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The non-tail-recursive combinations function can be written like this:

let rec combinations l k =
  if k <= 0 || k > List.length l then []
  else if k = 1 then List.map (fun x -> [x]) l 
    let hd, tl = List.hd l, List.tl l in
    combinations tl k |> List.rev_append (List.map (fun x -> hd::x) (combinations tl (k-1)))

Note that I use List.rev_append to at least given the append a tail recursive version

It means generate all the combinations if you want to get k elements out of the list.

I am just wondering is it possible to create a total tail-recursive version of combinations?

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2 Answers 2

up vote 0 down vote accepted

You could use continuation passing style:

let combos l k =
    let rec aux l k cont =
        if k <= 0 || k > List.length l then cont []
        else if k = 1 then cont (List.map (fun x -> [x]) l)
            let hd, tl = List.hd l, List.tl l in
            aux tl k 
                fun res1 -> aux tl (k-1)
                    fun res2 -> cont (List.rev_append (List.map (fun x -> hd::x) res2) res1)
    in aux l k (fun x -> x)

This way, you avoid calling something after the recursive call of aux at the price of creating an anonymous function that accounts for the "future computation" that shall be done after the "original recursive call".

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Is there any other more natural way? –  Jackson Tale Feb 5 '14 at 9:40
@JacksonTale That's exactly what I asked myself, and I have to say I'm not sure. But from my (admittedly very limited) experience, if your original function relies on more than one recursive call, a corresponding tail-recursive version is often cumbersome to write. –  phimuemue Feb 5 '14 at 10:11

Usually we do continuations-passing-style, as in phimuemue's answer. E.g.

let rec prefix_cps tree k =
  match tree with
  | Tip -> k []
  | Node (left,n,right) ->
    prefix_cps left (fun nleft ->
        prefix_cps right (fun nright ->
            k (n :: nleft @ nright)))
let prefix_cps t = prefix_cps t (fun l -> l)

However, sometimes we can rearrange the input on the fly:

let rec prefix_tr t =
  let rec loop queue = function
    | Tip -> queue
    | Node (l, n, Tip) -> loop (n::queue) l
    | Node (l, k, Node (rl, n, rr)) ->
      loop queue (Node (Node (l, k, rl), n, rr)) in
  loop [] t
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could you please give more explanation? What is Tip, what's the algorithm? Is this to generate combinations? –  Jackson Tale Feb 7 '14 at 16:16
No, it is a prefix traversal of a tree: type 'a tree = Tip | Node of 'a tree * 'a * 'a tree -- This does not apply to combinations, just a general remark I decided to put here. –  lukstafi Feb 8 '14 at 8:16

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