Modes
Some API functions require a configuration mode argument, e.g.,
cvc5.Solver.blockModel()
.
The following enums define such configuration modes.
- class cvc5. BlockModelsMode ( value )
-
The BlockModelsMode enum
- LITERALS
-
Block models based on the SAT skeleton.
- VALUES
-
Block models based on the concrete model values for the free variables.
- class cvc5. LearnedLitType ( value )
-
The LearnedLitType enum
- CONSTANT_PROP
-
An internal literal that can be made into a constant propagation for an input term.
In particular, literals in this category are of the form (= t c) where c is a constant, the preprocessed set of input formulas contains the term t, but not the literal (= t c).
- INPUT
-
A literal from the preprocessed set of input formulas that does not occur at top-level after preprocessing.
Typically), this is the most interesting category of literals to learn.
- INTERNAL
-
Any internal literal that does not fall into the above categories.
- PREPROCESS
-
A top-level literal (unit clause) from the preprocessed set of input formulas.
- PREPROCESS_SOLVED
-
An equality that was turned into a substitution during preprocessing.
In particular, literals in this category are of the form (= x t) where x does not occur in t.
- SOLVABLE
-
An internal literal that is solvable for an input variable.
In particular, literals in this category are of the form (= x t) where x does not occur in t, the preprocessed set of input formulas contains the term x, but not the literal (= x t).
Note that solvable literals can be turned into substitutions during preprocessing.
- UNKNOWN
-
Special case for when produce-learned-literals is not set.
- class cvc5. ProofComponent ( value )
-
The ProofComponent enum
- FULL
-
A proof of false whose free assumptions are a subset of the input formulas F1), … Fm.
Only valid immediately after an unsat response.
- PREPROCESS
-
Proofs of Gu1 … Gun whose free assumptions are Fu1, … Fum, where: - Gu1, … Gun are clauses corresponding to input formulas used in the SAT proof, - Fu1, … Fum is the subset of the input formulas that are used in the SAT proof (i.e. the unsat core).
Note that Gu1 … Gun are clauses that are added to the SAT solver before its main search.
Only valid immediately after an unsat response.
- RAW_PREPROCESS
-
Proofs of G1 … Gn whose free assumptions are a subset of F1, … Fm, where: - G1, … Gn are the preprocessed input formulas, - F1, … Fm are the input formulas.
Note that G1 … Gn may be arbitrary formulas, not necessarily clauses.
- SAT
-
A proof of false whose free assumptions are Gu1, … Gun, L1 … Lk, where: - Gu1, … Gun, is a set of clauses corresponding to input formulas, - L1, …, Lk is a set of clauses corresponding to theory lemmas.
Only valid immediately after an unsat response.
- THEORY_LEMMAS
-
Proofs of L1 … Lk where: - L1, …, Lk are clauses corresponding to theory lemmas used in the SAT proof.
In contrast to proofs given for preprocess, L1 … Lk are clauses that are added to the SAT solver after its main search.
Only valid immediately after an unsat response.
- class cvc5. ProofFormat ( value )
-
The ProofFormat enum
- ALETHE
-
Output Alethe proof.
- CPC
-
Output Cooperating Proof Calculus proof based on Eunoia signatures.
- DEFAULT
-
Use the proof format mode set in the solver options.
- DOT
-
Output DOT proof.
- LFSC
-
Output LFSC proof.
- NONE
-
Do not translate proof output.
- class cvc5. FindSynthTarget ( value )
-
The FindSynthTarget enum
- ENUM
-
Find the next term in the enumeration of the target grammar.
- QUERY
-
Find a query over the given grammar. If the given grammar generates terms that are not Boolean, we consider equalities over terms from the given grammar.
The algorithm for determining which queries to generate is configured by –sygus-query-gen=MODE. Queries that are internally solved can be filtered by the option –sygus-query-gen-filter-solved.
- REWRITE
-
Find a pair of terms (t,s) in the target grammar which are equivalent but do not rewrite to the same term in the given rewriter (–sygus-rewrite=MODE). If so, the equality (= t s) is returned by findSynth.
This can be used to synthesize rewrite rules. Note if the rewriter is set to none (–sygus-rewrite=none), this indicates a possible rewrite when implementing a rewriter from scratch.
- REWRITE_INPUT
-
Find a rewrite between pairs of terms (t,s) that are matchable with terms in the input assertions where t and s are equivalent but do not rewrite to the same term in the given rewriter (–sygus-rewrite=MODE).
This can be used to synthesize rewrite rules that apply to the current problem.
- REWRITE_UNSOUND
-
Find a term t in the target grammar which rewrites to a term s that is not equivalent to it. If so, the equality (= t s) is returned by findSynth.
This can be used to test the correctness of the given rewriter. Any returned rewrite indicates an unsoundness in the given rewriter.