google test: theory: Migrate theory_quantifiers_bv_inverter_white. (#5991)

3 files changed, 1615 insertions, 1508 deletions

diff --git a/test/unit/theory/CMakeLists.txt b/test/unit/theory/CMakeLists.txt
index aa6217f34..f3c340a74 100644
--- a/test/unit/theory/CMakeLists.txt
+++ b/test/unit/theory/CMakeLists.txt
@@ -22,7 +22,7 @@ cvc4_add_unit_test_white(theory_bv_rewriter_white theory)
 cvc4_add_unit_test_white(theory_bv_white theory)
 cvc4_add_unit_test_white(theory_engine_white theory)
 cvc4_add_unit_test_white(theory_quantifiers_bv_instantiator_white theory)
-cvc4_add_cxx_unit_test_white(theory_quantifiers_bv_inverter_white theory)
+cvc4_add_unit_test_white(theory_quantifiers_bv_inverter_white theory)
 cvc4_add_unit_test_white(theory_sets_type_enumerator_white theory)
 cvc4_add_unit_test_white(theory_sets_type_rules_white theory)
 cvc4_add_unit_test_white(theory_strings_skolem_cache_black theory)
diff --git a/test/unit/theory/theory_quantifiers_bv_inverter_white.cpp b/test/unit/theory/theory_quantifiers_bv_inverter_white.cpp
new file mode 100644
index 000000000..5c222d2c1
--- /dev/null
+++ b/test/unit/theory/theory_quantifiers_bv_inverter_white.cpp
@@ -0,0 +1,1614 @@
+/*********************                                                        */
+/*! \file theory_quantifiers_bv_inverter_white.cpp
+ ** \verbatim
+ ** Top contributors (to current version):
+ **   Aina Niemetz, Mathias Preiner
+ ** This file is part of the CVC4 project.
+ ** Copyright (c) 2009-2020 by the authors listed in the file AUTHORS
+ ** in the top-level source directory and their institutional affiliations.
+ ** All rights reserved.  See the file COPYING in the top-level source
+ ** directory for licensing information.\endverbatim
+ **
+ ** \brief Unit tests for BV inverter.
+ **
+ ** Unit tests for BV inverter.
+ **/
+
+#include "expr/node.h"
+#include "test_smt.h"
+#include "theory/bv/theory_bv_utils.h"
+#include "theory/quantifiers/bv_inverter_utils.h"
+#include "util/result.h"
+
+namespace CVC4 {
+
+using namespace kind;
+using namespace theory;
+using namespace theory::quantifiers;
+using namespace theory::quantifiers::utils;
+
+namespace test {
+
+class TestTheoryWhiteQuantifiersBvInverter : public TestSmtNoFinishInit
+{
+ protected:
+  void SetUp() override
+  {
+    TestSmtNoFinishInit::SetUp();
+    d_smtEngine->setOption("cegqi-full", CVC4::SExpr(true));
+    d_smtEngine->setOption("produce-models", CVC4::SExpr(true));
+    d_smtEngine->finishInit();
+
+    d_s = d_nodeManager->mkVar("s", d_nodeManager->mkBitVectorType(4));
+    d_t = d_nodeManager->mkVar("t", d_nodeManager->mkBitVectorType(4));
+    d_sk = d_nodeManager->mkSkolem("sk", d_t.getType());
+    d_x = d_nodeManager->mkBoundVar(d_t.getType());
+    d_bvarlist = d_nodeManager->mkNode(BOUND_VAR_LIST, {d_x});
+  }
+
+  void runTestPred(bool pol,
+                   Kind k,
+                   Node x,
+                   Node (*getic)(bool, Kind, Node, Node))
+  {
+    ASSERT_TRUE(k == BITVECTOR_ULT || k == BITVECTOR_SLT || k == EQUAL
+                || k == BITVECTOR_UGT || k == BITVECTOR_SGT);
+    ASSERT_TRUE(k != EQUAL || pol == false);
+
+    Node sc = getic(pol, k, d_sk, d_t);
+    Kind ksc = sc.getKind();
+    ASSERT_TRUE((k == BITVECTOR_ULT && pol == false)
+                || (k == BITVECTOR_SLT && pol == false)
+                || (k == BITVECTOR_UGT && pol == false)
+                || (k == BITVECTOR_SGT && pol == false) || ksc == IMPLIES);
+    Node scl = ksc == IMPLIES ? sc[0] : bv::utils::mkTrue();
+    if (!pol)
+    {
+      if (k == BITVECTOR_ULT)
+      {
+        k = BITVECTOR_UGE;
+      }
+      else if (k == BITVECTOR_UGT)
+      {
+        k = BITVECTOR_ULE;
+      }
+      else if (k == BITVECTOR_SLT)
+      {
+        k = BITVECTOR_SGE;
+      }
+      else if (k == BITVECTOR_SGT)
+      {
+        k = BITVECTOR_ULE;
+      }
+      else
+      {
+        ASSERT_TRUE(k == EQUAL);
+        k = DISTINCT;
+      }
+    }
+    Node body = d_nodeManager->mkNode(k, x, d_t);
+    Node scr = d_nodeManager->mkNode(EXISTS, d_bvarlist, body);
+    Expr a = d_nodeManager->mkNode(DISTINCT, scl, scr).toExpr();
+    Result res = d_smtEngine->checkSat(a);
+    ASSERT_EQ(res.d_sat, Result::UNSAT);
+  }
+
+  void runTest(bool pol,
+               Kind litk,
+               Kind k,
+               unsigned idx,
+               Node (*getsc)(bool, Kind, Kind, unsigned, Node, Node, Node))
+  {
+    ASSERT_TRUE(k == BITVECTOR_MULT || k == BITVECTOR_UREM_TOTAL
+                || k == BITVECTOR_UDIV_TOTAL || k == BITVECTOR_AND
+                || k == BITVECTOR_OR || k == BITVECTOR_LSHR
+                || k == BITVECTOR_ASHR || k == BITVECTOR_SHL);
+
+    Node sc = getsc(pol, litk, k, idx, d_sk, d_s, d_t);
+    ASSERT_FALSE(sc.isNull());
+    Kind ksc = sc.getKind();
+    ASSERT_TRUE((k == BITVECTOR_UDIV_TOTAL && idx == 1 && pol == false)
+                || (k == BITVECTOR_ASHR && idx == 0 && pol == false)
+                || ksc == IMPLIES);
+    Node scl = ksc == IMPLIES ? sc[0] : bv::utils::mkTrue();
+    Node body = idx == 0 ? d_nodeManager->mkNode(
+                    litk, d_nodeManager->mkNode(k, d_x, d_s), d_t)
+                         : d_nodeManager->mkNode(
+                             litk, d_nodeManager->mkNode(k, d_s, d_x), d_t);
+    Node scr =
+        d_nodeManager->mkNode(EXISTS, d_bvarlist, pol ? body : body.notNode());
+    Expr a = d_nodeManager->mkNode(DISTINCT, scl, scr).toExpr();
+    Result res = d_smtEngine->checkSat(a);
+    if (res.d_sat == Result::SAT)
+    {
+      std::cout << std::endl;
+      std::cout << "s " << d_smtEngine->getValue(d_s.toExpr()) << std::endl;
+      std::cout << "t " << d_smtEngine->getValue(d_t.toExpr()) << std::endl;
+      std::cout << "x " << d_smtEngine->getValue(d_x.toExpr()) << std::endl;
+    }
+    ASSERT_EQ(res.d_sat, Result::UNSAT);
+  }
+
+  void runTestConcat(bool pol, Kind litk, unsigned idx)
+  {
+    Node s1, s2, sv_t;
+    Node x, t, sk;
+    Node sc;
+
+    if (idx == 0)
+    {
+      s2 = d_nodeManager->mkVar("s2", d_nodeManager->mkBitVectorType(4));
+      x = d_nodeManager->mkBoundVar(s2.getType());
+      sk = d_nodeManager->mkSkolem("sk", s2.getType());
+      t = d_nodeManager->mkVar("t", d_nodeManager->mkBitVectorType(8));
+      sv_t = d_nodeManager->mkNode(BITVECTOR_CONCAT, x, s2);
+      sc = getICBvConcat(pol, litk, 0, sk, sv_t, t);
+    }
+    else if (idx == 1)
+    {
+      s1 = d_nodeManager->mkVar("s1", d_nodeManager->mkBitVectorType(4));
+      x = d_nodeManager->mkBoundVar(s1.getType());
+      sk = d_nodeManager->mkSkolem("sk", s1.getType());
+      t = d_nodeManager->mkVar("t", d_nodeManager->mkBitVectorType(8));
+      sv_t = d_nodeManager->mkNode(BITVECTOR_CONCAT, s1, x);
+      sc = getICBvConcat(pol, litk, 1, sk, sv_t, t);
+    }
+    else
+    {
+      ASSERT_TRUE(idx == 2);
+      s1 = d_nodeManager->mkVar("s1", d_nodeManager->mkBitVectorType(4));
+      s2 = d_nodeManager->mkVar("s2", d_nodeManager->mkBitVectorType(4));
+      x = d_nodeManager->mkBoundVar(s2.getType());
+      sk = d_nodeManager->mkSkolem("sk", s1.getType());
+      t = d_nodeManager->mkVar("t", d_nodeManager->mkBitVectorType(12));
+      sv_t = d_nodeManager->mkNode(BITVECTOR_CONCAT, s1, x, s2);
+      sc = getICBvConcat(pol, litk, 1, sk, sv_t, t);
+    }
+
+    ASSERT_FALSE(sc.isNull());
+    Kind ksc = sc.getKind();
+    ASSERT_TRUE((litk == kind::EQUAL && pol == false) || ksc == IMPLIES);
+    Node scl = ksc == IMPLIES ? sc[0] : bv::utils::mkTrue();
+    Node body = d_nodeManager->mkNode(litk, sv_t, t);
+    Node bvarlist = d_nodeManager->mkNode(BOUND_VAR_LIST, {x});
+    Node scr =
+        d_nodeManager->mkNode(EXISTS, bvarlist, pol ? body : body.notNode());
+    Expr a = d_nodeManager->mkNode(DISTINCT, scl, scr).toExpr();
+    Result res = d_smtEngine->checkSat(a);
+    if (res.d_sat == Result::SAT)
+    {
+      std::cout << std::endl;
+      if (!s1.isNull())
+        std::cout << "s1 " << d_smtEngine->getValue(s1.toExpr()) << std::endl;
+      if (!s2.isNull())
+        std::cout << "s2 " << d_smtEngine->getValue(s2.toExpr()) << std::endl;
+      std::cout << "t " << d_smtEngine->getValue(t.toExpr()) << std::endl;
+      std::cout << "x " << d_smtEngine->getValue(x.toExpr()) << std::endl;
+    }
+    ASSERT_TRUE(res.d_sat == Result::UNSAT);
+  }
+
+  void runTestSext(bool pol, Kind litk)
+  {
+    unsigned ws = 3;
+    unsigned wx = 5;
+    unsigned w = 8;
+
+    Node x = d_nodeManager->mkVar("x", d_nodeManager->mkBitVectorType(wx));
+    Node sk = d_nodeManager->mkSkolem("sk", x.getType());
+    x = d_nodeManager->mkBoundVar(x.getType());
+
+    Node t = d_nodeManager->mkVar("t", d_nodeManager->mkBitVectorType(w));
+    Node sv_t = bv::utils::mkSignExtend(x, ws);
+    Node sc = getICBvSext(pol, litk, 0, sk, sv_t, t);
+
+    ASSERT_FALSE(sc.isNull());
+    Kind ksc = sc.getKind();
+    ASSERT_TRUE((litk == kind::EQUAL && pol == false)
+                || (litk == kind::BITVECTOR_ULT && pol == false)
+                || (litk == kind::BITVECTOR_UGT && pol == false)
+                || ksc == IMPLIES);
+    Node scl = ksc == IMPLIES ? sc[0] : bv::utils::mkTrue();
+    Node body = d_nodeManager->mkNode(litk, sv_t, t);
+    Node bvarlist = d_nodeManager->mkNode(BOUND_VAR_LIST, {x});
+    Node scr =
+        d_nodeManager->mkNode(EXISTS, bvarlist, pol ? body : body.notNode());
+    Expr a = d_nodeManager->mkNode(DISTINCT, scl, scr).toExpr();
+    Result res = d_smtEngine->checkSat(a);
+    if (res.d_sat == Result::SAT)
+    {
+      std::cout << std::endl;
+      std::cout << "t " << d_smtEngine->getValue(t.toExpr()) << std::endl;
+      std::cout << "x " << d_smtEngine->getValue(x.toExpr()) << std::endl;
+    }
+    ASSERT_TRUE(res.d_sat == Result::UNSAT);
+  }
+
+  Node d_s;
+  Node d_t;
+  Node d_sk;
+  Node d_x;
+  Node d_bvarlist;
+};
+
+/* Generic invertibility conditions for LT ---------------------------------  */
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_ult_true)
+{
+  runTestPred(true, BITVECTOR_ULT, d_x, getICBvUltUgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_ult_false)
+{
+  runTestPred(false, BITVECTOR_ULT, d_x, getICBvUltUgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_ugt_true)
+{
+  runTestPred(true, BITVECTOR_UGT, d_x, getICBvUltUgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_ugt_false)
+{
+  runTestPred(false, BITVECTOR_UGT, d_x, getICBvUltUgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_slt_true)
+{
+  runTestPred(true, BITVECTOR_SLT, d_x, getICBvSltSgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_slt_false)
+{
+  runTestPred(false, BITVECTOR_SLT, d_x, getICBvSltSgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_sgt_true)
+{
+  runTestPred(true, BITVECTOR_SGT, d_x, getICBvSltSgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, test_getIC_bv_sgt_false)
+{
+  runTestPred(false, BITVECTOR_SGT, d_x, getICBvSltSgt);
+}
+
+/* Equality and Disequality   ----------------------------------------------  */
+
+/* Mult */
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_mult_eq_true0)
+{
+  runTest(true, EQUAL, BITVECTOR_MULT, 0, getICBvMult);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_mult_eq_trueu)
+{
+  runTest(true, EQUAL, BITVECTOR_MULT, 1, getICBvMult);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_mult_eq_false0)
+{
+  runTest(false, EQUAL, BITVECTOR_MULT, 0, getICBvMult);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_mult_eq_false1)
+{
+  runTest(false, EQUAL, BITVECTOR_MULT, 1, getICBvMult);
+}
+
+/* Urem */
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_urem_eq_true0)
+{
+  runTest(true, EQUAL, BITVECTOR_UREM_TOTAL, 0, getICBvUrem);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_urem_eq_true1)
+{
+  runTest(true, EQUAL, BITVECTOR_UREM_TOTAL, 1, getICBvUrem);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_urem_eq_false0)
+{
+  runTest(false, EQUAL, BITVECTOR_UREM_TOTAL, 0, getICBvUrem);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_urem_eq_false1)
+{
+  runTest(false, EQUAL, BITVECTOR_UREM_TOTAL, 1, getICBvUrem);
+}
+
+/* Udiv */
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_udiv_eq_true0)
+{
+  runTest(true, EQUAL, BITVECTOR_UDIV_TOTAL, 0, getICBvUdiv);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_udiv_eq_true1)
+{
+  runTest(true, EQUAL, BITVECTOR_UDIV_TOTAL, 1, getICBvUdiv);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_udiv_eq_false0)
+{
+  runTest(false, EQUAL, BITVECTOR_UDIV_TOTAL, 0, getICBvUdiv);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_udiv_eq_false1)
+{
+  runTest(false, EQUAL, BITVECTOR_UDIV_TOTAL, 1, getICBvUdiv);
+}
+
+/* And */
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_and_eq_true0)
+{
+  runTest(true, EQUAL, BITVECTOR_AND, 0, getICBvAndOr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_and_eq_true1)
+{
+  runTest(true, EQUAL, BITVECTOR_AND, 1, getICBvAndOr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_and_eq_false0)
+{
+  runTest(false, EQUAL, BITVECTOR_AND, 0, getICBvAndOr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_and_eq_false1)
+{
+  runTest(false, EQUAL, BITVECTOR_AND, 1, getICBvAndOr);
+}
+
+/* Or */
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_or_eq_true0)
+{
+  runTest(true, EQUAL, BITVECTOR_OR, 0, getICBvAndOr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_or_eq_true1)
+{
+  runTest(true, EQUAL, BITVECTOR_OR, 1, getICBvAndOr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_or_eq_false0)
+{
+  runTest(false, EQUAL, BITVECTOR_OR, 0, getICBvAndOr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_or_eq_false1)
+{
+  runTest(false, EQUAL, BITVECTOR_OR, 1, getICBvAndOr);
+}
+
+/* Lshr */
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_lshr_eq_true0)
+{
+  runTest(true, EQUAL, BITVECTOR_LSHR, 0, getICBvLshr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_lshr_eq_true1)
+{
+  runTest(true, EQUAL, BITVECTOR_LSHR, 1, getICBvLshr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_lshr_eq_false0)
+{
+  runTest(false, EQUAL, BITVECTOR_LSHR, 0, getICBvLshr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_lshr_eq_false1)
+{
+  runTest(false, EQUAL, BITVECTOR_LSHR, 1, getICBvLshr);
+}
+
+/* Ashr */
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_ashr_eq_true0)
+{
+  runTest(true, EQUAL, BITVECTOR_ASHR, 0, getICBvAshr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_ashr_eq_true1)
+{
+  runTest(true, EQUAL, BITVECTOR_ASHR, 1, getICBvAshr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_ashr_eq_false0)
+{
+  runTest(false, EQUAL, BITVECTOR_ASHR, 0, getICBvAshr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_ashr_eq_false1)
+{
+  runTest(false, EQUAL, BITVECTOR_ASHR, 1, getICBvAshr);
+}
+
+/* Shl */
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_shl_eq_true0)
+{
+  runTest(true, EQUAL, BITVECTOR_SHL, 0, getICBvShl);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_shl_eq_true1)
+{
+  runTest(true, EQUAL, BITVECTOR_SHL, 1, getICBvShl);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_shl_eq_false0)
+{
+  runTest(false, EQUAL, BITVECTOR_SHL, 0, getICBvShl);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_shl_eq_false1)
+{
+  runTest(false, EQUAL, BITVECTOR_SHL, 1, getICBvShl);
+}
+
+/* Concat */
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_concat_eq_true0)
+{
+  runTestConcat(true, EQUAL, 0);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_concat_eq_true1)
+{
+  runTestConcat(true, EQUAL, 1);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_concat_eq_true2)
+{
+  runTestConcat(true, EQUAL, 2);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_concat_eq_false0)
+{
+  runTestConcat(false, EQUAL, 0);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_concat_eq_false1)
+{
+  runTestConcat(false, EQUAL, 1);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_concat_eq_false2)
+{
+  runTestConcat(false, EQUAL, 2);
+}
+
+/* Sext */
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_sext_eq_true)
+{
+  runTestSext(true, EQUAL);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_sext_eq_false)
+{
+  runTestSext(false, EQUAL);
+}
+
+/* Inequality --------------------------------------------------------------  */
+
+/* Not */
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_not_ult_true0)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_NOT, d_x);
+  runTestPred(true, BITVECTOR_ULT, x, getICBvUltUgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_not_ult_true1)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_NOT, d_x);
+  runTestPred(true, BITVECTOR_ULT, x, getICBvUltUgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_not_ult_false0)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_NOT, d_x);
+  runTestPred(false, BITVECTOR_ULT, x, getICBvUltUgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_not_ult_false1)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_NOT, d_x);
+  runTestPred(false, BITVECTOR_ULT, x, getICBvUltUgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_not_ugt_true0)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_NOT, d_x);
+  runTestPred(true, BITVECTOR_UGT, x, getICBvUltUgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_not_ugt_true1)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_NOT, d_x);
+  runTestPred(true, BITVECTOR_UGT, x, getICBvUltUgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_not_ugt_false0)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_NOT, d_x);
+  runTestPred(false, BITVECTOR_UGT, x, getICBvUltUgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_not_ugt_false1)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_NOT, d_x);
+  runTestPred(false, BITVECTOR_UGT, x, getICBvUltUgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_not_slt_true0)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_NOT, d_x);
+  runTestPred(true, BITVECTOR_SLT, x, getICBvSltSgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_not_slt_true1)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_NOT, d_x);
+  runTestPred(true, BITVECTOR_SLT, x, getICBvSltSgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_not_slt_false0)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_NOT, d_x);
+  runTestPred(false, BITVECTOR_SLT, x, getICBvSltSgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_not_slt_false1)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_NOT, d_x);
+  runTestPred(false, BITVECTOR_SLT, x, getICBvSltSgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_not_sgt_true0)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_NOT, d_x);
+  runTestPred(true, BITVECTOR_SGT, x, getICBvSltSgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_not_sgt_true1)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_NOT, d_x);
+  runTestPred(true, BITVECTOR_SGT, x, getICBvSltSgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_not_sgt_false0)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_NOT, d_x);
+  runTestPred(false, BITVECTOR_SGT, x, getICBvSltSgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_not_sgt_false1)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_NOT, d_x);
+  runTestPred(false, BITVECTOR_SGT, x, getICBvSltSgt);
+}
+
+/* Neg */
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_neg_ult_true0)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_NEG, d_x);
+  runTestPred(true, BITVECTOR_ULT, x, getICBvUltUgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_neg_ult_true1)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_NEG, d_x);
+  runTestPred(true, BITVECTOR_ULT, x, getICBvUltUgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_neg_ult_false0)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_NEG, d_x);
+  runTestPred(false, BITVECTOR_ULT, x, getICBvUltUgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_neg_ult_false1)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_NEG, d_x);
+  runTestPred(false, BITVECTOR_ULT, x, getICBvUltUgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_neg_ugt_true0)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_NEG, d_x);
+  runTestPred(true, BITVECTOR_UGT, x, getICBvUltUgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_neg_ugt_true1)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_NEG, d_x);
+  runTestPred(true, BITVECTOR_UGT, x, getICBvUltUgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_neg_ugt_false0)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_NEG, d_x);
+  runTestPred(false, BITVECTOR_UGT, x, getICBvUltUgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_neg_ugt_false1)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_NEG, d_x);
+  runTestPred(false, BITVECTOR_UGT, x, getICBvUltUgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_neg_slt_true0)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_NEG, d_x);
+  runTestPred(true, BITVECTOR_SLT, x, getICBvSltSgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_neg_slt_true1)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_NEG, d_x);
+  runTestPred(true, BITVECTOR_SLT, x, getICBvSltSgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_neg_slt_false0)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_NEG, d_x);
+  runTestPred(false, BITVECTOR_SLT, x, getICBvSltSgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_neg_slt_false1)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_NEG, d_x);
+  runTestPred(false, BITVECTOR_SLT, x, getICBvSltSgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_neg_sgt_true0)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_NEG, d_x);
+  runTestPred(true, BITVECTOR_SGT, x, getICBvSltSgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_neg_sgt_true1)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_NEG, d_x);
+  runTestPred(true, BITVECTOR_SGT, x, getICBvSltSgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_neg_sgt_false0)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_NEG, d_x);
+  runTestPred(false, BITVECTOR_SGT, x, getICBvSltSgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_neg_sgt_false1)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_NEG, d_x);
+  runTestPred(false, BITVECTOR_SGT, x, getICBvSltSgt);
+}
+
+/* Add */
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_plus_ult_true0)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_PLUS, d_x, d_s);
+  runTestPred(true, BITVECTOR_ULT, x, getICBvUltUgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_plus_ult_true1)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_PLUS, d_s, d_x);
+  runTestPred(true, BITVECTOR_ULT, x, getICBvUltUgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_plus_ult_false0)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_PLUS, d_x, d_s);
+  runTestPred(false, BITVECTOR_ULT, x, getICBvUltUgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_plus_ult_false1)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_PLUS, d_s, d_x);
+  runTestPred(false, BITVECTOR_ULT, x, getICBvUltUgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_plus_ugt_true0)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_PLUS, d_x, d_s);
+  runTestPred(true, BITVECTOR_UGT, x, getICBvUltUgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_plus_ugt_true1)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_PLUS, d_s, d_x);
+  runTestPred(true, BITVECTOR_UGT, x, getICBvUltUgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_plus_ugt_false0)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_PLUS, d_x, d_s);
+  runTestPred(false, BITVECTOR_UGT, x, getICBvUltUgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_plus_ugt_false1)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_PLUS, d_s, d_x);
+  runTestPred(false, BITVECTOR_UGT, x, getICBvUltUgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_plus_slt_true0)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_PLUS, d_x, d_s);
+  runTestPred(true, BITVECTOR_SLT, x, getICBvSltSgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_plus_slt_true1)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_PLUS, d_s, d_x);
+  runTestPred(true, BITVECTOR_SLT, x, getICBvSltSgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_plus_slt_false0)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_PLUS, d_x, d_s);
+  runTestPred(false, BITVECTOR_SLT, x, getICBvSltSgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_plus_slt_false1)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_PLUS, d_s, d_x);
+  runTestPred(false, BITVECTOR_SLT, x, getICBvSltSgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_plus_sgt_true0)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_PLUS, d_x, d_s);
+  runTestPred(true, BITVECTOR_SGT, x, getICBvSltSgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_plus_sgt_true1)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_PLUS, d_s, d_x);
+  runTestPred(true, BITVECTOR_SGT, x, getICBvSltSgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_plus_sgt_false0)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_PLUS, d_x, d_s);
+  runTestPred(false, BITVECTOR_SGT, x, getICBvSltSgt);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_plus_sgt_false1)
+{
+  Node x = d_nodeManager->mkNode(BITVECTOR_PLUS, d_s, d_x);
+  runTestPred(false, BITVECTOR_SGT, x, getICBvSltSgt);
+}
+
+/* Mult */
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_mult_ult_true0)
+{
+  runTest(true, BITVECTOR_ULT, BITVECTOR_MULT, 0, getICBvMult);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_mult_ult_true1)
+{
+  runTest(true, BITVECTOR_ULT, BITVECTOR_MULT, 1, getICBvMult);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_mult_ult_false0)
+{
+  runTest(false, BITVECTOR_ULT, BITVECTOR_MULT, 0, getICBvMult);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_mult_ult_false1)
+{
+  runTest(false, BITVECTOR_ULT, BITVECTOR_MULT, 1, getICBvMult);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_mult_ugt_true0)
+{
+  runTest(true, BITVECTOR_UGT, BITVECTOR_MULT, 0, getICBvMult);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_mult_ugt_true1)
+{
+  runTest(true, BITVECTOR_UGT, BITVECTOR_MULT, 1, getICBvMult);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_mult_ugt_false0)
+{
+  runTest(false, BITVECTOR_UGT, BITVECTOR_MULT, 0, getICBvMult);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_mult_ugt_false1)
+{
+  runTest(false, BITVECTOR_UGT, BITVECTOR_MULT, 1, getICBvMult);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_mult_slt_true0)
+{
+  runTest(true, BITVECTOR_SLT, BITVECTOR_MULT, 0, getICBvMult);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_mult_slt_true1)
+{
+  runTest(true, BITVECTOR_SLT, BITVECTOR_MULT, 1, getICBvMult);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_mult_slt_false0)
+{
+  runTest(false, BITVECTOR_SLT, BITVECTOR_MULT, 0, getICBvMult);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_mult_slt_false1)
+{
+  runTest(false, BITVECTOR_SLT, BITVECTOR_MULT, 1, getICBvMult);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_mult_sgt_true0)
+{
+  runTest(true, BITVECTOR_SGT, BITVECTOR_MULT, 0, getICBvMult);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_mult_sgt_true1)
+{
+  runTest(true, BITVECTOR_SGT, BITVECTOR_MULT, 1, getICBvMult);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_mult_sgt_false0)
+{
+  runTest(false, BITVECTOR_SGT, BITVECTOR_MULT, 0, getICBvMult);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_mult_sgt_false1)
+{
+  runTest(false, BITVECTOR_SGT, BITVECTOR_MULT, 1, getICBvMult);
+}
+
+/* Urem */
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_urem_ult_true0)
+{
+  runTest(true, BITVECTOR_ULT, BITVECTOR_UREM_TOTAL, 0, getICBvUrem);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_urem_ult_true1)
+{
+  runTest(true, BITVECTOR_ULT, BITVECTOR_UREM_TOTAL, 1, getICBvUrem);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_urem_ult_false0)
+{
+  runTest(false, BITVECTOR_ULT, BITVECTOR_UREM_TOTAL, 0, getICBvUrem);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_urem_ult_false1)
+{
+  runTest(false, BITVECTOR_ULT, BITVECTOR_UREM_TOTAL, 1, getICBvUrem);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_urem_ugt_true0)
+{
+  runTest(true, BITVECTOR_UGT, BITVECTOR_UREM_TOTAL, 0, getICBvUrem);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_urem_ugt_true1)
+{
+  runTest(true, BITVECTOR_UGT, BITVECTOR_UREM_TOTAL, 1, getICBvUrem);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_urem_ugt_false0)
+{
+  runTest(false, BITVECTOR_UGT, BITVECTOR_UREM_TOTAL, 0, getICBvUrem);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_urem_ugt_false1)
+{
+  runTest(false, BITVECTOR_UGT, BITVECTOR_UREM_TOTAL, 1, getICBvUrem);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_urem_slt_true0)
+{
+  runTest(true, BITVECTOR_SLT, BITVECTOR_UREM_TOTAL, 0, getICBvUrem);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_urem_slt_true1)
+{
+  runTest(true, BITVECTOR_SLT, BITVECTOR_UREM_TOTAL, 1, getICBvUrem);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_urem_slt_false0)
+{
+  runTest(false, BITVECTOR_SLT, BITVECTOR_UREM_TOTAL, 0, getICBvUrem);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_urem_slt_false1)
+{
+  runTest(false, BITVECTOR_SLT, BITVECTOR_UREM_TOTAL, 1, getICBvUrem);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_urem_sgt_true0)
+{
+  runTest(true, BITVECTOR_SGT, BITVECTOR_UREM_TOTAL, 0, getICBvUrem);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_urem_sgt_true1)
+{
+  runTest(true, BITVECTOR_SGT, BITVECTOR_UREM_TOTAL, 1, getICBvUrem);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_urem_sgt_false0)
+{
+  runTest(false, BITVECTOR_SGT, BITVECTOR_UREM_TOTAL, 0, getICBvUrem);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_urem_sgt_false1)
+{
+  runTest(false, BITVECTOR_SGT, BITVECTOR_UREM_TOTAL, 1, getICBvUrem);
+}
+
+/* Udiv */
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_udiv_ult_true0)
+{
+  runTest(true, BITVECTOR_ULT, BITVECTOR_UDIV_TOTAL, 0, getICBvUdiv);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_udiv_ult_true1)
+{
+  runTest(true, BITVECTOR_ULT, BITVECTOR_UDIV_TOTAL, 1, getICBvUdiv);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_udiv_ult_false0)
+{
+  runTest(false, BITVECTOR_ULT, BITVECTOR_UDIV_TOTAL, 0, getICBvUdiv);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_udiv_ult_false1)
+{
+  runTest(false, BITVECTOR_ULT, BITVECTOR_UDIV_TOTAL, 1, getICBvUdiv);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_udiv_ugt_true0)
+{
+  runTest(true, BITVECTOR_UGT, BITVECTOR_UDIV_TOTAL, 0, getICBvUdiv);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_udiv_ugt_true1)
+{
+  runTest(true, BITVECTOR_UGT, BITVECTOR_UDIV_TOTAL, 1, getICBvUdiv);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_udiv_ugt_false0)
+{
+  runTest(false, BITVECTOR_UGT, BITVECTOR_UDIV_TOTAL, 0, getICBvUdiv);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_udiv_ugt_false1)
+{
+  runTest(false, BITVECTOR_UGT, BITVECTOR_UDIV_TOTAL, 1, getICBvUdiv);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_udiv_slt_true0)
+{
+  runTest(true, BITVECTOR_SLT, BITVECTOR_UDIV_TOTAL, 0, getICBvUdiv);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_udiv_slt_true1)
+{
+  runTest(true, BITVECTOR_SLT, BITVECTOR_UDIV_TOTAL, 1, getICBvUdiv);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_udiv_slt_false0)
+{
+  runTest(false, BITVECTOR_SLT, BITVECTOR_UDIV_TOTAL, 0, getICBvUdiv);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_udiv_slt_false1)
+{
+  runTest(false, BITVECTOR_SLT, BITVECTOR_UDIV_TOTAL, 1, getICBvUdiv);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_udiv_sgt_true0)
+{
+  runTest(true, BITVECTOR_SGT, BITVECTOR_UDIV_TOTAL, 0, getICBvUdiv);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_udiv_sgt_true1)
+{
+  runTest(true, BITVECTOR_SGT, BITVECTOR_UDIV_TOTAL, 1, getICBvUdiv);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_udiv_sgt_false0)
+{
+  runTest(false, BITVECTOR_SGT, BITVECTOR_UDIV_TOTAL, 0, getICBvUdiv);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_udiv_sgt_false1)
+{
+  runTest(false, BITVECTOR_SGT, BITVECTOR_UDIV_TOTAL, 1, getICBvUdiv);
+}
+
+/* And */
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_and_ult_true0)
+{
+  runTest(true, BITVECTOR_ULT, BITVECTOR_AND, 0, getICBvAndOr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_and_ult_true1)
+{
+  runTest(true, BITVECTOR_ULT, BITVECTOR_AND, 1, getICBvAndOr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_and_ult_false0)
+{
+  runTest(false, BITVECTOR_ULT, BITVECTOR_AND, 0, getICBvAndOr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_and_ult_false1)
+{
+  runTest(false, BITVECTOR_ULT, BITVECTOR_AND, 1, getICBvAndOr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_and_ugt_true0)
+{
+  runTest(true, BITVECTOR_UGT, BITVECTOR_AND, 0, getICBvAndOr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_and_ugt_true1)
+{
+  runTest(true, BITVECTOR_UGT, BITVECTOR_AND, 1, getICBvAndOr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_and_ugt_false0)
+{
+  runTest(false, BITVECTOR_UGT, BITVECTOR_AND, 0, getICBvAndOr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_and_ugt_false1)
+{
+  runTest(false, BITVECTOR_UGT, BITVECTOR_AND, 1, getICBvAndOr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_and_slt_true0)
+{
+  runTest(true, BITVECTOR_SLT, BITVECTOR_AND, 0, getICBvAndOr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_and_slt_true1)
+{
+  runTest(true, BITVECTOR_SLT, BITVECTOR_AND, 1, getICBvAndOr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_and_slt_false0)
+{
+  runTest(false, BITVECTOR_SLT, BITVECTOR_AND, 0, getICBvAndOr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_and_slt_false1)
+{
+  runTest(false, BITVECTOR_SLT, BITVECTOR_AND, 1, getICBvAndOr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_and_sgt_true0)
+{
+  runTest(true, BITVECTOR_SGT, BITVECTOR_AND, 0, getICBvAndOr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_and_sgt_true1)
+{
+  runTest(true, BITVECTOR_SGT, BITVECTOR_AND, 1, getICBvAndOr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_and_sgt_false0)
+{
+  runTest(false, BITVECTOR_SGT, BITVECTOR_AND, 0, getICBvAndOr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_and_sgt_false1)
+{
+  runTest(false, BITVECTOR_SGT, BITVECTOR_AND, 1, getICBvAndOr);
+}
+
+/* Or */
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_or_ult_true0)
+{
+  runTest(true, BITVECTOR_ULT, BITVECTOR_OR, 0, getICBvAndOr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_or_ult_true1)
+{
+  runTest(true, BITVECTOR_ULT, BITVECTOR_OR, 1, getICBvAndOr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_or_ult_false0)
+{
+  runTest(false, BITVECTOR_ULT, BITVECTOR_OR, 0, getICBvAndOr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_or_ult_false1)
+{
+  runTest(false, BITVECTOR_ULT, BITVECTOR_OR, 1, getICBvAndOr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_or_ugt_true0)
+{
+  runTest(true, BITVECTOR_UGT, BITVECTOR_OR, 0, getICBvAndOr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_or_ugt_true1)
+{
+  runTest(true, BITVECTOR_UGT, BITVECTOR_OR, 1, getICBvAndOr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_or_ugt_false0)
+{
+  runTest(false, BITVECTOR_UGT, BITVECTOR_OR, 0, getICBvAndOr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_or_ugt_false1)
+{
+  runTest(false, BITVECTOR_UGT, BITVECTOR_OR, 1, getICBvAndOr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_or_slt_true0)
+{
+  runTest(true, BITVECTOR_SLT, BITVECTOR_OR, 0, getICBvAndOr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_or_slt_true1)
+{
+  runTest(true, BITVECTOR_SLT, BITVECTOR_OR, 1, getICBvAndOr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_or_slt_false0)
+{
+  runTest(false, BITVECTOR_SLT, BITVECTOR_OR, 0, getICBvAndOr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_or_slt_false1)
+{
+  runTest(false, BITVECTOR_SLT, BITVECTOR_OR, 1, getICBvAndOr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_or_sgt_true0)
+{
+  runTest(true, BITVECTOR_SGT, BITVECTOR_OR, 0, getICBvAndOr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_or_sgt_true1)
+{
+  runTest(true, BITVECTOR_SGT, BITVECTOR_OR, 1, getICBvAndOr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_or_sgt_false0)
+{
+  runTest(false, BITVECTOR_SGT, BITVECTOR_OR, 0, getICBvAndOr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_or_sgt_false1)
+{
+  runTest(false, BITVECTOR_SGT, BITVECTOR_OR, 1, getICBvAndOr);
+}
+
+/* Lshr */
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_lshr_ult_true0)
+{
+  runTest(true, BITVECTOR_ULT, BITVECTOR_LSHR, 0, getICBvLshr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_lshr_ult_true1)
+{
+  runTest(true, BITVECTOR_ULT, BITVECTOR_LSHR, 1, getICBvLshr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_lshr_ult_false0)
+{
+  runTest(false, BITVECTOR_ULT, BITVECTOR_LSHR, 0, getICBvLshr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_lshr_ult_false1)
+{
+  runTest(false, BITVECTOR_ULT, BITVECTOR_LSHR, 1, getICBvLshr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_lshr_ugt_true0)
+{
+  runTest(true, BITVECTOR_UGT, BITVECTOR_LSHR, 0, getICBvLshr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_lshr_ugt_true1)
+{
+  runTest(true, BITVECTOR_UGT, BITVECTOR_LSHR, 1, getICBvLshr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_lshr_ugt_false0)
+{
+  runTest(false, BITVECTOR_UGT, BITVECTOR_LSHR, 0, getICBvLshr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_lshr_ugt_false1)
+{
+  runTest(false, BITVECTOR_UGT, BITVECTOR_LSHR, 1, getICBvLshr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_lshr_slt_true0)
+{
+  runTest(true, BITVECTOR_SLT, BITVECTOR_LSHR, 0, getICBvLshr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_lshr_slt_true1)
+{
+  runTest(true, BITVECTOR_SLT, BITVECTOR_LSHR, 1, getICBvLshr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_lshr_slt_false0)
+{
+  runTest(false, BITVECTOR_SLT, BITVECTOR_LSHR, 0, getICBvLshr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_lshr_slt_false1)
+{
+  runTest(false, BITVECTOR_SLT, BITVECTOR_LSHR, 1, getICBvLshr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_lshr_sgt_true0)
+{
+  runTest(true, BITVECTOR_SGT, BITVECTOR_LSHR, 0, getICBvLshr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_lshr_sgt_true1)
+{
+  runTest(true, BITVECTOR_SGT, BITVECTOR_LSHR, 1, getICBvLshr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_lshr_sgt_false0)
+{
+  runTest(false, BITVECTOR_SGT, BITVECTOR_LSHR, 0, getICBvLshr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_lshr_sgt_false1)
+{
+  runTest(false, BITVECTOR_SGT, BITVECTOR_LSHR, 1, getICBvLshr);
+}
+
+/* Ashr */
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_ashr_ult_true0)
+{
+  runTest(true, BITVECTOR_ULT, BITVECTOR_ASHR, 0, getICBvAshr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_ashr_ult_true1)
+{
+  runTest(true, BITVECTOR_ULT, BITVECTOR_ASHR, 1, getICBvAshr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_ashr_ult_false0)
+{
+  runTest(false, BITVECTOR_ULT, BITVECTOR_ASHR, 0, getICBvAshr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_ashr_ult_false1)
+{
+  runTest(false, BITVECTOR_ULT, BITVECTOR_ASHR, 1, getICBvAshr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_ashr_ugt_true0)
+{
+  runTest(true, BITVECTOR_UGT, BITVECTOR_ASHR, 0, getICBvAshr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_ashr_ugt_true1)
+{
+  runTest(true, BITVECTOR_UGT, BITVECTOR_ASHR, 1, getICBvAshr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_ashr_ugt_false0)
+{
+  runTest(false, BITVECTOR_UGT, BITVECTOR_ASHR, 0, getICBvAshr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_ashr_ugt_false1)
+{
+  runTest(false, BITVECTOR_UGT, BITVECTOR_ASHR, 1, getICBvAshr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_ashr_slt_true0)
+{
+  runTest(true, BITVECTOR_SLT, BITVECTOR_ASHR, 0, getICBvAshr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_ashr_slt_true1)
+{
+  runTest(true, BITVECTOR_SLT, BITVECTOR_ASHR, 1, getICBvAshr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_ashr_slt_false0)
+{
+  runTest(false, BITVECTOR_SLT, BITVECTOR_ASHR, 0, getICBvAshr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_ashr_slt_false1)
+{
+  runTest(false, BITVECTOR_SLT, BITVECTOR_ASHR, 1, getICBvAshr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_ashr_sgt_true0)
+{
+  runTest(true, BITVECTOR_SGT, BITVECTOR_ASHR, 0, getICBvAshr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_ashr_sgt_true1)
+{
+  runTest(true, BITVECTOR_SGT, BITVECTOR_ASHR, 1, getICBvAshr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_ashr_sgt_false0)
+{
+  runTest(false, BITVECTOR_SGT, BITVECTOR_ASHR, 0, getICBvAshr);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_ashr_sgt_false1)
+{
+  runTest(false, BITVECTOR_SGT, BITVECTOR_ASHR, 1, getICBvAshr);
+}
+
+/* Shl */
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_shl_ult_true0)
+{
+  runTest(true, BITVECTOR_ULT, BITVECTOR_SHL, 0, getICBvShl);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_shl_ult_true1)
+{
+  runTest(true, BITVECTOR_ULT, BITVECTOR_SHL, 1, getICBvShl);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_shl_ult_false0)
+{
+  runTest(false, BITVECTOR_ULT, BITVECTOR_SHL, 0, getICBvShl);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_shl_ult_false1)
+{
+  runTest(false, BITVECTOR_ULT, BITVECTOR_SHL, 1, getICBvShl);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_shl_ugt_true0)
+{
+  runTest(true, BITVECTOR_UGT, BITVECTOR_SHL, 0, getICBvShl);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_shl_ugt_true1)
+{
+  runTest(true, BITVECTOR_UGT, BITVECTOR_SHL, 1, getICBvShl);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_shl_ugt_false0)
+{
+  runTest(false, BITVECTOR_UGT, BITVECTOR_SHL, 0, getICBvShl);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_shl_ugt_false1)
+{
+  runTest(false, BITVECTOR_UGT, BITVECTOR_SHL, 1, getICBvShl);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_shl_slt_true0)
+{
+  runTest(true, BITVECTOR_SLT, BITVECTOR_SHL, 0, getICBvShl);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_shl_slt_true1)
+{
+  runTest(true, BITVECTOR_SLT, BITVECTOR_SHL, 1, getICBvShl);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_shl_slt_false0)
+{
+  runTest(false, BITVECTOR_SLT, BITVECTOR_SHL, 0, getICBvShl);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_shl_slt_false1)
+{
+  runTest(false, BITVECTOR_SLT, BITVECTOR_SHL, 1, getICBvShl);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_shl_sgt_true0)
+{
+  runTest(true, BITVECTOR_SGT, BITVECTOR_SHL, 0, getICBvShl);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_shl_sgt_true1)
+{
+  runTest(true, BITVECTOR_SGT, BITVECTOR_SHL, 1, getICBvShl);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_shl_sgt_false0)
+{
+  runTest(false, BITVECTOR_SGT, BITVECTOR_SHL, 0, getICBvShl);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_shl_sgt_false1)
+{
+  runTest(false, BITVECTOR_SGT, BITVECTOR_SHL, 1, getICBvShl);
+}
+
+/* Concat */
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_concat_ult_true0)
+{
+  runTestConcat(true, BITVECTOR_ULT, 0);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_concat_ult_true1)
+{
+  runTestConcat(true, BITVECTOR_ULT, 1);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_concat_ult_true2)
+{
+  runTestConcat(true, BITVECTOR_ULT, 2);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_concat_ult_false0)
+{
+  runTestConcat(false, BITVECTOR_ULT, 0);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_concat_ult_false1)
+{
+  runTestConcat(false, BITVECTOR_ULT, 1);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_concat_ult_false2)
+{
+  runTestConcat(false, BITVECTOR_ULT, 2);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_concat_ugt_true0)
+{
+  runTestConcat(true, BITVECTOR_UGT, 0);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_concat_ugt_true1)
+{
+  runTestConcat(true, BITVECTOR_UGT, 1);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_concat_ugt_true2)
+{
+  runTestConcat(true, BITVECTOR_UGT, 2);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_concat_ugt_false0)
+{
+  runTestConcat(false, BITVECTOR_UGT, 0);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_concat_ugt_false1)
+{
+  runTestConcat(false, BITVECTOR_UGT, 1);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_concat_ugt_false2)
+{
+  runTestConcat(false, BITVECTOR_UGT, 2);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_concat_slt_true0)
+{
+  runTestConcat(true, BITVECTOR_SLT, 0);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_concat_slt_true1)
+{
+  runTestConcat(true, BITVECTOR_SLT, 1);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_concat_slt_true2)
+{
+  runTestConcat(true, BITVECTOR_SLT, 2);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_concat_slt_false0)
+{
+  runTestConcat(false, BITVECTOR_SLT, 0);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_concat_slt_false1)
+{
+  runTestConcat(false, BITVECTOR_SLT, 1);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_concat_slt_false2)
+{
+  runTestConcat(false, BITVECTOR_SLT, 2);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_concat_sgt_true0)
+{
+  runTestConcat(true, BITVECTOR_SGT, 0);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_concat_sgt_true1)
+{
+  runTestConcat(true, BITVECTOR_SGT, 1);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_concat_sgt_true2)
+{
+  runTestConcat(true, BITVECTOR_SGT, 2);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_concat_sgt_false0)
+{
+  runTestConcat(false, BITVECTOR_SGT, 0);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_concat_sgt_false1)
+{
+  runTestConcat(false, BITVECTOR_SGT, 1);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_concat_sgt_false2)
+{
+  runTestConcat(false, BITVECTOR_SGT, 2);
+}
+
+/* Sext */
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_sext_ult_true)
+{
+  runTestSext(true, BITVECTOR_ULT);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_sext_ult_false)
+{
+  runTestSext(false, BITVECTOR_ULT);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_sext_ugt_true)
+{
+  runTestSext(true, BITVECTOR_UGT);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_sext_ugt_false)
+{
+  runTestSext(false, BITVECTOR_UGT);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_sext_slt_true)
+{
+  runTestSext(true, BITVECTOR_SLT);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_sext_slt_false)
+{
+  runTestSext(false, BITVECTOR_SLT);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_sext_sgt_true)
+{
+  runTestSext(true, BITVECTOR_SGT);
+}
+
+TEST_F(TestTheoryWhiteQuantifiersBvInverter, getIC_bv_sext_sgt_false)
+{
+  runTestSext(false, BITVECTOR_SGT);
+}
+}  // namespace test
+}  // namespace CVC4
diff --git a/test/unit/theory/theory_quantifiers_bv_inverter_white.h b/test/unit/theory/theory_quantifiers_bv_inverter_white.h
deleted file mode 100644
index ac25f60a9..000000000
--- a/test/unit/theory/theory_quantifiers_bv_inverter_white.h
+++ /dev/null
@@ -1,1507 +0,0 @@
-/*********************                                                        */
-/*! \file theory_quantifiers_bv_inverter_white.h
- ** \verbatim
- ** Top contributors (to current version):
- **   Aina Niemetz, Mathias Preiner, Andrew Reynolds
- ** This file is part of the CVC4 project.
- ** Copyright (c) 2009-2020 by the authors listed in the file AUTHORS
- ** in the top-level source directory and their institutional affiliations.
- ** All rights reserved.  See the file COPYING in the top-level source
- ** directory for licensing information.\endverbatim
- **
- ** \brief Unit tests for BV inverter.
- **
- ** Unit tests for BV inverter.
- **/
-
-#include "expr/node.h"
-#include "expr/node_manager.h"
-#include "smt/smt_engine.h"
-#include "smt/smt_engine_scope.h"
-#include "theory/bv/theory_bv_utils.h"
-#include "theory/quantifiers/bv_inverter_utils.h"
-#include "util/result.h"
-
-using namespace CVC4;
-using namespace CVC4::kind;
-using namespace CVC4::theory;
-using namespace CVC4::theory::quantifiers;
-using namespace CVC4::theory::quantifiers::utils;
-using namespace CVC4::smt;
-
-class TheoryQuantifiersBvInverter : public CxxTest::TestSuite
-{
-  ExprManager *d_em;
-  NodeManager *d_nm;
-  SmtEngine *d_smt;
-  SmtScope *d_scope;
-
-  Node d_s;
-  Node d_t;
-  Node d_sk;
-  Node d_x;
-  Node d_bvarlist;
-
-  void runTestPred(bool pol,
-                   Kind k,
-                   Node x,
-                   Node (*getsc)(bool, Kind, Node, Node))
-  {
-    TS_ASSERT(k == BITVECTOR_ULT || k == BITVECTOR_SLT || k == EQUAL
-              || k == BITVECTOR_UGT || k == BITVECTOR_SGT);
-    TS_ASSERT(k != EQUAL || pol == false);
-
-    Node sc = getsc(pol, k, d_sk, d_t);
-    Kind ksc = sc.getKind();
-    TS_ASSERT((k == BITVECTOR_ULT && pol == false)
-              || (k == BITVECTOR_SLT && pol == false)
-              || (k == BITVECTOR_UGT && pol == false)
-              || (k == BITVECTOR_SGT && pol == false) || ksc == IMPLIES);
-    Node scl = ksc == IMPLIES ? sc[0] : bv::utils::mkTrue();
-    if (!pol)
-    {
-      if (k == BITVECTOR_ULT)
-      {
-        k = BITVECTOR_UGE;
-      }
-      else if (k == BITVECTOR_UGT)
-      {
-        k = BITVECTOR_ULE;
-      }
-      else if (k == BITVECTOR_SLT)
-      {
-        k = BITVECTOR_SGE;
-      }
-      else if (k == BITVECTOR_SGT)
-      {
-        k = BITVECTOR_ULE;
-      }
-      else
-      {
-        TS_ASSERT(k == EQUAL);
-        k = DISTINCT;
-      }
-    }
-    Node body = d_nm->mkNode(k, x, d_t);
-    Node scr = d_nm->mkNode(EXISTS, d_bvarlist, body);
-    Expr a = d_nm->mkNode(DISTINCT, scl, scr).toExpr();
-    Result res = d_smt->checkSat(a);
-    TS_ASSERT(res.d_sat == Result::UNSAT);
-  }
-
-  void runTest(bool pol,
-               Kind litk,
-               Kind k,
-               unsigned idx,
-               Node (*getsc)(bool, Kind, Kind, unsigned, Node, Node, Node))
-  {
-    TS_ASSERT(k == BITVECTOR_MULT || k == BITVECTOR_UREM_TOTAL
-              || k == BITVECTOR_UDIV_TOTAL || k == BITVECTOR_AND
-              || k == BITVECTOR_OR || k == BITVECTOR_LSHR || k == BITVECTOR_ASHR
-              || k == BITVECTOR_SHL);
-
-    Node sc = getsc(pol, litk, k, idx, d_sk, d_s, d_t);
-    TS_ASSERT(!sc.isNull());
-    Kind ksc = sc.getKind();
-    TS_ASSERT((k == BITVECTOR_UDIV_TOTAL && idx == 1 && pol == false)
-              || (k == BITVECTOR_ASHR && idx == 0 && pol == false)
-              || ksc == IMPLIES);
-    Node scl = ksc == IMPLIES ? sc[0] : bv::utils::mkTrue();
-    Node body = idx == 0 ? d_nm->mkNode(litk, d_nm->mkNode(k, d_x, d_s), d_t)
-                         : d_nm->mkNode(litk, d_nm->mkNode(k, d_s, d_x), d_t);
-    Node scr = d_nm->mkNode(EXISTS, d_bvarlist, pol ? body : body.notNode());
-    Expr a = d_nm->mkNode(DISTINCT, scl, scr).toExpr();
-    Result res = d_smt->checkSat(a);
-    if (res.d_sat == Result::SAT)
-    {
-      std::cout << std::endl;
-      std::cout << "s " << d_smt->getValue(d_s.toExpr()) << std::endl;
-      std::cout << "t " << d_smt->getValue(d_t.toExpr()) << std::endl;
-      std::cout << "x " << d_smt->getValue(d_x.toExpr()) << std::endl;
-    }
-    TS_ASSERT(res.d_sat == Result::UNSAT);
-  }
-
-  void runTestConcat(bool pol, Kind litk, unsigned idx)
-  {
-    Node s1, s2, sv_t;
-    Node x, t, sk;
-    Node sc;
-
-    if (idx == 0)
-    {
-      s2 = d_nm->mkVar("s2", d_nm->mkBitVectorType(4));
-      x = d_nm->mkBoundVar(s2.getType());
-      sk = d_nm->mkSkolem("sk", s2.getType());
-      t = d_nm->mkVar("t", d_nm->mkBitVectorType(8));
-      sv_t = d_nm->mkNode(BITVECTOR_CONCAT, x, s2);
-      sc = getICBvConcat(pol, litk, 0, sk, sv_t, t);
-    }
-    else if (idx == 1)
-    {
-      s1 = d_nm->mkVar("s1", d_nm->mkBitVectorType(4));
-      x = d_nm->mkBoundVar(s1.getType());
-      sk = d_nm->mkSkolem("sk", s1.getType());
-      t = d_nm->mkVar("t", d_nm->mkBitVectorType(8));
-      sv_t = d_nm->mkNode(BITVECTOR_CONCAT, s1, x);
-      sc = getICBvConcat(pol, litk, 1, sk, sv_t, t);
-    }
-    else
-    {
-      TS_ASSERT(idx == 2);
-      s1 = d_nm->mkVar("s1", d_nm->mkBitVectorType(4));
-      s2 = d_nm->mkVar("s2", d_nm->mkBitVectorType(4));
-      x = d_nm->mkBoundVar(s2.getType());
-      sk = d_nm->mkSkolem("sk", s1.getType());
-      t = d_nm->mkVar("t", d_nm->mkBitVectorType(12));
-      sv_t = d_nm->mkNode(BITVECTOR_CONCAT, s1, x, s2);
-      sc = getICBvConcat(pol, litk, 1, sk, sv_t, t);
-    }
-
-    TS_ASSERT(!sc.isNull());
-    Kind ksc = sc.getKind();
-    TS_ASSERT((litk == kind::EQUAL && pol == false) || ksc == IMPLIES);
-    Node scl = ksc == IMPLIES ? sc[0] : bv::utils::mkTrue();
-    Node body = d_nm->mkNode(litk, sv_t, t);
-    Node bvarlist = d_nm->mkNode(BOUND_VAR_LIST, {x});
-    Node scr = d_nm->mkNode(EXISTS, bvarlist, pol ? body : body.notNode());
-    Expr a = d_nm->mkNode(DISTINCT, scl, scr).toExpr();
-    Result res = d_smt->checkSat(a);
-    if (res.d_sat == Result::SAT)
-    {
-      std::cout << std::endl;
-      if (!s1.isNull())
-        std::cout << "s1 " << d_smt->getValue(s1.toExpr()) << std::endl;
-      if (!s2.isNull())
-        std::cout << "s2 " << d_smt->getValue(s2.toExpr()) << std::endl;
-      std::cout << "t " << d_smt->getValue(t.toExpr()) << std::endl;
-      std::cout << "x " << d_smt->getValue(x.toExpr()) << std::endl;
-    }
-    TS_ASSERT(res.d_sat == Result::UNSAT);
-  }
-
-  void runTestSext(bool pol, Kind litk)
-  {
-    unsigned ws = 3;
-    unsigned wx = 5;
-    unsigned w = 8;
-
-    Node x = d_nm->mkVar("x", d_nm->mkBitVectorType(wx));
-    Node sk = d_nm->mkSkolem("sk", x.getType());
-    x = d_nm->mkBoundVar(x.getType());
-
-    Node t = d_nm->mkVar("t", d_nm->mkBitVectorType(w));
-    Node sv_t = bv::utils::mkSignExtend(x, ws);
-    Node sc = getICBvSext(pol, litk, 0, sk, sv_t, t);
-
-    TS_ASSERT(!sc.isNull());
-    Kind ksc = sc.getKind();
-    TS_ASSERT((litk == kind::EQUAL && pol == false)
-              || (litk == kind::BITVECTOR_ULT && pol == false)
-              || (litk == kind::BITVECTOR_UGT && pol == false)
-              || ksc == IMPLIES);
-    Node scl = ksc == IMPLIES ? sc[0] : bv::utils::mkTrue();
-    Node body = d_nm->mkNode(litk, sv_t, t);
-    Node bvarlist = d_nm->mkNode(BOUND_VAR_LIST, {x});
-    Node scr = d_nm->mkNode(EXISTS, bvarlist, pol ? body : body.notNode());
-    Expr a = d_nm->mkNode(DISTINCT, scl, scr).toExpr();
-    Result res = d_smt->checkSat(a);
-    if (res.d_sat == Result::SAT)
-    {
-      std::cout << std::endl;
-      std::cout << "t " << d_smt->getValue(t.toExpr()) << std::endl;
-      std::cout << "x " << d_smt->getValue(x.toExpr()) << std::endl;
-    }
-    TS_ASSERT(res.d_sat == Result::UNSAT);
-  }
-
- public:
-  TheoryQuantifiersBvInverter() {}
-
-  void setUp()
-  {
-    d_em = new ExprManager();
-    d_nm = NodeManager::fromExprManager(d_em);
-    d_smt = new SmtEngine(d_nm);
-    d_smt->setOption("cegqi-full", CVC4::SExpr(true));
-    d_smt->setOption("produce-models", CVC4::SExpr(true));
-    d_scope = new SmtScope(d_smt);
-
-    d_s = d_nm->mkVar("s", d_nm->mkBitVectorType(4));
-    d_t = d_nm->mkVar("t", d_nm->mkBitVectorType(4));
-    d_sk = d_nm->mkSkolem("sk", d_t.getType());
-    d_x = d_nm->mkBoundVar(d_t.getType());
-    d_bvarlist = d_nm->mkNode(BOUND_VAR_LIST, {d_x});
-  }
-
-  void tearDown()
-  {
-    d_bvarlist = Node::null();
-    d_x = Node::null();
-    d_sk = Node::null();
-    d_t = Node::null();
-    d_s = Node::null();
-    delete d_scope;
-    delete d_smt;
-    delete d_em;
-  }
-
-  /* Generic side conditions for LT ---------------------------------------  */
-
-  void testGetScBvUltTrue()
-  {
-    runTestPred(true, BITVECTOR_ULT, d_x, getICBvUltUgt);
-  }
-
-  void testGetScBvUltFalse()
-  {
-    runTestPred(false, BITVECTOR_ULT, d_x, getICBvUltUgt);
-  }
-
-  void testGetScBvUgtTrue()
-  {
-    runTestPred(true, BITVECTOR_UGT, d_x, getICBvUltUgt);
-  }
-
-  void testGetScBvUgtFalse()
-  {
-    runTestPred(false, BITVECTOR_UGT, d_x, getICBvUltUgt);
-  }
-
-  void testGetScBvSltTrue()
-  {
-    runTestPred(true, BITVECTOR_SLT, d_x, getICBvSltSgt);
-  }
-
-  void testGetScBvSltFalse()
-  {
-    runTestPred(false, BITVECTOR_SLT, d_x, getICBvSltSgt);
-  }
-
-  void testGetScBvSgtTrue()
-  {
-    runTestPred(true, BITVECTOR_SGT, d_x, getICBvSltSgt);
-  }
-
-  void testGetScBvSgtFalse()
-  {
-    runTestPred(false, BITVECTOR_SGT, d_x, getICBvSltSgt);
-  }
-
-  /* Equality and Disequality ----------------------------------------------  */
-
-  /* Mult */
-
-  void testGetScBvMultEqTrue0()
-  {
-    runTest(true, EQUAL, BITVECTOR_MULT, 0, getICBvMult);
-  }
-
-  void testGetScBvMultEqTrue1()
-  {
-    runTest(true, EQUAL, BITVECTOR_MULT, 1, getICBvMult);
-  }
-
-  void testGetScBvMultEqFalse0()
-  {
-    runTest(false, EQUAL, BITVECTOR_MULT, 0, getICBvMult);
-  }
-
-  void testGetScBvMultEqFalse1()
-  {
-    runTest(false, EQUAL, BITVECTOR_MULT, 1, getICBvMult);
-  }
-
-  /* Urem */
-
-  void testGetScBvUremEqTrue0()
-  {
-    runTest(true, EQUAL, BITVECTOR_UREM_TOTAL, 0, getICBvUrem);
-  }
-
-  void testGetScBvUremEqTrue1()
-  {
-    runTest(true, EQUAL, BITVECTOR_UREM_TOTAL, 1, getICBvUrem);
-  }
-
-  void testGetScBvUremEqFalse0()
-  {
-    runTest(false, EQUAL, BITVECTOR_UREM_TOTAL, 0, getICBvUrem);
-  }
-
-  void testGetScBvUremEqFalse1()
-  {
-    runTest(false, EQUAL, BITVECTOR_UREM_TOTAL, 1, getICBvUrem);
-  }
-
-  /* Udiv */
-  void testGetScBvUdivEqTrue0()
-  {
-    runTest(true, EQUAL, BITVECTOR_UDIV_TOTAL, 0, getICBvUdiv);
-  }
-
-  void testGetScBvUdivEqTrue1()
-  {
-    runTest(true, EQUAL, BITVECTOR_UDIV_TOTAL, 1, getICBvUdiv);
-  }
-
-  void testGetScBvUdivEqFalse0()
-  {
-    runTest(false, EQUAL, BITVECTOR_UDIV_TOTAL, 0, getICBvUdiv);
-  }
-
-  void testGetScBvUdivEqFalse1()
-  {
-    runTest(false, EQUAL, BITVECTOR_UDIV_TOTAL, 1, getICBvUdiv);
-  }
-
-  /* And */
-
-  void testGetScBvAndEqTrue0()
-  {
-    runTest(true, EQUAL, BITVECTOR_AND, 0, getICBvAndOr);
-  }
-
-  void testGetScBvAndEqTrue1()
-  {
-    runTest(true, EQUAL, BITVECTOR_AND, 1, getICBvAndOr);
-  }
-
-  void testGetScBvAndEqFalse0()
-  {
-    runTest(false, EQUAL, BITVECTOR_AND, 0, getICBvAndOr);
-  }
-
-  void testGetScBvAndEqFalse1()
-  {
-    runTest(false, EQUAL, BITVECTOR_AND, 1, getICBvAndOr);
-  }
-
-  /* Or */
-
-  void testGetScBvOrEqTrue0()
-  {
-    runTest(true, EQUAL, BITVECTOR_OR, 0, getICBvAndOr);
-  }
-
-  void testGetScBvOrEqTrue1()
-  {
-    runTest(true, EQUAL, BITVECTOR_OR, 1, getICBvAndOr);
-  }
-
-  void testGetScBvOrEqFalse0()
-  {
-    runTest(false, EQUAL, BITVECTOR_OR, 0, getICBvAndOr);
-  }
-
-  void testGetScBvOrEqFalse1()
-  {
-    runTest(false, EQUAL, BITVECTOR_OR, 1, getICBvAndOr);
-  }
-
-  /* Lshr */
-
-  void testGetScBvLshrEqTrue0()
-  {
-    runTest(true, EQUAL, BITVECTOR_LSHR, 0, getICBvLshr);
-  }
-
-  void testGetScBvLshrEqTrue1()
-  {
-    runTest(true, EQUAL, BITVECTOR_LSHR, 1, getICBvLshr);
-  }
-
-  void testGetScBvLshrEqFalse0()
-  {
-    runTest(false, EQUAL, BITVECTOR_LSHR, 0, getICBvLshr);
-  }
-
-  void testGetScBvLshrEqFalse1()
-  {
-    runTest(false, EQUAL, BITVECTOR_LSHR, 1, getICBvLshr);
-  }
-
-  /* Ashr */
-
-  void testGetScBvAshrEqTrue0()
-  {
-    runTest(true, EQUAL, BITVECTOR_ASHR, 0, getICBvAshr);
-  }
-
-  void testGetScBvAshrEqTrue1()
-  {
-    runTest(true, EQUAL, BITVECTOR_ASHR, 1, getICBvAshr);
-  }
-
-  void testGetScBvAshrEqFalse0()
-  {
-    runTest(false, EQUAL, BITVECTOR_ASHR, 0, getICBvAshr);
-  }
-
-  void testGetScBvAshrEqFalse1()
-  {
-    runTest(false, EQUAL, BITVECTOR_ASHR, 1, getICBvAshr);
-  }
-
-  /* Shl */
-
-  void testGetScBvShlEqTrue0()
-  {
-    runTest(true, EQUAL, BITVECTOR_SHL, 0, getICBvShl);
-  }
-
-  void testGetScBvShlEqTrue1()
-  {
-    runTest(true, EQUAL, BITVECTOR_SHL, 1, getICBvShl);
-  }
-
-  void testGetScBvShlEqFalse0()
-  {
-    runTest(false, EQUAL, BITVECTOR_SHL, 0, getICBvShl);
-  }
-
-  void testGetScBvShlEqFalse1()
-  {
-    runTest(false, EQUAL, BITVECTOR_SHL, 1, getICBvShl);
-  }
-
-  /* Concat */
-
-  void testGetScBvConcatEqTrue0() { runTestConcat(true, EQUAL, 0); }
-
-  void testGetScBvConcatEqTrue1() { runTestConcat(true, EQUAL, 1); }
-
-  void testGetScBvConcatEqTrue2() { runTestConcat(true, EQUAL, 2); }
-
-  void testGetScBvConcatEqFalse0() { runTestConcat(false, EQUAL, 0); }
-
-  void testGetScBvConcatEqFalse1() { runTestConcat(false, EQUAL, 1); }
-
-  void testGetScBvConcatEqFalse2() { runTestConcat(false, EQUAL, 2); }
-
-  /* Sext */
-
-  void testGetScBvSextEqTrue() { runTestSext(true, EQUAL); }
-
-  void testGetScBvSextEqFalse() { runTestSext(false, EQUAL); }
-
-  /* Inequality ------------------------------------------------------------  */
-
-  /* Not */
-
-  void testGetScBvNotUltTrue0()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_NOT, d_x);
-    runTestPred(true, BITVECTOR_ULT, x, getICBvUltUgt);
-  }
-
-  void testGetScBvNotUltTrue1()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_NOT, d_x);
-    runTestPred(true, BITVECTOR_ULT, x, getICBvUltUgt);
-  }
-
-  void testGetScBvNotUltFalse0()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_NOT, d_x);
-    runTestPred(false, BITVECTOR_ULT, x, getICBvUltUgt);
-  }
-
-  void testGetScBvNotUltFalse1()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_NOT, d_x);
-    runTestPred(false, BITVECTOR_ULT, x, getICBvUltUgt);
-  }
-
-  void testGetScBvNotUgtTrue0()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_NOT, d_x);
-    runTestPred(true, BITVECTOR_UGT, x, getICBvUltUgt);
-  }
-
-  void testGetScBvNotUgtTrue1()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_NOT, d_x);
-    runTestPred(true, BITVECTOR_UGT, x, getICBvUltUgt);
-  }
-
-  void testGetScBvNotUgtFalse0()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_NOT, d_x);
-    runTestPred(false, BITVECTOR_UGT, x, getICBvUltUgt);
-  }
-
-  void testGetScBvNotUgtFalse1()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_NOT, d_x);
-    runTestPred(false, BITVECTOR_UGT, x, getICBvUltUgt);
-  }
-
-  void testGetScBvNotSltTrue0()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_NOT, d_x);
-    runTestPred(true, BITVECTOR_SLT, x, getICBvSltSgt);
-  }
-
-  void testGetScBvNotSltTrue1()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_NOT, d_x);
-    runTestPred(true, BITVECTOR_SLT, x, getICBvSltSgt);
-  }
-
-  void testGetScBvNotSltFalse0()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_NOT, d_x);
-    runTestPred(false, BITVECTOR_SLT, x, getICBvSltSgt);
-  }
-
-  void testGetScBvNotSltFalse1()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_NOT, d_x);
-    runTestPred(false, BITVECTOR_SLT, x, getICBvSltSgt);
-  }
-
-  void testGetScBvNotSgtTrue0()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_NOT, d_x);
-    runTestPred(true, BITVECTOR_SGT, x, getICBvSltSgt);
-  }
-
-  void testGetScBvNotSgtTrue1()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_NOT, d_x);
-    runTestPred(true, BITVECTOR_SGT, x, getICBvSltSgt);
-  }
-
-  void testGetScBvNotSgtFalse0()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_NOT, d_x);
-    runTestPred(false, BITVECTOR_SGT, x, getICBvSltSgt);
-  }
-
-  void testGetScBvNotSgtFalse1()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_NOT, d_x);
-    runTestPred(false, BITVECTOR_SGT, x, getICBvSltSgt);
-  }
-
-  /* Neg */
-
-  void testGetScBvNegUltTrue0()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_NEG, d_x);
-    runTestPred(true, BITVECTOR_ULT, x, getICBvUltUgt);
-  }
-
-  void testGetScBvNegUltTrue1()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_NEG, d_x);
-    runTestPred(true, BITVECTOR_ULT, x, getICBvUltUgt);
-  }
-
-  void testGetScBvNegUltFalse0()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_NEG, d_x);
-    runTestPred(false, BITVECTOR_ULT, x, getICBvUltUgt);
-  }
-
-  void testGetScBvNegUltFalse1()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_NEG, d_x);
-    runTestPred(false, BITVECTOR_ULT, x, getICBvUltUgt);
-  }
-
-  void testGetScBvNegUgtTrue0()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_NEG, d_x);
-    runTestPred(true, BITVECTOR_UGT, x, getICBvUltUgt);
-  }
-
-  void testGetScBvNegUgtTrue1()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_NEG, d_x);
-    runTestPred(true, BITVECTOR_UGT, x, getICBvUltUgt);
-  }
-
-  void testGetScBvNegUgtFalse0()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_NEG, d_x);
-    runTestPred(false, BITVECTOR_UGT, x, getICBvUltUgt);
-  }
-
-  void testGetScBvNegUgtFalse1()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_NEG, d_x);
-    runTestPred(false, BITVECTOR_UGT, x, getICBvUltUgt);
-  }
-
-  void testGetScBvNegSltTrue0()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_NEG, d_x);
-    runTestPred(true, BITVECTOR_SLT, x, getICBvSltSgt);
-  }
-
-  void testGetScBvNegSltTrue1()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_NEG, d_x);
-    runTestPred(true, BITVECTOR_SLT, x, getICBvSltSgt);
-  }
-
-  void testGetScBvNegSltFalse0()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_NEG, d_x);
-    runTestPred(false, BITVECTOR_SLT, x, getICBvSltSgt);
-  }
-
-  void testGetScBvNegSltFalse1()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_NEG, d_x);
-    runTestPred(false, BITVECTOR_SLT, x, getICBvSltSgt);
-  }
-
-  void testGetScBvNegSgtTrue0()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_NEG, d_x);
-    runTestPred(true, BITVECTOR_SGT, x, getICBvSltSgt);
-  }
-
-  void testGetScBvNegSgtTrue1()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_NEG, d_x);
-    runTestPred(true, BITVECTOR_SGT, x, getICBvSltSgt);
-  }
-
-  void testGetScBvNegSgtFalse0()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_NEG, d_x);
-    runTestPred(false, BITVECTOR_SGT, x, getICBvSltSgt);
-  }
-
-  void testGetScBvNegSgtFalse1()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_NEG, d_x);
-    runTestPred(false, BITVECTOR_SGT, x, getICBvSltSgt);
-  }
-
-  /* Add */
-
-  void testGetScBvPlusUltTrue0()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_PLUS, d_x, d_s);
-    runTestPred(true, BITVECTOR_ULT, x, getICBvUltUgt);
-  }
-
-  void testGetScBvPlusUltTrue1()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_PLUS, d_s, d_x);
-    runTestPred(true, BITVECTOR_ULT, x, getICBvUltUgt);
-  }
-
-  void testGetScBvPlusUltFalse0()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_PLUS, d_x, d_s);
-    runTestPred(false, BITVECTOR_ULT, x, getICBvUltUgt);
-  }
-
-  void testGetScBvPlusUltFalse1()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_PLUS, d_s, d_x);
-    runTestPred(false, BITVECTOR_ULT, x, getICBvUltUgt);
-  }
-
-  void testGetScBvPlusUgtTrue0()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_PLUS, d_x, d_s);
-    runTestPred(true, BITVECTOR_UGT, x, getICBvUltUgt);
-  }
-
-  void testGetScBvPlusUgtTrue1()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_PLUS, d_s, d_x);
-    runTestPred(true, BITVECTOR_UGT, x, getICBvUltUgt);
-  }
-
-  void testGetScBvPlusUgtFalse0()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_PLUS, d_x, d_s);
-    runTestPred(false, BITVECTOR_UGT, x, getICBvUltUgt);
-  }
-
-  void testGetScBvPlusUgtFalse1()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_PLUS, d_s, d_x);
-    runTestPred(false, BITVECTOR_UGT, x, getICBvUltUgt);
-  }
-
-  void testGetScBvPlusSltTrue0()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_PLUS, d_x, d_s);
-    runTestPred(true, BITVECTOR_SLT, x, getICBvSltSgt);
-  }
-
-  void testGetScBvPlusSltTrue1()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_PLUS, d_s, d_x);
-    runTestPred(true, BITVECTOR_SLT, x, getICBvSltSgt);
-  }
-
-  void testGetScBvPlusSltFalse0()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_PLUS, d_x, d_s);
-    runTestPred(false, BITVECTOR_SLT, x, getICBvSltSgt);
-  }
-
-  void testGetScBvPlusSltFalse1()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_PLUS, d_s, d_x);
-    runTestPred(false, BITVECTOR_SLT, x, getICBvSltSgt);
-  }
-
-  void testGetScBvPlusSgtTrue0()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_PLUS, d_x, d_s);
-    runTestPred(true, BITVECTOR_SGT, x, getICBvSltSgt);
-  }
-
-  void testGetScBvPlusSgtTrue1()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_PLUS, d_s, d_x);
-    runTestPred(true, BITVECTOR_SGT, x, getICBvSltSgt);
-  }
-
-  void testGetScBvPlusSgtFalse0()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_PLUS, d_x, d_s);
-    runTestPred(false, BITVECTOR_SGT, x, getICBvSltSgt);
-  }
-
-  void testGetScBvPlusSgtFalse1()
-  {
-    Node x = d_nm->mkNode(BITVECTOR_PLUS, d_s, d_x);
-    runTestPred(false, BITVECTOR_SGT, x, getICBvSltSgt);
-  }
-
-  /* Mult */
-
-  void testGetScBvMultUltTrue0()
-  {
-    runTest(true, BITVECTOR_ULT, BITVECTOR_MULT, 0, getICBvMult);
-  }
-
-  void testGetScBvMultUltTrue1()
-  {
-    runTest(true, BITVECTOR_ULT, BITVECTOR_MULT, 1, getICBvMult);
-  }
-
-  void testGetScBvMultUltFalse0()
-  {
-    runTest(false, BITVECTOR_ULT, BITVECTOR_MULT, 0, getICBvMult);
-  }
-
-  void testGetScBvMultUltFalse1()
-  {
-    runTest(false, BITVECTOR_ULT, BITVECTOR_MULT, 1, getICBvMult);
-  }
-
-  void testGetScBvMultUgtTrue0()
-  {
-    runTest(true, BITVECTOR_UGT, BITVECTOR_MULT, 0, getICBvMult);
-  }
-
-  void testGetScBvMultUgtTrue1()
-  {
-    runTest(true, BITVECTOR_UGT, BITVECTOR_MULT, 1, getICBvMult);
-  }
-
-  void testGetScBvMultUgtFalse0()
-  {
-    runTest(false, BITVECTOR_UGT, BITVECTOR_MULT, 0, getICBvMult);
-  }
-
-  void testGetScBvMultUgtFalse1()
-  {
-    runTest(false, BITVECTOR_UGT, BITVECTOR_MULT, 1, getICBvMult);
-  }
-
-  void testGetScBvMultSltTrue0()
-  {
-    runTest(true, BITVECTOR_SLT, BITVECTOR_MULT, 0, getICBvMult);
-  }
-
-  void testGetScBvMultSltTrue1()
-  {
-    runTest(true, BITVECTOR_SLT, BITVECTOR_MULT, 1, getICBvMult);
-  }
-
-  void testGetScBvMultSltFalse0()
-  {
-    runTest(false, BITVECTOR_SLT, BITVECTOR_MULT, 0, getICBvMult);
-  }
-
-  void testGetScBvMultSltFalse1()
-  {
-    runTest(false, BITVECTOR_SLT, BITVECTOR_MULT, 1, getICBvMult);
-  }
-
-  void testGetScBvMultSgtTrue0()
-  {
-    runTest(true, BITVECTOR_SGT, BITVECTOR_MULT, 0, getICBvMult);
-  }
-
-  void testGetScBvMultSgtTrue1()
-  {
-    runTest(true, BITVECTOR_SGT, BITVECTOR_MULT, 1, getICBvMult);
-  }
-
-  void testGetScBvMultSgtFalse0()
-  {
-    runTest(false, BITVECTOR_SGT, BITVECTOR_MULT, 0, getICBvMult);
-  }
-
-  void testGetScBvMultSgtFalse1()
-  {
-    runTest(false, BITVECTOR_SGT, BITVECTOR_MULT, 1, getICBvMult);
-  }
-
-  /* Urem */
-
-  void testGetScBvUremUltTrue0()
-  {
-    runTest(true, BITVECTOR_ULT, BITVECTOR_UREM_TOTAL, 0, getICBvUrem);
-  }
-
-  void testGetScBvUremUltTrue1()
-  {
-    runTest(true, BITVECTOR_ULT, BITVECTOR_UREM_TOTAL, 1, getICBvUrem);
-  }
-
-  void testGetScBvUremUltFalse0()
-  {
-    runTest(false, BITVECTOR_ULT, BITVECTOR_UREM_TOTAL, 0, getICBvUrem);
-  }
-
-  void testGetScBvUremUltFalse1()
-  {
-    runTest(false, BITVECTOR_ULT, BITVECTOR_UREM_TOTAL, 1, getICBvUrem);
-  }
-
-  void testGetScBvUremUgtTrue0()
-  {
-    runTest(true, BITVECTOR_UGT, BITVECTOR_UREM_TOTAL, 0, getICBvUrem);
-  }
-
-  void testGetScBvUremUgtTrue1()
-  {
-    runTest(true, BITVECTOR_UGT, BITVECTOR_UREM_TOTAL, 1, getICBvUrem);
-  }
-
-  void testGetScBvUremUgtFalse0()
-  {
-    runTest(false, BITVECTOR_UGT, BITVECTOR_UREM_TOTAL, 0, getICBvUrem);
-  }
-
-  void testGetScBvUremUgtFalse1()
-  {
-    runTest(false, BITVECTOR_UGT, BITVECTOR_UREM_TOTAL, 1, getICBvUrem);
-  }
-
-  void testGetScBvUremSltTrue0()
-  {
-    runTest(true, BITVECTOR_SLT, BITVECTOR_UREM_TOTAL, 0, getICBvUrem);
-  }
-
-  void testGetScBvUremSltTrue1()
-  {
-    runTest(true, BITVECTOR_SLT, BITVECTOR_UREM_TOTAL, 1, getICBvUrem);
-  }
-
-  void testGetScBvUremSltFalse0()
-  {
-    runTest(false, BITVECTOR_SLT, BITVECTOR_UREM_TOTAL, 0, getICBvUrem);
-  }
-
-  void testGetScBvUremSltFalse1()
-  {
-    runTest(false, BITVECTOR_SLT, BITVECTOR_UREM_TOTAL, 1, getICBvUrem);
-  }
-
-  void testGetScBvUremSgtTrue0()
-  {
-    runTest(true, BITVECTOR_SGT, BITVECTOR_UREM_TOTAL, 0, getICBvUrem);
-  }
-
-  void testGetScBvUremSgtTrue1()
-  {
-    runTest(true, BITVECTOR_SGT, BITVECTOR_UREM_TOTAL, 1, getICBvUrem);
-  }
-
-  void testGetScBvUremSgtFalse0()
-  {
-    runTest(false, BITVECTOR_SGT, BITVECTOR_UREM_TOTAL, 0, getICBvUrem);
-  }
-
-  void testGetScBvUremSgtFalse1()
-  {
-    runTest(false, BITVECTOR_SGT, BITVECTOR_UREM_TOTAL, 1, getICBvUrem);
-  }
-
-  /* Udiv */
-
-  void testGetScBvUdivUltTrue0()
-  {
-    runTest(true, BITVECTOR_ULT, BITVECTOR_UDIV_TOTAL, 0, getICBvUdiv);
-  }
-
-  void testGetScBvUdivUltTrue1()
-  {
-    runTest(true, BITVECTOR_ULT, BITVECTOR_UDIV_TOTAL, 1, getICBvUdiv);
-  }
-
-  void testGetScBvUdivUltFalse0()
-  {
-    runTest(false, BITVECTOR_ULT, BITVECTOR_UDIV_TOTAL, 0, getICBvUdiv);
-  }
-
-  void testGetScBvUdivUltFalse1()
-  {
-    runTest(false, BITVECTOR_ULT, BITVECTOR_UDIV_TOTAL, 1, getICBvUdiv);
-  }
-
-  void testGetScBvUdivUgtTrue0()
-  {
-    runTest(true, BITVECTOR_UGT, BITVECTOR_UDIV_TOTAL, 0, getICBvUdiv);
-  }
-
-  void testGetScBvUdivUgtTrue1()
-  {
-    runTest(true, BITVECTOR_UGT, BITVECTOR_UDIV_TOTAL, 1, getICBvUdiv);
-  }
-
-  void testGetScBvUdivUgtFalse0()
-  {
-    runTest(false, BITVECTOR_UGT, BITVECTOR_UDIV_TOTAL, 0, getICBvUdiv);
-  }
-
-  void testGetScBvUdivUgtFalse1()
-  {
-    runTest(false, BITVECTOR_UGT, BITVECTOR_UDIV_TOTAL, 1, getICBvUdiv);
-  }
-
-  void testGetScBvUdivSltTrue0()
-  {
-    runTest(true, BITVECTOR_SLT, BITVECTOR_UDIV_TOTAL, 0, getICBvUdiv);
-  }
-
-  void testGetScBvUdivSltTrue1()
-  {
-    runTest(true, BITVECTOR_SLT, BITVECTOR_UDIV_TOTAL, 1, getICBvUdiv);
-  }
-
-  void testGetScBvUdivSltFalse0()
-  {
-    runTest(false, BITVECTOR_SLT, BITVECTOR_UDIV_TOTAL, 0, getICBvUdiv);
-  }
-
-  void testGetScBvUdivSltFalse1()
-  {
-    runTest(false, BITVECTOR_SLT, BITVECTOR_UDIV_TOTAL, 1, getICBvUdiv);
-  }
-
-  void testGetScBvUdivSgtTrue0()
-  {
-    runTest(true, BITVECTOR_SGT, BITVECTOR_UDIV_TOTAL, 0, getICBvUdiv);
-  }
-
-  void testGetScBvUdivSgtTrue1()
-  {
-    runTest(true, BITVECTOR_SGT, BITVECTOR_UDIV_TOTAL, 1, getICBvUdiv);
-  }
-
-  void testGetScBvUdivSgtFalse0()
-  {
-    runTest(false, BITVECTOR_SGT, BITVECTOR_UDIV_TOTAL, 0, getICBvUdiv);
-  }
-
-  void testGetScBvUdivSgtFalse1()
-  {
-    runTest(false, BITVECTOR_SGT, BITVECTOR_UDIV_TOTAL, 1, getICBvUdiv);
-  }
-
-  /* And */
-
-  void testGetScBvAndUltTrue0()
-  {
-    runTest(true, BITVECTOR_ULT, BITVECTOR_AND, 0, getICBvAndOr);
-  }
-
-  void testGetScBvAndUltTrue1()
-  {
-    runTest(true, BITVECTOR_ULT, BITVECTOR_AND, 1, getICBvAndOr);
-  }
-
-  void testGetScBvAndUltFalse0()
-  {
-    runTest(false, BITVECTOR_ULT, BITVECTOR_AND, 0, getICBvAndOr);
-  }
-
-  void testGetScBvAndUltFalse1()
-  {
-    runTest(false, BITVECTOR_ULT, BITVECTOR_AND, 1, getICBvAndOr);
-  }
-
-  void testGetScBvAndUgtTrue0()
-  {
-    runTest(true, BITVECTOR_UGT, BITVECTOR_AND, 0, getICBvAndOr);
-  }
-
-  void testGetScBvAndUgtTrue1()
-  {
-    runTest(true, BITVECTOR_UGT, BITVECTOR_AND, 1, getICBvAndOr);
-  }
-
-  void testGetScBvAndUgtFalse0()
-  {
-    runTest(false, BITVECTOR_UGT, BITVECTOR_AND, 0, getICBvAndOr);
-  }
-
-  void testGetScBvAndUgtFalse1()
-  {
-    runTest(false, BITVECTOR_UGT, BITVECTOR_AND, 1, getICBvAndOr);
-  }
-
-  void testGetScBvAndSltTrue0()
-  {
-    runTest(true, BITVECTOR_SLT, BITVECTOR_AND, 0, getICBvAndOr);
-  }
-
-  void testGetScBvAndSltTrue1()
-  {
-    runTest(true, BITVECTOR_SLT, BITVECTOR_AND, 1, getICBvAndOr);
-  }
-
-  void testGetScBvAndSltFalse0()
-  {
-    runTest(false, BITVECTOR_SLT, BITVECTOR_AND, 0, getICBvAndOr);
-  }
-
-  void testGetScBvAndSltFalse1()
-  {
-    runTest(false, BITVECTOR_SLT, BITVECTOR_AND, 1, getICBvAndOr);
-  }
-
-  void testGetScBvAndSgtTrue0()
-  {
-    runTest(true, BITVECTOR_SGT, BITVECTOR_AND, 0, getICBvAndOr);
-  }
-
-  void testGetScBvAndSgtTrue1()
-  {
-    runTest(true, BITVECTOR_SGT, BITVECTOR_AND, 1, getICBvAndOr);
-  }
-
-  void testGetScBvAndSgtFalse0()
-  {
-    runTest(false, BITVECTOR_SGT, BITVECTOR_AND, 0, getICBvAndOr);
-  }
-
-  void testGetScBvAndSgtFalse1()
-  {
-    runTest(false, BITVECTOR_SGT, BITVECTOR_AND, 1, getICBvAndOr);
-  }
-
-  /* Or */
-
-  void testGetScBvOrUltTrue0()
-  {
-    runTest(true, BITVECTOR_ULT, BITVECTOR_OR, 0, getICBvAndOr);
-  }
-
-  void testGetScBvOrUltTrue1()
-  {
-    runTest(true, BITVECTOR_ULT, BITVECTOR_OR, 1, getICBvAndOr);
-  }
-
-  void testGetScBvOrUltFalse0()
-  {
-    runTest(false, BITVECTOR_ULT, BITVECTOR_OR, 0, getICBvAndOr);
-  }
-
-  void testGetScBvOrUltFalse1()
-  {
-    runTest(false, BITVECTOR_ULT, BITVECTOR_OR, 1, getICBvAndOr);
-  }
-
-  void testGetScBvOrUgtTrue0()
-  {
-    runTest(true, BITVECTOR_UGT, BITVECTOR_OR, 0, getICBvAndOr);
-  }
-
-  void testGetScBvOrUgtTrue1()
-  {
-    runTest(true, BITVECTOR_UGT, BITVECTOR_OR, 1, getICBvAndOr);
-  }
-
-  void testGetScBvOrUgtFalse0()
-  {
-    runTest(false, BITVECTOR_UGT, BITVECTOR_OR, 0, getICBvAndOr);
-  }
-
-  void testGetScBvOrUgtFalse1()
-  {
-    runTest(false, BITVECTOR_UGT, BITVECTOR_OR, 1, getICBvAndOr);
-  }
-
-  void testGetScBvOrSltTrue0()
-  {
-    runTest(true, BITVECTOR_SLT, BITVECTOR_OR, 0, getICBvAndOr);
-  }
-
-  void testGetScBvOrSltTrue1()
-  {
-    runTest(true, BITVECTOR_SLT, BITVECTOR_OR, 1, getICBvAndOr);
-  }
-
-  void testGetScBvOrSltFalse0()
-  {
-    runTest(false, BITVECTOR_SLT, BITVECTOR_OR, 0, getICBvAndOr);
-  }
-
-  void testGetScBvOrSltFalse1()
-  {
-    runTest(false, BITVECTOR_SLT, BITVECTOR_OR, 1, getICBvAndOr);
-  }
-
-  void testGetScBvOrSgtTrue0()
-  {
-    runTest(true, BITVECTOR_SGT, BITVECTOR_OR, 0, getICBvAndOr);
-  }
-
-  void testGetScBvOrSgtTrue1()
-  {
-    runTest(true, BITVECTOR_SGT, BITVECTOR_OR, 1, getICBvAndOr);
-  }
-
-  void testGetScBvOrSgtFalse0()
-  {
-    runTest(false, BITVECTOR_SGT, BITVECTOR_OR, 0, getICBvAndOr);
-  }
-
-  void testGetScBvOrSgtFalse1()
-  {
-    runTest(false, BITVECTOR_SGT, BITVECTOR_OR, 1, getICBvAndOr);
-  }
-
-  /* Lshr */
-
-  void testGetScBvLshrUltTrue0()
-  {
-    runTest(true, BITVECTOR_ULT, BITVECTOR_LSHR, 0, getICBvLshr);
-  }
-
-  void testGetScBvLshrUltTrue1()
-  {
-    runTest(true, BITVECTOR_ULT, BITVECTOR_LSHR, 1, getICBvLshr);
-  }
-
-  void testGetScBvLshrUltFalse0()
-  {
-    runTest(false, BITVECTOR_ULT, BITVECTOR_LSHR, 0, getICBvLshr);
-  }
-
-  void testGetScBvLshrUltFalse1()
-  {
-    runTest(false, BITVECTOR_ULT, BITVECTOR_LSHR, 1, getICBvLshr);
-  }
-
-  void testGetScBvLshrUgtTrue0()
-  {
-    runTest(true, BITVECTOR_UGT, BITVECTOR_LSHR, 0, getICBvLshr);
-  }
-
-  void testGetScBvLshrUgtTrue1()
-  {
-    runTest(true, BITVECTOR_UGT, BITVECTOR_LSHR, 1, getICBvLshr);
-  }
-
-  void testGetScBvLshrUgtFalse0()
-  {
-    runTest(false, BITVECTOR_UGT, BITVECTOR_LSHR, 0, getICBvLshr);
-  }
-
-  void testGetScBvLshrUgtFalse1()
-  {
-    runTest(false, BITVECTOR_UGT, BITVECTOR_LSHR, 1, getICBvLshr);
-  }
-
-  void testGetScBvLshrSltTrue0()
-  {
-    runTest(true, BITVECTOR_SLT, BITVECTOR_LSHR, 0, getICBvLshr);
-  }
-
-  void testGetScBvLshrSltTrue1()
-  {
-    runTest(true, BITVECTOR_SLT, BITVECTOR_LSHR, 1, getICBvLshr);
-  }
-
-  void testGetScBvLshrSltFalse0()
-  {
-    runTest(false, BITVECTOR_SLT, BITVECTOR_LSHR, 0, getICBvLshr);
-  }
-
-  void testGetScBvLshrSltFalse1()
-  {
-    runTest(false, BITVECTOR_SLT, BITVECTOR_LSHR, 1, getICBvLshr);
-  }
-
-  void testGetScBvLshrSgtTrue0()
-  {
-    runTest(true, BITVECTOR_SGT, BITVECTOR_LSHR, 0, getICBvLshr);
-  }
-
-  void testGetScBvLshrSgtTrue1()
-  {
-    runTest(true, BITVECTOR_SGT, BITVECTOR_LSHR, 1, getICBvLshr);
-  }
-
-  void testGetScBvLshrSgtFalse0()
-  {
-    runTest(false, BITVECTOR_SGT, BITVECTOR_LSHR, 0, getICBvLshr);
-  }
-
-  void testGetScBvLshrSgtFalse1()
-  {
-    runTest(false, BITVECTOR_SGT, BITVECTOR_LSHR, 1, getICBvLshr);
-  }
-
-  /* Ashr */
-
-  void testGetScBvAshrUltTrue0()
-  {
-    runTest(true, BITVECTOR_ULT, BITVECTOR_ASHR, 0, getICBvAshr);
-  }
-
-  void testGetScBvAshrUltTrue1()
-  {
-    runTest(true, BITVECTOR_ULT, BITVECTOR_ASHR, 1, getICBvAshr);
-  }
-
-  void testGetScBvAshrUltFalse0()
-  {
-    runTest(false, BITVECTOR_ULT, BITVECTOR_ASHR, 0, getICBvAshr);
-  }
-
-  void testGetScBvAshrUltFalse1()
-  {
-    runTest(false, BITVECTOR_ULT, BITVECTOR_ASHR, 1, getICBvAshr);
-  }
-
-  void testGetScBvAshrUgtTrue0()
-  {
-    runTest(true, BITVECTOR_UGT, BITVECTOR_ASHR, 0, getICBvAshr);
-  }
-
-  void testGetScBvAshrUgtTrue1()
-  {
-    runTest(true, BITVECTOR_UGT, BITVECTOR_ASHR, 1, getICBvAshr);
-  }
-
-  void testGetScBvAshrUgtFalse0()
-  {
-    runTest(false, BITVECTOR_UGT, BITVECTOR_ASHR, 0, getICBvAshr);
-  }
-
-  void testGetScBvAshrUgtFalse1()
-  {
-    runTest(false, BITVECTOR_UGT, BITVECTOR_ASHR, 1, getICBvAshr);
-  }
-
-  void testGetScBvAshrSltTrue0()
-  {
-    runTest(true, BITVECTOR_SLT, BITVECTOR_ASHR, 0, getICBvAshr);
-  }
-
-  void testGetScBvAshrSltTrue1()
-  {
-    runTest(true, BITVECTOR_SLT, BITVECTOR_ASHR, 1, getICBvAshr);
-  }
-
-  void testGetScBvAshrSltFalse0()
-  {
-    runTest(false, BITVECTOR_SLT, BITVECTOR_ASHR, 0, getICBvAshr);
-  }
-
-  void testGetScBvAshrSltFalse1()
-  {
-    runTest(false, BITVECTOR_SLT, BITVECTOR_ASHR, 1, getICBvAshr);
-  }
-
-  void testGetScBvAshrSgtTrue0()
-  {
-    runTest(true, BITVECTOR_SGT, BITVECTOR_ASHR, 0, getICBvAshr);
-  }
-
-  void testGetScBvAshrSgtTrue1()
-  {
-    runTest(true, BITVECTOR_SGT, BITVECTOR_ASHR, 1, getICBvAshr);
-  }
-
-  void testGetScBvAshrSgtFalse0()
-  {
-    runTest(false, BITVECTOR_SGT, BITVECTOR_ASHR, 0, getICBvAshr);
-  }
-
-  void testGetScBvAshrSgtFalse1()
-  {
-    runTest(false, BITVECTOR_SGT, BITVECTOR_ASHR, 1, getICBvAshr);
-  }
-
-  /* Shl */
-
-  void testGetScBvShlUltTrue0()
-  {
-    runTest(true, BITVECTOR_ULT, BITVECTOR_SHL, 0, getICBvShl);
-  }
-
-  void testGetScBvShlUltTrue1()
-  {
-    runTest(true, BITVECTOR_ULT, BITVECTOR_SHL, 1, getICBvShl);
-  }
-
-  void testGetScBvShlUltFalse0()
-  {
-    runTest(false, BITVECTOR_ULT, BITVECTOR_SHL, 0, getICBvShl);
-  }
-
-  void testGetScBvShlUltFalse1()
-  {
-    runTest(false, BITVECTOR_ULT, BITVECTOR_SHL, 1, getICBvShl);
-  }
-
-  void testGetScBvShlUgtTrue0()
-  {
-    runTest(true, BITVECTOR_UGT, BITVECTOR_SHL, 0, getICBvShl);
-  }
-
-  void testGetScBvShlUgtTrue1()
-  {
-    runTest(true, BITVECTOR_UGT, BITVECTOR_SHL, 1, getICBvShl);
-  }
-
-  void testGetScBvShlUgtFalse0()
-  {
-    runTest(false, BITVECTOR_UGT, BITVECTOR_SHL, 0, getICBvShl);
-  }
-
-  void testGetScBvShlUgtFalse1()
-  {
-    runTest(false, BITVECTOR_UGT, BITVECTOR_SHL, 1, getICBvShl);
-  }
-
-  void testGetScBvShlSltTrue0()
-  {
-    runTest(true, BITVECTOR_SLT, BITVECTOR_SHL, 0, getICBvShl);
-  }
-
-  void testGetScBvShlSltTrue1()
-  {
-    runTest(true, BITVECTOR_SLT, BITVECTOR_SHL, 1, getICBvShl);
-  }
-
-  void testGetScBvShlSltFalse0()
-  {
-    runTest(false, BITVECTOR_SLT, BITVECTOR_SHL, 0, getICBvShl);
-  }
-
-  void testGetScBvShlSltFalse1()
-  {
-    runTest(false, BITVECTOR_SLT, BITVECTOR_SHL, 1, getICBvShl);
-  }
-
-  void testGetScBvShlSgtTrue0()
-  {
-    runTest(true, BITVECTOR_SGT, BITVECTOR_SHL, 0, getICBvShl);
-  }
-
-  void testGetScBvShlSgtTrue1()
-  {
-    runTest(true, BITVECTOR_SGT, BITVECTOR_SHL, 1, getICBvShl);
-  }
-
-  void testGetScBvShlSgtFalse0()
-  {
-    runTest(false, BITVECTOR_SGT, BITVECTOR_SHL, 0, getICBvShl);
-  }
-
-  void testGetScBvShlSgtFalse1()
-  {
-    runTest(false, BITVECTOR_SGT, BITVECTOR_SHL, 1, getICBvShl);
-  }
-
-  /* Concat */
-
-  void testGetScBvConcatUltTrue0() { runTestConcat(true, BITVECTOR_ULT, 0); }
-
-  void testGetScBvConcatUltTrue1() { runTestConcat(true, BITVECTOR_ULT, 1); }
-
-  void testGetScBvConcatUltTrue2() { runTestConcat(true, BITVECTOR_ULT, 2); }
-
-  void testGetScBvConcatUltFalse0() { runTestConcat(false, BITVECTOR_ULT, 0); }
-
-  void testGetScBvConcatUltFalse1() { runTestConcat(false, BITVECTOR_ULT, 1); }
-
-  void testGetScBvConcatUltFalse2() { runTestConcat(false, BITVECTOR_ULT, 2); }
-
-  void testGetScBvConcatUgtTrue0() { runTestConcat(true, BITVECTOR_UGT, 0); }
-
-  void testGetScBvConcatUgtTrue1() { runTestConcat(true, BITVECTOR_UGT, 1); }
-
-  void testGetScBvConcatUgtTrue2() { runTestConcat(true, BITVECTOR_UGT, 2); }
-
-  void testGetScBvConcatUgtFalse0() { runTestConcat(false, BITVECTOR_UGT, 0); }
-
-  void testGetScBvConcatUgtFalse1() { runTestConcat(false, BITVECTOR_UGT, 1); }
-
-  void testGetScBvConcatUgtFalse2() { runTestConcat(false, BITVECTOR_UGT, 2); }
-
-  void testGetScBvConcatSltTrue0() { runTestConcat(true, BITVECTOR_SLT, 0); }
-
-  void testGetScBvConcatSltTrue1() { runTestConcat(true, BITVECTOR_SLT, 1); }
-
-  void testGetScBvConcatSltTrue2() { runTestConcat(true, BITVECTOR_SLT, 2); }
-
-  void testGetScBvConcatSltFalse0() { runTestConcat(false, BITVECTOR_SLT, 0); }
-
-  void testGetScBvConcatSltFalse1() { runTestConcat(false, BITVECTOR_SLT, 1); }
-
-  void testGetScBvConcatSltFalse2() { runTestConcat(false, BITVECTOR_SLT, 2); }
-
-  void testGetScBvConcatSgtTrue0() { runTestConcat(true, BITVECTOR_SGT, 0); }
-
-  void testGetScBvConcatSgtTrue1() { runTestConcat(true, BITVECTOR_SGT, 1); }
-
-  void testGetScBvConcatSgtTrue2() { runTestConcat(true, BITVECTOR_SGT, 2); }
-
-  void testGetScBvConcatSgtFalse0() { runTestConcat(false, BITVECTOR_SGT, 0); }
-
-  void testGetScBvConcatSgtFalse1() { runTestConcat(false, BITVECTOR_SGT, 1); }
-
-  void testGetScBvConcatSgtFalse2() { runTestConcat(false, BITVECTOR_SGT, 2); }
-
-  /* Sext */
-
-  void testGetScBvSextUltTrue() { runTestSext(true, BITVECTOR_ULT); }
-
-  void testGetScBvSextUltFalse() { runTestSext(false, BITVECTOR_ULT); }
-
-  void testGetScBvSextUgtTrue() { runTestSext(true, BITVECTOR_UGT); }
-
-  void testGetScBvSextUgtFalse() { runTestSext(false, BITVECTOR_UGT); }
-
-  void testGetScBvSextSltTrue() { runTestSext(true, BITVECTOR_SLT); }
-
-  void testGetScBvSextSltFalse() { runTestSext(false, BITVECTOR_SLT); }
-
-  void testGetScBvSextSgtTrue() { runTestSext(true, BITVECTOR_SGT); }
-
-  void testGetScBvSextSgtFalse() { runTestSext(false, BITVECTOR_SGT); }
-};