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I need to find the closest color in a palette ps to a given color p. How do I make the function nearestColor as fast as possible, without changing the type of Pixel8 or PixelRGB8. So far I have tried inlining.

import qualified Data.Vector as V

type Pixel8 = Word8    

data PixelRGB8 = PixelRGB8 {-# UNPACK #-} !Pixel8 -- Red
                           {-# UNPACK #-} !Pixel8 -- Green
                           {-# UNPACK #-} !Pixel8 -- Blue
           deriving (Eq, Ord, Show)

nearestColor :: PixelRGB8 -> Vector PixelRGB8 -> PixelRGB8
nearestColor p ps = snd $ V.minimumBy comp ds
  where
    ds = V.map (\px -> (dist2Px px p, px)) ps
    comp a b = fst a `compare` fst b

dist2Px :: PixelRGB8 -> PixelRGB8 -> Int
dist2Px (PixelRGB8 r1 g1 b1) (PixelRGB8 r2 g2 b2) = dr*dr + dg*dg + db*db
  where
    (dr, dg, db) =
      ( fromIntegral r1 - fromIntegral r2
      , fromIntegral g1 - fromIntegral g2
      , fromIntegral b1 - fromIntegral b2 )
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2  
Can we see the code for dist2Px? –  jozefg Jan 13 at 15:50
    
What have you tried so far? You could try profiling it, you could inline those local functions ds and comp, you could compile to core and search for bottlenecks, then compile to assembly and make sure that you have tight loops. –  bheklilr Jan 13 at 15:54
    
I suspect building a vector with only the distances, and using minIndex to lookup the result in the original vector could be faster: ps ! V.minIndex (V.map (\px -> dist2Px px p) ps) –  Tarmil Jan 13 at 17:07
    
@Tamil - doesn't speed things up, but it's cleaner, thanks. –  Yofe Jan 13 at 17:42
    
What exactly do you want to optimise: time for a single function call, or average for a whole lot of calls for different colours but the same palette? –  leftaroundabout Jan 13 at 17:42
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1 Answer

up vote 6 down vote accepted

If you want to use a single palette and request different colours, I'd first flip your signature:

type Palette = V.Vector PixelRGB8
nearestColor :: Palette -> PixelRGB8 -> PixelRGB8

That facilitates partial application, and allows the palette configuration to be memoised.

Next, you want to do that: re-store the palette in a data structure suitable for fast lookup. Since you're basically interested in Euclidean distance in ℝ3 (BTW not really ideal for colour comparison), this is a very common problem. A classic structure is the k-d tree, which has long been used for such a nearest-neighbour search. There's sure enough a Haskell library available, which quite a convenient interface for you:

import qualified Data.Trees.KdTree a s KD

instance KD.Point PixelRGB where
  dimension _ = 3
  coord 0 (PixelRGB r _ _) = fromIntegral r
  coord 1 (PixelRGB _ g _) = fromIntegral g
  coord 2 (PixelRGB _ _ b) = fromIntegral b
  dist2 = fromIntegral . dist2Px

Then we can transform a palette into such a tree:

type FastPalette = KD.KdTree PixelRGB8
accelPalette :: Palette -> FastPalette
accelPalette = KD.fromList . V.toList

And finally just use the library-provided next neighbour search:

nearestColor palette = fromJust . KD.nearestNeighbor fpal
 where fpal = accelPalette palette
share|improve this answer
    
I up voted, because this is a great answer. Unfortunately, I'm restricted to only use packages in the Haskell Platform. btw there are some types coord1 ... = fromIntegral g, etc –  Yofe Jan 13 at 19:34
    
Well, you can of course also re-implement the k-d tree yourself, it's not that difficult. –  leftaroundabout Jan 13 at 20:16
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