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I'm working on an application in which the best way I have (so far) found to manipulate images is with the Graphics.Netpbm library. I'll be delegating many operations, such as raw file development, to an external application, and I just wanted a very clean well-supported format.

I actually got it working. I can tell ufraw-batch to "develop" a raw file and output the result in pnm format to stdout. Graphics.Netpbm.parsePPM parses the image just fine. Then I need to convert it into a pixbuf to display in a GtkImage widget, and while I have a solution, I think it is pretty gross. I would love a better way to do it.

When reading this wall of code, you can skip the entire let declaration and understand that img_list :: Netpbm.PPM -> [CUChar].

display_image :: Graphics.UI.Gtk.Image -> Netpbm.PPM -> IO ()
display_image canvas image_bitmap =
    let get_rgb_vector = Netpbm.pixelVectorToList . (\(Netpbm.PpmPixelDataRGB8 v) -> v) . Netpbm.ppmData
        vector_to_cuchar_list = map CUChar . concat . map (\(Netpbm.PpmPixelRGB8 r g b) -> r:g:b:[])
        img_list = vector_to_cuchar_list . get_rgb_vector
        len = length . img_list
        width = Netpbm.ppmWidth . Netpbm.ppmHeader
        height = Netpbm.ppmHeight . Netpbm.ppmHeader
    in do
    img_ptr <- mallocBytes (len image_bitmap)
    mapM_ (\(b, off) -> pokeByteOff img_ptr off (b :: CUChar)) (zip (img_list image_bitmap) [0,1..])
    pb <- pixbufNewFromData img_ptr ColorspaceRgb False 8 (width image_bitmap) (height image_bitmap) ((width image_bitmap) * 3)
    imageSetFromPixbuf canvas pb

The function at the top starts with a lot of utilities to actually get to the raw pixel data. They're pretty messy, too, and I don't really know a better way to organize them yet. But the gross part is in the do block. I allocate a C array of bytes to store all the data. Then I iterate over the [CUChar] that represents the image, poking each individual byte into the correct location in the C array. And then I create a GtkPixbuf from that data.

Ug. What is a faster, cleaner, safer way to do this?

pixbufNewFromData accepts a Ptr CUChar as the first parameter, where Netpbm with all the unwrapping ultimately can provide me with a [Word8]. So in my view, I need a clean function that does [Word8] -> Ptr CUChar. It need not be pure.

I also don't mind doing a major change, but my data flow overall is

operation that generates a ByteString of pnm data ---> GtkImage
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1 Answer 1

up vote 1 down vote accepted

Let me start with syntax-rewriting the your code equivalently:

{-# LANGUAGE NamedFieldPuns #-}

display_image :: Graphics.UI.Gtk.Image -> Netpbm.PPM -> IO ()
display_image canvas PPM{ ppmData 
                        , ppmHeader = PPMHeader{ ppmWidth  = width
                                               , ppmHeight = height } } = do

    let word8s :: [Word8]
        word8s = case ppmData of

            PpmPixelDataRGB8 vec -> concat [ [r,g,b] | PpmPixelRGB8 r g b <- Netpbm.pixelVectorToList vec ]
            _ -> error "expected RGB8 data"

    img_ptr <- mallocBytes (length word8s)

    forM_ (zip word8s [0..]) $ \(word8, off) ->
        pokeByteOff img_ptr off (CUChar word8)

    pb <- pixbufNewFromData img_ptr ColorspaceRgb False 8 width height (width * 3)
    imageSetFromPixbuf canvas pb

Now the safer way, simply using newArray to convert the list to a Ptr:

import Foreign.Marshal.Array (newArray)

    img_ptr <- newArray (map CUChar word8s)
    pb <- pixbufNewFromData img_ptr ColorspaceRgb False 8 width height (width * 3)
    imageSetFromPixbuf canvas pb

This is quite short and easy to read.

  • Note that if pixbufNewFromData makes its own copy of the data, use allocaBytes instead of mallocBytes, and withArray instead of newArray. Otherwise, you will memory leak the malloc.

If instead of a safe way you want a faster way, do not convert to lists and operate straight via the unboxed U.Vector:

import qualified Data.Vector.Unboxed as U

    case ppmData of

        PpmPixelDataRGB8 vec -> do

            let len = U.length vec

            img_ptr <- mallocBytes len

            forM_ [0..len-1] $ \i -> do
                let PpmPixelRGB8 r g b = vec U.! i
                pokeByteOff img_ptr (3 * off    ) r
                pokeByteOff img_ptr (3 * off + 1) g
                pokeByteOff img_ptr (3 * off + 2) b

            pb <- pixbufNewFromData img_ptr ColorspaceRgb False 8 width height (width * 3)
            imageSetFromPixbuf canvas pb

        _ -> error "expected RGB8 data"
  • An even faster way would be to change netpbm (I wrote it, contributions welcome) and make it use Vector.Storable instead of Vector.Unboxed - then you could directly obtain a Ptr to the data without doing anything.
  • You probably don't need this faster version since most probably parsing the text-based PPM files will be the bottleneck, not accessing the parsed data.

Update: I have just released netpbm-1.0.0 which features Storable instead of Unboxed vectors inside.

You can thus use

S.unsafeWith vec $ \ppmPixelRgb8Ptr -> do
    let word8Ptr = castPtr (ppmPixelRgb8Ptr :: Ptr PpmPixelDataRGB8)
    -- do something with the Ptr
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I'm not ignoring this, but I actually broke my computer about the time you posted. I've been waiting for repairs ever since, and I will try all of this out when the system comes back to me. –  Savanni D'Gerinel Oct 4 '13 at 21:07

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