module Codec.Picture.Tga( decodeTga
, decodeTgaWithMetadata
, TgaSaveable
, encodeTga
, writeTga
) where
#if !MIN_VERSION_base(4,8,0)
import Data.Monoid( mempty )
import Control.Applicative( (<*>), pure, (<$>) )
#endif
import Control.Monad.ST( ST, runST )
import Data.Bits( (.&.)
, (.|.)
, bit
, testBit
, setBit
, unsafeShiftL
, unsafeShiftR )
import Data.Word( Word8, Word16 )
import Data.Binary( Binary( .. ), encode )
import Data.Binary.Get( Get
, getByteString
, getWord8
, getWord16le
)
import Data.Binary.Put( putWord8
, putWord16le
, putByteString
)
import qualified Data.ByteString as B
import qualified Data.ByteString.Lazy as Lb
import qualified Data.ByteString.Unsafe as U
import qualified Data.Vector.Storable.Mutable as M
import Codec.Picture.Types
import Codec.Picture.InternalHelper
import Codec.Picture.Metadata( Metadatas
, SourceFormat( SourceTGA )
, basicMetadata )
import Codec.Picture.VectorByteConversion
data TgaColorMapType
= ColorMapWithoutTable
| ColorMapWithTable
| ColorMapUnknown Word8
instance Binary TgaColorMapType where
get = do
v <- getWord8
return $ case v of
0 -> ColorMapWithoutTable
1 -> ColorMapWithTable
n -> ColorMapUnknown n
put v = case v of
ColorMapWithoutTable -> putWord8 0
ColorMapWithTable -> putWord8 1
(ColorMapUnknown vv) -> putWord8 vv
data TgaImageType
= ImageTypeNoData Bool
| ImageTypeColorMapped Bool
| ImageTypeTrueColor Bool
| ImageTypeMonochrome Bool
isRleEncoded :: TgaImageType -> Bool
isRleEncoded v = case v of
ImageTypeNoData yn -> yn
ImageTypeColorMapped yn -> yn
ImageTypeTrueColor yn -> yn
ImageTypeMonochrome yn -> yn
imageTypeOfCode :: Monad m => Word8 -> m TgaImageType
imageTypeOfCode v = case v .&. 3 of
0 -> return $ ImageTypeNoData isEncoded
1 -> return $ ImageTypeColorMapped isEncoded
2 -> return $ ImageTypeTrueColor isEncoded
3 -> return $ ImageTypeMonochrome isEncoded
_ -> fail $ "Unknown TGA image type " ++ show v
where
isEncoded = testBit v 3
codeOfImageType :: TgaImageType -> Word8
codeOfImageType v = case v of
ImageTypeNoData encoded -> setVal 0 encoded
ImageTypeColorMapped encoded -> setVal 1 encoded
ImageTypeTrueColor encoded -> setVal 2 encoded
ImageTypeMonochrome encoded -> setVal 3 encoded
where
setVal vv True = setBit vv 3
setVal vv False = vv
instance Binary TgaImageType where
get = getWord8 >>= imageTypeOfCode
put = putWord8 . codeOfImageType
data TgaImageDescription = TgaImageDescription
{ _tgaIdXOrigin :: Bool
, _tgaIdYOrigin :: Bool
, _tgaIdAttributeBits :: Word8
}
instance Binary TgaImageDescription where
put desc = putWord8 $ xOrig .|. yOrig .|. attr
where
xOrig | _tgaIdXOrigin desc = bit 4
| otherwise = 0
yOrig | not $ _tgaIdYOrigin desc = bit 5
| otherwise = 0
attr = _tgaIdAttributeBits desc .&. 0xF
get = toDescr <$> getWord8 where
toDescr v = TgaImageDescription
{ _tgaIdXOrigin = testBit v 4
, _tgaIdYOrigin = not $ testBit v 5
, _tgaIdAttributeBits = v .&. 0xF
}
data TgaHeader = TgaHeader
{ _tgaHdrIdLength :: !Word8
, _tgaHdrColorMapType :: !TgaColorMapType
, _tgaHdrImageType :: !TgaImageType
, _tgaHdrMapStart :: !Word16
, _tgaHdrMapLength :: !Word16
, _tgaHdrMapDepth :: !Word8
, _tgaHdrXOffset :: !Word16
, _tgaHdrYOffset :: !Word16
, _tgaHdrWidth :: !Word16
, _tgaHdrHeight :: !Word16
, _tgaHdrPixelDepth :: !Word8
, _tgaHdrImageDescription :: !TgaImageDescription
}
instance Binary TgaHeader where
get = TgaHeader
<$> g8 <*> get <*> get <*> g16 <*> g16 <*> g8
<*> g16 <*> g16 <*> g16 <*> g16 <*> g8 <*> get
where g16 = getWord16le
g8 = getWord8
put v = do
let p8 = putWord8
p16 = putWord16le
p8 $ _tgaHdrIdLength v
put $ _tgaHdrColorMapType v
put $ _tgaHdrImageType v
p16 $ _tgaHdrMapStart v
p16 $ _tgaHdrMapLength v
p8 $ _tgaHdrMapDepth v
p16 $ _tgaHdrXOffset v
p16 $ _tgaHdrYOffset v
p16 $ _tgaHdrWidth v
p16 $ _tgaHdrHeight v
p8 $ _tgaHdrPixelDepth v
put $ _tgaHdrImageDescription v
data TgaFile = TgaFile
{ _tgaFileHeader :: !TgaHeader
, _tgaFileId :: !B.ByteString
, _tgaPalette :: !B.ByteString
, _tgaFileRest :: !B.ByteString
}
getPalette :: TgaHeader -> Get B.ByteString
getPalette hdr | _tgaHdrMapLength hdr <= 0 = return mempty
getPalette hdr = getByteString $ bytePerPixel * pixelCount
where
bytePerPixel = fromIntegral $ _tgaHdrMapDepth hdr `div` 8
pixelCount = fromIntegral $ _tgaHdrMapLength hdr
instance Binary TgaFile where
get = do
hdr <- get
validateTga hdr
fileId <- getByteString . fromIntegral $ _tgaHdrIdLength hdr
palette <- getPalette hdr
rest <- getRemainingBytes
return TgaFile {
_tgaFileHeader = hdr
, _tgaFileId = fileId
, _tgaPalette = palette
, _tgaFileRest = rest
}
put file = do
put $ _tgaFileHeader file
putByteString $ _tgaFileId file
putByteString $ _tgaPalette file
putByteString $ _tgaFileRest file
data Depth8 = Depth8
data Depth15 = Depth15
data Depth24 = Depth24
data Depth32 = Depth32
class (Pixel (Unpacked a)) => TGAPixel a where
type Unpacked a
packedByteSize :: a -> Int
tgaUnpack :: a -> B.ByteString -> Int -> Unpacked a
instance TGAPixel Depth8 where
type Unpacked Depth8 = Pixel8
packedByteSize _ = 1
tgaUnpack _ = U.unsafeIndex
instance TGAPixel Depth15 where
type Unpacked Depth15 = PixelRGBA8
packedByteSize _ = 2
tgaUnpack _ str ix = PixelRGBA8 r g b a
where
v0 = U.unsafeIndex str ix
v1 = U.unsafeIndex str $ ix + 1
r = (v1 .&. 0x7c) `unsafeShiftL` 1;
g = ((v1 .&. 0x03) `unsafeShiftL` 6) .|. ((v0 .&. 0xe0) `unsafeShiftR` 2);
b = (v0 .&. 0x1f) `unsafeShiftL` 3
a = 255
instance TGAPixel Depth24 where
type Unpacked Depth24 = PixelRGB8
packedByteSize _ = 3
tgaUnpack _ str ix = PixelRGB8 r g b
where
b = U.unsafeIndex str ix
g = U.unsafeIndex str (ix + 1)
r = U.unsafeIndex str (ix + 2)
instance TGAPixel Depth32 where
type Unpacked Depth32 = PixelRGBA8
packedByteSize _ = 4
tgaUnpack _ str ix = PixelRGBA8 r g b a
where
b = U.unsafeIndex str ix
g = U.unsafeIndex str (ix + 1)
r = U.unsafeIndex str (ix + 2)
a = U.unsafeIndex str (ix + 3)
prepareUnpacker :: TgaFile
-> (forall tgapx. (TGAPixel tgapx) => tgapx -> TgaFile -> Image (Unpacked tgapx))
-> Either String DynamicImage
prepareUnpacker file f =
let hdr = _tgaFileHeader file
flipper :: (Pixel px) => Image px -> Image px
flipper = flipImage $ _tgaHdrImageDescription hdr
in
case _tgaHdrPixelDepth hdr of
8 -> pure . ImageY8 . flipper $ f Depth8 file
16 -> pure . ImageRGBA8 . flipper $ f Depth15 file
24 -> pure . ImageRGB8 . flipper $ f Depth24 file
32 -> pure . ImageRGBA8 . flipper $ f Depth32 file
n -> fail $ "Invalid bit depth (" ++ show n ++ ")"
applyPalette :: (Pixel px)
=> (Image px -> DynamicImage) -> Image px
-> DynamicImage
-> Either String DynamicImage
applyPalette f palette (ImageY8 img) =
pure . f $ pixelMap (\v -> pixelAt palette (fromIntegral v) 0) img
applyPalette _ _ _ =
fail "Bad colorspace for image"
unparse :: TgaFile -> Either String (DynamicImage, Metadatas)
unparse file =
let hdr = _tgaFileHeader file
imageType = _tgaHdrImageType hdr
unpacker :: forall tgapx. (TGAPixel tgapx)
=> tgapx -> TgaFile -> Image (Unpacked tgapx)
unpacker | isRleEncoded imageType = unpackRLETga
| otherwise = unpackUncompressedTga
metas = basicMetadata SourceTGA (_tgaHdrWidth hdr) (_tgaHdrHeight hdr)
decodedPalette = unparse file
{ _tgaFileHeader = hdr
{ _tgaHdrHeight = 1
, _tgaHdrWidth = _tgaHdrMapLength hdr
, _tgaHdrPixelDepth = _tgaHdrMapDepth hdr
, _tgaHdrImageType = ImageTypeTrueColor False
}
, _tgaFileRest = _tgaPalette file
}
in
case imageType of
ImageTypeNoData _ -> fail "No data detected in TGA file"
ImageTypeTrueColor _ ->
fmap (, metas) $ prepareUnpacker file unpacker
ImageTypeMonochrome _ ->
fmap (, metas) $ prepareUnpacker file unpacker
ImageTypeColorMapped _ ->
case decodedPalette of
Left str -> Left str
Right (ImageY8 img, _) ->
fmap (, metas) $ prepareUnpacker file unpacker >>= applyPalette ImageY8 img
Right (ImageRGB8 img, _) ->
fmap (, metas) $ prepareUnpacker file unpacker >>= applyPalette ImageRGB8 img
Right (ImageRGBA8 img, _) ->
fmap (, metas) $ prepareUnpacker file unpacker >>= applyPalette ImageRGBA8 img
Right _ -> fail "Unknown pixel type"
writeRun :: (Pixel px)
=> M.STVector s (PixelBaseComponent px) -> Int -> px -> Int
-> ST s Int
writeRun imgData localMaxi px = run
where
writeDelta = componentCount px
run writeIndex
| writeIndex >= localMaxi = return writeIndex
run writeIndex = do
unsafeWritePixel imgData writeIndex px
run $ writeIndex + writeDelta
copyData :: forall tgapx s
. (TGAPixel tgapx)
=> tgapx
-> M.STVector s (PixelBaseComponent (Unpacked tgapx))
-> B.ByteString
-> Int -> Int
-> Int -> Int
-> ST s (Int, Int)
copyData tgapx imgData readData maxi maxRead = go
where
readDelta = packedByteSize tgapx
writeDelta = componentCount (undefined :: Unpacked tgapx)
go writeIndex readIndex
| writeIndex >= maxi ||
readIndex >= maxRead = return (writeIndex, readIndex)
go writeIndex readIndex = do
let px = tgaUnpack tgapx readData readIndex :: Unpacked tgapx
unsafeWritePixel imgData writeIndex px
go (writeIndex + writeDelta) (readIndex + readDelta)
unpackUncompressedTga :: forall tgapx
. (TGAPixel tgapx)
=> tgapx
-> TgaFile
-> Image (Unpacked tgapx)
unpackUncompressedTga tga file = runST $ do
img <- MutableImage width height <$> M.new maxi
let imgData = mutableImageData img
_ <- copyData tga imgData readData maxi maxRead 0 0
unsafeFreezeImage img
where
hdr = _tgaFileHeader file
width = fromIntegral $ _tgaHdrWidth hdr
height = fromIntegral $ _tgaHdrHeight hdr
readData = _tgaFileRest file
compCount = componentCount (undefined :: Unpacked tgapx)
maxi = width * height * compCount
maxRead = B.length readData
isRleChunk :: Word8 -> Bool
isRleChunk v = testBit v 7
runLength :: Word8 -> Int
runLength v = fromIntegral (v .&. 0x7F) + 1
unpackRLETga :: forall tgapx
. (TGAPixel tgapx)
=> tgapx
-> TgaFile
-> Image (Unpacked tgapx)
unpackRLETga tga file = runST $ do
img <- MutableImage width height <$> M.new maxi
let imgData = mutableImageData img
go writeIndex readIndex
| writeIndex >= maxi = return ()
| readIndex >= maxRead = return ()
go writeIndex readIndex = do
let code = U.unsafeIndex readData readIndex
copyMax = min maxi $ writeIndex + runLength code * compCount
if isRleChunk code then do
let px = tgaUnpack tga readData (readIndex + 1) :: Unpacked tgapx
lastWriteIndex <- writeRun imgData copyMax px writeIndex
go lastWriteIndex $ readIndex + 1 + readDelta
else do
(newWrite, newRead) <-
copyData tga imgData readData copyMax maxRead
writeIndex (readIndex + 1)
go newWrite newRead
go 0 0
unsafeFreezeImage img
where
hdr = _tgaFileHeader file
width = fromIntegral $ _tgaHdrWidth hdr
height = fromIntegral $ _tgaHdrHeight hdr
readData = _tgaFileRest file
compCount = componentCount (undefined :: Unpacked tgapx)
maxi = width * height * compCount
maxRead = B.length readData
readDelta = packedByteSize tga
flipImage :: (Pixel px)
=> TgaImageDescription -> Image px -> Image px
flipImage desc img
| xFlip && yFlip =
generateImage (\x y -> pixelAt img (wMax x) (hMax y)) w h
| xFlip =
generateImage (\x y -> pixelAt img (wMax x) y) w h
| yFlip =
generateImage (\x y -> pixelAt img x (hMax y)) w h
| otherwise = img
where
xFlip = _tgaIdXOrigin desc
yFlip = _tgaIdYOrigin desc
w = imageWidth img
h = imageHeight img
!wMax = w 1
!hMax = h 1
validateTga :: (Monad m) => TgaHeader -> m ()
validateTga hdr
| _tgaHdrWidth hdr <= 0 = fail "Width is null or negative"
| _tgaHdrHeight hdr <= 0 = fail "Height is null or negative"
validateTga _ = return ()
decodeTga :: B.ByteString -> Either String DynamicImage
decodeTga byte = runGetStrict get byte >>= (fmap fst . unparse)
decodeTgaWithMetadata :: B.ByteString -> Either String (DynamicImage, Metadatas)
decodeTgaWithMetadata byte = runGetStrict get byte >>= unparse
class TgaSaveable a where
tgaDataOfImage :: Image a -> B.ByteString
tgaPixelDepthOfImage :: Image a -> Word8
tgaTypeOfImage :: Image a -> TgaImageType
instance TgaSaveable Pixel8 where
tgaDataOfImage = toByteString . imageData
tgaPixelDepthOfImage _ = 8
tgaTypeOfImage _ = ImageTypeMonochrome False
instance TgaSaveable PixelRGB8 where
tgaPixelDepthOfImage _ = 24
tgaTypeOfImage _ = ImageTypeTrueColor False
tgaDataOfImage = toByteString . imageData . pixelMap flipRgb
where
flipRgb (PixelRGB8 r g b) = PixelRGB8 b g r
instance TgaSaveable PixelRGBA8 where
tgaPixelDepthOfImage _ = 32
tgaTypeOfImage _ = ImageTypeTrueColor False
tgaDataOfImage = toByteString . imageData . pixelMap flipRgba
where
flipRgba (PixelRGBA8 r g b a) = PixelRGBA8 b g r a
writeTga :: (TgaSaveable pixel) => FilePath -> Image pixel -> IO ()
writeTga path img = Lb.writeFile path $ encodeTga img
encodeTga :: (TgaSaveable px) => Image px -> Lb.ByteString
encodeTga img = encode file
where
file = TgaFile
{ _tgaFileHeader = TgaHeader
{ _tgaHdrIdLength = 0
, _tgaHdrColorMapType = ColorMapWithoutTable
, _tgaHdrImageType = tgaTypeOfImage img
, _tgaHdrMapStart = 0
, _tgaHdrMapLength = 0
, _tgaHdrMapDepth = 0
, _tgaHdrXOffset = 0
, _tgaHdrYOffset = 0
, _tgaHdrWidth = fromIntegral $ imageWidth img
, _tgaHdrHeight = fromIntegral $ imageHeight img
, _tgaHdrPixelDepth = tgaPixelDepthOfImage img
, _tgaHdrImageDescription = TgaImageDescription
{ _tgaIdXOrigin = False
, _tgaIdYOrigin = False
, _tgaIdAttributeBits = 0
}
}
, _tgaFileId = mempty
, _tgaPalette = mempty
, _tgaFileRest = tgaDataOfImage img
}