# Operation on every pair of element in a list

Using Python, I'd like to compare every possible pair in a list.

Suppose I have

``````my_list = [1,2,3,4]
``````

I'd like to do an operation (let's call it foo) on every combination of 2 elements from the list.

The final result should be the same as

``````foo(1,1)
foo(1,2)
...
foo(4,3)
foo(4,4)
``````

My first thought was to iterate twice through the list manually, but that doesn't seem very pythonic.

Check out `product()` in the `itertools` module. It does exactly what you describe.

``````import itertools

my_list = [1,2,3,4]
for pair in itertools.product(my_list, repeat=2):
foo(*pair)
``````

This is equivalent to:

``````my_list = [1,2,3,4]
for x in my_list:
for y in my_list:
foo(x, y)
``````

Edit: There are two very similar functions as well, `permutations()` and `combinations()`. To illustrate how they differ:

`product()` generates every possible pairing of elements, including all duplicates:

``````1,1  1,2  1,3  1,4
2,1  2,2  2,3  2,4
3,1  3,2  3,3  3,4
4,1  4,2  4,3  4,4
``````

`permutations()` generates all unique orderings of each unique pair of elements, eliminating the `x,x` duplicates:

`````` .   1,2  1,3  1,4
2,1   .   2,3  2,4
3,1  3,2   .   3,4
4,1  4,2  4,3   .
``````

Finally, `combinations()` only generates each unique pair of elements, in lexicographic order:

`````` .   1,2  1,3  1,4
.    .   2,3  2,4
.    .    .   3,4
.    .    .    .
``````

All three of these functions were introduced in Python 2.6.

• Odd, when I run itertools.product(my_list, 2), it complains that int isn't callable. Works once I change it to: itertools.product(my_list, repeat=2) – ojrac Jun 3 '09 at 0:34
• Note that itertools.product() is new in Python 2.6. – Mike Mazur Jun 3 '09 at 0:37
• Just for posterity, I'll point out that itertools.combinations would not generate the foo(1,1) or foo(4,4) lines in the original example. – Kylotan Jun 3 '09 at 12:49
• Also there is combinations_with_replacement(). Like combinations(), but including the diagonal (in keeping with the illustrations). – Ziegl Nov 8 '18 at 13:01
• For the lazy: To get the above results with `permutations()` and `combinations()` use `r=2` in lieu of `repeat=2` used on the example for `product()` – Rob May 2 '20 at 0:31

I had a similar problem and found the solution here. It works without having to import any module.

Supposing a list like:

``````people = ["Lisa","Pam","Phil","John"]
``````

A simplified one-line solution would look like this.

All possible pairs, including duplicates:

``````result = [foo(p1, p2) for p1 in people for p2 in people]
``````

All possible pairs, excluding duplicates:

``````result = [foo(p1, p2) for p1 in people for p2 in people if p1 != p2]
``````

Unique pairs, where order is irrelevant:

``````result = [foo(people[p1], people[p2]) for p1 in range(len(people)) for p2 in range(p1+1,len(people))]
``````

In case you don't want to operate but just to get the pairs, removing the function `foo` and using just a tuple would be enough.

All possible pairs, including duplicates:

``````list_of_pairs = [(p1, p2) for p1 in people for p2 in people]
``````

Result:

``````('Lisa', 'Lisa')
('Lisa', 'Pam')
('Lisa', 'Phil')
('Lisa', 'John')
('Pam', 'Lisa')
('Pam', 'Pam')
('Pam', 'Phil')
('Pam', 'John')
('Phil', 'Lisa')
('Phil', 'Pam')
('Phil', 'Phil')
('Phil', 'John')
('John', 'Lisa')
('John', 'Pam')
('John', 'Phil')
('John', 'John')
``````

All possible pairs, excluding duplicates:

``````list_of_pairs = [(p1, p2) for p1 in people for p2 in people if p1 != p2]
``````

Result:

``````('Lisa', 'Pam')
('Lisa', 'Phil')
('Lisa', 'John')
('Pam', 'Lisa')
('Pam', 'Phil')
('Pam', 'John')
('Phil', 'Lisa')
('Phil', 'Pam')
('Phil', 'John')
('John', 'Lisa')
('John', 'Pam')
('John', 'Phil')
``````

Unique pairs, where order is irrelevant:

``````list_of_pairs = [(people[p1], people[p2]) for p1 in range(len(people)) for p2 in range(p1+1,len(people))]
``````

Result:

``````('Lisa', 'Pam')
('Lisa', 'Phil')
('Lisa', 'John')
('Pam', 'Phil')
('Pam', 'John')
('Phil', 'John')
``````

Edit: After the rework to simplify this solution, I realised it is the same approach than Adam Rosenfield. I hope the larger explanation helps some to understand it better.

• I vastly prefer this to importing a library, much cleaner! – sudo-nim Nov 16 '17 at 16:11
• itertools is part of Python. It's not an external library. – GuiSim Sep 5 '19 at 15:52

If you're just calling a function, you can't really do much better than:

``````for i in my_list:
for j in my_list:
foo(i, j)
``````

If you want to collect a list of the results of calling the function, you can do:

``````[foo(i, j) for i in my_list for j in my_list]
``````

which will return you a list of the result of applying `foo(i, j)` to each possible pair `(i, j)`.

``````my_list = [1,2,3,4]

pairs=[[x,y] for x in my_list for y in my_list]
print (pairs)
``````
• Although this code might solve the problem, a good answer also requires an explanation of what the code does and how it solves the problem. – BDL Jun 7 '19 at 8:54