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/******************************************************************************
* Top contributors (to current version):
* Andrew Reynolds
*
* This file is part of the cvc5 project.
*
* Copyright (c) 2009-2021 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.
* ****************************************************************************
*
* Arithmetic equality solver
*/
#include "cvc5_private.h"
#ifndef CVC5__THEORY__ARITH__EQUALITY_SOLVER_H
#define CVC5__THEORY__ARITH__EQUALITY_SOLVER_H
#include "context/cdhashset.h"
#include "expr/node.h"
#include "proof/trust_node.h"
#include "smt/env_obj.h"
#include "theory/arith/arith_state.h"
#include "theory/ee_setup_info.h"
#include "theory/uf/equality_engine.h"
namespace cvc5 {
namespace theory {
namespace arith {
class InferenceManager;
/**
* The arithmetic equality solver. This class manages arithmetic equalities
* in the default way via an equality engine.
*
* Since arithmetic has multiple ways of propagating literals, it tracks
* the literals that it propagates and only explains the literals that
* originated from this class.
*/
class EqualitySolver : protected EnvObj
{
using NodeSet = context::CDHashSet<Node>;
public:
EqualitySolver(Env& env, ArithState& astate, InferenceManager& aim);
~EqualitySolver() {}
//--------------------------------- initialization
/**
* Returns true if we need an equality engine, see
* Theory::needsEqualityEngine.
*/
bool needsEqualityEngine(EeSetupInfo& esi);
/**
* Finish initialize
*/
void finishInit();
//--------------------------------- end initialization
/**
* Pre-notify fact, return true if we are finished processing, false if
* we wish to assert the fact to the equality engine of this class.
*/
bool preNotifyFact(
TNode atom, bool pol, TNode fact, bool isPrereg, bool isInternal);
/**
* Return an explanation for the literal lit (which was previously propagated
* by this solver).
*/
TrustNode explain(TNode lit);
private:
/** Notification class from the equality engine */
class EqualitySolverNotify : public eq::EqualityEngineNotify
{
public:
EqualitySolverNotify(EqualitySolver& es) : d_es(es) {}
bool eqNotifyTriggerPredicate(TNode predicate, bool value) override;
bool eqNotifyTriggerTermEquality(TheoryId tag,
TNode t1,
TNode t2,
bool value) override;
void eqNotifyConstantTermMerge(TNode t1, TNode t2) override;
void eqNotifyNewClass(TNode t) override {}
void eqNotifyMerge(TNode t1, TNode t2) override {}
void eqNotifyDisequal(TNode t1, TNode t2, TNode reason) override {}
private:
/** reference to parent */
EqualitySolver& d_es;
};
/** Propagate literal */
bool propagateLit(Node lit);
/** Conflict when two constants merge */
void conflictEqConstantMerge(TNode a, TNode b);
/** reference to the state */
ArithState& d_astate;
/** reference to parent */
InferenceManager& d_aim;
/** Equality solver notify */
EqualitySolverNotify d_notify;
/** Pointer to the equality engine */
eq::EqualityEngine* d_ee;
/** The literals we have propagated */
NodeSet d_propLits;
};
} // namespace arith
} // namespace theory
} // namespace cvc5
#endif
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