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/********************* */
/*! \file ee_manager_distributed.cpp
** \verbatim
** Top contributors (to current version):
** Andrew Reynolds
** This file is part of the CVC4 project.
** Copyright (c) 2009-2020 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.\endverbatim
**
** \brief Management of a distributed approach for equality sharing.
**/
#include "theory/ee_manager_distributed.h"
#include "theory/quantifiers_engine.h"
#include "theory/shared_solver.h"
#include "theory/theory_engine.h"
namespace CVC4 {
namespace theory {
EqEngineManagerDistributed::EqEngineManagerDistributed(TheoryEngine& te,
SharedSolver& shs)
: EqEngineManager(te, shs), d_masterEENotify(nullptr)
{
}
EqEngineManagerDistributed::~EqEngineManagerDistributed()
{
}
void EqEngineManagerDistributed::initializeTheories()
{
context::Context* c = d_te.getSatContext();
// initialize the shared solver
EeSetupInfo esis;
if (d_sharedSolver.needsEqualityEngine(esis))
{
// allocate an equality engine for the shared terms database
d_stbEqualityEngine.reset(allocateEqualityEngine(esis, c));
d_sharedSolver.setEqualityEngine(d_stbEqualityEngine.get());
}
else
{
Unhandled() << "Expected shared solver to use equality engine";
}
// allocate equality engines per theory
for (TheoryId theoryId = theory::THEORY_FIRST;
theoryId != theory::THEORY_LAST;
++theoryId)
{
Theory* t = d_te.theoryOf(theoryId);
if (t == nullptr)
{
// theory not active, skip
continue;
}
// always allocate an object in d_einfo here
EeTheoryInfo& eet = d_einfo[theoryId];
EeSetupInfo esi;
if (!t->needsEqualityEngine(esi))
{
// theory said it doesn't need an equality engine, skip
continue;
}
// allocate the equality engine
eet.d_allocEe.reset(allocateEqualityEngine(esi, c));
// the theory uses the equality engine
eet.d_usedEe = eet.d_allocEe.get();
}
const LogicInfo& logicInfo = d_te.getLogicInfo();
if (logicInfo.isQuantified())
{
// construct the master equality engine
Assert(d_masterEqualityEngine == nullptr);
QuantifiersEngine* qe = d_te.getQuantifiersEngine();
Assert(qe != nullptr);
d_masterEENotify.reset(new MasterNotifyClass(qe));
d_masterEqualityEngine.reset(new eq::EqualityEngine(*d_masterEENotify.get(),
d_te.getSatContext(),
"theory::master",
false));
for (TheoryId theoryId = theory::THEORY_FIRST;
theoryId != theory::THEORY_LAST;
++theoryId)
{
Theory* t = d_te.theoryOf(theoryId);
if (t == nullptr)
{
// theory not active, skip
continue;
}
EeTheoryInfo& eet = d_einfo[theoryId];
// Get the allocated equality engine, and connect it to the master
// equality engine.
eq::EqualityEngine* eeAlloc = eet.d_allocEe.get();
if (eeAlloc != nullptr)
{
// set the master equality engine of the theory's equality engine
eeAlloc->setMasterEqualityEngine(d_masterEqualityEngine.get());
}
}
}
}
void EqEngineManagerDistributed::MasterNotifyClass::eqNotifyNewClass(TNode t)
{
// adds t to the quantifiers term database
d_quantEngine->eqNotifyNewClass(t);
}
eq::EqualityEngine* EqEngineManagerDistributed::getCoreEqualityEngine()
{
return d_masterEqualityEngine.get();
}
} // namespace theory
} // namespace CVC4
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