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281 lines
10 KiB
281 lines
10 KiB
:mod:`queue` --- A synchronized queue class
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===========================================
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.. module:: queue
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:synopsis: A synchronized queue class.
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**Source code:** :source:`Lib/queue.py`
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--------------
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The :mod:`queue` module implements multi-producer, multi-consumer queues.
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It is especially useful in threaded programming when information must be
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exchanged safely between multiple threads. The :class:`Queue` class in this
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module implements all the required locking semantics.
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The module implements three types of queue, which differ only in the order in
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which the entries are retrieved. In a :abbr:`FIFO (first-in, first-out)`
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queue, the first tasks added are the first retrieved. In a
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:abbr:`LIFO (last-in, first-out)` queue, the most recently added entry is
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the first retrieved (operating like a stack). With a priority queue,
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the entries are kept sorted (using the :mod:`heapq` module) and the
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lowest valued entry is retrieved first.
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Internally, those three types of queues use locks to temporarily block
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competing threads; however, they are not designed to handle reentrancy
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within a thread.
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In addition, the module implements a "simple"
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:abbr:`FIFO (first-in, first-out)` queue type, :class:`SimpleQueue`, whose
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specific implementation provides additional guarantees
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in exchange for the smaller functionality.
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The :mod:`queue` module defines the following classes and exceptions:
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.. class:: Queue(maxsize=0)
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Constructor for a :abbr:`FIFO (first-in, first-out)` queue. *maxsize* is
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an integer that sets the upperbound
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limit on the number of items that can be placed in the queue. Insertion will
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block once this size has been reached, until queue items are consumed. If
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*maxsize* is less than or equal to zero, the queue size is infinite.
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.. class:: LifoQueue(maxsize=0)
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Constructor for a :abbr:`LIFO (last-in, first-out)` queue. *maxsize* is
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an integer that sets the upperbound
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limit on the number of items that can be placed in the queue. Insertion will
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block once this size has been reached, until queue items are consumed. If
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*maxsize* is less than or equal to zero, the queue size is infinite.
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.. class:: PriorityQueue(maxsize=0)
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Constructor for a priority queue. *maxsize* is an integer that sets the upperbound
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limit on the number of items that can be placed in the queue. Insertion will
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block once this size has been reached, until queue items are consumed. If
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*maxsize* is less than or equal to zero, the queue size is infinite.
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The lowest valued entries are retrieved first (the lowest valued entry is the
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one returned by ``sorted(list(entries))[0]``). A typical pattern for entries
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is a tuple in the form: ``(priority_number, data)``.
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If the *data* elements are not comparable, the data can be wrapped in a class
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that ignores the data item and only compares the priority number::
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from dataclasses import dataclass, field
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from typing import Any
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@dataclass(order=True)
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class PrioritizedItem:
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priority: int
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item: Any=field(compare=False)
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.. class:: SimpleQueue()
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Constructor for an unbounded :abbr:`FIFO (first-in, first-out)` queue.
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Simple queues lack advanced functionality such as task tracking.
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.. versionadded:: 3.7
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.. exception:: Empty
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Exception raised when non-blocking :meth:`~Queue.get` (or
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:meth:`~Queue.get_nowait`) is called
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on a :class:`Queue` object which is empty.
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.. exception:: Full
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Exception raised when non-blocking :meth:`~Queue.put` (or
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:meth:`~Queue.put_nowait`) is called
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on a :class:`Queue` object which is full.
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.. _queueobjects:
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Queue Objects
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-------------
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Queue objects (:class:`Queue`, :class:`LifoQueue`, or :class:`PriorityQueue`)
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provide the public methods described below.
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.. method:: Queue.qsize()
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Return the approximate size of the queue. Note, qsize() > 0 doesn't
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guarantee that a subsequent get() will not block, nor will qsize() < maxsize
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guarantee that put() will not block.
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.. method:: Queue.empty()
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Return ``True`` if the queue is empty, ``False`` otherwise. If empty()
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returns ``True`` it doesn't guarantee that a subsequent call to put()
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will not block. Similarly, if empty() returns ``False`` it doesn't
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guarantee that a subsequent call to get() will not block.
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.. method:: Queue.full()
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Return ``True`` if the queue is full, ``False`` otherwise. If full()
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returns ``True`` it doesn't guarantee that a subsequent call to get()
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will not block. Similarly, if full() returns ``False`` it doesn't
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guarantee that a subsequent call to put() will not block.
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.. method:: Queue.put(item, block=True, timeout=None)
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Put *item* into the queue. If optional args *block* is true and *timeout* is
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``None`` (the default), block if necessary until a free slot is available. If
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*timeout* is a positive number, it blocks at most *timeout* seconds and raises
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the :exc:`Full` exception if no free slot was available within that time.
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Otherwise (*block* is false), put an item on the queue if a free slot is
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immediately available, else raise the :exc:`Full` exception (*timeout* is
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ignored in that case).
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.. method:: Queue.put_nowait(item)
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Equivalent to ``put(item, False)``.
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.. method:: Queue.get(block=True, timeout=None)
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Remove and return an item from the queue. If optional args *block* is true and
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*timeout* is ``None`` (the default), block if necessary until an item is available.
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If *timeout* is a positive number, it blocks at most *timeout* seconds and
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raises the :exc:`Empty` exception if no item was available within that time.
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Otherwise (*block* is false), return an item if one is immediately available,
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else raise the :exc:`Empty` exception (*timeout* is ignored in that case).
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Prior to 3.0 on POSIX systems, and for all versions on Windows, if
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*block* is true and *timeout* is ``None``, this operation goes into
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an uninterruptible wait on an underlying lock. This means that no exceptions
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can occur, and in particular a SIGINT will not trigger a :exc:`KeyboardInterrupt`.
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.. method:: Queue.get_nowait()
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Equivalent to ``get(False)``.
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Two methods are offered to support tracking whether enqueued tasks have been
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fully processed by daemon consumer threads.
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.. method:: Queue.task_done()
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Indicate that a formerly enqueued task is complete. Used by queue consumer
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threads. For each :meth:`get` used to fetch a task, a subsequent call to
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:meth:`task_done` tells the queue that the processing on the task is complete.
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If a :meth:`join` is currently blocking, it will resume when all items have been
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processed (meaning that a :meth:`task_done` call was received for every item
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that had been :meth:`put` into the queue).
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Raises a :exc:`ValueError` if called more times than there were items placed in
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the queue.
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.. method:: Queue.join()
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Blocks until all items in the queue have been gotten and processed.
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The count of unfinished tasks goes up whenever an item is added to the queue.
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The count goes down whenever a consumer thread calls :meth:`task_done` to
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indicate that the item was retrieved and all work on it is complete. When the
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count of unfinished tasks drops to zero, :meth:`join` unblocks.
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Example of how to wait for enqueued tasks to be completed::
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import threading, queue
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q = queue.Queue()
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def worker():
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while True:
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item = q.get()
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print(f'Working on {item}')
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print(f'Finished {item}')
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q.task_done()
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# turn-on the worker thread
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threading.Thread(target=worker, daemon=True).start()
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# send thirty task requests to the worker
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for item in range(30):
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q.put(item)
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print('All task requests sent\n', end='')
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# block until all tasks are done
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q.join()
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print('All work completed')
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SimpleQueue Objects
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-------------------
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:class:`SimpleQueue` objects provide the public methods described below.
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.. method:: SimpleQueue.qsize()
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Return the approximate size of the queue. Note, qsize() > 0 doesn't
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guarantee that a subsequent get() will not block.
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.. method:: SimpleQueue.empty()
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Return ``True`` if the queue is empty, ``False`` otherwise. If empty()
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returns ``False`` it doesn't guarantee that a subsequent call to get()
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will not block.
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.. method:: SimpleQueue.put(item, block=True, timeout=None)
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Put *item* into the queue. The method never blocks and always succeeds
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(except for potential low-level errors such as failure to allocate memory).
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The optional args *block* and *timeout* are ignored and only provided
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for compatibility with :meth:`Queue.put`.
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.. impl-detail::
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This method has a C implementation which is reentrant. That is, a
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``put()`` or ``get()`` call can be interrupted by another ``put()``
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call in the same thread without deadlocking or corrupting internal
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state inside the queue. This makes it appropriate for use in
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destructors such as ``__del__`` methods or :mod:`weakref` callbacks.
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.. method:: SimpleQueue.put_nowait(item)
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Equivalent to ``put(item)``, provided for compatibility with
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:meth:`Queue.put_nowait`.
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.. method:: SimpleQueue.get(block=True, timeout=None)
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Remove and return an item from the queue. If optional args *block* is true and
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*timeout* is ``None`` (the default), block if necessary until an item is available.
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If *timeout* is a positive number, it blocks at most *timeout* seconds and
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raises the :exc:`Empty` exception if no item was available within that time.
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Otherwise (*block* is false), return an item if one is immediately available,
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else raise the :exc:`Empty` exception (*timeout* is ignored in that case).
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.. method:: SimpleQueue.get_nowait()
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Equivalent to ``get(False)``.
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.. seealso::
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Class :class:`multiprocessing.Queue`
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A queue class for use in a multi-processing (rather than multi-threading)
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context.
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:class:`collections.deque` is an alternative implementation of unbounded
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queues with fast atomic :meth:`~collections.deque.append` and
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:meth:`~collections.deque.popleft` operations that do not require locking
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and also support indexing.
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