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reactos/subsystems/win32/win32k/objects/dibobj.c
Jérôme Gardou 421a63ff44 [WIN32K] 
- Get rid of hDIBPalette in SURFACE structure
This allows more code cleanness

svn path=/branches/reactos-yarotows/; revision=47190
2010-05-12 22:56:24 +00:00

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51 KiB
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/*
* ReactOS W32 Subsystem
* Copyright (C) 1998, 1999, 2000, 2001, 2002, 2003 ReactOS Team
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
#include <win32k.h>
#define NDEBUG
#include <debug.h>
static const RGBQUAD EGAColorsQuads[16] = {
/* rgbBlue, rgbGreen, rgbRed, rgbReserved */
{ 0x00, 0x00, 0x00, 0x00 },
{ 0x00, 0x00, 0x80, 0x00 },
{ 0x00, 0x80, 0x00, 0x00 },
{ 0x00, 0x80, 0x80, 0x00 },
{ 0x80, 0x00, 0x00, 0x00 },
{ 0x80, 0x00, 0x80, 0x00 },
{ 0x80, 0x80, 0x00, 0x00 },
{ 0x80, 0x80, 0x80, 0x00 },
{ 0xc0, 0xc0, 0xc0, 0x00 },
{ 0x00, 0x00, 0xff, 0x00 },
{ 0x00, 0xff, 0x00, 0x00 },
{ 0x00, 0xff, 0xff, 0x00 },
{ 0xff, 0x00, 0x00, 0x00 },
{ 0xff, 0x00, 0xff, 0x00 },
{ 0xff, 0xff, 0x00, 0x00 },
{ 0xff, 0xff, 0xff, 0x00 }
};
static const RGBQUAD DefLogPaletteQuads[20] = { /* Copy of Default Logical Palette */
/* rgbBlue, rgbGreen, rgbRed, rgbReserved */
{ 0x00, 0x00, 0x00, 0x00 },
{ 0x00, 0x00, 0x80, 0x00 },
{ 0x00, 0x80, 0x00, 0x00 },
{ 0x00, 0x80, 0x80, 0x00 },
{ 0x80, 0x00, 0x00, 0x00 },
{ 0x80, 0x00, 0x80, 0x00 },
{ 0x80, 0x80, 0x00, 0x00 },
{ 0xc0, 0xc0, 0xc0, 0x00 },
{ 0xc0, 0xdc, 0xc0, 0x00 },
{ 0xf0, 0xca, 0xa6, 0x00 },
{ 0xf0, 0xfb, 0xff, 0x00 },
{ 0xa4, 0xa0, 0xa0, 0x00 },
{ 0x80, 0x80, 0x80, 0x00 },
{ 0x00, 0x00, 0xf0, 0x00 },
{ 0x00, 0xff, 0x00, 0x00 },
{ 0x00, 0xff, 0xff, 0x00 },
{ 0xff, 0x00, 0x00, 0x00 },
{ 0xff, 0x00, 0xff, 0x00 },
{ 0xff, 0xff, 0x00, 0x00 },
{ 0xff, 0xff, 0xff, 0x00 }
};
UINT
APIENTRY
IntSetDIBColorTable(
HDC hDC,
UINT StartIndex,
UINT Entries,
CONST RGBQUAD *Colors)
{
PDC dc;
PSURFACE psurf;
PPALETTE PalGDI;
UINT Index;
ULONG biBitCount;
if (!(dc = DC_LockDc(hDC))) return 0;
if (dc->dctype == DC_TYPE_INFO)
{
DC_UnlockDc(dc);
return 0;
}
psurf = dc->dclevel.pSurface;
if (psurf == NULL)
{
DC_UnlockDc(dc);
SetLastWin32Error(ERROR_INVALID_PARAMETER);
return 0;
}
if (psurf->hSecure == NULL)
{
DC_UnlockDc(dc);
SetLastWin32Error(ERROR_INVALID_PARAMETER);
return 0;
}
biBitCount = BitsPerFormat(psurf->SurfObj.iBitmapFormat);
if (biBitCount <= 8 && StartIndex < (1 << biBitCount))
{
if (StartIndex + Entries > (1 << biBitCount))
Entries = (1 << biBitCount) - StartIndex;
if (psurf->ppal == NULL)
{
DC_UnlockDc(dc);
SetLastWin32Error(ERROR_INVALID_HANDLE);
return 0;
}
PalGDI = PALETTE_LockPalette(psurf->ppal->BaseObject.hHmgr);
for (Index = StartIndex;
Index < StartIndex + Entries && Index < PalGDI->NumColors;
Index++)
{
PalGDI->IndexedColors[Index].peRed = Colors[Index - StartIndex].rgbRed;
PalGDI->IndexedColors[Index].peGreen = Colors[Index - StartIndex].rgbGreen;
PalGDI->IndexedColors[Index].peBlue = Colors[Index - StartIndex].rgbBlue;
}
PALETTE_UnlockPalette(PalGDI);
}
else
Entries = 0;
/* Mark the brushes invalid */
dc->pdcattr->ulDirty_ |= DIRTY_FILL|DIRTY_LINE|DIRTY_BACKGROUND|DIRTY_TEXT;
DC_UnlockDc(dc);
return Entries;
}
UINT
APIENTRY
IntGetDIBColorTable(
HDC hDC,
UINT StartIndex,
UINT Entries,
RGBQUAD *Colors)
{
PDC dc;
PSURFACE psurf;
PPALETTE PalGDI;
UINT Index, Count = 0;
ULONG biBitCount;
if (!(dc = DC_LockDc(hDC))) return 0;
if (dc->dctype == DC_TYPE_INFO)
{
DC_UnlockDc(dc);
return 0;
}
psurf = dc->dclevel.pSurface;
if (psurf == NULL)
{
DC_UnlockDc(dc);
SetLastWin32Error(ERROR_INVALID_PARAMETER);
return 0;
}
if (psurf->hSecure == NULL)
{
DC_UnlockDc(dc);
SetLastWin32Error(ERROR_INVALID_PARAMETER);
return 0;
}
biBitCount = BitsPerFormat(psurf->SurfObj.iBitmapFormat);
if (biBitCount <= 8 &&
StartIndex < (1 << biBitCount))
{
if (StartIndex + Entries > (1 << biBitCount))
Entries = (1 << biBitCount) - StartIndex;
if (psurf->ppal == NULL)
{
DC_UnlockDc(dc);
SetLastWin32Error(ERROR_INVALID_HANDLE);
return 0;
}
PalGDI = PALETTE_LockPalette(psurf->ppal->BaseObject.hHmgr);
for (Index = StartIndex;
Index < StartIndex + Entries && Index < PalGDI->NumColors;
Index++)
{
Colors[Index - StartIndex].rgbRed = PalGDI->IndexedColors[Index].peRed;
Colors[Index - StartIndex].rgbGreen = PalGDI->IndexedColors[Index].peGreen;
Colors[Index - StartIndex].rgbBlue = PalGDI->IndexedColors[Index].peBlue;
Colors[Index - StartIndex].rgbReserved = 0;
Count++;
}
PALETTE_UnlockPalette(PalGDI);
}
DC_UnlockDc(dc);
return Count;
}
// Converts a DIB to a device-dependent bitmap
static INT
FASTCALL
IntSetDIBits(
PDC DC,
HBITMAP hBitmap,
UINT StartScan,
UINT ScanLines,
CONST VOID *Bits,
CONST BITMAPINFO *bmi,
UINT ColorUse)
{
SURFACE *bitmap;
HBITMAP SourceBitmap;
INT result = 0;
BOOL copyBitsResult;
SURFOBJ *DestSurf, *SourceSurf;
SIZEL SourceSize;
POINTL ZeroPoint;
RECTL DestRect;
EXLATEOBJ exlo;
PPALETTE ppalDDB, ppalDIB;
//RGBQUAD *lpRGB;
HPALETTE DIB_Palette;
ULONG DIB_Palette_Type;
INT DIBWidth;
// Check parameters
if (!(bitmap = SURFACE_LockSurface(hBitmap)))
{
return 0;
}
// Get RGB values
//if (ColorUse == DIB_PAL_COLORS)
// lpRGB = DIB_MapPaletteColors(hDC, bmi);
//else
// lpRGB = &bmi->bmiColors;
DestSurf = &bitmap->SurfObj;
// Create source surface
SourceSize.cx = bmi->bmiHeader.biWidth;
SourceSize.cy = ScanLines;
// Determine width of DIB
DIBWidth = DIB_GetDIBWidthBytes(SourceSize.cx, bmi->bmiHeader.biBitCount);
SourceBitmap = EngCreateBitmap(SourceSize,
DIBWidth,
BitmapFormat(bmi->bmiHeader.biBitCount, bmi->bmiHeader.biCompression),
bmi->bmiHeader.biHeight < 0 ? BMF_TOPDOWN : 0,
(PVOID) Bits);
if (0 == SourceBitmap)
{
SURFACE_UnlockSurface(bitmap);
SetLastWin32Error(ERROR_NO_SYSTEM_RESOURCES);
return 0;
}
SourceSurf = EngLockSurface((HSURF)SourceBitmap);
if (NULL == SourceSurf)
{
EngDeleteSurface((HSURF)SourceBitmap);
SURFACE_UnlockSurface(bitmap);
SetLastWin32Error(ERROR_NO_SYSTEM_RESOURCES);
return 0;
}
if (bitmap->ppal)
{
ppalDDB = bitmap->ppal;
GDIOBJ_IncrementShareCount(&ppalDDB->BaseObject);
}
else
// Destination palette obtained from the hDC
ppalDDB = PALETTE_ShareLockPalette(DC->ppdev->devinfo.hpalDefault);
if (NULL == ppalDDB)
{
EngUnlockSurface(SourceSurf);
EngDeleteSurface((HSURF)SourceBitmap);
SURFACE_UnlockSurface(bitmap);
SetLastWin32Error(ERROR_INVALID_HANDLE);
return 0;
}
// Source palette obtained from the BITMAPINFO
DIB_Palette = BuildDIBPalette((PBITMAPINFO)bmi, (PINT)&DIB_Palette_Type);
if (NULL == DIB_Palette)
{
EngUnlockSurface(SourceSurf);
EngDeleteSurface((HSURF)SourceBitmap);
SURFACE_UnlockSurface(bitmap);
PALETTE_ShareUnlockPalette(ppalDDB);
SetLastWin32Error(ERROR_NO_SYSTEM_RESOURCES);
return 0;
}
ppalDIB = PALETTE_LockPalette(DIB_Palette);
/* Initialize XLATEOBJ for color translation */
EXLATEOBJ_vInitialize(&exlo, ppalDIB, ppalDDB, 0, 0, 0);
// Zero point
ZeroPoint.x = 0;
ZeroPoint.y = 0;
// Determine destination rectangle
DestRect.left = 0;
DestRect.top = abs(bmi->bmiHeader.biHeight) - StartScan - ScanLines;
DestRect.right = SourceSize.cx;
DestRect.bottom = DestRect.top + ScanLines;
copyBitsResult = IntEngCopyBits(DestSurf, SourceSurf, NULL, &exlo.xlo, &DestRect, &ZeroPoint);
// If it succeeded, return number of scanlines copies
if (copyBitsResult == TRUE)
{
result = SourceSize.cy;
// or
// result = abs(bmi->bmiHeader.biHeight) - StartScan;
}
// Clean up
EXLATEOBJ_vCleanup(&exlo);
PALETTE_UnlockPalette(ppalDIB);
PALETTE_ShareUnlockPalette(ppalDDB);
PALETTE_FreePaletteByHandle(DIB_Palette);
EngUnlockSurface(SourceSurf);
EngDeleteSurface((HSURF)SourceBitmap);
// if (ColorUse == DIB_PAL_COLORS)
// WinFree((LPSTR)lpRGB);
SURFACE_UnlockSurface(bitmap);
return result;
}
// FIXME by Removing NtGdiSetDIBits!!!
// This is a victim of the Win32k Initialization BUG!!!!!
// Converts a DIB to a device-dependent bitmap
INT
APIENTRY
NtGdiSetDIBits(
HDC hDC,
HBITMAP hBitmap,
UINT StartScan,
UINT ScanLines,
CONST VOID *Bits,
CONST BITMAPINFO *bmi,
UINT ColorUse)
{
PDC Dc;
INT Ret;
NTSTATUS Status = STATUS_SUCCESS;
UINT cjBits;
if (!Bits) return 0;
_SEH2_TRY
{ // FYI: We converted from CORE in gdi.
ProbeForRead(bmi, sizeof(BITMAPINFO), 1);
cjBits = bmi->bmiHeader.biBitCount * bmi->bmiHeader.biPlanes * bmi->bmiHeader.biWidth;
cjBits = ((cjBits + 31) & ~31) / 8;
cjBits *= ScanLines;
ProbeForRead(Bits, cjBits, 1);
}
_SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
{
Status = _SEH2_GetExceptionCode();
}
_SEH2_END
if (!NT_SUCCESS(Status))
{
return 0;
}
Dc = DC_LockDc(hDC);
if (NULL == Dc)
{
SetLastWin32Error(ERROR_INVALID_HANDLE);
return 0;
}
if (Dc->dctype == DC_TYPE_INFO)
{
DC_UnlockDc(Dc);
return 0;
}
Ret = IntSetDIBits(Dc, hBitmap, StartScan, ScanLines, Bits, bmi, ColorUse);
DC_UnlockDc(Dc);
return Ret;
}
W32KAPI
INT
APIENTRY
NtGdiSetDIBitsToDeviceInternal(
IN HDC hDC,
IN INT XDest,
IN INT YDest,
IN DWORD Width,
IN DWORD Height,
IN INT XSrc,
IN INT YSrc,
IN DWORD StartScan,
IN DWORD ScanLines,
IN LPBYTE Bits,
IN LPBITMAPINFO bmi,
IN DWORD ColorUse,
IN UINT cjMaxBits,
IN UINT cjMaxInfo,
IN BOOL bTransformCoordinates,
IN OPTIONAL HANDLE hcmXform)
{
INT ret = 0;
NTSTATUS Status = STATUS_SUCCESS;
PDC pDC;
HBITMAP hSourceBitmap = NULL;
SURFOBJ *pDestSurf, *pSourceSurf = NULL;
SURFACE *pSurf;
RECTL rcDest;
POINTL ptSource;
INT DIBWidth;
SIZEL SourceSize;
EXLATEOBJ exlo;
PPALETTE ppalDDB = NULL, ppalDIB = NULL;
HPALETTE hpalDIB = NULL;
ULONG DIBPaletteType;
if (!Bits) return 0;
_SEH2_TRY
{
ProbeForRead(bmi, cjMaxInfo , 1);
ProbeForRead(Bits, cjMaxBits, 1);
}
_SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
{
Status = _SEH2_GetExceptionCode();
}
_SEH2_END
if (!NT_SUCCESS(Status))
{
return 0;
}
pDC = DC_LockDc(hDC);
if (!pDC)
{
SetLastWin32Error(ERROR_INVALID_HANDLE);
return 0;
}
if (pDC->dctype == DC_TYPE_INFO)
{
DC_UnlockDc(pDC);
return 0;
}
pSurf = pDC->dclevel.pSurface;
pDestSurf = pSurf ? &pSurf->SurfObj : NULL;
ScanLines = min(ScanLines, abs(bmi->bmiHeader.biHeight) - StartScan);
rcDest.left = XDest;
rcDest.top = YDest;
if (bTransformCoordinates)
{
CoordLPtoDP(pDC, (LPPOINT)&rcDest);
}
rcDest.left += pDC->ptlDCOrig.x;
rcDest.top += pDC->ptlDCOrig.y;
rcDest.right = rcDest.left + Width;
rcDest.bottom = rcDest.top + Height;
rcDest.top += StartScan;
ptSource.x = XSrc;
ptSource.y = YSrc;
SourceSize.cx = bmi->bmiHeader.biWidth;
SourceSize.cy = ScanLines;
DIBWidth = DIB_GetDIBWidthBytes(SourceSize.cx, bmi->bmiHeader.biBitCount);
hSourceBitmap = EngCreateBitmap(SourceSize,
DIBWidth,
BitmapFormat(bmi->bmiHeader.biBitCount, bmi->bmiHeader.biCompression),
bmi->bmiHeader.biHeight < 0 ? BMF_TOPDOWN : 0,
(PVOID) Bits);
if (!hSourceBitmap)
{
SetLastWin32Error(ERROR_NO_SYSTEM_RESOURCES);
Status = STATUS_NO_MEMORY;
goto Exit;
}
pSourceSurf = EngLockSurface((HSURF)hSourceBitmap);
if (!pSourceSurf)
{
Status = STATUS_UNSUCCESSFUL;
goto Exit;
}
/* Obtain destination palette */
if (pSurf && pSurf->ppal)
{
ppalDDB = pSurf->ppal;
GDIOBJ_IncrementShareCount(&ppalDDB->BaseObject);
}
else
ppalDDB = PALETTE_ShareLockPalette(pDC->ppdev->devinfo.hpalDefault);
if (!ppalDDB)
{
SetLastWin32Error(ERROR_INVALID_HANDLE);
Status = STATUS_UNSUCCESSFUL;
goto Exit;
}
/* Create a palette for the DIB */
hpalDIB = BuildDIBPalette(bmi, (PINT)&DIBPaletteType);
if (!hpalDIB)
{
SetLastWin32Error(ERROR_NO_SYSTEM_RESOURCES);
Status = STATUS_NO_MEMORY;
goto Exit;
}
/* Lock the DIB palette */
ppalDIB = PALETTE_LockPalette(hpalDIB);
if (!ppalDIB)
{
SetLastWin32Error(ERROR_INVALID_HANDLE);
Status = STATUS_UNSUCCESSFUL;
goto Exit;
}
/* Initialize EXLATEOBJ */
EXLATEOBJ_vInitialize(&exlo, ppalDIB, ppalDDB, 0, 0, 0);
/* Copy the bits */
DPRINT("BitsToDev with dstsurf=(%d|%d) (%d|%d), src=(%d|%d) w=%d h=%d\n",
rcDest.left, rcDest.top, rcDest.right, rcDest.bottom,
ptSource.x, ptSource.y, SourceSize.cx, SourceSize.cy);
Status = IntEngBitBlt(pDestSurf,
pSourceSurf,
NULL,
pDC->rosdc.CombinedClip,
&exlo.xlo,
&rcDest,
&ptSource,
NULL,
NULL,
NULL,
ROP3_TO_ROP4(SRCCOPY));
/* Cleanup EXLATEOBJ */
EXLATEOBJ_vCleanup(&exlo);
Exit:
if (NT_SUCCESS(Status))
{
ret = ScanLines;
}
if (ppalDIB) PALETTE_UnlockPalette(ppalDIB);
if (ppalDDB) PALETTE_ShareUnlockPalette(ppalDDB);
if (pSourceSurf) EngUnlockSurface(pSourceSurf);
if (hSourceBitmap) EngDeleteSurface((HSURF)hSourceBitmap);
if (hpalDIB) PALETTE_FreePaletteByHandle(hpalDIB);
DC_UnlockDc(pDC);
return ret;
}
/* Converts a device-dependent bitmap to a DIB */
INT
APIENTRY
NtGdiGetDIBitsInternal(
HDC hDC,
HBITMAP hBitmap,
UINT StartScan,
UINT ScanLines,
LPBYTE Bits,
LPBITMAPINFO Info,
UINT Usage,
UINT MaxBits,
UINT MaxInfo)
{
PDC Dc;
SURFACE *psurf = NULL;
HBITMAP hDestBitmap = NULL;
HPALETTE hDestPalette = NULL;
PPALETTE ppalSrc = NULL;
PPALETTE ppalDst = NULL;
NTSTATUS Status = STATUS_SUCCESS;
ULONG Result = 0;
BOOL bPaletteMatch = FALSE;
PBYTE ChkBits = Bits;
PVOID ColorPtr;
RGBQUAD *rgbQuads;
ULONG DestPaletteType;
ULONG Index;
DPRINT("Entered NtGdiGetDIBitsInternal()\n");
if ((Usage && Usage != DIB_PAL_COLORS) || !Info || !hBitmap)
return 0;
// if ScanLines == 0, no need to copy Bits.
if (!ScanLines)
ChkBits = NULL;
_SEH2_TRY
{
ProbeForRead(&Info->bmiHeader.biSize, sizeof(DWORD), 1);
ProbeForWrite(Info, Info->bmiHeader.biSize, 1); // Comp for Core.
if (ChkBits) ProbeForWrite(ChkBits, MaxBits, 1);
}
_SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
{
Status = _SEH2_GetExceptionCode();
}
_SEH2_END
if (!NT_SUCCESS(Status))
{
return 0;
}
Dc = DC_LockDc(hDC);
if (Dc == NULL) return 0;
if (Dc->dctype == DC_TYPE_INFO)
{
DC_UnlockDc(Dc);
return 0;
}
/* Get a pointer to the source bitmap object */
psurf = SURFACE_LockSurface(hBitmap);
if (psurf == NULL)
{
DC_UnlockDc(Dc);
return 0;
}
if (psurf->ppal)
{
ppalSrc = psurf->ppal;
GDIOBJ_IncrementShareCount(&ppalSrc->BaseObject);
}
else
ppalSrc = PALETTE_ShareLockPalette(Dc->ppdev->devinfo.hpalDefault);
DC_UnlockDc(Dc);
ASSERT(ppalSrc != NULL);
ColorPtr = ((PBYTE)Info + Info->bmiHeader.biSize);
rgbQuads = (RGBQUAD *)ColorPtr;
/* Copy palette information
* Always create a palette for 15 & 16 bit. */
if ((Info->bmiHeader.biBitCount == BitsPerFormat(psurf->SurfObj.iBitmapFormat) &&
Info->bmiHeader.biBitCount != 15 && Info->bmiHeader.biBitCount != 16) ||
!ChkBits)
{
ppalDst = ppalSrc;
bPaletteMatch = TRUE;
}
else
hDestPalette = BuildDIBPalette(Info, (PINT)&DestPaletteType); //hDestPalette = Dc->DevInfo->hpalDefault;
if (!bPaletteMatch)
{
ppalDst = PALETTE_LockPalette(hDestPalette);
/* FIXME - ppalDst can be NULL!!!! Don't assert here!!! */
DPRINT("ppalDst : %p\n", ppalDst);
ASSERT(ppalDst);
}
/* Copy palette. */
/* FIXME: This is largely incomplete. ATM no Core!*/
switch (Info->bmiHeader.biBitCount)
{
case 1:
case 4:
case 8:
Info->bmiHeader.biClrUsed = 0;
if (psurf->hSecure &&
BitsPerFormat(psurf->SurfObj.iBitmapFormat) == Info->bmiHeader.biBitCount)
{
if (Usage == DIB_RGB_COLORS)
{
if (ppalDst->NumColors != 1 << Info->bmiHeader.biBitCount)
Info->bmiHeader.biClrUsed = ppalDst->NumColors;
for (Index = 0;
Index < (1 << Info->bmiHeader.biBitCount) && Index < ppalDst->NumColors;
Index++)
{
rgbQuads[Index].rgbRed = ppalDst->IndexedColors[Index].peRed;
rgbQuads[Index].rgbGreen = ppalDst->IndexedColors[Index].peGreen;
rgbQuads[Index].rgbBlue = ppalDst->IndexedColors[Index].peBlue;
rgbQuads[Index].rgbReserved = 0;
}
}
else
{
PWORD Ptr = ColorPtr;
for (Index = 0;
Index < (1 << Info->bmiHeader.biBitCount);
Index++)
{
Ptr[Index] = (WORD)Index;
}
}
}
else
{
if (Usage == DIB_PAL_COLORS)
{
PWORD Ptr = ColorPtr;
for (Index = 0;
Index < (1 << Info->bmiHeader.biBitCount);
Index++)
{
Ptr[Index] = (WORD)Index;
}
}
else if (Info->bmiHeader.biBitCount > 1 && bPaletteMatch)
{
for (Index = 0;
Index < (1 << Info->bmiHeader.biBitCount) && Index < ppalDst->NumColors;
Index++)
{
Info->bmiColors[Index].rgbRed = ppalDst->IndexedColors[Index].peRed;
Info->bmiColors[Index].rgbGreen = ppalDst->IndexedColors[Index].peGreen;
Info->bmiColors[Index].rgbBlue = ppalDst->IndexedColors[Index].peBlue;
Info->bmiColors[Index].rgbReserved = 0;
}
}
else
{
switch (Info->bmiHeader.biBitCount)
{
case 1:
rgbQuads[0].rgbRed = rgbQuads[0].rgbGreen = rgbQuads[0].rgbBlue = 0;
rgbQuads[0].rgbReserved = 0;
rgbQuads[1].rgbRed = rgbQuads[1].rgbGreen = rgbQuads[1].rgbBlue = 0xff;
rgbQuads[1].rgbReserved = 0;
break;
case 4:
RtlCopyMemory(ColorPtr, EGAColorsQuads, sizeof(EGAColorsQuads));
break;
case 8:
{
INT r, g, b;
RGBQUAD *color;
RtlCopyMemory(rgbQuads, DefLogPaletteQuads, 10 * sizeof(RGBQUAD));
RtlCopyMemory(rgbQuads + 246, DefLogPaletteQuads + 10, 10 * sizeof(RGBQUAD));
color = rgbQuads + 10;
for (r = 0; r <= 5; r++) /* FIXME */
for (g = 0; g <= 5; g++)
for (b = 0; b <= 5; b++)
{
color->rgbRed = (r * 0xff) / 5;
color->rgbGreen = (g * 0xff) / 5;
color->rgbBlue = (b * 0xff) / 5;
color->rgbReserved = 0;
color++;
}
}
break;
}
}
}
case 15:
if (Info->bmiHeader.biCompression == BI_BITFIELDS)
{
((PDWORD)Info->bmiColors)[0] = 0x7c00;
((PDWORD)Info->bmiColors)[1] = 0x03e0;
((PDWORD)Info->bmiColors)[2] = 0x001f;
}
break;
case 16:
if (Info->bmiHeader.biCompression == BI_BITFIELDS)
{
((PDWORD)Info->bmiColors)[0] = 0xf800;
((PDWORD)Info->bmiColors)[1] = 0x07e0;
((PDWORD)Info->bmiColors)[2] = 0x001f;
}
break;
case 24:
case 32:
if (Info->bmiHeader.biCompression == BI_BITFIELDS)
{
((PDWORD)Info->bmiColors)[0] = 0xff0000;
((PDWORD)Info->bmiColors)[1] = 0x00ff00;
((PDWORD)Info->bmiColors)[2] = 0x0000ff;
}
break;
}
if (!bPaletteMatch)
PALETTE_UnlockPalette(ppalDst);
/* fill out the BITMAPINFO struct */
if (!ChkBits)
{ // Core or not to Core? We have converted from Core in Gdi~ so?
if (Info->bmiHeader.biSize == sizeof(BITMAPCOREHEADER))
{
BITMAPCOREHEADER* coreheader = (BITMAPCOREHEADER*) Info;
coreheader->bcWidth = psurf->SurfObj.sizlBitmap.cx;
coreheader->bcPlanes = 1;
coreheader->bcBitCount = BitsPerFormat(psurf->SurfObj.iBitmapFormat);
coreheader->bcHeight = psurf->SurfObj.sizlBitmap.cy;
if (psurf->SurfObj.lDelta > 0)
coreheader->bcHeight = -coreheader->bcHeight;
}
if (Info->bmiHeader.biSize >= sizeof(BITMAPINFOHEADER))
{
Info->bmiHeader.biWidth = psurf->SurfObj.sizlBitmap.cx;
Info->bmiHeader.biHeight = psurf->SurfObj.sizlBitmap.cy;
Info->bmiHeader.biPlanes = 1;
Info->bmiHeader.biBitCount = BitsPerFormat(psurf->SurfObj.iBitmapFormat);
switch (psurf->SurfObj.iBitmapFormat)
{
/* FIXME: What about BI_BITFIELDS? */
case BMF_1BPP:
case BMF_4BPP:
case BMF_8BPP:
case BMF_16BPP:
case BMF_24BPP:
case BMF_32BPP:
Info->bmiHeader.biCompression = BI_RGB;
break;
case BMF_4RLE:
Info->bmiHeader.biCompression = BI_RLE4;
break;
case BMF_8RLE:
Info->bmiHeader.biCompression = BI_RLE8;
break;
case BMF_JPEG:
Info->bmiHeader.biCompression = BI_JPEG;
break;
case BMF_PNG:
Info->bmiHeader.biCompression = BI_PNG;
break;
}
/* Image size has to be calculated */
Info->bmiHeader.biSizeImage = DIB_GetDIBWidthBytes(Info->bmiHeader.biWidth,
Info->bmiHeader.biBitCount) * Info->bmiHeader.biHeight;
Info->bmiHeader.biXPelsPerMeter = 0; /* FIXME */
Info->bmiHeader.biYPelsPerMeter = 0; /* FIXME */
Info->bmiHeader.biClrUsed = 0;
Info->bmiHeader.biClrImportant = 1 << Info->bmiHeader.biBitCount; /* FIXME */
/* Report negtive height for top-down bitmaps. */
if (psurf->SurfObj.lDelta > 0)
Info->bmiHeader.biHeight = -Info->bmiHeader.biHeight;
}
Result = psurf->SurfObj.sizlBitmap.cy;
}
else
{
SIZEL DestSize;
POINTL SourcePoint;
//
// If we have a good dib pointer, why not just copy bits from there w/o XLATE'ing them.
//
/* Create the destination bitmap too for the copy operation */
if (StartScan > psurf->SurfObj.sizlBitmap.cy)
{
goto cleanup;
}
else
{
ScanLines = min(ScanLines, psurf->SurfObj.sizlBitmap.cy - StartScan);
DestSize.cx = psurf->SurfObj.sizlBitmap.cx;
DestSize.cy = ScanLines;
hDestBitmap = NULL;
if (Info->bmiHeader.biSize == sizeof(BITMAPCOREHEADER))
{
BITMAPCOREHEADER* coreheader = (BITMAPCOREHEADER*) Info;
hDestBitmap = EngCreateBitmap(DestSize,
DIB_GetDIBWidthBytes(DestSize.cx, coreheader->bcBitCount),
BitmapFormat(coreheader->bcBitCount, BI_RGB),
0 < coreheader->bcHeight ? 0 : BMF_TOPDOWN,
Bits);
}
if (Info->bmiHeader.biSize >= sizeof(BITMAPINFOHEADER))
{
Info->bmiHeader.biSizeImage = DIB_GetDIBWidthBytes(DestSize.cx,
Info->bmiHeader.biBitCount) * DestSize.cy;
hDestBitmap = EngCreateBitmap(DestSize,
DIB_GetDIBWidthBytes(DestSize.cx, Info->bmiHeader.biBitCount),
BitmapFormat(Info->bmiHeader.biBitCount, Info->bmiHeader.biCompression),
0 < Info->bmiHeader.biHeight ? 0 : BMF_TOPDOWN,
Bits);
}
if (hDestBitmap == NULL)
goto cleanup;
}
if (NT_SUCCESS(Status))
{
EXLATEOBJ exlo;
SURFOBJ *DestSurfObj;
RECTL DestRect;
EXLATEOBJ_vInitialize(&exlo, ppalSrc, ppalDst, 0, 0, 0);
SourcePoint.x = 0;
SourcePoint.y = psurf->SurfObj.sizlBitmap.cy - (StartScan + ScanLines);
/* Determine destination rectangle */
DestRect.top = 0;
DestRect.left = 0;
DestRect.right = DestSize.cx;
DestRect.bottom = DestSize.cy;
DestSurfObj = EngLockSurface((HSURF)hDestBitmap);
if (IntEngCopyBits(DestSurfObj,
&psurf->SurfObj,
NULL,
&exlo.xlo,
&DestRect,
&SourcePoint))
{
DPRINT("GetDIBits %d \n",abs(Info->bmiHeader.biHeight) - StartScan);
Result = ScanLines;
}
EXLATEOBJ_vCleanup(&exlo);
EngUnlockSurface(DestSurfObj);
}
}
cleanup:
PALETTE_ShareUnlockPalette(ppalSrc);
if (hDestBitmap != NULL)
EngDeleteSurface((HSURF)hDestBitmap);
if (hDestPalette != NULL && bPaletteMatch == FALSE)
PALETTE_FreePaletteByHandle(hDestPalette);
SURFACE_UnlockSurface(psurf);
DPRINT("leaving NtGdiGetDIBitsInternal\n");
return Result;
}
INT
APIENTRY
NtGdiStretchDIBitsInternal(
HDC hDC,
INT XDest,
INT YDest,
INT DestWidth,
INT DestHeight,
INT XSrc,
INT YSrc,
INT SrcWidth,
INT SrcHeight,
LPBYTE Bits,
LPBITMAPINFO BitsInfo,
DWORD Usage,
DWORD ROP,
UINT cjMaxInfo,
UINT cjMaxBits,
HANDLE hcmXform)
{
HBITMAP hBitmap, hOldBitmap = NULL;
HDC hdcMem;
HPALETTE hPal = NULL;
PDC pDC;
BOOL Hit = FALSE;
if (!Bits || !BitsInfo)
{
SetLastWin32Error(ERROR_INVALID_PARAMETER);
return 0;
}
_SEH2_TRY
{
ProbeForRead(BitsInfo, cjMaxInfo, 1);
ProbeForRead(Bits, cjMaxBits, 1);
}
_SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
{
Hit = TRUE;
}
_SEH2_END
if (Hit)
{
DPRINT1("NtGdiStretchDIBitsInternal fail to read BitMapInfo: %x or Bits: %x\n",BitsInfo,Bits);
return 0;
}
hdcMem = NtGdiCreateCompatibleDC(hDC);
if (hdcMem == NULL)
{
DPRINT1("NtGdiCreateCompatibleDC fail create hdc\n");
return 0;
}
hBitmap = NtGdiCreateCompatibleBitmap(hDC,
abs(BitsInfo->bmiHeader.biWidth),
abs(BitsInfo->bmiHeader.biHeight));
if (hBitmap == NULL)
{
DPRINT1("NtGdiCreateCompatibleBitmap fail create bitmap\n");
DPRINT1("hDC : 0x%08x \n", hDC);
DPRINT1("BitsInfo->bmiHeader.biWidth : 0x%08x \n", BitsInfo->bmiHeader.biWidth);
DPRINT1("BitsInfo->bmiHeader.biHeight : 0x%08x \n", BitsInfo->bmiHeader.biHeight);
return 0;
}
/* Select the bitmap into hdcMem, and save a handle to the old bitmap */
hOldBitmap = NtGdiSelectBitmap(hdcMem, hBitmap);
if (Usage == DIB_PAL_COLORS)
{
hPal = NtGdiGetDCObject(hDC, GDI_OBJECT_TYPE_PALETTE);
hPal = GdiSelectPalette(hdcMem, hPal, FALSE);
}
if (BitsInfo->bmiHeader.biCompression == BI_RLE4 ||
BitsInfo->bmiHeader.biCompression == BI_RLE8)
{
/* copy existing bitmap from destination dc */
if (SrcWidth == DestWidth && SrcHeight == DestHeight)
NtGdiBitBlt(hdcMem, XSrc, abs(BitsInfo->bmiHeader.biHeight) - SrcHeight - YSrc,
SrcWidth, SrcHeight, hDC, XDest, YDest, ROP, 0, 0);
else
NtGdiStretchBlt(hdcMem, XSrc, abs(BitsInfo->bmiHeader.biHeight) - SrcHeight - YSrc,
SrcWidth, SrcHeight, hDC, XDest, YDest, DestWidth, DestHeight,
ROP, 0);
}
pDC = DC_LockDc(hdcMem);
if (pDC != NULL)
{
/* Note BitsInfo->bmiHeader.biHeight is the number of scanline,
* if it negitve we getting to many scanline for scanline is UINT not
* a INT, so we need make the negtive value to positve and that make the
* count correct for negtive bitmap, TODO : we need testcase for this api */
IntSetDIBits(pDC, hBitmap, 0, abs(BitsInfo->bmiHeader.biHeight), Bits,
BitsInfo, Usage);
DC_UnlockDc(pDC);
}
/* Origin for DIBitmap may be bottom left (positive biHeight) or top
left (negative biHeight) */
if (SrcWidth == DestWidth && SrcHeight == DestHeight)
NtGdiBitBlt(hDC, XDest, YDest, DestWidth, DestHeight,
hdcMem, XSrc, abs(BitsInfo->bmiHeader.biHeight) - SrcHeight - YSrc,
ROP, 0, 0);
else
NtGdiStretchBlt(hDC, XDest, YDest, DestWidth, DestHeight,
hdcMem, XSrc, abs(BitsInfo->bmiHeader.biHeight) - SrcHeight - YSrc,
SrcWidth, SrcHeight, ROP, 0);
/* cleanup */
if (hPal)
GdiSelectPalette(hdcMem, hPal, FALSE);
if (hOldBitmap)
NtGdiSelectBitmap(hdcMem, hOldBitmap);
NtGdiDeleteObjectApp(hdcMem);
GreDeleteObject(hBitmap);
return SrcHeight;
}
HBITMAP
FASTCALL
IntCreateDIBitmap(
PDC Dc,
INT width,
INT height,
UINT bpp,
DWORD init,
LPBYTE bits,
PBITMAPINFO data,
DWORD coloruse)
{
HBITMAP handle;
BOOL fColor;
// Check if we should create a monochrome or color bitmap. We create a monochrome bitmap only if it has exactly 2
// colors, which are black followed by white, nothing else. In all other cases, we create a color bitmap.
if (bpp != 1) fColor = TRUE;
else if ((coloruse != DIB_RGB_COLORS) || (init != CBM_INIT) || !data) fColor = FALSE;
else
{
if (data->bmiHeader.biSize == sizeof(BITMAPINFOHEADER))
{
const RGBQUAD *rgb = data->bmiColors;
DWORD col = RGB(rgb->rgbRed, rgb->rgbGreen, rgb->rgbBlue);
// Check if the first color of the colormap is black
if ((col == RGB(0, 0, 0)))
{
rgb++;
col = RGB(rgb->rgbRed, rgb->rgbGreen, rgb->rgbBlue);
// If the second color is white, create a monochrome bitmap
fColor = (col != RGB(0xff,0xff,0xff));
}
else fColor = TRUE;
}
else if (data->bmiHeader.biSize == sizeof(BITMAPCOREHEADER))
{
RGBTRIPLE *rgb = ((BITMAPCOREINFO *)data)->bmciColors;
DWORD col = RGB(rgb->rgbtRed, rgb->rgbtGreen, rgb->rgbtBlue);
if ((col == RGB(0,0,0)))
{
rgb++;
col = RGB(rgb->rgbtRed, rgb->rgbtGreen, rgb->rgbtBlue);
fColor = (col != RGB(0xff,0xff,0xff));
}
else fColor = TRUE;
}
else
{
DPRINT("(%ld): wrong size for data\n", data->bmiHeader.biSize);
return 0;
}
}
// Now create the bitmap
if (fColor)
{
handle = IntCreateCompatibleBitmap(Dc, width, height);
}
else
{
handle = IntGdiCreateBitmap(width,
height,
1,
1,
NULL);
}
if (height < 0)
height = -height;
if (NULL != handle && CBM_INIT == init)
{
IntSetDIBits(Dc, handle, 0, height, bits, data, coloruse);
}
return handle;
}
// The CreateDIBitmap function creates a device-dependent bitmap (DDB) from a DIB and, optionally, sets the bitmap bits
// The DDB that is created will be whatever bit depth your reference DC is
HBITMAP
APIENTRY
NtGdiCreateDIBitmapInternal(
IN HDC hDc,
IN INT cx,
IN INT cy,
IN DWORD fInit,
IN OPTIONAL LPBYTE pjInit,
IN OPTIONAL LPBITMAPINFO pbmi,
IN DWORD iUsage,
IN UINT cjMaxInitInfo,
IN UINT cjMaxBits,
IN FLONG fl,
IN HANDLE hcmXform)
{
PDC Dc;
HBITMAP Bmp;
UINT bpp;
if (!hDc) // CreateBitmap
{ // Should use System Bitmap DC hSystemBM, with CreateCompatibleDC for this.
hDc = IntGdiCreateDC(NULL, NULL, NULL, NULL,FALSE);
if (!hDc)
{
SetLastWin32Error(ERROR_INVALID_HANDLE);
return NULL;
}
Dc = DC_LockDc(hDc);
if (!Dc)
{
NtGdiDeleteObjectApp(hDc);
SetLastWin32Error(ERROR_INVALID_HANDLE);
return NULL;
}
bpp = 1;
Bmp = IntCreateDIBitmap(Dc, cx, cy, bpp, fInit, pjInit, pbmi, iUsage);
DC_UnlockDc(Dc);
NtGdiDeleteObjectApp(hDc);
}
else // CreateCompatibleBitmap
{
Dc = DC_LockDc(hDc);
if (!Dc)
{
SetLastWin32Error(ERROR_INVALID_HANDLE);
return NULL;
}
/* pbmi == null
First create an un-initialised bitmap. The depth of the bitmap
should match that of the hdc and not that supplied in bmih.
*/
if (pbmi)
bpp = pbmi->bmiHeader.biBitCount;
else
{
if (Dc->dctype != DC_TYPE_MEMORY)
bpp = Dc->ppdev->gdiinfo.cBitsPixel;
else
{
DIBSECTION dibs;
INT Count;
SURFACE *psurf = Dc->dclevel.pSurface;
Count = BITMAP_GetObject(psurf, sizeof(dibs), &dibs);
if (!Count)
bpp = 1;
else
{
if (Count == sizeof(BITMAP))
/* A device-dependent bitmap is selected in the DC */
bpp = dibs.dsBm.bmBitsPixel;
else
/* A DIB section is selected in the DC */
bpp = dibs.dsBmih.biBitCount;
}
}
}
Bmp = IntCreateDIBitmap(Dc, cx, cy, bpp, fInit, pjInit, pbmi, iUsage);
DC_UnlockDc(Dc);
}
return Bmp;
}
HBITMAP
APIENTRY
NtGdiCreateDIBSection(
IN HDC hDC,
IN OPTIONAL HANDLE hSection,
IN DWORD dwOffset,
IN LPBITMAPINFO bmi,
IN DWORD Usage,
IN UINT cjHeader,
IN FLONG fl,
IN ULONG_PTR dwColorSpace,
OUT PVOID *Bits)
{
HBITMAP hbitmap = 0;
DC *dc;
BOOL bDesktopDC = FALSE;
if (!bmi) return hbitmap; // Make sure.
// If the reference hdc is null, take the desktop dc
if (hDC == 0)
{
hDC = NtGdiCreateCompatibleDC(0);
bDesktopDC = TRUE;
}
if ((dc = DC_LockDc(hDC)))
{
hbitmap = DIB_CreateDIBSection(dc,
(BITMAPINFO*)bmi,
Usage,
Bits,
hSection,
dwOffset,
0);
DC_UnlockDc(dc);
}
else
{
SetLastWin32Error(ERROR_INVALID_HANDLE);
}
if (bDesktopDC)
NtGdiDeleteObjectApp(hDC);
return hbitmap;
}
HBITMAP
APIENTRY
DIB_CreateDIBSection(
PDC dc,
BITMAPINFO *bmi,
UINT usage,
LPVOID *bits,
HANDLE section,
DWORD offset,
DWORD ovr_pitch)
{
HBITMAP res = 0;
SURFACE *bmp = NULL;
void *mapBits = NULL;
PDC_ATTR pdcattr;
HPALETTE hpal ;
// Fill BITMAP32 structure with DIB data
BITMAPINFOHEADER *bi = &bmi->bmiHeader;
INT effHeight;
ULONG totalSize;
BITMAP bm;
SIZEL Size;
RGBQUAD *lpRGB;
HANDLE hSecure;
DWORD dsBitfields[3] = {0};
ULONG ColorCount;
DPRINT("format (%ld,%ld), planes %d, bpp %d, size %ld, colors %ld (%s)\n",
bi->biWidth, bi->biHeight, bi->biPlanes, bi->biBitCount,
bi->biSizeImage, bi->biClrUsed, usage == DIB_PAL_COLORS? "PAL" : "RGB");
/* CreateDIBSection should fail for compressed formats */
if (bi->biCompression == BI_RLE4 || bi->biCompression == BI_RLE8)
{
return (HBITMAP)NULL;
}
pdcattr = dc->pdcattr;
effHeight = bi->biHeight >= 0 ? bi->biHeight : -bi->biHeight;
bm.bmType = 0;
bm.bmWidth = bi->biWidth;
bm.bmHeight = effHeight;
bm.bmWidthBytes = ovr_pitch ? ovr_pitch : (ULONG) DIB_GetDIBWidthBytes(bm.bmWidth, bi->biBitCount);
bm.bmPlanes = bi->biPlanes;
bm.bmBitsPixel = bi->biBitCount;
bm.bmBits = NULL;
// Get storage location for DIB bits. Only use biSizeImage if it's valid and
// we're dealing with a compressed bitmap. Otherwise, use width * height.
totalSize = bi->biSizeImage && bi->biCompression != BI_RGB
? bi->biSizeImage : (ULONG)(bm.bmWidthBytes * effHeight);
if (section)
{
SYSTEM_BASIC_INFORMATION Sbi;
NTSTATUS Status;
DWORD mapOffset;
LARGE_INTEGER SectionOffset;
SIZE_T mapSize;
Status = ZwQuerySystemInformation(SystemBasicInformation,
&Sbi,
sizeof Sbi,
0);
if (!NT_SUCCESS(Status))
{
return NULL;
}
mapOffset = offset - (offset % Sbi.AllocationGranularity);
mapSize = bi->biSizeImage + (offset - mapOffset);
SectionOffset.LowPart = mapOffset;
SectionOffset.HighPart = 0;
Status = ZwMapViewOfSection(section,
NtCurrentProcess(),
&mapBits,
0,
0,
&SectionOffset,
&mapSize,
ViewShare,
0,
PAGE_READWRITE);
if (!NT_SUCCESS(Status))
{
SetLastWin32Error(ERROR_INVALID_PARAMETER);
return NULL;
}
if (mapBits) bm.bmBits = (char *)mapBits + (offset - mapOffset);
}
else if (ovr_pitch && offset)
bm.bmBits = (LPVOID) offset;
else
{
offset = 0;
bm.bmBits = EngAllocUserMem(totalSize, 0);
}
// hSecure = MmSecureVirtualMemory(bm.bmBits, totalSize, PAGE_READWRITE);
hSecure = (HANDLE)0x1; // HACK OF UNIMPLEMENTED KERNEL STUFF !!!!
if (usage == DIB_PAL_COLORS)
{
lpRGB = DIB_MapPaletteColors(dc, bmi);
ColorCount = bi->biClrUsed;
if (ColorCount == 0)
{
ColorCount = 1 << bi->biBitCount;
}
}
else
{
lpRGB = bmi->bmiColors;
ColorCount = 1 << bi->biBitCount;
}
/* Set dsBitfields values */
if (usage == DIB_PAL_COLORS || bi->biBitCount <= 8)
{
dsBitfields[0] = dsBitfields[1] = dsBitfields[2] = 0;
}
else if (bi->biCompression == BI_RGB)
{
switch (bi->biBitCount)
{
case 15:
dsBitfields[0] = 0x7c00;
dsBitfields[1] = 0x03e0;
dsBitfields[2] = 0x001f;
break;
case 16:
dsBitfields[0] = 0xF800;
dsBitfields[1] = 0x07e0;
dsBitfields[2] = 0x001f;
break;
case 24:
case 32:
dsBitfields[0] = 0xff0000;
dsBitfields[1] = 0x00ff00;
dsBitfields[2] = 0x0000ff;
break;
}
}
else
{
dsBitfields[0] = ((DWORD*)bmi->bmiColors)[0];
dsBitfields[1] = ((DWORD*)bmi->bmiColors)[1];
dsBitfields[2] = ((DWORD*)bmi->bmiColors)[2];
}
// Create Device Dependent Bitmap and add DIB pointer
Size.cx = bm.bmWidth;
Size.cy = abs(bm.bmHeight);
res = IntCreateBitmap(Size,
bm.bmWidthBytes,
BitmapFormat(bi->biBitCount * bi->biPlanes, bi->biCompression),
BMF_DONTCACHE | BMF_USERMEM | BMF_NOZEROINIT |
(bi->biHeight < 0 ? BMF_TOPDOWN : 0),
bm.bmBits);
if (!res)
{
if (lpRGB != bmi->bmiColors)
{
ExFreePoolWithTag(lpRGB, TAG_COLORMAP);
}
SetLastWin32Error(ERROR_NO_SYSTEM_RESOURCES);
return NULL;
}
bmp = SURFACE_LockSurface(res);
if (NULL == bmp)
{
if (lpRGB != bmi->bmiColors)
{
ExFreePoolWithTag(lpRGB, TAG_COLORMAP);
}
SetLastWin32Error(ERROR_INVALID_HANDLE);
GreDeleteObject(res);
return NULL;
}
/* WINE NOTE: WINE makes use of a colormap, which is a color translation
table between the DIB and the X physical device. Obviously,
this is left out of the ReactOS implementation. Instead,
we call NtGdiSetDIBColorTable. */
if (bi->biBitCount <= 8)
{
bi->biClrUsed = 1 << bi->biBitCount;
}
else
{
bi->biClrUsed = 0;
}
bmp->hDIBSection = section;
bmp->hSecure = hSecure;
bmp->dwOffset = offset;
bmp->flFlags = BITMAPOBJ_IS_APIBITMAP;
bmp->dsBitfields[0] = dsBitfields[0];
bmp->dsBitfields[1] = dsBitfields[1];
bmp->dsBitfields[2] = dsBitfields[2];
bmp->biClrUsed = bi->biClrUsed;
bmp->biClrImportant = bi->biClrImportant;
if (bi->biClrUsed != 0)
{
hpal = PALETTE_AllocPaletteIndexedRGB(ColorCount, lpRGB);
}
else
{
hpal = PALETTE_AllocPalette(PAL_BITFIELDS, 0, NULL,
dsBitfields[0],
dsBitfields[1],
dsBitfields[2]);
}
bmp->ppal = PALETTE_ShareLockPalette(hpal);
/* Lazy delete hpal, it will be freed at surface release */
GreDeleteObject(hpal);
// Clean up in case of errors
if (!res || !bmp || !bm.bmBits)
{
DPRINT("got an error res=%08x, bmp=%p, bm.bmBits=%p\n", res, bmp, bm.bmBits);
if (bm.bmBits)
{
// MmUnsecureVirtualMemory(hSecure); // FIXME: Implement this!
if (section)
{
ZwUnmapViewOfSection(NtCurrentProcess(), mapBits);
bm.bmBits = NULL;
}
else
if (!offset)
EngFreeUserMem(bm.bmBits), bm.bmBits = NULL;
}
if (bmp)
bmp = NULL;
if (res)
{
SURFACE_FreeSurfaceByHandle(res);
res = 0;
}
}
if (lpRGB != bmi->bmiColors)
{
ExFreePoolWithTag(lpRGB, TAG_COLORMAP);
}
if (bmp)
{
SURFACE_UnlockSurface(bmp);
}
// Return BITMAP handle and storage location
if (NULL != bm.bmBits && NULL != bits)
{
*bits = bm.bmBits;
}
if (res) pdcattr->ulDirty_ |= DC_DIBSECTION;
return res;
}
/***********************************************************************
* DIB_GetDIBWidthBytes
*
* Return the width of a DIB bitmap in bytes. DIB bitmap data is 32-bit aligned.
* http://www.microsoft.com/msdn/sdk/platforms/doc/sdk/win32/struc/src/str01.htm
* 11/16/1999 (RJJ) lifted from wine
*/
INT FASTCALL DIB_GetDIBWidthBytes(INT width, INT depth)
{
return ((width * depth + 31) & ~31) >> 3;
}
/***********************************************************************
* DIB_GetDIBImageBytes
*
* Return the number of bytes used to hold the image in a DIB bitmap.
* 11/16/1999 (RJJ) lifted from wine
*/
INT APIENTRY DIB_GetDIBImageBytes(INT width, INT height, INT depth)
{
return DIB_GetDIBWidthBytes(width, depth) * (height < 0 ? -height : height);
}
/***********************************************************************
* DIB_BitmapInfoSize
*
* Return the size of the bitmap info structure including color table.
* 11/16/1999 (RJJ) lifted from wine
*/
INT FASTCALL DIB_BitmapInfoSize(const BITMAPINFO * info, WORD coloruse)
{
int colors;
if (info->bmiHeader.biSize == sizeof(BITMAPCOREHEADER))
{
BITMAPCOREHEADER *core = (BITMAPCOREHEADER *)info;
colors = (core->bcBitCount <= 8) ? 1 << core->bcBitCount : 0;
return sizeof(BITMAPCOREHEADER) + colors * ((coloruse == DIB_RGB_COLORS) ? sizeof(RGBTRIPLE) : sizeof(WORD));
}
else /* assume BITMAPINFOHEADER */
{
colors = info->bmiHeader.biClrUsed;
if (!colors && (info->bmiHeader.biBitCount <= 8)) colors = 1 << info->bmiHeader.biBitCount;
return sizeof(BITMAPINFOHEADER) + colors * ((coloruse == DIB_RGB_COLORS) ? sizeof(RGBQUAD) : sizeof(WORD));
}
}
RGBQUAD *
FASTCALL
DIB_MapPaletteColors(PDC dc, CONST BITMAPINFO* lpbmi)
{
RGBQUAD *lpRGB;
ULONG nNumColors,i;
USHORT *lpIndex;
PPALETTE palGDI;
palGDI = PALETTE_LockPalette(dc->dclevel.hpal);
if (NULL == palGDI)
{
return NULL;
}
if (palGDI->Mode != PAL_INDEXED)
{
PALETTE_UnlockPalette(palGDI);
return NULL;
}
nNumColors = 1 << lpbmi->bmiHeader.biBitCount;
if (lpbmi->bmiHeader.biClrUsed)
{
nNumColors = min(nNumColors, lpbmi->bmiHeader.biClrUsed);
}
lpRGB = (RGBQUAD *)ExAllocatePoolWithTag(PagedPool, sizeof(RGBQUAD) * nNumColors, TAG_COLORMAP);
if (lpRGB == NULL)
{
PALETTE_UnlockPalette(palGDI);
return NULL;
}
lpIndex = (USHORT *)&lpbmi->bmiColors[0];
for (i = 0; i < nNumColors; i++)
{
if (*lpIndex < palGDI->NumColors)
{
lpRGB[i].rgbRed = palGDI->IndexedColors[*lpIndex].peRed;
lpRGB[i].rgbGreen = palGDI->IndexedColors[*lpIndex].peGreen;
lpRGB[i].rgbBlue = palGDI->IndexedColors[*lpIndex].peBlue;
}
else
{
lpRGB[i].rgbRed = 0;
lpRGB[i].rgbGreen = 0;
lpRGB[i].rgbBlue = 0;
}
lpRGB[i].rgbReserved = 0;
lpIndex++;
}
PALETTE_UnlockPalette(palGDI);
return lpRGB;
}
HPALETTE
FASTCALL
BuildDIBPalette(CONST BITMAPINFO *bmi, PINT paletteType)
{
BYTE bits;
ULONG ColorCount;
PALETTEENTRY *palEntries = NULL;
HPALETTE hPal;
ULONG RedMask, GreenMask, BlueMask;
// Determine Bits Per Pixel
bits = bmi->bmiHeader.biBitCount;
// Determine paletteType from Bits Per Pixel
if (bits <= 8)
{
*paletteType = PAL_INDEXED;
RedMask = GreenMask = BlueMask = 0;
}
else if (bmi->bmiHeader.biCompression == BI_BITFIELDS)
{
*paletteType = PAL_BITFIELDS;
RedMask = ((ULONG *)bmi->bmiColors)[0];
GreenMask = ((ULONG *)bmi->bmiColors)[1];
BlueMask = ((ULONG *)bmi->bmiColors)[2];
}
else if (bits == 15)
{
*paletteType = PAL_BITFIELDS;
RedMask = 0x7c00;
GreenMask = 0x03e0;
BlueMask = 0x001f;
}
else if (bits == 16)
{
*paletteType = PAL_BITFIELDS;
RedMask = 0xF800;
GreenMask = 0x07e0;
BlueMask = 0x001f;
}
else
{
*paletteType = PAL_BGR;
RedMask = 0xff0000;
GreenMask = 0x00ff00;
BlueMask = 0x0000ff;
}
if (bmi->bmiHeader.biClrUsed == 0)
{
ColorCount = 1 << bmi->bmiHeader.biBitCount;
}
else
{
ColorCount = bmi->bmiHeader.biClrUsed;
}
if (PAL_INDEXED == *paletteType)
{
hPal = PALETTE_AllocPaletteIndexedRGB(ColorCount, (RGBQUAD*)bmi->bmiColors);
}
else
{
hPal = PALETTE_AllocPalette(*paletteType, ColorCount,
(ULONG*) palEntries,
RedMask, GreenMask, BlueMask);
}
return hPal;
}
/* EOF */
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