17

I am using ThreadPoolExecutor class from the concurrent.futures package

def some_func(arg):
    # does some heavy lifting
    # outputs some results

from concurrent.futures import ThreadPoolExecutor

with ThreadPoolExecutor(max_workers=1) as executor:
    for arg in range(10000000):
        future = executor.submit(some_func, arg)

but I need to limit the queue size somehow, as I don't want millions of futures to be created at once, is there a simple way to do it or should I stick to queue.Queue and threading package to accomplish this?

2
  • doesn't the queue size is controlled by how many jobs you have submitted to the pool? – georgexsh Jan 15 '18 at 20:14
  • @georgexsh, only partially, because you can't always know how many jobs are still there, when you are submitting the next one. – Bob Apr 4 '18 at 13:12
21

Python's ThreadPoolExecutor doesn't have the feature you're looking for, but the provided class can be easily sub-classed as follows to provide it:

class ThreadPoolExecutorWithQueueSizeLimit(futures.ThreadPoolExecutor):
def __init__(self, maxsize=50, *args, **kwargs):
    super(ThreadPoolExecutorWithQueueSizeLimit, self).__init__(*args, **kwargs)
    self._work_queue = Queue.Queue(maxsize=maxsize)
6
  • 1
    whoever downvoted this please elaborate why, because it seems like a working solution, although it involves overriding a "protected" attribute and therefore can't be reliable across python versions etc etc – Bob Jan 20 '18 at 20:27
  • I didn't downvote it but like I commented, the jobs in the queue are effectively controlled by the number of jobs have submitted, by limiting the max size of the queue, but not control number of jobs, you would run into a deadlock very likely. – georgexsh Jan 23 '18 at 8:04
  • 1
    I don't agree that you would very likely end in a deadlock. It might happen in some cases where the task being run uses the same threadpool instance to run another task. – andres.riancho Jan 23 '18 at 21:06
  • python's queue and multiprocessing modules also provide Queues with options to limit their size, so there's no problem with that for sure. – Bob Apr 4 '18 at 13:09
  • On line 4, What type is Queue.Queue(..) ? I'm confused, does this mean any queue or was it meant to be queue.Queue(..).? – Queuebee Jan 31 at 13:00
7
from concurrent.futures import ThreadPoolExecutor, wait, FIRST_COMPLETED

limit = 10

futures = set()

with ThreadPoolExecutor(max_workers=1) as executor:
    for arg in range(10000000):
        if len(futures) >= limit:
            completed, futures = wait(futures, return_when=FIRST_COMPLETED)
        futures.add(executor.submit(some_func, arg))
5
  • How can we achieve this with executor.map? – Lyka Jul 19 '20 at 5:07
  • BTW, the return from wait is backwards here. It needs to be done, futures. – Ned Batchelder Aug 17 '20 at 15:01
  • @NedBatchelder true, tnx, fixed – Bob Aug 20 '20 at 15:16
  • @Bob, is there any specific reason condition is if len(futures) >= limit:? It could as well be if len(futures) == limit:? – Djuka Mar 14 at 22:25
  • @Djuka, yes, indeed – Bob Mar 16 at 0:00
3

You should use a semaphore, as demonstrated here https://www.bettercodebytes.com/theadpoolexecutor-with-a-bounded-queue-in-python/

One possible issue with andres.riancho's answer, is that if max_size is reached when trying to shutdown the pool, self._work_queue.put(None) (see excerpt below) may block, effectively making the shutdown synchronous.

    def shutdown(self, wait=True):
        with self._shutdown_lock:
            self._shutdown = True
            self._work_queue.put(None)
        if wait:
            for t in self._threads:
                t.join(sys.maxint)
1

I've been doing this by chunking the range. Here's a working example.

from time import time, strftime, sleep, gmtime
from random import randint
from itertools import islice
from concurrent.futures import ThreadPoolExecutor, as_completed

def nap(id, nap_length):
    sleep(nap_length)
    return nap_length


def chunked_iterable(iterable, chunk_size):
    it = iter(iterable)
    while True:
        chunk = tuple(islice(it, chunk_size))
        if not chunk:
            break
        yield chunk


if __name__ == '__main__':
    startTime = time()

    range_size = 10000000
    chunk_size = 10
    nap_time = 2

    # Iterate in chunks.
    # This consumes less memory and kicks back initial results sooner.
    for chunk in chunked_iterable(range(range_size), chunk_size):

        with ThreadPoolExecutor(max_workers=chunk_size) as pool_executor:
            pool = {}
            for i in chunk:
                function_call = pool_executor.submit(nap, i, nap_time)
                pool[function_call] = i

            for completed_function in as_completed(pool):
                result = completed_function.result()
                i = pool[completed_function]

                print('{} completed @ {} and slept for {}'.format(
                    str(i + 1).zfill(4),
                    strftime("%H:%M:%S", gmtime()),
                    result))

    print('==--- Script took {} seconds. ---=='.format(
        round(time() - startTime)))

enter image description here

The downside to this approach is the chunks are synchronous. All threads in a chunk must complete before the next chunk is added to the pool.

0

I tried to edit the accepted answer so it would actually run, but this was rejected for some reason. However, here is a working/simpler version of the accepted answer (corrected indentation, corrected Queue.Queue to queue.Queue, simplified unnecessarily verbose super call, added imports):

from concurrent import futures
import queue

class ThreadPoolExecutorWithQueueSizeLimit(futures.ThreadPoolExecutor):
    def __init__(self, maxsize=50, *args, **kwargs):
        super().__init__(*args, **kwargs)
        self._work_queue = queue.Queue(maxsize=maxsize)

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