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I just wrote a quick Conway's Game of Life in Haskell for practice and I though that I should now animate it.

I wanted to use GLUT + OpenGL and few seconds of Googling later, I had an example up and ready to fire. The difference in the example is that it defines a function that returns some points as myPoints :: [(GLfloat,GLfloat,GLfloat)] whereas I have Coord defined as data Coord = Coord {x :: Int, y :: Int} deriving (Show, Eq). That's all nice and neat and the game seems to work in its plain form, but there are issues when I try to draw it. Namely the part when I am supposed to pass the points to the renderer: renderPrimitive Points $ mapM_ (\(x, y, z)->vertex$Vertex3 x y z) myPoints That's all fine if myPoints contains values of type GLfloat but renderPrimitive Points $ mapM_ (\(Coord x y)->vertex$Vertex2 x y) myCoords complains:

No instance for (VertexComponent Int)
  arising from a use of `vertex'
Possible fix: add an instance declaration for (VertexComponent Int)

I tried things like fromIntegral x and adding a type signatures :: GLfloat or GLint but it always seems to complain that it can't take the type or that it can't go Int -> GLfloat/GLint.

My question is, how do I get my Coord type to play with OpenGL types? I can't find any hint on the Web and I'd rather not make Coord = Coord {x :: GLfloat, y :: GLfloat} for the simple reason that the whole lot of other code will not play nicely with GLfloats as it's all expecting Num or Int and whatnot.

Below is minimum scenario where the issue is illustrated and which I'd love to be able to compile:

module Main
where

import Graphics.Rendering.OpenGL
import Graphics.UI.GLUT

data Coord = Coord {x :: Int, y :: Int} deriving (Show, Eq)

someCoords = [Coord 1 1, Coord 1 2, Coord 42 7]

main = do
  (progName, _) <- getArgsAndInitialize
  createWindow "Please compile."
  displayCallback $= display
  mainLoop

display = do
  clear [ColorBuffer]
  renderPrimitive Points $ mapM_ (\(Coord x y) -> vertex $ Vertex2 x y) someCoords
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1 Answer 1

up vote 2 down vote accepted

After hunting for a longer while with another programmer in my household, we have found a snippet of code which let us make GLfloat from an int, namely fromIntegral x :: GLfloat will produce the desired result. Similarly, fromRational can be used for Float -> GLfloat.

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fromIntegral is useful for conversions between integral types like Int, Integer, Word etc. realToFrac is probably the most optimized function for converting between Float, Double, GLfloat etc. –  dflemstr Aug 29 '12 at 0:32
    
Noted, thanks!~ –  Mateusz Kowalczyk Aug 29 '12 at 12:42
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