# Compare each item of two lists in Python

For example, suppose `list_1 = [a,b,c]` and `list_2 = [m,n,o]`. I want to compare each item from one list to the other, for example, create an output list such that

`[a == m, a == n, a == o, b == m, b == n, b == o...]`

For simplicity I'm using the `==` operation but this could also be a summation, e.g.

`[a + m, a + n, a + o, b + m...]`

I know how I could do this with two loops, but I'm wondering a lambda function with `map()` or list comprehensions could be used? I've searched online but only found one-to-one comparisons of list items, e.g. `map(lambda x,y: x + y, list_1, list_2)`.

• This doesn't work as I expect Jul 3, 2015 at 12:12

itertools.product() can generate all combinations for you:

``````import itertools
list_1 = [1,5,4]
list_2 = [2,3,4]
# using list comprehensions
comparisons = [a == b for (a, b) in itertools.product(list_1, list_2)]
sums = [a + b for (a, b) in itertools.product(list_1, list_2)]
# using map and lambda
comparisons = map(lambda (a, b): a == b, itertools.product(list_1, list_2))
sums = map(lambda (a, b): a + b, itertools.product(list_1, list_2))
``````
• Thanks to everyone for the the excellent answers, I chose this as the best because of it's conciseness and use of examples Jul 3, 2015 at 12:12

To get all the permutations of elements with a list comprehension:

``````[a == b for a in list_1 for b in list_2]
``````

Functionality is the same as the nested for loops:

``````list_3 = []
for a in list_1:
for b in list_2:
list_3.append(a == b)  # Or a + b, etc.
``````

Functional implementation is a bit more confusing:

``````list_3 = map(lambda x: map(lambda y: y == x, list_2), list_1)
``````

This creates a list of lists, however, so you'd want to flatten it with any of the techniques described here

``````sum(list_3, [])
``````

Or use `itertools.product` as suggested by @bereal.

For python 3.x - Yes you can do this with `map` function and `itertools.product` function and `lambda` expression -

``````>>> lst1 = [1,5,4]
>>> lst2 = [2,3,4]
>>> lst3 = list(map(lambda x: x[0] == x[1] , itertools.product(lst1,lst2)))
>>> lst3
[False, False, False, False, False, False, False, False, True]
``````

For Python 2.x you can use same expression, just `map` function in Python 2.x returns a list so the `list(...)` is not required.

• Out of curiosity, what does `map` return in Python 3 that you have to add the explicit casting? Jul 3, 2015 at 11:55
• Question seems to be asking for a list with 9 elements (all possible combinations), not three? Jul 3, 2015 at 11:57
• The OP wants to compare each element of `lst1` with each element of `lst2`, so should be 9. Jul 3, 2015 at 11:58
• @JesseMu Sorry read the question wrongly, have fixed it to use `itertools.product` instead of `zip` Jul 3, 2015 at 12:09
• @SuperBiasedMan zip returns an iterator in Python 3 , not a list. Jul 3, 2015 at 12:09

You want to apply an operator on pairs from the cartesian product of two lists. Let's say op defines the operation you want to apply to the two items, e.g:

``````op = lambda x, y: x == y
``````

and have two lists

``````a = [1, 2, 3]
b = [2, 3, 4]
``````

You can apply op on all pairs as a list comprehension as follows:

``````c = [op(x, y) for y in b for x in a]
``````

To use the map function you first need to create the cartesian product using itertools.product. This effectively creates a double loop over the elements of both list just like the list comprehension. You will need to adjust the op definition slightly for this since it will only receive one argument consisting of the tuple (x, y). For example:

``````op2 = lambda t: t[0] == t[1]
d = map(op2, itertools.product(a, b))
``````
• Thanks for pointing out the correct terminology, this is a product operation Jul 3, 2015 at 12:14

You can do this:

``````list_1 = [1,2,3]
list_2 = [1,4,6]
is_it_equal_function = lambda x:x in list_1
is_it_equal_list = map(is_it_equal_function, list_2)
``````

It will return:

``````[True, False, False]
``````
• I suggest making sure your code block is indented by exactly 4 spaces, as any more will cause the Python interpreter to complain about unexpected indent if the code is copy-pasted into it (which is the case right now). Jul 3, 2015 at 16:20
• To me, it's returning this results don't know why: [True, False, False, False, False, False, False, False, False] Aug 10, 2021 at 7:24
• import itertools lst1 = [ 1,2,3 ] lst2 = [ 1,4,6 ] lst3 = list(map(lambda x: x[0] == x[1] , itertools.product(lst1,lst2))) print(lst3) Aug 10, 2021 at 7:25

If we like the idea of vectorization, we could try numpy:

``````import numpy as np
list_1 = ['a','b','c']
list_2 = ['m','n','o']
l1 = np.array(list_1)
l2 = np.array(list_2)
l1 == l2
``````