"""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 from ctypes import Array, LibraryLoader 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 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.""" def test_subscriptable(self): for t in (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, Array, LibraryLoader, SplitResult, ParseResult, ValueProxy, ApplyResult, WeakSet, ReferenceType, ref, ShareableList, SimpleQueue, Future, _WorkItem, Morsel, ): 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..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,)) if __name__ == "__main__": unittest.main()