#!/usr/bin/env python import numpy as np import time, random class GeneticALG(): def __init__(self, chromosome_size, genetic_base, population_size, fitness_test, crossover=0.7, mutation=0.001, elite_pool=0.10): self.chromosome_size = chromosome_size self.genetic_base = genetic_base self.crossover = crossover self.mutation = mutation self.elite_pool = elite_pool self.population_size = population_size self.fitness_test = fitness_test self.population = list() self.generation = 0 np.random.seed([int(time.time() * 1e9) % 4294967296]) random.seed(time.time()) for i in xrange(population_size): self.population.append([ np.random.choice([x for x in xrange(genetic_base)], size=(chromosome_size,)), 0 ]) def test_fitness(self): # test fitness for c in self.population: c[1] = self.fitness_test(c[0]) def breed(self): # choose two mates op = sorted(self.population, key=lambda x: x[1], reverse=True) for i in xrange(int(self.population_size * self.crossover)): male = random.randint(0, self.population_size - 1) female = random.choice(op[:int(self.population_size * self.elite_pool)]) splice = random.randint(0, self.chromosome_size - 1) for p in xrange(self.chromosome_size - splice): index = p + splice self.population[male][0][index] = female[0][index] # mutate for i in xrange(int(self.population_size * self.mutation)): cancer = random.randint(0, self.chromosome_size - 1) victim = random.randint(0, self.population_size - 1) self.population[victim][0][cancer] = random.randint(0, self.genetic_base) # test fitness self.test_fitness() self.generation += 1 if __name__ == "__main__": from numpy import array_equal def fitness(x): r = 0 if x[0] == 3: r += 1 if x[1] == 2: r += 1 if x[2] == 1: r += 1 if x[3] == 1: r += 1 if x[4] == 2: r += 1 if x[5] == 3: r += 1 if x[6] == 4: r += 1 if x[7] == 5: r += 1 if x[8] == 6: r += 1 if x[9] == 7: r += 1 if np.array_equal(x, np.array([3,2,1,1,2,3,4,5,6,7,8,9])): print "[!] YAY, only %i generations" % species.generation exit(0) return r species = GeneticALG(12, 10, 5000, fitness, elite_pool=0.60) print "[*] Starting population generated:" print "[*] Running until solution is found" while True: species.breed()

## Sunday, April 30, 2017

### Genetic algorithms

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