I've looked a number of sources: it seems not possible to declare a type definition in F# ala Haskell:

' haskell type def:
myFunc :: int -> int

I'd like to use this type-def style in F#--FSI is happy to echo back to me:

fsi> let myType x = x +1;;

val myType : int -> int

I'd like to be explicit about the type def signature in F# as in Haskell. Is there a way to do this? I'd like to write in F#:

//invalid F#
myFunc : int -> int
myFunc x = x*2
  • 10
    @Jon: interesting position. Why is this 'known-to-be-crap'? It's totally optional in Haskell, and I personally find it quite helpful as a way for me to sketch out how I want my types to line up. I'm interested in what you see the problem with type defs to be. – Kevin Won Sep 15 '10 at 17:10
  • 13
    @Jon: Type classes do not result in a need for explicit type signatures or type annotations. Haskell98, which includes type classes, is fully inferrable. So too are most standard uses of multi-parameter type classes. Explicit type annotations or signatures are generally required for higher order polymorphism, which is proven to not be fully inferrable. There are plenty of useful functions with higher ranked types, and it seems silly to consider providing users with the option of using them as a "deficiency in the type system." – sclv Sep 16 '10 at 15:52
  • 15
    @Jon: I gave a correct answer to your incorrect claim that type annotations in Haskell are ubiquitous due to the ubiquity of type classes. Even in the absence of a need for an explicit type signature, one may serve (among other things) to document code, to enforce usage, and to improve the locality of error messages. – sclv Sep 16 '10 at 19:04
  • 12
    @Jon: I've noticed from your comments that you seem to be incredibly defensive of F#. Your bias is understandable due to wanting to protect your F# consulting company and publications, but the intellegence you no doubt posses would be better used to recognize that F# is certainly not perfect, and could certainly take a few pages from Haskell (which is also not perfect). As far as functional languages go, these two are quite a bit different, and both could certainly benifit from language contructs employed within the other. – Paul Sep 17 '10 at 20:49
  • 9
    @Jon: My judgement of course was based solely on what I've seen of a select few posts of yours here on Stack Overflow, and to be clearer it seems that you want every language to be OCaml. I could admittedly be wrong, but when something as simple, elegant, and optional (!!!) as inline type annotations (as well as type classes) are dismissed as 'bad' for vague reasons it raises some red flags. Also, it can be convenient to reply to a small subset of a post and dismiss the rest, but I'm quite sure even you agree that is not very constructive. – Paul Sep 18 '10 at 16:14

If you want to keep readable type declarations separately from the implementation, you can use 'fsi' files (F# Signature File). The 'fsi' contains just the types and usually also comments - you can see some good examples in the source of F# libraries. You would create two files like this:

// Test.fsi
val myFunc : int -> int

// Test.fs
let myFunx x = x + 1

This works for compiled projects, but you cannot use this approach easily with F# Interactive.

  • 1
    I find the Haskell Type def style (and the .fsi way) such as useful way to 'sketch' in F#. any idea why FSI doesn't support this--and why you can't just do these sigs in line? Is that more of the OCaml tradition? – Kevin Won Sep 14 '10 at 22:59
  • 3
    @Kevin: I'm not really sure, but I agree that the Haskell way looks more readable then mixed header/type annotations. It is probably the OCaml tradition, because I don't think there is any technical issue with this. Writing them inline would make sense... (Another question is whether this is worth the limited F# team resources at this point) – Tomas Petricek Sep 14 '10 at 23:13
  • 2
    thanks Tomas. Just for the record, F# team, pretty please? in-line time annotations? – Kevin Won Sep 14 '10 at 23:31
  • 1
    I would like them too, but sorry, the ship has sailed for syntax here, and we've no plans for an 'additive' change. See also stackoverflow.com/questions/979084/… – Brian Sep 15 '10 at 0:47
  • 2
    Also note that the .fsi is checked after the .fs, so you might still need some type annotations in the .fs to make the type inferencer happy. – Nathan Shively-Sanders Sep 15 '10 at 5:02

The usual way is to do let myFunc (x:int):int = x+1.

If you want to be closer to the haskell style, you can also do let myFunc : int -> int = fun x -> x+1.

  • I know you can specify types that way with your actual function definition--that's not exactly what I'm asking. thanks though. – Kevin Won Sep 14 '10 at 23:00
  • @Kevin: Make sure you understand the difference between a type annotation and a type definition. – Jon Harrop Sep 15 '10 at 23:54

You can do this in F# like so to specify the return value of myType.

let myType x : int = x + 1

You can specify the type of the parameter, too.

let myType (x : int) : int = x + 1

Hope this helps!


See also The Basic Syntax of F# - Types (which discusses this aspect a little under 'type annotations').


Another option is to use "type abbreviations" (http://msdn.microsoft.com/en-us/library/dd233246.aspx)

type myType = int -> int
let (myFunc : myType) = (fun x -> x*2)

yes you can, by using lambda functions

myFunc : int -> int =
  fun x -> x*2

this also avoids the problem in haskell of writing the function name twice.

  • 1
    this is a duplicate of @sepp2k 's answer. – bytebuster Oct 19 '15 at 9:22

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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