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/********************* */
/*! \file theory_arrays_instantiator.cpp
** \verbatim
** Original author: ajreynol
** Major contributors: none
** 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 Implementation of theory_arrays_instantiator class
**/
#include "theory/theory_engine.h"
#include "theory/arrays/theory_arrays_instantiator.h"
#include "theory/arrays/theory_arrays.h"
#include "theory/quantifiers/options.h"
#include "theory/rewriterules/rr_candidate_generator.h"
using namespace std;
using namespace CVC4;
using namespace CVC4::kind;
using namespace CVC4::context;
using namespace CVC4::theory;
using namespace CVC4::theory::arrays;
InstantiatorTheoryArrays::InstantiatorTheoryArrays(context::Context* c, QuantifiersEngine* ie, Theory* th) :
Instantiator( c, ie, th ){
}
void InstantiatorTheoryArrays::preRegisterTerm( Node t ){
}
void InstantiatorTheoryArrays::assertNode( Node assertion ){
Debug("quant-arrays-assert") << "InstantiatorTheoryArrays::assertNode: " << assertion << std::endl;
d_quantEngine->addTermToDatabase( assertion );
if( options::cbqi() ){
if( assertion.hasAttribute(InstConstantAttribute()) ){
setHasConstraintsFrom( assertion.getAttribute(InstConstantAttribute()) );
}else if( assertion.getKind()==NOT && assertion[0].hasAttribute(InstConstantAttribute()) ){
setHasConstraintsFrom( assertion[0].getAttribute(InstConstantAttribute()) );
}
}
}
void InstantiatorTheoryArrays::processResetInstantiationRound( Theory::Effort effort ){
}
int InstantiatorTheoryArrays::process( Node f, Theory::Effort effort, int e ){
return InstStrategy::STATUS_SAT;
}
bool InstantiatorTheoryArrays::hasTerm( Node a ){
return ((TheoryArrays*)d_th)->getEqualityEngine()->hasTerm( a );
}
bool InstantiatorTheoryArrays::areEqual( Node a, Node b ){
if( a==b ){
return true;
}else if( hasTerm( a ) && hasTerm( b ) ){
return ((TheoryArrays*)d_th)->getEqualityEngine()->areEqual( a, b );
}else{
return false;
}
}
bool InstantiatorTheoryArrays::areDisequal( Node a, Node b ){
if( a==b ){
return false;
}else if( hasTerm( a ) && hasTerm( b ) ){
return ((TheoryArrays*)d_th)->getEqualityEngine()->areDisequal( a, b, false );
}else{
return false;
}
}
Node InstantiatorTheoryArrays::getRepresentative( Node a ){
if( hasTerm( a ) ){
return ((TheoryArrays*)d_th)->getEqualityEngine()->getRepresentative( a );
}else{
return a;
}
}
eq::EqualityEngine* InstantiatorTheoryArrays::getEqualityEngine(){
return ((TheoryArrays*)d_th)->getEqualityEngine();
}
void InstantiatorTheoryArrays::getEquivalenceClass( Node a, std::vector< Node >& eqc ){
if( hasTerm( a ) ){
a = getEqualityEngine()->getRepresentative( a );
eq::EqClassIterator eqc_iter( a, getEqualityEngine() );
while( !eqc_iter.isFinished() ){
if( std::find( eqc.begin(), eqc.end(), *eqc_iter )==eqc.end() ){
eqc.push_back( *eqc_iter );
}
eqc_iter++;
}
}
}
rrinst::CandidateGenerator* InstantiatorTheoryArrays::getRRCanGenClasses(){
arrays::TheoryArrays* ar = static_cast<arrays::TheoryArrays *>(getTheory());
eq::EqualityEngine* ee =
static_cast<eq::EqualityEngine*>(ar->getEqualityEngine());
return new eq::rrinst::CandidateGeneratorTheoryEeClasses(ee);
}
rrinst::CandidateGenerator* InstantiatorTheoryArrays::getRRCanGenClass(){
arrays::TheoryArrays* ar = static_cast<arrays::TheoryArrays *>(getTheory());
eq::EqualityEngine* ee =
static_cast<eq::EqualityEngine*>(ar->getEqualityEngine());
return new eq::rrinst::CandidateGeneratorTheoryEeClass(ee);
}
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