Options
cvc5 can be configured at runtime using a wide range of options. When cvc5 is used as a binary, options can be set on the command line. Also, options can be set and inspected using the respective commands of the input language and the corresponding API functions:
-
C++ API:
setOption()
,getOption()
,getOptionNames()
,getOptionInfo()
-
Java API:
setOption()
,getOption()
,getOptionNames()
,getOptionInfo()
-
Base Python API:
setOption()
,getOption()
,getOptionNames()
,getOptionInfo()
-
Pythonic API:
setOption()
,getOption()
,getOptionNames()
,getOptionInfo()
Generally, all options are identified by a name
<name>
, and (optionally)
by a short name
<short>
(a single letter).
Additionally, they can have one or more aliases, which can be used instead of
<name>
.
Internally , options are strongly typed and must be either Boolean, (signed or unsigned) integers, floating-point numbers, strings, or an enumeration type. Values for options with a numeric type may be restricted to an interval.
Some options have custom types (e.g., err ) which require special treatment internally. The usage of such options is documented as part of the documentation for the corresponding options.
On the command line, a
Boolean
option can be set to
true
via
--<name>
or
-<short>
.
Most Boolean options can also be set to
false
via
--no-<name>
.
In cvc5’s APIs, this is done via
setOption("<name>",
"true"
|
"false")
.
For
all other types
, values are given on the command line using
--<name>=<value>
or
--<name>
<value>
,
and
setOption("<name>",
"<value>")
in the APIs.
The given value must be convertible to the appropriate type, in particular for
numeric and enumeration types.
Below is an exhaustive list of options supported by cvc5.
Most Commonly-Used cvc5 Options
-
i | incremental
[typebool
, defaulttrue
] (also--no-*
) -
enable incremental solving
-
L | lang | input-language
[customLanguage
, defaultLanguage::LANG_AUTO
] -
force input language (default is “auto”; see –lang help)
-
o | output
[none | inst | sygus | sygus-grammar | sygus-enumerator | sygus-sol-gterm | trigger | raw-benchmark | learned-lits | subs | post-asserts | pre-asserts | deep-restart | incomplete | lemmas | trusted-proof-steps | timeout-core-benchmark | unsat-core-benchmark | portfolio | block-model
, defaultnone
] -
Enable output tag.
Output tags.
-
inst
: -
print instantiations during solving
-
sygus
: -
print enumerated terms and candidates generated by the sygus solver
-
sygus-grammar
: -
print grammars automatically generated by the sygus solver
-
sygus-enumerator
: -
print enumerators generated by the sygus solver
-
sygus-sol-gterm
: -
print annotations for terms in sygus solutions that indicate the grammar used to generate them
-
trigger
: -
print selected triggers for quantified formulas
-
raw-benchmark
: -
print the benchmark back on the output verbatim as it is processed
-
learned-lits
: -
print input literals that hold globally
-
subs
: -
print top-level substitutions learned during preprocessing
-
post-asserts
: -
print a benchmark corresponding to the assertions of the input problem after preprocessing
-
pre-asserts
: -
print a benchmark corresponding to the assertions of the input problem before preprocessing
-
deep-restart
: -
print when cvc5 performs a deep restart along with the literals it has learned
-
incomplete
: -
print reason why cvc5 answers unknown for any given check-sat query
-
lemmas
: -
print lemmas as they are added to the SAT solver
-
trusted-proof-steps
: -
print formulas corresponding to trusted proof steps in final proofs
-
timeout-core-benchmark
: -
print the corresponding benchmark when successfully computing a timeout core.
-
unsat-core-benchmark
: -
print the corresponding benchmark when successfully computing an unsat core.
-
portfolio
: -
prints the option strings tried in portfolio mode.
-
block-model
: -
prints the formulas used when block-model is run.
-
-
parse-only
[typebool
, defaultfalse
] (also--no-*
) -
exit after parsing input
-
preprocess-only
[typebool
, defaultfalse
] (also--no-*
) -
exit after preprocessing input
-
q | quiet
[typebool
] -
decrease verbosity (may be repeated)
-
rlimit
[typeuint64_t
, default0
] -
set resource limit
-
rlimit-per | reproducible-resource-limit
[typeuint64_t
, default0
] -
set resource limit per query
-
safe-options
[typebool
, defaultfalse
] (also--no-*
) -
do not allow setting any option that is not common or regular
-
stats
[typebool
, defaultfalse
] (also--no-*
) -
give statistics on exit
-
tlimit
[typeuint64_t
, default0
] -
set time limit in milliseconds of wall clock time
-
tlimit-per
[typeuint64_t
, default0
] -
set time limit per query in milliseconds
-
v | verbose
[typebool
] -
increase verbosity (may be repeated)
-
verbosity
[typeint64_t
, default0
] -
the verbosity level of cvc5
-
copyright
[typebool
, defaultfalse
] -
show cvc5 copyright information
-
h | help
[typebool
, defaultfalse
] -
full command line reference
-
H | help-regular
[typebool
, defaultfalse
] -
regular command line reference
-
interactive
[typebool
, defaultfalse
] (also--no-*
) -
force interactive shell/non-interactive mode
-
print-success
[typebool
, defaultfalse
] (also--no-*
) -
print the “success” output required of SMT-LIBv2
-
s | seed
[typeuint64_t
, default0
] -
seed for random number generator
-
show-config
[typebool
, defaultfalse
] -
show cvc5 static configuration
-
V | version
[typebool
, defaultfalse
] -
identify this cvc5 binary
-
force-logic
[typestring
, default""
] -
set the logic, and override all further user attempts to change it
-
strict-parsing
[typebool
, defaultfalse
] (also--no-*
) -
be less tolerant of non-conforming inputs
-
dag-thresh
[typeint64_t
,0 <= N
, default1
] -
dagify common subexprs appearing > N times (1 == default, 0 == don’t dagify)
-
output-lang | output-language
[customLanguage
, defaultLanguage::LANG_AUTO
] -
force output language (default is “auto”; see –output-lang help)
-
print-inst
[list | num
, defaultlist
] -
print format for printing instantiations
Print format for printing instantiations.
-
list
: -
Print the list of instantiations per quantified formula, when non-empty.
-
num
: -
Print the total number of instantiations per quantified formula, when non-zero.
-
-
check-models
[typebool
, defaultfalse
] (also--no-*
) -
after SAT/INVALID/UNKNOWN, check that the generated model satisfies user assertions
-
m | produce-models
[typebool
, defaultfalse
] (also--no-*
) -
support the get-value and get-model commands
Additional cvc5 Options
Arithmetic Theory Module
-
approx-branch-depth
[typeint64_t
, default200
] -
[experts only]
maximum branch depth the approximate solver is allowed to take
-
arith-brab
[typebool
, defaulttrue
] (also--no-*
) -
whether to use simple rounding, similar to a unit-cube test, for integers
-
arith-eq-solver
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
whether to use the equality solver in the theory of arithmetic
-
arith-no-partial-fun
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
do not use partial function semantics for arithmetic (not SMT LIB compliant)
-
arith-prop
[none | unate | bi | both
, defaultboth
] -
[experts only]
turns on arithmetic propagation (default is ‘old’, see –arith-prop=help)
This decides on kind of propagation arithmetic attempts to do during the search.
-
unate
: -
Use constraints to do unate propagation.
-
bi
: -
(Bounds Inference) infers bounds on basic variables using the upper and lower bounds of the non-basic variables in the tableau.
-
both
: -
Use bounds inference and unate.
-
-
arith-prop-clauses
[typeuint64_t
, default8
] -
[experts only]
rows shorter than this are propagated as clauses
-
arith-rewrite-equalities
[typebool
, defaultfalse
] (also--no-*
) -
turns on the preprocessing rewrite turning equalities into a conjunction of inequalities
-
arith-static-learning
[typebool
, defaulttrue
] (also--no-*
) -
do arithmetic static learning for ite terms based on bounds when static learning is enabled
-
collect-pivot-stats
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
collect the pivot history
-
cut-all-bounded
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
turns on the integer solving step of periodically cutting all integer variables that have both upper and lower bounds
-
dio-decomps
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
let skolem variables for integer divisibility constraints leak from the dio solver
-
dio-solver
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
turns on Linear Diophantine Equation solver (Griggio, JSAT 2012)
-
dio-turns
[typeint64_t
, default10
] -
[experts only]
turns in a row dio solver cutting gets
-
error-selection-rule
[min | varord | max | sum
, defaultmin
] -
[experts only]
change the pivot rule for the basic variable (default is ‘min’, see –pivot-rule help)
This decides on the rule used by simplex during heuristic rounds for deciding the next basic variable to select.
-
min
: -
The minimum abs() value of the variable’s violation of its bound.
-
varord
: -
The variable order.
-
max
: -
The maximum violation the bound.
-
-
fc-penalties
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
turns on degenerate pivot penalties
-
heuristic-pivots
[typeint64_t
, default0
] -
[experts only]
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
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
attempt to use external lemmas if approximate solve integer failed
-
maxCutsInContext
[typeuint64_t
, default65535
] -
[experts only]
maximum cuts in a given context before signalling a restart
-
miplib-trick
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
turns on the preprocessing step of attempting to infer bounds on miplib problems
-
miplib-trick-subs
[typeuint64_t
, default1
] -
[experts only]
do substitution for miplib ‘tmp’ vars if defined in <= N eliminated vars
-
new-prop
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
use the new row propagation system
-
nl-cov
[typebool
, defaultfalse
] (also--no-*
) -
whether to use the cylindrical algebraic coverings solver for non-linear arithmetic
-
nl-cov-force
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
forces using the cylindrical algebraic coverings solver, even in cases where it is possibly not safe to do so
-
nl-cov-lift
[regular | lazard
, defaultregular
] -
[experts only]
choose the Coverings lifting mode
Modes for the Coverings lifting in non-linear arithmetic.
-
regular
: -
Regular lifting.
-
lazard
: -
Lazard’s lifting scheme.
-
-
nl-cov-linear-model
[none | initial | persistent
, defaultnone
] -
whether to use the linear model as initial guess for the cylindrical algebraic coverings solver
Modes for the usage of the linear model in non-linear arithmetic.
-
none
: -
Do not use linear model to seed nonlinear model
-
initial
: -
Use linear model to seed nonlinear model initially, discard it when it does not work
-
persistent
: -
Use linear model to seed nonlinear model whenever possible
-
-
nl-cov-proj
[mccallum | lazard | lazard-mod
, defaultmccallum
] -
[experts only]
choose the Coverings projection operator
Modes for the Coverings projection operator in non-linear arithmetic.
-
mccallum
: -
McCallum’s projection operator.
-
lazard
: -
Lazard’s projection operator.
-
lazard-mod
: -
A modification of Lazard’s projection operator.
-
-
nl-cov-prune
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
whether to prune intervals more agressively
-
nl-cov-var-elim
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
whether to eliminate variables using equalities before going into the cylindrical algebraic coverings solver. It can not be used when producing proofs right now.
-
nl-ext
[none | light | full
, defaultfull
] -
incremental linearization approach to non-linear
Modes for the non-linear linearization
-
none
: -
Disable linearization approach
-
light
: -
Only use a few light-weight lemma schemes
-
full
: -
Use all lemma schemes
-
-
nl-ext-ent-conf
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
check for entailed conflicts in non-linear solver
-
nl-ext-factor
[typebool
, defaulttrue
] (also--no-*
) -
use factoring inference in non-linear incremental linearization solver
-
nl-ext-inc-prec
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
whether to increment the precision for irrational function constraints
-
nl-ext-purify
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
purify non-linear terms at preprocess
-
nl-ext-rbound
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
use resolution-style inference for inferring new bounds in non-linear incremental linearization solver
-
nl-ext-rewrite
[typebool
, defaulttrue
] (also--no-*
) -
do context-dependent simplification based on rewrites in non-linear solver
-
nl-ext-split-zero
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
initial splits on zero for all variables
-
nl-ext-tf-taylor-deg
[typeint64_t
, default4
] -
[experts only]
initial degree of polynomials for Taylor approximation
-
nl-ext-tf-tplanes
[typebool
, defaulttrue
] (also--no-*
) -
use non-terminating tangent plane strategy for transcendental functions for non-linear incremental linearization solver
-
nl-ext-tplanes
[typebool
, defaulttrue
] (also--no-*
) -
use non-terminating tangent plane strategy for non-linear incremental linearization solver
-
nl-ext-tplanes-interleave
[typebool
, defaultfalse
] (also--no-*
) -
interleave tangent plane strategy for non-linear incremental linearization solver
-
nl-icp
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
whether to use ICP-style propagations for non-linear arithmetic
-
nl-rlv
[none | interleave | always
, defaultnone
] -
[experts only]
choose mode for using relevance of assertions in non-linear arithmetic
Modes for using relevance of assertions in non-linear arithmetic.
-
none
: -
Do not use relevance.
-
interleave
: -
Alternate rounds using relevance.
-
always
: -
Always use relevance.
-
-
nl-rlv-assert-bounds
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
use bound inference utility to prune when an assertion is entailed by another
-
pb-rewrites
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
apply pseudo boolean rewrites
-
pivot-threshold
[typeuint64_t
, default2
] -
[experts only]
sets the number of pivots using –pivot-rule per basic variable per simplex instance before using variable order
-
pp-assert-max-sub-size
[typeuint64_t
, default2
] -
[experts only]
threshold for substituting an equality in ppAssert
-
prop-row-length
[typeuint64_t
, default16
] -
[experts only]
sets the maximum row length to be used in propagation
-
replay-early-close-depth
[typeint64_t
, default1
] -
[experts only]
multiples of the depths to try to close the approx log eagerly
-
replay-lemma-reject-cut
[typeuint64_t
, default25500
] -
[experts only]
maximum complexity of any coefficient while outputting replaying cut lemmas
-
replay-num-err-penalty
[typeint64_t
, default4194304
] -
[experts only]
number of solve integer attempts to skips after a numeric failure
-
replay-reject-cut
[typeuint64_t
, default25500
] -
[experts only]
maximum complexity of any coefficient while replaying cuts
-
restrict-pivots
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
have a pivot cap for simplex at effort levels below fullEffort
-
revert-arith-models-on-unsat
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
revert the arithmetic model to a known safe model on unsat if one is cached
-
rr-turns
[typeint64_t
, default3
] -
[experts only]
round robin turn
-
se-solve-int
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
attempt to use the approximate solve integer method on standard effort
-
simplex-check-period
[typeuint64_t
, default200
] -
[experts only]
the number of pivots to do in simplex before rechecking for a conflict on all variables
-
soi-qe
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
use quick explain to minimize the sum of infeasibility conflicts
-
standard-effort-variable-order-pivots
[typeint64_t
, default-1
] -
[experts only]
limits the number of pivots in a single invocation of check() at a non-full effort level using Bland’s pivot rule
-
unate-lemmas
[all | eqs | ineqs | none
, defaultall
] -
[experts only]
determines which lemmas to add before solving (default is ‘all’, see –unate-lemmas=help)
Unate lemmas are generated before SAT search begins using the relationship of constant terms and polynomials.
-
all
: -
A combination of inequalities and equalities.
-
eqs
: -
Outputs lemmas of the general forms (= p c) implies (<= p d) for c < d, or (= p c) implies (not (= p d)) for c != d.
-
ineqs
: -
Outputs lemmas of the general form (<= p c) implies (<= p d) for c < d.
-
none
: -
Do not add unate lemmas.
-
-
use-approx
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
attempt to use an approximate solver
-
use-fcsimplex
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
use focusing and converging simplex (FMCAD 2013 submission)
-
use-soi
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
use sum of infeasibility simplex (FMCAD 2013 submission)
Arrays Theory Module
-
arrays-eager-index
[typebool
, defaulttrue
] (also--no-*
) -
turn on eager index splitting for generated array lemmas
-
arrays-eager-lemmas
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
turn on eager lemma generation for arrays
-
arrays-exp
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
enable experimental features in the theory of arrays
-
arrays-optimize-linear
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
turn on optimization for linear array terms (see de Moura FMCAD 09 arrays paper)
-
arrays-prop
[typeint64_t
, default2
] -
[experts only]
propagation effort for arrays: 0 is none, 1 is some, 2 is full
-
arrays-reduce-sharing
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
use model information to reduce size of care graph for arrays
-
arrays-weak-equiv
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
use algorithm from Christ/Hoenicke (SMT 2014)
Base Module
-
err | diagnostic-output-channel
[customManagedErr
, default{}
] -
[experts only]
Set the error (or diagnostic) output channel. Writes to stderr for “stderr” or “–”, stdout for “stdout” or the given filename otherwise.
-
in
[customManagedIn
, default{}
] -
[experts only]
Set the error (or diagnostic) output channel. Reads from stdin for “stdin” or “–” and the given filename otherwise.
-
out | regular-output-channel
[customManagedOut
, default{}
] -
[experts only]
Set the error (or diagnostic) output channel. Writes to stdout for “stdout” or “–”, stderr for “stderr” or the given filename otherwise.
-
rweight
[typestring
] -
[experts only]
set a single resource weight
-
stats-all
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
print unchanged (defaulted) statistics as well
-
stats-every-query
[typebool
, defaultfalse
] (also--no-*
) -
in incremental mode, print stats after every satisfiability or validity query
-
stats-internal
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
print internal (non-public) statistics as well
-
t | trace
[typestring
] -
trace something (e.g. -t pushpop), can repeat and may contain wildcards like (e.g. -t theory::*)
Bitvector Theory Module
-
bitblast
[lazy | eager
, defaultlazy
] -
choose bitblasting mode, see –bitblast=help
Bit-blasting modes.
-
lazy
: -
Separate Boolean structure and term reasoning between the core SAT solver and the bit-vector SAT solver.
-
eager
: -
Bitblast eagerly to bit-vector SAT solver.
-
-
bitwise-eq
[typebool
, defaulttrue
] (also--no-*
) -
lift equivalence with one-bit bit-vectors to be boolean operations
-
bool-to-bv
[off | ite | all
, defaultoff
] -
convert booleans to bit-vectors of size 1 at various levels of aggressiveness, see –bool-to-bv=help
BoolToBV preprocessing pass modes.
-
off
: -
Don’t push any booleans to width one bit-vectors.
-
ite
: -
Try to turn ITEs into BITVECTOR_ITE when possible. It can fail per-formula if not all sub-formulas can be turned to bit-vectors.
-
all
: -
Force all booleans to be bit-vectors of width one except at the top level. Most aggressive mode.
-
-
bv-assert-input
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
assert input assertions on user-level 0 instead of assuming them in the bit-vector SAT solver
-
bv-eager-eval
[typebool
, defaultfalse
] (also--no-*
) -
perform eager context-dependent evaluation for applications of bv kinds in the equality engine
-
bv-eq-engine
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
enable equality engine when possible in bitvector theory
-
bv-gauss-elim
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
simplify formula via Gaussian Elimination if applicable
-
bv-intro-pow2
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
introduce bitvector powers of two as a preprocessing pass
-
bv-propagate
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
use bit-vector propagation in the bit-blaster
-
bv-rw-extend-eq
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
enable additional rewrites over zero/sign extend over equalities with constants (useful on BV/2017-Preiner-scholl-smt08)
-
bv-sat-solver
[minisat | cryptominisat | cadical | kissat
, defaultcadical
] -
choose which sat solver to use, see –bv-sat-solver=help
SAT solver for bit-blasting backend.
-
bv-solver
[bitblast | bitblast-internal
, defaultbitblast
] -
choose bit-vector solver, see –bv-solver=help
Bit-vector solvers.
-
bitblast
: -
Enables bitblasting solver.
-
bitblast-internal
: -
Enables bitblasting to internal SAT solver with proof support.
-
-
bv-to-bool
[typebool
, defaultfalse
] (also--no-*
) -
lift bit-vectors of size 1 to booleans when possible
Datatypes Theory Module
-
cdt-bisimilar
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
do bisimilarity check for co-datatypes
-
dt-binary-split
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
do binary splits for datatype constructor types
-
dt-blast-splits
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
when applicable, blast splitting lemmas for all variables at once
-
dt-cyclic
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
do cyclicity check for datatypes
-
dt-infer-as-lemmas
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
always send lemmas out instead of making internal inferences
-
dt-nested-rec
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
allow nested recursion in datatype definitions
-
dt-polite-optimize
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
turn on optimization for polite combination
-
sygus-abort-size
[typeint64_t
, default-1
] -
tells enumerative sygus to only consider solutions up to term size N (-1 == no limit, default)
-
sygus-fair
[direct | dt-size | dt-height-bound | dt-size-bound | none
, defaultdt-size
] -
if and how to apply fairness for sygus
Modes for enforcing fairness for counterexample guided quantifier instantion.
-
direct
: -
Enforce fairness using direct conflict lemmas.
-
dt-size
: -
Enforce fairness using size operator.
-
dt-height-bound
: -
Enforce fairness by height bound predicate.
-
dt-size-bound
: -
Enforce fairness by size bound predicate.
-
none
: -
Do not enforce fairness.
-
-
sygus-fair-max
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
use max instead of sum for multi-function sygus conjectures
-
sygus-rewriter
[none | basic | extended
, defaultextended
] -
if and how to apply rewriting for sygus symmetry breaking
Modes for applying rewriting for sygus symmetry breaking.
-
none
: -
Do not use the rewriter.
-
basic
: -
Use the basic rewriter.
-
extended
: -
Use the extended rewriter.
-
-
sygus-simple-sym-break
[none | basic | agg
, defaultagg
] -
if and how to apply simple symmetry breaking based on the grammar for smart enumeration
Modes for applying simple symmetry breaking based on the grammar for smart enumeration.
-
none
: -
Do not apply simple symmetry breaking.
-
basic
: -
Apply basic simple symmetry breaking.
-
agg
: -
Apply aggressive simple symmetry breaking.
-
-
sygus-sym-break-lazy
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
lazily add symmetry breaking lemmas for terms
-
sygus-sym-break-pbe
[typebool
, defaulttrue
] (also--no-*
) -
sygus symmetry breaking lemmas based on pbe conjectures
-
sygus-sym-break-rlv
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
add relevancy conditions to symmetry breaking lemmas
Decision Heuristics Module
-
decision | decision-mode
[internal | justification | stoponly
, defaultinternal
] -
choose decision mode, see –decision=help
Decision modes.
-
internal
: -
Use the internal decision heuristics of the SAT solver.
-
justification
: -
An ATGP-inspired justification heuristic.
-
stoponly
: -
Use the justification heuristic only to stop early, not for decisions.
-
-
jh-rlv-order
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
maintain activity-based ordering for decision justification heuristic
-
jh-skolem
[first | last
, defaultfirst
] -
[experts only]
policy for when to satisfy skolem definitions in justification heuristic
Policy for when to satisfy skolem definitions in justification heuristic
-
first
: -
satisfy pending relevant skolem definitions before input assertions
-
last
: -
satisfy pending relevant skolem definitions after input assertions
-
-
jh-skolem-rlv
[assert | always
, defaultassert
] -
[experts only]
policy for when to consider skolem definitions relevant in justification heuristic
Policy for when to consider skolem definitions relevant in justification heuristic
-
assert
: -
skolems are relevant when they occur in an asserted literal
-
always
: -
skolems are always relevant
-
Expression Module
-
type-checking
[typebool
, defaultDO_SEMANTIC_CHECKS_BY_DEFAULT
] (also--no-*
) -
[experts only]
type check expressions
-
wf-checking
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
check that terms passed to API methods are well formed (default false for text interface)
Finite Field Theory Module
-
ff-bitsum
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
parse bitsums
-
ff-disjunctive-bit
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
leave disjunctive bit constraints (or (= x 1) (= x 0)) alone; otherwise, preprocess to (= (* x x) x)
-
ff-field-polys
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
include field polynomials in Groebner basis computation; don’t do this
-
ff-solver
[gb | split
, defaultgb
] -
[experts only]
which field solver (default: ‘gb’; see –ff-solver=help)
Which field solver
-
gb
: -
use a groebner basis for the whole system
-
split
: -
use multiple groebner bases for partitions of the system
-
-
ff-trace-gb
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
use a traced groebner basis engine
Floating-Point Module
-
fp-exp
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
Allow floating-point sorts of all sizes, rather than only Float32 (8/24) or Float64 (11/53) (experimental)
-
fp-lazy-wb
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
Enable lazier word-blasting (on preNotifyFact instead of registerTerm)
Driver Module
-
dump-difficulty
[typebool
, defaultfalse
] (also--no-*
) -
dump the difficulty measure after every response to check-sat
-
dump-instantiations
[typebool
, defaultfalse
] (also--no-*
) -
output instantiations of quantified formulas after every UNSAT/VALID response
-
dump-instantiations-debug
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
output instantiations of quantified formulas after every UNSAT/VALID response, with debug information
-
dump-models
[typebool
, defaultfalse
] (also--no-*
) -
output models after every SAT/INVALID/UNKNOWN response
-
dump-proofs
[typebool
, defaultfalse
] (also--no-*
) -
output proofs after every UNSAT/VALID response
-
dump-unsat-cores
[typebool
, defaultfalse
] (also--no-*
) -
output unsat cores after every UNSAT/VALID response
-
early-exit
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
do not run destructors at exit; default on except in debug builds
-
force-no-limit-cpu-while-dump
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
Force no CPU limit when dumping models and proofs
-
portfolio-jobs
[typeuint64_t
, default1
] -
[experts only]
Number of parallel jobs the portfolio engine can run
-
segv-spin
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
spin on segfault/other crash waiting for gdb
-
show-trace-tags
[typebool
, defaultfalse
] -
[experts only]
show all available tags for tracing
-
use-portfolio
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
Use internal portfolio mode based on the logic
Parallel Module
-
append-learned-literals-to-cubes
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
emit learned literals with the cubes
-
checks-before-partition
[typeuint64_t
, default1
] -
[experts only]
number of standard or full effort checks until partitioning
-
checks-between-partitions
[typeuint64_t
, default1
] -
[experts only]
number of checks between partitions
-
compute-partitions
[typeuint64_t
, default0
] -
[experts only]
make n partitions. n <2 disables computing partitions entirely
-
partition-check | check
[standard | full
, defaultstandard
] -
[experts only]
select whether partitioning happens at full or standard check
Partition check modes.
-
standard
: -
create partitions at standard checks
-
full
: -
create partitions at full checks
-
-
partition-conflict-size
[typeuint64_t
, default0
] -
[experts only]
number of literals in a cube; if no partition size is set, then the partition conflict size is chosen to be log2(number of requested partitions)
-
partition-start-time
[typeuint64_t
, default30
] -
[experts only]
time to start creating partitions in seconds
-
partition-strategy | partition
[decision-scatter | heap-scatter | lemma-scatter | decision-cube | heap-cube | lemma-cube
, defaultdecision-scatter
] -
[experts only]
choose partition strategy mode
Partition strategy modes.
-
decision-scatter
: -
For 4 partitions, creates partitions C1, !C1 & C2, !C1 & !C2 & C3, !C1 & !C2 & !C3, from decisions
-
heap-scatter
: -
For 4 partitions, creates partitions C1, !C1 & C2, !C1 & !C2 & C3, !C1 & !C2 & !C3, from heap
-
lemma-scatter
: -
For 4 partitions, creates partitions C1, !C1 & C2, !C1 & !C2 & C3, !C1 & !C2 & !C3, from lemmas
-
decision-cube
: -
Creates mutually exclusive cubes from the decisions in the SAT solver.
-
heap-cube
: -
Creates mutually exclusive cubes from the order heap in the SAT solver.
-
lemma-cube
: -
Creates mutually exclusive cubes from the lemmas sent to the SAT solver.
-
-
partition-time-interval
[typedouble
, default1.0
] -
[experts only]
time to wait between scatter partitions
-
partition-tlimit
[typeuint64_t
, default60
] -
[experts only]
time limit for partitioning in seconds
-
partition-when
[tlimit | climit
, defaulttlimit
] -
[experts only]
choose when to partition
PartitionWhen modes.
-
tlimit
: -
Partition when the time limit is exceeded.
-
climit
: -
Partition when number of checks is exceeded.
-
-
random-partitioning
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
create random partitions
-
write-partitions-to | partitions-out
[customManagedOut
, defaultManagedOut()
] -
[experts only]
set the output channel for writing partitions
Parser Module
-
filesystem-access
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
limits the file system access if set to false
-
fresh-declarations
[typebool
, defaulttrue
] (also--no-*
) -
use API interface for fresh constants when parsing declarations and definitions
-
global-declarations
[typebool
, defaultfalse
] (also--no-*
) -
force all declarations and definitions to be global when parsing
-
semantic-checks
[typebool
, defaultDO_SEMANTIC_CHECKS_BY_DEFAULT
] (also--no-*
) -
[experts only]
enable semantic checks, including type checks
Printing Module
-
bv-print-consts-as-indexed-symbols
[typebool
, defaultfalse
] (also--no-*
) -
print bit-vector constants in decimal (e.g. (_ bv1 4)) instead of binary (e.g. #b0001), applies to SMT-LIB 2.x
-
expr-depth
[typeint64_t
,-1 <= N
, default-1
] -
[experts only]
print exprs to depth N (0 == default, -1 == no limit)
-
flatten-ho-chains
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
print (binary) application chains in a flattened way, e.g. (a b c) rather than ((a b) c)
-
model-u-print
[decl-sort-and-fun | decl-fun | none
, defaultnone
] -
determines how to print uninterpreted elements in models
uninterpreted elements in models printing modes.
-
decl-sort-and-fun
: -
print uninterpreted elements declare-fun, and also include a declare-sort for the sort
-
decl-fun
: -
print uninterpreted elements declare-fun, but don’t include a declare-sort for the sort
-
none
: -
(default) do not print declarations of uninterpreted elements in models.
-
Proof Module
-
alf-print-reference
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
Print reference to original file instead of redeclaring
-
check-proof-steps
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
Check proof steps for satisfiability, for refutation soundness testing. Note this checks only steps for non-core proof rules
-
lfsc-expand-trust
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
Print the children of trusted proof steps
-
lfsc-flatten
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
Flatten steps in the LFSC proof
-
opt-res-reconstruction-size
[typebool
, defaulttrue
] (also--no-*
) -
Optimize resolution reconstruction to reduce proof size
-
print-dot-clusters
[typebool
, defaultfalse
] (also--no-*
) -
Whether the proof node clusters (e.g. SAT, CNF, INPUT) will be printed when using the dot format or not.
-
proof-alethe-res-pivots
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
Add pivots to Alethe resolution steps
-
proof-annotate
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
add optional annotations to proofs, which enables statistics for inference ids for lemmas and conflicts appearing in final proof
-
proof-check
[eager | eager-simple | lazy | none
, defaultnone
] -
[experts only]
select internal proof checking mode
Internal proof checking modes.
-
eager
: -
check rule applications and proofs from generators eagerly for local debugging
-
eager-simple
: -
check rule applications during construction
-
lazy
: -
check rule applications only during final proof construction
-
none
: -
do not check rule applications
-
-
proof-dot-dag
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
Indicates if the dot proof will be printed as a DAG or as a tree
-
proof-format-mode
[none | dot | lfsc | alethe | alf
, defaultalf
] -
select language of proof output
Proof format modes.
-
none
: -
Do not translate proof output
-
dot
: -
Output DOT proof
-
lfsc
: -
Output LFSC proof
-
alethe
: -
Output Alethe proof
-
alf
: -
Output AletheLF proof
-
-
proof-granularity
[macro | rewrite | theory-rewrite | dsl-rewrite
, defaultmacro
] -
modes for proof granularity
Modes for proof granularity.
-
macro
: -
Allow macros. Do not improve the granularity of proofs.
-
rewrite
: -
Allow rewrite or substitution steps, expand macros.
-
theory-rewrite
: -
Allow theory rewrite steps, expand macros, rewrite and substitution steps.
-
dsl-rewrite
: -
Allow DSL rewrites and evaluation steps, expand macros, rewrite, substitution, and theory rewrite steps.
-
-
proof-pedantic
[typeuint64_t
,N <= 100
, default0
] -
[experts only]
assertion failure for any incorrect rule application or untrusted lemma having pedantic level <=N with proof
-
proof-pp-merge
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
merge subproofs in final proof post-processor
-
proof-print-conclusion
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
Print conclusion of proof steps when printing AST
-
proof-prune-input
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
Prune unused input assumptions from final scope
-
proof-rewrite-rcons-limit
[typeint64_t
, default5
] -
the matching recursion limit for reconstructing proofs of theory rewrites
SAT Layer Module
-
minisat-dump-dimacs
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
instead of solving minisat dumps the asserted clauses in Dimacs format
-
minisat-simplification
[all | clause-elim | none
, defaultall
] -
[experts only]
Simplifications to be performed by Minisat.
Modes for Minisat simplifications.
-
all
: -
Variable and clause elimination, plus other simplifications.
-
clause-elim
: -
Caluse elimination and other simplifications, except variable elimination.
-
none
: -
No simplifications.
-
-
preregister-mode
[eager | lazy
, defaulteager
] -
[experts only]
Modes for when to preregister literals.
Modes for when to preregister literals.
-
eager
: -
Preregister literals when they are registered as literals in the SAT solver.
-
lazy
: -
Preregister literals when they are asserted by the SAT solver.
-
-
random-freq | random-frequency
[typedouble
,0.0 <= P <= 1.0
, default0.0
] -
[experts only]
sets the frequency of random decisions in the sat solver (P=0.0 by default)
-
restart-int-base
[typeuint64_t
, default25
] -
[experts only]
sets the base restart interval for the sat solver (N=25 by default)
-
restart-int-inc
[typedouble
,0.0 <= F
, default3.0
] -
[experts only]
sets the restart interval increase factor for the sat solver (F=3.0 by default)
-
sat-random-seed
[typeuint64_t
, default0
] -
sets the random seed for the sat solver
-
sat-solver
[minisat | cadical
, defaultminisat
] -
[experts only]
choose which sat solver to use, see –sat-solver=help
CDCL(T) SAT solver backend.
Quantifiers Module
-
cbqi
[typebool
, defaulttrue
] (also--no-*
) -
enable conflict-based quantifier instantiation
-
cbqi-all-conflict
[typebool
, defaultfalse
] (also--no-*
) -
add all available conflicting instances during conflict-based instantiation
-
cbqi-mode
[conflict | prop-eq
, defaultprop-eq
] -
what effort to apply conflict find mechanism
Quantifier conflict find modes.
-
conflict
: -
Apply QCF algorithm to find conflicts only.
-
prop-eq
: -
Apply QCF algorithm to propagate equalities as well as conflicts.
-
-
cbqi-skip-rd
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
optimization, skip instances based on possibly irrelevant portions of quantified formulas
-
cbqi-tconstraint
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
enable entailment checks for t-constraints in cbqi algorithm
-
cbqi-vo-exp
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
cbqi experimental variable ordering
-
cegis-sample
[none | use | trust
, defaultnone
] -
mode for using samples in the counterexample-guided inductive synthesis loop
Modes for sampling with counterexample-guided inductive synthesis (CEGIS).
-
none
: -
Do not use sampling with CEGIS.
-
use
: -
Use sampling to accelerate CEGIS. This will rule out solutions for a conjecture when they are not satisfied by a sample point.
-
trust
: -
Trust that when a solution for a conjecture is always true under sampling, then it is indeed a solution. Note this option may print out spurious solutions for synthesis conjectures.
-
-
cegqi
[typebool
, defaultfalse
] (also--no-*
) -
turns on counterexample-based quantifier instantiation
-
cegqi-all
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
apply counterexample-based instantiation to all quantified formulas
-
cegqi-bv
[typebool
, defaulttrue
] (also--no-*
) -
use word-level inversion approach for counterexample-guided quantifier instantiation for bit-vectors
-
cegqi-bv-concat-inv
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
compute inverse for concat over equalities rather than producing an invertibility condition
-
cegqi-bv-ineq
[eq-slack | eq-boundary | keep
, defaulteq-boundary
] -
choose mode for handling bit-vector inequalities with counterexample-guided instantiation
Modes for handling bit-vector inequalities in counterexample-guided instantiation.
-
eq-slack
: -
Solve for the inequality using the slack value in the model, e.g., t > s becomes t = s + ( t-s )^M.
-
eq-boundary
: -
Solve for the boundary point of the inequality, e.g., t > s becomes t = s+1.
-
keep
: -
Solve for the inequality directly using side conditions for invertibility.
-
-
cegqi-bv-interleave-value
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
interleave model value instantiation with word-level inversion approach
-
cegqi-bv-linear
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
linearize adder chains for variables
-
cegqi-bv-rm-extract
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
replaces extract terms with variables for counterexample-guided instantiation for bit-vectors
-
cegqi-bv-solve-nl
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
try to solve non-linear bv literals using model value projections
-
cegqi-full
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
turns on full effort counterexample-based quantifier instantiation, which may resort to model-value instantiation
-
cegqi-inf-int
[typebool
, defaultfalse
] (also--no-*
) -
use integer infinity for vts in counterexample-based quantifier instantiation
-
cegqi-inf-real
[typebool
, defaultfalse
] (also--no-*
) -
use real infinity for vts in counterexample-based quantifier instantiation
-
cegqi-innermost
[typebool
, defaulttrue
] (also--no-*
) -
only process innermost quantified formulas in counterexample-based quantifier instantiation
-
cegqi-midpoint
[typebool
, defaultfalse
] (also--no-*
) -
choose substitutions based on midpoints of lower and upper bounds for counterexample-based quantifier instantiation
-
cegqi-min-bounds
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
use minimally constrained lower/upper bound for counterexample-based quantifier instantiation
-
cegqi-multi-inst
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
when applicable, do multi instantiations per quantifier per round in counterexample-based quantifier instantiation
-
cegqi-nested-qe
[typebool
, defaultfalse
] (also--no-*
) -
process nested quantified formulas with quantifier elimination in counterexample-based quantifier instantiation
-
cegqi-nopt
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
non-optimal bounds for counterexample-based quantifier instantiation
-
cegqi-round-up-lia
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
round up integer lower bounds in substitutions for counterexample-based quantifier instantiation
-
cond-var-split-quant
[off | on | agg
, defaulton
] -
[experts only]
split quantified formulas that lead to variable eliminations
Modes for splitting quantified formulas that lead to variable eliminations.
-
off
: -
Do not split quantified formulas.
-
on
: -
Split quantified formulas that lead to variable eliminations.
-
agg
: -
Aggressively split quantified formulas that lead to variable eliminations.
-
-
conjecture-gen
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
generate candidate conjectures for inductive proofs
-
conjecture-gen-gt-enum
[typeint64_t
, default50
] -
[experts only]
number of ground terms to generate for model filtering
-
conjecture-gen-max-depth
[typeint64_t
, default3
] -
[experts only]
maximum depth of terms to consider for conjectures
-
conjecture-gen-per-round
[typeint64_t
, default1
] -
[experts only]
number of conjectures to generate per instantiation round
-
cons-exp-triggers
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
use constructor expansion for single constructor datatypes triggers
-
dt-stc-ind
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
apply strengthening for existential quantification over datatypes based on structural induction
-
dt-var-exp-quant
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
expand datatype variables bound to one constructor in quantifiers
-
e-matching
[typebool
, defaulttrue
] (also--no-*
) -
whether to do heuristic E-matching
-
elim-taut-quant
[typebool
, defaulttrue
] (also--no-*
) -
eliminate tautological disjuncts of quantified formulas
-
enum-inst
[typebool
, defaultfalse
] (also--no-*
) -
enumerative instantiation: instantiate with ground terms from relevant domain, then arbitrary ground terms before answering unknown
-
enum-inst-interleave
[typebool
, defaultfalse
] (also--no-*
) -
interleave enumerative instantiation with other techniques
-
enum-inst-limit
[typeint64_t
, default-1
] -
[experts only]
maximum number of rounds of enumerative instantiation to apply (-1 means no limit)
-
enum-inst-rd
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
whether to use relevant domain first for enumerative instantiation strategy
-
enum-inst-stratify
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
stratify effort levels in enumerative instantiation, which favors speed over fairness
-
enum-inst-sum
[typebool
, defaultfalse
] (also--no-*
) -
enumerating tuples of quantifiers by increasing the sum of indices, rather than the maximum
-
ext-rewrite-quant
[typebool
, defaultfalse
] (also--no-*
) -
apply extended rewriting to bodies of quantified formulas
-
finite-model-find
[typebool
, defaultfalse
] (also--no-*
) -
use finite model finding heuristic for quantifier instantiation
-
fmf-bound
[typebool
, defaultfalse
] (also--no-*
) -
finite model finding on bounded quantification
-
fmf-bound-blast
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
send all instantiations for bounded ranges in a single round
-
fmf-bound-lazy
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
enforce bounds for bounded quantification lazily via use of proxy variables
-
fmf-fun
[typebool
, defaultfalse
] (also--no-*
) -
find models for recursively defined functions, assumes functions are admissible
-
fmf-fun-rlv
[typebool
, defaultfalse
] (also--no-*
) -
find models for recursively defined functions, assumes functions are admissible, allows empty type when function is irrelevant
-
fmf-mbqi
[none | fmc | trust
, defaultfmc
] -
[experts only]
choose mode for model-based quantifier instantiation
Model-based quantifier instantiation modes.
-
none
: -
Disable model-based quantifier instantiation.
-
fmc
: -
Use algorithm from Section 5.4.2 of thesis Finite Model Finding in Satisfiability Modulo Theories.
-
trust
: -
Do not instantiate quantified formulas (incomplete technique).
-
-
fmf-type-completion-thresh
[typeint64_t
, default1000
] -
the maximum cardinality of an interpreted type for which exhaustive enumeration in finite model finding is attempted
-
full-saturate-quant
[typebool
, defaultfalse
] (also--no-*
) -
resort to full effort techniques instead of answering unknown due to limited quantifier reasoning. Currently enables enumerative instantiation
-
global-negate
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
do global negation of input formula
-
ho-elim
[typebool
, defaultfalse
] (also--no-*
) -
eagerly eliminate higher-order constraints
-
ho-elim-store-ax
[typebool
, defaulttrue
] (also--no-*
) -
use store axiom during ho-elim
-
ho-matching
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
do higher-order matching algorithm for triggers with variable operators
-
ho-merge-term-db
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
merge term indices modulo equality
-
ieval
[off | use | use-learn
, defaultuse
] -
mode for using instantiation evaluation
Mode for using instantiation evaluation.
-
off
: -
Do not use instantiation evaluation.
-
use
: -
Use instantiation evaluation.
-
use-learn
: -
Use instantiation evaluation, and generalize learning.
-
-
increment-triggers
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
generate additional triggers as needed during search
-
inst-max-level
[typeint64_t
, default-1
] -
[experts only]
maximum inst level of terms used to instantiate quantified formulas with (-1 == no limit, default)
-
inst-max-rounds
[typeint64_t
, default-1
] -
maximum number of instantiation rounds (-1 == no limit, default)
-
inst-no-entail
[typebool
, defaulttrue
] (also--no-*
) -
do not consider instances of quantified formulas that are currently entailed
-
inst-when
[full | full-delay | full-last-call | full-delay-last-call | last-call
, defaultfull-last-call
] -
when to apply instantiation
Instantiation modes.
-
full
: -
Run instantiation round at full effort, before theory combination.
-
full-delay
: -
Run instantiation round at full effort, before theory combination, after all other theories have finished.
-
full-last-call
: -
Alternate running instantiation rounds at full effort and last call. In other words, interleave instantiation and theory combination.
-
full-delay-last-call
: -
Alternate running instantiation rounds at full effort after all other theories have finished, and last call.
-
last-call
: -
Run instantiation at last call effort, after theory combination and and theories report sat.
-
-
inst-when-phase
[typeint64_t
, default2
] -
[experts only]
instantiation rounds quantifiers takes (>=1) before allowing theory combination to happen
-
int-wf-ind
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
apply strengthening for integers based on well-founded induction
-
ite-dtt-split-quant
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
split ites with dt testers as conditions
-
ite-lift-quant
[none | simple | all
, defaultsimple
] -
ite lifting mode for quantified formulas
ITE lifting modes for quantified formulas.
-
none
: -
Do not lift if-then-else in quantified formulas.
-
simple
: -
Lift if-then-else in quantified formulas if results in smaller term size.
-
all
: -
Lift if-then-else in quantified formulas.
-
-
literal-matching
[none | use | agg-predicate | agg
, defaultuse
] -
[experts only]
choose literal matching mode
Literal match modes.
-
none
: -
Do not use literal matching.
-
use
: -
Consider phase requirements of triggers conservatively. For example, the trigger P( x ) in forall( x ). ( P( x ) V ~Q( x ) ) will not be matched with terms in the equivalence class of true, and likewise Q( x ) will not be matched terms in the equivalence class of false. Extends to equality.
-
agg-predicate
: -
Consider phase requirements aggressively for predicates. In the above example, only match P( x ) with terms that are in the equivalence class of false.
-
agg
: -
Consider the phase requirements aggressively for all triggers.
-
-
macros-quant
[typebool
, defaultfalse
] (also--no-*
) -
perform quantifiers macro expansion
-
macros-quant-mode
[all | ground | ground-uf
, defaultground-uf
] -
mode for quantifiers macro expansion
Modes for quantifiers macro expansion.
-
all
: -
Infer definitions for functions, including those containing quantified formulas.
-
ground
: -
Only infer ground definitions for functions.
-
ground-uf
: -
Only infer ground definitions for functions that result in triggers for all free variables.
-
-
mbqi
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
use model-based quantifier instantiation
-
mbqi-interleave
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
interleave model-based quantifier instantiation with other techniques
-
mbqi-one-inst-per-round
[typebool
, defaultfalse
] (also--no-*
) -
only add one instantiation per quantifier per round for mbqi
-
miniscope-quant
[off | conj | fv | conj-and-fv | agg
, defaultconj-and-fv
] -
miniscope mode for quantified formulas
Miniscope quantifiers modes.
-
off
: -
Do not miniscope quantifiers.
-
conj
: -
Use miniscoping of conjunctions only.
-
fv
: -
Use free variable miniscoping only.
-
conj-and-fv
: -
Enable both conjunction and free variable miniscoping.
-
agg
: -
Enable aggressive miniscope, which further may rewrite quantified formulas into a form where miniscoping is possible.
-
-
multi-trigger-cache
[typebool
, defaultfalse
] (also--no-*
) -
caching version of multi triggers
-
multi-trigger-linear
[typebool
, defaulttrue
] (also--no-*
) -
implementation of multi triggers where maximum number of instantiations is linear wrt number of ground terms
-
multi-trigger-priority
[typebool
, defaultfalse
] (also--no-*
) -
only try multi triggers if single triggers give no instantiations
-
multi-trigger-when-single
[typebool
, defaultfalse
] (also--no-*
) -
select multi triggers when single triggers exist
-
oracles
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
Enable interface to external oracles
-
partial-triggers
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
use triggers that do not contain all free variables
-
pool-inst
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
pool-based instantiation: instantiate with ground terms occurring in user-specified pools
-
pre-skolem-quant
[off | on | agg
, defaultoff
] -
modes to apply skolemization eagerly to bodies of quantified formulas
Modes to apply skolemization eagerly to bodies of quantified formulas.
-
off
: -
Do not apply Skolemization eagerly.
-
on
: -
Apply Skolemization eagerly to top-level (negatively asserted) quantified formulas.
-
agg
: -
Apply Skolemization eagerly and aggressively during preprocessing.
-
-
pre-skolem-quant-nested
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
apply skolemization to nested quantified formulas
-
prenex-quant
[none | simple | norm
, defaultsimple
] -
prenex mode for quantified formulas
Prenex quantifiers modes.
-
none
: -
Do not prenex nested quantifiers.
-
simple
: -
Do simple prenexing of same sign quantifiers.
-
norm
: -
Prenex to prenex normal form.
-
-
prenex-quant-user
[typebool
, defaultfalse
] (also--no-*
) -
prenex quantified formulas with user patterns
-
print-inst-full
[typebool
, defaulttrue
] (also--no-*
) -
print instantiations for formulas that do not have given identifiers
-
purify-triggers
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
purify triggers, e.g. f( x+1 ) becomes f( y ), x mapsto y-1
-
quant-alpha-equiv
[typebool
, defaulttrue
] (also--no-*
) -
infer alpha equivalence between quantified formulas
-
quant-dsplit
[none | default | agg
, defaultdefault
] -
mode for dynamic quantifiers splitting
Modes for quantifiers splitting.
-
none
: -
Never split quantified formulas.
-
default
: -
Split quantified formulas over some finite datatypes when finite model finding is enabled.
-
agg
: -
Aggressively split quantified formulas.
-
-
quant-fun-wd
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
assume that function defined by quantifiers are well defined
-
quant-ind
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
use all available techniques for inductive reasoning
-
quant-rep-mode
[ee | first | depth
, defaultfirst
] -
[experts only]
selection mode for representatives in quantifiers engine
Modes for quantifiers representative selection.
-
ee
: -
Let equality engine choose representatives.
-
first
: -
Choose terms that appear first.
-
depth
: -
Choose terms that are of minimal depth.
-
-
register-quant-body-terms
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
consider ground terms within bodies of quantified formulas for matching
-
relational-triggers
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
choose relational triggers such as x = f(y), x >= f(y)
-
relevant-triggers
[typebool
, defaultfalse
] (also--no-*
) -
prefer triggers that are more relevant based on SInE style analysis
-
sygus
[typebool
, defaultfalse
] (also--no-*
) -
support SyGuS commands
-
sygus-add-const-grammar
[typebool
, defaulttrue
] (also--no-*
) -
statically add constants appearing in conjecture to grammars
-
sygus-arg-relevant
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
static inference techniques for computing whether arguments of functions-to-synthesize are relevant
-
sygus-auto-unfold
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
enable approach which automatically unfolds transition systems for directly solving invariant synthesis problems
-
sygus-bool-ite-return-const
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
Only use Boolean constants for return values in unification-based function synthesis
-
sygus-core-connective
[typebool
, defaulttrue
] (also--no-*
) -
use unsat core analysis to construct Boolean connective to sygus conjectures
-
sygus-crepair-abort
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
abort if constant repair techniques are not applicable
-
sygus-enum
[smart | fast | random | var-agnostic | auto
, defaultauto
] -
mode for sygus enumeration
Modes for sygus enumeration.
-
smart
: -
Use smart enumeration based on datatype constraints.
-
fast
: -
Use optimized enumerator for sygus enumeration.
-
random
: -
Use basic random enumerator for sygus enumeration.
-
var-agnostic
: -
Use sygus solver to enumerate terms that are agnostic to variables.
-
auto
: -
Internally decide the best policy for each enumerator.
-
-
sygus-enum-fast-num-consts
[typeuint64_t
, default5
] -
[experts only]
the branching factor for the number of interpreted constants to consider for each size when using –sygus-enum=fast
-
sygus-enum-random-p
[typedouble
,0.0 <= P <= 1.0
, default0.5
] -
[experts only]
the parameter of the geometric distribution used to determine the size of terms generated by –sygus-enum=random
-
sygus-eval-unfold
[none | single | single-bool | multi
, defaultsingle-bool
] -
modes for sygus evaluation unfolding
Modes for sygus evaluation unfolding.
-
none
: -
Do not use sygus evaluation unfolding.
-
single
: -
Do single-step unfolding for all evaluation functions.
-
single-bool
: -
Do single-step unfolding for Boolean functions and ITEs, and multi-step unfolding for all others.
-
multi
: -
Do multi-step unfolding for all evaluation functions.
-
-
sygus-expr-miner-check-timeout
[typeuint64_t
, default0
] -
[experts only]
timeout (in milliseconds) for satisfiability checks in expression miners
-
sygus-filter-sol
[none | strong | weak
, defaultnone
] -
[experts only]
mode for filtering sygus solutions
Modes for filtering sygus solutions.
-
none
: -
Do not filter sygus solutions.
-
strong
: -
Filter solutions that are logically stronger than others.
-
weak
: -
Filter solutions that are logically weaker than others.
-
-
sygus-filter-sol-rev
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
compute backwards filtering to compute whether previous solutions are filtered based on later ones
-
sygus-grammar-cons
[simple | any-const | any-term | any-term-concise
, defaultsimple
] -
mode for SyGuS grammar construction
Modes for default SyGuS grammars.
-
simple
: -
Use simple grammar construction (no symbolic terms or constants).
-
any-const
: -
Use symoblic constant constructors.
-
any-term
: -
When applicable, use constructors corresponding to any symbolic term. This option enables a sum-of-monomials grammar for arithmetic. For all other types, it enables symbolic constant constructors.
-
any-term-concise
: -
When applicable, use constructors corresponding to any symbolic term, favoring conciseness over generality. This option is equivalent to any-term but enables a polynomial grammar for arithmetic when not in a combined theory.
-
-
sygus-grammar-norm
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
statically normalize sygus grammars based on flattening (linearization)
-
sygus-grammar-use-disj
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
use disjunctions in internally generated grammars. this is set to false when solving abduction queries.
-
sygus-inference
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
attempt to preprocess arbitrary inputs to sygus conjectures
-
sygus-inst
[typebool
, defaultfalse
] (also--no-*
) -
Enable SyGuS instantiation quantifiers module
-
sygus-inst-mode
[priority-inst | priority-eval | interleave
, defaultpriority-inst
] -
[experts only]
select instantiation lemma mode
SyGuS instantiation lemma modes.
-
priority-inst
: -
add instantiation lemmas first, add evaluation unfolding if instantiation fails.
-
priority-eval
: -
add evaluation unfolding lemma first, add instantiation lemma if unfolding lemmas already added.
-
interleave
: -
add instantiation and evaluation unfolding lemmas in the same step.
-
-
sygus-inst-scope
[in | out | both
, defaultin
] -
[experts only]
select scope of ground terms
scope for collecting ground terms for the grammar.
-
in
: -
use ground terms inside given quantified formula only.
-
out
: -
use ground terms outside of quantified formulas only.
-
both
: -
combines inside and outside.
-
-
sygus-inst-term-sel
[min | max | both
, defaultmin
] -
[experts only]
granularity for ground terms
Ground term selection modes.
-
min
: -
collect minimal ground terms only.
-
max
: -
collect maximal ground terms only.
-
both
: -
combines minimal and maximal .
-
-
sygus-inv-templ
[none | pre | post
, defaultpost
] -
template mode for sygus invariant synthesis (weaken pre-condition, strengthen post-condition, or none)
Template modes for sygus invariant synthesis.
-
none
: -
Synthesize invariant directly.
-
pre
: -
Synthesize invariant based on weakening of precondition.
-
post
: -
Synthesize invariant based on strengthening of postcondition.
-
-
sygus-inv-templ-when-sg
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
use invariant templates (with solution reconstruction) for syntax guided problems
-
sygus-min-grammar
[typebool
, defaulttrue
] (also--no-*
) -
statically minimize sygus grammars
-
sygus-out
[status | status-and-def | sygus-standard
, defaultsygus-standard
] -
output mode for sygus
Modes for sygus solution output.
-
status
: -
Print only status for check-synth calls.
-
status-and-def
: -
Print status followed by definition corresponding to solution.
-
sygus-standard
: -
Print based on SyGuS standard.
-
-
sygus-pbe
[typebool
, defaulttrue
] (also--no-*
) -
enable approach which unifies conditional solutions, specialized for programming-by-examples (pbe) conjectures
-
sygus-pbe-multi-fair
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
when using multiple enumerators, ensure that we only register value of minimial term size
-
sygus-pbe-multi-fair-diff
[typeint64_t
, default0
] -
[experts only]
when using multiple enumerators, ensure that we only register values of minimial term size plus this value (default 0)
-
sygus-qe-preproc
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
use quantifier elimination as a preprocessing step for sygus
-
sygus-query-gen
[basic | sample-sat | unsat
, defaultbasic
] -
[experts only]
mode for generating interesting satisfiability queries using SyGuS, for internal fuzzing
Modes for generating interesting satisfiability queries using SyGuS.
-
basic
: -
Generate all queries using SyGuS enumeration of the given grammar
-
sample-sat
: -
Generate interesting SAT queries based on sampling, for e.g. soundness testing.
-
unsat
: -
Generate interesting UNSAT queries, for e.g. proof testing.
-
-
sygus-query-gen-dump-files
[none | all | unsolved
, defaultnone
] -
[experts only]
mode for dumping external files corresponding to interesting satisfiability queries with sygus-query-gen
Query file options.
-
none
: -
Do not dump query files when using –sygus-query-gen.
-
all
: -
Dump all query files.
-
unsolved
: -
Dump query files that the subsolver did not solve.
-
-
sygus-query-gen-filter-solved
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
do not print queries that are solved
-
sygus-query-gen-thresh
[typeuint64_t
, default5
] -
[experts only]
number of points that we allow to be equal for enumerating satisfiable queries with sygus-query-gen
-
sygus-rec-fun
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
enable efficient support for recursive functions in sygus grammars
-
sygus-rec-fun-eval-limit
[typeuint64_t
, default1000
] -
[experts only]
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
[typebool
, defaultfalse
] (also--no-*
) -
use approach to repair constants in sygus candidate solutions
-
sygus-repair-const-timeout
[typeuint64_t
, default0
] -
[experts only]
timeout (in milliseconds) for the satisfiability check to repair constants in sygus candidate solutions
-
sygus-rr-synth-accel
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
add dynamic symmetry breaking clauses based on candidate rewrites
-
sygus-rr-synth-check
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
use satisfiability check to verify correctness of candidate rewrites
-
sygus-rr-synth-filter-cong
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
filter candidate rewrites based on congruence
-
sygus-rr-synth-filter-match
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
filter candidate rewrites based on matching
-
sygus-rr-synth-filter-nl
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
filter non-linear candidate rewrites
-
sygus-rr-synth-filter-order
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
filter candidate rewrites based on variable ordering
-
sygus-rr-synth-input-nvars
[typeint64_t
, default3
] -
[experts only]
the maximum number of variables per type that appear in rewrites from sygus-rr-synth-input
-
sygus-rr-synth-rec
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
synthesize rewrite rules over all sygus grammar types recursively
-
sygus-sample-fp-uniform
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
sample floating-point values uniformly instead of in a biased fashion
-
sygus-sample-grammar
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
when applicable, use grammar for choosing sample points
-
sygus-samples
[typeint64_t
, default1000
] -
[experts only]
number of points to consider when doing sygus rewriter sample testing
-
sygus-si
[none | use | all
, defaultnone
] -
mode for processing single invocation synthesis conjectures
Modes for single invocation techniques.
-
none
: -
Do not use single invocation techniques.
-
use
: -
Use single invocation techniques only if grammar is not restrictive.
-
all
: -
Always use single invocation techniques.
-
-
sygus-si-abort
[typebool
, defaultfalse
] (also--no-*
) -
abort if synthesis conjecture is not single invocation
-
sygus-si-rcons
[none | try | all-limit | all
, defaultall
] -
policy for reconstructing solutions for single invocation conjectures
Modes for reconstruction solutions while using single invocation techniques.
-
none
: -
Do not try to reconstruct solutions in the original (user-provided) grammar when using single invocation techniques. In this mode, solutions produced by cvc5 may violate grammar restrictions.
-
try
: -
Try to reconstruct solutions in the original grammar when using single invocation techniques in an incomplete (fail-fast) manner.
-
all-limit
: -
Try to reconstruct solutions in the original grammar, but terminate if a maximum number of rounds for reconstruction is exceeded.
-
all
: -
Try to reconstruct solutions in the original grammar. In this mode, we do not terminate until a solution is successfully reconstructed.
-
-
sygus-si-rcons-limit
[typeint64_t
, default10000
] -
[experts only]
number of rounds of enumeration to use during solution reconstruction (negative means unlimited)
-
sygus-si-rcons-p
[typedouble
,0.0 <= P <= 1.0
, default0.5
] -
[experts only]
the parameter of the geometric distribution used to determine the number of unification patterns generated by single invocation techniques.
-
sygus-stream
[typebool
, defaultfalse
] (also--no-*
) -
enumerate a stream of solutions instead of terminating after the first one
-
sygus-unif-cond-independent-no-repeat-sol
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
Do not try repeated solutions when using independent synthesis of conditions in unification-based function synthesis
-
sygus-unif-pi
[none | complete | cond-enum | cond-enum-igain
, defaultnone
] -
mode for synthesis via piecewise-indepedent unification
Modes for piecewise-independent unification.
-
none
: -
Do not use piecewise-independent unification.
-
complete
: -
Use complete approach for piecewise-independent unification (see Section 3 of Barbosa et al FMCAD 2019)
-
cond-enum
: -
Use unconstrained condition enumeration for piecewise-independent unification (see Section 4 of Barbosa et al FMCAD 2019).
-
cond-enum-igain
: -
Same as cond-enum, but additionally uses an information gain heuristic when doing decision tree learning.
-
-
sygus-unif-shuffle-cond
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
Shuffle condition pool when building solutions (may change solutions sizes)
-
sygus-verify-inst-max-rounds
[typeint64_t
, default10
] -
[experts only]
maximum number of instantiation rounds for sygus verification calls (-1 == no limit, default is 10)
-
sygus-verify-timeout
[typeuint64_t
, default0
] -
timeout (in milliseconds) for verifying satisfiability of synthesized terms
-
term-db-mode
[all | relevant
, defaultall
] -
which ground terms to consider for instantiation
Modes for terms included in the quantifiers term database.
-
all
: -
Quantifiers module considers all ground terms.
-
relevant
: -
Quantifiers module considers only ground terms connected to current assertions.
-
-
trigger-active-sel
[all | min | max
, defaultall
] -
[experts only]
selection mode to activate triggers
Trigger active selection modes.
-
all
: -
Make all triggers active.
-
min
: -
Activate triggers with minimal ground terms.
-
max
: -
Activate triggers with maximal ground terms.
-
-
trigger-sel
[min | max | min-s-max | min-s-all | all
, defaultmin
] -
selection mode for triggers
Trigger selection modes.
-
min
: -
Consider only minimal subterms that meet criteria for triggers.
-
max
: -
Consider only maximal subterms that meet criteria for triggers.
-
min-s-max
: -
Consider only minimal subterms that meet criteria for single triggers, maximal otherwise.
-
min-s-all
: -
Consider only minimal subterms that meet criteria for single triggers, all otherwise.
-
all
: -
Consider all subterms that meet criteria for triggers.
-
-
user-pat
[use | trust | strict | resort | ignore | interleave
, defaulttrust
] -
policy for handling user-provided patterns for quantifier instantiation
These modes determine how user provided patterns (triggers) are used during E-matching. The modes vary on when instantiation based on user-provided triggers is combined with instantiation based on automatically selected triggers.
-
use
: -
Use both user-provided and auto-generated patterns when patterns are provided for a quantified formula.
-
trust
: -
When provided, use only user-provided patterns for a quantified formula.
-
strict
: -
When provided, use only user-provided patterns for a quantified formula, and do not use any other instantiation techniques.
-
resort
: -
Use user-provided patterns only after auto-generated patterns saturate.
-
ignore
: -
Ignore user-provided patterns.
-
interleave
: -
Alternate between use/resort.
-
-
user-pool
[use | trust | ignore
, defaulttrust
] -
[experts only]
policy for handling user-provided pools for quantifier instantiation
These modes determine how user provided pools are used in combination with other instantiation techniques.
-
use
: -
Use both user-provided pool and other instantiation strategies when pools are provided for a quantified formula.
-
trust
: -
When provided, use only user-provided pool for a quantified formula.
-
ignore
: -
Ignore user-provided pool.
-
-
var-elim-quant
[typebool
, defaulttrue
] (also--no-*
) -
enable simple variable elimination for quantified formulas
-
var-ineq-elim-quant
[typebool
, defaulttrue
] (also--no-*
) -
enable variable elimination based on infinite projection of unbound arithmetic variables
Separation Logic Theory Module
-
sep-min-refine
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
only add refinement lemmas for minimal (innermost) assertions
-
sep-pre-skolem-emp
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
eliminate emp constraint at preprocess time
Sets Theory Module
-
sets-ext
[typebool
, defaultfalse
] (also--no-*
) -
enable extended symbols such as complement and universe in theory of sets
-
sets-infer-as-lemmas
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
send inferences as lemmas
-
sets-proxy-lemmas
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
introduce proxy variables eagerly to shorten lemmas
SMT Layer Module
-
abstract-values
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
in models, output arrays (and in future, maybe others) using abstract values, as required by the SMT-LIB standard
-
ackermann
[typebool
, defaultfalse
] (also--no-*
) -
eliminate functions by ackermannization
-
bv-to-int-use-pow2
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
use internal pow2 operator when translating shift notes
-
bvand-integer-granularity
[typeuint64_t
,1 <= N <= 8
, default1
] -
[experts only]
granularity to use in –solve-bv-as-int mode and for iand operator (experimental)
-
check-abducts
[typebool
, defaultfalse
] (also--no-*
) -
checks whether produced solutions to get-abduct are correct
-
check-interpolants
[typebool
, defaultfalse
] (also--no-*
) -
checks whether produced solutions to get-interpolant are correct
-
check-proofs
[typebool
, defaultfalse
] (also--no-*
) -
after UNSAT/VALID, check the generated proof (with proof)
-
check-synth-sol
[typebool
, defaultfalse
] (also--no-*
) -
checks whether produced solutions to functions-to-synthesize satisfy the conjecture
-
check-unsat-cores
[typebool
, defaultfalse
] (also--no-*
) -
after UNSAT/VALID, produce and check an unsat core (expensive)
-
debug-check-models
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
after SAT/INVALID/UNKNOWN, check that the generated model satisfies user and internal assertions
-
deep-restart
[none | input | input-and-solvable | input-and-prop | all
, defaultnone
] -
[experts only]
mode for deep restarts
Mode for deep restarts
-
none
: -
do not use deep restart
-
input
: -
learn literals that appear in the input
-
input-and-solvable
: -
learn literals that appear in the input and those that can be solved for variables that appear in the input
-
input-and-prop
: -
learn literals that appear in the input and those that can be solved for variables, or correspond to constant propagations for terms that appear in the input
-
all
: -
learn all literals
-
-
deep-restart-factor
[typedouble
,0.0 <= F <= 1000.0
, default3.0
] -
[experts only]
sets the threshold for average assertions per literal before a deep restart
-
difficulty-mode
[lemma-literal | lemma-literal-all | model-check
, defaultlemma-literal-all
] -
[experts only]
choose output mode for get-difficulty, see –difficulty-mode=help
difficulty output modes.
-
lemma-literal
: -
Difficulty of an assertion is how many lemmas (at full effort) use a literal that the assertion depends on to be satisfied.
-
lemma-literal-all
: -
Difficulty of an assertion is how many lemmas use a literal that the assertion depends on to be satisfied.
-
model-check
: -
Difficulty of an assertion is how many times it was not satisfied in a candidate model.
-
-
early-ite-removal
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
remove ITEs early in preprocessing
-
ext-rew-prep
[off | use | agg
, defaultoff
] -
mode for using extended rewriter as a preprocessing pass, see –ext-rew-prep=help
extended rewriter preprocessing pass modes.
-
off
: -
do not use extended rewriter as a preprocessing pass.
-
use
: -
use extended rewriter as a preprocessing pass.
-
agg
: -
use aggressive extended rewriter as a preprocessing pass.
-
-
foreign-theory-rewrite
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
Cross-theory rewrites
-
iand-mode
[value | sum | bitwise
, defaultvalue
] -
[experts only]
Set the refinement scheme for integer AND
Refinement modes for integer AND
-
value
: -
value-based refinement
-
sum
: -
use sum to represent integer AND in refinement
-
bitwise
: -
use bitwise comparisons on binary representation of integer for refinement (experimental)
-
-
interpolants-mode
[default | assumptions | conjecture | shared | all
, defaultdefault
] -
choose interpolants production mode, see –interpolants-mode=help
Interpolants grammar mode
-
default
: -
use the default grammar for the theory or the user-defined grammar if given
-
assumptions
: -
use only operators that occur in the assumptions
-
conjecture
: -
use only operators that occur in the conjecture
-
shared
: -
use only operators that occur both in the assumptions and the conjecture
-
all
: -
use only operators that occur either in the assumptions or the conjecture
-
-
ite-simp
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
turn on ite simplification (Kim (and Somenzi) et al., SAT 2009)
-
learned-rewrite
[typebool
, defaultfalse
] (also--no-*
) -
rewrite the input based on learned literals
-
minimal-unsat-cores
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
if an unsat core is produced, it is reduced to a minimal unsat core
-
model-cores
[none | simple | non-implied
, defaultnone
] -
mode for producing model cores
Model cores modes.
-
none
: -
Do not compute model cores.
-
simple
: -
Only include a subset of variables whose values are sufficient to show the input formula is satisfied by the given model.
-
non-implied
: -
Only include a subset of variables whose values, in addition to the values of variables whose values are implied, are sufficient to show the input formula is satisfied by the given model.
-
-
model-var-elim-uneval
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
allow variable elimination based on unevaluatable terms to variables
-
on-repeat-ite-simp
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
do the ite simplification pass again if repeating simplification
-
print-cores-full
[typebool
, defaultfalse
] (also--no-*
) -
print all formulas regardless of whether they are named, e.g. in unsat cores
-
produce-abducts
[typebool
, defaultfalse
] (also--no-*
) -
support the get-abduct command
-
produce-assertions | interactive-mode
[typebool
, defaulttrue
] (also--no-*
) -
keep an assertions list. Note this option is always enabled.
-
produce-assignments
[typebool
, defaultfalse
] (also--no-*
) -
support the get-assignment command
-
produce-difficulty
[typebool
, defaultfalse
] (also--no-*
) -
enable tracking of difficulty.
-
produce-interpolants
[typebool
, defaultfalse
] (also--no-*
) -
turn on interpolation generation.
-
produce-learned-literals
[typebool
, defaultfalse
] (also--no-*
) -
produce learned literals, support get-learned-literals
-
produce-proofs
[typebool
, defaultfalse
] (also--no-*
) -
produce proofs, support check-proofs and get-proof
-
produce-unsat-assumptions
[typebool
, defaultfalse
] (also--no-*
) -
turn on unsat assumptions generation
-
produce-unsat-cores
[typebool
, defaultfalse
] (also--no-*
) -
turn on unsat core generation. Unless otherwise specified, cores will be produced using SAT soving under assumptions and preprocessing proofs.
-
proof-mode
[off | pp-only | sat-proof | full-proof
, defaultoff
] -
[experts only]
choose proof mode, see –proof-mode=help
proof modes.
-
repeat-simp
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
make multiple passes with nonclausal simplifier
-
simp-ite-compress
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
enables compressing ites after ite simplification
-
simp-with-care
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
enables simplifyWithCare in ite simplificiation
-
simplification | simplification-mode
[none | batch
, defaultbatch
] -
choose simplification mode, see –simplification=help
Simplification modes.
-
none
: -
Do not perform nonclausal simplification.
-
batch
: -
Save up all ASSERTions; run nonclausal simplification and clausal (MiniSat) propagation for all of them only after reaching a querying command (CHECKSAT or QUERY or predicate SUBTYPE declaration).
-
-
simplification-bcp
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
apply Boolean constant propagation as a substituion during simplification
-
solve-bv-as-int
[off | sum | iand | bv | bitwise
, defaultoff
] -
mode for translating BVAnd to integer
solve-bv-as-int modes.
-
off
: -
Do not translate bit-vectors to integers
-
sum
: -
Generate a sum expression for each bvand instance, based on the value in –solve-bv-as-int-granularity
-
iand
: -
Translate bvand to the iand operator
-
bv
: -
Translate bvand back to bit-vectors
-
bitwise
: -
Introduce a UF operator for bvand, and eagerly add bitwise lemmas
-
-
solve-int-as-bv
[typeuint64_t
,N <= 4294967295
, default0
] -
attempt to solve a pure integer satisfiable problem by bitblasting in sufficient bitwidth (experimental)
-
solve-real-as-int
[typebool
, defaultfalse
] (also--no-*
) -
attempt to solve a pure real satisfiable problem as an integer problem (for non-linear)
-
sort-inference
[typebool
, defaultfalse
] (also--no-*
) -
calculate sort inference of input problem, convert the input based on monotonic sorts
-
static-learning
[typebool
, defaulttrue
] (also--no-*
) -
use static learning (on by default)
-
timeout-core-timeout
[typeuint64_t
, default10000
] -
[experts only]
timeout (in milliseconds) for satisfiability checks for timeout cores
-
unconstrained-simp
[typebool
, defaultfalse
] (also--no-*
) -
turn on unconstrained simplification (see Bruttomesso/Brummayer PhD thesis). Fully supported only in (subsets of) the logic QF_ABV.
-
unsat-cores-mode
[off | sat-proof | assumptions
, defaultoff
] -
[experts only]
choose unsat core mode, see –unsat-cores-mode=help
unsat cores modes.
-
off
: -
Do not produce unsat cores.
-
sat-proof
: -
Produce unsat cores from the SAT proof and prepocessing proofs.
-
assumptions
: -
Produce unsat cores using solving under assumptions and preprocessing proofs.
-
Strings Theory Module
-
re-elim
[off | on | agg
, defaultoff
] -
regular expression elimination mode
Regular expression elimination modes.
-
off
: -
Do not use regular expression elimination.
-
on
: -
Use regular expression elimination.
-
agg
: -
Use aggressive regular expression elimination.
-
-
re-inter-mode
[all | constant | one-constant | none
, defaultnone
] -
[experts only]
determines which regular expressions intersections to compute
Regular expression intersection modes.
-
all
: -
Compute intersections for all regular expressions.
-
constant
: -
Compute intersections only between regular expressions that do not contain re.allchar or re.range.
-
one-constant
: -
Compute intersections only between regular expressions such that at least one side does not contain re.allchar or re.range.
-
none
: -
Do not compute intersections for regular expressions.
-
-
seq-array
[lazy | eager | none
, defaultnone
] -
[experts only]
use array-inspired solver for sequence updates in eager or lazy mode
use array-inspired solver for sequence updates in eager or lazy mode
-
lazy
: -
use array-inspired solver for sequence updates in lazy mode
-
eager
: -
use array-inspired solver for sequence updates in eager mode
-
none
: -
do not use array-inspired solver for sequence updates
-
-
strings-alpha-card
[typeuint64_t
,N <= 196608
, default196608
] -
[experts only]
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
[typebool
, defaulttrue
] (also--no-*
) -
check entailment between length terms to reduce splitting
-
strings-code-elim
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
eliminate code points during preprocessing
-
strings-deq-ext
[typebool
, defaultfalse
] (also--no-*
) -
use extensionality for string disequalities
-
strings-eager-eval
[typebool
, defaulttrue
] (also--no-*
) -
perform eager context-dependent evaluation for applications of string kinds in the equality engine
-
strings-eager-len-re
[typebool
, defaultfalse
] (also--no-*
) -
use regular expressions for eager length conflicts
-
strings-eager-reg
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
do registration lemmas for terms during preregistration. If false, do registration lemmas for terms when they appear in asserted literals
-
strings-eager-solver
[typebool
, defaulttrue
] (also--no-*
) -
use the eager solver
-
strings-exp
[typebool
, defaultfalse
] (also--no-*
) -
experimental features in the theory of strings
-
strings-ff
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
do flat form inferences
-
strings-fmf
[typebool
, defaultfalse
] (also--no-*
) -
the finite model finding used by the theory of strings
-
strings-infer-as-lemmas
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
always send lemmas out instead of making internal inferences
-
strings-infer-sym
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
generalized inferences in strings based on proxy symbols
-
strings-lazy-pp
[typebool
, defaulttrue
] (also--no-*
) -
perform string preprocessing lazily
-
strings-len-norm
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
strings length normalization lemma
-
strings-mbr
[typebool
, defaulttrue
] (also--no-*
) -
use models to avoid reductions for extended functions that introduce quantified formulas
-
strings-model-max-len
[typeuint64_t
,N <= 2147483647
, default65536
] -
[experts only]
The maximum size of string values in models
-
strings-process-loop-mode
[full | simple | simple-abort | none | abort
, defaultfull
] -
determines how to process looping string equations
Loop processing modes.
-
full
: -
Perform full processing of looping word equations.
-
simple
: -
Omit normal loop breaking (default with –strings-fmf).
-
simple-abort
: -
Abort when normal loop breaking is required.
-
none
: -
Omit loop processing.
-
abort
: -
Abort if looping word equations are encountered.
-
-
strings-re-posc-eager
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
eager reduction of positive membership into concatentation
-
strings-regexp-inclusion
[typebool
, defaulttrue
] (also--no-*
) -
use regular expression inclusion for finding conflicts and avoiding regular expression unfolding
-
strings-rexplain-lemmas
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
regression explanations for string lemmas
Theory Layer Module
-
assign-function-values
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
assign values for uninterpreted functions in models
-
condense-function-values
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
condense values for functions in models rather than explicitly representing them
-
ee-mode
[distributed | central
, defaultdistributed
] -
[experts only]
mode for managing equalities across theory solvers
Defines mode for managing equalities across theory solvers.
-
distributed
: -
Each theory maintains its own equality engine.
-
central
: -
All applicable theories use the central equality engine.
-
-
relevance-filter
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
enable analysis of relevance of asserted literals with respect to the input formula
-
tc-mode
[care-graph
, defaultcare-graph
] -
[experts only]
mode for theory combination
Defines mode for theory combination.
-
care-graph
: -
Use care graphs for theory combination.
-
-
theoryof-mode
[type | term
, defaulttype
] -
[experts only]
mode for Theory::theoryof()
Defines how we associate theories with terms.
-
type
: -
Type variables, constants and equalities by type.
-
term
: -
Type variables as uninterpreted, type constants by theory, equalities by the parametric theory.
-
Uninterpreted Functions Theory Module
-
eager-arith-bv-conv
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
eagerly expand bit-vector to arithmetic conversions during preprocessing
-
symmetry-breaker
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
use UF symmetry breaker (Deharbe et al., CADE 2011)
-
uf-ho-ext
[typebool
, defaulttrue
] (also--no-*
) -
[experts only]
apply extensionality on function symbols
-
uf-lazy-ll
[typebool
, defaulttrue
] (also--no-*
) -
do lambda lifting lazily
-
uf-ss
[full | no-minimal | none
, defaultfull
] -
mode of operation for uf with cardinality solver.
UF with cardinality options currently supported by the –uf-ss option when combined with finite model finding.
-
full
: -
Default, use UF with cardinality to find minimal models for uninterpreted sorts.
-
no-minimal
: -
Use UF with cardinality to shrink models, but do no enforce minimality.
-
none
: -
Do not use UF with cardinality to shrink model sizes.
-
-
uf-ss-abort-card
[typeint64_t
, default-1
] -
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
[typebool
, defaulttrue
] (also--no-*
) -
use fair strategy for finite model finding multiple sorts
-
uf-ss-fair-monotone
[typebool
, defaultfalse
] (also--no-*
) -
[experts only]
group monotone sorts when enforcing fairness for finite model finding