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/******************************************************************************
* Top contributors (to current version):
* Andrew Reynolds, Morgan Deters, Tim King
*
* 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.
* ****************************************************************************
*
* Implementation of instantiation engine class
*/
#include "theory/quantifiers/ematching/instantiation_engine.h"
#include "options/quantifiers_options.h"
#include "theory/quantifiers/ematching/inst_strategy_e_matching.h"
#include "theory/quantifiers/ematching/inst_strategy_e_matching_user.h"
#include "theory/quantifiers/ematching/trigger.h"
#include "theory/quantifiers/first_order_model.h"
#include "theory/quantifiers/quantifiers_attributes.h"
#include "theory/quantifiers/term_database.h"
#include "theory/quantifiers/term_util.h"
using namespace cvc5::kind;
using namespace cvc5::context;
using namespace cvc5::theory::quantifiers::inst;
namespace cvc5 {
namespace theory {
namespace quantifiers {
InstantiationEngine::InstantiationEngine(QuantifiersState& qs,
QuantifiersInferenceManager& qim,
QuantifiersRegistry& qr,
TermRegistry& tr)
: QuantifiersModule(qs, qim, qr, tr),
d_instStrategies(),
d_isup(),
d_i_ag(),
d_quants(),
d_trdb(qs, qim, qr, tr),
d_quant_rel(nullptr)
{
if (options::relevantTriggers())
{
d_quant_rel.reset(new quantifiers::QuantRelevance);
}
if (options::eMatching()) {
// these are the instantiation strategies for E-matching
// user-provided patterns
if (options::userPatternsQuant() != options::UserPatMode::IGNORE)
{
d_isup.reset(new InstStrategyUserPatterns(d_trdb, qs, qim, qr, tr));
d_instStrategies.push_back(d_isup.get());
}
// auto-generated patterns
d_i_ag.reset(new InstStrategyAutoGenTriggers(
d_trdb, qs, qim, qr, tr, d_quant_rel.get()));
d_instStrategies.push_back(d_i_ag.get());
}
}
InstantiationEngine::~InstantiationEngine() {}
void InstantiationEngine::presolve() {
for( unsigned i=0; i<d_instStrategies.size(); ++i ){
d_instStrategies[i]->presolve();
}
}
void InstantiationEngine::doInstantiationRound( Theory::Effort effort ){
size_t lastWaiting = d_qim.numPendingLemmas();
//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;
InstStrategyStatus quantStatus = is->process(q, effort, e_use);
Trace("inst-engine-debug")
<< " -> unfinished= "
<< (quantStatus == InstStrategyStatus::STATUS_UNFINISHED)
<< ", conflict=" << d_qstate.isInConflict() << std::endl;
if (d_qstate.isInConflict())
{
return;
}
else if (quantStatus == InstStrategyStatus::STATUS_UNFINISHED)
{
finished = false;
}
}
}
}
//do not consider another level if already added lemma at this level
if (d_qim.numPendingLemmas() > lastWaiting)
{
finished = true;
}
e++;
}
}
bool InstantiationEngine::needsCheck( Theory::Effort e ){
return d_qstate.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, QEffort quant_e)
{
CodeTimer codeTimer(d_qstate.getStats().d_ematching_time);
if (quant_e != QEFFORT_STANDARD)
{
return;
}
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();
FirstOrderModel* m = d_treg.getModel();
size_t nquant = m->getNumAssertedQuantifiers();
for (size_t i = 0; i < nquant; i++)
{
Node q = m->getAssertedQuantifier(i, true);
if (shouldProcess(q) && m->isQuantifierActive(q))
{
quantActive = true;
d_quants.push_back(q);
}
}
Trace("inst-engine-debug")
<< "InstEngine: check: # asserted quantifiers " << d_quants.size() << "/";
Trace("inst-engine-debug") << nquant << " " << quantActive << std::endl;
if (quantActive)
{
size_t lastWaiting = d_qim.numPendingLemmas();
doInstantiationRound(e);
if (d_qstate.isInConflict())
{
Assert(d_qim.numPendingLemmas() > lastWaiting);
Trace("inst-engine") << "Conflict, added lemmas = "
<< (d_qim.numPendingLemmas() - lastWaiting)
<< std::endl;
}
else if (d_qim.hasPendingLemma())
{
Trace("inst-engine") << "Added lemmas = "
<< (d_qim.numPendingLemmas() - lastWaiting)
<< 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::checkCompleteFor( Node q ) {
//TODO?
return false;
}
void InstantiationEngine::checkOwnership(Node q)
{
if (options::userPatternsQuant() == options::UserPatMode::STRICT
&& q.getNumChildren() == 3)
{
//if strict triggers, take ownership of this quantified formula
if (QuantAttributes::hasPattern(q))
{
d_qreg.setOwner(q, this, 1);
}
}
}
void InstantiationEngine::registerQuantifier(Node q)
{
if (!shouldProcess(q))
{
return;
}
if (d_quant_rel)
{
d_quant_rel->registerQuantifier(q);
}
// take into account user patterns
if (q.getNumChildren() == 3)
{
Node subsPat = d_qreg.substituteBoundVariablesToInstConstants(q[2], q);
// add patterns
for (const Node& p : subsPat)
{
if (p.getKind() == INST_PATTERN)
{
addUserPattern(q, p);
}
else if (p.getKind() == INST_NO_PATTERN)
{
addUserNoPattern(q, p);
}
}
}
}
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);
}
}
bool InstantiationEngine::shouldProcess(Node q)
{
if (!d_qreg.hasOwnership(q, this))
{
return false;
}
// also ignore internal quantifiers
QuantAttributes& qattr = d_qreg.getQuantAttributes();
if (qattr.isInternal(q))
{
return false;
}
return true;
}
} // namespace quantifiers
} // namespace theory
} // namespace cvc5
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