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__all__ = ('Queue', 'PriorityQueue', 'LifoQueue', 'QueueFull', 'QueueEmpty') import collections import heapq from types import GenericAlias from . import locks from . import mixins class QueueEmpty(Exception): """Raised when Queue.get_nowait() is called on an empty Queue.""" pass class QueueFull(Exception): """Raised when the Queue.put_nowait() method is called on a full Queue.""" pass class Queue(mixins._LoopBoundMixin): """A queue, useful for coordinating producer and consumer coroutines. If maxsize is less than or equal to zero, the queue size is infinite. If it is an integer greater than 0, then "await put()" will block when the queue reaches maxsize, until an item is removed by get(). Unlike the standard library Queue, you can reliably know this Queue's size with qsize(), since your single-threaded asyncio application won't be interrupted between calling qsize() and doing an operation on the Queue. """ def __init__(self, maxsize=0): self._maxsize = maxsize # Futures. self._getters = collections.deque() # Futures. self._putters = collections.deque() self._unfinished_tasks = 0 self._finished = locks.Event() self._finished.set() self._init(maxsize) # These three are overridable in subclasses. def _init(self, maxsize): self._queue = collections.deque() def _get(self): return self._queue.popleft() def _put(self, item): self._queue.append(item) # End of the overridable methods. def _wakeup_next(self, waiters): # Wake up the next waiter (if any) that isn't cancelled. while waiters: waiter = waiters.popleft() if not waiter.done(): waiter.set_result(None) break def __repr__(self): return f'<{type(self).__name__} at {id(self):#x} {self._format()}>' def __str__(self): return f'<{type(self).__name__} {self._format()}>' __class_getitem__ = classmethod(GenericAlias) def _format(self): result = f'maxsize={self._maxsize!r}' if getattr(self, '_queue', None): result += f' _queue={list(self._queue)!r}' if self._getters: result += f' _getters[{len(self._getters)}]' if self._putters: result += f' _putters[{len(self._putters)}]' if self._unfinished_tasks: result += f' tasks={self._unfinished_tasks}' return result def qsize(self): """Number of items in the queue.""" return len(self._queue) @property def maxsize(self): """Number of items allowed in the queue.""" return self._maxsize def empty(self): """Return True if the queue is empty, False otherwise.""" return not self._queue def full(self): """Return True if there are maxsize items in the queue. Note: if the Queue was initialized with maxsize=0 (the default), then full() is never True. """ if self._maxsize <= 0: return False else: return self.qsize() >= self._maxsize async def put(self, item): """Put an item into the queue. Put an item into the queue. If the queue is full, wait until a free slot is available before adding item. """ while self.full(): putter = self._get_loop().create_future() self._putters.append(putter) try: await putter except: putter.cancel() # Just in case putter is not done yet. try: # Clean self._putters from canceled putters. self._putters.remove(putter) except ValueError: # The putter could be removed from self._putters by a # previous get_nowait call. pass if not self.full() and not putter.cancelled(): # We were woken up by get_nowait(), but can't take # the call. Wake up the next in line. self._wakeup_next(self._putters) raise return self.put_nowait(item) def put_nowait(self, item): """Put an item into the queue without blocking. If no free slot is immediately available, raise QueueFull. """ if self.full(): raise QueueFull self._put(item) self._unfinished_tasks += 1 self._finished.clear() self._wakeup_next(self._getters) async def get(self): """Remove and return an item from the queue. If queue is empty, wait until an item is available. """ while self.empty(): getter = self._get_loop().create_future() self._getters.append(getter) try: await getter except: getter.cancel() # Just in case getter is not done yet. try: # Clean self._getters from canceled getters. self._getters.remove(getter) except ValueError: # The getter could be removed from self._getters by a # previous put_nowait call. pass if not self.empty() and not getter.cancelled(): # We were woken up by put_nowait(), but can't take # the call. Wake up the next in line. self._wakeup_next(self._getters) raise return self.get_nowait() def get_nowait(self): """Remove and return an item from the queue. Return an item if one is immediately available, else raise QueueEmpty. """ if self.empty(): raise QueueEmpty item = self._get() self._wakeup_next(self._putters) return item def task_done(self): """Indicate that a formerly enqueued task is complete. Used by queue consumers. For each get() used to fetch a task, a subsequent call to task_done() tells the queue that the processing on the task is complete. If a join() is currently blocking, it will resume when all items have been processed (meaning that a task_done() call was received for every item that had been put() into the queue). Raises ValueError if called more times than there were items placed in the queue. """ if self._unfinished_tasks <= 0: raise ValueError('task_done() called too many times') self._unfinished_tasks -= 1 if self._unfinished_tasks == 0: self._finished.set() async def join(self): """Block until all items in the queue have been gotten and processed. The count of unfinished tasks goes up whenever an item is added to the queue. The count goes down whenever a consumer calls task_done() to indicate that the item was retrieved and all work on it is complete. When the count of unfinished tasks drops to zero, join() unblocks. """ if self._unfinished_tasks > 0: await self._finished.wait() class PriorityQueue(Queue): """A subclass of Queue; retrieves entries in priority order (lowest first). Entries are typically tuples of the form: (priority number, data). """ def _init(self, maxsize): self._queue = [] def _put(self, item, heappush=heapq.heappush): heappush(self._queue, item) def _get(self, heappop=heapq.heappop): return heappop(self._queue) class LifoQueue(Queue): """A subclass of Queue that retrieves most recently added entries first.""" def _init(self, maxsize): self._queue = [] def _put(self, item): self._queue.append(item) def _get(self): return self._queue.pop()