mirror of https://github.com/python/cpython
443 lines
16 KiB
Python
443 lines
16 KiB
Python
# Test various flavors of legal and illegal future statements
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import __future__
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import ast
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import unittest
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from test.support import import_helper
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from textwrap import dedent
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import os
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import re
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import sys
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rx = re.compile(r'\((\S+).py, line (\d+)')
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def get_error_location(msg):
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mo = rx.search(str(msg))
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return mo.group(1, 2)
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class FutureTest(unittest.TestCase):
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def check_syntax_error(self, err, basename, lineno, offset=1):
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self.assertIn('%s.py, line %d' % (basename, lineno), str(err))
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self.assertEqual(os.path.basename(err.filename), basename + '.py')
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self.assertEqual(err.lineno, lineno)
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self.assertEqual(err.offset, offset)
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def test_future1(self):
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with import_helper.CleanImport('future_test1'):
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from test import future_test1
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self.assertEqual(future_test1.result, 6)
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def test_future2(self):
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with import_helper.CleanImport('future_test2'):
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from test import future_test2
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self.assertEqual(future_test2.result, 6)
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def test_future3(self):
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with import_helper.CleanImport('test_future3'):
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from test import test_future3
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def test_badfuture3(self):
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with self.assertRaises(SyntaxError) as cm:
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from test import badsyntax_future3
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self.check_syntax_error(cm.exception, "badsyntax_future3", 3)
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def test_badfuture4(self):
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with self.assertRaises(SyntaxError) as cm:
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from test import badsyntax_future4
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self.check_syntax_error(cm.exception, "badsyntax_future4", 3)
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def test_badfuture5(self):
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with self.assertRaises(SyntaxError) as cm:
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from test import badsyntax_future5
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self.check_syntax_error(cm.exception, "badsyntax_future5", 4)
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def test_badfuture6(self):
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with self.assertRaises(SyntaxError) as cm:
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from test import badsyntax_future6
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self.check_syntax_error(cm.exception, "badsyntax_future6", 3)
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def test_badfuture7(self):
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with self.assertRaises(SyntaxError) as cm:
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from test import badsyntax_future7
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self.check_syntax_error(cm.exception, "badsyntax_future7", 3, 54)
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def test_badfuture8(self):
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with self.assertRaises(SyntaxError) as cm:
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from test import badsyntax_future8
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self.check_syntax_error(cm.exception, "badsyntax_future8", 3)
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def test_badfuture9(self):
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with self.assertRaises(SyntaxError) as cm:
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from test import badsyntax_future9
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self.check_syntax_error(cm.exception, "badsyntax_future9", 3)
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def test_badfuture10(self):
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with self.assertRaises(SyntaxError) as cm:
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from test import badsyntax_future10
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self.check_syntax_error(cm.exception, "badsyntax_future10", 3)
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def test_ensure_flags_dont_clash(self):
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# bpo-39562: test that future flags and compiler flags doesn't clash
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# obtain future flags (CO_FUTURE_***) from the __future__ module
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flags = {
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f"CO_FUTURE_{future.upper()}": getattr(__future__, future).compiler_flag
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for future in __future__.all_feature_names
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}
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# obtain some of the exported compiler flags (PyCF_***) from the ast module
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flags |= {
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flag: getattr(ast, flag)
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for flag in dir(ast) if flag.startswith("PyCF_")
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}
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self.assertCountEqual(set(flags.values()), flags.values())
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def test_parserhack(self):
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# test that the parser.c::future_hack function works as expected
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# Note: although this test must pass, it's not testing the original
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# bug as of 2.6 since the with statement is not optional and
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# the parser hack disabled. If a new keyword is introduced in
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# 2.6, change this to refer to the new future import.
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try:
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exec("from __future__ import print_function; print 0")
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except SyntaxError:
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pass
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else:
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self.fail("syntax error didn't occur")
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try:
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exec("from __future__ import (print_function); print 0")
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except SyntaxError:
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pass
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else:
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self.fail("syntax error didn't occur")
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def test_multiple_features(self):
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with import_helper.CleanImport("test.test_future5"):
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from test import test_future5
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def test_unicode_literals_exec(self):
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scope = {}
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exec("from __future__ import unicode_literals; x = ''", {}, scope)
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self.assertIsInstance(scope["x"], str)
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class AnnotationsFutureTestCase(unittest.TestCase):
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template = dedent(
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"""
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from __future__ import annotations
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def f() -> {ann}:
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...
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def g(arg: {ann}) -> None:
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...
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async def f2() -> {ann}:
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...
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async def g2(arg: {ann}) -> None:
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...
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class H:
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var: {ann}
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object.attr: {ann}
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var: {ann}
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var2: {ann} = None
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object.attr: {ann}
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"""
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)
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def getActual(self, annotation):
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scope = {}
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exec(self.template.format(ann=annotation), {}, scope)
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func_ret_ann = scope['f'].__annotations__['return']
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func_arg_ann = scope['g'].__annotations__['arg']
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async_func_ret_ann = scope['f2'].__annotations__['return']
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async_func_arg_ann = scope['g2'].__annotations__['arg']
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var_ann1 = scope['__annotations__']['var']
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var_ann2 = scope['__annotations__']['var2']
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self.assertEqual(func_ret_ann, func_arg_ann)
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self.assertEqual(func_ret_ann, async_func_ret_ann)
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self.assertEqual(func_ret_ann, async_func_arg_ann)
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self.assertEqual(func_ret_ann, var_ann1)
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self.assertEqual(func_ret_ann, var_ann2)
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return func_ret_ann
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def assertAnnotationEqual(
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self, annotation, expected=None, drop_parens=False, is_tuple=False,
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):
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actual = self.getActual(annotation)
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if expected is None:
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expected = annotation if not is_tuple else annotation[1:-1]
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if drop_parens:
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self.assertNotEqual(actual, expected)
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actual = actual.replace("(", "").replace(")", "")
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self.assertEqual(actual, expected)
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def _exec_future(self, code):
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scope = {}
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exec(
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"from __future__ import annotations\n"
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+ code, scope
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)
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return scope
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def test_annotations(self):
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eq = self.assertAnnotationEqual
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eq('...')
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eq("'some_string'")
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eq("u'some_string'")
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eq("b'\\xa3'")
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eq('Name')
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eq('None')
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eq('True')
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eq('False')
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eq('1')
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eq('1.0')
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eq('1j')
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eq('True or False')
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eq('True or False or None')
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eq('True and False')
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eq('True and False and None')
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eq('Name1 and Name2 or Name3')
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eq('Name1 and (Name2 or Name3)')
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eq('Name1 or Name2 and Name3')
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eq('(Name1 or Name2) and Name3')
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eq('Name1 and Name2 or Name3 and Name4')
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eq('Name1 or Name2 and Name3 or Name4')
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eq('a + b + (c + d)')
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eq('a * b * (c * d)')
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eq('(a ** b) ** c ** d')
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eq('v1 << 2')
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eq('1 >> v2')
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eq('1 % finished')
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eq('1 + v2 - v3 * 4 ^ 5 ** v6 / 7 // 8')
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eq('not great')
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eq('not not great')
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eq('~great')
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eq('+value')
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eq('++value')
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eq('-1')
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eq('~int and not v1 ^ 123 + v2 | True')
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eq('a + (not b)')
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eq('lambda: None')
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eq('lambda arg: None')
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eq('lambda a=True: a')
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eq('lambda a, b, c=True: a')
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eq("lambda a, b, c=True, *, d=1 << v2, e='str': a")
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eq("lambda a, b, c=True, *vararg, d, e='str', **kwargs: a + b")
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eq("lambda a, /, b, c=True, *vararg, d, e='str', **kwargs: a + b")
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eq('lambda x, /: x')
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eq('lambda x=1, /: x')
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eq('lambda x, /, y: x + y')
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eq('lambda x=1, /, y=2: x + y')
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eq('lambda x, /, y=1: x + y')
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eq('lambda x, /, y=1, *, z=3: x + y + z')
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eq('lambda x=1, /, y=2, *, z=3: x + y + z')
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eq('lambda x=1, /, y=2, *, z: x + y + z')
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eq('lambda x=1, y=2, z=3, /, w=4, *, l, l2: x + y + z + w + l + l2')
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eq('lambda x=1, y=2, z=3, /, w=4, *, l, l2, **kwargs: x + y + z + w + l + l2')
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eq('lambda x, /, y=1, *, z: x + y + z')
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eq('lambda x: lambda y: x + y')
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eq('1 if True else 2')
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eq('str or None if int or True else str or bytes or None')
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eq('str or None if (1 if True else 2) else str or bytes or None')
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eq("0 if not x else 1 if x > 0 else -1")
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eq("(1 if x > 0 else -1) if x else 0")
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eq("{'2.7': dead, '3.7': long_live or die_hard}")
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eq("{'2.7': dead, '3.7': long_live or die_hard, **{'3.6': verygood}}")
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eq("{**a, **b, **c}")
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eq("{'2.7', '3.6', '3.7', '3.8', '3.9', '4.0' if gilectomy else '3.10'}")
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eq("{*a, *b, *c}")
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eq("({'a': 'b'}, True or False, +value, 'string', b'bytes') or None")
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eq("()")
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eq("(a,)")
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eq("(a, b)")
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eq("(a, b, c)")
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eq("(*a, *b, *c)")
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eq("[]")
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eq("[1, 2, 3, 4, 5, 6, 7, 8, 9, 10 or A, 11 or B, 12 or C]")
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eq("[*a, *b, *c]")
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eq("{i for i in (1, 2, 3)}")
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eq("{i ** 2 for i in (1, 2, 3)}")
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eq("{i ** 2 for i, _ in ((1, 'a'), (2, 'b'), (3, 'c'))}")
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eq("{i ** 2 + j for i in (1, 2, 3) for j in (1, 2, 3)}")
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eq("[i for i in (1, 2, 3)]")
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eq("[i ** 2 for i in (1, 2, 3)]")
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eq("[i ** 2 for i, _ in ((1, 'a'), (2, 'b'), (3, 'c'))]")
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eq("[i ** 2 + j for i in (1, 2, 3) for j in (1, 2, 3)]")
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eq("(i for i in (1, 2, 3))")
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eq("(i ** 2 for i in (1, 2, 3))")
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eq("(i ** 2 for i, _ in ((1, 'a'), (2, 'b'), (3, 'c')))")
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eq("(i ** 2 + j for i in (1, 2, 3) for j in (1, 2, 3))")
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eq("{i: 0 for i in (1, 2, 3)}")
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eq("{i: j for i, j in ((1, 'a'), (2, 'b'), (3, 'c'))}")
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eq("[(x, y) for x, y in (a, b)]")
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eq("[(x,) for x, in (a,)]")
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eq("Python3 > Python2 > COBOL")
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eq("Life is Life")
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eq("call()")
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eq("call(arg)")
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eq("call(kwarg='hey')")
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eq("call(arg, kwarg='hey')")
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eq("call(arg, *args, another, kwarg='hey')")
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eq("call(arg, another, kwarg='hey', **kwargs, kwarg2='ho')")
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eq("lukasz.langa.pl")
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eq("call.me(maybe)")
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eq("1 .real")
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eq("1.0.real")
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eq("....__class__")
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eq("list[str]")
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eq("dict[str, int]")
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eq("set[str,]")
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eq("tuple[()]")
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eq("tuple[str, ...]")
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eq("tuple[str, *types]")
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eq("tuple[str, int, (str, int)]")
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eq("tuple[*int, str, str, (str, int)]")
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eq("tuple[str, int, float, dict[str, int]]")
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eq("slice[0]")
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eq("slice[0:1]")
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eq("slice[0:1:2]")
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eq("slice[:]")
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eq("slice[:-1]")
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eq("slice[1:]")
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eq("slice[::-1]")
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eq("slice[:,]")
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eq("slice[1:2,]")
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eq("slice[1:2:3,]")
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eq("slice[1:2, 1]")
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eq("slice[1:2, 2, 3]")
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eq("slice[()]")
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# Note that `slice[*Ts]`, `slice[*Ts,]`, and `slice[(*Ts,)]` all have
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# the same AST, but only `slice[*Ts,]` passes this test, because that's
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# what the unparser produces.
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eq("slice[*Ts,]")
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eq("slice[1, *Ts]")
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eq("slice[*Ts, 2]")
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eq("slice[1, *Ts, 2]")
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eq("slice[*Ts, *Ts]")
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eq("slice[1, *Ts, *Ts]")
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eq("slice[*Ts, 1, *Ts]")
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eq("slice[*Ts, *Ts, 1]")
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eq("slice[1, *Ts, *Ts, 2]")
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eq("slice[1:2, *Ts]")
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eq("slice[*Ts, 1:2]")
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eq("slice[1:2, *Ts, 3:4]")
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eq("slice[a, b:c, d:e:f]")
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eq("slice[(x for x in a)]")
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eq('str or None if sys.version_info[0] > (3,) else str or bytes or None')
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eq("f'f-string without formatted values is just a string'")
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eq("f'{{NOT a formatted value}}'")
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eq("f'some f-string with {a} {few():.2f} {formatted.values!r}'")
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eq('''f"{f'{nested} inner'} outer"''')
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eq("f'space between opening braces: { {a for a in (1, 2, 3)}}'")
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eq("f'{(lambda x: x)}'")
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eq("f'{(None if a else lambda x: x)}'")
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eq("f'{x}'")
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eq("f'{x!r}'")
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eq("f'{x!a}'")
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eq('[x for x in (a if b else c)]')
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eq('[x for x in a if (b if c else d)]')
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eq('f(x for x in a)')
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eq('f(1, (x for x in a))')
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eq('f((x for x in a), 2)')
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eq('(((a)))', 'a')
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eq('(((a, b)))', '(a, b)')
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eq("1 + 2 + 3")
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def test_fstring_debug_annotations(self):
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# f-strings with '=' don't round trip very well, so set the expected
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# result explicitly.
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self.assertAnnotationEqual("f'{x=!r}'", expected="f'x={x!r}'")
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self.assertAnnotationEqual("f'{x=:}'", expected="f'x={x:}'")
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self.assertAnnotationEqual("f'{x=:.2f}'", expected="f'x={x:.2f}'")
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self.assertAnnotationEqual("f'{x=!r}'", expected="f'x={x!r}'")
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self.assertAnnotationEqual("f'{x=!a}'", expected="f'x={x!a}'")
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self.assertAnnotationEqual("f'{x=!s:*^20}'", expected="f'x={x!s:*^20}'")
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def test_infinity_numbers(self):
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inf = "1e" + repr(sys.float_info.max_10_exp + 1)
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infj = f"{inf}j"
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self.assertAnnotationEqual("1e1000", expected=inf)
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self.assertAnnotationEqual("1e1000j", expected=infj)
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self.assertAnnotationEqual("-1e1000", expected=f"-{inf}")
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self.assertAnnotationEqual("3+1e1000j", expected=f"3 + {infj}")
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self.assertAnnotationEqual("(1e1000, 1e1000j)", expected=f"({inf}, {infj})")
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self.assertAnnotationEqual("'inf'")
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self.assertAnnotationEqual("('inf', 1e1000, 'infxxx', 1e1000j)", expected=f"('inf', {inf}, 'infxxx', {infj})")
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self.assertAnnotationEqual("(1e1000, (1e1000j,))", expected=f"({inf}, ({infj},))")
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def test_annotation_with_complex_target(self):
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with self.assertRaises(SyntaxError):
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exec(
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"from __future__ import annotations\n"
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"object.__debug__: int"
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)
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def test_annotations_symbol_table_pass(self):
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namespace = self._exec_future(dedent("""
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from __future__ import annotations
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def foo():
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outer = 1
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def bar():
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inner: outer = 1
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return bar
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"""))
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foo = namespace.pop("foo")
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self.assertIsNone(foo().__closure__)
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self.assertEqual(foo.__code__.co_cellvars, ())
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self.assertEqual(foo().__code__.co_freevars, ())
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def test_annotations_forbidden(self):
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with self.assertRaises(SyntaxError):
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self._exec_future("test: (yield)")
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with self.assertRaises(SyntaxError):
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self._exec_future("test.test: (yield a + b)")
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with self.assertRaises(SyntaxError):
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self._exec_future("test[something]: (yield from x)")
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with self.assertRaises(SyntaxError):
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self._exec_future("def func(test: (yield from outside_of_generator)): pass")
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with self.assertRaises(SyntaxError):
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self._exec_future("def test() -> (await y): pass")
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with self.assertRaises(SyntaxError):
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self._exec_future("async def test() -> something((a := b)): pass")
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with self.assertRaises(SyntaxError):
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self._exec_future("test: await some.complicated[0].call(with_args=True or 1 is not 1)")
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with self.assertRaises(SyntaxError):
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self._exec_future("test: f'{(x := 10):=10}'")
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with self.assertRaises(SyntaxError):
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self._exec_future(dedent("""\
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def foo():
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def bar(arg: (yield)): pass
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"""))
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def test_get_type_hints_on_func_with_variadic_arg(self):
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# `typing.get_type_hints` might break on a function with a variadic
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# annotation (e.g. `f(*args: *Ts)`) if `from __future__ import
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# annotations`, because it could try to evaluate `*Ts` as an expression,
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# which on its own isn't value syntax.
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namespace = self._exec_future(dedent("""\
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class StarredC: pass
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class C:
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def __iter__(self):
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yield StarredC()
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c = C()
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def f(*args: *c): pass
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import typing
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hints = typing.get_type_hints(f)
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"""))
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hints = namespace.pop('hints')
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self.assertIsInstance(hints['args'], namespace['StarredC'])
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if __name__ == "__main__":
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unittest.main()
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