errors = [] for x in range(10): # Create the push interpreter and run program interpreter = PushInterpreter() y_hat = interpreter.run(program, inputs=[x], output_types=['_integer'])[0] # Get output if y_hat is not None: # compare to target output target_int = target_function(x) # calculate error errors.append((y_hat - target_int)**2) else: errors.append(1e5) return errors # Genetic operators mut = UniformMutation() alt = Alternation() ops = [(Alternation(), 0.6), (UniformMutation(), 0.2), (VariationOperatorPipeline((alt, mut)), 0.2)] if __name__ == "__main__": evo = SimplePushGPEvolver(n_jobs=-1, verbose=1, operators=ops, selection_method='epsilon_lexicase', atom_generators=list(all_instructions)) evo.fit(error_func, 1, ['_integer'])
else: errors.append(int(result != case[1])) return errors atom_generators = list(merge_sets( get_instructions_by_pysh_type("_integer"), get_instructions_by_pysh_type("_boolean"), get_instructions_by_pysh_type("_print"), get_instructions_by_pysh_type("_exec"), [lambda: random.randint(-100, 100)] )) alternation = Alternation(rate=0.01, alignment_deviation=5) mutation = UniformMutation(rate=0.01) genetic_operators = [ (alternation, 0.2), (mutation, 0.2), (PerturbCloseMutation(rate=0.1), 0.1), (VariationOperatorPipeline((alternation, mutation)), 0.5) ] if __name__ == "__main__": evo = SimplePushGPEvolver(n_jobs=-1, verbose=2, atom_generators=atom_generators, initial_max_genome_size=400, operators=genetic_operators, population_size=1000, max_generations=200,
e = 0 if output[0] is None: e += 1000 elif output[0] != targets[0]: e += 1 if output[1] is None: e += 1000 elif output[1] != targets[1]: e += 1 errors.append(e) return errors atom_generators = list(merge_sets(get_instructions_by_pysh_type('_boolean'), get_instructions_by_pysh_type('_exec'))) mut = UniformMutation(rate=0.1) alt = Alternation(rate=0.1, alignment_deviation=10) ops = [(alt, 0.2), (mut, 0.3), (VariationOperatorPipeline((mut, alt)), 0.5)] if __name__ == "__main__": evo = SimplePushGPEvolver(n_jobs=-1, verbose=1, operators=ops, atom_generators=atom_generators, initial_max_genome_size=300, population_size=500, max_generations=300, simplification_steps=5000) evo.fit(error_function, 3, ['_boolean', '_boolean'])