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I currently have a global Lock = threading.Lock(), and make the following call:

Parallel(n_jobs=2)(delayed(serialRemove)(dir,c,b,l,f) for f in os.listdir(dir))

using jobLib. In serialRemove, I have

print(f+' if')
if h in hashes:
        if l: print('Removing ' + path)
        removed += 1
    except os.error:
        print('Encountered error removing file') 
    print(f+' else')

(Note, h in hashes is always False in my case) Part of the call results in:
10.txt if
11.txt if
20.txt if
I don't understand how there could be two f+' if' prints if I surround the code in a Lock. Is there any easy way to protect the code block so ideally I get:
10.txt if
10.txt else
11.txt if
11.txt else
20.txt if
20.txt else

share|improve this question
As a side note, you really shouldn't call your lock Lock. It makes things confusing, since that's also the name of the type (even though the type name is qualified here). (If you follow the PEP 8 style of lowercase names for variables and functions, this never even comes up, except for built-in types.) – abarnert Jan 10 '13 at 23:17
What library are you using Parallel from. It doesn't look like multiprocessing or concurrent from the stdlib, or Parallel Python. I can think of a few less-common libraries that have a class named Parallel that might also have a function named delayed, but there's no way to guess which one you mean. – abarnert Jan 10 '13 at 23:24
up vote 2 down vote accepted

threading.Lock only works between threads of the same process.

Without actually knowing what library you're using for parallelism here, it's hard to be sure, but it's almost certainly executing the tasks in separate processes. (Anything that starts threads in the same process, at least with CPython, isn't going to get any effective parallelism for CPU-bound code, because of the GIL. Therefore, none of them do that.)

So, if you try to use a global threading.Lock object from other processes, you're going to get a completely independent lock in each process. So, locking it doesn't do any good. (With some parallel libraries—possibly different on each platform—you'll get an error instead. But there's no way it could possibly do what you want.)

Most parallelization libraries have their own lock types that work with their style of multiprocessing. If yours does, use the one that comes with your library.

If not, depending on how your library works, multiprocessing.Lock may do the trick.

If not, you'll have to implement something explicitly using, e.g., a lock file (possibly together with flock/lockf, or relying on Windows exclusive open, or whatever).

Also, note that at least one of the multiple libraries that has an API that could make sense of your example line of code, [joblib], is explicitly designed for tasks that do not have any sharing, and therefore isn't supposed to work with locks at all. (It probably will work with multiprocessing.Lock anyway, but you really shouldn't count on that.)

share|improve this answer
Appreciate the insight, thanks! – TheoretiCAL Jan 10 '13 at 23:38

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