/* $XFree86: xc/programs/Xserver/ilbm/ilbmimage.c,v 3.0 1996/08/18 01:53:56 dawes Exp $ */ #ifdef HAVE_DIX_CONFIG_H #include #endif #include /* Modified jun 95 by Geert Uytterhoeven (Geert.Uytterhoeven@cs.kuleuven.ac.be) to use interleaved bitplanes instead of normal bitplanes */ #include #include "windowstr.h" #include "pixmapstr.h" #include "scrnintstr.h" #include "gcstruct.h" #include "ilbm.h" #include "maskbits.h" #include "servermd.h" void ilbmPutImage(pDraw, pGC, depth, x, y, width, height, leftPad, format, pImage) DrawablePtr pDraw; GCPtr pGC; int depth, x, y, width, height; int leftPad; int format; char *pImage; { PixmapPtr pPixmap; #if 1 fprintf(stderr, "ilbmPutImage()\n"); fprintf(stderr, "\tdepth = %d, x = %d, y = %d, width = %d, height = %d, " "leftPad = %d\n", depth, x, y, width, height, leftPad); switch (format) { case XYBitmap: fprintf(stderr, "\tformat = XYBitmap\n"); break; case XYPixmap: fprintf(stderr, "\tformat = XYPixmap\n"); break; case ZPixmap: fprintf(stderr, "\tformat = ZPixmap\n"); break; default: fprintf(stderr, "\tformat = %d\n"); break; } #endif if ((width == 0) || (height == 0)) return; if (format != ZPixmap || depth == 1 || pDraw->depth == 1) { if (format == XYBitmap) { char *ptmp; int realwidth; int size; int aux; int d, yy, xx; char *ss, *dd; realwidth = BitmapBytePad(width+leftPad); aux = depth*realwidth; size = height*aux; #if 1 fprintf(stderr, "\trealwidth = %d, aux = %d, size = %d\n", realwidth, aux, size); #endif if (!(ptmp = (char *)ALLOCATE_LOCAL(size))) return; /* * Convert from bitplanes to interleaved bitplanes */ ss = (char *)pImage; for (d = 0; d < depth; d++) { dd = ptmp+d*realwidth; for (yy = 0; yy < height; yy++) { for (xx = 0; xx < realwidth; xx++) #if 1 { fprintf(stderr, "*(%d) = *(%d)\n", (&dd[xx])-ptmp, ss-(char *)pImage); #endif dd[xx] = *(ss++); #if 1 } #endif dd += aux; } } pPixmap = GetScratchPixmapHeader(pDraw->pScreen, width+leftPad, height, depth, depth, BitmapBytePad(width+leftPad), (pointer)ptmp); if (!pPixmap) { DEALLOCATE_LOCAL(ptmp); return; } pGC->fExpose = FALSE; (void)(*pGC->ops->CopyPlane)((DrawablePtr)pPixmap, pDraw, pGC, leftPad, 0, width, height, x, y, 1); DEALLOCATE_LOCAL(ptmp); } else { #if 0 /* XXX: bit plane order wronge ! */ pPixmap->drawable.depth = 1; pPixmap->drawable.bitsPerPixel = 1; switch (pGC->alu) { case GXcopy: doBitBlt = ilbmDoBitbltCopy; break; case GXxor: doBitBlt = ilbmDoBitbltXor; break; case GXcopyInverted: doBitBlt = ilbmDoBitbltCopyInverted; break; case GXor: doBitBlt = ilbmDoBitbltOr; break; default: doBitBlt = ilbmDoBitbltGeneral; break; } for (plane = (1L << (pPixmap->drawable.depth - 1)); plane; plane >>= 1) { (void)ilbmBitBlt((DrawablePtr)pPixmap, pDraw, pGC, leftPad, 0, width, height, x, y, doBitBlt, plane); /* pDraw->devKind += sizeDst; */ } #else char *ptmp; int realwidth; int size; int aux; int d, yy, xx; char *ss, *dd; realwidth = BitmapBytePad(width+leftPad); aux = depth*realwidth; size = height*aux; #if 1 fprintf(stderr, "\trealwidth = %d, aux = %d, size = %d\n", realwidth, aux, size); #endif if (!(ptmp = (char *)ALLOCATE_LOCAL(size))) return; /* * Convert from bitplanes to interleaved bitplanes */ ss = (char *)pImage; for (d = 0; d < depth; d++) { dd = ptmp+d*realwidth; for (yy = 0; yy < height; yy++) { for (xx = 0; xx < realwidth; xx++) #if 1 { fprintf(stderr, "*(%d) = *(%d)\n", (&dd[xx])-ptmp, ss-(char *)pImage); #endif dd[xx] = *(ss++); #if 1 } #endif dd += aux; } } pPixmap = GetScratchPixmapHeader(pDraw->pScreen, width+leftPad, height, depth, depth, BitmapBytePad(width+leftPad), (pointer)ptmp); if (!pPixmap) { DEALLOCATE_LOCAL(ptmp); return; } pGC->fExpose = FALSE; (void)(*pGC->ops->CopyArea)((DrawablePtr)pPixmap, pDraw, pGC, leftPad, 0, width, height, x, y); DEALLOCATE_LOCAL(ptmp); #endif } pGC->fExpose = TRUE; FreeScratchPixmapHeader(pPixmap); } else { /* Chunky to planar conversion required */ PixmapPtr pPixmap; ScreenPtr pScreen = pDraw->pScreen; int widthSrc; int start_srcshift; register int b; register int dstshift; register int shift_step; register PixelType dst; register PixelType srcbits; register PixelType *pdst; register PixelType *psrc; int start_bit; register int nl; register int h; register int d; int auxDst; PixelType *pdstBase; int widthDst; int depthDst; /* Create a tmp pixmap */ pPixmap = (pScreen->CreatePixmap)(pScreen, width, height, depth); if (!pPixmap) return; ilbmGetPixelWidthAuxDepthAndPointer((DrawablePtr)pPixmap, widthDst, auxDst, depthDst, pdstBase); widthSrc = PixmapWidthInPadUnits(width, depth); /* XXX: if depth == 8, use fast chunky to planar assembly function.*/ if (depth > 4) { start_srcshift = 24; shift_step = 8; } else { start_srcshift = 28; shift_step = 4; } for (d = 0; d < depth; d++, pdstBase += widthDst) { /* @@@ NEXT PLANE @@@ */ register PixelType *pdstLine = pdstBase; start_bit = start_srcshift + d; psrc = (PixelType *)pImage; h = height; while (h--) { pdst = pdstLine; pdstLine += auxDst; dstshift = PPW - 1; dst = 0; nl = widthSrc; while (nl--) { srcbits = *psrc++; for (b = start_bit; b >= 0; b -= shift_step) { dst |= ((srcbits >> b) & 1) << dstshift; if (--dstshift < 0) { dstshift = PPW - 1; *pdst++ = dst; dst = 0; } } } if (dstshift != PPW - 1) *pdst++ = dst; } } /* for (d = ...) */ pGC->fExpose = FALSE; (void)(*pGC->ops->CopyArea)((DrawablePtr)pPixmap, pDraw, pGC, leftPad, 0, width, height, x, y); pGC->fExpose = TRUE; (*pScreen->DestroyPixmap)(pPixmap); } } void ilbmGetImage(pDrawable, sx, sy, width, height, format, planemask, pdstLine) DrawablePtr pDrawable; int sx, sy, width, height; unsigned int format; unsigned long planemask; char *pdstLine; { BoxRec box; DDXPointRec ptSrc; RegionRec rgnDst; ScreenPtr pScreen; PixmapPtr pPixmap; #if 1 fprintf(stderr, "ilbmGetImage()\n"); fprintf(stderr, "\tsx = %d, sy = %d, width = %d, height = %d, " "planemask = 0x%08x\n", sx, sy, width, height, planemask); switch (format) { case XYBitmap: fprintf(stderr, "\tformat = XYBitmap\n"); break; case XYPixmap: fprintf(stderr, "\tformat = XYPixmap\n"); break; case ZPixmap: fprintf(stderr, "\tformat = ZPixmap\n"); break; default: fprintf(stderr, "\tformat = %d\n"); break; } #endif if ((width == 0) || (height == 0)) return; pScreen = pDrawable->pScreen; sx += pDrawable->x; sy += pDrawable->y; if (format == XYPixmap || pDrawable->depth == 1) { pPixmap = GetScratchPixmapHeader(pScreen, width, height, 1, 1, BitmapBytePad(width), (pointer)pdstLine); if (!pPixmap) return; ptSrc.x = sx; ptSrc.y = sy; box.x1 = 0; box.y1 = 0; box.x2 = width; box.y2 = height; REGION_INIT(pScreen, &rgnDst, &box, 1); pPixmap->drawable.depth = 1; pPixmap->drawable.bitsPerPixel = 1; /* dix layer only ever calls GetImage with 1 bit set in planemask * when format is XYPixmap. */ ilbmDoBitblt(pDrawable, (DrawablePtr)pPixmap, GXcopy, &rgnDst, &ptSrc, planemask); FreeScratchPixmapHeader(pPixmap); REGION_UNINIT(pScreen, &rgnDst); } else { /* Planar to chunky conversion required */ PixelType *psrcBits; PixelType *psrcLine; PixelType startmask, endmask; int depthSrc; int widthSrc; int auxSrc; int sizeDst; int widthDst; register PixelType *psrc; register PixelType *pdst; register PixelType dst; register PixelType srcbits; register int d; register int b; register int dstshift; register int shift_step; register int start_endbit; int start_startbit; register int end_endbit; register int start_dstshift; register int nl; register int h; int nlmiddle; widthDst = PixmapWidthInPadUnits(width, pDrawable->depth); sizeDst = widthDst * height; /* Clear the dest image */ bzero(pdstLine, sizeDst << 2); ilbmGetPixelWidthAuxDepthAndPointer(pDrawable, widthSrc, auxSrc, depthSrc, psrcBits); psrcBits = ilbmScanline(psrcBits, sx, sy, auxSrc); start_startbit = PPW - 1 - (sx & PIM); if ((sx & PIM) + width < PPW) { maskpartialbits(sx, width, startmask); nlmiddle = 0; endmask = 0; start_endbit = PPW - ((sx + width) & PIM); } else { maskbits(sx, width, startmask, endmask, nlmiddle); start_endbit = 0; end_endbit = PPW - ((sx + width) & PIM); } /* ZPixmap images have either 4 or 8 bits per pixel dependent on * depth. */ if (depthSrc > 4) { start_dstshift = 24; shift_step = 8; } else { start_dstshift = 28; shift_step = 4; } #define SHIFT_BITS(start_bit,end_bit) \ for (b = (start_bit); b >= (end_bit); b--) { \ dst |= ((srcbits >> b) & 1) << dstshift; \ if ((dstshift -= shift_step) < 0) { \ dstshift = start_dstshift + d; \ *pdst++ = dst; \ dst = *pdst; \ } \ } \ for (d = 0; d < depthSrc; d++, psrcBits += widthSrc) { /* @@@ NEXT PLANE @@@ */ psrcLine = psrcBits; pdst = (PixelType *)pdstLine; h = height; while (h--) { psrc = psrcLine; psrcLine += auxSrc; dst = *pdst; dstshift = start_dstshift + d; if (startmask) { srcbits = *psrc++ & startmask; SHIFT_BITS(start_startbit, start_endbit); } nl = nlmiddle; while (nl--) { srcbits = *psrc++; SHIFT_BITS(PPW - 1, 0); } if (endmask) { srcbits = *psrc & endmask; SHIFT_BITS(PPW - 1, end_endbit); } if (dstshift != start_dstshift + d) *pdst++ = dst; } /* while (h--) */ } /* for (d = ...) */ } }