I have the following code

type Show<'a> =
    abstract member Show: 'a -> string

type Shows() = 
    member inline this.GetShow(x:string) = 
        {new Show<string> with member this.Show(x:string) = x}
    member inline this.GetShow(x:int) = 
        {new Show<int> with member this.Show(x:int) = sprintf "%A" x}

which works perfectly if I call it using normal OO notation.

printfn "100 %s" (Shows().GetShow("some").Show("some"))

However I'd like to wrap that into a function so that

let inline show x = (Shows().GetShow(x).Show(x))

But this gives me the following error

[FS0041] A unique overload for method 'GetShow' could not be determined based 
on type information prior to this program point. A type annotation may be 
needed. Candidates: 
member Shows.GetShow : x:int -> Show<int>, 
member Shows.GetShow : x:string -> Show<string>

Any ideas how to overcome this?


Does this get you close enough to what you want?

let inline GetShow p x = (^x : (member GetShow : ^p -> ^o) (x, p))
let inline Show p x = (^x : (member Show : ^p -> ^o) (x, p))

let inline show x s = s |> GetShow x |> Show x

Shows() |> show "a"
Shows() |> show 1

It's not too hard if you create your Shows outside of the inline function. This way the methods don't need to be inline.


You have to use statically resolved type parameters and explicitly state that you expect the type to have a GetShow member with the required signature. Also, this only works with static members.

type Shows() = 
    static member inline GetShow(x:string) = 
        {new Show<string> with member this.Show(x:string) = x}
    static member inline GetShow(x:int) = 
        {new Show<int> with member this.Show(x:int) = sprintf "%A" x}

let inline ($) (a: ^a) (b: ^b) =
    ((^a or ^b): (static member GetShow : ^b -> Show< ^b>) b)

let inline show x = (Shows() $ x).Show(x)

Wrapping up the constraint in a separate operator $ is necessary, because you can only specify statically resolved constraints on type parameters - i.e. you can't say something like (when Show : (member ...)), can't use the concrete type Show in there, has to be a parameter. So we introduce an intermediate function $ and then call it with Show as parameter.

And the reason I use an operator $ instead of a regular function is that statically resolved constraints get inferred for operators. With a regular function, you'd have to write the when ... clause twice - once in the signature, once in the body.

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