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I'm new to parallel processing but have an application for which it will be useful. I have ~10-100k object instances (of type ClassA), and I want to use the multiprocessing module to distribute the work of calling a particular class method on each of the objects. I've read most of the multiprocessing documentation and several posts about calling class methods, but I have an additional complication that the ClassA objects all have an attribute pointing to the same instance of another type (ClassB), which they may add/remove themselves or other objects to/from. I know sharing state is bad for concurrent processes, so I'm wondering if this is even possible. To be honest, the Proxy/Manager mutliprocessing methods are a little too much over my head to understand all of their implications for shared objects, but if someone else assured me that I could get it to work I'd spend more time understanding them. If not, this will be a lesson in designing for distributed processes.

Here is a simplified version of my problem:

    def __init__(self, classB_state1, classB_state2, another_obj):
        # Pointers to shared ClassB instances
        self.state1 = classB_state1
        self.state2 = classB_state2
        self.object = another_obj

    def run(classB_anothercommonpool):
        # do something to self.object
        if #some property of self.object: 
            self.object = None


    def switch_states(self):
        if self in self.state1: 

        elif self in self.state2:

            print "State switch failed!"

# This is essentially a glorified set with a hash so I can have sets of sets.
# If that's a bad design choice, I'd also be interested in knowing why
    def __init__(self, name):
        self.name = name
        super(ClassB, self).__init__()

    def __hash__(self):
        return id(self)

    def __init__(self, property):
        self.property = property

# Define an import-able function for the ClassA method, for multiprocessing
def unwrap_ClassA_run(classA_instance):
    return classA_instance.run(classB_anothercommonpool)

def initialize_states():
    global state1
    global state2
    global anothercommonpool

    state1            = ClassB("state1")
    state2            = ClassB("state2")
    anothercommonpool = ClassB("objpool")

Now, within the same .py file that the classes are defined:

from multiprocessing import Pool

def test_multiprocessing():

    # There are actually 10-100k classA instances
    object1 = ClassC('iamred')  
    object2 = ClassC('iamblue')
    classA1 = ClassA(state1, state2, object1)
    classA2 = ClassA(state1, state2, object2)

    pool = Pool(processes = 2)
    pool.map(unwrap_ClassA_run, [classA1, classA2])

If I import this module in an interpreter and run test_multiprocessing(), I get no errors at runtime, but the "Switch state failed!" message is displayed and if you examine the classA1/2 objects, they have not modified their respective objects1/2, nor switched membership of either of the ClassB state objects (so the ClassA objects do not register that they are a member of the state1 set). Thanks!

share|improve this question
There are multiple issues unrelated to using multiple processes in your code e.g., global x = y is not valid Python. You should not modify object after you've added them into a hash-based container (that is why frozenset is hashable unlike set), also modifying a global shared state requires synchronization (you could debug it using multiprocessing.dummy that uses threads (state is shared by default) while providing the same interface). Finally, without changing the data representation (and algirithm); it is unlikely that you improve performance using mp. –  J.F. Sebastian May 8 '13 at 20:08
Don't subclass built-ins! That's a bad idea in 99.9% of the times. Also, don't you think that if making set hashable was that simple the dev's would have implemented it already? –  Bakuriu May 8 '13 at 20:31
@J.F.Sebastian Sorry, some things got messed up in the simplification, the global variables are actually declared in another function (I updated). I will read up more on details of hash-based containers, etc. I'm taking some more intro CS classes about data containers right now, hopefully this will help fill in a few of the concepts I'm missing now. Assuming I can fix the container types, can I ask another naive question regarding my basic assumption for this post: why mp would not help run time here? –  williaster May 8 '13 at 21:38
@Bakuriu Yes that's why I noted it potentially being bad in the code, thanks for the input. As J.F. Sebastian mentioned, this makes the frozenset make more sense. –  williaster May 8 '13 at 21:46
@williaster: it is not a naive question, it is a very valid question: 1. there are two major way to share state between processes: copy it between processes (objects that you pass as arguments) or put it into a shared memory (sharedctypes). In your case, it is a lot of copying and a very little processing. 2. You might need to serialize access to the global shared state (e.g., to avoid reading inconsistent state); it limits parallelization. –  J.F. Sebastian May 9 '13 at 1:19

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