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xserver-multidpi/hw/xfree86/xaa/xaaImage.c
Egbert Eich 2fb5886200 Merging XORG-CURRENT into trunk
2004-04-23 19:54:30 +00:00

520 lines
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C
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/* $XFree86: xc/programs/Xserver/hw/xfree86/xaa/xaaImage.c,v 1.20tsi Exp $ */
#include "misc.h"
#include "xf86.h"
#include "xf86_ansic.h"
#include "xf86_OSproc.h"
#include "servermd.h"
#include "X.h"
#include "scrnintstr.h"
#include "mi.h"
#include "pixmapstr.h"
#include "xf86str.h"
#include "xaa.h"
#include "xaalocal.h"
void XAAMoveDWORDS_FixedBase(
register CARD32* dest,
register CARD32* src,
register int dwords )
{
while(dwords & ~0x03) {
*dest = *src;
*dest = *(src + 1);
*dest = *(src + 2);
*dest = *(src + 3);
dwords -= 4;
src += 4;
}
if(!dwords) return;
*dest = *src;
if(dwords == 1) return;
*dest = *(src + 1);
if(dwords == 2) return;
*dest = *(src + 2);
}
void XAAMoveDWORDS(
register CARD32* dest,
register CARD32* src,
register int dwords )
{
while(dwords & ~0x03) {
*dest = *src;
*(dest + 1) = *(src + 1);
*(dest + 2) = *(src + 2);
*(dest + 3) = *(src + 3);
src += 4;
dest += 4;
dwords -= 4;
}
if(!dwords) return;
*dest = *src;
if(dwords == 1) return;
*(dest + 1) = *(src + 1);
if(dwords == 2) return;
*(dest + 2) = *(src + 2);
}
void XAAMoveDWORDS_FixedSrc(
register CARD32* dest,
register CARD32* src,
register int dwords )
{
while(dwords & ~0x03) {
*dest = *src;
*(dest + 1) = *src;
*(dest + 2) = *src;
*(dest + 3) = *src;
dest += 4;
dwords -= 4;
}
if(!dwords) return;
*dest = *src;
if(dwords == 1) return;
*(dest + 1) = *src;
if(dwords == 2) return;
*(dest + 2) = *src;
}
static void
XAAWritePixmap32To24(
ScrnInfoPtr pScrn,
int x, int y, int w, int h,
unsigned char *srcInit,
int srcwidth, /* bytes */
int rop,
unsigned int planemask,
int trans
){
XAAInfoRecPtr infoRec = GET_XAAINFORECPTR_FROM_SCRNINFOPTR(pScrn);
int count, dwords = ((w * 3) + 3) >> 2;
CARD32 *src, *dst;
Bool PlusOne = FALSE;
if((infoRec->ImageWriteFlags & CPU_TRANSFER_PAD_QWORD) &&
((dwords * h) & 0x01)) {
PlusOne = TRUE;
}
(*infoRec->SetupForImageWrite)(pScrn, rop, planemask, trans, 24, 24);
(*infoRec->SubsequentImageWriteRect)(pScrn, x, y, w, h, 0);
if(dwords > infoRec->ImageWriteRange) {
dst = (CARD32*)infoRec->ImageWriteBase;
while(h--) {
src = (CARD32*)srcInit;
count = w;
while(count >= 4) {
*dst = (src[0] & 0x00ffffff) | (src[1] << 24);
*dst = ((src[1] >> 8) & 0x0000ffff) | (src[2] << 16);
*dst = ((src[2] >> 16) & 0x000000ff) | (src[3] << 8);
src += 4;
count -= 4;
}
switch(count) {
case 0: break;
case 1: *dst = src[0];
break;
case 2: *dst = (src[0] & 0x00ffffff) | (src[1] << 24);
*dst = src[1] >> 8;
break;
default: *dst = (src[0] & 0x00ffffff) | (src[1] << 24);
*dst = ((src[1] >> 8) & 0x0000ffff) | (src[2] << 16);
*dst = src[2] >> 16;
break;
}
srcInit += srcwidth;
}
} else {
while(h--) {
dst = (CARD32*)infoRec->ImageWriteBase;
src = (CARD32*)srcInit;
count = w;
while(count >= 4) {
dst[0] = (src[0] & 0x00ffffff) | (src[1] << 24);
dst[1] = ((src[1] >> 8) & 0x0000ffff) | (src[2] << 16);
dst[2] = ((src[2] >> 16) & 0x000000ff) | (src[3] << 8);
dst += 3;
src += 4;
count -= 4;
}
switch(count) {
case 0: break;
case 1: dst[0] = src[0];
break;
case 2: dst[0] = (src[0] & 0x00ffffff) | (src[1] << 24);
dst[1] = src[1] >> 8;
break;
default: dst[0] = (src[0] & 0x00ffffff) | (src[1] << 24);
dst[1] = ((src[1] >> 8) & 0x0000ffff) | (src[2] << 16);
dst[2] = src[2] >> 16;
break;
}
srcInit += srcwidth;
}
}
if(PlusOne) {
CARD32* base = (CARD32*)infoRec->ImageWriteBase;
*base = 0x00000000;
}
if(infoRec->ImageWriteFlags & SYNC_AFTER_IMAGE_WRITE)
(*infoRec->Sync)(pScrn);
else SET_SYNC_FLAG(infoRec);
}
void
XAAWritePixmap (
ScrnInfoPtr pScrn,
int x, int y, int w, int h,
unsigned char *src,
int srcwidth, /* bytes */
int rop,
unsigned int planemask,
int trans,
int bpp, int depth
){
XAAInfoRecPtr infoRec;
int dwords, skipleft, Bpp;
Bool beCareful, PlusOne;
if((bpp == 32) && (pScrn->bitsPerPixel == 24)) {
XAAWritePixmap32To24(pScrn, x, y, w, h, src, srcwidth,
rop, planemask, trans);
return;
}
infoRec = GET_XAAINFORECPTR_FROM_SCRNINFOPTR(pScrn);
beCareful = PlusOne = FALSE;
Bpp = bpp >> 3;
if((skipleft = (long)src & 0x03L)) {
if(!(infoRec->ImageWriteFlags & LEFT_EDGE_CLIPPING)) {
skipleft = 0;
beCareful = TRUE;
goto BAD_ALIGNMENT;
}
if(Bpp == 3)
skipleft = 4 - skipleft;
else
skipleft /= Bpp;
if((x < skipleft) && !(infoRec->ImageWriteFlags &
LEFT_EDGE_CLIPPING_NEGATIVE_X)) {
skipleft = 0;
beCareful = TRUE;
goto BAD_ALIGNMENT;
}
x -= skipleft;
w += skipleft;
if(Bpp == 3)
src -= 3 * skipleft;
else /* is this Alpha friendly ? */
src = (unsigned char*)((long)src & ~0x03L);
}
BAD_ALIGNMENT:
dwords = ((w * Bpp) + 3) >> 2;
if((infoRec->ImageWriteFlags & CPU_TRANSFER_PAD_QWORD) &&
((dwords * h) & 0x01)) {
PlusOne = TRUE;
}
(*infoRec->SetupForImageWrite)(pScrn, rop, planemask, trans, bpp, depth);
(*infoRec->SubsequentImageWriteRect)(pScrn, x, y, w, h, skipleft);
if(beCareful) {
/* in cases with bad alignment we have to be careful not
to read beyond the end of the source */
if(((x * Bpp) + (dwords << 2)) > srcwidth) h--;
else beCareful = FALSE;
}
if(dwords > infoRec->ImageWriteRange) {
while(h--) {
XAAMoveDWORDS_FixedBase((CARD32*)infoRec->ImageWriteBase,
(CARD32*)src, dwords);
src += srcwidth;
}
if(beCareful) {
int shift = ((long)src & 0x03L) << 3;
if(--dwords)
XAAMoveDWORDS_FixedBase((CARD32*)infoRec->ImageWriteBase,
(CARD32*)src, dwords);
src = (unsigned char*)((long)(src + (dwords << 2)) & ~0x03L);
*((CARD32*)infoRec->ImageWriteBase) = *((CARD32*)src) >> shift;
}
} else {
if(srcwidth == (dwords << 2)) {
int decrement = infoRec->ImageWriteRange/dwords;
while(h > decrement) {
XAAMoveDWORDS((CARD32*)infoRec->ImageWriteBase,
(CARD32*)src, dwords * decrement);
src += (srcwidth * decrement);
h -= decrement;
}
if(h) {
XAAMoveDWORDS((CARD32*)infoRec->ImageWriteBase,
(CARD32*)src, dwords * h);
if(beCareful) src += (srcwidth * h);
}
} else {
while(h--) {
XAAMoveDWORDS((CARD32*)infoRec->ImageWriteBase,
(CARD32*)src, dwords);
src += srcwidth;
}
}
if(beCareful) {
int shift = ((long)src & 0x03L) << 3;
if(--dwords)
XAAMoveDWORDS((CARD32*)infoRec->ImageWriteBase,
(CARD32*)src, dwords);
src = (unsigned char*)((long)(src + (dwords << 2)) & ~0x03L);
((CARD32*)infoRec->ImageWriteBase)[dwords] =
*((CARD32*)src) >> shift;
}
}
if(PlusOne) {
CARD32* base = (CARD32*)infoRec->ImageWriteBase;
*base = 0x00000000;
}
if(infoRec->ImageWriteFlags & SYNC_AFTER_IMAGE_WRITE)
(*infoRec->Sync)(pScrn);
else SET_SYNC_FLAG(infoRec);
}
void
XAAWritePixmapScanline (
ScrnInfoPtr pScrn,
int x, int y, int w, int h,
unsigned char *src,
int srcwidth, /* bytes */
int rop,
unsigned int planemask,
int trans,
int bpp, int depth
){
XAAInfoRecPtr infoRec = GET_XAAINFORECPTR_FROM_SCRNINFOPTR(pScrn);
int dwords, skipleft, bufferNo = 0, Bpp = bpp >> 3;
Bool beCareful = FALSE;
CARD32* base;
if((skipleft = (long)src & 0x03L)) {
if(!(infoRec->ScanlineImageWriteFlags & LEFT_EDGE_CLIPPING)) {
skipleft = 0;
beCareful = TRUE;
goto BAD_ALIGNMENT;
}
if(Bpp == 3)
skipleft = 4 - skipleft;
else
skipleft /= Bpp;
if((x < skipleft) && !(infoRec->ScanlineImageWriteFlags &
LEFT_EDGE_CLIPPING_NEGATIVE_X)) {
skipleft = 0;
beCareful = TRUE;
goto BAD_ALIGNMENT;
}
x -= skipleft;
w += skipleft;
if(Bpp == 3)
src -= 3 * skipleft;
else
src = (unsigned char*)((long)src & ~0x03L);
}
BAD_ALIGNMENT:
dwords = ((w * Bpp) + 3) >> 2;
(*infoRec->SetupForScanlineImageWrite)(
pScrn, rop, planemask, trans, bpp, depth);
(*infoRec->SubsequentScanlineImageWriteRect)(pScrn, x, y, w, h, skipleft);
if(beCareful) {
/* in cases with bad alignment we have to be careful not
to read beyond the end of the source */
if(((x * Bpp) + (dwords << 2)) > srcwidth) h--;
else beCareful = FALSE;
}
while(h--) {
base = (CARD32*)infoRec->ScanlineImageWriteBuffers[bufferNo];
XAAMoveDWORDS(base, (CARD32*)src, dwords);
(*infoRec->SubsequentImageWriteScanline)(pScrn, bufferNo++);
src += srcwidth;
if(bufferNo >= infoRec->NumScanlineImageWriteBuffers)
bufferNo = 0;
}
if(beCareful) {
int shift = ((long)src & 0x03L) << 3;
base = (CARD32*)infoRec->ScanlineImageWriteBuffers[bufferNo];
if(--dwords)
XAAMoveDWORDS(base,(CARD32*)src, dwords);
src = (unsigned char*)((long)(src + (dwords << 2)) & ~0x03L);
base[dwords] = *((CARD32*)src) >> shift;
(*infoRec->SubsequentImageWriteScanline)(pScrn, bufferNo);
}
SET_SYNC_FLAG(infoRec);
}
void
XAAPutImage(
DrawablePtr pDraw,
GCPtr pGC,
int depth,
int x,
int y,
int w,
int h,
int leftPad,
int format,
char *pImage
){
XAAInfoRecPtr infoRec = GET_XAAINFORECPTR_FROM_GC(pGC);
int bpp = BitsPerPixel(depth);
Bool depthBug = FALSE;
if(!w || !h) return;
if(!REGION_NUM_RECTS(pGC->pCompositeClip))
return;
depthBug = XAA_DEPTH_BUG(pGC);
if(((format == ZPixmap) && infoRec->WritePixmap &&
((pDraw->bitsPerPixel == bpp) ||
((pDraw->bitsPerPixel == 24) && (bpp == 32) &&
(infoRec->WritePixmapFlags & CONVERT_32BPP_TO_24BPP))) &&
CHECK_ROP(pGC,infoRec->WritePixmapFlags) &&
CHECK_ROPSRC(pGC,infoRec->WritePixmapFlags) &&
CHECK_PLANEMASK(pGC,infoRec->WritePixmapFlags) &&
CHECK_NO_GXCOPY(pGC,infoRec->WritePixmapFlags)) ||
((format == XYBitmap) && !depthBug && infoRec->WriteBitmap &&
CHECK_ROP(pGC,infoRec->WriteBitmapFlags) &&
CHECK_ROPSRC(pGC,infoRec->WriteBitmapFlags) &&
CHECK_PLANEMASK(pGC,infoRec->WriteBitmapFlags) &&
CHECK_COLORS(pGC,infoRec->WriteBitmapFlags) &&
!(infoRec->WriteBitmapFlags & TRANSPARENCY_ONLY)) ||
((format == XYPixmap) && !depthBug && infoRec->WriteBitmap &&
CHECK_ROP(pGC,infoRec->WriteBitmapFlags) &&
CHECK_ROPSRC(pGC,infoRec->WriteBitmapFlags) &&
!(infoRec->WriteBitmapFlags & NO_PLANEMASK) &&
!(infoRec->WriteBitmapFlags & TRANSPARENCY_ONLY))){
int MaxBoxes = REGION_NUM_RECTS(pGC->pCompositeClip);
BoxPtr pbox, pClipBoxes;
int nboxes, srcx, srcy, srcwidth;
xRectangle TheRect;
TheRect.x = pDraw->x + x;
TheRect.y = pDraw->y + y;
TheRect.width = w;
TheRect.height = h;
if(MaxBoxes > (infoRec->PreAllocSize/sizeof(BoxRec))) {
pClipBoxes = xalloc(MaxBoxes * sizeof(BoxRec));
if(!pClipBoxes) return;
} else pClipBoxes = (BoxPtr)infoRec->PreAllocMem;
nboxes = XAAGetRectClipBoxes(pGC, pClipBoxes, 1, &TheRect);
pbox = pClipBoxes;
if(format == XYBitmap) {
srcwidth = BitmapBytePad(leftPad + w);
while(nboxes--) {
srcx = pbox->x1 - TheRect.x + leftPad;
srcy = pbox->y1 - TheRect.y;
(*infoRec->WriteBitmap)(infoRec->pScrn, pbox->x1, pbox->y1,
pbox->x2 - pbox->x1, pbox->y2 - pbox->y1,
(unsigned char*)pImage +
(srcwidth * srcy) + ((srcx >> 5) << 2),
srcwidth, srcx & 31, pGC->fgPixel, pGC->bgPixel,
pGC->alu, pGC->planemask);
pbox++;
}
} else if(format == ZPixmap) {
int Bpp = bpp >> 3;
srcwidth = PixmapBytePad(leftPad + w, depth);
while(nboxes--) {
srcx = pbox->x1 - TheRect.x + leftPad;
srcy = pbox->y1 - TheRect.y;
(*infoRec->WritePixmap)(infoRec->pScrn, pbox->x1, pbox->y1,
pbox->x2 - pbox->x1, pbox->y2 - pbox->y1,
(unsigned char*)pImage +
(srcwidth * srcy) + (srcx * Bpp),
srcwidth, pGC->alu, pGC->planemask, -1,
Bpp << 3, depth);
pbox++;
}
} else { /* XYPixmap */
int depth = pGC->depth;
int numBox, increment;
unsigned long i, mask;
BoxPtr pntBox;
srcwidth = BitmapBytePad(w + leftPad);
increment = h * srcwidth;
i = 1 << (depth - 1);
mask = ~0;
if((infoRec->pScrn->overlayFlags & OVERLAY_8_32_PLANAR) &&
(pGC->depth == 8)){
i = 0x80000000; mask = 0xff000000;
}
for(; i & mask; i >>= 1, pImage += increment) {
if(i & pGC->planemask) {
pntBox = pbox;
numBox = nboxes;
while(numBox--) {
srcx = pntBox->x1 - TheRect.x + leftPad;
srcy = pntBox->y1 - TheRect.y;
(*infoRec->WriteBitmap)(infoRec->pScrn,
pntBox->x1, pntBox->y1,
pntBox->x2 - pntBox->x1,
pntBox->y2 - pntBox->y1,
(unsigned char*)pImage +
(srcwidth * srcy) + ((srcx >> 5) << 2),
srcwidth, srcx & 31, ~0, 0, pGC->alu, i);
pntBox++;
}
}
}
}
if(pClipBoxes != (BoxPtr)infoRec->PreAllocMem)
xfree(pClipBoxes);
} else
XAAFallbackOps.PutImage(pDraw, pGC, depth, x, y, w, h, leftPad,
format, pImage);
}
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