Ejemplo n.º 1
0
def test_creating_linked_list_from_iterable(helper):
    # Using from_iterable (small length)
    lst = helper.get_list()
    ll = LinkedList(lst)
    assert isinstance(ll._head, Node)
    assert ll._head.get_data() == lst[0]
    assert len(ll) == ll._length == len(lst)
    assert ll.to_list() == [item for item in ll] == lst
    # Using from_iterable (has None)
    with pytest.raises(ValueError):
        LinkedList([1, 2, None, 3])
    with pytest.raises(TypeError):
        LinkedList().add_end(LinkedList())
    # Using from_iterable (big length)
    lst = helper.get_list(length=10000)
    ll = LinkedList(lst)
    assert isinstance(ll._head, Node)
    assert ll._head.get_data() == lst[0]
    assert len(ll) == ll._length == len(lst)
    assert ll.to_list() == [item for item in ll] == lst
    for _ in range(100):  # check random indices
        idx = helper.get_pos_int(b=10000 - 1)
        assert ll[idx] == lst[idx]
    # iterable is Linked List
    lst = helper.get_list()
    tmp_ll = LinkedList(lst)
    ll = LinkedList(tmp_ll)
    assert ll == tmp_ll
    assert ll._head.get_data() == tmp_ll._head.get_data()
    assert len(ll) == ll._length == len(lst)
    assert ll.to_list() == [item for item in ll] == lst
Ejemplo n.º 2
0
def test_list_with_same_value(helper):
    length = helper.get_pos_int()
    val = helper.get_value()
    ll = LinkedList()
    # test add_end
    for _ in range(length):
        ll.add_end(val)
    # test add_front
    for _ in range(length):
        ll.add_front(val)
    # test __setitem__()
    ll[1] = val
    assert ll == ll.reverse()
    assert ll == ll.copy()
    assert not ll.is_empty()
    assert len(ll) == 2 * length
    assert ll.count(val) == 2 * length
    assert ll.to_list() == [val] * (2 * length)
    # test split
    left_list, right_list = ll.split(length)
    assert len(left_list) == len(right_list) == length
    # test clear
    left_list.clear()
    right_list.clear()
    assert len(left_list) == len(right_list) == 0
    # test remove
    for i in range(length):
        if i > length // 2:
            ll.remove_end()
        else:
            ll.remove_front()
    assert len(ll) == ll.count(val) == length
    ll.remove(val, all=True)
    assert ll.is_empty()
    assert len(ll) == 0
Ejemplo n.º 3
0
def test_creating_linked_list_from_constructor(helper):
    # Using constructor
    val = helper.get_value()
    ll = LinkedList()
    ll.add_front(val)
    assert isinstance(ll._head, Node)
    assert ll._head.get_data() == val
    assert ll._head.get_next() == ll._head._next is None
    assert len(ll) == ll._length == 1
    assert ll.to_list() == [item for item in ll] == [val]
    # Using Node
    val = helper.get_value()
    ll = LinkedList()
    ll.add_end(val)
    assert isinstance(ll._head, Node)
    ll._head.get_data() == val
    ll._head.get_next() == ll._head._next is None
    assert len(ll) == ll._length == 1
    assert ll.to_list() == [item for item in ll] == [val]
Ejemplo n.º 4
0
def test_extend_method(helper):
    lst = helper.get_list()
    # two linked lists are empty
    llist1 = LinkedList()
    llist1.extend(LinkedList())
    assert llist1 == LinkedList()
    # one linked list is empty
    llist1 = LinkedList([])
    llist2 = LinkedList(lst)
    llist1.extend(llist2)
    assert llist1 == llist2
    assert len(llist1) == len(lst)
    llist2.extend(llist1)
    assert len(llist2) == 2 * len(lst)
    # two linked lists are NOT empty
    llist1 = LinkedList(lst)
    llist2 = LinkedList(lst)
    llist2.extend(llist1)
    assert llist1.to_list() == lst
    assert llist2.to_list() == lst + lst
    assert len(llist2) == 2 * len(lst)
Ejemplo n.º 5
0
def test_rotate():
    # rotate when inplace = False
    ll = LinkedList([1, 2, 3, 4, 5, 6])
    rotated = ll.rotate_right(1, inplace=False)
    assert rotated.to_list() == [6, 1, 2, 3, 4, 5]
    assert isinstance(rotated._head, Node)
    assert rotated._head.get_data() == 6
    assert rotated[4] == 4
    rotated = ll.rotate_left(3, inplace=False)
    assert isinstance(rotated._head, Node)
    assert rotated.to_list() == [4, 5, 6, 1, 2, 3]
    assert rotated._head.get_data() == 4
    assert rotated[-1] == 3
    assert ll.to_list() == [1, 2, 3, 4, 5, 6]
    # rotate when inplace = True
    ll.rotate_right(1)
    assert ll.to_list() == [6, 1, 2, 3, 4, 5]
    assert isinstance(ll._head, Node)
    assert ll._head.get_data() == 6
    ll.rotate_left(3)
    assert ll.to_list() == [3, 4, 5, 6, 1, 2]
    assert ll._head.get_data() == 3
    assert isinstance(ll._head, Node)
Ejemplo n.º 6
0
def test_split_method(helper):
    lst = helper.get_list(length=100)
    ll = LinkedList(lst)
    for i in range(len(lst)):
        # test left list
        left_list, right_list = ll.split(i)
        assert isinstance(left_list, LinkedList)
        assert left_list.to_list() == lst[:i]
        assert left_list.copy().to_list() == lst[:i]
        assert left_list.reverse().to_list() == lst[:i][::-1]
        # test right list
        assert isinstance(right_list, LinkedList)
        assert right_list.to_list() == lst[i:]
        assert right_list.copy().to_list() == lst[i:]
        assert right_list.reverse().to_list() == lst[i:][::-1]
    ll.add_front(0)
    ll.add_end("apple")
    assert ll._length == len(ll) == len(lst) + 2
    assert ll.to_list() == [0] + lst + ["apple"]
Ejemplo n.º 7
0
def test_list_with_known_values():
    ll = LinkedList()
    ll.add_front(10)
    ll.add_front(5)
    assert ll.to_list() == [5, 10]
    ll.remove(20)
    ll.remove_front()
    assert ll == LinkedList([10])
    ll.remove_end()
    assert ll == LinkedList()
    ll.insert(0, 100)
    ll.insert(1, 200)
    ll.insert(1, 100)
    assert 100 in ll and 200 in ll
    assert ll == LinkedList([100, 100, 200])
    assert ll.copy().to_list() == [100, 100, 200]
    assert ll.reverse() == LinkedList([200, 100, 100])
    ll.remove(100)
    rev = ll.reverse()
    assert ll == rev == LinkedList([200])
    ll.clear()
    assert not rev.is_empty()
    assert ll.is_empty()
    # ========================================
    ll = LinkedList()
    ll.add_front(6)
    ll.add_end(20)
    ll.insert(1, 10)
    ll.insert(2, 77)
    ll.insert(4, 43)
    ll.insert(0, 2)
    assert 43 in ll
    assert ll[1:4].to_list() == [6, 10, 77]
    assert ll.copy().to_list() == [2, 6, 10, 77, 20, 43]
    del ll[len(ll) - 1]
    assert ll.reverse().to_list() == [20, 77, 10, 6, 2]
    assert ll._length == len(ll) == 5
    ll.clear()
    assert ll.is_empty()
Ejemplo n.º 8
0
def test_list_with_one_element(helper):
    val = helper.get_value()
    ll = LinkedList()
    ll.insert(0, val)
    assert isinstance(ll._head, Node)
    assert ll._head.get_data() == val
    assert ll._head.get_next() is None
    assert len(ll) == 1
    assert not ll.is_empty()
    assert val in ll
    assert [item for item in ll] == [val]
    assert ll.to_list() == [val]
    assert ll == ll.copy()
    assert ll == ll.reverse()
    # ==================== test rotate ====================
    assert ll == ll.rotate_left(helper.get_pos_int(), inplace=False)
    assert ll == ll.rotate_right(helper.get_pos_int(), inplace=False)
    # ==================== test operators ====================
    assert ll != LinkedList()
    assert ll > LinkedList()
    assert ll >= LinkedList()
    assert LinkedList() < ll
    assert LinkedList() <= ll
    # ==================== test add/remove ====================
    new_value = helper.get_value()
    ll.add_front(new_value)
    ll.remove_front()
    ll.add_end(new_value)
    ll.remove_end()
    assert ll == LinkedList([val])
    # ==================== test insert/split ====================
    with pytest.raises(IndexError):
        ll.insert(2, helper.get_value())
    with pytest.raises(IndexError):
        ll.insert(-1, helper.get_value())
    with pytest.raises(IndexError):
        ll.split(helper.get_pos_int(a=2))
Ejemplo n.º 9
0
def test_empty_linked_list(helper):
    EMPTY = "┌─\n│\n└─"  # represents empty LinkedList
    ll = LinkedList([])
    assert str(ll) == EMPTY
    assert ll._length == len(ll) == 0
    assert ll.is_empty()
    assert ll.to_list() == []
    assert [_ for _ in ll] == []
    assert len(ll.copy()) == 0
    assert len(ll.reverse()) == 0
    # =================== test operators ====================
    assert LinkedList() == LinkedList()
    assert ll == ll.copy()
    assert ll == ll.reverse()
    assert LinkedList() != LinkedList([helper.get_value()])
    assert LinkedList() < LinkedList([helper.get_value()])
    assert LinkedList() <= LinkedList([helper.get_value()])
    assert LinkedList([helper.get_value()]) > LinkedList()
    assert LinkedList([helper.get_value()]) >= LinkedList()
    # ==================== test count ====================
    assert ll.count(0) == 0
    assert ll.count(None) == 0
    assert ll.count(helper.get_value()) == 0
    assert ll.count(Node(helper.get_value())) == 0
    # ==================== test __contains__ ===================
    assert None not in ll
    assert Node(helper.get_value()) not in ll
    assert 0 not in ll
    assert helper.get_value() not in ll
    assert LinkedList() not in ll
    # ==================== test split ====================
    left_list, right_list = ll.split(0)
    assert str(left_list) == str(right_list) == EMPTY
    with pytest.raises(TypeError):
        ll.split(helper.get_string())
    with pytest.raises(TypeError):
        ll.split(helper.get_float())
    with pytest.raises(TypeError):
        ll.split(True)
    with pytest.raises(IndexError):
        ll.split(-1)
    with pytest.raises(IndexError):
        ll.split(helper.get_int())
    # ==================== test rotate ====================
    assert ll.rotate_left(helper.get_pos_int(), inplace=False) == ll
    assert ll.rotate_right(helper.get_pos_int(), inplace=False) == ll
    assert len(ll.rotate_left(helper.get_pos_int(), inplace=False)) == 0
    assert len(ll.rotate_right(helper.get_pos_int(), inplace=False)) == 0
    with pytest.raises(TypeError):
        ll.rotate_left(helper.get_string())
    with pytest.raises(TypeError):
        ll.rotate_right(helper.get_float())
    with pytest.raises(TypeError):
        ll.rotate_left([])
    with pytest.raises(ValueError):
        ll.rotate_left(helper.get_neg_int())
    with pytest.raises(ValueError):
        ll.rotate_right(helper.get_neg_int())
    # ==================== test remove/del ====================
    ll.remove_front()  # shouldn't raise any Error
    ll.remove_end()  # shouldn't raise any Error
    ll.remove(helper.get_value())
    ll.remove(helper.get_value(), False)
    with pytest.raises(TypeError):
        ll.remove(helper.get_value(), all=helper.get_string(1))
    with pytest.raises(IndexError):
        del ll[0]
    with pytest.raises(IndexError):
        del ll[helper.get_pos_int()]
    with pytest.raises(IndexError):
        del ll[helper.get_neg_int()]
    # ==================== test __getitem__ ====================
    with pytest.raises(IndexError):
        _ = ll[0]
    with pytest.raises(IndexError):
        _ = ll[helper.get_pos_int()]
    with pytest.raises(IndexError):
        _ = ll[helper.get_neg_int()]
    assert LinkedList() == ll[0:10]
    # ==================== test insert/set ====================
    with pytest.raises(IndexError):
        ll.insert(helper.get_pos_int(), helper.get_value())
    with pytest.raises(IndexError):
        ll.insert(helper.get_neg_int(), helper.get_value())
    with pytest.raises(IndexError):
        ll[0] = helper.get_float()
    with pytest.raises(IndexError):
        ll[helper.get_int()] = Node(helper.get_float())
    with pytest.raises(ValueError):
        ll.insert(0, None)