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For [1;2;3;4;5], I want to return [[1;2;3;4;5];[2;3;4;5];[3;4;5;];[4;5];[5];[]]

I'm trying to use the List library but I'm unsure how to. So far, I know I have to use List.tl to get the list without the first element

let rec tailsoflist (l : 'a list) : 'a list list =
  match l with
      [] -> [[]]
    | x::xs -> l::(tails xs)

I did this recursively but now I want to just use the list library without using recursion.

let tails (l : 'a list) : 'a list list

EDIT: Sorry guys, what I specified for the function to return is incorrect. Just updated it with the correct output.

share|improve this question
There is no function in module List that will present the tails of a list l to the function you pass it, so you cannot have "the tails of l". You can have lists that are structurally equivalent to the tails of l if you accept to build new versions of them, for instance with List.fold_right. –  Pascal Cuoq Apr 13 '11 at 16:22
Note that your example solution to the problem you pose is incorrect according to your question, e.g. [1..4] is not a tail of [1..5]. Are you sure you didn't mean [2..5] etc.? –  Jon Harrop Apr 13 '11 at 17:24
@Pascal: It is not necessary to forgo sharing of the tails: simply thread the original list as part of the fold. –  user593999 Apr 19 '11 at 15:06

4 Answers 4

As I said in the comment, these are not the tails of l but copies of the tails of l:

# let tails l = List.fold_right (fun e acc -> (e::(List.hd acc))::acc) l [[]] ;;
val tails : 'a list -> 'a list list = <fun>
# tails [1; 2; 3; 4] ;;- : int list list = [[1; 2; 3; 4]; [2; 3; 4]; [3; 4]; [4]; []]
share|improve this answer
Thank you. Can you explain to me what the function is doing? How does the acc work, etc. –  jlaguatan Apr 13 '11 at 23:19
fold_right applies the accumulator to the function with the element in the list from right to left. Each call creates a new 'tail', and the next 'tail' is the previous (List.hd acc) with the current element (e) appended. From [] append 4, from [4] append 3, from [3;4] append 2, ... –  nlucaroni Apr 14 '11 at 1:19

There is no good way to write that function in terms of the built-in functions.

The answer you give in your question is fine but it would be more idiomatic to not annotate the types and use function:

let rec tails = function
  | [] -> [[]]
  | _::xs' as xs -> xs::tails xs'

Other languages, like F#, provide a List.unfold function that tails can be written in terms of.

share|improve this answer
It is perfectly possible to write tails solely in terms of built-in functions. –  user593999 Apr 19 '11 at 15:04
@Matías: How? . –  Jon Harrop Apr 25 '11 at 17:47
see my answer to this question. –  user593999 Apr 26 '11 at 0:49
@Matías: Ok, you're right. –  Jon Harrop Apr 27 '11 at 9:09

"Without using recursion"... why ? Recursion is a useful tool, even outside the List library.

let rec suffixes = function
| [] -> [[]]
| hd::tl as suff -> suff :: suffixes tl

Your function (which doesn't compile because you use tails instead of tailsoflist) returns the list of suffixes of a list. Due to the list structure, it's easier to compute than the prefixes.

You can express the prefixes from the suffixes :

let prefixes li = List.map List.rev (suffixes (List.rev li));;

You could do a direct version using an accumulator:

let prefixes li =
  let rec pref acc = function
    | [] -> List.rev acc :: []
    | hd::tl -> List.rev acc :: pref (hd :: acc) tl
  in pref [] li

and express it using List.fold_left if you want to avoid recursion, but this is convoluted so you should prefer the direct version in my opinion:

let prefixes li =
  let acc, res =
      (fun (acc, res) e -> (e :: acc), (List.rev acc :: res))
      ([], []) li in
  List.rev acc :: res

Finally, it is possible to destroy your brain with a version using continuations, but I don't remember the exact code. Roughly, the continuation is equivalent to the "accumulator" of the direct version.

share|improve this answer

Ah, the old trick to accumulate on the original list to cast tails as a catamorphism. This is done without explicit recursion using just functions on the List module:

let tails l = List.rev ( [] :: snd (List.fold_right
    (fun _ (t,ts) -> List.tl t, t::ts) l (l, [])) )

It produces the tails as you expect:

# tails [1;2;3;4;5];;
- : int list list = [[1; 2; 3; 4; 5]; [2; 3; 4; 5]; [3; 4; 5]; [4; 5]; [5]; []]

and the tails are the actual structural tails of the input list, so that List.tl l == List.hd (List.tl (tails l)).

share|improve this answer
+1 for being a valid counter example to my claim, even if it is darn ugly! –  Jon Harrop Apr 27 '11 at 9:07
Proper tails can be more succinctly expressed as let tails l = snd (List.fold_right (fun _ (t,ts) -> List.tl t, ts @ [t]) l (l, [])) though. This formulation is Gibbons's. –  user593999 Apr 27 '11 at 23:49

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