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* Update sample code in asyncio-task.rst This will change **coroutines** sample code in the **Awaitables** section and make the example clearer. * Update Doc/library/asyncio-task.rst Revert the added print Co-authored-by: Carol Willing <carolcode@willingconsulting.com> * Update Doc/library/asyncio-task.rst Co-authored-by: Carol Willing <carolcode@willingconsulting.com> --------- Co-authored-by: Carol Willing <carolcode@willingconsulting.com>
1465 lines
47 KiB
ReStructuredText
1465 lines
47 KiB
ReStructuredText
.. currentmodule:: asyncio
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====================
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Coroutines and Tasks
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====================
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This section outlines high-level asyncio APIs to work with coroutines
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and Tasks.
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.. contents::
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:depth: 1
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:local:
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.. _coroutine:
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Coroutines
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==========
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**Source code:** :source:`Lib/asyncio/coroutines.py`
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----------------------------------------------------
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:term:`Coroutines <coroutine>` declared with the async/await syntax is the
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preferred way of writing asyncio applications. For example, the following
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snippet of code prints "hello", waits 1 second,
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and then prints "world"::
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>>> import asyncio
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>>> async def main():
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... print('hello')
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... await asyncio.sleep(1)
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... print('world')
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>>> asyncio.run(main())
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hello
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world
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Note that simply calling a coroutine will not schedule it to
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be executed::
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>>> main()
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<coroutine object main at 0x1053bb7c8>
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To actually run a coroutine, asyncio provides the following mechanisms:
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* The :func:`asyncio.run` function to run the top-level
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entry point "main()" function (see the above example.)
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* Awaiting on a coroutine. The following snippet of code will
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print "hello" after waiting for 1 second, and then print "world"
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after waiting for *another* 2 seconds::
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import asyncio
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import time
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async def say_after(delay, what):
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await asyncio.sleep(delay)
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print(what)
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async def main():
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print(f"started at {time.strftime('%X')}")
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await say_after(1, 'hello')
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await say_after(2, 'world')
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print(f"finished at {time.strftime('%X')}")
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asyncio.run(main())
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Expected output::
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started at 17:13:52
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hello
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world
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finished at 17:13:55
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* The :func:`asyncio.create_task` function to run coroutines
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concurrently as asyncio :class:`Tasks <Task>`.
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Let's modify the above example and run two ``say_after`` coroutines
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*concurrently*::
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async def main():
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task1 = asyncio.create_task(
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say_after(1, 'hello'))
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task2 = asyncio.create_task(
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say_after(2, 'world'))
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print(f"started at {time.strftime('%X')}")
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# Wait until both tasks are completed (should take
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# around 2 seconds.)
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await task1
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await task2
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print(f"finished at {time.strftime('%X')}")
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Note that expected output now shows that the snippet runs
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1 second faster than before::
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started at 17:14:32
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hello
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world
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finished at 17:14:34
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* The :class:`asyncio.TaskGroup` class provides a more modern
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alternative to :func:`create_task`.
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Using this API, the last example becomes::
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async def main():
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async with asyncio.TaskGroup() as tg:
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task1 = tg.create_task(
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say_after(1, 'hello'))
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task2 = tg.create_task(
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say_after(2, 'world'))
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print(f"started at {time.strftime('%X')}")
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# The await is implicit when the context manager exits.
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print(f"finished at {time.strftime('%X')}")
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The timing and output should be the same as for the previous version.
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.. versionadded:: 3.11
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:class:`asyncio.TaskGroup`.
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.. _asyncio-awaitables:
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Awaitables
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==========
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We say that an object is an **awaitable** object if it can be used
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in an :keyword:`await` expression. Many asyncio APIs are designed to
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accept awaitables.
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There are three main types of *awaitable* objects:
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**coroutines**, **Tasks**, and **Futures**.
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.. rubric:: Coroutines
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Python coroutines are *awaitables* and therefore can be awaited from
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other coroutines::
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import asyncio
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async def nested():
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return 42
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async def main():
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# Nothing happens if we just call "nested()".
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# A coroutine object is created but not awaited,
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# so it *won't run at all*.
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nested() # will raise a "RuntimeWarning".
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# Let's do it differently now and await it:
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print(await nested()) # will print "42".
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asyncio.run(main())
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.. important::
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In this documentation the term "coroutine" can be used for
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two closely related concepts:
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* a *coroutine function*: an :keyword:`async def` function;
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* a *coroutine object*: an object returned by calling a
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*coroutine function*.
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.. rubric:: Tasks
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*Tasks* are used to schedule coroutines *concurrently*.
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When a coroutine is wrapped into a *Task* with functions like
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:func:`asyncio.create_task` the coroutine is automatically
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scheduled to run soon::
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import asyncio
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async def nested():
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return 42
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async def main():
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# Schedule nested() to run soon concurrently
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# with "main()".
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task = asyncio.create_task(nested())
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# "task" can now be used to cancel "nested()", or
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# can simply be awaited to wait until it is complete:
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await task
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asyncio.run(main())
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.. rubric:: Futures
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A :class:`Future` is a special **low-level** awaitable object that
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represents an **eventual result** of an asynchronous operation.
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When a Future object is *awaited* it means that the coroutine will
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wait until the Future is resolved in some other place.
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Future objects in asyncio are needed to allow callback-based code
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to be used with async/await.
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Normally **there is no need** to create Future objects at the
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application level code.
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Future objects, sometimes exposed by libraries and some asyncio
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APIs, can be awaited::
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async def main():
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await function_that_returns_a_future_object()
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# this is also valid:
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await asyncio.gather(
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function_that_returns_a_future_object(),
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some_python_coroutine()
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)
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A good example of a low-level function that returns a Future object
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is :meth:`loop.run_in_executor`.
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Creating Tasks
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==============
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**Source code:** :source:`Lib/asyncio/tasks.py`
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-----------------------------------------------
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.. function:: create_task(coro, *, name=None, context=None)
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Wrap the *coro* :ref:`coroutine <coroutine>` into a :class:`Task`
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and schedule its execution. Return the Task object.
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If *name* is not ``None``, it is set as the name of the task using
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:meth:`Task.set_name`.
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An optional keyword-only *context* argument allows specifying a
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custom :class:`contextvars.Context` for the *coro* to run in.
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The current context copy is created when no *context* is provided.
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The task is executed in the loop returned by :func:`get_running_loop`,
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:exc:`RuntimeError` is raised if there is no running loop in
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current thread.
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.. note::
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:meth:`asyncio.TaskGroup.create_task` is a new alternative
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leveraging structural concurrency; it allows for waiting
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for a group of related tasks with strong safety guarantees.
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.. important::
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Save a reference to the result of this function, to avoid
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a task disappearing mid-execution. The event loop only keeps
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weak references to tasks. A task that isn't referenced elsewhere
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may get garbage collected at any time, even before it's done.
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For reliable "fire-and-forget" background tasks, gather them in
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a collection::
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background_tasks = set()
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for i in range(10):
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task = asyncio.create_task(some_coro(param=i))
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# Add task to the set. This creates a strong reference.
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background_tasks.add(task)
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# To prevent keeping references to finished tasks forever,
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# make each task remove its own reference from the set after
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# completion:
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task.add_done_callback(background_tasks.discard)
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.. versionadded:: 3.7
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.. versionchanged:: 3.8
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Added the *name* parameter.
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.. versionchanged:: 3.11
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Added the *context* parameter.
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Task Cancellation
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=================
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Tasks can easily and safely be cancelled.
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When a task is cancelled, :exc:`asyncio.CancelledError` will be raised
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in the task at the next opportunity.
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It is recommended that coroutines use ``try/finally`` blocks to robustly
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perform clean-up logic. In case :exc:`asyncio.CancelledError`
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is explicitly caught, it should generally be propagated when
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clean-up is complete. :exc:`asyncio.CancelledError` directly subclasses
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:exc:`BaseException` so most code will not need to be aware of it.
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The asyncio components that enable structured concurrency, like
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:class:`asyncio.TaskGroup` and :func:`asyncio.timeout`,
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are implemented using cancellation internally and might misbehave if
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a coroutine swallows :exc:`asyncio.CancelledError`. Similarly, user code
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should not generally call :meth:`uncancel <asyncio.Task.uncancel>`.
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However, in cases when suppressing :exc:`asyncio.CancelledError` is
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truly desired, it is necessary to also call ``uncancel()`` to completely
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remove the cancellation state.
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.. _taskgroups:
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Task Groups
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===========
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Task groups combine a task creation API with a convenient
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and reliable way to wait for all tasks in the group to finish.
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.. class:: TaskGroup()
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An :ref:`asynchronous context manager <async-context-managers>`
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holding a group of tasks.
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Tasks can be added to the group using :meth:`create_task`.
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All tasks are awaited when the context manager exits.
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.. versionadded:: 3.11
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.. method:: create_task(coro, *, name=None, context=None)
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Create a task in this task group.
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The signature matches that of :func:`asyncio.create_task`.
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If the task group is inactive (e.g. not yet entered,
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already finished, or in the process of shutting down),
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we will close the given ``coro``.
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.. versionchanged:: 3.13
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Close the given coroutine if the task group is not active.
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Example::
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async def main():
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async with asyncio.TaskGroup() as tg:
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task1 = tg.create_task(some_coro(...))
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task2 = tg.create_task(another_coro(...))
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print(f"Both tasks have completed now: {task1.result()}, {task2.result()}")
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The ``async with`` statement will wait for all tasks in the group to finish.
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While waiting, new tasks may still be added to the group
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(for example, by passing ``tg`` into one of the coroutines
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and calling ``tg.create_task()`` in that coroutine).
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Once the last task has finished and the ``async with`` block is exited,
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no new tasks may be added to the group.
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The first time any of the tasks belonging to the group fails
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with an exception other than :exc:`asyncio.CancelledError`,
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the remaining tasks in the group are cancelled.
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No further tasks can then be added to the group.
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At this point, if the body of the ``async with`` statement is still active
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(i.e., :meth:`~object.__aexit__` hasn't been called yet),
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the task directly containing the ``async with`` statement is also cancelled.
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The resulting :exc:`asyncio.CancelledError` will interrupt an ``await``,
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but it will not bubble out of the containing ``async with`` statement.
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Once all tasks have finished, if any tasks have failed
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with an exception other than :exc:`asyncio.CancelledError`,
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those exceptions are combined in an
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:exc:`ExceptionGroup` or :exc:`BaseExceptionGroup`
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(as appropriate; see their documentation)
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which is then raised.
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Two base exceptions are treated specially:
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If any task fails with :exc:`KeyboardInterrupt` or :exc:`SystemExit`,
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the task group still cancels the remaining tasks and waits for them,
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but then the initial :exc:`KeyboardInterrupt` or :exc:`SystemExit`
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is re-raised instead of :exc:`ExceptionGroup` or :exc:`BaseExceptionGroup`.
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If the body of the ``async with`` statement exits with an exception
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(so :meth:`~object.__aexit__` is called with an exception set),
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this is treated the same as if one of the tasks failed:
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the remaining tasks are cancelled and then waited for,
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and non-cancellation exceptions are grouped into an
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exception group and raised.
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The exception passed into :meth:`~object.__aexit__`,
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unless it is :exc:`asyncio.CancelledError`,
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is also included in the exception group.
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The same special case is made for
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:exc:`KeyboardInterrupt` and :exc:`SystemExit` as in the previous paragraph.
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Task groups are careful not to mix up the internal cancellation used to
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"wake up" their :meth:`~object.__aexit__` with cancellation requests
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for the task in which they are running made by other parties.
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In particular, when one task group is syntactically nested in another,
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and both experience an exception in one of their child tasks simultaneously,
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the inner task group will process its exceptions, and then the outer task group
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will receive another cancellation and process its own exceptions.
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In the case where a task group is cancelled externally and also must
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raise an :exc:`ExceptionGroup`, it will call the parent task's
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:meth:`~asyncio.Task.cancel` method. This ensures that a
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:exc:`asyncio.CancelledError` will be raised at the next
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:keyword:`await`, so the cancellation is not lost.
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Task groups preserve the cancellation count
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reported by :meth:`asyncio.Task.cancelling`.
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.. versionchanged:: 3.13
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Improved handling of simultaneous internal and external cancellations
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and correct preservation of cancellation counts.
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Terminating a Task Group
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------------------------
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While terminating a task group is not natively supported by the standard
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library, termination can be achieved by adding an exception-raising task
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to the task group and ignoring the raised exception:
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.. code-block:: python
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import asyncio
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from asyncio import TaskGroup
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class TerminateTaskGroup(Exception):
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"""Exception raised to terminate a task group."""
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async def force_terminate_task_group():
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"""Used to force termination of a task group."""
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raise TerminateTaskGroup()
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async def job(task_id, sleep_time):
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print(f'Task {task_id}: start')
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await asyncio.sleep(sleep_time)
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print(f'Task {task_id}: done')
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async def main():
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try:
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async with TaskGroup() as group:
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# spawn some tasks
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group.create_task(job(1, 0.5))
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group.create_task(job(2, 1.5))
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# sleep for 1 second
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await asyncio.sleep(1)
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# add an exception-raising task to force the group to terminate
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group.create_task(force_terminate_task_group())
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except* TerminateTaskGroup:
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pass
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asyncio.run(main())
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Expected output:
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.. code-block:: text
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Task 1: start
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Task 2: start
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Task 1: done
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Sleeping
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========
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.. coroutinefunction:: sleep(delay, result=None)
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Block for *delay* seconds.
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If *result* is provided, it is returned to the caller
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when the coroutine completes.
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``sleep()`` always suspends the current task, allowing other tasks
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to run.
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Setting the delay to 0 provides an optimized path to allow other
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tasks to run. This can be used by long-running functions to avoid
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blocking the event loop for the full duration of the function call.
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.. _asyncio_example_sleep:
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Example of coroutine displaying the current date every second
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for 5 seconds::
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import asyncio
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import datetime
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async def display_date():
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loop = asyncio.get_running_loop()
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end_time = loop.time() + 5.0
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while True:
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print(datetime.datetime.now())
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if (loop.time() + 1.0) >= end_time:
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break
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await asyncio.sleep(1)
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asyncio.run(display_date())
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.. versionchanged:: 3.10
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Removed the *loop* parameter.
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.. versionchanged:: 3.13
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Raises :exc:`ValueError` if *delay* is :data:`~math.nan`.
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Running Tasks Concurrently
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==========================
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.. awaitablefunction:: gather(*aws, return_exceptions=False)
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Run :ref:`awaitable objects <asyncio-awaitables>` in the *aws*
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sequence *concurrently*.
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If any awaitable in *aws* is a coroutine, it is automatically
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scheduled as a Task.
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If all awaitables are completed successfully, the result is an
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aggregate list of returned values. The order of result values
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corresponds to the order of awaitables in *aws*.
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If *return_exceptions* is ``False`` (default), the first
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raised exception is immediately propagated to the task that
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awaits on ``gather()``. Other awaitables in the *aws* sequence
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**won't be cancelled** and will continue to run.
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If *return_exceptions* is ``True``, exceptions are treated the
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same as successful results, and aggregated in the result list.
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If ``gather()`` is *cancelled*, all submitted awaitables
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(that have not completed yet) are also *cancelled*.
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If any Task or Future from the *aws* sequence is *cancelled*, it is
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treated as if it raised :exc:`CancelledError` -- the ``gather()``
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call is **not** cancelled in this case. This is to prevent the
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cancellation of one submitted Task/Future to cause other
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Tasks/Futures to be cancelled.
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.. note::
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A new alternative to create and run tasks concurrently and
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wait for their completion is :class:`asyncio.TaskGroup`. *TaskGroup*
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provides stronger safety guarantees than *gather* for scheduling a nesting of subtasks:
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if a task (or a subtask, a task scheduled by a task)
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raises an exception, *TaskGroup* will, while *gather* will not,
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cancel the remaining scheduled tasks).
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.. _asyncio_example_gather:
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Example::
|
|
|
|
import asyncio
|
|
|
|
async def factorial(name, number):
|
|
f = 1
|
|
for i in range(2, number + 1):
|
|
print(f"Task {name}: Compute factorial({number}), currently i={i}...")
|
|
await asyncio.sleep(1)
|
|
f *= i
|
|
print(f"Task {name}: factorial({number}) = {f}")
|
|
return f
|
|
|
|
async def main():
|
|
# Schedule three calls *concurrently*:
|
|
L = await asyncio.gather(
|
|
factorial("A", 2),
|
|
factorial("B", 3),
|
|
factorial("C", 4),
|
|
)
|
|
print(L)
|
|
|
|
asyncio.run(main())
|
|
|
|
# Expected output:
|
|
#
|
|
# Task A: Compute factorial(2), currently i=2...
|
|
# Task B: Compute factorial(3), currently i=2...
|
|
# Task C: Compute factorial(4), currently i=2...
|
|
# Task A: factorial(2) = 2
|
|
# Task B: Compute factorial(3), currently i=3...
|
|
# Task C: Compute factorial(4), currently i=3...
|
|
# Task B: factorial(3) = 6
|
|
# Task C: Compute factorial(4), currently i=4...
|
|
# Task C: factorial(4) = 24
|
|
# [2, 6, 24]
|
|
|
|
.. note::
|
|
If *return_exceptions* is false, cancelling gather() after it
|
|
has been marked done won't cancel any submitted awaitables.
|
|
For instance, gather can be marked done after propagating an
|
|
exception to the caller, therefore, calling ``gather.cancel()``
|
|
after catching an exception (raised by one of the awaitables) from
|
|
gather won't cancel any other awaitables.
|
|
|
|
.. versionchanged:: 3.7
|
|
If the *gather* itself is cancelled, the cancellation is
|
|
propagated regardless of *return_exceptions*.
|
|
|
|
.. versionchanged:: 3.10
|
|
Removed the *loop* parameter.
|
|
|
|
.. deprecated:: 3.10
|
|
Deprecation warning is emitted if no positional arguments are provided
|
|
or not all positional arguments are Future-like objects
|
|
and there is no running event loop.
|
|
|
|
|
|
.. _eager-task-factory:
|
|
|
|
Eager Task Factory
|
|
==================
|
|
|
|
.. function:: eager_task_factory(loop, coro, *, name=None, context=None)
|
|
|
|
A task factory for eager task execution.
|
|
|
|
When using this factory (via :meth:`loop.set_task_factory(asyncio.eager_task_factory) <loop.set_task_factory>`),
|
|
coroutines begin execution synchronously during :class:`Task` construction.
|
|
Tasks are only scheduled on the event loop if they block.
|
|
This can be a performance improvement as the overhead of loop scheduling
|
|
is avoided for coroutines that complete synchronously.
|
|
|
|
A common example where this is beneficial is coroutines which employ
|
|
caching or memoization to avoid actual I/O when possible.
|
|
|
|
.. note::
|
|
|
|
Immediate execution of the coroutine is a semantic change.
|
|
If the coroutine returns or raises, the task is never scheduled
|
|
to the event loop. If the coroutine execution blocks, the task is
|
|
scheduled to the event loop. This change may introduce behavior
|
|
changes to existing applications. For example,
|
|
the application's task execution order is likely to change.
|
|
|
|
.. versionadded:: 3.12
|
|
|
|
.. function:: create_eager_task_factory(custom_task_constructor)
|
|
|
|
Create an eager task factory, similar to :func:`eager_task_factory`,
|
|
using the provided *custom_task_constructor* when creating a new task instead
|
|
of the default :class:`Task`.
|
|
|
|
*custom_task_constructor* must be a *callable* with the signature matching
|
|
the signature of :class:`Task.__init__ <Task>`.
|
|
The callable must return a :class:`asyncio.Task`-compatible object.
|
|
|
|
This function returns a *callable* intended to be used as a task factory of an
|
|
event loop via :meth:`loop.set_task_factory(factory) <loop.set_task_factory>`).
|
|
|
|
.. versionadded:: 3.12
|
|
|
|
|
|
Shielding From Cancellation
|
|
===========================
|
|
|
|
.. awaitablefunction:: shield(aw)
|
|
|
|
Protect an :ref:`awaitable object <asyncio-awaitables>`
|
|
from being :meth:`cancelled <Task.cancel>`.
|
|
|
|
If *aw* is a coroutine it is automatically scheduled as a Task.
|
|
|
|
The statement::
|
|
|
|
task = asyncio.create_task(something())
|
|
res = await shield(task)
|
|
|
|
is equivalent to::
|
|
|
|
res = await something()
|
|
|
|
*except* that if the coroutine containing it is cancelled, the
|
|
Task running in ``something()`` is not cancelled. From the point
|
|
of view of ``something()``, the cancellation did not happen.
|
|
Although its caller is still cancelled, so the "await" expression
|
|
still raises a :exc:`CancelledError`.
|
|
|
|
If ``something()`` is cancelled by other means (i.e. from within
|
|
itself) that would also cancel ``shield()``.
|
|
|
|
If it is desired to completely ignore cancellation (not recommended)
|
|
the ``shield()`` function should be combined with a try/except
|
|
clause, as follows::
|
|
|
|
task = asyncio.create_task(something())
|
|
try:
|
|
res = await shield(task)
|
|
except CancelledError:
|
|
res = None
|
|
|
|
.. important::
|
|
|
|
Save a reference to tasks passed to this function, to avoid
|
|
a task disappearing mid-execution. The event loop only keeps
|
|
weak references to tasks. A task that isn't referenced elsewhere
|
|
may get garbage collected at any time, even before it's done.
|
|
|
|
.. versionchanged:: 3.10
|
|
Removed the *loop* parameter.
|
|
|
|
.. deprecated:: 3.10
|
|
Deprecation warning is emitted if *aw* is not Future-like object
|
|
and there is no running event loop.
|
|
|
|
|
|
Timeouts
|
|
========
|
|
|
|
.. function:: timeout(delay)
|
|
|
|
Return an :ref:`asynchronous context manager <async-context-managers>`
|
|
that can be used to limit the amount of time spent waiting on
|
|
something.
|
|
|
|
*delay* can either be ``None``, or a float/int number of
|
|
seconds to wait. If *delay* is ``None``, no time limit will
|
|
be applied; this can be useful if the delay is unknown when
|
|
the context manager is created.
|
|
|
|
In either case, the context manager can be rescheduled after
|
|
creation using :meth:`Timeout.reschedule`.
|
|
|
|
Example::
|
|
|
|
async def main():
|
|
async with asyncio.timeout(10):
|
|
await long_running_task()
|
|
|
|
If ``long_running_task`` takes more than 10 seconds to complete,
|
|
the context manager will cancel the current task and handle
|
|
the resulting :exc:`asyncio.CancelledError` internally, transforming it
|
|
into a :exc:`TimeoutError` which can be caught and handled.
|
|
|
|
.. note::
|
|
|
|
The :func:`asyncio.timeout` context manager is what transforms
|
|
the :exc:`asyncio.CancelledError` into a :exc:`TimeoutError`,
|
|
which means the :exc:`TimeoutError` can only be caught
|
|
*outside* of the context manager.
|
|
|
|
Example of catching :exc:`TimeoutError`::
|
|
|
|
async def main():
|
|
try:
|
|
async with asyncio.timeout(10):
|
|
await long_running_task()
|
|
except TimeoutError:
|
|
print("The long operation timed out, but we've handled it.")
|
|
|
|
print("This statement will run regardless.")
|
|
|
|
The context manager produced by :func:`asyncio.timeout` can be
|
|
rescheduled to a different deadline and inspected.
|
|
|
|
.. class:: Timeout(when)
|
|
|
|
An :ref:`asynchronous context manager <async-context-managers>`
|
|
for cancelling overdue coroutines.
|
|
|
|
``when`` should be an absolute time at which the context should time out,
|
|
as measured by the event loop's clock:
|
|
|
|
- If ``when`` is ``None``, the timeout will never trigger.
|
|
- If ``when < loop.time()``, the timeout will trigger on the next
|
|
iteration of the event loop.
|
|
|
|
.. method:: when() -> float | None
|
|
|
|
Return the current deadline, or ``None`` if the current
|
|
deadline is not set.
|
|
|
|
.. method:: reschedule(when: float | None)
|
|
|
|
Reschedule the timeout.
|
|
|
|
.. method:: expired() -> bool
|
|
|
|
Return whether the context manager has exceeded its deadline
|
|
(expired).
|
|
|
|
Example::
|
|
|
|
async def main():
|
|
try:
|
|
# We do not know the timeout when starting, so we pass ``None``.
|
|
async with asyncio.timeout(None) as cm:
|
|
# We know the timeout now, so we reschedule it.
|
|
new_deadline = get_running_loop().time() + 10
|
|
cm.reschedule(new_deadline)
|
|
|
|
await long_running_task()
|
|
except TimeoutError:
|
|
pass
|
|
|
|
if cm.expired():
|
|
print("Looks like we haven't finished on time.")
|
|
|
|
Timeout context managers can be safely nested.
|
|
|
|
.. versionadded:: 3.11
|
|
|
|
.. function:: timeout_at(when)
|
|
|
|
Similar to :func:`asyncio.timeout`, except *when* is the absolute time
|
|
to stop waiting, or ``None``.
|
|
|
|
Example::
|
|
|
|
async def main():
|
|
loop = get_running_loop()
|
|
deadline = loop.time() + 20
|
|
try:
|
|
async with asyncio.timeout_at(deadline):
|
|
await long_running_task()
|
|
except TimeoutError:
|
|
print("The long operation timed out, but we've handled it.")
|
|
|
|
print("This statement will run regardless.")
|
|
|
|
.. versionadded:: 3.11
|
|
|
|
.. coroutinefunction:: wait_for(aw, timeout)
|
|
|
|
Wait for the *aw* :ref:`awaitable <asyncio-awaitables>`
|
|
to complete with a timeout.
|
|
|
|
If *aw* is a coroutine it is automatically scheduled as a Task.
|
|
|
|
*timeout* can either be ``None`` or a float or int number of seconds
|
|
to wait for. If *timeout* is ``None``, block until the future
|
|
completes.
|
|
|
|
If a timeout occurs, it cancels the task and raises
|
|
:exc:`TimeoutError`.
|
|
|
|
To avoid the task :meth:`cancellation <Task.cancel>`,
|
|
wrap it in :func:`shield`.
|
|
|
|
The function will wait until the future is actually cancelled,
|
|
so the total wait time may exceed the *timeout*. If an exception
|
|
happens during cancellation, it is propagated.
|
|
|
|
If the wait is cancelled, the future *aw* is also cancelled.
|
|
|
|
.. _asyncio_example_waitfor:
|
|
|
|
Example::
|
|
|
|
async def eternity():
|
|
# Sleep for one hour
|
|
await asyncio.sleep(3600)
|
|
print('yay!')
|
|
|
|
async def main():
|
|
# Wait for at most 1 second
|
|
try:
|
|
await asyncio.wait_for(eternity(), timeout=1.0)
|
|
except TimeoutError:
|
|
print('timeout!')
|
|
|
|
asyncio.run(main())
|
|
|
|
# Expected output:
|
|
#
|
|
# timeout!
|
|
|
|
.. versionchanged:: 3.7
|
|
When *aw* is cancelled due to a timeout, ``wait_for`` waits
|
|
for *aw* to be cancelled. Previously, it raised
|
|
:exc:`TimeoutError` immediately.
|
|
|
|
.. versionchanged:: 3.10
|
|
Removed the *loop* parameter.
|
|
|
|
.. versionchanged:: 3.11
|
|
Raises :exc:`TimeoutError` instead of :exc:`asyncio.TimeoutError`.
|
|
|
|
|
|
Waiting Primitives
|
|
==================
|
|
|
|
.. coroutinefunction:: wait(aws, *, timeout=None, return_when=ALL_COMPLETED)
|
|
|
|
Run :class:`~asyncio.Future` and :class:`~asyncio.Task` instances in the *aws*
|
|
iterable concurrently and block until the condition specified
|
|
by *return_when*.
|
|
|
|
The *aws* iterable must not be empty.
|
|
|
|
Returns two sets of Tasks/Futures: ``(done, pending)``.
|
|
|
|
Usage::
|
|
|
|
done, pending = await asyncio.wait(aws)
|
|
|
|
*timeout* (a float or int), if specified, can be used to control
|
|
the maximum number of seconds to wait before returning.
|
|
|
|
Note that this function does not raise :exc:`TimeoutError`.
|
|
Futures or Tasks that aren't done when the timeout occurs are simply
|
|
returned in the second set.
|
|
|
|
*return_when* indicates when this function should return. It must
|
|
be one of the following constants:
|
|
|
|
.. list-table::
|
|
:header-rows: 1
|
|
|
|
* - Constant
|
|
- Description
|
|
|
|
* - .. data:: FIRST_COMPLETED
|
|
- The function will return when any future finishes or is cancelled.
|
|
|
|
* - .. data:: FIRST_EXCEPTION
|
|
- The function will return when any future finishes by raising an
|
|
exception. If no future raises an exception
|
|
then it is equivalent to :const:`ALL_COMPLETED`.
|
|
|
|
* - .. data:: ALL_COMPLETED
|
|
- The function will return when all futures finish or are cancelled.
|
|
|
|
Unlike :func:`~asyncio.wait_for`, ``wait()`` does not cancel the
|
|
futures when a timeout occurs.
|
|
|
|
.. versionchanged:: 3.10
|
|
Removed the *loop* parameter.
|
|
|
|
.. versionchanged:: 3.11
|
|
Passing coroutine objects to ``wait()`` directly is forbidden.
|
|
|
|
.. versionchanged:: 3.12
|
|
Added support for generators yielding tasks.
|
|
|
|
|
|
.. function:: as_completed(aws, *, timeout=None)
|
|
|
|
Run :ref:`awaitable objects <asyncio-awaitables>` in the *aws* iterable
|
|
concurrently. The returned object can be iterated to obtain the results
|
|
of the awaitables as they finish.
|
|
|
|
The object returned by ``as_completed()`` can be iterated as an
|
|
:term:`asynchronous iterator` or a plain :term:`iterator`. When asynchronous
|
|
iteration is used, the originally-supplied awaitables are yielded if they
|
|
are tasks or futures. This makes it easy to correlate previously-scheduled
|
|
tasks with their results. Example::
|
|
|
|
ipv4_connect = create_task(open_connection("127.0.0.1", 80))
|
|
ipv6_connect = create_task(open_connection("::1", 80))
|
|
tasks = [ipv4_connect, ipv6_connect]
|
|
|
|
async for earliest_connect in as_completed(tasks):
|
|
# earliest_connect is done. The result can be obtained by
|
|
# awaiting it or calling earliest_connect.result()
|
|
reader, writer = await earliest_connect
|
|
|
|
if earliest_connect is ipv6_connect:
|
|
print("IPv6 connection established.")
|
|
else:
|
|
print("IPv4 connection established.")
|
|
|
|
During asynchronous iteration, implicitly-created tasks will be yielded for
|
|
supplied awaitables that aren't tasks or futures.
|
|
|
|
When used as a plain iterator, each iteration yields a new coroutine that
|
|
returns the result or raises the exception of the next completed awaitable.
|
|
This pattern is compatible with Python versions older than 3.13::
|
|
|
|
ipv4_connect = create_task(open_connection("127.0.0.1", 80))
|
|
ipv6_connect = create_task(open_connection("::1", 80))
|
|
tasks = [ipv4_connect, ipv6_connect]
|
|
|
|
for next_connect in as_completed(tasks):
|
|
# next_connect is not one of the original task objects. It must be
|
|
# awaited to obtain the result value or raise the exception of the
|
|
# awaitable that finishes next.
|
|
reader, writer = await next_connect
|
|
|
|
A :exc:`TimeoutError` is raised if the timeout occurs before all awaitables
|
|
are done. This is raised by the ``async for`` loop during asynchronous
|
|
iteration or by the coroutines yielded during plain iteration.
|
|
|
|
.. versionchanged:: 3.10
|
|
Removed the *loop* parameter.
|
|
|
|
.. deprecated:: 3.10
|
|
Deprecation warning is emitted if not all awaitable objects in the *aws*
|
|
iterable are Future-like objects and there is no running event loop.
|
|
|
|
.. versionchanged:: 3.12
|
|
Added support for generators yielding tasks.
|
|
|
|
.. versionchanged:: 3.13
|
|
The result can now be used as either an :term:`asynchronous iterator`
|
|
or as a plain :term:`iterator` (previously it was only a plain iterator).
|
|
|
|
|
|
Running in Threads
|
|
==================
|
|
|
|
.. coroutinefunction:: to_thread(func, /, *args, **kwargs)
|
|
|
|
Asynchronously run function *func* in a separate thread.
|
|
|
|
Any \*args and \*\*kwargs supplied for this function are directly passed
|
|
to *func*. Also, the current :class:`contextvars.Context` is propagated,
|
|
allowing context variables from the event loop thread to be accessed in the
|
|
separate thread.
|
|
|
|
Return a coroutine that can be awaited to get the eventual result of *func*.
|
|
|
|
This coroutine function is primarily intended to be used for executing
|
|
IO-bound functions/methods that would otherwise block the event loop if
|
|
they were run in the main thread. For example::
|
|
|
|
def blocking_io():
|
|
print(f"start blocking_io at {time.strftime('%X')}")
|
|
# Note that time.sleep() can be replaced with any blocking
|
|
# IO-bound operation, such as file operations.
|
|
time.sleep(1)
|
|
print(f"blocking_io complete at {time.strftime('%X')}")
|
|
|
|
async def main():
|
|
print(f"started main at {time.strftime('%X')}")
|
|
|
|
await asyncio.gather(
|
|
asyncio.to_thread(blocking_io),
|
|
asyncio.sleep(1))
|
|
|
|
print(f"finished main at {time.strftime('%X')}")
|
|
|
|
|
|
asyncio.run(main())
|
|
|
|
# Expected output:
|
|
#
|
|
# started main at 19:50:53
|
|
# start blocking_io at 19:50:53
|
|
# blocking_io complete at 19:50:54
|
|
# finished main at 19:50:54
|
|
|
|
Directly calling ``blocking_io()`` in any coroutine would block the event loop
|
|
for its duration, resulting in an additional 1 second of run time. Instead,
|
|
by using ``asyncio.to_thread()``, we can run it in a separate thread without
|
|
blocking the event loop.
|
|
|
|
.. note::
|
|
|
|
Due to the :term:`GIL`, ``asyncio.to_thread()`` can typically only be used
|
|
to make IO-bound functions non-blocking. However, for extension modules
|
|
that release the GIL or alternative Python implementations that don't
|
|
have one, ``asyncio.to_thread()`` can also be used for CPU-bound functions.
|
|
|
|
.. versionadded:: 3.9
|
|
|
|
|
|
Scheduling From Other Threads
|
|
=============================
|
|
|
|
.. function:: run_coroutine_threadsafe(coro, loop)
|
|
|
|
Submit a coroutine to the given event loop. Thread-safe.
|
|
|
|
Return a :class:`concurrent.futures.Future` to wait for the result
|
|
from another OS thread.
|
|
|
|
This function is meant to be called from a different OS thread
|
|
than the one where the event loop is running. Example::
|
|
|
|
# Create a coroutine
|
|
coro = asyncio.sleep(1, result=3)
|
|
|
|
# Submit the coroutine to a given loop
|
|
future = asyncio.run_coroutine_threadsafe(coro, loop)
|
|
|
|
# Wait for the result with an optional timeout argument
|
|
assert future.result(timeout) == 3
|
|
|
|
If an exception is raised in the coroutine, the returned Future
|
|
will be notified. It can also be used to cancel the task in
|
|
the event loop::
|
|
|
|
try:
|
|
result = future.result(timeout)
|
|
except TimeoutError:
|
|
print('The coroutine took too long, cancelling the task...')
|
|
future.cancel()
|
|
except Exception as exc:
|
|
print(f'The coroutine raised an exception: {exc!r}')
|
|
else:
|
|
print(f'The coroutine returned: {result!r}')
|
|
|
|
See the :ref:`concurrency and multithreading <asyncio-multithreading>`
|
|
section of the documentation.
|
|
|
|
Unlike other asyncio functions this function requires the *loop*
|
|
argument to be passed explicitly.
|
|
|
|
.. versionadded:: 3.5.1
|
|
|
|
|
|
Introspection
|
|
=============
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.. function:: current_task(loop=None)
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Return the currently running :class:`Task` instance, or ``None`` if
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no task is running.
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If *loop* is ``None`` :func:`get_running_loop` is used to get
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the current loop.
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.. versionadded:: 3.7
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.. function:: all_tasks(loop=None)
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Return a set of not yet finished :class:`Task` objects run by
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the loop.
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If *loop* is ``None``, :func:`get_running_loop` is used for getting
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current loop.
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.. versionadded:: 3.7
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.. function:: iscoroutine(obj)
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Return ``True`` if *obj* is a coroutine object.
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.. versionadded:: 3.4
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Task Object
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===========
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.. class:: Task(coro, *, loop=None, name=None, context=None, eager_start=False)
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A :class:`Future-like <Future>` object that runs a Python
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:ref:`coroutine <coroutine>`. Not thread-safe.
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Tasks are used to run coroutines in event loops.
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If a coroutine awaits on a Future, the Task suspends
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the execution of the coroutine and waits for the completion
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of the Future. When the Future is *done*, the execution of
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the wrapped coroutine resumes.
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Event loops use cooperative scheduling: an event loop runs
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one Task at a time. While a Task awaits for the completion of a
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Future, the event loop runs other Tasks, callbacks, or performs
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IO operations.
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Use the high-level :func:`asyncio.create_task` function to create
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Tasks, or the low-level :meth:`loop.create_task` or
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:func:`ensure_future` functions. Manual instantiation of Tasks
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is discouraged.
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To cancel a running Task use the :meth:`cancel` method. Calling it
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will cause the Task to throw a :exc:`CancelledError` exception into
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the wrapped coroutine. If a coroutine is awaiting on a Future
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object during cancellation, the Future object will be cancelled.
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:meth:`cancelled` can be used to check if the Task was cancelled.
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The method returns ``True`` if the wrapped coroutine did not
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suppress the :exc:`CancelledError` exception and was actually
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cancelled.
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:class:`asyncio.Task` inherits from :class:`Future` all of its
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APIs except :meth:`Future.set_result` and
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:meth:`Future.set_exception`.
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An optional keyword-only *context* argument allows specifying a
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custom :class:`contextvars.Context` for the *coro* to run in.
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If no *context* is provided, the Task copies the current context
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and later runs its coroutine in the copied context.
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An optional keyword-only *eager_start* argument allows eagerly starting
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the execution of the :class:`asyncio.Task` at task creation time.
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If set to ``True`` and the event loop is running, the task will start
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executing the coroutine immediately, until the first time the coroutine
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blocks. If the coroutine returns or raises without blocking, the task
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will be finished eagerly and will skip scheduling to the event loop.
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.. versionchanged:: 3.7
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Added support for the :mod:`contextvars` module.
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.. versionchanged:: 3.8
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Added the *name* parameter.
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.. deprecated:: 3.10
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Deprecation warning is emitted if *loop* is not specified
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and there is no running event loop.
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.. versionchanged:: 3.11
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Added the *context* parameter.
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.. versionchanged:: 3.12
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Added the *eager_start* parameter.
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.. method:: done()
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Return ``True`` if the Task is *done*.
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A Task is *done* when the wrapped coroutine either returned
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a value, raised an exception, or the Task was cancelled.
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.. method:: result()
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Return the result of the Task.
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If the Task is *done*, the result of the wrapped coroutine
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is returned (or if the coroutine raised an exception, that
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exception is re-raised.)
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If the Task has been *cancelled*, this method raises
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a :exc:`CancelledError` exception.
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If the Task's result isn't yet available, this method raises
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an :exc:`InvalidStateError` exception.
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.. method:: exception()
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Return the exception of the Task.
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If the wrapped coroutine raised an exception that exception
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is returned. If the wrapped coroutine returned normally
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this method returns ``None``.
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If the Task has been *cancelled*, this method raises a
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:exc:`CancelledError` exception.
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If the Task isn't *done* yet, this method raises an
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:exc:`InvalidStateError` exception.
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.. method:: add_done_callback(callback, *, context=None)
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Add a callback to be run when the Task is *done*.
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This method should only be used in low-level callback-based code.
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See the documentation of :meth:`Future.add_done_callback`
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for more details.
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.. method:: remove_done_callback(callback)
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Remove *callback* from the callbacks list.
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This method should only be used in low-level callback-based code.
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See the documentation of :meth:`Future.remove_done_callback`
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for more details.
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.. method:: get_stack(*, limit=None)
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Return the list of stack frames for this Task.
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If the wrapped coroutine is not done, this returns the stack
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where it is suspended. If the coroutine has completed
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successfully or was cancelled, this returns an empty list.
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If the coroutine was terminated by an exception, this returns
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the list of traceback frames.
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The frames are always ordered from oldest to newest.
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Only one stack frame is returned for a suspended coroutine.
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The optional *limit* argument sets the maximum number of frames
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to return; by default all available frames are returned.
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The ordering of the returned list differs depending on whether
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a stack or a traceback is returned: the newest frames of a
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stack are returned, but the oldest frames of a traceback are
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returned. (This matches the behavior of the traceback module.)
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.. method:: print_stack(*, limit=None, file=None)
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Print the stack or traceback for this Task.
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This produces output similar to that of the traceback module
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for the frames retrieved by :meth:`get_stack`.
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The *limit* argument is passed to :meth:`get_stack` directly.
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The *file* argument is an I/O stream to which the output
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is written; by default output is written to :data:`sys.stdout`.
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.. method:: get_coro()
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Return the coroutine object wrapped by the :class:`Task`.
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.. note::
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This will return ``None`` for Tasks which have already
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completed eagerly. See the :ref:`Eager Task Factory <eager-task-factory>`.
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.. versionadded:: 3.8
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.. versionchanged:: 3.12
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Newly added eager task execution means result may be ``None``.
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.. method:: get_context()
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Return the :class:`contextvars.Context` object
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associated with the task.
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.. versionadded:: 3.12
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.. method:: get_name()
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Return the name of the Task.
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If no name has been explicitly assigned to the Task, the default
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asyncio Task implementation generates a default name during
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instantiation.
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.. versionadded:: 3.8
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.. method:: set_name(value)
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Set the name of the Task.
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The *value* argument can be any object, which is then
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converted to a string.
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In the default Task implementation, the name will be visible
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in the :func:`repr` output of a task object.
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.. versionadded:: 3.8
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.. method:: cancel(msg=None)
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Request the Task to be cancelled.
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This arranges for a :exc:`CancelledError` exception to be thrown
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into the wrapped coroutine on the next cycle of the event loop.
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The coroutine then has a chance to clean up or even deny the
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request by suppressing the exception with a :keyword:`try` ...
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... ``except CancelledError`` ... :keyword:`finally` block.
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Therefore, unlike :meth:`Future.cancel`, :meth:`Task.cancel` does
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not guarantee that the Task will be cancelled, although
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suppressing cancellation completely is not common and is actively
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discouraged. Should the coroutine nevertheless decide to suppress
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the cancellation, it needs to call :meth:`Task.uncancel` in addition
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to catching the exception.
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.. versionchanged:: 3.9
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Added the *msg* parameter.
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.. versionchanged:: 3.11
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The ``msg`` parameter is propagated from cancelled task to its awaiter.
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.. _asyncio_example_task_cancel:
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The following example illustrates how coroutines can intercept
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the cancellation request::
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async def cancel_me():
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print('cancel_me(): before sleep')
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try:
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# Wait for 1 hour
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await asyncio.sleep(3600)
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except asyncio.CancelledError:
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print('cancel_me(): cancel sleep')
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raise
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finally:
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print('cancel_me(): after sleep')
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async def main():
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# Create a "cancel_me" Task
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task = asyncio.create_task(cancel_me())
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# Wait for 1 second
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await asyncio.sleep(1)
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task.cancel()
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try:
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await task
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except asyncio.CancelledError:
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print("main(): cancel_me is cancelled now")
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asyncio.run(main())
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# Expected output:
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#
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# cancel_me(): before sleep
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# cancel_me(): cancel sleep
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# cancel_me(): after sleep
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# main(): cancel_me is cancelled now
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.. method:: cancelled()
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Return ``True`` if the Task is *cancelled*.
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The Task is *cancelled* when the cancellation was requested with
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:meth:`cancel` and the wrapped coroutine propagated the
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:exc:`CancelledError` exception thrown into it.
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.. method:: uncancel()
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Decrement the count of cancellation requests to this Task.
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Returns the remaining number of cancellation requests.
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Note that once execution of a cancelled task completed, further
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calls to :meth:`uncancel` are ineffective.
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.. versionadded:: 3.11
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This method is used by asyncio's internals and isn't expected to be
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used by end-user code. In particular, if a Task gets successfully
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uncancelled, this allows for elements of structured concurrency like
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:ref:`taskgroups` and :func:`asyncio.timeout` to continue running,
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isolating cancellation to the respective structured block.
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For example::
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async def make_request_with_timeout():
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try:
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async with asyncio.timeout(1):
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# Structured block affected by the timeout:
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await make_request()
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await make_another_request()
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except TimeoutError:
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log("There was a timeout")
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# Outer code not affected by the timeout:
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await unrelated_code()
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While the block with ``make_request()`` and ``make_another_request()``
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might get cancelled due to the timeout, ``unrelated_code()`` should
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continue running even in case of the timeout. This is implemented
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with :meth:`uncancel`. :class:`TaskGroup` context managers use
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:func:`uncancel` in a similar fashion.
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If end-user code is, for some reason, suppressing cancellation by
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catching :exc:`CancelledError`, it needs to call this method to remove
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the cancellation state.
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When this method decrements the cancellation count to zero,
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the method checks if a previous :meth:`cancel` call had arranged
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for :exc:`CancelledError` to be thrown into the task.
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If it hasn't been thrown yet, that arrangement will be
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rescinded (by resetting the internal ``_must_cancel`` flag).
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.. versionchanged:: 3.13
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Changed to rescind pending cancellation requests upon reaching zero.
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.. method:: cancelling()
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Return the number of pending cancellation requests to this Task, i.e.,
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the number of calls to :meth:`cancel` less the number of
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:meth:`uncancel` calls.
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Note that if this number is greater than zero but the Task is
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still executing, :meth:`cancelled` will still return ``False``.
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This is because this number can be lowered by calling :meth:`uncancel`,
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which can lead to the task not being cancelled after all if the
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cancellation requests go down to zero.
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This method is used by asyncio's internals and isn't expected to be
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used by end-user code. See :meth:`uncancel` for more details.
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.. versionadded:: 3.11
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