# How do I multiply all elements in one collection with all the elements in another collection?

Say I have:

``````(def s1 [1 2 3 4 5])
(def s2 [1 2 3 4 5])
``````

For every `x` in `s1`, I want to multiply it with every `y` in `s2`.

To clarify, I basically want the Cartesian product, so I don't think `map` works here.

-
Just for fun, here are a few solutions in other languages. Erlang (and any other language with list comprehensions): `[X * Y || X <- S1, Y <- S2]` Ruby (1.8.7+): `s1.product(s2).map {|x,y| x*y}` –  Greg Campbell Jul 24 '10 at 14:16

``````(for [x1 s1
x2 s2]
(* x1 x2))
``````
-
It's... beautiful. sheds a tear –  brlafreniere Jul 23 '10 at 21:38
I'm very new to Clojure, and functional programming in general, even though I know what that does... it still feels awkward and hard to wrap my head around it. Can you describe what's happening there? –  brlafreniere Jul 23 '10 at 21:46
Firstly, you can type `(doc for)` at a Clojure REPL to get a (hopefully) good description of what `for` does; if you find it comes short of your expectations, your experience could help in improving the docstring! Secondly, here's a short summary: `for` takes a binding vector and a single "body" expression. The binding vector comprises names of locals (`x1` and `x2` in the above) and sequence-producing expressions (`s1` and `s2`). The body is evaluated once for each tuple of items in the Cartesian product of the seqs (here each (`x1`, `x2`) in the product of `s1` and `s2`). –  Michał Marczyk Jul 23 '10 at 22:07
Fortunately, I did read the docs online for the for function, unfortunately it made my brain explode. –  brlafreniere Jul 23 '10 at 22:08
See my answer for the java equivalent. Hopefully it helps you understand. –  dbyrne Jul 23 '10 at 22:13

Here is the java 1.5 (or newer) equivalent of Michal's code:

``````List<Integer> numbers = new ArrayList<Integer>();

for(int x1 : s1) {
for(int x2 : s2) {
}
}
``````

The difference is that `for` loops in java don't return a sequence like they do in clojure, so you need to use a mutable `ArrayList` to construct the result.

Definitely not as pretty as the clojure version, but much better than what you would have had to do in Java 1.4.

-

While solution using for is nicer, here is a map-only version if you have troubles understanding for:

``````(map #(map (partial * %) s2) s1)
``````

for above expands to something similar, except it would use another anonymous function instead of partial, something like this:

``````(map (fn [x] (map (fn [y] (* x y)) s2)) s1)
``````

or, neatly formated:

``````(map
(fn [x]
(map
(fn [y]
(* x y))
s2))
s1)
``````
-
Upvote for the alternative. I wonder if it's faster. –  brlafreniere Jul 26 '10 at 5:27
BTW, to get behavior identical to for the first (outer) map should be replaced with mapcat. –  dimagog Jul 27 '10 at 3:00
@Blaine See for yourself :-) : (use 'clojure.pprint) (set-pprint-dispatch code-dispatch) (pprint (macroexpand '(for [x1 s1 x2 s2] (* x1 x2)))) –  dimagog Jul 27 '10 at 3:13

A simple, visual demonstration of the basic functionality of `for`:

``````user=> (pprint
(for [tens (range 10)
ones (range 10)]
[tens ones]))
([0 0]
[0 1]
[0 2]
[0 3]
[0 4]
[0 5]
[0 6]
[0 7]
[0 8]
[0 9]
[1 0]
[1 1]
[1 2]
[1 3]
[1 4]
[1 5]
[1 6]
[1 7]
[1 8]
[1 9]
[2 0]
[2 1]
[2 2]
[2 3]
[2 4]
[2 5]
[2 6]
[2 7]
[2 8]
[2 9]
[3 0]
[3 1]
[3 2]
[3 3]
[3 4]
[3 5]
[3 6]
[3 7]
[3 8]
[3 9]
[4 0]
[4 1]
[4 2]
[4 3]
[4 4]
[4 5]
[4 6]
[4 7]
[4 8]
[4 9]
[5 0]
[5 1]
[5 2]
[5 3]
[5 4]
[5 5]
[5 6]
[5 7]
[5 8]
[5 9]
[6 0]
[6 1]
[6 2]
[6 3]
[6 4]
[6 5]
[6 6]
[6 7]
[6 8]
[6 9]
[7 0]
[7 1]
[7 2]
[7 3]
[7 4]
[7 5]
[7 6]
[7 7]
[7 8]
[7 9]
[8 0]
[8 1]
[8 2]
[8 3]
[8 4]
[8 5]
[8 6]
[8 7]
[8 8]
[8 9]
[9 0]
[9 1]
[9 2]
[9 3]
[9 4]
[9 5]
[9 6]
[9 7]
[9 8]
[9 9])
``````
-

As simple as it can get:

``````(map * '(1 2) '(3 4))
``````

will yield:

``````(3 8)
``````
-
Mmh... not quite what I was looking for. It matches my English description, but I should have said from the start that I was looking for the Cartesian product of two sets. I just didn't know what it was called. –  brlafreniere Jul 27 '10 at 4:15
Oops, indeed, I should have ready the answers more carefully. –  Jawher Jul 27 '10 at 17:21