718 lines
24 KiB
Python
718 lines
24 KiB
Python
"""Support for tasks, coroutines and the scheduler."""
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__all__ = (
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'Task', 'create_task',
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'FIRST_COMPLETED', 'FIRST_EXCEPTION', 'ALL_COMPLETED',
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'wait', 'wait_for', 'as_completed', 'sleep',
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'gather', 'shield', 'ensure_future', 'run_coroutine_threadsafe',
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)
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import concurrent.futures
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import functools
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import inspect
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import types
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import warnings
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import weakref
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from . import base_tasks
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from . import coroutines
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from . import events
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from . import futures
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from .coroutines import coroutine
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class Task(futures.Future):
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"""A coroutine wrapped in a Future."""
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# An important invariant maintained while a Task not done:
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#
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# - Either _fut_waiter is None, and _step() is scheduled;
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# - or _fut_waiter is some Future, and _step() is *not* scheduled.
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#
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# The only transition from the latter to the former is through
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# _wakeup(). When _fut_waiter is not None, one of its callbacks
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# must be _wakeup().
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# Weak set containing all tasks alive.
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_all_tasks = weakref.WeakSet()
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# Dictionary containing tasks that are currently active in
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# all running event loops. {EventLoop: Task}
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_current_tasks = {}
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# If False, don't log a message if the task is destroyed whereas its
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# status is still pending
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_log_destroy_pending = True
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@classmethod
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def current_task(cls, loop=None):
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"""Return the currently running task in an event loop or None.
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By default the current task for the current event loop is returned.
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None is returned when called not in the context of a Task.
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"""
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if loop is None:
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loop = events.get_event_loop()
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return cls._current_tasks.get(loop)
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@classmethod
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def all_tasks(cls, loop=None):
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"""Return a set of all tasks for an event loop.
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By default all tasks for the current event loop are returned.
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"""
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if loop is None:
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loop = events.get_event_loop()
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return {t for t in cls._all_tasks if t._loop is loop}
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def __init__(self, coro, *, loop=None):
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super().__init__(loop=loop)
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if self._source_traceback:
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del self._source_traceback[-1]
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if not coroutines.iscoroutine(coro):
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# raise after Future.__init__(), attrs are required for __del__
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# prevent logging for pending task in __del__
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self._log_destroy_pending = False
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raise TypeError(f"a coroutine was expected, got {coro!r}")
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self._must_cancel = False
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self._fut_waiter = None
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self._coro = coro
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self._loop.call_soon(self._step)
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self.__class__._all_tasks.add(self)
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def __del__(self):
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if self._state == futures._PENDING and self._log_destroy_pending:
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context = {
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'task': self,
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'message': 'Task was destroyed but it is pending!',
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}
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if self._source_traceback:
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context['source_traceback'] = self._source_traceback
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self._loop.call_exception_handler(context)
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futures.Future.__del__(self)
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def _repr_info(self):
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return base_tasks._task_repr_info(self)
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def get_stack(self, *, limit=None):
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"""Return the list of stack frames for this task's coroutine.
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If the coroutine is not done, this returns the stack where it is
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suspended. If the coroutine has completed successfully or was
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cancelled, this returns an empty list. If the coroutine was
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terminated by an exception, this returns the list of traceback
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frames.
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The frames are always ordered from oldest to newest.
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The optional limit gives the maximum number of frames to
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return; by default all available frames are returned. Its
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meaning differs depending on whether a stack or a traceback is
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returned: the newest frames of a stack are returned, but the
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oldest frames of a traceback are returned. (This matches the
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behavior of the traceback module.)
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For reasons beyond our control, only one stack frame is
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returned for a suspended coroutine.
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"""
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return base_tasks._task_get_stack(self, limit)
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def print_stack(self, *, limit=None, file=None):
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"""Print the stack or traceback for this task's coroutine.
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This produces output similar to that of the traceback module,
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for the frames retrieved by get_stack(). The limit argument
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is passed to get_stack(). The file argument is an I/O stream
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to which the output is written; by default output is written
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to sys.stderr.
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"""
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return base_tasks._task_print_stack(self, limit, file)
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def cancel(self):
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"""Request that this task cancel itself.
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This arranges for a CancelledError to be thrown into the
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wrapped coroutine on the next cycle through the event loop.
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The coroutine then has a chance to clean up or even deny
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the request using try/except/finally.
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Unlike Future.cancel, this does not guarantee that the
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task will be cancelled: the exception might be caught and
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acted upon, delaying cancellation of the task or preventing
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cancellation completely. The task may also return a value or
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raise a different exception.
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Immediately after this method is called, Task.cancelled() will
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not return True (unless the task was already cancelled). A
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task will be marked as cancelled when the wrapped coroutine
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terminates with a CancelledError exception (even if cancel()
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was not called).
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"""
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self._log_traceback = False
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if self.done():
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return False
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if self._fut_waiter is not None:
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if self._fut_waiter.cancel():
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# Leave self._fut_waiter; it may be a Task that
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# catches and ignores the cancellation so we may have
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# to cancel it again later.
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return True
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# It must be the case that self._step is already scheduled.
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self._must_cancel = True
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return True
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def _step(self, exc=None):
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assert not self.done(), f'_step(): already done: {self!r}, {exc!r}'
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if self._must_cancel:
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if not isinstance(exc, futures.CancelledError):
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exc = futures.CancelledError()
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self._must_cancel = False
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coro = self._coro
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self._fut_waiter = None
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self.__class__._current_tasks[self._loop] = self
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# Call either coro.throw(exc) or coro.send(None).
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try:
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if exc is None:
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# We use the `send` method directly, because coroutines
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# don't have `__iter__` and `__next__` methods.
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result = coro.send(None)
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else:
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result = coro.throw(exc)
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except StopIteration as exc:
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if self._must_cancel:
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# Task is cancelled right before coro stops.
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self._must_cancel = False
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self.set_exception(futures.CancelledError())
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else:
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self.set_result(exc.value)
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except futures.CancelledError:
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super().cancel() # I.e., Future.cancel(self).
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except Exception as exc:
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self.set_exception(exc)
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except BaseException as exc:
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self.set_exception(exc)
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raise
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else:
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blocking = getattr(result, '_asyncio_future_blocking', None)
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if blocking is not None:
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# Yielded Future must come from Future.__iter__().
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if result._loop is not self._loop:
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new_exc = RuntimeError(
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f'Task {self!r} got Future '
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f'{result!r} attached to a different loop')
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self._loop.call_soon(self._step, new_exc)
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elif blocking:
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if result is self:
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new_exc = RuntimeError(
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f'Task cannot await on itself: {self!r}')
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self._loop.call_soon(self._step, new_exc)
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else:
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result._asyncio_future_blocking = False
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result.add_done_callback(self._wakeup)
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self._fut_waiter = result
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if self._must_cancel:
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if self._fut_waiter.cancel():
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self._must_cancel = False
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else:
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new_exc = RuntimeError(
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f'yield was used instead of yield from '
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f'in task {self!r} with {result!r}')
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self._loop.call_soon(self._step, new_exc)
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elif result is None:
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# Bare yield relinquishes control for one event loop iteration.
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self._loop.call_soon(self._step)
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elif inspect.isgenerator(result):
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# Yielding a generator is just wrong.
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new_exc = RuntimeError(
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f'yield was used instead of yield from for '
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f'generator in task {self!r} with {result}')
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self._loop.call_soon(self._step, new_exc)
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else:
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# Yielding something else is an error.
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new_exc = RuntimeError(f'Task got bad yield: {result!r}')
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self._loop.call_soon(self._step, new_exc)
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finally:
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self.__class__._current_tasks.pop(self._loop)
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self = None # Needed to break cycles when an exception occurs.
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def _wakeup(self, future):
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try:
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future.result()
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except Exception as exc:
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# This may also be a cancellation.
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self._step(exc)
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else:
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# Don't pass the value of `future.result()` explicitly,
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# as `Future.__iter__` and `Future.__await__` don't need it.
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# If we call `_step(value, None)` instead of `_step()`,
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# Python eval loop would use `.send(value)` method call,
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# instead of `__next__()`, which is slower for futures
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# that return non-generator iterators from their `__iter__`.
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self._step()
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self = None # Needed to break cycles when an exception occurs.
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_PyTask = Task
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try:
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import _asyncio
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except ImportError:
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pass
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else:
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# _CTask is needed for tests.
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Task = _CTask = _asyncio.Task
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def create_task(coro):
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"""Schedule the execution of a coroutine object in a spawn task.
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Return a Task object.
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"""
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loop = events.get_running_loop()
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return loop.create_task(coro)
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# wait() and as_completed() similar to those in PEP 3148.
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FIRST_COMPLETED = concurrent.futures.FIRST_COMPLETED
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FIRST_EXCEPTION = concurrent.futures.FIRST_EXCEPTION
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ALL_COMPLETED = concurrent.futures.ALL_COMPLETED
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async def wait(fs, *, loop=None, timeout=None, return_when=ALL_COMPLETED):
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"""Wait for the Futures and coroutines given by fs to complete.
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The sequence futures must not be empty.
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Coroutines will be wrapped in Tasks.
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Returns two sets of Future: (done, pending).
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Usage:
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done, pending = await asyncio.wait(fs)
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Note: This does not raise TimeoutError! Futures that aren't done
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when the timeout occurs are returned in the second set.
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"""
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if futures.isfuture(fs) or coroutines.iscoroutine(fs):
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raise TypeError(f"expect a list of futures, not {type(fs).__name__}")
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if not fs:
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raise ValueError('Set of coroutines/Futures is empty.')
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if return_when not in (FIRST_COMPLETED, FIRST_EXCEPTION, ALL_COMPLETED):
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raise ValueError(f'Invalid return_when value: {return_when}')
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if loop is None:
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loop = events.get_event_loop()
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fs = {ensure_future(f, loop=loop) for f in set(fs)}
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return await _wait(fs, timeout, return_when, loop)
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def _release_waiter(waiter, *args):
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if not waiter.done():
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waiter.set_result(None)
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async def wait_for(fut, timeout, *, loop=None):
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"""Wait for the single Future or coroutine to complete, with timeout.
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Coroutine will be wrapped in Task.
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Returns result of the Future or coroutine. When a timeout occurs,
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it cancels the task and raises TimeoutError. To avoid the task
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cancellation, wrap it in shield().
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If the wait is cancelled, the task is also cancelled.
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This function is a coroutine.
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"""
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if loop is None:
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loop = events.get_event_loop()
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if timeout is None:
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return await fut
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if timeout <= 0:
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fut = ensure_future(fut, loop=loop)
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if fut.done():
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return fut.result()
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fut.cancel()
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raise futures.TimeoutError()
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waiter = loop.create_future()
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timeout_handle = loop.call_later(timeout, _release_waiter, waiter)
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cb = functools.partial(_release_waiter, waiter)
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fut = ensure_future(fut, loop=loop)
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fut.add_done_callback(cb)
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try:
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# wait until the future completes or the timeout
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try:
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await waiter
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except futures.CancelledError:
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fut.remove_done_callback(cb)
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fut.cancel()
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raise
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if fut.done():
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return fut.result()
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else:
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fut.remove_done_callback(cb)
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fut.cancel()
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raise futures.TimeoutError()
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finally:
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timeout_handle.cancel()
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async def _wait(fs, timeout, return_when, loop):
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"""Internal helper for wait() and wait_for().
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The fs argument must be a collection of Futures.
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"""
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assert fs, 'Set of Futures is empty.'
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waiter = loop.create_future()
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timeout_handle = None
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if timeout is not None:
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timeout_handle = loop.call_later(timeout, _release_waiter, waiter)
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counter = len(fs)
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def _on_completion(f):
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nonlocal counter
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counter -= 1
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if (counter <= 0 or
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return_when == FIRST_COMPLETED or
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return_when == FIRST_EXCEPTION and (not f.cancelled() and
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f.exception() is not None)):
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if timeout_handle is not None:
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timeout_handle.cancel()
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if not waiter.done():
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waiter.set_result(None)
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for f in fs:
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f.add_done_callback(_on_completion)
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try:
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await waiter
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finally:
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if timeout_handle is not None:
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timeout_handle.cancel()
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done, pending = set(), set()
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for f in fs:
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f.remove_done_callback(_on_completion)
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if f.done():
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done.add(f)
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else:
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pending.add(f)
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return done, pending
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# This is *not* a @coroutine! It is just an iterator (yielding Futures).
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def as_completed(fs, *, loop=None, timeout=None):
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"""Return an iterator whose values are coroutines.
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When waiting for the yielded coroutines you'll get the results (or
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exceptions!) of the original Futures (or coroutines), in the order
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in which and as soon as they complete.
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This differs from PEP 3148; the proper way to use this is:
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for f in as_completed(fs):
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result = await f # The 'await' may raise.
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# Use result.
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If a timeout is specified, the 'await' will raise
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TimeoutError when the timeout occurs before all Futures are done.
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Note: The futures 'f' are not necessarily members of fs.
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"""
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if futures.isfuture(fs) or coroutines.iscoroutine(fs):
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raise TypeError(f"expect a list of futures, not {type(fs).__name__}")
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loop = loop if loop is not None else events.get_event_loop()
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todo = {ensure_future(f, loop=loop) for f in set(fs)}
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from .queues import Queue # Import here to avoid circular import problem.
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done = Queue(loop=loop)
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timeout_handle = None
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def _on_timeout():
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for f in todo:
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f.remove_done_callback(_on_completion)
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done.put_nowait(None) # Queue a dummy value for _wait_for_one().
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todo.clear() # Can't do todo.remove(f) in the loop.
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def _on_completion(f):
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if not todo:
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return # _on_timeout() was here first.
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todo.remove(f)
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done.put_nowait(f)
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if not todo and timeout_handle is not None:
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timeout_handle.cancel()
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async def _wait_for_one():
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f = await done.get()
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if f is None:
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# Dummy value from _on_timeout().
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raise futures.TimeoutError
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return f.result() # May raise f.exception().
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for f in todo:
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f.add_done_callback(_on_completion)
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if todo and timeout is not None:
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timeout_handle = loop.call_later(timeout, _on_timeout)
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for _ in range(len(todo)):
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yield _wait_for_one()
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@types.coroutine
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def __sleep0():
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"""Skip one event loop run cycle.
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This is a private helper for 'asyncio.sleep()', used
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when the 'delay' is set to 0. It uses a bare 'yield'
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expression (which Task._step knows how to handle)
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instead of creating a Future object.
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"""
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yield
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async def sleep(delay, result=None, *, loop=None):
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"""Coroutine that completes after a given time (in seconds)."""
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if delay == 0:
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await __sleep0()
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return result
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if loop is None:
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loop = events.get_event_loop()
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future = loop.create_future()
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h = future._loop.call_later(delay,
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futures._set_result_unless_cancelled,
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future, result)
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try:
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return await future
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finally:
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h.cancel()
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def ensure_future(coro_or_future, *, loop=None):
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"""Wrap a coroutine or an awaitable in a future.
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If the argument is a Future, it is returned directly.
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"""
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if futures.isfuture(coro_or_future):
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if loop is not None and loop is not coro_or_future._loop:
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raise ValueError('loop argument must agree with Future')
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return coro_or_future
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elif coroutines.iscoroutine(coro_or_future):
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if loop is None:
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loop = events.get_event_loop()
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task = loop.create_task(coro_or_future)
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if task._source_traceback:
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del task._source_traceback[-1]
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return task
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elif inspect.isawaitable(coro_or_future):
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return ensure_future(_wrap_awaitable(coro_or_future), loop=loop)
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else:
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raise TypeError('An asyncio.Future, a coroutine or an awaitable is '
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'required')
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@coroutine
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def _wrap_awaitable(awaitable):
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"""Helper for asyncio.ensure_future().
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Wraps awaitable (an object with __await__) into a coroutine
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that will later be wrapped in a Task by ensure_future().
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"""
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return (yield from awaitable.__await__())
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class _GatheringFuture(futures.Future):
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"""Helper for gather().
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This overrides cancel() to cancel all the children and act more
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like Task.cancel(), which doesn't immediately mark itself as
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cancelled.
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"""
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def __init__(self, children, *, loop=None):
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super().__init__(loop=loop)
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self._children = children
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def cancel(self):
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if self.done():
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return False
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ret = False
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for child in self._children:
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if child.cancel():
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ret = True
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return ret
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def gather(*coros_or_futures, loop=None, return_exceptions=False):
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"""Return a future aggregating results from the given coroutines
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or futures.
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Coroutines will be wrapped in a future and scheduled in the event
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loop. They will not necessarily be scheduled in the same order as
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passed in.
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All futures must share the same event loop. If all the tasks are
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done successfully, the returned future's result is the list of
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results (in the order of the original sequence, not necessarily
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the order of results arrival). If *return_exceptions* is True,
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exceptions in the tasks are treated the same as successful
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results, and gathered in the result list; otherwise, the first
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raised exception will be immediately propagated to the returned
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future.
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Cancellation: if the outer Future is cancelled, all children (that
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|
have not completed yet) are also cancelled. If any child is
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|
cancelled, this is treated as if it raised CancelledError --
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the outer Future is *not* cancelled in this case. (This is to
|
|
prevent the cancellation of one child to cause other children to
|
|
be cancelled.)
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"""
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if not coros_or_futures:
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if loop is None:
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loop = events.get_event_loop()
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outer = loop.create_future()
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outer.set_result([])
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return outer
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arg_to_fut = {}
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|
for arg in set(coros_or_futures):
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if not futures.isfuture(arg):
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fut = ensure_future(arg, loop=loop)
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if loop is None:
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loop = fut._loop
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# The caller cannot control this future, the "destroy pending task"
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# warning should not be emitted.
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fut._log_destroy_pending = False
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else:
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fut = arg
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|
if loop is None:
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|
loop = fut._loop
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|
elif fut._loop is not loop:
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raise ValueError("futures are tied to different event loops")
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arg_to_fut[arg] = fut
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children = [arg_to_fut[arg] for arg in coros_or_futures]
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nchildren = len(children)
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outer = _GatheringFuture(children, loop=loop)
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|
nfinished = 0
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|
results = [None] * nchildren
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|
|
def _done_callback(i, fut):
|
|
nonlocal nfinished
|
|
if outer.done():
|
|
if not fut.cancelled():
|
|
# Mark exception retrieved.
|
|
fut.exception()
|
|
return
|
|
|
|
if fut.cancelled():
|
|
res = futures.CancelledError()
|
|
if not return_exceptions:
|
|
outer.set_exception(res)
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|
return
|
|
elif fut._exception is not None:
|
|
res = fut.exception() # Mark exception retrieved.
|
|
if not return_exceptions:
|
|
outer.set_exception(res)
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|
return
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|
else:
|
|
res = fut._result
|
|
results[i] = res
|
|
nfinished += 1
|
|
if nfinished == nchildren:
|
|
outer.set_result(results)
|
|
|
|
for i, fut in enumerate(children):
|
|
fut.add_done_callback(functools.partial(_done_callback, i))
|
|
return outer
|
|
|
|
|
|
def shield(arg, *, loop=None):
|
|
"""Wait for a future, shielding it from cancellation.
|
|
|
|
The statement
|
|
|
|
res = await shield(something())
|
|
|
|
is exactly equivalent to the statement
|
|
|
|
res = await something()
|
|
|
|
*except* that if the coroutine containing it is cancelled, the
|
|
task running in something() is not cancelled. From the POV of
|
|
something(), the cancellation did not happen. But its caller is
|
|
still cancelled, so the yield-from expression still raises
|
|
CancelledError. Note: If something() is cancelled by other means
|
|
this will still cancel shield().
|
|
|
|
If you want to completely ignore cancellation (not recommended)
|
|
you can combine shield() with a try/except clause, as follows:
|
|
|
|
try:
|
|
res = await shield(something())
|
|
except CancelledError:
|
|
res = None
|
|
"""
|
|
inner = ensure_future(arg, loop=loop)
|
|
if inner.done():
|
|
# Shortcut.
|
|
return inner
|
|
loop = inner._loop
|
|
outer = loop.create_future()
|
|
|
|
def _done_callback(inner):
|
|
if outer.cancelled():
|
|
if not inner.cancelled():
|
|
# Mark inner's result as retrieved.
|
|
inner.exception()
|
|
return
|
|
|
|
if inner.cancelled():
|
|
outer.cancel()
|
|
else:
|
|
exc = inner.exception()
|
|
if exc is not None:
|
|
outer.set_exception(exc)
|
|
else:
|
|
outer.set_result(inner.result())
|
|
|
|
inner.add_done_callback(_done_callback)
|
|
return outer
|
|
|
|
|
|
def run_coroutine_threadsafe(coro, loop):
|
|
"""Submit a coroutine object to a given event loop.
|
|
|
|
Return a concurrent.futures.Future to access the result.
|
|
"""
|
|
if not coroutines.iscoroutine(coro):
|
|
raise TypeError('A coroutine object is required')
|
|
future = concurrent.futures.Future()
|
|
|
|
def callback():
|
|
try:
|
|
futures._chain_future(ensure_future(coro, loop=loop), future)
|
|
except Exception as exc:
|
|
if future.set_running_or_notify_cancel():
|
|
future.set_exception(exc)
|
|
raise
|
|
|
|
loop.call_soon_threadsafe(callback)
|
|
return future
|