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How can I handle KeyboardInterrupt events with python's multiprocessing Pools? Here is a simple example:

from multiprocessing import Pool
from time import sleep
from sys import exit

def slowly_square(i):
    return i*i

def go():
    pool = Pool(8)
        results = pool.map(slowly_square, range(40))
    except KeyboardInterrupt:
        # **** THIS PART NEVER EXECUTES. ****
        print "You cancelled the program!"
    print "\nFinally, here are the results: ", results

if __name__ == "__main__":

When running the code above, the KeyboardInterrupt gets raised when I press ^C, but the process simply hangs at that point and I have to kill it externally.

I want to be able to press ^C at any time and cause all of the processes to exit gracefully.

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7 Answers 7

up vote 46 down vote accepted

This is a Python bug. When waiting for a condition in threading.Condition.wait(), KeyboardInterrupt is never sent. Repro:

import threading
cond = threading.Condition(threading.Lock())
print "done"

The KeyboardInterrupt exception won't be delivered until wait() returns, and it never returns, so the interrupt never happens. KeyboardInterrupt should almost certainly interrupt a condition wait.

Note that this doesn't happen if a timeout is specified; cond.wait(1) will receive the interrupt immediately. So, a workaround is to specify a timeout. To do that, replace

    results = pool.map(slowly_square, range(40))


    results = pool.map_async(slowly_square, range(40)).get(9999999)

or similar.

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Is this bug in the official python tracker anywhere? I'm having trouble finding it but I'm probably just not using the best search terms. –  Joseph Garvin Mar 10 '10 at 21:16
This bug has been filed as [Issue 8296][1]. [1]: bugs.python.org/issue8296 –  Andrey Vlasovskikh Apr 8 '10 at 4:31
Here's a hack which fixes pool.imap() in the same manner, making Ctrl-C possible when iterating over imap. Catch the exception and call pool.terminate() and your program will exit. gist.github.com/626518 –  Alexander Ljungberg Oct 14 '10 at 16:40
This doesn't quite fix things. Sometimes I get the expected behavior when I press Control+C, other times not. I'm not sure why, but it looks like maybe The KeyboardInterrupt is received by one of the processes at random, and I only get the correct behavior if the parent process is the one that catches it. –  Ryan Thompson Nov 21 '11 at 19:26
@GlennMaynard as far as I know this system explicitly allows to edit other posts to enhance them. So I don't really see the problem, let me refer you to: stackoverflow.com/tour –  jb. Jun 7 at 20:46

From what I have recently found, the best solution is to set up the worker processes to ignore SIGINT altogether, and confine all the cleanup code to the parent process. This fixes the problem for both idle and busy worker processes, and requires no error handling code in your child processes.

import signal


def init_worker():
    signal.signal(signal.SIGINT, signal.SIG_IGN)


def main()
    pool = multiprocessing.Pool(size, init_worker)


    except KeyboardInterrupt:

Explanation and full example code can be found at http://noswap.com/blog/python-multiprocessing-keyboardinterrupt/ and http://github.com/jreese/multiprocessing-keyboardinterrupt respectively.

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Hi John. Your solution doesn't accomplish the same thing as my, yes unfortunately complicated, solution. It hides behind the time.sleep(10) in the main process. If you were to remove that sleep, or if you wait until the process attempts to join on the pool, which you have to do in order to guarantee the jobs are complete, then you still suffer from the same problem which is the main process doesn't receive the KeyboardInterrupt while it it waiting on a the poll join operation. –  bboe Feb 14 '12 at 21:06
In the case of where I used this code in production, the time.sleep() was part of a loop that would check the status of each child process, and then restart certain processes on a delay if necessary. Rather than join() that would wait on all processes to complete, it would check on them individually, ensuring that the master process stayed responsive. –  John Reese Mar 29 '12 at 16:08
So it was more a busy wait (maybe with small sleeps between checks) that polled for process completion via another method rather than join? If that's the case, perhaps it would be better to include this code in your blog post, since you can then guarantee that all the workers have completed before attempting to join. –  bboe Mar 29 '12 at 19:16
This doesn't work. Only the children are sent the signal. The parent never receives it, so pool.terminate() never gets executed. Having the children ignore the signal accomplishes nothing. @Glenn's answer solves the problem. –  Cerin May 31 at 3:34
My version of this is at gist.github.com/admackin/003dd646e5fadee8b8d6 ; it doesn't call .join() except on interrupt - it simply manually checks the result of .apply_async() using AsyncResult.ready() to see if it is ready, meaning we've cleanly finished. –  strangefeatures Aug 12 at 5:32

For some reasons, only exceptions inherited from the base Exception class are handled normally. As a workaround, you may re-raise your KeyboardInterrupt as an Exception instance:

from multiprocessing import Pool
import time

class KeyboardInterruptError(Exception): pass

def f(x):
        return x
    except KeyboardInterrupt:
        raise KeyboardInterruptError()

def main():
    p = Pool(processes=4)
        print 'starting the pool map'
        print p.map(f, range(10))
        print 'pool map complete'
    except KeyboardInterrupt:
        print 'got ^C while pool mapping, terminating the pool'
        print 'pool is terminated'
    except Exception, e:
        print 'got exception: %r, terminating the pool' % (e,)
        print 'pool is terminated'
        print 'joining pool processes'
        print 'join complete'
    print 'the end'

if __name__ == '__main__':

Normally you would get the following output:

staring the pool map
[0, 1, 2, 3, 4, 5, 6, 7, 8, 9]
pool map complete
joining pool processes
join complete
the end

So if you hit ^C, you will get:

staring the pool map
got ^C while pool mapping, terminating the pool
pool is terminated
joining pool processes
join complete
the end
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It seems that this is not a complete solution. If a KeyboardInterrupt is arrived while multiprocessing is performing its own IPC data exchange then the try..catch will not be activated (obviously). –  Andrey Vlasovskikh Apr 3 '10 at 2:33

Usually this simple structure works for Ctrl-C on Pool :

def signal_handle(signal,frame):
     print "Stopping the Jobs."


As was stated in few similar posts:

Capture keyboardinterrupt in Python without try-except

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This would have to be done on each of the worker processes as well, and may still fail if the KeyboardInterrupt is raised while the multiprocessing library is initializing. –  MarioVilas Jun 15 '13 at 16:26

I found, for the time being, the best solution is to not use the multiprocessing.pool feature but rather roll your own pool functionality. I provided an example demonstrating the error with apply_async as well as an example showing how to avoid using the pool functionality altogether.


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Works like a charm. It's a clean solution and not some kind of hack (/me thinks).btw, the trick with .get(99999) as proposed by others hurts performance badly. –  Walter Jun 21 '13 at 11:53
I've not noticed any performance penalty from using a timeout, though I have been using 9999 instead of 999999. The exception is when an exception that doesn't inherit from the Exception class is raised: then you have to wait until the timeout is hit. The solution to that is to catch all exceptions (see my solution). –  Paul Price May 15 at 15:26

It seems there are two issues that make exceptions while multiprocessing annoying. The first (noted by Glenn) is that you need to use map_async with a timeout instead of map in order to get an immediate response (i.e., don't finish processing the entire list). The second (noted by Andrey) is that multiprocessing doesn't catch exceptions that don't inherit from Exception (e.g., SystemExit). So here's my solution that deals with both of these:

import sys
import functools
import traceback
import multiprocessing

def _poolFunctionWrapper(function, arg):
    """Run function under the pool

    Wrapper around function to catch exceptions that don't inherit from
    Exception (which aren't caught by multiprocessing, so that you end
    up hitting the timeout).
        return function(arg)
        cls, exc, tb = sys.exc_info()
        if issubclass(cls, Exception):
            raise # No worries
        # Need to wrap the exception with something multiprocessing will recognise
        import traceback
        print "Unhandled exception %s (%s):\n%s" % (cls.__name__, exc, traceback.format_exc())
        raise Exception("Unhandled exception: %s (%s)" % (cls.__name__, exc))

def _runPool(pool, timeout, function, iterable):
    """Run the pool

    Wrapper around pool.map_async, to handle timeout.  This is required so as to
    trigger an immediate interrupt on the KeyboardInterrupt (Ctrl-C); see

    Further wraps the function in _poolFunctionWrapper to catch exceptions
    that don't inherit from Exception.
    return pool.map_async(functools.partial(_poolFunctionWrapper, function), iterable).get(timeout)

def myMap(function, iterable, numProcesses=1, timeout=9999):
    """Run the function on the iterable, optionally with multiprocessing"""
    if numProcesses > 1:
        pool = multiprocessing.Pool(processes=numProcesses, maxtasksperchild=1)
        mapFunc = functools.partial(_runPool, pool, timeout)
        pool = None
        mapFunc = map
    results = mapFunc(function, iterable)
    if pool is not None:
    return results
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Strangely enough it looks like you have to handle the KeyboardInterrupt in the children as well. I would have expected this to work as written... try changing slowly_square to:

def slowly_square(i):
        return i * i
    except KeyboardInterrupt:
        print 'You EVIL bastard!'
        return 0

That should work as you expected.

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I tried this, and it doesn't actually terminate the entire set of jobs. It terminates the currently-running jobs, but the script still assigns the remaining jobs in the pool.map call as if everything is normal. –  Fragsworth Sep 11 '09 at 0:39
this is OK, but yuo may lose track of errors that occur. returning the error with a stacktrace might work so the parent process can tell that an error occurred, but it still doesn't exit immediately when the error occurs. –  mehtunguh Oct 22 '13 at 13:58

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