I am having trouble when using the Pool.map_async() (and also Pool.map()) in the multiprocessing module. I have implemented a parallel-for-loop function that works fine as long as the function input to Pool.map_async is a "regular" function. When the function is e.g. a method to a class, then I get a PicklingError:
cPickle.PicklingError: Can't pickle <type 'function'>: attribute lookup __builtin__.function failed
I use Python only for scientific computing so I am not so familiar with the concept of pickling, have just learned a bit about it today. I have looked at a couple of previous answers, like Can't pickle <type 'instancemethod'> when using python's multiprocessing Pool.map() , but I cannot figure out how to make it work, even when following the link provided in the answer.
My code, were the objective is to simulate a vector of Normal r.v's with the use of multiple cores. Note that this is just an example and maybe it does not even payoff to run on multiple cores.
import multiprocessing as mp import scipy as sp import scipy.stats as spstat def parfor(func, args, static_arg = None, nWorkers = 8, chunksize = None): """ Purpose: Evaluate function using Multiple cores. Input: func - Function to evaluate in parallel arg - Array of arguments to evaluate func(arg) static_arg - The "static" argument (if any), i.e. the variables that are constant in the evaluation of func. nWorkers - Number of Workers to process computations. Output: func(i, static_arg) for i in args. """ # Prepare arguments for func: Collect arguments with static argument (if any) if static_arg != None: arguments = [[arg] + static_arg for arg in list(args)] else: arguments = args # Initialize workers pool = mp.Pool(processes = nWorkers) # Evaluate function result = pool.map_async(func, arguments, chunksize = chunksize) pool.close() pool.join() return sp.array(result.get()).flatten() # First test-function. Freeze location and scale for the Normal random variates generator. # This returns a function that is a method of the class Norm_gen. Methods cannot be pickled # so this will give an error. def genNorm(loc, scale): def subfunc(a): return spstat.norm.rvs(loc = loc, scale = scale, size = a) return subfunc # Second test-function. The same as above but does not return a method of a class. This is a "plain" function and can be # pickled def test(fargs): x, a, b = fargs return spstat.norm.rvs(size = x, loc = a, scale = b) # Try it out. N = 1000000 # Set arguments to function. args1 = [1, 1, 1,... ,1], the purpose is just to generate a random variable of size 1 for each # element in the output vector. args1 = sp.ones(N) static_arg = [0, 1] # standarized normal. # This gives the PicklingError func = genNorm(*static_arg) sim = parfor(func, args1, static_arg = None, nWorkers = 12, chunksize = None) # This is OK: func = test sim = parfor(func, args1, static_arg = static_arg, nWorkers = 12, chunksize = None)
Following the link provided in the answer to the question in Can't pickle <type 'instancemethod'> when using python's multiprocessing Pool.map() , Steven Bethard (almost at the end) suggests using the copy_reg module. His code is:
def _pickle_method(method): func_name = method.im_func.__name__ obj = method.im_self cls = method.im_class return _unpickle_method, (func_name, obj, cls) def _unpickle_method(func_name, obj, cls): for cls in cls.mro(): try: func = cls.__dict__[func_name] except KeyError: pass else: break return func.__get__(obj, cls) import copy_reg import types copy_reg.pickle(types.MethodType, _pickle_method, _unpickle_method)
I don't really understand how I can make use of this. The only thing I could come up with was putting it just before my code but it did not help. A simple solution is of course to just go with the one that works and avoid getting involved with copy_reg. I am more interested in getting copy_reg to work properly to take fully advantage of multiprocessing without having to go around the problem each time.
Thank you for your help, it is much appreciated.