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Current Directory: /opt/golang/1.22.0/src/image/png
/opt/golang/1.22.0/src/image/png/
Viewing File: /opt/golang/1.22.0/src/image/png/writer.go
// Copyright 2009 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package png import ( "bufio" "compress/zlib" "encoding/binary" "hash/crc32" "image" "image/color" "io" "strconv" ) // Encoder configures encoding PNG images. type Encoder struct { CompressionLevel CompressionLevel // BufferPool optionally specifies a buffer pool to get temporary // EncoderBuffers when encoding an image. BufferPool EncoderBufferPool } // EncoderBufferPool is an interface for getting and returning temporary // instances of the [EncoderBuffer] struct. This can be used to reuse buffers // when encoding multiple images. type EncoderBufferPool interface { Get() *EncoderBuffer Put(*EncoderBuffer) } // EncoderBuffer holds the buffers used for encoding PNG images. type EncoderBuffer encoder type encoder struct { enc *Encoder w io.Writer m image.Image cb int err error header [8]byte footer [4]byte tmp [4 * 256]byte cr [nFilter][]uint8 pr []uint8 zw *zlib.Writer zwLevel int bw *bufio.Writer } // CompressionLevel indicates the compression level. type CompressionLevel int const ( DefaultCompression CompressionLevel = 0 NoCompression CompressionLevel = -1 BestSpeed CompressionLevel = -2 BestCompression CompressionLevel = -3 // Positive CompressionLevel values are reserved to mean a numeric zlib // compression level, although that is not implemented yet. ) type opaquer interface { Opaque() bool } // Returns whether or not the image is fully opaque. func opaque(m image.Image) bool { if o, ok := m.(opaquer); ok { return o.Opaque() } b := m.Bounds() for y := b.Min.Y; y < b.Max.Y; y++ { for x := b.Min.X; x < b.Max.X; x++ { _, _, _, a := m.At(x, y).RGBA() if a != 0xffff { return false } } } return true } // The absolute value of a byte interpreted as a signed int8. func abs8(d uint8) int { if d < 128 { return int(d) } return 256 - int(d) } func (e *encoder) writeChunk(b []byte, name string) { if e.err != nil { return } n := uint32(len(b)) if int(n) != len(b) { e.err = UnsupportedError(name + " chunk is too large: " + strconv.Itoa(len(b))) return } binary.BigEndian.PutUint32(e.header[:4], n) e.header[4] = name[0] e.header[5] = name[1] e.header[6] = name[2] e.header[7] = name[3] crc := crc32.NewIEEE() crc.Write(e.header[4:8]) crc.Write(b) binary.BigEndian.PutUint32(e.footer[:4], crc.Sum32()) _, e.err = e.w.Write(e.header[:8]) if e.err != nil { return } _, e.err = e.w.Write(b) if e.err != nil { return } _, e.err = e.w.Write(e.footer[:4]) } func (e *encoder) writeIHDR() { b := e.m.Bounds() binary.BigEndian.PutUint32(e.tmp[0:4], uint32(b.Dx())) binary.BigEndian.PutUint32(e.tmp[4:8], uint32(b.Dy())) // Set bit depth and color type. switch e.cb { case cbG8: e.tmp[8] = 8 e.tmp[9] = ctGrayscale case cbTC8: e.tmp[8] = 8 e.tmp[9] = ctTrueColor case cbP8: e.tmp[8] = 8 e.tmp[9] = ctPaletted case cbP4: e.tmp[8] = 4 e.tmp[9] = ctPaletted case cbP2: e.tmp[8] = 2 e.tmp[9] = ctPaletted case cbP1: e.tmp[8] = 1 e.tmp[9] = ctPaletted case cbTCA8: e.tmp[8] = 8 e.tmp[9] = ctTrueColorAlpha case cbG16: e.tmp[8] = 16 e.tmp[9] = ctGrayscale case cbTC16: e.tmp[8] = 16 e.tmp[9] = ctTrueColor case cbTCA16: e.tmp[8] = 16 e.tmp[9] = ctTrueColorAlpha } e.tmp[10] = 0 // default compression method e.tmp[11] = 0 // default filter method e.tmp[12] = 0 // non-interlaced e.writeChunk(e.tmp[:13], "IHDR") } func (e *encoder) writePLTEAndTRNS(p color.Palette) { if len(p) < 1 || len(p) > 256 { e.err = FormatError("bad palette length: " + strconv.Itoa(len(p))) return } last := -1 for i, c := range p { c1 := color.NRGBAModel.Convert(c).(color.NRGBA) e.tmp[3*i+0] = c1.R e.tmp[3*i+1] = c1.G e.tmp[3*i+2] = c1.B if c1.A != 0xff { last = i } e.tmp[3*256+i] = c1.A } e.writeChunk(e.tmp[:3*len(p)], "PLTE") if last != -1 { e.writeChunk(e.tmp[3*256:3*256+1+last], "tRNS") } } // An encoder is an io.Writer that satisfies writes by writing PNG IDAT chunks, // including an 8-byte header and 4-byte CRC checksum per Write call. Such calls // should be relatively infrequent, since writeIDATs uses a [bufio.Writer]. // // This method should only be called from writeIDATs (via writeImage). // No other code should treat an encoder as an io.Writer. func (e *encoder) Write(b []byte) (int, error) { e.writeChunk(b, "IDAT") if e.err != nil { return 0, e.err } return len(b), nil } // Chooses the filter to use for encoding the current row, and applies it. // The return value is the index of the filter and also of the row in cr that has had it applied. func filter(cr *[nFilter][]byte, pr []byte, bpp int) int { // We try all five filter types, and pick the one that minimizes the sum of absolute differences. // This is the same heuristic that libpng uses, although the filters are attempted in order of // estimated most likely to be minimal (ftUp, ftPaeth, ftNone, ftSub, ftAverage), rather than // in their enumeration order (ftNone, ftSub, ftUp, ftAverage, ftPaeth). cdat0 := cr[0][1:] cdat1 := cr[1][1:] cdat2 := cr[2][1:] cdat3 := cr[3][1:] cdat4 := cr[4][1:] pdat := pr[1:] n := len(cdat0) // The up filter. sum := 0 for i := 0; i < n; i++ { cdat2[i] = cdat0[i] - pdat[i] sum += abs8(cdat2[i]) } best := sum filter := ftUp // The Paeth filter. sum = 0 for i := 0; i < bpp; i++ { cdat4[i] = cdat0[i] - pdat[i] sum += abs8(cdat4[i]) } for i := bpp; i < n; i++ { cdat4[i] = cdat0[i] - paeth(cdat0[i-bpp], pdat[i], pdat[i-bpp]) sum += abs8(cdat4[i]) if sum >= best { break } } if sum < best { best = sum filter = ftPaeth } // The none filter. sum = 0 for i := 0; i < n; i++ { sum += abs8(cdat0[i]) if sum >= best { break } } if sum < best { best = sum filter = ftNone } // The sub filter. sum = 0 for i := 0; i < bpp; i++ { cdat1[i] = cdat0[i] sum += abs8(cdat1[i]) } for i := bpp; i < n; i++ { cdat1[i] = cdat0[i] - cdat0[i-bpp] sum += abs8(cdat1[i]) if sum >= best { break } } if sum < best { best = sum filter = ftSub } // The average filter. sum = 0 for i := 0; i < bpp; i++ { cdat3[i] = cdat0[i] - pdat[i]/2 sum += abs8(cdat3[i]) } for i := bpp; i < n; i++ { cdat3[i] = cdat0[i] - uint8((int(cdat0[i-bpp])+int(pdat[i]))/2) sum += abs8(cdat3[i]) if sum >= best { break } } if sum < best { filter = ftAverage } return filter } func zeroMemory(v []uint8) { for i := range v { v[i] = 0 } } func (e *encoder) writeImage(w io.Writer, m image.Image, cb int, level int) error { if e.zw == nil || e.zwLevel != level { zw, err := zlib.NewWriterLevel(w, level) if err != nil { return err } e.zw = zw e.zwLevel = level } else { e.zw.Reset(w) } defer e.zw.Close() bitsPerPixel := 0 switch cb { case cbG8: bitsPerPixel = 8 case cbTC8: bitsPerPixel = 24 case cbP8: bitsPerPixel = 8 case cbP4: bitsPerPixel = 4 case cbP2: bitsPerPixel = 2 case cbP1: bitsPerPixel = 1 case cbTCA8: bitsPerPixel = 32 case cbTC16: bitsPerPixel = 48 case cbTCA16: bitsPerPixel = 64 case cbG16: bitsPerPixel = 16 } // cr[*] and pr are the bytes for the current and previous row. // cr[0] is unfiltered (or equivalently, filtered with the ftNone filter). // cr[ft], for non-zero filter types ft, are buffers for transforming cr[0] under the // other PNG filter types. These buffers are allocated once and re-used for each row. // The +1 is for the per-row filter type, which is at cr[*][0]. b := m.Bounds() sz := 1 + (bitsPerPixel*b.Dx()+7)/8 for i := range e.cr { if cap(e.cr[i]) < sz { e.cr[i] = make([]uint8, sz) } else { e.cr[i] = e.cr[i][:sz] } e.cr[i][0] = uint8(i) } cr := e.cr if cap(e.pr) < sz { e.pr = make([]uint8, sz) } else { e.pr = e.pr[:sz] zeroMemory(e.pr) } pr := e.pr gray, _ := m.(*image.Gray) rgba, _ := m.(*image.RGBA) paletted, _ := m.(*image.Paletted) nrgba, _ := m.(*image.NRGBA) for y := b.Min.Y; y < b.Max.Y; y++ { // Convert from colors to bytes. i := 1 switch cb { case cbG8: if gray != nil { offset := (y - b.Min.Y) * gray.Stride copy(cr[0][1:], gray.Pix[offset:offset+b.Dx()]) } else { for x := b.Min.X; x < b.Max.X; x++ { c := color.GrayModel.Convert(m.At(x, y)).(color.Gray) cr[0][i] = c.Y i++ } } case cbTC8: // We have previously verified that the alpha value is fully opaque. cr0 := cr[0] stride, pix := 0, []byte(nil) if rgba != nil { stride, pix = rgba.Stride, rgba.Pix } else if nrgba != nil { stride, pix = nrgba.Stride, nrgba.Pix } if stride != 0 { j0 := (y - b.Min.Y) * stride j1 := j0 + b.Dx()*4 for j := j0; j < j1; j += 4 { cr0[i+0] = pix[j+0] cr0[i+1] = pix[j+1] cr0[i+2] = pix[j+2] i += 3 } } else { for x := b.Min.X; x < b.Max.X; x++ { r, g, b, _ := m.At(x, y).RGBA() cr0[i+0] = uint8(r >> 8) cr0[i+1] = uint8(g >> 8) cr0[i+2] = uint8(b >> 8) i += 3 } } case cbP8: if paletted != nil { offset := (y - b.Min.Y) * paletted.Stride copy(cr[0][1:], paletted.Pix[offset:offset+b.Dx()]) } else { pi := m.(image.PalettedImage) for x := b.Min.X; x < b.Max.X; x++ { cr[0][i] = pi.ColorIndexAt(x, y) i += 1 } } case cbP4, cbP2, cbP1: pi := m.(image.PalettedImage) var a uint8 var c int pixelsPerByte := 8 / bitsPerPixel for x := b.Min.X; x < b.Max.X; x++ { a = a<<uint(bitsPerPixel) | pi.ColorIndexAt(x, y) c++ if c == pixelsPerByte { cr[0][i] = a i += 1 a = 0 c = 0 } } if c != 0 { for c != pixelsPerByte { a = a << uint(bitsPerPixel) c++ } cr[0][i] = a } case cbTCA8: if nrgba != nil { offset := (y - b.Min.Y) * nrgba.Stride copy(cr[0][1:], nrgba.Pix[offset:offset+b.Dx()*4]) } else if rgba != nil { dst := cr[0][1:] src := rgba.Pix[rgba.PixOffset(b.Min.X, y):rgba.PixOffset(b.Max.X, y)] for ; len(src) >= 4; dst, src = dst[4:], src[4:] { d := (*[4]byte)(dst) s := (*[4]byte)(src) if s[3] == 0x00 { d[0] = 0 d[1] = 0 d[2] = 0 d[3] = 0 } else if s[3] == 0xff { copy(d[:], s[:]) } else { // This code does the same as color.NRGBAModel.Convert( // rgba.At(x, y)).(color.NRGBA) but with no extra memory // allocations or interface/function call overhead. // // The multiplier m combines 0x101 (which converts // 8-bit color to 16-bit color) and 0xffff (which, when // combined with the division-by-a, converts from // alpha-premultiplied to non-alpha-premultiplied). const m = 0x101 * 0xffff a := uint32(s[3]) * 0x101 d[0] = uint8((uint32(s[0]) * m / a) >> 8) d[1] = uint8((uint32(s[1]) * m / a) >> 8) d[2] = uint8((uint32(s[2]) * m / a) >> 8) d[3] = s[3] } } } else { // Convert from image.Image (which is alpha-premultiplied) to PNG's non-alpha-premultiplied. for x := b.Min.X; x < b.Max.X; x++ { c := color.NRGBAModel.Convert(m.At(x, y)).(color.NRGBA) cr[0][i+0] = c.R cr[0][i+1] = c.G cr[0][i+2] = c.B cr[0][i+3] = c.A i += 4 } } case cbG16: for x := b.Min.X; x < b.Max.X; x++ { c := color.Gray16Model.Convert(m.At(x, y)).(color.Gray16) cr[0][i+0] = uint8(c.Y >> 8) cr[0][i+1] = uint8(c.Y) i += 2 } case cbTC16: // We have previously verified that the alpha value is fully opaque. for x := b.Min.X; x < b.Max.X; x++ { r, g, b, _ := m.At(x, y).RGBA() cr[0][i+0] = uint8(r >> 8) cr[0][i+1] = uint8(r) cr[0][i+2] = uint8(g >> 8) cr[0][i+3] = uint8(g) cr[0][i+4] = uint8(b >> 8) cr[0][i+5] = uint8(b) i += 6 } case cbTCA16: // Convert from image.Image (which is alpha-premultiplied) to PNG's non-alpha-premultiplied. for x := b.Min.X; x < b.Max.X; x++ { c := color.NRGBA64Model.Convert(m.At(x, y)).(color.NRGBA64) cr[0][i+0] = uint8(c.R >> 8) cr[0][i+1] = uint8(c.R) cr[0][i+2] = uint8(c.G >> 8) cr[0][i+3] = uint8(c.G) cr[0][i+4] = uint8(c.B >> 8) cr[0][i+5] = uint8(c.B) cr[0][i+6] = uint8(c.A >> 8) cr[0][i+7] = uint8(c.A) i += 8 } } // Apply the filter. // Skip filter for NoCompression and paletted images (cbP8) as // "filters are rarely useful on palette images" and will result // in larger files (see http://www.libpng.org/pub/png/book/chapter09.html). f := ftNone if level != zlib.NoCompression && cb != cbP8 && cb != cbP4 && cb != cbP2 && cb != cbP1 { // Since we skip paletted images we don't have to worry about // bitsPerPixel not being a multiple of 8 bpp := bitsPerPixel / 8 f = filter(&cr, pr, bpp) } // Write the compressed bytes. if _, err := e.zw.Write(cr[f]); err != nil { return err } // The current row for y is the previous row for y+1. pr, cr[0] = cr[0], pr } return nil } // Write the actual image data to one or more IDAT chunks. func (e *encoder) writeIDATs() { if e.err != nil { return } if e.bw == nil { e.bw = bufio.NewWriterSize(e, 1<<15) } else { e.bw.Reset(e) } e.err = e.writeImage(e.bw, e.m, e.cb, levelToZlib(e.enc.CompressionLevel)) if e.err != nil { return } e.err = e.bw.Flush() } // This function is required because we want the zero value of // Encoder.CompressionLevel to map to zlib.DefaultCompression. func levelToZlib(l CompressionLevel) int { switch l { case DefaultCompression: return zlib.DefaultCompression case NoCompression: return zlib.NoCompression case BestSpeed: return zlib.BestSpeed case BestCompression: return zlib.BestCompression default: return zlib.DefaultCompression } } func (e *encoder) writeIEND() { e.writeChunk(nil, "IEND") } // Encode writes the Image m to w in PNG format. Any Image may be // encoded, but images that are not [image.NRGBA] might be encoded lossily. func Encode(w io.Writer, m image.Image) error { var e Encoder return e.Encode(w, m) } // Encode writes the Image m to w in PNG format. func (enc *Encoder) Encode(w io.Writer, m image.Image) error { // Obviously, negative widths and heights are invalid. Furthermore, the PNG // spec section 11.2.2 says that zero is invalid. Excessively large images are // also rejected. mw, mh := int64(m.Bounds().Dx()), int64(m.Bounds().Dy()) if mw <= 0 || mh <= 0 || mw >= 1<<32 || mh >= 1<<32 { return FormatError("invalid image size: " + strconv.FormatInt(mw, 10) + "x" + strconv.FormatInt(mh, 10)) } var e *encoder if enc.BufferPool != nil { buffer := enc.BufferPool.Get() e = (*encoder)(buffer) } if e == nil { e = &encoder{} } if enc.BufferPool != nil { defer enc.BufferPool.Put((*EncoderBuffer)(e)) } e.enc = enc e.w = w e.m = m var pal color.Palette // cbP8 encoding needs PalettedImage's ColorIndexAt method. if _, ok := m.(image.PalettedImage); ok { pal, _ = m.ColorModel().(color.Palette) } if pal != nil { if len(pal) <= 2 { e.cb = cbP1 } else if len(pal) <= 4 { e.cb = cbP2 } else if len(pal) <= 16 { e.cb = cbP4 } else { e.cb = cbP8 } } else { switch m.ColorModel() { case color.GrayModel: e.cb = cbG8 case color.Gray16Model: e.cb = cbG16 case color.RGBAModel, color.NRGBAModel, color.AlphaModel: if opaque(m) { e.cb = cbTC8 } else { e.cb = cbTCA8 } default: if opaque(m) { e.cb = cbTC16 } else { e.cb = cbTCA16 } } } _, e.err = io.WriteString(w, pngHeader) e.writeIHDR() if pal != nil { e.writePLTEAndTRNS(pal) } e.writeIDATs() e.writeIEND() return e.err }
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