/* * $Id: cursor.c,v 1.1 2006/11/25 17:00:28 matthieu Exp $ * * Copyright © 2002 Keith Packard * * Permission to use, copy, modify, distribute, and sell this software and its * documentation for any purpose is hereby granted without fee, provided that * the above copyright notice appear in all copies and that both that * copyright notice and this permission notice appear in supporting * documentation, and that the name of Keith Packard not be used in * advertising or publicity pertaining to distribution of the software without * specific, written prior permission. Keith Packard makes no * representations about the suitability of this software for any purpose. It * is provided "as is" without express or implied warranty. * * KEITH PACKARD DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, * INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO * EVENT SHALL KEITH PACKARD BE LIABLE FOR ANY SPECIAL, INDIRECT OR * CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, * DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER * TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR * PERFORMANCE OF THIS SOFTWARE. */ #include "xcursorint.h" #include #include XcursorCursors * XcursorCursorsCreate (Display *dpy, int size) { XcursorCursors *cursors; cursors = malloc (sizeof (XcursorCursors) + size * sizeof (Cursor)); if (!cursors) return NULL; cursors->ref = 1; cursors->dpy = dpy; cursors->ncursor = 0; cursors->cursors = (Cursor *) (cursors + 1); return cursors; } void XcursorCursorsDestroy (XcursorCursors *cursors) { int n; if (!cursors) return; --cursors->ref; if (cursors->ref > 0) return; for (n = 0; n < cursors->ncursor; n++) XFreeCursor (cursors->dpy, cursors->cursors[n]); free (cursors); } XcursorAnimate * XcursorAnimateCreate (XcursorCursors *cursors) { XcursorAnimate *animate; animate = malloc (sizeof (XcursorAnimate)); if (!animate) return NULL; animate->cursors = cursors; cursors->ref++; animate->sequence = 0; return animate; } void XcursorAnimateDestroy (XcursorAnimate *animate) { if (!animate) return; XcursorCursorsDestroy (animate->cursors); free (animate); } Cursor XcursorAnimateNext (XcursorAnimate *animate) { Cursor cursor = animate->cursors->cursors[animate->sequence++]; if (animate->sequence >= animate->cursors->ncursor) animate->sequence = 0; return cursor; } static int nativeByteOrder (void) { int x = 1; return (*((char *) &x) == 1) ? LSBFirst : MSBFirst; } static XcursorUInt _XcursorPixelBrightness (XcursorPixel p) { XcursorPixel alpha = p >> 24; XcursorPixel r, g, b; if (!alpha) return 0; r = ((p >> 8) & 0xff00) / alpha; if (r > 0xff) r = 0xff; g = ((p >> 0) & 0xff00) / alpha; if (g > 0xff) g = 0xff; b = ((p << 8) & 0xff00) / alpha; if (b > 0xff) b = 0xff; return (r * 153 + g * 301 + b * 58) >> 9; } static unsigned short _XcursorDivideAlpha (XcursorUInt value, XcursorUInt alpha) { if (!alpha) return 0; value = value * 255 / alpha; if (value > 255) value = 255; return value | (value << 8); } static void _XcursorPixelToColor (XcursorPixel p, XColor *color) { XcursorPixel alpha = p >> 24; color->pixel = 0; color->red = _XcursorDivideAlpha ((p >> 16) & 0xff, alpha); color->green = _XcursorDivideAlpha ((p >> 8) & 0xff, alpha); color->blue = _XcursorDivideAlpha ((p >> 0) & 0xff, alpha); color->flags = DoRed|DoGreen|DoBlue; } #undef DEBUG_IMAGE #ifdef DEBUG_IMAGE static void _XcursorDumpImage (XImage *image) { FILE *f = fopen ("/tmp/images", "a"); int x, y; if (!f) return; fprintf (f, "%d x %x\n", image->width, image->height); for (y = 0; y < image->height; y++) { for (x = 0; x < image->width; x++) fprintf (f, "%c", XGetPixel (image, x, y) ? '*' : ' '); fprintf (f, "\n"); } fflush (f); fclose (f); } static void _XcursorDumpColor (XColor *color, char *name) { FILE *f = fopen ("/tmp/images", "a"); fprintf (f, "%s: %x %x %x\n", name, color->red, color->green, color->blue); fflush (f); fclose (f); } #endif static int _XcursorCompareRed (const void *a, const void *b) { const XcursorPixel *ap = a, *bp = b; return (int) (((*ap >> 16) & 0xff) - ((*bp >> 16) & 0xff)); } static int _XcursorCompareGreen (const void *a, const void *b) { const XcursorPixel *ap = a, *bp = b; return (int) (((*ap >> 8) & 0xff) - ((*bp >> 8) & 0xff)); } static int _XcursorCompareBlue (const void *a, const void *b) { const XcursorPixel *ap = a, *bp = b; return (int) (((*ap >> 0) & 0xff) - ((*bp >> 0) & 0xff)); } static XcursorPixel _XcursorAverageColor (XcursorPixel *pixels, int npixels) { XcursorPixel p; XcursorPixel red, green, blue; int n = npixels; blue = green = red = 0; while (n--) { p = *pixels++; red += (p >> 16) & 0xff; green += (p >> 8) & 0xff; blue += (p >> 0) & 0xff; } if (!n) return 0; return (0xff << 24) | ((red/npixels) << 16) | ((green/npixels) << 8) | (blue/npixels); } typedef struct XcursorCoreCursor { XImage *src_image; XImage *msk_image; XColor on_color; XColor off_color; } XcursorCoreCursor; static Bool _XcursorHeckbertMedianCut (const XcursorImage *image, XcursorCoreCursor *core) { XImage *src_image = core->src_image, *msk_image = core->msk_image; int npixels = image->width * image->height; int ncolors; int n; XcursorPixel *po, *pn, *pc; XcursorPixel p; XcursorPixel red, green, blue, alpha; XcursorPixel max_red, min_red, max_green, min_green, max_blue, min_blue; XcursorPixel *temp, *pixels, *colors; int split; XcursorPixel leftColor, centerColor, rightColor; int (*compare) (const void *, const void *); int x, y; /* * Temp space for converted image and converted colors */ temp = malloc (npixels * sizeof (XcursorPixel) * 2); if (!temp) return False; pixels = temp; colors = pixels + npixels; /* * Convert to 2-value alpha and build * array of opaque color values and an */ po = image->pixels; pn = pixels; pc = colors; max_blue = max_green = max_red = 0; min_blue = min_green = min_red = 255; n = npixels; while (n--) { p = *po++; alpha = (p >> 24) & 0xff; red = (p >> 16) & 0xff; green = (p >> 8) & 0xff; blue = (p >> 0) & 0xff; if (alpha >= 0x80) { red = red * 255 / alpha; green = green * 255 / alpha; blue = blue * 255 / alpha; if (red < min_red) min_red = red; if (red > max_red) max_red = red; if (green < min_green) min_green = green; if (green > max_green) max_green = green; if (blue < min_blue) min_blue = blue; if (blue > max_blue) max_blue = blue; p = ((0xff << 24) | (red << 16) | (green << 8) | (blue << 0)); *pc++ = p; } else p = 0; *pn++ = p; } ncolors = pc - colors; /* * Compute longest dimension and sort */ if ((max_green - min_green) >= (max_red - min_red) && (max_green - min_green) >= (max_blue - min_blue)) compare = _XcursorCompareGreen; else if ((max_red - min_red) >= (max_blue - min_blue)) compare = _XcursorCompareRed; else compare = _XcursorCompareBlue; qsort (colors, ncolors, sizeof (XcursorPixel), compare); /* * Compute average colors on both sides of the cut */ split = ncolors >> 1; leftColor = _XcursorAverageColor (colors, split); centerColor = colors[split]; rightColor = _XcursorAverageColor (colors + split, ncolors - split); /* * Select best color for each pixel */ pn = pixels; for (y = 0; y < image->height; y++) for (x = 0; x < image->width; x++) { p = *pn++; if (p & 0xff000000) { XPutPixel (msk_image, x, y, 1); if ((*compare) (&p, ¢erColor) >= 0) XPutPixel (src_image, x, y, 0); else XPutPixel (src_image, x, y, 1); } else { XPutPixel (msk_image, x, y, 0); XPutPixel (src_image, x, y, 0); } } free (temp); _XcursorPixelToColor (rightColor, &core->off_color); _XcursorPixelToColor (leftColor, &core->on_color); return True; } #if 0 #define DITHER_DIM 4 static XcursorPixel orderedDither[4][4] = { { 1, 9, 3, 11 }, { 13, 5, 15, 7 }, { 4, 12, 2, 10 }, { 16, 8, 14, 6 } }; #else #define DITHER_DIM 2 static XcursorPixel orderedDither[2][2] = { { 1, 3, }, { 4, 2, }, }; #endif #define DITHER_SIZE ((sizeof orderedDither / sizeof orderedDither[0][0]) + 1) static Bool _XcursorBayerOrderedDither (const XcursorImage *image, XcursorCoreCursor *core) { int x, y; XcursorPixel *pixel, p; XcursorPixel a, i, d; pixel = image->pixels; for (y = 0; y < image->height; y++) for (x = 0; x < image->width; x++) { p = *pixel++; a = ((p >> 24) * DITHER_SIZE + 127) / 255; i = (_XcursorPixelBrightness (p) * DITHER_SIZE + 127) / 255; d = orderedDither[y&(DITHER_DIM-1)][x&(DITHER_DIM-1)]; if (a > d) { XPutPixel (core->msk_image, x, y, 1); if (i > d) XPutPixel (core->src_image, x, y, 0); /* white */ else XPutPixel (core->src_image, x, y, 1); /* black */ } else { XPutPixel (core->msk_image, x, y, 0); XPutPixel (core->src_image, x, y, 0); } } core->on_color.red = 0; core->on_color.green = 0; core->on_color.blue = 0; core->off_color.red = 0xffff; core->off_color.green = 0xffff; core->off_color.blue = 0xffff; return True; } static Bool _XcursorFloydSteinberg (const XcursorImage *image, XcursorCoreCursor *core) { int *aPicture, *iPicture, *aP, *iP; XcursorPixel *pixel, p; int aR, iR, aA, iA; int npixels = image->width * image->height; int n; int right = 1; int belowLeft = image->width - 1; int below = image->width; int belowRight = image->width + 1; int iError, aError; int iErrorRight, aErrorRight; int iErrorBelowLeft, aErrorBelowLeft; int iErrorBelow, aErrorBelow; int iErrorBelowRight, aErrorBelowRight; int x, y; int max_inten, min_inten, mean_inten; iPicture = malloc (npixels * sizeof (int) * 2); if (!iPicture) return False; aPicture = iPicture + npixels; /* * Compute raw gray and alpha arrays */ pixel = image->pixels; iP = iPicture; aP = aPicture; n = npixels; max_inten = 0; min_inten = 0xff; while (n--) { p = *pixel++; *aP++ = (int) (p >> 24); iR = (int) _XcursorPixelBrightness (p); if (iR > max_inten) max_inten = iR; if (iR < min_inten) min_inten = iR; *iP++ = iR; } /* * Draw the image while diffusing the error */ iP = iPicture; aP = aPicture; mean_inten = (max_inten + min_inten + 1) >> 1; for (y = 0; y < image->height; y++) for (x = 0; x < image->width; x++) { aR = *aP; iR = *iP; if (aR >= 0x80) { XPutPixel (core->msk_image, x, y, 1); aA = 0xff; } else { XPutPixel (core->msk_image, x, y, 0); aA = 0x00; } if (iR >= mean_inten) { XPutPixel (core->src_image, x, y, 0); iA = max_inten; } else { XPutPixel (core->src_image, x, y, 1); iA = min_inten; } iError = iR - iA; aError = aR - aA; iErrorRight = (iError * 7) >> 4; iErrorBelowLeft = (iError * 3) >> 4; iErrorBelow = (iError * 5) >> 4; iErrorBelowRight = (iError - iErrorRight - iErrorBelowLeft - iErrorBelow); aErrorRight = (aError * 7) >> 4; aErrorBelowLeft = (aError * 3) >> 4; aErrorBelow = (aError * 5) >> 4; aErrorBelowRight = (aError - aErrorRight - aErrorBelowLeft - aErrorBelow); if (x < image->width - 1) { iP[right] += iErrorRight; aP[right] += aErrorRight; } if (y < image->height - 1) { if (x) { iP[belowLeft] += iErrorBelowLeft; aP[belowLeft] += aErrorBelowLeft; } iP[below] += iErrorBelow; aP[below] += aErrorBelow; if (x < image->width - 1) { iP[belowRight] += iErrorBelowRight; aP[belowRight] += aErrorBelowRight; } } aP++; iP++; } free (iPicture); core->on_color.red = core->on_color.green = core->on_color.blue = (min_inten | min_inten << 8); core->off_color.red = core->off_color.green = core->off_color.blue = (max_inten | max_inten << 8); return True; } static Bool _XcursorThreshold (const XcursorImage *image, XcursorCoreCursor *core) { XcursorPixel *pixel, p; int x, y; /* * Draw the image, picking black for dark pixels and white for light */ pixel = image->pixels; for (y = 0; y < image->height; y++) for (x = 0; x < image->width; x++) { p = *pixel++; if ((p >> 24) >= 0x80) { XPutPixel (core->msk_image, x, y, 1); if (_XcursorPixelBrightness (p) > 0x80) XPutPixel (core->src_image, x, y, 0); else XPutPixel (core->src_image, x, y, 1); } else { XPutPixel (core->msk_image, x, y, 0); XPutPixel (core->src_image, x, y, 0); } } core->on_color.red = core->on_color.green = core->on_color.blue = 0; core->off_color.red = core->off_color.green = core->off_color.blue = 0xffff; return True; } Cursor XcursorImageLoadCursor (Display *dpy, const XcursorImage *image) { Cursor cursor; #if RENDER_MAJOR > 0 || RENDER_MINOR >= 5 if (XcursorSupportsARGB (dpy)) { XImage ximage; int screen = DefaultScreen (dpy); Pixmap pixmap; Picture picture; GC gc; XRenderPictFormat *format; ximage.width = image->width; ximage.height = image->height; ximage.xoffset = 0; ximage.format = ZPixmap; ximage.data = (char *) image->pixels; ximage.byte_order = nativeByteOrder (); ximage.bitmap_unit = 32; ximage.bitmap_bit_order = ximage.byte_order; ximage.bitmap_pad = 32; ximage.depth = 32; ximage.bits_per_pixel = 32; ximage.bytes_per_line = image->width * 4; ximage.red_mask = 0xff0000; ximage.green_mask = 0x00ff00; ximage.blue_mask = 0x0000ff; ximage.obdata = NULL; if (!XInitImage (&ximage)) return None; pixmap = XCreatePixmap (dpy, RootWindow (dpy, screen), image->width, image->height, 32); gc = XCreateGC (dpy, pixmap, 0, NULL); XPutImage (dpy, pixmap, gc, &ximage, 0, 0, 0, 0, image->width, image->height); XFreeGC (dpy, gc); format = XRenderFindStandardFormat (dpy, PictStandardARGB32); picture = XRenderCreatePicture (dpy, pixmap, format, 0, NULL); XFreePixmap (dpy, pixmap); cursor = XRenderCreateCursor (dpy, picture, image->xhot, image->yhot); XRenderFreePicture (dpy, picture); } else #endif { XcursorDisplayInfo *info = _XcursorGetDisplayInfo (dpy); int screen = DefaultScreen (dpy); XcursorCoreCursor core; Pixmap src_pixmap, msk_pixmap; GC gc; XGCValues gcv; core.src_image = XCreateImage (dpy, NULL, 1, ZPixmap, 0, NULL, image->width, image->height, 32, 0); core.src_image->data = Xmalloc (image->height * core.src_image->bytes_per_line); core.msk_image = XCreateImage (dpy, NULL, 1, ZPixmap, 0, NULL, image->width, image->height, 32, 0); core.msk_image->data = Xmalloc (image->height * core.msk_image->bytes_per_line); switch (info->dither) { case XcursorDitherThreshold: if (!_XcursorThreshold (image, &core)) return 0; break; case XcursorDitherMedian: if (!_XcursorHeckbertMedianCut (image, &core)) return 0; break; case XcursorDitherOrdered: if (!_XcursorBayerOrderedDither (image, &core)) return 0; break; case XcursorDitherDiffuse: if (!_XcursorFloydSteinberg (image, &core)) return 0; break; default: return 0; } /* * Create the cursor */ src_pixmap = XCreatePixmap (dpy, RootWindow (dpy, screen), image->width, image->height, 1); msk_pixmap = XCreatePixmap (dpy, RootWindow (dpy, screen), image->width, image->height, 1); gcv.foreground = 1; gcv.background = 0; gc = XCreateGC (dpy, src_pixmap, GCForeground|GCBackground, &gcv); XPutImage (dpy, src_pixmap, gc, core.src_image, 0, 0, 0, 0, image->width, image->height); XPutImage (dpy, msk_pixmap, gc, core.msk_image, 0, 0, 0, 0, image->width, image->height); XFreeGC (dpy, gc); #ifdef DEBUG_IMAGE _XcursorDumpColor (&core.on_color, "on_color"); _XcursorDumpColor (&core.off_color, "off_color"); _XcursorDumpImage (core.src_image); _XcursorDumpImage (core.msk_image); #endif XDestroyImage (core.src_image); XDestroyImage (core.msk_image); cursor = XCreatePixmapCursor (dpy, src_pixmap, msk_pixmap, &core.on_color, &core.off_color, image->xhot, image->yhot); XFreePixmap (dpy, src_pixmap); XFreePixmap (dpy, msk_pixmap); } return cursor; } XcursorCursors * XcursorImagesLoadCursors (Display *dpy, const XcursorImages *images) { XcursorCursors *cursors = XcursorCursorsCreate (dpy, images->nimage); int n; if (!cursors) return NULL; for (n = 0; n < images->nimage; n++) { cursors->cursors[n] = XcursorImageLoadCursor (dpy, images->images[n]); if (!cursors->cursors[n]) { XcursorCursorsDestroy (cursors); return NULL; } cursors->ncursor++; } return cursors; } Cursor XcursorImagesLoadCursor (Display *dpy, const XcursorImages *images) { Cursor cursor; if (images->nimage == 1 || !XcursorSupportsAnim (dpy)) cursor = XcursorImageLoadCursor (dpy, images->images[0]); else { XcursorCursors *cursors = XcursorImagesLoadCursors (dpy, images); XAnimCursor *anim; int n; if (!cursors) return 0; anim = malloc (cursors->ncursor * sizeof (XAnimCursor)); if (!anim) { XcursorCursorsDestroy (cursors); return 0; } for (n = 0; n < cursors->ncursor; n++) { anim[n].cursor = cursors->cursors[n]; anim[n].delay = images->images[n]->delay; } cursor = XRenderCreateAnimCursor (dpy, cursors->ncursor, anim); XcursorCursorsDestroy(cursors); free (anim); } #if defined HAVE_XFIXES && XFIXES_MAJOR >= 2 if (images->name) XFixesSetCursorName (dpy, cursor, images->name); #endif return cursor; } Cursor XcursorFilenameLoadCursor (Display *dpy, const char *file) { int size = XcursorGetDefaultSize (dpy); XcursorImages *images = XcursorFilenameLoadImages (file, size); Cursor cursor; if (!images) return None; cursor = XcursorImagesLoadCursor (dpy, images); XcursorImagesDestroy (images); return cursor; } XcursorCursors * XcursorFilenameLoadCursors (Display *dpy, const char *file) { int size = XcursorGetDefaultSize (dpy); XcursorImages *images = XcursorFilenameLoadImages (file, size); XcursorCursors *cursors; if (!images) return NULL; cursors = XcursorImagesLoadCursors (dpy, images); XcursorImagesDestroy (images); return cursors; } /* * Stolen from XCreateGlyphCursor (which we cruelly override) */ Cursor _XcursorCreateGlyphCursor(Display *dpy, Font source_font, Font mask_font, unsigned int source_char, unsigned int mask_char, XColor _Xconst *foreground, XColor _Xconst *background) { Cursor cid; register xCreateGlyphCursorReq *req; LockDisplay(dpy); GetReq(CreateGlyphCursor, req); cid = req->cid = XAllocID(dpy); req->source = source_font; req->mask = mask_font; req->sourceChar = source_char; req->maskChar = mask_char; req->foreRed = foreground->red; req->foreGreen = foreground->green; req->foreBlue = foreground->blue; req->backRed = background->red; req->backGreen = background->green; req->backBlue = background->blue; UnlockDisplay(dpy); SyncHandle(); return (cid); } /* * Stolen from XCreateFontCursor (which we cruelly override) */ Cursor _XcursorCreateFontCursor (Display *dpy, unsigned int shape) { static XColor _Xconst foreground = { 0, 0, 0, 0 }; /* black */ static XColor _Xconst background = { 0, 65535, 65535, 65535 }; /* white */ /* * the cursor font contains the shape glyph followed by the mask * glyph; so character position 0 contains a shape, 1 the mask for 0, * 2 a shape, etc. contains hash define names * for all of these. */ if (dpy->cursor_font == None) { dpy->cursor_font = XLoadFont (dpy, CURSORFONT); if (dpy->cursor_font == None) return None; } return _XcursorCreateGlyphCursor (dpy, dpy->cursor_font, dpy->cursor_font, shape, shape + 1, &foreground, &background); }