From: Haniel Barbosa Date: Wed, 14 Apr 2021 13:31:35 +0000 (-0300) Subject: [proof-new] Fix explanation of literals in SAT proof manager (#6346) X-Git-Tag: cvc5-1.0.0~1910 X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=d1eee40cc;p=cvc5.git [proof-new] Fix explanation of literals in SAT proof manager (#6346) Prevents exponential behavior in SAT proof generation by not reexplaining previously explained literals. Also fix a potential issue in not previously overwriting rederived resolution chains during solving. --- diff --git a/src/expr/buffered_proof_generator.cpp b/src/expr/buffered_proof_generator.cpp index b37295c52..2cbbd7e91 100644 --- a/src/expr/buffered_proof_generator.cpp +++ b/src/expr/buffered_proof_generator.cpp @@ -81,4 +81,23 @@ std::shared_ptr BufferedProofGenerator::getProofFor(Node fact) return cdp.getProofFor(fact); } +bool BufferedProofGenerator::hasProofFor(Node f) +{ + NodeProofStepMap::iterator it = d_facts.find(f); + if (it == d_facts.end()) + { + Node symFact = CDProof::getSymmFact(f); + if (symFact.isNull()) + { + return false; + } + it = d_facts.find(symFact); + if (it == d_facts.end()) + { + return false; + } + } + return true; +} + } // namespace cvc5 diff --git a/src/expr/buffered_proof_generator.h b/src/expr/buffered_proof_generator.h index 81e2667bf..89e8b196d 100644 --- a/src/expr/buffered_proof_generator.h +++ b/src/expr/buffered_proof_generator.h @@ -48,6 +48,8 @@ class BufferedProofGenerator : public ProofGenerator CDPOverwrite opolicy = CDPOverwrite::NEVER); /** Get proof for. It is robust to (dis)equality symmetry. */ std::shared_ptr getProofFor(Node f) override; + /** Whether a step has been registered for f. */ + bool hasProofFor(Node f) override; /** identify */ std::string identify() const override { return "BufferedProofGenerator"; } diff --git a/src/prop/sat_proof_manager.cpp b/src/prop/sat_proof_manager.cpp index 00abb0b8f..5fdc0eb79 100644 --- a/src/prop/sat_proof_manager.cpp +++ b/src/prop/sat_proof_manager.cpp @@ -251,7 +251,8 @@ void SatProofManager::endResChain(Node conclusion, // rule here by explicitly computing the detailed steps, but leave this for // post-processing. ProofStep ps(PfRule::MACRO_RESOLUTION_TRUST, children, args); - d_resChainPg.addStep(conclusion, ps); + // note that we must tell the proof generator to overwrite if repeated + d_resChainPg.addStep(conclusion, ps, CDPOverwrite::ALWAYS); // the premises of this resolution may not have been justified yet, so we do // not pass assumptions to check closedness d_resChains.addLazyStep(conclusion, &d_resChainPg); @@ -335,6 +336,13 @@ void SatProofManager::explainLit( Trace("sat-proof") << push << "SatProofManager::explainLit: Lit: " << lit; Node litNode = getClauseNode(lit); Trace("sat-proof") << " [" << litNode << "]\n"; + if (d_resChainPg.hasProofFor(litNode)) + { + Trace("sat-proof") << "SatProofManager::explainLit: already justified " + << lit << ", ABORT\n" + << pop; + return; + } Minisat::Solver::TCRef reasonRef = d_solver->reason(Minisat::var(MinisatSatSolver::toMinisatLit(lit))); if (reasonRef == Minisat::Solver::TCRef_Undef) @@ -379,20 +387,20 @@ void SatProofManager::explainLit( AlwaysAssert(size == static_cast(reloadedReason.size())); AlwaysAssert(children[0] == getClauseNode(reloadedReason)); #endif - SatLiteral curr_lit = d_cnfStream->getTranslationCache()[toExplain[i]]; + SatLiteral currLit = d_cnfStream->getTranslationCache()[toExplain[i]]; // ignore the lit we are trying to explain... - if (curr_lit == lit) + if (currLit == lit) { continue; } std::unordered_set childPremises; - explainLit(~curr_lit, childPremises); + explainLit(~currLit, childPremises); // save to resolution chain premises / arguments - Assert(d_cnfStream->getNodeCache().find(curr_lit) + Assert(d_cnfStream->getNodeCache().find(currLit) != d_cnfStream->getNodeCache().end()); - children.push_back(d_cnfStream->getNodeCache()[~curr_lit]); - Node currLitNode = d_cnfStream->getNodeCache()[curr_lit]; - bool negated = curr_lit.isNegated(); + children.push_back(d_cnfStream->getNodeCache()[~currLit]); + Node currLitNode = d_cnfStream->getNodeCache()[currLit]; + bool negated = currLit.isNegated(); Assert(!negated || currLitNode.getKind() == kind::NOT); // note this is the opposite of what is done in addResolutionStep. This is // because here the clause, which contains the literal being analyzed, is @@ -401,7 +409,7 @@ void SatProofManager::explainLit( args.push_back(negated ? currLitNode[0] : currLitNode); // add child premises and the child itself premises.insert(childPremises.begin(), childPremises.end()); - premises.insert(d_cnfStream->getNodeCache()[~curr_lit]); + premises.insert(d_cnfStream->getNodeCache()[~currLit]); } if (Trace.isOn("sat-proof")) {