# Python - Merge two lists with a simultaneous concatenation

``````ListA = [1,2,3]
ListB = [10,20,30]
``````

I want to add the contents of the lists together `(1+10,2+20,3+30)` creating the following list:

``````ListC = [11,22,33]
``````

Is there a function that merges lists specifically in this manner?

-

This works:

``````>>> ListA = [1,2,3]
>>> ListB = [10,20,30]
>>> list(map(sum, zip(ListA, ListB)))
[11, 22, 33]
>>>
``````

All of the built-ins used above are explained here.

Another solution would be to use a list comprehension.

Depending on your taste, you could do this:

``````>>> [sum(x) for x in zip(ListA, ListB)]
[11, 22, 33]
>>>
``````

or this:

``````>>> [x+y for x,y in zip(ListA, ListB)]
[11, 22, 33]
>>>
``````
-
On my end I have to write `[k for k in map (...)]` to get it to produce the list, otherwise I get `<map object at 0x02380730>`, perhaps this is different for Python 3. –  Lasse V. Karlsen Dec 16 '13 at 17:13
@LasseV.Karlsen - Yes, it is. My apologies. I didn't see the Python 3.x tag. I updated my post. –  iCodez Dec 16 '13 at 17:13
@LasseV.Karlsen yes, in Python 2 `map` returns a list, while in Python 3 it returns a generator object. –  Roberto Dec 16 '13 at 17:14
Maybe keep the list-comp more consistent with the `map` approach... `[sum(items) for items in zip(listA, listB)]` –  Jon Clements Dec 16 '13 at 17:20
@JonClements - Updated. –  iCodez Dec 16 '13 at 17:24

@iCodez has given a great response, but in cases that apply to more complex situations and there will require a fair amount of manipulation (and concatenation) between lists, numpy is a great and powerful tool to learn! This is how you would solve your issue with numpy:

``````#import it
import numpy as np
#state your lists as numpy arrays
array1 = np.array(ListA)
array2 = np.array(ListB)
``````

that then sets up both of your lists as numpy arrays. Now all you do is add them!

``````>>> concatenated = array1 + array2
>>> print concatenated
[11, 22, 33]
``````

Now this returns an instance of a numpy array, so if you want it as a list, you can just do `concatenated.tolist()`. As you can see, this is fairly useful when you are mapping mathematical operations across lists. There is a lot you can do with numpy and I suggest looking into it.

Note: I understand using numpy for solving such a quick simple problem is more exhaustive than necessary, but just in case this was a quick "how do I solve operations across multiple lists", numpy would make your life significantly easier!

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Fair enough: maybe just - `np.add(ListA, ListB)` instead though... –  Jon Clements Dec 16 '13 at 17:46