Gabriel Genellina <gagsl-...@yahoo.com.ar> wrote: > En Fri, 16 Jan 2009 14:41:21 -0200, escribiste en el grupo > gmane.comp.python.general > > > I ran a few tests on the new Python 2.6 multiprocessing module before > > migrating a threading code, and found out the locking code is not > > working well. In this case, a pool of 5 processes is running, each > > trying to get the lock and releasing it after waiting 0.2 seconds > > (action is repeated twice). It looks like the multiprocessing lock > > allows multiple locking after the second pass. Running the exact same > > code with threads works correctly. > > I've tested your code on Windows and I think the problem is on the Queue > class. If you replace the Queue with some print statements or write to a > log file, the sequence lock/release is OK. > You should file a bug report on http://bugs.python.org/
A little bit of instrumentation in the code reveals the problem. The Queue class doesn't always return the items in the order that they were put in. This should probably be either documented or fixed! I suspect it is impossible to fix for a multi-producer Queue though. The first number is time since the program started. Tested under linux. 0.048810 [proc0] Got lock 0.248679 [proc0] Released lock 0.248858 [proc0] Got lock 0.448666 [proc0] Released lock 0.448859 [proc2] Got lock 0.648639 [proc2] Released lock 0.648893 [proc3] Got lock 0.848633 [proc3] Released lock 0.848767 [proc3] Got lock 1.048635 [proc3] Released lock 1.049090 [proc1] Got lock 1.248617 [proc1] Released lock 1.248743 [proc1] Got lock 1.448634 [proc1] Released lock 1.448810 [proc4] Got lock 1.648674 [proc4] Released lock 1.648831 [proc4] Got lock 1.849867 [proc2] Got lock <--- out of order 1.849679 [proc4] Released lock <--- out of order 2.048683 [proc2] Released lock #!/usr/bin/python -*- coding: utf-8 -*- from multiprocessing import Process, Queue, Lock from Queue import Empty from threading import Thread import time start = time.time() def now(): return time.time() - start class test_lock_process(object): def __init__(self, lock, id, queue): self.lock = lock self.id = id self.queue = queue self.read_lock() def read_lock(self): for i in xrange(2): self.lock.acquire() self.queue.put('%9.6f [proc%d] Got lock' % (now(), self.id)) time.sleep(.2) self.queue.put('%9.6f [proc%d] Released lock' % (now(), self.id)) self.lock.release() def test_lock(processes=10, lock=Lock(), process=True, queue=None): print_result = False if queue == None: print_result = True queue = Queue() threads = [] for i in xrange(processes): if process: threads.append(Process(target=test_lock_process, args=(lock,i,queue,))) else: threads.append(Thread(target=test_lock_process, args=(lock,i,queue,))) for t in threads: t.start() for t in threads: t.join() if print_result: try: while True: print queue.get(block=False) except Empty: pass if __name__ == "__main__": #test_lock(processes=5, process=True) test_lock(processes=5) -- Nick Craig-Wood <n...@craig-wood.com> -- http://www.craig-wood.com/nick -- http://mail.python.org/mailman/listinfo/python-list