2020-01-17 06:45:10 +00:00
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/*
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This file is part of solidity.
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solidity 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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solidity 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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You should have received a copy of the GNU General Public License
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along with solidity. If not, see <http://www.gnu.org/licenses/>.
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*/
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2020-07-17 14:54:12 +00:00
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// SPDX-License-Identifier: GPL-3.0
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2020-01-17 06:45:10 +00:00
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#include <tools/yulPhaser/Population.h>
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2020-02-05 15:55:50 +00:00
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#include <tools/yulPhaser/PairSelections.h>
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2020-02-05 15:55:50 +00:00
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#include <tools/yulPhaser/Selections.h>
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2020-01-17 06:45:10 +00:00
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2020-02-05 15:51:43 +00:00
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#include <libsolutil/CommonData.h>
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2020-02-11 21:25:17 +00:00
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#include <libsolutil/CommonIO.h>
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2020-01-17 06:45:10 +00:00
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#include <algorithm>
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#include <cassert>
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#include <numeric>
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using namespace std;
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using namespace solidity;
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2020-01-22 19:14:36 +00:00
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using namespace solidity::langutil;
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2020-02-11 21:25:17 +00:00
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using namespace solidity::util;
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2020-01-17 06:45:10 +00:00
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using namespace solidity::phaser;
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namespace solidity::phaser
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{
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ostream& operator<<(ostream& _stream, Individual const& _individual);
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ostream& operator<<(ostream& _stream, Population const& _population);
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}
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ostream& phaser::operator<<(ostream& _stream, Individual const& _individual)
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{
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2020-03-09 18:24:37 +00:00
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_stream << _individual.fitness << " " << _individual.chromosome;
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2020-01-17 06:45:10 +00:00
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return _stream;
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}
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2020-02-11 18:20:01 +00:00
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bool phaser::isFitter(Individual const& a, Individual const& b)
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{
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return (
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(a.fitness < b.fitness) ||
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(a.fitness == b.fitness && a.chromosome.length() < b.chromosome.length()) ||
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2020-09-11 18:18:09 +00:00
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(a.fitness == b.fitness && a.chromosome.length() == b.chromosome.length() && a.chromosome.genes() < b.chromosome.genes())
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);
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}
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2020-02-06 05:19:55 +00:00
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Population Population::makeRandom(
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shared_ptr<FitnessMetric> _fitnessMetric,
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size_t _size,
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function<size_t()> _chromosomeLengthGenerator
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)
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{
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vector<Chromosome> chromosomes;
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for (size_t i = 0; i < _size; ++i)
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chromosomes.push_back(Chromosome::makeRandom(_chromosomeLengthGenerator()));
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2020-01-17 06:45:10 +00:00
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2022-08-23 17:28:45 +00:00
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return Population(std::move(_fitnessMetric), std::move(chromosomes));
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2020-01-17 06:45:10 +00:00
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}
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2020-02-06 05:19:55 +00:00
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Population Population::makeRandom(
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shared_ptr<FitnessMetric> _fitnessMetric,
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size_t _size,
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size_t _minChromosomeLength,
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size_t _maxChromosomeLength
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)
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{
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return makeRandom(
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std::move(_fitnessMetric),
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_size,
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std::bind(uniformChromosomeLength, _minChromosomeLength, _maxChromosomeLength)
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);
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}
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2020-02-05 15:55:50 +00:00
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Population Population::select(Selection const& _selection) const
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{
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vector<Individual> selectedIndividuals;
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for (size_t i: _selection.materialise(m_individuals.size()))
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selectedIndividuals.emplace_back(m_individuals[i]);
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return Population(m_fitnessMetric, selectedIndividuals);
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}
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2020-02-05 15:55:50 +00:00
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Population Population::mutate(Selection const& _selection, function<Mutation> _mutation) const
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{
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vector<Individual> mutatedIndividuals;
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for (size_t i: _selection.materialise(m_individuals.size()))
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mutatedIndividuals.emplace_back(_mutation(m_individuals[i].chromosome), *m_fitnessMetric);
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return Population(m_fitnessMetric, mutatedIndividuals);
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}
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Population Population::crossover(PairSelection const& _selection, function<Crossover> _crossover) const
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{
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vector<Individual> crossedIndividuals;
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for (auto const& [i, j]: _selection.materialise(m_individuals.size()))
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{
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2020-02-13 22:44:06 +00:00
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auto childChromosome = _crossover(
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m_individuals[i].chromosome,
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m_individuals[j].chromosome
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);
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crossedIndividuals.emplace_back(std::move(childChromosome), *m_fitnessMetric);
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}
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return Population(m_fitnessMetric, crossedIndividuals);
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}
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2020-03-11 01:13:55 +00:00
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tuple<Population, Population> Population::symmetricCrossoverWithRemainder(
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PairSelection const& _selection,
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function<SymmetricCrossover> _symmetricCrossover
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) const
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{
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vector<int> indexSelected(m_individuals.size(), false);
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vector<Individual> crossedIndividuals;
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for (auto const& [i, j]: _selection.materialise(m_individuals.size()))
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{
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auto children = _symmetricCrossover(
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m_individuals[i].chromosome,
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m_individuals[j].chromosome
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);
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crossedIndividuals.emplace_back(std::move(get<0>(children)), *m_fitnessMetric);
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crossedIndividuals.emplace_back(std::move(get<1>(children)), *m_fitnessMetric);
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indexSelected[i] = true;
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indexSelected[j] = true;
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}
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vector<Individual> remainder;
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for (size_t i = 0; i < indexSelected.size(); ++i)
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if (!indexSelected[i])
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remainder.emplace_back(m_individuals[i]);
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return {
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Population(m_fitnessMetric, crossedIndividuals),
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Population(m_fitnessMetric, remainder),
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};
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}
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2020-03-26 03:46:26 +00:00
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namespace solidity::phaser
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{
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2020-02-05 15:51:43 +00:00
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Population operator+(Population _a, Population _b)
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{
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2020-02-05 14:58:35 +00:00
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// This operator is meant to be used only with populations sharing the same metric (and, to make
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// things simple, "the same" here means the same exact object in memory).
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assert(_a.m_fitnessMetric == _b.m_fitnessMetric);
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2020-02-05 15:51:43 +00:00
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2020-03-26 03:46:26 +00:00
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using ::operator+; // Import the std::vector concat operator from CommonData.h
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return Population(_a.m_fitnessMetric, std::move(_a.m_individuals) + std::move(_b.m_individuals));
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}
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2020-03-26 03:46:26 +00:00
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}
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2020-03-11 01:14:30 +00:00
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Population Population::combine(std::tuple<Population, Population> _populationPair)
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{
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return get<0>(_populationPair) + get<1>(_populationPair);
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}
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2020-02-11 10:25:00 +00:00
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bool Population::operator==(Population const& _other) const
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{
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2020-02-05 14:58:35 +00:00
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// We consider populations identical only if they share the same exact instance of the metric.
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// It might be possible to define some notion of equality for metric objects but it would
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// be an overkill since mixing populations using different metrics is not a common use case.
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return m_individuals == _other.m_individuals && m_fitnessMetric == _other.m_fitnessMetric;
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2020-02-11 10:25:00 +00:00
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}
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2020-01-17 06:45:10 +00:00
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ostream& phaser::operator<<(ostream& _stream, Population const& _population)
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{
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auto individual = _population.m_individuals.begin();
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for (; individual != _population.m_individuals.end(); ++individual)
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_stream << *individual << endl;
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return _stream;
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}
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2020-02-05 14:15:17 +00:00
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vector<Individual> Population::chromosomesToIndividuals(
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FitnessMetric& _fitnessMetric,
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vector<Chromosome> _chromosomes
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)
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{
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vector<Individual> individuals;
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for (auto& chromosome: _chromosomes)
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individuals.emplace_back(std::move(chromosome), _fitnessMetric);
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return individuals;
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}
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2020-02-05 15:04:17 +00:00
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vector<Individual> Population::sortedIndividuals(vector<Individual> _individuals)
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{
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sort(_individuals.begin(), _individuals.end(), isFitter);
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return _individuals;
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}
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