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 Как вырезать окно по картинке 2 / Окна и интерфейс / Visual C++

Как вырезать окно по картинке
A: (Codemaster)
Оригинальная ссылка: нету

Вариант 2
// !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
// !                                                                                                                   
// !    For Win9x image width MUST BE dword aligned!!!                            !
// !                                                                                                                   
// !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
HRGN CFileRgnDlg::CreateRgnFromFile( HBITMAP hBmp, COLORREF color )
{
    // get image properties
    BITMAP bmp = { 0 };
    GetObject( hBmp, sizeof(BITMAP), &bmp );

    // allocate memory for extended image information
    LPBITMAPINFO bi = (LPBITMAPINFO) new BYTE[ sizeof(BITMAPINFO) + 8 ];

    memset( bi, 0, sizeof(BITMAPINFO) + 8 );
    bi->bmiHeader.biSize = sizeof(BITMAPINFOHEADER);
    // set window size
    m_dwWidth       = bmp.bmWidth;      // bitmap width
    m_dwHeight      = bmp.bmHeight;     // bitmap height

    // create temporary dc
    HDC dc = CreateDC( "DISPLAY",NULL,NULL,NULL );

    // get extended information about image (length, compression, length of color table if exist, ...)
    DWORD res = GetDIBits( dc, hBmp, 0, bmp.bmHeight, 0, bi, DIB_RGB_COLORS );

    // allocate memory for image data (colors)
    LPBYTE pBits = new BYTE[ bi->bmiHeader.biSizeImage + 4 ];

    // allocate memory for color table
    if ( bi->bmiHeader.biBitCount == 8 )
    {
        // actually color table should be appended to this header(BITMAPINFO),
        // so we have to reallocate and copy it
        LPBITMAPINFO old_bi = bi;

        // 255 - because there is one in BITMAPINFOHEADER
        bi = (LPBITMAPINFO)new char[ sizeof(BITMAPINFO) + 255 * sizeof(RGBQUAD) ];

        memcpy( bi, old_bi, sizeof(BITMAPINFO) );

        // release old header
        delete old_bi;
    }
    // get bitmap info header
    BITMAPINFOHEADER& bih = bi->bmiHeader;

    // get color table (for 256 color mode contains 256 entries of RGBQUAD(=DWORD))
    LPDWORD clr_tbl = (LPDWORD)&bi->bmiColors;

    // fill bits buffer
    res = GetDIBits( dc, hBmp, 0, bih.biHeight, pBits, bi, DIB_RGB_COLORS );

    DeleteDC( dc );

    // shift bits and byte per pixel (for comparing colors)
    LPBYTE pClr = (LPBYTE)&color;

    // swap red and blue components
    BYTE tmp = pClr[0]; pClr[0] = pClr[2]; pClr[2] = tmp;

    // convert color if curent DC is 16-bit (5:6:5) or 15-bit (5:5:5)
    if ( bih.biBitCount == 16 )
    {
        color = ((DWORD)(pClr[0] & 0xf8) >> 3) |            // 3
                ((DWORD)(pClr[1] & 0xf8) << 3) |            // 2
                ((DWORD)(pClr[2] & 0xf8) << 8);             // 7
    }

    const DWORD RGNDATAHEADER_SIZE  = sizeof(RGNDATAHEADER);
    const DWORD ADD_RECTS_COUNT         = 40;           // number of rects to be appended
                                                    // to region data buffer

    BYTE    Bpp = bih.biBitCount >> 3;                  // bytes per pixel

    // DIB image is flipped that's why we scan it from the last line
    LPBYTE  pColor = pBits + (bih.biHeight - 1) * (bih.biWidth * Bpp);
    DWORD   dwLineBackLen = 2 * bih.biWidth * Bpp;  // offset of previous scan line
                                                    // (after processing of current)
    DWORD   dwRectsCount = bih.biHeight;            // number of rects in allocated buffer
    INT         i, j;                                   // current position in mask image
    INT         first = 0;                                  // left position of current scan line
                                                    // where mask was found
    bool    wasfirst = false;                           // set when mask has been found in current scan line
    bool    ismask;                                 // set when current color is mask color

    // allocate memory for region data
    // region data here is set of regions that are rectangles with height 1 pixel (scan line)
    // that's why first allocation is <bm.biHeight> RECTs - number of scan lines in image
    RGNDATAHEADER* pRgnData = 
        (RGNDATAHEADER*)new BYTE[ RGNDATAHEADER_SIZE + dwRectsCount * sizeof(RECT) ];

    // get pointer to RECT table
    LPRECT pRects = (LPRECT)((LPBYTE)pRgnData + RGNDATAHEADER_SIZE);

    // zero region data header memory (header  part only)
    memset( pRgnData, 0, RGNDATAHEADER_SIZE + dwRectsCount * sizeof(RECT) );

    // fill it by default
    pRgnData->dwSize    = RGNDATAHEADER_SIZE;
    pRgnData->iType     = RDH_RECTANGLES;

    for ( i = 0; i < bih.biHeight; i++ )
    {
        for ( j = 0; j < bih.biWidth; j++ )
        {
            // get color
            switch ( bih.biBitCount )
            {
            case 8:
                ismask = (clr_tbl[ *pColor ] != color);
                break;

            case 16:
                ismask = (*(LPWORD)pColor != (WORD)color);
                break;

            case 24:
                ismask = ((*(LPDWORD)pColor & 0x00ffffff) != color);
                break;

            case 32:
                ismask = (*(LPDWORD)pColor != color);
            }
            // shift pointer to next color
            pColor += Bpp;

            // place part of scan line as RECT region if transparent color found after mask color or
            // mask color found at the end of mask image
            if ( wasfirst && (ismask ^ (j < bih.biWidth - 1)) )
            {
                // save current RECT
                pRects[ pRgnData->nCount++ ] = CRect( first, i, j, i + 1 );

                // if buffer full reallocate it with more room
                if ( pRgnData->nCount >= dwRectsCount )
                {
                    dwRectsCount += ADD_RECTS_COUNT;
                    // allocate new buffer
                    LPBYTE pRgnDataNew = new BYTE[ RGNDATAHEADER_SIZE + dwRectsCount * sizeof(RECT)];

                    // copy current region data to it
                    memcpy( pRgnDataNew, pRgnData, RGNDATAHEADER_SIZE + pRgnData->nCount * sizeof(RECT) );

                    // delte old region data buffer
                    delete pRgnData;

                    // set pointer to new regiondata buffer to current
                    pRgnData = (RGNDATAHEADER*)pRgnDataNew;

                    // correct pointer to RECT table
                    pRects = (LPRECT)((LPBYTE)pRgnData + RGNDATAHEADER_SIZE);
                }
                wasfirst = false;
            }
            else if ( !wasfirst && ismask )     // set wasfirst when mask is found
            {
                first = j;
                wasfirst = true;
            }
        }

        pColor -= dwLineBackLen;
    }
    // release image data
    delete pBits;
    delete bi;

    // create region
    HRGN hRgn = ExtCreateRegion( NULL, RGNDATAHEADER_SIZE + pRgnData->nCount * sizeof(RECT), (LPRGNDATA)pRgnData );
    // release region data
    delete pRgnData;

    return hRgn;
}