320 lines
8.6 KiB
Go
320 lines
8.6 KiB
Go
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package xgraphics
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/*
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xgraphics/new.go contains a few additional constructors for creating an
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xgraphics.Image.
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*/
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import (
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"bytes"
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"fmt"
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"image"
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_ "image/gif"
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_ "image/jpeg"
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_ "image/png"
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"os"
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"github.com/jezek/xgb/xproto"
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"github.com/jezek/xgbutil"
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"github.com/jezek/xgbutil/ewmh"
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"github.com/jezek/xgbutil/xwindow"
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)
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// NewConvert converts any image satisfying the image.Image interface to an
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// xgraphics.Image type.
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// If 'img' is an xgraphics.Image, it will be copied and a new image will
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// be returned.
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// Also, NewConvert attempts to optimize image conversion for some image
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// formats. (i.e., *image.RGBA.)
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func NewConvert(X *xgbutil.XUtil, img image.Image) *Image {
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ximg := New(X, img.Bounds())
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// I've attempted to optimize this loop.
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// It actually takes more time to convert an image than to send the bytes
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// over the wire. (I suspect 'copy' is super fast, which can be used in
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// XDraw, whereas computing each pixel is super slow.)
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// But how is image decoding so much faster than this? I'll have to
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// investigate... Maybe the Color interface being used here is the real
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// slow down.
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switch concrete := img.(type) {
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case *image.NRGBA:
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convertNRGBA(ximg, concrete)
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case *image.NRGBA64:
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convertNRGBA64(ximg, concrete)
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case *image.RGBA:
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convertRGBA(ximg, concrete)
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case *image.RGBA64:
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convertRGBA64(ximg, concrete)
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case *image.YCbCr:
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convertYCbCr(ximg, concrete)
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case *Image:
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convertXImage(ximg, concrete)
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default:
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xgbutil.Logger.Printf("Converting image type %T the slow way. "+
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"Optimization for this image type hasn't been added yet.", img)
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convertImage(ximg, img)
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}
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return ximg
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}
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// NewFileName uses the image package's decoder and converts a file specified
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// by fileName to an xgraphics.Image value.
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// Opening a file or decoding an image can cause an error.
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func NewFileName(X *xgbutil.XUtil, fileName string) (*Image, error) {
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srcReader, err := os.Open(fileName)
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if err != nil {
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return nil, err
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}
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defer srcReader.Close()
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img, _, err := image.Decode(srcReader)
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if err != nil {
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return nil, err
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}
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return NewConvert(X, img), nil
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}
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// NewBytes uses the image package's decoder to convert the bytes given to
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// an xgraphics.Imag value.
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// Decoding an image can cause an error.
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func NewBytes(X *xgbutil.XUtil, bs []byte) (*Image, error) {
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img, _, err := image.Decode(bytes.NewReader(bs))
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if err != nil {
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return nil, err
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}
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return NewConvert(X, img), nil
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}
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// NewEwmhIcon converts EWMH icon data (ARGB) to an xgraphics.Image type.
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// You should probably use xgraphics.FindIcon instead of this directly.
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func NewEwmhIcon(X *xgbutil.XUtil, icon *ewmh.WmIcon) *Image {
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ximg := New(X, image.Rect(0, 0, int(icon.Width), int(icon.Height)))
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r := ximg.Rect
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width := r.Dx()
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var argb, x, y int
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for x = r.Min.X; x < r.Max.X; x++ {
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for y = r.Min.Y; y < r.Max.Y; y++ {
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argb = int(icon.Data[x+(y*width)])
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ximg.SetBGRA(x, y, BGRA{
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B: uint8(argb & 0x000000ff),
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G: uint8((argb & 0x0000ff00) >> 8),
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R: uint8((argb & 0x00ff0000) >> 16),
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A: uint8(argb >> 24),
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})
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}
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}
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return ximg
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}
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// NewIcccmIcon converts two pixmap ids (icon_pixmap and icon_mask in the
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// WM_HINTS properts) to a single xgraphics.Image.
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// It is okay for one of iconPixmap or iconMask to be 0, but not both.
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// You should probably use xgraphics.FindIcon instead of this directly.
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func NewIcccmIcon(X *xgbutil.XUtil, iconPixmap,
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iconMask xproto.Pixmap) (*Image, error) {
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if iconPixmap == 0 && iconMask == 0 {
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return nil, fmt.Errorf("NewIcccmIcon: At least one of iconPixmap or " +
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"iconMask must be non-zero, but both are 0.")
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}
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var pximg, mximg *Image
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var err error
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// Get the xgraphics.Image for iconPixmap.
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if iconPixmap != 0 {
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pximg, err = NewDrawable(X, xproto.Drawable(iconPixmap))
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if err != nil {
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return nil, err
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}
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}
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// Now get the xgraphics.Image for iconMask.
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if iconMask != 0 {
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mximg, err = NewDrawable(X, xproto.Drawable(iconMask))
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if err != nil {
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return nil, err
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}
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}
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// Now merge them together if both were specified.
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switch {
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case pximg != nil && mximg != nil:
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r := pximg.Bounds()
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var x, y int
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var bgra, maskBgra BGRA
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for x = r.Min.X; x < r.Max.X; x++ {
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for y = r.Min.Y; y < r.Max.Y; y++ {
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maskBgra = mximg.At(x, y).(BGRA)
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bgra = pximg.At(x, y).(BGRA)
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if maskBgra.A == 0 {
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pximg.SetBGRA(x, y, BGRA{
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B: bgra.B,
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G: bgra.G,
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R: bgra.R,
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A: 0,
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})
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}
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}
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}
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return pximg, nil
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case pximg != nil:
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return pximg, nil
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case mximg != nil:
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return mximg, nil
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}
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panic("unreachable")
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}
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// NewDrawable converts an X drawable into a xgraphics.Image.
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// This is used in NewIcccmIcon.
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func NewDrawable(X *xgbutil.XUtil, did xproto.Drawable) (*Image, error) {
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// Get the geometry of the pixmap for use in the GetImage request.
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pgeom, err := xwindow.RawGeometry(X, xproto.Drawable(did))
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if err != nil {
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return nil, err
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}
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// Get the image data for each pixmap.
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pixmapData, err := xproto.GetImage(X.Conn(), xproto.ImageFormatZPixmap,
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did,
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0, 0, uint16(pgeom.Width()), uint16(pgeom.Height()),
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(1<<32)-1).Reply()
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if err != nil {
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return nil, err
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}
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// Now create the xgraphics.Image and populate it with data from
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// pixmapData and maskData.
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ximg := New(X, image.Rect(0, 0, pgeom.Width(), pgeom.Height()))
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// We'll try to be a little flexible with the image format returned,
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// but not completely flexible.
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err = readDrawableData(X, ximg, did, pixmapData,
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pgeom.Width(), pgeom.Height())
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if err != nil {
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return nil, err
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}
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return ximg, nil
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}
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// readDrawableData uses Format information to read data from an X pixmap
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// into an xgraphics.Image.
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// readPixmapData does not take into account all information possible to read
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// X pixmaps and bitmaps. Of particular note is bit order/byte order.
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func readDrawableData(X *xgbutil.XUtil, ximg *Image, did xproto.Drawable,
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imgData *xproto.GetImageReply, width, height int) error {
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format := GetFormat(X, imgData.Depth)
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if format == nil {
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return fmt.Errorf("Could not find valid format for pixmap %d "+
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"with depth %d", did, imgData.Depth)
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}
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switch format.Depth {
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case 1: // We read bitmaps in as alpha masks.
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if format.BitsPerPixel != 1 {
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return fmt.Errorf("The image returned for pixmap id %d with "+
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"depth %d has an unsupported value for bits-per-pixel: %d",
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did, format.Depth, format.BitsPerPixel)
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}
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// Calculate the padded width of our image data.
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pad := int(X.Setup().BitmapFormatScanlinePad)
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paddedWidth := width
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if width%pad != 0 {
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paddedWidth = width + pad - (width % pad)
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}
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// Process one scanline at a time. Each 'y' represents a
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// single scanline.
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for y := 0; y < height; y++ {
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// Each scanline has length 'width' padded to
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// BitmapFormatScanlinePad, which is found in the X setup info.
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// 'i' is the index to the starting byte of the yth scanline.
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i := y * paddedWidth / 8
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for x := 0; x < width; x++ {
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b := imgData.Data[i+x/8] >> uint(x%8)
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if b&1 > 0 { // opaque
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ximg.Set(x, y, BGRA{0x0, 0x0, 0x0, 0xff})
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} else { // transparent
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ximg.Set(x, y, BGRA{0xff, 0xff, 0xff, 0x0})
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}
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}
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}
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case 24, 32:
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switch format.BitsPerPixel {
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case 24:
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bytesPer := int(format.BitsPerPixel) / 8
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var i int
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ximg.For(func(x, y int) BGRA {
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i = y*width*bytesPer + x*bytesPer
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return BGRA{
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B: imgData.Data[i],
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G: imgData.Data[i+1],
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R: imgData.Data[i+2],
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A: 0xff,
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}
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})
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case 32:
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bytesPer := int(format.BitsPerPixel) / 8
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var i int
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ximg.For(func(x, y int) BGRA {
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i = y*width*bytesPer + x*bytesPer
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return BGRA{
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B: imgData.Data[i],
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G: imgData.Data[i+1],
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R: imgData.Data[i+2],
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A: imgData.Data[i+3],
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}
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})
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default:
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return fmt.Errorf("The image returned for pixmap id %d has "+
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"an unsupported value for bits-per-pixel: %d",
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did, format.BitsPerPixel)
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}
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default:
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return fmt.Errorf("The image returned for pixmap id %d has an "+
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"unsupported value for depth: %d", did, format.Depth)
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}
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return nil
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}
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// GetFormat searches SetupInfo for a Format matching the depth provided.
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func GetFormat(X *xgbutil.XUtil, depth byte) *xproto.Format {
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for _, pixForm := range X.Setup().PixmapFormats {
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if pixForm.Depth == depth {
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return &pixForm
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}
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}
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return nil
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}
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// getVisualInfo searches SetupInfo for a VisualInfo value matching
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// the depth provided.
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// XXX: This isn't used (yet).
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func getVisualInfo(X *xgbutil.XUtil, depth byte,
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visualid xproto.Visualid) *xproto.VisualInfo {
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for _, depthInfo := range X.Screen().AllowedDepths {
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fmt.Printf("%#v\n", depthInfo)
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// fmt.Printf("%#v\n", depthInfo.Visuals)
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fmt.Println("------------")
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if depthInfo.Depth == depth {
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for _, visual := range depthInfo.Visuals {
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if visual.VisualId == visualid {
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return &visual
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}
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}
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}
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}
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return nil
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}
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