I am aware of multiprocessing.Manager() and how it can be used to create shared objects, in particular queues which can be shared between workers. There is this question, this question, this question and even one of my own questions.

However, I need to define a great many queues, each of which is linking a specific pair of processes. Say that each pair of processes and its linking queue is identified by the variable key.

I want to use a dictionary to access my queues when I need to put and get data. I cannot make this work. I've tried a number of things. With multiprocessing imported as mp:

Defining a dict like for key in all_keys: DICT[key] = mp.Queue in a config file which is imported by the multiprocessing module (call it multi.py) does not return errors, but the queue DICT[key] is not shared between the processes, each one seems to have their own copy of the queue and thus no communication happens.

If I try to define the DICT at the beginning of the main multiprocessing function that defines the processes and starts them, like

DICT = mp.Manager().dict()    
for key in all_keys:
    DICT[key] = mp.Queue()

I get the error

RuntimeError: Queue objects should only be shared between processes through

Changing to

DICT = mp.Manager().dict()    
for key in all_keys:
    DICT[key] = mp.Manager().Queue()

only makes everything worse. Trying similar definitions at the head of multi.py rather than inside the main function returns similar errors.

There must be a way to share many queues between processes without explicitly naming each one in the code. Any ideas?


Here is a basic schema of the program:

1- load the first module, which defines some variables, imports multi, launches multi.main(), and loads another module which starts a cascade of module loads and code execution. Meanwhile...

2- multi.main looks like this:

def main():
    manager = mp.Manager()
    pool = mp.Pool()
    DICT2 = manager.dict()

    for key in all_keys:
        DICT2[key] = manager.Queue()
        proc_1 = pool.apply_async(targ1,(DICT1[key],) ) #DICT1 is defined in the config file
        proc_2 =  pool.apply_async(targ2,(DICT2[key], otherargs,) 

Rather than use pool and manager, I was also launching processes with the following:

mp.Process(target=targ1, args=(DICT[key],))

3 - The function targ1 takes input data that is coming in (sorted by key) from the main process. It is meant to pass the result to DICT[key] so targ2 can do its work. This is the part that is not working. There are an arbitrary number of targ1s, targ2s, etc. and therefore an arbitrary number of queues.

4 - The results of some of these processes will be sent to a bunch of different arrays / pandas dataframes which are also indexed by key, and which I would like to be accessible from arbitrary processes, even ones launched in a different module. I have yet to write this part and it might be a different question. (I mention it here because the answer to 3 above might also solve 4 nicely.)

  • How are you launching your child processes? Can you instantiate the Queue before launching the processes? Are the pairs of processes you're talking about potentially two child processes, or is it always a parent-child relationship?
    – dano
    Commented Apr 30, 2015 at 15:23
  • Hey man, I've added an edit that describes my program in brief outline. I am instantiating Queue before launching the processes. I am not sure how to distinguish a child from parent process so can't answer your last question...
    – Wapiti
    Commented Apr 30, 2015 at 16:54
  • Why is DICT2 a manager.dict() in your code above? It doesn't look like you actually try to pass the DICT2 object to any children. Couldn't it just be a regular dict containing mp.Manager().Queue() instances?
    – dano
    Commented Apr 30, 2015 at 18:54
  • I tried DICT2={} earlier (not only in multi.main() but everywhere I could think might work), I get the same RunTime error. What do you mean 'pass the DICT2 object to children'? Isn't that what I'm doing by making it an argument of targ2?
    – Wapiti
    Commented Apr 30, 2015 at 19:50
  • Hey, so I think I made some progress, inspired by your second comment. DICT2[key] is meant to be read by targ2, and written into by a function that targ1 was calling. But when I put DICT2[key] into targ1 as an argument (beside DICT1[key]), the procedure worked and targ2 was able to read data from the queue DICT2[key]. Does this accord with your experience and make sense? Is it what you meant by parent/children processes (proc_1 is the parent of proc_2)?
    – Wapiti
    Commented May 1, 2015 at 4:51

1 Answer 1


It sounds like your issues started when you tried to share a multiprocessing.Queue() by passing it as an argument. You can get around this by creating a managed queue instead:

import multiprocessing
manager = multiprocessing.Manager()
passable_queue = manager.Queue()

When you use a manager to create it, you are storing and passing around a proxy to the queue, rather than the queue itself, so even when the object you pass to your worker processes is a copied, it will still point at the same underlying data structure: your queue. It's very similar (in concept) to pointers in C/C++. If you create your queues this way, you will be able to pass them when you launch a worker process.

Since you can pass queues around now, you no longer need your dictionary to be managed. Keep a normal dictionary in main that will store all the mappings, and only give your worker processes the queues they need, so they won't need access to any mappings.

I've written an example of this here. It looks like you are passing objects between your workers, so that's what's done here. Imagine we have two stages of processing, and the data both starts and ends in the control of main. Look at how we can create the queues that connect the workers like a pipeline, but by giving them only they queues they need, there's no need for them to know about any mappings:

import multiprocessing as mp

def stage1(q_in, q_out):

    q_out.put(q_in.get()+"Stage 1 did some work.\n")

def stage2(q_in, q_out):

    q_out.put(q_in.get()+"Stage 2 did some work.\n")

def main():

    pool = mp.Pool()
    manager = mp.Manager()

    # create managed queues
    q_main_to_s1 = manager.Queue()
    q_s1_to_s2 = manager.Queue()
    q_s2_to_main = manager.Queue()

    # launch workers, passing them the queues they need
    results_s1 = pool.apply_async(stage1, (q_main_to_s1, q_s1_to_s2))
    results_s2 = pool.apply_async(stage2, (q_s1_to_s2, q_s2_to_main))

    # Send a message into the pipeline
    q_main_to_s1.put("Main started the job.\n")

    # Wait for work to complete
    print(q_s2_to_main.get()+"Main finished the job.")



if __name__ == "__main__":

The code produces this output:

Main started the job.
Stage 1 did some work.
Stage 2 did some work.
Main finished the job.

I didn't include an example of storing the queues or AsyncResults objects in dictionaries, because I still don't quite understand how your program is supposed to work. But now that you can pass your queues freely, you can build your dictionary to store the queue/process mappings as needed.

In fact, if you really do build a pipeline between multiple workers, you don't even need to keep a reference to the "inter-worker" queues in main. Create the queues, pass them to your workers, then only retain references to queues that main will use. I would definitely recommend trying to let old queues be garbage collected as quickly as possible if you really do have "an arbitrary number" of queues.

  • Thanks again for the detailed response. This is helpful. I am a bit confused though. My original question was about how to avoid writing out a lot of mp.Manager() definitions explicitly, and instead put lots of queues into a dict. @dano helped me resolve what I was doing wrong in the comments above. I must be missing something in your example, because I don't see the point of using a managed queue. If I replace the managed queues with regular ones and take out the manager and pool and just use normal multiprocessing syntax, your example also works. What is the manger adding?
    – Wapiti
    Commented May 7, 2015 at 11:53
  • @Wapiti The manager allows you to pass Queues as input arguments to asynchronous functions. It resolves your "queues should be inherited" error. If you can explain what you mean when you say they "only made things worse", I can help you resolve it, because using the manager is what you should be doing. Your dict shouldn't be managed because it isn't shared with any processes besides main, and when you launch the processes, pass them both their "in" and "out" queues, and it should work for you.
    – skrrgwasme
    Commented May 8, 2015 at 20:41
  • @Wapiti Also, you are correct that if you directly use the multiprocessing.Process class, you can pass them normal queues. I focused on getting the queues to work for you with a multiprocessing pool because it sounded like that's what you wanted to use. If you want to stick with the pools, they need to be managed queues to pass them as arguments.
    – skrrgwasme
    Commented May 8, 2015 at 21:13
  • 1
    Thanks. I'm just starting to get my head around multiprocessing. It's wonderful and complicated. Since I posted with code mentioning pool and mentioned the managed queues, I'm accepting your answer. Hopefully somebody reading this stuff will get some use out of it.
    – Wapiti
    Commented May 10, 2015 at 1:29
  • 1
    Thanks for this example. This helped me a ton!
    – LampShade
    Commented Oct 8, 2020 at 1:46

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