"""Multi-objective Checkpoints classes implementations """ # main imports import os import logging import numpy as np # module imports from macop.callbacks.base import Callback from macop.utils.progress import macop_text, macop_line class MultiCheckpoint(Callback): """ MultiCheckpoint is used for loading previous computations and start again after loading checkpoint Attributes: algo: {Algorithm} -- main algorithm instance reference every: {int} -- checkpoint frequency used (based on number of evaluations) filepath: {str} -- file path where checkpoints will be saved """ def run(self): """ Check if necessary to do backup based on `every` variable """ # get current population population = self._algo._population currentEvaluation = self._algo.getGlobalEvaluation() # backup if necessary if currentEvaluation % self._every == 0: logging.info("Checkpoint is done into " + self._filepath) with open(self._filepath, 'w') as f: for solution in population: solutionData = "" solutionSize = len(solution._data) for index, val in enumerate(solution._data): solutionData += str(val) if index < solutionSize - 1: solutionData += ' ' line = str(currentEvaluation) + ';' for i in range(len(self._algo._evaluator)): line += str(solution._scores[i]) + ';' line += solutionData + ';\n' f.write(line) def load(self): """ Load backup lines as population and set algorithm state (population and pareto front) at this backup """ if os.path.exists(self._filepath): logging.info('Load best solution from last checkpoint') with open(self._filepath) as f: # read data for each line for i, line in enumerate(f.readlines()): data = line.replace(';\n', '').split(';') # only the first time if i == 0: # get evaluation information globalEvaluation = int(data[0]) if self._algo.getParent() is not None: self._algo.getParen()._numberOfEvaluations = globalEvaluation else: self._algo._numberOfEvaluations = globalEvaluation nObjectives = len(self._algo._evaluator) scores = [float(s) for s in data[1:nObjectives + 1]] # get best solution data information solutionData = list(map(int, data[-1].split(' '))) # initialize and fill with data self._algo._population[i] = self._algo._initializer() self._algo._population[i]._data = np.array(solutionData) self._algo._population[i]._scores = scores self._algo._pfPop.append(self._algo._population[i]) macop_line(self._algo) macop_text(self._algo, f'Load of available population from `{self._filepath}`') macop_text(self._algo, f'Restart algorithm from evaluation {self._algo._numberOfEvaluations}.') else: macop_text(self._algo, 'No backup found... Start running algorithm from evaluation 0.') logging.info("Can't load backup... Backup filepath not valid in Checkpoint") macop_line(self._algo) class ParetoCheckpoint(Callback): """ Pareto checkpoint is used for loading previous computations and start again after loading checkpoint Attributes: algo: {Algorithm} -- main algorithm instance reference every: {int} -- checkpoint frequency used (based on number of evaluations) filepath: {str} -- file path where checkpoints will be saved """ def run(self): """ Check if necessary to do backup based on `every` variable """ # get current population pfPop = self._algo._pfPop currentEvaluation = self._algo.getGlobalEvaluation() # backup if necessary if currentEvaluation % self._every == 0: logging.info("Checkpoint is done into " + self._filepath) with open(self._filepath, 'w') as f: for solution in pfPop: solutionData = "" solutionSize = len(solution._data) for index, val in enumerate(solution._data): solutionData += str(val) if index < solutionSize - 1: solutionData += ' ' line = '' for i in range(len(self._algo._evaluator)): line += str(solution._scores[i]) + ';' line += solutionData + ';\n' f.write(line) def load(self): """ Load backup lines as population and set algorithm state (population and pareto front) at this backup """ if os.path.exists(self._filepath): logging.info('Load best solution from last checkpoint') with open(self._filepath) as f: # read data for each line for i, line in enumerate(f.readlines()): data = line.replace(';\n', '').split(';') nObjectives = len(self._algo._evaluator) scores = [float(s) for s in data[0:nObjectives]] # get best solution data information solutionData = list(map(int, data[-1].split(' '))) self._algo._pfPop[i]._data = solutionData self._algo._pfPop[i]._scores = scores macop_text(self._algo, f'Load of available pareto front backup from `{ self._filepath}`') else: macop_text(self._algo, 'No pareto front found... Start running algorithm with new pareto front population.') logging.info("No pareto front backup used...") macop_line(self._algo)