# How to convert precision in Image type from Double to Word8 using HIP?

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
• 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
• 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
• 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
• 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

## 1 Answer

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))
(0,[[]])
``````

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