/* * Open BEAGLE * Copyright (C) 2001-2007 by Christian Gagne and Marc Parizeau * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * * Contact: * Laboratoire de Vision et Systemes Numeriques * Departement de genie electrique et de genie informatique * Universite Laval, Quebec, Canada, G1K 7P4 * http://vision.gel.ulaval.ca * */ /*! * \file beagle/GA/src/EvolverFloatVector.cpp * \brief Source code of class GA::EvolverFloatVector. * \author Christian Gagne * \author Marc Parizeau * $Revision: 1.18.2.3 $ * $Date: 2007/09/10 18:24:10 $ */ #include "beagle/GA.hpp" #include using namespace Beagle; /*! * \brief Construct a real-valued GA evolver. * \param inInitSize Size of the GA float vectors. */ GA::EvolverFloatVector::EvolverFloatVector(unsigned int inInitSize) { Beagle_StackTraceBeginM(); addOperator(new GA::InitFltVecOp(inInitSize)); addOperator(new GA::InitCMAFltVecOp(inInitSize)); addOperator(new GA::CrossoverBlendFltVecOp); addOperator(new GA::CrossoverSBXFltVecOp); addOperator(new GA::CrossoverOnePointFltVecOp); addOperator(new GA::CrossoverTwoPointsFltVecOp); addOperator(new GA::CrossoverUniformFltVecOp); addOperator(new GA::MutationGaussianFltVecOp); addOperator(new GA::MutationCMAFltVecOp); addOperator(new GA::MuWCommaLambdaCMAFltVecOp); addOperator(new GA::MuWCommaLambdaCMAFltVecOp("ga.cmaes.mulambdaratio", "GA-MuWCommaLambdaCMAFltVecOp-2")); addOperator(new GA::TermCMAOp); Beagle_StackTraceEndM("GA::EvolverFloatVector::EvolverFloatVector(unsigned int inInitSize)"); } /*! * \brief Construct a real-valued GA evolver. * \param inEvalOp Evaluation operator. * \param inInitSize Size of the GA float vectors. */ GA::EvolverFloatVector::EvolverFloatVector(EvaluationOp::Handle inEvalOp, unsigned int inInitSize) { Beagle_StackTraceBeginM(); addOperator(inEvalOp); addOperator(new GA::InitFltVecOp(inInitSize)); addOperator(new GA::InitCMAFltVecOp(inInitSize)); addOperator(new GA::CrossoverBlendFltVecOp); addOperator(new GA::CrossoverSBXFltVecOp); addOperator(new GA::CrossoverOnePointFltVecOp); addOperator(new GA::CrossoverTwoPointsFltVecOp); addOperator(new GA::CrossoverUniformFltVecOp); addOperator(new GA::MutationGaussianFltVecOp); addOperator(new GA::MutationCMAFltVecOp); addOperator(new GA::MuWCommaLambdaCMAFltVecOp); addOperator(new GA::MuWCommaLambdaCMAFltVecOp("ga.cmaes.mulambdaratio", "GA-MuWCommaLambdaCMAFltVecOp-2")); addOperator(new GA::TermCMAOp); addBootStrapOp("IfThenElseOp"); IfThenElseOp::Handle lITE = castHandleT(getBootStrapSet().back()); lITE->setConditionTag("ms.restart.file"); lITE->setConditionValue(""); lITE->insertPositiveOp("GA-InitFltVecOp", getOperatorMap()); lITE->insertPositiveOp(inEvalOp->getName(), getOperatorMap()); lITE->insertPositiveOp("StatsCalcFitnessSimpleOp", getOperatorMap()); lITE->insertNegativeOp("MilestoneReadOp", getOperatorMap()); addBootStrapOp("TermMaxGenOp"); addBootStrapOp("MilestoneWriteOp"); addMainLoopOp("SelectTournamentOp"); addMainLoopOp("GA-CrossoverBlendFltVecOp"); addMainLoopOp("GA-MutationGaussianFltVecOp"); addMainLoopOp(inEvalOp->getName()); addMainLoopOp("MigrationRandomRingOp"); addMainLoopOp("StatsCalcFitnessSimpleOp"); addMainLoopOp("TermMaxGenOp"); addMainLoopOp("MilestoneWriteOp"); Beagle_StackTraceEndM("GA::EvolverFloatVector::EvolverFloatVector(EvaluationOp::Handle inEvalOp, unsigned int inInitSize)"); } /*! * \brief Construct a real-valued GA evolver. * \param inInitSize Size of the GA float vectors. * \deprecated Use EvolverFloatVector(unsigned int) constructor instead. * \throw Beagle::RunTimeException If init size vector has more than one value. */ GA::EvolverFloatVector::EvolverFloatVector(UIntArray inInitSize) { Beagle_StackTraceBeginM(); if(inInitSize.size()==0) { addOperator(new GA::InitFltVecOp(0)); addOperator(new GA::InitCMAFltVecOp(0)); } else if(inInitSize.size()==1) { addOperator(new GA::InitFltVecOp(inInitSize[0])); addOperator(new GA::InitCMAFltVecOp(inInitSize[0])); } else { std::ostringstream lOSS; lOSS << "Initialization of float vector individuals with more than one float vector "; lOSS << "is no more valid. You should use individuals made of one float vector, or "; lOSS << "define your own float vector initialization operator."; throw Beagle_RunTimeExceptionM(lOSS.str().c_str()); } addOperator(new GA::CrossoverBlendFltVecOp); addOperator(new GA::CrossoverSBXFltVecOp); addOperator(new GA::CrossoverOnePointFltVecOp); addOperator(new GA::CrossoverTwoPointsFltVecOp); addOperator(new GA::CrossoverUniformFltVecOp); addOperator(new GA::MutationGaussianFltVecOp); addOperator(new GA::MutationCMAFltVecOp); addOperator(new GA::MuWCommaLambdaCMAFltVecOp); addOperator(new GA::MuWCommaLambdaCMAFltVecOp("ga.cmaes.mulambdaratio", "GA-MuWCommaLambdaCMAFltVecOp-2")); addOperator(new GA::TermCMAOp); Beagle_StackTraceEndM("GA::EvolverFloatVector::EvolverFloatVector(UIntArray inInitSize)"); } /*! * \brief Construct a real-valued GA evolver. * \param inEvalOp Evaluation operator. * \param inInitSize Size of the GA float vectors. * \deprecated Use EvolverFloatVector(EvaluationOp::Handle,unsigned int) constructor instead. * \throw Beagle::RunTimeException If init size vector has more than one value. */ GA::EvolverFloatVector::EvolverFloatVector(EvaluationOp::Handle inEvalOp, UIntArray inInitSize) { Beagle_StackTraceBeginM(); addOperator(inEvalOp); if(inInitSize.size()==0) { addOperator(new GA::InitFltVecOp(0)); addOperator(new GA::InitCMAFltVecOp(0)); } else if(inInitSize.size()==1) { addOperator(new GA::InitFltVecOp(inInitSize[0])); addOperator(new GA::InitCMAFltVecOp(inInitSize[0])); } else { std::ostringstream lOSS; lOSS << "Initialization of float vector individuals with more than one float vector "; lOSS << "is no more valid. You should use individuals made of one float vector, or "; lOSS << "define your own float vector initialization operator."; throw Beagle_RunTimeExceptionM(lOSS.str().c_str()); } addOperator(new GA::CrossoverBlendFltVecOp); addOperator(new GA::CrossoverSBXFltVecOp); addOperator(new GA::CrossoverOnePointFltVecOp); addOperator(new GA::CrossoverTwoPointsFltVecOp); addOperator(new GA::CrossoverUniformFltVecOp); addOperator(new GA::MutationGaussianFltVecOp); addOperator(new GA::MutationCMAFltVecOp); addOperator(new GA::MuWCommaLambdaCMAFltVecOp); addOperator(new GA::MuWCommaLambdaCMAFltVecOp("ga.cmaes.mulambdaratio", "GA-MuWCommaLambdaCMAFltVecOp-2")); addOperator(new GA::TermCMAOp); addBootStrapOp("IfThenElseOp"); IfThenElseOp::Handle lITE = castHandleT(getBootStrapSet().back()); lITE->setConditionTag("ms.restart.file"); lITE->setConditionValue(""); lITE->insertPositiveOp("GA-InitFltVecOp", getOperatorMap()); lITE->insertPositiveOp(inEvalOp->getName(), getOperatorMap()); lITE->insertPositiveOp("StatsCalcFitnessSimpleOp", getOperatorMap()); lITE->insertNegativeOp("MilestoneReadOp", getOperatorMap()); addBootStrapOp("TermMaxGenOp"); addBootStrapOp("MilestoneWriteOp"); addMainLoopOp("SelectTournamentOp"); addMainLoopOp("GA-CrossoverBlendFltVecOp"); addMainLoopOp("GA-MutationGaussianFltVecOp"); addMainLoopOp(inEvalOp->getName()); addMainLoopOp("MigrationRandomRingOp"); addMainLoopOp("StatsCalcFitnessSimpleOp"); addMainLoopOp("TermMaxGenOp"); addMainLoopOp("MilestoneWriteOp"); Beagle_StackTraceEndM("GA::EvolverFloatVector::EvolverFloatVector(EvaluationOp::Handle inEvalOp, UIntArray inInitSize)"); } /*! * \brief Initialize the evolver, its operators and the system. * \param ioSystem Handle to the system of the evolution. * \param ioArgc Number of elements on the command-line. * \param ioArgv Element on the command-line. */ void GA::EvolverFloatVector::initialize(Beagle::System::Handle ioSystem, int ioArgc, char** ioArgv) { Beagle_StackTraceBeginM(); ioSystem->addComponent(new GA::CMAHolder); Beagle::Evolver::initialize(ioSystem, ioArgc, ioArgv); Beagle_StackTraceEndM("void GA::EvolverFloatVector::initialize(System::Handle ioSystem, int, char**)"); } /*! * \brief Initialize the evolver, its operators and the system. * \param ioSystem Handle to the system of the evolution. * \param inConfigFilename Configuration file from which system and evolver are read. */ void GA::EvolverFloatVector::initialize(Beagle::System::Handle ioSystem, std::string inConfigFilename) { Beagle_StackTraceBeginM(); ioSystem->addComponent(new GA::CMAHolder); Beagle::Evolver::initialize(ioSystem, inConfigFilename); Beagle_StackTraceEndM("void GA::EvolverFloatVector::initialize(System::Handle ioSystem, std::string)"); }