import gc import operator import sys import weakref from collections import deque from collections.abc import Mapping from functools import reduce import pytest import multidict def chained_callable(module, callables): """ Returns callable that will get and call all given objects in module in exact order. If `names` is a single object's name function will return object itself. Will treat `names` of type `str` as a list of single element. """ callables = (callables,) if isinstance(callables, str) else callables _callable, *rest = (getattr(module, name) for name in callables) def chained_call(*args, **kwargs): return reduce(lambda res, c: c(res), rest, _callable(*args, **kwargs)) return chained_call if len(rest) > 0 else _callable @pytest.fixture(scope="function") def cls(request, _multidict): return chained_callable(_multidict, request.param) dict_cls = proxy_cls = cls @pytest.mark.parametrize("cls", ["MultiDict", "CIMultiDict"], indirect=True) def test_exposed_names(cls): name = cls.__name__ while name.startswith("_"): name = name[1:] assert name in multidict.__all__ @pytest.mark.parametrize( "cls, key_cls", [("MultiDict", str), (("MultiDict", "MultiDictProxy"), str)], indirect=["cls"], ) def test__iter__types(cls, key_cls): d = cls([("key", "one"), ("key2", "two"), ("key", 3)]) for i in d: assert type(i) is key_cls, (type(i), key_cls) @pytest.mark.parametrize( "dict_cls, proxy_cls", [("MultiDict", "MultiDictProxy"), ("CIMultiDict", "CIMultiDictProxy")], indirect=True, ) def test_proxy_copy(dict_cls, proxy_cls): d1 = dict_cls(key="value", a="b") p1 = proxy_cls(d1) d2 = p1.copy() assert d1 == d2 assert d1 is not d2 @pytest.mark.parametrize( "cls", ["MultiDict", "CIMultiDict", "MultiDictProxy", "CIMultiDictProxy"], indirect=True, ) def test_subclassing(cls): class MyClass(cls): pass class BaseMultiDictTest: def test_instantiate__empty(self, cls): d = cls() assert d == {} assert len(d) == 0 assert list(d.keys()) == [] assert list(d.values()) == [] assert list(d.items()) == [] assert cls() != list() with pytest.raises(TypeError, match=r"(2 given)"): cls(("key1", "value1"), ("key2", "value2")) @pytest.mark.parametrize("arg0", [[("key", "value1")], {"key": "value1"}]) def test_instantiate__from_arg0(self, cls, arg0): d = cls(arg0) assert d == {"key": "value1"} assert len(d) == 1 assert list(d.keys()) == ["key"] assert list(d.values()) == ["value1"] assert list(d.items()) == [("key", "value1")] def test_instantiate__with_kwargs(self, cls): d = cls([("key", "value1")], key2="value2") assert d == {"key": "value1", "key2": "value2"} assert len(d) == 2 assert sorted(d.keys()) == ["key", "key2"] assert sorted(d.values()) == ["value1", "value2"] assert sorted(d.items()) == [("key", "value1"), ("key2", "value2")] def test_instantiate__from_generator(self, cls): d = cls((str(i), i) for i in range(2)) assert d == {"0": 0, "1": 1} assert len(d) == 2 assert sorted(d.keys()) == ["0", "1"] assert sorted(d.values()) == [0, 1] assert sorted(d.items()) == [("0", 0), ("1", 1)] def test_instantiate__from_list_of_lists(self, cls): d = cls([["key", "value1"]]) assert d == {"key": "value1"} def test_instantiate__from_list_of_custom_pairs(self, cls): class Pair: def __len__(self): return 2 def __getitem__(self, pos): if pos == 0: return "key" elif pos == 1: return "value1" else: raise IndexError d = cls([Pair()]) assert d == {"key": "value1"} def test_getone(self, cls): d = cls([("key", "value1")], key="value2") assert d.getone("key") == "value1" assert d.get("key") == "value1" assert d["key"] == "value1" with pytest.raises(KeyError, match="key2"): d["key2"] with pytest.raises(KeyError, match="key2"): d.getone("key2") assert d.getone("key2", "default") == "default" def test__iter__( self, cls, ): d = cls([("key", "one"), ("key2", "two"), ("key", 3)]) assert list(d) == ["key", "key2", "key"] def test_keys__contains(self, cls): d = cls([("key", "one"), ("key2", "two"), ("key", 3)]) assert list(d.keys()) == ["key", "key2", "key"] assert "key" in d.keys() assert "key2" in d.keys() assert "foo" not in d.keys() def test_values__contains(self, cls): d = cls([("key", "one"), ("key", "two"), ("key", 3)]) assert list(d.values()) == ["one", "two", 3] assert "one" in d.values() assert "two" in d.values() assert 3 in d.values() assert "foo" not in d.values() def test_items__contains(self, cls): d = cls([("key", "one"), ("key", "two"), ("key", 3)]) assert list(d.items()) == [("key", "one"), ("key", "two"), ("key", 3)] assert ("key", "one") in d.items() assert ("key", "two") in d.items() assert ("key", 3) in d.items() assert ("foo", "bar") not in d.items() def test_cannot_create_from_unaccepted(self, cls): with pytest.raises(TypeError): cls([(1, 2, 3)]) def test_keys_is_set_less(self, cls): d = cls([("key", "value1")]) assert d.keys() < {"key", "key2"} def test_keys_is_set_less_equal(self, cls): d = cls([("key", "value1")]) assert d.keys() <= {"key"} def test_keys_is_set_equal(self, cls): d = cls([("key", "value1")]) assert d.keys() == {"key"} def test_keys_is_set_greater(self, cls): d = cls([("key", "value1")]) assert {"key", "key2"} > d.keys() def test_keys_is_set_greater_equal(self, cls): d = cls([("key", "value1")]) assert {"key"} >= d.keys() def test_keys_is_set_not_equal(self, cls): d = cls([("key", "value1")]) assert d.keys() != {"key2"} def test_eq(self, cls): d = cls([("key", "value1")]) assert {"key": "value1"} == d def test_eq2(self, cls): d1 = cls([("key", "value1")]) d2 = cls([("key2", "value1")]) assert d1 != d2 def test_eq3(self, cls): d1 = cls([("key", "value1")]) d2 = cls() assert d1 != d2 def test_eq_other_mapping_contains_more_keys(self, cls): d1 = cls(foo="bar") d2 = dict(foo="bar", bar="baz") assert d1 != d2 def test_eq_bad_mapping_len(self, cls): class BadMapping(Mapping): def __getitem__(self, key): return 1 def __iter__(self): yield "a" def __len__(self): 1 / 0 d1 = cls(a=1) d2 = BadMapping() with pytest.raises(ZeroDivisionError): d1 == d2 def test_eq_bad_mapping_getitem(self, cls): class BadMapping(Mapping): def __getitem__(self, key): 1 / 0 def __iter__(self): yield "a" def __len__(self): return 1 d1 = cls(a=1) d2 = BadMapping() with pytest.raises(ZeroDivisionError): d1 == d2 def test_ne(self, cls): d = cls([("key", "value1")]) assert d != {"key": "another_value"} def test_and(self, cls): d = cls([("key", "value1")]) assert {"key"} == d.keys() & {"key", "key2"} def test_and2(self, cls): d = cls([("key", "value1")]) assert {"key"} == {"key", "key2"} & d.keys() def test_or(self, cls): d = cls([("key", "value1")]) assert {"key", "key2"} == d.keys() | {"key2"} def test_or2(self, cls): d = cls([("key", "value1")]) assert {"key", "key2"} == {"key2"} | d.keys() def test_sub(self, cls): d = cls([("key", "value1"), ("key2", "value2")]) assert {"key"} == d.keys() - {"key2"} def test_sub2(self, cls): d = cls([("key", "value1"), ("key2", "value2")]) assert {"key3"} == {"key", "key2", "key3"} - d.keys() def test_xor(self, cls): d = cls([("key", "value1"), ("key2", "value2")]) assert {"key", "key3"} == d.keys() ^ {"key2", "key3"} def test_xor2(self, cls): d = cls([("key", "value1"), ("key2", "value2")]) assert {"key", "key3"} == {"key2", "key3"} ^ d.keys() @pytest.mark.parametrize("_set, expected", [({"key2"}, True), ({"key"}, False)]) def test_isdisjoint(self, cls, _set, expected): d = cls([("key", "value1")]) assert d.keys().isdisjoint(_set) == expected def test_repr_issue_410(self, cls): d = cls() try: raise Exception pytest.fail("Should never happen") # pragma: no cover except Exception as e: repr(d) assert sys.exc_info()[1] == e @pytest.mark.parametrize( "op", [operator.or_, operator.and_, operator.sub, operator.xor] ) @pytest.mark.parametrize("other", [{"other"}]) def test_op_issue_410(self, cls, op, other): d = cls([("key", "value")]) try: raise Exception pytest.fail("Should never happen") # pragma: no cover except Exception as e: op(d.keys(), other) assert sys.exc_info()[1] == e def test_weakref(self, cls): called = False def cb(wr): nonlocal called called = True d = cls() wr = weakref.ref(d, cb) del d gc.collect() assert called del wr def test_iter_length_hint_keys(self, cls): md = cls(a=1, b=2) it = iter(md.keys()) assert it.__length_hint__() == 2 def test_iter_length_hint_items(self, cls): md = cls(a=1, b=2) it = iter(md.items()) assert it.__length_hint__() == 2 def test_iter_length_hint_values(self, cls): md = cls(a=1, b=2) it = iter(md.values()) assert it.__length_hint__() == 2 def test_ctor_list_arg_and_kwds(self, cls): arg = [("a", 1)] obj = cls(arg, b=2) assert list(obj.items()) == [("a", 1), ("b", 2)] assert arg == [("a", 1)] def test_ctor_tuple_arg_and_kwds(self, cls): arg = (("a", 1),) obj = cls(arg, b=2) assert list(obj.items()) == [("a", 1), ("b", 2)] assert arg == (("a", 1),) def test_ctor_deque_arg_and_kwds(self, cls): arg = deque([("a", 1)]) obj = cls(arg, b=2) assert list(obj.items()) == [("a", 1), ("b", 2)] assert arg == deque([("a", 1)]) class TestMultiDict(BaseMultiDictTest): @pytest.fixture(params=["MultiDict", ("MultiDict", "MultiDictProxy")]) def cls(self, request, _multidict): return chained_callable(_multidict, request.param) def test__repr__(self, cls): d = cls() _cls = type(d) assert str(d) == "<%s()>" % _cls.__name__ d = cls([("key", "one"), ("key", "two")]) assert str(d) == "<%s('key': 'one', 'key': 'two')>" % _cls.__name__ def test_getall(self, cls): d = cls([("key", "value1")], key="value2") assert d != {"key": "value1"} assert len(d) == 2 assert d.getall("key") == ["value1", "value2"] with pytest.raises(KeyError, match="some_key"): d.getall("some_key") default = object() assert d.getall("some_key", default) is default def test_preserve_stable_ordering(self, cls): d = cls([("a", 1), ("b", "2"), ("a", 3)]) s = "&".join("{}={}".format(k, v) for k, v in d.items()) assert s == "a=1&b=2&a=3" def test_get(self, cls): d = cls([("a", 1), ("a", 2)]) assert d["a"] == 1 def test_items__repr__(self, cls): d = cls([("key", "value1")], key="value2") expected = "_ItemsView('key': 'value1', 'key': 'value2')" assert repr(d.items()) == expected def test_keys__repr__(self, cls): d = cls([("key", "value1")], key="value2") assert repr(d.keys()) == "_KeysView('key', 'key')" def test_values__repr__(self, cls): d = cls([("key", "value1")], key="value2") assert repr(d.values()) == "_ValuesView('value1', 'value2')" class TestCIMultiDict(BaseMultiDictTest): @pytest.fixture(params=["CIMultiDict", ("CIMultiDict", "CIMultiDictProxy")]) def cls(self, request, _multidict): return chained_callable(_multidict, request.param) def test_basics(self, cls): d = cls([("KEY", "value1")], KEY="value2") assert d.getone("key") == "value1" assert d.get("key") == "value1" assert d.get("key2", "val") == "val" assert d["key"] == "value1" assert "key" in d with pytest.raises(KeyError, match="key2"): d["key2"] with pytest.raises(KeyError, match="key2"): d.getone("key2") def test_getall(self, cls): d = cls([("KEY", "value1")], KEY="value2") assert not d == {"KEY": "value1"} assert len(d) == 2 assert d.getall("key") == ["value1", "value2"] with pytest.raises(KeyError, match="some_key"): d.getall("some_key") def test_get(self, cls): d = cls([("A", 1), ("a", 2)]) assert 1 == d["a"] def test__repr__(self, cls): d = cls([("KEY", "value1")], key="value2") _cls = type(d) expected = "<%s('KEY': 'value1', 'key': 'value2')>" % _cls.__name__ assert str(d) == expected def test_items__repr__(self, cls): d = cls([("KEY", "value1")], key="value2") expected = "_ItemsView('KEY': 'value1', 'key': 'value2')" assert repr(d.items()) == expected def test_keys__repr__(self, cls): d = cls([("KEY", "value1")], key="value2") assert repr(d.keys()) == "_KeysView('KEY', 'key')" def test_values__repr__(self, cls): d = cls([("KEY", "value1")], key="value2") assert repr(d.values()) == "_ValuesView('value1', 'value2')"