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this is probably a trivial question, but how do I parallelize the following loop in python?

# setup output lists
output1 = list()
output2 = list()
output3 = list()

for j in range(0, 10):
    # calc individual parameter value
    parameter = j * offset
    # call the calculation
    out1, out2, out3 = calc_stuff(parameter = parameter)

    # put results into correct output list
    output1.append(out1)
    output2.append(out2)
    output3.append(out3)

I know how to start single threads in python but I don't know how to "collect" the results. Therefore my question: what's the easiest way to parallelize this code?

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Do you really want to use multiple threads, or would multiple processes be fine as well? Are you using CPython? What platform are you on? –  Sven Marnach Mar 20 '12 at 11:44
    
Is calc_stuff() implemented in pure Python? –  Sven Marnach Mar 20 '12 at 11:45
    
@SvenMarnach multiple processes would be fine too - whatever is easiest for this case. I'm using currently linux but the code should run on windows and mac as-well. –  memyself Mar 20 '12 at 11:46
    
@SvenMarnach yes, calc_stuff() is pure python –  memyself Mar 20 '12 at 11:47
3  
So you are using CPython. Believe me. :) –  Sven Marnach Mar 20 '12 at 14:10

3 Answers 3

up vote 37 down vote accepted

Using multiple threads on CPython won't give you better performance for pure-Python code due to the global interpreter lock (GIL). I suggest using the multiprocessing module instead:

pool = multiprocessing.Pool(4)
out1, out2, out3 = zip(*pool.map(calc_stuff, range(0, 10 * offset, offset)))

Note that this won't work in the interactive interpreter.

To avoid the usual FUD around the GIL: There wouldn't be any advantage to using threads for this example anyway. You want to use processes here, not threads, because they avoid a whole bunch of problems.

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3  
+1: to help visualize the result: zip(*[(1,2,3), (4,5,6)]) -> [(1, 4), (2, 5), (3, 6)]. The argument for Pool() could be left empty (to use cpu_count instead of 4). I don't see why you wouldn't use threads in this example if there were no GIL concurrent.futures.ThreadPoolExecutor.map would work similar here. –  J.F. Sebastian Mar 20 '12 at 12:49
    
@J.F.Sebastian: The biggest problem with concurrency is shared data. Different "threads of execution" should only share as much data as necessary. In this case, that amount is none at all, so processes are the best tool. –  Sven Marnach Mar 20 '12 at 12:55
    
You're right sharing memory is the distinguishing feature of threads compared to processes. Imagine there is big readonly global data that is used by calc_stuff(). In case of threads you just use it. In case of processes you need additional steps to spread it. –  J.F. Sebastian Mar 20 '12 at 13:03
2  
copy-on-write is ruined by CPython reference counting. Python, memory talk. you're right, i'll shut up now. –  J.F. Sebastian Mar 20 '12 at 14:33
1  
@memyself: zip() with a single argument isn't really useful. zip(*a) is essentially the transpose of a -- see the documentation of zip(). –  Sven Marnach Mar 20 '12 at 14:50

why dont you use threads, and one mutex to protect one global list?

import os
import re
import time
import sys
import thread

from threading import Thread

class thread_it(Thread):
    def __init__ (self,param):
        Thread.__init__(self)
        self.param = param
    def run(self):
        mutex.acquire()
        output.append(calc_stuff(self.param))
        mutex.release()   


threads = []
output = []
mutex = thread.allocate_lock()

for j in range(0, 10):
    current = thread_it(j * offset)
    threads.append(current)
    current.start()

for t in threads:
    t.join()

#here you have output list filled with data

keep in mind, you will be as fast as your slowest thread

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Have a look at this;

http://docs.python.org/library/queue.html

This might not be the right way to do it, but I'd do something like;

Actual code;

from multiprocessing import Process, JoinableQueue as Queue 

class CustomWorker(Process):
    def __init__(self,workQueue, out1,out2,out3):
        Process.__init__(self)
        self.input=workQueue
        self.out1=out1
        self.out2=out2
        self.out3=out3
    def run(self):
            while True:
                try:
                    value = self.input.get()
                    #value modifier
                    temp1,temp2,temp3 = self.calc_stuff(value)
                    self.out1.put(temp1)
                    self.out2.put(temp2)
                    self.out3.put(temp3)
                    self.input.task_done()
                except Queue.Empty:
                    return
                   #Catch things better here
    def calc_stuff(self,param):
        out1 = param * 2
        out2 = param * 4
        out3 = param * 8
        return out1,out2,out3
def Main():
    inputQueue = Queue()
    for i in range(10):
        inputQueue.put(i)
    out1 = Queue()
    out2 = Queue()
    out3 = Queue()
    processes = []
    for x in range(2):
          p = CustomWorker(inputQueue,out1,out2,out3)
          p.daemon = True
          p.start()
          processes.append(p)
    inputQueue.join()
    while(not out1.empty()):
        print out1.get()
        print out2.get()
        print out3.get()
if __name__ == '__main__':
    Main()

Hope that helps.

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