bool IGFrameManager::Cut(LPCWSTR pcwGuid)
{
	IGSmartPtr <IGFrame> spFrame;
	if (!GetFrame(pcwGuid, spFrame))
		return false;
	CxImage *pCxLayer = spFrame->GetWorkingLayer();
	if (!pCxLayer)
		return false;
	RECT rcSel;
	if (pCxLayer->SelectionIsValid())
		pCxLayer->SelectionGetBox (rcSel);
	else{
		rcSel.bottom = 0;
		rcSel.left = 0;
		rcSel.top = pCxLayer->GetHeight();
		rcSel.right = pCxLayer->GetWidth();
	}
	m_spClipboardLayer = new IGLayer(NULL);
	m_spClipboardLayer->Create (rcSel.right - rcSel.left, rcSel.top - rcSel.bottom, 24);
	m_spClipboardLayer->AlphaCreate();
	pCxLayer->AlphaCreate();
	RGBQUAD qGray; qGray.rgbBlue = CXIMAGE_GRAY; qGray.rgbGreen = CXIMAGE_GRAY; qGray.rgbRed = CXIMAGE_GRAY;
	for(long y=rcSel.bottom; y<rcSel.top; y++){
		for(long x=rcSel.left; x<rcSel.right; x++){
			if (pCxLayer->BlindSelectionIsInside(x,y)){
				m_spClipboardLayer->BlindSetPixelColor(x - rcSel.left, y - rcSel.bottom, pCxLayer->BlindGetPixelColor(x,y));
				pCxLayer->BlindSetPixelColor(x, y, qGray);
				pCxLayer->AlphaSet(x, y, 0);
			}
			else
				m_spClipboardLayer->AlphaSet (x - rcSel.left, y - rcSel.bottom, 0);
		}
	}
	return true;
}
Example #2
0
BOOL CSonicImage::Rotate(int nAngle, POINT * pScout /* = NULL */)
{
	if(m_Dib.IsValid() == FALSE)
	{
		return FALSE;
	}
	nAngle = abs(nAngle) % 360;
	int nBitX = nAngle <= 180 ? 1 : 0;
	int nBitY = nAngle > 90 && nAngle <= 270 ? 1 : 0;
	int nSrcW = m_nWidth;
	int nSrcH = m_nHeight;
	const int nBytePixel = 4;
	BYTE * pSrc = m_Dib.GetBits();
	int nNewX = (nSrcW - nBitX) >> 1;
	int nNewY = (nSrcH - nBitY) >> 1;

	double m1 = -nSrcW / 2.0f;
	double m2 = nSrcW / 2.0f;
	double n1 = nSrcH / 2.0f;
	double n2 = -nSrcH / 2.0f;

	POINT pt1 = {(int)(m1 * COS(nAngle) + n1 * SIN(nAngle)) >> 10, (int)(-m1 * SIN(nAngle) + n1 * COS(nAngle)) >> 10};
	POINT pt2 = {(int)(m2 * COS(nAngle) + n1 * SIN(nAngle)) >> 10, (int)(-m2 * SIN(nAngle) + n1 * COS(nAngle)) >> 10};
	POINT pt3 = {(int)(m2 * COS(nAngle) + n2 * SIN(nAngle)) >> 10, (int)(-m2 * SIN(nAngle) + n2 * COS(nAngle)) >> 10};
	POINT pt4 = {(int)(m1 * COS(nAngle) + n2 * SIN(nAngle)) >> 10, (int)(-m1 * SIN(nAngle) + n2 * COS(nAngle)) >> 10};

	int i, j, x1, y1, x11, y11;
	i = abs(pt3.x - pt1.x);
	j = abs(pt4.x - pt2.x);
	int nDestW = max(i, j);
	i = abs(pt3.y - pt1.y);
	j = abs(pt4.y - pt2.y);
	int nDestH = max(i, j);

	m_nWidth = nDestW;
	m_nHeight = nDestH;
	HBITMAP hBmp = NULL;
	m_Dib.Resize(m_nWidth, m_nHeight, &hBmp);
	BYTE * pDest = m_Dib.GetBits();
	
	int temp;
	int nOriginX = nDestW >> 1;
	int nOriginY = nDestH >> 1;

	for(i = 0; i < nDestH; i++)
	{
		for(j = 0; j < nDestW; j++)
		{
			x1 = j - nOriginX;
			y1 = nOriginY - i;

			temp = (x1 * COS(nAngle) + y1 * SIN(nAngle)) >> 10;
			x11 = temp + nNewX;
			temp = (-x1 * SIN(nAngle) + y1 * COS(nAngle)) >> 10;
			y11 = nNewY - temp;
			if(x11 >= 0 && x11 < nSrcW && y11 >= 0 && y11 < nSrcH)
			{
				COLORREF color = *(DWORD *)(pSrc + (nSrcW * nBytePixel * y11) + x11 * nBytePixel);
				*(DWORD *)(pDest + i * nBytePixel * nDestW + j * nBytePixel) = color;
			}
		}
	}
	if(hBmp)
	{
		DeleteObject(hBmp);
	}
	if(pScout)
	{
		x1 = pScout->x - nNewX;
		y1 = nNewY - pScout->y;
        nAngle = 360 - nAngle;
		x11 = (x1 * COS(nAngle) + y1 * SIN(nAngle)) >> 10;
		x11 = x11 + nOriginX;
		y11 = (-x1 * SIN(nAngle) + y1 * COS(nAngle)) >> 10;
		y11 = nOriginY - y11;
		pScout->x = x11;
		pScout->y = y11;
	}
	EnableAlphaChannel(FALSE);
	return TRUE;
}

BOOL CSonicImage::SaveAsFile(LPCTSTR lpszFileName, enImageType imgType, int nQuality /* = 0 */)
{
	if(m_Dib.IsValid() == FALSE)
	{
		return FALSE;
	}
	CxImage img;

	if(img.CreateFromHBITMAP(m_Dib.GetHBitmap()) == FALSE)
	{
		return FALSE;
	}
	if(IsAlphaChannelValid()
		&& (imgType == IMAGE_TYPE_BMP
		|| imgType == IMAGE_TYPE_PNG
		|| imgType == IMAGE_TYPE_TGA
		|| imgType == IMAGE_TYPE_ICO))
	{
		img.AlphaCreate();
		for(int i = 0; i < m_nHeight; i++)
		{
			for(int j = 0; j < m_nWidth; j++)
			{
				BYTE bAlpha = *(m_Dib.GetBits() + i * m_nWidth * 4 + j * 4 + 3);
				img.AlphaSet(j, i, bAlpha);
			}
		}
	}
	DWORD dwType = 0;
	switch (imgType)
	{
	case IMAGE_TYPE_BMP:
		dwType = CXIMAGE_FORMAT_BMP;
		break;
	case IMAGE_TYPE_JPEG:
		dwType = CXIMAGE_FORMAT_JPG;
		nQuality = nQuality ? nQuality : DEFAULT_JPEG_QULITY;
		img.SetJpegQuality(nQuality);
		break;
	case IMAGE_TYPE_TGA:
		dwType = CXIMAGE_FORMAT_TGA;
		break;
	case IMAGE_TYPE_PNG:
		dwType = CXIMAGE_FORMAT_PNG;
		break;
	case IMAGE_TYPE_ICO:
		dwType = CXIMAGE_FORMAT_ICO;
		break;
	}
	CString strPath = lpszFileName;
	int nFind1 = strPath.ReverseFind(_T('\\'));
	int nFind2 = strPath.ReverseFind(_T('/'));
	int nFind = max(nFind1, nFind2);
	if(nFind != -1)
	{
		strPath = strPath.Left(nFind);
		if(PathFileExists(strPath) == FALSE)
		{
			SHCreateDirectoryEx(NULL, strPath, NULL);
		}
	}
#ifdef _UNICODE
    USES_CONVERSION;	
	if(img.Save(W2A(lpszFileName), dwType) == FALSE)
	{
		return FALSE;
	}
#else
	if(img.Save(lpszFileName, dwType) == FALSE)
	{
		return FALSE;
	}
#endif	
	img.Clear();
	return TRUE;
}

BOOL CSonicImage::Gray()
{
	if(m_Dib.IsValid() == FALSE)
	{
		return FALSE;
	}
	int nSrcSize = m_nWidth * m_nHeight * 4;
	CSSE::DoGray(m_Dib.GetBits(), nSrcSize);
	return TRUE;
}

HRGN CSonicImage::CreateRgn(DWORD dwColorKey /* = DEFAULT_COLOR_KEY */, int x /* = 0 */, int y /* = 0 */, RECT * pRtSrc /* = NULL */, BOOL bReverse /* = FALSE */)
{
	if(m_Dib.IsValid() == FALSE)
	{
		return FALSE;
	}

	int nBytePixel = 4;
	BYTE * pSrc = m_Dib.GetBits();

	CRect rtSrc(0, 0, m_nWidth, m_nHeight);
	if(pRtSrc)
	{
		rtSrc = *pRtSrc;
	}

	int nLeftx = -1;
	HRGN hAll = CreateRectRgn(x, y, x + rtSrc.Width(), y + rtSrc.Height());

	for(int i = rtSrc.top; i < rtSrc.bottom; i++)
	{
		for(int j = rtSrc.left; j < rtSrc.right; j++)
		{
			DWORD dwColor = *(DWORD *)(pSrc + (i * m_nWidth * nBytePixel) + j * nBytePixel);
			if(!bReverse)
			{
				if(EQUAL_24COLOR(dwColor, dwColorKey) && nLeftx < 0)
				{
					nLeftx = j;
				}
				if(nLeftx >= 0 && (!EQUAL_24COLOR(dwColor, dwColorKey) || j + 1 == rtSrc.right))
				{
					if(EQUAL_24COLOR(dwColor, dwColorKey) && j + 1 == rtSrc.right)j++;
					HRGN hTemp = CreateRectRgn(x + nLeftx - rtSrc.left, y + i - rtSrc.top, x + j - rtSrc.left, y + i + 1 - rtSrc.top);
					CombineRgn(hAll, hAll, hTemp, RGN_XOR);
					DeleteObject(hTemp);
					nLeftx = -1;
				}
			}
			else
			{
				if(!EQUAL_24COLOR(dwColor, dwColorKey) && nLeftx < 0)
				{
					nLeftx = j;
				}
				if(nLeftx >= 0 && (EQUAL_24COLOR(dwColor, dwColorKey) || j + 1 == rtSrc.right))
				{
					if(!EQUAL_24COLOR(dwColor, dwColorKey) && j + 1 == rtSrc.right)j++;
					HRGN hTemp = CreateRectRgn(x + nLeftx - rtSrc.left, y + i - rtSrc.top, x + j - rtSrc.left, y + i + 1 - rtSrc.top);
					CombineRgn(hAll, hAll, hTemp, RGN_XOR);
					DeleteObject(hTemp);
					nLeftx = -1;
				}
			}
		}
	}
	return hAll;
}

BOOL CSonicImage::IsAlphaChannelValid()
{
	return m_bAlphaChannel;
}

BOOL CSonicImage::EnableAlphaChannel(BOOL bModifyRgb /* = TRUE */)
{
	if(m_bAlphaChannel)
	{
		return FALSE;
	}
	if(m_Dib.IsValid() == FALSE)
	{
		return FALSE;
	}
	m_bAlphaChannel = TRUE;
	if(bModifyRgb)
	{
		int nSrc = m_nWidth * m_nHeight;
		DWORD * pSrc = (DWORD *)m_Dib.GetBits();
		for(int i = 0; i < nSrc; i++)
		{
			CSSE::AdjustAlpha(*pSrc);
			pSrc++;
		}
	}
	return TRUE;
}

DWORD CSonicImage::GetPixel(int x, int y)
{
	if(m_Dib.IsValid() == FALSE)
	{
		return 0;
	}
	if(y < 0 || y >= m_nHeight)
	{
		return 0;
	}
	if(x < 0 || x >= m_nWidth)
	{
		return 0;
	}
	return *(DWORD *)(m_Dib.GetBits() + (m_nHeight - y - 1) * m_nWidth * 4 + x * 4);
}

BOOL CSonicImage::SetPixel(int x, int y, DWORD dwColor)
{
	if(m_Dib.IsValid() == FALSE)
	{
		return 0;
	}
	if(IsAlphaChannelValid())
	{
		CSSE::AdjustAlpha(dwColor);
	}
	else
	{
		dwColor |= 0xff000000;
	}
	if(y < 0 || y >= m_nHeight)
	{
		return 0;
	}
	if(x < 0 || x >= m_nWidth)
	{
		return 0;
	}
	*(DWORD *)(m_Dib.GetBits() + (m_nHeight - y - 1) * m_nWidth * 4 + x * 4) = dwColor;
	return TRUE;
}

BYTE * CSonicImage::GetBits()
{
	return m_Dib.GetBits();
}

BOOL CSonicImage::Init()
{
	double radiant;
	for(int i = 0; i < 361; i++)
	{
		radiant = (i * PAI) / 180;
		double temp = sin(radiant) * 1024;
		Trigonometry[i][0] = ROUND(temp);
		temp = cos(radiant) * 1024;
		Trigonometry[i][1] = ROUND(temp);
	}
	return TRUE;
}

BOOL CSonicImage::SetBitsToDevice(HDC hdc, int x /* = 0 */, int y /* = 0 */)
{
	return SetDIBitsToDevice(hdc, x, y, m_nWidth, m_nHeight, 0, 0, 0, m_nHeight, m_Dib.GetBits(), m_Dib.GetBitmapInfo(), DIB_RGB_COLORS) != 0;
}

RECT CSonicImage::CalculateRectByDrawParam(int x, int y, const DRAW_PARAM * pDp, RECT * pSrc /* = NULL */)
{
	CRect rtSrc, rtDest;
	int cx = m_nWidth;
	int cy = m_nHeight;

	if(pDp && (pDp->dwMask & DP_SRC_CLIP))
	{
		rtSrc = pDp->rtSrc;
	}
	else
	{
		rtSrc.SetRect(0, 0, m_nWidth, m_nHeight);
	}
	cx = rtSrc.Width();
	cy = rtSrc.Height();
	if(pDp)
	{
		if(pDp->dwMask & DP_SCALE)
		{
			cx = (int)(rtSrc.Width() * pDp->fScaleX);
			cy = (int)(rtSrc.Height() * pDp->fScaleY);
		}
		if(pDp->dwMask & DP_DEST_LIMIT)
		{
			cx = pDp->cx;
			cy = pDp->cy;
		}
		if(pDp->dwMask & DP_TILE)
		{
			cx = pDp->nTileLength;
		}
		if(pDp->dwMask & DP_VER_TILE)
		{
			cy = pDp->nTileLength;
		}
	}
	rtDest.SetRect(x, y, x + cx, y + cy);
	if(pSrc)
	{
		*pSrc = rtSrc;
	}
	return rtDest;
}

BOOL CSonicImage::SetColorKey(DWORD dwColor)
{
	if(IsAlphaChannelValid())
	{
		return FALSE;
	}
	CSSE::SetColorKey(m_Dib.GetBits(), m_Dib.GetSize(), dwColor);
	EnableAlphaChannel(FALSE);
	return TRUE;
}

BOOL CSonicImage::Load(HDC hdc, int x, int y, int cx, int cy, BOOL bAlphaChannel /* = FALSE */)
{
	Clear();
	BITMAP bmp;
	GetObject((HBITMAP)GetCurrentObject(hdc, OBJ_BITMAP), sizeof(bmp), &bmp);
	if(bmp.bmType != 0 || bmp.bmPlanes != 1)
	{
		return FALSE;
	}
	if(bmp.bmBitsPixel != 32)
	{
		return FALSE;
	}

	if(PrepareMemDC(cx, cy) == FALSE)
	{
		return FALSE;
	}
	BitBlt(m_Dib.GetSafeHdc(), 0, 0, cx, cy, hdc, x, y, SRCCOPY);
	if(bAlphaChannel)
	{
		EnableAlphaChannel(FALSE);
		CSSE::DoOr(0xff000000, m_Dib.GetBits(), m_Dib.GetSize());
	}
	return TRUE;
}

BOOL CSonicImage::Create(int cx, int cy, DWORD dwColor /* = 0 */, BOOL bWithAlpha /* = FALSE */)
{
	if(PrepareMemDC(cx, cy) == FALSE)
	{
		return FALSE;
	}
	if(bWithAlpha)
	{
		CSSE::AdjustAlpha(dwColor);
		EnableAlphaChannel(FALSE);
	}
	if(dwColor)
	{
		Flush(dwColor);
	}
	return TRUE;
}

BOOL CSonicImage::Flush(DWORD dwColor)
{
	if(m_Dib.IsValid() == FALSE)
	{
		return FALSE;
	}
	CSSE::MemSetDWord(m_Dib.GetBits(), dwColor, m_Dib.GetSize());
	return TRUE;
}

BOOL CSonicImage::SetHsl(int h /* = -1 */, int s /* = -1 */, int l /* = -1 */)
{
	if(IsValid() == FALSE)
	{
		return FALSE;
	}
	CSSE::SetHSL(m_Dib.GetBits(), m_Dib.GetSize(), h, s, l);
	return TRUE;
}

BOOL CSonicImage::MirrorX()
{
	if(IsValid() == FALSE)
	{
		return FALSE;
	}
	CSSE::MirrorX(m_Dib.GetBits(), m_nWidth, m_nHeight);
	return TRUE;
}

BOOL CSonicImage::MirrorY()
{
	if(IsValid() == FALSE)
	{
		return FALSE;
	}
	CSSE::MirrorY(m_Dib.GetBits(), m_nWidth, m_nHeight);
	return TRUE;
}

BOOL CSonicImage::Stretch(int cx, int cy)
{
	if(IsValid() == FALSE)
	{
		return FALSE;
	}
	if(cx == m_nWidth && cy == m_nHeight)
	{
		return TRUE;
	}
	CSonicImage * pImg = (CSonicImage *)g_UI.CreateImage();
	pImg->CloneFrom(this);
	PrepareMemDC(cx, cy);
	CSSE::Stretch(pImg->m_Dib.GetBits(), pImg->GetWidth(), pImg->GetHeight(), m_Dib.GetBits(), cx, cy);
	g_UI.DestroyObject(pImg);
	return TRUE;
}

BOOL CSonicImage::Extend(int cx /* = 0 */, int cy /* = 0 */)
{
	if(IsValid() == FALSE)
	{
		return FALSE;
	}
	cx = (cx == 0 ? m_nWidth : cx);
	cy = (cy == 0 ? m_nHeight : cy);
	CSonicImage * pImg = (CSonicImage *)g_UI.CreateImage();
	pImg->CloneFrom(this);

	PrepareMemDC(cx, cy);
	for(int i = 0; i < cy; i += pImg->GetHeight())
	{
		for(int j = 0; j < cx; j += pImg->GetWidth())
		{
			pImg->SetBitsToDevice(m_Dib.GetSafeHdc(), j, i);
		}
	}
	g_UI.DestroyObject(pImg);
	return TRUE;
}

HDC CSonicImage::GetDC()
{
	if(IsValid() == FALSE)
	{
		return NULL;
	}
	return m_Dib.GetSafeHdc();
}

BOOL CSonicImage::DestroyAlphaChannel()
{
	if(IsValid() == FALSE)
	{
		return FALSE;
	}
	CSSE::DoAnd(0xffffff, (char *)m_Dib.GetBits(), m_Dib.GetSize());
	return TRUE;
}

BOOL CSonicImage::SetAlphaChannel(BYTE bAlpha)
{
	if(IsValid() == FALSE)
	{
		return FALSE;
	}
	CSSE::DoOr((bAlpha << 24), (char *)m_Dib.GetBits(), m_Dib.GetSize());
	EnableAlphaChannel(FALSE);
	return TRUE;
}

BOOL CSonicImage::Blur(int nType /* = 0 */)
{
	if(IsValid() == FALSE)
	{
		return FALSE;
	}

	char * pTemp = new char[m_Dib.GetSize()];
	CSSE::MemCopy(pTemp, m_Dib.GetBits(), m_Dib.GetSize());
	int i, j;
	DWORD * pSrc = (DWORD *)m_Dib.GetBits();
	DWORD * pDest = (DWORD *)pTemp;
	for(i = 1; i < m_Dib.GetHeight() - 1; i++)
	{
		for(j = 1; j < m_Dib.GetWidth() - 1; j++)
		{
			DWORD dw1 = *(pDest + i * m_Dib.GetWidth() + j);
			DWORD dw2 = *(pDest + i * m_Dib.GetWidth() + j - 1);
			DWORD dw3 = *(pDest + i * m_Dib.GetWidth() + j + 1);
			DWORD dw4 = *(pDest + (i - 1) * m_Dib.GetWidth() + j);
			DWORD dw5 = *(pDest + (i + 1) * m_Dib.GetWidth() + j);
			DWORD dw6 = *(pDest + (i - 1) * m_Dib.GetWidth() + j - 1);
			DWORD dw7 = *(pDest + (i - 1) * m_Dib.GetWidth() + j + 1);
			DWORD dw8 = *(pDest + (i + 1) * m_Dib.GetWidth() + j - 1);
			DWORD dw9 = *(pDest + (i + 1) * m_Dib.GetWidth() + j + 1);
			char r, g, b;
			r = g = b = 0;
			switch (nType)
			{
			case 0:
				{
					// gauss blur
					r = ((GetRValue(dw1) << 2) +
						((GetRValue(dw2) +
						GetRValue(dw3) +
						GetRValue(dw4) +
						GetRValue(dw5)) << 1) + 
						GetRValue(dw6) +
						GetRValue(dw7) +
						GetRValue(dw8) +
						GetRValue(dw9)) >> 4;
					g = ((GetGValue(dw1) << 2) +
						((GetGValue(dw2) +
						GetGValue(dw3) +
						GetGValue(dw4) +
						GetGValue(dw5)) << 1) + 
						GetGValue(dw6) +
						GetGValue(dw7) +
						GetGValue(dw8) +
						GetGValue(dw9)) >> 4;
					b = ((GetBValue(dw1) << 2) +
						((GetBValue(dw2) +
						GetBValue(dw3) +
						GetBValue(dw4) +
						GetBValue(dw5)) << 1) + 
						GetBValue(dw6) +
						GetBValue(dw7) +
						GetBValue(dw8) +
						GetBValue(dw9)) >> 4;
				}
				break;
			case 1:
				{
					// even blur
					r = (GetRValue(dw1) +
						GetRValue(dw2) +
						GetRValue(dw3) +
						GetRValue(dw4) +
						GetRValue(dw5) + 
						GetRValue(dw6) +
						GetRValue(dw7) +
						GetRValue(dw8) +
						GetRValue(dw9)) / 9;
					g = (GetGValue(dw1) +
						GetGValue(dw2) +
						GetGValue(dw3) +
						GetGValue(dw4) +
						GetGValue(dw5) + 
						GetGValue(dw6) +
						GetGValue(dw7) +
						GetGValue(dw8) +
						GetGValue(dw9)) / 9;
					b = (GetBValue(dw1) +
						GetBValue(dw2) +
						GetBValue(dw3) +
						GetBValue(dw4) +
						GetBValue(dw5) + 
						GetBValue(dw6) +
						GetBValue(dw7) +
						GetBValue(dw8) +
						GetBValue(dw9)) / 9;
				}
				break;
			}
			
			*(pSrc + i * m_Dib.GetWidth() + j) = (0xff000000 | RGB(r, g, b));
		}
	}

	delete []pTemp;
	return TRUE;
}
void CImgClassCBView::LoadThumbNail1(int iCls, bool bCorrect[], int iImgs_per_Cls[])
{
	CMainFrame* pFrame=(CMainFrame*)AfxGetMainWnd();
	CImgClassCBView* pView1;
	CImgClassCBDoc* pDoc1;
	pView1 = pFrame->m_pTestView;
	pDoc1 = pView1->GetDocument();
	CListCtrl& ListCtrl1=pView1->GetListCtrl();
	CImageList* pImgList1 = &pView1->m_ImageListThumb;
	int i;
	for(i=0; i<pImgList1->GetImageCount(); i++)
		pImgList1->Remove(i);	
	ListCtrl1.DeleteAllItems();
	pImgList1->SetImageCount(pDoc1->m_vImgNameTest.size());
	TCHAR path1[MAX_PATH];
	vector<CString>::iterator iter1;
	ListCtrl1.SetRedraw(FALSE);
	int nIndex1 = 0;
	for(iter1=pDoc1->m_vImgNameTest.begin(); 
			iter1!=pDoc1->m_vImgNameTest.end();
			iter1++, nIndex1++)
	{
		ListCtrl1.InsertItem(nIndex1, *iter1, nIndex1);
	}
	ListCtrl1.SetRedraw(TRUE);
	ListCtrl1.Invalidate();
	
	//Load Error Tag Img:
	CString szErrTag = "res\\err.png";
	CString szCorTag = "res\\cor.png";
	TCHAR path[MAX_PATH]={0};
	_stprintf(path, _T("%s"),szErrTag.GetBuffer(0));
	int nImageTypeErr=pDoc1->GetTypeFromFileName(path);
	CxImage imageErr(path, nImageTypeErr);
	_stprintf(path, _T("%s"),szCorTag.GetBuffer(0));
	nImageTypeErr=pDoc1->GetTypeFromFileName(path);
	CxImage imageCor(path, nImageTypeErr);
	if(imageErr.IsValid()==false || imageErr.IsValid()==false )
	{
		return;
	}
	////////////////////

	HBRUSH hBrushBorder=::CreateSolidBrush(RGB(192, 192, 192));
	HBRUSH hBrushBk=::CreateSolidBrush(RGB(255, 255, 255));
	
	// Border Size
	RECT rcBorder;
	rcBorder.left=rcBorder.top=0;
	rcBorder.right=THUMBNAIL_WIDTH;
	rcBorder.bottom=THUMBNAIL_HEIGHT;
	
	const float fRatio=(float)THUMBNAIL_HEIGHT/THUMBNAIL_WIDTH;
	
	int XDest, YDest, nDestWidth, nDestHeight;
	
	nIndex1=0;

	for(iter1 = pDoc1->m_vImgNameTest.begin();
		iter1 != pDoc1->m_vImgNameTest.end(); 
		iter1 ++, nIndex1 ++)
	{
		// Load Image File
		_stprintf(path1, _T("%s\\%s"), pDoc1->m_strCurrentDirectory, *iter1);
		
		int nImageType=pDoc1->GetTypeFromFileName(path1);
		if(nImageType==CXIMAGE_FORMAT_UNKNOWN)
			continue;
		
		CxImage image(path1, nImageType);
		
		if(image.IsValid()==false)
			continue;
		
		// Calculate Rect to fit to canvas
		const float fImgRatio=(float)image.GetHeight()/image.GetWidth();
		if(fImgRatio > fRatio)
		{
			nDestWidth=THUMBNAIL_HEIGHT/fImgRatio;
			XDest=(THUMBNAIL_WIDTH-nDestWidth)/2;
			YDest=0;
			nDestHeight=THUMBNAIL_HEIGHT;
		}
		else
		{
			XDest=0;
			nDestWidth=THUMBNAIL_WIDTH;
			nDestHeight=THUMBNAIL_WIDTH*fImgRatio;
			YDest=(THUMBNAIL_HEIGHT-nDestHeight)/2;
		}
		
		//HBRUSH hBrushBorder=::CreateSolidBrush(RGB(192, 1, 192));
		//HBRUSH hBrushBk=::CreateSolidBrush(RGB(255, 255, 255));
		HBRUSH hBrushBkErr=::CreateSolidBrush(RGB(155, 0, 0));
		HBRUSH hBrushBkCor=::CreateSolidBrush(RGB(0, 190, 0));
		CClientDC cdc(pView1);
		HDC hDC=::CreateCompatibleDC(cdc.m_hDC);
        //建立与pView显示设备兼容的位图
		HBITMAP bm = CreateCompatibleBitmap(cdc.m_hDC, THUMBNAIL_WIDTH, THUMBNAIL_HEIGHT);
        //HBITMAP bm2 = CreateCompatibleBitmap(cdc.m_hDC, THUMBNAIL_WIDTH_MASK, THUMBNAIL_HEIGHT_MASK);
		HBITMAP pOldBitmapImage = (HBITMAP)SelectObject(hDC,bm);
		// Draw Background

		::FillRect(hDC, &rcBorder, hBrushBk);
		//::FillRect(hDC, &rcBorderInside, hBrushBk);
		
		// Draw Image
		image.Stretch(hDC, XDest + 2, YDest + 2, nDestWidth - 4, nDestHeight - 4);
		
		// Draw Border
		//::FrameRect(hDC, &rcBorderInside, hBrushBorder);
		
		SelectObject(hDC, pOldBitmapImage);
		
		// Attach to Bitmap and Replace image in CImageList
		CBitmap bitmap;
		bitmap.Attach(bm);
		pImgList1->Replace(nIndex1, &bitmap, NULL);
		
		// Redraw only a current item for removing flickering and fast speed.
		ListCtrl1.RedrawItems(nIndex1, nIndex1);
		
		///////////////////////////////////////////////////////////////////////////
		//对标号不对的图片进行标记(正确的打对号)
		CxImage *pImg;
		int iImgNo = iImgs_per_Cls[nIndex1];
		if(!bCorrect[iImgNo / 100 * 50 + iImgNo % 50])
			pImg = &imageErr;
		else pImg = &imageCor;
		HBITMAP bmErr = CreateCompatibleBitmap(cdc.m_hDC, THUMBNAIL_WIDTH_MASK, THUMBNAIL_HEIGHT_MASK);
		HBITMAP pOldBitmapImageErr = (HBITMAP)SelectObject(hDC,bmErr);
		::FillRect(hDC, &rcBorder, hBrushBk);
		pImg->AlphaSet(100); 
		pImg->Stretch(hDC, 0, 0, THUMBNAIL_WIDTH_MASK, THUMBNAIL_HEIGHT_MASK);
		SelectObject(hDC, pOldBitmapImage);
		CBitmap bitmapErr;
		bitmapErr.Attach(bmErr);//将位图贴到ImageList控件上
		pImgList1->Replace(nIndex1, &bitmapErr, NULL);
		pImgList1->SetOverlayImage(nIndex1,1);
		CPoint myPoint(XDest,YDest);
		pImgList1->Draw((CDC*)&hDC, 0, myPoint, INDEXTOOVERLAYMASK(1));
		ListCtrl1.RedrawItems(nIndex1, nIndex1);
		DeleteObject(bmErr);

///////////////////////////////////////////////////////////////////////////

		// Release used DC and Object
		DeleteDC(hDC);
		DeleteObject(bm);
		DeleteObject(hBrushBkErr);
		DeleteObject(hBrushBkCor);
	}
	DeleteObject(hBrushBorder);
	DeleteObject(hBrushBk);

	ListCtrl1.Invalidate();

	return;
}