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reactos/win32ss/gdi/eng/bitblt.c

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/*
* COPYRIGHT: See COPYING in the top level directory
* PROJECT: ReactOS Win32k subsystem
* PURPOSE: GDI BitBlt Functions
* FILE: win32ss/gdi/eng/bitblt.c
* PROGRAMER: Jason Filby
* Timo Kreuzer
*/
#include <win32k.h>
#define NDEBUG
#include <debug.h>
XCLIPOBJ gxcoTrivial =
{
/* CLIPOBJ */
{
0, /* iUniq */
{LONG_MIN, LONG_MIN, LONG_MAX, LONG_MAX}, /* rclBounds */
DC_TRIVIAL, /* idCOmplexity */
FC_RECT, /* iFComplexity */
TC_RECTANGLES, /* iMode */
0 /* fjOptions */
},
{ 0, {0,0,0,0}, 0},
0, {0,0,0,0}, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0
};
typedef BOOLEAN (APIENTRY *PBLTRECTFUNC)(SURFOBJ* OutputObj,
SURFOBJ* InputObj,
SURFOBJ* Mask,
XLATEOBJ* ColorTranslation,
RECTL* OutputRect,
POINTL* InputPoint,
POINTL* MaskOrigin,
BRUSHOBJ* pbo,
POINTL* BrushOrigin,
ROP4 Rop4);
static BOOLEAN APIENTRY
BltMask(SURFOBJ* psoDest,
SURFOBJ* psoSource,
SURFOBJ* psoMask,
XLATEOBJ* ColorTranslation,
RECTL* prclDest,
POINTL* pptlSource,
POINTL* pptlMask,
BRUSHOBJ* pbo,
POINTL* pptlBrush,
ROP4 Rop4)
{
LONG x, y, cx, cy;
BYTE *pjMskLine, *pjMskCurrent;
BYTE fjMaskBit0, fjMaskBit;
/* Pattern brushes */
SURFOBJ *psoPattern;
ULONG PatternWidth = 0, PatternHeight = 0;
LONG PatternX0 = 0, PatternX = 0, PatternY = 0;
LONG SrcX = 0, SrcY = 0;
PFN_DIB_PutPixel fnDest_PutPixel = NULL;
PFN_DIB_GetPixel fnPattern_GetPixel = NULL, fnSrc_GetPixel = NULL, fnDest_GetPixel;
ULONG Pattern = 0, Source = 0, Dest = 0;
DWORD fgndRop, bkgndRop;
ASSERT(IS_VALID_ROP4(Rop4));
ASSERT(psoMask->iBitmapFormat == BMF_1BPP);
fgndRop = ROP4_FGND(Rop4);
bkgndRop = ROP4_BKGND(Rop4);
//DPRINT1("Rop4 : 0x%08x\n", Rop4);
/* Determine pattern */
if (pbo && pbo->iSolidColor == 0xFFFFFFFF)
{
psoPattern = BRUSHOBJ_psoPattern(pbo);
if (psoPattern)
{
PatternWidth = psoPattern->sizlBitmap.cx;
PatternHeight = psoPattern->sizlBitmap.cy;
fnPattern_GetPixel = DibFunctionsForBitmapFormat[psoPattern->iBitmapFormat].DIB_GetPixel;
}
}
else
psoPattern = NULL;
cx = prclDest->right - prclDest->left;
cy = prclDest->bottom - prclDest->top;
if ((pptlMask->x + cx > psoMask->sizlBitmap.cx) ||
(pptlMask->y + cy > psoMask->sizlBitmap.cy))
{
return FALSE;
}
pjMskLine = (PBYTE)psoMask->pvScan0 + pptlMask->y * psoMask->lDelta + (pptlMask->x >> 3);
fjMaskBit0 = 0x80 >> (pptlMask->x & 0x07);
fnDest_PutPixel = DibFunctionsForBitmapFormat[psoDest->iBitmapFormat].DIB_PutPixel;
fnDest_GetPixel = DibFunctionsForBitmapFormat[psoDest->iBitmapFormat].DIB_GetPixel;
/* Do we have a source */
if(psoSource)
{
/* Sanity check */
ASSERT(ROP4_USES_SOURCE(Rop4));
fnSrc_GetPixel = DibFunctionsForBitmapFormat[psoSource->iBitmapFormat].DIB_GetPixel;
SrcY = pptlSource->y;
SrcX = pptlSource->x;
}
if (psoPattern)
{
PatternY = (prclDest->top - pptlBrush->y) % PatternHeight;
if (PatternY < 0)
{
PatternY += PatternHeight;
}
PatternX0 = (prclDest->left - pptlBrush->x) % PatternWidth;
if (PatternX0 < 0)
{
PatternX0 += PatternWidth;
}
PatternX = PatternX0;
}
else
{
Pattern = pbo ? pbo->iSolidColor : 0;
}
for (y = prclDest->top; y < prclDest->bottom; y++)
{
pjMskCurrent = pjMskLine;
fjMaskBit = fjMaskBit0;
for (x = prclDest->left; x < prclDest->right; x++)
{
Rop4 = (*pjMskCurrent & fjMaskBit) ? fgndRop : bkgndRop;
if(psoPattern)
{
if(ROP4_USES_PATTERN(Rop4))
Pattern = fnPattern_GetPixel(psoPattern, PatternX, PatternY);
PatternX++;
PatternX %= PatternWidth;
}
if(psoSource)
{
if(ROP4_USES_SOURCE(Rop4))
{
Source = XLATEOBJ_iXlate(ColorTranslation,
fnSrc_GetPixel(psoSource, SrcX, SrcY));
}
SrcX++;
}
if(ROP4_USES_DEST(Rop4))
Dest = fnDest_GetPixel(psoDest, x, y);
fnDest_PutPixel(psoDest,
x,
y,
DIB_DoRop(Rop4,
Dest,
Source,
Pattern));
fjMaskBit = _rotr8(fjMaskBit, 1);
pjMskCurrent += (fjMaskBit >> 7);
}
pjMskLine += psoMask->lDelta;
if(psoPattern)
{
PatternY++;
PatternY %= PatternHeight;
PatternX = PatternX0;
}
if(psoSource)
{
SrcY++;
SrcX = pptlSource->x;
}
}
return TRUE;
}
#ifndef _USE_DIBLIB_
static BOOLEAN APIENTRY
BltPatCopy(SURFOBJ* Dest,
SURFOBJ* Source,
SURFOBJ* Mask,
XLATEOBJ* ColorTranslation,
RECTL* DestRect,
POINTL* SourcePoint,
POINTL* MaskPoint,
BRUSHOBJ* pbo,
POINTL* BrushPoint,
DWORD Rop4)
{
// These functions are assigned if we're working with a DIB
// The assigned functions depend on the bitsPerPixel of the DIB
DibFunctionsForBitmapFormat[Dest->iBitmapFormat].DIB_ColorFill(Dest, DestRect, pbo ? pbo->iSolidColor : 0);
return TRUE;
}
static BOOLEAN APIENTRY
CallDibBitBlt(SURFOBJ* OutputObj,
SURFOBJ* InputObj,
SURFOBJ* Mask,
XLATEOBJ* ColorTranslation,
RECTL* OutputRect,
POINTL* InputPoint,
POINTL* MaskOrigin,
BRUSHOBJ* pbo,
POINTL* BrushOrigin,
ROP4 Rop4)
{
BLTINFO BltInfo;
SURFOBJ *psoPattern;
BOOLEAN Result;
BltInfo.DestSurface = OutputObj;
BltInfo.SourceSurface = InputObj;
BltInfo.PatternSurface = NULL;
BltInfo.XlateSourceToDest = ColorTranslation;
BltInfo.DestRect = *OutputRect;
BltInfo.SourcePoint = *InputPoint;
if ((Rop4 & 0xFF) == R3_OPINDEX_SRCCOPY)
return DibFunctionsForBitmapFormat[OutputObj->iBitmapFormat].DIB_BitBltSrcCopy(&BltInfo);
BltInfo.Brush = pbo;
BltInfo.BrushOrigin = *BrushOrigin;
BltInfo.Rop4 = Rop4;
/* Pattern brush */
if (ROP4_USES_PATTERN(Rop4) && pbo && pbo->iSolidColor == 0xFFFFFFFF)
{
psoPattern = BRUSHOBJ_psoPattern(pbo);
if (psoPattern)
{
BltInfo.PatternSurface = psoPattern;
}
else
{
/* FIXME: What to do here? */
}
}
else
{
psoPattern = NULL;
}
Result = DibFunctionsForBitmapFormat[OutputObj->iBitmapFormat].DIB_BitBlt(&BltInfo);
return Result;
}
INT __cdecl abs(INT nm);
/*
* @implemented
*/
BOOL APIENTRY
NtGdiEngBitBlt(
IN SURFOBJ *psoTrg,
IN SURFOBJ *psoSrc,
IN SURFOBJ *psoMask,
IN CLIPOBJ *pco,
IN XLATEOBJ *pxlo,
IN RECTL *prclTrg,
IN POINTL *pptlSrc,
IN POINTL *pptlMask,
IN BRUSHOBJ *pbo,
IN POINTL *pptlBrush,
IN ROP4 Rop4)
{
RECTL rclTrg;
POINTL ptlSrc;
POINTL ptlMask;
POINTL ptlBrush;
_SEH2_TRY
{
ProbeForRead(prclTrg, sizeof(RECTL), 1);
RtlCopyMemory(&rclTrg,prclTrg, sizeof(RECTL));
ProbeForRead(pptlSrc, sizeof(POINTL), 1);
RtlCopyMemory(&ptlSrc, pptlSrc, sizeof(POINTL));
ProbeForRead(pptlMask, sizeof(POINTL), 1);
RtlCopyMemory(&ptlMask, pptlMask, sizeof(POINTL));
ProbeForRead(pptlBrush, sizeof(POINTL), 1);
RtlCopyMemory(&ptlBrush, pptlBrush, sizeof(POINTL));
}
_SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
{
_SEH2_YIELD(return FALSE);
}
_SEH2_END;
return EngBitBlt(psoTrg, psoSrc, psoMask, pco, pxlo, &rclTrg, &ptlSrc, &ptlMask, pbo, &ptlBrush, Rop4);
}
/*
* @implemented
*/
BOOL
APIENTRY
EngBitBlt(
_Inout_ SURFOBJ *psoTrg,
_In_opt_ SURFOBJ *psoSrc,
_In_opt_ SURFOBJ *psoMask,
_In_opt_ CLIPOBJ *pco,
_In_opt_ XLATEOBJ *pxlo,
_In_ RECTL *prclTrg,
_In_opt_ POINTL *pptlSrc,
_In_opt_ POINTL *pptlMask,
_In_opt_ BRUSHOBJ *pbo,
_In_opt_ POINTL *pptlBrush,
_In_ ROP4 rop4)
{
BYTE clippingType;
RECTL CombinedRect;
RECT_ENUM RectEnum;
BOOL EnumMore;
POINTL InputPoint;
RECTL InputRect;
RECTL OutputRect;
SURFOBJ* InputObj = 0;
SURFOBJ* OutputObj;
PBLTRECTFUNC BltRectFunc;
BOOLEAN Ret = TRUE;
RECTL ClipRect;
ULONG i;
POINTL Pt;
ULONG Direction;
BOOL UsesSource, UsesMask;
POINTL AdjustedBrushOrigin;
UsesSource = ROP4_USES_SOURCE(rop4);
UsesMask = ROP4_USES_MASK(rop4);
if (rop4 == ROP4_NOOP)
{
/* Copy destination onto itself: nop */
return TRUE;
}
//DPRINT1("rop4 : 0x%08x\n", rop4);
OutputRect = *prclTrg;
RECTL_vMakeWellOrdered(&OutputRect);
if (UsesSource)
{
if (!psoSrc || !pptlSrc)
{
return FALSE;
}
/* Make sure we don't try to copy anything outside the valid source
region */
InputPoint = *pptlSrc;
if (InputPoint.x < 0)
{
OutputRect.left -= InputPoint.x;
InputPoint.x = 0;
}
if (InputPoint.y < 0)
{
OutputRect.top -= InputPoint.y;
InputPoint.y = 0;
}
if (psoSrc->sizlBitmap.cx < InputPoint.x +
OutputRect.right - OutputRect.left)
{
OutputRect.right = OutputRect.left +
psoSrc->sizlBitmap.cx - InputPoint.x;
}
if (psoSrc->sizlBitmap.cy < InputPoint.y +
OutputRect.bottom - OutputRect.top)
{
OutputRect.bottom = OutputRect.top +
psoSrc->sizlBitmap.cy - InputPoint.y;
}
InputRect.left = InputPoint.x;
InputRect.right = InputPoint.x + (OutputRect.right - OutputRect.left);
InputRect.top = InputPoint.y;
InputRect.bottom = InputPoint.y + (OutputRect.bottom - OutputRect.top);
InputObj = psoSrc;
}
else
{
InputPoint.x = InputPoint.y = 0;
InputRect.left = 0;
InputRect.right = prclTrg->right - prclTrg->left;
InputRect.top = 0;
InputRect.bottom = prclTrg->bottom - prclTrg->top;
}
if (NULL != pco)
{
if (OutputRect.left < pco->rclBounds.left)
{
InputRect.left += pco->rclBounds.left - OutputRect.left;
InputPoint.x += pco->rclBounds.left - OutputRect.left;
OutputRect.left = pco->rclBounds.left;
}
if (pco->rclBounds.right < OutputRect.right)
{
InputRect.right -= OutputRect.right - pco->rclBounds.right;
OutputRect.right = pco->rclBounds.right;
}
if (OutputRect.top < pco->rclBounds.top)
{
InputRect.top += pco->rclBounds.top - OutputRect.top;
InputPoint.y += pco->rclBounds.top - OutputRect.top;
OutputRect.top = pco->rclBounds.top;
}
if (pco->rclBounds.bottom < OutputRect.bottom)
{
InputRect.bottom -= OutputRect.bottom - pco->rclBounds.bottom;
OutputRect.bottom = pco->rclBounds.bottom;
}
}
/* Check for degenerate case: if height or width of OutputRect is 0 pixels
there's nothing to do */
if (OutputRect.right <= OutputRect.left ||
OutputRect.bottom <= OutputRect.top)
{
return TRUE;
}
OutputObj = psoTrg;
if (pptlBrush)
{
AdjustedBrushOrigin.x = pptlBrush->x;
AdjustedBrushOrigin.y = pptlBrush->y;
}
else
{
AdjustedBrushOrigin.x = 0;
AdjustedBrushOrigin.y = 0;
}
/* Determine clipping type */
if (pco == (CLIPOBJ *) NULL)
{
clippingType = DC_TRIVIAL;
}
else
{
clippingType = pco->iDComplexity;
}
/* Check if we need a mask but have no mask surface */
if (UsesMask && (psoMask == NULL))
{
/* Check if the BRUSHOBJ can provide the mask */
psoMask = BRUSHOBJ_psoMask(pbo);
if (psoMask == NULL)
{
/* We have no mask, assume the mask is all foreground */
rop4 = (rop4 & 0xFF) | ((rop4 & 0xFF) << 8);
UsesMask = FALSE;
}
}
if (UsesMask)
{
BltRectFunc = BltMask;
}
else if ((rop4 & 0xFF) == R3_OPINDEX_PATCOPY)
{
if (pbo && pbo->iSolidColor == 0xFFFFFFFF)
BltRectFunc = CallDibBitBlt;
else
BltRectFunc = BltPatCopy;
}
else
{
BltRectFunc = CallDibBitBlt;
}
switch (clippingType)
{
case DC_TRIVIAL:
Ret = (*BltRectFunc)(OutputObj,
InputObj,
psoMask,
pxlo,
&OutputRect,
&InputPoint,
pptlMask,
pbo,
&AdjustedBrushOrigin,
rop4);
break;
case DC_RECT:
/* Clip the blt to the clip rectangle */
ClipRect.left = pco->rclBounds.left;
ClipRect.right = pco->rclBounds.right;
ClipRect.top = pco->rclBounds.top;
ClipRect.bottom = pco->rclBounds.bottom;
if (RECTL_bIntersectRect(&CombinedRect, &OutputRect, &ClipRect))
{
#ifdef _USE_DIBLIB_
if (BrushOrigin)
{
AdjustedBrushOrigin.x = BrushOrigin->x + CombinedRect.left - OutputRect.left;
AdjustedBrushOrigin.y = BrushOrigin->y + CombinedRect.top - OutputRect.top;
}
#endif
Pt.x = InputPoint.x + CombinedRect.left - OutputRect.left;
Pt.y = InputPoint.y + CombinedRect.top - OutputRect.top;
Ret = (*BltRectFunc)(OutputObj,
InputObj,
psoMask,
pxlo,
&CombinedRect,
&Pt,
pptlMask,
pbo,
&AdjustedBrushOrigin,
rop4);
}
break;
case DC_COMPLEX:
Ret = TRUE;
if (OutputObj == InputObj)
{
if (OutputRect.top < InputPoint.y)
{
Direction = OutputRect.left < InputPoint.x ?
CD_RIGHTDOWN : CD_LEFTDOWN;
}
else
{
Direction = OutputRect.left < InputPoint.x ?
CD_RIGHTUP : CD_LEFTUP;
}
}
else
{
Direction = CD_ANY;
}
CLIPOBJ_cEnumStart(pco, FALSE, CT_RECTANGLES, Direction, 0);
do
{
EnumMore = CLIPOBJ_bEnum(pco, sizeof(RectEnum),
(PVOID) &RectEnum);
for (i = 0; i < RectEnum.c; i++)
{
ClipRect.left = RectEnum.arcl[i].left;
ClipRect.right = RectEnum.arcl[i].right;
ClipRect.top = RectEnum.arcl[i].top;
ClipRect.bottom = RectEnum.arcl[i].bottom;
if (RECTL_bIntersectRect(&CombinedRect, &OutputRect, &ClipRect))
{
#ifdef _USE_DIBLIB_
if (BrushOrigin)
{
AdjustedBrushOrigin.x = BrushOrigin->x + CombinedRect.left - OutputRect.left;
AdjustedBrushOrigin.y = BrushOrigin->y + CombinedRect.top - OutputRect.top;
}
#endif
Pt.x = InputPoint.x + CombinedRect.left - OutputRect.left;
Pt.y = InputPoint.y + CombinedRect.top - OutputRect.top;
Ret = (*BltRectFunc)(OutputObj,
InputObj,
psoMask,
pxlo,
&CombinedRect,
&Pt,
pptlMask,
pbo,
&AdjustedBrushOrigin,
rop4) && Ret;
}
}
}
while (EnumMore);
break;
}
return Ret;
}
BOOL APIENTRY
IntEngBitBlt(
SURFOBJ *psoTrg,
SURFOBJ *psoSrc,
SURFOBJ *psoMask,
CLIPOBJ *pco,
XLATEOBJ *pxlo,
RECTL *prclTrg,
POINTL *pptlSrc,
POINTL *pptlMask,
BRUSHOBJ *pbo,
POINTL *pptlBrush,
ROP4 Rop4)
{
SURFACE *psurfTrg;
SURFACE *psurfSrc = NULL;
BOOL bResult;
RECTL rclClipped;
RECTL rclSrc;
RECTL rclSrcClipped;
POINTL ptlBrush;
PFN_DrvBitBlt pfnBitBlt;
/* Sanity checks */
ASSERT(IS_VALID_ROP4(Rop4));
ASSERT(psoTrg);
psurfTrg = CONTAINING_RECORD(psoTrg, SURFACE, SurfObj);
/* Get the target rect and make it well ordered */
rclClipped = *prclTrg;
RECTL_vMakeWellOrdered(&rclClipped);
/* Clip the target rect against the bounds of the target surface */
if (!RECTL_bClipRectBySize(&rclClipped, &rclClipped, &psoTrg->sizlBitmap))
{
/* Nothing left */
return TRUE;
}
if (pco)
{
/* Clip target rect against the bounds of the clipping region */
if (!RECTL_bIntersectRect(&rclClipped, &rclClipped, &pco->rclBounds))
{
/* Nothing left */
return TRUE;
}
/* Don't pass a clipobj with only a single rect */
if (pco->iDComplexity == DC_RECT)
pco = NULL;
}
else
pco = (CLIPOBJ *)&gxcoTrivial;
if (ROP4_USES_SOURCE(Rop4))
{
ASSERT(psoSrc);
psurfSrc = CONTAINING_RECORD(psoSrc, SURFACE, SurfObj);
/* Calculate source rect */
rclSrc.left = pptlSrc->x + rclClipped.left - prclTrg->left;
rclSrc.top = pptlSrc->y + rclClipped.top - prclTrg->top;
rclSrc.right = rclSrc.left + rclClipped.right - rclClipped.left;
rclSrc.bottom = rclSrc.top + rclClipped.bottom - rclClipped.top;
/* Clip the source rect against the size of the source surface */
if (!RECTL_bClipRectBySize(&rclSrcClipped, &rclSrc, &psoSrc->sizlBitmap))
{
/* Nothing left */
return TRUE;
}
/* Fix up target rect */
rclClipped.left += (rclSrcClipped.left - rclSrc.left);
rclClipped.top += (rclSrcClipped.top - rclSrc.top);
rclClipped.right -= (rclSrc.right - rclSrcClipped.right);
rclClipped.bottom -= (rclSrc.bottom - rclSrcClipped.bottom);
pptlSrc = (PPOINTL)&rclSrcClipped;
}
else
{
psoSrc = NULL;
psurfSrc = NULL;
}
if (pptlBrush)
{
#ifdef _USE_DIBLIB_
ptlBrush.x = pptlBrush->x + rclClipped.left - prclTrg->left;
ptlBrush.y = pptlBrush->y + rclClipped.top - prclTrg->top;
#else
ptlBrush = *pptlBrush;
#endif
}
/* Is the target surface device managed? */
if (psurfTrg->flags & HOOK_BITBLT)
{
/* Is the source a different device managed surface? */
if (psoSrc && psoSrc->hdev != psoTrg->hdev && psurfSrc->flags & HOOK_BITBLT)
{
DPRINT1("Need to copy to standard bitmap format!\n");
ASSERT(FALSE);
}
pfnBitBlt = GDIDEVFUNCS(psoTrg).BitBlt;
}
/* Is the source surface device managed? */
else if (psoSrc && psurfSrc->flags & HOOK_BITBLT)
{
pfnBitBlt = GDIDEVFUNCS(psoSrc).BitBlt;
}
else
{
pfnBitBlt = EngBitBlt;
}
bResult = pfnBitBlt(psoTrg,
psoSrc,
psoMask,
pco,
pxlo,
&rclClipped,
pptlSrc,
pptlMask,
pbo,
pptlBrush ? &ptlBrush : NULL,
Rop4);
// FIXME: cleanup temp surface!
return bResult;
}
#endif // !_USE_DIBLIB_
/**** REACTOS FONT RENDERING CODE *********************************************/
/* renders the alpha mask bitmap */
static BOOLEAN APIENTRY
AlphaBltMask(SURFOBJ* psoDest,
SURFOBJ* psoSource, // unused
SURFOBJ* psoMask,
XLATEOBJ* pxloRGB2Dest,
XLATEOBJ* pxloBrush,
RECTL* prclDest,
POINTL* pptlSource, // unused
POINTL* pptlMask,
BRUSHOBJ* pbo,
POINTL* pptlBrush)
{
LONG i, j, dx, dy;
int r, g, b;
ULONG Background, BrushColor, NewColor;
BYTE *tMask, *lMask;
ASSERT(psoSource == NULL);
ASSERT(pptlSource == NULL);
dx = prclDest->right - prclDest->left;
dy = prclDest->bottom - prclDest->top;
if (psoMask != NULL)
{
BrushColor = XLATEOBJ_iXlate(pxloBrush, pbo ? pbo->iSolidColor : 0);
r = (int)GetRValue(BrushColor);
g = (int)GetGValue(BrushColor);
b = (int)GetBValue(BrushColor);
tMask = (PBYTE)psoMask->pvScan0 + (pptlMask->y * psoMask->lDelta) + pptlMask->x;
for (j = 0; j < dy; j++)
{
lMask = tMask;
for (i = 0; i < dx; i++)
{
if (*lMask > 0)
{
if (*lMask == 0xff)
{
DibFunctionsForBitmapFormat[psoDest->iBitmapFormat].DIB_PutPixel(
psoDest, prclDest->left + i, prclDest->top + j, pbo ? pbo->iSolidColor : 0);
}
else
{
Background = DIB_GetSource(psoDest, prclDest->left + i, prclDest->top + j,
pxloBrush);
NewColor =
RGB((*lMask * (r - GetRValue(Background)) >> 8) + GetRValue(Background),
(*lMask * (g - GetGValue(Background)) >> 8) + GetGValue(Background),
(*lMask * (b - GetBValue(Background)) >> 8) + GetBValue(Background));
Background = XLATEOBJ_iXlate(pxloRGB2Dest, NewColor);
DibFunctionsForBitmapFormat[psoDest->iBitmapFormat].DIB_PutPixel(
psoDest, prclDest->left + i, prclDest->top + j, Background);
}
}
lMask++;
}
tMask += psoMask->lDelta;
}
return TRUE;
}
else
{
return FALSE;
}
}
static
BOOL APIENTRY
EngMaskBitBlt(SURFOBJ *psoDest,
SURFOBJ *psoMask,
CLIPOBJ *ClipRegion,
XLATEOBJ *DestColorTranslation,
XLATEOBJ *SourceColorTranslation,
RECTL *DestRect,
POINTL *pptlMask,
BRUSHOBJ *pbo,
POINTL *BrushOrigin)
{
BYTE clippingType;
RECTL CombinedRect;
RECT_ENUM RectEnum;
BOOL EnumMore;
POINTL InputPoint;
RECTL InputRect;
RECTL OutputRect;
POINTL Translate;
INTENG_ENTER_LEAVE EnterLeaveSource;
INTENG_ENTER_LEAVE EnterLeaveDest;
SURFOBJ* psoInput;
SURFOBJ* psoOutput;
BOOLEAN Ret = TRUE;
RECTL ClipRect;
unsigned i;
POINTL Pt;
ULONG Direction;
POINTL AdjustedBrushOrigin;
ASSERT(psoMask);
if (pptlMask)
{
InputRect.left = pptlMask->x;
InputRect.right = pptlMask->x + (DestRect->right - DestRect->left);
InputRect.top = pptlMask->y;
InputRect.bottom = pptlMask->y + (DestRect->bottom - DestRect->top);
}
else
{
InputRect.left = 0;
InputRect.right = DestRect->right - DestRect->left;
InputRect.top = 0;
InputRect.bottom = DestRect->bottom - DestRect->top;
}
OutputRect = *DestRect;
if (NULL != ClipRegion)
{
if (OutputRect.left < ClipRegion->rclBounds.left)
{
InputRect.left += ClipRegion->rclBounds.left - OutputRect.left;
OutputRect.left = ClipRegion->rclBounds.left;
}
if (ClipRegion->rclBounds.right < OutputRect.right)
{
InputRect.right -= OutputRect.right - ClipRegion->rclBounds.right;
OutputRect.right = ClipRegion->rclBounds.right;
}
if (OutputRect.top < ClipRegion->rclBounds.top)
{
InputRect.top += ClipRegion->rclBounds.top - OutputRect.top;
OutputRect.top = ClipRegion->rclBounds.top;
}
if (ClipRegion->rclBounds.bottom < OutputRect.bottom)
{
InputRect.bottom -= OutputRect.bottom - ClipRegion->rclBounds.bottom;
OutputRect.bottom = ClipRegion->rclBounds.bottom;
}
}
if (! IntEngEnter(&EnterLeaveSource, psoMask, &InputRect, TRUE, &Translate, &psoInput))
{
return FALSE;
}
InputPoint.x = InputRect.left + Translate.x;
InputPoint.y = InputRect.top + Translate.y;
/* Check for degenerate case: if height or width of OutputRect is 0 pixels there's
nothing to do */
if (OutputRect.right <= OutputRect.left || OutputRect.bottom <= OutputRect.top)
{
IntEngLeave(&EnterLeaveSource);
return TRUE;
}
if (! IntEngEnter(&EnterLeaveDest, psoDest, &OutputRect, FALSE, &Translate, &psoOutput))
{
IntEngLeave(&EnterLeaveSource);
return FALSE;
}
OutputRect.left = DestRect->left + Translate.x;
OutputRect.right = DestRect->right + Translate.x;
OutputRect.top = DestRect->top + Translate.y;
OutputRect.bottom = DestRect->bottom + Translate.y;
if (BrushOrigin)
{
AdjustedBrushOrigin.x = BrushOrigin->x + Translate.x;
AdjustedBrushOrigin.y = BrushOrigin->y + Translate.y;
}
else
AdjustedBrushOrigin = Translate;
// Determine clipping type
if (ClipRegion == (CLIPOBJ *) NULL)
{
clippingType = DC_TRIVIAL;
} else {
clippingType = ClipRegion->iDComplexity;
}
switch (clippingType)
{
case DC_TRIVIAL:
if (psoMask->iBitmapFormat == BMF_8BPP)
Ret = AlphaBltMask(psoOutput, NULL , psoInput, DestColorTranslation, SourceColorTranslation,
&OutputRect, NULL, &InputPoint, pbo, &AdjustedBrushOrigin);
else
Ret = BltMask(psoOutput, NULL, psoInput, DestColorTranslation,
&OutputRect, NULL, &InputPoint, pbo, &AdjustedBrushOrigin,
ROP4_MASK);
break;
case DC_RECT:
// Clip the blt to the clip rectangle
ClipRect.left = ClipRegion->rclBounds.left + Translate.x;
ClipRect.right = ClipRegion->rclBounds.right + Translate.x;
ClipRect.top = ClipRegion->rclBounds.top + Translate.y;
ClipRect.bottom = ClipRegion->rclBounds.bottom + Translate.y;
if (RECTL_bIntersectRect(&CombinedRect, &OutputRect, &ClipRect))
{
Pt.x = InputPoint.x + CombinedRect.left - OutputRect.left;
Pt.y = InputPoint.y + CombinedRect.top - OutputRect.top;
if (psoMask->iBitmapFormat == BMF_8BPP)
{
Ret = AlphaBltMask(psoOutput, NULL, psoInput, DestColorTranslation, SourceColorTranslation,
&CombinedRect, NULL, &Pt, pbo, &AdjustedBrushOrigin);
}
else
{
Ret = BltMask(psoOutput, NULL, psoInput, DestColorTranslation,
&CombinedRect, NULL, &Pt, pbo, &AdjustedBrushOrigin, ROP4_MASK);
}
}
break;
case DC_COMPLEX:
Ret = TRUE;
if (psoOutput == psoInput)
{
if (OutputRect.top < InputPoint.y)
{
Direction = OutputRect.left < InputPoint.x ? CD_RIGHTDOWN : CD_LEFTDOWN;
}
else
{
Direction = OutputRect.left < InputPoint.x ? CD_RIGHTUP : CD_LEFTUP;
}
}
else
{
Direction = CD_ANY;
}
CLIPOBJ_cEnumStart(ClipRegion, FALSE, CT_RECTANGLES, Direction, 0);
do
{
EnumMore = CLIPOBJ_bEnum(ClipRegion,(ULONG) sizeof(RectEnum), (PVOID) &RectEnum);
for (i = 0; i < RectEnum.c; i++)
{
ClipRect.left = RectEnum.arcl[i].left + Translate.x;
ClipRect.right = RectEnum.arcl[i].right + Translate.x;
ClipRect.top = RectEnum.arcl[i].top + Translate.y;
ClipRect.bottom = RectEnum.arcl[i].bottom + Translate.y;
if (RECTL_bIntersectRect(&CombinedRect, &OutputRect, &ClipRect))
{
Pt.x = InputPoint.x + CombinedRect.left - OutputRect.left;
Pt.y = InputPoint.y + CombinedRect.top - OutputRect.top;
if (psoMask->iBitmapFormat == BMF_8BPP)
{
Ret = AlphaBltMask(psoOutput, NULL, psoInput,
DestColorTranslation,
SourceColorTranslation,
&CombinedRect, NULL, &Pt, pbo,
&AdjustedBrushOrigin) && Ret;
}
else
{
Ret = BltMask(psoOutput, NULL, psoInput,
DestColorTranslation, &CombinedRect, NULL,
&Pt, pbo, &AdjustedBrushOrigin,
ROP4_MASK) && Ret;
}
}
}
}
while (EnumMore);
break;
}
IntEngLeave(&EnterLeaveDest);
IntEngLeave(&EnterLeaveSource);
return Ret;
}
BOOL
APIENTRY
IntEngMaskBlt(
_Inout_ SURFOBJ *psoDest,
_In_ SURFOBJ *psoMask,
_In_ CLIPOBJ *pco,
_In_ XLATEOBJ *pxloDest,
_In_ XLATEOBJ *pxloSource,
_In_ RECTL *prclDest,
_In_ POINTL *pptlMask,
_In_ BRUSHOBJ *pbo,
_In_ POINTL *pptlBrushOrg)
{
BOOLEAN ret;
RECTL rcDest;
POINTL ptMask = {0,0};
PSURFACE psurfTemp;
RECTL rcTemp;
ASSERT(psoDest);
ASSERT(psoMask);
/* Is this a 1 BPP mask? */
if (psoMask->iBitmapFormat == BMF_1BPP)
{
/* Use IntEngBitBlt with an appropriate ROP4 */
return IntEngBitBlt(psoDest,
NULL,
psoMask,
pco,
pxloDest,
prclDest,
NULL,
pptlMask,
pbo,
pptlBrushOrg,
ROP4_MASKPAINT);
}
ASSERT(psoMask->iBitmapFormat == BMF_8BPP);
if (pptlMask)
{
ptMask = *pptlMask;
}
/* Clip against the bounds of the clipping region so we won't try to write
* outside the surface */
if (pco != NULL)
{
/* Intersect with the clip bounds and check if everything was clipped */
if (!RECTL_bIntersectRect(&rcDest, prclDest, &pco->rclBounds))
{
return TRUE;
}
/* Adjust the mask point */
ptMask.x += rcDest.left - prclDest->left;
ptMask.y += rcDest.top - prclDest->top;
}
else
{
rcDest = *prclDest;
}
/* Check if the target surface is device managed */
if (psoDest->iType != STYPE_BITMAP)
{
rcTemp.left = 0;
rcTemp.top = 0;
rcTemp.right = rcDest.right - rcDest.left;
rcTemp.bottom = rcDest.bottom - rcDest.top;
/* Allocate a temporary surface */
psurfTemp = SURFACE_AllocSurface(STYPE_BITMAP,
rcTemp.right,
rcTemp.bottom,
psoDest->iBitmapFormat,
0,
0,
0,
NULL);
if (psurfTemp == NULL)
{
return FALSE;
}
/* Copy the current target surface bits to the temp surface */
ret = EngCopyBits(&psurfTemp->SurfObj,
psoDest,
NULL, // pco
NULL, // pxlo
&rcTemp,
(PPOINTL)&rcDest);
if (ret)
{
/* Do the operation on the temp surface */
ret = EngMaskBitBlt(&psurfTemp->SurfObj,
psoMask,
NULL,
pxloDest,
pxloSource,
&rcTemp,
&ptMask,
pbo,
pptlBrushOrg);
}
if (ret)
{
/* Copy the result back to the dest surface */
ret = EngCopyBits(psoDest,
&psurfTemp->SurfObj,
pco,
NULL,
&rcDest,
(PPOINTL)&rcTemp);
}
/* Delete the temp surface */
GDIOBJ_vDeleteObject(&psurfTemp->BaseObject);
}
else
{
/* Do the operation on the target surface */
ret = EngMaskBitBlt(psoDest,
psoMask,
pco,
pxloDest,
pxloSource,
&rcDest,
&ptMask,
pbo,
pptlBrushOrg);
}
return ret;
}
/* EOF */
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