# # Module implementing queues # # multiprocessing/queues.py # # Copyright (c) 2006-2008, R Oudkerk # Licensed to PSF under a Contributor Agreement. # from __future__ import absolute_import import sys import os import threading import collections import weakref import errno from . import Pipe from ._ext import _billiard from .compat import get_errno from .five import monotonic from .synchronize import Lock, BoundedSemaphore, Semaphore, Condition from .util import debug, error, info, Finalize, register_after_fork from .five import Empty, Full from .forking import assert_spawning __all__ = ['Queue', 'SimpleQueue', 'JoinableQueue'] class Queue(object): ''' Queue type using a pipe, buffer and thread ''' def __init__(self, maxsize=0): if maxsize <= 0: maxsize = _billiard.SemLock.SEM_VALUE_MAX self._maxsize = maxsize self._reader, self._writer = Pipe(duplex=False) self._rlock = Lock() self._opid = os.getpid() if sys.platform == 'win32': self._wlock = None else: self._wlock = Lock() self._sem = BoundedSemaphore(maxsize) # For use by concurrent.futures self._ignore_epipe = False self._after_fork() if sys.platform != 'win32': register_after_fork(self, Queue._after_fork) def __getstate__(self): assert_spawning(self) return (self._ignore_epipe, self._maxsize, self._reader, self._writer, self._rlock, self._wlock, self._sem, self._opid) def __setstate__(self, state): (self._ignore_epipe, self._maxsize, self._reader, self._writer, self._rlock, self._wlock, self._sem, self._opid) = state self._after_fork() def _after_fork(self): debug('Queue._after_fork()') self._notempty = threading.Condition(threading.Lock()) self._buffer = collections.deque() self._thread = None self._jointhread = None self._joincancelled = False self._closed = False self._close = None self._send = self._writer.send self._recv = self._reader.recv self._poll = self._reader.poll def put(self, obj, block=True, timeout=None): assert not self._closed if not self._sem.acquire(block, timeout): raise Full with self._notempty: if self._thread is None: self._start_thread() self._buffer.append(obj) self._notempty.notify() def get(self, block=True, timeout=None): if block and timeout is None: with self._rlock: res = self._recv() self._sem.release() return res else: if block: deadline = monotonic() + timeout if not self._rlock.acquire(block, timeout): raise Empty try: if block: timeout = deadline - monotonic() if timeout < 0 or not self._poll(timeout): raise Empty elif not self._poll(): raise Empty res = self._recv() self._sem.release() return res finally: self._rlock.release() def qsize(self): # Raises NotImplementedError on Mac OSX because # of broken sem_getvalue() return self._maxsize - self._sem._semlock._get_value() def empty(self): return not self._poll() def full(self): return self._sem._semlock._is_zero() def get_nowait(self): return self.get(False) def put_nowait(self, obj): return self.put(obj, False) def close(self): self._closed = True self._reader.close() if self._close: self._close() def join_thread(self): debug('Queue.join_thread()') assert self._closed if self._jointhread: self._jointhread() def cancel_join_thread(self): debug('Queue.cancel_join_thread()') self._joincancelled = True try: self._jointhread.cancel() except AttributeError: pass def _start_thread(self): debug('Queue._start_thread()') # Start thread which transfers data from buffer to pipe self._buffer.clear() self._thread = threading.Thread( target=Queue._feed, args=(self._buffer, self._notempty, self._send, self._wlock, self._writer.close, self._ignore_epipe), name='QueueFeederThread' ) self._thread.daemon = True debug('doing self._thread.start()') self._thread.start() debug('... done self._thread.start()') # On process exit we will wait for data to be flushed to pipe. # # However, if this process created the queue then all # processes which use the queue will be descendants of this # process. Therefore waiting for the queue to be flushed # is pointless once all the child processes have been joined. created_by_this_process = (self._opid == os.getpid()) if not self._joincancelled and not created_by_this_process: self._jointhread = Finalize( self._thread, Queue._finalize_join, [weakref.ref(self._thread)], exitpriority=-5 ) # Send sentinel to the thread queue object when garbage collected self._close = Finalize( self, Queue._finalize_close, [self._buffer, self._notempty], exitpriority=10 ) @staticmethod def _finalize_join(twr): debug('joining queue thread') thread = twr() if thread is not None: thread.join() debug('... queue thread joined') else: debug('... queue thread already dead') @staticmethod def _finalize_close(buffer, notempty): debug('telling queue thread to quit') with notempty: buffer.append(_sentinel) notempty.notify() @staticmethod def _feed(buffer, notempty, send, writelock, close, ignore_epipe): debug('starting thread to feed data to pipe') from .util import is_exiting ncond = notempty nwait = notempty.wait bpopleft = buffer.popleft sentinel = _sentinel if sys.platform != 'win32': wlock = writelock else: wlock = None try: while 1: with ncond: if not buffer: nwait() try: while 1: obj = bpopleft() if obj is sentinel: debug('feeder thread got sentinel -- exiting') close() return if wlock is None: send(obj) else: with wlock: send(obj) except IndexError: pass except Exception as exc: if ignore_epipe and get_errno(exc) == errno.EPIPE: return # Since this runs in a daemon thread the resources it uses # may be become unusable while the process is cleaning up. # We ignore errors which happen after the process has # started to cleanup. try: if is_exiting(): info('error in queue thread: %r', exc, exc_info=True) else: if not error('error in queue thread: %r', exc, exc_info=True): import traceback traceback.print_exc() except Exception: pass _sentinel = object() class JoinableQueue(Queue): ''' A queue type which also supports join() and task_done() methods Note that if you do not call task_done() for each finished task then eventually the counter's semaphore may overflow causing Bad Things to happen. ''' def __init__(self, maxsize=0): Queue.__init__(self, maxsize) self._unfinished_tasks = Semaphore(0) self._cond = Condition() def __getstate__(self): return Queue.__getstate__(self) + (self._cond, self._unfinished_tasks) def __setstate__(self, state): Queue.__setstate__(self, state[:-2]) self._cond, self._unfinished_tasks = state[-2:] def put(self, obj, block=True, timeout=None): assert not self._closed if not self._sem.acquire(block, timeout): raise Full with self._notempty: with self._cond: if self._thread is None: self._start_thread() self._buffer.append(obj) self._unfinished_tasks.release() self._notempty.notify() def task_done(self): with self._cond: if not self._unfinished_tasks.acquire(False): raise ValueError('task_done() called too many times') if self._unfinished_tasks._semlock._is_zero(): self._cond.notify_all() def join(self): with self._cond: if not self._unfinished_tasks._semlock._is_zero(): self._cond.wait() class _SimpleQueue(object): ''' Simplified Queue type -- really just a locked pipe ''' def __init__(self, rnonblock=False, wnonblock=False): self._reader, self._writer = Pipe( duplex=False, rnonblock=rnonblock, wnonblock=wnonblock, ) self._poll = self._reader.poll self._rlock = self._wlock = None self._make_methods() def empty(self): return not self._poll() def __getstate__(self): assert_spawning(self) return (self._reader, self._writer, self._rlock, self._wlock) def __setstate__(self, state): (self._reader, self._writer, self._rlock, self._wlock) = state self._make_methods() def _make_methods(self): recv = self._reader.recv try: recv_payload = self._reader.recv_payload except AttributeError: recv_payload = self._reader.recv_bytes rlock = self._rlock if rlock is not None: def get(): with rlock: return recv() self.get = get def get_payload(): with rlock: return recv_payload() self.get_payload = get_payload else: self.get = recv self.get_payload = recv_payload if self._wlock is None: # writes to a message oriented win32 pipe are atomic self.put = self._writer.send else: send = self._writer.send wlock = self._wlock def put(obj): with wlock: return send(obj) self.put = put class SimpleQueue(_SimpleQueue): def __init__(self): self._reader, self._writer = Pipe(duplex=False) self._rlock = Lock() self._wlock = Lock() if sys.platform != 'win32' else None self._make_methods()