#include #include #include "lockbm.h" ////////////////////////////////////////////////////////////////////////////// ////////////////////////////////////////////////////////////////////////////// #ifndef BI_BITFIELDS #define BI_BITFIELDS 3 #endif #ifndef BI_BITMAP #define BI_BITMAP 0x4D544942 // 'BITM' #endif ////////////////////////////////////////////////////////////////////////////// ////////////////////////////////////////////////////////////////////////////// // // GDI!GDIInit2() GDI.403 // // this GDI function does the following: // // GetSetBitmapHandle(hbm, 0) - will return global handle of bitmap // // GetSetBitmapHandle(hbm, h) - will set global handle to // // GetSetBitmapHandle(hbm, -1) - will set global handle to NULL // static HANDLE (FAR PASCAL *GetSetBitmapHandle)(HBITMAP hbm, HANDLE h); ////////////////////////////////////////////////////////////////////////////// ////////////////////////////////////////////////////////////////////////////// #define muldiv(a,b,c) (UINT)(((DWORD)(UINT)(a) * (DWORD)(UINT)(b)) / (UINT)(c)) ////////////////////////////////////////////////////////////////////////////// // // CanLockBitmaps() // // determime if we can lock bitmaps on the current display device // ////////////////////////////////////////////////////////////////////////////// BOOL FAR CanLockBitmaps(void) { return FALSE; #if 0 UINT w; UINT rc; HDC hdc; BOOL f; static BOOL fCanLockBitmaps = -1; if (fCanLockBitmaps == -1) { w = (UINT)GetVersion(); w = ((UINT)LOBYTE(w) << 8) | HIBYTE(w); hdc = GetDC(NULL); rc = GetDeviceCaps(hdc, RASTERCAPS); ReleaseDC(NULL, hdc); (FARPROC)GetSetBitmapHandle = GetProcAddress(GetModuleHandle("GDI"),MAKEINTATOM(403)); // // assume we dont need this on windows 4.0? // // what about the DIBENG? it does DEVBITS and in win 4.0? // // if the display handles device bitmaps, dont do this either // f = GetProfileInt("DrawDib", "Bitmaps", TRUE); #ifdef DEBUG fCanLockBitmaps = f && GetSetBitmapHandle != NULL; #else fCanLockBitmaps = f && /* (w < 0x0400) && */ !(rc & RC_DEVBITS) && GetSetBitmapHandle != NULL; #endif } return fCanLockBitmaps; #endif } ////////////////////////////////////////////////////////////////////////////// // // LockBitmap // // return a pointer to the bitmap bits // ////////////////////////////////////////////////////////////////////////////// LPVOID FAR LockBitmap(HBITMAP hbm) { return GetBitmap(hbm, NULL, 0); } ////////////////////////////////////////////////////////////////////////////// // // GetBitmapDIB // ////////////////////////////////////////////////////////////////////////////// LPVOID FAR GetBitmapDIB(LPBITMAPINFOHEADER lpbi, LPVOID lpBits, LPVOID p, int cb) { IBITMAP FAR *pbm; if (lpBits == NULL) lpBits = (LPBYTE)lpbi + (int)lpbi->biSize + lpbi->biClrUsed * sizeof(RGBQUAD); if (p == NULL || cb < sizeof(BITMAP)) return lpBits; pbm = p; if (lpbi->biCompression == 0) { switch ((int)lpbi->biBitCount + (int)lpbi->biPlanes*256) { case 0x0101: pbm->bmType = BM_1BIT; break; case 0x0104: pbm->bmType = BM_4BIT; break; case 0x0108: pbm->bmType = BM_8BIT; break; case 0x0110: pbm->bmType = BM_16555; break; case 0x0118: pbm->bmType = BM_24BGR; break; case 0x0120: pbm->bmType = BM_32BGR; break; case 0x0401: pbm->bmType = BM_VGA; break; default: return NULL; } } else if (lpbi->biCompression == BI_BITFIELDS) { switch ((int)lpbi->biBitCount + (int)lpbi->biPlanes*256) { //!!! hack: realy should check the bit fields! case 0x0110: pbm->bmType = BM_16565; break; case 0x0118: pbm->bmType = BM_24RGB; break; case 0x0120: pbm->bmType = BM_32RGB; break; default: return NULL; } } else return NULL; pbm->bmWidth = (int)lpbi->biWidth; pbm->bmHeight = ((int)lpbi->biHeight > 0) ? (int)lpbi->biHeight : -(int)lpbi->biHeight; pbm->bmWidthBytes = (((int)lpbi->biBitCount * (int)lpbi->biWidth + 31)&~31)/8; pbm->bmPlanes = (BYTE)lpbi->biPlanes; pbm->bmBitsPixel = (BYTE)lpbi->biBitCount; pbm->bmBits = lpBits; if (cb > sizeof(BITMAP)) { pbm->bmSegmentIndex = 0; pbm->bmScanSegment = pbm->bmHeight; pbm->bmFillBytes = 0; pbm->bmBitmapInfo = (long)lpbi; if ((long)lpbi->biHeight < 0) { pbm->bmNextScan = -pbm->bmWidthBytes; pbm->bmOffset = (long)pbm->bmWidthBytes * (pbm->bmHeight-1); } else { pbm->bmNextScan = pbm->bmWidthBytes; pbm->bmOffset = 0; } } return lpBits; } #if 0 ////////////////////////////////////////////////////////////////////////////// ////////////////////////////////////////////////////////////////////////////// void FAR BitmapXY(IBITMAP FAR *pbm, int x, int y) { UINT t; if (pbm->bmFillBytes) { while (y-- > 0) { t = (UINT)(pbm->bmOffset & 0xFFFF0000); pbm->bmOffset += pbm->bmNextScan; if ((UINT)(pbm->bmOffset & 0xFFFF0000) != t) pbm->bmOffset += pbm->bmFillBytes; } } else { pbm->bmOffset += y * (long)pbm->bmNextScan; } pbm->bmOffset += x * pbm->bmBitsPixel / 8; } #endif ////////////////////////////////////////////////////////////////////////////// // // GetDIBBitmap // ////////////////////////////////////////////////////////////////////////////// LPVOID FAR GetDIBBitmap(HBITMAP hbm, LPBITMAPINFOHEADER lpbi) { UINT wType; BITMAP bm; UINT ScansPerSeg; UINT FillBytes; if (hbm) GetObject(hbm, sizeof(bm), &bm); wType = GetBitmapType(); if (wType == 0) return NULL; lpbi->biSize = sizeof(BITMAPINFOHEADER); lpbi->biWidth = bm.bmWidth; lpbi->biHeight = bm.bmHeight; lpbi->biPlanes = bm.bmPlanes; lpbi->biBitCount = bm.bmBitsPixel; lpbi->biCompression = 0; lpbi->biSizeImage = (DWORD)(bm.bmWidthBytes * bm.bmPlanes) * (DWORD)bm.bmHeight; lpbi->biXPelsPerMeter = 0; lpbi->biYPelsPerMeter = 0; lpbi->biClrUsed = 0; lpbi->biClrImportant = 0; switch(wType & BM_TYPE) { case BM_VGA: break; case BM_1BIT: case BM_4BIT: case BM_8BIT: break; case BM_16555: break; case BM_24BGR: case BM_32BGR: break; case BM_16565: lpbi->biCompression = BI_BITFIELDS; ((LPDWORD)(lpbi+1))[0] = 0x00F800; ((LPDWORD)(lpbi+1))[1] = 0x0007E0; ((LPDWORD)(lpbi+1))[2] = 0x00001F; break; case BM_24RGB: case BM_32RGB: lpbi->biCompression = BI_BITFIELDS; ((LPDWORD)(lpbi+1))[0] = 0x0000FF; ((LPDWORD)(lpbi+1))[1] = 0x00FF00; ((LPDWORD)(lpbi+1))[2] = 0xFF0000; break; default: return NULL; } // // make sure WidthBytes is right, dont forget bitmaps are WORD aligned // and DIBs are DWORD aligned. // if (bm.bmWidthBytes != ((bm.bmWidth * bm.bmBitsPixel + 31) & ~31)/8) { if (lpbi->biCompression != 0) return NULL; lpbi->biCompression = BI_BITMAP; lpbi->biXPelsPerMeter = bm.bmWidthBytes; } if ((wType & BM_HUGE) && (lpbi->biSizeImage > 64*1024l)) { if (lpbi->biCompression == BI_BITFIELDS) return NULL; lpbi->biCompression = BI_BITMAP; ScansPerSeg = muldiv(64,1024,bm.bmWidthBytes * bm.bmPlanes); FillBytes = (UINT)(64ul*1024 - bm.bmWidthBytes * bm.bmPlanes * ScansPerSeg); lpbi->biSizeImage += FillBytes * (bm.bmHeight / ScansPerSeg); lpbi->biXPelsPerMeter = bm.bmWidthBytes; lpbi->biYPelsPerMeter = FillBytes; } if (!(wType & BM_BOTTOMTOTOP)) lpbi->biHeight = -bm.bmHeight; return LockBitmap(hbm); } ////////////////////////////////////////////////////////////////////////////// // // GetBitmap // ////////////////////////////////////////////////////////////////////////////// LPVOID FAR GetBitmap(HBITMAP hbm, LPVOID p, int cb) { HANDLE h; DWORD dwSize; IBITMAP FAR *pbm; HDC hdc = NULL; HBITMAP hbmT; if (!CanLockBitmaps()) return NULL; if (hbm == NULL) return NULL; h = GetSetBitmapHandle(hbm, 0); if (h == NULL) return NULL; pbm = (LPVOID)GlobalLock(h); if (IsBadReadPtr(pbm, sizeof(IBITMAP))) return NULL; // // see if it is realy a bitmap. // if (pbm->bmType != 0) return NULL; // // make sure the bmBits pointer is valid. // if (pbm->bmBits == NULL) { hdc = CreateCompatibleDC(NULL); hbmT = SelectObject(hdc, hbm); } dwSize = (DWORD)pbm->bmHeight * (DWORD)pbm->bmWidthBytes; if (IsBadHugeWritePtr((LPVOID)pbm->bmBits, dwSize)) { if (hdc) { SelectObject(hdc, hbmT); DeleteDC(hdc); } return NULL; } if (p) { UINT u; hmemcpy(p, pbm, min(cb, sizeof(IBITMAP))); pbm = p; u = GetBitmapType(); pbm->bmType = u & BM_TYPE; if (cb > sizeof(BITMAP)) { pbm->bmBitmapInfo = NULL; pbm->bmNextScan = pbm->bmWidthBytes * pbm->bmPlanes; if (u & BM_BOTTOMTOTOP) { pbm->bmOffset = 0; } else { pbm->bmOffset = (long)pbm->bmNextScan * (pbm->bmHeight-1); pbm->bmNextScan = -pbm->bmNextScan; pbm->bmFillBytes = -pbm->bmFillBytes; } // // see if this particular bitmap is HUGE // if (!(u & BM_HUGE) || (DWORD)pbm->bmHeight * pbm->bmWidthBytes < 64l*1024) { pbm->bmFillBytes = 0; pbm->bmScanSegment = pbm->bmHeight; } else { if (pbm->bmOffset) pbm->bmOffset -= (long)((pbm->bmHeight-1) / pbm->bmScanSegment) * pbm->bmFillBytes; } } } if (hdc) { SelectObject(hdc, hbmT); DeleteDC(hdc); } return (LPVOID)pbm->bmBits; } ///////////////////////////////////////////////////////////////////////////// // // SetPixel // // some cards cant't seam to do SetPixel right it is amazing they work at all // ///////////////////////////////////////////////////////////////////////////// static void SetPixelX(HDC hdc, int x, int y, COLORREF rgb) { RECT rc; rc.left = x; rc.top = y; rc.right = x+1; rc.bottom = y+1; SetBkColor(hdc, rgb); ExtTextOut(hdc, 0, 0, ETO_OPAQUE, &rc, NULL, 0, NULL); } #define SetPixel SetPixelX /////////////////////////////////////////////////////////////////////////////// // // GetSurfaceType // /////////////////////////////////////////////////////////////////////////////// #define BCODE _based(_segname("_CODE")) static BYTE BCODE bits8[] = {0x00,0xF9,0xFA,0xFC,0xFF}; static WORD BCODE bits555[] = {0x0000,0x7C00,0x03E0,0x001F,0x7FFF}; static WORD BCODE bits5551[]= {0x8000,0xFC00,0x83E0,0x801F,0xFFFF}; static WORD BCODE bits565[] = {0x0000,0xF800,0x07E0,0x001F,0xFFFF}; static BYTE BCODE bitsBGR[] = {0x00,0x00,0x00, 0x00,0x00,0xFF, 0x00,0xFF,0x00, 0xFF,0x00,0x00, 0xFF,0xFF,0xFF}; static BYTE BCODE bitsRGB[] = {0x00,0x00,0x00, 0xFF,0x00,0x00, 0x00,0xFF,0x00, 0x00,0x00,0xFF, 0xFF,0xFF,0xFF}; static DWORD BCODE bitsRGBX[]= {0x000000, 0x0000FF, 0x00FF00, 0xFF0000, 0xFFFFFF}; static DWORD BCODE bitsBGRX[]= {0x000000, 0xFF0000, 0x00FF00, 0x0000FF, 0xFFFFFF}; void FAR TestSurfaceType(HDC hdc, int x, int y) { PatBlt(hdc, x, y, 5, 1, BLACKNESS); SetPixel(hdc, x+0, y, RGB(000,000,000)); SetPixel(hdc, x+1, y, RGB(255,000,000)); SetPixel(hdc, x+2, y, RGB(000,255,000)); SetPixel(hdc, x+3, y, RGB(000,000,255)); SetPixel(hdc, x+4, y, RGB(255,255,255)); GetPixel(hdc, x, y); } UINT FAR GetSurfaceType(LPVOID lpBits) { #define TESTFMT(a,n) \ if (_fmemcmp(lpBits, (LPVOID)a, sizeof(a)) == 0) return n; TESTFMT(bits8, BM_8BIT); TESTFMT(bits555, BM_16555); TESTFMT(bits5551, BM_16555); TESTFMT(bits565, BM_16565); TESTFMT(bitsRGB, BM_24RGB); TESTFMT(bitsBGR, BM_24BGR); TESTFMT(bitsRGBX, BM_32RGB); TESTFMT(bitsBGRX, BM_32BGR); return 0; } /////////////////////////////////////////////////////////////////////////////// // // GetBitmapType // // return the bitmap type that the display driver uses // /////////////////////////////////////////////////////////////////////////////// UINT FAR GetBitmapType() { BITMAP bm; HBITMAP hbm; HBITMAP hbmT; HDC hdc; UINT u; BYTE bits[20*4*2]; static UINT wBitmapType = 0xFFFF; if (wBitmapType != 0xFFFF) return wBitmapType; // // create a test bitmap (<64k) // hdc = GetDC(NULL); hbm = CreateCompatibleBitmap(hdc,20,2); ReleaseDC(NULL, hdc); hdc = CreateCompatibleDC(NULL); hbmT = SelectObject(hdc, hbm); GetObject(hbm, sizeof(bm), &bm); PatBlt(hdc, 0, 0, bm.bmWidth, bm.bmHeight, BLACKNESS); TestSurfaceType(hdc, 0, 0); GetBitmapBits(hbm, sizeof(bits), bits); u = GetSurfaceType(bits); if (u == 0) { u = GetSurfaceType(bits + bm.bmWidthBytes); if (u) u |= BM_BOTTOMTOTOP; } #ifndef WIN32 if (u) { BYTE _huge *pb; UINT dy,w; // // see if bitmap(s) are huge format // dy = (UINT)(0x10000l/bm.bmWidthBytes) + 1; hbm = CreateCompatibleBitmap(hdc,bm.bmWidth,dy); DeleteObject(SelectObject(hdc, hbm)); PatBlt(hdc, 0, 0, bm.bmWidth, dy, BLACKNESS); pb = (BYTE _huge *)LockBitmap(hbm); if (pb == NULL || OFFSETOF(pb) != 0) ; // cant lock bitmaps else { u |= BM_CANLOCK; w = (dy-1) * bm.bmWidthBytes; pb[64l*1024] = 0; pb[w] = 0; if (u & BM_BOTTOMTOTOP) SetPixel(hdc, 0, 0, RGB(255,255,255)); else SetPixel(hdc, 0, dy-1, RGB(255,255,255)); if (pb[64l*1024] != 0 && pb[w] == 0) u |= BM_HUGE; else if (pb[64l*1024] == 0 && pb[w] != 0) ; else u = 0; } } #endif SelectObject(hdc, hbmT); DeleteObject(hbm); DeleteDC(hdc); wBitmapType = u; return u; } ////////////////////////////////////////////////////////////////////////////// // // returns the PDevice of the given physical or memory DC // // return the bitmap type that the display driver uses // /////////////////////////////////////////////////////////////////////////////// LPVOID FAR GetPDevice(HDC hdc) { HANDLE h; HBITMAP hbm; HBITMAP hbmT; HDC hdcT=NULL; IBITMAP FAR *pbm; LPVOID lpPDevice = NULL; // GDI.403 static HANDLE (FAR PASCAL *GdiGetBitmapHandle)(HBITMAP hbm, HANDLE h); if (GdiGetBitmapHandle == NULL) (FARPROC)GdiGetBitmapHandle = GetProcAddress(GetModuleHandle("GDI"),MAKEINTATOM(403)); if (GdiGetBitmapHandle == NULL) return NULL; hbm = CreateBitmap(1,1,1,1,NULL); // // first try the passed DC if it is a bitmap/DC // hbmT = SelectBitmap(hdc, hbm); if (hbmT != NULL) { // // it is a memory DC. // h = GdiGetBitmapHandle(hbmT, 0); } else { // // it is a physical DC. // hdcT = CreateCompatibleDC(hdc); hbmT = SelectBitmap(hdcT, hbm); h = GdiGetBitmapHandle(hbm, 0); } if (h == NULL) goto exit; pbm = (IBITMAP FAR *)GlobalLock(h); if (IsBadReadPtr(pbm, sizeof(IBITMAP))) goto exit; if (pbm) pbm = (IBITMAP FAR *)pbm->bmlpPDevice; else pbm = NULL; if (IsBadReadPtr(pbm, 2)) goto exit; lpPDevice = (LPVOID)pbm; exit: if (hdcT) { SelectObject(hdcT, hbmT); DeleteObject(hdcT); } else { SelectObject(hdc, hbmT); } DeleteObject(hbm); return lpPDevice; }