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I have a series of 'tasks' that I would like to run in separate threads. The tasks are to be performed by separate modules. Each containing the business logic for processing their tasks.

Given a tuple of tasks, I would like to be able to spawn a new thread for each module as follows.

from foobar import alice, bob charles
data = getWorkData()
# these are enums (which I just found Python doesn't support natively) :(
tasks = (alice, bob, charles)

for task in tasks
  # Ok, just found out Python doesn't have a switch - @#$%!
  # yet another thing I'll need help with then ...
    case alice:
      #spawn thread here - how ?

No prizes for guessing I am still thinking in C++. How can I write this in a Pythonic way using Pythonic 'enums' and 'switch'es, and be able to run a module in a new thread.

Obviously, the modules will all have a class that is derived from a ABC (abstract base class) called Plugin. The spawnWorker() method will be declared on the Plugin interface and defined in the classes implemented in the various modules.

Maybe, there is a better (i.e. Pythonic) way of doing all this?. I'd be interested in knowing


I've just been reading a bot more and it seems Python does not implement threading in the true sense (at least, not in the sense that a C++ programmer would think). In any case thats not a show stopper for me. Each of the tasks are fairly time consuming, and I dont want to hold up starting one task until another has completed, thats why I am using threading. Time slicing does not bother me much - so long as they are all started pretty much at the same time (or shortly after each other) Python can then timeslice between the treads as much as it wants - its fine by me.

I have seen an answer to a similar question here on SO.

A user provides a simple class for threading as follows:

import threading
class Foo (threading.Thread):
    def __init__(self,x):
        self.__x = x
    def run (self):
          print str(self.__x)

for x in xrange(20):

I am thinking of using this for my ABC Plugin. My question then is where do I put the code where the actual task gets done (i.e. the business logic). I assume this goes in the run() method of the Foo class (obvious question I know, but I dont want to make any assumptions).

Is my thinking on the right track or flawed (if flawed - what have I missed?)

share|improve this question
Instead of switch-case, why not use a proper polymorphism (ABC inheritance, or duck typing)? –  Santa May 21 '10 at 15:49
@Santa: Good point. Thats how I would have done it (polymorphism) in C++. But I wasn't quite sure if Python supported that. –  morpheous May 21 '10 at 17:08
@morpheous You'll find that, on top of the traditional inheritance-based polymorphism, Python also support more dynamic approaches to polymorphism, the most prominent of which is duck typing. –  Santa May 21 '10 at 17:44

4 Answers 4

up vote 15 down vote accepted

Instead of switch-case, why not use a proper polymorphism? For example, here what you can do with duck typing in Python:

In, say, alice.py:

def do_stuff(data):
    print 'alice does stuff with %s' % data

In, say, bob.py:

def do_stuff(data):
    print 'bob does stuff with %s' % data

Then in your client code, say, main.py:

import threading
import alice, bob

def get_work_data():
    return 'data'

def main():
    tasks = [alice.do_stuff, bob.do_stuff]
    data = get_work_data()
    for task in tasks:
        t = threading.Thread(target=task, args=(data,))

Let me know if I need to clarify.

share|improve this answer
+1 your code is nice and simple - however, you are not passing the data to the spawned threads - could you please modify your code to show how data is passed to the spawned threads (like in my pseudocode)? tx –  morpheous May 21 '10 at 23:14
Just a note that if data happens to be mutable, you'll want to either pass a copy to each Thread, or also pass a lock object (docs.python.org/library/threading.html#lock-objects). –  tgray May 24 '10 at 13:07
import threading
from foobar import alice, bob, charles

data = get_work_data() # names_in_pep8 are more Pythonic than camelCased

for mod in [alice, bob, charles]:
    # mod is an object that represent a module
    worker = getattr(mod, 'do_work')
    # worker now is a reference to the function like alice.do_work
    t = threading.Thread(target=worker, args=[data])
    # uncomment following line if you don't want to block the program
    # until thread finishes on termination
    #t.daemon = True 

Put your logic in do_work functions of corresponding modules.

share|improve this answer
Good answer, but your last line should be t.start(). –  tgray May 21 '10 at 15:42
+1 I really like this answer because it seems I can directly iterate over the modules (can you confirm that is the case? - that would be so cool). If the answer is yes, it means that so long as each module has a function called 'do_work', then the code above will spawn the threads and run the do_work() function in each of the modules in separate threads (is my understanding correct?). Looks like the last method invocation should be start() though right? –  morpheous May 21 '10 at 23:20
@morpheus: You are correct. In Python, modules are also first-class objects. You can pass it to functions, put it in lists, etc. And yes, the thread should be sent the start method. –  Santa May 23 '10 at 2:27
@santa, @tgray. Yep, there should be start instead of run –  nailxx May 24 '10 at 9:38

Python can hold functions as objects. To overcome the limitation on lacking a switch may I suggest the following:

case_alice = lambda data : alice.spawnWorker(data)

my_dict[alice] = case_alice

forming a dictionary to hold your "case" statements.

Let me take it even further:

data = getWorkData()
case_alice = lambda d : alice.spawnWorker( d )
case_bob = lambda d : bob.spawnWorker( d )
case_charles = lambda d : charles.spawnWorker( d )

switch = { alice : case_alice, bob : case_bob, charles : case_charles }
spawn = lambda person : switch[ person ]( data )
[ spawn( item ) for item in (alice, bob, charles )]
share|improve this answer
@wheaties: +1 for the Pythonic code (still reading it to make sure I understand all thats going on there). Could you possibly extend your sinppet a bit with how to use the multiprocessing module to actually spawn the threads (or processes - it doesn't matter) –  morpheous May 21 '10 at 13:59
The lambda is wholly unnecessary. Simply do my_dict[alice] = alice.spawnWorker, and [ switch[item](data) for item in ... ] –  Thomas Wouters May 21 '10 at 14:37
@morpheous No experience with the multiprocessing library. @Thomas Wouters You're absolutely correct. However, I think leaving them as they are is more conducive to understanding functions as first class objects. When I was first learning, seeing lambda reminded me of such. –  wheaties May 21 '10 at 14:44
Still, lambda is for the most part unnecessary. I never used them in my projects, myself, and Guido does not seem to like it, either. –  Santa May 21 '10 at 16:11
I'm not sure how using lambda to pretend the spawnWorker method isn't a first-class object helps with understanding that functions are first-class objects :) –  Thomas Wouters May 22 '10 at 16:54

sequential execution

from foobar import alice, bob charles

for fct in (alice, bob charles):

parallel execution

from threading import Thread
from foobar import alice, bob charles

for fct in (alice, bob charles):
share|improve this answer
Thread has run method, not start –  nailxx May 21 '10 at 14:59
@nailxx the run method is where you define the work needed in that thread's execution. The start method is what you need to send to the thread object to do its run in a separate thread of execution. Otherwise, you're just running it in the current thread, therefore defeating the purpose of having a Thread defined to begin with. –  Santa May 21 '10 at 16:09
@nailxx, I put a link to the documentation that explains that in a comment on your post. –  tgray May 21 '10 at 18:08
@tgray Sorry, I agree start is correct –  nailxx May 24 '10 at 9:38

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