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Antoine Pitrou64a467d2010-12-12 20:34:49 +00001:mod:`multiprocessing` --- Process-based parallelism
2====================================================
Benjamin Petersone711caf2008-06-11 16:44:04 +00003
4.. module:: multiprocessing
Antoine Pitrou64a467d2010-12-12 20:34:49 +00005 :synopsis: Process-based parallelism.
Benjamin Petersone711caf2008-06-11 16:44:04 +00006
Benjamin Petersone711caf2008-06-11 16:44:04 +00007
8Introduction
Georg Brandl49702152008-09-29 06:43:45 +00009------------
Benjamin Petersone711caf2008-06-11 16:44:04 +000010
Benjamin Peterson5289b2b2008-06-28 00:40:54 +000011:mod:`multiprocessing` is a package that supports spawning processes using an
12API similar to the :mod:`threading` module. The :mod:`multiprocessing` package
13offers both local and remote concurrency, effectively side-stepping the
14:term:`Global Interpreter Lock` by using subprocesses instead of threads. Due
15to this, the :mod:`multiprocessing` module allows the programmer to fully
16leverage multiple processors on a given machine. It runs on both Unix and
17Windows.
Benjamin Petersone711caf2008-06-11 16:44:04 +000018
Raymond Hettingerfd151912010-11-04 03:02:56 +000019.. note::
Benjamin Petersone5384b02008-10-04 22:00:42 +000020
21 Some of this package's functionality requires a functioning shared semaphore
Georg Brandl48310cd2009-01-03 21:18:54 +000022 implementation on the host operating system. Without one, the
23 :mod:`multiprocessing.synchronize` module will be disabled, and attempts to
24 import it will result in an :exc:`ImportError`. See
Benjamin Petersone5384b02008-10-04 22:00:42 +000025 :issue:`3770` for additional information.
Benjamin Petersone711caf2008-06-11 16:44:04 +000026
Jesse Noller45239682008-11-28 18:46:19 +000027.. note::
28
Ezio Melotti2ee88352011-04-29 07:10:24 +030029 Functionality within this package requires that the ``__main__`` module be
Jesse Noller45239682008-11-28 18:46:19 +000030 importable by the children. This is covered in :ref:`multiprocessing-programming`
31 however it is worth pointing out here. This means that some examples, such
R David Murrayace51622012-10-06 22:26:52 -040032 as the :class:`multiprocessing.pool.Pool` examples will not work in the
Jesse Noller45239682008-11-28 18:46:19 +000033 interactive interpreter. For example::
34
35 >>> from multiprocessing import Pool
36 >>> p = Pool(5)
37 >>> def f(x):
Georg Brandla1c6a1c2009-01-03 21:26:05 +000038 ... return x*x
Georg Brandl48310cd2009-01-03 21:18:54 +000039 ...
Jesse Noller45239682008-11-28 18:46:19 +000040 >>> p.map(f, [1,2,3])
41 Process PoolWorker-1:
42 Process PoolWorker-2:
R. David Murray8e8099c2009-04-28 18:02:00 +000043 Process PoolWorker-3:
44 Traceback (most recent call last):
Jesse Noller45239682008-11-28 18:46:19 +000045 Traceback (most recent call last):
46 Traceback (most recent call last):
47 AttributeError: 'module' object has no attribute 'f'
48 AttributeError: 'module' object has no attribute 'f'
49 AttributeError: 'module' object has no attribute 'f'
50
R. David Murray8e8099c2009-04-28 18:02:00 +000051 (If you try this it will actually output three full tracebacks
52 interleaved in a semi-random fashion, and then you may have to
53 stop the master process somehow.)
54
Jesse Noller45239682008-11-28 18:46:19 +000055
Benjamin Petersone711caf2008-06-11 16:44:04 +000056The :class:`Process` class
57~~~~~~~~~~~~~~~~~~~~~~~~~~
58
59In :mod:`multiprocessing`, processes are spawned by creating a :class:`Process`
Benjamin Peterson5289b2b2008-06-28 00:40:54 +000060object and then calling its :meth:`~Process.start` method. :class:`Process`
Benjamin Petersone711caf2008-06-11 16:44:04 +000061follows the API of :class:`threading.Thread`. A trivial example of a
62multiprocess program is ::
63
Georg Brandlb3959bd2010-04-08 06:33:16 +000064 from multiprocessing import Process
Benjamin Petersone711caf2008-06-11 16:44:04 +000065
66 def f(name):
Georg Brandl49702152008-09-29 06:43:45 +000067 print('hello', name)
Benjamin Petersone711caf2008-06-11 16:44:04 +000068
Georg Brandlb3959bd2010-04-08 06:33:16 +000069 if __name__ == '__main__':
70 p = Process(target=f, args=('bob',))
71 p.start()
72 p.join()
Benjamin Petersone711caf2008-06-11 16:44:04 +000073
Jesse Noller45239682008-11-28 18:46:19 +000074To show the individual process IDs involved, here is an expanded example::
75
76 from multiprocessing import Process
77 import os
78
79 def info(title):
Ezio Melotti985e24d2009-09-13 07:54:02 +000080 print(title)
81 print('module name:', __name__)
Georg Brandl29feb1f2012-07-01 09:47:54 +020082 if hasattr(os, 'getppid'): # only available on Unix
83 print('parent process:', os.getppid())
Ezio Melotti985e24d2009-09-13 07:54:02 +000084 print('process id:', os.getpid())
Georg Brandl48310cd2009-01-03 21:18:54 +000085
Jesse Noller45239682008-11-28 18:46:19 +000086 def f(name):
87 info('function f')
Ezio Melotti985e24d2009-09-13 07:54:02 +000088 print('hello', name)
Georg Brandl48310cd2009-01-03 21:18:54 +000089
Jesse Noller45239682008-11-28 18:46:19 +000090 if __name__ == '__main__':
91 info('main line')
92 p = Process(target=f, args=('bob',))
93 p.start()
94 p.join()
Benjamin Petersone711caf2008-06-11 16:44:04 +000095
96For an explanation of why (on Windows) the ``if __name__ == '__main__'`` part is
97necessary, see :ref:`multiprocessing-programming`.
98
99
100
101Exchanging objects between processes
102~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
103
104:mod:`multiprocessing` supports two types of communication channel between
105processes:
106
107**Queues**
108
Benjamin Peterson257060a2008-06-28 01:42:41 +0000109 The :class:`Queue` class is a near clone of :class:`queue.Queue`. For
Benjamin Petersone711caf2008-06-11 16:44:04 +0000110 example::
111
112 from multiprocessing import Process, Queue
113
114 def f(q):
115 q.put([42, None, 'hello'])
116
Georg Brandl1f01deb2009-01-03 22:47:39 +0000117 if __name__ == '__main__':
118 q = Queue()
119 p = Process(target=f, args=(q,))
120 p.start()
121 print(q.get()) # prints "[42, None, 'hello']"
122 p.join()
Benjamin Petersone711caf2008-06-11 16:44:04 +0000123
Antoine Pitroufc6accc2012-05-18 13:57:04 +0200124 Queues are thread and process safe.
Benjamin Petersone711caf2008-06-11 16:44:04 +0000125
126**Pipes**
127
128 The :func:`Pipe` function returns a pair of connection objects connected by a
129 pipe which by default is duplex (two-way). For example::
130
131 from multiprocessing import Process, Pipe
132
133 def f(conn):
134 conn.send([42, None, 'hello'])
135 conn.close()
136
137 if __name__ == '__main__':
138 parent_conn, child_conn = Pipe()
139 p = Process(target=f, args=(child_conn,))
140 p.start()
Georg Brandl49702152008-09-29 06:43:45 +0000141 print(parent_conn.recv()) # prints "[42, None, 'hello']"
Benjamin Petersone711caf2008-06-11 16:44:04 +0000142 p.join()
143
144 The two connection objects returned by :func:`Pipe` represent the two ends of
Benjamin Peterson5289b2b2008-06-28 00:40:54 +0000145 the pipe. Each connection object has :meth:`~Connection.send` and
146 :meth:`~Connection.recv` methods (among others). Note that data in a pipe
147 may become corrupted if two processes (or threads) try to read from or write
148 to the *same* end of the pipe at the same time. Of course there is no risk
149 of corruption from processes using different ends of the pipe at the same
150 time.
Benjamin Petersone711caf2008-06-11 16:44:04 +0000151
152
153Synchronization between processes
154~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
155
156:mod:`multiprocessing` contains equivalents of all the synchronization
157primitives from :mod:`threading`. For instance one can use a lock to ensure
158that only one process prints to standard output at a time::
159
160 from multiprocessing import Process, Lock
161
162 def f(l, i):
163 l.acquire()
Georg Brandl49702152008-09-29 06:43:45 +0000164 print('hello world', i)
Benjamin Petersone711caf2008-06-11 16:44:04 +0000165 l.release()
166
167 if __name__ == '__main__':
168 lock = Lock()
169
170 for num in range(10):
171 Process(target=f, args=(lock, num)).start()
172
173Without using the lock output from the different processes is liable to get all
174mixed up.
175
176
177Sharing state between processes
178~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
179
180As mentioned above, when doing concurrent programming it is usually best to
181avoid using shared state as far as possible. This is particularly true when
182using multiple processes.
183
184However, if you really do need to use some shared data then
185:mod:`multiprocessing` provides a couple of ways of doing so.
186
187**Shared memory**
188
189 Data can be stored in a shared memory map using :class:`Value` or
190 :class:`Array`. For example, the following code ::
191
192 from multiprocessing import Process, Value, Array
193
194 def f(n, a):
195 n.value = 3.1415927
196 for i in range(len(a)):
197 a[i] = -a[i]
198
199 if __name__ == '__main__':
200 num = Value('d', 0.0)
201 arr = Array('i', range(10))
202
203 p = Process(target=f, args=(num, arr))
204 p.start()
205 p.join()
206
Georg Brandl49702152008-09-29 06:43:45 +0000207 print(num.value)
208 print(arr[:])
Benjamin Petersone711caf2008-06-11 16:44:04 +0000209
210 will print ::
211
212 3.1415927
213 [0, -1, -2, -3, -4, -5, -6, -7, -8, -9]
214
215 The ``'d'`` and ``'i'`` arguments used when creating ``num`` and ``arr`` are
216 typecodes of the kind used by the :mod:`array` module: ``'d'`` indicates a
Georg Brandl2ee470f2008-07-16 12:55:28 +0000217 double precision float and ``'i'`` indicates a signed integer. These shared
Georg Brandlf285bcc2010-10-19 21:07:16 +0000218 objects will be process and thread-safe.
Benjamin Petersone711caf2008-06-11 16:44:04 +0000219
220 For more flexibility in using shared memory one can use the
221 :mod:`multiprocessing.sharedctypes` module which supports the creation of
222 arbitrary ctypes objects allocated from shared memory.
223
224**Server process**
225
226 A manager object returned by :func:`Manager` controls a server process which
Georg Brandl2ee470f2008-07-16 12:55:28 +0000227 holds Python objects and allows other processes to manipulate them using
Benjamin Petersone711caf2008-06-11 16:44:04 +0000228 proxies.
229
Richard Oudkerk3730a172012-06-15 18:26:07 +0100230 A manager returned by :func:`Manager` will support types
231 :class:`list`, :class:`dict`, :class:`Namespace`, :class:`Lock`,
232 :class:`RLock`, :class:`Semaphore`, :class:`BoundedSemaphore`,
233 :class:`Condition`, :class:`Event`, :class:`Barrier`,
234 :class:`Queue`, :class:`Value` and :class:`Array`. For example, ::
Benjamin Petersone711caf2008-06-11 16:44:04 +0000235
236 from multiprocessing import Process, Manager
237
238 def f(d, l):
239 d[1] = '1'
240 d['2'] = 2
241 d[0.25] = None
242 l.reverse()
243
244 if __name__ == '__main__':
Richard Oudkerk633c4d92012-06-18 21:29:36 +0100245 with Manager() as manager:
246 d = manager.dict()
247 l = manager.list(range(10))
Benjamin Petersone711caf2008-06-11 16:44:04 +0000248
Richard Oudkerk633c4d92012-06-18 21:29:36 +0100249 p = Process(target=f, args=(d, l))
250 p.start()
251 p.join()
Benjamin Petersone711caf2008-06-11 16:44:04 +0000252
Richard Oudkerk633c4d92012-06-18 21:29:36 +0100253 print(d)
254 print(l)
Benjamin Petersone711caf2008-06-11 16:44:04 +0000255
256 will print ::
257
258 {0.25: None, 1: '1', '2': 2}
259 [9, 8, 7, 6, 5, 4, 3, 2, 1, 0]
260
261 Server process managers are more flexible than using shared memory objects
262 because they can be made to support arbitrary object types. Also, a single
263 manager can be shared by processes on different computers over a network.
264 They are, however, slower than using shared memory.
265
266
267Using a pool of workers
268~~~~~~~~~~~~~~~~~~~~~~~
269
Benjamin Peterson5289b2b2008-06-28 00:40:54 +0000270The :class:`~multiprocessing.pool.Pool` class represents a pool of worker
Benjamin Petersone711caf2008-06-11 16:44:04 +0000271processes. It has methods which allows tasks to be offloaded to the worker
272processes in a few different ways.
273
274For example::
275
276 from multiprocessing import Pool
277
278 def f(x):
279 return x*x
280
281 if __name__ == '__main__':
Andrew Svetlov23089ab2012-11-20 16:12:38 +0200282 with Pool(processes=4) as pool: # start 4 worker processes
Richard Oudkerk633c4d92012-06-18 21:29:36 +0100283 result = pool.apply_async(f, [10]) # evaluate "f(10)" asynchronously
284 print(result.get(timeout=1)) # prints "100" unless your computer is *very* slow
285 print(pool.map(f, range(10))) # prints "[0, 1, 4,..., 81]"
Benjamin Petersone711caf2008-06-11 16:44:04 +0000286
Richard Oudkerkb3c4b982013-07-02 12:32:00 +0100287Note that the methods of a pool should only ever be used by the
288process which created it.
289
Benjamin Petersone711caf2008-06-11 16:44:04 +0000290
291Reference
292---------
293
294The :mod:`multiprocessing` package mostly replicates the API of the
295:mod:`threading` module.
296
297
298:class:`Process` and exceptions
299~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
300
Ezio Melotti8429b672012-09-14 06:35:09 +0300301.. class:: Process(group=None, target=None, name=None, args=(), kwargs={}, \
302 *, daemon=None)
Benjamin Petersone711caf2008-06-11 16:44:04 +0000303
304 Process objects represent activity that is run in a separate process. The
305 :class:`Process` class has equivalents of all the methods of
306 :class:`threading.Thread`.
307
308 The constructor should always be called with keyword arguments. *group*
Benjamin Peterson5289b2b2008-06-28 00:40:54 +0000309 should always be ``None``; it exists solely for compatibility with
Benjamin Petersona786b022008-08-25 21:05:21 +0000310 :class:`threading.Thread`. *target* is the callable object to be invoked by
Benjamin Peterson5289b2b2008-06-28 00:40:54 +0000311 the :meth:`run()` method. It defaults to ``None``, meaning nothing is
Eli Benderskyb674dcf2012-07-13 09:45:31 +0300312 called. *name* is the process name (see :attr:`name` for more details).
313 *args* is the argument tuple for the target invocation. *kwargs* is a
314 dictionary of keyword arguments for the target invocation. If provided,
315 the keyword-only *daemon* argument sets the process :attr:`daemon` flag
316 to ``True`` or ``False``. If ``None`` (the default), this flag will be
317 inherited from the creating process.
Antoine Pitrou0bd4deb2011-02-25 22:07:43 +0000318
319 By default, no arguments are passed to *target*.
Benjamin Petersone711caf2008-06-11 16:44:04 +0000320
321 If a subclass overrides the constructor, it must make sure it invokes the
322 base class constructor (:meth:`Process.__init__`) before doing anything else
323 to the process.
324
Antoine Pitrou0bd4deb2011-02-25 22:07:43 +0000325 .. versionchanged:: 3.3
326 Added the *daemon* argument.
327
Benjamin Petersone711caf2008-06-11 16:44:04 +0000328 .. method:: run()
329
330 Method representing the process's activity.
331
332 You may override this method in a subclass. The standard :meth:`run`
333 method invokes the callable object passed to the object's constructor as
334 the target argument, if any, with sequential and keyword arguments taken
335 from the *args* and *kwargs* arguments, respectively.
336
337 .. method:: start()
338
339 Start the process's activity.
340
341 This must be called at most once per process object. It arranges for the
342 object's :meth:`run` method to be invoked in a separate process.
343
344 .. method:: join([timeout])
345
Charles-François Nataliacd9f7c2011-07-25 18:35:49 +0200346 If the optional argument *timeout* is ``None`` (the default), the method
347 blocks until the process whose :meth:`join` method is called terminates.
348 If *timeout* is a positive number, it blocks at most *timeout* seconds.
Benjamin Petersone711caf2008-06-11 16:44:04 +0000349
350 A process can be joined many times.
351
352 A process cannot join itself because this would cause a deadlock. It is
353 an error to attempt to join a process before it has been started.
354
Benjamin Petersona786b022008-08-25 21:05:21 +0000355 .. attribute:: name
Benjamin Petersone711caf2008-06-11 16:44:04 +0000356
Eli Benderskyb674dcf2012-07-13 09:45:31 +0300357 The process's name. The name is a string used for identification purposes
358 only. It has no semantics. Multiple processes may be given the same
359 name.
Benjamin Petersone711caf2008-06-11 16:44:04 +0000360
Eli Benderskyb674dcf2012-07-13 09:45:31 +0300361 The initial name is set by the constructor. If no explicit name is
362 provided to the constructor, a name of the form
363 'Process-N\ :sub:`1`:N\ :sub:`2`:...:N\ :sub:`k`' is constructed, where
364 each N\ :sub:`k` is the N-th child of its parent.
Benjamin Petersone711caf2008-06-11 16:44:04 +0000365
Jesse Noller45239682008-11-28 18:46:19 +0000366 .. method:: is_alive
Benjamin Petersone711caf2008-06-11 16:44:04 +0000367
368 Return whether the process is alive.
369
370 Roughly, a process object is alive from the moment the :meth:`start`
371 method returns until the child process terminates.
372
Benjamin Petersona786b022008-08-25 21:05:21 +0000373 .. attribute:: daemon
Benjamin Petersone711caf2008-06-11 16:44:04 +0000374
Benjamin Petersonda10d3b2009-01-01 00:23:30 +0000375 The process's daemon flag, a Boolean value. This must be set before
Benjamin Petersona786b022008-08-25 21:05:21 +0000376 :meth:`start` is called.
Benjamin Petersone711caf2008-06-11 16:44:04 +0000377
378 The initial value is inherited from the creating process.
379
380 When a process exits, it attempts to terminate all of its daemonic child
381 processes.
382
383 Note that a daemonic process is not allowed to create child processes.
384 Otherwise a daemonic process would leave its children orphaned if it gets
Alexandre Vassalotti260484d2009-07-17 11:43:26 +0000385 terminated when its parent process exits. Additionally, these are **not**
386 Unix daemons or services, they are normal processes that will be
Georg Brandl6faee4e2010-09-21 14:48:28 +0000387 terminated (and not joined) if non-daemonic processes have exited.
Benjamin Petersone711caf2008-06-11 16:44:04 +0000388
Serhiy Storchaka9e0ae532013-08-24 00:23:38 +0300389 In addition to the :class:`threading.Thread` API, :class:`Process` objects
Benjamin Petersona786b022008-08-25 21:05:21 +0000390 also support the following attributes and methods:
Benjamin Petersone711caf2008-06-11 16:44:04 +0000391
Benjamin Petersona786b022008-08-25 21:05:21 +0000392 .. attribute:: pid
Benjamin Petersone711caf2008-06-11 16:44:04 +0000393
394 Return the process ID. Before the process is spawned, this will be
395 ``None``.
396
Benjamin Petersona786b022008-08-25 21:05:21 +0000397 .. attribute:: exitcode
Benjamin Petersone711caf2008-06-11 16:44:04 +0000398
Benjamin Petersona786b022008-08-25 21:05:21 +0000399 The child's exit code. This will be ``None`` if the process has not yet
400 terminated. A negative value *-N* indicates that the child was terminated
401 by signal *N*.
Benjamin Petersone711caf2008-06-11 16:44:04 +0000402
Benjamin Petersona786b022008-08-25 21:05:21 +0000403 .. attribute:: authkey
Benjamin Petersone711caf2008-06-11 16:44:04 +0000404
Benjamin Petersona786b022008-08-25 21:05:21 +0000405 The process's authentication key (a byte string).
Benjamin Petersone711caf2008-06-11 16:44:04 +0000406
407 When :mod:`multiprocessing` is initialized the main process is assigned a
Serhiy Storchaka9e0ae532013-08-24 00:23:38 +0300408 random string using :func:`os.urandom`.
Benjamin Petersone711caf2008-06-11 16:44:04 +0000409
410 When a :class:`Process` object is created, it will inherit the
Benjamin Petersona786b022008-08-25 21:05:21 +0000411 authentication key of its parent process, although this may be changed by
412 setting :attr:`authkey` to another byte string.
Benjamin Petersone711caf2008-06-11 16:44:04 +0000413
414 See :ref:`multiprocessing-auth-keys`.
415
Antoine Pitrou176f07d2011-06-06 19:35:31 +0200416 .. attribute:: sentinel
417
418 A numeric handle of a system object which will become "ready" when
419 the process ends.
420
Antoine Pitroubdb1cf12012-03-05 19:28:37 +0100421 You can use this value if you want to wait on several events at
422 once using :func:`multiprocessing.connection.wait`. Otherwise
423 calling :meth:`join()` is simpler.
424
Antoine Pitrou176f07d2011-06-06 19:35:31 +0200425 On Windows, this is an OS handle usable with the ``WaitForSingleObject``
426 and ``WaitForMultipleObjects`` family of API calls. On Unix, this is
427 a file descriptor usable with primitives from the :mod:`select` module.
428
Antoine Pitrou176f07d2011-06-06 19:35:31 +0200429 .. versionadded:: 3.3
430
Benjamin Peterson5289b2b2008-06-28 00:40:54 +0000431 .. method:: terminate()
Benjamin Petersone711caf2008-06-11 16:44:04 +0000432
Benjamin Peterson5289b2b2008-06-28 00:40:54 +0000433 Terminate the process. On Unix this is done using the ``SIGTERM`` signal;
Georg Brandl60203b42010-10-06 10:11:56 +0000434 on Windows :c:func:`TerminateProcess` is used. Note that exit handlers and
Benjamin Peterson5289b2b2008-06-28 00:40:54 +0000435 finally clauses, etc., will not be executed.
Benjamin Petersone711caf2008-06-11 16:44:04 +0000436
437 Note that descendant processes of the process will *not* be terminated --
438 they will simply become orphaned.
439
440 .. warning::
441
442 If this method is used when the associated process is using a pipe or
443 queue then the pipe or queue is liable to become corrupted and may
444 become unusable by other process. Similarly, if the process has
445 acquired a lock or semaphore etc. then terminating it is liable to
446 cause other processes to deadlock.
447
Ask Solemff7ffdd2010-11-09 21:52:33 +0000448 Note that the :meth:`start`, :meth:`join`, :meth:`is_alive`,
Richard Oudkerk64c25b42013-06-24 15:42:00 +0100449 :meth:`terminate` and :attr:`exitcode` methods should only be called by
Ask Solemff7ffdd2010-11-09 21:52:33 +0000450 the process that created the process object.
Benjamin Petersone711caf2008-06-11 16:44:04 +0000451
R. David Murray8e8099c2009-04-28 18:02:00 +0000452 Example usage of some of the methods of :class:`Process`:
453
454 .. doctest::
Benjamin Petersone711caf2008-06-11 16:44:04 +0000455
Benjamin Peterson206e3072008-10-19 14:07:49 +0000456 >>> import multiprocessing, time, signal
457 >>> p = multiprocessing.Process(target=time.sleep, args=(1000,))
Georg Brandl49702152008-09-29 06:43:45 +0000458 >>> print(p, p.is_alive())
Benjamin Petersone711caf2008-06-11 16:44:04 +0000459 <Process(Process-1, initial)> False
460 >>> p.start()
Georg Brandl49702152008-09-29 06:43:45 +0000461 >>> print(p, p.is_alive())
Benjamin Petersone711caf2008-06-11 16:44:04 +0000462 <Process(Process-1, started)> True
463 >>> p.terminate()
R. David Murray8e8099c2009-04-28 18:02:00 +0000464 >>> time.sleep(0.1)
Georg Brandl49702152008-09-29 06:43:45 +0000465 >>> print(p, p.is_alive())
Benjamin Petersone711caf2008-06-11 16:44:04 +0000466 <Process(Process-1, stopped[SIGTERM])> False
Benjamin Petersona786b022008-08-25 21:05:21 +0000467 >>> p.exitcode == -signal.SIGTERM
Benjamin Petersone711caf2008-06-11 16:44:04 +0000468 True
469
Eli Benderskyb674dcf2012-07-13 09:45:31 +0300470.. exception:: ProcessError
471
472 The base class of all :mod:`multiprocessing` exceptions.
Benjamin Petersone711caf2008-06-11 16:44:04 +0000473
474.. exception:: BufferTooShort
475
476 Exception raised by :meth:`Connection.recv_bytes_into()` when the supplied
477 buffer object is too small for the message read.
478
479 If ``e`` is an instance of :exc:`BufferTooShort` then ``e.args[0]`` will give
480 the message as a byte string.
481
Eli Benderskyb674dcf2012-07-13 09:45:31 +0300482.. exception:: AuthenticationError
483
484 Raised when there is an authentication error.
485
486.. exception:: TimeoutError
487
488 Raised by methods with a timeout when the timeout expires.
Benjamin Petersone711caf2008-06-11 16:44:04 +0000489
490Pipes and Queues
491~~~~~~~~~~~~~~~~
492
493When using multiple processes, one generally uses message passing for
494communication between processes and avoids having to use any synchronization
495primitives like locks.
496
497For passing messages one can use :func:`Pipe` (for a connection between two
498processes) or a queue (which allows multiple producers and consumers).
499
Sandro Tosicd778152012-02-15 23:27:00 +0100500The :class:`Queue`, :class:`SimpleQueue` and :class:`JoinableQueue` types are multi-producer,
Benjamin Peterson257060a2008-06-28 01:42:41 +0000501multi-consumer FIFO queues modelled on the :class:`queue.Queue` class in the
Benjamin Petersone711caf2008-06-11 16:44:04 +0000502standard library. They differ in that :class:`Queue` lacks the
Benjamin Peterson257060a2008-06-28 01:42:41 +0000503:meth:`~queue.Queue.task_done` and :meth:`~queue.Queue.join` methods introduced
504into Python 2.5's :class:`queue.Queue` class.
Benjamin Petersone711caf2008-06-11 16:44:04 +0000505
506If you use :class:`JoinableQueue` then you **must** call
507:meth:`JoinableQueue.task_done` for each task removed from the queue or else the
Eli Benderskyd08effe2011-12-31 07:20:26 +0200508semaphore used to count the number of unfinished tasks may eventually overflow,
Benjamin Petersone711caf2008-06-11 16:44:04 +0000509raising an exception.
510
Benjamin Peterson5289b2b2008-06-28 00:40:54 +0000511Note that one can also create a shared queue by using a manager object -- see
512:ref:`multiprocessing-managers`.
513
Benjamin Petersone711caf2008-06-11 16:44:04 +0000514.. note::
515
Benjamin Peterson257060a2008-06-28 01:42:41 +0000516 :mod:`multiprocessing` uses the usual :exc:`queue.Empty` and
517 :exc:`queue.Full` exceptions to signal a timeout. They are not available in
Benjamin Petersone711caf2008-06-11 16:44:04 +0000518 the :mod:`multiprocessing` namespace so you need to import them from
Benjamin Peterson257060a2008-06-28 01:42:41 +0000519 :mod:`queue`.
Benjamin Petersone711caf2008-06-11 16:44:04 +0000520
Richard Oudkerk95fe1a72013-06-24 14:48:07 +0100521.. note::
522
523 When an object is put on a queue, the object is pickled and a
524 background thread later flushes the pickled data to an underlying
525 pipe. This has some consequences which are a little surprising,
Richard Oudkerk7b69da72013-06-24 18:12:57 +0100526 but should not cause any practical difficulties -- if they really
527 bother you then you can instead use a queue created with a
528 :ref:`manager <multiprocessing-managers>`.
Richard Oudkerk95fe1a72013-06-24 14:48:07 +0100529
530 (1) After putting an object on an empty queue there may be an
Richard Oudkerk2b310dd2013-06-24 20:38:46 +0100531 infinitesimal delay before the queue's :meth:`~Queue.empty`
Richard Oudkerk95fe1a72013-06-24 14:48:07 +0100532 method returns :const:`False` and :meth:`~Queue.get_nowait` can
Serhiy Storchaka9e0ae532013-08-24 00:23:38 +0300533 return without raising :exc:`queue.Empty`.
Richard Oudkerk95fe1a72013-06-24 14:48:07 +0100534
535 (2) If multiple processes are enqueuing objects, it is possible for
536 the objects to be received at the other end out-of-order.
537 However, objects enqueued by the same process will always be in
538 the expected order with respect to each other.
Benjamin Petersone711caf2008-06-11 16:44:04 +0000539
540.. warning::
541
542 If a process is killed using :meth:`Process.terminate` or :func:`os.kill`
543 while it is trying to use a :class:`Queue`, then the data in the queue is
Eli Benderskyd08effe2011-12-31 07:20:26 +0200544 likely to become corrupted. This may cause any other process to get an
Benjamin Petersone711caf2008-06-11 16:44:04 +0000545 exception when it tries to use the queue later on.
546
547.. warning::
548
549 As mentioned above, if a child process has put items on a queue (and it has
Serhiy Storchaka9e0ae532013-08-24 00:23:38 +0300550 not used :meth:`JoinableQueue.cancel_join_thread
551 <multiprocessing.Queue.cancel_join_thread>`), then that process will
Benjamin Petersone711caf2008-06-11 16:44:04 +0000552 not terminate until all buffered items have been flushed to the pipe.
553
554 This means that if you try joining that process you may get a deadlock unless
555 you are sure that all items which have been put on the queue have been
556 consumed. Similarly, if the child process is non-daemonic then the parent
Georg Brandl2ee470f2008-07-16 12:55:28 +0000557 process may hang on exit when it tries to join all its non-daemonic children.
Benjamin Petersone711caf2008-06-11 16:44:04 +0000558
559 Note that a queue created using a manager does not have this issue. See
560 :ref:`multiprocessing-programming`.
561
Benjamin Petersone711caf2008-06-11 16:44:04 +0000562For an example of the usage of queues for interprocess communication see
563:ref:`multiprocessing-examples`.
564
565
566.. function:: Pipe([duplex])
567
568 Returns a pair ``(conn1, conn2)`` of :class:`Connection` objects representing
569 the ends of a pipe.
570
571 If *duplex* is ``True`` (the default) then the pipe is bidirectional. If
572 *duplex* is ``False`` then the pipe is unidirectional: ``conn1`` can only be
573 used for receiving messages and ``conn2`` can only be used for sending
574 messages.
575
576
577.. class:: Queue([maxsize])
578
579 Returns a process shared queue implemented using a pipe and a few
580 locks/semaphores. When a process first puts an item on the queue a feeder
581 thread is started which transfers objects from a buffer into the pipe.
582
Benjamin Peterson257060a2008-06-28 01:42:41 +0000583 The usual :exc:`queue.Empty` and :exc:`queue.Full` exceptions from the
Serhiy Storchaka9e0ae532013-08-24 00:23:38 +0300584 standard library's :mod:`queue` module are raised to signal timeouts.
Benjamin Petersone711caf2008-06-11 16:44:04 +0000585
Benjamin Peterson257060a2008-06-28 01:42:41 +0000586 :class:`Queue` implements all the methods of :class:`queue.Queue` except for
587 :meth:`~queue.Queue.task_done` and :meth:`~queue.Queue.join`.
Benjamin Petersone711caf2008-06-11 16:44:04 +0000588
589 .. method:: qsize()
590
591 Return the approximate size of the queue. Because of
592 multithreading/multiprocessing semantics, this number is not reliable.
593
594 Note that this may raise :exc:`NotImplementedError` on Unix platforms like
Georg Brandlc575c902008-09-13 17:46:05 +0000595 Mac OS X where ``sem_getvalue()`` is not implemented.
Benjamin Petersone711caf2008-06-11 16:44:04 +0000596
597 .. method:: empty()
598
599 Return ``True`` if the queue is empty, ``False`` otherwise. Because of
600 multithreading/multiprocessing semantics, this is not reliable.
601
602 .. method:: full()
603
604 Return ``True`` if the queue is full, ``False`` otherwise. Because of
605 multithreading/multiprocessing semantics, this is not reliable.
606
Senthil Kumarane969a212011-09-06 00:21:30 +0800607 .. method:: put(obj[, block[, timeout]])
Benjamin Petersone711caf2008-06-11 16:44:04 +0000608
Senthil Kumarane969a212011-09-06 00:21:30 +0800609 Put obj into the queue. If the optional argument *block* is ``True``
Benjamin Peterson5289b2b2008-06-28 00:40:54 +0000610 (the default) and *timeout* is ``None`` (the default), block if necessary until
Benjamin Petersone711caf2008-06-11 16:44:04 +0000611 a free slot is available. If *timeout* is a positive number, it blocks at
Benjamin Peterson257060a2008-06-28 01:42:41 +0000612 most *timeout* seconds and raises the :exc:`queue.Full` exception if no
Benjamin Petersone711caf2008-06-11 16:44:04 +0000613 free slot was available within that time. Otherwise (*block* is
614 ``False``), put an item on the queue if a free slot is immediately
Benjamin Peterson257060a2008-06-28 01:42:41 +0000615 available, else raise the :exc:`queue.Full` exception (*timeout* is
Benjamin Petersone711caf2008-06-11 16:44:04 +0000616 ignored in that case).
617
Senthil Kumarane969a212011-09-06 00:21:30 +0800618 .. method:: put_nowait(obj)
Benjamin Petersone711caf2008-06-11 16:44:04 +0000619
Senthil Kumarane969a212011-09-06 00:21:30 +0800620 Equivalent to ``put(obj, False)``.
Benjamin Petersone711caf2008-06-11 16:44:04 +0000621
622 .. method:: get([block[, timeout]])
623
624 Remove and return an item from the queue. If optional args *block* is
625 ``True`` (the default) and *timeout* is ``None`` (the default), block if
626 necessary until an item is available. If *timeout* is a positive number,
Benjamin Peterson257060a2008-06-28 01:42:41 +0000627 it blocks at most *timeout* seconds and raises the :exc:`queue.Empty`
Benjamin Petersone711caf2008-06-11 16:44:04 +0000628 exception if no item was available within that time. Otherwise (block is
629 ``False``), return an item if one is immediately available, else raise the
Benjamin Peterson257060a2008-06-28 01:42:41 +0000630 :exc:`queue.Empty` exception (*timeout* is ignored in that case).
Benjamin Petersone711caf2008-06-11 16:44:04 +0000631
632 .. method:: get_nowait()
Benjamin Petersone711caf2008-06-11 16:44:04 +0000633
634 Equivalent to ``get(False)``.
635
636 :class:`multiprocessing.Queue` has a few additional methods not found in
Georg Brandl2ee470f2008-07-16 12:55:28 +0000637 :class:`queue.Queue`. These methods are usually unnecessary for most
638 code:
Benjamin Petersone711caf2008-06-11 16:44:04 +0000639
640 .. method:: close()
641
642 Indicate that no more data will be put on this queue by the current
643 process. The background thread will quit once it has flushed all buffered
644 data to the pipe. This is called automatically when the queue is garbage
645 collected.
646
647 .. method:: join_thread()
648
649 Join the background thread. This can only be used after :meth:`close` has
650 been called. It blocks until the background thread exits, ensuring that
651 all data in the buffer has been flushed to the pipe.
652
653 By default if a process is not the creator of the queue then on exit it
654 will attempt to join the queue's background thread. The process can call
Benjamin Peterson5289b2b2008-06-28 00:40:54 +0000655 :meth:`cancel_join_thread` to make :meth:`join_thread` do nothing.
Benjamin Petersone711caf2008-06-11 16:44:04 +0000656
657 .. method:: cancel_join_thread()
658
659 Prevent :meth:`join_thread` from blocking. In particular, this prevents
660 the background thread from being joined automatically when the process
Benjamin Peterson5289b2b2008-06-28 00:40:54 +0000661 exits -- see :meth:`join_thread`.
Benjamin Petersone711caf2008-06-11 16:44:04 +0000662
Richard Oudkerkd7d3f372013-07-02 12:59:55 +0100663 A better name for this method might be
664 ``allow_exit_without_flush()``. It is likely to cause enqueued
665 data to lost, and you almost certainly will not need to use it.
666 It is really only there if you need the current process to exit
667 immediately without waiting to flush enqueued data to the
668 underlying pipe, and you don't care about lost data.
669
Benjamin Petersone711caf2008-06-11 16:44:04 +0000670
Sandro Tosicd778152012-02-15 23:27:00 +0100671.. class:: SimpleQueue()
Sandro Tosi5cb522c2012-02-15 23:14:21 +0100672
673 It is a simplified :class:`Queue` type, very close to a locked :class:`Pipe`.
674
675 .. method:: empty()
676
677 Return ``True`` if the queue is empty, ``False`` otherwise.
678
679 .. method:: get()
680
681 Remove and return an item from the queue.
682
683 .. method:: put(item)
684
685 Put *item* into the queue.
686
687
Benjamin Petersone711caf2008-06-11 16:44:04 +0000688.. class:: JoinableQueue([maxsize])
689
690 :class:`JoinableQueue`, a :class:`Queue` subclass, is a queue which
691 additionally has :meth:`task_done` and :meth:`join` methods.
692
693 .. method:: task_done()
694
Eli Bendersky78da3bc2012-07-13 10:10:05 +0300695 Indicate that a formerly enqueued task is complete. Used by queue
696 consumers. For each :meth:`~Queue.get` used to fetch a task, a subsequent
Benjamin Peterson5289b2b2008-06-28 00:40:54 +0000697 call to :meth:`task_done` tells the queue that the processing on the task
698 is complete.
Benjamin Petersone711caf2008-06-11 16:44:04 +0000699
Serhiy Storchaka9e0ae532013-08-24 00:23:38 +0300700 If a :meth:`~queue.Queue.join` is currently blocking, it will resume when all
Benjamin Peterson5289b2b2008-06-28 00:40:54 +0000701 items have been processed (meaning that a :meth:`task_done` call was
702 received for every item that had been :meth:`~Queue.put` into the queue).
Benjamin Petersone711caf2008-06-11 16:44:04 +0000703
704 Raises a :exc:`ValueError` if called more times than there were items
705 placed in the queue.
706
707
708 .. method:: join()
709
710 Block until all items in the queue have been gotten and processed.
711
712 The count of unfinished tasks goes up whenever an item is added to the
Eli Bendersky78da3bc2012-07-13 10:10:05 +0300713 queue. The count goes down whenever a consumer calls
Benjamin Petersone711caf2008-06-11 16:44:04 +0000714 :meth:`task_done` to indicate that the item was retrieved and all work on
715 it is complete. When the count of unfinished tasks drops to zero,
Serhiy Storchaka9e0ae532013-08-24 00:23:38 +0300716 :meth:`~queue.Queue.join` unblocks.
Benjamin Petersone711caf2008-06-11 16:44:04 +0000717
718
719Miscellaneous
720~~~~~~~~~~~~~
721
722.. function:: active_children()
723
724 Return list of all live children of the current process.
725
726 Calling this has the side affect of "joining" any processes which have
727 already finished.
728
729.. function:: cpu_count()
730
731 Return the number of CPUs in the system. May raise
732 :exc:`NotImplementedError`.
733
734.. function:: current_process()
735
736 Return the :class:`Process` object corresponding to the current process.
737
738 An analogue of :func:`threading.current_thread`.
739
740.. function:: freeze_support()
741
742 Add support for when a program which uses :mod:`multiprocessing` has been
743 frozen to produce a Windows executable. (Has been tested with **py2exe**,
744 **PyInstaller** and **cx_Freeze**.)
745
746 One needs to call this function straight after the ``if __name__ ==
747 '__main__'`` line of the main module. For example::
748
749 from multiprocessing import Process, freeze_support
750
751 def f():
Georg Brandl49702152008-09-29 06:43:45 +0000752 print('hello world!')
Benjamin Petersone711caf2008-06-11 16:44:04 +0000753
754 if __name__ == '__main__':
755 freeze_support()
756 Process(target=f).start()
757
R. David Murray8e8099c2009-04-28 18:02:00 +0000758 If the ``freeze_support()`` line is omitted then trying to run the frozen
Benjamin Peterson5289b2b2008-06-28 00:40:54 +0000759 executable will raise :exc:`RuntimeError`.
Benjamin Petersone711caf2008-06-11 16:44:04 +0000760
761 If the module is being run normally by the Python interpreter then
Benjamin Peterson5289b2b2008-06-28 00:40:54 +0000762 :func:`freeze_support` has no effect.
Benjamin Petersone711caf2008-06-11 16:44:04 +0000763
764.. function:: set_executable()
765
Ezio Melotti0639d5a2009-12-19 23:26:38 +0000766 Sets the path of the Python interpreter to use when starting a child process.
Benjamin Peterson5289b2b2008-06-28 00:40:54 +0000767 (By default :data:`sys.executable` is used). Embedders will probably need to
768 do some thing like ::
Benjamin Petersone711caf2008-06-11 16:44:04 +0000769
Eli Benderskyd08effe2011-12-31 07:20:26 +0200770 set_executable(os.path.join(sys.exec_prefix, 'pythonw.exe'))
Benjamin Petersone711caf2008-06-11 16:44:04 +0000771
R. David Murray8e8099c2009-04-28 18:02:00 +0000772 before they can create child processes. (Windows only)
Benjamin Petersone711caf2008-06-11 16:44:04 +0000773
774
775.. note::
776
777 :mod:`multiprocessing` contains no analogues of
778 :func:`threading.active_count`, :func:`threading.enumerate`,
779 :func:`threading.settrace`, :func:`threading.setprofile`,
780 :class:`threading.Timer`, or :class:`threading.local`.
781
782
783Connection Objects
784~~~~~~~~~~~~~~~~~~
785
786Connection objects allow the sending and receiving of picklable objects or
787strings. They can be thought of as message oriented connected sockets.
788
Eli Benderskyd08effe2011-12-31 07:20:26 +0200789Connection objects are usually created using :func:`Pipe` -- see also
Benjamin Petersone711caf2008-06-11 16:44:04 +0000790:ref:`multiprocessing-listeners-clients`.
791
792.. class:: Connection
793
794 .. method:: send(obj)
795
796 Send an object to the other end of the connection which should be read
797 using :meth:`recv`.
798
Benjamin Peterson965ce872009-04-05 21:24:58 +0000799 The object must be picklable. Very large pickles (approximately 32 MB+,
800 though it depends on the OS) may raise a ValueError exception.
Benjamin Petersone711caf2008-06-11 16:44:04 +0000801
802 .. method:: recv()
803
804 Return an object sent from the other end of the connection using
Sandro Tosib52e7a92012-01-07 17:56:58 +0100805 :meth:`send`. Blocks until there its something to receive. Raises
806 :exc:`EOFError` if there is nothing left to receive
Benjamin Petersone711caf2008-06-11 16:44:04 +0000807 and the other end was closed.
808
809 .. method:: fileno()
810
Eli Benderskyd08effe2011-12-31 07:20:26 +0200811 Return the file descriptor or handle used by the connection.
Benjamin Petersone711caf2008-06-11 16:44:04 +0000812
813 .. method:: close()
814
815 Close the connection.
816
817 This is called automatically when the connection is garbage collected.
818
819 .. method:: poll([timeout])
820
821 Return whether there is any data available to be read.
822
823 If *timeout* is not specified then it will return immediately. If
824 *timeout* is a number then this specifies the maximum time in seconds to
825 block. If *timeout* is ``None`` then an infinite timeout is used.
826
Antoine Pitroubdb1cf12012-03-05 19:28:37 +0100827 Note that multiple connection objects may be polled at once by
828 using :func:`multiprocessing.connection.wait`.
829
Benjamin Petersone711caf2008-06-11 16:44:04 +0000830 .. method:: send_bytes(buffer[, offset[, size]])
831
Ezio Melottic228e962013-05-04 18:06:34 +0300832 Send byte data from a :term:`bytes-like object` as a complete message.
Benjamin Petersone711caf2008-06-11 16:44:04 +0000833
834 If *offset* is given then data is read from that position in *buffer*. If
Benjamin Peterson965ce872009-04-05 21:24:58 +0000835 *size* is given then that many bytes will be read from buffer. Very large
836 buffers (approximately 32 MB+, though it depends on the OS) may raise a
Eli Benderskyd08effe2011-12-31 07:20:26 +0200837 :exc:`ValueError` exception
Benjamin Petersone711caf2008-06-11 16:44:04 +0000838
839 .. method:: recv_bytes([maxlength])
840
841 Return a complete message of byte data sent from the other end of the
Sandro Tosib52e7a92012-01-07 17:56:58 +0100842 connection as a string. Blocks until there is something to receive.
843 Raises :exc:`EOFError` if there is nothing left
Benjamin Petersone711caf2008-06-11 16:44:04 +0000844 to receive and the other end has closed.
845
846 If *maxlength* is specified and the message is longer than *maxlength*
Antoine Pitrou62ab10a02011-10-12 20:10:51 +0200847 then :exc:`OSError` is raised and the connection will no longer be
Benjamin Petersone711caf2008-06-11 16:44:04 +0000848 readable.
849
Antoine Pitrou62ab10a02011-10-12 20:10:51 +0200850 .. versionchanged:: 3.3
851 This function used to raise a :exc:`IOError`, which is now an
852 alias of :exc:`OSError`.
853
854
Benjamin Petersone711caf2008-06-11 16:44:04 +0000855 .. method:: recv_bytes_into(buffer[, offset])
856
857 Read into *buffer* a complete message of byte data sent from the other end
Sandro Tosib52e7a92012-01-07 17:56:58 +0100858 of the connection and return the number of bytes in the message. Blocks
859 until there is something to receive. Raises
Benjamin Petersone711caf2008-06-11 16:44:04 +0000860 :exc:`EOFError` if there is nothing left to receive and the other end was
861 closed.
862
Ezio Melottic228e962013-05-04 18:06:34 +0300863 *buffer* must be a writable :term:`bytes-like object`. If
Benjamin Petersone711caf2008-06-11 16:44:04 +0000864 *offset* is given then the message will be written into the buffer from
R. David Murray8e8099c2009-04-28 18:02:00 +0000865 that position. Offset must be a non-negative integer less than the
866 length of *buffer* (in bytes).
Benjamin Petersone711caf2008-06-11 16:44:04 +0000867
868 If the buffer is too short then a :exc:`BufferTooShort` exception is
869 raised and the complete message is available as ``e.args[0]`` where ``e``
870 is the exception instance.
871
Antoine Pitrou5438ed12012-04-24 22:56:57 +0200872 .. versionchanged:: 3.3
873 Connection objects themselves can now be transferred between processes
874 using :meth:`Connection.send` and :meth:`Connection.recv`.
875
Richard Oudkerkd69cfe82012-06-18 17:47:52 +0100876 .. versionadded:: 3.3
877 Connection objects now support the context manager protocol -- see
Serhiy Storchaka9e0ae532013-08-24 00:23:38 +0300878 :ref:`typecontextmanager`. :meth:`~contextmanager.__enter__` returns the
879 connection object, and :meth:`~contextmanager.__exit__` calls :meth:`close`.
Benjamin Petersone711caf2008-06-11 16:44:04 +0000880
881For example:
882
R. David Murray8e8099c2009-04-28 18:02:00 +0000883.. doctest::
884
Benjamin Petersone711caf2008-06-11 16:44:04 +0000885 >>> from multiprocessing import Pipe
886 >>> a, b = Pipe()
887 >>> a.send([1, 'hello', None])
888 >>> b.recv()
889 [1, 'hello', None]
Georg Brandl30176892010-10-29 05:22:17 +0000890 >>> b.send_bytes(b'thank you')
Benjamin Petersone711caf2008-06-11 16:44:04 +0000891 >>> a.recv_bytes()
Georg Brandl30176892010-10-29 05:22:17 +0000892 b'thank you'
Benjamin Petersone711caf2008-06-11 16:44:04 +0000893 >>> import array
894 >>> arr1 = array.array('i', range(5))
895 >>> arr2 = array.array('i', [0] * 10)
896 >>> a.send_bytes(arr1)
897 >>> count = b.recv_bytes_into(arr2)
898 >>> assert count == len(arr1) * arr1.itemsize
899 >>> arr2
900 array('i', [0, 1, 2, 3, 4, 0, 0, 0, 0, 0])
901
902
903.. warning::
904
905 The :meth:`Connection.recv` method automatically unpickles the data it
906 receives, which can be a security risk unless you can trust the process
907 which sent the message.
908
Benjamin Peterson5289b2b2008-06-28 00:40:54 +0000909 Therefore, unless the connection object was produced using :func:`Pipe` you
910 should only use the :meth:`~Connection.recv` and :meth:`~Connection.send`
911 methods after performing some sort of authentication. See
912 :ref:`multiprocessing-auth-keys`.
Benjamin Petersone711caf2008-06-11 16:44:04 +0000913
914.. warning::
915
916 If a process is killed while it is trying to read or write to a pipe then
917 the data in the pipe is likely to become corrupted, because it may become
918 impossible to be sure where the message boundaries lie.
919
920
921Synchronization primitives
922~~~~~~~~~~~~~~~~~~~~~~~~~~
923
924Generally synchronization primitives are not as necessary in a multiprocess
Georg Brandl2ee470f2008-07-16 12:55:28 +0000925program as they are in a multithreaded program. See the documentation for
Benjamin Peterson5289b2b2008-06-28 00:40:54 +0000926:mod:`threading` module.
Benjamin Petersone711caf2008-06-11 16:44:04 +0000927
928Note that one can also create synchronization primitives by using a manager
929object -- see :ref:`multiprocessing-managers`.
930
Richard Oudkerk3730a172012-06-15 18:26:07 +0100931.. class:: Barrier(parties[, action[, timeout]])
932
933 A barrier object: a clone of :class:`threading.Barrier`.
934
935 .. versionadded:: 3.3
936
Benjamin Petersone711caf2008-06-11 16:44:04 +0000937.. class:: BoundedSemaphore([value])
938
939 A bounded semaphore object: a clone of :class:`threading.BoundedSemaphore`.
940
Georg Brandl592296e2010-05-21 21:48:27 +0000941 (On Mac OS X, this is indistinguishable from :class:`Semaphore` because
Benjamin Petersone711caf2008-06-11 16:44:04 +0000942 ``sem_getvalue()`` is not implemented on that platform).
943
944.. class:: Condition([lock])
945
R David Murrayef4d2862012-10-06 14:35:35 -0400946 A condition variable: an alias for :class:`threading.Condition`.
Benjamin Petersone711caf2008-06-11 16:44:04 +0000947
948 If *lock* is specified then it should be a :class:`Lock` or :class:`RLock`
949 object from :mod:`multiprocessing`.
950
Charles-François Natalic8ce7152012-04-17 18:45:57 +0200951 .. versionchanged:: 3.3
Serhiy Storchaka9e0ae532013-08-24 00:23:38 +0300952 The :meth:`~threading.Condition.wait_for` method was added.
Charles-François Natalic8ce7152012-04-17 18:45:57 +0200953
Benjamin Petersone711caf2008-06-11 16:44:04 +0000954.. class:: Event()
955
956 A clone of :class:`threading.Event`.
957
958.. class:: Lock()
959
960 A non-recursive lock object: a clone of :class:`threading.Lock`.
961
962.. class:: RLock()
963
964 A recursive lock object: a clone of :class:`threading.RLock`.
965
966.. class:: Semaphore([value])
967
Ross Lagerwall8fea2e62011-03-14 10:40:15 +0200968 A semaphore object: a clone of :class:`threading.Semaphore`.
Benjamin Petersone711caf2008-06-11 16:44:04 +0000969
970.. note::
971
Richard Oudkerk59d54042012-05-10 16:11:12 +0100972 The :meth:`acquire` and :meth:`wait` methods of each of these types
973 treat negative timeouts as zero timeouts. This differs from
974 :mod:`threading` where, since version 3.2, the equivalent
975 :meth:`acquire` methods treat negative timeouts as infinite
976 timeouts.
977
Georg Brandl592296e2010-05-21 21:48:27 +0000978 On Mac OS X, ``sem_timedwait`` is unsupported, so calling ``acquire()`` with
979 a timeout will emulate that function's behavior using a sleeping loop.
Benjamin Petersone711caf2008-06-11 16:44:04 +0000980
981.. note::
982
983 If the SIGINT signal generated by Ctrl-C arrives while the main thread is
984 blocked by a call to :meth:`BoundedSemaphore.acquire`, :meth:`Lock.acquire`,
985 :meth:`RLock.acquire`, :meth:`Semaphore.acquire`, :meth:`Condition.acquire`
986 or :meth:`Condition.wait` then the call will be immediately interrupted and
987 :exc:`KeyboardInterrupt` will be raised.
988
989 This differs from the behaviour of :mod:`threading` where SIGINT will be
990 ignored while the equivalent blocking calls are in progress.
991
992
993Shared :mod:`ctypes` Objects
994~~~~~~~~~~~~~~~~~~~~~~~~~~~~
995
996It is possible to create shared objects using shared memory which can be
997inherited by child processes.
998
Richard Oudkerk87ea7802012-05-29 12:01:47 +0100999.. function:: Value(typecode_or_type, *args, lock=True)
Benjamin Petersone711caf2008-06-11 16:44:04 +00001000
1001 Return a :mod:`ctypes` object allocated from shared memory. By default the
Eli Bendersky78da3bc2012-07-13 10:10:05 +03001002 return value is actually a synchronized wrapper for the object. The object
1003 itself can be accessed via the *value* attribute of a :class:`Value`.
Benjamin Petersone711caf2008-06-11 16:44:04 +00001004
1005 *typecode_or_type* determines the type of the returned object: it is either a
1006 ctypes type or a one character typecode of the kind used by the :mod:`array`
1007 module. *\*args* is passed on to the constructor for the type.
1008
1009 If *lock* is ``True`` (the default) then a new lock object is created to
1010 synchronize access to the value. If *lock* is a :class:`Lock` or
1011 :class:`RLock` object then that will be used to synchronize access to the
1012 value. If *lock* is ``False`` then access to the returned object will not be
1013 automatically protected by a lock, so it will not necessarily be
1014 "process-safe".
1015
1016 Note that *lock* is a keyword-only argument.
1017
1018.. function:: Array(typecode_or_type, size_or_initializer, *, lock=True)
1019
1020 Return a ctypes array allocated from shared memory. By default the return
1021 value is actually a synchronized wrapper for the array.
1022
1023 *typecode_or_type* determines the type of the elements of the returned array:
1024 it is either a ctypes type or a one character typecode of the kind used by
1025 the :mod:`array` module. If *size_or_initializer* is an integer, then it
1026 determines the length of the array, and the array will be initially zeroed.
1027 Otherwise, *size_or_initializer* is a sequence which is used to initialize
1028 the array and whose length determines the length of the array.
1029
1030 If *lock* is ``True`` (the default) then a new lock object is created to
1031 synchronize access to the value. If *lock* is a :class:`Lock` or
1032 :class:`RLock` object then that will be used to synchronize access to the
1033 value. If *lock* is ``False`` then access to the returned object will not be
1034 automatically protected by a lock, so it will not necessarily be
1035 "process-safe".
1036
1037 Note that *lock* is a keyword only argument.
1038
Amaury Forgeot d'Arcb0c29162008-11-22 22:18:04 +00001039 Note that an array of :data:`ctypes.c_char` has *value* and *raw*
Benjamin Petersone711caf2008-06-11 16:44:04 +00001040 attributes which allow one to use it to store and retrieve strings.
1041
1042
1043The :mod:`multiprocessing.sharedctypes` module
1044>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
1045
1046.. module:: multiprocessing.sharedctypes
1047 :synopsis: Allocate ctypes objects from shared memory.
1048
1049The :mod:`multiprocessing.sharedctypes` module provides functions for allocating
1050:mod:`ctypes` objects from shared memory which can be inherited by child
1051processes.
1052
1053.. note::
1054
Georg Brandl2ee470f2008-07-16 12:55:28 +00001055 Although it is possible to store a pointer in shared memory remember that
1056 this will refer to a location in the address space of a specific process.
Benjamin Petersone711caf2008-06-11 16:44:04 +00001057 However, the pointer is quite likely to be invalid in the context of a second
1058 process and trying to dereference the pointer from the second process may
1059 cause a crash.
1060
1061.. function:: RawArray(typecode_or_type, size_or_initializer)
1062
1063 Return a ctypes array allocated from shared memory.
1064
1065 *typecode_or_type* determines the type of the elements of the returned array:
1066 it is either a ctypes type or a one character typecode of the kind used by
1067 the :mod:`array` module. If *size_or_initializer* is an integer then it
1068 determines the length of the array, and the array will be initially zeroed.
1069 Otherwise *size_or_initializer* is a sequence which is used to initialize the
1070 array and whose length determines the length of the array.
1071
1072 Note that setting and getting an element is potentially non-atomic -- use
1073 :func:`Array` instead to make sure that access is automatically synchronized
1074 using a lock.
1075
1076.. function:: RawValue(typecode_or_type, *args)
1077
1078 Return a ctypes object allocated from shared memory.
1079
1080 *typecode_or_type* determines the type of the returned object: it is either a
1081 ctypes type or a one character typecode of the kind used by the :mod:`array`
Jesse Nollerb0516a62009-01-18 03:11:38 +00001082 module. *\*args* is passed on to the constructor for the type.
Benjamin Petersone711caf2008-06-11 16:44:04 +00001083
1084 Note that setting and getting the value is potentially non-atomic -- use
1085 :func:`Value` instead to make sure that access is automatically synchronized
1086 using a lock.
1087
Amaury Forgeot d'Arcb0c29162008-11-22 22:18:04 +00001088 Note that an array of :data:`ctypes.c_char` has ``value`` and ``raw``
Benjamin Petersone711caf2008-06-11 16:44:04 +00001089 attributes which allow one to use it to store and retrieve strings -- see
1090 documentation for :mod:`ctypes`.
1091
Richard Oudkerk87ea7802012-05-29 12:01:47 +01001092.. function:: Array(typecode_or_type, size_or_initializer, *, lock=True)
Benjamin Petersone711caf2008-06-11 16:44:04 +00001093
1094 The same as :func:`RawArray` except that depending on the value of *lock* a
1095 process-safe synchronization wrapper may be returned instead of a raw ctypes
1096 array.
1097
1098 If *lock* is ``True`` (the default) then a new lock object is created to
Serhiy Storchaka9e0ae532013-08-24 00:23:38 +03001099 synchronize access to the value. If *lock* is a
1100 :class:`~multiprocessing.Lock` or :class:`~multiprocessing.RLock` object
1101 then that will be used to synchronize access to the
Benjamin Petersone711caf2008-06-11 16:44:04 +00001102 value. If *lock* is ``False`` then access to the returned object will not be
1103 automatically protected by a lock, so it will not necessarily be
1104 "process-safe".
1105
1106 Note that *lock* is a keyword-only argument.
1107
Richard Oudkerk87ea7802012-05-29 12:01:47 +01001108.. function:: Value(typecode_or_type, *args, lock=True)
Benjamin Petersone711caf2008-06-11 16:44:04 +00001109
1110 The same as :func:`RawValue` except that depending on the value of *lock* a
1111 process-safe synchronization wrapper may be returned instead of a raw ctypes
1112 object.
1113
1114 If *lock* is ``True`` (the default) then a new lock object is created to
Serhiy Storchaka9e0ae532013-08-24 00:23:38 +03001115 synchronize access to the value. If *lock* is a :class:`~multiprocessing.Lock` or
1116 :class:`~multiprocessing.RLock` object then that will be used to synchronize access to the
Benjamin Petersone711caf2008-06-11 16:44:04 +00001117 value. If *lock* is ``False`` then access to the returned object will not be
1118 automatically protected by a lock, so it will not necessarily be
1119 "process-safe".
1120
1121 Note that *lock* is a keyword-only argument.
1122
1123.. function:: copy(obj)
1124
1125 Return a ctypes object allocated from shared memory which is a copy of the
1126 ctypes object *obj*.
1127
1128.. function:: synchronized(obj[, lock])
1129
1130 Return a process-safe wrapper object for a ctypes object which uses *lock* to
1131 synchronize access. If *lock* is ``None`` (the default) then a
1132 :class:`multiprocessing.RLock` object is created automatically.
1133
1134 A synchronized wrapper will have two methods in addition to those of the
Benjamin Peterson5289b2b2008-06-28 00:40:54 +00001135 object it wraps: :meth:`get_obj` returns the wrapped object and
1136 :meth:`get_lock` returns the lock object used for synchronization.
Benjamin Petersone711caf2008-06-11 16:44:04 +00001137
1138 Note that accessing the ctypes object through the wrapper can be a lot slower
Benjamin Peterson5289b2b2008-06-28 00:40:54 +00001139 than accessing the raw ctypes object.
Benjamin Petersone711caf2008-06-11 16:44:04 +00001140
1141
1142The table below compares the syntax for creating shared ctypes objects from
1143shared memory with the normal ctypes syntax. (In the table ``MyStruct`` is some
1144subclass of :class:`ctypes.Structure`.)
1145
1146==================== ========================== ===========================
1147ctypes sharedctypes using type sharedctypes using typecode
1148==================== ========================== ===========================
1149c_double(2.4) RawValue(c_double, 2.4) RawValue('d', 2.4)
1150MyStruct(4, 6) RawValue(MyStruct, 4, 6)
1151(c_short * 7)() RawArray(c_short, 7) RawArray('h', 7)
1152(c_int * 3)(9, 2, 8) RawArray(c_int, (9, 2, 8)) RawArray('i', (9, 2, 8))
1153==================== ========================== ===========================
1154
1155
1156Below is an example where a number of ctypes objects are modified by a child
1157process::
1158
1159 from multiprocessing import Process, Lock
1160 from multiprocessing.sharedctypes import Value, Array
1161 from ctypes import Structure, c_double
1162
1163 class Point(Structure):
1164 _fields_ = [('x', c_double), ('y', c_double)]
1165
1166 def modify(n, x, s, A):
1167 n.value **= 2
1168 x.value **= 2
1169 s.value = s.value.upper()
1170 for a in A:
1171 a.x **= 2
1172 a.y **= 2
1173
1174 if __name__ == '__main__':
1175 lock = Lock()
1176
1177 n = Value('i', 7)
R. David Murray8e8099c2009-04-28 18:02:00 +00001178 x = Value(c_double, 1.0/3.0, lock=False)
Richard Oudkerkb5175962012-09-10 13:00:33 +01001179 s = Array('c', b'hello world', lock=lock)
Benjamin Petersone711caf2008-06-11 16:44:04 +00001180 A = Array(Point, [(1.875,-6.25), (-5.75,2.0), (2.375,9.5)], lock=lock)
1181
1182 p = Process(target=modify, args=(n, x, s, A))
1183 p.start()
1184 p.join()
1185
Georg Brandl49702152008-09-29 06:43:45 +00001186 print(n.value)
1187 print(x.value)
1188 print(s.value)
1189 print([(a.x, a.y) for a in A])
Benjamin Petersone711caf2008-06-11 16:44:04 +00001190
1191
Georg Brandl49702152008-09-29 06:43:45 +00001192.. highlight:: none
Benjamin Petersone711caf2008-06-11 16:44:04 +00001193
1194The results printed are ::
1195
1196 49
1197 0.1111111111111111
1198 HELLO WORLD
1199 [(3.515625, 39.0625), (33.0625, 4.0), (5.640625, 90.25)]
1200
Ezio Melottif86b28e2012-04-13 20:50:48 -06001201.. highlight:: python3
Benjamin Petersone711caf2008-06-11 16:44:04 +00001202
1203
1204.. _multiprocessing-managers:
1205
1206Managers
1207~~~~~~~~
1208
1209Managers provide a way to create data which can be shared between different
Eli Bendersky78da3bc2012-07-13 10:10:05 +03001210processes, including sharing over a network between processes running on
1211different machines. A manager object controls a server process which manages
1212*shared objects*. Other processes can access the shared objects by using
1213proxies.
Benjamin Petersone711caf2008-06-11 16:44:04 +00001214
1215.. function:: multiprocessing.Manager()
1216
Benjamin Peterson5289b2b2008-06-28 00:40:54 +00001217 Returns a started :class:`~multiprocessing.managers.SyncManager` object which
1218 can be used for sharing objects between processes. The returned manager
1219 object corresponds to a spawned child process and has methods which will
1220 create shared objects and return corresponding proxies.
Benjamin Petersone711caf2008-06-11 16:44:04 +00001221
1222.. module:: multiprocessing.managers
1223 :synopsis: Share data between process with shared objects.
1224
1225Manager processes will be shutdown as soon as they are garbage collected or
1226their parent process exits. The manager classes are defined in the
1227:mod:`multiprocessing.managers` module:
1228
1229.. class:: BaseManager([address[, authkey]])
1230
1231 Create a BaseManager object.
1232
Benjamin Peterson21896a32010-03-21 22:03:03 +00001233 Once created one should call :meth:`start` or ``get_server().serve_forever()`` to ensure
Benjamin Petersone711caf2008-06-11 16:44:04 +00001234 that the manager object refers to a started manager process.
1235
1236 *address* is the address on which the manager process listens for new
1237 connections. If *address* is ``None`` then an arbitrary one is chosen.
1238
Richard Oudkerk264e9ac2012-08-17 14:39:18 +01001239 *authkey* is the authentication key which will be used to check the
1240 validity of incoming connections to the server process. If
1241 *authkey* is ``None`` then ``current_process().authkey`` is used.
1242 Otherwise *authkey* is used and it must be a byte string.
Benjamin Petersone711caf2008-06-11 16:44:04 +00001243
Benjamin Petersonf47ed4a2009-04-11 20:45:40 +00001244 .. method:: start([initializer[, initargs]])
Benjamin Petersone711caf2008-06-11 16:44:04 +00001245
Benjamin Petersonf47ed4a2009-04-11 20:45:40 +00001246 Start a subprocess to start the manager. If *initializer* is not ``None``
1247 then the subprocess will call ``initializer(*initargs)`` when it starts.
Benjamin Petersone711caf2008-06-11 16:44:04 +00001248
Jesse Noller45239682008-11-28 18:46:19 +00001249 .. method:: get_server()
Georg Brandl48310cd2009-01-03 21:18:54 +00001250
Jesse Noller45239682008-11-28 18:46:19 +00001251 Returns a :class:`Server` object which represents the actual server under
Georg Brandl48310cd2009-01-03 21:18:54 +00001252 the control of the Manager. The :class:`Server` object supports the
R. David Murray8e8099c2009-04-28 18:02:00 +00001253 :meth:`serve_forever` method::
Georg Brandl48310cd2009-01-03 21:18:54 +00001254
Georg Brandl1f01deb2009-01-03 22:47:39 +00001255 >>> from multiprocessing.managers import BaseManager
Richard Oudkerk264e9ac2012-08-17 14:39:18 +01001256 >>> manager = BaseManager(address=('', 50000), authkey=b'abc')
R. David Murray8e8099c2009-04-28 18:02:00 +00001257 >>> server = manager.get_server()
1258 >>> server.serve_forever()
Georg Brandl48310cd2009-01-03 21:18:54 +00001259
R. David Murray8e8099c2009-04-28 18:02:00 +00001260 :class:`Server` additionally has an :attr:`address` attribute.
Jesse Noller45239682008-11-28 18:46:19 +00001261
1262 .. method:: connect()
Georg Brandl48310cd2009-01-03 21:18:54 +00001263
R. David Murray8e8099c2009-04-28 18:02:00 +00001264 Connect a local manager object to a remote manager process::
Georg Brandl48310cd2009-01-03 21:18:54 +00001265
Jesse Noller45239682008-11-28 18:46:19 +00001266 >>> from multiprocessing.managers import BaseManager
Richard Oudkerk264e9ac2012-08-17 14:39:18 +01001267 >>> m = BaseManager(address=('127.0.0.1', 5000), authkey=b'abc')
Jesse Noller45239682008-11-28 18:46:19 +00001268 >>> m.connect()
1269
Benjamin Petersone711caf2008-06-11 16:44:04 +00001270 .. method:: shutdown()
1271
1272 Stop the process used by the manager. This is only available if
Benjamin Peterson5289b2b2008-06-28 00:40:54 +00001273 :meth:`start` has been used to start the server process.
Benjamin Petersone711caf2008-06-11 16:44:04 +00001274
1275 This can be called multiple times.
1276
1277 .. method:: register(typeid[, callable[, proxytype[, exposed[, method_to_typeid[, create_method]]]]])
1278
1279 A classmethod which can be used for registering a type or callable with
1280 the manager class.
1281
1282 *typeid* is a "type identifier" which is used to identify a particular
1283 type of shared object. This must be a string.
1284
1285 *callable* is a callable used for creating objects for this type
Richard Oudkerkf0604fd2012-06-11 17:56:08 +01001286 identifier. If a manager instance will be connected to the
1287 server using the :meth:`connect` method, or if the
1288 *create_method* argument is ``False`` then this can be left as
1289 ``None``.
Benjamin Petersone711caf2008-06-11 16:44:04 +00001290
Benjamin Peterson5289b2b2008-06-28 00:40:54 +00001291 *proxytype* is a subclass of :class:`BaseProxy` which is used to create
1292 proxies for shared objects with this *typeid*. If ``None`` then a proxy
1293 class is created automatically.
Benjamin Petersone711caf2008-06-11 16:44:04 +00001294
1295 *exposed* is used to specify a sequence of method names which proxies for
1296 this typeid should be allowed to access using
1297 :meth:`BaseProxy._callMethod`. (If *exposed* is ``None`` then
1298 :attr:`proxytype._exposed_` is used instead if it exists.) In the case
1299 where no exposed list is specified, all "public methods" of the shared
1300 object will be accessible. (Here a "public method" means any attribute
Serhiy Storchaka9e0ae532013-08-24 00:23:38 +03001301 which has a :meth:`~object.__call__` method and whose name does not begin
1302 with ``'_'``.)
Benjamin Petersone711caf2008-06-11 16:44:04 +00001303
1304 *method_to_typeid* is a mapping used to specify the return type of those
1305 exposed methods which should return a proxy. It maps method names to
1306 typeid strings. (If *method_to_typeid* is ``None`` then
1307 :attr:`proxytype._method_to_typeid_` is used instead if it exists.) If a
1308 method's name is not a key of this mapping or if the mapping is ``None``
1309 then the object returned by the method will be copied by value.
1310
1311 *create_method* determines whether a method should be created with name
1312 *typeid* which can be used to tell the server process to create a new
1313 shared object and return a proxy for it. By default it is ``True``.
1314
1315 :class:`BaseManager` instances also have one read-only property:
1316
1317 .. attribute:: address
1318
1319 The address used by the manager.
1320
Richard Oudkerkac385712012-06-18 21:29:30 +01001321 .. versionchanged:: 3.3
1322 Manager objects support the context manager protocol -- see
Serhiy Storchaka9e0ae532013-08-24 00:23:38 +03001323 :ref:`typecontextmanager`. :meth:`~contextmanager.__enter__` starts the
1324 server process (if it has not already started) and then returns the
1325 manager object. :meth:`~contextmanager.__exit__` calls :meth:`shutdown`.
Richard Oudkerkac385712012-06-18 21:29:30 +01001326
Serhiy Storchaka9e0ae532013-08-24 00:23:38 +03001327 In previous versions :meth:`~contextmanager.__enter__` did not start the
Richard Oudkerkac385712012-06-18 21:29:30 +01001328 manager's server process if it was not already started.
Benjamin Petersone711caf2008-06-11 16:44:04 +00001329
1330.. class:: SyncManager
1331
1332 A subclass of :class:`BaseManager` which can be used for the synchronization
1333 of processes. Objects of this type are returned by
Benjamin Peterson5289b2b2008-06-28 00:40:54 +00001334 :func:`multiprocessing.Manager`.
Benjamin Petersone711caf2008-06-11 16:44:04 +00001335
1336 It also supports creation of shared lists and dictionaries.
1337
Richard Oudkerk3730a172012-06-15 18:26:07 +01001338 .. method:: Barrier(parties[, action[, timeout]])
1339
1340 Create a shared :class:`threading.Barrier` object and return a
1341 proxy for it.
1342
1343 .. versionadded:: 3.3
1344
Benjamin Petersone711caf2008-06-11 16:44:04 +00001345 .. method:: BoundedSemaphore([value])
1346
1347 Create a shared :class:`threading.BoundedSemaphore` object and return a
1348 proxy for it.
1349
1350 .. method:: Condition([lock])
1351
1352 Create a shared :class:`threading.Condition` object and return a proxy for
1353 it.
1354
1355 If *lock* is supplied then it should be a proxy for a
1356 :class:`threading.Lock` or :class:`threading.RLock` object.
1357
Charles-François Natalic8ce7152012-04-17 18:45:57 +02001358 .. versionchanged:: 3.3
Serhiy Storchaka9e0ae532013-08-24 00:23:38 +03001359 The :meth:`~threading.Condition.wait_for` method was added.
Charles-François Natalic8ce7152012-04-17 18:45:57 +02001360
Benjamin Petersone711caf2008-06-11 16:44:04 +00001361 .. method:: Event()
1362
1363 Create a shared :class:`threading.Event` object and return a proxy for it.
1364
1365 .. method:: Lock()
1366
1367 Create a shared :class:`threading.Lock` object and return a proxy for it.
1368
1369 .. method:: Namespace()
1370
1371 Create a shared :class:`Namespace` object and return a proxy for it.
1372
1373 .. method:: Queue([maxsize])
1374
Benjamin Peterson257060a2008-06-28 01:42:41 +00001375 Create a shared :class:`queue.Queue` object and return a proxy for it.
Benjamin Petersone711caf2008-06-11 16:44:04 +00001376
1377 .. method:: RLock()
1378
1379 Create a shared :class:`threading.RLock` object and return a proxy for it.
1380
1381 .. method:: Semaphore([value])
1382
1383 Create a shared :class:`threading.Semaphore` object and return a proxy for
1384 it.
1385
1386 .. method:: Array(typecode, sequence)
1387
Benjamin Peterson5289b2b2008-06-28 00:40:54 +00001388 Create an array and return a proxy for it.
Benjamin Petersone711caf2008-06-11 16:44:04 +00001389
1390 .. method:: Value(typecode, value)
1391
1392 Create an object with a writable ``value`` attribute and return a proxy
1393 for it.
1394
1395 .. method:: dict()
1396 dict(mapping)
1397 dict(sequence)
1398
1399 Create a shared ``dict`` object and return a proxy for it.
1400
1401 .. method:: list()
1402 list(sequence)
1403
1404 Create a shared ``list`` object and return a proxy for it.
1405
Georg Brandl3ed41142010-10-15 16:19:43 +00001406 .. note::
1407
1408 Modifications to mutable values or items in dict and list proxies will not
1409 be propagated through the manager, because the proxy has no way of knowing
1410 when its values or items are modified. To modify such an item, you can
1411 re-assign the modified object to the container proxy::
1412
1413 # create a list proxy and append a mutable object (a dictionary)
1414 lproxy = manager.list()
1415 lproxy.append({})
1416 # now mutate the dictionary
1417 d = lproxy[0]
1418 d['a'] = 1
1419 d['b'] = 2
1420 # at this point, the changes to d are not yet synced, but by
1421 # reassigning the dictionary, the proxy is notified of the change
1422 lproxy[0] = d
1423
Benjamin Petersone711caf2008-06-11 16:44:04 +00001424
1425Namespace objects
1426>>>>>>>>>>>>>>>>>
1427
1428A namespace object has no public methods, but does have writable attributes.
1429Its representation shows the values of its attributes.
1430
1431However, when using a proxy for a namespace object, an attribute beginning with
R. David Murray8e8099c2009-04-28 18:02:00 +00001432``'_'`` will be an attribute of the proxy and not an attribute of the referent:
1433
1434.. doctest::
Benjamin Petersone711caf2008-06-11 16:44:04 +00001435
1436 >>> manager = multiprocessing.Manager()
1437 >>> Global = manager.Namespace()
1438 >>> Global.x = 10
1439 >>> Global.y = 'hello'
1440 >>> Global._z = 12.3 # this is an attribute of the proxy
Georg Brandl49702152008-09-29 06:43:45 +00001441 >>> print(Global)
Benjamin Petersone711caf2008-06-11 16:44:04 +00001442 Namespace(x=10, y='hello')
1443
1444
1445Customized managers
1446>>>>>>>>>>>>>>>>>>>
1447
1448To create one's own manager, one creates a subclass of :class:`BaseManager` and
Eli Benderskyd08effe2011-12-31 07:20:26 +02001449uses the :meth:`~BaseManager.register` classmethod to register new types or
Benjamin Peterson5289b2b2008-06-28 00:40:54 +00001450callables with the manager class. For example::
Benjamin Petersone711caf2008-06-11 16:44:04 +00001451
1452 from multiprocessing.managers import BaseManager
1453
Éric Araujo28053fb2010-11-22 03:09:19 +00001454 class MathsClass:
Benjamin Petersone711caf2008-06-11 16:44:04 +00001455 def add(self, x, y):
1456 return x + y
1457 def mul(self, x, y):
1458 return x * y
1459
1460 class MyManager(BaseManager):
1461 pass
1462
1463 MyManager.register('Maths', MathsClass)
1464
1465 if __name__ == '__main__':
Richard Oudkerk633c4d92012-06-18 21:29:36 +01001466 with MyManager() as manager:
1467 maths = manager.Maths()
1468 print(maths.add(4, 3)) # prints 7
1469 print(maths.mul(7, 8)) # prints 56
Benjamin Petersone711caf2008-06-11 16:44:04 +00001470
1471
1472Using a remote manager
1473>>>>>>>>>>>>>>>>>>>>>>
1474
1475It is possible to run a manager server on one machine and have clients use it
1476from other machines (assuming that the firewalls involved allow it).
1477
1478Running the following commands creates a server for a single shared queue which
1479remote clients can access::
1480
1481 >>> from multiprocessing.managers import BaseManager
Benjamin Peterson257060a2008-06-28 01:42:41 +00001482 >>> import queue
1483 >>> queue = queue.Queue()
Benjamin Petersone711caf2008-06-11 16:44:04 +00001484 >>> class QueueManager(BaseManager): pass
Jesse Noller45239682008-11-28 18:46:19 +00001485 >>> QueueManager.register('get_queue', callable=lambda:queue)
Richard Oudkerk264e9ac2012-08-17 14:39:18 +01001486 >>> m = QueueManager(address=('', 50000), authkey=b'abracadabra')
Jesse Noller45239682008-11-28 18:46:19 +00001487 >>> s = m.get_server()
R. David Murray8e8099c2009-04-28 18:02:00 +00001488 >>> s.serve_forever()
Benjamin Petersone711caf2008-06-11 16:44:04 +00001489
1490One client can access the server as follows::
1491
1492 >>> from multiprocessing.managers import BaseManager
1493 >>> class QueueManager(BaseManager): pass
Jesse Noller45239682008-11-28 18:46:19 +00001494 >>> QueueManager.register('get_queue')
Richard Oudkerk264e9ac2012-08-17 14:39:18 +01001495 >>> m = QueueManager(address=('foo.bar.org', 50000), authkey=b'abracadabra')
Jesse Noller45239682008-11-28 18:46:19 +00001496 >>> m.connect()
1497 >>> queue = m.get_queue()
Benjamin Petersone711caf2008-06-11 16:44:04 +00001498 >>> queue.put('hello')
1499
1500Another client can also use it::
1501
1502 >>> from multiprocessing.managers import BaseManager
1503 >>> class QueueManager(BaseManager): pass
R. David Murray8e8099c2009-04-28 18:02:00 +00001504 >>> QueueManager.register('get_queue')
Richard Oudkerk264e9ac2012-08-17 14:39:18 +01001505 >>> m = QueueManager(address=('foo.bar.org', 50000), authkey=b'abracadabra')
R. David Murray8e8099c2009-04-28 18:02:00 +00001506 >>> m.connect()
1507 >>> queue = m.get_queue()
Benjamin Petersone711caf2008-06-11 16:44:04 +00001508 >>> queue.get()
1509 'hello'
1510
Georg Brandl48310cd2009-01-03 21:18:54 +00001511Local processes can also access that queue, using the code from above on the
Jesse Noller45239682008-11-28 18:46:19 +00001512client to access it remotely::
1513
1514 >>> from multiprocessing import Process, Queue
1515 >>> from multiprocessing.managers import BaseManager
1516 >>> class Worker(Process):
1517 ... def __init__(self, q):
1518 ... self.q = q
1519 ... super(Worker, self).__init__()
1520 ... def run(self):
1521 ... self.q.put('local hello')
Georg Brandl48310cd2009-01-03 21:18:54 +00001522 ...
Jesse Noller45239682008-11-28 18:46:19 +00001523 >>> queue = Queue()
1524 >>> w = Worker(queue)
1525 >>> w.start()
1526 >>> class QueueManager(BaseManager): pass
Georg Brandl48310cd2009-01-03 21:18:54 +00001527 ...
Jesse Noller45239682008-11-28 18:46:19 +00001528 >>> QueueManager.register('get_queue', callable=lambda: queue)
Richard Oudkerk264e9ac2012-08-17 14:39:18 +01001529 >>> m = QueueManager(address=('', 50000), authkey=b'abracadabra')
Jesse Noller45239682008-11-28 18:46:19 +00001530 >>> s = m.get_server()
1531 >>> s.serve_forever()
Benjamin Petersone711caf2008-06-11 16:44:04 +00001532
1533Proxy Objects
1534~~~~~~~~~~~~~
1535
1536A proxy is an object which *refers* to a shared object which lives (presumably)
1537in a different process. The shared object is said to be the *referent* of the
1538proxy. Multiple proxy objects may have the same referent.
1539
1540A proxy object has methods which invoke corresponding methods of its referent
1541(although not every method of the referent will necessarily be available through
1542the proxy). A proxy can usually be used in most of the same ways that its
R. David Murray8e8099c2009-04-28 18:02:00 +00001543referent can:
1544
1545.. doctest::
Benjamin Petersone711caf2008-06-11 16:44:04 +00001546
1547 >>> from multiprocessing import Manager
1548 >>> manager = Manager()
1549 >>> l = manager.list([i*i for i in range(10)])
Georg Brandl49702152008-09-29 06:43:45 +00001550 >>> print(l)
Benjamin Petersone711caf2008-06-11 16:44:04 +00001551 [0, 1, 4, 9, 16, 25, 36, 49, 64, 81]
Georg Brandl49702152008-09-29 06:43:45 +00001552 >>> print(repr(l))
R. David Murray8e8099c2009-04-28 18:02:00 +00001553 <ListProxy object, typeid 'list' at 0x...>
Benjamin Petersone711caf2008-06-11 16:44:04 +00001554 >>> l[4]
1555 16
1556 >>> l[2:5]
1557 [4, 9, 16]
1558
1559Notice that applying :func:`str` to a proxy will return the representation of
1560the referent, whereas applying :func:`repr` will return the representation of
1561the proxy.
1562
1563An important feature of proxy objects is that they are picklable so they can be
1564passed between processes. Note, however, that if a proxy is sent to the
1565corresponding manager's process then unpickling it will produce the referent
R. David Murray8e8099c2009-04-28 18:02:00 +00001566itself. This means, for example, that one shared object can contain a second:
1567
1568.. doctest::
Benjamin Petersone711caf2008-06-11 16:44:04 +00001569
1570 >>> a = manager.list()
1571 >>> b = manager.list()
Benjamin Peterson5289b2b2008-06-28 00:40:54 +00001572 >>> a.append(b) # referent of a now contains referent of b
Georg Brandl49702152008-09-29 06:43:45 +00001573 >>> print(a, b)
Benjamin Petersone711caf2008-06-11 16:44:04 +00001574 [[]] []
1575 >>> b.append('hello')
Georg Brandl49702152008-09-29 06:43:45 +00001576 >>> print(a, b)
Benjamin Petersone711caf2008-06-11 16:44:04 +00001577 [['hello']] ['hello']
1578
1579.. note::
1580
1581 The proxy types in :mod:`multiprocessing` do nothing to support comparisons
R. David Murray8e8099c2009-04-28 18:02:00 +00001582 by value. So, for instance, we have:
Benjamin Petersone711caf2008-06-11 16:44:04 +00001583
R. David Murray8e8099c2009-04-28 18:02:00 +00001584 .. doctest::
Benjamin Petersone711caf2008-06-11 16:44:04 +00001585
R. David Murray8e8099c2009-04-28 18:02:00 +00001586 >>> manager.list([1,2,3]) == [1,2,3]
1587 False
1588
1589 One should just use a copy of the referent instead when making comparisons.
Benjamin Petersone711caf2008-06-11 16:44:04 +00001590
1591.. class:: BaseProxy
1592
1593 Proxy objects are instances of subclasses of :class:`BaseProxy`.
1594
Benjamin Peterson6ebe78f2008-12-21 00:06:59 +00001595 .. method:: _callmethod(methodname[, args[, kwds]])
Benjamin Petersone711caf2008-06-11 16:44:04 +00001596
1597 Call and return the result of a method of the proxy's referent.
1598
1599 If ``proxy`` is a proxy whose referent is ``obj`` then the expression ::
1600
Benjamin Peterson6ebe78f2008-12-21 00:06:59 +00001601 proxy._callmethod(methodname, args, kwds)
Benjamin Petersone711caf2008-06-11 16:44:04 +00001602
1603 will evaluate the expression ::
1604
1605 getattr(obj, methodname)(*args, **kwds)
1606
1607 in the manager's process.
1608
1609 The returned value will be a copy of the result of the call or a proxy to
1610 a new shared object -- see documentation for the *method_to_typeid*
1611 argument of :meth:`BaseManager.register`.
1612
Ezio Melottie130a522011-10-19 10:58:56 +03001613 If an exception is raised by the call, then is re-raised by
Benjamin Peterson6ebe78f2008-12-21 00:06:59 +00001614 :meth:`_callmethod`. If some other exception is raised in the manager's
Benjamin Petersone711caf2008-06-11 16:44:04 +00001615 process then this is converted into a :exc:`RemoteError` exception and is
Benjamin Peterson6ebe78f2008-12-21 00:06:59 +00001616 raised by :meth:`_callmethod`.
Benjamin Petersone711caf2008-06-11 16:44:04 +00001617
1618 Note in particular that an exception will be raised if *methodname* has
1619 not been *exposed*
1620
R. David Murray8e8099c2009-04-28 18:02:00 +00001621 An example of the usage of :meth:`_callmethod`:
1622
1623 .. doctest::
Benjamin Petersone711caf2008-06-11 16:44:04 +00001624
1625 >>> l = manager.list(range(10))
Benjamin Peterson6ebe78f2008-12-21 00:06:59 +00001626 >>> l._callmethod('__len__')
Benjamin Petersone711caf2008-06-11 16:44:04 +00001627 10
Benjamin Peterson6ebe78f2008-12-21 00:06:59 +00001628 >>> l._callmethod('__getslice__', (2, 7)) # equiv to `l[2:7]`
Benjamin Petersone711caf2008-06-11 16:44:04 +00001629 [2, 3, 4, 5, 6]
Benjamin Peterson6ebe78f2008-12-21 00:06:59 +00001630 >>> l._callmethod('__getitem__', (20,)) # equiv to `l[20]`
Benjamin Petersone711caf2008-06-11 16:44:04 +00001631 Traceback (most recent call last):
1632 ...
1633 IndexError: list index out of range
1634
Benjamin Peterson6ebe78f2008-12-21 00:06:59 +00001635 .. method:: _getvalue()
Benjamin Petersone711caf2008-06-11 16:44:04 +00001636
1637 Return a copy of the referent.
1638
1639 If the referent is unpicklable then this will raise an exception.
1640
1641 .. method:: __repr__
1642
1643 Return a representation of the proxy object.
1644
1645 .. method:: __str__
1646
1647 Return the representation of the referent.
1648
1649
1650Cleanup
1651>>>>>>>
1652
1653A proxy object uses a weakref callback so that when it gets garbage collected it
1654deregisters itself from the manager which owns its referent.
1655
1656A shared object gets deleted from the manager process when there are no longer
1657any proxies referring to it.
1658
1659
1660Process Pools
1661~~~~~~~~~~~~~
1662
1663.. module:: multiprocessing.pool
1664 :synopsis: Create pools of processes.
1665
1666One can create a pool of processes which will carry out tasks submitted to it
Benjamin Peterson5289b2b2008-06-28 00:40:54 +00001667with the :class:`Pool` class.
Benjamin Petersone711caf2008-06-11 16:44:04 +00001668
R David Murrayace51622012-10-06 22:26:52 -04001669.. class:: Pool([processes[, initializer[, initargs[, maxtasksperchild]]]])
Benjamin Petersone711caf2008-06-11 16:44:04 +00001670
1671 A process pool object which controls a pool of worker processes to which jobs
1672 can be submitted. It supports asynchronous results with timeouts and
1673 callbacks and has a parallel map implementation.
1674
1675 *processes* is the number of worker processes to use. If *processes* is
1676 ``None`` then the number returned by :func:`cpu_count` is used. If
1677 *initializer* is not ``None`` then each worker process will call
1678 ``initializer(*initargs)`` when it starts.
1679
Richard Oudkerkb3c4b982013-07-02 12:32:00 +01001680 Note that the methods of the pool object should only be called by
1681 the process which created the pool.
1682
Georg Brandl17ef0d52010-10-17 06:21:59 +00001683 .. versionadded:: 3.2
1684 *maxtasksperchild* is the number of tasks a worker process can complete
1685 before it will exit and be replaced with a fresh worker process, to enable
1686 unused resources to be freed. The default *maxtasksperchild* is None, which
1687 means worker processes will live as long as the pool.
Jesse Noller1f0b6582010-01-27 03:36:01 +00001688
1689 .. note::
1690
Georg Brandl17ef0d52010-10-17 06:21:59 +00001691 Worker processes within a :class:`Pool` typically live for the complete
1692 duration of the Pool's work queue. A frequent pattern found in other
1693 systems (such as Apache, mod_wsgi, etc) to free resources held by
1694 workers is to allow a worker within a pool to complete only a set
1695 amount of work before being exiting, being cleaned up and a new
1696 process spawned to replace the old one. The *maxtasksperchild*
1697 argument to the :class:`Pool` exposes this ability to the end user.
Jesse Noller1f0b6582010-01-27 03:36:01 +00001698
Benjamin Petersone711caf2008-06-11 16:44:04 +00001699 .. method:: apply(func[, args[, kwds]])
1700
Benjamin Peterson37d2fe02008-10-24 22:28:58 +00001701 Call *func* with arguments *args* and keyword arguments *kwds*. It blocks
Eli Benderskyd08effe2011-12-31 07:20:26 +02001702 until the result is ready. Given this blocks, :meth:`apply_async` is
1703 better suited for performing work in parallel. Additionally, *func*
1704 is only executed in one of the workers of the pool.
Benjamin Petersone711caf2008-06-11 16:44:04 +00001705
Ask Solem1d3b8932010-11-09 21:36:56 +00001706 .. method:: apply_async(func[, args[, kwds[, callback[, error_callback]]]])
Benjamin Petersone711caf2008-06-11 16:44:04 +00001707
1708 A variant of the :meth:`apply` method which returns a result object.
1709
1710 If *callback* is specified then it should be a callable which accepts a
1711 single argument. When the result becomes ready *callback* is applied to
Ask Solem1d3b8932010-11-09 21:36:56 +00001712 it, that is unless the call failed, in which case the *error_callback*
1713 is applied instead
1714
1715 If *error_callback* is specified then it should be a callable which
1716 accepts a single argument. If the target function fails, then
1717 the *error_callback* is called with the exception instance.
1718
1719 Callbacks should complete immediately since otherwise the thread which
1720 handles the results will get blocked.
Benjamin Petersone711caf2008-06-11 16:44:04 +00001721
1722 .. method:: map(func, iterable[, chunksize])
1723
Georg Brandl22b34312009-07-26 14:54:51 +00001724 A parallel equivalent of the :func:`map` built-in function (it supports only
Eli Benderskyd08effe2011-12-31 07:20:26 +02001725 one *iterable* argument though). It blocks until the result is ready.
Benjamin Petersone711caf2008-06-11 16:44:04 +00001726
1727 This method chops the iterable into a number of chunks which it submits to
1728 the process pool as separate tasks. The (approximate) size of these
1729 chunks can be specified by setting *chunksize* to a positive integer.
1730
Sandro Tosidb79e952011-08-08 16:38:13 +02001731 .. method:: map_async(func, iterable[, chunksize[, callback[, error_callback]]])
Benjamin Petersone711caf2008-06-11 16:44:04 +00001732
Georg Brandl502d9a52009-07-26 15:02:41 +00001733 A variant of the :meth:`.map` method which returns a result object.
Benjamin Petersone711caf2008-06-11 16:44:04 +00001734
1735 If *callback* is specified then it should be a callable which accepts a
1736 single argument. When the result becomes ready *callback* is applied to
Ask Solem1d3b8932010-11-09 21:36:56 +00001737 it, that is unless the call failed, in which case the *error_callback*
1738 is applied instead
1739
1740 If *error_callback* is specified then it should be a callable which
1741 accepts a single argument. If the target function fails, then
1742 the *error_callback* is called with the exception instance.
1743
1744 Callbacks should complete immediately since otherwise the thread which
1745 handles the results will get blocked.
Benjamin Petersone711caf2008-06-11 16:44:04 +00001746
1747 .. method:: imap(func, iterable[, chunksize])
1748
Georg Brandl92905032008-11-22 08:51:39 +00001749 A lazier version of :meth:`map`.
Benjamin Petersone711caf2008-06-11 16:44:04 +00001750
1751 The *chunksize* argument is the same as the one used by the :meth:`.map`
1752 method. For very long iterables using a large value for *chunksize* can
Ezio Melottie130a522011-10-19 10:58:56 +03001753 make the job complete **much** faster than using the default value of
Benjamin Petersone711caf2008-06-11 16:44:04 +00001754 ``1``.
1755
Georg Brandl502d9a52009-07-26 15:02:41 +00001756 Also if *chunksize* is ``1`` then the :meth:`!next` method of the iterator
Benjamin Petersone711caf2008-06-11 16:44:04 +00001757 returned by the :meth:`imap` method has an optional *timeout* parameter:
1758 ``next(timeout)`` will raise :exc:`multiprocessing.TimeoutError` if the
1759 result cannot be returned within *timeout* seconds.
1760
1761 .. method:: imap_unordered(func, iterable[, chunksize])
1762
1763 The same as :meth:`imap` except that the ordering of the results from the
1764 returned iterator should be considered arbitrary. (Only when there is
1765 only one worker process is the order guaranteed to be "correct".)
1766
Antoine Pitroude911b22011-12-21 11:03:24 +01001767 .. method:: starmap(func, iterable[, chunksize])
1768
1769 Like :meth:`map` except that the elements of the `iterable` are expected
1770 to be iterables that are unpacked as arguments.
1771
1772 Hence an `iterable` of `[(1,2), (3, 4)]` results in `[func(1,2),
1773 func(3,4)]`.
1774
1775 .. versionadded:: 3.3
1776
1777 .. method:: starmap_async(func, iterable[, chunksize[, callback[, error_back]]])
1778
1779 A combination of :meth:`starmap` and :meth:`map_async` that iterates over
1780 `iterable` of iterables and calls `func` with the iterables unpacked.
1781 Returns a result object.
1782
1783 .. versionadded:: 3.3
1784
Benjamin Petersone711caf2008-06-11 16:44:04 +00001785 .. method:: close()
1786
1787 Prevents any more tasks from being submitted to the pool. Once all the
1788 tasks have been completed the worker processes will exit.
1789
1790 .. method:: terminate()
1791
1792 Stops the worker processes immediately without completing outstanding
1793 work. When the pool object is garbage collected :meth:`terminate` will be
1794 called immediately.
1795
1796 .. method:: join()
1797
1798 Wait for the worker processes to exit. One must call :meth:`close` or
1799 :meth:`terminate` before using :meth:`join`.
1800
Richard Oudkerkd69cfe82012-06-18 17:47:52 +01001801 .. versionadded:: 3.3
1802 Pool objects now support the context manager protocol -- see
Serhiy Storchaka9e0ae532013-08-24 00:23:38 +03001803 :ref:`typecontextmanager`. :meth:`~contextmanager.__enter__` returns the
1804 pool object, and :meth:~contextmanager.`__exit__` calls :meth:`terminate`.
Richard Oudkerkd69cfe82012-06-18 17:47:52 +01001805
Benjamin Petersone711caf2008-06-11 16:44:04 +00001806
1807.. class:: AsyncResult
1808
1809 The class of the result returned by :meth:`Pool.apply_async` and
1810 :meth:`Pool.map_async`.
1811
Georg Brandle3d70ae2008-11-22 08:54:21 +00001812 .. method:: get([timeout])
Benjamin Petersone711caf2008-06-11 16:44:04 +00001813
1814 Return the result when it arrives. If *timeout* is not ``None`` and the
1815 result does not arrive within *timeout* seconds then
1816 :exc:`multiprocessing.TimeoutError` is raised. If the remote call raised
1817 an exception then that exception will be reraised by :meth:`get`.
1818
1819 .. method:: wait([timeout])
1820
1821 Wait until the result is available or until *timeout* seconds pass.
1822
1823 .. method:: ready()
1824
1825 Return whether the call has completed.
1826
1827 .. method:: successful()
1828
1829 Return whether the call completed without raising an exception. Will
1830 raise :exc:`AssertionError` if the result is not ready.
1831
1832The following example demonstrates the use of a pool::
1833
1834 from multiprocessing import Pool
1835
1836 def f(x):
1837 return x*x
1838
1839 if __name__ == '__main__':
Richard Oudkerk633c4d92012-06-18 21:29:36 +01001840 with Pool(processes=4) as pool: # start 4 worker processes
1841 result = pool.apply_async(f, (10,)) # evaluate "f(10)" asynchronously
1842 print(result.get(timeout=1)) # prints "100" unless your computer is *very* slow
Benjamin Petersone711caf2008-06-11 16:44:04 +00001843
Richard Oudkerk633c4d92012-06-18 21:29:36 +01001844 print(pool.map(f, range(10))) # prints "[0, 1, 4,..., 81]"
Benjamin Petersone711caf2008-06-11 16:44:04 +00001845
Richard Oudkerk633c4d92012-06-18 21:29:36 +01001846 it = pool.imap(f, range(10))
1847 print(next(it)) # prints "0"
1848 print(next(it)) # prints "1"
1849 print(it.next(timeout=1)) # prints "4" unless your computer is *very* slow
Benjamin Petersone711caf2008-06-11 16:44:04 +00001850
Richard Oudkerk633c4d92012-06-18 21:29:36 +01001851 import time
1852 result = pool.apply_async(time.sleep, (10,))
1853 print(result.get(timeout=1)) # raises TimeoutError
Benjamin Petersone711caf2008-06-11 16:44:04 +00001854
1855
1856.. _multiprocessing-listeners-clients:
1857
1858Listeners and Clients
1859~~~~~~~~~~~~~~~~~~~~~
1860
1861.. module:: multiprocessing.connection
1862 :synopsis: API for dealing with sockets.
1863
1864Usually message passing between processes is done using queues or by using
Serhiy Storchaka9e0ae532013-08-24 00:23:38 +03001865:class:`~multiprocessing.Connection` objects returned by
1866:func:`~multiprocessing.Pipe`.
Benjamin Petersone711caf2008-06-11 16:44:04 +00001867
1868However, the :mod:`multiprocessing.connection` module allows some extra
1869flexibility. It basically gives a high level message oriented API for dealing
Antoine Pitroubdb1cf12012-03-05 19:28:37 +01001870with sockets or Windows named pipes. It also has support for *digest
1871authentication* using the :mod:`hmac` module, and for polling
1872multiple connections at the same time.
Benjamin Petersone711caf2008-06-11 16:44:04 +00001873
1874
1875.. function:: deliver_challenge(connection, authkey)
1876
1877 Send a randomly generated message to the other end of the connection and wait
1878 for a reply.
1879
1880 If the reply matches the digest of the message using *authkey* as the key
1881 then a welcome message is sent to the other end of the connection. Otherwise
Eli Benderskyb674dcf2012-07-13 09:45:31 +03001882 :exc:`~multiprocessing.AuthenticationError` is raised.
Benjamin Petersone711caf2008-06-11 16:44:04 +00001883
Ezio Melottic09959a2013-04-10 17:59:20 +03001884.. function:: answer_challenge(connection, authkey)
Benjamin Petersone711caf2008-06-11 16:44:04 +00001885
1886 Receive a message, calculate the digest of the message using *authkey* as the
1887 key, and then send the digest back.
1888
Eli Benderskyb674dcf2012-07-13 09:45:31 +03001889 If a welcome message is not received, then
1890 :exc:`~multiprocessing.AuthenticationError` is raised.
Benjamin Petersone711caf2008-06-11 16:44:04 +00001891
1892.. function:: Client(address[, family[, authenticate[, authkey]]])
1893
1894 Attempt to set up a connection to the listener which is using address
Benjamin Peterson5289b2b2008-06-28 00:40:54 +00001895 *address*, returning a :class:`~multiprocessing.Connection`.
Benjamin Petersone711caf2008-06-11 16:44:04 +00001896
1897 The type of the connection is determined by *family* argument, but this can
1898 generally be omitted since it can usually be inferred from the format of
1899 *address*. (See :ref:`multiprocessing-address-formats`)
1900
Richard Oudkerk264e9ac2012-08-17 14:39:18 +01001901 If *authenticate* is ``True`` or *authkey* is a byte string then digest
Benjamin Petersone711caf2008-06-11 16:44:04 +00001902 authentication is used. The key used for authentication will be either
Richard Oudkerk264e9ac2012-08-17 14:39:18 +01001903 *authkey* or ``current_process().authkey`` if *authkey* is ``None``.
Eli Benderskyb674dcf2012-07-13 09:45:31 +03001904 If authentication fails then
1905 :exc:`~multiprocessing.AuthenticationError` is raised. See
Benjamin Petersone711caf2008-06-11 16:44:04 +00001906 :ref:`multiprocessing-auth-keys`.
1907
1908.. class:: Listener([address[, family[, backlog[, authenticate[, authkey]]]]])
1909
1910 A wrapper for a bound socket or Windows named pipe which is 'listening' for
1911 connections.
1912
1913 *address* is the address to be used by the bound socket or named pipe of the
1914 listener object.
1915
Benjamin Petersond23f8222009-04-05 19:13:16 +00001916 .. note::
1917
1918 If an address of '0.0.0.0' is used, the address will not be a connectable
1919 end point on Windows. If you require a connectable end-point,
1920 you should use '127.0.0.1'.
1921
Benjamin Petersone711caf2008-06-11 16:44:04 +00001922 *family* is the type of socket (or named pipe) to use. This can be one of
1923 the strings ``'AF_INET'`` (for a TCP socket), ``'AF_UNIX'`` (for a Unix
1924 domain socket) or ``'AF_PIPE'`` (for a Windows named pipe). Of these only
1925 the first is guaranteed to be available. If *family* is ``None`` then the
1926 family is inferred from the format of *address*. If *address* is also
1927 ``None`` then a default is chosen. This default is the family which is
1928 assumed to be the fastest available. See
1929 :ref:`multiprocessing-address-formats`. Note that if *family* is
1930 ``'AF_UNIX'`` and address is ``None`` then the socket will be created in a
1931 private temporary directory created using :func:`tempfile.mkstemp`.
1932
1933 If the listener object uses a socket then *backlog* (1 by default) is passed
Serhiy Storchaka9e0ae532013-08-24 00:23:38 +03001934 to the :meth:`~socket.socket.listen` method of the socket once it has been
1935 bound.
Benjamin Petersone711caf2008-06-11 16:44:04 +00001936
1937 If *authenticate* is ``True`` (``False`` by default) or *authkey* is not
1938 ``None`` then digest authentication is used.
1939
Richard Oudkerk264e9ac2012-08-17 14:39:18 +01001940 If *authkey* is a byte string then it will be used as the
1941 authentication key; otherwise it must be *None*.
Benjamin Petersone711caf2008-06-11 16:44:04 +00001942
1943 If *authkey* is ``None`` and *authenticate* is ``True`` then
Benjamin Petersona786b022008-08-25 21:05:21 +00001944 ``current_process().authkey`` is used as the authentication key. If
Alexandre Vassalottic57a84f2009-07-17 12:07:01 +00001945 *authkey* is ``None`` and *authenticate* is ``False`` then no
Benjamin Petersone711caf2008-06-11 16:44:04 +00001946 authentication is done. If authentication fails then
Eli Benderskyb674dcf2012-07-13 09:45:31 +03001947 :exc:`~multiprocessing.AuthenticationError` is raised.
1948 See :ref:`multiprocessing-auth-keys`.
Benjamin Petersone711caf2008-06-11 16:44:04 +00001949
1950 .. method:: accept()
1951
1952 Accept a connection on the bound socket or named pipe of the listener
Serhiy Storchaka9e0ae532013-08-24 00:23:38 +03001953 object and return a :class:`~multiprocessing.Connection` object. If
1954 authentication is attempted and fails, then
Eli Benderskyb674dcf2012-07-13 09:45:31 +03001955 :exc:`~multiprocessing.AuthenticationError` is raised.
Benjamin Petersone711caf2008-06-11 16:44:04 +00001956
1957 .. method:: close()
1958
1959 Close the bound socket or named pipe of the listener object. This is
1960 called automatically when the listener is garbage collected. However it
1961 is advisable to call it explicitly.
1962
1963 Listener objects have the following read-only properties:
1964
1965 .. attribute:: address
1966
1967 The address which is being used by the Listener object.
1968
1969 .. attribute:: last_accepted
1970
1971 The address from which the last accepted connection came. If this is
1972 unavailable then it is ``None``.
1973
Richard Oudkerkd69cfe82012-06-18 17:47:52 +01001974 .. versionadded:: 3.3
1975 Listener objects now support the context manager protocol -- see
Serhiy Storchaka9e0ae532013-08-24 00:23:38 +03001976 :ref:`typecontextmanager`. :meth:`~contextmanager.__enter__` returns the
1977 listener object, and :meth:~contextmanager.`__exit__` calls :meth:`close`.
Richard Oudkerkd69cfe82012-06-18 17:47:52 +01001978
Antoine Pitroubdb1cf12012-03-05 19:28:37 +01001979.. function:: wait(object_list, timeout=None)
1980
1981 Wait till an object in *object_list* is ready. Returns the list of
1982 those objects in *object_list* which are ready. If *timeout* is a
1983 float then the call blocks for at most that many seconds. If
1984 *timeout* is ``None`` then it will block for an unlimited period.
Richard Oudkerk59d54042012-05-10 16:11:12 +01001985 A negative timeout is equivalent to a zero timeout.
Antoine Pitroubdb1cf12012-03-05 19:28:37 +01001986
1987 For both Unix and Windows, an object can appear in *object_list* if
1988 it is
1989
1990 * a readable :class:`~multiprocessing.Connection` object;
1991 * a connected and readable :class:`socket.socket` object; or
1992 * the :attr:`~multiprocessing.Process.sentinel` attribute of a
1993 :class:`~multiprocessing.Process` object.
1994
1995 A connection or socket object is ready when there is data available
1996 to be read from it, or the other end has been closed.
1997
1998 **Unix**: ``wait(object_list, timeout)`` almost equivalent
1999 ``select.select(object_list, [], [], timeout)``. The difference is
2000 that, if :func:`select.select` is interrupted by a signal, it can
2001 raise :exc:`OSError` with an error number of ``EINTR``, whereas
2002 :func:`wait` will not.
2003
2004 **Windows**: An item in *object_list* must either be an integer
2005 handle which is waitable (according to the definition used by the
2006 documentation of the Win32 function ``WaitForMultipleObjects()``)
2007 or it can be an object with a :meth:`fileno` method which returns a
2008 socket handle or pipe handle. (Note that pipe handles and socket
2009 handles are **not** waitable handles.)
2010
2011 .. versionadded:: 3.3
Benjamin Petersone711caf2008-06-11 16:44:04 +00002012
Benjamin Petersone711caf2008-06-11 16:44:04 +00002013
2014**Examples**
2015
2016The following server code creates a listener which uses ``'secret password'`` as
2017an authentication key. It then waits for a connection and sends some data to
2018the client::
2019
2020 from multiprocessing.connection import Listener
2021 from array import array
2022
2023 address = ('localhost', 6000) # family is deduced to be 'AF_INET'
Benjamin Petersone711caf2008-06-11 16:44:04 +00002024
Richard Oudkerk633c4d92012-06-18 21:29:36 +01002025 with Listener(address, authkey=b'secret password') as listener:
2026 with listener.accept() as conn:
2027 print('connection accepted from', listener.last_accepted)
Benjamin Petersone711caf2008-06-11 16:44:04 +00002028
Richard Oudkerk633c4d92012-06-18 21:29:36 +01002029 conn.send([2.25, None, 'junk', float])
Benjamin Petersone711caf2008-06-11 16:44:04 +00002030
Richard Oudkerk633c4d92012-06-18 21:29:36 +01002031 conn.send_bytes(b'hello')
Benjamin Petersone711caf2008-06-11 16:44:04 +00002032
Richard Oudkerk633c4d92012-06-18 21:29:36 +01002033 conn.send_bytes(array('i', [42, 1729]))
Benjamin Petersone711caf2008-06-11 16:44:04 +00002034
2035The following code connects to the server and receives some data from the
2036server::
2037
2038 from multiprocessing.connection import Client
2039 from array import array
2040
2041 address = ('localhost', 6000)
Benjamin Petersone711caf2008-06-11 16:44:04 +00002042
Richard Oudkerk633c4d92012-06-18 21:29:36 +01002043 with Client(address, authkey=b'secret password') as conn:
2044 print(conn.recv()) # => [2.25, None, 'junk', float]
Benjamin Petersone711caf2008-06-11 16:44:04 +00002045
Richard Oudkerk633c4d92012-06-18 21:29:36 +01002046 print(conn.recv_bytes()) # => 'hello'
Benjamin Petersone711caf2008-06-11 16:44:04 +00002047
Richard Oudkerk633c4d92012-06-18 21:29:36 +01002048 arr = array('i', [0, 0, 0, 0, 0])
2049 print(conn.recv_bytes_into(arr)) # => 8
2050 print(arr) # => array('i', [42, 1729, 0, 0, 0])
Benjamin Petersone711caf2008-06-11 16:44:04 +00002051
Antoine Pitroubdb1cf12012-03-05 19:28:37 +01002052The following code uses :func:`~multiprocessing.connection.wait` to
2053wait for messages from multiple processes at once::
2054
2055 import time, random
2056 from multiprocessing import Process, Pipe, current_process
2057 from multiprocessing.connection import wait
2058
2059 def foo(w):
2060 for i in range(10):
2061 w.send((i, current_process().name))
2062 w.close()
2063
2064 if __name__ == '__main__':
2065 readers = []
2066
2067 for i in range(4):
2068 r, w = Pipe(duplex=False)
2069 readers.append(r)
2070 p = Process(target=foo, args=(w,))
2071 p.start()
2072 # We close the writable end of the pipe now to be sure that
2073 # p is the only process which owns a handle for it. This
2074 # ensures that when p closes its handle for the writable end,
2075 # wait() will promptly report the readable end as being ready.
2076 w.close()
2077
2078 while readers:
2079 for r in wait(readers):
2080 try:
2081 msg = r.recv()
2082 except EOFError:
2083 readers.remove(r)
2084 else:
2085 print(msg)
2086
Benjamin Petersone711caf2008-06-11 16:44:04 +00002087
2088.. _multiprocessing-address-formats:
2089
2090Address Formats
2091>>>>>>>>>>>>>>>
2092
Benjamin Peterson5289b2b2008-06-28 00:40:54 +00002093* An ``'AF_INET'`` address is a tuple of the form ``(hostname, port)`` where
Benjamin Petersone711caf2008-06-11 16:44:04 +00002094 *hostname* is a string and *port* is an integer.
2095
Benjamin Peterson5289b2b2008-06-28 00:40:54 +00002096* An ``'AF_UNIX'`` address is a string representing a filename on the
Benjamin Petersone711caf2008-06-11 16:44:04 +00002097 filesystem.
2098
2099* An ``'AF_PIPE'`` address is a string of the form
Benjamin Petersonda10d3b2009-01-01 00:23:30 +00002100 :samp:`r'\\\\.\\pipe\\{PipeName}'`. To use :func:`Client` to connect to a named
Georg Brandl1f01deb2009-01-03 22:47:39 +00002101 pipe on a remote computer called *ServerName* one should use an address of the
Benjamin Peterson28d88b42009-01-09 03:03:23 +00002102 form :samp:`r'\\\\{ServerName}\\pipe\\{PipeName}'` instead.
Benjamin Petersone711caf2008-06-11 16:44:04 +00002103
2104Note that any string beginning with two backslashes is assumed by default to be
2105an ``'AF_PIPE'`` address rather than an ``'AF_UNIX'`` address.
2106
2107
2108.. _multiprocessing-auth-keys:
2109
2110Authentication keys
2111~~~~~~~~~~~~~~~~~~~
2112
Serhiy Storchaka9e0ae532013-08-24 00:23:38 +03002113When one uses :meth:`Connection.recv <multiprocessing.Connection.recv>`, the
2114data received is automatically
Benjamin Petersone711caf2008-06-11 16:44:04 +00002115unpickled. Unfortunately unpickling data from an untrusted source is a security
2116risk. Therefore :class:`Listener` and :func:`Client` use the :mod:`hmac` module
2117to provide digest authentication.
2118
Richard Oudkerk264e9ac2012-08-17 14:39:18 +01002119An authentication key is a byte string which can be thought of as a
2120password: once a connection is established both ends will demand proof
2121that the other knows the authentication key. (Demonstrating that both
2122ends are using the same key does **not** involve sending the key over
2123the connection.)
Benjamin Petersone711caf2008-06-11 16:44:04 +00002124
Richard Oudkerk264e9ac2012-08-17 14:39:18 +01002125If authentication is requested but no authentication key is specified then the
Benjamin Petersona786b022008-08-25 21:05:21 +00002126return value of ``current_process().authkey`` is used (see
Benjamin Peterson5289b2b2008-06-28 00:40:54 +00002127:class:`~multiprocessing.Process`). This value will automatically inherited by
2128any :class:`~multiprocessing.Process` object that the current process creates.
2129This means that (by default) all processes of a multi-process program will share
2130a single authentication key which can be used when setting up connections
Benjamin Petersond23f8222009-04-05 19:13:16 +00002131between themselves.
Benjamin Petersone711caf2008-06-11 16:44:04 +00002132
2133Suitable authentication keys can also be generated by using :func:`os.urandom`.
2134
2135
2136Logging
2137~~~~~~~
2138
2139Some support for logging is available. Note, however, that the :mod:`logging`
2140package does not use process shared locks so it is possible (depending on the
2141handler type) for messages from different processes to get mixed up.
2142
2143.. currentmodule:: multiprocessing
2144.. function:: get_logger()
2145
2146 Returns the logger used by :mod:`multiprocessing`. If necessary, a new one
2147 will be created.
2148
Jesse Noller41faa542009-01-25 03:45:53 +00002149 When first created the logger has level :data:`logging.NOTSET` and no
2150 default handler. Messages sent to this logger will not by default propagate
2151 to the root logger.
Benjamin Petersone711caf2008-06-11 16:44:04 +00002152
2153 Note that on Windows child processes will only inherit the level of the
2154 parent process's logger -- any other customization of the logger will not be
2155 inherited.
2156
Jesse Noller41faa542009-01-25 03:45:53 +00002157.. currentmodule:: multiprocessing
2158.. function:: log_to_stderr()
2159
2160 This function performs a call to :func:`get_logger` but in addition to
2161 returning the logger created by get_logger, it adds a handler which sends
2162 output to :data:`sys.stderr` using format
2163 ``'[%(levelname)s/%(processName)s] %(message)s'``.
2164
Benjamin Petersone711caf2008-06-11 16:44:04 +00002165Below is an example session with logging turned on::
2166
Benjamin Peterson206e3072008-10-19 14:07:49 +00002167 >>> import multiprocessing, logging
Jesse Noller41faa542009-01-25 03:45:53 +00002168 >>> logger = multiprocessing.log_to_stderr()
Benjamin Petersone711caf2008-06-11 16:44:04 +00002169 >>> logger.setLevel(logging.INFO)
2170 >>> logger.warning('doomed')
2171 [WARNING/MainProcess] doomed
Benjamin Peterson206e3072008-10-19 14:07:49 +00002172 >>> m = multiprocessing.Manager()
R. David Murray8e8099c2009-04-28 18:02:00 +00002173 [INFO/SyncManager-...] child process calling self.run()
2174 [INFO/SyncManager-...] created temp directory /.../pymp-...
2175 [INFO/SyncManager-...] manager serving at '/.../listener-...'
Benjamin Petersone711caf2008-06-11 16:44:04 +00002176 >>> del m
2177 [INFO/MainProcess] sending shutdown message to manager
R. David Murray8e8099c2009-04-28 18:02:00 +00002178 [INFO/SyncManager-...] manager exiting with exitcode 0
Benjamin Petersone711caf2008-06-11 16:44:04 +00002179
Jesse Noller41faa542009-01-25 03:45:53 +00002180In addition to having these two logging functions, the multiprocessing also
2181exposes two additional logging level attributes. These are :const:`SUBWARNING`
2182and :const:`SUBDEBUG`. The table below illustrates where theses fit in the
2183normal level hierarchy.
2184
2185+----------------+----------------+
2186| Level | Numeric value |
2187+================+================+
2188| ``SUBWARNING`` | 25 |
2189+----------------+----------------+
2190| ``SUBDEBUG`` | 5 |
2191+----------------+----------------+
2192
2193For a full table of logging levels, see the :mod:`logging` module.
2194
2195These additional logging levels are used primarily for certain debug messages
2196within the multiprocessing module. Below is the same example as above, except
2197with :const:`SUBDEBUG` enabled::
2198
2199 >>> import multiprocessing, logging
2200 >>> logger = multiprocessing.log_to_stderr()
2201 >>> logger.setLevel(multiprocessing.SUBDEBUG)
2202 >>> logger.warning('doomed')
2203 [WARNING/MainProcess] doomed
2204 >>> m = multiprocessing.Manager()
R. David Murray8e8099c2009-04-28 18:02:00 +00002205 [INFO/SyncManager-...] child process calling self.run()
2206 [INFO/SyncManager-...] created temp directory /.../pymp-...
2207 [INFO/SyncManager-...] manager serving at '/.../pymp-djGBXN/listener-...'
Jesse Noller41faa542009-01-25 03:45:53 +00002208 >>> del m
2209 [SUBDEBUG/MainProcess] finalizer calling ...
2210 [INFO/MainProcess] sending shutdown message to manager
R. David Murray8e8099c2009-04-28 18:02:00 +00002211 [DEBUG/SyncManager-...] manager received shutdown message
2212 [SUBDEBUG/SyncManager-...] calling <Finalize object, callback=unlink, ...
2213 [SUBDEBUG/SyncManager-...] finalizer calling <built-in function unlink> ...
2214 [SUBDEBUG/SyncManager-...] calling <Finalize object, dead>
2215 [SUBDEBUG/SyncManager-...] finalizer calling <function rmtree at 0x5aa730> ...
2216 [INFO/SyncManager-...] manager exiting with exitcode 0
Benjamin Petersone711caf2008-06-11 16:44:04 +00002217
2218The :mod:`multiprocessing.dummy` module
2219~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
2220
2221.. module:: multiprocessing.dummy
2222 :synopsis: Dumb wrapper around threading.
2223
2224:mod:`multiprocessing.dummy` replicates the API of :mod:`multiprocessing` but is
Benjamin Peterson5289b2b2008-06-28 00:40:54 +00002225no more than a wrapper around the :mod:`threading` module.
Benjamin Petersone711caf2008-06-11 16:44:04 +00002226
2227
2228.. _multiprocessing-programming:
2229
2230Programming guidelines
2231----------------------
2232
2233There are certain guidelines and idioms which should be adhered to when using
2234:mod:`multiprocessing`.
2235
2236
2237All platforms
2238~~~~~~~~~~~~~
2239
2240Avoid shared state
2241
2242 As far as possible one should try to avoid shifting large amounts of data
2243 between processes.
2244
2245 It is probably best to stick to using queues or pipes for communication
2246 between processes rather than using the lower level synchronization
Eli Bendersky78da3bc2012-07-13 10:10:05 +03002247 primitives.
Benjamin Petersone711caf2008-06-11 16:44:04 +00002248
2249Picklability
2250
2251 Ensure that the arguments to the methods of proxies are picklable.
2252
2253Thread safety of proxies
2254
2255 Do not use a proxy object from more than one thread unless you protect it
2256 with a lock.
2257
2258 (There is never a problem with different processes using the *same* proxy.)
2259
2260Joining zombie processes
2261
2262 On Unix when a process finishes but has not been joined it becomes a zombie.
2263 There should never be very many because each time a new process starts (or
Serhiy Storchaka9e0ae532013-08-24 00:23:38 +03002264 :func:`~multiprocessing.active_children` is called) all completed processes
2265 which have not yet been joined will be joined. Also calling a finished
2266 process's :meth:`Process.is_alive <multiprocessing.Process.is_alive>` will
2267 join the process. Even so it is probably good
Benjamin Petersone711caf2008-06-11 16:44:04 +00002268 practice to explicitly join all the processes that you start.
2269
2270Better to inherit than pickle/unpickle
2271
Benjamin Peterson5289b2b2008-06-28 00:40:54 +00002272 On Windows many types from :mod:`multiprocessing` need to be picklable so
Benjamin Petersone711caf2008-06-11 16:44:04 +00002273 that child processes can use them. However, one should generally avoid
2274 sending shared objects to other processes using pipes or queues. Instead
Eli Benderskyd08effe2011-12-31 07:20:26 +02002275 you should arrange the program so that a process which needs access to a
Benjamin Petersone711caf2008-06-11 16:44:04 +00002276 shared resource created elsewhere can inherit it from an ancestor process.
2277
2278Avoid terminating processes
2279
Serhiy Storchaka9e0ae532013-08-24 00:23:38 +03002280 Using the :meth:`Process.terminate <multiprocessing.Process.terminate>`
2281 method to stop a process is liable to
Benjamin Petersone711caf2008-06-11 16:44:04 +00002282 cause any shared resources (such as locks, semaphores, pipes and queues)
2283 currently being used by the process to become broken or unavailable to other
2284 processes.
2285
2286 Therefore it is probably best to only consider using
Serhiy Storchaka9e0ae532013-08-24 00:23:38 +03002287 :meth:`Process.terminate <multiprocessing.Process.terminate>` on processes
2288 which never use any shared resources.
Benjamin Petersone711caf2008-06-11 16:44:04 +00002289
2290Joining processes that use queues
2291
2292 Bear in mind that a process that has put items in a queue will wait before
2293 terminating until all the buffered items are fed by the "feeder" thread to
2294 the underlying pipe. (The child process can call the
Serhiy Storchaka9e0ae532013-08-24 00:23:38 +03002295 :meth:`Queue.cancel_join_thread <multiprocessing.Queue.cancel_join_thread>`
2296 method of the queue to avoid this behaviour.)
Benjamin Petersone711caf2008-06-11 16:44:04 +00002297
2298 This means that whenever you use a queue you need to make sure that all
2299 items which have been put on the queue will eventually be removed before the
2300 process is joined. Otherwise you cannot be sure that processes which have
2301 put items on the queue will terminate. Remember also that non-daemonic
2302 processes will be automatically be joined.
2303
2304 An example which will deadlock is the following::
2305
2306 from multiprocessing import Process, Queue
2307
2308 def f(q):
2309 q.put('X' * 1000000)
2310
2311 if __name__ == '__main__':
2312 queue = Queue()
2313 p = Process(target=f, args=(queue,))
2314 p.start()
2315 p.join() # this deadlocks
2316 obj = queue.get()
2317
2318 A fix here would be to swap the last two lines round (or simply remove the
2319 ``p.join()`` line).
2320
Benjamin Peterson5289b2b2008-06-28 00:40:54 +00002321Explicitly pass resources to child processes
Benjamin Petersone711caf2008-06-11 16:44:04 +00002322
2323 On Unix a child process can make use of a shared resource created in a
2324 parent process using a global resource. However, it is better to pass the
2325 object as an argument to the constructor for the child process.
2326
2327 Apart from making the code (potentially) compatible with Windows this also
2328 ensures that as long as the child process is still alive the object will not
2329 be garbage collected in the parent process. This might be important if some
2330 resource is freed when the object is garbage collected in the parent
2331 process.
2332
2333 So for instance ::
2334
2335 from multiprocessing import Process, Lock
2336
2337 def f():
2338 ... do something using "lock" ...
2339
2340 if __name__ == '__main__':
2341 lock = Lock()
2342 for i in range(10):
2343 Process(target=f).start()
2344
2345 should be rewritten as ::
2346
2347 from multiprocessing import Process, Lock
2348
2349 def f(l):
2350 ... do something using "l" ...
2351
2352 if __name__ == '__main__':
2353 lock = Lock()
2354 for i in range(10):
2355 Process(target=f, args=(lock,)).start()
2356
Eli Benderskyd08effe2011-12-31 07:20:26 +02002357Beware of replacing :data:`sys.stdin` with a "file like object"
Alexandre Vassalottic57a84f2009-07-17 12:07:01 +00002358
2359 :mod:`multiprocessing` originally unconditionally called::
2360
2361 os.close(sys.stdin.fileno())
2362
2363 in the :meth:`multiprocessing.Process._bootstrap` method --- this resulted
2364 in issues with processes-in-processes. This has been changed to::
2365
2366 sys.stdin.close()
2367 sys.stdin = open(os.devnull)
2368
2369 Which solves the fundamental issue of processes colliding with each other
2370 resulting in a bad file descriptor error, but introduces a potential danger
2371 to applications which replace :func:`sys.stdin` with a "file-like object"
2372 with output buffering. This danger is that if multiple processes call
Serhiy Storchaka9e0ae532013-08-24 00:23:38 +03002373 :meth:`~io.IOBase.close()` on this file-like object, it could result in the same
Alexandre Vassalottic57a84f2009-07-17 12:07:01 +00002374 data being flushed to the object multiple times, resulting in corruption.
2375
2376 If you write a file-like object and implement your own caching, you can
2377 make it fork-safe by storing the pid whenever you append to the cache,
2378 and discarding the cache when the pid changes. For example::
2379
2380 @property
2381 def cache(self):
2382 pid = os.getpid()
2383 if pid != self._pid:
2384 self._pid = pid
2385 self._cache = []
2386 return self._cache
2387
2388 For more information, see :issue:`5155`, :issue:`5313` and :issue:`5331`
Benjamin Petersone711caf2008-06-11 16:44:04 +00002389
2390Windows
2391~~~~~~~
2392
2393Since Windows lacks :func:`os.fork` it has a few extra restrictions:
2394
2395More picklability
2396
2397 Ensure that all arguments to :meth:`Process.__init__` are picklable. This
2398 means, in particular, that bound or unbound methods cannot be used directly
2399 as the ``target`` argument on Windows --- just define a function and use
2400 that instead.
2401
Serhiy Storchaka9e0ae532013-08-24 00:23:38 +03002402 Also, if you subclass :class:`~multiprocessing.Process` then make sure that
2403 instances will be picklable when the :meth:`Process.start
2404 <multiprocessing.Process.start>` method is called.
Benjamin Petersone711caf2008-06-11 16:44:04 +00002405
2406Global variables
2407
2408 Bear in mind that if code run in a child process tries to access a global
2409 variable, then the value it sees (if any) may not be the same as the value
Serhiy Storchaka9e0ae532013-08-24 00:23:38 +03002410 in the parent process at the time that :meth:`Process.start
2411 <multiprocessing.Process.start>` was called.
Benjamin Petersone711caf2008-06-11 16:44:04 +00002412
2413 However, global variables which are just module level constants cause no
2414 problems.
2415
2416Safe importing of main module
2417
2418 Make sure that the main module can be safely imported by a new Python
2419 interpreter without causing unintended side effects (such a starting a new
2420 process).
2421
2422 For example, under Windows running the following module would fail with a
2423 :exc:`RuntimeError`::
2424
2425 from multiprocessing import Process
2426
2427 def foo():
Georg Brandl49702152008-09-29 06:43:45 +00002428 print('hello')
Benjamin Petersone711caf2008-06-11 16:44:04 +00002429
2430 p = Process(target=foo)
2431 p.start()
2432
2433 Instead one should protect the "entry point" of the program by using ``if
2434 __name__ == '__main__':`` as follows::
2435
2436 from multiprocessing import Process, freeze_support
2437
2438 def foo():
Georg Brandl49702152008-09-29 06:43:45 +00002439 print('hello')
Benjamin Petersone711caf2008-06-11 16:44:04 +00002440
2441 if __name__ == '__main__':
2442 freeze_support()
2443 p = Process(target=foo)
2444 p.start()
2445
Benjamin Peterson5289b2b2008-06-28 00:40:54 +00002446 (The ``freeze_support()`` line can be omitted if the program will be run
Benjamin Petersone711caf2008-06-11 16:44:04 +00002447 normally instead of frozen.)
2448
2449 This allows the newly spawned Python interpreter to safely import the module
2450 and then run the module's ``foo()`` function.
2451
2452 Similar restrictions apply if a pool or manager is created in the main
2453 module.
2454
2455
2456.. _multiprocessing-examples:
2457
2458Examples
2459--------
2460
2461Demonstration of how to create and use customized managers and proxies:
2462
2463.. literalinclude:: ../includes/mp_newtype.py
Ezio Melottif86b28e2012-04-13 20:50:48 -06002464 :language: python3
Benjamin Petersone711caf2008-06-11 16:44:04 +00002465
2466
Serhiy Storchaka9e0ae532013-08-24 00:23:38 +03002467Using :class:`~multiprocessing.pool.Pool`:
Benjamin Petersone711caf2008-06-11 16:44:04 +00002468
2469.. literalinclude:: ../includes/mp_pool.py
Ezio Melottif86b28e2012-04-13 20:50:48 -06002470 :language: python3
Benjamin Petersone711caf2008-06-11 16:44:04 +00002471
2472
2473Synchronization types like locks, conditions and queues:
2474
2475.. literalinclude:: ../includes/mp_synchronize.py
Ezio Melottif86b28e2012-04-13 20:50:48 -06002476 :language: python3
Benjamin Petersone711caf2008-06-11 16:44:04 +00002477
2478
Georg Brandl0b37b332010-09-03 22:49:27 +00002479An example showing how to use queues to feed tasks to a collection of worker
Eli Benderskyd08effe2011-12-31 07:20:26 +02002480processes and collect the results:
Benjamin Petersone711caf2008-06-11 16:44:04 +00002481
2482.. literalinclude:: ../includes/mp_workers.py
2483
2484
2485An example of how a pool of worker processes can each run a
Georg Brandl47d48bb2010-07-10 11:51:06 +00002486:class:`~http.server.SimpleHTTPRequestHandler` instance while sharing a single
2487listening socket.
Benjamin Petersone711caf2008-06-11 16:44:04 +00002488
2489.. literalinclude:: ../includes/mp_webserver.py
2490
2491
2492Some simple benchmarks comparing :mod:`multiprocessing` with :mod:`threading`:
2493
2494.. literalinclude:: ../includes/mp_benchmarks.py
2495