ximawnd.cpp

// xImaWnd.cpp : Windows functions
/* 07/08/2001 v1.00 - Davide Pizzolato - www.xdp.it
 * CxImage version 7.0.1 07/Jan/2011
 */

#include "ximage.h"

#include "ximaiter.h" 
#include "ximabmp.h"

////////////////////////////////////////////////////////////////////////////////
#if defined (_WIN32_WCE)

#ifndef DEFAULT_GUI_FONT
#define DEFAULT_GUI_FONT 17
#endif

#ifndef PROOF_QUALITY
#define PROOF_QUALITY 2
#endif

struct DIBINFO : public BITMAPINFO
{
	RGBQUAD    arColors[255];    // Color table info - adds an extra 255 entries to palette
	operator LPBITMAPINFO()          { return (LPBITMAPINFO) this; }
	operator LPBITMAPINFOHEADER()    { return &bmiHeader;          }
	RGBQUAD* ColorTable()            { return bmiColors;           }
};

int32_t BytesPerLine(int32_t nWidth, int32_t nBitsPerPixel)
{
    return ( (nWidth * nBitsPerPixel + 31) & (~31) ) / 8;
}

int32_t NumColorEntries(int32_t nBitsPerPixel, int32_t nCompression, uint32_t biClrUsed)
{
	int32_t nColors = 0;
	switch (nBitsPerPixel)
	{
	case 1:
		nColors = 2;  break;
	case 2:
		nColors = 4;  break;   // winCE only
	case 4:
		nColors = 16; break;
	case 8:
		nColors =256; break;
	case 24:
		nColors = 0;  break;
	case 16:
	case 32:
		nColors = 3;  break; // I've found that PocketPCs need this regardless of BI_RGB or BI_BITFIELDS
	default:
		ASSERT(FALSE);
	}
	// If biClrUsed is provided, and it is a legal value, use it
	if (biClrUsed > 0 && biClrUsed <= (uint32_t)nColors)
		return biClrUsed;
	
	return nColors;
}

int32_t GetDIBits(
  HDC hdc,           // handle to DC
  HBITMAP hbmp,      // handle to bitmap
  uint32_t uStartScan,   // first scan line to set
  uint32_t cScanLines,   // number of scan lines to copy
  LPVOID lpvBits,    // array for bitmap bits
  LPBITMAPINFO lpbi, // bitmap data buffer
  uint32_t uUsage        // RGB or palette index
)
{
	uint32_t	iColorTableSize = 0;

	if (!hbmp)
		return 0;

	// Get dimensions of bitmap
	BITMAP bm;
	if (!::GetObject(hbmp, sizeof(bm),(LPVOID)&bm))
		return 0;

	//3. Creating new bitmap and receive pointer to it's bits.
	HBITMAP hTargetBitmap;
	void *pBuffer;
	
	//3.1 Initilize DIBINFO structure
	DIBINFO  dibInfo;
	dibInfo.bmiHeader.biBitCount = 24;
	dibInfo.bmiHeader.biClrImportant = 0;
	dibInfo.bmiHeader.biClrUsed = 0;
	dibInfo.bmiHeader.biCompression = 0;
	dibInfo.bmiHeader.biHeight = bm.bmHeight;
	dibInfo.bmiHeader.biPlanes = 1;
	dibInfo.bmiHeader.biSize = 40;
	dibInfo.bmiHeader.biSizeImage = bm.bmHeight*BytesPerLine(bm.bmWidth,24);
	dibInfo.bmiHeader.biWidth = bm.bmWidth;
	dibInfo.bmiHeader.biXPelsPerMeter = 3780;
	dibInfo.bmiHeader.biYPelsPerMeter = 3780;
	dibInfo.bmiColors[0].rgbBlue = 0;
	dibInfo.bmiColors[0].rgbGreen = 0;
	dibInfo.bmiColors[0].rgbRed = 0;
	dibInfo.bmiColors[0].rgbReserved = 0;

	//3.2 Create bitmap and receive pointer to points into pBuffer
	HDC hDC = ::GetDC(NULL);
	ASSERT(hDC);
	hTargetBitmap = CreateDIBSection(
		hDC,
		(const BITMAPINFO*)dibInfo,
		DIB_RGB_COLORS,
		(void**)&pBuffer,
		NULL,
		0);

	::ReleaseDC(NULL, hDC);

	//4. Copy source bitmap into the target bitmap.

	//4.1 Create 2 device contexts
	HDC memDc = CreateCompatibleDC(NULL);
	if (!memDc) {
		ASSERT(FALSE);
	}
	
	HDC targetDc = CreateCompatibleDC(NULL);
	if (!targetDc) {
		ASSERT(FALSE);
	}

	//4.2 Select source bitmap into one DC, target into another
	HBITMAP hOldBitmap1 = (HBITMAP)::SelectObject(memDc, hbmp);
	HBITMAP hOldBitmap2 = (HBITMAP)::SelectObject(targetDc, hTargetBitmap);

	//4.3 Copy source bitmap into the target one
	BitBlt(targetDc, 0, 0, bm.bmWidth, bm.bmHeight, memDc, 0, 0, SRCCOPY);

	//4.4 Restore device contexts
	::SelectObject(memDc, hOldBitmap1);
	::SelectObject(targetDc, hOldBitmap2);
	DeleteDC(memDc);
	DeleteDC(targetDc);

	//Here we can bitmap bits: pBuffer. Note:
	// 1. pBuffer contains 3 bytes per point
	// 2. Lines ane from the bottom to the top!
	// 3. Points in the line are from the left to the right
	// 4. Bytes in one point are BGR (blue, green, red) not RGB
	// 5. Don't delete pBuffer, it will be automatically deleted
	//    when delete hTargetBitmap
	lpvBits = pBuffer;

	DeleteObject(hbmp);
	//DeleteObject(hTargetBitmap);

	return 1;
}
#endif 

////////////////////////////////////////////////////////////////////////////////
#if CXIMAGE_SUPPORT_WINDOWS
////////////////////////////////////////////////////////////////////////////////
int32_t CxImage::Blt(HDC pDC, int32_t x, int32_t y)
{
	if((pDib==0)||(pDC==0)||(!info.bEnabled)) return 0;

    HBRUSH brImage = CreateDIBPatternBrushPt(pDib, DIB_RGB_COLORS);
    POINT pt;
    SetBrushOrgEx(pDC,x,y,&pt); //<RT>
    HBRUSH brOld = (HBRUSH) SelectObject(pDC, brImage);
    PatBlt(pDC, x, y, head.biWidth, head.biHeight, PATCOPY);
    SelectObject(pDC, brOld);
    SetBrushOrgEx(pDC,pt.x,pt.y,NULL);
    DeleteObject(brImage);
    return 1;
}
////////////////////////////////////////////////////////////////////////////////
/**
 * Transfer the image in a global bitmap handle (clipboard copy)
 */
HANDLE CxImage::CopyToHandle()
{
	HANDLE hMem=NULL;
	if (pDib){
		hMem= GlobalAlloc(GHND, GetSize());
		if (hMem){
			uint8_t* pDst=(uint8_t*)GlobalLock(hMem);
			if (pDst){
				memcpy(pDst,pDib,GetSize());
			}
			GlobalUnlock(hMem);
		}
	}
	return hMem;
}
////////////////////////////////////////////////////////////////////////////////
/**
 * Global object (clipboard paste) constructor
 * \param hMem: source bitmap object, the clipboard format must be CF_DIB
 * \return true if everything is ok
 */
bool CxImage::CreateFromHANDLE(HANDLE hMem)
{
	if (!Destroy())
		return false;

	uint32_t dwSize = GlobalSize(hMem);
	if (!dwSize) return false;

	uint8_t *lpVoid;						//pointer to the bitmap
	lpVoid = (uint8_t *)GlobalLock(hMem);
	BITMAPINFOHEADER *pHead;			//pointer to the bitmap header
	pHead = (BITMAPINFOHEADER *)lpVoid;
	if (lpVoid){

		//CxMemFile hFile(lpVoid,dwSize);

		//copy the bitmap header
		memcpy(&head,pHead,sizeof(BITMAPINFOHEADER));
		//check if it's a top-down bitmap
		bool bTopDownDib = head.biHeight<0;
		if (bTopDownDib) head.biHeight=-head.biHeight;
		//create the image
		if(!Create(head.biWidth,head.biHeight,head.biBitCount)){
			GlobalUnlock(hMem);
			return false;
		}
		//preserve DPI
		SetXDPI((int32_t)floor(head.biXPelsPerMeter * 254.0 / 10000.0 + 0.5));
		SetYDPI((int32_t)floor(head.biYPelsPerMeter * 254.0 / 10000.0 + 0.5));

		/*//copy the pixels (old way)
		if((pHead->biCompression != BI_RGB) || (pHead->biBitCount == 32)){ //<Jörgen Alfredsson>
			// BITFIELD case
			// set the internal header in the dib
			memcpy(pDib,&head,sizeof(head));
			// get the bitfield masks
			uint32_t bf[3];
			memcpy(bf,lpVoid+pHead->biSize,12);
			// transform into RGB
			Bitfield2RGB(lpVoid+pHead->biSize+12,bf[0],bf[1],bf[2],(uint8_t)pHead->biBitCount);
		} else { //normal bitmap
			memcpy(pDib,lpVoid,GetSize());
		}*/

		// <Michael Gandyra>
		// fill in color map
		bool bIsOldBmp = (head.biSize == sizeof(BITMAPCOREHEADER));
		RGBQUAD *pRgb = GetPalette();
		if (pRgb) {
			// number of colors to fill in
			int32_t nColors = DibNumColors(pHead);
			if (bIsOldBmp) {
				/* get pointer to BITMAPCOREINFO (old style 1.x) */
				LPBITMAPCOREINFO lpbmc = (LPBITMAPCOREINFO)lpVoid;
				for (int32_t i = nColors - 1; i >= 0; i--) {
					pRgb[i].rgbRed      = lpbmc->bmciColors[i].rgbtRed;
					pRgb[i].rgbGreen    = lpbmc->bmciColors[i].rgbtGreen;
					pRgb[i].rgbBlue     = lpbmc->bmciColors[i].rgbtBlue;
					pRgb[i].rgbReserved = (uint8_t)0;
				}
			} else {
				/* get pointer to BITMAPINFO (new style 3.x) */
				LPBITMAPINFO lpbmi = (LPBITMAPINFO)lpVoid;
				for (int32_t i = nColors - 1; i >= 0; i--) {
					pRgb[i].rgbRed      = lpbmi->bmiColors[i].rgbRed;
					pRgb[i].rgbGreen    = lpbmi->bmiColors[i].rgbGreen;
					pRgb[i].rgbBlue     = lpbmi->bmiColors[i].rgbBlue;
					pRgb[i].rgbReserved = (uint8_t)0;
				}
			}
		}

		// <Michael Gandyra>
		uint32_t dwCompression = pHead->biCompression;
		// compressed bitmap ?
		if(dwCompression!=BI_RGB || pHead->biBitCount==32 || pHead->biBitCount ==16) {
			// get the bitmap bits
			LPSTR lpDIBBits = (LPSTR)((uint8_t*)pHead + *(uint32_t*)pHead + (uint16_t)(GetNumColors() * sizeof(RGBQUAD)));
			// decode and copy them to our image
			switch (pHead->biBitCount) {
			case 32 :
				{
					// BITFIELD case
					if (dwCompression == BI_BITFIELDS || dwCompression == BI_RGB) {
						// get the bitfield masks
						uint32_t bf[3];
						memcpy(bf,lpVoid+pHead->biSize,12);
						// transform into RGB
						Bitfield2RGB(lpVoid+pHead->biSize+12,bf[0],bf[1],bf[2],(uint8_t)pHead->biBitCount);
					} else {
						// "unknown compression";
						GlobalUnlock(hMem);
						return false;
					}
				}
				break;
			case 16 :
				{
					// get the bitfield masks
					int32_t offset=0;
					uint32_t bf[3];
					if (dwCompression == BI_BITFIELDS) {
						memcpy(bf,lpVoid+pHead->biSize,12);
						offset= 12;
					} else {
						bf[0] = 0x7C00;
						bf[1] = 0x3E0;
						bf[2] = 0x1F; // RGB555
					}
					// copy the pixels
					memcpy(info.pImage, lpDIBBits + offset, head.biHeight*((head.biWidth+1)/2)*4);
					// transform into RGB
					Bitfield2RGB(info.pImage, bf[0], bf[1], bf[2], 16);
				}
				break;
			case 8 :
			case 4 :
			case 1 :
				{
					switch (dwCompression) {
					case BI_RLE4:
						{
							uint8_t status_byte = 0;
							uint8_t second_byte = 0;
							int32_t scanline = 0;
							int32_t bits = 0;
							BOOL low_nibble = FALSE;
							CImageIterator iter(this);

							for (BOOL bContinue = TRUE; bContinue; ) {
								status_byte = *(lpDIBBits++);
								switch (status_byte) {
								case RLE_COMMAND :
									status_byte = *(lpDIBBits++);
									switch (status_byte) {
									case RLE_ENDOFLINE :
										bits = 0;
										scanline++;
										low_nibble = FALSE;
										break;
									case RLE_ENDOFBITMAP :
										bContinue = FALSE;
										break;
									case RLE_DELTA :
										{
											// read the delta values
											uint8_t delta_x;
											uint8_t delta_y;
											delta_x = *(lpDIBBits++);
											delta_y = *(lpDIBBits++);
											// apply them
											bits       += delta_x / 2;
											scanline   += delta_y;
											break;
										}
									default :
										second_byte = *(lpDIBBits++);
										uint8_t* sline = iter.GetRow(scanline);
										for (int32_t i = 0; i < status_byte; i++) {
											if ((uint8_t*)(sline+bits) < (uint8_t*)(info.pImage+head.biSizeImage)){
												if (low_nibble) {
													if (i&1)
														*(sline + bits) |= (second_byte & 0x0f);
													else
														*(sline + bits) |= (second_byte & 0xf0)>>4;
													bits++;
												} else {
													if (i&1)
														*(sline + bits) = (uint8_t)(second_byte & 0x0f)<<4;
													else
														*(sline + bits) = (uint8_t)(second_byte & 0xf0);
												}
											}

											if ((i & 1) && (i != (status_byte - 1)))
												second_byte = *(lpDIBBits++);

											low_nibble = !low_nibble;
										}
										if ((((status_byte+1) >> 1) & 1 ) == 1)
											second_byte = *(lpDIBBits++);												
										break;
									};
									break;
									default :
									{
										uint8_t* sline = iter.GetRow(scanline);
										second_byte = *(lpDIBBits++);
										for (unsigned i = 0; i < status_byte; i++) {
											if ((uint8_t*)(sline+bits) < (uint8_t*)(info.pImage+head.biSizeImage)){
												if (low_nibble) {
													if (i&1)
														*(sline + bits) |= (second_byte & 0x0f);
													else
														*(sline + bits) |= (second_byte & 0xf0)>>4;
													bits++;
												} else {
													if (i&1)
														*(sline + bits) = (uint8_t)(second_byte & 0x0f)<<4;
													else
														*(sline + bits) = (uint8_t)(second_byte & 0xf0);
												}
											}
											low_nibble = !low_nibble;
										}
									}
									break;
								};
							}
						}
						break;
					case BI_RLE8 :
						{
							uint8_t status_byte = 0;
							uint8_t second_byte = 0;
							int32_t scanline = 0;
							int32_t bits = 0;
							CImageIterator iter(this);

							for (BOOL bContinue = TRUE; bContinue; ) {
								status_byte = *(lpDIBBits++);
								if (status_byte==RLE_COMMAND) {
									status_byte = *(lpDIBBits++);
									switch (status_byte) {
									case RLE_ENDOFLINE :
										bits = 0;
										scanline++;
										break;
									case RLE_ENDOFBITMAP :
										bContinue = FALSE;
										break;
									case RLE_DELTA :
										{
											// read the delta values
											uint8_t delta_x;
											uint8_t delta_y;
											delta_x = *(lpDIBBits++);
											delta_y = *(lpDIBBits++);
											// apply them
											bits     += delta_x;
											scanline += delta_y;
										}
										break;
									default :
										int32_t nNumBytes = sizeof(uint8_t) * status_byte;
										memcpy((void *)(iter.GetRow(scanline) + bits), lpDIBBits, nNumBytes);
										lpDIBBits += nNumBytes;
										// align run length to even number of bytes 
										if ((status_byte & 1) == 1)
											second_byte = *(lpDIBBits++);
										bits += status_byte;
										break;
									};
								} else {
									uint8_t *sline = iter.GetRow(scanline);
									second_byte = *(lpDIBBits++);
									for (unsigned i = 0; i < status_byte; i++) {
										if ((uint8_t*)(sline+bits) < (uint8_t*)(info.pImage+head.biSizeImage)){
											*(sline + bits) = second_byte;
											bits++;
										} else {
											bContinue = FALSE; //don't delete: we are in memory, it is not as with files
											break;
										}
									}
								}
							}
						}
						break;
					default :
						{
							// "compression type not supported";
							GlobalUnlock(hMem);
							return false;
						}
					}
				}
			}
		} else {
			//normal bitmap (not compressed)
			memcpy(pDib,lpVoid,GetSize());
		}

		GlobalUnlock(hMem);

		if (bTopDownDib) Flip();

		return true;
	}
	return false;
}
////////////////////////////////////////////////////////////////////////////////
/**
 * Transfer the image in a icon handle, with transparency.
 * \param hdc: target device context (the screen, usually)
 * \param bTransparency : (optional) exports trancparency 
 * \return icon handle, or NULL if an error occurs.
 * \sa MakeBitmap
 * \author [brunom]
 */
HICON CxImage::MakeIcon(HDC hdc, bool bTransparency)
{
	HICON hDestIcon	= 0;

	ICONINFO csDest;

	csDest.fIcon = TRUE;
	csDest.xHotspot = 0;
	csDest.yHotspot = 0;

	// Assign HBITMAP with Transparency to ICON Info structure
	csDest.hbmColor = MakeBitmap( hdc, bTransparency );

	// Create Mask just in case we need a Mask for the Icons
	CxImage a_Mask;
	GetTransparentMask(&a_Mask);

	// Assign Mask
	csDest.hbmMask  = a_Mask.MakeBitmap();

	// Create Icon
	hDestIcon = ::CreateIconIndirect(&csDest);

	return hDestIcon;
}
////////////////////////////////////////////////////////////////////////////////
/**
 * Transfer the image in a  bitmap handle
 * \param hdc: target device context (the screen, usually)
 * \param bTransparency : (optional) exports trancparency 
 * \return bitmap handle, or NULL if an error occurs.
 * \sa Draw2HBITMAP, MakeIcon
 * \author []; changes [brunom]
 */
HBITMAP CxImage::MakeBitmap(HDC hdc, bool bTransparency)
{
	if (!pDib)
		return NULL;

	// Create HBITMAP with Trancparency
	if( (pAlpha!=0) && bTransparency )
	{
		HDC hMemDC;
		if (hdc)
			hMemDC = hdc;
		else
			hMemDC = CreateCompatibleDC(NULL);

		BITMAPINFO bi;

		// Fill in the BITMAPINFOHEADER
		bi.bmiHeader.biSize = sizeof(BITMAPINFOHEADER);
		bi.bmiHeader.biWidth = GetWidth();
		bi.bmiHeader.biHeight = GetHeight();
		bi.bmiHeader.biPlanes = 1;
		bi.bmiHeader.biBitCount = 32;
		bi.bmiHeader.biCompression = BI_RGB;
		bi.bmiHeader.biSizeImage = 4 * GetWidth() * GetHeight();
		bi.bmiHeader.biXPelsPerMeter = 0;
		bi.bmiHeader.biYPelsPerMeter = 0;
		bi.bmiHeader.biClrUsed = 0;
		bi.bmiHeader.biClrImportant = 0;

		COLORREF* pCrBits = NULL;
		HBITMAP hbmp = CreateDIBSection (
			hMemDC, &bi, DIB_RGB_COLORS, (void **)&pCrBits,
			NULL, NULL);

		if (!hdc)
			DeleteDC(hMemDC);

		DIBSECTION ds;
		if (::GetObject (hbmp, sizeof (DIBSECTION), &ds) == 0)
		{
			return 0;
		}

		// transfer Pixels from CxImage to Bitmap
		RGBQUAD* pBit = (RGBQUAD*) ds.dsBm.bmBits;
		int32_t lPx,lPy;
		for( lPy=0 ; lPy < bi.bmiHeader.biHeight ; ++lPy )
		{
			for( lPx=0 ; lPx < bi.bmiHeader.biWidth ; ++lPx )
			{
				RGBQUAD lPixel = GetPixelColor(lPx,lPy,true);
				*pBit = lPixel;
				pBit++;
			}
		}

		return hbmp;
	}

	// Create HBITMAP without Trancparency
	if (!hdc){
		// this call to CreateBitmap doesn't create a DIB <jaslet>
		// // Create a device-independent bitmap <CSC>
		//  return CreateBitmap(head.biWidth,head.biHeight,	1, head.biBitCount, GetBits());
		// use instead this code
		HDC hMemDC = CreateCompatibleDC(NULL);
		LPVOID pBit32;
		HBITMAP bmp = CreateDIBSection(hMemDC,(LPBITMAPINFO)pDib,DIB_RGB_COLORS, &pBit32, NULL, 0);
		if (pBit32) memcpy(pBit32, GetBits(), head.biSizeImage);
		DeleteDC(hMemDC);
		return bmp;
	}

	// this single line seems to work very well
	//HBITMAP bmp = CreateDIBitmap(hdc, (LPBITMAPINFOHEADER)pDib, CBM_INIT,
	//	GetBits(), (LPBITMAPINFO)pDib, DIB_RGB_COLORS);
	// this alternative works also with _WIN32_WCE
	LPVOID pBit32;
	HBITMAP bmp = CreateDIBSection(hdc, (LPBITMAPINFO)pDib, DIB_RGB_COLORS, &pBit32, NULL, 0);
	if (pBit32) memcpy(pBit32, GetBits(), head.biSizeImage);

	return bmp;
}
////////////////////////////////////////////////////////////////////////////////
/**
 * check if the bitmap contains transparency data
 * \param hbmp : bitmap resource handle
 * \return true the bitmap has transparency
 * \author [brunom]
 */
bool CxImage::IsHBITMAPAlphaValid( HBITMAP hbmp )
{
	bool lbAlphaValid = false;
	if (hbmp) 
	{ 
		BITMAP bm;
		// get informations about the bitmap
		GetObject(hbmp, sizeof(BITMAP), (LPSTR) &bm);

		// for alpha there must bee 32 Bit's per Pixel ??
		if( bm.bmBitsPixel == 32 )
		{
			BITMAPINFO l_BitmapInfo;
			l_BitmapInfo.bmiHeader.biSize = sizeof(BITMAPINFOHEADER);
			l_BitmapInfo.bmiHeader.biWidth = bm.bmWidth;
			l_BitmapInfo.bmiHeader.biHeight = bm.bmHeight;
			l_BitmapInfo.bmiHeader.biPlanes = bm.bmPlanes;
			l_BitmapInfo.bmiHeader.biBitCount = bm.bmBitsPixel;
			l_BitmapInfo.bmiHeader.biCompression = BI_RGB;

			// create Buffer for Image
			RGBQUAD * l_pRawBytes = new RGBQUAD[bm.bmWidth * bm.bmHeight];

			HDC dc = ::GetDC(NULL);

			if(dc)
			{
				// Get Pixel Data from Image
				if(GetDIBits(dc, hbmp, 0, bm.bmHeight, l_pRawBytes, &l_BitmapInfo, DIB_RGB_COLORS))
				{
					RGBQUAD * lpArray		= l_pRawBytes;
					RGBQUAD * lpArrayEnd	= l_pRawBytes + (bm.bmWidth * bm.bmHeight);

					// check if Alpha Channel is realy valid (anny value not zero)
					for( ;lpArray != lpArrayEnd ; ++lpArray )
					{
						// any alpha value not zero 
						if( lpArray->rgbReserved != 0 )
						{
							// must be vaid alph channel
							lbAlphaValid = true;
							break;
						}
					}
				}
				::ReleaseDC(NULL, dc);
			}
			// free temporary Memory
			delete [] l_pRawBytes;
		}
	}

	return lbAlphaValid;
}
////////////////////////////////////////////////////////////////////////////////
/**
 * Bitmap resource constructor
 * \param hbmp : bitmap resource handle
 * \param hpal : (optional) palette, useful for 8bpp DC 
 * \param bTransparency : (optional) for 32bpp images only, imports trancparency 
 * \return true if everything is ok
 * \author []; changes [brunom]
 */
bool CxImage::CreateFromHBITMAP(HBITMAP hbmp, HPALETTE hpal, bool bTransparency)
{
	if (!Destroy())
		return false;

	if (hbmp) { 
        BITMAP bm;
		// get informations about the bitmap
        GetObject(hbmp, sizeof(BITMAP), (LPSTR) &bm);

		// Transparency in HBITMAP
		if(bTransparency && IsHBITMAPAlphaValid(hbmp))
		{
			bool l_bResult = true;

			BITMAPINFO l_BitmapInfo;
			l_BitmapInfo.bmiHeader.biSize = sizeof(BITMAPINFOHEADER);
			l_BitmapInfo.bmiHeader.biWidth = bm.bmWidth;
			l_BitmapInfo.bmiHeader.biHeight = bm.bmHeight;
			l_BitmapInfo.bmiHeader.biPlanes = bm.bmPlanes;
			l_BitmapInfo.bmiHeader.biBitCount = bm.bmBitsPixel;
			l_BitmapInfo.bmiHeader.biCompression = BI_RGB;

			RGBQUAD *l_pRawBytes = new RGBQUAD[bm.bmWidth * bm.bmHeight];

			HDC dc = ::GetDC(NULL);

			if(dc)
			{
				if(GetDIBits(dc, hbmp, 0, bm.bmHeight, l_pRawBytes, &l_BitmapInfo, DIB_RGB_COLORS))
					l_bResult = CreateFromArray((uint8_t*)l_pRawBytes, bm.bmWidth, bm.bmHeight, bm.bmBitsPixel, bm.bmWidthBytes, false);
				else
					l_bResult = false;

				::ReleaseDC(NULL, dc);
			}
			else
				l_bResult = false;

			delete [] l_pRawBytes;

			return l_bResult;
		}
		else
		{
			// create the image
			if (!Create(bm.bmWidth, bm.bmHeight, bm.bmBitsPixel, 0))
				return false;
			// create a device context for the bitmap
			HDC dc = ::GetDC(NULL);
			if (!dc)
				return false;

			if (hpal){
				SelectObject(dc,hpal); //the palette you should get from the user or have a stock one
				RealizePalette(dc);
			}

			// copy the pixels
			if (GetDIBits(dc, hbmp, 0, head.biHeight, info.pImage,
				(LPBITMAPINFO)pDib, DIB_RGB_COLORS) == 0){ //replace &head with pDib <Wil Stark>
				strcpy(info.szLastError,"GetDIBits failed");
				::ReleaseDC(NULL, dc);
				return false;
			}
			::ReleaseDC(NULL, dc);
			return true;
		}
    }
	return false;
}
////////////////////////////////////////////////////////////////////////////////
/**
 * icon resource constructor
 * \param hico : icon resource handle
 * \param bTransparency : (optional) for 32bpp images only, imports trancparency 
 * \return true if everything is ok
 * \author []; changes [Arlen Albert Keshabian], [brunom]
 */
#if !defined (_WIN32_WCE)
bool CxImage::CreateFromHICON(HICON hico, bool bTransparency)
{
	if (!Destroy() || !hico)
		return false;

	bool l_bResult = true;

	ICONINFO iinfo;
	GetIconInfo(hico,&iinfo);

	//BITMAP l_Bitmap;
	//GetObject(iinfo.hbmColor, sizeof(BITMAP), &l_Bitmap);

	l_bResult =  CreateFromHBITMAP( iinfo.hbmColor, NULL, bTransparency );

#if CXIMAGE_SUPPORT_ALPHA
	if(l_bResult && ((!IsHBITMAPAlphaValid(iinfo.hbmColor)) || (!bTransparency)) )
	{
		CxImage mask;
		mask.CreateFromHBITMAP(iinfo.hbmMask);
		mask.GrayScale();
		mask.Negative();
		AlphaSet(mask);
	}
#endif

	DeleteObject(iinfo.hbmColor); //<Sims>
	DeleteObject(iinfo.hbmMask);  //<Sims>
	
	return l_bResult;
}
#endif //_WIN32_WCE
////////////////////////////////////////////////////////////////////////////////
int32_t CxImage::Draw(HDC hdc, const RECT& rect, RECT* pClipRect, bool bSmooth, bool bFlipY)
{
	return Draw(hdc, rect.left, rect.top, rect.right - rect.left, rect.bottom - rect.top, pClipRect,bSmooth, bFlipY);
}
////////////////////////////////////////////////////////////////////////////////
/**
 * Draws the image in the specified device context, with support for alpha channel, alpha palette, transparency, opacity.
 * \param hdc : destination device context
 * \param x,y : (optional) offset
 * \param cx,cy : (optional) size.
 *                 - If cx or cy are not specified (or less than 0), the normal width or height will be used
 *                 - If cx or cy are different than width or height, the image will be stretched
 *
 * \param pClipRect : limit the drawing operations inside a given rectangle in the output device context.
 * \param bSmooth : activates a bilinear filter that will enhance the appearence for zommed pictures.
 *                   Quite slow. Needs CXIMAGE_SUPPORT_INTERPOLATION.
 * \param bFlipY : draws a mirror image along the y-axis
 * \return true if everything is ok
 */
int32_t CxImage::Draw(HDC hdc, int32_t x, int32_t y, int32_t cx, int32_t cy, RECT* pClipRect, bool bSmooth, bool bFlipY)
{
	if((pDib==0)||(hdc==0)||(cx==0)||(cy==0)||(!info.bEnabled)) return 0;

	if (cx < 0) cx = head.biWidth;
	if (cy < 0) cy = head.biHeight;
	bool bTransparent = info.nBkgndIndex >= 0;
	bool bAlpha = pAlpha != 0;

	//required for MM_ANISOTROPIC, MM_HIENGLISH, and similar modes [Greg Peatfield]
	int32_t hdc_Restore = ::SaveDC(hdc);
	if (!hdc_Restore) 
		return 0;

#if !defined (_WIN32_WCE)
	RECT mainbox; // (experimental) 
	if (pClipRect){
		GetClipBox(hdc,&mainbox);
		HRGN rgn = CreateRectRgnIndirect(pClipRect);
		ExtSelectClipRgn(hdc,rgn,RGN_AND);
		DeleteObject(rgn);
	}
#endif

	//find the smallest area to paint
	RECT clipbox,paintbox;
	GetClipBox(hdc,&clipbox);

	paintbox.top = min(clipbox.bottom,max(clipbox.top,y));
	paintbox.left = min(clipbox.right,max(clipbox.left,x));
	paintbox.right = max(clipbox.left,min(clipbox.right,x+cx));
	paintbox.bottom = max(clipbox.top,min(clipbox.bottom,y+cy));

	int32_t destw = paintbox.right - paintbox.left;
	int32_t desth = paintbox.bottom - paintbox.top;

	if (!(bTransparent || bAlpha || info.bAlphaPaletteEnabled)){
		if (cx==head.biWidth && cy==head.biHeight){ //NORMAL
#if !defined (_WIN32_WCE)
			SetStretchBltMode(hdc,COLORONCOLOR);
#endif
			if (bFlipY){
				StretchDIBits(hdc, x, y+cy-1,
					cx, -cy, 0, 0, cx, cy,
					info.pImage,(BITMAPINFO*)pDib,DIB_RGB_COLORS,SRCCOPY);
			} else {
				SetDIBitsToDevice(hdc, x, y, cx, cy, 0, 0, 0, cy,
						info.pImage,(BITMAPINFO*)pDib,DIB_RGB_COLORS);
			}
		} else { //STRETCH
			//pixel informations
			RGBQUAD c={0,0,0,0};
			//Preparing Bitmap Info
			BITMAPINFO bmInfo;
			memset(&bmInfo.bmiHeader,0,sizeof(BITMAPINFOHEADER));
			bmInfo.bmiHeader.biSize=sizeof(BITMAPINFOHEADER);
			bmInfo.bmiHeader.biWidth=destw;
			bmInfo.bmiHeader.biHeight=desth;
			bmInfo.bmiHeader.biPlanes=1;
			bmInfo.bmiHeader.biBitCount=24;
			uint8_t *pbase;	//points to the final dib
			uint8_t *pdst;		//current pixel from pbase
			uint8_t *ppix;		//current pixel from image
			//get the background
			HDC TmpDC=CreateCompatibleDC(hdc);
			HBITMAP TmpBmp=CreateDIBSection(hdc,&bmInfo,DIB_RGB_COLORS,(void**)&pbase,0,0);
			HGDIOBJ TmpObj=SelectObject(TmpDC,TmpBmp);

			if (pbase){
				int32_t xx,yy;
				int32_t sx,sy;
				float dx,dy;
				uint8_t *psrc;

				int32_t ew = ((((24 * destw) + 31) / 32) * 4);
				int32_t ymax = paintbox.bottom;
				int32_t xmin = paintbox.left;
				float fx=(float)head.biWidth/(float)cx;
				float fy=(float)head.biHeight/(float)cy;

				for(yy=0;yy<desth;yy++){
					dy = head.biHeight-(ymax-yy-y)*fy;
					sy = max(0L,(int32_t)floor(dy));
					psrc = info.pImage+sy*info.dwEffWidth;
					if (bFlipY){
						pdst = pbase+(desth-1-yy)*ew;
					} else {
						pdst = pbase+yy*ew;
					}
					for(xx=0;xx<destw;xx++){
						dx = (xx+xmin-x)*fx;
						sx = max(0L,(int32_t)floor(dx));
#if CXIMAGE_SUPPORT_INTERPOLATION
						if (bSmooth){
							if (fx > 1 && fy > 1) { 
								c = GetAreaColorInterpolated(dx - 0.5f, dy - 0.5f, fx, fy, CxImage::IM_BILINEAR, CxImage::OM_REPEAT); 
							} else { 
								c = GetPixelColorInterpolated(dx - 0.5f, dy - 0.5f, CxImage::IM_BILINEAR, CxImage::OM_REPEAT); 
							} 
						} else
#endif //CXIMAGE_SUPPORT_INTERPOLATION
						{
							if (head.biClrUsed){
								c=GetPaletteColor(GetPixelIndex(sx,sy));
							} else {
								ppix = psrc + sx*3;
								c.rgbBlue = *ppix++;
								c.rgbGreen= *ppix++;
								c.rgbRed  = *ppix;
							}
						}
						*pdst++=c.rgbBlue;
						*pdst++=c.rgbGreen;
						*pdst++=c.rgbRed;
					}
				}
			}
			//paint the image & cleanup
			SetDIBitsToDevice(hdc,paintbox.left,paintbox.top,destw,desth,0,0,0,desth,pbase,&bmInfo,0);
			DeleteObject(SelectObject(TmpDC,TmpObj));
			DeleteDC(TmpDC);
		}
	} else {	// draw image with transparent/alpha blending
	//////////////////////////////////////////////////////////////////
		//Alpha blend - Thanks to Florian Egel

		//pixel informations
		RGBQUAD c={0,0,0,0};
		RGBQUAD ct = GetTransColor();
		int32_t* pc = (int32_t*)&c;
		int32_t* pct= (int32_t*)&ct;
		int32_t cit = GetTransIndex();
		int32_t ci = 0;

		//Preparing Bitmap Info
		BITMAPINFO bmInfo;
		memset(&bmInfo.bmiHeader,0,sizeof(BITMAPINFOHEADER));
		bmInfo.bmiHeader.biSize=sizeof(BITMAPINFOHEADER);
		bmInfo.bmiHeader.biWidth=destw;
		bmInfo.bmiHeader.biHeight=desth;
		bmInfo.bmiHeader.biPlanes=1;
		bmInfo.bmiHeader.biBitCount=24;

		uint8_t *pbase;	//points to the final dib
		uint8_t *pdst;		//current pixel from pbase
		uint8_t *ppix;		//current pixel from image

		//get the background
		HDC TmpDC=CreateCompatibleDC(hdc);
		HBITMAP TmpBmp=CreateDIBSection(hdc,&bmInfo,DIB_RGB_COLORS,(void**)&pbase,0,0);
		HGDIOBJ TmpObj=SelectObject(TmpDC,TmpBmp);
		BitBlt(TmpDC,0,0,destw,desth,hdc,paintbox.left,paintbox.top,SRCCOPY);

		if (pbase){
			int32_t xx,yy,alphaoffset,ix,iy;
			uint8_t a,a1,*psrc;
			int32_t ew = ((((24 * destw) + 31) / 32) * 4);
			int32_t ymax = paintbox.bottom;
			int32_t xmin = paintbox.left;

			if (cx!=head.biWidth || cy!=head.biHeight){
				//STRETCH
				float fx=(float)head.biWidth/(float)cx;
				float fy=(float)head.biHeight/(float)cy;
				float dx,dy;
				int32_t sx,sy;
				
				for(yy=0;yy<desth;yy++){
					dy = head.biHeight-(ymax-yy-y)*fy;
					sy = max(0L,(int32_t)floor(dy));

					alphaoffset = sy*head.biWidth;
					if (bFlipY){
						pdst = pbase+(desth-1-yy)*ew;
					} else {
						pdst = pbase + yy*ew;
					}
					psrc = info.pImage + sy*info.dwEffWidth;

					for(xx=0;xx<destw;xx++){
						dx = (xx+xmin-x)*fx;
						sx = max(0L,(int32_t)floor(dx));

						if (bAlpha) a=pAlpha[alphaoffset+sx]; else a=255;
						a =(uint8_t)((a*(1+info.nAlphaMax))>>8);

						if (head.biClrUsed){
							ci = GetPixelIndex(sx,sy);
#if CXIMAGE_SUPPORT_INTERPOLATION
							if (bSmooth){
								if (fx > 1 && fy > 1) { 
									c = GetAreaColorInterpolated(dx - 0.5f, dy - 0.5f, fx, fy, CxImage::IM_BILINEAR, CxImage::OM_REPEAT); 
								} else { 
									c = GetPixelColorInterpolated(dx - 0.5f, dy - 0.5f, CxImage::IM_BILINEAR, CxImage::OM_REPEAT); 
								} 
							} else
#endif //CXIMAGE_SUPPORT_INTERPOLATION
							{
								c = GetPaletteColor(GetPixelIndex(sx,sy));
							}
							if (info.bAlphaPaletteEnabled){
								a = (uint8_t)((a*(1+c.rgbReserved))>>8);
							}
						} else {
#if CXIMAGE_SUPPORT_INTERPOLATION
							if (bSmooth){
								if (fx > 1 && fy > 1) { 
									c = GetAreaColorInterpolated(dx - 0.5f, dy - 0.5f, fx, fy, CxImage::IM_BILINEAR, CxImage::OM_REPEAT); 
								} else { 
									c = GetPixelColorInterpolated(dx - 0.5f, dy - 0.5f, CxImage::IM_BILINEAR, CxImage::OM_REPEAT); 
								} 
							} else
#endif //CXIMAGE_SUPPORT_INTERPOLATION
							{
								ppix = psrc + sx*3;
								c.rgbBlue = *ppix++;
								c.rgbGreen= *ppix++;
								c.rgbRed  = *ppix;
							}
						}
						//if (*pc!=*pct || !bTransparent){
						//if ((head.biClrUsed && ci!=cit) || ((!head.biClrUsed||bSmooth) && *pc!=*pct) || !bTransparent){
						if ((head.biClrUsed && ci!=cit) || (!head.biClrUsed && *pc!=*pct) || !bTransparent){
							// DJT, assume many pixels are fully transparent or opaque and thus avoid multiplication
							if (a == 0) {			// Transparent, retain dest 
								pdst+=3; 
							} else if (a == 255) {	// opaque, ignore dest 
								*pdst++= c.rgbBlue; 
								*pdst++= c.rgbGreen; 
								*pdst++= c.rgbRed; 
							} else {				// semi transparent 
								a1=(uint8_t)~a;
								*pdst++=(uint8_t)((*pdst * a1 + a * c.rgbBlue)>>8); 
								*pdst++=(uint8_t)((*pdst * a1 + a * c.rgbGreen)>>8); 
								*pdst++=(uint8_t)((*pdst * a1 + a * c.rgbRed)>>8); 
							} 
						} else {
							pdst+=3;
						}
					}
				}
			} else {
				//NORMAL
				iy=head.biHeight-ymax+y;
				for(yy=0;yy<desth;yy++,iy++){
					alphaoffset=iy*head.biWidth;
					ix=xmin-x;
					if (bFlipY){
						pdst = pbase+(desth-1-yy)*ew;
					} else {
						pdst = pbase+yy*ew;
					}
					ppix=info.pImage+iy*info.dwEffWidth+ix*3;
					for(xx=0;xx<destw;xx++,ix++){

						if (bAlpha) a=pAlpha[alphaoffset+ix]; else a=255;
						a = (uint8_t)((a*(1+info.nAlphaMax))>>8);

						if (head.biClrUsed){
							ci = GetPixelIndex(ix,iy);
							c = GetPaletteColor((uint8_t)ci);
							if (info.bAlphaPaletteEnabled){
								a = (uint8_t)((a*(1+c.rgbReserved))>>8);
							}
						} else {
							c.rgbBlue = *ppix++;
							c.rgbGreen= *ppix++;
							c.rgbRed  = *ppix++;
						}

						//if (*pc!=*pct || !bTransparent){
						if ((head.biClrUsed && ci!=cit) || (!head.biClrUsed && *pc!=*pct) || !bTransparent){
							// DJT, assume many pixels are fully transparent or opaque and thus avoid multiplication
							if (a == 0) {			// Transparent, retain dest 
								pdst+=3; 
							} else if (a == 255) {	// opaque, ignore dest 
								*pdst++= c.rgbBlue; 
								*pdst++= c.rgbGreen; 
								*pdst++= c.rgbRed; 
							} else {				// semi transparent 
								a1=(uint8_t)~a;
								*pdst++=(uint8_t)((*pdst * a1 + a * c.rgbBlue)>>8); 
								*pdst++=(uint8_t)((*pdst * a1 + a * c.rgbGreen)>>8); 
								*pdst++=(uint8_t)((*pdst * a1 + a * c.rgbRed)>>8); 
							} 
						} else {
							pdst+=3;
						}
					}
				}
			}
		}
		//paint the image & cleanup
		SetDIBitsToDevice(hdc,paintbox.left,paintbox.top,destw,desth,0,0,0,desth,pbase,&bmInfo,0);
		DeleteObject(SelectObject(TmpDC,TmpObj));
		DeleteDC(TmpDC);
	}

#if !defined (_WIN32_WCE)
	if (pClipRect){  // (experimental)
		HRGN rgn = CreateRectRgnIndirect(&mainbox);
		ExtSelectClipRgn(hdc,rgn,RGN_OR);
		DeleteObject(rgn);
	}
#endif

	::RestoreDC(hdc,hdc_Restore);
	return 1;
}

////////////////////////////////////////////////////////////////////////////////
/**
 * renders the image into a HBITMAP handle
 * \param hdc : destination device context
 * \param x,y : (optional) offset
 * \param cx,cy : (optional) size.
 *                 - If cx or cy are not specified (or less than 0), the normal width or height will be used
 *                 - If cx or cy are different than width or height, the image will be stretched
 * \param pClipRect : limit the drawing operations inside a given rectangle in the output device context.
 * \param bSmooth : activates a bilinear filter that will enhance the appearence for zommed pictures.
 *                   Quite slow. Needs CXIMAGE_SUPPORT_INTERPOLATION.
 * \return HBITMAP handle, NULL in case of error
 * \sa MakeBitmap
 */
HBITMAP CxImage::Draw2HBITMAP(HDC hdc, int32_t x, int32_t y, int32_t cx, int32_t cy, RECT* pClipRect, bool bSmooth)
{
	if((pDib==0)||(hdc==0)||(cx==0)||(cy==0)||(!info.bEnabled)) return 0;

	if (cx < 0) cx = head.biWidth;
	if (cy < 0) cy = head.biHeight;
	bool bTransparent = info.nBkgndIndex >= 0;
	bool bAlpha = pAlpha != 0;

	//required for MM_ANISOTROPIC, MM_HIENGLISH, and similar modes [Greg Peatfield]
	int32_t hdc_Restore = ::SaveDC(hdc);
	if (!hdc_Restore) 
		return 0;

#if !defined (_WIN32_WCE)
	RECT mainbox; // (experimental) 
	if (pClipRect){
		GetClipBox(hdc,&mainbox);
		HRGN rgn = CreateRectRgnIndirect(pClipRect);
		ExtSelectClipRgn(hdc,rgn,RGN_AND);
		DeleteObject(rgn);
	}
#endif

	HBITMAP TmpBmp;

	//find the smallest area to paint
	RECT clipbox,paintbox;
	GetClipBox(hdc,&clipbox);

	paintbox.top = min(clipbox.bottom,max(clipbox.top,y));
	paintbox.left = min(clipbox.right,max(clipbox.left,x));
	paintbox.right = max(clipbox.left,min(clipbox.right,x+cx));
	paintbox.bottom = max(clipbox.top,min(clipbox.bottom,y+cy));

	int32_t destw = paintbox.right - paintbox.left;
	int32_t desth = paintbox.bottom - paintbox.top;

	if (!(bTransparent || bAlpha || info.bAlphaPaletteEnabled)){
		if (cx==head.biWidth && cy==head.biHeight){ //NORMAL
#if !defined (_WIN32_WCE)
			SetStretchBltMode(hdc,COLORONCOLOR);
#endif
			SetDIBitsToDevice(hdc, x, y, cx, cy, 0, 0, 0, cy,
						info.pImage,(BITMAPINFO*)pDib,DIB_RGB_COLORS);
		} else { //STRETCH
			//pixel informations
			RGBQUAD c={0,0,0,0};
			//Preparing Bitmap Info
			BITMAPINFO bmInfo;
			memset(&bmInfo.bmiHeader,0,sizeof(BITMAPINFOHEADER));
			bmInfo.bmiHeader.biSize=sizeof(BITMAPINFOHEADER);
			bmInfo.bmiHeader.biWidth=destw;
			bmInfo.bmiHeader.biHeight=desth;
			bmInfo.bmiHeader.biPlanes=1;
			bmInfo.bmiHeader.biBitCount=24;
			uint8_t *pbase;	//points to the final dib
			uint8_t *pdst;		//current pixel from pbase
			uint8_t *ppix;		//current pixel from image
			//get the background
			HDC TmpDC=CreateCompatibleDC(hdc);
			TmpBmp=CreateDIBSection(hdc,&bmInfo,DIB_RGB_COLORS,(void**)&pbase,0,0);
			HGDIOBJ TmpObj=SelectObject(TmpDC,TmpBmp);

			if (pbase){
				int32_t xx,yy;
				int32_t sx,sy;
				float dx,dy;
				uint8_t *psrc;

				int32_t ew = ((((24 * destw) + 31) / 32) * 4);
				int32_t ymax = paintbox.bottom;
				int32_t xmin = paintbox.left;
				float fx=(float)head.biWidth/(float)cx;
				float fy=(float)head.biHeight/(float)cy;

				for(yy=0;yy<desth;yy++){
					dy = head.biHeight-(ymax-yy-y)*fy;
					sy = max(0L,(int32_t)floor(dy));
					psrc = info.pImage+sy*info.dwEffWidth;
					pdst = pbase+yy*ew;
					for(xx=0;xx<destw;xx++){
						dx = (xx+xmin-x)*fx;
						sx = max(0L,(int32_t)floor(dx));
#if CXIMAGE_SUPPORT_INTERPOLATION
						if (bSmooth){
							if (fx > 1 && fy > 1) { 
								c = GetAreaColorInterpolated(dx - 0.5f, dy - 0.5f, fx, fy, CxImage::IM_BILINEAR, CxImage::OM_REPEAT); 
							} else { 
								c = GetPixelColorInterpolated(dx - 0.5f, dy - 0.5f, CxImage::IM_BILINEAR, CxImage::OM_REPEAT); 
							} 
						} else
#endif //CXIMAGE_SUPPORT_INTERPOLATION
						{
							if (head.biClrUsed){
								c=GetPaletteColor(GetPixelIndex(sx,sy));
							} else {
								ppix = psrc + sx*3;
								c.rgbBlue = *ppix++;
								c.rgbGreen= *ppix++;
								c.rgbRed  = *ppix;
							}
						}
						*pdst++=c.rgbBlue;
						*pdst++=c.rgbGreen;
						*pdst++=c.rgbRed;
					}
				}
			}
			//cleanup
			SelectObject(TmpDC,TmpObj);
			DeleteDC(TmpDC);
		}
	} else {	// draw image with transparent/alpha blending
	//////////////////////////////////////////////////////////////////
		//Alpha blend - Thanks to Florian Egel

		//pixel informations
		RGBQUAD c={0,0,0,0};
		RGBQUAD ct = GetTransColor();
		int32_t* pc = (int32_t*)&c;
		int32_t* pct= (int32_t*)&ct;
		int32_t cit = GetTransIndex();
		int32_t ci = 0;

		//Preparing Bitmap Info
		BITMAPINFO bmInfo;
		memset(&bmInfo.bmiHeader,0,sizeof(BITMAPINFOHEADER));
		bmInfo.bmiHeader.biSize=sizeof(BITMAPINFOHEADER);
		bmInfo.bmiHeader.biWidth=destw;
		bmInfo.bmiHeader.biHeight=desth;
		bmInfo.bmiHeader.biPlanes=1;
		bmInfo.bmiHeader.biBitCount=24;

		uint8_t *pbase;	//points to the final dib
		uint8_t *pdst;		//current pixel from pbase
		uint8_t *ppix;		//current pixel from image

		//get the background
		HDC TmpDC=CreateCompatibleDC(hdc);
		TmpBmp=CreateDIBSection(hdc,&bmInfo,DIB_RGB_COLORS,(void**)&pbase,0,0);
		HGDIOBJ TmpObj=SelectObject(TmpDC,TmpBmp);
		BitBlt(TmpDC,0,0,destw,desth,hdc,paintbox.left,paintbox.top,SRCCOPY);

		if (pbase){
			int32_t xx,yy,alphaoffset,ix,iy;
			uint8_t a,a1,*psrc;
			int32_t ew = ((((24 * destw) + 31) / 32) * 4);
			int32_t ymax = paintbox.bottom;
			int32_t xmin = paintbox.left;

			if (cx!=head.biWidth || cy!=head.biHeight){
				//STRETCH
				float fx=(float)head.biWidth/(float)cx;
				float fy=(float)head.biHeight/(float)cy;
				float dx,dy;
				int32_t sx,sy;
				
				for(yy=0;yy<desth;yy++){
					dy = head.biHeight-(ymax-yy-y)*fy;
					sy = max(0L,(int32_t)floor(dy));

					alphaoffset = sy*head.biWidth;
					pdst = pbase + yy*ew;
					psrc = info.pImage + sy*info.dwEffWidth;

					for(xx=0;xx<destw;xx++){
						dx = (xx+xmin-x)*fx;
						sx = max(0L,(int32_t)floor(dx));

						if (bAlpha) a=pAlpha[alphaoffset+sx]; else a=255;
						a =(uint8_t)((a*(1+info.nAlphaMax))>>8);

						if (head.biClrUsed){
							ci = GetPixelIndex(sx,sy);
#if CXIMAGE_SUPPORT_INTERPOLATION
							if (bSmooth){
								if (fx > 1 && fy > 1) { 
									c = GetAreaColorInterpolated(dx - 0.5f, dy - 0.5f, fx, fy, CxImage::IM_BILINEAR, CxImage::OM_REPEAT); 
								} else { 
									c = GetPixelColorInterpolated(dx - 0.5f, dy - 0.5f, CxImage::IM_BILINEAR, CxImage::OM_REPEAT); 
								} 
							} else
#endif //CXIMAGE_SUPPORT_INTERPOLATION
							{
								c = GetPaletteColor(GetPixelIndex(sx,sy));
							}
							if (info.bAlphaPaletteEnabled){
								a = (uint8_t)((a*(1+c.rgbReserved))>>8);
							}
						} else {
#if CXIMAGE_SUPPORT_INTERPOLATION
							if (bSmooth){
								if (fx > 1 && fy > 1) { 
									c = GetAreaColorInterpolated(dx - 0.5f, dy - 0.5f, fx, fy, CxImage::IM_BILINEAR, CxImage::OM_REPEAT); 
								} else { 
									c = GetPixelColorInterpolated(dx - 0.5f, dy - 0.5f, CxImage::IM_BILINEAR, CxImage::OM_REPEAT); 
								} 
							} else
#endif //CXIMAGE_SUPPORT_INTERPOLATION
							{
								ppix = psrc + sx*3;
								c.rgbBlue = *ppix++;
								c.rgbGreen= *ppix++;
								c.rgbRed  = *ppix;
							}
						}
						//if (*pc!=*pct || !bTransparent){
						//if ((head.biClrUsed && ci!=cit) || ((!head.biClrUsed||bSmooth) && *pc!=*pct) || !bTransparent){
						if ((head.biClrUsed && ci!=cit) || (!head.biClrUsed && *pc!=*pct) || !bTransparent){
							// DJT, assume many pixels are fully transparent or opaque and thus avoid multiplication
							if (a == 0) {			// Transparent, retain dest 
								pdst+=3; 
							} else if (a == 255) {	// opaque, ignore dest 
								*pdst++= c.rgbBlue; 
								*pdst++= c.rgbGreen; 
								*pdst++= c.rgbRed; 
							} else {				// semi transparent 
								a1=(uint8_t)~a;
								*pdst++=(uint8_t)((*pdst * a1 + a * c.rgbBlue)>>8); 
								*pdst++=(uint8_t)((*pdst * a1 + a * c.rgbGreen)>>8); 
								*pdst++=(uint8_t)((*pdst * a1 + a * c.rgbRed)>>8); 
							} 
						} else {
							pdst+=3;
						}
					}
				}
			} else {
				//NORMAL
				iy=head.biHeight-ymax+y;
				for(yy=0;yy<desth;yy++,iy++){
					alphaoffset=iy*head.biWidth;
					ix=xmin-x;
					pdst=pbase+yy*ew;
					ppix=info.pImage+iy*info.dwEffWidth+ix*3;
					for(xx=0;xx<destw;xx++,ix++){

						if (bAlpha) a=pAlpha[alphaoffset+ix]; else a=255;
						a = (uint8_t)((a*(1+info.nAlphaMax))>>8);

						if (head.biClrUsed){
							ci = GetPixelIndex(ix,iy);
							c = GetPaletteColor((uint8_t)ci);
							if (info.bAlphaPaletteEnabled){
								a = (uint8_t)((a*(1+c.rgbReserved))>>8);
							}
						} else {
							c.rgbBlue = *ppix++;
							c.rgbGreen= *ppix++;
							c.rgbRed  = *ppix++;
						}

						//if (*pc!=*pct || !bTransparent){
						if ((head.biClrUsed && ci!=cit) || (!head.biClrUsed && *pc!=*pct) || !bTransparent){
							// DJT, assume many pixels are fully transparent or opaque and thus avoid multiplication
							if (a == 0) {			// Transparent, retain dest 
								pdst+=3; 
							} else if (a == 255) {	// opaque, ignore dest 
								*pdst++= c.rgbBlue; 
								*pdst++= c.rgbGreen; 
								*pdst++= c.rgbRed; 
							} else {				// semi transparent 
								a1=(uint8_t)~a;
								*pdst++=(uint8_t)((*pdst * a1 + a * c.rgbBlue)>>8); 
								*pdst++=(uint8_t)((*pdst * a1 + a * c.rgbGreen)>>8); 
								*pdst++=(uint8_t)((*pdst * a1 + a * c.rgbRed)>>8); 
							} 
						} else {
							pdst+=3;
						}
					}
				}
			}
		}
		//cleanup
		SelectObject(TmpDC,TmpObj);
		DeleteDC(TmpDC);
	}

#if !defined (_WIN32_WCE)
	if (pClipRect){  // (experimental)
		HRGN rgn = CreateRectRgnIndirect(&mainbox);
		ExtSelectClipRgn(hdc,rgn,RGN_OR);
		DeleteObject(rgn);
	}
#endif

	::RestoreDC(hdc,hdc_Restore);
	return TmpBmp;
}

////////////////////////////////////////////////////////////////////////////////
int32_t CxImage::Draw2(HDC hdc, const RECT& rect)
{
	return Draw2(hdc, rect.left, rect.top, rect.right - rect.left, rect.bottom - rect.top);
}
////////////////////////////////////////////////////////////////////////////////
/**
 * Draws (stretch) the image with single transparency support
 * \param hdc : destination device context
 * \param x,y : (optional) offset
 * \param cx,cy : (optional) size.
 *                 - If cx or cy are not specified (or less than 0), the normal width or height will be used
 *                 - If cx or cy are different than width or height, the image will be stretched
 *
 * \return true if everything is ok
 */
int32_t CxImage::Draw2(HDC hdc, int32_t x, int32_t y, int32_t cx, int32_t cy)
{
	if((pDib==0)||(hdc==0)||(cx==0)||(cy==0)||(!info.bEnabled)) return 0;
	if (cx < 0) cx = head.biWidth;
	if (cy < 0) cy = head.biHeight;
	bool bTransparent = (info.nBkgndIndex >= 0);

	//required for MM_ANISOTROPIC, MM_HIENGLISH, and similar modes [Greg Peatfield]
	int32_t hdc_Restore = ::SaveDC(hdc);
	if (!hdc_Restore) 
		return 0;

	if (!bTransparent){
#if !defined (_WIN32_WCE)
		SetStretchBltMode(hdc,COLORONCOLOR);	
#endif
		StretchDIBits(hdc, x, y, cx, cy, 0, 0, head.biWidth, head.biHeight,
						info.pImage,(BITMAPINFO*)pDib, DIB_RGB_COLORS,SRCCOPY);
	} else {
		// draw image with transparent background
		const int32_t safe = 0; // or else GDI fails in the following - sometimes 
		RECT rcDst = {x+safe, y+safe, x+cx, y+cy};
		if (RectVisible(hdc, &rcDst)){
		/////////////////////////////////////////////////////////////////
			// True Mask Method - Thanks to Paul Reynolds and Ron Gery
			int32_t nWidth = head.biWidth;
			int32_t nHeight = head.biHeight;
			// Create two memory dcs for the image and the mask
			HDC dcImage=CreateCompatibleDC(hdc);
			HDC dcTrans=CreateCompatibleDC(hdc);
			// Select the image into the appropriate dc
			HBITMAP bm = CreateCompatibleBitmap(hdc, nWidth, nHeight);
			HBITMAP pOldBitmapImage = (HBITMAP)SelectObject(dcImage,bm);
#if !defined (_WIN32_WCE)
			SetStretchBltMode(dcImage,COLORONCOLOR);
#endif
			StretchDIBits(dcImage, 0, 0, nWidth, nHeight, 0, 0, nWidth, nHeight,
							info.pImage,(BITMAPINFO*)pDib,DIB_RGB_COLORS,SRCCOPY);

			// Create the mask bitmap
			HBITMAP bitmapTrans = CreateBitmap(nWidth, nHeight, 1, 1, NULL);
			// Select the mask bitmap into the appropriate dc
			HBITMAP pOldBitmapTrans = (HBITMAP)SelectObject(dcTrans, bitmapTrans);
			// Build mask based on transparent colour
			RGBQUAD rgbBG;
			if (head.biBitCount<24) rgbBG = GetPaletteColor((uint8_t)info.nBkgndIndex);
			else rgbBG = info.nBkgndColor;
			COLORREF crColour = RGB(rgbBG.rgbRed, rgbBG.rgbGreen, rgbBG.rgbBlue);
			COLORREF crOldBack = SetBkColor(dcImage,crColour);
			BitBlt(dcTrans,0, 0, nWidth, nHeight, dcImage, 0, 0, SRCCOPY);

			// Do the work - True Mask method - cool if not actual display
			StretchBlt(hdc,x, y,cx,cy, dcImage, 0, 0, nWidth, nHeight, SRCINVERT);
			StretchBlt(hdc,x, y,cx,cy, dcTrans, 0, 0, nWidth, nHeight, SRCAND);
			StretchBlt(hdc,x, y,cx,cy, dcImage, 0, 0, nWidth, nHeight, SRCINVERT);

			// Restore settings
			SelectObject(dcImage,pOldBitmapImage);
			SelectObject(dcTrans,pOldBitmapTrans);
			SetBkColor(hdc,crOldBack);
			DeleteObject( bitmapTrans );  // RG 29/01/2002
			DeleteDC(dcImage);
			DeleteDC(dcTrans);
			DeleteObject(bm);
		}
	}
	::RestoreDC(hdc,hdc_Restore);
	return 1;
}
////////////////////////////////////////////////////////////////////////////////
int32_t CxImage::Stretch(HDC hdc, const RECT& rect, uint32_t dwRop)
{
	return Stretch(hdc, rect.left, rect.top, rect.right - rect.left, rect.bottom - rect.top, dwRop);
}
////////////////////////////////////////////////////////////////////////////////
/**
 * Stretch the image. Obsolete: use Draw() or Draw2()
 * \param hdc : destination device context
 * \param xoffset,yoffset : (optional) offset
 * \param xsize,ysize : size.
 * \param dwRop : raster operation code (see BitBlt documentation)
 * \return true if everything is ok
 */
int32_t CxImage::Stretch(HDC hdc, int32_t xoffset, int32_t yoffset, int32_t xsize, int32_t ysize, uint32_t dwRop)
{
	if((pDib)&&(hdc)) {
		//palette must be correctly filled
#if !defined (_WIN32_WCE)
		SetStretchBltMode(hdc,COLORONCOLOR);	
#endif
		StretchDIBits(hdc, xoffset, yoffset,
					xsize, ysize, 0, 0, head.biWidth, head.biHeight,
					info.pImage,(BITMAPINFO*)pDib,DIB_RGB_COLORS,dwRop);
		return 1;
	}
	return 0;
}
////////////////////////////////////////////////////////////////////////////////
/**
 * Tiles the device context in the specified rectangle with the image.
 * \param hdc : destination device context
 * \param rc : tiled rectangle in the output device context
 * \return true if everything is ok
 */
int32_t CxImage::Tile(HDC hdc, RECT *rc)
{
	if((pDib)&&(hdc)&&(rc)) {
		int32_t w = rc->right - rc->left;
		int32_t h = rc->bottom - rc->top;
		int32_t x,y,z;
		int32_t bx=head.biWidth;
		int32_t by=head.biHeight;
		for (y = 0 ; y < h ; y += by){
			if ((y+by)>h) by=h-y;
			z=bx;
			for (x = 0 ; x < w ; x += z){
				if ((x+z)>w) z=w-x;
				RECT r = {rc->left + x,rc->top + y,rc->left + x + z,rc->top + y + by};
				Draw(hdc,rc->left + x, rc->top + y,-1,-1,&r);
			}
		}
		return 1;
	}
	return 0;
}
////////////////////////////////////////////////////////////////////////////////
// For UNICODE support: char -> TCHAR
int32_t CxImage::DrawString(HDC hdc, int32_t x, int32_t y, const TCHAR* text, RGBQUAD color, const TCHAR* font, int32_t lSize, int32_t lWeight, uint8_t bItalic, uint8_t bUnderline, bool bSetAlpha)
//int32_t CxImage::DrawString(HDC hdc, int32_t x, int32_t y, const char* text, RGBQUAD color, const char* font, int32_t lSize, int32_t lWeight, uint8_t bItalic, uint8_t bUnderline, bool bSetAlpha)
{
	if (IsValid()){
		//get the background
		HDC pDC;
		if (hdc) pDC=hdc; else pDC = ::GetDC(0);
		if (pDC==NULL) return 0;
		HDC TmpDC=CreateCompatibleDC(pDC);
		if (hdc==NULL) ::ReleaseDC(0, pDC);
   		if (TmpDC==NULL) return 0;
		//choose the font
		HFONT m_Font;
		LOGFONT* m_pLF;
		m_pLF=(LOGFONT*)calloc(1,sizeof(LOGFONT));
		_tcsncpy(m_pLF->lfFaceName,font,31);	// For UNICODE support
		//strncpy(m_pLF->lfFaceName,font,31);
		m_pLF->lfHeight=lSize;
		m_pLF->lfWeight=lWeight;
		m_pLF->lfItalic=bItalic;
		m_pLF->lfUnderline=bUnderline;
		m_Font=CreateFontIndirect(m_pLF);
		//select the font in the dc
		HFONT pOldFont=NULL;
		if (m_Font)
			pOldFont = (HFONT)SelectObject(TmpDC,m_Font);
		else
			pOldFont = (HFONT)SelectObject(TmpDC,GetStockObject(DEFAULT_GUI_FONT));

		//Set text color
		SetTextColor(TmpDC,RGB(255,255,255));
		SetBkColor(TmpDC,RGB(0,0,0));
		//draw the text
		SetBkMode(TmpDC,OPAQUE);
		//Set text position;
		RECT pos = {0,0,0,0};
		//int32_t len = (int32_t)strlen(text);
		int32_t len = (int32_t)_tcslen(text);	// For UNICODE support
		::DrawText(TmpDC,text,len,&pos,DT_CALCRECT);
		pos.right+=pos.bottom; //for italics

		//Preparing Bitmap Info
		int32_t width=pos.right;
		int32_t height=pos.bottom;
		BITMAPINFO bmInfo;
		memset(&bmInfo.bmiHeader,0,sizeof(BITMAPINFOHEADER));
		bmInfo.bmiHeader.biSize=sizeof(BITMAPINFOHEADER);
		bmInfo.bmiHeader.biWidth=width;
		bmInfo.bmiHeader.biHeight=height;
		bmInfo.bmiHeader.biPlanes=1;
		bmInfo.bmiHeader.biBitCount=24;
		uint8_t *pbase; //points to the final dib

		HBITMAP TmpBmp=CreateDIBSection(TmpDC,&bmInfo,DIB_RGB_COLORS,(void**)&pbase,0,0);
		HGDIOBJ TmpObj=SelectObject(TmpDC,TmpBmp);
		memset(pbase,0,height*((((24 * width) + 31) / 32) * 4));

		::DrawText(TmpDC,text,len,&pos,0);

		CxImage itext;
		itext.CreateFromHBITMAP(TmpBmp);

		y=head.biHeight-y-1;
		for (int32_t ix=0;ix<width;ix++){
			for (int32_t iy=0;iy<height;iy++){
				if (itext.GetPixelColor(ix,iy).rgbBlue) SetPixelColor(x+ix,y+iy,color,bSetAlpha);
			}
		}

		//cleanup
		if (pOldFont) SelectObject(TmpDC,pOldFont);
		DeleteObject(m_Font);
		free(m_pLF);
		DeleteObject(SelectObject(TmpDC,TmpObj));
		DeleteDC(TmpDC);
	}

	return 1;
}
////////////////////////////////////////////////////////////////////////////////
// <VATI>
int32_t CxImage::DrawStringEx(HDC hdc, int32_t x, int32_t y, CXTEXTINFO *pTextType, bool bSetAlpha )
{
	if (!IsValid())
        return -1;
    
	//get the background
	HDC pDC;
	if (hdc) pDC=hdc; else pDC = ::GetDC(0);
	if (pDC==NULL) return 0;
	HDC TmpDC=CreateCompatibleDC(pDC);
	if (hdc==NULL) ::ReleaseDC(0, pDC);
   	if (TmpDC==NULL) return 0;

    //choose the font
	HFONT m_Font;
    m_Font=CreateFontIndirect( &pTextType->lfont );
    
    // get colors in RGBQUAD
    RGBQUAD p_forecolor = RGBtoRGBQUAD(pTextType->fcolor);
    RGBQUAD p_backcolor = RGBtoRGBQUAD(pTextType->bcolor);

    // check alignment and re-set default if necessary
    if ( pTextType->align != DT_CENTER &&
         pTextType->align != DT_LEFT &&
         pTextType->align != DT_RIGHT )
        pTextType->align = DT_CENTER;

    // check rounding radius and re-set default if necessary
    if ( pTextType->b_round > 50 )
        pTextType->b_round = 10;

    // check opacity and re-set default if necessary
    if ( pTextType->b_opacity > 1. || pTextType->b_opacity < .0 )
        pTextType->b_opacity = 0.;

    //select the font in the dc
	HFONT pOldFont=NULL;
	if (m_Font)
		pOldFont = (HFONT)SelectObject(TmpDC,m_Font);
	else
		pOldFont = (HFONT)SelectObject(TmpDC,GetStockObject(DEFAULT_GUI_FONT));

	//Set text color
    SetTextColor(TmpDC,RGB(255,255,255));
	SetBkColor(TmpDC,RGB(0,0,0));
	SetBkMode(TmpDC,OPAQUE);
	//Set text position;
	RECT pos = {0,0,0,0};
	
    // get text length and number of lines
    int32_t i=0, numlines=1, len=(int32_t)_tcsclen(pTextType->text);
    while (i<len)
    {
        if ( pTextType->text[i++]==13 )
            numlines++;
    }

	::DrawText(TmpDC, pTextType->text, len, &pos, /*DT_EDITCONTROL|DT_EXTERNALLEADING|*/DT_NOPREFIX | DT_CALCRECT );

    // increase only if it's really italics, and only one line height
	if ( pTextType->lfont.lfItalic ) 
        pos.right += pos.bottom/2/numlines; 

    // background frame and rounding radius
	int32_t frame = 0, roundR = 0;
    if ( pTextType->opaque )
    {
        roundR= (int32_t)(pos.bottom/numlines * pTextType->b_round / 100 ) ;
        frame = (int32_t)(/*3.5 + */0.29289*roundR ) ;
        pos.right += pos.bottom/numlines/3 ; // JUST FOR BEAUTY
    }

	//Preparing Bitmap Info
	int32_t width=pos.right +frame*2;
	int32_t height=pos.bottom +frame*2;
	BITMAPINFO bmInfo;
	memset(&bmInfo.bmiHeader,0,sizeof(BITMAPINFOHEADER));
	bmInfo.bmiHeader.biSize=sizeof(BITMAPINFOHEADER);
	bmInfo.bmiHeader.biWidth=width;
	bmInfo.bmiHeader.biHeight=height;
	bmInfo.bmiHeader.biPlanes=1;
	bmInfo.bmiHeader.biBitCount=24;
	uint8_t *pbase; //points to the final dib

	HBITMAP TmpBmp=CreateDIBSection(TmpDC,&bmInfo,DIB_RGB_COLORS,(void**)&pbase,0,0);
	HGDIOBJ TmpObj=SelectObject(TmpDC,TmpBmp);
	memset(pbase,0,height*((((24 * width) + 31) / 32) * 4));

	::DrawText(TmpDC,pTextType->text,len, &pos, /*DT_EDITCONTROL|DT_EXTERNALLEADING|*/DT_NOPREFIX| pTextType->align );
    
	CxImage itext;
	itext.CreateFromHBITMAP(TmpBmp);
    y=head.biHeight-y-1;

	itext.Negative();

#if CXIMAGE_SUPPORT_DSP
	if (pTextType->smooth==FALSE){
		itext.Threshold(128);
	} else {
		//itext.TextBlur();
	}
#endif

    //move the insertion point according to alignment type
    // DT_CENTER: cursor points to the center of text rectangle
    // DT_RIGHT:  cursor points to right side end of text rectangle
    // DT_LEFT:   cursor points to left end of text rectangle
    if ( pTextType->align == DT_CENTER )
        x -= width/2;
    else if ( pTextType->align == DT_RIGHT )
        x -= width;
    if (x<0) x=0;
    
    //draw the background first, if it exists
    int32_t ix,iy;
    if ( pTextType->opaque )
    {
        int32_t ixf=0; 
        for (ix=0;ix<width;ix++)
        {
            if ( ix<=roundR )
                ixf = (int32_t)(.5+roundR-sqrt((float)(roundR*roundR-(ix-roundR)*(ix-roundR))));
            else if ( ix>=width-roundR-1 )
                ixf = (int32_t)(.5+roundR-sqrt((float)(roundR*roundR-(width-1-ix-roundR)*(width-1-ix-roundR))));
            else
                ixf=0;

            for (iy=0;iy<height;iy++)
            {
                if ( (ix<=roundR && ( iy > height-ixf-1 || iy < ixf )) ||
                     (ix>=width-roundR-1 && ( iy > height-ixf-1 || iy < ixf )) )
                    continue;
                else
                    if ( pTextType->b_opacity > 0.0 && pTextType->b_opacity < 1.0 )
                    {
                        RGBQUAD bcolor, pcolor;
                        // calculate a transition color from original image to background color:
                        pcolor = GetPixelColor(x+ix,y+iy);
						bcolor.rgbBlue = (uint8_t)(pTextType->b_opacity * pcolor.rgbBlue + (1.0-pTextType->b_opacity) * p_backcolor.rgbBlue );
                        bcolor.rgbRed = (uint8_t)(pTextType->b_opacity * pcolor.rgbRed + (1.0-pTextType->b_opacity) * p_backcolor.rgbRed ) ;
                        bcolor.rgbGreen = (uint8_t)(pTextType->b_opacity * pcolor.rgbGreen + (1.0-pTextType->b_opacity) * p_backcolor.rgbGreen ) ;
                        bcolor.rgbReserved = 0;
                        SetPixelColor(x+ix,y+iy,bcolor,bSetAlpha);
                    }
                    else
                        SetPixelColor(x+ix,y+iy,p_backcolor,bSetAlpha);
			}
		}
    }

    // draw the text itself
    for (ix=0;ix<width;ix++)
    {
		for (iy=0;iy<height;iy++)
        {
			RGBQUAD pcolor = GetPixelColor(x+ix,y+iy);
			RGBQUAD tcolor = itext.GetPixelColor(ix,iy);
            if (tcolor.rgbBlue!=255){
				float a = tcolor.rgbBlue/255.0f;
				pcolor.rgbBlue  = (uint8_t)(a * (pcolor.rgbBlue  - p_forecolor.rgbBlue)  + p_forecolor.rgbBlue );
                pcolor.rgbRed   = (uint8_t)(a * (pcolor.rgbRed   - p_forecolor.rgbRed)   + p_forecolor.rgbRed ) ;
                pcolor.rgbGreen = (uint8_t)(a * (pcolor.rgbGreen - p_forecolor.rgbGreen) + p_forecolor.rgbGreen );
                pcolor.rgbReserved = 0;
                SetPixelColor(x+ix+frame,y+iy-frame,pcolor,bSetAlpha);
              //SetPixelColor(x+ix+frame,y+iy-frame,p_forecolor,bSetAlpha);
			}
		}
	}

	//cleanup
    if (pOldFont) SelectObject(TmpDC,pOldFont);
	DeleteObject(m_Font);
	DeleteObject(SelectObject(TmpDC,TmpObj));
	DeleteDC(TmpDC);
	return 1;
}

//////////////////////////////////////////////////////////////////////////////
void CxImage::InitTextInfo( CXTEXTINFO *txt )
{

    memset( txt, 0, sizeof(CXTEXTINFO));
    
    // LOGFONT defaults
    txt->lfont.lfHeight        = -36; 
    txt->lfont.lfCharSet       = EASTEUROPE_CHARSET; // just for Central-European users 
    txt->lfont.lfWeight        = FW_NORMAL;
    txt->lfont.lfWidth         = 0; 
    txt->lfont.lfEscapement    = 0; 
    txt->lfont.lfOrientation   = 0; 
    txt->lfont.lfItalic        = FALSE; 
    txt->lfont.lfUnderline     = FALSE; 
    txt->lfont.lfStrikeOut     = FALSE; 
    txt->lfont.lfOutPrecision  = OUT_DEFAULT_PRECIS; 
    txt->lfont.lfClipPrecision = CLIP_DEFAULT_PRECIS; 
    txt->lfont.lfQuality       = PROOF_QUALITY; 
    txt->lfont.lfPitchAndFamily= DEFAULT_PITCH | FF_DONTCARE ; 
    _stprintf( txt->lfont.lfFaceName, _T("Arial")); //use TCHAR mappings <Cesar M>

    // initial colors
    txt->fcolor = RGB( 255,255,160 );  // default foreground: light goldyellow
    txt->bcolor = RGB(   0, 80,160 );  // default background: light blue

    // background
    txt->opaque    = TRUE;  // text has a non-transparent background;
	txt->smooth    = TRUE;
    txt->b_opacity = 0.0;   // default: opaque background
    txt->b_outline = 0;     // default: no outline (OUTLINE NOT IMPLEMENTED AT THIS TIME)
    txt->b_round   = 20;    // default: rounding radius is 20% of the rectangle height
    // the text 
    _stprintf( txt->text, _T("Sample Text 01234õû")); // text use TCHAR mappings <Cesar M>
    txt->align = DT_CENTER;
    return;
}

#if CXIMAGE_SUPPORT_LAYERS
////////////////////////////////////////////////////////////////////////////////
int32_t CxImage::LayerDrawAll(HDC hdc, const RECT& rect, RECT* pClipRect, bool bSmooth)
{
	return LayerDrawAll(hdc, rect.left, rect.top, rect.right - rect.left, rect.bottom - rect.top, pClipRect,bSmooth);
}
////////////////////////////////////////////////////////////////////////////////
int32_t CxImage::LayerDrawAll(HDC hdc, int32_t x, int32_t y, int32_t cx, int32_t cy, RECT* pClipRect, bool bSmooth)
{
	int32_t n=0;
	CxImage* pLayer;
	while(pLayer=GetLayer(n++)){
		if (pLayer->Draw(hdc,x+pLayer->info.xOffset,y+pLayer->info.yOffset,cx,cy,pClipRect,bSmooth)==0)
			return 0;
		if (pLayer->LayerDrawAll(hdc,x+pLayer->info.xOffset,y+pLayer->info.yOffset,cx,cy,pClipRect,bSmooth)==0)
			return 0;
	}
	return 1;
}
#endif //CXIMAGE_SUPPORT_LAYERS

////////////////////////////////////////////////////////////////////////////////
#endif //CXIMAGE_SUPPORT_WINDOWS
////////////////////////////////////////////////////////////////////////////////