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I don't understand how the Value Restriction in F# works. I've read the explanation in the wiki as well as the MSDN documentation. What I don't understand is:

  1. Why, for example, this gives me a Value Restriction error (Taken from this question):

    let toleq (e:float<_>) a b = (abs ( a - b ) ) < e
    

    But ths doesn't:

    let toleq e (a:float<_>) b = (abs ( a - b ) ) < e
    
  2. This is generalized all right...

    let is_bigger a b = a < b
    

    but this isn't (it is specified as int):

    let add a b = a + b
    
  3. Why functions with implicit parameters generate Value Restriction:

    this:

    let item_count = List.fold (fun acc _ -> 1 + acc) 0
    

    vs this:

    let item_count l = List.fold (fun acc _ -> 1 + acc) 0 l
    

    (Mind you, if I do use this function in a code fragment the VR error will be gone, but then the function will be specified to the type I used it for, and I want it to be generalized)

How does it work?

(I'm using the latest F#, v1.9.6.16)

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Cross ref to another question on same topic: stackoverflow.com/questions/416508/… –  Benjol Jul 20 '09 at 7:40

3 Answers 3

up vote 10 down vote accepted

EDIT

Better/recent info is here: http://stackoverflow.com/questions/4047308/keeping-partially-applied-function-generic

(original below)

I think a pragmatic thing here is not to try to understand this too deeply, but rather to know a couple general strategies to get past the VR and move on with your work. It's a bit of a 'cop out' answer, but I'm not sure it makes sense to spend time understanding the intracacies of the F# type system (which continues to change in minor ways from release to release) here.

The two main strategies I would advocate are these. First, if you're defining a value with a function type (type with an arrow '->'), then ensure it is a syntactic function by doing eta-conversion:

// function that looks like a value, problem
let tupleList = List.map (fun x -> x,x)
// make it a syntactic function by adding argument to both sides
let tupleList l = List.map (fun x -> x,x) l

Second, if you still encounter VR/generalizing problems, then specify the entire type signature to say what you want (and then 'back off' as F# allows):

// below has a problem...
let toleq (e:float<_>) a b = (abs ( a - b ) ) < e
// so be fully explicit, get it working...
let toleq<[<Measure>]'u> (e:float<'u>) (a:float<'u>) (b:float<'u>) : bool = 
    (abs ( a - b ) ) < e
// then can experiment with removing annotations one-by-one...
let toleq<[<Measure>]'u> e (a:float<'u>) b = (abs ( a - b ) ) < e

I think those two strategies are the best pragmatic advice. That said, here's my attempt to answer your specific questions.

  1. I don't know.

  2. '>' is a fully generic function ('a -> 'a -> bool) which works for all types, and thus is_bigger generalizes. On the other-hand, '+' is an 'inline' function which works on a handful of primitive types and a certain class of other types; it can only be generalized inside other 'inline' functions, otherwise it must be pinned down to a specific type (or will default to 'int'). (The 'inline' method of ad-hoc polymorphism is how the mathematical operators in F# overcome the lack of "type classes".)

  3. This is the 'syntactic function' issue I discussed above; 'let's compile down into fields/properties which, unlike functions, cannot be generic. So if you want it to be generic, make it a function. (See also this question for another exception to this rule.)

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2  
Dmitri has written a nice post on this more recently: blogs.msdn.com/b/mulambda/archive/2010/05/01/… –  Brian Jul 2 '10 at 5:52

No one, including the people on the F# team, knows the answer to this question in any meaningful way.

The F# type inference system is exactly like VB6 grammar in the sense that the compiler defines the truth.

Unfortunate, but true.

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1  
Well, I bet Don knows the answer. And F# is still in Beta. At some point we'll have to firm up the spec. And the compiler is not a black box; the F# compiler source is freely available. All that said, I didn't downvote you, as for the most part I don't disagree (hardly anyone 'knows', and the lack of a succinct spec is indeed unfortunate). –  Brian Jul 16 '09 at 8:01
    
Every language has its nooks and crannies. F# for the most part is a very stable, very elegant & practical language (IMHO). Obviously, it is still work in progress, but compared to some other developing languages (without naming names) the future sure is bright for F#. That said, I didn't downvote you either. –  Dave Berk Jul 16 '09 at 12:31
    
@Brian Don knows the answer only because he has access to the source. There is no "theory" of type inference in F#. –  user128807 Jul 16 '09 at 13:02
    
@Dave Berk I think that F# is a beautiful language. In fact, I run an F# user group. However, it doesn't follow that it has a beautiful type inference mechanism. –  user128807 Jul 16 '09 at 13:03
    
@Brian is this still true today (2014)? that the F# type inference is tricky and only defined by the source itself? would you still answer "I don't know" to the first question? –  Goswin Mar 20 at 14:28

Value restriction was introduced to address some issues with polymorphism in the presence of side effects. F# inherits this from OCaml, and I believe value restriction exists in all ML variants. Here's a few more links for you to read, besides the links you cited. Since Haskell is pure, it's not subjected to this restriction.

As for your questions, I think question 3 is truly related to value restriction, while the first two are not.

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