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In the F# code I'm trying to convert to OCaml, I've run into the following:

    let rec parseList lst off =
        seq {
            if List.isEmpty lst then ()
                match parse off <| List.head lst with
                | (Unmatched, _) as y -> yield y
                | (y, z) -> yield (y, z)
                            yield! parseList (List.tail lst) z

I'm wondering about how to convert that seq{...} expression with yield's to OCaml? My first guess is that the seq would have to become a list.

share|improve this question
Depending on how you're consuming the results (i.e., the elements of the sequence), you might be able to use the OCaml Stream module. – Jack P. Jan 20 '13 at 19:51
Actually, the F# code I'm translating creates this seq and after that immediately goes on to convert it into a List so I'd guess there's not a lot of advantage to using Stream over just creating the list in the first place? – aneccodeal Jan 20 '13 at 19:56
@GuyCoder just search for questions which are tagged with both the F# and OCaml tags: Newest 'f# ocaml' Questions – Jack P. Jan 20 '13 at 22:50
up vote 5 down vote accepted

Simplest translation (not tail recursive) is:

let rec parseList lst off =
  match lst with
  | [] -> []
  | x::xs ->
      match parse off x with
      | Unmatched, _ as y -> [y]
      | y, z -> (y, z)::parseList xs z

Tail recursive version is:

let parseList lst off =
  let rec loop xs off = function
    | [] -> xs
    | y::ys ->
        match parse off y with
        | Unmatched, _ as x -> x::xs
        | _, z as x -> loop (x::xs) z ys in
  List.rev (loop [] off lst)

Note that the F# code you're starting from leaves a lot to be desired. The calls to List.head and List.tail are unnecessary potential sources of exceptions when you can more easily use pattern matching instead. And there are superfluous parentheses.

share|improve this answer
This seems like the easiest way to do it. Since the F# creates a seq and then goes on to immediately convert that seq to a list I'd guess there's not much advantage to using LazyList or the Stream module. – aneccodeal Jan 20 '13 at 19:58
@aneccodeal Absolutely. – Jon Harrop Jan 20 '13 at 20:26
"Note that the F# code you're starting from leaves a lot to be desired." +1 for this alone. – ildjarn Jan 20 '13 at 22:57

I'd say that seq is a lazy list, i.e., a list whose tail is calculated when required rather than all at once. The closest thing in OCaml might be a stream parser, an extension available through camlp4. It's documented in the Language Extensions section of the OCaml manual.

You can also create your own explicit lazy list facility using fun () -> expr to represent the tail of the list.

If your lists are reasonably small, you could also just convert to an ordinary list, as you suggest.

share|improve this answer
I'm a little confused by the docs you link. It says that streams were removed in OCaml 3.03, but that you can use campl4 syntax extension. Then it also talks about the Stream module. Does the Stream module use a camlp4 syntax extension or is it just a completely separate option for dealing with streams? If it's the latter then what would be the advantage of using a camlp4 syntax extension over the Stream module? – aneccodeal Jan 20 '13 at 19:52
There is nice syntax for streams supported by camlp4. I've never tried it, but I believe you can just use the Stream module alone without the nice syntax. – Jeffrey Scofield Jan 20 '13 at 19:59
There are some important differences between seq and lazy lists. A seq can have code executed before and after each time it is enumerated (e.g. to create and destroy a database connection). A seq uses mutable enumerators. A lazy list is composed of thunks that are mutated into values when their evaluation is forced so elements are remembered from one enumeration to the next whereas seq is re-evaluated every time it is enumerated. – Jon Harrop Jan 24 '14 at 11:04

I would take a look at LazyList.from in batteries:

However, I don't think it will be as convenient as your solution.

share|improve this answer
+1 for showing where they are in batteries. – Guy Coder Jan 20 '13 at 21:57

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