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I have a queue that always needs to be ready to process items when they are added to it. The function that runs on each item in the queue creates and starts thread to execute the operation in the background so the program can go do other things.

However, the function I am calling on each item in the queue simply starts the thread and then completes execution, regardless of whether or not the thread it started completed. Because of this, the loop will move on to the next item in the queue before the program is done processing the last item.

Here is code to better demonstrate what I am trying to do:

queue = Queue.Queue()
t = threading.Thread(target=worker)

def addTask():

def worker():
    while True:
            # If an item is put onto the queue, immediately execute it (unless 
            # an item on the queue is still being processed, in which case wait 
            # for it to complete before moving on to the next item in the queue)
            item = queue.get()
            # I want to wait for 'runTests' to complete before moving past this point
        except Queue.Empty, err:
            # If the queue is empty, just keep running the loop until something 
            # is put on top of it.

def runTests(args):
    op_thread = SomeThread(args)
    # My problem is once this last line 't.start()' starts the thread, 
    # the 'runTests' function completes operation, but the operation executed
    # by some thread is not yet done executing because it is still running in
    # the background. I do not want the 'runTests' function to actually complete
    # execution until the operation in thread t is done executing.
    # I tried putting this line after 't.start()', but that did not solve anything.
    # I have commented it out because it is not necessary to demonstrate what 
    # I am trying to do, but I just wanted to show that I tried it.

Some notes:

This is all running in a PyGTK application. Once the 'SomeThread' operation is complete, it sends a callback to the GUI to display the results of the operation.

I do not know how much this affects the issue I am having, but I thought it might be important.

share|improve this question
I don't understand the problem. You can use Thread.join to halt execution until a thread completes, if that's what you're looking for. But, your question is quite unclear. –  Luke Sneeringer May 18 '11 at 4:01
you assign t twice, once in the global scope, and once in the runTests function. Is this really a representative example? Can you show us a complete example of the code that demonstrates the problem you're having? –  SingleNegationElimination May 18 '11 at 4:28
That was not actually the case in my code. I was trying to put what I wanted to do in simpler terms and got rid of all the actual data processing taking place within each function. Regardless, I am considering just writing out the pseudo code of what I want to do and see if anyone knows how to do it, because I have borderline down syndrome and can't communicate my question properly. –  CalMlynarczyk May 18 '11 at 4:31

1 Answer 1

up vote 4 down vote accepted

A fundamental issue with Python threads is that you can't just kill them - they have to agree to die.

What you should do is:

  1. Implement the thread as a class
  2. Add a threading.Event member which the join method clears and the thread's main loop occasionally checks. If it sees it's cleared, it returns. For this override threading.Thread.join to check the event and then call Thread.join on itself
  3. To allow (2), make the read from Queue block with some small timeout. This way your thread's "response time" to the kill request will be the timeout, and OTOH no CPU choking is done

Here's some code from a socket client thread I have that has the same issue with blocking on a queue:

class SocketClientThread(threading.Thread):
    """ Implements the threading.Thread interface (start, join, etc.) and
        can be controlled via the cmd_q Queue attribute. Replies are placed in
        the reply_q Queue attribute.
    def __init__(self, cmd_q=Queue.Queue(), reply_q=Queue.Queue()):
        super(SocketClientThread, self).__init__()
        self.cmd_q = cmd_q
        self.reply_q = reply_q
        self.alive = threading.Event()
        self.socket = None

        self.handlers = {
            ClientCommand.CONNECT: self._handle_CONNECT,
            ClientCommand.CLOSE: self._handle_CLOSE,
            ClientCommand.SEND: self._handle_SEND,
            ClientCommand.RECEIVE: self._handle_RECEIVE,

    def run(self):
        while self.alive.isSet():
                # Queue.get with timeout to allow checking self.alive
                cmd = self.cmd_q.get(True, 0.1)
            except Queue.Empty as e:

    def join(self, timeout=None):
        threading.Thread.join(self, timeout)

Note self.alive and the loop in run.

share|improve this answer
I ended up finding the issue in my program (a BASH script far, far away in an external system that was messing with processes [probably a sign that my program is poorly designed, but that is an issue for another time]). However, this is a very good answer and is a lot more elegant than what I ended up doing. Once I understand your code, I will try implementing something similar in mine. I would up this if I had the rep to do so. –  CalMlynarczyk May 18 '11 at 5:27
@Kededro: np. feel free to ask in a comment if you need help understanding it –  Eli Bendersky May 18 '11 at 5:45

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