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I'm fairly new to F# and coming from a C++ background. I am trying to write a simple vector class which can be of generic type (int, float, etc) but I run into trouble with the default constructor. I want to initialize the values to be zero but to do this I need to somehow cast a concrete zero to a generic type but I'm not sure how to do this.

Perhaps some code might help. Here's what I have so far:

type Vector3D<'T> (x :'T, y: 'T, z: 'T) = 
    member this.x = x
    member this.y = y
    member this.z = z

    new() = Vector3D<'T>(0,0,0) // what goes here?

I have tried many things on the highlighted line but cannot seem to get the compiler to be happy. I tried, for instance, Vector3D('T 0, 'T 0, 'T 0) which I thought should cast the int zero to 'T zero but that did not work.

Am I missing something fundamental or is it merely a case of getting the right syntax?

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2 Answers

up vote 5 down vote accepted

Here's a solution which uses the built-in generic zero function:

type Vector3D<'T> (x : 'T, y: 'T, z: 'T) =
    member this.x = x
    member this.y = y
    member this.z = z

let inline newVector () : Vector3D<_> =
    let zero = Core.LanguagePrimitives.GenericZero
    Vector3D(zero, zero, zero)

let v1 : Vector3D<int> = newVector ()
let v2 : Vector3D<double> = newVector ()
let v3 : Vector3D<int64> = newVector ()
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Is there a particular reason that newVector is inline? –  Dan Nov 11 '13 at 15:27
2  
@Dan If you look at the type of GenericZero its GenericZero<^T (requires ^T with static member Zero)> : ^T (requires ^T with static member Zero). The important thing to note here is the ^T instead of 'T which you normally see. This denotes that the function has a generic constraint which is resolved at compile time. That is, the compiler generates code similar to C++ templates which makes it work. Use of generic member constrains requires inline functions. –  Wesley Wiser Nov 11 '13 at 15:34
    
This should be marked as the answer. Generic zero prevents nulls and restricts the Vector to numeric types. –  mydogisbox Nov 11 '13 at 16:23
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Try using the defaultof function:

type Vector3D<'T> (x :'T, y: 'T, z: 'T) = 
    member this.x = x
    member this.y = y
    member this.z = z

    new() = Vector3D<'T>(Unchecked.defaultof<'T>, 
                         Unchecked.defaultof<'T>, 
                         Unchecked.defaultof<'T>) 

Note that if 'T is a reference type, defaultof<'T> will be null. To get around this, you can use a generic type constraint to limit 'T to value types—also known as struct's.

type Vector3D<'T when 'T : struct> (x :'T, y: 'T, z: 'T) = 
    ...

With this, you will still be able to use this Vector3D<'T> with int, float, decimal, and many other commonly used types, but it will guarantee that none of the x, y, or z, members may be null.

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Perfect thanks. It's probably just because I'm used to C++ but generics in F# seem like a bit of a pain. –  Dan Nov 11 '13 at 12:00
    
@Dan Yeah they're very different concepts. In the case of generics, they must be guaranteed to be type-safe even if resolved at run-time. In this case, the compiler can't be sure there is an implicit conversion from int to 'T. –  p.s.w.g Nov 11 '13 at 12:03
1  
This (and the question itself) are a bad idea IMHO. You end up with nulls for reference types. Just don't write a parameterless constructor. –  Mauricio Scheffer Nov 11 '13 at 13:47
1  
@MauricioScheffer I considered adding a note on using type constraints to address this. I went ahead and updated my answer for completeness. –  p.s.w.g Nov 11 '13 at 14:04
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