2)))) (= (separation_anonymous_1_int ?v_7 ?v_5 ?v_6 ?v_2 ?v_3 (c_sort type_alloc_table ?alloc_514_431)) (and (not (= (base_addr ?v_2) ?v_4)) (and (not (= ?v_4 (base_addr (c_sort ?v_1 (acc ?v_5 ?v_8))))) (not (= ?v_4 (base_addr (c_sort ?v_1 (acc ?v_7 ?v_8)))))))))))))))))))
-(declare-fun separation_anonymous_1_s1 (c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted) Bool)
-(assert (forall ((?u_global_528_432 c_unique)) (forall ((?t_global_527_433 c_unique)) (forall ((?s1PM_global_526_434 c_unique)) (forall ((?p2_global_525_435 c_unique)) (forall ((?p1_global_524_436 c_unique)) (forall ((?anonymous_1PM_global_523_437 c_unique)) (forall ((?u1_522_438 c_unique)) (forall ((?s_521_439 c_unique)) (forall ((?alloc_520_440 c_unique)) (let ((?v_1 (type_pointer type_global))) (let ((?v_0 (type_memory ?v_1 type_global))) (let ((?v_12 (c_sort ?v_0 ?u_global_528_432)) (?v_10 (c_sort ?v_0 ?t_global_527_433)) (?v_11 (c_sort ?v_0 ?s1PM_global_526_434)) (?v_7 (c_sort ?v_0 ?p2_global_525_435)) (?v_5 (c_sort ?v_0 ?p1_global_524_436)) (?v_6 (c_sort ?v_0 ?anonymous_1PM_global_523_437)) (?v_2 (c_sort ?v_1 ?u1_522_438)) (?v_3 (c_sort ?v_1 ?s_521_439))) (let ((?v_9 (base_addr ?v_2)) (?v_4 (base_addr ?v_3)) (?v_8 (c_sort ?v_1 (acc ?v_6 ?v_2))) (?v_13 (c_sort ?v_1 (acc ?v_11 ?v_3)))) (= (separation_anonymous_1_s1 ?v_12 ?v_10 ?v_11 ?v_7 ?v_5 ?v_6 ?v_2 ?v_3 (c_sort type_alloc_table ?alloc_520_440)) (and (not (= ?v_9 ?v_4)) (and (and (not (= ?v_4 (base_addr (c_sort ?v_1 (acc ?v_5 ?v_8))))) (not (= ?v_4 (base_addr (c_sort ?v_1 (acc ?v_7 ?v_8)))))) (and (not (= ?v_9 (base_addr (c_sort ?v_1 (acc ?v_10 ?v_13))))) (not (= ?v_9 (base_addr (c_sort ?v_1 (acc ?v_12 ?v_13)))))))))))))))))))))))
-(declare-fun separation_anonymous_2_anonymous_0 (c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted) Bool)
-(assert (forall ((?x_global_537_441 c_unique)) (forall ((?anonymous_2_p2_global_536_442 c_unique)) (forall ((?anonymous_2_p1_global_535_443 c_unique)) (forall ((?anonymous_2PM_global_534_444 c_unique)) (forall ((?anonymous_0PM_global_533_445 c_unique)) (forall ((?u3_532_446 c_unique)) (forall ((?tab_531_447 c_unique)) (forall ((?alloc_530_448 c_unique)) (let ((?v_1 (type_pointer type_global))) (let ((?v_0 (type_memory ?v_1 type_global))) (let ((?v_7 (c_sort ?v_0 ?anonymous_2_p2_global_536_442)) (?v_5 (c_sort ?v_0 ?anonymous_2_p1_global_535_443)) (?v_6 (c_sort ?v_0 ?anonymous_2PM_global_534_444)) (?v_2 (c_sort ?v_1 ?u3_532_446)) (?v_3 (c_sort ?v_1 ?tab_531_447))) (let ((?v_4 (base_addr ?v_3)) (?v_8 (c_sort ?v_1 (acc ?v_6 ?v_2)))) (= (separation_anonymous_2_anonymous_0 (c_sort ?v_0 ?x_global_537_441) ?v_7 ?v_5 ?v_6 (c_sort ?v_0 ?anonymous_0PM_global_533_445) ?v_2 ?v_3 (c_sort type_alloc_table ?alloc_530_448)) (and (not (= (base_addr ?v_2) ?v_4)) (and (and (not (= ?v_4 (base_addr (c_sort ?v_1 (acc ?v_5 ?v_8))))) (not (= ?v_4 (base_addr (c_sort ?v_1 (acc ?v_7 ?v_8)))))) (forall ((?index_15_529_449 Int)) (=> (and (<= 0 ?index_15_529_449) (< ?index_15_529_449 5)) (not (= (base_addr ?v_2) (base_addr (c_sort ?v_1 (acc (c_sort ?v_0 ?x_global_537_441) (c_sort ?v_1 (acc (c_sort ?v_0 ?anonymous_0PM_global_533_445) (c_sort ?v_1 (shift ?v_3 ?index_15_529_449)))))))))))))))))))))))))))
-(declare-fun separation_anonymous_2_anonymous_1 (c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted) Bool)
-(assert (forall ((?p2_global_546_450 c_unique)) (forall ((?p1_global_545_451 c_unique)) (forall ((?anonymous_2_p2_global_544_452 c_unique)) (forall ((?anonymous_2_p1_global_543_453 c_unique)) (forall ((?anonymous_2PM_global_542_454 c_unique)) (forall ((?anonymous_1PM_global_541_455 c_unique)) (forall ((?u3_540_456 c_unique)) (forall ((?u1_539_457 c_unique)) (forall ((?alloc_538_458 c_unique)) (let ((?v_1 (type_pointer type_global))) (let ((?v_0 (type_memory ?v_1 type_global))) (let ((?v_12 (c_sort ?v_0 ?p2_global_546_450)) (?v_10 (c_sort ?v_0 ?p1_global_545_451)) (?v_7 (c_sort ?v_0 ?anonymous_2_p2_global_544_452)) (?v_5 (c_sort ?v_0 ?anonymous_2_p1_global_543_453)) (?v_6 (c_sort ?v_0 ?anonymous_2PM_global_542_454)) (?v_11 (c_sort ?v_0 ?anonymous_1PM_global_541_455)) (?v_2 (c_sort ?v_1 ?u3_540_456)) (?v_3 (c_sort ?v_1 ?u1_539_457))) (let ((?v_9 (base_addr ?v_2)) (?v_4 (base_addr ?v_3)) (?v_8 (c_sort ?v_1 (acc ?v_6 ?v_2))) (?v_13 (c_sort ?v_1 (acc ?v_11 ?v_3)))) (= (separation_anonymous_2_anonymous_1 ?v_12 ?v_10 ?v_7 ?v_5 ?v_6 ?v_11 ?v_2 ?v_3 (c_sort type_alloc_table ?alloc_538_458)) (and (not (= ?v_9 ?v_4)) (and (and (not (= ?v_4 (base_addr (c_sort ?v_1 (acc ?v_5 ?v_8))))) (not (= ?v_4 (base_addr (c_sort ?v_1 (acc ?v_7 ?v_8)))))) (and (not (= ?v_9 (base_addr (c_sort ?v_1 (acc ?v_10 ?v_13))))) (not (= ?v_9 (base_addr (c_sort ?v_1 (acc ?v_12 ?v_13)))))))))))))))))))))))
-(declare-fun separation_anonymous_2_anonymous_2 (c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted) Bool)
-(assert (forall ((?anonymous_2_p2_global_552_459 c_unique)) (forall ((?anonymous_2_p1_global_551_460 c_unique)) (forall ((?anonymous_2PM_global_550_461 c_unique)) (forall ((?u4_549_462 c_unique)) (forall ((?u3_548_463 c_unique)) (forall ((?alloc_547_464 c_unique)) (let ((?v_1 (type_pointer type_global))) (let ((?v_0 (type_memory ?v_1 type_global))) (let ((?v_7 (c_sort ?v_0 ?anonymous_2_p2_global_552_459)) (?v_5 (c_sort ?v_0 ?anonymous_2_p1_global_551_460)) (?v_6 (c_sort ?v_0 ?anonymous_2PM_global_550_461)) (?v_2 (c_sort ?v_1 ?u4_549_462)) (?v_3 (c_sort ?v_1 ?u3_548_463))) (let ((?v_9 (base_addr ?v_2)) (?v_4 (base_addr ?v_3)) (?v_8 (c_sort ?v_1 (acc ?v_6 ?v_2))) (?v_10 (c_sort ?v_1 (acc ?v_6 ?v_3)))) (= (separation_anonymous_2_anonymous_2 ?v_7 ?v_5 ?v_6 ?v_2 ?v_3 (c_sort type_alloc_table ?alloc_547_464)) (and (not (= ?v_9 ?v_4)) (and (and (not (= ?v_4 (base_addr (c_sort ?v_1 (acc ?v_5 ?v_8))))) (not (= ?v_4 (base_addr (c_sort ?v_1 (acc ?v_7 ?v_8)))))) (and (not (= ?v_9 (base_addr (c_sort ?v_1 (acc ?v_5 ?v_10))))) (not (= ?v_9 (base_addr (c_sort ?v_1 (acc ?v_7 ?v_10))))))))))))))))))))
-(declare-fun separation_anonymous_2_int (c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted) Bool)
-(assert (forall ((?anonymous_2_p2_global_558_465 c_unique)) (forall ((?anonymous_2_p1_global_557_466 c_unique)) (forall ((?anonymous_2PM_global_556_467 c_unique)) (forall ((?u3_555_468 c_unique)) (forall ((?v_554_469 c_unique)) (forall ((?alloc_553_470 c_unique)) (let ((?v_1 (type_pointer type_global))) (let ((?v_0 (type_memory ?v_1 type_global))) (let ((?v_7 (c_sort ?v_0 ?anonymous_2_p2_global_558_465)) (?v_5 (c_sort ?v_0 ?anonymous_2_p1_global_557_466)) (?v_6 (c_sort ?v_0 ?anonymous_2PM_global_556_467)) (?v_2 (c_sort ?v_1 ?u3_555_468)) (?v_3 (c_sort ?v_1 ?v_554_469))) (let ((?v_4 (base_addr ?v_3)) (?v_8 (c_sort ?v_1 (acc ?v_6 ?v_2)))) (= (separation_anonymous_2_int ?v_7 ?v_5 ?v_6 ?v_2 ?v_3 (c_sort type_alloc_table ?alloc_553_470)) (and (not (= (base_addr ?v_2) ?v_4)) (and (not (= ?v_4 (base_addr (c_sort ?v_1 (acc ?v_5 ?v_8))))) (not (= ?v_4 (base_addr (c_sort ?v_1 (acc ?v_7 ?v_8)))))))))))))))))))
-(declare-fun separation_anonymous_2_s1 (c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted) Bool)
-(assert (forall ((?u_global_567_471 c_unique)) (forall ((?t_global_566_472 c_unique)) (forall ((?s1PM_global_565_473 c_unique)) (forall ((?anonymous_2_p2_global_564_474 c_unique)) (forall ((?anonymous_2_p1_global_563_475 c_unique)) (forall ((?anonymous_2PM_global_562_476 c_unique)) (forall ((?u3_561_477 c_unique)) (forall ((?s_560_478 c_unique)) (forall ((?alloc_559_479 c_unique)) (let ((?v_1 (type_pointer type_global))) (let ((?v_0 (type_memory ?v_1 type_global))) (let ((?v_12 (c_sort ?v_0 ?u_global_567_471)) (?v_10 (c_sort ?v_0 ?t_global_566_472)) (?v_11 (c_sort ?v_0 ?s1PM_global_565_473)) (?v_7 (c_sort ?v_0 ?anonymous_2_p2_global_564_474)) (?v_5 (c_sort ?v_0 ?anonymous_2_p1_global_563_475)) (?v_6 (c_sort ?v_0 ?anonymous_2PM_global_562_476)) (?v_2 (c_sort ?v_1 ?u3_561_477)) (?v_3 (c_sort ?v_1 ?s_560_478))) (let ((?v_9 (base_addr ?v_2)) (?v_4 (base_addr ?v_3)) (?v_8 (c_sort ?v_1 (acc ?v_6 ?v_2))) (?v_13 (c_sort ?v_1 (acc ?v_11 ?v_3)))) (= (separation_anonymous_2_s1 ?v_12 ?v_10 ?v_11 ?v_7 ?v_5 ?v_6 ?v_2 ?v_3 (c_sort type_alloc_table ?alloc_559_479)) (and (not (= ?v_9 ?v_4)) (and (and (not (= ?v_4 (base_addr (c_sort ?v_1 (acc ?v_5 ?v_8))))) (not (= ?v_4 (base_addr (c_sort ?v_1 (acc ?v_7 ?v_8)))))) (and (not (= ?v_9 (base_addr (c_sort ?v_1 (acc ?v_10 ?v_13))))) (not (= ?v_9 (base_addr (c_sort ?v_1 (acc ?v_12 ?v_13)))))))))))))))))))))))
-(declare-fun separation_int_s1 (c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted) Bool)
-(assert (forall ((?u_global_573_480 c_unique)) (forall ((?t_global_572_481 c_unique)) (forall ((?s1PM_global_571_482 c_unique)) (forall ((?v_570_483 c_unique)) (forall ((?s_569_484 c_unique)) (forall ((?alloc_568_485 c_unique)) (let ((?v_1 (type_pointer type_global))) (let ((?v_0 (type_memory ?v_1 type_global))) (let ((?v_7 (c_sort ?v_0 ?u_global_573_480)) (?v_5 (c_sort ?v_0 ?t_global_572_481)) (?v_6 (c_sort ?v_0 ?s1PM_global_571_482)) (?v_2 (c_sort ?v_1 ?v_570_483)) (?v_3 (c_sort ?v_1 ?s_569_484))) (let ((?v_4 (base_addr ?v_2)) (?v_8 (c_sort ?v_1 (acc ?v_6 ?v_3)))) (= (separation_int_s1 ?v_7 ?v_5 ?v_6 ?v_2 ?v_3 (c_sort type_alloc_table ?alloc_568_485)) (and (not (= ?v_4 (base_addr ?v_3))) (and (not (= ?v_4 (base_addr (c_sort ?v_1 (acc ?v_5 ?v_8))))) (not (= ?v_4 (base_addr (c_sort ?v_1 (acc ?v_7 ?v_8)))))))))))))))))))
-(declare-fun separation_s1_s1 (c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted c_ssorted) Bool)
-(assert (forall ((?u_global_579_486 c_unique)) (forall ((?t_global_578_487 c_unique)) (forall ((?s1PM_global_577_488 c_unique)) (forall ((?ss_576_489 c_unique)) (forall ((?s_575_490 c_unique)) (forall ((?alloc_574_491 c_unique)) (let ((?v_1 (type_pointer type_global))) (let ((?v_0 (type_memory ?v_1 type_global))) (let ((?v_7 (c_sort ?v_0 ?u_global_579_486)) (?v_5 (c_sort ?v_0 ?t_global_578_487)) (?v_6 (c_sort ?v_0 ?s1PM_global_577_488)) (?v_2 (c_sort ?v_1 ?ss_576_489)) (?v_3 (c_sort ?v_1 ?s_575_490))) (let ((?v_9 (base_addr ?v_2)) (?v_4 (base_addr ?v_3)) (?v_8 (c_sort ?v_1 (acc ?v_6 ?v_2))) (?v_10 (c_sort ?v_1 (acc ?v_6 ?v_3)))) (= (separation_s1_s1 ?v_7 ?v_5 ?v_6 ?v_2 ?v_3 (c_sort type_alloc_table ?alloc_574_491)) (and (not (= ?v_9 ?v_4)) (and (and (not (= ?v_4 (base_addr (c_sort ?v_1 (acc ?v_5 ?v_8))))) (not (= ?v_4 (base_addr (c_sort ?v_1 (acc ?v_7 ?v_8)))))) (and (not (= ?v_9 (base_addr (c_sort ?v_1 (acc ?v_5 ?v_10))))) (not (= ?v_9 (base_addr (c_sort ?v_1 (acc ?v_7 ?v_10))))))))))))))))))))
-(assert (not (forall ((?alloc c_unique)) (forall ((?anonymous_2PM_global c_unique)) (forall ((?anonymous_2_p1_global c_unique)) (forall ((?anonymous_2_p2_global c_unique)) (forall ((?anonymous_2_v1_global c_unique)) (forall ((?anonymous_2_v2_global c_unique)) (forall ((?intM_global c_unique)) (forall ((?u3 c_unique)) (forall ((?u4 c_unique)) (forall ((?w1 c_unique)) (forall ((?w10 c_unique)) (forall ((?w2 c_unique)) (forall ((?w3 c_unique)) (forall ((?w4 c_unique)) (forall ((?w5 c_unique)) (forall ((?w6 c_unique)) (forall ((?w7 c_unique)) (forall ((?w8 c_unique)) (forall ((?w9 c_unique)) (let ((?v_0 (type_pointer type_global))) (let ((?v_2 (type_memory ?v_0 type_global)) (?v_3 (c_sort ?v_0 ?w3))) (let ((?v_5 (base_addr ?v_3)) (?v_8 (c_sort ?v_0 ?u4))) (let ((?v_1 (base_addr ?v_8)) (?v_6 (c_sort ?v_2 ?anonymous_2_p1_global)) (?v_7 (c_sort ?v_2 ?anonymous_2PM_global))) (let ((?v_4 (c_sort ?v_0 (acc ?v_7 ?v_3)))) (let ((?v_12 (base_addr (c_sort ?v_0 (acc ?v_6 ?v_4)))) (?v_9 (c_sort ?v_2 ?anonymous_2_p2_global))) (let ((?v_13 (base_addr (c_sort ?v_0 (acc ?v_9 ?v_4)))) (?v_10 (c_sort ?v_0 (acc ?v_7 ?v_8)))) (let ((?v_16 (base_addr (c_sort ?v_0 (acc ?v_6 ?v_10)))) (?v_17 (base_addr (c_sort ?v_0 (acc ?v_9 ?v_10)))) (?v_14 (c_sort ?v_0 ?u3))) (let ((?v_11 (base_addr ?v_14)) (?v_15 (c_sort ?v_0 (acc ?v_7 ?v_14)))) (let ((?v_18 (base_addr (c_sort ?v_0 (acc ?v_6 ?v_15)))) (?v_19 (base_addr (c_sort ?v_0 (acc ?v_9 ?v_15)))) (?v_20 (c_sort ?v_0 ?w1))) (let ((?v_22 (base_addr ?v_20)) (?v_21 (c_sort ?v_0 (acc ?v_7 ?v_20)))) (let ((?v_23 (base_addr (c_sort ?v_0 (acc ?v_6 ?v_21)))) (?v_24 (base_addr (c_sort ?v_0 (acc ?v_9 ?v_21)))) (?v_25 (c_sort type_alloc_table ?alloc)) (?v_54 (c_sort ?v_0 ?w9)) (?v_26 (c_sort ?v_0 ?w8)) (?v_27 (c_sort ?v_0 ?w7)) (?v_32 (c_sort ?v_0 ?w6)) (?v_37 (c_sort ?v_0 ?w5)) (?v_40 (c_sort ?v_0 ?w4)) (?v_43 (c_sort ?v_0 ?w2))) (let ((?v_30 (base_addr ?v_26)) (?v_28 (base_addr ?v_27)) (?v_29 (c_sort ?v_0 (acc ?v_7 ?v_26)))) (let ((?v_34 (base_addr (c_sort ?v_0 (acc ?v_6 ?v_29)))) (?v_35 (base_addr (c_sort ?v_0 (acc ?v_9 ?v_29)))) (?v_31 (c_sort ?v_0 (acc ?v_7 ?v_27)))) (let ((?v_59 (base_addr (c_sort ?v_0 (acc ?v_6 ?v_31)))) (?v_60 (base_addr (c_sort ?v_0 (acc ?v_9 ?v_31)))) (?v_33 (base_addr ?v_32)) (?v_36 (c_sort ?v_0 (acc ?v_7 ?v_32)))) (let ((?v_46 (base_addr (c_sort ?v_0 (acc ?v_6 ?v_36)))) (?v_47 (base_addr (c_sort ?v_0 (acc ?v_9 ?v_36)))) (?v_38 (base_addr ?v_37)) (?v_39 (c_sort ?v_0 (acc ?v_7 ?v_37)))) (let ((?v_48 (base_addr (c_sort ?v_0 (acc ?v_6 ?v_39)))) (?v_49 (base_addr (c_sort ?v_0 (acc ?v_9 ?v_39)))) (?v_41 (base_addr ?v_40)) (?v_42 (c_sort ?v_0 (acc ?v_7 ?v_40)))) (let ((?v_50 (base_addr (c_sort ?v_0 (acc ?v_6 ?v_42)))) (?v_51 (base_addr (c_sort ?v_0 (acc ?v_9 ?v_42)))) (?v_44 (base_addr ?v_43)) (?v_45 (c_sort ?v_0 (acc ?v_7 ?v_43)))) (let ((?v_52 (base_addr (c_sort ?v_0 (acc ?v_6 ?v_45)))) (?v_53 (base_addr (c_sort ?v_0 (acc ?v_9 ?v_45)))) (?v_66 (valid ?v_25 ?v_14)) (?v_61 (c_sort ?v_0 ?w10)) (?v_56 (base_addr ?v_54)) (?v_55 (c_sort ?v_0 (acc ?v_7 ?v_54)))) (let ((?v_57 (base_addr (c_sort ?v_0 (acc ?v_6 ?v_55)))) (?v_58 (base_addr (c_sort ?v_0 (acc ?v_9 ?v_55)))) (?v_63 (base_addr ?v_61)) (?v_62 (c_sort ?v_0 (acc ?v_7 ?v_61)))) (let ((?v_64 (base_addr (c_sort ?v_0 (acc ?v_6 ?v_62)))) (?v_65 (base_addr (c_sort ?v_0 (acc ?v_9 ?v_62))))) (=> (and (and (not (= ?v_5 ?v_1)) (and (and (not (= ?v_1 ?v_12)) (not (= ?v_1 ?v_13))) (and (not (= ?v_5 ?v_16)) (not (= ?v_5 ?v_17))))) (and (and (not (= ?v_5 ?v_11)) (and (and (not (= ?v_11 ?v_12)) (not (= ?v_11 ?v_13))) (and (not (= ?v_5 ?v_18)) (not (= ?v_5 ?v_19))))) (and (and (not (= ?v_1 ?v_11)) (and (and (not (= ?v_11 ?v_16)) (not (= ?v_11 ?v_17))) (and (not (= ?v_1 ?v_18)) (not (= ?v_1 ?v_19))))) (and (and (not (= ?v_22 ?v_1)) (and (and (not (= ?v_1 ?v_23)) (not (= ?v_1 ?v_24))) (and (not (= ?v_22 ?v_16)) (not (= ?v_22 ?v_17))))) (and (and (not (= ?v_22 ?v_11)) (and (and (not (= ?v_11 ?v_23)) (not (= ?v_11 ?v_24))) (and (not (= ?v_22 ?v_18)) (not (= ?v_22 ?v_19))))) (and (valid ?v_25 ?v_54) (and (valid ?v_25 ?v_26) (and (valid ?v_25 ?v_27) (and (valid ?v_25 ?v_32) (and (valid ?v_25 ?v_37) (and (valid ?v_25 ?v_40) (and (valid ?v_25 ?v_3) (and (valid ?v_25 ?v_43) (and (valid ?v_25 ?v_20) (and (and (not (= ?v_30 ?v_28)) (and (and (not (= ?v_28 ?v_34)) (not (= ?v_28 ?v_35))) (and (not (= ?v_30 ?v_59)) (not (= ?v_30 ?v_60))))) (and (and (not (= ?v_30 ?v_33)) (and (and (not (= ?v_33 ?v_34)) (not (= ?v_33 ?v_35))) (and (not (= ?v_30 ?v_46)) (not (= ?v_30 ?v_47))))) (and (and (not (= ?v_30 ?v_38)) (and (and (not (= ?v_38 ?v_34)) (not (= ?v_38 ?v_35))) (and (not (= ?v_30 ?v_48)) (not (= ?v_30 ?v_49))))) (and (and (not (= ?v_30 ?v_41)) (and (and (not (= ?v_41 ?v_34)) (not (= ?v_41 ?v_35))) (and (not (= ?v_30 ?v_50)) (not (= ?v_30 ?v_51))))) (and (and (not (= ?v_30 ?v_5)) (and (and (not (= ?v_5 ?v_34)) (not (= ?v_5 ?v_35))) (and (not (= ?v_30 ?v_12)) (not (= ?v_30 ?v_13))))) (and (and (not (= ?v_30 ?v_44)) (and (and (not (= ?v_44 ?v_34)) (not (= ?v_44 ?v_35))) (and (not (= ?v_30 ?v_52)) (not (= ?v_30 ?v_53))))) (and (and (not (= ?v_30 ?v_22)) (and (and (not (= ?v_22 ?v_34)) (not (= ?v_22 ?v_35))) (and (not (= ?v_30 ?v_23)) (not (= ?v_30 ?v_24))))) (and (valid ?v_25 ?v_8) (and ?v_66 (and (and (not (= ?v_33 ?v_38)) (and (and (not (= ?v_38 ?v_46)) (not (= ?v_38 ?v_47))) (and (not (= ?v_33 ?v_48)) (not (= ?v_33 ?v_49))))) (and (and (not (= ?v_33 ?v_41)) (and (and (not (= ?v_41 ?v_46)) (not (= ?v_41 ?v_47))) (and (not (= ?v_33 ?v_50)) (not (= ?v_33 ?v_51))))) (and (and (not (= ?v_33 ?v_5)) (and (and (not (= ?v_5 ?v_46)) (not (= ?v_5 ?v_47))) (and (not (= ?v_33 ?v_12)) (not (= ?v_33 ?v_13))))) (and (and (not (= ?v_33 ?v_44)) (and (and (not (= ?v_44 ?v_46)) (not (= ?v_44 ?v_47))) (and (not (= ?v_33 ?v_52)) (not (= ?v_33 ?v_53))))) (and (and (not (= ?v_33 ?v_22)) (and (and (not (= ?v_22 ?v_46)) (not (= ?v_22 ?v_47))) (and (not (= ?v_33 ?v_23)) (not (= ?v_33 ?v_24))))) (and (and (not (= ?v_30 ?v_1)) (and (and (not (= ?v_1 ?v_34)) (not (= ?v_1 ?v_35))) (and (not (= ?v_30 ?v_16)) (not (= ?v_30 ?v_17))))) (and (and (not (= ?v_30 ?v_11)) (and (and (not (= ?v_11 ?v_34)) (not (= ?v_11 ?v_35))) (and (not (= ?v_30 ?v_18)) (not (= ?v_30 ?v_19))))) (and (and (not (= ?v_41 ?v_5)) (and (and (not (= ?v_5 ?v_50)) (not (= ?v_5 ?v_51))) (and (not (= ?v_41 ?v_12)) (not (= ?v_41 ?v_13))))) (and (and (not (= ?v_41 ?v_44)) (and (and (not (= ?v_44 ?v_50)) (not (= ?v_44 ?v_51))) (and (not (= ?v_41 ?v_52)) (not (= ?v_41 ?v_53))))) (and (and (not (= ?v_41 ?v_22)) (and (and (not (= ?v_22 ?v_50)) (not (= ?v_22 ?v_51))) (and (not (= ?v_41 ?v_23)) (not (= ?v_41 ?v_24))))) (and (and (not (= ?v_33 ?v_1)) (and (and (not (= ?v_1 ?v_46)) (not (= ?v_1 ?v_47))) (and (not (= ?v_33 ?v_16)) (not (= ?v_33 ?v_17))))) (and (and (not (= ?v_33 ?v_11)) (and (and (not (= ?v_11 ?v_46)) (not (= ?v_11 ?v_47))) (and (not (= ?v_33 ?v_18)) (not (= ?v_33 ?v_19))))) (and (and (not (= ?v_44 ?v_22)) (and (and (not (= ?v_22 ?v_52)) (not (= ?v_22 ?v_53))) (and (not (= ?v_44 ?v_23)) (not (= ?v_44 ?v_24))))) (and (and (not (= ?v_41 ?v_1)) (and (and (not (= ?v_1 ?v_50)) (not (= ?v_1 ?v_51))) (and (not (= ?v_41 ?v_16)) (not (= ?v_41 ?v_17))))) (and (and (not (= ?v_41 ?v_11)) (and (and (not (= ?v_11 ?v_50)) (not (= ?v_11 ?v_51))) (and (not (= ?v_41 ?v_18)) (not (= ?v_41 ?v_19))))) (and (valid ?v_25 ?v_61) (and (and (not (= ?v_44 ?v_1)) (and (and (not (= ?v_1 ?v_52)) (not (= ?v_1 ?v_53))) (and (not (= ?v_44 ?v_16)) (not (= ?v_44 ?v_17))))) (and (and (not (= ?v_44 ?v_11)) (and (and (not (= ?v_11 ?v_52)) (not (= ?v_11 ?v_53))) (and (not (= ?v_44 ?v_18)) (not (= ?v_44 ?v_19))))) (and (and (not (= ?v_56 ?v_30)) (and (and (not (= ?v_30 ?v_57)) (not (= ?v_30 ?v_58))) (and (not (= ?v_56 ?v_34)) (not (= ?v_56 ?v_35))))) (and (and (not (= ?v_56 ?v_28)) (and (and (not (= ?v_28 ?v_57)) (not (= ?v_28 ?v_58))) (and (not (= ?v_56 ?v_59)) (not (= ?v_56 ?v_60))))) (and (and (not (= ?v_56 ?v_33)) (and (and (not (= ?v_33 ?v_57)) (not (= ?v_33 ?v_58))) (and (not (= ?v_56 ?v_46)) (not (= ?v_56 ?v_47))))) (and (and (not (= ?v_56 ?v_38)) (and (and (not (= ?v_38 ?v_57)) (not (= ?v_38 ?v_58))) (and (not (= ?v_56 ?v_48)) (not (= ?v_56 ?v_49))))) (and (and (not (= ?v_63 ?v_56)) (and (and (not (= ?v_56 ?v_64)) (not (= ?v_56 ?v_65))) (and (not (= ?v_63 ?v_57)) (not (= ?v_63 ?v_58))))) (and (and (not (= ?v_56 ?v_41)) (and (and (not (= ?v_41 ?v_57)) (not (= ?v_41 ?v_58))) (and (not (= ?v_56 ?v_50)) (not (= ?v_56 ?v_51))))) (and (and (not (= ?v_63 ?v_30)) (and (and (not (= ?v_30 ?v_64)) (not (= ?v_30 ?v_65))) (and (not (= ?v_63 ?v_34)) (not (= ?v_63 ?v_35))))) (and (and (not (= ?v_56 ?v_5)) (and (and (not (= ?v_5 ?v_57)) (not (= ?v_5 ?v_58))) (and (not (= ?v_56 ?v_12)) (not (= ?v_56 ?v_13))))) (and (and (not (= ?v_63 ?v_28)) (and (and (not (= ?v_28 ?v_64)) (not (= ?v_28 ?v_65))) (and (not (= ?v_63 ?v_59)) (not (= ?v_63 ?v_60))))) (and (and (not (= ?v_56 ?v_44)) (and (and (not (= ?v_44 ?v_57)) (not (= ?v_44 ?v_58))) (and (not (= ?v_56 ?v_52)) (not (= ?v_56 ?v_53))))) (and (and (not (= ?v_63 ?v_33)) (and (and (not (= ?v_33 ?v_64)) (not (= ?v_33 ?v_65))) (and (not (= ?v_63 ?v_46)) (not (= ?v_63 ?v_47))))) (and (and (not (= ?v_56 ?v_22)) (and (and (not (= ?v_22 ?v_57)) (not (= ?v_22 ?v_58))) (and (not (= ?v_56 ?v_23)) (not (= ?v_56 ?v_24))))) (and (and (not (= ?v_63 ?v_38)) (and (and (not (= ?v_38 ?v_64)) (not (= ?v_38 ?v_65))) (and (not (= ?v_63 ?v_48)) (not (= ?v_63 ?v_49))))) (and (and (not (= ?v_63 ?v_41)) (and (and (not (= ?v_41 ?v_64)) (not (= ?v_41 ?v_65))) (and (not (= ?v_63 ?v_50)) (not (= ?v_63 ?v_51))))) (and (and (not (= ?v_63 ?v_5)) (and (and (not (= ?v_5 ?v_64)) (not (= ?v_5 ?v_65))) (and (not (= ?v_63 ?v_12)) (not (= ?v_63 ?v_13))))) (and (and (not (= ?v_63 ?v_44)) (and (and (not (= ?v_44 ?v_64)) (not (= ?v_44 ?v_65))) (and (not (= ?v_63 ?v_52)) (not (= ?v_63 ?v_53))))) (and (and (not (= ?v_63 ?v_22)) (and (and (not (= ?v_22 ?v_64)) (not (= ?v_22 ?v_65))) (and (not (= ?v_63 ?v_23)) (not (= ?v_63 ?v_24))))) (and (and (not (= ?v_28 ?v_33)) (and (and (not (= ?v_33 ?v_59)) (not (= ?v_33 ?v_60))) (and (not (= ?v_28 ?v_46)) (not (= ?v_28 ?v_47))))) (and (and (not (= ?v_28 ?v_38)) (and (and (not (= ?v_38 ?v_59)) (not (= ?v_38 ?v_60))) (and (not (= ?v_28 ?v_48)) (not (= ?v_28 ?v_49))))) (and (and (not (= ?v_28 ?v_41)) (and (and (not (= ?v_41 ?v_59)) (not (= ?v_41 ?v_60))) (and (not (= ?v_28 ?v_50)) (not (= ?v_28 ?v_51))))) (and (and (not (= ?v_28 ?v_5)) (and (and (not (= ?v_5 ?v_59)) (not (= ?v_5 ?v_60))) (and (not (= ?v_28 ?v_12)) (not (= ?v_28 ?v_13))))) (and (and (not (= ?v_28 ?v_44)) (and (and (not (= ?v_44 ?v_59)) (not (= ?v_44 ?v_60))) (and (not (= ?v_28 ?v_52)) (not (= ?v_28 ?v_53))))) (and (and (not (= ?v_28 ?v_22)) (and (and (not (= ?v_22 ?v_59)) (not (= ?v_22 ?v_60))) (and (not (= ?v_28 ?v_23)) (not (= ?v_28 ?v_24))))) (and (and (not (= ?v_56 ?v_1)) (and (and (not (= ?v_1 ?v_57)) (not (= ?v_1 ?v_58))) (and (not (= ?v_56 ?v_16)) (not (= ?v_56 ?v_17))))) (and (and (not (= ?v_56 ?v_11)) (and (and (not (= ?v_11 ?v_57)) (not (= ?v_11 ?v_58))) (and (not (= ?v_56 ?v_18)) (not (= ?v_56 ?v_19))))) (and (and (not (= ?v_63 ?v_1)) (and (and (not (= ?v_1 ?v_64)) (not (= ?v_1 ?v_65))) (and (not (= ?v_63 ?v_16)) (not (= ?v_63 ?v_17))))) (and (and (not (= ?v_63 ?v_11)) (and (and (not (= ?v_11 ?v_64)) (not (= ?v_11 ?v_65))) (and (not (= ?v_63 ?v_18)) (not (= ?v_63 ?v_19))))) (and (and (not (= ?v_38 ?v_41)) (and (and (not (= ?v_41 ?v_48)) (not (= ?v_41 ?v_49))) (and (not (= ?v_38 ?v_50)) (not (= ?v_38 ?v_51))))) (and (and (not (= ?v_38 ?v_5)) (and (and (not (= ?v_5 ?v_48)) (not (= ?v_5 ?v_49))) (and (not (= ?v_38 ?v_12)) (not (= ?v_38 ?v_13))))) (and (and (not (= ?v_38 ?v_44)) (and (and (not (= ?v_44 ?v_48)) (not (= ?v_44 ?v_49))) (and (not (= ?v_38 ?v_52)) (not (= ?v_38 ?v_53))))) (and (and (not (= ?v_38 ?v_22)) (and (and (not (= ?v_22 ?v_48)) (not (= ?v_22 ?v_49))) (and (not (= ?v_38 ?v_23)) (not (= ?v_38 ?v_24))))) (and (and (not (= ?v_28 ?v_1)) (and (and (not (= ?v_1 ?v_59)) (not (= ?v_1 ?v_60))) (and (not (= ?v_28 ?v_16)) (not (= ?v_28 ?v_17))))) (and (and (not (= ?v_28 ?v_11)) (and (and (not (= ?v_11 ?v_59)) (not (= ?v_11 ?v_60))) (and (not (= ?v_28 ?v_18)) (not (= ?v_28 ?v_19))))) (and (and (not (= ?v_5 ?v_44)) (and (and (not (= ?v_44 ?v_12)) (not (= ?v_44 ?v_13))) (and (not (= ?v_5 ?v_52)) (not (= ?v_5 ?v_53))))) (and (and (not (= ?v_5 ?v_22)) (and (and (not (= ?v_22 ?v_12)) (not (= ?v_22 ?v_13))) (and (not (= ?v_5 ?v_23)) (not (= ?v_5 ?v_24))))) (and (and (not (= ?v_38 ?v_1)) (and (and (not (= ?v_1 ?v_48)) (not (= ?v_1 ?v_49))) (and (not (= ?v_38 ?v_16)) (not (= ?v_38 ?v_17))))) (and (and (not (= ?v_38 ?v_11)) (and (and (not (= ?v_11 ?v_48)) (not (= ?v_11 ?v_49))) (and (not (= ?v_38 ?v_18)) (not (= ?v_38 ?v_19))))) (and (separation1 ?v_6 ?v_9) (and (valid_acc ?v_9) (and (valid_acc ?v_6) (and (valid_acc_range ?v_9 5) (valid_acc_range ?v_6 5))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (=> ?v_66 (forall ((?anonymous_2_v1_global0 c_unique)) (forall ((?anonymous_2_v2_global0 c_unique)) (forall ((?intM_global0 c_unique)) (let ((?v_67 (type_memory c_int type_global)) (?v_69 (type_pset type_global))) (let ((?v_68 (c_sort ?v_69 (pset_singleton ?v_14)))) (=> (and (and (not_assigns ?v_25 (c_sort ?v_67 ?anonymous_2_v1_global) (c_sort ?v_67 ?anonymous_2_v1_global0) ?v_68) (not_assigns ?v_25 (c_sort ?v_67 ?anonymous_2_v2_global) (c_sort ?v_67 ?anonymous_2_v2_global0) ?v_68)) (not_assigns ?v_25 (c_sort ?v_67 ?intM_global) (c_sort ?v_67 ?intM_global0) (c_sort ?v_69 (pset_union (c_sort ?v_69 (pset_range (c_sort ?v_69 (pset_singleton (c_sort ?v_0 (acc ?v_9 ?v_14)))) 0 4)) (c_sort ?v_69 (pset_range (c_sort ?v_69 (pset_singleton (c_sort ?v_0 (acc ?v_6 ?v_14)))) 0 4)))))) (=> (valid ?v_25 ?v_8) (forall ((?anonymous_2_v1_global1 c_unique)) (forall ((?anonymous_2_v2_global1 c_unique)) (forall ((?intM_global1 c_unique)) (let ((?v_70 (c_sort ?v_69 (pset_singleton ?v_8)))) (=> (and (and (not_assigns ?v_25 (c_sort ?v_67 ?anonymous_2_v1_global0) (c_sort ?v_67 ?anonymous_2_v1_global1) ?v_70) (not_assigns ?v_25 (c_sort ?v_67 ?anonymous_2_v2_global0) (c_sort ?v_67 ?anonymous_2_v2_global1) ?v_70)) (not_assigns ?v_25 (c_sort ?v_67 ?intM_global0) (c_sort ?v_67 ?intM_global1) (c_sort ?v_69 (pset_union (c_sort ?v_69 (pset_range (c_sort ?v_69 (pset_singleton (c_sort ?v_0 (acc ?v_9 ?v_8)))) 0 4)) (c_sort ?v_69 (pset_range (c_sort ?v_69 (pset_singleton (c_sort ?v_0 (acc ?v_6 ?v_8)))) 0 4)))))) (=> (valid ?v_25 ?v_20) (forall ((?anonymous_2_v1_global2 c_unique)) (forall ((?anonymous_2_v2_global2 c_unique)) (forall ((?intM_global2 c_unique)) (let ((?v_71 (c_sort ?v_69 (pset_singleton ?v_20)))) (=> (and (and (not_assigns ?v_25 (c_sort ?v_67 ?anonymous_2_v1_global1) (c_sort ?v_67 ?anonymous_2_v1_global2) ?v_71) (not_assigns ?v_25 (c_sort ?v_67 ?anonymous_2_v2_global1) (c_sort ?v_67 ?anonymous_2_v2_global2) ?v_71)) (not_assigns ?v_25 (c_sort ?v_67 ?intM_global1) (c_sort ?v_67 ?intM_global2) (c_sort ?v_69 (pset_union (c_sort ?v_69 (pset_range (c_sort ?v_69 (pset_singleton (c_sort ?v_0 (acc ?v_9 ?v_20)))) 0 4)) (c_sort ?v_69 (pset_range (c_sort ?v_69 (pset_singleton (c_sort ?v_0 (acc ?v_6 ?v_20)))) 0 4)))))) (=> (valid ?v_25 ?v_43) (forall ((?anonymous_2_v1_global3 c_unique)) (forall ((?anonymous_2_v2_global3 c_unique)) (forall ((?intM_global3 c_unique)) (let ((?v_72 (c_sort ?v_69 (pset_singleton ?v_43)))) (=> (and (and (not_assigns ?v_25 (c_sort ?v_67 ?anonymous_2_v1_global2) (c_sort ?v_67 ?anonymous_2_v1_global3) ?v_72) (not_assigns ?v_25 (c_sort ?v_67 ?anonymous_2_v2_global2) (c_sort ?v_67 ?anonymous_2_v2_global3) ?v_72)) (not_assigns ?v_25 (c_sort ?v_67 ?intM_global2) (c_sort ?v_67 ?intM_global3) (c_sort ?v_69 (pset_union (c_sort ?v_69 (pset_range (c_sort ?v_69 (pset_singleton (c_sort ?v_0 (acc ?v_9 ?v_43)))) 0 4)) (c_sort ?v_69 (pset_range (c_sort ?v_69 (pset_singleton (c_sort ?v_0 (acc ?v_6 ?v_43)))) 0 4)))))) (=> (valid ?v_25 ?v_3) (forall ((?anonymous_2_v1_global4 c_unique)) (forall ((?anonymous_2_v2_global4 c_unique)) (forall ((?intM_global4 c_unique)) (let ((?v_73 (c_sort ?v_69 (pset_singleton ?v_3)))) (=> (and (and (not_assigns ?v_25 (c_sort ?v_67 ?anonymous_2_v1_global3) (c_sort ?v_67 ?anonymous_2_v1_global4) ?v_73) (not_assigns ?v_25 (c_sort ?v_67 ?anonymous_2_v2_global3) (c_sort ?v_67 ?anonymous_2_v2_global4) ?v_73)) (not_assigns ?v_25 (c_sort ?v_67 ?intM_global3) (c_sort ?v_67 ?intM_global4) (c_sort ?v_69 (pset_union (c_sort ?v_69 (pset_range (c_sort ?v_69 (pset_singleton (c_sort ?v_0 (acc ?v_9 ?v_3)))) 0 4)) (c_sort ?v_69 (pset_range (c_sort ?v_69 (pset_singleton (c_sort ?v_0 (acc ?v_6 ?v_3)))) 0 4)))))) (=> (valid ?v_25 ?v_40) (forall ((?anonymous_2_v1_global5 c_unique)) (forall ((?anonymous_2_v2_global5 c_unique)) (forall ((?intM_global5 c_unique)) (let ((?v_74 (c_sort ?v_69 (pset_singleton ?v_40)))) (=> (and (and (not_assigns ?v_25 (c_sort ?v_67 ?anonymous_2_v1_global4) (c_sort ?v_67 ?anonymous_2_v1_global5) ?v_74) (not_assigns ?v_25 (c_sort ?v_67 ?anonymous_2_v2_global4) (c_sort ?v_67 ?anonymous_2_v2_global5) ?v_74)) (not_assigns ?v_25 (c_sort ?v_67 ?intM_global4) (c_sort ?v_67 ?intM_global5) (c_sort ?v_69 (pset_union (c_sort ?v_69 (pset_range (c_sort ?v_69 (pset_singleton (c_sort ?v_0 (acc ?v_9 ?v_40)))) 0 4)) (c_sort ?v_69 (pset_range (c_sort ?v_69 (pset_singleton (c_sort ?v_0 (acc ?v_6 ?v_40)))) 0 4)))))) (=> (valid ?v_25 ?v_37) (forall ((?anonymous_2_v1_global6 c_unique)) (forall ((?anonymous_2_v2_global6 c_unique)) (forall ((?intM_global6 c_unique)) (let ((?v_75 (c_sort ?v_69 (pset_singleton ?v_37)))) (=> (and (and (not_assigns ?v_25 (c_sort ?v_67 ?anonymous_2_v1_global5) (c_sort ?v_67 ?anonymous_2_v1_global6) ?v_75) (not_assigns ?v_25 (c_sort ?v_67 ?anonymous_2_v2_global5) (c_sort ?v_67 ?anonymous_2_v2_global6) ?v_75)) (not_assigns ?v_25 (c_sort ?v_67 ?intM_global5) (c_sort ?v_67 ?intM_global6) (c_sort ?v_69 (pset_union (c_sort ?v_69 (pset_range (c_sort ?v_69 (pset_singleton (c_sort ?v_0 (acc ?v_9 ?v_37)))) 0 4)) (c_sort ?v_69 (pset_range (c_sort ?v_69 (pset_singleton (c_sort ?v_0 (acc ?v_6 ?v_37)))) 0 4)))))) (=> (valid ?v_25 ?v_32) (forall ((?anonymous_2_v1_global7 c_unique)) (forall ((?anonymous_2_v2_global7 c_unique)) (forall ((?intM_global7 c_unique)) (let ((?v_76 (c_sort ?v_69 (pset_singleton ?v_32)))) (=> (and (and (not_assigns ?v_25 (c_sort ?v_67 ?anonymous_2_v1_global6) (c_sort ?v_67 ?anonymous_2_v1_global7) ?v_76) (not_assigns ?v_25 (c_sort ?v_67 ?anonymous_2_v2_global6) (c_sort ?v_67 ?anonymous_2_v2_global7) ?v_76)) (not_assigns ?v_25 (c_sort ?v_67 ?intM_global6) (c_sort ?v_67 ?intM_global7) (c_sort ?v_69 (pset_union (c_sort ?v_69 (pset_range (c_sort ?v_69 (pset_singleton (c_sort ?v_0 (acc ?v_9 ?v_32)))) 0 4)) (c_sort ?v_69 (pset_range (c_sort ?v_69 (pset_singleton (c_sort ?v_0 (acc ?v_6 ?v_32)))) 0 4)))))) (=> (valid ?v_25 ?v_27) (forall ((?anonymous_2_v1_global8 c_unique)) (forall ((?anonymous_2_v2_global8 c_unique)) (forall ((?intM_global8 c_unique)) (let ((?v_77 (c_sort ?v_69 (pset_singleton ?v_27))) (?v_78 (offset ?v_26))) (=> (and (and (not_assigns ?v_25 (c_sort ?v_67 ?anonymous_2_v1_global7) (c_sort ?v_67 ?anonymous_2_v1_global8) ?v_77) (not_assigns ?v_25 (c_sort ?v_67 ?anonymous_2_v2_global7) (c_sort ?v_67 ?anonymous_2_v2_global8) ?v_77)) (not_assigns ?v_25 (c_sort ?v_67 ?intM_global7) (c_sort ?v_67 ?intM_global8) (c_sort ?v_69 (pset_union (c_sort ?v_69 (pset_range (c_sort ?v_69 (pset_singleton (c_sort ?v_0 (acc ?v_9 ?v_27)))) 0 4)) (c_sort ?v_69 (pset_range (c_sort ?v_69 (pset_singleton (c_sort ?v_0 (acc ?v_6 ?v_27)))) 0 4)))))) (and (<= 0 ?v_78) (< ?v_78 (block_length ?v_25 ?v_26)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/quantifiers/quaternion_ds1_symm_0428.fof.smt2 b/test/regress/regress0/quantifiers/quaternion_ds1_symm_0428.fof.smt2
deleted file mode 100644
index e7be953ce..000000000
--- a/test/regress/regress0/quantifiers/quaternion_ds1_symm_0428.fof.smt2
+++ /dev/null
@@ -1,49 +0,0 @@
-; COMMAND-LINE: --full-saturate-quant --multi-trigger-cache
-; EXPECT: unsat
-(set-logic AUFLIRA)
-(set-info :status unsat)
-(declare-fun def () Real)
-(declare-fun h_ds1_filter () (Array Int (Array Int Real)))
-(declare-fun id_ds1_filter () (Array Int (Array Int Real)))
-(declare-fun pminus_ds1_filter () (Array Int (Array Int Real)))
-(declare-fun pv5 () Int)
-(declare-fun q_ds1_filter () (Array Int (Array Int Real)))
-(declare-fun r_ds1_filter () (Array Int (Array Int Real)))
-(declare-fun use () Real)
-(declare-fun uniform_int_rnd (Int Int) Int)
-(declare-fun abs_ (Real) Real)
-(declare-fun log (Real) Real)
-(declare-fun exp (Real) Real)
-(declare-fun cos (Real) Real)
-(declare-fun sin (Real) Real)
-(declare-fun sqrt (Real) Real)
-(declare-fun divide (Real Real) Real)
-(declare-fun cond (Int Real Real) Real)
-(declare-fun tptp_term_equal (Real Real) Int)
-(declare-fun tptp_term_equals (Real Real) Int)
-(declare-fun tptp_term_and (Real Real) Int)
-(declare-fun sum (Int Int Real) Real)
-(declare-fun dim (Int Int) Int)
-(declare-fun trans ((Array Int (Array Int Real))) (Array Int (Array Int Real)))
-(declare-fun inv ((Array Int (Array Int Real))) (Array Int (Array Int Real)))
-(declare-fun tptp_mmul ((Array Int (Array Int Real)) (Array Int (Array Int Real))) (Array Int (Array Int Real)))
-(declare-fun tptp_madd ((Array Int (Array Int Real)) (Array Int (Array Int Real))) (Array Int (Array Int Real)))
-(declare-fun tptp_msub ((Array Int (Array Int Real)) (Array Int (Array Int Real))) (Array Int (Array Int Real)))
-(declare-fun tptp_const_array1 (Int Real) (Array Int Real))
-(declare-fun tptp_const_array2 (Int Int Real) (Array Int (Array Int Real)))
-(assert (forall ((?X_0 Int) (?C_1 Int)) (=> (>= ?X_0 0) (<= (uniform_int_rnd ?C_1 ?X_0) ?X_0))))
-(assert (forall ((?X_2 Int) (?C_3 Int)) (=> (>= ?X_2 0) (>= (uniform_int_rnd ?C_3 ?X_2) 0))))
-(assert (forall ((?I_4 Int) (?L_5 Int) (?U_6 Int) (?Val_7 Real)) (=> (and (<= ?L_5 ?I_4) (<= ?I_4 ?U_6)) (= (select (tptp_const_array1 (dim ?L_5 ?U_6) ?Val_7) ?I_4) ?Val_7))))
-(assert (forall ((?I_8 Int) (?L1_9 Int) (?U1_10 Int) (?J_11 Int) (?L2_12 Int) (?U2_13 Int) (?Val_14 Real)) (=> (and (and (and (<= ?L1_9 ?I_8) (<= ?I_8 ?U1_10)) (<= ?L2_12 ?J_11)) (<= ?J_11 ?U2_13)) (= (select (select (tptp_const_array2 (dim ?L1_9 ?U1_10) (dim ?L2_12 ?U2_13) ?Val_14) ?I_8) ?J_11) ?Val_14))))
-(assert (forall ((?I0_15 Int) (?J0_16 Int) (?A_17 (Array Int (Array Int Real))) (?B_18 (Array Int (Array Int Real))) (?N_19 Int)) (let ((?v_0 (tptp_mmul ?A_17 (tptp_mmul ?B_18 (trans ?A_17))))) (=> (and (and (and (and (>= ?I0_15 0) (<= ?I0_15 ?N_19)) (>= ?J0_16 0)) (<= ?J0_16 ?N_19)) (= (select (select ?B_18 ?I0_15) ?J0_16) (select (select ?B_18 ?J0_16) ?I0_15))) (= (select (select ?v_0 ?I0_15) ?J0_16) (select (select ?v_0 ?J0_16) ?I0_15))))))
-(assert (forall ((?I0_20 Int) (?J0_21 Int) (?I_22 Int) (?J_23 Int) (?A_24 (Array Int (Array Int Real))) (?B_25 (Array Int (Array Int Real))) (?N_26 Int) (?M_27 Int)) (let ((?v_0 (tptp_mmul ?A_24 (tptp_mmul ?B_25 (trans ?A_24))))) (=> (and (and (and (and (and (and (and (and (>= ?I0_20 0) (<= ?I0_20 ?N_26)) (>= ?J0_21 0)) (<= ?J0_21 ?N_26)) (>= ?I_22 0)) (<= ?I_22 ?M_27)) (>= ?J_23 0)) (<= ?J_23 ?M_27)) (= (select (select ?B_25 ?I_22) ?J_23) (select (select ?B_25 ?J_23) ?I_22))) (= (select (select ?v_0 ?I0_20) ?J0_21) (select (select ?v_0 ?J0_21) ?I0_20))))))
-(assert (forall ((?I_28 Int) (?J_29 Int) (?A_30 (Array Int (Array Int Real))) (?B_31 (Array Int (Array Int Real))) (?N_32 Int)) (let ((?v_0 (tptp_madd ?A_30 ?B_31))) (=> (and (and (and (and (and (>= ?I_28 0) (<= ?I_28 ?N_32)) (>= ?J_29 0)) (<= ?J_29 ?N_32)) (= (select (select ?A_30 ?I_28) ?J_29) (select (select ?A_30 ?J_29) ?I_28))) (= (select (select ?B_31 ?I_28) ?J_29) (select (select ?B_31 ?J_29) ?I_28))) (= (select (select ?v_0 ?I_28) ?J_29) (select (select ?v_0 ?J_29) ?I_28))))))
-(assert (forall ((?I_33 Int) (?J_34 Int) (?A_35 (Array Int (Array Int Real))) (?B_36 (Array Int (Array Int Real))) (?N_37 Int)) (let ((?v_0 (tptp_msub ?A_35 ?B_36))) (=> (and (and (and (and (and (>= ?I_33 0) (<= ?I_33 ?N_37)) (>= ?J_34 0)) (<= ?J_34 ?N_37)) (= (select (select ?A_35 ?I_33) ?J_34) (select (select ?A_35 ?J_34) ?I_33))) (= (select (select ?B_36 ?I_33) ?J_34) (select (select ?B_36 ?J_34) ?I_33))) (= (select (select ?v_0 ?I_33) ?J_34) (select (select ?v_0 ?J_34) ?I_33))))))
-(assert (forall ((?I_38 Int) (?J_39 Int) (?A_40 (Array Int (Array Int Real))) (?N_41 Int)) (let ((?v_0 (trans ?A_40))) (=> (and (and (and (and (>= ?I_38 0) (<= ?I_38 ?N_41)) (>= ?J_39 0)) (<= ?J_39 ?N_41)) (= (select (select ?A_40 ?I_38) ?J_39) (select (select ?A_40 ?J_39) ?I_38))) (= (select (select ?v_0 ?I_38) ?J_39) (select (select ?v_0 ?J_39) ?I_38))))))
-(assert (forall ((?I_42 Int) (?J_43 Int) (?A_44 (Array Int (Array Int Real))) (?N_45 Int)) (let ((?v_0 (inv ?A_44))) (=> (and (and (and (and (>= ?I_42 0) (<= ?I_42 ?N_45)) (>= ?J_43 0)) (<= ?J_43 ?N_45)) (= (select (select ?A_44 ?I_42) ?J_43) (select (select ?A_44 ?J_43) ?I_42))) (= (select (select ?v_0 ?I_42) ?J_43) (select (select ?v_0 ?J_43) ?I_42))))))
-(assert (forall ((?I0_46 Int) (?J0_47 Int) (?I_48 Int) (?J_49 Int) (?A_50 (Array Int (Array Int Real))) (?B_51 (Array Int (Array Int Real))) (?C_52 (Array Int (Array Int Real))) (?D_53 (Array Int (Array Int Real))) (?E_54 (Array Int (Array Int Real))) (?F_55 (Array Int (Array Int Real))) (?N_56 Int) (?M_57 Int)) (let ((?v_0 (tptp_madd ?A_50 (tptp_mmul ?B_51 (tptp_mmul (tptp_madd (tptp_mmul ?C_52 (tptp_mmul ?D_53 (trans ?C_52))) (tptp_mmul ?E_54 (tptp_mmul ?F_55 (trans ?E_54)))) (trans ?B_51)))))) (=> (and (and (and (and (and (and (and (and (and (and (>= ?I0_46 0) (<= ?I0_46 ?N_56)) (>= ?J0_47 0)) (<= ?J0_47 ?N_56)) (>= ?I_48 0)) (<= ?I_48 ?M_57)) (>= ?J_49 0)) (<= ?J_49 ?M_57)) (= (select (select ?D_53 ?I_48) ?J_49) (select (select ?D_53 ?J_49) ?I_48))) (= (select (select ?A_50 ?I0_46) ?J0_47) (select (select ?A_50 ?J0_47) ?I0_46))) (= (select (select ?F_55 ?I0_46) ?J0_47) (select (select ?F_55 ?J0_47) ?I0_46))) (= (select (select ?v_0 ?I0_46) ?J0_47) (select (select ?v_0 ?J0_47) ?I0_46))))))
-(assert (forall ((?Body_58 Real)) (= (sum 0 (- 1) ?Body_58) 0.0)))
-(assert (not (= def use)))
-(assert (not (=> (and (and (and (and (and (and (>= pv5 0) (<= pv5 998)) (> pv5 0)) (forall ((?A_59 Int) (?B_60 Int)) (=> (and (and (and (>= ?A_59 0) (>= ?B_60 0)) (<= ?A_59 5)) (<= ?B_60 5)) (= (select (select q_ds1_filter ?A_59) ?B_60) (select (select q_ds1_filter ?B_60) ?A_59))))) (forall ((?C_61 Int) (?D_62 Int)) (=> (and (and (and (>= ?C_61 0) (>= ?D_62 0)) (<= ?C_61 2)) (<= ?D_62 2)) (= (select (select r_ds1_filter ?C_61) ?D_62) (select (select r_ds1_filter ?D_62) ?C_61))))) (forall ((?E_63 Int) (?F_64 Int)) (=> (and (and (and (>= ?E_63 0) (>= ?F_64 0)) (<= ?E_63 5)) (<= ?F_64 5)) (= (select (select pminus_ds1_filter ?E_63) ?F_64) (select (select pminus_ds1_filter ?F_64) ?E_63))))) (forall ((?G_65 Int)) (=> (and (>= ?G_65 0) (<= ?G_65 5)) (forall ((?H_66 Int)) (=> (and (>= ?H_66 0) (<= ?H_66 5)) (= (select (select id_ds1_filter ?G_65) ?H_66) (select (select id_ds1_filter ?H_66) ?G_65))))))) (forall ((?I_67 Int) (?J_68 Int)) (let ((?v_0 (trans h_ds1_filter))) (let ((?v_1 (tptp_mmul pminus_ds1_filter (tptp_mmul ?v_0 (inv (tptp_madd r_ds1_filter (tptp_mmul h_ds1_filter (tptp_mmul pminus_ds1_filter ?v_0)))))))) (let ((?v_2 (tptp_mmul ?v_1 (tptp_mmul r_ds1_filter (trans ?v_1))))) (=> (and (and (and (>= ?I_67 0) (>= ?J_68 0)) (<= ?I_67 5)) (<= ?J_68 5)) (= (select (select ?v_2 ?I_67) ?J_68) (select (select ?v_2 ?J_68) ?I_67))))))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/quantifiers/refcount24.cvc b/test/regress/regress0/quantifiers/refcount24.cvc
deleted file mode 100644
index 21c9a3cfe..000000000
--- a/test/regress/regress0/quantifiers/refcount24.cvc
+++ /dev/null
@@ -1,112 +0,0 @@
-% Preamble  --------------
-DATATYPE UNIT = Unit END;
-DATATYPE BOOL = Truth | Falsity END;
-
-% Decls     --------------
-resource$type: TYPE;
-process$type: TYPE;
-null: resource$type;
-S$elem$type: TYPE = process$type;
-S$t$type: TYPE;
-S$empty: S$t$type;
-S$mem:(S$elem$type, S$t$type) -> BOOL;
-S$add:(S$elem$type, S$t$type) -> S$t$type;
-S$remove:(S$elem$type, S$t$type) -> S$t$type;
-S$cardinality:(S$t$type) -> INT;
-S$mem_empty: BOOLEAN = (FORALL (e: S$elem$type): (NOT ((S$mem((e), (S$empty))) = 
-                                                      (Truth))));
-ASSERT S$mem_empty;
-S$mem_add: BOOLEAN = (FORALL (x: S$elem$type, y: S$elem$type, s: S$t$type): 
-                     ((S$mem((x), (S$add((y), (s))))) = (IF (((x) = (y)) OR 
-                                                            ((S$mem((x), (s))) = 
-                                                            (Truth))) THEN 
-                                                        (Truth) ELSE 
-                                                        (Falsity) ENDIF)));
-ASSERT S$mem_add;
-S$mem_remove: BOOLEAN = (FORALL (x: S$elem$type, y: S$elem$type, s: S$t$type): 
-                        ((S$mem((x), (S$remove((y), (s))))) = (IF ((NOT 
-                                                                   ((x) = 
-                                                                   (y))) AND 
-                                                                  ((S$mem(
-                                                                   (x), (s))) = 
-                                                                  (Truth))) THEN 
-                                                              (Truth) ELSE 
-                                                              (Falsity) ENDIF)));
-ASSERT S$mem_remove;
-S$card_empty: BOOLEAN = ((S$cardinality((S$empty))) = (0));
-ASSERT S$card_empty;
-S$card_zero: BOOLEAN = (FORALL (s: S$t$type): (((S$cardinality((s))) = (0)) => 
-                                              ((s) = (S$empty))));
-ASSERT S$card_zero;
-S$card_non_negative: BOOLEAN = (FORALL (s: S$t$type): ((S$cardinality((s))) >= 
-                               (0)));
-ASSERT S$card_non_negative;
-S$card_add: BOOLEAN = (FORALL (x: S$elem$type, s: S$t$type): ((S$cardinality(
-                                                              (S$add(
-                                                              (x), (s))))) = 
-                                                             (IF ((S$mem(
-                                                                  (x), (s))) = 
-                                                                 (Truth)) THEN 
-                                                             (S$cardinality(
-                                                             (s))) ELSE (
-                                                             (S$cardinality(
-                                                             (s))) + 
-                                                             (1)) ENDIF)));
-ASSERT S$card_add;
-S$card_remove: BOOLEAN = (FORALL (x: S$elem$type, s: S$t$type): ((S$cardinality(
-                                                                 (S$remove(
-                                                                 (x), (s))))) = 
-                                                                (IF (
-                                                                    (S$mem(
-                                                                    (x), (s))) = 
-                                                                    (Truth)) THEN (
-                                                                (S$cardinality(
-                                                                (s))) - 
-                                                                (1)) ELSE 
-                                                                (S$cardinality(
-                                                                (s))) ENDIF)));
-ASSERT S$card_remove;
-
-% Var Decls --------------
-count: ARRAY resource$type OF INT;
-ref: ARRAY process$type OF resource$type;
-valid: ARRAY resource$type OF BOOL;
-destroy$r: resource$type;
-valid$1: ARRAY resource$type OF BOOL;
-
-% Asserts   --------------
-ASSERT (NOT ((FORALL (p: process$type): ((NOT 
-                                                                    (
-                                                                    (
-                                                                    (ref)[
-                                                                    (p)]) = 
-                                                                    (null))) => 
-                                                                   ((
-                                                                    (valid)[
-                                                                    (
-                                                                    (ref)[
-                                                                    (p)])]) = 
-                                                                   (Truth)))) => 
-                                       ((NOT ((destroy$r) = (null))) => 
-                                       ((((valid)[(destroy$r)]) = (Truth)) => 
-                                       ((((count)[(destroy$r)]) = (0)) => 
-                                       (((valid$1) = ((valid) WITH [(destroy$r)] := 
-                                                     (Falsity))) => (FORALL 
-                                                                    (
-                                                                    p: process$type): 
-                                                                    (
-                                                                    (NOT 
-                                                                    (
-                                                                    (
-                                                                    (ref)[
-                                                                    (p)]) = 
-                                                                    (null))) => 
-                                                                    (
-                                                                    (
-                                                                    (valid$1)[
-                                                                    (
-                                                                    (ref)[
-                                                                    (p)])]) = 
-                                                                    (Truth))))))))));
-                           
-CHECKSAT;
diff --git a/test/regress/regress0/quantifiers/rew-to-0211-dd.smt2 b/test/regress/regress0/quantifiers/rew-to-0211-dd.smt2
deleted file mode 100644
index ec49231e3..000000000
--- a/test/regress/regress0/quantifiers/rew-to-0211-dd.smt2
+++ /dev/null
@@ -1,259 +0,0 @@
-(set-logic UFLIA)
-(set-info :smt-lib-version 2.0)
-(set-info :category "industrial")
-(set-info :status unsat)
-(declare-fun boolIff (Int Int) Int)
-(declare-fun PeerGroupPlaceholder_ () Int)
-(declare-fun intGreater (Int Int) Int)
-(declare-fun IfThenElse_ (Int Int Int) Int)
-(declare-fun System.IConvertible () Int)
-(declare-fun CONCVARSYM (Int) Int)
-(declare-fun throwException_in () Int)
-(declare-fun SharingMode_Unshared_ () Int)
-(declare-fun System.Reflection.IReflect () Int)
-(declare-fun result_0_ () Int)
-(declare-fun block3502_2_block3553_correct () Int)
-(declare-fun int_m2147483648 () Int)
-(declare-fun local0_0 () Int)
-(declare-fun System.Int32 () Int)
-(declare-fun local0_1 () Int)
-(declare-fun block3536_2_block3553_correct () Int)
-(declare-fun block3553_correct () Int)
-(declare-fun intAtMost (Int Int) Int)
-(declare-fun multiply (Int Int) Int)
-(declare-fun Is_ (Int Int) Int)
-(declare-fun Smt.true () Int)
-(declare-fun ElementType_ (Int) Int)
-(declare-fun divide (Int Int) Int)
-(declare-fun int_m9223372036854775808 () Int)
-(declare-fun divides (Int Int) Int)
-(declare-fun stack0b_0 () Int)
-(declare-fun select1 (Int Int) Int)
-(declare-fun stack0b_1 () Int)
-(declare-fun store1 (Int Int Int) Int)
-(declare-fun select2 (Int Int Int) Int)
-(declare-fun nullObject () Int)
-(declare-fun store2 (Int Int Int Int) Int)
-(declare-fun false3451to3468_correct () Int)
-(declare-fun modulo (Int Int) Int)
-(declare-fun System.IComparable () Int)
-(declare-fun ownerRef_ () Int)
-(declare-fun StructSet_ (Int Int Int) Int)
-(declare-fun AsDirectSubClass (Int Int) Int)
-(declare-fun System.IEquatable_1...System.String () Int)
-(declare-fun System.Boolean () Int)
-(declare-fun shl_ (Int Int) Int)
-(declare-fun DimLength_ (Int Int) Int)
-(declare-fun anyEqual (Int Int) Int)
-(declare-fun System.Array () Int)
-(declare-fun block3451_correct () Int)
-(declare-fun System.Collections.Generic.IEnumerable_1...System.Char () Int)
-(declare-fun System.Reflection.ICustomAttributeProvider () Int)
-(declare-fun SharingMode_LockProtected_ () Int)
-(declare-fun IsMemberlessType_ (Int) Int)
-(declare-fun PartOfLine () Int)
-(declare-fun System.UInt16 () Int)
-(declare-fun false3434to3451_correct () Int)
-(declare-fun ClassRepr (Int) Int)
-(declare-fun System.Runtime.InteropServices._Type () Int)
-(declare-fun boolNot (Int) Int)
-(declare-fun Microsoft.Contracts.ICheckedException () Int)
-(declare-fun System.Exception () Int)
-(declare-fun System.Runtime.InteropServices._MemberInfo () Int)
-(declare-fun boolAnd (Int Int) Int)
-(declare-fun boolImplies (Int Int) Int)
-(declare-fun Unbox (Int) Int)
-(declare-fun intAtLeast (Int Int) Int)
-(declare-fun ownerFrame_ () Int)
-(declare-fun int_4294967295 () Int)
-(declare-fun IsAllocated (Int Int) Int)
-(declare-fun TypeName (Int) Int)
-(declare-fun AsPeerField (Int) Int)
-(declare-fun int_9223372036854775807 () Int)
-(declare-fun AsRepField (Int Int) Int)
-(declare-fun System.Reflection.MemberInfo () Int)
-(declare-fun ArrayCategoryValue_ () Int)
-(declare-fun is (Int Int) Int)
-(declare-fun Microsoft.Contracts.GuardException () Int)
-(declare-fun InRange (Int Int) Bool)
-(declare-fun AsOwner (Int Int) Int)
-(declare-fun System.Int64 () Int)
-(declare-fun System.Runtime.InteropServices._Exception () Int)
-(declare-fun or_ (Int Int) Int)
-(declare-fun As_ (Int Int) Int)
-(declare-fun exposeVersion_ () Int)
-(declare-fun true3434to3536_correct () Int)
-(declare-fun System.Type () Int)
-(declare-fun intLess (Int Int) Int)
-(declare-fun AsImmutable_ (Int) Int)
-(declare-fun NonNullFieldsAreInitialized_ () Int)
-(declare-fun block3417_correct () Int)
-(declare-fun LBound_ (Int Int) Int)
-(declare-fun System.Object () Int)
-(declare-fun System.UInt32 () Int)
-(declare-fun localinv_ () Int)
-(declare-fun inv_ () Int)
-(declare-fun Interval () Int)
-(declare-fun stack50000o_0 () Int)
-(declare-fun stack50000o_1 () Int)
-(declare-fun Heap_0_ () Int)
-(declare-fun entry_correct () Int)
-(declare-fun FirstConsistentOwner_ () Int)
-(declare-fun UnboxedType (Int) Int)
-(declare-fun AsRefField (Int Int) Int)
-(declare-fun System.Byte () Int)
-(declare-fun this () Int)
-(declare-fun stack1o_0 () Int)
-(declare-fun int_2147483647 () Int)
-(declare-fun ArrayCategoryRef_ () Int)
-(declare-fun Interval.a () Int)
-(declare-fun Interval.b () Int)
-(declare-fun stack1i_0 () Int)
-(declare-fun Heap_ () Int)
-(declare-fun Length_ (Int) Int)
-(declare-fun System.Runtime.Serialization.ISerializable () Int)
-(declare-fun AsNonNullRefField (Int Int) Int)
-(declare-fun IsHeap (Int) Int)
-(declare-fun Heap_1_ () Int)
-(declare-fun UBound_ (Int Int) Int)
-(declare-fun Cell () Int)
-(declare-fun System.String () Int)
-(declare-fun System.String.IsInterned_System.String_notnull_ (Int) Int)
-(declare-fun Rank_ (Int) Int)
-(declare-fun UnknownRef_ () Int)
-(declare-fun RefArraySet (Int Int Int) Int)
-(declare-fun ValueArraySet (Int Int Int) Int)
-(declare-fun stack50000o () Int)
-(declare-fun boolOr (Int Int) Int)
-(declare-fun sharingMode_ () Int)
-(declare-fun subtypes (Int Int) Bool)
-(declare-fun System.IComparable_1...System.String () Int)
-(declare-fun System.String.Equals_System.String_System.String_ (Int Int) Int)
-(declare-fun block3434_correct () Int)
-(declare-fun anyNeq (Int Int) Int)
-(declare-fun IsStaticField (Int) Int)
-(declare-fun SS_Display.Return.Local_0 () Int)
-(declare-fun IsNotNull_ (Int Int) Int)
-(declare-fun typeof_ (Int) Int)
-(declare-fun ArrayCategoryNonNullRef_ () Int)
-(declare-fun RefArrayGet (Int Int) Int)
-(declare-fun ValueArrayGet (Int Int) Int)
-(declare-fun TypeObject (Int) Int)
-(declare-fun and_ (Int Int) Int)
-(declare-fun BoxTester (Int Int) Int)
-(declare-fun Microsoft.Contracts.ObjectInvariantException () Int)
-(declare-fun block3468_correct () Int)
-(declare-fun IsValueType_ (Int) Int)
-(declare-fun Heap_2_ () Int)
-(declare-fun AsRangeField (Int Int) Int)
-(declare-fun System.SByte () Int)
-(declare-fun BeingConstructed_ () Int)
-(declare-fun block3502_correct () Int)
-(declare-fun FieldDependsOnFCO_ (Int Int Int) Int)
-(declare-fun NonNullRefArray (Int Int) Int)
-(declare-fun RefArray (Int Int) Int)
-(declare-fun ArrayCategory_ (Int) Int)
-(declare-fun stack0b () Int)
-(declare-fun Cell.Value () Int)
-(declare-fun AsPureObject_ (Int) Int)
-(declare-fun System.String.Equals_System.String_ (Int Int) Int)
-(declare-fun System.Int16 () Int)
-(declare-fun block3536_correct () Int)
-(declare-fun AsMutable_ (Int) Int)
-(declare-fun System.Char () Int)
-(declare-fun System.UInt64 () Int)
-(declare-fun StructGet_ (Int Int) Int)
-(declare-fun OneClassDown (Int Int) Int)
-(declare-fun ArrayIndex (Int Int Int Int) Int)
-(declare-fun stack0o_0 () Int)
-(declare-fun Box (Int Int) Int)
-(declare-fun stack0o_1 () Int)
-(declare-fun int_18446744073709551615 () Int)
-(declare-fun shr_ (Int Int) Int)
-(declare-fun stack0i_0 () Int)
-(declare-fun block3553_2_GeneratedUnifiedExit_correct () Int)
-(declare-fun System.ICloneable () Int)
-(declare-fun IsDirectlyModifiableField (Int) Int)
-(declare-fun StringLength_ (Int) Int)
-(declare-fun allocated_ () Int)
-(declare-fun BaseClass_ (Int) Int)
-(declare-fun ValueArray (Int Int) Int)
-(declare-fun Smt.false () Int)
-(declare-fun true3451to3502_correct () Int)
-(declare-fun IsImmutable_ (Int) Int)
-(declare-fun elements_ () Int)
-(declare-fun DeclType (Int) Int)
-(declare-fun System.Collections.IEnumerable () Int)
-(declare-fun ReallyLastGeneratedExit_correct () Int)
-(assert (forall ((?o Int) (?T Int)) (! (= (= (IsNotNull_ ?o ?T) Smt.true) (and (not (= ?o nullObject)) (= (Is_ ?o ?T) Smt.true))) :pattern ((IsNotNull_ ?o ?T)) )))
-(assert (forall ((?h Int) (?o Int) (?f Int) (?T Int)) (! (=> (and (= (IsHeap ?h) Smt.true) (not (= ?o nullObject)) (or (not (= ?o BeingConstructed_)) (= (= (select2 ?h BeingConstructed_ NonNullFieldsAreInitialized_) Smt.true) true))) (not (= (select2 ?h ?o (AsNonNullRefField ?f ?T)) nullObject))) :pattern ((select2 ?h ?o (AsNonNullRefField ?f ?T))) )))
-(assert (forall ((?o Int) (?T Int)) (! (=> (and (not (= ?o nullObject)) (not (= ?o BeingConstructed_)) (subtypes (typeof_ ?o) (AsImmutable_ ?T))) (forall ((?h Int)) (! (let ((?v_0 (typeof_ ?o))) (=> (= (IsHeap ?h) Smt.true) (and (= (select2 ?h ?o inv_) ?v_0) (= (select2 ?h ?o localinv_) ?v_0) (= (select2 ?h ?o ownerFrame_) PeerGroupPlaceholder_) (= (AsOwner ?o (select2 ?h ?o ownerRef_)) ?o) (forall ((?t Int)) (! (=> (= (AsOwner ?o (select2 ?h ?t ownerRef_)) ?o) (or (= ?t ?o) (not (= (select2 ?h ?t ownerFrame_) PeerGroupPlaceholder_)))) :pattern ((AsOwner ?o (select2 ?h ?t ownerRef_))) ))))) :pattern ((IsHeap ?h)) ))) :pattern ((subtypes (typeof_ ?o) (AsImmutable_ ?T))) )))
-(assert (= (IsValueType_ System.SByte) Smt.true))
-(assert (= (IsValueType_ System.Byte) Smt.true))
-(assert (= (IsValueType_ System.Int16) Smt.true))
-(assert (= (IsValueType_ System.UInt16) Smt.true))
-(assert (= (IsValueType_ System.Int32) Smt.true))
-(assert (= (IsValueType_ System.UInt32) Smt.true))
-(assert (= (IsValueType_ System.Int64) Smt.true))
-(assert (= (IsValueType_ System.UInt64) Smt.true))
-(assert (= (IsValueType_ System.Char) Smt.true))
-(assert (< int_m9223372036854775808 int_m2147483648))
-(assert (< int_m2147483648 (- 0 100000)))
-(assert (< 100000 int_2147483647))
-(assert (< int_2147483647 int_4294967295))
-(assert (< int_4294967295 int_9223372036854775807))
-(assert (< int_9223372036854775807 int_18446744073709551615))
-(assert (not (= (IsStaticField Cell.Value) Smt.true)))
-(assert (= (IsDirectlyModifiableField Cell.Value) Smt.true))
-(assert (= (DeclType Cell.Value) Cell))
-(assert (= (AsRangeField Cell.Value System.Int32) Cell.Value))
-(assert (not (= (IsStaticField Interval.a) Smt.true)))
-(assert (= (IsDirectlyModifiableField Interval.a) Smt.true))
-(assert (= (AsRepField Interval.a Interval) Interval.a))
-(assert (= (DeclType Interval.a) Interval))
-(assert (= (AsNonNullRefField Interval.a Cell) Interval.a))
-(assert (not (= (IsStaticField Interval.b) Smt.true)))
-(assert (= (IsDirectlyModifiableField Interval.b) Smt.true))
-(assert (= (AsRepField Interval.b Interval) Interval.b))
-(assert (= (DeclType Interval.b) Interval))
-(assert (= (AsNonNullRefField Interval.b Cell) Interval.b))
-(assert (subtypes Cell Cell))
-(assert (= (BaseClass_ Cell) System.Object))
-(assert (subtypes Cell (BaseClass_ Cell)))
-(assert (= (AsDirectSubClass Cell (BaseClass_ Cell)) Cell))
-(assert (not (= (IsImmutable_ Cell) Smt.true)))
-(assert (= (AsMutable_ Cell) Cell))
-(assert (subtypes System.Type System.Type))
-(assert (subtypes System.Reflection.MemberInfo System.Reflection.MemberInfo))
-(assert (= (BaseClass_ System.Reflection.MemberInfo) System.Object))
-(assert (subtypes System.Reflection.MemberInfo (BaseClass_ System.Reflection.MemberInfo)))
-(assert (= (AsDirectSubClass System.Reflection.MemberInfo (BaseClass_ System.Reflection.MemberInfo)) System.Reflection.MemberInfo))
-(assert (= (IsImmutable_ System.Reflection.MemberInfo) Smt.true))
-(assert (= (AsImmutable_ System.Reflection.MemberInfo) System.Reflection.MemberInfo))
-(assert (subtypes System.Reflection.ICustomAttributeProvider System.Object))
-(assert (= (IsMemberlessType_ System.Reflection.ICustomAttributeProvider) Smt.true))
-(assert (subtypes System.Reflection.MemberInfo System.Reflection.ICustomAttributeProvider))
-(assert (subtypes System.Runtime.InteropServices._MemberInfo System.Object))
-(assert (= (IsMemberlessType_ System.Runtime.InteropServices._MemberInfo) Smt.true))
-(assert (subtypes System.Reflection.MemberInfo System.Runtime.InteropServices._MemberInfo))
-(assert (= (IsMemberlessType_ System.Reflection.MemberInfo) Smt.true))
-(assert (= (BaseClass_ System.Type) System.Reflection.MemberInfo))
-(assert (subtypes System.Type (BaseClass_ System.Type)))
-(assert (= (AsDirectSubClass System.Type (BaseClass_ System.Type)) System.Type))
-(assert (= (IsImmutable_ System.Type) Smt.true))
-(assert (= (AsImmutable_ System.Type) System.Type))
-(assert (subtypes System.Runtime.InteropServices._Type System.Object))
-(assert (= (IsMemberlessType_ System.Runtime.InteropServices._Type) Smt.true))
-(assert (subtypes System.Type System.Runtime.InteropServices._Type))
-(assert (subtypes System.Reflection.IReflect System.Object))
-(assert (= (IsMemberlessType_ System.Reflection.IReflect) Smt.true))
-(assert (subtypes System.Type System.Reflection.IReflect))
-(assert (= (IsMemberlessType_ System.Type) Smt.true))
-(assert (subtypes PartOfLine PartOfLine))
-(assert (= (BaseClass_ PartOfLine) System.Object))
-(assert (subtypes PartOfLine (BaseClass_ PartOfLine)))
-(assert (= (AsDirectSubClass PartOfLine (BaseClass_ PartOfLine)) PartOfLine))
-(assert (distinct Smt.false Smt.true))
-(assert (let ((?v_0 (select2 Heap_ this ownerFrame_)) (?v_1 (select2 Heap_ this ownerRef_)) (?v_2 (not (= this nullObject))) (?v_3 (not (= stack0o_0 nullObject))) (?v_4 (not (= stack1o_0 nullObject))) (?v_5 (forall ((?o_ Int)) (=> (and (not (= ?o_ nullObject)) (= (= (select2 Heap_ ?o_ allocated_) Smt.true) true)) (and (= (select2 Heap_ ?o_ ownerRef_) (select2 Heap_2_ ?o_ ownerRef_)) (= (select2 Heap_ ?o_ ownerFrame_) (select2 Heap_2_ ?o_ ownerFrame_)))))) (?v_12 (=> true true)) (?v_6 (= ReallyLastGeneratedExit_correct Smt.true)) (?v_7 (= block3553_2_GeneratedUnifiedExit_correct Smt.true)) (?v_15 (= block3553_correct Smt.true)) (?v_14 (= throwException_in Smt.true)) (?v_8 (not (= stack50000o_0 nullObject))) (?v_11 (typeof_ stack50000o_0)) (?v_9 (select2 Heap_1_ stack50000o_0 ownerFrame_)) (?v_10 (select2 Heap_1_ stack50000o_0 ownerRef_)) (?v_13 (= block3468_correct Smt.true)) (?v_19 (= false3451to3468_correct Smt.true))) (let ((?v_21 (=> true ?v_15)) (?v_16 (= block3502_2_block3553_correct Smt.true)) (?v_17 (= block3502_correct Smt.true)) (?v_18 (= true3451to3502_correct Smt.true)) (?v_20 (= block3451_correct Smt.true)) (?v_25 (= false3434to3451_correct Smt.true)) (?v_22 (= block3536_2_block3553_correct Smt.true)) (?v_23 (= block3536_correct Smt.true)) (?v_24 (= true3434to3536_correct Smt.true)) (?v_26 (= block3434_correct Smt.true)) (?v_27 (= block3417_correct Smt.true)) (?v_28 (= entry_correct Smt.true))) (not (=> (=> (=> true (=> (= (IsHeap Heap_) Smt.true) (=> true (=> (= BeingConstructed_ nullObject) (=> (and (or (= ?v_0 PeerGroupPlaceholder_) (not (subtypes (select2 Heap_ ?v_1 inv_) ?v_0)) (= (select2 Heap_ ?v_1 localinv_) (BaseClass_ ?v_0))) (forall ((?pc_ Int)) (let ((?v_29 (typeof_ ?pc_))) (=> (and (not (= ?pc_ nullObject)) (= (= (select2 Heap_ ?pc_ allocated_) Smt.true) true) (= (select2 Heap_ ?pc_ ownerRef_) ?v_1) (= (select2 Heap_ ?pc_ ownerFrame_) ?v_0)) (and (= (select2 Heap_ ?pc_ inv_) ?v_29) (= (select2 Heap_ ?pc_ localinv_) ?v_29)))))) (=> true (=> true (=> (= (IsNotNull_ this Interval) Smt.true) (=> (= (= (select2 Heap_ this allocated_) Smt.true) true) (=> true (=> (=> (=> true (=> true (=> true (=> (=> (=> true (=> true (and ?v_2 (=> ?v_2 (=> (= stack0o_0 (select2 Heap_ this Interval.a)) (and ?v_3 (=> ?v_3 (=> (= stack0i_0 (select2 Heap_ stack0o_0 Cell.Value)) (and ?v_2 (=> ?v_2 (=> (= stack1o_0 (select2 Heap_ this Interval.b)) (and ?v_4 (=> ?v_4 (=> (= stack1i_0 (select2 Heap_ stack1o_0 Cell.Value)) (=> true (=> (and (=> (=> true (=> true (=> true (=> (=> (=> true (=> (= SS_Display.Return.Local_0 local0_0) (=> (= result_0_ local0_0) (=> (= stack50000o_1 stack50000o) (=> (= stack0b_1 local0_0) (=> (= stack0o_1 stack0o_0) (=> (= local0_1 local0_0) (=> (= Heap_2_ Heap_) (=> (=> (=> true (and ?v_5 (=> ?v_5 ?v_12))) ?v_6) ?v_6))))))))) ?v_7) ?v_7)))) ?v_15) (=> (=> true (=> true (=> (> stack0i_0 stack1i_0) (=> true (=> (=> (=> true (=> true (=> true (=> (and (=> (=> true (=> true (=> ?v_14 (=> true (=> (=> (=> true (=> true (=> false (=> (and (= (= (select2 Heap_ stack50000o_0 allocated_) Smt.true) false) ?v_8 (= ?v_11 Microsoft.Contracts.ObjectInvariantException)) (=> (and (= (select2 Heap_ stack50000o_0 ownerRef_) stack50000o_0) (= (select2 Heap_ stack50000o_0 ownerFrame_) PeerGroupPlaceholder_)) (=> (= Heap_0_ (store2 Heap_ stack50000o_0 allocated_ Smt.true)) (and ?v_8 (=> ?v_8 (=> (= (IsHeap Heap_1_) Smt.true) (=> (and (or (= ?v_9 PeerGroupPlaceholder_) (not (subtypes (select2 Heap_1_ ?v_10 inv_) ?v_9)) (= (select2 Heap_1_ ?v_10 localinv_) (BaseClass_ ?v_9))) (= (select2 Heap_1_ stack50000o_0 inv_) Microsoft.Contracts.ObjectInvariantException) (= (select2 Heap_1_ stack50000o_0 localinv_) ?v_11)) (=> (and (= ?v_10 (select2 Heap_0_ stack50000o_0 ownerRef_)) (= ?v_9 (select2 Heap_0_ stack50000o_0 ownerFrame_))) (=> (= (select2 Heap_1_ stack50000o_0 sharingMode_) SharingMode_Unshared_) (=> (forall ((?o_ Int)) (let ((?v_30 (typeof_ ?o_))) (=> (and (not (= ?o_ nullObject)) (= (= (select2 Heap_0_ ?o_ allocated_) Smt.true) (not true)) (= (= (select2 Heap_1_ ?o_ allocated_) Smt.true) true)) (and (= (select2 Heap_1_ ?o_ inv_) ?v_30) (= (select2 Heap_1_ ?o_ localinv_) ?v_30))))) (=> (forall ((?o_ Int)) (! (let ((?v_31 (select2 Heap_0_ ?o_ FirstConsistentOwner_))) (=> (= (select2 Heap_0_ ?v_31 exposeVersion_) (select2 Heap_1_ ?v_31 exposeVersion_)) (= ?v_31 (select2 Heap_1_ ?o_ FirstConsistentOwner_)))) :pattern ((select2 Heap_1_ ?o_ FirstConsistentOwner_)) )) (=> (forall ((?o_ Int)) (=> (and (not (= ?o_ nullObject)) (= (= (select2 Heap_0_ ?o_ allocated_) Smt.true) true)) (and (= (select2 Heap_0_ ?o_ ownerRef_) (select2 Heap_1_ ?o_ ownerRef_)) (= (select2 Heap_0_ ?o_ ownerFrame_) (select2 Heap_1_ ?o_ ownerFrame_))))) (=> (forall ((?o_ Int) (?f_ Int)) (! (let ((?v_32 (select2 Heap_0_ ?o_ ownerFrame_)) (?v_33 (select2 Heap_0_ ?o_ ownerRef_))) (=> (and (not (= ?f_ inv_)) (not (= ?f_ localinv_)) (not (= ?f_ FirstConsistentOwner_)) (or (not (= (IsStaticField ?f_) Smt.true)) (not (= (IsDirectlyModifiableField ?f_) Smt.true))) (not (= ?o_ nullObject)) (= (= (select2 Heap_0_ ?o_ allocated_) Smt.true) true) (or (= ?v_32 PeerGroupPlaceholder_) (not (subtypes (select2 Heap_0_ ?v_33 inv_) ?v_32)) (= (select2 Heap_0_ ?v_33 localinv_) (BaseClass_ ?v_32))) (or (not (= ?o_ stack50000o_0)) (not (subtypes Microsoft.Contracts.ObjectInvariantException (DeclType ?f_)))) true) (= (select2 Heap_0_ ?o_ ?f_) (select2 Heap_1_ ?o_ ?f_)))) :pattern ((select2 Heap_1_ ?o_ ?f_)) )) (=> (forall ((?o_ Int)) (or (= ?o_ stack50000o_0) (and (= (select2 Heap_0_ ?o_ inv_) (select2 Heap_1_ ?o_ inv_)) (= (select2 Heap_0_ ?o_ localinv_) (select2 Heap_1_ ?o_ localinv_))) (= (= (select2 Heap_0_ ?o_ allocated_) Smt.true) (not true)))) (=> (and (forall ((?o_ Int)) (=> (= (= (select2 Heap_0_ ?o_ allocated_) Smt.true) true) (= (= (select2 Heap_1_ ?o_ allocated_) Smt.true) true))) (forall ((?ot_ Int)) (let ((?v_34 (select2 Heap_0_ ?ot_ ownerFrame_))) (=> (and (= (= (select2 Heap_0_ ?ot_ allocated_) Smt.true) true) (not (= ?v_34 PeerGroupPlaceholder_))) (and (= (select2 Heap_1_ ?ot_ ownerRef_) (select2 Heap_0_ ?ot_ ownerRef_)) (= (select2 Heap_1_ ?ot_ ownerFrame_) ?v_34))))) (= (= (select2 Heap_0_ BeingConstructed_ NonNullFieldsAreInitialized_) Smt.true) (= (select2 Heap_1_ BeingConstructed_ NonNullFieldsAreInitialized_) Smt.true))) (=> (forall ((?o_ Int)) (or (= ?o_ stack50000o_0) (= (select2 Heap_0_ ?o_ sharingMode_) (select2 Heap_1_ ?o_ sharingMode_)))) (and ?v_8 (=> ?v_8 (=> false (=> true ?v_12))))))))))))))))))))))) ?v_13) ?v_13))))) ?v_19) (=> (=> true (=> true (=> (not ?v_14) (=> true (=> (=> (=> true (=> true (=> true (=> (=> (=> true (=> (= stack0b_0 throwException_in) (=> (= local0_0 Smt.false) ?v_21))) ?v_16) ?v_16)))) ?v_17) ?v_17))))) ?v_18)) (and ?v_18 ?v_19))))) ?v_20) ?v_20))))) ?v_25) (=> (=> true (=> true (=> (<= stack0i_0 stack1i_0) (=> true (=> (=> (=> true (=> true (=> true (=> (=> (=> true (=> (= stack0b_0 stack0b) (=> (= local0_0 Smt.true) ?v_21))) ?v_22) ?v_22)))) ?v_23) ?v_23))))) ?v_24)) (and ?v_24 ?v_25))))))))))))))))) ?v_26) ?v_26)))) ?v_27) ?v_27))))))))))) ?v_28) ?v_28)))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/quantifiers/ricart-agrawala6.smt2 b/test/regress/regress0/quantifiers/ricart-agrawala6.smt2
deleted file mode 100644
index 5f849de15..000000000
--- a/test/regress/regress0/quantifiers/ricart-agrawala6.smt2
+++ /dev/null
@@ -1,26 +0,0 @@
-(set-logic AUFLIA)
-(set-info :source | An Optimal Algorithm for Mutual Exclusion in Computer Networks. Glenn Ricart and Ashok K. Agrawala. Communications of the ACM Vol.: 24 Number: 1. This is a benchmark of the haRVey theorem prover. It was translated to SMT-LIB by Leonardo  de Moura |)
-(set-info :smt-lib-version 2.0)
-(set-info :category "industrial")
-(set-info :status unsat)
-(declare-fun p () Int)
-(declare-fun q () Int)
-(declare-fun r () Int)
-(declare-fun s () Int)
-(declare-fun s0 (Int) Bool)
-(declare-fun s1 (Int) Bool)
-(declare-fun s2 (Int) Bool)
-(declare-fun s3 (Int) Bool)
-(declare-fun s4 (Int) Bool)
-(declare-fun s5 (Int) Bool)
-(declare-fun s6 (Int) Bool)
-(declare-fun rcs1 (Int) Bool)
-(declare-fun rcs2 (Int) Bool)
-(declare-fun x (Int Int) Bool)
-(declare-fun ro (Int Int) Bool)
-(declare-fun rd (Int Int) Bool)
-(declare-fun sn (Int) Int)
-(declare-fun time () Int)
-(assert (not (=> (and (forall ((?p Int)) (forall ((?q Int)) (=> (or (s0 ?p) (s5 ?p)) (not (x ?p ?q))))) (forall ((?p Int)) (= (or (s0 ?p) (s6 ?p)) (not (rcs2 ?p)))) (forall ((?p Int)) (< (sn ?p) time)) (forall ((?p Int)) (forall ((?q Int)) (=> (not (= ?p ?q)) (not (= (sn ?p) (sn ?q)))))) (forall ((?p Int)) (forall ((?q Int)) (=> (and (not (= ?p ?q)) (or (and (s4 ?p) (x ?p ?q)) (s5 ?p)) (rcs2 ?q)) (< (sn ?p) (sn ?q))))) (forall ((?p Int)) (forall ((?q Int)) (=> (and (not (= ?p ?q)) (rd ?q ?p)) (ro ?p ?q)))) (forall ((?p Int)) (forall ((?q Int)) (let ((?v_0 (x ?p ?q))) (=> (not (= ?p ?q)) (= (not (or (and (s2 ?p) ?v_0) (and (s3 ?p) (not ?v_0)))) (=> (ro ?p ?q) (rd ?q ?p))))))) (forall ((?p Int)) (forall ((?q Int)) (let ((?v_1 (x ?q ?p))) (let ((?v_2 (or (and (s3 ?q) ?v_1) (and (s4 ?q) (not ?v_1))))) (=> (not (= ?p ?q)) (or (and (s6 ?p) (not (x ?p ?q)) ?v_2) (= (rd ?p ?q) (and ?v_2 (rcs2 ?p) (< (sn ?p) (sn ?q)))))))))) (forall ((?p Int)) (=> (s0 ?p) (not (or (s2 ?p) (s3 ?p) (s4 ?p) (s5 ?p) (s6 ?p))))) (forall ((?p Int)) (=> (s2 ?p) (not (or (s3 ?p) (s4 ?p) (s5 ?p) (s6 ?p))))) (forall ((?p Int)) (=> (s3 ?p) (not (or (s4 ?p) (s5 ?p) (s6 ?p))))) (forall ((?p Int)) (=> (s4 ?p) (not (or (s5 ?p) (s6 ?p))))) (forall ((?p Int)) (=> (s5 ?p) (not (s6 ?p)))) (forall ((?r Int)) (let ((?v_3 (not (= ?r p)))) (=> (s0 ?r) (not (or (s2 ?r) (and ?v_3 (=> ?v_3 (s3 ?r))) (=> ?v_3 (s4 ?r)) (s5 ?r) (s6 ?r)))))) (forall ((?r Int)) (let ((?v_4 (not (= ?r p)))) (=> (s2 ?r) (not (or (and ?v_4 (=> ?v_4 (s3 ?r))) (=> ?v_4 (s4 ?r)) (s5 ?r) (s6 ?r)))))) (forall ((?r Int)) (let ((?v_5 (not (= ?r p)))) (=> (and ?v_5 (=> ?v_5 (s3 ?r))) (not (or (=> ?v_5 (s4 ?r)) (s5 ?r) (s6 ?r)))))) (forall ((?r Int)) (=> (=> (not (= ?r p)) (s4 ?r)) (not (or (s5 ?r) (s6 ?r))))) (forall ((?r Int)) (=> (s5 ?r) (not (s6 ?r)))) (s3 p) (forall ((?q Int)) (=> (not (= ?q p)) (x p ?q)))) (and (forall ((?s Int)) (forall ((?r Int)) (let ((?v_6 (not (= ?s p)))) (=> (or (s0 ?s) (s5 ?s)) (not (and ?v_6 (=> ?v_6 (x ?s ?r)))))))) (forall ((?s Int)) (= (or (s0 ?s) (s6 ?s)) (not (rcs2 ?s)))) (forall ((?s Int)) (< (sn ?s) time)) (forall ((?s Int)) (forall ((?r Int)) (=> (not (= ?s ?r)) (not (= (sn ?s) (sn ?r)))))) (forall ((?s Int)) (forall ((?r Int)) (let ((?v_7 (not (= ?s p)))) (=> (and (not (= ?s ?r)) (or (and (=> ?v_7 (s4 ?s)) ?v_7 (=> ?v_7 (x ?s ?r))) (s5 ?s)) (rcs2 ?r)) (< (sn ?s) (sn ?r)))))) (forall ((?s Int)) (forall ((?r Int)) (=> (and (not (= ?s ?r)) (rd ?r ?s)) (ro ?s ?r)))) (forall ((?s Int)) (forall ((?r Int)) (let ((?v_8 (not (= ?s p)))) (let ((?v_9 (=> ?v_8 (x ?s ?r)))) (=> (not (= ?s ?r)) (= (not (or (and (s2 ?s) ?v_8 ?v_9) (and ?v_8 (=> ?v_8 (s3 ?s)) (not (and ?v_8 ?v_9))))) (=> (ro ?s ?r) (rd ?r ?s)))))))) (forall ((?s Int)) (forall ((?r Int)) (let ((?v_10 (not (= ?s p))) (?v_11 (not (= ?r p)))) (let ((?v_12 (=> ?v_11 (x ?r ?s)))) (let ((?v_13 (or (and ?v_11 (=> ?v_11 (s3 ?r)) ?v_11 ?v_12) (and (=> ?v_11 (s4 ?r)) (not (and ?v_11 ?v_12)))))) (=> (not (= ?s ?r)) (or (and (s6 ?s) (not (and ?v_10 (=> ?v_10 (x ?s ?r)))) ?v_13) (= (rd ?s ?r) (and ?v_13 (rcs2 ?s) (< (sn ?s) (sn ?r)))))))))))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/quantifiers/set3.smt2 b/test/regress/regress0/quantifiers/set3.smt2
deleted file mode 100644
index d3e51d996..000000000
--- a/test/regress/regress0/quantifiers/set3.smt2
+++ /dev/null
@@ -1,29 +0,0 @@
-(set-logic AUFLIA)
-(set-info :source | Assertion verification of simple set manipulation programs. |)
-(set-info :smt-lib-version 2.0)
-(set-info :category "crafted")
-(set-info :status unsat)
-(declare-sort Set 0)
-(declare-fun member (Int Set) Bool)
-(declare-fun insert (Set Int) Set)
-(declare-fun delete (Set Int) Set)
-(declare-fun sup (Set) Int)
-(assert (forall ((?x Int) (?s Set)) (member ?x (insert ?s ?x))))
-(assert (forall ((?x Int) (?y Int) (?s Set)) (=> (not (= ?x ?y)) (= (member ?x (insert ?s ?y)) (member ?x ?s)))))
-(assert (forall ((?x Int) (?s Set)) (=> (not (member ?x ?s)) (= (delete ?s ?x) ?s))))
-(assert (forall ((?x Int) (?s Set)) (= (delete (insert ?s ?x) ?x) (delete ?s ?x))))
-(assert (forall ((?x Int) (?y Int) (?s Set)) (=> (not (= ?x ?y)) (= (delete (insert ?s ?y) ?x) (insert (delete ?s ?x) ?y)))))
-(assert (forall ((?s Set)) (member (sup ?s) ?s)))
-(assert (forall ((?s Set) (?x Int)) (=> (member ?x ?s) (<= ?x (sup ?s)))))
-(assert (forall ((?s Set) (?x Int)) (=> (< (sup ?s) ?x) (= (sup (insert ?s ?x)) ?x))))
-(declare-fun arr () (Array Int Int))
-(declare-fun s0 () Set)
-(assert (forall ((?i Int)) (=> (> ?i 0) (< (select arr ?i) (sup s0)))))
-(declare-fun i1 () Int)
-(declare-fun s1 () Set)
-(declare-fun g (Int) Int)
-(assert (forall ((?i Int)) (> (g ?i) 0)))
-(assert (= s1 (insert s0 (select arr (g i1)))))
-(assert (not (= (sup s1) (sup s0))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/quantifiers/set8.smt2 b/test/regress/regress0/quantifiers/set8.smt2
deleted file mode 100644
index 684d94b7a..000000000
--- a/test/regress/regress0/quantifiers/set8.smt2
+++ /dev/null
@@ -1,26 +0,0 @@
-(set-logic AUFLIA)
-(set-info :source | Set theory. |)
-(set-info :smt-lib-version 2.0)
-(set-info :category "crafted")
-(set-info :status unsat)
-(declare-sort Set 0)
-(declare-sort Elem 0)
-(declare-fun member (Elem Set) Bool)
-(declare-fun subset (Set Set) Bool)
-(assert (forall ((?x Elem) (?s1 Set) (?s2 Set)) (=> (and (member ?x ?s1) (subset ?s1 ?s2)) (member ?x ?s2))))
-(assert (forall ((?s1 Set) (?s2 Set)) (=> (not (subset ?s1 ?s2)) (exists ((?x Elem)) (and (member ?x ?s1) (not (member ?x ?s2)))))))
-(assert (forall ((?s1 Set) (?s2 Set)) (=> (forall ((?x Elem)) (=> (member ?x ?s1) (member ?x ?s2))) (subset ?s1 ?s2))))
-(declare-fun seteq (Set Set) Bool)
-(assert (forall ((?s1 Set) (?s2 Set)) (= (seteq ?s1 ?s2) (= ?s1 ?s2))))
-(assert (forall ((?s1 Set) (?s2 Set)) (= (seteq ?s1 ?s2) (and (subset ?s1 ?s2) (subset ?s2 ?s1)))))
-(declare-fun union (Set Set) Set)
-(assert (forall ((?x Elem) (?s1 Set) (?s2 Set)) (= (member ?x (union ?s1 ?s2)) (or (member ?x ?s1) (member ?x ?s2)))))
-(declare-fun intersection (Set Set) Set)
-(assert (forall ((?x Elem) (?s1 Set) (?s2 Set)) (= (member ?x (intersection ?s1 ?s2)) (and (member ?x ?s1) (member ?x ?s2)))))
-(declare-fun difference (Set Set) Set)
-(assert (forall ((?x Elem) (?s1 Set) (?s2 Set)) (= (member ?x (difference ?s1 ?s2)) (and (member ?x ?s1) (not (member ?x ?s2))))))
-(declare-fun a () Set)
-(declare-fun b () Set)
-(assert (not (seteq (intersection a b) (intersection b a))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/quantifiers/small-bug1-fixpoint-3.smt2 b/test/regress/regress0/quantifiers/small-bug1-fixpoint-3.smt2
deleted file mode 100644
index c26cde173..000000000
--- a/test/regress/regress0/quantifiers/small-bug1-fixpoint-3.smt2
+++ /dev/null
@@ -1,16 +0,0 @@
-; COMMAND-LINE: --cbqi-all --no-check-models
-; EXPECT: sat
-;AJR:BROKEN
-(set-logic UFBV)
-(set-info :status sat)
-(declare-fun Verilog__main.impl_PC_valid_64_1_39_!3 (Bool Bool Bool Bool Bool Bool Bool Bool Bool Bool Bool) Bool)
-(declare-fun Verilog__main.impl_flush_64_1_39_!1 (Bool Bool Bool Bool Bool Bool Bool Bool Bool Bool Bool) Bool)
-(declare-fun Verilog__main.reset_64_0_39_!4 (Bool Bool Bool Bool Bool Bool Bool Bool Bool Bool Bool) Bool)
-(declare-fun Verilog__main.impl_PC_valid_64_2_39_!6 (Bool Bool Bool Bool Bool Bool Bool Bool Bool Bool Bool) Bool)
-(declare-fun Verilog__main.impl_flush_64_0_39_!0 (Bool Bool Bool Bool Bool Bool Bool Bool Bool Bool Bool) Bool)
-(declare-fun Verilog__main.reset_64_1_39_!7 (Bool Bool Bool Bool Bool Bool Bool Bool Bool Bool Bool) Bool)
-(declare-fun Verilog__main.impl_PC_valid_64_0_39_!5 (Bool Bool Bool Bool Bool Bool Bool Bool Bool Bool Bool) Bool)
-(declare-fun Verilog__main.impl_flush_64_2_39_!2 (Bool Bool Bool Bool Bool Bool Bool Bool Bool Bool Bool) Bool)
-(assert (forall ((Verilog__main.impl_flush_64_0 Bool) (Verilog__main.impl_flush_64_1 Bool) (Verilog__main.impl_flush_64_2 Bool) (Verilog__main.impl_flush_64_3 Bool) (Verilog__main.impl_PC_valid_64_1 Bool) (Verilog__main.reset_64_0 Bool) (Verilog__main.impl_PC_valid_64_0 Bool) (Verilog__main.impl_PC_valid_64_2 Bool) (Verilog__main.reset_64_1 Bool) (Verilog__main.impl_PC_valid_64_3 Bool) (Verilog__main.reset_64_2 Bool)) (=> (and (= Verilog__main.impl_flush_64_0 false) (= Verilog__main.impl_flush_64_1 false) (= Verilog__main.impl_flush_64_2 false) (= Verilog__main.impl_flush_64_3 false) (= Verilog__main.impl_PC_valid_64_1 (ite Verilog__main.reset_64_0 true (ite Verilog__main.impl_flush_64_0 false Verilog__main.impl_PC_valid_64_0))) (= Verilog__main.impl_PC_valid_64_2 (ite Verilog__main.reset_64_1 true (ite Verilog__main.impl_flush_64_1 false Verilog__main.impl_PC_valid_64_1))) (= Verilog__main.impl_PC_valid_64_3 (ite Verilog__main.reset_64_2 true (ite Verilog__main.impl_flush_64_2 false Verilog__main.impl_PC_valid_64_2)))) (and (= (Verilog__main.impl_flush_64_0_39_!0 Verilog__main.reset_64_2 Verilog__main.impl_PC_valid_64_3 Verilog__main.reset_64_1 Verilog__main.impl_PC_valid_64_2 Verilog__main.impl_PC_valid_64_0 Verilog__main.reset_64_0 Verilog__main.impl_PC_valid_64_1 Verilog__main.impl_flush_64_3 Verilog__main.impl_flush_64_2 Verilog__main.impl_flush_64_1 Verilog__main.impl_flush_64_0) false) (= (Verilog__main.impl_flush_64_1_39_!1 Verilog__main.reset_64_2 Verilog__main.impl_PC_valid_64_3 Verilog__main.reset_64_1 Verilog__main.impl_PC_valid_64_2 Verilog__main.impl_PC_valid_64_0 Verilog__main.reset_64_0 Verilog__main.impl_PC_valid_64_1 Verilog__main.impl_flush_64_3 Verilog__main.impl_flush_64_2 Verilog__main.impl_flush_64_1 Verilog__main.impl_flush_64_0) false) (= (Verilog__main.impl_flush_64_2_39_!2 Verilog__main.reset_64_2 Verilog__main.impl_PC_valid_64_3 Verilog__main.reset_64_1 Verilog__main.impl_PC_valid_64_2 Verilog__main.impl_PC_valid_64_0 Verilog__main.reset_64_0 Verilog__main.impl_PC_valid_64_1 Verilog__main.impl_flush_64_3 Verilog__main.impl_flush_64_2 Verilog__main.impl_flush_64_1 Verilog__main.impl_flush_64_0) false) (= (Verilog__main.impl_PC_valid_64_1_39_!3 Verilog__main.reset_64_2 Verilog__main.impl_PC_valid_64_3 Verilog__main.reset_64_1 Verilog__main.impl_PC_valid_64_2 Verilog__main.impl_PC_valid_64_0 Verilog__main.reset_64_0 Verilog__main.impl_PC_valid_64_1 Verilog__main.impl_flush_64_3 Verilog__main.impl_flush_64_2 Verilog__main.impl_flush_64_1 Verilog__main.impl_flush_64_0) (ite (Verilog__main.reset_64_0_39_!4 Verilog__main.reset_64_2 Verilog__main.impl_PC_valid_64_3 Verilog__main.reset_64_1 Verilog__main.impl_PC_valid_64_2 Verilog__main.impl_PC_valid_64_0 Verilog__main.reset_64_0 Verilog__main.impl_PC_valid_64_1 Verilog__main.impl_flush_64_3 Verilog__main.impl_flush_64_2 Verilog__main.impl_flush_64_1 Verilog__main.impl_flush_64_0) true (ite (Verilog__main.impl_flush_64_0_39_!0 Verilog__main.reset_64_2 Verilog__main.impl_PC_valid_64_3 Verilog__main.reset_64_1 Verilog__main.impl_PC_valid_64_2 Verilog__main.impl_PC_valid_64_0 Verilog__main.reset_64_0 Verilog__main.impl_PC_valid_64_1 Verilog__main.impl_flush_64_3 Verilog__main.impl_flush_64_2 Verilog__main.impl_flush_64_1 Verilog__main.impl_flush_64_0) false (Verilog__main.impl_PC_valid_64_0_39_!5 Verilog__main.reset_64_2 Verilog__main.impl_PC_valid_64_3 Verilog__main.reset_64_1 Verilog__main.impl_PC_valid_64_2 Verilog__main.impl_PC_valid_64_0 Verilog__main.reset_64_0 Verilog__main.impl_PC_valid_64_1 Verilog__main.impl_flush_64_3 Verilog__main.impl_flush_64_2 Verilog__main.impl_flush_64_1 Verilog__main.impl_flush_64_0)))) (= (Verilog__main.impl_PC_valid_64_2_39_!6 Verilog__main.reset_64_2 Verilog__main.impl_PC_valid_64_3 Verilog__main.reset_64_1 Verilog__main.impl_PC_valid_64_2 Verilog__main.impl_PC_valid_64_0 Verilog__main.reset_64_0 Verilog__main.impl_PC_valid_64_1 Verilog__main.impl_flush_64_3 Verilog__main.impl_flush_64_2 Verilog__main.impl_flush_64_1 Verilog__main.impl_flush_64_0) (ite (Verilog__main.reset_64_1_39_!7 Verilog__main.reset_64_2 Verilog__main.impl_PC_valid_64_3 Verilog__main.reset_64_1 Verilog__main.impl_PC_valid_64_2 Verilog__main.impl_PC_valid_64_0 Verilog__main.reset_64_0 Verilog__main.impl_PC_valid_64_1 Verilog__main.impl_flush_64_3 Verilog__main.impl_flush_64_2 Verilog__main.impl_flush_64_1 Verilog__main.impl_flush_64_0) true (ite (Verilog__main.impl_flush_64_1_39_!1 Verilog__main.reset_64_2 Verilog__main.impl_PC_valid_64_3 Verilog__main.reset_64_1 Verilog__main.impl_PC_valid_64_2 Verilog__main.impl_PC_valid_64_0 Verilog__main.reset_64_0 Verilog__main.impl_PC_valid_64_1 Verilog__main.impl_flush_64_3 Verilog__main.impl_flush_64_2 Verilog__main.impl_flush_64_1 Verilog__main.impl_flush_64_0) false (Verilog__main.impl_PC_valid_64_1_39_!3 Verilog__main.reset_64_2 Verilog__main.impl_PC_valid_64_3 Verilog__main.reset_64_1 Verilog__main.impl_PC_valid_64_2 Verilog__main.impl_PC_valid_64_0 Verilog__main.reset_64_0 Verilog__main.impl_PC_valid_64_1 Verilog__main.impl_flush_64_3 Verilog__main.impl_flush_64_2 Verilog__main.impl_flush_64_1 Verilog__main.impl_flush_64_0)))) (or (and (= Verilog__main.impl_flush_64_3 (Verilog__main.impl_flush_64_0_39_!0 Verilog__main.reset_64_2 Verilog__main.impl_PC_valid_64_3 Verilog__main.reset_64_1 Verilog__main.impl_PC_valid_64_2 Verilog__main.impl_PC_valid_64_0 Verilog__main.reset_64_0 Verilog__main.impl_PC_valid_64_1 Verilog__main.impl_flush_64_3 Verilog__main.impl_flush_64_2 Verilog__main.impl_flush_64_1 Verilog__main.impl_flush_64_0)) (= Verilog__main.impl_PC_valid_64_3 (Verilog__main.impl_PC_valid_64_0_39_!5 Verilog__main.reset_64_2 Verilog__main.impl_PC_valid_64_3 Verilog__main.reset_64_1 Verilog__main.impl_PC_valid_64_2 Verilog__main.impl_PC_valid_64_0 Verilog__main.reset_64_0 Verilog__main.impl_PC_valid_64_1 Verilog__main.impl_flush_64_3 Verilog__main.impl_flush_64_2 Verilog__main.impl_flush_64_1 Verilog__main.impl_flush_64_0))) (and (= Verilog__main.impl_flush_64_3 (Verilog__main.impl_flush_64_1_39_!1 Verilog__main.reset_64_2 Verilog__main.impl_PC_valid_64_3 Verilog__main.reset_64_1 Verilog__main.impl_PC_valid_64_2 Verilog__main.impl_PC_valid_64_0 Verilog__main.reset_64_0 Verilog__main.impl_PC_valid_64_1 Verilog__main.impl_flush_64_3 Verilog__main.impl_flush_64_2 Verilog__main.impl_flush_64_1 Verilog__main.impl_flush_64_0)) (= Verilog__main.impl_PC_valid_64_3 (Verilog__main.impl_PC_valid_64_1_39_!3 Verilog__main.reset_64_2 Verilog__main.impl_PC_valid_64_3 Verilog__main.reset_64_1 Verilog__main.impl_PC_valid_64_2 Verilog__main.impl_PC_valid_64_0 Verilog__main.reset_64_0 Verilog__main.impl_PC_valid_64_1 Verilog__main.impl_flush_64_3 Verilog__main.impl_flush_64_2 Verilog__main.impl_flush_64_1 Verilog__main.impl_flush_64_0))) (and (= Verilog__main.impl_flush_64_3 (Verilog__main.impl_flush_64_2_39_!2 Verilog__main.reset_64_2 Verilog__main.impl_PC_valid_64_3 Verilog__main.reset_64_1 Verilog__main.impl_PC_valid_64_2 Verilog__main.impl_PC_valid_64_0 Verilog__main.reset_64_0 Verilog__main.impl_PC_valid_64_1 Verilog__main.impl_flush_64_3 Verilog__main.impl_flush_64_2 Verilog__main.impl_flush_64_1 Verilog__main.impl_flush_64_0)) (= Verilog__main.impl_PC_valid_64_3 (Verilog__main.impl_PC_valid_64_2_39_!6 Verilog__main.reset_64_2 Verilog__main.impl_PC_valid_64_3 Verilog__main.reset_64_1 Verilog__main.impl_PC_valid_64_2 Verilog__main.impl_PC_valid_64_0 Verilog__main.reset_64_0 Verilog__main.impl_PC_valid_64_1 Verilog__main.impl_flush_64_3 Verilog__main.impl_flush_64_2 Verilog__main.impl_flush_64_1 Verilog__main.impl_flush_64_0)))))) ))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/quantifiers/small-pipeline-fixpoint-3.smt2 b/test/regress/regress0/quantifiers/small-pipeline-fixpoint-3.smt2
deleted file mode 100644
index 378912490..000000000
--- a/test/regress/regress0/quantifiers/small-pipeline-fixpoint-3.smt2
+++ /dev/null
@@ -1,7 +0,0 @@
-; COMMAND-LINE: --cbqi-bv --no-check-models
-; EXPECT: unsat
-(set-logic BV)
-(set-info :status unsat)
-(assert (forall ((Verilog__main.dataOut_64_0 (_ BitVec 32))) (forall ((Verilog__main.stageOne_64_0 (_ BitVec 32))) (forall ((Verilog__main.stageTwo_64_0 (_ BitVec 32))) (forall ((Verilog__main.tmp_stageOne_64_0 (_ BitVec 32))) (forall ((Verilog__main.tmp_stageTwo_64_0 (_ BitVec 32))) (forall ((Verilog__main.dataOut_64_1 (_ BitVec 32))) (forall ((Verilog__main.reset_64_0 Bool)) (forall ((Verilog__main.stageOne_64_1 (_ BitVec 32))) (forall ((Verilog__main.dataIn_64_0 (_ BitVec 32))) (forall ((Verilog__main.c1_64_0 (_ BitVec 32))) (forall ((Verilog__main.stageTwo_64_1 (_ BitVec 32))) (forall ((Verilog__main.c2_64_0 (_ BitVec 32))) (forall ((Verilog__main.tmp_stageOne_64_1 (_ BitVec 32))) (forall ((Verilog__main.tmp_stageTwo_64_1 (_ BitVec 32))) (forall ((Verilog__main.dataOut_64_2 (_ BitVec 32))) (forall ((Verilog__main.reset_64_1 Bool)) (forall ((Verilog__main.stageOne_64_2 (_ BitVec 32))) (forall ((Verilog__main.dataIn_64_1 (_ BitVec 32))) (forall ((Verilog__main.c1_64_1 (_ BitVec 32))) (forall ((Verilog__main.stageTwo_64_2 (_ BitVec 32))) (forall ((Verilog__main.c2_64_1 (_ BitVec 32))) (forall ((Verilog__main.tmp_stageOne_64_2 (_ BitVec 32))) (forall ((Verilog__main.tmp_stageTwo_64_2 (_ BitVec 32))) (forall ((Verilog__main.dataOut_64_3 (_ BitVec 32))) (forall ((Verilog__main.reset_64_2 Bool)) (forall ((Verilog__main.stageOne_64_3 (_ BitVec 32))) (forall ((Verilog__main.dataIn_64_2 (_ BitVec 32))) (forall ((Verilog__main.c1_64_2 (_ BitVec 32))) (forall ((Verilog__main.stageTwo_64_3 (_ BitVec 32))) (forall ((Verilog__main.c2_64_2 (_ BitVec 32))) (forall ((Verilog__main.tmp_stageOne_64_3 (_ BitVec 32))) (forall ((Verilog__main.tmp_stageTwo_64_3 (_ BitVec 32))) (exists ((Verilog__main.dataOut_64_0_39_ (_ BitVec 32))) (exists ((Verilog__main.stageOne_64_0_39_ (_ BitVec 32))) (exists ((Verilog__main.stageTwo_64_0_39_ (_ BitVec 32))) (exists ((Verilog__main.tmp_stageOne_64_0_39_ (_ BitVec 32))) (exists ((Verilog__main.tmp_stageTwo_64_0_39_ (_ BitVec 32))) (exists ((Verilog__main.dataOut_64_1_39_ (_ BitVec 32))) (exists ((Verilog__main.reset_64_0_39_ Bool)) (exists ((Verilog__main.stageOne_64_1_39_ (_ BitVec 32))) (exists ((Verilog__main.dataIn_64_0_39_ (_ BitVec 32))) (exists ((Verilog__main.c1_64_0_39_ (_ BitVec 32))) (exists ((Verilog__main.stageTwo_64_1_39_ (_ BitVec 32))) (exists ((Verilog__main.c2_64_0_39_ (_ BitVec 32))) (exists ((Verilog__main.tmp_stageOne_64_1_39_ (_ BitVec 32))) (exists ((Verilog__main.tmp_stageTwo_64_1_39_ (_ BitVec 32))) (exists ((Verilog__main.dataOut_64_2_39_ (_ BitVec 32))) (exists ((Verilog__main.reset_64_1_39_ Bool)) (exists ((Verilog__main.stageOne_64_2_39_ (_ BitVec 32))) (exists ((Verilog__main.dataIn_64_1_39_ (_ BitVec 32))) (exists ((Verilog__main.c1_64_1_39_ (_ BitVec 32))) (exists ((Verilog__main.stageTwo_64_2_39_ (_ BitVec 32))) (exists ((Verilog__main.c2_64_1_39_ (_ BitVec 32))) (exists ((Verilog__main.tmp_stageOne_64_2_39_ (_ BitVec 32))) (exists ((Verilog__main.tmp_stageTwo_64_2_39_ (_ BitVec 32))) (=> (and (and (= Verilog__main.dataOut_64_0 (_ bv0 32)) (= Verilog__main.stageOne_64_0 (_ bv0 32)) (= Verilog__main.stageTwo_64_0 (_ bv0 32)) (= Verilog__main.tmp_stageOne_64_0 (_ bv0 32)) (= Verilog__main.tmp_stageTwo_64_0 (_ bv0 32))) (and (= Verilog__main.dataOut_64_1 (ite (not Verilog__main.reset_64_0) (bvadd Verilog__main.stageTwo_64_0 Verilog__main.stageOne_64_0) (_ bv0 32))) (= Verilog__main.stageOne_64_1 (bvadd Verilog__main.dataIn_64_0 Verilog__main.c1_64_0)) (= Verilog__main.stageTwo_64_1 (bvand Verilog__main.stageOne_64_0 Verilog__main.c2_64_0)) (= Verilog__main.tmp_stageOne_64_1 Verilog__main.stageOne_64_0) (= Verilog__main.tmp_stageTwo_64_1 Verilog__main.stageTwo_64_0)) (and (= Verilog__main.dataOut_64_2 (ite (not Verilog__main.reset_64_1) (bvadd Verilog__main.stageTwo_64_1 Verilog__main.stageOne_64_1) (_ bv0 32))) (= Verilog__main.stageOne_64_2 (bvadd Verilog__main.dataIn_64_1 Verilog__main.c1_64_1)) (= Verilog__main.stageTwo_64_2 (bvand Verilog__main.stageOne_64_1 Verilog__main.c2_64_1)) (= Verilog__main.tmp_stageOne_64_2 Verilog__main.stageOne_64_1) (= Verilog__main.tmp_stageTwo_64_2 Verilog__main.stageTwo_64_1)) (and (= Verilog__main.dataOut_64_3 (ite (not Verilog__main.reset_64_2) (bvadd Verilog__main.stageTwo_64_2 Verilog__main.stageOne_64_2) (_ bv0 32))) (= Verilog__main.stageOne_64_3 (bvadd Verilog__main.dataIn_64_2 Verilog__main.c1_64_2)) (= Verilog__main.stageTwo_64_3 (bvand Verilog__main.stageOne_64_2 Verilog__main.c2_64_2)) (= Verilog__main.tmp_stageOne_64_3 Verilog__main.stageOne_64_2) (= Verilog__main.tmp_stageTwo_64_3 Verilog__main.stageTwo_64_2))) (and (and (and (= Verilog__main.dataOut_64_0_39_ (_ bv0 32)) (= Verilog__main.stageOne_64_0_39_ (_ bv0 32)) (= Verilog__main.stageTwo_64_0_39_ (_ bv0 32)) (= Verilog__main.tmp_stageOne_64_0_39_ (_ bv0 32)) (= Verilog__main.tmp_stageTwo_64_0_39_ (_ bv0 32))) (and (= Verilog__main.dataOut_64_1_39_ (ite (not Verilog__main.reset_64_0_39_) (bvadd Verilog__main.stageTwo_64_0_39_ Verilog__main.stageOne_64_0_39_) (_ bv0 32))) (= Verilog__main.stageOne_64_1_39_ (bvadd Verilog__main.dataIn_64_0_39_ Verilog__main.c1_64_0_39_)) (= Verilog__main.stageTwo_64_1_39_ (bvand Verilog__main.stageOne_64_0_39_ Verilog__main.c2_64_0_39_)) (= Verilog__main.tmp_stageOne_64_1_39_ Verilog__main.stageOne_64_0_39_) (= Verilog__main.tmp_stageTwo_64_1_39_ Verilog__main.stageTwo_64_0_39_)) (and (= Verilog__main.dataOut_64_2_39_ (ite (not Verilog__main.reset_64_1_39_) (bvadd Verilog__main.stageTwo_64_1_39_ Verilog__main.stageOne_64_1_39_) (_ bv0 32))) (= Verilog__main.stageOne_64_2_39_ (bvadd Verilog__main.dataIn_64_1_39_ Verilog__main.c1_64_1_39_)) (= Verilog__main.stageTwo_64_2_39_ (bvand Verilog__main.stageOne_64_1_39_ Verilog__main.c2_64_1_39_)) (= Verilog__main.tmp_stageOne_64_2_39_ Verilog__main.stageOne_64_1_39_) (= Verilog__main.tmp_stageTwo_64_2_39_ Verilog__main.stageTwo_64_1_39_))) (or (and (= Verilog__main.dataOut_64_3 Verilog__main.dataOut_64_0_39_) (= Verilog__main.stageOne_64_3 Verilog__main.stageOne_64_0_39_) (= Verilog__main.stageTwo_64_3 Verilog__main.stageTwo_64_0_39_) (= Verilog__main.tmp_stageOne_64_3 Verilog__main.tmp_stageOne_64_0_39_) (= Verilog__main.tmp_stageTwo_64_3 Verilog__main.tmp_stageTwo_64_0_39_)) (and (= Verilog__main.dataOut_64_3 Verilog__main.dataOut_64_1_39_) (= Verilog__main.stageOne_64_3 Verilog__main.stageOne_64_1_39_) (= Verilog__main.stageTwo_64_3 Verilog__main.stageTwo_64_1_39_) (= Verilog__main.tmp_stageOne_64_3 Verilog__main.tmp_stageOne_64_1_39_) (= Verilog__main.tmp_stageTwo_64_3 Verilog__main.tmp_stageTwo_64_1_39_)) (and (= Verilog__main.dataOut_64_3 Verilog__main.dataOut_64_2_39_) (= Verilog__main.stageOne_64_3 Verilog__main.stageOne_64_2_39_) (= Verilog__main.stageTwo_64_3 Verilog__main.stageTwo_64_2_39_) (= Verilog__main.tmp_stageOne_64_3 Verilog__main.tmp_stageOne_64_2_39_) (= Verilog__main.tmp_stageTwo_64_3 Verilog__main.tmp_stageTwo_64_2_39_))))) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/quantifiers/smtlib384a03.smt2 b/test/regress/regress0/quantifiers/smtlib384a03.smt2
deleted file mode 100644
index 9e2273cff..000000000
--- a/test/regress/regress0/quantifiers/smtlib384a03.smt2
+++ /dev/null
@@ -1,205 +0,0 @@
-(set-logic AUFLIRA)
-(set-info :source |http://proval.lri.fr/why-benchmarks |)
-(set-info :smt-lib-version 2.0)
-(set-info :category "industrial")
-(set-info :status unsat)
-(declare-sort Unit 0)
-(declare-sort c_unique 0)
-(declare-sort c_ssorted 0)
-(declare-sort c_type 0)
-(declare-sort c_Boolean 0)
-(declare-fun c_sort (c_type c_unique) c_ssorted)
-(declare-fun c_Boolean_true () c_Boolean)
-(declare-fun c_Boolean_false () c_Boolean)
-(assert (forall ((?b_22_1 c_Boolean)) (or (= c_Boolean_true ?b_22_1) (= c_Boolean_false ?b_22_1))))
-(assert (not (= c_Boolean_true c_Boolean_false)))
-(declare-fun int2U (Int) c_unique)
-(declare-fun ss2Int (c_ssorted) Int)
-(declare-fun real2U (Real) c_unique)
-(declare-fun ss2Real (c_ssorted) Real)
-(declare-fun bool2U (c_Boolean) c_unique)
-(declare-fun ss2Bool (c_ssorted) c_Boolean)
-(declare-fun c_int () c_type)
-(declare-fun c_bool () c_type)
-(declare-fun c_real () c_type)
-(declare-fun c_unit () c_type)
-(declare-fun c_ref (c_unique) c_unique)
-(assert (forall ((?t_21_2 c_type)) (forall ((?x_20_3 c_unique)) (forall ((?y_19_4 c_unique)) (=> (= (c_sort ?t_21_2 ?x_20_3) (c_sort ?t_21_2 ?y_19_4)) (= ?x_20_3 ?y_19_4))))))
-(assert (forall ((?x_18_5 Int)) (= (ss2Int (c_sort c_int (int2U ?x_18_5))) ?x_18_5)))
-(assert (forall ((?x_17_6 Int)) (forall ((?y_16_7 Int)) (=> (= (int2U ?x_17_6) (int2U ?y_16_7)) (= ?x_17_6 ?y_16_7)))))
-(assert (forall ((?x_15_8 Real)) (forall ((?y_14_9 Real)) (=> (= (real2U ?x_15_8) (real2U ?y_14_9)) (= ?x_15_8 ?y_14_9)))))
-(assert (forall ((?x_13_10 c_Boolean)) (forall ((?y_12_11 c_Boolean)) (=> (= (bool2U ?x_13_10) (bool2U ?y_12_11)) (= ?x_13_10 ?y_12_11)))))
-(assert (forall ((?x_11_12 c_ssorted)) (forall ((?y_10_13 c_ssorted)) (=> (= (ss2Int ?x_11_12) (ss2Int ?y_10_13)) (= ?x_11_12 ?y_10_13)))))
-(assert (forall ((?x_9_14 c_ssorted)) (forall ((?y_8_15 c_ssorted)) (=> (= (ss2Real ?x_9_14) (ss2Real ?y_8_15)) (= ?x_9_14 ?y_8_15)))))
-(assert (forall ((?x_7_16 c_ssorted)) (forall ((?y_6_17 c_ssorted)) (=> (= (ss2Bool ?x_7_16) (ss2Bool ?y_6_17)) (= ?x_7_16 ?y_6_17)))))
-(assert (forall ((?x_5_18 Real)) (= (ss2Real (c_sort c_real (real2U ?x_5_18))) ?x_5_18)))
-(assert (forall ((?x_4_19 c_Boolean)) (= (ss2Bool (c_sort c_bool (bool2U ?x_4_19))) ?x_4_19)))
-(assert (forall ((?x_3_20 c_unique)) (= (int2U (ss2Int (c_sort c_int ?x_3_20))) ?x_3_20)))
-(assert (forall ((?x_2_21 c_unique)) (= (real2U (ss2Real (c_sort c_real ?x_2_21))) ?x_2_21)))
-(assert (forall ((?x_1_22 c_unique)) (= (bool2U (ss2Bool (c_sort c_bool ?x_1_22))) ?x_1_22)))
-(declare-fun eq_int (Int Int) Bool)
-(declare-fun neq_int (Int Int) Bool)
-(declare-fun lt_int_bool (Int Int) c_Boolean)
-(declare-fun le_int_bool (Int Int) c_Boolean)
-(declare-fun gt_int_bool (Int Int) c_Boolean)
-(declare-fun ge_int_bool (Int Int) c_Boolean)
-(declare-fun eq_int_bool (Int Int) c_Boolean)
-(declare-fun neq_int_bool (Int Int) c_Boolean)
-(assert (forall ((?x_40_23 Int)) (forall ((?y_39_24 Int)) (= (= (lt_int_bool ?x_40_23 ?y_39_24) c_Boolean_true) (< ?x_40_23 ?y_39_24)))))
-(assert (forall ((?x_42_25 Int)) (forall ((?y_41_26 Int)) (= (= (le_int_bool ?x_42_25 ?y_41_26) c_Boolean_true) (<= ?x_42_25 ?y_41_26)))))
-(assert (forall ((?x_44_27 Int)) (forall ((?y_43_28 Int)) (= (= (gt_int_bool ?x_44_27 ?y_43_28) c_Boolean_true) (> ?x_44_27 ?y_43_28)))))
-(assert (forall ((?x_46_29 Int)) (forall ((?y_45_30 Int)) (= (= (ge_int_bool ?x_46_29 ?y_45_30) c_Boolean_true) (>= ?x_46_29 ?y_45_30)))))
-(assert (forall ((?x_48_31 Int)) (forall ((?y_47_32 Int)) (= (= (eq_int_bool ?x_48_31 ?y_47_32) c_Boolean_true) (= ?x_48_31 ?y_47_32)))))
-(assert (forall ((?x_50_33 Int)) (forall ((?y_49_34 Int)) (= (= (neq_int_bool ?x_50_33 ?y_49_34) c_Boolean_true) (not (= ?x_50_33 ?y_49_34))))))
-(declare-fun add_real (Real Real) Real)
-(declare-fun sub_real (Real Real) Real)
-(declare-fun mul_real (Real Real) Real)
-(declare-fun div_real (Real Real) Real)
-(declare-fun pow_real (Real Real) Real)
-(declare-fun neg_real (Real) Real)
-(declare-fun abs_real (Real) Real)
-(declare-fun sqrt_real (Real) Real)
-(declare-fun real_of_int (Int) Real)
-(declare-fun int_of_real (Real) Int)
-(declare-fun lt_real (Real Real) Bool)
-(declare-fun le_real (Real Real) Bool)
-(declare-fun gt_real (Real Real) Bool)
-(declare-fun ge_real (Real Real) Bool)
-(declare-fun eq_real (Real Real) Bool)
-(declare-fun neq_real (Real Real) Bool)
-(declare-fun eq_bool (c_Boolean c_Boolean) Bool)
-(declare-fun neq_bool (c_Boolean c_Boolean) Bool)
-(declare-fun eq_unit (c_ssorted c_ssorted) Bool)
-(declare-fun neq_unit (c_ssorted c_ssorted) Bool)
-(declare-fun smtlib__ite (c_Boolean c_ssorted c_ssorted) c_unique)
-(assert (forall ((?t_1_76_35 c_type)) (forall ((?x_75_36 c_unique)) (forall ((?y_74_37 c_unique)) (= (smtlib__ite c_Boolean_true (c_sort ?t_1_76_35 ?x_75_36) (c_sort ?t_1_76_35 ?y_74_37)) ?x_75_36)))))
-(assert (forall ((?t_2_79_38 c_type)) (forall ((?x_78_39 c_unique)) (forall ((?y_77_40 c_unique)) (= (smtlib__ite c_Boolean_false (c_sort ?t_2_79_38 ?x_78_39) (c_sort ?t_2_79_38 ?y_77_40)) ?y_77_40)))))
-(declare-fun bw_compl (Int) Int)
-(declare-fun bw_and (Int Int) Int)
-(declare-fun bw_xor (Int Int) Int)
-(declare-fun bw_or (Int Int) Int)
-(declare-fun lsl (Int Int) Int)
-(declare-fun lsr (Int Int) Int)
-(declare-fun non_int (Int) Int)
-(declare-fun type_pointer (c_type) c_type)
-(declare-fun type_addr (c_type) c_type)
-(declare-fun type_alloc_table () c_type)
-(declare-fun block_length (c_ssorted c_ssorted) Int)
-(declare-fun base_addr (c_ssorted) c_unique)
-(declare-fun offset (c_ssorted) Int)
-(declare-fun shift (c_ssorted Int) c_unique)
-(declare-fun sub_pointer (c_ssorted c_ssorted) Int)
-(declare-fun lt_pointer (c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_3_88_41 c_type)) (forall ((?p1_87_42 c_unique)) (forall ((?p2_86_43 c_unique)) (let ((?v_0 (type_pointer ?t_3_88_41))) (let ((?v_1 (c_sort ?v_0 ?p1_87_42)) (?v_2 (c_sort ?v_0 ?p2_86_43))) (= (lt_pointer ?v_1 ?v_2) (and (= (base_addr ?v_1) (base_addr ?v_2)) (< (offset ?v_1) (offset ?v_2))))))))))
-(declare-fun le_pointer (c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_4_91_44 c_type)) (forall ((?p1_90_45 c_unique)) (forall ((?p2_89_46 c_unique)) (let ((?v_0 (type_pointer ?t_4_91_44))) (let ((?v_1 (c_sort ?v_0 ?p1_90_45)) (?v_2 (c_sort ?v_0 ?p2_89_46))) (= (le_pointer ?v_1 ?v_2) (and (= (base_addr ?v_1) (base_addr ?v_2)) (<= (offset ?v_1) (offset ?v_2))))))))))
-(declare-fun gt_pointer (c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_5_94_47 c_type)) (forall ((?p1_93_48 c_unique)) (forall ((?p2_92_49 c_unique)) (let ((?v_0 (type_pointer ?t_5_94_47))) (let ((?v_1 (c_sort ?v_0 ?p1_93_48)) (?v_2 (c_sort ?v_0 ?p2_92_49))) (= (gt_pointer ?v_1 ?v_2) (and (= (base_addr ?v_1) (base_addr ?v_2)) (> (offset ?v_1) (offset ?v_2))))))))))
-(declare-fun ge_pointer (c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_6_97_50 c_type)) (forall ((?p1_96_51 c_unique)) (forall ((?p2_95_52 c_unique)) (let ((?v_0 (type_pointer ?t_6_97_50))) (let ((?v_1 (c_sort ?v_0 ?p1_96_51)) (?v_2 (c_sort ?v_0 ?p2_95_52))) (= (ge_pointer ?v_1 ?v_2) (and (= (base_addr ?v_1) (base_addr ?v_2)) (>= (offset ?v_1) (offset ?v_2))))))))))
-(declare-fun valid (c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_7_104_53 c_type)) (forall ((?a_103_54 c_unique)) (forall ((?p_102_55 c_unique)) (let ((?v_2 (c_sort type_alloc_table ?a_103_54)) (?v_0 (c_sort (type_pointer ?t_7_104_53) ?p_102_55))) (let ((?v_1 (offset ?v_0))) (= (valid ?v_2 ?v_0) (and (<= 0 ?v_1) (< ?v_1 (block_length ?v_2 ?v_0))))))))))
-(declare-fun valid_index (c_ssorted c_ssorted Int) Bool)
-(assert (forall ((?t_8_108_56 c_type)) (forall ((?a_107_57 c_unique)) (forall ((?p_106_58 c_unique)) (forall ((?i_105_59 Int)) (let ((?v_2 (c_sort type_alloc_table ?a_107_57)) (?v_0 (c_sort (type_pointer ?t_8_108_56) ?p_106_58))) (let ((?v_1 (+ (offset ?v_0) ?i_105_59))) (= (valid_index ?v_2 ?v_0 ?i_105_59) (and (<= 0 ?v_1) (< ?v_1 (block_length ?v_2 ?v_0)))))))))))
-(declare-fun valid_range (c_ssorted c_ssorted Int Int) Bool)
-(assert (forall ((?t_9_113_60 c_type)) (forall ((?a_112_61 c_unique)) (forall ((?p_111_62 c_unique)) (forall ((?i_110_63 Int)) (forall ((?j_109_64 Int)) (let ((?v_2 (c_sort type_alloc_table ?a_112_61)) (?v_0 (c_sort (type_pointer ?t_9_113_60) ?p_111_62))) (let ((?v_1 (offset ?v_0))) (= (valid_range ?v_2 ?v_0 ?i_110_63 ?j_109_64) (and (<= 0 (+ ?v_1 ?i_110_63)) (< (+ ?v_1 ?j_109_64) (block_length ?v_2 ?v_0))))))))))))
-(assert (forall ((?t_10_116_65 c_type)) (forall ((?p_115_66 c_unique)) (forall ((?i_114_67 Int)) (let ((?v_0 (type_pointer ?t_10_116_65))) (let ((?v_1 (c_sort ?v_0 ?p_115_66))) (= (offset (c_sort ?v_0 (shift ?v_1 ?i_114_67))) (+ (offset ?v_1) ?i_114_67))))))))
-(assert (forall ((?t_11_118_68 c_type)) (forall ((?p_117_69 c_unique)) (= (shift (c_sort (type_pointer ?t_11_118_68) ?p_117_69) 0) ?p_117_69))))
-(assert (forall ((?t_12_122_70 c_type)) (forall ((?p_121_71 c_unique)) (forall ((?i_120_72 Int)) (forall ((?j_119_73 Int)) (let ((?v_0 (type_pointer ?t_12_122_70))) (let ((?v_1 (c_sort ?v_0 ?p_121_71))) (= (shift (c_sort ?v_0 (shift ?v_1 ?i_120_72)) ?j_119_73) (shift ?v_1 (+ ?i_120_72 ?j_119_73))))))))))
-(assert (forall ((?t_13_125_74 c_type)) (forall ((?p_124_75 c_unique)) (forall ((?i_123_76 Int)) (let ((?v_0 (type_pointer ?t_13_125_74))) (let ((?v_1 (c_sort ?v_0 ?p_124_75))) (= (base_addr (c_sort ?v_0 (shift ?v_1 ?i_123_76))) (base_addr ?v_1))))))))
-(assert (forall ((?t_14_129_77 c_type)) (forall ((?a_128_78 c_unique)) (forall ((?p_127_79 c_unique)) (forall ((?i_126_80 Int)) (let ((?v_1 (c_sort type_alloc_table ?a_128_78)) (?v_0 (type_pointer ?t_14_129_77))) (let ((?v_2 (c_sort ?v_0 ?p_127_79))) (= (block_length ?v_1 (c_sort ?v_0 (shift ?v_2 ?i_126_80))) (block_length ?v_1 ?v_2)))))))))
-(assert (forall ((?t_15_133_81 c_type)) (forall ((?a_132_82 c_unique)) (forall ((?p1_131_83 c_unique)) (forall ((?p2_130_84 c_unique)) (let ((?v_0 (type_pointer ?t_15_133_81))) (let ((?v_1 (c_sort ?v_0 ?p1_131_83)) (?v_3 (c_sort ?v_0 ?p2_130_84)) (?v_2 (c_sort type_alloc_table ?a_132_82))) (=> (= (base_addr ?v_1) (base_addr ?v_3)) (= (block_length ?v_2 ?v_1) (block_length ?v_2 ?v_3))))))))))
-(assert (forall ((?t_16_136_85 c_type)) (forall ((?p1_135_86 c_unique)) (forall ((?p2_134_87 c_unique)) (let ((?v_0 (type_pointer ?t_16_136_85))) (let ((?v_1 (c_sort ?v_0 ?p1_135_86)) (?v_2 (c_sort ?v_0 ?p2_134_87))) (=> (and (= (base_addr ?v_1) (base_addr ?v_2)) (= (offset ?v_1) (offset ?v_2))) (= ?p1_135_86 ?p2_134_87))))))))
-(assert (forall ((?t_17_139_88 c_type)) (forall ((?p1_138_89 c_unique)) (forall ((?p2_137_90 c_unique)) (let ((?v_0 (type_pointer ?t_17_139_88))) (let ((?v_1 (c_sort ?v_0 ?p1_138_89)) (?v_2 (c_sort ?v_0 ?p2_137_90))) (=> (= ?p1_138_89 ?p2_137_90) (and (= (base_addr ?v_1) (base_addr ?v_2)) (= (offset ?v_1) (offset ?v_2))))))))))
-(assert (forall ((?t_18_144_91 c_type)) (forall ((?p1_143_92 c_unique)) (forall ((?p2_142_93 c_unique)) (forall ((?i_141_94 Int)) (forall ((?j_140_95 Int)) (let ((?v_0 (type_pointer ?t_18_144_91))) (let ((?v_1 (c_sort ?v_0 ?p1_143_92)) (?v_2 (c_sort ?v_0 ?p2_142_93))) (=> (not (= (base_addr ?v_1) (base_addr ?v_2))) (not (= (shift ?v_1 ?i_141_94) (shift ?v_2 ?j_140_95))))))))))))
-(assert (forall ((?t_19_149_96 c_type)) (forall ((?p1_148_97 c_unique)) (forall ((?p2_147_98 c_unique)) (forall ((?i_146_99 Int)) (forall ((?j_145_100 Int)) (let ((?v_0 (type_pointer ?t_19_149_96))) (let ((?v_1 (c_sort ?v_0 ?p1_148_97)) (?v_2 (c_sort ?v_0 ?p2_147_98))) (=> (not (= (+ (offset ?v_1) ?i_146_99) (+ (offset ?v_2) ?j_145_100))) (not (= (shift ?v_1 ?i_146_99) (shift ?v_2 ?j_145_100))))))))))))
-(assert (forall ((?t_20_154_101 c_type)) (forall ((?p1_153_102 c_unique)) (forall ((?p2_152_103 c_unique)) (forall ((?i_151_104 Int)) (forall ((?j_150_105 Int)) (let ((?v_0 (type_pointer ?t_20_154_101))) (let ((?v_1 (c_sort ?v_0 ?p1_153_102)) (?v_2 (c_sort ?v_0 ?p2_152_103))) (=> (= (base_addr ?v_1) (base_addr ?v_2)) (=> (= (+ (offset ?v_1) ?i_151_104) (+ (offset ?v_2) ?j_150_105)) (= (shift ?v_1 ?i_151_104) (shift ?v_2 ?j_150_105))))))))))))
-(assert (forall ((?t_21_158_106 c_type)) (forall ((?a_157_107 c_unique)) (forall ((?p_156_108 c_unique)) (forall ((?i_155_109 Int)) (let ((?v_0 (c_sort type_alloc_table ?a_157_107)) (?v_1 (type_pointer ?t_21_158_106))) (let ((?v_2 (c_sort ?v_1 ?p_156_108))) (=> (valid_index ?v_0 ?v_2 ?i_155_109) (valid ?v_0 (c_sort ?v_1 (shift ?v_2 ?i_155_109)))))))))))
-(assert (forall ((?t_22_164_110 c_type)) (forall ((?a_163_111 c_unique)) (forall ((?p_162_112 c_unique)) (forall ((?i_161_113 Int)) (forall ((?j_160_114 Int)) (forall ((?k_159_115 Int)) (let ((?v_0 (c_sort type_alloc_table ?a_163_111)) (?v_1 (type_pointer ?t_22_164_110))) (let ((?v_2 (c_sort ?v_1 ?p_162_112))) (=> (valid_range ?v_0 ?v_2 ?i_161_113 ?j_160_114) (=> (and (<= ?i_161_113 ?k_159_115) (<= ?k_159_115 ?j_160_114)) (valid ?v_0 (c_sort ?v_1 (shift ?v_2 ?k_159_115))))))))))))))
-(assert (forall ((?t_23_169_116 c_type)) (forall ((?a_168_117 c_unique)) (forall ((?p_167_118 c_unique)) (forall ((?i_166_119 Int)) (forall ((?j_165_120 Int)) (let ((?v_0 (c_sort type_alloc_table ?a_168_117)) (?v_1 (c_sort (type_pointer ?t_23_169_116) ?p_167_118))) (=> (valid_range ?v_0 ?v_1 ?i_166_119 ?j_165_120) (=> (and (<= ?i_166_119 0) (<= 0 ?j_165_120)) (valid ?v_0 ?v_1))))))))))
-(assert (forall ((?t_24_175_121 c_type)) (forall ((?a_174_122 c_unique)) (forall ((?p_173_123 c_unique)) (forall ((?i_172_124 Int)) (forall ((?j_171_125 Int)) (forall ((?k_170_126 Int)) (let ((?v_0 (c_sort type_alloc_table ?a_174_122)) (?v_1 (c_sort (type_pointer ?t_24_175_121) ?p_173_123))) (=> (valid_range ?v_0 ?v_1 ?i_172_124 ?j_171_125) (=> (and (<= ?i_172_124 ?k_170_126) (<= ?k_170_126 ?j_171_125)) (valid_index ?v_0 ?v_1 ?k_170_126)))))))))))
-(assert (forall ((?t_25_178_127 c_type)) (forall ((?p1_177_128 c_unique)) (forall ((?p2_176_129 c_unique)) (let ((?v_0 (type_pointer ?t_25_178_127))) (let ((?v_1 (c_sort ?v_0 ?p1_177_128)) (?v_2 (c_sort ?v_0 ?p2_176_129))) (=> (= (base_addr ?v_1) (base_addr ?v_2)) (= (sub_pointer ?v_1 ?v_2) (- (offset ?v_1) (offset ?v_2))))))))))
-(declare-fun type_memory (c_type c_type) c_type)
-(declare-fun acc (c_ssorted c_ssorted) c_unique)
-(declare-fun upd (c_ssorted c_ssorted c_ssorted) c_unique)
-(assert (forall ((?t_27_212_130 c_type)) (forall ((?t_26_211_131 c_type)) (forall ((?m_210_132 c_unique)) (forall ((?p_209_133 c_unique)) (forall ((?a_208_134 c_unique)) (let ((?v_0 (type_memory ?t_26_211_131 ?t_27_212_130)) (?v_1 (c_sort (type_pointer ?t_27_212_130) ?p_209_133))) (= (acc (c_sort ?v_0 (upd (c_sort ?v_0 ?m_210_132) ?v_1 (c_sort ?t_26_211_131 ?a_208_134))) ?v_1) ?a_208_134))))))))
-(assert (forall ((?t_29_218_135 c_type)) (forall ((?t_28_217_136 c_type)) (forall ((?m_216_137 c_unique)) (forall ((?p1_215_138 c_unique)) (forall ((?p2_214_139 c_unique)) (forall ((?a_213_140 c_unique)) (let ((?v_0 (type_memory ?t_28_217_136 ?t_29_218_135))) (let ((?v_2 (c_sort ?v_0 ?m_216_137)) (?v_1 (type_pointer ?t_29_218_135))) (let ((?v_3 (c_sort ?v_1 ?p2_214_139))) (=> (not (= ?p1_215_138 ?p2_214_139)) (= (acc (c_sort ?v_0 (upd ?v_2 (c_sort ?v_1 ?p1_215_138) (c_sort ?t_28_217_136 ?a_213_140))) ?v_3) (acc ?v_2 ?v_3)))))))))))))
-(assert (not (= c_Boolean_false c_Boolean_true)))
-(declare-fun type_pset (c_type) c_type)
-(declare-fun pset_empty () c_unique)
-(declare-fun pset_singleton (c_ssorted) c_unique)
-(declare-fun pset_star (c_ssorted c_ssorted) c_unique)
-(declare-fun pset_all (c_ssorted) c_unique)
-(declare-fun pset_range (c_ssorted Int Int) c_unique)
-(declare-fun pset_range_left (c_ssorted Int) c_unique)
-(declare-fun pset_range_right (c_ssorted Int) c_unique)
-(declare-fun pset_acc_all (c_ssorted c_ssorted) c_unique)
-(declare-fun pset_acc_range (c_ssorted c_ssorted Int Int) c_unique)
-(declare-fun pset_acc_range_left (c_ssorted c_ssorted Int) c_unique)
-(declare-fun pset_acc_range_right (c_ssorted c_ssorted Int) c_unique)
-(declare-fun pset_union (c_ssorted c_ssorted) c_unique)
-(declare-fun not_in_pset (c_ssorted c_ssorted) Bool)
-(declare-fun not_assigns (c_ssorted c_ssorted c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_31_225_141 c_type)) (forall ((?t_30_224_142 c_type)) (forall ((?a_223_143 c_unique)) (forall ((?m1_222_144 c_unique)) (forall ((?m2_221_145 c_unique)) (forall ((?l_220_146 c_unique)) (let ((?v_0 (type_memory ?t_30_224_142 ?t_31_225_141))) (= (not_assigns (c_sort type_alloc_table ?a_223_143) (c_sort ?v_0 ?m1_222_144) (c_sort ?v_0 ?m2_221_145) (c_sort (type_pset ?t_31_225_141) ?l_220_146)) (forall ((?p_219_147 c_unique)) (let ((?v_1 (c_sort (type_pointer ?t_31_225_141) ?p_219_147))) (=> (valid (c_sort type_alloc_table ?a_223_143) ?v_1) (=> (not_in_pset ?v_1 (c_sort (type_pset ?t_31_225_141) ?l_220_146)) (= (acc (c_sort ?v_0 ?m2_221_145) ?v_1) (acc (c_sort ?v_0 ?m1_222_144) ?v_1)))))))))))))))
-(assert (forall ((?t_32_227_148 c_type)) (forall ((?p_226_149 c_unique)) (not_in_pset (c_sort (type_pointer ?t_32_227_148) ?p_226_149) (c_sort (type_pset ?t_32_227_148) pset_empty)))))
-(assert (forall ((?t_33_230_150 c_type)) (forall ((?p1_229_151 c_unique)) (forall ((?p2_228_152 c_unique)) (let ((?v_0 (type_pointer ?t_33_230_150))) (=> (not (= ?p1_229_151 ?p2_228_152)) (not_in_pset (c_sort ?v_0 ?p1_229_151) (c_sort (type_pset ?t_33_230_150) (pset_singleton (c_sort ?v_0 ?p2_228_152))))))))))
-(assert (forall ((?t_34_233_153 c_type)) (forall ((?p1_232_154 c_unique)) (forall ((?p2_231_155 c_unique)) (let ((?v_0 (type_pointer ?t_34_233_153))) (=> (not_in_pset (c_sort ?v_0 ?p1_232_154) (c_sort (type_pset ?t_34_233_153) (pset_singleton (c_sort ?v_0 ?p2_231_155)))) (not (= ?p1_232_154 ?p2_231_155))))))))
-(assert (forall ((?t_35_235_156 c_type)) (forall ((?p_234_157 c_unique)) (let ((?v_0 (c_sort (type_pointer ?t_35_235_156) ?p_234_157))) (not (not_in_pset ?v_0 (c_sort (type_pset ?t_35_235_156) (pset_singleton ?v_0))))))))
-(assert (forall ((?t_36_239_158 c_type)) (forall ((?l1_238_159 c_unique)) (forall ((?l2_237_160 c_unique)) (forall ((?p_236_161 c_unique)) (let ((?v_0 (c_sort (type_pointer ?t_36_239_158) ?p_236_161)) (?v_1 (type_pset ?t_36_239_158))) (let ((?v_2 (c_sort ?v_1 ?l1_238_159)) (?v_3 (c_sort ?v_1 ?l2_237_160))) (=> (and (not_in_pset ?v_0 ?v_2) (not_in_pset ?v_0 ?v_3)) (not_in_pset ?v_0 (c_sort ?v_1 (pset_union ?v_2 ?v_3)))))))))))
-(assert (forall ((?t_37_243_162 c_type)) (forall ((?l1_242_163 c_unique)) (forall ((?l2_241_164 c_unique)) (forall ((?p_240_165 c_unique)) (let ((?v_1 (c_sort (type_pointer ?t_37_243_162) ?p_240_165)) (?v_0 (type_pset ?t_37_243_162))) (let ((?v_2 (c_sort ?v_0 ?l1_242_163))) (=> (not_in_pset ?v_1 (c_sort ?v_0 (pset_union ?v_2 (c_sort ?v_0 ?l2_241_164)))) (not_in_pset ?v_1 ?v_2)))))))))
-(assert (forall ((?t_38_247_166 c_type)) (forall ((?l1_246_167 c_unique)) (forall ((?l2_245_168 c_unique)) (forall ((?p_244_169 c_unique)) (let ((?v_1 (c_sort (type_pointer ?t_38_247_166) ?p_244_169)) (?v_0 (type_pset ?t_38_247_166))) (let ((?v_2 (c_sort ?v_0 ?l2_245_168))) (=> (not_in_pset ?v_1 (c_sort ?v_0 (pset_union (c_sort ?v_0 ?l1_246_167) ?v_2))) (not_in_pset ?v_1 ?v_2)))))))))
-(assert (forall ((?t_40_253_170 c_type)) (forall ((?t_39_252_171 c_type)) (forall ((?l_251_172 c_unique)) (forall ((?m_250_173 c_unique)) (forall ((?p_249_174 c_unique)) (let ((?v_0 (type_pointer ?t_40_253_170))) (=> (forall ((?p1_248_175 c_unique)) (let ((?v_1 (c_sort (type_pointer ?t_39_252_171) ?p1_248_175))) (=> (= ?p_249_174 (acc (c_sort (type_memory ?v_0 ?t_39_252_171) ?m_250_173) ?v_1)) (not_in_pset ?v_1 (c_sort (type_pset ?t_39_252_171) ?l_251_172))))) (not_in_pset (c_sort ?v_0 ?p_249_174) (c_sort (type_pset ?t_40_253_170) (pset_star (c_sort (type_pset ?t_39_252_171) ?l_251_172) (c_sort (type_memory ?v_0 ?t_39_252_171) ?m_250_173))))))))))))
-(assert (forall ((?t_42_259_176 c_type)) (forall ((?t_41_258_177 c_type)) (forall ((?l_257_178 c_unique)) (forall ((?m_256_179 c_unique)) (forall ((?p_255_180 c_unique)) (let ((?v_0 (type_pointer ?t_42_259_176))) (=> (not_in_pset (c_sort ?v_0 ?p_255_180) (c_sort (type_pset ?t_42_259_176) (pset_star (c_sort (type_pset ?t_41_258_177) ?l_257_178) (c_sort (type_memory ?v_0 ?t_41_258_177) ?m_256_179)))) (forall ((?p1_254_181 c_unique)) (let ((?v_1 (c_sort (type_pointer ?t_41_258_177) ?p1_254_181))) (=> (= ?p_255_180 (acc (c_sort (type_memory ?v_0 ?t_41_258_177) ?m_256_179) ?v_1)) (not_in_pset ?v_1 (c_sort (type_pset ?t_41_258_177) ?l_257_178)))))))))))))
-(assert (forall ((?t_43_263_182 c_type)) (forall ((?p_262_183 c_unique)) (forall ((?l_261_184 c_unique)) (let ((?v_0 (type_pset ?t_43_263_182))) (=> (forall ((?p1_260_185 c_unique)) (let ((?v_1 (type_pointer ?t_43_263_182))) (let ((?v_2 (c_sort ?v_1 ?p1_260_185))) (=> (not (not_in_pset ?v_2 (c_sort ?v_0 ?l_261_184))) (not (= (base_addr (c_sort ?v_1 ?p_262_183)) (base_addr ?v_2))))))) (not_in_pset (c_sort (type_pointer ?t_43_263_182) ?p_262_183) (c_sort ?v_0 (pset_all (c_sort ?v_0 ?l_261_184))))))))))
-(assert (forall ((?t_44_267_186 c_type)) (forall ((?p_266_187 c_unique)) (forall ((?l_265_188 c_unique)) (let ((?v_0 (type_pset ?t_44_267_186))) (=> (not_in_pset (c_sort (type_pointer ?t_44_267_186) ?p_266_187) (c_sort ?v_0 (pset_all (c_sort ?v_0 ?l_265_188)))) (forall ((?p1_264_189 c_unique)) (let ((?v_1 (type_pointer ?t_44_267_186))) (let ((?v_2 (c_sort ?v_1 ?p1_264_189))) (=> (not (not_in_pset ?v_2 (c_sort ?v_0 ?l_265_188))) (not (= (base_addr (c_sort ?v_1 ?p_266_187)) (base_addr ?v_2)))))))))))))
-(assert (forall ((?t_45_274_190 c_type)) (forall ((?p_273_191 c_unique)) (forall ((?l_272_192 c_unique)) (forall ((?a_271_193 Int)) (forall ((?b_270_194 Int)) (let ((?v_0 (type_pset ?t_45_274_190))) (=> (forall ((?p1_269_195 c_unique)) (or (not_in_pset (c_sort (type_pointer ?t_45_274_190) ?p1_269_195) (c_sort ?v_0 ?l_272_192)) (forall ((?i_268_196 Int)) (=> (and (<= ?a_271_193 ?i_268_196) (<= ?i_268_196 ?b_270_194)) (not (= ?p_273_191 (shift (c_sort (type_pointer ?t_45_274_190) ?p1_269_195) ?i_268_196))))))) (not_in_pset (c_sort (type_pointer ?t_45_274_190) ?p_273_191) (c_sort ?v_0 (pset_range (c_sort ?v_0 ?l_272_192) ?a_271_193 ?b_270_194)))))))))))
-(assert (forall ((?t_46_281_197 c_type)) (forall ((?p_280_198 c_unique)) (forall ((?l_279_199 c_unique)) (forall ((?a_278_200 Int)) (forall ((?b_277_201 Int)) (let ((?v_0 (type_pset ?t_46_281_197))) (=> (not_in_pset (c_sort (type_pointer ?t_46_281_197) ?p_280_198) (c_sort ?v_0 (pset_range (c_sort ?v_0 ?l_279_199) ?a_278_200 ?b_277_201))) (forall ((?p1_276_202 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_46_281_197) ?p1_276_202) (c_sort ?v_0 ?l_279_199))) (forall ((?i_275_203 Int)) (=> (and (<= ?a_278_200 ?i_275_203) (<= ?i_275_203 ?b_277_201)) (not (= (shift (c_sort (type_pointer ?t_46_281_197) ?p1_276_202) ?i_275_203) ?p_280_198))))))))))))))
-(assert (forall ((?t_47_287_204 c_type)) (forall ((?p_286_205 c_unique)) (forall ((?l_285_206 c_unique)) (forall ((?a_284_207 Int)) (let ((?v_0 (type_pset ?t_47_287_204))) (=> (forall ((?p1_283_208 c_unique)) (or (not_in_pset (c_sort (type_pointer ?t_47_287_204) ?p1_283_208) (c_sort ?v_0 ?l_285_206)) (forall ((?i_282_209 Int)) (=> (<= ?i_282_209 ?a_284_207) (not (= ?p_286_205 (shift (c_sort (type_pointer ?t_47_287_204) ?p1_283_208) ?i_282_209))))))) (not_in_pset (c_sort (type_pointer ?t_47_287_204) ?p_286_205) (c_sort ?v_0 (pset_range_left (c_sort ?v_0 ?l_285_206) ?a_284_207))))))))))
-(assert (forall ((?t_48_293_210 c_type)) (forall ((?p_292_211 c_unique)) (forall ((?l_291_212 c_unique)) (forall ((?a_290_213 Int)) (let ((?v_0 (type_pset ?t_48_293_210))) (=> (not_in_pset (c_sort (type_pointer ?t_48_293_210) ?p_292_211) (c_sort ?v_0 (pset_range_left (c_sort ?v_0 ?l_291_212) ?a_290_213))) (forall ((?p1_289_214 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_48_293_210) ?p1_289_214) (c_sort ?v_0 ?l_291_212))) (forall ((?i_288_215 Int)) (=> (<= ?i_288_215 ?a_290_213) (not (= (shift (c_sort (type_pointer ?t_48_293_210) ?p1_289_214) ?i_288_215) ?p_292_211)))))))))))))
-(assert (forall ((?t_49_299_216 c_type)) (forall ((?p_298_217 c_unique)) (forall ((?l_297_218 c_unique)) (forall ((?a_296_219 Int)) (let ((?v_0 (type_pset ?t_49_299_216))) (=> (forall ((?p1_295_220 c_unique)) (or (not_in_pset (c_sort (type_pointer ?t_49_299_216) ?p1_295_220) (c_sort ?v_0 ?l_297_218)) (forall ((?i_294_221 Int)) (=> (<= ?a_296_219 ?i_294_221) (not (= ?p_298_217 (shift (c_sort (type_pointer ?t_49_299_216) ?p1_295_220) ?i_294_221))))))) (not_in_pset (c_sort (type_pointer ?t_49_299_216) ?p_298_217) (c_sort ?v_0 (pset_range_right (c_sort ?v_0 ?l_297_218) ?a_296_219))))))))))
-(assert (forall ((?t_50_305_222 c_type)) (forall ((?p_304_223 c_unique)) (forall ((?l_303_224 c_unique)) (forall ((?a_302_225 Int)) (let ((?v_0 (type_pset ?t_50_305_222))) (=> (not_in_pset (c_sort (type_pointer ?t_50_305_222) ?p_304_223) (c_sort ?v_0 (pset_range_right (c_sort ?v_0 ?l_303_224) ?a_302_225))) (forall ((?p1_301_226 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_50_305_222) ?p1_301_226) (c_sort ?v_0 ?l_303_224))) (forall ((?i_300_227 Int)) (=> (<= ?a_302_225 ?i_300_227) (not (= (shift (c_sort (type_pointer ?t_50_305_222) ?p1_301_226) ?i_300_227) ?p_304_223)))))))))))))
-(assert (forall ((?t_52_312_228 c_type)) (forall ((?t_51_311_229 c_type)) (forall ((?p_310_230 c_unique)) (forall ((?l_309_231 c_unique)) (forall ((?m_308_232 c_unique)) (let ((?v_0 (type_pointer ?t_51_311_229))) (=> (forall ((?p1_307_233 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_52_312_228) ?p1_307_233) (c_sort (type_pset ?t_52_312_228) ?l_309_231))) (forall ((?i_306_234 Int)) (let ((?v_1 (type_pointer ?t_52_312_228))) (not (= ?p_310_230 (acc (c_sort (type_memory ?v_0 ?t_52_312_228) ?m_308_232) (c_sort ?v_1 (shift (c_sort ?v_1 ?p1_307_233) ?i_306_234))))))))) (not_in_pset (c_sort ?v_0 ?p_310_230) (c_sort (type_pset ?t_51_311_229) (pset_acc_all (c_sort (type_pset ?t_52_312_228) ?l_309_231) (c_sort (type_memory ?v_0 ?t_52_312_228) ?m_308_232))))))))))))
-(assert (forall ((?t_54_319_235 c_type)) (forall ((?t_53_318_236 c_type)) (forall ((?p_317_237 c_unique)) (forall ((?l_316_238 c_unique)) (forall ((?m_315_239 c_unique)) (let ((?v_0 (type_pointer ?t_53_318_236))) (=> (not_in_pset (c_sort ?v_0 ?p_317_237) (c_sort (type_pset ?t_53_318_236) (pset_acc_all (c_sort (type_pset ?t_54_319_235) ?l_316_238) (c_sort (type_memory ?v_0 ?t_54_319_235) ?m_315_239)))) (forall ((?p1_314_240 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_54_319_235) ?p1_314_240) (c_sort (type_pset ?t_54_319_235) ?l_316_238))) (forall ((?i_313_241 Int)) (let ((?v_1 (type_pointer ?t_54_319_235))) (not (= (acc (c_sort (type_memory ?v_0 ?t_54_319_235) ?m_315_239) (c_sort ?v_1 (shift (c_sort ?v_1 ?p1_314_240) ?i_313_241))) ?p_317_237))))))))))))))
-(assert (forall ((?t_56_328_242 c_type)) (forall ((?t_55_327_243 c_type)) (forall ((?p_326_244 c_unique)) (forall ((?l_325_245 c_unique)) (forall ((?m_324_246 c_unique)) (forall ((?a_323_247 Int)) (forall ((?b_322_248 Int)) (let ((?v_0 (type_pointer ?t_55_327_243))) (=> (forall ((?p1_321_249 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_56_328_242) ?p1_321_249) (c_sort (type_pset ?t_56_328_242) ?l_325_245))) (forall ((?i_320_250 Int)) (let ((?v_1 (type_pointer ?t_56_328_242))) (=> (and (<= ?a_323_247 ?i_320_250) (<= ?i_320_250 ?b_322_248)) (not (= ?p_326_244 (acc (c_sort (type_memory ?v_0 ?t_56_328_242) ?m_324_246) (c_sort ?v_1 (shift (c_sort ?v_1 ?p1_321_249) ?i_320_250)))))))))) (not_in_pset (c_sort ?v_0 ?p_326_244) (c_sort (type_pset ?t_55_327_243) (pset_acc_range (c_sort (type_pset ?t_56_328_242) ?l_325_245) (c_sort (type_memory ?v_0 ?t_56_328_242) ?m_324_246) ?a_323_247 ?b_322_248)))))))))))))
-(assert (forall ((?t_58_337_251 c_type)) (forall ((?t_57_336_252 c_type)) (forall ((?p_335_253 c_unique)) (forall ((?l_334_254 c_unique)) (forall ((?m_333_255 c_unique)) (forall ((?a_332_256 Int)) (forall ((?b_331_257 Int)) (let ((?v_0 (type_pointer ?t_57_336_252))) (=> (not_in_pset (c_sort ?v_0 ?p_335_253) (c_sort (type_pset ?t_57_336_252) (pset_acc_range (c_sort (type_pset ?t_58_337_251) ?l_334_254) (c_sort (type_memory ?v_0 ?t_58_337_251) ?m_333_255) ?a_332_256 ?b_331_257))) (forall ((?p1_330_258 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_58_337_251) ?p1_330_258) (c_sort (type_pset ?t_58_337_251) ?l_334_254))) (forall ((?i_329_259 Int)) (let ((?v_1 (type_pointer ?t_58_337_251))) (=> (and (<= ?a_332_256 ?i_329_259) (<= ?i_329_259 ?b_331_257)) (not (= (acc (c_sort (type_memory ?v_0 ?t_58_337_251) ?m_333_255) (c_sort ?v_1 (shift (c_sort ?v_1 ?p1_330_258) ?i_329_259))) ?p_335_253)))))))))))))))))
-(assert (forall ((?t_60_345_260 c_type)) (forall ((?t_59_344_261 c_type)) (forall ((?p_343_262 c_unique)) (forall ((?l_342_263 c_unique)) (forall ((?m_341_264 c_unique)) (forall ((?a_340_265 Int)) (let ((?v_0 (type_pointer ?t_59_344_261))) (=> (forall ((?p1_339_266 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_60_345_260) ?p1_339_266) (c_sort (type_pset ?t_60_345_260) ?l_342_263))) (forall ((?i_338_267 Int)) (let ((?v_1 (type_pointer ?t_60_345_260))) (=> (<= ?i_338_267 ?a_340_265) (not (= ?p_343_262 (acc (c_sort (type_memory ?v_0 ?t_60_345_260) ?m_341_264) (c_sort ?v_1 (shift (c_sort ?v_1 ?p1_339_266) ?i_338_267)))))))))) (not_in_pset (c_sort ?v_0 ?p_343_262) (c_sort (type_pset ?t_59_344_261) (pset_acc_range_left (c_sort (type_pset ?t_60_345_260) ?l_342_263) (c_sort (type_memory ?v_0 ?t_60_345_260) ?m_341_264) ?a_340_265))))))))))))
-(assert (forall ((?t_62_353_268 c_type)) (forall ((?t_61_352_269 c_type)) (forall ((?p_351_270 c_unique)) (forall ((?l_350_271 c_unique)) (forall ((?m_349_272 c_unique)) (forall ((?a_348_273 Int)) (let ((?v_0 (type_pointer ?t_61_352_269))) (=> (not_in_pset (c_sort ?v_0 ?p_351_270) (c_sort (type_pset ?t_61_352_269) (pset_acc_range_left (c_sort (type_pset ?t_62_353_268) ?l_350_271) (c_sort (type_memory ?v_0 ?t_62_353_268) ?m_349_272) ?a_348_273))) (forall ((?p1_347_274 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_62_353_268) ?p1_347_274) (c_sort (type_pset ?t_62_353_268) ?l_350_271))) (forall ((?i_346_275 Int)) (let ((?v_1 (type_pointer ?t_62_353_268))) (=> (<= ?i_346_275 ?a_348_273) (not (= (acc (c_sort (type_memory ?v_0 ?t_62_353_268) ?m_349_272) (c_sort ?v_1 (shift (c_sort ?v_1 ?p1_347_274) ?i_346_275))) ?p_351_270))))))))))))))))
-(assert (forall ((?t_64_361_276 c_type)) (forall ((?t_63_360_277 c_type)) (forall ((?p_359_278 c_unique)) (forall ((?l_358_279 c_unique)) (forall ((?m_357_280 c_unique)) (forall ((?a_356_281 Int)) (let ((?v_0 (type_pointer ?t_63_360_277))) (=> (forall ((?p1_355_282 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_64_361_276) ?p1_355_282) (c_sort (type_pset ?t_64_361_276) ?l_358_279))) (forall ((?i_354_283 Int)) (let ((?v_1 (type_pointer ?t_64_361_276))) (=> (<= ?a_356_281 ?i_354_283) (not (= ?p_359_278 (acc (c_sort (type_memory ?v_0 ?t_64_361_276) ?m_357_280) (c_sort ?v_1 (shift (c_sort ?v_1 ?p1_355_282) ?i_354_283)))))))))) (not_in_pset (c_sort ?v_0 ?p_359_278) (c_sort (type_pset ?t_63_360_277) (pset_acc_range_right (c_sort (type_pset ?t_64_361_276) ?l_358_279) (c_sort (type_memory ?v_0 ?t_64_361_276) ?m_357_280) ?a_356_281))))))))))))
-(assert (forall ((?t_66_369_284 c_type)) (forall ((?t_65_368_285 c_type)) (forall ((?p_367_286 c_unique)) (forall ((?l_366_287 c_unique)) (forall ((?m_365_288 c_unique)) (forall ((?a_364_289 Int)) (let ((?v_0 (type_pointer ?t_65_368_285))) (=> (not_in_pset (c_sort ?v_0 ?p_367_286) (c_sort (type_pset ?t_65_368_285) (pset_acc_range_right (c_sort (type_pset ?t_66_369_284) ?l_366_287) (c_sort (type_memory ?v_0 ?t_66_369_284) ?m_365_288) ?a_364_289))) (forall ((?p1_363_290 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_66_369_284) ?p1_363_290) (c_sort (type_pset ?t_66_369_284) ?l_366_287))) (forall ((?i_362_291 Int)) (let ((?v_1 (type_pointer ?t_66_369_284))) (=> (<= ?a_364_289 ?i_362_291) (not (= (acc (c_sort (type_memory ?v_0 ?t_66_369_284) ?m_365_288) (c_sort ?v_1 (shift (c_sort ?v_1 ?p1_363_290) ?i_362_291))) ?p_367_286))))))))))))))))
-(assert (forall ((?t_68_376_292 c_type)) (forall ((?t_67_375_293 c_type)) (forall ((?a_374_294 c_unique)) (forall ((?l_373_295 c_unique)) (forall ((?m1_372_296 c_unique)) (forall ((?m2_371_297 c_unique)) (forall ((?m3_370_298 c_unique)) (let ((?v_1 (c_sort type_alloc_table ?a_374_294)) (?v_0 (type_memory ?t_68_376_292 ?t_67_375_293))) (let ((?v_4 (c_sort ?v_0 ?m1_372_296)) (?v_2 (c_sort ?v_0 ?m2_371_297)) (?v_3 (c_sort (type_pset ?t_67_375_293) ?l_373_295)) (?v_5 (c_sort ?v_0 ?m3_370_298))) (=> (not_assigns ?v_1 ?v_4 ?v_2 ?v_3) (=> (not_assigns ?v_1 ?v_2 ?v_5 ?v_3) (not_assigns ?v_1 ?v_4 ?v_5 ?v_3)))))))))))))
-(assert (forall ((?t_70_381_299 c_type)) (forall ((?t_69_380_300 c_type)) (forall ((?a_379_301 c_unique)) (forall ((?l_378_302 c_unique)) (forall ((?m_377_303 c_unique)) (let ((?v_0 (c_sort (type_memory ?t_70_381_299 ?t_69_380_300) ?m_377_303))) (not_assigns (c_sort type_alloc_table ?a_379_301) ?v_0 ?v_0 (c_sort (type_pset ?t_69_380_300) ?l_378_302)))))))))
-(declare-fun valid_acc (c_ssorted) Bool)
-(assert (forall ((?t_72_386_304 c_type)) (forall ((?t_71_385_305 c_type)) (forall ((?m1_384_306 c_unique)) (= (valid_acc (c_sort (type_memory (type_pointer ?t_71_385_305) ?t_72_386_304) ?m1_384_306)) (forall ((?p_383_307 c_unique)) (forall ((?a_382_308 c_unique)) (let ((?v_1 (type_pointer ?t_71_385_305)) (?v_0 (c_sort type_alloc_table ?a_382_308)) (?v_2 (c_sort (type_pointer ?t_72_386_304) ?p_383_307))) (=> (valid ?v_0 ?v_2) (valid ?v_0 (c_sort ?v_1 (acc (c_sort (type_memory ?v_1 ?t_72_386_304) ?m1_384_306) ?v_2))))))))))))
-(declare-fun valid_acc_range (c_ssorted Int) Bool)
-(assert (forall ((?t_74_392_309 c_type)) (forall ((?t_73_391_310 c_type)) (forall ((?m1_390_311 c_unique)) (forall ((?size_389_312 Int)) (= (valid_acc_range (c_sort (type_memory (type_pointer ?t_73_391_310) ?t_74_392_309) ?m1_390_311) ?size_389_312) (forall ((?p_388_313 c_unique)) (forall ((?a_387_314 c_unique)) (let ((?v_1 (type_pointer ?t_73_391_310)) (?v_0 (c_sort type_alloc_table ?a_387_314)) (?v_2 (c_sort (type_pointer ?t_74_392_309) ?p_388_313))) (=> (valid ?v_0 ?v_2) (valid_range ?v_0 (c_sort ?v_1 (acc (c_sort (type_memory ?v_1 ?t_74_392_309) ?m1_390_311) ?v_2)) 0 (- ?size_389_312 1))))))))))))
-(assert (forall ((?t_76_398_315 c_type)) (forall ((?t_75_397_316 c_type)) (forall ((?m1_396_317 c_unique)) (forall ((?size_395_318 Int)) (forall ((?p_394_319 c_unique)) (forall ((?a_393_320 c_unique)) (let ((?v_1 (type_pointer ?t_75_397_316))) (let ((?v_2 (c_sort (type_memory ?v_1 ?t_76_398_315) ?m1_396_317)) (?v_0 (c_sort type_alloc_table ?a_393_320)) (?v_3 (c_sort (type_pointer ?t_76_398_315) ?p_394_319))) (=> (valid_acc_range ?v_2 ?size_395_318) (=> (valid ?v_0 ?v_3) (valid ?v_0 (c_sort ?v_1 (acc ?v_2 ?v_3))))))))))))))
-(declare-fun separation1 (c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_78_404_321 c_type)) (forall ((?t_77_403_322 c_type)) (forall ((?m1_402_323 c_unique)) (forall ((?m2_401_324 c_unique)) (let ((?v_0 (type_memory (type_pointer ?t_77_403_322) ?t_78_404_321))) (= (separation1 (c_sort ?v_0 ?m1_402_323) (c_sort ?v_0 ?m2_401_324)) (forall ((?p_400_325 c_unique)) (forall ((?a_399_326 c_unique)) (let ((?v_1 (type_pointer ?t_77_403_322)) (?v_2 (c_sort (type_pointer ?t_78_404_321) ?p_400_325))) (=> (valid (c_sort type_alloc_table ?a_399_326) ?v_2) (not (= (base_addr (c_sort ?v_1 (acc (c_sort ?v_0 ?m1_402_323) ?v_2))) (base_addr (c_sort ?v_1 (acc (c_sort ?v_0 ?m2_401_324) ?v_2))))))))))))))))
-(declare-fun separation1_range1 (c_ssorted c_ssorted Int) Bool)
-(assert (forall ((?t_80_412_327 c_type)) (forall ((?t_79_411_328 c_type)) (forall ((?m1_410_329 c_unique)) (forall ((?m2_409_330 c_unique)) (forall ((?size_408_331 Int)) (let ((?v_0 (type_memory (type_pointer ?t_79_411_328) ?t_80_412_327))) (= (separation1_range1 (c_sort ?v_0 ?m1_410_329) (c_sort ?v_0 ?m2_409_330) ?size_408_331) (forall ((?p_407_332 c_unique)) (forall ((?a_406_333 c_unique)) (=> (valid (c_sort type_alloc_table ?a_406_333) (c_sort (type_pointer ?t_80_412_327) ?p_407_332)) (forall ((?i_405_334 Int)) (let ((?v_1 (type_pointer ?t_79_411_328)) (?v_2 (type_pointer ?t_80_412_327))) (let ((?v_3 (c_sort ?v_2 ?p_407_332))) (=> (and (<= 0 ?i_405_334) (< ?i_405_334 ?size_408_331)) (not (= (base_addr (c_sort ?v_1 (acc (c_sort ?v_0 ?m1_410_329) (c_sort ?v_2 (shift ?v_3 ?i_405_334))))) (base_addr (c_sort ?v_1 (acc (c_sort ?v_0 ?m2_409_330) ?v_3))))))))))))))))))))
-(declare-fun separation1_range (c_ssorted Int) Bool)
-(assert (forall ((?t_82_420_335 c_type)) (forall ((?t_81_419_336 c_type)) (forall ((?m_418_337 c_unique)) (forall ((?size_417_338 Int)) (= (separation1_range (c_sort (type_memory (type_pointer ?t_81_419_336) ?t_82_420_335) ?m_418_337) ?size_417_338) (forall ((?p_416_339 c_unique)) (forall ((?a_415_340 c_unique)) (=> (valid (c_sort type_alloc_table ?a_415_340) (c_sort (type_pointer ?t_82_420_335) ?p_416_339)) (forall ((?i1_414_341 Int)) (forall ((?i2_413_342 Int)) (let ((?v_0 (type_pointer ?t_81_419_336))) (let ((?v_2 (c_sort (type_memory ?v_0 ?t_82_420_335) ?m_418_337)) (?v_1 (type_pointer ?t_82_420_335))) (let ((?v_3 (c_sort ?v_1 ?p_416_339))) (=> (and (<= 0 ?i1_414_341) (< ?i1_414_341 ?size_417_338)) (=> (and (<= 0 ?i2_413_342) (< ?i2_413_342 ?size_417_338)) (=> (not (= ?i1_414_341 ?i2_413_342)) (not (= (base_addr (c_sort ?v_0 (acc ?v_2 (c_sort ?v_1 (shift ?v_3 ?i1_414_341))))) (base_addr (c_sort ?v_0 (acc ?v_2 (c_sort ?v_1 (shift ?v_3 ?i2_413_342))))))))))))))))))))))))
-(declare-fun separation2 (c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_84_426_343 c_type)) (forall ((?t_83_425_344 c_type)) (forall ((?m1_424_345 c_unique)) (forall ((?m2_423_346 c_unique)) (let ((?v_0 (type_memory (type_pointer ?t_83_425_344) ?t_84_426_343))) (= (separation2 (c_sort ?v_0 ?m1_424_345) (c_sort ?v_0 ?m2_423_346)) (forall ((?p1_422_347 c_unique)) (forall ((?p2_421_348 c_unique)) (let ((?v_1 (type_pointer ?t_83_425_344)) (?v_2 (type_pointer ?t_84_426_343))) (=> (not (= ?p1_422_347 ?p2_421_348)) (not (= (base_addr (c_sort ?v_1 (acc (c_sort ?v_0 ?m1_424_345) (c_sort ?v_2 ?p1_422_347)))) (base_addr (c_sort ?v_1 (acc (c_sort ?v_0 ?m2_423_346) (c_sort ?v_2 ?p2_421_348)))))))))))))))))
-(declare-fun separation2_range1 (c_ssorted c_ssorted Int) Bool)
-(assert (forall ((?t_86_435_349 c_type)) (forall ((?t_85_434_350 c_type)) (forall ((?m1_433_351 c_unique)) (forall ((?m2_432_352 c_unique)) (forall ((?size_431_353 Int)) (let ((?v_0 (type_memory (type_pointer ?t_85_434_350) ?t_86_435_349))) (= (separation2_range1 (c_sort ?v_0 ?m1_433_351) (c_sort ?v_0 ?m2_432_352) ?size_431_353) (forall ((?p_430_354 c_unique)) (forall ((?q_429_355 c_unique)) (forall ((?a_428_356 c_unique)) (forall ((?i_427_357 Int)) (let ((?v_1 (type_pointer ?t_85_434_350)) (?v_2 (type_pointer ?t_86_435_349))) (=> (and (<= 0 ?i_427_357) (< ?i_427_357 ?size_431_353)) (not (= (base_addr (c_sort ?v_1 (acc (c_sort ?v_0 ?m1_433_351) (c_sort ?v_2 (shift (c_sort ?v_2 ?p_430_354) ?i_427_357))))) (base_addr (c_sort ?v_1 (acc (c_sort ?v_0 ?m2_432_352) (c_sort ?v_2 ?q_429_355))))))))))))))))))))
-(declare-fun on_heap (c_ssorted c_ssorted) Bool)
-(declare-fun on_stack (c_ssorted c_ssorted) Bool)
-(declare-fun fresh (c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_87_438_358 c_type)) (forall ((?a_437_359 c_unique)) (forall ((?p_436_360 c_unique)) (let ((?v_0 (c_sort type_alloc_table ?a_437_359)) (?v_1 (c_sort (type_pointer ?t_87_438_358) ?p_436_360))) (=> (fresh ?v_0 ?v_1) (not (valid ?v_0 ?v_1))))))))
-(assert (forall ((?t_88_442_361 c_type)) (forall ((?a_441_362 c_unique)) (forall ((?p_440_363 c_unique)) (=> (fresh (c_sort type_alloc_table ?a_441_362) (c_sort (type_pointer ?t_88_442_361) ?p_440_363)) (forall ((?i_439_364 Int)) (let ((?v_0 (type_pointer ?t_88_442_361))) (not (valid (c_sort type_alloc_table ?a_441_362) (c_sort ?v_0 (shift (c_sort ?v_0 ?p_440_363) ?i_439_364)))))))))))
-(declare-fun alloc_extends (c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_89_446_365 c_type)) (forall ((?a1_445_366 c_unique)) (forall ((?a2_444_367 c_unique)) (=> (alloc_extends (c_sort type_alloc_table ?a1_445_366) (c_sort type_alloc_table ?a2_444_367)) (forall ((?q_443_368 c_unique)) (let ((?v_0 (c_sort (type_pointer ?t_89_446_365) ?q_443_368))) (=> (valid (c_sort type_alloc_table ?a1_445_366) ?v_0) (valid (c_sort type_alloc_table ?a2_444_367) ?v_0)))))))))
-(assert (forall ((?t_90_451_369 c_type)) (forall ((?a1_450_370 c_unique)) (forall ((?a2_449_371 c_unique)) (=> (alloc_extends (c_sort type_alloc_table ?a1_450_370) (c_sort type_alloc_table ?a2_449_371)) (forall ((?q_448_372 c_unique)) (forall ((?i_447_373 Int)) (let ((?v_0 (c_sort (type_pointer ?t_90_451_369) ?q_448_372))) (=> (valid_index (c_sort type_alloc_table ?a1_450_370) ?v_0 ?i_447_373) (valid_index (c_sort type_alloc_table ?a2_449_371) ?v_0 ?i_447_373))))))))))
-(assert (forall ((?t_91_457_374 c_type)) (forall ((?a1_456_375 c_unique)) (forall ((?a2_455_376 c_unique)) (=> (alloc_extends (c_sort type_alloc_table ?a1_456_375) (c_sort type_alloc_table ?a2_455_376)) (forall ((?q_454_377 c_unique)) (forall ((?i_453_378 Int)) (forall ((?j_452_379 Int)) (let ((?v_0 (c_sort (type_pointer ?t_91_457_374) ?q_454_377))) (=> (valid_range (c_sort type_alloc_table ?a1_456_375) ?v_0 ?i_453_378 ?j_452_379) (valid_range (c_sort type_alloc_table ?a2_455_376) ?v_0 ?i_453_378 ?j_452_379)))))))))))
-(assert (forall ((?a_458_380 c_unique)) (let ((?v_0 (c_sort type_alloc_table ?a_458_380))) (alloc_extends ?v_0 ?v_0))))
-(assert (forall ((?a1_461_381 c_unique)) (forall ((?a2_460_382 c_unique)) (forall ((?a3_459_383 c_unique)) (let ((?v_1 (c_sort type_alloc_table ?a1_461_381)) (?v_0 (c_sort type_alloc_table ?a2_460_382)) (?v_2 (c_sort type_alloc_table ?a3_459_383))) (=> (alloc_extends ?v_1 ?v_0) (=> (alloc_extends ?v_0 ?v_2) (alloc_extends ?v_1 ?v_2))))))))
-(declare-fun free_stack (c_ssorted c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_92_466_384 c_type)) (forall ((?a1_465_385 c_unique)) (forall ((?a2_464_386 c_unique)) (forall ((?a3_463_387 c_unique)) (=> (free_stack (c_sort type_alloc_table ?a1_465_385) (c_sort type_alloc_table ?a2_464_386) (c_sort type_alloc_table ?a3_463_387)) (forall ((?p_462_388 c_unique)) (let ((?v_0 (c_sort type_alloc_table ?a2_464_386)) (?v_1 (c_sort (type_pointer ?t_92_466_384) ?p_462_388))) (=> (valid ?v_0 ?v_1) (=> (on_heap ?v_0 ?v_1) (valid (c_sort type_alloc_table ?a3_463_387) ?v_1)))))))))))
-(assert (forall ((?t_93_471_389 c_type)) (forall ((?a1_470_390 c_unique)) (forall ((?a2_469_391 c_unique)) (forall ((?a3_468_392 c_unique)) (=> (free_stack (c_sort type_alloc_table ?a1_470_390) (c_sort type_alloc_table ?a2_469_391) (c_sort type_alloc_table ?a3_468_392)) (forall ((?p_467_393 c_unique)) (let ((?v_0 (c_sort type_alloc_table ?a1_470_390)) (?v_1 (c_sort (type_pointer ?t_93_471_389) ?p_467_393))) (=> (valid ?v_0 ?v_1) (=> (on_stack ?v_0 ?v_1) (valid (c_sort type_alloc_table ?a3_468_392) ?v_1)))))))))))
-(declare-fun null () c_unique)
-(assert (forall ((?t_94_475_394 c_type)) (forall ((?a_474_395 c_unique)) (not (valid (c_sort type_alloc_table ?a_474_395) (c_sort (type_pointer ?t_94_475_394) null))))))
-(declare-fun type_global () c_type)
-(assert (not (forall ((?t c_unique)) (forall ((?n Int)) (forall ((?alloc c_unique)) (forall ((?intM_global c_unique)) (=> (valid_range (c_sort type_alloc_table ?alloc) (c_sort (type_pointer type_global) ?t) 0 ?n) (forall ((?mutable_n Int)) (=> (and (<= ?mutable_n ?n) (forall ((?i_495_419 Int)) (let ((?v_0 (type_pointer type_global))) (=> (and (<= ?mutable_n ?i_495_419) (< ?i_495_419 ?n)) (= (ss2Int (c_sort c_int (acc (c_sort (type_memory c_int type_global) ?intM_global) (c_sort ?v_0 (shift (c_sort ?v_0 ?t) ?i_495_419))))) 0))))) (forall ((?mutable_n0 Int)) (=> (= ?mutable_n0 (- ?mutable_n 1)) (=> (< ?mutable_n0 0) (=> (not (= 1 0)) (forall ((?i Int)) (let ((?v_1 (type_pointer type_global))) (=> (and (<= 0 ?i) (< ?i ?n)) (= (ss2Int (c_sort c_int (acc (c_sort (type_memory c_int type_global) ?intM_global) (c_sort ?v_1 (shift (c_sort ?v_1 ?t) ?i))))) 0)))))))))))))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/quantifiers/smtlib46f14a.smt2 b/test/regress/regress0/quantifiers/smtlib46f14a.smt2
deleted file mode 100644
index fa0c85470..000000000
--- a/test/regress/regress0/quantifiers/smtlib46f14a.smt2
+++ /dev/null
@@ -1,205 +0,0 @@
-(set-logic AUFLIRA)
-(set-info :source |http://proval.lri.fr/why-benchmarks |)
-(set-info :smt-lib-version 2.0)
-(set-info :category "industrial")
-(set-info :status unsat)
-(declare-sort Unit 0)
-(declare-sort c_unique 0)
-(declare-sort c_ssorted 0)
-(declare-sort c_type 0)
-(declare-sort c_Boolean 0)
-(declare-fun c_sort (c_type c_unique) c_ssorted)
-(declare-fun c_Boolean_true () c_Boolean)
-(declare-fun c_Boolean_false () c_Boolean)
-(assert (forall ((?b_22_1 c_Boolean)) (or (= c_Boolean_true ?b_22_1) (= c_Boolean_false ?b_22_1))))
-(assert (not (= c_Boolean_true c_Boolean_false)))
-(declare-fun int2U (Int) c_unique)
-(declare-fun ss2Int (c_ssorted) Int)
-(declare-fun real2U (Real) c_unique)
-(declare-fun ss2Real (c_ssorted) Real)
-(declare-fun bool2U (c_Boolean) c_unique)
-(declare-fun ss2Bool (c_ssorted) c_Boolean)
-(declare-fun c_int () c_type)
-(declare-fun c_bool () c_type)
-(declare-fun c_real () c_type)
-(declare-fun c_unit () c_type)
-(declare-fun c_ref (c_unique) c_unique)
-(assert (forall ((?t_21_2 c_type)) (forall ((?x_20_3 c_unique)) (forall ((?y_19_4 c_unique)) (=> (= (c_sort ?t_21_2 ?x_20_3) (c_sort ?t_21_2 ?y_19_4)) (= ?x_20_3 ?y_19_4))))))
-(assert (forall ((?x_18_5 Int)) (= (ss2Int (c_sort c_int (int2U ?x_18_5))) ?x_18_5)))
-(assert (forall ((?x_17_6 Int)) (forall ((?y_16_7 Int)) (=> (= (int2U ?x_17_6) (int2U ?y_16_7)) (= ?x_17_6 ?y_16_7)))))
-(assert (forall ((?x_15_8 Real)) (forall ((?y_14_9 Real)) (=> (= (real2U ?x_15_8) (real2U ?y_14_9)) (= ?x_15_8 ?y_14_9)))))
-(assert (forall ((?x_13_10 c_Boolean)) (forall ((?y_12_11 c_Boolean)) (=> (= (bool2U ?x_13_10) (bool2U ?y_12_11)) (= ?x_13_10 ?y_12_11)))))
-(assert (forall ((?x_11_12 c_ssorted)) (forall ((?y_10_13 c_ssorted)) (=> (= (ss2Int ?x_11_12) (ss2Int ?y_10_13)) (= ?x_11_12 ?y_10_13)))))
-(assert (forall ((?x_9_14 c_ssorted)) (forall ((?y_8_15 c_ssorted)) (=> (= (ss2Real ?x_9_14) (ss2Real ?y_8_15)) (= ?x_9_14 ?y_8_15)))))
-(assert (forall ((?x_7_16 c_ssorted)) (forall ((?y_6_17 c_ssorted)) (=> (= (ss2Bool ?x_7_16) (ss2Bool ?y_6_17)) (= ?x_7_16 ?y_6_17)))))
-(assert (forall ((?x_5_18 Real)) (= (ss2Real (c_sort c_real (real2U ?x_5_18))) ?x_5_18)))
-(assert (forall ((?x_4_19 c_Boolean)) (= (ss2Bool (c_sort c_bool (bool2U ?x_4_19))) ?x_4_19)))
-(assert (forall ((?x_3_20 c_unique)) (= (int2U (ss2Int (c_sort c_int ?x_3_20))) ?x_3_20)))
-(assert (forall ((?x_2_21 c_unique)) (= (real2U (ss2Real (c_sort c_real ?x_2_21))) ?x_2_21)))
-(assert (forall ((?x_1_22 c_unique)) (= (bool2U (ss2Bool (c_sort c_bool ?x_1_22))) ?x_1_22)))
-(declare-fun eq_int (Int Int) Bool)
-(declare-fun neq_int (Int Int) Bool)
-(declare-fun lt_int_bool (Int Int) c_Boolean)
-(declare-fun le_int_bool (Int Int) c_Boolean)
-(declare-fun gt_int_bool (Int Int) c_Boolean)
-(declare-fun ge_int_bool (Int Int) c_Boolean)
-(declare-fun eq_int_bool (Int Int) c_Boolean)
-(declare-fun neq_int_bool (Int Int) c_Boolean)
-(assert (forall ((?x_40_23 Int)) (forall ((?y_39_24 Int)) (= (= (lt_int_bool ?x_40_23 ?y_39_24) c_Boolean_true) (< ?x_40_23 ?y_39_24)))))
-(assert (forall ((?x_42_25 Int)) (forall ((?y_41_26 Int)) (= (= (le_int_bool ?x_42_25 ?y_41_26) c_Boolean_true) (<= ?x_42_25 ?y_41_26)))))
-(assert (forall ((?x_44_27 Int)) (forall ((?y_43_28 Int)) (= (= (gt_int_bool ?x_44_27 ?y_43_28) c_Boolean_true) (> ?x_44_27 ?y_43_28)))))
-(assert (forall ((?x_46_29 Int)) (forall ((?y_45_30 Int)) (= (= (ge_int_bool ?x_46_29 ?y_45_30) c_Boolean_true) (>= ?x_46_29 ?y_45_30)))))
-(assert (forall ((?x_48_31 Int)) (forall ((?y_47_32 Int)) (= (= (eq_int_bool ?x_48_31 ?y_47_32) c_Boolean_true) (= ?x_48_31 ?y_47_32)))))
-(assert (forall ((?x_50_33 Int)) (forall ((?y_49_34 Int)) (= (= (neq_int_bool ?x_50_33 ?y_49_34) c_Boolean_true) (not (= ?x_50_33 ?y_49_34))))))
-(declare-fun add_real (Real Real) Real)
-(declare-fun sub_real (Real Real) Real)
-(declare-fun mul_real (Real Real) Real)
-(declare-fun div_real (Real Real) Real)
-(declare-fun pow_real (Real Real) Real)
-(declare-fun neg_real (Real) Real)
-(declare-fun abs_real (Real) Real)
-(declare-fun sqrt_real (Real) Real)
-(declare-fun real_of_int (Int) Real)
-(declare-fun int_of_real (Real) Int)
-(declare-fun lt_real (Real Real) Bool)
-(declare-fun le_real (Real Real) Bool)
-(declare-fun gt_real (Real Real) Bool)
-(declare-fun ge_real (Real Real) Bool)
-(declare-fun eq_real (Real Real) Bool)
-(declare-fun neq_real (Real Real) Bool)
-(declare-fun eq_bool (c_Boolean c_Boolean) Bool)
-(declare-fun neq_bool (c_Boolean c_Boolean) Bool)
-(declare-fun eq_unit (c_ssorted c_ssorted) Bool)
-(declare-fun neq_unit (c_ssorted c_ssorted) Bool)
-(declare-fun smtlib__ite (c_Boolean c_ssorted c_ssorted) c_unique)
-(assert (forall ((?t_1_76_35 c_type)) (forall ((?x_75_36 c_unique)) (forall ((?y_74_37 c_unique)) (= (smtlib__ite c_Boolean_true (c_sort ?t_1_76_35 ?x_75_36) (c_sort ?t_1_76_35 ?y_74_37)) ?x_75_36)))))
-(assert (forall ((?t_2_79_38 c_type)) (forall ((?x_78_39 c_unique)) (forall ((?y_77_40 c_unique)) (= (smtlib__ite c_Boolean_false (c_sort ?t_2_79_38 ?x_78_39) (c_sort ?t_2_79_38 ?y_77_40)) ?y_77_40)))))
-(declare-fun bw_compl (Int) Int)
-(declare-fun bw_and (Int Int) Int)
-(declare-fun bw_xor (Int Int) Int)
-(declare-fun bw_or (Int Int) Int)
-(declare-fun lsl (Int Int) Int)
-(declare-fun lsr (Int Int) Int)
-(declare-fun non_int (Int) Int)
-(declare-fun type_pointer (c_type) c_type)
-(declare-fun type_addr (c_type) c_type)
-(declare-fun type_alloc_table () c_type)
-(declare-fun block_length (c_ssorted c_ssorted) Int)
-(declare-fun base_addr (c_ssorted) c_unique)
-(declare-fun offset (c_ssorted) Int)
-(declare-fun shift (c_ssorted Int) c_unique)
-(declare-fun sub_pointer (c_ssorted c_ssorted) Int)
-(declare-fun lt_pointer (c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_3_88_41 c_type)) (forall ((?p1_87_42 c_unique)) (forall ((?p2_86_43 c_unique)) (let ((?v_0 (type_pointer ?t_3_88_41))) (let ((?v_1 (c_sort ?v_0 ?p1_87_42)) (?v_2 (c_sort ?v_0 ?p2_86_43))) (= (lt_pointer ?v_1 ?v_2) (and (= (base_addr ?v_1) (base_addr ?v_2)) (< (offset ?v_1) (offset ?v_2))))))))))
-(declare-fun le_pointer (c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_4_91_44 c_type)) (forall ((?p1_90_45 c_unique)) (forall ((?p2_89_46 c_unique)) (let ((?v_0 (type_pointer ?t_4_91_44))) (let ((?v_1 (c_sort ?v_0 ?p1_90_45)) (?v_2 (c_sort ?v_0 ?p2_89_46))) (= (le_pointer ?v_1 ?v_2) (and (= (base_addr ?v_1) (base_addr ?v_2)) (<= (offset ?v_1) (offset ?v_2))))))))))
-(declare-fun gt_pointer (c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_5_94_47 c_type)) (forall ((?p1_93_48 c_unique)) (forall ((?p2_92_49 c_unique)) (let ((?v_0 (type_pointer ?t_5_94_47))) (let ((?v_1 (c_sort ?v_0 ?p1_93_48)) (?v_2 (c_sort ?v_0 ?p2_92_49))) (= (gt_pointer ?v_1 ?v_2) (and (= (base_addr ?v_1) (base_addr ?v_2)) (> (offset ?v_1) (offset ?v_2))))))))))
-(declare-fun ge_pointer (c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_6_97_50 c_type)) (forall ((?p1_96_51 c_unique)) (forall ((?p2_95_52 c_unique)) (let ((?v_0 (type_pointer ?t_6_97_50))) (let ((?v_1 (c_sort ?v_0 ?p1_96_51)) (?v_2 (c_sort ?v_0 ?p2_95_52))) (= (ge_pointer ?v_1 ?v_2) (and (= (base_addr ?v_1) (base_addr ?v_2)) (>= (offset ?v_1) (offset ?v_2))))))))))
-(declare-fun valid (c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_7_104_53 c_type)) (forall ((?a_103_54 c_unique)) (forall ((?p_102_55 c_unique)) (let ((?v_2 (c_sort type_alloc_table ?a_103_54)) (?v_0 (c_sort (type_pointer ?t_7_104_53) ?p_102_55))) (let ((?v_1 (offset ?v_0))) (= (valid ?v_2 ?v_0) (and (<= 0 ?v_1) (< ?v_1 (block_length ?v_2 ?v_0))))))))))
-(declare-fun valid_index (c_ssorted c_ssorted Int) Bool)
-(assert (forall ((?t_8_108_56 c_type)) (forall ((?a_107_57 c_unique)) (forall ((?p_106_58 c_unique)) (forall ((?i_105_59 Int)) (let ((?v_2 (c_sort type_alloc_table ?a_107_57)) (?v_0 (c_sort (type_pointer ?t_8_108_56) ?p_106_58))) (let ((?v_1 (+ (offset ?v_0) ?i_105_59))) (= (valid_index ?v_2 ?v_0 ?i_105_59) (and (<= 0 ?v_1) (< ?v_1 (block_length ?v_2 ?v_0)))))))))))
-(declare-fun valid_range (c_ssorted c_ssorted Int Int) Bool)
-(assert (forall ((?t_9_113_60 c_type)) (forall ((?a_112_61 c_unique)) (forall ((?p_111_62 c_unique)) (forall ((?i_110_63 Int)) (forall ((?j_109_64 Int)) (let ((?v_2 (c_sort type_alloc_table ?a_112_61)) (?v_0 (c_sort (type_pointer ?t_9_113_60) ?p_111_62))) (let ((?v_1 (offset ?v_0))) (= (valid_range ?v_2 ?v_0 ?i_110_63 ?j_109_64) (and (<= 0 (+ ?v_1 ?i_110_63)) (< (+ ?v_1 ?j_109_64) (block_length ?v_2 ?v_0))))))))))))
-(assert (forall ((?t_10_116_65 c_type)) (forall ((?p_115_66 c_unique)) (forall ((?i_114_67 Int)) (let ((?v_0 (type_pointer ?t_10_116_65))) (let ((?v_1 (c_sort ?v_0 ?p_115_66))) (= (offset (c_sort ?v_0 (shift ?v_1 ?i_114_67))) (+ (offset ?v_1) ?i_114_67))))))))
-(assert (forall ((?t_11_118_68 c_type)) (forall ((?p_117_69 c_unique)) (= (shift (c_sort (type_pointer ?t_11_118_68) ?p_117_69) 0) ?p_117_69))))
-(assert (forall ((?t_12_122_70 c_type)) (forall ((?p_121_71 c_unique)) (forall ((?i_120_72 Int)) (forall ((?j_119_73 Int)) (let ((?v_0 (type_pointer ?t_12_122_70))) (let ((?v_1 (c_sort ?v_0 ?p_121_71))) (= (shift (c_sort ?v_0 (shift ?v_1 ?i_120_72)) ?j_119_73) (shift ?v_1 (+ ?i_120_72 ?j_119_73))))))))))
-(assert (forall ((?t_13_125_74 c_type)) (forall ((?p_124_75 c_unique)) (forall ((?i_123_76 Int)) (let ((?v_0 (type_pointer ?t_13_125_74))) (let ((?v_1 (c_sort ?v_0 ?p_124_75))) (= (base_addr (c_sort ?v_0 (shift ?v_1 ?i_123_76))) (base_addr ?v_1))))))))
-(assert (forall ((?t_14_129_77 c_type)) (forall ((?a_128_78 c_unique)) (forall ((?p_127_79 c_unique)) (forall ((?i_126_80 Int)) (let ((?v_1 (c_sort type_alloc_table ?a_128_78)) (?v_0 (type_pointer ?t_14_129_77))) (let ((?v_2 (c_sort ?v_0 ?p_127_79))) (= (block_length ?v_1 (c_sort ?v_0 (shift ?v_2 ?i_126_80))) (block_length ?v_1 ?v_2)))))))))
-(assert (forall ((?t_15_133_81 c_type)) (forall ((?a_132_82 c_unique)) (forall ((?p1_131_83 c_unique)) (forall ((?p2_130_84 c_unique)) (let ((?v_0 (type_pointer ?t_15_133_81))) (let ((?v_1 (c_sort ?v_0 ?p1_131_83)) (?v_3 (c_sort ?v_0 ?p2_130_84)) (?v_2 (c_sort type_alloc_table ?a_132_82))) (=> (= (base_addr ?v_1) (base_addr ?v_3)) (= (block_length ?v_2 ?v_1) (block_length ?v_2 ?v_3))))))))))
-(assert (forall ((?t_16_136_85 c_type)) (forall ((?p1_135_86 c_unique)) (forall ((?p2_134_87 c_unique)) (let ((?v_0 (type_pointer ?t_16_136_85))) (let ((?v_1 (c_sort ?v_0 ?p1_135_86)) (?v_2 (c_sort ?v_0 ?p2_134_87))) (=> (and (= (base_addr ?v_1) (base_addr ?v_2)) (= (offset ?v_1) (offset ?v_2))) (= ?p1_135_86 ?p2_134_87))))))))
-(assert (forall ((?t_17_139_88 c_type)) (forall ((?p1_138_89 c_unique)) (forall ((?p2_137_90 c_unique)) (let ((?v_0 (type_pointer ?t_17_139_88))) (let ((?v_1 (c_sort ?v_0 ?p1_138_89)) (?v_2 (c_sort ?v_0 ?p2_137_90))) (=> (= ?p1_138_89 ?p2_137_90) (and (= (base_addr ?v_1) (base_addr ?v_2)) (= (offset ?v_1) (offset ?v_2))))))))))
-(assert (forall ((?t_18_144_91 c_type)) (forall ((?p1_143_92 c_unique)) (forall ((?p2_142_93 c_unique)) (forall ((?i_141_94 Int)) (forall ((?j_140_95 Int)) (let ((?v_0 (type_pointer ?t_18_144_91))) (let ((?v_1 (c_sort ?v_0 ?p1_143_92)) (?v_2 (c_sort ?v_0 ?p2_142_93))) (=> (not (= (base_addr ?v_1) (base_addr ?v_2))) (not (= (shift ?v_1 ?i_141_94) (shift ?v_2 ?j_140_95))))))))))))
-(assert (forall ((?t_19_149_96 c_type)) (forall ((?p1_148_97 c_unique)) (forall ((?p2_147_98 c_unique)) (forall ((?i_146_99 Int)) (forall ((?j_145_100 Int)) (let ((?v_0 (type_pointer ?t_19_149_96))) (let ((?v_1 (c_sort ?v_0 ?p1_148_97)) (?v_2 (c_sort ?v_0 ?p2_147_98))) (=> (not (= (+ (offset ?v_1) ?i_146_99) (+ (offset ?v_2) ?j_145_100))) (not (= (shift ?v_1 ?i_146_99) (shift ?v_2 ?j_145_100))))))))))))
-(assert (forall ((?t_20_154_101 c_type)) (forall ((?p1_153_102 c_unique)) (forall ((?p2_152_103 c_unique)) (forall ((?i_151_104 Int)) (forall ((?j_150_105 Int)) (let ((?v_0 (type_pointer ?t_20_154_101))) (let ((?v_1 (c_sort ?v_0 ?p1_153_102)) (?v_2 (c_sort ?v_0 ?p2_152_103))) (=> (= (base_addr ?v_1) (base_addr ?v_2)) (=> (= (+ (offset ?v_1) ?i_151_104) (+ (offset ?v_2) ?j_150_105)) (= (shift ?v_1 ?i_151_104) (shift ?v_2 ?j_150_105))))))))))))
-(assert (forall ((?t_21_158_106 c_type)) (forall ((?a_157_107 c_unique)) (forall ((?p_156_108 c_unique)) (forall ((?i_155_109 Int)) (let ((?v_0 (c_sort type_alloc_table ?a_157_107)) (?v_1 (type_pointer ?t_21_158_106))) (let ((?v_2 (c_sort ?v_1 ?p_156_108))) (=> (valid_index ?v_0 ?v_2 ?i_155_109) (valid ?v_0 (c_sort ?v_1 (shift ?v_2 ?i_155_109)))))))))))
-(assert (forall ((?t_22_164_110 c_type)) (forall ((?a_163_111 c_unique)) (forall ((?p_162_112 c_unique)) (forall ((?i_161_113 Int)) (forall ((?j_160_114 Int)) (forall ((?k_159_115 Int)) (let ((?v_0 (c_sort type_alloc_table ?a_163_111)) (?v_1 (type_pointer ?t_22_164_110))) (let ((?v_2 (c_sort ?v_1 ?p_162_112))) (=> (valid_range ?v_0 ?v_2 ?i_161_113 ?j_160_114) (=> (and (<= ?i_161_113 ?k_159_115) (<= ?k_159_115 ?j_160_114)) (valid ?v_0 (c_sort ?v_1 (shift ?v_2 ?k_159_115))))))))))))))
-(assert (forall ((?t_23_169_116 c_type)) (forall ((?a_168_117 c_unique)) (forall ((?p_167_118 c_unique)) (forall ((?i_166_119 Int)) (forall ((?j_165_120 Int)) (let ((?v_0 (c_sort type_alloc_table ?a_168_117)) (?v_1 (c_sort (type_pointer ?t_23_169_116) ?p_167_118))) (=> (valid_range ?v_0 ?v_1 ?i_166_119 ?j_165_120) (=> (and (<= ?i_166_119 0) (<= 0 ?j_165_120)) (valid ?v_0 ?v_1))))))))))
-(assert (forall ((?t_24_175_121 c_type)) (forall ((?a_174_122 c_unique)) (forall ((?p_173_123 c_unique)) (forall ((?i_172_124 Int)) (forall ((?j_171_125 Int)) (forall ((?k_170_126 Int)) (let ((?v_0 (c_sort type_alloc_table ?a_174_122)) (?v_1 (c_sort (type_pointer ?t_24_175_121) ?p_173_123))) (=> (valid_range ?v_0 ?v_1 ?i_172_124 ?j_171_125) (=> (and (<= ?i_172_124 ?k_170_126) (<= ?k_170_126 ?j_171_125)) (valid_index ?v_0 ?v_1 ?k_170_126)))))))))))
-(assert (forall ((?t_25_178_127 c_type)) (forall ((?p1_177_128 c_unique)) (forall ((?p2_176_129 c_unique)) (let ((?v_0 (type_pointer ?t_25_178_127))) (let ((?v_1 (c_sort ?v_0 ?p1_177_128)) (?v_2 (c_sort ?v_0 ?p2_176_129))) (=> (= (base_addr ?v_1) (base_addr ?v_2)) (= (sub_pointer ?v_1 ?v_2) (- (offset ?v_1) (offset ?v_2))))))))))
-(declare-fun type_memory (c_type c_type) c_type)
-(declare-fun acc (c_ssorted c_ssorted) c_unique)
-(declare-fun upd (c_ssorted c_ssorted c_ssorted) c_unique)
-(assert (forall ((?t_27_212_130 c_type)) (forall ((?t_26_211_131 c_type)) (forall ((?m_210_132 c_unique)) (forall ((?p_209_133 c_unique)) (forall ((?a_208_134 c_unique)) (let ((?v_0 (type_memory ?t_26_211_131 ?t_27_212_130)) (?v_1 (c_sort (type_pointer ?t_27_212_130) ?p_209_133))) (= (acc (c_sort ?v_0 (upd (c_sort ?v_0 ?m_210_132) ?v_1 (c_sort ?t_26_211_131 ?a_208_134))) ?v_1) ?a_208_134))))))))
-(assert (forall ((?t_29_218_135 c_type)) (forall ((?t_28_217_136 c_type)) (forall ((?m_216_137 c_unique)) (forall ((?p1_215_138 c_unique)) (forall ((?p2_214_139 c_unique)) (forall ((?a_213_140 c_unique)) (let ((?v_0 (type_memory ?t_28_217_136 ?t_29_218_135))) (let ((?v_2 (c_sort ?v_0 ?m_216_137)) (?v_1 (type_pointer ?t_29_218_135))) (let ((?v_3 (c_sort ?v_1 ?p2_214_139))) (=> (not (= ?p1_215_138 ?p2_214_139)) (= (acc (c_sort ?v_0 (upd ?v_2 (c_sort ?v_1 ?p1_215_138) (c_sort ?t_28_217_136 ?a_213_140))) ?v_3) (acc ?v_2 ?v_3)))))))))))))
-(assert (not (= c_Boolean_false c_Boolean_true)))
-(declare-fun type_pset (c_type) c_type)
-(declare-fun pset_empty () c_unique)
-(declare-fun pset_singleton (c_ssorted) c_unique)
-(declare-fun pset_star (c_ssorted c_ssorted) c_unique)
-(declare-fun pset_all (c_ssorted) c_unique)
-(declare-fun pset_range (c_ssorted Int Int) c_unique)
-(declare-fun pset_range_left (c_ssorted Int) c_unique)
-(declare-fun pset_range_right (c_ssorted Int) c_unique)
-(declare-fun pset_acc_all (c_ssorted c_ssorted) c_unique)
-(declare-fun pset_acc_range (c_ssorted c_ssorted Int Int) c_unique)
-(declare-fun pset_acc_range_left (c_ssorted c_ssorted Int) c_unique)
-(declare-fun pset_acc_range_right (c_ssorted c_ssorted Int) c_unique)
-(declare-fun pset_union (c_ssorted c_ssorted) c_unique)
-(declare-fun not_in_pset (c_ssorted c_ssorted) Bool)
-(declare-fun not_assigns (c_ssorted c_ssorted c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_31_225_141 c_type)) (forall ((?t_30_224_142 c_type)) (forall ((?a_223_143 c_unique)) (forall ((?m1_222_144 c_unique)) (forall ((?m2_221_145 c_unique)) (forall ((?l_220_146 c_unique)) (let ((?v_0 (type_memory ?t_30_224_142 ?t_31_225_141))) (= (not_assigns (c_sort type_alloc_table ?a_223_143) (c_sort ?v_0 ?m1_222_144) (c_sort ?v_0 ?m2_221_145) (c_sort (type_pset ?t_31_225_141) ?l_220_146)) (forall ((?p_219_147 c_unique)) (let ((?v_1 (c_sort (type_pointer ?t_31_225_141) ?p_219_147))) (=> (valid (c_sort type_alloc_table ?a_223_143) ?v_1) (=> (not_in_pset ?v_1 (c_sort (type_pset ?t_31_225_141) ?l_220_146)) (= (acc (c_sort ?v_0 ?m2_221_145) ?v_1) (acc (c_sort ?v_0 ?m1_222_144) ?v_1)))))))))))))))
-(assert (forall ((?t_32_227_148 c_type)) (forall ((?p_226_149 c_unique)) (not_in_pset (c_sort (type_pointer ?t_32_227_148) ?p_226_149) (c_sort (type_pset ?t_32_227_148) pset_empty)))))
-(assert (forall ((?t_33_230_150 c_type)) (forall ((?p1_229_151 c_unique)) (forall ((?p2_228_152 c_unique)) (let ((?v_0 (type_pointer ?t_33_230_150))) (=> (not (= ?p1_229_151 ?p2_228_152)) (not_in_pset (c_sort ?v_0 ?p1_229_151) (c_sort (type_pset ?t_33_230_150) (pset_singleton (c_sort ?v_0 ?p2_228_152))))))))))
-(assert (forall ((?t_34_233_153 c_type)) (forall ((?p1_232_154 c_unique)) (forall ((?p2_231_155 c_unique)) (let ((?v_0 (type_pointer ?t_34_233_153))) (=> (not_in_pset (c_sort ?v_0 ?p1_232_154) (c_sort (type_pset ?t_34_233_153) (pset_singleton (c_sort ?v_0 ?p2_231_155)))) (not (= ?p1_232_154 ?p2_231_155))))))))
-(assert (forall ((?t_35_235_156 c_type)) (forall ((?p_234_157 c_unique)) (let ((?v_0 (c_sort (type_pointer ?t_35_235_156) ?p_234_157))) (not (not_in_pset ?v_0 (c_sort (type_pset ?t_35_235_156) (pset_singleton ?v_0))))))))
-(assert (forall ((?t_36_239_158 c_type)) (forall ((?l1_238_159 c_unique)) (forall ((?l2_237_160 c_unique)) (forall ((?p_236_161 c_unique)) (let ((?v_0 (c_sort (type_pointer ?t_36_239_158) ?p_236_161)) (?v_1 (type_pset ?t_36_239_158))) (let ((?v_2 (c_sort ?v_1 ?l1_238_159)) (?v_3 (c_sort ?v_1 ?l2_237_160))) (=> (and (not_in_pset ?v_0 ?v_2) (not_in_pset ?v_0 ?v_3)) (not_in_pset ?v_0 (c_sort ?v_1 (pset_union ?v_2 ?v_3)))))))))))
-(assert (forall ((?t_37_243_162 c_type)) (forall ((?l1_242_163 c_unique)) (forall ((?l2_241_164 c_unique)) (forall ((?p_240_165 c_unique)) (let ((?v_1 (c_sort (type_pointer ?t_37_243_162) ?p_240_165)) (?v_0 (type_pset ?t_37_243_162))) (let ((?v_2 (c_sort ?v_0 ?l1_242_163))) (=> (not_in_pset ?v_1 (c_sort ?v_0 (pset_union ?v_2 (c_sort ?v_0 ?l2_241_164)))) (not_in_pset ?v_1 ?v_2)))))))))
-(assert (forall ((?t_38_247_166 c_type)) (forall ((?l1_246_167 c_unique)) (forall ((?l2_245_168 c_unique)) (forall ((?p_244_169 c_unique)) (let ((?v_1 (c_sort (type_pointer ?t_38_247_166) ?p_244_169)) (?v_0 (type_pset ?t_38_247_166))) (let ((?v_2 (c_sort ?v_0 ?l2_245_168))) (=> (not_in_pset ?v_1 (c_sort ?v_0 (pset_union (c_sort ?v_0 ?l1_246_167) ?v_2))) (not_in_pset ?v_1 ?v_2)))))))))
-(assert (forall ((?t_40_253_170 c_type)) (forall ((?t_39_252_171 c_type)) (forall ((?l_251_172 c_unique)) (forall ((?m_250_173 c_unique)) (forall ((?p_249_174 c_unique)) (let ((?v_0 (type_pointer ?t_40_253_170))) (=> (forall ((?p1_248_175 c_unique)) (let ((?v_1 (c_sort (type_pointer ?t_39_252_171) ?p1_248_175))) (=> (= ?p_249_174 (acc (c_sort (type_memory ?v_0 ?t_39_252_171) ?m_250_173) ?v_1)) (not_in_pset ?v_1 (c_sort (type_pset ?t_39_252_171) ?l_251_172))))) (not_in_pset (c_sort ?v_0 ?p_249_174) (c_sort (type_pset ?t_40_253_170) (pset_star (c_sort (type_pset ?t_39_252_171) ?l_251_172) (c_sort (type_memory ?v_0 ?t_39_252_171) ?m_250_173))))))))))))
-(assert (forall ((?t_42_259_176 c_type)) (forall ((?t_41_258_177 c_type)) (forall ((?l_257_178 c_unique)) (forall ((?m_256_179 c_unique)) (forall ((?p_255_180 c_unique)) (let ((?v_0 (type_pointer ?t_42_259_176))) (=> (not_in_pset (c_sort ?v_0 ?p_255_180) (c_sort (type_pset ?t_42_259_176) (pset_star (c_sort (type_pset ?t_41_258_177) ?l_257_178) (c_sort (type_memory ?v_0 ?t_41_258_177) ?m_256_179)))) (forall ((?p1_254_181 c_unique)) (let ((?v_1 (c_sort (type_pointer ?t_41_258_177) ?p1_254_181))) (=> (= ?p_255_180 (acc (c_sort (type_memory ?v_0 ?t_41_258_177) ?m_256_179) ?v_1)) (not_in_pset ?v_1 (c_sort (type_pset ?t_41_258_177) ?l_257_178)))))))))))))
-(assert (forall ((?t_43_263_182 c_type)) (forall ((?p_262_183 c_unique)) (forall ((?l_261_184 c_unique)) (let ((?v_0 (type_pset ?t_43_263_182))) (=> (forall ((?p1_260_185 c_unique)) (let ((?v_1 (type_pointer ?t_43_263_182))) (let ((?v_2 (c_sort ?v_1 ?p1_260_185))) (=> (not (not_in_pset ?v_2 (c_sort ?v_0 ?l_261_184))) (not (= (base_addr (c_sort ?v_1 ?p_262_183)) (base_addr ?v_2))))))) (not_in_pset (c_sort (type_pointer ?t_43_263_182) ?p_262_183) (c_sort ?v_0 (pset_all (c_sort ?v_0 ?l_261_184))))))))))
-(assert (forall ((?t_44_267_186 c_type)) (forall ((?p_266_187 c_unique)) (forall ((?l_265_188 c_unique)) (let ((?v_0 (type_pset ?t_44_267_186))) (=> (not_in_pset (c_sort (type_pointer ?t_44_267_186) ?p_266_187) (c_sort ?v_0 (pset_all (c_sort ?v_0 ?l_265_188)))) (forall ((?p1_264_189 c_unique)) (let ((?v_1 (type_pointer ?t_44_267_186))) (let ((?v_2 (c_sort ?v_1 ?p1_264_189))) (=> (not (not_in_pset ?v_2 (c_sort ?v_0 ?l_265_188))) (not (= (base_addr (c_sort ?v_1 ?p_266_187)) (base_addr ?v_2)))))))))))))
-(assert (forall ((?t_45_274_190 c_type)) (forall ((?p_273_191 c_unique)) (forall ((?l_272_192 c_unique)) (forall ((?a_271_193 Int)) (forall ((?b_270_194 Int)) (let ((?v_0 (type_pset ?t_45_274_190))) (=> (forall ((?p1_269_195 c_unique)) (or (not_in_pset (c_sort (type_pointer ?t_45_274_190) ?p1_269_195) (c_sort ?v_0 ?l_272_192)) (forall ((?i_268_196 Int)) (=> (and (<= ?a_271_193 ?i_268_196) (<= ?i_268_196 ?b_270_194)) (not (= ?p_273_191 (shift (c_sort (type_pointer ?t_45_274_190) ?p1_269_195) ?i_268_196))))))) (not_in_pset (c_sort (type_pointer ?t_45_274_190) ?p_273_191) (c_sort ?v_0 (pset_range (c_sort ?v_0 ?l_272_192) ?a_271_193 ?b_270_194)))))))))))
-(assert (forall ((?t_46_281_197 c_type)) (forall ((?p_280_198 c_unique)) (forall ((?l_279_199 c_unique)) (forall ((?a_278_200 Int)) (forall ((?b_277_201 Int)) (let ((?v_0 (type_pset ?t_46_281_197))) (=> (not_in_pset (c_sort (type_pointer ?t_46_281_197) ?p_280_198) (c_sort ?v_0 (pset_range (c_sort ?v_0 ?l_279_199) ?a_278_200 ?b_277_201))) (forall ((?p1_276_202 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_46_281_197) ?p1_276_202) (c_sort ?v_0 ?l_279_199))) (forall ((?i_275_203 Int)) (=> (and (<= ?a_278_200 ?i_275_203) (<= ?i_275_203 ?b_277_201)) (not (= (shift (c_sort (type_pointer ?t_46_281_197) ?p1_276_202) ?i_275_203) ?p_280_198))))))))))))))
-(assert (forall ((?t_47_287_204 c_type)) (forall ((?p_286_205 c_unique)) (forall ((?l_285_206 c_unique)) (forall ((?a_284_207 Int)) (let ((?v_0 (type_pset ?t_47_287_204))) (=> (forall ((?p1_283_208 c_unique)) (or (not_in_pset (c_sort (type_pointer ?t_47_287_204) ?p1_283_208) (c_sort ?v_0 ?l_285_206)) (forall ((?i_282_209 Int)) (=> (<= ?i_282_209 ?a_284_207) (not (= ?p_286_205 (shift (c_sort (type_pointer ?t_47_287_204) ?p1_283_208) ?i_282_209))))))) (not_in_pset (c_sort (type_pointer ?t_47_287_204) ?p_286_205) (c_sort ?v_0 (pset_range_left (c_sort ?v_0 ?l_285_206) ?a_284_207))))))))))
-(assert (forall ((?t_48_293_210 c_type)) (forall ((?p_292_211 c_unique)) (forall ((?l_291_212 c_unique)) (forall ((?a_290_213 Int)) (let ((?v_0 (type_pset ?t_48_293_210))) (=> (not_in_pset (c_sort (type_pointer ?t_48_293_210) ?p_292_211) (c_sort ?v_0 (pset_range_left (c_sort ?v_0 ?l_291_212) ?a_290_213))) (forall ((?p1_289_214 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_48_293_210) ?p1_289_214) (c_sort ?v_0 ?l_291_212))) (forall ((?i_288_215 Int)) (=> (<= ?i_288_215 ?a_290_213) (not (= (shift (c_sort (type_pointer ?t_48_293_210) ?p1_289_214) ?i_288_215) ?p_292_211)))))))))))))
-(assert (forall ((?t_49_299_216 c_type)) (forall ((?p_298_217 c_unique)) (forall ((?l_297_218 c_unique)) (forall ((?a_296_219 Int)) (let ((?v_0 (type_pset ?t_49_299_216))) (=> (forall ((?p1_295_220 c_unique)) (or (not_in_pset (c_sort (type_pointer ?t_49_299_216) ?p1_295_220) (c_sort ?v_0 ?l_297_218)) (forall ((?i_294_221 Int)) (=> (<= ?a_296_219 ?i_294_221) (not (= ?p_298_217 (shift (c_sort (type_pointer ?t_49_299_216) ?p1_295_220) ?i_294_221))))))) (not_in_pset (c_sort (type_pointer ?t_49_299_216) ?p_298_217) (c_sort ?v_0 (pset_range_right (c_sort ?v_0 ?l_297_218) ?a_296_219))))))))))
-(assert (forall ((?t_50_305_222 c_type)) (forall ((?p_304_223 c_unique)) (forall ((?l_303_224 c_unique)) (forall ((?a_302_225 Int)) (let ((?v_0 (type_pset ?t_50_305_222))) (=> (not_in_pset (c_sort (type_pointer ?t_50_305_222) ?p_304_223) (c_sort ?v_0 (pset_range_right (c_sort ?v_0 ?l_303_224) ?a_302_225))) (forall ((?p1_301_226 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_50_305_222) ?p1_301_226) (c_sort ?v_0 ?l_303_224))) (forall ((?i_300_227 Int)) (=> (<= ?a_302_225 ?i_300_227) (not (= (shift (c_sort (type_pointer ?t_50_305_222) ?p1_301_226) ?i_300_227) ?p_304_223)))))))))))))
-(assert (forall ((?t_52_312_228 c_type)) (forall ((?t_51_311_229 c_type)) (forall ((?p_310_230 c_unique)) (forall ((?l_309_231 c_unique)) (forall ((?m_308_232 c_unique)) (let ((?v_0 (type_pointer ?t_51_311_229))) (=> (forall ((?p1_307_233 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_52_312_228) ?p1_307_233) (c_sort (type_pset ?t_52_312_228) ?l_309_231))) (forall ((?i_306_234 Int)) (let ((?v_1 (type_pointer ?t_52_312_228))) (not (= ?p_310_230 (acc (c_sort (type_memory ?v_0 ?t_52_312_228) ?m_308_232) (c_sort ?v_1 (shift (c_sort ?v_1 ?p1_307_233) ?i_306_234))))))))) (not_in_pset (c_sort ?v_0 ?p_310_230) (c_sort (type_pset ?t_51_311_229) (pset_acc_all (c_sort (type_pset ?t_52_312_228) ?l_309_231) (c_sort (type_memory ?v_0 ?t_52_312_228) ?m_308_232))))))))))))
-(assert (forall ((?t_54_319_235 c_type)) (forall ((?t_53_318_236 c_type)) (forall ((?p_317_237 c_unique)) (forall ((?l_316_238 c_unique)) (forall ((?m_315_239 c_unique)) (let ((?v_0 (type_pointer ?t_53_318_236))) (=> (not_in_pset (c_sort ?v_0 ?p_317_237) (c_sort (type_pset ?t_53_318_236) (pset_acc_all (c_sort (type_pset ?t_54_319_235) ?l_316_238) (c_sort (type_memory ?v_0 ?t_54_319_235) ?m_315_239)))) (forall ((?p1_314_240 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_54_319_235) ?p1_314_240) (c_sort (type_pset ?t_54_319_235) ?l_316_238))) (forall ((?i_313_241 Int)) (let ((?v_1 (type_pointer ?t_54_319_235))) (not (= (acc (c_sort (type_memory ?v_0 ?t_54_319_235) ?m_315_239) (c_sort ?v_1 (shift (c_sort ?v_1 ?p1_314_240) ?i_313_241))) ?p_317_237))))))))))))))
-(assert (forall ((?t_56_328_242 c_type)) (forall ((?t_55_327_243 c_type)) (forall ((?p_326_244 c_unique)) (forall ((?l_325_245 c_unique)) (forall ((?m_324_246 c_unique)) (forall ((?a_323_247 Int)) (forall ((?b_322_248 Int)) (let ((?v_0 (type_pointer ?t_55_327_243))) (=> (forall ((?p1_321_249 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_56_328_242) ?p1_321_249) (c_sort (type_pset ?t_56_328_242) ?l_325_245))) (forall ((?i_320_250 Int)) (let ((?v_1 (type_pointer ?t_56_328_242))) (=> (and (<= ?a_323_247 ?i_320_250) (<= ?i_320_250 ?b_322_248)) (not (= ?p_326_244 (acc (c_sort (type_memory ?v_0 ?t_56_328_242) ?m_324_246) (c_sort ?v_1 (shift (c_sort ?v_1 ?p1_321_249) ?i_320_250)))))))))) (not_in_pset (c_sort ?v_0 ?p_326_244) (c_sort (type_pset ?t_55_327_243) (pset_acc_range (c_sort (type_pset ?t_56_328_242) ?l_325_245) (c_sort (type_memory ?v_0 ?t_56_328_242) ?m_324_246) ?a_323_247 ?b_322_248)))))))))))))
-(assert (forall ((?t_58_337_251 c_type)) (forall ((?t_57_336_252 c_type)) (forall ((?p_335_253 c_unique)) (forall ((?l_334_254 c_unique)) (forall ((?m_333_255 c_unique)) (forall ((?a_332_256 Int)) (forall ((?b_331_257 Int)) (let ((?v_0 (type_pointer ?t_57_336_252))) (=> (not_in_pset (c_sort ?v_0 ?p_335_253) (c_sort (type_pset ?t_57_336_252) (pset_acc_range (c_sort (type_pset ?t_58_337_251) ?l_334_254) (c_sort (type_memory ?v_0 ?t_58_337_251) ?m_333_255) ?a_332_256 ?b_331_257))) (forall ((?p1_330_258 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_58_337_251) ?p1_330_258) (c_sort (type_pset ?t_58_337_251) ?l_334_254))) (forall ((?i_329_259 Int)) (let ((?v_1 (type_pointer ?t_58_337_251))) (=> (and (<= ?a_332_256 ?i_329_259) (<= ?i_329_259 ?b_331_257)) (not (= (acc (c_sort (type_memory ?v_0 ?t_58_337_251) ?m_333_255) (c_sort ?v_1 (shift (c_sort ?v_1 ?p1_330_258) ?i_329_259))) ?p_335_253)))))))))))))))))
-(assert (forall ((?t_60_345_260 c_type)) (forall ((?t_59_344_261 c_type)) (forall ((?p_343_262 c_unique)) (forall ((?l_342_263 c_unique)) (forall ((?m_341_264 c_unique)) (forall ((?a_340_265 Int)) (let ((?v_0 (type_pointer ?t_59_344_261))) (=> (forall ((?p1_339_266 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_60_345_260) ?p1_339_266) (c_sort (type_pset ?t_60_345_260) ?l_342_263))) (forall ((?i_338_267 Int)) (let ((?v_1 (type_pointer ?t_60_345_260))) (=> (<= ?i_338_267 ?a_340_265) (not (= ?p_343_262 (acc (c_sort (type_memory ?v_0 ?t_60_345_260) ?m_341_264) (c_sort ?v_1 (shift (c_sort ?v_1 ?p1_339_266) ?i_338_267)))))))))) (not_in_pset (c_sort ?v_0 ?p_343_262) (c_sort (type_pset ?t_59_344_261) (pset_acc_range_left (c_sort (type_pset ?t_60_345_260) ?l_342_263) (c_sort (type_memory ?v_0 ?t_60_345_260) ?m_341_264) ?a_340_265))))))))))))
-(assert (forall ((?t_62_353_268 c_type)) (forall ((?t_61_352_269 c_type)) (forall ((?p_351_270 c_unique)) (forall ((?l_350_271 c_unique)) (forall ((?m_349_272 c_unique)) (forall ((?a_348_273 Int)) (let ((?v_0 (type_pointer ?t_61_352_269))) (=> (not_in_pset (c_sort ?v_0 ?p_351_270) (c_sort (type_pset ?t_61_352_269) (pset_acc_range_left (c_sort (type_pset ?t_62_353_268) ?l_350_271) (c_sort (type_memory ?v_0 ?t_62_353_268) ?m_349_272) ?a_348_273))) (forall ((?p1_347_274 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_62_353_268) ?p1_347_274) (c_sort (type_pset ?t_62_353_268) ?l_350_271))) (forall ((?i_346_275 Int)) (let ((?v_1 (type_pointer ?t_62_353_268))) (=> (<= ?i_346_275 ?a_348_273) (not (= (acc (c_sort (type_memory ?v_0 ?t_62_353_268) ?m_349_272) (c_sort ?v_1 (shift (c_sort ?v_1 ?p1_347_274) ?i_346_275))) ?p_351_270))))))))))))))))
-(assert (forall ((?t_64_361_276 c_type)) (forall ((?t_63_360_277 c_type)) (forall ((?p_359_278 c_unique)) (forall ((?l_358_279 c_unique)) (forall ((?m_357_280 c_unique)) (forall ((?a_356_281 Int)) (let ((?v_0 (type_pointer ?t_63_360_277))) (=> (forall ((?p1_355_282 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_64_361_276) ?p1_355_282) (c_sort (type_pset ?t_64_361_276) ?l_358_279))) (forall ((?i_354_283 Int)) (let ((?v_1 (type_pointer ?t_64_361_276))) (=> (<= ?a_356_281 ?i_354_283) (not (= ?p_359_278 (acc (c_sort (type_memory ?v_0 ?t_64_361_276) ?m_357_280) (c_sort ?v_1 (shift (c_sort ?v_1 ?p1_355_282) ?i_354_283)))))))))) (not_in_pset (c_sort ?v_0 ?p_359_278) (c_sort (type_pset ?t_63_360_277) (pset_acc_range_right (c_sort (type_pset ?t_64_361_276) ?l_358_279) (c_sort (type_memory ?v_0 ?t_64_361_276) ?m_357_280) ?a_356_281))))))))))))
-(assert (forall ((?t_66_369_284 c_type)) (forall ((?t_65_368_285 c_type)) (forall ((?p_367_286 c_unique)) (forall ((?l_366_287 c_unique)) (forall ((?m_365_288 c_unique)) (forall ((?a_364_289 Int)) (let ((?v_0 (type_pointer ?t_65_368_285))) (=> (not_in_pset (c_sort ?v_0 ?p_367_286) (c_sort (type_pset ?t_65_368_285) (pset_acc_range_right (c_sort (type_pset ?t_66_369_284) ?l_366_287) (c_sort (type_memory ?v_0 ?t_66_369_284) ?m_365_288) ?a_364_289))) (forall ((?p1_363_290 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_66_369_284) ?p1_363_290) (c_sort (type_pset ?t_66_369_284) ?l_366_287))) (forall ((?i_362_291 Int)) (let ((?v_1 (type_pointer ?t_66_369_284))) (=> (<= ?a_364_289 ?i_362_291) (not (= (acc (c_sort (type_memory ?v_0 ?t_66_369_284) ?m_365_288) (c_sort ?v_1 (shift (c_sort ?v_1 ?p1_363_290) ?i_362_291))) ?p_367_286))))))))))))))))
-(assert (forall ((?t_68_376_292 c_type)) (forall ((?t_67_375_293 c_type)) (forall ((?a_374_294 c_unique)) (forall ((?l_373_295 c_unique)) (forall ((?m1_372_296 c_unique)) (forall ((?m2_371_297 c_unique)) (forall ((?m3_370_298 c_unique)) (let ((?v_1 (c_sort type_alloc_table ?a_374_294)) (?v_0 (type_memory ?t_68_376_292 ?t_67_375_293))) (let ((?v_4 (c_sort ?v_0 ?m1_372_296)) (?v_2 (c_sort ?v_0 ?m2_371_297)) (?v_3 (c_sort (type_pset ?t_67_375_293) ?l_373_295)) (?v_5 (c_sort ?v_0 ?m3_370_298))) (=> (not_assigns ?v_1 ?v_4 ?v_2 ?v_3) (=> (not_assigns ?v_1 ?v_2 ?v_5 ?v_3) (not_assigns ?v_1 ?v_4 ?v_5 ?v_3)))))))))))))
-(assert (forall ((?t_70_381_299 c_type)) (forall ((?t_69_380_300 c_type)) (forall ((?a_379_301 c_unique)) (forall ((?l_378_302 c_unique)) (forall ((?m_377_303 c_unique)) (let ((?v_0 (c_sort (type_memory ?t_70_381_299 ?t_69_380_300) ?m_377_303))) (not_assigns (c_sort type_alloc_table ?a_379_301) ?v_0 ?v_0 (c_sort (type_pset ?t_69_380_300) ?l_378_302)))))))))
-(declare-fun valid_acc (c_ssorted) Bool)
-(assert (forall ((?t_72_386_304 c_type)) (forall ((?t_71_385_305 c_type)) (forall ((?m1_384_306 c_unique)) (= (valid_acc (c_sort (type_memory (type_pointer ?t_71_385_305) ?t_72_386_304) ?m1_384_306)) (forall ((?p_383_307 c_unique)) (forall ((?a_382_308 c_unique)) (let ((?v_1 (type_pointer ?t_71_385_305)) (?v_0 (c_sort type_alloc_table ?a_382_308)) (?v_2 (c_sort (type_pointer ?t_72_386_304) ?p_383_307))) (=> (valid ?v_0 ?v_2) (valid ?v_0 (c_sort ?v_1 (acc (c_sort (type_memory ?v_1 ?t_72_386_304) ?m1_384_306) ?v_2))))))))))))
-(declare-fun valid_acc_range (c_ssorted Int) Bool)
-(assert (forall ((?t_74_392_309 c_type)) (forall ((?t_73_391_310 c_type)) (forall ((?m1_390_311 c_unique)) (forall ((?size_389_312 Int)) (= (valid_acc_range (c_sort (type_memory (type_pointer ?t_73_391_310) ?t_74_392_309) ?m1_390_311) ?size_389_312) (forall ((?p_388_313 c_unique)) (forall ((?a_387_314 c_unique)) (let ((?v_1 (type_pointer ?t_73_391_310)) (?v_0 (c_sort type_alloc_table ?a_387_314)) (?v_2 (c_sort (type_pointer ?t_74_392_309) ?p_388_313))) (=> (valid ?v_0 ?v_2) (valid_range ?v_0 (c_sort ?v_1 (acc (c_sort (type_memory ?v_1 ?t_74_392_309) ?m1_390_311) ?v_2)) 0 (- ?size_389_312 1))))))))))))
-(assert (forall ((?t_76_398_315 c_type)) (forall ((?t_75_397_316 c_type)) (forall ((?m1_396_317 c_unique)) (forall ((?size_395_318 Int)) (forall ((?p_394_319 c_unique)) (forall ((?a_393_320 c_unique)) (let ((?v_1 (type_pointer ?t_75_397_316))) (let ((?v_2 (c_sort (type_memory ?v_1 ?t_76_398_315) ?m1_396_317)) (?v_0 (c_sort type_alloc_table ?a_393_320)) (?v_3 (c_sort (type_pointer ?t_76_398_315) ?p_394_319))) (=> (valid_acc_range ?v_2 ?size_395_318) (=> (valid ?v_0 ?v_3) (valid ?v_0 (c_sort ?v_1 (acc ?v_2 ?v_3))))))))))))))
-(declare-fun separation1 (c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_78_404_321 c_type)) (forall ((?t_77_403_322 c_type)) (forall ((?m1_402_323 c_unique)) (forall ((?m2_401_324 c_unique)) (let ((?v_0 (type_memory (type_pointer ?t_77_403_322) ?t_78_404_321))) (= (separation1 (c_sort ?v_0 ?m1_402_323) (c_sort ?v_0 ?m2_401_324)) (forall ((?p_400_325 c_unique)) (forall ((?a_399_326 c_unique)) (let ((?v_1 (type_pointer ?t_77_403_322)) (?v_2 (c_sort (type_pointer ?t_78_404_321) ?p_400_325))) (=> (valid (c_sort type_alloc_table ?a_399_326) ?v_2) (not (= (base_addr (c_sort ?v_1 (acc (c_sort ?v_0 ?m1_402_323) ?v_2))) (base_addr (c_sort ?v_1 (acc (c_sort ?v_0 ?m2_401_324) ?v_2))))))))))))))))
-(declare-fun separation1_range1 (c_ssorted c_ssorted Int) Bool)
-(assert (forall ((?t_80_412_327 c_type)) (forall ((?t_79_411_328 c_type)) (forall ((?m1_410_329 c_unique)) (forall ((?m2_409_330 c_unique)) (forall ((?size_408_331 Int)) (let ((?v_0 (type_memory (type_pointer ?t_79_411_328) ?t_80_412_327))) (= (separation1_range1 (c_sort ?v_0 ?m1_410_329) (c_sort ?v_0 ?m2_409_330) ?size_408_331) (forall ((?p_407_332 c_unique)) (forall ((?a_406_333 c_unique)) (=> (valid (c_sort type_alloc_table ?a_406_333) (c_sort (type_pointer ?t_80_412_327) ?p_407_332)) (forall ((?i_405_334 Int)) (let ((?v_1 (type_pointer ?t_79_411_328)) (?v_2 (type_pointer ?t_80_412_327))) (let ((?v_3 (c_sort ?v_2 ?p_407_332))) (=> (and (<= 0 ?i_405_334) (< ?i_405_334 ?size_408_331)) (not (= (base_addr (c_sort ?v_1 (acc (c_sort ?v_0 ?m1_410_329) (c_sort ?v_2 (shift ?v_3 ?i_405_334))))) (base_addr (c_sort ?v_1 (acc (c_sort ?v_0 ?m2_409_330) ?v_3))))))))))))))))))))
-(declare-fun separation1_range (c_ssorted Int) Bool)
-(assert (forall ((?t_82_420_335 c_type)) (forall ((?t_81_419_336 c_type)) (forall ((?m_418_337 c_unique)) (forall ((?size_417_338 Int)) (= (separation1_range (c_sort (type_memory (type_pointer ?t_81_419_336) ?t_82_420_335) ?m_418_337) ?size_417_338) (forall ((?p_416_339 c_unique)) (forall ((?a_415_340 c_unique)) (=> (valid (c_sort type_alloc_table ?a_415_340) (c_sort (type_pointer ?t_82_420_335) ?p_416_339)) (forall ((?i1_414_341 Int)) (forall ((?i2_413_342 Int)) (let ((?v_0 (type_pointer ?t_81_419_336))) (let ((?v_2 (c_sort (type_memory ?v_0 ?t_82_420_335) ?m_418_337)) (?v_1 (type_pointer ?t_82_420_335))) (let ((?v_3 (c_sort ?v_1 ?p_416_339))) (=> (and (<= 0 ?i1_414_341) (< ?i1_414_341 ?size_417_338)) (=> (and (<= 0 ?i2_413_342) (< ?i2_413_342 ?size_417_338)) (=> (not (= ?i1_414_341 ?i2_413_342)) (not (= (base_addr (c_sort ?v_0 (acc ?v_2 (c_sort ?v_1 (shift ?v_3 ?i1_414_341))))) (base_addr (c_sort ?v_0 (acc ?v_2 (c_sort ?v_1 (shift ?v_3 ?i2_413_342))))))))))))))))))))))))
-(declare-fun separation2 (c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_84_426_343 c_type)) (forall ((?t_83_425_344 c_type)) (forall ((?m1_424_345 c_unique)) (forall ((?m2_423_346 c_unique)) (let ((?v_0 (type_memory (type_pointer ?t_83_425_344) ?t_84_426_343))) (= (separation2 (c_sort ?v_0 ?m1_424_345) (c_sort ?v_0 ?m2_423_346)) (forall ((?p1_422_347 c_unique)) (forall ((?p2_421_348 c_unique)) (let ((?v_1 (type_pointer ?t_83_425_344)) (?v_2 (type_pointer ?t_84_426_343))) (=> (not (= ?p1_422_347 ?p2_421_348)) (not (= (base_addr (c_sort ?v_1 (acc (c_sort ?v_0 ?m1_424_345) (c_sort ?v_2 ?p1_422_347)))) (base_addr (c_sort ?v_1 (acc (c_sort ?v_0 ?m2_423_346) (c_sort ?v_2 ?p2_421_348)))))))))))))))))
-(declare-fun separation2_range1 (c_ssorted c_ssorted Int) Bool)
-(assert (forall ((?t_86_435_349 c_type)) (forall ((?t_85_434_350 c_type)) (forall ((?m1_433_351 c_unique)) (forall ((?m2_432_352 c_unique)) (forall ((?size_431_353 Int)) (let ((?v_0 (type_memory (type_pointer ?t_85_434_350) ?t_86_435_349))) (= (separation2_range1 (c_sort ?v_0 ?m1_433_351) (c_sort ?v_0 ?m2_432_352) ?size_431_353) (forall ((?p_430_354 c_unique)) (forall ((?q_429_355 c_unique)) (forall ((?a_428_356 c_unique)) (forall ((?i_427_357 Int)) (let ((?v_1 (type_pointer ?t_85_434_350)) (?v_2 (type_pointer ?t_86_435_349))) (=> (and (<= 0 ?i_427_357) (< ?i_427_357 ?size_431_353)) (not (= (base_addr (c_sort ?v_1 (acc (c_sort ?v_0 ?m1_433_351) (c_sort ?v_2 (shift (c_sort ?v_2 ?p_430_354) ?i_427_357))))) (base_addr (c_sort ?v_1 (acc (c_sort ?v_0 ?m2_432_352) (c_sort ?v_2 ?q_429_355))))))))))))))))))))
-(declare-fun on_heap (c_ssorted c_ssorted) Bool)
-(declare-fun on_stack (c_ssorted c_ssorted) Bool)
-(declare-fun fresh (c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_87_438_358 c_type)) (forall ((?a_437_359 c_unique)) (forall ((?p_436_360 c_unique)) (let ((?v_0 (c_sort type_alloc_table ?a_437_359)) (?v_1 (c_sort (type_pointer ?t_87_438_358) ?p_436_360))) (=> (fresh ?v_0 ?v_1) (not (valid ?v_0 ?v_1))))))))
-(assert (forall ((?t_88_442_361 c_type)) (forall ((?a_441_362 c_unique)) (forall ((?p_440_363 c_unique)) (=> (fresh (c_sort type_alloc_table ?a_441_362) (c_sort (type_pointer ?t_88_442_361) ?p_440_363)) (forall ((?i_439_364 Int)) (let ((?v_0 (type_pointer ?t_88_442_361))) (not (valid (c_sort type_alloc_table ?a_441_362) (c_sort ?v_0 (shift (c_sort ?v_0 ?p_440_363) ?i_439_364)))))))))))
-(declare-fun alloc_extends (c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_89_446_365 c_type)) (forall ((?a1_445_366 c_unique)) (forall ((?a2_444_367 c_unique)) (=> (alloc_extends (c_sort type_alloc_table ?a1_445_366) (c_sort type_alloc_table ?a2_444_367)) (forall ((?q_443_368 c_unique)) (let ((?v_0 (c_sort (type_pointer ?t_89_446_365) ?q_443_368))) (=> (valid (c_sort type_alloc_table ?a1_445_366) ?v_0) (valid (c_sort type_alloc_table ?a2_444_367) ?v_0)))))))))
-(assert (forall ((?t_90_451_369 c_type)) (forall ((?a1_450_370 c_unique)) (forall ((?a2_449_371 c_unique)) (=> (alloc_extends (c_sort type_alloc_table ?a1_450_370) (c_sort type_alloc_table ?a2_449_371)) (forall ((?q_448_372 c_unique)) (forall ((?i_447_373 Int)) (let ((?v_0 (c_sort (type_pointer ?t_90_451_369) ?q_448_372))) (=> (valid_index (c_sort type_alloc_table ?a1_450_370) ?v_0 ?i_447_373) (valid_index (c_sort type_alloc_table ?a2_449_371) ?v_0 ?i_447_373))))))))))
-(assert (forall ((?t_91_457_374 c_type)) (forall ((?a1_456_375 c_unique)) (forall ((?a2_455_376 c_unique)) (=> (alloc_extends (c_sort type_alloc_table ?a1_456_375) (c_sort type_alloc_table ?a2_455_376)) (forall ((?q_454_377 c_unique)) (forall ((?i_453_378 Int)) (forall ((?j_452_379 Int)) (let ((?v_0 (c_sort (type_pointer ?t_91_457_374) ?q_454_377))) (=> (valid_range (c_sort type_alloc_table ?a1_456_375) ?v_0 ?i_453_378 ?j_452_379) (valid_range (c_sort type_alloc_table ?a2_455_376) ?v_0 ?i_453_378 ?j_452_379)))))))))))
-(assert (forall ((?a_458_380 c_unique)) (let ((?v_0 (c_sort type_alloc_table ?a_458_380))) (alloc_extends ?v_0 ?v_0))))
-(assert (forall ((?a1_461_381 c_unique)) (forall ((?a2_460_382 c_unique)) (forall ((?a3_459_383 c_unique)) (let ((?v_1 (c_sort type_alloc_table ?a1_461_381)) (?v_0 (c_sort type_alloc_table ?a2_460_382)) (?v_2 (c_sort type_alloc_table ?a3_459_383))) (=> (alloc_extends ?v_1 ?v_0) (=> (alloc_extends ?v_0 ?v_2) (alloc_extends ?v_1 ?v_2))))))))
-(declare-fun free_stack (c_ssorted c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_92_466_384 c_type)) (forall ((?a1_465_385 c_unique)) (forall ((?a2_464_386 c_unique)) (forall ((?a3_463_387 c_unique)) (=> (free_stack (c_sort type_alloc_table ?a1_465_385) (c_sort type_alloc_table ?a2_464_386) (c_sort type_alloc_table ?a3_463_387)) (forall ((?p_462_388 c_unique)) (let ((?v_0 (c_sort type_alloc_table ?a2_464_386)) (?v_1 (c_sort (type_pointer ?t_92_466_384) ?p_462_388))) (=> (valid ?v_0 ?v_1) (=> (on_heap ?v_0 ?v_1) (valid (c_sort type_alloc_table ?a3_463_387) ?v_1)))))))))))
-(assert (forall ((?t_93_471_389 c_type)) (forall ((?a1_470_390 c_unique)) (forall ((?a2_469_391 c_unique)) (forall ((?a3_468_392 c_unique)) (=> (free_stack (c_sort type_alloc_table ?a1_470_390) (c_sort type_alloc_table ?a2_469_391) (c_sort type_alloc_table ?a3_468_392)) (forall ((?p_467_393 c_unique)) (let ((?v_0 (c_sort type_alloc_table ?a1_470_390)) (?v_1 (c_sort (type_pointer ?t_93_471_389) ?p_467_393))) (=> (valid ?v_0 ?v_1) (=> (on_stack ?v_0 ?v_1) (valid (c_sort type_alloc_table ?a3_468_392) ?v_1)))))))))))
-(declare-fun null () c_unique)
-(assert (forall ((?t_94_475_394 c_type)) (forall ((?a_474_395 c_unique)) (not (valid (c_sort type_alloc_table ?a_474_395) (c_sort (type_pointer ?t_94_475_394) null))))))
-(declare-fun type_global () c_type)
-(assert (not (forall ((?alloc c_unique)) (forall ((?b Int)) (forall ((?t c_unique)) (=> (and (= ?b 0) (valid_range (c_sort type_alloc_table ?alloc) (c_sort (type_pointer type_global) ?t) 0 9)) (forall ((?b0 Int)) (=> (= ?b0 (+ ?b 1)) (forall ((?result c_unique)) (let ((?v_0 (type_pointer type_global))) (let ((?v_2 (c_sort ?v_0 ?result))) (let ((?v_1 (offset ?v_2))) (=> (= ?result (shift (c_sort ?v_0 ?t) ?b)) (and (<= 0 ?v_1) (< ?v_1 (block_length (c_sort type_alloc_table ?alloc) ?v_2))))))))))))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/quantifiers/smtlibf957ea.smt2 b/test/regress/regress0/quantifiers/smtlibf957ea.smt2
deleted file mode 100644
index aa82255ef..000000000
--- a/test/regress/regress0/quantifiers/smtlibf957ea.smt2
+++ /dev/null
@@ -1,212 +0,0 @@
-(set-logic AUFLIRA)
-(set-info :source |http://proval.lri.fr/why-benchmarks |)
-(set-info :smt-lib-version 2.0)
-(set-info :category "industrial")
-(set-info :status unsat)
-(declare-sort Unit 0)
-(declare-sort c_unique 0)
-(declare-sort c_ssorted 0)
-(declare-sort c_type 0)
-(declare-sort c_Boolean 0)
-(declare-fun whydivide (Int Int) Int)
-(declare-fun % (Int Int) Int)
-(declare-fun c_sort (c_type c_unique) c_ssorted)
-(declare-fun c_Boolean_true () c_Boolean)
-(declare-fun c_Boolean_false () c_Boolean)
-(assert (forall ((?b_22_1 c_Boolean)) (or (= c_Boolean_true ?b_22_1) (= c_Boolean_false ?b_22_1))))
-(assert (not (= c_Boolean_true c_Boolean_false)))
-(declare-fun int2U (Int) c_unique)
-(declare-fun ss2Int (c_ssorted) Int)
-(declare-fun real2U (Real) c_unique)
-(declare-fun ss2Real (c_ssorted) Real)
-(declare-fun bool2U (c_Boolean) c_unique)
-(declare-fun ss2Bool (c_ssorted) c_Boolean)
-(declare-fun c_int () c_type)
-(declare-fun c_bool () c_type)
-(declare-fun c_real () c_type)
-(declare-fun c_unit () c_type)
-(declare-fun c_ref (c_unique) c_unique)
-(assert (forall ((?t_21_2 c_type)) (forall ((?x_20_3 c_unique)) (forall ((?y_19_4 c_unique)) (=> (= (c_sort ?t_21_2 ?x_20_3) (c_sort ?t_21_2 ?y_19_4)) (= ?x_20_3 ?y_19_4))))))
-(assert (forall ((?x_18_5 Int)) (= (ss2Int (c_sort c_int (int2U ?x_18_5))) ?x_18_5)))
-(assert (forall ((?x_17_6 Int)) (forall ((?y_16_7 Int)) (=> (= (int2U ?x_17_6) (int2U ?y_16_7)) (= ?x_17_6 ?y_16_7)))))
-(assert (forall ((?x_15_8 Real)) (forall ((?y_14_9 Real)) (=> (= (real2U ?x_15_8) (real2U ?y_14_9)) (= ?x_15_8 ?y_14_9)))))
-(assert (forall ((?x_13_10 c_Boolean)) (forall ((?y_12_11 c_Boolean)) (=> (= (bool2U ?x_13_10) (bool2U ?y_12_11)) (= ?x_13_10 ?y_12_11)))))
-(assert (forall ((?x_11_12 c_ssorted)) (forall ((?y_10_13 c_ssorted)) (=> (= (ss2Int ?x_11_12) (ss2Int ?y_10_13)) (= ?x_11_12 ?y_10_13)))))
-(assert (forall ((?x_9_14 c_ssorted)) (forall ((?y_8_15 c_ssorted)) (=> (= (ss2Real ?x_9_14) (ss2Real ?y_8_15)) (= ?x_9_14 ?y_8_15)))))
-(assert (forall ((?x_7_16 c_ssorted)) (forall ((?y_6_17 c_ssorted)) (=> (= (ss2Bool ?x_7_16) (ss2Bool ?y_6_17)) (= ?x_7_16 ?y_6_17)))))
-(assert (forall ((?x_5_18 Real)) (= (ss2Real (c_sort c_real (real2U ?x_5_18))) ?x_5_18)))
-(assert (forall ((?x_4_19 c_Boolean)) (= (ss2Bool (c_sort c_bool (bool2U ?x_4_19))) ?x_4_19)))
-(assert (forall ((?x_3_20 c_unique)) (= (int2U (ss2Int (c_sort c_int ?x_3_20))) ?x_3_20)))
-(assert (forall ((?x_2_21 c_unique)) (= (real2U (ss2Real (c_sort c_real ?x_2_21))) ?x_2_21)))
-(assert (forall ((?x_1_22 c_unique)) (= (bool2U (ss2Bool (c_sort c_bool ?x_1_22))) ?x_1_22)))
-(declare-fun eq_int (Int Int) Bool)
-(declare-fun neq_int (Int Int) Bool)
-(declare-fun lt_int_bool (Int Int) c_Boolean)
-(declare-fun le_int_bool (Int Int) c_Boolean)
-(declare-fun gt_int_bool (Int Int) c_Boolean)
-(declare-fun ge_int_bool (Int Int) c_Boolean)
-(declare-fun eq_int_bool (Int Int) c_Boolean)
-(declare-fun neq_int_bool (Int Int) c_Boolean)
-(assert (forall ((?x_40_23 Int)) (forall ((?y_39_24 Int)) (= (= (lt_int_bool ?x_40_23 ?y_39_24) c_Boolean_true) (< ?x_40_23 ?y_39_24)))))
-(assert (forall ((?x_42_25 Int)) (forall ((?y_41_26 Int)) (= (= (le_int_bool ?x_42_25 ?y_41_26) c_Boolean_true) (<= ?x_42_25 ?y_41_26)))))
-(assert (forall ((?x_44_27 Int)) (forall ((?y_43_28 Int)) (= (= (gt_int_bool ?x_44_27 ?y_43_28) c_Boolean_true) (> ?x_44_27 ?y_43_28)))))
-(assert (forall ((?x_46_29 Int)) (forall ((?y_45_30 Int)) (= (= (ge_int_bool ?x_46_29 ?y_45_30) c_Boolean_true) (>= ?x_46_29 ?y_45_30)))))
-(assert (forall ((?x_48_31 Int)) (forall ((?y_47_32 Int)) (= (= (eq_int_bool ?x_48_31 ?y_47_32) c_Boolean_true) (= ?x_48_31 ?y_47_32)))))
-(assert (forall ((?x_50_33 Int)) (forall ((?y_49_34 Int)) (= (= (neq_int_bool ?x_50_33 ?y_49_34) c_Boolean_true) (not (= ?x_50_33 ?y_49_34))))))
-(declare-fun add_real (Real Real) Real)
-(declare-fun sub_real (Real Real) Real)
-(declare-fun mul_real (Real Real) Real)
-(declare-fun div_real (Real Real) Real)
-(declare-fun pow_real (Real Real) Real)
-(declare-fun neg_real (Real) Real)
-(declare-fun abs_real (Real) Real)
-(declare-fun sqrt_real (Real) Real)
-(declare-fun real_of_int (Int) Real)
-(declare-fun int_of_real (Real) Int)
-(declare-fun lt_real (Real Real) Bool)
-(declare-fun le_real (Real Real) Bool)
-(declare-fun gt_real (Real Real) Bool)
-(declare-fun ge_real (Real Real) Bool)
-(declare-fun eq_real (Real Real) Bool)
-(declare-fun neq_real (Real Real) Bool)
-(declare-fun eq_bool (c_Boolean c_Boolean) Bool)
-(declare-fun neq_bool (c_Boolean c_Boolean) Bool)
-(declare-fun eq_unit (c_ssorted c_ssorted) Bool)
-(declare-fun neq_unit (c_ssorted c_ssorted) Bool)
-(declare-fun smtlib__ite (c_Boolean c_ssorted c_ssorted) c_unique)
-(assert (forall ((?t_1_76_35 c_type)) (forall ((?x_75_36 c_unique)) (forall ((?y_74_37 c_unique)) (= (smtlib__ite c_Boolean_true (c_sort ?t_1_76_35 ?x_75_36) (c_sort ?t_1_76_35 ?y_74_37)) ?x_75_36)))))
-(assert (forall ((?t_2_79_38 c_type)) (forall ((?x_78_39 c_unique)) (forall ((?y_77_40 c_unique)) (= (smtlib__ite c_Boolean_false (c_sort ?t_2_79_38 ?x_78_39) (c_sort ?t_2_79_38 ?y_77_40)) ?y_77_40)))))
-(declare-fun bw_compl (Int) Int)
-(declare-fun bw_and (Int Int) Int)
-(declare-fun bw_xor (Int Int) Int)
-(declare-fun bw_or (Int Int) Int)
-(declare-fun lsl (Int Int) Int)
-(declare-fun lsr (Int Int) Int)
-(declare-fun non_int (Int) Int)
-(declare-fun type_pointer (c_type) c_type)
-(declare-fun type_addr (c_type) c_type)
-(declare-fun type_alloc_table () c_type)
-(declare-fun block_length (c_ssorted c_ssorted) Int)
-(declare-fun base_addr (c_ssorted) c_unique)
-(declare-fun offset (c_ssorted) Int)
-(declare-fun shift (c_ssorted Int) c_unique)
-(declare-fun sub_pointer (c_ssorted c_ssorted) Int)
-(declare-fun lt_pointer (c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_3_88_41 c_type)) (forall ((?p1_87_42 c_unique)) (forall ((?p2_86_43 c_unique)) (let ((?v_0 (type_pointer ?t_3_88_41))) (let ((?v_1 (c_sort ?v_0 ?p1_87_42)) (?v_2 (c_sort ?v_0 ?p2_86_43))) (= (lt_pointer ?v_1 ?v_2) (and (= (base_addr ?v_1) (base_addr ?v_2)) (< (offset ?v_1) (offset ?v_2))))))))))
-(declare-fun le_pointer (c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_4_91_44 c_type)) (forall ((?p1_90_45 c_unique)) (forall ((?p2_89_46 c_unique)) (let ((?v_0 (type_pointer ?t_4_91_44))) (let ((?v_1 (c_sort ?v_0 ?p1_90_45)) (?v_2 (c_sort ?v_0 ?p2_89_46))) (= (le_pointer ?v_1 ?v_2) (and (= (base_addr ?v_1) (base_addr ?v_2)) (<= (offset ?v_1) (offset ?v_2))))))))))
-(declare-fun gt_pointer (c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_5_94_47 c_type)) (forall ((?p1_93_48 c_unique)) (forall ((?p2_92_49 c_unique)) (let ((?v_0 (type_pointer ?t_5_94_47))) (let ((?v_1 (c_sort ?v_0 ?p1_93_48)) (?v_2 (c_sort ?v_0 ?p2_92_49))) (= (gt_pointer ?v_1 ?v_2) (and (= (base_addr ?v_1) (base_addr ?v_2)) (> (offset ?v_1) (offset ?v_2))))))))))
-(declare-fun ge_pointer (c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_6_97_50 c_type)) (forall ((?p1_96_51 c_unique)) (forall ((?p2_95_52 c_unique)) (let ((?v_0 (type_pointer ?t_6_97_50))) (let ((?v_1 (c_sort ?v_0 ?p1_96_51)) (?v_2 (c_sort ?v_0 ?p2_95_52))) (= (ge_pointer ?v_1 ?v_2) (and (= (base_addr ?v_1) (base_addr ?v_2)) (>= (offset ?v_1) (offset ?v_2))))))))))
-(declare-fun valid (c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_7_104_53 c_type)) (forall ((?a_103_54 c_unique)) (forall ((?p_102_55 c_unique)) (let ((?v_2 (c_sort type_alloc_table ?a_103_54)) (?v_0 (c_sort (type_pointer ?t_7_104_53) ?p_102_55))) (let ((?v_1 (offset ?v_0))) (= (valid ?v_2 ?v_0) (and (<= 0 ?v_1) (< ?v_1 (block_length ?v_2 ?v_0))))))))))
-(declare-fun valid_index (c_ssorted c_ssorted Int) Bool)
-(assert (forall ((?t_8_108_56 c_type)) (forall ((?a_107_57 c_unique)) (forall ((?p_106_58 c_unique)) (forall ((?i_105_59 Int)) (let ((?v_2 (c_sort type_alloc_table ?a_107_57)) (?v_0 (c_sort (type_pointer ?t_8_108_56) ?p_106_58))) (let ((?v_1 (+ (offset ?v_0) ?i_105_59))) (= (valid_index ?v_2 ?v_0 ?i_105_59) (and (<= 0 ?v_1) (< ?v_1 (block_length ?v_2 ?v_0)))))))))))
-(declare-fun valid_range (c_ssorted c_ssorted Int Int) Bool)
-(assert (forall ((?t_9_113_60 c_type)) (forall ((?a_112_61 c_unique)) (forall ((?p_111_62 c_unique)) (forall ((?i_110_63 Int)) (forall ((?j_109_64 Int)) (let ((?v_2 (c_sort type_alloc_table ?a_112_61)) (?v_0 (c_sort (type_pointer ?t_9_113_60) ?p_111_62))) (let ((?v_1 (offset ?v_0))) (= (valid_range ?v_2 ?v_0 ?i_110_63 ?j_109_64) (and (<= 0 (+ ?v_1 ?i_110_63)) (< (+ ?v_1 ?j_109_64) (block_length ?v_2 ?v_0))))))))))))
-(assert (forall ((?t_10_116_65 c_type)) (forall ((?p_115_66 c_unique)) (forall ((?i_114_67 Int)) (let ((?v_0 (type_pointer ?t_10_116_65))) (let ((?v_1 (c_sort ?v_0 ?p_115_66))) (= (offset (c_sort ?v_0 (shift ?v_1 ?i_114_67))) (+ (offset ?v_1) ?i_114_67))))))))
-(assert (forall ((?t_11_118_68 c_type)) (forall ((?p_117_69 c_unique)) (= (shift (c_sort (type_pointer ?t_11_118_68) ?p_117_69) 0) ?p_117_69))))
-(assert (forall ((?t_12_122_70 c_type)) (forall ((?p_121_71 c_unique)) (forall ((?i_120_72 Int)) (forall ((?j_119_73 Int)) (let ((?v_0 (type_pointer ?t_12_122_70))) (let ((?v_1 (c_sort ?v_0 ?p_121_71))) (= (shift (c_sort ?v_0 (shift ?v_1 ?i_120_72)) ?j_119_73) (shift ?v_1 (+ ?i_120_72 ?j_119_73))))))))))
-(assert (forall ((?t_13_125_74 c_type)) (forall ((?p_124_75 c_unique)) (forall ((?i_123_76 Int)) (let ((?v_0 (type_pointer ?t_13_125_74))) (let ((?v_1 (c_sort ?v_0 ?p_124_75))) (= (base_addr (c_sort ?v_0 (shift ?v_1 ?i_123_76))) (base_addr ?v_1))))))))
-(assert (forall ((?t_14_129_77 c_type)) (forall ((?a_128_78 c_unique)) (forall ((?p_127_79 c_unique)) (forall ((?i_126_80 Int)) (let ((?v_1 (c_sort type_alloc_table ?a_128_78)) (?v_0 (type_pointer ?t_14_129_77))) (let ((?v_2 (c_sort ?v_0 ?p_127_79))) (= (block_length ?v_1 (c_sort ?v_0 (shift ?v_2 ?i_126_80))) (block_length ?v_1 ?v_2)))))))))
-(assert (forall ((?t_15_133_81 c_type)) (forall ((?a_132_82 c_unique)) (forall ((?p1_131_83 c_unique)) (forall ((?p2_130_84 c_unique)) (let ((?v_0 (type_pointer ?t_15_133_81))) (let ((?v_1 (c_sort ?v_0 ?p1_131_83)) (?v_3 (c_sort ?v_0 ?p2_130_84)) (?v_2 (c_sort type_alloc_table ?a_132_82))) (=> (= (base_addr ?v_1) (base_addr ?v_3)) (= (block_length ?v_2 ?v_1) (block_length ?v_2 ?v_3))))))))))
-(assert (forall ((?t_16_136_85 c_type)) (forall ((?p1_135_86 c_unique)) (forall ((?p2_134_87 c_unique)) (let ((?v_0 (type_pointer ?t_16_136_85))) (let ((?v_1 (c_sort ?v_0 ?p1_135_86)) (?v_2 (c_sort ?v_0 ?p2_134_87))) (=> (and (= (base_addr ?v_1) (base_addr ?v_2)) (= (offset ?v_1) (offset ?v_2))) (= ?p1_135_86 ?p2_134_87))))))))
-(assert (forall ((?t_17_139_88 c_type)) (forall ((?p1_138_89 c_unique)) (forall ((?p2_137_90 c_unique)) (let ((?v_0 (type_pointer ?t_17_139_88))) (let ((?v_1 (c_sort ?v_0 ?p1_138_89)) (?v_2 (c_sort ?v_0 ?p2_137_90))) (=> (= ?p1_138_89 ?p2_137_90) (and (= (base_addr ?v_1) (base_addr ?v_2)) (= (offset ?v_1) (offset ?v_2))))))))))
-(assert (forall ((?t_18_144_91 c_type)) (forall ((?p1_143_92 c_unique)) (forall ((?p2_142_93 c_unique)) (forall ((?i_141_94 Int)) (forall ((?j_140_95 Int)) (let ((?v_0 (type_pointer ?t_18_144_91))) (let ((?v_1 (c_sort ?v_0 ?p1_143_92)) (?v_2 (c_sort ?v_0 ?p2_142_93))) (=> (not (= (base_addr ?v_1) (base_addr ?v_2))) (not (= (shift ?v_1 ?i_141_94) (shift ?v_2 ?j_140_95))))))))))))
-(assert (forall ((?t_19_149_96 c_type)) (forall ((?p1_148_97 c_unique)) (forall ((?p2_147_98 c_unique)) (forall ((?i_146_99 Int)) (forall ((?j_145_100 Int)) (let ((?v_0 (type_pointer ?t_19_149_96))) (let ((?v_1 (c_sort ?v_0 ?p1_148_97)) (?v_2 (c_sort ?v_0 ?p2_147_98))) (=> (not (= (+ (offset ?v_1) ?i_146_99) (+ (offset ?v_2) ?j_145_100))) (not (= (shift ?v_1 ?i_146_99) (shift ?v_2 ?j_145_100))))))))))))
-(assert (forall ((?t_20_154_101 c_type)) (forall ((?p1_153_102 c_unique)) (forall ((?p2_152_103 c_unique)) (forall ((?i_151_104 Int)) (forall ((?j_150_105 Int)) (let ((?v_0 (type_pointer ?t_20_154_101))) (let ((?v_1 (c_sort ?v_0 ?p1_153_102)) (?v_2 (c_sort ?v_0 ?p2_152_103))) (=> (= (base_addr ?v_1) (base_addr ?v_2)) (=> (= (+ (offset ?v_1) ?i_151_104) (+ (offset ?v_2) ?j_150_105)) (= (shift ?v_1 ?i_151_104) (shift ?v_2 ?j_150_105))))))))))))
-(assert (forall ((?t_21_158_106 c_type)) (forall ((?a_157_107 c_unique)) (forall ((?p_156_108 c_unique)) (forall ((?i_155_109 Int)) (let ((?v_0 (c_sort type_alloc_table ?a_157_107)) (?v_1 (type_pointer ?t_21_158_106))) (let ((?v_2 (c_sort ?v_1 ?p_156_108))) (=> (valid_index ?v_0 ?v_2 ?i_155_109) (valid ?v_0 (c_sort ?v_1 (shift ?v_2 ?i_155_109)))))))))))
-(assert (forall ((?t_22_164_110 c_type)) (forall ((?a_163_111 c_unique)) (forall ((?p_162_112 c_unique)) (forall ((?i_161_113 Int)) (forall ((?j_160_114 Int)) (forall ((?k_159_115 Int)) (let ((?v_0 (c_sort type_alloc_table ?a_163_111)) (?v_1 (type_pointer ?t_22_164_110))) (let ((?v_2 (c_sort ?v_1 ?p_162_112))) (=> (valid_range ?v_0 ?v_2 ?i_161_113 ?j_160_114) (=> (and (<= ?i_161_113 ?k_159_115) (<= ?k_159_115 ?j_160_114)) (valid ?v_0 (c_sort ?v_1 (shift ?v_2 ?k_159_115))))))))))))))
-(assert (forall ((?t_23_169_116 c_type)) (forall ((?a_168_117 c_unique)) (forall ((?p_167_118 c_unique)) (forall ((?i_166_119 Int)) (forall ((?j_165_120 Int)) (let ((?v_0 (c_sort type_alloc_table ?a_168_117)) (?v_1 (c_sort (type_pointer ?t_23_169_116) ?p_167_118))) (=> (valid_range ?v_0 ?v_1 ?i_166_119 ?j_165_120) (=> (and (<= ?i_166_119 0) (<= 0 ?j_165_120)) (valid ?v_0 ?v_1))))))))))
-(assert (forall ((?t_24_175_121 c_type)) (forall ((?a_174_122 c_unique)) (forall ((?p_173_123 c_unique)) (forall ((?i_172_124 Int)) (forall ((?j_171_125 Int)) (forall ((?k_170_126 Int)) (let ((?v_0 (c_sort type_alloc_table ?a_174_122)) (?v_1 (c_sort (type_pointer ?t_24_175_121) ?p_173_123))) (=> (valid_range ?v_0 ?v_1 ?i_172_124 ?j_171_125) (=> (and (<= ?i_172_124 ?k_170_126) (<= ?k_170_126 ?j_171_125)) (valid_index ?v_0 ?v_1 ?k_170_126)))))))))))
-(assert (forall ((?t_25_178_127 c_type)) (forall ((?p1_177_128 c_unique)) (forall ((?p2_176_129 c_unique)) (let ((?v_0 (type_pointer ?t_25_178_127))) (let ((?v_1 (c_sort ?v_0 ?p1_177_128)) (?v_2 (c_sort ?v_0 ?p2_176_129))) (=> (= (base_addr ?v_1) (base_addr ?v_2)) (= (sub_pointer ?v_1 ?v_2) (- (offset ?v_1) (offset ?v_2))))))))))
-(declare-fun type_memory (c_type c_type) c_type)
-(declare-fun acc (c_ssorted c_ssorted) c_unique)
-(declare-fun upd (c_ssorted c_ssorted c_ssorted) c_unique)
-(assert (forall ((?t_27_212_130 c_type)) (forall ((?t_26_211_131 c_type)) (forall ((?m_210_132 c_unique)) (forall ((?p_209_133 c_unique)) (forall ((?a_208_134 c_unique)) (let ((?v_0 (type_memory ?t_26_211_131 ?t_27_212_130)) (?v_1 (c_sort (type_pointer ?t_27_212_130) ?p_209_133))) (= (acc (c_sort ?v_0 (upd (c_sort ?v_0 ?m_210_132) ?v_1 (c_sort ?t_26_211_131 ?a_208_134))) ?v_1) ?a_208_134))))))))
-(assert (forall ((?t_29_218_135 c_type)) (forall ((?t_28_217_136 c_type)) (forall ((?m_216_137 c_unique)) (forall ((?p1_215_138 c_unique)) (forall ((?p2_214_139 c_unique)) (forall ((?a_213_140 c_unique)) (let ((?v_0 (type_memory ?t_28_217_136 ?t_29_218_135))) (let ((?v_2 (c_sort ?v_0 ?m_216_137)) (?v_1 (type_pointer ?t_29_218_135))) (let ((?v_3 (c_sort ?v_1 ?p2_214_139))) (=> (not (= ?p1_215_138 ?p2_214_139)) (= (acc (c_sort ?v_0 (upd ?v_2 (c_sort ?v_1 ?p1_215_138) (c_sort ?t_28_217_136 ?a_213_140))) ?v_3) (acc ?v_2 ?v_3)))))))))))))
-(assert (not (= c_Boolean_false c_Boolean_true)))
-(declare-fun type_pset (c_type) c_type)
-(declare-fun pset_empty () c_unique)
-(declare-fun pset_singleton (c_ssorted) c_unique)
-(declare-fun pset_star (c_ssorted c_ssorted) c_unique)
-(declare-fun pset_all (c_ssorted) c_unique)
-(declare-fun pset_range (c_ssorted Int Int) c_unique)
-(declare-fun pset_range_left (c_ssorted Int) c_unique)
-(declare-fun pset_range_right (c_ssorted Int) c_unique)
-(declare-fun pset_acc_all (c_ssorted c_ssorted) c_unique)
-(declare-fun pset_acc_range (c_ssorted c_ssorted Int Int) c_unique)
-(declare-fun pset_acc_range_left (c_ssorted c_ssorted Int) c_unique)
-(declare-fun pset_acc_range_right (c_ssorted c_ssorted Int) c_unique)
-(declare-fun pset_union (c_ssorted c_ssorted) c_unique)
-(declare-fun not_in_pset (c_ssorted c_ssorted) Bool)
-(declare-fun not_assigns (c_ssorted c_ssorted c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_31_225_141 c_type)) (forall ((?t_30_224_142 c_type)) (forall ((?a_223_143 c_unique)) (forall ((?m1_222_144 c_unique)) (forall ((?m2_221_145 c_unique)) (forall ((?l_220_146 c_unique)) (let ((?v_0 (type_memory ?t_30_224_142 ?t_31_225_141))) (= (not_assigns (c_sort type_alloc_table ?a_223_143) (c_sort ?v_0 ?m1_222_144) (c_sort ?v_0 ?m2_221_145) (c_sort (type_pset ?t_31_225_141) ?l_220_146)) (forall ((?p_219_147 c_unique)) (let ((?v_1 (c_sort (type_pointer ?t_31_225_141) ?p_219_147))) (=> (valid (c_sort type_alloc_table ?a_223_143) ?v_1) (=> (not_in_pset ?v_1 (c_sort (type_pset ?t_31_225_141) ?l_220_146)) (= (acc (c_sort ?v_0 ?m2_221_145) ?v_1) (acc (c_sort ?v_0 ?m1_222_144) ?v_1)))))))))))))))
-(assert (forall ((?t_32_227_148 c_type)) (forall ((?p_226_149 c_unique)) (not_in_pset (c_sort (type_pointer ?t_32_227_148) ?p_226_149) (c_sort (type_pset ?t_32_227_148) pset_empty)))))
-(assert (forall ((?t_33_230_150 c_type)) (forall ((?p1_229_151 c_unique)) (forall ((?p2_228_152 c_unique)) (let ((?v_0 (type_pointer ?t_33_230_150))) (=> (not (= ?p1_229_151 ?p2_228_152)) (not_in_pset (c_sort ?v_0 ?p1_229_151) (c_sort (type_pset ?t_33_230_150) (pset_singleton (c_sort ?v_0 ?p2_228_152))))))))))
-(assert (forall ((?t_34_233_153 c_type)) (forall ((?p1_232_154 c_unique)) (forall ((?p2_231_155 c_unique)) (let ((?v_0 (type_pointer ?t_34_233_153))) (=> (not_in_pset (c_sort ?v_0 ?p1_232_154) (c_sort (type_pset ?t_34_233_153) (pset_singleton (c_sort ?v_0 ?p2_231_155)))) (not (= ?p1_232_154 ?p2_231_155))))))))
-(assert (forall ((?t_35_235_156 c_type)) (forall ((?p_234_157 c_unique)) (let ((?v_0 (c_sort (type_pointer ?t_35_235_156) ?p_234_157))) (not (not_in_pset ?v_0 (c_sort (type_pset ?t_35_235_156) (pset_singleton ?v_0))))))))
-(assert (forall ((?t_36_239_158 c_type)) (forall ((?l1_238_159 c_unique)) (forall ((?l2_237_160 c_unique)) (forall ((?p_236_161 c_unique)) (let ((?v_0 (c_sort (type_pointer ?t_36_239_158) ?p_236_161)) (?v_1 (type_pset ?t_36_239_158))) (let ((?v_2 (c_sort ?v_1 ?l1_238_159)) (?v_3 (c_sort ?v_1 ?l2_237_160))) (=> (and (not_in_pset ?v_0 ?v_2) (not_in_pset ?v_0 ?v_3)) (not_in_pset ?v_0 (c_sort ?v_1 (pset_union ?v_2 ?v_3)))))))))))
-(assert (forall ((?t_37_243_162 c_type)) (forall ((?l1_242_163 c_unique)) (forall ((?l2_241_164 c_unique)) (forall ((?p_240_165 c_unique)) (let ((?v_1 (c_sort (type_pointer ?t_37_243_162) ?p_240_165)) (?v_0 (type_pset ?t_37_243_162))) (let ((?v_2 (c_sort ?v_0 ?l1_242_163))) (=> (not_in_pset ?v_1 (c_sort ?v_0 (pset_union ?v_2 (c_sort ?v_0 ?l2_241_164)))) (not_in_pset ?v_1 ?v_2)))))))))
-(assert (forall ((?t_38_247_166 c_type)) (forall ((?l1_246_167 c_unique)) (forall ((?l2_245_168 c_unique)) (forall ((?p_244_169 c_unique)) (let ((?v_1 (c_sort (type_pointer ?t_38_247_166) ?p_244_169)) (?v_0 (type_pset ?t_38_247_166))) (let ((?v_2 (c_sort ?v_0 ?l2_245_168))) (=> (not_in_pset ?v_1 (c_sort ?v_0 (pset_union (c_sort ?v_0 ?l1_246_167) ?v_2))) (not_in_pset ?v_1 ?v_2)))))))))
-(assert (forall ((?t_40_253_170 c_type)) (forall ((?t_39_252_171 c_type)) (forall ((?l_251_172 c_unique)) (forall ((?m_250_173 c_unique)) (forall ((?p_249_174 c_unique)) (let ((?v_0 (type_pointer ?t_40_253_170))) (=> (forall ((?p1_248_175 c_unique)) (let ((?v_1 (c_sort (type_pointer ?t_39_252_171) ?p1_248_175))) (=> (= ?p_249_174 (acc (c_sort (type_memory ?v_0 ?t_39_252_171) ?m_250_173) ?v_1)) (not_in_pset ?v_1 (c_sort (type_pset ?t_39_252_171) ?l_251_172))))) (not_in_pset (c_sort ?v_0 ?p_249_174) (c_sort (type_pset ?t_40_253_170) (pset_star (c_sort (type_pset ?t_39_252_171) ?l_251_172) (c_sort (type_memory ?v_0 ?t_39_252_171) ?m_250_173))))))))))))
-(assert (forall ((?t_42_259_176 c_type)) (forall ((?t_41_258_177 c_type)) (forall ((?l_257_178 c_unique)) (forall ((?m_256_179 c_unique)) (forall ((?p_255_180 c_unique)) (let ((?v_0 (type_pointer ?t_42_259_176))) (=> (not_in_pset (c_sort ?v_0 ?p_255_180) (c_sort (type_pset ?t_42_259_176) (pset_star (c_sort (type_pset ?t_41_258_177) ?l_257_178) (c_sort (type_memory ?v_0 ?t_41_258_177) ?m_256_179)))) (forall ((?p1_254_181 c_unique)) (let ((?v_1 (c_sort (type_pointer ?t_41_258_177) ?p1_254_181))) (=> (= ?p_255_180 (acc (c_sort (type_memory ?v_0 ?t_41_258_177) ?m_256_179) ?v_1)) (not_in_pset ?v_1 (c_sort (type_pset ?t_41_258_177) ?l_257_178)))))))))))))
-(assert (forall ((?t_43_263_182 c_type)) (forall ((?p_262_183 c_unique)) (forall ((?l_261_184 c_unique)) (let ((?v_0 (type_pset ?t_43_263_182))) (=> (forall ((?p1_260_185 c_unique)) (let ((?v_1 (type_pointer ?t_43_263_182))) (let ((?v_2 (c_sort ?v_1 ?p1_260_185))) (=> (not (not_in_pset ?v_2 (c_sort ?v_0 ?l_261_184))) (not (= (base_addr (c_sort ?v_1 ?p_262_183)) (base_addr ?v_2))))))) (not_in_pset (c_sort (type_pointer ?t_43_263_182) ?p_262_183) (c_sort ?v_0 (pset_all (c_sort ?v_0 ?l_261_184))))))))))
-(assert (forall ((?t_44_267_186 c_type)) (forall ((?p_266_187 c_unique)) (forall ((?l_265_188 c_unique)) (let ((?v_0 (type_pset ?t_44_267_186))) (=> (not_in_pset (c_sort (type_pointer ?t_44_267_186) ?p_266_187) (c_sort ?v_0 (pset_all (c_sort ?v_0 ?l_265_188)))) (forall ((?p1_264_189 c_unique)) (let ((?v_1 (type_pointer ?t_44_267_186))) (let ((?v_2 (c_sort ?v_1 ?p1_264_189))) (=> (not (not_in_pset ?v_2 (c_sort ?v_0 ?l_265_188))) (not (= (base_addr (c_sort ?v_1 ?p_266_187)) (base_addr ?v_2)))))))))))))
-(assert (forall ((?t_45_274_190 c_type)) (forall ((?p_273_191 c_unique)) (forall ((?l_272_192 c_unique)) (forall ((?a_271_193 Int)) (forall ((?b_270_194 Int)) (let ((?v_0 (type_pset ?t_45_274_190))) (=> (forall ((?p1_269_195 c_unique)) (or (not_in_pset (c_sort (type_pointer ?t_45_274_190) ?p1_269_195) (c_sort ?v_0 ?l_272_192)) (forall ((?i_268_196 Int)) (=> (and (<= ?a_271_193 ?i_268_196) (<= ?i_268_196 ?b_270_194)) (not (= ?p_273_191 (shift (c_sort (type_pointer ?t_45_274_190) ?p1_269_195) ?i_268_196))))))) (not_in_pset (c_sort (type_pointer ?t_45_274_190) ?p_273_191) (c_sort ?v_0 (pset_range (c_sort ?v_0 ?l_272_192) ?a_271_193 ?b_270_194)))))))))))
-(assert (forall ((?t_46_281_197 c_type)) (forall ((?p_280_198 c_unique)) (forall ((?l_279_199 c_unique)) (forall ((?a_278_200 Int)) (forall ((?b_277_201 Int)) (let ((?v_0 (type_pset ?t_46_281_197))) (=> (not_in_pset (c_sort (type_pointer ?t_46_281_197) ?p_280_198) (c_sort ?v_0 (pset_range (c_sort ?v_0 ?l_279_199) ?a_278_200 ?b_277_201))) (forall ((?p1_276_202 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_46_281_197) ?p1_276_202) (c_sort ?v_0 ?l_279_199))) (forall ((?i_275_203 Int)) (=> (and (<= ?a_278_200 ?i_275_203) (<= ?i_275_203 ?b_277_201)) (not (= (shift (c_sort (type_pointer ?t_46_281_197) ?p1_276_202) ?i_275_203) ?p_280_198))))))))))))))
-(assert (forall ((?t_47_287_204 c_type)) (forall ((?p_286_205 c_unique)) (forall ((?l_285_206 c_unique)) (forall ((?a_284_207 Int)) (let ((?v_0 (type_pset ?t_47_287_204))) (=> (forall ((?p1_283_208 c_unique)) (or (not_in_pset (c_sort (type_pointer ?t_47_287_204) ?p1_283_208) (c_sort ?v_0 ?l_285_206)) (forall ((?i_282_209 Int)) (=> (<= ?i_282_209 ?a_284_207) (not (= ?p_286_205 (shift (c_sort (type_pointer ?t_47_287_204) ?p1_283_208) ?i_282_209))))))) (not_in_pset (c_sort (type_pointer ?t_47_287_204) ?p_286_205) (c_sort ?v_0 (pset_range_left (c_sort ?v_0 ?l_285_206) ?a_284_207))))))))))
-(assert (forall ((?t_48_293_210 c_type)) (forall ((?p_292_211 c_unique)) (forall ((?l_291_212 c_unique)) (forall ((?a_290_213 Int)) (let ((?v_0 (type_pset ?t_48_293_210))) (=> (not_in_pset (c_sort (type_pointer ?t_48_293_210) ?p_292_211) (c_sort ?v_0 (pset_range_left (c_sort ?v_0 ?l_291_212) ?a_290_213))) (forall ((?p1_289_214 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_48_293_210) ?p1_289_214) (c_sort ?v_0 ?l_291_212))) (forall ((?i_288_215 Int)) (=> (<= ?i_288_215 ?a_290_213) (not (= (shift (c_sort (type_pointer ?t_48_293_210) ?p1_289_214) ?i_288_215) ?p_292_211)))))))))))))
-(assert (forall ((?t_49_299_216 c_type)) (forall ((?p_298_217 c_unique)) (forall ((?l_297_218 c_unique)) (forall ((?a_296_219 Int)) (let ((?v_0 (type_pset ?t_49_299_216))) (=> (forall ((?p1_295_220 c_unique)) (or (not_in_pset (c_sort (type_pointer ?t_49_299_216) ?p1_295_220) (c_sort ?v_0 ?l_297_218)) (forall ((?i_294_221 Int)) (=> (<= ?a_296_219 ?i_294_221) (not (= ?p_298_217 (shift (c_sort (type_pointer ?t_49_299_216) ?p1_295_220) ?i_294_221))))))) (not_in_pset (c_sort (type_pointer ?t_49_299_216) ?p_298_217) (c_sort ?v_0 (pset_range_right (c_sort ?v_0 ?l_297_218) ?a_296_219))))))))))
-(assert (forall ((?t_50_305_222 c_type)) (forall ((?p_304_223 c_unique)) (forall ((?l_303_224 c_unique)) (forall ((?a_302_225 Int)) (let ((?v_0 (type_pset ?t_50_305_222))) (=> (not_in_pset (c_sort (type_pointer ?t_50_305_222) ?p_304_223) (c_sort ?v_0 (pset_range_right (c_sort ?v_0 ?l_303_224) ?a_302_225))) (forall ((?p1_301_226 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_50_305_222) ?p1_301_226) (c_sort ?v_0 ?l_303_224))) (forall ((?i_300_227 Int)) (=> (<= ?a_302_225 ?i_300_227) (not (= (shift (c_sort (type_pointer ?t_50_305_222) ?p1_301_226) ?i_300_227) ?p_304_223)))))))))))))
-(assert (forall ((?t_52_312_228 c_type)) (forall ((?t_51_311_229 c_type)) (forall ((?p_310_230 c_unique)) (forall ((?l_309_231 c_unique)) (forall ((?m_308_232 c_unique)) (let ((?v_0 (type_pointer ?t_51_311_229))) (=> (forall ((?p1_307_233 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_52_312_228) ?p1_307_233) (c_sort (type_pset ?t_52_312_228) ?l_309_231))) (forall ((?i_306_234 Int)) (let ((?v_1 (type_pointer ?t_52_312_228))) (not (= ?p_310_230 (acc (c_sort (type_memory ?v_0 ?t_52_312_228) ?m_308_232) (c_sort ?v_1 (shift (c_sort ?v_1 ?p1_307_233) ?i_306_234))))))))) (not_in_pset (c_sort ?v_0 ?p_310_230) (c_sort (type_pset ?t_51_311_229) (pset_acc_all (c_sort (type_pset ?t_52_312_228) ?l_309_231) (c_sort (type_memory ?v_0 ?t_52_312_228) ?m_308_232))))))))))))
-(assert (forall ((?t_54_319_235 c_type)) (forall ((?t_53_318_236 c_type)) (forall ((?p_317_237 c_unique)) (forall ((?l_316_238 c_unique)) (forall ((?m_315_239 c_unique)) (let ((?v_0 (type_pointer ?t_53_318_236))) (=> (not_in_pset (c_sort ?v_0 ?p_317_237) (c_sort (type_pset ?t_53_318_236) (pset_acc_all (c_sort (type_pset ?t_54_319_235) ?l_316_238) (c_sort (type_memory ?v_0 ?t_54_319_235) ?m_315_239)))) (forall ((?p1_314_240 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_54_319_235) ?p1_314_240) (c_sort (type_pset ?t_54_319_235) ?l_316_238))) (forall ((?i_313_241 Int)) (let ((?v_1 (type_pointer ?t_54_319_235))) (not (= (acc (c_sort (type_memory ?v_0 ?t_54_319_235) ?m_315_239) (c_sort ?v_1 (shift (c_sort ?v_1 ?p1_314_240) ?i_313_241))) ?p_317_237))))))))))))))
-(assert (forall ((?t_56_328_242 c_type)) (forall ((?t_55_327_243 c_type)) (forall ((?p_326_244 c_unique)) (forall ((?l_325_245 c_unique)) (forall ((?m_324_246 c_unique)) (forall ((?a_323_247 Int)) (forall ((?b_322_248 Int)) (let ((?v_0 (type_pointer ?t_55_327_243))) (=> (forall ((?p1_321_249 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_56_328_242) ?p1_321_249) (c_sort (type_pset ?t_56_328_242) ?l_325_245))) (forall ((?i_320_250 Int)) (let ((?v_1 (type_pointer ?t_56_328_242))) (=> (and (<= ?a_323_247 ?i_320_250) (<= ?i_320_250 ?b_322_248)) (not (= ?p_326_244 (acc (c_sort (type_memory ?v_0 ?t_56_328_242) ?m_324_246) (c_sort ?v_1 (shift (c_sort ?v_1 ?p1_321_249) ?i_320_250)))))))))) (not_in_pset (c_sort ?v_0 ?p_326_244) (c_sort (type_pset ?t_55_327_243) (pset_acc_range (c_sort (type_pset ?t_56_328_242) ?l_325_245) (c_sort (type_memory ?v_0 ?t_56_328_242) ?m_324_246) ?a_323_247 ?b_322_248)))))))))))))
-(assert (forall ((?t_58_337_251 c_type)) (forall ((?t_57_336_252 c_type)) (forall ((?p_335_253 c_unique)) (forall ((?l_334_254 c_unique)) (forall ((?m_333_255 c_unique)) (forall ((?a_332_256 Int)) (forall ((?b_331_257 Int)) (let ((?v_0 (type_pointer ?t_57_336_252))) (=> (not_in_pset (c_sort ?v_0 ?p_335_253) (c_sort (type_pset ?t_57_336_252) (pset_acc_range (c_sort (type_pset ?t_58_337_251) ?l_334_254) (c_sort (type_memory ?v_0 ?t_58_337_251) ?m_333_255) ?a_332_256 ?b_331_257))) (forall ((?p1_330_258 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_58_337_251) ?p1_330_258) (c_sort (type_pset ?t_58_337_251) ?l_334_254))) (forall ((?i_329_259 Int)) (let ((?v_1 (type_pointer ?t_58_337_251))) (=> (and (<= ?a_332_256 ?i_329_259) (<= ?i_329_259 ?b_331_257)) (not (= (acc (c_sort (type_memory ?v_0 ?t_58_337_251) ?m_333_255) (c_sort ?v_1 (shift (c_sort ?v_1 ?p1_330_258) ?i_329_259))) ?p_335_253)))))))))))))))))
-(assert (forall ((?t_60_345_260 c_type)) (forall ((?t_59_344_261 c_type)) (forall ((?p_343_262 c_unique)) (forall ((?l_342_263 c_unique)) (forall ((?m_341_264 c_unique)) (forall ((?a_340_265 Int)) (let ((?v_0 (type_pointer ?t_59_344_261))) (=> (forall ((?p1_339_266 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_60_345_260) ?p1_339_266) (c_sort (type_pset ?t_60_345_260) ?l_342_263))) (forall ((?i_338_267 Int)) (let ((?v_1 (type_pointer ?t_60_345_260))) (=> (<= ?i_338_267 ?a_340_265) (not (= ?p_343_262 (acc (c_sort (type_memory ?v_0 ?t_60_345_260) ?m_341_264) (c_sort ?v_1 (shift (c_sort ?v_1 ?p1_339_266) ?i_338_267)))))))))) (not_in_pset (c_sort ?v_0 ?p_343_262) (c_sort (type_pset ?t_59_344_261) (pset_acc_range_left (c_sort (type_pset ?t_60_345_260) ?l_342_263) (c_sort (type_memory ?v_0 ?t_60_345_260) ?m_341_264) ?a_340_265))))))))))))
-(assert (forall ((?t_62_353_268 c_type)) (forall ((?t_61_352_269 c_type)) (forall ((?p_351_270 c_unique)) (forall ((?l_350_271 c_unique)) (forall ((?m_349_272 c_unique)) (forall ((?a_348_273 Int)) (let ((?v_0 (type_pointer ?t_61_352_269))) (=> (not_in_pset (c_sort ?v_0 ?p_351_270) (c_sort (type_pset ?t_61_352_269) (pset_acc_range_left (c_sort (type_pset ?t_62_353_268) ?l_350_271) (c_sort (type_memory ?v_0 ?t_62_353_268) ?m_349_272) ?a_348_273))) (forall ((?p1_347_274 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_62_353_268) ?p1_347_274) (c_sort (type_pset ?t_62_353_268) ?l_350_271))) (forall ((?i_346_275 Int)) (let ((?v_1 (type_pointer ?t_62_353_268))) (=> (<= ?i_346_275 ?a_348_273) (not (= (acc (c_sort (type_memory ?v_0 ?t_62_353_268) ?m_349_272) (c_sort ?v_1 (shift (c_sort ?v_1 ?p1_347_274) ?i_346_275))) ?p_351_270))))))))))))))))
-(assert (forall ((?t_64_361_276 c_type)) (forall ((?t_63_360_277 c_type)) (forall ((?p_359_278 c_unique)) (forall ((?l_358_279 c_unique)) (forall ((?m_357_280 c_unique)) (forall ((?a_356_281 Int)) (let ((?v_0 (type_pointer ?t_63_360_277))) (=> (forall ((?p1_355_282 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_64_361_276) ?p1_355_282) (c_sort (type_pset ?t_64_361_276) ?l_358_279))) (forall ((?i_354_283 Int)) (let ((?v_1 (type_pointer ?t_64_361_276))) (=> (<= ?a_356_281 ?i_354_283) (not (= ?p_359_278 (acc (c_sort (type_memory ?v_0 ?t_64_361_276) ?m_357_280) (c_sort ?v_1 (shift (c_sort ?v_1 ?p1_355_282) ?i_354_283)))))))))) (not_in_pset (c_sort ?v_0 ?p_359_278) (c_sort (type_pset ?t_63_360_277) (pset_acc_range_right (c_sort (type_pset ?t_64_361_276) ?l_358_279) (c_sort (type_memory ?v_0 ?t_64_361_276) ?m_357_280) ?a_356_281))))))))))))
-(assert (forall ((?t_66_369_284 c_type)) (forall ((?t_65_368_285 c_type)) (forall ((?p_367_286 c_unique)) (forall ((?l_366_287 c_unique)) (forall ((?m_365_288 c_unique)) (forall ((?a_364_289 Int)) (let ((?v_0 (type_pointer ?t_65_368_285))) (=> (not_in_pset (c_sort ?v_0 ?p_367_286) (c_sort (type_pset ?t_65_368_285) (pset_acc_range_right (c_sort (type_pset ?t_66_369_284) ?l_366_287) (c_sort (type_memory ?v_0 ?t_66_369_284) ?m_365_288) ?a_364_289))) (forall ((?p1_363_290 c_unique)) (=> (not (not_in_pset (c_sort (type_pointer ?t_66_369_284) ?p1_363_290) (c_sort (type_pset ?t_66_369_284) ?l_366_287))) (forall ((?i_362_291 Int)) (let ((?v_1 (type_pointer ?t_66_369_284))) (=> (<= ?a_364_289 ?i_362_291) (not (= (acc (c_sort (type_memory ?v_0 ?t_66_369_284) ?m_365_288) (c_sort ?v_1 (shift (c_sort ?v_1 ?p1_363_290) ?i_362_291))) ?p_367_286))))))))))))))))
-(assert (forall ((?t_68_376_292 c_type)) (forall ((?t_67_375_293 c_type)) (forall ((?a_374_294 c_unique)) (forall ((?l_373_295 c_unique)) (forall ((?m1_372_296 c_unique)) (forall ((?m2_371_297 c_unique)) (forall ((?m3_370_298 c_unique)) (let ((?v_1 (c_sort type_alloc_table ?a_374_294)) (?v_0 (type_memory ?t_68_376_292 ?t_67_375_293))) (let ((?v_4 (c_sort ?v_0 ?m1_372_296)) (?v_2 (c_sort ?v_0 ?m2_371_297)) (?v_3 (c_sort (type_pset ?t_67_375_293) ?l_373_295)) (?v_5 (c_sort ?v_0 ?m3_370_298))) (=> (not_assigns ?v_1 ?v_4 ?v_2 ?v_3) (=> (not_assigns ?v_1 ?v_2 ?v_5 ?v_3) (not_assigns ?v_1 ?v_4 ?v_5 ?v_3)))))))))))))
-(assert (forall ((?t_70_381_299 c_type)) (forall ((?t_69_380_300 c_type)) (forall ((?a_379_301 c_unique)) (forall ((?l_378_302 c_unique)) (forall ((?m_377_303 c_unique)) (let ((?v_0 (c_sort (type_memory ?t_70_381_299 ?t_69_380_300) ?m_377_303))) (not_assigns (c_sort type_alloc_table ?a_379_301) ?v_0 ?v_0 (c_sort (type_pset ?t_69_380_300) ?l_378_302)))))))))
-(declare-fun valid_acc (c_ssorted) Bool)
-(assert (forall ((?t_72_386_304 c_type)) (forall ((?t_71_385_305 c_type)) (forall ((?m1_384_306 c_unique)) (= (valid_acc (c_sort (type_memory (type_pointer ?t_71_385_305) ?t_72_386_304) ?m1_384_306)) (forall ((?p_383_307 c_unique)) (forall ((?a_382_308 c_unique)) (let ((?v_1 (type_pointer ?t_71_385_305)) (?v_0 (c_sort type_alloc_table ?a_382_308)) (?v_2 (c_sort (type_pointer ?t_72_386_304) ?p_383_307))) (=> (valid ?v_0 ?v_2) (valid ?v_0 (c_sort ?v_1 (acc (c_sort (type_memory ?v_1 ?t_72_386_304) ?m1_384_306) ?v_2))))))))))))
-(declare-fun valid_acc_range (c_ssorted Int) Bool)
-(assert (forall ((?t_74_392_309 c_type)) (forall ((?t_73_391_310 c_type)) (forall ((?m1_390_311 c_unique)) (forall ((?size_389_312 Int)) (= (valid_acc_range (c_sort (type_memory (type_pointer ?t_73_391_310) ?t_74_392_309) ?m1_390_311) ?size_389_312) (forall ((?p_388_313 c_unique)) (forall ((?a_387_314 c_unique)) (let ((?v_1 (type_pointer ?t_73_391_310)) (?v_0 (c_sort type_alloc_table ?a_387_314)) (?v_2 (c_sort (type_pointer ?t_74_392_309) ?p_388_313))) (=> (valid ?v_0 ?v_2) (valid_range ?v_0 (c_sort ?v_1 (acc (c_sort (type_memory ?v_1 ?t_74_392_309) ?m1_390_311) ?v_2)) 0 (- ?size_389_312 1))))))))))))
-(assert (forall ((?t_76_398_315 c_type)) (forall ((?t_75_397_316 c_type)) (forall ((?m1_396_317 c_unique)) (forall ((?size_395_318 Int)) (forall ((?p_394_319 c_unique)) (forall ((?a_393_320 c_unique)) (let ((?v_1 (type_pointer ?t_75_397_316))) (let ((?v_2 (c_sort (type_memory ?v_1 ?t_76_398_315) ?m1_396_317)) (?v_0 (c_sort type_alloc_table ?a_393_320)) (?v_3 (c_sort (type_pointer ?t_76_398_315) ?p_394_319))) (=> (valid_acc_range ?v_2 ?size_395_318) (=> (valid ?v_0 ?v_3) (valid ?v_0 (c_sort ?v_1 (acc ?v_2 ?v_3))))))))))))))
-(declare-fun separation1 (c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_78_404_321 c_type)) (forall ((?t_77_403_322 c_type)) (forall ((?m1_402_323 c_unique)) (forall ((?m2_401_324 c_unique)) (let ((?v_0 (type_memory (type_pointer ?t_77_403_322) ?t_78_404_321))) (= (separation1 (c_sort ?v_0 ?m1_402_323) (c_sort ?v_0 ?m2_401_324)) (forall ((?p_400_325 c_unique)) (forall ((?a_399_326 c_unique)) (let ((?v_1 (type_pointer ?t_77_403_322)) (?v_2 (c_sort (type_pointer ?t_78_404_321) ?p_400_325))) (=> (valid (c_sort type_alloc_table ?a_399_326) ?v_2) (not (= (base_addr (c_sort ?v_1 (acc (c_sort ?v_0 ?m1_402_323) ?v_2))) (base_addr (c_sort ?v_1 (acc (c_sort ?v_0 ?m2_401_324) ?v_2))))))))))))))))
-(declare-fun separation1_range1 (c_ssorted c_ssorted Int) Bool)
-(assert (forall ((?t_80_412_327 c_type)) (forall ((?t_79_411_328 c_type)) (forall ((?m1_410_329 c_unique)) (forall ((?m2_409_330 c_unique)) (forall ((?size_408_331 Int)) (let ((?v_0 (type_memory (type_pointer ?t_79_411_328) ?t_80_412_327))) (= (separation1_range1 (c_sort ?v_0 ?m1_410_329) (c_sort ?v_0 ?m2_409_330) ?size_408_331) (forall ((?p_407_332 c_unique)) (forall ((?a_406_333 c_unique)) (=> (valid (c_sort type_alloc_table ?a_406_333) (c_sort (type_pointer ?t_80_412_327) ?p_407_332)) (forall ((?i_405_334 Int)) (let ((?v_1 (type_pointer ?t_79_411_328)) (?v_2 (type_pointer ?t_80_412_327))) (let ((?v_3 (c_sort ?v_2 ?p_407_332))) (=> (and (<= 0 ?i_405_334) (< ?i_405_334 ?size_408_331)) (not (= (base_addr (c_sort ?v_1 (acc (c_sort ?v_0 ?m1_410_329) (c_sort ?v_2 (shift ?v_3 ?i_405_334))))) (base_addr (c_sort ?v_1 (acc (c_sort ?v_0 ?m2_409_330) ?v_3))))))))))))))))))))
-(declare-fun separation1_range (c_ssorted Int) Bool)
-(assert (forall ((?t_82_420_335 c_type)) (forall ((?t_81_419_336 c_type)) (forall ((?m_418_337 c_unique)) (forall ((?size_417_338 Int)) (= (separation1_range (c_sort (type_memory (type_pointer ?t_81_419_336) ?t_82_420_335) ?m_418_337) ?size_417_338) (forall ((?p_416_339 c_unique)) (forall ((?a_415_340 c_unique)) (=> (valid (c_sort type_alloc_table ?a_415_340) (c_sort (type_pointer ?t_82_420_335) ?p_416_339)) (forall ((?i1_414_341 Int)) (forall ((?i2_413_342 Int)) (let ((?v_0 (type_pointer ?t_81_419_336))) (let ((?v_2 (c_sort (type_memory ?v_0 ?t_82_420_335) ?m_418_337)) (?v_1 (type_pointer ?t_82_420_335))) (let ((?v_3 (c_sort ?v_1 ?p_416_339))) (=> (and (<= 0 ?i1_414_341) (< ?i1_414_341 ?size_417_338)) (=> (and (<= 0 ?i2_413_342) (< ?i2_413_342 ?size_417_338)) (=> (not (= ?i1_414_341 ?i2_413_342)) (not (= (base_addr (c_sort ?v_0 (acc ?v_2 (c_sort ?v_1 (shift ?v_3 ?i1_414_341))))) (base_addr (c_sort ?v_0 (acc ?v_2 (c_sort ?v_1 (shift ?v_3 ?i2_413_342))))))))))))))))))))))))
-(declare-fun separation2 (c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_84_426_343 c_type)) (forall ((?t_83_425_344 c_type)) (forall ((?m1_424_345 c_unique)) (forall ((?m2_423_346 c_unique)) (let ((?v_0 (type_memory (type_pointer ?t_83_425_344) ?t_84_426_343))) (= (separation2 (c_sort ?v_0 ?m1_424_345) (c_sort ?v_0 ?m2_423_346)) (forall ((?p1_422_347 c_unique)) (forall ((?p2_421_348 c_unique)) (let ((?v_1 (type_pointer ?t_83_425_344)) (?v_2 (type_pointer ?t_84_426_343))) (=> (not (= ?p1_422_347 ?p2_421_348)) (not (= (base_addr (c_sort ?v_1 (acc (c_sort ?v_0 ?m1_424_345) (c_sort ?v_2 ?p1_422_347)))) (base_addr (c_sort ?v_1 (acc (c_sort ?v_0 ?m2_423_346) (c_sort ?v_2 ?p2_421_348)))))))))))))))))
-(declare-fun separation2_range1 (c_ssorted c_ssorted Int) Bool)
-(assert (forall ((?t_86_435_349 c_type)) (forall ((?t_85_434_350 c_type)) (forall ((?m1_433_351 c_unique)) (forall ((?m2_432_352 c_unique)) (forall ((?size_431_353 Int)) (let ((?v_0 (type_memory (type_pointer ?t_85_434_350) ?t_86_435_349))) (= (separation2_range1 (c_sort ?v_0 ?m1_433_351) (c_sort ?v_0 ?m2_432_352) ?size_431_353) (forall ((?p_430_354 c_unique)) (forall ((?q_429_355 c_unique)) (forall ((?a_428_356 c_unique)) (forall ((?i_427_357 Int)) (let ((?v_1 (type_pointer ?t_85_434_350)) (?v_2 (type_pointer ?t_86_435_349))) (=> (and (<= 0 ?i_427_357) (< ?i_427_357 ?size_431_353)) (not (= (base_addr (c_sort ?v_1 (acc (c_sort ?v_0 ?m1_433_351) (c_sort ?v_2 (shift (c_sort ?v_2 ?p_430_354) ?i_427_357))))) (base_addr (c_sort ?v_1 (acc (c_sort ?v_0 ?m2_432_352) (c_sort ?v_2 ?q_429_355))))))))))))))))))))
-(declare-fun on_heap (c_ssorted c_ssorted) Bool)
-(declare-fun on_stack (c_ssorted c_ssorted) Bool)
-(declare-fun fresh (c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_87_438_358 c_type)) (forall ((?a_437_359 c_unique)) (forall ((?p_436_360 c_unique)) (let ((?v_0 (c_sort type_alloc_table ?a_437_359)) (?v_1 (c_sort (type_pointer ?t_87_438_358) ?p_436_360))) (=> (fresh ?v_0 ?v_1) (not (valid ?v_0 ?v_1))))))))
-(assert (forall ((?t_88_442_361 c_type)) (forall ((?a_441_362 c_unique)) (forall ((?p_440_363 c_unique)) (=> (fresh (c_sort type_alloc_table ?a_441_362) (c_sort (type_pointer ?t_88_442_361) ?p_440_363)) (forall ((?i_439_364 Int)) (let ((?v_0 (type_pointer ?t_88_442_361))) (not (valid (c_sort type_alloc_table ?a_441_362) (c_sort ?v_0 (shift (c_sort ?v_0 ?p_440_363) ?i_439_364)))))))))))
-(declare-fun alloc_extends (c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_89_446_365 c_type)) (forall ((?a1_445_366 c_unique)) (forall ((?a2_444_367 c_unique)) (=> (alloc_extends (c_sort type_alloc_table ?a1_445_366) (c_sort type_alloc_table ?a2_444_367)) (forall ((?q_443_368 c_unique)) (let ((?v_0 (c_sort (type_pointer ?t_89_446_365) ?q_443_368))) (=> (valid (c_sort type_alloc_table ?a1_445_366) ?v_0) (valid (c_sort type_alloc_table ?a2_444_367) ?v_0)))))))))
-(assert (forall ((?t_90_451_369 c_type)) (forall ((?a1_450_370 c_unique)) (forall ((?a2_449_371 c_unique)) (=> (alloc_extends (c_sort type_alloc_table ?a1_450_370) (c_sort type_alloc_table ?a2_449_371)) (forall ((?q_448_372 c_unique)) (forall ((?i_447_373 Int)) (let ((?v_0 (c_sort (type_pointer ?t_90_451_369) ?q_448_372))) (=> (valid_index (c_sort type_alloc_table ?a1_450_370) ?v_0 ?i_447_373) (valid_index (c_sort type_alloc_table ?a2_449_371) ?v_0 ?i_447_373))))))))))
-(assert (forall ((?t_91_457_374 c_type)) (forall ((?a1_456_375 c_unique)) (forall ((?a2_455_376 c_unique)) (=> (alloc_extends (c_sort type_alloc_table ?a1_456_375) (c_sort type_alloc_table ?a2_455_376)) (forall ((?q_454_377 c_unique)) (forall ((?i_453_378 Int)) (forall ((?j_452_379 Int)) (let ((?v_0 (c_sort (type_pointer ?t_91_457_374) ?q_454_377))) (=> (valid_range (c_sort type_alloc_table ?a1_456_375) ?v_0 ?i_453_378 ?j_452_379) (valid_range (c_sort type_alloc_table ?a2_455_376) ?v_0 ?i_453_378 ?j_452_379)))))))))))
-(assert (forall ((?a_458_380 c_unique)) (let ((?v_0 (c_sort type_alloc_table ?a_458_380))) (alloc_extends ?v_0 ?v_0))))
-(assert (forall ((?a1_461_381 c_unique)) (forall ((?a2_460_382 c_unique)) (forall ((?a3_459_383 c_unique)) (let ((?v_1 (c_sort type_alloc_table ?a1_461_381)) (?v_0 (c_sort type_alloc_table ?a2_460_382)) (?v_2 (c_sort type_alloc_table ?a3_459_383))) (=> (alloc_extends ?v_1 ?v_0) (=> (alloc_extends ?v_0 ?v_2) (alloc_extends ?v_1 ?v_2))))))))
-(declare-fun free_stack (c_ssorted c_ssorted c_ssorted) Bool)
-(assert (forall ((?t_92_466_384 c_type)) (forall ((?a1_465_385 c_unique)) (forall ((?a2_464_386 c_unique)) (forall ((?a3_463_387 c_unique)) (=> (free_stack (c_sort type_alloc_table ?a1_465_385) (c_sort type_alloc_table ?a2_464_386) (c_sort type_alloc_table ?a3_463_387)) (forall ((?p_462_388 c_unique)) (let ((?v_0 (c_sort type_alloc_table ?a2_464_386)) (?v_1 (c_sort (type_pointer ?t_92_466_384) ?p_462_388))) (=> (valid ?v_0 ?v_1) (=> (on_heap ?v_0 ?v_1) (valid (c_sort type_alloc_table ?a3_463_387) ?v_1)))))))))))
-(assert (forall ((?t_93_471_389 c_type)) (forall ((?a1_470_390 c_unique)) (forall ((?a2_469_391 c_unique)) (forall ((?a3_468_392 c_unique)) (=> (free_stack (c_sort type_alloc_table ?a1_470_390) (c_sort type_alloc_table ?a2_469_391) (c_sort type_alloc_table ?a3_468_392)) (forall ((?p_467_393 c_unique)) (let ((?v_0 (c_sort type_alloc_table ?a1_470_390)) (?v_1 (c_sort (type_pointer ?t_93_471_389) ?p_467_393))) (=> (valid ?v_0 ?v_1) (=> (on_stack ?v_0 ?v_1) (valid (c_sort type_alloc_table ?a3_468_392) ?v_1)))))))))))
-(declare-fun null () c_unique)
-(assert (forall ((?t_94_475_394 c_type)) (forall ((?a_474_395 c_unique)) (not (valid (c_sort type_alloc_table ?a_474_395) (c_sort (type_pointer ?t_94_475_394) null))))))
-(declare-fun type_global () c_type)
-(assert (= (% 2800 14) 0))
-(assert (forall ((?c_478_396 Int)) (let ((?v_0 (* ?c_478_396 2))) (=> (> ?v_0 0) (> ?v_0 1)))))
-(assert (forall ((?c_479_397 Int)) (=> (= (% ?c_479_397 14) 0) (= (% (- ?c_479_397 14) 14) 0))))
-(assert (forall ((?c_480_398 Int)) (=> (= (% ?c_480_398 14) 0) (=> (> ?c_480_398 0) (>= ?c_480_398 14)))))
-(assert (= (whydivide 10000 5) 2000))
-(assert (not (forall ((?a Int)) (forall ((?alloc c_unique)) (forall ((?b Int)) (forall ((?c Int)) (forall ((?f c_unique)) (=> (and (and (and (= ?b 0) (= ?c 2800)) (= ?a 10000)) (valid_range (c_sort type_alloc_table ?alloc) (c_sort (type_pointer type_global) ?f) 0 2800)) (forall ((?b0 Int)) (forall ((?intM_global0 c_unique)) (=> (and (and (<= 0 ?b0) (<= ?b0 2800)) (forall ((?i_0_481_408 Int)) (let ((?v_0 (type_pointer type_global))) (=> (and (<= 0 ?i_0_481_408) (< ?i_0_481_408 ?b0)) (= (ss2Int (c_sort c_int (acc (c_sort (type_memory c_int type_global) ?intM_global0) (c_sort ?v_0 (shift (c_sort ?v_0 ?f) ?i_0_481_408))))) 2000))))) (=> (= (- ?b0 ?c) 0) (= (% ?c 14) 0)))))))))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/quantifiers/stream-x2014-09-18-unsat.smt2 b/test/regress/regress0/quantifiers/stream-x2014-09-18-unsat.smt2
deleted file mode 100644
index 9243654b4..000000000
--- a/test/regress/regress0/quantifiers/stream-x2014-09-18-unsat.smt2
+++ /dev/null
@@ -1,185 +0,0 @@
-; COMMAND-LINE: --lang=smt2.5
-; EXPECT: unsat
-(set-logic ALL_SUPPORTED)
-(set-info :status unsat)
-(declare-sort A$ 0)
-(declare-sort B$ 0)
-(declare-sort A_set$ 0)
-(declare-sort B_set$ 0)
-(declare-sort A_a_fun$ 0)
-(declare-sort A_b_fun$ 0)
-(declare-sort B_a_fun$ 0)
-(declare-sort B_b_fun$ 0)
-(declare-sort A_stream_set$ 0)
-(declare-sort B_stream_set$ 0)
-(declare-sort A_a_stream_fun$ 0)
-(declare-sort A_b_stream_fun$ 0)
-(declare-sort A_stream_a_fun$ 0)
-(declare-sort A_stream_b_fun$ 0)
-(declare-sort B_a_stream_fun$ 0)
-(declare-sort B_b_stream_fun$ 0)
-(declare-sort B_stream_a_fun$ 0)
-(declare-sort B_stream_b_fun$ 0)
-(declare-sort A_stream_stream_set$ 0)
-(declare-sort B_stream_stream_set$ 0)
-(declare-sort A_stream_a_stream_fun$ 0)
-(declare-sort B_stream_b_stream_fun$ 0)
-(declare-sort A_stream_stream_a_stream_stream_fun$ 0)
-(declare-sort B_stream_stream_b_stream_stream_fun$ 0)
-(declare-sort A_stream_stream_stream_a_stream_stream_stream_fun$ 0)
-(declare-sort B_stream_stream_stream_b_stream_stream_stream_fun$ 0)
-(declare-datatypes () ((Nat$ (zero$) (suc$ (pred$ Nat$)))))
-(declare-codatatypes () ((A_stream$ (sCons$ (shd$ A$) (stl$ A_stream$)))
-  (B_stream$ (sCons$a (shd$a B$) (stl$a B_stream$)))
-  (B_stream_stream$ (sCons$b (shd$b B_stream$) (stl$b B_stream_stream$)))
-  (B_stream_stream_stream$ (sCons$c (shd$c B_stream_stream$) (stl$c B_stream_stream_stream$)))
-  (A_stream_stream$ (sCons$d (shd$d A_stream$) (stl$d A_stream_stream$)))
-  (A_stream_stream_stream$ (sCons$e (shd$e A_stream_stream$) (stl$e A_stream_stream_stream$)))))
-(declare-fun f$ () B_a_fun$)
-(declare-fun x$ () B$)
-(declare-fun id$ () B_b_fun$)
-(declare-fun id$a () A_a_fun$)
-(declare-fun id$b () B_stream_stream_b_stream_stream_fun$)
-(declare-fun id$c () A_stream_stream_a_stream_stream_fun$)
-(declare-fun id$d () A_stream_a_stream_fun$)
-(declare-fun id$e () B_stream_b_stream_fun$)
-(declare-fun id$f () B_stream_stream_stream_b_stream_stream_stream_fun$)
-(declare-fun id$g () A_stream_stream_stream_a_stream_stream_stream_fun$)
-(declare-fun smap$ (B_a_fun$ B_stream$) A_stream$)
-(declare-fun snth$ (B_stream_stream$ Nat$) B_stream$)
-(declare-fun sdrop$ (Nat$ B_stream_stream$) B_stream_stream$)
-(declare-fun smap$a (B_b_fun$) B_stream_b_stream_fun$)
-(declare-fun smap$b (A_a_fun$) A_stream_a_stream_fun$)
-(declare-fun smap$c (B_stream_stream_b_stream_stream_fun$) B_stream_stream_stream_b_stream_stream_stream_fun$)
-(declare-fun smap$d (A_stream_stream_a_stream_stream_fun$) A_stream_stream_stream_a_stream_stream_stream_fun$)
-(declare-fun smap$e (A_stream_a_stream_fun$) A_stream_stream_a_stream_stream_fun$)
-(declare-fun smap$f (B_stream_b_stream_fun$) B_stream_stream_b_stream_stream_fun$)
-(declare-fun smap$g (B_b_stream_fun$ B_stream$) B_stream_stream$)
-(declare-fun smap$h (B_a_stream_fun$ B_stream$) A_stream_stream$)
-(declare-fun smap$i (A_b_stream_fun$ A_stream$) B_stream_stream$)
-(declare-fun smap$j (A_a_stream_fun$ A_stream$) A_stream_stream$)
-(declare-fun smap$k (A_b_fun$ A_stream$) B_stream$)
-(declare-fun smap$l (B_stream_b_fun$ B_stream_stream$) B_stream$)
-(declare-fun smap$m (A_stream_b_fun$ A_stream_stream$) B_stream$)
-(declare-fun smap$n (B_stream_a_fun$ B_stream_stream$) A_stream$)
-(declare-fun smap$o (A_stream_a_fun$ A_stream_stream$) A_stream$)
-(declare-fun snth$a (B_stream$ Nat$) B$)
-(declare-fun snth$b (A_stream_stream$ Nat$) A_stream$)
-(declare-fun snth$c (A_stream$ Nat$) A$)
-(declare-fun member$ (B_stream$ B_stream_set$) Bool)
-(declare-fun sdrop$a (Nat$ B_stream$) B_stream$)
-(declare-fun sdrop$b (Nat$ A_stream_stream$) A_stream_stream$)
-(declare-fun sdrop$c (Nat$ A_stream$) A_stream$)
-(declare-fun fun_app$ (B_b_stream_fun$ B$) B_stream$)
-(declare-fun member$a (B$ B_set$) Bool)
-(declare-fun member$b (A$ A_set$) Bool)
-(declare-fun member$c (A_stream$ A_stream_set$) Bool)
-(declare-fun member$d (B_stream_stream$ B_stream_stream_set$) Bool)
-(declare-fun member$e (A_stream_stream$ A_stream_stream_set$) Bool)
-(declare-fun streams$ (B_set$) B_stream_set$)
-(declare-fun fun_app$a (A_a_stream_fun$ A$) A_stream$)
-(declare-fun fun_app$b (B_a_fun$ B$) A$)
-(declare-fun fun_app$c (B_stream_b_stream_fun$ B_stream$) B_stream$)
-(declare-fun fun_app$d (B_b_fun$ B$) B$)
-(declare-fun fun_app$e (A_stream_a_stream_fun$ A_stream$) A_stream$)
-(declare-fun fun_app$f (A_a_fun$ A$) A$)
-(declare-fun fun_app$g (B_stream_stream_stream_b_stream_stream_stream_fun$ B_stream_stream_stream$) B_stream_stream_stream$)
-(declare-fun fun_app$h (A_stream_stream_stream_a_stream_stream_stream_fun$ A_stream_stream_stream$) A_stream_stream_stream$)
-(declare-fun fun_app$i (A_stream_stream_a_stream_stream_fun$ A_stream_stream$) A_stream_stream$)
-(declare-fun fun_app$j (B_stream_stream_b_stream_stream_fun$ B_stream_stream$) B_stream_stream$)
-(declare-fun fun_app$k (B_a_stream_fun$ B$) A_stream$)
-(declare-fun fun_app$l (A_b_stream_fun$ A$) B_stream$)
-(declare-fun fun_app$m (A_b_fun$ A$) B$)
-(declare-fun fun_app$n (B_stream_b_fun$ B_stream$) B$)
-(declare-fun fun_app$o (A_stream_b_fun$ A_stream$) B$)
-(declare-fun fun_app$p (B_stream_a_fun$ B_stream$) A$)
-(declare-fun fun_app$q (A_stream_a_fun$ A_stream$) A$)
-(declare-fun siterate$ (B_b_fun$) B_b_stream_fun$)
-(declare-fun streams$a (A_set$) A_stream_set$)
-(declare-fun streams$b (B_stream_set$) B_stream_stream_set$)
-(declare-fun streams$c (A_stream_set$) A_stream_stream_set$)
-(declare-fun siterate$a (A_a_fun$) A_a_stream_fun$)
-(assert (! (not (= (smap$ f$ (fun_app$ (siterate$ id$) x$)) (fun_app$a (siterate$a id$a) (fun_app$b f$ x$)))) :named a0))
-(assert (! (forall ((?v0 B_b_fun$) (?v1 B$)) (= (fun_app$c (smap$a ?v0) (fun_app$ (siterate$ ?v0) ?v1)) (fun_app$ (siterate$ ?v0) (fun_app$d ?v0 ?v1)))) :named a1))
-(assert (! (forall ((?v0 A_a_fun$) (?v1 A$)) (= (fun_app$e (smap$b ?v0) (fun_app$a (siterate$a ?v0) ?v1)) (fun_app$a (siterate$a ?v0) (fun_app$f ?v0 ?v1)))) :named a2))
-(assert (! (forall ((?v0 B_stream_stream_stream$)) (= (fun_app$g (smap$c id$b) ?v0) ?v0)) :named a3))
-(assert (! (forall ((?v0 A_stream_stream_stream$)) (= (fun_app$h (smap$d id$c) ?v0) ?v0)) :named a4))
-(assert (! (forall ((?v0 A_stream_stream$)) (= (fun_app$i (smap$e id$d) ?v0) ?v0)) :named a5))
-(assert (! (forall ((?v0 B_stream_stream$)) (= (fun_app$j (smap$f id$e) ?v0) ?v0)) :named a6))
-(assert (! (forall ((?v0 B_stream$)) (= (fun_app$c (smap$a id$) ?v0) ?v0)) :named a7))
-(assert (! (forall ((?v0 A_stream$)) (= (fun_app$e (smap$b id$a) ?v0) ?v0)) :named a8))
-(assert (! (= (smap$c id$b) id$f) :named a9))
-(assert (! (= (smap$d id$c) id$g) :named a10))
-(assert (! (= (smap$e id$d) id$c) :named a11))
-(assert (! (= (smap$f id$e) id$b) :named a12))
-(assert (! (= (smap$a id$) id$e) :named a13))
-(assert (! (= (smap$b id$a) id$d) :named a14))
-(assert (! (forall ((?v0 B_stream_stream$)) (! (= (fun_app$j id$b ?v0) ?v0) :pattern ((fun_app$j id$b ?v0)))) :named a15))
-(assert (! (forall ((?v0 A_stream_stream$)) (! (= (fun_app$i id$c ?v0) ?v0) :pattern ((fun_app$i id$c ?v0)))) :named a16))
-(assert (! (forall ((?v0 A_stream$)) (! (= (fun_app$e id$d ?v0) ?v0) :pattern ((fun_app$e id$d ?v0)))) :named a17))
-(assert (! (forall ((?v0 B_stream$)) (! (= (fun_app$c id$e ?v0) ?v0) :pattern ((fun_app$c id$e ?v0)))) :named a18))
-(assert (! (forall ((?v0 B$)) (! (= (fun_app$d id$ ?v0) ?v0) :pattern ((fun_app$d id$ ?v0)))) :named a19))
-(assert (! (forall ((?v0 A$)) (! (= (fun_app$f id$a ?v0) ?v0) :pattern ((fun_app$f id$a ?v0)))) :named a20))
-(assert (! (forall ((?v0 B_stream_stream$)) (! (= (fun_app$j id$b ?v0) ?v0) :pattern ((fun_app$j id$b ?v0)))) :named a21))
-(assert (! (forall ((?v0 A_stream_stream$)) (! (= (fun_app$i id$c ?v0) ?v0) :pattern ((fun_app$i id$c ?v0)))) :named a22))
-(assert (! (forall ((?v0 A_stream$)) (! (= (fun_app$e id$d ?v0) ?v0) :pattern ((fun_app$e id$d ?v0)))) :named a23))
-(assert (! (forall ((?v0 B_stream$)) (! (= (fun_app$c id$e ?v0) ?v0) :pattern ((fun_app$c id$e ?v0)))) :named a24))
-(assert (! (forall ((?v0 B$)) (! (= (fun_app$d id$ ?v0) ?v0) :pattern ((fun_app$d id$ ?v0)))) :named a25))
-(assert (! (forall ((?v0 A$)) (! (= (fun_app$f id$a ?v0) ?v0) :pattern ((fun_app$f id$a ?v0)))) :named a26))
-(assert (! (forall ((?v0 B_b_stream_fun$) (?v1 B_stream$) (?v2 Nat$)) (= (snth$ (smap$g ?v0 ?v1) ?v2) (fun_app$ ?v0 (snth$a ?v1 ?v2)))) :named a27))
-(assert (! (forall ((?v0 B_a_stream_fun$) (?v1 B_stream$) (?v2 Nat$)) (= (snth$b (smap$h ?v0 ?v1) ?v2) (fun_app$k ?v0 (snth$a ?v1 ?v2)))) :named a28))
-(assert (! (forall ((?v0 A_b_stream_fun$) (?v1 A_stream$) (?v2 Nat$)) (= (snth$ (smap$i ?v0 ?v1) ?v2) (fun_app$l ?v0 (snth$c ?v1 ?v2)))) :named a29))
-(assert (! (forall ((?v0 A_a_stream_fun$) (?v1 A_stream$) (?v2 Nat$)) (= (snth$b (smap$j ?v0 ?v1) ?v2) (fun_app$a ?v0 (snth$c ?v1 ?v2)))) :named a30))
-(assert (! (forall ((?v0 A_b_fun$) (?v1 A_stream$) (?v2 Nat$)) (= (snth$a (smap$k ?v0 ?v1) ?v2) (fun_app$m ?v0 (snth$c ?v1 ?v2)))) :named a31))
-(assert (! (forall ((?v0 A_a_fun$) (?v1 A_stream$) (?v2 Nat$)) (= (snth$c (fun_app$e (smap$b ?v0) ?v1) ?v2) (fun_app$f ?v0 (snth$c ?v1 ?v2)))) :named a32))
-(assert (! (forall ((?v0 B_b_fun$) (?v1 B_stream$) (?v2 Nat$)) (= (snth$a (fun_app$c (smap$a ?v0) ?v1) ?v2) (fun_app$d ?v0 (snth$a ?v1 ?v2)))) :named a33))
-(assert (! (forall ((?v0 B_a_fun$) (?v1 B_stream$) (?v2 Nat$)) (= (snth$c (smap$ ?v0 ?v1) ?v2) (fun_app$b ?v0 (snth$a ?v1 ?v2)))) :named a34))
-(assert (! (forall ((?v0 Nat$) (?v1 B_b_stream_fun$) (?v2 B_stream$)) (= (sdrop$ ?v0 (smap$g ?v1 ?v2)) (smap$g ?v1 (sdrop$a ?v0 ?v2)))) :named a35))
-(assert (! (forall ((?v0 Nat$) (?v1 B_a_stream_fun$) (?v2 B_stream$)) (= (sdrop$b ?v0 (smap$h ?v1 ?v2)) (smap$h ?v1 (sdrop$a ?v0 ?v2)))) :named a36))
-(assert (! (forall ((?v0 Nat$) (?v1 A_b_stream_fun$) (?v2 A_stream$)) (= (sdrop$ ?v0 (smap$i ?v1 ?v2)) (smap$i ?v1 (sdrop$c ?v0 ?v2)))) :named a37))
-(assert (! (forall ((?v0 Nat$) (?v1 A_a_stream_fun$) (?v2 A_stream$)) (= (sdrop$b ?v0 (smap$j ?v1 ?v2)) (smap$j ?v1 (sdrop$c ?v0 ?v2)))) :named a38))
-(assert (! (forall ((?v0 Nat$) (?v1 A_b_fun$) (?v2 A_stream$)) (= (sdrop$a ?v0 (smap$k ?v1 ?v2)) (smap$k ?v1 (sdrop$c ?v0 ?v2)))) :named a39))
-(assert (! (forall ((?v0 Nat$) (?v1 A_a_fun$) (?v2 A_stream$)) (= (sdrop$c ?v0 (fun_app$e (smap$b ?v1) ?v2)) (fun_app$e (smap$b ?v1) (sdrop$c ?v0 ?v2)))) :named a40))
-(assert (! (forall ((?v0 Nat$) (?v1 B_b_fun$) (?v2 B_stream$)) (= (sdrop$a ?v0 (fun_app$c (smap$a ?v1) ?v2)) (fun_app$c (smap$a ?v1) (sdrop$a ?v0 ?v2)))) :named a41))
-(assert (! (forall ((?v0 Nat$) (?v1 B_a_fun$) (?v2 B_stream$)) (= (sdrop$c ?v0 (smap$ ?v1 ?v2)) (smap$ ?v1 (sdrop$a ?v0 ?v2)))) :named a42))
-(assert (! (forall ((?v0 B_b_stream_fun$) (?v1 B_stream$)) (= (shd$b (smap$g ?v0 ?v1)) (fun_app$ ?v0 (shd$a ?v1)))) :named a43))
-(assert (! (forall ((?v0 B_a_stream_fun$) (?v1 B_stream$)) (= (shd$d (smap$h ?v0 ?v1)) (fun_app$k ?v0 (shd$a ?v1)))) :named a44))
-(assert (! (forall ((?v0 A_b_stream_fun$) (?v1 A_stream$)) (= (shd$b (smap$i ?v0 ?v1)) (fun_app$l ?v0 (shd$ ?v1)))) :named a45))
-(assert (! (forall ((?v0 A_a_stream_fun$) (?v1 A_stream$)) (= (shd$d (smap$j ?v0 ?v1)) (fun_app$a ?v0 (shd$ ?v1)))) :named a46))
-(assert (! (forall ((?v0 A_b_fun$) (?v1 A_stream$)) (= (shd$a (smap$k ?v0 ?v1)) (fun_app$m ?v0 (shd$ ?v1)))) :named a47))
-(assert (! (forall ((?v0 A_a_fun$) (?v1 A_stream$)) (= (shd$ (fun_app$e (smap$b ?v0) ?v1)) (fun_app$f ?v0 (shd$ ?v1)))) :named a48))
-(assert (! (forall ((?v0 B_b_fun$) (?v1 B_stream$)) (= (shd$a (fun_app$c (smap$a ?v0) ?v1)) (fun_app$d ?v0 (shd$a ?v1)))) :named a49))
-(assert (! (forall ((?v0 B_a_fun$) (?v1 B_stream$)) (= (shd$ (smap$ ?v0 ?v1)) (fun_app$b ?v0 (shd$a ?v1)))) :named a50))
-(assert (! (forall ((?v0 B_b_stream_fun$) (?v1 B_stream$)) (= (stl$b (smap$g ?v0 ?v1)) (smap$g ?v0 (stl$a ?v1)))) :named a51))
-(assert (! (forall ((?v0 B_a_stream_fun$) (?v1 B_stream$)) (= (stl$d (smap$h ?v0 ?v1)) (smap$h ?v0 (stl$a ?v1)))) :named a52))
-(assert (! (forall ((?v0 A_b_stream_fun$) (?v1 A_stream$)) (= (stl$b (smap$i ?v0 ?v1)) (smap$i ?v0 (stl$ ?v1)))) :named a53))
-(assert (! (forall ((?v0 A_a_stream_fun$) (?v1 A_stream$)) (= (stl$d (smap$j ?v0 ?v1)) (smap$j ?v0 (stl$ ?v1)))) :named a54))
-(assert (! (forall ((?v0 A_b_fun$) (?v1 A_stream$)) (= (stl$a (smap$k ?v0 ?v1)) (smap$k ?v0 (stl$ ?v1)))) :named a55))
-(assert (! (forall ((?v0 A_a_fun$) (?v1 A_stream$)) (= (stl$ (fun_app$e (smap$b ?v0) ?v1)) (fun_app$e (smap$b ?v0) (stl$ ?v1)))) :named a56))
-(assert (! (forall ((?v0 B_b_fun$) (?v1 B_stream$)) (= (stl$a (fun_app$c (smap$a ?v0) ?v1)) (fun_app$c (smap$a ?v0) (stl$a ?v1)))) :named a57))
-(assert (! (forall ((?v0 B_a_fun$) (?v1 B_stream$)) (= (stl$ (smap$ ?v0 ?v1)) (smap$ ?v0 (stl$a ?v1)))) :named a58))
-(assert (! (forall ((?v0 B_b_stream_fun$) (?v1 B_stream$) (?v2 B_stream_stream$)) (= (= (smap$g ?v0 ?v1) ?v2) (forall ((?v3 Nat$)) (= (fun_app$ ?v0 (snth$a ?v1 ?v3)) (snth$ ?v2 ?v3))))) :named a59))
-(assert (! (forall ((?v0 B_a_stream_fun$) (?v1 B_stream$) (?v2 A_stream_stream$)) (= (= (smap$h ?v0 ?v1) ?v2) (forall ((?v3 Nat$)) (= (fun_app$k ?v0 (snth$a ?v1 ?v3)) (snth$b ?v2 ?v3))))) :named a60))
-(assert (! (forall ((?v0 A_b_stream_fun$) (?v1 A_stream$) (?v2 B_stream_stream$)) (= (= (smap$i ?v0 ?v1) ?v2) (forall ((?v3 Nat$)) (= (fun_app$l ?v0 (snth$c ?v1 ?v3)) (snth$ ?v2 ?v3))))) :named a61))
-(assert (! (forall ((?v0 A_a_stream_fun$) (?v1 A_stream$) (?v2 A_stream_stream$)) (= (= (smap$j ?v0 ?v1) ?v2) (forall ((?v3 Nat$)) (= (fun_app$a ?v0 (snth$c ?v1 ?v3)) (snth$b ?v2 ?v3))))) :named a62))
-(assert (! (forall ((?v0 A_b_fun$) (?v1 A_stream$) (?v2 B_stream$)) (= (= (smap$k ?v0 ?v1) ?v2) (forall ((?v3 Nat$)) (= (fun_app$m ?v0 (snth$c ?v1 ?v3)) (snth$a ?v2 ?v3))))) :named a63))
-(assert (! (forall ((?v0 A_a_fun$) (?v1 A_stream$) (?v2 A_stream$)) (= (= (fun_app$e (smap$b ?v0) ?v1) ?v2) (forall ((?v3 Nat$)) (= (fun_app$f ?v0 (snth$c ?v1 ?v3)) (snth$c ?v2 ?v3))))) :named a64))
-(assert (! (forall ((?v0 B_b_fun$) (?v1 B_stream$) (?v2 B_stream$)) (= (= (fun_app$c (smap$a ?v0) ?v1) ?v2) (forall ((?v3 Nat$)) (= (fun_app$d ?v0 (snth$a ?v1 ?v3)) (snth$a ?v2 ?v3))))) :named a65))
-(assert (! (forall ((?v0 B_a_fun$) (?v1 B_stream$) (?v2 A_stream$)) (= (= (smap$ ?v0 ?v1) ?v2) (forall ((?v3 Nat$)) (= (fun_app$b ?v0 (snth$a ?v1 ?v3)) (snth$c ?v2 ?v3))))) :named a66))
-(assert (! (forall ((?v0 B_stream$) (?v1 B_set$) (?v2 B_a_fun$) (?v3 A_set$)) (=> (and (member$ ?v0 (streams$ ?v1)) (forall ((?v4 B$)) (=> (member$a ?v4 ?v1) (member$b (fun_app$b ?v2 ?v4) ?v3)))) (member$c (smap$ ?v2 ?v0) (streams$a ?v3)))) :named a67))
-(assert (! (forall ((?v0 A_stream$) (?v1 A_set$) (?v2 A_b_fun$) (?v3 B_set$)) (=> (and (member$c ?v0 (streams$a ?v1)) (forall ((?v4 A$)) (=> (member$b ?v4 ?v1) (member$a (fun_app$m ?v2 ?v4) ?v3)))) (member$ (smap$k ?v2 ?v0) (streams$ ?v3)))) :named a68))
-(assert (! (forall ((?v0 A_stream$) (?v1 A_set$) (?v2 A_a_fun$) (?v3 A_set$)) (=> (and (member$c ?v0 (streams$a ?v1)) (forall ((?v4 A$)) (=> (member$b ?v4 ?v1) (member$b (fun_app$f ?v2 ?v4) ?v3)))) (member$c (fun_app$e (smap$b ?v2) ?v0) (streams$a ?v3)))) :named a69))
-(assert (! (forall ((?v0 B_stream$) (?v1 B_set$) (?v2 B_b_fun$) (?v3 B_set$)) (=> (and (member$ ?v0 (streams$ ?v1)) (forall ((?v4 B$)) (=> (member$a ?v4 ?v1) (member$a (fun_app$d ?v2 ?v4) ?v3)))) (member$ (fun_app$c (smap$a ?v2) ?v0) (streams$ ?v3)))) :named a70))
-(assert (! (forall ((?v0 B_stream_stream$) (?v1 B_stream_set$) (?v2 B_stream_b_fun$) (?v3 B_set$)) (=> (and (member$d ?v0 (streams$b ?v1)) (forall ((?v4 B_stream$)) (=> (member$ ?v4 ?v1) (member$a (fun_app$n ?v2 ?v4) ?v3)))) (member$ (smap$l ?v2 ?v0) (streams$ ?v3)))) :named a71))
-(assert (! (forall ((?v0 A_stream_stream$) (?v1 A_stream_set$) (?v2 A_stream_b_fun$) (?v3 B_set$)) (=> (and (member$e ?v0 (streams$c ?v1)) (forall ((?v4 A_stream$)) (=> (member$c ?v4 ?v1) (member$a (fun_app$o ?v2 ?v4) ?v3)))) (member$ (smap$m ?v2 ?v0) (streams$ ?v3)))) :named a72))
-(assert (! (forall ((?v0 B_stream_stream$) (?v1 B_stream_set$) (?v2 B_stream_a_fun$) (?v3 A_set$)) (=> (and (member$d ?v0 (streams$b ?v1)) (forall ((?v4 B_stream$)) (=> (member$ ?v4 ?v1) (member$b (fun_app$p ?v2 ?v4) ?v3)))) (member$c (smap$n ?v2 ?v0) (streams$a ?v3)))) :named a73))
-(assert (! (forall ((?v0 A_stream_stream$) (?v1 A_stream_set$) (?v2 A_stream_a_fun$) (?v3 A_set$)) (=> (and (member$e ?v0 (streams$c ?v1)) (forall ((?v4 A_stream$)) (=> (member$c ?v4 ?v1) (member$b (fun_app$q ?v2 ?v4) ?v3)))) (member$c (smap$o ?v2 ?v0) (streams$a ?v3)))) :named a74))
-(assert (! (forall ((?v0 B_stream$) (?v1 B_set$) (?v2 B_b_stream_fun$) (?v3 B_stream_set$)) (=> (and (member$ ?v0 (streams$ ?v1)) (forall ((?v4 B$)) (=> (member$a ?v4 ?v1) (member$ (fun_app$ ?v2 ?v4) ?v3)))) (member$d (smap$g ?v2 ?v0) (streams$b ?v3)))) :named a75))
-(assert (! (forall ((?v0 B_stream$) (?v1 B_set$) (?v2 B_a_stream_fun$) (?v3 A_stream_set$)) (=> (and (member$ ?v0 (streams$ ?v1)) (forall ((?v4 B$)) (=> (member$a ?v4 ?v1) (member$c (fun_app$k ?v2 ?v4) ?v3)))) (member$e (smap$h ?v2 ?v0) (streams$c ?v3)))) :named a76))
-(assert (! (forall ((?v0 B_b_fun$) (?v1 B$)) (= (shd$a (fun_app$ (siterate$ ?v0) ?v1)) ?v1)) :named a77))
-(assert (! (forall ((?v0 A_a_fun$) (?v1 A$)) (= (shd$ (fun_app$a (siterate$a ?v0) ?v1)) ?v1)) :named a78))
-(assert (! (forall ((?v0 B_b_fun$) (?v1 B$)) (= (stl$a (fun_app$ (siterate$ ?v0) ?v1)) (fun_app$ (siterate$ ?v0) (fun_app$d ?v0 ?v1)))) :named a79))
-(assert (! (forall ((?v0 A_a_fun$) (?v1 A$)) (= (stl$ (fun_app$a (siterate$a ?v0) ?v1)) (fun_app$a (siterate$a ?v0) (fun_app$f ?v0 ?v1)))) :named a80))
-(assert (! (forall ((?v0 B_b_fun$) (?v1 B$)) (= (fun_app$ (siterate$ ?v0) ?v1) (sCons$a ?v1 (fun_app$ (siterate$ ?v0) (fun_app$d ?v0 ?v1))))) :named a81))
-(assert (! (forall ((?v0 A_a_fun$) (?v1 A$)) (= (fun_app$a (siterate$a ?v0) ?v1) (sCons$ ?v1 (fun_app$a (siterate$a ?v0) (fun_app$f ?v0 ?v1))))) :named a82))
-(check-sat)
diff --git a/test/regress/regress0/quantifiers/subtype-param-unk.smt2 b/test/regress/regress0/quantifiers/subtype-param-unk.smt2
deleted file mode 100644
index f3ee6a86a..000000000
--- a/test/regress/regress0/quantifiers/subtype-param-unk.smt2
+++ /dev/null
@@ -1,24 +0,0 @@
-; COMMAND-LINE: --lang=smt2.5
-; EXPECT: (error "argument type is not a subtype of the function's argument type:
-; EXPECT: argument:  x
-; EXPECT: has type:  (List Int)
-; EXPECT: not subtype: (List Real)
-; EXPECT: in term : (R (as x (List Real)))")
-; EXIT: 1
-
-; this will fail if type rule for APPLY_UF requires arguments to be subtypes
-(set-logic ALL_SUPPORTED)
-
-(declare-datatypes (T) ((List (cons (hd T) (tl (List T))) (nil))))
-
-(declare-fun R ((List Real)) Bool)
-(assert (forall ((x (List Int))) (R x)))
-(declare-fun j1 () (List Real))
-(assert (not (R j1)))
-
-(declare-fun Q ((Array Int Real)) Bool)
-(assert (forall ((x (Array Int Int))) (Q x)))
-(declare-fun j2 () (Array Int Real))
-(assert (not (Q j2)))
-
-(check-sat)
diff --git a/test/regress/regress0/quantifiers/subtype-param.smt2 b/test/regress/regress0/quantifiers/subtype-param.smt2
deleted file mode 100644
index 860c03b6f..000000000
--- a/test/regress/regress0/quantifiers/subtype-param.smt2
+++ /dev/null
@@ -1,24 +0,0 @@
-; COMMAND-LINE: --lang=smt2.5
-; EXPECT: (error "argument type is not a subtype of the function's argument type:
-; EXPECT: argument:  x
-; EXPECT: has type:  (Array Int Int)
-; EXPECT: not subtype: (Array Int Real)
-; EXPECT: in term : (Q (as x (Array Int Real)))")
-; EXIT: 1
-
-(set-logic ALL_SUPPORTED)
-(set-info :status unsat)
-
-(declare-datatypes (T) ((List (cons (hd T) (tl (List T))) (nil))))
-
-(declare-fun R ((List Real)) Bool)
-(assert (forall ((x (List Real))) (R x)))
-
-(declare-fun Q ((Array Int Real)) Bool)
-(assert (forall ((x (Array Int Int))) (Q x)))
-
-(declare-fun k1 () (List Int))
-(declare-fun k2 () (Array Real Int))
-(assert (or (not (R k1)) (not (Q k2))))
-
-(check-sat)
diff --git a/test/regress/regress0/quantifiers/symmetric_unsat_7.smt2 b/test/regress/regress0/quantifiers/symmetric_unsat_7.smt2
deleted file mode 100644
index 6acf4a3c6..000000000
--- a/test/regress/regress0/quantifiers/symmetric_unsat_7.smt2
+++ /dev/null
@@ -1,34 +0,0 @@
-(set-logic AUFLIRA)
-(set-info :source | Example extracted from Peter Baumgartner's talk at CADE-21: Logical Engineering with Instance-Based Methods.
-
-It was translated to SMT-LIB by Leonardo de Moura |)
-(set-info :smt-lib-version 2.0)
-(set-info :category "crafted")
-(set-info :status unsat)
-(declare-fun symmetric ((Array Int (Array Int Real)) Int) Bool)
-(declare-fun n () Int)
-(declare-fun a0 () (Array Int (Array Int Real)))
-(declare-fun e0 () Real)
-(declare-fun a1 () (Array Int (Array Int Real)))
-(declare-fun e1 () Real)
-(declare-fun a2 () (Array Int (Array Int Real)))
-(declare-fun e2 () Real)
-(declare-fun a3 () (Array Int (Array Int Real)))
-(declare-fun e3 () Real)
-(declare-fun a4 () (Array Int (Array Int Real)))
-(declare-fun e4 () Real)
-(declare-fun a5 () (Array Int (Array Int Real)))
-(declare-fun e5 () Real)
-(declare-fun a6 () (Array Int (Array Int Real)))
-(declare-fun e6 () Real)
-(assert (forall ((?a (Array Int (Array Int Real))) (?n Int)) (= (symmetric ?a ?n) (forall ((?i Int) (?j Int)) (=> (and (<= 1 ?i) (<= ?i ?n) (<= 1 ?j) (<= ?j ?n)) (= (select (select ?a ?i) ?j) (select (select ?a ?j) ?i)))))))
-(assert (symmetric a0 n))
-(assert (= a1 (store a0 0 (store (select a0 0) 0 e0))))
-(assert (= a2 (store a1 1 (store (select a1 1) 1 e1))))
-(assert (= a3 (store a2 2 (store (select a2 2) 2 e2))))
-(assert (= a4 (store a3 3 (store (select a3 3) 3 e3))))
-(assert (= a5 (store a4 4 (store (select a4 4) 4 e4))))
-(assert (= a6 (store a5 5 (store (select a5 5) 5 e5))))
-(assert (not (symmetric a6 n)))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/quantifiers/z3.620661-no-fv-trigger.smt2 b/test/regress/regress0/quantifiers/z3.620661-no-fv-trigger.smt2
deleted file mode 100644
index aad2a4691..000000000
--- a/test/regress/regress0/quantifiers/z3.620661-no-fv-trigger.smt2
+++ /dev/null
@@ -1,87 +0,0 @@
-(set-logic AUFNIRA)
-(set-info :status unsat)
-(declare-sort S1 0)
-(declare-sort S2 0)
-(declare-sort S3 0)
-(declare-sort S4 0)
-(declare-sort S5 0)
-(declare-sort S6 0)
-(declare-sort S7 0)
-(declare-sort S8 0)
-(declare-sort S9 0)
-(declare-sort S10 0)
-(declare-sort S11 0)
-(declare-sort S12 0)
-(declare-sort S13 0)
-(declare-fun f1 () S1)
-(declare-fun f2 () S1)
-(declare-fun f3 (S2 Real) Real)
-(declare-fun f4 (S3 Real) S2)
-(declare-fun f5 () S3)
-(declare-fun f6 (S4 Int) Int)
-(declare-fun f7 (S5 Int) S4)
-(declare-fun f8 () S5)
-(declare-fun f9 () S2)
-(declare-fun f10 () Real)
-(declare-fun f11 () Real)
-(declare-fun f12 () S2)
-(declare-fun f13 (S7 S6) Real)
-(declare-fun f14 () S7)
-(declare-fun f15 () S2)
-(declare-fun f16 () S2)
-(declare-fun f17 (S8 Int) S6)
-(declare-fun f18 () S8)
-(declare-fun f19 (S9 S6) Int)
-(declare-fun f20 () S9)
-(declare-fun f21 (S10 Real) S7)
-(declare-fun f22 () S10)
-(declare-fun f23 () S2)
-(declare-fun f24 (S11 S6) S6)
-(declare-fun f25 (S12 S6) S11)
-(declare-fun f26 () S12)
-(declare-fun f27 () S12)
-(declare-fun f28 (S13 Int) S9)
-(declare-fun f29 () S13)
-(declare-fun f30 () S2)
-(declare-fun f31 () S4)
-(assert (not (= f1 f2)))
-(assert (forall ((?v0 Real) (?v1 Real)) (= (f3 (f4 f5 ?v0) ?v1) (* ?v0 ?v1))))
-(assert (forall ((?v0 Int) (?v1 Int)) (= (f6 (f7 f8 ?v0) ?v1) (* ?v0 ?v1))))
-(assert (not (= (f3 f9 (- f10 f11)) (- (f3 f9 f10)))))
-(assert (= (f3 f9 f11) 0.0))
-(assert (forall ((?v0 Real)) (= (f3 f9 (+ f11 ?v0)) (- (f3 f9 ?v0)))))
-(assert (= (f3 f9 (/ f11 2.0)) 1.0))
-(assert (= (f3 f9 (/ f11 6.0)) (/ 1.0 2.0)))
-(assert (= (f3 f9 (* 2.0 f11)) 0.0))
-(assert (= (f3 f9 (* (/ 3.0 2.0) f11)) (- 1.0)))
-(assert (let ((?v_0 2.0)) (<= (/ f11 ?v_0) ?v_0)))
-(assert (let ((?v_0 2.0)) (< (/ f11 ?v_0) ?v_0)))
-(assert (< (- (* 2.0 f11)) f11))
-(assert (< (- (/ f11 2.0)) 0.0))
-(assert (<= 2.0 f11))
-(assert (<= 0.0 (/ f11 2.0)))
-(assert (< 0.0 (/ f11 2.0)))
-(assert (< f11 4.0))
-(assert (<= 0.0 f11))
-(assert (< 0.0 f11))
-(assert (let ((?v_0 2.0)) (not (= (/ f11 ?v_0) ?v_0))))
-(assert (not (= (/ f11 2.0) 0.0)))
-(assert (not (< f11 0.0)))
-(assert (not (= f11 0.0)))
-(assert (forall ((?v0 S6) (?v1 S6)) (= (= (f13 f14 ?v0) (f13 f14 ?v1)) (= ?v0 ?v1))))
-(assert (forall ((?v0 S6) (?v1 S6)) (= (< (f13 f14 ?v0) (f13 f14 ?v1)) (< (f19 f20 ?v0) (f19 f20 ?v1)))))
-(assert (forall ((?v0 S6) (?v1 S6)) (= (<= (f13 f14 ?v0) (f13 f14 ?v1)) (<= (f19 f20 ?v0) (f19 f20 ?v1)))))
-(assert (forall ((?v0 S6) (?v1 S6)) (let ((?v_0 (f19 f20 ?v1)) (?v_1 (f19 f20 ?v0))) (=> (<= ?v_1 ?v_0) (= (f13 f14 (f17 f18 (- ?v_0 ?v_1))) (- (f13 f14 ?v1) (f13 f14 ?v0)))))))
-(assert (forall ((?v0 Real) (?v1 Real)) (exists ((?v2 Real) (?v3 Real)) (and (= ?v0 (* ?v2 (f3 f15 ?v3))) (= ?v1 (* ?v2 (f3 f9 ?v3)))))))
-(assert (< 1.0 (f3 f16 2.0)))
-(assert (< 0.0 (f3 f16 2.0)))
-(assert (<= 0.0 (f3 f16 2.0)))
-(assert (forall ((?v0 Real) (?v1 Real)) (<= 0.0 (f3 f16 (+ (* ?v0 ?v0) (* ?v1 ?v1))))))
-(assert (forall ((?v0 Real) (?v1 Real)) (=> (<= ?v0 ?v1) (<= (f3 f16 ?v0) (f3 f16 ?v1)))))
-(assert (forall ((?v0 Real) (?v1 Real)) (=> (< ?v0 ?v1) (< (f3 f16 ?v0) (f3 f16 ?v1)))))
-(assert (forall ((?v0 Real)) (let ((?v_0 0.0)) (=> (<= ?v_0 ?v0) (=> (= (f3 f16 ?v0) ?v_0) (= ?v0 ?v_0))))))
-(assert (forall ((?v0 Real)) (=> (< 0.0 ?v0) (< (/ ?v0 (f3 f16 2.0)) ?v0))))
-(assert (forall ((?v0 Real)) (let ((?v_0 0.0)) (=> (<= ?v_0 ?v0) (<= ?v_0 (f3 f16 ?v0))))))
-(assert (forall ((?v0 Real)) (let ((?v_0 1.0)) (=> (<= ?v_0 ?v0) (<= ?v_0 (f3 f16 ?v0))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/rels/Makefile.am b/test/regress/regress0/rels/Makefile.am
index c8fb739d0..9cdfa5b7b 100644
--- a/test/regress/regress0/rels/Makefile.am
+++ b/test/regress/regress0/rels/Makefile.am
@@ -22,18 +22,10 @@ MAKEFLAGS = -k
 # put it below in "TESTS +="
 TESTS =	\
   addr_book_0.cvc \
-  bv2.cvc \
   oneLoc_no_quant-int_0_1.cvc \
-  rel_complex_5.cvc \
   rel_join_3_1.cvc \
   rel_product_0_1.cvc \
-  rel_tc_10_1.cvc \
-  rel_tc_6.cvc \
-  rel_tp_join_2_1.cvc \
   rel_transpose_1_1.cvc \
-  strat_0_1.cvc \
-  addr_book_1_1.cvc \
-  prod-mod-eq2.cvc \
   rel_conflict_0.cvc \
   rel_join_3.cvc \
   rel_product_0.cvc \
@@ -41,83 +33,53 @@ TESTS =	\
   rel_tc_7.cvc \
   rel_tp_join_2.cvc \
   rel_transpose_1.cvc \
-  strat.cvc \
-  addr_book_1.cvc \
-  join-eq-structure_0_1.cvc \
-  prod-mod-eq.cvc \
   rel_join_0_1.cvc \
   rel_join_4.cvc \
   rel_product_1_1.cvc \
   rel_tc_2_1.cvc \
   rel_tp_join_3.cvc \
   rel_transpose_3.cvc \
-  bv1.cvc \
-  join-eq-structure-and.cvc \
   rel_1tup_0.cvc \
   rel_join_0.cvc \
   rel_join_5.cvc \
   rel_product_1.cvc \
   rel_tc_3_1.cvc \
-  rel_tc_9_1.cvc \
   rel_tp_join_eq_0.cvc \
   rel_transpose_4.cvc \
-  bv1p.cvc \
-  join-eq-structure.cvc \
   rel_complex_0.cvc \
   rel_join_1_1.cvc \
   rel_join_6.cvc \
   rel_symbolic_1_1.cvc \
   rel_tc_3.cvc \
-  rel_tp_2.cvc \
   rel_tp_join_int_0.cvc \
   rel_transpose_5.cvc \
-  bv1p-sat.cvc \
   join-eq-u.cvc \
   rel_complex_1.cvc \
   rel_join_1.cvc \
   rel_join_7.cvc \
   rel_symbolic_1.cvc \
-  rel_tc_4_1.cvc \
   rel_tp_3_1.cvc \
   rel_tp_join_pro_0.cvc \
   rel_transpose_6.cvc \
-  bv1-unitb.cvc \
   join-eq-u-sat.cvc \
-  rel_complex_3.cvc \
   rel_join_2_1.cvc \
-  rel_mix_0_1.cvc \
   rel_symbolic_2_1.cvc \
-  rel_tc_4.cvc \
   rel_tp_join_0.cvc \
   rel_tp_join_var_0.cvc \
   rel_transpose_7.cvc \
-  bv1-unit.cvc \
-  rel_complex_4.cvc \
   rel_join_2.cvc \
-  rel_pressure_0.cvc \
   rel_symbolic_3_1.cvc \
-  rel_tc_5_1.cvc \
   rel_tp_join_1.cvc \
   rel_transpose_0.cvc \
-  set-strat.cvc \
   rel_tc_8.cvc \
   atom_univ2.cvc \
   rels-sharing-simp.cvc \
   iden_0.cvc \
-  iden_1_1.cvc \
   iden_1.cvc \
-  joinImg_0_1.cvc \
-  joinImg_0_2.cvc \
   joinImg_0.cvc \
-  joinImg_1_1.cvc \
-  joinImg_1.cvc \
-  joinImg_2_1.cvc \
-  joinImg_2.cvc \
   card_transpose.cvc \
   relations-ops.smt2
 
-# unsolved : garbage_collect.cvc
-
 EXTRA_DIST = $(TESTS)
 
 # synonyms for "check"
diff --git a/test/regress/regress0/rels/addr_book_1.cvc b/test/regress/regress0/rels/addr_book_1.cvc
deleted file mode 100644
index 34176f274..000000000
--- a/test/regress/regress0/rels/addr_book_1.cvc
+++ /dev/null
@@ -1,45 +0,0 @@
-% EXPECT: unsat
-OPTION "logic" "ALL_SUPPORTED";
-Atom : TYPE;
-AtomTup : TYPE = [Atom];
-AtomBinTup : TYPE = [Atom, Atom];
-AtomTerTup : TYPE = [Atom, Atom, Atom];
-Target: SET OF AtomTup;
-
-Name: SET OF AtomTup;
-Addr: SET OF AtomTup;
-Book: SET OF AtomTup;
-names: SET OF AtomBinTup;
-addr: SET OF AtomTerTup;
-
-b1: Atom;
-b1_tup : AtomTup;
-ASSERT b1_tup = TUPLE(b1);
-ASSERT b1_tup IS_IN Book;
-
-b2: Atom;
-b2_tup : AtomTup;
-ASSERT b2_tup = TUPLE(b2);
-ASSERT b2_tup IS_IN Book;
-
-b3: Atom;
-b3_tup : AtomTup;
-ASSERT b3_tup = TUPLE(b3);
-ASSERT b3_tup IS_IN Book;
-
-m: Atom;
-m_tup : AtomTup;
-ASSERT m_tup = TUPLE(m);
-ASSERT m_tup IS_IN Name;
-
-t: Atom;
-t_tup : AtomTup;
-ASSERT t_tup = TUPLE(t);
-ASSERT t_tup IS_IN Target;
-
-ASSERT ({m_tup} JOIN ({b1_tup} JOIN addr)) = {}::SET OF AtomTup;
-ASSERT ({b2_tup} JOIN addr) = ({b1_tup} JOIN addr) | {(m,t)};
-ASSERT ({b3_tup} JOIN addr) = ({b2_tup} JOIN addr) - {(m,t)};
-ASSERT NOT (({b1_tup} JOIN addr) = ({b3_tup} JOIN addr));
-
-CHECKSAT;
\ No newline at end of file
diff --git a/test/regress/regress0/rels/addr_book_1_1.cvc b/test/regress/regress0/rels/addr_book_1_1.cvc
deleted file mode 100644
index 3273ade3a..000000000
--- a/test/regress/regress0/rels/addr_book_1_1.cvc
+++ /dev/null
@@ -1,45 +0,0 @@
-% EXPECT: sat
-OPTION "logic" "ALL_SUPPORTED";
-Atom : TYPE;
-AtomTup : TYPE = [Atom];
-AtomBinTup : TYPE = [Atom, Atom];
-AtomTerTup : TYPE = [Atom, Atom, Atom];
-Target: SET OF AtomTup;
-
-Name: SET OF AtomTup;
-Addr: SET OF AtomTup;
-Book: SET OF AtomTup;
-names: SET OF AtomBinTup;
-addr: SET OF AtomTerTup;
-
-b1: Atom;
-b1_tup : AtomTup;
-ASSERT b1_tup = TUPLE(b1);
-ASSERT b1_tup IS_IN Book;
-
-b2: Atom;
-b2_tup : AtomTup;
-ASSERT b2_tup = TUPLE(b2);
-ASSERT b2_tup IS_IN Book;
-
-b3: Atom;
-b3_tup : AtomTup;
-ASSERT b3_tup = TUPLE(b3);
-ASSERT b3_tup IS_IN Book;
-
-m: Atom;
-m_tup : AtomTup;
-ASSERT m_tup = TUPLE(m);
-ASSERT m_tup IS_IN Name;
-
-t: Atom;
-t_tup : AtomTup;
-ASSERT t_tup = TUPLE(t);
-ASSERT t_tup IS_IN Target;
-
-ASSERT ({m_tup} JOIN ({b1_tup} JOIN addr)) = {}::SET OF AtomTup;
-ASSERT ({b2_tup} JOIN addr) = ({b1_tup} JOIN addr) | {(m,t)};
-ASSERT ({b3_tup} JOIN addr) = ({b2_tup} JOIN addr) - {(m,t)};
-ASSERT (({b1_tup} JOIN addr) = ({b3_tup} JOIN addr));
-
-CHECKSAT;
\ No newline at end of file
diff --git a/test/regress/regress0/rels/bv1-unit.cvc b/test/regress/regress0/rels/bv1-unit.cvc
deleted file mode 100644
index 970ebdc8c..000000000
--- a/test/regress/regress0/rels/bv1-unit.cvc
+++ /dev/null
@@ -1,21 +0,0 @@
-% EXPECT: unsat
-OPTION "logic" "ALL_SUPPORTED";
-DATATYPE unit = u END;
-BvPair: TYPE = [BITVECTOR(1), unit, BITVECTOR(1)];
-x : SET OF BvPair;
-y : SET OF BvPair;
-
-a : BITVECTOR(1);
-b : BITVECTOR(1);
-c : BITVECTOR(1);
-d : BITVECTOR(1);
-e : BITVECTOR(1);
-
-ASSERT NOT ( b = c );
-
-ASSERT (a, u, b) IS_IN x;
-ASSERT (a, u, c) IS_IN x;
-ASSERT (d, u, a) IS_IN y;
-ASSERT NOT ( ( a, u, u, a ) IS_IN (x JOIN y));
-
-CHECKSAT;
diff --git a/test/regress/regress0/rels/bv1-unitb.cvc b/test/regress/regress0/rels/bv1-unitb.cvc
deleted file mode 100644
index 50a5bb48a..000000000
--- a/test/regress/regress0/rels/bv1-unitb.cvc
+++ /dev/null
@@ -1,22 +0,0 @@
-% EXPECT: unsat
-OPTION "logic" "ALL_SUPPORTED";
-DATATYPE unitb = ub(data : BITVECTOR(1)) END;
-BvPair: TYPE = [BITVECTOR(1), unitb, BITVECTOR(1)];
-x : SET OF BvPair;
-y : SET OF BvPair;
-
-a : BITVECTOR(1);
-b : BITVECTOR(1);
-c : BITVECTOR(1);
-d : BITVECTOR(1);
-e : BITVECTOR(1);
-u : unitb;
-
-ASSERT NOT ( b = c );
-
-ASSERT (a, u, b) IS_IN x;
-ASSERT (a, u, c) IS_IN x;
-ASSERT (d, u, a) IS_IN y;
-ASSERT NOT ( ( a, u, u, a ) IS_IN (x JOIN y));
-
-CHECKSAT;
diff --git a/test/regress/regress0/rels/bv1.cvc b/test/regress/regress0/rels/bv1.cvc
deleted file mode 100644
index 95e7419ba..000000000
--- a/test/regress/regress0/rels/bv1.cvc
+++ /dev/null
@@ -1,20 +0,0 @@
-% EXPECT: unsat
-OPTION "logic" "ALL_SUPPORTED";
-BvPair: TYPE = [BITVECTOR(1), BITVECTOR(1)];
-x : SET OF BvPair;
-y : SET OF BvPair;
-
-a : BITVECTOR(1);
-b : BITVECTOR(1);
-c : BITVECTOR(1);
-d : BITVECTOR(1);
-e : BITVECTOR(1);
-
-ASSERT NOT ( b = c );
-
-ASSERT (a, b) IS_IN x;
-ASSERT (a, c) IS_IN x;
-ASSERT (d, a) IS_IN y;
-ASSERT NOT ( ( a, a ) IS_IN (x JOIN y));
-
-CHECKSAT;
diff --git a/test/regress/regress0/rels/bv1p-sat.cvc b/test/regress/regress0/rels/bv1p-sat.cvc
deleted file mode 100644
index 5eceb214c..000000000
--- a/test/regress/regress0/rels/bv1p-sat.cvc
+++ /dev/null
@@ -1,22 +0,0 @@
-% EXPECT: sat
-OPTION "logic" "ALL_SUPPORTED";
-BvPair: TYPE = [BITVECTOR(1), BITVECTOR(1)];
-x : SET OF BvPair;
-y : SET OF BvPair;
-
-a : BvPair;
-b : BvPair;
-c : BvPair;
-d : BvPair;
-
-ASSERT DISTINCT ( a, b );
-ASSERT DISTINCT ( c, d );
-
-ASSERT a IS_IN x;
-ASSERT b IS_IN x;
-ASSERT a IS_IN y;
-ASSERT b IS_IN y;
-ASSERT NOT ( c IS_IN (x JOIN y)) AND NOT ( d IS_IN (x JOIN y));
-
-
-CHECKSAT;
diff --git a/test/regress/regress0/rels/bv1p.cvc b/test/regress/regress0/rels/bv1p.cvc
deleted file mode 100644
index 130ccae97..000000000
--- a/test/regress/regress0/rels/bv1p.cvc
+++ /dev/null
@@ -1,22 +0,0 @@
-% EXPECT: unsat
-OPTION "logic" "ALL_SUPPORTED";
-BvPair: TYPE = [BITVECTOR(1), BITVECTOR(1)];
-x : SET OF BvPair;
-y : SET OF BvPair;
-
-a : BvPair;
-b : BvPair;
-c : BvPair;
-d : BvPair;
-e : BvPair;
-
-ASSERT DISTINCT ( a, b );
-ASSERT DISTINCT ( c, d, e );
-
-ASSERT a IS_IN x;
-ASSERT b IS_IN x;
-ASSERT a IS_IN y;
-ASSERT b IS_IN y;
-ASSERT (NOT ( c IS_IN (x JOIN y)) AND NOT ( d IS_IN (x JOIN y)) AND NOT ( e IS_IN (x JOIN y)) );
-
-CHECKSAT;
diff --git a/test/regress/regress0/rels/bv2.cvc b/test/regress/regress0/rels/bv2.cvc
deleted file mode 100644
index d7162de7c..000000000
--- a/test/regress/regress0/rels/bv2.cvc
+++ /dev/null
@@ -1,20 +0,0 @@
-% EXPECT: sat
-OPTION "logic" "ALL_SUPPORTED";
-BvPair: TYPE = [BITVECTOR(2), BITVECTOR(2)];
-x : SET OF BvPair;
-y : SET OF BvPair;
-
-a : BITVECTOR(2);
-b : BITVECTOR(2);
-c : BITVECTOR(2);
-d : BITVECTOR(2);
-e : BITVECTOR(2);
-
-ASSERT NOT ( b = c );
-
-ASSERT (a, b) IS_IN x;
-ASSERT (a, c) IS_IN x;
-ASSERT (d, a) IS_IN y;
-ASSERT NOT ( ( a, a ) IS_IN (x JOIN y));
-
-CHECKSAT;
diff --git a/test/regress/regress0/rels/garbage_collect.cvc b/test/regress/regress0/rels/garbage_collect.cvc
deleted file mode 100644
index 1fc1f2fea..000000000
--- a/test/regress/regress0/rels/garbage_collect.cvc
+++ /dev/null
@@ -1,60 +0,0 @@
-% EXPECT: unsat
-H_TYPE: TYPE;
-H: TYPE = [H_TYPE];
-Obj: TYPE;
-Obj_Tup: TYPE = [Obj];
-MARK_TYPE: TYPE = [H_TYPE, Obj];
-RELATE: TYPE = [Obj, Obj];
-REF_TYPE: TYPE = [H_TYPE, Obj, Obj];
-
-% Symbols h0 to h3 are constants of type H that represents the system state;
-h0: SET OF H;
-h1: SET OF H;
-h2: SET OF H;
-h3: SET OF H;
-s0: H_TYPE;
-s1: H_TYPE;
-s2: H_TYPE;
-s3: H_TYPE;
-ASSERT h0 = {TUPLE(s0)};
-ASSERT h1 = {TUPLE(s1)};
-ASSERT h2 = {TUPLE(s2)};
-ASSERT h3 = {TUPLE(s3)};
-
-% ref ⊆ H × Obj × Obj represents references between objects in each state;
-ref : SET OF REF_TYPE;
-
-% mark ⊆ H × Obj represents the marked objects in each state
-mark: SET OF MARK_TYPE;
-
-empty_obj_set: SET OF Obj_Tup;
-ASSERT empty_obj_set = {}:: SET OF Obj_Tup;
-
-% root and live are two constants of type Obj that represents objects;
-root: Obj;
-live: Obj;
-
-% The state transition (h0–h1) resets all the marks
-ASSERT (h1 JOIN mark) = empty_obj_set;
-ASSERT (h0 JOIN ref) <= (h1 JOIN ref);
-
-% (h1–h2) marks objects reachable from root
-ASSERT FORALL (n : Obj) : ((root, n) IS_IN TCLOSURE(h1 JOIN ref)) 
-										  => (TUPLE(n) IS_IN (h2 JOIN mark));
-ASSERT (h1 JOIN ref) <= (h2 JOIN ref);
-
-% (h2–h3) sweeps references of non-marked objects										  
-
-ASSERT FORALL (n: Obj) : (NOT (TUPLE(n) IS_IN (h2 JOIN mark))) 
-										  => ({TUPLE(n)} JOIN (h3 JOIN ref)) = empty_obj_set;										  
-
-ASSERT FORALL (n: Obj) : (TUPLE(n) IS_IN (h2 JOIN mark))
-										  => ({TUPLE(n)} JOIN (h3 JOIN ref)) = ({TUPLE(n)} JOIN (h2 JOIN ref));	
-
-%The safety property is negated, thus it checks if
-%in the final state, there is a live object that was originally reachable from root
-%in the beginning state, but some of its references have been swept 										  
-ASSERT (root, live) IS_IN TCLOSURE(h0 JOIN ref);
-ASSERT NOT (({TUPLE(live)} JOIN (h0 JOIN ref)) <= ({TUPLE(live)} JOIN (h3 JOIN ref)));										  
-
-CHECKSAT;
\ No newline at end of file
diff --git a/test/regress/regress0/rels/iden_1_1.cvc b/test/regress/regress0/rels/iden_1_1.cvc
deleted file mode 100644
index 985a35a89..000000000
--- a/test/regress/regress0/rels/iden_1_1.cvc
+++ /dev/null
@@ -1,22 +0,0 @@
-% EXPECT: sat
-OPTION "sets-ext";
-OPTION "logic" "ALL_SUPPORTED";
-Atom:TYPE;
-AtomPair: TYPE = [Atom, Atom];
-x : SET OF AtomPair;
-t : SET OF [Atom];
-univ : SET OF [Atom];
-univ2 : SET OF [Atom,Atom];
-
-a : Atom;
-b : Atom;
-c : Atom;
-d : Atom;
-ASSERT univ = UNIVERSE::SET OF [Atom];
-ASSERT univ2 = UNIVERSE::SET OF [Atom, Atom];
-ASSERT univ2 = (univ PRODUCT univ);
-ASSERT (a, b) IS_IN x;
-ASSERT (c, d) IS_IN x;
-ASSERT NOT(a = b);
-ASSERT IDEN(univ) <= x;
-CHECKSAT;
diff --git a/test/regress/regress0/rels/join-eq-structure-and.cvc b/test/regress/regress0/rels/join-eq-structure-and.cvc
deleted file mode 100644
index 177410b1e..000000000
--- a/test/regress/regress0/rels/join-eq-structure-and.cvc
+++ /dev/null
@@ -1,26 +0,0 @@
-% EXPECT: unsat
-OPTION "logic" "ALL_SUPPORTED";
-IntPair: TYPE = [INT, INT];
-x : SET OF IntPair;
-y : SET OF IntPair;
-DATATYPE unit = u END;
-IntUPair: TYPE = [INT, unit];
-UIntPair: TYPE = [unit, INT];
-w : SET OF IntUPair;
-z : SET OF UIntPair;
-
-ASSERT  (x JOIN y) = (w JOIN z) AND (x JOIN y ) = TRANSPOSE(w JOIN z);
-
-ASSERT (0,1) IS_IN (x JOIN y);
-
-t : INT;
-ASSERT t >= 0 AND t <=1;
-s : INT;
-ASSERT s >= 0 AND s <=1;
-
-ASSERT s+t = 1;
-
-ASSERT ( s ,u ) IS_IN w;
-ASSERT NOT ( u, t ) IS_IN z;
-
-CHECKSAT;
diff --git a/test/regress/regress0/rels/join-eq-structure.cvc b/test/regress/regress0/rels/join-eq-structure.cvc
deleted file mode 100644
index e27d3811c..000000000
--- a/test/regress/regress0/rels/join-eq-structure.cvc
+++ /dev/null
@@ -1,26 +0,0 @@
-% EXPECT: sat
-OPTION "logic" "ALL_SUPPORTED";
-IntPair: TYPE = [INT, INT];
-x : SET OF IntPair;
-y : SET OF IntPair;
-DATATYPE unit = u END;
-IntUPair: TYPE = [INT, unit];
-UIntPair: TYPE = [unit, INT];
-w : SET OF IntUPair;
-z : SET OF UIntPair;
-
-ASSERT  (x JOIN y) = (w JOIN z) OR (x JOIN y ) = TRANSPOSE(w JOIN z);
-
-ASSERT (0,1) IS_IN (x JOIN y);
-
-t : INT;
-ASSERT t >= 0 AND t <=1;
-s : INT;
-ASSERT s >= 0 AND s <=1;
-
-ASSERT s+t = 1;
-
-ASSERT ( s ,u ) IS_IN w;
-ASSERT NOT ( u, t ) IS_IN z;
-
-CHECKSAT;
diff --git a/test/regress/regress0/rels/join-eq-structure_0_1.cvc b/test/regress/regress0/rels/join-eq-structure_0_1.cvc
deleted file mode 100644
index e27d3811c..000000000
--- a/test/regress/regress0/rels/join-eq-structure_0_1.cvc
+++ /dev/null
@@ -1,26 +0,0 @@
-% EXPECT: sat
-OPTION "logic" "ALL_SUPPORTED";
-IntPair: TYPE = [INT, INT];
-x : SET OF IntPair;
-y : SET OF IntPair;
-DATATYPE unit = u END;
-IntUPair: TYPE = [INT, unit];
-UIntPair: TYPE = [unit, INT];
-w : SET OF IntUPair;
-z : SET OF UIntPair;
-
-ASSERT  (x JOIN y) = (w JOIN z) OR (x JOIN y ) = TRANSPOSE(w JOIN z);
-
-ASSERT (0,1) IS_IN (x JOIN y);
-
-t : INT;
-ASSERT t >= 0 AND t <=1;
-s : INT;
-ASSERT s >= 0 AND s <=1;
-
-ASSERT s+t = 1;
-
-ASSERT ( s ,u ) IS_IN w;
-ASSERT NOT ( u, t ) IS_IN z;
-
-CHECKSAT;
diff --git a/test/regress/regress0/rels/joinImg_0_1.cvc b/test/regress/regress0/rels/joinImg_0_1.cvc
deleted file mode 100644
index 4e69394bd..000000000
--- a/test/regress/regress0/rels/joinImg_0_1.cvc
+++ /dev/null
@@ -1,36 +0,0 @@
-% EXPECT: sat
-OPTION "logic" "ALL_SUPPORTED";
-OPTION "sets-ext";
-IntPair: TYPE = [INT, INT];
-x : SET OF IntPair;
-y : SET OF IntPair;
-r : SET OF IntPair;
-
-t : SET OF [INT];
-u : SET OF [INT];
-
-z : IntPair;
-ASSERT z = (1,2);
-zt : IntPair;
-ASSERT zt = (2,1);
-v : IntPair;
-ASSERT v = (1,1);
-a : IntPair;
-ASSERT a = (1,5);
-b: INT;
-
-ASSERT (1, 7) IS_IN x;
-ASSERT z IS_IN x;
-
-ASSERT (7, 5) IS_IN y;
-
-ASSERT t = (x JOIN_IMAGE 2);
-
-ASSERT TUPLE(3) IS_IN (x JOIN_IMAGE 2);
-
-ASSERT u = (x JOIN_IMAGE 1);
-
-ASSERT TUPLE(4) IS_IN (x JOIN_IMAGE 2);
-
-ASSERT TUPLE(b) IS_IN (x JOIN_IMAGE 1);
-CHECKSAT;
diff --git a/test/regress/regress0/rels/joinImg_0_2.cvc b/test/regress/regress0/rels/joinImg_0_2.cvc
deleted file mode 100644
index e15920804..000000000
--- a/test/regress/regress0/rels/joinImg_0_2.cvc
+++ /dev/null
@@ -1,39 +0,0 @@
-% EXPECT: sat
-OPTION "sets-ext";
-OPTION "logic" "ALL_SUPPORTED";
-IntPair: TYPE = [INT, INT];
-x : SET OF IntPair;
-y : SET OF IntPair;
-r : SET OF IntPair;
-
-t : SET OF [INT];
-u : SET OF [INT];
-univ : SET OF [INT];
-
-z : IntPair;
-ASSERT z = (1,2);
-zt : IntPair;
-ASSERT zt = (2,1);
-s : IntPair;
-ASSERT s = (1,1);
-a : IntPair;
-ASSERT a = (1,5);
-b: INT;
-
-ASSERT (1, 7) IS_IN x;
-ASSERT z IS_IN x;
-
-ASSERT (7, 5) IS_IN y;
-
-ASSERT t = (x JOIN_IMAGE 2);
-ASSERT univ = (x JOIN_IMAGE 0);
-ASSERT TUPLE(100) IS_IN t;
-
-ASSERT NOT (TUPLE(3) IS_IN univ);
-
-ASSERT u = (x JOIN_IMAGE 1);
-
-ASSERT TUPLE(4) IS_IN (x JOIN_IMAGE 2);
-
-ASSERT TUPLE(b) IS_IN (x JOIN_IMAGE 1);
-CHECKSAT;
diff --git a/test/regress/regress0/rels/joinImg_1.cvc b/test/regress/regress0/rels/joinImg_1.cvc
deleted file mode 100644
index 81f208fc4..000000000
--- a/test/regress/regress0/rels/joinImg_1.cvc
+++ /dev/null
@@ -1,21 +0,0 @@
-% EXPECT: unsat
-OPTION "logic" "ALL_SUPPORTED";
-OPTION "sets-ext";
-Atom: TYPE;
-x : SET OF [Atom, Atom];
-y : SET OF [Atom, Atom];
-r : SET OF [Atom, Atom];
-
-t : SET OF [Atom];
-
-a : Atom;
-b : Atom;
-c : Atom;
-d : Atom;
-e : Atom;
-
-ASSERT TUPLE(a) IS_IN (x JOIN_IMAGE 2);
-ASSERT x = {(b, c), (d, e), (c, e)};
-ASSERT NOT(a = b);
-
-CHECKSAT;
diff --git a/test/regress/regress0/rels/joinImg_1_1.cvc b/test/regress/regress0/rels/joinImg_1_1.cvc
deleted file mode 100644
index 003770a1b..000000000
--- a/test/regress/regress0/rels/joinImg_1_1.cvc
+++ /dev/null
@@ -1,22 +0,0 @@
-% EXPECT: sat
-OPTION "logic" "ALL_SUPPORTED";
-OPTION "sets-ext";
-Atom: TYPE;
-x : SET OF [Atom, Atom];
-y : SET OF [Atom, Atom];
-r : SET OF [Atom, Atom];
-
-t : SET OF [Atom];
-
-a : Atom;
-b : Atom;
-c : Atom;
-d : Atom;
-e : Atom;
-
-ASSERT TUPLE(a) IS_IN (x JOIN_IMAGE 2);
-ASSERT t = (x JOIN_IMAGE 2); 
-ASSERT x = {(b, c), (d, e), (c, e)};
-ASSERT TUPLE(c) IS_IN t;
-
-CHECKSAT;
diff --git a/test/regress/regress0/rels/joinImg_2.cvc b/test/regress/regress0/rels/joinImg_2.cvc
deleted file mode 100644
index a4acfe6c6..000000000
--- a/test/regress/regress0/rels/joinImg_2.cvc
+++ /dev/null
@@ -1,34 +0,0 @@
-% EXPECT: unsat
-OPTION "logic" "ALL_SUPPORTED";
-OPTION "sets-ext";
-Atom: TYPE;
-x : SET OF [Atom, Atom];
-y : SET OF [Atom, Atom];
-r : SET OF [Atom, Atom];
-
-t : SET OF [Atom];
-
-a : Atom;
-b : Atom;
-c : Atom;
-d : Atom;
-e : Atom;
-f : Atom;
-g : Atom;
-
-ASSERT TUPLE(a) IS_IN (x JOIN_IMAGE 2);
-ASSERT TUPLE(a) IS_IN (y JOIN_IMAGE 3);
-%ASSERT y = {(f, g), (b, c), (d, e), (c, e)};
-ASSERT x = {(f, g), (b, c), (d, e), (c, e), (f, b)};
-ASSERT (a, f) IS_IN x;
-ASSERT (a, f) IS_IN y;
-ASSERT x = y;
-
-
-
-ASSERT NOT(a = b);
-
-ASSERT NOT (TUPLE(d) IS_IN (x JOIN_IMAGE 2));
-ASSERT f = d;
-
-CHECKSAT;
diff --git a/test/regress/regress0/rels/joinImg_2_1.cvc b/test/regress/regress0/rels/joinImg_2_1.cvc
deleted file mode 100644
index 03f88be37..000000000
--- a/test/regress/regress0/rels/joinImg_2_1.cvc
+++ /dev/null
@@ -1,25 +0,0 @@
-% EXPECT: sat
-OPTION "logic" "ALL_SUPPORTED";
-OPTION "sets-ext";
-Atom: TYPE;
-x : SET OF [Atom, Atom];
-y : SET OF [Atom, Atom];
-r : SET OF [Atom, Atom];
-
-t : SET OF [Atom];
-
-a : Atom;
-b : Atom;
-c : Atom;
-d : Atom;
-e : Atom;
-f : Atom;
-g : Atom;
-
-ASSERT TUPLE(a) IS_IN (x JOIN_IMAGE 2);
-ASSERT TUPLE(a) IS_IN (y JOIN_IMAGE 1);
-ASSERT y = {(f, g), (b, c), (d, e), (c, e)};
-ASSERT x = {(f, g), (b, c), (d, e), (c, e)};
-ASSERT (NOT(a = b)) OR (NOT(a = f));
-
-CHECKSAT;
diff --git a/test/regress/regress0/rels/prod-mod-eq.cvc b/test/regress/regress0/rels/prod-mod-eq.cvc
deleted file mode 100644
index 96ef2ffba..000000000
--- a/test/regress/regress0/rels/prod-mod-eq.cvc
+++ /dev/null
@@ -1,26 +0,0 @@
-% EXPECT: sat
-OPTION "logic" "ALL_SUPPORTED";
-IntPair: TYPE = [INT, INT];
-IntPairPair: TYPE = [INT, INT, INT, INT];
-x : SET OF IntPair;
-y : SET OF IntPair;
-z : SET OF IntPairPair;
-z1 : SET OF IntPair;
-w1 : SET OF IntPair;
-z2 : SET OF IntPair;
-w2 : SET OF IntPair;
-
-%ASSERT NOT (0,1,2,3) IS_IN (x PRODUCT y);
-
-ASSERT NOT( z = (x PRODUCT y) );
-
-ASSERT (0,1,2,3) IS_IN z;
-
-ASSERT (0,1) IS_IN z1;
-ASSERT (0,1) IS_IN z2;
-ASSERT (2,3) IS_IN w1;
-ASSERT (2,3) IS_IN w2;
-
-ASSERT ( x = z1 AND y = w1 ) OR ( x = z2 AND y = w2 );
-
-CHECKSAT;
diff --git a/test/regress/regress0/rels/prod-mod-eq2.cvc b/test/regress/regress0/rels/prod-mod-eq2.cvc
deleted file mode 100644
index b9341a216..000000000
--- a/test/regress/regress0/rels/prod-mod-eq2.cvc
+++ /dev/null
@@ -1,26 +0,0 @@
-% EXPECT: sat
-OPTION "logic" "ALL_SUPPORTED";
-IntPair: TYPE = [INT, INT];
-IntPairPair: TYPE = [INT, INT, INT, INT];
-x : SET OF IntPair;
-y : SET OF IntPair;
-z : SET OF IntPairPair;
-z1 : SET OF IntPair;
-w1 : SET OF IntPair;
-z2 : SET OF IntPair;
-w2 : SET OF IntPair;
-P : SET OF IntPairPair -> BOOLEAN;
-
-ASSERT z = (x PRODUCT y);
-
-ASSERT P( z );
-ASSERT NOT P( {(0,1,2,3)} );
-
-ASSERT (0,1) IS_IN z1;
-ASSERT (0,1) IS_IN z2;
-ASSERT (2,3) IS_IN w1;
-ASSERT (2,3) IS_IN w2;
-
-ASSERT ( x = z1 AND y = w1 ) OR ( x = z2 AND y = w2 );
-
-CHECKSAT;
diff --git a/test/regress/regress0/rels/rel_complex_3.cvc b/test/regress/regress0/rels/rel_complex_3.cvc
deleted file mode 100644
index 492c94432..000000000
--- a/test/regress/regress0/rels/rel_complex_3.cvc
+++ /dev/null
@@ -1,49 +0,0 @@
-% EXPECT: unsat
-OPTION "logic" "ALL_SUPPORTED";
-IntPair: TYPE = [INT, INT];
-x : SET OF IntPair;
-y : SET OF IntPair;
-z : SET OF IntPair;
-r : SET OF IntPair;
-w : SET OF IntPair;
-
-
-f : IntPair;
-ASSERT f = (3,1);
-ASSERT f IS_IN x;
-
-g : IntPair;
-ASSERT g = (1,3);
-ASSERT g IS_IN y;
-
-h : IntPair;
-ASSERT h = (3,5);
-ASSERT h IS_IN x;
-ASSERT h IS_IN y;
-
-ASSERT r = (x JOIN y);
-
-e : IntPair;
-
-ASSERT NOT (e IS_IN r);
-ASSERT NOT(z = (x & y));
-ASSERT z = (x - y);
-ASSERT x <= y;
-ASSERT e IS_IN (r JOIN z);
-ASSERT e IS_IN x;
-ASSERT e IS_IN (x & y);
-CHECKSAT TRUE;
-
-
-
-
-
-
-
-
-
-
-
-
-
-
diff --git a/test/regress/regress0/rels/rel_complex_4.cvc b/test/regress/regress0/rels/rel_complex_4.cvc
deleted file mode 100644
index f473b00aa..000000000
--- a/test/regress/regress0/rels/rel_complex_4.cvc
+++ /dev/null
@@ -1,52 +0,0 @@
-% EXPECT: unsat
-OPTION "logic" "ALL_SUPPORTED";
-IntPair: TYPE = [INT, INT];
-x : SET OF IntPair;
-y : SET OF IntPair;
-z : SET OF IntPair;
-r : SET OF IntPair;
-w : SET OF IntPair;
-
-
-f : IntPair;
-ASSERT f = (3,1);
-ASSERT f IS_IN x;
-
-g : IntPair;
-ASSERT g = (1,3);
-ASSERT g IS_IN y;
-
-h : IntPair;
-ASSERT h = (3,5);
-ASSERT h IS_IN x;
-ASSERT h IS_IN y;
-
-ASSERT r = (x JOIN y);
-a:INT;
-e : IntPair;
-ASSERT e = (a,a);
-ASSERT w = {e};
-ASSERT TRANSPOSE(w) <= y;
-
-ASSERT NOT (e IS_IN r);
-ASSERT NOT(z = (x & y));
-ASSERT z = (x - y);
-ASSERT x <= y;
-ASSERT e IS_IN (r JOIN z);
-ASSERT e IS_IN x;
-ASSERT e IS_IN (x & y);
-CHECKSAT TRUE;
-
-
-
-
-
-
-
-
-
-
-
-
-
-
diff --git a/test/regress/regress0/rels/rel_complex_5.cvc b/test/regress/regress0/rels/rel_complex_5.cvc
deleted file mode 100644
index d64817187..000000000
--- a/test/regress/regress0/rels/rel_complex_5.cvc
+++ /dev/null
@@ -1,55 +0,0 @@
-% EXPECT: unsat
-OPTION "logic" "ALL_SUPPORTED";
-IntPair: TYPE = [INT, INT];
-IntTup: TYPE = [INT];
-x : SET OF IntPair;
-y : SET OF IntPair;
-z : SET OF IntPair;
-r : SET OF IntPair;
-w : SET OF IntPair;
-
-
-f : IntPair;
-ASSERT f = (3,1);
-ASSERT f IS_IN x;
-
-g : IntPair;
-ASSERT g = (1,3);
-ASSERT g IS_IN y;
-
-h : IntPair;
-ASSERT h = (3,5);
-ASSERT h IS_IN x;
-ASSERT h IS_IN y;
-
-ASSERT r = (x JOIN y);
-a:IntTup;
-ASSERT a = TUPLE(1);
-e : IntPair;
-ASSERT e = (1,1);
-
-ASSERT w = ({a} PRODUCT {a});
-ASSERT TRANSPOSE(w) <= y;
-
-ASSERT NOT (e IS_IN r);
-ASSERT NOT(z = (x & y));
-ASSERT z = (x - y);
-ASSERT x <= y;
-ASSERT e IS_IN (r JOIN z);
-ASSERT e IS_IN x;
-ASSERT e IS_IN (x & y);
-CHECKSAT TRUE;
-
-
-
-
-
-
-
-
-
-
-
-
-
-
diff --git a/test/regress/regress0/rels/rel_mix_0_1.cvc b/test/regress/regress0/rels/rel_mix_0_1.cvc
deleted file mode 100644
index 723a9b2e2..000000000
--- a/test/regress/regress0/rels/rel_mix_0_1.cvc
+++ /dev/null
@@ -1,30 +0,0 @@
-% EXPECT: sat
-OPTION "logic" "ALL_SUPPORTED";
-IntPair: TYPE = [INT, INT];
-IntTup: TYPE = [INT];
-x : SET OF IntPair;
-y : SET OF IntPair;
-r : SET OF IntPair;
-
-w : SET OF IntTup;
-z : SET OF IntTup;
-r2 : SET OF IntPair;
-
-d : IntPair;
-ASSERT d = (1,3);
-ASSERT (1,3) IS_IN y;
-
-a : IntPair;
-ASSERT a IS_IN x;
-
-e : IntPair;
-ASSERT e = (4,3);
-
-ASSERT r = (x JOIN y);
-ASSERT r2 = (w PRODUCT z);
-
-ASSERT NOT (e IS_IN r);
-%ASSERT e IS_IN r2;
-ASSERT NOT (r = r2);
-
-CHECKSAT;
diff --git a/test/regress/regress0/rels/rel_pressure_0.cvc b/test/regress/regress0/rels/rel_pressure_0.cvc
deleted file mode 100644
index 6cdf03600..000000000
--- a/test/regress/regress0/rels/rel_pressure_0.cvc
+++ /dev/null
@@ -1,617 +0,0 @@
-% EXPECT: unsat
-OPTION "logic" "ALL_SUPPORTED";
-IntPair: TYPE = [INT, INT];
-x : SET OF IntPair;
-y : SET OF IntPair;
-z : SET OF IntPair;
-r : SET OF IntPair;
-
-a11 : IntPair;
-ASSERT a11 = (1, 1);
-ASSERT a11 IS_IN x;
-a12 : IntPair;
-ASSERT a12 = (1, 2);
-ASSERT a12 IS_IN x;
-a13 : IntPair;
-ASSERT a13 = (1, 3);
-ASSERT a13 IS_IN x;
-a14 : IntPair;
-ASSERT a14 = (1, 4);
-ASSERT a14 IS_IN x;
-a15 : IntPair;
-ASSERT a15 = (1, 5);
-ASSERT a15 IS_IN x;
-a16 : IntPair;
-ASSERT a16 = (1, 6);
-ASSERT a16 IS_IN x;
-a17 : IntPair;
-ASSERT a17 = (1, 7);
-ASSERT a17 IS_IN x;
-a18 : IntPair;
-ASSERT a18 = (1, 8);
-ASSERT a18 IS_IN x;
-a19 : IntPair;
-ASSERT a19 = (1, 9);
-ASSERT a19 IS_IN x;
-a110 : IntPair;
-ASSERT a110 = (1, 10);
-ASSERT a110 IS_IN x;
-a21 : IntPair;
-ASSERT a21 = (2, 1);
-ASSERT a21 IS_IN x;
-a22 : IntPair;
-ASSERT a22 = (2, 2);
-ASSERT a22 IS_IN x;
-a23 : IntPair;
-ASSERT a23 = (2, 3);
-ASSERT a23 IS_IN x;
-a24 : IntPair;
-ASSERT a24 = (2, 4);
-ASSERT a24 IS_IN x;
-a25 : IntPair;
-ASSERT a25 = (2, 5);
-ASSERT a25 IS_IN x;
-a26 : IntPair;
-ASSERT a26 = (2, 6);
-ASSERT a26 IS_IN x;
-a27 : IntPair;
-ASSERT a27 = (2, 7);
-ASSERT a27 IS_IN x;
-a28 : IntPair;
-ASSERT a28 = (2, 8);
-ASSERT a28 IS_IN x;
-a29 : IntPair;
-ASSERT a29 = (2, 9);
-ASSERT a29 IS_IN x;
-a210 : IntPair;
-ASSERT a210 = (2, 10);
-ASSERT a210 IS_IN x;
-a31 : IntPair;
-ASSERT a31 = (3, 1);
-ASSERT a31 IS_IN x;
-a32 : IntPair;
-ASSERT a32 = (3, 2);
-ASSERT a32 IS_IN x;
-a33 : IntPair;
-ASSERT a33 = (3, 3);
-ASSERT a33 IS_IN x;
-a34 : IntPair;
-ASSERT a34 = (3, 4);
-ASSERT a34 IS_IN x;
-a35 : IntPair;
-ASSERT a35 = (3, 5);
-ASSERT a35 IS_IN x;
-a36 : IntPair;
-ASSERT a36 = (3, 6);
-ASSERT a36 IS_IN x;
-a37 : IntPair;
-ASSERT a37 = (3, 7);
-ASSERT a37 IS_IN x;
-a38 : IntPair;
-ASSERT a38 = (3, 8);
-ASSERT a38 IS_IN x;
-a39 : IntPair;
-ASSERT a39 = (3, 9);
-ASSERT a39 IS_IN x;
-a310 : IntPair;
-ASSERT a310 = (3, 10);
-ASSERT a310 IS_IN x;
-a41 : IntPair;
-ASSERT a41 = (4, 1);
-ASSERT a41 IS_IN x;
-a42 : IntPair;
-ASSERT a42 = (4, 2);
-ASSERT a42 IS_IN x;
-a43 : IntPair;
-ASSERT a43 = (4, 3);
-ASSERT a43 IS_IN x;
-a44 : IntPair;
-ASSERT a44 = (4, 4);
-ASSERT a44 IS_IN x;
-a45 : IntPair;
-ASSERT a45 = (4, 5);
-ASSERT a45 IS_IN x;
-a46 : IntPair;
-ASSERT a46 = (4, 6);
-ASSERT a46 IS_IN x;
-a47 : IntPair;
-ASSERT a47 = (4, 7);
-ASSERT a47 IS_IN x;
-a48 : IntPair;
-ASSERT a48 = (4, 8);
-ASSERT a48 IS_IN x;
-a49 : IntPair;
-ASSERT a49 = (4, 9);
-ASSERT a49 IS_IN x;
-a410 : IntPair;
-ASSERT a410 = (4, 10);
-ASSERT a410 IS_IN x;
-a51 : IntPair;
-ASSERT a51 = (5, 1);
-ASSERT a51 IS_IN x;
-a52 : IntPair;
-ASSERT a52 = (5, 2);
-ASSERT a52 IS_IN x;
-a53 : IntPair;
-ASSERT a53 = (5, 3);
-ASSERT a53 IS_IN x;
-a54 : IntPair;
-ASSERT a54 = (5, 4);
-ASSERT a54 IS_IN x;
-a55 : IntPair;
-ASSERT a55 = (5, 5);
-ASSERT a55 IS_IN x;
-a56 : IntPair;
-ASSERT a56 = (5, 6);
-ASSERT a56 IS_IN x;
-a57 : IntPair;
-ASSERT a57 = (5, 7);
-ASSERT a57 IS_IN x;
-a58 : IntPair;
-ASSERT a58 = (5, 8);
-ASSERT a58 IS_IN x;
-a59 : IntPair;
-ASSERT a59 = (5, 9);
-ASSERT a59 IS_IN x;
-a510 : IntPair;
-ASSERT a510 = (5, 10);
-ASSERT a510 IS_IN x;
-a61 : IntPair;
-ASSERT a61 = (6, 1);
-ASSERT a61 IS_IN x;
-a62 : IntPair;
-ASSERT a62 = (6, 2);
-ASSERT a62 IS_IN x;
-a63 : IntPair;
-ASSERT a63 = (6, 3);
-ASSERT a63 IS_IN x;
-a64 : IntPair;
-ASSERT a64 = (6, 4);
-ASSERT a64 IS_IN x;
-a65 : IntPair;
-ASSERT a65 = (6, 5);
-ASSERT a65 IS_IN x;
-a66 : IntPair;
-ASSERT a66 = (6, 6);
-ASSERT a66 IS_IN x;
-a67 : IntPair;
-ASSERT a67 = (6, 7);
-ASSERT a67 IS_IN x;
-a68 : IntPair;
-ASSERT a68 = (6, 8);
-ASSERT a68 IS_IN x;
-a69 : IntPair;
-ASSERT a69 = (6, 9);
-ASSERT a69 IS_IN x;
-a610 : IntPair;
-ASSERT a610 = (6, 10);
-ASSERT a610 IS_IN x;
-a71 : IntPair;
-ASSERT a71 = (7, 1);
-ASSERT a71 IS_IN x;
-a72 : IntPair;
-ASSERT a72 = (7, 2);
-ASSERT a72 IS_IN x;
-a73 : IntPair;
-ASSERT a73 = (7, 3);
-ASSERT a73 IS_IN x;
-a74 : IntPair;
-ASSERT a74 = (7, 4);
-ASSERT a74 IS_IN x;
-a75 : IntPair;
-ASSERT a75 = (7, 5);
-ASSERT a75 IS_IN x;
-a76 : IntPair;
-ASSERT a76 = (7, 6);
-ASSERT a76 IS_IN x;
-a77 : IntPair;
-ASSERT a77 = (7, 7);
-ASSERT a77 IS_IN x;
-a78 : IntPair;
-ASSERT a78 = (7, 8);
-ASSERT a78 IS_IN x;
-a79 : IntPair;
-ASSERT a79 = (7, 9);
-ASSERT a79 IS_IN x;
-a710 : IntPair;
-ASSERT a710 = (7, 10);
-ASSERT a710 IS_IN x;
-a81 : IntPair;
-ASSERT a81 = (8, 1);
-ASSERT a81 IS_IN x;
-a82 : IntPair;
-ASSERT a82 = (8, 2);
-ASSERT a82 IS_IN x;
-a83 : IntPair;
-ASSERT a83 = (8, 3);
-ASSERT a83 IS_IN x;
-a84 : IntPair;
-ASSERT a84 = (8, 4);
-ASSERT a84 IS_IN x;
-a85 : IntPair;
-ASSERT a85 = (8, 5);
-ASSERT a85 IS_IN x;
-a86 : IntPair;
-ASSERT a86 = (8, 6);
-ASSERT a86 IS_IN x;
-a87 : IntPair;
-ASSERT a87 = (8, 7);
-ASSERT a87 IS_IN x;
-a88 : IntPair;
-ASSERT a88 = (8, 8);
-ASSERT a88 IS_IN x;
-a89 : IntPair;
-ASSERT a89 = (8, 9);
-ASSERT a89 IS_IN x;
-a810 : IntPair;
-ASSERT a810 = (8, 10);
-ASSERT a810 IS_IN x;
-a91 : IntPair;
-ASSERT a91 = (9, 1);
-ASSERT a91 IS_IN x;
-a92 : IntPair;
-ASSERT a92 = (9, 2);
-ASSERT a92 IS_IN x;
-a93 : IntPair;
-ASSERT a93 = (9, 3);
-ASSERT a93 IS_IN x;
-a94 : IntPair;
-ASSERT a94 = (9, 4);
-ASSERT a94 IS_IN x;
-a95 : IntPair;
-ASSERT a95 = (9, 5);
-ASSERT a95 IS_IN x;
-a96 : IntPair;
-ASSERT a96 = (9, 6);
-ASSERT a96 IS_IN x;
-a97 : IntPair;
-ASSERT a97 = (9, 7);
-ASSERT a97 IS_IN x;
-a98 : IntPair;
-ASSERT a98 = (9, 8);
-ASSERT a98 IS_IN x;
-a99 : IntPair;
-ASSERT a99 = (9, 9);
-ASSERT a99 IS_IN x;
-a910 : IntPair;
-ASSERT a910 = (9, 10);
-ASSERT a910 IS_IN x;
-a101 : IntPair;
-ASSERT a101 = (10, 1);
-ASSERT a101 IS_IN x;
-a102 : IntPair;
-ASSERT a102 = (10, 2);
-ASSERT a102 IS_IN x;
-a103 : IntPair;
-ASSERT a103 = (10, 3);
-ASSERT a103 IS_IN x;
-a104 : IntPair;
-ASSERT a104 = (10, 4);
-ASSERT a104 IS_IN x;
-a105 : IntPair;
-ASSERT a105 = (10, 5);
-ASSERT a105 IS_IN x;
-a106 : IntPair;
-ASSERT a106 = (10, 6);
-ASSERT a106 IS_IN x;
-a107 : IntPair;
-ASSERT a107 = (10, 7);
-ASSERT a107 IS_IN x;
-a108 : IntPair;
-ASSERT a108 = (10, 8);
-ASSERT a108 IS_IN x;
-a109 : IntPair;
-ASSERT a109 = (10, 9);
-ASSERT a109 IS_IN x;
-a1010 : IntPair;
-ASSERT a1010 = (10, 10);
-ASSERT a1010 IS_IN x;
-b11 : IntPair;
-ASSERT b11 = (1, 1);
-ASSERT b11 IS_IN y;
-b12 : IntPair;
-ASSERT b12 = (1, 2);
-ASSERT b12 IS_IN y;
-b13 : IntPair;
-ASSERT b13 = (1, 3);
-ASSERT b13 IS_IN y;
-b14 : IntPair;
-ASSERT b14 = (1, 4);
-ASSERT b14 IS_IN y;
-b15 : IntPair;
-ASSERT b15 = (1, 5);
-ASSERT b15 IS_IN y;
-b16 : IntPair;
-ASSERT b16 = (1, 6);
-ASSERT b16 IS_IN y;
-b17 : IntPair;
-ASSERT b17 = (1, 7);
-ASSERT b17 IS_IN y;
-b18 : IntPair;
-ASSERT b18 = (1, 8);
-ASSERT b18 IS_IN y;
-b19 : IntPair;
-ASSERT b19 = (1, 9);
-ASSERT b19 IS_IN y;
-b110 : IntPair;
-ASSERT b110 = (1, 10);
-ASSERT b110 IS_IN y;
-b21 : IntPair;
-ASSERT b21 = (2, 1);
-ASSERT b21 IS_IN y;
-b22 : IntPair;
-ASSERT b22 = (2, 2);
-ASSERT b22 IS_IN y;
-b23 : IntPair;
-ASSERT b23 = (2, 3);
-ASSERT b23 IS_IN y;
-b24 : IntPair;
-ASSERT b24 = (2, 4);
-ASSERT b24 IS_IN y;
-b25 : IntPair;
-ASSERT b25 = (2, 5);
-ASSERT b25 IS_IN y;
-b26 : IntPair;
-ASSERT b26 = (2, 6);
-ASSERT b26 IS_IN y;
-b27 : IntPair;
-ASSERT b27 = (2, 7);
-ASSERT b27 IS_IN y;
-b28 : IntPair;
-ASSERT b28 = (2, 8);
-ASSERT b28 IS_IN y;
-b29 : IntPair;
-ASSERT b29 = (2, 9);
-ASSERT b29 IS_IN y;
-b210 : IntPair;
-ASSERT b210 = (2, 10);
-ASSERT b210 IS_IN y;
-b31 : IntPair;
-ASSERT b31 = (3, 1);
-ASSERT b31 IS_IN y;
-b32 : IntPair;
-ASSERT b32 = (3, 2);
-ASSERT b32 IS_IN y;
-b33 : IntPair;
-ASSERT b33 = (3, 3);
-ASSERT b33 IS_IN y;
-b34 : IntPair;
-ASSERT b34 = (3, 4);
-ASSERT b34 IS_IN y;
-b35 : IntPair;
-ASSERT b35 = (3, 5);
-ASSERT b35 IS_IN y;
-b36 : IntPair;
-ASSERT b36 = (3, 6);
-ASSERT b36 IS_IN y;
-b37 : IntPair;
-ASSERT b37 = (3, 7);
-ASSERT b37 IS_IN y;
-b38 : IntPair;
-ASSERT b38 = (3, 8);
-ASSERT b38 IS_IN y;
-b39 : IntPair;
-ASSERT b39 = (3, 9);
-ASSERT b39 IS_IN y;
-b310 : IntPair;
-ASSERT b310 = (3, 10);
-ASSERT b310 IS_IN y;
-b41 : IntPair;
-ASSERT b41 = (4, 1);
-ASSERT b41 IS_IN y;
-b42 : IntPair;
-ASSERT b42 = (4, 2);
-ASSERT b42 IS_IN y;
-b43 : IntPair;
-ASSERT b43 = (4, 3);
-ASSERT b43 IS_IN y;
-b44 : IntPair;
-ASSERT b44 = (4, 4);
-ASSERT b44 IS_IN y;
-b45 : IntPair;
-ASSERT b45 = (4, 5);
-ASSERT b45 IS_IN y;
-b46 : IntPair;
-ASSERT b46 = (4, 6);
-ASSERT b46 IS_IN y;
-b47 : IntPair;
-ASSERT b47 = (4, 7);
-ASSERT b47 IS_IN y;
-b48 : IntPair;
-ASSERT b48 = (4, 8);
-ASSERT b48 IS_IN y;
-b49 : IntPair;
-ASSERT b49 = (4, 9);
-ASSERT b49 IS_IN y;
-b410 : IntPair;
-ASSERT b410 = (4, 10);
-ASSERT b410 IS_IN y;
-b51 : IntPair;
-ASSERT b51 = (5, 1);
-ASSERT b51 IS_IN y;
-b52 : IntPair;
-ASSERT b52 = (5, 2);
-ASSERT b52 IS_IN y;
-b53 : IntPair;
-ASSERT b53 = (5, 3);
-ASSERT b53 IS_IN y;
-b54 : IntPair;
-ASSERT b54 = (5, 4);
-ASSERT b54 IS_IN y;
-b55 : IntPair;
-ASSERT b55 = (5, 5);
-ASSERT b55 IS_IN y;
-b56 : IntPair;
-ASSERT b56 = (5, 6);
-ASSERT b56 IS_IN y;
-b57 : IntPair;
-ASSERT b57 = (5, 7);
-ASSERT b57 IS_IN y;
-b58 : IntPair;
-ASSERT b58 = (5, 8);
-ASSERT b58 IS_IN y;
-b59 : IntPair;
-ASSERT b59 = (5, 9);
-ASSERT b59 IS_IN y;
-b510 : IntPair;
-ASSERT b510 = (5, 10);
-ASSERT b510 IS_IN y;
-b61 : IntPair;
-ASSERT b61 = (6, 1);
-ASSERT b61 IS_IN y;
-b62 : IntPair;
-ASSERT b62 = (6, 2);
-ASSERT b62 IS_IN y;
-b63 : IntPair;
-ASSERT b63 = (6, 3);
-ASSERT b63 IS_IN y;
-b64 : IntPair;
-ASSERT b64 = (6, 4);
-ASSERT b64 IS_IN y;
-b65 : IntPair;
-ASSERT b65 = (6, 5);
-ASSERT b65 IS_IN y;
-b66 : IntPair;
-ASSERT b66 = (6, 6);
-ASSERT b66 IS_IN y;
-b67 : IntPair;
-ASSERT b67 = (6, 7);
-ASSERT b67 IS_IN y;
-b68 : IntPair;
-ASSERT b68 = (6, 8);
-ASSERT b68 IS_IN y;
-b69 : IntPair;
-ASSERT b69 = (6, 9);
-ASSERT b69 IS_IN y;
-b610 : IntPair;
-ASSERT b610 = (6, 10);
-ASSERT b610 IS_IN y;
-b71 : IntPair;
-ASSERT b71 = (7, 1);
-ASSERT b71 IS_IN y;
-b72 : IntPair;
-ASSERT b72 = (7, 2);
-ASSERT b72 IS_IN y;
-b73 : IntPair;
-ASSERT b73 = (7, 3);
-ASSERT b73 IS_IN y;
-b74 : IntPair;
-ASSERT b74 = (7, 4);
-ASSERT b74 IS_IN y;
-b75 : IntPair;
-ASSERT b75 = (7, 5);
-ASSERT b75 IS_IN y;
-b76 : IntPair;
-ASSERT b76 = (7, 6);
-ASSERT b76 IS_IN y;
-b77 : IntPair;
-ASSERT b77 = (7, 7);
-ASSERT b77 IS_IN y;
-b78 : IntPair;
-ASSERT b78 = (7, 8);
-ASSERT b78 IS_IN y;
-b79 : IntPair;
-ASSERT b79 = (7, 9);
-ASSERT b79 IS_IN y;
-b710 : IntPair;
-ASSERT b710 = (7, 10);
-ASSERT b710 IS_IN y;
-b81 : IntPair;
-ASSERT b81 = (8, 1);
-ASSERT b81 IS_IN y;
-b82 : IntPair;
-ASSERT b82 = (8, 2);
-ASSERT b82 IS_IN y;
-b83 : IntPair;
-ASSERT b83 = (8, 3);
-ASSERT b83 IS_IN y;
-b84 : IntPair;
-ASSERT b84 = (8, 4);
-ASSERT b84 IS_IN y;
-b85 : IntPair;
-ASSERT b85 = (8, 5);
-ASSERT b85 IS_IN y;
-b86 : IntPair;
-ASSERT b86 = (8, 6);
-ASSERT b86 IS_IN y;
-b87 : IntPair;
-ASSERT b87 = (8, 7);
-ASSERT b87 IS_IN y;
-b88 : IntPair;
-ASSERT b88 = (8, 8);
-ASSERT b88 IS_IN y;
-b89 : IntPair;
-ASSERT b89 = (8, 9);
-ASSERT b89 IS_IN y;
-b810 : IntPair;
-ASSERT b810 = (8, 10);
-ASSERT b810 IS_IN y;
-b91 : IntPair;
-ASSERT b91 = (9, 1);
-ASSERT b91 IS_IN y;
-b92 : IntPair;
-ASSERT b92 = (9, 2);
-ASSERT b92 IS_IN y;
-b93 : IntPair;
-ASSERT b93 = (9, 3);
-ASSERT b93 IS_IN y;
-b94 : IntPair;
-ASSERT b94 = (9, 4);
-ASSERT b94 IS_IN y;
-b95 : IntPair;
-ASSERT b95 = (9, 5);
-ASSERT b95 IS_IN y;
-b96 : IntPair;
-ASSERT b96 = (9, 6);
-ASSERT b96 IS_IN y;
-b97 : IntPair;
-ASSERT b97 = (9, 7);
-ASSERT b97 IS_IN y;
-b98 : IntPair;
-ASSERT b98 = (9, 8);
-ASSERT b98 IS_IN y;
-b99 : IntPair;
-ASSERT b99 = (9, 9);
-ASSERT b99 IS_IN y;
-b910 : IntPair;
-ASSERT b910 = (9, 10);
-ASSERT b910 IS_IN y;
-b101 : IntPair;
-ASSERT b101 = (10, 1);
-ASSERT b101 IS_IN y;
-b102 : IntPair;
-ASSERT b102 = (10, 2);
-ASSERT b102 IS_IN y;
-b103 : IntPair;
-ASSERT b103 = (10, 3);
-ASSERT b103 IS_IN y;
-b104 : IntPair;
-ASSERT b104 = (10, 4);
-ASSERT b104 IS_IN y;
-b105 : IntPair;
-ASSERT b105 = (10, 5);
-ASSERT b105 IS_IN y;
-b106 : IntPair;
-ASSERT b106 = (10, 6);
-ASSERT b106 IS_IN y;
-b107 : IntPair;
-ASSERT b107 = (10, 7);
-ASSERT b107 IS_IN y;
-b108 : IntPair;
-ASSERT b108 = (10, 8);
-ASSERT b108 IS_IN y;
-b109 : IntPair;
-ASSERT b109 = (10, 9);
-ASSERT b109 IS_IN y;
-b1010 : IntPair;
-ASSERT b1010 = (10, 10);
-ASSERT b1010 IS_IN y;
-
-ASSERT (1, 9) IS_IN z;
-
-a : IntPair;
-ASSERT a = (9,1);
-ASSERT r = (((TRANSPOSE x) JOIN y) JOIN z);
-ASSERT NOT (a IS_IN (TRANSPOSE r));
-
-CHECKSAT;
diff --git a/test/regress/regress0/rels/rel_tc_10_1.cvc b/test/regress/regress0/rels/rel_tc_10_1.cvc
deleted file mode 100644
index 67c444070..000000000
--- a/test/regress/regress0/rels/rel_tc_10_1.cvc
+++ /dev/null
@@ -1,18 +0,0 @@
-% EXPECT: sat
-OPTION "logic" "ALL_SUPPORTED";
-IntPair: TYPE = [INT, INT];
-x : SET OF IntPair;
-y : SET OF IntPair;
-a: INT;
-b:INT;
-c:INT;
-d:INT;
-ASSERT a = c;
-ASSERT a = d;
-ASSERT (1, c) IS_IN x;
-ASSERT (2, d) IS_IN x;
-ASSERT (a, 5) IS_IN y;
-ASSERT y = (TCLOSURE x);
-ASSERT ((2, 5) IS_IN y);
-
-CHECKSAT;
diff --git a/test/regress/regress0/rels/rel_tc_4.cvc b/test/regress/regress0/rels/rel_tc_4.cvc
deleted file mode 100644
index decd38fe1..000000000
--- a/test/regress/regress0/rels/rel_tc_4.cvc
+++ /dev/null
@@ -1,19 +0,0 @@
-% EXPECT: unsat
-OPTION "logic" "ALL_SUPPORTED";
-IntPair: TYPE = [INT, INT];
-x : SET OF IntPair;
-y : SET OF IntPair;
-a: INT;
-b:INT;
-c:INT;
-d:INT;
-ASSERT (1, a) IS_IN x;
-ASSERT (1, c) IS_IN x;
-ASSERT (1, d) IS_IN x;
-ASSERT (b, 1) IS_IN x;
-ASSERT (b = d);
-ASSERT (2,b) IS_IN ((x JOIN x) JOIN x);
-ASSERT NOT (2, 1) IS_IN (TCLOSURE x);
-
-
-CHECKSAT;
diff --git a/test/regress/regress0/rels/rel_tc_4_1.cvc b/test/regress/regress0/rels/rel_tc_4_1.cvc
deleted file mode 100644
index 8ee75f7e9..000000000
--- a/test/regress/regress0/rels/rel_tc_4_1.cvc
+++ /dev/null
@@ -1,10 +0,0 @@
-% EXPECT: sat
-OPTION "logic" "ALL_SUPPORTED";
-IntPair: TYPE = [INT, INT];
-x : SET OF IntPair;
-y : SET OF IntPair;
-z : SET OF IntPair;
-ASSERT y = ((TCLOSURE x) JOIN x);
-ASSERT NOT (y = TCLOSURE x);
-
-CHECKSAT;
diff --git a/test/regress/regress0/rels/rel_tc_5_1.cvc b/test/regress/regress0/rels/rel_tc_5_1.cvc
deleted file mode 100644
index fd9caeade..000000000
--- a/test/regress/regress0/rels/rel_tc_5_1.cvc
+++ /dev/null
@@ -1,9 +0,0 @@
-% EXPECT: sat
-OPTION "logic" "ALL_SUPPORTED";
-IntPair: TYPE = [INT, INT];
-x : SET OF IntPair;
-y : SET OF IntPair;
-ASSERT y = (TCLOSURE x);
-ASSERT NOT ( y = ((x JOIN x) JOIN x));
-
-CHECKSAT;
diff --git a/test/regress/regress0/rels/rel_tc_6.cvc b/test/regress/regress0/rels/rel_tc_6.cvc
deleted file mode 100644
index 4570c5a8d..000000000
--- a/test/regress/regress0/rels/rel_tc_6.cvc
+++ /dev/null
@@ -1,9 +0,0 @@
-% EXPECT: unsat
-OPTION "logic" "ALL_SUPPORTED";
-IntPair: TYPE = [INT, INT];
-x : SET OF IntPair;
-y : SET OF IntPair;
-ASSERT y = (TCLOSURE x);
-ASSERT NOT (((x JOIN x) JOIN x) <= y);
-
-CHECKSAT;
diff --git a/test/regress/regress0/rels/rel_tc_9_1.cvc b/test/regress/regress0/rels/rel_tc_9_1.cvc
deleted file mode 100644
index f884349b1..000000000
--- a/test/regress/regress0/rels/rel_tc_9_1.cvc
+++ /dev/null
@@ -1,23 +0,0 @@
-% EXPECT: sat
-OPTION "logic" "ALL_SUPPORTED";
-IntPair: TYPE = [INT, INT];
-x : SET OF IntPair;
-y : SET OF IntPair;
-z : SET OF IntPair;
-w : SET OF IntPair;
-
-ASSERT z = (TCLOSURE x);
-ASSERT w = (x JOIN y);
-ASSERT (2, 2) IS_IN z;
-ASSERT (0,3) IS_IN y;
-ASSERT (-1,3) IS_IN y;
-ASSERT (1,3) IS_IN y;
-ASSERT (-2,3) IS_IN y;
-ASSERT (2,3) IS_IN y;
-ASSERT (3,3) IS_IN y;
-ASSERT (4,3) IS_IN y;
-ASSERT (5,3) IS_IN y;
-ASSERT NOT (2, 3) IS_IN (x JOIN y);
-ASSERT NOT (2,1) IS_IN x;
-
-CHECKSAT;
diff --git a/test/regress/regress0/rels/rel_tp_2.cvc b/test/regress/regress0/rels/rel_tp_2.cvc
deleted file mode 100644
index 441e79c45..000000000
--- a/test/regress/regress0/rels/rel_tp_2.cvc
+++ /dev/null
@@ -1,10 +0,0 @@
-% EXPECT: unsat
-OPTION "logic" "ALL_SUPPORTED";
-IntPair: TYPE = [INT, INT];
-x : SET OF IntPair;
-y : SET OF IntPair;
-z : SET OF IntPair;
-ASSERT (z = TRANSPOSE(y) OR z = TRANSPOSE(x));
-ASSERT NOT (TRANSPOSE(z) = y);
-ASSERT NOT (TRANSPOSE(z) = x);
-CHECKSAT;
\ No newline at end of file
diff --git a/test/regress/regress0/rels/rel_tp_join_2_1.cvc b/test/regress/regress0/rels/rel_tp_join_2_1.cvc
deleted file mode 100644
index acf3dbccf..000000000
--- a/test/regress/regress0/rels/rel_tp_join_2_1.cvc
+++ /dev/null
@@ -1,19 +0,0 @@
-% EXPECT: sat
-OPTION "logic" "ALL_SUPPORTED";
-IntPair: TYPE = [INT, INT];
-x : SET OF IntPair;
-y : SET OF IntPair;
-z : SET OF IntPair;
-r : SET OF IntPair;
-ASSERT (7, 1) IS_IN x;
-ASSERT (2, 3) IS_IN x;
-
-ASSERT (7, 3) IS_IN y;
-ASSERT (4, 7) IS_IN y;
-ASSERT (3, 4) IS_IN z;
-a : IntPair;
-ASSERT a = (4,1);
-
-ASSERT r = (((TRANSPOSE x) JOIN y) JOIN z);
-ASSERT a IS_IN (TRANSPOSE r);
-CHECKSAT;
diff --git a/test/regress/regress0/rels/set-strat.cvc b/test/regress/regress0/rels/set-strat.cvc
deleted file mode 100644
index 0dee0e84d..000000000
--- a/test/regress/regress0/rels/set-strat.cvc
+++ /dev/null
@@ -1,24 +0,0 @@
-% EXPECT: sat
-OPTION "logic" "ALL_SUPPORTED";
-IntPair: TYPE = [ INT, INT];
-SetIntPair: TYPE = [ SET OF IntPair, SET OF IntPair ];
-x : SET OF IntPair;
-y : SET OF IntPair;
-w : SET OF IntPair;
-z : SET OF SetIntPair;
-
-a : IntPair;
-b : IntPair;
-
-ASSERT NOT a = b;
-
-ASSERT a IS_IN x;
-ASSERT b IS_IN y;
-ASSERT b IS_IN w;
-ASSERT (x,y) IS_IN z;
-ASSERT (w,x) IS_IN z;
-ASSERT NOT ( (x,x) IS_IN (z JOIN z) );
-
-ASSERT (x, { ( 0, 0 ) } ) IS_IN (z JOIN z);
-
-CHECKSAT;
diff --git a/test/regress/regress0/rels/strat.cvc b/test/regress/regress0/rels/strat.cvc
deleted file mode 100644
index b91ddbbe8..000000000
--- a/test/regress/regress0/rels/strat.cvc
+++ /dev/null
@@ -1,24 +0,0 @@
-% EXPECT: sat
-OPTION "logic" "ALL_SUPPORTED";
-IntPair: TYPE = [ INT, INT];
-IntIntPair: TYPE = [ IntPair, IntPair];
-x : SET OF IntIntPair;
-y : SET OF IntIntPair;
-z : SET OF IntPair;
-w : SET OF IntPair;
-
-a : IntPair;
-b : IntPair;
-c : IntIntPair;
-
-ASSERT NOT a = b;
-
-ASSERT a IS_IN z;
-ASSERT b IS_IN z;
-ASSERT (a,b) IS_IN x;
-ASSERT (b,a) IS_IN x;
-ASSERT c IS_IN x;
-ASSERT NOT ( c = (a,b) ) AND NOT ( c = (b,a) );
-
-
-CHECKSAT;
diff --git a/test/regress/regress0/rels/strat_0_1.cvc b/test/regress/regress0/rels/strat_0_1.cvc
deleted file mode 100644
index b91ddbbe8..000000000
--- a/test/regress/regress0/rels/strat_0_1.cvc
+++ /dev/null
@@ -1,24 +0,0 @@
-% EXPECT: sat
-OPTION "logic" "ALL_SUPPORTED";
-IntPair: TYPE = [ INT, INT];
-IntIntPair: TYPE = [ IntPair, IntPair];
-x : SET OF IntIntPair;
-y : SET OF IntIntPair;
-z : SET OF IntPair;
-w : SET OF IntPair;
-
-a : IntPair;
-b : IntPair;
-c : IntIntPair;
-
-ASSERT NOT a = b;
-
-ASSERT a IS_IN z;
-ASSERT b IS_IN z;
-ASSERT (a,b) IS_IN x;
-ASSERT (b,a) IS_IN x;
-ASSERT c IS_IN x;
-ASSERT NOT ( c = (a,b) ) AND NOT ( c = (b,a) );
-
-
-CHECKSAT;
diff --git a/test/regress/regress0/rewriterules/Makefile.am b/test/regress/regress0/rewriterules/Makefile.am
index fcaa9dc2b..5df254bad 100644
--- a/test/regress/regress0/rewriterules/Makefile.am
+++ b/test/regress/regress0/rewriterules/Makefile.am
@@ -23,14 +23,12 @@ MAKEFLAGS = -k
 # put it below in "TESTS +="
 TESTS =	\
 	length_trick.smt2 \
-	length_gen_020.smt2 \
 	datatypes.smt2 \
-	datatypes_sat.smt2 \
 	relation.smt2 \
 	simulate_rewriting.smt2 \
 	native_arrays.smt2 
 
-# length_trick2.smt2 reachability_bbttf_eT_arrays.smt2 set_A_new_fast_tableau-base.smt2 set_A_new_fast_tableau-base_sat.smt2
+# length_trick2.smt2 reachability_bbttf_eT_arrays.smt2
 
 EXTRA_DIST = $(TESTS)
 
diff --git a/test/regress/regress0/rewriterules/datatypes2.smt2 b/test/regress/regress0/rewriterules/datatypes2.smt2
deleted file mode 100644
index 277ddc3ae..000000000
--- a/test/regress/regress0/rewriterules/datatypes2.smt2
+++ /dev/null
@@ -1,150 +0,0 @@
-;; try to solve datatypes with rewriterules
-(set-logic AUFLIA)
-(set-info :status unsat)
-
-;; lists 2 nil
-(declare-sort elt 0) ;; we suppose that elt is infinite
-(declare-sort list 0)
-
-(declare-fun nil1 () list)
-(declare-fun nil2 () list)
-(declare-fun cons1 (elt list) list)
-(declare-fun cons2 (elt list) list)
-
-;;;;;;;;;;;;;;;;;;;;
-;; injective
-
-(declare-fun inj11 (list) elt)
-(assert (forall ((?e elt) (?l list))
-                (! (! (=> true (=> true (= (inj11 (cons1 ?e ?l)) ?e))) :pattern ((cons1 ?e ?l)) ) :rewrite-rule) ))
-
-(declare-fun inj12 (list) list)
-(assert (forall ((?e elt) (?l list))
-                (! (! (=> true (=> true (= (inj12 (cons1 ?e ?l)) ?l))) :pattern ((cons1 ?e ?l)) ) :rewrite-rule) ))
-
-(declare-fun inj21 (list) elt)
-(assert (forall ((?e elt) (?l list))
-                (! (! (=> true (=> true (= (inj21 (cons2 ?e ?l)) ?e))) :pattern ((cons2 ?e ?l)) ) :rewrite-rule) ))
-
-(declare-fun inj22 (list) list)
-(assert (forall ((?e elt) (?l list))
-                (! (! (=> true (=> true (= (inj22 (cons2 ?e ?l)) ?l))) :pattern ((cons2 ?e ?l)) ) :rewrite-rule) ))
-
-
-;;;;;;;;;;;;;;;;;;;;
-;; projection
-
-(declare-fun proj11 (list) elt)
-(assert (forall ((?e elt) (?l list))
-                (! (= (proj11 (cons1 ?e ?l)) ?e) :rewrite-rule) ))
-
-(declare-fun proj12 (list) list)
-(assert (forall ((?e elt) (?l list))
-                (! (= (proj12 (cons1 ?e ?l)) ?l) :rewrite-rule) ))
-
-
-(declare-fun proj21 (list) elt)
-(assert (forall ((?e elt) (?l list))
-                (! (= (proj21 (cons2 ?e ?l)) ?e) :rewrite-rule) ))
-
-(declare-fun proj22 (list) list)
-(assert (forall ((?e elt) (?l list))
-                (! (= (proj22 (cons2 ?e ?l)) ?l) :rewrite-rule) ))
-
-
-;;;;;;;;;;;;;;;;;;;
-;; test
-(declare-fun iscons1 (list) Bool)
-(assert (= (iscons1 nil1) false))
-(assert (= (iscons1 nil2) false))
-(assert (forall ((?e elt) (?l list))
-                (! (! (=> true (=> true (= (iscons1 (cons1 ?e ?l)) true))) :pattern ((cons1 ?e ?l)) ) :rewrite-rule) ))
-(assert (forall ((?e elt) (?l list))
-                (! (! (=> true (=> true (= (iscons1 (cons2 ?e ?l)) false))) :pattern ((cons2 ?e ?l)) ) :rewrite-rule) ))
-
-(assert (forall ((?l list))
-                (! (! (=> true (=> (iscons1 ?l) (= ?l (cons1 (proj11 ?l) (proj12 ?l))))) :pattern ((proj11 ?l)) ) :rewrite-rule) ))
-(assert (forall ((?l list))
-                (! (! (=> true (=> (iscons1 ?l) (= ?l (cons1 (proj11 ?l) (proj12 ?l))))) :pattern ((proj12 ?l)) ) :rewrite-rule) ))
-
-
-(declare-fun iscons2 (list) Bool)
-(assert (= (iscons2 nil1) false))
-(assert (= (iscons2 nil2) false))
-(assert (forall ((?e elt) (?l list))
-                (! (! (=> true (=> true (= (iscons2 (cons1 ?e ?l)) false))) :pattern ((cons1 ?e ?l)) ) :rewrite-rule) ))
-(assert (forall ((?e elt) (?l list))
-                (! (! (=> true (=> true (= (iscons2 (cons2 ?e ?l)) true))) :pattern ((cons2 ?e ?l)) ) :rewrite-rule) ))
-
-(assert (forall ((?l list))
-                (! (! (=> true (=> (iscons2 ?l) (= ?l (cons2 (proj21 ?l) (proj22 ?l))))) :pattern ((proj21 ?l)) ) :rewrite-rule) ))
-(assert (forall ((?l list))
-                (! (! (=> true (=> (iscons2 ?l) (= ?l (cons2 (proj21 ?l) (proj22 ?l))))) :pattern ((proj22 ?l)) ) :rewrite-rule) ))
-
-
-(declare-fun isnil1 (list) Bool)
-(assert (= (isnil1 nil1) true))
-(assert (= (isnil1 nil2) false))
-(assert (forall ((?e elt) (?l list))
-                (! (= (isnil1 (cons1 ?e ?l)) false) :rewrite-rule) ))
-(assert (forall ((?e elt) (?l list))
-                (! (= (isnil1 (cons2 ?e ?l)) false) :rewrite-rule) ))
-(assert (forall ((?l list))
-                (! (=> true (=> (isnil1 ?l) (= ?l nil1))) :rewrite-rule) ))
-
-(declare-fun isnil2 (list) Bool)
-(assert (= (isnil2 nil1) false))
-(assert (= (isnil2 nil2) true))
-(assert (forall ((?e elt) (?l list))
-                (! (= (isnil2 (cons1 ?e ?l)) false) :rewrite-rule) ))
-(assert (forall ((?e elt) (?l list))
-                (! (= (isnil2 (cons2 ?e ?l)) false) :rewrite-rule) ))
-(assert (forall ((?l list))
-                (! (=> true (=> (isnil2 ?l) (= ?l nil2))) :rewrite-rule) ))
-
-;; distinct
-(assert (forall ((?l list))
-                (! (=> (isnil1 ?l) (and (not (isnil2 ?l)) (not (iscons1 ?l)) (not (iscons2 ?l))) ) :rewrite-rule) ))
-
-(assert (forall ((?l list))
-                (! (=> (isnil2 ?l) (and (not (isnil1 ?l)) (not (iscons1 ?l)) (not (iscons2 ?l))) ) :rewrite-rule) ))
-
-(assert (forall ((?l list))
-                (! (=> (iscons1 ?l) (and (not (isnil1 ?l)) (not (isnil2 ?l)) (not (iscons2 ?l))) ) :rewrite-rule) ))
-
-(assert (forall ((?l list))
-                (! (=> (iscons2 ?l) (and (not (isnil1 ?l)) (not (isnil2 ?l)) (not (iscons1 ?l))) ) :rewrite-rule) ))
-
-
-;;;;;;;;;;;;;;;;;;;
-;; case-split
-(assert (forall ((?l list))
-                (! (! (=> true (or (isnil1 ?l) (isnil2 ?l) (iscons1 ?l) (iscons2 ?l))) :pattern ((proj11 ?l)) ) :rewrite-rule) ))
-(assert (forall ((?l list))
-                (! (! (=> true (or (isnil1 ?l) (isnil2 ?l) (iscons1 ?l) (iscons2 ?l))) :pattern ((proj12 ?l)) ) :rewrite-rule) ))
-(assert (forall ((?l list))
-                (! (! (=> true (or (isnil1 ?l) (isnil2 ?l) (iscons1 ?l) (iscons2 ?l))) :pattern ((proj21 ?l)) ) :rewrite-rule) ))
-(assert (forall ((?l list))
-                (! (! (=> true (or (isnil1 ?l) (isnil2 ?l) (iscons1 ?l) (iscons2 ?l))) :pattern ((proj22 ?l)) ) :rewrite-rule) ))
-
-;;;;;;;;;;;;;;;;;;;
-;; finite case-split
-(assert (forall ((?l list))
-                 (! (=> (and (not (iscons1 ?l)) (not (iscons2 ?l))) (or (isnil1 ?l) (isnil2 ?l))) :rewrite-rule) ))
-
-
-
-;;;;; goal
-
-(declare-fun e () elt)
-(declare-fun l1 () list)
-(declare-fun l2 () list)
-
-
- (assert (not (=> (iscons2 l1) (=> (= (proj22 l1) (proj22 l2)) (= l1 (cons2 (proj21 l1) (proj22 l2)))))))
-
-;;(assert (= (cons1 l1 l2) (cons2 l1 l2)))
-
-(check-sat)
-
-(exit)
diff --git a/test/regress/regress0/rewriterules/datatypes3.smt2 b/test/regress/regress0/rewriterules/datatypes3.smt2
deleted file mode 100644
index 1ec5dcbc4..000000000
--- a/test/regress/regress0/rewriterules/datatypes3.smt2
+++ /dev/null
@@ -1,137 +0,0 @@
-;; try to solve datatypes with rewriterules
-(set-logic AUFLIA)
-(set-info :status unsat)
-
-;; lists 2 nil
-(declare-sort elt 0) ;; we suppose that elt is infinite
-(declare-sort list 0)
-
-(declare-fun nil1 () list)
-(declare-fun nil2 () list)
-(declare-fun cons1 (elt list) list)
-(declare-fun cons2 (elt list) list)
-
-;;;;;;;;;;;;;;;;;;;;
-;; injective
-
-(declare-fun inj11 (list) elt)
-(assert (forall ((?e elt) (?l list))
-                (! (! (=> true (=> true (= (inj11 (cons1 ?e ?l)) ?e))) :pattern ((cons1 ?e ?l)) ) :rewrite-rule) ))
-
-(declare-fun inj12 (list) list)
-(assert (forall ((?e elt) (?l list))
-                (! (! (=> true (=> true (= (inj12 (cons1 ?e ?l)) ?l))) :pattern ((cons1 ?e ?l)) ) :rewrite-rule) ))
-
-(declare-fun inj21 (list) elt)
-(assert (forall ((?e elt) (?l list))
-                (! (! (=> true (=> true (= (inj21 (cons2 ?e ?l)) ?e))) :pattern ((cons2 ?e ?l)) ) :rewrite-rule) ))
-
-(declare-fun inj22 (list) list)
-(assert (forall ((?e elt) (?l list))
-                (! (! (=> true (=> true (= (inj22 (cons2 ?e ?l)) ?l))) :pattern ((cons2 ?e ?l)) ) :rewrite-rule) ))
-
-
-;;;;;;;;;;;;;;;;;;;;
-;; projection
-
-(declare-fun proj11 (list) elt)
-(assert (forall ((?e elt) (?l list))
-                (! (= (proj11 (cons1 ?e ?l)) ?e) :rewrite-rule) ))
-
-(declare-fun proj12 (list) list)
-(assert (forall ((?e elt) (?l list))
-                (! (= (proj12 (cons1 ?e ?l)) ?l) :rewrite-rule) ))
-
-(assert (= (proj11 nil1) nil1))
-(assert (= (proj12 nil1) nil1))
-(assert (= (proj11 nil2) nil2))
-(assert (= (proj12 nil2) nil2))
-
-(declare-fun proj21 (list) elt)
-(assert (forall ((?e elt) (?l list))
-                (! (= (proj21 (cons2 ?e ?l)) ?e) :rewrite-rule) ))
-
-(declare-fun proj22 (list) list)
-(assert (forall ((?e elt) (?l list))
-                (! (= (proj22 (cons2 ?e ?l)) ?l) :rewrite-rule) ))
-
-(assert (= (proj21 nil1) nil1))
-(assert (= (proj22 nil1) nil1))
-(assert (= (proj21 nil2) nil2))
-(assert (= (proj22 nil2) nil2))
-
-
-;;;;;;;;;;;;;;;;;;;
-;; test
-(declare-fun iscons1 (list) Bool)
-(assert (forall ((?e elt) (?l list))
-                (! (! (=> true (=> true (= (iscons1 (cons1 ?e ?l)) true))) :pattern ((cons1 ?e ?l)) ) :rewrite-rule) ))
-
-(assert (forall ((?l list))
-                (! (! (=> true (=> (iscons1 ?l) (= ?l (cons1 (proj11 ?l) (proj12 ?l))))) :pattern ((proj11 ?l)) ) :rewrite-rule) ))
-(assert (forall ((?l list))
-                (! (! (=> true (=> (iscons1 ?l) (= ?l (cons1 (proj11 ?l) (proj12 ?l))))) :pattern ((proj12 ?l)) ) :rewrite-rule) ))
-
-
-(declare-fun iscons2 (list) Bool)
-(assert (forall ((?e elt) (?l list))
-                (! (! (=> true (=> true (= (iscons2 (cons2 ?e ?l)) true))) :pattern ((cons2 ?e ?l)) ) :rewrite-rule) ))
-
-(assert (forall ((?l list))
-                (! (! (=> true (=> (iscons2 ?l) (= ?l (cons2 (proj21 ?l) (proj22 ?l))))) :pattern ((proj21 ?l)) ) :rewrite-rule) ))
-(assert (forall ((?l list))
-                (! (! (=> true (=> (iscons2 ?l) (= ?l (cons2 (proj21 ?l) (proj22 ?l))))) :pattern ((proj22 ?l)) ) :rewrite-rule) ))
-
-
-(declare-fun isnil1 (list) Bool)
-(assert (= (isnil1 nil1) true))
-
-(declare-fun isnil2 (list) Bool)
-(assert (= (isnil2 nil2) true))
-
-;; distinct
-(assert (forall ((?l list))
-                (! (=> (isnil1 ?l) (and (not (isnil2 ?l)) (not (iscons1 ?l)) (not (iscons2 ?l))) ) :rewrite-rule) ))
-
-(assert (forall ((?l list))
-                (! (=> (isnil2 ?l) (and (not (isnil1 ?l)) (not (iscons1 ?l)) (not (iscons2 ?l))) ) :rewrite-rule) ))
-
-(assert (forall ((?l list))
-                (! (=> (iscons1 ?l) (and (not (isnil1 ?l)) (not (isnil2 ?l)) (not (iscons2 ?l))) ) :rewrite-rule) ))
-
-(assert (forall ((?l list))
-                (! (=> (iscons2 ?l) (and (not (isnil1 ?l)) (not (isnil2 ?l)) (not (iscons1 ?l))) ) :rewrite-rule) ))
-
-
-;;;;;;;;;;;;;;;;;;;
-;; case-split
-(assert (forall ((?l list))
-                (! (! (=> true (or (isnil1 ?l) (isnil2 ?l) (iscons1 ?l) (iscons2 ?l))) :pattern ((proj11 ?l)) ) :rewrite-rule) ))
-(assert (forall ((?l list))
-                (! (! (=> true (or (isnil1 ?l) (isnil2 ?l) (iscons1 ?l) (iscons2 ?l))) :pattern ((proj12 ?l)) ) :rewrite-rule) ))
-(assert (forall ((?l list))
-                (! (! (=> true (or (isnil1 ?l) (isnil2 ?l) (iscons1 ?l) (iscons2 ?l))) :pattern ((proj21 ?l)) ) :rewrite-rule) ))
-(assert (forall ((?l list))
-                (! (! (=> true (or (isnil1 ?l) (isnil2 ?l) (iscons1 ?l) (iscons2 ?l))) :pattern ((proj22 ?l)) ) :rewrite-rule) ))
-
-;;;;;;;;;;;;;;;;;;;
-;; finite case-split
-(assert (forall ((?l list))
-                 (! (=> (and (not (iscons1 ?l)) (not (iscons2 ?l))) (or (isnil1 ?l) (isnil2 ?l))) :rewrite-rule) ))
-
-
-
-;;;;; goal
-
-(declare-fun e () elt)
-(declare-fun l1 () list)
-(declare-fun l2 () list)
-
-
-;; (assert (not (=> (iscons2 l1) (=> (= (proj22 l1) (proj22 l2)) (= l1 (cons2 (proj21 l1) (proj22 l2)))))))
-
-(assert (= (cons1 l1 l2) (cons2 l1 l2)))
-
-(check-sat)
-
-(exit)
diff --git a/test/regress/regress0/rewriterules/datatypes_clark_quantification.smt2 b/test/regress/regress0/rewriterules/datatypes_clark_quantification.smt2
deleted file mode 100644
index 6e22816d7..000000000
--- a/test/regress/regress0/rewriterules/datatypes_clark_quantification.smt2
+++ /dev/null
@@ -1,264 +0,0 @@
-(set-logic AUFLIRA)
-
-;; DATATYPE
-;;   nat = succ(pred : nat) | zero,
-;;   list = cons(car : tree, cdr : list) | null,
-;;   tree = node(children : list) | leaf(data : nat)
-;; END;
-
-;;;;;;;;;;;
-;; nat   ;;
-;;;;;;;;;;;
-(declare-sort nat 0)
-(declare-fun zero () nat)
-(declare-fun succ (nat) nat)
-
-;;;;;;;;;;;;;;;;
-;; injective
-
-(declare-fun inj1 (nat) nat)
-(assert (forall ((?x1 nat))
-                (! (= (inj1 (succ ?x1)) ?x1) :pattern ((succ ?x1)) ) ))
-
-
-;;;;;;;;;;;;;;;;;;;;
-;; projection
-
-(declare-fun pred (nat) nat)
-(assert (forall ((?x1 nat))
-                (! (= (pred (succ ?x1)) ?x1) :pattern ((pred (succ ?x1))) ) ))
-
-(assert (= (pred zero) zero))
-
-;;;;;;;;;;;;;;;;;;;
-;; test
-(declare-fun is_succ (nat) Bool)
-(assert (= (is_succ zero) false))
-(assert (forall ((?x1 nat))
-                (! (= (is_succ (succ ?x1)) true) :pattern ((succ ?x1)) ) ))
-
-(assert (forall ((?x1 nat))
-                (! (=> (is_succ ?x1) (= ?x1 (succ (pred ?x1)))) :pattern ((is_succ ?x1) (pred ?x1)) ) ))
-
-(declare-fun is_zero (nat) Bool)
-(assert (= (is_zero zero) true))
-(assert (forall ((?x1 nat))
-                (! (=> (is_zero ?x1) (= ?x1 zero)) :pattern ((is_zero ?x1)) ) ))
-
-;;; directrr
-(assert (forall ((?x1 nat))
-                (! (= (is_succ (succ ?x1)) true) :pattern ((is_succ (succ ?x1))) ) ))
-(assert (forall ((?x1 nat))
-                (! (= (is_zero (succ ?x1)) false) :pattern ((is_zero (succ ?x1))) )))
-
-
-;;;;;;;;;;;;;;;;;;;;
-;; distinct
-(assert (forall ((?x1 nat))
-                (! (=> (is_zero ?x1) (not (is_succ ?x1)) ) :pattern ((is_zero ?x1)) ) ))
-(assert (forall ((?x1 nat))
-                (! (=> (is_succ ?x1) (not (is_zero ?x1)) ) :pattern ((is_succ ?x1)) ) ))
-(assert (forall ((?x1 nat))
-                (! (=> (not (is_zero ?x1)) (is_succ ?x1) ) :pattern ((is_zero ?x1)) ) ))
-(assert (forall ((?x1 nat))
-                (! (=> (not (is_succ ?x1)) (is_zero ?x1) ) :pattern ((is_succ ?x1)) ) ))
-
-;;;;;;;;;;;;;;;;;;;
-;; case-split
-(assert (forall ((?x1 nat))
-                (! (or (is_zero ?x1) (is_succ ?x1)) :pattern ((pred ?x1)) ) ))
-
-;;;;;;;;;;;;;;;;;;;
-;; non-cyclic
-(declare-fun size_nat (nat) Real)
-(assert (forall ((?x1 nat))
-                (! (> (size_nat (succ ?x1)) (size_nat ?x1)) :pattern ((succ ?x1)) ) ))
-
-
-
-;;;;;;;;;;;;;;;;;;;;;
-;; list and tree
-
-(declare-sort list 0)
-(declare-sort tree 0)
-
-;;;;;;;;;;;
-;; list  ;;
-;;;;;;;;;;;
-
-(declare-fun null () list)
-(declare-fun cons (tree list) list)
-
-(declare-fun node (list) tree)
-(declare-fun leaf (nat) tree)
-
-;;;;;;;;;;;;;;;;
-;; injective
-
-(declare-fun inj2 (list) tree)
-(assert (forall ((?x1 tree) (?x2 list))
-                (! (= (inj2 (cons ?x1 ?x2)) ?x1) :pattern ((cons ?x1 ?x2)) ) ))
-
-(declare-fun inj3 (list) list)
-(assert (forall ((?x1 tree) (?x2 list))
-                (! (= (inj3 (cons ?x1 ?x2)) ?x2) :pattern ((cons ?x1 ?x2)) ) ))
-
-
-;;;;;;;;;;;;;;;;;;;;
-;; projection
-
-(declare-fun car (list) tree)
-(assert (forall ((?x1 tree) (?x2 list))
-                (! (= (car (cons ?x1 ?x2)) ?x1) :pattern ((car (cons ?x1 ?x2))) ) ))
-
-(assert (= (car null) (node null)))
-
-(declare-fun cdr (list) list)
-(assert (forall ((?x1 tree) (?x2 list))
-                (! (= (cdr (cons ?x1 ?x2)) ?x2) :pattern ((cdr (cons ?x1 ?x2))) ) ))
-
-(assert (= (cdr null) null))
-
-;;;;;;;;;;;;;;;;;;;
-;; test
-(declare-fun is_cons (list) Bool)
-(assert (= (is_cons null) false))
-(assert (forall ((?x1 tree) (?x2 list))
-                (! (= (is_cons (cons ?x1 ?x2)) true) :pattern ((cons ?x1 ?x2)) ) ))
-
-(assert (forall ((?x1 list))
-                (! (=> (is_cons ?x1) (= ?x1 (cons (car ?x1) (cdr ?x1)))) :pattern ((is_cons ?x1)(car ?x1)) ) ))
-(assert (forall ((?x1 list))
-                (! (=> (is_cons ?x1) (= ?x1 (cons (car ?x1) (cdr ?x1)))) :pattern ((is_cons ?x1)(cdr ?x1)) ) ))
-
-(declare-fun is_null (list) Bool)
-(assert (= (is_null null) true))
-
-(assert (forall ((?x1 list))
-                (! (=> (is_null ?x1) (= (car ?x1) (node null))) :pattern ((is_null ?x1)(car ?x1)) )  ))
-(assert (forall ((?x1 list))
-                (! (=> (is_null ?x1) (= (cdr ?x1) null)) :pattern ((is_null ?x1)(cdr ?x1)) ) ))
-
-(assert (forall ((?x1 list))
-                (! (=> (is_null ?x1) (= ?x1 null)) :pattern ((is_null ?x1)) ) ))
-
-;;; directrr
-(assert (forall ((?x1 tree) (?x2 list))
-                (! (= (is_cons (cons ?x1 ?x2)) true) :pattern ((is_cons (cons ?x1 ?x2))) ) ))
-(assert (forall ((?x1 tree) (?x2 list))
-                (! (= (is_null (cons ?x1 ?x2)) false) :pattern ((is_null (cons ?x1 ?x2))) ) ))
-
-
-
-;;;;;;;;;;;;;;;;;;;;
-;; distinct
-(assert (forall ((?x1 list))
-                (! (=> (is_null ?x1) (not (is_cons ?x1)) ) :pattern ((is_null ?x1)) ) ))
-(assert (forall ((?x1 list))
-                (! (=> (is_cons ?x1) (not (is_null ?x1)) ) :pattern ((is_cons ?x1)) ) ))
-(assert (forall ((?x1 list))
-                (! (=> (not (is_null ?x1)) (is_cons ?x1) ) :pattern ((is_null ?x1)) ) ))
-(assert (forall ((?x1 list))
-                (! (=> (not (is_cons ?x1)) (is_null ?x1) ) :pattern ((is_cons ?x1)) ) ))
-
-;;;;;;;;;;;;;;;;;;;
-;; case-split
-(assert (forall ((?x1 list))
-            (!  (or (is_null ?x1) (is_cons ?x1)) :pattern ((car ?x1)) ) ))
-(assert (forall ((?x1 list))
-            (! (or (is_null ?x1) (is_cons ?x1)) :pattern ((cdr ?x1)) ) ))
-
-;;;;;;;;;;;;;;;
-;; tree
-
-;;;;;;;;;;;;;;;;
-;; injective
-
-(declare-fun inj4 (tree) list)
-(assert (forall ((?x1 list))
-                (! (= (inj4 (node ?x1)) ?x1) :pattern ((node ?x1)) ) ))
-
-(declare-fun inj5 (tree) nat)
-(assert (forall ((?x1 nat))
-                (!  (= (inj5 (leaf ?x1)) ?x1) :pattern ((leaf ?x1)) )  ))
-
-
-;;;;;;;;;;;;;;;;;;;;
-;; projection
-
-(declare-fun children (tree) list)
-(assert (forall ((?x1 list))
-                (! (= (children (node ?x1)) ?x1) :pattern ((children (node ?x1))) ) ))
-(assert (forall ((?x1 nat))
-                (! (= (children (leaf ?x1)) null) :pattern ((children (leaf ?x1))) ) ))
-
-
-(declare-fun data (tree) nat)
-(assert (forall ((?x1 nat))
-                (! (= (data (leaf ?x1)) ?x1) :pattern ((data (leaf ?x1))) ) ))
-(assert (forall ((?x1 list))
-                (! (= (data (node ?x1)) zero) :pattern ((data (node ?x1))) ) ))
-
-;;;;;;;;;;;;;;;;;;;
-;; test
-(declare-fun is_node (tree) Bool)
-(assert (forall ((?x1 list))
-                (! (= (is_node (node ?x1)) true) :pattern ((node ?x1)) )  ))
-
-(assert (forall ((?x1 tree))
-                (! (=> (is_node ?x1) (= ?x1 (node (children ?x1)))) :pattern ((is_node ?x1)(children ?x1)) ) ))
-
-(assert (forall ((?x1 tree))
-                (! (=> (is_node ?x1) (= (data ?x1) zero)) :pattern ((is_node ?x1)(data ?x1)) ) ))
-
-
-(declare-fun is_leaf (tree) Bool)
-(assert (forall ((?x1 nat))
-                (! (=> true (= (is_leaf (leaf ?x1)) true)) :pattern ((leaf ?x1)) ) ))
-
-(assert (forall ((?x1 tree))
-                (! (=> (is_leaf ?x1) (= ?x1 (leaf (data ?x1)))) :pattern ((is_leaf ?x1)(data ?x1)) ) ))
-(assert (forall ((?x1 tree))
-                (! (=> (is_leaf ?x1) (= (children ?x1) null)) :pattern ((is_leaf ?x1)(children ?x1)) ) ))
-
-;;; directrr
-(assert (forall ((?x1 list))
-                (! (= (is_node (node ?x1)) true) :pattern ((is_node (node ?x1))) ) ))
-(assert (forall ((?x1 list))
-                (! (= (is_leaf (node ?x1)) false) :pattern ((is_leaf (node ?x1))) ) ))
-(assert (forall ((?x1 nat))
-                (! (= (is_leaf (leaf ?x1)) true) :pattern (is_leaf (leaf ?x1)) ) ))
-(assert (forall ((?x1 nat))
-                (! (= (is_node (leaf ?x1)) false) :pattern ((is_node (leaf ?x1))) ) ))
-
-
-;;;;;;;;;;;;;;;;;;;;
-;; distinct
-(assert (forall ((?x1 tree))
-                (! (=> (is_node ?x1) (not (is_leaf ?x1)) ) :pattern ((is_node ?x1)) ) ))
-(assert (forall ((?x1 tree))
-                (! (=> (is_leaf ?x1) (not (is_node ?x1)) ) :pattern ((is_leaf ?x1)) ) ))
-(assert (forall ((?x1 tree))
-                (! (=> (not (is_node ?x1)) (is_leaf ?x1) ) :pattern ((is_node ?x1)) ) ))
-(assert (forall ((?x1 tree))
-                (! (=> (not (is_leaf ?x1)) (is_node ?x1) ) :pattern ((is_leaf ?x1)) ) ))
-
-;;;;;;;;;;;;;;;;;;;
-;; case-split
-(assert (forall ((?x1 tree))
-                (!  (or (is_node ?x1) (is_leaf ?x1)) :pattern ((children ?x1)) ) ))
-
-(assert (forall ((?x1 tree))
-                (! (or (is_node ?x1) (is_leaf ?x1)) :pattern ((data ?x1)) )  ))
-
-
-;;;;;;;;;;;;;;;;;;
-;; non-cyclic
-(declare-fun size_list (list) Real)
-(declare-fun size_tree (tree) Real)
-(assert (forall ((?x1 tree) (?x2 list))
-                (! (and (> (size_list (cons ?x1 ?x2)) (size_tree ?x1)) (> (size_list (cons ?x1 ?x2)) (size_list ?x2))) :pattern ((cons ?x1 ?x2)) ) ))
-(assert (forall ((?x1 list))
-                (! (> (size_tree (node ?x1)) (size_list ?x1)) :pattern ((node ?x1)) )  ))
-(assert (forall ((?x1 nat))
-                (! (> (size_tree (leaf ?x1)) (size_nat ?x1)) :pattern ((leaf ?x1)) ) ))
diff --git a/test/regress/regress0/rewriterules/datatypes_sat.smt2 b/test/regress/regress0/rewriterules/datatypes_sat.smt2
deleted file mode 100644
index 92576f976..000000000
--- a/test/regress/regress0/rewriterules/datatypes_sat.smt2
+++ /dev/null
@@ -1,101 +0,0 @@
-;; try to solve datatypes with rewriterules
-(set-logic AUFLIA)
-(set-info :status sat)
-
-;; lists 2 nil
-(declare-sort elt 0) ;; we suppose that elt is infinite
-(declare-sort list 0)
-
-(declare-fun nil1 () list)
-(declare-fun nil2 () list)
-(declare-fun cons (elt list) list)
-
-;;;;;;;;;;;;;;;;;;;;
-;; injective
-
-(declare-fun inj1 (list) elt)
-(assert (forall ((?e elt) (?l list))
-                (! (! (=> true (=> true (= (inj1 (cons ?e ?l)) ?e))) :pattern ((cons ?e ?l)) ) :rewrite-rule) ))
-
-(declare-fun inj2 (list) list)
-(assert (forall ((?e elt) (?l list))
-                (! (! (=> true (=> true (= (inj2 (cons ?e ?l)) ?l))) :pattern ((cons ?e ?l)) ) :rewrite-rule) ))
-
-;;;;;;;;;;;;;;;;;;;;
-;; projection
-
-(declare-fun proj1 (list) elt)
-(assert (forall ((?e elt) (?l list))
-                (! (= (proj1 (cons ?e ?l)) ?e) :rewrite-rule) ))
-
-(declare-fun proj2 (list) list)
-(assert (forall ((?e elt) (?l list))
-                (! (= (proj2 (cons ?e ?l)) ?l) :rewrite-rule) ))
-
-;;;;;;;;;;;;;;;;;;;
-;; test
-(declare-fun iscons (list) Bool)
-(assert (= (iscons nil1) false))
-(assert (= (iscons nil2) false))
-(assert (forall ((?e elt) (?l list))
-                (! (! (=> true (=> true (= (iscons (cons ?e ?l)) true))) :pattern ((cons ?e ?l)) ) :rewrite-rule) ))
-
-(assert (forall ((?l list))
-                (! (! (=> true (=> (iscons ?l) (= ?l (cons (proj1 ?l) (proj2 ?l))))) :pattern ((proj1 ?l)) ) :rewrite-rule) ))
-(assert (forall ((?l list))
-                (! (! (=> true (=> (iscons ?l) (= ?l (cons (proj1 ?l) (proj2 ?l))))) :pattern ((proj2 ?l)) ) :rewrite-rule) ))
-
-
-(declare-fun isnil1 (list) Bool)
-(assert (= (isnil1 nil1) true))
-(assert (= (isnil1 nil2) false))
-(assert (forall ((?e elt) (?l list))
-                (! (= (isnil1 (cons ?e ?l)) false) :rewrite-rule) ))
-(assert (forall ((?l list))
-                (! (=> true (=> (isnil1 ?l) (= ?l nil1))) :rewrite-rule) ))
-
-(declare-fun isnil2 (list) Bool)
-(assert (= (isnil2 nil1) false))
-(assert (= (isnil2 nil2) true))
-(assert (forall ((?e elt) (?l list))
-                (! (= (isnil2 (cons ?e ?l)) false) :rewrite-rule) ))
-(assert (forall ((?l list))
-                (! (=> true (=> (isnil2 ?l) (= ?l nil2))) :rewrite-rule) ))
-
-;; distinct
-(assert (forall ((?l list))
-                (! (=> (isnil1 ?l) (and (not (isnil2 ?l)) (not (iscons ?l))) ) :rewrite-rule) ))
-
-(assert (forall ((?l list))
-                (! (=> (isnil2 ?l) (and (not (isnil1 ?l)) (not (iscons ?l))) ) :rewrite-rule) ))
-
-(assert (forall ((?l list))
-                (! (=> (iscons ?l) (and (not (isnil1 ?l)) (not (isnil2 ?l))) ) :rewrite-rule) ))
-
-
-;;;;;;;;;;;;;;;;;;;
-;; case-split
-(assert (forall ((?l list))
-                (! (! (=> true (or (isnil1 ?l) (isnil2 ?l) (iscons ?l))) :pattern ((proj1 ?l)) ) :rewrite-rule) ))
-(assert (forall ((?l list))
-                (! (! (=> true (or (isnil1 ?l) (isnil2 ?l) (iscons ?l))) :pattern ((proj2 ?l)) ) :rewrite-rule) ))
-
-;;;;;;;;;;;;;;;;;;;
-;; finite case-split
-(assert (forall ((?l list))
-                 (! (=> (not (iscons ?l)) (or (isnil1 ?l) (isnil2 ?l))) :rewrite-rule) ))
-
-
-
-;;;;; goal
-
-(declare-fun e () elt)
-(declare-fun l1 () list)
-(declare-fun l2 () list)
-
-
-(assert (not (=> (iscons l1) (=> (= (proj2 l1) (proj2 l2)) (= l1 (cons (proj1 l2) (proj2 l2)))))))
-
-(check-sat)
-
-(exit)
diff --git a/test/regress/regress0/rewriterules/length_gen.smt2 b/test/regress/regress0/rewriterules/length_gen.smt2
deleted file mode 100644
index dda478357..000000000
--- a/test/regress/regress0/rewriterules/length_gen.smt2
+++ /dev/null
@@ -1,34 +0,0 @@
-;; Same than length.smt2 but the nil case is not a rewrite rule
-;; So here the rewrite rules have no guards length
-
-(set-logic AUFLIA)
-(set-info :status unsat)
-
-;; don't use a datatypes for currently focusing in uf
-(declare-sort list 0)
-
-(declare-fun cons (Int list) list)
-(declare-fun nil  ()         list)
-
-
-;;define length
-(declare-fun length (list) Int)
-
-(assert (= (length nil) 0))
-
-(assert (forall ((?e Int) (?l list)) (! (= (length (cons ?e ?l)) (+ 1 (length ?l))) :rewrite-rule)))
-
-(declare-fun gen_cons (Int list) list)
-
-(assert (forall ((?n Int) (?l list)) (! (=> (= ?n 0) (= (gen_cons ?n ?l) ?l)) :rewrite-rule)))
-
-(assert (forall ((?n Int) (?l list)) (! (=> (> ?n 0) (= (gen_cons ?n ?l)
-        (gen_cons (- ?n 1) (cons 1 ?l)))) :rewrite-rule)))
-
-(declare-fun n () Int)
-
-(assert (not (= (length (gen_cons 42 nil)) 42)))
-
-(check-sat)
-
-(exit)
diff --git a/test/regress/regress0/rewriterules/length_gen_010.smt2 b/test/regress/regress0/rewriterules/length_gen_010.smt2
deleted file mode 100644
index 052f5905b..000000000
--- a/test/regress/regress0/rewriterules/length_gen_010.smt2
+++ /dev/null
@@ -1,36 +0,0 @@
-;; Same than length.smt2 but the nil case is not a rewrite rule
-;; So here the rewrite rules have no guards length
-
-(set-logic AUFLIA)
-(set-info :status unsat)
-
-;; don't use a datatypes for currently focusing in uf
-(declare-sort list 0)
-
-(declare-fun cons (Int list) list)
-(declare-fun nil  ()         list)
-
-
-;;define length
-(declare-fun length (list) Int)
-
-(assert (= (length nil) 0))
-
-;; (assert (forall ((?e Int) (?l list)) (! (= (length (cons ?e ?l)) (+ 1 (length ?l))) :rewrite-rule)))
-
-(assert-rewrite ((?e Int) (?l list)) () () (length (cons ?e ?l)) (+ 1 (length ?l)))
-
-(declare-fun gen_cons (Int list) list)
-
-(assert-rewrite ((?n Int) (?l list)) () (= ?n 0) (gen_cons ?n ?l) (?l))
-
-(assert-rewrite ((?n Int) (?l list)) () (> ?n 0) (gen_cons ?n ?l)
-              (gen_cons (- ?n 1) (cons 1 ?l)))
-
-(declare-fun n () Int)
-
-(assert (not (= (length (gen_cons 10 nil)) 10)))
-
-(check-sat)
-
-(exit)
diff --git a/test/regress/regress0/rewriterules/length_gen_010_lemma.smt2 b/test/regress/regress0/rewriterules/length_gen_010_lemma.smt2
deleted file mode 100644
index 02bc877fc..000000000
--- a/test/regress/regress0/rewriterules/length_gen_010_lemma.smt2
+++ /dev/null
@@ -1,34 +0,0 @@
-;; Same than length.smt2 but the nil case is not a rewrite rule
-;; So here the rewrite rules have no guards length
-
-(set-logic AUFLIA)
-(set-info :status unsat)
-
-;; don't use a datatypes for currently focusing in uf
-(declare-sort list 0)
-
-(declare-fun cons (Int list) list)
-(declare-fun nil  ()         list)
-
-
-;;define length
-(declare-fun length (list) Int)
-
-(assert (= (length nil) 0))
-
-(assert (forall ((?e Int) (?l list)) (= (length (cons ?e ?l)) (+ 1 (length ?l)))))
-
-(declare-fun gen_cons (Int list) list)
-
-(assert (forall ((?n Int) (?l list)) (=> (= ?n 0) (= (gen_cons ?n ?l) ?l))))
-
-(assert (forall ((?n Int) (?l list)) (=> (> ?n 0) (= (gen_cons ?n ?l)
-        (gen_cons (- ?n 1) (cons 1 ?l))))))
-
-(declare-fun n () Int)
-
-(assert (not (= (length (gen_cons 10 nil)) 10)))
-
-(check-sat)
-
-(exit)
diff --git a/test/regress/regress0/rewriterules/length_gen_020.smt2 b/test/regress/regress0/rewriterules/length_gen_020.smt2
deleted file mode 100644
index 8e0021175..000000000
--- a/test/regress/regress0/rewriterules/length_gen_020.smt2
+++ /dev/null
@@ -1,34 +0,0 @@
-;; Same than length.smt2 but the nil case is not a rewrite rule
-;; So here the rewrite rules have no guards length
-
-(set-logic AUFLIA)
-(set-info :status unsat)
-
-;; don't use a datatypes for currently focusing in uf
-(declare-sort list 0)
-
-(declare-fun cons (Int list) list)
-(declare-fun nil  ()         list)
-
-
-;;define length
-(declare-fun length (list) Int)
-
-(assert (= (length nil) 0))
-
-(assert (forall ((?e Int) (?l list)) (! (= (length (cons ?e ?l)) (+ 1 (length ?l))) :rewrite-rule)))
-
-(declare-fun gen_cons (Int list) list)
-
-(assert (forall ((?n Int) (?l list)) (! (=> (= ?n 0) (= (gen_cons ?n ?l) ?l)) :rewrite-rule)))
-
-(assert (forall ((?n Int) (?l list)) (! (=> (> ?n 0) (= (gen_cons ?n ?l)
-        (gen_cons (- ?n 1) (cons 1 ?l)))) :rewrite-rule)))
-
-(declare-fun n () Int)
-
-(assert (not (= (length (gen_cons 20 nil)) 20)))
-
-(check-sat)
-
-(exit)
diff --git a/test/regress/regress0/rewriterules/length_gen_020_sat.smt2 b/test/regress/regress0/rewriterules/length_gen_020_sat.smt2
deleted file mode 100644
index cc75eb85a..000000000
--- a/test/regress/regress0/rewriterules/length_gen_020_sat.smt2
+++ /dev/null
@@ -1,34 +0,0 @@
-;; Same than length.smt2 but the nil case is not a rewrite rule
-;; So here the rewrite rules have no guards length
-
-(set-logic AUFLIA)
-(set-info :status sat)
-
-;; don't use a datatypes for currently focusing in uf
-(declare-sort list 0)
-
-(declare-fun cons (Int list) list)
-(declare-fun nil  ()         list)
-
-
-;;define length
-(declare-fun length (list) Int)
-
-(assert (= (length nil) 0))
-
-(assert (forall ((?e Int) (?l list)) (! (= (length (cons ?e ?l)) (+ 1 (length ?l))) :rewrite-rule)))
-
-(declare-fun gen_cons (Int list) list)
-
-(assert (forall ((?n Int) (?l list)) (! (=> (= ?n 0) (= (gen_cons ?n ?l) ?l)) :rewrite-rule)))
-
-(assert (forall ((?n Int) (?l list)) (! (=> (> ?n 0) (= (gen_cons ?n ?l)
-        (gen_cons (- ?n 1) (cons 1 ?l)))) :rewrite-rule)))
-
-(declare-fun n () Int)
-
-(assert (not (= (length (gen_cons 20 nil)) 200)))
-
-(check-sat)
-
-(exit)
diff --git a/test/regress/regress0/rewriterules/length_gen_040.smt2 b/test/regress/regress0/rewriterules/length_gen_040.smt2
deleted file mode 100644
index 687422223..000000000
--- a/test/regress/regress0/rewriterules/length_gen_040.smt2
+++ /dev/null
@@ -1,34 +0,0 @@
-;; Same than length.smt2 but the nil case is not a rewrite rule
-;; So here the rewrite rules have no guards length
-
-(set-logic AUFLIA)
-(set-info :status unsat)
-
-;; don't use a datatypes for currently focusing in uf
-(declare-sort list 0)
-
-(declare-fun cons (Int list) list)
-(declare-fun nil  ()         list)
-
-
-;;define length
-(declare-fun length (list) Int)
-
-(assert (= (length nil) 0))
-
-(assert (forall ((?e Int) (?l list)) (! (= (length (cons ?e ?l)) (+ 1 (length ?l))) :rewrite-rule)))
-
-(declare-fun gen_cons (Int list) list)
-
-(assert (forall ((?n Int) (?l list)) (! (=> (= ?n 0) (= (gen_cons ?n ?l) ?l)) :rewrite-rule)))
-
-(assert (forall ((?n Int) (?l list)) (! (=> (> ?n 0) (= (gen_cons ?n ?l)
-        (gen_cons (- ?n 1) (cons 1 ?l)))) :rewrite-rule)))
-
-(declare-fun n () Int)
-
-(assert (not (= (length (gen_cons 40 nil)) 40)))
-
-(check-sat)
-
-(exit)
diff --git a/test/regress/regress0/rewriterules/length_gen_040_lemma.smt2 b/test/regress/regress0/rewriterules/length_gen_040_lemma.smt2
deleted file mode 100644
index 293ea147b..000000000
--- a/test/regress/regress0/rewriterules/length_gen_040_lemma.smt2
+++ /dev/null
@@ -1,34 +0,0 @@
-;; Same than length.smt2 but the nil case is not a rewrite rule
-;; So here the rewrite rules have no guards length
-
-(set-logic AUFLIA)
-(set-info :status unsat)
-
-;; don't use a datatypes for currently focusing in uf
-(declare-sort list 0)
-
-(declare-fun cons (Int list) list)
-(declare-fun nil  ()         list)
-
-
-;;define length
-(declare-fun length (list) Int)
-
-(assert (= (length nil) 0))
-
-(assert (forall ((?e Int) (?l list)) (= (length (cons ?e ?l)) (+ 1 (length ?l)))))
-
-(declare-fun gen_cons (Int list) list)
-
-(assert (forall ((?n Int) (?l list)) (=> (= ?n 0) (= (gen_cons ?n ?l) ?l))))
-
-(assert (forall ((?n Int) (?l list)) (=> (> ?n 0) (= (gen_cons ?n ?l)
-        (gen_cons (- ?n 1) (cons 1 ?l))))))
-
-(declare-fun n () Int)
-
-(assert (not (= (length (gen_cons 40 nil)) 40)))
-
-(check-sat)
-
-(exit)
diff --git a/test/regress/regress0/rewriterules/length_gen_040_lemma_trigger.smt2 b/test/regress/regress0/rewriterules/length_gen_040_lemma_trigger.smt2
deleted file mode 100644
index 69f9f97be..000000000
--- a/test/regress/regress0/rewriterules/length_gen_040_lemma_trigger.smt2
+++ /dev/null
@@ -1,35 +0,0 @@
-;; Same than length.smt2 but the nil case is not a rewrite rule
-;; So here the rewrite rules have no guards length
-
-(set-logic AUFLIA)
-(set-info :status unsat)
-
-;; don't use a datatypes for currently focusing in uf
-(declare-sort list 0)
-
-(declare-fun cons (Int list) list)
-(declare-fun nil  ()         list)
-
-
-;;define length
-(declare-fun length (list) Int)
-
-(assert (= (length nil) 0))
-
-(assert (forall ((?e Int) (?l list)) (!(= (length (cons ?e ?l)) (+ 1 (length ?l))) :pattern ((length (cons ?e ?l))) )))
-
-(declare-fun gen_cons (Int list) list)
-
-(assert (forall ((?n Int) (?l list)) (! (=> (= ?n 0) (= (gen_cons ?n ?l) ?l)) :pattern ((gen_cons ?n ?l)) )))
-
-(assert (forall ((?n Int) (?l list)) (! (=> (> ?n 0) (= (gen_cons ?n ?l)
-        (gen_cons (- ?n 1) (cons 1 ?l))))
-         :pattern ((gen_cons ?n ?l)) )))
-
-(declare-fun n () Int)
-
-(assert (not (= (length (gen_cons 40 nil)) 40)))
-
-(check-sat)
-
-(exit)
diff --git a/test/regress/regress0/rewriterules/length_gen_080.smt2 b/test/regress/regress0/rewriterules/length_gen_080.smt2
deleted file mode 100644
index 061042be3..000000000
--- a/test/regress/regress0/rewriterules/length_gen_080.smt2
+++ /dev/null
@@ -1,34 +0,0 @@
-;; Same than length.smt2 but the nil case is not a rewrite rule
-;; So here the rewrite rules have no guards length
-
-(set-logic AUFLIA)
-(set-info :status unsat)
-
-;; don't use a datatypes for currently focusing in uf
-(declare-sort list 0)
-
-(declare-fun cons (Int list) list)
-(declare-fun nil  ()         list)
-
-
-;;define length
-(declare-fun length (list) Int)
-
-(assert (= (length nil) 0))
-
-(assert (forall ((?e Int) (?l list)) (! (= (length (cons ?e ?l)) (+ 1 (length ?l))) :rewrite-rule)))
-
-(declare-fun gen_cons (Int list) list)
-
-(assert (forall ((?n Int) (?l list)) (! (=> (= ?n 0) (= (gen_cons ?n ?l) ?l)) :rewrite-rule)))
-
-(assert (forall ((?n Int) (?l list)) (! (=> (> ?n 0) (= (gen_cons ?n ?l)
-        (gen_cons (- ?n 1) (cons 1 ?l)))) :rewrite-rule)))
-
-(declare-fun n () Int)
-
-(assert (not (= (length (gen_cons 80 nil)) 80)))
-
-(check-sat)
-
-(exit)
diff --git a/test/regress/regress0/rewriterules/length_gen_1280.smt2 b/test/regress/regress0/rewriterules/length_gen_1280.smt2
deleted file mode 100644
index b613844ce..000000000
--- a/test/regress/regress0/rewriterules/length_gen_1280.smt2
+++ /dev/null
@@ -1,34 +0,0 @@
-;; Same than length.smt2 but the nil case is not a rewrite rule
-;; So here the rewrite rules have no guards length
-
-(set-logic AUFLIA)
-(set-info :status unsat)
-
-;; don't use a datatypes for currently focusing in uf
-(declare-sort list 0)
-
-(declare-fun cons (Int list) list)
-(declare-fun nil  ()         list)
-
-
-;;define length
-(declare-fun length (list) Int)
-
-(assert (= (length nil) 0))
-
-(assert (forall ((?e Int) (?l list)) (! (= (length (cons ?e ?l)) (+ 1 (length ?l))) :rewrite-rule)))
-
-(declare-fun gen_cons (Int list) list)
-
-(assert (forall ((?n Int) (?l list)) (! (=> (= ?n 0) (= (gen_cons ?n ?l) ?l)) :rewrite-rule)))
-
-(assert (forall ((?n Int) (?l list)) (! (=> (> ?n 0) (= (gen_cons ?n ?l)
-        (gen_cons (- ?n 1) (cons 1 ?l)))) :rewrite-rule)))
-
-(declare-fun n () Int)
-
-(assert (not (= (length (gen_cons 1280 nil)) 1280)))
-
-(check-sat)
-
-(exit)
diff --git a/test/regress/regress0/rewriterules/length_gen_1280_lemma_trigger.smt2 b/test/regress/regress0/rewriterules/length_gen_1280_lemma_trigger.smt2
deleted file mode 100644
index 7d1cf3203..000000000
--- a/test/regress/regress0/rewriterules/length_gen_1280_lemma_trigger.smt2
+++ /dev/null
@@ -1,35 +0,0 @@
-;; Same than length.smt2 but the nil case is not a rewrite rule
-;; So here the rewrite rules have no guards length
-
-(set-logic AUFLIA)
-(set-info :status unsat)
-
-;; don't use a datatypes for currently focusing in uf
-(declare-sort list 0)
-
-(declare-fun cons (Int list) list)
-(declare-fun nil  ()         list)
-
-
-;;define length
-(declare-fun length (list) Int)
-
-(assert (= (length nil) 0))
-
-(assert (forall ((?e Int) (?l list)) (!(= (length (cons ?e ?l)) (+ 1 (length ?l))) :pattern ((length (cons ?e ?l))) )))
-
-(declare-fun gen_cons (Int list) list)
-
-(assert (forall ((?n Int) (?l list)) (! (=> (= ?n 0) (= (gen_cons ?n ?l) ?l)) :pattern ((gen_cons ?n ?l)) )))
-
-(assert (forall ((?n Int) (?l list)) (! (=> (> ?n 0) (= (gen_cons ?n ?l)
-        (gen_cons (- ?n 1) (cons 1 ?l))))
-         :pattern ((gen_cons ?n ?l)) )))
-
-(declare-fun n () Int)
-
-(assert (not (= (length (gen_cons 1280 nil)) 1280)))
-
-(check-sat)
-
-(exit)
diff --git a/test/regress/regress0/rewriterules/length_gen_160.smt2 b/test/regress/regress0/rewriterules/length_gen_160.smt2
deleted file mode 100644
index 339c70bb5..000000000
--- a/test/regress/regress0/rewriterules/length_gen_160.smt2
+++ /dev/null
@@ -1,34 +0,0 @@
-;; Same than length.smt2 but the nil case is not a rewrite rule
-;; So here the rewrite rules have no guards length
-
-(set-logic AUFLIA)
-(set-info :status unsat)
-
-;; don't use a datatypes for currently focusing in uf
-(declare-sort list 0)
-
-(declare-fun cons (Int list) list)
-(declare-fun nil  ()         list)
-
-
-;;define length
-(declare-fun length (list) Int)
-
-(assert (= (length nil) 0))
-
-(assert (forall ((?e Int) (?l list)) (! (= (length (cons ?e ?l)) (+ 1 (length ?l))) :rewrite-rule)))
-
-(declare-fun gen_cons (Int list) list)
-
-(assert (forall ((?n Int) (?l list)) (! (=> (= ?n 0) (= (gen_cons ?n ?l) ?l)) :rewrite-rule)))
-
-(assert (forall ((?n Int) (?l list)) (! (=> (> ?n 0) (= (gen_cons ?n ?l)
-        (gen_cons (- ?n 1) (cons 1 ?l)))) :rewrite-rule)))
-
-(declare-fun n () Int)
-
-(assert (not (= (length (gen_cons 160 nil)) 160)))
-
-(check-sat)
-
-(exit)
diff --git a/test/regress/regress0/rewriterules/length_gen_160_lemma.smt2 b/test/regress/regress0/rewriterules/length_gen_160_lemma.smt2
deleted file mode 100644
index 28b58183e..000000000
--- a/test/regress/regress0/rewriterules/length_gen_160_lemma.smt2
+++ /dev/null
@@ -1,34 +0,0 @@
-;; Same than length.smt2 but the nil case is not a rewrite rule
-;; So here the rewrite rules have no guards length
-
-(set-logic AUFLIA)
-(set-info :status unsat)
-
-;; don't use a datatypes for currently focusing in uf
-(declare-sort list 0)
-
-(declare-fun cons (Int list) list)
-(declare-fun nil  ()         list)
-
-
-;;define length
-(declare-fun length (list) Int)
-
-(assert (= (length nil) 0))
-
-(assert (forall ((?e Int) (?l list)) (= (length (cons ?e ?l)) (+ 1 (length ?l)))))
-
-(declare-fun gen_cons (Int list) list)
-
-(assert (forall ((?n Int) (?l list)) (=> (= ?n 0) (= (gen_cons ?n ?l) ?l))))
-
-(assert (forall ((?n Int) (?l list)) (=> (> ?n 0) (= (gen_cons ?n ?l)
-        (gen_cons (- ?n 1) (cons 1 ?l))))))
-
-(declare-fun n () Int)
-
-(assert (not (= (length (gen_cons 160 nil)) 160)))
-
-(check-sat)
-
-(exit)
diff --git a/test/regress/regress0/rewriterules/length_gen_160_lemma_trigger.smt2 b/test/regress/regress0/rewriterules/length_gen_160_lemma_trigger.smt2
deleted file mode 100644
index 65d0c9570..000000000
--- a/test/regress/regress0/rewriterules/length_gen_160_lemma_trigger.smt2
+++ /dev/null
@@ -1,35 +0,0 @@
-;; Same than length.smt2 but the nil case is not a rewrite rule
-;; So here the rewrite rules have no guards length
-
-(set-logic AUFLIA)
-(set-info :status unsat)
-
-;; don't use a datatypes for currently focusing in uf
-(declare-sort list 0)
-
-(declare-fun cons (Int list) list)
-(declare-fun nil  ()         list)
-
-
-;;define length
-(declare-fun length (list) Int)
-
-(assert (= (length nil) 0))
-
-(assert (forall ((?e Int) (?l list)) (!(= (length (cons ?e ?l)) (+ 1 (length ?l))) :pattern ((length (cons ?e ?l))) )))
-
-(declare-fun gen_cons (Int list) list)
-
-(assert (forall ((?n Int) (?l list)) (! (=> (= ?n 0) (= (gen_cons ?n ?l) ?l)) :pattern ((gen_cons ?n ?l)) )))
-
-(assert (forall ((?n Int) (?l list)) (! (=> (> ?n 0) (= (gen_cons ?n ?l)
-        (gen_cons (- ?n 1) (cons 1 ?l))))
-         :pattern ((gen_cons ?n ?l)) )))
-
-(declare-fun n () Int)
-
-(assert (not (= (length (gen_cons 160 nil)) 160)))
-
-(check-sat)
-
-(exit)
diff --git a/test/regress/regress0/rewriterules/length_gen_160_sat.smt2 b/test/regress/regress0/rewriterules/length_gen_160_sat.smt2
deleted file mode 100644
index e2ed52faf..000000000
--- a/test/regress/regress0/rewriterules/length_gen_160_sat.smt2
+++ /dev/null
@@ -1,34 +0,0 @@
-;; Same than length.smt2 but the nil case is not a rewrite rule
-;; So here the rewrite rules have no guards length
-
-(set-logic AUFLIA)
-(set-info :status sat)
-
-;; don't use a datatypes for currently focusing in uf
-(declare-sort list 0)
-
-(declare-fun cons (Int list) list)
-(declare-fun nil  ()         list)
-
-
-;;define length
-(declare-fun length (list) Int)
-
-(assert (= (length nil) 0))
-
-(assert (forall ((?e Int) (?l list)) (! (= (length (cons ?e ?l)) (+ 1 (length ?l))) :rewrite-rule)))
-
-(declare-fun gen_cons (Int list) list)
-
-(assert (forall ((?n Int) (?l list)) (! (=> (= ?n 0) (= (gen_cons ?n ?l) ?l)) :rewrite-rule)))
-
-(assert (forall ((?n Int) (?l list)) (! (=> (> ?n 0) (= (gen_cons ?n ?l)
-        (gen_cons (- ?n 1) (cons 1 ?l)))) :rewrite-rule)))
-
-(declare-fun n () Int)
-
-(assert (not (= (length (gen_cons 160 nil)) 1600)))
-
-(check-sat)
-
-(exit)
diff --git a/test/regress/regress0/rewriterules/length_gen_2560.smt2 b/test/regress/regress0/rewriterules/length_gen_2560.smt2
deleted file mode 100644
index 2aff61656..000000000
--- a/test/regress/regress0/rewriterules/length_gen_2560.smt2
+++ /dev/null
@@ -1,34 +0,0 @@
-;; Same than length.smt2 but the nil case is not a rewrite rule
-;; So here the rewrite rules have no guards length
-
-(set-logic AUFLIA)
-(set-info :status unsat)
-
-;; don't use a datatypes for currently focusing in uf
-(declare-sort list 0)
-
-(declare-fun cons (Int list) list)
-(declare-fun nil  ()         list)
-
-
-;;define length
-(declare-fun length (list) Int)
-
-(assert (= (length nil) 0))
-
-(assert (forall ((?e Int) (?l list)) (! (= (length (cons ?e ?l)) (+ 1 (length ?l))) :rewrite-rule)))
-
-(declare-fun gen_cons (Int list) list)
-
-(assert (forall ((?n Int) (?l list)) (! (=> (= ?n 0) (= (gen_cons ?n ?l) ?l)) :rewrite-rule)))
-
-(assert (forall ((?n Int) (?l list)) (! (=> (> ?n 0) (= (gen_cons ?n ?l)
-        (gen_cons (- ?n 1) (cons 1 ?l)))) :rewrite-rule)))
-
-(declare-fun n () Int)
-
-(assert (not (= (length (gen_cons 2560 nil)) 2560)))
-
-(check-sat)
-
-(exit)
diff --git a/test/regress/regress0/rewriterules/length_gen_2560_sat.smt2 b/test/regress/regress0/rewriterules/length_gen_2560_sat.smt2
deleted file mode 100644
index 3e88e781f..000000000
--- a/test/regress/regress0/rewriterules/length_gen_2560_sat.smt2
+++ /dev/null
@@ -1,34 +0,0 @@
-;; Same than length.smt2 but the nil case is not a rewrite rule
-;; So here the rewrite rules have no guards length
-
-(set-logic AUFLIA)
-(set-info :status unsat)
-
-;; don't use a datatypes for currently focusing in uf
-(declare-sort list 0)
-
-(declare-fun cons (Int list) list)
-(declare-fun nil  ()         list)
-
-
-;;define length
-(declare-fun length (list) Int)
-
-(assert (= (length nil) 0))
-
-(assert (forall ((?e Int) (?l list)) (! (= (length (cons ?e ?l)) (+ 1 (length ?l))) :rewrite-rule)))
-
-(declare-fun gen_cons (Int list) list)
-
-(assert (forall ((?n Int) (?l list)) (! (=> (= ?n 0) (= (gen_cons ?n ?l) ?l)) :rewrite-rule)))
-
-(assert (forall ((?n Int) (?l list)) (! (=> (> ?n 0) (= (gen_cons ?n ?l)
-        (gen_cons (- ?n 1) (cons 1 ?l)))) :rewrite-rule)))
-
-(declare-fun n () Int)
-
-(assert (not (= (length (gen_cons 2560 nil)) 25600)))
-
-(check-sat)
-
-(exit)
diff --git a/test/regress/regress0/rewriterules/length_gen_640.smt2 b/test/regress/regress0/rewriterules/length_gen_640.smt2
deleted file mode 100644
index f1dc6bbf2..000000000
--- a/test/regress/regress0/rewriterules/length_gen_640.smt2
+++ /dev/null
@@ -1,34 +0,0 @@
-;; Same than length.smt2 but the nil case is not a rewrite rule
-;; So here the rewrite rules have no guards length
-
-(set-logic AUFLIA)
-(set-info :status unsat)
-
-;; don't use a datatypes for currently focusing in uf
-(declare-sort list 0)
-
-(declare-fun cons (Int list) list)
-(declare-fun nil  ()         list)
-
-
-;;define length
-(declare-fun length (list) Int)
-
-(assert (= (length nil) 0))
-
-(assert (forall ((?e Int) (?l list)) (! (= (length (cons ?e ?l)) (+ 1 (length ?l))) :rewrite-rule)))
-
-(declare-fun gen_cons (Int list) list)
-
-(assert (forall ((?n Int) (?l list)) (! (=> (= ?n 0) (= (gen_cons ?n ?l) ?l)) :rewrite-rule)))
-
-(assert (forall ((?n Int) (?l list)) (! (=> (> ?n 0) (= (gen_cons ?n ?l)
-        (gen_cons (- ?n 1) (cons 1 ?l)))) :rewrite-rule)))
-
-(declare-fun n () Int)
-
-(assert (not (= (length (gen_cons 640 nil)) 640)))
-
-(check-sat)
-
-(exit)
diff --git a/test/regress/regress0/rewriterules/length_gen_640_lemma.smt2 b/test/regress/regress0/rewriterules/length_gen_640_lemma.smt2
deleted file mode 100644
index 29d0f1aca..000000000
--- a/test/regress/regress0/rewriterules/length_gen_640_lemma.smt2
+++ /dev/null
@@ -1,34 +0,0 @@
-;; Same than length.smt2 but the nil case is not a rewrite rule
-;; So here the rewrite rules have no guards length
-
-(set-logic AUFLIA)
-(set-info :status unsat)
-
-;; don't use a datatypes for currently focusing in uf
-(declare-sort list 0)
-
-(declare-fun cons (Int list) list)
-(declare-fun nil  ()         list)
-
-
-;;define length
-(declare-fun length (list) Int)
-
-(assert (= (length nil) 0))
-
-(assert (forall ((?e Int) (?l list)) (= (length (cons ?e ?l)) (+ 1 (length ?l)))))
-
-(declare-fun gen_cons (Int list) list)
-
-(assert (forall ((?n Int) (?l list)) (=> (= ?n 0) (= (gen_cons ?n ?l) ?l))))
-
-(assert (forall ((?n Int) (?l list)) (=> (> ?n 0) (= (gen_cons ?n ?l)
-        (gen_cons (- ?n 1) (cons 1 ?l))))))
-
-(declare-fun n () Int)
-
-(assert (not (= (length (gen_cons 640 nil)) 640)))
-
-(check-sat)
-
-(exit)
diff --git a/test/regress/regress0/rewriterules/length_gen_640_sat.smt2 b/test/regress/regress0/rewriterules/length_gen_640_sat.smt2
deleted file mode 100644
index 958c2c730..000000000
--- a/test/regress/regress0/rewriterules/length_gen_640_sat.smt2
+++ /dev/null
@@ -1,34 +0,0 @@
-;; Same than length.smt2 but the nil case is not a rewrite rule
-;; So here the rewrite rules have no guards length
-
-(set-logic AUFLIA)
-(set-info :status unsat)
-
-;; don't use a datatypes for currently focusing in uf
-(declare-sort list 0)
-
-(declare-fun cons (Int list) list)
-(declare-fun nil  ()         list)
-
-
-;;define length
-(declare-fun length (list) Int)
-
-(assert (= (length nil) 0))
-
-(assert (forall ((?e Int) (?l list)) (! (= (length (cons ?e ?l)) (+ 1 (length ?l))) :rewrite-rule)))
-
-(declare-fun gen_cons (Int list) list)
-
-(assert (forall ((?n Int) (?l list)) (! (=> (= ?n 0) (= (gen_cons ?n ?l) ?l)) :rewrite-rule)))
-
-(assert (forall ((?n Int) (?l list)) (! (=> (> ?n 0) (= (gen_cons ?n ?l)
-        (gen_cons (- ?n 1) (cons 1 ?l)))) :rewrite-rule)))
-
-(declare-fun n () Int)
-
-(assert (not (= (length (gen_cons 640 nil)) 6400)))
-
-(check-sat)
-
-(exit)
diff --git a/test/regress/regress0/rewriterules/length_gen_inv_1280.smt2 b/test/regress/regress0/rewriterules/length_gen_inv_1280.smt2
deleted file mode 100644
index 30e3bc864..000000000
--- a/test/regress/regress0/rewriterules/length_gen_inv_1280.smt2
+++ /dev/null
@@ -1,34 +0,0 @@
-;; Same than length.smt2 but the nil case is not a rewrite rule
-;; So here the rewrite rules have no guards length
-
-(set-logic AUFLIA)
-(set-info :status unsat)
-
-;; don't use a datatypes for currently focusing in uf
-(declare-sort list 0)
-
-(declare-fun cons (Int list) list)
-(declare-fun nil  ()         list)
-
-
-;;define length
-(declare-fun length (list) Int)
-
-(assert (= (length nil) 0))
-
-(assert (forall ((?e Int) (?l list)) (! (= (length (cons ?e ?l)) (+ 1 (length ?l))) :rewrite-rule)))
-
-(declare-fun gen_cons (Int list) list)
-
-(assert (forall ((?n Int) (?l list)) (! (=> (= ?n 0) (= (gen_cons ?n ?l) ?l)) :rewrite-rule)))
-
-(assert (forall ((?n Int) (?l list)) (! (=> (> ?n 0) (= (gen_cons ?n ?l)
-        (cons 1 (gen_cons (- ?n 1) ?l)))) :rewrite-rule)))
-
-(declare-fun n () Int)
-
-(assert (not (= (length (gen_cons 1280 nil)) 1280)))
-
-(check-sat)
-
-(exit)
diff --git a/test/regress/regress0/rewriterules/length_gen_inv_160.smt2 b/test/regress/regress0/rewriterules/length_gen_inv_160.smt2
deleted file mode 100644
index 9c2a5c307..000000000
--- a/test/regress/regress0/rewriterules/length_gen_inv_160.smt2
+++ /dev/null
@@ -1,34 +0,0 @@
-;; Same than length.smt2 but the nil case is not a rewrite rule
-;; So here the rewrite rules have no guards length
-
-(set-logic AUFLIA)
-(set-info :status unsat)
-
-;; don't use a datatypes for currently focusing in uf
-(declare-sort list 0)
-
-(declare-fun cons (Int list) list)
-(declare-fun nil  ()         list)
-
-
-;;define length
-(declare-fun length (list) Int)
-
-(assert (= (length nil) 0))
-
-(assert (forall ((?e Int) (?l list)) (! (= (length (cons ?e ?l)) (+ 1 (length ?l))) :rewrite-rule)))
-
-(declare-fun gen_cons (Int list) list)
-
-(assert (forall ((?n Int) (?l list)) (! (=> (= ?n 0) (= (gen_cons ?n ?l) ?l)) :rewrite-rule)))
-
-(assert (forall ((?n Int) (?l list)) (! (=> (> ?n 0) (= (gen_cons ?n ?l)
-        (cons 1 (gen_cons (- ?n 1) ?l)))) :rewrite-rule)))
-
-(declare-fun n () Int)
-
-(assert (not (= (length (gen_cons 160 nil)) 160)))
-
-(check-sat)
-
-(exit)
diff --git a/test/regress/regress0/rewriterules/length_trick3.smt2 b/test/regress/regress0/rewriterules/length_trick3.smt2
deleted file mode 100644
index f6899541b..000000000
--- a/test/regress/regress0/rewriterules/length_trick3.smt2
+++ /dev/null
@@ -1,36 +0,0 @@
-;; Same than length.smt2 but the nil case is not a rewrite rule
-;; So here the rewrite rules have no guards length
-
-(set-logic AUFLIA)
-(set-info :status unsat)
-
-;; don't use a datatypes for currently focusing in uf
-(declare-sort list 0)
-;; don't use arith
-(declare-sort mynat 0)
-(declare-fun zero () mynat)
-(declare-fun succ (mynat) mynat)
-
-(declare-fun cons (Int list) list)
-(declare-fun nil  ()         list)
-
-
-;;define length
-(declare-fun length (list) mynat)
-
-(assert (= (length nil) zero))
-
-(assert (forall ((?e Int) (?l list)) (! (= (length (cons ?e ?l)) (succ (length ?l))) :rewrite-rule)))
-
-(declare-fun ten_one_cons (list) list)
-
-(assert (forall ((?l list)) (! (= (ten_one_cons ?l)
-        (cons 1 (cons 1 (cons 1 (cons 1 (cons 1 (cons 1 (cons 1 (cons 1 (cons 1 (cons 1 ?l) )))))))))
-        ) :rewrite-rule)))
-
-(assert (not (= (length (ten_one_cons nil))
-        (succ(succ(succ(succ(succ(succ(succ(succ(succ(succ zero)))))))))))))
-
-(check-sat)
-
-(exit)
diff --git a/test/regress/regress0/rewriterules/length_trick3_int.smt2 b/test/regress/regress0/rewriterules/length_trick3_int.smt2
deleted file mode 100644
index d58bf55fe..000000000
--- a/test/regress/regress0/rewriterules/length_trick3_int.smt2
+++ /dev/null
@@ -1,44 +0,0 @@
-;; Same than length.smt2 but the nil case is not a rewrite rule
-;; So here the rewrite rules have no guards length
-
-(set-logic AUFLIA)
-(set-info :status unsat)
-
-;; don't use a datatypes for currently focusing in uf
-(declare-sort list 0)
-
-(declare-fun cons (Int list) list)
-(declare-fun nil  ()         list)
-
-
-;;define length
-(declare-fun length (list) Int)
-
-(assert (= (length nil) 0))
-
-(assert (forall ((?e Int) (?l list)) (! (= (length (cons ?e ?l)) (+ 1 (length ?l))) :rewrite-rule)))
-
-(declare-fun ten_one_cons (list) list)
-
-(assert (forall ((?l list)) (! (= (ten_one_cons ?l)
-        (cons 1 (cons 1 (cons 1 (cons 1 (cons 1 (cons 1 (cons 1 (cons 1 (cons 1 (cons 1 ?l) )))))))))
-        ) :rewrite-rule)))
-
-(assert (not (= (length (ten_one_cons nil))
-        10)))
-
-(check-sat)
-
-(declare-fun ten_one_ten (list) list)
-
-(assert (forall ((?l list)) (! (= (ten_one_ten ?l)
-        (ten_one_cons (ten_one_cons (ten_one_cons (ten_one_cons (ten_one_cons (ten_one_cons (ten_one_cons (ten_one_cons (ten_one_cons (ten_one_cons ?l) )))))))))
-        ) :rewrite-rule)))
-
-(declare-fun two_one_ten (list) list)
-
-(assert (forall ((?l list)) (! (= (two_one_ten ?l)
-        (ten_one_cons (ten_one_cons ?l))
-        ) :rewrite-rule)))
-
-(exit)
diff --git a/test/regress/regress0/rewriterules/native_datatypes2.smt2 b/test/regress/regress0/rewriterules/native_datatypes2.smt2
deleted file mode 100644
index f19e5097b..000000000
--- a/test/regress/regress0/rewriterules/native_datatypes2.smt2
+++ /dev/null
@@ -1,35 +0,0 @@
-;; Same than length.smt2 but the nil case is not a rewrite rule
-;; So here the rewrite rules have no guards length
-
-(set-info :status unsat)
-
-(declare-datatypes ((nat 0) (list 0)) (
-((succ (pred nat)) (zero ) )
-((cons (car nat)(cdr list)) (nil ) )
-
-))
-
-
-;;define length
-(declare-fun length (list) nat)
-
-(assert (= (length nil) zero))
-
-(assert-rewrite ((?e nat) (?l list)) () (length (cons ?e ?l)) (succ (length ?l)) () )
-(assert-propagation ((?l list)) ((= (length ?l) zero)) () (= ?l nil) (((length ?l))) )
-;(assert-propagation ((?l list)) () () (= ?l nil) (((= (length ?l) 0))) )
-
-(declare-fun gen_cons (nat list) list)
-
-(assert-rewrite ((?l list)) () (gen_cons zero ?l) ?l () )
-
-(assert-rewrite ((?n nat) (?l list)) () (gen_cons (succ ?n) ?l) (gen_cons ?n (cons zero ?l)) () )
-
-(declare-fun l1 () list)
-(declare-fun l2 () list)
-
-(assert (not (=> (= (length l1) zero) (= l1 nil))))
-
-(check-sat)
-
-(exit)
diff --git a/test/regress/regress0/rewriterules/reachability_back_to_the_future_extended.smt2 b/test/regress/regress0/rewriterules/reachability_back_to_the_future_extended.smt2
deleted file mode 100644
index 955c810aa..000000000
--- a/test/regress/regress0/rewriterules/reachability_back_to_the_future_extended.smt2
+++ /dev/null
@@ -1,72 +0,0 @@
-;; Back to the Future ... Shuvendu K.Lhiri, Shaz Qadeer
-(set-logic AUFLIA)
-(set-info :status unsat)
-
-(declare-sort elt 0)
-
-(declare-fun f (elt) elt)
-(declare-fun Rf (elt elt elt) Bool)
-
-;;eq
-(assert-propagation ((?x elt)) () () (or (= ?x ?x) (not (= ?x ?x))) ((?x)) )
-;; reflexive
-(assert-propagation ((?x elt)) () () (Rf ?x ?x ?x) ((?x)) )
-;; step
-(assert-propagation ((?x elt)) () () (Rf ?x (f ?x) (f ?x)) (((f ?x))) )
-
-;; reach
-(assert-propagation ((?x1 elt)(?x2 elt)) () ((Rf ?x1 ?x2 ?x2)) (or (= ?x1 ?x2) (Rf ?x1 (f ?x1) ?x2)) (((f ?x1))) )
-;; reach extended
-(assert-propagation ((?x1 elt)(?x2 elt)) ((not (= ?x1 ?x2))(Rf ?x1 ?x2 ?x2)) () (Rf ?x1 (f ?x1) ?x2) (((Rf ?x1 (f ?x1) ?x2))) )
-;; reach extended
-(assert-propagation ((?x1 elt)(?x2 elt)) ((not (Rf ?x1 (f ?x1) ?x2))(Rf ?x1 ?x2 ?x2)) () (= ?x1 ?x2) (((Rf ?x1 (f ?x1) ?x2))) )
-
-;; cycle
-(assert-propagation ((?x1 elt)(?x2 elt)) ((= (f ?x1) ?x1)) ((Rf ?x1 ?x2 ?x2)) (= ?x1 ?x2) (((f ?x1))) )
-;; sandwich
-(assert-propagation ((?x1 elt)(?x2 elt)) () ((Rf ?x1 ?x2 ?x1)) (= ?x1 ?x2) () )
-;; order1
-(assert-propagation ((?x1 elt)(?x2 elt)(?x3 elt)) () ((Rf ?x1 ?x2 ?x2)(Rf ?x1 ?x3 ?x3))
-                    (or (Rf ?x1 ?x2 ?x3) (Rf ?x1 ?x3 ?x2)) () )
-;; order1 extended
-(assert-propagation ((?x1 elt)(?x2 elt)(?x3 elt)) ((Rf ?x1 ?x2 ?x2)(Rf ?x1 ?x3 ?x3)(not (Rf ?x1 ?x3 ?x2))) ()
-                    (Rf ?x1 ?x2 ?x3) (((Rf ?x1 ?x2 ?x3))) )
-;; order1 extended
-(assert-propagation ((?x1 elt)(?x2 elt)(?x3 elt)) ((Rf ?x1 ?x2 ?x2)(Rf ?x1 ?x3 ?x3)(not (Rf ?x1 ?x2 ?x3))) ()
-                    (Rf ?x1 ?x3 ?x2) (((Rf ?x1 ?x3 ?x2))) )
-
-;; order2
-(assert-propagation ((?x1 elt)(?x2 elt)(?x3 elt)) () ((Rf ?x1 ?x2 ?x3))
-                    (and (Rf ?x1 ?x2 ?x2) (Rf ?x2 ?x3 ?x3)) () )
-;; transitive1
-(assert-propagation ((?x1 elt)(?x2 elt)(?x3 elt)) () ((Rf ?x1 ?x2 ?x2)(Rf ?x2 ?x3 ?x3))
-                    (Rf ?x1 ?x3 ?x3) () )
-;; transitive2
-(assert-propagation ((?x0 elt)(?x1 elt)(?x2 elt)(?x3 elt)) () ((Rf ?x0 ?x1 ?x2)(Rf ?x1 ?x3 ?x2))
-                    (and (Rf ?x0 ?x1 ?x3) (Rf ?x0 ?x3 ?x2)) () )
-;;transitive3
-(assert-propagation ((?x0 elt)(?x1 elt)(?x2 elt)(?x3 elt)) () ((Rf ?x0 ?x1 ?x2)(Rf ?x0 ?x3 ?x1))
-                    (and (Rf ?x0 ?x3 ?x2) (Rf ?x3 ?x1 ?x2)) () )
-
-(declare-fun e1 () elt)
-(declare-fun e2 () elt)
-(declare-fun e3 () elt)
-(declare-fun e4 () elt)
-
-
-(assert (and (hack e1) (hack e2) (hack e3) (hack e4) (hack (f e1))))
-
-
-;; (assert (=> (Rf e1 e2 e3) (Rf e1 (f e1) (f e1)) ))
-
-;; (assert (=> (Rf e1 e2 e3) (Rf e1 e3 e3) ))
-
-;; (assert (=> (Rf e1 e2 e3) (or (= e1 e3) (Rf e1 (f e1) e3)) ))
-
-;;(assert (not (=> (and (not (= e1 e2)) (Rf e1 e2 e3)) (Rf e1 (f e1) e3) )))
-
-(assert (and (not (= e1 e2)) (Rf e1 e2 e3) (not (Rf e1 (f e1) e3)) ))
-
-
-(check-sat)
-(exit)
\ No newline at end of file
diff --git a/test/regress/regress0/rewriterules/reachability_bbttf_eT_arrays.smt2 b/test/regress/regress0/rewriterules/reachability_bbttf_eT_arrays.smt2
deleted file mode 100644
index 8f30f38a5..000000000
--- a/test/regress/regress0/rewriterules/reachability_bbttf_eT_arrays.smt2
+++ /dev/null
@@ -1,330 +0,0 @@
-;; Back to the Future ... Shuvendu K.Lhiri, Shaz Qadeer
-(set-logic AUFLIA)
-(set-info :status unsat)
-
-(declare-sort elt 0)
-(define-sort mem () (Array elt elt))
-
-(declare-fun R (mem elt elt elt) Bool)
-
-;; reflexive
-(assert-propagation ((?m mem)(?x elt)) ((?m ?x)) () () (R ?m ?x ?x ?x) )
-;; step
-(assert-propagation ((?m mem)(?x elt)) (((select ?m ?x))) () () (R ?m ?x (select ?m ?x) (select ?m ?x)) )
-;; (assert-propagation ((?x elt)) (f ?x)))) () () (Rf ?x (f ?x) (f ?x)) (((Rf ?x (f ?x) )
-;; (assert-propagation ((?x elt)) (((f ?x))) () () (=> true (Rf ?x (f ?x) (f ?x))) )
-
-;; reach
-(assert-propagation ((?m mem)(?x1 elt)(?x2 elt)) (((select ?m ?x1))) () ((R ?m ?x1 ?x2 ?x2)) (or (= ?x1 ?x2) (R ?m ?x1 (select ?m ?x1) ?x2)) )
-;; ;; reach extended
-;; (assert-propagation ((?x1 elt)(?x2 elt)) (((Rf ?x1 (f ?x1) ?x2))) ((not (= ?x1 ?x2))(Rf ?x1 ?x2 ?x2)) () (Rf ?x1 (f ?x1) ?x2) )
-;; ;; reach extended
-;; (assert-propagation ((?x1 elt)(?x2 elt)) (((Rf ?x1 (f ?x1) ?x2))) ((not (Rf ?x1 (f ?x1) ?x2))(Rf ?x1 ?x2 ?x2)) () (= ?x1 ?x2) )
-
-;; cycle
-(assert-propagation ((?m mem)(?x1 elt)(?x2 elt)) (((select ?m ?x1))) ((= (select ?m ?x1) ?x1)) ((R ?m ?x1 ?x2 ?x2)) (= ?x1 ?x2) )
-;; (assert-propagation ((?x1 elt)(?x2 elt)) () ((= (f ?x1) ?x1)) ((Rf ?x1 ?x2 ?x2)) (= ?x1 ?x2) )
-
-;; (assert-propagation ((?x1 elt)(?x2 elt)) (((Rf ?x1 ?x2 ?x2)(f ?x1))) () () (=> (and (= (f ?x1) ?x1) (Rf ?x1 ?x2 ?x2)) (= ?x1 ?x2)) )
-
-;; sandwich
-(assert-propagation ((?m mem)(?x1 elt)(?x2 elt)) () () ((R ?m ?x1 ?x2 ?x1)) (= ?x1 ?x2) )
-;; (assert-propagation ((?x1 elt)(?x2 elt)) (((Rf ?x1 ?x2 ?x1))) () () (=> (Rf ?x1 ?x2 ?x1) (= ?x1 ?x2)) )
-
-;; order1
-(assert-propagation ((?m mem)(?x1 elt)(?x2 elt)(?x3 elt)) () ()
-                    ((R ?m ?x1 ?x2 ?x2)(R ?m ?x1 ?x3 ?x3)) (or (R ?m ?x1 ?x2 ?x3) (R ?m ?x1 ?x3 ?x2)) )
-
-;; (assert-propagation ((?x1 elt)(?x2 elt)(?x3 elt)) (((Rf ?x1 ?x2 ?x2)(Rf ?x1 ?x3 ?x3))) () ()
-;;                     (=> (and (Rf ?x1 ?x2 ?x2)(Rf ?x1 ?x3 ?x3)) (or (Rf ?x1 ?x2 ?x3) (Rf ?x1 ?x3 ?x2))) )
-
-;; ;; order1 extended
-;; (assert-propagation ((?x1 elt)(?x2 elt)(?x3 elt)) (((Rf ?x1 ?x2 ?x3))) ((Rf ?x1 ?x2 ?x2)(Rf ?x1 ?x3 ?x3)(not (Rf ?x1 ?x3 ?x2))) ()
-;;                     (Rf ?x1 ?x2 ?x3) )
-;; ;; order1 extended
-;; (assert-propagation ((?x1 elt)(?x2 elt)(?x3 elt)) (((Rf ?x1 ?x3 ?x2))) ((Rf ?x1 ?x2 ?x2)(Rf ?x1 ?x3 ?x3)(not (Rf ?x1 ?x2 ?x3))) ()
-;;                     (Rf ?x1 ?x3 ?x2) )
-;; ;; order1 extended
-;; (assert-propagation ((?x1 elt)(?x2 elt)(?x3 elt)) (((Rf ?x1 ?x3 ?x2))) ((Rf ?x1 ?x2 ?x2)(Rf ?x1 ?x3 ?x3)(not (Rf ?x1 ?x3 ?x2))) ()
-;;                     (Rf ?x1 ?x2 ?x3) )
-;; ;; order1 extended
-;; (assert-propagation ((?x1 elt)(?x2 elt)(?x3 elt)) (((Rf ?x1 ?x2 ?x3))) ((Rf ?x1 ?x2 ?x2)(Rf ?x1 ?x3 ?x3)(not (Rf ?x1 ?x2 ?x3))) ()
-;;                     (Rf ?x1 ?x3 ?x2) )
-;; ;; order1 extended
-;; (assert-propagation ((?x1 elt)(?x2 elt)(?x3 elt)) (((Rf ?x1 ?x2 ?x2)(Rf ?x1 ?x3 ?x3))) ((Rf ?x1 ?x2 ?x2)(Rf ?x1 ?x3 ?x3)(not (Rf ?x1 ?x3 ?x2))) ()
-;;                     (Rf ?x1 ?x2 ?x3) )
-;; ;; order1 extended
-;; (assert-propagation ((?x1 elt)(?x2 elt)(?x3 elt)) (((Rf ?x1 ?x2 ?x2)(Rf ?x1 ?x3 ?x3))) ((Rf ?x1 ?x2 ?x2)(Rf ?x1 ?x3 ?x3)(not (Rf ?x1 ?x2 ?x3))) ()
-;;                     (Rf ?x1 ?x3 ?x2) )
-
-;; order2
-(assert-propagation ((?m mem)(?x1 elt)(?x2 elt)(?x3 elt)) () () ((R ?m ?x1 ?x2 ?x3))
-                    (and (R ?m ?x1 ?x2 ?x2) (R ?m ?x2 ?x3 ?x3)) )
-;; transitive1
-(assert-propagation ((?m mem)(?x1 elt)(?x2 elt)(?x3 elt)) () () ((R ?m ?x1 ?x2 ?x2)(R ?m ?x2 ?x3 ?x3))
-                    (R ?m ?x1 ?x3 ?x3) )
-;; ;; transitive1 extended
-;; (assert-propagation ((?x1 elt)(?x2 elt)(?x3 elt)) () () ((not (Rf ?x1 ?x3 ?x3))(Rf ?x2 ?x3 ?x3))
-;;                     (not (Rf ?x1 ?x2 ?x2)) )
-;; ;; transitive1 extended
-;; (assert-propagation ((?x1 elt)(?x2 elt)(?x3 elt)) () () ((Rf ?x1 ?x2 ?x2)(not (Rf ?x1 ?x3 ?x3)))
-;;                     (not (Rf ?x2 ?x3 ?x3)) )
-
-;;transitive2
-(assert-propagation ((?m mem)(?x0 elt)(?x1 elt)(?x2 elt)(?x3 elt)) () () ((R ?m ?x0 ?x1 ?x2)(R ?m ?x1 ?x3 ?x2))
-                    (and (R ?m ?x0 ?x1 ?x3) (R ?m ?x0 ?x3 ?x2)) )
-
-;; (assert-propagation ((?x0 elt)(?x1 elt)(?x2 elt)(?x3 elt)) (((Rf ?x0 ?x1 ?x2)(Rf ?x1 ?x3 ?x2))) () ()
-;;                     (=> (and (Rf ?x0 ?x1 ?x2)(Rf ?x1 ?x3 ?x2))
-;;                         (and (Rf ?x0 ?x1 ?x3) (Rf ?x0 ?x3 ?x2)))
-;;                     )
-
-;; ;; transitive2 extended
-;; (assert-propagation ((?x0 elt)(?x1 elt)(?x2 elt)(?x3 elt)) (((Rf ?x0 ?x1 ?x2))) () ((not (Rf ?x0 ?x1 ?x3))(Rf ?x1 ?x3 ?x2))
-;;                     (not (Rf ?x0 ?x1 ?x2)) )
-;; ;; transitive2 extended
-;; (assert-propagation ((?x0 elt)(?x1 elt)(?x2 elt)(?x3 elt)) (((Rf ?x1 ?x3 ?x2))) () ((Rf ?x0 ?x1 ?x2)(not (Rf ?x0 ?x1 ?x3)))
-;;                     (not (Rf ?x1 ?x3 ?x2)) )
-;; ;; transitive2 extended
-;; (assert-propagation ((?x0 elt)(?x1 elt)(?x2 elt)(?x3 elt)) (((Rf ?x0 ?x1 ?x2))) () ((not (Rf ?x0 ?x3 ?x2))(Rf ?x1 ?x3 ?x2))
-;;                     (not (Rf ?x0 ?x1 ?x2)) )
-;; ;; transitive2 extended
-;; (assert-propagation ((?x0 elt)(?x1 elt)(?x2 elt)(?x3 elt)) (((Rf ?x1 ?x3 ?x2))) () ((Rf ?x0 ?x1 ?x2)(not (Rf ?x0 ?x3 ?x2)))
-;;                     (not (Rf ?x1 ?x3 ?x2)) )
-
-;; ;;transitive3
-(assert-propagation ((?m mem)(?x0 elt)(?x1 elt)(?x2 elt)(?x3 elt)) () () ((R ?m ?x0 ?x1 ?x2)(R ?m ?x0 ?x3 ?x1))
-                    (and (R ?m ?x0 ?x3 ?x2) (R ?m ?x3 ?x1 ?x2)) )
-
-;; (assert-propagation ((?x0 elt)(?x1 elt)(?x2 elt)(?x3 elt)) (((Rf ?x0 ?x1 ?x2)(Rf ?x0 ?x3 ?x1))) () ()
-;;                     (=> (and (Rf ?x0 ?x1 ?x2)(Rf ?x0 ?x3 ?x1))
-;;                         (and (Rf ?x0 ?x3 ?x2) (Rf ?x3 ?x1 ?x2))) )
-
-
-(declare-fun next () mem)
-
-(declare-fun e1 () elt)
-(declare-fun e2 () elt)
-(declare-fun e3 () elt)
-(declare-fun e4 () elt)
-
-
-
-(declare-fun R_avoid (mem elt elt elt) Bool)
-
-(assert-rewrite ((?m mem)(?x0 elt)(?x1 elt)(?exc elt)) () () (R_avoid ?m ?x0 ?x1 ?exc)
-                 (or (R ?m ?x0 ?x1 ?exc) (and (R ?m ?x0 ?x1 ?x1) (not (R ?m ?x0 ?exc ?exc)))) )
-
-
-;; Identity of Back to the future p175
-(assert-rewrite ((?p elt)(?q elt)(?u elt)(?v elt)(?w elt)(?m mem)) () () (R (store ?m ?p ?q) ?u ?v ?w)
-                (or (and (R ?m ?u ?v ?w) (R_avoid ?m ?u ?w ?p) )
-                    (and (not (= ?p ?w)) (R_avoid ?m ?u ?p ?w) (R ?m ?u ?v ?p) (R_avoid ?m ?q ?w ?p) )
-                    (and (not (= ?p ?w)) (R_avoid ?m ?u ?p ?w) (R ?m ?q ?v ?w) (R_avoid ?m ?q ?w ?p) ) )
-                )
-
-
-
-(declare-fun join (mem elt elt) elt)
-
-(declare-fun null () elt)
-(assert (= (select next null) null))
-
-(assert-propagation ((?m mem)(?x elt)(?y elt)(?z elt)) (((join ?m ?x ?y))) () ((R ?m ?x ?z ?z)(R ?m ?y ?z ?z)) (R ?m ?x (join ?m ?x ?y) ?z) )
-(assert-propagation ((?m mem)(?x elt)(?y elt)) (((join ?m ?x ?y))) () () (or (and (R ?m ?x (join ?m ?x ?y) (join ?m ?x ?y)) (R ?m ?y (join ?m ?x ?y) (join ?m ?x ?y))) (= (join ?m ?x ?y) null))  )
-
-;;extended join
-(assert-propagation ((?m mem)(?x elt)(?y elt)(?z elt)) () () ((R ?m ?x ?z (join ?m ?x ?y))(R ?m ?y ?z (join ?m ?x ?y))) (= ?z (join ?m ?x ?y)) )
-
-
-(assert-propagation ((?p elt)(?q elt)(?m mem)(?u elt)(?v elt)) (((join (store ?m ?p ?q) ?u ?v))) () ()
-                    (= (join (store ?m ?p ?q) ?u ?v)
-                       (let ((jp (join ?m ?u ?v)))
-                         ;; In ?m: ?u ?v have a nearest point of junction (join ?m ?u ?v)
-                         (ite (and (R ?m ?u jp jp) (R ?m ?v jp jp))
-                              ;; The modification is in the ?u branch
-                              (ite (R ?m ?u ?p jp)
-                                   ;; we can go by the new path and the new path doesn't cycle
-                                   (ite (and (R (store ?m ?p ?q) ?u ?p ?q) (R (store ?m ?p ?q) ?q (join ?m ?q ?v) (join ?m ?q ?v)))
-                                        (join ?m ?q ?v)
-                                   ;; we can't
-                                        null
-                                   )
-                              ;; The modification is in the ?v branch
-                              (ite (R ?m ?v ?p jp)
-                                   ;; we can go by the new path and the new path doesn't cycle
-                                   (ite (and (R (store ?m ?p ?q) ?v ?p ?q) (R (store ?m ?p ?q) ?q (join ?m ?u ?q) (join ?m ?u ?q)))
-                                        (join ?m ?u ?q)
-                                   ;; we can't
-                                        null
-                                   )
-                              ;; The modification is not before the point of junction
-                                   (join ?m ?u ?v)
-                              ))
-                         ;; In ?m: ?u ?v doens't have a point of junction
-                              ;;The modification is accesible from ?u
-                              (ite (R ?m ?u ?p ?p) (join ?m ?q ?v)
-                              ;;The modification is accesible from ?v
-                                   (ite (R ?m ?v ?p ?p) (join ?m ?u ?q)
-                              ;;The modification is accesible neither from ?u neither from ?v
-                                        (join ?m ?u ?v)
-                                   )
-                              )
-                         )
-                       ))
-                                        )
-
-(declare-fun next2 () mem)
-
-;; === Example 0 ===
-;; (assert (not (=>
-;;               (and (not (= e1 e2))
-;;                    (R next e1 e2 e3))
-;;               (R next e1 (select next e1) e3))
-;; ))
-
-;;================
-;;Thomas' example1 x,e1 y,e2 z,e3 y',e4
-;;================
-;; (assert (not (=>
-;;               (and (R next e1 e2 e3)
-;;                    (not (= e2 e3))
-;;                    (= e4 (select next e2)))
-;;               (R next e1 e4 e3))
-;; ))
-
-
-;;===================
-;; ;;Thomas' example2
-;;===================
-
-;; (assert (not (=>
-;;               (and (R next e1 null null)
-;;                    (= (join next e1 e2) null)
-;;                    (= next2 (store next e2 e1))
-;;                    )
-;;               (R next2 e1 null null)
-;;               )
-;;              )
-;;         )
-
-
-;;================
-;;Thomas' example3
-;;================
-(assert (not (=> (and (= (join next e1 e2) null)
-                      (R next e2 null null)
-                      (not (= e2 null))
-                      (= next2 (store next e2 e1))
-                      (= e3 e2)
-                      (= e4 (select next e2))
-                      )
-                 (= (join next2 e3 e4) null)
-                 )
-             )
-        )
-
-;; ==== for debugging example 3 ====
-;; ;;case to consider
-;; ;;(assert (or (not (R next e1 null null)) (R next e1 null null)))
-
-;; ;;first case to consider
-;; ;;(assert (R next e1 null null))
-
-;; ;;second case to consider
-;; ;; (assert (not (R next e1 null null)))
-
-
-;; ;;hyp
-;; (assert (= (join next e1 e2) null))
-;; (assert (R next e2 null null))
-;; (assert (not (= e2 null)))
-;; (assert (= next2 (store next e2 e1)))
-;; (assert (= e3 e2))
-;; (assert (= e4 (select next e2)))
-
-;; ;; help
-;; ;; have a join point
-;; ;; (assert (R next e2 e4 e4))
-;; ;; (assert (R next e4 e4 e4))
-
-;; ;; (assert (R next e2 (join next e2 e4) e4))
-;; ;; (assert (not (R next e4 e2 e2)))
-
-;; ;; (assert (not (= e2 (join next e2 e4))));;  slow with efficient (/axioms)
-
-;; ;; (assert (= e4 (join next e2 e4))) ;; unprovable with efficient (/axioms)
-;; ;; in e2 branch
-;; ;; (assert (not (R next e4 e2 null))) ;; 
-;; ;; the auxillary join
-;; ;; (assert (= (join next2 e1 e4) null))
-
-
-;; ;;to prove
-;; (assert (not (= (join next2 e3 e4) null)))
-
-
-;;====================
-;; ;;Thomas' example wrong sat?
-;;====================
-
-;; (assert (not (=> (and
-;;                   (= (join next e1 e2) null)
-;;                   (R next e2 null null)
-;;                   (not (= e2 null))
-;;                   (= next2 (store next e2 e1))
-;;                   )
-;;                  (= (join next2 e1 e2) null)
-;;                  )
-;;              )
-;;         )
-
-;;====================
-;; ;;example4 sat
-;;====================
-
-;; (assert (not (=> (and
-;;                   (= (join next e1 e2) null)
-;;                   (R next e2 null null) (not (= e2 null))
-;;                   )
-;; (not (R next e2 e2 e2))
-;; )))
-
-
-;;====================
-;;example5 unsat
-;;====================
-
-;; (assert (and
-;;          ;; (= (join e1 e2) null)
-;;          (= (select next (select next e1)) e1)
-;;          (R next e1 e2 e2)
-;;          (not (= e2 e1))
-;;          (not (= e2 (select next e1)))
-;;          )
-;; )
-
-;;====================
-;; ;; example 6 unsat
-;;====================
-
-;; ;; join is the nearest junction point
-;; (assert (and (not (= e3 (join next e1 e2)))
-;;              (R next e1 e3 (join next e1 e2))
-;;              (R next e2 e3 (join next e1 e2))
-;; ))
-
-
-;;====================
-;; example7 unsat
-;;====================
-
-;; (assert (R next e1 e2 (select next e1)))
-;; (assert (not (= e1 e2)))
-;; (assert (not (= e2 (select next e1))))
-
-
-
-(check-sat)
-(exit)
-
diff --git a/test/regress/regress0/rewriterules/reachability_bttf_ext_Thomas.smt2 b/test/regress/regress0/rewriterules/reachability_bttf_ext_Thomas.smt2
deleted file mode 100644
index 92103238c..000000000
--- a/test/regress/regress0/rewriterules/reachability_bttf_ext_Thomas.smt2
+++ /dev/null
@@ -1,211 +0,0 @@
-;; Back to the Future ... Shuvendu K.Lhiri, Shaz Qadeer
-(set-logic AUFLIA)
-(set-info :status unsat)
-
-(declare-sort elt 0)
-
-(declare-fun f (elt) elt)
-(declare-fun Rf (elt elt elt) Bool)
-
-;; reflexive
-;;(assert-propagation ((?x elt)) () () (Rf ?x ?x ?x) ((?x)) )
-;; step
-(assert-propagation ((?x elt)) () () (Rf ?x (f ?x) (f ?x)) (((f ?x))) )
-;; (assert-propagation ((?x elt)) () () (Rf ?x (f ?x) (f ?x)) (((Rf ?x (f ?x) (f ?x)))) )
-;; (assert-propagation ((?x elt)) () () (=> true (Rf ?x (f ?x) (f ?x))) (((f ?x))) )
-
-;; reach
-(assert-propagation ((?x1 elt)(?x2 elt)) () ((Rf ?x1 ?x2 ?x2)) (or (= ?x1 ?x2) (Rf ?x1 (f ?x1) ?x2)) (((f ?x1))) )
-;; ;; reach extended
-;; (assert-propagation ((?x1 elt)(?x2 elt)) ((not (= ?x1 ?x2))(Rf ?x1 ?x2 ?x2)) () (Rf ?x1 (f ?x1) ?x2) (((Rf ?x1 (f ?x1) ?x2))) )
-;; ;; reach extended
-;; (assert-propagation ((?x1 elt)(?x2 elt)) ((not (Rf ?x1 (f ?x1) ?x2))(Rf ?x1 ?x2 ?x2)) () (= ?x1 ?x2) (((Rf ?x1 (f ?x1) ?x2))) )
-
-;; cycle
-(assert-propagation ((?x1 elt)(?x2 elt)) ((= (f ?x1) ?x1)) ((Rf ?x1 ?x2 ?x2)) (= ?x1 ?x2) (((f ?x1))) )
-;; (assert-propagation ((?x1 elt)(?x2 elt)) ((= (f ?x1) ?x1)) ((Rf ?x1 ?x2 ?x2)) (= ?x1 ?x2) () )
-
-;; (assert-propagation ((?x1 elt)(?x2 elt)) () () (=> (and (= (f ?x1) ?x1) (Rf ?x1 ?x2 ?x2)) (= ?x1 ?x2)) (((Rf ?x1 ?x2 ?x2)(f ?x1))) )
-
-;; sandwich
-(assert-propagation ((?x1 elt)(?x2 elt)) () ((Rf ?x1 ?x2 ?x1)) (= ?x1 ?x2) () )
-;; (assert-propagation ((?x1 elt)(?x2 elt)) () () (=> (Rf ?x1 ?x2 ?x1) (= ?x1 ?x2)) (((Rf ?x1 ?x2 ?x1))) )
-
-;; order1
-(assert-propagation ((?x1 elt)(?x2 elt)(?x3 elt)) ()
-                    ((Rf ?x1 ?x2 ?x2)(Rf ?x1 ?x3 ?x3)) (or (Rf ?x1 ?x2 ?x3) (Rf ?x1 ?x3 ?x2)) () )
-
-;; (assert-propagation ((?x1 elt)(?x2 elt)(?x3 elt)) () ()
-;;                     (=> (and (Rf ?x1 ?x2 ?x2)(Rf ?x1 ?x3 ?x3)) (or (Rf ?x1 ?x2 ?x3) (Rf ?x1 ?x3 ?x2))) (((Rf ?x1 ?x2 ?x2)(Rf ?x1 ?x3 ?x3))) )
-
-;; ;; order1 extended
-;; (assert-propagation ((?x1 elt)(?x2 elt)(?x3 elt)) ((Rf ?x1 ?x2 ?x2)(Rf ?x1 ?x3 ?x3)(not (Rf ?x1 ?x3 ?x2))) ()
-;;                     (Rf ?x1 ?x2 ?x3) (((Rf ?x1 ?x2 ?x3))) )
-;; ;; order1 extended
-;; (assert-propagation ((?x1 elt)(?x2 elt)(?x3 elt)) ((Rf ?x1 ?x2 ?x2)(Rf ?x1 ?x3 ?x3)(not (Rf ?x1 ?x2 ?x3))) ()
-;;                     (Rf ?x1 ?x3 ?x2) (((Rf ?x1 ?x3 ?x2))) )
-;; ;; order1 extended
-;; (assert-propagation ((?x1 elt)(?x2 elt)(?x3 elt)) ((Rf ?x1 ?x2 ?x2)(Rf ?x1 ?x3 ?x3)(not (Rf ?x1 ?x3 ?x2))) ()
-;;                     (Rf ?x1 ?x2 ?x3) (((Rf ?x1 ?x3 ?x2))) )
-;; ;; order1 extended
-;; (assert-propagation ((?x1 elt)(?x2 elt)(?x3 elt)) ((Rf ?x1 ?x2 ?x2)(Rf ?x1 ?x3 ?x3)(not (Rf ?x1 ?x2 ?x3))) ()
-;;                     (Rf ?x1 ?x3 ?x2) (((Rf ?x1 ?x2 ?x3))) )
-;; ;; order1 extended
-;; (assert-propagation ((?x1 elt)(?x2 elt)(?x3 elt)) ((Rf ?x1 ?x2 ?x2)(Rf ?x1 ?x3 ?x3)(not (Rf ?x1 ?x3 ?x2))) ()
-;;                     (Rf ?x1 ?x2 ?x3) (((Rf ?x1 ?x2 ?x2)(Rf ?x1 ?x3 ?x3))) )
-;; ;; order1 extended
-;; (assert-propagation ((?x1 elt)(?x2 elt)(?x3 elt)) ((Rf ?x1 ?x2 ?x2)(Rf ?x1 ?x3 ?x3)(not (Rf ?x1 ?x2 ?x3))) ()
-;;                     (Rf ?x1 ?x3 ?x2) (((Rf ?x1 ?x2 ?x2)(Rf ?x1 ?x3 ?x3))) )
-
-;; order2
-(assert-propagation ((?x1 elt)(?x2 elt)(?x3 elt)) () ((Rf ?x1 ?x2 ?x3))
-                    (and (Rf ?x1 ?x2 ?x2) (Rf ?x2 ?x3 ?x3)) () )
-;; transitive1
-(assert-propagation ((?x1 elt)(?x2 elt)(?x3 elt)) () ((Rf ?x1 ?x2 ?x2)(Rf ?x2 ?x3 ?x3))
-                    (Rf ?x1 ?x3 ?x3) () )
-;; ;; transitive1 extended
-;; (assert-propagation ((?x1 elt)(?x2 elt)(?x3 elt)) () ((not (Rf ?x1 ?x3 ?x3))(Rf ?x2 ?x3 ?x3))
-;;                     (not (Rf ?x1 ?x2 ?x2)) () )
-;; ;; transitive1 extended
-;; (assert-propagation ((?x1 elt)(?x2 elt)(?x3 elt)) () ((Rf ?x1 ?x2 ?x2)(not (Rf ?x1 ?x3 ?x3)))
-;;                     (not (Rf ?x2 ?x3 ?x3)) () )
-
-;;transitive2
-(assert-propagation ((?x0 elt)(?x1 elt)(?x2 elt)(?x3 elt)) () ((Rf ?x0 ?x1 ?x2)(Rf ?x1 ?x3 ?x2))
-                    (and (Rf ?x0 ?x1 ?x3) (Rf ?x0 ?x3 ?x2)) () )
-
-;; (assert-propagation ((?x0 elt)(?x1 elt)(?x2 elt)(?x3 elt)) () ()
-;;                     (=> (and (Rf ?x0 ?x1 ?x2)(Rf ?x1 ?x3 ?x2))
-;;                         (and (Rf ?x0 ?x1 ?x3) (Rf ?x0 ?x3 ?x2)))
-;;                     (((Rf ?x0 ?x1 ?x2)(Rf ?x1 ?x3 ?x2))) )
-
-;; ;; transitive2 extended
-;; (assert-propagation ((?x0 elt)(?x1 elt)(?x2 elt)(?x3 elt)) () ((not (Rf ?x0 ?x1 ?x3))(Rf ?x1 ?x3 ?x2))
-;;                     (not (Rf ?x0 ?x1 ?x2)) (((Rf ?x0 ?x1 ?x2))) )
-;; ;; transitive2 extended
-;; (assert-propagation ((?x0 elt)(?x1 elt)(?x2 elt)(?x3 elt)) () ((Rf ?x0 ?x1 ?x2)(not (Rf ?x0 ?x1 ?x3)))
-;;                     (not (Rf ?x1 ?x3 ?x2)) (((Rf ?x1 ?x3 ?x2))) )
-;; ;; transitive2 extended
-;; (assert-propagation ((?x0 elt)(?x1 elt)(?x2 elt)(?x3 elt)) () ((not (Rf ?x0 ?x3 ?x2))(Rf ?x1 ?x3 ?x2))
-;;                     (not (Rf ?x0 ?x1 ?x2)) (((Rf ?x0 ?x1 ?x2))) )
-;; ;; transitive2 extended
-;; (assert-propagation ((?x0 elt)(?x1 elt)(?x2 elt)(?x3 elt)) () ((Rf ?x0 ?x1 ?x2)(not (Rf ?x0 ?x3 ?x2)))
-;;                     (not (Rf ?x1 ?x3 ?x2)) (((Rf ?x1 ?x3 ?x2))) )
-
-;; ;;transitive3
-(assert-propagation ((?x0 elt)(?x1 elt)(?x2 elt)(?x3 elt)) () ((Rf ?x0 ?x1 ?x2)(Rf ?x0 ?x3 ?x1))
-                    (and (Rf ?x0 ?x3 ?x2) (Rf ?x3 ?x1 ?x2)) () )
-
-;; (assert-propagation ((?x0 elt)(?x1 elt)(?x2 elt)(?x3 elt)) () ()
-;;                     (=> (and (Rf ?x0 ?x1 ?x2)(Rf ?x0 ?x3 ?x1))
-;;                         (and (Rf ?x0 ?x3 ?x2) (Rf ?x3 ?x1 ?x2))) (((Rf ?x0 ?x1 ?x2)(Rf ?x0 ?x3 ?x1))) )
-
-
-(declare-fun e1 () elt)
-(declare-fun e2 () elt)
-(declare-fun e3 () elt)
-(declare-fun e4 () elt)
-
-
-;;Example0
-;;(assert (not (=> (and (not (= e1 e2)) (Rf e1 e2 e3)) (Rf e1 (f e1) e3))) )
-
-;;Thomas' example1 x,e1 y,e2 z,e3 y',e4
-;;(assert (not (=> (and (Rf e1 e2 e3) (not (= e2 e3)) (= e4 (f e2))) (Rf e1 e4 e3))))
-
-(declare-fun Rf_avoid (elt elt elt) Bool)
-
-;; (assert-rewrite ((?x0 elt)(?x1 elt)(?exc elt)) () (Rf_avoid ?x0 ?x1 ?exc)
-;;                  (or (Rf ?x0 ?x1 ?exc) (and (Rf ?x0 ?x1 ?x1) (not (Rf ?x0 ?exc ?exc)))) () )
-
-(declare-fun null () elt)
-(assert (= (f null) null))
-
-(declare-fun join (elt elt) elt)
-
-;; (assert-propagation ((?x elt)(?y elt)(?z elt)) () ((Rf ?x ?z ?z)(Rf ?y ?z ?z)) (Rf ?x (join ?x ?y) ?z) (((join ?x ?y))) )
-;; (assert-propagation ((?x elt)(?y elt)) () () (or (and (Rf ?x (join ?x ?y) (join ?x ?y)) (Rf ?y (join ?x ?y) (join ?x ?y))) (= (join ?x ?y) null))  (((join ?x ?y))) )
-
-;;Thomas' example2
-;; (assert (not (=> (and (Rf e1 null null) (= (join e1 e2) null)
-;; ;; (next' == upd(next, e, e1)
-;; )
-;; ;; (reach(next', e1, null) )
-;; (or (and (Rf e1 null null) (Rf_avoid e1 null e2) )
-;;     (and (not (= e2 null)) (Rf_avoid e1 e2 null) (Rf e1 null e2) (Rf_avoid e1 null e2) )
-;;     (and (not (= e2 null)) (Rf_avoid e1 e2 null) (Rf e1 null null) (Rf_avoid e1 null e2) ) )
-;; )))
-
-
-;;Thomas' example3
-;; join(next, first, e) == null &&
-;; reach(next, e, null) &&
-;; e != null &&
-;; next' == upd(next, e, first) &&
-;; first' == e &&
-;; e' == sel (next, e)
-;; ==>
-;; join(next', first', e') == null 
-
-
-;;Thomas' example3
-(assert(not
-        (=>
-         (and
-          ;; (= (join e1 e2) null)
-          (Rf e2 null null)
-          (not (= e2 null)))
-         ;; (next' == upd(next, e2, e1)
-         ;;join(next',e1,e2) == null
-(or (and (not (Rf (f e2) e2 e2)) (not (Rf e1 e2 e2) ))
-;;    (and (Rf (f e2) e2 e2) (not (Rf e1 e1 e1) ))
-    (and (Rf e1 e2 e2) (not (Rf (f e2) e1 e1)) )
-)
-;; (or
-;;  (and (not (Rf e1 e2 e2)) (not (Rf e2 e2 e2)))
-;;  (and (Rf e1 e2 e2) (not (Rf e2 e1 e1)))
-;;  (and (Rf e2 e2 e2) (not (Rf e1 e1 e1)))
-;; )
-)))
-
-
-
-;; ;;Thomas' example wrong sat?
-;; (assert (not (=> (and
-;;                   (= (join e1 e2) null)
-;;                   (Rf e2 null null) (not (= e2 null)))
-;; ;; (next' == upd(next, e2, e1)
-;; ;;join(next',e1,e2) == null
-;; (not (Rf e2 e2 e2))
-;; ;; (or
-;; ;;  (and (not (Rf e1 e2 e2)) (not (Rf e2 e2 e2)))
-;; ;;  (and (Rf e1 e2 e2) (not (Rf e2 e1 e1)))
-;; ;;  (and (Rf e2 e2 e2) (not (Rf e1 e1 e1)))
-;; ;; )
-;; )))
-
-;; ;;example4
-;; (assert (not (=> (and
-;;                   (= (join e1 e2) null)
-;;                   (Rf e2 null null) (not (= e2 null))
-;;                   )
-;; (not (Rf e2 e2 e2))
-;; )))
-
-
-;; ;;example5
-;; (assert (and
-;;          ;; (= (join e1 e2) null)
-;;          (= (f (f e1)) e1)
-;;          (Rf e1 e2 e2)
-;;          (not (= e2 e1))
-;;          (not (= e2 (f e1)))
-;;          )
-;; )
-
-
-
-
-(check-sat)
-(exit)
-
diff --git a/test/regress/regress0/rewriterules/set_A_new_fast_tableau-base.smt2 b/test/regress/regress0/rewriterules/set_A_new_fast_tableau-base.smt2
deleted file mode 100644
index 9bd49f714..000000000
--- a/test/regress/regress0/rewriterules/set_A_new_fast_tableau-base.smt2
+++ /dev/null
@@ -1,126 +0,0 @@
-;; A new fast tableau-base ... Domenico Cantone et Calogero G.Zarba
-(set-logic AUFLIA)
-(set-info :status unsat)
-
-;; don't use a datatypes for currently focusing in uf
-(declare-sort elt 0)
-(declare-sort set 0)
-
-(declare-fun in (elt set) Bool)
-
-;;;;;;;;;;;;;;;;;;;;
-;; inter
-
-(declare-fun inter (set set)  set)
-(assert-propagation ((?s elt) (?t1 set) (?t2 set)) () ()
-                  ((in ?s (inter ?t1 ?t2))) (and (in ?s ?t1) (in ?s ?t2)))
-
-
-(assert-propagation ((?s elt) (?t1 set) (?t2 set))
-                   (((inter ?t1 ?t2))) () ((not (in ?s ?t1))) (not (in ?s (inter ?t1 ?t2))) )
-
-(assert-propagation ((?s elt) (?t1 set) (?t2 set))
-                   (((inter ?t1 ?t2))) () ((not (in ?s ?t2))) (not (in ?s (inter ?t1 ?t2))) )
-
-(assert-propagation ((?s elt) (?t1 set) (?t2 set))
-                   () () ((not (in ?s (inter ?t1 ?t2))) (in ?s ?t1)) (not (in ?s ?t2)) )
-
-(assert-propagation ((?s elt) (?t1 set) (?t2 set))
-                   () () ((not (in ?s (inter ?t1 ?t2))) (in ?s ?t2)) (not (in ?s ?t1)))
-
-(assert-propagation ((?s elt) (?t1 set) (?t2 set))
-                   (((inter ?t1 ?t2))) () ((in ?s ?t1) (in ?s ?t2)) (in ?s (inter ?t1 ?t2)) )
-
-;;;;;;;;;;;;;;;;;
-;; union
-
-(declare-fun union (set set)  set)
-(assert-propagation ((?s elt) (?t1 set) (?t2 set))
-                   () () ((not (in ?s (union ?t1 ?t2)))) (and (not (in ?s ?t1)) (not (in ?s ?t2))))
-
-(assert-propagation ((?s elt) (?t1 set) (?t2 set))
-                   (((union ?t1 ?t2))) () ((in ?s ?t1)) (in ?s (union ?t1 ?t2)))
-
-(assert-propagation ((?s elt) (?t1 set) (?t2 set))
-                   (((union ?t1 ?t2))) () ((in ?s ?t2)) (in ?s (union ?t1 ?t2)))
-
-(assert-propagation ((?s elt) (?t1 set) (?t2 set))
-                   () () ((in ?s (union ?t1 ?t2)) (not (in ?s ?t1))) (in ?s ?t2))
-
-(assert-propagation ((?s elt) (?t1 set) (?t2 set))
-                   () () ((in ?s (union ?t1 ?t2)) (not (in ?s ?t2))) (in ?s ?t1))
-
-(assert-propagation ((?s elt) (?t1 set) (?t2 set))
-                   (((union ?t1 ?t2))) () ((not (in ?s ?t1)) (not (in ?s ?t2))) (not (in ?s (union ?t1 ?t2))))
-
-;;;;;;;;;;;;;;;;;;;;
-;; diff
-
-(declare-fun diff (set set)  set)
-(assert-propagation ((?s elt) (?t1 set) (?t2 set))
-                   () () ((in ?s (diff ?t1 ?t2))) (and (in ?s ?t1) (not (in ?s ?t2))))
-
-(assert-propagation ((?s elt) (?t1 set) (?t2 set))
-                   (((diff ?t1 ?t2))) () ((not (in ?s ?t1))) (not (in ?s (diff ?t1 ?t2))) )
-
-(assert-propagation ((?s elt) (?t1 set) (?t2 set))
-                   (((diff ?t1 ?t2))) () ((in ?s ?t2)) (not (in ?s (diff ?t1 ?t2))))
-
-(assert-propagation ((?s elt) (?t1 set) (?t2 set))
-                   () () ((not (in ?s (diff ?t1 ?t2))) (in ?s ?t1)) (in ?s ?t2))
-
-(assert-propagation ((?s elt) (?t1 set) (?t2 set))
-                   () () ((not (in ?s (diff ?t1 ?t2))) (not (in ?s ?t2))) (not (in ?s ?t1)))
-
-(assert-propagation ((?s elt) (?t1 set) (?t2 set))
-                   (((diff ?t1 ?t2))) () ((in ?s ?t1) (not (in ?s ?t2))) (in ?s (diff ?t1 ?t2)) )
-
-;;;;;;;;;;;;;;;;
-;;sing
-
-(declare-fun sing (elt)  set)
-(assert-propagation ((?s elt))
-                   (((sing ?s))) () () (in ?s (sing ?s)) )
-
-(assert-propagation ((?s elt) (?t1 elt))
-                   () () ((in ?s (sing ?t1))) (= ?s ?t1))
-
-(assert-propagation ((?s elt) (?t1 elt))
-                   () () ((not (in ?s (sing ?t1)))) (not (= ?s ?t1)))
-
-;;;;;;;;;;;;;;;;;;;
-;; fullfiling runned at Full effort
-(assert-propagation ((?s elt) (?t1 set) (?t2 set))
-                   () () ((in ?s (union ?t1 ?t2))) (or (in ?s ?t1) (not (in ?s ?t1))))
-
-(assert-propagation ((?s elt) (?t1 set) (?t2 set))
-                   (((inter ?t1 ?t2))) () ((in ?s ?t1)) (or (in ?s ?t2) (not (in ?s ?t2))))
-
-(assert-propagation ((?t1 set) (?t2 set))
-                   () () ((not (= ?t1 ?t2))) (exists ((?e elt)) (or (and (in ?e ?t1) (not (in ?e ?t2))) (and (not (in ?e ?t1)) (in ?e ?t2)))))
-
-;;;;;;;;;;;;;;;;;;;
-;; shortcut
-(declare-fun subset (set set) Bool)
-(assert-reduction ((?t1 set) (?t2 set))
-                 () () ((subset ?t1 ?t2)) (= (union ?t1 ?t2) ?t2))
-
-(declare-fun e () elt)
-(declare-fun t1 () set)
-(declare-fun t2 () set)
-(declare-fun t3 () set)
-
-;;(assert (not (=> (in e (inter (union t1 t2) (union t1 t1))) (in e (union t1 t1)))))
-;;(assert (not (=> (in e (union t1 t1)) (in e t1))))
-
-;; hyp
-;;(assert (=> (in e (union t1 t1)) (in e t1)))
-
-;;(assert (not (=> (in e (inter (union t1 t2) (union t1 t1))) (in e t1))))
-
-;;(assert (or (and (not (in e (union t1 (union t2 t3)))) (in e (union (union t1 t2) t3))) (and (in e (union t1 (union t2 t3))) (not (in e (union (union t1 t2) t3))))) )
-(assert (not (= (union t1 (union t2 t3)) (union (union t1 t2) t3))) )
-
-(check-sat)
-
-(exit)
diff --git a/test/regress/regress0/rewriterules/set_A_new_fast_tableau-base_sat.smt2 b/test/regress/regress0/rewriterules/set_A_new_fast_tableau-base_sat.smt2
deleted file mode 100644
index 4d65ffac5..000000000
--- a/test/regress/regress0/rewriterules/set_A_new_fast_tableau-base_sat.smt2
+++ /dev/null
@@ -1,127 +0,0 @@
-;; A new fast tableau-base ... Domenico Cantone et Calogero G.Zarba
-(set-logic AUFLIA)
-(set-info :status sat)
-
-;; don't use a datatypes for currently focusing in uf
-(declare-sort elt 0)
-(declare-sort set 0)
-
-(declare-fun in (elt set) Bool)
-
-
-;;;;;;;;;;;;;;;;;;;;
-;; inter
-
-(declare-fun inter (set set)  set)
-(assert-propagation ((?s elt) (?t1 set) (?t2 set)) () ()
-                  ((in ?s (inter ?t1 ?t2))) (and (in ?s ?t1) (in ?s ?t2)))
-
-
-(assert-propagation ((?s elt) (?t1 set) (?t2 set))
-                  (((inter ?t1 ?t2))) () ((not (in ?s ?t1))) (not (in ?s (inter ?t1 ?t2))) )
-
-(assert-propagation ((?s elt) (?t1 set) (?t2 set))
-                  (((inter ?t1 ?t2))) () ((not (in ?s ?t2))) (not (in ?s (inter ?t1 ?t2))) )
-
-(assert-propagation ((?s elt) (?t1 set) (?t2 set))
-                  () () ((not (in ?s (inter ?t1 ?t2))) (in ?s ?t1)) (not (in ?s ?t2)) )
-
-(assert-propagation ((?s elt) (?t1 set) (?t2 set))
-                  () () ((not (in ?s (inter ?t1 ?t2))) (in ?s ?t2)) (not (in ?s ?t1)))
-
-(assert-propagation ((?s elt) (?t1 set) (?t2 set))
-                  (((inter ?t1 ?t2))) () ((in ?s ?t1) (in ?s ?t2)) (in ?s (inter ?t1 ?t2)) )
-
-;;;;;;;;;;;;;;;;;
-;; union
-
-(declare-fun union (set set)  set)
-(assert-propagation ((?s elt) (?t1 set) (?t2 set))
-                  () () ((not (in ?s (union ?t1 ?t2)))) (and (not (in ?s ?t1)) (not (in ?s ?t2))))
-
-(assert-propagation ((?s elt) (?t1 set) (?t2 set))
-                  (((union ?t1 ?t2))) () ((in ?s ?t1)) (in ?s (union ?t1 ?t2)))
-
-(assert-propagation ((?s elt) (?t1 set) (?t2 set))
-                  (((union ?t1 ?t2))) () ((in ?s ?t2)) (in ?s (union ?t1 ?t2)))
-
-(assert-propagation ((?s elt) (?t1 set) (?t2 set))
-                  () () ((in ?s (union ?t1 ?t2)) (not (in ?s ?t1))) (in ?s ?t2))
-
-(assert-propagation ((?s elt) (?t1 set) (?t2 set))
-                  () () ((in ?s (union ?t1 ?t2)) (not (in ?s ?t2))) (in ?s ?t1))
-
-(assert-propagation ((?s elt) (?t1 set) (?t2 set))
-                  (((union ?t1 ?t2))) () ((not (in ?s ?t1)) (not (in ?s ?t2))) (not (in ?s (union ?t1 ?t2))))
-
-;;;;;;;;;;;;;;;;;;;;
-;; diff
-
-(declare-fun diff (set set)  set)
-(assert-propagation ((?s elt) (?t1 set) (?t2 set))
-                  () () ((in ?s (diff ?t1 ?t2))) (and (in ?s ?t1) (not (in ?s ?t2))))
-
-(assert-propagation ((?s elt) (?t1 set) (?t2 set))
-                  (((diff ?t1 ?t2))) () ((not (in ?s ?t1))) (not (in ?s (diff ?t1 ?t2))) )
-
-(assert-propagation ((?s elt) (?t1 set) (?t2 set))
-                  (((diff ?t1 ?t2))) () ((in ?s ?t2)) (not (in ?s (diff ?t1 ?t2))))
-
-(assert-propagation ((?s elt) (?t1 set) (?t2 set))
-                  () () ((not (in ?s (diff ?t1 ?t2))) (in ?s ?t1)) (in ?s ?t2))
-
-(assert-propagation ((?s elt) (?t1 set) (?t2 set))
-                  () () ((not (in ?s (diff ?t1 ?t2))) (not (in ?s ?t2))) (not (in ?s ?t1)))
-
-(assert-propagation ((?s elt) (?t1 set) (?t2 set))
-                  (((diff ?t1 ?t2))) () ((in ?s ?t1) (not (in ?s ?t2))) (in ?s (diff ?t1 ?t2)) )
-
-;;;;;;;;;;;;;;;;
-;;sing
-
-(declare-fun sing (elt)  set)
-(assert-propagation ((?s elt))
-                  (((sing ?s))) () () (in ?s (sing ?s)) )
-
-(assert-propagation ((?s elt) (?t1 elt))
-                  () () ((in ?s (sing ?t1))) (= ?s ?t1))
-
-(assert-propagation ((?s elt) (?t1 elt))
-                  () () ((not (in ?s (sing ?t1)))) (not (= ?s ?t1)))
-
-;;;;;;;;;;;;;;;;;;;
-;; fullfiling runned at Full effort
-(assert-propagation ((?s elt) (?t1 set) (?t2 set))
-                  () () ((in ?s (union ?t1 ?t2))) (or (in ?s ?t1) (not (in ?s ?t1))))
-
-(assert-propagation ((?s elt) (?t1 set) (?t2 set))
-                  (((inter ?t1 ?t2))) () ((in ?s ?t1)) (or (in ?s ?t2) (not (in ?s ?t2))))
-
-(assert-propagation ((?t1 set) (?t2 set))
-                  () () ((not (= ?t1 ?t2))) (exists ((?e elt)) (or (and (in ?e ?t1) (not (in ?e ?t2))) (and (not (in ?e ?t1)) (in ?e ?t2)))))
-
-;;;;;;;;;;;;;;;;;;;
-;; shortcut
-(declare-fun subset (set set) Bool)
-(assert-reduction ((?t1 set) (?t2 set))
-                () () ((subset ?t1 ?t2)) (= (union ?t1 ?t2) ?t2))
-
-(declare-fun e () elt)
-(declare-fun t1 () set)
-(declare-fun t2 () set)
-(declare-fun t3 () set)
-
-;;(assert (not (=> (in e (inter (union t1 t2) (union t1 t1))) (in e (union t1 t1)))))
-;;(assert (not (=> (in e (union t1 t1)) (in e t1))))
-
-;; hyp
-;;(assert (=> (in e (union t1 t1)) (in e t1)))
-
-;;(assert (not (=> (in e (inter (union t1 t2) (union t1 t1))) (in e t1))))
-
-(assert (or (and (not (in e (union t1 (union t2 t3)))) (in e (union (union t1 t2) t3))) (and (in e (union t1 (union t2 t3))) (not (in e (union (union t2 t2) t3))))) )
-
-
-(check-sat)
-
-(exit)
diff --git a/test/regress/regress0/rewriterules/test_efficient_ematching.smt2 b/test/regress/regress0/rewriterules/test_efficient_ematching.smt2
deleted file mode 100644
index e91ef36c2..000000000
--- a/test/regress/regress0/rewriterules/test_efficient_ematching.smt2
+++ /dev/null
@@ -1,35 +0,0 @@
-(set-logic AUFLIA)
-(set-info :status unsat)
-
-;; don't use a datatypes for currently focusing in uf
-(declare-sort elt 0)
-
-(declare-fun R (elt elt) Bool)
-
-;; reflexive
-(assert-rewrite ((x elt)) () (R x x) true ())
-
-;; transitive
-(assert-propagation ((x elt) (y elt) (z elt)) () ((R x y) (R y z)) (R x z) ())
-
-;; anti-symmetric
-(assert-propagation ((x elt) (y elt)) () ((R x y) (R y x)) (= x y) ())
-
-(declare-fun f (elt) elt)
-(assert-propagation ((x elt)(y elt)) () ((R (f x) (f y))) (R x y) ())
-
-
-(declare-fun e1 () elt)
-(declare-fun e2 () elt)
-(declare-fun e3 () elt)
-(declare-fun e4 () elt)
-(declare-fun e5 () elt)
-
-(assert (not (=> (and (R e1 e2) (R e3 (f e4)) (R e4 e5)
-                      (or (and (= e3 (f e2)) (= e4 e1))
-                          (and (= e4 e2) (= e5 e1)) )
-        ) (= e1 e2))))
-
-(check-sat)
-
-(exit)
\ No newline at end of file
diff --git a/test/regress/regress0/rewriterules/test_guards.smt2 b/test/regress/regress0/rewriterules/test_guards.smt2
deleted file mode 100644
index 98c845fb5..000000000
--- a/test/regress/regress0/rewriterules/test_guards.smt2
+++ /dev/null
@@ -1,45 +0,0 @@
-;; Same than length.smt2 but the nil case is not a rewrite rule
-;; So here the rewrite rules have no guards length
-
-(set-logic AUFLIA)
-(set-info :status unsat)
-
-;; don't use a datatypes for currently focusing in uf
-(declare-sort list 0)
-;; don't use arith
-(declare-sort mynat 0)
-(declare-fun zero () mynat)
-(declare-fun succ (mynat) mynat)
-
-(declare-fun cons (Int list) list)
-(declare-fun nil  ()         list)
-(declare-fun p (list) Bool)
-
-
-;;define length
-(declare-fun length (list) mynat)
-
-(assert (= (length nil) zero))
-
-(assert (forall ((?e Int) (?l list)) (! (= (length (cons ?e ?l)) (succ (length ?l))) :rewrite-rule)))
-
-(declare-fun ten_one_cons (list) list)
-
-(assert (forall ((?l list)) (! (=> (p ?l) (= (ten_one_cons ?l)
-        (cons 1 (cons 1 (cons 1 (cons 1 (cons 1 (cons 1 (cons 1 (cons 1 (cons 1 (cons 1 ?l) )))))))))
-        )) :rewrite-rule)))
-
-(declare-fun a  () Bool)
-(declare-fun b  () Bool)
-(declare-fun c  () Bool)
-
-(assert (=> a (p nil)) )
-(assert (=> b (p nil)) )
-(assert (or a b))
-
-(assert (not (= (length (ten_one_cons nil))
-        (succ(succ(succ(succ(succ(succ(succ(succ(succ(succ zero)))))))))))))
-
-(check-sat)
-
-(exit)
diff --git a/test/regress/regress0/rewriterules/why3_vstte10_max_sum_harness2.smt2 b/test/regress/regress0/rewriterules/why3_vstte10_max_sum_harness2.smt2
deleted file mode 100644
index 4d39e12bb..000000000
--- a/test/regress/regress0/rewriterules/why3_vstte10_max_sum_harness2.smt2
+++ /dev/null
@@ -1,492 +0,0 @@
-;;; From a verification condition generated by why3. The original program
-;; can be found at http://toccata.lri.fr/gallery/vstte10_max_sum.en.html .
-;; The problem has been modified by doubling the size of the arrays
-;; (* **)
-;;    VSTTE'10 competition http://www.macs.hw.ac.uk/vstte10/Competition.html **)
-;;    Problem 1: maximum /\ sum of an array **)
-
-;;    Author: Jean-Christophe Filliatre (CNRS) **)
-;;    Tool:   Why3 (see http://why3.lri.fr/) **)
-;; *\) **)
-
-;; Particularly the assertion in the test case that the sum s = 90
-
-;;; this is a prelude for CVC4
-(set-logic AUFNIRA)
-;;; this is a prelude for CVC4 integer arithmetic
-(declare-sort uni 0)
-
-(declare-sort deco 0)
-
-(declare-sort ty 0)
-
-(declare-fun sort (ty uni) deco)
-
-(declare-fun int () ty)
-
-(declare-fun real () ty)
-
-(declare-fun bool () ty)
-
-(declare-fun True () uni)
-
-(declare-fun False () uni)
-
-(declare-fun match_bool (deco deco deco) uni)
-
-;; match_bool_True
-  (assert
-  (forall ((a ty))
-  (forall ((z uni) (z1 uni))
-  (= (sort a (match_bool (sort bool True) (sort a z) (sort a z1))) (sort a z)))))
-
-;; match_bool_False
-  (assert
-  (forall ((a ty))
-  (forall ((z uni) (z1 uni))
-  (= (sort a (match_bool (sort bool False) (sort a z) (sort a z1))) (sort a
-                                                                    z1)))))
-
-(declare-fun index_bool (deco) Int)
-
-;; index_bool_True
-  (assert (= (index_bool (sort bool True)) 0))
-
-;; index_bool_False
-  (assert (= (index_bool (sort bool False)) 1))
-
-;; bool_inversion
-  (assert
-  (forall ((u uni))
-  (or (= (sort bool u) (sort bool True)) (= (sort bool u) (sort bool False)))))
-
-(declare-fun tuple0 () ty)
-
-(declare-fun Tuple0 () uni)
-
-;; tuple0_inversion
-  (assert (forall ((u uni)) (= (sort tuple0 u) (sort tuple0 Tuple0))))
-
-;; CompatOrderMult
-  (assert
-  (forall ((x Int) (y Int) (z Int))
-  (=> (<= x y) (=> (<= 0 z) (<= (* x z) (* y z))))))
-
-(declare-fun ref (ty) ty)
-
-(declare-fun mk_ref (deco) uni)
-
-(declare-fun contents (deco) uni)
-
-;; contents_def
-  (assert
-  (forall ((a ty))
-  (forall ((u uni))
-  (= (sort a (contents (sort (ref a) (mk_ref (sort a u))))) (sort a u)))))
-
-;; ref_inversion
-  (assert
-  (forall ((a ty))
-  (forall ((u uni))
-  (= (sort (ref a) u) (sort (ref a)
-                      (mk_ref (sort a (contents (sort (ref a) u)))))))))
-
-(declare-fun map (ty ty) ty)
-
-(declare-fun get (deco deco) uni)
-
-(declare-fun set (deco deco deco) uni)
-
-;; Select_eq
-  (assert
-  (forall ((m (Array Int Int)))
-  (forall ((a1 Int) (a2 Int))
-  (forall ((b Int))
-  (! (=> (= a1 a2) (= (select (store m a1 b) a2) b)) :pattern ((select (store m a1 b) a2)) )))))
-
-;; Select_eq
-  (assert
-  (forall ((a ty) (b ty))
-  (forall ((m uni))
-  (forall ((a1 uni) (a2 uni))
-  (forall ((b1 uni))
-  (! (=> (= (sort a a1) (sort a a2))
-     (= (sort b
-        (get
-        (sort (map a b) (set (sort (map a b) m) (sort a a1) (sort b b1)))
-        (sort a a2))) (sort b b1))) :pattern ((sort b
-                                              (get
-                                              (sort (map a b)
-                                              (set (sort (map a b) m)
-                                              (sort a a1) (sort b b1)))
-                                              (sort a a2)))) ))))))
-
-;; Select_neq
-  (assert
-  (forall ((m (Array Int Int)))
-  (forall ((a1 Int) (a2 Int))
-  (forall ((b Int))
-  (! (=> (not (= a1 a2)) (= (select (store m a1 b) a2) (select m a2))) :pattern ((select (store m a1 b) a2)) )))))
-
-;; Select_neq
-  (assert
-  (forall ((a ty) (b ty))
-  (forall ((m uni))
-  (forall ((a1 uni) (a2 uni))
-  (forall ((b1 uni))
-  (! (=> (not (= (sort a a1) (sort a a2)))
-     (= (sort b
-        (get
-        (sort (map a b) (set (sort (map a b) m) (sort a a1) (sort b b1)))
-        (sort a a2))) (sort b (get (sort (map a b) m) (sort a a2))))) :pattern (
-  (sort b
-  (get (sort (map a b) (set (sort (map a b) m) (sort a a1) (sort b b1)))
-  (sort a a2)))) ))))))
-
-(declare-fun const1 (deco) uni)
-
-(declare-fun const2 (Int) (Array Int Int))
-
-;; Const
-  (assert (forall ((b Int) (a Int)) (= (select (const2 b) a) b)))
-
-;; Const
-  (assert
-  (forall ((a ty) (b ty))
-  (forall ((b1 uni) (a1 uni))
-  (= (sort b (get (sort (map a b) (const1 (sort b b1))) (sort a a1))) 
-  (sort b b1)))))
-
-(declare-sort array 1)
-
-(declare-fun array1 (ty) ty)
-
-(declare-fun mk_array (Int deco) uni)
-
-(declare-fun mk_array1 (Int (Array Int Int)) (array Int))
-
-(declare-fun length (deco) Int)
-
-(declare-fun t2tb ((array Int)) uni)
-
-(declare-fun tb2t (deco) (array Int))
-
-;; BridgeL
-  (assert
-  (forall ((i (array Int)))
-  (! (= (tb2t (sort (array1 int) (t2tb i))) i) :pattern ((sort (array1 int)
-                                                         (t2tb i))) )))
-
-;; BridgeR
-  (assert
-  (forall ((j uni))
-  (! (= (sort (array1 int) (t2tb (tb2t (sort (array1 int) j)))) (sort
-                                                                (array1 int)
-                                                                j)) :pattern (
-  (sort (array1 int) (t2tb (tb2t (sort (array1 int) j))))) )))
-
-;; length_def
-  (assert
-  (forall ((u Int) (u1 (Array Int Int)))
-  (= (length (sort (array1 int) (t2tb (mk_array1 u u1)))) u)))
-
-;; length_def
-  (assert
-  (forall ((a ty))
-  (forall ((u Int) (u1 uni))
-  (= (length (sort (array1 a) (mk_array u (sort (map int a) u1)))) u))))
-
-(declare-fun elts (deco) uni)
-
-(declare-fun t2tb1 ((Array Int Int)) uni)
-
-(declare-fun tb2t1 (deco) (Array Int Int))
-
-;; BridgeL
-  (assert
-  (forall ((i (Array Int Int)))
-  (! (= (tb2t1 (sort (map int int) (t2tb1 i))) i) :pattern ((sort
-                                                            (map int int)
-                                                            (t2tb1 i))) )))
-
-;; BridgeR
-  (assert
-  (forall ((j uni))
-  (! (= (sort (map int int) (t2tb1 (tb2t1 (sort (map int int) j)))) (sort
-                                                                    (map 
-                                                                    int 
-                                                                    int) j)) :pattern (
-  (sort (map int int) (t2tb1 (tb2t1 (sort (map int int) j))))) )))
-
-;; elts_def
-  (assert
-  (forall ((u Int) (u1 (Array Int Int)))
-  (= (tb2t1
-     (sort (map int int) (elts (sort (array1 int) (t2tb (mk_array1 u u1)))))) u1)))
-
-;; elts_def
-  (assert
-  (forall ((a ty))
-  (forall ((u Int) (u1 uni))
-  (= (sort (map int a)
-     (elts (sort (array1 a) (mk_array u (sort (map int a) u1))))) (sort
-                                                                  (map int a)
-                                                                  u1)))))
-
-;; array_inversion
-  (assert
-  (forall ((u (array Int)))
-  (= u (mk_array1 (length (sort (array1 int) (t2tb u)))
-       (tb2t1 (sort (map int int) (elts (sort (array1 int) (t2tb u)))))))))
-
-;; array_inversion
-  (assert
-  (forall ((a ty))
-  (forall ((u uni))
-  (= (sort (array1 a) u) (sort (array1 a)
-                         (mk_array (length (sort (array1 a) u))
-                         (sort (map int a) (elts (sort (array1 a) u)))))))))
-
-(declare-fun get1 (deco Int) uni)
-
-(declare-fun t2tb2 (Int) uni)
-
-(declare-fun tb2t2 (deco) Int)
-
-;; BridgeL
-  (assert
-  (forall ((i Int))
-  (! (= (tb2t2 (sort int (t2tb2 i))) i) :pattern ((sort int (t2tb2 i))) )))
-
-;; BridgeR
-  (assert
-  (forall ((j uni))
-  (! (= (sort int (t2tb2 (tb2t2 (sort int j)))) (sort int j)) :pattern (
-  (sort int (t2tb2 (tb2t2 (sort int j))))) )))
-
-;; get_def
-  (assert
-  (forall ((a (array Int)) (i Int))
-  (= (tb2t2 (sort int (get1 (sort (array1 int) (t2tb a)) i))) (select 
-  (tb2t1 (sort (map int int) (elts (sort (array1 int) (t2tb a))))) i))))
-
-;; get_def
-  (assert
-  (forall ((a ty))
-  (forall ((a1 uni) (i Int))
-  (= (sort a (get1 (sort (array1 a) a1) i)) (sort a
-                                            (get
-                                            (sort (map int a)
-                                            (elts (sort (array1 a) a1)))
-                                            (sort int (t2tb2 i))))))))
-
-(declare-fun set1 (deco Int deco) uni)
-
-;; set_def
-  (assert
-  (forall ((a (array Int)) (i Int) (v Int))
-  (= (tb2t
-     (sort (array1 int)
-     (set1 (sort (array1 int) (t2tb a)) i (sort int (t2tb2 v))))) (mk_array1
-                                                                  (length
-                                                                  (sort
-                                                                  (array1
-                                                                  int)
-                                                                  (t2tb a)))
-                                                                  (store 
-                                                                  (tb2t1
-                                                                  (sort
-                                                                  (map 
-                                                                  int 
-                                                                  int)
-                                                                  (elts
-                                                                  (sort
-                                                                  (array1
-                                                                  int)
-                                                                  (t2tb a))))) i v)))))
-
-;; set_def
-  (assert
-  (forall ((a ty))
-  (forall ((a1 uni) (i Int) (v uni))
-  (= (sort (array1 a) (set1 (sort (array1 a) a1) i (sort a v))) (sort
-                                                                (array1 a)
-                                                                (mk_array
-                                                                (length
-                                                                (sort
-                                                                (array1 a)
-                                                                a1))
-                                                                (sort
-                                                                (map int a)
-                                                                (set
-                                                                (sort
-                                                                (map int a)
-                                                                (elts
-                                                                (sort
-                                                                (array1 a)
-                                                                a1)))
-                                                                (sort 
-                                                                int
-                                                                (t2tb2 i))
-                                                                (sort a v)))))))))
-
-(declare-fun make (Int deco) uni)
-
-;; make_def
-  (assert
-  (forall ((n Int) (v Int))
-  (= (tb2t (sort (array1 int) (make n (sort int (t2tb2 v))))) (mk_array1 n
-                                                              (const2 v)))))
-
-;; make_def
-  (assert
-  (forall ((a ty))
-  (forall ((n Int) (v uni))
-  (= (sort (array1 a) (make n (sort a v))) (sort (array1 a)
-                                           (mk_array n
-                                           (sort (map int a)
-                                           (const1 (sort a v)))))))))
-
-(declare-fun sum ((Array Int Int) Int Int) Int)
-
-;; Sum_def_empty
-  (assert
-  (forall ((c (Array Int Int)) (i Int) (j Int))
-  (=> (<= j i) (= (sum c i j) 0))))
-
-;; Sum_def_non_empty
-  (assert
-  (forall ((c (Array Int Int)) (i Int) (j Int))
-  (=> (< i j) (= (sum c i j) (+ (select c i) (sum c (+ i 1) j))))))
-
-;; Sum_right_extension
-  (assert
-  (forall ((c (Array Int Int)) (i Int) (j Int))
-  (=> (< i j) (= (sum c i j) (+ (sum c i (- j 1)) (select c (- j 1)))))))
-
-;; Sum_transitivity
-  (assert
-  (forall ((c (Array Int Int)) (i Int) (k Int) (j Int))
-  (=> (and (<= i k) (<= k j)) (= (sum c i j) (+ (sum c i k) (sum c k j))))))
-
-;; Sum_eq
-  (assert
-  (forall ((c1 (Array Int Int)) (c2 (Array Int Int)) (i Int) (j Int))
-  (=>
-  (forall ((k Int))
-  (=> (and (<= i k) (< k j)) (= (select c1 k) (select c2 k))))
-  (= (sum c1 i j) (sum c2 i j)))))
-
-(declare-fun sum1 ((array Int) Int Int) Int)
-
-;; sum_def
-  (assert
-  (forall ((a (array Int)) (l Int) (h Int))
-  (= (sum1 a l h) (sum
-                  (tb2t1
-                  (sort (map int int) (elts (sort (array1 int) (t2tb a))))) l
-                  h))))
-
-(declare-fun is_max ((array Int) Int Int Int) Bool)
-
-;; is_max_def
-  (assert
-  (forall ((a (array Int)) (l Int) (h Int) (m Int))
-  (and
-  (=> (is_max a l h m)
-  (and
-  (forall ((k Int))
-  (=> (and (<= l k) (< k h))
-  (<= (tb2t2 (sort int (get1 (sort (array1 int) (t2tb a)) k))) m)))
-  (or (and (<= h l) (= m 0))
-  (and (< l h)
-  (exists ((k Int))
-  (and (and (<= l k) (< k h))
-  (= m (tb2t2 (sort int (get1 (sort (array1 int) (t2tb a)) k))))))))))
-  (=>
-  (and
-  (forall ((k Int))
-  (=> (and (<= l k) (< k h))
-  (<= (tb2t2 (sort int (get1 (sort (array1 int) (t2tb a)) k))) m)))
-  (or (and (<= h l) (= m 0))
-  (and (< l h)
-  (exists ((k Int))
-  (and (and (<= l k) (< k h))
-  (= m (tb2t2 (sort int (get1 (sort (array1 int) (t2tb a)) k))))))))) (is_max
-  a l h m)))))
-
-(assert
-;; WP_parameter_test_case
- ;; File "vstte10_max_sum/../vstte10_max_sum.mlw", line 63, characters 6-15
-  (not
-  (=> (<= 0 20)
-  (=> (and (<= 0 0) (< 0 20))
-  (forall ((a (Array Int Int)))
-  (=> (= a (store (const2 0) 0 9))
-  (=> (and (<= 0 1) (< 1 20))
-  (forall ((a1 (Array Int Int)))
-  (=> (= a1 (store a 1 5))
-  (=> (and (<= 0 2) (< 2 20))
-  (forall ((a2 (Array Int Int)))
-  (=> (= a2 (store a1 2 0))
-  (=> (and (<= 0 3) (< 3 20))
-  (forall ((a3 (Array Int Int)))
-  (=> (= a3 (store a2 3 2))
-  (=> (and (<= 0 4) (< 4 20))
-  (forall ((a4 (Array Int Int)))
-  (=> (= a4 (store a3 4 7))
-  (=> (and (<= 0 5) (< 5 20))
-  (forall ((a5 (Array Int Int)))
-  (=> (= a5 (store a4 5 3))
-  (=> (and (<= 0 6) (< 6 20))
-  (forall ((a6 (Array Int Int)))
-  (=> (= a6 (store a5 6 2))
-  (=> (and (<= 0 7) (< 7 20))
-  (forall ((a7 (Array Int Int)))
-  (=> (= a7 (store a6 7 1))
-  (=> (and (<= 0 8) (< 8 20))
-  (forall ((a8 (Array Int Int)))
-  (=> (= a8 (store a7 8 10))
-  (=> (and (<= 0 9) (< 9 20))
-  (forall ((a9 (Array Int Int)))
-  (=> (= a9 (store a8 9 6))
-  (=> (and (<= 0 10) (< 10 20))
-  (forall ((a10 (Array Int Int)))
-  (=> (= a10 (store a9 10 9))
-  (=> (and (<= 0 11) (< 11 20))
-  (forall ((a11 (Array Int Int)))
-  (=> (= a11 (store a10 11 5))
-  (=> (and (<= 0 12) (< 12 20))
-  (forall ((a12 (Array Int Int)))
-  (=> (= a12 (store a11 12 0))
-  (=> (and (<= 0 13) (< 13 20))
-  (forall ((a13 (Array Int Int)))
-  (=> (= a13 (store a12 13 2))
-  (=> (and (<= 0 14) (< 14 20))
-  (forall ((a14 (Array Int Int)))
-  (=> (= a14 (store a13 14 7))
-  (=> (and (<= 0 15) (< 15 20))
-  (forall ((a15 (Array Int Int)))
-  (=> (= a15 (store a14 15 3))
-  (=> (and (<= 0 16) (< 16 20))
-  (forall ((a16 (Array Int Int)))
-  (=> (= a16 (store a15 16 2))
-  (=> (and (<= 0 17) (< 17 20))
-  (forall ((a17 (Array Int Int)))
-  (=> (= a17 (store a16 17 1))
-  (=> (and (<= 0 18) (< 18 20))
-  (forall ((a18 (Array Int Int)))
-  (=> (= a18 (store a17 18 10))
-  (=> (and (<= 0 19) (< 19 20))
-  (forall ((a19 (Array Int Int)))
-  (=> (= a19 (store a18 19 6))
-  (=>
-  (and (<= 0 20)
-  (forall ((i Int)) (=> (and (<= 0 i) (< i 20)) (<= 0 (select a19 i)))))
-  (forall ((result Int) (result1 Int))
-  (=>
-  (and (= result (sum a19 0 20))
-  (and (is_max (mk_array1 20 a19) 0 20 result1) (<= result (* 20 result1))))
-  (= result 90)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))
-(check-sat)
-
diff --git a/test/regress/regress0/rewriterules/why3_vstte10_max_sum_harness2_rr.smt2 b/test/regress/regress0/rewriterules/why3_vstte10_max_sum_harness2_rr.smt2
deleted file mode 100644
index 686b9ff04..000000000
--- a/test/regress/regress0/rewriterules/why3_vstte10_max_sum_harness2_rr.smt2
+++ /dev/null
@@ -1,508 +0,0 @@
-;;; From a verification condition generated by why3. The original program
-;; can be found at http://toccata.lri.fr/gallery/vstte10_max_sum.en.html .
-;; The problem has been modified by doubling the size of the arrays
-;; (* **)
-;;    VSTTE'10 competition http://www.macs.hw.ac.uk/vstte10/Competition.html **)
-;;    Problem 1: maximum /\ sum of an array **)
-
-;;    Author: Jean-Christophe Filliatre (CNRS) **)
-;;    Tool:   Why3 (see http://why3.lri.fr/) **)
-;; *\) **)
-
-;; Particularly the assertion in the test case that the sum s = 90
-
-;; Added rewriterules:
-
-;; (assert-propagation ((c (Array Int Int)) (i Int) (j Int)) ((>= i j))
-;;  () (= (sum c i j) 0) (((sum c i j))))
-
-;; (assert-propagation ((c (Array Int Int)) (i Int) (j Int)) ((< i j))
-;;  () (= (sum c i j) (+ (sum c i (- j 1)) (select c (- j 1)))) (((sum c i j))))
-
-
-
-;;; this is a prelude for CVC4
-(set-logic AUFNIRA)
-;;; this is a prelude for CVC4 integer arithmetic
-(declare-sort uni 0)
-
-(declare-sort deco 0)
-
-(declare-sort ty 0)
-
-(declare-fun sort (ty uni) deco)
-
-(declare-fun int () ty)
-
-(declare-fun real () ty)
-
-(declare-fun bool () ty)
-
-(declare-fun True () uni)
-
-(declare-fun False () uni)
-
-(declare-fun match_bool (deco deco deco) uni)
-
-;; match_bool_True
-  (assert
-  (forall ((a ty))
-  (forall ((z uni) (z1 uni))
-  (= (sort a (match_bool (sort bool True) (sort a z) (sort a z1))) (sort a z)))))
-
-;; match_bool_False
-  (assert
-  (forall ((a ty))
-  (forall ((z uni) (z1 uni))
-  (= (sort a (match_bool (sort bool False) (sort a z) (sort a z1))) (sort a
-                                                                    z1)))))
-
-(declare-fun index_bool (deco) Int)
-
-;; index_bool_True
-  (assert (= (index_bool (sort bool True)) 0))
-
-;; index_bool_False
-  (assert (= (index_bool (sort bool False)) 1))
-
-;; bool_inversion
-  (assert
-  (forall ((u uni))
-  (or (= (sort bool u) (sort bool True)) (= (sort bool u) (sort bool False)))))
-
-(declare-fun tuple0 () ty)
-
-(declare-fun Tuple0 () uni)
-
-;; tuple0_inversion
-  (assert (forall ((u uni)) (= (sort tuple0 u) (sort tuple0 Tuple0))))
-
-;; CompatOrderMult
-  (assert
-  (forall ((x Int) (y Int) (z Int))
-  (=> (<= x y) (=> (<= 0 z) (<= (* x z) (* y z))))))
-
-(declare-fun ref (ty) ty)
-
-(declare-fun mk_ref (deco) uni)
-
-(declare-fun contents (deco) uni)
-
-;; contents_def
-  (assert
-  (forall ((a ty))
-  (forall ((u uni))
-  (= (sort a (contents (sort (ref a) (mk_ref (sort a u))))) (sort a u)))))
-
-;; ref_inversion
-  (assert
-  (forall ((a ty))
-  (forall ((u uni))
-  (= (sort (ref a) u) (sort (ref a)
-                      (mk_ref (sort a (contents (sort (ref a) u)))))))))
-
-(declare-fun map (ty ty) ty)
-
-(declare-fun get (deco deco) uni)
-
-(declare-fun set (deco deco deco) uni)
-
-;; Select_eq
-  (assert
-  (forall ((m (Array Int Int)))
-  (forall ((a1 Int) (a2 Int))
-  (forall ((b Int))
-  (! (=> (= a1 a2) (= (select (store m a1 b) a2) b)) :pattern ((select (store m a1 b) a2)) )))))
-
-;; Select_eq
-  (assert
-  (forall ((a ty) (b ty))
-  (forall ((m uni))
-  (forall ((a1 uni) (a2 uni))
-  (forall ((b1 uni))
-  (! (=> (= (sort a a1) (sort a a2))
-     (= (sort b
-        (get
-        (sort (map a b) (set (sort (map a b) m) (sort a a1) (sort b b1)))
-        (sort a a2))) (sort b b1))) :pattern ((sort b
-                                              (get
-                                              (sort (map a b)
-                                              (set (sort (map a b) m)
-                                              (sort a a1) (sort b b1)))
-                                              (sort a a2)))) ))))))
-
-;; Select_neq
-  (assert
-  (forall ((m (Array Int Int)))
-  (forall ((a1 Int) (a2 Int))
-  (forall ((b Int))
-  (! (=> (not (= a1 a2)) (= (select (store m a1 b) a2) (select m a2))) :pattern ((select (store m a1 b) a2)) )))))
-
-;; Select_neq
-  (assert
-  (forall ((a ty) (b ty))
-  (forall ((m uni))
-  (forall ((a1 uni) (a2 uni))
-  (forall ((b1 uni))
-  (! (=> (not (= (sort a a1) (sort a a2)))
-     (= (sort b
-        (get
-        (sort (map a b) (set (sort (map a b) m) (sort a a1) (sort b b1)))
-        (sort a a2))) (sort b (get (sort (map a b) m) (sort a a2))))) :pattern (
-  (sort b
-  (get (sort (map a b) (set (sort (map a b) m) (sort a a1) (sort b b1)))
-  (sort a a2)))) ))))))
-
-(declare-fun const1 (deco) uni)
-
-(declare-fun const2 (Int) (Array Int Int))
-
-;; Const
-  (assert (forall ((b Int) (a Int)) (= (select (const2 b) a) b)))
-
-;; Const
-  (assert
-  (forall ((a ty) (b ty))
-  (forall ((b1 uni) (a1 uni))
-  (= (sort b (get (sort (map a b) (const1 (sort b b1))) (sort a a1))) 
-  (sort b b1)))))
-
-(declare-sort array 1)
-
-(declare-fun array1 (ty) ty)
-
-(declare-fun mk_array (Int deco) uni)
-
-(declare-fun mk_array1 (Int (Array Int Int)) (array Int))
-
-(declare-fun length (deco) Int)
-
-(declare-fun t2tb ((array Int)) uni)
-
-(declare-fun tb2t (deco) (array Int))
-
-;; BridgeL
-  (assert
-  (forall ((i (array Int)))
-  (! (= (tb2t (sort (array1 int) (t2tb i))) i) :pattern ((sort (array1 int)
-                                                         (t2tb i))) )))
-
-;; BridgeR
-  (assert
-  (forall ((j uni))
-  (! (= (sort (array1 int) (t2tb (tb2t (sort (array1 int) j)))) (sort
-                                                                (array1 int)
-                                                                j)) :pattern (
-  (sort (array1 int) (t2tb (tb2t (sort (array1 int) j))))) )))
-
-;; length_def
-  (assert
-  (forall ((u Int) (u1 (Array Int Int)))
-  (= (length (sort (array1 int) (t2tb (mk_array1 u u1)))) u)))
-
-;; length_def
-  (assert
-  (forall ((a ty))
-  (forall ((u Int) (u1 uni))
-  (= (length (sort (array1 a) (mk_array u (sort (map int a) u1)))) u))))
-
-(declare-fun elts (deco) uni)
-
-(declare-fun t2tb1 ((Array Int Int)) uni)
-
-(declare-fun tb2t1 (deco) (Array Int Int))
-
-;; BridgeL
-  (assert
-  (forall ((i (Array Int Int)))
-  (! (= (tb2t1 (sort (map int int) (t2tb1 i))) i) :pattern ((sort
-                                                            (map int int)
-                                                            (t2tb1 i))) )))
-
-;; BridgeR
-  (assert
-  (forall ((j uni))
-  (! (= (sort (map int int) (t2tb1 (tb2t1 (sort (map int int) j)))) (sort
-                                                                    (map 
-                                                                    int 
-                                                                    int) j)) :pattern (
-  (sort (map int int) (t2tb1 (tb2t1 (sort (map int int) j))))) )))
-
-;; elts_def
-  (assert
-  (forall ((u Int) (u1 (Array Int Int)))
-  (= (tb2t1
-     (sort (map int int) (elts (sort (array1 int) (t2tb (mk_array1 u u1)))))) u1)))
-
-;; elts_def
-  (assert
-  (forall ((a ty))
-  (forall ((u Int) (u1 uni))
-  (= (sort (map int a)
-     (elts (sort (array1 a) (mk_array u (sort (map int a) u1))))) (sort
-                                                                  (map int a)
-                                                                  u1)))))
-
-;; array_inversion
-  (assert
-  (forall ((u (array Int)))
-  (= u (mk_array1 (length (sort (array1 int) (t2tb u)))
-       (tb2t1 (sort (map int int) (elts (sort (array1 int) (t2tb u)))))))))
-
-;; array_inversion
-  (assert
-  (forall ((a ty))
-  (forall ((u uni))
-  (= (sort (array1 a) u) (sort (array1 a)
-                         (mk_array (length (sort (array1 a) u))
-                         (sort (map int a) (elts (sort (array1 a) u)))))))))
-
-(declare-fun get1 (deco Int) uni)
-
-(declare-fun t2tb2 (Int) uni)
-
-(declare-fun tb2t2 (deco) Int)
-
-;; BridgeL
-  (assert
-  (forall ((i Int))
-  (! (= (tb2t2 (sort int (t2tb2 i))) i) :pattern ((sort int (t2tb2 i))) )))
-
-;; BridgeR
-  (assert
-  (forall ((j uni))
-  (! (= (sort int (t2tb2 (tb2t2 (sort int j)))) (sort int j)) :pattern (
-  (sort int (t2tb2 (tb2t2 (sort int j))))) )))
-
-;; get_def
-  (assert
-  (forall ((a (array Int)) (i Int))
-  (= (tb2t2 (sort int (get1 (sort (array1 int) (t2tb a)) i))) (select 
-  (tb2t1 (sort (map int int) (elts (sort (array1 int) (t2tb a))))) i))))
-
-;; get_def
-  (assert
-  (forall ((a ty))
-  (forall ((a1 uni) (i Int))
-  (= (sort a (get1 (sort (array1 a) a1) i)) (sort a
-                                            (get
-                                            (sort (map int a)
-                                            (elts (sort (array1 a) a1)))
-                                            (sort int (t2tb2 i))))))))
-
-(declare-fun set1 (deco Int deco) uni)
-
-;; set_def
-  (assert
-  (forall ((a (array Int)) (i Int) (v Int))
-  (= (tb2t
-     (sort (array1 int)
-     (set1 (sort (array1 int) (t2tb a)) i (sort int (t2tb2 v))))) (mk_array1
-                                                                  (length
-                                                                  (sort
-                                                                  (array1
-                                                                  int)
-                                                                  (t2tb a)))
-                                                                  (store 
-                                                                  (tb2t1
-                                                                  (sort
-                                                                  (map 
-                                                                  int 
-                                                                  int)
-                                                                  (elts
-                                                                  (sort
-                                                                  (array1
-                                                                  int)
-                                                                  (t2tb a))))) i v)))))
-
-;; set_def
-  (assert
-  (forall ((a ty))
-  (forall ((a1 uni) (i Int) (v uni))
-  (= (sort (array1 a) (set1 (sort (array1 a) a1) i (sort a v))) (sort
-                                                                (array1 a)
-                                                                (mk_array
-                                                                (length
-                                                                (sort
-                                                                (array1 a)
-                                                                a1))
-                                                                (sort
-                                                                (map int a)
-                                                                (set
-                                                                (sort
-                                                                (map int a)
-                                                                (elts
-                                                                (sort
-                                                                (array1 a)
-                                                                a1)))
-                                                                (sort 
-                                                                int
-                                                                (t2tb2 i))
-                                                                (sort a v)))))))))
-
-(declare-fun make (Int deco) uni)
-
-;; make_def
-  (assert
-  (forall ((n Int) (v Int))
-  (= (tb2t (sort (array1 int) (make n (sort int (t2tb2 v))))) (mk_array1 n
-                                                              (const2 v)))))
-
-;; make_def
-  (assert
-  (forall ((a ty))
-  (forall ((n Int) (v uni))
-  (= (sort (array1 a) (make n (sort a v))) (sort (array1 a)
-                                           (mk_array n
-                                           (sort (map int a)
-                                           (const1 (sort a v)))))))))
-
-(declare-fun sum ((Array Int Int) Int Int) Int)
-
-;; Sum_def_empty
-  (assert
-  (forall ((c (Array Int Int)) (i Int) (j Int))
-  (=> (<= j i) (= (sum c i j) 0))))
-
-;; Sum_def_non_empty
-  (assert
-  (forall ((c (Array Int Int)) (i Int) (j Int))
-  (=> (< i j) (= (sum c i j) (+ (select c i) (sum c (+ i 1) j))))))
-
-;; Sum_right_extension
-  (assert
-  (forall ((c (Array Int Int)) (i Int) (j Int))
-  (=> (< i j) (= (sum c i j) (+ (sum c i (- j 1)) (select c (- j 1)))))))
-
-;; Sum_transitivity
-  (assert
-  (forall ((c (Array Int Int)) (i Int) (k Int) (j Int))
-  (=> (and (<= i k) (<= k j)) (= (sum c i j) (+ (sum c i k) (sum c k j))))))
-
-;; Sum_eq
-  (assert
-  (forall ((c1 (Array Int Int)) (c2 (Array Int Int)) (i Int) (j Int))
-  (=>
-  (forall ((k Int))
-  (=> (and (<= i k) (< k j)) (= (select c1 k) (select c2 k))))
-  (= (sum c1 i j) (sum c2 i j)))))
-
- (assert-propagation ((c (Array Int Int)) (i Int) (j Int)) ((>= i j))
-  () (= (sum c i j) 0) (((sum c i j))))
-
- (assert-propagation ((c (Array Int Int)) (i Int) (j Int)) ((< i j))
-  () (= (sum c i j) (+ (sum c i (- j 1)) (select c (- j 1)))) (((sum c i j))))
-
-(declare-fun sum1 ((array Int) Int Int) Int)
-
-;; sum_def
-  (assert
-  (forall ((a (array Int)) (l Int) (h Int))
-  (= (sum1 a l h) (sum
-                  (tb2t1
-                  (sort (map int int) (elts (sort (array1 int) (t2tb a))))) l
-                  h))))
-
-(declare-fun is_max ((array Int) Int Int Int) Bool)
-
-;; is_max_def
-  (assert
-  (forall ((a (array Int)) (l Int) (h Int) (m Int))
-  (and
-  (=> (is_max a l h m)
-  (and
-  (forall ((k Int))
-  (=> (and (<= l k) (< k h))
-  (<= (tb2t2 (sort int (get1 (sort (array1 int) (t2tb a)) k))) m)))
-  (or (and (<= h l) (= m 0))
-  (and (< l h)
-  (exists ((k Int))
-  (and (and (<= l k) (< k h))
-  (= m (tb2t2 (sort int (get1 (sort (array1 int) (t2tb a)) k))))))))))
-  (=>
-  (and
-  (forall ((k Int))
-  (=> (and (<= l k) (< k h))
-  (<= (tb2t2 (sort int (get1 (sort (array1 int) (t2tb a)) k))) m)))
-  (or (and (<= h l) (= m 0))
-  (and (< l h)
-  (exists ((k Int))
-  (and (and (<= l k) (< k h))
-  (= m (tb2t2 (sort int (get1 (sort (array1 int) (t2tb a)) k))))))))) (is_max
-  a l h m)))))
-
-(assert
-;; WP_parameter_test_case
- ;; File "vstte10_max_sum/../vstte10_max_sum.mlw", line 63, characters 6-15
-  (not
-  (=> (<= 0 20)
-  (=> (and (<= 0 0) (< 0 20))
-  (forall ((a (Array Int Int)))
-  (=> (= a (store (const2 0) 0 9))
-  (=> (and (<= 0 1) (< 1 20))
-  (forall ((a1 (Array Int Int)))
-  (=> (= a1 (store a 1 5))
-  (=> (and (<= 0 2) (< 2 20))
-  (forall ((a2 (Array Int Int)))
-  (=> (= a2 (store a1 2 0))
-  (=> (and (<= 0 3) (< 3 20))
-  (forall ((a3 (Array Int Int)))
-  (=> (= a3 (store a2 3 2))
-  (=> (and (<= 0 4) (< 4 20))
-  (forall ((a4 (Array Int Int)))
-  (=> (= a4 (store a3 4 7))
-  (=> (and (<= 0 5) (< 5 20))
-  (forall ((a5 (Array Int Int)))
-  (=> (= a5 (store a4 5 3))
-  (=> (and (<= 0 6) (< 6 20))
-  (forall ((a6 (Array Int Int)))
-  (=> (= a6 (store a5 6 2))
-  (=> (and (<= 0 7) (< 7 20))
-  (forall ((a7 (Array Int Int)))
-  (=> (= a7 (store a6 7 1))
-  (=> (and (<= 0 8) (< 8 20))
-  (forall ((a8 (Array Int Int)))
-  (=> (= a8 (store a7 8 10))
-  (=> (and (<= 0 9) (< 9 20))
-  (forall ((a9 (Array Int Int)))
-  (=> (= a9 (store a8 9 6))
-  (=> (and (<= 0 10) (< 10 20))
-  (forall ((a10 (Array Int Int)))
-  (=> (= a10 (store a9 10 9))
-  (=> (and (<= 0 11) (< 11 20))
-  (forall ((a11 (Array Int Int)))
-  (=> (= a11 (store a10 11 5))
-  (=> (and (<= 0 12) (< 12 20))
-  (forall ((a12 (Array Int Int)))
-  (=> (= a12 (store a11 12 0))
-  (=> (and (<= 0 13) (< 13 20))
-  (forall ((a13 (Array Int Int)))
-  (=> (= a13 (store a12 13 2))
-  (=> (and (<= 0 14) (< 14 20))
-  (forall ((a14 (Array Int Int)))
-  (=> (= a14 (store a13 14 7))
-  (=> (and (<= 0 15) (< 15 20))
-  (forall ((a15 (Array Int Int)))
-  (=> (= a15 (store a14 15 3))
-  (=> (and (<= 0 16) (< 16 20))
-  (forall ((a16 (Array Int Int)))
-  (=> (= a16 (store a15 16 2))
-  (=> (and (<= 0 17) (< 17 20))
-  (forall ((a17 (Array Int Int)))
-  (=> (= a17 (store a16 17 1))
-  (=> (and (<= 0 18) (< 18 20))
-  (forall ((a18 (Array Int Int)))
-  (=> (= a18 (store a17 18 10))
-  (=> (and (<= 0 19) (< 19 20))
-  (forall ((a19 (Array Int Int)))
-  (=> (= a19 (store a18 19 6))
-  (=>
-  (and (<= 0 20)
-  (forall ((i Int)) (=> (and (<= 0 i) (< i 20)) (<= 0 (select a19 i)))))
-  (forall ((result Int) (result1 Int))
-  (=>
-  (and (= result (sum a19 0 20))
-  (and (is_max (mk_array1 20 a19) 0 20 result1) (<= result (* 20 result1))))
-  (= result 90)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))
-(check-sat)
-
diff --git a/test/regress/regress0/rewriterules/why3_vstte10_max_sum_harness3.smt2 b/test/regress/regress0/rewriterules/why3_vstte10_max_sum_harness3.smt2
deleted file mode 100644
index e468128ac..000000000
--- a/test/regress/regress0/rewriterules/why3_vstte10_max_sum_harness3.smt2
+++ /dev/null
@@ -1,492 +0,0 @@
-;;; From a verification condition generated by why3. The original program
-;; can be found at http://toccata.lri.fr/gallery/vstte10_max_sum.en.html .
-;; The problem has been modified by doubling the size of the arrays
-;; (* **)
-;;    VSTTE'10 competition http://www.macs.hw.ac.uk/vstte10/Competition.html **)
-;;    Problem 1: maximum /\ sum of an array **)
-
-;;    Author: Jean-Christophe Filliatre (CNRS) **)
-;;    Tool:   Why3 (see http://why3.lri.fr/) **)
-;; *\) **)
-
-;; Particularly the assertion in the test case that the max m = 10
-
-;;; this is a prelude for CVC4
-(set-logic AUFNIRA)
-;;; this is a prelude for CVC4 integer arithmetic
-(declare-sort uni 0)
-
-(declare-sort deco 0)
-
-(declare-sort ty 0)
-
-(declare-fun sort (ty uni) deco)
-
-(declare-fun int () ty)
-
-(declare-fun real () ty)
-
-(declare-fun bool () ty)
-
-(declare-fun True () uni)
-
-(declare-fun False () uni)
-
-(declare-fun match_bool (deco deco deco) uni)
-
-;; match_bool_True
-  (assert
-  (forall ((a ty))
-  (forall ((z uni) (z1 uni))
-  (= (sort a (match_bool (sort bool True) (sort a z) (sort a z1))) (sort a z)))))
-
-;; match_bool_False
-  (assert
-  (forall ((a ty))
-  (forall ((z uni) (z1 uni))
-  (= (sort a (match_bool (sort bool False) (sort a z) (sort a z1))) (sort a
-                                                                    z1)))))
-
-(declare-fun index_bool (deco) Int)
-
-;; index_bool_True
-  (assert (= (index_bool (sort bool True)) 0))
-
-;; index_bool_False
-  (assert (= (index_bool (sort bool False)) 1))
-
-;; bool_inversion
-  (assert
-  (forall ((u uni))
-  (or (= (sort bool u) (sort bool True)) (= (sort bool u) (sort bool False)))))
-
-(declare-fun tuple0 () ty)
-
-(declare-fun Tuple0 () uni)
-
-;; tuple0_inversion
-  (assert (forall ((u uni)) (= (sort tuple0 u) (sort tuple0 Tuple0))))
-
-;; CompatOrderMult
-  (assert
-  (forall ((x Int) (y Int) (z Int))
-  (=> (<= x y) (=> (<= 0 z) (<= (* x z) (* y z))))))
-
-(declare-fun ref (ty) ty)
-
-(declare-fun mk_ref (deco) uni)
-
-(declare-fun contents (deco) uni)
-
-;; contents_def
-  (assert
-  (forall ((a ty))
-  (forall ((u uni))
-  (= (sort a (contents (sort (ref a) (mk_ref (sort a u))))) (sort a u)))))
-
-;; ref_inversion
-  (assert
-  (forall ((a ty))
-  (forall ((u uni))
-  (= (sort (ref a) u) (sort (ref a)
-                      (mk_ref (sort a (contents (sort (ref a) u)))))))))
-
-(declare-fun map (ty ty) ty)
-
-(declare-fun get (deco deco) uni)
-
-(declare-fun set (deco deco deco) uni)
-
-;; Select_eq
-  (assert
-  (forall ((m (Array Int Int)))
-  (forall ((a1 Int) (a2 Int))
-  (forall ((b Int))
-  (! (=> (= a1 a2) (= (select (store m a1 b) a2) b)) :pattern ((select (store m a1 b) a2)) )))))
-
-;; Select_eq
-  (assert
-  (forall ((a ty) (b ty))
-  (forall ((m uni))
-  (forall ((a1 uni) (a2 uni))
-  (forall ((b1 uni))
-  (! (=> (= (sort a a1) (sort a a2))
-     (= (sort b
-        (get
-        (sort (map a b) (set (sort (map a b) m) (sort a a1) (sort b b1)))
-        (sort a a2))) (sort b b1))) :pattern ((sort b
-                                              (get
-                                              (sort (map a b)
-                                              (set (sort (map a b) m)
-                                              (sort a a1) (sort b b1)))
-                                              (sort a a2)))) ))))))
-
-;; Select_neq
-  (assert
-  (forall ((m (Array Int Int)))
-  (forall ((a1 Int) (a2 Int))
-  (forall ((b Int))
-  (! (=> (not (= a1 a2)) (= (select (store m a1 b) a2) (select m a2))) :pattern ((select (store m a1 b) a2)) )))))
-
-;; Select_neq
-  (assert
-  (forall ((a ty) (b ty))
-  (forall ((m uni))
-  (forall ((a1 uni) (a2 uni))
-  (forall ((b1 uni))
-  (! (=> (not (= (sort a a1) (sort a a2)))
-     (= (sort b
-        (get
-        (sort (map a b) (set (sort (map a b) m) (sort a a1) (sort b b1)))
-        (sort a a2))) (sort b (get (sort (map a b) m) (sort a a2))))) :pattern (
-  (sort b
-  (get (sort (map a b) (set (sort (map a b) m) (sort a a1) (sort b b1)))
-  (sort a a2)))) ))))))
-
-(declare-fun const1 (deco) uni)
-
-(declare-fun const2 (Int) (Array Int Int))
-
-;; Const
-  (assert (forall ((b Int) (a Int)) (= (select (const2 b) a) b)))
-
-;; Const
-  (assert
-  (forall ((a ty) (b ty))
-  (forall ((b1 uni) (a1 uni))
-  (= (sort b (get (sort (map a b) (const1 (sort b b1))) (sort a a1))) 
-  (sort b b1)))))
-
-(declare-sort array 1)
-
-(declare-fun array1 (ty) ty)
-
-(declare-fun mk_array (Int deco) uni)
-
-(declare-fun mk_array1 (Int (Array Int Int)) (array Int))
-
-(declare-fun length (deco) Int)
-
-(declare-fun t2tb ((array Int)) uni)
-
-(declare-fun tb2t (deco) (array Int))
-
-;; BridgeL
-  (assert
-  (forall ((i (array Int)))
-  (! (= (tb2t (sort (array1 int) (t2tb i))) i) :pattern ((sort (array1 int)
-                                                         (t2tb i))) )))
-
-;; BridgeR
-  (assert
-  (forall ((j uni))
-  (! (= (sort (array1 int) (t2tb (tb2t (sort (array1 int) j)))) (sort
-                                                                (array1 int)
-                                                                j)) :pattern (
-  (sort (array1 int) (t2tb (tb2t (sort (array1 int) j))))) )))
-
-;; length_def
-  (assert
-  (forall ((u Int) (u1 (Array Int Int)))
-  (= (length (sort (array1 int) (t2tb (mk_array1 u u1)))) u)))
-
-;; length_def
-  (assert
-  (forall ((a ty))
-  (forall ((u Int) (u1 uni))
-  (= (length (sort (array1 a) (mk_array u (sort (map int a) u1)))) u))))
-
-(declare-fun elts (deco) uni)
-
-(declare-fun t2tb1 ((Array Int Int)) uni)
-
-(declare-fun tb2t1 (deco) (Array Int Int))
-
-;; BridgeL
-  (assert
-  (forall ((i (Array Int Int)))
-  (! (= (tb2t1 (sort (map int int) (t2tb1 i))) i) :pattern ((sort
-                                                            (map int int)
-                                                            (t2tb1 i))) )))
-
-;; BridgeR
-  (assert
-  (forall ((j uni))
-  (! (= (sort (map int int) (t2tb1 (tb2t1 (sort (map int int) j)))) (sort
-                                                                    (map 
-                                                                    int 
-                                                                    int) j)) :pattern (
-  (sort (map int int) (t2tb1 (tb2t1 (sort (map int int) j))))) )))
-
-;; elts_def
-  (assert
-  (forall ((u Int) (u1 (Array Int Int)))
-  (= (tb2t1
-     (sort (map int int) (elts (sort (array1 int) (t2tb (mk_array1 u u1)))))) u1)))
-
-;; elts_def
-  (assert
-  (forall ((a ty))
-  (forall ((u Int) (u1 uni))
-  (= (sort (map int a)
-     (elts (sort (array1 a) (mk_array u (sort (map int a) u1))))) (sort
-                                                                  (map int a)
-                                                                  u1)))))
-
-;; array_inversion
-  (assert
-  (forall ((u (array Int)))
-  (= u (mk_array1 (length (sort (array1 int) (t2tb u)))
-       (tb2t1 (sort (map int int) (elts (sort (array1 int) (t2tb u)))))))))
-
-;; array_inversion
-  (assert
-  (forall ((a ty))
-  (forall ((u uni))
-  (= (sort (array1 a) u) (sort (array1 a)
-                         (mk_array (length (sort (array1 a) u))
-                         (sort (map int a) (elts (sort (array1 a) u)))))))))
-
-(declare-fun get1 (deco Int) uni)
-
-(declare-fun t2tb2 (Int) uni)
-
-(declare-fun tb2t2 (deco) Int)
-
-;; BridgeL
-  (assert
-  (forall ((i Int))
-  (! (= (tb2t2 (sort int (t2tb2 i))) i) :pattern ((sort int (t2tb2 i))) )))
-
-;; BridgeR
-  (assert
-  (forall ((j uni))
-  (! (= (sort int (t2tb2 (tb2t2 (sort int j)))) (sort int j)) :pattern (
-  (sort int (t2tb2 (tb2t2 (sort int j))))) )))
-
-;; get_def
-  (assert
-  (forall ((a (array Int)) (i Int))
-  (= (tb2t2 (sort int (get1 (sort (array1 int) (t2tb a)) i))) (select 
-  (tb2t1 (sort (map int int) (elts (sort (array1 int) (t2tb a))))) i))))
-
-;; get_def
-  (assert
-  (forall ((a ty))
-  (forall ((a1 uni) (i Int))
-  (= (sort a (get1 (sort (array1 a) a1) i)) (sort a
-                                            (get
-                                            (sort (map int a)
-                                            (elts (sort (array1 a) a1)))
-                                            (sort int (t2tb2 i))))))))
-
-(declare-fun set1 (deco Int deco) uni)
-
-;; set_def
-  (assert
-  (forall ((a (array Int)) (i Int) (v Int))
-  (= (tb2t
-     (sort (array1 int)
-     (set1 (sort (array1 int) (t2tb a)) i (sort int (t2tb2 v))))) (mk_array1
-                                                                  (length
-                                                                  (sort
-                                                                  (array1
-                                                                  int)
-                                                                  (t2tb a)))
-                                                                  (store 
-                                                                  (tb2t1
-                                                                  (sort
-                                                                  (map 
-                                                                  int 
-                                                                  int)
-                                                                  (elts
-                                                                  (sort
-                                                                  (array1
-                                                                  int)
-                                                                  (t2tb a))))) i v)))))
-
-;; set_def
-  (assert
-  (forall ((a ty))
-  (forall ((a1 uni) (i Int) (v uni))
-  (= (sort (array1 a) (set1 (sort (array1 a) a1) i (sort a v))) (sort
-                                                                (array1 a)
-                                                                (mk_array
-                                                                (length
-                                                                (sort
-                                                                (array1 a)
-                                                                a1))
-                                                                (sort
-                                                                (map int a)
-                                                                (set
-                                                                (sort
-                                                                (map int a)
-                                                                (elts
-                                                                (sort
-                                                                (array1 a)
-                                                                a1)))
-                                                                (sort 
-                                                                int
-                                                                (t2tb2 i))
-                                                                (sort a v)))))))))
-
-(declare-fun make (Int deco) uni)
-
-;; make_def
-  (assert
-  (forall ((n Int) (v Int))
-  (= (tb2t (sort (array1 int) (make n (sort int (t2tb2 v))))) (mk_array1 n
-                                                              (const2 v)))))
-
-;; make_def
-  (assert
-  (forall ((a ty))
-  (forall ((n Int) (v uni))
-  (= (sort (array1 a) (make n (sort a v))) (sort (array1 a)
-                                           (mk_array n
-                                           (sort (map int a)
-                                           (const1 (sort a v)))))))))
-
-(declare-fun sum ((Array Int Int) Int Int) Int)
-
-;; Sum_def_empty
-  (assert
-  (forall ((c (Array Int Int)) (i Int) (j Int))
-  (=> (<= j i) (= (sum c i j) 0))))
-
-;; Sum_def_non_empty
-  (assert
-  (forall ((c (Array Int Int)) (i Int) (j Int))
-  (=> (< i j) (= (sum c i j) (+ (select c i) (sum c (+ i 1) j))))))
-
-;; Sum_right_extension
-  (assert
-  (forall ((c (Array Int Int)) (i Int) (j Int))
-  (=> (< i j) (= (sum c i j) (+ (sum c i (- j 1)) (select c (- j 1)))))))
-
-;; Sum_transitivity
-  (assert
-  (forall ((c (Array Int Int)) (i Int) (k Int) (j Int))
-  (=> (and (<= i k) (<= k j)) (= (sum c i j) (+ (sum c i k) (sum c k j))))))
-
-;; Sum_eq
-  (assert
-  (forall ((c1 (Array Int Int)) (c2 (Array Int Int)) (i Int) (j Int))
-  (=>
-  (forall ((k Int))
-  (=> (and (<= i k) (< k j)) (= (select c1 k) (select c2 k))))
-  (= (sum c1 i j) (sum c2 i j)))))
-
-(declare-fun sum1 ((array Int) Int Int) Int)
-
-;; sum_def
-  (assert
-  (forall ((a (array Int)) (l Int) (h Int))
-  (= (sum1 a l h) (sum
-                  (tb2t1
-                  (sort (map int int) (elts (sort (array1 int) (t2tb a))))) l
-                  h))))
-
-(declare-fun is_max ((array Int) Int Int Int) Bool)
-
-;; is_max_def
-  (assert
-  (forall ((a (array Int)) (l Int) (h Int) (m Int))
-  (and
-  (=> (is_max a l h m)
-  (and
-  (forall ((k Int))
-  (=> (and (<= l k) (< k h))
-  (<= (tb2t2 (sort int (get1 (sort (array1 int) (t2tb a)) k))) m)))
-  (or (and (<= h l) (= m 0))
-  (and (< l h)
-  (exists ((k Int))
-  (and (and (<= l k) (< k h))
-  (= m (tb2t2 (sort int (get1 (sort (array1 int) (t2tb a)) k))))))))))
-  (=>
-  (and
-  (forall ((k Int))
-  (=> (and (<= l k) (< k h))
-  (<= (tb2t2 (sort int (get1 (sort (array1 int) (t2tb a)) k))) m)))
-  (or (and (<= h l) (= m 0))
-  (and (< l h)
-  (exists ((k Int))
-  (and (and (<= l k) (< k h))
-  (= m (tb2t2 (sort int (get1 (sort (array1 int) (t2tb a)) k))))))))) (is_max
-  a l h m)))))
-
-(assert
-;; WP_parameter_test_case
- ;; File "vstte10_max_sum/../vstte10_max_sum.mlw", line 63, characters 6-15
-  (not
-  (=> (<= 0 20)
-  (=> (and (<= 0 0) (< 0 20))
-  (forall ((a (Array Int Int)))
-  (=> (= a (store (const2 0) 0 9))
-  (=> (and (<= 0 1) (< 1 20))
-  (forall ((a1 (Array Int Int)))
-  (=> (= a1 (store a 1 5))
-  (=> (and (<= 0 2) (< 2 20))
-  (forall ((a2 (Array Int Int)))
-  (=> (= a2 (store a1 2 0))
-  (=> (and (<= 0 3) (< 3 20))
-  (forall ((a3 (Array Int Int)))
-  (=> (= a3 (store a2 3 2))
-  (=> (and (<= 0 4) (< 4 20))
-  (forall ((a4 (Array Int Int)))
-  (=> (= a4 (store a3 4 7))
-  (=> (and (<= 0 5) (< 5 20))
-  (forall ((a5 (Array Int Int)))
-  (=> (= a5 (store a4 5 3))
-  (=> (and (<= 0 6) (< 6 20))
-  (forall ((a6 (Array Int Int)))
-  (=> (= a6 (store a5 6 2))
-  (=> (and (<= 0 7) (< 7 20))
-  (forall ((a7 (Array Int Int)))
-  (=> (= a7 (store a6 7 1))
-  (=> (and (<= 0 8) (< 8 20))
-  (forall ((a8 (Array Int Int)))
-  (=> (= a8 (store a7 8 10))
-  (=> (and (<= 0 9) (< 9 20))
-  (forall ((a9 (Array Int Int)))
-  (=> (= a9 (store a8 9 6))
-  (=> (and (<= 0 10) (< 10 20))
-  (forall ((a10 (Array Int Int)))
-  (=> (= a10 (store a9 10 9))
-  (=> (and (<= 0 11) (< 11 20))
-  (forall ((a11 (Array Int Int)))
-  (=> (= a11 (store a10 11 5))
-  (=> (and (<= 0 12) (< 12 20))
-  (forall ((a12 (Array Int Int)))
-  (=> (= a12 (store a11 12 0))
-  (=> (and (<= 0 13) (< 13 20))
-  (forall ((a13 (Array Int Int)))
-  (=> (= a13 (store a12 13 2))
-  (=> (and (<= 0 14) (< 14 20))
-  (forall ((a14 (Array Int Int)))
-  (=> (= a14 (store a13 14 7))
-  (=> (and (<= 0 15) (< 15 20))
-  (forall ((a15 (Array Int Int)))
-  (=> (= a15 (store a14 15 3))
-  (=> (and (<= 0 16) (< 16 20))
-  (forall ((a16 (Array Int Int)))
-  (=> (= a16 (store a15 16 2))
-  (=> (and (<= 0 17) (< 17 20))
-  (forall ((a17 (Array Int Int)))
-  (=> (= a17 (store a16 17 1))
-  (=> (and (<= 0 18) (< 18 20))
-  (forall ((a18 (Array Int Int)))
-  (=> (= a18 (store a17 18 10))
-  (=> (and (<= 0 19) (< 19 20))
-  (forall ((a19 (Array Int Int)))
-  (=> (= a19 (store a18 19 6))
-  (=>
-  (and (<= 0 20)
-  (forall ((i Int)) (=> (and (<= 0 i) (< i 20)) (<= 0 (select a19 i)))))
-  (forall ((result Int) (result1 Int))
-  (=>
-  (and (= result (sum a19 0 20))
-  (and (is_max (mk_array1 20 a19) 0 20 result1) (<= result (* 20 result1))))
-  (=> (= result 90) (= result1 10))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))
-(check-sat)
-
diff --git a/test/regress/regress0/rewriterules/why3_vstte10_max_sum_harness3_rr.smt2 b/test/regress/regress0/rewriterules/why3_vstte10_max_sum_harness3_rr.smt2
deleted file mode 100644
index a6f4106e5..000000000
--- a/test/regress/regress0/rewriterules/why3_vstte10_max_sum_harness3_rr.smt2
+++ /dev/null
@@ -1,520 +0,0 @@
-;;; From a verification condition generated by why3. The original program
-;; can be found at http://toccata.lri.fr/gallery/vstte10_max_sum.en.html .
-;; The problem has been modified by doubling the size of the arrays.
-;; (* **)
-;;    VSTTE'10 competition http://www.macs.hw.ac.uk/vstte10/Competition.html **)
-;;    Problem 1: maximum /\ sum of an array **)
-
-;;    Author: Jean-Christophe Filliatre (CNRS) **)
-;;    Tool:   Why3 (see http://why3.lri.fr/) **)
-;; *\) **)
-
-;; Particularly the assertion in the test case that the max m = 10
-
-;; Added rewriterules:
-;; (assert-propagation ((c (array Int)) (l Int) (h Int) (m Int)) ()
-;;  ((is_max c l h m)) (= m (comp_max c l h)) ())
-
-;; (assert-rewrite ((c (array Int)) (l Int) (h Int)) ((<= h l))
-;;  (comp_max c l h) 0 ())
-
-;; (assert-rewrite ((c (array Int)) (l Int) (h Int)) ((< l h)(< (comp_max c l (- h 1)) (tb2t2 (sort int (get1 (sort (array1 int) (t2tb c)) h)))) )
-;;  (comp_max c l h) (tb2t2 (sort int (get1 (sort (array1 int) (t2tb c)) h))) ())
-
-;; (assert-rewrite ((c (array Int)) (l Int) (h Int)) ((< l h)(>= (comp_max c l (- h 1)) (tb2t2 (sort int (get1 (sort (array1 int) (t2tb c)) h)))) )
-;;  (comp_max c l h) (comp_max c l (- h 1)) ())
-
-
-;;; this is a prelude for CVC4
-(set-logic AUFNIRA)
-;;; this is a prelude for CVC4 integer arithmetic
-(declare-sort uni 0)
-
-(declare-sort deco 0)
-
-(declare-sort ty 0)
-
-(declare-fun sort (ty uni) deco)
-
-(declare-fun int () ty)
-
-(declare-fun real () ty)
-
-(declare-fun bool () ty)
-
-(declare-fun True () uni)
-
-(declare-fun False () uni)
-
-(declare-fun match_bool (deco deco deco) uni)
-
-;; match_bool_True
-  (assert
-  (forall ((a ty))
-  (forall ((z uni) (z1 uni))
-  (= (sort a (match_bool (sort bool True) (sort a z) (sort a z1))) (sort a z)))))
-
-;; match_bool_False
-  (assert
-  (forall ((a ty))
-  (forall ((z uni) (z1 uni))
-  (= (sort a (match_bool (sort bool False) (sort a z) (sort a z1))) (sort a
-                                                                    z1)))))
-
-(declare-fun index_bool (deco) Int)
-
-;; index_bool_True
-  (assert (= (index_bool (sort bool True)) 0))
-
-;; index_bool_False
-  (assert (= (index_bool (sort bool False)) 1))
-
-;; bool_inversion
-  (assert
-  (forall ((u uni))
-  (or (= (sort bool u) (sort bool True)) (= (sort bool u) (sort bool False)))))
-
-(declare-fun tuple0 () ty)
-
-(declare-fun Tuple0 () uni)
-
-;; tuple0_inversion
-  (assert (forall ((u uni)) (= (sort tuple0 u) (sort tuple0 Tuple0))))
-
-;; CompatOrderMult
-  (assert
-  (forall ((x Int) (y Int) (z Int))
-  (=> (<= x y) (=> (<= 0 z) (<= (* x z) (* y z))))))
-
-(declare-fun ref (ty) ty)
-
-(declare-fun mk_ref (deco) uni)
-
-(declare-fun contents (deco) uni)
-
-;; contents_def
-  (assert
-  (forall ((a ty))
-  (forall ((u uni))
-  (= (sort a (contents (sort (ref a) (mk_ref (sort a u))))) (sort a u)))))
-
-;; ref_inversion
-  (assert
-  (forall ((a ty))
-  (forall ((u uni))
-  (= (sort (ref a) u) (sort (ref a)
-                      (mk_ref (sort a (contents (sort (ref a) u)))))))))
-
-(declare-fun map (ty ty) ty)
-
-(declare-fun get (deco deco) uni)
-
-(declare-fun set (deco deco deco) uni)
-
-;; Select_eq
-  (assert
-  (forall ((m (Array Int Int)))
-  (forall ((a1 Int) (a2 Int))
-  (forall ((b Int))
-  (! (=> (= a1 a2) (= (select (store m a1 b) a2) b)) :pattern ((select (store m a1 b) a2)) )))))
-
-;; Select_eq
-  (assert
-  (forall ((a ty) (b ty))
-  (forall ((m uni))
-  (forall ((a1 uni) (a2 uni))
-  (forall ((b1 uni))
-  (! (=> (= (sort a a1) (sort a a2))
-     (= (sort b
-        (get
-        (sort (map a b) (set (sort (map a b) m) (sort a a1) (sort b b1)))
-        (sort a a2))) (sort b b1))) :pattern ((sort b
-                                              (get
-                                              (sort (map a b)
-                                              (set (sort (map a b) m)
-                                              (sort a a1) (sort b b1)))
-                                              (sort a a2)))) ))))))
-
-;; Select_neq
-  (assert
-  (forall ((m (Array Int Int)))
-  (forall ((a1 Int) (a2 Int))
-  (forall ((b Int))
-  (! (=> (not (= a1 a2)) (= (select (store m a1 b) a2) (select m a2))) :pattern ((select (store m a1 b) a2)) )))))
-
-;; Select_neq
-  (assert
-  (forall ((a ty) (b ty))
-  (forall ((m uni))
-  (forall ((a1 uni) (a2 uni))
-  (forall ((b1 uni))
-  (! (=> (not (= (sort a a1) (sort a a2)))
-     (= (sort b
-        (get
-        (sort (map a b) (set (sort (map a b) m) (sort a a1) (sort b b1)))
-        (sort a a2))) (sort b (get (sort (map a b) m) (sort a a2))))) :pattern (
-  (sort b
-  (get (sort (map a b) (set (sort (map a b) m) (sort a a1) (sort b b1)))
-  (sort a a2)))) ))))))
-
-(declare-fun const1 (deco) uni)
-
-(declare-fun const2 (Int) (Array Int Int))
-
-;; Const
-  (assert (forall ((b Int) (a Int)) (= (select (const2 b) a) b)))
-
-;; Const
-  (assert
-  (forall ((a ty) (b ty))
-  (forall ((b1 uni) (a1 uni))
-  (= (sort b (get (sort (map a b) (const1 (sort b b1))) (sort a a1))) 
-  (sort b b1)))))
-
-(declare-sort array 1)
-
-(declare-fun array1 (ty) ty)
-
-(declare-fun mk_array (Int deco) uni)
-
-(declare-fun mk_array1 (Int (Array Int Int)) (array Int))
-
-(declare-fun length (deco) Int)
-
-(declare-fun t2tb ((array Int)) uni)
-
-(declare-fun tb2t (deco) (array Int))
-
-;; BridgeL
-  (assert
-  (forall ((i (array Int)))
-  (! (= (tb2t (sort (array1 int) (t2tb i))) i) :pattern ((sort (array1 int)
-                                                         (t2tb i))) )))
-
-;; BridgeR
-  (assert
-  (forall ((j uni))
-  (! (= (sort (array1 int) (t2tb (tb2t (sort (array1 int) j)))) (sort
-                                                                (array1 int)
-                                                                j)) :pattern (
-  (sort (array1 int) (t2tb (tb2t (sort (array1 int) j))))) )))
-
-;; length_def
-  (assert
-  (forall ((u Int) (u1 (Array Int Int)))
-  (= (length (sort (array1 int) (t2tb (mk_array1 u u1)))) u)))
-
-;; length_def
-  (assert
-  (forall ((a ty))
-  (forall ((u Int) (u1 uni))
-  (= (length (sort (array1 a) (mk_array u (sort (map int a) u1)))) u))))
-
-(declare-fun elts (deco) uni)
-
-(declare-fun t2tb1 ((Array Int Int)) uni)
-
-(declare-fun tb2t1 (deco) (Array Int Int))
-
-;; BridgeL
-  (assert
-  (forall ((i (Array Int Int)))
-  (! (= (tb2t1 (sort (map int int) (t2tb1 i))) i) :pattern ((sort
-                                                            (map int int)
-                                                            (t2tb1 i))) )))
-
-;; BridgeR
-  (assert
-  (forall ((j uni))
-  (! (= (sort (map int int) (t2tb1 (tb2t1 (sort (map int int) j)))) (sort
-                                                                    (map 
-                                                                    int 
-                                                                    int) j)) :pattern (
-  (sort (map int int) (t2tb1 (tb2t1 (sort (map int int) j))))) )))
-
-;; elts_def
-  (assert
-  (forall ((u Int) (u1 (Array Int Int)))
-  (= (tb2t1
-     (sort (map int int) (elts (sort (array1 int) (t2tb (mk_array1 u u1)))))) u1)))
-
-;; elts_def
-  (assert
-  (forall ((a ty))
-  (forall ((u Int) (u1 uni))
-  (= (sort (map int a)
-     (elts (sort (array1 a) (mk_array u (sort (map int a) u1))))) (sort
-                                                                  (map int a)
-                                                                  u1)))))
-
-;; array_inversion
-  (assert
-  (forall ((u (array Int)))
-  (= u (mk_array1 (length (sort (array1 int) (t2tb u)))
-       (tb2t1 (sort (map int int) (elts (sort (array1 int) (t2tb u)))))))))
-
-;; array_inversion
-  (assert
-  (forall ((a ty))
-  (forall ((u uni))
-  (= (sort (array1 a) u) (sort (array1 a)
-                         (mk_array (length (sort (array1 a) u))
-                         (sort (map int a) (elts (sort (array1 a) u)))))))))
-
-(declare-fun get1 (deco Int) uni)
-
-(declare-fun t2tb2 (Int) uni)
-
-(declare-fun tb2t2 (deco) Int)
-
-;; BridgeL
-  (assert
-  (forall ((i Int))
-  (! (= (tb2t2 (sort int (t2tb2 i))) i) :pattern ((sort int (t2tb2 i))) )))
-
-;; BridgeR
-  (assert
-  (forall ((j uni))
-  (! (= (sort int (t2tb2 (tb2t2 (sort int j)))) (sort int j)) :pattern (
-  (sort int (t2tb2 (tb2t2 (sort int j))))) )))
-
-;; get_def
-  (assert
-  (forall ((a (array Int)) (i Int))
-  (= (tb2t2 (sort int (get1 (sort (array1 int) (t2tb a)) i))) (select 
-  (tb2t1 (sort (map int int) (elts (sort (array1 int) (t2tb a))))) i))))
-
-;; get_def
-  (assert
-  (forall ((a ty))
-  (forall ((a1 uni) (i Int))
-  (= (sort a (get1 (sort (array1 a) a1) i)) (sort a
-                                            (get
-                                            (sort (map int a)
-                                            (elts (sort (array1 a) a1)))
-                                            (sort int (t2tb2 i))))))))
-
-(declare-fun set1 (deco Int deco) uni)
-
-;; set_def
-  (assert
-  (forall ((a (array Int)) (i Int) (v Int))
-  (= (tb2t
-     (sort (array1 int)
-     (set1 (sort (array1 int) (t2tb a)) i (sort int (t2tb2 v))))) (mk_array1
-                                                                  (length
-                                                                  (sort
-                                                                  (array1
-                                                                  int)
-                                                                  (t2tb a)))
-                                                                  (store 
-                                                                  (tb2t1
-                                                                  (sort
-                                                                  (map 
-                                                                  int 
-                                                                  int)
-                                                                  (elts
-                                                                  (sort
-                                                                  (array1
-                                                                  int)
-                                                                  (t2tb a))))) i v)))))
-
-;; set_def
-  (assert
-  (forall ((a ty))
-  (forall ((a1 uni) (i Int) (v uni))
-  (= (sort (array1 a) (set1 (sort (array1 a) a1) i (sort a v))) (sort
-                                                                (array1 a)
-                                                                (mk_array
-                                                                (length
-                                                                (sort
-                                                                (array1 a)
-                                                                a1))
-                                                                (sort
-                                                                (map int a)
-                                                                (set
-                                                                (sort
-                                                                (map int a)
-                                                                (elts
-                                                                (sort
-                                                                (array1 a)
-                                                                a1)))
-                                                                (sort 
-                                                                int
-                                                                (t2tb2 i))
-                                                                (sort a v)))))))))
-
-(declare-fun make (Int deco) uni)
-
-;; make_def
-  (assert
-  (forall ((n Int) (v Int))
-  (= (tb2t (sort (array1 int) (make n (sort int (t2tb2 v))))) (mk_array1 n
-                                                              (const2 v)))))
-
-;; make_def
-  (assert
-  (forall ((a ty))
-  (forall ((n Int) (v uni))
-  (= (sort (array1 a) (make n (sort a v))) (sort (array1 a)
-                                           (mk_array n
-                                           (sort (map int a)
-                                           (const1 (sort a v)))))))))
-
-(declare-fun sum ((Array Int Int) Int Int) Int)
-
-;; Sum_def_empty
-  (assert
-  (forall ((c (Array Int Int)) (i Int) (j Int))
-  (=> (<= j i) (= (sum c i j) 0))))
-
-;; Sum_def_non_empty
-  (assert
-  (forall ((c (Array Int Int)) (i Int) (j Int))
-  (=> (< i j) (= (sum c i j) (+ (select c i) (sum c (+ i 1) j))))))
-
-;; Sum_right_extension
-  (assert
-  (forall ((c (Array Int Int)) (i Int) (j Int))
-  (=> (< i j) (= (sum c i j) (+ (sum c i (- j 1)) (select c (- j 1)))))))
-
-;; Sum_transitivity
-  (assert
-  (forall ((c (Array Int Int)) (i Int) (k Int) (j Int))
-  (=> (and (<= i k) (<= k j)) (= (sum c i j) (+ (sum c i k) (sum c k j))))))
-
-;; Sum_eq
-  (assert
-  (forall ((c1 (Array Int Int)) (c2 (Array Int Int)) (i Int) (j Int))
-  (=>
-  (forall ((k Int))
-  (=> (and (<= i k) (< k j)) (= (select c1 k) (select c2 k))))
-  (= (sum c1 i j) (sum c2 i j)))))
-
-(declare-fun sum1 ((array Int) Int Int) Int)
-
-;; sum_def
-  (assert
-  (forall ((a (array Int)) (l Int) (h Int))
-  (= (sum1 a l h) (sum
-                  (tb2t1
-                  (sort (map int int) (elts (sort (array1 int) (t2tb a))))) l
-                  h))))
-
-(declare-fun is_max ((array Int) Int Int Int) Bool)
-
-;; is_max_def
-  (assert
-  (forall ((a (array Int)) (l Int) (h Int) (m Int))
-  (and
-  (=> (is_max a l h m)
-  (and
-  (forall ((k Int))
-  (=> (and (<= l k) (< k h))
-  (<= (tb2t2 (sort int (get1 (sort (array1 int) (t2tb a)) k))) m)))
-  (or (and (<= h l) (= m 0))
-  (and (< l h)
-  (exists ((k Int))
-  (and (and (<= l k) (< k h))
-  (= m (tb2t2 (sort int (get1 (sort (array1 int) (t2tb a)) k))))))))))
-  (=>
-  (and
-  (forall ((k Int))
-  (=> (and (<= l k) (< k h))
-  (<= (tb2t2 (sort int (get1 (sort (array1 int) (t2tb a)) k))) m)))
-  (or (and (<= h l) (= m 0))
-  (and (< l h)
-  (exists ((k Int))
-  (and (and (<= l k) (< k h))
-  (= m (tb2t2 (sort int (get1 (sort (array1 int) (t2tb a)) k))))))))) (is_max
-  a l h m)))))
-
-(declare-fun comp_max ((array Int) Int Int) Int)
-
-(assert-propagation ((c (array Int)) (l Int) (h Int) (m Int)) ()
- ((is_max c l h m)) (= m (comp_max c l h)) ())
-
-(assert-rewrite ((c (array Int)) (l Int) (h Int)) ((<= h l))
- (comp_max c l h) 0 ())
-
-(assert-rewrite ((c (array Int)) (l Int) (h Int)) ((< l h)(< (comp_max c l (- h 1)) (tb2t2 (sort int (get1 (sort (array1 int) (t2tb c)) h)))) )
- (comp_max c l h) (tb2t2 (sort int (get1 (sort (array1 int) (t2tb c)) h))) ())
-
-(assert-rewrite ((c (array Int)) (l Int) (h Int)) ((< l h)(>= (comp_max c l (- h 1)) (tb2t2 (sort int (get1 (sort (array1 int) (t2tb c)) h)))) )
- (comp_max c l h) (comp_max c l (- h 1)) ())
-
-(assert
-;; WP_parameter_test_case
- ;; File "vstte10_max_sum/../vstte10_max_sum.mlw", line 63, characters 6-15
-  (not
-  (=> (<= 0 20)
-  (=> (and (<= 0 0) (< 0 20))
-  (forall ((a (Array Int Int)))
-  (=> (= a (store (const2 0) 0 9))
-  (=> (and (<= 0 1) (< 1 20))
-  (forall ((a1 (Array Int Int)))
-  (=> (= a1 (store a 1 5))
-  (=> (and (<= 0 2) (< 2 20))
-  (forall ((a2 (Array Int Int)))
-  (=> (= a2 (store a1 2 0))
-  (=> (and (<= 0 3) (< 3 20))
-  (forall ((a3 (Array Int Int)))
-  (=> (= a3 (store a2 3 2))
-  (=> (and (<= 0 4) (< 4 20))
-  (forall ((a4 (Array Int Int)))
-  (=> (= a4 (store a3 4 7))
-  (=> (and (<= 0 5) (< 5 20))
-  (forall ((a5 (Array Int Int)))
-  (=> (= a5 (store a4 5 3))
-  (=> (and (<= 0 6) (< 6 20))
-  (forall ((a6 (Array Int Int)))
-  (=> (= a6 (store a5 6 2))
-  (=> (and (<= 0 7) (< 7 20))
-  (forall ((a7 (Array Int Int)))
-  (=> (= a7 (store a6 7 1))
-  (=> (and (<= 0 8) (< 8 20))
-  (forall ((a8 (Array Int Int)))
-  (=> (= a8 (store a7 8 10))
-  (=> (and (<= 0 9) (< 9 20))
-  (forall ((a9 (Array Int Int)))
-  (=> (= a9 (store a8 9 6))
-  (=> (and (<= 0 10) (< 10 20))
-  (forall ((a10 (Array Int Int)))
-  (=> (= a10 (store a9 10 9))
-  (=> (and (<= 0 11) (< 11 20))
-  (forall ((a11 (Array Int Int)))
-  (=> (= a11 (store a10 11 5))
-  (=> (and (<= 0 12) (< 12 20))
-  (forall ((a12 (Array Int Int)))
-  (=> (= a12 (store a11 12 0))
-  (=> (and (<= 0 13) (< 13 20))
-  (forall ((a13 (Array Int Int)))
-  (=> (= a13 (store a12 13 2))
-  (=> (and (<= 0 14) (< 14 20))
-  (forall ((a14 (Array Int Int)))
-  (=> (= a14 (store a13 14 7))
-  (=> (and (<= 0 15) (< 15 20))
-  (forall ((a15 (Array Int Int)))
-  (=> (= a15 (store a14 15 3))
-  (=> (and (<= 0 16) (< 16 20))
-  (forall ((a16 (Array Int Int)))
-  (=> (= a16 (store a15 16 2))
-  (=> (and (<= 0 17) (< 17 20))
-  (forall ((a17 (Array Int Int)))
-  (=> (= a17 (store a16 17 1))
-  (=> (and (<= 0 18) (< 18 20))
-  (forall ((a18 (Array Int Int)))
-  (=> (= a18 (store a17 18 10))
-  (=> (and (<= 0 19) (< 19 20))
-  (forall ((a19 (Array Int Int)))
-  (=> (= a19 (store a18 19 6))
-  (=>
-  (and (<= 0 20)
-  (forall ((i Int)) (=> (and (<= 0 i) (< i 20)) (<= 0 (select a19 i)))))
-  (forall ((result Int) (result1 Int))
-  (=>
-  (and (= result (sum a19 0 20))
-  (and (is_max (mk_array1 20 a19) 0 20 result1) (<= result (* 20 result1))))
-  (=> (= result 90) (= result1 10))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))
-(check-sat)
-
diff --git a/test/regress/regress0/sep/Makefile.am b/test/regress/regress0/sep/Makefile.am
index 692390dde..9b6c44fa5 100644
--- a/test/regress/regress0/sep/Makefile.am
+++ b/test/regress/regress0/sep/Makefile.am
@@ -21,42 +21,15 @@ MAKEFLAGS = -k
 TESTS =	\
   pto-01.smt2 \
   pto-02.smt2 \
-  pto-04.smt2 \
   sep-01.smt2 \
-  sep-02.smt2 \
-  sep-03.smt2 \
-  sep-find2.smt2 \
-  sep-neg-nstrict.smt2 \
   sep-plus1.smt2 \
-  sep-nterm-val-model.smt2 \
-  crash1220.smt2 \
   nspatial-simp.smt2 \
-  sep-neg-1refine.smt2 \
-  sep-neg-simple.smt2 \
   sep-simp-unsat-emp.smt2 \
-  simple-neg-sat.smt2 \
-  wand-simp-sat.smt2 \
-  wand-simp-sat2.smt2 \
-  wand-simp-unsat.smt2 \
-  sep-nterm-again.smt2 \
   nemp.smt2 \
   wand-crash.smt2 \
-  wand-nterm-simp.smt2 \
-  wand-nterm-simp2.smt2 \
-  chain-int.smt2 \
-  sep-neg-swap.smt2 \
-  sep-neg-nstrict2.smt2 \
-  dispose-list-4-init.smt2 \
-  wand-0526-sat.smt2 \
-  quant_wand.smt2 \
-  fmf-nemp-2.smt2 \
   trees-1.smt2 \
-  wand-false.smt2 \
   dup-nemp.smt2 \
-  emp2-quant-unsat.smt2 \
   dispose-1.smt2 \
-  finite-witness-sat.smt2 \
-  sep-fmf-priority.smt2 \
   nil-no-elim.smt2
 
 
diff --git a/test/regress/regress0/sep/chain-int.smt2 b/test/regress/regress0/sep/chain-int.smt2
deleted file mode 100644
index ebe52fa46..000000000
--- a/test/regress/regress0/sep/chain-int.smt2
+++ /dev/null
@@ -1,11 +0,0 @@
-(set-logic QF_ALL_SUPPORTED)
-(set-info :status unsat)
-
-(declare-const x Int)
-(declare-const y Int)
-(declare-const z Int)
-
-(assert (sep (pto x y) (pto y z)))
-(assert (and (> x 3) (< x 5)))
-(assert (and (> y 3) (< y 5)))
-(check-sat)
diff --git a/test/regress/regress0/sep/crash1220.smt2 b/test/regress/regress0/sep/crash1220.smt2
deleted file mode 100644
index f68434f33..000000000
--- a/test/regress/regress0/sep/crash1220.smt2
+++ /dev/null
@@ -1,15 +0,0 @@
-; COMMAND-LINE: --no-check-models
-; EXPECT: sat
-(set-logic QF_ALL_SUPPORTED)
-(set-info :status sat)
-
-(declare-const x Int)
-(declare-const a Int)
-
-(declare-const y Int)
-(declare-const b Int)
-
-(assert (or (pto x a) (sep (pto x a) (pto y b))))
-(assert (or (not (pto x a)) (sep (not (pto x a)) (not (pto y b)))))
-
-(check-sat)
diff --git a/test/regress/regress0/sep/dispose-list-4-init.smt2 b/test/regress/regress0/sep/dispose-list-4-init.smt2
deleted file mode 100644
index b3e2088b1..000000000
--- a/test/regress/regress0/sep/dispose-list-4-init.smt2
+++ /dev/null
@@ -1,36 +0,0 @@
-; COMMAND-LINE: --no-check-models
-; EXPECT: sat
-(set-logic QF_ALL_SUPPORTED)
-
-(declare-sort Loc 0)
-
-(declare-const w Loc)
-(declare-const u1 Loc)
-(declare-const u2 Loc)
-(declare-const u3 Loc)
-(declare-const nil Loc)
-
-(declare-const w1 Loc)
-(declare-const w2 Loc)
-(declare-const w3 Loc)
-(declare-const w4 Loc)
-
-; allocated (not nil)
-(assert (not (= w nil)))
-(assert (not (= u1 nil)))
-(assert (not (= u2 nil)))
-(assert (not (= u3 nil)))
-(assert (not (= w1 nil)))
-(assert (not (= w2 nil)))
-(assert (not (= w4 nil)))
-
-; from model
-;(assert (= w1 u3))
-;(assert (= w2 u2))
-;(assert (= w3 u1))
-;(assert (= w4 u1))
-
-(assert (sep (pto w u1) (pto u1 u2) (pto u2 u3) (pto u3 nil)))
-(assert (and (sep (sep (pto w4 w1) (pto w1 w2) (pto w2 nil)) (pto w w3)) (sep (pto w w4) true)))
-
-(check-sat)
diff --git a/test/regress/regress0/sep/emp2-quant-unsat.smt2 b/test/regress/regress0/sep/emp2-quant-unsat.smt2
deleted file mode 100644
index e89c0fd30..000000000
--- a/test/regress/regress0/sep/emp2-quant-unsat.smt2
+++ /dev/null
@@ -1,12 +0,0 @@
-; COMMAND-LINE: --quant-epr
-; EXPECT: unsat
-(set-logic ALL_SUPPORTED)
-(set-info :status unsat)
-(declare-sort U 0)
-(declare-fun u () U)
-
-(assert (sep (not (emp u u)) (not (emp u u))))
-
-(assert (forall ((x U) (y U)) (= x y)))
-
-(check-sat)
diff --git a/test/regress/regress0/sep/finite-witness-sat.smt2 b/test/regress/regress0/sep/finite-witness-sat.smt2
deleted file mode 100644
index 8aedbfd25..000000000
--- a/test/regress/regress0/sep/finite-witness-sat.smt2
+++ /dev/null
@@ -1,11 +0,0 @@
-; COMMAND-LINE: --finite-model-find --quant-epr --no-check-models
-; EXPECT: sat
-(set-logic ALL_SUPPORTED)
-(declare-sort Loc 0)
-(declare-const l Loc)
-
-(assert (not (emp l l)))
-(assert (forall ((x Loc) (y Loc)) (not (pto x y))))
-
-
-(check-sat)
diff --git a/test/regress/regress0/sep/fmf-nemp-2.smt2 b/test/regress/regress0/sep/fmf-nemp-2.smt2
deleted file mode 100644
index 679b1e363..000000000
--- a/test/regress/regress0/sep/fmf-nemp-2.smt2
+++ /dev/null
@@ -1,10 +0,0 @@
-; COMMAND-LINE: --finite-model-find --no-check-models
-; EXPECT: sat
-(set-logic ALL_SUPPORTED)
-(declare-sort U 0)
-(declare-fun u1 () U)
-(declare-fun u2 () U)
-(assert (not (= u1 u2)))
-(assert (forall ((x U)) (=> (not (= x (as sep.nil U))) (sep (not (emp u1 0)) (pto x 0)))))
-; satisfiable with heap of size 2, model of U of size 3
-(check-sat)
diff --git a/test/regress/regress0/sep/pto-04.smt2 b/test/regress/regress0/sep/pto-04.smt2
deleted file mode 100644
index 9b0afda7a..000000000
--- a/test/regress/regress0/sep/pto-04.smt2
+++ /dev/null
@@ -1,36 +0,0 @@
-(set-logic QF_ALL_SUPPORTED)
-(set-info :status unsat)
-
-(declare-const x1 Int)
-(declare-const x2 Int)
-(declare-const x3 Int)
-(declare-const x4 Int)
-(declare-const x5 Int)
-(declare-const x6 Int)
-(declare-const x7 Int)
-(declare-const x8 Int)
-(declare-const x9 Int)
-
-(declare-const a1 Int)
-(declare-const a2 Int)
-(declare-const a3 Int)
-(declare-const a4 Int)
-(declare-const a5 Int)
-(declare-const a6 Int)
-(declare-const a7 Int)
-(declare-const a8 Int)
-(declare-const a9 Int)
-
-(assert (and (pto x1 a1) (pto x2 a2) (pto x3 a3) 
-         (pto x4 a4) (pto x5 a5) (pto x6 a6)
-         (pto x7 a7) (pto x8 a8) (pto x9 a9)
-    )
-)
-
-(assert (not (and (= x1 x2 x3 x4 x5 x6 x7 x8 x9) 
-          (= a1 a2 a3 a4 a5 a6 a7 a8 a9)
-       )
-    )
-)
-
-(check-sat)
diff --git a/test/regress/regress0/sep/quant_wand.smt2 b/test/regress/regress0/sep/quant_wand.smt2
deleted file mode 100644
index 8a69c10c4..000000000
--- a/test/regress/regress0/sep/quant_wand.smt2
+++ /dev/null
@@ -1,15 +0,0 @@
-; COMMAND-LINE: --full-saturate-quant
-; EXPECT: unsat
-(set-logic ALL_SUPPORTED)
-(set-info :status unsat)
-
-(declare-const u Int)
-
-(assert (emp 0 0))
-
-(assert 
-(forall ((y Int)) 
-(not (wand (pto u 5) (and (= y 42) (pto u 5))))
-))
-
-(check-sat)
diff --git a/test/regress/regress0/sep/sep-02.smt2 b/test/regress/regress0/sep/sep-02.smt2
deleted file mode 100644
index 6f190d964..000000000
--- a/test/regress/regress0/sep/sep-02.smt2
+++ /dev/null
@@ -1,16 +0,0 @@
-(set-logic QF_ALL_SUPPORTED)
-(set-info :status unsat)
-
-(declare-const x Int)
-(declare-const y Int)
-(declare-const z Int)
-
-(declare-const a Int)
-(declare-const b Int)
-(declare-const c Int)
-
-(assert (sep (pto x a) (pto y b) (pto z c)))
-
-(assert (or (= x y) (= y z) (= x z)))
-
-(check-sat)
diff --git a/test/regress/regress0/sep/sep-03.smt2 b/test/regress/regress0/sep/sep-03.smt2
deleted file mode 100644
index 8dce5acc7..000000000
--- a/test/regress/regress0/sep/sep-03.smt2
+++ /dev/null
@@ -1,17 +0,0 @@
-(set-logic QF_ALL_SUPPORTED)
-(set-info :status unsat)
-
-(declare-const x Int)
-(declare-const y Int)
-
-(declare-const a Int)
-(declare-const b Int)
-
-(assert (and (sep (pto x a) (or (pto x a) (pto y b)))
-       (sep (pto y b) (or (pto x a) (pto y b)))
-    )
-)
-
-(assert (not (sep (pto x a) (pto y b))))
-
-(check-sat)
diff --git a/test/regress/regress0/sep/sep-find2.smt2 b/test/regress/regress0/sep/sep-find2.smt2
deleted file mode 100644
index 356f866c1..000000000
--- a/test/regress/regress0/sep/sep-find2.smt2
+++ /dev/null
@@ -1,22 +0,0 @@
-(set-logic QF_ALL_SUPPORTED)
-(set-info :status unsat)
-
-(declare-const x1 Int)
-(declare-const x2 Int)
-(declare-const x3 Int)
-(declare-const x4 Int)
-(declare-const x5 Int)
-(declare-const x6 Int)
-(declare-const x7 Int)
-
-(declare-const a1 Int)
-(declare-const a2 Int)
-
-(assert (and 
-(sep (pto x1 a1) (pto x2 a2) (pto x4 a2) (pto x5 a2) (pto x6 a2) (pto x7 a2))
-(sep (pto x1 a1) (pto x3 a2))
-))
-
-(assert (distinct x3 x2 x4 x5 x6 x7))
-
-(check-sat)
diff --git a/test/regress/regress0/sep/sep-fmf-priority.smt2 b/test/regress/regress0/sep/sep-fmf-priority.smt2
deleted file mode 100644
index fe3af1b35..000000000
--- a/test/regress/regress0/sep/sep-fmf-priority.smt2
+++ /dev/null
@@ -1,12 +0,0 @@
-; COMMAND-LINE: --finite-model-find --quant-epr --no-check-models
-; EXPECT: sat
-(set-logic ALL_SUPPORTED)
-
-(declare-sort Loc 0)
-(declare-const l Loc)
-(declare-const x Loc)
-
-(assert (wand (pto x x) false))
-(assert (forall ((x Loc) (y Loc)) (not (pto x y))))
-
-(check-sat)
diff --git a/test/regress/regress0/sep/sep-neg-1refine.smt2 b/test/regress/regress0/sep/sep-neg-1refine.smt2
deleted file mode 100644
index ab12c6461..000000000
--- a/test/regress/regress0/sep/sep-neg-1refine.smt2
+++ /dev/null
@@ -1,17 +0,0 @@
-; COMMAND-LINE: --no-check-models
-; EXPECT: sat
-(set-logic QF_ALL_SUPPORTED)
-(set-info :status sat)
-
-(declare-const x Int)
-(declare-const y Int)
-(declare-const z Int)
-
-(declare-const a Int)
-(declare-const b Int)
-
-(assert (not (sep (pto x a) (pto y b))))
-(assert (sep (pto x a) (pto z b)))
-
-; sat with model where y != z
-(check-sat)
diff --git a/test/regress/regress0/sep/sep-neg-nstrict.smt2 b/test/regress/regress0/sep/sep-neg-nstrict.smt2
deleted file mode 100644
index 425e5ce3c..000000000
--- a/test/regress/regress0/sep/sep-neg-nstrict.smt2
+++ /dev/null
@@ -1,15 +0,0 @@
-(set-logic QF_ALL_SUPPORTED)
-(set-info :status unsat)
-
-(declare-const x Int)
-(declare-const y Int)
-(declare-const z Int)
-
-(declare-const a Int)
-(declare-const b Int)
-
-(assert (not (sep true (pto x a))))
-(assert (sep (pto x a) (pto z b)))
-
-
-(check-sat)
diff --git a/test/regress/regress0/sep/sep-neg-nstrict2.smt2 b/test/regress/regress0/sep/sep-neg-nstrict2.smt2
deleted file mode 100644
index 7ada6ff06..000000000
--- a/test/regress/regress0/sep/sep-neg-nstrict2.smt2
+++ /dev/null
@@ -1,18 +0,0 @@
-; COMMAND-LINE: --no-check-models
-; EXPECT: sat
-(set-logic QF_ALL_SUPPORTED)
-(set-info :status sat)
-
-(declare-const x Int)
-(declare-const y Int)
-(declare-const z Int)
-
-(declare-const a Int)
-(declare-const b Int)
-
-(assert (not (= a b)))
-(assert (not (sep true (pto x b))))
-(assert (sep (pto x a) (pto z b)))
-
-
-(check-sat)
diff --git a/test/regress/regress0/sep/sep-neg-simple.smt2 b/test/regress/regress0/sep/sep-neg-simple.smt2
deleted file mode 100644
index 7b6fc69e9..000000000
--- a/test/regress/regress0/sep/sep-neg-simple.smt2
+++ /dev/null
@@ -1,16 +0,0 @@
-; COMMAND-LINE: --no-check-models
-; EXPECT: sat
-(set-logic QF_ALL_SUPPORTED)
-(set-info :status sat)
-
-(declare-const x Int)
-(declare-const y Int)
-(declare-const z Int)
-
-(declare-const a Int)
-(declare-const b Int)
-
-(assert (not (pto x a)))
-(assert (sep (pto x a) (pto z b)))
-
-(check-sat)
diff --git a/test/regress/regress0/sep/sep-neg-swap.smt2 b/test/regress/regress0/sep/sep-neg-swap.smt2
deleted file mode 100644
index 53f890b0d..000000000
--- a/test/regress/regress0/sep/sep-neg-swap.smt2
+++ /dev/null
@@ -1,17 +0,0 @@
-; COMMAND-LINE: --no-check-models
-; EXPECT: sat
-(set-logic QF_ALL_SUPPORTED)
-(set-info :status sat)
-
-(declare-const x Int)
-(declare-const y Int)
-(declare-const z Int)
-
-(declare-const a Int)
-(declare-const b Int)
-
-(assert (not (sep (pto y a) (pto x b))))
-(assert (sep (pto x a) (pto y b)))
-
-
-(check-sat)
diff --git a/test/regress/regress0/sep/sep-nterm-again.smt2 b/test/regress/regress0/sep/sep-nterm-again.smt2
deleted file mode 100644
index 3e595b5e9..000000000
--- a/test/regress/regress0/sep/sep-nterm-again.smt2
+++ /dev/null
@@ -1,20 +0,0 @@
-; COMMAND-LINE: --no-check-models
-; EXPECT: sat
-(set-logic QF_ALL_SUPPORTED)
-(set-info :status sat)
-
-(declare-const x Int)
-(declare-const y Int)
-(declare-const z Int)
-
-(declare-const a Int)
-(declare-const b Int)
-(declare-const c Int)
-
-(assert (and
-        (not (sep (not (sep (not (pto x a)) (not (pto y b)))) (pto x a) ))
-        (sep (pto x a) (pto y b))
-        )
-)
-
-(check-sat)
diff --git a/test/regress/regress0/sep/sep-nterm-val-model.smt2 b/test/regress/regress0/sep/sep-nterm-val-model.smt2
deleted file mode 100644
index d4fb0fd52..000000000
--- a/test/regress/regress0/sep/sep-nterm-val-model.smt2
+++ /dev/null
@@ -1,17 +0,0 @@
-(set-logic QF_ALL_SUPPORTED)
-(set-info :status unsat)
-
-(declare-const x Int)
-(declare-const y Int)
-(declare-const z Int)
-
-(declare-const a Int)
-(declare-const b Int)
-
-(assert (and 
-  (not (sep (not (pto x a)) (not (pto y b)) ))
-  (sep (pto x (+ a 1)) (pto y (+ b 1)))
-  )
-)
-
-(check-sat)
diff --git a/test/regress/regress0/sep/simple-neg-sat.smt2 b/test/regress/regress0/sep/simple-neg-sat.smt2
deleted file mode 100644
index 70927ad82..000000000
--- a/test/regress/regress0/sep/simple-neg-sat.smt2
+++ /dev/null
@@ -1,20 +0,0 @@
-; COMMAND-LINE: --no-check-models
-; EXPECT: sat
-(set-logic QF_ALL_SUPPORTED)
-(set-info :status sat)
-
-(declare-const x Int)
-(declare-const y Int)
-(declare-const z Int)
-
-(declare-const a Int)
-(declare-const b Int)
-(declare-const c Int)
-
-(assert (and
-        (not (sep (not (pto x a)) (pto y b) ))  
-        (sep (pto x a) (pto y b))
-  )
-)
-
-(check-sat)
diff --git a/test/regress/regress0/sep/wand-0526-sat.smt2 b/test/regress/regress0/sep/wand-0526-sat.smt2
deleted file mode 100644
index 12aa0a67e..000000000
--- a/test/regress/regress0/sep/wand-0526-sat.smt2
+++ /dev/null
@@ -1,10 +0,0 @@
-; COMMAND-LINE: --no-check-models
-; EXPECT: sat
-(set-logic QF_ALL_SUPPORTED)
-(declare-fun x () Int)
-(declare-fun y () Int)
-(declare-fun u () Int)
-(declare-fun v () Int)
-(assert (wand (pto x u) (pto y v)))
-(assert (emp 0 0))
-(check-sat)
diff --git a/test/regress/regress0/sep/wand-false.smt2 b/test/regress/regress0/sep/wand-false.smt2
deleted file mode 100644
index 65500f775..000000000
--- a/test/regress/regress0/sep/wand-false.smt2
+++ /dev/null
@@ -1,7 +0,0 @@
-; COMMAND-LINE: --no-check-models
-; EXPECT: sat
-(set-logic QF_ALL_SUPPORTED)
-(set-info :status sat)
-(declare-fun x () Int)
-(assert (wand (pto x x) false))
-(check-sat)
diff --git a/test/regress/regress0/sep/wand-nterm-simp.smt2 b/test/regress/regress0/sep/wand-nterm-simp.smt2
deleted file mode 100644
index b59b53b58..000000000
--- a/test/regress/regress0/sep/wand-nterm-simp.smt2
+++ /dev/null
@@ -1,7 +0,0 @@
-; COMMAND-LINE: --no-check-models
-; EXPECT: sat
-(set-logic QF_ALL_SUPPORTED)
-(declare-fun x () Int)
-(assert (wand (emp x x) (pto x 3)))
-(check-sat)
-
diff --git a/test/regress/regress0/sep/wand-nterm-simp2.smt2 b/test/regress/regress0/sep/wand-nterm-simp2.smt2
deleted file mode 100644
index fa6a83143..000000000
--- a/test/regress/regress0/sep/wand-nterm-simp2.smt2
+++ /dev/null
@@ -1,7 +0,0 @@
-; COMMAND-LINE: --no-check-models
-; EXPECT: sat
-(set-logic QF_ALL_SUPPORTED)
-(set-info :status sat)
-(declare-fun x () Int)
-(assert (wand (pto x 1) (emp x x)))
-(check-sat)
diff --git a/test/regress/regress0/sep/wand-simp-sat.smt2 b/test/regress/regress0/sep/wand-simp-sat.smt2
deleted file mode 100644
index 120683f74..000000000
--- a/test/regress/regress0/sep/wand-simp-sat.smt2
+++ /dev/null
@@ -1,6 +0,0 @@
-; COMMAND-LINE: --no-check-models
-; EXPECT: sat
-(set-logic QF_ALL_SUPPORTED)
-(declare-fun x () Int)
-(assert (wand (pto x 1) (pto x 1)))
-(check-sat)
diff --git a/test/regress/regress0/sep/wand-simp-sat2.smt2 b/test/regress/regress0/sep/wand-simp-sat2.smt2
deleted file mode 100644
index c684d16ad..000000000
--- a/test/regress/regress0/sep/wand-simp-sat2.smt2
+++ /dev/null
@@ -1,7 +0,0 @@
-; COMMAND-LINE: --no-check-models
-; EXPECT: sat
-(set-logic QF_ALL_SUPPORTED)
-(set-info :status sat)
-(declare-fun x () Int)
-(assert (wand (pto x 1) (pto x 3)))
-(check-sat)
diff --git a/test/regress/regress0/sep/wand-simp-unsat.smt2 b/test/regress/regress0/sep/wand-simp-unsat.smt2
deleted file mode 100644
index 850be7b97..000000000
--- a/test/regress/regress0/sep/wand-simp-unsat.smt2
+++ /dev/null
@@ -1,7 +0,0 @@
-; COMMAND-LINE: --no-check-models
-; EXPECT: unsat
-(set-logic QF_ALL_SUPPORTED)
-(declare-fun x () Int)
-(assert (wand (pto x 1) (pto x 3)))
-(assert (emp x x))
-(check-sat)
diff --git a/test/regress/regress0/sets/Makefile.am b/test/regress/regress0/sets/Makefile.am
index de2170768..afcae32fe 100644
--- a/test/regress/regress0/sets/Makefile.am
+++ b/test/regress/regress0/sets/Makefile.am
@@ -19,36 +19,22 @@ MAKEFLAGS = -k
 # If a test shouldn't be run in e.g. competition mode,
 # put it below in "TESTS +="
 TESTS =	\
-	jan24/insert_invariant_37_2.smt2 \
 	jan24/deepmeas0.hs.fqout.cvc4.47.smt2 \
 	jan24/deepmeas0.hs.fqout.small.smt2 \
-	jan24/remove_check_free_31_6.smt2 \
-	jan27/deepmeas0.hs.fqout.cvc4.41.smt2 \
 	jan27/ListConcat.hs.fqout.cvc4.177.smt2 \
 	jan27/ListConcat.hs.fqout.177minimized.smt2 \
-	jan27/ListElem.hs.fqout.cvc4.38.smt2 \
 	jan28/TalkingAboutSets.hs.fqout.3577minimized.smt2 \
 	jan30/UniqueZipper.hs.fqout.minimized10.smt2 \
-	jan30/UniqueZipper.hs.fqout.cvc4.10.smt2 \
 	jan30/UniqueZipper.hs.fqout.minimized1832.smt2 \
-	jan30/UniqueZipper.hs.fqout.cvc4.1832.smt2 \
-	feb3/ListElts.hs.fqout.cvc4.317.smt2 \
-	mar2014/lemmabug-ListElts317minimized.smt2 \
 	mar2014/sharing-preregister.smt2 \
 	mar2014/small.smt2 \
 	mar2014/smaller.smt2 \
-	mar2014/UniqueZipper.hs.1030minimized2.cvc4.smt2 \
-	mar2014/UniqueZipper.hs.1030minimized.cvc4.smt2 \
-	copy_check_heap_access_33_4.smt2 \
 	cvc-sample.cvc \
 	emptyset.smt2 \
 	error1.smt2 \
 	error2.smt2 \
 	eqtest.smt2 \
 	insert.smt2 \
-	fuzz14418.smt2 \
-	fuzz15201.smt2 \
-	fuzz31811.smt2 \
 	rec_copy_loop_check_heap_access_43_4.smt2 \
 	sets-equal.smt2 \
 	sets-inter.smt2 \
@@ -56,7 +42,6 @@ TESTS =	\
 	sets-sharing.smt2 \
 	sets-testlemma.smt2 \
 	sets-union.smt2 \
-	sharingbug.smt2 \
 	union-1a-flip.smt2 \
 	union-1a.smt2 \
 	union-1b-flip.smt2 \
@@ -67,11 +52,6 @@ TESTS =	\
 	card-3sets.cvc \
 	card.smt2 \
 	card-2.smt2 \
-	card-3.smt2 \
-	card-4.smt2 \
-	card-5.smt2 \
-	card-6.smt2 \
-	card-7.smt2 \
 	abt-min.smt2 \
 	abt-te-exh.smt2 \
 	abt-te-exh2.smt2 \
@@ -85,24 +65,10 @@ TESTS =	\
 	sets-poly-int-real.smt2 \
 	sets-poly-nonint.smt2 \
 	int-real-univ.smt2 \
-	int-real-univ-unsat.smt2 \
-	sets-tuple-poly.cvc \
-	arjun-set-univ.cvc \
-	univ-set-uf-elim.smt2
+	int-real-univ-unsat.smt2
 
 EXTRA_DIST = $(TESTS)
 
-#if CVC4_BUILD_PROFILE_COMPETITION
-#else
-#TESTS += \
-#	error.cvc
-#endif
-
-# disabled tests, yet distribute
-EXTRA_DIST += \
-	jan28/TalkingAboutSets.hs.fqout.cvc4.3577.smt2 \
-	setofsets-disequal.smt2
-
 # synonyms for "check"
 .PHONY: regress regress0 test
 regress regress0 test: check
diff --git a/test/regress/regress0/sets/arjun-set-univ.cvc b/test/regress/regress0/sets/arjun-set-univ.cvc
deleted file mode 100644
index 3c35a62a5..000000000
--- a/test/regress/regress0/sets/arjun-set-univ.cvc
+++ /dev/null
@@ -1,8 +0,0 @@
-% EXPECT: Extended set operators are not supported in default mode, try --sets-ext.
-% EXIT: 1
-OPTION "produce-models" true;
-x,y,z : SET OF BOOLEAN;
-ASSERT x = {TRUE};
-ASSERT y = {FALSE};
-CHECKSAT z = ~ y;
-COUNTERMODEL;
diff --git a/test/regress/regress0/sets/card-3.smt2 b/test/regress/regress0/sets/card-3.smt2
deleted file mode 100644
index 0e96b0231..000000000
--- a/test/regress/regress0/sets/card-3.smt2
+++ /dev/null
@@ -1,12 +0,0 @@
-(set-logic QF_UFLIAFS)
-(set-info :status unsat)
-(declare-sort E 0)
-(declare-fun s () (Set E))
-(declare-fun t () (Set E))
-(declare-fun u () (Set E))
-(assert (>= (card (union s t)) 8))
-(assert (>= (card (union s u)) 8))
-(assert (<= (card (union t u)) 5))
-(assert (<= (card s) 5))
-(assert (= (as emptyset (Set E)) (intersection t u)))
-(check-sat)
diff --git a/test/regress/regress0/sets/card-4.smt2 b/test/regress/regress0/sets/card-4.smt2
deleted file mode 100644
index 456e24ca7..000000000
--- a/test/regress/regress0/sets/card-4.smt2
+++ /dev/null
@@ -1,24 +0,0 @@
-(set-logic QF_UFLIAFS)
-(set-info :status sat)
-(declare-sort E 0)
-(declare-fun s () (Set E))
-(declare-fun t () (Set E))
-(declare-fun u () (Set E))
-(assert (>= (card (union s t)) 8))
-(assert (>= (card (union s u)) 8))
-;(assert (<= (card (union t u)) 5))
-(assert (<= (card s) 5))
-(assert (= (as emptyset (Set E)) (intersection t u)))
-(declare-fun x1 () E)
-(declare-fun x2 () E)
-(declare-fun x3 () E)
-(declare-fun x4 () E)
-(declare-fun x5 () E)
-(declare-fun x6 () E)
-(assert (member x1 s))
-(assert (member x2 s))
-(assert (member x3 s))
-(assert (member x4 s))
-(assert (member x5 s))
-(assert (member x6 s))
-(check-sat)
diff --git a/test/regress/regress0/sets/card-5.smt2 b/test/regress/regress0/sets/card-5.smt2
deleted file mode 100644
index 4135a0c16..000000000
--- a/test/regress/regress0/sets/card-5.smt2
+++ /dev/null
@@ -1,25 +0,0 @@
-(set-logic QF_UFLIAFS)
-(set-info :status unsat)
-(declare-sort E 0)
-(declare-fun s () (Set E))
-(declare-fun t () (Set E))
-(declare-fun u () (Set E))
-(assert (>= (card (union s t)) 8))
-(assert (>= (card (union s u)) 8))
-;(assert (<= (card (union t u)) 5))
-(assert (<= (card s) 5))
-(assert (= (as emptyset (Set E)) (intersection t u)))
-(declare-fun x1 () E)
-(declare-fun x2 () E)
-(declare-fun x3 () E)
-(declare-fun x4 () E)
-(declare-fun x5 () E)
-(declare-fun x6 () E)
-(assert (member x1 s))
-(assert (member x2 s))
-(assert (member x3 s))
-(assert (member x4 s))
-(assert (member x5 s))
-(assert (member x6 s))
-(assert (distinct x1 x2 x3 x4 x5 x6))
-(check-sat)
diff --git a/test/regress/regress0/sets/card-6.smt2 b/test/regress/regress0/sets/card-6.smt2
deleted file mode 100644
index 87d87c03b..000000000
--- a/test/regress/regress0/sets/card-6.smt2
+++ /dev/null
@@ -1,17 +0,0 @@
-(set-logic QF_UFLIAFS)
-(set-info :status unsat)
-(declare-sort E 0)
-(declare-fun A () (Set E))
-(declare-fun B () (Set E))
-(declare-fun C () (Set E))
-(assert
-  (and
-    (= (as emptyset (Set E))
-       (intersection A B))
-    (subset C (union A B))
-    (>= (card C) 5)
-    (<= (card A) 2)
-    (<= (card B) 2)
-  )
-)
-(check-sat)
diff --git a/test/regress/regress0/sets/card-7.smt2 b/test/regress/regress0/sets/card-7.smt2
deleted file mode 100644
index df1867c63..000000000
--- a/test/regress/regress0/sets/card-7.smt2
+++ /dev/null
@@ -1,47 +0,0 @@
-(set-logic QF_UFLIAFS)
-(set-info :status sat)
-(declare-sort E 0)
-(declare-fun A1 () (Set E))
-(declare-fun A2 () (Set E))
-(declare-fun A3 () (Set E))
-(declare-fun A4 () (Set E))
-(declare-fun A5 () (Set E))
-(declare-fun A6 () (Set E))
-(declare-fun A7 () (Set E))
-(declare-fun A8 () (Set E))
-(declare-fun A9 () (Set E))
-(declare-fun A10 () (Set E))
-(declare-fun A11 () (Set E))
-(declare-fun A12 () (Set E))
-(declare-fun A13 () (Set E))
-(declare-fun A14 () (Set E))
-(declare-fun A15 () (Set E))
-(declare-fun A16 () (Set E))
-(declare-fun A17 () (Set E))
-(declare-fun A18 () (Set E))
-(declare-fun A19 () (Set E))
-(declare-fun A20 () (Set E))
-(assert (and
-  (= (card A1) 1)
-  (= (card A2) 1)
-  (= (card A3) 1)
-  (= (card A4) 1)
-  (= (card A5) 1)
-  (= (card A6) 1)
-  (= (card A7) 1)
-  (= (card A8) 1)
-  (= (card A9) 1)
-  (= (card A10) 1)
-  (= (card A11) 1)
-  (= (card A12) 1)
-  (= (card A13) 1)
-  (= (card A14) 1)
-  (= (card A15) 1)
-  (= (card A16) 1)
-  (= (card A17) 1)
-  (= (card A18) 1)
-  (= (card A19) 1)
-  (= (card A20) 1)
-))
-(assert (= 20 (+ (card A1) (card A2) (card A3) (card A4) (card A5) (card A6) (card A7) (card A8) (card A9) (card A10) (card A11) (card A12) (card A13) (card A14) (card A15) (card A16) (card A17) (card A18) (card A19) (card A20))))
-(check-sat)
diff --git a/test/regress/regress0/sets/copy_check_heap_access_33_4.smt2 b/test/regress/regress0/sets/copy_check_heap_access_33_4.smt2
deleted file mode 100644
index 9af45c2dd..000000000
--- a/test/regress/regress0/sets/copy_check_heap_access_33_4.smt2
+++ /dev/null
@@ -1,135 +0,0 @@
-; COMMAND-LINE: --full-saturate-quant
-; EXPECT: unsat
-(set-option :print-success false)
-(set-logic AUFLIAFS)
-(set-info :status unsat)
-(declare-sort Loc 0)
-(define-sort SetLoc () (Set Loc))
-(define-sort SetInt () (Set Int))
-(declare-sort FldLoc 0)
-(declare-sort FldInt 0)
-(declare-fun null$0 () Loc)
-(declare-fun read$0 (FldInt Loc) Int)
-(declare-fun read$1 (FldLoc Loc) Loc)
-(declare-fun Btwn$0 (FldLoc Loc Loc Loc) Bool)
-(declare-fun Alloc$0 () SetLoc)
-(declare-fun Alloc_1$0 () SetLoc)
-(declare-fun Axiom_1$0 () Bool)
-(declare-fun FP$0 () SetLoc)
-(declare-fun FP_1$0 () SetLoc)
-(declare-fun FP_Caller$0 () SetLoc)
-(declare-fun FP_Caller_1$0 () SetLoc)
-(declare-fun cp_2$0 () Loc)
-(declare-fun curr_2$0 () Loc)
-(declare-fun data$0 () FldInt)
-(declare-fun lst$0 () Loc)
-(declare-fun next$0 () FldLoc)
-(declare-fun res_1$0 () Loc)
-(declare-fun sk_?X_4$0 () SetLoc)
-(declare-fun slseg_domain$0 (FldInt FldLoc Loc Loc) SetLoc)
-(declare-fun slseg_struct$0 (SetLoc FldInt FldLoc Loc Loc) Bool)
-(declare-fun tmp_2$0 () Loc)
-
-(assert (! (forall ((?y Loc))
-           (or (not (Btwn$0 next$0 null$0 ?y ?y)) (= null$0 ?y)
-               (Btwn$0 next$0 null$0 (read$1 next$0 null$0) ?y)))
-   :named btwn_reach_1))
-
-(assert (! (forall ((?y Loc))
-           (or (not (= (read$1 next$0 null$0) null$0))
-               (not (Btwn$0 next$0 null$0 ?y ?y)) (= null$0 ?y)))
-   :named btwn_cycl_1))
-
-(assert (! (Btwn$0 next$0 null$0 (read$1 next$0 null$0) (read$1 next$0 null$0))
-   :named btwn_step_1))
-
-(assert (! (forall ((l1 Loc) (l2 Loc))
-           (or (not Axiom_1$0)
-               (or (<= (read$0 data$0 l1) (read$0 data$0 l2))
-                   (not (Btwn$0 next$0 l1 l2 null$0)) (not (member l1 sk_?X_4$0))
-                   (not (member l2 sk_?X_4$0)))))
-   :named sortedness_3))
-
-(assert (! (= (read$1 next$0 null$0) null$0) :named read_null_1))
-
-(assert (! (not (member tmp_2$0 Alloc$0)) :named new_31_11))
-
-(assert (! (not (member null$0 Alloc$0)) :named initial_footprint_of_copy_23_11_2))
-
-(assert (! (not (= lst$0 null$0)) :named if_else_26_6))
-
-(assert (! (= FP_Caller$0 (union FP$0 FP_Caller$0))
-   :named precondition_of_copy_23_11_4))
-
-(assert (! (= sk_?X_4$0 FP$0) :named precondition_of_copy_23_11_5))
-
-(assert (! (= res_1$0 tmp_2$0) :named assign_31_4))
-
-(assert (! (= cp_2$0 res_1$0) :named assign_32_4))
-
-(assert (! (= FP_1$0 (union FP$0 (singleton tmp_2$0))) :named assign_31_11))
-
-(assert (! (or (and (Btwn$0 next$0 lst$0 null$0 null$0) Axiom_1$0)
-       (not (slseg_struct$0 sk_?X_4$0 data$0 next$0 lst$0 null$0)))
-   :named unnamed_3))
-
-(assert (! (forall ((l1 Loc))
-           (or
-               (and (Btwn$0 next$0 lst$0 l1 null$0)
-                    (member l1 (slseg_domain$0 data$0 next$0 lst$0 null$0))
-                    (not (= l1 null$0)))
-               (and (or (= l1 null$0) (not (Btwn$0 next$0 lst$0 l1 null$0)))
-                    (not (member l1 (slseg_domain$0 data$0 next$0 lst$0 null$0))))))
-   :named slseg_footprint_2))
-
-(assert (! (not (member curr_2$0 FP_1$0)) :named check_heap_access_33_4))
-
-(assert (! (not (= tmp_2$0 null$0)) :named new_31_11_1))
-
-(assert (! (slseg_struct$0 sk_?X_4$0 data$0 next$0 lst$0 null$0)
-   :named precondition_of_copy_23_11_6))
-
-(assert (! (= sk_?X_4$0 (slseg_domain$0 data$0 next$0 lst$0 null$0))
-   :named precondition_of_copy_23_11_7))
-
-(assert (! (= Alloc$0 (union FP_Caller$0 Alloc$0))
-   :named initial_footprint_of_copy_23_11_3))
-
-(assert (! (= curr_2$0 lst$0) :named assign_30_4))
-
-(assert (! (= FP_Caller_1$0 (setminus FP_Caller$0 FP$0)) :named assign_26_2_1))
-
-(assert (! (= Alloc_1$0 (union Alloc$0 (singleton tmp_2$0))) :named assign_31_11_1))
-
-(assert (! (forall ((?x Loc)) (Btwn$0 next$0 ?x ?x ?x)) :named btwn_refl_1))
-
-(assert (! (forall ((?x Loc) (?y Loc)) (or (not (Btwn$0 next$0 ?x ?y ?x)) (= ?x ?y)))
-   :named btwn_sndw_1))
-
-(assert (! (forall ((?x Loc) (?y Loc) (?z Loc))
-           (or (not (Btwn$0 next$0 ?x ?y ?y)) (not (Btwn$0 next$0 ?x ?z ?z))
-               (Btwn$0 next$0 ?x ?y ?z) (Btwn$0 next$0 ?x ?z ?y)))
-   :named btwn_ord1_1))
-
-(assert (! (forall ((?x Loc) (?y Loc) (?z Loc))
-           (or (not (Btwn$0 next$0 ?x ?y ?z))
-               (and (Btwn$0 next$0 ?x ?y ?y) (Btwn$0 next$0 ?y ?z ?z))))
-   :named btwn_ord2_1))
-
-(assert (! (forall ((?x Loc) (?y Loc) (?z Loc))
-           (or (not (Btwn$0 next$0 ?x ?y ?y)) (not (Btwn$0 next$0 ?y ?z ?z))
-               (Btwn$0 next$0 ?x ?z ?z)))
-   :named btwn_trn1_1))
-
-(assert (! (forall ((?u Loc) (?x Loc) (?y Loc) (?z Loc))
-           (or (not (Btwn$0 next$0 ?x ?y ?z)) (not (Btwn$0 next$0 ?y ?u ?z))
-               (and (Btwn$0 next$0 ?x ?y ?u) (Btwn$0 next$0 ?x ?u ?z))))
-   :named btwn_trn2_1))
-
-(assert (! (forall ((?u Loc) (?x Loc) (?y Loc) (?z Loc))
-           (or (not (Btwn$0 next$0 ?x ?y ?z)) (not (Btwn$0 next$0 ?x ?u ?y))
-               (and (Btwn$0 next$0 ?x ?u ?z) (Btwn$0 next$0 ?u ?y ?z))))
-   :named btwn_trn3_1))
-
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/sets/feb3/ListElts.hs.fqout.cvc4.317.smt2 b/test/regress/regress0/sets/feb3/ListElts.hs.fqout.cvc4.317.smt2
deleted file mode 100644
index 7b5294aec..000000000
--- a/test/regress/regress0/sets/feb3/ListElts.hs.fqout.cvc4.317.smt2
+++ /dev/null
@@ -1,98 +0,0 @@
-; EXPECT: sat
-(set-logic QF_ALL_SUPPORTED)
-(set-info :status sat)
-(define-sort Elt () Int)
-(define-sort mySet () (Set Elt ))
-(define-fun smt_set_emp () mySet (as emptyset mySet))
-(define-fun smt_set_mem ((x Elt) (s mySet)) Bool (member x s))
-(define-fun smt_set_add ((s mySet) (x Elt)) mySet (union s (singleton x)))
-(define-fun smt_set_cup ((s1 mySet) (s2 mySet)) mySet (union s1 s2))
-(define-fun smt_set_cap ((s1 mySet) (s2 mySet)) mySet (intersection s1 s2))
-;(define-fun smt_set_com ((s mySet)) mySet ((_ map not) s))
-(define-fun smt_set_dif ((s1 mySet) (s2 mySet)) mySet (setminus s1 s2))
-;(define-fun smt_set_sub ((s1 mySet) (s2 mySet)) Bool (= smt_set_emp (smt_set_dif s1 s2)))
-(define-fun smt_set_sub ((s1 mySet) (s2 mySet)) Bool (subset s1 s2))
-(declare-fun z3v58 () Int)
-(declare-fun z3v59 () Int)
-(assert (distinct z3v58 z3v59))
-(declare-fun z3f60 (Int) Bool)
-(declare-fun z3v61 () Int)
-(declare-fun z3f62 (Int) Int)
-(declare-fun z3v63 () Int)
-(declare-fun z3v64 () Int)
-(declare-fun z3v67 () Int)
-(declare-fun z3f68 (Int) Int)
-(declare-fun z3f69 (Int) mySet)
-(declare-fun z3f70 (Int) mySet)
-(declare-fun z3f71 (Int) Bool)
-(declare-fun z3v73 () Int)
-(declare-fun z3v76 () Int)
-(declare-fun z3v79 () Int)
-(declare-fun z3v82 () Int)
-(declare-fun z3v84 () Int)
-(declare-fun z3v85 () Int)
-(declare-fun z3v86 () Int)
-(declare-fun z3v89 () Int)
-(declare-fun z3v90 () Int)
-(declare-fun z3v91 () Int)
-(declare-fun z3f92 (Int Int) Int)
-(declare-fun z3v93 () Int)
-(declare-fun z3v94 () Int)
-(declare-fun z3f96 () Int)
-(declare-fun z3v97 () Int)
-(declare-fun z3v98 () Int)
-(declare-fun z3v99 () Int)
-(declare-fun z3v100 () Int)
-(declare-fun z3v101 () Int)
-(declare-fun z3v102 () Int)
-(declare-fun z3v104 () Int)
-(declare-fun z3v107 () Int)
-(declare-fun z3v110 () Int)
-(declare-fun z3v113 () Int)
-(declare-fun z3v116 () Int)
-(declare-fun z3v117 () Int)
-(declare-fun z3v118 () Int)
-(declare-fun z3v119 () Int)
-(declare-fun z3v120 () Int)
-(declare-fun z3v121 () Int)
-(declare-fun z3v122 () Int)
-(declare-fun z3v123 () Int)
-(declare-fun z3v124 () Int)
-(declare-fun z3v125 () Int)
-(declare-fun z3v127 () Int)
-(declare-fun z3v130 () Int)
-(declare-fun z3v133 () Int)
-(declare-fun z3v134 () Int)
-(declare-fun z3v135 () Int)
-(declare-fun z3v136 () Int)
-(declare-fun z3v137 () Int)
-(declare-fun z3v140 () Int)
-(declare-fun z3v141 () Int)
-(declare-fun z3v142 () Int)
-(declare-fun z3v143 () Int)
-(declare-fun z3v144 () Int)
-(declare-fun z3v145 () Int)
-(declare-fun z3v147 () Int)
-(declare-fun z3v150 () Int)
-(declare-fun z3v151 () Int)
-(declare-fun z3v152 () Int)
-(assert (= (z3f69 z3v152) (smt_set_cup (smt_set_add smt_set_emp z3v143) (z3f69 z3v151))))
-(assert (= (z3f70 z3v152) (smt_set_cup (smt_set_add smt_set_emp z3v143) (z3f70 z3v151))))
-(assert (= (z3f68 z3v152) (+ 1 (z3f68 z3v151))))
-(assert (= (z3f71 z3v152) false))
-(assert (and (>= (z3f68 z3v140) 0) (>= (z3f68 z3v141) 0) (>= (z3f68 z3v151) 0) (>= (z3f68 z3v142) 0) (= (z3f69 z3v142) (smt_set_cup (smt_set_add smt_set_emp z3v143) (z3f69 z3v141))) (= (z3f70 z3v142) (smt_set_cup (smt_set_add smt_set_emp z3v143) (z3f70 z3v141))) (= (z3f68 z3v142) (+ 1 (z3f68 z3v141))) (= (z3f71 z3v142) false) (= z3v142 (z3f92 z3v143 z3v141)) (>= (z3f68 z3v142) 0) (= z3v142 z3v144) (>= (z3f68 z3v142) 0) (>= (z3f68 z3v144) 0) (z3f60 z3v58) (= (z3f62 z3v61) z3v61) (= (z3f62 z3v63) z3v63) (not (z3f60 z3v59)) (= (z3f62 z3v64) z3v64)))
-(assert (= (z3f69 z3v151) (smt_set_cup (z3f69 z3v140) (z3f69 z3v141))))
-(assert (= (z3f69 z3v151) (smt_set_cup (z3f69 z3v140) (z3f69 z3v140))))
-(assert (= (z3f69 z3v151) (smt_set_cup (z3f69 z3v141) (z3f69 z3v140))))
-(assert (smt_set_sub (z3f69 z3v151) (z3f69 z3v140)))
-(assert (= (z3f69 z3v151) (z3f69 z3v140)))
-(assert (<= z3v151 z3v140))
-(assert (>= z3v151 z3v140))
-(assert (<= (z3f68 z3v151) (z3f68 z3v140)))
-(assert (>= (z3f68 z3v151) (z3f68 z3v141)))
-(assert (>= (z3f68 z3v151) (z3f68 z3v140)))
-(assert (= (z3f68 z3v151) (z3f68 z3v140)))
-(assert (= z3v151 z3v140))
-(assert (>= (z3f68 z3v151) 0))
-(assert (not (= (z3f69 z3v152) (smt_set_cup (z3f69 z3v140) (z3f69 z3v140)))))
-(check-sat)
diff --git a/test/regress/regress0/sets/fuzz14418.smt2 b/test/regress/regress0/sets/fuzz14418.smt2
deleted file mode 100644
index 24679749c..000000000
--- a/test/regress/regress0/sets/fuzz14418.smt2
+++ /dev/null
@@ -1,171 +0,0 @@
-; symptom: assertion failure in EqEngine : hasTerm(t)
-; 
-; issue: had some nodes in d_pending, even though sat context had been popped,
-; and those were no longer relevant.
-;
-; fix: make pending queues sat context depending. d_pendingEverInserted which
-; is still user-context dependent takes care of not generating a lemma twice.
-;
-; sat
-(set-info :source |fuzzsmt|)
-(set-info :smt-lib-version 2.0)
-(set-info :category "random")
-(set-info :status sat)
-(set-logic QF_UFLIAFS)
-(define-sort Element () Int)
-(declare-fun f0 ( Int) Int)
-(declare-fun f1 ( (Set Element) (Set Element) (Set Element)) (Set Element))
-(declare-fun p0 ( Int Int) Bool)
-(declare-fun p1 ( (Set Element)) Bool)
-(declare-fun v0 () Int)
-(declare-fun v1 () (Set Element))
-(declare-fun v2 () (Set Element))
-(declare-fun v3 () (Set Element))
-(declare-fun v4 () (Set Element))
-(assert (let ((e5 7))
-(let ((e6 (* e5 v0)))
-(let ((e7 (* v0 e5)))
-(let ((e8 (f0 e6)))
-(let ((e9 (* v0 (- e5))))
-(let ((e10 (f0 v0)))
-(let ((e11 (* (- e5) e10)))
-(let ((e12 (ite (p0 e7 e6) 1 0)))
-(let ((e13 (union v3 v4)))
-(let ((e14 (setminus v2 v2)))
-(let ((e15 (f1 v1 v4 v1)))
-(let ((e16 (f1 e14 v1 v4)))
-(let ((e17 (intersection e16 e15)))
-(let ((e18 (f1 v4 e15 v2)))
-(let ((e19 (ite (p1 e13) (singleton 1) (singleton 0))))
-(let ((e20 (member v0 e17)))
-(let ((e21 (member e7 e16)))
-(let ((e22 (member e10 e16)))
-(let ((e23 (member e8 e17)))
-(let ((e24 (member e9 e14)))
-(let ((e25 (member e8 e16)))
-(let ((e26 (member v0 e13)))
-(let ((e27 (member e12 v4)))
-(let ((e28 (member e8 e14)))
-(let ((e29 (member e8 v1)))
-(let ((e30 (member e10 e13)))
-(let ((e31 (member e7 e13)))
-(let ((e32 (f1 e13 e13 e13)))
-(let ((e33 (f1 e18 v4 e17)))
-(let ((e34 (f1 v2 v2 e15)))
-(let ((e35 (f1 e33 e18 e15)))
-(let ((e36 (f1 e19 e14 e17)))
-(let ((e37 (f1 e34 e18 e34)))
-(let ((e38 (f1 v3 e34 e18)))
-(let ((e39 (f1 e16 v4 e13)))
-(let ((e40 (f1 v1 e34 e15)))
-(let ((e41 (< e10 e11)))
-(let ((e42 (= e6 e12)))
-(let ((e43 (> e6 e11)))
-(let ((e44 (< e12 e8)))
-(let ((e45 (< e7 e10)))
-(let ((e46 (= e11 e12)))
-(let ((e47 (= e11 e7)))
-(let ((e48 (<= e11 e10)))
-(let ((e49 (p0 e9 e9)))
-(let ((e50 (>= v0 e10)))
-(let ((e51 (ite e22 e14 e33)))
-(let ((e52 (ite e45 e16 e37)))
-(let ((e53 (ite e42 e39 e17)))
-(let ((e54 (ite e21 e39 e33)))
-(let ((e55 (ite e29 e13 e13)))
-(let ((e56 (ite e48 e15 e34)))
-(let ((e57 (ite e50 e38 e53)))
-(let ((e58 (ite e47 e32 v1)))
-(let ((e59 (ite e20 e36 e33)))
-(let ((e60 (ite e28 e35 v2)))
-(let ((e61 (ite e48 e40 e38)))
-(let ((e62 (ite e30 e38 e53)))
-(let ((e63 (ite e22 v4 e19)))
-(let ((e64 (ite e46 e60 e53)))
-(let ((e65 (ite e25 e61 e16)))
-(let ((e66 (ite e23 v3 e38)))
-(let ((e67 (ite e49 v4 e18)))
-(let ((e68 (ite e21 e54 v3)))
-(let ((e69 (ite e25 e15 v4)))
-(let ((e70 (ite e20 e55 e19)))
-(let ((e71 (ite e27 e38 e36)))
-(let ((e72 (ite e28 e14 e33)))
-(let ((e73 (ite e42 e66 e60)))
-(let ((e74 (ite e26 e54 e69)))
-(let ((e75 (ite e28 e68 e71)))
-(let ((e76 (ite e24 e33 e52)))
-(let ((e77 (ite e44 e40 e74)))
-(let ((e78 (ite e48 e32 e51)))
-(let ((e79 (ite e22 e34 e62)))
-(let ((e80 (ite e22 e78 e73)))
-(let ((e81 (ite e22 e13 e55)))
-(let ((e82 (ite e43 e37 e70)))
-(let ((e83 (ite e48 e59 e80)))
-(let ((e84 (ite e29 e15 e77)))
-(let ((e85 (ite e41 e19 e35)))
-(let ((e86 (ite e22 e63 e69)))
-(let ((e87 (ite e26 e19 e70)))
-(let ((e88 (ite e46 e37 e53)))
-(let ((e89 (ite e25 e70 e76)))
-(let ((e90 (ite e31 v4 e73)))
-(let ((e91 (ite e46 e12 e8)))
-(let ((e92 (ite e43 e11 e6)))
-(let ((e93 (ite e50 e10 e7)))
-(let ((e94 (ite e21 e8 e7)))
-(let ((e95 (ite e27 v0 e6)))
-(let ((e96 (ite e24 e9 e92)))
-(let ((e97 (ite e22 e6 e92)))
-(let ((e98 (ite e49 e96 e12)))
-(let ((e99 (ite e27 e98 e6)))
-(let ((e100 (ite e31 e11 e8)))
-(let ((e101 (ite e26 e12 v0)))
-(let ((e102 (ite e22 e92 e96)))
-(let ((e103 (ite e28 e92 e6)))
-(let ((e104 (ite e27 e12 v0)))
-(let ((e105 (ite e23 e101 e9)))
-(let ((e106 (ite e47 e11 e104)))
-(let ((e107 (ite e45 e105 e100)))
-(let ((e108 (ite e48 e12 e9)))
-(let ((e109 (ite e42 e96 e91)))
-(let ((e110 (ite e29 e11 e101)))
-(let ((e111 (ite e50 e107 e110)))
-(let ((e112 (ite e29 e104 e92)))
-(let ((e113 (ite e20 e108 e12)))
-(let ((e114 (ite e44 e96 e104)))
-(let ((e115 (ite e41 e105 e110)))
-(let ((e116 (ite e41 e6 e103)))
-(let ((e117 (ite e28 e92 e114)))
-(let ((e118 (ite e30 e111 e113)))
-(let ((e119 (ite e30 e109 e8)))
-(let ((e120 (ite e25 e12 e118)))
-(let ((e121 (xor e46 e42)))
-(let ((e122 (xor e28 e29)))
-(let ((e123 (= e122 e49)))
-(let ((e124 (and e43 e45)))
-(let ((e125 (or e121 e23)))
-(let ((e126 (and e125 e24)))
-(let ((e127 (= e41 e126)))
-(let ((e128 (xor e124 e44)))
-(let ((e129 (not e26)))
-(let ((e130 (= e22 e123)))
-(let ((e131 (not e20)))
-(let ((e132 (and e127 e27)))
-(let ((e133 (=> e50 e131)))
-(let ((e134 (=> e132 e30)))
-(let ((e135 (xor e128 e48)))
-(let ((e136 (ite e129 e47 e129)))
-(let ((e137 (and e133 e130)))
-(let ((e138 (or e136 e134)))
-(let ((e139 (and e31 e31)))
-(let ((e140 (not e137)))
-(let ((e141 (= e140 e139)))
-(let ((e142 (= e25 e21)))
-(let ((e143 (not e142)))
-(let ((e144 (and e143 e135)))
-(let ((e145 (and e144 e138)))
-(let ((e146 (and e145 e145)))
-(let ((e147 (= e141 e146)))
-e147
-))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))
-
-(check-sat)
diff --git a/test/regress/regress0/sets/fuzz15201.smt2 b/test/regress/regress0/sets/fuzz15201.smt2
deleted file mode 100644
index e12b74d18..000000000
--- a/test/regress/regress0/sets/fuzz15201.smt2
+++ /dev/null
@@ -1,269 +0,0 @@
-; symptom: unsat instead of sat
-; issue/fix: buggy rewriter for setminus
-(set-info :source |fuzzsmt|)
-(set-info :smt-lib-version 2.0)
-(set-info :category "random")
-(set-info :status sat)
-(set-logic QF_UFLIAFS)
-(define-sort Element () Int)
-(declare-fun f0 ( Int) Int)
-(declare-fun f1 ( (Set Element)) (Set Element))
-(declare-fun p0 ( Int) Bool)
-(declare-fun p1 ( (Set Element) (Set Element) (Set Element)) Bool)
-(declare-fun v0 () Int)
-(declare-fun v1 () (Set Element))
-(declare-fun v2 () (Set Element))
-(assert (let ((e3 0))
-(let ((e4 (+ v0 v0)))
-(let ((e5 (+ v0 e4)))
-(let ((e6 (* (- e3) e4)))
-(let ((e7 (- e4 e6)))
-(let ((e8 (+ e7 e5)))
-(let ((e9 (- v0)))
-(let ((e10 (* e6 e3)))
-(let ((e11 (- e8 e5)))
-(let ((e12 (- e5)))
-(let ((e13 (* e7 (- e3))))
-(let ((e14 (f0 e7)))
-(let ((e15 (ite (p0 e9) 1 0)))
-(let ((e16 (setminus v2 v1)))
-(let ((e17 (setminus v1 v2)))
-(let ((e18 (union e17 e17)))
-(let ((e19 (intersection e17 v1)))
-(let ((e20 (intersection e17 e18)))
-(let ((e21 (intersection v1 e16)))
-(let ((e22 (setminus e20 e16)))
-(let ((e23 (ite (p1 v2 e18 e21) (singleton 1) (singleton 0))))
-(let ((e24 (setminus e17 e23)))
-(let ((e25 (union v2 e22)))
-(let ((e26 (union e24 e18)))
-(let ((e27 (ite (p1 e20 e19 e25) (singleton 1) (singleton 0))))
-(let ((e28 (f1 e20)))
-(let ((e29 (member e14 e17)))
-(let ((e30 (member e13 e23)))
-(let ((e31 (member e11 e25)))
-(let ((e32 (member e6 v1)))
-(let ((e33 (member e9 v1)))
-(let ((e34 (member v0 e28)))
-(let ((e35 (member e9 e16)))
-(let ((e36 (member e4 e17)))
-(let ((e37 (member e9 e18)))
-(let ((e38 (member e14 e25)))
-(let ((e39 (member e14 v2)))
-(let ((e40 (member v0 v1)))
-(let ((e41 (member e4 e16)))
-(let ((e42 (member e15 e21)))
-(let ((e43 (member e7 e22)))
-(let ((e44 (member e11 v2)))
-(let ((e45 (member e14 e22)))
-(let ((e46 (member e11 e16)))
-(let ((e47 (member e15 e22)))
-(let ((e48 (member e10 e23)))
-(let ((e49 (member e4 e21)))
-(let ((e50 (member e5 e28)))
-(let ((e51 (member e6 e28)))
-(let ((e52 (member v0 e22)))
-(let ((e53 (member e14 e20)))
-(let ((e54 (f1 e21)))
-(let ((e55 (f1 e28)))
-(let ((e56 (f1 e27)))
-(let ((e57 (f1 e17)))
-(let ((e58 (f1 e22)))
-(let ((e59 (f1 e26)))
-(let ((e60 (f1 e19)))
-(let ((e61 (f1 v1)))
-(let ((e62 (f1 e24)))
-(let ((e63 (f1 e20)))
-(let ((e64 (f1 e23)))
-(let ((e65 (f1 v2)))
-(let ((e66 (f1 e25)))
-(let ((e67 (f1 e62)))
-(let ((e68 (f1 e18)))
-(let ((e69 (f1 e18)))
-(let ((e70 (f1 e23)))
-(let ((e71 (f1 e55)))
-(let ((e72 (f1 e26)))
-(let ((e73 (f1 e16)))
-(let ((e74 (= e13 e13)))
-(let ((e75 (p0 e11)))
-(let ((e76 (distinct e15 e4)))
-(let ((e77 (> e14 e10)))
-(let ((e78 (= e4 e15)))
-(let ((e79 (distinct v0 e9)))
-(let ((e80 (= e15 e14)))
-(let ((e81 (>= e10 e11)))
-(let ((e82 (distinct e9 e8)))
-(let ((e83 (p0 v0)))
-(let ((e84 (>= e12 e14)))
-(let ((e85 (distinct e7 e13)))
-(let ((e86 (<= e6 e11)))
-(let ((e87 (= e13 e10)))
-(let ((e88 (>= e7 e8)))
-(let ((e89 (<= v0 e10)))
-(let ((e90 (>= e5 e15)))
-(let ((e91 (ite e33 e66 e26)))
-(let ((e92 (ite e88 e54 v1)))
-(let ((e93 (ite e76 e70 e16)))
-(let ((e94 (ite e85 e19 e24)))
-(let ((e95 (ite e88 e68 e20)))
-(let ((e96 (ite e86 e25 e65)))
-(let ((e97 (ite e83 v2 e23)))
-(let ((e98 (ite e50 e63 e63)))
-(let ((e99 (ite e48 e56 e93)))
-(let ((e100 (ite e38 e60 v2)))
-(let ((e101 (ite e30 e61 e61)))
-(let ((e102 (ite e85 e69 e57)))
-(let ((e103 (ite e83 e18 e102)))
-(let ((e104 (ite e43 e62 e97)))
-(let ((e105 (ite e76 e27 e21)))
-(let ((e106 (ite e89 e92 e55)))
-(let ((e107 (ite e46 e72 e65)))
-(let ((e108 (ite e79 e71 e97)))
-(let ((e109 (ite e44 e64 e21)))
-(let ((e110 (ite e33 e70 e25)))
-(let ((e111 (ite e43 e63 e105)))
-(let ((e112 (ite e39 e56 e108)))
-(let ((e113 (ite e49 e17 e107)))
-(let ((e114 (ite e74 e63 e113)))
-(let ((e115 (ite e84 e28 v1)))
-(let ((e116 (ite e82 e68 e67)))
-(let ((e117 (ite e75 e73 e21)))
-(let ((e118 (ite e36 e59 e16)))
-(let ((e119 (ite e48 e118 e61)))
-(let ((e120 (ite e90 e56 e100)))
-(let ((e121 (ite e80 e24 e25)))
-(let ((e122 (ite e31 e22 v2)))
-(let ((e123 (ite e45 e107 e16)))
-(let ((e124 (ite e40 e70 e73)))
-(let ((e125 (ite e52 e58 e118)))
-(let ((e126 (ite e88 e72 e72)))
-(let ((e127 (ite e35 e58 e27)))
-(let ((e128 (ite e42 e59 e21)))
-(let ((e129 (ite e44 e127 e103)))
-(let ((e130 (ite e51 e118 e69)))
-(let ((e131 (ite e37 e16 e24)))
-(let ((e132 (ite e83 e105 e28)))
-(let ((e133 (ite e48 e107 e60)))
-(let ((e134 (ite e34 e101 e22)))
-(let ((e135 (ite e86 e97 e57)))
-(let ((e136 (ite e47 e94 e100)))
-(let ((e137 (ite e78 e104 e95)))
-(let ((e138 (ite e75 e26 e96)))
-(let ((e139 (ite e35 e97 e121)))
-(let ((e140 (ite e44 e112 e118)))
-(let ((e141 (ite e77 e107 e56)))
-(let ((e142 (ite e53 e64 e129)))
-(let ((e143 (ite e48 e128 e23)))
-(let ((e144 (ite e50 e73 e17)))
-(let ((e145 (ite e33 e98 e114)))
-(let ((e146 (ite e32 e137 e105)))
-(let ((e147 (ite e41 e98 e96)))
-(let ((e148 (ite e29 e93 e121)))
-(let ((e149 (ite e87 e104 e21)))
-(let ((e150 (ite e46 e131 e110)))
-(let ((e151 (ite e81 e25 e65)))
-(let ((e152 (ite e34 e10 e10)))
-(let ((e153 (ite e36 e7 e13)))
-(let ((e154 (ite e43 e12 e10)))
-(let ((e155 (ite e50 e14 e7)))
-(let ((e156 (ite e34 e9 e6)))
-(let ((e157 (ite e33 e7 v0)))
-(let ((e158 (ite e50 e157 e10)))
-(let ((e159 (ite e51 e8 e11)))
-(let ((e160 (ite e32 v0 e157)))
-(let ((e161 (ite e85 e15 e158)))
-(let ((e162 (ite e43 e5 e11)))
-(let ((e163 (ite e76 e4 v0)))
-(let ((e164 (ite e53 e10 e159)))
-(let ((e165 (ite e80 e161 e163)))
-(let ((e166 (ite e78 e13 e11)))
-(let ((e167 (ite e49 e4 e8)))
-(let ((e168 (ite e45 e11 e155)))
-(let ((e169 (ite e81 e155 e166)))
-(let ((e170 (ite e87 e169 e161)))
-(let ((e171 (ite e53 e165 e13)))
-(let ((e172 (ite e83 e12 e160)))
-(let ((e173 (ite e80 e168 e159)))
-(let ((e174 (ite e46 e171 e168)))
-(let ((e175 (ite e74 e5 e155)))
-(let ((e176 (ite e89 e159 e4)))
-(let ((e177 (ite e29 e159 e172)))
-(let ((e178 (ite e79 e165 e162)))
-(let ((e179 (ite e88 e166 e168)))
-(let ((e180 (ite e77 e175 e167)))
-(let ((e181 (ite e47 e157 e165)))
-(let ((e182 (ite e84 e172 e7)))
-(let ((e183 (ite e30 e174 e157)))
-(let ((e184 (ite e90 e4 e14)))
-(let ((e185 (ite e38 e178 e14)))
-(let ((e186 (ite e44 e166 e154)))
-(let ((e187 (ite e42 e162 e186)))
-(let ((e188 (ite e86 e187 e10)))
-(let ((e189 (ite e29 e171 e182)))
-(let ((e190 (ite e77 e185 e165)))
-(let ((e191 (ite e75 e171 e9)))
-(let ((e192 (ite e39 e161 e181)))
-(let ((e193 (ite e82 e166 e10)))
-(let ((e194 (ite e31 e183 e179)))
-(let ((e195 (ite e44 e191 e169)))
-(let ((e196 (ite e35 e171 e156)))
-(let ((e197 (ite e86 e179 e164)))
-(let ((e198 (ite e41 e5 e5)))
-(let ((e199 (ite e85 e160 e161)))
-(let ((e200 (ite e52 e173 e157)))
-(let ((e201 (ite e47 e161 e4)))
-(let ((e202 (ite e52 e6 e186)))
-(let ((e203 (ite e45 e162 e198)))
-(let ((e204 (ite e48 e194 e11)))
-(let ((e205 (ite e37 e197 e157)))
-(let ((e206 (ite e35 e153 e176)))
-(let ((e207 (ite e40 e185 e188)))
-(let ((e208 (= e53 e41)))
-(let ((e209 (not e79)))
-(let ((e210 (= e30 e87)))
-(let ((e211 (or e34 e48)))
-(let ((e212 (=> e82 e29)))
-(let ((e213 (xor e77 e211)))
-(let ((e214 (and e31 e78)))
-(let ((e215 (ite e36 e76 e37)))
-(let ((e216 (= e84 e45)))
-(let ((e217 (or e43 e46)))
-(let ((e218 (and e88 e40)))
-(let ((e219 (not e89)))
-(let ((e220 (not e35)))
-(let ((e221 (or e218 e213)))
-(let ((e222 (xor e216 e75)))
-(let ((e223 (ite e85 e90 e219)))
-(let ((e224 (= e32 e217)))
-(let ((e225 (not e39)))
-(let ((e226 (xor e212 e49)))
-(let ((e227 (and e222 e81)))
-(let ((e228 (or e33 e210)))
-(let ((e229 (xor e225 e226)))
-(let ((e230 (xor e74 e47)))
-(let ((e231 (= e220 e38)))
-(let ((e232 (xor e231 e229)))
-(let ((e233 (and e50 e221)))
-(let ((e234 (and e42 e224)))
-(let ((e235 (xor e223 e214)))
-(let ((e236 (= e234 e228)))
-(let ((e237 (and e227 e235)))
-(let ((e238 (not e51)))
-(let ((e239 (= e80 e232)))
-(let ((e240 (or e230 e86)))
-(let ((e241 (not e238)))
-(let ((e242 (xor e44 e237)))
-(let ((e243 (= e236 e242)))
-(let ((e244 (= e209 e240)))
-(let ((e245 (and e239 e83)))
-(let ((e246 (or e208 e245)))
-(let ((e247 (=> e215 e246)))
-(let ((e248 (ite e233 e247 e244)))
-(let ((e249 (and e248 e241)))
-(let ((e250 (=> e243 e249)))
-(let ((e251 (and e52 e250)))
-e251
-))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))
-
-(check-sat)
-;(get-model)
diff --git a/test/regress/regress0/sets/fuzz31811.smt2 b/test/regress/regress0/sets/fuzz31811.smt2
deleted file mode 100644
index 5e7c032ea..000000000
--- a/test/regress/regress0/sets/fuzz31811.smt2
+++ /dev/null
@@ -1,187 +0,0 @@
-; symptom: assertion failure : conflict <=> equality engine inconsistent
-;
-; issue: the assertion is too strong. what is true is that there is an internal
-; conflict <=> equality engine inconsistent. but in case of propagating (dis)equalities
-; between shared terms, the some other theory might become inconsistent, and we should
-; stop.
-; 
-(set-info :source |fuzzsmt|)
-(set-info :smt-lib-version 2.0)
-(set-info :category "random")
-(set-info :status sat)
-(set-logic QF_UFLIAFS)
-(define-sort Element () Int)
-(declare-fun f0 ( Int Int Int) Int)
-(declare-fun f1 ( (Set Element) (Set Element)) (Set Element))
-(declare-fun p0 ( Int Int Int) Bool)
-(declare-fun p1 ( (Set Element)) Bool)
-(declare-fun v0 () Int)
-(declare-fun v1 () (Set Element))
-(declare-fun v2 () (Set Element))
-(declare-fun v3 () (Set Element))
-(declare-fun v4 () (Set Element))
-(assert (let ((e5 2))
-(let ((e6 (+ v0 v0)))
-(let ((e7 (* e6 e5)))
-(let ((e8 (* e6 (- e5))))
-(let ((e9 (ite (p0 e7 v0 e6) 1 0)))
-(let ((e10 (f0 v0 e8 e8)))
-(let ((e11 (ite (p1 v1) (singleton 1) (singleton 0))))
-(let ((e12 (union v3 v3)))
-(let ((e13 (intersection v3 v1)))
-(let ((e14 (ite (p1 v3) (singleton 1) (singleton 0))))
-(let ((e15 (intersection v2 e14)))
-(let ((e16 (ite (p1 e11) (singleton 1) (singleton 0))))
-(let ((e17 (ite (p1 v4) (singleton 1) (singleton 0))))
-(let ((e18 (union e15 v2)))
-(let ((e19 (ite (p1 e16) (singleton 1) (singleton 0))))
-(let ((e20 (intersection e18 v3)))
-(let ((e21 (setminus v4 e12)))
-(let ((e22 (union v3 v2)))
-(let ((e23 (setminus e12 v4)))
-(let ((e24 (setminus v3 e16)))
-(let ((e25 (intersection e19 e20)))
-(let ((e26 (ite (p1 e15) (singleton 1) (singleton 0))))
-(let ((e27 (setminus e17 e15)))
-(let ((e28 (f1 e23 e12)))
-(let ((e29 (member e10 e16)))
-(let ((e30 (member e10 v1)))
-(let ((e31 (member e7 e19)))
-(let ((e32 (f1 e12 e12)))
-(let ((e33 (f1 e16 e25)))
-(let ((e34 (f1 v1 e27)))
-(let ((e35 (f1 e19 e19)))
-(let ((e36 (f1 e24 e32)))
-(let ((e37 (f1 e28 e35)))
-(let ((e38 (f1 e27 e20)))
-(let ((e39 (f1 e23 e23)))
-(let ((e40 (f1 e39 e27)))
-(let ((e41 (f1 e17 e32)))
-(let ((e42 (f1 e34 e33)))
-(let ((e43 (f1 e34 e17)))
-(let ((e44 (f1 e34 e25)))
-(let ((e45 (f1 e26 e26)))
-(let ((e46 (f1 e17 e21)))
-(let ((e47 (f1 e40 e26)))
-(let ((e48 (f1 e16 v2)))
-(let ((e49 (f1 e46 e33)))
-(let ((e50 (f1 e15 e15)))
-(let ((e51 (f1 e18 e18)))
-(let ((e52 (f1 e15 e18)))
-(let ((e53 (f1 e11 e49)))
-(let ((e54 (f1 e14 e42)))
-(let ((e55 (f1 e48 e18)))
-(let ((e56 (f1 e49 e52)))
-(let ((e57 (f1 v4 e12)))
-(let ((e58 (f1 e22 e45)))
-(let ((e59 (f1 e13 e13)))
-(let ((e60 (f1 v3 e36)))
-(let ((e61 (distinct e8 e7)))
-(let ((e62 (> v0 e8)))
-(let ((e63 (< e10 e10)))
-(let ((e64 (distinct v0 e10)))
-(let ((e65 (<= e7 e8)))
-(let ((e66 (distinct e9 v0)))
-(let ((e67 (<= e6 e8)))
-(let ((e68 (p0 e8 e7 e6)))
-(let ((e69 (ite e63 e35 e13)))
-(let ((e70 (ite e66 e25 e32)))
-(let ((e71 (ite e62 e33 e19)))
-(let ((e72 (ite e64 e46 v1)))
-(let ((e73 (ite e65 e59 e51)))
-(let ((e74 (ite e30 e14 e26)))
-(let ((e75 (ite e68 e36 e39)))
-(let ((e76 (ite e66 e35 e34)))
-(let ((e77 (ite e64 e44 e54)))
-(let ((e78 (ite e61 e70 e46)))
-(let ((e79 (ite e31 e60 e26)))
-(let ((e80 (ite e64 e55 e19)))
-(let ((e81 (ite e63 e58 e33)))
-(let ((e82 (ite e29 e32 e75)))
-(let ((e83 (ite e67 e27 e73)))
-(let ((e84 (ite e63 e51 e60)))
-(let ((e85 (ite e64 e16 e73)))
-(let ((e86 (ite e68 e47 e46)))
-(let ((e87 (ite e67 v2 e11)))
-(let ((e88 (ite e63 e59 e75)))
-(let ((e89 (ite e30 e12 e83)))
-(let ((e90 (ite e62 e45 e87)))
-(let ((e91 (ite e29 e36 e89)))
-(let ((e92 (ite e68 e24 e16)))
-(let ((e93 (ite e61 e49 e76)))
-(let ((e94 (ite e61 e12 e54)))
-(let ((e95 (ite e67 e33 e16)))
-(let ((e96 (ite e66 e26 e15)))
-(let ((e97 (ite e65 e52 e13)))
-(let ((e98 (ite e68 e38 e17)))
-(let ((e99 (ite e65 e48 e46)))
-(let ((e100 (ite e31 v3 e95)))
-(let ((e101 (ite e31 e95 e18)))
-(let ((e102 (ite e66 e37 e78)))
-(let ((e103 (ite e31 e33 e17)))
-(let ((e104 (ite e62 e55 e91)))
-(let ((e105 (ite e65 e20 e90)))
-(let ((e106 (ite e63 e22 e79)))
-(let ((e107 (ite e64 e94 e97)))
-(let ((e108 (ite e61 e53 e80)))
-(let ((e109 (ite e63 e23 e52)))
-(let ((e110 (ite e31 e100 e101)))
-(let ((e111 (ite e68 e28 e98)))
-(let ((e112 (ite e62 e50 e74)))
-(let ((e113 (ite e30 e49 e96)))
-(let ((e114 (ite e67 e14 e40)))
-(let ((e115 (ite e61 e92 e91)))
-(let ((e116 (ite e65 e18 e89)))
-(let ((e117 (ite e63 e34 e51)))
-(let ((e118 (ite e64 e56 e47)))
-(let ((e119 (ite e68 e102 e18)))
-(let ((e120 (ite e61 e43 e53)))
-(let ((e121 (ite e31 e41 e98)))
-(let ((e122 (ite e67 e114 e103)))
-(let ((e123 (ite e65 v4 e92)))
-(let ((e124 (ite e68 e33 e88)))
-(let ((e125 (ite e68 e37 e101)))
-(let ((e126 (ite e31 e36 e26)))
-(let ((e127 (ite e65 e21 e95)))
-(let ((e128 (ite e62 e42 v4)))
-(let ((e129 (ite e66 e100 e19)))
-(let ((e130 (ite e66 e78 e12)))
-(let ((e131 (ite e62 e34 e103)))
-(let ((e132 (ite e64 e59 e14)))
-(let ((e133 (ite e31 e53 e89)))
-(let ((e134 (ite e66 e57 e60)))
-(let ((e135 (ite e31 e7 e10)))
-(let ((e136 (ite e67 e10 e9)))
-(let ((e137 (ite e65 e136 v0)))
-(let ((e138 (ite e68 e6 e7)))
-(let ((e139 (ite e66 e9 e9)))
-(let ((e140 (ite e62 e8 e135)))
-(let ((e141 (ite e30 e137 e6)))
-(let ((e142 (ite e30 e140 e138)))
-(let ((e143 (ite e29 e140 e6)))
-(let ((e144 (ite e67 e141 v0)))
-(let ((e145 (ite e62 e6 e137)))
-(let ((e146 (ite e29 e137 e139)))
-(let ((e147 (ite e30 e140 e144)))
-(let ((e148 (ite e66 e142 e141)))
-(let ((e149 (ite e63 e8 e144)))
-(let ((e150 (ite e31 e135 e140)))
-(let ((e151 (ite e64 e147 e141)))
-(let ((e152 (ite e61 e147 e148)))
-(let ((e153 (or e30 e63)))
-(let ((e154 (or e67 e62)))
-(let ((e155 (ite e154 e29 e154)))
-(let ((e156 (and e66 e155)))
-(let ((e157 (=> e31 e64)))
-(let ((e158 (or e65 e153)))
-(let ((e159 (not e158)))
-(let ((e160 (xor e157 e68)))
-(let ((e161 (xor e159 e61)))
-(let ((e162 (= e156 e160)))
-(let ((e163 (or e161 e161)))
-(let ((e164 (not e162)))
-(let ((e165 (=> e164 e163)))
-e165
-))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))
-
-(check-sat)
diff --git a/test/regress/regress0/sets/jan24/insert_invariant_37_2.smt2 b/test/regress/regress0/sets/jan24/insert_invariant_37_2.smt2
deleted file mode 100644
index 2ef07f920..000000000
--- a/test/regress/regress0/sets/jan24/insert_invariant_37_2.smt2
+++ /dev/null
@@ -1,812 +0,0 @@
-(set-option :print-success false)
-(set-logic AUFLIAFS)
-(set-info :status unsat)
-(declare-sort Loc 0)
-(define-sort SetLoc () (Set Loc))
-(define-sort SetInt () (Set Int))
-(declare-sort FldLoc 0)
-(declare-sort FldInt 0)
-(declare-fun null$0 () Loc)
-(declare-fun read$0 (FldInt Loc) Int)
-(declare-fun read$1 (FldLoc Loc) Loc)
-(declare-fun Btwn$0 (FldLoc Loc Loc Loc) Bool)
-(declare-fun Alloc$0 () SetLoc)
-(declare-fun Axiom$0 () Bool)
-(declare-fun FP$0 () SetLoc)
-(declare-fun FP_Caller$0 () SetLoc)
-(declare-fun FP_Caller_1$0 () SetLoc)
-(declare-fun c1_2$0 () SetInt)
-(declare-fun c2_2$0 () SetInt)
-(declare-fun content$0 () SetInt)
-(declare-fun curr_2$0 () Loc)
-(declare-fun data$0 () FldInt)
-(declare-fun lst$0 () Loc)
-(declare-fun next$0 () FldLoc)
-(declare-fun prev_2$0 () Loc)
-(declare-fun sk_?X$0 () SetLoc)
-(declare-fun sk_?X_1$0 () SetLoc)
-(declare-fun sk_?X_2$0 () SetLoc)
-(declare-fun sk_?X_3$0 () SetLoc)
-(declare-fun sk_?X_4$0 () SetLoc)
-(declare-fun sk_?X_5$0 () SetLoc)
-(declare-fun sk_?e$0 () Int)
-(declare-fun sk_?e_1$0 () Loc)
-(declare-fun sk_?e_2$0 () Loc)
-(declare-fun sk_?e_3$0 () Int)
-(declare-fun sk_FP$0 () SetLoc)
-(declare-fun sk_FP_1$0 () SetLoc)
-(declare-fun sk_l1$0 () Loc)
-(declare-fun sk_l1_1$0 () Loc)
-(declare-fun sk_l2$0 () Loc)
-(declare-fun sk_l2_1$0 () Loc)
-(declare-fun sorted_set_c$0 (FldInt FldLoc Loc Loc) SetInt)
-(declare-fun sorted_set_domain$0 (FldInt FldLoc Loc Loc) SetLoc)
-(declare-fun sorted_set_struct$0 (SetLoc FldInt FldLoc Loc Loc SetInt) Bool)
-(declare-fun val$0 () Int)
-(declare-fun witness$0 (Int SetInt) Loc)
-
-(assert (! (forall ((?y Loc))
-           (or (not (Btwn$0 next$0 null$0 ?y ?y)) (= null$0 ?y)
-               (Btwn$0 next$0 null$0 (read$1 next$0 null$0) ?y)))
-   :named btwn_reach))
-
-(assert (! (forall ((?y Loc))
-           (or (not (= (read$1 next$0 null$0) null$0))
-               (not (Btwn$0 next$0 null$0 ?y ?y)) (= null$0 ?y)))
-   :named btwn_cycl))
-
-(assert (! (Btwn$0 next$0 null$0 (read$1 next$0 null$0) (read$1 next$0 null$0))
-   :named btwn_step))
-
-(assert (! (forall ((l1 Loc) (l2 Loc))
-           (or (not Axiom$0)
-               (or (= l1 l2) (< (read$0 data$0 l1) (read$0 data$0 l2))
-                   (not (Btwn$0 next$0 l1 l2 null$0)) (not (member l1 sk_?X$0))
-                   (not (member l2 sk_?X$0)))))
-   :named strict_sortedness))
-
-(assert (! (forall ((l1 Loc))
-           (or (= l1 null$0)
-               (member (read$0 data$0 l1)
-                 (sorted_set_c$0 data$0 next$0 lst$0 null$0))
-               (not (Btwn$0 next$0 lst$0 l1 null$0))))
-   :named sorted_set_1))
-
-(assert (! (and
-        (or
-            (=
-              (witness$0 (read$0 data$0 curr_2$0)
-                (sorted_set_c$0 data$0 next$0 lst$0 null$0))
-              null$0)
-            (member (read$0 data$0 curr_2$0)
-              (sorted_set_c$0 data$0 next$0 lst$0 null$0)))
-        (or
-            (and
-                 (= (read$0 data$0 curr_2$0)
-                   (read$0 data$0
-                     (witness$0 (read$0 data$0 curr_2$0)
-                       (sorted_set_c$0 data$0 next$0 lst$0 null$0))))
-                 (member
-                   (witness$0 (read$0 data$0 curr_2$0)
-                     (sorted_set_c$0 data$0 next$0 lst$0 null$0))
-                   (sorted_set_domain$0 data$0 next$0 lst$0 null$0)))
-            (not
-                 (member (read$0 data$0 curr_2$0)
-                   (sorted_set_c$0 data$0 next$0 lst$0 null$0)))))
-   :named sorted_set_2))
-
-(assert (! (and
-        (or
-            (=
-              (witness$0 (read$0 data$0 prev_2$0)
-                (sorted_set_c$0 data$0 next$0 lst$0 null$0))
-              null$0)
-            (member (read$0 data$0 prev_2$0)
-              (sorted_set_c$0 data$0 next$0 lst$0 null$0)))
-        (or
-            (and
-                 (= (read$0 data$0 prev_2$0)
-                   (read$0 data$0
-                     (witness$0 (read$0 data$0 prev_2$0)
-                       (sorted_set_c$0 data$0 next$0 lst$0 null$0))))
-                 (member
-                   (witness$0 (read$0 data$0 prev_2$0)
-                     (sorted_set_c$0 data$0 next$0 lst$0 null$0))
-                   (sorted_set_domain$0 data$0 next$0 lst$0 null$0)))
-            (not
-                 (member (read$0 data$0 prev_2$0)
-                   (sorted_set_c$0 data$0 next$0 lst$0 null$0)))))
-   :named sorted_set_2_1))
-
-(assert (! (and
-        (or
-            (=
-              (witness$0 (read$0 data$0 sk_l1$0)
-                (sorted_set_c$0 data$0 next$0 lst$0 null$0))
-              null$0)
-            (member (read$0 data$0 sk_l1$0)
-              (sorted_set_c$0 data$0 next$0 lst$0 null$0)))
-        (or
-            (and
-                 (= (read$0 data$0 sk_l1$0)
-                   (read$0 data$0
-                     (witness$0 (read$0 data$0 sk_l1$0)
-                       (sorted_set_c$0 data$0 next$0 lst$0 null$0))))
-                 (member
-                   (witness$0 (read$0 data$0 sk_l1$0)
-                     (sorted_set_c$0 data$0 next$0 lst$0 null$0))
-                   (sorted_set_domain$0 data$0 next$0 lst$0 null$0)))
-            (not
-                 (member (read$0 data$0 sk_l1$0)
-                   (sorted_set_c$0 data$0 next$0 lst$0 null$0)))))
-   :named sorted_set_2_2))
-
-(assert (! (and
-        (or
-            (=
-              (witness$0 (read$0 data$0 sk_l1_1$0)
-                (sorted_set_c$0 data$0 next$0 lst$0 null$0))
-              null$0)
-            (member (read$0 data$0 sk_l1_1$0)
-              (sorted_set_c$0 data$0 next$0 lst$0 null$0)))
-        (or
-            (and
-                 (= (read$0 data$0 sk_l1_1$0)
-                   (read$0 data$0
-                     (witness$0 (read$0 data$0 sk_l1_1$0)
-                       (sorted_set_c$0 data$0 next$0 lst$0 null$0))))
-                 (member
-                   (witness$0 (read$0 data$0 sk_l1_1$0)
-                     (sorted_set_c$0 data$0 next$0 lst$0 null$0))
-                   (sorted_set_domain$0 data$0 next$0 lst$0 null$0)))
-            (not
-                 (member (read$0 data$0 sk_l1_1$0)
-                   (sorted_set_c$0 data$0 next$0 lst$0 null$0)))))
-   :named sorted_set_2_3))
-
-(assert (! (and
-        (or
-            (=
-              (witness$0 (read$0 data$0 sk_l2$0)
-                (sorted_set_c$0 data$0 next$0 lst$0 null$0))
-              null$0)
-            (member (read$0 data$0 sk_l2$0)
-              (sorted_set_c$0 data$0 next$0 lst$0 null$0)))
-        (or
-            (and
-                 (= (read$0 data$0 sk_l2$0)
-                   (read$0 data$0
-                     (witness$0 (read$0 data$0 sk_l2$0)
-                       (sorted_set_c$0 data$0 next$0 lst$0 null$0))))
-                 (member
-                   (witness$0 (read$0 data$0 sk_l2$0)
-                     (sorted_set_c$0 data$0 next$0 lst$0 null$0))
-                   (sorted_set_domain$0 data$0 next$0 lst$0 null$0)))
-            (not
-                 (member (read$0 data$0 sk_l2$0)
-                   (sorted_set_c$0 data$0 next$0 lst$0 null$0)))))
-   :named sorted_set_2_4))
-
-(assert (! (and
-        (or
-            (=
-              (witness$0 (read$0 data$0 sk_l2_1$0)
-                (sorted_set_c$0 data$0 next$0 lst$0 null$0))
-              null$0)
-            (member (read$0 data$0 sk_l2_1$0)
-              (sorted_set_c$0 data$0 next$0 lst$0 null$0)))
-        (or
-            (and
-                 (= (read$0 data$0 sk_l2_1$0)
-                   (read$0 data$0
-                     (witness$0 (read$0 data$0 sk_l2_1$0)
-                       (sorted_set_c$0 data$0 next$0 lst$0 null$0))))
-                 (member
-                   (witness$0 (read$0 data$0 sk_l2_1$0)
-                     (sorted_set_c$0 data$0 next$0 lst$0 null$0))
-                   (sorted_set_domain$0 data$0 next$0 lst$0 null$0)))
-            (not
-                 (member (read$0 data$0 sk_l2_1$0)
-                   (sorted_set_c$0 data$0 next$0 lst$0 null$0)))))
-   :named sorted_set_2_5))
-
-(assert (! (and
-        (or
-            (=
-              (witness$0 sk_?e$0 (sorted_set_c$0 data$0 next$0 lst$0 null$0))
-              null$0)
-            (member sk_?e$0 (sorted_set_c$0 data$0 next$0 lst$0 null$0)))
-        (or
-            (and
-                 (= sk_?e$0
-                   (read$0 data$0
-                     (witness$0 sk_?e$0
-                       (sorted_set_c$0 data$0 next$0 lst$0 null$0))))
-                 (member
-                   (witness$0 sk_?e$0
-                     (sorted_set_c$0 data$0 next$0 lst$0 null$0))
-                   (sorted_set_domain$0 data$0 next$0 lst$0 null$0)))
-            (not (member sk_?e$0 (sorted_set_c$0 data$0 next$0 lst$0 null$0)))))
-   :named sorted_set_2_6))
-
-(assert (! (and
-        (or
-            (=
-              (witness$0 sk_?e_3$0
-                (sorted_set_c$0 data$0 next$0 lst$0 null$0))
-              null$0)
-            (member sk_?e_3$0 (sorted_set_c$0 data$0 next$0 lst$0 null$0)))
-        (or
-            (and
-                 (= sk_?e_3$0
-                   (read$0 data$0
-                     (witness$0 sk_?e_3$0
-                       (sorted_set_c$0 data$0 next$0 lst$0 null$0))))
-                 (member
-                   (witness$0 sk_?e_3$0
-                     (sorted_set_c$0 data$0 next$0 lst$0 null$0))
-                   (sorted_set_domain$0 data$0 next$0 lst$0 null$0)))
-            (not (member sk_?e_3$0 (sorted_set_c$0 data$0 next$0 lst$0 null$0)))))
-   :named sorted_set_2_7))
-
-(assert (! (forall ((l1 Loc))
-           (or (= l1 null$0)
-               (member (read$0 data$0 l1)
-                 (sorted_set_c$0 data$0 next$0 curr_2$0 null$0))
-               (not (Btwn$0 next$0 curr_2$0 l1 null$0))))
-   :named sorted_set_1_1))
-
-(assert (! (forall ((l1 Loc))
-           (or (= l1 curr_2$0)
-               (member (read$0 data$0 l1)
-                 (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0))
-               (not (Btwn$0 next$0 lst$0 l1 curr_2$0))))
-   :named sorted_set_1_2))
-
-(assert (! (and
-        (or
-            (=
-              (witness$0 (read$0 data$0 curr_2$0)
-                (sorted_set_c$0 data$0 next$0 curr_2$0 null$0))
-              null$0)
-            (member (read$0 data$0 curr_2$0)
-              (sorted_set_c$0 data$0 next$0 curr_2$0 null$0)))
-        (or
-            (and
-                 (= (read$0 data$0 curr_2$0)
-                   (read$0 data$0
-                     (witness$0 (read$0 data$0 curr_2$0)
-                       (sorted_set_c$0 data$0 next$0 curr_2$0 null$0))))
-                 (member
-                   (witness$0 (read$0 data$0 curr_2$0)
-                     (sorted_set_c$0 data$0 next$0 curr_2$0 null$0))
-                   (sorted_set_domain$0 data$0 next$0 curr_2$0 null$0)))
-            (not
-                 (member (read$0 data$0 curr_2$0)
-                   (sorted_set_c$0 data$0 next$0 curr_2$0 null$0)))))
-   :named sorted_set_2_8))
-
-(assert (! (and
-        (or
-            (=
-              (witness$0 (read$0 data$0 prev_2$0)
-                (sorted_set_c$0 data$0 next$0 curr_2$0 null$0))
-              null$0)
-            (member (read$0 data$0 prev_2$0)
-              (sorted_set_c$0 data$0 next$0 curr_2$0 null$0)))
-        (or
-            (and
-                 (= (read$0 data$0 prev_2$0)
-                   (read$0 data$0
-                     (witness$0 (read$0 data$0 prev_2$0)
-                       (sorted_set_c$0 data$0 next$0 curr_2$0 null$0))))
-                 (member
-                   (witness$0 (read$0 data$0 prev_2$0)
-                     (sorted_set_c$0 data$0 next$0 curr_2$0 null$0))
-                   (sorted_set_domain$0 data$0 next$0 curr_2$0 null$0)))
-            (not
-                 (member (read$0 data$0 prev_2$0)
-                   (sorted_set_c$0 data$0 next$0 curr_2$0 null$0)))))
-   :named sorted_set_2_9))
-
-(assert (! (and
-        (or
-            (=
-              (witness$0 (read$0 data$0 sk_l1$0)
-                (sorted_set_c$0 data$0 next$0 curr_2$0 null$0))
-              null$0)
-            (member (read$0 data$0 sk_l1$0)
-              (sorted_set_c$0 data$0 next$0 curr_2$0 null$0)))
-        (or
-            (and
-                 (= (read$0 data$0 sk_l1$0)
-                   (read$0 data$0
-                     (witness$0 (read$0 data$0 sk_l1$0)
-                       (sorted_set_c$0 data$0 next$0 curr_2$0 null$0))))
-                 (member
-                   (witness$0 (read$0 data$0 sk_l1$0)
-                     (sorted_set_c$0 data$0 next$0 curr_2$0 null$0))
-                   (sorted_set_domain$0 data$0 next$0 curr_2$0 null$0)))
-            (not
-                 (member (read$0 data$0 sk_l1$0)
-                   (sorted_set_c$0 data$0 next$0 curr_2$0 null$0)))))
-   :named sorted_set_2_10))
-
-(assert (! (and
-        (or
-            (=
-              (witness$0 (read$0 data$0 sk_l1_1$0)
-                (sorted_set_c$0 data$0 next$0 curr_2$0 null$0))
-              null$0)
-            (member (read$0 data$0 sk_l1_1$0)
-              (sorted_set_c$0 data$0 next$0 curr_2$0 null$0)))
-        (or
-            (and
-                 (= (read$0 data$0 sk_l1_1$0)
-                   (read$0 data$0
-                     (witness$0 (read$0 data$0 sk_l1_1$0)
-                       (sorted_set_c$0 data$0 next$0 curr_2$0 null$0))))
-                 (member
-                   (witness$0 (read$0 data$0 sk_l1_1$0)
-                     (sorted_set_c$0 data$0 next$0 curr_2$0 null$0))
-                   (sorted_set_domain$0 data$0 next$0 curr_2$0 null$0)))
-            (not
-                 (member (read$0 data$0 sk_l1_1$0)
-                   (sorted_set_c$0 data$0 next$0 curr_2$0 null$0)))))
-   :named sorted_set_2_11))
-
-(assert (! (and
-        (or
-            (=
-              (witness$0 (read$0 data$0 sk_l2$0)
-                (sorted_set_c$0 data$0 next$0 curr_2$0 null$0))
-              null$0)
-            (member (read$0 data$0 sk_l2$0)
-              (sorted_set_c$0 data$0 next$0 curr_2$0 null$0)))
-        (or
-            (and
-                 (= (read$0 data$0 sk_l2$0)
-                   (read$0 data$0
-                     (witness$0 (read$0 data$0 sk_l2$0)
-                       (sorted_set_c$0 data$0 next$0 curr_2$0 null$0))))
-                 (member
-                   (witness$0 (read$0 data$0 sk_l2$0)
-                     (sorted_set_c$0 data$0 next$0 curr_2$0 null$0))
-                   (sorted_set_domain$0 data$0 next$0 curr_2$0 null$0)))
-            (not
-                 (member (read$0 data$0 sk_l2$0)
-                   (sorted_set_c$0 data$0 next$0 curr_2$0 null$0)))))
-   :named sorted_set_2_12))
-
-(assert (! (and
-        (or
-            (=
-              (witness$0 (read$0 data$0 sk_l2_1$0)
-                (sorted_set_c$0 data$0 next$0 curr_2$0 null$0))
-              null$0)
-            (member (read$0 data$0 sk_l2_1$0)
-              (sorted_set_c$0 data$0 next$0 curr_2$0 null$0)))
-        (or
-            (and
-                 (= (read$0 data$0 sk_l2_1$0)
-                   (read$0 data$0
-                     (witness$0 (read$0 data$0 sk_l2_1$0)
-                       (sorted_set_c$0 data$0 next$0 curr_2$0 null$0))))
-                 (member
-                   (witness$0 (read$0 data$0 sk_l2_1$0)
-                     (sorted_set_c$0 data$0 next$0 curr_2$0 null$0))
-                   (sorted_set_domain$0 data$0 next$0 curr_2$0 null$0)))
-            (not
-                 (member (read$0 data$0 sk_l2_1$0)
-                   (sorted_set_c$0 data$0 next$0 curr_2$0 null$0)))))
-   :named sorted_set_2_13))
-
-(assert (! (and
-        (or
-            (=
-              (witness$0 sk_?e$0
-                (sorted_set_c$0 data$0 next$0 curr_2$0 null$0))
-              null$0)
-            (member sk_?e$0 (sorted_set_c$0 data$0 next$0 curr_2$0 null$0)))
-        (or
-            (and
-                 (= sk_?e$0
-                   (read$0 data$0
-                     (witness$0 sk_?e$0
-                       (sorted_set_c$0 data$0 next$0 curr_2$0 null$0))))
-                 (member
-                   (witness$0 sk_?e$0
-                     (sorted_set_c$0 data$0 next$0 curr_2$0 null$0))
-                   (sorted_set_domain$0 data$0 next$0 curr_2$0 null$0)))
-            (not (member sk_?e$0 (sorted_set_c$0 data$0 next$0 curr_2$0 null$0)))))
-   :named sorted_set_2_14))
-
-(assert (! (and
-        (or
-            (=
-              (witness$0 sk_?e_3$0
-                (sorted_set_c$0 data$0 next$0 curr_2$0 null$0))
-              null$0)
-            (member sk_?e_3$0 (sorted_set_c$0 data$0 next$0 curr_2$0 null$0)))
-        (or
-            (and
-                 (= sk_?e_3$0
-                   (read$0 data$0
-                     (witness$0 sk_?e_3$0
-                       (sorted_set_c$0 data$0 next$0 curr_2$0 null$0))))
-                 (member
-                   (witness$0 sk_?e_3$0
-                     (sorted_set_c$0 data$0 next$0 curr_2$0 null$0))
-                   (sorted_set_domain$0 data$0 next$0 curr_2$0 null$0)))
-            (not
-                 (member sk_?e_3$0
-                   (sorted_set_c$0 data$0 next$0 curr_2$0 null$0)))))
-   :named sorted_set_2_15))
-
-(assert (! (and
-        (or
-            (=
-              (witness$0 (read$0 data$0 curr_2$0)
-                (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0))
-              null$0)
-            (member (read$0 data$0 curr_2$0)
-              (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0)))
-        (or
-            (and
-                 (= (read$0 data$0 curr_2$0)
-                   (read$0 data$0
-                     (witness$0 (read$0 data$0 curr_2$0)
-                       (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0))))
-                 (member
-                   (witness$0 (read$0 data$0 curr_2$0)
-                     (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0))
-                   (sorted_set_domain$0 data$0 next$0 lst$0 curr_2$0)))
-            (not
-                 (member (read$0 data$0 curr_2$0)
-                   (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0)))))
-   :named sorted_set_2_16))
-
-(assert (! (and
-        (or
-            (=
-              (witness$0 (read$0 data$0 prev_2$0)
-                (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0))
-              null$0)
-            (member (read$0 data$0 prev_2$0)
-              (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0)))
-        (or
-            (and
-                 (= (read$0 data$0 prev_2$0)
-                   (read$0 data$0
-                     (witness$0 (read$0 data$0 prev_2$0)
-                       (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0))))
-                 (member
-                   (witness$0 (read$0 data$0 prev_2$0)
-                     (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0))
-                   (sorted_set_domain$0 data$0 next$0 lst$0 curr_2$0)))
-            (not
-                 (member (read$0 data$0 prev_2$0)
-                   (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0)))))
-   :named sorted_set_2_17))
-
-(assert (! (and
-        (or
-            (=
-              (witness$0 (read$0 data$0 sk_l1$0)
-                (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0))
-              null$0)
-            (member (read$0 data$0 sk_l1$0)
-              (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0)))
-        (or
-            (and
-                 (= (read$0 data$0 sk_l1$0)
-                   (read$0 data$0
-                     (witness$0 (read$0 data$0 sk_l1$0)
-                       (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0))))
-                 (member
-                   (witness$0 (read$0 data$0 sk_l1$0)
-                     (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0))
-                   (sorted_set_domain$0 data$0 next$0 lst$0 curr_2$0)))
-            (not
-                 (member (read$0 data$0 sk_l1$0)
-                   (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0)))))
-   :named sorted_set_2_18))
-
-(assert (! (and
-        (or
-            (=
-              (witness$0 (read$0 data$0 sk_l1_1$0)
-                (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0))
-              null$0)
-            (member (read$0 data$0 sk_l1_1$0)
-              (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0)))
-        (or
-            (and
-                 (= (read$0 data$0 sk_l1_1$0)
-                   (read$0 data$0
-                     (witness$0 (read$0 data$0 sk_l1_1$0)
-                       (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0))))
-                 (member
-                   (witness$0 (read$0 data$0 sk_l1_1$0)
-                     (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0))
-                   (sorted_set_domain$0 data$0 next$0 lst$0 curr_2$0)))
-            (not
-                 (member (read$0 data$0 sk_l1_1$0)
-                   (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0)))))
-   :named sorted_set_2_19))
-
-(assert (! (and
-        (or
-            (=
-              (witness$0 (read$0 data$0 sk_l2$0)
-                (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0))
-              null$0)
-            (member (read$0 data$0 sk_l2$0)
-              (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0)))
-        (or
-            (and
-                 (= (read$0 data$0 sk_l2$0)
-                   (read$0 data$0
-                     (witness$0 (read$0 data$0 sk_l2$0)
-                       (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0))))
-                 (member
-                   (witness$0 (read$0 data$0 sk_l2$0)
-                     (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0))
-                   (sorted_set_domain$0 data$0 next$0 lst$0 curr_2$0)))
-            (not
-                 (member (read$0 data$0 sk_l2$0)
-                   (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0)))))
-   :named sorted_set_2_20))
-
-(assert (! (and
-        (or
-            (=
-              (witness$0 (read$0 data$0 sk_l2_1$0)
-                (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0))
-              null$0)
-            (member (read$0 data$0 sk_l2_1$0)
-              (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0)))
-        (or
-            (and
-                 (= (read$0 data$0 sk_l2_1$0)
-                   (read$0 data$0
-                     (witness$0 (read$0 data$0 sk_l2_1$0)
-                       (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0))))
-                 (member
-                   (witness$0 (read$0 data$0 sk_l2_1$0)
-                     (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0))
-                   (sorted_set_domain$0 data$0 next$0 lst$0 curr_2$0)))
-            (not
-                 (member (read$0 data$0 sk_l2_1$0)
-                   (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0)))))
-   :named sorted_set_2_21))
-
-(assert (! (and
-        (or
-            (=
-              (witness$0 sk_?e$0
-                (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0))
-              null$0)
-            (member sk_?e$0 (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0)))
-        (or
-            (and
-                 (= sk_?e$0
-                   (read$0 data$0
-                     (witness$0 sk_?e$0
-                       (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0))))
-                 (member
-                   (witness$0 sk_?e$0
-                     (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0))
-                   (sorted_set_domain$0 data$0 next$0 lst$0 curr_2$0)))
-            (not (member sk_?e$0 (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0)))))
-   :named sorted_set_2_22))
-
-(assert (! (and
-        (or
-            (=
-              (witness$0 sk_?e_3$0
-                (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0))
-              null$0)
-            (member sk_?e_3$0 (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0)))
-        (or
-            (and
-                 (= sk_?e_3$0
-                   (read$0 data$0
-                     (witness$0 sk_?e_3$0
-                       (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0))))
-                 (member
-                   (witness$0 sk_?e_3$0
-                     (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0))
-                   (sorted_set_domain$0 data$0 next$0 lst$0 curr_2$0)))
-            (not
-                 (member sk_?e_3$0 (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0)))))
-   :named sorted_set_2_23))
-
-(assert (! (= (read$1 next$0 null$0) null$0) :named read_null))
-
-(assert (! (forall ((l1 Loc))
-           (or
-               (and (Btwn$0 next$0 lst$0 l1 null$0)
-                    (member l1 (sorted_set_domain$0 data$0 next$0 lst$0 null$0))
-                    (not (= l1 null$0)))
-               (and (or (= l1 null$0) (not (Btwn$0 next$0 lst$0 l1 null$0)))
-                    (not
-                         (member l1
-                           (sorted_set_domain$0 data$0 next$0 lst$0 null$0))))))
-   :named sorted_set_footprint))
-
-(assert (! (or (member sk_?e_3$0 c2_2$0)
-       (and (member sk_?e_2$0 sk_FP_1$0) (not (member sk_?e_2$0 FP$0)))
-       (and (member sk_?e_3$0 (union c1_2$0 c2_2$0))
-            (not (member sk_?e_3$0 content$0)))
-       (and (member sk_?e_3$0 c1_2$0)
-            (not
-                 (member sk_?e_3$0
-                   (sorted_set_c$0 data$0 next$0 curr_2$0 null$0))))
-       (and (member sk_?e_3$0 content$0)
-            (not (member sk_?e_3$0 (union c1_2$0 c2_2$0))))
-       (and (member sk_?e_3$0 (sorted_set_c$0 data$0 next$0 curr_2$0 null$0))
-            (not (member sk_?e_3$0 c1_2$0)))
-       (and (not (= curr_2$0 null$0)) (not (= prev_2$0 null$0))
-            (not (< (read$0 data$0 prev_2$0) (read$0 data$0 curr_2$0))))
-       (not (= curr_2$0 lst$0)) (not (= prev_2$0 null$0))
-       (not
-            (sorted_set_struct$0 sk_?X_3$0 data$0 next$0 curr_2$0 null$0
-              c1_2$0)))
-   :named invariant_37_2))
-
-(assert (! (= sk_FP_1$0 sk_?X_2$0) :named invariant_37_2_1))
-
-(assert (! (= sk_?X_5$0 (sorted_set_domain$0 data$0 next$0 lst$0 curr_2$0))
-   :named invariant_37_2_2))
-
-(assert (! (= sk_?X_3$0 (sorted_set_domain$0 data$0 next$0 curr_2$0 null$0))
-   :named invariant_37_2_3))
-
-(assert (! (= sk_?X_1$0 (union sk_?X_3$0 sk_?X_4$0)) :named invariant_37_2_4))
-
-(assert (! (= FP_Caller$0 (union FP$0 FP_Caller$0))
-   :named precondition_of_insert_27_11))
-
-(assert (! (= sk_?X$0 FP$0) :named precondition_of_insert_27_11_1))
-
-(assert (! (= Alloc$0 (union FP_Caller$0 Alloc$0))
-   :named initial_footprint_of_insert_27_11))
-
-(assert (! (= curr_2$0 lst$0) :named assign_31_2))
-
-(assert (! (= c1_2$0 content$0) :named assign_34_2))
-
-(assert (! (or (and (Btwn$0 next$0 lst$0 null$0 null$0) Axiom$0)
-       (not
-            (sorted_set_struct$0 sk_?X$0 data$0 next$0 lst$0 null$0
-              content$0)))
-   :named unnamed))
-
-(assert (! (or (sorted_set_struct$0 sk_?X_3$0 data$0 next$0 curr_2$0 null$0 c1_2$0)
-       (not (Btwn$0 next$0 curr_2$0 null$0 null$0))
-       (! (and (Btwn$0 next$0 sk_l1$0 sk_l2$0 null$0) (member sk_l1$0 sk_?X_3$0)
-               (member sk_l2$0 sk_?X_3$0) (not (= sk_l1$0 sk_l2$0))
-               (not (< (read$0 data$0 sk_l1$0) (read$0 data$0 sk_l2$0))))
-          :named strict_sortedness_1))
-   :named unnamed_1))
-
-(assert (! (forall ((l1 Loc))
-           (or
-               (and (Btwn$0 next$0 lst$0 l1 curr_2$0)
-                    (member l1
-                      (sorted_set_domain$0 data$0 next$0 lst$0 curr_2$0))
-                    (not (= l1 curr_2$0)))
-               (and
-                    (or (= l1 curr_2$0)
-                        (not (Btwn$0 next$0 lst$0 l1 curr_2$0)))
-                    (not
-                         (member l1
-                           (sorted_set_domain$0 data$0 next$0 lst$0 curr_2$0))))))
-   :named sorted_set_footprint_1))
-
-(assert (! (forall ((l1 Loc))
-           (or
-               (and (Btwn$0 next$0 curr_2$0 l1 null$0)
-                    (member l1
-                      (sorted_set_domain$0 data$0 next$0 curr_2$0 null$0))
-                    (not (= l1 null$0)))
-               (and
-                    (or (= l1 null$0)
-                        (not (Btwn$0 next$0 curr_2$0 l1 null$0)))
-                    (not
-                         (member l1
-                           (sorted_set_domain$0 data$0 next$0 curr_2$0
-                             null$0))))))
-   :named sorted_set_footprint_2))
-
-(assert (! (not (member null$0 Alloc$0)) :named initial_footprint_of_insert_27_11_1))
-
-(assert (! (or (= prev_2$0 curr_2$0)
-       (member sk_?e_1$0 (intersection sk_?X_4$0 sk_?X_3$0))
-       (and (member sk_?e_1$0 sk_FP$0) (not (member sk_?e_1$0 FP$0)))
-       (and (member sk_?e$0 (union c1_2$0 c2_2$0)) (not (member sk_?e$0 content$0)))
-       (and (member sk_?e$0 c1_2$0)
-            (not (member sk_?e$0 (sorted_set_c$0 data$0 next$0 curr_2$0 null$0))))
-       (and (member sk_?e$0 c2_2$0)
-            (not (member sk_?e$0 (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0))))
-       (and (member sk_?e$0 content$0) (not (member sk_?e$0 (union c1_2$0 c2_2$0))))
-       (and (member sk_?e$0 (sorted_set_c$0 data$0 next$0 curr_2$0 null$0))
-            (not (member sk_?e$0 c1_2$0)))
-       (and (member sk_?e$0 (sorted_set_c$0 data$0 next$0 lst$0 curr_2$0))
-            (not (member sk_?e$0 c2_2$0)))
-       (and (not (= curr_2$0 null$0)) (not (= prev_2$0 null$0))
-            (not (< (read$0 data$0 prev_2$0) (read$0 data$0 curr_2$0))))
-       (not (= (read$1 next$0 prev_2$0) curr_2$0))
-       (not (> val$0 (read$0 data$0 prev_2$0)))
-       (not (Btwn$0 next$0 lst$0 prev_2$0 curr_2$0))
-       (not
-            (sorted_set_struct$0 sk_?X_3$0 data$0 next$0 curr_2$0 null$0
-              c1_2$0))
-       (not
-            (sorted_set_struct$0 sk_?X_5$0 data$0 next$0 lst$0 curr_2$0
-              c2_2$0)))
-   :named invariant_37_2_5))
-
-(assert (! (= sk_FP$0 sk_?X_1$0) :named invariant_37_2_6))
-
-(assert (! (= sk_?X_4$0 sk_?X_5$0) :named invariant_37_2_7))
-
-(assert (! (= sk_?X_2$0 sk_?X_3$0) :named invariant_37_2_8))
-
-(assert (! (sorted_set_struct$0 sk_?X$0 data$0 next$0 lst$0 null$0 content$0)
-   :named precondition_of_insert_27_11_2))
-
-(assert (! (= sk_?X$0 (sorted_set_domain$0 data$0 next$0 lst$0 null$0))
-   :named precondition_of_insert_27_11_3))
-
-(assert (! (= content$0 (sorted_set_c$0 data$0 next$0 lst$0 null$0))
-   :named precondition_of_insert_27_11_4))
-
-(assert (! (= prev_2$0 null$0) :named assign_32_2))
-
-(assert (! (= c2_2$0 (as emptyset SetInt)) :named assign_35_2))
-
-(assert (! (= FP_Caller_1$0 (setminus FP_Caller$0 FP$0)) :named assign_29_0))
-
-(assert (! (or (sorted_set_struct$0 sk_?X_5$0 data$0 next$0 lst$0 curr_2$0 c2_2$0)
-       (not (Btwn$0 next$0 lst$0 curr_2$0 curr_2$0))
-       (! (and (Btwn$0 next$0 sk_l1_1$0 sk_l2_1$0 curr_2$0)
-               (member sk_l1_1$0 sk_?X_5$0) (member sk_l2_1$0 sk_?X_5$0)
-               (not (= sk_l1_1$0 sk_l2_1$0))
-               (not (< (read$0 data$0 sk_l1_1$0) (read$0 data$0 sk_l2_1$0))))
-          :named strict_sortedness_2))
-   :named unnamed_2))
-
-(assert (! (forall ((?x Loc)) (Btwn$0 next$0 ?x ?x ?x)) :named btwn_refl))
-
-(assert (! (forall ((?x Loc) (?y Loc)) (or (not (Btwn$0 next$0 ?x ?y ?x)) (= ?x ?y)))
-   :named btwn_sndw))
-
-(assert (! (forall ((?x Loc) (?y Loc) (?z Loc))
-           (or (not (Btwn$0 next$0 ?x ?y ?y)) (not (Btwn$0 next$0 ?x ?z ?z))
-               (Btwn$0 next$0 ?x ?y ?z) (Btwn$0 next$0 ?x ?z ?y)))
-   :named btwn_ord1))
-
-(assert (! (forall ((?x Loc) (?y Loc) (?z Loc))
-           (or (not (Btwn$0 next$0 ?x ?y ?z))
-               (and (Btwn$0 next$0 ?x ?y ?y) (Btwn$0 next$0 ?y ?z ?z))))
-   :named btwn_ord2))
-
-(assert (! (forall ((?x Loc) (?y Loc) (?z Loc))
-           (or (not (Btwn$0 next$0 ?x ?y ?y)) (not (Btwn$0 next$0 ?y ?z ?z))
-               (Btwn$0 next$0 ?x ?z ?z)))
-   :named btwn_trn1))
-
-(assert (! (forall ((?u Loc) (?x Loc) (?y Loc) (?z Loc))
-           (or (not (Btwn$0 next$0 ?x ?y ?z)) (not (Btwn$0 next$0 ?y ?u ?z))
-               (and (Btwn$0 next$0 ?x ?y ?u) (Btwn$0 next$0 ?x ?u ?z))))
-   :named btwn_trn2))
-
-(assert (! (forall ((?u Loc) (?x Loc) (?y Loc) (?z Loc))
-           (or (not (Btwn$0 next$0 ?x ?y ?z)) (not (Btwn$0 next$0 ?x ?u ?y))
-               (and (Btwn$0 next$0 ?x ?u ?z) (Btwn$0 next$0 ?u ?y ?z))))
-   :named btwn_trn3))
-
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/sets/jan24/remove_check_free_31_6.smt2 b/test/regress/regress0/sets/jan24/remove_check_free_31_6.smt2
deleted file mode 100644
index 2bf2d4c62..000000000
--- a/test/regress/regress0/sets/jan24/remove_check_free_31_6.smt2
+++ /dev/null
@@ -1,470 +0,0 @@
-(set-option :print-success false)
-(set-logic AUFLIAFS)
-(set-info :status unsat)
-(declare-sort Loc 0)
-(define-sort SetLoc () (Set Loc))
-(define-sort SetInt () (Set Int))
-(declare-sort FldLoc 0)
-(declare-sort FldInt 0)
-(declare-fun null$0 () Loc)
-(declare-fun read$0 (FldLoc Loc) Loc)
-(declare-fun write$0 (FldLoc Loc Loc) FldLoc)
-(declare-fun ep$0 (FldLoc SetLoc Loc) Loc)
-(declare-fun Btwn$0 (FldLoc Loc Loc Loc) Bool)
-(declare-fun Frame$0 (SetLoc SetLoc FldLoc FldLoc) Bool)
-(declare-fun Alloc$0 () SetLoc)
-(declare-fun FP$0 () SetLoc)
-(declare-fun FP_1$0 () SetLoc)
-(declare-fun FP_2$0 () SetLoc)
-(declare-fun FP_Caller$0 () SetLoc)
-(declare-fun FP_Caller_1$0 () SetLoc)
-(declare-fun curr_2$0 () Loc)
-(declare-fun curr_3$0 () Loc)
-(declare-fun lseg_domain$0 (FldLoc Loc Loc) SetLoc)
-(declare-fun lseg_struct$0 (SetLoc FldLoc Loc Loc) Bool)
-(declare-fun lst$0 () Loc)
-(declare-fun lst_1$0 () Loc)
-(declare-fun next$0 () FldLoc)
-(declare-fun next_1$0 () FldLoc)
-(declare-fun nondet_2$0 () Bool)
-(declare-fun sk_?X_27$0 () SetLoc)
-(declare-fun sk_?X_28$0 () SetLoc)
-(declare-fun sk_?X_29$0 () SetLoc)
-(declare-fun sk_?X_30$0 () SetLoc)
-(declare-fun sk_?X_31$0 () SetLoc)
-(declare-fun sk_?X_32$0 () SetLoc)
-(declare-fun sk_?X_33$0 () SetLoc)
-(declare-fun tmp_2$0 () Loc)
-
-(assert (! (forall ((?y Loc))
-           (or (not (Btwn$0 next$0 null$0 ?y ?y)) (= null$0 ?y)
-               (Btwn$0 next$0 null$0 (read$0 next$0 null$0) ?y)))
-   :named btwn_reach_8))
-
-(assert (! (forall ((?y Loc))
-           (or (not (Btwn$0 next$0 tmp_2$0 ?y ?y)) (= tmp_2$0 ?y)
-               (Btwn$0 next$0 tmp_2$0 (read$0 next$0 tmp_2$0) ?y)))
-   :named btwn_reach_9))
-
-(assert (! (forall ((?y Loc))
-           (or (not (Btwn$0 next$0 curr_3$0 ?y ?y)) (= curr_3$0 ?y)
-               (Btwn$0 next$0 curr_3$0 (read$0 next$0 curr_3$0) ?y)))
-   :named btwn_reach_10))
-
-(assert (! (forall ((?y Loc))
-           (or (not (= (read$0 next$0 null$0) null$0))
-               (not (Btwn$0 next$0 null$0 ?y ?y)) (= null$0 ?y)))
-   :named btwn_cycl_8))
-
-(assert (! (forall ((?y Loc))
-           (or (not (= (read$0 next$0 tmp_2$0) tmp_2$0))
-               (not (Btwn$0 next$0 tmp_2$0 ?y ?y)) (= tmp_2$0 ?y)))
-   :named btwn_cycl_9))
-
-(assert (! (forall ((?y Loc))
-           (or (not (= (read$0 next$0 curr_3$0) curr_3$0))
-               (not (Btwn$0 next$0 curr_3$0 ?y ?y)) (= curr_3$0 ?y)))
-   :named btwn_cycl_10))
-
-(assert (! (Btwn$0 next$0 null$0 (read$0 next$0 null$0) (read$0 next$0 null$0))
-   :named btwn_step_8))
-
-(assert (! (Btwn$0 next$0 tmp_2$0 (read$0 next$0 tmp_2$0) (read$0 next$0 tmp_2$0))
-   :named btwn_step_9))
-
-(assert (! (Btwn$0 next$0 curr_3$0 (read$0 next$0 curr_3$0) (read$0 next$0 curr_3$0))
-   :named btwn_step_10))
-
-(assert (! (forall ((?f FldLoc))
-           (or (member (ep$0 ?f sk_?X_30$0 null$0) sk_?X_30$0)
-               (= null$0 (ep$0 ?f sk_?X_30$0 null$0))))
-   :named entry-point3_10))
-
-(assert (! (forall ((?f FldLoc))
-           (or (member (ep$0 ?f sk_?X_30$0 lst_1$0) sk_?X_30$0)
-               (= lst_1$0 (ep$0 ?f sk_?X_30$0 lst_1$0))))
-   :named entry-point3_11))
-
-(assert (! (forall ((?f FldLoc))
-           (or (member (ep$0 ?f sk_?X_30$0 curr_3$0) sk_?X_30$0)
-               (= curr_3$0 (ep$0 ?f sk_?X_30$0 curr_3$0))))
-   :named entry-point3_12))
-
-(assert (! (forall ((?f FldLoc))
-           (or (member (ep$0 ?f sk_?X_30$0 tmp_2$0) sk_?X_30$0)
-               (= tmp_2$0 (ep$0 ?f sk_?X_30$0 tmp_2$0))))
-   :named entry-point3_13))
-
-(assert (! (forall ((?f FldLoc))
-           (Btwn$0 ?f null$0 (ep$0 ?f sk_?X_30$0 null$0)
-             (ep$0 ?f sk_?X_30$0 null$0)))
-   :named entry-point1_10))
-
-(assert (! (forall ((?f FldLoc))
-           (Btwn$0 ?f lst_1$0 (ep$0 ?f sk_?X_30$0 lst_1$0)
-             (ep$0 ?f sk_?X_30$0 lst_1$0)))
-   :named entry-point1_11))
-
-(assert (! (forall ((?f FldLoc))
-           (Btwn$0 ?f curr_3$0 (ep$0 ?f sk_?X_30$0 curr_3$0)
-             (ep$0 ?f sk_?X_30$0 curr_3$0)))
-   :named entry-point1_12))
-
-(assert (! (forall ((?f FldLoc))
-           (Btwn$0 ?f tmp_2$0 (ep$0 ?f sk_?X_30$0 tmp_2$0)
-             (ep$0 ?f sk_?X_30$0 tmp_2$0)))
-   :named entry-point1_13))
-
-(assert (! (forall ((?f FldLoc) (?y Loc))
-           (or (Btwn$0 ?f null$0 (ep$0 ?f sk_?X_30$0 null$0) ?y)
-               (not (Btwn$0 ?f null$0 ?y ?y)) (not (member ?y sk_?X_30$0))))
-   :named entry-point4_10))
-
-(assert (! (forall ((?f FldLoc) (?y Loc))
-           (or (Btwn$0 ?f lst_1$0 (ep$0 ?f sk_?X_30$0 lst_1$0) ?y)
-               (not (Btwn$0 ?f lst_1$0 ?y ?y)) (not (member ?y sk_?X_30$0))))
-   :named entry-point4_11))
-
-(assert (! (forall ((?f FldLoc) (?y Loc))
-           (or (Btwn$0 ?f curr_3$0 (ep$0 ?f sk_?X_30$0 curr_3$0) ?y)
-               (not (Btwn$0 ?f curr_3$0 ?y ?y)) (not (member ?y sk_?X_30$0))))
-   :named entry-point4_12))
-
-(assert (! (forall ((?f FldLoc) (?y Loc))
-           (or (Btwn$0 ?f tmp_2$0 (ep$0 ?f sk_?X_30$0 tmp_2$0) ?y)
-               (not (Btwn$0 ?f tmp_2$0 ?y ?y)) (not (member ?y sk_?X_30$0))))
-   :named entry-point4_13))
-
-(assert (! (forall ((?f FldLoc) (?y Loc))
-           (or (not (Btwn$0 ?f null$0 ?y ?y)) (not (member ?y sk_?X_30$0))
-               (member (ep$0 ?f sk_?X_30$0 null$0) sk_?X_30$0)))
-   :named entry-point2_10))
-
-(assert (! (forall ((?f FldLoc) (?y Loc))
-           (or (not (Btwn$0 ?f lst_1$0 ?y ?y)) (not (member ?y sk_?X_30$0))
-               (member (ep$0 ?f sk_?X_30$0 lst_1$0) sk_?X_30$0)))
-   :named entry-point2_11))
-
-(assert (! (forall ((?f FldLoc) (?y Loc))
-           (or (not (Btwn$0 ?f curr_3$0 ?y ?y)) (not (member ?y sk_?X_30$0))
-               (member (ep$0 ?f sk_?X_30$0 curr_3$0) sk_?X_30$0)))
-   :named entry-point2_12))
-
-(assert (! (forall ((?f FldLoc) (?y Loc))
-           (or (not (Btwn$0 ?f tmp_2$0 ?y ?y)) (not (member ?y sk_?X_30$0))
-               (member (ep$0 ?f sk_?X_30$0 tmp_2$0) sk_?X_30$0)))
-   :named entry-point2_13))
-
-(assert (! (= (read$0 (write$0 next$0 curr_3$0 (read$0 next$0 tmp_2$0)) curr_3$0)
-     (read$0 next$0 tmp_2$0))
-   :named read_write2))
-
-(assert (! (or (= null$0 curr_3$0)
-       (= (read$0 next$0 null$0)
-         (read$0 (write$0 next$0 curr_3$0 (read$0 next$0 tmp_2$0)) null$0)))
-   :named read_write1))
-
-(assert (! (or (= tmp_2$0 curr_3$0)
-       (= (read$0 next$0 tmp_2$0)
-         (read$0 (write$0 next$0 curr_3$0 (read$0 next$0 tmp_2$0)) tmp_2$0)))
-   :named read_write1_1))
-
-(assert (! (or (= curr_3$0 curr_3$0)
-       (= (read$0 next$0 curr_3$0)
-         (read$0 (write$0 next$0 curr_3$0 (read$0 next$0 tmp_2$0)) curr_3$0)))
-   :named read_write1_2))
-
-(assert (! (= (read$0 next$0 null$0) null$0) :named read_null_5))
-
-(assert (! (= (read$0 next_1$0 null$0) null$0) :named read_null_6))
-
-(assert (! (forall ((l1 Loc))
-           (or
-               (and (Btwn$0 next$0 lst$0 l1 curr_2$0)
-                    (member l1 (lseg_domain$0 next$0 lst$0 curr_2$0))
-                    (not (= l1 curr_2$0)))
-               (and
-                    (or (= l1 curr_2$0)
-                        (not (Btwn$0 next$0 lst$0 l1 curr_2$0)))
-                    (not (member l1 (lseg_domain$0 next$0 lst$0 curr_2$0))))))
-   :named lseg_footprint_20))
-
-(assert (! (forall ((l1 Loc))
-           (or
-               (and (Btwn$0 next$0 curr_3$0 l1 null$0)
-                    (member l1 (lseg_domain$0 next$0 curr_3$0 null$0))
-                    (not (= l1 null$0)))
-               (and
-                    (or (= l1 null$0)
-                        (not (Btwn$0 next$0 curr_3$0 l1 null$0)))
-                    (not (member l1 (lseg_domain$0 next$0 curr_3$0 null$0))))))
-   :named lseg_footprint_21))
-
-(assert (! (not (member tmp_2$0 FP_2$0)) :named check_free_31_6))
-
-(assert (! (not (member null$0 Alloc$0)) :named framecondition_of_remove_loop_18_4_15))
-
-(assert (! (not (= lst$0 null$0)) :named if_else_13_6_4))
-
-(assert (! (= FP_Caller$0 (union FP$0 FP_Caller$0))
-   :named precondition_of_remove_10_11_20))
-
-(assert (! (= sk_?X_33$0 FP$0) :named precondition_of_remove_10_11_21))
-
-(assert (! (lseg_struct$0 sk_?X_32$0 next$0 lst$0 curr_2$0) :named invariant_18_4_62))
-
-(assert (! (= FP$0 (union FP_1$0 FP$0)) :named invariant_18_4_63))
-
-(assert (! (= sk_?X_31$0 (lseg_domain$0 next$0 curr_2$0 null$0))
-   :named invariant_18_4_64))
-
-(assert (! (= sk_?X_30$0 (union sk_?X_31$0 sk_?X_32$0)) :named invariant_18_4_65))
-
-(assert (! (= (as emptyset SetLoc) (as emptyset SetLoc)) :named invariant_18_4_66))
-
-(assert (! (lseg_struct$0 sk_?X_28$0 next$0 curr_3$0 null$0)
-   :named invariant_18_4_67))
-
-(assert (! (= sk_?X_29$0 (union sk_?X_28$0 sk_?X_27$0)) :named invariant_18_4_68))
-
-(assert (! (= sk_?X_28$0 (lseg_domain$0 next$0 curr_3$0 null$0))
-   :named invariant_18_4_69))
-
-(assert (! (= (as emptyset SetLoc) (intersection sk_?X_27$0 sk_?X_28$0))
-   :named invariant_18_4_70))
-
-(assert (! (= Alloc$0 (union FP_Caller$0 Alloc$0))
-   :named initial_footprint_of_remove_10_11_10))
-
-(assert (! (Frame$0 FP_1$0 Alloc$0 next$0 next$0)
-   :named framecondition_of_remove_loop_18_4_16))
-
-(assert (! (= next_1$0 (write$0 next$0 curr_3$0 (read$0 next$0 tmp_2$0)))
-   :named assign_30_6))
-
-(assert (! (= curr_2$0 lst$0) :named assign_17_4_4))
-
-(assert (! (= FP_2$0
-     (union (setminus FP$0 FP_1$0)
-       (union (intersection Alloc$0 FP_1$0) (setminus Alloc$0 Alloc$0))))
-   :named framecondition_of_remove_loop_18_4_17))
-
-(assert (! (or (Btwn$0 next$0 lst$0 curr_2$0 curr_2$0)
-       (not (lseg_struct$0 sk_?X_32$0 next$0 lst$0 curr_2$0)))
-   :named unnamed_23))
-
-(assert (! (or (Btwn$0 next$0 curr_3$0 null$0 null$0)
-       (not (lseg_struct$0 sk_?X_28$0 next$0 curr_3$0 null$0)))
-   :named unnamed_24))
-
-(assert (! (or (= (read$0 next$0 curr_3$0) null$0) (not nondet_2$0))
-   :named unnamed_25))
-
-(assert (! (forall ((l1 Loc))
-           (or
-               (and (Btwn$0 next$0 lst_1$0 l1 curr_3$0)
-                    (member l1 (lseg_domain$0 next$0 lst_1$0 curr_3$0))
-                    (not (= l1 curr_3$0)))
-               (and
-                    (or (= l1 curr_3$0)
-                        (not (Btwn$0 next$0 lst_1$0 l1 curr_3$0)))
-                    (not (member l1 (lseg_domain$0 next$0 lst_1$0 curr_3$0))))))
-   :named lseg_footprint_22))
-
-(assert (! (forall ((l1 Loc))
-           (or
-               (and (Btwn$0 next$0 lst$0 l1 null$0)
-                    (member l1 (lseg_domain$0 next$0 lst$0 null$0))
-                    (not (= l1 null$0)))
-               (and (or (= l1 null$0) (not (Btwn$0 next$0 lst$0 l1 null$0)))
-                    (not (member l1 (lseg_domain$0 next$0 lst$0 null$0))))))
-   :named lseg_footprint_23))
-
-(assert (! (forall ((l1 Loc))
-           (or
-               (and (Btwn$0 next$0 curr_2$0 l1 null$0)
-                    (member l1 (lseg_domain$0 next$0 curr_2$0 null$0))
-                    (not (= l1 null$0)))
-               (and
-                    (or (= l1 null$0)
-                        (not (Btwn$0 next$0 curr_2$0 l1 null$0)))
-                    (not (member l1 (lseg_domain$0 next$0 curr_2$0 null$0))))))
-   :named lseg_footprint_24))
-
-(assert (! (not (member null$0 Alloc$0)) :named initial_footprint_of_remove_10_11_11))
-
-(assert (! (not (= tmp_2$0 null$0)) :named if_else_28_8_2))
-
-(assert (! (lseg_struct$0 sk_?X_33$0 next$0 lst$0 null$0)
-   :named precondition_of_remove_10_11_22))
-
-(assert (! (= sk_?X_33$0 (lseg_domain$0 next$0 lst$0 null$0))
-   :named precondition_of_remove_10_11_23))
-
-(assert (! (not (= curr_2$0 null$0)) :named invariant_18_4_71))
-
-(assert (! (lseg_struct$0 sk_?X_31$0 next$0 curr_2$0 null$0)
-   :named invariant_18_4_72))
-
-(assert (! (= sk_?X_32$0 (lseg_domain$0 next$0 lst$0 curr_2$0))
-   :named invariant_18_4_73))
-
-(assert (! (= sk_?X_30$0 FP_1$0) :named invariant_18_4_74))
-
-(assert (! (= (as emptyset SetLoc) (intersection sk_?X_32$0 sk_?X_31$0))
-   :named invariant_18_4_75))
-
-(assert (! (not (= curr_3$0 null$0)) :named invariant_18_4_76))
-
-(assert (! (lseg_struct$0 sk_?X_27$0 next$0 lst_1$0 curr_3$0)
-   :named invariant_18_4_77))
-
-(assert (! (= sk_?X_29$0
-     (union (intersection Alloc$0 FP_1$0) (setminus Alloc$0 Alloc$0)))
-   :named invariant_18_4_78))
-
-(assert (! (= sk_?X_27$0 (lseg_domain$0 next$0 lst_1$0 curr_3$0))
-   :named invariant_18_4_79))
-
-(assert (! (= (as emptyset SetLoc) (as emptyset SetLoc)) :named invariant_18_4_80))
-
-(assert (! (= Alloc$0 (union FP_2$0 Alloc$0))
-   :named framecondition_of_remove_loop_18_4_18))
-
-(assert (! (= tmp_2$0 (read$0 next$0 curr_3$0)) :named assign_27_4_2))
-
-(assert (! (= lst_1$0 lst$0) :named framecondition_of_remove_loop_18_4_19))
-
-(assert (! (= FP_Caller_1$0 (setminus FP_Caller$0 FP$0)) :named assign_13_2_5))
-
-(assert (! (or (Btwn$0 next$0 lst_1$0 curr_3$0 curr_3$0)
-       (not (lseg_struct$0 sk_?X_27$0 next$0 lst_1$0 curr_3$0)))
-   :named unnamed_26))
-
-(assert (! (or (Btwn$0 next$0 lst$0 null$0 null$0)
-       (not (lseg_struct$0 sk_?X_33$0 next$0 lst$0 null$0)))
-   :named unnamed_27))
-
-(assert (! (or (Btwn$0 next$0 curr_2$0 null$0 null$0)
-       (not (lseg_struct$0 sk_?X_31$0 next$0 curr_2$0 null$0)))
-   :named unnamed_28))
-
-(assert (! (forall ((?u Loc) (?v Loc) (?z Loc))
-           (and
-                (or
-                    (Btwn$0 (write$0 next$0 curr_3$0 (read$0 next$0 tmp_2$0))
-                      ?z ?u ?v)
-                    (not
-                         (or
-                             (and (Btwn$0 next$0 ?z ?u ?v)
-                                  (or (Btwn$0 next$0 ?z ?v curr_3$0)
-                                      (and (Btwn$0 next$0 ?z ?v ?v)
-                                           (not
-                                                (Btwn$0 next$0 ?z curr_3$0
-                                                  curr_3$0)))))
-                             (and (not (= curr_3$0 ?v))
-                                  (or (Btwn$0 next$0 ?z curr_3$0 ?v)
-                                      (and
-                                           (Btwn$0 next$0 ?z curr_3$0
-                                             curr_3$0)
-                                           (not (Btwn$0 next$0 ?z ?v ?v))))
-                                  (Btwn$0 next$0 ?z ?u curr_3$0)
-                                  (or
-                                      (Btwn$0 next$0 (read$0 next$0 tmp_2$0)
-                                        ?v curr_3$0)
-                                      (and
-                                           (Btwn$0 next$0
-                                             (read$0 next$0 tmp_2$0) ?v ?v)
-                                           (not
-                                                (Btwn$0 next$0
-                                                  (read$0 next$0 tmp_2$0)
-                                                  curr_3$0 curr_3$0)))))
-                             (and (not (= curr_3$0 ?v))
-                                  (or (Btwn$0 next$0 ?z curr_3$0 ?v)
-                                      (and
-                                           (Btwn$0 next$0 ?z curr_3$0
-                                             curr_3$0)
-                                           (not (Btwn$0 next$0 ?z ?v ?v))))
-                                  (Btwn$0 next$0 (read$0 next$0 tmp_2$0) ?u
-                                    ?v)
-                                  (or
-                                      (Btwn$0 next$0 (read$0 next$0 tmp_2$0)
-                                        ?v curr_3$0)
-                                      (and
-                                           (Btwn$0 next$0
-                                             (read$0 next$0 tmp_2$0) ?v ?v)
-                                           (not
-                                                (Btwn$0 next$0
-                                                  (read$0 next$0 tmp_2$0)
-                                                  curr_3$0 curr_3$0))))))))
-                (or
-                    (and (Btwn$0 next$0 ?z ?u ?v)
-                         (or (Btwn$0 next$0 ?z ?v curr_3$0)
-                             (and (Btwn$0 next$0 ?z ?v ?v)
-                                  (not (Btwn$0 next$0 ?z curr_3$0 curr_3$0)))))
-                    (and (not (= curr_3$0 ?v))
-                         (or (Btwn$0 next$0 ?z curr_3$0 ?v)
-                             (and (Btwn$0 next$0 ?z curr_3$0 curr_3$0)
-                                  (not (Btwn$0 next$0 ?z ?v ?v))))
-                         (Btwn$0 next$0 ?z ?u curr_3$0)
-                         (or
-                             (Btwn$0 next$0 (read$0 next$0 tmp_2$0) ?v
-                               curr_3$0)
-                             (and
-                                  (Btwn$0 next$0 (read$0 next$0 tmp_2$0) ?v
-                                    ?v)
-                                  (not
-                                       (Btwn$0 next$0 (read$0 next$0 tmp_2$0)
-                                         curr_3$0 curr_3$0)))))
-                    (and (not (= curr_3$0 ?v))
-                         (or (Btwn$0 next$0 ?z curr_3$0 ?v)
-                             (and (Btwn$0 next$0 ?z curr_3$0 curr_3$0)
-                                  (not (Btwn$0 next$0 ?z ?v ?v))))
-                         (Btwn$0 next$0 (read$0 next$0 tmp_2$0) ?u ?v)
-                         (or
-                             (Btwn$0 next$0 (read$0 next$0 tmp_2$0) ?v
-                               curr_3$0)
-                             (and
-                                  (Btwn$0 next$0 (read$0 next$0 tmp_2$0) ?v
-                                    ?v)
-                                  (not
-                                       (Btwn$0 next$0 (read$0 next$0 tmp_2$0)
-                                         curr_3$0 curr_3$0)))))
-                    (not
-                         (Btwn$0
-                           (write$0 next$0 curr_3$0 (read$0 next$0 tmp_2$0))
-                           ?z ?u ?v)))))
-   :named btwn_write))
-
-(assert (! (forall ((?x Loc)) (Btwn$0 next$0 ?x ?x ?x)) :named btwn_refl_5))
-
-(assert (! (forall ((?x Loc) (?y Loc)) (or (not (Btwn$0 next$0 ?x ?y ?x)) (= ?x ?y)))
-   :named btwn_sndw_5))
-
-(assert (! (forall ((?x Loc) (?y Loc) (?z Loc))
-           (or (not (Btwn$0 next$0 ?x ?y ?y)) (not (Btwn$0 next$0 ?x ?z ?z))
-               (Btwn$0 next$0 ?x ?y ?z) (Btwn$0 next$0 ?x ?z ?y)))
-   :named btwn_ord1_5))
-
-(assert (! (forall ((?x Loc) (?y Loc) (?z Loc))
-           (or (not (Btwn$0 next$0 ?x ?y ?z))
-               (and (Btwn$0 next$0 ?x ?y ?y) (Btwn$0 next$0 ?y ?z ?z))))
-   :named btwn_ord2_5))
-
-(assert (! (forall ((?x Loc) (?y Loc) (?z Loc))
-           (or (not (Btwn$0 next$0 ?x ?y ?y)) (not (Btwn$0 next$0 ?y ?z ?z))
-               (Btwn$0 next$0 ?x ?z ?z)))
-   :named btwn_trn1_5))
-
-(assert (! (forall ((?u Loc) (?x Loc) (?y Loc) (?z Loc))
-           (or (not (Btwn$0 next$0 ?x ?y ?z)) (not (Btwn$0 next$0 ?y ?u ?z))
-               (and (Btwn$0 next$0 ?x ?y ?u) (Btwn$0 next$0 ?x ?u ?z))))
-   :named btwn_trn2_5))
-
-(assert (! (forall ((?u Loc) (?x Loc) (?y Loc) (?z Loc))
-           (or (not (Btwn$0 next$0 ?x ?y ?z)) (not (Btwn$0 next$0 ?x ?u ?y))
-               (and (Btwn$0 next$0 ?x ?u ?z) (Btwn$0 next$0 ?u ?y ?z))))
-   :named btwn_trn3_5))
-
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/sets/jan27/ListElem.hs.fqout.cvc4.38.smt2 b/test/regress/regress0/sets/jan27/ListElem.hs.fqout.cvc4.38.smt2
deleted file mode 100644
index 3c0ef1dda..000000000
--- a/test/regress/regress0/sets/jan27/ListElem.hs.fqout.cvc4.38.smt2
+++ /dev/null
@@ -1,59 +0,0 @@
-(set-logic QF_ALL_SUPPORTED)
-(set-info :status unsat)
-
-; What was the bug?
-; 
-; When asserting equality to equality engine, correct reason
-; was not being sent (the fact itself was being sent as reason)
-
-(define-sort Elt () Int)
-(define-sort mySet () (Set Elt ))
-(define-fun smt_set_emp () mySet (as emptyset mySet))
-(define-fun smt_set_mem ((x Elt) (s mySet)) Bool (member x s))
-(define-fun smt_set_add ((s mySet) (x Elt)) mySet (union s (singleton x)))
-(define-fun smt_set_cup ((s1 mySet) (s2 mySet)) mySet (union s1 s2))
-(define-fun smt_set_cap ((s1 mySet) (s2 mySet)) mySet (intersection s1 s2))
-;(define-fun smt_set_com ((s mySet)) mySet ((_ map not) s))
-(define-fun smt_set_dif ((s1 mySet) (s2 mySet)) mySet (setminus s1 s2))
-;(define-fun smt_set_sub ((s1 mySet) (s2 mySet)) Bool (= smt_set_emp (smt_set_dif s1 s2)))
-(define-fun smt_set_sub ((s1 mySet) (s2 mySet)) Bool (subset s1 s2))
-(declare-fun z3v56 () Int)
-(declare-fun z3v57 () Int)
-(assert (distinct z3v56 z3v57))
-(declare-fun z3v58 () Int)
-(declare-fun z3f59 (Int) Int)
-(declare-fun z3v60 () Int)
-(declare-fun z3f61 (Int) Bool)
-(declare-fun z3v62 () Int)
-(declare-fun z3v63 () Int)
-(declare-fun z3v64 () Int)
-(declare-fun z3v65 () Int)
-(declare-fun z3f66 (Int) mySet)
-(declare-fun z3f67 (Int) Bool)
-(declare-fun z3f68 (Int Int) Int)
-(declare-fun z3v69 () Int)
-(declare-fun z3v70 () Int)
-(declare-fun z3f71 (Int) Int)
-(declare-fun z3v72 () Int)
-(declare-fun z3v73 () Int)
-(declare-fun z3v74 () Int)
-(declare-fun z3v75 () Int)
-(declare-fun z3v76 () Int)
-(declare-fun z3v77 () Int)
-(declare-fun z3v78 () Int)
-(declare-fun z3v80 () Int)
-(declare-fun z3v81 () Int)
-(declare-fun z3f82 () Int)
-(declare-fun z3v83 () Int)
-(declare-fun z3v84 () Int)
-(declare-fun z3v85 () Int)
-(declare-fun z3v86 () Int)
-(declare-fun z3v87 () Int)
-(declare-fun z3v88 () Int)
-(declare-fun z3v89 () Int)
-(declare-fun z3v90 () Int)
-(assert (= z3v90 z3v56))
-(assert (z3f61 z3v90))
-(assert (and (>= (z3f59 z3v58) 0) (z3f61 z3v60) (z3f61 z3v60) (= z3v60 z3v62) (= (z3f61 z3v60) (= z3v64 z3v63)) (= (z3f61 z3v62) (= z3v64 z3v63)) (>= (z3f59 z3v65) 0) (= (z3f66 z3v65) (smt_set_cup (smt_set_add smt_set_emp z3v64) (z3f66 z3v58))) (= (z3f59 z3v65) (+ 1 (z3f59 z3v58))) (= (z3f67 z3v65) false) (= z3v65 (z3f68 z3v64 z3v58)) (>= (z3f59 z3v65) 0) (= z3v65 z3v69) (>= (z3f59 z3v65) 0) (>= (z3f59 z3v69) 0) (z3f61 z3v56) (= (z3f71 z3v70) z3v70) (= (z3f71 z3v72) z3v72) (not (z3f61 z3v57)) (= (z3f71 z3v73) z3v73)))
-(assert (not (= (z3f61 z3v90) (smt_set_mem z3v63 (z3f66 z3v69)))))
-(check-sat)
diff --git a/test/regress/regress0/sets/jan27/deepmeas0.hs.fqout.cvc4.41.smt2 b/test/regress/regress0/sets/jan27/deepmeas0.hs.fqout.cvc4.41.smt2
deleted file mode 100644
index 83dfe41e5..000000000
--- a/test/regress/regress0/sets/jan27/deepmeas0.hs.fqout.cvc4.41.smt2
+++ /dev/null
@@ -1,58 +0,0 @@
-; EXPECT: sat
-(set-logic QF_ALL_SUPPORTED)
-(set-info :status sat)
-(define-sort Elt () Int)
-(define-sort mySet () (Set Elt ))
-(define-fun smt_set_emp () mySet (as emptyset mySet))
-(define-fun smt_set_mem ((x Elt) (s mySet)) Bool (member x s))
-(define-fun smt_set_add ((s mySet) (x Elt)) mySet (union s (singleton x)))
-(define-fun smt_set_cup ((s1 mySet) (s2 mySet)) mySet (union s1 s2))
-(define-fun smt_set_cap ((s1 mySet) (s2 mySet)) mySet (intersection s1 s2))
-;(define-fun smt_set_com ((s mySet)) mySet ((_ map not) s))
-(define-fun smt_set_dif ((s1 mySet) (s2 mySet)) mySet (setminus s1 s2))
-;(define-fun smt_set_sub ((s1 mySet) (s2 mySet)) Bool (= smt_set_emp (smt_set_dif s1 s2)))
-(define-fun smt_set_sub ((s1 mySet) (s2 mySet)) Bool (subset s1 s2))
-(declare-fun z3v58 () Int)
-(declare-fun z3v59 () Int)
-(assert (distinct z3v58 z3v59))
-(declare-fun z3f60 (Int) Bool)
-(declare-fun z3v61 () Int)
-(declare-fun z3f62 (Int) Int)
-(declare-fun z3v63 () Int)
-(declare-fun z3v64 () Int)
-(declare-fun z3v65 () Int)
-(declare-fun z3v66 () Int)
-(declare-fun z3f67 (Int) mySet)
-(declare-fun z3v69 () Int)
-(declare-fun z3f70 (Int) Int)
-(declare-fun z3v76 () Int)
-(declare-fun z3v77 () Int)
-(declare-fun z3v78 () Int)
-(declare-fun z3v79 () Int)
-(declare-fun z3v80 () Int)
-(declare-fun z3v81 () Int)
-(declare-fun z3v82 () Int)
-(declare-fun z3f83 (Int) Int)
-(declare-fun z3f84 (Int) Int)
-(declare-fun z3v85 () Int)
-(declare-fun z3f86 (Int) Int)
-(declare-fun z3f87 (Int Int) Int)
-(declare-fun z3v88 () Int)
-(declare-fun z3v89 () Int)
-(declare-fun z3f90 (Int) mySet)
-(declare-fun z3f91 (Int) Bool)
-(declare-fun z3f92 (Int Int) Int)
-(declare-fun z3v93 () Int)
-(declare-fun z3v94 () Int)
-(declare-fun z3v95 () Int)
-(declare-fun z3v96 () Int)
-(declare-fun z3v97 () Int)
-(assert (and (not (z3f60 z3v79)) (not (z3f60 z3v79)) (= z3v79 z3v80) (= (z3f60 z3v79) (= z3v76 z3v81)) (= (z3f60 z3v80) (= z3v76 z3v81)) (= (z3f83 z3v82) z3v81) (= (z3f84 z3v82) z3v81) (= (z3f86 z3v82) z3v85) (= z3v82 (z3f87 z3v81 z3v85)) (= z3v82 z3v88) (>= (z3f70 z3v78) 0) (= (z3f67 z3v78) (smt_set_cup (smt_set_add smt_set_emp (z3f83 z3v88)) (z3f67 z3v89))) (= (z3f90 z3v78) (smt_set_cup (smt_set_add smt_set_emp z3v88) (z3f90 z3v89))) (= (z3f70 z3v78) (+ 1 (z3f70 z3v89))) (= (z3f91 z3v78) false) (= z3v78 (z3f92 z3v88 z3v89)) (>= (z3f70 z3v78) 0) (= z3v78 z3v77) (>= (z3f70 z3v78) 0) (>= (z3f70 z3v89) 0) (>= (z3f70 z3v77) 0) (>= (z3f70 z3v97) 0) (= z3v97 z3v89) (>= (z3f70 z3v97) 0) (z3f60 z3v58) (= (z3f62 z3v61) z3v61) (= (z3f62 z3v63) z3v63) (not (z3f60 z3v59)) (= (z3f62 z3v64) z3v64)))
-(assert (smt_set_mem z3v76 (z3f67 z3v78)))
-(assert (<= z3v95 z3v93))
-(assert (>= z3v95 z3v93))
-(assert (= z3v95 z3v93))
-(assert (smt_set_mem z3v76 (z3f67 z3v77)))
-(declare-fun z3v98 () Int)
-(assert (not (<  z3v98 z3v85)))
-(check-sat)
diff --git a/test/regress/regress0/sets/jan28/TalkingAboutSets.hs.fqout.cvc4.3577.smt2 b/test/regress/regress0/sets/jan28/TalkingAboutSets.hs.fqout.cvc4.3577.smt2
deleted file mode 100644
index 282325f14..000000000
--- a/test/regress/regress0/sets/jan28/TalkingAboutSets.hs.fqout.cvc4.3577.smt2
+++ /dev/null
@@ -1,286 +0,0 @@
-; EXPECT: sat
-(set-logic QF_ALL_SUPPORTED)
-(set-info :status sat)
-(define-sort Elt () Int)
-(define-sort mySet () (Set Elt ))
-(define-fun smt_set_emp () mySet (as emptyset mySet))
-(define-fun smt_set_mem ((x Elt) (s mySet)) Bool (member x s))
-(define-fun smt_set_add ((s mySet) (x Elt)) mySet (union s (singleton x)))
-(define-fun smt_set_cup ((s1 mySet) (s2 mySet)) mySet (union s1 s2))
-(define-fun smt_set_cap ((s1 mySet) (s2 mySet)) mySet (intersection s1 s2))
-;(define-fun smt_set_com ((s mySet)) mySet ((_ map not) s))
-(define-fun smt_set_dif ((s1 mySet) (s2 mySet)) mySet (setminus s1 s2))
-;(define-fun smt_set_sub ((s1 mySet) (s2 mySet)) Bool (= smt_set_emp (smt_set_dif s1 s2)))
-(define-fun smt_set_sub ((s1 mySet) (s2 mySet)) Bool (subset s1 s2))
-(declare-fun z3v60 () Int)
-(declare-fun z3v61 () Int)
-(assert (distinct z3v60 z3v61))
-(declare-fun z3f62 (Int) Bool)
-(declare-fun z3v63 () Int)
-(declare-fun z3f64 (Int) Int)
-(declare-fun z3v65 () Int)
-(declare-fun z3v66 () Int)
-(declare-fun z3v69 () mySet)
-(declare-fun z3v70 () mySet)
-(declare-fun z3v72 () mySet)
-(declare-fun z3v73 () mySet)
-(declare-fun z3v75 () Int)
-(declare-fun z3f76 (Int) Int)
-(declare-fun z3v79 () Int)
-(declare-fun z3v80 () Int)
-(declare-fun z3v84 () Int)
-(declare-fun z3v87 () mySet)
-(declare-fun z3v88 () mySet)
-(declare-fun z3v90 () mySet)
-(declare-fun z3v91 () mySet)
-(declare-fun z3v93 () mySet)
-(declare-fun z3v94 () mySet)
-(declare-fun z3v96 () Int)
-(declare-fun z3f97 (Int) mySet)
-(declare-fun z3f98 (Int) Bool)
-(declare-fun z3v99 () Int)
-(declare-fun z3v102 () Int)
-(declare-fun z3v105 () mySet)
-(declare-fun z3v107 () mySet)
-(declare-fun z3v108 () mySet)
-(declare-fun z3v109 () Int)
-(declare-fun z3v110 () Int)
-(declare-fun z3v111 () Int)
-(declare-fun z3v112 () Int)
-(declare-fun z3v113 () mySet)
-(declare-fun z3v114 () mySet)
-(declare-fun z3v117 () mySet)
-(declare-fun z3v118 () mySet)
-(declare-fun z3v121 () mySet)
-(declare-fun z3v123 () mySet)
-(declare-fun z3v124 () mySet)
-(declare-fun z3v126 () mySet)
-(declare-fun z3v128 () Int)
-(declare-fun z3v132 () Int)
-(declare-fun z3v135 () mySet)
-(declare-fun z3v136 () mySet)
-(declare-fun z3v138 () mySet)
-(declare-fun z3v140 () Int)
-(declare-fun z3v143 () mySet)
-(declare-fun z3v144 () mySet)
-(declare-fun z3v145 () mySet)
-(declare-fun z3v146 () Int)
-(declare-fun z3v147 () Int)
-(declare-fun z3v148 () mySet)
-(declare-fun z3v149 () mySet)
-(declare-fun z3v155 () mySet)
-(declare-fun z3v156 () mySet)
-(declare-fun z3v157 () mySet)
-(declare-fun z3v160 () Int)
-(declare-fun z3v161 () Int)
-(declare-fun z3v162 () Int)
-(declare-fun z3v163 () Int)
-(declare-fun z3v164 () mySet)
-(declare-fun z3v165 () mySet)
-(declare-fun z3v169 () Int)
-(declare-fun z3v172 () mySet)
-(declare-fun z3v173 () mySet)
-(declare-fun z3v175 () Int)
-(declare-fun z3v176 () Int)
-(declare-fun z3v177 () Int)
-(declare-fun z3v178 () Int)
-(declare-fun z3f179 (Int Int) Int)
-(declare-fun z3v180 () Int)
-(declare-fun z3v181 () Int)
-(declare-fun z3f183 () Int)
-(declare-fun z3v184 () Int)
-(declare-fun z3v185 () Int)
-(declare-fun z3v186 () Int)
-(declare-fun z3v187 () Int)
-(declare-fun z3v188 () Int)
-(declare-fun z3v189 () Int)
-(declare-fun z3v192 () Int)
-(declare-fun z3v193 () Int)
-(declare-fun z3v197 () Int)
-(declare-fun z3v198 () mySet)
-(declare-fun z3v200 () Int)
-(declare-fun z3v201 () Int)
-(declare-fun z3v202 () Int)
-(declare-fun z3v203 () Int)
-(declare-fun z3v204 () Int)
-(declare-fun z3v206 () Int)
-(declare-fun z3v207 () Int)
-(declare-fun z3v208 () Int)
-(declare-fun z3v209 () Int)
-(declare-fun z3v210 () Int)
-(declare-fun z3v211 () Int)
-(declare-fun z3f212 (Int) Int)
-(declare-fun z3f213 (Int) Int)
-(declare-fun z3v214 () Int)
-(declare-fun z3v215 () Int)
-(declare-fun z3v217 () Int)
-(declare-fun z3v218 () Int)
-(declare-fun z3v219 () Int)
-(declare-fun z3v220 () Int)
-(declare-fun z3f221 (Int Int) Int)
-(declare-fun z3v222 () Int)
-(declare-fun z3v223 () Int)
-(declare-fun z3v224 () Int)
-(declare-fun z3v225 () Int)
-(declare-fun z3v226 () Int)
-(declare-fun z3v227 () Int)
-(declare-fun z3v228 () Int)
-(declare-fun z3v229 () Int)
-(declare-fun z3v230 () Int)
-(declare-fun z3v231 () Int)
-(declare-fun z3v232 () Int)
-(declare-fun z3v233 () Int)
-(declare-fun z3v234 () Int)
-(declare-fun z3v235 () Int)
-(declare-fun z3v236 () Int)
-(declare-fun z3v237 () Int)
-(declare-fun z3v238 () Int)
-(declare-fun z3v239 () Int)
-(declare-fun z3v240 () Int)
-(declare-fun z3v241 () Int)
-(declare-fun z3v242 () Int)
-(declare-fun z3v243 () Int)
-(declare-fun z3v244 () Int)
-(declare-fun z3v245 () Int)
-(declare-fun z3v246 () Int)
-(declare-fun z3v247 () Int)
-(declare-fun z3v248 () Int)
-(declare-fun z3v249 () Int)
-(declare-fun z3v250 () Int)
-(declare-fun z3v251 () Int)
-(declare-fun z3v252 () Int)
-(declare-fun z3v253 () Int)
-(declare-fun z3v254 () Int)
-(declare-fun z3v255 () Int)
-(declare-fun z3v256 () Int)
-(declare-fun z3v257 () Int)
-(declare-fun z3v258 () Int)
-(declare-fun z3v259 () Int)
-(declare-fun z3v260 () Int)
-(declare-fun z3v261 () Int)
-(declare-fun z3v262 () Int)
-(declare-fun z3v263 () Int)
-(declare-fun z3v264 () Int)
-(declare-fun z3v265 () Int)
-(declare-fun z3v266 () Int)
-(declare-fun z3v267 () Int)
-(declare-fun z3v268 () Int)
-(declare-fun z3v269 () Int)
-(declare-fun z3v271 () Int)
-(declare-fun z3v273 () Int)
-(declare-fun z3v275 () Int)
-(declare-fun z3v277 () Int)
-(declare-fun z3v279 () Int)
-(declare-fun z3v281 () Int)
-(declare-fun z3v283 () Int)
-(declare-fun z3v286 () Int)
-(declare-fun z3v289 () Int)
-(declare-fun z3v290 () Int)
-(declare-fun z3v291 () Int)
-(declare-fun z3v292 () mySet)
-(declare-fun z3v295 () mySet)
-(declare-fun z3v297 () Int)
-(declare-fun z3v301 () Int)
-(declare-fun z3v302 () Int)
-(declare-fun z3v303 () Int)
-(declare-fun z3v304 () Int)
-(declare-fun z3v305 () Int)
-(declare-fun z3v306 () Int)
-(declare-fun z3v307 () Int)
-(declare-fun z3v308 () Int)
-(declare-fun z3v309 () Int)
-(declare-fun z3v310 () Int)
-(declare-fun z3v312 () Int)
-(declare-fun z3v314 () Int)
-(declare-fun z3v315 () Int)
-(declare-fun z3v316 () Int)
-(declare-fun z3v317 () Int)
-(declare-fun z3v318 () Int)
-(declare-fun z3v319 () Int)
-(declare-fun z3v320 () Int)
-(declare-fun z3v321 () Int)
-(declare-fun z3v322 () Int)
-(declare-fun z3v324 () Int)
-(declare-fun z3v327 () Int)
-(declare-fun z3v328 () Int)
-(declare-fun z3v329 () Int)
-(declare-fun z3v330 () Int)
-(declare-fun z3v331 () Int)
-(declare-fun z3v332 () Int)
-(declare-fun z3v333 () Int)
-(declare-fun z3v334 () Int)
-(declare-fun z3v335 () Int)
-(declare-fun z3v336 () Int)
-(declare-fun z3v337 () Int)
-(declare-fun z3v338 () Int)
-(declare-fun z3v339 () Int)
-(declare-fun z3v340 () Int)
-(declare-fun z3v341 () Int)
-(declare-fun z3v342 () Int)
-(declare-fun z3v343 () Int)
-(declare-fun z3v345 () Int)
-(declare-fun z3v349 () Int)
-(declare-fun z3v350 () Int)
-(declare-fun z3v351 () Int)
-(declare-fun z3v352 () Int)
-(declare-fun z3v353 () Int)
-(declare-fun z3v354 () Int)
-(declare-fun z3v355 () Int)
-(declare-fun z3v359 () Int)
-(declare-fun z3v361 () Int)
-(declare-fun z3v362 () Int)
-(declare-fun z3v363 () Int)
-(declare-fun z3v364 () Int)
-(declare-fun z3v366 () Int)
-(declare-fun z3v367 () Int)
-(declare-fun z3v368 () Int)
-(declare-fun z3v369 () Int)
-(declare-fun z3v370 () Int)
-(declare-fun z3v375 () Int)
-(assert (= (z3f97 z3v328) (smt_set_cup (z3f97 z3v331) (z3f97 z3v375))))
-(assert (= (z3f97 z3v328) (smt_set_cup (z3f97 z3v330) (z3f97 z3v375))))
-(assert (= (z3f97 z3v328) (smt_set_cup (z3f97 z3v328) (z3f97 z3v375))))
-(assert (= (z3f97 z3v328) (smt_set_cup (z3f97 z3v327) (z3f97 z3v375))))
-(assert (= (z3f97 z3v331) (smt_set_cup (z3f97 z3v331) (z3f97 z3v375))))
-(assert (= (z3f97 z3v331) (smt_set_cup (z3f97 z3v330) (z3f97 z3v375))))
-(assert (= (z3f97 z3v331) (smt_set_cup (z3f97 z3v328) (z3f97 z3v375))))
-(assert (= (z3f97 z3v331) (smt_set_cup (z3f97 z3v327) (z3f97 z3v375))))
-(assert (= (z3f97 z3v375) (z3f97 z3v331)))
-(assert (= (z3f97 z3v375) (z3f97 z3v328)))
-(assert (= (z3f97 z3v375) (smt_set_cup (z3f97 z3v327) (z3f97 z3v331))))
-(assert (= (z3f97 z3v375) (smt_set_cup (z3f97 z3v327) (z3f97 z3v328))))
-(assert (= (z3f97 z3v375) (smt_set_cup (z3f97 z3v328) (z3f97 z3v331))))
-(assert (= (z3f97 z3v375) (smt_set_cup (z3f97 z3v328) (z3f97 z3v330))))
-(assert (= (z3f97 z3v375) (smt_set_cup (z3f97 z3v328) (z3f97 z3v328))))
-(assert (= (z3f97 z3v375) (smt_set_cup (z3f97 z3v328) (z3f97 z3v327))))
-(assert (= (z3f97 z3v375) (smt_set_cup (z3f97 z3v330) (z3f97 z3v331))))
-(assert (= (z3f97 z3v375) (smt_set_cup (z3f97 z3v330) (z3f97 z3v328))))
-(assert (= (z3f97 z3v375) (smt_set_cup (z3f97 z3v331) (z3f97 z3v331))))
-(assert (= (z3f97 z3v375) (smt_set_cup (z3f97 z3v331) (z3f97 z3v330))))
-(assert (= (z3f97 z3v375) (smt_set_cup (z3f97 z3v331) (z3f97 z3v328))))
-(assert (= (z3f97 z3v375) (smt_set_cup (z3f97 z3v331) (z3f97 z3v327))))
-(assert (smt_set_sub (z3f97 z3v375) (z3f97 z3v331)))
-(assert (smt_set_sub (z3f97 z3v375) (z3f97 z3v328)))
-(assert (<= z3v375 z3v331))
-(assert (<= z3v375 z3v328))
-(assert (= z3v375 z3v328))
-(assert (>= z3v375 z3v331))
-(assert (>= z3v375 z3v328))
-(assert (not (= z3v375 z3v330)))
-(assert (not (= z3v375 z3v327)))
-(assert (<= (z3f76 z3v375) (z3f76 z3v331)))
-(assert (<= (z3f76 z3v375) (z3f76 z3v328)))
-(assert (>  (z3f76 z3v375) (z3f76 z3v330)))
-(assert (>  (z3f76 z3v375) (z3f76 z3v327)))
-(assert (>= (z3f76 z3v375) (z3f76 z3v331)))
-(assert (>= (z3f76 z3v375) (z3f76 z3v330)))
-(assert (>= (z3f76 z3v375) (z3f76 z3v328)))
-(assert (>= (z3f76 z3v375) (z3f76 z3v327)))
-(assert (= (z3f76 z3v375) (z3f76 z3v331)))
-(assert (= (z3f76 z3v375) (z3f76 z3v328)))
-(assert (>  (z3f76 z3v375) 0))
-(assert (= z3v375 z3v331))
-(assert (>= (z3f76 z3v375) 0))
-(assert (and (>= (z3f76 z3v327) 0) (>= (z3f76 z3v328) 0) (= (z3f97 z3v328) (smt_set_cup (smt_set_add smt_set_emp z3v329) (z3f97 z3v330))) (= (z3f76 z3v328) (+ 1 (z3f76 z3v330))) (= (z3f98 z3v328) false) (= z3v328 (z3f179 z3v329 z3v330)) (>= (z3f76 z3v328) 0) (= z3v328 z3v331) (>= (z3f76 z3v328) 0) (>= (z3f76 z3v330) 0) (>= (z3f76 z3v331) 0) (z3f62 z3v60) (= (z3f64 z3v63) z3v63) (= (z3f64 z3v65) z3v65) (not (z3f62 z3v61)) (= (z3f64 z3v66) z3v66)))
-(assert (not (= (z3f97 z3v327) (smt_set_cup (z3f97 z3v327) (z3f97 z3v375)))))
-(check-sat)
diff --git a/test/regress/regress0/sets/jan30/UniqueZipper.hs.fqout.cvc4.10.smt2 b/test/regress/regress0/sets/jan30/UniqueZipper.hs.fqout.cvc4.10.smt2
deleted file mode 100644
index 10ed4be7c..000000000
--- a/test/regress/regress0/sets/jan30/UniqueZipper.hs.fqout.cvc4.10.smt2
+++ /dev/null
@@ -1,106 +0,0 @@
-(set-logic QF_ALL_SUPPORTED)
-(set-info :status unsat)
-(define-sort Elt () Int)
-(define-sort mySet () (Set Elt ))
-(define-fun smt_set_emp () mySet (as emptyset mySet))
-(define-fun smt_set_mem ((x Elt) (s mySet)) Bool (member x s))
-(define-fun smt_set_add ((s mySet) (x Elt)) mySet (union s (singleton x)))
-(define-fun smt_set_cup ((s1 mySet) (s2 mySet)) mySet (union s1 s2))
-(define-fun smt_set_cap ((s1 mySet) (s2 mySet)) mySet (intersection s1 s2))
-(define-fun smt_set_dif ((s1 mySet) (s2 mySet)) mySet (setminus s1 s2))
-(define-fun smt_set_sub ((s1 mySet) (s2 mySet)) Bool (subset s1 s2))
-(declare-fun z3v66 () Int)
-(declare-fun z3v67 () Int)
-(assert (distinct z3v66 z3v67))
-(declare-fun z3v68 () Int)
-(declare-fun z3f69 (Int) Int)
-(declare-fun z3f70 (Int) mySet)
-(declare-fun z3v71 () Int)
-(declare-fun z3f72 (Int) mySet)
-(declare-fun z3v73 () Int)
-(declare-fun z3v74 () Int)
-(declare-fun z3v75 () Int)
-(declare-fun z3f76 (Int) Bool)
-(declare-fun z3f77 (Int Int) Int)
-(declare-fun z3v78 () Int)
-(declare-fun z3f79 (Int) Bool)
-(declare-fun z3v80 () Int)
-(declare-fun z3f81 (Int) Int)
-(declare-fun z3v82 () Int)
-(declare-fun z3v83 () Int)
-(declare-fun z3v85 () Int)
-(declare-fun z3v86 () Int)
-(declare-fun z3v87 () Int)
-(declare-fun z3f88 () Int)
-(declare-fun z3v89 () Int)
-(declare-fun z3v90 () Int)
-(declare-fun z3v91 () Int)
-(declare-fun z3v92 () Int)
-(declare-fun z3v93 () Int)
-(declare-fun z3f94 (Int) Int)
-(declare-fun z3f95 (Int) Int)
-(declare-fun z3f96 (Int Int Int) Int)
-(declare-fun z3v97 () Int)
-(declare-fun z3v98 () Int)
-(declare-fun z3v99 () Int)
-(assert (= z3v99 z3v98))
-(assert (and (>= (z3f69 z3v85) 0)
-             (not (smt_set_mem z3v86 (z3f70 z3v85)))
-             (= (z3f72 z3v85) smt_set_emp)
-             (>= (z3f69 z3v87) 0)
-             (= (z3f72 z3v87) smt_set_emp)
-             (= (z3f70 z3v87) smt_set_emp)
-             (= (z3f69 z3v87) 0)
-             (= (z3f76 z3v87) true)
-             (= z3v87 z3f88)
-             (>= (z3f69 z3v87) 0)
-             (= z3v87 z3v89)
-             (>= (z3f69 z3v87) 0)
-             (= (z3f70 z3v87)
-                (z3f70 z3v90))
-             (= (z3f72 z3v87) smt_set_emp)
-             (>= (z3f69 z3v89) 0)
-             (= (z3f70 z3v89)
-                (z3f70 z3v90))
-             (= (z3f72 z3v89) smt_set_emp)
-             (>= (z3f69 z3v90) 0)
-             (= (z3f72 z3v90)
-                (ite (smt_set_mem z3v86 (z3f70 z3v85))
-                     (smt_set_cup (smt_set_add smt_set_emp z3v86)
-                                  (z3f72 z3v85))
-                     (z3f72 z3v85)))
-             (= (z3f70 z3v90)
-                (smt_set_cup (smt_set_add smt_set_emp z3v86)
-                             (z3f70 z3v85)))
-             (= (z3f69 z3v90)
-                (+ 1 (z3f69 z3v85)))
-             (= (z3f76 z3v90) false)
-             (>= (z3f69 z3v91) 0)
-             (= (z3f72 z3v91) smt_set_emp)
-             (= (z3f70 z3v91) smt_set_emp)
-             (= (z3f69 z3v91) 0)
-             (= (z3f76 z3v91) true)
-             (= z3v91 z3f88)
-             (>= (z3f69 z3v91) 0)
-             (= z3v91 z3v92)
-             (>= (z3f69 z3v91) 0)
-             (not (smt_set_mem z3v86 (z3f70 z3v91)))
-             (= (z3f72 z3v91) smt_set_emp)
-             (= (z3f94 z3v93) z3v92)
-             (= (z3f95 z3v93) z3v85)
-             (= z3v93 (z3f96 z3v86 z3v92 z3v85))
-             (= z3v93 z3v97)
-             (= (smt_set_cap (z3f70 (z3f94 z3v93))
-                             (z3f70 (z3f95 z3v93))) smt_set_emp)
-             (>= (z3f69 z3v92) 0)
-             (not (smt_set_mem z3v86 (z3f70 z3v92)))
-             (= (z3f72 z3v92) smt_set_emp)
-             (= (smt_set_cap (z3f70 (z3f94 z3v97))
-                             (z3f70 (z3f95 z3v97))) smt_set_emp)
-             (z3f79 z3v66)
-             (= (z3f81 z3v80) z3v80)
-             (= (z3f81 z3v82) z3v82)
-             (not (z3f79 z3v67))
-             (= (z3f81 z3v83) z3v83)))
-(assert (not (>  z3v99 z3v98)))
-(check-sat)
diff --git a/test/regress/regress0/sets/jan30/UniqueZipper.hs.fqout.cvc4.1832.smt2 b/test/regress/regress0/sets/jan30/UniqueZipper.hs.fqout.cvc4.1832.smt2
deleted file mode 100644
index 6165b98de..000000000
--- a/test/regress/regress0/sets/jan30/UniqueZipper.hs.fqout.cvc4.1832.smt2
+++ /dev/null
@@ -1,227 +0,0 @@
-(set-logic QF_ALL_SUPPORTED)
-(set-info :status unsat)
-(define-sort Elt () Int)
-(define-sort mySet () (Set Elt ))
-(define-fun smt_set_emp () mySet (as emptyset mySet))
-(define-fun smt_set_mem ((x Elt) (s mySet)) Bool (member x s))
-(define-fun smt_set_add ((s mySet) (x Elt)) mySet (union s (singleton x)))
-(define-fun smt_set_cup ((s1 mySet) (s2 mySet)) mySet (union s1 s2))
-(define-fun smt_set_cap ((s1 mySet) (s2 mySet)) mySet (intersection s1 s2))
-;(define-fun smt_set_com ((s mySet)) mySet ((_ map not) s))
-(define-fun smt_set_dif ((s1 mySet) (s2 mySet)) mySet (setminus s1 s2))
-;(define-fun smt_set_sub ((s1 mySet) (s2 mySet)) Bool (= smt_set_emp (smt_set_dif s1 s2)))
-(define-fun smt_set_sub ((s1 mySet) (s2 mySet)) Bool (subset s1 s2))
-(declare-fun z3v66 () Int)
-(declare-fun z3v67 () Int)
-(assert (distinct z3v66 z3v67))
-(declare-fun z3v68 () Int)
-(declare-fun z3f69 (Int) Int)
-(declare-fun z3f70 (Int) mySet)
-(declare-fun z3v71 () Int)
-(declare-fun z3f72 (Int) mySet)
-(declare-fun z3v73 () Int)
-(declare-fun z3v74 () Int)
-(declare-fun z3v75 () Int)
-(declare-fun z3f76 (Int) Bool)
-(declare-fun z3f77 (Int Int) Int)
-(declare-fun z3v78 () Int)
-(declare-fun z3f79 (Int) Bool)
-(declare-fun z3v80 () Int)
-(declare-fun z3f81 (Int) Int)
-(declare-fun z3v82 () Int)
-(declare-fun z3v83 () Int)
-(declare-fun z3v85 () Int)
-(declare-fun z3v86 () Int)
-(declare-fun z3v87 () Int)
-(declare-fun z3f88 () Int)
-(declare-fun z3v89 () Int)
-(declare-fun z3v90 () Int)
-(declare-fun z3v91 () Int)
-(declare-fun z3v92 () Int)
-(declare-fun z3v93 () Int)
-(declare-fun z3f94 (Int) Int)
-(declare-fun z3f95 (Int) Int)
-(declare-fun z3f96 (Int Int Int) Int)
-(declare-fun z3v97 () Int)
-(declare-fun z3v98 () Int)
-(declare-fun z3v99 () Int)
-(declare-fun z3v100 () Int)
-(declare-fun z3v101 () Int)
-(declare-fun z3v102 () Int)
-(declare-fun z3v103 () Int)
-(declare-fun z3v104 () Int)
-(declare-fun z3v105 () Int)
-(declare-fun z3v106 () Int)
-(declare-fun z3v107 () Int)
-(declare-fun z3v108 () Int)
-(declare-fun z3v109 () Int)
-(declare-fun z3v110 () Int)
-(declare-fun z3v113 () Int)
-(declare-fun z3v114 () Int)
-(declare-fun z3v115 () Int)
-(declare-fun z3v116 () Int)
-(declare-fun z3v117 () Int)
-(declare-fun z3v118 () Int)
-(declare-fun z3v120 () Int)
-(declare-fun z3v121 () Int)
-(declare-fun z3v122 () Int)
-(declare-fun z3v124 () Int)
-(declare-fun z3v125 () Int)
-(declare-fun z3v126 () Int)
-(declare-fun z3v127 () Int)
-(declare-fun z3v128 () Int)
-(declare-fun z3v129 () Int)
-(declare-fun z3v131 () Int)
-(declare-fun z3v132 () Int)
-(declare-fun z3v133 () Int)
-(declare-fun z3v134 () Int)
-(declare-fun z3v135 () Int)
-(declare-fun z3v136 () Int)
-(declare-fun z3v137 () Int)
-(declare-fun z3v138 () Int)
-(declare-fun z3v139 () Int)
-(declare-fun z3v140 () Int)
-(declare-fun z3v141 () Int)
-(declare-fun z3v142 () Int)
-(declare-fun z3v144 () Int)
-(declare-fun z3v145 () Int)
-(declare-fun z3v146 () Int)
-(declare-fun z3v149 () Int)
-(declare-fun z3v151 () Int)
-(declare-fun z3v154 () Int)
-(declare-fun z3v155 () Int)
-(declare-fun z3v156 () Int)
-(declare-fun z3v157 () Int)
-(declare-fun z3v158 () Int)
-(declare-fun z3v159 () Int)
-(declare-fun z3v161 () Int)
-(declare-fun z3v163 () Int)
-(declare-fun z3v164 () Int)
-(declare-fun z3v165 () Int)
-(declare-fun z3v167 () Int)
-(declare-fun z3v170 () Int)
-(declare-fun z3v174 () Int)
-(declare-fun z3v175 () Int)
-(declare-fun z3v176 () Int)
-(declare-fun z3v179 () Int)
-(declare-fun z3v181 () Int)
-(declare-fun z3v182 () Int)
-(declare-fun z3v183 () Int)
-(declare-fun z3v184 () Int)
-(declare-fun z3v187 () Int)
-(declare-fun z3v188 () Int)
-(declare-fun z3v189 () Int)
-(declare-fun z3v190 () Int)
-(declare-fun z3f191 (Int) Int)
-(declare-fun z3f192 (Int) Int)
-(declare-fun z3v195 () Int)
-(declare-fun z3v196 () Int)
-(declare-fun z3v199 () Int)
-(declare-fun z3v200 () Int)
-(declare-fun z3v201 () Int)
-(declare-fun z3v202 () Int)
-(declare-fun z3v203 () Int)
-(declare-fun z3v206 () Int)
-(declare-fun z3v207 () Int)
-(declare-fun z3v208 () Int)
-(declare-fun z3v210 () Int)
-(declare-fun z3v211 () Int)
-(declare-fun z3v212 () Int)
-(declare-fun z3f213 (Int) Bool)
-(declare-fun z3f214 (Int) Int)
-(declare-fun z3v215 () Int)
-(declare-fun z3v216 () Int)
-(declare-fun z3v218 () Int)
-(declare-fun z3v220 () Int)
-(declare-fun z3v221 () Int)
-(declare-fun z3v222 () Int)
-(declare-fun z3v223 () Int)
-(declare-fun z3v224 () Int)
-(declare-fun z3v225 () Int)
-(declare-fun z3v226 () Int)
-(declare-fun z3v227 () Int)
-(declare-fun z3v228 () Int)
-(declare-fun z3v229 () Int)
-(declare-fun z3v230 () Int)
-(declare-fun z3v231 () Int)
-(declare-fun z3v233 () Int)
-(declare-fun z3v236 () Int)
-(declare-fun z3v242 () Int)
-(declare-fun z3v243 () Int)
-(declare-fun z3v244 () Int)
-(declare-fun z3v245 () Int)
-(declare-fun z3v247 () Int)
-(declare-fun z3v248 () Int)
-(declare-fun z3v249 () Int)
-(declare-fun z3v250 () Int)
-(declare-fun z3v251 () Int)
-(declare-fun z3v252 () Int)
-(declare-fun z3v253 () Int)
-(declare-fun z3v255 () Int)
-(declare-fun z3v256 () Int)
-(declare-fun z3v258 () Int)
-(declare-fun z3v259 () Int)
-(declare-fun z3v261 () Int)
-(declare-fun z3v262 () Int)
-(declare-fun z3v263 () Int)
-(declare-fun z3v264 () Int)
-(declare-fun z3v266 () Int)
-(declare-fun z3v268 () Int)
-(declare-fun z3v270 () Int)
-(declare-fun z3v271 () Int)
-(declare-fun z3v272 () Int)
-(declare-fun z3v274 () Int)
-(declare-fun z3v275 () Int)
-(declare-fun z3v276 () Int)
-(declare-fun z3v278 () Int)
-(declare-fun z3v279 () Int)
-(declare-fun z3v281 () Int)
-(declare-fun z3v282 () Int)
-(declare-fun z3v283 () Int)
-(declare-fun z3v284 () Int)
-(declare-fun z3v285 () Int)
-(declare-fun z3v287 () Int)
-(declare-fun z3v289 () Int)
-(declare-fun z3v290 () Int)
-(declare-fun z3v291 () Int)
-(declare-fun z3v292 () Int)
-(declare-fun z3v293 () Int)
-(declare-fun z3v296 () Int)
-(declare-fun z3v298 () Int)
-(declare-fun z3v299 () Int)
-(declare-fun z3f300 (Int Int) Int)
-(declare-fun z3v301 () Int)
-(declare-fun z3v302 () Int)
-(declare-fun z3v303 () Int)
-(declare-fun z3v304 () Int)
-(declare-fun z3v308 () Int)
-(declare-fun z3v309 () Int)
-(declare-fun z3v310 () Int)
-(declare-fun z3v314 () Int)
-(declare-fun z3v315 () Int)
-(declare-fun z3v316 () Int)
-(declare-fun z3v317 () Int)
-(declare-fun z3v318 () Int)
-(declare-fun z3v319 () Int)
-(declare-fun z3v320 () Int)
-(declare-fun z3v324 () Int)
-(declare-fun z3v325 () Int)
-(declare-fun z3v326 () Int)
-(declare-fun z3v327 () Int)
-(declare-fun z3v328 () Int)
-(declare-fun z3v330 () Int)
-(declare-fun z3v332 () Int)
-(declare-fun z3v333 () Int)
-(declare-fun z3v334 () Int)
-(declare-fun z3v335 () Int)
-(declare-fun z3v336 () Int)
-(declare-fun z3v337 () Int)
-(declare-fun z3v339 () Int)
-(declare-fun z3v340 () Int)
-(declare-fun z3v341 () Int)
-(declare-fun z3v342 () Int)
-(assert (= z3v342 z3v113))
-(assert (>= (z3f69 z3v342) 0))
-(assert (and (>= (z3f69 z3v113) 0) (>= (z3f69 z3v114) 0) (= (z3f72 z3v114) smt_set_emp) (= (z3f70 z3v114) smt_set_emp) (= (z3f69 z3v114) 0) (= (z3f76 z3v114) true) (>= (z3f69 z3v115) 0) (= (z3f72 z3v115) (ite (smt_set_mem z3v116 (z3f70 z3v113)) (smt_set_cup (smt_set_add smt_set_emp z3v116) (z3f72 z3v113)) (z3f72 z3v113))) (= (z3f70 z3v115) (smt_set_cup (smt_set_add smt_set_emp z3v116) (z3f70 z3v113))) (= (z3f69 z3v115) (+ 1 (z3f69 z3v113))) (= (z3f76 z3v115) false) (= z3v115 (z3f77 z3v116 z3v113)) (>= (z3f69 z3v115) 0) (= z3v115 z3v117) (>= (z3f69 z3v115) 0) (= (z3f72 z3v115) smt_set_emp) (>= (z3f69 z3v117) 0) (= (z3f72 z3v117) smt_set_emp) (z3f79 z3v66) (= (z3f81 z3v80) z3v80) (= (z3f81 z3v82) z3v82) (not (z3f79 z3v67)) (= (z3f81 z3v83) z3v83)))
-(assert (not (and (= (z3f72 z3v342) smt_set_emp) (not (smt_set_mem z3v116 (z3f70 z3v342))))))
-(check-sat)
diff --git a/test/regress/regress0/sets/mar2014/UniqueZipper.hs.1030minimized.cvc4.smt2 b/test/regress/regress0/sets/mar2014/UniqueZipper.hs.1030minimized.cvc4.smt2
deleted file mode 100644
index 38477c46a..000000000
--- a/test/regress/regress0/sets/mar2014/UniqueZipper.hs.1030minimized.cvc4.smt2
+++ /dev/null
@@ -1,209 +0,0 @@
-; EXPECT: sat
-(set-logic QF_ALL_SUPPORTED)
-(define-sort Elt () Int)
-(define-sort mySet () (Set Elt ))
-(define-fun smt_set_emp () mySet (as emptyset mySet))
-(define-fun smt_set_mem ((x Elt) (s mySet)) Bool (member x s))
-(define-fun smt_set_add ((s mySet) (x Elt)) mySet (union s (singleton x)))
-(define-fun smt_set_cup ((s1 mySet) (s2 mySet)) mySet (union s1 s2))
-(define-fun smt_set_cap ((s1 mySet) (s2 mySet)) mySet (intersection s1 s2))
-(define-fun smt_set_dif ((s1 mySet) (s2 mySet)) mySet (setminus s1 s2))
-(define-fun smt_set_sub ((s1 mySet) (s2 mySet)) Bool (subset s1 s2))
-
-(declare-fun z3v66 () Int)
-(declare-fun z3v67 () Int)
-(assert (distinct z3v66 z3v67))
-
-(declare-fun z3f70 (Int) mySet)
-(declare-fun z3f72 (Int) mySet)
-(declare-fun z3f76 (Int) Bool)
-(declare-fun z3f77 (Int Int) Int)
-(declare-fun z3v78 () Int)
-(declare-fun z3f79 (Int) Bool)
-(declare-fun z3v80 () Int)
-(declare-fun z3f81 (Int) Int)
-(declare-fun z3v82 () Int)
-(declare-fun z3v83 () Int)
-(declare-fun z3v85 () Int)
-(declare-fun z3v86 () Int)
-(declare-fun z3v87 () Int)
-(declare-fun z3f88 () Int)
-(declare-fun z3v89 () Int)
-(declare-fun z3v90 () Int)
-(declare-fun z3v91 () Int)
-(declare-fun z3v92 () Int)
-(declare-fun z3v93 () Int)
-(declare-fun z3f94 (Int) Int)
-(declare-fun z3f95 (Int) Int)
-(declare-fun z3f96 (Int Int Int) Int)
-(declare-fun z3v97 () Int)
-(declare-fun z3v98 () Int)
-(declare-fun z3v99 () Int)
-(declare-fun z3v100 () Int)
-(declare-fun z3v101 () Int)
-(declare-fun z3v102 () Int)
-(declare-fun z3v103 () Int)
-(declare-fun z3v104 () Int)
-(declare-fun z3v105 () Int)
-(declare-fun z3v106 () Int)
-(declare-fun z3v107 () Int)
-(declare-fun z3v108 () Int)
-(declare-fun z3v109 () Int)
-(declare-fun z3v110 () Int)
-(declare-fun z3v113 () Int)
-(declare-fun z3v114 () Int)
-(declare-fun z3v115 () Int)
-(declare-fun z3v116 () Int)
-(declare-fun z3v117 () Int)
-(declare-fun z3v118 () Int)
-(declare-fun z3v120 () Int)
-(declare-fun z3v121 () Int)
-(declare-fun z3v122 () Int)
-(declare-fun z3v124 () Int)
-(declare-fun z3v125 () Int)
-(declare-fun z3v126 () Int)
-(declare-fun z3v127 () Int)
-(declare-fun z3v128 () Int)
-(declare-fun z3v129 () Int)
-(declare-fun z3v131 () Int)
-(declare-fun z3v132 () Int)
-(declare-fun z3v133 () Int)
-(declare-fun z3v134 () Int)
-(declare-fun z3v135 () Int)
-(declare-fun z3v136 () Int)
-(declare-fun z3v137 () Int)
-(declare-fun z3v138 () Int)
-(declare-fun z3v139 () Int)
-(declare-fun z3v140 () Int)
-(declare-fun z3v141 () Int)
-(declare-fun z3v142 () Int)
-(declare-fun z3v144 () Int)
-(declare-fun z3v145 () Int)
-(declare-fun z3v146 () Int)
-(declare-fun z3v149 () Int)
-(declare-fun z3v151 () Int)
-(declare-fun z3v154 () Int)
-(declare-fun z3v155 () Int)
-(declare-fun z3v156 () Int)
-(declare-fun z3v157 () Int)
-(declare-fun z3v158 () Int)
-(declare-fun z3v159 () Int)
-(declare-fun z3v161 () Int)
-(declare-fun z3v163 () Int)
-(declare-fun z3v164 () Int)
-(declare-fun z3v165 () Int)
-(declare-fun z3v167 () Int)
-(declare-fun z3v170 () Int)
-(declare-fun z3v174 () Int)
-(declare-fun z3v175 () Int)
-(declare-fun z3v176 () Int)
-(declare-fun z3v179 () Int)
-(declare-fun z3v181 () Int)
-(declare-fun z3v182 () Int)
-(declare-fun z3v183 () Int)
-(declare-fun z3v184 () Int)
-(declare-fun z3v187 () Int)
-(declare-fun z3v188 () Int)
-(declare-fun z3v189 () Int)
-(declare-fun z3v190 () Int)
-(declare-fun z3f191 (Int) Int)
-(declare-fun z3f192 (Int) Int)
-(declare-fun z3v195 () Int)
-(declare-fun z3v196 () Int)
-(declare-fun z3v199 () Int)
-(declare-fun z3v200 () Int)
-(declare-fun z3v201 () Int)
-(declare-fun z3v202 () Int)
-(declare-fun z3v203 () Int)
-(declare-fun z3v206 () Int)
-(declare-fun z3v207 () Int)
-(declare-fun z3v208 () Int)
-(declare-fun z3v210 () Int)
-(declare-fun z3v211 () Int)
-(declare-fun z3v212 () Int)
-(declare-fun z3f213 (Int) Bool)
-(declare-fun z3f214 (Int) Int)
-(declare-fun z3v215 () Int)
-(declare-fun z3v216 () Int)
-(declare-fun z3v218 () Int)
-(declare-fun z3v220 () Int)
-(declare-fun z3v221 () Int)
-(declare-fun z3v222 () Int)
-(declare-fun z3v223 () Int)
-(declare-fun z3v224 () Int)
-(declare-fun z3v225 () Int)
-(declare-fun z3v226 () Int)
-(declare-fun z3v227 () Int)
-(declare-fun z3v228 () Int)
-(declare-fun z3v229 () Int)
-(declare-fun z3v230 () Int)
-(declare-fun z3v231 () Int)
-(declare-fun z3v233 () Int)
-(declare-fun z3v236 () Int)
-(declare-fun z3v242 () Int)
-(declare-fun z3v243 () Int)
-(declare-fun z3v244 () Int)
-(declare-fun z3v245 () Int)
-(declare-fun z3v247 () Int)
-(declare-fun z3v248 () Int)
-(declare-fun z3v249 () Int)
-(declare-fun z3v250 () Int)
-(declare-fun z3v251 () Int)
-(declare-fun z3v252 () Int)
-(declare-fun z3v253 () Int)
-(declare-fun z3v255 () Int)
-(declare-fun z3v256 () Int)
-(declare-fun z3v258 () Int)
-(declare-fun z3v259 () Int)
-(declare-fun z3v261 () Int)
-(declare-fun z3v262 () Int)
-(declare-fun z3v263 () Int)
-(declare-fun z3v264 () Int)
-(declare-fun z3v266 () Int)
-(declare-fun z3v268 () Int)
-(declare-fun z3v270 () Int)
-(declare-fun z3v271 () Int)
-(declare-fun z3v272 () Int)
-
-(assert (and (not (smt_set_mem z3v132 (z3f70 z3v131)))
-	     (= (z3f72 z3v131) smt_set_emp)
-	     (= (z3f72 z3v133) smt_set_emp)
-	     (= (z3f72 z3v242)
-		(ite (smt_set_mem z3v271 (z3f70 z3v270))
-		     (smt_set_cup (smt_set_add smt_set_emp z3v271)
-				  (z3f72 z3v270))
-		     (z3f72 z3v270)))
-	     (= (z3f70 z3v242)
-		(smt_set_cup (smt_set_add smt_set_emp z3v271)
-			     (z3f70 z3v270)))
-	     (= z3v242 (z3f77 z3v271 z3v270))
-	     (= z3v242 z3v243)
-	     (smt_set_sub (z3f70 z3v242)
-	     		  (z3f70 z3v244))
-	     (= (z3f72 z3v242) smt_set_emp)
-	     (smt_set_sub (z3f70 z3v243)
-			  (z3f70 z3v244))
-	     (= (z3f72 z3v243) smt_set_emp)
-	     (= (z3f72 z3v244)
-		(ite (smt_set_mem z3v132 (z3f70 z3v131))
-		     (smt_set_cup (smt_set_add smt_set_emp z3v132)
-				  (z3f72 z3v131))
-		     (z3f72 z3v131)))
-	     (= (z3f70 z3v244)
-	     	(smt_set_cup (smt_set_add smt_set_emp z3v132)
-	     		     (z3f70 z3v131)))
-	     (= (z3f94 z3v134) z3v133)
-	     (= (z3f95 z3v134) z3v131)
-	     (= z3v134 z3v135)
-	     (= (smt_set_cap (z3f70 (z3f94 z3v134))
-			     (z3f70 (z3f95 z3v134))) smt_set_emp)
-	     (= (smt_set_cap (z3f70 (z3f94 z3v135))
-			     (z3f70 (z3f95 z3v135))) smt_set_emp)
-	     (= z3v272 z3v133)
-	     (= (z3f72 z3v272) smt_set_emp)
-  	     (= (z3f81 z3v80) z3v80)
-	     (= (z3f81 z3v82) z3v82)
-	     (= (z3f81 z3v83) z3v83)
-	     ))
-
-(check-sat)
diff --git a/test/regress/regress0/sets/mar2014/UniqueZipper.hs.1030minimized2.cvc4.smt2 b/test/regress/regress0/sets/mar2014/UniqueZipper.hs.1030minimized2.cvc4.smt2
deleted file mode 100644
index e282e446e..000000000
--- a/test/regress/regress0/sets/mar2014/UniqueZipper.hs.1030minimized2.cvc4.smt2
+++ /dev/null
@@ -1,202 +0,0 @@
-; EXPECT: sat
-(set-logic QF_ALL_SUPPORTED)
-(define-sort Elt () Int)
-(define-sort mySet () (Set Elt ))
-(define-fun smt_set_emp () mySet (as emptyset mySet))
-(define-fun smt_set_mem ((x Elt) (s mySet)) Bool (member x s))
-(define-fun smt_set_add ((s mySet) (x Elt)) mySet (union s (singleton x)))
-(define-fun smt_set_cup ((s1 mySet) (s2 mySet)) mySet (union s1 s2))
-(define-fun smt_set_cap ((s1 mySet) (s2 mySet)) mySet (intersection s1 s2))
-(define-fun smt_set_dif ((s1 mySet) (s2 mySet)) mySet (setminus s1 s2))
-(define-fun smt_set_sub ((s1 mySet) (s2 mySet)) Bool (subset s1 s2))
-
-(declare-fun z3f70 (Int) mySet)
-(declare-fun z3f72 (Int) mySet)
-(declare-fun z3f76 (Int) Bool)
-(declare-fun z3f77 (Int Int) Int)
-(declare-fun z3v78 () Int)
-(declare-fun z3f79 (Int) Bool)
-(declare-fun z3v80 () Int)
-(declare-fun z3f81 (Int) Int)
-(declare-fun z3v82 () Int)
-(declare-fun z3v83 () Int)
-(declare-fun z3v85 () Int)
-(declare-fun z3v86 () Int)
-(declare-fun z3v87 () Int)
-(declare-fun z3f88 () Int)
-(declare-fun z3v89 () Int)
-(declare-fun z3v90 () Int)
-(declare-fun z3v91 () Int)
-(declare-fun z3v92 () Int)
-(declare-fun z3v93 () Int)
-(declare-fun z3f94 (Int) Int)
-(declare-fun z3f95 (Int) Int)
-(declare-fun z3f96 (Int Int Int) Int)
-(declare-fun z3v97 () Int)
-(declare-fun z3v98 () Int)
-(declare-fun z3v99 () Int)
-(declare-fun z3v100 () Int)
-(declare-fun z3v101 () Int)
-(declare-fun z3v102 () Int)
-(declare-fun z3v103 () Int)
-(declare-fun z3v104 () Int)
-(declare-fun z3v105 () Int)
-(declare-fun z3v106 () Int)
-(declare-fun z3v107 () Int)
-(declare-fun z3v108 () Int)
-(declare-fun z3v109 () Int)
-(declare-fun z3v110 () Int)
-(declare-fun z3v113 () Int)
-(declare-fun z3v114 () Int)
-(declare-fun z3v115 () Int)
-(declare-fun z3v116 () Int)
-(declare-fun z3v117 () Int)
-(declare-fun z3v118 () Int)
-(declare-fun z3v120 () Int)
-(declare-fun z3v121 () Int)
-(declare-fun z3v122 () Int)
-(declare-fun z3v124 () Int)
-(declare-fun z3v125 () Int)
-(declare-fun z3v126 () Int)
-(declare-fun z3v127 () Int)
-(declare-fun z3v128 () Int)
-(declare-fun z3v129 () Int)
-(declare-fun z3v131 () Int)
-(declare-fun z3v132 () Int)
-(declare-fun z3v133 () Int)
-(declare-fun z3v134 () Int)
-(declare-fun z3v135 () Int)
-(declare-fun z3v136 () Int)
-(declare-fun z3v137 () Int)
-(declare-fun z3v138 () Int)
-(declare-fun z3v139 () Int)
-(declare-fun z3v140 () Int)
-(declare-fun z3v141 () Int)
-(declare-fun z3v142 () Int)
-(declare-fun z3v144 () Int)
-(declare-fun z3v145 () Int)
-(declare-fun z3v146 () Int)
-(declare-fun z3v149 () Int)
-(declare-fun z3v151 () Int)
-(declare-fun z3v154 () Int)
-(declare-fun z3v155 () Int)
-(declare-fun z3v156 () Int)
-(declare-fun z3v157 () Int)
-(declare-fun z3v158 () Int)
-(declare-fun z3v159 () Int)
-(declare-fun z3v161 () Int)
-(declare-fun z3v163 () Int)
-(declare-fun z3v164 () Int)
-(declare-fun z3v165 () Int)
-(declare-fun z3v167 () Int)
-(declare-fun z3v170 () Int)
-(declare-fun z3v174 () Int)
-(declare-fun z3v175 () Int)
-(declare-fun z3v176 () Int)
-(declare-fun z3v179 () Int)
-(declare-fun z3v181 () Int)
-(declare-fun z3v182 () Int)
-(declare-fun z3v183 () Int)
-(declare-fun z3v184 () Int)
-(declare-fun z3v187 () Int)
-(declare-fun z3v188 () Int)
-(declare-fun z3v189 () Int)
-(declare-fun z3v190 () Int)
-(declare-fun z3f191 (Int) Int)
-(declare-fun z3f192 (Int) Int)
-(declare-fun z3v195 () Int)
-(declare-fun z3v196 () Int)
-(declare-fun z3v199 () Int)
-(declare-fun z3v200 () Int)
-(declare-fun z3v201 () Int)
-(declare-fun z3v202 () Int)
-(declare-fun z3v203 () Int)
-(declare-fun z3v206 () Int)
-(declare-fun z3v207 () Int)
-(declare-fun z3v208 () Int)
-(declare-fun z3v210 () Int)
-(declare-fun z3v211 () Int)
-(declare-fun z3v212 () Int)
-(declare-fun z3f213 (Int) Bool)
-(declare-fun z3f214 (Int) Int)
-(declare-fun z3v215 () Int)
-(declare-fun z3v216 () Int)
-(declare-fun z3v218 () Int)
-(declare-fun z3v220 () Int)
-(declare-fun z3v221 () Int)
-(declare-fun z3v222 () Int)
-(declare-fun z3v223 () Int)
-(declare-fun z3v224 () Int)
-(declare-fun z3v225 () Int)
-(declare-fun z3v226 () Int)
-(declare-fun z3v227 () Int)
-(declare-fun z3v228 () Int)
-(declare-fun z3v229 () Int)
-(declare-fun z3v230 () Int)
-(declare-fun z3v231 () Int)
-(declare-fun z3v233 () Int)
-(declare-fun z3v236 () Int)
-(declare-fun z3v242 () Int)
-(declare-fun z3v243 () Int)
-(declare-fun z3v244 () Int)
-(declare-fun z3v245 () Int)
-(declare-fun z3v247 () Int)
-(declare-fun z3v248 () Int)
-(declare-fun z3v249 () Int)
-(declare-fun z3v250 () Int)
-(declare-fun z3v251 () Int)
-(declare-fun z3v252 () Int)
-(declare-fun z3v253 () Int)
-(declare-fun z3v255 () Int)
-(declare-fun z3v256 () Int)
-(declare-fun z3v258 () Int)
-(declare-fun z3v259 () Int)
-(declare-fun z3v261 () Int)
-(declare-fun z3v262 () Int)
-(declare-fun z3v263 () Int)
-(declare-fun z3v264 () Int)
-(declare-fun z3v266 () Int)
-(declare-fun z3v268 () Int)
-(declare-fun z3v270 () Int)
-(declare-fun z3v271 () Int)
-(declare-fun z3v272 () Int)
-
-
-(declare-fun z3v66 () Int)
-(declare-fun z3v67 () Int)
-(assert (distinct z3v66 z3v67))
-(assert (not (smt_set_mem z3v132 (z3f70 z3v131))))
-(assert (= (z3f72 z3v131) smt_set_emp))
-(assert (= (z3f72 z3v242)
-           (ite (smt_set_mem z3v271 (z3f70 z3v270))
-                (smt_set_cup (smt_set_add smt_set_emp z3v271)
-                             (z3f72 z3v270))
-                (z3f72 z3v270))))
-(assert (= (z3f70 z3v242)
-           (smt_set_cup (smt_set_add smt_set_emp z3v271)
-                        (z3f70 z3v270))))
-(assert (= z3v242 (z3f77 z3v271 z3v270)))
-(assert (= z3v242 z3v243))
-(assert (subset (z3f70 z3v242)
-                  (z3f70 z3v244)))
-(assert (= (z3f72 z3v243) smt_set_emp))
-(assert (= (z3f72 z3v244)
-           (ite (smt_set_mem z3v132 (z3f70 z3v131))
-                (smt_set_cup (smt_set_add smt_set_emp z3v132)
-                             (z3f72 z3v131))
-                (z3f72 z3v131))))
-(assert (= (z3f70 z3v244)
-           (smt_set_cup (smt_set_add smt_set_emp z3v132)
-                        (z3f70 z3v131))))
-(assert (= (z3f94 z3v134) z3v133))
-(assert (= (z3f95 z3v134) z3v131))
-(assert (= z3v134 z3v135))
-(assert (= (smt_set_cap (z3f70 (z3f94 z3v135))
-                        (z3f70 (z3f95 z3v135))) smt_set_emp))
-(assert (= z3v272 z3v133))
-(assert (= (z3f72 z3v272) smt_set_emp))
-(assert (= (z3f81 z3v80) z3v80))
-(assert (= (z3f81 z3v82) z3v82))
-(assert (= (z3f81 z3v83) z3v83))
-
-(check-sat)
diff --git a/test/regress/regress0/sets/mar2014/lemmabug-ListElts317minimized.smt2 b/test/regress/regress0/sets/mar2014/lemmabug-ListElts317minimized.smt2
deleted file mode 100644
index 0fc8ca067..000000000
--- a/test/regress/regress0/sets/mar2014/lemmabug-ListElts317minimized.smt2
+++ /dev/null
@@ -1,89 +0,0 @@
-; EXPECT: sat
-
-; Observed behavior:
-;   --check-model failed for set-term (union (z3f69 z3v151) (singleton z3v143))
-; with different set of elements in the model for representative and the node
-; itself.
-;
-; Issue:
-;   The trouble with data structure being mainted to ensure that things
-; for which lemmas have been generated are not generated again. This
-; data structure (d_pendingEverInserted) needs to be user context
-; dependent. The bug was in the sequence of steps from requesting that
-; a lemma be generated to when it actually was. Sequence was:
-; addToPending (and also adds to pending ever inserted) ->
-; isComplete (might remove things from pending if requirment met in other ways) ->
-; getLemma (actually generated the lemma, if requirement not already met)
-;
-; Resolution:
-;   adding terms to d_pendingEverInserted was moved from addToPending()
-; to getLemma().
-
-(set-logic QF_ALL_SUPPORTED)
-(set-info :status sat)
-(define-sort Elt () Int)
-(define-sort mySet () (Set Elt ))
-(define-fun smt_set_emp () mySet (as emptyset mySet))
-(define-fun smt_set_mem ((x Elt) (s mySet)) Bool (member x s))
-(define-fun smt_set_add ((s mySet) (x Elt)) mySet (union s (singleton x)))
-(define-fun smt_set_cup ((s1 mySet) (s2 mySet)) mySet (union s1 s2))
-(define-fun smt_set_cap ((s1 mySet) (s2 mySet)) mySet (intersection s1 s2))
-;(define-fun smt_set_com ((s mySet)) mySet ((_ map not) s))
-(define-fun smt_set_dif ((s1 mySet) (s2 mySet)) mySet (setminus s1 s2))
-;(define-fun smt_set_sub ((s1 mySet) (s2 mySet)) Bool (= smt_set_emp (smt_set_dif s1 s2)))
-(define-fun smt_set_sub ((s1 mySet) (s2 mySet)) Bool (subset s1 s2))
-
-(declare-fun z3v58 () Int)
-(declare-fun z3v59 () Int)
-(assert (distinct z3v58 z3v59))
-
-(declare-fun z3f60 (Int) Bool)
-(declare-fun z3v61 () Int)
-(declare-fun z3f62 (Int) Int)
-(declare-fun z3v63 () Int)
-(declare-fun z3v64 () Int)
-(declare-fun z3v67 () Int)
-(declare-fun z3f68 (Int) Int)
-(declare-fun z3f69 (Int) mySet)
-(declare-fun z3f70 (Int) mySet)
-(declare-fun z3f71 (Int) Bool)
-(declare-fun z3v90 () Int)
-(declare-fun z3v91 () Int)
-(declare-fun z3f92 (Int Int) Int)
-(declare-fun z3v140 () Int)
-(declare-fun z3v141 () Int)
-(declare-fun z3v142 () Int)
-(declare-fun z3v143 () Int)
-(declare-fun z3v144 () Int)
-(declare-fun z3v145 () Int)
-(declare-fun z3v147 () Int)
-(declare-fun z3v150 () Int)
-(declare-fun z3v151 () Int)
-(declare-fun z3v152 () Int)
-
-(assert (not (= (z3f69 z3v152)
-                (z3f69 z3v140))))
-
-(assert (= (z3f69 z3v151)
-           (smt_set_cup (z3f69 z3v141)
-                        (z3f69 z3v140))))
-
-(assert (= (z3f69 z3v152)
-           (smt_set_cup (singleton z3v143) (z3f69 z3v151))))
-
-(assert (= (z3f70 z3v152)
-           (smt_set_cup (singleton z3v143) (z3f70 z3v151))))
-
-(assert (and
-        (= (z3f69 z3v142)
-           (smt_set_cup (singleton z3v143) (z3f69 z3v141)))
-        (= (z3f70 z3v142)
-           (smt_set_cup (singleton z3v143) (z3f70 z3v141)))
-         (= z3v142 (z3f92 z3v143 z3v141))
-         (= z3v142 z3v144)
-         (= (z3f62 z3v61) z3v61)
-         (= (z3f62 z3v63) z3v63)
-         )
-        )
-
-(check-sat)
diff --git a/test/regress/regress0/sets/setofsets-disequal.smt2 b/test/regress/regress0/sets/setofsets-disequal.smt2
deleted file mode 100644
index 1702aab27..000000000
--- a/test/regress/regress0/sets/setofsets-disequal.smt2
+++ /dev/null
@@ -1,64 +0,0 @@
-; On a production build (as of 2014-05-16), takes several minutes
-; to finish (2967466 decisions).
-
-(set-logic QF_BVFS)
-(set-info :status unsat)
-
-(define-sort myset () (Set (Set (_ BitVec 1))))
-(declare-fun S () myset)
-
-; 0 elements
-(assert (not (= S (as emptyset myset))))
-
-; 1 element is S
-(assert (not (= S (singleton (as emptyset (Set (_ BitVec 1)))))))
-(assert (not (= S (singleton (singleton (_ bv0 1)) ))))
-(assert (not (= S (singleton (singleton (_ bv1 1)) ))))
-(assert (not (= S (singleton (union (singleton (_ bv0 1))
-                                  (singleton (_ bv1 1)))))))
-
-; 2 elements in S
-(assert (not (= S (union (singleton (as emptyset (Set (_ BitVec 1))))
-                         (singleton (singleton (_ bv0 1)))) )))
-(assert (not (= S (union (singleton (as emptyset (Set (_ BitVec 1))))
-                         (singleton (singleton (_ bv1 1)))))))
-(assert (not (= S (union (singleton (as emptyset (Set (_ BitVec 1))))
-                         (singleton (union (singleton (_ bv0 1))
-                                         (singleton (_ bv1 1))))))))
-(assert (not (= S (union (singleton (union (singleton (_ bv0 1))
-                                         (singleton (_ bv1 1))))
-                         (singleton (singleton (_ bv0 1)))) )))
-(assert (not (= S (union (singleton (singleton (_ bv0 1)))
-                         (singleton (singleton (_ bv1 1))))   )))
-(assert (not (= S (union (singleton (union (singleton (_ bv0 1))
-                                         (singleton (_ bv1 1))))
-                         (singleton (singleton (_ bv1 1)))))))
-
-; 3 elements in S
-(assert (not (= S (union (singleton (singleton (_ bv1 1)))
-                         (union (singleton (as emptyset (Set (_ BitVec 1))))
-                                (singleton (singleton (_ bv0 1)))))  )))
-(assert (not (= S (union (singleton (union (singleton (_ bv0 1))
-                                         (singleton (_ bv1 1))))
-                         (union (singleton (as emptyset (Set (_ BitVec 1))))
-                                (singleton (singleton (_ bv1 1)))))  )))
-(assert (not (= S (union (singleton (union (singleton (_ bv0 1))
-                                         (singleton (_ bv1 1))))
-                         (union (singleton (singleton (_ bv0 1)))
-                                (singleton (singleton (_ bv1 1)))))  )))
-(assert (not (= S (union (singleton (union (singleton (_ bv0 1))
-                                         (singleton (_ bv1 1))))
-                         (union (singleton (as emptyset (Set (_ BitVec 1))))
-                                (singleton (singleton (_ bv0 1)))))  )))
-
-; 4 elements in S
-(assert (not (= S (union (singleton (union (singleton (_ bv0 1))
-                                         (singleton (_ bv1 1))))
-                         (union (singleton (singleton (_ bv1 1)))
-                                (union (singleton (as emptyset (Set (_ BitVec 1))))
-                                       (singleton (singleton (_ bv0 1))))))  )))
-
-(check-sat)
-
-; if you delete any of the above assertions, you should get sat
-; (get-model)
diff --git a/test/regress/regress0/sets/sets-tuple-poly.cvc b/test/regress/regress0/sets/sets-tuple-poly.cvc
deleted file mode 100644
index 4cac9a24e..000000000
--- a/test/regress/regress0/sets/sets-tuple-poly.cvc
+++ /dev/null
@@ -1,17 +0,0 @@
-% EXPECT: sat
-OPTION "sets-ext";
-OPTION "logic" "ALL_SUPPORTED";
-
-a : SET OF [REAL, INT];
-b : SET OF [INT, REAL];
-
-x : [ REAL, REAL ];
-
-ASSERT NOT x = (0.0,0.0);
-
-ASSERT (x.0, FLOOR(x.1)) IS_IN a;
-ASSERT (FLOOR(x.0), x.1) IS_IN b;
-
-ASSERT NOT x.0 = x.1;
-
-CHECKSAT;
diff --git a/test/regress/regress0/sets/sharingbug.smt2 b/test/regress/regress0/sets/sharingbug.smt2
deleted file mode 100644
index b87579816..000000000
--- a/test/regress/regress0/sets/sharingbug.smt2
+++ /dev/null
@@ -1,157 +0,0 @@
-(set-info :source |fuzzsmt|)
-(set-info :smt-lib-version 2.0)
-(set-info :category "random")
-(set-info :status sat)
-(set-logic QF_UFLIAFS)
-(define-sort Element () Int)
-(declare-fun f0 ( Int Int Int) Int)
-(declare-fun f1 ( (Set Element)) (Set Element))
-(declare-fun p0 ( Int Int Int) Bool)
-(declare-fun p1 ( (Set Element)) Bool)
-(declare-fun v0 () Int)
-(declare-fun v1 () (Set Element))
-(declare-fun v2 () (Set Element))
-(declare-fun v3 () (Set Element))
-(assert (let ((e4 1))
-(let ((e5 (- v0)))
-(let ((e6 (* v0 (- e4))))
-(let ((e7 (ite (p0 v0 e5 v0) 1 0)))
-(let ((e8 (- e6 e7)))
-(let ((e9 (+ e5 v0)))
-(let ((e10 (ite (p0 e7 e7 e5) 1 0)))
-(let ((e11 (+ e8 e10)))
-(let ((e12 (* (- e4) e7)))
-(let ((e13 (- e10)))
-(let ((e14 (f0 e5 e7 e6)))
-(let ((e15 (member v0 v1)))
-(let ((e16 (member e12 v2)))
-(let ((e17 (member e14 v1)))
-(let ((e18 (f1 v3)))
-(let ((e19 (f1 v2)))
-(let ((e20 (f1 v1)))
-(let ((e21 (>= v0 e9)))
-(let ((e22 (> e6 e6)))
-(let ((e23 (> e5 e12)))
-(let ((e24 (distinct e8 e11)))
-(let ((e25 (= e10 e10)))
-(let ((e26 (> e13 e13)))
-(let ((e27 (distinct e14 e10)))
-(let ((e28 (> e11 e5)))
-(let ((e29 (>= e14 e6)))
-(let ((e30 (< e14 e14)))
-(let ((e31 (< e7 e12)))
-(let ((e32 (<= e11 e12)))
-(let ((e33 (< e14 e11)))
-(let ((e34 (<= e7 e9)))
-(let ((e35 (distinct e12 e5)))
-(let ((e36 (= e14 e6)))
-(let ((e37 (< v0 e8)))
-(let ((e38 (< e13 e14)))
-(let ((e39 (>= e6 e13)))
-(let ((e40 (< e12 e13)))
-(let ((e41 (< v0 e14)))
-(let ((e42 (< v0 e11)))
-(let ((e43 (p0 e13 e7 e8)))
-(let ((e44 (ite e17 e19 e19)))
-(let ((e45 (ite e34 v1 v1)))
-(let ((e46 (ite e28 v1 e44)))
-(let ((e47 (ite e24 e44 e20)))
-(let ((e48 (ite e39 e18 v3)))
-(let ((e49 (ite e35 v2 v3)))
-(let ((e50 (ite e38 e18 e20)))
-(let ((e51 (ite e22 v2 e44)))
-(let ((e52 (ite e17 e20 e18)))
-(let ((e53 (ite e35 e52 e19)))
-(let ((e54 (ite e38 e49 e20)))
-(let ((e55 (ite e15 e20 e45)))
-(let ((e56 (ite e37 v1 v3)))
-(let ((e57 (ite e41 e50 v1)))
-(let ((e58 (ite e28 v1 e54)))
-(let ((e59 (ite e27 e19 e53)))
-(let ((e60 (ite e16 e46 e44)))
-(let ((e61 (ite e29 e57 e52)))
-(let ((e62 (ite e21 e50 e53)))
-(let ((e63 (ite e32 e45 e19)))
-(let ((e64 (ite e42 v3 e57)))
-(let ((e65 (ite e33 e50 v3)))
-(let ((e66 (ite e43 e49 e20)))
-(let ((e67 (ite e22 v1 e63)))
-(let ((e68 (ite e40 e45 e19)))
-(let ((e69 (ite e30 e62 e58)))
-(let ((e70 (ite e24 e52 e58)))
-(let ((e71 (ite e31 e64 e67)))
-(let ((e72 (ite e30 e18 e20)))
-(let ((e73 (ite e25 e58 e44)))
-(let ((e74 (ite e36 e63 v3)))
-(let ((e75 (ite e43 e62 e73)))
-(let ((e76 (ite e26 e61 e55)))
-(let ((e77 (ite e23 e61 e71)))
-(let ((e78 (ite e40 e13 v0)))
-(let ((e79 (ite e23 e8 e13)))
-(let ((e80 (ite e24 e78 e6)))
-(let ((e81 (ite e39 e9 e80)))
-(let ((e82 (ite e31 e7 v0)))
-(let ((e83 (ite e43 e14 e6)))
-(let ((e84 (ite e38 e80 e81)))
-(let ((e85 (ite e32 e14 e10)))
-(let ((e86 (ite e29 e84 e78)))
-(let ((e87 (ite e27 e12 e8)))
-(let ((e88 (ite e31 e11 e6)))
-(let ((e89 (ite e33 e88 e85)))
-(let ((e90 (ite e36 e12 v0)))
-(let ((e91 (ite e23 e5 e7)))
-(let ((e92 (ite e34 e89 e80)))
-(let ((e93 (ite e15 e79 v0)))
-(let ((e94 (ite e21 e6 e7)))
-(let ((e95 (ite e26 v0 e91)))
-(let ((e96 (ite e28 e94 e87)))
-(let ((e97 (ite e32 e90 e78)))
-(let ((e98 (ite e42 e78 e83)))
-(let ((e99 (ite e40 e13 e82)))
-(let ((e100 (ite e25 e88 e90)))
-(let ((e101 (ite e26 e11 e81)))
-(let ((e102 (ite e17 e101 e81)))
-(let ((e103 (ite e30 v0 e80)))
-(let ((e104 (ite e28 e80 e79)))
-(let ((e105 (ite e27 e95 e101)))
-(let ((e106 (ite e22 e92 e94)))
-(let ((e107 (ite e16 e82 e94)))
-(let ((e108 (ite e41 e10 e78)))
-(let ((e109 (ite e37 e107 e84)))
-(let ((e110 (ite e35 e89 e92)))
-(let ((e111 (and e30 e37)))
-(let ((e112 (=> e21 e41)))
-(let ((e113 (ite e25 e33 e26)))
-(let ((e114 (and e34 e38)))
-(let ((e115 (=> e22 e43)))
-(let ((e116 (and e24 e35)))
-(let ((e117 (not e112)))
-(let ((e118 (=> e27 e116)))
-(let ((e119 (= e36 e15)))
-(let ((e120 (= e42 e42)))
-(let ((e121 (xor e29 e115)))
-(let ((e122 (xor e39 e16)))
-(let ((e123 (or e118 e32)))
-(let ((e124 (not e28)))
-(let ((e125 (=> e23 e40)))
-(let ((e126 (ite e17 e123 e111)))
-(let ((e127 (not e117)))
-(let ((e128 (not e31)))
-(let ((e129 (xor e121 e126)))
-(let ((e130 (or e125 e119)))
-(let ((e131 (=> e127 e114)))
-(let ((e132 (or e113 e128)))
-(let ((e133 (= e122 e124)))
-(let ((e134 (not e130)))
-(let ((e135 (or e133 e132)))
-(let ((e136 (= e129 e135)))
-(let ((e137 (=> e120 e120)))
-(let ((e138 (or e134 e137)))
-(let ((e139 (or e138 e138)))
-(let ((e140 (and e139 e131)))
-(let ((e141 (or e136 e136)))
-(let ((e142 (= e140 e141)))
-e142
-))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))
-
-(check-sat)
diff --git a/test/regress/regress0/sets/univ-set-uf-elim.smt2 b/test/regress/regress0/sets/univ-set-uf-elim.smt2
deleted file mode 100644
index a22f2a44f..000000000
--- a/test/regress/regress0/sets/univ-set-uf-elim.smt2
+++ /dev/null
@@ -1,16 +0,0 @@
-; EXPECT: (error "Extended set operators are not supported in default mode, try --sets-ext.")
-; EXIT: 1
-(set-logic ALL)
-(declare-fun a () Int)
-(declare-fun f ((Set Bool)) Int)
-(declare-fun s () (Set Bool))
-
-(assert (member true s))
-(assert (member false s))
-(assert (= a (f (as univset (Set Bool)))))
-
-(assert (= (f (as emptyset (Set Bool))) 1))
-(assert (= (f (singleton true)) 2))
-(assert (= (f (singleton false)) 3))
-(assert (= (f (union (singleton true) (singleton false))) 4))
-(check-sat)
diff --git a/test/regress/regress0/simple-rdl-definefun.smt2 b/test/regress/regress0/simple-rdl-definefun.smt2
deleted file mode 100644
index 6b38c6a70..000000000
--- a/test/regress/regress0/simple-rdl-definefun.smt2
+++ /dev/null
@@ -1,15 +0,0 @@
-(set-logic QF_RDL)
-(set-info :status unsat)
-(set-info :notes | Simple test, based on simple-rdl.smt2, of define-sort and define-fun |)
-(declare-fun x () Real)
-(declare-fun y () Real)
-(declare-sort U 0)
-(define-sort A (x y) y)
-(define-sort F (x) (A x x))
-(declare-fun x2 () (F Real))
-(define-fun minus ((x Real) (z Real)) (A (A U Bool) (A (F U) Real)) (- x z))
-(define-fun less ((x Real) (z Real)) Bool (< x z))
-(define-fun foo ((x (F Real)) (z (A U Real))) (F (F Bool)) (less x z))
-(assert (not (=> (foo (minus x y) 0) (less x y))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/simplification_bug4.smt2 b/test/regress/regress0/simplification_bug4.smt2
deleted file mode 100644
index 0d62d6921..000000000
--- a/test/regress/regress0/simplification_bug4.smt2
+++ /dev/null
@@ -1,295 +0,0 @@
-(set-logic QF_LIA)
-;; Simplified benchmark, derived from NuSMV output durationThm_1.bmc_k100.smt2
-;;
-;; Original version generated by Alberto Griggio <griggio@fbk.eu>
-;; on Fri Feb  4 15:56:12 2011
-(declare-fun sb_0__AT0 () Bool)
-(declare-fun si_0__AT0 () Int)
-(declare-fun si_1__AT0 () Int)
-(declare-fun sb_1__AT0 () Bool)
-(declare-fun si_2__AT0 () Int)
-(declare-fun si_3__AT0 () Int)
-(declare-fun sb_2__AT0 () Bool)
-(declare-fun si_4__AT0 () Int)
-(declare-fun si_5__AT0 () Int)
-(declare-fun sb_3__AT0 () Bool)
-(declare-fun sb_4__AT0 () Bool)
-(declare-fun sb_5__AT0 () Bool)
-(declare-fun si_6__AT0 () Int)
-(declare-fun si_7__AT0 () Int)
-(declare-fun si_8__AT0 () Int)
-(declare-fun si_9__AT0 () Int)
-(declare-fun si_10__AT0 () Int)
-(declare-fun si_11__AT0 () Int)
-(declare-fun sb_6__AT0 () Bool)
-(declare-fun sb_7__AT0 () Bool)
-(declare-fun si_12__AT0 () Int)
-(declare-fun si_13__AT0 () Int)
-(declare-fun si_14__AT0 () Int)
-(assert (let ((.def_61 (= si_2__AT0 si_4__AT0)))
-(let ((.def_60 (= si_3__AT0 si_5__AT0)))
-(let ((.def_62 (and .def_60 .def_61)))
-(let ((.def_63 (and sb_2__AT0 .def_62)))
-(let ((.def_59 (= si_8__AT0 0)))
-(let ((.def_64 (and .def_59 .def_63)))
-(let ((.def_58 (= si_11__AT0 0)))
-(let ((.def_65 (and .def_58 .def_64)))
-(let ((.def_53 (<= 1 si_0__AT0)))
-(let ((.def_52 (<= 1 si_1__AT0)))
-(let ((.def_54 (and .def_52 .def_53)))
-(let ((.def_48 (<= si_0__AT0 si_6__AT0)))
-(let ((.def_49 (not .def_48)))
-(let ((.def_50 (or sb_4__AT0 .def_49)))
-(let ((.def_55 (and .def_50 .def_54)))
-(let ((.def_45 (<= si_1__AT0 si_9__AT0)))
-(let ((.def_46 (not .def_45)))
-(let ((.def_47 (or sb_5__AT0 .def_46)))
-(let ((.def_56 (and .def_47 .def_55)))
-(let ((.def_57 (= sb_7__AT0 .def_56)))
-(let ((.def_66 (and .def_57 .def_65)))
-(let ((.def_44 (= si_14__AT0 0)))
-(let ((.def_67 (and .def_44 .def_66)))
-(let ((.def_33 (not sb_1__AT0)))
-(let ((.def_34 (or sb_2__AT0 .def_33)))
-(let ((.def_35 (= sb_0__AT0 .def_34)))
-(let ((.def_32 (= si_0__AT0 si_2__AT0)))
-(let ((.def_36 (and .def_32 .def_35)))
-(let ((.def_31 (= si_1__AT0 si_3__AT0)))
-(let ((.def_37 (and .def_31 .def_36)))
-(let ((.def_30 (= sb_1__AT0 sb_6__AT0)))
-(let ((.def_38 (and .def_30 .def_37)))
-(let ((.def_29 (= si_6__AT0 si_8__AT0)))
-(let ((.def_39 (and .def_29 .def_38)))
-(let ((.def_28 (= si_9__AT0 si_11__AT0)))
-(let ((.def_40 (and .def_28 .def_39)))
-(let ((.def_27 (= sb_6__AT0 sb_7__AT0)))
-(let ((.def_41 (and .def_27 .def_40)))
-(let ((.def_26 (= si_12__AT0 si_14__AT0)))
-(let ((.def_42 (and .def_26 .def_41)))
-(let ((.def_68 (and .def_42 .def_67)))
-.def_68
-))))))))))))))))))))))))))))))))))))))))))
-
-; (push 1)
-; (assert (let ((.def_69 (not sb_0__AT0)))
-; .def_69
-; ))
-; (check-sat)
-; (pop 1)
-
-(declare-fun sb_0__AT1 () Bool)
-(declare-fun si_0__AT1 () Int)
-(declare-fun si_1__AT1 () Int)
-(declare-fun sb_1__AT1 () Bool)
-(declare-fun si_2__AT1 () Int)
-(declare-fun si_3__AT1 () Int)
-(declare-fun sb_2__AT1 () Bool)
-(declare-fun si_4__AT1 () Int)
-(declare-fun si_5__AT1 () Int)
-(declare-fun sb_3__AT1 () Bool)
-(declare-fun sb_4__AT1 () Bool)
-(declare-fun sb_5__AT1 () Bool)
-(declare-fun si_6__AT1 () Int)
-(declare-fun si_7__AT1 () Int)
-(declare-fun si_8__AT1 () Int)
-(declare-fun si_9__AT1 () Int)
-(declare-fun si_10__AT1 () Int)
-(declare-fun si_11__AT1 () Int)
-(declare-fun sb_6__AT1 () Bool)
-(declare-fun sb_7__AT1 () Bool)
-(declare-fun si_12__AT1 () Int)
-(declare-fun si_13__AT1 () Int)
-(declare-fun si_14__AT1 () Int)
-(assert (let ((.def_163 (= si_0__AT0 si_2__AT1)))
-(let ((.def_162 (= si_1__AT0 si_3__AT1)))
-(let ((.def_164 (and .def_162 .def_163)))
-(let ((.def_155 (* (- 1) si_12__AT1)))
-(let ((.def_156 (+ si_1__AT1 .def_155)))
-(let ((.def_157 (+ si_0__AT1 .def_156)))
-(let ((.def_158 (<= .def_157 0)))
-(let ((.def_159 (not .def_158)))
-(let ((.def_160 (or sb_5__AT1 .def_159)))
-(let ((.def_161 (= sb_2__AT1 .def_160)))
-(let ((.def_165 (and .def_161 .def_164)))
-(let ((.def_147 (* (- 1) si_7__AT1)))
-(let ((.def_148 (+ si_6__AT0 .def_147)))
-(let ((.def_149 (= .def_148 (- 1))))
-(let ((.def_142 (not sb_3__AT0)))
-(let ((.def_150 (or .def_142 .def_149)))
-(let ((.def_144 (= si_7__AT1 0)))
-(let ((.def_145 (or sb_3__AT0 .def_144)))
-(let ((.def_151 (and .def_145 .def_150)))
-(let ((.def_139 (* (- 1) si_13__AT1)))
-(let ((.def_140 (+ si_12__AT0 .def_139)))
-(let ((.def_141 (= .def_140 (- 1))))
-(let ((.def_143 (or .def_141 .def_142)))
-(let ((.def_152 (and .def_143 .def_151)))
-(let ((.def_136 (= si_13__AT1 0)))
-(let ((.def_137 (or sb_3__AT0 .def_136)))
-(let ((.def_153 (and .def_137 .def_152)))
-(let ((.def_166 (and .def_153 .def_165)))
-(let ((.def_133 (not sb_4__AT0)))
-(let ((.def_130 (* (- 1) si_10__AT1)))
-(let ((.def_131 (+ si_9__AT0 .def_130)))
-(let ((.def_132 (= .def_131 (- 1))))
-(let ((.def_134 (or .def_132 .def_133)))
-(let ((.def_126 (= si_10__AT1 0)))
-(let ((.def_127 (or sb_4__AT0 .def_126)))
-(let ((.def_135 (and .def_127 .def_134)))
-(let ((.def_167 (and .def_135 .def_166)))
-(let ((.def_125 (= si_7__AT1 si_8__AT1)))
-(let ((.def_168 (and .def_125 .def_167)))
-(let ((.def_124 (= si_10__AT1 si_11__AT1)))
-(let ((.def_169 (and .def_124 .def_168)))
-(let ((.def_118 (<= 1 si_0__AT1)))
-(let ((.def_117 (<= 1 si_1__AT1)))
-(let ((.def_119 (and .def_117 .def_118)))
-(let ((.def_114 (<= si_0__AT1 si_6__AT1)))
-(let ((.def_115 (not .def_114)))
-(let ((.def_116 (or sb_4__AT1 .def_115)))
-(let ((.def_120 (and .def_116 .def_119)))
-(let ((.def_111 (<= si_1__AT1 si_9__AT1)))
-(let ((.def_112 (not .def_111)))
-(let ((.def_113 (or sb_5__AT1 .def_112)))
-(let ((.def_121 (and .def_113 .def_120)))
-(let ((.def_122 (and sb_6__AT0 .def_121)))
-(let ((.def_123 (= sb_7__AT1 .def_122)))
-(let ((.def_170 (and .def_123 .def_169)))
-(let ((.def_110 (= si_13__AT1 si_14__AT1)))
-(let ((.def_171 (and .def_110 .def_170)))
-(let ((.def_100 (not sb_1__AT1)))
-(let ((.def_101 (or sb_2__AT1 .def_100)))
-(let ((.def_102 (= sb_0__AT1 .def_101)))
-(let ((.def_99 (= si_0__AT1 si_2__AT1)))
-(let ((.def_103 (and .def_99 .def_102)))
-(let ((.def_98 (= si_1__AT1 si_3__AT1)))
-(let ((.def_104 (and .def_98 .def_103)))
-(let ((.def_97 (= sb_1__AT1 sb_6__AT1)))
-(let ((.def_105 (and .def_97 .def_104)))
-(let ((.def_96 (= si_6__AT1 si_8__AT1)))
-(let ((.def_106 (and .def_96 .def_105)))
-(let ((.def_95 (= si_9__AT1 si_11__AT1)))
-(let ((.def_107 (and .def_95 .def_106)))
-(let ((.def_94 (= sb_6__AT1 sb_7__AT1)))
-(let ((.def_108 (and .def_94 .def_107)))
-(let ((.def_93 (= si_12__AT1 si_14__AT1)))
-(let ((.def_109 (and .def_93 .def_108)))
-(let ((.def_172 (and .def_109 .def_171)))
-(let ((.def_173 (and sb_0__AT0 .def_172)))
-.def_173
-)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))
-
-; (push 1)
-; (assert (let ((.def_174 (not sb_0__AT1)))
-; .def_174
-; ))
-; (check-sat)
-; (pop 1)
-
-(declare-fun sb_0__AT2 () Bool)
-(declare-fun si_0__AT2 () Int)
-(declare-fun si_1__AT2 () Int)
-(declare-fun sb_1__AT2 () Bool)
-(declare-fun si_2__AT2 () Int)
-(declare-fun si_3__AT2 () Int)
-(declare-fun sb_2__AT2 () Bool)
-(declare-fun si_4__AT2 () Int)
-(declare-fun si_5__AT2 () Int)
-(declare-fun sb_3__AT2 () Bool)
-(declare-fun sb_4__AT2 () Bool)
-(declare-fun sb_5__AT2 () Bool)
-(declare-fun si_6__AT2 () Int)
-(declare-fun si_7__AT2 () Int)
-(declare-fun si_8__AT2 () Int)
-(declare-fun si_9__AT2 () Int)
-(declare-fun si_10__AT2 () Int)
-(declare-fun si_11__AT2 () Int)
-(declare-fun sb_6__AT2 () Bool)
-(declare-fun sb_7__AT2 () Bool)
-(declare-fun si_12__AT2 () Int)
-(declare-fun si_13__AT2 () Int)
-(declare-fun si_14__AT2 () Int)
-(assert (let ((.def_267 (= si_0__AT1 si_2__AT2)))
-(let ((.def_266 (= si_1__AT1 si_3__AT2)))
-(let ((.def_268 (and .def_266 .def_267)))
-(let ((.def_259 (* (- 1) si_12__AT2)))
-(let ((.def_260 (+ si_1__AT2 .def_259)))
-(let ((.def_261 (+ si_0__AT2 .def_260)))
-(let ((.def_262 (<= .def_261 0)))
-(let ((.def_263 (not .def_262)))
-(let ((.def_264 (or sb_5__AT2 .def_263)))
-(let ((.def_265 (= sb_2__AT2 .def_264)))
-(let ((.def_269 (and .def_265 .def_268)))
-(let ((.def_251 (* (- 1) si_7__AT2)))
-(let ((.def_252 (+ si_6__AT1 .def_251)))
-(let ((.def_253 (= .def_252 (- 1))))
-(let ((.def_246 (not sb_3__AT1)))
-(let ((.def_254 (or .def_246 .def_253)))
-(let ((.def_248 (= si_7__AT2 0)))
-(let ((.def_249 (or sb_3__AT1 .def_248)))
-(let ((.def_255 (and .def_249 .def_254)))
-(let ((.def_243 (* (- 1) si_13__AT2)))
-(let ((.def_244 (+ si_12__AT1 .def_243)))
-(let ((.def_245 (= .def_244 (- 1))))
-(let ((.def_247 (or .def_245 .def_246)))
-(let ((.def_256 (and .def_247 .def_255)))
-(let ((.def_240 (= si_13__AT2 0)))
-(let ((.def_241 (or sb_3__AT1 .def_240)))
-(let ((.def_257 (and .def_241 .def_256)))
-(let ((.def_270 (and .def_257 .def_269)))
-(let ((.def_237 (not sb_4__AT1)))
-(let ((.def_234 (* (- 1) si_10__AT2)))
-(let ((.def_235 (+ si_9__AT1 .def_234)))
-(let ((.def_236 (= .def_235 (- 1))))
-(let ((.def_238 (or .def_236 .def_237)))
-(let ((.def_231 (= si_10__AT2 0)))
-(let ((.def_232 (or sb_4__AT1 .def_231)))
-(let ((.def_239 (and .def_232 .def_238)))
-(let ((.def_271 (and .def_239 .def_270)))
-(let ((.def_230 (= si_7__AT2 si_8__AT2)))
-(let ((.def_272 (and .def_230 .def_271)))
-(let ((.def_229 (= si_10__AT2 si_11__AT2)))
-(let ((.def_273 (and .def_229 .def_272)))
-(let ((.def_223 (<= 1 si_0__AT2)))
-(let ((.def_222 (<= 1 si_1__AT2)))
-(let ((.def_224 (and .def_222 .def_223)))
-(let ((.def_219 (<= si_0__AT2 si_6__AT2)))
-(let ((.def_220 (not .def_219)))
-(let ((.def_221 (or sb_4__AT2 .def_220)))
-(let ((.def_225 (and .def_221 .def_224)))
-(let ((.def_216 (<= si_1__AT2 si_9__AT2)))
-(let ((.def_217 (not .def_216)))
-(let ((.def_218 (or sb_5__AT2 .def_217)))
-(let ((.def_226 (and .def_218 .def_225)))
-(let ((.def_227 (and sb_6__AT1 .def_226)))
-(let ((.def_228 (= sb_7__AT2 .def_227)))
-(let ((.def_274 (and .def_228 .def_273)))
-(let ((.def_215 (= si_13__AT2 si_14__AT2)))
-(let ((.def_275 (and .def_215 .def_274)))
-(let ((.def_205 (not sb_1__AT2)))
-(let ((.def_206 (or sb_2__AT2 .def_205)))
-(let ((.def_207 (= sb_0__AT2 .def_206)))
-(let ((.def_204 (= si_0__AT2 si_2__AT2)))
-(let ((.def_208 (and .def_204 .def_207)))
-(let ((.def_203 (= si_1__AT2 si_3__AT2)))
-(let ((.def_209 (and .def_203 .def_208)))
-(let ((.def_202 (= sb_1__AT2 sb_6__AT2)))
-(let ((.def_210 (and .def_202 .def_209)))
-(let ((.def_201 (= si_6__AT2 si_8__AT2)))
-(let ((.def_211 (and .def_201 .def_210)))
-(let ((.def_200 (= si_9__AT2 si_11__AT2)))
-(let ((.def_212 (and .def_200 .def_211)))
-(let ((.def_199 (= sb_6__AT2 sb_7__AT2)))
-(let ((.def_213 (and .def_199 .def_212)))
-(let ((.def_198 (= si_12__AT2 si_14__AT2)))
-(let ((.def_214 (and .def_198 .def_213)))
-(let ((.def_276 (and .def_214 .def_275)))
-(let ((.def_277 (and sb_0__AT1 .def_276)))
-.def_277
-)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))
-
-(push 1)
-(assert (not sb_0__AT2))
-(check-sat)
-(pop 1)
-
diff --git a/test/regress/regress0/simplification_bug4.smt2.expect b/test/regress/regress0/simplification_bug4.smt2.expect
deleted file mode 100644
index 1ed776c9e..000000000
--- a/test/regress/regress0/simplification_bug4.smt2.expect
+++ /dev/null
@@ -1,2 +0,0 @@
-% COMMAND-LINE: --incremental
-% EXPECT: unsat
diff --git a/test/regress/regress0/sqrt2-sort-inf-unk.smt2 b/test/regress/regress0/sqrt2-sort-inf-unk.smt2
deleted file mode 100644
index f4b15020a..000000000
--- a/test/regress/regress0/sqrt2-sort-inf-unk.smt2
+++ /dev/null
@@ -1,6 +0,0 @@
-; COMMAND-LINE: --sort-inference
-; EXPECT: unknown
-(set-logic QF_NRA)
-(declare-fun x () Real)
-(assert (= (* x x) 2.0))
-(check-sat)
diff --git a/test/regress/regress0/strings/Makefile.am b/test/regress/regress0/strings/Makefile.am
index 7f7511e74..23b13aea2 100644
--- a/test/regress/regress0/strings/Makefile.am
+++ b/test/regress/regress0/strings/Makefile.am
@@ -19,85 +19,31 @@ MAKEFLAGS = -k
 # If a test shouldn't be run in e.g. competition mode,
 # put it below in "TESTS +="
 TESTS = \
-  at001.smt2 \
   bug001.smt2 \
   bug002.smt2 \
   escchar.smt2 \
   escchar_25.smt2 \
-  str001.smt2 \
-  str002.smt2 \
   str003.smt2 \
   str004.smt2 \
   str005.smt2 \
-  str006.smt2 \
-  str007.smt2 \
-  fmf002.smt2 \
   type001.smt2 \
-  type003.smt2 \
   model001.smt2 \
-  substr001.smt2 \
-  regexp001.smt2 \
-  regexp002.smt2 \
-  regexp003.smt2 \
   leadingzero001.smt2 \
   loop001.smt2 \
-  loop002.smt2 \
-  loop003.smt2 \
-  loop004.smt2 \
-  loop005.smt2 \
-  loop006.smt2 \
-  loop007.smt2 \
-  loop008.smt2 \
-  loop009.smt2 \
-  reloop.smt2 \
   unsound-0908.smt2 \
-  ilc-like.smt2 \ 
-  ilc-l-nt.smt2 \ 
-  artemis-0512-nonterm.smt2 \
+  ilc-like.smt2 \
   indexof-sym-simp.smt2 \
   bug613.smt2 \
-  idof-triv.smt2 \
-  chapman150408.smt2 \
-  pierre150331.smt2 \
-  norn-360.smt2 \
   norn-simp-rew.smt2 \
-  norn-simp-rew-sat.smt2 \
-  idof-nconst-index.smt2 \
-  idof-neg-index.smt2 \
   bug612.smt2 \
-  bug615.smt2 \
-  kaluza-fl.smt2 \
   idof-rewrites.smt2 \
-  bug682.smt2 \
-  bug686dd.smt2 \
-  idof-handg.smt2 \
-  fmf001.smt2 \
-  crash-1019.smt2 \
   norn-31.smt2 \
   strings-native-simple.cvc \
-  cmu-2db2-extf-reg.smt2 \
-  norn-nel-bug-052116.smt2 \
-  cmu-disagree-0707-dd.smt2 \
-  nf-ff-contains-abs.smt2  \
-  csp-prefix-exp-bug.smt2 \
-  cmu-substr-rw.smt2 \
-  gm-inc-071516-2.smt2 \
-  cmu-inc-nlpp-071516.smt2 \
-  strings-index-empty.smt2 \
-  bug768.smt2 \
-  username_checker_min.smt2 \
-  repl-empty-sem.smt2 \
-  bug799-min.smt2 \
   strings-charat.cvc \
-  issue1105.smt2 \
   issue1189.smt2 \
   rewrites-v2.smt2 \
   substr-rewrites.smt2 \
-  norn-ab.smt2 \
-  type002.smt2 \
-  strip-endpt-sound.smt2 \
-  repl-rewrites2.smt2 \
-  repl-soundness-sem.smt2
+  repl-rewrites2.smt2
 
 FAILING_TESTS =
 
@@ -106,9 +52,6 @@ EXTRA_DIST = $(TESTS)
 # and make sure to distribute it
 EXTRA_DIST +=
 
-#norn-dis-0707-3.smt2
-
-
 # synonyms for "check"
 .PHONY: regress regress0 test
 regress regress0 test: check
diff --git a/test/regress/regress0/strings/artemis-0512-nonterm.smt2 b/test/regress/regress0/strings/artemis-0512-nonterm.smt2
deleted file mode 100644
index 4b1cad8f6..000000000
--- a/test/regress/regress0/strings/artemis-0512-nonterm.smt2
+++ /dev/null
@@ -1,26 +0,0 @@
-(set-logic QF_S)
-(set-option :strings-exp true)
-(set-info :status unsat)
-
-(declare-const Y String)
-(assert
-  (or
-    (= Y "01")
-    (= Y "02")
-    (= Y "03")
-    (= Y "04")
-    (= Y "05")
-    (= Y "06")
-    (= Y "07")
-    (= Y "08")
-    (= Y "09")
-    (= Y "10")
-    (= Y "11")
-    (= Y "12")
-  )
-)
- 
-(assert (= (<= (str.to.int Y) 31) false))
- 
-(check-sat)
- 
diff --git a/test/regress/regress0/strings/at001.smt2 b/test/regress/regress0/strings/at001.smt2
deleted file mode 100644
index 2ecbcc993..000000000
--- a/test/regress/regress0/strings/at001.smt2
+++ /dev/null
@@ -1,12 +0,0 @@
-(set-logic QF_S)
-(set-info :status sat)
-
-(declare-fun x () String)
-(declare-fun i () Int)
-
-(assert (= (str.at x i) "b"))
-(assert (and (>= i 4) (< i (str.len x))))
-(assert (< (str.len x) 7))
-(assert (> (str.len x) 2))
-
-(check-sat)
diff --git a/test/regress/regress0/strings/bug615.smt2 b/test/regress/regress0/strings/bug615.smt2
deleted file mode 100644
index 86cc592fb..000000000
--- a/test/regress/regress0/strings/bug615.smt2
+++ /dev/null
@@ -1,26 +0,0 @@
-(set-logic QF_S)
-(set-option :strings-exp true)
-(set-info :status sat)
-
-(declare-fun s () String)
-;(assert (= s "</script><script>alert(1);</script><script>"))
-
-(declare-fun joined () String)
-(assert (= joined (str.++ "<script>console.log('" s "');</script>")))
-(assert (str.contains joined "<script>alert(1);</script>"))
-
-; (<script>[^<]*</script>)+
-(assert (str.in.re joined
-            (re.+ (re.++
-                    (str.to.re "<script>")
-                    (re.*
-                        (re.union
-                            (re.range " " ";")
-                            (re.range "=" "~")
-                        )
-                    )
-                    (str.to.re "</script>")
-            ))
-  ))
-
-(check-sat)
diff --git a/test/regress/regress0/strings/bug682.smt2 b/test/regress/regress0/strings/bug682.smt2
deleted file mode 100644
index 6617b6b97..000000000
--- a/test/regress/regress0/strings/bug682.smt2
+++ /dev/null
@@ -1,19 +0,0 @@
-; COMMAND-LINE: --incremental --strings-exp
-(set-logic QF_S)
-
-(declare-fun a () String)
-(define-fun replace3 ((x String) (y String) (z String)) String (str.replace x y z) )
-
-(push 1)
-(assert (= (replace3 a "5" "3") "333"))
-(assert (str.contains a "5"))
-; EXPECT: sat
-(check-sat)
-(pop 1)
-
-(push 1)
-(assert (= (replace3 a "5" "3") "333"))
-(assert (str.contains a "5"))
-; EXPECT: sat
-(check-sat)
-(pop 1)
diff --git a/test/regress/regress0/strings/bug686dd.smt2 b/test/regress/regress0/strings/bug686dd.smt2
deleted file mode 100644
index 7c923654d..000000000
--- a/test/regress/regress0/strings/bug686dd.smt2
+++ /dev/null
@@ -1,13 +0,0 @@
-(set-logic UFDTSLIA)
-(set-info :status sat)
-
-(declare-datatypes ((T 0)) ( ((TC (TCb String))) ) )
-
-(declare-fun root5 () String)
-(declare-fun root6 () T)
-
-(assert (and 
-(str.in.re root5 (re.loop (re.range "0" "9") 4 4) )
-(str.in.re (TCb root6) (re.loop (re.range "0" "9") 4 4) )
-) )
-(check-sat)
diff --git a/test/regress/regress0/strings/bug768.smt2 b/test/regress/regress0/strings/bug768.smt2
deleted file mode 100644
index be3f24200..000000000
--- a/test/regress/regress0/strings/bug768.smt2
+++ /dev/null
@@ -1,10 +0,0 @@
-(set-logic QF_S)
-(set-info :status sat)
-(declare-fun f0 () String)
-(declare-fun c0 () String)
-(declare-fun f1 () String)
-(declare-fun f2 () String)
-
-(assert (= (str.++ f0 f1 f0 c0 f1 c0 f2 f2) "f(,f(c,c))"))
-
-(check-sat)
diff --git a/test/regress/regress0/strings/bug799-min.smt2 b/test/regress/regress0/strings/bug799-min.smt2
deleted file mode 100644
index 06acffc97..000000000
--- a/test/regress/regress0/strings/bug799-min.smt2
+++ /dev/null
@@ -1,18 +0,0 @@
-; COMMAND-LINE: --incremental --strings-exp
-; EXPECT: sat
-(set-logic ALL)
-(set-info :status sat)
-
-(declare-fun u () String)
-(declare-fun s () String)
-
-(assert (= (str.len u) 9))
-(assert (= (str.at u 1) s))
-(assert (= (str.at u 2) "4"))
-(assert (= (str.at u 7) "5"))
-(assert (= (str.at u 8) "6"))
-
-(push 1)
-(assert (str.in.re s (re.range "0" "3")))
-
-(check-sat)
diff --git a/test/regress/regress0/strings/chapman150408.smt2 b/test/regress/regress0/strings/chapman150408.smt2
deleted file mode 100644
index f03718556..000000000
--- a/test/regress/regress0/strings/chapman150408.smt2
+++ /dev/null
@@ -1,10 +0,0 @@
-(set-logic SLIA)
-(set-info :status sat)
-(set-option :strings-exp true)
-(set-option :rewrite-divk true)
-(declare-fun string () String)
-(assert (and
-     (and (not (not (not (= (ite (> (str.indexof string ";" 0) 0) 1 0)
-     0)))) (not (= (ite (not (= (str.len string) 0)) 1 0) 0))) (not
-     (not (= (ite (str.contains string "]") 1 0) 0)))))
-(check-sat)
diff --git a/test/regress/regress0/strings/cmu-2db2-extf-reg.smt2 b/test/regress/regress0/strings/cmu-2db2-extf-reg.smt2
deleted file mode 100644
index b513494b8..000000000
--- a/test/regress/regress0/strings/cmu-2db2-extf-reg.smt2
+++ /dev/null
@@ -1,9 +0,0 @@
-(set-logic ALL_SUPPORTED)
-(set-info :status sat)
-(set-option :strings-exp true)
-
-(declare-fun s () String)
-
-(assert (and (not (not (= (ite (= (str.indexof s "bar" 1) (- 1)) 1 0) 0))) (not (not (= (ite (= (str.indexof s "bar" 1) 3) 1 0) 0)))))
-
-(check-sat)
diff --git a/test/regress/regress0/strings/cmu-disagree-0707-dd.smt2 b/test/regress/regress0/strings/cmu-disagree-0707-dd.smt2
deleted file mode 100644
index c44dfa396..000000000
--- a/test/regress/regress0/strings/cmu-disagree-0707-dd.smt2
+++ /dev/null
@@ -1,22 +0,0 @@
-(set-logic ALL_SUPPORTED)
-(set-info :status sat)
-(set-option :strings-exp true)
-
-(declare-fun url () String)
-
-(assert 
-(and 
-(and 
-(and 
-(and 
-
-(= (str.len (str.substr (str.substr url (str.indexof url "#" 2) (- (str.len url) (str.indexof url "#" 2))) (+ (str.indexof (str.substr url (str.indexof url "#" 2) (- (str.len url) (str.indexof url "#" 2))) "#" 0) 1) (- (str.len (str.substr url (str.indexof url "#" 2) (- (str.len url) (str.indexof url "#" 2)))) (+ (str.indexof (str.substr url (str.indexof url "#" 2) (- (str.len url) (str.indexof url "#" 2))) "#" 0) 1)))) 0) 
-
-(not (= (str.substr url 0 (- (str.indexof url ":" 0) 0)) "http")))
-(> (str.indexof url ":" 0) 0))
-(>= (- (str.indexof url "#" 2) 2) 0)) 
-(>= (str.indexof url ":" 0) 0))
-)
-
-(check-sat)
-
diff --git a/test/regress/regress0/strings/cmu-inc-nlpp-071516.smt2 b/test/regress/regress0/strings/cmu-inc-nlpp-071516.smt2
deleted file mode 100644
index 1208ca169..000000000
--- a/test/regress/regress0/strings/cmu-inc-nlpp-071516.smt2
+++ /dev/null
@@ -1,9 +0,0 @@
-(set-logic ALL_SUPPORTED)
-(set-info :status unsat)
-(set-option :strings-exp true)
-
-(declare-fun url () String)
-
-(assert (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (not (not (= (ite (> (str.indexof url ":" 0) 0) 1 0) 0))) (not (= (ite (str.contains url "javascript:alert(1);") 1 0) 0))) (not (not (= (ite (= (str.len url) 0) 1 0) 0)))) (not (not (= (ite (= (str.at url 0) " ") 1 0) 0)))) (not (not (= (ite (= (str.at url 0) "\t") 1 0) 0)))) (not (not (= (ite (= (str.at url 0) "\n") 1 0) 0)))) (not (not (= (ite (= (str.at url 0) "\r") 1 0) 0)))) (not (not (= (ite (= (str.at url 0) "\v") 1 0) 0)))) (not (not (= (ite (= (str.at url 0) "\f") 1 0) 0)))) (not (not (= (ite (= (str.at url (- (str.len url) 1)) " ") 1 0) 0)))) (not (not (= (ite (= (str.at url (- (str.len url) 1)) "\t") 1 0) 0)))) (not (not (= (ite (= (str.at url (- (str.len url) 1)) "\n") 1 0) 0)))) (not (not (= (ite (= (str.at url (- (str.len url) 1)) "\r") 1 0) 0)))) (not (not (= (ite (= (str.at url (- (str.len url) 1)) "\v") 1 0) 0)))) (not (not (= (ite (= (str.at url (- (str.len url) 1)) "\f") 1 0) 0)))) (not (= (ite (str.prefixof "javascript:alert(1);" url) 1 0) 0))))
-
-(check-sat)
diff --git a/test/regress/regress0/strings/cmu-substr-rw.smt2 b/test/regress/regress0/strings/cmu-substr-rw.smt2
deleted file mode 100644
index 20bf979dd..000000000
--- a/test/regress/regress0/strings/cmu-substr-rw.smt2
+++ /dev/null
@@ -1,12 +0,0 @@
-(set-logic ALL_SUPPORTED)
-(set-info :status sat)
-(set-option :strings-exp true)
-;(set-option :produce-models true)
-;(set-option :rewrite-divk true)
-
-(declare-fun uri () String)
-
-(assert (and (and (and (and (and (and (and (and (and (and (and (and (not (not (= (ite (= (str.len (str.substr (str.substr uri (+ (str.indexof uri "%" 0) 1) (- (str.len uri) (+ (str.indexof uri "%" 0) 1))) 0 (- 2 0))) 2) 1 0) 0))) (not (not (= (ite (str.contains (str.substr uri (+ (str.indexof uri "%" 0) 1) (- (str.len uri) (+ (str.indexof uri "%" 0) 1))) "%") 1 0) 0)))) (not (not (= (ite (= (str.len (str.substr uri (+ (str.indexof uri "%" 0) 1) (- (str.len uri) (+ (str.indexof uri "%" 0) 1)))) 0) 1 0) 0)))) (not (= (ite (str.contains uri "%") 1 0) 0))) (not (not (= (ite (= (str.len uri) 0) 1 0) 0)))) (>= (+ (str.indexof uri "%" 0) 1) 0)) (>= (- (str.len uri) (+ (str.indexof uri "%" 0) 1)) 0)) (>= 0 0)) (>= (- 2 0) 0)) (>= (+ (str.indexof uri "%" 0) 1) 0)) (>= (- (str.len uri) (+ (str.indexof uri "%" 0) 1)) 0)) (>= (+ (str.indexof uri "%" 0) 1) 0)) (>= (- (str.len uri) (+ (str.indexof uri "%" 0) 1)) 0)))
-
-(check-sat)
-
diff --git a/test/regress/regress0/strings/crash-1019.smt2 b/test/regress/regress0/strings/crash-1019.smt2
deleted file mode 100644
index 9f2e99b02..000000000
--- a/test/regress/regress0/strings/crash-1019.smt2
+++ /dev/null
@@ -1,10 +0,0 @@
-(set-logic ALL_SUPPORTED)
-(set-option :strings-exp true)
-(set-option :rewrite-divk true)
-(set-info :status unsat)
- 
-(declare-fun s () String)
- 
-(assert (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (not (not (not (= (ite (= (str.++ (str.replace (str.substr s 0 (- (+ (str.indexof s "o" 0) 1) 0)) "o" "a") (str.++ (str.replace (str.substr (str.substr s (+ (str.indexof s "o" 0) 1) (- (str.len s) (+ (str.indexof s "o" 0) 1))) 0 (- (+ (str.indexof (str.substr s (+ (str.indexof s "o" 0) 1) (- (str.len s) (+ (str.indexof s "o" 0) 1))) "o" 0) 1) 0)) "o" "a") (str.substr (str.substr s (+ (str.indexof s "o" 0) 1) (- (str.len s) (+ (str.indexof s "o" 0) 1))) (+ (str.indexof (str.substr s (+ (str.indexof s "o" 0) 1) (- (str.len s) (+ (str.indexof s "o" 0) 1))) "o" 0) 1) (- (str.len (str.substr s (+ (str.indexof s "o" 0) 1) (- (str.len s) (+ (str.indexof s "o" 0) 1)))) (+ (str.indexof (str.substr s (+ (str.indexof s "o" 0) 1) (- (str.len s) (+ (str.indexof s "o" 0) 1))) "o" 0) 1))))) "faa") 1 0) 0)))) (not (not (= (ite (str.contains (str.substr (str.substr s (+ (str.indexof s "o" 0) 1) (- (str.len s) (+ (str.indexof s "o" 0) 1))) (+ (str.indexof (str.substr s (+ (str.indexof s "o" 0) 1) (- (str.len s) (+ (str.indexof s "o" 0) 1))) "o" 0) 1) (- (str.len (str.substr s (+ (str.indexof s "o" 0) 1) (- (str.len s) (+ (str.indexof s "o" 0) 1)))) (+ (str.indexof (str.substr s (+ (str.indexof s "o" 0) 1) (- (str.len s) (+ (str.indexof s "o" 0) 1))) "o" 0) 1))) "o") 1 0) 0)))) (not (= (ite (str.contains (str.substr s (+ (str.indexof s "o" 0) 1) (- (str.len s) (+ (str.indexof s "o" 0) 1))) "o") 1 0) 0))) (not (= (ite (str.contains s "o") 1 0) 0))) (>= 0 0)) (> (- (+ (str.indexof s "o" 0) 1) 0) 0)) (> (str.len s) 0)) (>= (+ (str.indexof s "o" 0) 1) 0)) (> (- (str.len s) (+ (str.indexof s "o" 0) 1)) 0)) (> (str.len s) (+ (str.indexof s "o" 0) 1))) (>= (+ (str.indexof s "o" 0) 1) 0)) (> (- (str.len s) (+ (str.indexof s "o" 0) 1)) 0)) (> (str.len s) (+ (str.indexof s "o" 0) 1))) (>= 0 0)) (> (- (+ (str.indexof (str.substr s (+ (str.indexof s "o" 0) 1) (- (str.len s) (+ (str.indexof s "o" 0) 1))) "o" 0) 1) 0) 0)) (> (str.len (str.substr s (+ (str.indexof s "o" 0) 1) (- (str.len s) (+ (str.indexof s "o" 0) 1)))) 0)) (>= (+ (str.indexof s "o" 0) 1) 0)) (> (- (str.len s) (+ (str.indexof s "o" 0) 1)) 0)) (> (str.len s) (+ (str.indexof s "o" 0) 1))) (>= (+ (str.indexof s "o" 0) 1) 0)) (> (- (str.len s) (+ (str.indexof s "o" 0) 1)) 0)) (> (str.len s) (+ (str.indexof s "o" 0) 1))) (>= (+ (str.indexof s "o" 0) 1) 0)) (> (- (str.len s) (+ (str.indexof s "o" 0) 1)) 0)) (> (str.len s) (+ (str.indexof s "o" 0) 1))) (>= (+ (str.indexof (str.substr s (+ (str.indexof s "o" 0) 1) (- (str.len s) (+ (str.indexof s "o" 0) 1))) "o" 0) 1) 0)) (> (- (str.len (str.substr s (+ (str.indexof s "o" 0) 1) (- (str.len s) (+ (str.indexof s "o" 0) 1)))) (+ (str.indexof (str.substr s (+ (str.indexof s "o" 0) 1) (- (str.len s) (+ (str.indexof s "o" 0) 1))) "o" 0) 1)) 0)) (> (str.len (str.substr s (+ (str.indexof s "o" 0) 1) (- (str.len s) (+ (str.indexof s "o" 0) 1)))) (+ (str.indexof (str.substr s (+ (str.indexof s "o" 0) 1) (- (str.len s) (+ (str.indexof s "o" 0) 1))) "o" 0) 1))) (>= (+ (str.indexof s "o" 0) 1) 0)) (> (- (str.len s) (+ (str.indexof s "o" 0) 1)) 0)) (> (str.len s) (+ (str.indexof s "o" 0) 1))) (>= (+ (str.indexof s "o" 0) 1) 0)) (> (- (str.len s) (+ (str.indexof s "o" 0) 1)) 0)) (> (str.len s) (+ (str.indexof s "o" 0) 1))) (>= (+ (str.indexof s "o" 0) 1) 0)) (> (- (str.len s) (+ (str.indexof s "o" 0) 1)) 0)) (> (str.len s) (+ (str.indexof s "o" 0) 1))) (>= (+ (str.indexof (str.substr s (+ (str.indexof s "o" 0) 1) (- (str.len s) (+ (str.indexof s "o" 0) 1))) "o" 0) 1) 0)) (> (- (str.len (str.substr s (+ (str.indexof s "o" 0) 1) (- (str.len s) (+ (str.indexof s "o" 0) 1)))) (+ (str.indexof (str.substr s (+ (str.indexof s "o" 0) 1) (- (str.len s) (+ (str.indexof s "o" 0) 1))) "o" 0) 1)) 0)) (> (str.len (str.substr s (+ (str.indexof s "o" 0) 1) (- (str.len s) (+ (str.indexof s "o" 0) 1)))) (+ (str.indexof (str.substr s (+ (str.indexof s "o" 0) 1) (- (str.len s) (+ (str.indexof s "o" 0) 1))) "o" 0) 1))) (>= (+ (str.indexof s "o" 0) 1) 0)) (> (- (str.len s) (+ (str.indexof s "o" 0) 1)) 0)) (> (str.len s) (+ (str.indexof s "o" 0) 1))))
- 
-(check-sat)
diff --git a/test/regress/regress0/strings/csp-prefix-exp-bug.smt2 b/test/regress/regress0/strings/csp-prefix-exp-bug.smt2
deleted file mode 100644
index c2fb4175c..000000000
--- a/test/regress/regress0/strings/csp-prefix-exp-bug.smt2
+++ /dev/null
@@ -1,10 +0,0 @@
-(set-logic QF_S)
-(set-info :status sat)
-
-(declare-fun x () String)
-(declare-fun y () String)
-(declare-fun z () String)
-
-(assert (= (str.len x) 1))
-(assert (= (str.++ x y "b" z) "aaaba"))
-(check-sat)
diff --git a/test/regress/regress0/strings/fmf001.smt2 b/test/regress/regress0/strings/fmf001.smt2
deleted file mode 100644
index 6081c8e06..000000000
--- a/test/regress/regress0/strings/fmf001.smt2
+++ /dev/null
@@ -1,20 +0,0 @@
-(set-logic QF_S)
-(set-option :strings-exp true)
-(set-option :strings-fmf true)
-(set-info :status sat)
-
-(declare-fun x () String)
-(declare-fun y () String)
-
-(assert (str.in.re x
-		(re.* (re.++ (re.* (str.to.re "a") ) (str.to.re "b") ))
-	))
-
-(assert (str.in.re y
-		(re.* (re.++ (re.* (str.to.re "a") ) (str.to.re "b") ))
-	))
-
-(assert (not (= x y)))
-(assert (= (str.len x) (str.len y)))
-
-(check-sat)
diff --git a/test/regress/regress0/strings/fmf002.smt2 b/test/regress/regress0/strings/fmf002.smt2
deleted file mode 100644
index d52dae2d2..000000000
--- a/test/regress/regress0/strings/fmf002.smt2
+++ /dev/null
@@ -1,17 +0,0 @@
-(set-logic QF_S)
-(set-option :strings-exp true)
-(set-option :strings-fmf true)
-(set-info :status sat)
-
-(declare-fun x () String)
-(declare-fun y () String)
-(declare-fun z () String)
-
-(assert (str.in.re x
-                (re.+ (re.range "a" "c"))
-				                ))
-
-(assert (= x (str.++ y "c" z "b")))
-(assert (> (str.len z) 1))
-
-(check-sat)
diff --git a/test/regress/regress0/strings/gm-inc-071516-2.smt2 b/test/regress/regress0/strings/gm-inc-071516-2.smt2
deleted file mode 100644
index 1650190f8..000000000
--- a/test/regress/regress0/strings/gm-inc-071516-2.smt2
+++ /dev/null
@@ -1,10 +0,0 @@
-(set-logic ALL_SUPPORTED)
-(set-info :status unsat)
-(set-option :strings-exp true)
-
-(declare-fun value2 () String)
-(declare-fun key2 () String)
-
-(assert (and (and (and (and (and (and (not (not (= (ite (str.contains value2 "=") 1 0) 0))) (not (not (= (ite (= (str.len value2) 0) 1 0) 0)))) (not (= (ite (not (= (str.indexof value2 "=" 0) (- 1))) 1 0) 0))) (not (not (= (ite (str.contains value2 ",") 1 0) 0)))) (not (not (= (ite (= (str.len value2) 0) 1 0) 0)))) (not (= (ite (= key2 "cache-control") 1 0) 0))) (not (= (ite (= key2 "cache-control") 1 0) 0))))
-
-(check-sat)
diff --git a/test/regress/regress0/strings/idof-handg.smt2 b/test/regress/regress0/strings/idof-handg.smt2
deleted file mode 100644
index 40aff3168..000000000
--- a/test/regress/regress0/strings/idof-handg.smt2
+++ /dev/null
@@ -1,7 +0,0 @@
-(set-logic ALL_SUPPORTED)
-(set-option :strings-exp true)
-(set-info :status sat)
-(declare-fun s () String)
-(assert (str.contains s "Hello and goodbye!"))
-(assert (> (str.indexof s "goodbye" 0) (str.indexof s "Hello" 0)))
-(check-sat)
\ No newline at end of file
diff --git a/test/regress/regress0/strings/idof-nconst-index.smt2 b/test/regress/regress0/strings/idof-nconst-index.smt2
deleted file mode 100644
index eba492220..000000000
--- a/test/regress/regress0/strings/idof-nconst-index.smt2
+++ /dev/null
@@ -1,9 +0,0 @@
-(set-logic ALL_SUPPORTED)
-(set-option :strings-exp true)
-(set-info :status sat)
-(declare-fun s () String)
-(assert (str.contains s "Hello and goodbye!"))
-(declare-fun x () Int)
-(assert (<= (str.len s) x))
-(assert (not (= (str.indexof s "goodbye" (- x 30)) (- 1))))
-(check-sat)
diff --git a/test/regress/regress0/strings/idof-neg-index.smt2 b/test/regress/regress0/strings/idof-neg-index.smt2
deleted file mode 100644
index c24fcc00a..000000000
--- a/test/regress/regress0/strings/idof-neg-index.smt2
+++ /dev/null
@@ -1,8 +0,0 @@
-(set-logic ALL_SUPPORTED)
-(set-option :strings-exp true)
-(set-info :status unsat)
-(declare-fun s () String)
-(declare-fun x () Int)
-(assert (< x 0))
-(assert (>= (str.indexof s "goodbye" x) 0))
-(check-sat)
diff --git a/test/regress/regress0/strings/idof-triv.smt2 b/test/regress/regress0/strings/idof-triv.smt2
deleted file mode 100644
index 314adedf8..000000000
--- a/test/regress/regress0/strings/idof-triv.smt2
+++ /dev/null
@@ -1,7 +0,0 @@
-(set-logic ALL_SUPPORTED)
-(set-info :status sat)
-(set-option :strings-exp true)
-(declare-fun string () String)
-;(assert (= string "::")) 
-(assert (> (str.indexof string ":" 0) 0))
-(check-sat)
diff --git a/test/regress/regress0/strings/ilc-l-nt.smt2 b/test/regress/regress0/strings/ilc-l-nt.smt2
deleted file mode 100644
index 9e1cc2bc5..000000000
--- a/test/regress/regress0/strings/ilc-l-nt.smt2
+++ /dev/null
@@ -1,14 +0,0 @@
-(set-logic ALL_SUPPORTED)
-(set-info :status unsat)
-(set-option :strings-exp true)
- 
-(declare-fun s () String)
-(assert (or (= s "Id like cookies.") (= s "Id not like cookies.")))
- 
-(declare-fun target () String)
-(assert (or (= target "l") (= target "m")))
- 
-(declare-fun location () Int)
-(assert (= (* 2 location) (str.indexof s target 0)))
- 
-(check-sat)
\ No newline at end of file
diff --git a/test/regress/regress0/strings/issue1105.smt2 b/test/regress/regress0/strings/issue1105.smt2
deleted file mode 100644
index 81e7672da..000000000
--- a/test/regress/regress0/strings/issue1105.smt2
+++ /dev/null
@@ -1,10 +0,0 @@
-(set-logic ALL)
-(set-option :strings-exp true)
-(set-info :status sat)
-(declare-datatype Val (
-    (Str (str String))
-    (Num (num Int))))
-
-(declare-const var0 Val)
-(assert (=> (is-Str var0) (distinct (str.to.int (str var0)) (- 1))))
-(check-sat)
diff --git a/test/regress/regress0/strings/kaluza-fl.smt2 b/test/regress/regress0/strings/kaluza-fl.smt2
deleted file mode 100644
index 04775d61c..000000000
--- a/test/regress/regress0/strings/kaluza-fl.smt2
+++ /dev/null
@@ -1,97 +0,0 @@
-(set-logic QF_S)
-(set-info :status sat)
-
-(declare-fun I0_15 () Int)
-(declare-fun I0_18 () Int)
-(declare-fun I0_2 () Int)
-(declare-fun I0_4 () Int)
-(declare-fun I0_6 () Int)
-(declare-fun PCTEMP_LHS_1 () Int)
-(declare-fun PCTEMP_LHS_2 () Int)
-(declare-fun PCTEMP_LHS_3 () Int)
-(declare-fun PCTEMP_LHS_4 () Int)
-(declare-fun PCTEMP_LHS_5 () Int)
-(declare-fun T0_15 () String)
-(declare-fun T0_18 () String)
-(declare-fun T0_2 () String)
-(declare-fun T0_4 () String)
-(declare-fun T0_6 () String)
-(declare-fun T1_15 () String)
-(declare-fun T1_18 () String)
-(declare-fun T1_2 () String)
-(declare-fun T1_4 () String)
-(declare-fun T1_6 () String)
-(declare-fun T2_15 () String)
-(declare-fun T2_18 () String)
-(declare-fun T2_2 () String)
-(declare-fun T2_4 () String)
-(declare-fun T2_6 () String)
-(declare-fun T3_15 () String)
-(declare-fun T3_18 () String)
-(declare-fun T3_2 () String)
-(declare-fun T3_4 () String)
-(declare-fun T3_6 () String)
-(declare-fun T4_15 () String)
-(declare-fun T4_18 () String)
-(declare-fun T4_2 () String)
-(declare-fun T4_4 () String)
-(declare-fun T4_6 () String)
-(declare-fun T5_15 () String)
-(declare-fun T5_18 () String)
-(declare-fun T5_2 () String)
-(declare-fun T5_4 () String)
-(declare-fun T5_6 () String)
-(declare-fun T_4 () Bool)
-(declare-fun T_5 () Bool)
-(declare-fun T_6 () Bool)
-(declare-fun T_7 () Bool)
-(declare-fun T_8 () Bool)
-(declare-fun T_9 () Bool)
-(declare-fun T_SELECT_1 () Bool)
-(declare-fun T_SELECT_2 () Bool)
-(declare-fun T_SELECT_3 () Bool)
-(declare-fun T_SELECT_4 () Bool)
-(declare-fun T_SELECT_5 () Bool)
-(declare-fun T_a () Bool)
-(declare-fun T_c () Bool)
-(declare-fun T_e () Bool)
-(declare-fun var_0xINPUT_12454 () String)
-
-(assert (= T_SELECT_1 (not (= PCTEMP_LHS_1 (- 1)))))
-(assert (ite T_SELECT_1 
-  (and (= PCTEMP_LHS_1 (+ I0_2 0))(= var_0xINPUT_12454 (str.++ T0_2 T1_2))(= I0_2 (str.len T4_2))(= 0 (str.len T0_2))(= T1_2 (str.++ T2_2 T3_2))(= T2_2 (str.++ T4_2 T5_2))(= T5_2 "__utma=169413169.")(not (str.in.re T4_2 (re.++ (str.to.re "_") (str.to.re "_") (str.to.re "u") (str.to.re "t") (str.to.re "m") (str.to.re "a") (str.to.re "=") (str.to.re "1") (str.to.re "6") (str.to.re "9") (str.to.re "4") (str.to.re "1") (str.to.re "3") (str.to.re "1") (str.to.re "6") (str.to.re "9") (str.to.re "."))))) 
-  (and (= PCTEMP_LHS_1 (- 1))(= var_0xINPUT_12454 (str.++ T0_2 T1_2))(= 0 (str.len T0_2))(not (str.in.re T1_2 (re.++ (str.to.re "_") (str.to.re "_") (str.to.re "u") (str.to.re "t") (str.to.re "m") (str.to.re "a") (str.to.re "=") (str.to.re "1") (str.to.re "6") (str.to.re "9") (str.to.re "4") (str.to.re "1") (str.to.re "3") (str.to.re "1") (str.to.re "6") (str.to.re "9") (str.to.re ".")))))))
-(assert (= T_SELECT_2 (not (= PCTEMP_LHS_2 (- 1)))))
-(assert (ite T_SELECT_2 
-  (and (= PCTEMP_LHS_2 (+ I0_4 0))(= var_0xINPUT_12454 (str.++ T0_4 T1_4))(= I0_4 (str.len T4_4))(= 0 (str.len T0_4))(= T1_4 (str.++ T2_4 T3_4))(= T2_4 (str.++ T4_4 T5_4))(= T5_4 "__utmb=169413169")(not (str.in.re T4_4 (re.++ (str.to.re "_") (str.to.re "_") (str.to.re "u") (str.to.re "t") (str.to.re "m") (str.to.re "b") (str.to.re "=") (str.to.re "1") (str.to.re "6") (str.to.re "9") (str.to.re "4") (str.to.re "1") (str.to.re "3") (str.to.re "1") (str.to.re "6") (str.to.re "9"))))) 
-  (and (= PCTEMP_LHS_2 (- 1))(= var_0xINPUT_12454 (str.++ T0_4 T1_4))(= 0 (str.len T0_4))(not (str.in.re T1_4 (re.++ (str.to.re "_") (str.to.re "_") (str.to.re "u") (str.to.re "t") (str.to.re "m") (str.to.re "b") (str.to.re "=") (str.to.re "1") (str.to.re "6") (str.to.re "9") (str.to.re "4") (str.to.re "1") (str.to.re "3") (str.to.re "1") (str.to.re "6") (str.to.re "9")))))))
-(assert (= T_SELECT_3 (not (= PCTEMP_LHS_3 (- 1)))))
-(assert (ite T_SELECT_3 
-  (and (= PCTEMP_LHS_3 (+ I0_6 0))(= var_0xINPUT_12454 (str.++ T0_6 T1_6))(= I0_6 (str.len T4_6))(= 0 (str.len T0_6))(= T1_6 (str.++ T2_6 T3_6))(= T2_6 (str.++ T4_6 T5_6))(= T5_6 "__utmc=169413169")(not (str.in.re T4_6 (re.++ (str.to.re "_") (str.to.re "_") (str.to.re "u") (str.to.re "t") (str.to.re "m") (str.to.re "c") (str.to.re "=") (str.to.re "1") (str.to.re "6") (str.to.re "9") (str.to.re "4") (str.to.re "1") (str.to.re "3") (str.to.re "1") (str.to.re "6") (str.to.re "9"))))) 
-  (and (= PCTEMP_LHS_3 (- 1))(= var_0xINPUT_12454 (str.++ T0_6 T1_6))(= 0 (str.len T0_6))(not (str.in.re T1_6 (re.++ (str.to.re "_") (str.to.re "_") (str.to.re "u") (str.to.re "t") (str.to.re "m") (str.to.re "c") (str.to.re "=") (str.to.re "1") (str.to.re "6") (str.to.re "9") (str.to.re "4") (str.to.re "1") (str.to.re "3") (str.to.re "1") (str.to.re "6") (str.to.re "9")))))))
-(assert (= T_4 (<= 0 PCTEMP_LHS_1)))
-(assert T_4)
-(assert (= T_5 (<= 0 PCTEMP_LHS_2)))
-(assert T_5)
-(assert (= T_6 (<= 0 PCTEMP_LHS_3)))
-(assert T_6)
-(assert (= T_7 (= "" var_0xINPUT_12454)))
-(assert (= T_8 (not T_7)))
-(assert T_8)
-(assert (= T_9 (= var_0xINPUT_12454 "")))
-(assert (= T_a (not T_9)))
-(assert T_a)
-(assert (= T_SELECT_4 (not (= PCTEMP_LHS_4 (- 1)))))
-(assert (ite T_SELECT_4 
-  (and (= PCTEMP_LHS_4 (+ I0_15 0))(= var_0xINPUT_12454 (str.++ T0_15 T1_15))(= I0_15 (str.len T4_15))(= 0 (str.len T0_15))(= T1_15 (str.++ T2_15 T3_15))(= T2_15 (str.++ T4_15 T5_15))(= T5_15 "__utmb=169413169")(not (str.in.re T4_15 (re.++ (str.to.re "_") (str.to.re "_") (str.to.re "u") (str.to.re "t") (str.to.re "m") (str.to.re "b") (str.to.re "=") (str.to.re "1") (str.to.re "6") (str.to.re "9") (str.to.re "4") (str.to.re "1") (str.to.re "3") (str.to.re "1") (str.to.re "6") (str.to.re "9"))))) 
-  (and (= PCTEMP_LHS_4 (- 1))(= var_0xINPUT_12454 (str.++ T0_15 T1_15))(= 0 (str.len T0_15))(not (str.in.re T1_15 (re.++ (str.to.re "_") (str.to.re "_") (str.to.re "u") (str.to.re "t") (str.to.re "m") (str.to.re "b") (str.to.re "=") (str.to.re "1") (str.to.re "6") (str.to.re "9") (str.to.re "4") (str.to.re "1") (str.to.re "3") (str.to.re "1") (str.to.re "6") (str.to.re "9")))))))
-(assert (= T_c (< (- 1) PCTEMP_LHS_4)))
-(assert T_c)
-(assert (= T_SELECT_5 (not (= PCTEMP_LHS_5 (- 1)))))
-(assert (ite T_SELECT_5 
-  (and (= PCTEMP_LHS_5 (+ I0_18 PCTEMP_LHS_4))(= var_0xINPUT_12454 (str.++ T0_18 T1_18))(= I0_18 (str.len T4_18))(= PCTEMP_LHS_4 (str.len T0_18))(= T1_18 (str.++ T2_18 T3_18))(= T2_18 (str.++ T4_18 T5_18))(= T5_18 ";")(not (str.in.re T4_18 (str.to.re ";")))) 
-  (and (= PCTEMP_LHS_5 (- 1))(= var_0xINPUT_12454 (str.++ T0_18 T1_18))(= PCTEMP_LHS_4 (str.len T0_18))(not (str.in.re T1_18 (str.to.re ";"))))))
-(assert (= T_e (< PCTEMP_LHS_5 0)))
-(assert T_e)
-
-(check-sat)
diff --git a/test/regress/regress0/strings/loop002.smt2 b/test/regress/regress0/strings/loop002.smt2
deleted file mode 100644
index 90492189f..000000000
--- a/test/regress/regress0/strings/loop002.smt2
+++ /dev/null
@@ -1,10 +0,0 @@
-(set-logic QF_S)
-(set-info :status sat)
-
-(declare-fun x () String)
-(declare-fun y () String)
-(declare-fun z () String)
-
-(assert (= (str.++ x "ba") (str.++ "ab" x)))
-
-(check-sat)
diff --git a/test/regress/regress0/strings/loop003.smt2 b/test/regress/regress0/strings/loop003.smt2
deleted file mode 100644
index 1247170c9..000000000
--- a/test/regress/regress0/strings/loop003.smt2
+++ /dev/null
@@ -1,13 +0,0 @@
-(set-logic QF_S)
-(set-info :status sat)
-
-(declare-fun x () String)
-(declare-fun y () String)
-(declare-fun z () String)
-(declare-fun w () String)
-(declare-fun w1 () String)
-(declare-fun w2 () String)
-
-(assert (= (str.++ x "aaaae") (str.++ "eaaaa" x)))
-
-(check-sat)
diff --git a/test/regress/regress0/strings/loop004.smt2 b/test/regress/regress0/strings/loop004.smt2
deleted file mode 100644
index 8d2ff8096..000000000
--- a/test/regress/regress0/strings/loop004.smt2
+++ /dev/null
@@ -1,13 +0,0 @@
-(set-logic QF_S)
-(set-info :status sat)
-
-(declare-fun x () String)
-(declare-fun y () String)
-(declare-fun z () String)
-(declare-fun w () String)
-(declare-fun w1 () String)
-(declare-fun w2 () String)
-
-(assert (= (str.++ x y z) (str.++ y z x)))
-
-(check-sat)
diff --git a/test/regress/regress0/strings/loop005.smt2 b/test/regress/regress0/strings/loop005.smt2
deleted file mode 100644
index 039409ea6..000000000
--- a/test/regress/regress0/strings/loop005.smt2
+++ /dev/null
@@ -1,18 +0,0 @@
-(set-logic QF_S)
-(set-info :status sat)
-
-(declare-fun x () String)
-(declare-fun y () String)
-(declare-fun z () String)
-(declare-fun w () String)
-
-;(assert (= (str.++ x y z) (str.++ x z y)))
-;(assert (= (str.++ x w z) (str.++ x z w)))
-
-(assert (= (str.++ y z) (str.++ z y)))
-(assert (= (str.++ w z) (str.++ z w)))
-
-(assert (not (= y w)))
-(assert (> (str.len z) 0))
-
-(check-sat)
diff --git a/test/regress/regress0/strings/loop006.smt2 b/test/regress/regress0/strings/loop006.smt2
deleted file mode 100644
index 288a5f60c..000000000
--- a/test/regress/regress0/strings/loop006.smt2
+++ /dev/null
@@ -1,15 +0,0 @@
-(set-logic QF_S)
-(set-info :status sat)
-
-(declare-fun x () String)
-(declare-fun y () String)
-(declare-fun z () String)
-(declare-fun w () String)
-(declare-fun w1 () String)
-(declare-fun w2 () String)
-
-;(assert (= (str.++ x y) (str.++ y x)))
-
-(assert (not (= (str.++ x y) (str.++ y x))))
-
-(check-sat)
diff --git a/test/regress/regress0/strings/loop007.smt2 b/test/regress/regress0/strings/loop007.smt2
deleted file mode 100644
index a97d97d54..000000000
--- a/test/regress/regress0/strings/loop007.smt2
+++ /dev/null
@@ -1,12 +0,0 @@
-(set-logic QF_S)
-(set-option :strings-exp true)
-(set-info :status sat)
-
-(declare-fun x () String)
-(declare-fun y () String)
-
-(assert (= (str.++ x y "aa") (str.++ "aa" y x)))
-(assert (= (str.len x) (* 2 (str.len y))))
-(assert (> (str.len x) 0))
-
-(check-sat)
diff --git a/test/regress/regress0/strings/loop008.smt2 b/test/regress/regress0/strings/loop008.smt2
deleted file mode 100644
index f84ba442b..000000000
--- a/test/regress/regress0/strings/loop008.smt2
+++ /dev/null
@@ -1,10 +0,0 @@
-(set-logic QF_S)
-(set-option :strings-exp true)
-(set-info :status sat)
-
-(declare-fun x () String)
-
-(assert (= (str.++ x "ab") (str.++ "ba" x)))
-(assert (> (str.len x) 5))
-
-(check-sat)
diff --git a/test/regress/regress0/strings/loop009.smt2 b/test/regress/regress0/strings/loop009.smt2
deleted file mode 100644
index 30fc6cebc..000000000
--- a/test/regress/regress0/strings/loop009.smt2
+++ /dev/null
@@ -1,10 +0,0 @@
-(set-logic QF_S)
-(set-option :strings-exp true)
-(set-info :status sat)
-
-(declare-fun x () String)
-
-(assert (= (str.++ x "aa") (str.++ "aa" x)))
-(assert (= (str.len x) 7))
-
-(check-sat)
diff --git a/test/regress/regress0/strings/nf-ff-contains-abs.smt2 b/test/regress/regress0/strings/nf-ff-contains-abs.smt2
deleted file mode 100644
index eb6792666..000000000
--- a/test/regress/regress0/strings/nf-ff-contains-abs.smt2
+++ /dev/null
@@ -1,15 +0,0 @@
-(set-logic QF_S)
-(set-info :status unsat)
-(declare-fun a () String)
-(declare-fun b () String)
-(declare-fun c () String)
-(declare-fun d () String)
-(declare-fun e () String)
-(declare-fun f () String)
-(declare-fun g () String)
-(assert (= (str.++ "abc" a "def" b "gg" c) (str.++ e g f)))
-(assert (or (= a "a") (= a "aaa")))
-(assert (or (= b "b") (= b "bbb")))
-(assert (or (= c "c") (= c "ccc")))
-(assert (or (= g (str.++ ";" d)) (= g (str.++ d ";"))))
-(check-sat)
diff --git a/test/regress/regress0/strings/norn-360.smt2 b/test/regress/regress0/strings/norn-360.smt2
deleted file mode 100644
index 573dcbe01..000000000
--- a/test/regress/regress0/strings/norn-360.smt2
+++ /dev/null
@@ -1,25 +0,0 @@
-(set-logic QF_SLIA)
-(set-option :strings-exp true)
-(set-info :status sat)
-
-(declare-fun var_0 () String)
-(declare-fun var_1 () String)
-(declare-fun var_2 () String)
-(declare-fun var_3 () String)
-(declare-fun var_4 () String)
-(declare-fun var_5 () String)
-(declare-fun var_6 () String)
-(declare-fun var_7 () String)
-(declare-fun var_8 () String)
-(declare-fun var_9 () String)
-(declare-fun var_10 () String)
-(declare-fun var_11 () String)
-(declare-fun var_12 () String)
-
-(assert (str.in.re (str.++ var_3 "z" var_4 ) (re.++ (re.* (re.union (re.union (str.to.re "z") (str.to.re "b")) (re.++ (str.to.re "a") (re.union (re.union (str.to.re "z") (str.to.re "b")) (str.to.re "a"))))) (str.to.re "a"))))
-(assert (str.in.re (str.++ var_3 "z" var_4 ) (re.++ (re.* (re.union (re.union (str.to.re "z") (str.to.re "b")) (re.++ (str.to.re "a") (re.union (str.to.re "z") (str.to.re "a"))))) (str.to.re "a"))))
-(assert (str.in.re (str.++ var_3 "z" var_4 ) (re.++ (re.* (re.union (str.to.re "z") (re.++ (re.union (str.to.re "b") (str.to.re "a")) (re.union (str.to.re "z") (str.to.re "b"))))) (re.union (str.to.re "b") (str.to.re "a")))))
-(assert (str.in.re var_4 (re.* (re.range "a" "u"))))
-(assert (str.in.re var_3 (re.* (re.range "a" "u"))))
-(assert (<= 0  (str.len var_4)))
-(check-sat)
\ No newline at end of file
diff --git a/test/regress/regress0/strings/norn-ab.smt2 b/test/regress/regress0/strings/norn-ab.smt2
deleted file mode 100644
index 48d889847..000000000
--- a/test/regress/regress0/strings/norn-ab.smt2
+++ /dev/null
@@ -1,25 +0,0 @@
-(set-logic QF_SLIA)
-(set-info :status unsat)
-(set-option :strings-exp true)
-
-(declare-fun var_0 () String)
-(declare-fun var_1 () String)
-(declare-fun var_2 () String)
-(declare-fun var_3 () String)
-(declare-fun var_4 () String)
-(declare-fun var_5 () String)
-(declare-fun var_6 () String)
-(declare-fun var_7 () String)
-(declare-fun var_8 () String)
-(declare-fun var_9 () String)
-(declare-fun var_10 () String)
-(declare-fun var_11 () String)
-(declare-fun var_12 () String)
-
-(assert (str.in.re var_4 (re.++ (str.to.re "a") (re.* (str.to.re "b")))))
-(assert (str.in.re var_4 (re.++ (re.* (str.to.re "a")) (str.to.re "b"))))
-(assert (str.in.re var_4 (re.* (re.range "a" "u"))))
-(assert (str.in.re var_4 (re.++ (re.* (str.to.re "a")) (re.++ (str.to.re "b") (re.* (str.to.re "b"))))))
-(assert (not (str.in.re (str.++ "a" var_4 "b" ) (re.++ (re.* (str.to.re "a")) (re.++ (str.to.re "b") (re.* (str.to.re "b")))))))
-(assert (and (<= 0  (str.len var_4)) (not (not (exists ((v Int)) (= (* v 2 ) (+ (str.len var_4) 2 )))))))
-(check-sat)
\ No newline at end of file
diff --git a/test/regress/regress0/strings/norn-dis-0707-3.smt2 b/test/regress/regress0/strings/norn-dis-0707-3.smt2
deleted file mode 100644
index bc0f877ad..000000000
--- a/test/regress/regress0/strings/norn-dis-0707-3.smt2
+++ /dev/null
@@ -1,26 +0,0 @@
-(set-logic QF_S)
-(set-info :status sat)
-(set-option :strings-exp true)
-
-(declare-fun var_0 () String)
-(declare-fun var_1 () String)
-(declare-fun var_2 () String)
-(declare-fun var_3 () String)
-(declare-fun var_4 () String)
-(declare-fun var_5 () String)
-(declare-fun var_6 () String)
-(declare-fun var_7 () String)
-(declare-fun var_8 () String)
-(declare-fun var_9 () String)
-(declare-fun var_10 () String)
-(declare-fun var_11 () String)
-(declare-fun var_12 () String)
-
-(assert (str.in.re (str.++ var_8 "z" var_9 ) (re.++ (re.* (re.union (str.to.re "a") (re.++ (str.to.re "b") (re.++ (re.* (re.union (str.to.re "b") (str.to.re "a"))) (str.to.re "z"))))) (re.++ (str.to.re "b") (re.* (re.union (str.to.re "b") (str.to.re "a")))))))
-(assert (str.in.re (str.++ var_8 "z" var_9 ) (re.++ (re.* (re.union (re.union (str.to.re "z") (str.to.re "a")) (re.++ (str.to.re "b") (re.++ (re.* (str.to.re "b")) (re.union (str.to.re "z") (str.to.re "a")))))) (re.++ (str.to.re "b") (re.* (str.to.re "b"))))))
-(assert (str.in.re (str.++ var_8 "z" var_9 ) (re.++ (re.* (re.union (str.to.re "a") (re.++ (str.to.re "b") (re.++ (re.* (re.union (str.to.re "z") (str.to.re "a"))) (str.to.re "b"))))) (re.++ (str.to.re "b") (re.* (re.union (str.to.re "z") (str.to.re "a")))))))
-(assert (str.in.re (str.++ var_8 "z" var_9 ) (re.* (re.++ (re.union (str.to.re "b") (str.to.re "a")) (re.++ (re.* (str.to.re "a")) (re.union (str.to.re "z") (str.to.re "b")))))))
-(assert (str.in.re var_9 (re.* (re.range "a" "u"))))
-(assert (str.in.re var_8 (re.* (re.range "a" "u"))))
-(assert (not (str.in.re (str.++ "b" var_8 "z" "b" var_9 ) (re.++ (re.* (re.++ (str.to.re "b") (str.to.re "z"))) (str.to.re "b")))))
-(check-sat)
diff --git a/test/regress/regress0/strings/norn-nel-bug-052116.smt2 b/test/regress/regress0/strings/norn-nel-bug-052116.smt2
deleted file mode 100644
index f0c2534a1..000000000
--- a/test/regress/regress0/strings/norn-nel-bug-052116.smt2
+++ /dev/null
@@ -1,23 +0,0 @@
-(set-logic QF_S)
-(set-info :status sat)
-(set-option :strings-exp true)
-
-(declare-fun var_0 () String)
-(declare-fun var_1 () String)
-(declare-fun var_2 () String)
-(declare-fun var_3 () String)
-(declare-fun var_4 () String)
-(declare-fun var_5 () String)
-(declare-fun var_6 () String)
-(declare-fun var_7 () String)
-(declare-fun var_8 () String)
-(declare-fun var_9 () String)
-(declare-fun var_10 () String)
-(declare-fun var_11 () String)
-(declare-fun var_12 () String)
-
-(assert (str.in.re var_4 (re.* (re.range "a" "u"))))
-(assert (str.in.re var_4 (re.++ (re.* (re.union (str.to.re "a") (re.++ (str.to.re "b") (str.to.re "a")))) (str.to.re "b"))))
-(assert (str.in.re (str.++ "a" var_4 "b" ) (re.* (re.range "a" "u"))))
-(assert (not (str.in.re (str.++ "a" var_4 "b" ) (re.++ (re.* (str.to.re "a")) (re.++ (str.to.re "b") (re.* (str.to.re "b")))))))
-(check-sat)
diff --git a/test/regress/regress0/strings/norn-simp-rew-sat.smt2 b/test/regress/regress0/strings/norn-simp-rew-sat.smt2
deleted file mode 100644
index 01a102bf9..000000000
--- a/test/regress/regress0/strings/norn-simp-rew-sat.smt2
+++ /dev/null
@@ -1,25 +0,0 @@
-(set-logic QF_SLIA)
-(set-option :strings-exp true)
-(set-info :status sat)
-
-(declare-fun var_0 () String)
-(declare-fun var_1 () String)
-(declare-fun var_2 () String)
-(declare-fun var_3 () String)
-(declare-fun var_4 () String)
-(declare-fun var_5 () String)
-(declare-fun var_6 () String)
-(declare-fun var_7 () String)
-(declare-fun var_8 () String)
-(declare-fun var_9 () String)
-(declare-fun var_10 () String)
-(declare-fun var_11 () String)
-(declare-fun var_12 () String)
-
-(assert (str.in.re (str.++ var_3 "z" var_4 ) (re.++ (re.* (re.union (re.union (str.to.re "z") (str.to.re "a")) (re.++ (str.to.re "b") (re.++ (re.* (str.to.re "b")) (re.union (str.to.re "z") (str.to.re "a")))))) (re.++ (str.to.re "b") (re.* (str.to.re "b"))))))
-(assert (str.in.re var_4 (re.* (re.range "a" "u"))))
-(assert (str.in.re var_4 (re.* (str.to.re "b"))))
-(assert (str.in.re var_3 (re.* (re.range "a" "u"))))
-(assert (str.in.re var_3 (re.* (str.to.re "a"))))
-(assert (<= 0  (str.len var_4)))
-(check-sat)
\ No newline at end of file
diff --git a/test/regress/regress0/strings/pierre150331.smt2 b/test/regress/regress0/strings/pierre150331.smt2
deleted file mode 100644
index 88d5ec10c..000000000
--- a/test/regress/regress0/strings/pierre150331.smt2
+++ /dev/null
@@ -1,13 +0,0 @@
-(set-logic SLIA)

-(set-info :status sat)

-(set-info :smt-lib-version 2.5)

-(set-option :strings-exp true)

-(define-fun stringEval ((?s String)) Bool (str.in.re ?s 

-(re.union 

-(str.to.re "H")

-(re.++ (re.loop (str.to.re "{") 2 2 ) (re.loop (re.union re.nostr (re.range "" "]") (re.range "" "^") ) 2 4 ) ) ) ) )

-(declare-fun s0() String)

-(declare-fun s1() String)

-(declare-fun s2() String)

-(assert (and true (stringEval s0) (stringEval s1) (distinct s0 s1) (stringEval s2) (distinct s0 s2) (distinct s1 s2) ) )

-(check-sat)
\ No newline at end of file
diff --git a/test/regress/regress0/strings/regexp001.smt2 b/test/regress/regress0/strings/regexp001.smt2
deleted file mode 100644
index 62c142d1d..000000000
--- a/test/regress/regress0/strings/regexp001.smt2
+++ /dev/null
@@ -1,13 +0,0 @@
-(set-logic QF_S)
-(set-info :status sat)
-(set-option :strings-exp true)
-
-(declare-fun x () String)
-
-(assert (str.in.re x
-		(re.* (re.++ (re.* (str.to.re "a") ) (str.to.re "b") ))
-	))
-
-(assert (= (str.len x) 3))
-
-(check-sat)
diff --git a/test/regress/regress0/strings/regexp002.smt2 b/test/regress/regress0/strings/regexp002.smt2
deleted file mode 100644
index a8bd2187a..000000000
--- a/test/regress/regress0/strings/regexp002.smt2
+++ /dev/null
@@ -1,24 +0,0 @@
-(set-logic QF_S)
-(set-info :status sat)
-(set-option :strings-exp true)
-; this option requires user to check whether the constraint is in the fragment
-; currently we do not provide only positive membership constraint checking
-; if users use this option but the constraint is not in this fragment, the result will fail
-(set-option :strings-inm true)
-
-(declare-fun x () String)
-(declare-fun y () String)
-
-(assert (str.in.re x
-		(re.* (re.++ (re.* (str.to.re "a") ) (str.to.re "b") ))
-	))
-
-(assert (str.in.re y
-		(re.* (re.++ (re.* (str.to.re "a") ) (str.to.re "b") ))
-	))
-
-(assert (not (= x y)))
-(assert (= (str.len x) (str.len y)))
-(assert (= (str.len y) 3))
-
-(check-sat)
diff --git a/test/regress/regress0/strings/regexp003.smt2 b/test/regress/regress0/strings/regexp003.smt2
deleted file mode 100644
index 7696838fe..000000000
--- a/test/regress/regress0/strings/regexp003.smt2
+++ /dev/null
@@ -1,13 +0,0 @@
-(set-logic QF_S)
-(set-info :status sat)
-(set-option :strings-exp true)
-
-(declare-const s String)
-
-(assert (str.in.re s (re.inter
-	(re.++ (str.to.re "a") (re.* (str.to.re "b")) 
-		(re.inter (str.to.re "c") (re.* (str.to.re "c"))))
-	(re.++ (str.to.re "a") (re.* (str.to.re "b")) (re.* (str.to.re "c")))
-	)))
-
-(check-sat)
diff --git a/test/regress/regress0/strings/reloop.smt2 b/test/regress/regress0/strings/reloop.smt2
deleted file mode 100644
index 9915504ae..000000000
--- a/test/regress/regress0/strings/reloop.smt2
+++ /dev/null
@@ -1,18 +0,0 @@
-(set-logic QF_S)
-(set-option :strings-exp true)
-(set-info :status sat)
-
-(declare-fun x () String)
-(declare-fun y () String)
-(declare-fun z () String)
-(declare-fun w () String)
-
-(assert (str.in.re x (re.loop (str.to.re "a") 5)))
-(assert (str.in.re y (re.loop (str.to.re "b") 2 5)))
-(assert (str.in.re z (re.loop (str.to.re "c") 5)))
-(assert (> (str.len z) 7))
-(assert (str.in.re w (re.loop (str.to.re "b") 2 7)))
-(assert (> (str.len w) 2))
-(assert (< (str.len w) 5))
-
-(check-sat)
diff --git a/test/regress/regress0/strings/repl-empty-sem.smt2 b/test/regress/regress0/strings/repl-empty-sem.smt2
deleted file mode 100644
index 61f70bc23..000000000
--- a/test/regress/regress0/strings/repl-empty-sem.smt2
+++ /dev/null
@@ -1,11 +0,0 @@
-; COMMAND-LINE: --strings-exp
-; EXPECT: unsat
-(set-logic ALL)
-(set-info :status unsat)
-(declare-fun x () String)
-(declare-fun z () String)
-(assert (= (str.len z) 0))
-(assert (= (str.replace "ab" z "c") x))
-(declare-fun y () String)
-(assert (= x (str.++ "c" y)))
-(check-sat)
diff --git a/test/regress/regress0/strings/repl-soundness-sem.smt2 b/test/regress/regress0/strings/repl-soundness-sem.smt2
deleted file mode 100644
index d56d7945f..000000000
--- a/test/regress/regress0/strings/repl-soundness-sem.smt2
+++ /dev/null
@@ -1,12 +0,0 @@
-; COMMAND-LINE: --strings-exp
-; EXPECT: sat
-(set-logic ALL)
-(set-info :status sat)
-(declare-fun x () String)
-(declare-fun y () String)
-(assert (and
-(= (str.replace x x "abc") "")
-(= (str.replace (str.++ x y) x "abc") (str.++ x y))
-(= (str.replace (str.++ x y) (str.substr x 0 2) "abc") y)
-))
-(check-sat)
diff --git a/test/regress/regress0/strings/str001.smt2 b/test/regress/regress0/strings/str001.smt2
deleted file mode 100644
index bb2b701d8..000000000
--- a/test/regress/regress0/strings/str001.smt2
+++ /dev/null
@@ -1,16 +0,0 @@
-(set-logic QF_S)
-(set-info :status unsat)
-
-(declare-fun xx () String)
-(declare-fun yy () String)
-(declare-fun zz () String)
-(declare-fun ww () String)
-(declare-fun pp () String)
-(declare-fun qq () String)
-
-(assert (= (str.++ xx yy zz) (str.++ ww qq)))
-(assert (= ww (str.++ xx pp)))
-(assert (= yy pp))
-(assert (not (= zz qq)))
-
-(check-sat)
diff --git a/test/regress/regress0/strings/str002.smt2 b/test/regress/regress0/strings/str002.smt2
deleted file mode 100644
index 62512ef79..000000000
--- a/test/regress/regress0/strings/str002.smt2
+++ /dev/null
@@ -1,18 +0,0 @@
-(set-logic QF_S)
-(set-info :status unsat)
-
-(declare-fun xx () String)
-(declare-fun yy () String)
-(declare-fun zz () String)
-(declare-fun ww () String)
-(declare-fun pp () String)
-(declare-fun qq () String)
-
-; assoc
-(assert (or (= xx (str.++ yy "aa")) (= zz (str.++ yy "aa"))
-))
-(assert (and (not (= (str.++ xx "bb") (str.++ yy "aa" "bb")))
-		    (not (= (str.++ zz "bb") (str.++ yy "aa" "bb")))
-))
-
-(check-sat)
diff --git a/test/regress/regress0/strings/str006.smt2 b/test/regress/regress0/strings/str006.smt2
deleted file mode 100644
index 2bdf9b1b5..000000000
--- a/test/regress/regress0/strings/str006.smt2
+++ /dev/null
@@ -1,14 +0,0 @@
-(set-logic QF_S)
-(set-info :status sat)
-
-(declare-fun x () String)
-(declare-fun y () String)
-(declare-fun z () String)
-
-;plandowski p469 1
-(assert (= (str.++ x "ab" y) (str.++ y "ba" z)))
-(assert (= z (str.++ x y)))
-(assert (not (= (str.++ x "a") (str.++ "a" x))))
-
-(check-sat)
-
diff --git a/test/regress/regress0/strings/str007.smt2 b/test/regress/regress0/strings/str007.smt2
deleted file mode 100644
index a7173701a..000000000
--- a/test/regress/regress0/strings/str007.smt2
+++ /dev/null
@@ -1,13 +0,0 @@
-(set-logic QF_S)
-(set-info :status unsat)
-
-(declare-fun x () String)
-(declare-fun y () String)
-
-
-(assert (or (= x y) (= x y)))
-
-(assert (= (str.++ x "ba") (str.++ "ab" x)))
-(assert (= (str.++ y "ab") (str.++ "ab" y)))
-
-(check-sat)
diff --git a/test/regress/regress0/strings/strings-index-empty.smt2 b/test/regress/regress0/strings/strings-index-empty.smt2
deleted file mode 100644
index a726d9cab..000000000
--- a/test/regress/regress0/strings/strings-index-empty.smt2
+++ /dev/null
@@ -1,11 +0,0 @@
-; COMMAND-LINE: --simplification=none --strings-exp --no-strings-lazy-pp
-; EXPECT: sat
-(set-logic SLIA)
-(set-info :status sat)
-(declare-fun x () String)
-(declare-fun f () String)
-(declare-fun y () Int)
-(assert (= (str.len f) 0))
-; command line options ensure reduction is invoked for indexof, f is "", should return -1
-(assert (= (str.indexof x f 4) y))
-(check-sat)
diff --git a/test/regress/regress0/strings/strip-endpt-sound.smt2 b/test/regress/regress0/strings/strip-endpt-sound.smt2
deleted file mode 100644
index 0c1dd123c..000000000
--- a/test/regress/regress0/strings/strip-endpt-sound.smt2
+++ /dev/null
@@ -1,29 +0,0 @@
-; COMMAND-LINE: --strings-exp
-; EXPECT: sat
-(set-logic QF_S)
-(declare-fun x () String)
-(declare-fun y () String)
-
-(assert (str.contains "c(ab)" (str.++ x ")")))
-(assert (str.contains "c(ab)" (str.++ "c(" y)))
-
-(declare-fun z () String)
-(declare-fun w () String)
-
-(assert (str.contains "c(ab))" (str.++ z "))")))
-(assert (str.contains z "b"))
-
-(assert (str.contains "c(ab))" (str.++ w "b)")))
-(assert (str.contains w "a"))
-
-
-(declare-fun p () String)
-(declare-fun q () String)
-
-(assert (str.contains "c(aab))" (str.++ "a" p)))
-(assert (str.contains p "a"))
-
-(assert (str.contains "c(abb))" (str.++ q "b")))
-(assert (str.contains q "b"))
-
-(check-sat)
diff --git a/test/regress/regress0/strings/substr001.smt2 b/test/regress/regress0/strings/substr001.smt2
deleted file mode 100644
index 78f3ffee7..000000000
--- a/test/regress/regress0/strings/substr001.smt2
+++ /dev/null
@@ -1,16 +0,0 @@
-(set-logic QF_S)
-(set-info :status sat)
-
-(declare-fun x () String)
-(declare-fun i1 () Int)
-(declare-fun i2 () Int)
-(declare-fun i3 () Int)
-(declare-fun i4 () Int)
-
-(assert (and (>= i1 0) (>= i2 0) (< (+ i1 i2) (str.len x))))
-(assert (and (>= i3 0) (>= i4 0) (< (+ i3 i4) (str.len x))))
-(assert (= "efg" (str.substr x i1 i2) ) )
-(assert (= "bef" (str.substr x i3 i4) ) )
-(assert (> (str.len x) 5))
-
-(check-sat)
diff --git a/test/regress/regress0/strings/type002.smt2 b/test/regress/regress0/strings/type002.smt2
deleted file mode 100644
index 0df0f20b0..000000000
--- a/test/regress/regress0/strings/type002.smt2
+++ /dev/null
@@ -1,18 +0,0 @@
-(set-logic QF_S)
-(set-info :status sat)
-(set-option :strings-exp true)
-
-(declare-fun x () String)
-(declare-fun y () String)
-(declare-fun z () String)
-(declare-fun i () Int)
-
-(assert (>= i 420))
-(assert (= x (int.to.str i)))
-(assert (= x (str.++ y "0" z)))
-(assert (not (= y "")))
-(assert (not (= z "")))
-
-
-
-(check-sat)
diff --git a/test/regress/regress0/strings/type003.smt2 b/test/regress/regress0/strings/type003.smt2
deleted file mode 100644
index c2d4792cc..000000000
--- a/test/regress/regress0/strings/type003.smt2
+++ /dev/null
@@ -1,12 +0,0 @@
-(set-logic QF_S)
-(set-info :status sat)
-(set-option :strings-exp true)
-
-(declare-fun i () Int)
-(declare-fun s () String)
-
-(assert (< 67 (str.to.int s)))
-(assert (= (str.len s) 2))
-(assert (not (= s "68")))
-
-(check-sat)
diff --git a/test/regress/regress0/strings/username_checker_min.smt2 b/test/regress/regress0/strings/username_checker_min.smt2
deleted file mode 100644
index 2f1c35844..000000000
--- a/test/regress/regress0/strings/username_checker_min.smt2
+++ /dev/null
@@ -1,14 +0,0 @@
-(set-logic QF_S)
-(set-option :strings-exp true)
-(set-info :status unsat)
-
-(declare-const buff String)
-(declare-const pass_mem String)
-(assert (= (str.len buff) 4))
-(assert (= (str.len pass_mem) 1))
-
-(assert (str.in.re (str.++ buff pass_mem) (re.+ (str.to.re "A"))))
-
-(assert (str.contains buff "<"))
-
-(check-sat)
diff --git a/test/regress/regress0/subranges.cvc b/test/regress/regress0/subranges.cvc
deleted file mode 100644
index bf6e46938..000000000
--- a/test/regress/regress0/subranges.cvc
+++ /dev/null
@@ -1,15 +0,0 @@
-% EXPECT: valid
-
-A : [0..0];
-B : [ -5 .. 8];
-C : [1..3];
-D : [1..2];
-E : [-100 ..-1];
-F : [-100 ..0];
-G : [-100 ..1];
-H : [-1 ..1];
-I : [0..10];
-J : [-10..-9];
-K : [-10..-10];
-
-QUERY TRUE;
diff --git a/test/regress/regress0/sygus/Base16_1.sy b/test/regress/regress0/sygus/Base16_1.sy
deleted file mode 100644
index b54c7688b..000000000
--- a/test/regress/regress0/sygus/Base16_1.sy
+++ /dev/null
@@ -1,34 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE:  --sygus-qe-preproc --cbqi-full --sygus-out=status --cegqi-si=all
-(set-logic BV)
-
-(define-fun B ((h (BitVec 8)) (l (BitVec 8)) (v (BitVec 8))) (BitVec 8) (bvlshr (bvshl v (bvsub #x07 h)) (bvsub #x07 (bvsub h l))))
-
-(define-fun E ((x (BitVec 8))) (BitVec 8)  (bvadd x #x41))
-
-(define-fun f ((x (BitVec 8))) (BitVec 8) (bvsub x #x41))
-
-(define-fun d ((x (BitVec 8))) Bool (bvule x #x3f))
-
-(synth-fun D ((x (BitVec 8)) (y (BitVec 8)) ) (BitVec 8)
-    	((Start (BitVec 8) (
-			(f Start) x y Const
-				(bvshl Start Start) 	 (bvnot Start)
-						 (bvand Start Start)
-						 (bvxor Start Start)
-						 (bvor Start Start)
-						 (bvneg Start)
-						 (bvadd Start Start)
-						 (bvlshr Start Start)
-						 (bvsub Start Start)
-			))
-	 (Const (BitVec 8) (#x01 #x03 #x06 #x07 #x04 #x05 #x02 #x00))
-))
-
-(declare-var x (BitVec 8))
-(constraint  (= x (D (E (B #x07 #x04 x) ) (E  (B #x03 #x00 x))  )) )
-
-; notice we don't have solution reconstruction for this
-(check-synth)    
-
-
diff --git a/test/regress/regress0/sygus/Makefile.am b/test/regress/regress0/sygus/Makefile.am
index 9e7427eb0..fef4546e9 100644
--- a/test/regress/regress0/sygus/Makefile.am
+++ b/test/regress/regress0/sygus/Makefile.am
@@ -18,90 +18,26 @@ MAKEFLAGS = -k
 # These are run for all build profiles.
 # If a test shouldn't be run in e.g. competition mode,
 # put it below in "TESTS +="
-TESTS = commutative.sy \
-        constant.sy \
-        multi-fun-polynomial2.sy \
-        unbdd_inv_gen_winf1.sy \
-        max.sy \
-        array_sum_2_5.sy \
+TESTS =	\
         parity-AIG-d0.sy \
-        twolets1.sy \
-        array_search_2.sy \
-        hd-01-d1-prog.sy \
-        icfp_28_10.sy \
         const-var-test.sy \
         no-syntax-test.sy \
-        no-flat-simp.sy \
-        twolets2-orig.sy \
         let-ringer.sy \
         let-simp.sy \
-        tl-type.sy \
-        dup-op.sy \
-        nflat-fwd.sy \
-        nflat-fwd-3.sy \
         no-syntax-test-bool.sy \
-        inv-example.sy \
         uminus_one.sy \
-        sygus-dt.sy \
         dt-no-syntax.sy \
-        list-head-x.sy \
-        clock-inc-tuple.sy \
-        dt-test-ns.sy \
-        no-mention.sy \
-        max2-univ.sy \
-        strings-small.sy \
         strings-unconstrained.sy \
-        tl-type-4x.sy \
-        tl-type-0.sy \
-        fg_polynomial3.sy \
-        icfp_14.12.sy \
-        strings-trivial-simp.sy \
-        icfp_easy-ite.sy \
-        strings-template-infer.sy \
-        strings-trivial.sy \
         General_plus10.sy \
-        qe.sy \
-        cggmp.sy \
         parse-bv-let.sy \
-        cegar1.sy \
-        triv-type-mismatch-si.sy \
-        nia-max-square-ns.sy \
-        strings-concat-3-args.sy \
-        process-10-vars.sy \
-        process-10-vars-2fun.sy \
-        inv-unused.sy \
         ccp16.lus.sy \
-        icfp_14.12-flip-args.sy \
-        strings-template-infer-unused.sy \
-        strings-trivial-two-type.sy \
-        strings-double-rec.sy \
-        hd-19-d1-prog-dup-op.sy \
-        real-grammar-neg.sy \
         real-si-all.sy  \
         c100.sy \
         check-generic-red.sy
 
-# disabled, takes too long with and without CBQI BV
-# Base16_1.sy
-
 # sygus tests currently taking too long for make regress
 EXTRA_DIST = $(TESTS) \
-  max.smt2 \
-  sygus-uf.sl \
-  enum-test.sy 
-  
-# strings-concat-3-args.sy
-
-#if CVC4_BUILD_PROFILE_COMPETITION
-#else
-#TESTS += \
-# error.cvc
-#endif
-
-# disabled tests, yet distribute
-#EXTRA_DIST += \
-# setofsets-disequal.smt2
-# no-syntax-test-no-si.sy
+  sygus-uf.sl
 
 # synonyms for "check"
 .PHONY: regress regress0 test
diff --git a/test/regress/regress0/sygus/array_search_2.sy b/test/regress/regress0/sygus/array_search_2.sy
deleted file mode 100644
index 41346e655..000000000
--- a/test/regress/regress0/sygus/array_search_2.sy
+++ /dev/null
@@ -1,11 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --cegqi-si=all --sygus-out=status
-(set-logic LIA)
-(synth-fun findIdx ( (y1 Int) (y2 Int) (k1 Int)) Int ((Start Int ( 0 1 2 y1 y2 k1 (ite BoolExpr Start Start))) (BoolExpr Bool ((< Start Start) (<= Start Start) (> Start Start) (>= Start Start)))))
-(declare-var x1 Int)
-(declare-var x2 Int)
-(declare-var k Int)
-(constraint (=> (< x1 x2) (=> (< k x1) (= (findIdx x1 x2 k) 0))))
-(constraint (=> (< x1 x2) (=> (> k x2) (= (findIdx x1 x2 k) 2))))
-(constraint (=> (< x1 x2) (=> (and (> k x1) (< k x2)) (= (findIdx x1 x2 k) 1))))
-(check-synth)
diff --git a/test/regress/regress0/sygus/array_sum_2_5.sy b/test/regress/regress0/sygus/array_sum_2_5.sy
deleted file mode 100644
index 84a75d086..000000000
--- a/test/regress/regress0/sygus/array_sum_2_5.sy
+++ /dev/null
@@ -1,9 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --cegqi-si=all --sygus-out=status
-(set-logic LIA)
-(synth-fun findSum ( (y1 Int) (y2 Int) )Int ((Start Int ( 0 1 2 y1 y2 (+ Start Start)    (ite BoolExpr Start Start))) (BoolExpr Bool ((< Start Start) (<= Start Start) (> Start Start) (>= Start Start)))))
-(declare-var x1 Int)
-(declare-var x2 Int)
-(constraint (=> (> (+ x1 x2) 5) (= (findSum x1 x2 ) (+ x1 x2))))
-(constraint (=> (<= (+ x1 x2) 5) (= (findSum x1 x2 ) 0)))
-(check-synth)
diff --git a/test/regress/regress0/sygus/cegar1.sy b/test/regress/regress0/sygus/cegar1.sy
deleted file mode 100644
index ee85db88a..000000000
--- a/test/regress/regress0/sygus/cegar1.sy
+++ /dev/null
@@ -1,23 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --sygus-inv-templ=post --sygus-out=status
-(set-logic LIA)
-
-(synth-inv inv-f ((x Int) (y Int)))
-
-(declare-primed-var x Int)
-(declare-primed-var y Int)
-
-(define-fun pre-f ((x Int) (y Int)) Bool
-(and (and (>= x 0)
-(and (<= x 2)  
-(<= y 2))) (>= y 0)))
-
-(define-fun trans-f ((x Int) (y Int) (x! Int) (y! Int)) Bool
-(and (= x! (+ x 2)) (= y! (+ y 2))))
-
-(define-fun post-f ((x Int) (y Int)) Bool
-(not (and (= x 4) (= y 0))))
-
-(inv-constraint inv-f pre-f trans-f post-f)
-
-(check-synth)
diff --git a/test/regress/regress0/sygus/cggmp.sy b/test/regress/regress0/sygus/cggmp.sy
deleted file mode 100644
index a3247e4f4..000000000
--- a/test/regress/regress0/sygus/cggmp.sy
+++ /dev/null
@@ -1,23 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --sygus-inv-templ=pre --sygus-out=status
-
-(set-logic LIA)
-
-(synth-inv inv-f ((i Int) (j Int)))
-
-(declare-primed-var i Int)
-(declare-primed-var j Int)
-
-(define-fun pre-f ((i Int) (j Int)) Bool
-(and (= i 1)  
-(= j 10)))
-
-(define-fun trans-f ((i Int) (j Int) (i! Int) (j! Int)) Bool
-(and (and (>= j i) (= i! (+ i 2))) (= j! (- j 1))))
-
-(define-fun post-f ((i Int) (j Int)) Bool
-(not (and (< j i) (not (= j 6)))))
-
-(inv-constraint inv-f pre-f trans-f post-f)
-
-(check-synth)
diff --git a/test/regress/regress0/sygus/clock-inc-tuple.sy b/test/regress/regress0/sygus/clock-inc-tuple.sy
deleted file mode 100644
index 43fd7c1ac..000000000
--- a/test/regress/regress0/sygus/clock-inc-tuple.sy
+++ /dev/null
@@ -1,14 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --cegqi-si=all --sygus-out=status
-
-(set-logic ALL_SUPPORTED)
-(declare-var m Int)
-(declare-var s Int)
-(declare-var inc Int)
-(declare-datatypes ((tuple2 0)) ( ((tuple2 (_m Int) (_s Int))) ))
-
-(synth-fun x12 ((m Int) (s Int) (inc Int)) tuple2)
-(constraint (=> 
-(and (>= m 0) (>= s 0) (< s 3) (> inc 0)) 
-(and (>= (_m (x12 m s inc)) 0) (>= (_s (x12 m s inc)) 0) (< (_s (x12 m s inc)) 3) (= (+ (* (_m (x12 m s inc)) 3) (_s (x12 m s inc))) (+ (+ (* m 3) s) inc)))))
-(check-synth)
diff --git a/test/regress/regress0/sygus/commutative.sy b/test/regress/regress0/sygus/commutative.sy
deleted file mode 100644
index 24201b453..000000000
--- a/test/regress/regress0/sygus/commutative.sy
+++ /dev/null
@@ -1,22 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --sygus-out=status
-
-(set-logic LIA)
-
-(synth-fun comm ((x Int) (y Int)) Int
-    ((Start Int (x
-                 y
-                 (+ Start Start)
-                 (- Start Start)
-                 ))
-          ))
-
-(declare-var x Int)
-(declare-var y Int)
-
-(constraint (= (comm x y) (comm y x)))
-
-
-(check-synth)
-
-; (+ x y) is a valid solution
diff --git a/test/regress/regress0/sygus/constant.sy b/test/regress/regress0/sygus/constant.sy
deleted file mode 100644
index 1bb3e59fa..000000000
--- a/test/regress/regress0/sygus/constant.sy
+++ /dev/null
@@ -1,23 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --sygus-out=status
-
-(set-logic LIA)
-
-(synth-fun constant ((x Int)) Int
-    ((Start Int (x
-                 0
-                 1
-                 (+ Start Start)
-                 (- Start Start)
-                 ))
-          ))
-
-(declare-var x Int)
-(declare-var y Int)
-
-(constraint (= (constant x) (constant y)))
-
-
-(check-synth)
-
-; 0, 1, (- x x) are valid solutions
diff --git a/test/regress/regress0/sygus/dt-test-ns.sy b/test/regress/regress0/sygus/dt-test-ns.sy
deleted file mode 100644
index a6e8ac5c2..000000000
--- a/test/regress/regress0/sygus/dt-test-ns.sy
+++ /dev/null
@@ -1,14 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --cegqi-si=all --sygus-out=status
-(set-logic LIA)
-
-(declare-datatypes ((List 0)) (((cons (head Int) (tail List)) (nil))))
-
-(synth-fun f ((x Int)) List)
-
-(declare-var x Int)
-
-(constraint (is-cons (f x)))
-(constraint (and (= (head (f x)) x) (= (head (f x)) (+ 5 (head (tail (f x)))))))
-(check-synth)
-
diff --git a/test/regress/regress0/sygus/dup-op.sy b/test/regress/regress0/sygus/dup-op.sy
deleted file mode 100644
index e2c69282e..000000000
--- a/test/regress/regress0/sygus/dup-op.sy
+++ /dev/null
@@ -1,11 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --cegqi-si=none --sygus-out=status
-(set-logic LIA)
-(synth-fun f ((x Int)) Int
-    ((Start Int ((+ Con Con) (+ Start Start) x))
-     (Con Int (0 1))))
-
-(declare-var x Int)
-(constraint (= (f x) (* 2 x)))
-(check-synth)
-
diff --git a/test/regress/regress0/sygus/enum-test.sy b/test/regress/regress0/sygus/enum-test.sy
deleted file mode 100644
index 47099eeed..000000000
--- a/test/regress/regress0/sygus/enum-test.sy
+++ /dev/null
@@ -1,8 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --cegqi-si=all --sygus-out=status
-(set-logic LIA)
-(define-sort D (Enum (a b)))
-(define-fun f ((x D)) Int (ite (= x D::a) 3 7))
-(synth-fun g () D ((Start D (D::a D::b))))
-(constraint (= (f g) 7))
-(check-synth)
diff --git a/test/regress/regress0/sygus/fg_polynomial3.sy b/test/regress/regress0/sygus/fg_polynomial3.sy
deleted file mode 100644
index d70516bf1..000000000
--- a/test/regress/regress0/sygus/fg_polynomial3.sy
+++ /dev/null
@@ -1,18 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --sygus-out=status
-
-(set-logic LIA)
-
-(synth-fun addExpr1 ((x Int) (y Int)) Int
-)
-
-(synth-fun addExpr2 ((x Int) (y Int)) Int
-)
-
-(declare-var x Int)
-(declare-var y Int)
-
-(constraint (= (+ (addExpr1 x y) (addExpr2 y x)) (- x (+ x y))))
-
-(check-synth)
-
diff --git a/test/regress/regress0/sygus/hd-01-d1-prog.sy b/test/regress/regress0/sygus/hd-01-d1-prog.sy
deleted file mode 100644
index 1379d4206..000000000
--- a/test/regress/regress0/sygus/hd-01-d1-prog.sy
+++ /dev/null
@@ -1,22 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --cegqi --sygus-out=status
-
-(set-logic BV)
-
-(define-fun hd01 ((x (BitVec 32))) (BitVec 32) (bvand x (bvsub x #x00000001)))
-
-(synth-fun f ((x (BitVec 32))) (BitVec 32)
-    ((Start (BitVec 32) ((bvand Start Start)
-                         (bvsub Start Start)
-             (bvor Start Start)
-             (bvadd Start Start)
-             (bvxor Start Start)
-                         x
-             #x00000000
-             #xFFFFFFFF
-                         #x00000001))))
-
-(declare-var x (BitVec 32))
-(constraint (= (hd01 x) (f x)))
-(check-synth)
-
diff --git a/test/regress/regress0/sygus/hd-19-d1-prog-dup-op.sy b/test/regress/regress0/sygus/hd-19-d1-prog-dup-op.sy
deleted file mode 100644
index abcfc2217..000000000
--- a/test/regress/regress0/sygus/hd-19-d1-prog-dup-op.sy
+++ /dev/null
@@ -1,32 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --cegqi-si=all --sygus-out=status
-
-(set-logic BV)
-
-(define-fun hd19 ((x (BitVec 32)) (m (BitVec 32)) (k (BitVec 32))) (BitVec 32) 
-  (bvxor x (bvxor (bvshl (bvand (bvxor (bvlshr x k) x) m) k) (bvand (bvxor (bvlshr x k) x) m))))
-
-; bvand is a duplicate
-(synth-fun f ((x (BitVec 32)) (m (BitVec 32)) (k (BitVec 32))) (BitVec 32)
-		   ((Start (BitVec 32) ((bvand Start Start)
-								(bvsub Start Start)
-								(bvxor Start Start)
-								(bvor Start Start)
-								(bvand Start Start)
-								(bvshl Start Start)
-								(bvlshr Start Start)
-								(bvashr Start Start)
-								(bvnot Start)
-								(bvneg Start)
-								x
-								m
-								k))))
-
-
-(declare-var x (BitVec 32))
-(declare-var m (BitVec 32))
-(declare-var k (BitVec 32))
-
-(constraint (= (hd19 x m k) (f x m k)))
-(check-synth)
-
diff --git a/test/regress/regress0/sygus/icfp_14.12-flip-args.sy b/test/regress/regress0/sygus/icfp_14.12-flip-args.sy
deleted file mode 100644
index a1e93cc44..000000000
--- a/test/regress/regress0/sygus/icfp_14.12-flip-args.sy
+++ /dev/null
@@ -1,55 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --sygus-out=status
-(set-logic BV)
-
-(define-fun shr1 ((x (BitVec 64))) (BitVec 64) (bvlshr x #x0000000000000001))
-(define-fun shr4 ((x (BitVec 64))) (BitVec 64) (bvlshr x #x0000000000000004))
-(define-fun shr16 ((x (BitVec 64))) (BitVec 64) (bvlshr x #x0000000000000010))
-(define-fun shl1 ((x (BitVec 64))) (BitVec 64) (bvshl x #x0000000000000001))
-(define-fun if0 ((y (BitVec 64)) (x (BitVec 64)) (z (BitVec 64))) (BitVec 64) (ite (= x #x0000000000000001) y z))
-
-(synth-fun f ( (x (BitVec 64))) (BitVec 64)
-(
-
-(Start (BitVec 64) (#x0000000000000000 #x0000000000000001 x (bvnot Start)
-                    (shl1 Start)
- 		    (shr1 Start)
-		    (shr4 Start)
-		    (shr16 Start)
-		    (bvand Start Start)
-		    (bvor Start Start)
-		    (bvxor Start Start)
-		    (bvadd Start Start)
-		    (if0 Start Start Start)
- ))
-)
-)
-(constraint (= (f #x6E393354DFFAAB51) #xC8E366559002AA57))
-(constraint (= (f #xFDA75AD598A27135) #x812C529533AEC765))
-(constraint (= (f #x58682C0FA4F8DB6D) #xD3CBE9F82D839249))
-(constraint (= (f #x58FDC0941A7E079F) #xD3811FB5F2C0FC30))
-(constraint (= (f #xBDC9B88103ECB0C9) #xA11B23BF7E09A79B))
-(constraint (= (f #x000000000001502F) #xFFFFFFFFFFFF57E8))
-(constraint (= (f #x0000000000010999) #xFFFFFFFFFFFF7B33))
-(constraint (= (f #x0000000000013169) #xFFFFFFFFFFFF674B))
-(constraint (= (f #x000000000001B1A9) #xFFFFFFFFFFFF272B))
-(constraint (= (f #x0000000000016D77) #xFFFFFFFFFFFF4944))
-(constraint (= (f #x0000000000000001) #xFFFFFFFFFFFFFFFF))
-(constraint (= (f #x1ED2E25068744C80) #x0000000000000000))
-(constraint (= (f #x2D2144F9D8CDCBD6) #x0000000000000000))
-(constraint (= (f #xF0F0F0F0F0F0F0F2) #x0000000000000000))
-(constraint (= (f #x83163CFD5DDCCCFB) #xBE74E18151119982))
-(constraint (= (f #xEA31B6A50EF4E399) #x8AE724AD78858E33))
-(constraint (= (f #xE0B1EF549BB6D4B9) #x8FA70855B22495A3))
-(constraint (= (f #x086F9E13A16C363D) #xFBC830F62F49E4E1))
-(constraint (= (f #x2426824D3E67E342) #x0000000000000000))
-(constraint (= (f #xDD518DEFFF18308A) #x0000000000000000))
-(constraint (= (f #x21ECDADB06B3CB03) #xEF0992927CA61A7E))
-(constraint (= (f #x72B1976FBB63A82B) #xC6A73448224E2BEA))
-(constraint (= (f #x16CB47AE0281B27F) #xF49A5C28FEBF26C0))
-(constraint (= (f #x82DE7A1FCA0C0B8F) #xBE90C2F01AF9FA38))
-(constraint (= (f #x0000000000000001) #xFFFFFFFFFFFFFFFF))
-(constraint (= (f #xF0F0F0F0F0F0F0F2) #x0000000000000000))
-(constraint (= (f #x000000000001F0D4) #x0000000000000000))
-(constraint (= (f #x0000000000010067) #xFFFFFFFFFFFF7FCC))
-(check-synth)
diff --git a/test/regress/regress0/sygus/icfp_14.12.sy b/test/regress/regress0/sygus/icfp_14.12.sy
deleted file mode 100644
index 51b86f0f5..000000000
--- a/test/regress/regress0/sygus/icfp_14.12.sy
+++ /dev/null
@@ -1,63 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --sygus-out=status
-(set-logic BV)
-
-(define-fun shr1 ((x (BitVec 64))) (BitVec 64) (bvlshr x #x0000000000000001))
-(define-fun shr4 ((x (BitVec 64))) (BitVec 64) (bvlshr x #x0000000000000004))
-(define-fun shr16 ((x (BitVec 64))) (BitVec 64) (bvlshr x #x0000000000000010))
-(define-fun shl1 ((x (BitVec 64))) (BitVec 64) (bvshl x #x0000000000000001))
-(define-fun if0 ((x (BitVec 64)) (y (BitVec 64)) (z (BitVec 64))) (BitVec 64) (ite (= x #x0000000000000001) y z))
-
-(synth-fun f ( (x (BitVec 64))) (BitVec 64)
-(
-
-(Start (BitVec 64) (#x0000000000000000 #x0000000000000001 x (bvnot Start)
-                    (shl1 Start)
- 		    (shr1 Start)
-		    (shr4 Start)
-		    (shr16 Start)
-		    (bvand Start Start)
-		    (bvor Start Start)
-		    (bvxor Start Start)
-		    (bvadd Start Start)
-		    (if0 Start Start Start)
- ))
-)
-)
-(constraint (= (f #x6E393354DFFAAB51) #xC8E366559002AA57))
-(constraint (= (f #xFDA75AD598A27135) #x812C529533AEC765))
-(constraint (= (f #x58682C0FA4F8DB6D) #xD3CBE9F82D839249))
-(constraint (= (f #x58FDC0941A7E079F) #xD3811FB5F2C0FC30))
-(constraint (= (f #xBDC9B88103ECB0C9) #xA11B23BF7E09A79B))
-(constraint (= (f #x000000000001502F) #xFFFFFFFFFFFF57E8))
-(constraint (= (f #x0000000000010999) #xFFFFFFFFFFFF7B33))
-(constraint (= (f #x0000000000013169) #xFFFFFFFFFFFF674B))
-(constraint (= (f #x000000000001B1A9) #xFFFFFFFFFFFF272B))
-(constraint (= (f #x0000000000016D77) #xFFFFFFFFFFFF4944))
-(constraint (= (f #x0000000000000001) #xFFFFFFFFFFFFFFFF))
-(constraint (= (f #x1ED2E25068744C80) #x0000000000000000))
-(constraint (= (f #x2D2144F9D8CDCBD6) #x0000000000000000))
-(constraint (= (f #xE5D371D100002E8A) #x0000000000000000))
-(constraint (= (f #xADFF6BA34EBDAD72) #x0000000000000000))
-(constraint (= (f #xDA9299B546AAB59A) #x0000000000000000))
-(constraint (= (f #x0000000000015C8A) #x0000000000000000))
-(constraint (= (f #x0000000000017066) #x0000000000000000))
-(constraint (= (f #x000000000001D9D8) #x0000000000000000))
-(constraint (= (f #x00000000000151AE) #x0000000000000000))
-(constraint (= (f #x0000000000017A14) #x0000000000000000))
-(constraint (= (f #xF0F0F0F0F0F0F0F2) #x0000000000000000))
-(constraint (= (f #x83163CFD5DDCCCFB) #xBE74E18151119982))
-(constraint (= (f #xEA31B6A50EF4E399) #x8AE724AD78858E33))
-(constraint (= (f #xE0B1EF549BB6D4B9) #x8FA70855B22495A3))
-(constraint (= (f #x086F9E13A16C363D) #xFBC830F62F49E4E1))
-(constraint (= (f #x2426824D3E67E342) #x0000000000000000))
-(constraint (= (f #xDD518DEFFF18308A) #x0000000000000000))
-(constraint (= (f #x21ECDADB06B3CB03) #xEF0992927CA61A7E))
-(constraint (= (f #x72B1976FBB63A82B) #xC6A73448224E2BEA))
-(constraint (= (f #x16CB47AE0281B27F) #xF49A5C28FEBF26C0))
-(constraint (= (f #x82DE7A1FCA0C0B8F) #xBE90C2F01AF9FA38))
-(constraint (= (f #x0000000000000001) #xFFFFFFFFFFFFFFFF))
-(constraint (= (f #xF0F0F0F0F0F0F0F2) #x0000000000000000))
-(constraint (= (f #x000000000001F0D4) #x0000000000000000))
-(constraint (= (f #x0000000000010067) #xFFFFFFFFFFFF7FCC))
-(check-synth)
diff --git a/test/regress/regress0/sygus/icfp_28_10.sy b/test/regress/regress0/sygus/icfp_28_10.sy
deleted file mode 100644
index 212ae37f5..000000000
--- a/test/regress/regress0/sygus/icfp_28_10.sy
+++ /dev/null
@@ -1,40 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --sygus-out=status
-
-(set-logic BV)
-
-(define-fun shr1 ((x (BitVec 64))) (BitVec 64) (bvlshr x #x0000000000000001))
-(define-fun shr4 ((x (BitVec 64))) (BitVec 64) (bvlshr x #x0000000000000004))
-(define-fun shr16 ((x (BitVec 64))) (BitVec 64) (bvlshr x #x0000000000000010))
-(define-fun shl1 ((x (BitVec 64))) (BitVec 64) (bvshl x #x0000000000000001))
-(define-fun if0 ((x (BitVec 64)) (y (BitVec 64)) (z (BitVec 64))) (BitVec 64) (ite (= x #x0000000000000001) y z))
-
-(synth-fun f ( (x (BitVec 64))) (BitVec 64)
-(
-
-(Start (BitVec 64) (#x0000000000000000 #x0000000000000001 x (bvnot Start)
-                    (shl1 Start)
-        (shr1 Start)
-        (shr4 Start)
-        (shr16 Start)
-        (bvand Start Start)
-        (bvor Start Start)
-        (bvxor Start Start)
-        (bvadd Start Start)
-        (if0 Start Start Start)
- ))
-)
-)
-
-
-(constraint (= (f #xd74594057974e439) #x0000d74594057974))
-(constraint (= (f #x74641ebeee92e8a2) #x000074641ebeee92))
-(constraint (= (f #x91c80141d7ec76b1) #x000091c80141d7ec))
-(constraint (= (f #xe4e55862e5ee4bec) #x0000e4e55862e5ee))
-(constraint (= (f #x367da67ede4260ce) #x0000367da67ede42))
-(constraint (= (f #xa365eb36246b3d8e) #x0000a365eb36246b))
-(constraint (= (f #xcd8a44a6d4c09c29) #x0000cd8a44a6d4c0))
-(constraint (= (f #xa97e9b9b7970433d) #x0000a97e9b9b7970))
-(constraint (= (f #x474dec0dd75d6894) #x0000474dec0dd75d))
-(constraint (= (f #x12430014ed058b24) #x000012430014ed05))
-(check-synth)
diff --git a/test/regress/regress0/sygus/icfp_easy-ite.sy b/test/regress/regress0/sygus/icfp_easy-ite.sy
deleted file mode 100644
index f0cbbdc53..000000000
--- a/test/regress/regress0/sygus/icfp_easy-ite.sy
+++ /dev/null
@@ -1,34 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --sygus-out=status
-(set-logic BV)
-
-(define-fun shr1 ((x (BitVec 64))) (BitVec 64) (bvlshr x #x0000000000000001))
-(define-fun shr4 ((x (BitVec 64))) (BitVec 64) (bvlshr x #x0000000000000004))
-(define-fun shr16 ((x (BitVec 64))) (BitVec 64) (bvlshr x #x0000000000000010))
-(define-fun shl1 ((x (BitVec 64))) (BitVec 64) (bvshl x #x0000000000000001))
-(define-fun if0 ((x (BitVec 64)) (y (BitVec 64)) (z (BitVec 64))) (BitVec 64) (ite (= x #x0000000000000001) y z))
-
-(synth-fun f ( (x (BitVec 64))) (BitVec 64)
-(
-
-(Start (BitVec 64) (#x0000000000000000 #x0000000000000001 x (bvnot Start)
-                    (shl1 Start)
- 		    (shr1 Start)
-		    (shr4 Start)
-		    (shr16 Start)
-		    (bvand Start Start)
-		    (bvor Start Start)
-		    (bvxor Start Start)
-		    (bvadd Start Start)
-		    (ite StartBool Start Start)
- ))
-(StartBool Bool ((= Start #x0000000000000001)))
-)
-)
-(constraint (= (f #x0000000000000001) #x0000000000000001))
-
-(constraint (= (f #x0000000000100001) #x0000000000100001))
-
-(constraint (= (f #xE5D371D100002E8A) #x0000000000000000))
-
-(check-synth)
diff --git a/test/regress/regress0/sygus/inv-example.sy b/test/regress/regress0/sygus/inv-example.sy
deleted file mode 100644
index ff68bc06c..000000000
--- a/test/regress/regress0/sygus/inv-example.sy
+++ /dev/null
@@ -1,12 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --sygus-out=status
-(set-logic LIA)
-(synth-inv inv-f ((x Int) (y Int) (b Bool)))
-(declare-primed-var x Int)
-(declare-primed-var y Int)
-(declare-primed-var b Bool)
-(define-fun pre-f ((x Int) (y Int) (b Bool)) Bool (and (and (>= x 5) (<= x 9)) (and (>= y 1) (<= y 3))))
-(define-fun trans-f ((x Int) (y Int) (b Bool) (x! Int) (y! Int) (b! Bool)) Bool (and (and (= b! b) (= y! x)) (ite b (= x! (+ x 10)) (= x! (+ x 12)))))
-(define-fun post-f ((x Int) (y Int) (b Bool)) Bool (<= y x))
-(inv-constraint inv-f pre-f trans-f post-f)
-(check-synth)
diff --git a/test/regress/regress0/sygus/inv-unused.sy b/test/regress/regress0/sygus/inv-unused.sy
deleted file mode 100644
index 91ba95d39..000000000
--- a/test/regress/regress0/sygus/inv-unused.sy
+++ /dev/null
@@ -1,13 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --sygus-out=status
-(set-logic LIA)
-(synth-inv inv-f ((x Int) (y Int) (b Bool)))
-(declare-primed-var x Int)
-(declare-primed-var y Int)
-(declare-primed-var b Bool)
-(define-fun pre-f ((x Int) (y Int) (b Bool)) Bool (and (>= x 5) (<= x 9)))
-(define-fun trans-f ((x Int) (y Int) (b Bool) (x! Int) (y! Int) (b! Bool)) Bool (= x! (+ x 1)))
-(define-fun post-f ((x Int) (y Int) (b Bool)) Bool (> x 0))
-(inv-constraint inv-f pre-f trans-f post-f)
-; invariant does not depend on arguments y and b
-(check-synth)
diff --git a/test/regress/regress0/sygus/list-head-x.sy b/test/regress/regress0/sygus/list-head-x.sy
deleted file mode 100644
index 6c5c1a97b..000000000
--- a/test/regress/regress0/sygus/list-head-x.sy
+++ /dev/null
@@ -1,13 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --cegqi-si=all --sygus-out=status
-(set-logic ALL_SUPPORTED)
-
-(declare-datatypes ((List 0)) (((cons (head Int) (tail List)) (nil))))
-
-(synth-fun f ((x Int)) List)
-
-(declare-var x Int)
-
-(constraint (is-cons (f x)))
-(constraint (= (head (f x)) (+ x 7)))
-(check-synth)
diff --git a/test/regress/regress0/sygus/max.smt2 b/test/regress/regress0/sygus/max.smt2
deleted file mode 100644
index ab2d4de05..000000000
--- a/test/regress/regress0/sygus/max.smt2
+++ /dev/null
@@ -1,52 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --cegqi --lang=smt2.5
-
-(set-logic UFDTLIA)
-
-(declare-datatypes () ((start (startx)
-                              (starty)
-                              (start1)
-                              (start0)
-                              (startplus (startplus1 start) (startplus2 start))
-                              (startminus (startminus1 start) (startminus2 start))
-                              (startite (startite1 startbool) (startite2 start) (startite3 start)))
-                       (startbool (startand (startand1 startbool) (startand2 startbool))
-                                  (startor (startor1 startbool) (startor2 startbool))
-                                  (startnot (startnot1 startbool))
-                                  (startleq (startleq1 start) (startleq2 start))
-                                  (starteq (starteq1 start) (starteq2 start))
-                                  (startgeq (startgeq1 start) (startgeq2 start))
-                                  )))
-
-(declare-fun eval (start Int Int) Int)
-(declare-fun evalbool (startbool Int Int) Bool)
-
-(assert (forall ((x Int) (y Int)) (! (= (eval startx x y) x) :pattern ((eval startx x y)))))
-(assert (forall ((x Int) (y Int)) (! (= (eval starty x y) y) :pattern ((eval starty x y)))))
-(assert (forall ((x Int) (y Int)) (! (= (eval start0 x y) 0) :pattern ((eval start0 x y)))))
-(assert (forall ((x Int) (y Int)) (! (= (eval start1 x y) 1) :pattern ((eval start1 x y)))))
-(assert (forall ((s1 start) (s2 start) (x Int) (y Int)) (! (= (eval (startplus s1 s2) x y) (+ (eval s1 x y) (eval s2 x y))) :pattern ((eval (startplus s1 s2) x y)))))
-(assert (forall ((s1 start) (s2 start) (x Int) (y Int)) (! (= (eval (startminus s1 s2) x y) (- (eval s1 x y) (eval s2 x y))) :pattern ((eval (startminus s1 s2) x y)))))
-(assert (forall ((s1 startbool) (s2 start) (s3 start) (x Int) (y Int)) (! (= (eval (startite s1 s2 s3) x y) (ite (evalbool s1 x y) (eval s2 x y) (eval s3 x y)))
-                                                                          :pattern ((eval (startite s1 s2 s3) x y)))))
-
-(assert (forall ((s1 startbool) (s2 startbool) (x Int) (y Int)) (! (= (evalbool (startand s1 s2) x y) (and (evalbool s1 x y) (evalbool s2 x y)))
-                                                                   :pattern ((evalbool (startand s1 s2) x y)))))
-(assert (forall ((s1 startbool) (s2 startbool) (x Int) (y Int)) (! (= (evalbool (startor s1 s2) x y) (or (evalbool s1 x y) (evalbool s2 x y)))
-                                                                   :pattern ((evalbool (startor s1 s2) x y)))))
-(assert (forall ((s1 startbool) (x Int) (y Int)) (! (= (evalbool (startnot s1) x y) (not (evalbool s1 x y)))
-                                                    :pattern ((evalbool (startnot s1) x y)))))
-(assert (forall ((s1 start) (s2 start) (x Int) (y Int)) (! (= (evalbool (startleq s1 s2) x y) (<= (eval s1 x y) (eval s2 x y)))
-                                                           :pattern ((evalbool (startleq s1 s2) x y)))))
-(assert (forall ((s1 start) (s2 start) (x Int) (y Int)) (! (= (evalbool (starteq s1 s2) x y) (= (eval s1 x y) (eval s2 x y)))
-                                                           :pattern ((evalbool (starteq s1 s2) x y)))))
-(assert (forall ((s1 start) (s2 start) (x Int) (y Int)) (! (= (evalbool (startgeq s1 s2) x y) (>= (eval s1 x y) (eval s2 x y)))
-                                                           :pattern ((evalbool (startgeq s1 s2) x y)))))
-
-
-(define-fun P ((fmax start) (x Int) (y Int)) Bool (and (>= (eval fmax x y) x) (>= (eval fmax x y) y) (or (= (eval fmax x y) x) (= (eval fmax x y) y))))
-
-(assert (forall ((fmax start)) (! (exists ((x Int) (y Int)) (not (P fmax x y))) :sygus)))
-
-
-(check-sat)
diff --git a/test/regress/regress0/sygus/max.sy b/test/regress/regress0/sygus/max.sy
deleted file mode 100644
index 37ed848ef..000000000
--- a/test/regress/regress0/sygus/max.sy
+++ /dev/null
@@ -1,33 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --cegqi-si=all --sygus-out=status
-(set-logic LIA)
-
-(synth-fun max ((x Int) (y Int)) Int
-  ((Start Int (0 1 x y
-               (+ Start Start)
-               (- Start Start)
-               (ite StartBool Start Start)))
-   (StartBool Bool ((and StartBool StartBool)
-                    (not StartBool)
-                    (<= Start Start)))))
-
-;(synth-fun min ((x Int) (y Int)) Int
-;  ((Start Int ((Constant Int) (Variable Int)
-;               (+ Start Start)
-;               (- Start Start)
-;               (ite StartBool Start Start)))
-;   (StartBool Bool ((and StartBool StartBool)
-;                    (not StartBool)
-;                    (<= Start Start)))))
-
-(declare-var x Int)
-(declare-var y Int)
-
-(constraint (>= (max x y) x))
-(constraint (>= (max x y) y))
-(constraint (or (= x (max x y))
-                (= y (max x y))))
-;(constraint (= (+ (max x y) (min x y))
-;               (+ x y)))
-
-(check-synth)
diff --git a/test/regress/regress0/sygus/max2-univ.sy b/test/regress/regress0/sygus/max2-univ.sy
deleted file mode 100644
index 0e00cfd9b..000000000
--- a/test/regress/regress0/sygus/max2-univ.sy
+++ /dev/null
@@ -1,12 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --sygus-out=status
-; Synthesize the maximum of 2 integers, but property has 4 variables (requires 2 passes)
-(set-logic LIA)
-(synth-fun max2 ((x Int) (y Int)) Int)
-(declare-var x Int)
-(declare-var y Int)
-(declare-var r Int)
-(declare-var w Int)
-(constraint (=> (< r 0) (=> (or (and (= x w) (= y (+ w r))) (and (= x (+ w r)) (= y w))) (= (max2 x y) w))))
-(check-synth)
-
diff --git a/test/regress/regress0/sygus/multi-fun-polynomial2.sy b/test/regress/regress0/sygus/multi-fun-polynomial2.sy
deleted file mode 100644
index 22a2e0a4b..000000000
--- a/test/regress/regress0/sygus/multi-fun-polynomial2.sy
+++ /dev/null
@@ -1,35 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --sygus-out=status
-
-(set-logic LIA)
-
-(synth-fun addExpr1 ((x Int) (y Int)) Int
-    ((Start Int (x
-                 y
-     0
-     1
-                 (+ Start Start)
-                 (- Start Start)
-                 ))
-          ))
-
-(synth-fun addExpr2 ((x Int) (y Int)) Int
-    ((Start Int (x
-                 y
-     0
-     1
-                 (+ Start Start)
-                 (- Start Start)
-                 ))
-          ))
-
-
-(declare-var x Int)
-(declare-var y Int)
-
-(constraint (= (+ (addExpr1 x y) (addExpr2 y x)) (- x y)))
-
-
-(check-synth)
-
-; (x, y), (x-y, 0) ... are valid solutions
diff --git a/test/regress/regress0/sygus/nflat-fwd-3.sy b/test/regress/regress0/sygus/nflat-fwd-3.sy
deleted file mode 100644
index a1776cf93..000000000
--- a/test/regress/regress0/sygus/nflat-fwd-3.sy
+++ /dev/null
@@ -1,11 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --sygus-out=status
-(set-logic LIA)
-(synth-fun f ((x Int)) Int
-    ((Start Int ((+ (+ Con Con) Con) x))
-     (Con Int (0 1))))
-
-(declare-var x Int)
-(constraint (= (f x) 2))
-(check-synth)
-
diff --git a/test/regress/regress0/sygus/nflat-fwd.sy b/test/regress/regress0/sygus/nflat-fwd.sy
deleted file mode 100644
index da26a6c93..000000000
--- a/test/regress/regress0/sygus/nflat-fwd.sy
+++ /dev/null
@@ -1,11 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --sygus-out=status
-(set-logic LIA)
-(synth-fun f ((x Int)) Int
-    ((Start Int ((+ Con Con) (+ (+ Start Start) Con) x))
-     (Con Int (0 1))))
-
-(declare-var x Int)
-(constraint (= (f x) (* 2 x)))
-(check-synth)
-
diff --git a/test/regress/regress0/sygus/nia-max-square-ns.sy b/test/regress/regress0/sygus/nia-max-square-ns.sy
deleted file mode 100644
index 6e7f70ff0..000000000
--- a/test/regress/regress0/sygus/nia-max-square-ns.sy
+++ /dev/null
@@ -1,13 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --cegqi-si=all --sygus-out=status --nl-ext-tplanes
-(set-logic NIA)
-
-(synth-fun max ((x Int) (y Int)) Int)
-
-(declare-var x Int)
-(declare-var y Int)
-
-(constraint (>= (max x y) (* x x)))
-(constraint (>= (max x y) (* y y)))
-
-(check-synth)
diff --git a/test/regress/regress0/sygus/no-flat-simp.sy b/test/regress/regress0/sygus/no-flat-simp.sy
deleted file mode 100644
index c0f0e4c0f..000000000
--- a/test/regress/regress0/sygus/no-flat-simp.sy
+++ /dev/null
@@ -1,20 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --sygus-out=status
-
-(set-logic LIA)
-
-(synth-fun f ((x Int) (y Int)) Int
-    ((Start Int (x
-                 y
-                 0
-                 (- Start Start)
-                 (+ Start (+ Start Start))))))
-
-(declare-var x Int)
-(declare-var y Int)
-
-(constraint (= (f x y) (+ x y)))
-
-
-(check-synth)
-
diff --git a/test/regress/regress0/sygus/no-mention.sy b/test/regress/regress0/sygus/no-mention.sy
deleted file mode 100644
index f964d6039..000000000
--- a/test/regress/regress0/sygus/no-mention.sy
+++ /dev/null
@@ -1,15 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --sygus-out=status
-(set-logic LIA)
-
-(synth-fun p ((x Int) (y Int)) Int)
-(synth-fun m ((x Int) (y Int)) Int)
-(synth-fun n ((x Int)) Int)
-
-(declare-var x Int)
-(declare-var y Int)
-
-(constraint (>= (m x y) x))
-
-(check-synth)
-
diff --git a/test/regress/regress0/sygus/no-syntax-test-no-si.sy b/test/regress/regress0/sygus/no-syntax-test-no-si.sy
deleted file mode 100644
index 8f333811c..000000000
--- a/test/regress/regress0/sygus/no-syntax-test-no-si.sy
+++ /dev/null
@@ -1,14 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --sygus-out=status
-
-(set-logic LIA)
-
-(synth-fun f ((x Int) (y Int)) Int)
-
-(declare-var x Int)
-(declare-var y Int)
-
-(constraint (= (f x y) (+ (f x x) (f y y) x 1)))
-
-(check-synth)
-
diff --git a/test/regress/regress0/sygus/process-10-vars-2fun.sy b/test/regress/regress0/sygus/process-10-vars-2fun.sy
deleted file mode 100644
index 00340030f..000000000
--- a/test/regress/regress0/sygus/process-10-vars-2fun.sy
+++ /dev/null
@@ -1,28 +0,0 @@
-; COMMAND-LINE: --cegqi-si=none --sygus-out=status
-; EXPECT: unsat
-(set-logic LIA)
-
-(synth-fun f ((x1 Int) (x2 Int) (x3 Int) (x4 Int) (x5 Int) (x6 Int) (x7 Int) (x8 Int) (x9 Int) (x10 Int)) Int)
-
-(synth-fun g ((x1 Int) (x2 Int) (x3 Int) (x4 Int) (x5 Int) (x6 Int) (x7 Int) (x8 Int) (x9 Int) (x10 Int)) Int)
-
-(declare-var x1 Int)
-(declare-var x2 Int)
-(declare-var x3 Int)
-(declare-var x4 Int)
-(declare-var x5 Int)
-(declare-var x6 Int)
-(declare-var x7 Int)
-(declare-var x8 Int)
-(declare-var x9 Int)
-(declare-var x10 Int)
-
-; should be able to determine that arguments 1...6, 8...10 are irrelevant for f
-; and arguments 1...3, 5...10 are irrelevant for g
-
-(constraint (>= (f x1 x2 x3 x4 x5 x6 x7 x8 x9 x10) (+ x7 x7 x7)))
-
-(constraint (>= (g x1 x2 x3 x4 x5 x6 x7 x8 x9 x10) (+ x4 x4 x4)))
-
-(check-synth)
-
diff --git a/test/regress/regress0/sygus/process-10-vars.sy b/test/regress/regress0/sygus/process-10-vars.sy
deleted file mode 100644
index 523abd70d..000000000
--- a/test/regress/regress0/sygus/process-10-vars.sy
+++ /dev/null
@@ -1,24 +0,0 @@
-; COMMAND-LINE: --cegqi-si=none --sygus-out=status
-; EXPECT: unsat
-(set-logic LIA)
-
-(synth-fun f ((x1 Int) (x2 Int) (x3 Int) (x4 Int) (x5 Int) (x6 Int) (x7 Int) (x8 Int) (x9 Int) (x10 Int)) Int)
-
-
-(declare-var x1 Int)
-(declare-var x2 Int)
-(declare-var x3 Int)
-(declare-var x4 Int)
-(declare-var x5 Int)
-(declare-var x6 Int)
-(declare-var x7 Int)
-(declare-var x8 Int)
-(declare-var x9 Int)
-(declare-var x10 Int)
-
-; should be able to determine that arguments 1...6, 8...10 are irrelevant for f
-
-(constraint (>= (f x1 x2 x3 x4 x5 x6 x7 x8 x9 x10) (+ x7 x7 x7)))
-
-(check-synth)
-
diff --git a/test/regress/regress0/sygus/qe.sy b/test/regress/regress0/sygus/qe.sy
deleted file mode 100644
index 77e16efcb..000000000
--- a/test/regress/regress0/sygus/qe.sy
+++ /dev/null
@@ -1,12 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --cegqi-si=all --sygus-out=status --sygus-qe-preproc
-(set-logic LIA)
-
-(synth-fun f ((x Int)) Int)
-
-(declare-var x Int)
-(declare-var y Int)
-
-(constraint (=> (or (= y 2) (= y 3)) (> (f x) y)))
-
-(check-synth)
diff --git a/test/regress/regress0/sygus/real-grammar-neg.sy b/test/regress/regress0/sygus/real-grammar-neg.sy
deleted file mode 100644
index 523c95ec2..000000000
--- a/test/regress/regress0/sygus/real-grammar-neg.sy
+++ /dev/null
@@ -1,14 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --sygus-out=status --cegqi-si=none --no-sygus-pbe
-
-(set-logic LRA)
-
-(synth-fun f ((x Real)) Real)
-
-(declare-var x Real)
-
-(constraint (and (= (f -4) -2) (= (f -9) (/ -9 2))))
-
-(check-synth)
-
-; a solution is f = (/ x (+ 1 1))
diff --git a/test/regress/regress0/sygus/strings-concat-3-args.sy b/test/regress/regress0/sygus/strings-concat-3-args.sy
deleted file mode 100644
index 6628ff746..000000000
--- a/test/regress/regress0/sygus/strings-concat-3-args.sy
+++ /dev/null
@@ -1,18 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --sygus-out=status
-(set-logic SLIA)
-(synth-fun f ((x String)) String
-((Start String (ntString))
-
-(ntString String (x "" (str.++ ntStringConst ntString ntString)))
-
-(ntStringConst String ("a" "b" " "))
-
-))
-
-; can be solved with concat PBE strategy, although we currently are not (issue #1259)
-; regardless, this is small enough to solve quickly
-(constraint (= (f "def") "ab def"))
-
-(check-synth)
-
diff --git a/test/regress/regress0/sygus/strings-double-rec.sy b/test/regress/regress0/sygus/strings-double-rec.sy
deleted file mode 100644
index ea9caadea..000000000
--- a/test/regress/regress0/sygus/strings-double-rec.sy
+++ /dev/null
@@ -1,16 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --sygus-out=status
-(set-logic SLIA)
- 
-(synth-fun f ((name String)) String
-    ((Start String (name "A" "B" "" (str.++ Start1 Start2)))
-     (Start1 String (name "A" "B" ""))
-     (Start2 String (name "B" "A" (str.++ Start2 Start)))
-))
-
-
-(declare-var name String)
- 
-(constraint (= (f "BB") "AAAAAAAAAAAA"))
- 
-(check-synth)
diff --git a/test/regress/regress0/sygus/strings-small.sy b/test/regress/regress0/sygus/strings-small.sy
deleted file mode 100644
index 7d976ff39..000000000
--- a/test/regress/regress0/sygus/strings-small.sy
+++ /dev/null
@@ -1,35 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --sygus-out=status
-(set-logic SLIA)
-(synth-fun f ((firstname String) (lastname String)) String
-((Start String (ntString))
-
-(ntString String (
-firstname 
-lastname 
-" "
-(str.++ ntString ntString)))
-
-(ntInt Int (
-0 
-1 
-2
-(+ ntInt ntInt)
-(- ntInt ntInt)
-(str.len ntString)
-(str.to.int ntString)
-(str.indexof ntString ntString ntInt)))
-
-(ntBool Bool (
-true 
-false
-(str.prefixof ntString ntString)
-(str.suffixof ntString ntString)
-(str.contains ntString ntString)))
-
-))
-
-(constraint (= (f "Nancy" "FreeHafer") "Nancy FreeHafer"))
-
-(check-synth)
-
diff --git a/test/regress/regress0/sygus/strings-template-infer-unused.sy b/test/regress/regress0/sygus/strings-template-infer-unused.sy
deleted file mode 100644
index d0bee5564..000000000
--- a/test/regress/regress0/sygus/strings-template-infer-unused.sy
+++ /dev/null
@@ -1,16 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --sygus-out=status
-(set-logic SLIA)
- 
-(define-fun cA ((x String) (w String) (y String) (z String)) String (str.++ (str.++ x "A") y))
- 
-(synth-fun f ((name String)) String
-    ((Start String (name "A" "B" ""
-                       (cA Start Start Start Start)))))
-
-
-(declare-var name String)
- 
-(constraint (= (f "BB") "AAAAAAAAAAAA"))
- 
-(check-synth)
diff --git a/test/regress/regress0/sygus/strings-template-infer.sy b/test/regress/regress0/sygus/strings-template-infer.sy
deleted file mode 100644
index 13c4d7dac..000000000
--- a/test/regress/regress0/sygus/strings-template-infer.sy
+++ /dev/null
@@ -1,16 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --sygus-out=status
-(set-logic SLIA)
- 
-(define-fun cA ((x String) (y String)) String (str.++ (str.++ x "A") y))
- 
-(synth-fun f ((name String)) String
-    ((Start String (name "A" "B" ""
-                       (cA Start Start)))))
-
-
-(declare-var name String)
- 
-(constraint (= (f "BB") "AAAAAAAAAAAA"))
- 
-(check-synth)
diff --git a/test/regress/regress0/sygus/strings-trivial-simp.sy b/test/regress/regress0/sygus/strings-trivial-simp.sy
deleted file mode 100644
index f5e41a8f5..000000000
--- a/test/regress/regress0/sygus/strings-trivial-simp.sy
+++ /dev/null
@@ -1,14 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --sygus-out=status
-(set-logic SLIA)
- 
-(synth-fun f ((name String)) String
-    ((Start String (name "A" "B"
-                       (str.++ Start Start)))))
-
-
-(declare-var name String)
- 
-(constraint (= (f "BB") "AAAAAAAAAAAABAAAAAAAABAAA"))
- 
-(check-synth)
diff --git a/test/regress/regress0/sygus/strings-trivial-two-type.sy b/test/regress/regress0/sygus/strings-trivial-two-type.sy
deleted file mode 100644
index 86c71aa3a..000000000
--- a/test/regress/regress0/sygus/strings-trivial-two-type.sy
+++ /dev/null
@@ -1,18 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --sygus-out=status
-(set-logic SLIA)
- 
-(synth-fun f ((name String)) String
-    ((Start String (ntString))
-     (ntString String (name "B" ""
-                       (str.++ ntStringC ntString)))
-     (ntStringC String (name "A" ""))
-                       
-                       ))
-
-
-(declare-var name String)
- 
-(constraint (= (f "B") "AAAAAAAAAAAAAAAAAAAAAAAAA"))
- 
-(check-synth)
diff --git a/test/regress/regress0/sygus/strings-trivial.sy b/test/regress/regress0/sygus/strings-trivial.sy
deleted file mode 100644
index 9af0a1bb1..000000000
--- a/test/regress/regress0/sygus/strings-trivial.sy
+++ /dev/null
@@ -1,15 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --sygus-out=status
-(set-logic SLIA)
- 
-(synth-fun f ((name String)) String
-    ((Start String (ntString))
-     (ntString String (name "A" "B"
-                       (str.++ ntString ntString)))))
-
-
-(declare-var name String)
- 
-(constraint (= (f "B") "AAAAAAAAAAAAAAAAAAAAAAAAA"))
- 
-(check-synth)
diff --git a/test/regress/regress0/sygus/sygus-dt.sy b/test/regress/regress0/sygus/sygus-dt.sy
deleted file mode 100644
index d496e3fdc..000000000
--- a/test/regress/regress0/sygus/sygus-dt.sy
+++ /dev/null
@@ -1,16 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --sygus-out=status
-
-(set-logic LIA)
-
-(declare-datatypes ((List 0)) (((cons (head Int) (tail List)) (nil))))
-(define-fun g ((x Int)) List (cons (+ x 1) nil))
-(define-fun i () List (cons 3 nil))
-
-(synth-fun f ((x Int)) List ((Start List ((g StartInt) i (cons StartInt Start) (nil) (tail Start)))
-                             (StartInt Int (x 0 1 (+ StartInt StartInt)))))
-
-(declare-var x Int)
-
-(constraint (= (f x) (cons x nil)))
-(check-synth)
diff --git a/test/regress/regress0/sygus/tl-type-0.sy b/test/regress/regress0/sygus/tl-type-0.sy
deleted file mode 100644
index ceda89d78..000000000
--- a/test/regress/regress0/sygus/tl-type-0.sy
+++ /dev/null
@@ -1,11 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --cegqi-si=none --sygus-out=status
-(set-logic LIA)
-(synth-fun f ((x Int)) Int
-    ((Start Int ((+ Term Term)))
-     (Term Int (x 0))))
-
-(declare-var x Int)
-(constraint (= (f x) 0))
-(check-synth)
-
diff --git a/test/regress/regress0/sygus/tl-type-4x.sy b/test/regress/regress0/sygus/tl-type-4x.sy
deleted file mode 100644
index bf8eee5ee..000000000
--- a/test/regress/regress0/sygus/tl-type-4x.sy
+++ /dev/null
@@ -1,11 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --cegqi-si=none --sygus-out=status
-(set-logic LIA)
-(synth-fun f ((x Int)) Int
-    ((Start Int (Term (+ Start Start)))
-     (Term Int (x 0))))
-
-(declare-var x Int)
-(constraint (= (f x) (* 4 x)))
-(check-synth)
-
diff --git a/test/regress/regress0/sygus/tl-type.sy b/test/regress/regress0/sygus/tl-type.sy
deleted file mode 100644
index 6f25a570e..000000000
--- a/test/regress/regress0/sygus/tl-type.sy
+++ /dev/null
@@ -1,11 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --cegqi-si=none --sygus-out=status
-(set-logic LIA)
-(synth-fun f ((x Int)) Int
-    ((Start Int (Term (+ Start Start)))
-     (Term Int (x 0))))
-
-(declare-var x Int)
-(constraint (= (f x) (* 3 x)))
-(check-synth)
-
diff --git a/test/regress/regress0/sygus/triv-type-mismatch-si.sy b/test/regress/regress0/sygus/triv-type-mismatch-si.sy
deleted file mode 100644
index 37c5a7f53..000000000
--- a/test/regress/regress0/sygus/triv-type-mismatch-si.sy
+++ /dev/null
@@ -1,13 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --sygus-out=status
-(set-logic LIA)
-
-(synth-fun R ((y Int)) Bool)
-(synth-fun e () Int)
-
-(declare-var x Int)
-
-(constraint (=> (= x e) (R x)))
-
-(check-synth)
-
diff --git a/test/regress/regress0/sygus/twolets1.sy b/test/regress/regress0/sygus/twolets1.sy
deleted file mode 100644
index 06d2ecb71..000000000
--- a/test/regress/regress0/sygus/twolets1.sy
+++ /dev/null
@@ -1,40 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --cegqi-si=all --sygus-out=status
-(set-logic LIA)
-
-;; f1 is x plus 2 ;; f2 is 2x plus 5
-
-(define-fun let0 ((x Int) (y Int) (z Int)) Int (+ (+ y x) z))
-
-(synth-fun f1 ((x Int)) Int
-     (
-     (Start Int (
-            (let0 Intx CInt CInt)
-            )
-     )
-     (Intx Int (x))
-     (CInt Int (0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15))
-
-     )
-)
-
-(synth-fun f2 ((x Int)) Int
-     (
-     (Start Int (x
-            (let0 Intx Start CInt)
-            )
-     )
-     (Intx Int (x))
-     (CInt Int (0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15))
-
-     )
-)
-
-
-(declare-var x Int)
-
-(constraint (= (+ (f1 x)(f2 x)) (+ (+ x x) (+ x 8))))
-(constraint (= (- (f2 x)(f1 x)) (+ x 2)))
-
-(check-synth)
-
diff --git a/test/regress/regress0/sygus/twolets2-orig.sy b/test/regress/regress0/sygus/twolets2-orig.sy
deleted file mode 100644
index 50f7ad544..000000000
--- a/test/regress/regress0/sygus/twolets2-orig.sy
+++ /dev/null
@@ -1,28 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --cegqi-si=all --sygus-out=status
-(set-logic LIA)
-(synth-fun f1 ((x Int)) Int
-     (
-     (Start Int (
-            (let ((y Int CInt) (z Int CInt)) (+ (+ y x) z))
-            )
-     )
-     (CInt Int (0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15))
-
-     )
-)
-(synth-fun f2 ((x Int)) Int
-     (
-     (Start Int (x
-            (let ((y Int Start) (z Int CInt)) (+ (+ y x) z))
-            )
-     )
-     (CInt Int (0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15))
-
-     )
-)
-(declare-var x1 Int)
-(declare-var x2 Int)
-(constraint (= (+ (f1 x1)(f2 x2)) (+ (+ x2 x2) (+ x1 8))))
-(check-synth)
-
diff --git a/test/regress/regress0/sygus/unbdd_inv_gen_winf1.sy b/test/regress/regress0/sygus/unbdd_inv_gen_winf1.sy
deleted file mode 100644
index d45cec38b..000000000
--- a/test/regress/regress0/sygus/unbdd_inv_gen_winf1.sy
+++ /dev/null
@@ -1,36 +0,0 @@
-; EXPECT: unsat
-; COMMAND-LINE: --sygus-out=status
-
-(set-logic LIA)
-(synth-fun inv ((x Int)) Bool
-    (
-        (Start Bool ((and AtomicFormula AtomicFormula)
-                     (or AtomicFormula AtomicFormula)))
-        (AtomicFormula Bool ((<= Sum Const) (= Sum Const)))
-        (Sum Int ((+ Term Term)))
-        (Term Int ((* Sign Var)))
-        (Sign Int (0 1 -1))
-        (Var Int (x))
-        (Const Int ((+ Const Const) (- Const Const) 0 1))
-    )
-)
-
-(define-fun implies ((b1 Bool) (b2 Bool)) Bool (or (not b1) b2))
-(define-fun and3 ((b1 Bool) (b2 Bool) (b3 Bool)) Bool (and (and b1 b2) b3))
-(define-fun and4 ((b1 Bool) (b2 Bool) (b3 Bool) (b4 Bool)) Bool (and (and3 b1 b2 b3) b4))
-(define-fun and5 ((b1 Bool) (b2 Bool) (b3 Bool) (b4 Bool) (b5 Bool)) Bool (and (and4 b1 b2 b3 b4) b5))
-(define-fun and6 ((b1 Bool) (b2 Bool) (b3 Bool) (b4 Bool) (b5 Bool) (b6 Bool)) Bool (and (and5 b1 b2 b3 b4 b5) b6))
-(define-fun or3 ((b1 Bool) (b2 Bool) (b3 Bool)) Bool (or (or b1 b2) b3))
-(define-fun or4 ((b1 Bool) (b2 Bool) (b3 Bool) (b4 Bool)) Bool (or (or3 b1 b2 b3) b4))
-(define-fun or5 ((b1 Bool) (b2 Bool) (b3 Bool) (b4 Bool) (b5 Bool)) Bool (or (or4 b1 b2 b3 b4) b5))
-
-(declare-var s Int)
-
-(declare-var x Int)
-
-(constraint (implies (= x 0) (inv x)))
-(constraint (implies (inv x) (= x 0)))
-(constraint (implies (inv x) (inv x)))
-(constraint (implies (and (inv x) false) (not (= x 0))))
-
-(check-synth)
diff --git a/test/regress/regress0/test12.cvc b/test/regress/regress0/test12.cvc
deleted file mode 100644
index 37687bee1..000000000
--- a/test/regress/regress0/test12.cvc
+++ /dev/null
@@ -1,178 +0,0 @@
-% COMMAND-LINE: --incremental
-% EXPECT: invalid
-% EXPECT: invalid
-% EXPECT: invalid
-% EXPECT: invalid
-% EXPECT: invalid
-% EXPECT: invalid
-% EXPECT: invalid
-% EXPECT: valid
-% EXPECT: invalid
-% EXPECT: invalid
-% EXPECT: valid
-% EXPECT: invalid
-% EXPECT: invalid
-% EXPECT: invalid
-% EXPECT: invalid
-% EXPECT: invalid
-% EXPECT: invalid
-% EXPECT: invalid
-% EXPECT: invalid
-% EXPECT: invalid
-% EXPECT: invalid
-% EXPECT: invalid
-% EXPECT: invalid
-% EXPECT: invalid
-% EXPECT: invalid
-% EXPECT: invalid
-% EXPECT: invalid
-% EXPECT: valid
-% EXPECT: valid
-% EXPECT: valid
-A: TYPE;
-P_1: BOOLEAN;
-P_2: BOOLEAN;
-P_3: BOOLEAN;
-ASSERT (NOT P_1 OR P_2 OR P_2);
-ASSERT (NOT P_1 OR P_2 OR P_3);
-P_4: BOOLEAN;
-P_5: BOOLEAN;
-ASSERT (NOT P_1 OR NOT P_4 OR P_2);
-ASSERT (NOT P_1 OR NOT P_5 OR P_2);
-P_6: BOOLEAN;
-P_7: BOOLEAN;
-ASSERT (NOT P_2 OR P_6 OR P_1);
-ASSERT (NOT P_2 OR P_7 OR P_1);
-P_8: BOOLEAN;
-P_9: BOOLEAN;
-ASSERT (NOT P_2 OR NOT P_8 OR P_1);
-ASSERT (NOT P_2 OR NOT P_9 OR P_1);
-P_10: BOOLEAN;
-ASSERT (P_2 OR P_1 OR P_4);
-ASSERT (P_2 OR P_1 OR P_10);
-ASSERT (NOT P_2 OR NOT P_1 OR P_4);
-ASSERT (NOT P_2 OR NOT P_1 OR P_10);
-P_11: BOOLEAN;
-ASSERT (NOT P_6 OR P_2 OR P_1);
-ASSERT (NOT P_11 OR P_2 OR P_1);
-ASSERT (NOT P_6 OR NOT P_2 OR NOT P_1);
-ASSERT (NOT P_11 OR NOT P_2 OR NOT P_1);
-PUSH;
-QUERY (NOT P_2 OR NOT P_3);
-POP;
-PUSH;
-QUERY (P_1 OR NOT P_3);
-POP;
-PUSH;
-QUERY (NOT P_2 OR P_1);
-POP;
-PUSH;
-QUERY (P_5 OR NOT P_2);
-POP;
-PUSH;
-QUERY (P_1 OR NOT P_2);
-POP;
-PUSH;
-QUERY (P_5 OR P_1);
-POP;
-PUSH;
-QUERY (NOT P_7 OR NOT P_1);
-POP;
-PUSH;
-QUERY (P_2 OR NOT P_1);
-POP;
-PUSH;
-QUERY P_2;
-POP;
-PUSH;
-QUERY (P_9 OR NOT P_1);
-POP;
-PUSH;
-QUERY (P_2 OR NOT P_1);
-POP;
-PUSH;
-QUERY P_2;
-POP;
-PUSH;
-QUERY (NOT P_1 OR NOT P_10);
-POP;
-PUSH;
-QUERY (NOT P_2 OR NOT P_10);
-POP;
-PUSH;
-QUERY (NOT P_1 OR NOT P_2);
-POP;
-PUSH;
-QUERY (P_1 OR NOT P_10);
-POP;
-PUSH;
-QUERY (P_2 OR NOT P_10);
-POP;
-PUSH;
-QUERY (P_1 OR P_2);
-POP;
-PUSH;
-QUERY (NOT P_2 OR NOT P_1);
-POP;
-PUSH;
-QUERY (P_11 OR NOT P_1);
-POP;
-PUSH;
-QUERY (NOT P_2 OR P_11);
-POP;
-PUSH;
-QUERY (P_2 OR P_1);
-POP;
-PUSH;
-QUERY (P_11 OR P_1);
-POP;
-PUSH;
-QUERY (P_2 OR P_11);
-POP;
-P_12: BOOLEAN;
-ASSERT (NOT P_12 OR P_2);
-ASSERT (NOT P_12 OR P_3);
-ASSERT (P_12 OR NOT P_1 OR P_2);
-ASSERT (P_12 OR NOT P_1 OR P_2);
-P_13: BOOLEAN;
-ASSERT (NOT P_13 OR NOT P_4);
-ASSERT (NOT P_13 OR NOT P_5);
-ASSERT (P_13 OR NOT P_1 OR P_2);
-ASSERT (P_13 OR NOT P_1 OR P_2);
-ASSERT (NOT P_2 OR P_1);
-ASSERT (NOT P_2 OR P_1);
-ASSERT (NOT P_2 OR P_1);
-ASSERT (NOT P_2 OR P_1);
-P_14: BOOLEAN;
-ASSERT (P_14 OR P_2 OR P_1);
-ASSERT (P_14 OR P_2 OR P_1);
-ASSERT (NOT P_14 OR P_4);
-ASSERT (NOT P_14 OR P_10);
-ASSERT (P_14 OR NOT P_2 OR NOT P_1);
-ASSERT (P_14 OR NOT P_2 OR NOT P_1);
-P_15: BOOLEAN;
-ASSERT (P_15 OR P_2 OR P_1);
-ASSERT (P_15 OR P_2 OR P_1);
-ASSERT (NOT P_15 OR NOT P_6);
-ASSERT (NOT P_15 OR NOT P_11);
-ASSERT (P_15 OR NOT P_2 OR NOT P_1);
-ASSERT (P_15 OR NOT P_2 OR NOT P_1);
-PUSH;
-QUERY NOT P_3;
-POP;
-PUSH;
-QUERY P_12;
-POP;
-PUSH;
-QUERY P_11;
-POP;
-PUSH;
-QUERY P_15;
-POP;
-ASSERT NOT P_15;
-ASSERT NOT P_15;
-PUSH;
-QUERY NOT P_10;
-POP;
-PUSH;
-QUERY FALSE;
diff --git a/test/regress/regress0/trim.cvc b/test/regress/regress0/trim.cvc
deleted file mode 100644
index 8bdbde79a..000000000
--- a/test/regress/regress0/trim.cvc
+++ /dev/null
@@ -1,36 +0,0 @@
-% COMMAND-LINE: --finite-model-find
-% EXPECT: sat
-DATATYPE
-	myType = A | B
-END;
-%%% structured datatypes
-myTypeSet: TYPE = SET OF myType;
-myTypeGammaSet: TYPE = [# pos: myTypeSet, neg: myTypeSet #];
-delta: TYPE = ARRAY myType OF myTypeGammaSet;
-labels: TYPE = ARRAY myType OF SET OF STRING;
-
-%%% the empty myTypes set
-emptymyTypeSet : SET OF myType;
-ASSERT emptymyTypeSet = {} :: SET OF myType;
-
-d: delta;
-l: labels;
-
-ASSERT (l[A] = {"L","H"});
-ASSERT (l[B] = {"L"});
-
-ic0_i : myTypeSet;
-ic0_c : myTypeSet;
-ASSERT FORALL (r:myType):
-	(r IS_IN ic0_i) => FORALL (r2: myType): (r2 IS_IN d[r].neg) => r2 IS_IN ic0_c;
-ASSERT {A} <= ic0_i;
-ASSERT ((EXISTS (e0 : myType): (e0 IS_IN ic0_i) => (l[A] <= l[e0]))) OR ((ic0_i & ic0_c) <= emptymyTypeSet);
-
-ic1_i : myTypeSet;
-ic1_c : myTypeSet;
-ASSERT FORALL (r:myType):
-	(r IS_IN d[B].pos) => r IS_IN ic1_i;
-ASSERT ((EXISTS (e1 : myType): (e1 IS_IN ic1_i) => (l[B] <= l[e1]))) OR ((ic1_i & ic1_c) <= emptymyTypeSet);
-
-CHECKSAT;
-%COUNTEREXAMPLE;
diff --git a/test/regress/regress0/uf/Makefile.am b/test/regress/regress0/uf/Makefile.am
index 8a4ce33b7..dd8621618 100644
--- a/test/regress/regress0/uf/Makefile.am
+++ b/test/regress/regress0/uf/Makefile.am
@@ -40,12 +40,10 @@ TESTS =	\
 	ccredesign-fuzz.smt \
 	dead_dnd002.smt \
 	iso_brn001.smt \
-	gensys_brn001.smt2 \
 	simple.01.cvc \
 	simple.02.cvc \
 	simple.03.cvc \
 	simple.04.cvc \
-	proof00.smt2 \
 	cnf-iff.smt2 \
 	cnf-iff-base.smt2 \
 	cnf-ite.smt2 \
diff --git a/test/regress/regress0/uf/gensys_brn001.smt2 b/test/regress/regress0/uf/gensys_brn001.smt2
deleted file mode 100644
index f3cc3c725..000000000
--- a/test/regress/regress0/uf/gensys_brn001.smt2
+++ /dev/null
@@ -1,146 +0,0 @@
-(set-logic QF_UF)
-(set-info :source |
-http://www.cs.bham.ac.uk/~vxs/quasigroups/benchmark/
-
-|)
-(set-info :smt-lib-version 2.0)
-(set-info :category "crafted")
-(set-info :status sat)
-(declare-sort U 0)
-(declare-sort I 0)
-(declare-fun unit () I)
-(declare-fun op (I I) I)
-(declare-fun e5 () I)
-(declare-fun e4 () I)
-(declare-fun e3 () I)
-(declare-fun e2 () I)
-(declare-fun e1 () I)
-(declare-fun e0 () I)
-(assert (let ((?v_0 (op e0 e0)) (?v_1 (op e0 e1)) (?v_2 (op e0 e2)) (?v_3 (op e0 e3)) (?v_4 (op e0 e4)) (?v_5 (op e0 e5)) (?v_6 (op e1 e0)) (?v_7 (op e1 e1)) (?v_8 (op e1 e2)) (?v_9 (op e1 e3)) (?v_10 (op e1 e4)) (?v_11 (op e1 e5)) (?v_12 (op e2 e0)) (?v_13 (op e2 e1)) (?v_14 (op e2 e2)) (?v_15 (op e2 e3)) (?v_16 (op e2 e4)) (?v_17 (op e2 e5)) (?v_18 (op e3 e0)) (?v_19 (op e3 e1)) (?v_20 (op e3 e2)) (?v_21 (op e3 e3)) (?v_22 (op e3 e4)) (?v_23 (op e3 e5)) (?v_24 (op e4 e0)) (?v_25 (op e4 e1)) (?v_26 (op e4 e2)) (?v_27 (op e4 e3)) (?v_28 (op e4 e4)) (?v_29 (op e4 e5)) (?v_30 (op e5 e0)) (?v_31 (op e5 e1)) (?v_32 (op e5 e2)) (?v_33 (op e5 e3)) (?v_34 (op e5 e4)) (?v_35 (op e5 e5))) (and (and (and (and (and (and (and (and (and (and (or (or (or (or (or (= ?v_0 e0) (= ?v_0 e1)) (= ?v_0 e2)) (= ?v_0 e3)) (= ?v_0 e4)) (= ?v_0 e5)) (or (or (or (or (or (= ?v_1 e0) (= ?v_1 e1)) (= ?v_1 e2)) (= ?v_1 e3)) (= ?v_1 e4)) (= ?v_1 e5))) (or (or (or (or (or (= ?v_2 e0) (= ?v_2 e1)) (= ?v_2 e2)) (= ?v_2 e3)) (= ?v_2 e4)) (= ?v_2 e5))) (or (or (or (or (or (= ?v_3 e0) (= ?v_3 e1)) (= ?v_3 e2)) (= ?v_3 e3)) (= ?v_3 e4)) (= ?v_3 e5))) (or (or (or (or (or (= ?v_4 e0) (= ?v_4 e1)) (= ?v_4 e2)) (= ?v_4 e3)) (= ?v_4 e4)) (= ?v_4 e5))) (or (or (or (or (or (= ?v_5 e0) (= ?v_5 e1)) (= ?v_5 e2)) (= ?v_5 e3)) (= ?v_5 e4)) (= ?v_5 e5))) (and (and (and (and (and (or (or (or (or (or (= ?v_6 e0) (= ?v_6 e1)) (= ?v_6 e2)) (= ?v_6 e3)) (= ?v_6 e4)) (= ?v_6 e5)) (or (or (or (or (or (= ?v_7 e0) (= ?v_7 e1)) (= ?v_7 e2)) (= ?v_7 e3)) (= ?v_7 e4)) (= ?v_7 e5))) (or (or (or (or (or (= ?v_8 e0) (= ?v_8 e1)) (= ?v_8 e2)) (= ?v_8 e3)) (= ?v_8 e4)) (= ?v_8 e5))) (or (or (or (or (or (= ?v_9 e0) (= ?v_9 e1)) (= ?v_9 e2)) (= ?v_9 e3)) (= ?v_9 e4)) (= ?v_9 e5))) (or (or (or (or (or (= ?v_10 e0) (= ?v_10 e1)) (= ?v_10 e2)) (= ?v_10 e3)) (= ?v_10 e4)) (= ?v_10 e5))) (or (or (or (or (or (= ?v_11 e0) (= ?v_11 e1)) (= ?v_11 e2)) (= ?v_11 e3)) (= ?v_11 e4)) (= ?v_11 e5)))) (and (and (and (and (and (or (or (or (or (or (= ?v_12 e0) (= ?v_12 e1)) (= ?v_12 e2)) (= ?v_12 e3)) (= ?v_12 e4)) (= ?v_12 e5)) (or (or (or (or (or (= ?v_13 e0) (= ?v_13 e1)) (= ?v_13 e2)) (= ?v_13 e3)) (= ?v_13 e4)) (= ?v_13 e5))) (or (or (or (or (or (= ?v_14 e0) (= ?v_14 e1)) (= ?v_14 e2)) (= ?v_14 e3)) (= ?v_14 e4)) (= ?v_14 e5))) (or (or (or (or (or (= ?v_15 e0) (= ?v_15 e1)) (= ?v_15 e2)) (= ?v_15 e3)) (= ?v_15 e4)) (= ?v_15 e5))) (or (or (or (or (or (= ?v_16 e0) (= ?v_16 e1)) (= ?v_16 e2)) (= ?v_16 e3)) (= ?v_16 e4)) (= ?v_16 e5))) (or (or (or (or (or (= ?v_17 e0) (= ?v_17 e1)) (= ?v_17 e2)) (= ?v_17 e3)) (= ?v_17 e4)) (= ?v_17 e5)))) (and (and (and (and (and (or (or (or (or (or (= ?v_18 e0) (= ?v_18 e1)) (= ?v_18 e2)) (= ?v_18 e3)) (= ?v_18 e4)) (= ?v_18 e5)) (or (or (or (or (or (= ?v_19 e0) (= ?v_19 e1)) (= ?v_19 e2)) (= ?v_19 e3)) (= ?v_19 e4)) (= ?v_19 e5))) (or (or (or (or (or (= ?v_20 e0) (= ?v_20 e1)) (= ?v_20 e2)) (= ?v_20 e3)) (= ?v_20 e4)) (= ?v_20 e5))) (or (or (or (or (or (= ?v_21 e0) (= ?v_21 e1)) (= ?v_21 e2)) (= ?v_21 e3)) (= ?v_21 e4)) (= ?v_21 e5))) (or (or (or (or (or (= ?v_22 e0) (= ?v_22 e1)) (= ?v_22 e2)) (= ?v_22 e3)) (= ?v_22 e4)) (= ?v_22 e5))) (or (or (or (or (or (= ?v_23 e0) (= ?v_23 e1)) (= ?v_23 e2)) (= ?v_23 e3)) (= ?v_23 e4)) (= ?v_23 e5)))) (and (and (and (and (and (or (or (or (or (or (= ?v_24 e0) (= ?v_24 e1)) (= ?v_24 e2)) (= ?v_24 e3)) (= ?v_24 e4)) (= ?v_24 e5)) (or (or (or (or (or (= ?v_25 e0) (= ?v_25 e1)) (= ?v_25 e2)) (= ?v_25 e3)) (= ?v_25 e4)) (= ?v_25 e5))) (or (or (or (or (or (= ?v_26 e0) (= ?v_26 e1)) (= ?v_26 e2)) (= ?v_26 e3)) (= ?v_26 e4)) (= ?v_26 e5))) (or (or (or (or (or (= ?v_27 e0) (= ?v_27 e1)) (= ?v_27 e2)) (= ?v_27 e3)) (= ?v_27 e4)) (= ?v_27 e5))) (or (or (or (or (or (= ?v_28 e0) (= ?v_28 e1)) (= ?v_28 e2)) (= ?v_28 e3)) (= ?v_28 e4)) (= ?v_28 e5))) (or (or (or (or (or (= ?v_29 e0) (= ?v_29 e1)) (= ?v_29 e2)) (= ?v_29 e3)) (= ?v_29 e4)) (= ?v_29 e5)))) (and (and (and (and (and (or (or (or (or (or (= ?v_30 e0) (= ?v_30 e1)) (= ?v_30 e2)) (= ?v_30 e3)) (= ?v_30 e4)) (= ?v_30 e5)) (or (or (or (or (or (= ?v_31 e0) (= ?v_31 e1)) (= ?v_31 e2)) (= ?v_31 e3)) (= ?v_31 e4)) (= ?v_31 e5))) (or (or (or (or (or (= ?v_32 e0) (= ?v_32 e1)) (= ?v_32 e2)) (= ?v_32 e3)) (= ?v_32 e4)) (= ?v_32 e5))) (or (or (or (or (or (= ?v_33 e0) (= ?v_33 e1)) (= ?v_33 e2)) (= ?v_33 e3)) (= ?v_33 e4)) (= ?v_33 e5))) (or (or (or (or (or (= ?v_34 e0) (= ?v_34 e1)) (= ?v_34 e2)) (= ?v_34 e3)) (= ?v_34 e4)) (= ?v_34 e5))) (or (or (or (or (or (= ?v_35 e0) (= ?v_35 e1)) (= ?v_35 e2)) (= ?v_35 e3)) (= ?v_35 e4)) (= ?v_35 e5))))))
-(assert (let ((?v_1 (op e0 e0)) (?v_2 (op e0 e1)) (?v_3 (op e0 e2)) (?v_4 (op e0 e3)) (?v_5 (op e0 e4)) (?v_6 (op e0 e5)) (?v_8 (op e1 e0)) (?v_21 (op e1 e1)) (?v_22 (op e1 e2)) (?v_23 (op e1 e3)) (?v_24 (op e1 e4)) (?v_25 (op e1 e5)) (?v_9 (op e2 e0)) (?v_28 (op e2 e1)) (?v_51 (op e2 e2)) (?v_52 (op e2 e3)) (?v_53 (op e2 e4)) (?v_54 (op e2 e5)) (?v_10 (op e3 e0)) (?v_29 (op e3 e1)) (?v_58 (op e3 e2)) (?v_91 (op e3 e3)) (?v_92 (op e3 e4)) (?v_93 (op e3 e5)) (?v_11 (op e4 e0)) (?v_30 (op e4 e1)) (?v_59 (op e4 e2)) (?v_98 (op e4 e3)) (?v_141 (op e4 e4)) (?v_142 (op e4 e5)) (?v_12 (op e5 e0)) (?v_31 (op e5 e1)) (?v_60 (op e5 e2)) (?v_99 (op e5 e3)) (?v_148 (op e5 e4)) (?v_201 (op e5 e5))) (let ((?v_0 (= ?v_1 e0)) (?v_7 (= ?v_1 e1)) (?v_13 (= ?v_1 e2)) (?v_14 (= ?v_1 e3)) (?v_15 (= ?v_1 e4)) (?v_16 (= ?v_1 e5)) (?v_18 (= ?v_2 e0)) (?v_26 (= ?v_2 e1)) (?v_33 (= ?v_2 e2)) (?v_36 (= ?v_2 e3)) (?v_39 (= ?v_2 e4)) (?v_42 (= ?v_2 e5)) (?v_46 (= ?v_3 e0)) (?v_55 (= ?v_3 e1)) (?v_63 (= ?v_3 e2)) (?v_68 (= ?v_3 e3)) (?v_73 (= ?v_3 e4)) (?v_78 (= ?v_3 e5)) (?v_84 (= ?v_4 e0)) (?v_94 (= ?v_4 e1)) (?v_103 (= ?v_4 e2)) (?v_110 (= ?v_4 e3)) (?v_117 (= ?v_4 e4)) (?v_124 (= ?v_4 e5)) (?v_132 (= ?v_5 e0)) (?v_143 (= ?v_5 e1)) (?v_153 (= ?v_5 e2)) (?v_162 (= ?v_5 e3)) (?v_171 (= ?v_5 e4)) (?v_180 (= ?v_5 e5)) (?v_190 (= ?v_6 e0)) (?v_202 (= ?v_6 e1)) (?v_213 (= ?v_6 e2)) (?v_224 (= ?v_6 e3)) (?v_235 (= ?v_6 e4)) (?v_246 (= ?v_6 e5)) (?v_17 (= ?v_8 e0)) (?v_20 (= ?v_8 e1)) (?v_32 (= ?v_8 e2)) (?v_35 (= ?v_8 e3)) (?v_38 (= ?v_8 e4)) (?v_41 (= ?v_8 e5)) (?v_19 (= ?v_21 e0)) (?v_27 (= ?v_21 e1)) (?v_34 (= ?v_21 e2)) (?v_37 (= ?v_21 e3)) (?v_40 (= ?v_21 e4)) (?v_43 (= ?v_21 e5)) (?v_47 (= ?v_22 e0)) (?v_56 (= ?v_22 e1)) (?v_64 (= ?v_22 e2)) (?v_69 (= ?v_22 e3)) (?v_74 (= ?v_22 e4)) (?v_79 (= ?v_22 e5)) (?v_85 (= ?v_23 e0)) (?v_95 (= ?v_23 e1)) (?v_104 (= ?v_23 e2)) (?v_111 (= ?v_23 e3)) (?v_118 (= ?v_23 e4)) (?v_125 (= ?v_23 e5)) (?v_133 (= ?v_24 e0)) (?v_144 (= ?v_24 e1)) (?v_154 (= ?v_24 e2)) (?v_163 (= ?v_24 e3)) (?v_172 (= ?v_24 e4)) (?v_181 (= ?v_24 e5)) (?v_191 (= ?v_25 e0)) (?v_203 (= ?v_25 e1)) (?v_214 (= ?v_25 e2)) (?v_225 (= ?v_25 e3)) (?v_236 (= ?v_25 e4)) (?v_247 (= ?v_25 e5)) (?v_44 (= ?v_9 e0)) (?v_49 (= ?v_9 e1)) (?v_61 (= ?v_9 e2)) (?v_66 (= ?v_9 e3)) (?v_71 (= ?v_9 e4)) (?v_76 (= ?v_9 e5)) (?v_45 (= ?v_28 e0)) (?v_50 (= ?v_28 e1)) (?v_62 (= ?v_28 e2)) (?v_67 (= ?v_28 e3)) (?v_72 (= ?v_28 e4)) (?v_77 (= ?v_28 e5)) (?v_48 (= ?v_51 e0)) (?v_57 (= ?v_51 e1)) (?v_65 (= ?v_51 e2)) (?v_70 (= ?v_51 e3)) (?v_75 (= ?v_51 e4)) (?v_80 (= ?v_51 e5)) (?v_86 (= ?v_52 e0)) (?v_96 (= ?v_52 e1)) (?v_105 (= ?v_52 e2)) (?v_112 (= ?v_52 e3)) (?v_119 (= ?v_52 e4)) (?v_126 (= ?v_52 e5)) (?v_134 (= ?v_53 e0)) (?v_145 (= ?v_53 e1)) (?v_155 (= ?v_53 e2)) (?v_164 (= ?v_53 e3)) (?v_173 (= ?v_53 e4)) (?v_182 (= ?v_53 e5)) (?v_192 (= ?v_54 e0)) (?v_204 (= ?v_54 e1)) (?v_215 (= ?v_54 e2)) (?v_226 (= ?v_54 e3)) (?v_237 (= ?v_54 e4)) (?v_248 (= ?v_54 e5)) (?v_81 (= ?v_10 e0)) (?v_88 (= ?v_10 e1)) (?v_100 (= ?v_10 e2)) (?v_107 (= ?v_10 e3)) (?v_114 (= ?v_10 e4)) (?v_121 (= ?v_10 e5)) (?v_82 (= ?v_29 e0)) (?v_89 (= ?v_29 e1)) (?v_101 (= ?v_29 e2)) (?v_108 (= ?v_29 e3)) (?v_115 (= ?v_29 e4)) (?v_122 (= ?v_29 e5)) (?v_83 (= ?v_58 e0)) (?v_90 (= ?v_58 e1)) (?v_102 (= ?v_58 e2)) (?v_109 (= ?v_58 e3)) (?v_116 (= ?v_58 e4)) (?v_123 (= ?v_58 e5)) (?v_87 (= ?v_91 e0)) (?v_97 (= ?v_91 e1)) (?v_106 (= ?v_91 e2)) (?v_113 (= ?v_91 e3)) (?v_120 (= ?v_91 e4)) (?v_127 (= ?v_91 e5)) (?v_135 (= ?v_92 e0)) (?v_146 (= ?v_92 e1)) (?v_156 (= ?v_92 e2)) (?v_165 (= ?v_92 e3)) (?v_174 (= ?v_92 e4)) (?v_183 (= ?v_92 e5)) (?v_193 (= ?v_93 e0)) (?v_205 (= ?v_93 e1)) (?v_216 (= ?v_93 e2)) (?v_227 (= ?v_93 e3)) (?v_238 (= ?v_93 e4)) (?v_249 (= ?v_93 e5)) (?v_128 (= ?v_11 e0)) (?v_137 (= ?v_11 e1)) (?v_149 (= ?v_11 e2)) (?v_158 (= ?v_11 e3)) (?v_167 (= ?v_11 e4)) (?v_176 (= ?v_11 e5)) (?v_129 (= ?v_30 e0)) (?v_138 (= ?v_30 e1)) (?v_150 (= ?v_30 e2)) (?v_159 (= ?v_30 e3)) (?v_168 (= ?v_30 e4)) (?v_177 (= ?v_30 e5)) (?v_130 (= ?v_59 e0)) (?v_139 (= ?v_59 e1)) (?v_151 (= ?v_59 e2)) (?v_160 (= ?v_59 e3)) (?v_169 (= ?v_59 e4)) (?v_178 (= ?v_59 e5)) (?v_131 (= ?v_98 e0)) (?v_140 (= ?v_98 e1)) (?v_152 (= ?v_98 e2)) (?v_161 (= ?v_98 e3)) (?v_170 (= ?v_98 e4)) (?v_179 (= ?v_98 e5)) (?v_136 (= ?v_141 e0)) (?v_147 (= ?v_141 e1)) (?v_157 (= ?v_141 e2)) (?v_166 (= ?v_141 e3)) (?v_175 (= ?v_141 e4)) (?v_184 (= ?v_141 e5)) (?v_194 (= ?v_142 e0)) (?v_206 (= ?v_142 e1)) (?v_217 (= ?v_142 e2)) (?v_228 (= ?v_142 e3)) (?v_239 (= ?v_142 e4)) (?v_250 (= ?v_142 e5)) (?v_185 (= ?v_12 e0)) (?v_196 (= ?v_12 e1)) (?v_208 (= ?v_12 e2)) (?v_219 (= ?v_12 e3)) (?v_230 (= ?v_12 e4)) (?v_241 (= ?v_12 e5)) (?v_186 (= ?v_31 e0)) (?v_197 (= ?v_31 e1)) (?v_209 (= ?v_31 e2)) (?v_220 (= ?v_31 e3)) (?v_231 (= ?v_31 e4)) (?v_242 (= ?v_31 e5)) (?v_187 (= ?v_60 e0)) (?v_198 (= ?v_60 e1)) (?v_210 (= ?v_60 e2)) (?v_221 (= ?v_60 e3)) (?v_232 (= ?v_60 e4)) (?v_243 (= ?v_60 e5)) (?v_188 (= ?v_99 e0)) (?v_199 (= ?v_99 e1)) (?v_211 (= ?v_99 e2)) (?v_222 (= ?v_99 e3)) (?v_233 (= ?v_99 e4)) (?v_244 (= ?v_99 e5)) (?v_189 (= ?v_148 e0)) (?v_200 (= ?v_148 e1)) (?v_212 (= ?v_148 e2)) (?v_223 (= ?v_148 e3)) (?v_234 (= ?v_148 e4)) (?v_245 (= ?v_148 e5)) (?v_195 (= ?v_201 e0)) (?v_207 (= ?v_201 e1)) (?v_218 (= ?v_201 e2)) (?v_229 (= ?v_201 e3)) (?v_240 (= ?v_201 e4)) (?v_251 (= ?v_201 e5))) (and (and (and (and (and (and (and (and (and (and (and (or (or (or (or (or ?v_0 ?v_18) ?v_46) ?v_84) ?v_132) ?v_190) (or (or (or (or (or ?v_0 ?v_17) ?v_44) ?v_81) ?v_128) ?v_185)) (and (or (or (or (or (or ?v_7 ?v_26) ?v_55) ?v_94) ?v_143) ?v_202) (or (or (or (or (or ?v_7 ?v_20) ?v_49) ?v_88) ?v_137) ?v_196))) (and (or (or (or (or (or ?v_13 ?v_33) ?v_63) ?v_103) ?v_153) ?v_213) (or (or (or (or (or ?v_13 ?v_32) ?v_61) ?v_100) ?v_149) ?v_208))) (and (or (or (or (or (or ?v_14 ?v_36) ?v_68) ?v_110) ?v_162) ?v_224) (or (or (or (or (or ?v_14 ?v_35) ?v_66) ?v_107) ?v_158) ?v_219))) (and (or (or (or (or (or ?v_15 ?v_39) ?v_73) ?v_117) ?v_171) ?v_235) (or (or (or (or (or ?v_15 ?v_38) ?v_71) ?v_114) ?v_167) ?v_230))) (and (or (or (or (or (or ?v_16 ?v_42) ?v_78) ?v_124) ?v_180) ?v_246) (or (or (or (or (or ?v_16 ?v_41) ?v_76) ?v_121) ?v_176) ?v_241))) (and (and (and (and (and (and (or (or (or (or (or ?v_17 ?v_19) ?v_47) ?v_85) ?v_133) ?v_191) (or (or (or (or (or ?v_18 ?v_19) ?v_45) ?v_82) ?v_129) ?v_186)) (and (or (or (or (or (or ?v_20 ?v_27) ?v_56) ?v_95) ?v_144) ?v_203) (or (or (or (or (or ?v_26 ?v_27) ?v_50) ?v_89) ?v_138) ?v_197))) (and (or (or (or (or (or ?v_32 ?v_34) ?v_64) ?v_104) ?v_154) ?v_214) (or (or (or (or (or ?v_33 ?v_34) ?v_62) ?v_101) ?v_150) ?v_209))) (and (or (or (or (or (or ?v_35 ?v_37) ?v_69) ?v_111) ?v_163) ?v_225) (or (or (or (or (or ?v_36 ?v_37) ?v_67) ?v_108) ?v_159) ?v_220))) (and (or (or (or (or (or ?v_38 ?v_40) ?v_74) ?v_118) ?v_172) ?v_236) (or (or (or (or (or ?v_39 ?v_40) ?v_72) ?v_115) ?v_168) ?v_231))) (and (or (or (or (or (or ?v_41 ?v_43) ?v_79) ?v_125) ?v_181) ?v_247) (or (or (or (or (or ?v_42 ?v_43) ?v_77) ?v_122) ?v_177) ?v_242)))) (and (and (and (and (and (and (or (or (or (or (or ?v_44 ?v_45) ?v_48) ?v_86) ?v_134) ?v_192) (or (or (or (or (or ?v_46 ?v_47) ?v_48) ?v_83) ?v_130) ?v_187)) (and (or (or (or (or (or ?v_49 ?v_50) ?v_57) ?v_96) ?v_145) ?v_204) (or (or (or (or (or ?v_55 ?v_56) ?v_57) ?v_90) ?v_139) ?v_198))) (and (or (or (or (or (or ?v_61 ?v_62) ?v_65) ?v_105) ?v_155) ?v_215) (or (or (or (or (or ?v_63 ?v_64) ?v_65) ?v_102) ?v_151) ?v_210))) (and (or (or (or (or (or ?v_66 ?v_67) ?v_70) ?v_112) ?v_164) ?v_226) (or (or (or (or (or ?v_68 ?v_69) ?v_70) ?v_109) ?v_160) ?v_221))) (and (or (or (or (or (or ?v_71 ?v_72) ?v_75) ?v_119) ?v_173) ?v_237) (or (or (or (or (or ?v_73 ?v_74) ?v_75) ?v_116) ?v_169) ?v_232))) (and (or (or (or (or (or ?v_76 ?v_77) ?v_80) ?v_126) ?v_182) ?v_248) (or (or (or (or (or ?v_78 ?v_79) ?v_80) ?v_123) ?v_178) ?v_243)))) (and (and (and (and (and (and (or (or (or (or (or ?v_81 ?v_82) ?v_83) ?v_87) ?v_135) ?v_193) (or (or (or (or (or ?v_84 ?v_85) ?v_86) ?v_87) ?v_131) ?v_188)) (and (or (or (or (or (or ?v_88 ?v_89) ?v_90) ?v_97) ?v_146) ?v_205) (or (or (or (or (or ?v_94 ?v_95) ?v_96) ?v_97) ?v_140) ?v_199))) (and (or (or (or (or (or ?v_100 ?v_101) ?v_102) ?v_106) ?v_156) ?v_216) (or (or (or (or (or ?v_103 ?v_104) ?v_105) ?v_106) ?v_152) ?v_211))) (and (or (or (or (or (or ?v_107 ?v_108) ?v_109) ?v_113) ?v_165) ?v_227) (or (or (or (or (or ?v_110 ?v_111) ?v_112) ?v_113) ?v_161) ?v_222))) (and (or (or (or (or (or ?v_114 ?v_115) ?v_116) ?v_120) ?v_174) ?v_238) (or (or (or (or (or ?v_117 ?v_118) ?v_119) ?v_120) ?v_170) ?v_233))) (and (or (or (or (or (or ?v_121 ?v_122) ?v_123) ?v_127) ?v_183) ?v_249) (or (or (or (or (or ?v_124 ?v_125) ?v_126) ?v_127) ?v_179) ?v_244)))) (and (and (and (and (and (and (or (or (or (or (or ?v_128 ?v_129) ?v_130) ?v_131) ?v_136) ?v_194) (or (or (or (or (or ?v_132 ?v_133) ?v_134) ?v_135) ?v_136) ?v_189)) (and (or (or (or (or (or ?v_137 ?v_138) ?v_139) ?v_140) ?v_147) ?v_206) (or (or (or (or (or ?v_143 ?v_144) ?v_145) ?v_146) ?v_147) ?v_200))) (and (or (or (or (or (or ?v_149 ?v_150) ?v_151) ?v_152) ?v_157) ?v_217) (or (or (or (or (or ?v_153 ?v_154) ?v_155) ?v_156) ?v_157) ?v_212))) (and (or (or (or (or (or ?v_158 ?v_159) ?v_160) ?v_161) ?v_166) ?v_228) (or (or (or (or (or ?v_162 ?v_163) ?v_164) ?v_165) ?v_166) ?v_223))) (and (or (or (or (or (or ?v_167 ?v_168) ?v_169) ?v_170) ?v_175) ?v_239) (or (or (or (or (or ?v_171 ?v_172) ?v_173) ?v_174) ?v_175) ?v_234))) (and (or (or (or (or (or ?v_176 ?v_177) ?v_178) ?v_179) ?v_184) ?v_250) (or (or (or (or (or ?v_180 ?v_181) ?v_182) ?v_183) ?v_184) ?v_245)))) (and (and (and (and (and (and (or (or (or (or (or ?v_185 ?v_186) ?v_187) ?v_188) ?v_189) ?v_195) (or (or (or (or (or ?v_190 ?v_191) ?v_192) ?v_193) ?v_194) ?v_195)) (and (or (or (or (or (or ?v_196 ?v_197) ?v_198) ?v_199) ?v_200) ?v_207) (or (or (or (or (or ?v_202 ?v_203) ?v_204) ?v_205) ?v_206) ?v_207))) (and (or (or (or (or (or ?v_208 ?v_209) ?v_210) ?v_211) ?v_212) ?v_218) (or (or (or (or (or ?v_213 ?v_214) ?v_215) ?v_216) ?v_217) ?v_218))) (and (or (or (or (or (or ?v_219 ?v_220) ?v_221) ?v_222) ?v_223) ?v_229) (or (or (or (or (or ?v_224 ?v_225) ?v_226) ?v_227) ?v_228) ?v_229))) (and (or (or (or (or (or ?v_230 ?v_231) ?v_232) ?v_233) ?v_234) ?v_240) (or (or (or (or (or ?v_235 ?v_236) ?v_237) ?v_238) ?v_239) ?v_240))) (and (or (or (or (or (or ?v_241 ?v_242) ?v_243) ?v_244) ?v_245) ?v_251) (or (or (or (or (or ?v_246 ?v_247) ?v_248) ?v_249) ?v_250) ?v_251)))))))
-(assert (and (and (and (and (and (and (and (= (op unit e0) e0) (= (op e0 unit) e0)) (and (= (op unit e1) e1) (= (op e1 unit) e1))) (and (= (op unit e2) e2) (= (op e2 unit) e2))) (and (= (op unit e3) e3) (= (op e3 unit) e3))) (and (= (op unit e4) e4) (= (op e4 unit) e4))) (and (= (op unit e5) e5) (= (op e5 unit) e5))) (or (or (or (or (or (= unit e0) (= unit e1)) (= unit e2)) (= unit e3)) (= unit e4)) (= unit e5))))
-(assert (= unit e0))
-(assert (let ((?v_0 (op e0 e0)) (?v_6 (op e0 e1)) (?v_12 (op e0 e2)) (?v_18 (op e0 e3)) (?v_24 (op e0 e4)) (?v_30 (op e0 e5)) (?v_1 (op e1 e0)) (?v_7 (op e1 e1)) (?v_13 (op e1 e2)) (?v_19 (op e1 e3)) (?v_25 (op e1 e4)) (?v_31 (op e1 e5)) (?v_2 (op e2 e0)) (?v_8 (op e2 e1)) (?v_14 (op e2 e2)) (?v_20 (op e2 e3)) (?v_26 (op e2 e4)) (?v_32 (op e2 e5)) (?v_3 (op e3 e0)) (?v_9 (op e3 e1)) (?v_15 (op e3 e2)) (?v_21 (op e3 e3)) (?v_27 (op e3 e4)) (?v_33 (op e3 e5)) (?v_4 (op e4 e0)) (?v_10 (op e4 e1)) (?v_16 (op e4 e2)) (?v_22 (op e4 e3)) (?v_28 (op e4 e4)) (?v_34 (op e4 e5)) (?v_5 (op e5 e0)) (?v_11 (op e5 e1)) (?v_17 (op e5 e2)) (?v_23 (op e5 e3)) (?v_29 (op e5 e4)) (?v_35 (op e5 e5))) (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (not (= ?v_0 ?v_1)) (not (= ?v_0 ?v_2))) (not (= ?v_0 ?v_3))) (not (= ?v_0 ?v_4))) (not (= ?v_0 ?v_5))) (not (= ?v_1 ?v_2))) (not (= ?v_1 ?v_3))) (not (= ?v_1 ?v_4))) (not (= ?v_1 ?v_5))) (not (= ?v_2 ?v_3))) (not (= ?v_2 ?v_4))) (not (= ?v_2 ?v_5))) (not (= ?v_3 ?v_4))) (not (= ?v_3 ?v_5))) (not (= ?v_4 ?v_5))) (and (and (and (and (and (and (and (and (and (and (and (and (and (and (not (= ?v_6 ?v_7)) (not (= ?v_6 ?v_8))) (not (= ?v_6 ?v_9))) (not (= ?v_6 ?v_10))) (not (= ?v_6 ?v_11))) (not (= ?v_7 ?v_8))) (not (= ?v_7 ?v_9))) (not (= ?v_7 ?v_10))) (not (= ?v_7 ?v_11))) (not (= ?v_8 ?v_9))) (not (= ?v_8 ?v_10))) (not (= ?v_8 ?v_11))) (not (= ?v_9 ?v_10))) (not (= ?v_9 ?v_11))) (not (= ?v_10 ?v_11)))) (and (and (and (and (and (and (and (and (and (and (and (and (and (and (not (= ?v_12 ?v_13)) (not (= ?v_12 ?v_14))) (not (= ?v_12 ?v_15))) (not (= ?v_12 ?v_16))) (not (= ?v_12 ?v_17))) (not (= ?v_13 ?v_14))) (not (= ?v_13 ?v_15))) (not (= ?v_13 ?v_16))) (not (= ?v_13 ?v_17))) (not (= ?v_14 ?v_15))) (not (= ?v_14 ?v_16))) (not (= ?v_14 ?v_17))) (not (= ?v_15 ?v_16))) (not (= ?v_15 ?v_17))) (not (= ?v_16 ?v_17)))) (and (and (and (and (and (and (and (and (and (and (and (and (and (and (not (= ?v_18 ?v_19)) (not (= ?v_18 ?v_20))) (not (= ?v_18 ?v_21))) (not (= ?v_18 ?v_22))) (not (= ?v_18 ?v_23))) (not (= ?v_19 ?v_20))) (not (= ?v_19 ?v_21))) (not (= ?v_19 ?v_22))) (not (= ?v_19 ?v_23))) (not (= ?v_20 ?v_21))) (not (= ?v_20 ?v_22))) (not (= ?v_20 ?v_23))) (not (= ?v_21 ?v_22))) (not (= ?v_21 ?v_23))) (not (= ?v_22 ?v_23)))) (and (and (and (and (and (and (and (and (and (and (and (and (and (and (not (= ?v_24 ?v_25)) (not (= ?v_24 ?v_26))) (not (= ?v_24 ?v_27))) (not (= ?v_24 ?v_28))) (not (= ?v_24 ?v_29))) (not (= ?v_25 ?v_26))) (not (= ?v_25 ?v_27))) (not (= ?v_25 ?v_28))) (not (= ?v_25 ?v_29))) (not (= ?v_26 ?v_27))) (not (= ?v_26 ?v_28))) (not (= ?v_26 ?v_29))) (not (= ?v_27 ?v_28))) (not (= ?v_27 ?v_29))) (not (= ?v_28 ?v_29)))) (and (and (and (and (and (and (and (and (and (and (and (and (and (and (not (= ?v_30 ?v_31)) (not (= ?v_30 ?v_32))) (not (= ?v_30 ?v_33))) (not (= ?v_30 ?v_34))) (not (= ?v_30 ?v_35))) (not (= ?v_31 ?v_32))) (not (= ?v_31 ?v_33))) (not (= ?v_31 ?v_34))) (not (= ?v_31 ?v_35))) (not (= ?v_32 ?v_33))) (not (= ?v_32 ?v_34))) (not (= ?v_32 ?v_35))) (not (= ?v_33 ?v_34))) (not (= ?v_33 ?v_35))) (not (= ?v_34 ?v_35)))) (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (and (not (= ?v_0 ?v_6)) (not (= ?v_0 ?v_12))) (not (= ?v_0 ?v_18))) (not (= ?v_0 ?v_24))) (not (= ?v_0 ?v_30))) (not (= ?v_6 ?v_12))) (not (= ?v_6 ?v_18))) (not (= ?v_6 ?v_24))) (not (= ?v_6 ?v_30))) (not (= ?v_12 ?v_18))) (not (= ?v_12 ?v_24))) (not (= ?v_12 ?v_30))) (not (= ?v_18 ?v_24))) (not (= ?v_18 ?v_30))) (not (= ?v_24 ?v_30))) (and (and (and (and (and (and (and (and (and (and (and (and (and (and (not (= ?v_1 ?v_7)) (not (= ?v_1 ?v_13))) (not (= ?v_1 ?v_19))) (not (= ?v_1 ?v_25))) (not (= ?v_1 ?v_31))) (not (= ?v_7 ?v_13))) (not (= ?v_7 ?v_19))) (not (= ?v_7 ?v_25))) (not (= ?v_7 ?v_31))) (not (= ?v_13 ?v_19))) (not (= ?v_13 ?v_25))) (not (= ?v_13 ?v_31))) (not (= ?v_19 ?v_25))) (not (= ?v_19 ?v_31))) (not (= ?v_25 ?v_31)))) (and (and (and (and (and (and (and (and (and (and (and (and (and (and (not (= ?v_2 ?v_8)) (not (= ?v_2 ?v_14))) (not (= ?v_2 ?v_20))) (not (= ?v_2 ?v_26))) (not (= ?v_2 ?v_32))) (not (= ?v_8 ?v_14))) (not (= ?v_8 ?v_20))) (not (= ?v_8 ?v_26))) (not (= ?v_8 ?v_32))) (not (= ?v_14 ?v_20))) (not (= ?v_14 ?v_26))) (not (= ?v_14 ?v_32))) (not (= ?v_20 ?v_26))) (not (= ?v_20 ?v_32))) (not (= ?v_26 ?v_32)))) (and (and (and (and (and (and (and (and (and (and (and (and (and (and (not (= ?v_3 ?v_9)) (not (= ?v_3 ?v_15))) (not (= ?v_3 ?v_21))) (not (= ?v_3 ?v_27))) (not (= ?v_3 ?v_33))) (not (= ?v_9 ?v_15))) (not (= ?v_9 ?v_21))) (not (= ?v_9 ?v_27))) (not (= ?v_9 ?v_33))) (not (= ?v_15 ?v_21))) (not (= ?v_15 ?v_27))) (not (= ?v_15 ?v_33))) (not (= ?v_21 ?v_27))) (not (= ?v_21 ?v_33))) (not (= ?v_27 ?v_33)))) (and (and (and (and (and (and (and (and (and (and (and (and (and (and (not (= ?v_4 ?v_10)) (not (= ?v_4 ?v_16))) (not (= ?v_4 ?v_22))) (not (= ?v_4 ?v_28))) (not (= ?v_4 ?v_34))) (not (= ?v_10 ?v_16))) (not (= ?v_10 ?v_22))) (not (= ?v_10 ?v_28))) (not (= ?v_10 ?v_34))) (not (= ?v_16 ?v_22))) (not (= ?v_16 ?v_28))) (not (= ?v_16 ?v_34))) (not (= ?v_22 ?v_28))) (not (= ?v_22 ?v_34))) (not (= ?v_28 ?v_34)))) (and (and (and (and (and (and (and (and (and (and (and (and (and (and (not (= ?v_5 ?v_11)) (not (= ?v_5 ?v_17))) (not (= ?v_5 ?v_23))) (not (= ?v_5 ?v_29))) (not (= ?v_5 ?v_35))) (not (= ?v_11 ?v_17))) (not (= ?v_11 ?v_23))) (not (= ?v_11 ?v_29))) (not (= ?v_11 ?v_35))) (not (= ?v_17 ?v_23))) (not (= ?v_17 ?v_29))) (not (= ?v_17 ?v_35))) (not (= ?v_23 ?v_29))) (not (= ?v_23 ?v_35))) (not (= ?v_29 ?v_35)))))))
-(assert (and (and (and (and (and (and (and (and (and (and (and (and (and (and (not (= e0 e1)) (not (= e0 e2))) (not (= e0 e3))) (not (= e0 e4))) (not (= e0 e5))) (not (= e1 e2))) (not (= e1 e3))) (not (= e1 e4))) (not (= e1 e5))) (not (= e2 e3))) (not (= e2 e4))) (not (= e2 e5))) (not (= e3 e4))) (not (= e3 e5))) (not (= e4 e5))))
-(assert (not (and (and (and (and (= e0 (op e2 e3)) (= e2 (op e1 e1))) (= e3 (op e4 e4))) (= e4 (op e5 e2))) (= e5 (op e2 e1)))))
-(assert (not (and (and (and (and (= e0 (op e2 e3)) (= e2 (op e1 e1))) (= e3 (op e5 e5))) (= e5 (op e4 e2))) (= e4 (op e2 e1)))))
-(assert (not (and (and (and (and (= e0 (op e2 e4)) (= e2 (op e1 e1))) (= e4 (op e3 e3))) (= e3 (op e5 e2))) (= e5 (op e2 e1)))))
-(assert (not (and (and (and (and (= e0 (op e2 e4)) (= e2 (op e1 e1))) (= e4 (op e5 e5))) (= e5 (op e3 e2))) (= e3 (op e2 e1)))))
-(assert (not (and (and (and (and (= e0 (op e2 e5)) (= e2 (op e1 e1))) (= e5 (op e3 e3))) (= e3 (op e4 e2))) (= e4 (op e2 e1)))))
-(assert (not (and (and (and (and (= e0 (op e2 e5)) (= e2 (op e1 e1))) (= e5 (op e4 e4))) (= e4 (op e3 e2))) (= e3 (op e2 e1)))))
-(assert (not (and (and (and (and (= e0 (op e3 e2)) (= e3 (op e1 e1))) (= e2 (op e4 e4))) (= e4 (op e5 e3))) (= e5 (op e3 e1)))))
-(assert (not (and (and (and (and (= e0 (op e3 e2)) (= e3 (op e1 e1))) (= e2 (op e5 e5))) (= e5 (op e4 e3))) (= e4 (op e3 e1)))))
-(assert (not (and (and (and (and (= e0 (op e3 e4)) (= e3 (op e1 e1))) (= e4 (op e2 e2))) (= e2 (op e5 e3))) (= e5 (op e3 e1)))))
-(assert (not (and (and (and (and (= e0 (op e3 e4)) (= e3 (op e1 e1))) (= e4 (op e5 e5))) (= e5 (op e2 e3))) (= e2 (op e3 e1)))))
-(assert (not (and (and (and (and (= e0 (op e3 e5)) (= e3 (op e1 e1))) (= e5 (op e2 e2))) (= e2 (op e4 e3))) (= e4 (op e3 e1)))))
-(assert (not (and (and (and (and (= e0 (op e3 e5)) (= e3 (op e1 e1))) (= e5 (op e4 e4))) (= e4 (op e2 e3))) (= e2 (op e3 e1)))))
-(assert (not (and (and (and (and (= e0 (op e4 e2)) (= e4 (op e1 e1))) (= e2 (op e3 e3))) (= e3 (op e5 e4))) (= e5 (op e4 e1)))))
-(assert (not (and (and (and (and (= e0 (op e4 e2)) (= e4 (op e1 e1))) (= e2 (op e5 e5))) (= e5 (op e3 e4))) (= e3 (op e4 e1)))))
-(assert (not (and (and (and (and (= e0 (op e4 e3)) (= e4 (op e1 e1))) (= e3 (op e2 e2))) (= e2 (op e5 e4))) (= e5 (op e4 e1)))))
-(assert (not (and (and (and (and (= e0 (op e4 e3)) (= e4 (op e1 e1))) (= e3 (op e5 e5))) (= e5 (op e2 e4))) (= e2 (op e4 e1)))))
-(assert (not (and (and (and (and (= e0 (op e4 e5)) (= e4 (op e1 e1))) (= e5 (op e2 e2))) (= e2 (op e3 e4))) (= e3 (op e4 e1)))))
-(assert (not (and (and (and (and (= e0 (op e4 e5)) (= e4 (op e1 e1))) (= e5 (op e3 e3))) (= e3 (op e2 e4))) (= e2 (op e4 e1)))))
-(assert (not (and (and (and (and (= e0 (op e5 e2)) (= e5 (op e1 e1))) (= e2 (op e3 e3))) (= e3 (op e4 e5))) (= e4 (op e5 e1)))))
-(assert (not (and (and (and (and (= e0 (op e5 e2)) (= e5 (op e1 e1))) (= e2 (op e4 e4))) (= e4 (op e3 e5))) (= e3 (op e5 e1)))))
-(assert (not (and (and (and (and (= e0 (op e5 e3)) (= e5 (op e1 e1))) (= e3 (op e2 e2))) (= e2 (op e4 e5))) (= e4 (op e5 e1)))))
-(assert (not (and (and (and (and (= e0 (op e5 e3)) (= e5 (op e1 e1))) (= e3 (op e4 e4))) (= e4 (op e2 e5))) (= e2 (op e5 e1)))))
-(assert (not (and (and (and (and (= e0 (op e5 e4)) (= e5 (op e1 e1))) (= e4 (op e2 e2))) (= e2 (op e3 e5))) (= e3 (op e5 e1)))))
-(assert (not (and (and (and (and (= e0 (op e5 e4)) (= e5 (op e1 e1))) (= e4 (op e3 e3))) (= e3 (op e2 e5))) (= e2 (op e5 e1)))))
-(assert (not (and (and (and (and (= e0 (op e1 e3)) (= e1 (op e2 e2))) (= e3 (op e4 e4))) (= e4 (op e5 e1))) (= e5 (op e1 e2)))))
-(assert (not (and (and (and (and (= e0 (op e1 e3)) (= e1 (op e2 e2))) (= e3 (op e5 e5))) (= e5 (op e4 e1))) (= e4 (op e1 e2)))))
-(assert (not (and (and (and (and (= e0 (op e1 e4)) (= e1 (op e2 e2))) (= e4 (op e3 e3))) (= e3 (op e5 e1))) (= e5 (op e1 e2)))))
-(assert (not (and (and (and (and (= e0 (op e1 e4)) (= e1 (op e2 e2))) (= e4 (op e5 e5))) (= e5 (op e3 e1))) (= e3 (op e1 e2)))))
-(assert (not (and (and (and (and (= e0 (op e1 e5)) (= e1 (op e2 e2))) (= e5 (op e3 e3))) (= e3 (op e4 e1))) (= e4 (op e1 e2)))))
-(assert (not (and (and (and (and (= e0 (op e1 e5)) (= e1 (op e2 e2))) (= e5 (op e4 e4))) (= e4 (op e3 e1))) (= e3 (op e1 e2)))))
-(assert (not (and (and (and (and (= e0 (op e3 e1)) (= e3 (op e2 e2))) (= e1 (op e4 e4))) (= e4 (op e5 e3))) (= e5 (op e3 e2)))))
-(assert (not (and (and (and (and (= e0 (op e3 e1)) (= e3 (op e2 e2))) (= e1 (op e5 e5))) (= e5 (op e4 e3))) (= e4 (op e3 e2)))))
-(assert (not (and (and (and (and (= e0 (op e3 e4)) (= e3 (op e2 e2))) (= e4 (op e1 e1))) (= e1 (op e5 e3))) (= e5 (op e3 e2)))))
-(assert (not (and (and (and (and (= e0 (op e3 e4)) (= e3 (op e2 e2))) (= e4 (op e5 e5))) (= e5 (op e1 e3))) (= e1 (op e3 e2)))))
-(assert (not (and (and (and (and (= e0 (op e3 e5)) (= e3 (op e2 e2))) (= e5 (op e1 e1))) (= e1 (op e4 e3))) (= e4 (op e3 e2)))))
-(assert (not (and (and (and (and (= e0 (op e3 e5)) (= e3 (op e2 e2))) (= e5 (op e4 e4))) (= e4 (op e1 e3))) (= e1 (op e3 e2)))))
-(assert (not (and (and (and (and (= e0 (op e4 e1)) (= e4 (op e2 e2))) (= e1 (op e3 e3))) (= e3 (op e5 e4))) (= e5 (op e4 e2)))))
-(assert (not (and (and (and (and (= e0 (op e4 e1)) (= e4 (op e2 e2))) (= e1 (op e5 e5))) (= e5 (op e3 e4))) (= e3 (op e4 e2)))))
-(assert (not (and (and (and (and (= e0 (op e4 e3)) (= e4 (op e2 e2))) (= e3 (op e1 e1))) (= e1 (op e5 e4))) (= e5 (op e4 e2)))))
-(assert (not (and (and (and (and (= e0 (op e4 e3)) (= e4 (op e2 e2))) (= e3 (op e5 e5))) (= e5 (op e1 e4))) (= e1 (op e4 e2)))))
-(assert (not (and (and (and (and (= e0 (op e4 e5)) (= e4 (op e2 e2))) (= e5 (op e1 e1))) (= e1 (op e3 e4))) (= e3 (op e4 e2)))))
-(assert (not (and (and (and (and (= e0 (op e4 e5)) (= e4 (op e2 e2))) (= e5 (op e3 e3))) (= e3 (op e1 e4))) (= e1 (op e4 e2)))))
-(assert (not (and (and (and (and (= e0 (op e5 e1)) (= e5 (op e2 e2))) (= e1 (op e3 e3))) (= e3 (op e4 e5))) (= e4 (op e5 e2)))))
-(assert (not (and (and (and (and (= e0 (op e5 e1)) (= e5 (op e2 e2))) (= e1 (op e4 e4))) (= e4 (op e3 e5))) (= e3 (op e5 e2)))))
-(assert (not (and (and (and (and (= e0 (op e5 e3)) (= e5 (op e2 e2))) (= e3 (op e1 e1))) (= e1 (op e4 e5))) (= e4 (op e5 e2)))))
-(assert (not (and (and (and (and (= e0 (op e5 e3)) (= e5 (op e2 e2))) (= e3 (op e4 e4))) (= e4 (op e1 e5))) (= e1 (op e5 e2)))))
-(assert (not (and (and (and (and (= e0 (op e5 e4)) (= e5 (op e2 e2))) (= e4 (op e1 e1))) (= e1 (op e3 e5))) (= e3 (op e5 e2)))))
-(assert (not (and (and (and (and (= e0 (op e5 e4)) (= e5 (op e2 e2))) (= e4 (op e3 e3))) (= e3 (op e1 e5))) (= e1 (op e5 e2)))))
-(assert (not (and (and (and (and (= e0 (op e1 e2)) (= e1 (op e3 e3))) (= e2 (op e4 e4))) (= e4 (op e5 e1))) (= e5 (op e1 e3)))))
-(assert (not (and (and (and (and (= e0 (op e1 e2)) (= e1 (op e3 e3))) (= e2 (op e5 e5))) (= e5 (op e4 e1))) (= e4 (op e1 e3)))))
-(assert (not (and (and (and (and (= e0 (op e1 e4)) (= e1 (op e3 e3))) (= e4 (op e2 e2))) (= e2 (op e5 e1))) (= e5 (op e1 e3)))))
-(assert (not (and (and (and (and (= e0 (op e1 e4)) (= e1 (op e3 e3))) (= e4 (op e5 e5))) (= e5 (op e2 e1))) (= e2 (op e1 e3)))))
-(assert (not (and (and (and (and (= e0 (op e1 e5)) (= e1 (op e3 e3))) (= e5 (op e2 e2))) (= e2 (op e4 e1))) (= e4 (op e1 e3)))))
-(assert (not (and (and (and (and (= e0 (op e1 e5)) (= e1 (op e3 e3))) (= e5 (op e4 e4))) (= e4 (op e2 e1))) (= e2 (op e1 e3)))))
-(assert (not (and (and (and (and (= e0 (op e2 e1)) (= e2 (op e3 e3))) (= e1 (op e4 e4))) (= e4 (op e5 e2))) (= e5 (op e2 e3)))))
-(assert (not (and (and (and (and (= e0 (op e2 e1)) (= e2 (op e3 e3))) (= e1 (op e5 e5))) (= e5 (op e4 e2))) (= e4 (op e2 e3)))))
-(assert (not (and (and (and (and (= e0 (op e2 e4)) (= e2 (op e3 e3))) (= e4 (op e1 e1))) (= e1 (op e5 e2))) (= e5 (op e2 e3)))))
-(assert (not (and (and (and (and (= e0 (op e2 e4)) (= e2 (op e3 e3))) (= e4 (op e5 e5))) (= e5 (op e1 e2))) (= e1 (op e2 e3)))))
-(assert (not (and (and (and (and (= e0 (op e2 e5)) (= e2 (op e3 e3))) (= e5 (op e1 e1))) (= e1 (op e4 e2))) (= e4 (op e2 e3)))))
-(assert (not (and (and (and (and (= e0 (op e2 e5)) (= e2 (op e3 e3))) (= e5 (op e4 e4))) (= e4 (op e1 e2))) (= e1 (op e2 e3)))))
-(assert (not (and (and (and (and (= e0 (op e4 e1)) (= e4 (op e3 e3))) (= e1 (op e2 e2))) (= e2 (op e5 e4))) (= e5 (op e4 e3)))))
-(assert (not (and (and (and (and (= e0 (op e4 e1)) (= e4 (op e3 e3))) (= e1 (op e5 e5))) (= e5 (op e2 e4))) (= e2 (op e4 e3)))))
-(assert (not (and (and (and (and (= e0 (op e4 e2)) (= e4 (op e3 e3))) (= e2 (op e1 e1))) (= e1 (op e5 e4))) (= e5 (op e4 e3)))))
-(assert (not (and (and (and (and (= e0 (op e4 e2)) (= e4 (op e3 e3))) (= e2 (op e5 e5))) (= e5 (op e1 e4))) (= e1 (op e4 e3)))))
-(assert (not (and (and (and (and (= e0 (op e4 e5)) (= e4 (op e3 e3))) (= e5 (op e1 e1))) (= e1 (op e2 e4))) (= e2 (op e4 e3)))))
-(assert (not (and (and (and (and (= e0 (op e4 e5)) (= e4 (op e3 e3))) (= e5 (op e2 e2))) (= e2 (op e1 e4))) (= e1 (op e4 e3)))))
-(assert (not (and (and (and (and (= e0 (op e5 e1)) (= e5 (op e3 e3))) (= e1 (op e2 e2))) (= e2 (op e4 e5))) (= e4 (op e5 e3)))))
-(assert (not (and (and (and (and (= e0 (op e5 e1)) (= e5 (op e3 e3))) (= e1 (op e4 e4))) (= e4 (op e2 e5))) (= e2 (op e5 e3)))))
-(assert (not (and (and (and (and (= e0 (op e5 e2)) (= e5 (op e3 e3))) (= e2 (op e1 e1))) (= e1 (op e4 e5))) (= e4 (op e5 e3)))))
-(assert (not (and (and (and (and (= e0 (op e5 e2)) (= e5 (op e3 e3))) (= e2 (op e4 e4))) (= e4 (op e1 e5))) (= e1 (op e5 e3)))))
-(assert (not (and (and (and (and (= e0 (op e5 e4)) (= e5 (op e3 e3))) (= e4 (op e1 e1))) (= e1 (op e2 e5))) (= e2 (op e5 e3)))))
-(assert (not (and (and (and (and (= e0 (op e5 e4)) (= e5 (op e3 e3))) (= e4 (op e2 e2))) (= e2 (op e1 e5))) (= e1 (op e5 e3)))))
-(assert (not (and (and (and (and (= e0 (op e1 e2)) (= e1 (op e4 e4))) (= e2 (op e3 e3))) (= e3 (op e5 e1))) (= e5 (op e1 e4)))))
-(assert (not (and (and (and (and (= e0 (op e1 e2)) (= e1 (op e4 e4))) (= e2 (op e5 e5))) (= e5 (op e3 e1))) (= e3 (op e1 e4)))))
-(assert (not (and (and (and (and (= e0 (op e1 e3)) (= e1 (op e4 e4))) (= e3 (op e2 e2))) (= e2 (op e5 e1))) (= e5 (op e1 e4)))))
-(assert (not (and (and (and (and (= e0 (op e1 e3)) (= e1 (op e4 e4))) (= e3 (op e5 e5))) (= e5 (op e2 e1))) (= e2 (op e1 e4)))))
-(assert (not (and (and (and (and (= e0 (op e1 e5)) (= e1 (op e4 e4))) (= e5 (op e2 e2))) (= e2 (op e3 e1))) (= e3 (op e1 e4)))))
-(assert (not (and (and (and (and (= e0 (op e1 e5)) (= e1 (op e4 e4))) (= e5 (op e3 e3))) (= e3 (op e2 e1))) (= e2 (op e1 e4)))))
-(assert (not (and (and (and (and (= e0 (op e2 e1)) (= e2 (op e4 e4))) (= e1 (op e3 e3))) (= e3 (op e5 e2))) (= e5 (op e2 e4)))))
-(assert (not (and (and (and (and (= e0 (op e2 e1)) (= e2 (op e4 e4))) (= e1 (op e5 e5))) (= e5 (op e3 e2))) (= e3 (op e2 e4)))))
-(assert (not (and (and (and (and (= e0 (op e2 e3)) (= e2 (op e4 e4))) (= e3 (op e1 e1))) (= e1 (op e5 e2))) (= e5 (op e2 e4)))))
-(assert (not (and (and (and (and (= e0 (op e2 e3)) (= e2 (op e4 e4))) (= e3 (op e5 e5))) (= e5 (op e1 e2))) (= e1 (op e2 e4)))))
-(assert (not (and (and (and (and (= e0 (op e2 e5)) (= e2 (op e4 e4))) (= e5 (op e1 e1))) (= e1 (op e3 e2))) (= e3 (op e2 e4)))))
-(assert (not (and (and (and (and (= e0 (op e2 e5)) (= e2 (op e4 e4))) (= e5 (op e3 e3))) (= e3 (op e1 e2))) (= e1 (op e2 e4)))))
-(assert (not (and (and (and (and (= e0 (op e3 e1)) (= e3 (op e4 e4))) (= e1 (op e2 e2))) (= e2 (op e5 e3))) (= e5 (op e3 e4)))))
-(assert (not (and (and (and (and (= e0 (op e3 e1)) (= e3 (op e4 e4))) (= e1 (op e5 e5))) (= e5 (op e2 e3))) (= e2 (op e3 e4)))))
-(assert (not (and (and (and (and (= e0 (op e3 e2)) (= e3 (op e4 e4))) (= e2 (op e1 e1))) (= e1 (op e5 e3))) (= e5 (op e3 e4)))))
-(assert (not (and (and (and (and (= e0 (op e3 e2)) (= e3 (op e4 e4))) (= e2 (op e5 e5))) (= e5 (op e1 e3))) (= e1 (op e3 e4)))))
-(assert (not (and (and (and (and (= e0 (op e3 e5)) (= e3 (op e4 e4))) (= e5 (op e1 e1))) (= e1 (op e2 e3))) (= e2 (op e3 e4)))))
-(assert (not (and (and (and (and (= e0 (op e3 e5)) (= e3 (op e4 e4))) (= e5 (op e2 e2))) (= e2 (op e1 e3))) (= e1 (op e3 e4)))))
-(assert (not (and (and (and (and (= e0 (op e5 e1)) (= e5 (op e4 e4))) (= e1 (op e2 e2))) (= e2 (op e3 e5))) (= e3 (op e5 e4)))))
-(assert (not (and (and (and (and (= e0 (op e5 e1)) (= e5 (op e4 e4))) (= e1 (op e3 e3))) (= e3 (op e2 e5))) (= e2 (op e5 e4)))))
-(assert (not (and (and (and (and (= e0 (op e5 e2)) (= e5 (op e4 e4))) (= e2 (op e1 e1))) (= e1 (op e3 e5))) (= e3 (op e5 e4)))))
-(assert (not (and (and (and (and (= e0 (op e5 e2)) (= e5 (op e4 e4))) (= e2 (op e3 e3))) (= e3 (op e1 e5))) (= e1 (op e5 e4)))))
-(assert (not (and (and (and (and (= e0 (op e5 e3)) (= e5 (op e4 e4))) (= e3 (op e1 e1))) (= e1 (op e2 e5))) (= e2 (op e5 e4)))))
-(assert (not (and (and (and (and (= e0 (op e5 e3)) (= e5 (op e4 e4))) (= e3 (op e2 e2))) (= e2 (op e1 e5))) (= e1 (op e5 e4)))))
-(assert (not (and (and (and (and (= e0 (op e1 e2)) (= e1 (op e5 e5))) (= e2 (op e3 e3))) (= e3 (op e4 e1))) (= e4 (op e1 e5)))))
-(assert (not (and (and (and (and (= e0 (op e1 e2)) (= e1 (op e5 e5))) (= e2 (op e4 e4))) (= e4 (op e3 e1))) (= e3 (op e1 e5)))))
-(assert (not (and (and (and (and (= e0 (op e1 e3)) (= e1 (op e5 e5))) (= e3 (op e2 e2))) (= e2 (op e4 e1))) (= e4 (op e1 e5)))))
-(assert (not (and (and (and (and (= e0 (op e1 e3)) (= e1 (op e5 e5))) (= e3 (op e4 e4))) (= e4 (op e2 e1))) (= e2 (op e1 e5)))))
-(assert (not (and (and (and (and (= e0 (op e1 e4)) (= e1 (op e5 e5))) (= e4 (op e2 e2))) (= e2 (op e3 e1))) (= e3 (op e1 e5)))))
-(assert (not (and (and (and (and (= e0 (op e1 e4)) (= e1 (op e5 e5))) (= e4 (op e3 e3))) (= e3 (op e2 e1))) (= e2 (op e1 e5)))))
-(assert (not (and (and (and (and (= e0 (op e2 e1)) (= e2 (op e5 e5))) (= e1 (op e3 e3))) (= e3 (op e4 e2))) (= e4 (op e2 e5)))))
-(assert (not (and (and (and (and (= e0 (op e2 e1)) (= e2 (op e5 e5))) (= e1 (op e4 e4))) (= e4 (op e3 e2))) (= e3 (op e2 e5)))))
-(assert (not (and (and (and (and (= e0 (op e2 e3)) (= e2 (op e5 e5))) (= e3 (op e1 e1))) (= e1 (op e4 e2))) (= e4 (op e2 e5)))))
-(assert (not (and (and (and (and (= e0 (op e2 e3)) (= e2 (op e5 e5))) (= e3 (op e4 e4))) (= e4 (op e1 e2))) (= e1 (op e2 e5)))))
-(assert (not (and (and (and (and (= e0 (op e2 e4)) (= e2 (op e5 e5))) (= e4 (op e1 e1))) (= e1 (op e3 e2))) (= e3 (op e2 e5)))))
-(assert (not (and (and (and (and (= e0 (op e2 e4)) (= e2 (op e5 e5))) (= e4 (op e3 e3))) (= e3 (op e1 e2))) (= e1 (op e2 e5)))))
-(assert (not (and (and (and (and (= e0 (op e3 e1)) (= e3 (op e5 e5))) (= e1 (op e2 e2))) (= e2 (op e4 e3))) (= e4 (op e3 e5)))))
-(assert (not (and (and (and (and (= e0 (op e3 e1)) (= e3 (op e5 e5))) (= e1 (op e4 e4))) (= e4 (op e2 e3))) (= e2 (op e3 e5)))))
-(assert (not (and (and (and (and (= e0 (op e3 e2)) (= e3 (op e5 e5))) (= e2 (op e1 e1))) (= e1 (op e4 e3))) (= e4 (op e3 e5)))))
-(assert (not (and (and (and (and (= e0 (op e3 e2)) (= e3 (op e5 e5))) (= e2 (op e4 e4))) (= e4 (op e1 e3))) (= e1 (op e3 e5)))))
-(assert (not (and (and (and (and (= e0 (op e3 e4)) (= e3 (op e5 e5))) (= e4 (op e1 e1))) (= e1 (op e2 e3))) (= e2 (op e3 e5)))))
-(assert (not (and (and (and (and (= e0 (op e3 e4)) (= e3 (op e5 e5))) (= e4 (op e2 e2))) (= e2 (op e1 e3))) (= e1 (op e3 e5)))))
-(assert (not (and (and (and (and (= e0 (op e4 e1)) (= e4 (op e5 e5))) (= e1 (op e2 e2))) (= e2 (op e3 e4))) (= e3 (op e4 e5)))))
-(assert (not (and (and (and (and (= e0 (op e4 e1)) (= e4 (op e5 e5))) (= e1 (op e3 e3))) (= e3 (op e2 e4))) (= e2 (op e4 e5)))))
-(assert (not (and (and (and (and (= e0 (op e4 e2)) (= e4 (op e5 e5))) (= e2 (op e1 e1))) (= e1 (op e3 e4))) (= e3 (op e4 e5)))))
-(assert (not (and (and (and (and (= e0 (op e4 e2)) (= e4 (op e5 e5))) (= e2 (op e3 e3))) (= e3 (op e1 e4))) (= e1 (op e4 e5)))))
-(assert (not (and (and (and (and (= e0 (op e4 e3)) (= e4 (op e5 e5))) (= e3 (op e1 e1))) (= e1 (op e2 e4))) (= e2 (op e4 e5)))))
-(assert (not (and (and (and (and (= e0 (op e4 e3)) (= e4 (op e5 e5))) (= e3 (op e2 e2))) (= e2 (op e1 e4))) (= e1 (op e4 e5)))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/uf/proof00.smt2 b/test/regress/regress0/uf/proof00.smt2
deleted file mode 100644
index 1b7e7b8dd..000000000
--- a/test/regress/regress0/uf/proof00.smt2
+++ /dev/null
@@ -1,21 +0,0 @@
-; PROOF
-(set-logic QF_UF)
-(set-info :source |
-CADE ATP System competition. See http://www.cs.miami.edu/~tptp/CASC
- for more information. 
-
-This benchmark was obtained by trying to find a finite model of a first-order 
-formula (Albert Oliveras).
-|)
-(set-info :smt-lib-version 2.0)
-(set-info :category "crafted")
-(set-info :status unsat)
-(declare-sort U 0)
-(declare-fun c3 () U)
-(declare-fun f1 (U U) U)
-(declare-fun f4 (U) U)
-(declare-fun c2 () U)
-(declare-fun c_0 () U)
-(declare-fun c_1 () U)
-(assert (let ((?v_1 (f1 c3 c_0))) (let ((?v_0 (f1 ?v_1 c_0)) (?v_2 (f1 c_0 c_0)) (?v_4 (f1 c_0 c_1)) (?v_3 (f1 ?v_1 c_1)) (?v_6 (f1 c3 c_1))) (let ((?v_5 (f1 ?v_6 c_0)) (?v_7 (f1 c_1 c_0)) (?v_9 (f1 c_1 c_1)) (?v_8 (f1 ?v_6 c_1)) (?v_10 (f4 c_0))) (let ((?v_11 (f1 c_0 ?v_10)) (?v_12 (f4 c_1))) (let ((?v_13 (f1 c_1 ?v_12)) (?v_15 (f1 c2 c_0))) (let ((?v_14 (f1 ?v_15 c_0)) (?v_16 (f1 ?v_15 c_1)) (?v_18 (f1 c2 c_1))) (let ((?v_17 (f1 ?v_18 c_0)) (?v_19 (f1 ?v_18 c_1))) (and (distinct c_0 c_1) (= (f1 ?v_0 c_0) (f1 c_0 ?v_2)) (= (f1 ?v_0 c_1) (f1 c_0 ?v_4)) (= (f1 ?v_3 c_0) (f1 c_1 ?v_2)) (= (f1 ?v_3 c_1) (f1 c_1 ?v_4)) (= (f1 ?v_5 c_0) (f1 c_0 ?v_7)) (= (f1 ?v_5 c_1) (f1 c_0 ?v_9)) (= (f1 ?v_8 c_0) (f1 c_1 ?v_7)) (= (f1 ?v_8 c_1) (f1 c_1 ?v_9)) (not (= ?v_11 (f1 ?v_10 ?v_11))) (not (= ?v_13 (f1 ?v_12 ?v_13))) (= (f1 ?v_14 c_0) (f1 (f1 ?v_2 c_0) c_0)) (= (f1 ?v_14 c_1) (f1 (f1 ?v_4 c_0) c_1)) (= (f1 ?v_16 c_0) (f1 (f1 ?v_2 c_1) c_0)) (= (f1 ?v_16 c_1) (f1 (f1 ?v_4 c_1) c_1)) (= (f1 ?v_17 c_0) (f1 (f1 ?v_7 c_0) c_0)) (= (f1 ?v_17 c_1) (f1 (f1 ?v_9 c_0) c_1)) (= (f1 ?v_19 c_0) (f1 (f1 ?v_7 c_1) c_0)) (= (f1 ?v_19 c_1) (f1 (f1 ?v_9 c_1) c_1)) (or (= ?v_2 c_0) (= ?v_2 c_1)) (or (= ?v_4 c_0) (= ?v_4 c_1)) (or (= ?v_7 c_0) (= ?v_7 c_1)) (or (= ?v_9 c_0) (= ?v_9 c_1)) (or (= ?v_10 c_0) (= ?v_10 c_1)) (or (= ?v_12 c_0) (= ?v_12 c_1)) (or (= c3 c_0) (= c3 c_1)) (or (= c2 c_0) (= c2 c_1)))))))))))
-(check-sat)
diff --git a/test/regress/regress0/uflia/DRAGON_11_e1_2450.ec.minimized.smt2 b/test/regress/regress0/uflia/DRAGON_11_e1_2450.ec.minimized.smt2
deleted file mode 100644
index ab8e5d1da..000000000
--- a/test/regress/regress0/uflia/DRAGON_11_e1_2450.ec.minimized.smt2
+++ /dev/null
@@ -1,104 +0,0 @@
-(set-logic QF_UFLIA)
-(declare-fun _base () Int)
-(declare-fun _n () Int)
-(assert (let ((.def_5 (<= 0 _n)))
-.def_5
-))
-(declare-fun ___z2z___ (Int) Bool)
-(declare-fun ___z3z___ (Int) Bool)
-(declare-fun ___z4z___ (Int) Bool)
-(declare-fun ___z5z___ (Int) Bool)
-(declare-fun ___z6z___ (Int) Bool)
-(declare-fun ___z7z___ (Int) Bool)
-(declare-fun ___z8z___ (Int) Bool)
-(declare-fun ___z9z___ (Int) Bool)
-(declare-fun ___z10z___ (Int) Bool)
-(declare-fun ___z11z___ (Int) Bool)
-(declare-fun ___z12z___ (Int) Bool)
-(declare-fun ___z13z___ (Int) Bool)
-(declare-fun ___z14z___ (Int) Int)
-(declare-fun ___z15z___ (Int) Bool)
-(declare-fun ___z16z___ (Int) Int)
-(declare-fun ___z17z___ (Int) Int)
-(declare-fun ___z18z___ (Int) Int)
-(declare-fun ___z19z___ (Int) Int)
-(declare-fun ___z20z___ (Int) Int)
-(declare-fun ___z22z___ (Int) Bool)
-(declare-fun ___z23z___ (Int) Bool)
-(declare-fun ___z24z___ (Int) Bool)
-(declare-fun ___z25z___ (Int) Bool)
-(declare-fun ___z26z___ (Int) Bool)
-(declare-fun ___z27z___ (Int) Bool)
-(declare-fun ___z28z___ (Int) Bool)
-(declare-fun ___z29z___ (Int) Bool)
-(declare-fun ___z30z___ (Int) Bool)
-(declare-fun ___z31z___ (Int) Bool)
-(declare-fun ___z32z___ (Int) Bool)
-(declare-fun ___z33z___ (Int) Bool)
-(declare-fun ___z34z___ (Int) Bool)
-(declare-fun ___z35z___ (Int) Int)
-(declare-fun ___z36z___ (Int) Bool)
-(declare-fun ___z37z___ (Int) Int)
-
-
-(assert (let ((.def_1132 (___z29z___ (- 1))))
-(let ((.def_1126 (___z20z___ (- 2))))
-(let ((.def_1127 (<= 1 .def_1126)))
-(let ((.def_1124 (___z19z___ (- 2))))
-(let ((.def_1125 (= .def_1124 0)))
-(let ((.def_1128 (and .def_1125 .def_1127)))
-(let ((.def_1106 (___z17z___ (- 2))))
-(let ((.def_1107 (= .def_1106 0)))
-(let ((.def_1129 (and .def_1107 .def_1128)))
-(let ((.def_1122 (___z16z___ (- 2))))
-(let ((.def_1123 (= .def_1122 0)))
-(let ((.def_1130 (and .def_1123 .def_1129)))
-(let ((.def_1108 (___z18z___ (- 2))))
-(let ((.def_1114 (= .def_1108 0)))
-(let ((.def_1131 (and .def_1114 .def_1130)))
-(let ((.def_1133 (= .def_1131 .def_1132)))
-.def_1133
-)))))))))))))))))
-(push 1)
-(check-sat)
-(pop 1)
-(assert (let ((.def_2016 (___z16z___ (- 3))))
-(let ((.def_2188 (+ (- 1) .def_2016)))
-(let ((.def_2048 (___z34z___ (- 2))))
-(let ((.def_2189 (ite .def_2048 .def_2188 .def_2016)))
-(let ((.def_2057 (___z13z___ (- 2))))
-(let ((.def_2190 (ite .def_2057 .def_2189 .def_2016)))
-(let ((.def_2036 (___z30z___ (- 2))))
-(let ((.def_2191 (ite .def_2036 0 .def_2016)))
-(let ((.def_2064 (___z9z___ (- 2))))
-(let ((.def_2192 (ite .def_2064 .def_2191 .def_2190)))
-(let ((.def_2193 (___z25z___ (- 2))))
-(let ((.def_2194 (ite .def_2193 .def_2188 .def_2016)))
-(let ((.def_2074 (___z4z___ (- 2))))
-(let ((.def_2195 (ite .def_2074 .def_2194 .def_2192)))
-(let ((.def_2196 (___z24z___ (- 2))))
-(let ((.def_2197 (ite .def_2196 0 .def_2016)))
-(let ((.def_2076 (___z3z___ (- 2))))
-(let ((.def_2198 (ite .def_2076 .def_2197 .def_2195)))
-(let ((.def_2199 (+ 1 .def_2016)))
-(let ((.def_2200 (___z23z___ (- 2))))
-(let ((.def_2201 (ite .def_2200 .def_2199 .def_2016)))
-(let ((.def_2078 (___z2z___ (- 2))))
-(let ((.def_2202 (ite .def_2078 .def_2201 .def_2198)))
-(let ((.def_2052 (= _base (- 2))))
-(let ((.def_2203 (ite .def_2052 0 .def_2202)))
-(let ((.def_1122 (___z16z___ (- 2))))
-(let ((.def_2204 (= .def_1122 .def_2203)))
-.def_2204
-))))))))))))))))))))))))))))
-
-(push 1)
-(assert (let ((.def_2052 (= _base (- 2))))
-(let ((.def_2278 (not .def_2052)))
-(let ((.def_997 (___z15z___ 0)))
-(let ((.def_2290 (or .def_997 .def_2278)))
-(let ((.def_2291 (not .def_2290)))
-.def_2291
-))))))
-(check-sat)
-(pop 1)
diff --git a/test/regress/regress0/uflia/DRAGON_11_e1_2450.ec.minimized.smt2.expect b/test/regress/regress0/uflia/DRAGON_11_e1_2450.ec.minimized.smt2.expect
deleted file mode 100644
index 9403b1a25..000000000
--- a/test/regress/regress0/uflia/DRAGON_11_e1_2450.ec.minimized.smt2.expect
+++ /dev/null
@@ -1,3 +0,0 @@
-% COMMAND-LINE: --incremental
-% EXPECT: sat
-% EXPECT: sat
diff --git a/test/regress/regress0/uflia/FIREFLY_3_e2_2236_e7_3681.ec.core.smt2 b/test/regress/regress0/uflia/FIREFLY_3_e2_2236_e7_3681.ec.core.smt2
deleted file mode 100644
index 0274e4390..000000000
--- a/test/regress/regress0/uflia/FIREFLY_3_e2_2236_e7_3681.ec.core.smt2
+++ /dev/null
@@ -1,29 +0,0 @@
-(set-logic QF_UFLIA)
-(set-info :smt-lib-version 2.0)
-(declare-fun _base () Int)
-(declare-fun _n () Int)
-(declare-fun ___z3z___ (Int) Bool)
-(declare-fun ___z4z___ (Int) Bool)
-(declare-fun ___z6z___ (Int) Bool)
-(declare-fun ___z8z___ (Int) Bool)
-(declare-fun ___z9z___ (Int) Bool)
-(declare-fun ___z11z___ (Int) Bool)
-(declare-fun ___z12z___ (Int) Int)
-(declare-fun ___z14z___ (Int) Int)
-(declare-fun ___z15z___ (Int) Int)
-(declare-fun ___z16z___ (Int) Bool)
-(declare-fun ___z19z___ (Int) Bool)
-(declare-fun ___z20z___ (Int) Bool)
-(declare-fun ___z22z___ (Int) Bool)
-(declare-fun ___z24z___ (Int) Bool)
-(declare-fun ___z25z___ (Int) Bool)
-(assert (= (and (<= 1 (+ (___z14z___ (- 1)) (___z15z___ (- 1)))) (<= 1 (___z12z___ (- 1)))) (___z20z___ 0)))
-(assert (= (or (not (___z16z___ 0)) (<= 0 (___z15z___ 0))) (___z11z___ 0)))
-(assert (let ((?v_2 (___z14z___ (- 1))) (?v_0 (___z15z___ (- 1)))) (let ((?v_1 (+ 2 ?v_0))) (= (___z15z___ 0) (ite (= _base 0) 0 (ite (___z3z___ 0) (ite (___z19z___ 0) ?v_1 ?v_0) (ite (___z4z___ 0) (ite (___z20z___ 0) (+ 1 (+ ?v_2 (+ (- 1) ?v_0))) ?v_0) (ite (___z6z___ 0) (ite (___z22z___ 0) 0 ?v_0) (ite (___z8z___ 0) (ite (___z24z___ 0) ?v_1 ?v_0) (ite (___z9z___ 0) (ite (___z25z___ 0) (+ 1 (+ ?v_2 ?v_0)) ?v_0) ?v_0))))))))))
-(assert (= (and (<= 1 (+ (___z14z___ (- 1)) (___z15z___ (- 1)))) (<= 1 (___z12z___ (- 1)))) (___z25z___ 0)))
-(assert (= (or (not (___z16z___ (- 1))) (<= 0 (___z15z___ (- 1)))) (___z11z___ (- 1))))
-(assert (let ((?v_2 (___z14z___ (- 2))) (?v_0 (___z15z___ (- 2)))) (let ((?v_1 (+ 2 ?v_0))) (= (___z15z___ (- 1)) (ite (= _base (- 1)) 0 (ite (___z3z___ (- 1)) (ite (___z19z___ (- 1)) ?v_1 ?v_0) (ite (___z4z___ (- 1)) (ite (___z20z___ (- 1)) (+ 1 (+ ?v_2 (+ (- 1) ?v_0))) ?v_0) (ite (___z6z___ (- 1)) (ite (___z22z___ (- 1)) 0 ?v_0) (ite (___z8z___ (- 1)) (ite (___z24z___ (- 1)) ?v_1 ?v_0) (ite (___z9z___ (- 1)) (ite (___z25z___ (- 1)) (+ 1 (+ ?v_2 ?v_0)) ?v_0) ?v_0))))))))))
-(push 1)
-(assert (not (or (not (= _base (- 1))) (and (___z11z___ 0) (___z11z___ (- 1))))))
-(pop 1)
-(check-sat)
diff --git a/test/regress/regress0/uflia/FIREFLY_3_e2_2236_e7_3681.ec.core.smt2.expect b/test/regress/regress0/uflia/FIREFLY_3_e2_2236_e7_3681.ec.core.smt2.expect
deleted file mode 100644
index 85c180889..000000000
--- a/test/regress/regress0/uflia/FIREFLY_3_e2_2236_e7_3681.ec.core.smt2.expect
+++ /dev/null
@@ -1,2 +0,0 @@
-% COMMAND-LINE: --incremental
-% EXPECT: sat
diff --git a/test/regress/regress0/uflia/FIREFLY_luke_1b_e2_3049_e7_1173.ec.minimized.smt2 b/test/regress/regress0/uflia/FIREFLY_luke_1b_e2_3049_e7_1173.ec.minimized.smt2
deleted file mode 100644
index 248a056d3..000000000
--- a/test/regress/regress0/uflia/FIREFLY_luke_1b_e2_3049_e7_1173.ec.minimized.smt2
+++ /dev/null
@@ -1,72 +0,0 @@
-(set-logic QF_UFLIA)
-(set-info :smt-lib-version 2.0)
-(set-info :status sat)
-(declare-fun _base () Int)
-(declare-fun _n () Int)
-(assert (<= 0 _n))
-(declare-fun ___z2z___ (Int) Bool)
-(declare-fun ___z3z___ (Int) Bool)
-(declare-fun ___z4z___ (Int) Bool)
-(declare-fun ___z5z___ (Int) Bool)
-(declare-fun ___z6z___ (Int) Bool)
-(declare-fun ___z7z___ (Int) Bool)
-(declare-fun ___z8z___ (Int) Bool)
-(declare-fun ___z9z___ (Int) Bool)
-(declare-fun ___z10z___ (Int) Int)
-(declare-fun ___z11z___ (Int) Bool)
-(declare-fun ___z12z___ (Int) Int)
-(declare-fun ___z13z___ (Int) Int)
-(declare-fun ___z14z___ (Int) Int)
-(declare-fun ___z15z___ (Int) Int)
-(declare-fun ___z16z___ (Int) Bool)
-(declare-fun ___z17z___ (Int) Bool)
-(declare-fun ___z18z___ (Int) Bool)
-(declare-fun ___z19z___ (Int) Bool)
-(declare-fun ___z20z___ (Int) Bool)
-(declare-fun ___z21z___ (Int) Bool)
-(declare-fun ___z22z___ (Int) Bool)
-(declare-fun ___z23z___ (Int) Bool)
-(declare-fun ___z24z___ (Int) Bool)
-(declare-fun ___z25z___ (Int) Int)
-(declare-fun ___z26z___ (Int) Bool)
-(assert (= (<= 1 (___z14z___ (- 1))) (___z20z___ 0)))
-(assert (= (or (not (___z16z___ 0)) (or (= (+ (___z14z___ (- 1)) (+ (___z15z___ (- 1)) (+ (___z13z___ (- 1)) (+ (___z12z___ (- 1)) (+ (* (- 1) (___z15z___ 0)) (+ (* (- 1) (___z14z___ 0)) (+ (* (- 1) (___z13z___ 0)) (* (- 1) (___z12z___ 0))))))))) 0) (= _base 0))) (___z11z___ 0)))
-(assert (= (= (___z15z___ (- 1)) 1) (___z21z___ 0)))
-(assert (let ((?v_0 (___z12z___ (- 1)))) (let ((?v_1 (+ (- 1) ?v_0))) (= (___z12z___ 0) (ite (= _base 0) (___z25z___ 0) (ite (___z2z___ 0) (ite (___z17z___ 0) ?v_1 ?v_0) (ite (___z3z___ 0) (ite (___z18z___ 0) ?v_1 ?v_0) (ite (___z4z___ 0) (ite (___z19z___ 0) ?v_1 ?v_0) (ite (___z7z___ 0) (ite (___z22z___ 0) ?v_1 ?v_0) (ite (___z8z___ 0) (ite (___z23z___ 0) ?v_1 ?v_0) (ite (___z9z___ 0) (ite (___z24z___ 0) ?v_1 ?v_0) ?v_0)))))))))))
-(assert (= (___z22z___ 0) (and (= (___z14z___ (- 1)) 0) (and (= (___z15z___ (- 1)) 0) (and (= (___z13z___ (- 1)) 0) (<= 1 (___z12z___ (- 1))))))))
-(assert (let ((?v_0 (___z13z___ (- 1)))) (let ((?v_1 (+ (- 1) ?v_0))) (= (___z13z___ 0) (ite (= _base 0) 0 (ite (___z3z___ 0) (ite (___z18z___ 0) ?v_1 ?v_0) (ite (___z5z___ 0) (ite (___z20z___ 0) (+ 1 ?v_0) ?v_0) (ite (___z7z___ 0) (ite (___z22z___ 0) 1 ?v_0) (ite (___z8z___ 0) (ite (___z23z___ 0) ?v_1 ?v_0) ?v_0)))))))))
-(assert (= (___z23z___ 0) (and (<= 1 (___z12z___ (- 1))) (<= 1 (___z13z___ (- 1))))))
-(assert (let ((?v_0 (___z14z___ (- 1)))) (let ((?v_1 (+ 1 ?v_0))) (= (___z14z___ 0) (ite (= _base 0) 0 (ite (___z2z___ 0) (ite (___z17z___ 0) ?v_1 ?v_0) (ite (___z4z___ 0) (ite (___z19z___ 0) 0 ?v_0) (ite (___z5z___ 0) (ite (___z20z___ 0) (+ (- 1) ?v_0) ?v_0) (ite (___z6z___ 0) (ite (___z21z___ 0) ?v_1 ?v_0) (ite (___z9z___ 0) (ite (___z24z___ 0) 0 ?v_0) ?v_0))))))))))
-(assert (= (___z24z___ 0) (and (<= 1 (___z12z___ (- 1))) (<= 1 (+ (___z14z___ (- 1)) (___z15z___ (- 1)))))))
-(assert (let ((?v_2 (___z14z___ (- 1))) (?v_0 (___z15z___ (- 1)))) (let ((?v_1 (+ 2 ?v_0))) (= (___z15z___ 0) (ite (= _base 0) 0 (ite (___z3z___ 0) (ite (___z18z___ 0) ?v_1 ?v_0) (ite (___z4z___ 0) (ite (___z19z___ 0) (+ 1 (+ ?v_2 (+ (- 1) ?v_0))) ?v_0) (ite (___z6z___ 0) (ite (___z21z___ 0) 0 ?v_0) (ite (___z8z___ 0) (ite (___z23z___ 0) ?v_1 ?v_0) (ite (___z9z___ 0) (ite (___z24z___ 0) (+ 1 (+ ?v_2 ?v_0)) ?v_0) ?v_0))))))))))
-(assert (= (___z25z___ 0) (ite (= _base 0) (___z10z___ 0) (___z25z___ (- 1)))))
-(assert (let ((?v_0 (= _base 0)) (?v_1 (___z26z___ 0))) (= (___z16z___ 0) (and (or (not ?v_0) ?v_1) (or ?v_0 (or ?v_1 (___z16z___ (- 1))))))))
-(assert (let ((?v_2 (___z9z___ 0)) (?v_0 (___z8z___ 0)) (?v_5 (___z7z___ 0)) (?v_14 (___z4z___ 0)) (?v_17 (___z3z___ 0)) (?v_19 (___z2z___ 0)) (?v_11 (___z5z___ 0)) (?v_8 (___z6z___ 0))) (let ((?v_3 (not ?v_2)) (?v_18 (not ?v_19)) (?v_20 (not ?v_17))) (let ((?v_15 (and ?v_20 ?v_18)) (?v_16 (not ?v_14))) (let ((?v_12 (and ?v_16 ?v_15)) (?v_13 (not ?v_11))) (let ((?v_9 (and ?v_13 ?v_12)) (?v_10 (not ?v_8))) (let ((?v_6 (and ?v_10 ?v_9)) (?v_7 (not ?v_5))) (let ((?v_1 (and ?v_7 ?v_6)) (?v_4 (not ?v_0))) (let ((?v_21 (and ?v_4 ?v_1))) (= (___z26z___ 0) (and (<= 0 (___z10z___ 0)) (or (and ?v_2 ?v_21) (or (and (and ?v_0 ?v_1) ?v_3) (or (and ?v_3 (and ?v_4 (and ?v_5 ?v_6))) (or (and ?v_3 (and ?v_4 (and ?v_7 (and ?v_8 ?v_9)))) (or (and ?v_3 (and ?v_4 (and ?v_7 (and ?v_10 (and ?v_11 ?v_12))))) (or (and ?v_3 (and ?v_4 (and ?v_7 (and ?v_10 (and ?v_13 (and ?v_14 ?v_15)))))) (or (and ?v_3 (and ?v_4 (and ?v_7 (and ?v_10 (and ?v_13 (and ?v_16 (and ?v_17 ?v_18))))))) (or (and ?v_3 (and ?v_4 (and ?v_7 (and ?v_10 (and ?v_13 (and ?v_16 (and ?v_19 ?v_20))))))) (and ?v_21 ?v_3))))))))))))))))))))
-(assert (= (___z17z___ 0) (and (= (___z14z___ (- 1)) 0) (and (= (___z15z___ (- 1)) 0) (and (= (___z13z___ (- 1)) 0) (<= 1 (___z12z___ (- 1))))))))
-(assert (= (___z18z___ 0) (and (<= 1 (___z12z___ (- 1))) (<= 1 (___z13z___ (- 1))))))
-(assert (= (___z19z___ 0) (and (<= 1 (___z12z___ (- 1))) (<= 1 (+ (___z14z___ (- 1)) (___z15z___ (- 1)))))))
-(assert (= (<= 1 (___z14z___ (- 2))) (___z20z___ (- 1))))
-(assert (= (or (not (___z16z___ (- 1))) (or (= (+ (___z14z___ (- 1)) (+ (___z15z___ (- 1)) (+ (___z13z___ (- 1)) (+ (___z12z___ (- 1)) (+ (* (- 1) (___z14z___ (- 2))) (+ (* (- 1) (___z15z___ (- 2))) (+ (* (- 1) (___z13z___ (- 2))) (* (- 1) (___z12z___ (- 2)))))))))) 0) (= _base (- 1)))) (___z11z___ (- 1))))
-(assert (= (= (___z15z___ (- 2)) 1) (___z21z___ (- 1))))
-(assert (let ((?v_0 (___z12z___ (- 2)))) (let ((?v_1 (+ (- 1) ?v_0))) (= (___z12z___ (- 1)) (ite (= _base (- 1)) (___z25z___ (- 1)) (ite (___z2z___ (- 1)) (ite (___z17z___ (- 1)) ?v_1 ?v_0) (ite (___z3z___ (- 1)) (ite (___z18z___ (- 1)) ?v_1 ?v_0) (ite (___z4z___ (- 1)) (ite (___z19z___ (- 1)) ?v_1 ?v_0) (ite (___z7z___ (- 1)) (ite (___z22z___ (- 1)) ?v_1 ?v_0) (ite (___z8z___ (- 1)) (ite (___z23z___ (- 1)) ?v_1 ?v_0) (ite (___z9z___ (- 1)) (ite (___z24z___ (- 1)) ?v_1 ?v_0) ?v_0)))))))))))
-(assert (= (___z22z___ (- 1)) (and (= (___z14z___ (- 2)) 0) (and (= (___z15z___ (- 2)) 0) (and (= (___z13z___ (- 2)) 0) (<= 1 (___z12z___ (- 2))))))))
-(assert (let ((?v_0 (___z13z___ (- 2)))) (let ((?v_1 (+ (- 1) ?v_0))) (= (___z13z___ (- 1)) (ite (= _base (- 1)) 0 (ite (___z3z___ (- 1)) (ite (___z18z___ (- 1)) ?v_1 ?v_0) (ite (___z5z___ (- 1)) (ite (___z20z___ (- 1)) (+ 1 ?v_0) ?v_0) (ite (___z7z___ (- 1)) (ite (___z22z___ (- 1)) 1 ?v_0) (ite (___z8z___ (- 1)) (ite (___z23z___ (- 1)) ?v_1 ?v_0) ?v_0)))))))))
-(assert (= (___z23z___ (- 1)) (and (<= 1 (___z12z___ (- 2))) (<= 1 (___z13z___ (- 2))))))
-(assert (let ((?v_0 (___z14z___ (- 2)))) (let ((?v_1 (+ 1 ?v_0))) (= (___z14z___ (- 1)) (ite (= _base (- 1)) 0 (ite (___z2z___ (- 1)) (ite (___z17z___ (- 1)) ?v_1 ?v_0) (ite (___z4z___ (- 1)) (ite (___z19z___ (- 1)) 0 ?v_0) (ite (___z5z___ (- 1)) (ite (___z20z___ (- 1)) (+ (- 1) ?v_0) ?v_0) (ite (___z6z___ (- 1)) (ite (___z21z___ (- 1)) ?v_1 ?v_0) (ite (___z9z___ (- 1)) (ite (___z24z___ (- 1)) 0 ?v_0) ?v_0))))))))))
-(assert (= (___z24z___ (- 1)) (and (<= 1 (___z12z___ (- 2))) (<= 1 (+ (___z14z___ (- 2)) (___z15z___ (- 2)))))))
-(assert (let ((?v_2 (___z14z___ (- 2))) (?v_0 (___z15z___ (- 2)))) (let ((?v_1 (+ 2 ?v_0))) (= (___z15z___ (- 1)) (ite (= _base (- 1)) 0 (ite (___z3z___ (- 1)) (ite (___z18z___ (- 1)) ?v_1 ?v_0) (ite (___z4z___ (- 1)) (ite (___z19z___ (- 1)) (+ 1 (+ ?v_2 (+ (- 1) ?v_0))) ?v_0) (ite (___z6z___ (- 1)) (ite (___z21z___ (- 1)) 0 ?v_0) (ite (___z8z___ (- 1)) (ite (___z23z___ (- 1)) ?v_1 ?v_0) (ite (___z9z___ (- 1)) (ite (___z24z___ (- 1)) (+ 1 (+ ?v_2 ?v_0)) ?v_0) ?v_0))))))))))
-
-;(assert (= _base (- 1)))
-(assert (= (___z25z___ (- 1)) (ite (= _base (- 1)) (___z10z___ (- 1)) (___z25z___ (- 2)))))
-;(assert (= (___z25z___ (- 1)) (___z10z___ (- 1))))
-;(assert (= (___z25z___ (- 1)) (___z25z___ (- 2))))
-
-(assert (let ((?v_0 (= _base (- 1))) (?v_1 (___z26z___ (- 1)))) (= (___z16z___ (- 1)) (and (or (not ?v_0) ?v_1) (or ?v_0 (or ?v_1 (___z16z___ (- 2))))))))
-(assert (let ((?v_19 (___z2z___ (- 1))) (?v_17 (___z3z___ (- 1))) (?v_14 (___z4z___ (- 1))) (?v_5 (___z7z___ (- 1))) (?v_0 (___z8z___ (- 1))) (?v_2 (___z9z___ (- 1))) (?v_11 (___z5z___ (- 1))) (?v_8 (___z6z___ (- 1)))) (let ((?v_4 (not ?v_0)) (?v_7 (not ?v_5)) (?v_10 (not ?v_8)) (?v_13 (not ?v_11)) (?v_16 (not ?v_14)) (?v_20 (not ?v_17)) (?v_18 (not ?v_19))) (let ((?v_15 (and ?v_20 ?v_18))) (let ((?v_12 (and ?v_16 ?v_15))) (let ((?v_9 (and ?v_13 ?v_12))) (let ((?v_6 (and ?v_10 ?v_9))) (let ((?v_1 (and ?v_7 ?v_6))) (let ((?v_21 (and ?v_4 ?v_1)) (?v_3 (not ?v_2))) (= (___z26z___ (- 1)) (and (<= 0 (___z10z___ (- 1))) (or (and ?v_2 ?v_21) (or (and (and ?v_0 ?v_1) ?v_3) (or (and ?v_3 (and ?v_4 (and ?v_5 ?v_6))) (or (and ?v_3 (and ?v_4 (and ?v_7 (and ?v_8 ?v_9)))) (or (and ?v_3 (and ?v_4 (and ?v_7 (and ?v_10 (and ?v_11 ?v_12))))) (or (and ?v_3 (and ?v_4 (and ?v_7 (and ?v_10 (and ?v_13 (and ?v_14 ?v_15)))))) (or (and ?v_3 (and ?v_4 (and ?v_7 (and ?v_10 (and ?v_13 (and ?v_16 (and ?v_17 ?v_18))))))) (or (and ?v_3 (and ?v_4 (and ?v_7 (and ?v_10 (and ?v_13 (and ?v_16 (and ?v_19 ?v_20))))))) (and ?v_21 ?v_3))))))))))))))))))))
-(assert (= (___z17z___ (- 1)) (and (= (___z14z___ (- 2)) 0) (and (= (___z15z___ (- 2)) 0) (and (= (___z13z___ (- 2)) 0) (<= 1 (___z12z___ (- 2))))))))
-(assert (= (___z18z___ (- 1)) (and (<= 1 (___z12z___ (- 2))) (<= 1 (___z13z___ (- 2))))))
-(assert (= (___z19z___ (- 1)) (and (<= 1 (___z12z___ (- 2))) (<= 1 (+ (___z14z___ (- 2)) (___z15z___ (- 2)))))))
-(assert (not (or (not (= _base (- 1))) (and (___z11z___ 0) (___z11z___ (- 1))))))
-(assert true)
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/uflia/Makefile.am b/test/regress/regress0/uflia/Makefile.am
index db67df18e..e40a28608 100644
--- a/test/regress/regress0/uflia/Makefile.am
+++ b/test/regress/regress0/uflia/Makefile.am
@@ -27,7 +27,6 @@ SMT_TESTS = \
 	xs-09-16-3-4-1-5.delta04.smt \
 	error1.smt \
 	error0.delta01.smt \
-	simple_cyclic2.smt2 \
 	error30.smt
 
 # Regression tests for SMT2 inputs
@@ -36,17 +35,8 @@ SMT2_TESTS = \
 	check02.smt2 \
 	check03.smt2 \
 	check04.smt2 \
-	DRAGON_11_e1_2450.ec.minimized.smt2 \
-	FIREFLY_3_e2_2236_e7_3681.ec.core.smt2 \
-	FIREFLY_luke_1b_e2_3049_e7_1173.ec.minimized.smt2 \
 	stalmark_e7_27_e7_31.ec.minimized.smt2 \
-	stalmark_e7_27_e7_31.ec.smt2 \
-	tiny.smt2 \
-	speed2_e8_449_e8_517.ec.smt2 \
-	microwave21.ec.minimized.smt2
-#	simplify.javafe.ast.ArrayInit.35_without_quantification2.smt2
-#	javafe.ast.StandardPrettyPrint.319_no_forall.smt2
-#	javafe.ast.WhileStmt.447_no_forall.smt2
+	tiny.smt2
 
 # Regression tests for PL inputs
 CVC_TESTS = 
@@ -62,11 +52,7 @@ EXTRA_DIST = $(TESTS) \
 	check02.smt2.expect \
 	check03.smt2.expect \
 	check04.smt2.expect \
-	DRAGON_11_e1_2450.ec.minimized.smt2.expect \
-	FIREFLY_3_e2_2236_e7_3681.ec.core.smt2.expect \
-	speed2_e8_449_e8_517.ec.smt2.expect \
 	stalmark_e7_27_e7_31.ec.minimized.smt2.expect \
-	stalmark_e7_27_e7_31.ec.smt2.expect \
 	tiny.smt2.expect
 
 # synonyms for "check" in this directory
diff --git a/test/regress/regress0/uflia/javafe.ast.StandardPrettyPrint.319_no_forall.smt2 b/test/regress/regress0/uflia/javafe.ast.StandardPrettyPrint.319_no_forall.smt2
deleted file mode 100644
index 4d47186df..000000000
--- a/test/regress/regress0/uflia/javafe.ast.StandardPrettyPrint.319_no_forall.smt2
+++ /dev/null
@@ -1,941 +0,0 @@
-(set-logic QF_UFLIA)
-(set-info :source | Simplify Theorem Prover Benchmark Suite |)
-(set-info :smt-lib-version 2.0)
-(set-info :category "industrial")
-(set-info :status unsat)
-(declare-fun true_term () Int)
-(declare-fun false_term () Int)
-(assert (= true_term 1))
-(assert (= false_term 0))
-(declare-fun S_select (Int Int) Int)
-(declare-fun S_store (Int Int Int) Int)
-(declare-fun PO_LT (Int Int) Int)
-(declare-fun T_java_lang_Object () Int)
-(assert (= (PO_LT T_java_lang_Object T_java_lang_Object) true_term))
-(declare-fun T_boolean () Int)
-(declare-fun T_char () Int)
-(declare-fun T_byte () Int)
-(declare-fun T_short () Int)
-(declare-fun T_int () Int)
-(declare-fun T_long () Int)
-(declare-fun T_float () Int)
-(declare-fun T_double () Int)
-(declare-fun asChild (Int Int) Int)
-(declare-fun classDown (Int Int) Int)
-(declare-fun T_java_lang_Cloneable () Int)
-(assert (= (PO_LT T_java_lang_Cloneable T_java_lang_Object) true_term))
-(declare-fun array (Int) Int)
-(declare-fun elemtype (Int) Int)
-(declare-fun is (Int Int) Int)
-(declare-fun cast (Int Int) Int)
-(assert true)
-(declare-fun intFirst () Int)
-(declare-fun intLast () Int)
-(declare-fun longFirst () Int)
-(declare-fun longLast () Int)
-(assert (< longFirst intFirst))
-(assert (< intFirst (- 1000000)))
-(assert (< 1000000 intLast))
-(assert (< intLast longLast))
-(declare-fun null () Int)
-(declare-fun typeof (Int) Int)
-(declare-fun asField (Int Int) Int)
-(declare-fun asElems (Int) Int)
-(declare-fun vAllocTime (Int) Int)
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-(declare-fun T_javafe_ast_ModifierPragmaVec () Int)
-(declare-fun T_javafe_ast_VarDeclStmt () Int)
-(declare-fun T_javafe_ast_ArrayRefExpr () Int)
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-(declare-fun T_java_lang_StringBuffer () Int)
-(declare-fun T_javafe_ast_CatchClauseVec () Int)
-(declare-fun T_javafe_tc_TypeSig () Int)
-(declare-fun T_javafe_ast_TypeModifierPragmaVec () Int)
-(declare-fun T_javafe_ast_CondExpr () Int)
-(declare-fun T_javafe_ast_ArrayType () Int)
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-(declare-fun T_javafe_ast_ArrayInit () Int)
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-(declare-fun T_javafe_ast_ExprVec () Int)
-(declare-fun T_javafe_ast_WhileStmt () Int)
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-(declare-fun T_javafe_ast_SimpleName () Int)
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-(declare-fun T_javafe_ast_ConstructorDecl () Int)
-(declare-fun T_javafe_ast_LabelStmt () Int)
-(declare-fun T_javafe_util_Location () Int)
-(declare-fun T_javafe_ast_TypeName () Int)
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-(declare-fun TYPEDECLELEMPRAGMA_119_27_26 () Int)
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-(declare-fun CHARLIT_31_41_26 () Int)
-(declare-fun STMTPRAGMA_119_26_26 () Int)
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-(declare-fun NEWINSTANCEEXPR_33_49_7 () Int)
-(declare-fun ASGREM_32_43_26 () Int)
-(declare-fun LONGLIT_31_40_26 () Int)
-(declare-fun MODIFIERPRAGMA_119_25_26 () Int)
-(declare-fun INITBLOCK_33_21_7 () Int)
-(declare-fun ARRAYREFEXPR_33_48_7 () Int)
-(declare-fun ASGDIV_32_42_26 () Int)
-(declare-fun INTLIT_31_39_26 () Int)
-(declare-fun LEXICALPRAGMA_119_24_26 () Int)
-(declare-fun METHODDECL_33_20_7 () Int)
-(declare-fun otherCodes_119_202_27 () Int)
-(declare-fun THISEXPR_33_47_7 () Int)
-(declare-fun ASGMUL_32_41_26 () Int)
-(declare-fun BOOLEANLIT_31_38_26 () Int)
-(declare-fun CONSTRUCTORDECL_33_19_7 () Int)
-(declare-fun FIRST_KEYWORD_119_51_26 () Int)
-(declare-fun ARRAYINIT_33_46_7 () Int)
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-(declare-fun SHORTTYPE_31_36_26 () Int)
-(declare-fun INTERFACEDECL_33_18_7 () Int)
-(declare-fun CATCHCLAUSE_33_45_7 () Int)
-(declare-fun STAR_32_37_26 () Int)
-(declare-fun BYTETYPE_31_35_26 () Int)
-(declare-fun CLASSDECL_33_17_7 () Int)
-(declare-fun CONSTRUCTORINVOCATION_33_44_7 () Int)
-(declare-fun MOD_32_36_26 () Int)
-(declare-fun TYPESIG_118_6_28 () Int)
-(declare-fun NULLTYPE_31_34_26 () Int)
-(declare-fun ONDEMANDIMPORTDECL_33_16_7 () Int)
-(declare-fun TRYCATCHSTMT_33_43_7 () Int)
-(declare-fun DIV_32_35_26 () Int)
-(declare-fun VOIDTYPE_31_33_26 () Int)
-(declare-fun SINGLETYPEIMPORTDECL_33_15_7 () Int)
-(declare-fun TRYFINALLYSTMT_33_42_7 () Int)
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-(declare-fun DOUBLETYPE_31_32_26 () Int)
-(declare-fun MIN_VALUE_105_39_30 () Int)
-(declare-fun neg2147483648 () Int)
-(declare-fun COMPILATIONUNIT_33_14_7 () Int)
-(declare-fun SWITCHLABEL_33_41_7 () Int)
-(declare-fun ADD_32_33_26 () Int)
-(declare-fun FLOATTYPE_31_31_26 () Int)
-(declare-fun otherStrings_119_193_30 () Int)
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-(declare-fun COMPOUNDNAME_33_67_7 () Int)
-(declare-fun CHARTYPE_31_30_26 () Int)
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-(declare-fun LSHIFT_32_30_26 () Int)
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-(assert (let ((?v_0 (array T_int)) (?v_1 (array T_java_lang_String))) (and (= (PO_LT T_javafe_ast_Stmt T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_Stmt (asChild T_javafe_ast_Stmt T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_InstanceOfExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_InstanceOfExpr (asChild T_javafe_ast_InstanceOfExpr T_javafe_ast_Expr)) (= (PO_LT T_java_util_Hashtable T_java_util_Dictionary) true_term) (= T_java_util_Hashtable (asChild T_java_util_Hashtable T_java_util_Dictionary)) (= (PO_LT T_java_util_Hashtable T_java_util_Map) true_term) (= (PO_LT T_java_util_Hashtable T_java_lang_Cloneable) true_term) (= (PO_LT T_java_util_Hashtable T_java_io_Serializable) true_term) (= (PO_LT T_javafe_ast_NewArrayExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_NewArrayExpr (asChild T_javafe_ast_NewArrayExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_StmtPragma T_javafe_ast_Stmt) true_term) (= T_javafe_ast_StmtPragma (asChild T_javafe_ast_StmtPragma T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_MethodInvocation T_javafe_ast_Expr) true_term) (= T_javafe_ast_MethodInvocation (asChild T_javafe_ast_MethodInvocation T_javafe_ast_Expr)) (= (PO_LT T_java_lang_Float T_java_lang_Number) true_term) (= T_java_lang_Float (asChild T_java_lang_Float T_java_lang_Number)) true (= (PO_LT T_java_lang_Float T_java_lang_Comparable) true_term) (= (PO_LT T_javafe_ast_Name T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_Name (asChild T_javafe_ast_Name T_javafe_ast_ASTNode)) (= (PO_LT T_java_io_Serializable T_java_lang_Object) true_term) (= (PO_LT T_javafe_ast_InitBlock T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_InitBlock (asChild T_javafe_ast_InitBlock T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_InitBlock T_javafe_ast_TypeDeclElem) true_term) (= (PO_LT T_javafe_tc_Env T_java_lang_Object) true_term) (= T_javafe_tc_Env (asChild T_javafe_tc_Env T_java_lang_Object)) (= (PO_LT T_javafe_ast_Modifiers T_java_lang_Object) true_term) (= T_javafe_ast_Modifiers (asChild T_javafe_ast_Modifiers T_java_lang_Object)) (= (PO_LT T_javafe_tc_TagConstants T_javafe_parser_TagConstants) true_term) (= T_javafe_tc_TagConstants (asChild T_javafe_tc_TagConstants T_javafe_parser_TagConstants)) (= (PO_LT T_javafe_ast_ObjectDesignator T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_ObjectDesignator (asChild T_javafe_ast_ObjectDesignator T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_ASTNode T_java_lang_Object) true_term) (= T_javafe_ast_ASTNode (asChild T_javafe_ast_ASTNode T_java_lang_Object)) (= (PO_LT T_javafe_ast_ASTNode T_java_lang_Cloneable) true_term) (= (PO_LT T_javafe_ast_LocalVarDecl T_javafe_ast_GenericVarDecl) true_term) (= T_javafe_ast_LocalVarDecl (asChild T_javafe_ast_LocalVarDecl T_javafe_ast_GenericVarDecl)) (= (PO_LT T_java_lang__the_root_interface_ T_java_lang_Object) true_term) (= (PO_LT T_javafe_tc_FieldDeclVec T_java_lang_Object) true_term) (= T_javafe_tc_FieldDeclVec (asChild T_javafe_tc_FieldDeclVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_CatchClause T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_CatchClause (asChild T_javafe_ast_CatchClause T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_GeneratedTags T_java_lang_Object) true_term) (= (PO_LT T_javafe_ast_SwitchStmt T_javafe_ast_GenericBlockStmt) true_term) (= T_javafe_ast_SwitchStmt (asChild T_javafe_ast_SwitchStmt T_javafe_ast_GenericBlockStmt)) (= (PO_LT T_javafe_ast_LexicalPragmaVec T_java_lang_Object) true_term) (= T_javafe_ast_LexicalPragmaVec (asChild T_javafe_ast_LexicalPragmaVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_IdentifierVec T_java_lang_Object) true_term) (= T_javafe_ast_IdentifierVec (asChild T_javafe_ast_IdentifierVec T_java_lang_Object)) (= (PO_LT T_java_lang_Comparable T_java_lang_Object) true_term) (= (PO_LT T_javafe_util_Assert T_java_lang_Object) true_term) (= T_javafe_util_Assert (asChild T_javafe_util_Assert T_java_lang_Object)) (= (PO_LT T_javafe_ast_FormalParaDeclVec T_java_lang_Object) true_term) (= T_javafe_ast_FormalParaDeclVec (asChild T_javafe_ast_FormalParaDeclVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_IfStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_IfStmt (asChild T_javafe_ast_IfStmt T_javafe_ast_Stmt)) (= (PO_LT T_java_lang_Boolean T_java_lang_Object) true_term) (= T_java_lang_Boolean (asChild T_java_lang_Boolean T_java_lang_Object)) true (= (PO_LT T_java_lang_Boolean T_java_io_Serializable) true_term) (= (PO_LT T_java_lang_Long T_java_lang_Number) true_term) (= T_java_lang_Long (asChild T_java_lang_Long T_java_lang_Number)) true (= (PO_LT T_java_lang_Long T_java_lang_Comparable) true_term) (= (PO_LT T_javafe_ast_NewInstanceExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_NewInstanceExpr (asChild T_javafe_ast_NewInstanceExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_LiteralExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_LiteralExpr (asChild T_javafe_ast_LiteralExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_Identifier T_java_lang_Object) true_term) (= T_javafe_ast_Identifier (asChild T_javafe_ast_Identifier T_java_lang_Object)) true (= (PO_LT T_java_util_Map T_java_lang_Object) true_term) (= (PO_LT T_java_util_Map T_java_util_EscjavaKeyValue) true_term) (= (PO_LT T_javafe_ast_SynchronizeStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_SynchronizeStmt (asChild T_javafe_ast_SynchronizeStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_CastExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_CastExpr (asChild T_javafe_ast_CastExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_tc_MethodDeclVec T_java_lang_Object) true_term) (= T_javafe_tc_MethodDeclVec (asChild T_javafe_tc_MethodDeclVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_SwitchLabel T_javafe_ast_Stmt) true_term) (= T_javafe_ast_SwitchLabel (asChild T_javafe_ast_SwitchLabel T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_OnDemandImportDecl T_javafe_ast_ImportDecl) true_term) (= T_javafe_ast_OnDemandImportDecl (asChild T_javafe_ast_OnDemandImportDecl T_javafe_ast_ImportDecl)) (= (PO_LT T_javafe_ast_LexicalPragma T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_LexicalPragma (asChild T_javafe_ast_LexicalPragma T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_StandardPrettyPrint T_javafe_ast_PrettyPrint) true_term) (= T_javafe_ast_StandardPrettyPrint (asChild T_javafe_ast_StandardPrettyPrint T_javafe_ast_PrettyPrint)) (= (PO_LT T_javafe_ast_BinaryExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_BinaryExpr (asChild T_javafe_ast_BinaryExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_TypeDeclElemVec T_java_lang_Object) true_term) (= T_javafe_ast_TypeDeclElemVec (asChild T_javafe_ast_TypeDeclElemVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_ConstructorInvocation T_javafe_ast_Stmt) true_term) (= T_javafe_ast_ConstructorInvocation (asChild T_javafe_ast_ConstructorInvocation T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_ThisExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_ThisExpr (asChild T_javafe_ast_ThisExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_TryFinallyStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_TryFinallyStmt (asChild T_javafe_ast_TryFinallyStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_TypeDecl T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_TypeDecl (asChild T_javafe_ast_TypeDecl T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_TypeDecl T_javafe_ast_TypeDeclElem) true_term) (= (PO_LT T_javafe_ast_TypeModifierPragma T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_TypeModifierPragma (asChild T_javafe_ast_TypeModifierPragma T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_Type T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_Type (asChild T_javafe_ast_Type T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_ModifierPragma T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_ModifierPragma (asChild T_javafe_ast_ModifierPragma T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_SuperObjectDesignator T_javafe_ast_ObjectDesignator) true_term) (= T_javafe_ast_SuperObjectDesignator (asChild T_javafe_ast_SuperObjectDesignator T_javafe_ast_ObjectDesignator)) (= (PO_LT T_java_lang_Integer T_java_lang_Number) true_term) (= T_java_lang_Integer (asChild T_java_lang_Integer T_java_lang_Number)) true (= (PO_LT T_java_lang_Integer T_java_lang_Comparable) true_term) (= (PO_LT T_java_lang_Number T_java_lang_Object) true_term) (= T_java_lang_Number (asChild T_java_lang_Number T_java_lang_Object)) (= (PO_LT T_java_lang_Number T_java_io_Serializable) true_term) (= (PO_LT T_javafe_ast_SingleTypeImportDecl T_javafe_ast_ImportDecl) true_term) (= T_javafe_ast_SingleTypeImportDecl (asChild T_javafe_ast_SingleTypeImportDecl T_javafe_ast_ImportDecl)) (= (PO_LT T_javafe_ast_ImportDecl T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_ImportDecl (asChild T_javafe_ast_ImportDecl T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_ForStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_ForStmt (asChild T_javafe_ast_ForStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_DoStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_DoStmt (asChild T_javafe_ast_DoStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_ASTDecoration T_java_lang_Object) true_term) (= T_javafe_ast_ASTDecoration (asChild T_javafe_ast_ASTDecoration T_java_lang_Object)) (= (PO_LT T_javafe_ast_ExprObjectDesignator T_javafe_ast_ObjectDesignator) true_term) (= T_javafe_ast_ExprObjectDesignator (asChild T_javafe_ast_ExprObjectDesignator T_javafe_ast_ObjectDesignator)) (= (PO_LT T_javafe_ast_VarInitVec T_java_lang_Object) true_term) (= T_javafe_ast_VarInitVec (asChild T_javafe_ast_VarInitVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_VariableAccess T_javafe_ast_Expr) true_term) (= T_javafe_ast_VariableAccess (asChild T_javafe_ast_VariableAccess T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_TypeDeclVec T_java_lang_Object) true_term) (= T_javafe_ast_TypeDeclVec (asChild T_javafe_ast_TypeDeclVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_ThrowStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_ThrowStmt (asChild T_javafe_ast_ThrowStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_StmtVec T_java_lang_Object) true_term) (= T_javafe_ast_StmtVec (asChild T_javafe_ast_StmtVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_AmbiguousVariableAccess T_javafe_ast_Expr) true_term) (= T_javafe_ast_AmbiguousVariableAccess (asChild T_javafe_ast_AmbiguousVariableAccess T_javafe_ast_Expr)) (= (PO_LT T_java_io_OutputStream T_java_lang_Object) true_term) (= T_java_io_OutputStream (asChild T_java_io_OutputStream T_java_lang_Object)) (= (PO_LT T_java_util_Dictionary T_java_lang_Object) true_term) (= T_java_util_Dictionary (asChild T_java_util_Dictionary T_java_lang_Object)) (= (PO_LT T_java_util_Dictionary T_java_util_EscjavaKeyValue) true_term) (= (PO_LT T_javafe_ast_GenericVarDecl T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_GenericVarDecl (asChild T_javafe_ast_GenericVarDecl T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_ClassDeclStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_ClassDeclStmt (asChild T_javafe_ast_ClassDeclStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_PrettyPrint T_java_lang_Object) true_term) (= T_javafe_ast_PrettyPrint (asChild T_javafe_ast_PrettyPrint T_java_lang_Object)) (= (PO_LT T_javafe_ast_GenericBlockStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_GenericBlockStmt (asChild T_javafe_ast_GenericBlockStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_PrimitiveType T_javafe_ast_Type) true_term) (= T_javafe_ast_PrimitiveType (asChild T_javafe_ast_PrimitiveType T_javafe_ast_Type)) (= (PO_LT T_java_lang_Character T_java_lang_Object) true_term) (= T_java_lang_Character (asChild T_java_lang_Character T_java_lang_Object)) true (= (PO_LT T_java_lang_Character T_java_io_Serializable) true_term) (= (PO_LT T_java_lang_Character T_java_lang_Comparable) true_term) (= (PO_LT T_javafe_ast_TypeDeclElem T_java_lang_Object) true_term) (= (PO_LT T_javafe_ast_AmbiguousMethodInvocation T_javafe_ast_Expr) true_term) (= T_javafe_ast_AmbiguousMethodInvocation (asChild T_javafe_ast_AmbiguousMethodInvocation T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_TagConstants T_javafe_ast_OperatorTags) true_term) (= T_javafe_ast_TagConstants (asChild T_javafe_ast_TagConstants T_javafe_ast_OperatorTags)) (= (PO_LT T_javafe_ast_EvalStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_EvalStmt (asChild T_javafe_ast_EvalStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_ClassDecl T_javafe_ast_TypeDecl) true_term) (= T_javafe_ast_ClassDecl (asChild T_javafe_ast_ClassDecl T_javafe_ast_TypeDecl)) (= (PO_LT T_javafe_ast_UnaryExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_UnaryExpr (asChild T_javafe_ast_UnaryExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_TryCatchStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_TryCatchStmt (asChild T_javafe_ast_TryCatchStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_FieldAccess T_javafe_ast_Expr) true_term) (= T_javafe_ast_FieldAccess (asChild T_javafe_ast_FieldAccess T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_CompilationUnit T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_CompilationUnit (asChild T_javafe_ast_CompilationUnit T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_FieldDecl T_javafe_ast_GenericVarDecl) true_term) (= T_javafe_ast_FieldDecl (asChild T_javafe_ast_FieldDecl T_javafe_ast_GenericVarDecl)) (= (PO_LT T_javafe_ast_FieldDecl T_javafe_ast_TypeDeclElem) true_term) (= (PO_LT T_java_lang_Double T_java_lang_Number) true_term) (= T_java_lang_Double (asChild T_java_lang_Double T_java_lang_Number)) true (= (PO_LT T_java_lang_Double T_java_lang_Comparable) true_term) (= (PO_LT T_javafe_ast_ClassLiteral T_javafe_ast_Expr) true_term) (= T_javafe_ast_ClassLiteral (asChild T_javafe_ast_ClassLiteral T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_VarInit T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_VarInit (asChild T_javafe_ast_VarInit T_javafe_ast_ASTNode)) (= (PO_LT T_java_lang_Cloneable T_java_lang_Object) true_term) (= (PO_LT T_javafe_ast_ReturnStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_ReturnStmt (asChild T_javafe_ast_ReturnStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_FormalParaDecl T_javafe_ast_GenericVarDecl) true_term) (= T_javafe_ast_FormalParaDecl (asChild T_javafe_ast_FormalParaDecl T_javafe_ast_GenericVarDecl)) (= (PO_LT T_javafe_ast_TypeDeclElemPragma T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_TypeDeclElemPragma (asChild T_javafe_ast_TypeDeclElemPragma T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_TypeDeclElemPragma T_javafe_ast_TypeDeclElem) true_term) (= (PO_LT T_javafe_ast_RoutineDecl T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_RoutineDecl (asChild T_javafe_ast_RoutineDecl T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_RoutineDecl T_javafe_ast_TypeDeclElem) true_term) (= (PO_LT T_javafe_ast_TypeObjectDesignator T_javafe_ast_ObjectDesignator) true_term) (= T_javafe_ast_TypeObjectDesignator (asChild T_javafe_ast_TypeObjectDesignator T_javafe_ast_ObjectDesignator)) (= (PO_LT T_javafe_ast_TypeNameVec T_java_lang_Object) true_term) (= T_javafe_ast_TypeNameVec (asChild T_javafe_ast_TypeNameVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_ModifierPragmaVec T_java_lang_Object) true_term) (= T_javafe_ast_ModifierPragmaVec (asChild T_javafe_ast_ModifierPragmaVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_VarDeclStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_VarDeclStmt (asChild T_javafe_ast_VarDeclStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_ArrayRefExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_ArrayRefExpr (asChild T_javafe_ast_ArrayRefExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_BreakStmt T_javafe_ast_BranchStmt) true_term) (= T_javafe_ast_BreakStmt (asChild T_javafe_ast_BreakStmt T_javafe_ast_BranchStmt)) (= (PO_LT T_javafe_ast_OperatorTags T_java_lang_Object) true_term) (= T_javafe_ast_OperatorTags (asChild T_javafe_ast_OperatorTags T_java_lang_Object)) (= (PO_LT T_javafe_ast_OperatorTags T_javafe_ast_GeneratedTags) true_term) (= (PO_LT T_java_lang_StringBuffer T_java_lang_Object) true_term) (= T_java_lang_StringBuffer (asChild T_java_lang_StringBuffer T_java_lang_Object)) true (= (PO_LT T_java_lang_StringBuffer T_java_io_Serializable) true_term) (= (PO_LT T_javafe_ast_CatchClauseVec T_java_lang_Object) true_term) (= T_javafe_ast_CatchClauseVec (asChild T_javafe_ast_CatchClauseVec T_java_lang_Object)) (= (PO_LT T_javafe_tc_TypeSig T_javafe_ast_Type) true_term) (= T_javafe_tc_TypeSig (asChild T_javafe_tc_TypeSig T_javafe_ast_Type)) (= (PO_LT T_javafe_ast_TypeModifierPragmaVec T_java_lang_Object) true_term) (= T_javafe_ast_TypeModifierPragmaVec (asChild T_javafe_ast_TypeModifierPragmaVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_CondExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_CondExpr (asChild T_javafe_ast_CondExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_ArrayType T_javafe_ast_Type) true_term) (= T_javafe_ast_ArrayType (asChild T_javafe_ast_ArrayType T_javafe_ast_Type)) (= (PO_LT T_javafe_parser_TagConstants T_javafe_ast_TagConstants) true_term) (= T_javafe_parser_TagConstants (asChild T_javafe_parser_TagConstants T_javafe_ast_TagConstants)) (= (PO_LT T_javafe_ast_CompoundName T_javafe_ast_Name) true_term) (= T_javafe_ast_CompoundName (asChild T_javafe_ast_CompoundName T_javafe_ast_Name)) (= (PO_LT T_javafe_ast_ArrayInit T_javafe_ast_VarInit) true_term) (= T_javafe_ast_ArrayInit (asChild T_javafe_ast_ArrayInit T_javafe_ast_VarInit)) (= (PO_LT T_javafe_ast_ImportDeclVec T_java_lang_Object) true_term) (= T_javafe_ast_ImportDeclVec (asChild T_javafe_ast_ImportDeclVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_ExprVec T_java_lang_Object) true_term) (= T_javafe_ast_ExprVec (asChild T_javafe_ast_ExprVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_WhileStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_WhileStmt (asChild T_javafe_ast_WhileStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_BlockStmt T_javafe_ast_GenericBlockStmt) true_term) (= T_javafe_ast_BlockStmt (asChild T_javafe_ast_BlockStmt T_javafe_ast_GenericBlockStmt)) (= (PO_LT T_javafe_ast_ParenExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_ParenExpr (asChild T_javafe_ast_ParenExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_MethodDecl T_javafe_ast_RoutineDecl) true_term) (= T_javafe_ast_MethodDecl (asChild T_javafe_ast_MethodDecl T_javafe_ast_RoutineDecl)) (= (PO_LT T_javafe_ast_InterfaceDecl T_javafe_ast_TypeDecl) true_term) (= T_javafe_ast_InterfaceDecl (asChild T_javafe_ast_InterfaceDecl T_javafe_ast_TypeDecl)) (= (PO_LT T_javafe_ast_ContinueStmt T_javafe_ast_BranchStmt) true_term) (= T_javafe_ast_ContinueStmt (asChild T_javafe_ast_ContinueStmt T_javafe_ast_BranchStmt)) (= (PO_LT T_javafe_ast_SimpleName T_javafe_ast_Name) true_term) (= T_javafe_ast_SimpleName (asChild T_javafe_ast_SimpleName T_javafe_ast_Name)) (= (PO_LT T_javafe_ast_Expr T_javafe_ast_VarInit) true_term) (= T_javafe_ast_Expr (asChild T_javafe_ast_Expr T_javafe_ast_VarInit)) (= (PO_LT T_java_lang_String T_java_lang_Object) true_term) (= T_java_lang_String (asChild T_java_lang_String T_java_lang_Object)) true (= (PO_LT T_java_lang_String T_java_io_Serializable) true_term) (= (PO_LT T_java_lang_String T_java_lang_Comparable) true_term) (= (PO_LT T_javafe_ast_SkipStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_SkipStmt (asChild T_javafe_ast_SkipStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_ConstructorDecl T_javafe_ast_RoutineDecl) true_term) (= T_javafe_ast_ConstructorDecl (asChild T_javafe_ast_ConstructorDecl T_javafe_ast_RoutineDecl)) (= (PO_LT T_java_util_EscjavaKeyValue T_java_lang_Object) true_term) (= (PO_LT T_javafe_ast_LabelStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_LabelStmt (asChild T_javafe_ast_LabelStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_BranchStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_BranchStmt (asChild T_javafe_ast_BranchStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_util_Location T_java_lang_Object) true_term) (= T_javafe_util_Location (asChild T_javafe_util_Location T_java_lang_Object)) (= (PO_LT T_javafe_ast_TypeName T_javafe_ast_Type) true_term) (= T_javafe_ast_TypeName (asChild T_javafe_ast_TypeName T_javafe_ast_Type)) (and (= arrayType (+ DIST_ZERO_1 0)) (= T_boolean (+ DIST_ZERO_1 1)) (= T_char (+ DIST_ZERO_1 2)) (= T_byte (+ DIST_ZERO_1 3)) (= T_short (+ DIST_ZERO_1 4)) (= T_int (+ DIST_ZERO_1 5)) (= T_long (+ DIST_ZERO_1 6)) (= T_float (+ DIST_ZERO_1 7)) (= T_double (+ DIST_ZERO_1 8)) (= T__TYPE (+ DIST_ZERO_1 9)) (= T_javafe_ast_Stmt (+ DIST_ZERO_1 10)) (= T_javafe_ast_InstanceOfExpr (+ DIST_ZERO_1 11)) (= T_java_util_Hashtable (+ DIST_ZERO_1 12)) (= T_javafe_ast_NewArrayExpr (+ DIST_ZERO_1 13)) (= T_javafe_ast_StmtPragma (+ DIST_ZERO_1 14)) (= T_javafe_ast_MethodInvocation (+ DIST_ZERO_1 15)) (= T_java_lang_Float (+ DIST_ZERO_1 16)) (= T_javafe_ast_Name (+ DIST_ZERO_1 17)) (= T_java_io_Serializable (+ DIST_ZERO_1 18)) (= T_javafe_ast_InitBlock (+ DIST_ZERO_1 19)) (= T_javafe_tc_Env (+ DIST_ZERO_1 20)) (= T_javafe_ast_Modifiers (+ DIST_ZERO_1 21)) (= T_javafe_tc_TagConstants (+ DIST_ZERO_1 22)) (= T_javafe_ast_ObjectDesignator (+ DIST_ZERO_1 23)) (= T_javafe_ast_ASTNode (+ DIST_ZERO_1 24)) (= T_javafe_ast_LocalVarDecl (+ DIST_ZERO_1 25)) (= T_java_lang__the_root_interface_ (+ DIST_ZERO_1 26)) (= T_javafe_tc_FieldDeclVec (+ DIST_ZERO_1 27)) (= T_javafe_ast_CatchClause (+ DIST_ZERO_1 28)) (= T_javafe_ast_GeneratedTags (+ DIST_ZERO_1 29)) (= T_javafe_ast_SwitchStmt (+ DIST_ZERO_1 30)) (= T_javafe_ast_LexicalPragmaVec (+ DIST_ZERO_1 31)) (= T_javafe_ast_IdentifierVec (+ DIST_ZERO_1 32)) (= T_java_lang_Comparable (+ DIST_ZERO_1 33)) (= T_javafe_util_Assert (+ DIST_ZERO_1 34)) (= T_javafe_ast_FormalParaDeclVec (+ DIST_ZERO_1 35)) (= T_javafe_ast_IfStmt (+ DIST_ZERO_1 36)) (= T_java_lang_Boolean (+ DIST_ZERO_1 37)) (= T_java_lang_Long (+ DIST_ZERO_1 38)) (= T_javafe_ast_NewInstanceExpr (+ DIST_ZERO_1 39)) (= T_javafe_ast_LiteralExpr (+ DIST_ZERO_1 40)) (= T_java_lang_Object (+ DIST_ZERO_1 41)) (= T_javafe_ast_Identifier (+ DIST_ZERO_1 42)) (= T_java_util_Map (+ DIST_ZERO_1 43)) (= T_javafe_ast_SynchronizeStmt (+ DIST_ZERO_1 44)) (= T_javafe_ast_CastExpr (+ DIST_ZERO_1 45)) (= T_javafe_tc_MethodDeclVec (+ DIST_ZERO_1 46)) (= T_javafe_ast_SwitchLabel (+ DIST_ZERO_1 47)) (= T_javafe_ast_OnDemandImportDecl (+ DIST_ZERO_1 48)) (= T_javafe_ast_LexicalPragma (+ DIST_ZERO_1 49)) (= T_javafe_ast_StandardPrettyPrint (+ DIST_ZERO_1 50)) (= T_javafe_ast_BinaryExpr (+ DIST_ZERO_1 51)) (= T_javafe_ast_TypeDeclElemVec (+ DIST_ZERO_1 52)) (= T_javafe_ast_ConstructorInvocation (+ DIST_ZERO_1 53)) (= T_javafe_ast_ThisExpr (+ DIST_ZERO_1 54)) (= T_javafe_ast_TryFinallyStmt (+ DIST_ZERO_1 55)) (= T_javafe_ast_TypeDecl (+ DIST_ZERO_1 56)) (= T_javafe_ast_TypeModifierPragma (+ DIST_ZERO_1 57)) (= T_javafe_ast_Type (+ DIST_ZERO_1 58)) (= T_javafe_ast_ModifierPragma (+ DIST_ZERO_1 59)) (= T_javafe_ast_SuperObjectDesignator (+ DIST_ZERO_1 60)) (= T_java_lang_Integer (+ DIST_ZERO_1 61)) (= T_java_lang_Number (+ DIST_ZERO_1 62)) (= T_javafe_ast_SingleTypeImportDecl (+ DIST_ZERO_1 63)) (= T_javafe_ast_ImportDecl (+ DIST_ZERO_1 64)) (= T_javafe_ast_ForStmt (+ DIST_ZERO_1 65)) (= T_javafe_ast_DoStmt (+ DIST_ZERO_1 66)) (= T_javafe_ast_ASTDecoration (+ DIST_ZERO_1 67)) (= T_javafe_ast_ExprObjectDesignator (+ DIST_ZERO_1 68)) (= T_javafe_ast_VarInitVec (+ DIST_ZERO_1 69)) (= T_javafe_ast_VariableAccess (+ DIST_ZERO_1 70)) (= T_javafe_ast_TypeDeclVec (+ DIST_ZERO_1 71)) (= T_javafe_ast_ThrowStmt (+ DIST_ZERO_1 72)) (= T_javafe_ast_StmtVec (+ DIST_ZERO_1 73)) (= T_javafe_ast_AmbiguousVariableAccess (+ DIST_ZERO_1 74)) (= T_java_io_OutputStream (+ DIST_ZERO_1 75)) (= T_java_util_Dictionary (+ DIST_ZERO_1 76)) (= T_javafe_ast_GenericVarDecl (+ DIST_ZERO_1 77)) (= T_javafe_ast_ClassDeclStmt (+ DIST_ZERO_1 78)) (= T_javafe_ast_PrettyPrint (+ DIST_ZERO_1 79)) (= T_javafe_ast_GenericBlockStmt (+ DIST_ZERO_1 80)) (= T_javafe_ast_PrimitiveType (+ DIST_ZERO_1 81)) (= T_java_lang_Character (+ DIST_ZERO_1 82)) (= T_javafe_ast_TypeDeclElem (+ DIST_ZERO_1 83)) (= T_javafe_ast_AmbiguousMethodInvocation (+ DIST_ZERO_1 84)) (= T_javafe_ast_TagConstants (+ DIST_ZERO_1 85)) (= T_javafe_ast_EvalStmt (+ DIST_ZERO_1 86)) (= T_javafe_ast_ClassDecl (+ DIST_ZERO_1 87)) (= T_javafe_ast_UnaryExpr (+ DIST_ZERO_1 88)) (= T_javafe_ast_TryCatchStmt (+ DIST_ZERO_1 89)) (= T_javafe_ast_FieldAccess (+ DIST_ZERO_1 90)) (= T_javafe_ast_CompilationUnit (+ DIST_ZERO_1 91)) (= T_javafe_ast_FieldDecl (+ DIST_ZERO_1 92)) (= T_java_lang_Double (+ DIST_ZERO_1 93)) (= T_javafe_ast_ClassLiteral (+ DIST_ZERO_1 94)) (= T_javafe_ast_VarInit (+ DIST_ZERO_1 95)) (= T_java_lang_Cloneable (+ DIST_ZERO_1 96)) (= T_javafe_ast_ReturnStmt (+ DIST_ZERO_1 97)) (= T_javafe_ast_FormalParaDecl (+ DIST_ZERO_1 98)) (= T_javafe_ast_TypeDeclElemPragma (+ DIST_ZERO_1 99)) (= T_javafe_ast_RoutineDecl (+ DIST_ZERO_1 100)) (= T_javafe_ast_TypeObjectDesignator (+ DIST_ZERO_1 101)) (= T_javafe_ast_TypeNameVec (+ DIST_ZERO_1 102)) (= T_javafe_ast_ModifierPragmaVec (+ DIST_ZERO_1 103)) (= T_javafe_ast_VarDeclStmt (+ DIST_ZERO_1 104)) (= T_javafe_ast_ArrayRefExpr (+ DIST_ZERO_1 105)) (= T_javafe_ast_BreakStmt (+ DIST_ZERO_1 106)) (= T_javafe_ast_OperatorTags (+ DIST_ZERO_1 107)) (= T_java_lang_StringBuffer (+ DIST_ZERO_1 108)) (= T_javafe_ast_CatchClauseVec (+ DIST_ZERO_1 109)) (= T_javafe_tc_TypeSig (+ DIST_ZERO_1 110)) (= T_javafe_ast_TypeModifierPragmaVec (+ DIST_ZERO_1 111)) (= T_javafe_ast_CondExpr (+ DIST_ZERO_1 112)) (= T_javafe_ast_ArrayType (+ DIST_ZERO_1 113)) (= T_javafe_parser_TagConstants (+ DIST_ZERO_1 114)) (= T_javafe_ast_CompoundName (+ DIST_ZERO_1 115)) (= T_javafe_ast_ArrayInit (+ DIST_ZERO_1 116)) (= T_javafe_ast_ImportDeclVec (+ DIST_ZERO_1 117)) (= T_javafe_ast_ExprVec (+ DIST_ZERO_1 118)) (= T_javafe_ast_WhileStmt (+ DIST_ZERO_1 119)) (= T_javafe_ast_BlockStmt (+ DIST_ZERO_1 120)) (= T_javafe_ast_ParenExpr (+ DIST_ZERO_1 121)) (= T_javafe_ast_MethodDecl (+ DIST_ZERO_1 122)) (= T_javafe_ast_InterfaceDecl (+ DIST_ZERO_1 123)) (= T_javafe_ast_ContinueStmt (+ DIST_ZERO_1 124)) (= T_javafe_ast_SimpleName (+ DIST_ZERO_1 125)) (= T_javafe_ast_Expr (+ DIST_ZERO_1 126)) (= T_java_lang_String (+ DIST_ZERO_1 127)) (= T_javafe_ast_SkipStmt (+ DIST_ZERO_1 128)) (= T_javafe_ast_ConstructorDecl (+ DIST_ZERO_1 129)) (= T_java_util_EscjavaKeyValue (+ DIST_ZERO_1 130)) (= T_javafe_ast_LabelStmt (+ DIST_ZERO_1 131)) (= T_javafe_ast_BranchStmt (+ DIST_ZERO_1 132)) (= T_javafe_util_Location (+ DIST_ZERO_1 133)) (= T_javafe_ast_TypeName (+ DIST_ZERO_1 134))) (= true_term (is VARDECLSTMT_33_27_7 T_int)) (= VARDECLSTMT_33_27_7 13) (= true_term (is AND_32_20_26 T_int)) (= AND_32_20_26 55) (= true_term (is PARENEXPR_33_54_7 T_int)) (= PARENEXPR_33_54_7 40) (= true_term (is ASGURSHIFT_32_48_26 T_int)) (= ASGURSHIFT_32_48_26 81) (= true_term (is noTokens_119_212_27 T_int)) (= true_term (is NULLLIT_31_45_26 T_int)) (= NULLLIT_31_45_26 111) (= true_term (is SWITCHSTMT_33_26_7 T_int)) (= SWITCHSTMT_33_26_7 12) (= true_term (is OR_32_19_26 T_int)) (= OR_32_19_26 54) (= true_term (is CASTEXPR_33_53_7 T_int)) (= CASTEXPR_33_53_7 39) (= true_term (is ASGRSHIFT_32_47_26 T_int)) (= ASGRSHIFT_32_47_26 80) (= true_term (is STRINGLIT_31_44_26 T_int)) (= STRINGLIT_31_44_26 110) (= true_term (is BLOCKSTMT_33_25_7 T_int)) (= BLOCKSTMT_33_25_7 11) (= true_term (is INSTANCEOFEXPR_33_52_7 T_int)) (= INSTANCEOFEXPR_33_52_7 38) (= true_term (is ASGLSHIFT_32_46_26 T_int)) (= ASGLSHIFT_32_46_26 79) (= true_term (is DOUBLELIT_31_43_26 T_int)) (= DOUBLELIT_31_43_26 109) (= true_term (is TYPEMODIFIERPRAGMA_119_28_26 T_int)) (= TYPEMODIFIERPRAGMA_119_28_26 118) (= true_term (is FORMALPARADECL_33_24_7 T_int)) (= FORMALPARADECL_33_24_7 10) (= true_term (is CONDEXPR_33_51_7 T_int)) (= CONDEXPR_33_51_7 37) (= true_term (is ASGSUB_32_45_26 T_int)) (= ASGSUB_32_45_26 78) (= true_term (is FLOATLIT_31_42_26 T_int)) (= FLOATLIT_31_42_26 108) (= true_term (is TYPEDECLELEMPRAGMA_119_27_26 T_int)) (= TYPEDECLELEMPRAGMA_119_27_26 117) (= true_term (is FIELDDECL_33_23_7 T_int)) (= FIELDDECL_33_23_7 9) (= true_term (is NEWARRAYEXPR_33_50_7 T_int)) (= NEWARRAYEXPR_33_50_7 36) (= true_term (is ASGADD_32_44_26 T_int)) (= ASGADD_32_44_26 77) (= true_term (is CHARLIT_31_41_26 T_int)) (= CHARLIT_31_41_26 107) (= true_term (is STMTPRAGMA_119_26_26 T_int)) (= STMTPRAGMA_119_26_26 116) (= true_term (is LOCALVARDECL_33_22_7 T_int)) (= LOCALVARDECL_33_22_7 8) (= true_term (is NEWINSTANCEEXPR_33_49_7 T_int)) (= NEWINSTANCEEXPR_33_49_7 35) (= true_term (is ASGREM_32_43_26 T_int)) (= ASGREM_32_43_26 76) (= true_term (is LONGLIT_31_40_26 T_int)) (= LONGLIT_31_40_26 106) (= true_term (is MODIFIERPRAGMA_119_25_26 T_int)) (= MODIFIERPRAGMA_119_25_26 115) (= true_term (is INITBLOCK_33_21_7 T_int)) (= INITBLOCK_33_21_7 7) (= true_term (is ARRAYREFEXPR_33_48_7 T_int)) (= ARRAYREFEXPR_33_48_7 34) (= true_term (is ASGDIV_32_42_26 T_int)) (= ASGDIV_32_42_26 75) (= true_term (is INTLIT_31_39_26 T_int)) (= INTLIT_31_39_26 105) (= true_term (is LEXICALPRAGMA_119_24_26 T_int)) (= LEXICALPRAGMA_119_24_26 114) (= true_term (is METHODDECL_33_20_7 T_int)) (= 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T_int)) (= BYTETYPE_31_35_26 102) (= true_term (is CLASSDECL_33_17_7 T_int)) (= CLASSDECL_33_17_7 3) (= true_term (is CONSTRUCTORINVOCATION_33_44_7 T_int)) (= CONSTRUCTORINVOCATION_33_44_7 30) (= true_term (is MOD_32_36_26 T_int)) (= MOD_32_36_26 71) (= true_term (is TYPESIG_118_6_28 T_int)) (= TYPESIG_118_6_28 184) (= true_term (is NULLTYPE_31_34_26 T_int)) (= NULLTYPE_31_34_26 101) (= true_term (is ONDEMANDIMPORTDECL_33_16_7 T_int)) (= ONDEMANDIMPORTDECL_33_16_7 2) (= true_term (is TRYCATCHSTMT_33_43_7 T_int)) (= TRYCATCHSTMT_33_43_7 29) (= true_term (is DIV_32_35_26 T_int)) (= DIV_32_35_26 70) (= true_term (is VOIDTYPE_31_33_26 T_int)) (= VOIDTYPE_31_33_26 100) (= true_term (is SINGLETYPEIMPORTDECL_33_15_7 T_int)) (= SINGLETYPEIMPORTDECL_33_15_7 1) (= true_term (is TRYFINALLYSTMT_33_42_7 T_int)) (= TRYFINALLYSTMT_33_42_7 28) (= true_term (is SUB_32_34_26 T_int)) (= SUB_32_34_26 69) (= true_term (is DOUBLETYPE_31_32_26 T_int)) (= DOUBLETYPE_31_32_26 99) (= true_term (is MIN_VALUE_105_39_30 T_int)) (= MIN_VALUE_105_39_30 neg2147483648) (= true_term (is COMPILATIONUNIT_33_14_7 T_int)) (= COMPILATIONUNIT_33_14_7 0) (= true_term (is SWITCHLABEL_33_41_7 T_int)) (= SWITCHLABEL_33_41_7 27) (= true_term (is ADD_32_33_26 T_int)) (= ADD_32_33_26 68) (= true_term (is FLOATTYPE_31_31_26 T_int)) (= FLOATTYPE_31_31_26 98) (= true_term (is otherStrings_119_193_30 ?v_1)) (not (= otherStrings_119_193_30 null)) (= (typeof otherStrings_119_193_30) ?v_1) (= (arrayLength otherStrings_119_193_30) 15) (= true_term (is SKIPSTMT_33_40_7 T_int)) (= SKIPSTMT_33_40_7 26) (= true_term (is URSHIFT_32_32_26 T_int)) (= URSHIFT_32_32_26 67) (= true_term (is COMPOUNDNAME_33_67_7 T_int)) (= COMPOUNDNAME_33_67_7 53) (= true_term (is CHARTYPE_31_30_26 T_int)) (= CHARTYPE_31_30_26 97) (= true_term (is FORSTMT_33_39_7 T_int)) (= FORSTMT_33_39_7 25) (= true_term (is RSHIFT_32_31_26 T_int)) (= RSHIFT_32_31_26 66) (= true_term (is SIMPLENAME_33_66_7 T_int)) (= SIMPLENAME_33_66_7 52) (= 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IDENT_31_25_26 93) (= true_term (is DEC_32_59_26 T_int)) (= DEC_32_59_26 90) (= true_term (is BREAKSTMT_33_35_7 T_int)) (= BREAKSTMT_33_35_7 21) (= true_term (is GT_32_27_26 T_int)) (= GT_32_27_26 62) (= true_term (is TYPEOBJECTDESIGNATOR_33_62_7 T_int)) (= TYPEOBJECTDESIGNATOR_33_62_7 48) (= true_term (is INC_32_58_26 T_int)) (= INC_32_58_26 89) (= true_term (is THROWSTMT_33_34_7 T_int)) (= THROWSTMT_33_34_7 20) (= true_term (is GE_32_26_26 T_int)) (= GE_32_26_26 61) (= true_term (is EXPROBJECTDESIGNATOR_33_61_7 T_int)) (= EXPROBJECTDESIGNATOR_33_61_7 47) (= true_term (is BITNOT_32_57_26 T_int)) (= BITNOT_32_57_26 88) (= true_term (is RETURNSTMT_33_33_7 T_int)) (= RETURNSTMT_33_33_7 19) (= true_term (is punctuationCodes_119_164_19 ?v_0)) (not (= punctuationCodes_119_164_19 null)) (= (typeof punctuationCodes_119_164_19) ?v_0) (= (arrayLength punctuationCodes_119_164_19) 48) (= true_term (is punctuationStrings_119_134_22 ?v_1)) (not (= punctuationStrings_119_134_22 null)) (= (typeof 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NULL_119_82_26 T_int)) (= NULL_119_82_26 163) (= true_term (is BITAND_32_23_26 T_int)) (= BITAND_32_23_26 58) (= true_term (is AMBIGUOUSMETHODINVOCATION_33_58_7 T_int)) (= AMBIGUOUSMETHODINVOCATION_33_58_7 44) (= true_term (is UNARYADD_32_54_26 T_int)) (= UNARYADD_32_54_26 85) (= true_term (is DOSTMT_33_30_7 T_int)) (= DOSTMT_33_30_7 16) (= true_term (is BITXOR_32_22_26 T_int)) (= BITXOR_32_22_26 57) (= true_term (is FIELDACCESS_33_57_7 T_int)) (= FIELDACCESS_33_57_7 43) (= true_term (is ASGBITXOR_32_51_26 T_int)) (= ASGBITXOR_32_51_26 84) (= true_term (is WHILESTMT_33_29_7 T_int)) (= WHILESTMT_33_29_7 15) (= true_term (is BITOR_32_21_26 T_int)) (= BITOR_32_21_26 56) (= true_term (is VARIABLEACCESS_33_56_7 T_int)) (= VARIABLEACCESS_33_56_7 42) (= true_term (is NULL_116_60_26 T_int)) (= NULL_116_60_26 0) (= true_term (is ASGBITOR_32_50_26 T_int)) (= ASGBITOR_32_50_26 83) (= true_term (is CLASSDECLSTMT_33_28_7 T_int)) (= CLASSDECLSTMT_33_28_7 14) (= true_term (is 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-(declare-fun loc_71_29_13 () Int)
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-(declare-fun loc_68_33_13 () Int)
-(declare-fun VARDECLSTMT_pre_33_27_7 () Int)
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-(declare-fun name_96_20_28 () Int)
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-(declare-fun label_58_15_34 () Int)
-(declare-fun type_pre_87_32_32 () Int)
-(declare-fun type_87_32_32 () Int)
-(declare-fun locOp_pre_93_43_13 () Int)
-(declare-fun locOp_93_43_13 () Int)
-(declare-fun locOpenParen_pre_101_28_13 () Int)
-(declare-fun locOpenParen_101_28_13 () Int)
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-(declare-fun args_70_51_31 () Int)
-(declare-fun AND_pre_32_20_26 () Int)
-(declare-fun PARENEXPR_pre_33_54_7 () Int)
-(declare-fun loc_pre_55_20_13 () Int)
-(declare-fun loc_55_20_13 () Int)
-(declare-fun ASGURSHIFT_pre_32_48_26 () Int)
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-(declare-fun NULLLIT_pre_31_45_26 () Int)
-(declare-fun modifiers_pre_24_28_13 () Int)
-(declare-fun modifiers_24_28_13 () Int)
-(declare-fun locGuardOpenParen_pre_49_23_13 () Int)
-(declare-fun locGuardOpenParen_49_23_13 () Int)
-(declare-fun type_pre_91_18_28 () Int)
-(declare-fun type_91_18_28 () Int)
-(declare-fun SWITCHSTMT_pre_33_26_7 () Int)
-(declare-fun tmodifiers_pre_21_30_33 () Int)
-(declare-fun tmodifiers_21_30_33 () Int)
-(declare-fun OR_pre_32_19_26 () Int)
-(declare-fun specOnly_pre_24_26_17 () Int)
-(declare-fun specOnly_24_26_17 () Int)
-(declare-fun CASTEXPR_pre_33_53_7 () Int)
-(declare-fun pmodifiers_pre_76_26_27 () Int)
-(declare-fun pmodifiers_76_26_27 () Int)
-(declare-fun loc_pre_90_21_13 () Int)
-(declare-fun loc_90_21_13 () Int)
-(declare-fun ASGRSHIFT_pre_32_47_26 () Int)
-(declare-fun locCloseParen_pre_95_21_13 () Int)
-(declare-fun locCloseParen_95_21_13 () Int)
-(declare-fun count_pre_84_67_33 () Int)
-(declare-fun count_84_67_33 () Int)
-(declare-fun STRINGLIT_pre_31_44_26 () Int)
-(declare-fun hasParent_pre_25_149_30 () Int)
-(declare-fun hasParent_25_149_30 () Int)
-(declare-fun BLOCKSTMT_pre_33_25_7 () Int)
-(declare-fun modifiers_pre_76_24_13 () Int)
-(declare-fun modifiers_76_24_13 () Int)
-(declare-fun locFinally_pre_59_25_13 () Int)
-(declare-fun locFinally_59_25_13 () Int)
-(declare-fun locDot_pre_87_29_13 () Int)
-(declare-fun locDot_87_29_13 () Int)
-(declare-fun locDot_pre_92_23_13 () Int)
-(declare-fun locDot_92_23_13 () Int)
-(declare-fun locOpenParen_pre_70_48_13 () Int)
-(declare-fun locOpenParen_70_48_13 () Int)
-(declare-fun loc_pre_162_20_13 () Int)
-(declare-fun loc_162_20_13 () Int)
-(declare-fun syntax_pre_21_28_29 () Int)
-(declare-fun syntax_21_28_29 () Int)
-(declare-fun INSTANCEOFEXPR_pre_33_52_7 () Int)
-(declare-fun ASGLSHIFT_pre_32_46_26 () Int)
-(declare-fun implicit_pre_76_23_17 () Int)
-(declare-fun implicit_76_23_17 () Int)
-(declare-fun dims_pre_88_45_31 () Int)
-(declare-fun dims_88_45_31 () Int)
-(declare-fun count_pre_46_67_33 () Int)
-(declare-fun count_46_67_33 () Int)
-(declare-fun DOUBLELIT_pre_31_43_26 () Int)
-(declare-fun TYPEMODIFIERPRAGMA_pre_119_28_26 () Int)
-(declare-fun classPrefix_pre_71_25_14 () Int)
-(declare-fun classPrefix_71_25_14 () Int)
-(declare-fun init_pre_73_20_17 () Int)
-(declare-fun init_73_20_17 () Int)
-(declare-fun body_pre_68_30_28 () Int)
-(declare-fun body_68_30_28 () Int)
-(declare-fun FORMALPARADECL_pre_33_24_7 () Int)
-(declare-fun tag_pre_85_32_13 () Int)
-(declare-fun tag_85_32_13 () Int)
-(declare-fun elements_pre_82_61_47 () Int)
-(declare-fun elements_82_61_47 () Int)
-(declare-fun locId_pre_101_25_13 () Int)
-(declare-fun locId_101_25_13 () Int)
-(declare-fun parent_pre_76_21_18 () Int)
-(declare-fun parent_76_21_18 () Int)
-(declare-fun CONDEXPR_pre_33_51_7 () Int)
-(declare-fun ASGSUB_pre_32_45_26 () Int)
-(declare-fun stmt_pre_55_17_33 () Int)
-(declare-fun stmt_55_17_33 () Int)
-(declare-fun parent_pre_73_18_18 () Int)
-(declare-fun parent_73_18_18 () Int)
-(declare-fun right_pre_93_40_28 () Int)
-(declare-fun right_93_40_28 () Int)
-(declare-fun parent_pre_24_59_18 () Int)
-(declare-fun parent_24_59_18 () Int)
-(declare-fun FLOATLIT_pre_31_42_26 () Int)
-(declare-fun TYPEDECLELEMPRAGMA_pre_119_27_26 () Int)
-(declare-fun pkgName_pre_22_15_28 () Int)
-(declare-fun pkgName_22_15_28 () Int)
-(declare-fun FIELDDECL_pre_33_23_7 () Int)
-(declare-fun loc_pre_6_30_13 () Int)
-(declare-fun loc_6_30_13 () Int)
-(declare-fun NEWARRAYEXPR_pre_33_50_7 () Int)
-(declare-fun elements_pre_17_61_39 () Int)
-(declare-fun elements_17_61_39 () Int)
-(declare-fun loc_pre_85_50_13 () Int)
-(declare-fun loc_85_50_13 () Int)
-(declare-fun ASGADD_pre_32_44_26 () Int)
-(declare-fun type_pre_90_18_28 () Int)
-(declare-fun type_90_18_28 () Int)
-(declare-fun value_pre_29_91_31 () Int)
-(declare-fun value_29_91_31 () Int)
-(declare-fun CHARLIT_pre_31_41_26 () Int)
-(declare-fun STMTPRAGMA_pre_119_26_26 () Int)
-(declare-fun count_pre_61_67_33 () Int)
-(declare-fun count_61_67_33 () Int)
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-(declare-fun test_89_15_28 () Int)
-(declare-fun AMBIGUOUSVARIABLEACCESS_pre_33_55_7 () Int)
-(declare-fun ASGBITAND_pre_32_49_26 () Int)
-(declare-fun loc_pre_88_49_13 () Int)
-(declare-fun loc_88_49_13 () Int)
-(declare-fun pmodifiers_pre_24_30_27 () Int)
-(declare-fun pmodifiers_24_30_27 () Int)
-(declare-fun elems_pre () Int)
-(declare-fun elems () Int)
-(declare-fun LS () Int)
-(declare-fun alloc_pre () Int)
-(declare-fun this () Int)
-(declare-fun o_1067_33 () Int)
-(declare-fun lp_1067_50 () Int)
-(declare-fun RES_1068_42_1068_42 () Int)
-(declare-fun EC_1068_42_1068_42 () Int)
-(declare-fun ecReturn () Int)
-(declare-fun s_1068_4_1068_4_4_381_50 () Int)
-(declare-fun EC_1068_4_1068_4 () Int)
-(declare-fun RES_1069_18_1069_18 () Int)
-(declare-fun EC_1069_18_1069_18 () Int)
-(declare-fun EC_1069_4_1069_4 () Int)
-(assert (let ((?v_0 (array T_int)) (?v_1 (array T_java_lang_String)) (?v_6 (not (= o_1067_33 null))) (?v_2 (not (= lp_1067_50 null)))) (let ((?v_8 (not ?v_2)) (?v_11 (= true_term (is RES_1068_42_1068_42 T_int))) (?v_3 (= EC_1068_42_1068_42 ecReturn)) (?v_4 (= true_term (is lp_1067_50 T_javafe_ast_Type))) (?v_5 (not (= RES_1068_42_1068_42 NULL_116_60_26)))) (let ((?v_12 (=> (and ?v_3 (not (and ?v_4 ?v_2))) ?v_5)) (?v_13 (=> (and ?v_3 ?v_4 ?v_2 (= true_term (S_select syntax_21_28_29 (cast lp_1067_50 T_javafe_ast_Type)))) ?v_5)) (?v_7 (= s_1068_4_1068_4_4_381_50 (stringCat (stringCat S_1068_13 RES_1068_42_1068_42) S_1068_58))) (?v_14 (= EC_1068_4_1068_4 ecReturn)) (?v_15 (= true_term (is RES_1069_18_1069_18 T_java_lang_String))) (?v_16 (= true_term (isAllocated RES_1069_18_1069_18 alloc))) (?v_9 (= EC_1069_18_1069_18 ecReturn)) (?v_10 (not (= RES_1069_18_1069_18 null)))) (let ((?v_17 (=> ?v_9 ?v_10))) (not (=> (and true (not (= S_1068_58 null)) (= (typeof S_1068_58) T_java_lang_String) (not (= S_1068_13 null)) (= (typeof S_1068_13) T_java_lang_String) (< neg9223372036854775808 neg2147483648) (< neg2147483648 (- 1000000))) (=> (and (= loc_pre_71_29_13 loc_71_29_13) (= loc_71_29_13 (asField loc_71_29_13 T_int)) (= loc_pre_68_33_13 loc_68_33_13) (= loc_68_33_13 (asField loc_68_33_13 T_int)) (= VARDECLSTMT_pre_33_27_7 VARDECLSTMT_33_27_7) (= true_term (is VARDECLSTMT_33_27_7 T_int)) (= name_pre_96_20_28 name_96_20_28) (= name_96_20_28 (asField name_96_20_28 T_javafe_ast_Name)) (< (fClosedTime name_96_20_28) alloc) true (= tag_pre_117_30_13 tag_117_30_13) (= tag_117_30_13 (asField tag_117_30_13 T_int)) (= label_pre_58_15_34 label_58_15_34) (= label_58_15_34 (asField label_58_15_34 T_javafe_ast_Identifier)) (< (fClosedTime label_58_15_34) alloc) true (= type_pre_87_32_32 type_87_32_32) (= type_87_32_32 (asField type_87_32_32 T_javafe_ast_TypeName)) (< (fClosedTime type_87_32_32) alloc) true (= locOp_pre_93_43_13 locOp_93_43_13) (= locOp_93_43_13 (asField locOp_93_43_13 T_int)) (= locOpenParen_pre_101_28_13 locOpenParen_101_28_13) (= locOpenParen_101_28_13 (asField locOpenParen_101_28_13 T_int)) (= name_pre_100_25_28 name_100_25_28) (= name_100_25_28 (asField name_100_25_28 T_javafe_ast_Name)) (< (fClosedTime name_100_25_28) alloc) true (= args_pre_70_51_31 args_70_51_31) (= args_70_51_31 (asField args_70_51_31 T_javafe_ast_ExprVec)) (< (fClosedTime args_70_51_31) alloc) true (= AND_pre_32_20_26 AND_32_20_26) (= true_term (is AND_32_20_26 T_int)) (= PARENEXPR_pre_33_54_7 PARENEXPR_33_54_7) (= true_term (is PARENEXPR_33_54_7 T_int)) (= loc_pre_55_20_13 loc_55_20_13) (= loc_55_20_13 (asField loc_55_20_13 T_int)) (= ASGURSHIFT_pre_32_48_26 ASGURSHIFT_32_48_26) (= true_term (is ASGURSHIFT_32_48_26 T_int)) (= id_pre_97_19_34 id_97_19_34) (= id_97_19_34 (asField id_97_19_34 T_javafe_ast_Identifier)) (< (fClosedTime id_97_19_34) alloc) true (= noTokens_pre_119_212_27 noTokens_119_212_27) (= true_term (is noTokens_119_212_27 T_int)) (= count_pre_26_67_33 count_26_67_33) (= count_26_67_33 (asField count_26_67_33 T_int)) (= NULLLIT_pre_31_45_26 NULLLIT_31_45_26) (= true_term (is NULLLIT_31_45_26 T_int)) (= modifiers_pre_24_28_13 modifiers_24_28_13) (= modifiers_24_28_13 (asField modifiers_24_28_13 T_int)) (= locGuardOpenParen_pre_49_23_13 locGuardOpenParen_49_23_13) (= locGuardOpenParen_49_23_13 (asField locGuardOpenParen_49_23_13 T_int)) (= type_pre_91_18_28 type_91_18_28) (= type_91_18_28 (asField type_91_18_28 T_javafe_ast_Type)) (< (fClosedTime type_91_18_28) alloc) true (= SWITCHSTMT_pre_33_26_7 SWITCHSTMT_33_26_7) (= true_term (is SWITCHSTMT_33_26_7 T_int)) (= tmodifiers_pre_21_30_33 tmodifiers_21_30_33) (= tmodifiers_21_30_33 (asField tmodifiers_21_30_33 T_javafe_ast_TypeModifierPragmaVec)) (< (fClosedTime tmodifiers_21_30_33) alloc) (= OR_pre_32_19_26 OR_32_19_26) (= true_term (is OR_32_19_26 T_int)) (= specOnly_pre_24_26_17 specOnly_24_26_17) (= specOnly_24_26_17 (asField specOnly_24_26_17 T_boolean)) (= CASTEXPR_pre_33_53_7 CASTEXPR_33_53_7) (= true_term (is CASTEXPR_33_53_7 T_int)) (= pmodifiers_pre_76_26_27 pmodifiers_76_26_27) (= pmodifiers_76_26_27 (asField pmodifiers_76_26_27 T_javafe_ast_ModifierPragmaVec)) (< (fClosedTime pmodifiers_76_26_27) alloc) (= loc_pre_90_21_13 loc_90_21_13) (= loc_90_21_13 (asField loc_90_21_13 T_int)) (= ASGRSHIFT_pre_32_47_26 ASGRSHIFT_32_47_26) (= true_term (is ASGRSHIFT_32_47_26 T_int)) (= locCloseParen_pre_95_21_13 locCloseParen_95_21_13) (= locCloseParen_95_21_13 (asField locCloseParen_95_21_13 T_int)) (= count_pre_84_67_33 count_84_67_33) (= count_84_67_33 (asField count_84_67_33 T_int)) (= STRINGLIT_pre_31_44_26 STRINGLIT_31_44_26) (= true_term (is STRINGLIT_31_44_26 T_int)) (= hasParent_pre_25_149_30 hasParent_25_149_30) (= hasParent_25_149_30 (asField hasParent_25_149_30 T_boolean)) (= BLOCKSTMT_pre_33_25_7 BLOCKSTMT_33_25_7) (= true_term (is BLOCKSTMT_33_25_7 T_int)) (= modifiers_pre_76_24_13 modifiers_76_24_13) (= modifiers_76_24_13 (asField modifiers_76_24_13 T_int)) (= locFinally_pre_59_25_13 locFinally_59_25_13) (= locFinally_59_25_13 (asField locFinally_59_25_13 T_int)) (= locDot_pre_87_29_13 locDot_87_29_13) (= locDot_87_29_13 (asField locDot_87_29_13 T_int)) (= locDot_pre_92_23_13 locDot_92_23_13) (= locDot_92_23_13 (asField locDot_92_23_13 T_int)) (= locOpenParen_pre_70_48_13 locOpenParen_70_48_13) (= locOpenParen_70_48_13 (asField locOpenParen_70_48_13 T_int)) (= loc_pre_162_20_13 loc_162_20_13) (= loc_162_20_13 (asField loc_162_20_13 T_int)) (= syntax_pre_21_28_29 syntax_21_28_29) (= syntax_21_28_29 (asField syntax_21_28_29 T_boolean)) (= INSTANCEOFEXPR_pre_33_52_7 INSTANCEOFEXPR_33_52_7) (= true_term (is INSTANCEOFEXPR_33_52_7 T_int)) (= ASGLSHIFT_pre_32_46_26 ASGLSHIFT_32_46_26) (= true_term (is ASGLSHIFT_32_46_26 T_int)) (= implicit_pre_76_23_17 implicit_76_23_17) (= implicit_76_23_17 (asField implicit_76_23_17 T_boolean)) (= dims_pre_88_45_31 dims_88_45_31) (= dims_88_45_31 (asField dims_88_45_31 T_javafe_ast_ExprVec)) (< (fClosedTime dims_88_45_31) alloc) true (= count_pre_46_67_33 count_46_67_33) (= count_46_67_33 (asField count_46_67_33 T_int)) (= DOUBLELIT_pre_31_43_26 DOUBLELIT_31_43_26) (= true_term (is DOUBLELIT_31_43_26 T_int)) (= TYPEMODIFIERPRAGMA_pre_119_28_26 TYPEMODIFIERPRAGMA_119_28_26) (= true_term (is TYPEMODIFIERPRAGMA_119_28_26 T_int)) (= classPrefix_pre_71_25_14 classPrefix_71_25_14) (= classPrefix_71_25_14 (asField classPrefix_71_25_14 T_javafe_ast_Type)) (< (fClosedTime classPrefix_71_25_14) alloc) (= init_pre_73_20_17 init_73_20_17) (= init_73_20_17 (asField init_73_20_17 T_javafe_ast_VarInit)) (< (fClosedTime init_73_20_17) alloc) (= body_pre_68_30_28 body_68_30_28) (= body_68_30_28 (asField body_68_30_28 T_javafe_ast_Stmt)) (< (fClosedTime body_68_30_28) alloc) true (= FORMALPARADECL_pre_33_24_7 FORMALPARADECL_33_24_7) (= true_term (is FORMALPARADECL_33_24_7 T_int)) (= tag_pre_85_32_13 tag_85_32_13) (= tag_85_32_13 (asField tag_85_32_13 T_int)) (= elements_pre_82_61_47 elements_82_61_47) (= elements_82_61_47 (asField elements_82_61_47 (array T_javafe_ast_TypeModifierPragma))) (< (fClosedTime elements_82_61_47) alloc) true (= locId_pre_101_25_13 locId_101_25_13) (= locId_101_25_13 (asField locId_101_25_13 T_int)) (= parent_pre_76_21_18 parent_76_21_18) (= parent_76_21_18 (asField parent_76_21_18 T_javafe_ast_TypeDecl)) (< (fClosedTime parent_76_21_18) alloc) (= CONDEXPR_pre_33_51_7 CONDEXPR_33_51_7) (= true_term (is CONDEXPR_33_51_7 T_int)) (= ASGSUB_pre_32_45_26 ASGSUB_32_45_26) (= true_term (is ASGSUB_32_45_26 T_int)) (= stmt_pre_55_17_33 stmt_55_17_33) (= stmt_55_17_33 (asField stmt_55_17_33 T_javafe_ast_BlockStmt)) (< (fClosedTime stmt_55_17_33) alloc) true (= parent_pre_73_18_18 parent_73_18_18) (= parent_73_18_18 (asField parent_73_18_18 T_javafe_ast_TypeDecl)) (< (fClosedTime parent_73_18_18) alloc) (= right_pre_93_40_28 right_93_40_28) (= right_93_40_28 (asField right_93_40_28 T_javafe_ast_Expr)) (< (fClosedTime right_93_40_28) alloc) true (= parent_pre_24_59_18 parent_24_59_18) (= parent_24_59_18 (asField parent_24_59_18 T_javafe_ast_TypeDecl)) (< (fClosedTime parent_24_59_18) alloc) (= FLOATLIT_pre_31_42_26 FLOATLIT_31_42_26) (= true_term (is FLOATLIT_31_42_26 T_int)) (= TYPEDECLELEMPRAGMA_pre_119_27_26 TYPEDECLELEMPRAGMA_119_27_26) (= true_term (is TYPEDECLELEMPRAGMA_119_27_26 T_int)) (= pkgName_pre_22_15_28 pkgName_22_15_28) (= pkgName_22_15_28 (asField pkgName_22_15_28 T_javafe_ast_Name)) (< (fClosedTime pkgName_22_15_28) alloc) true (= FIELDDECL_pre_33_23_7 FIELDDECL_33_23_7) (= true_term (is FIELDDECL_33_23_7 T_int)) (= loc_pre_6_30_13 loc_6_30_13) (= loc_6_30_13 (asField loc_6_30_13 T_int)) (= NEWARRAYEXPR_pre_33_50_7 NEWARRAYEXPR_33_50_7) (= true_term (is NEWARRAYEXPR_33_50_7 T_int)) (= elements_pre_17_61_39 elements_17_61_39) (= elements_17_61_39 (asField elements_17_61_39 (array T_javafe_ast_ImportDecl))) (< (fClosedTime elements_17_61_39) alloc) true (= loc_pre_85_50_13 loc_85_50_13) (= loc_85_50_13 (asField loc_85_50_13 T_int)) (= ASGADD_pre_32_44_26 ASGADD_32_44_26) (= true_term (is ASGADD_32_44_26 T_int)) (= type_pre_90_18_28 type_90_18_28) (= type_90_18_28 (asField type_90_18_28 T_javafe_ast_Type)) (< (fClosedTime type_90_18_28) alloc) true (= value_pre_29_91_31 value_29_91_31) (= value_29_91_31 (asField value_29_91_31 (array T_char))) (< (fClosedTime value_29_91_31) alloc) true (= CHARLIT_pre_31_41_26 CHARLIT_31_41_26) (= true_term (is CHARLIT_31_41_26 T_int)) (= STMTPRAGMA_pre_119_26_26 STMTPRAGMA_119_26_26) (= true_term (is STMTPRAGMA_119_26_26 T_int)) (= count_pre_61_67_33 count_61_67_33) (= count_61_67_33 (asField count_61_67_33 T_int)) (= expr_pre_91_15_28 expr_91_15_28) (= expr_91_15_28 (asField expr_91_15_28 T_javafe_ast_Expr)) (< (fClosedTime expr_91_15_28) alloc) true (= forUpdate_pre_68_28_31 forUpdate_68_28_31) (= forUpdate_68_28_31 (asField forUpdate_68_28_31 T_javafe_ast_ExprVec)) (< (fClosedTime forUpdate_68_28_31) alloc) true (= LOCALVARDECL_pre_33_22_7 LOCALVARDECL_33_22_7) (= true_term (is LOCALVARDECL_33_22_7 T_int)) (= elements_pre_155_61_39 elements_155_61_39) (= elements_155_61_39 (asField elements_155_61_39 (array T_javafe_ast_MethodDecl))) (< (fClosedTime elements_155_61_39) alloc) true (= locKeyword_pre_70_45_13 locKeyword_70_45_13) (= locKeyword_70_45_13 (asField locKeyword_70_45_13 T_int)) (= NEWINSTANCEEXPR_pre_33_49_7 NEWINSTANCEEXPR_33_49_7) (= true_term (is NEWINSTANCEEXPR_33_49_7 T_int)) (= count_pre_35_67_33 count_35_67_33) (= count_35_67_33 (asField count_35_67_33 T_int)) (= expr_pre_55_15_28 expr_55_15_28) (= expr_55_15_28 (asField expr_55_15_28 T_javafe_ast_Expr)) (< (fClosedTime expr_55_15_28) alloc) true (= ASGREM_pre_32_43_26 ASGREM_32_43_26) (= true_term (is ASGREM_32_43_26 T_int)) (= left_pre_93_38_28 left_93_38_28) (= left_93_38_28 (asField left_93_38_28 T_javafe_ast_Expr)) (< (fClosedTime left_93_38_28) alloc) true (= loc_pre_49_20_13 loc_49_20_13) (= loc_49_20_13 (asField loc_49_20_13 T_int)) (= loc_pre_59_22_13 loc_59_22_13) (= loc_59_22_13 (asField loc_59_22_13 T_int)) (= LONGLIT_pre_31_40_26 LONGLIT_31_40_26) (= true_term (is LONGLIT_31_40_26 T_int)) (= MODIFIERPRAGMA_pre_119_25_26 MODIFIERPRAGMA_119_25_26) (= true_term (is MODIFIERPRAGMA_119_25_26 T_int)) (= locCloseBracket_pre_86_23_13 locCloseBracket_86_23_13) (= locCloseBracket_86_23_13 (asField locCloseBracket_86_23_13 T_int)) (= enclosingInstance_pre_87_25_14 enclosingInstance_87_25_14) (= enclosingInstance_87_25_14 (asField enclosingInstance_87_25_14 T_javafe_ast_Expr)) (< (fClosedTime enclosingInstance_87_25_14) alloc) (= INITBLOCK_pre_33_21_7 INITBLOCK_33_21_7) (= true_term (is INITBLOCK_33_21_7 T_int)) (= locOpenParen_pre_95_18_13 locOpenParen_95_18_13) (= locOpenParen_95_18_13 (asField locOpenParen_95_18_13 T_int)) (= elements_pre_14_61_42 elements_14_61_42) (= elements_14_61_42 (asField elements_14_61_42 (array T_javafe_ast_LexicalPragma))) (< (fClosedTime elements_14_61_42) alloc) true (= count_pre_77_67_33 count_77_67_33) (= count_77_67_33 (asField count_77_67_33 T_int)) (= ARRAYREFEXPR_pre_33_48_7 ARRAYREFEXPR_33_48_7) (= true_term (is ARRAYREFEXPR_33_48_7 T_int)) (= ASGDIV_pre_32_42_26 ASGDIV_32_42_26) (= true_term (is ASGDIV_32_42_26 T_int)) (= type_pre_92_20_28 type_92_20_28) (= type_92_20_28 (asField type_92_20_28 T_javafe_ast_Type)) (< (fClosedTime type_92_20_28) alloc) true (= INTLIT_pre_31_39_26 INTLIT_31_39_26) (= true_term (is INTLIT_31_39_26 T_int)) (= locCloseBrace_pre_24_54_13 locCloseBrace_24_54_13) (= locCloseBrace_24_54_13 (asField locCloseBrace_24_54_13 T_int)) (= LEXICALPRAGMA_pre_119_24_26 LEXICALPRAGMA_119_24_26) (= true_term (is LEXICALPRAGMA_119_24_26 T_int)) (= id_pre_101_20_34 id_101_20_34) (= id_101_20_34 (asField id_101_20_34 T_javafe_ast_Identifier)) (< (fClosedTime id_101_20_34) alloc) true (= test_pre_68_26_28 test_68_26_28) (= test_68_26_28 (asField test_68_26_28 T_javafe_ast_Expr)) (< (fClosedTime test_68_26_28) alloc) true (= displayInferred_pre_4_73_26 displayInferred_4_73_26) (= true_term (is displayInferred_4_73_26 T_boolean)) (= METHODDECL_pre_33_20_7 METHODDECL_33_20_7) (= true_term (is METHODDECL_33_20_7 T_int)) (= otherCodes_pre_119_202_27 otherCodes_119_202_27) (= true_term (is otherCodes_119_202_27 ?v_0)) (= true_term (isAllocated otherCodes_119_202_27 alloc)) (= count_pre_143_67_33 count_143_67_33) (= count_143_67_33 (asField count_143_67_33 T_int)) (= elements_pre_23_61_37 elements_23_61_37) (= elements_23_61_37 (asField elements_23_61_37 (array T_javafe_ast_TypeDecl))) (< (fClosedTime elements_23_61_37) alloc) true (= THISEXPR_pre_33_47_7 THISEXPR_33_47_7) (= true_term (is THISEXPR_33_47_7 T_int)) (= ASGMUL_pre_32_41_26 ASGMUL_32_41_26) (= true_term (is ASGMUL_32_41_26 T_int)) (= value_pre_85_45_16 value_85_45_16) (= value_85_45_16 (asField value_85_45_16 T_java_lang_Object)) (< (fClosedTime value_85_45_16) alloc) (= elems_pre_6_27_35 elems_6_27_35) (= elems_6_27_35 (asField elems_6_27_35 T_javafe_ast_TypeDeclVec)) (< (fClosedTime elems_6_27_35) alloc) true (= op_pre_93_35_13 op_93_35_13) (= op_93_35_13 (asField op_93_35_13 T_int)) (= parent_pre_79_18_18 parent_79_18_18) (= parent_79_18_18 (asField parent_79_18_18 T_javafe_ast_TypeDecl)) (< (fClosedTime parent_79_18_18) alloc) (= loc_pre_60_23_13 loc_60_23_13) (= loc_60_23_13 (asField loc_60_23_13 T_int)) (= BOOLEANLIT_pre_31_38_26 BOOLEANLIT_31_38_26) (= true_term (is BOOLEANLIT_31_38_26 T_int)) (= CONSTRUCTORDECL_pre_33_19_7 CONSTRUCTORDECL_33_19_7) (= true_term (is CONSTRUCTORDECL_33_19_7 T_int)) (= loc_pre_51_22_13 loc_51_22_13) (= loc_51_22_13 (asField loc_51_22_13 T_int)) (= locOpenBracket_pre_81_21_13 locOpenBracket_81_21_13) (= locOpenBracket_81_21_13 (asField locOpenBracket_81_21_13 T_int)) (= FIRST_KEYWORD_pre_119_51_26 FIRST_KEYWORD_119_51_26) (= true_term (is FIRST_KEYWORD_119_51_26 T_int)) (= ARRAYINIT_pre_33_46_7 ARRAYINIT_33_46_7) (= true_term (is ARRAYINIT_33_46_7 T_int)) (= ASSIGN_pre_32_40_26 ASSIGN_32_40_26) (= true_term (is ASSIGN_32_40_26 T_int)) (= expr_pre_90_15_28 expr_90_15_28) (= expr_90_15_28 (asField expr_90_15_28 T_javafe_ast_Expr)) (< (fClosedTime expr_90_15_28) alloc) true (= INDENT_pre_4_65_22 INDENT_4_65_22) (= true_term (is INDENT_4_65_22 T_int)) (= locDot_pre_70_41_13 locDot_70_41_13) (= locDot_70_41_13 (asField locDot_70_41_13 T_int)) (= ids_pre_163_19_37 ids_163_19_37) (= ids_163_19_37 (asField ids_163_19_37 T_javafe_ast_IdentifierVec)) (< (fClosedTime ids_163_19_37) alloc) true (= stmt_pre_49_17_28 stmt_49_17_28) (= stmt_49_17_28 (asField stmt_49_17_28 T_javafe_ast_Stmt)) (< (fClosedTime stmt_49_17_28) alloc) true (= finallyClause_pre_59_19_28 finallyClause_59_19_28) (= finallyClause_59_19_28 (asField finallyClause_59_19_28 T_javafe_ast_Stmt)) (< (fClosedTime finallyClause_59_19_28) alloc) true (= init_pre_88_35_19 init_88_35_19) (= init_88_35_19 (asField init_88_35_19 T_javafe_ast_ArrayInit)) (< (fClosedTime init_88_35_19) alloc) (= SHORTTYPE_pre_31_36_26 SHORTTYPE_31_36_26) (= true_term (is SHORTTYPE_31_36_26 T_int)) (= od_pre_101_18_40 od_101_18_40) (= od_101_18_40 (asField od_101_18_40 T_javafe_ast_ObjectDesignator)) (< (fClosedTime od_101_18_40) alloc) true (= forInit_pre_68_24_31 forInit_68_24_31) (= forInit_68_24_31 (asField forInit_68_24_31 T_javafe_ast_StmtVec)) (< (fClosedTime forInit_68_24_31) alloc) true (= decl_pre_98_28_19 decl_98_28_19) (= decl_98_28_19 (asField decl_98_28_19 T_javafe_ast_FieldDecl)) (< (fClosedTime decl_98_28_19) alloc) (= INTERFACEDECL_pre_33_18_7 INTERFACEDECL_33_18_7) (= true_term (is INTERFACEDECL_33_18_7 T_int)) (= expr_pre_95_15_28 expr_95_15_28) (= expr_95_15_28 (asField expr_95_15_28 T_javafe_ast_Expr)) (< (fClosedTime expr_95_15_28) alloc) true (= locOpenBracket_pre_86_20_13 locOpenBracket_86_20_13) (= locOpenBracket_86_20_13 (asField locOpenBracket_86_20_13 T_int)) (= CATCHCLAUSE_pre_33_45_7 CATCHCLAUSE_33_45_7) (= true_term (is CATCHCLAUSE_33_45_7 T_int)) (= STAR_pre_32_37_26 STAR_32_37_26) (= true_term (is STAR_32_37_26 T_int)) (= locOp_pre_94_32_13 locOp_94_32_13) (= locOp_94_32_13 (asField locOp_94_32_13 T_int)) (= length_pre_16_50_25 length_16_50_25) (= length_16_50_25 (asField length_16_50_25 T_int)) (= imports_pre_6_25_37 imports_6_25_37) (= imports_6_25_37 (asField imports_6_25_37 T_javafe_ast_ImportDeclVec)) (< (fClosedTime imports_6_25_37) alloc) true (= BYTETYPE_pre_31_35_26 BYTETYPE_31_35_26) (= true_term (is BYTETYPE_31_35_26 T_int)) (= locOpenBrace_pre_24_51_13 locOpenBrace_24_51_13) (= locOpenBrace_24_51_13 (asField locOpenBrace_24_51_13 T_int)) (= CLASSDECL_pre_33_17_7 CLASSDECL_33_17_7) (= true_term (is CLASSDECL_33_17_7 T_int)) (= CONSTRUCTORINVOCATION_pre_33_44_7 CONSTRUCTORINVOCATION_33_44_7) (= true_term (is CONSTRUCTORINVOCATION_33_44_7 T_int)) (= MOD_pre_32_36_26 MOD_32_36_26) (= true_term (is MOD_32_36_26 T_int)) (= TYPESIG_pre_118_6_28 TYPESIG_118_6_28) (= true_term (is TYPESIG_118_6_28 T_int)) (= expr_pre_49_15_28 expr_49_15_28) (= expr_49_15_28 (asField expr_49_15_28 T_javafe_ast_Expr)) (< (fClosedTime expr_49_15_28) alloc) true (= tryClause_pre_59_17_28 tryClause_59_17_28) (= tryClause_59_17_28 (asField tryClause_59_17_28 T_javafe_ast_Stmt)) (< (fClosedTime tryClause_59_17_28) alloc) true (= NULLTYPE_pre_31_34_26 NULLTYPE_31_34_26) (= true_term (is NULLTYPE_31_34_26 T_int)) (= count_pre_69_67_33 count_69_67_33) (= count_69_67_33 (asField count_69_67_33 T_int)) (= ONDEMANDIMPORTDECL_pre_33_16_7 ONDEMANDIMPORTDECL_33_16_7) (= true_term (is ONDEMANDIMPORTDECL_33_16_7 T_int)) (= els_pre_51_19_28 els_51_19_28) (= els_51_19_28 (asField els_51_19_28 T_javafe_ast_Stmt)) (< (fClosedTime els_51_19_28) alloc) true (= loc_pre_50_20_13 loc_50_20_13) (= loc_50_20_13 (asField loc_50_20_13 T_int)) (= count_pre_154_67_33 count_154_67_33) (= count_154_67_33 (asField count_154_67_33 T_int)) (= locCloseBrace_pre_45_25_13 locCloseBrace_45_25_13) (= locCloseBrace_45_25_13 (asField locCloseBrace_45_25_13 T_int)) (= TRYCATCHSTMT_pre_33_43_7 TRYCATCHSTMT_33_43_7) (= true_term (is TRYCATCHSTMT_33_43_7 T_int)) (= locType_pre_75_21_13 locType_75_21_13) (= locType_75_21_13 (asField locType_75_21_13 T_int)) (= DIV_pre_32_35_26 DIV_32_35_26) (= true_term (is DIV_32_35_26 T_int)) (= loc_pre_44_18_13 loc_44_18_13) (= loc_44_18_13 (asField loc_44_18_13 T_int)) (= VOIDTYPE_pre_31_33_26 VOIDTYPE_31_33_26) (= true_term (is VOIDTYPE_31_33_26 T_int)) (= catchClauses_pre_60_20_38 catchClauses_60_20_38) (= catchClauses_60_20_38 (asField catchClauses_60_20_38 T_javafe_ast_CatchClauseVec)) (< (fClosedTime catchClauses_60_20_38) alloc) true (= SINGLETYPEIMPORTDECL_pre_33_15_7 SINGLETYPEIMPORTDECL_33_15_7) (= true_term (is SINGLETYPEIMPORTDECL_33_15_7 T_int)) (= lexicalPragmas_pre_6_23_26 lexicalPragmas_6_23_26) (= lexicalPragmas_6_23_26 (asField lexicalPragmas_6_23_26 T_javafe_ast_LexicalPragmaVec)) (< (fClosedTime lexicalPragmas_6_23_26) alloc) (= count_pre_38_67_33 count_38_67_33) (= count_38_67_33 (asField count_38_67_33 T_int)) (= loc_pre_40_18_13 loc_40_18_13) (= loc_40_18_13 (asField loc_40_18_13 T_int)) (= elements_pre_26_61_43 elements_26_61_43) (= elements_26_61_43 (asField elements_26_61_43 (array T_javafe_ast_ModifierPragma))) (< (fClosedTime elements_26_61_43) alloc) true (= TRYFINALLYSTMT_pre_33_42_7 TRYFINALLYSTMT_33_42_7) (= true_term (is TRYFINALLYSTMT_33_42_7 T_int)) (= index_pre_86_17_28 index_86_17_28) (= index_86_17_28 (asField index_86_17_28 T_javafe_ast_Expr)) (< (fClosedTime index_86_17_28) alloc) true (= SUB_pre_32_34_26 SUB_32_34_26) (= true_term (is SUB_32_34_26 T_int)) (= expr_pre_94_29_28 expr_94_29_28) (= expr_94_29_28 (asField expr_94_29_28 T_javafe_ast_Expr)) (< (fClosedTime expr_94_29_28) alloc) true (= locCloseBrace_pre_83_24_13 locCloseBrace_83_24_13) (= locCloseBrace_83_24_13 (asField locCloseBrace_83_24_13 T_int)) (= loc_pre_62_22_13 loc_62_22_13) (= loc_62_22_13 (asField loc_62_22_13 T_int)) (= locId_pre_98_24_13 locId_98_24_13) (= locId_98_24_13 (asField locId_98_24_13 T_int)) (= DOUBLETYPE_pre_31_32_26 DOUBLETYPE_31_32_26) (= true_term (is DOUBLETYPE_31_32_26 T_int)) (= MIN_VALUE_pre_105_39_30 MIN_VALUE_105_39_30) (= true_term (is MIN_VALUE_105_39_30 T_int)) (= COMPILATIONUNIT_pre_33_14_7 COMPILATIONUNIT_33_14_7) (= true_term (is COMPILATIONUNIT_33_14_7 T_int)) (= thn_pre_51_17_28 thn_51_17_28) (= thn_51_17_28 (asField thn_51_17_28 T_javafe_ast_Stmt)) (< (fClosedTime thn_51_17_28) alloc) true (= elemType_pre_81_18_28 elemType_81_18_28) (= elemType_81_18_28 (asField elemType_81_18_28 T_javafe_ast_Type)) (< (fClosedTime elemType_81_18_28) alloc) true (= pkgName_pre_6_21_14 pkgName_6_21_14) (= pkgName_6_21_14 (asField pkgName_6_21_14 T_javafe_ast_Name)) (< (fClosedTime pkgName_6_21_14) alloc) (= enclosingInstance_pre_70_37_14 enclosingInstance_70_37_14) (= enclosingInstance_70_37_14 (asField enclosingInstance_70_37_14 T_javafe_ast_Expr)) (< (fClosedTime enclosingInstance_70_37_14) alloc) (= locId_pre_24_48_13 locId_24_48_13) (= locId_24_48_13 (asField locId_24_48_13 T_int)) (= elements_pre_84_61_36 elements_84_61_36) (= elements_84_61_36 (asField elements_84_61_36 (array T_javafe_ast_VarInit))) (< (fClosedTime elements_84_61_36) alloc) true (= SWITCHLABEL_pre_33_41_7 SWITCHLABEL_33_41_7) (= true_term (is SWITCHLABEL_33_41_7 T_int)) (= ADD_pre_32_33_26 ADD_32_33_26) (= true_term (is ADD_32_33_26 T_int)) (= locDots_pre_163_31_29 locDots_163_31_29) (= locDots_163_31_29 (asField locDots_163_31_29 ?v_0)) (< (fClosedTime locDots_163_31_29) alloc) true (= typeName_pre_19_15_32 typeName_19_15_32) (= typeName_19_15_32 (asField typeName_19_15_32 T_javafe_ast_TypeName)) (< (fClosedTime typeName_19_15_32) alloc) true (= type_pre_88_24_28 type_88_24_28) (= type_88_24_28 (asField type_88_24_28 T_javafe_ast_Type)) (< (fClosedTime type_88_24_28) alloc) true (= type_pre_103_27_28 type_103_27_28) (= type_103_27_28 (asField type_103_27_28 T_javafe_ast_Type)) (< (fClosedTime type_103_27_28) alloc) true (= FLOATTYPE_pre_31_31_26 FLOATTYPE_31_31_26) (= true_term (is FLOATTYPE_31_31_26 T_int)) (= name_pre_20_18_28 name_20_18_28) (= name_20_18_28 (asField name_20_18_28 T_javafe_ast_Name)) (< (fClosedTime name_20_18_28) alloc) true (= locId_pre_76_43_13 locId_76_43_13) (= locId_76_43_13 (asField locId_76_43_13 T_int)) (= otherStrings_pre_119_193_30 otherStrings_119_193_30) (= true_term (is otherStrings_119_193_30 ?v_1)) (= true_term (isAllocated otherStrings_119_193_30 alloc)) (= stmt_pre_50_17_28 stmt_50_17_28) (= stmt_50_17_28 (asField stmt_50_17_28 T_javafe_ast_Stmt)) (< (fClosedTime stmt_50_17_28) alloc) true (= tryClause_pre_60_18_28 tryClause_60_18_28) (= tryClause_60_18_28 (asField tryClause_60_18_28 T_javafe_ast_Stmt)) (< (fClosedTime tryClause_60_18_28) alloc) true (= elements_pre_46_61_33 elements_46_61_33) (= elements_46_61_33 (asField elements_46_61_33 (array T_javafe_ast_Stmt))) (< (fClosedTime elements_46_61_33) alloc) true (= array_pre_86_15_28 array_86_15_28) (= array_86_15_28 (asField array_86_15_28 T_javafe_ast_Expr)) (< (fClosedTime array_86_15_28) alloc) true (= SKIPSTMT_pre_33_40_7 SKIPSTMT_33_40_7) (= true_term (is SKIPSTMT_33_40_7 T_int)) (= locOpenBrace_pre_45_22_13 locOpenBrace_45_22_13) (= locOpenBrace_45_22_13 (asField locOpenBrace_45_22_13 T_int)) (= op_pre_94_26_13 op_94_26_13) (= op_94_26_13 (asField op_94_26_13 T_int)) (= URSHIFT_pre_32_32_26 URSHIFT_32_32_26) (= true_term (is URSHIFT_32_32_26 T_int)) (= expr_pre_44_15_28 expr_44_15_28) (= expr_44_15_28 (asField expr_44_15_28 T_javafe_ast_Expr)) (< (fClosedTime expr_44_15_28) alloc) true (= locOpenBrackets_pre_88_65_29 locOpenBrackets_88_65_29) (= locOpenBrackets_88_65_29 (asField locOpenBrackets_88_65_29 ?v_0)) (< (fClosedTime locOpenBrackets_88_65_29) alloc) true (= COMPOUNDNAME_pre_33_67_7 COMPOUNDNAME_33_67_7) (= true_term (is COMPOUNDNAME_33_67_7 T_int)) (= CHARTYPE_pre_31_30_26 CHARTYPE_31_30_26) (= true_term (is CHARTYPE_31_30_26 T_int)) (= locId_pre_64_38_13 locId_64_38_13) (= locId_64_38_13 (asField locId_64_38_13 T_int)) (= expr_pre_51_15_28 expr_51_15_28) (= expr_51_15_28 (asField expr_51_15_28 T_javafe_ast_Expr)) (< (fClosedTime expr_51_15_28) alloc) true (= expr_pre_40_15_14 expr_40_15_14) (= expr_40_15_14 (asField expr_40_15_14 T_javafe_ast_Expr)) (< (fClosedTime expr_40_15_14) alloc) (= FORSTMT_pre_33_39_7 FORSTMT_33_39_7) (= true_term (is FORSTMT_33_39_7 T_int)) (= RSHIFT_pre_32_31_26 RSHIFT_32_31_26) (= true_term (is RSHIFT_32_31_26 T_int)) (= body_pre_62_19_33 body_62_19_33) (= body_62_19_33 (asField body_62_19_33 T_javafe_ast_BlockStmt)) (< (fClosedTime body_62_19_33) alloc) true (= locOpenBrace_pre_83_21_13 locOpenBrace_83_21_13) (= locOpenBrace_83_21_13 (asField locOpenBrace_83_21_13 T_int)) (= id_pre_98_21_34 id_98_21_34) (= id_98_21_34 (asField id_98_21_34 T_javafe_ast_Identifier)) (< (fClosedTime id_98_21_34) alloc) true (= block_pre_74_28_33 block_74_28_33) (= block_74_28_33 (asField block_74_28_33 T_javafe_ast_BlockStmt)) (< (fClosedTime block_74_28_33) alloc) true (= SIMPLENAME_pre_33_66_7 SIMPLENAME_33_66_7) (= true_term (is SIMPLENAME_33_66_7 T_int)) (= LONGTYPE_pre_31_29_26 LONGTYPE_31_29_26) (= true_term (is LONGTYPE_31_29_26 T_int)) (= expr_pre_50_15_28 expr_50_15_28) (= expr_50_15_28 (asField expr_50_15_28 T_javafe_ast_Expr)) (< (fClosedTime expr_50_15_28) alloc) true (= locColon_pre_89_25_13 locColon_89_25_13) (= locColon_89_25_13 (asField locColon_89_25_13 T_int)) (= superClass_pre_34_15_18 superClass_34_15_18) (= superClass_34_15_18 (asField superClass_34_15_18 T_javafe_ast_TypeName)) (< (fClosedTime superClass_34_15_18) alloc) (= returnType_pre_75_18_28 returnType_75_18_28) (= returnType_75_18_28 (asField returnType_75_18_28 T_javafe_ast_Type)) (< (fClosedTime returnType_75_18_28) alloc) true (= IFSTMT_pre_33_38_7 IFSTMT_33_38_7) (= true_term (is IFSTMT_33_38_7 T_int)) (= elements_pre_61_61_40 elements_61_61_40) (= elements_61_61_40 (asField elements_61_61_40 (array T_javafe_ast_CatchClause))) (< (fClosedTime elements_61_61_40) alloc) true (= LSHIFT_pre_32_30_26 LSHIFT_32_30_26) (= true_term (is LSHIFT_32_30_26 T_int)) (= self_pre_4_41_37 self_4_41_37) (= self_4_41_37 (asField self_4_41_37 T_javafe_ast_PrettyPrint)) (< (fClosedTime self_4_41_37) alloc) true (= loc_pre_24_45_13 loc_24_45_13) (= loc_24_45_13 (asField loc_24_45_13 T_int)) (= ARRAYTYPE_pre_33_65_7 ARRAYTYPE_33_65_7) (= true_term (is ARRAYTYPE_33_65_7 T_int)) (= INTTYPE_pre_31_28_26 INTTYPE_31_28_26) (= true_term (is INTTYPE_31_28_26 T_int)) (= POSTFIXDEC_pre_32_63_26 POSTFIXDEC_32_63_26) (= true_term (is POSTFIXDEC_32_63_26 T_int)) (= locOpenParen_pre_87_52_13 locOpenParen_87_52_13) (= locOpenParen_87_52_13 (asField locOpenParen_87_52_13 T_int)) (= elements_pre_35_61_37 elements_35_61_37) (= elements_35_61_37 (asField elements_35_61_37 (array T_javafe_ast_TypeName))) (< (fClosedTime elements_35_61_37) alloc) true (= loc_pre_76_40_13 loc_76_40_13) (= loc_76_40_13 (asField loc_76_40_13 T_int)) (= LABELSTMT_pre_33_37_7 LABELSTMT_33_37_7) (= true_term (is LABELSTMT_33_37_7 T_int)) (= stmts_pre_45_19_31 stmts_45_19_31) (= stmts_45_19_31 (asField stmts_45_19_31 T_javafe_ast_StmtVec)) (< (fClosedTime stmts_45_19_31) alloc) true (= LT_pre_32_29_26 LT_32_29_26) (= true_term (is LT_32_29_26 T_int)) (= arg_pre_62_17_38 arg_62_17_38) (= arg_62_17_38 (asField arg_62_17_38 T_javafe_ast_FormalParaDecl)) (< (fClosedTime arg_62_17_38) alloc) true (= od_pre_98_19_40 od_98_19_40) (= od_98_19_40 (asField od_98_19_40 T_javafe_ast_ObjectDesignator)) (< (fClosedTime od_98_19_40) alloc) true (= pmodifiers_pre_74_26_27 pmodifiers_74_26_27) (= pmodifiers_74_26_27 (asField pmodifiers_74_26_27 T_javafe_ast_ModifierPragmaVec)) (< (fClosedTime pmodifiers_74_26_27) alloc) (= elements_pre_77_61_43 elements_77_61_43) (= elements_77_61_43 (asField elements_77_61_43 (array T_javafe_ast_FormalParaDecl))) (< (fClosedTime elements_77_61_43) alloc) true (= TYPENAME_pre_33_64_7 TYPENAME_33_64_7) (= true_term (is TYPENAME_33_64_7 T_int)) (= BOOLEANTYPE_pre_31_27_26 BOOLEANTYPE_31_27_26) (= true_term (is BOOLEANTYPE_31_27_26 T_int)) (= POSTFIXINC_pre_32_62_26 POSTFIXINC_32_62_26) (= true_term (is POSTFIXINC_32_62_26 T_int)) (= type_pre_64_35_28 type_64_35_28) (= type_64_35_28 (asField type_64_35_28 T_javafe_ast_Type)) (< (fClosedTime type_64_35_28) alloc) true (= init_pre_67_19_17 init_67_19_17) (= init_67_19_17 (asField init_67_19_17 T_javafe_ast_VarInit)) (< (fClosedTime init_67_19_17) alloc) (= modifiers_pre_74_24_13 modifiers_74_24_13) (= modifiers_74_24_13 (asField modifiers_74_24_13 T_int)) (= CONTINUESTMT_pre_33_36_7 CONTINUESTMT_33_36_7) (= true_term (is CONTINUESTMT_33_36_7 T_int)) (= LE_pre_32_28_26 LE_32_28_26) (= true_term (is LE_32_28_26 T_int)) (= elems_pre_83_18_34 elems_83_18_34) (= elems_83_18_34 (asField elems_83_18_34 T_javafe_ast_VarInitVec)) (< (fClosedTime elems_83_18_34) alloc) true (= SUPEROBJECTDESIGNATOR_pre_33_63_7 SUPEROBJECTDESIGNATOR_33_63_7) (= true_term (is SUPEROBJECTDESIGNATOR_33_63_7 T_int)) (= parent_pre_74_22_18 parent_74_22_18) (= parent_74_22_18 (asField parent_74_22_18 T_javafe_ast_TypeDecl)) (< (fClosedTime parent_74_22_18) alloc) (= IDENT_pre_31_25_26 IDENT_31_25_26) (= true_term (is IDENT_31_25_26 T_int)) (= DEC_pre_32_59_26 DEC_32_59_26) (= true_term (is DEC_32_59_26 T_int)) (= elements_pre_143_61_39 elements_143_61_39) (= elements_143_61_39 (asField elements_143_61_39 (array T_javafe_ast_Identifier))) (< (fClosedTime elements_143_61_39) alloc) true (= count_pre_82_67_33 count_82_67_33) (= count_82_67_33 (asField count_82_67_33 T_int)) (= loc_pre_47_29_13 loc_47_29_13) (= loc_47_29_13 (asField loc_47_29_13 T_int)) (= tokenType_pre_37_90_8 tokenType_37_90_8) (= tokenType_37_90_8 (asField tokenType_37_90_8 T_int)) (= BREAKSTMT_pre_33_35_7 BREAKSTMT_33_35_7) (= true_term (is BREAKSTMT_33_35_7 T_int)) (= loc_pre_43_18_13 loc_43_18_13) (= loc_43_18_13 (asField loc_43_18_13 T_int)) (= locQuestion_pre_89_22_13 locQuestion_89_22_13) (= locQuestion_89_22_13 (asField locQuestion_89_22_13 T_int)) (= GT_pre_32_27_26 GT_32_27_26) (= true_term (is GT_32_27_26 T_int)) (= elems_pre_24_41_39 elems_24_41_39) (= elems_24_41_39 (asField elems_24_41_39 T_javafe_ast_TypeDeclElemVec)) (< (fClosedTime elems_24_41_39) alloc) true (= TYPEOBJECTDESIGNATOR_pre_33_62_7 TYPEOBJECTDESIGNATOR_33_62_7) (= true_term (is TYPEOBJECTDESIGNATOR_33_62_7 T_int)) (= INC_pre_32_58_26 INC_32_58_26) (= true_term (is INC_32_58_26 T_int)) (= loc_pre_87_49_13 loc_87_49_13) (= loc_87_49_13 (asField loc_87_49_13 T_int)) (= count_pre_17_67_33 count_17_67_33) (= count_17_67_33 (asField count_17_67_33 T_int)) (= id_pre_75_15_34 id_75_15_34) (= id_75_15_34 (asField id_75_15_34 T_javafe_ast_Identifier)) (< (fClosedTime id_75_15_34) alloc) true (= THROWSTMT_pre_33_34_7 THROWSTMT_33_34_7) (= true_term (is THROWSTMT_33_34_7 T_int)) (= superCall_pre_70_24_17 superCall_70_24_17) (= superCall_70_24_17 (asField superCall_70_24_17 T_boolean)) (= GE_pre_32_26_26 GE_32_26_26) (= true_term (is GE_32_26_26 T_int)) (= decl_pre_97_26_38 decl_97_26_38) (= decl_97_26_38 (asField decl_97_26_38 T_javafe_ast_GenericVarDecl)) (< (fClosedTime decl_97_26_38) alloc) true (= EXPROBJECTDESIGNATOR_pre_33_61_7 EXPROBJECTDESIGNATOR_33_61_7) (= true_term (is EXPROBJECTDESIGNATOR_33_61_7 T_int)) (= BITNOT_pre_32_57_26 BITNOT_32_57_26) (= true_term (is BITNOT_32_57_26 T_int)) (= count_pre_155_67_33 count_155_67_33) (= count_155_67_33 (asField count_155_67_33 T_int)) (= RETURNSTMT_pre_33_33_7 RETURNSTMT_33_33_7) (= true_term (is RETURNSTMT_33_33_7 T_int)) (= punctuationCodes_pre_119_164_19 punctuationCodes_119_164_19) (= true_term (is punctuationCodes_119_164_19 ?v_0)) (= true_term (isAllocated punctuationCodes_119_164_19 alloc)) (= count_pre_14_67_33 count_14_67_33) (= count_14_67_33 (asField count_14_67_33 T_int)) (= punctuationStrings_pre_119_134_22 punctuationStrings_119_134_22) (= true_term (is punctuationStrings_119_134_22 ?v_1)) (= true_term (isAllocated punctuationStrings_119_134_22 alloc)) (= EQ_pre_32_25_26 EQ_32_25_26) (= true_term (is EQ_32_25_26 T_int)) (= loc_pre_53_18_13 loc_53_18_13) (= loc_53_18_13 (asField loc_53_18_13 T_int)) (= locDot_pre_99_21_13 locDot_99_21_13) (= locDot_99_21_13 (asField locDot_99_21_13 T_int)) (= CLASSLITERAL_pre_33_60_7 CLASSLITERAL_33_60_7) (= true_term (is CLASSLITERAL_33_60_7 T_int)) (= locSuper_pre_161_20_13 locSuper_161_20_13) (= locSuper_161_20_13 (asField locSuper_161_20_13 T_int)) (= NOT_pre_32_56_26 NOT_32_56_26) (= true_term (is NOT_32_56_26 T_int)) (= loc_pre_160_16_13 loc_160_16_13) (= loc_160_16_13 (asField loc_160_16_13 T_int)) (= locCloseParen_pre_91_24_13 locCloseParen_91_24_13) (= locCloseParen_91_24_13 (asField locCloseParen_91_24_13 T_int)) (= args_pre_100_32_31 args_100_32_31) (= args_100_32_31 (asField args_100_32_31 T_javafe_ast_ExprVec)) (< (fClosedTime args_100_32_31) alloc) true (= decl_pre_101_34_20 decl_101_34_20) (= decl_101_34_20 (asField decl_101_34_20 T_javafe_ast_MethodDecl)) (< (fClosedTime decl_101_34_20) alloc) (= id_pre_64_32_34 id_64_32_34) (= id_64_32_34 (asField id_64_32_34 T_javafe_ast_Identifier)) (< (fClosedTime id_64_32_34) alloc) true (= expr_pre_47_26_14 expr_47_26_14) (= expr_47_26_14 (asField expr_47_26_14 T_javafe_ast_Expr)) (< (fClosedTime expr_47_26_14) alloc) (= decl_pre_66_15_36 decl_66_15_36) (= decl_66_15_36 (asField decl_66_15_36 T_javafe_ast_LocalVarDecl)) (< (fClosedTime decl_66_15_36) alloc) true (= locOpenParen_pre_55_23_13 locOpenParen_55_23_13) (= locOpenParen_55_23_13 (asField locOpenParen_55_23_13 T_int)) (= EVALSTMT_pre_33_32_7 EVALSTMT_33_32_7) (= true_term (is EVALSTMT_33_32_7 T_int)) (= elements_pre_69_61_33 elements_69_61_33) (= elements_69_61_33 (asField elements_69_61_33 (array T_javafe_ast_Expr))) (< (fClosedTime elements_69_61_33) alloc) true (= owner_pre_5_35_28 owner_5_35_28) (= owner_5_35_28 (asField owner_5_35_28 T_java_lang_Object)) (< (fClosedTime owner_5_35_28) alloc) (= expr_pre_43_15_28 expr_43_15_28) (= expr_43_15_28 (asField expr_43_15_28 T_javafe_ast_Expr)) (< (fClosedTime expr_43_15_28) alloc) true (= NE_pre_32_24_26 NE_32_24_26) (= true_term (is NE_32_24_26 T_int)) (= locId_pre_58_20_13 locId_58_20_13) (= locId_58_20_13 (asField locId_58_20_13 T_int)) (= elements_pre_154_61_38 elements_154_61_38) (= elements_154_61_38 (asField elements_154_61_38 (array T_javafe_ast_FieldDecl))) (< (fClosedTime elements_154_61_38) alloc) true (= METHODINVOCATION_pre_33_59_7 METHODINVOCATION_33_59_7) (= true_term (is METHODINVOCATION_33_59_7 T_int)) (= els_pre_89_19_28 els_89_19_28) (= els_89_19_28 (asField els_89_19_28 T_javafe_ast_Expr)) (< (fClosedTime els_89_19_28) alloc) true (= LAST_KEYWORD_pre_119_103_26 LAST_KEYWORD_119_103_26) (= true_term (is LAST_KEYWORD_119_103_26 T_int)) (= UNARYSUB_pre_32_55_26 UNARYSUB_32_55_26) (= true_term (is UNARYSUB_32_55_26 T_int)) (= MIN_VALUE_pre_107_38_29 MIN_VALUE_107_38_29) (= true_term (is MIN_VALUE_107_38_29 T_long)) (= anonDecl_pre_87_45_19 anonDecl_87_45_19) (= anonDecl_87_45_19 (asField anonDecl_87_45_19 T_javafe_ast_ClassDecl)) (< (fClosedTime anonDecl_87_45_19) alloc) (= count_pre_23_67_33 count_23_67_33) (= count_23_67_33 (asField count_23_67_33 T_int)) (= loc_pre_18_18_13 loc_18_18_13) (= loc_18_18_13 (asField loc_18_18_13 T_int)) (= superInterfaces_pre_24_34_35 superInterfaces_24_34_35) (= superInterfaces_24_34_35 (asField superInterfaces_24_34_35 T_javafe_ast_TypeNameVec)) (< (fClosedTime superInterfaces_24_34_35) alloc) true (= keywordStrings_pre_119_181_30 keywordStrings_119_181_30) (= true_term (is keywordStrings_119_181_30 ?v_1)) (= true_term (isAllocated keywordStrings_119_181_30 alloc)) (= locOpenBrace_pre_76_36_13 locOpenBrace_76_36_13) (= locOpenBrace_76_36_13 (asField locOpenBrace_76_36_13 T_int)) (= SYNCHRONIZESTMT_pre_33_31_7 SYNCHRONIZESTMT_33_31_7) (= true_term (is SYNCHRONIZESTMT_33_31_7 T_int)) (= NULL_pre_119_82_26 NULL_119_82_26) (= true_term (is NULL_119_82_26 T_int)) (= BITAND_pre_32_23_26 BITAND_32_23_26) (= true_term (is BITAND_32_23_26 T_int)) (= count_pre_29_99_33 count_29_99_33) (= count_29_99_33 (asField count_29_99_33 T_int)) (= elements_pre_38_61_41 elements_38_61_41) (= elements_38_61_41 (asField elements_38_61_41 (array T_javafe_ast_TypeDeclElem))) (< (fClosedTime elements_38_61_41) alloc) true (= body_pre_76_34_19 body_76_34_19) (= body_76_34_19 (asField body_76_34_19 T_javafe_ast_BlockStmt)) (< (fClosedTime body_76_34_19) alloc) (= AMBIGUOUSMETHODINVOCATION_pre_33_58_7 AMBIGUOUSMETHODINVOCATION_33_58_7) (= true_term (is AMBIGUOUSMETHODINVOCATION_33_58_7 T_int)) (= UNARYADD_pre_32_54_26 UNARYADD_32_54_26) (= true_term (is UNARYADD_32_54_26 T_int)) (= pmodifiers_pre_64_30_27 pmodifiers_64_30_27) (= pmodifiers_64_30_27 (asField pmodifiers_64_30_27 T_javafe_ast_ModifierPragmaVec)) (< (fClosedTime pmodifiers_64_30_27) alloc) (= locOpenParen_pre_100_30_13 locOpenParen_100_30_13) (= locOpenParen_100_30_13 (asField locOpenParen_100_30_13 T_int)) (= locFirstSemi_pre_68_36_13 locFirstSemi_68_36_13) (= locFirstSemi_68_36_13 (asField locFirstSemi_68_36_13 T_int)) (= loc_pre_117_35_13 loc_117_35_13) (= loc_117_35_13 (asField loc_117_35_13 T_int)) (= raises_pre_76_32_35 raises_76_32_35) (= raises_76_32_35 (asField raises_76_32_35 T_javafe_ast_TypeNameVec)) (< (fClosedTime raises_76_32_35) alloc) true (= inst_pre_4_29_44 inst_4_29_44) (= true_term (is inst_4_29_44 T_javafe_ast_PrettyPrint)) (= true_term (isAllocated inst_4_29_44 alloc)) (not (= inst_4_29_44 null)) (= DOSTMT_pre_33_30_7 DOSTMT_33_30_7) (= true_term (is DOSTMT_33_30_7 T_int)) (= expr_pre_57_15_28 expr_57_15_28) (= expr_57_15_28 (asField expr_57_15_28 T_javafe_ast_Expr)) (< (fClosedTime expr_57_15_28) alloc) true (= BITXOR_pre_32_22_26 BITXOR_32_22_26) (= true_term (is BITXOR_32_22_26 T_int)) (= modifiers_pre_64_28_13 modifiers_64_28_13) (= modifiers_64_28_13 (asField modifiers_64_28_13 T_int)) (= label_pre_53_15_20 label_53_15_20) (= label_53_15_20 (asField label_53_15_20 T_javafe_ast_Identifier)) (< (fClosedTime label_53_15_20) alloc) (= FIELDACCESS_pre_33_57_7 FIELDACCESS_33_57_7) (= true_term (is FIELDACCESS_33_57_7 T_int)) (= thn_pre_89_17_28 thn_89_17_28) (= thn_89_17_28 (asField thn_89_17_28 T_javafe_ast_Expr)) (< (fClosedTime thn_89_17_28) alloc) true (= ASGBITXOR_pre_32_51_26 ASGBITXOR_32_51_26) (= true_term (is ASGBITXOR_32_51_26 T_int)) (= loc_pre_97_22_13 loc_97_22_13) (= loc_97_22_13 (asField loc_97_22_13 T_int)) (= locIds_pre_163_25_29 locIds_163_25_29) (= locIds_163_25_29 (asField locIds_163_25_29 ?v_0)) (< (fClosedTime locIds_163_25_29) alloc) true (= id_pre_24_32_34 id_24_32_34) (= id_24_32_34 (asField id_24_32_34 T_javafe_ast_Identifier)) (< (fClosedTime id_24_32_34) alloc) true (= locOpenParen_pre_91_21_13 locOpenParen_91_21_13) (= locOpenParen_91_21_13 (asField locOpenParen_91_21_13 T_int)) (= WHILESTMT_pre_33_29_7 WHILESTMT_33_29_7) (= true_term (is WHILESTMT_33_29_7 T_int)) (= BITOR_pre_32_21_26 BITOR_32_21_26) (= true_term (is BITOR_32_21_26 T_int)) (= stmt_pre_58_17_28 stmt_58_17_28) (= stmt_58_17_28 (asField stmt_58_17_28 T_javafe_ast_Stmt)) (< (fClosedTime stmt_58_17_28) alloc) true (= args_pre_101_30_31 args_101_30_31) (= args_101_30_31 (asField args_101_30_31 T_javafe_ast_ExprVec)) (< (fClosedTime args_101_30_31) alloc) true (= args_pre_87_34_31 args_87_34_31) (= args_87_34_31 (asField args_87_34_31 T_javafe_ast_ExprVec)) (< (fClosedTime args_87_34_31) alloc) true (= VARIABLEACCESS_pre_33_56_7 VARIABLEACCESS_33_56_7) (= true_term (is VARIABLEACCESS_33_56_7 T_int)) (= NULL_pre_116_60_26 NULL_116_60_26) (= true_term (is NULL_116_60_26 T_int)) (= ASGBITOR_pre_32_50_26 ASGBITOR_32_50_26) (= true_term (is ASGBITOR_32_50_26 T_int)) (= inferred_pre_71_33_17 inferred_71_33_17) (= inferred_71_33_17 (asField inferred_71_33_17 T_boolean)) (= expr_pre_102_22_28 expr_102_22_28) (= expr_102_22_28 (asField expr_102_22_28 T_javafe_ast_Expr)) (< (fClosedTime expr_102_22_28) alloc) true (= decl_pre_65_15_33 decl_65_15_33) (= decl_65_15_33 (asField decl_65_15_33 T_javafe_ast_ClassDecl)) (< (fClosedTime decl_65_15_33) alloc) true (= args_pre_76_30_41 args_76_30_41) (= args_76_30_41 (asField args_76_30_41 T_javafe_ast_FormalParaDeclVec)) (< (fClosedTime args_76_30_41) alloc) true (= CLASSDECLSTMT_pre_33_28_7 CLASSDECLSTMT_33_28_7) (= true_term (is CLASSDECLSTMT_33_28_7 T_int)) (= test_pre_89_15_28 test_89_15_28) (= test_89_15_28 (asField test_89_15_28 T_javafe_ast_Expr)) (< (fClosedTime test_89_15_28) alloc) true (= AMBIGUOUSVARIABLEACCESS_pre_33_55_7 AMBIGUOUSVARIABLEACCESS_33_55_7) (= true_term (is AMBIGUOUSVARIABLEACCESS_33_55_7 T_int)) (= ASGBITAND_pre_32_49_26 ASGBITAND_32_49_26) (= true_term (is ASGBITAND_32_49_26 T_int)) (= loc_pre_88_49_13 loc_88_49_13) (= loc_88_49_13 (asField loc_88_49_13 T_int)) (= pmodifiers_pre_24_30_27 pmodifiers_24_30_27) (= pmodifiers_24_30_27 (asField pmodifiers_24_30_27 T_javafe_ast_ModifierPragmaVec)) (< (fClosedTime pmodifiers_24_30_27) alloc) (= elems_pre elems) (= elems (asElems elems)) (< (eClosedTime elems) alloc) (= LS (asLockSet LS)) (= alloc_pre alloc)) (not (and (= true_term (is this T_javafe_ast_StandardPrettyPrint)) (= true_term (isAllocated this alloc)) (not (= this null)) (= true_term (is o_1067_33 T_java_io_OutputStream)) (= true_term (isAllocated o_1067_33 alloc)) (= true_term (is lp_1067_50 T_javafe_ast_LexicalPragma)) (= true_term (isAllocated lp_1067_50 alloc)) ?v_6 ?v_2 (or ?v_8 (and ?v_2 ?v_11 ?v_3 ?v_12 ?v_13 (or (and ?v_7 (not (and ?v_6 (not (= s_1068_4_1068_4_4_381_50 null))))) (and ?v_7 ?v_14 (or ?v_8 (and ?v_2 ?v_15 ?v_16 ?v_9 ?v_17 (not (and ?v_6 ?v_10))))))) (and ?v_2 ?v_11 ?v_3 ?v_12 ?v_13 ?v_7 ?v_14 ?v_2 ?v_15 ?v_16 ?v_9 ?v_17 (= EC_1069_4_1069_4 ecReturn) (not (= ecReturn ecReturn))))))))))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/uflia/javafe.ast.WhileStmt.447_no_forall.smt2 b/test/regress/regress0/uflia/javafe.ast.WhileStmt.447_no_forall.smt2
deleted file mode 100644
index 534e8f404..000000000
--- a/test/regress/regress0/uflia/javafe.ast.WhileStmt.447_no_forall.smt2
+++ /dev/null
@@ -1,664 +0,0 @@
-(set-logic QF_UFLIA)
-(set-info :source | Simplify Theorem Prover Benchmark Suite |)
-(set-info :smt-lib-version 2.0)
-(set-info :category "industrial")
-(set-info :status unsat)
-(declare-fun true_term () Int)
-(declare-fun false_term () Int)
-(assert (= true_term 1))
-(assert (= false_term 0))
-(declare-fun S_select (Int Int) Int)
-(declare-fun S_store (Int Int Int) Int)
-(declare-fun PO_LT (Int Int) Int)
-(declare-fun T_java_lang_Object () Int)
-(assert (= (PO_LT T_java_lang_Object T_java_lang_Object) true_term))
-(declare-fun T_boolean () Int)
-(declare-fun T_char () Int)
-(declare-fun T_byte () Int)
-(declare-fun T_short () Int)
-(declare-fun T_int () Int)
-(declare-fun T_long () Int)
-(declare-fun T_float () Int)
-(declare-fun T_double () Int)
-(declare-fun asChild (Int Int) Int)
-(declare-fun classDown (Int Int) Int)
-(declare-fun T_java_lang_Cloneable () Int)
-(assert (= (PO_LT T_java_lang_Cloneable T_java_lang_Object) true_term))
-(declare-fun array (Int) Int)
-(declare-fun elemtype (Int) Int)
-(declare-fun is (Int Int) Int)
-(declare-fun cast (Int Int) Int)
-(assert true)
-(declare-fun intFirst () Int)
-(declare-fun intLast () Int)
-(declare-fun longFirst () Int)
-(declare-fun longLast () Int)
-(assert (< longFirst intFirst))
-(assert (< intFirst (- 1000000)))
-(assert (< 1000000 intLast))
-(assert (< intLast longLast))
-(declare-fun null () Int)
-(declare-fun typeof (Int) Int)
-(declare-fun asField (Int Int) Int)
-(declare-fun asElems (Int) Int)
-(declare-fun vAllocTime (Int) Int)
-(declare-fun isAllocated (Int Int) Int)
-(declare-fun fClosedTime (Int) Int)
-(declare-fun eClosedTime (Int) Int)
-(declare-fun asLockSet (Int) Int)
-(declare-fun max (Int) Int)
-(declare-fun lockLE (Int Int) Int)
-(declare-fun lockLT (Int Int) Int)
-(declare-fun arrayLength (Int) Int)
-(declare-fun arrayFresh (Int Int Int Int Int Int Int) Int)
-(declare-fun arrayShapeMore (Int Int) Int)
-(declare-fun arrayParent (Int) Int)
-(declare-fun arrayPosition (Int) Int)
-(declare-fun arrayShapeOne (Int) Int)
-(declare-fun arrayType () Int)
-(assert (= arrayType (asChild arrayType T_java_lang_Object)))
-(declare-fun isNewArray (Int) Int)
-(declare-fun boolAnd (Int Int) Int)
-(declare-fun boolEq (Int Int) Int)
-(declare-fun boolImplies (Int Int) Int)
-(declare-fun boolNE (Int Int) Int)
-(declare-fun boolNot (Int) Int)
-(declare-fun boolOr (Int Int) Int)
-(declare-fun integralEQ (Int Int) Int)
-(declare-fun stringCat (Int Int) Int)
-(declare-fun T_java_lang_String () Int)
-(declare-fun integralGE (Int Int) Int)
-(declare-fun integralGT (Int Int) Int)
-(declare-fun integralLE (Int Int) Int)
-(declare-fun integralLT (Int Int) Int)
-(declare-fun integralNE (Int Int) Int)
-(declare-fun refEQ (Int Int) Int)
-(declare-fun refNE (Int Int) Int)
-(declare-fun nonnullelements (Int Int) Int)
-(declare-fun classLiteral (Int) Int)
-(declare-fun T_java_lang_Class () Int)
-(declare-fun alloc () Int)
-(declare-fun integralAnd (Int Int) Int)
-(declare-fun integralOr (Int Int) Int)
-(declare-fun integralXor (Int Int) Int)
-(declare-fun intShiftL (Int Int) Int)
-(declare-fun longShiftL (Int Int) Int)
-(assert true)
-(declare-fun T_javafe_tc_MethodDeclVec () Int)
-(declare-fun T_javafe_ast_VarDeclStmt () Int)
-(declare-fun T_javafe_ast_Stmt () Int)
-(declare-fun T_javafe_ast_BinaryExpr () Int)
-(declare-fun T_javafe_ast_Expr () Int)
-(declare-fun T_java_lang_Comparable () Int)
-(declare-fun T_javafe_ast_BranchStmt () Int)
-(declare-fun T_javafe_ast_ClassLiteral () Int)
-(declare-fun T_javafe_ast_ConstructorDecl () Int)
-(declare-fun T_javafe_ast_RoutineDecl () Int)
-(declare-fun T_javafe_ast_ArrayRefExpr () Int)
-(declare-fun T_java_lang_Long () Int)
-(declare-fun T_java_lang_Number () Int)
-(declare-fun T_javafe_ast_AmbiguousMethodInvocation () Int)
-(declare-fun T_javafe_tc_TypeSig () Int)
-(declare-fun T_javafe_ast_Type () Int)
-(declare-fun T_javafe_ast_SimpleName () Int)
-(declare-fun T_javafe_ast_Name () Int)
-(declare-fun T_javafe_ast_WhileStmt () Int)
-(declare-fun T_javafe_ast_SwitchLabel () Int)
-(declare-fun T_javafe_ast_VariableAccess () Int)
-(declare-fun T_javafe_ast_DoStmt () Int)
-(declare-fun T_javafe_ast_VarInit () Int)
-(declare-fun T_javafe_tc_Env () Int)
-(declare-fun T_javafe_ast_ASTNode () Int)
-(declare-fun T_javafe_ast_OnDemandImportDecl () Int)
-(declare-fun T_javafe_ast_ImportDecl () Int)
-(declare-fun T_java_io_Serializable () Int)
-(declare-fun T_javafe_ast_ParenExpr () Int)
-(declare-fun T_javafe_ast_GenericVarDecl () Int)
-(declare-fun T_javafe_ast_ContinueStmt () Int)
-(declare-fun T_javafe_ast_InitBlock () Int)
-(declare-fun T_javafe_ast_TypeDeclElem () Int)
-(declare-fun T_javafe_ast_NewArrayExpr () Int)
-(declare-fun T_javafe_ast_TypeObjectDesignator () Int)
-(declare-fun T_javafe_ast_ObjectDesignator () Int)
-(declare-fun T_javafe_ast_Visitor () Int)
-(declare-fun T_java_lang_Exception () Int)
-(declare-fun T_java_lang_Throwable () Int)
-(declare-fun T_javafe_ast_ConstructorInvocation () Int)
-(declare-fun T_javafe_ast_ExprVec () Int)
-(declare-fun T_javafe_ast_GenericBlockStmt () Int)
-(declare-fun T_javafe_ast_TryCatchStmt () Int)
-(declare-fun T_javafe_ast_EvalStmt () Int)
-(declare-fun T_java_util_Map () Int)
-(declare-fun T_java_util_EscjavaKeyValue () Int)
-(declare-fun T_java_lang_Integer () Int)
-(declare-fun T_javafe_ast_FieldDecl () Int)
-(declare-fun T_javafe_ast_ClassDecl () Int)
-(declare-fun T_javafe_ast_TypeDecl () Int)
-(declare-fun T_javafe_ast_TypeName () Int)
-(declare-fun T_javafe_ast_ArrayInit () Int)
-(declare-fun T_javafe_ast_InstanceOfExpr () Int)
-(declare-fun T_javafe_ast_IfStmt () Int)
-(declare-fun T_javafe_ast_SwitchStmt () Int)
-(declare-fun T_javafe_ast_ThrowStmt () Int)
-(declare-fun T_javafe_ast_ASTDecoration () Int)
-(declare-fun T_javafe_ast_MethodInvocation () Int)
-(declare-fun T_javafe_ast_LiteralExpr () Int)
-(declare-fun T_javafe_ast_IdentifierVec () Int)
-(declare-fun T_javafe_util_Location () Int)
-(declare-fun T_javafe_ast_SkipStmt () Int)
-(declare-fun T_javafe_ast_AmbiguousVariableAccess () Int)
-(declare-fun T_javafe_ast_ClassDeclStmt () Int)
-(declare-fun T_java_lang_Double () Int)
-(declare-fun T_javafe_ast_UnaryExpr () Int)
-(declare-fun T_javafe_ast_SuperObjectDesignator () Int)
-(declare-fun T_java_lang_RuntimeException () Int)
-(declare-fun T_javafe_ast_BreakStmt () Int)
-(declare-fun T_javafe_ast_NewInstanceExpr () Int)
-(declare-fun T_javafe_ast_MethodDecl () Int)
-(declare-fun T_java_lang_Boolean () Int)
-(declare-fun T_javafe_ast_OperatorTags () Int)
-(declare-fun T_javafe_ast_GeneratedTags () Int)
-(declare-fun T_javafe_ast_Identifier () Int)
-(declare-fun T_javafe_ast_CompoundName () Int)
-(declare-fun T_javafe_ast_SynchronizeStmt () Int)
-(declare-fun T_javafe_ast_TryFinallyStmt () Int)
-(declare-fun T_javafe_ast_FieldAccess () Int)
-(declare-fun T_javafe_ast_LocalVarDecl () Int)
-(declare-fun T_javafe_ast_PrimitiveType () Int)
-(declare-fun T_javafe_ast_SingleTypeImportDecl () Int)
-(declare-fun T_javafe_ast_LabelStmt () Int)
-(declare-fun T_javafe_util_Assert () Int)
-(declare-fun T_javafe_ast_CondExpr () Int)
-(declare-fun T_javafe_ast_CompilationUnit () Int)
-(declare-fun T_java_lang_Float () Int)
-(declare-fun T_javafe_ast_VisitorArgResult () Int)
-(declare-fun T_javafe_ast_CatchClause () Int)
-(declare-fun T_javafe_parser_TagConstants () Int)
-(declare-fun T_javafe_ast_TagConstants () Int)
-(declare-fun T_javafe_ast_ExprObjectDesignator () Int)
-(declare-fun T_javafe_tc_TagConstants () Int)
-(declare-fun T_javafe_ast_BlockStmt () Int)
-(declare-fun T_javafe_ast_ReturnStmt () Int)
-(declare-fun T_javafe_tc_FieldDeclVec () Int)
-(declare-fun T_java_lang_IndexOutOfBoundsException () Int)
-(declare-fun T_java_util_Hashtable () Int)
-(declare-fun T_java_util_Dictionary () Int)
-(declare-fun T_javafe_ast_FormalParaDecl () Int)
-(declare-fun T_javafe_ast_ThisExpr () Int)
-(declare-fun T_javafe_ast_InterfaceDecl () Int)
-(declare-fun T_javafe_ast_ArrayType () Int)
-(declare-fun T_javafe_ast_CastExpr () Int)
-(declare-fun T_javafe_ast_ForStmt () Int)
-(declare-fun DIST_ZERO_1 () Int)
-(declare-fun T__TYPE () Int)
-(declare-fun VOIDTYPE_14_33_26 () Int)
-(declare-fun INSTANCEOFEXPR_16_52_7 () Int)
-(declare-fun AND_15_20_26 () Int)
-(declare-fun ASGURSHIFT_15_48_26 () Int)
-(declare-fun IFSTMT_16_38_7 () Int)
-(declare-fun URSHIFT_15_32_26 () Int)
-(declare-fun ARRAYTYPE_16_65_7 () Int)
-(declare-fun FORMALPARADECL_16_24_7 () Int)
-(declare-fun DOUBLETYPE_14_32_26 () Int)
-(declare-fun CONDEXPR_16_51_7 () Int)
-(declare-fun TYPEDECLELEMPRAGMA_30_27_26 () Int)
-(declare-fun OR_15_19_26 () Int)
-(declare-fun ASGRSHIFT_15_47_26 () Int)
-(declare-fun LABELSTMT_16_37_7 () Int)
-(declare-fun RSHIFT_15_31_26 () Int)
-(declare-fun TYPENAME_16_64_7 () Int)
-(declare-fun FIELDDECL_16_23_7 () Int)
-(declare-fun FLOATTYPE_14_31_26 () Int)
-(declare-fun NEWARRAYEXPR_16_50_7 () Int)
-(declare-fun ASGLSHIFT_15_46_26 () Int)
-(declare-fun CONTINUESTMT_16_36_7 () Int)
-(declare-fun STMTPRAGMA_30_26_26 () Int)
-(declare-fun LSHIFT_15_30_26 () Int)
-(declare-fun NULLLIT_14_45_26 () Int)
-(declare-fun SUPEROBJECTDESIGNATOR_16_63_7 () Int)
-(declare-fun LOCALVARDECL_16_22_7 () Int)
-(declare-fun punctuationStrings_30_134_22 () Int)
-(declare-fun POSTFIXDEC_15_63_26 () Int)
-(declare-fun CHARTYPE_14_30_26 () Int)
-(declare-fun NEWINSTANCEEXPR_16_49_7 () Int)
-(declare-fun ASGSUB_15_45_26 () Int)
-(declare-fun BREAKSTMT_16_35_7 () Int)
-(declare-fun otherStrings_30_193_30 () Int)
-(declare-fun LT_15_29_26 () Int)
-(declare-fun MODIFIERPRAGMA_30_25_26 () Int)
-(declare-fun STRINGLIT_14_44_26 () Int)
-(declare-fun TYPEOBJECTDESIGNATOR_16_62_7 () Int)
-(declare-fun INITBLOCK_16_21_7 () Int)
-(declare-fun noTokens_30_212_27 () Int)
-(declare-fun POSTFIXINC_15_62_26 () Int)
-(declare-fun LONGTYPE_14_29_26 () Int)
-(declare-fun ARRAYREFEXPR_16_48_7 () Int)
-(declare-fun ASGADD_15_44_26 () Int)
-(declare-fun THROWSTMT_16_34_7 () Int)
-(declare-fun TYPESIG_29_6_28 () Int)
-(declare-fun LE_15_28_26 () Int)
-(declare-fun DOUBLELIT_14_43_26 () Int)
-(declare-fun EXPROBJECTDESIGNATOR_16_61_7 () Int)
-(declare-fun METHODDECL_16_20_7 () Int)
-(declare-fun DEC_15_59_26 () Int)
-(declare-fun LEXICALPRAGMA_30_24_26 () Int)
-(declare-fun INTTYPE_14_28_26 () Int)
-(declare-fun THISEXPR_16_47_7 () Int)
-(declare-fun ASGREM_15_43_26 () Int)
-(declare-fun RETURNSTMT_16_33_7 () Int)
-(declare-fun LAST_KEYWORD_30_103_26 () Int)
-(declare-fun GT_15_27_26 () Int)
-(declare-fun FLOATLIT_14_42_26 () Int)
-(declare-fun CLASSLITERAL_16_60_7 () Int)
-(declare-fun CONSTRUCTORDECL_16_19_7 () Int)
-(declare-fun FIRST_KEYWORD_30_51_26 () Int)
-(declare-fun INC_15_58_26 () Int)
-(declare-fun BOOLEANTYPE_14_27_26 () Int)
-(declare-fun ARRAYINIT_16_46_7 () Int)
-(declare-fun ASGDIV_15_42_26 () Int)
-(declare-fun EVALSTMT_16_32_7 () Int)
-(declare-fun GE_15_26_26 () Int)
-(declare-fun CHARLIT_14_41_26 () Int)
-(declare-fun METHODINVOCATION_16_59_7 () Int)
-(declare-fun INTERFACEDECL_16_18_7 () Int)
-(declare-fun BITNOT_15_57_26 () Int)
-(declare-fun IDENT_14_25_26 () Int)
-(declare-fun CATCHCLAUSE_16_45_7 () Int)
-(declare-fun NULL_30_82_26 () Int)
-(declare-fun ASGMUL_15_41_26 () Int)
-(declare-fun SYNCHRONIZESTMT_16_31_7 () Int)
-(declare-fun EQ_15_25_26 () Int)
-(declare-fun LONGLIT_14_40_26 () Int)
-(declare-fun AMBIGUOUSMETHODINVOCATION_16_58_7 () Int)
-(declare-fun CLASSDECL_16_17_7 () Int)
-(declare-fun NOT_15_56_26 () Int)
-(declare-fun CONSTRUCTORINVOCATION_16_44_7 () Int)
-(declare-fun ASSIGN_15_40_26 () Int)
-(declare-fun DOSTMT_16_30_7 () Int)
-(declare-fun NE_15_24_26 () Int)
-(declare-fun INTLIT_14_39_26 () Int)
-(declare-fun FIELDACCESS_16_57_7 () Int)
-(declare-fun ONDEMANDIMPORTDECL_16_16_7 () Int)
-(declare-fun UNARYSUB_15_55_26 () Int)
-(declare-fun TRYCATCHSTMT_16_43_7 () Int)
-(declare-fun STAR_15_37_26 () Int)
-(declare-fun WHILESTMT_16_29_7 () Int)
-(declare-fun BITAND_15_23_26 () Int)
-(declare-fun BOOLEANLIT_14_38_26 () Int)
-(declare-fun VARIABLEACCESS_16_56_7 () Int)
-(declare-fun SINGLETYPEIMPORTDECL_16_15_7 () Int)
-(declare-fun UNARYADD_15_54_26 () Int)
-(declare-fun TRYFINALLYSTMT_16_42_7 () Int)
-(declare-fun MOD_15_36_26 () Int)
-(declare-fun otherCodes_30_202_27 () Int)
-(declare-fun CLASSDECLSTMT_16_28_7 () Int)
-(declare-fun BITXOR_15_22_26 () Int)
-(declare-fun SHORTTYPE_14_36_26 () Int)
-(declare-fun AMBIGUOUSVARIABLEACCESS_16_55_7 () Int)
-(declare-fun COMPILATIONUNIT_16_14_7 () Int)
-(declare-fun ASGBITXOR_15_51_26 () Int)
-(declare-fun punctuationCodes_30_164_19 () Int)
-(declare-fun NULL_13_60_26 () Int)
-(declare-fun SWITCHLABEL_16_41_7 () Int)
-(declare-fun DIV_15_35_26 () Int)
-(declare-fun VARDECLSTMT_16_27_7 () Int)
-(declare-fun BITOR_15_21_26 () Int)
-(declare-fun BYTETYPE_14_35_26 () Int)
-(declare-fun PARENEXPR_16_54_7 () Int)
-(declare-fun ASGBITOR_15_50_26 () Int)
-(declare-fun SKIPSTMT_16_40_7 () Int)
-(declare-fun SUB_15_34_26 () Int)
-(declare-fun COMPOUNDNAME_16_67_7 () Int)
-(declare-fun SWITCHSTMT_16_26_7 () Int)
-(declare-fun keywordStrings_30_181_30 () Int)
-(declare-fun NULLTYPE_14_34_26 () Int)
-(declare-fun CASTEXPR_16_53_7 () Int)
-(declare-fun ASGBITAND_15_49_26 () Int)
-(declare-fun FORSTMT_16_39_7 () Int)
-(declare-fun ADD_15_33_26 () Int)
-(declare-fun SIMPLENAME_16_66_7 () Int)
-(declare-fun BLOCKSTMT_16_25_7 () Int)
-(declare-fun TYPEMODIFIERPRAGMA_30_28_26 () Int)
-(assert (let ((?v_0 (array T_java_lang_String)) (?v_1 (array T_int))) (and (= (PO_LT T_javafe_tc_MethodDeclVec T_java_lang_Object) true_term) (= T_javafe_tc_MethodDeclVec (asChild T_javafe_tc_MethodDeclVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_VarDeclStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_VarDeclStmt (asChild T_javafe_ast_VarDeclStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_BinaryExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_BinaryExpr (asChild T_javafe_ast_BinaryExpr T_javafe_ast_Expr)) (= (PO_LT T_java_lang_Comparable T_java_lang_Object) true_term) (= (PO_LT T_javafe_ast_BranchStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_BranchStmt (asChild T_javafe_ast_BranchStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_ClassLiteral T_javafe_ast_Expr) true_term) (= T_javafe_ast_ClassLiteral (asChild T_javafe_ast_ClassLiteral T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_ConstructorDecl T_javafe_ast_RoutineDecl) true_term) (= T_javafe_ast_ConstructorDecl (asChild T_javafe_ast_ConstructorDecl T_javafe_ast_RoutineDecl)) (= (PO_LT T_javafe_ast_ArrayRefExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_ArrayRefExpr (asChild T_javafe_ast_ArrayRefExpr T_javafe_ast_Expr)) (= (PO_LT T_java_lang_Long T_java_lang_Number) true_term) (= T_java_lang_Long (asChild T_java_lang_Long T_java_lang_Number)) true (= (PO_LT T_java_lang_Long T_java_lang_Comparable) true_term) (= (PO_LT T_javafe_ast_AmbiguousMethodInvocation T_javafe_ast_Expr) true_term) (= T_javafe_ast_AmbiguousMethodInvocation (asChild T_javafe_ast_AmbiguousMethodInvocation T_javafe_ast_Expr)) (= (PO_LT T_javafe_tc_TypeSig T_javafe_ast_Type) true_term) (= T_javafe_tc_TypeSig (asChild T_javafe_tc_TypeSig T_javafe_ast_Type)) (= (PO_LT T_javafe_ast_SimpleName T_javafe_ast_Name) true_term) (= T_javafe_ast_SimpleName (asChild T_javafe_ast_SimpleName T_javafe_ast_Name)) (= (PO_LT T_javafe_ast_WhileStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_WhileStmt (asChild T_javafe_ast_WhileStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_SwitchLabel T_javafe_ast_Stmt) true_term) (= T_javafe_ast_SwitchLabel (asChild T_javafe_ast_SwitchLabel T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_VariableAccess T_javafe_ast_Expr) true_term) (= T_javafe_ast_VariableAccess (asChild T_javafe_ast_VariableAccess T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_DoStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_DoStmt (asChild T_javafe_ast_DoStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_Expr T_javafe_ast_VarInit) true_term) (= T_javafe_ast_Expr (asChild T_javafe_ast_Expr T_javafe_ast_VarInit)) (= (PO_LT T_javafe_tc_Env T_java_lang_Object) true_term) (= T_javafe_tc_Env (asChild T_javafe_tc_Env T_java_lang_Object)) (= (PO_LT T_javafe_ast_VarInit T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_VarInit (asChild T_javafe_ast_VarInit T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_OnDemandImportDecl T_javafe_ast_ImportDecl) true_term) (= T_javafe_ast_OnDemandImportDecl (asChild T_javafe_ast_OnDemandImportDecl T_javafe_ast_ImportDecl)) (= (PO_LT T_java_lang_String T_java_lang_Object) true_term) (= T_java_lang_String (asChild T_java_lang_String T_java_lang_Object)) true (= (PO_LT T_java_lang_String T_java_io_Serializable) true_term) (= (PO_LT T_java_lang_String T_java_lang_Comparable) true_term) (= (PO_LT T_javafe_ast_ParenExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_ParenExpr (asChild T_javafe_ast_ParenExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_GenericVarDecl T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_GenericVarDecl (asChild T_javafe_ast_GenericVarDecl T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_ContinueStmt T_javafe_ast_BranchStmt) true_term) (= T_javafe_ast_ContinueStmt (asChild T_javafe_ast_ContinueStmt T_javafe_ast_BranchStmt)) (= (PO_LT T_javafe_ast_Type T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_Type (asChild T_javafe_ast_Type T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_InitBlock T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_InitBlock (asChild T_javafe_ast_InitBlock T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_InitBlock T_javafe_ast_TypeDeclElem) true_term) (= (PO_LT T_javafe_ast_NewArrayExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_NewArrayExpr (asChild T_javafe_ast_NewArrayExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_TypeObjectDesignator T_javafe_ast_ObjectDesignator) true_term) (= T_javafe_ast_TypeObjectDesignator (asChild T_javafe_ast_TypeObjectDesignator T_javafe_ast_ObjectDesignator)) (= (PO_LT T_javafe_ast_Visitor T_java_lang_Object) true_term) (= T_javafe_ast_Visitor (asChild T_javafe_ast_Visitor T_java_lang_Object)) (= (PO_LT T_java_lang_Exception T_java_lang_Throwable) true_term) (= T_java_lang_Exception (asChild T_java_lang_Exception T_java_lang_Throwable)) (= (PO_LT T_javafe_ast_ConstructorInvocation T_javafe_ast_Stmt) true_term) (= T_javafe_ast_ConstructorInvocation (asChild T_javafe_ast_ConstructorInvocation T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_ExprVec T_java_lang_Object) true_term) (= T_javafe_ast_ExprVec (asChild T_javafe_ast_ExprVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_GenericBlockStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_GenericBlockStmt (asChild T_javafe_ast_GenericBlockStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_TryCatchStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_TryCatchStmt (asChild T_javafe_ast_TryCatchStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_EvalStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_EvalStmt (asChild T_javafe_ast_EvalStmt T_javafe_ast_Stmt)) (= (PO_LT T_java_util_Map T_java_lang_Object) true_term) (= (PO_LT T_java_util_Map T_java_util_EscjavaKeyValue) true_term) (= (PO_LT T_java_lang_Integer T_java_lang_Number) true_term) (= T_java_lang_Integer (asChild T_java_lang_Integer T_java_lang_Number)) true (= (PO_LT T_java_lang_Integer T_java_lang_Comparable) true_term) (= (PO_LT T_javafe_ast_FieldDecl T_javafe_ast_GenericVarDecl) true_term) (= T_javafe_ast_FieldDecl (asChild T_javafe_ast_FieldDecl T_javafe_ast_GenericVarDecl)) (= (PO_LT T_javafe_ast_FieldDecl T_javafe_ast_TypeDeclElem) true_term) (= (PO_LT T_javafe_ast_ClassDecl T_javafe_ast_TypeDecl) true_term) (= T_javafe_ast_ClassDecl (asChild T_javafe_ast_ClassDecl T_javafe_ast_TypeDecl)) (= (PO_LT T_javafe_ast_TypeName T_javafe_ast_Type) true_term) (= T_javafe_ast_TypeName (asChild T_javafe_ast_TypeName T_javafe_ast_Type)) (= (PO_LT T_javafe_ast_ArrayInit T_javafe_ast_VarInit) true_term) (= T_javafe_ast_ArrayInit (asChild T_javafe_ast_ArrayInit T_javafe_ast_VarInit)) (= (PO_LT T_javafe_ast_InstanceOfExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_InstanceOfExpr (asChild T_javafe_ast_InstanceOfExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_IfStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_IfStmt (asChild T_javafe_ast_IfStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_ImportDecl T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_ImportDecl (asChild T_javafe_ast_ImportDecl T_javafe_ast_ASTNode)) (= (PO_LT T_java_io_Serializable T_java_lang_Object) true_term) (= (PO_LT T_javafe_ast_SwitchStmt T_javafe_ast_GenericBlockStmt) true_term) (= T_javafe_ast_SwitchStmt (asChild T_javafe_ast_SwitchStmt T_javafe_ast_GenericBlockStmt)) (= (PO_LT T_javafe_ast_ObjectDesignator T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_ObjectDesignator (asChild T_javafe_ast_ObjectDesignator T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_ThrowStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_ThrowStmt (asChild T_javafe_ast_ThrowStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_ASTDecoration T_java_lang_Object) true_term) (= T_javafe_ast_ASTDecoration (asChild T_javafe_ast_ASTDecoration T_java_lang_Object)) (= (PO_LT T_java_lang_Number T_java_lang_Object) true_term) (= T_java_lang_Number (asChild T_java_lang_Number T_java_lang_Object)) (= (PO_LT T_java_lang_Number T_java_io_Serializable) true_term) (= (PO_LT T_javafe_ast_MethodInvocation T_javafe_ast_Expr) true_term) (= T_javafe_ast_MethodInvocation (asChild T_javafe_ast_MethodInvocation T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_RoutineDecl T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_RoutineDecl (asChild T_javafe_ast_RoutineDecl T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_RoutineDecl T_javafe_ast_TypeDeclElem) true_term) (= (PO_LT T_javafe_ast_LiteralExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_LiteralExpr (asChild T_javafe_ast_LiteralExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_IdentifierVec T_java_lang_Object) true_term) (= T_javafe_ast_IdentifierVec (asChild T_javafe_ast_IdentifierVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_TypeDeclElem T_java_lang_Object) true_term) (= (PO_LT T_javafe_ast_Name T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_Name (asChild T_javafe_ast_Name T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_util_Location T_java_lang_Object) true_term) (= T_javafe_util_Location (asChild T_javafe_util_Location T_java_lang_Object)) (= (PO_LT T_javafe_ast_SkipStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_SkipStmt (asChild T_javafe_ast_SkipStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_AmbiguousVariableAccess T_javafe_ast_Expr) true_term) (= T_javafe_ast_AmbiguousVariableAccess (asChild T_javafe_ast_AmbiguousVariableAccess T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_ClassDeclStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_ClassDeclStmt (asChild T_javafe_ast_ClassDeclStmt T_javafe_ast_Stmt)) (= (PO_LT T_java_lang_Double T_java_lang_Number) true_term) (= T_java_lang_Double (asChild T_java_lang_Double T_java_lang_Number)) true (= (PO_LT T_java_lang_Double T_java_lang_Comparable) true_term) (= (PO_LT T_javafe_ast_UnaryExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_UnaryExpr (asChild T_javafe_ast_UnaryExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_SuperObjectDesignator T_javafe_ast_ObjectDesignator) true_term) (= T_javafe_ast_SuperObjectDesignator (asChild T_javafe_ast_SuperObjectDesignator T_javafe_ast_ObjectDesignator)) (= (PO_LT T_java_lang_RuntimeException T_java_lang_Exception) true_term) (= T_java_lang_RuntimeException (asChild T_java_lang_RuntimeException T_java_lang_Exception)) (= (PO_LT T_java_lang_Cloneable T_java_lang_Object) true_term) (= (PO_LT T_javafe_ast_BreakStmt T_javafe_ast_BranchStmt) true_term) (= T_javafe_ast_BreakStmt (asChild T_javafe_ast_BreakStmt T_javafe_ast_BranchStmt)) (= (PO_LT T_java_lang_Throwable T_java_lang_Object) true_term) (= T_java_lang_Throwable (asChild T_java_lang_Throwable T_java_lang_Object)) (= (PO_LT T_java_lang_Throwable T_java_io_Serializable) true_term) (= (PO_LT T_javafe_ast_NewInstanceExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_NewInstanceExpr (asChild T_javafe_ast_NewInstanceExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_MethodDecl T_javafe_ast_RoutineDecl) true_term) (= T_javafe_ast_MethodDecl (asChild T_javafe_ast_MethodDecl T_javafe_ast_RoutineDecl)) (= (PO_LT T_java_lang_Boolean T_java_lang_Object) true_term) (= T_java_lang_Boolean (asChild T_java_lang_Boolean T_java_lang_Object)) true (= (PO_LT T_java_lang_Boolean T_java_io_Serializable) true_term) (= (PO_LT T_javafe_ast_OperatorTags T_java_lang_Object) true_term) (= T_javafe_ast_OperatorTags (asChild T_javafe_ast_OperatorTags T_java_lang_Object)) (= (PO_LT T_javafe_ast_OperatorTags T_javafe_ast_GeneratedTags) true_term) (= (PO_LT T_javafe_ast_Identifier T_java_lang_Object) true_term) (= T_javafe_ast_Identifier (asChild T_javafe_ast_Identifier T_java_lang_Object)) true (= (PO_LT T_javafe_ast_Stmt T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_Stmt (asChild T_javafe_ast_Stmt T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_CompoundName T_javafe_ast_Name) true_term) (= T_javafe_ast_CompoundName (asChild T_javafe_ast_CompoundName T_javafe_ast_Name)) (= (PO_LT T_javafe_ast_SynchronizeStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_SynchronizeStmt (asChild T_javafe_ast_SynchronizeStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_TryFinallyStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_TryFinallyStmt (asChild T_javafe_ast_TryFinallyStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_FieldAccess T_javafe_ast_Expr) true_term) (= T_javafe_ast_FieldAccess (asChild T_javafe_ast_FieldAccess T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_ASTNode T_java_lang_Object) true_term) (= T_javafe_ast_ASTNode (asChild T_javafe_ast_ASTNode T_java_lang_Object)) (= (PO_LT T_javafe_ast_ASTNode T_java_lang_Cloneable) true_term) (= (PO_LT T_javafe_ast_LocalVarDecl T_javafe_ast_GenericVarDecl) true_term) (= T_javafe_ast_LocalVarDecl (asChild T_javafe_ast_LocalVarDecl T_javafe_ast_GenericVarDecl)) (= (PO_LT T_javafe_ast_TypeDecl T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_TypeDecl (asChild T_javafe_ast_TypeDecl T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_TypeDecl T_javafe_ast_TypeDeclElem) true_term) (= (PO_LT T_java_util_EscjavaKeyValue T_java_lang_Object) true_term) (= (PO_LT T_javafe_ast_GeneratedTags T_java_lang_Object) true_term) (= (PO_LT T_javafe_ast_PrimitiveType T_javafe_ast_Type) true_term) (= T_javafe_ast_PrimitiveType (asChild T_javafe_ast_PrimitiveType T_javafe_ast_Type)) (= (PO_LT T_javafe_ast_SingleTypeImportDecl T_javafe_ast_ImportDecl) true_term) (= T_javafe_ast_SingleTypeImportDecl (asChild T_javafe_ast_SingleTypeImportDecl T_javafe_ast_ImportDecl)) (= (PO_LT T_javafe_ast_LabelStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_LabelStmt (asChild T_javafe_ast_LabelStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_util_Assert T_java_lang_Object) true_term) (= T_javafe_util_Assert (asChild T_javafe_util_Assert T_java_lang_Object)) (= (PO_LT T_javafe_ast_CondExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_CondExpr (asChild T_javafe_ast_CondExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_CompilationUnit T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_CompilationUnit (asChild T_javafe_ast_CompilationUnit T_javafe_ast_ASTNode)) (= (PO_LT T_java_lang_Float T_java_lang_Number) true_term) (= T_java_lang_Float (asChild T_java_lang_Float 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true_term) (= (PO_LT T_java_util_Hashtable T_java_lang_Cloneable) true_term) (= (PO_LT T_java_util_Hashtable T_java_io_Serializable) true_term) (= (PO_LT T_javafe_ast_FormalParaDecl T_javafe_ast_GenericVarDecl) true_term) (= T_javafe_ast_FormalParaDecl (asChild T_javafe_ast_FormalParaDecl T_javafe_ast_GenericVarDecl)) (= (PO_LT T_javafe_ast_ThisExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_ThisExpr (asChild T_javafe_ast_ThisExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_InterfaceDecl T_javafe_ast_TypeDecl) true_term) (= T_javafe_ast_InterfaceDecl (asChild T_javafe_ast_InterfaceDecl T_javafe_ast_TypeDecl)) (= (PO_LT T_javafe_ast_ArrayType T_javafe_ast_Type) true_term) (= T_javafe_ast_ArrayType (asChild T_javafe_ast_ArrayType T_javafe_ast_Type)) (= (PO_LT T_java_util_Dictionary T_java_lang_Object) true_term) (= T_java_util_Dictionary (asChild T_java_util_Dictionary T_java_lang_Object)) (= (PO_LT T_java_util_Dictionary T_java_util_EscjavaKeyValue) true_term) (= (PO_LT 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T_javafe_ast_ConstructorInvocation (+ DIST_ZERO_1 40)) (= T_javafe_ast_ExprVec (+ DIST_ZERO_1 41)) (= T_javafe_ast_GenericBlockStmt (+ DIST_ZERO_1 42)) (= T_javafe_ast_TryCatchStmt (+ DIST_ZERO_1 43)) (= T_javafe_ast_EvalStmt (+ DIST_ZERO_1 44)) (= T_java_util_Map (+ DIST_ZERO_1 45)) (= T_java_lang_Integer (+ DIST_ZERO_1 46)) (= T_javafe_ast_FieldDecl (+ DIST_ZERO_1 47)) (= T_javafe_ast_ClassDecl (+ DIST_ZERO_1 48)) (= T_javafe_ast_TypeName (+ DIST_ZERO_1 49)) (= T_javafe_ast_ArrayInit (+ DIST_ZERO_1 50)) (= T_javafe_ast_InstanceOfExpr (+ DIST_ZERO_1 51)) (= T_javafe_ast_IfStmt (+ DIST_ZERO_1 52)) (= T_javafe_ast_ImportDecl (+ DIST_ZERO_1 53)) (= T_java_lang_Object (+ DIST_ZERO_1 54)) (= T_java_io_Serializable (+ DIST_ZERO_1 55)) (= T_javafe_ast_SwitchStmt (+ DIST_ZERO_1 56)) (= T_javafe_ast_ObjectDesignator (+ DIST_ZERO_1 57)) (= T_javafe_ast_ThrowStmt (+ DIST_ZERO_1 58)) (= T_javafe_ast_ASTDecoration (+ DIST_ZERO_1 59)) (= T_java_lang_Number (+ DIST_ZERO_1 60)) (= 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T_javafe_parser_TagConstants (+ DIST_ZERO_1 102)) (= T_javafe_ast_ExprObjectDesignator (+ DIST_ZERO_1 103)) (= T_javafe_tc_TagConstants (+ DIST_ZERO_1 104)) (= T_javafe_ast_BlockStmt (+ DIST_ZERO_1 105)) (= T_javafe_ast_ReturnStmt (+ DIST_ZERO_1 106)) (= T_javafe_tc_FieldDeclVec (+ DIST_ZERO_1 107)) (= T_javafe_ast_TagConstants (+ DIST_ZERO_1 108)) (= T_java_lang_IndexOutOfBoundsException (+ DIST_ZERO_1 109)) (= T_java_util_Hashtable (+ DIST_ZERO_1 110)) (= T_javafe_ast_FormalParaDecl (+ DIST_ZERO_1 111)) (= T_javafe_ast_ThisExpr (+ DIST_ZERO_1 112)) (= T_javafe_ast_InterfaceDecl (+ DIST_ZERO_1 113)) (= T_javafe_ast_ArrayType (+ DIST_ZERO_1 114)) (= T_java_util_Dictionary (+ DIST_ZERO_1 115)) (= T_javafe_ast_CastExpr (+ DIST_ZERO_1 116)) (= T_javafe_ast_ForStmt (+ DIST_ZERO_1 117))) (= true_term (is VOIDTYPE_14_33_26 T_int)) (= VOIDTYPE_14_33_26 100) (= true_term (is INSTANCEOFEXPR_16_52_7 T_int)) (= INSTANCEOFEXPR_16_52_7 38) (= true_term (is AND_15_20_26 T_int)) (= AND_15_20_26 55) 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T_int)) (= FLOATTYPE_14_31_26 98) (= true_term (is NEWARRAYEXPR_16_50_7 T_int)) (= NEWARRAYEXPR_16_50_7 36) (= true_term (is ASGLSHIFT_15_46_26 T_int)) (= ASGLSHIFT_15_46_26 79) (= true_term (is CONTINUESTMT_16_36_7 T_int)) (= CONTINUESTMT_16_36_7 22) (= true_term (is STMTPRAGMA_30_26_26 T_int)) (= STMTPRAGMA_30_26_26 116) (= true_term (is LSHIFT_15_30_26 T_int)) (= LSHIFT_15_30_26 65) (= true_term (is NULLLIT_14_45_26 T_int)) (= NULLLIT_14_45_26 111) (= true_term (is SUPEROBJECTDESIGNATOR_16_63_7 T_int)) (= SUPEROBJECTDESIGNATOR_16_63_7 49) (= true_term (is LOCALVARDECL_16_22_7 T_int)) (= LOCALVARDECL_16_22_7 8) (= true_term (is punctuationStrings_30_134_22 ?v_0)) (not (= punctuationStrings_30_134_22 null)) (= (typeof punctuationStrings_30_134_22) ?v_0) (= (arrayLength punctuationStrings_30_134_22) 48) (= true_term (is POSTFIXDEC_15_63_26 T_int)) (= POSTFIXDEC_15_63_26 92) (= true_term (is CHARTYPE_14_30_26 T_int)) (= CHARTYPE_14_30_26 97) (= true_term (is NEWINSTANCEEXPR_16_49_7 T_int)) (= NEWINSTANCEEXPR_16_49_7 35) (= true_term (is ASGSUB_15_45_26 T_int)) (= ASGSUB_15_45_26 78) (= true_term (is BREAKSTMT_16_35_7 T_int)) (= BREAKSTMT_16_35_7 21) (= true_term (is otherStrings_30_193_30 ?v_0)) (not (= otherStrings_30_193_30 null)) (= (typeof otherStrings_30_193_30) ?v_0) (= (arrayLength otherStrings_30_193_30) 15) (= true_term (is LT_15_29_26 T_int)) (= LT_15_29_26 64) (= true_term (is MODIFIERPRAGMA_30_25_26 T_int)) (= MODIFIERPRAGMA_30_25_26 115) (= true_term (is STRINGLIT_14_44_26 T_int)) (= STRINGLIT_14_44_26 110) (= true_term (is TYPEOBJECTDESIGNATOR_16_62_7 T_int)) (= TYPEOBJECTDESIGNATOR_16_62_7 48) (= true_term (is INITBLOCK_16_21_7 T_int)) (= INITBLOCK_16_21_7 7) (= true_term (is noTokens_30_212_27 T_int)) (= true_term (is POSTFIXINC_15_62_26 T_int)) (= POSTFIXINC_15_62_26 91) (= true_term (is LONGTYPE_14_29_26 T_int)) (= LONGTYPE_14_29_26 96) (= true_term (is ARRAYREFEXPR_16_48_7 T_int)) (= ARRAYREFEXPR_16_48_7 34) (= true_term (is ASGADD_15_44_26 T_int)) (= ASGADD_15_44_26 77) (= true_term (is THROWSTMT_16_34_7 T_int)) (= THROWSTMT_16_34_7 20) (= true_term (is TYPESIG_29_6_28 T_int)) (= TYPESIG_29_6_28 184) (= true_term (is LE_15_28_26 T_int)) (= LE_15_28_26 63) (= true_term (is DOUBLELIT_14_43_26 T_int)) (= DOUBLELIT_14_43_26 109) (= true_term (is EXPROBJECTDESIGNATOR_16_61_7 T_int)) (= EXPROBJECTDESIGNATOR_16_61_7 47) (= true_term (is METHODDECL_16_20_7 T_int)) (= METHODDECL_16_20_7 6) (= true_term (is DEC_15_59_26 T_int)) (= DEC_15_59_26 90) (= true_term (is LEXICALPRAGMA_30_24_26 T_int)) (= LEXICALPRAGMA_30_24_26 114) (= true_term (is INTTYPE_14_28_26 T_int)) (= INTTYPE_14_28_26 95) (= true_term (is THISEXPR_16_47_7 T_int)) (= THISEXPR_16_47_7 33) (= true_term (is ASGREM_15_43_26 T_int)) (= ASGREM_15_43_26 76) (= true_term (is RETURNSTMT_16_33_7 T_int)) (= RETURNSTMT_16_33_7 19) (= true_term (is LAST_KEYWORD_30_103_26 T_int)) (= LAST_KEYWORD_30_103_26 183) (= true_term (is GT_15_27_26 T_int)) (= GT_15_27_26 62) (= true_term (is FLOATLIT_14_42_26 T_int)) (= FLOATLIT_14_42_26 108) (= true_term (is CLASSLITERAL_16_60_7 T_int)) (= CLASSLITERAL_16_60_7 46) (= true_term (is CONSTRUCTORDECL_16_19_7 T_int)) (= CONSTRUCTORDECL_16_19_7 5) (= true_term (is FIRST_KEYWORD_30_51_26 T_int)) (= FIRST_KEYWORD_30_51_26 133) (= true_term (is INC_15_58_26 T_int)) (= INC_15_58_26 89) (= true_term (is BOOLEANTYPE_14_27_26 T_int)) (= BOOLEANTYPE_14_27_26 94) (= true_term (is ARRAYINIT_16_46_7 T_int)) (= ARRAYINIT_16_46_7 32) (= true_term (is ASGDIV_15_42_26 T_int)) (= ASGDIV_15_42_26 75) (= true_term (is EVALSTMT_16_32_7 T_int)) (= EVALSTMT_16_32_7 18) (= true_term (is GE_15_26_26 T_int)) (= GE_15_26_26 61) (= true_term (is CHARLIT_14_41_26 T_int)) (= CHARLIT_14_41_26 107) (= true_term (is METHODINVOCATION_16_59_7 T_int)) (= METHODINVOCATION_16_59_7 45) (= true_term (is INTERFACEDECL_16_18_7 T_int)) (= INTERFACEDECL_16_18_7 4) (= true_term (is BITNOT_15_57_26 T_int)) (= BITNOT_15_57_26 88) (= true_term (is IDENT_14_25_26 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-(declare-fun SIMPLENAME_pre_16_66_7 () Int)
-(declare-fun BLOCKSTMT_pre_16_25_7 () Int)
-(declare-fun value_pre_25_45_16 () Int)
-(declare-fun value_25_45_16 () Int)
-(declare-fun loc_pre_28_35_13 () Int)
-(declare-fun loc_28_35_13 () Int)
-(declare-fun TYPEMODIFIERPRAGMA_pre_30_28_26 () Int)
-(declare-fun elems_pre () Int)
-(declare-fun elems () Int)
-(declare-fun LS () Int)
-(declare-fun alloc_pre () Int)
-(declare-fun this () Int)
-(declare-fun RES () Int)
-(declare-fun ecReturn () Int)
-(assert (let ((?v_1 (array T_java_lang_String)) (?v_0 (array T_int)) (?v_3 (not (= this null))) (?v_2 (= ecReturn ecReturn)) (?v_4 (= true_term (is this T_javafe_ast_Type))) (?v_5 (not (= RES NULL_13_60_26)))) (not (=> true (=> (and (= length_pre_81_50_25 length_81_50_25) (= length_81_50_25 (asField length_81_50_25 T_int)) (= count_pre_72_67_33 count_72_67_33) (= count_72_67_33 (asField count_72_67_33 T_int)) (= VOIDTYPE_pre_14_33_26 VOIDTYPE_14_33_26) (= true_term (is VOIDTYPE_14_33_26 T_int)) (= INSTANCEOFEXPR_pre_16_52_7 INSTANCEOFEXPR_16_52_7) (= true_term (is INSTANCEOFEXPR_16_52_7 T_int)) (= AND_pre_15_20_26 AND_15_20_26) (= true_term (is AND_15_20_26 T_int)) (= loc_pre_123_49_13 loc_123_49_13) (= loc_123_49_13 (asField loc_123_49_13 T_int)) (= ASGURSHIFT_pre_15_48_26 ASGURSHIFT_15_48_26) (= true_term (is ASGURSHIFT_15_48_26 T_int)) (= expr_pre_15_28 expr_15_28) (= expr_15_28 (asField expr_15_28 T_javafe_ast_Expr)) (< (fClosedTime expr_15_28) alloc) true (= IFSTMT_pre_16_38_7 IFSTMT_16_38_7) (= true_term (is IFSTMT_16_38_7 T_int)) (= type_pre_123_24_28 type_123_24_28) (= type_123_24_28 (asField type_123_24_28 T_javafe_ast_Type)) (< (fClosedTime type_123_24_28) alloc) true (= locId_pre_111_20_13 locId_111_20_13) (= locId_111_20_13 (asField locId_111_20_13 T_int)) (= URSHIFT_pre_15_32_26 URSHIFT_15_32_26) (= true_term (is URSHIFT_15_32_26 T_int)) (= tokenType_pre_78_90_8 tokenType_78_90_8) (= tokenType_78_90_8 (asField tokenType_78_90_8 T_int)) (= ARRAYTYPE_pre_16_65_7 ARRAYTYPE_16_65_7) (= true_term (is ARRAYTYPE_16_65_7 T_int)) (= FORMALPARADECL_pre_16_24_7 FORMALPARADECL_16_24_7) (= true_term (is FORMALPARADECL_16_24_7 T_int)) (= enclosingInstance_pre_122_25_14 enclosingInstance_122_25_14) (= enclosingInstance_122_25_14 (asField enclosingInstance_122_25_14 T_javafe_ast_Expr)) (< (fClosedTime enclosingInstance_122_25_14) alloc) (= loc_pre_122_49_13 loc_122_49_13) (= loc_122_49_13 (asField loc_122_49_13 T_int)) (= DOUBLETYPE_pre_14_32_26 DOUBLETYPE_14_32_26) (= true_term (is DOUBLETYPE_14_32_26 T_int)) (= CONDEXPR_pre_16_51_7 CONDEXPR_16_51_7) (= true_term (is CONDEXPR_16_51_7 T_int)) (= TYPEDECLELEMPRAGMA_pre_30_27_26 TYPEDECLELEMPRAGMA_30_27_26) (= true_term (is TYPEDECLELEMPRAGMA_30_27_26 T_int)) (= OR_pre_15_19_26 OR_15_19_26) (= true_term (is OR_15_19_26 T_int)) (= ASGRSHIFT_pre_15_47_26 ASGRSHIFT_15_47_26) (= true_term (is ASGRSHIFT_15_47_26 T_int)) (= locQuestion_pre_125_22_13 locQuestion_125_22_13) (= locQuestion_125_22_13 (asField locQuestion_125_22_13 T_int)) (= locIds_pre_141_25_29 locIds_141_25_29) (= locIds_141_25_29 (asField locIds_141_25_29 ?v_0)) (< (fClosedTime locIds_141_25_29) alloc) true (= locSuper_pre_137_20_13 locSuper_137_20_13) (= locSuper_137_20_13 (asField locSuper_137_20_13 T_int)) (= LABELSTMT_pre_16_37_7 LABELSTMT_16_37_7) (= true_term (is LABELSTMT_16_37_7 T_int)) (= locOpenBrackets_pre_123_65_29 locOpenBrackets_123_65_29) (= locOpenBrackets_123_65_29 (asField locOpenBrackets_123_65_29 ?v_0)) (< (fClosedTime locOpenBrackets_123_65_29) alloc) true (= op_pre_26_35_13 op_26_35_13) (= op_26_35_13 (asField op_26_35_13 T_int)) (= locOpenBrace_pre_91_22_13 locOpenBrace_91_22_13) (= locOpenBrace_91_22_13 (asField locOpenBrace_91_22_13 T_int)) (= RSHIFT_pre_15_31_26 RSHIFT_15_31_26) (= true_term (is RSHIFT_15_31_26 T_int)) (= locOpenParen_pre_118_48_13 locOpenParen_118_48_13) (= locOpenParen_118_48_13 (asField locOpenParen_118_48_13 T_int)) (= TYPENAME_pre_16_64_7 TYPENAME_16_64_7) (= true_term (is TYPENAME_16_64_7 T_int)) (= FIELDDECL_pre_16_23_7 FIELDDECL_16_23_7) (= true_term (is FIELDDECL_16_23_7 T_int)) (= loc_pre_63_30_13 loc_63_30_13) (= loc_63_30_13 (asField loc_63_30_13 T_int)) (= loc_pre_113_33_13 loc_113_33_13) (= loc_113_33_13 (asField loc_113_33_13 T_int)) (= FLOATTYPE_pre_14_31_26 FLOATTYPE_14_31_26) (= true_term (is FLOATTYPE_14_31_26 T_int)) (= NEWARRAYEXPR_pre_16_50_7 NEWARRAYEXPR_16_50_7) (= true_term (is NEWARRAYEXPR_16_50_7 T_int)) (= ASGLSHIFT_pre_15_46_26 ASGLSHIFT_15_46_26) (= true_term (is ASGLSHIFT_15_46_26 T_int)) (= I_will_establish_invariants_afterwards_pre_5_236_34 I_will_establish_invariants_afterwards_5_236_34) (= true_term (is I_will_establish_invariants_afterwards_5_236_34 T_boolean)) (= CONTINUESTMT_pre_16_36_7 CONTINUESTMT_16_36_7) (= true_term (is CONTINUESTMT_16_36_7 T_int)) (= loc_pre_80_40_13 loc_80_40_13) (= loc_80_40_13 (asField loc_80_40_13 T_int)) (= STMTPRAGMA_pre_30_26_26 STMTPRAGMA_30_26_26) (= true_term (is STMTPRAGMA_30_26_26 T_int)) (= elements_pre_140_61_39 elements_140_61_39) (= elements_140_61_39 (asField elements_140_61_39 (array T_javafe_ast_Identifier))) (< (fClosedTime elements_140_61_39) alloc) true (= loc_pre_116_22_13 loc_116_22_13) (= loc_116_22_13 (asField loc_116_22_13 T_int)) (= op_pre_27_26_13 op_27_26_13) (= op_27_26_13 (asField op_27_26_13 T_int)) (= locOpenParen_pre_131_30_13 locOpenParen_131_30_13) (= locOpenParen_131_30_13 (asField locOpenParen_131_30_13 T_int)) (= locGuardOpenParen_pre_23_13 locGuardOpenParen_23_13) (= locGuardOpenParen_23_13 (asField locGuardOpenParen_23_13 T_int)) (= LSHIFT_pre_15_30_26 LSHIFT_15_30_26) (= true_term (is LSHIFT_15_30_26 T_int)) (= locCloseBrace_pre_62_54_13 locCloseBrace_62_54_13) (= locCloseBrace_62_54_13 (asField locCloseBrace_62_54_13 T_int)) (= NULLLIT_pre_14_45_26 NULLLIT_14_45_26) (= true_term (is NULLLIT_14_45_26 T_int)) (= SUPEROBJECTDESIGNATOR_pre_16_63_7 SUPEROBJECTDESIGNATOR_16_63_7) (= true_term (is SUPEROBJECTDESIGNATOR_16_63_7 T_int)) (= loc_pre_83_29_13 loc_83_29_13) (= loc_83_29_13 (asField loc_83_29_13 T_int)) (= LOCALVARDECL_pre_16_22_7 LOCALVARDECL_16_22_7) (= true_term (is LOCALVARDECL_16_22_7 T_int)) (= loc_pre_107_18_13 loc_107_18_13) (= loc_107_18_13 (asField loc_107_18_13 T_int)) (= punctuationStrings_pre_30_134_22 punctuationStrings_30_134_22) (= true_term (is punctuationStrings_30_134_22 ?v_1)) (= true_term (isAllocated punctuationStrings_30_134_22 alloc)) (= POSTFIXDEC_pre_15_63_26 POSTFIXDEC_15_63_26) (= true_term (is POSTFIXDEC_15_63_26 T_int)) (= CHARTYPE_pre_14_30_26 CHARTYPE_14_30_26) (= true_term (is CHARTYPE_14_30_26 T_int)) (= NEWINSTANCEEXPR_pre_16_49_7 NEWINSTANCEEXPR_16_49_7) (= true_term (is NEWINSTANCEEXPR_16_49_7 T_int)) (= tag_pre_28_30_13 tag_28_30_13) (= tag_28_30_13 (asField tag_28_30_13 T_int)) (= loc_pre_117_23_13 loc_117_23_13) (= loc_117_23_13 (asField loc_117_23_13 T_int)) (= type_pre_133_20_28 type_133_20_28) (= type_133_20_28 (asField type_133_20_28 T_javafe_ast_Type)) (< (fClosedTime type_133_20_28) alloc) true (= dims_pre_123_45_31 dims_123_45_31) (= dims_123_45_31 (asField dims_123_45_31 T_javafe_ast_ExprVec)) (< (fClosedTime dims_123_45_31) alloc) true (= ASGSUB_pre_15_45_26 ASGSUB_15_45_26) (= true_term (is ASGSUB_15_45_26 T_int)) (= BREAKSTMT_pre_16_35_7 BREAKSTMT_16_35_7) (= true_term (is BREAKSTMT_16_35_7 T_int)) (= locDots_pre_141_31_29 locDots_141_31_29) (= locDots_141_31_29 (asField locDots_141_31_29 ?v_0)) (< (fClosedTime locDots_141_31_29) alloc) true (= otherStrings_pre_30_193_30 otherStrings_30_193_30) (= true_term (is otherStrings_30_193_30 ?v_1)) (= true_term (isAllocated otherStrings_30_193_30 alloc)) (= LT_pre_15_29_26 LT_15_29_26) (= true_term (is LT_15_29_26 T_int)) (= MODIFIERPRAGMA_pre_30_25_26 MODIFIERPRAGMA_30_25_26) (= true_term (is MODIFIERPRAGMA_30_25_26 T_int)) (= STRINGLIT_pre_14_44_26 STRINGLIT_14_44_26) (= true_term (is STRINGLIT_14_44_26 T_int)) (= TYPEOBJECTDESIGNATOR_pre_16_62_7 TYPEOBJECTDESIGNATOR_16_62_7) (= true_term (is TYPEOBJECTDESIGNATOR_16_62_7 T_int)) (= locDot_pre_84_21_13 locDot_84_21_13) (= locDot_84_21_13 (asField locDot_84_21_13 T_int)) (= INITBLOCK_pre_16_21_7 INITBLOCK_16_21_7) (= true_term (is INITBLOCK_16_21_7 T_int)) (= loc_pre_93_18_13 loc_93_18_13) (= loc_93_18_13 (asField loc_93_18_13 T_int)) (= locType_pre_79_21_13 locType_79_21_13) (= locType_79_21_13 (asField locType_79_21_13 T_int)) (= noTokens_pre_30_212_27 noTokens_30_212_27) (= true_term (is noTokens_30_212_27 T_int)) (= loc_pre_103_20_13 loc_103_20_13) (= loc_103_20_13 (asField loc_103_20_13 T_int)) (= POSTFIXINC_pre_15_62_26 POSTFIXINC_15_62_26) (= true_term (is POSTFIXINC_15_62_26 T_int)) (= LONGTYPE_pre_14_29_26 LONGTYPE_14_29_26) (= true_term (is LONGTYPE_14_29_26 T_int)) (= ARRAYREFEXPR_pre_16_48_7 ARRAYREFEXPR_16_48_7) (= true_term (is ARRAYREFEXPR_16_48_7 T_int)) (= ASGADD_pre_15_44_26 ASGADD_15_44_26) (= true_term (is ASGADD_15_44_26 T_int)) (= THROWSTMT_pre_16_34_7 THROWSTMT_16_34_7) (= true_term (is THROWSTMT_16_34_7 T_int)) (= count_pre_140_67_33 count_140_67_33) (= count_140_67_33 (asField count_140_67_33 T_int)) (= elements_pre_124_61_33 elements_124_61_33) (= elements_124_61_33 (asField elements_124_61_33 (array T_javafe_ast_Expr))) (< (fClosedTime elements_124_61_33) alloc) true (= TYPESIG_pre_29_6_28 TYPESIG_29_6_28) (= true_term (is TYPESIG_29_6_28 T_int)) (= LE_pre_15_28_26 LE_15_28_26) (= true_term (is LE_15_28_26 T_int)) (= DOUBLELIT_pre_14_43_26 DOUBLELIT_14_43_26) (= true_term (is DOUBLELIT_14_43_26 T_int)) (= EXPROBJECTDESIGNATOR_pre_16_61_7 EXPROBJECTDESIGNATOR_16_61_7) (= true_term (is EXPROBJECTDESIGNATOR_16_61_7 T_int)) (= locKeyword_pre_118_45_13 locKeyword_118_45_13) (= locKeyword_118_45_13 (asField locKeyword_118_45_13 T_int)) (= METHODDECL_pre_16_20_7 METHODDECL_16_20_7) (= true_term (is METHODDECL_16_20_7 T_int)) (= locCloseBracket_pre_121_23_13 locCloseBracket_121_23_13) (= locCloseBracket_121_23_13 (asField locCloseBracket_121_23_13 T_int)) (= syntax_pre_24_28_29 syntax_24_28_29) (= syntax_24_28_29 (asField syntax_24_28_29 T_boolean)) (= loc_pre_109_18_13 loc_109_18_13) (= loc_109_18_13 (asField loc_109_18_13 T_int)) (= DEC_pre_15_59_26 DEC_15_59_26) (= true_term (is DEC_15_59_26 T_int)) (= LEXICALPRAGMA_pre_30_24_26 LEXICALPRAGMA_30_24_26) (= true_term (is LEXICALPRAGMA_30_24_26 T_int)) (= INTTYPE_pre_14_28_26 INTTYPE_14_28_26) (= true_term (is INTTYPE_14_28_26 T_int)) (= THISEXPR_pre_16_47_7 THISEXPR_16_47_7) (= true_term (is THISEXPR_16_47_7 T_int)) (= loc_pre_100_18_13 loc_100_18_13) (= loc_100_18_13 (asField loc_100_18_13 T_int)) (= ASGREM_pre_15_43_26 ASGREM_15_43_26) (= true_term (is ASGREM_15_43_26 T_int)) (= RETURNSTMT_pre_16_33_7 RETURNSTMT_16_33_7) (= true_term (is RETURNSTMT_16_33_7 T_int)) (= LAST_KEYWORD_pre_30_103_26 LAST_KEYWORD_30_103_26) (= true_term (is LAST_KEYWORD_30_103_26 T_int)) (= GT_pre_15_27_26 GT_15_27_26) (= true_term (is GT_15_27_26 T_int)) (= locOpenParen_pre_132_28_13 locOpenParen_132_28_13) (= locOpenParen_132_28_13 (asField locOpenParen_132_28_13 T_int)) (= FLOATLIT_pre_14_42_26 FLOATLIT_14_42_26) (= true_term (is FLOATLIT_14_42_26 T_int)) (= CLASSLITERAL_pre_16_60_7 CLASSLITERAL_16_60_7) (= true_term (is CLASSLITERAL_16_60_7 T_int)) (= CONSTRUCTORDECL_pre_16_19_7 CONSTRUCTORDECL_16_19_7) (= true_term (is CONSTRUCTORDECL_16_19_7 T_int)) (= FIRST_KEYWORD_pre_30_51_26 FIRST_KEYWORD_30_51_26) (= true_term (is FIRST_KEYWORD_30_51_26 T_int)) (= INC_pre_15_58_26 INC_15_58_26) (= true_term (is INC_15_58_26 T_int)) (= superCall_pre_118_24_17 superCall_118_24_17) (= superCall_118_24_17 (asField superCall_118_24_17 T_boolean)) (= BOOLEANTYPE_pre_14_27_26 BOOLEANTYPE_14_27_26) (= true_term (is BOOLEANTYPE_14_27_26 T_int)) (= ARRAYINIT_pre_16_46_7 ARRAYINIT_16_46_7) (= true_term (is ARRAYINIT_16_46_7 T_int)) (= locCloseParen_pre_128_21_13 locCloseParen_128_21_13) (= locCloseParen_128_21_13 (asField locCloseParen_128_21_13 T_int)) (= owner_pre_8_35_28 owner_8_35_28) (= owner_8_35_28 (asField owner_8_35_28 T_java_lang_Object)) (< (fClosedTime owner_8_35_28) alloc) (= ASGDIV_pre_15_42_26 ASGDIV_15_42_26) (= true_term (is ASGDIV_15_42_26 T_int)) (= locOpenBrace_pre_62_51_13 locOpenBrace_62_51_13) (= locOpenBrace_62_51_13 (asField locOpenBrace_62_51_13 T_int)) (= locCloseParen_pre_127_24_13 locCloseParen_127_24_13) (= locCloseParen_127_24_13 (asField locCloseParen_127_24_13 T_int)) (= EVALSTMT_pre_16_32_7 EVALSTMT_16_32_7) (= true_term (is EVALSTMT_16_32_7 T_int)) (= count_pre_124_67_33 count_124_67_33) (= count_124_67_33 (asField count_124_67_33 T_int)) (= GE_pre_15_26_26 GE_15_26_26) (= true_term (is GE_15_26_26 T_int)) (= CHARLIT_pre_14_41_26 CHARLIT_14_41_26) (= true_term (is CHARLIT_14_41_26 T_int)) (= METHODINVOCATION_pre_16_59_7 METHODINVOCATION_16_59_7) (= true_term (is METHODINVOCATION_16_59_7 T_int)) (= INTERFACEDECL_pre_16_18_7 INTERFACEDECL_16_18_7) (= true_term (is INTERFACEDECL_16_18_7 T_int)) (= BITNOT_pre_15_57_26 BITNOT_15_57_26) (= true_term (is BITNOT_15_57_26 T_int)) (= IDENT_pre_14_25_26 IDENT_14_25_26) (= true_term (is IDENT_14_25_26 T_int)) (= CATCHCLAUSE_pre_16_45_7 CATCHCLAUSE_16_45_7) (= true_term (is CATCHCLAUSE_16_45_7 T_int)) (= loc_pre_115_29_13 loc_115_29_13) (= loc_115_29_13 (asField loc_115_29_13 T_int)) (= NULL_pre_30_82_26 NULL_30_82_26) (= true_term (is NULL_30_82_26 T_int)) (= ASGMUL_pre_15_41_26 ASGMUL_15_41_26) (= true_term (is ASGMUL_15_41_26 T_int)) (= SYNCHRONIZESTMT_pre_16_31_7 SYNCHRONIZESTMT_16_31_7) (= true_term (is SYNCHRONIZESTMT_16_31_7 T_int)) (= locOp_pre_26_43_13 locOp_26_43_13) (= locOp_26_43_13 (asField locOp_26_43_13 T_int)) (= loc_pre_20_13 loc_20_13) (= loc_20_13 (asField loc_20_13 T_int)) (= locCloseBrace_pre_120_24_13 locCloseBrace_120_24_13) (= locCloseBrace_120_24_13 (asField locCloseBrace_120_24_13 T_int)) (= EQ_pre_15_25_26 EQ_15_25_26) (= true_term (is EQ_15_25_26 T_int)) (= locId_pre_77_38_13 locId_77_38_13) (= locId_77_38_13 (asField locId_77_38_13 T_int)) (= LONGLIT_pre_14_40_26 LONGLIT_14_40_26) (= true_term (is LONGLIT_14_40_26 T_int)) (= AMBIGUOUSMETHODINVOCATION_pre_16_58_7 AMBIGUOUSMETHODINVOCATION_16_58_7) (= true_term (is AMBIGUOUSMETHODINVOCATION_16_58_7 T_int)) (= CLASSDECL_pre_16_17_7 CLASSDECL_16_17_7) (= true_term (is CLASSDECL_16_17_7 T_int)) (= loc_pre_112_22_13 loc_112_22_13) (= loc_112_22_13 (asField loc_112_22_13 T_int)) (= elements_pre_73_61_39 elements_73_61_39) (= elements_73_61_39 (asField elements_73_61_39 (array T_javafe_ast_MethodDecl))) (< (fClosedTime elements_73_61_39) alloc) true (= NOT_pre_15_56_26 NOT_15_56_26) (= true_term (is NOT_15_56_26 T_int)) (= locDot_pre_118_41_13 locDot_118_41_13) (= locDot_118_41_13 (asField locDot_118_41_13 T_int)) (= CONSTRUCTORINVOCATION_pre_16_44_7 CONSTRUCTORINVOCATION_16_44_7) (= true_term (is CONSTRUCTORINVOCATION_16_44_7 T_int)) (= locOpenParen_pre_104_23_13 locOpenParen_104_23_13) (= locOpenParen_104_23_13 (asField locOpenParen_104_23_13 T_int)) (= locOpenBracket_pre_121_20_13 locOpenBracket_121_20_13) (= locOpenBracket_121_20_13 (asField locOpenBracket_121_20_13 T_int)) (= ASSIGN_pre_15_40_26 ASSIGN_15_40_26) (= true_term (is ASSIGN_15_40_26 T_int)) (= DOSTMT_pre_16_30_7 DOSTMT_16_30_7) (= true_term (is DOSTMT_16_30_7 T_int)) (= locOpenBrace_pre_80_36_13 locOpenBrace_80_36_13) (= locOpenBrace_80_36_13 (asField locOpenBrace_80_36_13 T_int)) (= NE_pre_15_24_26 NE_15_24_26) (= true_term (is NE_15_24_26 T_int)) (= INTLIT_pre_14_39_26 INTLIT_14_39_26) (= true_term (is INTLIT_14_39_26 T_int)) (= locId_pre_132_25_13 locId_132_25_13) (= locId_132_25_13 (asField locId_132_25_13 T_int)) (= FIELDACCESS_pre_16_57_7 FIELDACCESS_16_57_7) (= true_term (is FIELDACCESS_16_57_7 T_int)) (= locOpenBracket_pre_138_21_13 locOpenBracket_138_21_13) (= locOpenBracket_138_21_13 (asField locOpenBracket_138_21_13 T_int)) (= ONDEMANDIMPORTDECL_pre_16_16_7 ONDEMANDIMPORTDECL_16_16_7) (= true_term (is ONDEMANDIMPORTDECL_16_16_7 T_int)) (= init_pre_123_35_19 init_123_35_19) (= init_123_35_19 (asField init_123_35_19 T_javafe_ast_ArrayInit)) (< (fClosedTime init_123_35_19) alloc) (= UNARYSUB_pre_15_55_26 UNARYSUB_15_55_26) (= true_term (is UNARYSUB_15_55_26 T_int)) (= returnType_pre_79_18_28 returnType_79_18_28) (= returnType_79_18_28 (asField returnType_79_18_28 T_javafe_ast_Type)) (< (fClosedTime returnType_79_18_28) alloc) true (= loc_pre_114_16_13 loc_114_16_13) (= loc_114_16_13 (asField loc_114_16_13 T_int)) (= loc_pre_129_22_13 loc_129_22_13) (= loc_129_22_13 (asField loc_129_22_13 T_int)) (= TRYCATCHSTMT_pre_16_43_7 TRYCATCHSTMT_16_43_7) (= true_term (is TRYCATCHSTMT_16_43_7 T_int)) (= body_pre_80_34_19 body_80_34_19) (= body_80_34_19 (asField body_80_34_19 T_javafe_ast_BlockStmt)) (< (fClosedTime body_80_34_19) alloc) (= loc_pre_126_21_13 loc_126_21_13) (= loc_126_21_13 (asField loc_126_21_13 T_int)) (= STAR_pre_15_37_26 STAR_15_37_26) (= true_term (is STAR_15_37_26 T_int)) (= WHILESTMT_pre_16_29_7 WHILESTMT_16_29_7) (= true_term (is WHILESTMT_16_29_7 T_int)) (= loc_pre_139_20_13 loc_139_20_13) (= loc_139_20_13 (asField loc_139_20_13 T_int)) (= BITAND_pre_15_23_26 BITAND_15_23_26) (= true_term (is BITAND_15_23_26 T_int)) (= locOpenParen_pre_127_21_13 locOpenParen_127_21_13) (= locOpenParen_127_21_13 (asField locOpenParen_127_21_13 T_int)) (= BOOLEANLIT_pre_14_38_26 BOOLEANLIT_14_38_26) (= true_term (is BOOLEANLIT_14_38_26 T_int)) (= VARIABLEACCESS_pre_16_56_7 VARIABLEACCESS_16_56_7) (= true_term (is VARIABLEACCESS_16_56_7 T_int)) (= SINGLETYPEIMPORTDECL_pre_16_15_7 SINGLETYPEIMPORTDECL_16_15_7) (= true_term (is SINGLETYPEIMPORTDECL_16_15_7 T_int)) (= UNARYADD_pre_15_54_26 UNARYADD_15_54_26) (= true_term (is UNARYADD_15_54_26 T_int)) (= locId_pre_62_48_13 locId_62_48_13) (= locId_62_48_13 (asField locId_62_48_13 T_int)) (= TRYFINALLYSTMT_pre_16_42_7 TRYFINALLYSTMT_16_42_7) (= true_term (is TRYFINALLYSTMT_16_42_7 T_int)) (= count_pre_73_67_33 count_73_67_33) (= count_73_67_33 (asField count_73_67_33 T_int)) (= MOD_pre_15_36_26 MOD_15_36_26) (= true_term (is MOD_15_36_26 T_int)) (= otherCodes_pre_30_202_27 otherCodes_30_202_27) (= true_term (is otherCodes_30_202_27 ?v_0)) (= true_term (isAllocated otherCodes_30_202_27 alloc)) (= loc_pre_119_22_13 loc_119_22_13) (= loc_119_22_13 (asField loc_119_22_13 T_int)) (= loc_pre_25_50_13 loc_25_50_13) (= loc_25_50_13 (asField loc_25_50_13 T_int)) (= CLASSDECLSTMT_pre_16_28_7 CLASSDECLSTMT_16_28_7) (= true_term (is CLASSDECLSTMT_16_28_7 T_int)) (= locOpenBrace_pre_120_21_13 locOpenBrace_120_21_13) (= locOpenBrace_120_21_13 (asField locOpenBrace_120_21_13 T_int)) (= BITXOR_pre_15_22_26 BITXOR_15_22_26) (= true_term (is BITXOR_15_22_26 T_int)) (= locOpenParen_pre_128_18_13 locOpenParen_128_18_13) (= locOpenParen_128_18_13 (asField locOpenParen_128_18_13 T_int)) (= locDot_pre_122_29_13 locDot_122_29_13) (= locDot_122_29_13 (asField locDot_122_29_13 T_int)) (= SHORTTYPE_pre_14_36_26 SHORTTYPE_14_36_26) (= true_term (is SHORTTYPE_14_36_26 T_int)) (= AMBIGUOUSVARIABLEACCESS_pre_16_55_7 AMBIGUOUSVARIABLEACCESS_16_55_7) (= true_term (is AMBIGUOUSVARIABLEACCESS_16_55_7 T_int)) (= type_pre_77_35_28 type_77_35_28) (= type_77_35_28 (asField type_77_35_28 T_javafe_ast_Type)) (< (fClosedTime type_77_35_28) alloc) true (= COMPILATIONUNIT_pre_16_14_7 COMPILATIONUNIT_16_14_7) (= true_term (is COMPILATIONUNIT_16_14_7 T_int)) (= ASGBITXOR_pre_15_51_26 ASGBITXOR_15_51_26) (= true_term (is ASGBITXOR_15_51_26 T_int)) (= tag_pre_25_32_13 tag_25_32_13) (= tag_25_32_13 (asField tag_25_32_13 T_int)) (= punctuationCodes_pre_30_164_19 punctuationCodes_30_164_19) (= true_term (is punctuationCodes_30_164_19 ?v_0)) (= true_term (isAllocated punctuationCodes_30_164_19 alloc)) (= NULL_pre_13_60_26 NULL_13_60_26) (= true_term (is NULL_13_60_26 T_int)) (= SWITCHLABEL_pre_16_41_7 SWITCHLABEL_16_41_7) (= true_term (is SWITCHLABEL_16_41_7 T_int)) (= loc_pre_106_18_13 loc_106_18_13) (= loc_106_18_13 (asField loc_106_18_13 T_int)) (= locOp_pre_27_32_13 locOp_27_32_13) (= locOp_27_32_13 (asField locOp_27_32_13 T_int)) (= DIV_pre_15_35_26 DIV_15_35_26) (= true_term (is DIV_15_35_26 T_int)) (= VARDECLSTMT_pre_16_27_7 VARDECLSTMT_16_27_7) (= true_term (is VARDECLSTMT_16_27_7 T_int)) (= locOpenParen_pre_122_52_13 locOpenParen_122_52_13) (= locOpenParen_122_52_13 (asField locOpenParen_122_52_13 T_int)) (= locFirstSemi_pre_113_36_13 locFirstSemi_113_36_13) (= locFirstSemi_113_36_13 (asField locFirstSemi_113_36_13 T_int)) (= elements_pre_72_61_38 elements_72_61_38) (= elements_72_61_38 (asField elements_72_61_38 (array T_javafe_ast_FieldDecl))) (< (fClosedTime elements_72_61_38) alloc) true (= BITOR_pre_15_21_26 BITOR_15_21_26) (= true_term (is BITOR_15_21_26 T_int)) (= locColon_pre_125_25_13 locColon_125_25_13) (= locColon_125_25_13 (asField locColon_125_25_13 T_int)) (= BYTETYPE_pre_14_35_26 BYTETYPE_14_35_26) (= true_term (is BYTETYPE_14_35_26 T_int)) (= PARENEXPR_pre_16_54_7 PARENEXPR_16_54_7) (= true_term (is PARENEXPR_16_54_7 T_int)) (= stmt_pre_17_28 stmt_17_28) (= stmt_17_28 (asField stmt_17_28 T_javafe_ast_Stmt)) (< (fClosedTime stmt_17_28) alloc) true (= ASGBITOR_pre_15_50_26 ASGBITOR_15_50_26) (= true_term (is ASGBITOR_15_50_26 T_int)) (= SKIPSTMT_pre_16_40_7 SKIPSTMT_16_40_7) (= true_term (is SKIPSTMT_16_40_7 T_int)) (= enclosingInstance_pre_118_37_14 enclosingInstance_118_37_14) (= enclosingInstance_118_37_14 (asField enclosingInstance_118_37_14 T_javafe_ast_Expr)) (< (fClosedTime enclosingInstance_118_37_14) alloc) (= type_pre_126_18_28 type_126_18_28) (= type_126_18_28 (asField type_126_18_28 T_javafe_ast_Type)) (< (fClosedTime type_126_18_28) alloc) true (= locCloseBrace_pre_91_25_13 locCloseBrace_91_25_13) (= locCloseBrace_91_25_13 (asField locCloseBrace_91_25_13 T_int)) (= SUB_pre_15_34_26 SUB_15_34_26) (= true_term (is SUB_15_34_26 T_int)) (= COMPOUNDNAME_pre_16_67_7 COMPOUNDNAME_16_67_7) (= true_term (is COMPOUNDNAME_16_67_7 T_int)) (= locDot_pre_133_23_13 locDot_133_23_13) (= locDot_133_23_13 (asField locDot_133_23_13 T_int)) (= ids_pre_141_19_37 ids_141_19_37) (= ids_141_19_37 (asField ids_141_19_37 T_javafe_ast_IdentifierVec)) (< (fClosedTime ids_141_19_37) alloc) true (= SWITCHSTMT_pre_16_26_7 SWITCHSTMT_16_26_7) (= true_term (is SWITCHSTMT_16_26_7 T_int)) (= loc_pre_104_20_13 loc_104_20_13) (= loc_104_20_13 (asField loc_104_20_13 T_int)) (= locId_pre_130_24_13 locId_130_24_13) (= locId_130_24_13 (asField locId_130_24_13 T_int)) (= keywordStrings_pre_30_181_30 keywordStrings_30_181_30) (= true_term (is keywordStrings_30_181_30 ?v_1)) (= true_term (isAllocated keywordStrings_30_181_30 alloc)) (= NULLTYPE_pre_14_34_26 NULLTYPE_14_34_26) (= true_term (is NULLTYPE_14_34_26 T_int)) (= CASTEXPR_pre_16_53_7 CASTEXPR_16_53_7) (= true_term (is CASTEXPR_16_53_7 T_int)) (= type_pre_127_18_28 type_127_18_28) (= type_127_18_28 (asField type_127_18_28 T_javafe_ast_Type)) (< (fClosedTime type_127_18_28) alloc) true (= locFinally_pre_116_25_13 locFinally_116_25_13) (= locFinally_116_25_13 (asField locFinally_116_25_13 T_int)) (= ASGBITAND_pre_15_49_26 ASGBITAND_15_49_26) (= true_term (is ASGBITAND_15_49_26 T_int)) (= FORSTMT_pre_16_39_7 FORSTMT_16_39_7) (= true_term (is FORSTMT_16_39_7 T_int)) (= locId_pre_80_43_13 locId_80_43_13) (= locId_80_43_13 (asField locId_80_43_13 T_int)) (= elemType_pre_138_18_28 elemType_138_18_28) (= elemType_138_18_28 (asField elemType_138_18_28 T_javafe_ast_Type)) (< (fClosedTime elemType_138_18_28) alloc) true (= loc_pre_62_45_13 loc_62_45_13) (= loc_62_45_13 (asField loc_62_45_13 T_int)) (= ADD_pre_15_33_26 ADD_15_33_26) (= true_term (is ADD_15_33_26 T_int)) (= SIMPLENAME_pre_16_66_7 SIMPLENAME_16_66_7) (= true_term (is SIMPLENAME_16_66_7 T_int)) (= BLOCKSTMT_pre_16_25_7 BLOCKSTMT_16_25_7) (= true_term (is BLOCKSTMT_16_25_7 T_int)) (= value_pre_25_45_16 value_25_45_16) (= value_25_45_16 (asField value_25_45_16 T_java_lang_Object)) (< (fClosedTime value_25_45_16) alloc) (= loc_pre_28_35_13 loc_28_35_13) (= loc_28_35_13 (asField loc_28_35_13 T_int)) (= TYPEMODIFIERPRAGMA_pre_30_28_26 TYPEMODIFIERPRAGMA_30_28_26) (= true_term (is TYPEMODIFIERPRAGMA_30_28_26 T_int)) (= elems_pre elems) (= elems (asElems elems)) (< (eClosedTime elems) alloc) (= LS (asLockSet LS)) (= alloc_pre alloc)) (not (and (= true_term (is this T_javafe_ast_WhileStmt)) (= true_term (isAllocated this alloc)) ?v_3 true true (= RES (S_select loc_20_13 this)) (= true_term true_term) (or (not ?v_2) (and ?v_2 (or (not (=> (and ?v_2 (not (and ?v_4 ?v_3))) ?v_5)) (not (=> (and ?v_2 ?v_4 ?v_3 (= true_term (S_select syntax_24_28_29 (cast this T_javafe_ast_Type)))) ?v_5))))))))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/uflia/microwave21.ec.minimized.smt2 b/test/regress/regress0/uflia/microwave21.ec.minimized.smt2
deleted file mode 100644
index b37db9a1e..000000000
--- a/test/regress/regress0/uflia/microwave21.ec.minimized.smt2
+++ /dev/null
@@ -1,444 +0,0 @@
-; initialize_defs
-; PROPERTY DEFGEN
-(set-logic QF_UFNIA)
-(set-info :status unsat)
-(declare-fun _base () Int)
-(declare-fun _n () Int)
-(assert (>= _n 0))
-
-; maxdepth = 1
-(declare-fun ___z2z___ (Int) Bool)
-			; KP_START ;  INPUT,STATE(1,)/102
-(declare-fun ___z3z___ (Int) Bool)
-			; KP_CLEAR ;  INPUT,STATE(1,)/103
-(declare-fun ___z4z___ (Int) Bool)
-			; KP_0 ;  INPUT,STATE(1,)/104
-(declare-fun ___z5z___ (Int) Bool)
-			; KP_1 ;  INPUT,STATE(1,)/105
-(declare-fun ___z6z___ (Int) Bool)
-			; KP_2 ;  INPUT,STATE(1,)/106
-(declare-fun ___z7z___ (Int) Bool)
-			; KP_3 ;  INPUT,STATE(1,)/107
-(declare-fun ___z8z___ (Int) Bool)
-			; KP_4 ;  INPUT,STATE(1,)/108
-(declare-fun ___z9z___ (Int) Bool)
-			; KP_5 ;  INPUT,STATE(1,)/109
-(declare-fun ___z10z___ (Int) Bool)
-			; KP_6 ;  INPUT,STATE(1,)/110
-(declare-fun ___z11z___ (Int) Bool)
-			; KP_7 ;  INPUT,STATE(1,)/111
-(declare-fun ___z12z___ (Int) Bool)
-			; KP_8 ;  INPUT,STATE(1,)/112
-(declare-fun ___z13z___ (Int) Bool)
-			; KP_9 ;  INPUT,STATE(1,)/113
-(declare-fun ___z14z___ (Int) Bool)
-			; DOOR_CLOSED ;  INPUT/114
-(declare-fun ___z15z___ (Int) Bool)
-			; OK ;  OUTPUT/115
-(declare-fun ___z19z___ (Int) Bool)
-			; V20_START_PRESSED ;  LOCAL/119
-(declare-fun ___z20z___ (Int) Bool)
-			; V21_CLEAR_PRESSED ;  LOCAL/120
-(declare-fun ___z21z___ (Int) Int)
-			; V25_STEPS_TO_COOK ;  LOCAL,STATE(1,)/121
-(declare-fun ___z22z___ (Int) Bool)
-			; V26_rlt_condact_resetmicrowave_microwave_KEYPAD_PROCESSING_rlt_clock ;  LOCAL,STATE(1,)/122
-(declare-fun ___z23z___ (Int) Bool)
-			; V37_rlt_condact_resetmicrowave_microwave_KEYPAD_PROCESSING_rlt_init_step ;  LOCAL,STATE(1,)/123
-(declare-fun ___z24z___ (Int) Int)
-			; V38_microwave_microwave_KEYPAD_PROCESSING_DISPLAY_LEFT_DIGIT_DIGIT_TO_DISPLAY ;  LOCAL,STATE(1,)/124
-(declare-fun ___z25z___ (Int) Int)
-			; V39_microwave_microwave_KEYPAD_PROCESSING_DISPLAY_MIDDLE_DIGIT_DIGIT_TO_DISPLAY ;  LOCAL,STATE(1,)/125
-(declare-fun ___z26z___ (Int) Int)
-			; V40_microwave_microwave_KEYPAD_PROCESSING_DISPLAY_RIGHT_DIGIT_DIGIT_TO_DISPLAY ;  LOCAL,STATE(1,)/126
-(declare-fun ___z33z___ (Int) Int)
-			; V47_chart_microwave_mode_logic_start ;  LOCAL/133
-(declare-fun ___z34z___ (Int) Int)
-			; V48_chart_microwave_mode_logic_clear_off ;  LOCAL/134
-(declare-fun ___z35z___ (Int) Int)
-			; V49_chart_microwave_mode_logic_door_closed ;  LOCAL/135
-(declare-fun ___z36z___ (Int) Bool)
-			; V51_rlt_eval_microwave_mode_logic_ON_rlt_fired_1 ;  LOCAL/136
-(declare-fun ___z37z___ (Int) Int)
-			; V52_rlt_eval_microwave_mode_logic_ON_rlt_state_1_states___root ;  LOCAL/137
-(declare-fun ___z38z___ (Int) Int)
-			; V53_rlt_eval_microwave_mode_logic_ON_rlt_state_2_states___root ;  LOCAL/138
-(declare-fun ___z39z___ (Int) Bool)
-			; V54_rlt_eval_microwave_mode_logic_ON_rlt_fired_2 ;  LOCAL/139
-(declare-fun ___z40z___ (Int) Bool)
-			; V55_rlt_eval_microwave_mode_logic_ON_rlt_complete_1 ;  LOCAL/140
-(declare-fun ___z41z___ (Int) Int)
-			; V56_rlt_eval_microwave_mode_logic_ON_rlt_state_3_states___root ;  LOCAL/141
-(declare-fun ___z42z___ (Int) Int)
-			; V57_rlt_eval_microwave_mode_logic_ON_rlt_state_3_outports_mode ;  LOCAL/142
-(declare-fun ___z43z___ (Int) Int)
-			; V58_rlt_eval_microwave_mode_logic_ON_rlt_state_4_states___root ;  LOCAL/143
-(declare-fun ___z44z___ (Int) Int)
-			; V59_rlt_eval_microwave_mode_logic_ON_rlt_state_4_outports_mode ;  LOCAL/144
-(declare-fun ___z45z___ (Int) Bool)
-			; V60_rlt_eval_microwave_mode_logic_ON_rlt_fired_4 ;  LOCAL/145
-(declare-fun ___z46z___ (Int) Bool)
-			; V61_rlt_eval_microwave_mode_logic_ON_rlt_complete_2 ;  LOCAL/146
-(declare-fun ___z47z___ (Int) Int)
-			; V62_rlt_eval_microwave_mode_logic_ON_rlt_state_6_states___root ;  LOCAL/147
-(declare-fun ___z48z___ (Int) Int)
-			; V63_rlt_eval_microwave_mode_logic_ON_rlt_state_6_outports_steps_remaining ;  LOCAL/148
-(declare-fun ___z49z___ (Int) Int)
-			; V64_rlt_eval_microwave_mode_logic_ON_rlt_state_7_states___root ;  LOCAL/149
-(declare-fun ___z50z___ (Int) Bool)
-			; V65_rlt_eval_microwave_mode_logic_ON_rlt_fired_5 ;  LOCAL/150
-(declare-fun ___z51z___ (Int) Int)
-			; V66_rlt_eval_microwave_mode_logic_ON_rlt_state_8_outports_mode ;  LOCAL/151
-(declare-fun ___z52z___ (Int) Int)
-			; V67_rlt_eval_microwave_mode_logic_ON_rlt_state_9_states___root ;  LOCAL/152
-(declare-fun ___z53z___ (Int) Int)
-			; V68_rlt_eval_microwave_mode_logic_ON_rlt_state_10_states___root ;  LOCAL/153
-(declare-fun ___z54z___ (Int) Bool)
-			; V69_rlt_eval_microwave_mode_logic_ON_rlt_fired_6 ;  LOCAL/154
-(declare-fun ___z55z___ (Int) Int)
-			; V70_rlt_eval_microwave_mode_logic_ON_rlt_state_11_states___root ;  LOCAL/155
-(declare-fun ___z56z___ (Int) Int)
-			; V71_rlt_eval_microwave_mode_logic_ON_rlt_state_11_outports_mode ;  LOCAL/156
-(declare-fun ___z57z___ (Int) Int)
-			; V72_rlt_enter_microwave_mode_logic_ON_rlt_state_1_states___root ;  LOCAL/157
-(declare-fun ___z58z___ (Int) Bool)
-			; V73_rlt_enter_microwave_mode_logic_ON_rlt_fired_0 ;  LOCAL/158
-(declare-fun ___z59z___ (Int) Bool)
-			; V74_rlt_enter_microwave_mode_logic_ON_rlt_fired_1 ;  LOCAL/159
-(declare-fun ___z60z___ (Int) Int)
-			; V75_rlt_enter_microwave_mode_logic_ON_rlt_state_2_states___root ;  LOCAL/160
-(declare-fun ___z61z___ (Int) Int)
-			; V76_rlt_enter_microwave_mode_logic_ON_rlt_state_2_outports_mode ;  LOCAL/161
-(declare-fun ___z62z___ (Int) Bool)
-			; V77_rlt_enter_microwave_mode_logic_ON_rlt_fired_2 ;  LOCAL/162
-(declare-fun ___z63z___ (Int) Int)
-			; V78_rlt_enter_microwave_mode_logic_ON_rlt_state_4_states___root ;  LOCAL/163
-(declare-fun ___z64z___ (Int) Bool)
-			; V79_rlt_eval_microwave_mode_logic_rlt_fired_0 ;  LOCAL/164
-(declare-fun ___z65z___ (Int) Int)
-			; V80_rlt_eval_microwave_mode_logic_rlt_state_1_outports_steps_remaining ;  LOCAL/165
-(declare-fun ___z66z___ (Int) Bool)
-			; V81_rlt_eval_microwave_mode_logic_rlt_fired_1 ;  LOCAL/166
-(declare-fun ___z67z___ (Int) Int)
-			; V82_rlt_eval_microwave_mode_logic_rlt_state_2_states___root ;  LOCAL/167
-(declare-fun ___z68z___ (Int) Int)
-			; V83_rlt_eval_microwave_mode_logic_rlt_state_3_states___root ;  LOCAL/168
-(declare-fun ___z69z___ (Int) Int)
-			; V84_rlt_eval_microwave_mode_logic_rlt_state_3_outports_mode ;  LOCAL/169
-(declare-fun ___z70z___ (Int) Int)
-			; V85_rlt_enter_microwave_mode_logic_rlt_state_2_states___root ;  LOCAL/170
-(declare-fun ___z71z___ (Int) Bool)
-			; V86_chart_microwave_mode_logic_rlt_evtInitStep ;  LOCAL,STATE(1,)/171
-(declare-fun ___z72z___ (Int) Int)
-			; V87_chart_microwave_mode_logic_begin_state_states___root ;  LOCAL/172
-(declare-fun ___z73z___ (Int) Int)
-			; V88_chart_microwave_mode_logic_begin_state_outports_mode ;  LOCAL/173
-(declare-fun ___z74z___ (Int) Int)
-			; V89_chart_microwave_mode_logic_begin_state_outports_steps_remaining ;  LOCAL/174
-(declare-fun ___z75z___ (Int) Int)
-			; V90_chart_microwave_mode_logic_final_state_states___root ;  LOCAL,STATE(1,)/175
-(declare-fun ___z76z___ (Int) Int)
-			; V92_chart_microwave_mode_logic_steps_remaining ;  LOCAL,STATE(1,)/176
-(declare-fun ___z77z___ (Int) Int)
-			; V93_microwave_microwave_TIME_ON_DISPLAY_SECONDS_TO_MINUTES__QUOTIENT ;  LOCAL/177
-(declare-fun ___z80z___ (Int) Int)
-			; V96_microwave_microwave_mode_logic_mode ;  LOCAL,STATE(1,)/180
-
-
-; Generic definitions:
-(define-fun DEF__172 ((_M Int)) Bool(= (___z72z___ _M) (ite (= _M _base) 0 (___z75z___ (- _M 1)))))
-(define-fun DEF__173 ((_M Int)) Bool(= (___z73z___ _M) (ite (= _M _base) 0 (___z80z___ (- _M 1)))))
-(define-fun DEF__174 ((_M Int)) Bool(= (___z74z___ _M) (ite (= _M _base) 0 (___z76z___ (- _M 1)))))
-(define-fun DEF__175 ((_M Int)) Bool(= (___z75z___ _M) (ite (= (___z71z___ _M) true) (___z70z___ _M) (ite (= (and (not (___z66z___ _M)) (and (>= (___z68z___ _M) 1) (<= (___z68z___ _M) 3))) true) (ite (= (___z54z___ _M) true) (ite (= (not (= (___z55z___ _M) 3)) true) 3 (___z55z___ _M)) (___z55z___ _M)) (___z68z___ _M)))))
-(define-fun DEF__133 ((_M Int)) Bool(= (___z33z___ _M) (ite (= (= (___z19z___ _M) false) true) 0 1)))
-(define-fun DEF__176 ((_M Int)) Bool(= (___z76z___ _M) (ite (= (___z71z___ _M) true) (___z74z___ _M) (ite (= (and (not (___z66z___ _M)) (and (>= (___z68z___ _M) 1) (<= (___z68z___ _M) 3))) true) (ite (= (___z50z___ _M) true) (- (___z48z___ _M) 1) (___z48z___ _M)) (___z65z___ _M)))))
-(define-fun DEF__134 ((_M Int)) Bool(= (___z34z___ _M) (ite (= (= (___z20z___ _M) false) true) 0 1)))
-(define-fun DEF__177 ((_M Int)) Bool(= (___z77z___ _M) (div (div (___z76z___ _M) 1) 60)))
-(define-fun DEF__135 ((_M Int)) Bool(= (___z35z___ _M) (ite (= (= (___z14z___ _M) false) true) 0 1)))
-(define-fun DEF__136 ((_M Int)) Bool(= (___z36z___ _M) (and (and (= (___z68z___ _M) 2) (<= (___z65z___ _M) 0)) (= (___z68z___ _M) 2))))
-(define-fun DEF__180 ((_M Int)) Bool(= (___z80z___ _M) (ite (= (___z71z___ _M) true) (ite (= (not (= (___z72z___ _M) 4)) true) 1 (___z73z___ _M)) (ite (= (and (not (___z66z___ _M)) (and (>= (___z68z___ _M) 1) (<= (___z68z___ _M) 3))) true) (ite (= (___z54z___ _M) true) (ite (= (not (= (___z55z___ _M) 3)) true) 3 (___z56z___ _M)) (___z56z___ _M)) (___z69z___ _M)))))
-(define-fun DEF__137 ((_M Int)) Bool(= (___z37z___ _M) (ite (= (___z36z___ _M) true) (ite (= (and (>= (___z68z___ _M) 1) (<= (___z68z___ _M) 3)) true) 0 (___z68z___ _M)) (___z68z___ _M))))
-(define-fun DEF__138 ((_M Int)) Bool(= (___z38z___ _M) (ite (= (___z36z___ _M) true) (ite (= (not (= (___z37z___ _M) 4)) true) 4 (___z37z___ _M)) (___z37z___ _M))))
-(define-fun DEF__139 ((_M Int)) Bool(= (___z39z___ _M) (and (= (___z38z___ _M) 3) (and (and (ite (= (not (= (___z33z___ _M) 0)) true) true false) (ite (= (not (= (___z35z___ _M) 0)) true) true false)) (not (___z36z___ _M))))))
-(define-fun DEF__140 ((_M Int)) Bool(= (___z40z___ _M) (or (___z39z___ _M) (___z36z___ _M))))
-(define-fun DEF__141 ((_M Int)) Bool(= (___z41z___ _M) (ite (= (___z39z___ _M) true) (ite (= (___z38z___ _M) 3) 1 (___z38z___ _M)) (___z38z___ _M))))
-(define-fun DEF__142 ((_M Int)) Bool(= (___z42z___ _M) (ite (= (___z36z___ _M) true) (ite (= (not (= (___z37z___ _M) 4)) true) 1 (___z69z___ _M)) (___z69z___ _M))))
-(define-fun DEF__143 ((_M Int)) Bool(= (___z43z___ _M) (ite (= (___z39z___ _M) true) (ite (= (not (= (___z41z___ _M) 2)) true) 2 (___z41z___ _M)) (___z41z___ _M))))
-(define-fun DEF__144 ((_M Int)) Bool(= (___z44z___ _M) (ite (= (___z39z___ _M) true) (ite (= (not (= (___z41z___ _M) 2)) true) 2 (___z42z___ _M)) (___z42z___ _M))))
-(define-fun DEF__145 ((_M Int)) Bool(= (___z45z___ _M) (and (and (= (___z43z___ _M) 3) (and (ite (= (not (= (___z34z___ _M) 0)) true) true false) (not (___z40z___ _M)))) (and (= (___z43z___ _M) 3) (not (___z40z___ _M))))))
-(define-fun DEF__146 ((_M Int)) Bool(= (___z46z___ _M) (or (___z45z___ _M) (___z40z___ _M))))
-(define-fun DEF__147 ((_M Int)) Bool(= (___z47z___ _M) (ite (= (___z45z___ _M) true) (ite (= (and (>= (___z43z___ _M) 1) (<= (___z43z___ _M) 3)) true) 0 (___z43z___ _M)) (___z43z___ _M))))
-(define-fun DEF__148 ((_M Int)) Bool(= (___z48z___ _M) (ite (= (___z45z___ _M) true) 0 (___z65z___ _M))))
-(define-fun DEF__149 ((_M Int)) Bool(= (___z49z___ _M) (ite (= (___z45z___ _M) true) (ite (= (not (= (___z47z___ _M) 4)) true) 4 (___z47z___ _M)) (___z47z___ _M))))
-(define-fun DEF__150 ((_M Int)) Bool(= (___z50z___ _M) (and (= (___z49z___ _M) 2) (and (> (___z48z___ _M) 0) (not (___z46z___ _M))))))
-(define-fun DEF__151 ((_M Int)) Bool(= (___z51z___ _M) (ite (= (___z45z___ _M) true) (ite (= (not (= (___z47z___ _M) 4)) true) 1 (___z44z___ _M)) (___z44z___ _M))))
-(define-fun DEF__152 ((_M Int)) Bool(= (___z52z___ _M) (ite (= (___z50z___ _M) true) (ite (= (___z49z___ _M) 2) 1 (___z49z___ _M)) (___z49z___ _M))))
-(define-fun DEF__153 ((_M Int)) Bool(= (___z53z___ _M) (ite (= (___z50z___ _M) true) (ite (= (not (= (___z52z___ _M) 2)) true) 2 (___z52z___ _M)) (___z52z___ _M))))
-(define-fun DEF__154 ((_M Int)) Bool(= (___z54z___ _M) (and (= (___z53z___ _M) 2) (and (or (ite (= (not (= (___z34z___ _M) 0)) true) true false) (not (ite (= (not (= (___z35z___ _M) 0)) true) true false))) (not (or (___z50z___ _M) (___z46z___ _M)))))))
-(define-fun DEF__155 ((_M Int)) Bool(= (___z55z___ _M) (ite (= (___z54z___ _M) true) (ite (= (___z53z___ _M) 2) 1 (___z53z___ _M)) (___z53z___ _M))))
-(define-fun DEF__156 ((_M Int)) Bool(= (___z56z___ _M) (ite (= (___z50z___ _M) true) (ite (= (not (= (___z52z___ _M) 2)) true) 2 (___z51z___ _M)) (___z51z___ _M))))
-(define-fun DEF__157 ((_M Int)) Bool(= (___z57z___ _M) (ite (= (not (and (>= (___z67z___ _M) 1) (<= (___z67z___ _M) 3))) true) 1 (___z67z___ _M))))
-(define-fun DEF__115 ((_M Int)) Bool(= (___z15z___ _M) (ite (= _M _base) (or (not (and (___z22z___ _M) (not (___z3z___ _M)))) (or (not (or (or (or (or (or (or (or (or (or (___z5z___ _M) (___z6z___ _M)) (___z7z___ _M)) (___z8z___ _M)) (___z9z___ _M)) (___z10z___ _M)) (___z11z___ _M)) (___z12z___ _M)) (___z13z___ _M)) (___z4z___ _M))) (= (___z77z___ _M) (div (div (___z21z___ _M) 1) 60)))) (or (not (and (___z22z___ _M) (not (___z3z___ _M)))) (or (not (or (or (or (or (or (or (or (or (or (and (___z5z___ _M) (not (___z5z___ (- _M 1)))) (and (___z6z___ _M) (not (___z6z___ (- _M 1))))) (and (___z7z___ _M) (not (___z7z___ (- _M 1))))) (and (___z8z___ _M) (not (___z8z___ (- _M 1))))) (and (___z9z___ _M) (not (___z9z___ (- _M 1))))) (and (___z10z___ _M) (not (___z10z___ (- _M 1))))) (and (___z11z___ _M) (not (___z11z___ (- _M 1))))) (and (___z12z___ _M) (not (___z12z___ (- _M 1))))) (and (___z13z___ _M) (not (___z13z___ (- _M 1))))) (and (___z4z___ _M) (not (___z4z___ (- _M 1)))))) (= (___z77z___ _M) (div (div (___z21z___ _M) 1) 60)))))))
-(define-fun DEF__158 ((_M Int)) Bool(= (___z58z___ _M) (and (not (and (>= (___z67z___ _M) 1) (<= (___z67z___ _M) 3))) (and (>= (___z57z___ _M) 1) (<= (___z57z___ _M) 3)))))
-(define-fun DEF__159 ((_M Int)) Bool(= (___z59z___ _M) (and (___z58z___ _M) (and (and (>= (___z57z___ _M) 1) (<= (___z57z___ _M) 3)) (ite (= (not (= (___z35z___ _M) 0)) true) true false)))))
-(define-fun DEF__160 ((_M Int)) Bool(= (___z60z___ _M) (ite (= (___z59z___ _M) true) (ite (= (not (= (___z57z___ _M) 2)) true) 2 (___z57z___ _M)) (___z57z___ _M))))
-(define-fun DEF__161 ((_M Int)) Bool(= (___z61z___ _M) (ite (= (___z59z___ _M) true) (ite (= (not (= (___z57z___ _M) 2)) true) 2 (___z73z___ _M)) (___z73z___ _M))))
-(define-fun DEF__119 ((_M Int)) Bool(= (___z19z___ _M) (ite (= _M _base) (___z2z___ _M) (and (___z2z___ _M) (not (___z2z___ (- _M 1)))))))
-(define-fun DEF__162 ((_M Int)) Bool(= (___z62z___ _M) (and (___z58z___ _M) (and (and (>= (___z60z___ _M) 1) (<= (___z60z___ _M) 3)) (not (___z59z___ _M))))))
-(define-fun DEF__120 ((_M Int)) Bool(= (___z20z___ _M) (ite (= _M _base) (___z3z___ _M) (and (___z3z___ _M) (not (___z3z___ (- _M 1)))))))
-(define-fun DEF__163 ((_M Int)) Bool(= (___z63z___ _M) (ite (= (___z62z___ _M) true) (ite (= (not (= (___z60z___ _M) 3)) true) 3 (___z60z___ _M)) (___z60z___ _M))))
-(define-fun DEF__121 ((_M Int)) Bool(= (___z21z___ _M) (ite (= _M _base) (ite (= (and (___z23z___ _M) (not (___z22z___ _M))) true) 0 (* (+ (+ (* (___z26z___ _M) 1) (* (___z25z___ _M) 10)) (* (___z24z___ _M) 60)) 1)) (ite (= (and (___z23z___ _M) (not (___z22z___ _M))) true) 0 (ite (= (___z22z___ _M) true) (* (+ (+ (* (___z26z___ _M) 1) (* (___z25z___ _M) 10)) (* (___z24z___ _M) 60)) 1) (___z21z___ (- _M 1)))))))
-(define-fun DEF__164 ((_M Int)) Bool(= (___z64z___ _M) (= (___z72z___ _M) 4)))
-(define-fun DEF__122 ((_M Int)) Bool(= (___z22z___ _M) (ite (= _M _base) true (ite (= 1 (___z80z___ (- _M 1))) true false))))
-(define-fun DEF__165 ((_M Int)) Bool(= (___z65z___ _M) (ite (= (___z64z___ _M) true) (___z21z___ _M) (___z74z___ _M))))
-(define-fun DEF__123 ((_M Int)) Bool(= (___z23z___ _M) (ite (= _M _base) true (ite (= (not (___z22z___ _M)) true) true (ite (= (___z22z___ (- _M 1)) true) false (___z23z___ (- _M 1)))))))
-(define-fun DEF__166 ((_M Int)) Bool(= (___z66z___ _M) (and (___z64z___ _M) (and (= (___z72z___ _M) 4) (and (ite (= (not (= (___z33z___ _M) 0)) true) true false) (ite (= (not (= (ite (= (= (> (___z21z___ _M) 0) false) true) 0 1) 0)) true) true false))))))
-(define-fun DEF__124 ((_M Int)) Bool(= (___z24z___ _M) (ite (= _M _base) 0 (ite (= (___z22z___ _M) true) (ite (= (___z23z___ _M) true) 0 (ite (= (___z3z___ _M) true) 0 (ite (= (ite (<= (ite (= (and (___z4z___ _M) (not (___z4z___ (- _M 1)))) true) 0 (ite (= (and (___z5z___ _M) (not (___z5z___ (- _M 1)))) true) 1 (ite (= (and (___z6z___ _M) (not (___z6z___ (- _M 1)))) true) 2 (ite (= (and (___z7z___ _M) (not (___z7z___ (- _M 1)))) true) 3 (ite (= (and (___z8z___ _M) (not (___z8z___ (- _M 1)))) true) 4 (ite (= (and (___z9z___ _M) (not (___z9z___ (- _M 1)))) true) 5 (ite (= (and (___z10z___ _M) (not (___z10z___ (- _M 1)))) true) 6 (ite (= (and (___z11z___ _M) (not (___z11z___ (- _M 1)))) true) 7 (ite (= (and (___z12z___ _M) (not (___z12z___ (- _M 1)))) true) 8 (ite (= (and (___z13z___ _M) (not (___z13z___ (- _M 1)))) true) 9 10)))))))))) 9) true false) true) (___z25z___ (- _M 1)) (___z24z___ (- _M 1))))) (___z24z___ (- _M 1))))))
-(define-fun DEF__167 ((_M Int)) Bool(= (___z67z___ _M) (ite (= (___z66z___ _M) true) (ite (= (___z72z___ _M) 4) 0 (___z72z___ _M)) (___z72z___ _M))))
-(define-fun DEF__125 ((_M Int)) Bool(= (___z25z___ _M) (ite (= _M _base) 0 (ite (= (___z22z___ _M) true) (ite (= (___z23z___ _M) true) 0 (ite (= (___z3z___ _M) true) 0 (ite (= (ite (<= (ite (= (and (___z4z___ _M) (not (___z4z___ (- _M 1)))) true) 0 (ite (= (and (___z5z___ _M) (not (___z5z___ (- _M 1)))) true) 1 (ite (= (and (___z6z___ _M) (not (___z6z___ (- _M 1)))) true) 2 (ite (= (and (___z7z___ _M) (not (___z7z___ (- _M 1)))) true) 3 (ite (= (and (___z8z___ _M) (not (___z8z___ (- _M 1)))) true) 4 (ite (= (and (___z9z___ _M) (not (___z9z___ (- _M 1)))) true) 5 (ite (= (and (___z10z___ _M) (not (___z10z___ (- _M 1)))) true) 6 (ite (= (and (___z11z___ _M) (not (___z11z___ (- _M 1)))) true) 7 (ite (= (and (___z12z___ _M) (not (___z12z___ (- _M 1)))) true) 8 (ite (= (and (___z13z___ _M) (not (___z13z___ (- _M 1)))) true) 9 10)))))))))) 9) true false) true) (___z26z___ (- _M 1)) (___z25z___ (- _M 1))))) (___z25z___ (- _M 1))))))
-(define-fun DEF__168 ((_M Int)) Bool(= (___z68z___ _M) (ite (= (___z66z___ _M) true) (___z63z___ _M) (___z67z___ _M))))
-(define-fun DEF__126 ((_M Int)) Bool(= (___z26z___ _M) (ite (= _M _base) (ite (= (___z3z___ _M) true) 0 (ite (= (ite (<= (ite (= (___z4z___ _M) true) 0 (ite (= (___z5z___ _M) true) 1 (ite (= (___z6z___ _M) true) 2 (ite (= (___z7z___ _M) true) 3 (ite (= (___z8z___ _M) true) 4 (ite (= (___z9z___ _M) true) 5 (ite (= (___z10z___ _M) true) 6 (ite (= (___z11z___ _M) true) 7 (ite (= (___z12z___ _M) true) 8 (ite (= (___z13z___ _M) true) 9 10)))))))))) 9) true false) true) (ite (= (___z4z___ _M) true) 0 (ite (= (___z5z___ _M) true) 1 (ite (= (___z6z___ _M) true) 2 (ite (= (___z7z___ _M) true) 3 (ite (= (___z8z___ _M) true) 4 (ite (= (___z9z___ _M) true) 5 (ite (= (___z10z___ _M) true) 6 (ite (= (___z11z___ _M) true) 7 (ite (= (___z12z___ _M) true) 8 (ite (= (___z13z___ _M) true) 9 10)))))))))) 0)) (ite (= (___z22z___ _M) true) (ite (= (___z23z___ _M) true) (ite (= (___z3z___ _M) true) 0 (ite (= (ite (<= (ite (= (___z4z___ _M) true) 0 (ite (= (___z5z___ _M) true) 1 (ite (= (___z6z___ _M) true) 2 (ite (= (___z7z___ _M) true) 3 (ite (= (___z8z___ _M) true) 4 (ite (= (___z9z___ _M) true) 5 (ite (= (___z10z___ _M) true) 6 (ite (= (___z11z___ _M) true) 7 (ite (= (___z12z___ _M) true) 8 (ite (= (___z13z___ _M) true) 9 10)))))))))) 9) true false) true) (ite (= (___z4z___ _M) true) 0 (ite (= (___z5z___ _M) true) 1 (ite (= (___z6z___ _M) true) 2 (ite (= (___z7z___ _M) true) 3 (ite (= (___z8z___ _M) true) 4 (ite (= (___z9z___ _M) true) 5 (ite (= (___z10z___ _M) true) 6 (ite (= (___z11z___ _M) true) 7 (ite (= (___z12z___ _M) true) 8 (ite (= (___z13z___ _M) true) 9 10)))))))))) 0)) (ite (= (___z3z___ _M) true) 0 (ite (= (ite (<= (ite (= (and (___z4z___ _M) (not (___z4z___ (- _M 1)))) true) 0 (ite (= (and (___z5z___ _M) (not (___z5z___ (- _M 1)))) true) 1 (ite (= (and (___z6z___ _M) (not (___z6z___ (- _M 1)))) true) 2 (ite (= (and (___z7z___ _M) (not (___z7z___ (- _M 1)))) true) 3 (ite (= (and (___z8z___ _M) (not (___z8z___ (- _M 1)))) true) 4 (ite (= (and (___z9z___ _M) (not (___z9z___ (- _M 1)))) true) 5 (ite (= (and (___z10z___ _M) (not (___z10z___ (- _M 1)))) true) 6 (ite (= (and (___z11z___ _M) (not (___z11z___ (- _M 1)))) true) 7 (ite (= (and (___z12z___ _M) (not (___z12z___ (- _M 1)))) true) 8 (ite (= (and (___z13z___ _M) (not (___z13z___ (- _M 1)))) true) 9 10)))))))))) 9) true false) true) (ite (= (and (___z4z___ _M) (not (___z4z___ (- _M 1)))) true) 0 (ite (= (and (___z5z___ _M) (not (___z5z___ (- _M 1)))) true) 1 (ite (= (and (___z6z___ _M) (not (___z6z___ (- _M 1)))) true) 2 (ite (= (and (___z7z___ _M) (not (___z7z___ (- _M 1)))) true) 3 (ite (= (and (___z8z___ _M) (not (___z8z___ (- _M 1)))) true) 4 (ite (= (and (___z9z___ _M) (not (___z9z___ (- _M 1)))) true) 5 (ite (= (and (___z10z___ _M) (not (___z10z___ (- _M 1)))) true) 6 (ite (= (and (___z11z___ _M) (not (___z11z___ (- _M 1)))) true) 7 (ite (= (and (___z12z___ _M) (not (___z12z___ (- _M 1)))) true) 8 (ite (= (and (___z13z___ _M) (not (___z13z___ (- _M 1)))) true) 9 10)))))))))) (___z26z___ (- _M 1))))) (___z26z___ (- _M 1))))))
-(define-fun DEF__169 ((_M Int)) Bool(= (___z69z___ _M) (ite (= (___z66z___ _M) true) (ite (= (___z62z___ _M) true) (ite (= (not (= (___z60z___ _M) 3)) true) 3 (___z61z___ _M)) (___z61z___ _M)) (___z73z___ _M))))
-(define-fun DEF__170 ((_M Int)) Bool(= (___z70z___ _M) (ite (= (not (= (___z72z___ _M) 4)) true) 4 (___z72z___ _M))))
-(define-fun DEF__171 ((_M Int)) Bool(= (___z71z___ _M) (ite (= _M _base) true (ite (= true true) false (___z71z___ (- _M 1))))))
-; Transition:
-(define-fun trans ((_M Int)) Bool (and (DEF__171 _M)  (DEF__170 _M)  (DEF__169 _M)  (DEF__126 _M)  (DEF__168 _M)  (DEF__125 _M)  (DEF__167 _M)  (DEF__124 _M)  (DEF__166 _M)  (DEF__123 _M)  (DEF__165 _M)  (DEF__122 _M)  (DEF__164 _M)  (DEF__121 _M)  (DEF__163 _M)  (DEF__120 _M)  (DEF__162 _M)  (DEF__119 _M)  (DEF__161 _M)  (DEF__160 _M)  (DEF__159 _M)  (DEF__158 _M)  (DEF__115 _M)  (DEF__157 _M)  (DEF__156 _M)  (DEF__155 _M)  (DEF__154 _M)  (DEF__153 _M)  (DEF__152 _M)  (DEF__151 _M)  (DEF__150 _M)  (DEF__149 _M)  (DEF__148 _M)  (DEF__147 _M)  (DEF__146 _M)  (DEF__145 _M)  (DEF__144 _M)  (DEF__143 _M)  (DEF__142 _M)  (DEF__141 _M)  (DEF__140 _M)  (DEF__139 _M)  (DEF__138 _M)  (DEF__137 _M)  (DEF__180 _M)  (DEF__136 _M)  (DEF__135 _M)  (DEF__177 _M)  (DEF__134 _M)  (DEF__176 _M)  (DEF__133 _M)  (DEF__175 _M)  (DEF__174 _M)  (DEF__173 _M)  (DEF__172 _M) ))
-
-(define-fun P ((_M Int)) Bool(= (___z15z___ _M) true))
-
-
-
-; BASE DONE
-
-; Begin induction:
-; print_initialization
-; def_assert_both1
-; def_assert_both
-(assert (DEF__172 0))
-; print_checker_assertion
-(assert (DEF__173 0))
-; print_checker_assertion
-(assert (DEF__174 0))
-; print_checker_assertion
-(assert (DEF__175 0))
-; print_checker_assertion
-(assert (DEF__133 0))
-; print_checker_assertion
-(assert (DEF__176 0))
-; print_checker_assertion
-(assert (DEF__134 0))
-; print_checker_assertion
-(assert (DEF__177 0))
-; print_checker_assertion
-(assert (DEF__135 0))
-; print_checker_assertion
-(assert (DEF__136 0))
-; print_checker_assertion
-(assert (DEF__180 0))
-; print_checker_assertion
-(assert (DEF__137 0))
-; print_checker_assertion
-(assert (DEF__138 0))
-; print_checker_assertion
-(assert (DEF__139 0))
-; print_checker_assertion
-(assert (DEF__140 0))
-; print_checker_assertion
-(assert (DEF__141 0))
-; print_checker_assertion
-(assert (DEF__142 0))
-; print_checker_assertion
-(assert (DEF__143 0))
-; print_checker_assertion
-(assert (DEF__144 0))
-; print_checker_assertion
-(assert (DEF__145 0))
-; print_checker_assertion
-(assert (DEF__146 0))
-; print_checker_assertion
-(assert (DEF__147 0))
-; print_checker_assertion
-(assert (DEF__148 0))
-; print_checker_assertion
-(assert (DEF__149 0))
-; print_checker_assertion
-(assert (DEF__150 0))
-; print_checker_assertion
-(assert (DEF__151 0))
-; print_checker_assertion
-(assert (DEF__152 0))
-; print_checker_assertion
-(assert (DEF__153 0))
-; print_checker_assertion
-(assert (DEF__154 0))
-; print_checker_assertion
-(assert (DEF__155 0))
-; print_checker_assertion
-(assert (DEF__156 0))
-; print_checker_assertion
-(assert (DEF__157 0))
-; print_checker_assertion
-(assert (DEF__115 0))
-; print_checker_assertion
-(assert (DEF__158 0))
-; print_checker_assertion
-(assert (DEF__159 0))
-; print_checker_assertion
-(assert (DEF__160 0))
-; print_checker_assertion
-(assert (DEF__161 0))
-; print_checker_assertion
-(assert (DEF__119 0))
-; print_checker_assertion
-(assert (DEF__162 0))
-; print_checker_assertion
-(assert (DEF__120 0))
-; print_checker_assertion
-(assert (DEF__163 0))
-; print_checker_assertion
-(assert (DEF__121 0))
-; print_checker_assertion
-(assert (DEF__164 0))
-; print_checker_assertion
-(assert (DEF__122 0))
-; print_checker_assertion
-(assert (DEF__165 0))
-; print_checker_assertion
-(assert (DEF__123 0))
-; print_checker_assertion
-(assert (DEF__166 0))
-; print_checker_assertion
-(assert (DEF__124 0))
-; print_checker_assertion
-(assert (DEF__167 0))
-; print_checker_assertion
-(assert (DEF__125 0))
-; print_checker_assertion
-(assert (DEF__168 0))
-; print_checker_assertion
-(assert (DEF__126 0))
-; print_checker_assertion
-(assert (DEF__169 0))
-; print_checker_assertion
-(assert (DEF__170 0))
-; print_checker_assertion
-(assert (DEF__171 0))
-; print_checker_assertion
-; def_assert_both1
-; def_assert_both
-(assert (DEF__172 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__173 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__174 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__175 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__133 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__176 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__134 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__177 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__135 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__136 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__180 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__137 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__138 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__139 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__140 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__141 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__142 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__143 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__144 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__145 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__146 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__147 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__148 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__149 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__150 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__151 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__152 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__153 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__154 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__155 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__156 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__157 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__115 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__158 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__159 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__160 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__161 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__119 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__162 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__120 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__163 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__121 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__164 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__122 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__165 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__123 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__166 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__124 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__167 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__125 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__168 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__126 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__169 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__170 (- 0 1)))
-; print_checker_assertion
-(assert (DEF__171 (- 0 1)))
-; print_checker_assertion
-
-; Checking k=2 base
-; not refinement_pass
-(assert (not (=> (= _base (- 0 1)) (and (P (- 0 1)) (P 0)))))
-(assert true)
-(check-sat)
diff --git a/test/regress/regress0/uflia/simple_cyclic2.smt2 b/test/regress/regress0/uflia/simple_cyclic2.smt2
deleted file mode 100644
index 7a0b39999..000000000
--- a/test/regress/regress0/uflia/simple_cyclic2.smt2
+++ /dev/null
@@ -1,44 +0,0 @@
-(set-logic QF_UFIDL)
-(set-info :source |
-Benchmark generated from the verification of programs manipulating linked lists inside UCLID. For more information see:
-"Verifying properties of well-founded linked lists", Shuvendu Lahiri and Shaz Qaader, POPL 2006
-
-This benchmark was automatically translated into SMT-LIB format by Albert Oliveras.
-|)
-(set-info :smt-lib-version 2.0)
-(set-info :category "industrial")
-(set-info :status sat)
-(declare-fun t.l () Int)
-(declare-fun en_LOCATION () Int)
-(declare-fun NULL () Int)
-(declare-fun ZERO () Int)
-(declare-fun i1 () Int)
-(declare-fun t.l0 () Int)
-(declare-fun t.pc () Int)
-(declare-fun t.t () Int)
-(declare-fun PRED_VAR__p_0 () Bool)
-(declare-fun PRED_VAR__p_1 () Bool)
-(declare-fun PRED_VAR__p_2 () Bool)
-(declare-fun PRED_VAR__p_16 () Bool)
-(declare-fun PRED_VAR__p_11 () Bool)
-(declare-fun PRED_VAR__p_10 () Bool)
-(declare-fun PRED_VAR__p_14 () Bool)
-(declare-fun PRED_VAR__p_12 () Bool)
-(declare-fun PRED_VAR__p_15 () Bool)
-(declare-fun PRED_VAR__p_18 () Bool)
-(declare-fun PRED_VAR__p_19 () Bool)
-(declare-fun PRED_VAR__p_3 () Bool)
-(declare-fun PRED_VAR__p_20 () Bool)
-(declare-fun PRED_VAR__p_8 () Bool)
-(declare-fun PRED_VAR__p_9 () Bool)
-(declare-fun t.I_nxt (Int) Int)
-(declare-fun t.I_nxt0 (Int) Int)
-(declare-fun t.data (Int) Int)
-(declare-fun t.nxt (Int) Int)
-(declare-fun t.H_nxt (Int) Bool)
-(declare-fun t.R_nxt (Int Int) Bool)
-(declare-fun t.H_nxt0 (Int) Bool)
-(declare-fun t.R_nxt0 (Int Int) Bool)
-(assert (let ((?v_0 (t.nxt t.l))) (let ((?v_7 (t.H_nxt ?v_0)) (?v_242 (+ 1 (+ 1 (+ 1 (+ 1 en_LOCATION)))))) (let ((?v_1 (= t.pc ?v_242)) (?v_2 (t.R_nxt ?v_0 i1))) (let ((?v_3 (not ?v_1))) (let ((?v_6 (or (and ?v_1 ?v_2) (and ?v_3 ?v_2))) (?v_4 (t.R_nxt t.l i1))) (let ((?v_247 (or (and ?v_1 ?v_4) (and ?v_3 ?v_4))) (?v_112 (= i1 t.l))) (let ((?v_5 (and ?v_247 (not ?v_112))) (?v_8 (t.R_nxt ?v_0 t.l)) (?v_9 (t.R_nxt ?v_0 t.t))) (let ((?v_12 (or (and ?v_1 ?v_9) (and ?v_3 ?v_9))) (?v_10 (t.R_nxt t.l t.t)) (?v_127 (= t.t t.l))) (let ((?v_22 (not ?v_127))) (let ((?v_11 (and (or (and ?v_1 ?v_10) (and ?v_3 ?v_10)) ?v_22)) (?v_13 (t.R_nxt ?v_0 ?v_0))) (let ((?v_16 (or (and ?v_1 ?v_13) (and ?v_3 ?v_13))) (?v_14 (t.R_nxt t.l ?v_0)) (?v_55 (= ?v_0 t.l))) (let ((?v_15 (and (or (and ?v_1 ?v_14) (and ?v_3 ?v_14)) (not ?v_55))) (?v_18 (t.nxt t.t))) (let ((?v_17 (t.R_nxt ?v_0 ?v_18))) (let ((?v_21 (or (and ?v_1 ?v_17) (and ?v_3 ?v_17))) (?v_19 (t.R_nxt t.l ?v_18)) (?v_72 (= ?v_18 t.l))) (let ((?v_20 (and (or (and ?v_1 ?v_19) (and ?v_3 ?v_19)) (not ?v_72))) (?v_31 (t.H_nxt ?v_18)) (?v_147 (= t.pc en_LOCATION))) (let ((?v_23 (and ?v_147 ?v_22)) (?v_24 (t.R_nxt ?v_18 i1))) (let ((?v_26 (not ?v_23))) (let ((?v_25 (and ?v_26 ?v_24))) (let ((?v_30 (or (and ?v_23 (or (and ?v_23 ?v_24) ?v_25)) ?v_25)) (?v_27 (t.R_nxt t.t i1))) (let ((?v_28 (and ?v_26 ?v_27)) (?v_116 (= i1 t.t))) (let ((?v_29 (and (or (and ?v_23 (or (and ?v_23 ?v_27) ?v_28)) ?v_28) (not ?v_116))) (?v_32 (t.R_nxt ?v_18 t.l))) (let ((?v_33 (and ?v_26 ?v_32))) (let ((?v_37 (or (and ?v_23 (or (and ?v_23 ?v_32) ?v_33)) ?v_33)) (?v_34 (t.R_nxt t.t t.l))) (let ((?v_35 (and ?v_26 ?v_34))) (let ((?v_36 (and (or (and ?v_23 (or (and ?v_23 ?v_34) ?v_35)) ?v_35) ?v_22)) (?v_38 (t.R_nxt ?v_18 t.t))) (let ((?v_39 (and ?v_26 ?v_38)) (?v_40 (t.R_nxt ?v_18 ?v_0))) (let ((?v_41 (and ?v_26 ?v_40))) (let ((?v_45 (or (and ?v_23 (or (and ?v_23 ?v_40) ?v_41)) ?v_41)) (?v_42 (t.R_nxt t.t ?v_0))) (let ((?v_43 (and ?v_26 ?v_42)) (?v_60 (= ?v_0 t.t))) (let ((?v_44 (and (or (and ?v_23 (or (and ?v_23 ?v_42) ?v_43)) ?v_43) (not ?v_60))) (?v_46 (t.R_nxt ?v_18 ?v_18))) (let ((?v_47 (and ?v_26 ?v_46))) (let ((?v_51 (or (and ?v_23 (or (and ?v_23 ?v_46) ?v_47)) ?v_47)) (?v_48 (t.R_nxt t.t ?v_18))) (let ((?v_49 (and ?v_26 ?v_48)) (?v_78 (= ?v_18 t.t))) (let ((?v_50 (and (or (and ?v_23 (or (and ?v_23 ?v_48) ?v_49)) ?v_49) (not ?v_78))) (?v_54 (t.I_nxt t.l))) (let ((?v_53 (= ?v_54 i1)) (?v_67 (t.H_nxt i1)) (?v_120 (= i1 ?v_0)) (?v_56 (not ?v_7)) (?v_57 (t.I_nxt ?v_0))) (let ((?v_86 (= i1 ?v_57))) (let ((?v_52 (or (and ?v_67 ?v_120) (and ?v_56 ?v_86))) (?v_59 (= ?v_54 t.l))) (let ((?v_260 (not ?v_59)) (?v_71 (t.H_nxt t.l)) (?v_89 (= ?v_57 t.l))) (let ((?v_58 (or (and ?v_71 ?v_55) (and ?v_56 ?v_89))) (?v_62 (= ?v_54 t.t)) (?v_77 (t.H_nxt t.t)) (?v_93 (= t.t ?v_57))) (let ((?v_61 (or (and ?v_77 ?v_60) (and ?v_56 ?v_93))) (?v_64 (= ?v_54 ?v_0)) (?v_95 (= ?v_0 ?v_57))) (let ((?v_63 (or ?v_7 ?v_95)) (?v_66 (= ?v_54 ?v_18)) (?v_81 (= ?v_18 ?v_0)) (?v_97 (= ?v_18 ?v_57))) (let ((?v_65 (or (and ?v_31 ?v_81) (and ?v_56 ?v_97))) (?v_70 (t.I_nxt t.t))) (let ((?v_69 (= ?v_70 i1)) (?v_123 (= i1 ?v_18)) (?v_73 (not ?v_31)) (?v_74 (t.I_nxt ?v_18))) (let ((?v_99 (= i1 ?v_74))) (let ((?v_68 (or (and ?v_67 ?v_123) (and ?v_73 ?v_99))) (?v_76 (= ?v_70 t.l)) (?v_102 (= ?v_74 t.l))) (let ((?v_75 (or (and ?v_71 ?v_72) (and ?v_73 ?v_102))) (?v_80 (= ?v_70 t.t)) (?v_106 (= t.t ?v_74))) (let ((?v_79 (or (and ?v_77 ?v_78) (and ?v_73 ?v_106))) (?v_83 (= ?v_70 ?v_0)) (?v_108 (= ?v_0 ?v_74))) (let ((?v_82 (or (and ?v_7 ?v_81) (and ?v_73 ?v_108))) (?v_85 (= ?v_70 ?v_18)) (?v_110 (= ?v_18 ?v_74))) (let ((?v_84 (or ?v_31 ?v_110)) (?v_87 (t.nxt ?v_0))) (let ((?v_90 (not (t.H_nxt ?v_87))) (?v_91 (t.I_nxt ?v_87))) (let ((?v_88 (or (and ?v_67 (= i1 ?v_87)) (and ?v_90 (= i1 ?v_91)))) (?v_92 (or (and ?v_71 (= t.l ?v_87)) (and ?v_90 (= t.l ?v_91)))) (?v_94 (or (and ?v_77 (= t.t ?v_87)) (and ?v_90 (= t.t ?v_91)))) (?v_96 (or (and ?v_7 (= ?v_0 ?v_87)) (and ?v_90 (= ?v_0 ?v_91)))) (?v_98 (or (and ?v_31 (= ?v_18 ?v_87)) (and ?v_90 (= ?v_18 ?v_91)))) (?v_100 (t.nxt ?v_18))) (let ((?v_103 (not (t.H_nxt ?v_100))) (?v_104 (t.I_nxt ?v_100))) (let ((?v_101 (or (and ?v_67 (= i1 ?v_100)) (and ?v_103 (= i1 ?v_104)))) (?v_105 (or (and ?v_71 (= t.l ?v_100)) (and ?v_103 (= t.l ?v_104)))) (?v_107 (or (and ?v_77 (= t.t ?v_100)) (and ?v_103 (= t.t ?v_104)))) (?v_109 (or (and ?v_7 (= ?v_0 ?v_100)) (and ?v_103 (= ?v_0 ?v_104)))) (?v_111 (or (and ?v_31 (= ?v_18 ?v_100)) (and ?v_103 (= ?v_18 ?v_104)))) (?v_156 (t.R_nxt i1 i1)) (?v_115 (t.R_nxt i1 t.l)) (?v_113 (t.nxt i1))) (let ((?v_117 (not (t.H_nxt ?v_113)))) (let ((?v_114 (or ?v_112 (and ?v_117 (t.R_nxt ?v_113 t.l)))) (?v_119 (t.R_nxt i1 t.t)) (?v_118 (or ?v_116 (and ?v_117 (t.R_nxt ?v_113 t.t)))) (?v_122 (t.R_nxt i1 ?v_0)) (?v_121 (or ?v_120 (and ?v_117 (t.R_nxt ?v_113 ?v_0)))) (?v_125 (t.R_nxt i1 ?v_18)) (?v_124 (or ?v_123 (and ?v_117 (t.R_nxt ?v_113 ?v_18)))) (?v_149 (not ?v_4)) (?v_126 (or ?v_112 (and ?v_56 ?v_2))) (?v_169 (t.R_nxt t.l t.l)) (?v_190 (not ?v_10)) (?v_128 (or ?v_127 (and ?v_56 ?v_9))) (?v_209 (not ?v_14)) (?v_129 (or ?v_55 (and ?v_56 ?v_13))) (?v_227 (not ?v_19)) (?v_130 (or ?v_72 (and ?v_56 ?v_17))) (?v_157 (not ?v_27)) (?v_131 (or ?v_116 (and ?v_73 ?v_24))) (?v_178 (not ?v_34)) (?v_132 (or ?v_127 (and ?v_73 ?v_32))) (?v_196 (t.R_nxt t.t t.t)) (?v_214 (not ?v_42)) (?v_133 (or ?v_60 (and ?v_73 ?v_40))) (?v_232 (not ?v_48)) (?v_134 (or ?v_78 (and ?v_73 ?v_46))) (?v_135 (or ?v_120 (and ?v_90 (t.R_nxt ?v_87 i1)))) (?v_136 (or ?v_55 (and ?v_90 (t.R_nxt ?v_87 t.l)))) (?v_137 (or ?v_60 (and ?v_90 (t.R_nxt ?v_87 t.t)))) (?v_138 (or ?v_81 (and ?v_90 (t.R_nxt ?v_87 ?v_18)))) (?v_139 (or ?v_123 (and ?v_103 (t.R_nxt ?v_100 i1)))) (?v_140 (or ?v_72 (and ?v_103 (t.R_nxt ?v_100 t.l)))) (?v_141 (or ?v_78 (and ?v_103 (t.R_nxt ?v_100 t.t)))) (?v_142 (or ?v_81 (and ?v_103 (t.R_nxt ?v_100 ?v_0)))) (?v_146 (= (t.I_nxt0 t.l0) t.l0)) (?v_143 (= i1 NULL)) (?v_145 (t.H_nxt0 i1)) (?v_144 (= t.l t.l0)) (?v_168 (= t.l NULL)) (?v_170 (t.H_nxt0 t.l)) (?v_187 (= t.t NULL)) (?v_188 (t.H_nxt0 t.t)) (?v_206 (= ?v_0 NULL)) (?v_207 (t.H_nxt0 ?v_0)) (?v_224 (= ?v_18 NULL)) (?v_225 (t.H_nxt0 ?v_18))) (let ((?v_148 (not ?v_143)) (?v_150 (t.R_nxt0 t.l i1)) (?v_152 (and ?v_146 (and ?v_1 (not ?v_147))))) (let ((?v_151 (and ?v_145 ?v_152))) (let ((?v_160 (and ?v_22 (and ?v_59 (and ?v_67 (and ?v_4 (and ?v_144 (and ?v_150 ?v_151))))))) (?v_154 (not ?v_150))) (let ((?v_161 (and ?v_22 (and ?v_59 (and ?v_67 (and ?v_149 (and ?v_144 (and ?v_154 ?v_151))))))) (?v_153 (not ?v_67)) (?v_158 (not ?v_145))) (let ((?v_155 (and ?v_158 ?v_152)) (?v_159 (and ?v_146 (and ?v_147 ?v_3)))) (let ((?v_163 (and ?v_145 ?v_159)) (?v_164 (and ?v_158 ?v_159)) (?v_162 (not ?v_156))) (let ((?v_165 (and ?v_59 (and ?v_67 (and ?v_4 (and ?v_144 (and ?v_150 ?v_163))))))) (let ((?v_167 (and ?v_22 ?v_165)) (?v_258 (t.data i1))) (let ((?v_166 (= ?v_258 ZERO)) (?v_171 (not ?v_168)) (?v_172 (t.R_nxt0 t.l t.l)) (?v_173 (and ?v_170 ?v_152))) (let ((?v_180 (and ?v_22 (and ?v_59 (and ?v_71 (and ?v_169 (and ?v_144 (and ?v_172 ?v_173))))))) (?v_175 (not ?v_169)) (?v_176 (not ?v_172))) (let ((?v_181 (and ?v_22 (and ?v_59 (and ?v_71 (and ?v_175 (and ?v_144 (and ?v_176 ?v_173))))))) (?v_174 (not ?v_71)) (?v_179 (not ?v_170))) (let ((?v_177 (and ?v_179 ?v_152)) (?v_182 (and ?v_170 ?v_159)) (?v_183 (and ?v_179 ?v_159))) (let ((?v_184 (and ?v_59 (and ?v_71 (and ?v_169 (and ?v_144 (and ?v_172 ?v_182))))))) (let ((?v_186 (and ?v_22 ?v_184)) (?v_185 (= (t.data t.l) ZERO)) (?v_189 (not ?v_187)) (?v_191 (t.R_nxt0 t.l t.t)) (?v_192 (and ?v_188 ?v_152))) (let ((?v_199 (and ?v_22 (and ?v_59 (and ?v_77 (and ?v_10 (and ?v_144 (and ?v_191 ?v_192))))))) (?v_194 (not ?v_191))) (let ((?v_200 (and ?v_22 (and ?v_59 (and ?v_77 (and ?v_190 (and ?v_144 (and ?v_194 ?v_192))))))) (?v_193 (not ?v_77)) (?v_198 (not ?v_188))) (let ((?v_195 (and ?v_198 ?v_152)) (?v_197 (not ?v_196)) (?v_201 (and ?v_188 ?v_159)) (?v_202 (and ?v_198 ?v_159))) (let ((?v_203 (and ?v_59 (and ?v_77 (and ?v_10 (and ?v_144 (and ?v_191 ?v_201))))))) (let ((?v_205 (and ?v_22 ?v_203)) (?v_204 (= (t.data t.t) ZERO)) (?v_208 (not ?v_206)) (?v_210 (t.R_nxt0 t.l ?v_0)) (?v_211 (and ?v_207 ?v_152))) (let ((?v_216 (and ?v_22 (and ?v_59 (and ?v_7 (and ?v_14 (and ?v_144 (and ?v_210 ?v_211))))))) (?v_212 (not ?v_210))) (let ((?v_217 (and ?v_22 (and ?v_59 (and ?v_7 (and ?v_209 (and ?v_144 (and ?v_212 ?v_211))))))) (?v_215 (not ?v_207))) (let ((?v_213 (and ?v_215 ?v_152)) (?v_219 (and ?v_207 ?v_159)) (?v_220 (and ?v_215 ?v_159)) (?v_218 (not ?v_13))) (let ((?v_221 (and ?v_59 (and ?v_7 (and ?v_14 (and ?v_144 (and ?v_210 ?v_219))))))) (let ((?v_223 (and ?v_22 ?v_221)) (?v_222 (= (t.data ?v_0) ZERO)) (?v_226 (not ?v_224)) (?v_228 (t.R_nxt0 t.l ?v_18)) (?v_229 (and ?v_225 ?v_152))) (let ((?v_234 (and ?v_22 (and ?v_59 (and ?v_31 (and ?v_19 (and ?v_144 (and ?v_228 ?v_229))))))) (?v_230 (not ?v_228))) (let ((?v_235 (and ?v_22 (and ?v_59 (and ?v_31 (and ?v_227 (and ?v_144 (and ?v_230 ?v_229))))))) (?v_233 (not ?v_225))) (let ((?v_231 (and ?v_233 ?v_152)) (?v_237 (and ?v_225 ?v_159)) (?v_238 (and ?v_233 ?v_159)) (?v_236 (not ?v_46))) (let ((?v_239 (and ?v_59 (and ?v_31 (and ?v_19 (and ?v_144 (and ?v_228 ?v_237))))))) (let ((?v_241 (and ?v_22 ?v_239)) (?v_240 (= (t.data ?v_18) ZERO)) (?v_246 (or ?v_1 ?v_23))) (let ((?v_244 (ite ?v_246 en_LOCATION (+ 1 (+ 1 ?v_242))))) (let ((?v_243 (= ?v_244 ?v_242)) (?v_278 (not PRED_VAR__p_0)) (?v_245 (= ?v_244 en_LOCATION)) (?v_269 (not PRED_VAR__p_1)) (?v_274 (not PRED_VAR__p_3)) (?v_271 (not PRED_VAR__p_16)) (?v_248 (and ?v_26 ?v_4)) (?v_254 (not ?v_246)) (?v_249 (and ?v_147 ?v_127))) (let ((?v_255 (not ?v_249))) (let ((?v_250 (and ?v_255 ?v_4))) (let ((?v_251 (or (and ?v_246 (or (and ?v_1 ?v_247) (and ?v_3 (or (and ?v_23 (or (and ?v_23 (or (and ?v_23 ?v_4) ?v_248)) ?v_248)) ?v_248)))) (and ?v_254 (or (and ?v_249 (or (and ?v_249 ?v_4) ?v_250)) ?v_250)))) (?v_270 (not PRED_VAR__p_8)) (?v_261 (ite ?v_246 (ite ?v_1 ?v_0 (ite ?v_23 ?v_18 t.t)) t.t))) (let ((?v_252 (t.R_nxt ?v_261 i1))) (let ((?v_253 (and ?v_26 ?v_252)) (?v_256 (and ?v_255 ?v_252))) (let ((?v_257 (or (and ?v_246 (or (and ?v_1 (or (and ?v_1 ?v_252) (and ?v_3 ?v_252))) (and ?v_3 (or (and ?v_23 (or (and ?v_23 (or (and ?v_23 ?v_252) ?v_253)) ?v_253)) ?v_253)))) (and ?v_254 (or (and ?v_249 (or (and ?v_249 ?v_252) ?v_256)) ?v_256)))) (?v_277 (not PRED_VAR__p_9)) (?v_273 (not PRED_VAR__p_14)) (?v_259 (= (ite ?v_246 (ite ?v_1 (ite ?v_1 (ite ?v_112 ZERO ?v_258) ?v_258) (ite ?v_23 (ite ?v_23 (ite ?v_116 ZERO ?v_258) ?v_258) ?v_258)) ?v_258) ZERO)) (?v_262 (= (t.I_nxt ?v_261) t.l)) (?v_263 (= ?v_261 t.l)) (?v_268 (not PRED_VAR__p_18)) (?v_267 (not PRED_VAR__p_19)) (?v_264 (and ?v_26 ?v_156)) (?v_265 (and ?v_255 ?v_156))) (let ((?v_266 (or (and ?v_246 (or (and ?v_1 (or (and ?v_1 ?v_156) (and ?v_3 ?v_156))) (and ?v_3 (or (and ?v_23 (or (and ?v_23 (or (and ?v_23 ?v_156) ?v_264)) ?v_264)) ?v_264)))) (and ?v_254 (or (and ?v_249 (or (and ?v_249 ?v_156) ?v_265)) ?v_265)))) (?v_281 (not PRED_VAR__p_20)) (?v_275 (and PRED_VAR__p_2 (and PRED_VAR__p_0 ?v_269)))) (let ((?v_272 (and PRED_VAR__p_3 ?v_275))) (let ((?v_280 (and ?v_268 (and PRED_VAR__p_10 (and PRED_VAR__p_14 (and PRED_VAR__p_8 (and PRED_VAR__p_11 (and PRED_VAR__p_16 ?v_272))))))) (?v_282 (and ?v_268 (and PRED_VAR__p_10 (and PRED_VAR__p_14 (and ?v_270 (and PRED_VAR__p_11 (and ?v_271 ?v_272))))))) (?v_276 (and ?v_274 ?v_275)) (?v_279 (and PRED_VAR__p_2 (and PRED_VAR__p_1 ?v_278)))) (let ((?v_283 (and PRED_VAR__p_3 ?v_279)) (?v_284 (and ?v_274 ?v_279))) (let ((?v_285 (and PRED_VAR__p_10 (and PRED_VAR__p_14 (and PRED_VAR__p_8 (and PRED_VAR__p_11 (and PRED_VAR__p_16 ?v_283))))))) (let ((?v_286 (and ?v_268 ?v_285))) (and (and (and (and (and (and (and (and (and (and (or ?v_7 (and (or (not ?v_6) ?v_5) (or (not ?v_5) ?v_6))) (and (or ?v_7 (not (or (and ?v_1 ?v_8) (and ?v_3 ?v_8)))) (and (or ?v_7 (and (or (not ?v_12) ?v_11) (or (not ?v_11) ?v_12))) (and (or ?v_7 (and (or (not ?v_16) ?v_15) (or (not ?v_15) ?v_16))) (or ?v_7 (and (or (not ?v_21) ?v_20) (or (not ?v_20) ?v_21))))))) (and (or ?v_31 (and (or (not ?v_30) ?v_29) (or (not ?v_29) ?v_30))) (and (or ?v_31 (and (or (not ?v_37) ?v_36) (or (not ?v_36) ?v_37))) (and (or ?v_31 (not (or (and ?v_23 (or (and ?v_23 ?v_38) ?v_39)) ?v_39))) (and (or ?v_31 (and (or (not ?v_45) ?v_44) (or (not ?v_44) ?v_45))) (or ?v_31 (and (or (not ?v_51) ?v_50) (or (not ?v_50) ?v_51)))))))) (and (and (or (not ?v_53) ?v_52) (or (not ?v_52) ?v_53)) (and (and (or ?v_260 ?v_58) (or (not ?v_58) ?v_59)) (and (and (or (not ?v_62) ?v_61) (or (not ?v_61) ?v_62)) (and (and (or (not ?v_64) ?v_63) (or (not ?v_63) ?v_64)) (and (and (or (not ?v_66) ?v_65) (or (not ?v_65) ?v_66)) (and (and (or (not ?v_69) ?v_68) (or (not ?v_68) ?v_69)) (and (and (or (not ?v_76) ?v_75) (or (not ?v_75) ?v_76)) (and (and (or (not ?v_80) ?v_79) (or (not ?v_79) ?v_80)) (and (and (or (not ?v_83) ?v_82) (or (not ?v_82) ?v_83)) (and (and (or (not ?v_85) ?v_84) (or (not ?v_84) ?v_85)) (and (and (or (not ?v_86) ?v_88) (or (not ?v_88) ?v_86)) (and (and (or (not ?v_89) ?v_92) (or (not ?v_92) ?v_89)) (and (and (or (not ?v_93) ?v_94) (or (not ?v_94) ?v_93)) (and (and (or (not ?v_95) ?v_96) (or (not ?v_96) ?v_95)) (and (and (or (not ?v_97) ?v_98) (or (not ?v_98) ?v_97)) (and (and (or (not ?v_99) ?v_101) (or (not ?v_101) ?v_99)) (and (and (or (not ?v_102) ?v_105) (or (not ?v_105) ?v_102)) (and (and (or (not ?v_106) ?v_107) (or (not ?v_107) ?v_106)) (and (and (or (not ?v_108) ?v_109) (or (not ?v_109) ?v_108)) (and (or (not ?v_110) ?v_111) (or (not ?v_111) ?v_110)))))))))))))))))))))) (and ?v_156 (and (and (or (not ?v_115) ?v_114) (or (not ?v_114) ?v_115)) (and (and (or (not ?v_119) ?v_118) (or (not ?v_118) ?v_119)) (and (and (or (not ?v_122) ?v_121) (or (not ?v_121) ?v_122)) (and (and (or (not ?v_125) ?v_124) (or (not ?v_124) ?v_125)) (and (and (or ?v_149 ?v_126) (or (not ?v_126) ?v_4)) (and ?v_169 (and (and (or ?v_190 ?v_128) (or (not ?v_128) ?v_10)) (and (and (or ?v_209 ?v_129) (or (not ?v_129) ?v_14)) (and (and (or ?v_227 ?v_130) (or (not ?v_130) ?v_19)) (and (and (or ?v_157 ?v_131) (or (not ?v_131) ?v_27)) (and (and (or ?v_178 ?v_132) (or (not ?v_132) ?v_34)) (and ?v_196 (and (and (or ?v_214 ?v_133) (or (not ?v_133) ?v_42)) (and (and (or ?v_232 ?v_134) (or (not ?v_134) ?v_48)) (and (and (or (not ?v_2) ?v_135) (or (not ?v_135) ?v_2)) (and (and (or (not ?v_8) ?v_136) (or (not ?v_136) ?v_8)) (and (and (or (not ?v_9) ?v_137) (or (not ?v_137) ?v_9)) (and ?v_13 (and (and (or (not ?v_17) ?v_138) (or (not ?v_138) ?v_17)) (and (and (or (not ?v_24) ?v_139) (or (not ?v_139) ?v_24)) (and (and (or (not ?v_32) ?v_140) (or (not ?v_140) ?v_32)) (and (and (or (not ?v_38) ?v_141) (or (not ?v_141) ?v_38)) (and (and (or (not ?v_40) ?v_142) (or (not ?v_142) ?v_40)) ?v_46))))))))))))))))))))))))) (and (t.H_nxt NULL) (= (t.nxt NULL) NULL))) ?v_146) (and (or (not (or (= i1 t.l0) ?v_143)) ?v_145) (and (or (not (or ?v_144 ?v_168)) ?v_170) (and (or (not (or (= t.t t.l0) ?v_187)) ?v_188) (and (or (not (or (= ?v_0 t.l0) ?v_206)) ?v_207) (or (not (or (= ?v_18 t.l0) ?v_224)) ?v_225)))))) (not (= NULL t.l0))) (and (and (or (or (or (or (or (or (or (or (or (or (or (or (or (and ?v_148 ?v_160) (and ?v_148 ?v_161)) (and ?v_148 (and ?v_22 (and ?v_59 (and ?v_153 (and ?v_4 (and ?v_144 (and ?v_150 ?v_155)))))))) (and ?v_148 (and ?v_22 (and ?v_59 (and ?v_153 (and ?v_149 (and ?v_144 (and ?v_154 ?v_155)))))))) (and ?v_76 (and ?v_156 (and ?v_157 (and ?v_59 (and ?v_67 (and ?v_149 (and ?v_144 (and ?v_154 ?v_163))))))))) (and ?v_76 (and ?v_156 (and ?v_157 (and ?v_148 (and ?v_59 (and ?v_153 (and ?v_149 (and ?v_144 (and ?v_154 ?v_164)))))))))) (and ?v_156 (and ?v_27 ?v_160))) (and ?v_162 (and ?v_157 ?v_160))) (and ?v_156 (and ?v_27 ?v_161))) (and ?v_162 (and ?v_157 ?v_161))) (and ?v_76 (and ?v_156 (and ?v_27 ?v_167)))) (and ?v_76 (and ?v_156 (and ?v_27 (and ?v_148 (and ?v_22 (and ?v_59 (and ?v_153 (and ?v_4 (and ?v_144 (and ?v_150 ?v_164))))))))))) (and ?v_166 (and ?v_76 (and ?v_156 (and ?v_27 (and ?v_148 ?v_165)))))) (and ?v_166 (and ?v_76 (and ?v_156 (and ?v_148 ?v_167))))) (and (or (or (or (or (or (or (or (or (or (or (or (or (or (and ?v_171 ?v_180) (and ?v_171 ?v_181)) (and ?v_171 (and ?v_22 (and ?v_59 (and ?v_174 (and ?v_169 (and ?v_144 (and ?v_172 ?v_177)))))))) (and ?v_171 (and ?v_22 (and ?v_59 (and ?v_174 (and ?v_175 (and ?v_144 (and ?v_176 ?v_177)))))))) (and ?v_76 (and ?v_169 (and ?v_178 (and ?v_59 (and ?v_71 (and ?v_175 (and ?v_144 (and ?v_176 ?v_182))))))))) (and ?v_76 (and ?v_169 (and ?v_178 (and ?v_171 (and ?v_59 (and ?v_174 (and ?v_175 (and ?v_144 (and ?v_176 ?v_183)))))))))) (and ?v_169 (and ?v_34 ?v_180))) (and ?v_175 (and ?v_178 ?v_180))) (and ?v_169 (and ?v_34 ?v_181))) (and ?v_175 (and ?v_178 ?v_181))) (and ?v_76 (and ?v_169 (and ?v_34 ?v_186)))) (and ?v_76 (and ?v_169 (and ?v_34 (and ?v_171 (and ?v_22 (and ?v_59 (and ?v_174 (and ?v_169 (and ?v_144 (and ?v_172 ?v_183))))))))))) (and ?v_185 (and ?v_76 (and ?v_169 (and ?v_34 (and ?v_171 ?v_184)))))) (and ?v_185 (and ?v_76 (and ?v_169 (and ?v_171 ?v_186))))) (and (or (or (or (or (or (or (or (or (or (or (or (or (or (and ?v_189 ?v_199) (and ?v_189 ?v_200)) (and ?v_189 (and ?v_22 (and ?v_59 (and ?v_193 (and ?v_10 (and ?v_144 (and ?v_191 ?v_195)))))))) (and ?v_189 (and ?v_22 (and ?v_59 (and ?v_193 (and ?v_190 (and ?v_144 (and ?v_194 ?v_195)))))))) (and ?v_76 (and ?v_196 (and ?v_197 (and ?v_59 (and ?v_77 (and ?v_190 (and ?v_144 (and ?v_194 ?v_201))))))))) (and ?v_76 (and ?v_196 (and ?v_197 (and ?v_189 (and ?v_59 (and ?v_193 (and ?v_190 (and ?v_144 (and ?v_194 ?v_202)))))))))) (and ?v_196 (and ?v_196 ?v_199))) (and ?v_197 (and ?v_197 ?v_199))) (and ?v_196 (and ?v_196 ?v_200))) (and ?v_197 (and ?v_197 ?v_200))) (and ?v_76 (and ?v_196 (and ?v_196 ?v_205)))) (and ?v_76 (and ?v_196 (and ?v_196 (and ?v_189 (and ?v_22 (and ?v_59 (and ?v_193 (and ?v_10 (and ?v_144 (and ?v_191 ?v_202))))))))))) (and ?v_204 (and ?v_76 (and ?v_196 (and ?v_196 (and ?v_189 ?v_203)))))) (and ?v_204 (and ?v_76 (and ?v_196 (and ?v_189 ?v_205))))) (and (or (or (or (or (or (or (or (or (or (or (or (or (or (and ?v_208 ?v_216) (and ?v_208 ?v_217)) (and ?v_208 (and ?v_22 (and ?v_59 (and ?v_56 (and ?v_14 (and ?v_144 (and ?v_210 ?v_213)))))))) (and ?v_208 (and ?v_22 (and ?v_59 (and ?v_56 (and ?v_209 (and ?v_144 (and ?v_212 ?v_213)))))))) (and ?v_76 (and ?v_13 (and ?v_214 (and ?v_59 (and ?v_7 (and ?v_209 (and ?v_144 (and ?v_212 ?v_219))))))))) (and ?v_76 (and ?v_13 (and ?v_214 (and ?v_208 (and ?v_59 (and ?v_56 (and ?v_209 (and ?v_144 (and ?v_212 ?v_220)))))))))) (and ?v_13 (and ?v_42 ?v_216))) (and ?v_218 (and ?v_214 ?v_216))) (and ?v_13 (and ?v_42 ?v_217))) (and ?v_218 (and ?v_214 ?v_217))) (and ?v_76 (and ?v_13 (and ?v_42 ?v_223)))) (and ?v_76 (and ?v_13 (and ?v_42 (and ?v_208 (and ?v_22 (and ?v_59 (and ?v_56 (and ?v_14 (and ?v_144 (and ?v_210 ?v_220))))))))))) (and ?v_222 (and ?v_76 (and ?v_13 (and ?v_42 (and ?v_208 ?v_221)))))) (and ?v_222 (and ?v_76 (and ?v_13 (and ?v_208 ?v_223))))) (or (or (or (or (or (or (or (or (or (or (or (or (or (and ?v_226 ?v_234) (and ?v_226 ?v_235)) (and ?v_226 (and ?v_22 (and ?v_59 (and ?v_73 (and ?v_19 (and ?v_144 (and ?v_228 ?v_231)))))))) (and ?v_226 (and ?v_22 (and ?v_59 (and ?v_73 (and ?v_227 (and ?v_144 (and ?v_230 ?v_231)))))))) (and ?v_76 (and ?v_46 (and ?v_232 (and ?v_59 (and ?v_31 (and ?v_227 (and ?v_144 (and ?v_230 ?v_237))))))))) (and ?v_76 (and ?v_46 (and ?v_232 (and ?v_226 (and ?v_59 (and ?v_73 (and ?v_227 (and ?v_144 (and ?v_230 ?v_238)))))))))) (and ?v_46 (and ?v_48 ?v_234))) (and ?v_236 (and ?v_232 ?v_234))) (and ?v_46 (and ?v_48 ?v_235))) (and ?v_236 (and ?v_232 ?v_235))) (and ?v_76 (and ?v_46 (and ?v_48 ?v_241)))) (and ?v_76 (and ?v_46 (and ?v_48 (and ?v_226 (and ?v_22 (and ?v_59 (and ?v_73 (and ?v_19 (and ?v_144 (and ?v_228 ?v_238))))))))))) (and ?v_240 (and ?v_76 (and ?v_46 (and ?v_48 (and ?v_226 ?v_239)))))) (and ?v_240 (and ?v_76 (and ?v_46 (and ?v_226 ?v_241))))))))) (and (and (and (and (and (and (and (and (and (and (and (and (and (and (or (and PRED_VAR__p_0 ?v_243) (and ?v_278 (not ?v_243))) (or (and PRED_VAR__p_1 ?v_245) (and ?v_269 (not ?v_245)))) (or (and PRED_VAR__p_2 ?v_146) (and (not PRED_VAR__p_2) (not ?v_146)))) (or (and PRED_VAR__p_3 ?v_145) (and ?v_274 ?v_158))) (or (and PRED_VAR__p_16 ?v_150) (and ?v_271 ?v_154))) (or (and PRED_VAR__p_11 ?v_144) (and (not PRED_VAR__p_11) (not ?v_144)))) (or (and PRED_VAR__p_8 ?v_251) (and ?v_270 (not ?v_251)))) (or (and PRED_VAR__p_9 ?v_257) (and ?v_277 (not ?v_257)))) (or (and PRED_VAR__p_14 ?v_67) (and ?v_273 ?v_153))) (or (and PRED_VAR__p_15 ?v_259) (and (not PRED_VAR__p_15) (not ?v_259)))) (or (and PRED_VAR__p_10 ?v_59) (and (not PRED_VAR__p_10) ?v_260))) (or (and PRED_VAR__p_12 ?v_262) (and (not PRED_VAR__p_12) (not ?v_262)))) (or (and PRED_VAR__p_18 ?v_263) (and ?v_268 (not ?v_263)))) (or (and PRED_VAR__p_19 ?v_143) (and ?v_267 ?v_148))) (or (and PRED_VAR__p_20 ?v_266) (and ?v_281 (not ?v_266)))))) (not (or (or (or (or (or (or (or (or (or (or (or (or (or (and ?v_267 ?v_280) (and ?v_267 ?v_282)) (and ?v_267 (and ?v_268 (and PRED_VAR__p_10 (and ?v_273 (and PRED_VAR__p_8 (and PRED_VAR__p_11 (and PRED_VAR__p_16 ?v_276)))))))) (and ?v_267 (and ?v_268 (and PRED_VAR__p_10 (and ?v_273 (and ?v_270 (and PRED_VAR__p_11 (and ?v_271 ?v_276)))))))) (and PRED_VAR__p_12 (and PRED_VAR__p_20 (and ?v_277 (and PRED_VAR__p_10 (and PRED_VAR__p_14 (and ?v_270 (and PRED_VAR__p_11 (and ?v_271 ?v_283))))))))) (and PRED_VAR__p_12 (and PRED_VAR__p_20 (and ?v_277 (and ?v_267 (and PRED_VAR__p_10 (and ?v_273 (and ?v_270 (and PRED_VAR__p_11 (and ?v_271 ?v_284)))))))))) (and PRED_VAR__p_20 (and PRED_VAR__p_9 ?v_280))) (and ?v_281 (and ?v_277 ?v_280))) (and PRED_VAR__p_20 (and PRED_VAR__p_9 ?v_282))) (and ?v_281 (and ?v_277 ?v_282))) (and PRED_VAR__p_12 (and PRED_VAR__p_20 (and PRED_VAR__p_9 ?v_286)))) (and PRED_VAR__p_12 (and PRED_VAR__p_20 (and PRED_VAR__p_9 (and ?v_267 (and ?v_268 (and PRED_VAR__p_10 (and ?v_273 (and PRED_VAR__p_8 (and PRED_VAR__p_11 (and PRED_VAR__p_16 ?v_284))))))))))) (and PRED_VAR__p_15 (and PRED_VAR__p_12 (and PRED_VAR__p_20 (and PRED_VAR__p_9 (and ?v_267 ?v_285)))))) (and PRED_VAR__p_15 (and PRED_VAR__p_12 (and PRED_VAR__p_20 (and ?v_267 ?v_286))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/uflia/simplify.javafe.ast.ArrayInit.35_without_quantification2.smt2 b/test/regress/regress0/uflia/simplify.javafe.ast.ArrayInit.35_without_quantification2.smt2
deleted file mode 100644
index 6dc6318a4..000000000
--- a/test/regress/regress0/uflia/simplify.javafe.ast.ArrayInit.35_without_quantification2.smt2
+++ /dev/null
@@ -1,674 +0,0 @@
-(set-logic QF_UFLIA)
-(set-info :source | Simplify Theorem Prover Benchmark Suite |)
-(set-info :smt-lib-version 2.0)
-(set-info :category "industrial")
-(set-info :status sat)
-(declare-fun true_term () Int)
-(declare-fun false_term () Int)
-(assert (= true_term 1))
-(assert (= false_term 0))
-(declare-fun S_select (Int Int) Int)
-(declare-fun S_store (Int Int Int) Int)
-(declare-fun PO_LT (Int Int) Int)
-(declare-fun T_java_lang_Object () Int)
-(assert (= (PO_LT T_java_lang_Object T_java_lang_Object) true_term))
-(declare-fun T_boolean () Int)
-(declare-fun T_char () Int)
-(declare-fun T_byte () Int)
-(declare-fun T_short () Int)
-(declare-fun T_int () Int)
-(declare-fun T_long () Int)
-(declare-fun T_float () Int)
-(declare-fun T_double () Int)
-(declare-fun asChild (Int Int) Int)
-(declare-fun classDown (Int Int) Int)
-(declare-fun T_java_lang_Cloneable () Int)
-(assert (= (PO_LT T_java_lang_Cloneable T_java_lang_Object) true_term))
-(declare-fun array (Int) Int)
-(declare-fun elemtype (Int) Int)
-(declare-fun is (Int Int) Int)
-(declare-fun cast (Int Int) Int)
-(assert true)
-(declare-fun intFirst () Int)
-(declare-fun intLast () Int)
-(declare-fun longFirst () Int)
-(declare-fun longLast () Int)
-(assert (< longFirst intFirst))
-(assert (< intFirst (- 1000000)))
-(assert (< 1000000 intLast))
-(assert (< intLast longLast))
-(declare-fun null () Int)
-(declare-fun typeof (Int) Int)
-(declare-fun asField (Int Int) Int)
-(declare-fun asElems (Int) Int)
-(declare-fun vAllocTime (Int) Int)
-(declare-fun isAllocated (Int Int) Int)
-(declare-fun fClosedTime (Int) Int)
-(declare-fun eClosedTime (Int) Int)
-(declare-fun asLockSet (Int) Int)
-(declare-fun max (Int) Int)
-(declare-fun lockLE (Int Int) Int)
-(declare-fun lockLT (Int Int) Int)
-(declare-fun arrayLength (Int) Int)
-(declare-fun arrayFresh (Int Int Int Int Int Int Int) Int)
-(declare-fun arrayShapeMore (Int Int) Int)
-(declare-fun arrayParent (Int) Int)
-(declare-fun arrayPosition (Int) Int)
-(declare-fun arrayShapeOne (Int) Int)
-(declare-fun arrayType () Int)
-(assert (= arrayType (asChild arrayType T_java_lang_Object)))
-(declare-fun isNewArray (Int) Int)
-(declare-fun boolAnd (Int Int) Int)
-(declare-fun boolEq (Int Int) Int)
-(declare-fun boolImplies (Int Int) Int)
-(declare-fun boolNE (Int Int) Int)
-(declare-fun boolNot (Int) Int)
-(declare-fun boolOr (Int Int) Int)
-(declare-fun integralEQ (Int Int) Int)
-(declare-fun stringCat (Int Int) Int)
-(declare-fun T_java_lang_String () Int)
-(declare-fun integralGE (Int Int) Int)
-(declare-fun integralGT (Int Int) Int)
-(declare-fun integralLE (Int Int) Int)
-(declare-fun integralLT (Int Int) Int)
-(declare-fun integralNE (Int Int) Int)
-(declare-fun refEQ (Int Int) Int)
-(declare-fun refNE (Int Int) Int)
-(declare-fun nonnullelements (Int Int) Int)
-(declare-fun classLiteral (Int) Int)
-(declare-fun T_java_lang_Class () Int)
-(declare-fun alloc () Int)
-(declare-fun integralAnd (Int Int) Int)
-(declare-fun integralOr (Int Int) Int)
-(declare-fun integralXor (Int Int) Int)
-(declare-fun intShiftL (Int Int) Int)
-(declare-fun longShiftL (Int Int) Int)
-(assert true)
-(declare-fun T_javafe_ast_ConstructorInvocation () Int)
-(declare-fun T_javafe_ast_Stmt () Int)
-(declare-fun T_javafe_ast_VariableAccess () Int)
-(declare-fun T_javafe_ast_Expr () Int)
-(declare-fun T_javafe_ast_ImportDecl () Int)
-(declare-fun T_javafe_ast_ASTNode () Int)
-(declare-fun T_javafe_ast_TryCatchStmt () Int)
-(declare-fun T_javafe_ast_OperatorTags () Int)
-(declare-fun T_javafe_ast_GeneratedTags () Int)
-(declare-fun T_javafe_ast_TagConstants () Int)
-(declare-fun T_javafe_tc_FieldDeclVec () Int)
-(declare-fun T_javafe_ast_BlockStmt () Int)
-(declare-fun T_javafe_ast_GenericBlockStmt () Int)
-(declare-fun T_javafe_ast_RoutineDecl () Int)
-(declare-fun T_javafe_ast_TypeDeclElem () Int)
-(declare-fun T_javafe_ast_VarInit () Int)
-(declare-fun T_javafe_ast_ParenExpr () Int)
-(declare-fun T_javafe_ast_Type () Int)
-(declare-fun T_javafe_ast_EvalStmt () Int)
-(declare-fun T_javafe_ast_TypeObjectDesignator () Int)
-(declare-fun T_javafe_ast_ObjectDesignator () Int)
-(declare-fun T_java_lang_RuntimeException () Int)
-(declare-fun T_java_lang_Exception () Int)
-(declare-fun T_javafe_ast_IfStmt () Int)
-(declare-fun T_javafe_ast_ArrayInit () Int)
-(declare-fun T_java_lang_Throwable () Int)
-(declare-fun T_java_util_Map () Int)
-(declare-fun T_java_util_EscjavaKeyValue () Int)
-(declare-fun T_java_lang_Long () Int)
-(declare-fun T_java_lang_Number () Int)
-(declare-fun T_java_lang_Comparable () Int)
-(declare-fun T_javafe_ast_CondExpr () Int)
-(declare-fun T_javafe_util_Location () Int)
-(declare-fun T_javafe_tc_MethodDeclVec () Int)
-(declare-fun T_javafe_ast_VarDeclStmt () Int)
-(declare-fun T_javafe_ast_MethodDecl () Int)
-(declare-fun T_javafe_ast_TypeName () Int)
-(declare-fun T_javafe_ast_LiteralExpr () Int)
-(declare-fun T_java_io_Serializable () Int)
-(declare-fun T_javafe_ast_ThrowStmt () Int)
-(declare-fun T_java_lang_Boolean () Int)
-(declare-fun T_javafe_ast_SkipStmt () Int)
-(declare-fun T_javafe_ast_LocalVarDecl () Int)
-(declare-fun T_javafe_ast_GenericVarDecl () Int)
-(declare-fun T_javafe_ast_CastExpr () Int)
-(declare-fun T_javafe_ast_WhileStmt () Int)
-(declare-fun T_javafe_ast_TypeDecl () Int)
-(declare-fun T_javafe_ast_MethodInvocation () Int)
-(declare-fun T_javafe_ast_Identifier () Int)
-(declare-fun T_javafe_ast_NewInstanceExpr () Int)
-(declare-fun T_java_util_Hashtable () Int)
-(declare-fun T_java_util_Dictionary () Int)
-(declare-fun T_javafe_tc_Env () Int)
-(declare-fun T_javafe_ast_SingleTypeImportDecl () Int)
-(declare-fun T_javafe_ast_Name () Int)
-(declare-fun T_javafe_ast_CompilationUnit () Int)
-(declare-fun T_javafe_ast_BreakStmt () Int)
-(declare-fun T_javafe_ast_BranchStmt () Int)
-(declare-fun T_javafe_ast_VisitorArgResult () Int)
-(declare-fun T_javafe_ast_AmbiguousVariableAccess () Int)
-(declare-fun T_javafe_ast_FormalParaDecl () Int)
-(declare-fun T_javafe_ast_TryFinallyStmt () Int)
-(declare-fun T_javafe_ast_SuperObjectDesignator () Int)
-(declare-fun T_javafe_ast_UnaryExpr () Int)
-(declare-fun T_javafe_ast_InterfaceDecl () Int)
-(declare-fun T_javafe_ast_SynchronizeStmt () Int)
-(declare-fun T_java_lang_IndexOutOfBoundsException () Int)
-(declare-fun T_javafe_ast_LabelStmt () Int)
-(declare-fun T_javafe_ast_CompoundName () Int)
-(declare-fun T_javafe_ast_CatchClause () Int)
-(declare-fun T_javafe_ast_FieldAccess () Int)
-(declare-fun T_javafe_ast_IdentifierVec () Int)
-(declare-fun T_java_lang_Integer () Int)
-(declare-fun T_javafe_ast_ExprVec () Int)
-(declare-fun T_javafe_tc_TagConstants () Int)
-(declare-fun T_javafe_parser_TagConstants () Int)
-(declare-fun T_javafe_ast_ConstructorDecl () Int)
-(declare-fun T_javafe_ast_SwitchStmt () Int)
-(declare-fun T_java_lang_Double () Int)
-(declare-fun T_javafe_ast_PrimitiveType () Int)
-(declare-fun T_javafe_ast_ReturnStmt () Int)
-(declare-fun T_java_lang_Float () Int)
-(declare-fun T_javafe_ast_ThisExpr () Int)
-(declare-fun T_javafe_ast_ExprObjectDesignator () Int)
-(declare-fun T_javafe_ast_ForStmt () Int)
-(declare-fun T_javafe_ast_InstanceOfExpr () Int)
-(declare-fun T_javafe_ast_OnDemandImportDecl () Int)
-(declare-fun T_javafe_ast_ClassDeclStmt () Int)
-(declare-fun T_javafe_tc_TypeSig () Int)
-(declare-fun T_javafe_ast_InitBlock () Int)
-(declare-fun T_javafe_ast_ArrayRefExpr () Int)
-(declare-fun T_javafe_ast_ArrayType () Int)
-(declare-fun T_javafe_ast_ASTDecoration () Int)
-(declare-fun T_javafe_ast_VarInitVec () Int)
-(declare-fun T_javafe_ast_Visitor () Int)
-(declare-fun T_javafe_ast_SwitchLabel () Int)
-(declare-fun T_javafe_ast_FieldDecl () Int)
-(declare-fun T_javafe_ast_BinaryExpr () Int)
-(declare-fun T_javafe_ast_ClassDecl () Int)
-(declare-fun T_javafe_ast_ClassLiteral () Int)
-(declare-fun T_javafe_ast_DoStmt () Int)
-(declare-fun T_javafe_ast_NewArrayExpr () Int)
-(declare-fun T_javafe_ast_AmbiguousMethodInvocation () Int)
-(declare-fun T_javafe_ast_ContinueStmt () Int)
-(declare-fun T_javafe_ast_SimpleName () Int)
-(declare-fun DIST_ZERO_1 () Int)
-(declare-fun T__TYPE () Int)
-(declare-fun TRYCATCHSTMT_19_43_7 () Int)
-(declare-fun UNARYSUB_18_55_26 () Int)
-(declare-fun TYPEDECLELEMPRAGMA_29_27_26 () Int)
-(declare-fun SHORTTYPE_17_36_26 () Int)
-(declare-fun WHILESTMT_19_29_7 () Int)
-(declare-fun STAR_18_37_26 () Int)
-(declare-fun VARIABLEACCESS_19_56_7 () Int)
-(declare-fun SINGLETYPEIMPORTDECL_19_15_7 () Int)
-(declare-fun BITAND_18_23_26 () Int)
-(declare-fun TRYFINALLYSTMT_19_42_7 () Int)
-(declare-fun UNARYADD_18_54_26 () Int)
-(declare-fun BYTETYPE_17_35_26 () Int)
-(declare-fun CLASSDECLSTMT_19_28_7 () Int)
-(declare-fun MOD_18_36_26 () Int)
-(declare-fun STMTPRAGMA_29_26_26 () Int)
-(declare-fun AMBIGUOUSVARIABLEACCESS_19_55_7 () Int)
-(declare-fun COMPILATIONUNIT_19_14_7 () Int)
-(declare-fun BITXOR_18_22_26 () Int)
-(declare-fun SWITCHLABEL_19_41_7 () Int)
-(declare-fun ASGBITXOR_18_51_26 () Int)
-(declare-fun punctuationStrings_29_134_22 () Int)
-(declare-fun NULLTYPE_17_34_26 () Int)
-(declare-fun VARDECLSTMT_19_27_7 () Int)
-(declare-fun DIV_18_35_26 () Int)
-(declare-fun otherStrings_29_193_30 () Int)
-(declare-fun PARENEXPR_19_54_7 () Int)
-(declare-fun BITOR_18_21_26 () Int)
-(declare-fun MODIFIERPRAGMA_29_25_26 () Int)
-(declare-fun noTokens_29_212_27 () Int)
-(declare-fun SKIPSTMT_19_40_7 () Int)
-(declare-fun ASGBITOR_18_50_26 () Int)
-(declare-fun COMPOUNDNAME_19_67_7 () Int)
-(declare-fun VOIDTYPE_17_33_26 () Int)
-(declare-fun SWITCHSTMT_19_26_7 () Int)
-(declare-fun SUB_18_34_26 () Int)
-(declare-fun CASTEXPR_19_53_7 () Int)
-(declare-fun TYPESIG_28_6_28 () Int)
-(declare-fun FORSTMT_19_39_7 () Int)
-(declare-fun LEXICALPRAGMA_29_24_26 () Int)
-(declare-fun ASGBITAND_18_49_26 () Int)
-(declare-fun SIMPLENAME_19_66_7 () Int)
-(declare-fun DOUBLETYPE_17_32_26 () Int)
-(declare-fun BLOCKSTMT_19_25_7 () Int)
-(declare-fun ADD_18_33_26 () Int)
-(declare-fun FIRST_KEYWORD_29_51_26 () Int)
-(declare-fun INSTANCEOFEXPR_19_52_7 () Int)
-(declare-fun AND_18_20_26 () Int)
-(declare-fun IFSTMT_19_38_7 () Int)
-(declare-fun LAST_KEYWORD_29_103_26 () Int)
-(declare-fun ASGURSHIFT_18_48_26 () Int)
-(declare-fun ARRAYTYPE_19_65_7 () Int)
-(declare-fun FORMALPARADECL_19_24_7 () Int)
-(declare-fun FLOATTYPE_17_31_26 () Int)
-(declare-fun URSHIFT_18_32_26 () Int)
-(declare-fun CONDEXPR_19_51_7 () Int)
-(declare-fun OR_18_19_26 () Int)
-(declare-fun LABELSTMT_19_37_7 () Int)
-(declare-fun NULLLIT_17_45_26 () Int)
-(declare-fun ASGRSHIFT_18_47_26 () Int)
-(declare-fun NULL_29_82_26 () Int)
-(declare-fun TYPENAME_19_64_7 () Int)
-(declare-fun CHARTYPE_17_30_26 () Int)
-(declare-fun FIELDDECL_19_23_7 () Int)
-(declare-fun RSHIFT_18_31_26 () Int)
-(declare-fun NEWARRAYEXPR_19_50_7 () Int)
-(declare-fun CONTINUESTMT_19_36_7 () Int)
-(declare-fun STRINGLIT_17_44_26 () Int)
-(declare-fun ASGLSHIFT_18_46_26 () Int)
-(declare-fun SUPEROBJECTDESIGNATOR_19_63_7 () Int)
-(declare-fun LONGTYPE_17_29_26 () Int)
-(declare-fun LOCALVARDECL_19_22_7 () Int)
-(declare-fun LSHIFT_18_30_26 () Int)
-(declare-fun NEWINSTANCEEXPR_19_49_7 () Int)
-(declare-fun POSTFIXDEC_18_63_26 () Int)
-(declare-fun BREAKSTMT_19_35_7 () Int)
-(declare-fun DOUBLELIT_17_43_26 () Int)
-(declare-fun ASGSUB_18_45_26 () Int)
-(declare-fun TYPEOBJECTDESIGNATOR_19_62_7 () Int)
-(declare-fun INTTYPE_17_28_26 () Int)
-(declare-fun INITBLOCK_19_21_7 () Int)
-(declare-fun LT_18_29_26 () Int)
-(declare-fun ARRAYREFEXPR_19_48_7 () Int)
-(declare-fun POSTFIXINC_18_62_26 () Int)
-(declare-fun THROWSTMT_19_34_7 () Int)
-(declare-fun FLOATLIT_17_42_26 () Int)
-(declare-fun ASGADD_18_44_26 () Int)
-(declare-fun EXPROBJECTDESIGNATOR_19_61_7 () Int)
-(declare-fun otherCodes_29_202_27 () Int)
-(declare-fun BOOLEANTYPE_17_27_26 () Int)
-(declare-fun METHODDECL_19_20_7 () Int)
-(declare-fun LE_18_28_26 () Int)
-(declare-fun THISEXPR_19_47_7 () Int)
-(declare-fun DEC_18_59_26 () Int)
-(declare-fun CHARLIT_17_41_26 () Int)
-(declare-fun RETURNSTMT_19_33_7 () Int)
-(declare-fun punctuationCodes_29_164_19 () Int)
-(declare-fun ASGREM_18_43_26 () Int)
-(declare-fun CLASSLITERAL_19_60_7 () Int)
-(declare-fun IDENT_17_25_26 () Int)
-(declare-fun CONSTRUCTORDECL_19_19_7 () Int)
-(declare-fun GT_18_27_26 () Int)
-(declare-fun ARRAYINIT_19_46_7 () Int)
-(declare-fun INC_18_58_26 () Int)
-(declare-fun LONGLIT_17_40_26 () Int)
-(declare-fun EVALSTMT_19_32_7 () Int)
-(declare-fun ASGDIV_18_42_26 () Int)
-(declare-fun METHODINVOCATION_19_59_7 () Int)
-(declare-fun INTERFACEDECL_19_18_7 () Int)
-(declare-fun GE_18_26_26 () Int)
-(declare-fun CATCHCLAUSE_19_45_7 () Int)
-(declare-fun BITNOT_18_57_26 () Int)
-(declare-fun keywordStrings_29_181_30 () Int)
-(declare-fun NULL_13_60_26 () Int)
-(declare-fun SYNCHRONIZESTMT_19_31_7 () Int)
-(declare-fun INTLIT_17_39_26 () Int)
-(declare-fun ASGMUL_18_41_26 () Int)
-(declare-fun AMBIGUOUSMETHODINVOCATION_19_58_7 () Int)
-(declare-fun CLASSDECL_19_17_7 () Int)
-(declare-fun EQ_18_25_26 () Int)
-(declare-fun TYPEMODIFIERPRAGMA_29_28_26 () Int)
-(declare-fun CONSTRUCTORINVOCATION_19_44_7 () Int)
-(declare-fun NOT_18_56_26 () Int)
-(declare-fun BOOLEANLIT_17_38_26 () Int)
-(declare-fun DOSTMT_19_30_7 () Int)
-(declare-fun ASSIGN_18_40_26 () Int)
-(declare-fun FIELDACCESS_19_57_7 () Int)
-(declare-fun ONDEMANDIMPORTDECL_19_16_7 () Int)
-(declare-fun NE_18_24_26 () Int)
-(assert (let ((?v_0 (array T_java_lang_String)) (?v_1 (array T_int))) (and (= (PO_LT T_javafe_ast_ConstructorInvocation T_javafe_ast_Stmt) true_term) (= T_javafe_ast_ConstructorInvocation (asChild T_javafe_ast_ConstructorInvocation T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_VariableAccess T_javafe_ast_Expr) true_term) (= T_javafe_ast_VariableAccess (asChild T_javafe_ast_VariableAccess T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_ImportDecl T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_ImportDecl (asChild T_javafe_ast_ImportDecl T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_TryCatchStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_TryCatchStmt (asChild T_javafe_ast_TryCatchStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_OperatorTags T_java_lang_Object) true_term) (= T_javafe_ast_OperatorTags (asChild T_javafe_ast_OperatorTags T_java_lang_Object)) (= (PO_LT T_javafe_ast_OperatorTags T_javafe_ast_GeneratedTags) true_term) (= (PO_LT T_javafe_ast_TagConstants T_javafe_ast_OperatorTags) true_term) (= T_javafe_ast_TagConstants (asChild T_javafe_ast_TagConstants T_javafe_ast_OperatorTags)) (= (PO_LT T_javafe_tc_FieldDeclVec T_java_lang_Object) true_term) (= T_javafe_tc_FieldDeclVec (asChild T_javafe_tc_FieldDeclVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_BlockStmt T_javafe_ast_GenericBlockStmt) true_term) (= T_javafe_ast_BlockStmt (asChild T_javafe_ast_BlockStmt T_javafe_ast_GenericBlockStmt)) (= (PO_LT T_javafe_ast_RoutineDecl T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_RoutineDecl (asChild T_javafe_ast_RoutineDecl T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_RoutineDecl T_javafe_ast_TypeDeclElem) true_term) (= (PO_LT T_javafe_ast_Stmt T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_Stmt (asChild T_javafe_ast_Stmt T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_Expr T_javafe_ast_VarInit) true_term) (= T_javafe_ast_Expr (asChild T_javafe_ast_Expr T_javafe_ast_VarInit)) (= (PO_LT T_javafe_ast_TypeDeclElem T_java_lang_Object) true_term) (= (PO_LT T_javafe_ast_ParenExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_ParenExpr (asChild T_javafe_ast_ParenExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_Type T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_Type (asChild T_javafe_ast_Type T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_EvalStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_EvalStmt (asChild T_javafe_ast_EvalStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_TypeObjectDesignator T_javafe_ast_ObjectDesignator) true_term) (= T_javafe_ast_TypeObjectDesignator (asChild T_javafe_ast_TypeObjectDesignator T_javafe_ast_ObjectDesignator)) (= (PO_LT T_java_lang_RuntimeException T_java_lang_Exception) true_term) (= T_java_lang_RuntimeException (asChild T_java_lang_RuntimeException T_java_lang_Exception)) (= (PO_LT T_javafe_ast_GeneratedTags T_java_lang_Object) true_term) (= (PO_LT T_javafe_ast_IfStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_IfStmt (asChild T_javafe_ast_IfStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_ArrayInit T_javafe_ast_VarInit) true_term) (= T_javafe_ast_ArrayInit (asChild T_javafe_ast_ArrayInit T_javafe_ast_VarInit)) (= (PO_LT T_java_lang_Exception T_java_lang_Throwable) true_term) (= T_java_lang_Exception (asChild T_java_lang_Exception T_java_lang_Throwable)) (= (PO_LT T_java_util_Map T_java_lang_Object) true_term) (= (PO_LT T_java_util_Map T_java_util_EscjavaKeyValue) true_term) (= (PO_LT T_java_lang_Long T_java_lang_Number) true_term) (= T_java_lang_Long (asChild T_java_lang_Long T_java_lang_Number)) true (= (PO_LT T_java_lang_Long T_java_lang_Comparable) true_term) (= (PO_LT T_javafe_ast_CondExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_CondExpr (asChild T_javafe_ast_CondExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_util_Location T_java_lang_Object) true_term) (= T_javafe_util_Location (asChild T_javafe_util_Location T_java_lang_Object)) (= (PO_LT T_javafe_tc_MethodDeclVec T_java_lang_Object) true_term) (= T_javafe_tc_MethodDeclVec (asChild T_javafe_tc_MethodDeclVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_VarDeclStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_VarDeclStmt (asChild T_javafe_ast_VarDeclStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_MethodDecl T_javafe_ast_RoutineDecl) true_term) (= T_javafe_ast_MethodDecl (asChild T_javafe_ast_MethodDecl T_javafe_ast_RoutineDecl)) (= (PO_LT T_javafe_ast_TypeName T_javafe_ast_Type) true_term) (= T_javafe_ast_TypeName (asChild T_javafe_ast_TypeName T_javafe_ast_Type)) (= (PO_LT T_javafe_ast_LiteralExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_LiteralExpr (asChild T_javafe_ast_LiteralExpr T_javafe_ast_Expr)) (= (PO_LT T_java_lang_Throwable T_java_lang_Object) true_term) (= T_java_lang_Throwable (asChild T_java_lang_Throwable T_java_lang_Object)) (= (PO_LT T_java_lang_Throwable T_java_io_Serializable) true_term) (= (PO_LT T_javafe_ast_ThrowStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_ThrowStmt (asChild T_javafe_ast_ThrowStmt T_javafe_ast_Stmt)) (= (PO_LT T_java_lang_Boolean T_java_lang_Object) true_term) (= T_java_lang_Boolean (asChild T_java_lang_Boolean T_java_lang_Object)) true (= (PO_LT T_java_lang_Boolean T_java_io_Serializable) true_term) (= (PO_LT T_java_io_Serializable T_java_lang_Object) true_term) (= (PO_LT T_javafe_ast_SkipStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_SkipStmt (asChild T_javafe_ast_SkipStmt T_javafe_ast_Stmt)) (= (PO_LT T_java_lang_Comparable T_java_lang_Object) true_term) (= (PO_LT T_javafe_ast_LocalVarDecl T_javafe_ast_GenericVarDecl) true_term) (= T_javafe_ast_LocalVarDecl (asChild T_javafe_ast_LocalVarDecl T_javafe_ast_GenericVarDecl)) (= (PO_LT T_javafe_ast_ObjectDesignator T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_ObjectDesignator (asChild T_javafe_ast_ObjectDesignator T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_CastExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_CastExpr (asChild T_javafe_ast_CastExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_WhileStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_WhileStmt (asChild T_javafe_ast_WhileStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_TypeDecl T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_TypeDecl (asChild T_javafe_ast_TypeDecl T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_TypeDecl T_javafe_ast_TypeDeclElem) true_term) (= (PO_LT T_javafe_ast_MethodInvocation T_javafe_ast_Expr) true_term) (= T_javafe_ast_MethodInvocation (asChild T_javafe_ast_MethodInvocation T_javafe_ast_Expr)) (= (PO_LT T_java_lang_Cloneable T_java_lang_Object) true_term) (= (PO_LT T_javafe_ast_Identifier T_java_lang_Object) true_term) (= T_javafe_ast_Identifier (asChild T_javafe_ast_Identifier T_java_lang_Object)) true (= (PO_LT T_javafe_ast_NewInstanceExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_NewInstanceExpr (asChild T_javafe_ast_NewInstanceExpr T_javafe_ast_Expr)) (= (PO_LT T_java_util_Hashtable T_java_util_Dictionary) true_term) (= T_java_util_Hashtable (asChild T_java_util_Hashtable T_java_util_Dictionary)) (= (PO_LT T_java_util_Hashtable T_java_util_Map) true_term) (= (PO_LT T_java_util_Hashtable T_java_lang_Cloneable) true_term) (= (PO_LT T_java_util_Hashtable T_java_io_Serializable) true_term) (= (PO_LT T_javafe_tc_Env T_java_lang_Object) true_term) (= T_javafe_tc_Env (asChild T_javafe_tc_Env T_java_lang_Object)) (= (PO_LT T_javafe_ast_SingleTypeImportDecl T_javafe_ast_ImportDecl) true_term) (= T_javafe_ast_SingleTypeImportDecl (asChild T_javafe_ast_SingleTypeImportDecl T_javafe_ast_ImportDecl)) (= (PO_LT T_javafe_ast_Name T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_Name (asChild T_javafe_ast_Name T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_CompilationUnit T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_CompilationUnit (asChild T_javafe_ast_CompilationUnit T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_BreakStmt T_javafe_ast_BranchStmt) true_term) (= T_javafe_ast_BreakStmt (asChild T_javafe_ast_BreakStmt T_javafe_ast_BranchStmt)) (= (PO_LT T_java_lang_Number T_java_lang_Object) true_term) (= T_java_lang_Number (asChild T_java_lang_Number T_java_lang_Object)) (= (PO_LT T_java_lang_Number T_java_io_Serializable) true_term) (= (PO_LT T_javafe_ast_VisitorArgResult T_java_lang_Object) true_term) (= T_javafe_ast_VisitorArgResult (asChild T_javafe_ast_VisitorArgResult T_java_lang_Object)) (= (PO_LT T_java_util_EscjavaKeyValue T_java_lang_Object) true_term) (= (PO_LT T_javafe_ast_GenericBlockStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_GenericBlockStmt (asChild T_javafe_ast_GenericBlockStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_AmbiguousVariableAccess T_javafe_ast_Expr) true_term) (= T_javafe_ast_AmbiguousVariableAccess (asChild T_javafe_ast_AmbiguousVariableAccess T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_FormalParaDecl T_javafe_ast_GenericVarDecl) true_term) (= T_javafe_ast_FormalParaDecl (asChild T_javafe_ast_FormalParaDecl T_javafe_ast_GenericVarDecl)) (= (PO_LT T_javafe_ast_TryFinallyStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_TryFinallyStmt (asChild T_javafe_ast_TryFinallyStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_SuperObjectDesignator T_javafe_ast_ObjectDesignator) true_term) (= T_javafe_ast_SuperObjectDesignator (asChild T_javafe_ast_SuperObjectDesignator T_javafe_ast_ObjectDesignator)) (= (PO_LT T_javafe_ast_UnaryExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_UnaryExpr (asChild T_javafe_ast_UnaryExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_InterfaceDecl T_javafe_ast_TypeDecl) true_term) (= T_javafe_ast_InterfaceDecl (asChild T_javafe_ast_InterfaceDecl T_javafe_ast_TypeDecl)) (= (PO_LT T_javafe_ast_SynchronizeStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_SynchronizeStmt (asChild T_javafe_ast_SynchronizeStmt T_javafe_ast_Stmt)) (= (PO_LT T_java_lang_IndexOutOfBoundsException T_java_lang_RuntimeException) true_term) (= T_java_lang_IndexOutOfBoundsException (asChild T_java_lang_IndexOutOfBoundsException T_java_lang_RuntimeException)) (= (PO_LT T_javafe_ast_LabelStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_LabelStmt (asChild T_javafe_ast_LabelStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_CompoundName T_javafe_ast_Name) true_term) (= T_javafe_ast_CompoundName (asChild T_javafe_ast_CompoundName T_javafe_ast_Name)) (= (PO_LT T_javafe_ast_CatchClause T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_CatchClause (asChild T_javafe_ast_CatchClause T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_FieldAccess T_javafe_ast_Expr) true_term) (= T_javafe_ast_FieldAccess (asChild T_javafe_ast_FieldAccess T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_IdentifierVec T_java_lang_Object) true_term) (= T_javafe_ast_IdentifierVec (asChild T_javafe_ast_IdentifierVec T_java_lang_Object)) (= (PO_LT T_java_lang_Integer T_java_lang_Number) true_term) (= T_java_lang_Integer (asChild T_java_lang_Integer T_java_lang_Number)) true (= (PO_LT T_java_lang_Integer T_java_lang_Comparable) true_term) (= (PO_LT T_javafe_ast_ExprVec T_java_lang_Object) true_term) (= T_javafe_ast_ExprVec (asChild T_javafe_ast_ExprVec T_java_lang_Object)) (= (PO_LT T_javafe_tc_TagConstants T_javafe_parser_TagConstants) true_term) (= T_javafe_tc_TagConstants (asChild T_javafe_tc_TagConstants T_javafe_parser_TagConstants)) (= (PO_LT T_javafe_ast_ConstructorDecl T_javafe_ast_RoutineDecl) true_term) (= T_javafe_ast_ConstructorDecl (asChild T_javafe_ast_ConstructorDecl T_javafe_ast_RoutineDecl)) (= (PO_LT T_javafe_ast_SwitchStmt T_javafe_ast_GenericBlockStmt) true_term) (= T_javafe_ast_SwitchStmt (asChild T_javafe_ast_SwitchStmt T_javafe_ast_GenericBlockStmt)) (= (PO_LT T_javafe_parser_TagConstants T_javafe_ast_TagConstants) true_term) (= T_javafe_parser_TagConstants (asChild T_javafe_parser_TagConstants T_javafe_ast_TagConstants)) (= (PO_LT T_javafe_ast_ASTNode T_java_lang_Object) true_term) (= T_javafe_ast_ASTNode (asChild T_javafe_ast_ASTNode T_java_lang_Object)) (= (PO_LT T_javafe_ast_ASTNode T_java_lang_Cloneable) true_term) (= (PO_LT T_java_lang_Double T_java_lang_Number) true_term) (= T_java_lang_Double (asChild T_java_lang_Double T_java_lang_Number)) true (= (PO_LT T_java_lang_Double T_java_lang_Comparable) true_term) (= (PO_LT T_javafe_ast_PrimitiveType T_javafe_ast_Type) true_term) (= T_javafe_ast_PrimitiveType (asChild T_javafe_ast_PrimitiveType T_javafe_ast_Type)) (= (PO_LT T_javafe_ast_ReturnStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_ReturnStmt (asChild T_javafe_ast_ReturnStmt T_javafe_ast_Stmt)) (= (PO_LT T_java_lang_Float T_java_lang_Number) true_term) (= T_java_lang_Float (asChild T_java_lang_Float T_java_lang_Number)) true (= (PO_LT T_java_lang_Float T_java_lang_Comparable) true_term) (= (PO_LT T_javafe_ast_ThisExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_ThisExpr (asChild T_javafe_ast_ThisExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_VarInit T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_VarInit (asChild T_javafe_ast_VarInit T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_ExprObjectDesignator T_javafe_ast_ObjectDesignator) true_term) (= T_javafe_ast_ExprObjectDesignator (asChild T_javafe_ast_ExprObjectDesignator T_javafe_ast_ObjectDesignator)) (= (PO_LT T_java_util_Dictionary T_java_lang_Object) true_term) (= T_java_util_Dictionary (asChild T_java_util_Dictionary T_java_lang_Object)) (= (PO_LT T_java_util_Dictionary T_java_util_EscjavaKeyValue) true_term) (= (PO_LT T_javafe_ast_ForStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_ForStmt (asChild T_javafe_ast_ForStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_InstanceOfExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_InstanceOfExpr (asChild T_javafe_ast_InstanceOfExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_GenericVarDecl T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_GenericVarDecl (asChild T_javafe_ast_GenericVarDecl T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_OnDemandImportDecl T_javafe_ast_ImportDecl) true_term) (= T_javafe_ast_OnDemandImportDecl (asChild T_javafe_ast_OnDemandImportDecl T_javafe_ast_ImportDecl)) (= (PO_LT T_javafe_ast_ClassDeclStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_ClassDeclStmt (asChild T_javafe_ast_ClassDeclStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_tc_TypeSig T_javafe_ast_Type) true_term) (= T_javafe_tc_TypeSig (asChild T_javafe_tc_TypeSig T_javafe_ast_Type)) (= (PO_LT T_javafe_ast_InitBlock T_javafe_ast_ASTNode) true_term) (= T_javafe_ast_InitBlock (asChild T_javafe_ast_InitBlock T_javafe_ast_ASTNode)) (= (PO_LT T_javafe_ast_InitBlock T_javafe_ast_TypeDeclElem) true_term) (= (PO_LT T_javafe_ast_ArrayRefExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_ArrayRefExpr (asChild T_javafe_ast_ArrayRefExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_ArrayType T_javafe_ast_Type) true_term) (= T_javafe_ast_ArrayType (asChild T_javafe_ast_ArrayType T_javafe_ast_Type)) (= (PO_LT T_javafe_ast_BranchStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_BranchStmt (asChild T_javafe_ast_BranchStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_ASTDecoration T_java_lang_Object) true_term) (= T_javafe_ast_ASTDecoration (asChild T_javafe_ast_ASTDecoration T_java_lang_Object)) (= (PO_LT T_javafe_ast_VarInitVec T_java_lang_Object) true_term) (= T_javafe_ast_VarInitVec (asChild T_javafe_ast_VarInitVec T_java_lang_Object)) (= (PO_LT T_javafe_ast_Visitor T_java_lang_Object) true_term) (= T_javafe_ast_Visitor (asChild T_javafe_ast_Visitor T_java_lang_Object)) (= (PO_LT T_javafe_ast_SwitchLabel T_javafe_ast_Stmt) true_term) (= T_javafe_ast_SwitchLabel (asChild T_javafe_ast_SwitchLabel T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_FieldDecl T_javafe_ast_GenericVarDecl) true_term) (= T_javafe_ast_FieldDecl (asChild T_javafe_ast_FieldDecl T_javafe_ast_GenericVarDecl)) (= (PO_LT T_javafe_ast_FieldDecl T_javafe_ast_TypeDeclElem) true_term) (= (PO_LT T_javafe_ast_BinaryExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_BinaryExpr (asChild T_javafe_ast_BinaryExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_ClassDecl T_javafe_ast_TypeDecl) true_term) (= T_javafe_ast_ClassDecl (asChild T_javafe_ast_ClassDecl T_javafe_ast_TypeDecl)) (= (PO_LT T_javafe_ast_ClassLiteral T_javafe_ast_Expr) true_term) (= T_javafe_ast_ClassLiteral (asChild T_javafe_ast_ClassLiteral T_javafe_ast_Expr)) (= (PO_LT T_java_lang_String T_java_lang_Object) true_term) (= T_java_lang_String (asChild T_java_lang_String T_java_lang_Object)) true (= (PO_LT T_java_lang_String T_java_io_Serializable) true_term) (= (PO_LT T_java_lang_String T_java_lang_Comparable) true_term) (= (PO_LT T_javafe_ast_DoStmt T_javafe_ast_Stmt) true_term) (= T_javafe_ast_DoStmt (asChild T_javafe_ast_DoStmt T_javafe_ast_Stmt)) (= (PO_LT T_javafe_ast_NewArrayExpr T_javafe_ast_Expr) true_term) (= T_javafe_ast_NewArrayExpr (asChild T_javafe_ast_NewArrayExpr T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_AmbiguousMethodInvocation T_javafe_ast_Expr) true_term) (= T_javafe_ast_AmbiguousMethodInvocation (asChild T_javafe_ast_AmbiguousMethodInvocation T_javafe_ast_Expr)) (= (PO_LT T_javafe_ast_ContinueStmt T_javafe_ast_BranchStmt) true_term) (= T_javafe_ast_ContinueStmt (asChild T_javafe_ast_ContinueStmt T_javafe_ast_BranchStmt)) (= (PO_LT T_javafe_ast_SimpleName T_javafe_ast_Name) true_term) (= T_javafe_ast_SimpleName (asChild T_javafe_ast_SimpleName T_javafe_ast_Name)) (and (= arrayType (+ DIST_ZERO_1 0)) (= T_boolean (+ DIST_ZERO_1 1)) (= T_char (+ DIST_ZERO_1 2)) (= T_byte (+ DIST_ZERO_1 3)) (= T_short (+ DIST_ZERO_1 4)) (= T_int (+ DIST_ZERO_1 5)) (= T_long (+ DIST_ZERO_1 6)) (= T_float (+ DIST_ZERO_1 7)) (= T_double (+ DIST_ZERO_1 8)) (= T__TYPE (+ DIST_ZERO_1 9)) (= T_javafe_ast_ConstructorInvocation (+ DIST_ZERO_1 10)) (= T_javafe_ast_VariableAccess (+ DIST_ZERO_1 11)) (= T_javafe_ast_ImportDecl (+ DIST_ZERO_1 12)) (= T_javafe_ast_TryCatchStmt (+ DIST_ZERO_1 13)) (= T_javafe_ast_OperatorTags (+ DIST_ZERO_1 14)) (= T_javafe_ast_TagConstants (+ DIST_ZERO_1 15)) (= T_javafe_tc_FieldDeclVec (+ DIST_ZERO_1 16)) (= T_javafe_ast_BlockStmt (+ DIST_ZERO_1 17)) (= T_javafe_ast_RoutineDecl (+ DIST_ZERO_1 18)) (= T_javafe_ast_Stmt (+ DIST_ZERO_1 19)) (= T_javafe_ast_Expr (+ DIST_ZERO_1 20)) (= T_javafe_ast_TypeDeclElem (+ DIST_ZERO_1 21)) (= T_javafe_ast_ParenExpr (+ DIST_ZERO_1 22)) (= T_javafe_ast_Type (+ DIST_ZERO_1 23)) (= T_javafe_ast_EvalStmt (+ DIST_ZERO_1 24)) (= T_javafe_ast_TypeObjectDesignator (+ DIST_ZERO_1 25)) (= T_java_lang_RuntimeException (+ DIST_ZERO_1 26)) (= T_javafe_ast_GeneratedTags (+ DIST_ZERO_1 27)) (= T_javafe_ast_IfStmt (+ DIST_ZERO_1 28)) (= T_javafe_ast_ArrayInit (+ DIST_ZERO_1 29)) (= T_java_lang_Exception (+ DIST_ZERO_1 30)) (= T_java_util_Map (+ DIST_ZERO_1 31)) (= T_java_lang_Long (+ DIST_ZERO_1 32)) (= T_javafe_ast_CondExpr (+ DIST_ZERO_1 33)) (= T_javafe_util_Location (+ DIST_ZERO_1 34)) (= T_javafe_tc_MethodDeclVec (+ DIST_ZERO_1 35)) (= T_javafe_ast_VarDeclStmt (+ DIST_ZERO_1 36)) (= T_javafe_ast_MethodDecl (+ DIST_ZERO_1 37)) (= T_javafe_ast_TypeName (+ DIST_ZERO_1 38)) (= T_javafe_ast_LiteralExpr (+ DIST_ZERO_1 39)) (= T_java_lang_Throwable (+ DIST_ZERO_1 40)) (= T_javafe_ast_ThrowStmt (+ DIST_ZERO_1 41)) (= T_java_lang_Boolean (+ DIST_ZERO_1 42)) (= T_java_io_Serializable (+ DIST_ZERO_1 43)) (= T_javafe_ast_SkipStmt (+ DIST_ZERO_1 44)) (= T_java_lang_Comparable (+ DIST_ZERO_1 45)) (= T_javafe_ast_LocalVarDecl (+ DIST_ZERO_1 46)) (= T_javafe_ast_ObjectDesignator (+ DIST_ZERO_1 47)) (= T_javafe_ast_CastExpr (+ DIST_ZERO_1 48)) (= T_javafe_ast_WhileStmt (+ DIST_ZERO_1 49)) (= T_javafe_ast_TypeDecl (+ DIST_ZERO_1 50)) (= T_javafe_ast_MethodInvocation (+ DIST_ZERO_1 51)) (= T_java_lang_Cloneable (+ DIST_ZERO_1 52)) (= T_javafe_ast_Identifier (+ DIST_ZERO_1 53)) (= T_javafe_ast_NewInstanceExpr (+ DIST_ZERO_1 54)) (= T_java_lang_Object (+ DIST_ZERO_1 55)) (= T_java_util_Hashtable (+ DIST_ZERO_1 56)) (= T_javafe_tc_Env (+ DIST_ZERO_1 57)) (= T_javafe_ast_SingleTypeImportDecl (+ DIST_ZERO_1 58)) (= T_javafe_ast_Name (+ DIST_ZERO_1 59)) (= T_javafe_ast_CompilationUnit (+ DIST_ZERO_1 60)) (= T_javafe_ast_BreakStmt (+ DIST_ZERO_1 61)) (= T_java_lang_Number (+ DIST_ZERO_1 62)) (= T_javafe_ast_VisitorArgResult (+ DIST_ZERO_1 63)) (= T_java_util_EscjavaKeyValue (+ DIST_ZERO_1 64)) (= T_javafe_ast_GenericBlockStmt (+ DIST_ZERO_1 65)) (= T_javafe_ast_AmbiguousVariableAccess (+ DIST_ZERO_1 66)) (= T_javafe_ast_FormalParaDecl (+ DIST_ZERO_1 67)) (= T_javafe_ast_TryFinallyStmt (+ DIST_ZERO_1 68)) (= T_javafe_ast_SuperObjectDesignator (+ DIST_ZERO_1 69)) (= T_javafe_ast_UnaryExpr (+ DIST_ZERO_1 70)) (= T_javafe_ast_InterfaceDecl (+ DIST_ZERO_1 71)) (= T_javafe_ast_SynchronizeStmt (+ DIST_ZERO_1 72)) (= T_java_lang_IndexOutOfBoundsException (+ DIST_ZERO_1 73)) (= T_javafe_ast_LabelStmt (+ DIST_ZERO_1 74)) (= T_javafe_ast_CompoundName (+ DIST_ZERO_1 75)) (= T_javafe_ast_CatchClause (+ DIST_ZERO_1 76)) (= T_javafe_ast_FieldAccess (+ DIST_ZERO_1 77)) (= T_javafe_ast_IdentifierVec (+ DIST_ZERO_1 78)) (= T_java_lang_Integer (+ DIST_ZERO_1 79)) (= T_javafe_ast_ExprVec (+ DIST_ZERO_1 80)) (= T_javafe_tc_TagConstants (+ DIST_ZERO_1 81)) (= T_javafe_ast_ConstructorDecl (+ DIST_ZERO_1 82)) (= T_javafe_ast_SwitchStmt (+ DIST_ZERO_1 83)) (= T_javafe_parser_TagConstants (+ DIST_ZERO_1 84)) (= T_javafe_ast_ASTNode (+ DIST_ZERO_1 85)) (= T_java_lang_Double (+ DIST_ZERO_1 86)) (= T_javafe_ast_PrimitiveType (+ DIST_ZERO_1 87)) (= T_javafe_ast_ReturnStmt (+ DIST_ZERO_1 88)) (= T_java_lang_Float (+ DIST_ZERO_1 89)) (= T_javafe_ast_ThisExpr (+ DIST_ZERO_1 90)) (= T_javafe_ast_VarInit (+ DIST_ZERO_1 91)) (= T_javafe_ast_ExprObjectDesignator (+ DIST_ZERO_1 92)) (= T_java_util_Dictionary (+ DIST_ZERO_1 93)) (= T_javafe_ast_ForStmt (+ DIST_ZERO_1 94)) (= T_javafe_ast_InstanceOfExpr (+ DIST_ZERO_1 95)) (= T_javafe_ast_GenericVarDecl (+ DIST_ZERO_1 96)) (= T_javafe_ast_OnDemandImportDecl (+ DIST_ZERO_1 97)) (= T_javafe_ast_ClassDeclStmt (+ DIST_ZERO_1 98)) (= T_javafe_tc_TypeSig (+ DIST_ZERO_1 99)) (= T_javafe_ast_InitBlock (+ DIST_ZERO_1 100)) (= T_javafe_ast_ArrayRefExpr (+ DIST_ZERO_1 101)) (= T_javafe_ast_ArrayType (+ DIST_ZERO_1 102)) (= T_javafe_ast_BranchStmt (+ DIST_ZERO_1 103)) (= T_javafe_ast_ASTDecoration (+ DIST_ZERO_1 104)) (= T_javafe_ast_VarInitVec (+ DIST_ZERO_1 105)) (= T_javafe_ast_Visitor (+ DIST_ZERO_1 106)) (= T_javafe_ast_SwitchLabel (+ DIST_ZERO_1 107)) (= T_javafe_ast_FieldDecl (+ DIST_ZERO_1 108)) (= T_javafe_ast_BinaryExpr (+ DIST_ZERO_1 109)) (= T_javafe_ast_ClassDecl (+ DIST_ZERO_1 110)) (= T_javafe_ast_ClassLiteral (+ DIST_ZERO_1 111)) (= T_java_lang_String (+ DIST_ZERO_1 112)) (= T_javafe_ast_DoStmt (+ DIST_ZERO_1 113)) (= T_javafe_ast_NewArrayExpr (+ DIST_ZERO_1 114)) (= T_javafe_ast_AmbiguousMethodInvocation (+ DIST_ZERO_1 115)) (= T_javafe_ast_ContinueStmt (+ DIST_ZERO_1 116)) (= T_javafe_ast_SimpleName (+ DIST_ZERO_1 117))) (= true_term (is TRYCATCHSTMT_19_43_7 T_int)) (= TRYCATCHSTMT_19_43_7 29) (= true_term (is UNARYSUB_18_55_26 T_int)) (= UNARYSUB_18_55_26 86) (= true_term (is TYPEDECLELEMPRAGMA_29_27_26 T_int)) (= TYPEDECLELEMPRAGMA_29_27_26 117) (= true_term (is SHORTTYPE_17_36_26 T_int)) (= SHORTTYPE_17_36_26 103) (= true_term (is WHILESTMT_19_29_7 T_int)) (= WHILESTMT_19_29_7 15) (= true_term (is STAR_18_37_26 T_int)) (= STAR_18_37_26 72) (= true_term (is VARIABLEACCESS_19_56_7 T_int)) (= VARIABLEACCESS_19_56_7 42) (= true_term (is SINGLETYPEIMPORTDECL_19_15_7 T_int)) (= SINGLETYPEIMPORTDECL_19_15_7 1) (= true_term (is BITAND_18_23_26 T_int)) (= BITAND_18_23_26 58) (= true_term (is TRYFINALLYSTMT_19_42_7 T_int)) (= TRYFINALLYSTMT_19_42_7 28) (= true_term (is UNARYADD_18_54_26 T_int)) (= UNARYADD_18_54_26 85) (= true_term (is BYTETYPE_17_35_26 T_int)) (= BYTETYPE_17_35_26 102) (= true_term (is CLASSDECLSTMT_19_28_7 T_int)) (= CLASSDECLSTMT_19_28_7 14) (= true_term (is MOD_18_36_26 T_int)) (= MOD_18_36_26 71) (= true_term (is STMTPRAGMA_29_26_26 T_int)) (= STMTPRAGMA_29_26_26 116) (= true_term (is AMBIGUOUSVARIABLEACCESS_19_55_7 T_int)) (= AMBIGUOUSVARIABLEACCESS_19_55_7 41) (= true_term (is COMPILATIONUNIT_19_14_7 T_int)) (= COMPILATIONUNIT_19_14_7 0) (= true_term (is BITXOR_18_22_26 T_int)) (= BITXOR_18_22_26 57) (= true_term (is SWITCHLABEL_19_41_7 T_int)) (= SWITCHLABEL_19_41_7 27) (= true_term (is ASGBITXOR_18_51_26 T_int)) (= ASGBITXOR_18_51_26 84) (= true_term (is punctuationStrings_29_134_22 ?v_0)) (not (= punctuationStrings_29_134_22 null)) (= (typeof punctuationStrings_29_134_22) ?v_0) (= (arrayLength punctuationStrings_29_134_22) 48) (= true_term (is NULLTYPE_17_34_26 T_int)) (= NULLTYPE_17_34_26 101) (= true_term (is VARDECLSTMT_19_27_7 T_int)) (= VARDECLSTMT_19_27_7 13) (= true_term (is DIV_18_35_26 T_int)) (= DIV_18_35_26 70) (= true_term (is otherStrings_29_193_30 ?v_0)) (not (= otherStrings_29_193_30 null)) (= (typeof otherStrings_29_193_30) ?v_0) (= (arrayLength otherStrings_29_193_30) 15) (= true_term (is PARENEXPR_19_54_7 T_int)) (= PARENEXPR_19_54_7 40) (= true_term (is BITOR_18_21_26 T_int)) (= BITOR_18_21_26 56) (= true_term (is MODIFIERPRAGMA_29_25_26 T_int)) (= MODIFIERPRAGMA_29_25_26 115) (= true_term (is noTokens_29_212_27 T_int)) (= true_term (is SKIPSTMT_19_40_7 T_int)) (= SKIPSTMT_19_40_7 26) (= true_term (is ASGBITOR_18_50_26 T_int)) (= ASGBITOR_18_50_26 83) (= true_term (is COMPOUNDNAME_19_67_7 T_int)) (= COMPOUNDNAME_19_67_7 53) (= true_term (is VOIDTYPE_17_33_26 T_int)) (= VOIDTYPE_17_33_26 100) (= true_term (is SWITCHSTMT_19_26_7 T_int)) (= SWITCHSTMT_19_26_7 12) (= true_term (is SUB_18_34_26 T_int)) (= SUB_18_34_26 69) (= true_term (is CASTEXPR_19_53_7 T_int)) (= CASTEXPR_19_53_7 39) (= true_term (is TYPESIG_28_6_28 T_int)) (= TYPESIG_28_6_28 184) (= true_term (is FORSTMT_19_39_7 T_int)) (= FORSTMT_19_39_7 25) (= true_term (is LEXICALPRAGMA_29_24_26 T_int)) (= LEXICALPRAGMA_29_24_26 114) (= true_term (is ASGBITAND_18_49_26 T_int)) (= ASGBITAND_18_49_26 82) (= true_term (is SIMPLENAME_19_66_7 T_int)) (= SIMPLENAME_19_66_7 52) (= true_term (is DOUBLETYPE_17_32_26 T_int)) (= DOUBLETYPE_17_32_26 99) (= true_term (is BLOCKSTMT_19_25_7 T_int)) (= BLOCKSTMT_19_25_7 11) (= true_term (is ADD_18_33_26 T_int)) (= ADD_18_33_26 68) (= true_term (is FIRST_KEYWORD_29_51_26 T_int)) (= FIRST_KEYWORD_29_51_26 133) (= true_term (is INSTANCEOFEXPR_19_52_7 T_int)) (= INSTANCEOFEXPR_19_52_7 38) (= true_term (is AND_18_20_26 T_int)) (= AND_18_20_26 55) (= true_term (is IFSTMT_19_38_7 T_int)) (= IFSTMT_19_38_7 24) (= true_term (is LAST_KEYWORD_29_103_26 T_int)) (= LAST_KEYWORD_29_103_26 183) (= true_term (is ASGURSHIFT_18_48_26 T_int)) (= ASGURSHIFT_18_48_26 81) (= true_term (is ARRAYTYPE_19_65_7 T_int)) (= ARRAYTYPE_19_65_7 51) (= true_term (is FORMALPARADECL_19_24_7 T_int)) (= FORMALPARADECL_19_24_7 10) (= true_term (is FLOATTYPE_17_31_26 T_int)) (= FLOATTYPE_17_31_26 98) (= true_term (is URSHIFT_18_32_26 T_int)) (= URSHIFT_18_32_26 67) (= true_term (is CONDEXPR_19_51_7 T_int)) (= CONDEXPR_19_51_7 37) (= true_term (is OR_18_19_26 T_int)) (= OR_18_19_26 54) (= true_term (is LABELSTMT_19_37_7 T_int)) (= LABELSTMT_19_37_7 23) (= true_term (is NULLLIT_17_45_26 T_int)) (= NULLLIT_17_45_26 111) (= true_term (is ASGRSHIFT_18_47_26 T_int)) (= ASGRSHIFT_18_47_26 80) (= true_term (is NULL_29_82_26 T_int)) (= NULL_29_82_26 163) (= true_term (is TYPENAME_19_64_7 T_int)) (= TYPENAME_19_64_7 50) (= true_term (is CHARTYPE_17_30_26 T_int)) (= CHARTYPE_17_30_26 97) (= true_term (is FIELDDECL_19_23_7 T_int)) (= FIELDDECL_19_23_7 9) (= true_term (is RSHIFT_18_31_26 T_int)) (= RSHIFT_18_31_26 66) (= true_term (is NEWARRAYEXPR_19_50_7 T_int)) (= NEWARRAYEXPR_19_50_7 36) (= true_term (is CONTINUESTMT_19_36_7 T_int)) (= CONTINUESTMT_19_36_7 22) (= true_term (is STRINGLIT_17_44_26 T_int)) (= STRINGLIT_17_44_26 110) (= true_term (is ASGLSHIFT_18_46_26 T_int)) (= ASGLSHIFT_18_46_26 79) (= true_term (is SUPEROBJECTDESIGNATOR_19_63_7 T_int)) (= SUPEROBJECTDESIGNATOR_19_63_7 49) (= true_term (is LONGTYPE_17_29_26 T_int)) (= LONGTYPE_17_29_26 96) (= true_term (is LOCALVARDECL_19_22_7 T_int)) (= LOCALVARDECL_19_22_7 8) (= true_term (is LSHIFT_18_30_26 T_int)) (= LSHIFT_18_30_26 65) (= true_term (is NEWINSTANCEEXPR_19_49_7 T_int)) (= NEWINSTANCEEXPR_19_49_7 35) (= true_term (is POSTFIXDEC_18_63_26 T_int)) (= POSTFIXDEC_18_63_26 92) (= true_term (is BREAKSTMT_19_35_7 T_int)) (= BREAKSTMT_19_35_7 21) (= true_term (is DOUBLELIT_17_43_26 T_int)) (= DOUBLELIT_17_43_26 109) (= true_term (is ASGSUB_18_45_26 T_int)) (= ASGSUB_18_45_26 78) (= true_term (is TYPEOBJECTDESIGNATOR_19_62_7 T_int)) (= TYPEOBJECTDESIGNATOR_19_62_7 48) (= true_term (is INTTYPE_17_28_26 T_int)) (= INTTYPE_17_28_26 95) (= true_term (is INITBLOCK_19_21_7 T_int)) (= INITBLOCK_19_21_7 7) (= true_term (is LT_18_29_26 T_int)) (= LT_18_29_26 64) (= true_term (is ARRAYREFEXPR_19_48_7 T_int)) (= ARRAYREFEXPR_19_48_7 34) (= true_term (is POSTFIXINC_18_62_26 T_int)) (= POSTFIXINC_18_62_26 91) (= true_term (is THROWSTMT_19_34_7 T_int)) (= THROWSTMT_19_34_7 20) (= true_term (is FLOATLIT_17_42_26 T_int)) (= FLOATLIT_17_42_26 108) (= true_term (is ASGADD_18_44_26 T_int)) (= ASGADD_18_44_26 77) (= true_term (is EXPROBJECTDESIGNATOR_19_61_7 T_int)) (= EXPROBJECTDESIGNATOR_19_61_7 47) (= true_term (is otherCodes_29_202_27 ?v_1)) (not (= otherCodes_29_202_27 null)) (= (typeof otherCodes_29_202_27) ?v_1) (= (arrayLength otherCodes_29_202_27) 15) (= true_term (is BOOLEANTYPE_17_27_26 T_int)) (= BOOLEANTYPE_17_27_26 94) (= true_term (is METHODDECL_19_20_7 T_int)) (= METHODDECL_19_20_7 6) (= true_term (is LE_18_28_26 T_int)) (= LE_18_28_26 63) (= true_term (is THISEXPR_19_47_7 T_int)) (= THISEXPR_19_47_7 33) (= true_term (is DEC_18_59_26 T_int)) (= DEC_18_59_26 90) (= true_term (is CHARLIT_17_41_26 T_int)) (= CHARLIT_17_41_26 107) (= true_term (is RETURNSTMT_19_33_7 T_int)) (= RETURNSTMT_19_33_7 19) (= true_term (is punctuationCodes_29_164_19 ?v_1)) (not (= punctuationCodes_29_164_19 null)) (= (typeof punctuationCodes_29_164_19) ?v_1) (= (arrayLength punctuationCodes_29_164_19) 48) (= true_term (is ASGREM_18_43_26 T_int)) (= ASGREM_18_43_26 76) (= true_term (is CLASSLITERAL_19_60_7 T_int)) (= CLASSLITERAL_19_60_7 46) (= true_term (is IDENT_17_25_26 T_int)) (= IDENT_17_25_26 93) (= true_term (is CONSTRUCTORDECL_19_19_7 T_int)) (= CONSTRUCTORDECL_19_19_7 5) (= true_term (is GT_18_27_26 T_int)) (= GT_18_27_26 62) (= true_term (is ARRAYINIT_19_46_7 T_int)) (= ARRAYINIT_19_46_7 32) (= true_term (is INC_18_58_26 T_int)) (= INC_18_58_26 89) (= true_term (is LONGLIT_17_40_26 T_int)) (= LONGLIT_17_40_26 106) (= true_term (is EVALSTMT_19_32_7 T_int)) (= EVALSTMT_19_32_7 18) (= true_term (is ASGDIV_18_42_26 T_int)) (= ASGDIV_18_42_26 75) (= true_term (is METHODINVOCATION_19_59_7 T_int)) (= METHODINVOCATION_19_59_7 45) (= true_term (is INTERFACEDECL_19_18_7 T_int)) (= INTERFACEDECL_19_18_7 4) (= true_term (is GE_18_26_26 T_int)) (= GE_18_26_26 61) (= true_term (is CATCHCLAUSE_19_45_7 T_int)) (= CATCHCLAUSE_19_45_7 31) (= true_term (is BITNOT_18_57_26 T_int)) (= BITNOT_18_57_26 88) (= true_term (is keywordStrings_29_181_30 ?v_0)) (not (= keywordStrings_29_181_30 null)) (= (typeof keywordStrings_29_181_30) ?v_0) (= (arrayLength keywordStrings_29_181_30) 51) (= true_term (is NULL_13_60_26 T_int)) (= NULL_13_60_26 0) (= true_term (is SYNCHRONIZESTMT_19_31_7 T_int)) (= SYNCHRONIZESTMT_19_31_7 17) (= true_term (is INTLIT_17_39_26 T_int)) (= INTLIT_17_39_26 105) (= true_term (is ASGMUL_18_41_26 T_int)) (= ASGMUL_18_41_26 74) (= true_term (is AMBIGUOUSMETHODINVOCATION_19_58_7 T_int)) (= AMBIGUOUSMETHODINVOCATION_19_58_7 44) (= true_term (is CLASSDECL_19_17_7 T_int)) (= CLASSDECL_19_17_7 3) (= true_term (is EQ_18_25_26 T_int)) (= EQ_18_25_26 60) (= true_term (is TYPEMODIFIERPRAGMA_29_28_26 T_int)) (= TYPEMODIFIERPRAGMA_29_28_26 118) (= true_term (is CONSTRUCTORINVOCATION_19_44_7 T_int)) (= CONSTRUCTORINVOCATION_19_44_7 30) (= true_term (is NOT_18_56_26 T_int)) (= NOT_18_56_26 87) (= true_term (is BOOLEANLIT_17_38_26 T_int)) (= BOOLEANLIT_17_38_26 104) (= true_term (is DOSTMT_19_30_7 T_int)) (= DOSTMT_19_30_7 16) (= true_term (is ASSIGN_18_40_26 T_int)) (= ASSIGN_18_40_26 73) (= true_term (is FIELDACCESS_19_57_7 T_int)) (= FIELDACCESS_19_57_7 43) (= true_term (is ONDEMANDIMPORTDECL_19_16_7 T_int)) (= ONDEMANDIMPORTDECL_19_16_7 2) (= true_term (is NE_18_24_26 T_int)) (= NE_18_24_26 59))))
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-(declare-fun locOpenBrace_80_36_13 () Int)
-(declare-fun TRYCATCHSTMT_pre_19_43_7 () Int)
-(declare-fun UNARYSUB_pre_18_55_26 () Int)
-(declare-fun TYPEDECLELEMPRAGMA_pre_29_27_26 () Int)
-(declare-fun SHORTTYPE_pre_17_36_26 () Int)
-(declare-fun WHILESTMT_pre_19_29_7 () Int)
-(declare-fun body_pre_80_34_19 () Int)
-(declare-fun body_80_34_19 () Int)
-(declare-fun STAR_pre_18_37_26 () Int)
-(declare-fun elems_pre_18_34 () Int)
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-(declare-fun loc_pre_122_49_13 () Int)
-(declare-fun loc_122_49_13 () Int)
-(declare-fun VARIABLEACCESS_pre_19_56_7 () Int)
-(declare-fun SINGLETYPEIMPORTDECL_pre_19_15_7 () Int)
-(declare-fun BITAND_pre_18_23_26 () Int)
-(declare-fun locCloseBrace_pre_90_25_13 () Int)
-(declare-fun locCloseBrace_90_25_13 () Int)
-(declare-fun loc_pre_139_20_13 () Int)
-(declare-fun loc_139_20_13 () Int)
-(declare-fun TRYFINALLYSTMT_pre_19_42_7 () Int)
-(declare-fun UNARYADD_pre_18_54_26 () Int)
-(declare-fun locFirstSemi_pre_114_36_13 () Int)
-(declare-fun locFirstSemi_114_36_13 () Int)
-(declare-fun elemType_pre_138_18_28 () Int)
-(declare-fun elemType_138_18_28 () Int)
-(declare-fun BYTETYPE_pre_17_35_26 () Int)
-(declare-fun CLASSDECLSTMT_pre_19_28_7 () Int)
-(declare-fun MOD_pre_18_36_26 () Int)
-(declare-fun STMTPRAGMA_pre_29_26_26 () Int)
-(declare-fun op_pre_26_26_13 () Int)
-(declare-fun op_26_26_13 () Int)
-(declare-fun init_pre_123_35_19 () Int)
-(declare-fun init_123_35_19 () Int)
-(declare-fun AMBIGUOUSVARIABLEACCESS_pre_19_55_7 () Int)
-(declare-fun COMPILATIONUNIT_pre_19_14_7 () Int)
-(declare-fun BITXOR_pre_18_22_26 () Int)
-(declare-fun locCloseParen_pre_127_24_13 () Int)
-(declare-fun locCloseParen_127_24_13 () Int)
-(declare-fun locKeyword_pre_119_45_13 () Int)
-(declare-fun locKeyword_119_45_13 () Int)
-(declare-fun SWITCHLABEL_pre_19_41_7 () Int)
-(declare-fun ASGBITXOR_pre_18_51_26 () Int)
-(declare-fun punctuationStrings_pre_29_134_22 () Int)
-(declare-fun locOpenParen_pre_105_23_13 () Int)
-(declare-fun locOpenParen_105_23_13 () Int)
-(declare-fun tag_pre_27_30_13 () Int)
-(declare-fun tag_27_30_13 () Int)
-(declare-fun loc_pre_62_45_13 () Int)
-(declare-fun loc_62_45_13 () Int)
-(declare-fun loc_pre_93_18_13 () Int)
-(declare-fun loc_93_18_13 () Int)
-(declare-fun elements_pre_14_61_36 () Int)
-(declare-fun elements_14_61_36 () Int)
-(declare-fun NULLTYPE_pre_17_34_26 () Int)
-(declare-fun VARDECLSTMT_pre_19_27_7 () Int)
-(declare-fun DIV_pre_18_35_26 () Int)
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-(declare-fun locOpenParen_128_18_13 () Int)
-(declare-fun type_pre_126_18_28 () Int)
-(declare-fun type_126_18_28 () Int)
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-(declare-fun otherStrings_pre_29_193_30 () Int)
-(declare-fun loc_pre_23_50_13 () Int)
-(declare-fun loc_23_50_13 () Int)
-(declare-fun PARENEXPR_pre_19_54_7 () Int)
-(declare-fun loc_pre_83_29_13 () Int)
-(declare-fun loc_83_29_13 () Int)
-(declare-fun BITOR_pre_18_21_26 () Int)
-(declare-fun loc_pre_100_18_13 () Int)
-(declare-fun loc_100_18_13 () Int)
-(declare-fun MODIFIERPRAGMA_pre_29_25_26 () Int)
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-(declare-fun tag_pre_23_32_13 () Int)
-(declare-fun tag_23_32_13 () Int)
-(declare-fun SKIPSTMT_pre_19_40_7 () Int)
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-(declare-fun loc_pre_118_23_13 () Int)
-(declare-fun loc_118_23_13 () Int)
-(declare-fun superCall_pre_119_24_17 () Int)
-(declare-fun superCall_119_24_17 () Int)
-(declare-fun locQuestion_pre_125_22_13 () Int)
-(declare-fun locQuestion_125_22_13 () Int)
-(declare-fun COMPOUNDNAME_pre_19_67_7 () Int)
-(declare-fun VOIDTYPE_pre_17_33_26 () Int)
-(declare-fun SWITCHSTMT_pre_19_26_7 () Int)
-(declare-fun SUB_pre_18_34_26 () Int)
-(declare-fun locDot_pre_84_21_13 () Int)
-(declare-fun locDot_84_21_13 () Int)
-(declare-fun CASTEXPR_pre_19_53_7 () Int)
-(declare-fun locSuper_pre_137_20_13 () Int)
-(declare-fun locSuper_137_20_13 () Int)
-(declare-fun TYPESIG_pre_28_6_28 () Int)
-(declare-fun FORSTMT_pre_19_39_7 () Int)
-(declare-fun count_pre_14_67_33 () Int)
-(declare-fun count_14_67_33 () Int)
-(declare-fun locOpenBrace_pre_90_22_13 () Int)
-(declare-fun locOpenBrace_90_22_13 () Int)
-(declare-fun LEXICALPRAGMA_pre_29_24_26 () Int)
-(declare-fun ASGBITAND_pre_18_49_26 () Int)
-(declare-fun locDot_pre_133_23_13 () Int)
-(declare-fun locDot_133_23_13 () Int)
-(declare-fun SIMPLENAME_pre_19_66_7 () Int)
-(declare-fun DOUBLETYPE_pre_17_32_26 () Int)
-(declare-fun BLOCKSTMT_pre_19_25_7 () Int)
-(declare-fun locId_pre_112_20_13 () Int)
-(declare-fun locId_112_20_13 () Int)
-(declare-fun ADD_pre_18_33_26 () Int)
-(declare-fun locId_pre_80_43_13 () Int)
-(declare-fun locId_80_43_13 () Int)
-(declare-fun FIRST_KEYWORD_pre_29_51_26 () Int)
-(declare-fun INSTANCEOFEXPR_pre_19_52_7 () Int)
-(declare-fun loc_pre_113_22_13 () Int)
-(declare-fun loc_113_22_13 () Int)
-(declare-fun AND_pre_18_20_26 () Int)
-(declare-fun locId_pre_77_38_13 () Int)
-(declare-fun locId_77_38_13 () Int)
-(declare-fun IFSTMT_pre_19_38_7 () Int)
-(declare-fun LAST_KEYWORD_pre_29_103_26 () Int)
-(declare-fun ASGURSHIFT_pre_18_48_26 () Int)
-(declare-fun locOpenParen_pre_127_21_13 () Int)
-(declare-fun locOpenParen_127_21_13 () Int)
-(declare-fun locDot_pre_119_41_13 () Int)
-(declare-fun locDot_119_41_13 () Int)
-(declare-fun loc_pre_114_33_13 () Int)
-(declare-fun loc_114_33_13 () Int)
-(declare-fun ARRAYTYPE_pre_19_65_7 () Int)
-(declare-fun locFinally_pre_117_25_13 () Int)
-(declare-fun locFinally_117_25_13 () Int)
-(declare-fun FORMALPARADECL_pre_19_24_7 () Int)
-(declare-fun FLOATTYPE_pre_17_31_26 () Int)
-(declare-fun URSHIFT_pre_18_32_26 () Int)
-(declare-fun locOpenParen_pre_132_28_13 () Int)
-(declare-fun locOpenParen_132_28_13 () Int)
-(declare-fun locOp_pre_25_43_13 () Int)
-(declare-fun locOp_25_43_13 () Int)
-(declare-fun value_pre_23_45_16 () Int)
-(declare-fun value_23_45_16 () Int)
-(declare-fun locId_pre_130_24_13 () Int)
-(declare-fun locId_130_24_13 () Int)
-(declare-fun CONDEXPR_pre_19_51_7 () Int)
-(declare-fun elements_pre_140_61_39 () Int)
-(declare-fun elements_140_61_39 () Int)
-(declare-fun locCloseBrace_pre_24_13 () Int)
-(declare-fun locCloseBrace_24_13 () Int)
-(declare-fun OR_pre_18_19_26 () Int)
-(declare-fun LABELSTMT_pre_19_37_7 () Int)
-(declare-fun NULLLIT_pre_17_45_26 () Int)
-(declare-fun ASGRSHIFT_pre_18_47_26 () Int)
-(declare-fun locGuardOpenParen_pre_103_23_13 () Int)
-(declare-fun locGuardOpenParen_103_23_13 () Int)
-(declare-fun elements_pre_73_61_39 () Int)
-(declare-fun elements_73_61_39 () Int)
-(declare-fun loc_pre_108_18_13 () Int)
-(declare-fun loc_108_18_13 () Int)
-(declare-fun NULL_pre_29_82_26 () Int)
-(declare-fun TYPENAME_pre_19_64_7 () Int)
-(declare-fun CHARTYPE_pre_17_30_26 () Int)
-(declare-fun FIELDDECL_pre_19_23_7 () Int)
-(declare-fun RSHIFT_pre_18_31_26 () Int)
-(declare-fun locCloseBrace_pre_62_54_13 () Int)
-(declare-fun locCloseBrace_62_54_13 () Int)
-(declare-fun loc_pre_105_20_13 () Int)
-(declare-fun loc_105_20_13 () Int)
-(declare-fun loc_pre_123_49_13 () Int)
-(declare-fun loc_123_49_13 () Int)
-(declare-fun loc_pre_104_20_13 () Int)
-(declare-fun loc_104_20_13 () Int)
-(declare-fun NEWARRAYEXPR_pre_19_50_7 () Int)
-(declare-fun locType_pre_79_21_13 () Int)
-(declare-fun locType_79_21_13 () Int)
-(declare-fun type_pre_123_24_28 () Int)
-(declare-fun type_123_24_28 () Int)
-(declare-fun I_will_establish_invariants_afterwards_pre_5_236_34 () Int)
-(declare-fun I_will_establish_invariants_afterwards_5_236_34 () Int)
-(declare-fun CONTINUESTMT_pre_19_36_7 () Int)
-(declare-fun STRINGLIT_pre_17_44_26 () Int)
-(declare-fun ASGLSHIFT_pre_18_46_26 () Int)
-(declare-fun SUPEROBJECTDESIGNATOR_pre_19_63_7 () Int)
-(declare-fun LONGTYPE_pre_17_29_26 () Int)
-(declare-fun LOCALVARDECL_pre_19_22_7 () Int)
-(declare-fun LSHIFT_pre_18_30_26 () Int)
-(declare-fun loc_pre_80_40_13 () Int)
-(declare-fun loc_80_40_13 () Int)
-(declare-fun loc_pre_120_22_13 () Int)
-(declare-fun loc_120_22_13 () Int)
-(declare-fun NEWINSTANCEEXPR_pre_19_49_7 () Int)
-(declare-fun loc_pre_129_22_13 () Int)
-(declare-fun loc_129_22_13 () Int)
-(declare-fun locOpenBrackets_pre_123_65_29 () Int)
-(declare-fun locOpenBrackets_123_65_29 () Int)
-(declare-fun POSTFIXDEC_pre_18_63_26 () Int)
-(declare-fun BREAKSTMT_pre_19_35_7 () Int)
-(declare-fun type_pre_77_35_28 () Int)
-(declare-fun type_77_35_28 () Int)
-(declare-fun count_pre_140_67_33 () Int)
-(declare-fun count_140_67_33 () Int)
-(declare-fun DOUBLELIT_pre_17_43_26 () Int)
-(declare-fun ASGSUB_pre_18_45_26 () Int)
-(declare-fun ids_pre_141_19_37 () Int)
-(declare-fun ids_141_19_37 () Int)
-(declare-fun type_pre_127_18_28 () Int)
-(declare-fun type_127_18_28 () Int)
-(declare-fun TYPEOBJECTDESIGNATOR_pre_19_62_7 () Int)
-(declare-fun count_pre_73_67_33 () Int)
-(declare-fun count_73_67_33 () Int)
-(declare-fun INTTYPE_pre_17_28_26 () Int)
-(declare-fun INITBLOCK_pre_19_21_7 () Int)
-(declare-fun LT_pre_18_29_26 () Int)
-(declare-fun locId_pre_132_25_13 () Int)
-(declare-fun locId_132_25_13 () Int)
-(declare-fun type_pre_133_20_28 () Int)
-(declare-fun type_133_20_28 () Int)
-(declare-fun ARRAYREFEXPR_pre_19_48_7 () Int)
-(declare-fun POSTFIXINC_pre_18_62_26 () Int)
-(declare-fun loc_pre_63_30_13 () Int)
-(declare-fun loc_63_30_13 () Int)
-(declare-fun THROWSTMT_pre_19_34_7 () Int)
-(declare-fun FLOATLIT_pre_17_42_26 () Int)
-(declare-fun ASGADD_pre_18_44_26 () Int)
-(declare-fun length_pre_81_50_25 () Int)
-(declare-fun length_81_50_25 () Int)
-(declare-fun enclosingInstance_pre_119_37_14 () Int)
-(declare-fun enclosingInstance_119_37_14 () Int)
-(declare-fun loc_pre_116_29_13 () Int)
-(declare-fun loc_116_29_13 () Int)
-(declare-fun loc_pre_117_22_13 () Int)
-(declare-fun loc_117_22_13 () Int)
-(declare-fun EXPROBJECTDESIGNATOR_pre_19_61_7 () Int)
-(declare-fun otherCodes_pre_29_202_27 () Int)
-(declare-fun BOOLEANTYPE_pre_17_27_26 () Int)
-(declare-fun METHODDECL_pre_19_20_7 () Int)
-(declare-fun LE_pre_18_28_26 () Int)
-(declare-fun locOpenBrace_pre_21_13 () Int)
-(declare-fun locOpenBrace_21_13 () Int)
-(declare-fun locOpenBrace_pre_62_51_13 () Int)
-(declare-fun locOpenBrace_62_51_13 () Int)
-(declare-fun loc_pre_107_18_13 () Int)
-(declare-fun loc_107_18_13 () Int)
-(declare-fun dims_pre_123_45_31 () Int)
-(declare-fun dims_123_45_31 () Int)
-(declare-fun THISEXPR_pre_19_47_7 () Int)
-(declare-fun DEC_pre_18_59_26 () Int)
-(declare-fun locCloseBracket_pre_121_23_13 () Int)
-(declare-fun locCloseBracket_121_23_13 () Int)
-(declare-fun CHARLIT_pre_17_41_26 () Int)
-(declare-fun RETURNSTMT_pre_19_33_7 () Int)
-(declare-fun locOp_pre_26_32_13 () Int)
-(declare-fun locOp_26_32_13 () Int)
-(declare-fun punctuationCodes_pre_29_164_19 () Int)
-(declare-fun ASGREM_pre_18_43_26 () Int)
-(declare-fun CLASSLITERAL_pre_19_60_7 () Int)
-(declare-fun IDENT_pre_17_25_26 () Int)
-(declare-fun CONSTRUCTORDECL_pre_19_19_7 () Int)
-(declare-fun locDot_pre_122_29_13 () Int)
-(declare-fun locDot_122_29_13 () Int)
-(declare-fun GT_pre_18_27_26 () Int)
-(declare-fun locOpenBracket_pre_138_21_13 () Int)
-(declare-fun locOpenBracket_138_21_13 () Int)
-(declare-fun elements_pre_72_61_38 () Int)
-(declare-fun elements_72_61_38 () Int)
-(declare-fun ARRAYINIT_pre_19_46_7 () Int)
-(declare-fun INC_pre_18_58_26 () Int)
-(declare-fun owner_pre_8_35_28 () Int)
-(declare-fun owner_8_35_28 () Int)
-(declare-fun locIds_pre_141_25_29 () Int)
-(declare-fun locIds_141_25_29 () Int)
-(declare-fun loc_pre_103_20_13 () Int)
-(declare-fun loc_103_20_13 () Int)
-(declare-fun LONGLIT_pre_17_40_26 () Int)
-(declare-fun EVALSTMT_pre_19_32_7 () Int)
-(declare-fun ASGDIV_pre_18_42_26 () Int)
-(declare-fun locOpenParen_pre_122_52_13 () Int)
-(declare-fun locOpenParen_122_52_13 () Int)
-(declare-fun METHODINVOCATION_pre_19_59_7 () Int)
-(declare-fun tokenType_pre_78_90_8 () Int)
-(declare-fun tokenType_78_90_8 () Int)
-(declare-fun INTERFACEDECL_pre_19_18_7 () Int)
-(declare-fun GE_pre_18_26_26 () Int)
-(declare-fun locCloseParen_pre_128_21_13 () Int)
-(declare-fun locCloseParen_128_21_13 () Int)
-(declare-fun CATCHCLAUSE_pre_19_45_7 () Int)
-(declare-fun BITNOT_pre_18_57_26 () Int)
-(declare-fun keywordStrings_pre_29_181_30 () Int)
-(declare-fun locOpenParen_pre_131_30_13 () Int)
-(declare-fun locOpenParen_131_30_13 () Int)
-(declare-fun NULL_pre_13_60_26 () Int)
-(declare-fun SYNCHRONIZESTMT_pre_19_31_7 () Int)
-(declare-fun INTLIT_pre_17_39_26 () Int)
-(declare-fun ASGMUL_pre_18_41_26 () Int)
-(declare-fun loc_pre_115_16_13 () Int)
-(declare-fun loc_115_16_13 () Int)
-(declare-fun AMBIGUOUSMETHODINVOCATION_pre_19_58_7 () Int)
-(declare-fun CLASSDECL_pre_19_17_7 () Int)
-(declare-fun EQ_pre_18_25_26 () Int)
-(declare-fun locOpenParen_pre_119_48_13 () Int)
-(declare-fun locOpenParen_119_48_13 () Int)
-(declare-fun loc_pre_27_35_13 () Int)
-(declare-fun loc_27_35_13 () Int)
-(declare-fun TYPEMODIFIERPRAGMA_pre_29_28_26 () Int)
-(declare-fun locId_pre_62_48_13 () Int)
-(declare-fun locId_62_48_13 () Int)
-(declare-fun CONSTRUCTORINVOCATION_pre_19_44_7 () Int)
-(declare-fun count_pre_72_67_33 () Int)
-(declare-fun count_72_67_33 () Int)
-(declare-fun NOT_pre_18_56_26 () Int)
-(declare-fun returnType_pre_79_18_28 () Int)
-(declare-fun returnType_79_18_28 () Int)
-(declare-fun locDots_pre_141_31_29 () Int)
-(declare-fun locDots_141_31_29 () Int)
-(declare-fun BOOLEANLIT_pre_17_38_26 () Int)
-(declare-fun DOSTMT_pre_19_30_7 () Int)
-(declare-fun ASSIGN_pre_18_40_26 () Int)
-(declare-fun loc_pre_126_21_13 () Int)
-(declare-fun loc_126_21_13 () Int)
-(declare-fun op_pre_25_35_13 () Int)
-(declare-fun op_25_35_13 () Int)
-(declare-fun FIELDACCESS_pre_19_57_7 () Int)
-(declare-fun syntax_pre_22_28_29 () Int)
-(declare-fun syntax_22_28_29 () Int)
-(declare-fun ONDEMANDIMPORTDECL_pre_19_16_7 () Int)
-(declare-fun NE_pre_18_24_26 () Int)
-(declare-fun locColon_pre_125_25_13 () Int)
-(declare-fun locColon_125_25_13 () Int)
-(declare-fun locOpenBracket_pre_121_20_13 () Int)
-(declare-fun locOpenBracket_121_20_13 () Int)
-(declare-fun elems_pre () Int)
-(declare-fun elems () Int)
-(declare-fun LS () Int)
-(declare-fun alloc_pre () Int)
-(declare-fun elems_91_56 () Int)
-(declare-fun locOpenBrace_91_67 () Int)
-(declare-fun locCloseBrace_91_85 () Int)
-(declare-fun after_93_24_93_24 () Int)
-(declare-fun RES_93_24_93_24 () Int)
-(declare-fun EC_93_24_93_24 () Int)
-(declare-fun ecReturn () Int)
-(declare-fun elems_94_12 () Int)
-(declare-fun locOpenBrace_95_12 () Int)
-(declare-fun locCloseBrace_96_12 () Int)
-(declare-fun brokenObj_1_FOO () Int)
-(assert (let ((?v_0 (array T_java_lang_String)) (?v_1 (array T_int)) (?v_2 (= true_term true_term)) (?v_5 (< alloc after_93_24_93_24)) (?v_3 (not (= RES_93_24_93_24 null))) (?v_6 (not (= true_term (isAllocated RES_93_24_93_24 alloc)))) (?v_7 (= true_term (is RES_93_24_93_24 T_javafe_ast_ArrayInit))) (?v_8 (= true_term (isAllocated RES_93_24_93_24 after_93_24_93_24))) (?v_9 (= EC_93_24_93_24 ecReturn)) (?v_10 (= (S_select owner_8_35_28 RES_93_24_93_24) null)) (?v_11 (= (typeof RES_93_24_93_24) T_javafe_ast_ArrayInit))) (let ((?v_4 (not ?v_3)) (?v_12 (= elems_94_12 (S_store elems_18_34 RES_93_24_93_24 elems_91_56))) (?v_13 (= locOpenBrace_95_12 (S_store locOpenBrace_21_13 RES_93_24_93_24 locOpenBrace_91_67))) (?v_14 (= ecReturn ecReturn))) (let ((?v_15 (=> ?v_14 ?v_3))) (not (=> true (=> (and (= locOpenBrace_pre_80_36_13 locOpenBrace_80_36_13) (= locOpenBrace_80_36_13 (asField locOpenBrace_80_36_13 T_int)) (= TRYCATCHSTMT_pre_19_43_7 TRYCATCHSTMT_19_43_7) (= true_term (is TRYCATCHSTMT_19_43_7 T_int)) (= UNARYSUB_pre_18_55_26 UNARYSUB_18_55_26) (= true_term (is UNARYSUB_18_55_26 T_int)) (= TYPEDECLELEMPRAGMA_pre_29_27_26 TYPEDECLELEMPRAGMA_29_27_26) (= true_term (is TYPEDECLELEMPRAGMA_29_27_26 T_int)) (= SHORTTYPE_pre_17_36_26 SHORTTYPE_17_36_26) (= true_term (is SHORTTYPE_17_36_26 T_int)) (= WHILESTMT_pre_19_29_7 WHILESTMT_19_29_7) (= true_term (is WHILESTMT_19_29_7 T_int)) (= body_pre_80_34_19 body_80_34_19) (= body_80_34_19 (asField body_80_34_19 T_javafe_ast_BlockStmt)) (< (fClosedTime body_80_34_19) alloc) (= STAR_pre_18_37_26 STAR_18_37_26) (= true_term (is STAR_18_37_26 T_int)) (= elems_pre_18_34 elems_18_34) (= elems_18_34 (asField elems_18_34 T_javafe_ast_VarInitVec)) (< (fClosedTime elems_18_34) alloc) true (= enclosingInstance_pre_122_25_14 enclosingInstance_122_25_14) (= enclosingInstance_122_25_14 (asField enclosingInstance_122_25_14 T_javafe_ast_Expr)) (< (fClosedTime enclosingInstance_122_25_14) alloc) (= loc_pre_110_18_13 loc_110_18_13) (= loc_110_18_13 (asField loc_110_18_13 T_int)) (= elements_pre_124_61_33 elements_124_61_33) (= elements_124_61_33 (asField elements_124_61_33 (array T_javafe_ast_Expr))) (< (fClosedTime elements_124_61_33) alloc) true (= loc_pre_122_49_13 loc_122_49_13) (= loc_122_49_13 (asField loc_122_49_13 T_int)) (= VARIABLEACCESS_pre_19_56_7 VARIABLEACCESS_19_56_7) (= true_term (is VARIABLEACCESS_19_56_7 T_int)) (= SINGLETYPEIMPORTDECL_pre_19_15_7 SINGLETYPEIMPORTDECL_19_15_7) (= true_term (is SINGLETYPEIMPORTDECL_19_15_7 T_int)) (= BITAND_pre_18_23_26 BITAND_18_23_26) (= true_term (is BITAND_18_23_26 T_int)) (= locCloseBrace_pre_90_25_13 locCloseBrace_90_25_13) (= locCloseBrace_90_25_13 (asField locCloseBrace_90_25_13 T_int)) (= loc_pre_139_20_13 loc_139_20_13) (= loc_139_20_13 (asField loc_139_20_13 T_int)) (= TRYFINALLYSTMT_pre_19_42_7 TRYFINALLYSTMT_19_42_7) (= true_term (is TRYFINALLYSTMT_19_42_7 T_int)) (= UNARYADD_pre_18_54_26 UNARYADD_18_54_26) (= true_term (is UNARYADD_18_54_26 T_int)) (= locFirstSemi_pre_114_36_13 locFirstSemi_114_36_13) (= locFirstSemi_114_36_13 (asField locFirstSemi_114_36_13 T_int)) (= elemType_pre_138_18_28 elemType_138_18_28) (= elemType_138_18_28 (asField elemType_138_18_28 T_javafe_ast_Type)) (< (fClosedTime elemType_138_18_28) alloc) true (= BYTETYPE_pre_17_35_26 BYTETYPE_17_35_26) (= true_term (is BYTETYPE_17_35_26 T_int)) (= CLASSDECLSTMT_pre_19_28_7 CLASSDECLSTMT_19_28_7) (= true_term (is CLASSDECLSTMT_19_28_7 T_int)) (= MOD_pre_18_36_26 MOD_18_36_26) (= true_term (is MOD_18_36_26 T_int)) (= STMTPRAGMA_pre_29_26_26 STMTPRAGMA_29_26_26) (= true_term (is STMTPRAGMA_29_26_26 T_int)) (= op_pre_26_26_13 op_26_26_13) (= op_26_26_13 (asField op_26_26_13 T_int)) (= init_pre_123_35_19 init_123_35_19) (= init_123_35_19 (asField init_123_35_19 T_javafe_ast_ArrayInit)) (< (fClosedTime init_123_35_19) alloc) (= AMBIGUOUSVARIABLEACCESS_pre_19_55_7 AMBIGUOUSVARIABLEACCESS_19_55_7) (= true_term (is AMBIGUOUSVARIABLEACCESS_19_55_7 T_int)) (= COMPILATIONUNIT_pre_19_14_7 COMPILATIONUNIT_19_14_7) (= true_term (is COMPILATIONUNIT_19_14_7 T_int)) (= BITXOR_pre_18_22_26 BITXOR_18_22_26) (= true_term (is BITXOR_18_22_26 T_int)) (= locCloseParen_pre_127_24_13 locCloseParen_127_24_13) (= locCloseParen_127_24_13 (asField locCloseParen_127_24_13 T_int)) (= locKeyword_pre_119_45_13 locKeyword_119_45_13) (= locKeyword_119_45_13 (asField locKeyword_119_45_13 T_int)) (= SWITCHLABEL_pre_19_41_7 SWITCHLABEL_19_41_7) (= true_term (is SWITCHLABEL_19_41_7 T_int)) (= ASGBITXOR_pre_18_51_26 ASGBITXOR_18_51_26) (= true_term (is ASGBITXOR_18_51_26 T_int)) (= punctuationStrings_pre_29_134_22 punctuationStrings_29_134_22) (= true_term (is punctuationStrings_29_134_22 ?v_0)) (= true_term (isAllocated punctuationStrings_29_134_22 alloc)) (= locOpenParen_pre_105_23_13 locOpenParen_105_23_13) (= locOpenParen_105_23_13 (asField locOpenParen_105_23_13 T_int)) (= tag_pre_27_30_13 tag_27_30_13) (= tag_27_30_13 (asField tag_27_30_13 T_int)) (= loc_pre_62_45_13 loc_62_45_13) (= loc_62_45_13 (asField loc_62_45_13 T_int)) (= loc_pre_93_18_13 loc_93_18_13) (= loc_93_18_13 (asField loc_93_18_13 T_int)) (= elements_pre_14_61_36 elements_14_61_36) (= elements_14_61_36 (asField elements_14_61_36 (array T_javafe_ast_VarInit))) (< (fClosedTime elements_14_61_36) alloc) true (= NULLTYPE_pre_17_34_26 NULLTYPE_17_34_26) (= true_term (is NULLTYPE_17_34_26 T_int)) (= VARDECLSTMT_pre_19_27_7 VARDECLSTMT_19_27_7) (= true_term (is VARDECLSTMT_19_27_7 T_int)) (= DIV_pre_18_35_26 DIV_18_35_26) (= true_term (is DIV_18_35_26 T_int)) (= locOpenParen_pre_128_18_13 locOpenParen_128_18_13) (= locOpenParen_128_18_13 (asField locOpenParen_128_18_13 T_int)) (= type_pre_126_18_28 type_126_18_28) (= type_126_18_28 (asField type_126_18_28 T_javafe_ast_Type)) (< (fClosedTime type_126_18_28) alloc) true (= count_pre_124_67_33 count_124_67_33) (= count_124_67_33 (asField count_124_67_33 T_int)) (= otherStrings_pre_29_193_30 otherStrings_29_193_30) (= true_term (is otherStrings_29_193_30 ?v_0)) (= true_term (isAllocated otherStrings_29_193_30 alloc)) (= loc_pre_23_50_13 loc_23_50_13) (= loc_23_50_13 (asField loc_23_50_13 T_int)) (= PARENEXPR_pre_19_54_7 PARENEXPR_19_54_7) (= true_term (is PARENEXPR_19_54_7 T_int)) (= loc_pre_83_29_13 loc_83_29_13) (= loc_83_29_13 (asField loc_83_29_13 T_int)) (= BITOR_pre_18_21_26 BITOR_18_21_26) (= true_term (is BITOR_18_21_26 T_int)) (= loc_pre_100_18_13 loc_100_18_13) (= loc_100_18_13 (asField loc_100_18_13 T_int)) (= MODIFIERPRAGMA_pre_29_25_26 MODIFIERPRAGMA_29_25_26) (= true_term (is MODIFIERPRAGMA_29_25_26 T_int)) (= noTokens_pre_29_212_27 noTokens_29_212_27) (= true_term (is noTokens_29_212_27 T_int)) (= tag_pre_23_32_13 tag_23_32_13) (= tag_23_32_13 (asField tag_23_32_13 T_int)) (= SKIPSTMT_pre_19_40_7 SKIPSTMT_19_40_7) (= true_term (is SKIPSTMT_19_40_7 T_int)) (= ASGBITOR_pre_18_50_26 ASGBITOR_18_50_26) (= true_term (is ASGBITOR_18_50_26 T_int)) (= loc_pre_118_23_13 loc_118_23_13) (= loc_118_23_13 (asField loc_118_23_13 T_int)) (= superCall_pre_119_24_17 superCall_119_24_17) (= superCall_119_24_17 (asField superCall_119_24_17 T_boolean)) (= locQuestion_pre_125_22_13 locQuestion_125_22_13) (= locQuestion_125_22_13 (asField locQuestion_125_22_13 T_int)) (= COMPOUNDNAME_pre_19_67_7 COMPOUNDNAME_19_67_7) (= true_term (is COMPOUNDNAME_19_67_7 T_int)) (= VOIDTYPE_pre_17_33_26 VOIDTYPE_17_33_26) (= true_term (is VOIDTYPE_17_33_26 T_int)) (= SWITCHSTMT_pre_19_26_7 SWITCHSTMT_19_26_7) (= true_term (is SWITCHSTMT_19_26_7 T_int)) (= SUB_pre_18_34_26 SUB_18_34_26) (= true_term (is SUB_18_34_26 T_int)) (= locDot_pre_84_21_13 locDot_84_21_13) (= locDot_84_21_13 (asField locDot_84_21_13 T_int)) (= CASTEXPR_pre_19_53_7 CASTEXPR_19_53_7) (= true_term (is CASTEXPR_19_53_7 T_int)) (= locSuper_pre_137_20_13 locSuper_137_20_13) (= locSuper_137_20_13 (asField locSuper_137_20_13 T_int)) (= TYPESIG_pre_28_6_28 TYPESIG_28_6_28) (= true_term (is TYPESIG_28_6_28 T_int)) (= FORSTMT_pre_19_39_7 FORSTMT_19_39_7) (= true_term (is FORSTMT_19_39_7 T_int)) (= count_pre_14_67_33 count_14_67_33) (= count_14_67_33 (asField count_14_67_33 T_int)) (= locOpenBrace_pre_90_22_13 locOpenBrace_90_22_13) (= locOpenBrace_90_22_13 (asField locOpenBrace_90_22_13 T_int)) (= LEXICALPRAGMA_pre_29_24_26 LEXICALPRAGMA_29_24_26) (= true_term (is LEXICALPRAGMA_29_24_26 T_int)) (= ASGBITAND_pre_18_49_26 ASGBITAND_18_49_26) (= true_term (is ASGBITAND_18_49_26 T_int)) (= locDot_pre_133_23_13 locDot_133_23_13) (= locDot_133_23_13 (asField locDot_133_23_13 T_int)) (= SIMPLENAME_pre_19_66_7 SIMPLENAME_19_66_7) (= true_term (is SIMPLENAME_19_66_7 T_int)) (= DOUBLETYPE_pre_17_32_26 DOUBLETYPE_17_32_26) (= true_term (is DOUBLETYPE_17_32_26 T_int)) (= BLOCKSTMT_pre_19_25_7 BLOCKSTMT_19_25_7) (= true_term (is BLOCKSTMT_19_25_7 T_int)) (= locId_pre_112_20_13 locId_112_20_13) (= locId_112_20_13 (asField locId_112_20_13 T_int)) (= ADD_pre_18_33_26 ADD_18_33_26) (= true_term (is ADD_18_33_26 T_int)) (= locId_pre_80_43_13 locId_80_43_13) (= locId_80_43_13 (asField locId_80_43_13 T_int)) (= FIRST_KEYWORD_pre_29_51_26 FIRST_KEYWORD_29_51_26) (= true_term (is FIRST_KEYWORD_29_51_26 T_int)) (= INSTANCEOFEXPR_pre_19_52_7 INSTANCEOFEXPR_19_52_7) (= true_term (is INSTANCEOFEXPR_19_52_7 T_int)) (= loc_pre_113_22_13 loc_113_22_13) (= loc_113_22_13 (asField loc_113_22_13 T_int)) (= AND_pre_18_20_26 AND_18_20_26) (= true_term (is AND_18_20_26 T_int)) (= locId_pre_77_38_13 locId_77_38_13) (= locId_77_38_13 (asField locId_77_38_13 T_int)) (= IFSTMT_pre_19_38_7 IFSTMT_19_38_7) (= true_term (is IFSTMT_19_38_7 T_int)) (= LAST_KEYWORD_pre_29_103_26 LAST_KEYWORD_29_103_26) (= true_term (is LAST_KEYWORD_29_103_26 T_int)) (= ASGURSHIFT_pre_18_48_26 ASGURSHIFT_18_48_26) (= true_term (is ASGURSHIFT_18_48_26 T_int)) (= locOpenParen_pre_127_21_13 locOpenParen_127_21_13) (= locOpenParen_127_21_13 (asField locOpenParen_127_21_13 T_int)) (= locDot_pre_119_41_13 locDot_119_41_13) (= locDot_119_41_13 (asField locDot_119_41_13 T_int)) (= loc_pre_114_33_13 loc_114_33_13) (= loc_114_33_13 (asField loc_114_33_13 T_int)) (= ARRAYTYPE_pre_19_65_7 ARRAYTYPE_19_65_7) (= true_term (is ARRAYTYPE_19_65_7 T_int)) (= locFinally_pre_117_25_13 locFinally_117_25_13) (= locFinally_117_25_13 (asField locFinally_117_25_13 T_int)) (= FORMALPARADECL_pre_19_24_7 FORMALPARADECL_19_24_7) (= true_term (is FORMALPARADECL_19_24_7 T_int)) (= FLOATTYPE_pre_17_31_26 FLOATTYPE_17_31_26) (= true_term (is FLOATTYPE_17_31_26 T_int)) (= URSHIFT_pre_18_32_26 URSHIFT_18_32_26) (= true_term (is URSHIFT_18_32_26 T_int)) (= locOpenParen_pre_132_28_13 locOpenParen_132_28_13) (= locOpenParen_132_28_13 (asField locOpenParen_132_28_13 T_int)) (= locOp_pre_25_43_13 locOp_25_43_13) (= locOp_25_43_13 (asField locOp_25_43_13 T_int)) (= value_pre_23_45_16 value_23_45_16) (= value_23_45_16 (asField value_23_45_16 T_java_lang_Object)) (< (fClosedTime value_23_45_16) alloc) (= locId_pre_130_24_13 locId_130_24_13) (= locId_130_24_13 (asField locId_130_24_13 T_int)) (= CONDEXPR_pre_19_51_7 CONDEXPR_19_51_7) (= true_term (is CONDEXPR_19_51_7 T_int)) (= elements_pre_140_61_39 elements_140_61_39) (= elements_140_61_39 (asField elements_140_61_39 (array T_javafe_ast_Identifier))) (< (fClosedTime elements_140_61_39) alloc) true (= locCloseBrace_pre_24_13 locCloseBrace_24_13) (= locCloseBrace_24_13 (asField locCloseBrace_24_13 T_int)) (= OR_pre_18_19_26 OR_18_19_26) (= true_term (is OR_18_19_26 T_int)) (= LABELSTMT_pre_19_37_7 LABELSTMT_19_37_7) (= true_term (is LABELSTMT_19_37_7 T_int)) (= NULLLIT_pre_17_45_26 NULLLIT_17_45_26) (= true_term (is NULLLIT_17_45_26 T_int)) (= ASGRSHIFT_pre_18_47_26 ASGRSHIFT_18_47_26) (= true_term (is ASGRSHIFT_18_47_26 T_int)) (= locGuardOpenParen_pre_103_23_13 locGuardOpenParen_103_23_13) (= locGuardOpenParen_103_23_13 (asField locGuardOpenParen_103_23_13 T_int)) (= elements_pre_73_61_39 elements_73_61_39) (= elements_73_61_39 (asField elements_73_61_39 (array T_javafe_ast_MethodDecl))) (< (fClosedTime elements_73_61_39) alloc) true (= loc_pre_108_18_13 loc_108_18_13) (= loc_108_18_13 (asField loc_108_18_13 T_int)) (= NULL_pre_29_82_26 NULL_29_82_26) (= true_term (is NULL_29_82_26 T_int)) (= TYPENAME_pre_19_64_7 TYPENAME_19_64_7) (= true_term (is TYPENAME_19_64_7 T_int)) (= CHARTYPE_pre_17_30_26 CHARTYPE_17_30_26) (= true_term (is CHARTYPE_17_30_26 T_int)) (= FIELDDECL_pre_19_23_7 FIELDDECL_19_23_7) (= true_term (is FIELDDECL_19_23_7 T_int)) (= RSHIFT_pre_18_31_26 RSHIFT_18_31_26) (= true_term (is RSHIFT_18_31_26 T_int)) (= locCloseBrace_pre_62_54_13 locCloseBrace_62_54_13) (= locCloseBrace_62_54_13 (asField locCloseBrace_62_54_13 T_int)) (= loc_pre_105_20_13 loc_105_20_13) (= loc_105_20_13 (asField loc_105_20_13 T_int)) (= loc_pre_123_49_13 loc_123_49_13) (= loc_123_49_13 (asField loc_123_49_13 T_int)) (= loc_pre_104_20_13 loc_104_20_13) (= loc_104_20_13 (asField loc_104_20_13 T_int)) (= NEWARRAYEXPR_pre_19_50_7 NEWARRAYEXPR_19_50_7) (= true_term (is NEWARRAYEXPR_19_50_7 T_int)) (= locType_pre_79_21_13 locType_79_21_13) (= locType_79_21_13 (asField locType_79_21_13 T_int)) (= type_pre_123_24_28 type_123_24_28) (= type_123_24_28 (asField type_123_24_28 T_javafe_ast_Type)) (< (fClosedTime type_123_24_28) alloc) true (= I_will_establish_invariants_afterwards_pre_5_236_34 I_will_establish_invariants_afterwards_5_236_34) (= true_term (is I_will_establish_invariants_afterwards_5_236_34 T_boolean)) (= CONTINUESTMT_pre_19_36_7 CONTINUESTMT_19_36_7) (= true_term (is CONTINUESTMT_19_36_7 T_int)) (= STRINGLIT_pre_17_44_26 STRINGLIT_17_44_26) (= true_term (is STRINGLIT_17_44_26 T_int)) (= ASGLSHIFT_pre_18_46_26 ASGLSHIFT_18_46_26) (= true_term (is ASGLSHIFT_18_46_26 T_int)) (= SUPEROBJECTDESIGNATOR_pre_19_63_7 SUPEROBJECTDESIGNATOR_19_63_7) (= true_term (is SUPEROBJECTDESIGNATOR_19_63_7 T_int)) (= LONGTYPE_pre_17_29_26 LONGTYPE_17_29_26) (= true_term (is LONGTYPE_17_29_26 T_int)) (= LOCALVARDECL_pre_19_22_7 LOCALVARDECL_19_22_7) (= true_term (is LOCALVARDECL_19_22_7 T_int)) (= LSHIFT_pre_18_30_26 LSHIFT_18_30_26) (= true_term (is LSHIFT_18_30_26 T_int)) (= loc_pre_80_40_13 loc_80_40_13) (= loc_80_40_13 (asField loc_80_40_13 T_int)) (= loc_pre_120_22_13 loc_120_22_13) (= loc_120_22_13 (asField loc_120_22_13 T_int)) (= NEWINSTANCEEXPR_pre_19_49_7 NEWINSTANCEEXPR_19_49_7) (= true_term (is NEWINSTANCEEXPR_19_49_7 T_int)) (= loc_pre_129_22_13 loc_129_22_13) (= loc_129_22_13 (asField loc_129_22_13 T_int)) (= locOpenBrackets_pre_123_65_29 locOpenBrackets_123_65_29) (= locOpenBrackets_123_65_29 (asField locOpenBrackets_123_65_29 ?v_1)) (< (fClosedTime locOpenBrackets_123_65_29) alloc) true (= POSTFIXDEC_pre_18_63_26 POSTFIXDEC_18_63_26) (= true_term (is POSTFIXDEC_18_63_26 T_int)) (= BREAKSTMT_pre_19_35_7 BREAKSTMT_19_35_7) (= true_term (is BREAKSTMT_19_35_7 T_int)) (= type_pre_77_35_28 type_77_35_28) (= type_77_35_28 (asField type_77_35_28 T_javafe_ast_Type)) (< (fClosedTime type_77_35_28) alloc) true (= count_pre_140_67_33 count_140_67_33) (= count_140_67_33 (asField count_140_67_33 T_int)) (= DOUBLELIT_pre_17_43_26 DOUBLELIT_17_43_26) (= true_term (is DOUBLELIT_17_43_26 T_int)) (= ASGSUB_pre_18_45_26 ASGSUB_18_45_26) (= true_term (is ASGSUB_18_45_26 T_int)) (= ids_pre_141_19_37 ids_141_19_37) (= ids_141_19_37 (asField ids_141_19_37 T_javafe_ast_IdentifierVec)) (< (fClosedTime ids_141_19_37) alloc) true (= type_pre_127_18_28 type_127_18_28) (= type_127_18_28 (asField type_127_18_28 T_javafe_ast_Type)) (< (fClosedTime type_127_18_28) alloc) true (= TYPEOBJECTDESIGNATOR_pre_19_62_7 TYPEOBJECTDESIGNATOR_19_62_7) (= true_term (is TYPEOBJECTDESIGNATOR_19_62_7 T_int)) (= count_pre_73_67_33 count_73_67_33) (= count_73_67_33 (asField count_73_67_33 T_int)) (= INTTYPE_pre_17_28_26 INTTYPE_17_28_26) (= true_term (is INTTYPE_17_28_26 T_int)) (= INITBLOCK_pre_19_21_7 INITBLOCK_19_21_7) (= true_term (is INITBLOCK_19_21_7 T_int)) (= LT_pre_18_29_26 LT_18_29_26) (= true_term (is LT_18_29_26 T_int)) (= locId_pre_132_25_13 locId_132_25_13) (= locId_132_25_13 (asField locId_132_25_13 T_int)) (= type_pre_133_20_28 type_133_20_28) (= type_133_20_28 (asField type_133_20_28 T_javafe_ast_Type)) (< (fClosedTime type_133_20_28) alloc) true (= ARRAYREFEXPR_pre_19_48_7 ARRAYREFEXPR_19_48_7) (= true_term (is ARRAYREFEXPR_19_48_7 T_int)) (= POSTFIXINC_pre_18_62_26 POSTFIXINC_18_62_26) (= true_term (is POSTFIXINC_18_62_26 T_int)) (= loc_pre_63_30_13 loc_63_30_13) (= loc_63_30_13 (asField loc_63_30_13 T_int)) (= THROWSTMT_pre_19_34_7 THROWSTMT_19_34_7) (= true_term (is THROWSTMT_19_34_7 T_int)) (= FLOATLIT_pre_17_42_26 FLOATLIT_17_42_26) (= true_term (is FLOATLIT_17_42_26 T_int)) (= ASGADD_pre_18_44_26 ASGADD_18_44_26) (= true_term (is ASGADD_18_44_26 T_int)) (= length_pre_81_50_25 length_81_50_25) (= length_81_50_25 (asField length_81_50_25 T_int)) (= enclosingInstance_pre_119_37_14 enclosingInstance_119_37_14) (= enclosingInstance_119_37_14 (asField enclosingInstance_119_37_14 T_javafe_ast_Expr)) (< (fClosedTime enclosingInstance_119_37_14) alloc) (= loc_pre_116_29_13 loc_116_29_13) (= loc_116_29_13 (asField loc_116_29_13 T_int)) (= loc_pre_117_22_13 loc_117_22_13) (= loc_117_22_13 (asField loc_117_22_13 T_int)) (= EXPROBJECTDESIGNATOR_pre_19_61_7 EXPROBJECTDESIGNATOR_19_61_7) (= true_term (is EXPROBJECTDESIGNATOR_19_61_7 T_int)) (= otherCodes_pre_29_202_27 otherCodes_29_202_27) (= true_term (is otherCodes_29_202_27 ?v_1)) (= true_term (isAllocated otherCodes_29_202_27 alloc)) (= BOOLEANTYPE_pre_17_27_26 BOOLEANTYPE_17_27_26) (= true_term (is BOOLEANTYPE_17_27_26 T_int)) (= METHODDECL_pre_19_20_7 METHODDECL_19_20_7) (= true_term (is METHODDECL_19_20_7 T_int)) (= LE_pre_18_28_26 LE_18_28_26) (= true_term (is LE_18_28_26 T_int)) (= locOpenBrace_pre_21_13 locOpenBrace_21_13) (= locOpenBrace_21_13 (asField locOpenBrace_21_13 T_int)) (= locOpenBrace_pre_62_51_13 locOpenBrace_62_51_13) (= locOpenBrace_62_51_13 (asField locOpenBrace_62_51_13 T_int)) (= loc_pre_107_18_13 loc_107_18_13) (= loc_107_18_13 (asField loc_107_18_13 T_int)) (= dims_pre_123_45_31 dims_123_45_31) (= dims_123_45_31 (asField dims_123_45_31 T_javafe_ast_ExprVec)) (< (fClosedTime dims_123_45_31) alloc) true (= THISEXPR_pre_19_47_7 THISEXPR_19_47_7) (= true_term (is THISEXPR_19_47_7 T_int)) (= DEC_pre_18_59_26 DEC_18_59_26) (= true_term (is DEC_18_59_26 T_int)) (= locCloseBracket_pre_121_23_13 locCloseBracket_121_23_13) (= locCloseBracket_121_23_13 (asField locCloseBracket_121_23_13 T_int)) (= CHARLIT_pre_17_41_26 CHARLIT_17_41_26) (= true_term (is CHARLIT_17_41_26 T_int)) (= RETURNSTMT_pre_19_33_7 RETURNSTMT_19_33_7) (= true_term (is RETURNSTMT_19_33_7 T_int)) (= locOp_pre_26_32_13 locOp_26_32_13) (= locOp_26_32_13 (asField locOp_26_32_13 T_int)) (= punctuationCodes_pre_29_164_19 punctuationCodes_29_164_19) (= true_term (is punctuationCodes_29_164_19 ?v_1)) (= true_term (isAllocated punctuationCodes_29_164_19 alloc)) (= ASGREM_pre_18_43_26 ASGREM_18_43_26) (= true_term (is ASGREM_18_43_26 T_int)) (= CLASSLITERAL_pre_19_60_7 CLASSLITERAL_19_60_7) (= true_term (is CLASSLITERAL_19_60_7 T_int)) (= IDENT_pre_17_25_26 IDENT_17_25_26) (= true_term (is IDENT_17_25_26 T_int)) (= CONSTRUCTORDECL_pre_19_19_7 CONSTRUCTORDECL_19_19_7) (= true_term (is CONSTRUCTORDECL_19_19_7 T_int)) (= locDot_pre_122_29_13 locDot_122_29_13) (= locDot_122_29_13 (asField locDot_122_29_13 T_int)) (= GT_pre_18_27_26 GT_18_27_26) (= true_term (is GT_18_27_26 T_int)) (= locOpenBracket_pre_138_21_13 locOpenBracket_138_21_13) (= locOpenBracket_138_21_13 (asField locOpenBracket_138_21_13 T_int)) (= elements_pre_72_61_38 elements_72_61_38) (= elements_72_61_38 (asField elements_72_61_38 (array T_javafe_ast_FieldDecl))) (< (fClosedTime elements_72_61_38) alloc) true (= ARRAYINIT_pre_19_46_7 ARRAYINIT_19_46_7) (= true_term (is ARRAYINIT_19_46_7 T_int)) (= INC_pre_18_58_26 INC_18_58_26) (= true_term (is INC_18_58_26 T_int)) (= owner_pre_8_35_28 owner_8_35_28) (= owner_8_35_28 (asField owner_8_35_28 T_java_lang_Object)) (< (fClosedTime owner_8_35_28) alloc) (= locIds_pre_141_25_29 locIds_141_25_29) (= locIds_141_25_29 (asField locIds_141_25_29 ?v_1)) (< (fClosedTime locIds_141_25_29) alloc) true (= loc_pre_103_20_13 loc_103_20_13) (= loc_103_20_13 (asField loc_103_20_13 T_int)) (= LONGLIT_pre_17_40_26 LONGLIT_17_40_26) (= true_term (is LONGLIT_17_40_26 T_int)) (= EVALSTMT_pre_19_32_7 EVALSTMT_19_32_7) (= true_term (is EVALSTMT_19_32_7 T_int)) (= ASGDIV_pre_18_42_26 ASGDIV_18_42_26) (= true_term (is ASGDIV_18_42_26 T_int)) (= locOpenParen_pre_122_52_13 locOpenParen_122_52_13) (= locOpenParen_122_52_13 (asField locOpenParen_122_52_13 T_int)) (= METHODINVOCATION_pre_19_59_7 METHODINVOCATION_19_59_7) (= true_term (is METHODINVOCATION_19_59_7 T_int)) (= tokenType_pre_78_90_8 tokenType_78_90_8) (= tokenType_78_90_8 (asField tokenType_78_90_8 T_int)) (= INTERFACEDECL_pre_19_18_7 INTERFACEDECL_19_18_7) (= true_term (is INTERFACEDECL_19_18_7 T_int)) (= GE_pre_18_26_26 GE_18_26_26) (= true_term (is GE_18_26_26 T_int)) (= locCloseParen_pre_128_21_13 locCloseParen_128_21_13) (= locCloseParen_128_21_13 (asField locCloseParen_128_21_13 T_int)) (= CATCHCLAUSE_pre_19_45_7 CATCHCLAUSE_19_45_7) (= true_term (is CATCHCLAUSE_19_45_7 T_int)) (= BITNOT_pre_18_57_26 BITNOT_18_57_26) (= true_term (is BITNOT_18_57_26 T_int)) (= keywordStrings_pre_29_181_30 keywordStrings_29_181_30) (= true_term (is keywordStrings_29_181_30 ?v_0)) (= true_term (isAllocated keywordStrings_29_181_30 alloc)) (= locOpenParen_pre_131_30_13 locOpenParen_131_30_13) (= locOpenParen_131_30_13 (asField locOpenParen_131_30_13 T_int)) (= NULL_pre_13_60_26 NULL_13_60_26) (= true_term (is NULL_13_60_26 T_int)) (= SYNCHRONIZESTMT_pre_19_31_7 SYNCHRONIZESTMT_19_31_7) (= true_term (is SYNCHRONIZESTMT_19_31_7 T_int)) (= INTLIT_pre_17_39_26 INTLIT_17_39_26) (= true_term (is INTLIT_17_39_26 T_int)) (= ASGMUL_pre_18_41_26 ASGMUL_18_41_26) (= true_term (is ASGMUL_18_41_26 T_int)) (= loc_pre_115_16_13 loc_115_16_13) (= loc_115_16_13 (asField loc_115_16_13 T_int)) (= AMBIGUOUSMETHODINVOCATION_pre_19_58_7 AMBIGUOUSMETHODINVOCATION_19_58_7) (= true_term (is AMBIGUOUSMETHODINVOCATION_19_58_7 T_int)) (= CLASSDECL_pre_19_17_7 CLASSDECL_19_17_7) (= true_term (is CLASSDECL_19_17_7 T_int)) (= EQ_pre_18_25_26 EQ_18_25_26) (= true_term (is EQ_18_25_26 T_int)) (= locOpenParen_pre_119_48_13 locOpenParen_119_48_13) (= locOpenParen_119_48_13 (asField locOpenParen_119_48_13 T_int)) (= loc_pre_27_35_13 loc_27_35_13) (= loc_27_35_13 (asField loc_27_35_13 T_int)) (= TYPEMODIFIERPRAGMA_pre_29_28_26 TYPEMODIFIERPRAGMA_29_28_26) (= true_term (is TYPEMODIFIERPRAGMA_29_28_26 T_int)) (= locId_pre_62_48_13 locId_62_48_13) (= locId_62_48_13 (asField locId_62_48_13 T_int)) (= CONSTRUCTORINVOCATION_pre_19_44_7 CONSTRUCTORINVOCATION_19_44_7) (= true_term (is CONSTRUCTORINVOCATION_19_44_7 T_int)) (= count_pre_72_67_33 count_72_67_33) (= count_72_67_33 (asField count_72_67_33 T_int)) (= NOT_pre_18_56_26 NOT_18_56_26) (= true_term (is NOT_18_56_26 T_int)) (= returnType_pre_79_18_28 returnType_79_18_28) (= returnType_79_18_28 (asField returnType_79_18_28 T_javafe_ast_Type)) (< (fClosedTime returnType_79_18_28) alloc) true (= locDots_pre_141_31_29 locDots_141_31_29) (= locDots_141_31_29 (asField locDots_141_31_29 ?v_1)) (< (fClosedTime locDots_141_31_29) alloc) true (= BOOLEANLIT_pre_17_38_26 BOOLEANLIT_17_38_26) (= true_term (is BOOLEANLIT_17_38_26 T_int)) (= DOSTMT_pre_19_30_7 DOSTMT_19_30_7) (= true_term (is DOSTMT_19_30_7 T_int)) (= ASSIGN_pre_18_40_26 ASSIGN_18_40_26) (= true_term (is ASSIGN_18_40_26 T_int)) (= loc_pre_126_21_13 loc_126_21_13) (= loc_126_21_13 (asField loc_126_21_13 T_int)) (= op_pre_25_35_13 op_25_35_13) (= op_25_35_13 (asField op_25_35_13 T_int)) (= FIELDACCESS_pre_19_57_7 FIELDACCESS_19_57_7) (= true_term (is FIELDACCESS_19_57_7 T_int)) (= syntax_pre_22_28_29 syntax_22_28_29) (= syntax_22_28_29 (asField syntax_22_28_29 T_boolean)) (= ONDEMANDIMPORTDECL_pre_19_16_7 ONDEMANDIMPORTDECL_19_16_7) (= true_term (is ONDEMANDIMPORTDECL_19_16_7 T_int)) (= NE_pre_18_24_26 NE_18_24_26) (= true_term (is NE_18_24_26 T_int)) (= locColon_pre_125_25_13 locColon_125_25_13) (= locColon_125_25_13 (asField locColon_125_25_13 T_int)) (= locOpenBracket_pre_121_20_13 locOpenBracket_121_20_13) (= locOpenBracket_121_20_13 (asField locOpenBracket_121_20_13 T_int)) (= elems_pre elems) (= elems (asElems elems)) (< (eClosedTime elems) alloc) (= LS (asLockSet LS)) (= alloc_pre alloc)) (not (and (= true_term (is elems_91_56 T_javafe_ast_VarInitVec)) (= true_term (isAllocated elems_91_56 alloc)) (not (= elems_91_56 null)) (= true_term (is locOpenBrace_91_67 T_int)) (= true_term (is locCloseBrace_91_85 T_int)) (not (= locOpenBrace_91_67 NULL_13_60_26)) (not (= locCloseBrace_91_85 NULL_13_60_26)) true true (or (not ?v_2) (and ?v_2 ?v_5 ?v_3 ?v_6 ?v_7 ?v_8 ?v_9 ?v_10 ?v_11 (or ?v_4 (and ?v_3 ?v_12 (or ?v_4 (and ?v_3 ?v_13 ?v_4))))) (and ?v_2 ?v_5 ?v_3 ?v_6 ?v_7 ?v_8 ?v_9 ?v_10 ?v_11 ?v_3 ?v_12 ?v_3 ?v_13 ?v_3 (= locCloseBrace_96_12 (S_store locCloseBrace_24_13 RES_93_24_93_24 locCloseBrace_91_85)) ?v_2 (or (not ?v_14) (and ?v_14 (or (not ?v_15) (and ?v_15 (or (not true) (not (=> (and (= true_term (is brokenObj_1_FOO T_javafe_ast_ArrayInit)) (= true_term (isAllocated brokenObj_1_FOO after_93_24_93_24)) (not (= brokenObj_1_FOO null))) (not (= (S_select locCloseBrace_96_12 brokenObj_1_FOO) NULL_13_60_26))))))))))))))))))))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/uflia/speed2_e8_449_e8_517.ec.smt2 b/test/regress/regress0/uflia/speed2_e8_449_e8_517.ec.smt2
deleted file mode 100644
index 11fdfa51d..000000000
--- a/test/regress/regress0/uflia/speed2_e8_449_e8_517.ec.smt2
+++ /dev/null
@@ -1,747 +0,0 @@
-(set-logic QF_UFLIA)
-(declare-fun _base () Int)
-(declare-fun _n () Int)
-(assert (let ((.def_5 (<= 0 _n)))
-.def_5
-))
-(declare-fun ___z2z___ (Int) Bool)
-(declare-fun ___z3z___ (Int) Bool)
-(declare-fun ___z4z___ (Int) Bool)
-(declare-fun ___z5z___ (Int) Bool)
-(declare-fun ___z6z___ (Int) Bool)
-(declare-fun ___z7z___ (Int) Int)
-(declare-fun ___z8z___ (Int) Int)
-(declare-fun ___z9z___ (Int) Int)
-(push 1)
-(assert (let ((.def_152 (___z4z___ 0)))
-(let ((.def_150 (= _base 0)))
-(let ((.def_147 (___z6z___ (- 1))))
-(let ((.def_148 (not .def_147)))
-(let ((.def_145 (___z5z___ 0)))
-(let ((.def_146 (not .def_145)))
-(let ((.def_149 (and .def_146 .def_148)))
-(let ((.def_151 (or .def_149 .def_150)))
-(let ((.def_153 (= .def_151 .def_152)))
-.def_153
-))))))))))
-(assert (let ((.def_157 (___z7z___ 0)))
-(let ((.def_161 (<= .def_157 (- 10))))
-(let ((.def_155 (___z5z___ (- 1))))
-(let ((.def_162 (or .def_155 .def_161)))
-(let ((.def_158 (<= 0 .def_157)))
-(let ((.def_159 (not .def_158)))
-(let ((.def_156 (not .def_155)))
-(let ((.def_160 (or .def_156 .def_159)))
-(let ((.def_163 (and .def_160 .def_162)))
-(let ((.def_150 (= _base 0)))
-(let ((.def_164 (or .def_150 .def_163)))
-(let ((.def_154 (not .def_150)))
-(let ((.def_165 (and .def_154 .def_164)))
-(let ((.def_145 (___z5z___ 0)))
-(let ((.def_166 (= .def_145 .def_165)))
-.def_166
-))))))))))))))))
-(assert (let ((.def_175 (___z6z___ 0)))
-(let ((.def_157 (___z7z___ 0)))
-(let ((.def_170 (<= 10 .def_157)))
-(let ((.def_147 (___z6z___ (- 1))))
-(let ((.def_171 (or .def_147 .def_170)))
-(let ((.def_167 (<= .def_157 0)))
-(let ((.def_168 (not .def_167)))
-(let ((.def_148 (not .def_147)))
-(let ((.def_169 (or .def_148 .def_168)))
-(let ((.def_172 (and .def_169 .def_171)))
-(let ((.def_150 (= _base 0)))
-(let ((.def_173 (or .def_150 .def_172)))
-(let ((.def_154 (not .def_150)))
-(let ((.def_174 (and .def_154 .def_173)))
-(let ((.def_176 (= .def_174 .def_175)))
-.def_176
-))))))))))))))))
-(assert (let ((.def_177 (___z9z___ 0)))
-(let ((.def_178 (___z8z___ 0)))
-(let ((.def_179 (+ .def_177 .def_178)))
-(let ((.def_181 (___z2z___ 0)))
-(let ((.def_180 (___z3z___ 0)))
-(let ((.def_182 (and .def_180 .def_181)))
-(let ((.def_183 (ite .def_182 .def_179 .def_177)))
-(let ((.def_157 (___z7z___ 0)))
-(let ((.def_184 (= .def_157 .def_183)))
-.def_184
-))))))))))
-(assert (let ((.def_181 (___z2z___ 0)))
-(let ((.def_185 (not .def_181)))
-(let ((.def_180 (___z3z___ 0)))
-(let ((.def_186 (and .def_180 .def_185)))
-(let ((.def_187 (ite .def_186 2 0)))
-(let ((.def_188 (not .def_180)))
-(let ((.def_189 (and .def_181 .def_188)))
-(let ((.def_190 (ite .def_189 1 .def_187)))
-(let ((.def_178 (___z8z___ 0)))
-(let ((.def_191 (= .def_178 .def_190)))
-.def_191
-)))))))))))
-(assert (let ((.def_192 (___z7z___ (- 1))))
-(let ((.def_150 (= _base 0)))
-(let ((.def_193 (ite .def_150 0 .def_192)))
-(let ((.def_177 (___z9z___ 0)))
-(let ((.def_194 (= .def_177 .def_193)))
-.def_194
-))))))
-(assert (let ((.def_201 (___z4z___ (- 1))))
-(let ((.def_199 (= _base (- 1))))
-(let ((.def_196 (___z6z___ (- 2))))
-(let ((.def_197 (not .def_196)))
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-(let ((.def_307 (not .def_303)))
-(let ((.def_326 (and .def_307 .def_325)))
-(let ((.def_249 (___z6z___ .def_248)))
-(let ((.def_327 (= .def_249 .def_326)))
-.def_327
-))))))))))))))))))))
-(assert (let ((.def_248 (+ _n (- 1))))
-(let ((.def_328 (___z9z___ .def_248)))
-(let ((.def_329 (___z8z___ .def_248)))
-(let ((.def_330 (+ .def_328 .def_329)))
-(let ((.def_332 (___z2z___ .def_248)))
-(let ((.def_331 (___z3z___ .def_248)))
-(let ((.def_333 (and .def_331 .def_332)))
-(let ((.def_334 (ite .def_333 .def_330 .def_328)))
-(let ((.def_294 (___z7z___ .def_248)))
-(let ((.def_335 (= .def_294 .def_334)))
-.def_335
-)))))))))))
-(assert (let ((.def_248 (+ _n (- 1))))
-(let ((.def_332 (___z2z___ .def_248)))
-(let ((.def_336 (not .def_332)))
-(let ((.def_331 (___z3z___ .def_248)))
-(let ((.def_337 (and .def_331 .def_336)))
-(let ((.def_338 (ite .def_337 2 0)))
-(let ((.def_339 (not .def_331)))
-(let ((.def_340 (and .def_332 .def_339)))
-(let ((.def_341 (ite .def_340 1 .def_338)))
-(let ((.def_329 (___z8z___ .def_248)))
-(let ((.def_342 (= .def_329 .def_341)))
-.def_342
-))))))))))))
-(assert (let ((.def_248 (+ _n (- 1))))
-(let ((.def_297 (+ (- 1) .def_248)))
-(let ((.def_343 (___z7z___ .def_297)))
-(let ((.def_301 (* (- 1) _base)))
-(let ((.def_302 (+ _n .def_301)))
-(let ((.def_303 (= .def_302 1)))
-(let ((.def_344 (ite .def_303 0 .def_343)))
-(let ((.def_328 (___z9z___ .def_248)))
-(let ((.def_345 (= .def_328 .def_344)))
-.def_345
-))))))))))
-(assert (let ((.def_301 (* (- 1) _base)))
-(let ((.def_302 (+ _n .def_301)))
-(let ((.def_406 (= .def_302 2)))
-(let ((.def_348 (+ _n (- 2))))
-(let ((.def_402 (+ (- 1) .def_348)))
-(let ((.def_403 (___z6z___ .def_402)))
-(let ((.def_404 (not .def_403)))
-(let ((.def_400 (___z5z___ .def_348)))
-(let ((.def_401 (not .def_400)))
-(let ((.def_405 (and .def_401 .def_404)))
-(let ((.def_407 (or .def_405 .def_406)))
-(let ((.def_349 (___z4z___ .def_348)))
-(let ((.def_408 (= .def_349 .def_407)))
-.def_408
-))))))))))))))
-(assert (let ((.def_348 (+ _n (- 2))))
-(let ((.def_412 (___z7z___ .def_348)))
-(let ((.def_416 (<= .def_412 (- 10))))
-(let ((.def_402 (+ (- 1) .def_348)))
-(let ((.def_410 (___z5z___ .def_402)))
-(let ((.def_417 (or .def_410 .def_416)))
-(let ((.def_413 (<= 0 .def_412)))
-(let ((.def_414 (not .def_413)))
-(let ((.def_411 (not .def_410)))
-(let ((.def_415 (or .def_411 .def_414)))
-(let ((.def_418 (and .def_415 .def_417)))
-(let ((.def_301 (* (- 1) _base)))
-(let ((.def_302 (+ _n .def_301)))
-(let ((.def_406 (= .def_302 2)))
-(let ((.def_419 (or .def_406 .def_418)))
-(let ((.def_409 (not .def_406)))
-(let ((.def_420 (and .def_409 .def_419)))
-(let ((.def_400 (___z5z___ .def_348)))
-(let ((.def_421 (= .def_400 .def_420)))
-.def_421
-))))))))))))))))))))
-(assert (let ((.def_348 (+ _n (- 2))))
-(let ((.def_430 (___z6z___ .def_348)))
-(let ((.def_412 (___z7z___ .def_348)))
-(let ((.def_425 (<= 10 .def_412)))
-(let ((.def_402 (+ (- 1) .def_348)))
-(let ((.def_403 (___z6z___ .def_402)))
-(let ((.def_426 (or .def_403 .def_425)))
-(let ((.def_422 (<= .def_412 0)))
-(let ((.def_423 (not .def_422)))
-(let ((.def_404 (not .def_403)))
-(let ((.def_424 (or .def_404 .def_423)))
-(let ((.def_427 (and .def_424 .def_426)))
-(let ((.def_301 (* (- 1) _base)))
-(let ((.def_302 (+ _n .def_301)))
-(let ((.def_406 (= .def_302 2)))
-(let ((.def_428 (or .def_406 .def_427)))
-(let ((.def_409 (not .def_406)))
-(let ((.def_429 (and .def_409 .def_428)))
-(let ((.def_431 (= .def_429 .def_430)))
-.def_431
-))))))))))))))))))))
-(assert (let ((.def_348 (+ _n (- 2))))
-(let ((.def_432 (___z9z___ .def_348)))
-(let ((.def_433 (___z8z___ .def_348)))
-(let ((.def_434 (+ .def_432 .def_433)))
-(let ((.def_436 (___z2z___ .def_348)))
-(let ((.def_435 (___z3z___ .def_348)))
-(let ((.def_437 (and .def_435 .def_436)))
-(let ((.def_438 (ite .def_437 .def_434 .def_432)))
-(let ((.def_412 (___z7z___ .def_348)))
-(let ((.def_439 (= .def_412 .def_438)))
-.def_439
-)))))))))))
-(assert (let ((.def_348 (+ _n (- 2))))
-(let ((.def_436 (___z2z___ .def_348)))
-(let ((.def_440 (not .def_436)))
-(let ((.def_435 (___z3z___ .def_348)))
-(let ((.def_441 (and .def_435 .def_440)))
-(let ((.def_442 (ite .def_441 2 0)))
-(let ((.def_443 (not .def_435)))
-(let ((.def_444 (and .def_436 .def_443)))
-(let ((.def_445 (ite .def_444 1 .def_442)))
-(let ((.def_433 (___z8z___ .def_348)))
-(let ((.def_446 (= .def_433 .def_445)))
-.def_446
-))))))))))))
-(assert (let ((.def_348 (+ _n (- 2))))
-(let ((.def_402 (+ (- 1) .def_348)))
-(let ((.def_447 (___z7z___ .def_402)))
-(let ((.def_301 (* (- 1) _base)))
-(let ((.def_302 (+ _n .def_301)))
-(let ((.def_406 (= .def_302 2)))
-(let ((.def_448 (ite .def_406 0 .def_447)))
-(let ((.def_432 (___z9z___ .def_348)))
-(let ((.def_449 (= .def_432 .def_448)))
-.def_449
-))))))))))
-(assert (let ((.def_354 (= _base (- 2))))
-(let ((.def_357 (not .def_354)))
-(let ((.def_254 (___z4z___ _n)))
-(let ((.def_450 (or .def_254 .def_357)))
-(let ((.def_451 (not .def_450)))
-.def_451
-))))))
-(assert true
-)
-(check-sat)
diff --git a/test/regress/regress0/uflia/speed2_e8_449_e8_517.ec.smt2.expect b/test/regress/regress0/uflia/speed2_e8_449_e8_517.ec.smt2.expect
deleted file mode 100644
index 65fb9b33f..000000000
--- a/test/regress/regress0/uflia/speed2_e8_449_e8_517.ec.smt2.expect
+++ /dev/null
@@ -1,5 +0,0 @@
-% COMMAND-LINE: --incremental
-% EXPECT: unsat
-% EXPECT: sat
-% EXPECT: unsat
-% EXPECT: unsat
diff --git a/test/regress/regress0/uflia/stalmark_e7_27_e7_31.ec.smt2 b/test/regress/regress0/uflia/stalmark_e7_27_e7_31.ec.smt2
deleted file mode 100644
index 381eb740b..000000000
--- a/test/regress/regress0/uflia/stalmark_e7_27_e7_31.ec.smt2
+++ /dev/null
@@ -1,772 +0,0 @@
-(set-logic QF_UFLIA)
-(declare-fun _base () Int)
-(declare-fun _n () Int)
-(assert (let ((.def_5 (<= 0 _n)))
-.def_5
-))
-(declare-fun ___z3z___ (Int) Bool)
-(declare-fun ___z4z___ (Int) Bool)
-(declare-fun ___z5z___ (Int) Bool)
-(declare-fun ___z6z___ (Int) Bool)
-(push 1)
-(assert (let ((.def_117 (___z3z___ 0)))
-(let ((.def_99 (___z4z___ 0)))
-(let ((.def_108 (not .def_99)))
-(let ((.def_98 (___z5z___ 0)))
-(let ((.def_104 (not .def_98)))
-(let ((.def_111 (or .def_104 .def_108)))
-(let ((.def_101 (___z6z___ 0)))
-(let ((.def_112 (or .def_101 .def_111)))
-(let ((.def_109 (and .def_98 .def_108)))
-(let ((.def_106 (not .def_101)))
-(let ((.def_110 (and .def_106 .def_109)))
-(let ((.def_113 (or .def_110 .def_112)))
-(let ((.def_105 (and .def_99 .def_104)))
-(let ((.def_107 (and .def_105 .def_106)))
-(let ((.def_114 (or .def_107 .def_113)))
-(let ((.def_100 (and .def_98 .def_99)))
-(let ((.def_102 (and .def_100 .def_101)))
-(let ((.def_115 (or .def_102 .def_114)))
-(let ((.def_103 (not .def_102)))
-(let ((.def_116 (and .def_103 .def_115)))
-(let ((.def_118 (= .def_116 .def_117)))
-.def_118
-))))))))))))))))))))))
-(assert (let ((.def_120 (= _base 0)))
-(let ((.def_119 (___z6z___ (- 1))))
-(let ((.def_121 (or .def_119 .def_120)))
-(let ((.def_99 (___z4z___ 0)))
-(let ((.def_122 (= .def_99 .def_121)))
-.def_122
-))))))
-(assert (let ((.def_124 (___z4z___ (- 1))))
-(let ((.def_120 (= _base 0)))
-(let ((.def_125 (or .def_120 .def_124)))
-(let ((.def_123 (not .def_120)))
-(let ((.def_126 (and .def_123 .def_125)))
-(let ((.def_98 (___z5z___ 0)))
-(let ((.def_127 (= .def_98 .def_126)))
-.def_127
-))))))))
-(assert (let ((.def_128 (___z5z___ (- 1))))
-(let ((.def_120 (= _base 0)))
-(let ((.def_129 (or .def_120 .def_128)))
-(let ((.def_123 (not .def_120)))
-(let ((.def_130 (and .def_123 .def_129)))
-(let ((.def_101 (___z6z___ 0)))
-(let ((.def_131 (= .def_101 .def_130)))
-.def_131
-))))))))
-(assert (let ((.def_148 (___z3z___ (- 1))))
-(let ((.def_124 (___z4z___ (- 1))))
-(let ((.def_139 (not .def_124)))
-(let ((.def_128 (___z5z___ (- 1))))
-(let ((.def_135 (not .def_128)))
-(let ((.def_142 (or .def_135 .def_139)))
-(let ((.def_119 (___z6z___ (- 1))))
-(let ((.def_143 (or .def_119 .def_142)))
-(let ((.def_140 (and .def_128 .def_139)))
-(let ((.def_137 (not .def_119)))
-(let ((.def_141 (and .def_137 .def_140)))
-(let ((.def_144 (or .def_141 .def_143)))
-(let ((.def_136 (and .def_124 .def_135)))
-(let ((.def_138 (and .def_136 .def_137)))
-(let ((.def_145 (or .def_138 .def_144)))
-(let ((.def_132 (and .def_124 .def_128)))
-(let ((.def_133 (and .def_119 .def_132)))
-(let ((.def_146 (or .def_133 .def_145)))
-(let ((.def_134 (not .def_133)))
-(let ((.def_147 (and .def_134 .def_146)))
-(let ((.def_149 (= .def_147 .def_148)))
-.def_149
-))))))))))))))))))))))
-(assert (let ((.def_152 (= _base (- 1))))
-(let ((.def_151 (___z6z___ (- 2))))
-(let ((.def_153 (or .def_151 .def_152)))
-(let ((.def_124 (___z4z___ (- 1))))
-(let ((.def_154 (= .def_124 .def_153)))
-.def_154
-))))))
-(assert (let ((.def_156 (___z4z___ (- 2))))
-(let ((.def_152 (= _base (- 1))))
-(let ((.def_157 (or .def_152 .def_156)))
-(let ((.def_155 (not .def_152)))
-(let ((.def_158 (and .def_155 .def_157)))
-(let ((.def_128 (___z5z___ (- 1))))
-(let ((.def_159 (= .def_128 .def_158)))
-.def_159
-))))))))
-(assert (let ((.def_160 (___z5z___ (- 2))))
-(let ((.def_152 (= _base (- 1))))
-(let ((.def_161 (or .def_152 .def_160)))
-(let ((.def_155 (not .def_152)))
-(let ((.def_162 (and .def_155 .def_161)))
-(let ((.def_119 (___z6z___ (- 1))))
-(let ((.def_163 (= .def_119 .def_162)))
-.def_163
-))))))))
-(push 1)
-(assert (let ((.def_148 (___z3z___ (- 1))))
-(let ((.def_117 (___z3z___ 0)))
-(let ((.def_164 (and .def_117 .def_148)))
-(let ((.def_152 (= _base (- 1))))
-(let ((.def_155 (not .def_152)))
-(let ((.def_165 (or .def_155 .def_164)))
-(let ((.def_166 (not .def_165)))
-.def_166
-))))))))
-(assert true
-)
-(check-sat)
-(pop 1)
-(assert (let ((.def_148 (___z3z___ (- 1))))
-.def_148
-))
-(assert (let ((.def_168 (___z3z___ (- 2))))
-.def_168
-))
-(push 1)
-(assert (let ((.def_188 (___z3z___ _n)))
-(let ((.def_170 (___z4z___ _n)))
-(let ((.def_179 (not .def_170)))
-(let ((.def_169 (___z5z___ _n)))
-(let ((.def_175 (not .def_169)))
-(let ((.def_182 (or .def_175 .def_179)))
-(let ((.def_172 (___z6z___ _n)))
-(let ((.def_183 (or .def_172 .def_182)))
-(let ((.def_180 (and .def_169 .def_179)))
-(let ((.def_177 (not .def_172)))
-(let ((.def_181 (and .def_177 .def_180)))
-(let ((.def_184 (or .def_181 .def_183)))
-(let ((.def_176 (and .def_170 .def_175)))
-(let ((.def_178 (and .def_176 .def_177)))
-(let ((.def_185 (or .def_178 .def_184)))
-(let ((.def_171 (and .def_169 .def_170)))
-(let ((.def_173 (and .def_171 .def_172)))
-(let ((.def_186 (or .def_173 .def_185)))
-(let ((.def_174 (not .def_173)))
-(let ((.def_187 (and .def_174 .def_186)))
-(let ((.def_189 (= .def_187 .def_188)))
-.def_189
-))))))))))))))))))))))
-(assert (let ((.def_192 (= _n _base)))
-(let ((.def_190 (+ _n (- 1))))
-(let ((.def_191 (___z6z___ .def_190)))
-(let ((.def_193 (or .def_191 .def_192)))
-(let ((.def_170 (___z4z___ _n)))
-(let ((.def_194 (= .def_170 .def_193)))
-.def_194
-)))))))
-(assert (let ((.def_190 (+ _n (- 1))))
-(let ((.def_196 (___z4z___ .def_190)))
-(let ((.def_192 (= _n _base)))
-(let ((.def_197 (or .def_192 .def_196)))
-(let ((.def_195 (not .def_192)))
-(let ((.def_198 (and .def_195 .def_197)))
-(let ((.def_169 (___z5z___ _n)))
-(let ((.def_199 (= .def_169 .def_198)))
-.def_199
-)))))))))
-(assert (let ((.def_190 (+ _n (- 1))))
-(let ((.def_200 (___z5z___ .def_190)))
-(let ((.def_192 (= _n _base)))
-(let ((.def_201 (or .def_192 .def_200)))
-(let ((.def_195 (not .def_192)))
-(let ((.def_202 (and .def_195 .def_201)))
-(let ((.def_172 (___z6z___ _n)))
-(let ((.def_203 (= .def_172 .def_202)))
-.def_203
-)))))))))
-(assert (let ((.def_190 (+ _n (- 1))))
-(let ((.def_220 (___z3z___ .def_190)))
-(let ((.def_196 (___z4z___ .def_190)))
-(let ((.def_211 (not .def_196)))
-(let ((.def_200 (___z5z___ .def_190)))
-(let ((.def_207 (not .def_200)))
-(let ((.def_214 (or .def_207 .def_211)))
-(let ((.def_191 (___z6z___ .def_190)))
-(let ((.def_215 (or .def_191 .def_214)))
-(let ((.def_212 (and .def_200 .def_211)))
-(let ((.def_209 (not .def_191)))
-(let ((.def_213 (and .def_209 .def_212)))
-(let ((.def_216 (or .def_213 .def_215)))
-(let ((.def_208 (and .def_196 .def_207)))
-(let ((.def_210 (and .def_208 .def_209)))
-(let ((.def_217 (or .def_210 .def_216)))
-(let ((.def_204 (and .def_196 .def_200)))
-(let ((.def_205 (and .def_191 .def_204)))
-(let ((.def_218 (or .def_205 .def_217)))
-(let ((.def_206 (not .def_205)))
-(let ((.def_219 (and .def_206 .def_218)))
-(let ((.def_221 (= .def_219 .def_220)))
-.def_221
-)))))))))))))))))))))))
-(assert (let ((.def_224 (* (- 1) _base)))
-(let ((.def_225 (+ _n .def_224)))
-(let ((.def_226 (= .def_225 1)))
-(let ((.def_190 (+ _n (- 1))))
-(let ((.def_222 (+ (- 1) .def_190)))
-(let ((.def_223 (___z6z___ .def_222)))
-(let ((.def_227 (or .def_223 .def_226)))
-(let ((.def_196 (___z4z___ .def_190)))
-(let ((.def_228 (= .def_196 .def_227)))
-.def_228
-))))))))))
-(assert (let ((.def_190 (+ _n (- 1))))
-(let ((.def_222 (+ (- 1) .def_190)))
-(let ((.def_230 (___z4z___ .def_222)))
-(let ((.def_224 (* (- 1) _base)))
-(let ((.def_225 (+ _n .def_224)))
-(let ((.def_226 (= .def_225 1)))
-(let ((.def_231 (or .def_226 .def_230)))
-(let ((.def_229 (not .def_226)))
-(let ((.def_232 (and .def_229 .def_231)))
-(let ((.def_200 (___z5z___ .def_190)))
-(let ((.def_233 (= .def_200 .def_232)))
-.def_233
-))))))))))))
-(assert (let ((.def_190 (+ _n (- 1))))
-(let ((.def_222 (+ (- 1) .def_190)))
-(let ((.def_234 (___z5z___ .def_222)))
-(let ((.def_224 (* (- 1) _base)))
-(let ((.def_225 (+ _n .def_224)))
-(let ((.def_226 (= .def_225 1)))
-(let ((.def_235 (or .def_226 .def_234)))
-(let ((.def_229 (not .def_226)))
-(let ((.def_236 (and .def_229 .def_235)))
-(let ((.def_191 (___z6z___ .def_190)))
-(let ((.def_237 (= .def_191 .def_236)))
-.def_237
-))))))))))))
-(assert (let ((.def_190 (+ _n (- 1))))
-(let ((.def_220 (___z3z___ .def_190)))
-.def_220
-)))
-(assert (let ((.def_188 (___z3z___ _n)))
-(let ((.def_152 (= _base (- 1))))
-(let ((.def_155 (not .def_152)))
-(let ((.def_238 (or .def_155 .def_188)))
-(let ((.def_239 (not .def_238)))
-.def_239
-))))))
-(assert true
-)
-(check-sat)
-(pop 1)
-(assert (let ((.def_190 (+ _n (- 1))))
-(let ((.def_220 (___z3z___ .def_190)))
-.def_220
-)))
-(assert (let ((.def_240 (+ _n (- 2))))
-(let ((.def_241 (___z3z___ .def_240)))
-.def_241
-)))
-(assert (let ((.def_156 (___z4z___ (- 2))))
-(let ((.def_249 (not .def_156)))
-(let ((.def_160 (___z5z___ (- 2))))
-(let ((.def_245 (not .def_160)))
-(let ((.def_252 (or .def_245 .def_249)))
-(let ((.def_151 (___z6z___ (- 2))))
-(let ((.def_253 (or .def_151 .def_252)))
-(let ((.def_250 (and .def_160 .def_249)))
-(let ((.def_247 (not .def_151)))
-(let ((.def_251 (and .def_247 .def_250)))
-(let ((.def_254 (or .def_251 .def_253)))
-(let ((.def_246 (and .def_156 .def_245)))
-(let ((.def_248 (and .def_246 .def_247)))
-(let ((.def_255 (or .def_248 .def_254)))
-(let ((.def_242 (and .def_156 .def_160)))
-(let ((.def_243 (and .def_151 .def_242)))
-(let ((.def_256 (or .def_243 .def_255)))
-(let ((.def_244 (not .def_243)))
-(let ((.def_257 (and .def_244 .def_256)))
-(let ((.def_168 (___z3z___ (- 2))))
-(let ((.def_258 (= .def_168 .def_257)))
-.def_258
-))))))))))))))))))))))
-(assert (let ((.def_261 (= _base (- 2))))
-(let ((.def_260 (___z6z___ (- 3))))
-(let ((.def_262 (or .def_260 .def_261)))
-(let ((.def_156 (___z4z___ (- 2))))
-(let ((.def_263 (= .def_156 .def_262)))
-.def_263
-))))))
-(assert (let ((.def_265 (___z4z___ (- 3))))
-(let ((.def_261 (= _base (- 2))))
-(let ((.def_266 (or .def_261 .def_265)))
-(let ((.def_264 (not .def_261)))
-(let ((.def_267 (and .def_264 .def_266)))
-(let ((.def_160 (___z5z___ (- 2))))
-(let ((.def_268 (= .def_160 .def_267)))
-.def_268
-))))))))
-(assert (let ((.def_269 (___z5z___ (- 3))))
-(let ((.def_261 (= _base (- 2))))
-(let ((.def_270 (or .def_261 .def_269)))
-(let ((.def_264 (not .def_261)))
-(let ((.def_271 (and .def_264 .def_270)))
-(let ((.def_151 (___z6z___ (- 2))))
-(let ((.def_272 (= .def_151 .def_271)))
-.def_272
-))))))))
-(assert (let ((.def_188 (___z3z___ _n)))
-(let ((.def_170 (___z4z___ _n)))
-(let ((.def_179 (not .def_170)))
-(let ((.def_169 (___z5z___ _n)))
-(let ((.def_175 (not .def_169)))
-(let ((.def_182 (or .def_175 .def_179)))
-(let ((.def_172 (___z6z___ _n)))
-(let ((.def_183 (or .def_172 .def_182)))
-(let ((.def_180 (and .def_169 .def_179)))
-(let ((.def_177 (not .def_172)))
-(let ((.def_181 (and .def_177 .def_180)))
-(let ((.def_184 (or .def_181 .def_183)))
-(let ((.def_176 (and .def_170 .def_175)))
-(let ((.def_178 (and .def_176 .def_177)))
-(let ((.def_185 (or .def_178 .def_184)))
-(let ((.def_171 (and .def_169 .def_170)))
-(let ((.def_173 (and .def_171 .def_172)))
-(let ((.def_186 (or .def_173 .def_185)))
-(let ((.def_174 (not .def_173)))
-(let ((.def_187 (and .def_174 .def_186)))
-(let ((.def_189 (= .def_187 .def_188)))
-.def_189
-))))))))))))))))))))))
-(assert (let ((.def_192 (= _n _base)))
-(let ((.def_190 (+ _n (- 1))))
-(let ((.def_191 (___z6z___ .def_190)))
-(let ((.def_193 (or .def_191 .def_192)))
-(let ((.def_170 (___z4z___ _n)))
-(let ((.def_194 (= .def_170 .def_193)))
-.def_194
-)))))))
-(assert (let ((.def_190 (+ _n (- 1))))
-(let ((.def_196 (___z4z___ .def_190)))
-(let ((.def_192 (= _n _base)))
-(let ((.def_197 (or .def_192 .def_196)))
-(let ((.def_195 (not .def_192)))
-(let ((.def_198 (and .def_195 .def_197)))
-(let ((.def_169 (___z5z___ _n)))
-(let ((.def_199 (= .def_169 .def_198)))
-.def_199
-)))))))))
-(assert (let ((.def_190 (+ _n (- 1))))
-(let ((.def_200 (___z5z___ .def_190)))
-(let ((.def_192 (= _n _base)))
-(let ((.def_201 (or .def_192 .def_200)))
-(let ((.def_195 (not .def_192)))
-(let ((.def_202 (and .def_195 .def_201)))
-(let ((.def_172 (___z6z___ _n)))
-(let ((.def_203 (= .def_172 .def_202)))
-.def_203
-)))))))))
-(push 1)
-(assert (let ((.def_261 (= _base (- 2))))
-(let ((.def_264 (not .def_261)))
-(let ((.def_117 (___z3z___ 0)))
-(let ((.def_273 (or .def_117 .def_264)))
-(let ((.def_274 (not .def_273)))
-.def_274
-))))))
-(assert true
-)
-(check-sat)
-(pop 1)
-(assert (let ((.def_276 (___z3z___ (- 3))))
-.def_276
-))
-(push 1)
-(assert (let ((.def_190 (+ _n (- 1))))
-(let ((.def_220 (___z3z___ .def_190)))
-(let ((.def_196 (___z4z___ .def_190)))
-(let ((.def_211 (not .def_196)))
-(let ((.def_200 (___z5z___ .def_190)))
-(let ((.def_207 (not .def_200)))
-(let ((.def_214 (or .def_207 .def_211)))
-(let ((.def_191 (___z6z___ .def_190)))
-(let ((.def_215 (or .def_191 .def_214)))
-(let ((.def_212 (and .def_200 .def_211)))
-(let ((.def_209 (not .def_191)))
-(let ((.def_213 (and .def_209 .def_212)))
-(let ((.def_216 (or .def_213 .def_215)))
-(let ((.def_208 (and .def_196 .def_207)))
-(let ((.def_210 (and .def_208 .def_209)))
-(let ((.def_217 (or .def_210 .def_216)))
-(let ((.def_204 (and .def_196 .def_200)))
-(let ((.def_205 (and .def_191 .def_204)))
-(let ((.def_218 (or .def_205 .def_217)))
-(let ((.def_206 (not .def_205)))
-(let ((.def_219 (and .def_206 .def_218)))
-(let ((.def_221 (= .def_219 .def_220)))
-.def_221
-)))))))))))))))))))))))
-(assert (let ((.def_224 (* (- 1) _base)))
-(let ((.def_225 (+ _n .def_224)))
-(let ((.def_226 (= .def_225 1)))
-(let ((.def_190 (+ _n (- 1))))
-(let ((.def_222 (+ (- 1) .def_190)))
-(let ((.def_223 (___z6z___ .def_222)))
-(let ((.def_227 (or .def_223 .def_226)))
-(let ((.def_196 (___z4z___ .def_190)))
-(let ((.def_228 (= .def_196 .def_227)))
-.def_228
-))))))))))
-(assert (let ((.def_190 (+ _n (- 1))))
-(let ((.def_222 (+ (- 1) .def_190)))
-(let ((.def_230 (___z4z___ .def_222)))
-(let ((.def_224 (* (- 1) _base)))
-(let ((.def_225 (+ _n .def_224)))
-(let ((.def_226 (= .def_225 1)))
-(let ((.def_231 (or .def_226 .def_230)))
-(let ((.def_229 (not .def_226)))
-(let ((.def_232 (and .def_229 .def_231)))
-(let ((.def_200 (___z5z___ .def_190)))
-(let ((.def_233 (= .def_200 .def_232)))
-.def_233
-))))))))))))
-(assert (let ((.def_190 (+ _n (- 1))))
-(let ((.def_222 (+ (- 1) .def_190)))
-(let ((.def_234 (___z5z___ .def_222)))
-(let ((.def_224 (* (- 1) _base)))
-(let ((.def_225 (+ _n .def_224)))
-(let ((.def_226 (= .def_225 1)))
-(let ((.def_235 (or .def_226 .def_234)))
-(let ((.def_229 (not .def_226)))
-(let ((.def_236 (and .def_229 .def_235)))
-(let ((.def_191 (___z6z___ .def_190)))
-(let ((.def_237 (= .def_191 .def_236)))
-.def_237
-))))))))))))
-(assert (let ((.def_240 (+ _n (- 2))))
-(let ((.def_278 (___z4z___ .def_240)))
-(let ((.def_287 (not .def_278)))
-(let ((.def_277 (___z5z___ .def_240)))
-(let ((.def_283 (not .def_277)))
-(let ((.def_290 (or .def_283 .def_287)))
-(let ((.def_280 (___z6z___ .def_240)))
-(let ((.def_291 (or .def_280 .def_290)))
-(let ((.def_288 (and .def_277 .def_287)))
-(let ((.def_285 (not .def_280)))
-(let ((.def_289 (and .def_285 .def_288)))
-(let ((.def_292 (or .def_289 .def_291)))
-(let ((.def_284 (and .def_278 .def_283)))
-(let ((.def_286 (and .def_284 .def_285)))
-(let ((.def_293 (or .def_286 .def_292)))
-(let ((.def_279 (and .def_277 .def_278)))
-(let ((.def_281 (and .def_279 .def_280)))
-(let ((.def_294 (or .def_281 .def_293)))
-(let ((.def_282 (not .def_281)))
-(let ((.def_295 (and .def_282 .def_294)))
-(let ((.def_241 (___z3z___ .def_240)))
-(let ((.def_296 (= .def_241 .def_295)))
-.def_296
-)))))))))))))))))))))))
-(assert (let ((.def_224 (* (- 1) _base)))
-(let ((.def_225 (+ _n .def_224)))
-(let ((.def_299 (= .def_225 2)))
-(let ((.def_240 (+ _n (- 2))))
-(let ((.def_297 (+ (- 1) .def_240)))
-(let ((.def_298 (___z6z___ .def_297)))
-(let ((.def_300 (or .def_298 .def_299)))
-(let ((.def_278 (___z4z___ .def_240)))
-(let ((.def_301 (= .def_278 .def_300)))
-.def_301
-))))))))))
-(assert (let ((.def_240 (+ _n (- 2))))
-(let ((.def_297 (+ (- 1) .def_240)))
-(let ((.def_303 (___z4z___ .def_297)))
-(let ((.def_224 (* (- 1) _base)))
-(let ((.def_225 (+ _n .def_224)))
-(let ((.def_299 (= .def_225 2)))
-(let ((.def_304 (or .def_299 .def_303)))
-(let ((.def_302 (not .def_299)))
-(let ((.def_305 (and .def_302 .def_304)))
-(let ((.def_277 (___z5z___ .def_240)))
-(let ((.def_306 (= .def_277 .def_305)))
-.def_306
-))))))))))))
-(assert (let ((.def_240 (+ _n (- 2))))
-(let ((.def_297 (+ (- 1) .def_240)))
-(let ((.def_307 (___z5z___ .def_297)))
-(let ((.def_224 (* (- 1) _base)))
-(let ((.def_225 (+ _n .def_224)))
-(let ((.def_299 (= .def_225 2)))
-(let ((.def_308 (or .def_299 .def_307)))
-(let ((.def_302 (not .def_299)))
-(let ((.def_309 (and .def_302 .def_308)))
-(let ((.def_280 (___z6z___ .def_240)))
-(let ((.def_310 (= .def_280 .def_309)))
-.def_310
-))))))))))))
-(assert (let ((.def_261 (= _base (- 2))))
-(let ((.def_264 (not .def_261)))
-(let ((.def_188 (___z3z___ _n)))
-(let ((.def_311 (or .def_188 .def_264)))
-(let ((.def_312 (not .def_311)))
-.def_312
-))))))
-(assert true
-)
-(check-sat)
-(pop 1)
-(assert (let ((.def_313 (+ _n (- 3))))
-(let ((.def_314 (___z3z___ .def_313)))
-.def_314
-)))
-(assert (let ((.def_265 (___z4z___ (- 3))))
-(let ((.def_322 (not .def_265)))
-(let ((.def_269 (___z5z___ (- 3))))
-(let ((.def_318 (not .def_269)))
-(let ((.def_325 (or .def_318 .def_322)))
-(let ((.def_260 (___z6z___ (- 3))))
-(let ((.def_326 (or .def_260 .def_325)))
-(let ((.def_323 (and .def_269 .def_322)))
-(let ((.def_320 (not .def_260)))
-(let ((.def_324 (and .def_320 .def_323)))
-(let ((.def_327 (or .def_324 .def_326)))
-(let ((.def_319 (and .def_265 .def_318)))
-(let ((.def_321 (and .def_319 .def_320)))
-(let ((.def_328 (or .def_321 .def_327)))
-(let ((.def_315 (and .def_265 .def_269)))
-(let ((.def_316 (and .def_260 .def_315)))
-(let ((.def_329 (or .def_316 .def_328)))
-(let ((.def_317 (not .def_316)))
-(let ((.def_330 (and .def_317 .def_329)))
-(let ((.def_276 (___z3z___ (- 3))))
-(let ((.def_331 (= .def_276 .def_330)))
-.def_331
-))))))))))))))))))))))
-(assert (let ((.def_334 (= _base (- 3))))
-(let ((.def_333 (___z6z___ (- 4))))
-(let ((.def_335 (or .def_333 .def_334)))
-(let ((.def_265 (___z4z___ (- 3))))
-(let ((.def_336 (= .def_265 .def_335)))
-.def_336
-))))))
-(assert (let ((.def_338 (___z4z___ (- 4))))
-(let ((.def_334 (= _base (- 3))))
-(let ((.def_339 (or .def_334 .def_338)))
-(let ((.def_337 (not .def_334)))
-(let ((.def_340 (and .def_337 .def_339)))
-(let ((.def_269 (___z5z___ (- 3))))
-(let ((.def_341 (= .def_269 .def_340)))
-.def_341
-))))))))
-(assert (let ((.def_342 (___z5z___ (- 4))))
-(let ((.def_334 (= _base (- 3))))
-(let ((.def_343 (or .def_334 .def_342)))
-(let ((.def_337 (not .def_334)))
-(let ((.def_344 (and .def_337 .def_343)))
-(let ((.def_260 (___z6z___ (- 3))))
-(let ((.def_345 (= .def_260 .def_344)))
-.def_345
-))))))))
-(assert (let ((.def_190 (+ _n (- 1))))
-(let ((.def_220 (___z3z___ .def_190)))
-(let ((.def_196 (___z4z___ .def_190)))
-(let ((.def_211 (not .def_196)))
-(let ((.def_200 (___z5z___ .def_190)))
-(let ((.def_207 (not .def_200)))
-(let ((.def_214 (or .def_207 .def_211)))
-(let ((.def_191 (___z6z___ .def_190)))
-(let ((.def_215 (or .def_191 .def_214)))
-(let ((.def_212 (and .def_200 .def_211)))
-(let ((.def_209 (not .def_191)))
-(let ((.def_213 (and .def_209 .def_212)))
-(let ((.def_216 (or .def_213 .def_215)))
-(let ((.def_208 (and .def_196 .def_207)))
-(let ((.def_210 (and .def_208 .def_209)))
-(let ((.def_217 (or .def_210 .def_216)))
-(let ((.def_204 (and .def_196 .def_200)))
-(let ((.def_205 (and .def_191 .def_204)))
-(let ((.def_218 (or .def_205 .def_217)))
-(let ((.def_206 (not .def_205)))
-(let ((.def_219 (and .def_206 .def_218)))
-(let ((.def_221 (= .def_219 .def_220)))
-.def_221
-)))))))))))))))))))))))
-(assert (let ((.def_224 (* (- 1) _base)))
-(let ((.def_225 (+ _n .def_224)))
-(let ((.def_226 (= .def_225 1)))
-(let ((.def_190 (+ _n (- 1))))
-(let ((.def_222 (+ (- 1) .def_190)))
-(let ((.def_223 (___z6z___ .def_222)))
-(let ((.def_227 (or .def_223 .def_226)))
-(let ((.def_196 (___z4z___ .def_190)))
-(let ((.def_228 (= .def_196 .def_227)))
-.def_228
-))))))))))
-(assert (let ((.def_190 (+ _n (- 1))))
-(let ((.def_222 (+ (- 1) .def_190)))
-(let ((.def_230 (___z4z___ .def_222)))
-(let ((.def_224 (* (- 1) _base)))
-(let ((.def_225 (+ _n .def_224)))
-(let ((.def_226 (= .def_225 1)))
-(let ((.def_231 (or .def_226 .def_230)))
-(let ((.def_229 (not .def_226)))
-(let ((.def_232 (and .def_229 .def_231)))
-(let ((.def_200 (___z5z___ .def_190)))
-(let ((.def_233 (= .def_200 .def_232)))
-.def_233
-))))))))))))
-(assert (let ((.def_190 (+ _n (- 1))))
-(let ((.def_222 (+ (- 1) .def_190)))
-(let ((.def_234 (___z5z___ .def_222)))
-(let ((.def_224 (* (- 1) _base)))
-(let ((.def_225 (+ _n .def_224)))
-(let ((.def_226 (= .def_225 1)))
-(let ((.def_235 (or .def_226 .def_234)))
-(let ((.def_229 (not .def_226)))
-(let ((.def_236 (and .def_229 .def_235)))
-(let ((.def_191 (___z6z___ .def_190)))
-(let ((.def_237 (= .def_191 .def_236)))
-.def_237
-))))))))))))
-(push 1)
-(assert (let ((.def_334 (= _base (- 3))))
-(let ((.def_337 (not .def_334)))
-(let ((.def_117 (___z3z___ 0)))
-(let ((.def_346 (or .def_117 .def_337)))
-(let ((.def_347 (not .def_346)))
-.def_347
-))))))
-(assert true
-)
-(check-sat)
-(pop 1)
-(assert (let ((.def_349 (___z3z___ (- 4))))
-.def_349
-))
-(push 1)
-(assert (let ((.def_240 (+ _n (- 2))))
-(let ((.def_278 (___z4z___ .def_240)))
-(let ((.def_287 (not .def_278)))
-(let ((.def_277 (___z5z___ .def_240)))
-(let ((.def_283 (not .def_277)))
-(let ((.def_290 (or .def_283 .def_287)))
-(let ((.def_280 (___z6z___ .def_240)))
-(let ((.def_291 (or .def_280 .def_290)))
-(let ((.def_288 (and .def_277 .def_287)))
-(let ((.def_285 (not .def_280)))
-(let ((.def_289 (and .def_285 .def_288)))
-(let ((.def_292 (or .def_289 .def_291)))
-(let ((.def_284 (and .def_278 .def_283)))
-(let ((.def_286 (and .def_284 .def_285)))
-(let ((.def_293 (or .def_286 .def_292)))
-(let ((.def_279 (and .def_277 .def_278)))
-(let ((.def_281 (and .def_279 .def_280)))
-(let ((.def_294 (or .def_281 .def_293)))
-(let ((.def_282 (not .def_281)))
-(let ((.def_295 (and .def_282 .def_294)))
-(let ((.def_241 (___z3z___ .def_240)))
-(let ((.def_296 (= .def_241 .def_295)))
-.def_296
-)))))))))))))))))))))))
-(assert (let ((.def_224 (* (- 1) _base)))
-(let ((.def_225 (+ _n .def_224)))
-(let ((.def_299 (= .def_225 2)))
-(let ((.def_240 (+ _n (- 2))))
-(let ((.def_297 (+ (- 1) .def_240)))
-(let ((.def_298 (___z6z___ .def_297)))
-(let ((.def_300 (or .def_298 .def_299)))
-(let ((.def_278 (___z4z___ .def_240)))
-(let ((.def_301 (= .def_278 .def_300)))
-.def_301
-))))))))))
-(assert (let ((.def_240 (+ _n (- 2))))
-(let ((.def_297 (+ (- 1) .def_240)))
-(let ((.def_303 (___z4z___ .def_297)))
-(let ((.def_224 (* (- 1) _base)))
-(let ((.def_225 (+ _n .def_224)))
-(let ((.def_299 (= .def_225 2)))
-(let ((.def_304 (or .def_299 .def_303)))
-(let ((.def_302 (not .def_299)))
-(let ((.def_305 (and .def_302 .def_304)))
-(let ((.def_277 (___z5z___ .def_240)))
-(let ((.def_306 (= .def_277 .def_305)))
-.def_306
-))))))))))))
-(assert (let ((.def_240 (+ _n (- 2))))
-(let ((.def_297 (+ (- 1) .def_240)))
-(let ((.def_307 (___z5z___ .def_297)))
-(let ((.def_224 (* (- 1) _base)))
-(let ((.def_225 (+ _n .def_224)))
-(let ((.def_299 (= .def_225 2)))
-(let ((.def_308 (or .def_299 .def_307)))
-(let ((.def_302 (not .def_299)))
-(let ((.def_309 (and .def_302 .def_308)))
-(let ((.def_280 (___z6z___ .def_240)))
-(let ((.def_310 (= .def_280 .def_309)))
-.def_310
-))))))))))))
-(assert (let ((.def_313 (+ _n (- 3))))
-(let ((.def_351 (___z4z___ .def_313)))
-(let ((.def_360 (not .def_351)))
-(let ((.def_350 (___z5z___ .def_313)))
-(let ((.def_356 (not .def_350)))
-(let ((.def_363 (or .def_356 .def_360)))
-(let ((.def_353 (___z6z___ .def_313)))
-(let ((.def_364 (or .def_353 .def_363)))
-(let ((.def_361 (and .def_350 .def_360)))
-(let ((.def_358 (not .def_353)))
-(let ((.def_362 (and .def_358 .def_361)))
-(let ((.def_365 (or .def_362 .def_364)))
-(let ((.def_357 (and .def_351 .def_356)))
-(let ((.def_359 (and .def_357 .def_358)))
-(let ((.def_366 (or .def_359 .def_365)))
-(let ((.def_352 (and .def_350 .def_351)))
-(let ((.def_354 (and .def_352 .def_353)))
-(let ((.def_367 (or .def_354 .def_366)))
-(let ((.def_355 (not .def_354)))
-(let ((.def_368 (and .def_355 .def_367)))
-(let ((.def_314 (___z3z___ .def_313)))
-(let ((.def_369 (= .def_314 .def_368)))
-.def_369
-)))))))))))))))))))))))
-(assert (let ((.def_224 (* (- 1) _base)))
-(let ((.def_225 (+ _n .def_224)))
-(let ((.def_372 (= .def_225 3)))
-(let ((.def_313 (+ _n (- 3))))
-(let ((.def_370 (+ (- 1) .def_313)))
-(let ((.def_371 (___z6z___ .def_370)))
-(let ((.def_373 (or .def_371 .def_372)))
-(let ((.def_351 (___z4z___ .def_313)))
-(let ((.def_374 (= .def_351 .def_373)))
-.def_374
-))))))))))
-(assert (let ((.def_313 (+ _n (- 3))))
-(let ((.def_370 (+ (- 1) .def_313)))
-(let ((.def_376 (___z4z___ .def_370)))
-(let ((.def_224 (* (- 1) _base)))
-(let ((.def_225 (+ _n .def_224)))
-(let ((.def_372 (= .def_225 3)))
-(let ((.def_377 (or .def_372 .def_376)))
-(let ((.def_375 (not .def_372)))
-(let ((.def_378 (and .def_375 .def_377)))
-(let ((.def_350 (___z5z___ .def_313)))
-(let ((.def_379 (= .def_350 .def_378)))
-.def_379
-))))))))))))
-(assert (let ((.def_313 (+ _n (- 3))))
-(let ((.def_370 (+ (- 1) .def_313)))
-(let ((.def_380 (___z5z___ .def_370)))
-(let ((.def_224 (* (- 1) _base)))
-(let ((.def_225 (+ _n .def_224)))
-(let ((.def_372 (= .def_225 3)))
-(let ((.def_381 (or .def_372 .def_380)))
-(let ((.def_375 (not .def_372)))
-(let ((.def_382 (and .def_375 .def_381)))
-(let ((.def_353 (___z6z___ .def_313)))
-(let ((.def_383 (= .def_353 .def_382)))
-.def_383
-))))))))))))
-(assert (let ((.def_334 (= _base (- 3))))
-(let ((.def_337 (not .def_334)))
-(let ((.def_188 (___z3z___ _n)))
-(let ((.def_384 (or .def_188 .def_337)))
-(let ((.def_385 (not .def_384)))
-.def_385
-))))))
-(assert true
-)
-(check-sat)
diff --git a/test/regress/regress0/uflia/stalmark_e7_27_e7_31.ec.smt2.expect b/test/regress/regress0/uflia/stalmark_e7_27_e7_31.ec.smt2.expect
deleted file mode 100644
index 70b8fa26d..000000000
--- a/test/regress/regress0/uflia/stalmark_e7_27_e7_31.ec.smt2.expect
+++ /dev/null
@@ -1,7 +0,0 @@
-% COMMAND-LINE: --incremental
-% EXPECT: unsat
-% EXPECT: sat
-% EXPECT: unsat
-% EXPECT: sat
-% EXPECT: unsat
-% EXPECT: unsat
diff --git a/test/regress/regress0/uflra/Makefile.am b/test/regress/regress0/uflra/Makefile.am
index 78bb67bcb..d8c14b37e 100644
--- a/test/regress/regress0/uflra/Makefile.am
+++ b/test/regress/regress0/uflra/Makefile.am
@@ -41,17 +41,13 @@ SMT_TESTS = \
 	neq-deltacomp.smt \
 	fuzz01.smt
 
-# Regression tests for SMT2 inputs
-SMT2_TESTS = \
-	bug800.smt2
-
 # Regression tests for PL inputs
 CVC_TESTS = 
 
 # Regression tests derived from bug reports
 BUG_TESTS = 
 
-TESTS =	$(SMT_TESTS) $(SMT2_TESTS) $(CVC_TESTS) $(BUG_TESTS)
+TESTS =	$(SMT_TESTS) $(CVC_TESTS) $(BUG_TESTS)
 
 # Necessary to get automake's attention when splitting TESTS into
 # SMT_TESTS, SMT2_TESTS, etc..
diff --git a/test/regress/regress0/uflra/bug800.smt2 b/test/regress/regress0/uflra/bug800.smt2
deleted file mode 100644
index d36f62b16..000000000
--- a/test/regress/regress0/uflra/bug800.smt2
+++ /dev/null
@@ -1,168 +0,0 @@
-; COMMAND-LINE: --incremental
-; EXPECT: sat
-; EXPECT: sat
-(set-logic QF_UFLRA)
-(set-info :source |CPAchecker with bounded model checking on SV-COMP14 program using MathSAT5, submitted by Philipp Wendler, http://cpachecker.sosy-lab.org|)
-(set-info :smt-lib-version 2.0)
-(set-info :category "industrial")
-
-
-(declare-fun |__ADDRESS_OF_main::c1| () Real)
-(declare-fun |__ADDRESS_OF_main::x1| () Real)
-(declare-fun |__ADDRESS_OF_main::x2| () Real)
-(declare-fun |__ADDRESS_OF_main::c2| () Real)
-(declare-fun |main::x3@3| () Real)
-(declare-fun |main::x1@3| () Real)
-(declare-fun |__ADDRESS_OF_main::d3| () Real)
-(declare-fun __BASE_ADDRESS_OF__ (Real) Real)
-(declare-fun |main::x2@3| () Real)
-(declare-fun |main::d3@2| () Real)
-(declare-fun |__VERIFIER_assert::cond@2| () Real)
-(declare-fun |__ADDRESS_OF_main::x3| () Real)
-(declare-fun |main::d1@2| () Real)
-(declare-fun |__ADDRESS_OF_main::d2| () Real)
-(declare-fun |__ADDRESS_OF_main::__CPAchecker_TMP_0| () Real)
-(declare-fun |main::__CPAchecker_TMP_0@3| () Real)
-(declare-fun |__ADDRESS_OF_main::d1| () Real)
-(declare-fun |main::d2@2| () Real)
-(define-fun _7 () Real 0)
-(define-fun _8 () Real |__ADDRESS_OF_main::x1|)
-(define-fun _9 () Real (__BASE_ADDRESS_OF__ _8))
-(define-fun _10 () Bool (= _8 _9))
-(define-fun _11 () Real |__ADDRESS_OF_main::x2|)
-(define-fun _12 () Real (__BASE_ADDRESS_OF__ _11))
-(define-fun _13 () Bool (= _11 _12))
-(define-fun _14 () Bool (and _10 _13))
-(define-fun _15 () Real |__ADDRESS_OF_main::x3|)
-(define-fun _16 () Real (__BASE_ADDRESS_OF__ _15))
-(define-fun _17 () Bool (= _15 _16))
-(define-fun _18 () Bool (and _14 _17))
-(define-fun _19 () Real |__ADDRESS_OF_main::d1|)
-(define-fun _20 () Real (__BASE_ADDRESS_OF__ _19))
-(define-fun _21 () Bool (= _19 _20))
-(define-fun _22 () Real 1)
-(define-fun _23 () Real |main::d1@2|)
-(define-fun _24 () Bool (= _23 _22))
-(define-fun _25 () Bool (and _21 _24))
-(define-fun _26 () Bool (and _18 _25))
-(define-fun _27 () Real |__ADDRESS_OF_main::d2|)
-(define-fun _28 () Real (__BASE_ADDRESS_OF__ _27))
-(define-fun _29 () Bool (= _27 _28))
-(define-fun _30 () Real |main::d2@2|)
-(define-fun _31 () Bool (= _30 _22))
-(define-fun _32 () Bool (and _29 _31))
-(define-fun _33 () Bool (and _26 _32))
-(define-fun _34 () Real |__ADDRESS_OF_main::d3|)
-(define-fun _35 () Real (__BASE_ADDRESS_OF__ _34))
-(define-fun _36 () Bool (= _34 _35))
-(define-fun _37 () Real |main::d3@2|)
-(define-fun _38 () Bool (= _37 _22))
-(define-fun _39 () Bool (and _36 _38))
-(define-fun _40 () Bool (and _33 _39))
-(define-fun _41 () Real |__ADDRESS_OF_main::c1|)
-(define-fun _42 () Real (__BASE_ADDRESS_OF__ _41))
-(define-fun _43 () Bool (= _41 _42))
-(define-fun _44 () Bool (and _40 _43))
-(define-fun _45 () Real |__ADDRESS_OF_main::c2|)
-(define-fun _46 () Real (__BASE_ADDRESS_OF__ _45))
-(define-fun _47 () Bool (= _45 _46))
-(define-fun _48 () Bool (and _44 _47))
-(define-fun _49 () Real |main::x1@3|)
-(define-fun _50 () Bool (<= _49 _7))
-(define-fun _51 () Bool (not _50))
-(define-fun _53 () Bool (and _48 _51))
-(define-fun _54 () Bool (and _48 _50))
-(define-fun _55 () Real |main::x2@3|)
-(define-fun _56 () Bool (<= _55 _7))
-(define-fun _57 () Bool (not _56))
-(define-fun _59 () Bool (and _53 _57))
-(define-fun _60 () Bool (and _53 _56))
-(define-fun _61 () Bool (or _54 _60))
-(define-fun _62 () Real |main::x3@3|)
-(define-fun _63 () Bool (<= _62 _7))
-(define-fun _67 () Bool (and _59 _63))
-(define-fun _68 () Bool (or _61 _67))
-(define-fun _69 () Real |__ADDRESS_OF_main::__CPAchecker_TMP_0|)
-(define-fun _70 () Real (__BASE_ADDRESS_OF__ _69))
-(define-fun _71 () Bool (= _69 _70))
-(define-fun _72 () Bool (and _68 _71))
-(define-fun _73 () Bool (= _49 _7))
-(define-fun _75 () Bool (and _72 _73))
-(define-fun _76 () Bool (not _73))
-(define-fun _77 () Bool (and _72 _76))
-(define-fun _78 () Bool (= _55 _7))
-(define-fun _80 () Bool (and _77 _78))
-(define-fun _81 () Bool (not _78))
-(define-fun _82 () Bool (and _77 _81))
-(define-fun _83 () Bool (or _75 _80))
-(define-fun _84 () Bool (= _62 _7))
-(define-fun _86 () Bool (and _82 _84))
-(define-fun _87 () Bool (not _84))
-(define-fun _88 () Bool (and _82 _87))
-(define-fun _89 () Bool (or _83 _86))
-(define-fun _90 () Real |main::__CPAchecker_TMP_0@3|)
-(define-fun _91 () Bool (= _90 _7))
-(define-fun _92 () Bool (and _88 _91))
-(define-fun _93 () Bool (= _90 _22))
-(define-fun _94 () Bool (and _89 _93))
-(define-fun _95 () Bool (or _92 _94))
-(define-fun _96 () Real |__VERIFIER_assert::cond@2|)
-(define-fun _97 () Bool (= _90 _96))
-(define-fun _98 () Bool (and _95 _97))
-(define-fun _99 () Bool (= _96 _7))
-(define-fun _101 () Bool (and _98 _99))
-(declare-fun __ART__34@0 () Bool)
-(declare-fun |main::c2@3| () Real)
-(declare-fun __ART__24@0 () Bool)
-(declare-fun __ART__45@0 () Bool)
-(declare-fun |main::c1@3| () Real)
-(declare-fun __ART__23@0 () Bool)
-(declare-fun __ART__32@0 () Bool)
-(declare-fun __ART__36@0 () Bool)
-(declare-fun __ART__26@0 () Bool)
-(declare-fun __ART__53@0 () Bool)
-(declare-fun __ART__29@0 () Bool)
-(define-fun _64 () Bool (not _63))
-(define-fun _108 () Real |main::c1@3|)
-(define-fun _109 () Bool (= _108 _7))
-(define-fun _123 () Real |main::c2@3|)
-(define-fun _124 () Bool (= _123 _7))
-(define-fun _160 () Bool __ART__23@0)
-(define-fun _161 () Bool (= _51 _160))
-(define-fun _162 () Bool __ART__24@0)
-(define-fun _163 () Bool (= _57 _162))
-(define-fun _164 () Bool (and _161 _163))
-(define-fun _165 () Bool __ART__26@0)
-(define-fun _166 () Bool (= _64 _165))
-(define-fun _167 () Bool (and _164 _166))
-(define-fun _168 () Bool __ART__29@0)
-(define-fun _169 () Bool (= _109 _168))
-(define-fun _170 () Bool (and _167 _169))
-(define-fun _171 () Bool __ART__32@0)
-(define-fun _172 () Bool (= _73 _171))
-(define-fun _173 () Bool (and _170 _172))
-(define-fun _174 () Bool __ART__34@0)
-(define-fun _175 () Bool (= _78 _174))
-(define-fun _176 () Bool (and _173 _175))
-(define-fun _177 () Bool __ART__36@0)
-(define-fun _178 () Bool (= _84 _177))
-(define-fun _179 () Bool (and _176 _178))
-(define-fun _180 () Bool __ART__45@0)
-(define-fun _181 () Bool (= _99 _180))
-(define-fun _182 () Bool (and _179 _181))
-(define-fun _183 () Bool __ART__53@0)
-(define-fun _184 () Bool (= _124 _183))
-(define-fun _185 () Bool (and _182 _184))
-
-
-(push 1)
-(assert _101)
-(set-info :status sat)
-(check-sat)
-(push 1)
-(assert _185)
-(set-info :status sat)
-(check-sat)
-(pop 1)
-(pop 1)
-(exit)
diff --git a/test/regress/regress0/unconstrained/Makefile.am b/test/regress/regress0/unconstrained/Makefile.am
index b21227253..0d0c7cdb2 100644
--- a/test/regress/regress0/unconstrained/Makefile.am
+++ b/test/regress/regress0/unconstrained/Makefile.am
@@ -37,7 +37,6 @@ TESTS =	\
 	bvbool.smt2 \
 	bvcmp.smt2 \
 	bvconcat2.smt2 \
-	bvdiv2.smt2 \
 	bvext.smt2 \
 	bvite.smt2 \
 	bvmul2.smt2 \
@@ -70,7 +69,6 @@ TESTS =	\
 	leq.smt2 \
 	lt.smt2 \
 	uf1.smt2 \
-	uf2.smt2 \
 	xor.smt2 \
 	mult1.smt2
 
diff --git a/test/regress/regress0/unconstrained/bvdiv2.smt2 b/test/regress/regress0/unconstrained/bvdiv2.smt2
deleted file mode 100644
index 7a8fc3753..000000000
--- a/test/regress/regress0/unconstrained/bvdiv2.smt2
+++ /dev/null
@@ -1,26 +0,0 @@
-(set-logic QF_AUFBVLIA)
-(set-info :smt-lib-version 2.0)
-(set-info :category "crafted")
-(set-info :status unsat)
-(declare-fun x0 () (_ BitVec 10))
-(declare-fun x1 () (_ BitVec 10))
-(declare-fun x2 () (_ BitVec 10))
-(declare-fun x3 () (_ BitVec 10))
-(declare-fun x4 () (_ BitVec 10))
-(declare-fun x5 () (_ BitVec 10))
-(declare-fun x6 () (_ BitVec 10))
-(declare-fun x7 () (_ BitVec 10))
-(declare-fun x8 () (_ BitVec 10))
-(declare-fun x9 () (_ BitVec 10))
-(declare-fun v2 () Int)
-(declare-fun a2 (Int) (_ BitVec 1024))
-(declare-fun v3 () (_ BitVec 1024))
-(declare-fun v4 () (_ BitVec 1024))
-(declare-fun v5 () (_ BitVec 1024))
-(assert
- (and
- (not (= x0 (_ bv0 10)))
- (not (= (bvudiv x0 x0) (_ bv1 10)))
-))
-(check-sat)
-(exit)
diff --git a/test/regress/regress0/unconstrained/uf2.smt2 b/test/regress/regress0/unconstrained/uf2.smt2
deleted file mode 100644
index 0aa1617eb..000000000
--- a/test/regress/regress0/unconstrained/uf2.smt2
+++ /dev/null
@@ -1,14 +0,0 @@
-(set-logic QF_AUFBVLIA)
-(set-info :smt-lib-version 2.0)
-(set-info :category "crafted")
-(set-info :status unsat)
-(declare-fun v1 () (_ BitVec 1))
-(declare-fun a2 ((_ BitVec 1)) (_ BitVec 1024))
-(declare-fun v3 () (_ BitVec 1024))
-(declare-fun v4 () (_ BitVec 1024))
-(declare-fun v5 () (_ BitVec 1024))
-(assert (= (a2 (_ bv0 1)) v3))
-(assert (= (a2 (_ bv1 1)) v3))
-(assert (not (= (a2 v1) v3)))
-(check-sat)
-(exit)