/********************* */ /*! \file eager_bitblaster.cpp ** \verbatim ** Original author: Liana Hadarean ** Major contributors: none ** Minor contributors (to current version): none ** 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 ** ** Bitblaster for the eager bv solver. **/ #include "cvc4_private.h" #include "options/bv_options.h" #include "prop/cnf_stream.h" #include "prop/sat_solver_factory.h" #include "theory/bv/bitblaster_template.h" #include "theory/bv/theory_bv.h" #include "theory/theory_model.h" using namespace CVC4; using namespace CVC4::theory; using namespace CVC4::theory::bv; namespace CVC4 { namespace theory { namespace bv { void BitblastingRegistrar::preRegister(Node n) { d_bitblaster->bbAtom(n); }; EagerBitblaster::EagerBitblaster(TheoryBV* theory_bv) : TBitblaster() , d_bv(theory_bv) , d_bbAtoms() , d_variables() { d_bitblastingRegistrar = new BitblastingRegistrar(this); d_nullContext = new context::Context(); d_satSolver = prop::SatSolverFactory::createMinisat(d_nullContext, "EagerBitblaster"); d_cnfStream = new prop::TseitinCnfStream(d_satSolver, d_bitblastingRegistrar, d_nullContext, d_bv->globals()); MinisatEmptyNotify* notify = new MinisatEmptyNotify(); d_satSolver->setNotify(notify); } EagerBitblaster::~EagerBitblaster() { delete d_cnfStream; delete d_satSolver; delete d_nullContext; delete d_bitblastingRegistrar; } void EagerBitblaster::bbFormula(TNode node) { d_cnfStream->convertAndAssert(node, false, false, RULE_INVALID, TNode::null()); } /** * Bitblasts the atom, assigns it a marker literal, adding it to the SAT solver * NOTE: duplicate clauses are not detected because of marker literal * @param node the atom to be bitblasted * */ void EagerBitblaster::bbAtom(TNode node) { node = node.getKind() == kind::NOT? node[0] : node; if (node.getKind() == kind::BITVECTOR_BITOF) return; if (hasBBAtom(node)) { return; } Debug("bitvector-bitblast") << "Bitblasting node " << node <<"\n"; // the bitblasted definition of the atom Node normalized = Rewriter::rewrite(node); Node atom_bb = normalized.getKind() != kind::CONST_BOOLEAN ? Rewriter::rewrite(d_atomBBStrategies[normalized.getKind()](normalized, this)) : normalized; // asserting that the atom is true iff the definition holds Node atom_definition = utils::mkNode(kind::IFF, node, atom_bb); AlwaysAssert (options::bitblastMode() == theory::bv::BITBLAST_MODE_EAGER); storeBBAtom(node, atom_definition); d_cnfStream->convertAndAssert(atom_definition, false, false, RULE_INVALID, TNode::null()); } void EagerBitblaster::storeBBAtom(TNode atom, Node atom_bb) { // no need to store the definition for the lazy bit-blaster d_bbAtoms.insert(atom); } bool EagerBitblaster::hasBBAtom(TNode atom) const { return d_bbAtoms.find(atom) != d_bbAtoms.end(); } void EagerBitblaster::bbTerm(TNode node, Bits& bits) { if (hasBBTerm(node)) { getBBTerm(node, bits); return; } d_bv->spendResource(options::bitblastStep()); Debug("bitvector-bitblast") << "Bitblasting node " << node <<"\n"; d_termBBStrategies[node.getKind()] (node, bits, this); Assert (bits.size() == utils::getSize(node)); storeBBTerm(node, bits); } void EagerBitblaster::makeVariable(TNode var, Bits& bits) { Assert(bits.size() == 0); for (unsigned i = 0; i < utils::getSize(var); ++i) { bits.push_back(utils::mkBitOf(var, i)); } d_variables.insert(var); } Node EagerBitblaster::getBBAtom(TNode node) const { return node; } /** * Calls the solve method for the Sat Solver. * * @return true for sat, and false for unsat */ bool EagerBitblaster::solve() { if (Trace.isOn("bitvector")) { Trace("bitvector") << "EagerBitblaster::solve(). \n"; } Debug("bitvector") << "EagerBitblaster::solve(). \n"; // TODO: clear some memory // if (something) { // NodeManager* nm= NodeManager::currentNM(); // Rewriter::garbageCollect(); // nm->reclaimZombiesUntil(options::zombieHuntThreshold()); // } return prop::SAT_VALUE_TRUE == d_satSolver->solve(); } /** * Returns the value a is currently assigned to in the SAT solver * or null if the value is completely unassigned. * * @param a * @param fullModel whether to create a "full model," i.e., add * constants to equivalence classes that don't already have them * * @return */ Node EagerBitblaster::getModelFromSatSolver(TNode a, bool fullModel) { if (!hasBBTerm(a)) { return fullModel? utils::mkConst(utils::getSize(a), 0u) : Node(); } Bits bits; getBBTerm(a, bits); Integer value(0); for (int i = bits.size() -1; i >= 0; --i) { prop::SatValue bit_value; if (d_cnfStream->hasLiteral(bits[i])) { prop::SatLiteral bit = d_cnfStream->getLiteral(bits[i]); bit_value = d_satSolver->value(bit); Assert (bit_value != prop::SAT_VALUE_UNKNOWN); } else { if (!fullModel) return Node(); // unconstrained bits default to false bit_value = prop::SAT_VALUE_FALSE; } Integer bit_int = bit_value == prop::SAT_VALUE_TRUE ? Integer(1) : Integer(0); value = value * 2 + bit_int; } return utils::mkConst(BitVector(bits.size(), value)); } void EagerBitblaster::collectModelInfo(TheoryModel* m, bool fullModel) { TNodeSet::iterator it = d_variables.begin(); for (; it!= d_variables.end(); ++it) { TNode var = *it; if (d_bv->isLeaf(var) || isSharedTerm(var) || (var.isVar() && var.getType().isBoolean())) { // only shared terms could not have been bit-blasted Assert (hasBBTerm(var) || isSharedTerm(var)); Node const_value = getModelFromSatSolver(var, fullModel); if(const_value != Node()) { Debug("bitvector-model") << "EagerBitblaster::collectModelInfo (assert (= " << var << " " << const_value << "))\n"; m->assertEquality(var, const_value, true); } } } } bool EagerBitblaster::isSharedTerm(TNode node) { return d_bv->d_sharedTermsSet.find(node) != d_bv->d_sharedTermsSet.end(); } } /* namespace CVC4::theory::bv; */ } /* namespace CVC4::theory; */ } /* namespace CVC4; */