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I have a pretty basic assignment, but am having an issue making my main thread wait for all the other threads I spawn to complete.

This code does not do much of anything, it is just meant as a threading exercise.

Here is my code:

import time
from threading import Thread

def printNumbers(lowEnd, highEnd):
    while(lowEnd <= highEnd):
        print(repr(lowEnd))
        lowEnd += 1


countTo = 100000

#Test using 1 thread.        
startSingleThread = time.clock()
printNumbers(0,countTo)
elapsedSingleThread = (time.clock() - startSingleThread)

#Test using 10 threads
numberOfThreads      = 10
countAmountPerThread = countTo/numberOfThreads

startTenThread = time.clock()
for i in range(numberOfThreads):
    threadLowEnd  = i*countAmountPerThread
    threadHighEnd = (i+1)*countAmountPerThread
    t = Thread(target=printNumbers, args=(threadLowEnd,threadHighEnd,))
    t.start()

#Join all existing threads to main thread.
for thread in threading.enumerate():
    if thread is not threading.currentThread():
        thread.join()

elapsedTenThread = (time.clock() - startTenThread)

print("Time for 1 thread: " + repr(elapsedSingleThread))
print("time for 10 threads: " + repr(elapsedTenThread))
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2 Answers 2

up vote 5 down vote accepted

You can’t see the stderr because you’re printing so much to stdout, but you have this error:

Traceback (most recent call last):
  File "test.py", line 29, in <module>
    for thread in threading.enumerate():
NameError: name 'threading' is not defined

If I add import threading to the top, I get this output:

Time for 1 thread: 1.0224820000000001
time for 10 threads: 1.421281

…which might be what you were expecting to see, since it happens after all of the numbers are printed.

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1  
....HAHA and now I hang my head in shame in the corner. Thanks buddy. Have a good one! –  PFranchise Feb 25 '12 at 20:37
1  
If you save the output to a file (e.g. python3 test.py > out.txt, or pipe it to less), then you will see the exception on your terminal. –  Josh Lee Feb 25 '12 at 20:38
    
Thanks! I will keep that in mind. Btw, you must have a pretty awesome machine. I thought mine was fast, but yours blew through this. –  PFranchise Feb 25 '12 at 20:39
    
2.26 GHz Core 2 Duo. –  Josh Lee Feb 25 '12 at 20:40
2  
@PFranchise: The task is IO bound. You might be on Windows, it has slow console output. If you redirect the output to a file (python your_script.py > out.txt) it should be much faster (it is 0.05 seconds for 1 thread, and 0.02 seconds for 10 processes) –  J.F. Sebastian Feb 25 '12 at 21:47

I have battled with this for a while, and I found a way that works for me - it is a collection of things that I found online, and now it is my main "pattern" when I work with multithreading applications. It is not specifically answering your question, but it shows a way to leverage the standard libraries in a Pythonic manner. However, keep in mind that NOTHING BEATS READING THE STANDARD LIBRARY DOCUMENTATION.

from threading import Thread, Lock
from Queue import Queue
from datetime import datetime
import time
import random

class Worker(Thread):
    """This is the main worker - it will process jobs as long as the "job
    queue" has jobs available.

    """
    # this lock is used to avoid messing up the screen output - only
    # one worker will write to screen at a given time. It is
    # technically a Mutual Exclusion (mutex)
    screen_mutex = Lock()

    def __init__(self, queue):
        # initialize the base class
        super(Worker, self).__init__()
        self.queue = queue

    def log(self, message):
        """This convenience function is used to print a message to the
        screen. You are better off using the logging module, but
        beware! It is not thread safe (use a server).

        """
        Worker.screen_mutex.acquire()        
        print("{timestamp:%d-%b-%Y %H:%M:%S.%f UTC} "
              "{name}: {message}".format(timestamp=datetime.utcnow(),
                                         name=self.getName(),
                                         message=message))
        Worker.screen_mutex.release()

    def run(self):
        """This is the method called when you start the thread."""
        # The following is an infinite loop which will continue
        # processing jobs as long as there are jobs available in the
        # queue
        while True:
            # this is how you get a job from the queue - this call
            # will block until a job is available, or when the parent
            # thread finishes
            job = self.queue.get()

            # in this case the job is simply a random number
            # indicating how many seconds to sleep (typical example)
            self.log("sleeping for {0} seconds".format(job))            
            time.sleep(job)            
            self.log("finished sleeping")
            # when the job is done, you signal the queue - refer to
            # the Queue module documentation
            self.queue.task_done()


def main(number_of_jobs=10, number_of_workers=3):
    # create the queue where you will put the jobs
    queue = Queue()

    # create the pool of workers (notice that you pass them the queue
    # upon construction). 
    for _ in range(number_of_workers):
        worker = Worker(queue)
        # you "daemonize" a thread to ensure that the threads will
        # close when the main program finishes
        worker.daemon = True        
        worker.start()

    # now it is time to add the jobs to the queue
    for _ in range(number_of_jobs):
        # a random duration between 2 and 5 seconds
        duration = random.randint(2,5) 
        queue.put(duration)

    # now wait for all workers to finish - JOIN THE QUEUE
    queue.join()


if __name__ == "__main__":
    import sys
    if len(sys.argv) == 3:
        nj = int(sys.argv[1])
        nw = int(sys.argv[2])
    else:
        nj = 10
        nw = 3

    # call main             
    main(nj, nw)

Sample output:

computer$ python example.py
25-Feb-2012 21:21:25.924856 UTC Thread-1: sleeping for 2 seconds
25-Feb-2012 21:21:25.925439 UTC Thread-2: sleeping for 3 seconds
25-Feb-2012 21:21:25.925523 UTC Thread-3: sleeping for 5 seconds
25-Feb-2012 21:21:27.925513 UTC Thread-1: finished sleeping
25-Feb-2012 21:21:27.925696 UTC Thread-1: sleeping for 5 seconds
25-Feb-2012 21:21:28.925561 UTC Thread-2: finished sleeping
25-Feb-2012 21:21:28.925742 UTC Thread-2: sleeping for 5 seconds
25-Feb-2012 21:21:30.925547 UTC Thread-3: finished sleeping
25-Feb-2012 21:21:30.925728 UTC Thread-3: sleeping for 5 seconds
25-Feb-2012 21:21:32.925781 UTC Thread-1: finished sleeping
25-Feb-2012 21:21:32.925963 UTC Thread-1: sleeping for 5 seconds
25-Feb-2012 21:21:33.925822 UTC Thread-2: finished sleeping
25-Feb-2012 21:21:33.926003 UTC Thread-2: sleeping for 2 seconds
25-Feb-2012 21:21:35.925833 UTC Thread-3: finished sleeping
25-Feb-2012 21:21:35.926013 UTC Thread-3: sleeping for 3 seconds
25-Feb-2012 21:21:35.926244 UTC Thread-2: finished sleeping
25-Feb-2012 21:21:35.926420 UTC Thread-2: sleeping for 5 seconds
25-Feb-2012 21:21:37.926035 UTC Thread-1: finished sleeping
25-Feb-2012 21:21:38.926158 UTC Thread-3: finished sleeping
25-Feb-2012 21:21:40.926697 UTC Thread-2: finished sleeping
computer$ 
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