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I've been trying to wrap my head around how threads work in Python, and it's hard to find good information on how they operate. I may just be missing a link or something, but it seems like the official documentation isn't very thorough on the subject, and I haven't been able to find a good write-up.

From what I can tell, only one thread can be running at once, and the active thread switches every 10 instructions or so?

Where is there a good explanation, or can you provide one? It would also be very nice to be aware of common problems that you run into while using threads with Python.

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up vote 41 down vote accepted

Yes, because of the Global Interpreter Lock (GIL) there can only run one thread at a time. Here are some links with some insights about this:

From the last link an interesting quote:

Let me explain what all that means. Threads run inside the same virtual machine, and hence run on the same physical machine. Processes can run on the same physical machine or in another physical machine. If you architect your application around threads, you’ve done nothing to access multiple machines. So, you can scale to as many cores are on the single machine (which will be quite a few over time), but to really reach web scales, you’ll need to solve the multiple machine problem anyway.

If you want to use multi core, pyprocessing defines an process based API to do real parallelization. The PEP also includes some interesting benchmarks.

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Really a comment on the smoothspan quote: surely Python threading effectively limits you to one core, even if the machine has several? There may be benefits from multicore as the next thread can be ready to go without a context switch, but your Python threads can never make use of >1 core at a time. – James Brady Dec 27 '08 at 0:53
Correct, python threads are practically limited to the one core, UNLESS a C module interacts nicely with the GIL, and runs it's own native thread. – Arafangion Feb 18 '09 at 6:44
Actually, multiple cores make threads less efficient as there's a lot of churn with checking if each thread can access the GIL. Even wit the new GIL, performance is still worse... – Basic Aug 12 '13 at 12:55
Please note that GIL considerations to not apply to all interpreters. As far as I am aware both IronPython and Jython function without a GIL, allowing their code to make more effective use of multi-processor hardware. As Arafangion mentioned, the CPython interpreter can also run properly multi-threaded if code that does not need access to Python data items releases the lock, then acquires it again before returning. – holdenweb Feb 23 '14 at 0:14

Python's a fairly easy language to thread in, but there are caveats. The biggest thing you need to know about is the Global Interpreter Lock. This allows only one thread to access the interpreter. This means two things: 1) you rarely ever find yourself using a lock statement in python and 2) if you want to take advantage of multi-processor systems, you have to use separate processes. EDIT: I should also point out that you can put some of the code in C/C++ if you want to get around the GIL as well.

Thus, you need to re-consider why you want to use threads. If you want to parallelize your app to take advantage of dual-core architecture, you need to consider breaking your app up into multiple processes.

If you want to improve responsiveness, you should CONSIDER using threads. There are other alternatives though, namely microthreading. There are also some frameworks that you should look into:

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@JS - Fixed. That list was outdated anyway. – Jason Baker Jun 27 '13 at 20:25
It just feels wrong to me that you need multiple processes - with all the overhead that entails - to take advantage of a multi-core system. We've got some servers with 32 logical cores - so I need 32 processes to use them efficiently? Madness – Basic Aug 12 '13 at 12:57
@Basic - The overhead in starting a process vs starting a thread these days is minimal. I suppose you may start to see problems if we're talking about thousands of queries per second, but then I would question the choice of Python for such a busy service in the first place. – Jason Baker Aug 17 '13 at 16:02

Below is a basic threading sample. It will spawn 20 threads; each thread will output its thread number. Run it and observe the order in which they print.

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):

As you have hinted at Python threads are implemented through time-slicing. This is how they get the "parallel" effect.

In my example my Foo class extends thread, I then implement the run method, which is where the code that you would like to run in a thread goes. To start the thread you call start() on the thread object, which will automatically invoke the run method...

Of course, this is just the very basics. You will eventually want to learn about semaphores, mutexes, and locks for thread synchronization and message passing.

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Use threads in python if the individual workers are doing I/O bound operations. If you are trying to scale across multiple cores on a machine either find a good IPC framework for python or pick a different language.

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One easy solution to the GIL is the multiprocessing module. It can be used as a drop in replacement to the threading module but uses multiple Interpreter processes instead of threads. Because of this there is a little more overhead than plain threading for simple things but it gives you the advantage of real parallelization if you need it. It also easily scales to multiple physical machines.

If you need truly large scale parallelization than I would look further but if you just want to scale to all the cores of one computer or a few different ones without all the work that would go into implementing a more comprehensive framework, than this is for you.

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Try to remember that the GIL is set to poll around every so often in order to do show the appearance of multiple tasks. This setting can be fine tuned, but I offer the suggestion that there should be work that the threads are doing or lots of context switches are going to cause problems.

I would go so far as to suggest multiple parents on processors and try to keep like jobs on the same core(s).

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