# Working with a list, performing arithmetic logic in Python

Suppose I have made a large list of numbers, and I want to make another one which I will add, pairwise, with the first list.

Here's the first list, `A`:

``````[109, 77, 57, 34, 94, 68, 96, 72, 39, 67, 49, 71, 121, 89, 61, 84, 45, 40, 104, 68, 54, 60, 68, 62, 91, 45, 41, 118, 44, 35, 53, 86, 41, 63, 111, 112, 54, 34, 52, 72, 111, 113, 47, 91, 107, 114, 105, 91, 57, 86, 32, 109, 84, 85, 114, 48, 105, 109, 68, 57, 78, 111, 64, 55, 97, 85, 40, 100, 74, 34, 94, 78, 57, 77, 94, 46, 95, 60, 42, 44, 68, 89, 113, 66, 112, 60, 40, 110, 89, 105, 113, 90, 73, 44, 39, 55, 108, 110, 64, 108]
``````

And here's `B`:

``````[35, 106, 55, 61, 81, 109, 82, 85, 71, 55, 59, 38, 112, 92, 59, 37, 46, 55, 89, 63, 73, 119, 70, 76, 100, 49, 117, 77, 37, 62, 65, 115, 93, 34, 107, 102, 91, 58, 82, 119, 75, 117, 34, 112, 121, 58, 79, 69, 68, 72, 110, 43, 111, 51, 102, 39, 52, 62, 75, 118, 62, 46, 74, 77, 82, 81, 36, 87, 80, 56, 47, 41, 92, 102, 101, 66, 109, 108, 97, 49, 72, 74, 93, 114, 55, 116, 66, 93, 56, 56, 93, 99, 96, 115, 93, 111, 57, 105, 35, 99]
``````

How might I generate the arithmetic addition logic, processing each pairwise value one by one (`A[0] and B[0]`, through `A[99], B[99]`) and producing the list `C` (`A[0] + B[0]` through `A[99]+ B[99]`)?

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thanks for the corrections of my english words .. –  haea ohoh Nov 14 '11 at 3:27

``````result = [(x + y) for x, y in itertools.izip(A, B)]
``````

Or:

``````result = map(operator.add, itertools.izip(A, B))
``````
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operator.add may be a better choice than sum –  Raymond Hettinger Nov 14 '11 at 1:33
@Cat Plus Plus, thanks it works well, hmm –  haea ohoh Nov 14 '11 at 1:34
@ but if I want to add the the modular addition(ex, 125) and how about the result? by using result = [(x + y) for x, y in itertools.izip(A, B) %125] dosen't works –  haea ohoh Nov 14 '11 at 1:36
@haeaohoh: `[(x + y) % 125 for x, y in itertools.izip(A, B)]`. The expression that works on the elements is always before `for`. –  Cat Plus Plus Nov 14 '11 at 2:17
@CatPlusPlus, Ok I understand now, I just wanna make one time pad encryption tool for this questions, thanks :) –  haea ohoh Nov 14 '11 at 6:29

Here is two possible options:

• Use list comprehension.
• Use NumPy.

I will be using shortened versions of your lists for convenience, and the element-wise sum will go into `c`.

# List comprehension

``````a = [109, 77, 57, 34, 94, 68, 96]
b = [35, 106, 55, 61, 81, 109, 82]
c = [a_el + b_el for a_el,b_el in zip(a, b)]
``````

# NumPy

``````import numpy as np

a = np.array([109, 77, 57, 34, 94, 68, 96])
b = np.array([35, 106, 55, 61, 81, 109, 82])
c = a + b
``````
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Umh, and then if add the modular addition (ex 125) does c = ((a+b)%125) will works? –  haea ohoh Nov 14 '11 at 1:40
@haeaohoh Yes, for the NumPy option, you can do `(a + b) % 125`. It would be good to edit your question to include that requirement, if you are looking for that. –  David Alber Nov 14 '11 at 1:58
@haeaohoh Of course, the list comprehension could also be modified to do the modular addition: `c = [(a_el + b_el) % 125 for a_el,b_el in zip(a, b)]`. –  David Alber Nov 14 '11 at 2:00
Thanks pretty works well, this shuold be useful for One time Pad algorithms –  haea ohoh Nov 14 '11 at 6:30

With a list comprehension:

``````C = [A[i]+ B[i] for i in range(len(A))]
``````

And even safer:

``````C = [A[i]+ B[i] for i in range(len(A)) if len(A) == len(B)]
``````
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the code seems rather complicate for me C = [A[i]+ B[i] for i in range(len(A)) if len(A) == len(B)] –  haea ohoh Nov 14 '11 at 1:43
Then don't use it. I'm just providing it to be complete, i.e. the first line only works and assumes that the lengths of both lists is equal, but that may not always be the case. Same for most of the other solutions posted. –  Benjamin Nov 14 '11 at 22:33
No problems mate the meantings you've helped me a lots, thanks :) –  haea ohoh Nov 21 '11 at 1:31