I have two lists:
A = [0,0,0,1,0,1]
B = [0,0,1,1,1,1]
I want to find the number of 1s in the same position in both lists.
The answer for these arrays would be 2.

A little shorter and hopefully more pythonic way:



Slightly shorter variation of Drakosha's:



I'm not an expert of Python, but what is wrong with a simple loop from start to end of first array? In C# I would do something like:
Would that be possible in your language? 


Motivated by brief need to be perverse, I offer the following solution:
(Drakosha's suggestion is a far more reasonable way to solve this problem. This just demonstrates that one can often look at the same problem in different ways.) 


With SciPy:



Basically this just creates a new list which has all the elements of the other two added together. You know there were two 1's if the sum is 2 (assuming only 0's and 1's in the list). Therefore just perform the count operation on 2. 


Here comes another method which exploits the fact that the array just contains zeros and ones. The scalar product of two vectors x and y is sum( x(i)*y(i) ) the only situation yielding a non zero result is if x(i)==y(i)==1 thus using numpy for instance
simple and nice. This method does n multiplications and adds n1 times, however there are fast implementations using SSE, GPGPU, vectorisation, (add your fancy word here) for dot products (scalar products) I timed the numpymethod against this method:
and found that for 1000000 loops the numpyversion did it in 2121ms and the zipmethod did it in 9502ms thus the numpyversion is a lot faster I did a better analysis of the efectivness and found that for n element(s) in the array the zip method took t1 ms and the dot product took t2 ms for one itteration elements zip dot 1 0.0030 0.0207 10 0.0063 0.0230 100 0.0393 0.0476 1000 0.3696 0.2932 10000 7.6144 2.7781 100000 115.8824 30.1305 From this data one could draw the conclusion that if the number of elements in the array is expected to (in mean) be more than 350 (or say 1000) one should consider to use the dotproduct method instead. 

