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So in doing some of the Project Euler problems, I want to be able to take the square root of integer values (int, long, bigint, etc), but Sqrt is only defined for floating-point values. So I've been writing my own little Newton-Raphson algorithm, and it's plenty accurate for what I need. However, I want to be able to call the built-in sqrt function on floating-point values. So I wrote something like this:

let inline dsqrt x =
    match box x with
    | :? float -> sqrt x
    | :? float32 -> sqrt x
    | _ -> p_dsqrt x

My function, obviously, is named "p_dsqrt". However, this function requires that the input have a Sqrt method defined, which sort of defeats the whole purpose. Am I missing some type constraint, or what?

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In case it's of use, here's the code I use for integral square roots in my Euler problems: fssnip.net/dR –  ildjarn Sep 24 '12 at 20:55
And what is the intended return type? –  Grzegorz W Sep 24 '12 at 21:04

2 Answers 2

up vote 3 down vote accepted

I think you probably want this, instead:

let dsqrt x =
    match box x with
    | :? float as f -> sqrt f |> box :?> 'a
    | :? float32 as f -> sqrt f |> box :?> 'a
    | _ -> p_dsqrt x

The problem with your code is that you're directly calling sqrt x, which constrains the possible types of x. In my modified code I bind a new identifier to the result of the successful coercion to float or float32, so this doesn't put any constraint on the type of x.

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Shouldn't dsqrt still be inline, though, to correctly propagate x's type to p_dsqrt? –  ildjarn Sep 24 '12 at 20:59
Unfortunately, I'm just getting a different error now. I get "The type 'float' does not match the type 'float32'". When I remove the 'float32' case, the function still resolves to "float -> float". For reference, my p_dsqrt function resolves to "'a -> 'a". –  Lee Crabtree Sep 24 '12 at 21:07
@LeeCrabtree - sorry, I updated my answer. There needs to be a dynamic conversion back to the generic type, too. –  kvb Sep 24 '12 at 21:11

If you want to use the match, the inline keyword is not required but if you want to use an inline function and "hat types", use overloading instead of match:

type Sqrt = Sqrt with
    // Dummy overload in order to get the right types inferred (will never reach here)
    static member inline ($) (Sqrt, _:^t when ^t:null and ^t: struct) = id

    // Existing sqrt
    static member inline ($) (Sqrt, x:'a) :'a = sqrt x 

    // Your Newton-Raphson based sqrt's
    static member        ($) (Sqrt, x:int   ) = sqrtForInt    x
    static member        ($) (Sqrt, x:bigint) = sqrtForBigInt x 

let inline sqrt (x:'t) :'t = Sqrt $ x 

The return type will always be the same as the input type and the implementation of sqrt chosen will depend on that type. This selection will happen at compile-time which is the main difference with the match method which is resolved at run-time.

If I take out the dummy overload, it will have the same problem as your code: it will require the sqrt constraint.

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Wow this is just brilliant :) –  Cetin Sert Sep 25 '12 at 7:23
How does this work? I can't make sense of what I'm reading! The result is impressive though. –  Joh Sep 25 '12 at 11:13
@Joh here is this technique explained nut-cracker.com.ar/index.php/inlinefun –  Gustavo Sep 25 '12 at 11:31

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