/* $XFree86: xc/programs/Xserver/ilbm/ilbmbitblt.c,v 3.2tsi Exp $ */ /* Combined Purdue/PurduePlus patches, level 2.0, 1/17/89 */ /*********************************************************** Copyright (c) 1987 X Consortium Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE X CONSORTIUM BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of the X Consortium shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from the X Consortium. Copyright 1987 by Digital Equipment Corporation, Maynard, Massachusetts. All Rights Reserved Permission to use, copy, modify, and distribute this software and its documentation for any purpose and without fee is hereby granted, 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 Digital not be used in advertising or publicity pertaining to distribution of the software without specific, written prior permission. DIGITAL DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL DIGITAL 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. ******************************************************************/ /* $XConsortium: ilbmbitblt.c,v 5.25 94/04/17 20:28:16 dpw Exp $ */ /* Modified jun 95 by Geert Uytterhoeven (Geert.Uytterhoeven@cs.kuleuven.ac.be) to use interleaved bitplanes instead of normal bitplanes */ #ifdef HAVE_DIX_CONFIG_H #include #endif #include #include #include "miscstruct.h" #include "regionstr.h" #include "gcstruct.h" #include "windowstr.h" #include "pixmapstr.h" #include "scrnintstr.h" #include "mi.h" #include "ilbm.h" #include "maskbits.h" static unsigned char ilbmRropsOS[AFB_MAX_DEPTH]; /* CopyArea and CopyPlane for a monchrome frame buffer clip the source rectangle to the source's available bits. (this avoids copying unnecessary pieces that will just get exposed anyway.) this becomes the new shape of the destination. clip the destination region to the composite clip in the GC. this requires translating the destination region to (dstx, dsty). build a list of source points, one for each rectangle in the destination. this is a simple translation. go do the multiple rectangle copies do graphics exposures */ /** Optimized for drawing pixmaps into windows, especially when drawing into ** unobscured windows. Calls to the general-purpose region code were ** replaced with rectangle-to-rectangle clipping comparisions. This is ** possible, since the pixmap is a single rectangle. In an unobscured ** window, the destination clip is also a single rectangle, and region ** code can be avoided entirely. This is a big savings, since the region ** code uses XAlloc() and makes many function calls. ** ** In addition, if source is a pixmap, there is no need to call the ** expensive miHandleExposures() routine. Instead, we simply return NULL. ** ** Previously, drawing a pixmap into an unobscured window executed at least ** 8 XAlloc()'s, 30 function calls, and hundreds of lines of code. ** ** Now, the same operation requires no XAlloc()'s, no region function calls, ** and much less overhead. Nice for drawing lots of small pixmaps. */ void ilbmDoBitblt(pSrc, pDst, alu, prgnDst, pptSrc, planemask) DrawablePtr pSrc, pDst; int alu; RegionPtr prgnDst; DDXPointPtr pptSrc; unsigned long planemask; { switch (alu) { case GXcopy: ilbmDoBitbltCopy(pSrc, pDst, alu, prgnDst, pptSrc, planemask); break; case GXxor: ilbmDoBitbltXor(pSrc, pDst, alu, prgnDst, pptSrc, planemask); break; case GXcopyInverted: ilbmDoBitbltCopyInverted(pSrc, pDst, alu, prgnDst, pptSrc, planemask); break; case GXor: ilbmDoBitbltOr(pSrc, pDst, alu, prgnDst, pptSrc, planemask); break; default: ilbmDoBitbltGeneral(pSrc, pDst, alu, prgnDst, pptSrc, planemask); break; } } RegionPtr ilbmCopyArea(pSrcDrawable, pDstDrawable, pGC, srcx, srcy, width, height, dstx, dsty) DrawablePtr pSrcDrawable; DrawablePtr pDstDrawable; GC *pGC; int srcx, srcy; int width, height; int dstx, dsty; { void (*doBitBlt)(); 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; } return(ilbmBitBlt(pSrcDrawable, pDstDrawable, pGC, srcx, srcy, width, height, dstx, dsty, doBitBlt, pGC->planemask)); } RegionPtr ilbmBitBlt(pSrcDrawable, pDstDrawable, pGC, srcx, srcy, width, height, dstx, dsty, doBitBlt, planemask) register DrawablePtr pSrcDrawable; register DrawablePtr pDstDrawable; register GC *pGC; int srcx, srcy; int width, height; int dstx, dsty; void (*doBitBlt)(); unsigned long planemask; { RegionPtr prgnSrcClip; /* may be a new region, or just a copy */ Bool freeSrcClip = FALSE; RegionPtr prgnExposed; RegionRec rgnDst; DDXPointPtr pptSrc; register DDXPointPtr ppt; register BoxPtr pbox; int i; register int dx; register int dy; xRectangle origSource; DDXPointRec origDest; int numRects; BoxRec fastBox; int fastClip = 0; /* for fast clipping with pixmap source */ int fastExpose = 0; /* for fast exposures with pixmap source */ void (*localDoBitBlt)(); origSource.x = srcx; origSource.y = srcy; origSource.width = width; origSource.height = height; origDest.x = dstx; origDest.y = dsty; if ((pSrcDrawable != pDstDrawable) && pSrcDrawable->pScreen->SourceValidate) (*pSrcDrawable->pScreen->SourceValidate)(pSrcDrawable, srcx, srcy, width, height); srcx += pSrcDrawable->x; srcy += pSrcDrawable->y; /* clip the source */ if (pSrcDrawable->type == DRAWABLE_PIXMAP) if ((pSrcDrawable == pDstDrawable) && (pGC->clientClipType == CT_NONE)) prgnSrcClip = pGC->pCompositeClip; else fastClip = 1; else if (pGC->subWindowMode == IncludeInferiors) if (!((WindowPtr)pSrcDrawable)->parent) /* * special case bitblt from root window in * IncludeInferiors mode; just like from a pixmap */ fastClip = 1; else if ((pSrcDrawable == pDstDrawable) && (pGC->clientClipType == CT_NONE)) prgnSrcClip = pGC->pCompositeClip; else { prgnSrcClip = NotClippedByChildren((WindowPtr)pSrcDrawable); freeSrcClip = TRUE; } else prgnSrcClip = &((WindowPtr)pSrcDrawable)->clipList; fastBox.x1 = srcx; fastBox.y1 = srcy; fastBox.x2 = srcx + width; fastBox.y2 = srcy + height; /* Don't create a source region if we are doing a fast clip */ if (fastClip) { fastExpose = 1; /* * clip the source; if regions extend beyond the source size, * make sure exposure events get sent */ if (fastBox.x1 < pSrcDrawable->x) { fastBox.x1 = pSrcDrawable->x; fastExpose = 0; } if (fastBox.y1 < pSrcDrawable->y) { fastBox.y1 = pSrcDrawable->y; fastExpose = 0; } if (fastBox.x2 > pSrcDrawable->x + (int)pSrcDrawable->width) { fastBox.x2 = pSrcDrawable->x + (int)pSrcDrawable->width; fastExpose = 0; } if (fastBox.y2 > pSrcDrawable->y + (int)pSrcDrawable->height) { fastBox.y2 = pSrcDrawable->y + (int)pSrcDrawable->height; fastExpose = 0; } } else { REGION_INIT(pGC->pScreen, &rgnDst, &fastBox, 1); REGION_INTERSECT(pGC->pScreen, &rgnDst, &rgnDst, prgnSrcClip); } dstx += pDstDrawable->x; dsty += pDstDrawable->y; if (pDstDrawable->type == DRAWABLE_WINDOW) if (!((WindowPtr)pDstDrawable)->realized) { if (!fastClip) REGION_UNINIT(pGC->pScreen, &rgnDst); if (freeSrcClip) REGION_DESTROY(pGC->pScreen, prgnSrcClip); return NULL; } dx = srcx - dstx; dy = srcy - dsty; /* Translate and clip the dst to the destination composite clip */ if (fastClip) { RegionPtr cclip; /* Translate the region directly */ fastBox.x1 -= dx; fastBox.x2 -= dx; fastBox.y1 -= dy; fastBox.y2 -= dy; /* If the destination composite clip is one rectangle we can do the clip directly. Otherwise we have to create a full blown region and call intersect */ cclip = pGC->pCompositeClip; if (REGION_NUM_RECTS(cclip) == 1) { BoxPtr pBox = REGION_RECTS(cclip); if (fastBox.x1 < pBox->x1) fastBox.x1 = pBox->x1; if (fastBox.x2 > pBox->x2) fastBox.x2 = pBox->x2; if (fastBox.y1 < pBox->y1) fastBox.y1 = pBox->y1; if (fastBox.y2 > pBox->y2) fastBox.y2 = pBox->y2; /* Check to see if the region is empty */ if (fastBox.x1 >= fastBox.x2 || fastBox.y1 >= fastBox.y2) { REGION_NULL(pGC->pScreen, &rgnDst); } else { REGION_INIT(pGC->pScreen, &rgnDst, &fastBox, 1); } } else { /* We must turn off fastClip now, since we must create a full blown region. It is intersected with the composite clip below. */ fastClip = 0; REGION_INIT(pGC->pScreen, &rgnDst, &fastBox, 1); } } else REGION_TRANSLATE(pGC->pScreen, &rgnDst, -dx, -dy); if (!fastClip) { REGION_INTERSECT(pGC->pScreen, &rgnDst, &rgnDst, pGC->pCompositeClip); } /* Do bit blitting */ numRects = REGION_NUM_RECTS(&rgnDst); if (numRects && width && height) { if (!(pptSrc = (DDXPointPtr)ALLOCATE_LOCAL(numRects * sizeof(DDXPointRec)))) { REGION_UNINIT(pGC->pScreen, &rgnDst); if (freeSrcClip) REGION_DESTROY(pGC->pScreen, prgnSrcClip); return NULL; } pbox = REGION_RECTS(&rgnDst); ppt = pptSrc; for (i = numRects; --i >= 0; pbox++, ppt++) { ppt->x = pbox->x1 + dx; ppt->y = pbox->y1 + dy; } (*doBitBlt)(pSrcDrawable, pDstDrawable, pGC->alu, &rgnDst, pptSrc, planemask); DEALLOCATE_LOCAL(pptSrc); } prgnExposed = NULL; if (pGC->fExpose) { /* Pixmap sources generate a NoExposed (we return NULL to do this) */ if (!fastExpose) prgnExposed = miHandleExposures(pSrcDrawable, pDstDrawable, pGC, origSource.x, origSource.y, (int)origSource.width, (int)origSource.height, origDest.x, origDest.y, (unsigned long)0); } REGION_UNINIT(pGC->pScreen, &rgnDst); if (freeSrcClip) REGION_DESTROY(pGC->pScreen, prgnSrcClip); return prgnExposed; } RegionPtr ilbmCopyPlane(pSrcDrawable, pDstDrawable, pGC, srcx, srcy, width, height, dstx, dsty, plane) DrawablePtr pSrcDrawable, pDstDrawable; register GC *pGC; int srcx, srcy; int width, height; int dstx, dsty; unsigned long plane; { int alu; RegionPtr prgnExposed = NULL; unsigned long old_planemask; PixmapPtr pPixmap = NULL; if (pDstDrawable->depth == 1) { old_planemask = pGC->planemask; pGC->planemask = plane; if ((pGC->fgPixel & 1) == 1 && (pGC->bgPixel & 1) == 0) { prgnExposed = (*pGC->ops->CopyArea)(pSrcDrawable, pDstDrawable, pGC, srcx, srcy, width, height, dstx, dsty); } else if ((pGC->fgPixel & 1) == (pGC->bgPixel & 1)) { unsigned char rop; ilbmReduceRop(pGC->alu, pGC->fgPixel, 1, 1, &rop); alu = pGC->alu; pGC->alu = rop; prgnExposed = (*pGC->ops->CopyArea)(pSrcDrawable, pDstDrawable, pGC, srcx, srcy, width, height, dstx, dsty); pGC->alu = alu; } else { /* need to invert the src */ alu = pGC->alu; pGC->alu = ilbmInverseAlu[alu]; prgnExposed = (*pGC->ops->CopyArea)(pSrcDrawable, pDstDrawable, pGC, srcx, srcy, width, height, dstx, dsty); pGC->alu = alu; } pGC->planemask = old_planemask; } else { int free_pixmap = FALSE; PixmapPtr pBitmap = (PixmapPtr)pSrcDrawable; ScreenPtr pScreen = pSrcDrawable->pScreen; GCPtr pGC1; if (pSrcDrawable == pDstDrawable || pSrcDrawable->type == DRAWABLE_WINDOW || pSrcDrawable->depth != 1) { /* Copy a plane from source drawable to a tmp 1-bit deep pixmap */ /* XXX: Range check width and height */ pBitmap = (*pScreen->CreatePixmap)(pScreen, width, height, 1); if (!pBitmap) return(NULL); pGC1 = GetScratchGC(1, pScreen); if (!pGC1) { (*pScreen->DestroyPixmap)(pBitmap); return(NULL); } ValidateGC((DrawablePtr)pBitmap, pGC1); (void)ilbmBitBlt(pSrcDrawable, (DrawablePtr)pBitmap, pGC1, srcx, srcy, width, height, 0, 0, ilbmDoBitbltCopy, plane); free_pixmap = TRUE; } #if 0 else { /* XXX: could cope with N-deep pixmap source case without using tmp * src bitmap by setting up a scratch pixmap header and fiddle * around with the pbits pointer. */ } #endif ilbmReduceOpaqueStipple(pGC->fgPixel, pGC->bgPixel, pGC->planemask, pGC->depth, ilbmRropsOS); (void)ilbmBitBlt((DrawablePtr)pBitmap, pDstDrawable, pGC, 0, 0, width, height, dstx, dsty, ilbmCopy1ToN, pGC->planemask); if (free_pixmap) { (*pScreen->DestroyPixmap)(pBitmap); FreeScratchGC(pGC1); } if (pGC->fExpose) prgnExposed = miHandleExposures(pSrcDrawable, pDstDrawable, pGC, srcx, srcy, width, height, dstx, dsty, plane); } return prgnExposed; } void ilbmCopy1ToN(pSrc, pDst, alu, prgnDst, pptSrc, planemask) DrawablePtr pSrc, pDst; int alu; RegionPtr prgnDst; DDXPointPtr pptSrc; unsigned long planemask; { int numRects = REGION_NUM_RECTS(prgnDst); BoxPtr pbox = REGION_RECTS(prgnDst); int r; for (r = 0; r < numRects; r++, pbox++, pptSrc++) { int dx = pptSrc->x; int dy = pptSrc->y; if (alu == GXcopy) ilbmOpaqueStippleAreaCopy(pDst, 1, pbox, alu, (PixmapPtr)pSrc, dx, dy, ilbmRropsOS, planemask); else ilbmOpaqueStippleAreaGeneral(pDst, 1, pbox, alu, (PixmapPtr)pSrc, dx, dy, ilbmRropsOS, planemask); } }