I am trying to implement a generic
Vector< ^F> class in F#, where
^F is the underlying field type of the vector's elements.
^F can be anything that satisfies adding, subtracting, multiplying, and negating.
Some example user code could look like that:
let v = Vector<int>([| 1; 2; 3 |]) let w = Vector<int>([| 4; 5; 6 |]) let sum = v + w
So here I use type
int, and it could be anything that satisfies the underlying basic operations noted above. I seem to get some version working when using .NET style generics, but there I'm having issues too. Since I want to use SRTP anyways, I went this route again:
type Vector< ^F when ^F : (static member (~-): ^F -> ^F) and ^F : (static member (+): ^F * ^F -> ^F) and ^F : (static member (*): ^F * ^F -> ^F) >(_values: ^F) = let values: ^F  = _values member inline this.Values = values member inline this.Dimension = Array.length values // Constructs a Vector using given initializer static member inline Init (n: int) (initializer: (int -> ^F)) = Vector< ^F>(Array.init n (fun i -> initializer (i + 1))) member inline this.Item with get (i: int) = values.[i - 1] // negate a vector static member inline ( ~- ) (a: Vector< ^F>) = Vector< ^F>.Init (Array.length a.Values) (fun i -> -a.[i]) // sum of two vectors static member inline ( + ) (a: Vector< ^F>, b: Vector< ^F>): Vector< ^F> = Vector< ^F>.Init (Array.length a.Values) (fun i -> a.[i] + b.[i]) // difference of two vectors static member inline ( - ) (a: Vector< ^F>, b: Vector< ^F>): Vector< ^F> = Vector< ^F>.Init (Array.length a.Values) (fun i -> a.[i] + (-b.[i])) // scale vector by scalar static member inline ( * ) (a: ^F, b: Vector< ^F>): Vector< ^F> = Vector< ^F>.Init (Array.length b.Values) (fun i -> a * b.[i])
But the errors I am getting are motivation-exhausting, such as:
- FS0193 (warning):
A type parameter is missing a constraint 'when ( ^F or ^?12844) : (static member ( + ) : ^F * ^?12844 -> ^F)'(but also on operator
- FS1113 (error):
The value 'Values' was marked inline but its implementation makes use of an internal or private function which is not- this is basically all over the place, and is being reported for every member property, member function and static member function.
(The code snipped above is copy'n'paste-compatible for easy reproduction)
How do I solve the problem of constructing a type, such as Vector, whos elements and operations all have a statically resolved type parameter (or generic) with no errors.