2016-04-12 20:10:37 +01:00
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/*
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* GslMinimizer.cpp, part of LatAnalyze
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*
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2020-01-13 09:57:06 +00:00
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* Copyright (C) 2013 - 2020 Antonin Portelli
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2016-04-12 20:10:37 +01:00
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*
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* LatAnalyze is free software: you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation, either version 3 of the License, or
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* (at your option) any later version.
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*
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* LatAnalyze 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
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with LatAnalyze. If not, see <http://www.gnu.org/licenses/>.
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*/
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2019-02-10 00:23:36 +00:00
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#include <LatAnalyze/Numerical/GslMinimizer.hpp>
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2016-04-12 20:10:37 +01:00
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#include <LatAnalyze/includes.hpp>
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2019-02-10 00:23:36 +00:00
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#include <LatAnalyze/Core/Math.hpp>
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2016-04-12 20:10:37 +01:00
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#include <gsl/gsl_multimin.h>
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#include <gsl/gsl_blas.h>
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using namespace std;
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using namespace Latan;
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/******************************************************************************
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* GslMinimizer implementation *
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******************************************************************************/
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// constructor /////////////////////////////////////////////////////////////////
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GslMinimizer::GslMinimizer(const Algorithm algorithm)
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{
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setAlgorithm(algorithm);
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der_.setOrder(1, 1);
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}
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// access //////////////////////////////////////////////////////////////////////
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GslMinimizer::Algorithm GslMinimizer::getAlgorithm(void) const
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{
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return algorithm_;
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}
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void GslMinimizer::setAlgorithm(const Algorithm algorithm)
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{
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algorithm_ = algorithm;
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}
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bool GslMinimizer::supportLimits(void) const
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{
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return false;
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}
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// test ////////////////////////////////////////////////////////////////////////
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bool GslMinimizer::isDerAlgorithm(const Algorithm algorithm)
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{
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return (algorithm <= Algorithm::lastDerAlg);
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}
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// minimization ////////////////////////////////////////////////////////////////
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const DVec & GslMinimizer::operator()(const DoubleFunction &f)
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{
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DVec &x = getState();
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// resize minimizer state to match function number of arguments
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if (f.getNArg() != x.size())
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{
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resize(f.getNArg());
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}
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// set function data
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GslFuncData data;
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der_.setFunction(f);
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data.f = &f;
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data.d = &der_;
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// set initial position
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gsl_vector *gslX = gsl_vector_alloc(getDim());
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for (Index i = 0; i < getDim(); ++i)
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{
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gsl_vector_set(gslX, i, x(i));
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}
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// minimization
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int status;
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if (isDerAlgorithm(getAlgorithm()))
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{
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// set function
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gsl_multimin_function_fdf gslFunc;
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gslFunc.n = getDim();
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gslFunc.f = &fWrapper;
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gslFunc.df = &dfWrapper;
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gslFunc.fdf = &fdfWrapper;
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gslFunc.params = &data;
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// create and set minimizer
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const gsl_multimin_fdfminimizer_type *gslAlg;
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gsl_multimin_fdfminimizer *gslMin;
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switch (getAlgorithm())
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{
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case Algorithm::cgFR:
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gslAlg = gsl_multimin_fdfminimizer_conjugate_fr;
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break;
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case Algorithm::cgPR:
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gslAlg = gsl_multimin_fdfminimizer_conjugate_pr;
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break;
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case Algorithm::bfgs:
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gslAlg = gsl_multimin_fdfminimizer_vector_bfgs;
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break;
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case Algorithm::bfgs2:
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gslAlg = gsl_multimin_fdfminimizer_vector_bfgs2;
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break;
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case Algorithm::steepDesc:
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gslAlg = gsl_multimin_fdfminimizer_vector_bfgs2;
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break;
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default:
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LATAN_ERROR(Argument, "unknow GSL minization algorithm "
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+ strFrom(static_cast<int>(getAlgorithm())));
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break;
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}
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gslMin = gsl_multimin_fdfminimizer_alloc(gslAlg, getDim());
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// minimize
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unsigned int pass = 0, it;
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double dxRel;
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do
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{
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pass++;
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gsl_multimin_fdfminimizer_set(gslMin, &gslFunc, gslX, 0.01, 0.001);
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if (getVerbosity() >= Verbosity::Normal)
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{
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cout << "========== GSL minimization, pass #" << pass;
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cout << " ==========" << endl;
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cout << "Algorithm: " << getAlgorithmName(getAlgorithm());
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cout << endl;
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cout << "Max eval.= " << getMaxIteration();
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cout << " -- Precision= " << getPrecision() << endl;
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printf("Starting f(x)= %.10e\n", f(x));
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}
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it = 0;
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do
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{
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it++;
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gsl_multimin_fdfminimizer_iterate(gslMin);
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dxRel = gsl_blas_dnrm2(gslMin->dx)/gsl_blas_dnrm2(gslMin->x);
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status = (dxRel < getPrecision()) ? GSL_SUCCESS : GSL_CONTINUE;
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if (getVerbosity() >= Verbosity::Debug)
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{
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printf("iteration %4d: f= %.10e dxrel= %.10e eval= %d\n",
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it, gslMin->f, dxRel, data.evalCount);
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}
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} while (status == GSL_CONTINUE and
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(data.evalCount < getMaxIteration()));
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if (getVerbosity() >= Verbosity::Normal)
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{
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printf("Found minimum %.10e at:\n", gslMin->f);
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for (Index i = 0; i < x.size(); ++i)
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{
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printf("%8s= %.10e\n", f.varName().getName(i).c_str(),
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gsl_vector_get(gslMin->x, i));
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}
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cout << "after " << data.evalCount << " evaluations" << endl;
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cout << "Minimization ended with code " << status;
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cout << endl;
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}
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data.evalCount = 0;
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for (Index i = 0; i < getDim(); ++i)
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{
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gsl_vector_set(gslX, i, gsl_vector_get(gslMin->x, i));
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}
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} while (status != GSL_SUCCESS and (pass < getMaxPass()));
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// deallocate GSL minimizer
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gsl_multimin_fdfminimizer_free(gslMin);
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}
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else
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{
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// set function
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gsl_multimin_function gslFunc;
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gslFunc.n = getDim();
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gslFunc.f = &fWrapper;
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gslFunc.params = &data;
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// create and set minimizer
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const gsl_multimin_fminimizer_type *gslAlg;
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gsl_multimin_fminimizer *gslMin;
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switch (getAlgorithm())
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{
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case Algorithm::simplex:
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gslAlg = gsl_multimin_fminimizer_nmsimplex;
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break;
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case Algorithm::simplex2:
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gslAlg = gsl_multimin_fminimizer_nmsimplex2;
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break;
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case Algorithm::simplex2R:
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gslAlg = gsl_multimin_fminimizer_nmsimplex2rand;
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break;
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default:
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LATAN_ERROR(Argument, "unknow GSL minization algorithm "
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+ strFrom(static_cast<int>(getAlgorithm())));
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break;
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}
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gslMin = gsl_multimin_fminimizer_alloc(gslAlg, getDim());
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// minimize
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unsigned int pass = 0, it;
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gsl_vector *step = gsl_vector_alloc(getDim());
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double relSize;
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gsl_vector_set_all(step, 0.01);
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do
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{
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pass++;
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gsl_multimin_fminimizer_set(gslMin, &gslFunc, gslX, step);
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if (getVerbosity() >= Verbosity::Normal)
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{
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cout << "========== GSL minimization, pass #" << pass;
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cout << " ==========" << endl;
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cout << "Algorithm: " << getAlgorithmName(getAlgorithm());
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cout << endl;
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cout << "Max eval.= " << getMaxIteration();
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cout << " -- Precision= " << getPrecision() << endl;
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printf("Starting f(x)= %.10e\n", f(x));
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}
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it = 0;
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do
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{
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it++;
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gsl_multimin_fminimizer_iterate(gslMin);
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relSize = Math::pow<2>(gslMin->size)/gsl_blas_dnrm2(gslMin->x);
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status = (relSize < getPrecision()) ? GSL_SUCCESS
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: GSL_CONTINUE;
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if (getVerbosity() >= Verbosity::Debug)
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{
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printf("iteration %4d: f= %.10e relSize= %.10e eval= %d\n",
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it, gslMin->fval, relSize, data.evalCount);
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}
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} while (status == GSL_CONTINUE and
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(data.evalCount < getMaxIteration()));
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if (getVerbosity() >= Verbosity::Normal)
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{
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printf("Found minimum %.10e at:\n", gslMin->fval);
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for (Index i = 0; i < x.size(); ++i)
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{
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printf("%8s= %.10e\n", f.varName().getName(i).c_str(),
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gsl_vector_get(gslMin->x, i));
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}
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cout << "after " << data.evalCount << " evaluations" << endl;
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cout << "Minimization ended with code " << status;
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cout << endl;
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}
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data.evalCount = 0;
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for (Index i = 0; i < getDim(); ++i)
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{
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gsl_vector_set(gslX, i, gsl_vector_get(gslMin->x, i));
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}
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} while (status != GSL_SUCCESS and (pass < getMaxPass()));
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// deallocate GSL minimizer
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gsl_multimin_fminimizer_free(gslMin);
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gsl_vector_free(step);
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}
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if (status != GSL_SUCCESS)
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{
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LATAN_WARNING("invalid minimum: maximum number of call reached");
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}
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// save final result
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for (Index i = 0; i < getDim(); ++i)
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{
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x(i) = gsl_vector_get(gslX, i);
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}
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// deallocate GSL state and return
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gsl_vector_free(gslX);
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return x;
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}
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// function wrappers ///////////////////////////////////////////////////////////
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double GslMinimizer::fWrapper(const gsl_vector *x, void *vdata)
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{
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GslFuncData &data = *static_cast<GslFuncData *>(vdata);
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data.evalCount++;
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return (*data.f)(x->data);
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}
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void GslMinimizer::dfWrapper(const gsl_vector *x, void *vdata, gsl_vector * df)
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{
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GslFuncData &data = *static_cast<GslFuncData *>(vdata);
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const unsigned int n = data.f->getNArg();
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for (unsigned int i = 0; i < n; ++i)
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{
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data.d->setDir(i);
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gsl_vector_set(df, i, (*(data.d))(x->data));
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}
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data.evalCount += data.d->getNPoint()*n;
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}
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void GslMinimizer::fdfWrapper(const gsl_vector *x, void *vdata, double *f,
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gsl_vector * df)
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{
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GslFuncData &data = *static_cast<GslFuncData *>(vdata);
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const unsigned int n = data.f->getNArg();
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for (unsigned int i = 0; i < n; ++i)
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{
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data.d->setDir(i);
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gsl_vector_set(df, i, (*(data.d))(x->data));
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}
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*f = (*data.f)(x->data);
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data.evalCount += data.d->getNPoint()*n + 1;
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}
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// algorithm names /////////////////////////////////////////////////////////////
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string GslMinimizer::getAlgorithmName(const Algorithm algorithm)
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{
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switch (algorithm)
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{
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case Algorithm::cgFR:
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return "Fletcher-Reeves conjugate gradient";
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break;
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case Algorithm::cgPR:
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return "Polak-Ribiere conjugate gradient";
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break;
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case Algorithm::bfgs:
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return "Broyden-Fletcher-Goldfarb-Shanno";
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break;
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case Algorithm::bfgs2:
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return "improved Broyden-Fletcher-Goldfarb-Shanno";
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break;
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case Algorithm::steepDesc:
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return "steepest descent";
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break;
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case Algorithm::simplex:
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return "Nelder-Mead simplex";
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break;
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case Algorithm::simplex2:
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return "improved Nelder-Mead simplex";
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break;
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case Algorithm::simplex2R:
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return "improved Nelder-Mead simplex with random start";
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break;
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}
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2016-04-12 21:06:06 +01:00
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return "";
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2016-04-12 20:10:37 +01:00
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}
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