Lib/test/test_genericalias.py - platform/external/python/cpython3 - Git at Google

 """Tests for C-implemented GenericAlias."""

 import unittest
 import pickle
 from collections import (
     defaultdict, deque, OrderedDict, Counter, UserDict, UserList
 )
 from collections.abc import *
 from concurrent.futures import Future
 from concurrent.futures.thread import _WorkItem
 from contextlib import AbstractContextManager, AbstractAsyncContextManager
 from contextvars import ContextVar, Token
 from dataclasses import Field
 from functools import partial, partialmethod, cached_property
 from mailbox import Mailbox, _PartialFile
 try:
     import ctypes
 except ImportError:
     ctypes = None
 from difflib import SequenceMatcher
 from filecmp import dircmp
 from fileinput import FileInput
 from itertools import chain
 from http.cookies import Morsel
 from multiprocessing.managers import ValueProxy
 from multiprocessing.pool import ApplyResult
 try:
     from multiprocessing.shared_memory import ShareableList
 except ImportError:
     # multiprocessing.shared_memory is not available on e.g. Android
     ShareableList = None
 from multiprocessing.queues import SimpleQueue as MPSimpleQueue
 from os import DirEntry
 from re import Pattern, Match
 from types import GenericAlias, MappingProxyType, AsyncGeneratorType
 from tempfile import TemporaryDirectory, SpooledTemporaryFile
 from urllib.parse import SplitResult, ParseResult
 from unittest.case import _AssertRaisesContext
 from queue import Queue, SimpleQueue
 from weakref import WeakSet, ReferenceType, ref
 import typing

 from typing import TypeVar
 T = TypeVar('T')
 K = TypeVar('K')
 V = TypeVar('V')

 class BaseTest(unittest.TestCase):
     """Test basics."""
     generic_types = [type, tuple, list, dict, set, frozenset, enumerate,
                      defaultdict, deque,
                      SequenceMatcher,
                      dircmp,
                      FileInput,
                      OrderedDict, Counter, UserDict, UserList,
                      Pattern, Match,
                      partial, partialmethod, cached_property,
                      AbstractContextManager, AbstractAsyncContextManager,
                      Awaitable, Coroutine,
                      AsyncIterable, AsyncIterator,
                      AsyncGenerator, Generator,
                      Iterable, Iterator,
                      Reversible,
                      Container, Collection,
                      Callable,
                      Mailbox, _PartialFile,
                      ContextVar, Token,
                      Field,
                      Set, MutableSet,
                      Mapping, MutableMapping, MappingView,
                      KeysView, ItemsView, ValuesView,
                      Sequence, MutableSequence,
                      MappingProxyType, AsyncGeneratorType,
                      DirEntry,
                      chain,
                      TemporaryDirectory, SpooledTemporaryFile,
                      Queue, SimpleQueue,
                      _AssertRaisesContext,
                      SplitResult, ParseResult,
                      ValueProxy, ApplyResult,
                      WeakSet, ReferenceType, ref,
                      ShareableList, MPSimpleQueue,
                      Future, _WorkItem,
                      Morsel]
     if ctypes is not None:
         generic_types.extend((ctypes.Array, ctypes.LibraryLoader))

     def test_subscriptable(self):
         for t in self.generic_types:
             if t is None:
                 continue
             tname = t.__name__
             with self.subTest(f"Testing {tname}"):
                 alias = t[int]
                 self.assertIs(alias.__origin__, t)
                 self.assertEqual(alias.__args__, (int,))
                 self.assertEqual(alias.__parameters__, ())

     def test_unsubscriptable(self):
         for t in int, str, float, Sized, Hashable:
             tname = t.__name__
             with self.subTest(f"Testing {tname}"):
                 with self.assertRaises(TypeError):
                     t[int]

     def test_instantiate(self):
         for t in tuple, list, dict, set, frozenset, defaultdict, deque:
             tname = t.__name__
             with self.subTest(f"Testing {tname}"):
                 alias = t[int]
                 self.assertEqual(alias(), t())
                 if t is dict:
                     self.assertEqual(alias(iter([('a', 1), ('b', 2)])), dict(a=1, b=2))
                     self.assertEqual(alias(a=1, b=2), dict(a=1, b=2))
                 elif t is defaultdict:
                     def default():
                         return 'value'
                     a = alias(default)
                     d = defaultdict(default)
                     self.assertEqual(a['test'], d['test'])
                 else:
                     self.assertEqual(alias(iter((1, 2, 3))), t((1, 2, 3)))

     def test_unbound_methods(self):
         t = list[int]
         a = t()
         t.append(a, 'foo')
         self.assertEqual(a, ['foo'])
         x = t.__getitem__(a, 0)
         self.assertEqual(x, 'foo')
         self.assertEqual(t.__len__(a), 1)

     def test_subclassing(self):
         class C(list[int]):
             pass
         self.assertEqual(C.__bases__, (list,))
         self.assertEqual(C.__class__, type)

     def test_class_methods(self):
         t = dict[int, None]
         self.assertEqual(dict.fromkeys(range(2)), {0: None, 1: None})  # This works
         self.assertEqual(t.fromkeys(range(2)), {0: None, 1: None})  # Should be equivalent

     def test_no_chaining(self):
         t = list[int]
         with self.assertRaises(TypeError):
             t[int]

     def test_generic_subclass(self):
         class MyList(list):
             pass
         t = MyList[int]
         self.assertIs(t.__origin__, MyList)
         self.assertEqual(t.__args__, (int,))
         self.assertEqual(t.__parameters__, ())

     def test_repr(self):
         class MyList(list):
             pass
         self.assertEqual(repr(list[str]), 'list[str]')
         self.assertEqual(repr(list[()]), 'list[()]')
         self.assertEqual(repr(tuple[int, ...]), 'tuple[int, ...]')
         self.assertTrue(repr(MyList[int]).endswith('.BaseTest.test_repr.<locals>.MyList[int]'))
         self.assertEqual(repr(list[str]()), '[]')  # instances should keep their normal repr

     def test_exposed_type(self):
         import types
         a = types.GenericAlias(list, int)
         self.assertEqual(str(a), 'list[int]')
         self.assertIs(a.__origin__, list)
         self.assertEqual(a.__args__, (int,))
         self.assertEqual(a.__parameters__, ())

     def test_parameters(self):
         from typing import List, Dict, Callable
         D0 = dict[str, int]
         self.assertEqual(D0.__args__, (str, int))
         self.assertEqual(D0.__parameters__, ())
         D1a = dict[str, V]
         self.assertEqual(D1a.__args__, (str, V))
         self.assertEqual(D1a.__parameters__, (V,))
         D1b = dict[K, int]
         self.assertEqual(D1b.__args__, (K, int))
         self.assertEqual(D1b.__parameters__, (K,))
         D2a = dict[K, V]
         self.assertEqual(D2a.__args__, (K, V))
         self.assertEqual(D2a.__parameters__, (K, V))
         D2b = dict[T, T]
         self.assertEqual(D2b.__args__, (T, T))
         self.assertEqual(D2b.__parameters__, (T,))
         L0 = list[str]
         self.assertEqual(L0.__args__, (str,))
         self.assertEqual(L0.__parameters__, ())
         L1 = list[T]
         self.assertEqual(L1.__args__, (T,))
         self.assertEqual(L1.__parameters__, (T,))
         L2 = list[list[T]]
         self.assertEqual(L2.__args__, (list[T],))
         self.assertEqual(L2.__parameters__, (T,))
         L3 = list[List[T]]
         self.assertEqual(L3.__args__, (List[T],))
         self.assertEqual(L3.__parameters__, (T,))
         L4a = list[Dict[K, V]]
         self.assertEqual(L4a.__args__, (Dict[K, V],))
         self.assertEqual(L4a.__parameters__, (K, V))
         L4b = list[Dict[T, int]]
         self.assertEqual(L4b.__args__, (Dict[T, int],))
         self.assertEqual(L4b.__parameters__, (T,))
         L5 = list[Callable[[K, V], K]]
         self.assertEqual(L5.__args__, (Callable[[K, V], K],))
         self.assertEqual(L5.__parameters__, (K, V))

     def test_parameter_chaining(self):
         from typing import List, Dict, Union, Callable
         self.assertEqual(list[T][int], list[int])
         self.assertEqual(dict[str, T][int], dict[str, int])
         self.assertEqual(dict[T, int][str], dict[str, int])
         self.assertEqual(dict[K, V][str, int], dict[str, int])
         self.assertEqual(dict[T, T][int], dict[int, int])

         self.assertEqual(list[list[T]][int], list[list[int]])
         self.assertEqual(list[dict[T, int]][str], list[dict[str, int]])
         self.assertEqual(list[dict[str, T]][int], list[dict[str, int]])
         self.assertEqual(list[dict[K, V]][str, int], list[dict[str, int]])
         self.assertEqual(dict[T, list[int]][str], dict[str, list[int]])

         self.assertEqual(list[List[T]][int], list[List[int]])
         self.assertEqual(list[Dict[K, V]][str, int], list[Dict[str, int]])
         self.assertEqual(list[Union[K, V]][str, int], list[Union[str, int]])
         self.assertEqual(list[Callable[[K, V], K]][str, int],
                          list[Callable[[str, int], str]])
         self.assertEqual(dict[T, List[int]][str], dict[str, List[int]])

         with self.assertRaises(TypeError):
             list[int][int]
             dict[T, int][str, int]
             dict[str, T][str, int]
             dict[T, T][str, int]

     def test_equality(self):
         self.assertEqual(list[int], list[int])
         self.assertEqual(dict[str, int], dict[str, int])
         self.assertNotEqual(dict[str, int], dict[str, str])
         self.assertNotEqual(list, list[int])
         self.assertNotEqual(list[int], list)

     def test_isinstance(self):
         self.assertTrue(isinstance([], list))
         with self.assertRaises(TypeError):
             isinstance([], list[str])

     def test_issubclass(self):
         class L(list): ...
         self.assertTrue(issubclass(L, list))
         with self.assertRaises(TypeError):
             issubclass(L, list[str])

     def test_type_generic(self):
         t = type[int]
         Test = t('Test', (), {})
         self.assertTrue(isinstance(Test, type))
         test = Test()
         self.assertEqual(t(test), Test)
         self.assertEqual(t(0), int)

     def test_type_subclass_generic(self):
         class MyType(type):
             pass
         with self.assertRaises(TypeError):
             MyType[int]

     def test_pickle(self):
         alias = GenericAlias(list, T)
         s = pickle.dumps(alias)
         loaded = pickle.loads(s)
         self.assertEqual(alias.__origin__, loaded.__origin__)
         self.assertEqual(alias.__args__, loaded.__args__)
         self.assertEqual(alias.__parameters__, loaded.__parameters__)

     def test_union(self):
         a = typing.Union[list[int], list[str]]
         self.assertEqual(a.__args__, (list[int], list[str]))
         self.assertEqual(a.__parameters__, ())

     def test_union_generic(self):
         a = typing.Union[list[T], tuple[T, ...]]
         self.assertEqual(a.__args__, (list[T], tuple[T, ...]))
         self.assertEqual(a.__parameters__, (T,))

     def test_dir(self):
         dir_of_gen_alias = set(dir(list[int]))
         self.assertTrue(dir_of_gen_alias.issuperset(dir(list)))
         for generic_alias_property in ("__origin__", "__args__", "__parameters__"):
             self.assertIn(generic_alias_property, dir_of_gen_alias)

     def test_weakref(self):
         for t in self.generic_types:
             if t is None:
                 continue
             tname = t.__name__
             with self.subTest(f"Testing {tname}"):
                 alias = t[int]
                 self.assertEqual(ref(alias)(), alias)

     def test_no_kwargs(self):
         # bpo-42576
         with self.assertRaises(TypeError):
             GenericAlias(bad=float)


 if __name__ == "__main__":
     unittest.main()
	"""Tests for C-implemented GenericAlias."""

	import unittest
	import pickle
	from collections import (
	defaultdict, deque, OrderedDict, Counter, UserDict, UserList
	)
	from collections.abc import *
	from concurrent.futures import Future
	from concurrent.futures.thread import _WorkItem
	from contextlib import AbstractContextManager, AbstractAsyncContextManager
	from contextvars import ContextVar, Token
	from dataclasses import Field
	from functools import partial, partialmethod, cached_property
	from mailbox import Mailbox, _PartialFile
	try:
	import ctypes
	except ImportError:
	ctypes = None
	from difflib import SequenceMatcher
	from filecmp import dircmp
	from fileinput import FileInput
	from itertools import chain
	from http.cookies import Morsel
	from multiprocessing.managers import ValueProxy
	from multiprocessing.pool import ApplyResult
	try:
	from multiprocessing.shared_memory import ShareableList
	except ImportError:
	# multiprocessing.shared_memory is not available on e.g. Android
	ShareableList = None
	from multiprocessing.queues import SimpleQueue as MPSimpleQueue
	from os import DirEntry
	from re import Pattern, Match
	from types import GenericAlias, MappingProxyType, AsyncGeneratorType
	from tempfile import TemporaryDirectory, SpooledTemporaryFile
	from urllib.parse import SplitResult, ParseResult
	from unittest.case import _AssertRaisesContext
	from queue import Queue, SimpleQueue
	from weakref import WeakSet, ReferenceType, ref
	import typing

	from typing import TypeVar
	T = TypeVar('T')
	K = TypeVar('K')
	V = TypeVar('V')

	class BaseTest(unittest.TestCase):
	"""Test basics."""
	generic_types = [type, tuple, list, dict, set, frozenset, enumerate,
	defaultdict, deque,
	SequenceMatcher,
	dircmp,
	FileInput,
	OrderedDict, Counter, UserDict, UserList,
	Pattern, Match,
	partial, partialmethod, cached_property,
	AbstractContextManager, AbstractAsyncContextManager,
	Awaitable, Coroutine,
	AsyncIterable, AsyncIterator,
	AsyncGenerator, Generator,
	Iterable, Iterator,
	Reversible,
	Container, Collection,
	Callable,
	Mailbox, _PartialFile,
	ContextVar, Token,
	Field,
	Set, MutableSet,
	Mapping, MutableMapping, MappingView,
	KeysView, ItemsView, ValuesView,
	Sequence, MutableSequence,
	MappingProxyType, AsyncGeneratorType,
	DirEntry,
	chain,
	TemporaryDirectory, SpooledTemporaryFile,
	Queue, SimpleQueue,
	_AssertRaisesContext,
	SplitResult, ParseResult,
	ValueProxy, ApplyResult,
	WeakSet, ReferenceType, ref,
	ShareableList, MPSimpleQueue,
	Future, _WorkItem,
	Morsel]
	if ctypes is not None:
	generic_types.extend((ctypes.Array, ctypes.LibraryLoader))

	def test_subscriptable(self):
	for t in self.generic_types:
	if t is None:
	continue
	tname = t.__name__
	with self.subTest(f"Testing {tname}"):
	alias = t[int]
	self.assertIs(alias.__origin__, t)
	self.assertEqual(alias.__args__, (int,))
	self.assertEqual(alias.__parameters__, ())

	def test_unsubscriptable(self):
	for t in int, str, float, Sized, Hashable:
	tname = t.__name__
	with self.subTest(f"Testing {tname}"):
	with self.assertRaises(TypeError):
	t[int]

	def test_instantiate(self):
	for t in tuple, list, dict, set, frozenset, defaultdict, deque:
	tname = t.__name__
	with self.subTest(f"Testing {tname}"):
	alias = t[int]
	self.assertEqual(alias(), t())
	if t is dict:
	self.assertEqual(alias(iter([('a', 1), ('b', 2)])), dict(a=1, b=2))
	self.assertEqual(alias(a=1, b=2), dict(a=1, b=2))
	elif t is defaultdict:
	def default():
	return 'value'
	a = alias(default)
	d = defaultdict(default)
	self.assertEqual(a['test'], d['test'])
	else:
	self.assertEqual(alias(iter((1, 2, 3))), t((1, 2, 3)))

	def test_unbound_methods(self):
	t = list[int]
	a = t()
	t.append(a, 'foo')
	self.assertEqual(a, ['foo'])
	x = t.__getitem__(a, 0)
	self.assertEqual(x, 'foo')
	self.assertEqual(t.__len__(a), 1)

	def test_subclassing(self):
	class C(list[int]):
	pass
	self.assertEqual(C.__bases__, (list,))
	self.assertEqual(C.__class__, type)

	def test_class_methods(self):
	t = dict[int, None]
	self.assertEqual(dict.fromkeys(range(2)), {0: None, 1: None}) # This works
	self.assertEqual(t.fromkeys(range(2)), {0: None, 1: None}) # Should be equivalent

	def test_no_chaining(self):
	t = list[int]
	with self.assertRaises(TypeError):
	t[int]

	def test_generic_subclass(self):
	class MyList(list):
	pass
	t = MyList[int]
	self.assertIs(t.__origin__, MyList)
	self.assertEqual(t.__args__, (int,))
	self.assertEqual(t.__parameters__, ())

	def test_repr(self):
	class MyList(list):
	pass
	self.assertEqual(repr(list[str]), 'list[str]')
	self.assertEqual(repr(list[()]), 'list[()]')
	self.assertEqual(repr(tuple[int, ...]), 'tuple[int, ...]')
	self.assertTrue(repr(MyList[int]).endswith('.BaseTest.test_repr.<locals>.MyList[int]'))
	self.assertEqual(repr(list[str]()), '[]') # instances should keep their normal repr

	def test_exposed_type(self):
	import types
	a = types.GenericAlias(list, int)
	self.assertEqual(str(a), 'list[int]')
	self.assertIs(a.__origin__, list)
	self.assertEqual(a.__args__, (int,))
	self.assertEqual(a.__parameters__, ())

	def test_parameters(self):
	from typing import List, Dict, Callable
	D0 = dict[str, int]
	self.assertEqual(D0.__args__, (str, int))
	self.assertEqual(D0.__parameters__, ())
	D1a = dict[str, V]
	self.assertEqual(D1a.__args__, (str, V))
	self.assertEqual(D1a.__parameters__, (V,))
	D1b = dict[K, int]
	self.assertEqual(D1b.__args__, (K, int))
	self.assertEqual(D1b.__parameters__, (K,))
	D2a = dict[K, V]
	self.assertEqual(D2a.__args__, (K, V))
	self.assertEqual(D2a.__parameters__, (K, V))
	D2b = dict[T, T]
	self.assertEqual(D2b.__args__, (T, T))
	self.assertEqual(D2b.__parameters__, (T,))
	L0 = list[str]
	self.assertEqual(L0.__args__, (str,))
	self.assertEqual(L0.__parameters__, ())
	L1 = list[T]
	self.assertEqual(L1.__args__, (T,))
	self.assertEqual(L1.__parameters__, (T,))
	L2 = list[list[T]]
	self.assertEqual(L2.__args__, (list[T],))
	self.assertEqual(L2.__parameters__, (T,))
	L3 = list[List[T]]
	self.assertEqual(L3.__args__, (List[T],))
	self.assertEqual(L3.__parameters__, (T,))
	L4a = list[Dict[K, V]]
	self.assertEqual(L4a.__args__, (Dict[K, V],))
	self.assertEqual(L4a.__parameters__, (K, V))
	L4b = list[Dict[T, int]]
	self.assertEqual(L4b.__args__, (Dict[T, int],))
	self.assertEqual(L4b.__parameters__, (T,))
	L5 = list[Callable[[K, V], K]]
	self.assertEqual(L5.__args__, (Callable[[K, V], K],))
	self.assertEqual(L5.__parameters__, (K, V))

	def test_parameter_chaining(self):
	from typing import List, Dict, Union, Callable
	self.assertEqual(list[T][int], list[int])
	self.assertEqual(dict[str, T][int], dict[str, int])
	self.assertEqual(dict[T, int][str], dict[str, int])
	self.assertEqual(dict[K, V][str, int], dict[str, int])
	self.assertEqual(dict[T, T][int], dict[int, int])

	self.assertEqual(list[list[T]][int], list[list[int]])
	self.assertEqual(list[dict[T, int]][str], list[dict[str, int]])
	self.assertEqual(list[dict[str, T]][int], list[dict[str, int]])
	self.assertEqual(list[dict[K, V]][str, int], list[dict[str, int]])
	self.assertEqual(dict[T, list[int]][str], dict[str, list[int]])

	self.assertEqual(list[List[T]][int], list[List[int]])
	self.assertEqual(list[Dict[K, V]][str, int], list[Dict[str, int]])
	self.assertEqual(list[Union[K, V]][str, int], list[Union[str, int]])
	self.assertEqual(list[Callable[[K, V], K]][str, int],
	list[Callable[[str, int], str]])
	self.assertEqual(dict[T, List[int]][str], dict[str, List[int]])

	with self.assertRaises(TypeError):
	list[int][int]
	dict[T, int][str, int]
	dict[str, T][str, int]
	dict[T, T][str, int]

	def test_equality(self):
	self.assertEqual(list[int], list[int])
	self.assertEqual(dict[str, int], dict[str, int])
	self.assertNotEqual(dict[str, int], dict[str, str])
	self.assertNotEqual(list, list[int])
	self.assertNotEqual(list[int], list)

	def test_isinstance(self):
	self.assertTrue(isinstance([], list))
	with self.assertRaises(TypeError):
	isinstance([], list[str])

	def test_issubclass(self):
	class L(list): ...
	self.assertTrue(issubclass(L, list))
	with self.assertRaises(TypeError):
	issubclass(L, list[str])

	def test_type_generic(self):
	t = type[int]
	Test = t('Test', (), {})
	self.assertTrue(isinstance(Test, type))
	test = Test()
	self.assertEqual(t(test), Test)
	self.assertEqual(t(0), int)

	def test_type_subclass_generic(self):
	class MyType(type):
	pass
	with self.assertRaises(TypeError):
	MyType[int]

	def test_pickle(self):
	alias = GenericAlias(list, T)
	s = pickle.dumps(alias)
	loaded = pickle.loads(s)
	self.assertEqual(alias.__origin__, loaded.__origin__)
	self.assertEqual(alias.__args__, loaded.__args__)
	self.assertEqual(alias.__parameters__, loaded.__parameters__)

	def test_union(self):
	a = typing.Union[list[int], list[str]]
	self.assertEqual(a.__args__, (list[int], list[str]))
	self.assertEqual(a.__parameters__, ())

	def test_union_generic(self):
	a = typing.Union[list[T], tuple[T, ...]]
	self.assertEqual(a.__args__, (list[T], tuple[T, ...]))
	self.assertEqual(a.__parameters__, (T,))

	def test_dir(self):
	dir_of_gen_alias = set(dir(list[int]))
	self.assertTrue(dir_of_gen_alias.issuperset(dir(list)))
	for generic_alias_property in ("__origin__", "__args__", "__parameters__"):
	self.assertIn(generic_alias_property, dir_of_gen_alias)

	def test_weakref(self):
	for t in self.generic_types:
	if t is None:
	continue
	tname = t.__name__
	with self.subTest(f"Testing {tname}"):
	alias = t[int]
	self.assertEqual(ref(alias)(), alias)

	def test_no_kwargs(self):
	# bpo-42576
	with self.assertRaises(TypeError):
	GenericAlias(bad=float)


	if __name__ == "__main__":
	unittest.main()