# Most elegant combinations of elements in F#

One more question about most elegant and simple implementation of element combinations in F#.

It should return all combinations of input elements (either List or Sequence). First argument is number of elements in a combination.

For example:

``````comb 2 [1;2;2;3];;
[[1;2]; [1;2]; [1;3]; [2;2]; [2;3]; [2;3]]
``````
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Vaguely related question: stackoverflow.com/questions/286427/… – Benjol Aug 3 '09 at 12:53

``````let rec comb n l =
match (n,l) with
| (0,_) -> [[]]
| (_,[]) -> []
| (n,x::xs) ->
let useX = List.map (fun l -> x::l) (comb (n-1) xs)
let noX = comb n xs
useX @ noX
``````
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Fastest solution till now, but less concise. – The_Ghost Aug 5 '09 at 7:57
It looks very ugly in C#. public static IEnumerable<IEnumerable<T>> Combinations<T>(IEnumerable<T> xs,int n) { if(n == 0){ return new []{Enumerable.Empty<T>()}; }else if(!xs.Any()){ return Enumerable.Empty<IEnumerable<T>>(); }else{ var head = xs.First(); var tail = xs.Skip(1); var useX = (Combinations(tail,n-1)).Select(l => (new[]{head}).Concat(l)); var noX = Combinations(tail,n); return useX.Concat(noX); } } – Rezo Megrelidze Jul 15 '14 at 10:19

One less concise and more faster solution than ssp:

``````let rec comb n l =
match n, l with
| 0, _ -> [[]]
| _, [] -> []
| k, (x::xs) -> List.map ((@) [x]) (comb (k-1) xs) @ comb k xs
``````
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Could someone write simpler than that solution? – The_Ghost Aug 5 '09 at 8:02

There is more consise version of KVB's answer:

``````let rec comb n l =
match (n,l) with
| (0,_) -> [[]]
| (_,[]) -> []
| (n,x::xs) ->
List.flatten [(List.map (fun l -> x::l) (comb (n-1) xs)); (comb n xs)]
``````
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My solution is less concise, less effective (altho, no direct recursion used) but it trully returns all combinations (currently only pairs, need to extend filterOut so it can return a tuple of two lists, will do little later).

``````let comb lst =
let combHelper el lst =
lst |> List.map (fun lstEl -> el::[lstEl])
let filterOut el lst =
lst |> List.filter (fun lstEl -> lstEl <> el)
lst |> List.map (fun lstEl -> combHelper lstEl (filterOut lstEl lst)) |> List.concat
``````

comb [1;2;3;4] will return: [[1; 2]; [1; 3]; [1; 4]; [2; 1]; [2; 3]; [2; 4]; [3; 1]; [3; 2]; [3; 4]; [4; 1]; [4; 2]; [4; 3]]

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This solution is not working correctly. It doesn't return combinations, but only pairs of elements. – The_Ghost Aug 5 '09 at 7:45
It's all possible combinations. Not just tail combinations. comb [1;2;3] is 1 added to each of [2;3], 2 added to each of [1;3], 3 added to each of [1;2] – Ray Aug 5 '09 at 10:43
> comb 3 [1..4];; val it : int list list = [[1; 2; 3]; [1; 2; 4]; [1; 3; 4]; [2; 3; 4]] With more elements, it should not return pairs, but triples (for n=3) – The_Ghost Aug 5 '09 at 10:49

Ok, just tail combinations little different approach (without using of library function)

``````let rec comb n lst =
let rec findChoices = function
| h::t -> (h,t) :: [ for (x,l) in findChoices t -> (x,l) ]
| []   -> []
[ if n=0 then yield [] else
for (e,r) in findChoices lst do
for o in comb (n-1) r do yield e::o  ]
``````
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