/* * ezSAT -- A simple and easy to use CNF generator for SAT solvers * * Copyright (C) 2013 Clifford Wolf * * Permission to use, copy, modify, and/or distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. * */ // needed for MiniSAT headers (see Minisat Makefile) #define __STDC_LIMIT_MACROS #define __STDC_FORMAT_MACROS #include "ezminisat.h" #include #include #include #include #include #include ezMiniSAT::ezMiniSAT() : minisatSolver(NULL) { minisatSolver = NULL; foundContradiction = false; freeze(TRUE); freeze(FALSE); } ezMiniSAT::~ezMiniSAT() { if (minisatSolver != NULL) delete minisatSolver; } void ezMiniSAT::clear() { if (minisatSolver != NULL) { delete minisatSolver; minisatSolver = NULL; } foundContradiction = false; minisatVars.clear(); #if EZMINISAT_SIMPSOLVER && EZMINISAT_INCREMENTAL cnfFrozenVars.clear(); #endif ezSAT::clear(); } #if EZMINISAT_SIMPSOLVER && EZMINISAT_INCREMENTAL void ezMiniSAT::freeze(int id) { cnfFrozenVars.insert(bind(id)); } #endif ezMiniSAT *ezMiniSAT::alarmHandlerThis = NULL; clock_t ezMiniSAT::alarmHandlerTimeout = 0; void ezMiniSAT::alarmHandler(int) { if (clock() > alarmHandlerTimeout) { alarmHandlerThis->minisatSolver->interrupt(); alarmHandlerTimeout = 0; } else alarm(1); } bool ezMiniSAT::solver(const std::vector &modelExpressions, std::vector &modelValues, const std::vector &assumptions) { solverTimoutStatus = false; if (0) { contradiction: delete minisatSolver; minisatSolver = NULL; minisatVars.clear(); foundContradiction = true; return false; } if (foundContradiction) { consumeCnf(); return false; } std::vector extraClauses, modelIdx; for (auto id : assumptions) extraClauses.push_back(bind(id)); for (auto id : modelExpressions) modelIdx.push_back(bind(id)); if (minisatSolver == NULL) { minisatSolver = new Solver; minisatSolver->verbosity = EZMINISAT_VERBOSITY; } #if EZMINISAT_INCREMENTAL std::vector> cnf; consumeCnf(cnf); #else const std::vector> &cnf = this->cnf(); #endif while (int(minisatVars.size()) < numCnfVariables()) minisatVars.push_back(minisatSolver->newVar()); #if EZMINISAT_SIMPSOLVER && EZMINISAT_INCREMENTAL for (auto idx : cnfFrozenVars) minisatSolver->setFrozen(minisatVars.at(idx > 0 ? idx-1 : -idx-1), true); cnfFrozenVars.clear(); #endif for (auto &clause : cnf) { Minisat::vec ps; for (auto idx : clause) { if (idx > 0) ps.push(Minisat::mkLit(minisatVars.at(idx-1))); else ps.push(Minisat::mkLit(minisatVars.at(-idx-1), true)); #if EZMINISAT_SIMPSOLVER if (minisatSolver->isEliminated(minisatVars.at(idx > 0 ? idx-1 : -idx-1))) { fprintf(stderr, "Assert in %s:%d failed! Missing call to ezsat->freeze(): %s (lit=%d)\n", __FILE__, __LINE__, cnfLiteralInfo(idx).c_str(), idx); abort(); } #endif } if (!minisatSolver->addClause(ps)) goto contradiction; } if (cnf.size() > 0 && !minisatSolver->simplify()) goto contradiction; Minisat::vec assumps; for (auto idx : extraClauses) { if (idx > 0) assumps.push(Minisat::mkLit(minisatVars.at(idx-1))); else assumps.push(Minisat::mkLit(minisatVars.at(-idx-1), true)); #if EZMINISAT_SIMPSOLVER if (minisatSolver->isEliminated(minisatVars.at(idx > 0 ? idx-1 : -idx-1))) { fprintf(stderr, "Assert in %s:%d failed! Missing call to ezsat->freeze(): %s\n", __FILE__, __LINE__, cnfLiteralInfo(idx).c_str()); abort(); } #endif } sighandler_t old_alarm_sighandler = NULL; int old_alarm_timeout = 0; if (solverTimeout > 0) { alarmHandlerThis = this; alarmHandlerTimeout = clock() + solverTimeout*CLOCKS_PER_SEC; old_alarm_timeout = alarm(0); old_alarm_sighandler = signal(SIGALRM, alarmHandler); alarm(1); } bool foundSolution = minisatSolver->solve(assumps); if (solverTimeout > 0) { if (alarmHandlerTimeout == 0) solverTimoutStatus = true; alarm(0); signal(SIGALRM, old_alarm_sighandler); alarm(old_alarm_timeout); } if (!foundSolution) { #if !EZMINISAT_INCREMENTAL delete minisatSolver; minisatSolver = NULL; minisatVars.clear(); #endif return false; } modelValues.clear(); modelValues.resize(modelIdx.size()); for (size_t i = 0; i < modelIdx.size(); i++) { int idx = modelIdx[i]; bool refvalue = true; if (idx < 0) idx = -idx, refvalue = false; using namespace Minisat; lbool value = minisatSolver->modelValue(minisatVars.at(idx-1)); modelValues[i] = (value == Minisat::lbool(refvalue)); } #if !EZMINISAT_INCREMENTAL delete minisatSolver; minisatSolver = NULL; minisatVars.clear(); #endif return true; }