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|
import contextlib
import copy
import inspect
import pickle
import sys
import types
import unittest
import warnings
from test import support
class AsyncYieldFrom:
def __init__(self, obj):
self.obj = obj
def __await__(self):
yield from self.obj
class AsyncYield:
def __init__(self, value):
self.value = value
def __await__(self):
yield self.value
def run_async(coro):
assert coro.__class__ in {types.GeneratorType, types.CoroutineType}
buffer = []
result = None
while True:
try:
buffer.append(coro.send(None))
except StopIteration as ex:
result = ex.args[0] if ex.args else None
break
return buffer, result
def run_async__await__(coro):
assert coro.__class__ is types.CoroutineType
aw = coro.__await__()
buffer = []
result = None
i = 0
while True:
try:
if i % 2:
buffer.append(next(aw))
else:
buffer.append(aw.send(None))
i += 1
except StopIteration as ex:
result = ex.args[0] if ex.args else None
break
return buffer, result
@contextlib.contextmanager
def silence_coro_gc():
with warnings.catch_warnings():
warnings.simplefilter("ignore")
yield
support.gc_collect()
class AsyncBadSyntaxTest(unittest.TestCase):
def test_badsyntax_1(self):
with self.assertRaisesRegex(SyntaxError, "'await' outside"):
import test.badsyntax_async1
def test_badsyntax_2(self):
with self.assertRaisesRegex(SyntaxError, "'await' outside"):
import test.badsyntax_async2
def test_badsyntax_3(self):
with self.assertRaisesRegex(SyntaxError, 'invalid syntax'):
import test.badsyntax_async3
def test_badsyntax_4(self):
with self.assertRaisesRegex(SyntaxError, 'invalid syntax'):
import test.badsyntax_async4
def test_badsyntax_5(self):
with self.assertRaisesRegex(SyntaxError, 'invalid syntax'):
import test.badsyntax_async5
def test_badsyntax_6(self):
with self.assertRaisesRegex(
SyntaxError, "'yield' inside async function"):
import test.badsyntax_async6
def test_badsyntax_7(self):
with self.assertRaisesRegex(
SyntaxError, "'yield from' inside async function"):
import test.badsyntax_async7
def test_badsyntax_8(self):
with self.assertRaisesRegex(SyntaxError, 'invalid syntax'):
import test.badsyntax_async8
def test_badsyntax_9(self):
ns = {}
for comp in {'(await a for a in b)',
'[await a for a in b]',
'{await a for a in b}',
'{await a: c for a in b}'}:
with self.assertRaisesRegex(SyntaxError, 'await.*in comprehen'):
exec('async def f():\n\t{}'.format(comp), ns, ns)
def test_badsyntax_10(self):
# Tests for issue 24619
samples = [
"""async def foo():
def bar(): pass
await = 1
""",
"""async def foo():
def bar(): pass
await = 1
""",
"""async def foo():
def bar(): pass
if 1:
await = 1
""",
"""def foo():
async def bar(): pass
if 1:
await a
""",
"""def foo():
async def bar(): pass
await a
""",
"""def foo():
def baz(): pass
async def bar(): pass
await a
""",
"""def foo():
def baz(): pass
# 456
async def bar(): pass
# 123
await a
""",
"""async def foo():
def baz(): pass
# 456
async def bar(): pass
# 123
await = 2
""",
"""def foo():
def baz(): pass
async def bar(): pass
await a
""",
"""async def foo():
def baz(): pass
async def bar(): pass
await = 2
""",
"""async def foo():
def async(): pass
""",
"""async def foo():
def await(): pass
""",
"""async def foo():
def bar():
await
""",
"""async def foo():
return lambda async: await
""",
"""async def foo():
return lambda a: await
""",
"""await a()""",
"""async def foo(a=await b):
pass
""",
"""async def foo(a:await b):
pass
""",
"""def baz():
async def foo(a=await b):
pass
""",
"""async def foo(async):
pass
""",
"""async def foo():
def bar():
def baz():
async = 1
""",
"""async def foo():
def bar():
def baz():
pass
async = 1
""",
"""def foo():
async def bar():
async def baz():
pass
def baz():
42
async = 1
""",
"""async def foo():
def bar():
def baz():
pass\nawait foo()
""",
"""def foo():
def bar():
async def baz():
pass\nawait foo()
""",
"""async def foo(await):
pass
""",
"""def foo():
async def bar(): pass
await a
""",
"""def foo():
async def bar():
pass\nawait a
"""]
for code in samples:
with self.subTest(code=code), self.assertRaises(SyntaxError):
compile(code, "<test>", "exec")
def test_goodsyntax_1(self):
# Tests for issue 24619
def foo(await):
async def foo(): pass
async def foo():
pass
return await + 1
self.assertEqual(foo(10), 11)
def foo(await):
async def foo(): pass
async def foo(): pass
return await + 2
self.assertEqual(foo(20), 22)
def foo(await):
async def foo(): pass
async def foo(): pass
return await + 2
self.assertEqual(foo(20), 22)
def foo(await):
"""spam"""
async def foo(): \
pass
# 123
async def foo(): pass
# 456
return await + 2
self.assertEqual(foo(20), 22)
def foo(await):
def foo(): pass
def foo(): pass
async def bar(): return await_
await_ = await
try:
bar().send(None)
except StopIteration as ex:
return ex.args[0]
self.assertEqual(foo(42), 42)
async def f():
async def g(): pass
await z
await = 1
self.assertTrue(inspect.iscoroutinefunction(f))
class TokenizerRegrTest(unittest.TestCase):
def test_oneline_defs(self):
buf = []
for i in range(500):
buf.append('def i{i}(): return {i}'.format(i=i))
buf = '\n'.join(buf)
# Test that 500 consequent, one-line defs is OK
ns = {}
exec(buf, ns, ns)
self.assertEqual(ns['i499'](), 499)
# Test that 500 consequent, one-line defs *and*
# one 'async def' following them is OK
buf += '\nasync def foo():\n return'
ns = {}
exec(buf, ns, ns)
self.assertEqual(ns['i499'](), 499)
self.assertTrue(inspect.iscoroutinefunction(ns['foo']))
class CoroutineTest(unittest.TestCase):
def test_gen_1(self):
def gen(): yield
self.assertFalse(hasattr(gen, '__await__'))
def test_func_1(self):
async def foo():
return 10
f = foo()
self.assertIsInstance(f, types.CoroutineType)
self.assertTrue(bool(foo.__code__.co_flags & inspect.CO_COROUTINE))
self.assertFalse(bool(foo.__code__.co_flags & inspect.CO_GENERATOR))
self.assertTrue(bool(f.cr_code.co_flags & inspect.CO_COROUTINE))
self.assertFalse(bool(f.cr_code.co_flags & inspect.CO_GENERATOR))
self.assertEqual(run_async(f), ([], 10))
self.assertEqual(run_async__await__(foo()), ([], 10))
def bar(): pass
self.assertFalse(bool(bar.__code__.co_flags & inspect.CO_COROUTINE))
def test_func_2(self):
async def foo():
raise StopIteration
with self.assertRaisesRegex(
RuntimeError, "coroutine raised StopIteration"):
run_async(foo())
def test_func_3(self):
async def foo():
raise StopIteration
with silence_coro_gc():
self.assertRegex(repr(foo()), '^<coroutine object.* at 0x.*>$')
def test_func_4(self):
async def foo():
raise StopIteration
check = lambda: self.assertRaisesRegex(
TypeError, "'coroutine' object is not iterable")
with check():
list(foo())
with check():
tuple(foo())
with check():
sum(foo())
with check():
iter(foo())
with silence_coro_gc(), check():
for i in foo():
pass
with silence_coro_gc(), check():
[i for i in foo()]
def test_func_5(self):
@types.coroutine
def bar():
yield 1
async def foo():
await bar()
check = lambda: self.assertRaisesRegex(
TypeError, "'coroutine' object is not iterable")
with check():
for el in foo(): pass
# the following should pass without an error
for el in bar():
self.assertEqual(el, 1)
self.assertEqual([el for el in bar()], [1])
self.assertEqual(tuple(bar()), (1,))
self.assertEqual(next(iter(bar())), 1)
def test_func_6(self):
@types.coroutine
def bar():
yield 1
yield 2
async def foo():
await bar()
f = foo()
self.assertEqual(f.send(None), 1)
self.assertEqual(f.send(None), 2)
with self.assertRaises(StopIteration):
f.send(None)
def test_func_7(self):
async def bar():
return 10
def foo():
yield from bar()
with silence_coro_gc(), self.assertRaisesRegex(
TypeError,
"cannot 'yield from' a coroutine object in a non-coroutine generator"):
list(foo())
def test_func_8(self):
@types.coroutine
def bar():
return (yield from foo())
async def foo():
return 'spam'
self.assertEqual(run_async(bar()), ([], 'spam') )
def test_func_9(self):
async def foo(): pass
with self.assertWarnsRegex(
RuntimeWarning, "coroutine '.*test_func_9.*foo' was never awaited"):
foo()
support.gc_collect()
def test_func_10(self):
N = 0
@types.coroutine
def gen():
nonlocal N
try:
a = yield
yield (a ** 2)
except ZeroDivisionError:
N += 100
raise
finally:
N += 1
async def foo():
await gen()
coro = foo()
aw = coro.__await__()
self.assertIs(aw, iter(aw))
next(aw)
self.assertEqual(aw.send(10), 100)
self.assertEqual(N, 0)
aw.close()
self.assertEqual(N, 1)
coro = foo()
aw = coro.__await__()
next(aw)
with self.assertRaises(ZeroDivisionError):
aw.throw(ZeroDivisionError, None, None)
self.assertEqual(N, 102)
def test_func_11(self):
async def func(): pass
coro = func()
# Test that PyCoro_Type and _PyCoroWrapper_Type types were properly
# initialized
self.assertIn('__await__', dir(coro))
self.assertIn('__iter__', dir(coro.__await__()))
self.assertIn('coroutine_wrapper', repr(coro.__await__()))
coro.close() # avoid RuntimeWarning
def test_func_12(self):
async def g():
i = me.send(None)
await foo
me = g()
with self.assertRaisesRegex(ValueError,
"coroutine already executing"):
me.send(None)
def test_func_13(self):
async def g():
pass
with self.assertRaisesRegex(
TypeError,
"can't send non-None value to a just-started coroutine"):
g().send('spam')
def test_func_14(self):
@types.coroutine
def gen():
yield
async def coro():
try:
await gen()
except GeneratorExit:
await gen()
c = coro()
c.send(None)
with self.assertRaisesRegex(RuntimeError,
"coroutine ignored GeneratorExit"):
c.close()
def test_func_15(self):
# See http://bugs.python.org/issue25887 for details
async def spammer():
return 'spam'
async def reader(coro):
return await coro
spammer_coro = spammer()
with self.assertRaisesRegex(StopIteration, 'spam'):
reader(spammer_coro).send(None)
with self.assertRaisesRegex(RuntimeError,
'cannot reuse already awaited coroutine'):
reader(spammer_coro).send(None)
def test_func_16(self):
# See http://bugs.python.org/issue25887 for details
@types.coroutine
def nop():
yield
async def send():
await nop()
return 'spam'
async def read(coro):
await nop()
return await coro
spammer = send()
reader = read(spammer)
reader.send(None)
reader.send(None)
with self.assertRaisesRegex(Exception, 'ham'):
reader.throw(Exception('ham'))
reader = read(spammer)
reader.send(None)
with self.assertRaisesRegex(RuntimeError,
'cannot reuse already awaited coroutine'):
reader.send(None)
with self.assertRaisesRegex(RuntimeError,
'cannot reuse already awaited coroutine'):
reader.throw(Exception('wat'))
def test_func_17(self):
# See http://bugs.python.org/issue25887 for details
async def coroutine():
return 'spam'
coro = coroutine()
with self.assertRaisesRegex(StopIteration, 'spam'):
coro.send(None)
with self.assertRaisesRegex(RuntimeError,
'cannot reuse already awaited coroutine'):
coro.send(None)
with self.assertRaisesRegex(RuntimeError,
'cannot reuse already awaited coroutine'):
coro.throw(Exception('wat'))
# Closing a coroutine shouldn't raise any exception even if it's
# already closed/exhausted (similar to generators)
coro.close()
coro.close()
def test_func_18(self):
# See http://bugs.python.org/issue25887 for details
async def coroutine():
return 'spam'
coro = coroutine()
await_iter = coro.__await__()
it = iter(await_iter)
with self.assertRaisesRegex(StopIteration, 'spam'):
it.send(None)
with self.assertRaisesRegex(RuntimeError,
'cannot reuse already awaited coroutine'):
it.send(None)
with self.assertRaisesRegex(RuntimeError,
'cannot reuse already awaited coroutine'):
# Although the iterator protocol requires iterators to
# raise another StopIteration here, we don't want to do
# that. In this particular case, the iterator will raise
# a RuntimeError, so that 'yield from' and 'await'
# expressions will trigger the error, instead of silently
# ignoring the call.
next(it)
with self.assertRaisesRegex(RuntimeError,
'cannot reuse already awaited coroutine'):
it.throw(Exception('wat'))
with self.assertRaisesRegex(RuntimeError,
'cannot reuse already awaited coroutine'):
it.throw(Exception('wat'))
# Closing a coroutine shouldn't raise any exception even if it's
# already closed/exhausted (similar to generators)
it.close()
it.close()
def test_func_19(self):
CHK = 0
@types.coroutine
def foo():
nonlocal CHK
yield
try:
yield
except GeneratorExit:
CHK += 1
async def coroutine():
await foo()
coro = coroutine()
coro.send(None)
coro.send(None)
self.assertEqual(CHK, 0)
coro.close()
self.assertEqual(CHK, 1)
for _ in range(3):
# Closing a coroutine shouldn't raise any exception even if it's
# already closed/exhausted (similar to generators)
coro.close()
self.assertEqual(CHK, 1)
def test_cr_await(self):
@types.coroutine
def a():
self.assertEqual(inspect.getcoroutinestate(coro_b), inspect.CORO_RUNNING)
self.assertIsNone(coro_b.cr_await)
yield
self.assertEqual(inspect.getcoroutinestate(coro_b), inspect.CORO_RUNNING)
self.assertIsNone(coro_b.cr_await)
async def c():
await a()
async def b():
self.assertIsNone(coro_b.cr_await)
await c()
self.assertIsNone(coro_b.cr_await)
coro_b = b()
self.assertEqual(inspect.getcoroutinestate(coro_b), inspect.CORO_CREATED)
self.assertIsNone(coro_b.cr_await)
coro_b.send(None)
self.assertEqual(inspect.getcoroutinestate(coro_b), inspect.CORO_SUSPENDED)
self.assertEqual(coro_b.cr_await.cr_await.gi_code.co_name, 'a')
with self.assertRaises(StopIteration):
coro_b.send(None) # complete coroutine
self.assertEqual(inspect.getcoroutinestate(coro_b), inspect.CORO_CLOSED)
self.assertIsNone(coro_b.cr_await)
def test_corotype_1(self):
ct = types.CoroutineType
self.assertIn('into coroutine', ct.send.__doc__)
self.assertIn('inside coroutine', ct.close.__doc__)
self.assertIn('in coroutine', ct.throw.__doc__)
self.assertIn('of the coroutine', ct.__dict__['__name__'].__doc__)
self.assertIn('of the coroutine', ct.__dict__['__qualname__'].__doc__)
self.assertEqual(ct.__name__, 'coroutine')
async def f(): pass
c = f()
self.assertIn('coroutine object', repr(c))
c.close()
def test_await_1(self):
async def foo():
await 1
with self.assertRaisesRegex(TypeError, "object int can.t.*await"):
run_async(foo())
def test_await_2(self):
async def foo():
await []
with self.assertRaisesRegex(TypeError, "object list can.t.*await"):
run_async(foo())
def test_await_3(self):
async def foo():
await AsyncYieldFrom([1, 2, 3])
self.assertEqual(run_async(foo()), ([1, 2, 3], None))
self.assertEqual(run_async__await__(foo()), ([1, 2, 3], None))
def test_await_4(self):
async def bar():
return 42
async def foo():
return await bar()
self.assertEqual(run_async(foo()), ([], 42))
def test_await_5(self):
class Awaitable:
def __await__(self):
return
async def foo():
return (await Awaitable())
with self.assertRaisesRegex(
TypeError, "__await__.*returned non-iterator of type"):
run_async(foo())
def test_await_6(self):
class Awaitable:
def __await__(self):
return iter([52])
async def foo():
return (await Awaitable())
self.assertEqual(run_async(foo()), ([52], None))
def test_await_7(self):
class Awaitable:
def __await__(self):
yield 42
return 100
async def foo():
return (await Awaitable())
self.assertEqual(run_async(foo()), ([42], 100))
def test_await_8(self):
class Awaitable:
pass
async def foo(): return await Awaitable()
with self.assertRaisesRegex(
TypeError, "object Awaitable can't be used in 'await' expression"):
run_async(foo())
def test_await_9(self):
def wrap():
return bar
async def bar():
return 42
async def foo():
b = bar()
db = {'b': lambda: wrap}
class DB:
b = wrap
return (await bar() + await wrap()() + await db['b']()()() +
await bar() * 1000 + await DB.b()())
async def foo2():
return -await bar()
self.assertEqual(run_async(foo()), ([], 42168))
self.assertEqual(run_async(foo2()), ([], -42))
def test_await_10(self):
async def baz():
return 42
async def bar():
return baz()
async def foo():
return await (await bar())
self.assertEqual(run_async(foo()), ([], 42))
def test_await_11(self):
def ident(val):
return val
async def bar():
return 'spam'
async def foo():
return ident(val=await bar())
async def foo2():
return await bar(), 'ham'
self.assertEqual(run_async(foo2()), ([], ('spam', 'ham')))
def test_await_12(self):
async def coro():
return 'spam'
class Awaitable:
def __await__(self):
return coro()
async def foo():
return await Awaitable()
with self.assertRaisesRegex(
TypeError, r"__await__\(\) returned a coroutine"):
run_async(foo())
def test_await_13(self):
class Awaitable:
def __await__(self):
return self
async def foo():
return await Awaitable()
with self.assertRaisesRegex(
TypeError, "__await__.*returned non-iterator of type"):
run_async(foo())
def test_await_14(self):
class Wrapper:
# Forces the interpreter to use CoroutineType.__await__
def __init__(self, coro):
assert coro.__class__ is types.CoroutineType
self.coro = coro
def __await__(self):
return self.coro.__await__()
class FutureLike:
def __await__(self):
return (yield)
class Marker(Exception):
pass
async def coro1():
try:
return await FutureLike()
except ZeroDivisionError:
raise Marker
async def coro2():
return await Wrapper(coro1())
c = coro2()
c.send(None)
with self.assertRaisesRegex(StopIteration, 'spam'):
c.send('spam')
c = coro2()
c.send(None)
with self.assertRaises(Marker):
c.throw(ZeroDivisionError)
def test_await_15(self):
@types.coroutine
def nop():
yield
async def coroutine():
await nop()
async def waiter(coro):
await coro
coro = coroutine()
coro.send(None)
with self.assertRaisesRegex(RuntimeError,
"coroutine is being awaited already"):
waiter(coro).send(None)
def test_with_1(self):
class Manager:
def __init__(self, name):
self.name = name
async def __aenter__(self):
await AsyncYieldFrom(['enter-1-' + self.name,
'enter-2-' + self.name])
return self
async def __aexit__(self, *args):
await AsyncYieldFrom(['exit-1-' + self.name,
'exit-2-' + self.name])
if self.name == 'B':
return True
async def foo():
async with Manager("A") as a, Manager("B") as b:
await AsyncYieldFrom([('managers', a.name, b.name)])
1/0
f = foo()
result, _ = run_async(f)
self.assertEqual(
result, ['enter-1-A', 'enter-2-A', 'enter-1-B', 'enter-2-B',
('managers', 'A', 'B'),
'exit-1-B', 'exit-2-B', 'exit-1-A', 'exit-2-A']
)
async def foo():
async with Manager("A") as a, Manager("C") as c:
await AsyncYieldFrom([('managers', a.name, c.name)])
1/0
with self.assertRaises(ZeroDivisionError):
run_async(foo())
def test_with_2(self):
class CM:
def __aenter__(self):
pass
async def foo():
async with CM():
pass
with self.assertRaisesRegex(AttributeError, '__aexit__'):
run_async(foo())
def test_with_3(self):
class CM:
def __aexit__(self):
pass
async def foo():
async with CM():
pass
with self.assertRaisesRegex(AttributeError, '__aenter__'):
run_async(foo())
def test_with_4(self):
class CM:
def __enter__(self):
pass
def __exit__(self):
pass
async def foo():
async with CM():
pass
with self.assertRaisesRegex(AttributeError, '__aexit__'):
run_async(foo())
def test_with_5(self):
# While this test doesn't make a lot of sense,
# it's a regression test for an early bug with opcodes
# generation
class CM:
async def __aenter__(self):
return self
async def __aexit__(self, *exc):
pass
async def func():
async with CM():
assert (1, ) == 1
with self.assertRaises(AssertionError):
run_async(func())
def test_with_6(self):
class CM:
def __aenter__(self):
return 123
def __aexit__(self, *e):
return 456
async def foo():
async with CM():
pass
with self.assertRaisesRegex(
TypeError, "object int can't be used in 'await' expression"):
# it's important that __aexit__ wasn't called
run_async(foo())
def test_with_7(self):
class CM:
async def __aenter__(self):
return self
def __aexit__(self, *e):
return 444
async def foo():
async with CM():
1/0
try:
run_async(foo())
except TypeError as exc:
self.assertRegex(
exc.args[0], "object int can't be used in 'await' expression")
self.assertTrue(exc.__context__ is not None)
self.assertTrue(isinstance(exc.__context__, ZeroDivisionError))
else:
self.fail('invalid asynchronous context manager did not fail')
def test_with_8(self):
CNT = 0
class CM:
async def __aenter__(self):
return self
def __aexit__(self, *e):
return 456
async def foo():
nonlocal CNT
async with CM():
CNT += 1
with self.assertRaisesRegex(
TypeError, "object int can't be used in 'await' expression"):
run_async(foo())
self.assertEqual(CNT, 1)
def test_with_9(self):
CNT = 0
class CM:
async def __aenter__(self):
return self
async def __aexit__(self, *e):
1/0
async def foo():
nonlocal CNT
async with CM():
CNT += 1
with self.assertRaises(ZeroDivisionError):
run_async(foo())
self.assertEqual(CNT, 1)
def test_with_10(self):
CNT = 0
class CM:
async def __aenter__(self):
return self
async def __aexit__(self, *e):
1/0
async def foo():
nonlocal CNT
async with CM():
async with CM():
raise RuntimeError
try:
run_async(foo())
except ZeroDivisionError as exc:
self.assertTrue(exc.__context__ is not None)
self.assertTrue(isinstance(exc.__context__, ZeroDivisionError))
self.assertTrue(isinstance(exc.__context__.__context__,
RuntimeError))
else:
self.fail('exception from __aexit__ did not propagate')
def test_with_11(self):
CNT = 0
class CM:
async def __aenter__(self):
raise NotImplementedError
async def __aexit__(self, *e):
1/0
async def foo():
nonlocal CNT
async with CM():
raise RuntimeError
try:
run_async(foo())
except NotImplementedError as exc:
self.assertTrue(exc.__context__ is None)
else:
self.fail('exception from __aenter__ did not propagate')
def test_with_12(self):
CNT = 0
class CM:
async def __aenter__(self):
return self
async def __aexit__(self, *e):
return True
async def foo():
nonlocal CNT
async with CM() as cm:
self.assertIs(cm.__class__, CM)
raise RuntimeError
run_async(foo())
def test_with_13(self):
CNT = 0
class CM:
async def __aenter__(self):
1/0
async def __aexit__(self, *e):
return True
async def foo():
nonlocal CNT
CNT += 1
async with CM():
CNT += 1000
CNT += 10000
with self.assertRaises(ZeroDivisionError):
run_async(foo())
self.assertEqual(CNT, 1)
def test_for_1(self):
aiter_calls = 0
class AsyncIter:
def __init__(self):
self.i = 0
async def __aiter__(self):
nonlocal aiter_calls
aiter_calls += 1
return self
async def __anext__(self):
self.i += 1
if not (self.i % 10):
await AsyncYield(self.i * 10)
if self.i > 100:
raise StopAsyncIteration
return self.i, self.i
buffer = []
async def test1():
with self.assertWarnsRegex(PendingDeprecationWarning, "legacy"):
async for i1, i2 in AsyncIter():
buffer.append(i1 + i2)
yielded, _ = run_async(test1())
# Make sure that __aiter__ was called only once
self.assertEqual(aiter_calls, 1)
self.assertEqual(yielded, [i * 100 for i in range(1, 11)])
self.assertEqual(buffer, [i*2 for i in range(1, 101)])
buffer = []
async def test2():
nonlocal buffer
with self.assertWarnsRegex(PendingDeprecationWarning, "legacy"):
async for i in AsyncIter():
buffer.append(i[0])
if i[0] == 20:
break
else:
buffer.append('what?')
buffer.append('end')
yielded, _ = run_async(test2())
# Make sure that __aiter__ was called only once
self.assertEqual(aiter_calls, 2)
self.assertEqual(yielded, [100, 200])
self.assertEqual(buffer, [i for i in range(1, 21)] + ['end'])
buffer = []
async def test3():
nonlocal buffer
with self.assertWarnsRegex(PendingDeprecationWarning, "legacy"):
async for i in AsyncIter():
if i[0] > 20:
continue
buffer.append(i[0])
else:
buffer.append('what?')
buffer.append('end')
yielded, _ = run_async(test3())
# Make sure that __aiter__ was called only once
self.assertEqual(aiter_calls, 3)
self.assertEqual(yielded, [i * 100 for i in range(1, 11)])
self.assertEqual(buffer, [i for i in range(1, 21)] +
['what?', 'end'])
def test_for_2(self):
tup = (1, 2, 3)
refs_before = sys.getrefcount(tup)
async def foo():
async for i in tup:
print('never going to happen')
with self.assertRaisesRegex(
TypeError, "async for' requires an object.*__aiter__.*tuple"):
run_async(foo())
self.assertEqual(sys.getrefcount(tup), refs_before)
def test_for_3(self):
class I:
def __aiter__(self):
return self
aiter = I()
refs_before = sys.getrefcount(aiter)
async def foo():
async for i in aiter:
print('never going to happen')
with self.assertRaisesRegex(
TypeError,
r"async for' received an invalid object.*__aiter.*\: I"):
run_async(foo())
self.assertEqual(sys.getrefcount(aiter), refs_before)
def test_for_4(self):
class I:
def __aiter__(self):
return self
def __anext__(self):
return ()
aiter = I()
refs_before = sys.getrefcount(aiter)
async def foo():
async for i in aiter:
print('never going to happen')
with self.assertRaisesRegex(
TypeError,
"async for' received an invalid object.*__anext__.*tuple"):
run_async(foo())
self.assertEqual(sys.getrefcount(aiter), refs_before)
def test_for_5(self):
class I:
async def __aiter__(self):
return self
def __anext__(self):
return 123
async def foo():
with self.assertWarnsRegex(PendingDeprecationWarning, "legacy"):
async for i in I():
print('never going to happen')
with self.assertRaisesRegex(
TypeError,
"async for' received an invalid object.*__anext.*int"):
run_async(foo())
def test_for_6(self):
I = 0
class Manager:
async def __aenter__(self):
nonlocal I
I += 10000
async def __aexit__(self, *args):
nonlocal I
I += 100000
class Iterable:
def __init__(self):
self.i = 0
def __aiter__(self):
return self
async def __anext__(self):
if self.i > 10:
raise StopAsyncIteration
self.i += 1
return self.i
##############
manager = Manager()
iterable = Iterable()
mrefs_before = sys.getrefcount(manager)
irefs_before = sys.getrefcount(iterable)
async def main():
nonlocal I
async with manager:
async for i in iterable:
I += 1
I += 1000
with warnings.catch_warnings():
warnings.simplefilter("error")
# Test that __aiter__ that returns an asynchronous iterator
# directly does not throw any warnings.
run_async(main())
self.assertEqual(I, 111011)
self.assertEqual(sys.getrefcount(manager), mrefs_before)
self.assertEqual(sys.getrefcount(iterable), irefs_before)
##############
async def main():
nonlocal I
async with Manager():
async for i in Iterable():
I += 1
I += 1000
async with Manager():
async for i in Iterable():
I += 1
I += 1000
run_async(main())
self.assertEqual(I, 333033)
##############
async def main():
nonlocal I
async with Manager():
I += 100
async for i in Iterable():
I += 1
else:
I += 10000000
I += 1000
async with Manager():
I += 100
async for i in Iterable():
I += 1
else:
I += 10000000
I += 1000
run_async(main())
self.assertEqual(I, 20555255)
def test_for_7(self):
CNT = 0
class AI:
async def __aiter__(self):
1/0
async def foo():
nonlocal CNT
with self.assertWarnsRegex(PendingDeprecationWarning, "legacy"):
async for i in AI():
CNT += 1
CNT += 10
with self.assertRaises(ZeroDivisionError):
run_async(foo())
self.assertEqual(CNT, 0)
def test_for_8(self):
CNT = 0
class AI:
def __aiter__(self):
1/0
async def foo():
nonlocal CNT
async for i in AI():
CNT += 1
CNT += 10
with self.assertRaises(ZeroDivisionError):
with warnings.catch_warnings():
warnings.simplefilter("error")
# Test that if __aiter__ raises an exception it propagates
# without any kind of warning.
run_async(foo())
self.assertEqual(CNT, 0)
def test_for_9(self):
# Test that PendingDeprecationWarning can safely be converted into
# an exception (__aiter__ should not have a chance to raise
# a ZeroDivisionError.)
class AI:
async def __aiter__(self):
1/0
async def foo():
async for i in AI():
pass
with self.assertRaises(PendingDeprecationWarning):
with warnings.catch_warnings():
warnings.simplefilter("error")
run_async(foo())
def test_for_10(self):
# Test that PendingDeprecationWarning can safely be converted into
# an exception.
class AI:
async def __aiter__(self):
pass
async def foo():
async for i in AI():
pass
with self.assertRaises(PendingDeprecationWarning):
with warnings.catch_warnings():
warnings.simplefilter("error")
run_async(foo())
def test_copy(self):
async def func(): pass
coro = func()
with self.assertRaises(TypeError):
copy.copy(coro)
aw = coro.__await__()
try:
with self.assertRaises(TypeError):
copy.copy(aw)
finally:
aw.close()
def test_pickle(self):
async def func(): pass
coro = func()
for proto in range(pickle.HIGHEST_PROTOCOL + 1):
with self.assertRaises((TypeError, pickle.PicklingError)):
pickle.dumps(coro, proto)
aw = coro.__await__()
try:
for proto in range(pickle.HIGHEST_PROTOCOL + 1):
with self.assertRaises((TypeError, pickle.PicklingError)):
pickle.dumps(aw, proto)
finally:
aw.close()
def test_fatal_coro_warning(self):
# Issue 27811
async def func(): pass
with warnings.catch_warnings(), support.captured_stderr() as stderr:
warnings.filterwarnings("error")
func()
support.gc_collect()
self.assertIn("was never awaited", stderr.getvalue())
class CoroAsyncIOCompatTest(unittest.TestCase):
def test_asyncio_1(self):
# asyncio cannot be imported when Python is compiled without thread
# support
asyncio = support.import_module('asyncio')
class MyException(Exception):
pass
buffer = []
class CM:
async def __aenter__(self):
buffer.append(1)
await asyncio.sleep(0.01)
buffer.append(2)
return self
async def __aexit__(self, exc_type, exc_val, exc_tb):
await asyncio.sleep(0.01)
buffer.append(exc_type.__name__)
async def f():
async with CM() as c:
await asyncio.sleep(0.01)
raise MyException
buffer.append('unreachable')
loop = asyncio.new_event_loop()
asyncio.set_event_loop(loop)
try:
loop.run_until_complete(f())
except MyException:
pass
finally:
loop.close()
asyncio.set_event_loop(None)
self.assertEqual(buffer, [1, 2, 'MyException'])
class SysSetCoroWrapperTest(unittest.TestCase):
def test_set_wrapper_1(self):
async def foo():
return 'spam'
wrapped = None
def wrap(gen):
nonlocal wrapped
wrapped = gen
return gen
self.assertIsNone(sys.get_coroutine_wrapper())
sys.set_coroutine_wrapper(wrap)
self.assertIs(sys.get_coroutine_wrapper(), wrap)
try:
f = foo()
self.assertTrue(wrapped)
self.assertEqual(run_async(f), ([], 'spam'))
finally:
sys.set_coroutine_wrapper(None)
self.assertIsNone(sys.get_coroutine_wrapper())
wrapped = None
with silence_coro_gc():
foo()
self.assertFalse(wrapped)
def test_set_wrapper_2(self):
self.assertIsNone(sys.get_coroutine_wrapper())
with self.assertRaisesRegex(TypeError, "callable expected, got int"):
sys.set_coroutine_wrapper(1)
self.assertIsNone(sys.get_coroutine_wrapper())
def test_set_wrapper_3(self):
async def foo():
return 'spam'
def wrapper(coro):
async def wrap(coro):
return await coro
return wrap(coro)
sys.set_coroutine_wrapper(wrapper)
try:
with silence_coro_gc(), self.assertRaisesRegex(
RuntimeError,
r"coroutine wrapper.*\.wrapper at 0x.*attempted to "
r"recursively wrap .* wrap .*"):
foo()
finally:
sys.set_coroutine_wrapper(None)
def test_set_wrapper_4(self):
@types.coroutine
def foo():
return 'spam'
wrapped = None
def wrap(gen):
nonlocal wrapped
wrapped = gen
return gen
sys.set_coroutine_wrapper(wrap)
try:
foo()
self.assertIs(
wrapped, None,
"generator-based coroutine was wrapped via "
"sys.set_coroutine_wrapper")
finally:
sys.set_coroutine_wrapper(None)
class CAPITest(unittest.TestCase):
def test_tp_await_1(self):
from _testcapi import awaitType as at
async def foo():
future = at(iter([1]))
return (await future)
self.assertEqual(foo().send(None), 1)
def test_tp_await_2(self):
# Test tp_await to __await__ mapping
from _testcapi import awaitType as at
future = at(iter([1]))
self.assertEqual(next(future.__await__()), 1)
def test_tp_await_3(self):
from _testcapi import awaitType as at
async def foo():
future = at(1)
return (await future)
with self.assertRaisesRegex(
TypeError, "__await__.*returned non-iterator of type 'int'"):
self.assertEqual(foo().send(None), 1)
if __name__=="__main__":
unittest.main()
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