# Cross product of two lists

Messing around with 'extension functions' for the List module. (I spent quite a while developing 'mapfold' - which threads an accumulator like fold, but uses it as a parameter to create new values like map - then discovered that that is what `List.scan_left` does)

For generation of test data, I needed to do a cross product of two lists, This is what I came up with:

``````///Perform cross product of two lists, return tuple
let crossproduct l1 l2 =
let product lst v2 = List.map (fun v1 -> (v1, v2)) lst
List.map_concat (product l1) l2
``````

Is this any good, or is there already some better way to do this?

Same question for this one:

``````///Perform cross product of three lists, return tuple
let crossproduct3 l1 l2 l3 =
let tuplelist = crossproduct l1 l2 //not sure this is the best way...
let product3 lst2 v3 = List.map (fun (v1, v2) -> (v1, v2, v3)) lst2
List.map_concat (product3 tuplelist) l3
``````
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See related question here: stackoverflow.com/questions/935996/… –  Benjol Jun 2 '09 at 6:57

another option is to use F# "sequence expressions" and write something like this:

``````let crossproduct l1 l2 =
seq { for el1 in l1 do
for el2 in l2 do
yield el1, el2 };;
``````

(actually, it is almost the same thing as what you wrote, because 'for .. in .. do' in sequence expression can be viewed as map_concat). This works with (lazy) sequences, but if you want to work with lists, you'd just wrap the code inside [ ... ] rather than inside seq { ... }.

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And written like that, crossproduct3 becomes trivial –  Benjol Jan 27 '09 at 12:45

Just came across a rather elegant solution to this using computation expressions:

``````type Product () =
member this.Bind (l,f) = List.collect f l
member this.Return n = [n]

let enumeratedPizzas =
Product() {
let! x = ["New York";"Chicago"]
let! y = ["Pepperoni";"Sausage"]
let! z = ["Cheese";"Double Cheese"]
return x,y,z
}
``````

By Techneilogy, copied from fssnip.net, follow the link to see commented code.

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I came across this, rather ancient, question - it is worth noting that this is exactly the same pattern as what sequence expressions use, just with a bit uglier syntax. I wrote (a lot) more about the different syntactic options in cl.cam.ac.uk/~tp322/drafts/notations.html –  Tomas Petricek Apr 8 '13 at 0:40

Your crossproduct function looks good (you've probably noticed the missing "in" keywords). I like this version of crossproduct3 better, but that's just me :

``````let crossproduct3 l1 l2 l3 =
List.map_concat
(fun z ->
(List.map_concat (fun y -> List.map (fun x -> (x, y, z)) l3) l2)) l1;;
``````

Your function has an equivalent algorithmic complexity.

Finally, when using crossproduct on an explicitly empty list, you may hit on the value restriction (roughly, a restriction that makes sure the compiler only infers polymorphic types for a syntactic value), that is particularly strict in F#. The solution is to annotate calls that use an empty list, in the following way (if you want the second list to be composed of integers):

``````(crossproduct [3; 4] [] : (int * int) list)
``````
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I recently needed something similar - I had to zip a list of sequences to a sequence of lists - so `[(a1,a2,a3,...);(b1,b2,b3,...);(c1,c2,c3,...)] -> ([a1;b1;c1], [a2;b2;c3], ...)`

The following code will do this:

``````   let rec listZip (sl : 'a seq list) =
seq {
match sl with
| [] -> yield []
| hd::tl ->
for h in hd do
for t in listZip tl do
yield (h::t)
}
``````
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