Suppose I have the following in Python
# A loop for i in range(10000): Do Task A # B loop for i in range(10000): Do Task B
How do I run these loops simultaneously in Python?
Why do you want to run the two processes at the same time? Is it because you think they will go faster (there is a good chance that they wont). Why not run the tasks in the same loop, e.g.
The obvious answer to your question is to use threads - see the python threading module. However threading is a big subject and has many pitfalls, so read up on it before you go down that route.
Alternatively you could run the tasks in separate proccesses, using the python multiprocessing module. If both tasks are CPU intensive this will make better use of multiple cores on your computer.
There are other options such as coroutines, stackless tasklets, greenlets, CSP etc, but Without knowing more about Task A and Task B and why they need to be run at the same time it is impossible to give a more specific answer.
If you want concurrency, here's a very simple example:
This is just the most basic example I could think of. Be sure to read http://docs.python.org/library/multiprocessing.html to understand what's happening.
If you want to send data back to the program, I'd recommend using a Queue (which in my experience is easiest to use).
via Michael Anderson:
How about: A loop for i in range(10000): Do Task A, Do Task B ? Without more information i dont have a better answer.
Another thing to keep in mind is that if you are looping over big ranges in python it is probably better to be using xrange so that the list isn't created in memory first
There are many possible options for what you wanted:
As many people have pointed out, this is the simplest way.
Merits: easy to understand and use, no extra library needed.
Drawbacks: taskB must be done after taskA, or otherwise. They can't be running simultaneously.
Another thought would be: run two processes at the same time, python provides multiprocess library, the following is a simple example:
merits: task can be run
drawbacks: too heavy!OS will frequently switch between them, they have their own data space even if data is redundant. If you have a lot tasks (say 100 or more), it's not what you want.
threading is like process, just lightweight. check out this post. Their usage is quite similar:
merits: more flexible and lightweight
drawbacks: extra library needed, learning curve.