1 | from ..base.experiment_niching_abc import ExperimentNiching |
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2 | from ..structures.individual import Individual |
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3 | from ..structures.population import PopulationStructures |
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4 | from ..utils import merge_two_parsers |
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5 | from .experiment_frams import ExperimentFrams |
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6 | |
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7 | |
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8 | class ExperimentFramsNiching(ExperimentFrams, ExperimentNiching): |
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9 | def __init__(self, frams_lib, optimization_criteria, hof_size, popsize, constraints, normalize, dissim, fit, genformat, archive_size, save_only_best, knn_niching, knn_nslc) -> None: |
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10 | ExperimentFrams.__init__(self, hof_size=hof_size, |
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11 | popsize=popsize, |
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12 | frams_lib=frams_lib, |
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13 | constraints=constraints, |
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14 | optimization_criteria=optimization_criteria, |
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15 | genformat=genformat, |
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16 | save_only_best=save_only_best |
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17 | ) |
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18 | ExperimentNiching.__init__(self, hof_size=hof_size, |
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19 | popsize=popsize, |
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20 | fit=fit, |
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21 | normalize=normalize, |
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22 | save_only_best=save_only_best, |
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23 | archive_size=archive_size, |
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24 | knn_niching=knn_niching, |
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25 | knn_nslc=knn_nslc |
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26 | ) |
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27 | self.dissim = dissim |
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28 | |
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29 | |
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30 | def initialize_evolution(self, genformat, initialgenotype): |
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31 | self.current_generation = 0 |
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32 | self.time_elapsed = 0 |
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33 | self.stats = [] # stores the best individuals, one from each generation |
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34 | initial_individual = Individual() |
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35 | initial_individual.set_and_evaluate(self.frams_getsimplest( |
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36 | '1' if genformat is None else genformat, initialgenotype), self.evaluate) |
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37 | self.hof.add(initial_individual) |
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38 | self.stats.append( |
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39 | initial_individual.rawfitness if self.save_only_best else initial_individual) |
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40 | self.population_structures = PopulationStructures( |
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41 | initial_individual=initial_individual, archive_size=self.archive_size, popsize=self.popsize) |
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42 | if self.fit == "nsga2": |
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43 | self.do_nsga2_dissim(self.population_structures.population) |
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44 | if self.fit == "nslc": |
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45 | self.do_nslc_dissim(self.population_structures.population) |
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46 | |
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47 | def dissimilarity(self, population): |
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48 | return self.frams_lib.dissimilarity([i.genotype for i in population], self.dissim) |
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49 | |
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50 | |
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51 | @staticmethod |
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52 | def get_args_for_parser(): |
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53 | p1 = ExperimentFrams.get_args_for_parser() |
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54 | p2 = ExperimentNiching.get_args_for_parser() |
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55 | return merge_two_parsers(p1, p2) |
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56 | |
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