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I have imported a vector math library, and would like to add my own (*) and (+) operators while preserving the existing operators for basic int and float.

I have tried the following:

let inline (*) (x : float) (y : Vector) = y.Multiply(x)
let inline (*) (x : Vector) (y : float) = x.Multiply(y)
let inline (+) (x : Vector) (y : Vector) = x.Add(y)

Which has two problems:

  1. It seems to remove int + int and int * int, and
  2. The 2nd line (which is intended to complete commutativity) does not compile because it is a "duplicate definition".

How can I go about defining some commutative operators on my imported Vector type while also not losing these operations on ints and floats?

(I want to be able to write generic code elsewhere using * and +, without having to specify float/Vector/int type constraints).

share|improve this question

If you are able to modify source code of the library, it's simpler to add a few overloads via type extensions:

type Vector with
    static member (*) (x : Vector) (y : float) = x.Multiply(y)
    static member (+) (x : Vector) (y : Vector) = x.Add(y)

However, if the first operand has a primitive type (e.g your first example), overloading resolution doesn't work any more.

At any rate, you can exploit member overloading and propagate constraints to an inline function:

type VectorOverloadsMult =
    | VectorOverloadsMult
    static member (?<-) (VectorOverloadsMult, x: float, y: Vector) = y.Multiply(x)
    static member (?<-) (VectorOverloadsMult, x: Vector, y: float) = x.Multiply(y)     
    static member inline (?<-) (VectorOverloadsMult, x, y) = x * y

let inline (*) x y = (?<-) VectorOverloadsMult x y

This works for existing types with (*) since we preserve them in the last static member. You can do the same for (+) operator.

let v: Vector = ... // Declare a Vector value
let a = 2.0 * v
let b = v * 2.0
let c = 2 * 3
let d = 2.0 * 3.0

This technique works even when you cannot modify the Vector type.

share|improve this answer

You need to define the operators inside your type - i.e.

type Vector = 
    ....
    static member (+) (x : Vector) (y : Vector) = x.Add(y)

etc.

Then all will work as you expect

share|improve this answer
    
+1 Adding operators as static members is the right approach when defining overloads for a custom type. – Tomas Petricek Apr 7 '13 at 13:23
    
@TomasPetricek: it doesn't solve the problem in this case. First, how can member overloading resolve the OP's first example? Second, the OP doesn't state that he can access to the source code of the library he uses. – pad Apr 7 '13 at 13:35
    
@pad - Sorry, my mistake. I did not notice this is an imported external library - if it is a .NET library, it is surprising that it does not define the operators itself (because they would be useful for C# too). But if the library cannot be fixed, then using the operator hack in your question is probably the only option. – Tomas Petricek Apr 7 '13 at 16:23

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