Пример #1
0
class Test3PostOrder(unittest.TestCase):

    def setUp(self):
        self.tree = AccountTree()

    def test1__visit_postorder_is_a_generator(self):
        """_visit_postorder is a generator function. (2p)"""
        self.assertTrue(inspect.isgeneratorfunction(self.tree._visit_postorder))

    def test2_report_str_shows_accounts_in_order(self):
        """Calling report_str for a tree with the accounts as in the course material picture returns the a table with the accounts in postorder. (2p)"""
        self.tree.root = get_test_tree_root()
        table = self.tree.report_str()
        all_account_keys = ' '.join(line[0] for line in map(str.split, table.splitlines()[2:]))
        correct_order = ' '.join((
            "1110", "1120", "1100", "1211", "1212", "1213", "1210", "1220", "1200", "1000",
            "2110", "2120", "2100", "2210", "2220", "2230", "2200", "2000", "0000"
        ))
        if all_account_keys != correct_order:
            self.fail(
                "A postorder traversal of the tree seen in the course material should result in a table where the keys are in postorder.\n\n" +
                "The correct order is\n{}".format(correct_order) + '\n'
                "not\n{}".format(all_account_keys) + '\n\n'
                "Calling report_str returned the table:\n{}".format(table)
        )
Пример #2
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def postorder_not_implemented():
    try:
        next(AccountTree()._visit_postorder('not None'))
    except NotImplementedError:
        return True
    except:
        pass
    return False
Пример #3
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class Test2PreOrder(unittest.TestCase):

    def setUp(self):
        self.tree = AccountTree()

    def test1__visit_preorder_is_a_generator(self):
        """_visit_preorder is a generator function. (2p)"""
        self.assertTrue(inspect.isgeneratorfunction(self.tree._visit_preorder))

    def test2_view_str_shows_accounts_in_order(self):
        """Calling view_str for a tree with the accounts as in the course material picture returns the a table with the accounts sorted into ascending order. (2p)"""
        self.tree.root = get_test_tree_root()
        table = self.tree.view_str()
        all_account_keys = [line[0] for line in map(str.split, table.splitlines()[2:])]
        correct_order = sorted(all_account_keys)
        if all_account_keys != correct_order:
            self.fail(
                "A preorder traversal of the tree seen in the course material should result in a table where the keys are in sorted ascending order.\n\n" +
                "The correct order is\n{}".format(' '.join(correct_order)) + '\n'
                "not\n{}".format(' '.join(all_account_keys)) + '\n\n'
                "Calling view_str returned the table:\n{}".format(table)
        )
Пример #4
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 def setUp(self):
     self.tree = AccountTree()
Пример #5
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class Test1AccountTree(unittest.TestCase):

    def setUp(self):
        self.tree = AccountTree()

    def test1_find_none(self):
        """Searching in an empty tree returns None. (1p)"""
        for key in range(10):
            self.assertIsNone(self.tree.find(key))

    def test2_find_one(self):
        """Searching for an existing node returns the node. (1p)"""
        self.tree.root = AccountNode(1, 1.0)
        self.assertIs(
            self.tree.find(1),
            self.tree.root,
            "Calling find with a key that exists in the tree should return the node with that key."
        )

    def test3_find_two(self):
        """Searching for an existing node in a tree with two nodes returns the node which is being searched for. (1p)"""
        self.tree.root = AccountNode(1, 1.0)
        self.tree.root.left_child = AccountNode(2, 1.0)
        self.assertIs(
            self.tree.find(1),
            self.tree.root,
            "Calling find with a key {} that exists in the tree should return the node with that key."
            .format(1)
        )
        self.assertIs(
            self.tree.find(2),
            self.tree.root.left_child,
            "Calling find with a key {} that exists in the tree should return the node with that key."
            .format(2)
        )

    def test4_find_three(self):
        """Searching for an existing node in a tree with four nodes returns the node which is being searched for. (1p)"""
        nodes = [AccountNode(i, 1.0) for i in range(1, 5)]
        self.tree.root = nodes[0]
        nodes[0].left_child = nodes[1]
        nodes[1].right_sibling = nodes[2]
        nodes[2].left_child = nodes[3]
        for k in range(1, 5):
            self.assertIs(
                self.tree.find(k),
                nodes[k-1],
                "Calling find with a key {} that exists in the tree should return the node with that key."
                .format(k)
            )

    def test5_insert_root(self):
        """Inserting a new key and value into an empty tree sets a new node as the root. (1p)"""
        A = self.tree.insert(1, 1.0)
        self.assertIs(
            self.tree.root,
            A,
            "Inserting a node into an empty tree should set it as the root."
        )

    def test6_insert_root_left_child(self):
        """Inserting a new key and value into a tree with one root sets a new node as the child of the root. (1p)"""
        self.tree.insert(1, 1.0)
        B = self.tree.insert(2, 1.0, 1)
        self.assertIs(
            self.tree.root.left_child,
            B,
            "Inserting a node specifying its parent to be the root should set the node as the new left child of the root."
        )

    def test7_insert_root_left_child_right_sibling(self):
        """Inserting a new key and value into a tree with two nodes sets a new node as the right sibling of the left child of the root. (1p)"""
        self.tree.insert(1, 1.0)
        self.tree.insert(2, 1.0, 1)
        C = self.tree.insert(3, 1.0, 1, 2)
        self.assertIs(
            self.tree.root.left_child.right_sibling,
            C,
            "Inserting a node specifying its parent to be the root and the left sibling to be the left child of the root should set the node as the new right sibling of the left child of the root."
        )