""" Program that optimizes Rastrigin function: f (x, y) = 20 + (x^2 - 10cos(2πx)) + (y^2 - 10 cos(2πy)). Using Evolutionary Strategy (μ, λ). """ import sys import numpy as np def rastrigin(x_argument, y_argument): """ Define the Rastrigin function """ return 20 + x_argument**2 - 10 * np.cos(2 * np.pi * x_argument) + \ y_argument**2 - 10 * np.cos(2 * np.pi * y_argument) def evolution_strategy( number_of_parents=5, size_of_population=20, mutation_strength=0.1, iterations=100, min_max=(-5.12, 5.12) ): """ Define the Evolutionary Strategy (μ, λ) algorithm """ # Initialize the population population = np.random.uniform( low=min_max[0], high=min_max[1], size=( size_of_population, 2)) # Iterate for a fixed number of iterations for i in range(iterations): # Evaluate the fitness of each individual fitness = np.array([rastrigin(x, y) for x, y in population]) # Select the top number_of_parents individuals parents = population[np.argsort(fitness)[:number_of_parents]] # Generate the next generation of lambda individuals by recombination children = np.concatenate([np.random.permutation( parents) for i in range(size_of_population // number_of_parents)]) # Add mutation to the children mutation = np.random.normal( loc=0, scale=mutation_strength, size=( size_of_population, 2)) population = children + mutation # Evaluate the fitness of the final population fitness = np.array([rastrigin(x, y) for x, y in population]) # Return the best individual found best_idx = np.argmin(fitness) return population[best_idx], fitness[best_idx] def print_help(): """ Print program functionality and how to access it """ print(""" python main.py - Default functionality optimizing Rastrigin function f (x, y) = 20 + (x^2 - 10cos(2πx)) + (y^2 - 10 cos(2πy)) using Evolutionary Strategy (μ, λ), using only default values Default values: number_of_parents=5, size_of_population=20, stadard_deviation=0.1, iterations=100, min_value=-5.12, max_value=5.12 python main.py -h --help print this prompt Any of the default values an be changed using arguments: -nop --number_of_parents [number] -sop --size_of_population [number] -ms --mutation_strength [number] -i --iterations [number] -min --min_value [number] -max --max_value [number] Those arguments can be given in any order and any argument which was not entered will be replaced with default value, exemplary use: python main.py -nop 5 -sop 20 -s 0.1 -i 100 -min -5.12 -max 5.12 """) def user_input(): """ Handle user terminal arguments""" arguments = { "number_of_parents": 5, "size_of_population": 20, "standard_deviation": 0.1, "iterations": 100, "min": -5.12, "max": 5.12} for argument in enumerate(sys.argv): if argument in ('-h', '--help'): print_help() sys.exit() if argument in ('-nop', '--number_of_parents'): arguments["number_of_parents"] = float(argument) if argument in ('-sop', '--size_of_population'): arguments["size_of_population"] = float(argument) if argument in ('-ms', '--mutation_strength'): arguments["standard_deviation"] = float(argument) if argument in ('-i', '--iterations'): arguments["iterations"] = float(argument) if argument in ('-min', '--min_value'): arguments["min"] = float(argument) if argument in ('-max', '--max_value'): arguments["max"] = float(argument) return arguments # Ran first in the code if __name__ == "__main__": # Run the Evolutionary Strategy algorithm ARGUMENTS = user_input() best_individual, best_fitness = evolution_strategy( ARGUMENTS["number_of_parents"], ARGUMENTS["size_of_population"], ARGUMENTS["mutation_strength"], ARGUMENTS["iterations"], (ARGUMENTS["min"], ARGUMENTS["max"])) print("Best individual found:", best_individual) print("Best fitness found:", best_fitness)