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I am trying to solve a big numerical problem which involves lots of subproblems, and I'm using Python's multiprocessing module (specifically Pool.map) to split up different independent subproblems onto different cores. Each subproblem involves computing lots of sub-subproblems, and I'm trying to effectively memoize these results by storing them to a file if they have not been computed by any process yet, otherwise skip the computation and just read the results from the file.

I'm having concurrency issues with the files: different processes sometimes check to see if a sub-subproblem has been computed yet (by looking for the file where the results would be stored), see that it hasn't, run the computation, then try to write the results to the same file at the same time. How do I avoid writing collisions like this?

  • 3
    Check out an example from the documentation of using multiprocessing.Lock to synchronize multiple processes. – John Vinyard Nov 19 '12 at 1:22
  • 13
    You could have a only single process writing results, with a Queue as input that could be fed by the other worker processes. I believe it would be safe to have all the worker processes read-only. – GP89 Nov 19 '12 at 1:27
  • I should have mentioned that, to make things more complicated, I'm running multiple different big main problems at the same time on a cluster, with each one writing results to sub-subproblems on the same networked file system. Thus I can get collisions from processes running on separate machines entirely (so I don't think solutions using things like multiprocessing.Lock will work). – Big Dogg Nov 19 '12 at 1:45
  • 2
    If your networked files system supports file locking, you can use the os specific file create method to exclusively create the file and hold an exclusive lock on it until the results are ready, then close it. Any process that failed to "win" the create race would try to open it and re-try (with a delay) until the were able to open it, then they can read the results. – JimP Nov 19 '12 at 2:57
  • 9
    You're essentially programming a database server here. Have you considered using an existing one? – georg Nov 19 '12 at 9:06
97

@GP89 mentioned a good solution. Use a queue to send the writing tasks to a dedicated process that has sole write access to the file. All the other workers have read only access. This will eliminate collisions. Here is an example that uses apply_async, but it will work with map too:

import multiprocessing as mp
import time

fn = 'c:/temp/temp.txt'

def worker(arg, q):
    '''stupidly simulates long running process'''
    start = time.clock()
    s = 'this is a test'
    txt = s
    for i in xrange(200000):
        txt += s 
    done = time.clock() - start
    with open(fn, 'rb') as f:
        size = len(f.read())
    res = 'Process' + str(arg), str(size), done
    q.put(res)
    return res

def listener(q):
    '''listens for messages on the q, writes to file. '''

    f = open(fn, 'wb') 
    while 1:
        m = q.get()
        if m == 'kill':
            f.write('killed')
            break
        f.write(str(m) + '\n')
        f.flush()
    f.close()

def main():
    #must use Manager queue here, or will not work
    manager = mp.Manager()
    q = manager.Queue()    
    pool = mp.Pool(mp.cpu_count() + 2)

    #put listener to work first
    watcher = pool.apply_async(listener, (q,))

    #fire off workers
    jobs = []
    for i in range(80):
        job = pool.apply_async(worker, (i, q))
        jobs.append(job)

    # collect results from the workers through the pool result queue
    for job in jobs: 
        job.get()

    #now we are done, kill the listener
    q.put('kill')
    pool.close()

if __name__ == "__main__":
   main()
  • 1
    Hey Mike, thanks for the answer. I think this would work for the question as I phrased it, but I'm not so sure if it will solve the full problem as outlined in the comments to the question, specifically how I have several main programs running across several machines on a networked filesystem, all of which might have processes that will try to write to the same file. (FWIW, I got around my personal problem in a hacky way a while ago but am commenting in case others have similar issues.) – Big Dogg Nov 25 '12 at 5:14
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    I really would like to upvote this many times. This has been helpful so many times for me. Once more today. – Eduardo Feb 19 '14 at 10:44
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    I had to add a pool.join() below pool.close(). Otherwise my workers would finish before the listener and the process would just stop. – herrherr May 20 '14 at 13:49
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    What about when the consumer is greatly outnumbered and causes memory issues? How would you implement multiple consumers all writing to the same file? – ccdpowell Mar 1 '16 at 18:56
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    why mp.cpu_count() + 2 when setting number of processes? – JenkinsY Jan 2 '18 at 9:31
0

It looks to me that you need to use Manager to temporarily save your results to a list and then write the results from the list to a file. Also, use starmap to pass the object you want to process and the managed list. The first step is to build the parameter to be passed to starmap, which includes the managed list.

from multiprocessing import Manager
from multiprocessing import Pool  
import pandas as pd

def worker(row, param):
    # do something here and then append it to row
    x = param**2
    row.append(x)

if __name__ == '__main__':
    pool_parameter = [] # list of objects to process
    with Manager() as mgr:
        row = mgr.list([])

        # build list of parameters to send to starmap
        for param in pool_parameter:
            params.append([row,param])

        with Pool() as p:
            p.starmap(worker, params)

From this point you need to decide how you are going to handle the list. If you have tons of RAM and a huge data set feel free to concatenate using pandas. Then you can save of the file very easily as a csv or a pickle.

        df = pd.concat(row, ignore_index=True)

        df.to_pickle('data.pickle')
        df.to_csv('data.csv')

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