/*++ Copyright (c) 1996-1999 Microsoft Corporation Module Name Abstract: Lingyun Wang Author: Enviornment: User Mode Revision History: --*/ #include "precomp.hxx" #include #include #include /*extern HRESULT DD_Surface_GetSurfaceDesc(LPDIRECTDRAWSURFACE, LPDDSURFACEDESC); extern HRESULT GetSurfaceFromDC( HDC hdc, LPDIRECTDRAWSURFACE *ppdds, HDC *phdcDriver) ; */ #pragma hdrstop extern PFNTRANSBLT gpfnTransparentImage; extern PFNTRANSDIB gpfnTransparentDIBImage; #if (_WIN32_WINNT == 0x400) PFN_GETSURFACEFROMDC pfnGetSurfaceFromDC = NULL; PFN_GETSURFACEFROMDC pfnGetSurfaceDesc; static PALETTEENTRY gapeVgaPalette[16] = { { 0, 0, 0, 0 }, { 0x80,0, 0, 0 }, { 0, 0x80,0, 0 }, { 0x80,0x80,0, 0 }, { 0, 0, 0x80, 0 }, { 0x80,0, 0x80, 0 }, { 0, 0x80,0x80, 0 }, { 0x80,0x80,0x80, 0 }, { 0xC0,0xC0,0xC0, 0 }, { 0xFF,0, 0, 0 }, { 0, 0xFF,0, 0 }, { 0xFF,0xFF,0, 0 }, { 0, 0, 0xFF, 0 }, { 0xFF,0, 0xFF, 0 }, { 0, 0xFF,0xFF, 0 }, { 0xFF,0xFF,0xFF, 0 } }; /**************************************************************************\ * Dprintf * * * Arguments: * * szFmt - format string and argrs * * Return Value: * * none * * History: * * \**************************************************************************/ VOID Dprintf( LPSTR szFmt, ... ) { TCHAR szMsg[80]; DWORD cb; va_list marker; va_start( marker, szFmt ); wvsprintf( szMsg, szFmt, marker ); cb = lstrlen(szMsg); szMsg[cb++] = '\r'; szMsg[cb++] = '\n'; WriteFile( GetStdHandle( STD_OUTPUT_HANDLE ), szMsg, sizeof(TCHAR) * cb, &cb, NULL ); va_end( marker ); return; } /******************************Public*Routine******************************\ * MyGetSystemPaletteEntries * * Internal version of GetSystemPaletteEntries. * * GetSystemPaletteEntries fails on some 4bpp devices. This version * will detect the 4bpp case and supply the hardcoded 16-color VGA palette. * Otherwise, it will pass the call on to GDI's GetSystemPaletteEntries. * * It is expected that this call will only be called in the 4bpp and 8bpp * cases as it is not necessary for OpenGL to query the system palette * for > 8bpp devices. * * History: * 17-Aug-1995 -by- Gilman Wong [gilmanw] * Wrote it. \**************************************************************************/ static UINT MyGetSystemPaletteEntries(HDC hdc, UINT iStartIndex, UINT nEntries, LPPALETTEENTRY lppe) { int nDeviceBits; nDeviceBits = GetDeviceCaps(hdc, BITSPIXEL) * GetDeviceCaps(hdc, PLANES); // // Some 4bpp displays will fail the GetSystemPaletteEntries call. // So if detected, return the hardcoded table. // if ( nDeviceBits == 4 ) { if ( lppe ) { nEntries = min(nEntries, (16 - iStartIndex)); memcpy(lppe, &gapeVgaPalette[iStartIndex], nEntries * sizeof(PALETTEENTRY)); } else nEntries = 16; return nEntries; } else { return GetSystemPaletteEntries(hdc, iStartIndex, nEntries, lppe); } } /******************************Public*Routine******************************\ * bFillColorTable * * Initialize the color table of the BITMAPINFO pointed to by pbmi. Colors * are set to the current system palette. * * Note: call only valid for displays of 8bpp or less. * * Returns: * TRUE if successful, FALSE otherwise. * * History: * 23-Jan-1996 -by- Gilman Wong [gilmanw] * Wrote it. \**************************************************************************/ static BOOL bFillColorTable(HDC hdc, HPALETTE hpal, BITMAPINFO *pbmi) { BOOL bRet = FALSE; BYTE aj[sizeof(PALETTEENTRY) * 256]; LPPALETTEENTRY lppe = (LPPALETTEENTRY) aj; RGBQUAD *prgb = (RGBQUAD *) &pbmi->bmiColors[0]; ULONG cColors; cColors = 1 << pbmi->bmiHeader.biBitCount; if ( cColors <= 256 ) { if ( hpal ? GetPaletteEntries(hpal, 0, cColors, lppe) : MyGetSystemPaletteEntries(hdc, 0, cColors, lppe) ) { UINT i; for (i = 0; i < cColors; i++) { prgb[i].rgbRed = lppe[i].peRed; prgb[i].rgbGreen = lppe[i].peGreen; prgb[i].rgbBlue = lppe[i].peBlue; prgb[i].rgbReserved = 0; } bRet = TRUE; } else { //WARNING ("bFillColorTable: MyGetSystemPaletteEntries failed\n"); } } return bRet; } /******************************Public*Routine******************************\ * bFillBitmapInfoDirect * * Fills in the fields of a BITMAPINFO so that we can create a bitmap * that matches the format of the display. * * This is done by creating a compatible bitmap and calling GetDIBits * to return the color masks. This is done with two calls. The first * call passes in biBitCount = 0 to GetDIBits which will fill in the * base BITMAPINFOHEADER data. The second call to GetDIBits (passing * in the BITMAPINFO filled in by the first call) will return the color * table or bitmasks, as appropriate. * * Returns: * TRUE if successful, FALSE otherwise. * * History: * 07-Jun-1995 -by- Gilman Wong [gilmanw] * Wrote it. \**************************************************************************/ BOOL bFillBitmapInfoDirect(HDC hdc, HPALETTE hpal, BITMAPINFO *pbmi) { HBITMAP hbm; BOOL bRet = FALSE; // // Create a dummy bitmap from which we can query color format info // about the device surface. // if ((hbm = CreateCompatibleBitmap(hdc, 1, 1)) != NULL) { pbmi->bmiHeader.biSize = sizeof(BITMAPINFOHEADER); // // Call first time to fill in BITMAPINFO header. // GetDIBits(hdc, hbm, 0, 0, NULL, pbmi, DIB_RGB_COLORS); if (( pbmi->bmiHeader.biBitCount <= 8 ) || ( pbmi->bmiHeader.biCompression == BI_BITFIELDS )) { // // Call a second time to get the color masks. // It's a GetDIBits Win32 "feature". // GetDIBits(hdc, hbm, 0, pbmi->bmiHeader.biHeight, NULL, pbmi, DIB_RGB_COLORS); } bRet = TRUE; DeleteObject(hbm); } else { WARNING("bFillBitmapInfoDirect: CreateCompatibleBitmap failed\n"); } return bRet; } /******************************Public*Routine******************************\ * bFillBitmapInfoMemory * * Fills in the fields of a BITMAPINFO so that we can create a bitmap * that matches the format of a memory DC. * * * Returns: * TRUE if successful, FALSE otherwise. * * History: * 05-Dec-1996 -by- Lingyun Wang [lingyunw] * Wrote it. \**************************************************************************/ BOOL bFillBitmapInfoMemory(HDC hdc, HPALETTE hpal, BITMAPINFO *pbmi) { HBITMAP hbm; BOOL bRet = FALSE; if ( (hbm = (HBITMAP)GetCurrentObject(hdc, OBJ_BITMAP)) != NULL ) { pbmi->bmiHeader.biSize = sizeof(BITMAPINFOHEADER); // // Call first time to fill in BITMAPINFO header. // GetDIBits(hdc, hbm, 0, 0, NULL, pbmi, DIB_RGB_COLORS); if (( pbmi->bmiHeader.biBitCount <= 8 ) || ( pbmi->bmiHeader.biCompression == BI_BITFIELDS )) { // // Call a second time to get the color masks. // It's a GetDIBits Win32 "feature". // GetDIBits(hdc, hbm, 0, pbmi->bmiHeader.biHeight, NULL, pbmi, DIB_RGB_COLORS); } bRet = TRUE; } else { WARNING("bFillBitmapInfoMemory: CreateCompatibleBitmap failed\n"); } return bRet; } /******************************Public*Routine******************************\ * bFillDIBSection * * Fill in the DIBSection structure for a memory dc * Fills in the fields of a BITMAPINFO so that we can create a bitmap * that matches the format of a memory DC. * * * Returns: * TRUE if successful, FALSE otherwise. * * History: * 05-Dec-1996 -by- Lingyun Wang [lingyunw] * Wrote it. \**************************************************************************/ BOOL bFillDIBSection( PDIBINFO pDibInfo) { HBITMAP hbm; BOOL bRet = FALSE; BOOL bddraw = FALSE; DIBSECTION dib; if ( (hbm = (HBITMAP)GetCurrentObject(pDibInfo->hdc, OBJ_BITMAP)) != NULL ) { GetObject (hbm, sizeof(DIBSECTION), &dib); // // it is a DIBSECTION // if ((pDibInfo->pvBits = dib.dsBm.bmBits) != NULL) { // // it is a DIBSection, now see if it might be a DD Surface (on WIn95) // if (dib.dsBm.bmWidthBytes < dib.dsBm.bmWidth * dib.dsBm.bmBitsPixel/8) { HMODULE hddrawlib = GetModuleHandleA("ddraw"); if (hddrawlib) { Dprintf("GetModuleHandleA succeed\n"); hddrawlib = LoadLibrary (TEXT("ddraw.dll")); Dprintf("LoadLibrary returns %x", hddrawlib); if (hddrawlib) pfnGetSurfaceFromDC = (PFN_GETSURFACEFROMDC)GetProcAddress( hddrawlib, "GetSurfaceFromDC"); } // // check if it is DIRECTDRAW surface // HDC hdcDevice; if (pfnGetSurfaceFromDC && (pfnGetSurfaceFromDC(pDibInfo->hdc, &pDibInfo->pdds, &hdcDevice) == DD_OK)) { bddraw = TRUE; Dprintf("pfnGetSurfaceFromDC succeed\n"); //pdds->GetSurfaceDesc(&ddsd); // // we need to lock the surface here // if (pDibInfo->pdds->Lock((RECT *)&pDibInfo->rclBounds, &pDibInfo->ddsd, DDLOCK_SURFACEMEMORYPTR, NULL) == DD_OK) { pDibInfo->pvBits = pDibInfo->ddsd.lpSurface; pDibInfo->pvBase = pDibInfo->ddsd.lpSurface; pDibInfo->stride = pDibInfo->ddsd.lPitch; pDibInfo->pbmi->bmiHeader.biSize = sizeof(BITMAPINFOHEADER); pDibInfo->pbmi->bmiHeader.biCompression = BI_RGB; pDibInfo->pbmi->bmiHeader.biPlanes = 1; pDibInfo->pbmi->bmiHeader.biWidth = pDibInfo->ddsd.dwWidth; pDibInfo->pbmi->bmiHeader.biHeight = pDibInfo->ddsd.dwHeight; switch (pDibInfo->ddsd.ddpfPixelFormat.dwRGBBitCount) { case DDBD_1: pDibInfo->pbmi->bmiHeader.biBitCount = 1; break; case DDBD_4: pDibInfo->pbmi->bmiHeader.biBitCount = 4; break; case DDBD_8: pDibInfo->pbmi->bmiHeader.biBitCount = 8; bFillColorTable (pDibInfo->hdc, 0, pDibInfo->pbmi); break; case DDBD_16: pDibInfo->pbmi->bmiHeader.biBitCount = 16; *(DWORD *)&pDibInfo->pbmi->bmiColors[0] = pDibInfo->ddsd.ddpfPixelFormat.dwRBitMask; *(DWORD *)&pDibInfo->pbmi->bmiColors[1] = pDibInfo->ddsd.ddpfPixelFormat.dwGBitMask; *(DWORD *)&pDibInfo->pbmi->bmiColors[2] = pDibInfo->ddsd.ddpfPixelFormat.dwBBitMask; break; case DDBD_24: pDibInfo->pbmi->bmiHeader.biBitCount = 24; break; case DDBD_32: pDibInfo->pbmi->bmiHeader.biBitCount = 32; break; default: WARNING("bad bitformat for ddraw surface\n"); } pDibInfo->rclClipDC.left = 0; pDibInfo->rclClipDC.top =0; pDibInfo->rclClipDC.right = pDibInfo->ddsd.dwWidth; pDibInfo->rclClipDC.bottom = pDibInfo->ddsd.dwWidth; bRet = TRUE; } } if (hddrawlib) { FreeLibrary(hddrawlib); } } Dprintf ("bddraw = %x\n", bddraw); #if 0 if (bddraw) { Dprintf("is a directdraw surf dsbm.bmbits = %x", pDibInfo->pvBits); Dprintf("bmType=%x, bmWidthBytes = %x", dib.dsBm.bmType, dib.dsBm.bmWidthBytes); Dprintf("bmWidth = %x, bmHeight = %x, bmPlanes = %x, bmBitsPixel = %x\n", dib.dsBm.bmWidth, dib.dsBm.bmHeight, dib.dsBm.bmPlanes, dib.dsBm.bmBitsPixel); Dprintf("dsBmh.biSize=%x, biWidth = %x, biHeight = %x\n", dib.dsBmih.biSize, dib.dsBmih.biWidth, dib.dsBmih.biHeight); Dprintf("dsBmh.biPlanes = %x, biBitCount = %x, biCompression = %x, biSizeImage = %x\n", dib.dsBmih.biPlanes, dib.dsBmih.biBitCount, dib.dsBmih.biSizeImage); } #endif if (!bddraw) { // // If biHeight is positive, then the bitmap is a bottom-up DIB. // If biHeight is negative, then the bitmap is a top-down DIB. // if ( dib.dsBmih.biHeight > 0 ) { pDibInfo->pvBase = (PVOID) (((int) dib.dsBm.bmBits) + (dib.dsBm.bmWidthBytes * (dib.dsBm.bmHeight - 1))); pDibInfo->stride = (ULONG) (-dib.dsBm.bmWidthBytes); } else { pDibInfo->pvBase = dib.dsBm.bmBits; pDibInfo->stride = dib.dsBm.bmWidthBytes; } // // fill up the BITMAPINFOHEADER // pDibInfo->pbmi->bmiHeader = dib.dsBmih; // // fill up the color table // if ((pDibInfo->pbmi->bmiHeader.biBitCount <= 8) || ( pDibInfo->pbmi->bmiHeader.biCompression == BI_BITFIELDS )) { ULONG count = 1 << pDibInfo->pbmi->bmiHeader.biBitCount; GetDIBits(pDibInfo->hdc, hbm, 0, pDibInfo->pbmi->bmiHeader.biHeight, NULL, pDibInfo->pbmi, DIB_RGB_COLORS); } // // fill prcl // pDibInfo->rclClipDC.left = 0; pDibInfo->rclClipDC.top = 0; pDibInfo->rclClipDC.right = dib.dsBm.bmWidth; pDibInfo->rclClipDC.bottom = dib.dsBm.bmHeight; if (pDibInfo->rclClipDC.bottom < 0) { pDibInfo->rclClipDC.bottom = -pDibInfo->rclClipDC.bottom; } bRet = TRUE; } } else { Dprintf("not a dibseciton"); } } return(bRet); } /******************************Public*Routine******************************\ * bFillBimapInfo * * Fill up the BITMAPINFO structure based on the hdc passed in * and fill up the window(if direct dc) or surface (if memory dc) * rectangle. * * if it's a dibsection, convert DIBSECTION to BITMAPINFO * * Returns: * BOOLEAN * * History: * 09-Dec-1996 -by- Lingyun Wang [lingyunw] * Wrote it. \**************************************************************************/ BOOL bFillBitmapInfo( PDIBINFO pDibInfo // HDC hdc, // RECTL *prcl, // PBITMAPINFO pbmi, // PVOID *ppvBits, // PVOID *ppvBase, // LONG *plStride ) { BOOL bRet = FALSE; { // // fill up a BITMAPINFO structure compatible with the // Destination DC and reduce ulWidth and ulHeight if // possible // if (GetObjectType(pDibInfo->hdc) == OBJ_DC) { // // get the destination bitmapinfo struct // if (bRet = bFillBitmapInfoDirect(pDibInfo->hdc, 0, pDibInfo->pbmi)) { HWND hwnd = WindowFromDC(pDibInfo->hdc); if (hwnd) { GetClientRect(hwnd,(RECT *)&pDibInfo->rclClipDC); } } } else if (GetObjectType(pDibInfo->hdc) == OBJ_MEMDC) { if (!(bRet = bFillDIBSection (pDibInfo))) { // // if the bitmap selected in the memory dc is NOT // a DIBSECTION, call bFillBitmapInfoMemory // if (bRet = bFillBitmapInfoMemory(pDibInfo->hdc, 0, pDibInfo->pbmi)) { pDibInfo->rclClipDC.left = 0; pDibInfo->rclClipDC.top = 0; pDibInfo->rclClipDC.right = pDibInfo->pbmi->bmiHeader.biWidth; pDibInfo->rclClipDC.bottom = pDibInfo->pbmi->bmiHeader.biHeight; if (pDibInfo->rclClipDC.bottom < 0) { pDibInfo->rclClipDC.bottom = -pDibInfo->rclClipDC.bottom; } } } } } return(bRet); } /******************************Public*Routine******************************\ * bSameDIBformat * * Given two BITMAPINFO structs and compare if they are the same * * Returns: * VOID * * History: * 09-Dec-1996 -by- Lingyun Wang [lingyunw] * Wrote it. \**************************************************************************/ BOOL bSameDIBformat ( PBITMAPINFO pbmiDst, PBITMAPINFO pbmiSrc) { BOOL bRet = FALSE; if ((pbmiDst->bmiHeader.biBitCount == pbmiSrc->bmiHeader.biBitCount) && (pbmiDst->bmiHeader.biCompression == pbmiSrc->bmiHeader.biCompression)) { bRet = TRUE; // // compare bit Bitfields masks // if (pbmiDst->bmiHeader.biCompression == BI_BITFIELDS) { if ((*(DWORD *)&pbmiDst->bmiColors[0] != *(DWORD *)&pbmiSrc->bmiColors[0]) || (*(DWORD *)&pbmiDst->bmiColors[1] != *(DWORD *)&pbmiSrc->bmiColors[1]) || (*(DWORD *)&pbmiDst->bmiColors[2] != *(DWORD *)&pbmiSrc->bmiColors[2])) { bRet = FALSE; } } // // compare color table // if (pbmiDst->bmiHeader.biBitCount <= 8) { ULONG cColors = 1 << pbmiDst->bmiHeader.biBitCount; ULONG i; for (i = 0; i < cColors; i++) { if ((pbmiDst->bmiColors[i].rgbBlue != pbmiSrc->bmiColors[i].rgbBlue) || (pbmiDst->bmiColors[i].rgbGreen != pbmiSrc->bmiColors[i].rgbGreen) || (pbmiDst->bmiColors[i].rgbRed != pbmiSrc->bmiColors[i].rgbRed)) { return (FALSE); } } } } return (bRet); } /******************************Public*Routine******************************\ * CreateCompatibleDIB * * Create a DIB_RGB_COLORS dib section based on the given width/height and pbmi * * Returns: * Bitmap handle * * History: * 09-Dec-1996 -by- Lingyun Wang [lingyunw] * Wrote it. \**************************************************************************/ HBITMAP CreateCompatibleDIB ( HDC hdc, ULONG ulWidth, ULONG ulHeight, PVOID *ppvBits, PBITMAPINFO pbmi) { HBITMAP hbm; // // Change bitmap size to match specified dimensions. // pbmi->bmiHeader.biWidth = ulWidth; pbmi->bmiHeader.biHeight = ulHeight; if (pbmi->bmiHeader.biCompression == BI_RGB) { pbmi->bmiHeader.biSizeImage = 0; } else { if ( pbmi->bmiHeader.biBitCount == 16 ) pbmi->bmiHeader.biSizeImage = ulWidth * ulHeight * 2; else if ( pbmi->bmiHeader.biBitCount == 32 ) pbmi->bmiHeader.biSizeImage = ulWidth * ulHeight * 4; else pbmi->bmiHeader.biSizeImage = 0; } pbmi->bmiHeader.biClrUsed = 0; pbmi->bmiHeader.biClrImportant = 0; hbm = CreateDIBSection(hdc, (PBITMAPINFO)pbmi, DIB_RGB_COLORS, ppvBits, NULL, 0); return (hbm); } /******************************Public*Routine******************************\ * GetCompatibleDIBInfo * * Copies pointer to bitmap origin to ppvBase and bitmap stride to plStride. * Win32 DIBs can be created bottom-up (the default) with the origin at the * lower left corner or top-down with the origin at the upper left corner. * If the bitmap is top-down, *plStride is positive; if bottom-up, *plStride * us negative. * * Also, because of restrictions on the alignment of scan lines the width * the bitmap is often not the same as the stride (stride is the number of * bytes between vertically adjacent pixels). * * The ppvBase and plStride value returned will allow you to address any * given pixel (x, y) in the bitmap as follows: * * PIXEL *ppix; * * ppix = (PIXEL *) (((BYTE *)*ppvBase) + (y * *plStride) + (x * sizeof(PIXEL))); * * Returns: * TRUE if successful, FALSE otherwise. * * History: * 02-Feb-1996 -by- Gilman Wong [gilmanw] * Wrote it. \**************************************************************************/ BOOL GetCompatibleDIBInfo(HBITMAP hbm, PVOID *ppvBase, LONG *plStride) { BOOL bRet = FALSE; DIBSECTION ds; // // Call GetObject to return a DIBSECTION. If successful, the // bitmap is a DIB section and we can retrieve the pointer to // the bitmap bits and other parameters. // if ( (GetObject(hbm, sizeof(ds), &ds) == sizeof(ds)) && ds.dsBm.bmBits ) { //!!!dbug -- GDI Bug 19374: bmWidthBytes returns pitch assuming //!!! that DIB scanlines are WORD aligned (as they //!!! are in Win95). But NT DIBs are DWORD aligned. //!!! When bug if corrected, we can remove this block of //!!! code. { OSVERSIONINFO osvi; osvi.dwOSVersionInfoSize = sizeof(osvi); if (GetVersionEx(&osvi)) { if ( osvi.dwPlatformId == VER_PLATFORM_WIN32_NT ) { ds.dsBm.bmWidthBytes = (ds.dsBm.bmWidthBytes + 3) & ~3; } } else { return bRet; } } // // If biHeight is positive, then the bitmap is a bottom-up DIB. // If biHeight is negative, then the bitmap is a top-down DIB. // if ( ds.dsBmih.biHeight > 0 ) { *ppvBase = (PVOID) (((int) ds.dsBm.bmBits) + (ds.dsBm.bmWidthBytes * (ds.dsBm.bmHeight - 1))); *plStride = (ULONG) (-ds.dsBm.bmWidthBytes); } else { *ppvBase = ds.dsBm.bmBits; *plStride = ds.dsBm.bmWidthBytes; } bRet = TRUE; } else { WARNING("GetCompatibleDIBInfo: cannot get pointer to DIBSECTION bmBits\n"); } return bRet; } /****************************************************** * bSetupBitmapInfos * * Calls bFillBitmapInfo to fill the Dst and Src DIBINFO * * 4/4/97 -- by Lingyun Wang [lingyunw] *******************************************************/ BOOL bSetupBitmapInfos( PDIBINFO pDibInfoDst, PDIBINFO pDibInfoSrc ) { BOOL bRet; bRet = bFillBitmapInfo (pDibInfoDst); // // fill up bitmapinfo if it is not coming from TransparentDIBits // if (bRet && (pDibInfoSrc != NULL)) { if (pDibInfoSrc->hdc != NULL) { bRet = bFillBitmapInfo (pDibInfoSrc); } else { // // src is DIB // pDibInfoSrc->rclClipDC.left = 0; pDibInfoSrc->rclClipDC.right = pDibInfoSrc->pbmi->bmiHeader.biWidth; pDibInfoSrc->rclClipDC.top = 0; pDibInfoSrc->rclClipDC.bottom = pDibInfoSrc->pbmi->bmiHeader.biHeight; if (pDibInfoSrc->rclClipDC.bottom < 0) { pDibInfoSrc->rclClipDC.bottom = -pDibInfoSrc->rclClipDC.bottom; } } } return (bRet); } /******************************Public*Routine******************************\ * vCopyBitmapInfo * * Copy a BITMAPINFO stucture along with its bit masks or colortable * * Returns: * VOID. * * History: * 16-Dec-1996 -by- Lingyun Wang [lingyunw] * Wrote it. \**************************************************************************/ VOID vCopyBitmapInfo ( PBITMAPINFO pbmiTo, PBITMAPINFO pbmiFrom ) { *pbmiTo = *pbmiFrom; // // copy BitFields masks // if (pbmiFrom->bmiHeader.biCompression == BI_BITFIELDS) { pbmiTo->bmiColors[0] = pbmiFrom->bmiColors[0]; pbmiTo->bmiColors[1] = pbmiFrom->bmiColors[1]; pbmiTo->bmiColors[2] = pbmiFrom->bmiColors[2]; } else { // // copy color table // ULONG cMaxColors = 1 << pbmiFrom->bmiHeader.biBitCount; ULONG cColors = pbmiFrom->bmiHeader.biClrUsed; // // validate number of colors // if ((cColors == 0) || (cColors > cMaxColors)) { cColors = cMaxColors; } if (cColors <= 256) { UINT i; for (i = 0; i < cColors; i++) { pbmiTo->bmiColors[i] = pbmiFrom->bmiColors[i]; } } } return; } /**************************************************************************\ * vIndexToRGB * * * Arguments: * * * * Return Value: * * * * History: * * 4/16/1997 -by- Lingyun Wang [lingyunw] * \**************************************************************************/ VOID vIndexToRGB ( RGBQUAD *pIndex, RGBQUAD *pColors, ULONG count) { ULONG i; if (count > 256) { WARNING ("vIndexToRGB -- bad count\n"); return; } for (i=0; i < count; i++) { pIndex[i] = pColors[((ULONG *)pIndex)[i]]; } return; } #if 1 /******************************Public*Routine******************************\ * vMapPALtoRGB * * Given a DIB_PAL_COLORS iusage bmiColors table, convert the indices into RGB * colors, the bmiColors table will be a DIB_RGB_COLORS table after the convertion. * * Returns: * VOID. * * History: * 16-Dec-1996 -by- Lingyun Wang [lingyunw] * Wrote it. \**************************************************************************/ VOID vMapPALtoRGB( PDIBINFO pDibInfoDst, PDIBINFO pDibInfoSrc, ULONG TransColor) { // // only called in DIB API case // if (pDibInfoSrc->hdc == NULL) { PBITMAPINFO pbmi = (PBITMAPINFO)LOCALALLOC(sizeof(BITMAPINFO) + sizeof(RGBQUAD) * 255); if (pbmi) { ZeroMemory (pbmi,sizeof(BITMAPINFO) + sizeof(RGBQUAD) * 255); vCopyBitmapInfo(pbmi, pDibInfoSrc->pbmi); HPALETTE hpalDC = (HPALETTE)GetCurrentObject(pDibInfoDst->hdc,OBJ_PAL); if (hpalDC) { USHORT usNumPaletteEntries = 0; DWORD numColors; DWORD bmiClrUsed = pDibInfoSrc->pbmi->bmiHeader.biClrUsed; int iRet = GetObject(hpalDC,2,&usNumPaletteEntries); if ((iRet != 0) && (usNumPaletteEntries != 0)) { switch (pDibInfoSrc->pbmi->bmiHeader.biBitCount) { case 1: numColors = 2; break; case 4: numColors = 16; if ((bmiClrUsed > 0) && (bmiClrUsed < 16) ) { numColors = bmiClrUsed; } break; case 8: numColors = 256; if ((bmiClrUsed > 0) && (bmiClrUsed < 256) ) { numColors = bmiClrUsed; } break; default: numColors = 0; } if (numColors != 0) { PALETTEENTRY *ppal = (PALETTEENTRY *)LOCALALLOC(sizeof(PALETTEENTRY) * usNumPaletteEntries); if (ppal) { iRet = GetPaletteEntries(hpalDC,0,usNumPaletteEntries,ppal); if (iRet == (int)usNumPaletteEntries) { ULONG Index; RGBQUAD *pRGB = (RGBQUAD *)&pbmi->bmiColors[0]; PUSHORT pPalIndex = (PUSHORT)&pDibInfoSrc->pbmi->bmiColors[0]; // // map PALETTEENTRY to RGBQUAD // for (Index=0;Index usNumPaletteEntries) { CurIndex = CurIndex % usNumPaletteEntries; } pRGB[Index].rgbRed = ppal[CurIndex].peRed; pRGB[Index].rgbGreen = ppal[CurIndex].peGreen; pRGB[Index].rgbBlue = ppal[CurIndex].peBlue; pRGB[Index].rgbReserved = ppal[CurIndex].peFlags; } // // swap pbmi in pDibInfoSrc // LOCALFREE(pDibInfoSrc->pbmi); pDibInfoSrc->pbmi = pbmi; } LOCALFREE(ppal); } } } } } } } #else /******************************Public*Routine******************************\ * vMapPALtoRGB * * Given a DIB_PAL_COLORS iusage bmiColors table, convert the indices into RGB * colors, the bmiColors table will be a DIB_RGB_COLORS table after the convertion. * * Returns: * VOID. * * History: * 16-Dec-1996 -by- Lingyun Wang [lingyunw] * Wrote it. \**************************************************************************/ VOID vMapPALtoRGB( PDIBINFO pDibInfoDst, PDIBINFO pDibInfoSrc, ULONG TransColor) { HDC hdc = pDibInfoDst->hdc; HDC hdcMem; ULONG cx = 1 << pDibInfoSrc->pbmi->bmiHeader.biBitCount; HBITMAP hbm; PULONG pBits; ULONG cBytes = sizeof(BITMAPINFO) + sizeof(RGBQUAD) * 2; PBITMAPINFO pbmi; ULONG i; BYTE pBytes[256]; ULONG ulWidthDst, ulHeightDst, ulWidthSrc, ulHeightSrc; HPALETTE hpalDC; pbmi = (PBITMAPINFO)LOCALALLOC(cBytes); if (pbmi == NULL) { WARNING("MapCopy fail to alloc mem\n"); return ; } hdcMem = CreateCompatibleDC (hdc); if (hdcMem != NULL) { HPALETTE hpalDC = (HPALETTE)GetCurrentObject(hdc,OBJ_PAL); SelectPalette(hdcMem,hpalDC,TRUE); RealizePalette(hdcMem); pbmi->bmiHeader.biSize = sizeof(BITMAPINFOHEADER); pbmi->bmiHeader.biWidth = 256; pbmi->bmiHeader.biHeight = 1; pbmi->bmiHeader.biPlanes = 1; pbmi->bmiHeader.biBitCount = 32; pbmi->bmiHeader.biCompression = BI_RGB; pbmi->bmiHeader.biSizeImage = 0; pbmi->bmiHeader.biXPelsPerMeter = 0; pbmi->bmiHeader.biYPelsPerMeter = 0; pbmi->bmiHeader.biClrUsed = 0; pbmi->bmiHeader.biClrImportant = 0; // // save the original width/height // ulWidthDst = pDibInfoDst->pbmi->bmiHeader.biWidth; ulHeightDst = pDibInfoDst->pbmi->bmiHeader.biHeight; pDibInfoDst->pbmi->bmiHeader.biWidth = 256; pDibInfoDst->pbmi->bmiHeader.biHeight = 1; // // create a dib using 32 format // hbm = CreateDIBSection(hdc, pbmi, DIB_RGB_COLORS, (PVOID *)&pBits, NULL, 0); if ((hbm != NULL) && (SelectObject(hdcMem,hbm) != NULL)) { // // init pBytes to array of each pixel // switch (cx) { case 256: for (i=0; i < cx; i++) { pBytes[i] = (BYTE)i; } break; case 16: pBytes[0] = 0x01; pBytes[1] = 0x23; pBytes[2] = 0x45; pBytes[3] = 0x67; pBytes[4] = 0x89; pBytes[5] = 0xab; pBytes[6] = 0xcd; pBytes[7] = 0xef; break; case 2: pBytes[0] = 0x40; break; } ulWidthSrc = pDibInfoSrc->pbmi->bmiHeader.biWidth; ulHeightSrc = pDibInfoSrc->pbmi->bmiHeader.biHeight; pDibInfoSrc->pbmi->bmiHeader.biWidth = cx; pDibInfoSrc->pbmi->bmiHeader.biHeight = 1; if (!SetDIBitsToDevice (hdcMem, 0, 0, cx, 1, 0, 0, 0, 1, pBytes, pDibInfoSrc->pbmi, DIB_PAL_COLORS)) { //Dprintf("fail to SetDIBitsTodevice HDC=%x\n",hdcMem); } for (i=0; i < cx; i++) { pDibInfoSrc->pbmi->bmiColors[i] = ((RGBQUAD *)pBits)[i]; //Dprintf("i=%x, pBits[i]=%x", i, pBits[i]); } pDibInfoSrc->pbmi->bmiHeader.biWidth = ulWidthSrc; pDibInfoSrc->pbmi->bmiHeader.biHeight = ulHeightSrc; pDibInfoDst->pbmi->bmiHeader.biWidth = ulWidthDst; pDibInfoDst->pbmi->bmiHeader.biHeight = ulHeightDst; pDibInfoSrc->iUsage = DIB_RGB_COLORS; } DeleteDC (hdcMem); if (hbm != NULL) { DeleteObject(hbm); } } } #endif /**************************************************************************\ * bGetSrcDIBits: * * Setup SRC DIB surface and retrieve the dibits. * Ported from kernel mode * * Arguments: * * pDibInfoDst - information on dest surface * pDibInfoSrc - information on src surfcace * ulSourceType - type of src surface needed * ulTranColor - transparent color for TransparentBlt * * Return Value: * * Status * * History: * * 4/16/1997 - by Lingyun Wang [lingyunw] * \**************************************************************************/ BOOL bGetSrcDIBits( PDIBINFO pDibInfoDst, PDIBINFO pDibInfoSrc, ULONG ulSourceType, ULONG ulTranColor ) { BOOL bRet = TRUE; LONG DstCx = pDibInfoDst->rclBounds.right - pDibInfoDst->rclBounds.left; LONG DstCy = pDibInfoDst->rclBounds.bottom - pDibInfoDst->rclBounds.top; LONG SrcCx = pDibInfoSrc->rclBounds.right - pDibInfoSrc->rclBounds.left; LONG SrcCy = pDibInfoSrc->rclBounds.bottom - pDibInfoSrc->rclBounds.top; PVOID pvBits = pDibInfoSrc->pvBits; PBITMAPINFO pbmi = NULL; HDC hdcTemp = NULL; HBITMAP hbm; LONG SrcTrimLeft; LONG SrcTrimRight; LONG SrcTrimTop; LONG SrcTrimBottom; BOOL bStretch = ((DstCx != SrcCx) || (DstCy != SrcCy)); SrcTrimLeft = 0; SrcTrimRight = 0; SrcTrimTop = 0; SrcTrimBottom = 0; // // trim destination bounds rect to surface bounds. Src rect must also // be trimmed by same amount (in src space) // if (pDibInfoDst->rclBoundsTrim.left < pDibInfoDst->rclClipDC.left) { SrcTrimLeft = pDibInfoDst->rclClipDC.left - pDibInfoDst->rclBoundsTrim.left; pDibInfoDst->rclBoundsTrim.left = pDibInfoDst->rclClipDC.left; } if (pDibInfoDst->rclBoundsTrim.top < pDibInfoDst->rclClipDC.top) { SrcTrimTop = pDibInfoDst->rclClipDC.top - pDibInfoDst->rclBoundsTrim.top; pDibInfoDst->rclBoundsTrim.top = pDibInfoDst->rclClipDC.top; } if (pDibInfoDst->rclBoundsTrim.right > pDibInfoDst->rclClipDC.right) { SrcTrimRight = pDibInfoDst->rclBoundsTrim.right - pDibInfoDst->rclClipDC.right; pDibInfoDst->rclBoundsTrim.right = pDibInfoDst->rclClipDC.right; } if (pDibInfoDst->rclBoundsTrim.bottom > pDibInfoDst->rclClipDC.bottom) { SrcTrimBottom = pDibInfoDst->rclBoundsTrim.bottom - pDibInfoDst->rclClipDC.bottom; pDibInfoDst->rclBoundsTrim.bottom = pDibInfoDst->rclClipDC.bottom; } // // does src need to be reduced because of dst // if (bStretch) { // // convert dst trim to src space and reduce src rect // // WARNING: ROUNDING // if ((SrcTrimLeft != 0) || (SrcTrimRight != 0)) { double fDstToSrcX = (double)SrcCx / (double)DstCx; // // convert dst trim amound to src // SrcTrimLeft = (LONG)((double)SrcTrimLeft * fDstToSrcX); SrcTrimRight = (LONG)((double)SrcTrimRight * fDstToSrcX); pDibInfoSrc->rclBoundsTrim.left += SrcTrimLeft; pDibInfoSrc->rclBoundsTrim.right -= SrcTrimRight; } if ((SrcTrimTop != 0) || (SrcTrimBottom != 0)) { double fDstToSrcY = (double)SrcCy / (double)DstCy; // // convert dst trim amound to src // SrcTrimTop = (LONG)((double)SrcTrimTop * fDstToSrcY); SrcTrimBottom = (LONG)((double)SrcTrimBottom * fDstToSrcY); pDibInfoSrc->rclBoundsTrim.top += SrcTrimTop; pDibInfoSrc->rclBoundsTrim.bottom -= SrcTrimBottom; } } else { // // reduce src rect // if (SrcTrimLeft != 0) { pDibInfoSrc->rclBoundsTrim.left += SrcTrimLeft; } if (SrcTrimRight != 0) { pDibInfoSrc->rclBoundsTrim.right -= SrcTrimRight; } if (SrcTrimTop != 0) { pDibInfoSrc->rclBoundsTrim.top += SrcTrimTop; } if (SrcTrimBottom != 0) { pDibInfoSrc->rclBoundsTrim.bottom -= SrcTrimBottom; } } // // Does src still exceed bounds // SrcTrimLeft = 0; SrcTrimRight = 0; SrcTrimTop = 0; SrcTrimBottom = 0; // // trim destination bounds rect to surface bounds. Src rect must also // be trimmed by same amount (in src space) // if (pDibInfoSrc->rclBoundsTrim.left < pDibInfoSrc->rclClipDC.left) { SrcTrimLeft = pDibInfoSrc->rclClipDC.left - pDibInfoSrc->rclBoundsTrim.left; pDibInfoSrc->rclBoundsTrim.left = pDibInfoSrc->rclClipDC.left; } if (pDibInfoSrc->rclBoundsTrim.top < pDibInfoSrc->rclClipDC.top) { SrcTrimTop = pDibInfoSrc->rclClipDC.top - pDibInfoSrc->rclBoundsTrim.top; pDibInfoSrc->rclBoundsTrim.top = pDibInfoSrc->rclClipDC.top; } if (pDibInfoSrc->rclBoundsTrim.right > pDibInfoSrc->rclClipDC.right) { SrcTrimRight = pDibInfoSrc->rclBoundsTrim.right - pDibInfoSrc->rclClipDC.right; pDibInfoSrc->rclBoundsTrim.right = pDibInfoSrc->rclClipDC.right; } if (pDibInfoSrc->rclBoundsTrim.bottom > pDibInfoSrc->rclClipDC.bottom) { SrcTrimBottom = pDibInfoSrc->rclBoundsTrim.bottom - pDibInfoSrc->rclClipDC.bottom; pDibInfoSrc->rclBoundsTrim.bottom = pDibInfoSrc->rclClipDC.bottom; } // // does Dst need to be reduced because of Src // if (bStretch) { // // WARNING: ROUNDING // if ((SrcTrimLeft != 0) || (SrcTrimRight != 0)) { double fSrcToDstX = (double)DstCx / (double)SrcCx; // // convert dst trim amound to src // SrcTrimLeft = (LONG)((double)SrcTrimLeft * fSrcToDstX); SrcTrimRight = (LONG)((double)SrcTrimRight * fSrcToDstX); pDibInfoDst->rclBoundsTrim.left += SrcTrimLeft; pDibInfoDst->rclBoundsTrim.right -= SrcTrimRight; } if ((SrcTrimTop != 0) || (SrcTrimBottom != 0)) { double fSrcToDstY = (double)DstCy / (double)SrcCy; // // convert dst trim amound to src // SrcTrimTop = (LONG)((double)SrcTrimTop * fSrcToDstY); SrcTrimBottom = (LONG)((double)SrcTrimBottom * fSrcToDstY); pDibInfoDst->rclBoundsTrim.top += SrcTrimTop; pDibInfoDst->rclBoundsTrim.bottom -= SrcTrimBottom; } } else { // // reduce dst rect // if (SrcTrimLeft != 0) { pDibInfoDst->rclBoundsTrim.left += SrcTrimLeft; } if (SrcTrimRight != 0) { pDibInfoDst->rclBoundsTrim.right -= SrcTrimRight; } if (SrcTrimTop != 0) { pDibInfoDst->rclBoundsTrim.top += SrcTrimTop; } if (SrcTrimBottom != 0) { pDibInfoDst->rclBoundsTrim.bottom -= SrcTrimBottom; } } // // check for clipped out Dst and Src // if ( (pDibInfoDst->rclBoundsTrim.left < pDibInfoDst->rclBoundsTrim.right) && (pDibInfoDst->rclBoundsTrim.top < pDibInfoDst->rclBoundsTrim.bottom) && (pDibInfoSrc->rclBoundsTrim.left < pDibInfoSrc->rclBoundsTrim.right) && (pDibInfoSrc->rclBoundsTrim.top < pDibInfoSrc->rclBoundsTrim.bottom) ) { // // allocate compatible DC and surface // hdcTemp = CreateCompatibleDC(pDibInfoSrc->hdc); if (hdcTemp) { // // copy pDibInfoSrc->pbmi into pbmi // if (!pDibInfoSrc->hdc) { ULONG cBytes = sizeof(BITMAPINFO) + sizeof(RGBQUAD) * 255; pbmi = (PBITMAPINFO)LOCALALLOC(cBytes); if (pbmi != NULL) { ZeroMemory (pbmi,cBytes); vCopyBitmapInfo (pbmi, pDibInfoSrc->pbmi); } else { WARNING("bGetSrcDIBits fail to alloc mem\n"); bRet = FALSE; } } if (bRet) { // // create temp DIB size of dst rect // RECTL rclDstCopy = { 0, 0, pDibInfoDst->rclBoundsTrim.right - pDibInfoDst->rclBoundsTrim.left, pDibInfoDst->rclBoundsTrim.bottom - pDibInfoDst->rclBoundsTrim.top }; hbm = CreateCompatibleDIB(hdcTemp, rclDstCopy.right, rclDstCopy.bottom, &pDibInfoSrc->pvBits, pDibInfoSrc->pbmi); if (hbm) { pDibInfoSrc->hDIB = hbm; GetCompatibleDIBInfo (hbm, &pDibInfoSrc->pvBase, &pDibInfoSrc->stride); HBITMAP hbmDefault = (HBITMAP)SelectObject (hdcTemp, hbm); ULONG OldMode = SetStretchBltMode(hdcTemp,COLORONCOLOR); // // Stretch data into source temp DIB // // // Blt data into source temp DIB // if (pDibInfoSrc->hdc) { StretchBlt (hdcTemp, 0, 0, rclDstCopy.right, rclDstCopy.bottom, pDibInfoSrc->hdc, pDibInfoSrc->rclBoundsTrim.left, pDibInfoSrc->rclBoundsTrim.top, pDibInfoSrc->rclBoundsTrim.right - pDibInfoSrc->rclBoundsTrim.left, pDibInfoSrc->rclBoundsTrim.bottom - pDibInfoSrc->rclBoundsTrim.top, SRCCOPY); } else { // // adjust ySrc to be compatible // LONG cySrc = pDibInfoSrc->rclBoundsTrim.bottom-pDibInfoSrc->rclBoundsTrim.top; LONG ySrc = pDibInfoSrc->rclClipDC.bottom - pDibInfoSrc->rclBoundsTrim.top - cySrc; StretchDIBits (hdcTemp, 0, 0, rclDstCopy.right, rclDstCopy.bottom, pDibInfoSrc->rclBoundsTrim.left, ySrc, pDibInfoSrc->rclBoundsTrim.right-pDibInfoSrc->rclBoundsTrim.left, cySrc, pvBits, pbmi, DIB_RGB_COLORS, SRCCOPY); } SetStretchBltMode(hdcTemp,OldMode); SelectObject (hdcTemp, hbmDefault); pDibInfoSrc->rclDIB = rclDstCopy; } else { WARNING ("bGetSrcDIBits -- fail to createcompatibleDIB\n"); bRet = FALSE; } } } else { WARNING ("bGetSrcDIBits -- fail to createcompatibledc\n"); bRet = FALSE; } } else { // // clipped out // pDibInfoDst->rclBoundsTrim.left = pDibInfoDst->rclBoundsTrim.right = 0; pDibInfoDst->rclBoundsTrim.top = pDibInfoDst->rclBoundsTrim.bottom = 0; pDibInfoSrc->rclBoundsTrim.left = pDibInfoSrc->rclBoundsTrim.right = 0; pDibInfoSrc->rclBoundsTrim.top = pDibInfoSrc->rclBoundsTrim.bottom = 0; } if (pbmi) { LOCALFREE (pbmi); } if (hdcTemp) { DeleteDC(hdcTemp); } return(bRet); } /******************************Public*Routine******************************\ * bGetDstDIBits * * Setup the destination DIB surface and retrieve the bits * * Ported from psSetupDstSurface * * * * Return Value: * * * * History: * * 4-April-1997 -by- Lingyun Wang [lingyunw] * \**************************************************************************/ BOOL bGetDstDIBits ( PDIBINFO pDibInfoDst, BOOL *pbReadable, FLONG flCopyMode ) { HDC hdc = pDibInfoDst->hdc; BOOL bRet = TRUE; // // try to clip to dst surface, dst should be clipped in all cases except // gradient fill // if (flCopyMode & (SOURCE_GRADIENT_RECT | SOURCE_GRADIENT_TRI)) { // // trim destination bounds rect to surface bounds. Src rect must also // be trimmed by same amount (in src space) // if (pDibInfoDst->rclBoundsTrim.left < pDibInfoDst->rclClipDC.left) { pDibInfoDst->rclBoundsTrim.left = pDibInfoDst->rclClipDC.left; } if (pDibInfoDst->rclBoundsTrim.top < pDibInfoDst->rclClipDC.top) { pDibInfoDst->rclBoundsTrim.top = pDibInfoDst->rclClipDC.top; } if (pDibInfoDst->rclBoundsTrim.right > pDibInfoDst->rclClipDC.right) { pDibInfoDst->rclBoundsTrim.right = pDibInfoDst->rclClipDC.right; } if (pDibInfoDst->rclBoundsTrim.bottom > pDibInfoDst->rclClipDC.bottom) { pDibInfoDst->rclBoundsTrim.bottom = pDibInfoDst->rclClipDC.bottom; } // // set offset for gradient fill // pDibInfoDst->ptlGradOffset.x = 0; pDibInfoDst->ptlGradOffset.y = 0; } LONG DstCx = pDibInfoDst->rclBoundsTrim.right - pDibInfoDst->rclBoundsTrim.left; LONG DstCy = pDibInfoDst->rclBoundsTrim.bottom - pDibInfoDst->rclBoundsTrim.top; *pbReadable = TRUE; if (!pDibInfoDst->pvBits) { if (pDibInfoDst->rclBounds.left > 0) { pDibInfoDst->ptlGradOffset.x = pDibInfoDst->rclBounds.left; } if (pDibInfoDst->rclBounds.top > 0) { pDibInfoDst->ptlGradOffset.y = pDibInfoDst->rclBounds.top; } // // allocate surface // HDC hdcTemp = CreateCompatibleDC (hdc); if (hdcTemp) { HBITMAP hbm = CreateCompatibleDIB (hdcTemp, DstCx, DstCy, &pDibInfoDst->pvBits, pDibInfoDst->pbmi); if (hbm != NULL) { pDibInfoDst->hDIB = hbm; GetCompatibleDIBInfo (hbm, &pDibInfoDst->pvBase, &pDibInfoDst->stride); HGDIOBJ hret = SelectObject(hdcTemp, hbm); if (hret != NULL) { RECTL rclCopy; rclCopy.left = 0; rclCopy.right = DstCx; rclCopy.top = 0; rclCopy.bottom = DstCy; // // gradient rect does not need source bitmap data // if (flCopyMode != SOURCE_GRADIENT_RECT) { bRet = BitBlt(hdcTemp, 0, 0, DstCx, DstCy, pDibInfoDst->hdc, pDibInfoDst->rclBoundsTrim.left, pDibInfoDst->rclBoundsTrim.top, SRCCOPY); } // // adjust dst rect // if (bRet) { pDibInfoDst->rclDIB = rclCopy; } } else { bRet = NULL; WARNING ("bGetDstDIBits -- fail to select compatible DIB\n"); } *pbReadable = bRet; } else { bRet = FALSE; } DeleteDC (hdcTemp); } else { WARNING ("bGetDstDIBits -- fail to createcompatibledc\n"); bRet = FALSE; } } else { pDibInfoDst->rclDIB = pDibInfoDst->rclClipDC; } return(bRet); } /******************************Public*Routine******************************\ * bDIBGetSrcDIBits * * Create or get the source dib bits * * Returns: * VOID. * * History: * 09-Dec-1996 -by- Lingyun Wang [lingyunw] * Wrote it. \**************************************************************************/ BOOL bDIBGetSrcDIBits ( PDIBINFO pDibInfoDst, PDIBINFO pDibInfoSrc, FLONG flSourceMode, ULONG TransColor ) { if (pDibInfoSrc->iUsage == DIB_PAL_COLORS) { vMapPALtoRGB (pDibInfoDst, pDibInfoSrc, 0); } //pDibInfoSrc->rclDIB = pDibInfoSrc->rclClipDC; return (bGetSrcDIBits(pDibInfoDst,pDibInfoSrc,flSourceMode, TransColor)); } /******************************Public*Routine******************************\ * bDIBInitDIBINFO * * Returns: * BOOLEAN. * * History: * 09-Dec-1996 -by- Lingyun Wang [lingyunw] * Wrote it. \**************************************************************************/ BOOL bDIBInitDIBINFO( PBITMAPINFO pbmi, CONST VOID * pvBits, int x, int y, int cx, int cy, PDIBINFO pDibInfo) { PVOID p; ULONG cBytes = sizeof(BITMAPINFO) + sizeof(RGBQUAD) * 255; int bmWidthBytes; POINT lpPoints[2]; p = LOCALALLOC(cBytes); if (!p) { WARNING("fail to alloc mem\n"); return (FALSE); } ZeroMemory (p,cBytes); // // copy the input pbmi // vCopyBitmapInfo ((PBITMAPINFO)p, pbmi); pDibInfo->pbmi = (PBITMAPINFO)p; pDibInfo->hdc = NULL; pDibInfo->rclBounds.left = x; pDibInfo->rclBounds.top = y; pDibInfo->rclBounds.right = x+cx; pDibInfo->rclBounds.bottom = y+cy; pDibInfo->rclBoundsTrim = pDibInfo->rclBounds; pDibInfo->pvBits = (PVOID)pvBits; pDibInfo->iUsage = DIB_RGB_COLORS; pDibInfo->pxlate332 = NULL; // // align width to WORD boundary // bmWidthBytes = ((pbmi->bmiHeader.biWidth*pbmi->bmiHeader.biBitCount + 15)>>4)<<1; if (pbmi->bmiHeader.biHeight > 0) { pDibInfo->pvBase = (PBYTE)pDibInfo->pvBits + bmWidthBytes * (pbmi->bmiHeader.biHeight - 1); pDibInfo->stride = (ULONG) (-bmWidthBytes); } else { pDibInfo->pvBase = pDibInfo->pvBits; pDibInfo->stride = bmWidthBytes; } pDibInfo->hDIB = NULL; pDibInfo->pdds = NULL; pDibInfo->ddsd.dwSize = sizeof(DDSURFACEDESC); return(TRUE); } /******************************Public*Routine******************************\ * bInitDIBINFO * * Returns: * BOOLEAN. * * History: * 09-Dec-1996 -by- Lingyun Wang [lingyunw] * Wrote it. \**************************************************************************/ BOOL bInitDIBINFO( HDC hdc, int x, int y, int cx, int cy, PDIBINFO pDibInfo) { ULONG cBytes; PVOID p; POINT lpPoints[2]; pDibInfo->hdc = hdc; pDibInfo->rclBounds.left = x; pDibInfo->rclBounds.top = y; pDibInfo->rclBounds.right = x+cx; pDibInfo->rclBounds.bottom = y+cy; // // setup rclBounds in device space // LPtoDP (hdc, (POINT *)&pDibInfo->rclBounds, 2); pDibInfo->rclBoundsTrim = pDibInfo->rclBounds; // // Now operate in MM_TEXT mode // pDibInfo->Mapmode = SetMapMode(hdc,MM_TEXT); SetViewportOrgEx (hdc, 0, 0, &pDibInfo->ViewportOrg); SetWindowOrgEx (hdc, 0, 0, &pDibInfo->WindowOrg); pDibInfo->pvBits = NULL; pDibInfo->pvBase = NULL; pDibInfo->hDIB = NULL; pDibInfo->iUsage = DIB_RGB_COLORS; pDibInfo->pxlate332 = NULL; cBytes = sizeof(BITMAPINFO) + sizeof(RGBQUAD) * 255; p = LOCALALLOC(cBytes); if (!p) { WARNING("fail to alloc mem\n"); return (FALSE); } ZeroMemory (p,cBytes); pDibInfo->pbmi = (PBITMAPINFO)p; pDibInfo->pdds = NULL; pDibInfo->ddsd.dwSize = sizeof(DDSURFACEDESC); return(TRUE); } /******************************Public*Routine******************************\ * bSendDIBInfo * * Returns: * BOOLEAN. * * History: * 09-Dec-1996 -by- Lingyun Wang [lingyunw] * Wrote it. \**************************************************************************/ BOOL bSendDIBINFO( HDC hdcDst, PDIBINFO pDibInfo ) { BOOL bRet = TRUE; if (pDibInfo->hDIB) { ULONG OldMode = SetStretchBltMode(hdcDst,COLORONCOLOR); bRet = SetDIBitsToDevice(hdcDst, pDibInfo->rclBoundsTrim.left, pDibInfo->rclBoundsTrim.top, pDibInfo->rclBoundsTrim.right - pDibInfo->rclBoundsTrim.left, pDibInfo->rclBoundsTrim.bottom - pDibInfo->rclBoundsTrim.top, 0, 0, 0, pDibInfo->rclDIB.bottom - pDibInfo->rclDIB.top, pDibInfo->pvBits, pDibInfo->pbmi, DIB_RGB_COLORS); SetStretchBltMode(hdcDst,OldMode); } return (bRet); } /******************************Public*Routine******************************\ * vCleanupDIBInfo * * Returns: * VOID. * * History: * 09-Dec-1996 -by- Lingyun Wang [lingyunw] * Wrote it. \**************************************************************************/ VOID vCleanupDIBINFO ( PDIBINFO pDibInfo) { // // restore DC map modes // SetMapMode(pDibInfo->hdc,pDibInfo->Mapmode); SetViewportOrgEx (pDibInfo->hdc, pDibInfo->ViewportOrg.x, pDibInfo->ViewportOrg.y, NULL); SetWindowOrgEx (pDibInfo->hdc, pDibInfo->WindowOrg.x, pDibInfo->WindowOrg.y, NULL); if (pDibInfo->hDIB) { DeleteObject (pDibInfo->hDIB); } if (pDibInfo->pbmi) { LOCALFREE ((PVOID)pDibInfo->pbmi); } if ((pDibInfo->pxlate332) && (pDibInfo->pxlate332 != gHalftoneColorXlate332)) { LOCALFREE(pDibInfo->pxlate332); } if (pDibInfo->pdds) pDibInfo->pdds->Unlock(pDibInfo->ddsd.lpSurface); } #endif