Runners¶
Source code: Lib/asyncio/runners.py
This section outlines high-level asyncio primitives to run asyncio code.
They are built on top of an event loop with the aim to simplify async code usage for common wide-spread scenarios.
Running an asyncio Program¶
- asyncio.run(coro, *, debug=None, loop_factory=None)¶
Execute coro in an asyncio event loop and return the result.
The argument can be any awaitable object.
This function runs the awaitable, taking care of managing the asyncio event loop, finalizing asynchronous generators, and closing the executor.
This function cannot be called when another asyncio event loop is running in the same thread.
If debug is
True
, the event loop will be run in debug mode.False
disables debug mode explicitly.None
is used to respect the global Debug Mode settings.If loop_factory is not
None
, it is used to create a new event loop; otherwiseasyncio.new_event_loop()
is used. The loop is closed at the end. This function should be used as a main entry point for asyncio programs, and should ideally only be called once. It is recommended to use loop_factory to configure the event loop instead of policies. Passingasyncio.EventLoop
allows running asyncio without the policy system.The executor is given a timeout duration of 5 minutes to shutdown. If the executor hasn’t finished within that duration, a warning is emitted and the executor is closed.
Example:
async def main(): await asyncio.sleep(1) print('hello') asyncio.run(main())
Added in version 3.7.
Changed in version 3.9: Updated to use
loop.shutdown_default_executor()
.Changed in version 3.10: debug is
None
by default to respect the global debug mode settings.Changed in version 3.12: Added loop_factory parameter.
Changed in version 3.14: coro can be any awaitable object.
Runner context manager¶
- class asyncio.Runner(*, debug=None, loop_factory=None)¶
A context manager that simplifies multiple async function calls in the same context.
Sometimes several top-level async functions should be called in the same event loop and
contextvars.Context
.If debug is
True
, the event loop will be run in debug mode.False
disables debug mode explicitly.None
is used to respect the global Debug Mode settings.loop_factory could be used for overriding the loop creation. It is the responsibility of the loop_factory to set the created loop as the current one. By default
asyncio.new_event_loop()
is used and set as current event loop withasyncio.set_event_loop()
if loop_factory isNone
.Basically,
asyncio.run()
example can be rewritten with the runner usage:async def main(): await asyncio.sleep(1) print('hello') with asyncio.Runner() as runner: runner.run(main())
Added in version 3.11.
- run(coro, *, context=None)¶
Execute coro in the embedded event loop.
The argument can be any awaitable object.
If the argument is a coroutine, it is wrapped in a Task.
An optional keyword-only context argument allows specifying a custom
contextvars.Context
for the code to run in. The runner’s default context is used if context isNone
.Returns the awaitable’s result or raises an exception.
This function cannot be called when another asyncio event loop is running in the same thread.
Changed in version 3.14: coro can be any awaitable object.
- close()¶
Close the runner.
Finalize asynchronous generators, shutdown default executor, close the event loop and release embedded
contextvars.Context
.
- get_loop()¶
Return the event loop associated with the runner instance.
Note
Runner
uses the lazy initialization strategy, its constructor doesn’t initialize underlying low-level structures.Embedded loop and context are created at the
with
body entering or the first call ofrun()
orget_loop()
.
Handling Keyboard Interruption¶
Added in version 3.11.
When signal.SIGINT
is raised by Ctrl-C, KeyboardInterrupt
exception is raised in the main thread by default. However this doesn’t work with
asyncio
because it can interrupt asyncio internals and can hang the program from
exiting.
To mitigate this issue, asyncio
handles signal.SIGINT
as follows:
asyncio.Runner.run()
installs a customsignal.SIGINT
handler before any user code is executed and removes it when exiting from the function.The
Runner
creates the main task for the passed coroutine for its execution.When
signal.SIGINT
is raised by Ctrl-C, the custom signal handler cancels the main task by callingasyncio.Task.cancel()
which raisesasyncio.CancelledError
inside the main task. This causes the Python stack to unwind,try/except
andtry/finally
blocks can be used for resource cleanup. After the main task is cancelled,asyncio.Runner.run()
raisesKeyboardInterrupt
.A user could write a tight loop which cannot be interrupted by
asyncio.Task.cancel()
, in which case the second following Ctrl-C immediately raises theKeyboardInterrupt
without cancelling the main task.