Exemple #1
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 def test_equality(self):
     a = GNode("a")
     b = GNode("b", a)
     self.assertEqual(a, a)
     self.assertEqual(b, b)
     self.assertNotEqual(a, b)
     pass
Exemple #2
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    def test_add_remove_parent(self):
        add_method = lambda n, c: n.add_parent_s(c)
        remove_method_by_name = lambda n, c: n.remove_parent_s_by_name(c)
        remove_method = lambda n, c: n.remove_parent_s(c)
        get_method = lambda n: n.parent_s
        get_inverse_method = lambda n: n.child_s
        constructor_method = lambda x: GNode(x)
        node = GNode("node")

        self.add_remove_item_test(node, add_method, remove_method_by_name,
                                  get_method, get_inverse_method,
                                  constructor_method, True)
        self.add_remove_item_test(node, add_method, remove_method, get_method,
                                  get_inverse_method, constructor_method,
                                  False)
Exemple #3
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 def test_node_to_strings(self):
     start = Start()
     a = GNode("a")
     c = End()
     d = Key("key")
     e = Lock("e")
     start.add_child_s(a)
     start.add_child_s(d)
     d.add_lock_s(e)
     self.assertTrue(
         self.is_list_permutation_in_string(
             str(start), "Start(\'Start\', children={})", ["a", "key"]))
     c.add_parent_s([e, d])
     self.assertTrue(
         self.is_list_permutation_in_string(str(c),
                                            "End(\'End\', parents={})",
                                            ["e", "key"]))
     self.assertTrue(
         self.is_list_permutation_in_string(
             str(d),
             "Key(\'key\', parents=[\'Start\'], children={}, locks=[\'e\'])",
             ["e", "End"]))
     self.assertEqual(
         str(e),
         "Lock(\'e\', parents=[\'key\'], children=[\'End\'], keys=[\'key\'])"
     )
     self.assertEqual(str(a),
                      "GNode(\'a\', parents=[\'Start\'], children=[])")
Exemple #4
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    def test_node_create_params(self):
        n0 = GNode("n0")
        n2 = GNode("n2")
        n1 = GNode("n1", n0, n2)
        n3 = GNode("n3", [n0], [n2])
        start = Start(n0)
        end = End(n2)
        key1 = Key("key1", n0)
        lock1 = Lock("lock1", n2, end, key1)
        lock2 = Lock("lock1", n2, end)
        key2 = Key("key1", n0, lock2)

        self.assertEqual(start.parent_s, set())
        self.assertEqual(start.child_s, {n0})
        self.assertEqual(n0.parent_s, {start})
        self.assertEqual(n0.child_s, {n1, n3, key1, key2})
        self.assertEqual(n1.parent_s, {n0})
        self.assertEqual(n1.child_s, {n2})
        self.assertEqual(n2.parent_s, {n1, n3})
        self.assertEqual(n2.child_s, {end, lock1, lock2})
        self.assertEqual(n3.parent_s, {n0})
        self.assertEqual(n3.child_s, {n2})
        self.assertEqual(key1.parent_s, {n0})
        self.assertEqual(key1.child_s, {lock1})
        self.assertEqual(key1.lock_s, {lock1})
        self.assertEqual(lock1.parent_s, {n2, key1})
        self.assertEqual(lock1.child_s, {end})
        self.assertEqual(lock1.key_s, {key1})
        self.assertEqual(key2.parent_s, {n0})
        self.assertEqual(key2.child_s, {lock2})
        self.assertEqual(key2.lock_s, {lock2})
        self.assertEqual(lock2.parent_s, {n2, key2})
        self.assertEqual(lock2.child_s, {end})
        self.assertEqual(lock2.key_s, {key2})
        self.assertEqual(end.parent_s, {n2, lock1, lock2})
        self.assertEqual(end.child_s, set())
Exemple #5
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    def test_layout(self):
        n = [GNode("n{}".format(i)) for i in range(13)]
        connections = {
            0: [1, 2],
            1: [3, 4],
            2: [5, 6],
            3: [7, 8],
            4: [9],
            5: [9, 10],
            6: [11, 12]
        }
        for parent, children in connections.items():
            n[parent].add_child_s([n[child] for child in children])

        layout = GraphVisualizer.get_node_layout(n[0])
        self.assert_no_overlapping_layout(layout)
Exemple #6
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    def test_remove_by_name(self):
        n1 = GNode("1")
        n2 = GNode("2")
        n3 = GNode("3")
        n4 = GNode("4")
        n5 = GNode("5")

        n0 = GNode("0")
        n0.child_s = {n1, n2, n3, n4, n5}
        n1.parent_s.add(n0)
        n2.parent_s.add(n0)
        n2.parent_s.add(n0)
        n3.parent_s.add(n0)
        n4.parent_s.add(n0)
        n5.parent_s.add(n0)
        Node._remove_by_name(n0, n2.name, lambda x: x.child_s,
                             lambda x: x.parent_s)
        self.assertEqual(n0.child_s, {n1, n3, n4, n5})
        self.assertEqual(n1.parent_s, {n0})
        self.assertEqual(n2.parent_s, set())
        self.assertEqual(n3.parent_s, {n0})
        self.assertEqual(n4.parent_s, {n0})
        self.assertEqual(n5.parent_s, {n0})
Exemple #7
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 def test_add(self):
     n0 = GNode("0")
     n1 = GNode("1")
     n2 = GNode("2")
     n3 = GNode("3")
     n4 = GNode("4")
     n5 = GNode("5")
     Node._add(n0, [n1], lambda x: x.child_s, lambda x: x.parent_s)
     self.assertEqual(n0.child_s, {n1})
     self.assertEqual(n1.parent_s, {n0})
     Node._add(n0, [n2, n3, n4, n5], lambda x: x.child_s,
               lambda x: x.parent_s)
     self.assertEqual(n0.child_s, {n1, n2, n3, n4, n5})
     self.assertEqual(n1.parent_s, {n0})
     self.assertEqual(n2.parent_s, {n0})
     self.assertEqual(n3.parent_s, {n0})
     self.assertEqual(n4.parent_s, {n0})
     self.assertEqual(n5.parent_s, {n0})
    def generate_mission_graph():
        a = Start()
        b = GNode([], [], "b")
        c = Key(name="c")
        d = GNode([], [], "d")
        e = End()
        f = Lock(name="f")
        g = GNode([], [], "g")

        a.add_child_s(b)
        a.add_child_s(c)
        a.add_child_s(d)
        b.add_child_s(e)
        c.add_child_s(f)
        c.add_child_s(g)
        f.add_key_s(c)
        c.add_lock_s(f)

        return a, {a, b, c, d, e, f, g}
    def get_graph_b():
        n1 = GNode("a")
        n2 = GNode("b")
        n3 = GNode("c")
        n4 = GNode("d")
        n5 = GNode("e")
        n6 = GNode("f")
        n7 = GNode("g")
        n8 = GNode("h")
        n9 = GNode("i")
        n10 = GNode("j")

        n1.add_child_s([n2, n3])
        n2.add_child_s(n4)
        n3.add_child_s([n4, n5])
        n5.add_child_s(n6)
        n6.add_child_s(n7)
        n7.add_child_s([n8, n9])
        n8.add_child_s(n10)
        n9.add_child_s(n10)

        return n1, {n1, n2, n3, n4, n5, n6, n7, n8, n9, n10}
Exemple #10
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    def get_graph_a():
        n1 = GNode("a")
        n2 = GNode("b")
        n3 = GNode("c")
        n4 = GNode("d")
        n5 = GNode("e")

        n1.add_child_s([n3, n4, n5])
        n2.add_child_s([n3, n4, n5])
        n3.add_child_s([n1, n2, n4, n5])
        n4.add_child_s([n1, n2, n3, n5])
        n5.add_child_s([n1, n2, n3, n4])

        return n1, {n1, n2, n3, n4, n5}
Exemple #11
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    def get_triangle_graph():
        a = GNode("a")
        b = GNode("b")
        c = GNode("c")
        d = GNode("d")
        a.add_child_s(b)
        b.add_child_s(c)
        c.add_child_s(a)
        a.add_child_s(d)
        b.add_child_s(d)
        c.add_child_s(d)

        return a, {a, b, c, d}
Exemple #12
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    def get_house_graph():
        a = GNode("a")
        b = GNode("b")
        c = GNode("c")
        d = GNode("d")
        e = GNode("e")
        a.add_child_s(b)
        b.add_child_s(c)
        c.add_child_s(d)
        d.add_child_s(a)
        c.add_child_s(e)
        e.add_child_s(a)
        e.add_child_s(d)

        return a, {a, b, c, d, e}
Exemple #13
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    def get_man_graph():
        a = Start()
        b = GNode("b")
        c = GNode("c")
        d = GNode("d")
        e = GNode("e")
        f = End()
        g = GNode("g")
        h = GNode("h")
        i = GNode("i")

        a.add_child_s([b, c, d])
        b.add_child_s(e)
        c.add_child_s([f, g, h, i])
        h.add_child_s(i)

        return a, {a, b, c, d, e, f, g, h, i}
Exemple #14
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    def test_mutable_default_argument_bug(self):
        gnode1 = GNode("")
        gnode2 = GNode("")
        bad_node0 = GNode("BadNode0")
        gnode1.add_child_s(bad_node0)
        self.assertEqual(len(gnode2.child_s), 0)

        start1 = Start()
        start2 = Start()
        bad_node1 = GNode("BadNode1")
        start1.add_child_s(bad_node1)
        self.assertEqual(len(start2.child_s), 0)

        end1 = End()
        end2 = End()
        bad_node2 = GNode("BadNode2")
        end1.add_parent_s(bad_node2)
        self.assertEqual(len(end2.parent_s), 0)

        key1 = Key()
        key2 = Key()
        bad_node3 = GNode("BadNode3")
        key1.add_child_s(bad_node3)
        bad_node4 = GNode("BadNode4")
        key1.add_parent_s(bad_node4)
        self.assertEqual(len(key2.child_s), 0)
        self.assertEqual(len(key2.parent_s), 0)

        lock1 = Lock()
        lock2 = Lock()
        bad_node5 = GNode("BadNode5")
        lock1.add_child_s(bad_node5)
        bad_node6 = GNode("BadNode6")
        lock1.add_parent_s(bad_node6)
        self.assertEqual(len(lock2.child_s), 0)
        self.assertEqual(len(lock2.parent_s), 0)
Exemple #15
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    def test_find_all_nodes_topological_sort(self):
        top_sort = "topological-sort"

        n0 = GNode("0")
        n1 = GNode("1")
        n2 = GNode("2")
        n3 = GNode("3")
        n4 = GNode("4")
        n5 = GNode("5")
        n5.add_child_s([n0, n2, n4])
        n2.add_child_s(n3)
        n3.add_child_s(n1)
        n4.add_child_s([n0, n1])
        nodes = Node.find_all_nodes(n5, method=top_sort)
        self.assertTrue(
            self.assert_ordered(nodes, [(n5, [n4, n3, n2, n1, n0]),
                                        (n4, [n0, n1]), (n2, [n3, n1]),
                                        (n3, [n1]), (n0, []), (n1, [])]))

        n0 = GNode("0")
        n1 = GNode("1")
        n2 = GNode("2")
        n3 = GNode("3")
        n4 = GNode("4")
        n5 = GNode("5")
        n0.add_child_s([n1, n2, n3])
        n1.add_child_s(n4)
        n2.add_child_s(n5)
        n3.add_child_s(n1)
        n4.add_child_s(n2)
        nodes = Node.find_all_nodes(n0, method=top_sort)
        self.assertTrue(
            self.assert_ordered(nodes, [(n0, [n1, n2, n3, n4, n5]),
                                        (n1, [n4, n2, n5]), (n2, [n5]),
                                        (n3, [n1, n4, n2, n5]), (n4, [n2, n5]),
                                        (n5, [])]))