I have an image in the type Image VS Y Double (after using function readImageY from HIP library) and I want to convert it to Image VS Y Word8. How should I go about doing this? I need to have it in this precision for the next function I am applying this to.

Here's a snippet of the relevant code:

import Codec.Picture         
import Codec.Picture.Types
import Control.Arrow
import Data.Ratio 
import Data.Monoid
import Graphics.Image.Processing
import qualified Graphics.Image as I
import Graphics.Image.IO
import Graphics.Image.IO.Formats
import Graphics.Image.Interface.Vector
import qualified Graphics.Image.Interface as Interface
import Data.Word (Word8)
import qualified Data.Matrix as M
import System.FilePath.Posix (splitExtension)

to2DMatrix :: FilePath -> FilePath -> Border(Interface.Pixel I.Y Word8) -> (Int, Int) -> IO ()
to2DMatrix fp fpout bor (dim1, dim2)= do
    eimg <- I.readImageY VS fp
    let new_res :: Interface.Image VS I.Y Word8
        new_res = I.resize Bilinear bor (dim1, dim2) eimg 
    let rle = twoDToMatrix $ pixelToInt $ toJPImageY8 new_res
    let (name, _) = splitExtension fp
    writeFile (name ++ ".txt") (show rle)
    writeImage fpout rle

This is the error:

Couldn't match type ‘Double’ with ‘Word8’
      Expected type: Interface.Image VS I.Y Word8
        Actual type: Interface.Image VS I.Y Double
    • In the fourth argument of ‘resize’, namely ‘eimg’
      In the expression: resize Bilinear bor (dim1, dim2) eimg
      In an equation for ‘new_res’:
          new_res = resize Bilinear bor (dim1, dim2) eimg
29 |         new_res = I.resize Bilinear bor (dim1, dim2) eimg
   |                                                      ^^^^

EDIT: The doubles are the pixel values in grayscale stored as a VS vector type in the Image type. The problem I am having is getting access to the doubles to be able to convert them. Trying to interpret/find a way the HIP library here but I am new to Haskell and can't figure it out.

  • Are you certain you want to convert Double to Word8? Because AFAIK Word8 represents 8-bit unsigned integer whereas you need 64bits to represent a Double. So for that you can use doubleToWord :: Double -> Word64 from Data.Serialize.IEEE754 – atis Jun 11 '20 at 19:23
  • 1
    You can use function like round or floor or ceiling to convert Double to num of class Integral (There will be loss of precision) and then use fromIntegral to convert that to Word8 something like this doubleToWord8 = fromIntegral . round – atis Jun 11 '20 at 19:35
  • 1
    What are these doubles? Probably a black/white in the range of zero to one? If so consider converting to 0-255 with conv d = floor (d * 255) – Thomas M. DuBuisson Jun 11 '20 at 20:46
  • 1
    That operation is a map. I'm not sure about your imports without seeing your code, but try Interface.map conv eimg. – Thomas M. DuBuisson Jun 11 '20 at 21:27
  • 1
    Give conv a type and you'll see why that's wrong. Beginners often confuse function composition with function application. In short, fromIntegral (floor (d*255)) – Thomas M. DuBuisson Jun 12 '20 at 0:34

There is a class Elevator that is available in Graphics.Image.Interface in the Haskell Image Processing (HIP) library, that allows you to change the pixel precision from/to several precision types.

Here's the snippet of the code that changed:

to2DMatrix :: FilePath  -> (Int, Int) -> IO (Maybe (M.Matrix Int)) 
to2DMatrix fp (dim1, dim2)= do
    eimg <- I.readImageY VS fp 
    let new_res :: Interface.Image VS I.Y Word8
        new_res = I.resize Bilinear Edge  (dim1, dim2) $ Interface.map conv eimg
    let rle = twoDToMatrix $ pixelToInt $ toJPImageY8 new_res
    return $ Just (rle)

conv :: Pixel Y Double -> Pixel Y Word8 
conv d = toWord8 <$> d

The <$> is an infix operator version of fmap. So this is the same as:

conv :: Pixel Y Double -> Pixel Y Word8 
conv d = fmap toWord8 d

Extra details to convert input image to matrix:

pixelToInt changes from type Pixel8 to [[Int]]:

pixelToInt :: Image Pixel8 -> [[Int]]
pixelToInt =
  map reverse . reverse .  snd . pixelFold 
    (\(lastY, ps:pss) x y p ->           
      if y == lastY                        
        then (y, (fromIntegral p:ps):pss)
        else (y, [fromIntegral p]:ps:pss))

Then, you can use Data.Matrix to change from [[Int]] to Data.Matrix Matrix type as needed.

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