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Vehicle-Anti-Theft-Face-Rec.../venv/Lib/site-packages/tornado/test/gen_test.py

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import asyncio
from concurrent import futures
import gc
import datetime
import platform
import sys
import time
import weakref
import unittest
from tornado.concurrent import Future
from tornado.log import app_log
from tornado.testing import AsyncHTTPTestCase, AsyncTestCase, ExpectLog, gen_test
from tornado.test.util import skipOnTravis, skipNotCPython
from tornado.web import Application, RequestHandler, HTTPError
from tornado import gen
try:
import contextvars
except ImportError:
contextvars = None # type: ignore
import typing
if typing.TYPE_CHECKING:
from typing import List, Optional # noqa: F401
class GenBasicTest(AsyncTestCase):
@gen.coroutine
def delay(self, iterations, arg):
"""Returns arg after a number of IOLoop iterations."""
for i in range(iterations):
yield gen.moment
raise gen.Return(arg)
@gen.coroutine
def async_future(self, result):
yield gen.moment
return result
@gen.coroutine
def async_exception(self, e):
yield gen.moment
raise e
@gen.coroutine
def add_one_async(self, x):
yield gen.moment
raise gen.Return(x + 1)
def test_no_yield(self):
@gen.coroutine
def f():
pass
self.io_loop.run_sync(f)
def test_exception_phase1(self):
@gen.coroutine
def f():
1 / 0
self.assertRaises(ZeroDivisionError, self.io_loop.run_sync, f)
def test_exception_phase2(self):
@gen.coroutine
def f():
yield gen.moment
1 / 0
self.assertRaises(ZeroDivisionError, self.io_loop.run_sync, f)
def test_bogus_yield(self):
@gen.coroutine
def f():
yield 42
self.assertRaises(gen.BadYieldError, self.io_loop.run_sync, f)
def test_bogus_yield_tuple(self):
@gen.coroutine
def f():
yield (1, 2)
self.assertRaises(gen.BadYieldError, self.io_loop.run_sync, f)
def test_reuse(self):
@gen.coroutine
def f():
yield gen.moment
self.io_loop.run_sync(f)
self.io_loop.run_sync(f)
def test_none(self):
@gen.coroutine
def f():
yield None
self.io_loop.run_sync(f)
def test_multi(self):
@gen.coroutine
def f():
results = yield [self.add_one_async(1), self.add_one_async(2)]
self.assertEqual(results, [2, 3])
self.io_loop.run_sync(f)
def test_multi_dict(self):
@gen.coroutine
def f():
results = yield dict(foo=self.add_one_async(1), bar=self.add_one_async(2))
self.assertEqual(results, dict(foo=2, bar=3))
self.io_loop.run_sync(f)
def test_multi_delayed(self):
@gen.coroutine
def f():
# callbacks run at different times
responses = yield gen.multi_future(
[self.delay(3, "v1"), self.delay(1, "v2")]
)
self.assertEqual(responses, ["v1", "v2"])
self.io_loop.run_sync(f)
def test_multi_dict_delayed(self):
@gen.coroutine
def f():
# callbacks run at different times
responses = yield gen.multi_future(
dict(foo=self.delay(3, "v1"), bar=self.delay(1, "v2"))
)
self.assertEqual(responses, dict(foo="v1", bar="v2"))
self.io_loop.run_sync(f)
@skipOnTravis
@gen_test
def test_multi_performance(self):
# Yielding a list used to have quadratic performance; make
# sure a large list stays reasonable. On my laptop a list of
# 2000 used to take 1.8s, now it takes 0.12.
start = time.time()
yield [gen.moment for i in range(2000)]
end = time.time()
self.assertLess(end - start, 1.0)
@gen_test
def test_multi_empty(self):
# Empty lists or dicts should return the same type.
x = yield []
self.assertTrue(isinstance(x, list))
y = yield {}
self.assertTrue(isinstance(y, dict))
@gen_test
def test_future(self):
result = yield self.async_future(1)
self.assertEqual(result, 1)
@gen_test
def test_multi_future(self):
results = yield [self.async_future(1), self.async_future(2)]
self.assertEqual(results, [1, 2])
@gen_test
def test_multi_future_duplicate(self):
# Note that this doesn't work with native corotines, only with
# decorated coroutines.
f = self.async_future(2)
results = yield [self.async_future(1), f, self.async_future(3), f]
self.assertEqual(results, [1, 2, 3, 2])
@gen_test
def test_multi_dict_future(self):
results = yield dict(foo=self.async_future(1), bar=self.async_future(2))
self.assertEqual(results, dict(foo=1, bar=2))
@gen_test
def test_multi_exceptions(self):
with ExpectLog(app_log, "Multiple exceptions in yield list"):
with self.assertRaises(RuntimeError) as cm:
yield gen.Multi(
[
self.async_exception(RuntimeError("error 1")),
self.async_exception(RuntimeError("error 2")),
]
)
self.assertEqual(str(cm.exception), "error 1")
# With only one exception, no error is logged.
with self.assertRaises(RuntimeError):
yield gen.Multi(
[self.async_exception(RuntimeError("error 1")), self.async_future(2)]
)
# Exception logging may be explicitly quieted.
with self.assertRaises(RuntimeError):
yield gen.Multi(
[
self.async_exception(RuntimeError("error 1")),
self.async_exception(RuntimeError("error 2")),
],
quiet_exceptions=RuntimeError,
)
@gen_test
def test_multi_future_exceptions(self):
with ExpectLog(app_log, "Multiple exceptions in yield list"):
with self.assertRaises(RuntimeError) as cm:
yield [
self.async_exception(RuntimeError("error 1")),
self.async_exception(RuntimeError("error 2")),
]
self.assertEqual(str(cm.exception), "error 1")
# With only one exception, no error is logged.
with self.assertRaises(RuntimeError):
yield [self.async_exception(RuntimeError("error 1")), self.async_future(2)]
# Exception logging may be explicitly quieted.
with self.assertRaises(RuntimeError):
yield gen.multi_future(
[
self.async_exception(RuntimeError("error 1")),
self.async_exception(RuntimeError("error 2")),
],
quiet_exceptions=RuntimeError,
)
def test_sync_raise_return(self):
@gen.coroutine
def f():
raise gen.Return()
self.io_loop.run_sync(f)
def test_async_raise_return(self):
@gen.coroutine
def f():
yield gen.moment
raise gen.Return()
self.io_loop.run_sync(f)
def test_sync_raise_return_value(self):
@gen.coroutine
def f():
raise gen.Return(42)
self.assertEqual(42, self.io_loop.run_sync(f))
def test_sync_raise_return_value_tuple(self):
@gen.coroutine
def f():
raise gen.Return((1, 2))
self.assertEqual((1, 2), self.io_loop.run_sync(f))
def test_async_raise_return_value(self):
@gen.coroutine
def f():
yield gen.moment
raise gen.Return(42)
self.assertEqual(42, self.io_loop.run_sync(f))
def test_async_raise_return_value_tuple(self):
@gen.coroutine
def f():
yield gen.moment
raise gen.Return((1, 2))
self.assertEqual((1, 2), self.io_loop.run_sync(f))
class GenCoroutineTest(AsyncTestCase):
def setUp(self):
# Stray StopIteration exceptions can lead to tests exiting prematurely,
# so we need explicit checks here to make sure the tests run all
# the way through.
self.finished = False
super().setUp()
def tearDown(self):
super().tearDown()
assert self.finished
def test_attributes(self):
self.finished = True
def f():
yield gen.moment
coro = gen.coroutine(f)
self.assertEqual(coro.__name__, f.__name__)
self.assertEqual(coro.__module__, f.__module__)
self.assertIs(coro.__wrapped__, f) # type: ignore
def test_is_coroutine_function(self):
self.finished = True
def f():
yield gen.moment
coro = gen.coroutine(f)
self.assertFalse(gen.is_coroutine_function(f))
self.assertTrue(gen.is_coroutine_function(coro))
self.assertFalse(gen.is_coroutine_function(coro()))
@gen_test
def test_sync_gen_return(self):
@gen.coroutine
def f():
raise gen.Return(42)
result = yield f()
self.assertEqual(result, 42)
self.finished = True
@gen_test
def test_async_gen_return(self):
@gen.coroutine
def f():
yield gen.moment
raise gen.Return(42)
result = yield f()
self.assertEqual(result, 42)
self.finished = True
@gen_test
def test_sync_return(self):
@gen.coroutine
def f():
return 42
result = yield f()
self.assertEqual(result, 42)
self.finished = True
@gen_test
def test_async_return(self):
@gen.coroutine
def f():
yield gen.moment
return 42
result = yield f()
self.assertEqual(result, 42)
self.finished = True
@gen_test
def test_async_early_return(self):
# A yield statement exists but is not executed, which means
# this function "returns" via an exception. This exception
# doesn't happen before the exception handling is set up.
@gen.coroutine
def f():
if True:
return 42
yield gen.Task(self.io_loop.add_callback)
result = yield f()
self.assertEqual(result, 42)
self.finished = True
@gen_test
def test_async_await(self):
@gen.coroutine
def f1():
yield gen.moment
raise gen.Return(42)
# This test verifies that an async function can await a
# yield-based gen.coroutine, and that a gen.coroutine
# (the test method itself) can yield an async function.
async def f2():
result = await f1()
return result
result = yield f2()
self.assertEqual(result, 42)
self.finished = True
@gen_test
def test_asyncio_sleep_zero(self):
# asyncio.sleep(0) turns into a special case (equivalent to
# `yield None`)
async def f():
import asyncio
await asyncio.sleep(0)
return 42
result = yield f()
self.assertEqual(result, 42)
self.finished = True
@gen_test
def test_async_await_mixed_multi_native_future(self):
@gen.coroutine
def f1():
yield gen.moment
async def f2():
await f1()
return 42
@gen.coroutine
def f3():
yield gen.moment
raise gen.Return(43)
results = yield [f2(), f3()]
self.assertEqual(results, [42, 43])
self.finished = True
@gen_test
def test_async_with_timeout(self):
async def f1():
return 42
result = yield gen.with_timeout(datetime.timedelta(hours=1), f1())
self.assertEqual(result, 42)
self.finished = True
@gen_test
def test_sync_return_no_value(self):
@gen.coroutine
def f():
return
result = yield f()
self.assertEqual(result, None)
self.finished = True
@gen_test
def test_async_return_no_value(self):
# Without a return value we don't need python 3.3.
@gen.coroutine
def f():
yield gen.moment
return
result = yield f()
self.assertEqual(result, None)
self.finished = True
@gen_test
def test_sync_raise(self):
@gen.coroutine
def f():
1 / 0
# The exception is raised when the future is yielded
# (or equivalently when its result method is called),
# not when the function itself is called).
future = f()
with self.assertRaises(ZeroDivisionError):
yield future
self.finished = True
@gen_test
def test_async_raise(self):
@gen.coroutine
def f():
yield gen.moment
1 / 0
future = f()
with self.assertRaises(ZeroDivisionError):
yield future
self.finished = True
@gen_test
def test_replace_yieldpoint_exception(self):
# Test exception handling: a coroutine can catch one exception
# raised by a yield point and raise a different one.
@gen.coroutine
def f1():
1 / 0
@gen.coroutine
def f2():
try:
yield f1()
except ZeroDivisionError:
raise KeyError()
future = f2()
with self.assertRaises(KeyError):
yield future
self.finished = True
@gen_test
def test_swallow_yieldpoint_exception(self):
# Test exception handling: a coroutine can catch an exception
# raised by a yield point and not raise a different one.
@gen.coroutine
def f1():
1 / 0
@gen.coroutine
def f2():
try:
yield f1()
except ZeroDivisionError:
raise gen.Return(42)
result = yield f2()
self.assertEqual(result, 42)
self.finished = True
@gen_test
def test_moment(self):
calls = []
@gen.coroutine
def f(name, yieldable):
for i in range(5):
calls.append(name)
yield yieldable
# First, confirm the behavior without moment: each coroutine
# monopolizes the event loop until it finishes.
immediate = Future() # type: Future[None]
immediate.set_result(None)
yield [f("a", immediate), f("b", immediate)]
self.assertEqual("".join(calls), "aaaaabbbbb")
# With moment, they take turns.
calls = []
yield [f("a", gen.moment), f("b", gen.moment)]
self.assertEqual("".join(calls), "ababababab")
self.finished = True
calls = []
yield [f("a", gen.moment), f("b", immediate)]
self.assertEqual("".join(calls), "abbbbbaaaa")
@gen_test
def test_sleep(self):
yield gen.sleep(0.01)
self.finished = True
@gen_test
def test_py3_leak_exception_context(self):
class LeakedException(Exception):
pass
@gen.coroutine
def inner(iteration):
raise LeakedException(iteration)
try:
yield inner(1)
except LeakedException as e:
self.assertEqual(str(e), "1")
self.assertIsNone(e.__context__)
try:
yield inner(2)
except LeakedException as e:
self.assertEqual(str(e), "2")
self.assertIsNone(e.__context__)
self.finished = True
@skipNotCPython
@unittest.skipIf(
(3,) < sys.version_info < (3, 6), "asyncio.Future has reference cycles"
)
def test_coroutine_refcounting(self):
# On CPython, tasks and their arguments should be released immediately
# without waiting for garbage collection.
@gen.coroutine
def inner():
class Foo(object):
pass
local_var = Foo()
self.local_ref = weakref.ref(local_var)
def dummy():
pass
yield gen.coroutine(dummy)()
raise ValueError("Some error")
@gen.coroutine
def inner2():
try:
yield inner()
except ValueError:
pass
self.io_loop.run_sync(inner2, timeout=3)
self.assertIs(self.local_ref(), None)
self.finished = True
def test_asyncio_future_debug_info(self):
self.finished = True
# Enable debug mode
asyncio_loop = asyncio.get_event_loop()
self.addCleanup(asyncio_loop.set_debug, asyncio_loop.get_debug())
asyncio_loop.set_debug(True)
def f():
yield gen.moment
coro = gen.coroutine(f)()
self.assertIsInstance(coro, asyncio.Future)
# We expect the coroutine repr() to show the place where
# it was instantiated
expected = "created at %s:%d" % (__file__, f.__code__.co_firstlineno + 3)
actual = repr(coro)
self.assertIn(expected, actual)
@gen_test
def test_asyncio_gather(self):
# This demonstrates that tornado coroutines can be understood
# by asyncio (This failed prior to Tornado 5.0).
@gen.coroutine
def f():
yield gen.moment
raise gen.Return(1)
ret = yield asyncio.gather(f(), f())
self.assertEqual(ret, [1, 1])
self.finished = True
class GenCoroutineSequenceHandler(RequestHandler):
@gen.coroutine
def get(self):
yield gen.moment
self.write("1")
yield gen.moment
self.write("2")
yield gen.moment
self.finish("3")
class GenCoroutineUnfinishedSequenceHandler(RequestHandler):
@gen.coroutine
def get(self):
yield gen.moment
self.write("1")
yield gen.moment
self.write("2")
yield gen.moment
# just write, don't finish
self.write("3")
# "Undecorated" here refers to the absence of @asynchronous.
class UndecoratedCoroutinesHandler(RequestHandler):
@gen.coroutine
def prepare(self):
self.chunks = [] # type: List[str]
yield gen.moment
self.chunks.append("1")
@gen.coroutine
def get(self):
self.chunks.append("2")
yield gen.moment
self.chunks.append("3")
yield gen.moment
self.write("".join(self.chunks))
class AsyncPrepareErrorHandler(RequestHandler):
@gen.coroutine
def prepare(self):
yield gen.moment
raise HTTPError(403)
def get(self):
self.finish("ok")
class NativeCoroutineHandler(RequestHandler):
async def get(self):
await asyncio.sleep(0)
self.write("ok")
class GenWebTest(AsyncHTTPTestCase):
def get_app(self):
return Application(
[
("/coroutine_sequence", GenCoroutineSequenceHandler),
(
"/coroutine_unfinished_sequence",
GenCoroutineUnfinishedSequenceHandler,
),
("/undecorated_coroutine", UndecoratedCoroutinesHandler),
("/async_prepare_error", AsyncPrepareErrorHandler),
("/native_coroutine", NativeCoroutineHandler),
]
)
def test_coroutine_sequence_handler(self):
response = self.fetch("/coroutine_sequence")
self.assertEqual(response.body, b"123")
def test_coroutine_unfinished_sequence_handler(self):
response = self.fetch("/coroutine_unfinished_sequence")
self.assertEqual(response.body, b"123")
def test_undecorated_coroutines(self):
response = self.fetch("/undecorated_coroutine")
self.assertEqual(response.body, b"123")
def test_async_prepare_error_handler(self):
response = self.fetch("/async_prepare_error")
self.assertEqual(response.code, 403)
def test_native_coroutine_handler(self):
response = self.fetch("/native_coroutine")
self.assertEqual(response.code, 200)
self.assertEqual(response.body, b"ok")
class WithTimeoutTest(AsyncTestCase):
@gen_test
def test_timeout(self):
with self.assertRaises(gen.TimeoutError):
yield gen.with_timeout(datetime.timedelta(seconds=0.1), Future())
@gen_test
def test_completes_before_timeout(self):
future = Future() # type: Future[str]
self.io_loop.add_timeout(
datetime.timedelta(seconds=0.1), lambda: future.set_result("asdf")
)
result = yield gen.with_timeout(datetime.timedelta(seconds=3600), future)
self.assertEqual(result, "asdf")
@gen_test
def test_fails_before_timeout(self):
future = Future() # type: Future[str]
self.io_loop.add_timeout(
datetime.timedelta(seconds=0.1),
lambda: future.set_exception(ZeroDivisionError()),
)
with self.assertRaises(ZeroDivisionError):
yield gen.with_timeout(datetime.timedelta(seconds=3600), future)
@gen_test
def test_already_resolved(self):
future = Future() # type: Future[str]
future.set_result("asdf")
result = yield gen.with_timeout(datetime.timedelta(seconds=3600), future)
self.assertEqual(result, "asdf")
@gen_test
def test_timeout_concurrent_future(self):
# A concurrent future that does not resolve before the timeout.
with futures.ThreadPoolExecutor(1) as executor:
with self.assertRaises(gen.TimeoutError):
yield gen.with_timeout(
self.io_loop.time(), executor.submit(time.sleep, 0.1)
)
@gen_test
def test_completed_concurrent_future(self):
# A concurrent future that is resolved before we even submit it
# to with_timeout.
with futures.ThreadPoolExecutor(1) as executor:
def dummy():
pass
f = executor.submit(dummy)
f.result() # wait for completion
yield gen.with_timeout(datetime.timedelta(seconds=3600), f)
@gen_test
def test_normal_concurrent_future(self):
# A conccurrent future that resolves while waiting for the timeout.
with futures.ThreadPoolExecutor(1) as executor:
yield gen.with_timeout(
datetime.timedelta(seconds=3600),
executor.submit(lambda: time.sleep(0.01)),
)
class WaitIteratorTest(AsyncTestCase):
@gen_test
def test_empty_iterator(self):
g = gen.WaitIterator()
self.assertTrue(g.done(), "empty generator iterated")
with self.assertRaises(ValueError):
g = gen.WaitIterator(Future(), bar=Future())
self.assertEqual(g.current_index, None, "bad nil current index")
self.assertEqual(g.current_future, None, "bad nil current future")
@gen_test
def test_already_done(self):
f1 = Future() # type: Future[int]
f2 = Future() # type: Future[int]
f3 = Future() # type: Future[int]
f1.set_result(24)
f2.set_result(42)
f3.set_result(84)
g = gen.WaitIterator(f1, f2, f3)
i = 0
while not g.done():
r = yield g.next()
# Order is not guaranteed, but the current implementation
# preserves ordering of already-done Futures.
if i == 0:
self.assertEqual(g.current_index, 0)
self.assertIs(g.current_future, f1)
self.assertEqual(r, 24)
elif i == 1:
self.assertEqual(g.current_index, 1)
self.assertIs(g.current_future, f2)
self.assertEqual(r, 42)
elif i == 2:
self.assertEqual(g.current_index, 2)
self.assertIs(g.current_future, f3)
self.assertEqual(r, 84)
i += 1
self.assertEqual(g.current_index, None, "bad nil current index")
self.assertEqual(g.current_future, None, "bad nil current future")
dg = gen.WaitIterator(f1=f1, f2=f2)
while not dg.done():
dr = yield dg.next()
if dg.current_index == "f1":
self.assertTrue(
dg.current_future == f1 and dr == 24,
"WaitIterator dict status incorrect",
)
elif dg.current_index == "f2":
self.assertTrue(
dg.current_future == f2 and dr == 42,
"WaitIterator dict status incorrect",
)
else:
self.fail("got bad WaitIterator index {}".format(dg.current_index))
i += 1
self.assertEqual(dg.current_index, None, "bad nil current index")
self.assertEqual(dg.current_future, None, "bad nil current future")
def finish_coroutines(self, iteration, futures):
if iteration == 3:
futures[2].set_result(24)
elif iteration == 5:
futures[0].set_exception(ZeroDivisionError())
elif iteration == 8:
futures[1].set_result(42)
futures[3].set_result(84)
if iteration < 8:
self.io_loop.add_callback(self.finish_coroutines, iteration + 1, futures)
@gen_test
def test_iterator(self):
futures = [Future(), Future(), Future(), Future()] # type: List[Future[int]]
self.finish_coroutines(0, futures)
g = gen.WaitIterator(*futures)
i = 0
while not g.done():
try:
r = yield g.next()
except ZeroDivisionError:
self.assertIs(g.current_future, futures[0], "exception future invalid")
else:
if i == 0:
self.assertEqual(r, 24, "iterator value incorrect")
self.assertEqual(g.current_index, 2, "wrong index")
elif i == 2:
self.assertEqual(r, 42, "iterator value incorrect")
self.assertEqual(g.current_index, 1, "wrong index")
elif i == 3:
self.assertEqual(r, 84, "iterator value incorrect")
self.assertEqual(g.current_index, 3, "wrong index")
i += 1
@gen_test
def test_iterator_async_await(self):
# Recreate the previous test with py35 syntax. It's a little clunky
# because of the way the previous test handles an exception on
# a single iteration.
futures = [Future(), Future(), Future(), Future()] # type: List[Future[int]]
self.finish_coroutines(0, futures)
self.finished = False
async def f():
i = 0
g = gen.WaitIterator(*futures)
try:
async for r in g:
if i == 0:
self.assertEqual(r, 24, "iterator value incorrect")
self.assertEqual(g.current_index, 2, "wrong index")
else:
raise Exception("expected exception on iteration 1")
i += 1
except ZeroDivisionError:
i += 1
async for r in g:
if i == 2:
self.assertEqual(r, 42, "iterator value incorrect")
self.assertEqual(g.current_index, 1, "wrong index")
elif i == 3:
self.assertEqual(r, 84, "iterator value incorrect")
self.assertEqual(g.current_index, 3, "wrong index")
else:
raise Exception("didn't expect iteration %d" % i)
i += 1
self.finished = True
yield f()
self.assertTrue(self.finished)
@gen_test
def test_no_ref(self):
# In this usage, there is no direct hard reference to the
# WaitIterator itself, only the Future it returns. Since
# WaitIterator uses weak references internally to improve GC
# performance, this used to cause problems.
yield gen.with_timeout(
datetime.timedelta(seconds=0.1), gen.WaitIterator(gen.sleep(0)).next()
)
class RunnerGCTest(AsyncTestCase):
def is_pypy3(self):
return platform.python_implementation() == "PyPy" and sys.version_info > (3,)
@gen_test
def test_gc(self):
# GitHub issue 1769: Runner objects can get GCed unexpectedly
# while their future is alive.
weakref_scope = [None] # type: List[Optional[weakref.ReferenceType]]
def callback():
gc.collect(2)
weakref_scope[0]().set_result(123) # type: ignore
@gen.coroutine
def tester():
fut = Future() # type: Future[int]
weakref_scope[0] = weakref.ref(fut)
self.io_loop.add_callback(callback)
yield fut
yield gen.with_timeout(datetime.timedelta(seconds=0.2), tester())
def test_gc_infinite_coro(self):
# GitHub issue 2229: suspended coroutines should be GCed when
# their loop is closed, even if they're involved in a reference
# cycle.
loop = self.get_new_ioloop()
result = [] # type: List[Optional[bool]]
wfut = []
@gen.coroutine
def infinite_coro():
try:
while True:
yield gen.sleep(1e-3)
result.append(True)
finally:
# coroutine finalizer
result.append(None)
@gen.coroutine
def do_something():
fut = infinite_coro()
fut._refcycle = fut # type: ignore
wfut.append(weakref.ref(fut))
yield gen.sleep(0.2)
loop.run_sync(do_something)
loop.close()
gc.collect()
# Future was collected
self.assertIs(wfut[0](), None)
# At least one wakeup
self.assertGreaterEqual(len(result), 2)
if not self.is_pypy3():
# coroutine finalizer was called (not on PyPy3 apparently)
self.assertIs(result[-1], None)
def test_gc_infinite_async_await(self):
# Same as test_gc_infinite_coro, but with a `async def` function
import asyncio
async def infinite_coro(result):
try:
while True:
await gen.sleep(1e-3)
result.append(True)
finally:
# coroutine finalizer
result.append(None)
loop = self.get_new_ioloop()
result = [] # type: List[Optional[bool]]
wfut = []
@gen.coroutine
def do_something():
fut = asyncio.get_event_loop().create_task(infinite_coro(result))
fut._refcycle = fut # type: ignore
wfut.append(weakref.ref(fut))
yield gen.sleep(0.2)
loop.run_sync(do_something)
with ExpectLog("asyncio", "Task was destroyed but it is pending"):
loop.close()
gc.collect()
# Future was collected
self.assertIs(wfut[0](), None)
# At least one wakeup and one finally
self.assertGreaterEqual(len(result), 2)
if not self.is_pypy3():
# coroutine finalizer was called (not on PyPy3 apparently)
self.assertIs(result[-1], None)
def test_multi_moment(self):
# Test gen.multi with moment
# now that it's not a real Future
@gen.coroutine
def wait_a_moment():
result = yield gen.multi([gen.moment, gen.moment])
raise gen.Return(result)
loop = self.get_new_ioloop()
result = loop.run_sync(wait_a_moment)
self.assertEqual(result, [None, None])
if contextvars is not None:
ctx_var = contextvars.ContextVar("ctx_var") # type: contextvars.ContextVar[int]
@unittest.skipIf(contextvars is None, "contextvars module not present")
class ContextVarsTest(AsyncTestCase):
async def native_root(self, x):
ctx_var.set(x)
await self.inner(x)
@gen.coroutine
def gen_root(self, x):
ctx_var.set(x)
yield
yield self.inner(x)
async def inner(self, x):
self.assertEqual(ctx_var.get(), x)
await self.gen_inner(x)
self.assertEqual(ctx_var.get(), x)
# IOLoop.run_in_executor doesn't automatically copy context
ctx = contextvars.copy_context()
await self.io_loop.run_in_executor(None, lambda: ctx.run(self.thread_inner, x))
self.assertEqual(ctx_var.get(), x)
# Neither does asyncio's run_in_executor.
await asyncio.get_event_loop().run_in_executor(
None, lambda: ctx.run(self.thread_inner, x)
)
self.assertEqual(ctx_var.get(), x)
@gen.coroutine
def gen_inner(self, x):
self.assertEqual(ctx_var.get(), x)
yield
self.assertEqual(ctx_var.get(), x)
def thread_inner(self, x):
self.assertEqual(ctx_var.get(), x)
@gen_test
def test_propagate(self):
# Verify that context vars get propagated across various
# combinations of native and decorated coroutines.
yield [
self.native_root(1),
self.native_root(2),
self.gen_root(3),
self.gen_root(4),
]
@gen_test
def test_reset(self):
token = ctx_var.set(1)
yield
# reset asserts that we are still at the same level of the context tree,
# so we must make sure that we maintain that property across yield.
ctx_var.reset(token)
if __name__ == "__main__":
unittest.main()
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