reactos/win32ss/gdi/eng/copybits.c
Hermès Bélusca-Maïto e1ef078741 Create this branch to work on loading of different Kernel-Debugger DLL providers, and see whether it is possible to move KDBG from ntoskrnl to a new DLL called, say, KDROSDBG.DLL.
The idea then would be to have the following behaviour (when specifying the following options in the kernel command line):

/DEBUGPORT=COMi --> load KDCOM.DLL and use COMi port (i == 1,2,3,4) if possible.
/DEBUGPORT=FOO  --> load KDFOO.DLL (useful for KDUSB.DLL, KD1394.DLL, KDBAZIS.DLL for VirtualKD, etc...)
/DEBUGPORT=ROSDBG:[COMi|SCREEN|FILE|GDB|...] --> load KDROSDBG.DLL which contains the ROS kernel debugger, and use COMi or SCREEN or... as output port.

svn path=/branches/kd++/; revision=58883
2013-04-28 13:26:45 +00:00

190 lines
5.7 KiB
C

/*
* COPYRIGHT: See COPYING in the top level directory
* PROJECT: ReactOS kernel
* PURPOSE: GDI EngCopyBits Function
* FILE: subsys/win32k/eng/copybits.c
* PROGRAMER: Jason Filby
*/
#include <win32k.h>
#define NDEBUG
#include <debug.h>
/*
* @implemented
*/
BOOL APIENTRY
EngCopyBits(
_In_ SURFOBJ *psoDest,
_In_ SURFOBJ *psoSource,
_In_opt_ CLIPOBJ *Clip,
_In_opt_ XLATEOBJ *ColorTranslation,
_In_ RECTL *DestRect,
_In_ POINTL *SourcePoint)
{
BOOL ret;
BYTE clippingType;
RECT_ENUM RectEnum;
BOOL EnumMore;
BLTINFO BltInfo;
SURFACE *psurfDest;
SURFACE *psurfSource;
RECTL rclDest = *DestRect;
POINTL ptlSrc = *SourcePoint;
ASSERT(psoDest != NULL && psoSource != NULL && DestRect != NULL && SourcePoint != NULL);
psurfSource = CONTAINING_RECORD(psoSource, SURFACE, SurfObj);
psurfDest = CONTAINING_RECORD(psoDest, SURFACE, SurfObj);
/* Clip dest rect against source surface size / source point */
if (psoSource->sizlBitmap.cx - ptlSrc.x < rclDest.right - rclDest.left)
rclDest.right = rclDest.left + psoSource->sizlBitmap.cx - ptlSrc.x;
if (psoSource->sizlBitmap.cy - ptlSrc.y < rclDest.bottom - rclDest.top)
rclDest.bottom = rclDest.top + psoSource->sizlBitmap.cy - ptlSrc.y;
/* Clip dest rect against target surface size */
if (rclDest.right > psoDest->sizlBitmap.cx)
rclDest.right = psoDest->sizlBitmap.cx;
if (rclDest.bottom > psoDest->sizlBitmap.cy)
rclDest.bottom = psoDest->sizlBitmap.cy;
if (RECTL_bIsEmptyRect(&rclDest)) return TRUE;
DestRect = &rclDest;
// FIXME: Don't punt to the driver's DrvCopyBits immediately. Instead,
// mark the copy block function to be DrvCopyBits instead of the
// GDI's copy bit function so as to remove clipping from the
// driver's responsibility
// If one of the surfaces isn't managed by the GDI
if ((psoDest->iType!=STYPE_BITMAP) || (psoSource->iType!=STYPE_BITMAP))
{
// Destination surface is device managed
if (psoDest->iType!=STYPE_BITMAP)
{
/* FIXME: Eng* functions shouldn't call Drv* functions. ? */
if (psurfDest->flags & HOOK_COPYBITS)
{
ret = GDIDEVFUNCS(psoDest).CopyBits(
psoDest, psoSource, Clip, ColorTranslation, DestRect, SourcePoint);
goto cleanup;
}
}
// Source surface is device managed
if (psoSource->iType!=STYPE_BITMAP)
{
/* FIXME: Eng* functions shouldn't call Drv* functions. ? */
if (psurfSource->flags & HOOK_COPYBITS)
{
ret = GDIDEVFUNCS(psoSource).CopyBits(
psoDest, psoSource, Clip, ColorTranslation, DestRect, SourcePoint);
goto cleanup;
}
}
// If CopyBits wasn't hooked, BitBlt must be
ret = IntEngBitBlt(psoDest, psoSource,
NULL, Clip, ColorTranslation, DestRect, SourcePoint,
NULL, NULL, NULL, ROP4_FROM_INDEX(R3_OPINDEX_SRCCOPY));
goto cleanup;
}
// Determine clipping type
if (!Clip)
{
clippingType = DC_TRIVIAL;
}
else
{
clippingType = Clip->iDComplexity;
}
BltInfo.DestSurface = psoDest;
BltInfo.SourceSurface = psoSource;
BltInfo.PatternSurface = NULL;
BltInfo.XlateSourceToDest = ColorTranslation;
BltInfo.Rop4 = ROP4_FROM_INDEX(R3_OPINDEX_SRCCOPY);
switch (clippingType)
{
case DC_TRIVIAL:
BltInfo.DestRect = *DestRect;
BltInfo.SourcePoint = *SourcePoint;
ret = DibFunctionsForBitmapFormat[psoDest->iBitmapFormat].DIB_BitBltSrcCopy(&BltInfo);
break;
case DC_RECT:
// Clip the blt to the clip rectangle
RECTL_bIntersectRect(&BltInfo.DestRect, DestRect, &Clip->rclBounds);
BltInfo.SourcePoint.x = SourcePoint->x + BltInfo.DestRect.left - DestRect->left;
BltInfo.SourcePoint.y = SourcePoint->y + BltInfo.DestRect.top - DestRect->top;
ret = DibFunctionsForBitmapFormat[psoDest->iBitmapFormat].DIB_BitBltSrcCopy(&BltInfo);
break;
case DC_COMPLEX:
CLIPOBJ_cEnumStart(Clip, FALSE, CT_RECTANGLES, CD_ANY, 0);
do
{
EnumMore = CLIPOBJ_bEnum(Clip,(ULONG) sizeof(RectEnum), (PVOID) &RectEnum);
if (RectEnum.c > 0)
{
RECTL* prclEnd = &RectEnum.arcl[RectEnum.c];
RECTL* prcl = &RectEnum.arcl[0];
do
{
RECTL_bIntersectRect(&BltInfo.DestRect, prcl, DestRect);
BltInfo.SourcePoint.x = SourcePoint->x + prcl->left - DestRect->left;
BltInfo.SourcePoint.y = SourcePoint->y + prcl->top - DestRect->top;
if (!DibFunctionsForBitmapFormat[psoDest->iBitmapFormat].DIB_BitBltSrcCopy(&BltInfo))
{
ret = FALSE;
goto cleanup;
}
prcl++;
} while (prcl < prclEnd);
}
} while (EnumMore);
ret = TRUE;
break;
default:
ASSERT(FALSE);
ret = FALSE;
break;
}
cleanup:
return ret;
}
BOOL APIENTRY
IntEngCopyBits(
SURFOBJ *psoDest,
SURFOBJ *psoSource,
CLIPOBJ *pco,
XLATEOBJ *pxlo,
RECTL *prclDest,
POINTL *ptlSource)
{
return EngCopyBits(psoDest, psoSource, pco, pxlo, prclDest, ptlSource);
}
/* EOF */