I've built a producer thread that has multiple consumer threads. I've used a queue where the producer puts all the tasks. Then the consumer threads use get to retrieve the tasks and execute them. The problem that I keep running into is the some items in the queue are grabbed by multiple consumer threads.

In my Automator class I create the thread pool, then I put all the tasks into the queue, using the add_task method of TaskThreadPool. The TaskRunners then start pulling all of the tasks out of the queue and running them. After the first cycle completes, each following cycle each consumer thread will grab the last item at the same time. So in this case I'll see multiple of the same task run, when only 1 should be run. I've tried adding locks in the consumer thread just before the _q.get is performed, but I still get the same result. How can I ensure that only 1 thread will grab the tasks and keep another thread from touching it.

Console Screenshot https://imgur.com/a/UN4K0Z7

class TaskThreadPool:
    """ Pool of threads consuming tasks for a queue """

    def __init__(self, num_threads):
        self.num_threads = num_threads
        self._q = Queue()
        self.workers = []

    def create_threads(self):
        for _ in range(self.num_threads):
        with print_lock:
            print('{} tasks threads created'.format(len(self.workers)))

    def add_task(self, task):
        """ Add a tasks to the queue """

    def wait_completion(self):
        """ Wait for completion of all the tasks in the queue """

class TaskRunner(Thread):
    """Thread executing tasks from a given tasks queue"""

    def __init__(self, queue):
        super(TaskRunner, self).__init__(daemon=True)
        self._q = queue

    def run(self):
        while True:
            if not self._q.empty():
                task = self._q.get()

class Automator:
    def __init__(self, test_task_id=None, test_loop_count=0):
        Automator Settings
        Basic start up settings, when testing a single task no Thread Pool is created.
        If Module Testing is enabled on test tasks will be run
        # Specific Task testing information
        self.test_task_id = test_task_id
        self.task_test = False
        self.test_loop_count = test_loop_count
        self.print_lock = print_lock
        print('Starting Automator 3')


        # Queue information
        self.cycle_queue = []
        self.priority_queues = {}
        self.number_of_priority_queues = 0
        # Max number of threads to have running
        self.max_task_num_threads = 7
        self.threads_created = False
        self.task_pool = TaskThreadPool(self.max_task_num_threads)


        # If a test task id was provided turn task_test on
        if self.test_task_id:
            self.task_test = True

    def open_thread_pool(self):
        with self.print_lock:
            print('Creating Task Threads')
        self.threads_created = True



    def _run_cycle_queue(self):
        print('Running Cycle Tasks')
        for cycle_task in self.cycle_queue:

    def _run_standard_task_queues(self):
        Loop through each task in a queue list and add task to queue
        print('Running Standard Tasks')
        for queue_number in range(self.number_of_priority_queues):
            queue = self.priority_queues[str(queue_number)]

            if len(queue) > 0:
                for task in queue:

    def _sleep(self):
        Find when the next 5 minute interval. (10:00, 10:05, 10:10)
        Sleep till next 5 minute interval begins
        now = dt.datetime.now()
        # How long until next run interval
        minutes_to_sleep = 5 - now.minute % 5
        print('Automator 3 Restarting in {} minutes'.format(minutes_to_sleep))
        time.sleep((minutes_to_sleep * 60) - now.second)
        now = dt.datetime.now()
        print('Automator 3 Restarting {}'.format(now))

    def run_automator(self):
        # Start Program Loop
        cycles = 0
        mode_print = False

        # Open Database Connection        
            while True:
                cycles += 1
                print('Cycle {} Started'.format(cycles))
                    # Get tasks from automator table

                    # Update meta data status

                    if not self.task_test:
                        # Backup Local Files

                    # Create Task Objects

                    # Create Task Priorities

                    if self.task_test:

                        # Start up requested task
                        if not self.test_loop_count \
                                or cycles == self.test_loop_count:

                        if not mode_print:
                            print('Running Automator 3 - MODE: Standard')
                            mode_print = True
                        # Sort Tasks into Lists

                        if not self.threads_created:
                            # Create Task Threads

                        # Run Cycle tasks

                        # Setup Task queues and execute all tasks

                        # Update the last run in meta data

                        # Update meta data status

                        print('Cycle {} Completed'.format(cycles))

                        # Sleep till next 5 minute interval 12:00, 12:05, etc    

                except Exception as e:
                    raise e

  • 1
    Unless you have a thread-safe queue, you need to add some explicit synchronization. Because removing from the queue is not an atomic operation, it's possible for multiple threads to be updating it at the same time. You probably need something like docs.python.org/2/library/queue.html – Jim Mischel Jan 11 at 4:23
  • I'm currently using queue.Queue. Which is supposed to be thread safe. Which is why I'm confused about the problem I'm having. – JD L Jan 11 at 19:42
  • I updated the code snippet to include my ThreadPool class – JD L Jan 11 at 20:22
  • 1
    That's a lot of code, and I think there are critical pieces missing. I think your best bet will be to do some very verbose logging. Give each task in the queue a unique identifier. Log everything you put into the queue, and everything that you remove. It doesn't seem likely that queue is broken, so the other possibility that comes immediately to mind is that you're pushing more things onto the queue than you think you are. – Jim Mischel Jan 11 at 20:47
  • I'll give this a try and see if I can find anything that I might have missed. – JD L Jan 11 at 21:34

The issue was my method that was handing items to the Queue. I added an additional check to stop unneeded items from being added to the queue.

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