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#
# Option specification file for CVC4
# See src/options/base_options for a description of this file format
#
module QUANTIFIERS "options/quantifiers_options.h" Quantifiers
#### rewriter options
# Whether to mini-scope quantifiers.
# For example, forall x. ( P( x ) ^ Q( x ) ) will be rewritten to
# ( forall x. P( x ) ) ^ ( forall x. Q( x ) )
option miniscopeQuant --miniscope-quant bool :default true :read-write
miniscope quantifiers
# Whether to mini-scope quantifiers based on formulas with no free variables.
# For example, forall x. ( P( x ) V Q ) will be rewritten to
# ( forall x. P( x ) ) V Q
option miniscopeQuantFreeVar --miniscope-quant-fv bool :default true :read-write
miniscope quantifiers for ground subformulas
option quantSplit --quant-split bool :default true
apply splitting to quantified formulas based on variable disjoint disjuncts
option prenexQuant --prenex-quant=MODE CVC4::theory::quantifiers::PrenexQuantMode :default CVC4::theory::quantifiers::PRENEX_NO_USER_PAT :include "options/quantifiers_modes.h" :read-write :handler stringToPrenexQuantMode
prenex mode for quantified formulas
# Whether to variable-eliminate quantifiers.
# For example, forall x y. ( P( x, y ) V x != c ) will be rewritten to
# forall y. P( c, y )
option varElimQuant --var-elim-quant bool :default true
enable simple variable elimination for quantified formulas
option dtVarExpandQuant --dt-var-exp-quant bool :default true
expand datatype variables bound to one constructor in quantifiers
#ite lift mode for quantified formulas
option iteLiftQuant --ite-lift-quant=MODE CVC4::theory::quantifiers::IteLiftQuantMode :default CVC4::theory::quantifiers::ITE_LIFT_QUANT_MODE_SIMPLE :include "options/quantifiers_modes.h" :read-write :handler stringToIteLiftQuantMode
ite lifting mode for quantified formulas
option condVarSplitQuant --cond-var-split-quant bool :default true
split quantified formulas that lead to variable eliminations
option condVarSplitQuantAgg --cond-var-split-agg-quant bool :default false
aggressive split quantified formulas that lead to variable eliminations
option iteDtTesterSplitQuant --ite-dtt-split-quant bool :read-write :default false
split ites with dt testers as conditions
# Whether to CNF quantifier bodies
# option cnfQuant --cnf-quant bool :default false
# apply CNF conversion to quantified formulas
option nnfQuant --nnf-quant bool :default true
apply NNF conversion to quantified formulas
# Whether to pre-skolemize quantifier bodies.
# For example, forall x. ( P( x ) => (exists y. f( y ) = x) ) will be rewritten to
# forall x. P( x ) => f( S( x ) ) = x
option preSkolemQuant --pre-skolem-quant bool :read-write :default false
apply skolemization eagerly to bodies of quantified formulas
option preSkolemQuantNested --pre-skolem-quant-nested bool :read-write :default true
apply skolemization to nested quantified formulass
option preSkolemQuantAgg --pre-skolem-quant-agg bool :read-write :default true
apply skolemization to quantified formulas aggressively
option aggressiveMiniscopeQuant --ag-miniscope-quant bool :default false
perform aggressive miniscoping for quantifiers
option elimTautQuant --elim-taut-quant bool :default true
eliminate tautological disjuncts of quantified formulas
option purifyQuant --purify-quant bool :default false
purify quantified formulas
#### E-matching options
option eMatching --e-matching bool :read-write :default true
whether to do heuristic E-matching
option termDbMode --term-db-mode CVC4::theory::quantifiers::TermDbMode :default CVC4::theory::quantifiers::TERM_DB_ALL :read-write :include "options/quantifiers_modes.h" :handler stringToTermDbMode
which ground terms to consider for instantiation
option registerQuantBodyTerms --register-quant-body-terms bool :default false
consider ground terms within bodies of quantified formulas for matching
option smartTriggers --smart-triggers bool :default true
enable smart triggers
option relevantTriggers --relevant-triggers bool :default false
prefer triggers that are more relevant based on SInE style analysis
option relationalTriggers --relational-triggers bool :default false
choose relational triggers such as x = f(y), x >= f(y)
option purifyTriggers --purify-triggers bool :default false :read-write
purify triggers, e.g. f( x+1 ) becomes f( y ), x mapsto y-1
option purifyDtTriggers --purify-dt-triggers bool :default false :read-write
purify dt triggers, match all constructors of correct form instead of selectors
option pureThTriggers --pure-th-triggers bool :default false :read-write
use pure theory terms as single triggers
option partialTriggers --partial-triggers bool :default false :read-write
use triggers that do not contain all free variables
option multiTriggerWhenSingle --multi-trigger-when-single bool :default false
select multi triggers when single triggers exist
option multiTriggerPriority --multi-trigger-priority bool :default false
only try multi triggers if single triggers give no instantiations
option triggerSelMode --trigger-sel CVC4::theory::quantifiers::TriggerSelMode :default CVC4::theory::quantifiers::TRIGGER_SEL_DEFAULT :read-write :include "options/quantifiers_modes.h" :handler stringToTriggerSelMode
selection mode for triggers
option userPatternsQuant --user-pat=MODE CVC4::theory::quantifiers::UserPatMode :default CVC4::theory::quantifiers::USER_PAT_MODE_TRUST :include "options/quantifiers_modes.h" :handler stringToUserPatMode
policy for handling user-provided patterns for quantifier instantiation
option incrementTriggers --increment-triggers bool :default true
generate additional triggers as needed during search
option instWhenMode --inst-when=MODE CVC4::theory::quantifiers::InstWhenMode :default CVC4::theory::quantifiers::INST_WHEN_FULL_LAST_CALL :read-write :include "options/quantifiers_modes.h" :handler stringToInstWhenMode :predicate checkInstWhenMode
when to apply instantiation
option instMaxLevel --inst-max-level=N int :read-write :default -1
maximum inst level of terms used to instantiate quantified formulas with (-1 == no limit, default)
option instLevelInputOnly --inst-level-input-only bool :default true
only input terms are assigned instantiation level zero
option quantRepMode --quant-rep-mode=MODE CVC4::theory::quantifiers::QuantRepMode :default CVC4::theory::quantifiers::QUANT_REP_MODE_FIRST :read-write :include "options/quantifiers_modes.h" :handler stringToQuantRepMode
selection mode for representatives in quantifiers engine
option eagerInstQuant --eager-inst-quant bool :default false
apply quantifier instantiation eagerly
option fullSaturateQuant --full-saturate-quant bool :default false :read-write
when all other quantifier instantiation strategies fail, instantiate with ground terms from relevant domain, then arbitrary ground terms before answering unknown
option fullSaturateQuantRd --full-saturate-quant-rd bool :default true
whether to use relevant domain first for full saturation instantiation strategy
option fullSaturateInst --fs-inst bool :default false
interleave full saturate instantiation with other techniques
option literalMatchMode --literal-matching=MODE CVC4::theory::quantifiers::LiteralMatchMode :default CVC4::theory::quantifiers::LITERAL_MATCH_NONE :include "options/quantifiers_modes.h" :handler stringToLiteralMatchMode :predicate checkLiteralMatchMode
choose literal matching mode
### finite model finding options
option finiteModelFind finite-model-find --finite-model-find bool :default false :read-write
use finite model finding heuristic for quantifier instantiation
option quantFunWellDefined --quant-fun-wd bool :default false
assume that function defined by quantifiers are well defined
option fmfFunWellDefined --fmf-fun bool :default false :read-write
find models for recursively defined functions, assumes functions are admissible
option fmfFunWellDefinedRelevant --fmf-fun-rlv bool :default false
find models for recursively defined functions, assumes functions are admissible, allows empty type when function is irrelevant
option fmfEmptySorts --fmf-empty-sorts bool :default false
allow finite model finding to assume sorts that do not occur in ground assertions are empty
option mbqiMode --mbqi=MODE CVC4::theory::quantifiers::MbqiMode :read-write :default CVC4::theory::quantifiers::MBQI_FMC :include "options/quantifiers_modes.h" :handler stringToMbqiMode :predicate checkMbqiMode
choose mode for model-based quantifier instantiation
option fmfOneInstPerRound --mbqi-one-inst-per-round bool :read-write :default false
only add one instantiation per quantifier per round for mbqi
option fmfOneQuantPerRound --mbqi-one-quant-per-round bool :default false
only add instantiations for one quantifier per round for mbqi
option fmfInstEngine --fmf-inst-engine bool :default false
use instantiation engine in conjunction with finite model finding
option fmfInstGen --fmf-inst-gen bool :default true
enable Inst-Gen instantiation techniques for finite model finding
option fmfInstGenOneQuantPerRound --fmf-inst-gen-one-quant-per-round bool :default false
only perform Inst-Gen instantiation techniques on one quantifier per round
option fmfFreshDistConst --fmf-fresh-dc bool :default false
use fresh distinguished representative when applying Inst-Gen techniques
option fmfFmcSimple --fmf-fmc-simple bool :default true
simple models in full model check for finite model finding
option fmfBoundInt fmf-bound-int --fmf-bound-int bool :default false :read-write
finite model finding on bounded integer quantification
option fmfBoundIntLazy --fmf-bound-int-lazy bool :default false :read-write
enforce bounds for bounded integer quantification lazily via use of proxy variables
### conflict-based instantiation options
option quantConflictFind --quant-cf bool :read-write :default true
enable conflict find mechanism for quantifiers
option qcfMode --quant-cf-mode=MODE CVC4::theory::quantifiers::QcfMode :default CVC4::theory::quantifiers::QCF_PROP_EQ :include "options/quantifiers_modes.h" :handler stringToQcfMode
what effort to apply conflict find mechanism
option qcfWhenMode --quant-cf-when=MODE CVC4::theory::quantifiers::QcfWhenMode :default CVC4::theory::quantifiers::QCF_WHEN_MODE_DEFAULT :include "options/quantifiers_modes.h" :handler stringToQcfWhenMode
when to invoke conflict find mechanism for quantifiers
option qcfTConstraint --qcf-tconstraint bool :read-write :default false
enable entailment checks for t-constraints in qcf algorithm
option qcfAllConflict --qcf-all-conflict bool :read-write :default false
add all available conflicting instances during conflict-based instantiation
option instNoEntail --inst-no-entail bool :read-write :default true
do not consider instances of quantified formulas that are currently entailed
### rewrite rules options
option quantRewriteRules --rewrite-rules bool :default false
use rewrite rules module
option rrOneInstPerRound --rr-one-inst-per-round bool :default false
add one instance of rewrite rule per round
### induction options
option quantInduction --quant-ind bool :default false
use all available techniques for inductive reasoning
option dtStcInduction --dt-stc-ind bool :read-write :default false
apply strengthening for existential quantification over datatypes based on structural induction
option intWfInduction --int-wf-ind bool :read-write :default false
apply strengthening for integers based on well-founded induction
option conjectureGen --conjecture-gen bool :read-write :default false
generate candidate conjectures for inductive proofs
option conjectureGenPerRound --conjecture-gen-per-round=N int :default 1
number of conjectures to generate per instantiation round
option conjectureNoFilter --conjecture-no-filter bool :default false
do not filter conjectures
option conjectureFilterActiveTerms --conjecture-filter-active-terms bool :read-write :default true
filter based on active terms
option conjectureFilterCanonical --conjecture-filter-canonical bool :read-write :default true
filter based on canonicity
option conjectureFilterModel --conjecture-filter-model bool :read-write :default true
filter based on model
option conjectureGenGtEnum --conjecture-gen-gt-enum=N int :default 50
number of ground terms to generate for model filtering
option conjectureUeeIntro --conjecture-gen-uee-intro bool :default false
more aggressive merging for universal equality engine, introduces terms
### synthesis options
option ceGuidedInst --cegqi bool :default false :read-write
counterexample-guided quantifier instantiation
option ceGuidedInstFair --cegqi-fair=MODE CVC4::theory::quantifiers::CegqiFairMode :default CVC4::theory::quantifiers::CEGQI_FAIR_DT_SIZE :include "options/quantifiers_modes.h" :handler stringToCegqiFairMode
if and how to apply fairness for cegqi
option cegqiSingleInv --cegqi-si bool :default false :read-write
process single invocation synthesis conjectures
option cegqiSingleInvPartial --cegqi-si-partial bool :default false
combined techniques for synthesis conjectures that are partially single invocation
option cegqiSingleInvReconstruct --cegqi-si-reconstruct bool :default true
reconstruct solutions for single invocation conjectures in original grammar
option cegqiSingleInvReconstructConst --cegqi-si-reconstruct-const bool :default true
include constants when reconstruct solutions for single invocation conjectures in original grammar
option cegqiSingleInvAbort --cegqi-si-abort bool :default false
abort if synthesis conjecture is not single invocation
option cegqiSingleInvMultiInstAbort --cegqi-si-multi-inst-abort bool :default false
abort if synthesis conjecture is single invocation with no ITE in grammar and multiple instantiations are tried
option sygusNormalForm --sygus-nf bool :default true
only search for sygus builtin terms that are in normal form
option sygusNormalFormArg --sygus-nf-arg bool :default true
account for relationship between arguments of operations in sygus normal form
option sygusNormalFormGlobal --sygus-nf-sym bool :default true
narrow sygus search space based on global state of current candidate program
option sygusNormalFormGlobalGen --sygus-nf-sym-gen bool :default true
generalize lemmas for global search space narrowing
option sygusNormalFormGlobalArg --sygus-nf-sym-arg bool :default true
generalize based on arguments in global search space narrowing
option sygusNormalFormGlobalContent --sygus-nf-sym-content bool :default true
generalize based on content in global search space narrowing
option sygusInvTemplMode --sygus-inv-templ=MODE CVC4::theory::quantifiers::SygusInvTemplMode :default CVC4::theory::quantifiers::SYGUS_INV_TEMPL_MODE_NONE :include "options/quantifiers_modes.h" :handler stringToSygusInvTemplMode
template mode for sygus invariant synthesis
# approach applied to general quantified formulas
option cbqiSplx --cbqi-splx bool :read-write :default false
turns on old implementation of counterexample-based quantifier instantiation
option cbqi --cbqi bool :read-write :default false
turns on counterexample-based quantifier instantiation
option recurseCbqi --cbqi-recurse bool :default true
turns on recursive counterexample-based quantifier instantiation
option cbqiSat --cbqi-sat bool :read-write :default true
answer sat when quantifiers are asserted with counterexample-based quantifier instantiation
option cbqiModel --cbqi-model bool :read-write :default true
guide instantiations by model values for counterexample-based quantifier instantiation
option cbqiAll --cbqi-all bool :read-write :default false
apply counterexample-based instantiation to all quantified formulas
option cbqiUseInfInt --cbqi-use-inf-int bool :read-write :default false
use integer infinity for vts in counterexample-based quantifier instantiation
option cbqiUseInfReal --cbqi-use-inf-real bool :read-write :default false
use real infinity for vts in counterexample-based quantifier instantiation
option cbqiPreRegInst --cbqi-prereg-inst bool :read-write :default false
preregister ground instantiations in counterexample-based quantifier instantiation
option cbqiMinBounds --cbqi-min-bounds bool :default false
use minimally constrained lower/upper bound for counterexample-based quantifier instantiation
option cbqiSymLia --cbqi-sym-lia bool :default false
use symbolic integer division in substitutions for counterexample-based quantifier instantiation
option cbqiRoundUpLowerLia --cbqi-round-up-lia bool :default false
round up integer lower bounds in substitutions for counterexample-based quantifier instantiation
option cbqiMidpoint --cbqi-midpoint bool :default false
choose substitutions based on midpoints of lower and upper bounds for counterexample-based quantifier instantiation
option cbqiNopt --cbqi-nopt bool :default true
non-optimal bounds for counterexample-based quantifier instantiation
### local theory extensions options
option localTheoryExt --local-t-ext bool :default false
do instantiation based on local theory extensions
option ltePartialInst --lte-partial-inst bool :default false
partially instantiate local theory quantifiers
option lteRestrictInstClosure --lte-restrict-inst-closure bool :default false
treat arguments of inst closure as restricted terms for instantiation
### reduction options
option quantAlphaEquiv --quant-alpha-equiv bool :default true
infer alpha equivalence between quantified formulas
option macrosQuant --macros-quant bool :read-write :default false
perform quantifiers macro expansion
option macrosQuantMode --macros-quant-mode=MODE CVC4::theory::quantifiers::MacrosQuantMode :default CVC4::theory::quantifiers::MACROS_QUANT_MODE_GROUND_UF :include "options/quantifiers_modes.h" :handler stringToMacrosQuantMode
mode for quantifiers macro expansion
option quantDynamicSplit --quant-dsplit-mode=MODE CVC4::theory::quantifiers::QuantDSplitMode :read-write :default CVC4::theory::quantifiers::QUANT_DSPLIT_MODE_DEFAULT :include "options/quantifiers_modes.h" :handler stringToQuantDSplitMode
mode for dynamic quantifiers splitting
### recursive function options
#option funDefs --fun-defs bool :default false
# enable specialized techniques for recursive function definitions
### e-unification options
option quantEqualityEngine --quant-ee bool :default false
maintain congrunce closure over universal equalities
endmodule
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