cost=0 for i in range(12): cost=cost+math.pow(float(float(q[i])-float(w[i])),2) cost=(math.sqrt(cost))
Any faster alternative to this? i am need to improve my entire code so trying to improve each statements performance.
Just a hint, but usually real performance improvements come when you evaluate the code at a function or even higher level.
During a good evaluation, you may find whole blocks that code be thrown away or rewritten to simplify the process.
In addition to the general optimization remarks that are already made (and to which I subscribe), there is a more "optimized" way of doing what you want: you manipulate arrays of values and combine them mathematically. This is a job for the very useful and widely used NumPy package!
Here is how you would do it:
(If your arrays
This is almost as fast as it can get, since NumPy's operations are optimized for arrays. It is also much more legible than a loop, because it is both simple and short.
Profilers are useful AFTER you've cleaned up crufty not-very-legible code. irrespective of whether it's to be run once or N zillion times, you should not write code like that.
Why are you doing
If x and y are floats, then
Calling math.pow() instead of using the ** operator bears the overhead of lookups on 'math' and 'pow'.
See if the following code gives the same answers and reads better and is faster:
After you've tested that and understood why the changes were made, you can apply the lessons to other Python code. Then if you have a lot more array or matrix work to do, consider using