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/********************* */
/*! \file instantiation_engine.cpp
** \verbatim
** Original author: Morgan Deters
** Major contributors: Andrew Reynolds
** Minor contributors (to current version): Tim King
** This file is part of the CVC4 project.
** Copyright (c) 2009-2014 New York University and The University of Iowa
** See the file COPYING in the top-level source directory for licensing
** information.\endverbatim
**
** \brief Implementation of instantiation engine class
**/
#include "theory/quantifiers/instantiation_engine.h"
#include "options/quantifiers_options.h"
#include "theory/quantifiers/first_order_model.h"
#include "theory/quantifiers/inst_strategy_e_matching.h"
#include "theory/quantifiers/term_database.h"
#include "theory/quantifiers/trigger.h"
#include "theory/theory_engine.h"
using namespace std;
using namespace CVC4;
using namespace CVC4::kind;
using namespace CVC4::context;
using namespace CVC4::theory;
using namespace CVC4::theory::quantifiers;
using namespace CVC4::theory::inst;
InstantiationEngine::InstantiationEngine( QuantifiersEngine* qe ) :
QuantifiersModule( qe ){
if( options::eMatching() ){
//these are the instantiation strategies for E-matching
//user-provided patterns
if( options::userPatternsQuant()!=USER_PAT_MODE_IGNORE ){
d_isup = new InstStrategyUserPatterns( d_quantEngine );
d_instStrategies.push_back( d_isup );
}
//auto-generated patterns
d_i_ag = new InstStrategyAutoGenTriggers( d_quantEngine );
d_instStrategies.push_back( d_i_ag );
}else{
d_isup = NULL;
d_i_ag = NULL;
}
}
InstantiationEngine::~InstantiationEngine() {
delete d_i_ag;
delete d_isup;
}
void InstantiationEngine::presolve() {
for( unsigned i=0; i<d_instStrategies.size(); ++i ){
d_instStrategies[i]->presolve();
}
}
bool InstantiationEngine::doInstantiationRound( Theory::Effort effort ){
unsigned lastWaiting = d_quantEngine->getNumLemmasWaiting();
//iterate over an internal effort level e
int e = 0;
int eLimit = effort==Theory::EFFORT_LAST_CALL ? 10 : 2;
bool finished = false;
//while unfinished, try effort level=0,1,2....
while( !finished && e<=eLimit ){
Debug("inst-engine") << "IE: Prepare instantiation (" << e << ")." << std::endl;
finished = true;
//instantiate each quantifier
for( unsigned i=0; i<d_quants.size(); i++ ){
Node q = d_quants[i];
Debug("inst-engine-debug") << "IE: Instantiate " << q << "..." << std::endl;
//int e_use = d_quantEngine->getRelevance( q )==-1 ? e - 1 : e;
int e_use = e;
if( e_use>=0 ){
Trace("inst-engine-debug") << "inst-engine : " << q << std::endl;
//check each instantiation strategy
for( unsigned j=0; j<d_instStrategies.size(); j++ ){
InstStrategy* is = d_instStrategies[j];
Trace("inst-engine-debug") << "Do " << is->identify() << " " << e_use << std::endl;
int quantStatus = is->process( q, effort, e_use );
Trace("inst-engine-debug") << " -> status is " << quantStatus << std::endl;
if( quantStatus==InstStrategy::STATUS_UNFINISHED ){
finished = false;
}
}
}
}
//do not consider another level if already added lemma at this level
if( d_quantEngine->getNumLemmasWaiting()>lastWaiting ){
finished = true;
}
e++;
}
//Notice() << "All instantiators finished, # added lemmas = " << (int)d_lemmas_waiting.size() << std::endl;
if( !d_quantEngine->hasAddedLemma() ){
return false;
}else{
Trace("inst-engine") << "Added lemmas = " << (int)(d_quantEngine->getNumLemmasWaiting()-lastWaiting) << std::endl;
return true;
}
}
bool InstantiationEngine::needsCheck( Theory::Effort e ){
return d_quantEngine->getInstWhenNeedsCheck( e );
}
void InstantiationEngine::reset_round( Theory::Effort e ){
//if not, proceed to instantiation round
//reset the instantiation strategies
for( unsigned i=0; i<d_instStrategies.size(); ++i ){
InstStrategy* is = d_instStrategies[i];
is->processResetInstantiationRound( e );
}
}
void InstantiationEngine::check( Theory::Effort e, unsigned quant_e ){
if( quant_e==QuantifiersEngine::QEFFORT_STANDARD ){
double clSet = 0;
if( Trace.isOn("inst-engine") ){
clSet = double(clock())/double(CLOCKS_PER_SEC);
Trace("inst-engine") << "---Instantiation Engine Round, effort = " << e << "---" << std::endl;
}
//collect all active quantified formulas belonging to this
bool quantActive = false;
d_quants.clear();
for( int i=0; i<d_quantEngine->getModel()->getNumAssertedQuantifiers(); i++ ){
Node q = d_quantEngine->getModel()->getAssertedQuantifier( i );
if( d_quantEngine->hasOwnership( q, this ) && d_quantEngine->getModel()->isQuantifierActive( q ) ){
quantActive = true;
d_quants.push_back( q );
}
}
Trace("inst-engine-debug") << "InstEngine: check: # asserted quantifiers " << d_quants.size() << "/";
Trace("inst-engine-debug") << d_quantEngine->getModel()->getNumAssertedQuantifiers() << " " << quantActive << std::endl;
if( quantActive ){
bool addedLemmas = doInstantiationRound( e );
Trace("inst-engine-debug") << "Add lemmas = " << addedLemmas << std::endl;
}else{
d_quants.clear();
}
if( Trace.isOn("inst-engine") ){
double clSet2 = double(clock())/double(CLOCKS_PER_SEC);
Trace("inst-engine") << "Finished instantiation engine, time = " << (clSet2-clSet) << std::endl;
}
}
}
bool InstantiationEngine::checkComplete() {
if( !options::finiteModelFind() ){
for( unsigned i=0; i<d_quants.size(); i++ ){
if( isIncomplete( d_quants[i] ) ){
return false;
}
}
}
return true;
}
bool InstantiationEngine::isIncomplete( Node q ) {
return true;
}
void InstantiationEngine::registerQuantifier( Node f ){
if( d_quantEngine->hasOwnership( f, this ) ){
//for( unsigned i=0; i<d_instStrategies.size(); ++i ){
// d_instStrategies[i]->registerQuantifier( f );
//}
//take into account user patterns
if( f.getNumChildren()==3 ){
Node subsPat = d_quantEngine->getTermDatabase()->getInstConstantNode( f[2], f );
//add patterns
for( int i=0; i<(int)subsPat.getNumChildren(); i++ ){
//Notice() << "Add pattern " << subsPat[i] << " for " << f << std::endl;
if( subsPat[i].getKind()==INST_PATTERN ){
addUserPattern( f, subsPat[i] );
}else if( subsPat[i].getKind()==INST_NO_PATTERN ){
addUserNoPattern( f, subsPat[i] );
}
}
}
}
}
void InstantiationEngine::addUserPattern( Node q, Node pat ){
if( d_isup ){
d_isup->addUserPattern( q, pat );
}
}
void InstantiationEngine::addUserNoPattern( Node q, Node pat ){
if( d_i_ag ){
d_i_ag->addUserNoPattern( q, pat );
}
}
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