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618 lines
20 KiB
Python
618 lines
20 KiB
Python
"""Synchronization primitives."""
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__all__ = ('Lock', 'Event', 'Condition', 'Semaphore',
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'BoundedSemaphore', 'Barrier')
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import collections
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import enum
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from . import exceptions
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from . import mixins
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class _ContextManagerMixin:
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async def __aenter__(self):
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await self.acquire()
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# We have no use for the "as ..." clause in the with
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# statement for locks.
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return None
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async def __aexit__(self, exc_type, exc, tb):
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self.release()
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class Lock(_ContextManagerMixin, mixins._LoopBoundMixin):
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"""Primitive lock objects.
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A primitive lock is a synchronization primitive that is not owned
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by a particular task when locked. A primitive lock is in one
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of two states, 'locked' or 'unlocked'.
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It is created in the unlocked state. It has two basic methods,
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acquire() and release(). When the state is unlocked, acquire()
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changes the state to locked and returns immediately. When the
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state is locked, acquire() blocks until a call to release() in
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another task changes it to unlocked, then the acquire() call
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resets it to locked and returns. The release() method should only
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be called in the locked state; it changes the state to unlocked
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and returns immediately. If an attempt is made to release an
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unlocked lock, a RuntimeError will be raised.
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When more than one task is blocked in acquire() waiting for
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the state to turn to unlocked, only one task proceeds when a
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release() call resets the state to unlocked; successive release()
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calls will unblock tasks in FIFO order.
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Locks also support the asynchronous context management protocol.
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'async with lock' statement should be used.
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Usage:
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lock = Lock()
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...
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await lock.acquire()
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try:
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...
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finally:
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lock.release()
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Context manager usage:
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lock = Lock()
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...
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async with lock:
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...
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Lock objects can be tested for locking state:
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if not lock.locked():
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await lock.acquire()
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else:
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# lock is acquired
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...
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"""
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def __init__(self):
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self._waiters = None
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self._locked = False
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def __repr__(self):
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res = super().__repr__()
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extra = 'locked' if self._locked else 'unlocked'
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if self._waiters:
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extra = f'{extra}, waiters:{len(self._waiters)}'
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return f'<{res[1:-1]} [{extra}]>'
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def locked(self):
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"""Return True if lock is acquired."""
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return self._locked
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async def acquire(self):
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"""Acquire a lock.
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This method blocks until the lock is unlocked, then sets it to
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locked and returns True.
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"""
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# Implement fair scheduling, where thread always waits
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# its turn. Jumping the queue if all are cancelled is an optimization.
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if (not self._locked and (self._waiters is None or
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all(w.cancelled() for w in self._waiters))):
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self._locked = True
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return True
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if self._waiters is None:
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self._waiters = collections.deque()
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fut = self._get_loop().create_future()
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self._waiters.append(fut)
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try:
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try:
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await fut
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finally:
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self._waiters.remove(fut)
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except exceptions.CancelledError:
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# Currently the only exception designed be able to occur here.
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# Ensure the lock invariant: If lock is not claimed (or about
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# to be claimed by us) and there is a Task in waiters,
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# ensure that the Task at the head will run.
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if not self._locked:
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self._wake_up_first()
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raise
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# assert self._locked is False
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self._locked = True
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return True
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def release(self):
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"""Release a lock.
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When the lock is locked, reset it to unlocked, and return.
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If any other tasks are blocked waiting for the lock to become
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unlocked, allow exactly one of them to proceed.
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When invoked on an unlocked lock, a RuntimeError is raised.
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There is no return value.
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"""
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if self._locked:
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self._locked = False
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self._wake_up_first()
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else:
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raise RuntimeError('Lock is not acquired.')
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def _wake_up_first(self):
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"""Ensure that the first waiter will wake up."""
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if not self._waiters:
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return
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try:
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fut = next(iter(self._waiters))
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except StopIteration:
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return
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# .done() means that the waiter is already set to wake up.
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if not fut.done():
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fut.set_result(True)
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class Event(mixins._LoopBoundMixin):
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"""Asynchronous equivalent to threading.Event.
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Class implementing event objects. An event manages a flag that can be set
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to true with the set() method and reset to false with the clear() method.
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The wait() method blocks until the flag is true. The flag is initially
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false.
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"""
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def __init__(self):
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self._waiters = collections.deque()
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self._value = False
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def __repr__(self):
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res = super().__repr__()
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extra = 'set' if self._value else 'unset'
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if self._waiters:
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extra = f'{extra}, waiters:{len(self._waiters)}'
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return f'<{res[1:-1]} [{extra}]>'
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def is_set(self):
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"""Return True if and only if the internal flag is true."""
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return self._value
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def set(self):
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"""Set the internal flag to true. All tasks waiting for it to
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become true are awakened. Tasks that call wait() once the flag is
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true will not block at all.
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"""
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if not self._value:
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self._value = True
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for fut in self._waiters:
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if not fut.done():
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fut.set_result(True)
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def clear(self):
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"""Reset the internal flag to false. Subsequently, tasks calling
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wait() will block until set() is called to set the internal flag
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to true again."""
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self._value = False
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async def wait(self):
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"""Block until the internal flag is true.
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If the internal flag is true on entry, return True
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immediately. Otherwise, block until another task calls
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set() to set the flag to true, then return True.
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"""
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if self._value:
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return True
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fut = self._get_loop().create_future()
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self._waiters.append(fut)
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try:
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await fut
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return True
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finally:
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self._waiters.remove(fut)
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class Condition(_ContextManagerMixin, mixins._LoopBoundMixin):
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"""Asynchronous equivalent to threading.Condition.
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This class implements condition variable objects. A condition variable
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allows one or more tasks to wait until they are notified by another
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task.
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A new Lock object is created and used as the underlying lock.
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"""
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def __init__(self, lock=None):
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if lock is None:
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lock = Lock()
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self._lock = lock
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# Export the lock's locked(), acquire() and release() methods.
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self.locked = lock.locked
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self.acquire = lock.acquire
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self.release = lock.release
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self._waiters = collections.deque()
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def __repr__(self):
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res = super().__repr__()
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extra = 'locked' if self.locked() else 'unlocked'
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if self._waiters:
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extra = f'{extra}, waiters:{len(self._waiters)}'
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return f'<{res[1:-1]} [{extra}]>'
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async def wait(self):
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"""Wait until notified.
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If the calling task has not acquired the lock when this
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method is called, a RuntimeError is raised.
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This method releases the underlying lock, and then blocks
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until it is awakened by a notify() or notify_all() call for
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the same condition variable in another task. Once
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awakened, it re-acquires the lock and returns True.
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This method may return spuriously,
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which is why the caller should always
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re-check the state and be prepared to wait() again.
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"""
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if not self.locked():
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raise RuntimeError('cannot wait on un-acquired lock')
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fut = self._get_loop().create_future()
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self.release()
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try:
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try:
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self._waiters.append(fut)
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try:
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await fut
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return True
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finally:
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self._waiters.remove(fut)
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finally:
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# Must re-acquire lock even if wait is cancelled.
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# We only catch CancelledError here, since we don't want any
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# other (fatal) errors with the future to cause us to spin.
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err = None
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while True:
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try:
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await self.acquire()
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break
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except exceptions.CancelledError as e:
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err = e
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if err is not None:
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try:
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raise err # Re-raise most recent exception instance.
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finally:
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err = None # Break reference cycles.
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except BaseException:
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# Any error raised out of here _may_ have occurred after this Task
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# believed to have been successfully notified.
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# Make sure to notify another Task instead. This may result
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# in a "spurious wakeup", which is allowed as part of the
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# Condition Variable protocol.
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self._notify(1)
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raise
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async def wait_for(self, predicate):
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"""Wait until a predicate becomes true.
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The predicate should be a callable whose result will be
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interpreted as a boolean value. The method will repeatedly
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wait() until it evaluates to true. The final predicate value is
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the return value.
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"""
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result = predicate()
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while not result:
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await self.wait()
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result = predicate()
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return result
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def notify(self, n=1):
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"""By default, wake up one task waiting on this condition, if any.
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If the calling task has not acquired the lock when this method
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is called, a RuntimeError is raised.
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This method wakes up n of the tasks waiting for the condition
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variable; if fewer than n are waiting, they are all awoken.
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Note: an awakened task does not actually return from its
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wait() call until it can reacquire the lock. Since notify() does
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not release the lock, its caller should.
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"""
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if not self.locked():
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raise RuntimeError('cannot notify on un-acquired lock')
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self._notify(n)
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def _notify(self, n):
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idx = 0
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for fut in self._waiters:
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if idx >= n:
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break
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if not fut.done():
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idx += 1
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fut.set_result(False)
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def notify_all(self):
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"""Wake up all tasks waiting on this condition. This method acts
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like notify(), but wakes up all waiting tasks instead of one. If the
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calling task has not acquired the lock when this method is called,
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a RuntimeError is raised.
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"""
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self.notify(len(self._waiters))
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class Semaphore(_ContextManagerMixin, mixins._LoopBoundMixin):
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"""A Semaphore implementation.
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A semaphore manages an internal counter which is decremented by each
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acquire() call and incremented by each release() call. The counter
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can never go below zero; when acquire() finds that it is zero, it blocks,
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waiting until some other thread calls release().
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Semaphores also support the context management protocol.
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The optional argument gives the initial value for the internal
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counter; it defaults to 1. If the value given is less than 0,
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ValueError is raised.
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"""
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def __init__(self, value=1):
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if value < 0:
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raise ValueError("Semaphore initial value must be >= 0")
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self._waiters = None
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self._value = value
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def __repr__(self):
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res = super().__repr__()
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extra = 'locked' if self.locked() else f'unlocked, value:{self._value}'
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if self._waiters:
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extra = f'{extra}, waiters:{len(self._waiters)}'
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return f'<{res[1:-1]} [{extra}]>'
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def locked(self):
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"""Returns True if semaphore cannot be acquired immediately."""
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# Due to state, or FIFO rules (must allow others to run first).
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return self._value == 0 or (
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any(not w.cancelled() for w in (self._waiters or ())))
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async def acquire(self):
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"""Acquire a semaphore.
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If the internal counter is larger than zero on entry,
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decrement it by one and return True immediately. If it is
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zero on entry, block, waiting until some other task has
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called release() to make it larger than 0, and then return
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True.
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"""
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if not self.locked():
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# Maintain FIFO, wait for others to start even if _value > 0.
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self._value -= 1
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return True
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if self._waiters is None:
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self._waiters = collections.deque()
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fut = self._get_loop().create_future()
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self._waiters.append(fut)
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try:
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try:
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await fut
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finally:
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self._waiters.remove(fut)
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except exceptions.CancelledError:
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# Currently the only exception designed be able to occur here.
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if fut.done() and not fut.cancelled():
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# Our Future was successfully set to True via _wake_up_next(),
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# but we are not about to successfully acquire(). Therefore we
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# must undo the bookkeeping already done and attempt to wake
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# up someone else.
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self._value += 1
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raise
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finally:
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# New waiters may have arrived but had to wait due to FIFO.
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# Wake up as many as are allowed.
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while self._value > 0:
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if not self._wake_up_next():
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break # There was no-one to wake up.
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return True
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def release(self):
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"""Release a semaphore, incrementing the internal counter by one.
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When it was zero on entry and another task is waiting for it to
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become larger than zero again, wake up that task.
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"""
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self._value += 1
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self._wake_up_next()
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def _wake_up_next(self):
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"""Wake up the first waiter that isn't done."""
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if not self._waiters:
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return False
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for fut in self._waiters:
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if not fut.done():
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self._value -= 1
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fut.set_result(True)
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# `fut` is now `done()` and not `cancelled()`.
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return True
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return False
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class BoundedSemaphore(Semaphore):
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"""A bounded semaphore implementation.
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This raises ValueError in release() if it would increase the value
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above the initial value.
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"""
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def __init__(self, value=1):
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self._bound_value = value
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super().__init__(value)
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def release(self):
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if self._value >= self._bound_value:
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raise ValueError('BoundedSemaphore released too many times')
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super().release()
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class _BarrierState(enum.Enum):
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FILLING = 'filling'
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DRAINING = 'draining'
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RESETTING = 'resetting'
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BROKEN = 'broken'
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class Barrier(mixins._LoopBoundMixin):
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"""Asyncio equivalent to threading.Barrier
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Implements a Barrier primitive.
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Useful for synchronizing a fixed number of tasks at known synchronization
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points. Tasks block on 'wait()' and are simultaneously awoken once they
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have all made their call.
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"""
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def __init__(self, parties):
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"""Create a barrier, initialised to 'parties' tasks."""
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if parties < 1:
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raise ValueError('parties must be > 0')
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self._cond = Condition() # notify all tasks when state changes
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self._parties = parties
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self._state = _BarrierState.FILLING
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self._count = 0 # count tasks in Barrier
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def __repr__(self):
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res = super().__repr__()
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extra = f'{self._state.value}'
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if not self.broken:
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extra += f', waiters:{self.n_waiting}/{self.parties}'
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return f'<{res[1:-1]} [{extra}]>'
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async def __aenter__(self):
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# wait for the barrier reaches the parties number
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# when start draining release and return index of waited task
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return await self.wait()
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async def __aexit__(self, *args):
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pass
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async def wait(self):
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"""Wait for the barrier.
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When the specified number of tasks have started waiting, they are all
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simultaneously awoken.
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Returns an unique and individual index number from 0 to 'parties-1'.
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"""
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async with self._cond:
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await self._block() # Block while the barrier drains or resets.
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try:
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index = self._count
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self._count += 1
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if index + 1 == self._parties:
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# We release the barrier
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await self._release()
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else:
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await self._wait()
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return index
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finally:
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self._count -= 1
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# Wake up any tasks waiting for barrier to drain.
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self._exit()
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async def _block(self):
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# Block until the barrier is ready for us,
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# or raise an exception if it is broken.
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#
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# It is draining or resetting, wait until done
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# unless a CancelledError occurs
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await self._cond.wait_for(
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lambda: self._state not in (
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_BarrierState.DRAINING, _BarrierState.RESETTING
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)
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)
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# see if the barrier is in a broken state
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if self._state is _BarrierState.BROKEN:
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raise exceptions.BrokenBarrierError("Barrier aborted")
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async def _release(self):
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# Release the tasks waiting in the barrier.
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# Enter draining state.
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# Next waiting tasks will be blocked until the end of draining.
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self._state = _BarrierState.DRAINING
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self._cond.notify_all()
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async def _wait(self):
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# Wait in the barrier until we are released. Raise an exception
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# if the barrier is reset or broken.
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# wait for end of filling
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# unless a CancelledError occurs
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await self._cond.wait_for(lambda: self._state is not _BarrierState.FILLING)
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if self._state in (_BarrierState.BROKEN, _BarrierState.RESETTING):
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raise exceptions.BrokenBarrierError("Abort or reset of barrier")
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def _exit(self):
|
|
# If we are the last tasks to exit the barrier, signal any tasks
|
|
# waiting for the barrier to drain.
|
|
if self._count == 0:
|
|
if self._state in (_BarrierState.RESETTING, _BarrierState.DRAINING):
|
|
self._state = _BarrierState.FILLING
|
|
self._cond.notify_all()
|
|
|
|
async def reset(self):
|
|
"""Reset the barrier to the initial state.
|
|
|
|
Any tasks currently waiting will get the BrokenBarrier exception
|
|
raised.
|
|
"""
|
|
async with self._cond:
|
|
if self._count > 0:
|
|
if self._state is not _BarrierState.RESETTING:
|
|
#reset the barrier, waking up tasks
|
|
self._state = _BarrierState.RESETTING
|
|
else:
|
|
self._state = _BarrierState.FILLING
|
|
self._cond.notify_all()
|
|
|
|
async def abort(self):
|
|
"""Place the barrier into a 'broken' state.
|
|
|
|
Useful in case of error. Any currently waiting tasks and tasks
|
|
attempting to 'wait()' will have BrokenBarrierError raised.
|
|
"""
|
|
async with self._cond:
|
|
self._state = _BarrierState.BROKEN
|
|
self._cond.notify_all()
|
|
|
|
@property
|
|
def parties(self):
|
|
"""Return the number of tasks required to trip the barrier."""
|
|
return self._parties
|
|
|
|
@property
|
|
def n_waiting(self):
|
|
"""Return the number of tasks currently waiting at the barrier."""
|
|
if self._state is _BarrierState.FILLING:
|
|
return self._count
|
|
return 0
|
|
|
|
@property
|
|
def broken(self):
|
|
"""Return True if the barrier is in a broken state."""
|
|
return self._state is _BarrierState.BROKEN
|