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So I am working on a project using F# for some SVG line manipulations.

I thought it would be good to represent color an RGB value as a tuple (R,G,B). It just made sense to me. Well since my project involves generating SVG lines in a loop. I decided to have a color offset, conveniently also represented in a tuple (Roffset, Goffset, Boffset)

An offset in this case represents how much each line differs from the previous.

I got to a point where I needed to add the tuples. I thought since they were of the same dimensions and types, it would be fine. But apparently not. I also checked the MSDN on tuples, but I did not find anything about how to add them or combine them.

Here is what I tried. Bear in mind I tried to omit as much irrelevant code as possible since this is a long class definition with LOTS of members.

 type lineSet ( 10+ params omitted ,count, colorOff :byte*byte*byte, color :byte*byte*byte ,strokeWid , strokeWidthOff  ) =

    member val Color = color with get, set
    member val ColorOffset = colorOff with get, set
    member val lineCount = count with get, set
    interface  DrawingInterfaces.IRepresentable_SVG with 
        member __.getSVGRepresenation() = 

          let mutable currentColor = __.Color
          for i in 1..__.lineCount do
             currentColor <- currentColor + __.ColorOffset

That last line of code is what I wanted to do. However, it appears you cannot add tuples directly.

I also need a way to clamp the result so it cannot go over 255, but I suspect a simple try with block will do the trick. OR I could let the params take a type int*int*int and just use an if to reset it back to 255 each time.

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2 Answers 2

up vote 3 down vote accepted

As I mentioned in the comments, the clamping function in your code does not actually work - you need to convert the numbers to integers before doing the addition (and then you can check if the integer is greater than 255). You can do something like this:

let addClamp (a:byte) (b:byte) = 
  let r = int a + int b
  if r > 255 then 255uy else byte r

Also, if you work with colors, then it might make sense to define a custom color type rather than passing colors around as tuples. That way, you can also define + on colors (with clamping) and it will make your code simpler (but still, 10 constructor arguments is a bit scary, so I'd try to think if there is a way to simplify that a bit). A color type might look like this:

type Color(r:byte, g:byte, b:byte) = 
  static let addClamp (a:byte) (b:byte) = 
    let r = int a + int b
    if r > 255 then 255uy else byte r
  member x.R = r
  member x.B = b
  member x.G = g
  static member (+) (c1:Color, c2:Color) = 
    Color(addClamp c1.R c2.R, addClamp c1.G c2.G,addClamp c1.B c2.B)

Using the type, you can then add colors pretty easily and do not have to add clamping each time you need to do that. For example:

Color(255uy, 0uy, 0uy) + Color(1uy, 0uy, 0uy)

But I still think you could make the code more readable and more composable by refactoring some of the visual properties (like stroke & color) to a separate type and then just pass that to LineSet. This way you won't have 10+ parameters to a constructor and your code will probably be more flexible too.

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I was planning on rewriting it to use records as paramaters to make it much simpler. –  Alexander Ryan Baggett Nov 23 '13 at 6:38

Here is a modified version of your code which I think is a bit nicer

let add3DbyteTuples (tuple1:byte*byte*byte , tuple2:byte*byte*byte) =
    let inline intify (a,b,c) = int a,int b,int c
    let inline tripleadd (a,b,c) (d,e,f) = a+d,b+e,c+f
    let clamp a = if a > 255 then 255 else a
    let R,G,B = tripleadd (intify tuple1) (intify tuple2)
    clamp R,clamp G,clamp B
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Amazing, John. You have been answering and commenting a lot on my posts lately. I am quite grateful for your stunning insight. This is very efficient. I noticed you did not have to assign the result to a variable to return it. The multiple return is recognized as a tuple, something I understand, but did not think of. –  Alexander Ryan Baggett Nov 23 '13 at 6:45

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