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I am trying to use IPython.parallel map. The inputs to the function I wish to parallelize are generators. Because of size/memory it is not possible for me to convert the generators to lists. See code below:

from itertools import product
from IPython.parallel import Client

c = Client()
v = c[:]

def stringcount(longstring, substrings):
    scount = [longstring.count(s) for s in substrings]
    return scount

substrings = product('abc', repeat=2)
longstring = product('abc', repeat=3)

# This is what I want to do in parallel
# I should be 'for longs in longstring' I use range() because it can get long.
for num in range(10): 
    longs =
    subs =
    print(subs, longs)
    count = stringcount(longs, subs)

# This does not work, and I understand why.
# I don't know how to fix it while keeping longstring and substrings as
# generators, longstring, substrings)

for r in v:
share|improve this question
Can you be more specific about your requirements with respect to how many items can be present in memory? Since the execution is asynchronous, if you walk through a generator you will probably have almost all inputs in memory anyway, unless you start waiting for results before submitting new tasks. – minrk Aug 10 '13 at 16:46
Since I am running 64bit I guess my limit is system memory which is 8GB or could use a machine with 32GB. product('abcd', repeat=10), for example, gets really large and basically once I find a result, based on the count, that meets my requirements I can stop. I assumed/hoped that I map() would take from the generator as needed. waiting for the results is fine. – Vincent Aug 10 '13 at 22:48
up vote 2 down vote accepted

You can't use with a generator without walking through the entire generator first. But you can write your own custom function to submit batches of tasks from a generator and wait for them incrementally. I don't have a more interesting example, but I can illustrate with a terrible implementation of a prime search.

Start with our token 'data generator':

from math import sqrt

def generate_possible_factors(N):
    """generator for iterating through possible factors for N

    yields 2, every odd integer <= sqrt(N)
    if N <= 3:
    yield 2
    f = 3
    last = int(sqrt(N))
    while f <= last:
        yield f
        f += 2

This just generates a sequence of integers to use when testing if a number is prime.

Now our trivial function that we will use as a task with IPython.parallel

def is_factor(f, N):
    """is f a factor of N?"""
    return (N % f) == 0

and a complete implementation of prime check using the generator and our factor function:

def dumb_prime(N):
    """dumb implementation of is N prime?"""
    for f in generate_possible_factors(N):
        if is_factor(f, N):
            return False
    return True

A parallel version that only submits a limited number of tasks at a time:

def parallel_dumb_prime(N, v, max_outstanding=10, dt=0.1):
    """dumb_prime where each factor is checked remotely

    Up to `max_outstanding` factors will be checked in parallel.

    Submission will halt as soon as we know that N is not prime.
    tasks = set()
    # factors is a generator
    factors = generate_possible_factors(N)
    while True:
            # submit a batch of tasks, with a maximum of `max_outstanding`
            for i in range(max_outstanding-len(tasks)):
                f =
                tasks.add(v.apply_async(is_factor, f, N))
        except StopIteration:
            # no more factors to test, stop submitting
        # get the tasks that are done
        ready = set(task for task in tasks if task.ready())
        while not ready:
            # wait a little bit for some tasks to finish
            v.wait(tasks, timeout=dt)
            ready = set(task for task in tasks if task.ready())

        for t in ready:
            # get the result - if True, N is not prime, we are done
            if t.get():
                return False
        # update tasks to only those that are still pending,
        # and submit the next batch
    # check the last few outstanding tasks
    for task in tasks:
        if t.get():
            return False
    # checked all candidates, none are factors, so N is prime
    return True

This submits a limited number of tasks at a time, and as soon as we know that N is not prime, we stop consuming the generator.

To use this function:

from IPython import parallel

rc = parallel.Client()
view = rc.load_balanced_view()

for N in range(900,1000):
    if parallel_dumb_prime(N, view, 10):
        print N

A more complete illustration in a notebook.

share|improve this answer
Thanks for your answer, I am trying to make time to look at it. Other things have become more import. – Vincent Aug 15 '13 at 2:49

I took a slightly different approach to your problem that may be useful to others. Below, I attempted to mimic the behavior of the multiprocessing.pool.Pool.imap method by wrapping This required me to re-write your functions slightly.

import IPython
from itertools import product

def stringcount((longstring, substrings)):
    scount = [longstring.count(s) for s in substrings]
    return (longstring, substrings, scount)

def gen_pairs(long_string, sub_strings):
    for l in long_string:
        s =
        yield (l, s)

def imap(function, generator, view, preprocessor=iter, chunksize=256):
    num_cores = len(view.client.ids)
    queue = []
    for i, n in enumerate(preprocessor(generator)):
        if not i % (chunksize * num_cores):
            for result in, queue):
                yield result
            queue = []
    for result in, queue):
        yield result

client = IPython.parallel.Client()
lbview = client.load_balanced_view()

longstring = product('abc', repeat=3)
substrings = product('abc', repeat=2)

for result in imap(stringcount, gen_pairs(longstring, substrings), lbview):
    print result

The output I'm seeing is on this Notebook:

share|improve this answer

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