self.assertEqual(fr, typing.ForwardRef('int'))
self.assertNotEqual(List['int'], List[int])
+ def test_forward_equality_gth(self):
+ c1 = typing.ForwardRef('C')
+ c1_gth = typing.ForwardRef('C')
+ c2 = typing.ForwardRef('C')
+ c2_gth = typing.ForwardRef('C')
+
+ class C:
+ pass
+ def foo(a: c1_gth, b: c2_gth):
+ pass
+
+ self.assertEqual(get_type_hints(foo, globals(), locals()), {'a': C, 'b': C})
+ self.assertEqual(c1, c2)
+ self.assertEqual(c1, c1_gth)
+ self.assertEqual(c1_gth, c2_gth)
+ self.assertEqual(List[c1], List[c1_gth])
+ self.assertNotEqual(List[c1], List[C])
+ self.assertNotEqual(List[c1_gth], List[C])
+ self.assertEquals(Union[c1, c1_gth], Union[c1])
+ self.assertEquals(Union[c1, c1_gth, int], Union[c1, int])
+
+ def test_forward_equality_hash(self):
+ c1 = typing.ForwardRef('int')
+ c1_gth = typing.ForwardRef('int')
+ c2 = typing.ForwardRef('int')
+ c2_gth = typing.ForwardRef('int')
+
+ def foo(a: c1_gth, b: c2_gth):
+ pass
+ get_type_hints(foo, globals(), locals())
+
+ self.assertEqual(hash(c1), hash(c2))
+ self.assertEqual(hash(c1_gth), hash(c2_gth))
+ self.assertEqual(hash(c1), hash(c1_gth))
+
+ def test_forward_equality_namespace(self):
+ class A:
+ pass
+ def namespace1():
+ a = typing.ForwardRef('A')
+ def fun(x: a):
+ pass
+ get_type_hints(fun, globals(), locals())
+ return a
+
+ def namespace2():
+ a = typing.ForwardRef('A')
+
+ class A:
+ pass
+ def fun(x: a):
+ pass
+
+ get_type_hints(fun, globals(), locals())
+ return a
+
+ self.assertEqual(namespace1(), namespace1())
+ self.assertNotEqual(namespace1(), namespace2())
+
def test_forward_repr(self):
self.assertEqual(repr(List['int']), "typing.List[ForwardRef('int')]")
self.assertEqual(get_type_hints(foo, globals(), locals()),
{'a': Tuple[T]})
+ def test_forward_recursion_actually(self):
+ def namespace1():
+ a = typing.ForwardRef('A')
+ A = a
+ def fun(x: a): pass
+
+ ret = get_type_hints(fun, globals(), locals())
+ return a
+
+ def namespace2():
+ a = typing.ForwardRef('A')
+ A = a
+ def fun(x: a): pass
+
+ ret = get_type_hints(fun, globals(), locals())
+ return a
+
+ def cmp(o1, o2):
+ return o1 == o2
+
+ r1 = namespace1()
+ r2 = namespace2()
+ self.assertIsNot(r1, r2)
+ self.assertRaises(RecursionError, cmp, r1, r2)
+
+ def test_union_forward_recursion(self):
+ ValueList = List['Value']
+ Value = Union[str, ValueList]
+
+ class C:
+ foo: List[Value]
+ class D:
+ foo: Union[Value, ValueList]
+ class E:
+ foo: Union[List[Value], ValueList]
+ class F:
+ foo: Union[Value, List[Value], ValueList]
+
+ self.assertEqual(get_type_hints(C, globals(), locals()), get_type_hints(C, globals(), locals()))
+ self.assertEqual(get_type_hints(C, globals(), locals()),
+ {'foo': List[Union[str, List[Union[str, List['Value']]]]]})
+ self.assertEqual(get_type_hints(D, globals(), locals()),
+ {'foo': Union[str, List[Union[str, List['Value']]]]})
+ self.assertEqual(get_type_hints(E, globals(), locals()),
+ {'foo': Union[
+ List[Union[str, List[Union[str, List['Value']]]]],
+ List[Union[str, List['Value']]]
+ ]
+ })
+ self.assertEqual(get_type_hints(F, globals(), locals()),
+ {'foo': Union[
+ str,
+ List[Union[str, List['Value']]],
+ List[Union[str, List[Union[str, List['Value']]]]]
+ ]
+ })
+
def test_callable_forward(self):
def foo(a: Callable[['T'], 'T']):
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