func (s *Server) decodeRawEncoding(r io.Reader, rect *image.RGBA64) error {
for y := rect.Rect.Min.Y; y < rect.Rect.Max.Y; y++ {
for x := rect.Rect.Min.X; x < rect.Rect.Max.X; x++ {
pixel, err := s.readPixel(r)
if err != nil {
log.Println("error reading pixel %d, %d", x, y)
return err
}
rect.Set(x, y, pixel)
}
}
return nil
}
// Set a pixel in img by blending c on top of whatever color is
// already there
func blend(pt image.Point, c color.Color, img *image.RGBA64) {
cc := over(c, img.At(pt.X, pt.Y))
img.Set(pt.X, pt.Y, cc)
}
func (d *decoder) idatReader(idat io.Reader) (image.Image, os.Error) {
r, err := zlib.NewReader(idat)
if err != nil {
return nil, err
}
defer r.Close()
bpp := 0 // Bytes per pixel.
maxPalette := uint8(0)
var (
gray *image.Gray
rgba *image.RGBA
paletted *image.Paletted
nrgba *image.NRGBA
gray16 *image.Gray16
rgba64 *image.RGBA64
nrgba64 *image.NRGBA64
img image.Image
)
switch d.cb {
case cbG8:
bpp = 1
gray = image.NewGray(d.width, d.height)
img = gray
case cbTC8:
bpp = 3
rgba = image.NewRGBA(d.width, d.height)
img = rgba
case cbP8:
bpp = 1
paletted = image.NewPaletted(d.width, d.height, d.palette)
img = paletted
maxPalette = uint8(len(d.palette) - 1)
case cbTCA8:
bpp = 4
nrgba = image.NewNRGBA(d.width, d.height)
img = nrgba
case cbG16:
bpp = 2
gray16 = image.NewGray16(d.width, d.height)
img = gray16
case cbTC16:
bpp = 6
rgba64 = image.NewRGBA64(d.width, d.height)
img = rgba64
case cbTCA16:
bpp = 8
nrgba64 = image.NewNRGBA64(d.width, d.height)
img = nrgba64
}
// cr and pr are the bytes for the current and previous row.
// The +1 is for the per-row filter type, which is at cr[0].
cr := make([]uint8, 1+bpp*d.width)
pr := make([]uint8, 1+bpp*d.width)
for y := 0; y < d.height; y++ {
// Read the decompressed bytes.
_, err := io.ReadFull(r, cr)
if err != nil {
return nil, err
}
// Apply the filter.
cdat := cr[1:]
pdat := pr[1:]
switch cr[0] {
case ftNone:
// No-op.
case ftSub:
for i := bpp; i < len(cdat); i++ {
cdat[i] += cdat[i-bpp]
}
case ftUp:
for i := 0; i < len(cdat); i++ {
cdat[i] += pdat[i]
}
case ftAverage:
for i := 0; i < bpp; i++ {
cdat[i] += pdat[i] / 2
}
for i := bpp; i < len(cdat); i++ {
cdat[i] += uint8((int(cdat[i-bpp]) + int(pdat[i])) / 2)
}
case ftPaeth:
for i := 0; i < bpp; i++ {
cdat[i] += paeth(0, pdat[i], 0)
}
for i := bpp; i < len(cdat); i++ {
cdat[i] += paeth(cdat[i-bpp], pdat[i], pdat[i-bpp])
}
default:
return nil, FormatError("bad filter type")
}
// Convert from bytes to colors.
switch d.cb {
case cbG8:
for x := 0; x < d.width; x++ {
gray.Set(x, y, image.GrayColor{cdat[x]})
}
case cbTC8:
for x := 0; x < d.width; x++ {
rgba.Set(x, y, image.RGBAColor{cdat[3*x+0], cdat[3*x+1], cdat[3*x+2], 0xff})
}
case cbP8:
for x := 0; x < d.width; x++ {
if cdat[x] > maxPalette {
return nil, FormatError("palette index out of range")
}
paletted.SetColorIndex(x, y, cdat[x])
}
case cbTCA8:
for x := 0; x < d.width; x++ {
nrgba.Set(x, y, image.NRGBAColor{cdat[4*x+0], cdat[4*x+1], cdat[4*x+2], cdat[4*x+3]})
}
case cbG16:
for x := 0; x < d.width; x++ {
ycol := uint16(cdat[2*x+0])<<8 | uint16(cdat[2*x+1])
gray16.Set(x, y, image.Gray16Color{ycol})
}
case cbTC16:
for x := 0; x < d.width; x++ {
rcol := uint16(cdat[6*x+0])<<8 | uint16(cdat[6*x+1])
gcol := uint16(cdat[6*x+2])<<8 | uint16(cdat[6*x+3])
bcol := uint16(cdat[6*x+4])<<8 | uint16(cdat[6*x+5])
rgba64.Set(x, y, image.RGBA64Color{rcol, gcol, bcol, 0xffff})
}
case cbTCA16:
for x := 0; x < d.width; x++ {
rcol := uint16(cdat[8*x+0])<<8 | uint16(cdat[8*x+1])
gcol := uint16(cdat[8*x+2])<<8 | uint16(cdat[8*x+3])
bcol := uint16(cdat[8*x+4])<<8 | uint16(cdat[8*x+5])
acol := uint16(cdat[8*x+6])<<8 | uint16(cdat[8*x+7])
nrgba64.Set(x, y, image.NRGBA64Color{rcol, gcol, bcol, acol})
}
}
// The current row for y is the previous row for y+1.
pr, cr = cr, pr
}
return img, nil
}
func (d *decoder) idatReader(idat io.Reader) (image.Image, os.Error) {
r, err := zlib.NewReader(idat)
if err != nil {
return nil, err
}
defer r.Close()
bitsPerPixel := 0
maxPalette := uint8(0)
var (
gray *image.Gray
rgba *image.RGBA
paletted *image.Paletted
nrgba *image.NRGBA
gray16 *image.Gray16
rgba64 *image.RGBA64
nrgba64 *image.NRGBA64
img image.Image
)
switch d.cb {
case cbG1, cbG2, cbG4, cbG8:
bitsPerPixel = d.depth
gray = image.NewGray(d.width, d.height)
img = gray
case cbGA8:
bitsPerPixel = 16
nrgba = image.NewNRGBA(d.width, d.height)
img = nrgba
case cbTC8:
bitsPerPixel = 24
rgba = image.NewRGBA(d.width, d.height)
img = rgba
case cbP1, cbP2, cbP4, cbP8:
bitsPerPixel = d.depth
paletted = image.NewPaletted(d.width, d.height, d.palette)
img = paletted
maxPalette = uint8(len(d.palette) - 1)
case cbTCA8:
bitsPerPixel = 32
nrgba = image.NewNRGBA(d.width, d.height)
img = nrgba
case cbG16:
bitsPerPixel = 16
gray16 = image.NewGray16(d.width, d.height)
img = gray16
case cbGA16:
bitsPerPixel = 32
nrgba64 = image.NewNRGBA64(d.width, d.height)
img = nrgba64
case cbTC16:
bitsPerPixel = 48
rgba64 = image.NewRGBA64(d.width, d.height)
img = rgba64
case cbTCA16:
bitsPerPixel = 64
nrgba64 = image.NewNRGBA64(d.width, d.height)
img = nrgba64
}
bytesPerPixel := (bitsPerPixel + 7) / 8
// cr and pr are the bytes for the current and previous row.
// The +1 is for the per-row filter type, which is at cr[0].
cr := make([]uint8, 1+(bitsPerPixel*d.width+7)/8)
pr := make([]uint8, 1+(bitsPerPixel*d.width+7)/8)
for y := 0; y < d.height; y++ {
// Read the decompressed bytes.
_, err := io.ReadFull(r, cr)
if err != nil {
return nil, err
}
// Apply the filter.
cdat := cr[1:]
pdat := pr[1:]
switch cr[0] {
case ftNone:
// No-op.
case ftSub:
for i := bytesPerPixel; i < len(cdat); i++ {
cdat[i] += cdat[i-bytesPerPixel]
}
case ftUp:
for i := 0; i < len(cdat); i++ {
cdat[i] += pdat[i]
}
case ftAverage:
for i := 0; i < bytesPerPixel; i++ {
cdat[i] += pdat[i] / 2
}
for i := bytesPerPixel; i < len(cdat); i++ {
cdat[i] += uint8((int(cdat[i-bytesPerPixel]) + int(pdat[i])) / 2)
}
case ftPaeth:
for i := 0; i < bytesPerPixel; i++ {
cdat[i] += paeth(0, pdat[i], 0)
}
for i := bytesPerPixel; i < len(cdat); i++ {
cdat[i] += paeth(cdat[i-bytesPerPixel], pdat[i], pdat[i-bytesPerPixel])
}
default:
return nil, FormatError("bad filter type")
}
// Convert from bytes to colors.
switch d.cb {
case cbG1:
for x := 0; x < d.width; x += 8 {
b := cdat[x/8]
for x2 := 0; x2 < 8 && x+x2 < d.width; x2++ {
gray.Set(x+x2, y, image.GrayColor{(b >> 7) * 0xff})
b <<= 1
}
}
case cbG2:
for x := 0; x < d.width; x += 4 {
b := cdat[x/4]
for x2 := 0; x2 < 4 && x+x2 < d.width; x2++ {
gray.Set(x+x2, y, image.GrayColor{(b >> 6) * 0x55})
b <<= 2
}
}
case cbG4:
for x := 0; x < d.width; x += 2 {
b := cdat[x/2]
for x2 := 0; x2 < 2 && x+x2 < d.width; x2++ {
gray.Set(x+x2, y, image.GrayColor{(b >> 4) * 0x11})
b <<= 4
}
}
case cbG8:
for x := 0; x < d.width; x++ {
gray.Set(x, y, image.GrayColor{cdat[x]})
}
case cbGA8:
for x := 0; x < d.width; x++ {
ycol := cdat[2*x+0]
nrgba.Set(x, y, image.NRGBAColor{ycol, ycol, ycol, cdat[2*x+1]})
}
case cbTC8:
for x := 0; x < d.width; x++ {
rgba.Set(x, y, image.RGBAColor{cdat[3*x+0], cdat[3*x+1], cdat[3*x+2], 0xff})
}
case cbP1:
for x := 0; x < d.width; x += 8 {
b := cdat[x/8]
for x2 := 0; x2 < 8 && x+x2 < d.width; x2++ {
idx := b >> 7
if idx > maxPalette {
return nil, FormatError("palette index out of range")
}
paletted.SetColorIndex(x+x2, y, idx)
b <<= 1
}
}
case cbP2:
for x := 0; x < d.width; x += 4 {
b := cdat[x/4]
for x2 := 0; x2 < 4 && x+x2 < d.width; x2++ {
idx := b >> 6
if idx > maxPalette {
return nil, FormatError("palette index out of range")
}
paletted.SetColorIndex(x+x2, y, idx)
b <<= 2
}
}
case cbP4:
for x := 0; x < d.width; x += 2 {
b := cdat[x/2]
for x2 := 0; x2 < 2 && x+x2 < d.width; x2++ {
idx := b >> 4
if idx > maxPalette {
return nil, FormatError("palette index out of range")
}
paletted.SetColorIndex(x+x2, y, idx)
b <<= 4
}
}
case cbP8:
for x := 0; x < d.width; x++ {
if cdat[x] > maxPalette {
return nil, FormatError("palette index out of range")
}
paletted.SetColorIndex(x, y, cdat[x])
}
case cbTCA8:
for x := 0; x < d.width; x++ {
nrgba.Set(x, y, image.NRGBAColor{cdat[4*x+0], cdat[4*x+1], cdat[4*x+2], cdat[4*x+3]})
}
case cbG16:
for x := 0; x < d.width; x++ {
ycol := uint16(cdat[2*x+0])<<8 | uint16(cdat[2*x+1])
gray16.Set(x, y, image.Gray16Color{ycol})
}
case cbGA16:
for x := 0; x < d.width; x++ {
ycol := uint16(cdat[4*x+0])<<8 | uint16(cdat[4*x+1])
acol := uint16(cdat[4*x+2])<<8 | uint16(cdat[4*x+3])
nrgba64.Set(x, y, image.NRGBA64Color{ycol, ycol, ycol, acol})
}
case cbTC16:
for x := 0; x < d.width; x++ {
rcol := uint16(cdat[6*x+0])<<8 | uint16(cdat[6*x+1])
gcol := uint16(cdat[6*x+2])<<8 | uint16(cdat[6*x+3])
bcol := uint16(cdat[6*x+4])<<8 | uint16(cdat[6*x+5])
rgba64.Set(x, y, image.RGBA64Color{rcol, gcol, bcol, 0xffff})
}
case cbTCA16:
for x := 0; x < d.width; x++ {
rcol := uint16(cdat[8*x+0])<<8 | uint16(cdat[8*x+1])
gcol := uint16(cdat[8*x+2])<<8 | uint16(cdat[8*x+3])
bcol := uint16(cdat[8*x+4])<<8 | uint16(cdat[8*x+5])
acol := uint16(cdat[8*x+6])<<8 | uint16(cdat[8*x+7])
nrgba64.Set(x, y, image.NRGBA64Color{rcol, gcol, bcol, acol})
}
}
// The current row for y is the previous row for y+1.
pr, cr = cr, pr
}
return img, nil
}
