What's the difference between ThreadPool vs Pool in the multiprocessing module?

Question

Whats the difference between ThreadPool and Pool in multiprocessing module. When I try my code out, this is the main difference I see:

from multiprocessing import Pool
import os, time

print("hi outside of main()")

def hello(x):
    print("inside hello()")
    print("Proccess id: ", os.getpid())
    time.sleep(3)
    return x*x

if __name__ == "__main__":
    p = Pool(5)
    pool_output = p.map(hello, range(3))

    print(pool_output)

I see the following output:

hi outside of main()
hi outside of main()
hi outside of main()
hi outside of main()
hi outside of main()
hi outside of main()
inside hello()
Proccess id:  13268
inside hello()
Proccess id:  11104
inside hello()
Proccess id:  13064
[0, 1, 4]

With "ThreadPool":

from multiprocessing.pool import ThreadPool
import os, time

print("hi outside of main()")

def hello(x):
    print("inside hello()")
    print("Proccess id: ", os.getpid())
    time.sleep(3)
    return x*x

if __name__ == "__main__":
    p = ThreadPool(5)
    pool_output = p.map(hello, range(3))

    print(pool_output)

I see the following output:

hi outside of main()
inside hello()
inside hello()
Proccess id:  15204
Proccess id:  15204
inside hello()
Proccess id:  15204
[0, 1, 4]

My questions are:

• why is the “outside __main__()” run each time in the Pool?

• multiprocessing.pool.ThreadPool doesn't spawn new processes? It just creates new threads?

• If so whats the difference between using multiprocessing.pool.ThreadPool as opposed to just threading module?

I don't see any official documentation for ThreadPool anywhere, can someone help me out where I can find it?

Answer 1

The multiprocessing.pool.ThreadPool behaves the same as the multiprocessing.Pool with the only difference that uses threads instead of processes to run the workers logic.

The reason you see

hi outside of main()

being printed multiple times with the multiprocessing.Pool is due to the fact that the pool will spawn 5 independent processes. Each process will initialize its own Python interpreter and load the module resulting in the top level print being executed again.

Note that this happens only if the spawn process creation method is used (only method available on Windows). If you use the fork one (Unix), you will see the message printed only once as for the threads.

The multiprocessing.pool.ThreadPool is not documented as its implementation has never been completed. It lacks tests and documentation. You can see its implementation in the source code.

I believe the next natural question is: when to use a thread based pool and when to use a process based one?

The rule of thumb is:

• IO bound jobs -> multiprocessing.pool.ThreadPool
• CPU bound jobs -> multiprocessing.Pool
• Hybrid jobs -> depends on the workload, I usually prefer the multiprocessing.Pool due to the advantage process isolation brings

On Python 3 you might want to take a look at the concurrent.future.Executor pool implementations.

Answer 2

Concerning the applicability, the current docs (3.10 & 3.11) address it pretty well. TL;DR: don't use multiprocessing ThreadPool.

Note A ThreadPool shares the same interface as Pool, which is designed around a pool of processes and predates the introduction of the concurrent.futures module. As such, it inherits some operations that don’t make sense for a pool backed by threads, and it has its own type for representing the status of asynchronous jobs, AsyncResult, that is not understood by any other libraries. Users should generally prefer to use concurrent.futures.ThreadPoolExecutor, which has a simpler interface that was designed around threads from the start, and which returns concurrent.futures.Future instances that are compatible with many other libraries, including asyncio.