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/********************* */
/*! \file bv_subtheory.h
** \verbatim
** Original author: lianah
** Major contributors: dejan
** Minor contributors (to current version): none
** This file is part of the CVC4 prototype.
** Copyright (c) 2009, 2010, 2011 The Analysis of Computer Systems Group (ACSys)
** Courant Institute of Mathematical Sciences
** New York University
** See the file COPYING in the top-level source directory for licensing
** information.\endverbatim
**
** \brief Algebraic solver.
**
** Algebraic solver.
**/
#include "cvc4_private.h"
#ifndef __CVC4__THEORY__BV__BV_SUBTHEORY_H
#define __CVC4__THEORY__BV__BV_SUBTHEORY_H
#include "context/context.h"
#include "context/cdqueue.h"
#include "theory/uf/equality_engine.h"
#include "theory/theory.h"
namespace CVC4 {
namespace theory {
namespace bv {
const bool d_useEqualityEngine = true;
const bool d_useSatPropagation = true;
// forward declaration
class TheoryBV;
class Bitblaster;
/**
* Abstract base class for bit-vector subtheory solvers
*
*/
class SubtheorySolver {
protected:
/** The context we are using */
context::Context* d_context;
/** The bit-vector theory */
TheoryBV* d_bv;
public:
SubtheorySolver(context::Context* c, TheoryBV* bv) :
d_context(c),
d_bv(bv)
{}
virtual ~SubtheorySolver() {}
virtual bool addAssertions(const std::vector<TNode>& assertions, Theory::Effort e) = 0;
virtual void explain(TNode literal, std::vector<TNode>& assumptions) = 0;
virtual void preRegister(TNode node) {}
};
/**
* BitblastSolver
*
*/
class BitblastSolver : public SubtheorySolver {
/** Bitblaster */
Bitblaster* d_bitblaster;
/** Nodes that still need to be bit-blasted */
context::CDQueue<TNode> d_bitblastQueue;
public:
BitblastSolver(context::Context* c, TheoryBV* bv);
~BitblastSolver();
void preRegister(TNode node);
bool addAssertions(const std::vector<TNode>& assertions, Theory::Effort e);
void explain(TNode literal, std::vector<TNode>& assumptions);
};
/**
* EqualitySolver
*
*/
class EqualitySolver : public SubtheorySolver {
// NotifyClass: handles call-back from congruence closure module
class NotifyClass : public eq::EqualityEngineNotify {
TheoryBV* d_bv;
public:
NotifyClass(TheoryBV* bv): d_bv(bv) {}
bool eqNotifyTriggerEquality(TNode equality, bool value);
bool eqNotifyTriggerPredicate(TNode predicate, bool value);
bool eqNotifyTriggerTermEquality(TNode t1, TNode t2, bool value);
bool eqNotifyConstantTermMerge(TNode t1, TNode t2);
};
/** The notify class for d_equalityEngine */
NotifyClass d_notify;
/** Equality engine */
eq::EqualityEngine d_equalityEngine;
public:
EqualitySolver(context::Context* c, TheoryBV* bv);
void preRegister(TNode node);
bool addAssertions(const std::vector<TNode>& assertions, Theory::Effort e);
void explain(TNode literal, std::vector<TNode>& assumptions);
void addSharedTerm(TNode t) {
d_equalityEngine.addTriggerTerm(t);
}
EqualityStatus getEqualityStatus(TNode a, TNode b) {
if (d_equalityEngine.areEqual(a, b)) {
// The terms are implied to be equal
return EQUALITY_TRUE;
}
if (d_equalityEngine.areDisequal(a, b)) {
// The terms are implied to be dis-equal
return EQUALITY_FALSE;
}
return EQUALITY_UNKNOWN;
}
};
// class CoreSolver : public SubtheorySolver {
// };
}
}
}
#endif /* __CVC4__THEORY__BV__BV_SUBTHEORY_H */
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