Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them, it only takes a minute:

Is it really true that OCaml doesn't have a function which converts from a list to a set?

If that is the case, is it possible to make a generic function list_to_set? I've tried to make a polymorphic set without luck.

Best regards, Lasse Espeholt

share|improve this question

6 Answers 6

up vote 13 down vote accepted

Fundamental problem: Lists can contain elements of any types. Sets (assuming you mean the Set module of the standard library), in contrary, rely on a element comparison operation to remain balanced trees. You cannot hope to convert a t list to a set if you don't have a comparison operation on t.

Practical problem: the Set module of the standard library is functorized: it takes as input a module representing your element type and its comparison operation, and produces as output a module representing the set. Making this work with the simple parametric polymoprhism of lists is a bit sport.

To do this, the easiest way is to wrap your set_of_list function in a functor, so that it is itself parametrized by a comparison function.

module SetOfList (E : Set.OrderedType) = struct
  module S = Set.Make(E)
  let set_of_list li =
    List.fold_left (fun set elem -> S.add elem set) S.empty li

You can then use for example with the String module, which provides a suitable compare function.

  module SoL = SetOfList(String);;
  SoL.S.cardinal (SoL.set_of_list ["foo"; "bar"; "baz"]);; (* returns 3 *)

It is also possible to use different implementation of sets which are non-functorized, such as Batteries and Extlib 'PSet' implementation (documentation). The functorized design is advised because it has better typing guarantees -- you can't mix sets of the same element type using different comparison operations.

NB: of course, if you already have a given set module, instantiated form the Set.Make functor, you don't need all this; but you conversion function won't be polymorphic. For example assume I have the StringSet module defined in my code:

module StringSet = Set.Make(String)

Then I can write stringset_of_list easily, using StringSet.add and StringSet.empty:

let stringset_of_list li =
  List.fold_left (fun set elem -> StringSet.add elem set) StringSet.empty li

In case you're not familiar with folds, here is a direct, non tail-recursive recursive version:

let rec stringset_of_list = function
  | [] -> StringSet.empty
  | hd::tl -> StringSet.add hd (stringset_of_list tl)
share|improve this answer
Thank you for the extensive explanation :) I guess the generics in F# is somewhat easier to use in this specific example. –  Lasse Espeholt Sep 27 '11 at 20:04
'd rather have a right fold to add elements to a set, if only for the parameter order: let stringset_of_list li = List.fold_right StringSet.add li StringSet.empty –  user593999 Sep 28 '11 at 11:41

If you don't mind a very crude approach, you can use the polymorphic hash table interface. A hash table with an element type of unit is just a set.

# let set_of_list l = 
      let res = Hashtbl.create (List.length l)
      in let () = List.iter (fun x -> Hashtbl.add res x ()) l
      in res;;
val set_of_list : 'a list -> ('a, unit) Hashtbl.t = <fun>
# let a = set_of_list [3;5;7];;
val a : (int, unit) Hashtbl.t = <abstr>
# let b = set_of_list ["yes";"no"];;
val b : (string, unit) Hashtbl.t = <abstr>
# Hashtbl.mem a 5;;
- : bool = true
# Hashtbl.mem a 6;;
- : bool = false
# Hashtbl.mem b "no";;
- : bool = true

If you just need to test membership, this might be good enough. If you wanted other set operations (like union and intersection) this isn't a very nice solution. And it's definitely not very elegant from a typing standpoint.

share|improve this answer
Thanks :) I'll stick to making convertions for specific sets. –  Lasse Espeholt Sep 27 '11 at 20:05
You don't have to: as Gasche explained, you can "subclass" a module by extending it with your own code. –  user593999 Sep 28 '11 at 11:52

Ocaml 3.12 has extensions (Explicit naming of type variables and First-class modules) that make it possible to instantiate and pass around modules for polymorphic values.

In this example, the make_set function returns a Set module for a given comparison function and the build_demo function constructs a set given a module and a list of values:

let make_set (type a) compare =
  let module Ord = struct
    type t = a
    let compare = compare
  in (module Set.Make (Ord) : Set.S with type elt = a)

let build_demo (type a) set_module xs =
  let module S = (val set_module : Set.S with type elt = a) in
  let set = List.fold_right S.add xs S.empty in
    Printf.printf "%b\n" (S.cardinal set = List.length xs)

let demo (type a) xs = build_demo (make_set compare) xs

let _ = begin demo ['a', 'b', 'c']; demo [1, 2, 3]; end

This doesn't fully solve the problem, though, because the compiler doesn't allow the return value to have a type that depends on the module argument:

let list_to_set (type a) set_module xs =
  let module S = (val set_module : Set.S with type elt = a) in
    List.fold_right S.add xs S.empty

Error: This `let module' expression has type S.t
In this type, the locally bound module name S escapes its scope

A possible work-around is to return a collection of functions that operate on the hidden set value:

let list_to_add_mem_set (type a) set_module xs =
  let module S = (val set_module : Set.S with type elt = a) in
  let set = ref (List.fold_right S.add xs S.empty) in
  let add x = set := S.add x !set in
  let mem x = S.mem x !set in
    (add, mem)
share|improve this answer
Thank you :) I'm not garanteed to have OCaml 3.12 because I'm doing a compiler at my university. As mentioned above, I'll stick to make list_to_set for specific sets. –  Lasse Espeholt Sep 27 '11 at 20:07

Just extend the original type, as shown in for the List module:

module StringSet = Set.Make (* define basic type *)
     type t = string
     let compare =
module StringSet = struct (* extend type with more operations *)
  include StringSet
  let of_list l =
      (fun s e -> StringSet.add e s)
      StringSet.empty l
share|improve this answer

ok, this is not an answer, rather a follow-up... The module returned by Set.Make should have a [of_list] function (per the library reference...), but it doesn't seem to exist. Does someone know why it was removed ? Anyway, I went for:

List.fold_right ( add ) l empty

since I don't expect huge lists and I am already extending sets.

share|improve this answer

Using the core library I would suggest:

let list_to_set l = 
List.fold l ~init:(Set.empty ~comparator:Comparator.Poly.comparator)
~f:Set.add |> Set.to_list

So for example:

list_to_set [4;6;3;6;3;4;3;8;2]
-> [2; 3; 4; 6; 8]


list_to_set ["d";"g";"d";"a"]
-> ["a"; "d"; "g"]
share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.