Stu Leak
68df790d27
Major improvements to UnifiedPlayer: 1. GetFrameImage() now works when paused for responsive UI updates 2. Play() method properly starts FFmpeg process 3. Frame display loop runs continuously for smooth video display 4. Disabled audio temporarily to fix video playback fundamentals 5. Simplified FFmpeg command to focus on video stream only Player now: - Generates video frames correctly - Shows video when paused - Has responsive progress tracking - Starts playback properly Next steps: Re-enable audio playback once video is stable
374 lines
8.6 KiB
Go
374 lines
8.6 KiB
Go
// ◄◄◄ gobmp/writer.go ►►►
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// Copyright © 2012 Jason Summers
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// Use of this code is governed by an MIT-style license that can
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// be found in the readme.md file.
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//
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// BMP file encoder
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//
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package gobmp
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import "image"
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import "io"
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// EncoderOptions stores options that can be passed to EncodeWithOptions().
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// Create an EncoderOptions object with new().
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type EncoderOptions struct {
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densitySet bool
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xDens, yDens int
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supportTrns bool
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}
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// SetDensity sets the density to write to the output image's metadata, in
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// pixels per meter.
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func (opts *EncoderOptions) SetDensity(xDens, yDens int) {
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opts.densitySet = true
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opts.xDens = xDens
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opts.yDens = yDens
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}
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// SupportTransparency indicates whether to retain transparency information
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// when writing the BMP file. Transparency requires the use of a
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// not-so-portable version of BMP.
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func (opts *EncoderOptions) SupportTransparency(t bool) {
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opts.supportTrns = t
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}
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type encoder struct {
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opts *EncoderOptions
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w io.Writer
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m image.Image
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m_AsPaletted *image.Paletted
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srcBounds image.Rectangle
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width int
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height int
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dstStride int
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dstBitsSize int
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dstBitCount int
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dstBitsOffset int
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dstFileSize int
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writeAlpha bool
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writePaletted bool
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srcIsGray bool
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nColors int // Number of colors in palette; 0 if no palette
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headerSize int // 40 (for BMPv3) or 124 (for BMPv5)
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}
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func setWORD(b []byte, n uint16) {
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b[0] = byte(n)
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b[1] = byte(n >> 8)
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}
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func setDWORD(b []byte, n uint32) {
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b[0] = byte(n)
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b[1] = byte(n >> 8)
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b[2] = byte(n >> 16)
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b[3] = byte(n >> 24)
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}
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// Write the BITMAPFILEHEADER structure to a slice[14].
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func (e *encoder) generateFileHeader(h []byte) {
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h[0] = 0x42 // 'B'
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h[1] = 0x4d // 'M'
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setDWORD(h[2:6], uint32(e.dstFileSize))
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setDWORD(h[10:14], uint32(e.dstBitsOffset))
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}
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// Write the BITMAPINFOHEADER structure to a slice[40] or [124].
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func (e *encoder) generateInfoHeader(h []byte) {
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setDWORD(h[0:4], uint32(e.headerSize))
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setDWORD(h[4:8], uint32(e.width))
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setDWORD(h[8:12], uint32(e.height))
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setWORD(h[12:14], 1) // biPlanes
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setWORD(h[14:16], uint16(e.dstBitCount))
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if e.writeAlpha {
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setWORD(h[16:20], 3) // "Compression" = BI_BITFIELDS
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}
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setDWORD(h[20:24], uint32(e.dstBitsSize))
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if e.opts.densitySet {
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setDWORD(h[24:28], uint32(e.opts.xDens))
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setDWORD(h[28:32], uint32(e.opts.yDens))
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} else {
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setDWORD(h[24:28], 2835)
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setDWORD(h[28:32], 2835)
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}
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setDWORD(h[32:36], uint32(e.nColors))
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if len(h) == 124 {
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// Set V5 header fields
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setDWORD(h[40:44], 0x00ff0000) // RedMask
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setDWORD(h[44:48], 0x0000ff00) // GreenMask
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setDWORD(h[48:52], 0x000000ff) // BlueMask
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setDWORD(h[52:56], 0xff000000) // AlphaMask
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setDWORD(h[56:60], 0x73524742) // CSType = sRGB
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setDWORD(h[108:112], 4) // Intent = IMAGES (perceptual)
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}
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}
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func (e *encoder) writeHeaders() error {
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h := make([]byte, 14+e.headerSize)
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e.generateFileHeader(h[:14])
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e.generateInfoHeader(h[14:])
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_, err := e.w.Write(h[:])
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return err
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}
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func (e *encoder) writePalette() error {
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if !e.writePaletted {
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return nil
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}
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pal := make([]uint8, 4*e.nColors)
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for i := 0; i < e.nColors; i++ {
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var r, g, b uint32
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if e.srcIsGray {
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// Manufacture a grayscale palette.
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r = uint32(i) << 8
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g, b = r, r
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} else {
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r, g, b, _ = e.m_AsPaletted.Palette[i].RGBA()
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}
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pal[4*i+0] = uint8(b >> 8)
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pal[4*i+1] = uint8(g >> 8)
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pal[4*i+2] = uint8(r >> 8)
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}
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_, err := e.w.Write(pal)
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return err
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}
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// Read a row from the (paletted) source image, and store it in rowBuf in 1-bit
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// BMP format.
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func generateRow_1(e *encoder, j int, rowBuf []byte) {
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for i := range rowBuf {
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rowBuf[i] = 0
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}
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for i := 0; i < e.width; i++ {
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if e.m_AsPaletted.Pix[j*e.m_AsPaletted.Stride+i] != 0 {
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rowBuf[i/8] |= uint8(1 << uint(7-i%8))
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}
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}
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}
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// Read a row from the (paletted) source image, and store it in rowBuf in 4-bit
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// BMP format.
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func generateRow_4(e *encoder, j int, rowBuf []byte) {
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for i := range rowBuf {
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rowBuf[i] = 0
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}
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for i := 0; i < e.width; i++ {
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v := e.m_AsPaletted.Pix[j*e.m_AsPaletted.Stride+i]
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if i%2 == 0 {
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v <<= 4
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}
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rowBuf[i/2] |= v
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}
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}
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// Read a row from the (paletted) source image, and store it in rowBuf in 8-bit
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// BMP format.
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func generateRow_8(e *encoder, j int, rowBuf []byte) {
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copy(rowBuf[0:e.width], e.m_AsPaletted.Pix[j*e.m_AsPaletted.Stride:])
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}
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// Read a row from the (grayscale) source image, and store it in rowBuf in
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// 8-bit BMP format.
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func generateRow_GrayPal(e *encoder, j int, rowBuf []byte) {
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for i := 0; i < e.width; i++ {
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srcclr := e.m.At(e.srcBounds.Min.X+i, e.srcBounds.Min.Y+j)
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r, _, _, _ := srcclr.RGBA()
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rowBuf[i] = uint8(r >> 8)
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}
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}
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// Read a row from the source image, and store it in rowBuf in 24-bit BMP format.
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func generateRow_24(e *encoder, j int, rowBuf []byte) {
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var s [3]uint32
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for i := 0; i < e.width; i++ {
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srcclr := e.m.At(e.srcBounds.Min.X+i, e.srcBounds.Min.Y+j)
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s[2], s[1], s[0], _ = srcclr.RGBA()
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for k := 0; k < 3; k++ {
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rowBuf[i*3+k] = uint8(s[k] >> 8)
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}
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}
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}
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// Read a row from the source image, and store it in rowBuf in 32-bit BMP format.
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func generateRow_32(e *encoder, j int, rowBuf []byte) {
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var s [4]uint32
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for i := 0; i < e.width; i++ {
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srcclr := e.m.At(e.srcBounds.Min.X+i, e.srcBounds.Min.Y+j)
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s[2], s[1], s[0], s[3] = srcclr.RGBA()
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for k := 0; k < 4; k++ {
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if s[3] == 0 {
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rowBuf[i*4+k] = 0
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} else if k == 3 || s[3] == 0xffff {
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rowBuf[i*4+k] = uint8(s[k] >> 8)
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} else {
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// Convert to unassociated alpha
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rowBuf[i*4+k] = uint8(0.5 + 255.0*(float64(s[k])/float64(s[3])))
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}
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}
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}
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}
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func (e *encoder) writeBits() error {
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var err error
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var genRowFunc func(e *encoder, j int, rowBuf []byte)
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if e.writePaletted {
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if e.srcIsGray {
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genRowFunc = generateRow_GrayPal
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} else {
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switch e.dstBitCount {
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case 1:
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genRowFunc = generateRow_1
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case 4:
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genRowFunc = generateRow_4
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default:
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genRowFunc = generateRow_8
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}
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}
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} else {
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if e.dstBitCount == 32 {
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genRowFunc = generateRow_32
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} else {
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genRowFunc = generateRow_24
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}
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}
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rowBuf := make([]byte, e.dstStride)
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for j := 0; j < e.height; j++ {
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genRowFunc(e, e.height-j-1, rowBuf)
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_, err = e.w.Write(rowBuf)
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if err != nil {
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return err
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}
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}
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return nil
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}
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// If the image can be written as a paletted image, sets e.writePaletted
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// to true, and sets related fields.
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func (e *encoder) checkPaletted() {
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if e.writeAlpha {
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return
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}
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switch e.m.(type) {
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case *image.Paletted:
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e.m_AsPaletted = e.m.(*image.Paletted)
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e.nColors = len(e.m_AsPaletted.Palette)
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if e.nColors < 1 || e.nColors > 256 {
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e.m_AsPaletted = nil
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e.nColors = 0
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return
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}
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e.writePaletted = true
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case *image.Gray, *image.Gray16:
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e.srcIsGray = true
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e.writePaletted = true
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e.nColors = 256
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}
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}
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func (e *encoder) srcIsOpaque() bool {
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switch e.m.(type) {
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// If the image's type doesn't even support transparency, it must be opaque.
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case *image.YCbCr, *image.Gray, *image.Gray16:
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return true
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}
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for j := e.srcBounds.Min.Y; j < e.srcBounds.Max.Y; j++ {
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for i := e.srcBounds.Min.X; i < e.srcBounds.Max.X; i++ {
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_, _, _, a := e.m.At(i, j).RGBA()
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if a < 0xffff {
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return false
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}
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}
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}
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return true
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}
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// Plot out the structure of the file that we're going to write.
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func (e *encoder) strategize() error {
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e.srcBounds = e.m.Bounds()
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e.width = e.srcBounds.Dx()
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e.height = e.srcBounds.Dy()
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if e.opts.supportTrns && !e.srcIsOpaque() {
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e.writeAlpha = true
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e.headerSize = 124
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} else {
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e.headerSize = 40
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}
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e.checkPaletted()
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if e.writePaletted {
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if e.nColors <= 2 {
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e.dstBitCount = 1
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} else if e.nColors <= 16 {
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e.dstBitCount = 4
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} else {
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e.dstBitCount = 8
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}
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} else {
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if e.writeAlpha {
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e.dstBitCount = 32
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} else {
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e.dstBitCount = 24
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}
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}
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e.dstStride = ((e.width*e.dstBitCount + 31) / 32) * 4
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e.dstBitsOffset = 14 + e.headerSize + 4*e.nColors
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e.dstBitsSize = e.height * e.dstStride
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e.dstFileSize = e.dstBitsOffset + e.dstBitsSize
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return nil
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}
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// EncodeWithOptions writes the Image m to w in BMP format, using the options
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// recorded in opts.
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// opts may be nil, in which case it behaves the same as Encode.
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func EncodeWithOptions(w io.Writer, m image.Image, opts *EncoderOptions) error {
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var err error
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e := new(encoder)
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e.w = w
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e.m = m
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if opts != nil {
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e.opts = opts
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} else {
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e.opts = new(EncoderOptions)
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}
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err = e.strategize()
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if err != nil {
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return err
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}
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err = e.writeHeaders()
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if err != nil {
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return err
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}
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err = e.writePalette()
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if err != nil {
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return err
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}
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err = e.writeBits()
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if err != nil {
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return err
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}
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return nil
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}
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// Encode writes the Image m to w in BMP format.
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func Encode(w io.Writer, m image.Image) error {
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return EncodeWithOptions(w, m, nil)
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}
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