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xserver-multidpi/fb/fbblt.c
Paulo Cesar Pereira de Andrade d6cbd4511e Export symbols defined in the sdk. 
This is the biggest "visibility" patch. Instead of doing a "export"
symbol on demand, export everything in the sdk, so that if some module
fails due to an unresolved symbol, it is because it is using a symbol
not in the sdk.

  Most exported symbols shouldn't really be made visible, neither
advertised in the sdk, as they are only used by a single shared object.

  Symbols in the sdk (or referenced in sdk macros), but not defined
anywhere include:
XkbBuildCoreState()
XkbInitialMap
XkbXIUnsupported
XkbCheckActionVMods()
XkbSendCompatNotify()
XkbDDXFakePointerButton()
XkbDDXApplyConfig()
_XkbStrCaseCmp()
_XkbErrMessages[]
_XkbErrCode
_XkbErrLocation
_XkbErrData
XkbAccessXDetailText()
XkbNKNDetailMaskText()
XkbLookupGroupAndLevel()
XkbInitAtoms()
XkbGetOrderedDrawables()
XkbFreeOrderedDrawables()
XkbConvertXkbComponents()
XkbWriteXKBSemantics()
XkbWriteXKBLayout()
XkbWriteXKBKeymap()
XkbWriteXKBFile()
XkbWriteCFile()
XkbWriteXKMFile()
XkbWriteToServer()
XkbMergeFile()
XkmFindTOCEntry()
XkmReadFileSection()
XkmReadFileSectionName()
InitExtInput()
xf86CheckButton()
xf86SwitchCoreDevice()
RamDacSetGamma()
RamDacRestoreDACValues()
xf86Bpp
xf86ConfigPix24
xf86MouseCflags[]
xf86SupportedMouseTypes[]
xf86NumMouseTypes
xf86ChangeBusIndex()
xf86EntityEnter()
xf86EntityLeave()
xf86WrapperInit()
xf86RingBell()
xf86findOptionBoolean()
xf86debugListOptions()
LoadSubModuleLocal()
LoaderSymbolLocal()
getInt10Rec()
xf86CurrentScreen
xf86ReallocatePciResources()
xf86NewSerialNumber()
xf86RandRSetInitialMode()
fbCompositeSolidMask_nx1xn
fbCompositeSolidMask_nx8888x0565C
fbCompositeSolidMask_nx8888x8888C
fbCompositeSolidMask_nx8x0565
fbCompositeSolidMask_nx8x0888
fbCompositeSolidMask_nx8x8888
fbCompositeSrc_0565x0565
fbCompositeSrc_8888x0565
fbCompositeSrc_8888x0888
fbCompositeSrc_8888x8888
fbCompositeSrcAdd_1000x1000
fbCompositeSrcAdd_8000x8000
fbCompositeSrcAdd_8888x8888
fbGeneration
fbIn
fbOver
fbOver24
fbOverlayGeneration
fbRasterizeEdges
fbRestoreAreas
fbSaveAreas
composeFunctions
VBEBuildVbeModeList()
VBECalcVbeModeIndex()
TIramdac3030CalculateMNPForClock()
shadowBufPtr
shadowFindBuf()
miRRGetScreenInfo()
RRSetScreenConfig()
RRModePruneUnused()
PixmanImageFromPicture()
extern int miPointerGetMotionEvents()
miClipPicture()
miRasterizeTriangle()
fbPush1toN()
fbInitializeBackingStore()
ddxBeforeReset()
SetupSprite()
InitSprite()
DGADeliverEvent()

  SPECIAL CASES
o defined as _X_INTERNAL
	xf86NewInputDevice()
o defined as static
	fbGCPrivateKey
	fbOverlayScreenPrivateKey
	fbScreenPrivateKey
	fbWinPrivateKey
o defined in libXfont.so, but declared in xorg/dixfont.h
	GetGlyphs()
	QueryGlyphExtents()
	QueryTextExtents()
	ParseGlyphCachingMode()
	InitGlyphCaching()
	SetGlyphCachingMode()
2008-11-29 23:56:06 -02:00

952 lines
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/*
* Copyright © 1998 Keith Packard
*
* 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, and that the name of Keith Packard not be used in
* advertising or publicity pertaining to distribution of the software without
* specific, written prior permission. Keith Packard makes no
* representations about the suitability of this software for any purpose. It
* is provided "as is" without express or implied warranty.
*
* KEITH PACKARD DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE,
* INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO
* EVENT SHALL KEITH PACKARD 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 <dix-config.h>
#endif
#include <string.h>
#include "fb.h"
#define InitializeShifts(sx,dx,ls,rs) { \
if (sx != dx) { \
if (sx > dx) { \
ls = sx - dx; \
rs = FB_UNIT - ls; \
} else { \
rs = dx - sx; \
ls = FB_UNIT - rs; \
} \
} \
}
_X_EXPORT void
fbBlt (FbBits *srcLine,
FbStride srcStride,
int srcX,
FbBits *dstLine,
FbStride dstStride,
int dstX,
int width,
int height,
int alu,
FbBits pm,
int bpp,
Bool reverse,
Bool upsidedown)
{
FbBits *src, *dst;
int leftShift, rightShift;
FbBits startmask, endmask;
FbBits bits, bits1;
int n, nmiddle;
Bool destInvarient;
int startbyte, endbyte;
FbDeclareMergeRop ();
#ifdef FB_24BIT
if (bpp == 24 && !FbCheck24Pix (pm))
{
fbBlt24 (srcLine, srcStride, srcX, dstLine, dstStride, dstX,
width, height, alu, pm, reverse, upsidedown);
return;
}
#endif
if (alu == GXcopy && pm == FB_ALLONES && !reverse &&
!(srcX & 7) && !(dstX & 7) && !(width & 7)) {
int i;
CARD8 *src = (CARD8 *) srcLine;
CARD8 *dst = (CARD8 *) dstLine;
srcStride *= sizeof(FbBits);
dstStride *= sizeof(FbBits);
width >>= 3;
src += (srcX >> 3);
dst += (dstX >> 3);
if (!upsidedown)
for (i = 0; i < height; i++)
MEMCPY_WRAPPED(dst + i * dstStride, src + i * srcStride, width);
else
for (i = height - 1; i >= 0; i--)
MEMCPY_WRAPPED(dst + i * dstStride, src + i * srcStride, width);
return;
}
FbInitializeMergeRop(alu, pm);
destInvarient = FbDestInvarientMergeRop();
if (upsidedown)
{
srcLine += (height - 1) * (srcStride);
dstLine += (height - 1) * (dstStride);
srcStride = -srcStride;
dstStride = -dstStride;
}
FbMaskBitsBytes (dstX, width, destInvarient, startmask, startbyte,
nmiddle, endmask, endbyte);
if (reverse)
{
srcLine += ((srcX + width - 1) >> FB_SHIFT) + 1;
dstLine += ((dstX + width - 1) >> FB_SHIFT) + 1;
srcX = (srcX + width - 1) & FB_MASK;
dstX = (dstX + width - 1) & FB_MASK;
}
else
{
srcLine += srcX >> FB_SHIFT;
dstLine += dstX >> FB_SHIFT;
srcX &= FB_MASK;
dstX &= FB_MASK;
}
if (srcX == dstX)
{
while (height--)
{
src = srcLine;
srcLine += srcStride;
dst = dstLine;
dstLine += dstStride;
if (reverse)
{
if (endmask)
{
bits = READ(--src);
--dst;
FbDoRightMaskByteMergeRop(dst, bits, endbyte, endmask);
}
n = nmiddle;
if (destInvarient)
{
while (n--)
WRITE(--dst, FbDoDestInvarientMergeRop(READ(--src)));
}
else
{
while (n--)
{
bits = READ(--src);
--dst;
WRITE(dst, FbDoMergeRop (bits, READ(dst)));
}
}
if (startmask)
{
bits = READ(--src);
--dst;
FbDoLeftMaskByteMergeRop(dst, bits, startbyte, startmask);
}
}
else
{
if (startmask)
{
bits = READ(src++);
FbDoLeftMaskByteMergeRop(dst, bits, startbyte, startmask);
dst++;
}
n = nmiddle;
if (destInvarient)
{
#if 0
/*
* This provides some speedup on screen->screen blts
* over the PCI bus, usually about 10%. But fb
* isn't usually used for this operation...
*/
if (_ca2 + 1 == 0 && _cx2 == 0)
{
FbBits t1, t2, t3, t4;
while (n >= 4)
{
t1 = *src++;
t2 = *src++;
t3 = *src++;
t4 = *src++;
*dst++ = t1;
*dst++ = t2;
*dst++ = t3;
*dst++ = t4;
n -= 4;
}
}
#endif
while (n--)
WRITE(dst++, FbDoDestInvarientMergeRop(READ(src++)));
}
else
{
while (n--)
{
bits = READ(src++);
WRITE(dst, FbDoMergeRop (bits, READ(dst)));
dst++;
}
}
if (endmask)
{
bits = READ(src);
FbDoRightMaskByteMergeRop(dst, bits, endbyte, endmask);
}
}
}
}
else
{
if (srcX > dstX)
{
leftShift = srcX - dstX;
rightShift = FB_UNIT - leftShift;
}
else
{
rightShift = dstX - srcX;
leftShift = FB_UNIT - rightShift;
}
while (height--)
{
src = srcLine;
srcLine += srcStride;
dst = dstLine;
dstLine += dstStride;
bits1 = 0;
if (reverse)
{
if (srcX < dstX)
bits1 = READ(--src);
if (endmask)
{
bits = FbScrRight(bits1, rightShift);
if (FbScrRight(endmask, leftShift))
{
bits1 = READ(--src);
bits |= FbScrLeft(bits1, leftShift);
}
--dst;
FbDoRightMaskByteMergeRop(dst, bits, endbyte, endmask);
}
n = nmiddle;
if (destInvarient)
{
while (n--)
{
bits = FbScrRight(bits1, rightShift);
bits1 = READ(--src);
bits |= FbScrLeft(bits1, leftShift);
--dst;
WRITE(dst, FbDoDestInvarientMergeRop(bits));
}
}
else
{
while (n--)
{
bits = FbScrRight(bits1, rightShift);
bits1 = READ(--src);
bits |= FbScrLeft(bits1, leftShift);
--dst;
WRITE(dst, FbDoMergeRop(bits, READ(dst)));
}
}
if (startmask)
{
bits = FbScrRight(bits1, rightShift);
if (FbScrRight(startmask, leftShift))
{
bits1 = READ(--src);
bits |= FbScrLeft(bits1, leftShift);
}
--dst;
FbDoLeftMaskByteMergeRop (dst, bits, startbyte, startmask);
}
}
else
{
if (srcX > dstX)
bits1 = READ(src++);
if (startmask)
{
bits = FbScrLeft(bits1, leftShift);
if (FbScrLeft(startmask, rightShift))
{
bits1 = READ(src++);
bits |= FbScrRight(bits1, rightShift);
}
FbDoLeftMaskByteMergeRop (dst, bits, startbyte, startmask);
dst++;
}
n = nmiddle;
if (destInvarient)
{
while (n--)
{
bits = FbScrLeft(bits1, leftShift);
bits1 = READ(src++);
bits |= FbScrRight(bits1, rightShift);
WRITE(dst, FbDoDestInvarientMergeRop(bits));
dst++;
}
}
else
{
while (n--)
{
bits = FbScrLeft(bits1, leftShift);
bits1 = READ(src++);
bits |= FbScrRight(bits1, rightShift);
WRITE(dst, FbDoMergeRop(bits, READ(dst)));
dst++;
}
}
if (endmask)
{
bits = FbScrLeft(bits1, leftShift);
if (FbScrLeft(endmask, rightShift))
{
bits1 = READ(src);
bits |= FbScrRight(bits1, rightShift);
}
FbDoRightMaskByteMergeRop (dst, bits, endbyte, endmask);
}
}
}
}
}
#ifdef FB_24BIT
#undef DEBUG_BLT24
#ifdef DEBUG_BLT24
static unsigned long
getPixel (char *src, int x)
{
unsigned long l;
l = 0;
memcpy (&l, src + x * 3, 3);
return l;
}
#endif
static void
fbBlt24Line (FbBits *src,
int srcX,
FbBits *dst,
int dstX,
int width,
int alu,
FbBits pm,
Bool reverse)
{
#ifdef DEBUG_BLT24
char *origDst = (char *) dst;
FbBits *origLine = dst + ((dstX >> FB_SHIFT) - 1);
int origNlw = ((width + FB_MASK) >> FB_SHIFT) + 3;
int origX = dstX / 24;
#endif
int leftShift, rightShift;
FbBits startmask, endmask;
int n;
FbBits bits, bits1;
FbBits mask;
int rot;
FbDeclareMergeRop ();
FbInitializeMergeRop (alu, FB_ALLONES);
FbMaskBits(dstX, width, startmask, n, endmask);
#ifdef DEBUG_BLT24
ErrorF ("dstX %d width %d reverse %d\n", dstX, width, reverse);
#endif
if (reverse)
{
src += ((srcX + width - 1) >> FB_SHIFT) + 1;
dst += ((dstX + width - 1) >> FB_SHIFT) + 1;
rot = FbFirst24Rot (((dstX + width - 8) & FB_MASK));
rot = FbPrev24Rot(rot);
#ifdef DEBUG_BLT24
ErrorF ("dstX + width - 8: %d rot: %d\n", (dstX + width - 8) & FB_MASK, rot);
#endif
srcX = (srcX + width - 1) & FB_MASK;
dstX = (dstX + width - 1) & FB_MASK;
}
else
{
src += srcX >> FB_SHIFT;
dst += dstX >> FB_SHIFT;
srcX &= FB_MASK;
dstX &= FB_MASK;
rot = FbFirst24Rot (dstX);
#ifdef DEBUG_BLT24
ErrorF ("dstX: %d rot: %d\n", dstX, rot);
#endif
}
mask = FbRot24(pm,rot);
#ifdef DEBUG_BLT24
ErrorF ("pm 0x%x mask 0x%x\n", pm, mask);
#endif
if (srcX == dstX)
{
if (reverse)
{
if (endmask)
{
bits = READ(--src);
--dst;
WRITE(dst, FbDoMaskMergeRop (bits, READ(dst), mask & endmask));
mask = FbPrev24Pix (mask);
}
while (n--)
{
bits = READ(--src);
--dst;
WRITE(dst, FbDoMaskMergeRop (bits, READ(dst), mask));
mask = FbPrev24Pix (mask);
}
if (startmask)
{
bits = READ(--src);
--dst;
WRITE(dst, FbDoMaskMergeRop(bits, READ(dst), mask & startmask));
}
}
else
{
if (startmask)
{
bits = READ(src++);
WRITE(dst, FbDoMaskMergeRop (bits, READ(dst), mask & startmask));
dst++;
mask = FbNext24Pix(mask);
}
while (n--)
{
bits = READ(src++);
WRITE(dst, FbDoMaskMergeRop (bits, READ(dst), mask));
dst++;
mask = FbNext24Pix(mask);
}
if (endmask)
{
bits = READ(src);
WRITE(dst, FbDoMaskMergeRop(bits, READ(dst), mask & endmask));
}
}
}
else
{
if (srcX > dstX)
{
leftShift = srcX - dstX;
rightShift = FB_UNIT - leftShift;
}
else
{
rightShift = dstX - srcX;
leftShift = FB_UNIT - rightShift;
}
bits1 = 0;
if (reverse)
{
if (srcX < dstX)
bits1 = READ(--src);
if (endmask)
{
bits = FbScrRight(bits1, rightShift);
if (FbScrRight(endmask, leftShift))
{
bits1 = READ(--src);
bits |= FbScrLeft(bits1, leftShift);
}
--dst;
WRITE(dst, FbDoMaskMergeRop (bits, READ(dst), mask & endmask));
mask = FbPrev24Pix(mask);
}
while (n--)
{
bits = FbScrRight(bits1, rightShift);
bits1 = READ(--src);
bits |= FbScrLeft(bits1, leftShift);
--dst;
WRITE(dst, FbDoMaskMergeRop(bits, READ(dst), mask));
mask = FbPrev24Pix(mask);
}
if (startmask)
{
bits = FbScrRight(bits1, rightShift);
if (FbScrRight(startmask, leftShift))
{
bits1 = READ(--src);
bits |= FbScrLeft(bits1, leftShift);
}
--dst;
WRITE(dst, FbDoMaskMergeRop (bits, READ(dst), mask & startmask));
}
}
else
{
if (srcX > dstX)
bits1 = READ(src++);
if (startmask)
{
bits = FbScrLeft(bits1, leftShift);
bits1 = READ(src++);
bits |= FbScrRight(bits1, rightShift);
WRITE(dst, FbDoMaskMergeRop (bits, READ(dst), mask & startmask));
dst++;
mask = FbNext24Pix(mask);
}
while (n--)
{
bits = FbScrLeft(bits1, leftShift);
bits1 = READ(src++);
bits |= FbScrRight(bits1, rightShift);
WRITE(dst, FbDoMaskMergeRop(bits, READ(dst), mask));
dst++;
mask = FbNext24Pix(mask);
}
if (endmask)
{
bits = FbScrLeft(bits1, leftShift);
if (FbScrLeft(endmask, rightShift))
{
bits1 = READ(src);
bits |= FbScrRight(bits1, rightShift);
}
WRITE(dst, FbDoMaskMergeRop (bits, READ(dst), mask & endmask));
}
}
}
#ifdef DEBUG_BLT24
{
int firstx, lastx, x;
firstx = origX;
if (firstx)
firstx--;
lastx = origX + width/24 + 1;
for (x = firstx; x <= lastx; x++)
ErrorF ("%06x ", getPixel (origDst, x));
ErrorF ("\n");
while (origNlw--)
ErrorF ("%08x ", *origLine++);
ErrorF ("\n");
}
#endif
}
_X_EXPORT void
fbBlt24 (FbBits *srcLine,
FbStride srcStride,
int srcX,
FbBits *dstLine,
FbStride dstStride,
int dstX,
int width,
int height,
int alu,
FbBits pm,
Bool reverse,
Bool upsidedown)
{
if (upsidedown)
{
srcLine += (height-1) * srcStride;
dstLine += (height-1) * dstStride;
srcStride = -srcStride;
dstStride = -dstStride;
}
while (height--)
{
fbBlt24Line (srcLine, srcX, dstLine, dstX, width, alu, pm, reverse);
srcLine += srcStride;
dstLine += dstStride;
}
#ifdef DEBUG_BLT24
ErrorF ("\n");
#endif
}
#endif /* FB_24BIT */
#if FB_SHIFT == FB_STIP_SHIFT + 1
/*
* Could be generalized to FB_SHIFT > FB_STIP_SHIFT + 1 by
* creating an ring of values stepped through for each line
*/
void
fbBltOdd (FbBits *srcLine,
FbStride srcStrideEven,
FbStride srcStrideOdd,
int srcXEven,
int srcXOdd,
FbBits *dstLine,
FbStride dstStrideEven,
FbStride dstStrideOdd,
int dstXEven,
int dstXOdd,
int width,
int height,
int alu,
FbBits pm,
int bpp)
{
FbBits *src;
int leftShiftEven, rightShiftEven;
FbBits startmaskEven, endmaskEven;
int nmiddleEven;
FbBits *dst;
int leftShiftOdd, rightShiftOdd;
FbBits startmaskOdd, endmaskOdd;
int nmiddleOdd;
int leftShift, rightShift;
FbBits startmask, endmask;
int nmiddle;
int srcX, dstX;
FbBits bits, bits1;
int n;
Bool destInvarient;
Bool even;
FbDeclareMergeRop ();
FbInitializeMergeRop (alu, pm);
destInvarient = FbDestInvarientMergeRop();
srcLine += srcXEven >> FB_SHIFT;
dstLine += dstXEven >> FB_SHIFT;
srcXEven &= FB_MASK;
dstXEven &= FB_MASK;
srcXOdd &= FB_MASK;
dstXOdd &= FB_MASK;
FbMaskBits(dstXEven, width, startmaskEven, nmiddleEven, endmaskEven);
FbMaskBits(dstXOdd, width, startmaskOdd, nmiddleOdd, endmaskOdd);
even = TRUE;
InitializeShifts(srcXEven, dstXEven, leftShiftEven, rightShiftEven);
InitializeShifts(srcXOdd, dstXOdd, leftShiftOdd, rightShiftOdd);
while (height--)
{
src = srcLine;
dst = dstLine;
if (even)
{
srcX = srcXEven;
dstX = dstXEven;
startmask = startmaskEven;
endmask = endmaskEven;
nmiddle = nmiddleEven;
leftShift = leftShiftEven;
rightShift = rightShiftEven;
srcLine += srcStrideEven;
dstLine += dstStrideEven;
even = FALSE;
}
else
{
srcX = srcXOdd;
dstX = dstXOdd;
startmask = startmaskOdd;
endmask = endmaskOdd;
nmiddle = nmiddleOdd;
leftShift = leftShiftOdd;
rightShift = rightShiftOdd;
srcLine += srcStrideOdd;
dstLine += dstStrideOdd;
even = TRUE;
}
if (srcX == dstX)
{
if (startmask)
{
bits = READ(src++);
WRITE(dst, FbDoMaskMergeRop (bits, READ(dst), startmask));
dst++;
}
n = nmiddle;
if (destInvarient)
{
while (n--)
{
bits = READ(src++);
WRITE(dst, FbDoDestInvarientMergeRop(bits));
dst++;
}
}
else
{
while (n--)
{
bits = READ(src++);
WRITE(dst, FbDoMergeRop (bits, READ(dst)));
dst++;
}
}
if (endmask)
{
bits = READ(src);
WRITE(dst, FbDoMaskMergeRop(bits, READ(dst), endmask));
}
}
else
{
bits = 0;
if (srcX > dstX)
bits = READ(src++);
if (startmask)
{
bits1 = FbScrLeft(bits, leftShift);
bits = READ(src++);
bits1 |= FbScrRight(bits, rightShift);
WRITE(dst, FbDoMaskMergeRop (bits1, READ(dst), startmask));
dst++;
}
n = nmiddle;
if (destInvarient)
{
while (n--)
{
bits1 = FbScrLeft(bits, leftShift);
bits = READ(src++);
bits1 |= FbScrRight(bits, rightShift);
WRITE(dst, FbDoDestInvarientMergeRop(bits1));
dst++;
}
}
else
{
while (n--)
{
bits1 = FbScrLeft(bits, leftShift);
bits = READ(src++);
bits1 |= FbScrRight(bits, rightShift);
WRITE(dst, FbDoMergeRop(bits1, READ(dst)));
dst++;
}
}
if (endmask)
{
bits1 = FbScrLeft(bits, leftShift);
if (FbScrLeft(endmask, rightShift))
{
bits = READ(src);
bits1 |= FbScrRight(bits, rightShift);
}
WRITE(dst, FbDoMaskMergeRop (bits1, READ(dst), endmask));
}
}
}
}
#ifdef FB_24BIT
void
fbBltOdd24 (FbBits *srcLine,
FbStride srcStrideEven,
FbStride srcStrideOdd,
int srcXEven,
int srcXOdd,
FbBits *dstLine,
FbStride dstStrideEven,
FbStride dstStrideOdd,
int dstXEven,
int dstXOdd,
int width,
int height,
int alu,
FbBits pm)
{
Bool even = TRUE;
while (height--)
{
if (even)
{
fbBlt24Line (srcLine, srcXEven, dstLine, dstXEven,
width, alu, pm, FALSE);
srcLine += srcStrideEven;
dstLine += dstStrideEven;
even = FALSE;
}
else
{
fbBlt24Line (srcLine, srcXOdd, dstLine, dstXOdd,
width, alu, pm, FALSE);
srcLine += srcStrideOdd;
dstLine += dstStrideOdd;
even = TRUE;
}
}
}
#endif
#endif
#if FB_STIP_SHIFT != FB_SHIFT
void
fbSetBltOdd (FbStip *stip,
FbStride stipStride,
int srcX,
FbBits **bits,
FbStride *strideEven,
FbStride *strideOdd,
int *srcXEven,
int *srcXOdd)
{
int srcAdjust;
int strideAdjust;
/*
* bytes needed to align source
*/
srcAdjust = (((int) stip) & (FB_MASK >> 3));
/*
* FbStip units needed to align stride
*/
strideAdjust = stipStride & (FB_MASK >> FB_STIP_SHIFT);
*bits = (FbBits *) ((char *) stip - srcAdjust);
if (srcAdjust)
{
*strideEven = FbStipStrideToBitsStride (stipStride + 1);
*strideOdd = FbStipStrideToBitsStride (stipStride);
*srcXEven = srcX + (srcAdjust << 3);
*srcXOdd = srcX + (srcAdjust << 3) - (strideAdjust << FB_STIP_SHIFT);
}
else
{
*strideEven = FbStipStrideToBitsStride (stipStride);
*strideOdd = FbStipStrideToBitsStride (stipStride + 1);
*srcXEven = srcX;
*srcXOdd = srcX + (strideAdjust << FB_STIP_SHIFT);
}
}
#endif
_X_EXPORT void
fbBltStip (FbStip *src,
FbStride srcStride, /* in FbStip units, not FbBits units */
int srcX,
FbStip *dst,
FbStride dstStride, /* in FbStip units, not FbBits units */
int dstX,
int width,
int height,
int alu,
FbBits pm,
int bpp)
{
#if FB_STIP_SHIFT != FB_SHIFT
if (FB_STIP_ODDSTRIDE(srcStride) || FB_STIP_ODDPTR(src) ||
FB_STIP_ODDSTRIDE(dstStride) || FB_STIP_ODDPTR(dst))
{
FbStride srcStrideEven, srcStrideOdd;
FbStride dstStrideEven, dstStrideOdd;
int srcXEven, srcXOdd;
int dstXEven, dstXOdd;
FbBits *s, *d;
int sx, dx;
src += srcX >> FB_STIP_SHIFT;
srcX &= FB_STIP_MASK;
dst += dstX >> FB_STIP_SHIFT;
dstX &= FB_STIP_MASK;
fbSetBltOdd (src, srcStride, srcX,
&s,
&srcStrideEven, &srcStrideOdd,
&srcXEven, &srcXOdd);
fbSetBltOdd (dst, dstStride, dstX,
&d,
&dstStrideEven, &dstStrideOdd,
&dstXEven, &dstXOdd);
#ifdef FB_24BIT
if (bpp == 24 && !FbCheck24Pix (pm))
{
fbBltOdd24 (s, srcStrideEven, srcStrideOdd,
srcXEven, srcXOdd,
d, dstStrideEven, dstStrideOdd,
dstXEven, dstXOdd,
width, height, alu, pm);
}
else
#endif
{
fbBltOdd (s, srcStrideEven, srcStrideOdd,
srcXEven, srcXOdd,
d, dstStrideEven, dstStrideOdd,
dstXEven, dstXOdd,
width, height, alu, pm, bpp);
}
}
else
#endif
{
fbBlt ((FbBits *) src, FbStipStrideToBitsStride (srcStride),
srcX,
(FbBits *) dst, FbStipStrideToBitsStride (dstStride),
dstX,
width, height,
alu, pm, bpp, FALSE, FALSE);
}
}
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