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This code starts up an infinity of processes and subsequently crashes my PC.

import multiprocessing

def f(process_name):
    print process_name, 'says hi'

p1 = multiprocessing.Process(None,f,'1',('1st',))

In the console i see '1st says hi' over and over again, in the task manager i see a bazzilion of interpreters starting - i ran this from inside PyDev eclipse and within the commandline - same result.

One other result i got was having a single python interpreter running (though dying and spawning another one really fast) so that i couldn't kill it within the task manager (handle invalid). It was eating up 100% of the processor though.

I am used to the java threading API, and the module multiprocessing claims to have a similar interface to the threading module, which is a copy of java's.

Why are the processes not dying? What am I missing to simply have this spawn a single thread, print the thing and die out?

Thx, you guys rule!

share|improve this question
Why does the title say "threading module", and why the "multithreading" tag? Are you using threading somewhere that you haven't shown us? – abarnert Feb 14 '13 at 0:21
that's simply a fail on my part - thx for pointing it out. i'll edit it right away – vlad-ardelean Feb 14 '13 at 10:39
up vote 6 down vote accepted

You need to wrap up your initialization code in a if __name__ == "__main__": block.

Python executes your __main__ module again after the fork starts the new interpreter. Anything not guarded by this construct will execute again. Which creates the effect you see.

share|improve this answer
Just for curiosity's sake, couldn't you also add a line like for x in xrange(1): and then the existing code would be beneath it? – xxmbabanexx Feb 13 '13 at 23:41
@xxmbabanexx: The new interpreter will execute the same for x in xrange(1), so that won't help. If you're trying to rely on x as a global variable that's shared by all processes, you can make something like that work in some cases, but it never works in Windows, and there are cases where it doesn't work in POSIX, and there may be more cases where it doesn't work in 3.4, and so on, so… I won't explain how to do that, just don't do it. – abarnert Feb 13 '13 at 23:47
thx! seems interpreted code is more different from the java compiled one that i thought. – vlad-ardelean Feb 14 '13 at 8:17

I don't believe that the processes will die until you command them to do so with the myProcess.exit.set() command. I would edit your code to make it look like this:

import multiprocessing

def f(process_name):
    print process_name, 'says hi'

p1 = multiprocessing.Process(None,f,'1',('1st',))

I wouldn't do this in larger programs though, as it can cause issues. See here for more information about that. I would also recommend visiting the documentation on this.

share|improve this answer
actually the processes do indeed exit themselves – vlad-ardelean Feb 17 '13 at 19:38

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