Idiomatic asyncio utilties
NOTE: This project is under early stage of development. The public APIs may break version by version.
I also recommend to try the following asyncio libraries for your happier life.
This is an asynchronous version of contextlib.contextmanager
to make it
easier to write asynchronous context managers without creating boilerplate
classes.
import asyncio
import aiotools
@aiotools.actxmgr
async def mygen(a):
await asyncio.sleep(1)
yield a + 1
await asyncio.sleep(1)
async def somewhere():
async with mygen(1) as b:
assert b == 2
Note that you need to wrap yield
with a try-finally block to
ensure resource releases (e.g., locks), even in the case when
an exception is ocurred inside the async-with block.
import asyncio
import aiotools
lock = asyncio.Lock()
@aiotools.actxmgr
async def mygen(a):
await lock.acquire()
try:
yield a + 1
finally:
lock.release()
async def somewhere():
try:
async with mygen(1) as b:
raise RuntimeError('oops')
except RuntimeError:
print('caught!') # you can catch exceptions here.
You can also create a group of async context managers, which
are entered/exited all at once using asyncio.gather()
.
import asyncio
import aiotools
@aiotools.actxmgr
async def mygen(a):
yield a + 10
async def somewhere():
ctxgrp = aiotools.actxgroup(mygen(i) for i in range(10))
async with ctxgrp as values:
assert len(values) == 10
for i in range(10):
assert values[i] == i + 10
This implements a common pattern to launch asyncio-based server daemons.
import asyncio
import aiotools
async def echo(reader, writer):
data = await reader.read(100)
writer.write(data)
await writer.drain()
writer.close()
@aiotools.server
async def myworker(loop, pidx, args):
server = await asyncio.start_server(echo, '0.0.0.0', 8888,
reuse_port=True, loop=loop)
print(f'[{pidx}] started')
yield # wait until terminated
server.close()
await server.wait_closed()
print(f'[{pidx}] terminated')
if __name__ == '__main__':
# Run the above server using 4 worker processes.
aiotools.start_server(myworker, num_workers=4)
It handles SIGINT/SIGTERM signals automatically to stop the server,
as well as lifecycle management of event loops running on multiple processes.
Internally it uses aiotools.fork
module to get kernel support to resolve
potential signal/PID related races via PID file descriptors on supported versions
(Python 3.9+ and Linux kernel 5.4+).
A TaskGroup
object manages the lifecycle of sub-tasks spawned via its create_task()
method by guarding them with an async context manager which exits only when all sub-tasks
are either completed or cancelled.
This is motivated from trio's nursery API and a draft implementation is adopted from EdgeDB's Python client library.
import aiotools
async def do():
async with aiotools.TaskGroup() as tg:
tg.create_task(...)
tg.create_task(...)
...
# at this point, all subtasks are either cancelled or done.
import aiotools
i = 0
async def mytick(interval):
print(i)
i += 1
async def somewhere():
t = aiotools.create_timer(mytick, 1.0)
...
t.cancel()
await t
t
is an asyncio.Task
object.
To stop the timer, call t.cancel(); await t
.
Please don't forget await
-ing t
because it requires extra steps to
cancel and await all pending tasks.
To make your timer function to be cancellable, add a try-except clause
catching asyncio.CancelledError
since we use it as a termination
signal.
You may add TimerDelayPolicy
argument to control the behavior when the
timer-fired task takes longer than the timer interval.
DEFAULT
is to accumulate them and cancel all the remainings at once when
the timer is cancelled.
CANCEL
is to cancel any pending previously fired tasks on every interval.
import asyncio
import aiotools
async def mytick(interval):
await asyncio.sleep(100) # cancelled on every next interval.
async def somewhere():
t = aiotools.create_timer(mytick, 1.0, aiotools.TimerDelayPolicy.CANCEL)
...
t.cancel()
await t
It provides a virtual clock that advances the event loop time instantly upon
any combination of asyncio.sleep()
calls in multiple coroutine tasks,
by temporarily patching the event loop selector.
This is also used in our timer test suite.
import aiotools
import pytest
@pytest.mark.asyncio
async def test_sleeps():
loop = aiotools.compat.get_running_loop()
vclock = aiotools.VirtualClock()
with vclock.patch_loop():
print(loop.time()) # -> prints 0
await asyncio.sleep(3600)
print(loop.time()) # -> prints 3600