ref: b76e8ecc732cb311ceee6fd6c807b7e784d3fe31
dir: /sys/src/ape/X11/cmd/X/cfb/cfb8line.c/
/* * Copyright 1990, 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. * * Author: Keith Packard, MIT X Consortium * * Jeff Anton'x fixes: cfb8line.c 97/02/07 */ #ifdef HAVE_DIX_CONFIG_H #include <dix-config.h> #endif #include <stdlib.h> #include <X11/X.h> #include "gcstruct.h" #include "windowstr.h" #include "pixmapstr.h" #include "regionstr.h" #include "scrnintstr.h" #include "mistruct.h" #include "cfb.h" #include "cfbmskbits.h" #include "cfbrrop.h" #include "miline.h" #ifdef PIXEL_ADDR #if defined(__GNUC__) && defined(mc68020) #define STUPID volatile #define REARRANGE #else #define STUPID #endif #ifdef __GNUC__ /* lame compiler doesn't even look at 'register' attributes */ #define I_H do{ #define I_T }while(0); #define IMPORTANT_START I_H I_H I_H I_H I_H I_H I_H I_H I_H I_H #define IMPORTANT_END I_T I_T I_T I_T I_T I_T I_T I_T I_T I_T #else #define IMPORTANT_START #define IMPORTANT_END #endif #define isClipped(c,ul,lr) ((((c) - (ul)) | ((lr) - (c))) & ClipMask) #ifdef POLYSEGMENT # if (defined(sun) || defined(__bsdi__)) && \ (defined(sparc) || defined(__sparc__)) # define WIDTH_FAST 1152 # endif # ifdef ultrix # define WIDTH_FAST 1024 # endif # ifdef Mips # define WIDTH_FAST 4096 # endif # ifdef WIDTH_FAST # if WIDTH_FAST == 1024 # define FAST_MUL(y) ((y) << 10) # endif # if WIDTH_FAST == 1152 # define FAST_MUL(y) (((y) << 10) + ((y) << 7)) # endif # if WIDTH_FAST == 1280 # define FAST_MUL(y) (((y) << 10) + ((y) << 8)) # endif # if WIDTH_FAST == 2048 # define FAST_MUL(y) ((y) << 11) # endif # if WIDTH_FAST == 4096 # define FAST_MUL(y) ((y) << 12) # endif # endif # if defined(WIDTH_SHIFT) # ifdef FAST_MUL # define FUNC_NAME(e) RROP_NAME(RROP_NAME_CAT(e,Shift)) # if RROP == GXcopy # define INCLUDE_OTHERS # define SERIOUS_UNROLLING # endif # define INCLUDE_DRAW # define NWIDTH(nwidth) WIDTH_FAST # define WIDTH_MUL(y,w) FAST_MUL(y) # endif # else # define FUNC_NAME(e) RROP_NAME(e) # define WIDTH_MUL(y,w) ((y) * (w)) # define NWIDTH(nwidth) (nwidth) # define INCLUDE_DRAW # if !defined (FAST_MUL) && RROP == GXcopy # define INCLUDE_OTHERS # define SERIOUS_UNROLLING # endif # endif #else # define INCLUDE_DRAW # define WIDTH_MUL(y,w) ((y) * (w)) # define NWIDTH(nwidth) nwidth # ifdef PREVIOUS # define FUNC_NAME(e) RROP_NAME(RROP_NAME_CAT(e,Previous)) # else # define FUNC_NAME(e) RROP_NAME(e) # if RROP == GXcopy # define INCLUDE_OTHERS # ifdef PLENTIFUL_REGISTERS # define SAVE_X2Y2 # endif # define ORIGIN # define SERIOUS_UNROLLING # else # define EITHER_MODE # endif # endif #endif #if PSZ == 24 #define PXL2ADR(x) ((x)*3 >> 2) #if RROP == GXcopy #define body_rop \ addrp = (PixelType *)((unsigned long)addrb & ~0x03); \ switch((unsigned long)addrb & 3){ \ case 0: \ *addrp = (*addrp & 0xFF000000)|(piQxelXor[0] & 0xFFFFFF); \ break; \ case 1: \ *addrp = (*addrp & 0xFF)|(piQxelXor[2] & 0xFFFFFF00); \ break; \ case 3: \ *addrp = (*addrp & 0xFFFFFF)|(piQxelXor[0] & 0xFF000000); \ *(addrp+1)=(*(addrp+1) & 0xFFFF0000)|(piQxelXor[1] & 0xFFFF); \ break; \ case 2: \ *addrp = (*addrp & 0xFFFF)|(piQxelXor[1] & 0xFFFF0000); \ *(addrp+1)=(*(addrp+1) & 0xFFFFFF00)|(piQxelXor[2] & 0xFF); \ break; \ } #endif #if RROP == GXxor #define body_rop \ addrp = (PixelType *)((unsigned long)addrb & ~0x03); \ switch((unsigned long)addrb & 3){ \ case 0: \ *addrp ^= piQxelXor[0] & 0xFFFFFF; \ break; \ case 1: \ *addrp ^= piQxelXor[2] & 0xFFFFFF00; \ break; \ case 3: \ *addrp ^= piQxelXor[0] & 0xFF000000; \ *(addrp+1) ^= piQxelXor[1] & 0xFFFF; \ break; \ case 2: \ *addrp ^= piQxelXor[1] & 0xFFFF0000; \ *(addrp+1) ^= piQxelXor[2] & 0xFF; \ break; \ } #endif #if RROP == GXand #define body_rop \ addrp = (PixelType *)((unsigned long)addrb & ~0x03); \ switch((unsigned long)addrb & 3){ \ case 0: \ *addrp &= piQxelAnd[0] | 0xFF000000; \ break; \ case 1: \ *addrp &= piQxelAnd[2] | 0xFF; \ break; \ case 3: \ *addrp &= 0xFFFFFF | piQxelAnd[0]; \ *(addrp+1) &= 0xFFFF0000 | piQxelAnd[1]; \ break; \ case 2: \ *addrp &= 0xFFFF | piQxelAnd[1]; \ *(addrp+1) &= 0xFFFFFF00 | piQxelAnd[2]; \ break; \ } #endif #if RROP == GXor #define body_rop \ addrp = (PixelType *)((unsigned long)addrb & ~0x03); \ switch((unsigned long)addrb & 3){ \ case 0: \ *addrp |= piQxelOr[0] & 0xFFFFFF; \ break; \ case 1: \ *addrp |= piQxelOr[2] & 0xFFFFFF00; \ break; \ case 3: \ *addrp |= piQxelOr[0] & 0xFF000000; \ *(addrp+1) |= piQxelOr[1] & 0xFFFF; \ break; \ case 2: \ *addrp |= piQxelOr[1] & 0xFFFF0000; \ *(addrp+1) |= piQxelOr[2] & 0xFF; \ break; \ } #endif #if RROP == GXset #define body_rop \ addrp = (PixelType *)((unsigned long)addrb & ~0x03); \ switch((unsigned long)addrb & 3){ \ case 0: \ *addrp = (*addrp & (piQxelAnd[0]|0xFF000000)) \ ^ (piQxelXor[0] & 0xFFFFFF); \ break; \ case 1: \ *addrp = (*addrp & (piQxelAnd[2]|0xFF)) \ ^ (piQxelXor[2] & 0xFFFFFF00); \ break; \ case 3: \ *addrp = (*addrp & (piQxelAnd[0]|0xFFFFFF)) \ ^ (piQxelXor[0] & 0xFF000000); \ *(addrp+1) = (*(addrp+1) & (piQxelAnd[1]|0xFFFF0000)) \ ^ (piQxelXor[1] & 0xFFFF); \ break; \ case 2: \ *addrp = (*addrp & (piQxelAnd[1]|0xFFFF)) \ ^ (piQxelXor[1] & 0xFFFF0000); \ *(addrp+1) = (*(addrp+1) & (piQxelAnd[2]|0xFFFFFF00)) \ ^ (piQxelXor[2] & 0xFF); \ break; \ } #endif #endif /* PSZ == 24 */ #define BUGFIX_clip #ifdef INCLUDE_DRAW int #ifdef POLYSEGMENT FUNC_NAME(cfb8SegmentSS1Rect) (pDrawable, pGC, nseg, pSegInit) DrawablePtr pDrawable; GCPtr pGC; int nseg; xSegment *pSegInit; #else FUNC_NAME(cfb8LineSS1Rect) (pDrawable, pGC, mode, npt, pptInit, pptInitOrig, x1p,y1p,x2p,y2p) DrawablePtr pDrawable; GCPtr pGC; int mode; /* Origin or Previous */ int npt; /* number of points */ DDXPointPtr pptInit, pptInitOrig; int *x1p, *y1p, *x2p, *y2p; #endif /* POLYSEGMENT */ { register long e; register int y1_or_e1; register PixelType *addrp; register int stepmajor; register int stepminor; #ifndef REARRANGE register long e3; #endif #ifdef mc68000 register short x1_or_len; #else register int x1_or_len; #endif RROP_DECLARE #ifdef SAVE_X2Y2 # define c2 y2 #else register int c2; #endif #if !defined(ORIGIN) && !defined(POLYSEGMENT) register int _x1 = 0, _y1 = 0, _x2 = 0, _y2 = 0; int extents_x1, extents_y1, extents_x2, extents_y2; #endif /* !ORIGIN */ #ifndef PREVIOUS register int upperleft, lowerright; CARD32 ClipMask = 0x80008000; #endif /* !PREVIOUS */ #ifdef POLYSEGMENT register int capStyle; #endif /* POLYSEGMENT */ #ifdef SAVE_X2Y2 register int x2, y2; # define X1 x1_or_len # define Y1 y1_or_e1 # define X2 x2 # define Y2 y2 #else # ifdef POLYSEGMENT # define X1 x1_or_len # define Y1 y1_or_e1 # else # define X1 intToX(y1_or_e1) # define Y1 intToY(y1_or_e1) # endif /* POLYSEGMENT */ # define X2 intToX(c2) # define Y2 intToY(c2) #endif /* SAVE_X2Y2 */ PixelType *addr; int nwidth; cfbPrivGCPtr devPriv; BoxPtr extents; int *ppt; #if PSZ == 24 int xBase; /* x of addr */ int xOffset; /* x of addrp */ PixelType *addrLineEnd; char *addrb; int stepmajor3, stepminor3, majordx, minordx; #endif #ifndef POLYSEGMENT #ifndef ORIGIN #ifdef BUGFIX_clip int ex_x1, ex_y1, ex_x2, ex_y2; #endif #endif #endif int octant; unsigned int bias = miGetZeroLineBias(pDrawable->pScreen); devPriv = cfbGetGCPrivate(pGC); cfbGetPixelWidthAndPointer (pDrawable, nwidth, addr); #ifndef REARRANGE RROP_FETCH_GCPRIV(devPriv); #endif extents = &pGC->pCompositeClip->extents; #ifndef PREVIOUS c2 = *((int *) &pDrawable->x); c2 -= (c2 & 0x8000) << 1; upperleft = *((int *) &extents->x1) - c2; lowerright = *((int *) &extents->x2) - c2 - 0x00010001; #endif /* !PREVIOUS */ #ifndef POLYSEGMENT #ifndef ORIGIN #ifdef BUGFIX_clip ex_x1 = extents->x1 - pDrawable->x; ex_y1 = extents->y1 - pDrawable->y; ex_x2 = extents->x2 - pDrawable->x; ex_y2 = extents->y2 - pDrawable->y; #endif #endif #endif #if PSZ == 24 xBase = pDrawable->x; addr += WIDTH_MUL(pDrawable->y,nwidth); #else addr = addr + WIDTH_MUL(pDrawable->y,nwidth) + pDrawable->x; #endif #ifdef POLYSEGMENT capStyle = pGC->capStyle - CapNotLast; ppt = (int *) pSegInit; while (nseg--) #else /* POLYSEGMENT */ #ifdef EITHER_MODE mode -= CoordModePrevious; if (!mode) #endif /* EITHER_MODE */ #ifndef ORIGIN { /* CoordModePrevious */ ppt = (int *)pptInit + 1; _x1 = *x1p; _y1 = *y1p; extents_x1 = extents->x1 - pDrawable->x; extents_x2 = extents->x2 - pDrawable->x; extents_y1 = extents->y1 - pDrawable->y; extents_y2 = extents->y2 - pDrawable->y; if (_x1 < extents_x1 || _x1 >= extents_x2 || _y1 < extents_y1 || _y1 >= extents_y2) { c2 = *ppt++; intToCoord(c2, _x2, _y2); *x2p = _x1 + _x2; *y2p = _y1 + _y2; return 1; } #if PSZ == 24 addrLineEnd = addr + WIDTH_MUL(_y1, nwidth); xOffset = xBase + _x1; addrb = (char *)addrLineEnd + xOffset * 3; addrp = (PixelType *)((unsigned long)addrb & ~0x03); #else addrp = addr + WIDTH_MUL(_y1, nwidth) + _x1; #endif _x2 = _x1; _y2 = _y1; } #endif /* !ORIGIN */ #ifdef EITHER_MODE else #endif /* EITHER_MODE */ #ifndef PREVIOUS { ppt = (int *) pptInit; c2 = *ppt++; if (isClipped (c2, upperleft, lowerright)) { return 1; } #ifdef SAVE_X2Y2 intToCoord(c2,x2,y2); #endif #if PSZ == 24 addrLineEnd = addr + WIDTH_MUL(Y2, nwidth); xOffset = xBase + X2; addrb = (char *)addrLineEnd + xOffset * 3; addrp = (PixelType *)((unsigned long)addrb & ~0x03); #else addrp = addr + WIDTH_MUL(Y2, nwidth) + X2; #endif } #endif /* !PREVIOUS */ while (--npt) #endif /* POLYSEGMENT */ { #ifdef POLYSEGMENT y1_or_e1 = ppt[0]; c2 = ppt[1]; ppt += 2; if (isClipped(y1_or_e1,upperleft,lowerright)|isClipped(c2,upperleft,lowerright)) break; intToCoord(y1_or_e1,x1_or_len,y1_or_e1); /* compute now to avoid needing x1, y1 later */ #if PSZ == 24 addrLineEnd = addr + WIDTH_MUL(y1_or_e1, nwidth); xOffset = xBase + x1_or_len; addrb = (char *)addrLineEnd + xOffset * 3; addrp = (PixelType *)((unsigned long)addrb & ~0x03); #else addrp = addr + WIDTH_MUL(y1_or_e1, nwidth) + x1_or_len; #endif #else /* !POLYSEGMENT */ #ifdef EITHER_MODE if (!mode) #endif /* EITHER_MODE */ #ifndef ORIGIN { /* CoordModePrevious */ _x1 = _x2; _y1 = _y2; c2 = *ppt++; intToCoord(c2, _x2, _y2); _x2 = _x1 + _x2; _y2 = _y1 + _y2; #ifdef BUGFIX_clip if (_x2 < ex_x1 || _x2 >= ex_x2 || _y2 < ex_y1 || _y2 >= ex_y2) #else if (_x2 < extents_x1 || _x2 >= extents_x2 || _y2 < extents_y1 || _y2 >= extents_y2) #endif { break; } CalcLineDeltas(_x1, _y1, _x2, _y2, x1_or_len, y1_or_e1, stepmajor, stepminor, 1, NWIDTH(nwidth), octant); } #endif /* !ORIGIN */ #ifdef EITHER_MODE else #endif /* EITHER_MODE */ #ifndef PREVIOUS { #ifndef SAVE_X2Y2 y1_or_e1 = c2; #else y1_or_e1 = y2; x1_or_len = x2; #endif /* SAVE_X2Y2 */ c2 = *ppt++; if (isClipped (c2, upperleft, lowerright)) break; #ifdef SAVE_X2Y2 intToCoord(c2,x2,y2); #endif CalcLineDeltas(X1, Y1, X2, Y2, x1_or_len, y1_or_e1, stepmajor, stepminor, 1, NWIDTH(nwidth), octant); } #endif /* !PREVIOUS */ #endif /* POLYSEGMENT */ #ifdef POLYSEGMENT CalcLineDeltas(X1, Y1, X2, Y2, x1_or_len, y1_or_e1, stepmajor, stepminor, 1, NWIDTH(nwidth), octant); /* * although the horizontal code works for polyline, it * slows down 10 pixel lines by 15%. Thus, this * code is optimized for horizontal segments and * random orientation lines, which seems like a reasonable * assumption */ if (y1_or_e1 != 0) { #endif /* POLYSEGMENT */ if (x1_or_len < y1_or_e1) { #ifdef REARRANGE register int e3; #endif e3 = x1_or_len; x1_or_len = y1_or_e1; y1_or_e1 = e3; e3 = stepminor; stepminor = stepmajor; stepmajor = e3; SetYMajorOctant(octant); } e = -x1_or_len; #ifdef POLYSEGMENT if (!capStyle) x1_or_len--; #endif { #ifdef REARRANGE register int e3; RROP_DECLARE RROP_FETCH_GCPRIV(devPriv); #endif y1_or_e1 = y1_or_e1 << 1; e3 = e << 1; FIXUP_ERROR(e, octant, bias); #if PSZ == 24 if (stepmajor == 1 || stepmajor == -1){ stepmajor3 = stepmajor * 3; stepminor3 = stepminor * sizeof (CfbBits); majordx = stepmajor; minordx = 0; } else { stepmajor3 = stepmajor * sizeof (CfbBits); stepminor3 = stepminor * 3; majordx = 0; minordx = stepminor; } #endif #if PSZ == 24 #define body {\ body_rop \ addrb += stepmajor3; \ xOffset += majordx; \ e += y1_or_e1; \ if (e >= 0){ \ addrb += stepminor3; \ xOffset += minordx; \ e += e3; \ } \ } #else /* PSZ == 24 */ #define body {\ RROP_SOLID(addrp); \ addrp += stepmajor; \ e += y1_or_e1; \ if (e >= 0) \ { \ addrp += stepminor; \ e += e3; \ } \ } #endif /* PSZ == 24 */ #ifdef LARGE_INSTRUCTION_CACHE # ifdef SERIOUS_UNROLLING # define UNROLL 16 # else # define UNROLL 4 # endif #define CASE(n) case -n: body while ((x1_or_len -= UNROLL) >= 0) { body body body body # if UNROLL >= 8 body body body body # endif # if UNROLL >= 12 body body body body # endif # if UNROLL >= 16 body body body body # endif } switch (x1_or_len) { CASE(1) CASE(2) CASE(3) # if UNROLL >= 8 CASE(4) CASE(5) CASE(6) CASE(7) # endif # if UNROLL >= 12 CASE(8) CASE(9) CASE(10) CASE(11) # endif # if UNROLL >= 16 CASE(12) CASE(13) CASE(14) CASE(15) # endif } #else /* !LARGE_INSTRUCTION_CACHE */ IMPORTANT_START IMPORTANT_START if (x1_or_len & 1) body x1_or_len >>= 1; while (x1_or_len--) { body body } IMPORTANT_END IMPORTANT_END #endif /* LARGE_INSTRUCTION_CACHE */ #ifdef POLYSEGMENT #if PSZ == 24 body_rop #else RROP_SOLID(addrp); #endif #endif #if PSZ == 24 addrp = (PixelType *)((unsigned long)addrb & ~0x03); #endif } #undef body #ifdef POLYSEGMENT } else /* Polysegment horizontal line optimization */ { # ifdef REARRANGE register int e3; RROP_DECLARE RROP_FETCH_GCPRIV(devPriv); # endif /* REARRANGE */ if (stepmajor < 0) { #if PSZ == 24 xOffset -= x1_or_len; addrp = addrLineEnd + PXL2ADR(xOffset); #else addrp -= x1_or_len; #endif if (capStyle) x1_or_len++; else #if PSZ == 24 xOffset++; addrp = addrLineEnd + PXL2ADR(xOffset); #else addrp++; #endif } else { #if PSZ == 24 addrp = addrLineEnd + PXL2ADR(xOffset); #endif if (capStyle) x1_or_len++; } # if PSZ == 24 y1_or_e1 = xOffset & 3; # else # if PGSZ == 64 /* PIM value from <cfbmskbits.h> is not it! (for 16/32 PSZ)*/ y1_or_e1 = ((long) addrp) & 0x7; addrp = (PixelType *) (((unsigned char *) addrp) - y1_or_e1); # else y1_or_e1 = ((long) addrp) & PIM; addrp = (PixelType *) (((unsigned char *) addrp) - y1_or_e1); # endif #if PGSZ == 32 # if PWSH != 2 y1_or_e1 >>= (2 - PWSH); # endif #else /* PGSZ == 64 */ # if PWSH != 3 y1_or_e1 >>= (3 - PWSH); # endif #endif /* PGSZ */ # endif /* PSZ == 24 */ #if PSZ == 24 { #if RROP == GXcopy register int nlmiddle; int leftIndex = xOffset & 3; int rightIndex = (xOffset + x1_or_len) & 3; #else register int pidx; #endif #if RROP == GXcopy nlmiddle = x1_or_len; if(leftIndex){ nlmiddle -= (4 - leftIndex); } if(rightIndex){ nlmiddle -= rightIndex; } nlmiddle >>= 2; switch(leftIndex+x1_or_len){ case 4: switch(leftIndex){ case 0: *addrp++ = piQxelXor[0]; *addrp++ = piQxelXor[1]; *addrp = piQxelXor[2]; break; case 1: *addrp = ((*addrp) & 0xFFFFFF) | (piQxelXor[0] & 0xFF000000); addrp++; *addrp = piQxelXor[1]; addrp++; *addrp = piQxelXor[2]; break; case 2: *addrp = ((*addrp) & 0xFFFF) | (piQxelXor[1] & 0xFFFF0000); addrp++; *addrp = piQxelXor[2]; break; case 3: *addrp = ((*addrp) & 0xFF) | (piQxelXor[2] & 0xFFFFFF00); break; } break; case 3: switch(leftIndex){ case 0: *addrp++ = piQxelXor[0]; *addrp++ = piQxelXor[1]; *addrp = ((*addrp) & 0xFFFFFF00) | (piQxelXor[2] & 0xFF); break; case 1: *addrp = ((*addrp) & 0xFFFFFF) | (piQxelXor[0] & 0xFF000000); addrp++; *addrp = piQxelXor[1]; addrp++; *addrp = ((*addrp) & 0xFFFFFF00) | (piQxelXor[2] & 0xFF); break; case 2: *addrp = ((*addrp) & 0xFFFF) | (piQxelXor[1] & 0xFFFF0000); addrp++; *addrp = ((*addrp) & 0xFFFFFF00) | (piQxelXor[2] & 0xFF); break; } break; case 2: switch(leftIndex){ /* case 2: *addrp = ((*addrp) & 0xFFFF) | (piQxelXor[1] & 0xFFFF0000); addrp++; *addrp = ((*addrp) & 0xFFFFFF00) | (piQxelXor[2] & 0xFF); break; */ case 1: *addrp = ((*addrp) & 0xFFFFFF) | (piQxelXor[0] & 0xFF000000); addrp++; *addrp = ((*addrp) & 0xFFFF0000) | (piQxelXor[1] & 0xFFFF); break; case 0: *addrp++ = piQxelXor[0]; *addrp = ((*addrp) & 0xFFFF0000) | (piQxelXor[1] & 0xFFFF); break; } break; case 1: /*only if leftIndex = 0 and w = 1*/ if(x1_or_len){ *addrp = ((*addrp) & 0xFF000000) | (piQxelXor[0] & 0xFFFFFF); } /* else{ *addrp = ((*addrp) & 0xFFFFFF) | (piQxelXor[0] & 0xFF000000); addrp++; *addrp = ((*addrp) & 0xFFFF0000) | (piQxelXor[1] & 0xFFFF); } */ break; case 0: /*never*/ break; default: { /* maskbits(y1_or_e1, x1_or_len, e, e3, x1_or_len) */ switch(leftIndex){ case 0: break; case 1: *addrp = ((*addrp) & 0xFFFFFF) | (piQxelXor[0] & 0xFF000000); addrp++; *addrp = piQxelXor[1]; addrp++; *addrp = piQxelXor[2]; addrp++; break; case 2: *addrp = ((*addrp) & 0xFFFF) | (piQxelXor[1] & 0xFFFF0000); addrp++; *addrp = piQxelXor[2]; addrp++; break; case 3: *addrp = ((*addrp) & 0xFF) | (piQxelXor[2] & 0xFFFFFF00); addrp++; break; } while(nlmiddle--){ *addrp++ = piQxelXor[0]; *addrp++ = piQxelXor[1]; *addrp++ = piQxelXor[2]; } switch(rightIndex++){ case 0: break; case 1: *addrp = ((*addrp) & 0xFF000000) | (piQxelXor[0] & 0xFFFFFF); break; case 2: *addrp++ = piQxelXor[0]; *addrp = ((*addrp) & 0xFFFF0000) | (piQxelXor[1] & 0xFFFF); break; case 3: *addrp++ = piQxelXor[0]; *addrp++ = piQxelXor[1]; *addrp = ((*addrp) & 0xFFFFFF00) | (piQxelXor[2] & 0xFF); break; } /* if (e3){ e3 &= 0xFFFFFF; switch(rightIndex&3){ case 0: *addrp = ((*addrp) & (0xFF000000 | ~e3)) | (piQxelXor[0] & 0xFFFFFF & e3); break; case 1: *addrp = ((*addrp) & (0xFFFFFF | ~(e3<<24))) + (piQxelXor[0] & 0xFF000000 & (e3<<24)); addrp++; *addrp = ((*addrp) & (0xFFFF0000|~(e3 >> 8))) | (piQxelXor[1] & 0xFFFF & (e3 >> 8)); break; case 2: *addrp = ((*addrp) & (0xFFFF|~(e3 << 16))) | (piQxelXor[1] & 0xFFFF0000 & (e3 << 16)); addrp++; *addrp = ((*addrp) & (0xFFFFFF00|~(e3>>16))) | (piQxelXor[2] & 0xFF & (e3 >> 16)); break; case 3: *addrp = ((*addrp) & (0xFF|~(e3<<8))) | (piQxelXor[2] & 0xFFFFFF00 & (e3<<8)); addrp++; break; } } */ } } #else /* GXcopy */ addrp = (PixelType *)((char *)addrLineEnd + ((xOffset * 3) & ~0x03)); if (x1_or_len <= 1){ if (x1_or_len) RROP_SOLID24(addrp, xOffset); } else { maskbits(xOffset, x1_or_len, e, e3, x1_or_len); pidx = xOffset & 3; if (e){ RROP_SOLID_MASK(addrp, e, pidx-1); addrp++; if (pidx == 3) pidx = 0; } while (--x1_or_len >= 0){ RROP_SOLID(addrp, pidx); addrp++; if (++pidx == 3) pidx = 0; } if (e3) RROP_SOLID_MASK(addrp, e3, pidx); } #endif /* GXcopy */ } #else /* PSZ == 24 */ if (y1_or_e1 + x1_or_len <= PPW) { if (x1_or_len) { maskpartialbits(y1_or_e1, x1_or_len, e) RROP_SOLID_MASK((CfbBits *) addrp, e); } } else { maskbits(y1_or_e1, x1_or_len, e, e3, x1_or_len) if (e) { RROP_SOLID_MASK((CfbBits *) addrp, e); addrp += PPW; } RROP_SPAN(addrp, x1_or_len) if (e3) RROP_SOLID_MASK((CfbBits *) addrp, e3); } #endif /* PSZ == 24 */ } #endif /* POLYSEGMENT */ } #ifdef POLYSEGMENT if (nseg >= 0) return (xSegment *) ppt - pSegInit; #else if (npt) { #ifdef EITHER_MODE if (!mode) #endif /* EITHER_MODE */ #ifndef ORIGIN { *x1p = _x1; *y1p = _y1; *x2p = _x2; *y2p = _y2; } #endif /* !ORIGIN */ return ((DDXPointPtr) ppt - pptInit) - 1; } # ifndef ORIGIN # define C2 c2 # else # define C2 ppt[-1] # endif #ifdef EITHER_MODE if (pGC->capStyle != CapNotLast && ((mode ? (C2 != *((int *) pptInitOrig)) : ((_x2 != pptInitOrig->x) || (_y2 != pptInitOrig->y))) || (ppt == ((int *)pptInitOrig) + 2))) #endif /* EITHER_MODE */ #ifdef PREVIOUS if (pGC->capStyle != CapNotLast && ((_x2 != pptInitOrig->x) || (_y2 != pptInitOrig->y) || (ppt == ((int *)pptInitOrig) + 2))) #endif /* PREVIOUS */ #ifdef ORIGIN if (pGC->capStyle != CapNotLast && ((C2 != *((int *) pptInitOrig)) || (ppt == ((int *)pptInitOrig) + 2))) #endif /* !PREVIOUS */ { # ifdef REARRANGE RROP_DECLARE RROP_FETCH_GCPRIV(devPriv); # endif #if PSZ == 24 #if RROP == GXcopy switch(xOffset & 3){ case 0: *addrp = ((*addrp)&0xFF000000)|(piQxelXor[0] & 0xFFFFFF); break; case 3: *addrp = ((*addrp)&0xFF)|(piQxelXor[2] & 0xFFFFFF00); break; case 1: *addrp = ((*addrp)&0xFFFFFF)|(piQxelXor[0] & 0xFF000000); *(addrp+1) = ((*(addrp+1))&0xFFFF0000)|(piQxelXor[1] & 0xFFFF); break; case 2: *addrp = ((*addrp)&0xFFFF)|(piQxelXor[1] & 0xFFFF0000); *(addrp+1) = ((*(addrp+1))&0xFFFFFF00)|(piQxelXor[2] & 0xFF); break; } #endif #if RROP == GXxor switch(xOffset & 3){ case 0: *addrp ^= (piQxelXor[0] & 0xFFFFFF); break; case 3: *addrp ^= (piQxelXor[2] & 0xFFFFFF00); break; case 1: *addrp ^= (piQxelXor[0] & 0xFF000000); *(addrp+1) ^= (piQxelXor[1] & 0xFFFF); break; case 2: *addrp ^= (piQxelXor[1] & 0xFFFF0000); *(addrp+1) ^= (piQxelXor[2] & 0xFF); break; } #endif #if RROP == GXand switch(xOffset & 3){ case 0: *addrp &= (piQxelAnd[0] | 0xFF000000); break; case 3: *addrp &= (piQxelAnd[2] | 0xFF); break; case 1: *addrp &= (0xFFFFFF|piQxelAnd[0]); *(addrp+1) &= (0xFFFF0000|piQxelAnd[1]); break; case 2: *addrp &= (0xFFFF|piQxelAnd[1]); *(addrp+1) &= (0xFFFFFF00|piQxelAnd[2]); break; } #endif #if RROP == GXor switch(xOffset & 3){ case 0: *addrp |= (piQxelOr[0] & 0xFFFFFF); break; case 3: *addrp |= (piQxelOr[2] & 0xFFFFFF00); break; case 1: *addrp |= (piQxelOr[0] & 0xFF000000); *(addrp+1) |= (piQxelOr[1] & 0xFFFF); break; case 2: *addrp |= (piQxelOr[1] & 0xFFFF0000); *(addrp+1) |= (piQxelOr[2] & 0xFF); break; } #endif #if RROP == GXset switch(xOffset & 3){ case 0: *addrp = (((*addrp)&(piQxelAnd[0] |0xFF000000))^(piQxelXor[0] & 0xFFFFFF)); break; case 3: *addrp = (((*addrp)&(piQxelAnd[2]|0xFF))^(piQxelXor[2] & 0xFFFFFF00)); break; case 1: *addrp = (((*addrp)&(piQxelAnd[0]|0xFFFFFF))^(piQxelXor[0] & 0xFF000000)); *(addrp+1) = (((*(addrp+1))&(piQxelAnd[1]|0xFFFF0000))^(piQxelXor[1] & 0xFFFF)); break; case 2: *addrp = (((*addrp)&(piQxelAnd[1]|0xFFFF))^(piQxelXor[1] & 0xFFFF0000)); *(addrp+1) = (((*(addrp+1))&(piQxelAnd[2]|0xFFFFFF00))^(piQxelXor[2] & 0xFF)); break; } #endif #else RROP_SOLID (addrp); # endif } #endif /* !POLYSEGMENT */ RROP_UNDECLARE; return -1; } #endif /* INCLUDE_DRAW */ #ifdef INCLUDE_OTHERS #ifdef POLYSEGMENT void cfb8SegmentSS1Rect (pDrawable, pGC, nseg, pSegInit) DrawablePtr pDrawable; GCPtr pGC; int nseg; xSegment *pSegInit; { int (*func)(DrawablePtr, GCPtr, int, xSegment *); void (*clip)(DrawablePtr, GCPtr, int, int, int, int, BoxPtr, Bool); int drawn; cfbPrivGCPtr devPriv; #if defined(__arm32__) && PSZ != 8 /* XXX -JJK */ /* There is a painting bug when PSZ != 8; I need to track it down! */ cfbSegmentSS(pDrawable, pGC, nseg, pSegInit); return; #endif devPriv = cfbGetGCPrivate(pGC); #ifdef NO_ONE_RECT if (REGION_NUM_RECTS(pGC->pCompositeClip) != 1) { cfbSegmentSS(pDrawable, pGC, nseg, pSegInit); return; } #endif switch (devPriv->rop) { case GXcopy: func = cfb8SegmentSS1RectCopy; clip = cfb8ClippedLineCopy; #ifdef FAST_MUL if (cfbGetPixelWidth (pDrawable) == WIDTH_FAST) func = cfb8SegmentSS1RectShiftCopy; #endif break; case GXxor: func = cfb8SegmentSS1RectXor; clip = cfb8ClippedLineXor; break; default: func = cfb8SegmentSS1RectGeneral; clip = cfb8ClippedLineGeneral; break; } while (nseg) { drawn = (*func) (pDrawable, pGC, nseg, pSegInit); if (drawn == -1) break; (*clip) (pDrawable, pGC, pSegInit[drawn-1].x1, pSegInit[drawn-1].y1, pSegInit[drawn-1].x2, pSegInit[drawn-1].y2, &pGC->pCompositeClip->extents, pGC->capStyle == CapNotLast); pSegInit += drawn; nseg -= drawn; } } #else /* POLYSEGMENT */ void cfb8LineSS1Rect (pDrawable, pGC, mode, npt, pptInit) DrawablePtr pDrawable; GCPtr pGC; int mode; int npt; DDXPointPtr pptInit; { int (*func)(DrawablePtr, GCPtr, int, int, DDXPointPtr, DDXPointPtr, int *, int *, int *, int *); void (*clip)(DrawablePtr, GCPtr, int, int, int, int, BoxPtr, Bool); int drawn; cfbPrivGCPtr devPriv; int x1, y1, x2, y2; DDXPointPtr pptInitOrig = pptInit; #if defined(__arm32__) && PSZ != 8 /* XXX -JJK */ /* There is a painting bug when PSZ != 8; I need to track it down! */ cfbLineSS(pDrawable, pGC, mode, npt, pptInit); return; #endif devPriv = cfbGetGCPrivate(pGC); #ifdef NO_ONE_RECT if (REGION_NUM_RECTS(pGC->pCompositeClip) != 1) { cfbLineSS(pDrawable, pGC, mode, npt, pptInit); return; } #endif switch (devPriv->rop) { case GXcopy: func = cfb8LineSS1RectCopy; clip = cfb8ClippedLineCopy; if (mode == CoordModePrevious) func = cfb8LineSS1RectPreviousCopy; break; case GXxor: func = cfb8LineSS1RectXor; clip = cfb8ClippedLineXor; break; default: func = cfb8LineSS1RectGeneral; clip = cfb8ClippedLineGeneral; break; } if (mode == CoordModePrevious) { x1 = pptInit->x; y1 = pptInit->y; while (npt > 1) { drawn = (*func) (pDrawable, pGC, mode, npt, pptInit, pptInitOrig, &x1, &y1, &x2, &y2); if (drawn == -1) break; (*clip) (pDrawable, pGC, x1, y1, x2, y2, &pGC->pCompositeClip->extents, drawn != npt - 1 || pGC->capStyle == CapNotLast); pptInit += drawn; npt -= drawn; x1 = x2; y1 = y2; } } else { while (npt > 1) { drawn = (*func) (pDrawable, pGC, mode, npt, pptInit, pptInitOrig, &x1, &y1, &x2, &y2); if (drawn == -1) break; (*clip) (pDrawable, pGC, pptInit[drawn-1].x, pptInit[drawn-1].y, pptInit[drawn].x, pptInit[drawn].y, &pGC->pCompositeClip->extents, drawn != npt - 1 || pGC->capStyle == CapNotLast); pptInit += drawn; npt -= drawn; } } } #endif /* else POLYSEGMENT */ #endif /* INCLUDE_OTHERS */ #if !defined(POLYSEGMENT) && !defined (PREVIOUS) void RROP_NAME (cfb8ClippedLine) (pDrawable, pGC, x1, y1, x2, y2, boxp, shorten) DrawablePtr pDrawable; GCPtr pGC; int x1, y1, x2, y2; BoxPtr boxp; Bool shorten; { int oc1, oc2; int e, e1, e3, len; int adx, ady; PixelType *addr; int nwidth; int stepx, stepy; int xorg, yorg; int new_x1, new_y1, new_x2, new_y2; Bool pt1_clipped, pt2_clipped; int changex, changey, result; #if PSZ == 24 PixelType *addrLineEnd; char *addrb; int stepx3, stepy3; #endif int octant; unsigned int bias = miGetZeroLineBias(pDrawable->pScreen); cfbGetPixelWidthAndPointer(pDrawable, nwidth, addr); xorg = pDrawable->x; yorg = pDrawable->y; x1 += xorg; y1 += yorg; x2 += xorg; y2 += yorg; oc1 = 0; oc2 = 0; OUTCODES (oc1, x1, y1, boxp); OUTCODES (oc2, x2, y2, boxp); if (oc1 & oc2) return; CalcLineDeltas(x1, y1, x2, y2, adx, ady, stepx, stepy, 1, nwidth, octant); if (adx <= ady) { int t; t = adx; adx = ady; ady = t; t = stepx; stepx = stepy; stepy = t; SetYMajorOctant(octant); } e = - adx; e1 = ady << 1; e3 = - (adx << 1); FIXUP_ERROR(e, octant, bias); new_x1 = x1; new_y1 = y1; new_x2 = x2; new_y2 = y2; pt1_clipped = 0; pt2_clipped = 0; if (IsXMajorOctant(octant)) { result = miZeroClipLine(boxp->x1, boxp->y1, boxp->x2 - 1, boxp->y2 - 1, &new_x1, &new_y1, &new_x2, &new_y2, adx, ady, &pt1_clipped, &pt2_clipped, octant, bias, oc1, oc2); if (result == -1) return; len = abs(new_x2 - new_x1) - 1; /* this routine needs the "-1" */ /* if we've clipped the endpoint, always draw the full length * of the segment, because then the capstyle doesn't matter * if x2,y2 isn't clipped, use the capstyle * (shorten == TRUE <--> CapNotLast) */ if (pt2_clipped || !shorten) len++; if (pt1_clipped) { /* must calculate new error terms */ changex = abs(new_x1 - x1); changey = abs(new_y1 - y1); e = e + changey * e3 + changex * e1; } } else /* Y_AXIS */ { result = miZeroClipLine(boxp->x1, boxp->y1, boxp->x2 - 1, boxp->y2 - 1, &new_x1, &new_y1, &new_x2, &new_y2, ady, adx, &pt1_clipped, &pt2_clipped, octant, bias, oc1, oc2); if (result == -1) return; len = abs(new_y2 - new_y1) - 1; /* this routine needs the "-1" */ /* if we've clipped the endpoint, always draw the full length * of the segment, because then the capstyle doesn't matter * if x2,y2 isn't clipped, use the capstyle * (shorten == TRUE <--> CapNotLast) */ if (pt2_clipped || !shorten) len++; if (pt1_clipped) { /* must calculate new error terms */ changex = abs(new_x1 - x1); changey = abs(new_y1 - y1); e = e + changex * e3 + changey * e1; } } x1 = new_x1; y1 = new_y1; { register PixelType *addrp; RROP_DECLARE RROP_FETCH_GC(pGC); #if PSZ == 24 addrLineEnd = addr + (y1 * nwidth); addrb = (char *)addrLineEnd + x1 * 3; if (stepx == 1 || stepx == -1){ stepx3 = stepx * 3; stepy3 = stepy * sizeof (CfbBits); } else { stepx3 = stepx * sizeof (CfbBits); stepy3 = stepy * 3; } #else addrp = addr + (y1 * nwidth) + x1; #endif #ifndef REARRANGE if (!ady) { #if PSZ == 24 #define body {\ body_rop \ addrb += stepx3; \ } #else #define body { RROP_SOLID(addrp); addrp += stepx; } #endif while (len >= PGSZB) { body body body body #if PGSZ == 64 body body body body #endif len -= PGSZB; } switch (len) { #if PGSZ == 64 case 7: body case 6: body case 5: body case 4: body #endif case 3: body case 2: body case 1: body } #undef body } else #endif /* !REARRANGE */ { #if PSZ == 24 #define body {\ body_rop \ addrb += stepx3; \ e += e1; \ if (e >= 0) \ { \ addrb += stepy3; \ e += e3; \ } \ } #else #define body {\ RROP_SOLID(addrp); \ addrp += stepx; \ e += e1; \ if (e >= 0) \ { \ addrp += stepy; \ e += e3; \ } \ } #endif #ifdef LARGE_INSTRUCTION_CACHE while ((len -= PGSZB) >= 0) { body body body body #if PGSZ == 64 body body body body #endif } switch (len) { case -1: body case -2: body case -3: body #if PGSZ == 64 case -4: body case -5: body case -6: body case -7: body #endif } #else /* !LARGE_INSTRUCTION_CACHE */ IMPORTANT_START; while ((len -= 2) >= 0) { body body; } if (len & 1) body; IMPORTANT_END; #endif /* LARGE_INSTRUCTION_CACHE */ } #if PSZ == 24 body_rop #else RROP_SOLID(addrp); #endif #undef body RROP_UNDECLARE } } #endif /* !POLYSEGMENT && !PREVIOUS */ #endif /* PIXEL_ADDR */