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/********************* */
/*! \file minisat.h
** \verbatim
** Top contributors (to current version):
** Mathias Preiner, Liana Hadarean, Dejan Jovanovic
** This file is part of the CVC4 project.
** Copyright (c) 2009-2020 by the authors listed in the file AUTHORS
** in the top-level source directory and their institutional affiliations.
** All rights reserved. See the file COPYING in the top-level source
** directory for licensing information.\endverbatim
**
** \brief SAT Solver.
**
** Implementation of the minisat interface for cvc4.
**/
#pragma once
#include "prop/sat_solver.h"
#include "prop/minisat/simp/SimpSolver.h"
#include "util/statistics_registry.h"
namespace CVC4 {
namespace prop {
class MinisatSatSolver : public CDCLTSatSolverInterface
{
public:
MinisatSatSolver(StatisticsRegistry* registry);
~MinisatSatSolver() override;
static SatVariable toSatVariable(Minisat::Var var);
static Minisat::Lit toMinisatLit(SatLiteral lit);
static SatLiteral toSatLiteral(Minisat::Lit lit);
static SatValue toSatLiteralValue(Minisat::lbool res);
static Minisat::lbool toMinisatlbool(SatValue val);
//(Commented because not in use) static bool tobool(SatValue val);
static void toMinisatClause(SatClause& clause, Minisat::vec<Minisat::Lit>& minisat_clause);
static void toSatClause (const Minisat::Clause& clause, SatClause& sat_clause);
void initialize(context::Context* context,
TheoryProxy* theoryProxy,
CVC4::context::UserContext* userContext,
ProofNodeManager* pnm) override;
ClauseId addClause(SatClause& clause, bool removable) override;
ClauseId addXorClause(SatClause& clause, bool rhs, bool removable) override
{
Unreachable() << "Minisat does not support native XOR reasoning";
}
SatVariable newVar(bool isTheoryAtom,
bool preRegister,
bool canErase) override;
SatVariable trueVar() override { return d_minisat->trueVar(); }
SatVariable falseVar() override { return d_minisat->falseVar(); }
SatValue solve() override;
SatValue solve(long unsigned int&) override;
bool ok() const override;
void interrupt() override;
SatValue value(SatLiteral l) override;
SatValue modelValue(SatLiteral l) override;
bool properExplanation(SatLiteral lit, SatLiteral expl) const override;
/** Incremental interface */
unsigned getAssertionLevel() const override;
void push() override;
void pop() override;
void resetTrail() override;
void requirePhase(SatLiteral lit) override;
bool isDecision(SatVariable decn) const override;
/** Retrieve a pointer to the unerlying solver. */
Minisat::SimpSolver* getSolver() { return d_minisat; }
/** Retrieve the proof manager of this SAT solver. */
SatProofManager* getProofManager();
/** Retrieve the refutation proof of this SAT solver. */
std::shared_ptr<ProofNode> getProof() override;
private:
/** The SatSolver used */
Minisat::SimpSolver* d_minisat;
/** Context we will be using to synchronize the sat solver */
context::Context* d_context;
void setupOptions();
class Statistics {
private:
StatisticsRegistry* d_registry;
ReferenceStat<uint64_t> d_statStarts, d_statDecisions;
ReferenceStat<uint64_t> d_statRndDecisions, d_statPropagations;
ReferenceStat<uint64_t> d_statConflicts, d_statClausesLiterals;
ReferenceStat<uint64_t> d_statLearntsLiterals, d_statMaxLiterals;
ReferenceStat<uint64_t> d_statTotLiterals;
public:
Statistics(StatisticsRegistry* registry);
~Statistics();
void init(Minisat::SimpSolver* d_minisat);
};/* class MinisatSatSolver::Statistics */
Statistics d_statistics;
}; /* class MinisatSatSolver */
}/* CVC4::prop namespace */
}/* CVC4 namespace */
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