/***************************************************************************************[SharedCompanion.cc] Glucose -- Copyright (c) 2009-2014, Gilles Audemard, Laurent Simon CRIL - Univ. Artois, France LRI - Univ. Paris Sud, France (2009-2013) Labri - Univ. Bordeaux, France Syrup (Glucose Parallel) -- Copyright (c) 2013-2014, Gilles Audemard, Laurent Simon CRIL - Univ. Artois, France Labri - Univ. Bordeaux, France Glucose sources are based on MiniSat (see below MiniSat copyrights). Permissions and copyrights of Glucose (sources until 2013, Glucose 3.0, single core) are exactly the same as Minisat on which it is based on. (see below). Glucose-Syrup sources are based on another copyright. Permissions and copyrights for the parallel version of Glucose-Syrup (the "Software") are granted, free of charge, to deal with the Software without restriction, including the rights to use, copy, modify, merge, publish, distribute, sublicence, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: - The above and below copyrights notices and this permission notice shall be included in all copies or substantial portions of the Software; - The parallel version of Glucose (all files modified since Glucose 3.0 releases, 2013) cannot be used in any competitive event (sat competitions/evaluations) without the express permission of the authors (Gilles Audemard / Laurent Simon). This is also the case for any competitive event using Glucose Parallel as an embedded SAT engine (single core or not). --------------- Original Minisat Copyrights Copyright (c) 2003-2006, Niklas Een, Niklas Sorensson Copyright (c) 2007-2010, Niklas Sorensson Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. **************************************************************************************************/ #include "core/Solver.h" #include "parallel/ParallelSolver.h" #include "core/SolverTypes.h" #include "parallel/ClausesBuffer.h" #include "parallel/SharedCompanion.h" using namespace Glucose; SharedCompanion::SharedCompanion(int _nbThreads) : nbThreads(_nbThreads), bjobFinished(false), jobFinishedBy(NULL), panicMode(false), // The bug in the SAT2014 competition :) jobStatus(l_Undef), random_seed(9164825) { pthread_mutex_init(&mutexSharedClauseCompanion,NULL); // This is the shared companion lock pthread_mutex_init(&mutexSharedUnitCompanion,NULL); // This is the shared companion lock pthread_mutex_init(&mutexSharedCompanion,NULL); // This is the shared companion lock pthread_mutex_init(&mutexJobFinished,NULL); // This is the shared companion lock if (_nbThreads> 0) { setNbThreads(_nbThreads); fprintf(stdout,"c Shared companion initialized: handling of clauses of %d threads.\nc %d ints for the sharing clause buffer (not expandable) .\n", _nbThreads, clausesBuffer.maxSize()); } } void SharedCompanion::setNbThreads(int _nbThreads) { nbThreads = _nbThreads; clausesBuffer.setNbThreads(_nbThreads); } void SharedCompanion::printStats() { } // No multithread safe bool SharedCompanion::addSolver(ParallelSolver* s) { watchedSolvers.push(s); pthread_mutex_t* mu = (pthread_mutex_t*)malloc(sizeof(pthread_mutex_t)); pthread_mutex_init(mu,NULL); assert(s->thn == watchedSolvers.size()-1); // all solvers must have been registered in the good order nextUnit.push(0); return true; } void SharedCompanion::newVar(bool sign) { isUnary .push(l_Undef); } void SharedCompanion::addLearnt(ParallelSolver *s,Lit unary) { pthread_mutex_lock(&mutexSharedUnitCompanion); if (isUnary[var(unary)]==l_Undef) { unitLit.push(unary); isUnary[var(unary)] = sign(unary)?l_False:l_True; } pthread_mutex_unlock(&mutexSharedUnitCompanion); } Lit SharedCompanion::getUnary(ParallelSolver *s) { int sn = s->thn; Lit ret = lit_Undef; pthread_mutex_lock(&mutexSharedUnitCompanion); if (nextUnit[sn] < unitLit.size()) ret = unitLit[nextUnit[sn]++]; pthread_mutex_unlock(&mutexSharedUnitCompanion); return ret; } // Specialized functions for this companion // must be multithread safe // Add a clause to the threads-wide clause database (all clauses, through) bool SharedCompanion::addLearnt(ParallelSolver *s, Clause & c) { int sn = s->thn; // thread number of the solver bool ret = false; assert(watchedSolvers.size()>sn); pthread_mutex_lock(&mutexSharedClauseCompanion); ret = clausesBuffer.pushClause(sn, c); pthread_mutex_unlock(&mutexSharedClauseCompanion); return ret; } bool SharedCompanion::getNewClause(ParallelSolver *s, int & threadOrigin, vec& newclause) { // gets a new interesting clause for solver s int sn = s->thn; // First, let's get the clauses on the big blackboard pthread_mutex_lock(&mutexSharedClauseCompanion); bool b = clausesBuffer.getClause(sn, threadOrigin, newclause); pthread_mutex_unlock(&mutexSharedClauseCompanion); return b; } bool SharedCompanion::jobFinished() { bool ret = false; pthread_mutex_lock(&mutexJobFinished); ret = bjobFinished; pthread_mutex_unlock(&mutexJobFinished); return ret; } bool SharedCompanion::IFinished(ParallelSolver *s) { bool ret = false; pthread_mutex_lock(&mutexJobFinished); if (!bjobFinished) { ret = true; bjobFinished = true; jobFinishedBy = s; } pthread_mutex_unlock(&mutexJobFinished); return ret; }