/*********************************************************** Copyright 1987, 1998 The Open Group 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. 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 OPEN GROUP 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 Open Group 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 Open Group. 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. ******************************************************************/ #ifdef HAVE_DIX_CONFIG_H #include #endif #include #include #include #include #include "mfb.h" #include "dixfontstr.h" #include #include "gcstruct.h" #include "windowstr.h" #include "pixmapstr.h" #include "scrnintstr.h" #include "region.h" #include "mistruct.h" #include "migc.h" #include "maskbits.h" static GCFuncs mfbFuncs = { mfbValidateGC, miChangeGC, miCopyGC, miDestroyGC, miChangeClip, miDestroyClip, miCopyClip }; static GCOps whiteTECopyOps = { mfbWhiteSolidFS, mfbSetSpans, mfbPutImage, mfbCopyArea, mfbCopyPlane, mfbPolyPoint, mfbLineSS, mfbSegmentSS, miPolyRectangle, mfbZeroPolyArcSS, mfbFillPolyWhite, mfbPolyFillRect, mfbPolyFillArcSolid, miPolyText8, miPolyText16, miImageText8, miImageText16, mfbTEGlyphBltWhite, mfbPolyGlyphBltWhite, mfbSolidPP }; static GCOps blackTECopyOps = { mfbBlackSolidFS, mfbSetSpans, mfbPutImage, mfbCopyArea, mfbCopyPlane, mfbPolyPoint, mfbLineSS, mfbSegmentSS, miPolyRectangle, mfbZeroPolyArcSS, mfbFillPolyBlack, mfbPolyFillRect, mfbPolyFillArcSolid, miPolyText8, miPolyText16, miImageText8, miImageText16, mfbTEGlyphBltBlack, mfbPolyGlyphBltBlack, mfbSolidPP }; static GCOps whiteTEInvertOps = { mfbInvertSolidFS, mfbSetSpans, mfbPutImage, miCopyArea, miCopyPlane, mfbPolyPoint, mfbLineSS, mfbSegmentSS, miPolyRectangle, miZeroPolyArc, mfbFillPolyInvert, mfbPolyFillRect, mfbPolyFillArcSolid, miPolyText8, miPolyText16, miImageText8, miImageText16, mfbTEGlyphBltWhite, mfbPolyGlyphBltInvert, mfbSolidPP }; static GCOps blackTEInvertOps = { mfbInvertSolidFS, mfbSetSpans, mfbPutImage, mfbCopyArea, mfbCopyPlane, mfbPolyPoint, mfbLineSS, mfbSegmentSS, miPolyRectangle, miZeroPolyArc, mfbFillPolyInvert, mfbPolyFillRect, mfbPolyFillArcSolid, miPolyText8, miPolyText16, miImageText8, miImageText16, mfbTEGlyphBltBlack, mfbPolyGlyphBltInvert, mfbSolidPP }; static GCOps whiteCopyOps = { mfbWhiteSolidFS, mfbSetSpans, mfbPutImage, mfbCopyArea, mfbCopyPlane, mfbPolyPoint, mfbLineSS, mfbSegmentSS, miPolyRectangle, mfbZeroPolyArcSS, mfbFillPolyWhite, mfbPolyFillRect, mfbPolyFillArcSolid, miPolyText8, miPolyText16, miImageText8, miImageText16, mfbImageGlyphBltWhite, mfbPolyGlyphBltWhite, mfbSolidPP }; static GCOps blackCopyOps = { mfbBlackSolidFS, mfbSetSpans, mfbPutImage, mfbCopyArea, mfbCopyPlane, mfbPolyPoint, mfbLineSS, mfbSegmentSS, miPolyRectangle, mfbZeroPolyArcSS, mfbFillPolyBlack, mfbPolyFillRect, mfbPolyFillArcSolid, miPolyText8, miPolyText16, miImageText8, miImageText16, mfbImageGlyphBltBlack, mfbPolyGlyphBltBlack, mfbSolidPP }; static GCOps whiteInvertOps = { mfbInvertSolidFS, mfbSetSpans, mfbPutImage, mfbCopyArea, mfbCopyPlane, mfbPolyPoint, mfbLineSS, mfbSegmentSS, miPolyRectangle, miZeroPolyArc, mfbFillPolyInvert, mfbPolyFillRect, mfbPolyFillArcSolid, miPolyText8, miPolyText16, miImageText8, miImageText16, mfbImageGlyphBltWhite, mfbPolyGlyphBltInvert, mfbSolidPP }; static GCOps blackInvertOps = { mfbInvertSolidFS, mfbSetSpans, mfbPutImage, mfbCopyArea, mfbCopyPlane, mfbPolyPoint, mfbLineSS, mfbSegmentSS, miPolyRectangle, miZeroPolyArc, mfbFillPolyInvert, mfbPolyFillRect, mfbPolyFillArcSolid, miPolyText8, miPolyText16, miImageText8, miImageText16, mfbImageGlyphBltBlack, mfbPolyGlyphBltInvert, mfbSolidPP }; static GCOps whiteWhiteCopyOps = { mfbWhiteSolidFS, mfbSetSpans, mfbPutImage, mfbCopyArea, mfbCopyPlane, mfbPolyPoint, mfbLineSS, mfbSegmentSS, miPolyRectangle, mfbZeroPolyArcSS, mfbFillPolyWhite, mfbPolyFillRect, mfbPolyFillArcSolid, miPolyText8, miPolyText16, miImageText8, miImageText16, miImageGlyphBlt, mfbPolyGlyphBltWhite, mfbSolidPP }; static GCOps blackBlackCopyOps = { mfbBlackSolidFS, mfbSetSpans, mfbPutImage, mfbCopyArea, mfbCopyPlane, mfbPolyPoint, mfbLineSS, mfbSegmentSS, miPolyRectangle, mfbZeroPolyArcSS, mfbFillPolyBlack, mfbPolyFillRect, mfbPolyFillArcSolid, miPolyText8, miPolyText16, miImageText8, miImageText16, miImageGlyphBlt, mfbPolyGlyphBltBlack, mfbSolidPP }; static GCOps fgEqBgInvertOps = { mfbInvertSolidFS, mfbSetSpans, mfbPutImage, mfbCopyArea, mfbCopyPlane, mfbPolyPoint, mfbLineSS, mfbSegmentSS, miPolyRectangle, miZeroPolyArc, mfbFillPolyInvert, mfbPolyFillRect, mfbPolyFillArcSolid, miPolyText8, miPolyText16, miImageText8, miImageText16, miImageGlyphBlt, mfbPolyGlyphBltInvert, mfbSolidPP }; struct commonOps { int fg, bg; int rrop; int terminalFont; GCOps *ops; void (*fillArea)( DrawablePtr /*pDraw*/, int /*nbox*/, BoxPtr /*pbox*/, int /*alu*/, PixmapPtr /*nop*/); }; static struct commonOps mfbCommonOps[] = { { 1, 0, RROP_WHITE, 1, &whiteTECopyOps, mfbSolidWhiteArea }, { 0, 1, RROP_BLACK, 1, &blackTECopyOps, mfbSolidBlackArea }, { 1, 0, RROP_INVERT, 1, &whiteTEInvertOps, mfbSolidInvertArea }, { 0, 1, RROP_INVERT, 1, &blackTEInvertOps, mfbSolidInvertArea }, { 1, 0, RROP_WHITE, 0, &whiteCopyOps, mfbSolidWhiteArea }, { 0, 1, RROP_BLACK, 0, &blackCopyOps, mfbSolidBlackArea }, { 1, 0, RROP_INVERT, 0, &whiteInvertOps, mfbSolidInvertArea }, { 0, 1, RROP_INVERT, 0, &blackInvertOps, mfbSolidInvertArea }, { 1, 1, RROP_WHITE, 0, &whiteWhiteCopyOps, mfbSolidWhiteArea }, { 0, 0, RROP_BLACK, 0, &blackBlackCopyOps, mfbSolidBlackArea }, { 1, 1, RROP_INVERT, 0, &fgEqBgInvertOps, mfbSolidInvertArea }, { 0, 0, RROP_INVERT, 0, &fgEqBgInvertOps, mfbSolidInvertArea }, }; #define numberCommonOps (sizeof (mfbCommonOps) / sizeof (mfbCommonOps[0])) static GCOps * matchCommon ( GCPtr pGC) { int i; struct commonOps *cop; mfbPrivGC *priv; if (pGC->lineWidth != 0) return 0; if (pGC->lineStyle != LineSolid) return 0; if (pGC->fillStyle != FillSolid) return 0; if (!pGC->font || FONTMAXBOUNDS(pGC->font,rightSideBearing) - FONTMINBOUNDS(pGC->font,leftSideBearing) > 32 || FONTMINBOUNDS(pGC->font,characterWidth) < 0) return 0; priv = (mfbPrivGC *) pGC->devPrivates[mfbGCPrivateIndex].ptr; for (i = 0; i < numberCommonOps; i++) { cop = &mfbCommonOps[i]; if ((pGC->fgPixel & 1) != cop->fg) continue; if ((pGC->bgPixel & 1) != cop->bg) continue; if (priv->rop != cop->rrop) continue; if (cop->terminalFont && !TERMINALFONT(pGC->font)) continue; priv->FillArea = cop->fillArea; return cop->ops; } return 0; } Bool mfbCreateGC(pGC) register GCPtr pGC; { mfbPrivGC *pPriv; pGC->clientClip = NULL; pGC->clientClipType = CT_NONE; /* some of the output primitives aren't really necessary, since they will be filled in ValidateGC because of dix/CreateGC() setting all the change bits. Others are necessary because although they depend on being a monochrome frame buffer, they don't change */ pGC->ops = &whiteCopyOps; pGC->funcs = &mfbFuncs; /* mfb wants to translate before scan convesion */ pGC->miTranslate = 1; pPriv = (mfbPrivGC *)(pGC->devPrivates[mfbGCPrivateIndex].ptr); pPriv->rop = mfbReduceRop(pGC->alu, pGC->fgPixel); pGC->fExpose = TRUE; pGC->pRotatedPixmap = NullPixmap; pGC->freeCompClip = FALSE; pPriv->FillArea = mfbSolidInvertArea; return TRUE; } /* some noop functions */ static void mfbPolyGlyphBltNoop( DrawablePtr pDrawable, GCPtr pGC, int x, int y, unsigned int nglyph, CharInfoPtr * ppci, pointer pglyphBase) { /* this is a no-op function */ } static void mfbNoopFS( DrawablePtr pDrawable, GCPtr pGC, int nInit, DDXPointPtr pptInit, int * pwidthInit, int fSorted) { /* this is a no-op function */ } static void mfbFillPolyNoop( DrawablePtr pDrawable, GCPtr pGC, int shape, int mode, int count, DDXPointPtr ptsIn) { /* this is a no-op function */ } /* Clipping conventions if the drawable is a window CT_REGION ==> pCompositeClip really is the composite CT_other ==> pCompositeClip is the window clip region if the drawable is a pixmap CT_REGION ==> pCompositeClip is the translated client region clipped to the pixmap boundary CT_other ==> pCompositeClip is the pixmap bounding box */ /*ARGSUSED*/ void mfbValidateGC(pGC, changes, pDrawable) register GCPtr pGC; unsigned long changes; DrawablePtr pDrawable; { register mfbPrivGCPtr devPriv; int mask; /* stateChanges */ int index; /* used for stepping through bitfields */ int xrot, yrot; /* rotations for tile and stipple pattern */ int rrop; /* reduced rasterop */ /* flags for changing the proc vector and updating things in devPriv */ int new_rotate, new_rrop, new_line, new_text, new_fill; DDXPointRec oldOrg; /* origin of thing GC was last used with */ oldOrg = pGC->lastWinOrg; pGC->lastWinOrg.x = pDrawable->x; pGC->lastWinOrg.y = pDrawable->y; /* we need to re-rotate the tile if the previous window/pixmap origin (oldOrg) differs from the new window/pixmap origin (pGC->lastWinOrg) */ new_rotate = (oldOrg.x != pGC->lastWinOrg.x) || (oldOrg.y != pGC->lastWinOrg.y); devPriv = ((mfbPrivGCPtr) (pGC->devPrivates[mfbGCPrivateIndex].ptr)); /* if the client clip is different or moved OR the subwindowMode has changed OR the window's clip has changed since the last validation we need to recompute the composite clip */ if ((changes & (GCClipXOrigin|GCClipYOrigin|GCClipMask|GCSubwindowMode)) || (pDrawable->serialNumber != (pGC->serialNumber & DRAWABLE_SERIAL_BITS)) ) { miComputeCompositeClip(pGC, pDrawable); } new_rrop = FALSE; new_line = FALSE; new_text = FALSE; new_fill = FALSE; mask = changes; while (mask) { index = lowbit (mask); mask &= ~index; /* this switch acculmulates a list of which procedures might have to change due to changes in the GC. in some cases (e.g. changing one 16 bit tile for another) we might not really need a change, but the code is being paranoid. this sort of batching wins if, for example, the alu and the font have been changed, or any other pair of items that both change the same thing. */ switch (index) { case GCFunction: case GCForeground: new_rrop = TRUE; break; case GCPlaneMask: break; case GCBackground: new_rrop = TRUE; /* for opaque stipples */ break; case GCLineStyle: case GCLineWidth: case GCJoinStyle: new_line = TRUE; break; case GCCapStyle: break; case GCFillStyle: new_fill = TRUE; break; case GCFillRule: break; case GCTile: if(pGC->tileIsPixel) break; new_rotate = TRUE; new_fill = TRUE; break; case GCStipple: if(pGC->stipple == (PixmapPtr)NULL) break; new_rotate = TRUE; new_fill = TRUE; break; case GCTileStipXOrigin: new_rotate = TRUE; break; case GCTileStipYOrigin: new_rotate = TRUE; break; case GCFont: new_text = TRUE; break; case GCSubwindowMode: break; case GCGraphicsExposures: break; case GCClipXOrigin: break; case GCClipYOrigin: break; case GCClipMask: break; case GCDashOffset: break; case GCDashList: break; case GCArcMode: break; default: break; } } /* deal with the changes we've collected . new_rrop must be done first because subsequent things depend on it. */ if(new_rotate || new_fill) { Bool new_pix = FALSE; /* figure out how much to rotate */ xrot = pGC->patOrg.x; yrot = pGC->patOrg.y; xrot += pDrawable->x; yrot += pDrawable->y; switch (pGC->fillStyle) { case FillTiled: /* copy current tile and stipple */ if (!pGC->tileIsPixel && (pGC->tile.pixmap->drawable.width <= PPW) && !(pGC->tile.pixmap->drawable.width & (pGC->tile.pixmap->drawable.width - 1))) { mfbCopyRotatePixmap(pGC->tile.pixmap, &pGC->pRotatedPixmap, xrot, yrot); new_pix = TRUE; } break; case FillStippled: case FillOpaqueStippled: if (pGC->stipple && (pGC->stipple->drawable.width <= PPW) && !(pGC->stipple->drawable.width & (pGC->stipple->drawable.width - 1))) { mfbCopyRotatePixmap(pGC->stipple, &pGC->pRotatedPixmap, xrot, yrot); new_pix = TRUE; } } /* destroy any previously rotated tile or stipple */ if (!new_pix && pGC->pRotatedPixmap) { (*pDrawable->pScreen->DestroyPixmap)(pGC->pRotatedPixmap); pGC->pRotatedPixmap = (PixmapPtr)NULL; } } /* * duck out here when the GC is unchanged */ if (!changes) return; if (new_rrop || new_fill) { rrop = mfbReduceRop(pGC->alu, pGC->fgPixel); devPriv->rop = rrop; new_fill = TRUE; /* FillArea raster op is GC's for tile filling, and the reduced rop for solid and stipple */ if (pGC->fillStyle == FillTiled) devPriv->ropFillArea = pGC->alu; else devPriv->ropFillArea = rrop; /* opaque stipples: fg bg ropOpStip fill style 1 0 alu tile 0 1 inverseAlu tile 1 1 rrop(fg, alu) solid 0 0 rrop(fg, alu) solid Note that rrop(fg, alu) == mfbPrivGC.rop, so we don't really need to compute it. */ if (pGC->fillStyle == FillOpaqueStippled) { if ((pGC->fgPixel & 1) != (pGC->bgPixel & 1)) { if (pGC->fgPixel & 1) devPriv->ropOpStip = pGC->alu; else devPriv->ropOpStip = InverseAlu[pGC->alu]; } else devPriv->ropOpStip = rrop; devPriv->ropFillArea = devPriv->ropOpStip; } } else rrop = devPriv->rop; if (new_line || new_fill || new_text) { GCOps *newops; if ((newops = matchCommon (pGC))) { if (pGC->ops->devPrivate.val) miDestroyGCOps (pGC->ops); pGC->ops = newops; new_line = new_fill = new_text = 0; } else { if (!pGC->ops->devPrivate.val) { pGC->ops = miCreateGCOps (pGC->ops); pGC->ops->devPrivate.val = 1; } } } if (new_line || new_fill) { if (pGC->lineWidth == 0) { if ((pGC->lineStyle == LineSolid) && (pGC->fillStyle == FillSolid) && ((rrop == RROP_WHITE) || (rrop == RROP_BLACK))) pGC->ops->PolyArc = mfbZeroPolyArcSS; else pGC->ops->PolyArc = miZeroPolyArc; } else pGC->ops->PolyArc = miPolyArc; if (pGC->lineStyle == LineSolid) { if(pGC->lineWidth == 0) { if (pGC->fillStyle == FillSolid) { pGC->ops->PolySegment = mfbSegmentSS; pGC->ops->Polylines = mfbLineSS; } else { pGC->ops->PolySegment = miPolySegment; pGC->ops->Polylines = miZeroLine; } } else { pGC->ops->PolySegment = miPolySegment; pGC->ops->Polylines = miWideLine; } } else { if(pGC->lineWidth == 0 && pGC->fillStyle == FillSolid) { pGC->ops->Polylines = mfbLineSD; pGC->ops->PolySegment = mfbSegmentSD; } else { pGC->ops->Polylines = miWideDash; pGC->ops->PolySegment = miPolySegment; } } } if (new_text || new_fill) { if ((pGC->font) && (FONTMAXBOUNDS(pGC->font,rightSideBearing) - FONTMINBOUNDS(pGC->font,leftSideBearing) > 32 || FONTMINBOUNDS(pGC->font,characterWidth) < 0)) { pGC->ops->PolyGlyphBlt = miPolyGlyphBlt; pGC->ops->ImageGlyphBlt = miImageGlyphBlt; } else { /* special case ImageGlyphBlt for terminal emulator fonts */ if ((pGC->font) && TERMINALFONT(pGC->font) && ((pGC->fgPixel & 1) != (pGC->bgPixel & 1))) { /* pcc bug makes this not compile... pGC->ops->ImageGlyphBlt = (pGC->fgPixel & 1) ? mfbTEGlyphBltWhite : mfbTEGlyphBltBlack; */ if (pGC->fgPixel & 1) pGC->ops->ImageGlyphBlt = mfbTEGlyphBltWhite; else pGC->ops->ImageGlyphBlt = mfbTEGlyphBltBlack; } else { if (pGC->fgPixel & 1) pGC->ops->ImageGlyphBlt = mfbImageGlyphBltWhite; else pGC->ops->ImageGlyphBlt = mfbImageGlyphBltBlack; } /* now do PolyGlyphBlt */ if (pGC->fillStyle == FillSolid || (pGC->fillStyle == FillOpaqueStippled && (pGC->fgPixel & 1) == (pGC->bgPixel & 1) ) ) { if (rrop == RROP_WHITE) pGC->ops->PolyGlyphBlt = mfbPolyGlyphBltWhite; else if (rrop == RROP_BLACK) pGC->ops->PolyGlyphBlt = mfbPolyGlyphBltBlack; else if (rrop == RROP_INVERT) pGC->ops->PolyGlyphBlt = mfbPolyGlyphBltInvert; else pGC->ops->PolyGlyphBlt = mfbPolyGlyphBltNoop; } else { pGC->ops->PolyGlyphBlt = miPolyGlyphBlt; } } } if (new_fill) { /* install a suitable fillspans and pushpixels */ pGC->ops->PushPixels = mfbPushPixels; pGC->ops->FillPolygon = miFillPolygon; if ((pGC->fillStyle == FillSolid) || ((pGC->fillStyle == FillOpaqueStippled) && ((pGC->fgPixel & 1) == (pGC->bgPixel & 1)))) { pGC->ops->PushPixels = mfbSolidPP; switch(devPriv->rop) { case RROP_WHITE: pGC->ops->FillSpans = mfbWhiteSolidFS; pGC->ops->FillPolygon = mfbFillPolyWhite; break; case RROP_BLACK: pGC->ops->FillSpans = mfbBlackSolidFS; pGC->ops->FillPolygon = mfbFillPolyBlack; break; case RROP_INVERT: pGC->ops->FillSpans = mfbInvertSolidFS; pGC->ops->FillPolygon = mfbFillPolyInvert; break; case RROP_NOP: pGC->ops->FillSpans = mfbNoopFS; pGC->ops->FillPolygon = mfbFillPolyNoop; break; } } /* beyond this point, opaqueStippled ==> fg != bg */ else if (((pGC->fillStyle == FillTiled) || (pGC->fillStyle == FillOpaqueStippled)) && !pGC->pRotatedPixmap) { pGC->ops->FillSpans = mfbUnnaturalTileFS; } else if ((pGC->fillStyle == FillStippled) && !pGC->pRotatedPixmap) { pGC->ops->FillSpans = mfbUnnaturalStippleFS; } else if (pGC->fillStyle == FillStippled) { switch(devPriv->rop) { case RROP_WHITE: pGC->ops->FillSpans = mfbWhiteStippleFS; break; case RROP_BLACK: pGC->ops->FillSpans = mfbBlackStippleFS; break; case RROP_INVERT: pGC->ops->FillSpans = mfbInvertStippleFS; break; case RROP_NOP: pGC->ops->FillSpans = mfbNoopFS; break; } } else /* overload tiles to do parti-colored opaque stipples */ { pGC->ops->FillSpans = mfbTileFS; } if (pGC->fillStyle == FillSolid) pGC->ops->PolyFillArc = mfbPolyFillArcSolid; else pGC->ops->PolyFillArc = miPolyFillArc; /* the rectangle code doesn't deal with opaque stipples that are two colors -- we can fool it for fg==bg, though */ if ((((pGC->fillStyle == FillTiled) || (pGC->fillStyle == FillStippled)) && !pGC->pRotatedPixmap) || ((pGC->fillStyle == FillOpaqueStippled) && ((pGC->fgPixel & 1) != (pGC->bgPixel & 1))) ) { pGC->ops->PolyFillRect = miPolyFillRect; } else /* deal with solids and natural stipples and tiles */ { pGC->ops->PolyFillRect = mfbPolyFillRect; if ((pGC->fillStyle == FillSolid) || ((pGC->fillStyle == FillOpaqueStippled) && ((pGC->fgPixel & 1) == (pGC->bgPixel & 1)))) { switch(devPriv->rop) { case RROP_WHITE: devPriv->FillArea = mfbSolidWhiteArea; break; case RROP_BLACK: devPriv->FillArea = mfbSolidBlackArea; break; case RROP_INVERT: devPriv->FillArea = mfbSolidInvertArea; break; case RROP_NOP: devPriv->FillArea = (mfbFillAreaProcPtr)NoopDDA; break; } } else if (pGC->fillStyle == FillStippled) { switch(devPriv->rop) { case RROP_WHITE: devPriv->FillArea = mfbStippleWhiteArea; break; case RROP_BLACK: devPriv->FillArea = mfbStippleBlackArea; break; case RROP_INVERT: devPriv->FillArea = mfbStippleInvertArea; break; case RROP_NOP: devPriv->FillArea = (mfbFillAreaProcPtr)NoopDDA; break; } } else /* deal with tiles */ { switch (pGC->alu) { case GXcopy: devPriv->FillArea = mfbTileAreaPPWCopy; break; default: devPriv->FillArea = mfbTileAreaPPWGeneral; break; } } } /* end of natural rectangles */ } /* end of new_fill */ } /* table to map alu(src, dst) to alu(~src, dst) */ int InverseAlu[16] = { GXclear, GXandInverted, GXnor, GXcopyInverted, GXand, GXnoop, GXequiv, GXorInverted, GXandReverse, GXxor, GXinvert, GXnand, GXcopy, GXor, GXorReverse, GXset }; int mfbGetInverseAlu(i) int i; { return InverseAlu[i]; } int mfbReduceRop(alu, src) register int alu; register Pixel src; { int rop = 0; if ((src & 1) == 0) /* src is black */ { switch(alu) { case GXclear: rop = RROP_BLACK; break; case GXand: rop = RROP_BLACK; break; case GXandReverse: rop = RROP_BLACK; break; case GXcopy: rop = RROP_BLACK; break; case GXandInverted: rop = RROP_NOP; break; case GXnoop: rop = RROP_NOP; break; case GXxor: rop = RROP_NOP; break; case GXor: rop = RROP_NOP; break; case GXnor: rop = RROP_INVERT; break; case GXequiv: rop = RROP_INVERT; break; case GXinvert: rop = RROP_INVERT; break; case GXorReverse: rop = RROP_INVERT; break; case GXcopyInverted: rop = RROP_WHITE; break; case GXorInverted: rop = RROP_WHITE; break; case GXnand: rop = RROP_WHITE; break; case GXset: rop = RROP_WHITE; break; } } else /* src is white */ { switch(alu) { case GXclear: rop = RROP_BLACK; break; case GXand: rop = RROP_NOP; break; case GXandReverse: rop = RROP_INVERT; break; case GXcopy: rop = RROP_WHITE; break; case GXandInverted: rop = RROP_BLACK; break; case GXnoop: rop = RROP_NOP; break; case GXxor: rop = RROP_INVERT; break; case GXor: rop = RROP_WHITE; break; case GXnor: rop = RROP_BLACK; break; case GXequiv: rop = RROP_NOP; break; case GXinvert: rop = RROP_INVERT; break; case GXorReverse: rop = RROP_WHITE; break; case GXcopyInverted: rop = RROP_BLACK; break; case GXorInverted: rop = RROP_NOP; break; case GXnand: rop = RROP_INVERT; break; case GXset: rop = RROP_WHITE; break; } } return rop; }