cpython/Lib/test/test_future_stmt/test_future.py

525 lines
19 KiB
Python

# Test various flavors of legal and illegal future statements
import __future__
import ast
import unittest
from test.support import import_helper
from test.support.script_helper import spawn_python, kill_python
from textwrap import dedent
import os
import re
import sys
TOP_LEVEL_MSG = 'from __future__ imports must occur at the beginning of the file'
rx = re.compile(r'\((\S+).py, line (\d+)')
def get_error_location(msg):
mo = rx.search(str(msg))
return mo.group(1, 2)
class FutureTest(unittest.TestCase):
def check_syntax_error(self, err, basename,
*,
lineno,
message=TOP_LEVEL_MSG, offset=1):
if basename != '<string>':
basename += '.py'
self.assertEqual(f'{message} ({basename}, line {lineno})', str(err))
self.assertEqual(os.path.basename(err.filename), basename)
self.assertEqual(err.lineno, lineno)
self.assertEqual(err.offset, offset)
def assertSyntaxError(self, code,
*,
lineno=1,
message=TOP_LEVEL_MSG, offset=1,
parametrize_docstring=True):
code = dedent(code.lstrip('\n'))
for add_docstring in ([False, True] if parametrize_docstring else [False]):
with self.subTest(code=code, add_docstring=add_docstring):
if add_docstring:
code = '"""Docstring"""\n' + code
lineno += 1
with self.assertRaises(SyntaxError) as cm:
exec(code)
self.check_syntax_error(cm.exception, "<string>",
lineno=lineno,
message=message,
offset=offset)
def test_import_nested_scope_twice(self):
# Import the name nested_scopes twice to trigger SF bug #407394
with import_helper.CleanImport(
'test.test_future_stmt.import_nested_scope_twice',
):
from test.test_future_stmt import import_nested_scope_twice
self.assertEqual(import_nested_scope_twice.result, 6)
def test_nested_scope(self):
with import_helper.CleanImport('test.test_future_stmt.nested_scope'):
from test.test_future_stmt import nested_scope
self.assertEqual(nested_scope.result, 6)
def test_future_single_import(self):
with import_helper.CleanImport(
'test.test_future_stmt.test_future_single_import',
):
from test.test_future_stmt import test_future_single_import
def test_future_multiple_imports(self):
with import_helper.CleanImport(
'test.test_future_stmt.test_future_multiple_imports',
):
from test.test_future_stmt import test_future_multiple_imports
def test_future_multiple_features(self):
with import_helper.CleanImport(
"test.test_future_stmt.test_future_multiple_features",
):
from test.test_future_stmt import test_future_multiple_features
def test_unknown_future_flag(self):
code = """
from __future__ import nested_scopes
from __future__ import rested_snopes # typo error here: nested => rested
"""
self.assertSyntaxError(
code, lineno=2,
message='future feature rested_snopes is not defined',
)
def test_future_import_not_on_top(self):
code = """
import some_module
from __future__ import annotations
"""
self.assertSyntaxError(code, lineno=2)
code = """
import __future__
from __future__ import annotations
"""
self.assertSyntaxError(code, lineno=2)
code = """
from __future__ import absolute_import
"spam, bar, blah"
from __future__ import print_function
"""
self.assertSyntaxError(code, lineno=3)
def test_future_import_with_extra_string(self):
code = """
'''Docstring'''
"this isn't a doc string"
from __future__ import nested_scopes
"""
self.assertSyntaxError(code, lineno=3, parametrize_docstring=False)
def test_multiple_import_statements_on_same_line(self):
# With `\`:
code = """
from __future__ import nested_scopes; import string; from __future__ import \
nested_scopes
"""
self.assertSyntaxError(code, offset=54)
# Without `\`:
code = """
from __future__ import nested_scopes; import string; from __future__ import nested_scopes
"""
self.assertSyntaxError(code, offset=54)
def test_future_import_star(self):
code = """
from __future__ import *
"""
self.assertSyntaxError(code, message='future feature * is not defined')
def test_future_import_braces(self):
code = """
from __future__ import braces
"""
# Congrats, you found an easter egg!
self.assertSyntaxError(code, message='not a chance')
code = """
from __future__ import nested_scopes, braces
"""
self.assertSyntaxError(code, message='not a chance')
def test_module_with_future_import_not_on_top(self):
with self.assertRaises(SyntaxError) as cm:
from test.test_future_stmt import badsyntax_future
self.check_syntax_error(cm.exception, "badsyntax_future", lineno=3)
def test_ensure_flags_dont_clash(self):
# bpo-39562: test that future flags and compiler flags doesn't clash
# obtain future flags (CO_FUTURE_***) from the __future__ module
flags = {
f"CO_FUTURE_{future.upper()}": getattr(__future__, future).compiler_flag
for future in __future__.all_feature_names
}
# obtain some of the exported compiler flags (PyCF_***) from the ast module
flags |= {
flag: getattr(ast, flag)
for flag in dir(ast) if flag.startswith("PyCF_")
}
self.assertCountEqual(set(flags.values()), flags.values())
def test_parserhack(self):
# test that the parser.c::future_hack function works as expected
# Note: although this test must pass, it's not testing the original
# bug as of 2.6 since the with statement is not optional and
# the parser hack disabled. If a new keyword is introduced in
# 2.6, change this to refer to the new future import.
try:
exec("from __future__ import print_function; print 0")
except SyntaxError:
pass
else:
self.fail("syntax error didn't occur")
try:
exec("from __future__ import (print_function); print 0")
except SyntaxError:
pass
else:
self.fail("syntax error didn't occur")
def test_unicode_literals_exec(self):
scope = {}
exec("from __future__ import unicode_literals; x = ''", {}, scope)
self.assertIsInstance(scope["x"], str)
def test_syntactical_future_repl(self):
p = spawn_python('-i')
p.stdin.write(b"from __future__ import barry_as_FLUFL\n")
p.stdin.write(b"2 <> 3\n")
out = kill_python(p)
self.assertNotIn(b'SyntaxError: invalid syntax', out)
class AnnotationsFutureTestCase(unittest.TestCase):
template = dedent(
"""
from __future__ import annotations
def f() -> {ann}:
...
def g(arg: {ann}) -> None:
...
async def f2() -> {ann}:
...
async def g2(arg: {ann}) -> None:
...
class H:
var: {ann}
object.attr: {ann}
var: {ann}
var2: {ann} = None
object.attr: {ann}
"""
)
def getActual(self, annotation):
scope = {}
exec(self.template.format(ann=annotation), {}, scope)
func_ret_ann = scope['f'].__annotations__['return']
func_arg_ann = scope['g'].__annotations__['arg']
async_func_ret_ann = scope['f2'].__annotations__['return']
async_func_arg_ann = scope['g2'].__annotations__['arg']
var_ann1 = scope['__annotations__']['var']
var_ann2 = scope['__annotations__']['var2']
self.assertEqual(func_ret_ann, func_arg_ann)
self.assertEqual(func_ret_ann, async_func_ret_ann)
self.assertEqual(func_ret_ann, async_func_arg_ann)
self.assertEqual(func_ret_ann, var_ann1)
self.assertEqual(func_ret_ann, var_ann2)
return func_ret_ann
def assertAnnotationEqual(
self, annotation, expected=None, drop_parens=False, is_tuple=False,
):
actual = self.getActual(annotation)
if expected is None:
expected = annotation if not is_tuple else annotation[1:-1]
if drop_parens:
self.assertNotEqual(actual, expected)
actual = actual.replace("(", "").replace(")", "")
self.assertEqual(actual, expected)
def _exec_future(self, code):
scope = {}
exec(
"from __future__ import annotations\n"
+ code, scope
)
return scope
def test_annotations(self):
eq = self.assertAnnotationEqual
eq('...')
eq("'some_string'")
eq("u'some_string'")
eq("b'\\xa3'")
eq('Name')
eq('None')
eq('True')
eq('False')
eq('1')
eq('1.0')
eq('1j')
eq('True or False')
eq('True or False or None')
eq('True and False')
eq('True and False and None')
eq('Name1 and Name2 or Name3')
eq('Name1 and (Name2 or Name3)')
eq('Name1 or Name2 and Name3')
eq('(Name1 or Name2) and Name3')
eq('Name1 and Name2 or Name3 and Name4')
eq('Name1 or Name2 and Name3 or Name4')
eq('a + b + (c + d)')
eq('a * b * (c * d)')
eq('(a ** b) ** c ** d')
eq('v1 << 2')
eq('1 >> v2')
eq('1 % finished')
eq('1 + v2 - v3 * 4 ^ 5 ** v6 / 7 // 8')
eq('not great')
eq('not not great')
eq('~great')
eq('+value')
eq('++value')
eq('-1')
eq('~int and not v1 ^ 123 + v2 | True')
eq('a + (not b)')
eq('lambda: None')
eq('lambda arg: None')
eq('lambda a=True: a')
eq('lambda a, b, c=True: a')
eq("lambda a, b, c=True, *, d=1 << v2, e='str': a")
eq("lambda a, b, c=True, *vararg, d, e='str', **kwargs: a + b")
eq("lambda a, /, b, c=True, *vararg, d, e='str', **kwargs: a + b")
eq('lambda x, /: x')
eq('lambda x=1, /: x')
eq('lambda x, /, y: x + y')
eq('lambda x=1, /, y=2: x + y')
eq('lambda x, /, y=1: x + y')
eq('lambda x, /, y=1, *, z=3: x + y + z')
eq('lambda x=1, /, y=2, *, z=3: x + y + z')
eq('lambda x=1, /, y=2, *, z: x + y + z')
eq('lambda x=1, y=2, z=3, /, w=4, *, l, l2: x + y + z + w + l + l2')
eq('lambda x=1, y=2, z=3, /, w=4, *, l, l2, **kwargs: x + y + z + w + l + l2')
eq('lambda x, /, y=1, *, z: x + y + z')
eq('lambda x: lambda y: x + y')
eq('1 if True else 2')
eq('str or None if int or True else str or bytes or None')
eq('str or None if (1 if True else 2) else str or bytes or None')
eq("0 if not x else 1 if x > 0 else -1")
eq("(1 if x > 0 else -1) if x else 0")
eq("{'2.7': dead, '3.7': long_live or die_hard}")
eq("{'2.7': dead, '3.7': long_live or die_hard, **{'3.6': verygood}}")
eq("{**a, **b, **c}")
eq("{'2.7', '3.6', '3.7', '3.8', '3.9', '4.0' if gilectomy else '3.10'}")
eq("{*a, *b, *c}")
eq("({'a': 'b'}, True or False, +value, 'string', b'bytes') or None")
eq("()")
eq("(a,)")
eq("(a, b)")
eq("(a, b, c)")
eq("(*a, *b, *c)")
eq("[]")
eq("[1, 2, 3, 4, 5, 6, 7, 8, 9, 10 or A, 11 or B, 12 or C]")
eq("[*a, *b, *c]")
eq("{i for i in (1, 2, 3)}")
eq("{i ** 2 for i in (1, 2, 3)}")
eq("{i ** 2 for i, _ in ((1, 'a'), (2, 'b'), (3, 'c'))}")
eq("{i ** 2 + j for i in (1, 2, 3) for j in (1, 2, 3)}")
eq("[i for i in (1, 2, 3)]")
eq("[i ** 2 for i in (1, 2, 3)]")
eq("[i ** 2 for i, _ in ((1, 'a'), (2, 'b'), (3, 'c'))]")
eq("[i ** 2 + j for i in (1, 2, 3) for j in (1, 2, 3)]")
eq("(i for i in (1, 2, 3))")
eq("(i ** 2 for i in (1, 2, 3))")
eq("(i ** 2 for i, _ in ((1, 'a'), (2, 'b'), (3, 'c')))")
eq("(i ** 2 + j for i in (1, 2, 3) for j in (1, 2, 3))")
eq("{i: 0 for i in (1, 2, 3)}")
eq("{i: j for i, j in ((1, 'a'), (2, 'b'), (3, 'c'))}")
eq("[(x, y) for x, y in (a, b)]")
eq("[(x,) for x, in (a,)]")
eq("Python3 > Python2 > COBOL")
eq("Life is Life")
eq("call()")
eq("call(arg)")
eq("call(kwarg='hey')")
eq("call(arg, kwarg='hey')")
eq("call(arg, *args, another, kwarg='hey')")
eq("call(arg, another, kwarg='hey', **kwargs, kwarg2='ho')")
eq("lukasz.langa.pl")
eq("call.me(maybe)")
eq("1 .real")
eq("1.0.real")
eq("....__class__")
eq("list[str]")
eq("dict[str, int]")
eq("set[str,]")
eq("tuple[()]")
eq("tuple[str, ...]")
eq("tuple[str, *types]")
eq("tuple[str, int, (str, int)]")
eq("tuple[*int, str, str, (str, int)]")
eq("tuple[str, int, float, dict[str, int]]")
eq("slice[0]")
eq("slice[0:1]")
eq("slice[0:1:2]")
eq("slice[:]")
eq("slice[:-1]")
eq("slice[1:]")
eq("slice[::-1]")
eq("slice[:,]")
eq("slice[1:2,]")
eq("slice[1:2:3,]")
eq("slice[1:2, 1]")
eq("slice[1:2, 2, 3]")
eq("slice[()]")
# Note that `slice[*Ts]`, `slice[*Ts,]`, and `slice[(*Ts,)]` all have
# the same AST, but only `slice[*Ts,]` passes this test, because that's
# what the unparser produces.
eq("slice[*Ts,]")
eq("slice[1, *Ts]")
eq("slice[*Ts, 2]")
eq("slice[1, *Ts, 2]")
eq("slice[*Ts, *Ts]")
eq("slice[1, *Ts, *Ts]")
eq("slice[*Ts, 1, *Ts]")
eq("slice[*Ts, *Ts, 1]")
eq("slice[1, *Ts, *Ts, 2]")
eq("slice[1:2, *Ts]")
eq("slice[*Ts, 1:2]")
eq("slice[1:2, *Ts, 3:4]")
eq("slice[a, b:c, d:e:f]")
eq("slice[(x for x in a)]")
eq('str or None if sys.version_info[0] > (3,) else str or bytes or None')
eq("f'f-string without formatted values is just a string'")
eq("f'{{NOT a formatted value}}'")
eq("f'some f-string with {a} {few():.2f} {formatted.values!r}'")
eq('''f"{f'{nested} inner'} outer"''')
eq("f'space between opening braces: { {a for a in (1, 2, 3)}}'")
eq("f'{(lambda x: x)}'")
eq("f'{(None if a else lambda x: x)}'")
eq("f'{x}'")
eq("f'{x!r}'")
eq("f'{x!a}'")
eq('[x for x in (a if b else c)]')
eq('[x for x in a if (b if c else d)]')
eq('f(x for x in a)')
eq('f(1, (x for x in a))')
eq('f((x for x in a), 2)')
eq('(((a)))', 'a')
eq('(((a, b)))', '(a, b)')
eq("1 + 2 + 3")
def test_fstring_debug_annotations(self):
# f-strings with '=' don't round trip very well, so set the expected
# result explicitly.
self.assertAnnotationEqual("f'{x=!r}'", expected="f'x={x!r}'")
self.assertAnnotationEqual("f'{x=:}'", expected="f'x={x:}'")
self.assertAnnotationEqual("f'{x=:.2f}'", expected="f'x={x:.2f}'")
self.assertAnnotationEqual("f'{x=!r}'", expected="f'x={x!r}'")
self.assertAnnotationEqual("f'{x=!a}'", expected="f'x={x!a}'")
self.assertAnnotationEqual("f'{x=!s:*^20}'", expected="f'x={x!s:*^20}'")
def test_infinity_numbers(self):
inf = "1e" + repr(sys.float_info.max_10_exp + 1)
infj = f"{inf}j"
self.assertAnnotationEqual("1e1000", expected=inf)
self.assertAnnotationEqual("1e1000j", expected=infj)
self.assertAnnotationEqual("-1e1000", expected=f"-{inf}")
self.assertAnnotationEqual("3+1e1000j", expected=f"3 + {infj}")
self.assertAnnotationEqual("(1e1000, 1e1000j)", expected=f"({inf}, {infj})")
self.assertAnnotationEqual("'inf'")
self.assertAnnotationEqual("('inf', 1e1000, 'infxxx', 1e1000j)", expected=f"('inf', {inf}, 'infxxx', {infj})")
self.assertAnnotationEqual("(1e1000, (1e1000j,))", expected=f"({inf}, ({infj},))")
def test_annotation_with_complex_target(self):
with self.assertRaises(SyntaxError):
exec(
"from __future__ import annotations\n"
"object.__debug__: int"
)
def test_annotations_symbol_table_pass(self):
namespace = self._exec_future(dedent("""
from __future__ import annotations
def foo():
outer = 1
def bar():
inner: outer = 1
return bar
"""))
foo = namespace.pop("foo")
self.assertIsNone(foo().__closure__)
self.assertEqual(foo.__code__.co_cellvars, ())
self.assertEqual(foo().__code__.co_freevars, ())
def test_annotations_forbidden(self):
with self.assertRaises(SyntaxError):
self._exec_future("test: (yield)")
with self.assertRaises(SyntaxError):
self._exec_future("test.test: (yield a + b)")
with self.assertRaises(SyntaxError):
self._exec_future("test[something]: (yield from x)")
with self.assertRaises(SyntaxError):
self._exec_future("def func(test: (yield from outside_of_generator)): pass")
with self.assertRaises(SyntaxError):
self._exec_future("def test() -> (await y): pass")
with self.assertRaises(SyntaxError):
self._exec_future("async def test() -> something((a := b)): pass")
with self.assertRaises(SyntaxError):
self._exec_future("test: await some.complicated[0].call(with_args=True or 1 is not 1)")
with self.assertRaises(SyntaxError):
self._exec_future("test: f'{(x := 10):=10}'")
with self.assertRaises(SyntaxError):
self._exec_future(dedent("""\
def foo():
def bar(arg: (yield)): pass
"""))
def test_get_type_hints_on_func_with_variadic_arg(self):
# `typing.get_type_hints` might break on a function with a variadic
# annotation (e.g. `f(*args: *Ts)`) if `from __future__ import
# annotations`, because it could try to evaluate `*Ts` as an expression,
# which on its own isn't value syntax.
namespace = self._exec_future(dedent("""\
class StarredC: pass
class C:
def __iter__(self):
yield StarredC()
c = C()
def f(*args: *c): pass
import typing
hints = typing.get_type_hints(f)
"""))
hints = namespace.pop('hints')
self.assertIsInstance(hints['args'], namespace['StarredC'])
if __name__ == "__main__":
unittest.main()