Exemple #1
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    def test_add_node(self):
        g = Genome(1, 1)

        # Test adding nodes
        msg = 'Node added incorrectly!'

        g.add_connection(0, 1)
        g.add_node(0)
        self.assertEqual(len(g.get_nodes()), 3, msg)
        self.assertEqual(len(g.get_connections()), 3, msg)
        self.assertFalse(g.get_connections()[0].expressed, msg)
        self.assertTrue(g.get_connections()[1].expressed, msg)
        self.assertTrue(g.get_connections()[2].expressed, msg)
        self.assertEqual(g.get_connections()[0].weight,
                         g.get_connections()[1].weight, msg)
        self.assertEqual(g.get_connections()[2].weight, 1.0, msg)
        self.assertEqual(g.get_nodes()[2].activation,
                         activations.modified_sigmoid, msg)

        g.add_node(1, activation=activations.absolute)
        self.assertEqual(len(g.get_nodes()), 4, msg)
        self.assertEqual(len(g.get_connections()), 5, msg)
        self.assertFalse(g.get_connections()[1].expressed, msg)
        self.assertTrue(g.get_connections()[3].expressed, msg)
        self.assertTrue(g.get_connections()[4].expressed, msg)
        self.assertEqual(g.get_connections()[1].weight,
                         g.get_connections()[3].weight, msg)
        self.assertEqual(g.get_connections()[4].weight, 1.0, msg)
        self.assertEqual(g.get_nodes()[3].activation, activations.absolute,
                         msg)
Exemple #2
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    def test_set_connections(self):
        g = Genome(2, 2)

        # Test to make sure connections are set correctly
        msg = 'Connections set incorrectly!'
        connections = [
            Connection(0, 0, 2),
            Connection(1, 0, 3),
            Connection(2, 1, 2),
            Connection(3, 1, 3)
        ]
        g.set_connections(connections)
        self.assertEqual(g.get_connections(), connections, msg)

        # Make sure weights were compiled correctly
        msg = 'Weights compiled incorrectly!'
        self.assertEqual(g.weights.shape[0],
                         len(g.get_nodes()) - g.shape[0],
                         msg=msg)
        self.assertEqual(g.weights.shape[1], len(g.get_nodes()), msg=msg)
        for i in range(len(g.weights)):
            for j in range(len(g.weights)):
                nid = g._Genome__order[i]
                conn = g.get_connection_from_nodes(j, nid)
                if conn is not None:
                    self.assertEqual(conn.weight, g.weights[i, j], msg)
                else:
                    self.assertEqual(g.weights[i, j], 0.0, msg)
Exemple #3
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    def test_mutate_add_node(self):
        g = Genome(1, 1)

        # Test to make sure you can't add a node without an existing connection
        msg = 'Node added without existing connection!'
        g.mutate_add_node()
        self.assertEqual(len(g.get_nodes()), 2, msg)

        # Test adding a node
        msg = 'Node added incorrectly!'
        g.mutate_add_connection()
        g.mutate_add_node()
        self.assertEqual(len(g.get_nodes()), 3, msg)
        self.assertEqual(g.get_nodes()[2].id, 2, msg)
        self.assertEqual(g.get_nodes()[2].type, 'hidden', msg)
        self.assertEqual(len(g.get_connections()), 3, msg)
        self.assertEqual(g.get_connections()[0].weight,
                         g.get_connections()[1].weight, msg)
        self.assertEqual(g.get_connections()[2].weight, 1.0, msg)

        # Test to make sure you can't add a node without any expressed connections
        msg = "Node added to disabled connection!"
        for c in g.get_connections():
            c.disable()
        g.mutate_add_node()
        self.assertEqual(len(g.get_nodes()), 3, msg)
Exemple #4
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    def test_copy(self):
        g = Genome(2, 2)

        # Test to make sure the copy is the same as the original
        msg = 'Copy is different from the original!'
        g.add_connection(0, 2)
        g.add_connection(0, 3)
        g.add_node(0)
        gc = g.copy()
        self.assertEqual(len(g.get_nodes()), len(gc.get_nodes()), msg)
        self.assertEqual(len(g.get_connections()), len(gc.get_connections()),
                         msg)
        for i in range(len(g.get_connections())):
            self.assertEqual(g.get_connections()[i].weight,
                             gc.get_connections()[i].weight, msg)

        # Test to make sure the copy doesn't change when the original does
        msg = 'Copy changes when original changes!'
        g.add_node(1)
        g.get_connections()[0].weight = 50
        self.assertNotEqual(len(g.get_nodes()), len(gc.get_nodes()), msg)
        self.assertNotEqual(len(g.get_connections()),
                            len(gc.get_connections()), msg)
        self.assertNotEqual(g.get_connections()[0].weight,
                            gc.get_connections()[0].weight, msg)
Exemple #5
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    def test_get_node_max_distance(self):
        g = Genome(2, 2)

        # Test to make sure empty genomes return the correct values for output nodes
        msg = 'Disconnected output node returned invalid value!'
        self.assertEqual(g.get_node_max_distance(g.get_node(2).id), -1, msg)
        self.assertEqual(g.get_node_max_distance(g.get_node(3).id), -1, msg)

        # Add nodes and connections
        g.add_connection(0, 2, weight=-0.7)
        g.add_connection(0, 3, weight=-0.1)
        g.add_connection(1, 2, weight=0.5)
        g.add_connection(1, 3, weight=0.9)
        g.add_node(0)
        g.add_node(2)
        g.add_connection(4, 5, 0.5)

        msg = 'Incorrect node max distance!'

        # Test the values of each node distance to make sure they are correct
        correct_distances = [0, 0, 3, 1, 1, 2]
        for node, distance in zip(g.get_nodes(), correct_distances):
            self.assertEqual(g.get_node_max_distance(node.id), distance, msg)

        # Add a node and test again
        g.add_node(8)
        correct_distances = [0, 0, 4, 1, 1, 3, 2]
        for node, distance in zip(g.get_nodes(), correct_distances):
            self.assertEqual(g.get_node_max_distance(node.id), distance, msg)

        # Add connection and test again
        g.add_connection(6, 3)
        correct_distances = [0, 0, 4, 3, 1, 3, 2]
        for node, distance in zip(g.get_nodes(), correct_distances):
            self.assertEqual(g.get_node_max_distance(node.id), distance, msg)

        # Test genome with connection loop
        msg = 'Genome failed to handle connection loop!'

        g2 = Genome(1, 1)
        g2.add_connection(0, 1)
        g2.add_node(0)
        g2.add_node(0)
        g2.add_node(1)
        g2.add_connection(3, 2)
        g2.add_connection(4, 3)
        correct_distances = [0, 4, 3, 3, 3]
        for node, distance in zip(g2.get_nodes(), correct_distances):
            self.assertEqual(g2.get_node_max_distance(node.id), distance, msg)
Exemple #6
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    def test_constructor(self):
        input_size = 2
        output_size = 2

        g = Genome(input_size, output_size)

        # Test if attributes are correct
        msg = 'Failed to assign genome attributes correctly!'
        self.assertEqual(len(g.get_nodes()), input_size + output_size, msg)
        self.assertEqual(len(g.get_connections()), 0)
        self.assertEqual(g.fitness, 0)
Exemple #7
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    def test_set_activation(self):
        g = Genome(3, 3)
        node_ids = range(len(g.get_nodes()))
        act = [activations.relu, activations.gaussian, activations.square]

        # Test to make sure the activation is set correctly
        msg = 'Activation set incorrectly!'
        for nid in node_ids:
            for a in act:
                g.set_activation(nid, a)
                self.assertEqual(g.get_node(nid).activation, a)
Exemple #8
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    def test_mutate_add_connection(self):
        # Test adding a connection
        msg = 'Connection added incorrectly!'
        g = Genome(2, 2)

        for i in range(30):
            g = Genome(2, 2)
            g.mutate_add_connection()
            self.assertEqual(len(g.get_connections()), 1, msg)
            self.assertEqual(g.get_connections()[0].innovation_number, 0, msg)
            self.assertTrue(
                g.get_connections()[0].in_node
                in [n.id for n in g.get_nodes()], msg)
            self.assertTrue(
                g.get_connections()[0].out_node
                in [n.id for n in g.get_nodes()], msg)
            self.assertTrue(-1.0 <= g.get_connections()[0].weight <= 1.0, msg)
            self.assertTrue(g.get_connections()[0].expressed, msg)
            self.assertNotEqual(g.get_connections()[0].in_node,
                                g.get_connections()[0].out_node)
            in_type = g.get_node(g.get_connections()[0].in_node).type
            out_type = g.get_node(g.get_connections()[0].out_node).type
            self.assertFalse(in_type == out_type != 'hidden')
            self.assertFalse((in_type == 'output' and out_type == 'input'))
            self.assertFalse((in_type == 'hidden' and out_type == 'input'))

        # Test to make sure connections are always added (unless at max)
        msg = 'Connection not added!'
        for i in range(2, 4):
            g.mutate_add_connection()
            self.assertEqual(len(g.get_connections()), i, msg)

        # Test to make sure it doesn't go above the maximum connections
        msg = 'Connections exceeded maximum amount!'
        g.mutate_add_connection()
        self.assertEqual(len(g.get_connections()), 4,
                         msg)  # Shouldn't go past 4
Exemple #9
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    def test_set_nodes(self):
        g = Genome(1, 1)

        # Test to make sure nodes are set correctly
        msg = 'Nodes set incorrectly!'
        nodes = [
            Node(0, 'input'),
            Node(1, 'input'),
            Node(2, 'output'),
            Node(3, 'output'),
            Node(4, 'hidden')
        ]
        g.set_nodes(nodes)
        self.assertEqual(g.get_nodes(), nodes, msg)

        # Make sure weights were compiled correctly
        msg = 'Weights compiled incorrectly!'
        self.assertEqual(g.weights.shape[0], len(nodes) - g.shape[0], msg=msg)
        self.assertEqual(g.weights.shape[1], len(nodes), msg=msg)
Exemple #10
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    def test_forward(self):
        error_margin = 0.000000000001

        g = Genome(2, 2)
        x = np.array([0.5, 0.5])

        msg = 'Invalid genome output!'

        # No connections
        y = g(x)
        self.assertEqual(y[0], 0.0, msg=msg)
        self.assertEqual(y[1], 0.0, msg=msg)

        # No hidden nodes, modified sigmoid activation
        g.add_connection(0, 2, weight=-0.7)
        g.add_connection(0, 3, weight=-0.1)
        g.add_connection(1, 2, weight=0.5)
        g.add_connection(1, 3, weight=0.9)
        y = g(x)
        self.assertAlmostEqual(y[0],
                               0.3798935676569099,
                               msg=msg,
                               delta=error_margin)
        self.assertAlmostEqual(y[1],
                               0.8765329524347759,
                               msg=msg,
                               delta=error_margin)

        # Different activation
        for n in g.get_nodes():
            if n.type != 'input':
                g.set_activation(n.id, activations.absolute)
        y = g(x)
        self.assertAlmostEqual(y[0], 0.1, msg=msg, delta=error_margin)
        self.assertAlmostEqual(y[1], 0.4, msg=msg, delta=error_margin)

        # With hidden nodes and different activations (sigmoid for the new ones)
        g.add_node(0, activation=activations.sigmoid)
        g.add_node(2, activation=activations.sigmoid)
        g.add_connection(4, 5, 0.5)
        y = g(x)
        self.assertAlmostEqual(y[0],
                               0.08953579350695234,
                               msg=msg,
                               delta=error_margin)
        self.assertAlmostEqual(y[1], 0.4, msg=msg, delta=error_margin)

        # Test with many hidden nodes in a line
        g2 = Genome(2, 2)
        g2.add_connection(0, 2, -0.3)
        g2.add_node(0)
        g2.add_node(2)
        g2.add_node(4)
        g2.add_node(6)
        g2.add_connection(1, 7, 0.7)
        g2.add_connection(4, 3, -0.2)
        y = g2(x)
        self.assertAlmostEqual(y[0],
                               0.18866305913528142,
                               msg=msg,
                               delta=error_margin)
        self.assertAlmostEqual(y[1],
                               0.2743863603871294,
                               msg=msg,
                               delta=error_margin)

        # Test with recursive loop
        g3 = Genome(1, 1)
        x = np.array([0.5])
        g3.add_connection(0, 1, 0.5)
        g3.add_node(0)
        g3.add_node(0)
        g3.add_node(1)
        g3.add_connection(3, 2, 0.5)
        g3.add_connection(4, 3, 0.5)
        y = g3(x)
        self.assertAlmostEqual(y[0],
                               0.9907948306148218,
                               msg=msg,
                               delta=error_margin)
Exemple #11
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    def test_cross(self):
        e = Ecosystem()

        # Create genomes
        g = Genome(2, 2, ecosystem=e)
        g2 = Genome(2, 2, ecosystem=e)

        # Cross the genomes
        child = e.cross(g, g2)

        # Test child connections
        msg = 'Child connection doesn\'t exist within either parent!'
        for c in child.get_connections():
            self.assertTrue(
                g.get_connection(c.innovation_number) is not None
                or g2.get_connection(c.innovation_number) is not None, msg)

        # Test to make sure the child has the same amount of connections as the fitter parent
        msg = 'Child missing fitter parent connection(s)!'
        self.assertEqual(len(child.get_connections()),
                         len(g.get_connections()), msg)

        # Test child nodes
        msg = 'Child node doesn\'t exist within either parent!'
        for n in child.get_nodes():
            self.assertTrue(
                g.get_node(n.id) is not None or g2.get_node(n.id) is not None,
                msg)

        # Test to make sure the child has the same amount of nodes as the fitter parent
        msg = 'Child is missing fitter parent node(s)!'
        self.assertEqual(len(child.get_nodes()), len(g.get_nodes()), msg)

        # Test preference for fit parents
        msg = 'Child connection preferred less fit parent!'
        for c in child.get_connections():
            in_both = g.get_connection(
                c.innovation_number) is not None and g2.get_connection(
                    c.innovation_number) is not None
            in_fit_parent = g.get_connection(
                c.innovation_number) is not None and g2.get_connection(
                    c.innovation_number) is None
            self.assertTrue(in_both or in_fit_parent, msg)

        # Add connections and nodes
        g.add_connection(0, 2)
        g.add_connection(0, 3)
        g.add_connection(1, 2)
        g.add_connection(1, 3)
        g.add_node(0)
        g.get_connections()[5].weight = 0.4

        g2.add_connection(0, 2)
        g2.add_connection(0, 3)
        g2.add_connection(1, 2)
        g2.add_connection(1, 3)
        g2.add_node(1)

        g.add_node(2)

        # Assign fitness to genomes
        g.fitness = 10
        g2.fitness = 5

        # Cross the genomes
        child = e.cross(g, g2)

        # Test child connections
        msg = 'Child connection doesn\'t exist within either parent!'
        for c in child.get_connections():
            self.assertTrue(
                g.get_connection(c.innovation_number) is not None
                or g2.get_connection(c.innovation_number) is not None, msg)

        # Test to make sure the child has the same amount of connections as the fitter parent
        msg = 'Child missing fitter parent connection(s)!'
        self.assertEqual(len(child.get_connections()),
                         len(g.get_connections()), msg)

        # Test child nodes
        msg = 'Child node doesn\'t exist within either parent!'
        for n in child.get_nodes():
            self.assertTrue(
                g.get_node(n.id) is not None or g2.get_node(n.id) is not None,
                msg)

        # Test to make sure the child has the same amount of nodes as the fitter parent
        msg = 'Child is missing fitter parent node(s)!'
        self.assertEqual(len(child.get_nodes()), len(g.get_nodes()), msg)

        # Test preference for fit parents
        msg = 'Child connection preferred less fit parent!'
        for c in child.get_connections():
            in_both = g.get_connection(
                c.innovation_number) is not None and g2.get_connection(
                    c.innovation_number) is not None
            in_fit_parent = g.get_connection(
                c.innovation_number) is not None and g2.get_connection(
                    c.innovation_number) is None
            self.assertTrue(in_both or in_fit_parent, msg)

        # Swap the fitness and test again
        g.fitness = 5
        g2.fitness = 10

        # Cross the genomes
        child = e.cross(g, g2)

        # Test child connections
        msg = 'Child connection doesn\'t exist within either parent!'
        for c in child.get_connections():
            self.assertTrue(
                g.get_connection(c.innovation_number) is not None
                or g2.get_connection(c.innovation_number) is not None, msg)

        # Test to make sure the child has the same amount of connections as the fitter parent
        msg = 'Child missing fitter parent connection(s)!'
        self.assertEqual(len(child.get_connections()),
                         len(g2.get_connections()), msg)

        # Test child nodes
        msg = 'Child node doesn\'t exist within either parent!'
        for n in child.get_nodes():
            self.assertTrue(
                g.get_node(n.id) is not None or g2.get_node(n.id) is not None,
                msg)

        # Test to make sure the child has the same amount of nodes as the fitter parent
        msg = 'Child is missing fitter parent node(s)!'
        self.assertEqual(len(child.get_nodes()), len(g2.get_nodes()), msg)

        # Test preference for fit parents
        msg = 'Child connection preferred less fit parent!'
        for c in child.get_connections():
            in_both = g.get_connection(
                c.innovation_number) is not None and g2.get_connection(
                    c.innovation_number) is not None
            in_fit_parent = g.get_connection(
                c.innovation_number) is None and g2.get_connection(
                    c.innovation_number) is not None
            self.assertTrue(in_both or in_fit_parent, msg)