# Library for colours

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+ | Simple thing for working on colours in the RGB colours space. (The intention being that each component is in the interval 0 <= x <= 1.) You could just use tuples, but this library provides simple colour arithmetic. | ||

<haskell> | <haskell> |

## Revision as of 15:54, 12 April 2007

Simple thing for working on colours in the RGB colours space. (The intention being that each component is in the interval 0 <= x <= 1.) You could just use tuples, but this library provides simple colour arithmetic.

module Colour where data Colour = Colour {red, green, blue :: Double} deriving (Eq, Show) cmap :: (Double -> Double) -> Colour -> Colour cmap f (Colour r g b) = Colour (f r) (f g) (f b) czip :: (Double -> Double -> Double) -> Colour -> Colour -> Colour czip f (Colour r1 g1 b1) (Colour r2 g2 b2) = Colour (f r1 r2) (f g1 g2) (f b1 b2) cfold :: (Double -> Double -> Double) -> Colour -> Double cfold f (Colour r g b) = r `f` g `f` b cpromote :: Double -> Colour cpromote x = Colour x x x instance Num Colour where (+) = czip (+) (-) = czip (-) (*) = czip (*) negate = cmap negate abs = cmap abs signum = cmap signum fromInteger x = cpromote (fromInteger x) instance Fractional Colour where (/) = czip (/) recip = cmap recip fromRational x = cpromote (fromRational x) clip :: (Num n, Ord n) => n -> n clip n | n < 0 = 0 | n > 1 = 1 | otherwise = n cclip :: Colour -> Colour cclip = cmap clip quantinize :: Int -> Double -> Int quantinize max v = floor (v * (fromIntegral max))