181 lines
7.2 KiB
C++
181 lines
7.2 KiB
C++
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/*
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* Open BEAGLE
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* Copyright (C) 2001-2007 by Christian Gagne and Marc Parizeau
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*
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* This library is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation; either
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* version 2.1 of the License, or (at your option) any later version.
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*
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* This library is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with this library; if not, write to the Free Software
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* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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*
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* Contact:
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* Laboratoire de Vision et Systemes Numeriques
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* Departement de genie electrique et de genie informatique
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* Universite Laval, Quebec, Canada, G1K 7P4
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* http://vision.gel.ulaval.ca
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*
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*/
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/*!
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* \file beagle/GA/src/InitFltVecOp.cpp
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* \brief Source code of class GA::InitFltVecOp.
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* \author Christian Gagne
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* \author Marc Parizeau
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* $Revision: 1.17.2.1 $
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* $Date: 2007/05/09 01:51:03 $
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*/
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#include "beagle/GA.hpp"
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#include <cmath>
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#include <sstream>
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using namespace std;
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using namespace Beagle;
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/*!
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* \brief Construct a GA float vectors uniformly distributed initialization operator.
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* \param inFloatVectorSize Size of the float vectors initialized.
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* \param inReproProbaName Reproduction probability parameter name used in register.
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* \param inName Name of the operator.
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*/
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GA::InitFltVecOp::InitFltVecOp(unsigned int inFloatVectorSize,
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Beagle::string inReproProbaName,
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Beagle::string inName) :
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InitializationOp(inReproProbaName, inName),
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mFloatVectorSize(new UInt(inFloatVectorSize))
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{ }
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/*!
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* \brief Initialize the GA float vectors uniformly distributed initialization operator.
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* \param ioSystem System of the evolution.
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*/
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void GA::InitFltVecOp::initialize(System& ioSystem)
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{
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Beagle_StackTraceBeginM();
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InitializationOp::initialize(ioSystem);
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if(ioSystem.getRegister().isRegistered("ga.init.vectorsize")) {
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mFloatVectorSize = castHandleT<UInt>(ioSystem.getRegister()["ga.init.vectorsize"]);
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} else {
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Register::Description lDescription(
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"Initial float vectors sizes",
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"UInt",
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mFloatVectorSize->serialize(),
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"Float vector size of initialized individuals."
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);
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ioSystem.getRegister().addEntry("ga.init.vectorsize", mFloatVectorSize, lDescription);
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}
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if(ioSystem.getRegister().isRegistered("ga.init.maxvalue")) {
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mMaxInitValue = castHandleT<DoubleArray>(ioSystem.getRegister()["ga.init.maxvalue"]);
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} else {
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mMaxInitValue = new DoubleArray(1,1.0);
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std::ostringstream lOSS;
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lOSS << "Maximum initialization values assigned to vector's floats. ";
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lOSS << "Value can be a scalar, which limit the initialization value for all float ";
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lOSS << "vector parameters, or a vector which limit the value for the parameters ";
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lOSS << "individually. If the maximum initialization value is smaller than the ";
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lOSS << "float vector size, the limit used for the last values of the float vector ";
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lOSS << "is equal to the last value of the maximum initialization value vector.";
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Register::Description lDescription(
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"Maximum initialization values",
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"DoubleArray",
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"1.0",
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lOSS.str().c_str()
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);
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ioSystem.getRegister().addEntry("ga.init.maxvalue", mMaxInitValue, lDescription);
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}
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if(ioSystem.getRegister().isRegistered("ga.init.minvalue")) {
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mMinInitValue = castHandleT<DoubleArray>(ioSystem.getRegister()["ga.init.minvalue"]);
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} else {
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mMinInitValue = new DoubleArray(1,-1.0);
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std::ostringstream lOSS;
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lOSS << "Minimum initialization values assigned to vector's floats. ";
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lOSS << "Value can be a scalar, which limit the initialization value for all float ";
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lOSS << "vector parameters, or a vector which limit the value for the parameters ";
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lOSS << "individually. If the minimum initialization value is smaller than the ";
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lOSS << "float vector size, the limit used for the last values of the float vector ";
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lOSS << "is equal to the last value of the minimum initialization value vector.";
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Register::Description lDescription(
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"Minimum initialization values",
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"DoubleArray",
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"-1.0",
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lOSS.str().c_str()
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);
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ioSystem.getRegister().addEntry("ga.init.minvalue", mMinInitValue, lDescription);
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}
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if(ioSystem.getRegister().isRegistered("ga.float.inc")) {
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mIncValue = castHandleT<DoubleArray>(ioSystem.getRegister()["ga.float.inc"]);
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} else {
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mIncValue = new DoubleArray(1,0.0);
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std::ostringstream lOSS;
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lOSS << "Increments of valid values assigned to vector's floats. ";
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lOSS << "Value can be a scalar, which limit the value for all float ";
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lOSS << "vector parameters, or a vector which limit the value for the parameters ";
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lOSS << "individually. If the value is not evenly divisible by the ";
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lOSS << "increment, the value will be set to the closest valid ";
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lOSS << "value.";
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Register::Description lDescription(
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"Increments of valid values",
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"DoubleArray",
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"0.0",
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lOSS.str().c_str()
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);
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ioSystem.getRegister().addEntry("ga.float.inc", mIncValue, lDescription);
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}
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Beagle_StackTraceEndM("void GA::InitFltVecOp::initialize(System& ioSystem)");
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}
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/*!
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* \brief Initialize real-valued GA individual with numbers uniformly distributed in a given range.
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* \param outIndividual Individual to initialize.
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* \param ioContext Evolution context.
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*/
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void GA::InitFltVecOp::initIndividual(Beagle::Individual& outIndividual, Context& ioContext)
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{
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Beagle_StackTraceBeginM();
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#ifndef BEAGLE_NDEBUG
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if(mFloatVectorSize->getWrappedValue() == 0) {
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string lMessage = "GA::InitFltVecOp::initIndividual: ";
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lMessage += "float vector size parameter is zero; ";
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lMessage += "could not initialize the individuals!";
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throw Beagle_RunTimeExceptionM(lMessage);
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}
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#endif // BEAGLE_NDEBUG
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outIndividual.resize(1);
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GA::FloatVector::Handle lFloatVector = castHandleT<GA::FloatVector>(outIndividual[0]);
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lFloatVector->resize(mFloatVectorSize->getWrappedValue());
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for(unsigned int j=0; j<lFloatVector->size(); ++j) {
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const double lMaxVal = j<mMaxInitValue->size() ? (*mMaxInitValue)[j] : mMaxInitValue->back();
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const double lMinVal = j<mMinInitValue->size() ? (*mMinInitValue)[j] : mMinInitValue->back();
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const double lIncVal = j<mIncValue->size() ? (*mIncValue)[j] : mIncValue->back();
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(*lFloatVector)[j] = ioContext.getSystem().getRandomizer().rollUniform(lMinVal,lMaxVal);
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if(lIncVal!=0.0) {
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(*lFloatVector)[j] = lIncVal * round((*lFloatVector)[j] / lIncVal);
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if((*lFloatVector)[j] > lMaxVal) (*lFloatVector)[j] = lMaxVal;
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if((*lFloatVector)[j] < lMinVal) (*lFloatVector)[j] = lMinVal;
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}
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}
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Beagle_LogDebugM(
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ioContext.getSystem().getLogger(),
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"initialization", "Beagle::GA::InitFltVecOp",
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string("Float vector initialized as: ")+lFloatVector->serialize()
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);
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Beagle_StackTraceEndM("void GA::InitFltVecOp::initIndividual(Beagle::Individual& outIndividual, Context& ioContext)");
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}
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