# Nested list comprehension with two lists

I understand how the simple list comprehension works eg.:

``````[x*2 for x in range(5)] # returns [0,2,4,6,8]
``````

and also I understand how the nested list comprehesion works:

``````w_list = ["i_have_a_doubt", "with_the","nested_lists_comprehensions"]

# returns the list of strings without underscore and capitalized
print [replaced.title() for replaced in [el.replace("_"," ")for el in w_list]]
``````

so, when I tried do this

``````l1 = [100,200,300]
l2 = [0,1,2]
[x + y for x in l2 for y in l1 ]
``````

I expected this:

``````[100,201,302]
``````

but I got this:

``````[100,200,300,101,201,301,102,202,302]
``````

so I got a better way solve the problem, which gave me what I want

``````[x + y for x,y in zip(l1,l2)]
``````

but I didn't understood the return of 9 elements on the first code

The reason it has 9 numbers is because python treats

``````[x + y for x in l2 for y in l1 ]
``````

similarly to

``````for x in l2:
for y in l1:
x + y
``````

ie, it is a nested loop

List comprehensions are equivalent to for-loops. Therefore, `[x + y for x in l2 for y in l1 ]` would become:

``````new_list = []
for x in l2:
for y in l1:
new_list.append(x + y)
``````

Whereas `zip` returns tuples containing one element from each list. Therefore `[x + y for x,y in zip(l1,l2)]` is equivalent to:

``````new_list = []
assert len(l1) == len(l2)
for index in xrange(len(l1)):
new_list.append(l1[index] + l2[index])
``````

The above answers will suffice for your question but I wanted to provide you with a list comprehension solution for reference (seeing as that was your initial code and what you're trying to understand).

Assuming the length of both lists are the same, you could do:

``````[l1[i] + l2[i] for i in range(0, len(l1))]
``````
• Alternatively, you can enumerate one of the lists, so you will only have to index one of them. – Mad Physicist Apr 11 '17 at 17:47
• xrange is much better memory optimized – Mickey Perlstein Oct 29 '18 at 14:46
• @MickeyPerlstein It's a bit late, but in python 3, range is equal to xrange. – sohnryang Feb 15 '19 at 13:58
``````[x + y for x in l2 for y in l1 ]
``````

is equivalent to :

``````lis = []
for x in l:
for y in l1:
lis.append(x+y)
``````

So for every element of `l` you're iterating `l2` again and again, as `l` has 3 elements and `l1` has elements so total loops equal 9(`len(l)*len(l1)`).

this sequence

`res = [x + y for x in l2 for y in l1 ]`

is equivalent to

``````res =[]
for x in l2:
for y in l1:
res.append(x+y)
``````