def test_tree_delitem():
original_tpl = ("a", [
(2, [
(3, [("a", [
(2, [
(3, []),
]),
])]),
]),
])
mutated_tpl = ("a", [
(2, [
(3, [("a", [])]),
]),
])
tree = Tree.from_tuple(original_tpl)
# Check for default behavior
del tree[(0, 0, 0, 0)]
assert tree == Tree.from_tuple(mutated_tpl)
# Check for IndexError when invalid index is presented
with pytest.raises(IndexError):
del tree[(0, 0, 0, 1)]
# Check for IndexError when invalid type of index is presented
with pytest.raises(TypeError):
del tree["a"]
# Check behavior for a frozen tree
tree.freeze()
with pytest.raises(AssertionError):
del tree[(0, 0, 0)]
def test_default_usage():
tpl = (1, [(2, []), (3, [])])
tr = Tree(value=1,
children=(
Tree(value=2, children=()),
Tree(value=3, children=()),
))
assert tr == Tree.from_tuple(tpl)
def test_tree_emplace():
tpl = (1, [(2, []), (4, [])])
tree = Tree(value=1, children=(Tree(value=2, children=()), ))
# Check for default behavior
tree.emplace(4)
assert tree == Tree.from_tuple(tpl)
# Check emplace behavior for a frozen tree
tree.freeze()
with pytest.raises(AssertionError):
tree.emplace(1)
def test_tree_str():
tpl = (1, [
(2, []),
])
expected_str = "(1 (2))"
tree = Tree.from_tuple(tpl)
assert str(tree) == expected_str
def test_tree_len():
original_tpl = ("a", [
(2, []),
(2, []),
])
tree = Tree.from_tuple(original_tpl)
assert len(original_tpl[1]) == len(tree)
def test_tree_bfs():
tpl = ("a", [
(2, [(3, [("a", []), ("b", [])])]),
])
tpl_bfs_case = [
'(a (2 (3 (a) (b))))', '(2 (3 (a) (b)))', '(3 (a) (b))', '(a)', '(b)'
]
tpl_bfs_case_mirrored = [
'(a (2 (3 (a) (b))))', '(2 (3 (a) (b)))', '(3 (a) (b))', '(b)', '(a)'
]
tree = Tree.from_tuple(tpl)
# Test case for basic bfs
bfs_case = [str(t) for t in tree.bfs()]
assert bfs_case == tpl_bfs_case
# Test case for reversed bfs
bfs_case_reversed = [str(t) for t in tree.bfs(reverse=True)]
assert bfs_case_reversed == tpl_bfs_case[::-1]
# Test case for mirrored bfs
bfs_case_mirrored = [str(t) for t in tree.bfs(mirror=True)]
assert bfs_case_mirrored == tpl_bfs_case_mirrored
# Test case for both reversed and mirrored bfs
bfs_case_mirrored_reversed = [
str(t) for t in tree.bfs(reverse=True, mirror=True)
]
assert bfs_case_mirrored_reversed == tpl_bfs_case_mirrored[::-1]
def test_tree_size():
original_tpl = ("a", [(2, [("a", []), ("b", [])]), (3, [
("a", []),
])])
tree = Tree.from_tuple(original_tpl)
assert tree.size() == 6
tree.freeze()
assert tree.size() == 6
def test_tree_equals():
tpl_f = (1, [(2, []), (3, [])])
tpl_t = (1, [
(2, []),
(3, [
(2, []),
]),
])
# Check same trees for equality
tree_1 = Tree.from_tuple(tpl_f)
tree_2 = Tree.from_tuple(tpl_f)
assert tree_1 == tree_2
# Check different trees for equality
tree_2 = Tree.from_tuple(tpl_t)
assert tree_1 != tree_2
def test_tree_setitem():
original_tpl = ("a", [
(2, [
(3, []),
]),
])
mutated_tpl = ("a", [
("b", [
("c", []),
]),
])
tree = Tree.from_tuple(original_tpl)
tree[0] = Tree(value="b", children=(Tree(value="c", children=()), ))
# Check for default behavior
assert tree == Tree.from_tuple(mutated_tpl)
# Check for IndexError when invalid index is presented
with pytest.raises(IndexError):
tree[4] = Tree(value="dd")
# Check for IndexError when invalid type of index is presented
with pytest.raises(TypeError):
tree["a"] = Tree(value="a")
# Check behavior for a frozen tree
tree.freeze()
with pytest.raises(AssertionError):
tree[0] = Tree(value="a")
def test_tree_height():
tpl = ("a", [
(2, [
(3, [("a", [
(2, [
(3, []),
]),
])]),
]),
])
tree = Tree.from_tuple(tpl)
assert tree.height() == 6
tree.freeze()
assert tree.height() == 6
def test_tree_freeze():
tpl = ("a", [
(2, [
(3, [("a", [
(2, [
(3, []),
]),
])]),
]),
])
tree = Tree.from_tuple(tpl)
tree.freeze()
assert tree._is_frozen == True
assert tree[0]._is_frozen == True
assert tree[(0, 0)]._is_frozen == True
def test_tree_from_tuple():
tree_initialized = Tree(value="a",
children=(Tree(value=2,
children=(Tree(
value=3,
children=(
Tree(value="a"),
Tree(value="b"),
),
), )), ))
tree_from_tuple = Tree.from_tuple(("a", [
(2, [(3, [("a", []), ("b", [])])]),
]))
assert tree_from_tuple == tree_initialized
def test_tree_bfs_extended():
def extract_result(bfs_result: object) -> Tuple[List[str], List[int]]:
container = list(bfs_result) if not isinstance(bfs_result,
list) else bfs_result
nodes_tuple_ = [str(t[0]) for t in container]
nodes_positions_ = [t[1] for t in container]
return nodes_tuple_, nodes_positions_
tpl = ("a", [
(2, [(3, [("a", []), ("b", [])])]),
])
tpl_bfs_case_nodes = [
'(a (2 (3 (a) (b))))', '(2 (3 (a) (b)))', '(3 (a) (b))', '(a)', '(b)'
]
tpl_bfs_case_pos = [1, 2, 3, 4, 4]
tree = Tree.from_tuple(tpl)
# Test case for basic bfs_ex
nodes_tuple, nodes_positions = extract_result(tree.bfs_ex())
assert nodes_tuple == tpl_bfs_case_nodes
assert nodes_positions == tpl_bfs_case_pos
# Test case for specified depth of bfs
nodes_tuple, nodes_positions = extract_result(tree.bfs_ex(depth=3))
assert nodes_tuple == tpl_bfs_case_nodes[:3]
assert nodes_positions == tpl_bfs_case_pos[:3]
# Test case for specified depth of reversed bfs
nodes_tuple, nodes_positions = extract_result(
tree.bfs_ex(depth=3, reverse=True))
assert nodes_tuple == tpl_bfs_case_nodes[-3:-6:-1]
assert nodes_positions == tpl_bfs_case_pos[-3:-6:-1]
# Test case for both reversed and mirrored bfs
nodes_tuple, nodes_positions = extract_result(
tree.bfs_ex(reverse=True, mirror=True))
assert nodes_positions == tpl_bfs_case_pos[::-1]
tpl_bfs_case_mirrored_nodes = [
'(a)', '(b)', '(3 (a) (b))', '(2 (3 (a) (b)))', '(a (2 (3 (a) (b))))'
]
assert nodes_tuple == tpl_bfs_case_mirrored_nodes
def test_tree_getitem():
tpl = ("a", [
(2, [
(3, []),
]),
])
tree = Tree.from_tuple(tpl)
# Check for single indexing
assert tree[0].value == tpl[1][0][0]
# Check for deep indexing
assert tree[(0, 0)].value == tpl[1][0][1][0][0]
# Check for IndexError when invalid index is presented
with pytest.raises(IndexError):
_ = tree[1]
# Check for TypeError when invalid type of index is presented
with pytest.raises(TypeError):
_ = tree["a"]
def test_tree_clone():
tpl = ([1, 2], [
(2, [
(3, [("a", [
(2, [
(3, []),
]),
])]),
]),
])
tree = Tree.from_tuple(tpl)
# Check behavior for shallow copy
copied_tree = tree.clone()
assert copied_tree == tree
copied_tree.value.append(1)
assert copied_tree == tree
# Check behavior for deep copy
copied_tree = tree.clone(deep=True)
assert copied_tree == tree
copied_tree.value.append(1)
assert copied_tree != tree
def test_tree_unfreeze():
tpl = ("a", [
(2, [
(3, [("a", [
(2, [
(3, []),
]),
])]),
]),
])
tree = Tree.from_tuple(tpl)
# Check for unsafe way of in-place unfreeze
tree.freeze()
tree.unfreeze(unsafe=True)
assert tree._is_frozen == False
assert tree[(0, 0)]._is_frozen == False
# Check for copying way of unfreeze
tree.freeze()
new_tree = tree.unfreeze()
assert tree == new_tree
assert tree._is_frozen == True
assert new_tree._is_frozen == False
def test_tree_repr():
tpl = (1, [
(2, []),
])
tree = Tree.from_tuple(tpl)
assert eval(repr(tree)) == tree
def test_freeze_assert():
with pytest.raises(AssertionError):
hash(Tree(None))
def test_tree_hash():
tpl = (1, [
(2, []),
])
tree = Tree.from_tuple(tpl)
# Check behavior for non-frozen tree
with pytest.raises(AssertionError):
_h = hash(tree)
# Check default behavior
tree.freeze()
assert isinstance(hash(tree), int)
# Check hash equality of equal trees
initialized_tree = Tree(value=1, children=(Tree(value=2), ))
initialized_tree.freeze()
assert hash(tree) == hash(initialized_tree)
# Check hash equality of extended equal trees
tree = Tree.from_tuple(tpl)
tree.insert((0, 0), Tree(value=3))
tree.freeze()
initialized_tree = Tree.from_tuple(tpl)
initialized_tree.append(Tree(value=3))
initialized_tree.freeze()
assert hash(tree) == hash(initialized_tree)
def test_tree_to_tuple():
tpl = ("a", [
(2, [(3, [("a", []), ("b", [])])]),
])
assert Tree.from_tuple(tpl).to_tuple() == tpl
def main():
t = Tree.from_tuple((1, [(5, []), (6, [('a', []), ('b', [])]), (7, [])]))
g = Tree.from_tuple((1, [(5, []), (6, [('a', []), ('b', [])])]))
print('1)', t)
print('2)', g)
print('3)', t == g)
g.emplace(7)
print('4)', g)
print('5)', t == g)
print('6)', g == g[()])
print('7)', g[1])
g[1, 0] = Tree(18)
print('8)', g)
del g[1, 1]
print('9)', g)
g.insert((1, 1), Tree('x'))
print('10)', g)
print('11)', len(g), g.size(), g.height())
print('12)', g.value)
print('13)', [x for x in g])
print('14)', [
Tree(value=5, children=()),
Tree(value=6,
children=(
Tree(value=18, children=()),
Tree(value='x', children=()),
)),
Tree(value=7, children=())
])
test = (1, [(2, [(5, [(14, []), (15, []), (16, [(23, []), (24, [])])]),
(6, []), (7, [])]),
(3, [(8, []),
(9, [(17, []), (18, []), (19, [(25, []), (26, [])])]),
(10, [])]),
(4, [(11, []), (12, []),
(13, [(20, []), (21, []), (22, [(27, []), (28, [])])])])])
tg = Tree.from_tuple(test)
print()
print('15)', *[x.value for x in tg.bfs()])
print('16)', *[x.value for x in tg.bfs(reverse=True)])
print('17)', *[x.value for x in tg.bfs(mirror=True)])
print('18)', *[x.value for x in tg.bfs(reverse=True, mirror=True)])
print()
print('19)', *[x.value for x in tg.dfs()])
print('20)', *[x.value for x in tg.dfs(reverse=True)])
print('21)', *[x.value for x in tg.dfs(mirror=True)])
print('22)', *[x.value for x in tg.dfs(reverse=True, mirror=True)])
print()
print('23)', *[x.value for x in tg.dfs()])
print('24)', *[x.value for x in tg.dfs(post_order=True, mirror=True)])
print('25)', *[x.value for x in tg.dfs(mirror=True)])
print('26)', *[x.value for x in tg.dfs(post_order=True)])
print()
ctg = tg.clone()
print('27)', tg == ctg)
del ctg[0]
print('28)', tg == ctg, *[x.value for x in ctg.bfs()])
ctg[()].value = []
ctg.freeze()
ctg2 = ctg.unfreeze()
print('29)', ctg2 == ctg)
del ctg2[0]
print('30)', *[x.value for x in ctg.bfs()])
print('31)', *[x.value for x in ctg2.bfs()])
ctg2[()].value.append(13)
print('32)', *[x.value for x in ctg.bfs()])
print('33)', *[x.value for x in ctg2.bfs()])
print('34)', ctg2.to_tuple())
print('35)', *[(t.value, d, i) for t, d, i in ctg2.bfs_ex(depth=3)])
print(
'36)', *[(t.value, d, i)
for t, d, i in ctg2.dfs_ex(depth=3, post_order=True)])
def test_tree_insert():
# Check behavior for a single-layer insertion
tpl = (1, [
(2, []),
])
tree = Tree(value=1)
tree.insert(0, Tree(value=2))
assert tree == Tree.from_tuple(tpl)
# Check behavior for a deep insertion
tpl = ("a", [(2, [("a", []), ("b", [])]), (3, [
("a", []),
])])
tree = Tree(value="a",
children=(
Tree(value=2, children=()),
Tree(value=3, children=()),
))
node_a = Tree(value="a")
node_b = Tree(value="b")
tree.insert((0, 1), node_a)
tree.insert((0, 1), node_b)
tree.insert((1, 1), node_a)
assert tree == Tree.from_tuple(tpl)
# Check for IndexError when invalid index is presented
with pytest.raises(IndexError):
tree.insert((1, 2, 3, 4, 5), node_a)
# Check for TypeError when invalid type of index is presented
with pytest.raises(TypeError):
tree.insert("b", node_a)
# Check insert behavior for a frozen tree
tree.freeze()
with pytest.raises(AssertionError):
tree.insert(0, node_a)
