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Suppose you have got a list comprehension in python, like

Values = [ f(x) for x in range( 0, 1000 ) ]

with f being just a function without side effects. So all the entries can be computed independently.

Is Python able to increase the performance of this list comprehension compared with the "obvious" implementation; e.g. by shared-memory-parallelization on multicore CPUs?

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I don't think python can, but there's some more info in a similar question…. – Dave Challis Jun 2 '11 at 11:55
up vote 7 down vote accepted

In Python 3.2 they added concurrent.futures, a nice library for solving problems concurrently. Consider this example:

import math, time
from concurrent import futures

PRIMES = [112272535095293, 112582705942171, 112272535095293, 115280095190773, 115797848077099, 1099726899285419, 112272535095293, 112582705942171, 112272535095293, 115280095190773, 115797848077099, 1099726899285419]

def is_prime(n):
    if n % 2 == 0:
        return False

    sqrt_n = int(math.floor(math.sqrt(n)))
    for i in range(3, sqrt_n + 1, 2):
        if n % i == 0:
            return False
    return True

def bench(f):
    start = time.time()
    elapsed = time.time() - start
    print("Completed in {} seconds".format(elapsed))

def concurrent():
    with futures.ProcessPoolExecutor() as executor:
        values = list(, PRIMES))

def listcomp():
    values = [is_prime(x) for x in PRIMES]

Results on my quad core:

>>> bench(listcomp)
Completed in 14.463825941085815 seconds
>>> bench(concurrent)
Completed in 3.818351984024048 seconds
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You might want to use a decorator for your "bench" function, as it's practically a decorator already. – Zoran Pavlovic Sep 23 '12 at 17:17

No, Python will not magically parallelize this for you. In fact, it can't, since it cannot prove the independence of the entries; that would require a great deal of program inspection/verification, which is impossible to get right in the general case.

If you want quick coarse-grained multicore parallelism, I recommend joblib instead:

from joblib import delayed, Parallel
values = Parallel(n_jobs=NUM_CPUS)(delayed(f)(x) for x in range(1000))

Not only have I witnessed near-linear speedups using this library, it also has the great feature of signals such as the one from Ctrl-C onto its worker processes, which cannot be said of all multiprocess libraries.

Note that joblib doesn't really support shared-memory parallelism: it spawns worker processes, not threads, so it incurs some communication overhead from sending data to workers and results back to the master process.

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+1 for pointing out joblib – lafras Jun 2 '11 at 11:59

I'd prefer map() in this scenario:

% python -m timeit '
f = lambda x: 2 * x
Values = [ f(x) for x in range( 0, 1000 ) ]
1000 loops, best of 3: 263 usec per loop

There's no real performance gain, though:

% python -m timeit '
f = lambda x: 2 * x
Values = map(f, range( 0, 1000 )) 
1000 loops, best of 3: 255 usec per loop
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Try if the following can be faster:

Values = map(f,range(0,1000))

That's a functionnal manner to code

Another idea is to replace all occurences of Values in the code by the generator expression

imap(f,range(0,1000))  # Python < 3

map(f,range(0,1000))  # Python 3
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