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Aologies for posting such long, non-compilable code. But despite reading several questions and answers on stackoverflow on ocaml's functors, I don't get how to solve this:

Assume I have a very abstract data structure:


module type ENTRY = sig
    type t
    val get_index : t -> int
    val compare : t -> t -> int

module type T = sig
    type entry
    type t
    val create : unit -> t
    val insert : entry -> t -> t
    val delete : entry -> t -> t

based on this, I can make concrete data structures on these abstract implementation by passing a functor. For example I made

concrete_ads.mli :

module Make (Entry: Ads.ENTRY) : (ads.T with type entry = Entry.t)

This works. I can now use my implemenatation in other source-files, for example like

module AT = Concrete_ads.Make( 
    type t = int * int;; 
    let get_index = fst;; 
    let to_string = (fun (x,y) -> Printf "%i, %i" x y);; 

and then use the implemenation like

let at = AT.create () in
let ati = AT.insert (1,2) at in
let atd = AT.delete (1,2) ati in

... etc.

now I want write several functions that operate on these data structures in a seperate sourcefile, and they should be accesible from outside. But I do not know how to declare the type of these functions. Something like


val search : Int -> Ads.T -> int list

but when compiling I get:

Failure: "invalid long identifier type"

I then thought I need to specifically declare the module of adt as a submodule in search.mli, something like:


module AD = Ads;;
val search : Int -> AD.T -> int list

but I get:

Parse error: [module_declaration] expected after [a_UIDENT] (in [sig_item])

What am I missing here? I feel I either fail with the syntax, or did not fully grasp the concept of Functors, Modules and Submodules ...

edit** - Thank you so much for your explanation, gasche! With your example I was able to write what I inteded. I'll post it here for clarification, since there seems to be alot of confusion about functors in ocaml.

In fact I wanted to make the function abstract with respect to Ads.T, but require a specific type for Ads.T.t.

I now have search.mli:

module Make (T : Ads.T with type entry = int * int) : sig
    val search : T.t -> int -> int

and in search.ml

module Make (T : Ads.T with type entry = int * int) : sig
    val search : T.t -> int -> int 
end = struct
    (* actual implementation of search *)

and it works exactly as I intended.

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1 Answer 1

up vote 5 down vote accepted

What are you trying to do exactly? Do you want your function to be parametrized over an ad type (eg. Ads.T.t), or over an ad module (eg. Ads.T) ?

In both cases, you should wrap those generic functions in modules:

module Generic (Ad : Ads.T) : sig
  val search : int -> Ad.t -> int list
end = struct
  let search _ _ = assert false

You can then instantiate them easily, eg. to work with your Conrete_ads modules:

module AT = Concrete_ads.make(struct ... end)
module Lib = Generic(AT)
let foo = Lib.search 2 (AT.create ())

Of course, if you would just like your functions to be parametrized over a specific, concrete type:

val search : int -> AT.t -> int list

PS: in your definition of AT, you forgot the struct in the struct .. end module argument of the functor.

PPS: with OCaml 3.12 there is a new shiny thing called first-class modules that allows to pass a module as a value argument to a function

val search : int -> (module Ad.T) -> int list

let search n ad_module =
  let module Ad = (val ad_module : Ad.T) in
  ... Ad.foo ..

... search 2 (module AT : Ad.T) ...

(Explanation : module S, as a type expression, is the type of values that are "reified modules" of signature S; (val t : S), as a module expression, is the module that was packed into the value t, with signature S. Here I take ad_module as a value and unpack it into the Ad module locally, which can then be used as any other module inside the function. Finally, (module M : S) is a term expression that packs the module M with signature S into a value.)

It can supplement using a functor in some cases, but as it is new, a bit more complex (there are non-trivial limitations on the use of first-class modules) and possibly going to change a bit in the next language versions, I would advise keeping the tried-and-true functor construction.

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@ndbd: I added a bit about first-class modules which may satisfy your curiosity. But keep away from the new shiny things! –  gasche Aug 2 '11 at 8:01

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