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L9tZMhM(LHI9uoA@HD$Hd$@LT$EE^GfDLDHMLv L9tvI\$I LL)IIID$HHƐLCHzH:L9L+LKH LBHCH[H LjLJH9uIt$H]HILeI9t$@I<$M\$L9tBI I9uH]HtHL}L|$LuL}H([]A\A]A^A_I I9uDLSH HCo H CJLRH9QfDMxWI}IMnHt$LHIHT$fDHH9fHUE1kH=PHMt0LH=7*HD$ILI>H9|$tfAWAVLAUATIUSIHH(H/HOL9L, tEHGI9wGMtIH| utAH+LkBD-H(H[]A\A]A^A_IvMHI9HD$s?HHxy?HHHt$$LL-H+I}Ll$LL$HL$H|$HL#LD$HtHuME$DMt MtIH|=tXLLDM9tLSLL$H+LKfHH|$LHLD$LD$H|$@EDH=%sAWAVIAUATIUSIIHHHGH)I)HH,H4HH9HHHT$HT$HH HHLILJI|$M9I<$LRM$MT$LZL HBBIM\$L9tiHBLH H)IIIJL# fDIpI0HxH9DI8LI MHLPMPH@H@H I9uH IVL9M}I L)HLl fMgHAHM9MIwH LaIGAMI LAHqL9uM~M&M9tI<$IL$H9tBI YM9uM>MtLDIMnInH[]A\A]A^A_f.I M9uDIH IGAoI AGQHyI9!`@oI AHLXMXH@H@H L9wfHHoBAD$HH9Hu 11f.IfDAWAVIAUATL%.UH-VSAIL)HHHt 1LLDAHH9uH[]A\A]A^A_Ðf.HHbasic_string::_M_construct null not validWithout an input file, or with `-', cvc5 reads from standard input.Too many input files specified.Please use --help to get help on command-line options.%s: __pos (which is %zu) > this->size() (which is %zu)cvc5 executed an illegal instruction. Looks like this is likely due to stack overflow. You might consider increasing the limit with `ulimit -s' or equivalent. Looks like a NULL pointer was dereferenced. cvc5 was terminated by the C++ runtime. Perhaps an exception was thrown during stack unwinding. Can't malloc() space for a signal stackFor full usage, please use --help.standard-effort-variable-order-pivotsbv-print-consts-as-indexed-symbolsconjecture-filter-active-termssygus-expr-miner-check-timeoutsygus-unif-cond-independent-no-repeat-sol' missing its required argumentMost commonly-used cvc5 options: --incremental | -i enable incremental solving [*] --lang=LANG | --input-language=LANG | -L LANG force input language (default is "auto"; see --lang help) --output-lang=LANG | --output-language=LANG force output language (default is "auto"; see --output-lang help) --quiet | -q decrease verbosity (may be repeated) --rlimit=N set resource limit --rlimit-per=N | --reproducible-resource-limit=N set resource limit per query --stats give statistics on exit [*] --tlimit=MS set time limit in milliseconds of wall clock time --tlimit-per=MS set time limit per query in milliseconds --verbose | -v increase verbosity (may be repeated) --copyright show cvc5 copyright information --help | -h full command line reference --seed=N | -s N seed for random number generator --show-config show cvc5 static configuration --version | -V identify this cvc5 binary --strict-parsing be less tolerant of non-conforming inputs [*] --produce-assertions | --interactive-mode keep an assertions list (enables get-assertions command) [*] --produce-models | -m support the get-value and get-model commands [*] Additional cvc5 options: From the Arithmetic Theory module: --approx-branch-depth=N maximum branch depth the approximate solver is allowed to take --arith-brab whether to use simple rounding, similar to a unit-cube test, for integers [*] --arith-cong-man (experimental) whether to use the congruence manager when the equality solver is enabled [*] --arith-eq-solver whether to use the equality solver in the theory of arithmetic [*] --arith-no-partial-fun do not use partial function semantics for arithmetic (not SMT LIB compliant) [*] --arith-prop=MODE turns on arithmetic propagation (default is 'old', see --arith-prop=help) --arith-prop-clauses=N rows shorter than this are propagated as clauses --arith-rewrite-equalities turns on the preprocessing rewrite turning equalities into a conjunction of inequalities [*] --collect-pivot-stats collect the pivot history [*] --cut-all-bounded turns on the integer solving step of periodically cutting all integer variables that have both upper and lower bounds [*] --dio-decomps let skolem variables for integer divisibility constraints leak from the dio solver [*] --dio-solver turns on Linear Diophantine Equation solver (Griggio, JSAT 2012) [*] --dio-turns=N turns in a row dio solver cutting gets --error-selection-rule=RULE change the pivot rule for the basic variable (default is 'min', see --pivot-rule help) --fc-penalties turns on degenerate pivot penalties [*] --heuristic-pivots=N the number of times to apply the heuristic pivot rule; if N < 0, this defaults to the number of variables; if this is unset, this is tuned by the logic selection --lemmas-on-replay-failure attempt to use external lemmas if approximate solve integer failed [*] --maxCutsInContext=N maximum cuts in a given context before signalling a restart --miplib-trick turns on the preprocessing step of attempting to infer bounds on miplib problems [*] --miplib-trick-subs=N do substitution for miplib 'tmp' vars if defined in <= N eliminated vars --new-prop use the new row propagation system [*] --nl-cad whether to use the cylindrical algebraic decomposition solver for non-linear arithmetic [*] --nl-cad-initial whether to use the linear model as initial guess for the cylindrical algebraic decomposition solver [*] --nl-cad-lift=MODE choose the CAD lifting mode (EXPERTS only) --nl-cad-proj=MODE choose the CAD projection operator (EXPERTS only) --nl-ext=MODE incremental linearization approach to non-linear --nl-ext-ent-conf check for entailed conflicts in non-linear solver [*] --nl-ext-factor use factoring inference in non-linear incremental linearization solver [*] --nl-ext-inc-prec whether to increment the precision for irrational function constraints [*] --nl-ext-purify purify non-linear terms at preprocess [*] --nl-ext-rbound use resolution-style inference for inferring new bounds in non-linear incremental linearization solver [*] --nl-ext-rewrite do context-dependent simplification based on rewrites in non-linear solver [*] --nl-ext-split-zero initial splits on zero for all variables [*] --nl-ext-tf-taylor-deg=N initial degree of polynomials for Taylor approximation --nl-ext-tf-tplanes use non-terminating tangent plane strategy for transcendental functions for non-linear incremental linearization solver [*] --nl-ext-tplanes use non-terminating tangent plane strategy for non-linear incremental linearization solver [*] --nl-ext-tplanes-interleave interleave tangent plane strategy for non-linear incremental linearization solver [*] --nl-icp whether to use ICP-style propagations for non-linear arithmetic [*] --nl-rlv=MODE choose mode for using relevance of assertions in non-linear arithmetic --nl-rlv-assert-bounds use bound inference utility to prune when an assertion is entailed by another [*] --pb-rewrites apply pseudo boolean rewrites [*] --pivot-threshold=N sets the number of pivots using --pivot-rule per basic variable per simplex instance before using variable order --pp-assert-max-sub-size=N threshold for substituting an equality in ppAssert --prop-row-length=N sets the maximum row length to be used in propagation --replay-early-close-depth=N multiples of the depths to try to close the approx log eagerly --replay-lemma-reject-cut=N maximum complexity of any coefficient while outputting replaying cut lemmas --replay-num-err-penalty=N number of solve integer attempts to skips after a numeric failure --replay-reject-cut=N maximum complexity of any coefficient while replaying cuts --restrict-pivots have a pivot cap for simplex at effort levels below fullEffort [*] --revert-arith-models-on-unsat revert the arithmetic model to a known safe model on unsat if one is cached [*] --rr-turns=N round robin turn --se-solve-int attempt to use the approximate solve integer method on standard effort [*] --simplex-check-period=N the number of pivots to do in simplex before rechecking for a conflict on all variables --soi-qe use quick explain to minimize the sum of infeasibility conflicts [*] --standard-effort-variable-order-pivots=N limits the number of pivots in a single invocation of check() at a non-full effort level using Bland's pivot rule (EXPERTS only) --unate-lemmas=MODE determines which lemmas to add before solving (default is 'all', see --unate-lemmas=help) --use-approx attempt to use an approximate solver [*] --use-fcsimplex use focusing and converging simplex (FMCAD 2013 submission) [*] --use-soi use sum of infeasibility simplex (FMCAD 2013 submission) [*] From the Arrays Theory module: --arrays-eager-index turn on eager index splitting for generated array lemmas [*] --arrays-eager-lemmas turn on eager lemma generation for arrays [*] --arrays-exp enable experimental features in the theory of arrays (EXPERTS only) [*] --arrays-optimize-linear turn on optimization for linear array terms (see de Moura FMCAD 09 arrays paper) [*] --arrays-prop=N propagation effort for arrays: 0 is none, 1 is some, 2 is full --arrays-reduce-sharing use model information to reduce size of care graph for arrays [*] --arrays-weak-equiv use algorithm from Christ/Hoenicke (SMT 2014) [*] From the Base module: --debug=TAG | -d TAG debug something (e.g. -d arith), can repeat --output=TAG | -o TAG Enable output tag. --parse-only exit after parsing input [*] --preprocess-only exit after preprocessing input [*] --print-success print the "success" output required of SMT-LIBv2 [*] --rweight=VAL=N set a single resource weight (EXPERTS only) --stats-all print unchanged (defaulted) statistics as well (EXPERTS only) [*] --stats-every-query in incremental mode, print stats after every satisfiability or validity query [*] --stats-expert print expert (non-public) statistics as well (EXPERTS only) [*] --trace=TAG | -t TAG trace something (e.g. -t pushpop), can repeat --verbosity=N the verbosity level of cvc5 From the Bitvector Theory module: --bitblast=MODE choose bitblasting mode, see --bitblast=help --bitwise-eq lift equivalence with one-bit bit-vectors to be boolean operations [*] --bool-to-bv=MODE convert booleans to bit-vectors of size 1 at various levels of aggressiveness, see --bool-to-bv=help --bv-assert-input assert input assertions on user-level 0 instead of assuming them in the bit-vector SAT solver [*] --bv-extract-arith enable rewrite pushing extract [i:0] over arithmetic operations (can blow up) (EXPERTS only) [*] --bv-gauss-elim simplify formula via Gaussian Elimination if applicable (EXPERTS only) [*] --bv-intro-pow2 introduce bitvector powers of two as a preprocessing pass (EXPERTS only) [*] --bv-print-consts-as-indexed-symbols print bit-vector constants in decimal (e.g. (_ bv1 4)) instead of binary (e.g. #b0001), applies to SMT-LIB 2.x [*] --bv-propagate use bit-vector propagation in the bit-blaster [*] --bv-rw-extend-eq enable additional rewrites over zero/sign extend over equalities with constants (useful on BV/2017-Preiner-scholl-smt08) (EXPERTS only) [*] --bv-sat-solver=MODE choose which sat solver to use, see --bv-sat-solver=help (EXPERTS only) --bv-solver=MODE choose bit-vector solver, see --bv-solver=help --bv-to-bool lift bit-vectors of size 1 to booleans when possible [*] From the Datatypes Theory module: --cdt-bisimilar do bisimilarity check for co-datatypes [*] --dt-binary-split do binary splits for datatype constructor types [*] --dt-blast-splits when applicable, blast splitting lemmas for all variables at once [*] --dt-cyclic do cyclicity check for datatypes [*] --dt-force-assignment force the datatypes solver to give specific values to all datatypes terms before answering sat [*] --dt-infer-as-lemmas always send lemmas out instead of making internal inferences [*] --dt-nested-rec allow nested recursion in datatype definitions [*] --dt-polite-optimize turn on optimization for polite combination (EXPERTS only) [*] --dt-rewrite-error-sel rewrite incorrectly applied selectors to arbitrary ground term (EXPERTS only) [*] --dt-share-sel internally use shared selectors across multiple constructors [*] --sygus-abort-size=N tells enumerative sygus to only consider solutions up to term size N (-1 == no limit, default) --sygus-fair=MODE if and how to apply fairness for sygus --sygus-fair-max use max instead of sum for multi-function sygus conjectures [*] --sygus-sym-break simple sygus symmetry breaking lemmas [*] --sygus-sym-break-agg use aggressive checks for simple sygus symmetry breaking lemmas [*] --sygus-sym-break-dynamic dynamic sygus symmetry breaking lemmas [*] --sygus-sym-break-lazy lazily add symmetry breaking lemmas for terms [*] --sygus-sym-break-pbe sygus symmetry breaking lemmas based on pbe conjectures [*] --sygus-sym-break-rlv add relevancy conditions to symmetry breaking lemmas [*] From the Decision Heuristics module: --decision=MODE | --decision-mode=MODE choose decision mode, see --decision=help --decision-random-weight=N assign random weights to nodes between 0 and N-1 (0: disable) (EXPERTS only) --decision-threshold=N ignore all nodes greater than threshold in first attempt to pick decision (EXPERTS only) --decision-use-weight use the weight nodes (locally, by looking at children) to direct recursive search (EXPERTS only) [*] --decision-weight-internal=HOW compute weights of internal nodes using children: off, max, sum, usr1 (EXPERTS only) --jh-rlv-order maintain activity-based ordering for decision justification heuristic (EXPERTS only) [*] --jh-skolem=MODE policy for when to satisfy skolem definitions in justification heuristic (EXPERTS only) --jh-skolem-rlv=MODE policy for when to consider skolem definitions relevant in justification heuristic (EXPERTS only) From the Expression module: --dag-thresh=N dagify common subexprs appearing > N times (1 == default, 0 == don't dagify) --expr-depth=N print exprs to depth N (0 == default, -1 == no limit) --type-checking type check expressions [*] From the Floating-Point module: --fp-exp Allow floating-point sorts of all sizes, rather than only Float32 (8/24) or Float64 (11/53) (experimental) [*] --fp-lazy-wb Enable lazier word-blasting (on preNotifyFact instead of registerTerm) (EXPERTS only) [*] From the Driver module: --dump-difficulty dump the difficulty measure after every response to check-sat [*] --dump-instantiations output instantiations of quantified formulas after every UNSAT/VALID response [*] --dump-instantiations-debug output instantiations of quantified formulas after every UNSAT/VALID response, with debug information [*] --dump-models output models after every SAT/INVALID/UNKNOWN response [*] --dump-proofs output proofs after every UNSAT/VALID response [*] --dump-unsat-cores output unsat cores after every UNSAT/VALID response [*] --early-exit do not run destructors at exit; default on except in debug builds (EXPERTS only) [*] --force-no-limit-cpu-while-dump Force no CPU limit when dumping models and proofs [*] --interactive force interactive shell/non-interactive mode [*] --print-unsat-cores-full dump the full unsat core, including unlabeled assertions [*] --segv-spin spin on segfault/other crash waiting for gdb [*] --show-debug-tags show all available tags for debugging --show-trace-tags show all available tags for tracing From the Parser module: --force-logic=LOGIC set the logic, and override all further user attempts to change it (EXPERTS only) --global-declarations force all declarations and definitions to be global [*] --mmap memory map file input [*] --semantic-checks enable semantic checks, including type checks [*] From the Printing module: --flatten-ho-chains print (binary) application chains in a flattened way, e.g. (a b c) rather than ((a b) c) [*] --print-inst=MODE print format for printing instantiations --print-inst-full print instantiations for formulas that do not have given identifiers [*] From the Proof module: --proof-check=MODE select proof checking mode --proof-format-mode=MODE select language of proof output --proof-granularity=MODE modes for proof granularity --proof-pedantic=N assertion failure for any incorrect rule application or untrusted lemma having pedantic level <=N with proof --proof-pp-merge merge subproofs in final proof post-processor [*] --proof-print-conclusion Print conclusion of proof steps when printing AST [*] From the SAT Layer module: --minisat-dump-dimacs instead of solving minisat dumps the asserted clauses in Dimacs format [*] --minisat-elimination use Minisat elimination [*] --random-freq=P | --random-frequency=P sets the frequency of random decisions in the sat solver (P=0.0 by default) --random-seed=S sets the random seed for the sat solver --refine-conflicts refine theory conflict clauses (default false) [*] --restart-int-base=N sets the base restart interval for the sat solver (N=25 by default) --restart-int-inc=F sets the restart interval increase factor for the sat solver (F=3.0 by default) From the Quantifiers module: --ag-miniscope-quant perform aggressive miniscoping for quantifiers [*] --cegis-sample=MODE mode for using samples in the counterexample-guided inductive synthesis loop --cegqi turns on counterexample-based quantifier instantiation [*] --cegqi-all apply counterexample-based instantiation to all quantified formulas [*] --cegqi-bv use word-level inversion approach for counterexample-guided quantifier instantiation for bit-vectors [*] --cegqi-bv-concat-inv compute inverse for concat over equalities rather than producing an invertibility condition [*] --cegqi-bv-ineq=MODE choose mode for handling bit-vector inequalities with counterexample-guided instantiation --cegqi-bv-interleave-value interleave model value instantiation with word-level inversion approach [*] --cegqi-bv-linear linearize adder chains for variables [*] --cegqi-bv-rm-extract replaces extract terms with variables for counterexample-guided instantiation for bit-vectors [*] --cegqi-bv-solve-nl try to solve non-linear bv literals using model value projections [*] --cegqi-full turns on full effort counterexample-based quantifier instantiation, which may resort to model-value instantiation [*] --cegqi-innermost only process innermost quantified formulas in counterexample-based quantifier instantiation [*] --cegqi-midpoint choose substitutions based on midpoints of lower and upper bounds for counterexample-based quantifier instantiation [*] --cegqi-min-bounds use minimally constrained lower/upper bound for counterexample-based quantifier instantiation [*] --cegqi-model guide instantiations by model values for counterexample-based quantifier instantiation [*] --cegqi-multi-inst when applicable, do multi instantiations per quantifier per round in counterexample-based quantifier instantiation [*] --cegqi-nested-qe process nested quantified formulas with quantifier elimination in counterexample-based quantifier instantiation [*] --cegqi-nopt non-optimal bounds for counterexample-based quantifier instantiation [*] --cegqi-repeat-lit solve literals more than once in counterexample-based quantifier instantiation [*] --cegqi-round-up-lia round up integer lower bounds in substitutions for counterexample-based quantifier instantiation [*] --cegqi-sat answer sat when quantifiers are asserted with counterexample-based quantifier instantiation [*] --cegqi-use-inf-int use integer infinity for vts in counterexample-based quantifier instantiation [*] --cegqi-use-inf-real use real infinity for vts in counterexample-based quantifier instantiation [*] --cond-var-split-agg-quant aggressive split quantified formulas that lead to variable eliminations [*] --cond-var-split-quant split quantified formulas that lead to variable eliminations [*] --conjecture-filter-active-terms filter based on active terms [*] --conjecture-filter-canonical filter based on canonicity [*] --conjecture-filter-model filter based on model [*] --conjecture-gen generate candidate conjectures for inductive proofs [*] --conjecture-gen-gt-enum=N number of ground terms to generate for model filtering --conjecture-gen-max-depth=N maximum depth of terms to consider for conjectures --conjecture-gen-per-round=N number of conjectures to generate per instantiation round --conjecture-gen-uee-intro more aggressive merging for universal equality engine, introduces terms [*] --conjecture-no-filter do not filter conjectures [*] --dt-stc-ind apply strengthening for existential quantification over datatypes based on structural induction [*] --dt-var-exp-quant expand datatype variables bound to one constructor in quantifiers [*] --e-matching whether to do heuristic E-matching [*] --elim-taut-quant eliminate tautological disjuncts of quantified formulas [*] --ext-rewrite-quant apply extended rewriting to bodies of quantified formulas [*] --finite-model-find use finite model finding heuristic for quantifier instantiation [*] --fmf-bound finite model finding on bounded quantification [*] --fmf-bound-int finite model finding on bounded integer quantification [*] --fmf-bound-lazy enforce bounds for bounded quantification lazily via use of proxy variables [*] --fmf-fmc-simple simple models in full model check for finite model finding [*] --fmf-fresh-dc use fresh distinguished representative when applying Inst-Gen techniques [*] --fmf-fun find models for recursively defined functions, assumes functions are admissible [*] --fmf-fun-rlv find models for recursively defined functions, assumes functions are admissible, allows empty type when function is irrelevant [*] --fmf-inst-engine use instantiation engine in conjunction with finite model finding [*] --fmf-type-completion-thresh=N the maximum cardinality of an interpreted type for which exhaustive enumeration in finite model finding is attempted --fs-interleave interleave enumerative instantiation with other techniques [*] --fs-stratify stratify effort levels in enumerative instantiation, which favors speed over fairness [*] --fs-sum enumerating tuples of quantifiers by increasing the sum of indices, rather than the maximum [*] --full-saturate-quant enumerative instantiation: instantiate with ground terms from relevant domain, then arbitrary ground terms before answering unknown [*] --full-saturate-quant-limit=N maximum number of rounds of enumerative instantiation to apply (-1 means no limit) --full-saturate-quant-rd whether to use relevant domain first for enumerative instantiation strategy [*] --global-negate do global negation of input formula [*] --ho-elim eagerly eliminate higher-order constraints [*] --ho-elim-store-ax use store axiom during ho-elim [*] --ho-matching do higher-order matching algorithm for triggers with variable operators [*] --ho-matching-var-priority give priority to variable arguments over constant arguments [*] --ho-merge-term-db merge term indices modulo equality [*] --increment-triggers generate additional triggers as needed during search [*] --inst-level-input-only only input terms are assigned instantiation level zero [*] --inst-max-level=N maximum inst level of terms used to instantiate quantified formulas with (-1 == no limit, default) --inst-max-rounds=N maximum number of instantiation rounds (-1 == no limit, default) --inst-no-entail do not consider instances of quantified formulas that are currently entailed [*] --inst-when=MODE when to apply instantiation --inst-when-phase=N instantiation rounds quantifiers takes (>=1) before allowing theory combination to happen --inst-when-strict-interleave ensure theory combination and standard quantifier effort strategies take turns [*] --inst-when-tc-first allow theory combination to happen once initially, before quantifier strategies are run [*] --int-wf-ind apply strengthening for integers based on well-founded induction [*] --ite-dtt-split-quant split ites with dt testers as conditions [*] --ite-lift-quant=MODE ite lifting mode for quantified formulas --literal-matching=MODE choose literal matching mode --macros-quant perform quantifiers macro expansion [*] --macros-quant-mode=MODE mode for quantifiers macro expansion --mbqi=MODE choose mode for model-based quantifier instantiation --mbqi-interleave interleave model-based quantifier instantiation with other techniques [*] --mbqi-one-inst-per-round only add one instantiation per quantifier per round for mbqi [*] --miniscope-quant miniscope quantifiers [*] --miniscope-quant-fv miniscope quantifiers for ground subformulas [*] --multi-trigger-cache caching version of multi triggers [*] --multi-trigger-linear implementation of multi triggers where maximum number of instantiations is linear wrt number of ground terms [*] --multi-trigger-priority only try multi triggers if single triggers give no instantiations [*] --multi-trigger-when-single select multi triggers when single triggers exist [*] --partial-triggers use triggers that do not contain all free variables [*] --pool-inst pool-based instantiation: instantiate with ground terms occurring in user-specified pools [*] --pre-skolem-quant apply skolemization eagerly to bodies of quantified formulas [*] --pre-skolem-quant-agg apply skolemization to quantified formulas aggressively [*] --pre-skolem-quant-nested apply skolemization to nested quantified formulas [*] --prenex-quant=MODE prenex mode for quantified formulas --prenex-quant-user prenex quantified formulas with user patterns [*] --purify-triggers purify triggers, e.g. f( x+1 ) becomes f( y ), x mapsto y-1 [*] --qcf-all-conflict add all available conflicting instances during conflict-based instantiation [*] --qcf-eager-check-rd optimization, eagerly check relevant domain of matched position [*] --qcf-eager-test optimization, test qcf instances eagerly [*] --qcf-nested-conflict consider conflicts for nested quantifiers [*] --qcf-skip-rd optimization, skip instances based on possibly irrelevant portions of quantified formulas [*] --qcf-tconstraint enable entailment checks for t-constraints in qcf algorithm [*] --qcf-vo-exp qcf experimental variable ordering [*] --quant-alpha-equiv infer alpha equivalence between quantified formulas [*] --quant-cf enable conflict find mechanism for quantifiers [*] --quant-cf-mode=MODE what effort to apply conflict find mechanism --quant-cf-when=MODE when to invoke conflict find mechanism for quantifiers --quant-dsplit-mode=MODE mode for dynamic quantifiers splitting --quant-fun-wd assume that function defined by quantifiers are well defined [*] --quant-ind use all available techniques for inductive reasoning [*] --quant-rep-mode=MODE selection mode for representatives in quantifiers engine --quant-split apply splitting to quantified formulas based on variable disjoint disjuncts [*] --register-quant-body-terms consider ground terms within bodies of quantified formulas for matching [*] --relational-triggers choose relational triggers such as x = f(y), x >= f(y) [*] --relevant-triggers prefer triggers that are more relevant based on SInE style analysis [*] --sygus use sygus solver (default is true for sygus inputs) [*] --sygus-active-gen=MODE mode for actively-generated sygus enumerators --sygus-active-gen-cfactor=N the branching factor for the number of interpreted constants to consider for each size when using --sygus-active-gen=enum --sygus-add-const-grammar statically add constants appearing in conjecture to grammars [*] --sygus-arg-relevant static inference techniques for computing whether arguments of functions-to-synthesize are relevant [*] --sygus-auto-unfold enable approach which automatically unfolds transition systems for directly solving invariant synthesis problems [*] --sygus-bool-ite-return-const Only use Boolean constants for return values in unification-based function synthesis [*] --sygus-core-connective use unsat core analysis to construct Boolean connective to sygus conjectures [*] --sygus-crepair-abort abort if constant repair techniques are not applicable [*] --sygus-eval-opt use optimized approach for evaluation in sygus [*] --sygus-eval-unfold do unfolding of sygus evaluation functions [*] --sygus-eval-unfold-bool do unfolding of Boolean evaluation functions that appear in refinement lemmas [*] --sygus-expr-miner-check-timeout=N timeout (in milliseconds) for satisfiability checks in expression miners --sygus-ext-rew use extended rewriter for sygus [*] --sygus-filter-sol=MODE mode for filtering sygus solutions --sygus-filter-sol-rev compute backwards filtering to compute whether previous solutions are filtered based on later ones (EXPERTS only) [*] --sygus-grammar-cons=MODE mode for SyGuS grammar construction --sygus-grammar-norm statically normalize sygus grammars based on flattening (linearization) [*] --sygus-inference attempt to preprocess arbitrary inputs to sygus conjectures [*] --sygus-inst Enable SyGuS instantiation quantifiers module [*] --sygus-inst-mode=MODE select instantiation lemma mode --sygus-inst-scope=MODE select scope of ground terms --sygus-inst-term-sel=MODE granularity for ground terms --sygus-inv-templ=MODE template mode for sygus invariant synthesis (weaken pre-condition, strengthen post-condition, or none) --sygus-inv-templ-when-sg use invariant templates (with solution reconstruction) for syntax guided problems [*] --sygus-min-grammar statically minimize sygus grammars [*] --sygus-pbe enable approach which unifies conditional solutions, specialized for programming-by-examples (pbe) conjectures [*] --sygus-pbe-multi-fair when using multiple enumerators, ensure that we only register value of minimial term size [*] --sygus-pbe-multi-fair-diff=N when using multiple enumerators, ensure that we only register values of minimial term size plus this value (default 0) --sygus-qe-preproc use quantifier elimination as a preprocessing step for sygus [*] --sygus-query-gen=MODE mode for generating interesting satisfiability queries using SyGuS, for internal fuzzing --sygus-query-gen-check use interesting satisfiability queries to check soundness of cvc5 [*] --sygus-query-gen-dump-files=MODE mode for dumping external files corresponding to interesting satisfiability queries with sygus-query-gen --sygus-query-gen-thresh=N number of points that we allow to be equal for enumerating satisfiable queries with sygus-query-gen --sygus-rec-fun enable efficient support for recursive functions in sygus grammars [*] --sygus-rec-fun-eval-limit=N use a hard limit for how many times in a given evaluator call a recursive function can be evaluated (so infinite loops can be avoided) --sygus-repair-const use approach to repair constants in sygus candidate solutions [*] --sygus-repair-const-timeout=N timeout (in milliseconds) for the satisfiability check to repair constants in sygus candidate solutions --sygus-rr use sygus to enumerate and verify correctness of rewrite rules [*] --sygus-rr-synth use sygus to enumerate candidate rewrite rules [*] --sygus-rr-synth-accel add dynamic symmetry breaking clauses based on candidate rewrites [*] --sygus-rr-synth-check use satisfiability check to verify correctness of candidate rewrites [*] --sygus-rr-synth-filter-cong filter candidate rewrites based on congruence [*] --sygus-rr-synth-filter-match filter candidate rewrites based on matching [*] --sygus-rr-synth-filter-nl filter non-linear candidate rewrites [*] --sygus-rr-synth-filter-order filter candidate rewrites based on variable ordering [*] --sygus-rr-synth-input synthesize rewrite rules based on the input formula [*] --sygus-rr-synth-input-nvars=N the maximum number of variables per type that appear in rewrites from sygus-rr-synth-input --sygus-rr-synth-input-use-bool synthesize Boolean rewrite rules based on the input formula [*] --sygus-rr-synth-rec synthesize rewrite rules over all sygus grammar types recursively [*] --sygus-rr-verify use sygus to verify the correctness of rewrite rules via sampling [*] --sygus-rr-verify-abort abort when sygus-rr-verify finds an instance of unsoundness [*] --sygus-sample-fp-uniform sample floating-point values uniformly instead of in a biased fashion [*] --sygus-sample-grammar when applicable, use grammar for choosing sample points [*] --sygus-samples=N number of points to consider when doing sygus rewriter sample testing --sygus-si=MODE mode for processing single invocation synthesis conjectures --sygus-si-abort abort if synthesis conjecture is not single invocation [*] --sygus-si-rcons=MODE policy for reconstructing solutions for single invocation conjectures --sygus-si-rcons-limit=N number of rounds of enumeration to use during solution reconstruction (negative means unlimited) --sygus-stream enumerate a stream of solutions instead of terminating after the first one [*] --sygus-templ-embed-grammar embed sygus templates into grammars [*] --sygus-unif-cond-independent-no-repeat-sol Do not try repeated solutions when using independent synthesis of conditions in unification-based function synthesis [*] --sygus-unif-pi=MODE mode for synthesis via piecewise-indepedent unification --sygus-unif-shuffle-cond Shuffle condition pool when building solutions (may change solutions sizes) [*] --sygus-verify-inst-max-rounds=N maximum number of instantiation rounds for sygus verification calls (-1 == no limit, default is 3) --term-db-cd register terms in term database based on the SAT context [*] --term-db-mode=MODE which ground terms to consider for instantiation --trigger-active-sel=MODE selection mode to activate triggers --trigger-sel=MODE selection mode for triggers --user-pat=MODE policy for handling user-provided patterns for quantifier instantiation --var-elim-quant enable simple variable elimination for quantified formulas [*] --var-ineq-elim-quant enable variable elimination based on infinite projection of unbound arithmetic variables [*] From the Separation Logic Theory module: --sep-check-neg check negated spatial assertions [*] --sep-child-refine child-specific refinements of negated star, positive wand [*] --sep-deq-c assume cardinality elements are distinct [*] --sep-min-refine only add refinement lemmas for minimal (innermost) assertions [*] --sep-pre-skolem-emp eliminate emp constraint at preprocess time [*] From the Sets Theory module: --sets-ext enable extended symbols such as complement and universe in theory of sets [*] --sets-infer-as-lemmas send inferences as lemmas [*] --sets-proxy-lemmas introduce proxy variables eagerly to shorten lemmas [*] From the SMT Layer module: --abstract-values in models, output arrays (and in future, maybe others) using abstract values, as required by the SMT-LIB standard [*] --ackermann eliminate functions by ackermannization [*] --block-models=MODE mode for producing several models --check-abducts checks whether produced solutions to get-abduct are correct [*] --check-interpols checks whether produced solutions to get-interpol are correct [*] --check-models after SAT/INVALID/UNKNOWN, check that the generated model satisfies user assertions [*] --check-proofs after UNSAT/VALID, check the generated proof (with proof) [*] --check-synth-sol checks whether produced solutions to functions-to-synthesize satisfy the conjecture [*] --check-unsat-cores after UNSAT/VALID, produce and check an unsat core (expensive) [*] --debug-check-models after SAT/INVALID/UNKNOWN, check that the generated model satisfies user and internal assertions [*] --difficulty-mode=MODE choose output mode for get-difficulty, see --difficulty-mode=help --early-ite-removal remove ITEs early in preprocessing (EXPERTS only) [*] --expand-definitions always expand symbol definitions in output [*] --ext-rew-prep use extended rewriter as a preprocessing pass [*] --ext-rew-prep-agg use aggressive extended rewriter as a preprocessing pass [*] --foreign-theory-rewrite Cross-theory rewrites [*] --ite-simp turn on ite simplification (Kim (and Somenzi) et al., SAT 2009) [*] --learned-rewrite rewrite the input based on learned literals [*] --minimal-unsat-cores if an unsat core is produced, it is reduced to a minimal unsat core [*] --model-cores=MODE mode for producing model cores --model-u-print=MODE | --model-uninterp-print=MODE determines how to print uninterpreted elements in models --model-witness-value in models, use a witness constant for choice functions [*] --on-repeat-ite-simp do the ite simplification pass again if repeating simplification [*] --produce-assignments support the get-assignment command [*] --produce-difficulty enable tracking of difficulty. [*] --produce-proofs produce proofs, support check-proofs and get-proof [*] --produce-unsat-assumptions turn on unsat assumptions generation [*] --produce-unsat-cores turn on unsat core generation. Unless otherwise specified, cores will be produced using SAT soving under assumptions and preprocessing proofs. [*] --repeat-simp make multiple passes with nonclausal simplifier [*] --simp-ite-compress enables compressing ites after ite simplification [*] --simp-ite-hunt-zombies=N post ite compression enables zombie removal while the number of nodes is above this threshold --simp-with-care enables simplifyWithCare in ite simplificiation [*] --simplification=MODE | --simplification-mode=MODE choose simplification mode, see --simplification=help --sort-inference calculate sort inference of input problem, convert the input based on monotonic sorts [*] --static-learning use static learning (on by default) [*] --sygus-out=MODE output mode for sygus --unconstrained-simp turn on unconstrained simplification (see Bruttomesso/Brummayer PhD thesis). Fully supported only in (subsets of) the logic QF_ABV. [*] --unsat-cores-mode=MODE choose unsat core mode, see --unsat-cores-mode=help From the Strings Theory module: --re-elim elimination techniques for regular expressions [*] --re-elim-agg aggressive elimination techniques for regular expressions [*] --re-inter-mode=MODE determines which regular expressions intersections to compute (EXPERTS only) --strings-alpha-card=N the assumed cardinality of the alphabet of characters for strings, which is a prefix of the interval of unicode code points in the SMT-LIB standard --strings-check-entail-len check entailment between length terms to reduce splitting [*] --strings-deq-ext use extensionality for string disequalities [*] --strings-eager strings eager check [*] --strings-eager-eval perform eager context-dependent evaluation for applications of string kinds [*] --strings-eager-len strings eager length lemmas [*] --strings-exp experimental features in the theory of strings [*] --strings-ff do flat form inferences [*] --strings-fmf the finite model finding used by the theory of strings [*] --strings-guess-model use model guessing to avoid string extended function reductions [*] --strings-infer-as-lemmas always send lemmas out instead of making internal inferences [*] --strings-infer-sym strings split on empty string [*] --strings-lazy-pp perform string preprocessing lazily [*] --strings-len-norm strings length normalization lemma [*] --strings-min-prefix-explain minimize explanations for prefix of normal forms in strings [*] --strings-process-loop-mode=MODE determines how to process looping string equations (EXPERTS only) --strings-rexplain-lemmas regression explanations for string lemmas [*] --strings-unified-vspt use a single skolem for the variable splitting rule [*] From the Theory Layer module: --assign-function-values assign values for uninterpreted functions in models [*] --condense-function-values condense values for functions in models rather than explicitly representing them [*] --ee-mode=MODE mode for managing equalities across theory solvers (EXPERTS only) --relevance-filter enable analysis of relevance of asserted literals with respect to the input formula [*] --tc-mode=MODE mode for theory combination (EXPERTS only) --theoryof-mode=MODE mode for Theory::theoryof() (EXPERTS only) From the Uninterpreted Functions Theory module: --symmetry-breaker | --uf-symmetry-breaker use UF symmetry breaker (Deharbe et al., CADE 2011) [*] --uf-ho-ext apply extensionality on function symbols [*] --uf-ss=MODE mode of operation for uf with cardinality solver. --uf-ss-abort-card=N tells the uf with cardinality to only consider models that interpret uninterpreted sorts of cardinality at most N (-1 == no limit, default) --uf-ss-fair use fair strategy for finite model finding multiple sorts [*] --uf-ss-fair-monotone group monotone sorts when enforcing fairness for finite model finding [*] [*] Each of these options has a --no-OPTIONNAME variant, which reverses the sense of the option. no-revert-arith-models-on-unsatno-bv-print-consts-as-indexed-symbolsno-force-no-limit-cpu-while-dumpno-conjecture-filter-active-termsno-conjecture-filter-canonicalno-inst-when-strict-interleaveno-sygus-bool-ite-return-constno-sygus-rr-synth-filter-matchno-sygus-rr-synth-filter-orderno-sygus-rr-synth-input-use-boolno-sygus-unif-cond-independent-no-repeat-solbasic_string::_M_createusage: [options] [input-file]cvc5 options:truefalsetlimithelpsegv-spin-interactiveinput-languageLANG_AUTOsmt2.smt2.tptptptp.sy.slsygus2output-languagefilenameincrementalmmap.punknown(error "")LANG_SMTLIB_V2_6statsInvoking: = 0basic_string::_M_replaceParse Error: :.: basic_string::appendInteractive input broken.cvc5> ... > basic_string::erase cvc5 suffered a segfault. Offending address is cvc5 interrupted by user. cvc5 interrupted by SIGTERM. cvc5 interrupted by timeout. getrlimit() failure: setrlimit() failure: sigaction(SIGINT) failure: sigaction(SIGXCPU) failure: sigaction(SIGILL) failure: sigaltstack() failure: sigaction(SIGSEGV) failure: sigaction(SIGTERM) failure: sigaction(SIGALRM) failure: timer_settime() failure: +:d:iL:o:qt:vhs:Vmarith-no-partial-funarith-proparith-prop-clausesarith-rewrite-equalitiescollect-pivot-statscut-all-boundeddio-decompsdio-solverdio-turnserror-selection-rulefc-penaltiesheuristic-pivotslemmas-on-replay-failuremaxCutsInContextmiplib-trickmiplib-trick-subsnew-propnl-cadnl-cad-initialnl-cad-liftnl-cad-projnl-extnl-ext-ent-confnl-ext-factornl-ext-inc-precnl-ext-purifynl-ext-rboundnl-ext-rewritenl-ext-split-zeronl-ext-tf-taylor-degnl-ext-tf-tplanesnl-ext-tplanesnl-ext-tplanes-interleavenl-icpnl-rlvnl-rlv-assert-boundspb-rewritespivot-thresholdpp-assert-max-sub-sizeprop-row-lengthreplay-early-close-depthreplay-lemma-reject-cutreplay-num-err-penaltyreplay-reject-cutrestrict-pivotsrevert-arith-models-on-unsatrr-turnsse-solve-intsimplex-check-periodsoi-qeunate-lemmasuse-approxuse-fcsimplexuse-soiarrays-eager-indexarrays-eager-lemmasarrays-exparrays-optimize-lineararrays-proparrays-reduce-sharingarrays-weak-equivdebugerrinlangoutoutputoutput-langparse-onlypreprocess-onlyprint-successquietrlimitrlimit-perrweightstats-allstats-every-querystats-experttlimit-pertraceverboseverbositybitblastbitwise-eqbool-to-bvbv-assert-inputbv-extract-arithbv-gauss-elimbv-intro-pow2bv-propagatebv-rw-extend-eqbv-sat-solverbv-solverbv-to-boolcdt-bisimilardt-binary-splitdt-blast-splitsdt-cyclicdt-force-assignmentdt-infer-as-lemmasdt-nested-recdt-polite-optimizedt-rewrite-error-seldt-share-selsygus-abort-sizesygus-fairsygus-fair-maxsygus-sym-breaksygus-sym-break-aggsygus-sym-break-dynamicsygus-sym-break-lazysygus-sym-break-pbesygus-sym-break-rlvdecisiondecision-random-weightdecision-thresholddecision-use-weightdecision-weight-internaljh-rlv-orderjh-skolemjh-skolem-rlvdag-threshexpr-depthtype-checkingfp-expfp-lazy-wbcopyrightdump-difficultydump-instantiationsdump-instantiations-debugdump-modelsdump-proofsdump-unsat-coresearly-exitforce-no-limit-cpu-while-dumpprint-unsat-cores-fullseedshow-configshow-debug-tagsshow-trace-tagsversionfilesystem-accessforce-logicglobal-declarationssemantic-checksstrict-parsingflatten-ho-chainsprint-instprint-inst-fullproof-checkproof-format-modeproof-granularityproof-pedanticproof-pp-mergeproof-print-conclusionminisat-dump-dimacsminisat-eliminationrandom-freqrandom-seedrefine-conflictsrestart-int-baserestart-int-incag-miniscope-quantcegis-samplecegqicegqi-allcegqi-bvcegqi-bv-concat-invcegqi-bv-ineqcegqi-bv-interleave-valuecegqi-bv-linearcegqi-bv-rm-extractcegqi-bv-solve-nlcegqi-fullcegqi-innermostcegqi-midpointcegqi-min-boundscegqi-modelcegqi-multi-instcegqi-nested-qecegqi-noptcegqi-repeat-litcegqi-round-up-liacegqi-satcegqi-use-inf-intcegqi-use-inf-realcond-var-split-agg-quantcond-var-split-quantconjecture-filter-canonicalconjecture-filter-modelconjecture-genconjecture-gen-gt-enumconjecture-gen-max-depthconjecture-gen-per-roundconjecture-gen-uee-introconjecture-no-filterdt-stc-inddt-var-exp-quante-matchingelim-taut-quantext-rewrite-quantfinite-model-findfmf-boundfmf-bound-intfmf-bound-lazyfmf-fmc-simplefmf-fresh-dcfmf-funfmf-fun-rlvfmf-inst-enginefmf-type-completion-threshfs-interleavefs-stratifyfs-sumfull-saturate-quantfull-saturate-quant-limitfull-saturate-quant-rdglobal-negateho-elimho-elim-store-axho-matchingho-matching-var-priorityho-merge-term-dbincrement-triggersinst-level-input-onlyinst-max-levelinst-max-roundsinst-no-entailinst-wheninst-when-phaseinst-when-strict-interleaveinst-when-tc-firstint-wf-indite-dtt-split-quantite-lift-quantliteral-matchingmacros-quantmacros-quant-modembqimbqi-interleavembqi-one-inst-per-roundminiscope-quantminiscope-quant-fvmulti-trigger-cachemulti-trigger-linearmulti-trigger-prioritymulti-trigger-when-singlepartial-triggerspool-instpre-skolem-quantpre-skolem-quant-aggpre-skolem-quant-nestedprenex-quantprenex-quant-userpurify-triggersqcf-all-conflictqcf-eager-check-rdqcf-eager-testqcf-nested-conflictqcf-skip-rdqcf-tconstraintqcf-vo-expquant-alpha-equivquant-cfquant-cf-modequant-cf-whenquant-dsplit-modequant-fun-wdquant-indquant-rep-modequant-splitregister-quant-body-termsrelational-triggersrelevant-triggerssygussygus-active-gensygus-active-gen-cfactorsygus-add-const-grammarsygus-arg-relevantsygus-auto-unfoldsygus-bool-ite-return-constsygus-core-connectivesygus-crepair-abortsygus-eval-optsygus-eval-unfoldsygus-eval-unfold-boolsygus-ext-rewsygus-filter-solsygus-filter-sol-revsygus-grammar-conssygus-grammar-normsygus-inferencesygus-instsygus-inst-modesygus-inst-scopesygus-inst-term-selsygus-inv-templsygus-inv-templ-when-sgsygus-min-grammarsygus-pbesygus-pbe-multi-fairsygus-pbe-multi-fair-diffsygus-qe-preprocsygus-query-gensygus-query-gen-checksygus-query-gen-dump-filessygus-query-gen-threshsygus-rec-funsygus-rec-fun-eval-limitsygus-repair-constsygus-repair-const-timeoutsygus-rrsygus-rr-synthsygus-rr-synth-accelsygus-rr-synth-checksygus-rr-synth-filter-congsygus-rr-synth-filter-matchsygus-rr-synth-filter-nlsygus-rr-synth-filter-ordersygus-rr-synth-inputsygus-rr-synth-input-nvarssygus-rr-synth-input-use-boolsygus-rr-synth-recsygus-rr-verifysygus-rr-verify-abortsygus-sample-fp-uniformsygus-sample-grammarsygus-samplessygus-sisygus-si-abortsygus-si-rconssygus-si-rcons-limitsygus-streamsygus-templ-embed-grammarsygus-unif-pisygus-unif-shuffle-condsygus-verify-inst-max-roundsterm-db-cdterm-db-modetrigger-active-seltrigger-seluser-patvar-elim-quantvar-ineq-elim-quantsep-check-negsep-child-refinesep-deq-csep-min-refinesep-pre-skolem-empsets-extsets-infer-as-lemmassets-proxy-lemmasabstract-valuesackermannblock-modelsbvand-integer-granularitycheck-abductscheck-interpolscheck-modelscheck-proofscheck-synth-solcheck-unsat-coresdebug-check-modelsdifficulty-modeearly-ite-removalexpand-definitionsext-rew-prepext-rew-prep-aggforeign-theory-rewriteiand-modeite-simplearned-rewriteminimal-unsat-coresmodel-coresmodel-u-printmodel-witness-valueon-repeat-ite-simpproduce-abductsproduce-assertionsproduce-assignmentsproduce-difficultyproduce-interpolsproduce-modelsproduce-proofsproduce-unsat-assumptionsproduce-unsat-coresrepeat-simpsimp-ite-compresssimp-ite-hunt-zombiessimp-with-caresimplificationsolve-bv-as-intsolve-int-as-bvsolve-real-as-intsort-inferencestatic-learningsygus-outunconstrained-simpunsat-cores-modere-elimre-elim-aggre-inter-modestrings-alpha-cardstrings-check-entail-lenstrings-deq-extstrings-guess-modelstrings-infer-as-lemmascondense-function-valuesoption `can't understand option `'approx-branch-deptharith-brabno-arith-brabarith-cong-manno-arith-cong-manarith-eq-solverno-arith-eq-solverno-arith-no-partial-funno-arith-rewrite-equalitiesno-collect-pivot-statsno-cut-all-boundedno-dio-decompsno-dio-solverno-fc-penaltiesno-lemmas-on-replay-failureno-miplib-trickno-new-propno-nl-cadno-nl-cad-initialno-nl-ext-ent-confno-nl-ext-factorno-nl-ext-inc-precno-nl-ext-purifyno-nl-ext-rboundno-nl-ext-rewriteno-nl-ext-split-zerono-nl-ext-tf-tplanesno-nl-ext-tplanesno-nl-ext-tplanes-interleaveno-nl-icpno-nl-rlv-assert-boundsno-pb-rewritesno-restrict-pivotsno-se-solve-intno-soi-qeno-use-approxno-use-fcsimplexno-use-soino-arrays-eager-indexno-arrays-eager-lemmasno-arrays-expno-arrays-optimize-linearno-arrays-reduce-sharingno-arrays-weak-equivdiagnostic-output-channelno-incrementalregular-output-channelno-parse-onlyno-preprocess-onlyno-print-successreproducible-resource-limitno-statsno-stats-allno-stats-every-queryno-stats-expertno-bitwise-eqno-bv-assert-inputno-bv-extract-arithno-bv-gauss-elimno-bv-intro-pow2no-bv-propagateno-bv-rw-extend-eqno-bv-to-boolno-cdt-bisimilarno-dt-binary-splitno-dt-blast-splitsno-dt-cyclicno-dt-force-assignmentno-dt-infer-as-lemmasno-dt-nested-recno-dt-polite-optimizeno-dt-rewrite-error-selno-dt-share-selno-sygus-fair-maxno-sygus-sym-breakno-sygus-sym-break-aggno-sygus-sym-break-dynamicno-sygus-sym-break-lazyno-sygus-sym-break-pbeno-sygus-sym-break-rlvdecision-modeno-decision-use-weightno-jh-rlv-orderno-type-checkingno-fp-expno-fp-lazy-wbno-dump-difficultyno-dump-instantiationsno-dump-instantiations-debugno-dump-modelsno-dump-proofsno-dump-unsat-coresno-early-exitno-interactiveno-print-unsat-cores-fullno-segv-spinno-filesystem-accessno-global-declarationsno-mmapno-semantic-checksno-strict-parsingno-flatten-ho-chainsno-print-inst-fullno-proof-pp-mergeno-proof-print-conclusionno-minisat-dump-dimacsno-minisat-eliminationrandom-frequencyno-refine-conflictsno-ag-miniscope-quantno-cegqino-cegqi-allno-cegqi-bvno-cegqi-bv-concat-invno-cegqi-bv-interleave-valueno-cegqi-bv-linearno-cegqi-bv-rm-extractno-cegqi-bv-solve-nlno-cegqi-fullno-cegqi-innermostno-cegqi-midpointno-cegqi-min-boundsno-cegqi-modelno-cegqi-multi-instno-cegqi-nested-qeno-cegqi-noptno-cegqi-repeat-litno-cegqi-round-up-liano-cegqi-satno-cegqi-use-inf-intno-cegqi-use-inf-realno-cond-var-split-agg-quantno-cond-var-split-quantno-conjecture-filter-modelno-conjecture-genno-conjecture-gen-uee-introno-conjecture-no-filterno-dt-stc-indno-dt-var-exp-quantno-e-matchingno-elim-taut-quantno-ext-rewrite-quantno-finite-model-findno-fmf-boundno-fmf-bound-intno-fmf-bound-lazyno-fmf-fmc-simpleno-fmf-fresh-dcno-fmf-funno-fmf-fun-rlvno-fmf-inst-engineno-fs-interleaveno-fs-stratifyno-fs-sumno-full-saturate-quantno-full-saturate-quant-rdno-global-negateno-ho-elimno-ho-elim-store-axno-ho-matchingno-ho-matching-var-priorityno-ho-merge-term-dbno-increment-triggersno-inst-level-input-onlyno-inst-no-entailno-inst-when-tc-firstno-int-wf-indno-ite-dtt-split-quantno-macros-quantno-mbqi-interleaveno-mbqi-one-inst-per-roundno-miniscope-quantno-miniscope-quant-fvno-multi-trigger-cacheno-multi-trigger-linearno-multi-trigger-priorityno-multi-trigger-when-singleno-partial-triggersno-pool-instno-pre-skolem-quantno-pre-skolem-quant-aggno-pre-skolem-quant-nestedno-prenex-quant-userno-purify-triggersno-qcf-all-conflictno-qcf-eager-check-rdno-qcf-eager-testno-qcf-nested-conflictno-qcf-skip-rdno-qcf-tconstraintno-qcf-vo-expno-quant-alpha-equivno-quant-cfno-quant-fun-wdno-quant-indno-quant-splitno-register-quant-body-termsno-relational-triggersno-relevant-triggersno-sygusno-sygus-add-const-grammarno-sygus-arg-relevantno-sygus-auto-unfoldno-sygus-core-connectiveno-sygus-crepair-abortno-sygus-eval-optno-sygus-eval-unfoldno-sygus-eval-unfold-boolno-sygus-ext-rewno-sygus-filter-sol-revno-sygus-grammar-normno-sygus-inferenceno-sygus-instno-sygus-inv-templ-when-sgno-sygus-min-grammarno-sygus-pbeno-sygus-pbe-multi-fairno-sygus-qe-preprocno-sygus-query-gen-checkno-sygus-rec-funno-sygus-repair-constno-sygus-rrno-sygus-rr-synthno-sygus-rr-synth-accelno-sygus-rr-synth-checkno-sygus-rr-synth-filter-congno-sygus-rr-synth-filter-nlno-sygus-rr-synth-inputno-sygus-rr-synth-recno-sygus-rr-verifyno-sygus-rr-verify-abortno-sygus-sample-fp-uniformno-sygus-sample-grammarno-sygus-si-abortno-sygus-streamno-sygus-templ-embed-grammarno-sygus-unif-shuffle-condno-term-db-cdno-var-elim-quantno-var-ineq-elim-quantno-sep-check-negno-sep-child-refineno-sep-deq-cno-sep-min-refineno-sep-pre-skolem-empno-sets-extno-sets-infer-as-lemmasno-sets-proxy-lemmasno-abstract-valuesno-ackermannno-check-abductsno-check-interpolsno-check-modelsno-check-proofsno-check-synth-solno-check-unsat-coresno-debug-check-modelsno-early-ite-removalno-expand-definitionsno-ext-rew-prepno-ext-rew-prep-aggno-foreign-theory-rewriteno-ite-simpno-learned-rewriteno-minimal-unsat-coresmodel-uninterp-printno-model-witness-valueno-on-repeat-ite-simpno-produce-abductsinteractive-modeno-produce-assertionsno-interactive-modeno-pro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