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In the below example, if you execute the program multiple times, it spawns a new thread each time with a new ID. 1. How do I terminate all the threads on task completion ? 2. How can I assign name/ID to the threads ?

import threading, Queue 

THREAD_LIMIT = 3                 
jobs = Queue.Queue(5)           # This sets up the queue object to use 5 slots 
singlelock = threading.Lock()   # This is a lock so threads don't print trough each other 

# list  
inputlist_Values = [ (5,5),(10,4),(78,5),(87,2),(65,4),(10,10),(65,2),(88,95),(44,55),(33,3) ] 

def DoWork(inputlist): 
    print "Inputlist received..."
    print inputlist 

    # Spawn the threads 
    print "Spawning the {0} threads.".format(THREAD_LIMIT) 
    for x in xrange(THREAD_LIMIT): 
        print "Thread {0} started.".format(x) 
        # This is the thread class that we instantiate. 

    # Put stuff in queue 
    print "Putting stuff in queue"
    for i in inputlist: 
        # Block if queue is full, and wait 5 seconds. After 5s raise Queue Full error. 
            jobs.put(i, block=True, timeout=5) 
            print "The queue is full !"

    # Wait for the threads to finish 
    singlelock.acquire()        # Acquire the lock so we can print 
    print "Waiting for threads to finish."
    singlelock.release()        # Release the lock 
    jobs.join()                 # This command waits for all threads to finish. 

class worker(threading.Thread): 
    def run(self): 
        # run forever 
        while 1: 
            # Try and get a job out of the queue 
                job = jobs.get(True,1) 
                singlelock.acquire()        # Acquire the lock 
                print self
                print "Multiplication of {0} with {1} gives {2}".format(job[0],job[1],(job[0]*job[1]))         
                singlelock.release()        # Release the lock 
                # Let the queue know the job is finished. 
                break           # No more jobs in the queue 

def main():    
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If you're worried about accidentally leaving threads lying around after exit, that's not possible. Besides, you explicitly join, so you can't exit until the threads are done anyway. So… what exactly is the problem you're trying to solve here? –  abarnert Jan 10 '13 at 22:31
Just an FYI, all the functionality you're implementing here is already available in the multiprocessing module (specifically, multiprocessing.pool.ThreadPool). –  nneonneo Jan 10 '13 at 22:34
To answer the second question: IDs are not guaranteed to be reused (they may continue to increment even if threads die), and you can't set them yourself (since they are OS-specific thread identifiers). But, you can set thread names by assigning to the name property of a Thread object. –  nneonneo Jan 10 '13 at 22:36
@buffer_overflow: If the program exits, the old threads have finished and been cleaned up. There's no way that could not be true. If you run the program again, you get new threads. The thread IDs may or may not be the same—it depends on the OS whether this is very likely or very unlikely, but it doesn't really matter either way. You cannot be "leaking" threads here between runs of the program. Is that all you're asking, or is there some other problem here? –  abarnert Jan 11 '13 at 0:36
@nneonneo: I've added code example based on multiprocessing. –  J.F. Sebastian Jan 11 '13 at 4:10
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2 Answers 2

up vote 1 down vote accepted

How do I terminate all the threads on task completion?

You could put THREAD_LIMIT sentinel values (e.g., None) at the end of the queue and exit thread's run() method if a thread sees it.

On your main thread exit all non-daemon threads are joined so the program will keep running if any of the threads is alive. Daemon threads are terminated on your program exit.

How can I assign name/ID to the threads ?

You can assign name by passing it to the constructor or by changing .name directly.

Thread identifier .ident is a read-only property that is unique among alive threads. It maybe reused if one thread exits and another starts.

You could rewrite you code using multiprocessing.dummy.Pool that provides the same interface as multiprocessing.Pool but uses threads instead of processes:

#!/usr/bin/env python
import logging
from multiprocessing.dummy import Pool

debug = logging.getLogger(__name__).debug

def work(x_y):
        x, y = x_y # do some work here
        debug('got %r', x_y)
        return x / y, None
    except Exception as e:
        logging.getLogger(__name__).exception('work%r failed', x_y) 
        return None, e

def main():
        format="%(levelname)s:%(threadName)s:%(asctime)s %(message)s")

    inputlist = [ (5,5),(10,4),(78,5),(87,2),(65,4),(10,10), (1,0), (0,1) ]
    pool = Pool(3)
    s = 0.
    for result, error in pool.imap_unordered(work, inputlist):
        if error is None:
           s += result
    print("sum=%s" % (s,))

if __name__ == "__main__":


DEBUG:Thread-1:2013-01-14 15:37:37,253 got (5, 5)
DEBUG:Thread-1:2013-01-14 15:37:37,253 got (87, 2)
DEBUG:Thread-1:2013-01-14 15:37:37,253 got (65, 4)
DEBUG:Thread-1:2013-01-14 15:37:37,254 got (10, 10)
DEBUG:Thread-1:2013-01-14 15:37:37,254 got (1, 0)
ERROR:Thread-1:2013-01-14 15:37:37,254 work(1, 0) failed
Traceback (most recent call last):
  File "prog.py", line 11, in work
    return x / y, None
ZeroDivisionError: integer division or modulo by zero
DEBUG:Thread-1:2013-01-14 15:37:37,254 got (0, 1)
DEBUG:Thread-3:2013-01-14 15:37:37,253 got (10, 4)
DEBUG:Thread-2:2013-01-14 15:37:37,253 got (78, 5)
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Threads don't stop unless you tell them to stop.

My recommendation is that you add a stop variable into your Thread subclass, and check whether this variable is True or not in your run loop (instead of while 1:).

An example:

class worker(threading.Thread): 
    def __init__(self):
         self._stop = False

    def stop(self):
         self._stop = True

    def run(self): 
        # run until stopped 
        while not self._stop:                 
            # do work

Then when your program is quitting (for whatever reason) you have to make sure to call the stop method on all your working threads.

About your second question, doesn't adding a name variable to your Thread subclass work for you?

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Threads also stop if the thread function exits or if the process quits. In his case, the break should take care of the workers. –  nneonneo Jan 11 '13 at 1:11
Of course, I meant that when the main process exits, threads won't stop unless you specifically tell them to. –  asermax Jan 11 '13 at 1:26
Threads can be daemonized, in which case they will automatically exit when all non-daemon threads exit. –  nneonneo Jan 11 '13 at 1:27
Well, that's another way to do the same thing I propose, you could make it an answer for the question too. I'm not so sure about this, but I believe that you can't control in wich point of the running code will the thread die, which can be a concern in some circunstances. –  asermax Jan 11 '13 at 1:46
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