def test_adding_node(self): """ Tests adding node operation. """ # Setup genome = Genome() genome.initialize(3, 1) genome_connections = genome.get_connections() # List of enabled (respectively, disabled) connections only. init_true_connections = list( filter(lambda a: a.is_enabled() == True, genome_connections)) init_false_connections = list( filter(lambda a: a.is_enabled() == False, genome_connections)) init_connections_length = len(genome_connections) # Run genome.add_node() # Assert self.assertTrue( len( list( filter(lambda x: x.is_enabled() == True, genome.get_connections()))), len(init_true_connections) + 1) self.assertTrue( len( list( filter(lambda x: x.is_enabled() == False, genome.get_connections()))), len(init_false_connections) + 1) self.assertEqual(len(genome.get_connections()), init_connections_length + 2)
def test_setting_layers(self): """ Tests correctness of layer formation operation. """ # Setup genome = Genome() genome.initialize(2, 1) inputs = [1, 2] outputs = [6] connections = [ Connection(1, 5), Connection(2, 5), Connection(4, 6), Connection(3, 6), Connection(5, 4), Connection(5, 3) ] genome.input_nodes = inputs genome.output_nodes = outputs genome.connection_genes = connections # Run graph = Graph() layers = graph.set_up_layers(genome.get_inputs(), genome.get_outputs(), genome.get_connections()) # Assert self.assertEqual(layers[0], {5}) # first non-input layer self.assertEqual(layers[1], {3, 4}) # second non-input layer self.assertEqual(layers[2], {6}) # output layer
def test_crossover(self): """ Tests crossover operation. Can only be verified manually. """ # Setup genome1 = Genome() genome1.initialize(3, 1) genome2 = Genome() genome2.initialize(3, 1) connections = [ Connection(1, 5), Connection(2, 5), Connection(3, 5), Connection(5, 4), Connection(2, 4), Connection(3, 4) ] connections[0].weight = 2 connections[1].weight = 3 connections[2].weight = 4 connections[3].weight = 5 connections[4].weight = 6 connections[5].weight = 7 genome2.connection_genes = connections genome1.add_score(25) genome2.add_score(25) # Run offspring = crossover(genome1, genome2) # Verify genome1_connections = genome1.get_connections() genome2_connections = genome2.get_connections() offspring_connections = offspring.get_connections() self.assertTrue(len(genome1_connections) + len(genome2_connections) >= len(offspring_connections))
def test_mutating_weight(self): """ Tests connection weight mutation operation. """ # Setup genome = Genome() genome.initialize(3, 2) genome_connections = deepcopy(genome.get_connections()) # Run genome.mutate_connection_weights() # Verify self.assertEqual(len(genome_connections), len(genome.get_connections())) ok = False for i, conn in enumerate(genome.get_connections()): if (abs(genome_connections[i].get_weight() - conn.get_weight()) >= 0.000001): ok = True break self.assertTrue(ok)
def test_adding_connection(self): """ Tests new connection addition operation. """ # Setup genome = Genome() genome.initialize(3, 2) connections_new = [(1, 4), (1, 5), (2, 4), (3, 4)] genome.connection_genes = [ Connection(a, b) for a, b in connections_new ] # Run connection = genome.add_connection() # Verify genome_connections = genome.get_connections() self.assertEqual(len(genome_connections), len(connections_new) + 1) self.assertTrue( all([isinstance(c, Connection) for c in genome_connections]))