//旋转图片
VOID CImageEditorControl::SetRoundImage(BYTE cbRoundType)
{
	//状态效验
	ASSERT(m_ImageSource.IsNull()==false);
	if (m_ImageSource.IsNull()==true) return;

	//构造位置
	CSize SizeSource(m_ImageSource.GetWidth(),m_ImageSource.GetHeight());
	CSize SizeResult(m_ImageSource.GetHeight(),m_ImageSource.GetWidth());

	//创建位图
	CImage ImageSource;
	CImage ImageResult;
	ImageSource.Create(m_ImageSource.GetWidth(),m_ImageSource.GetHeight(),32);
	ImageResult.Create(m_ImageSource.GetHeight(),m_ImageSource.GetWidth(),32);

	//绘画位图
	CDC * pDCResult=CDC::FromHandle(ImageResult.GetDC());
	CDC * pDCSource=CDC::FromHandle(ImageSource.GetDC());
	m_ImageSource.BitBlt(pDCSource->m_hDC,0,0,m_ImageSource.GetWidth(),m_ImageSource.GetHeight(),0,0);

	//获取属性
	INT nPitchResult=ImageResult.GetPitch();
	INT nPitchSource=ImageSource.GetPitch();

	//获取数据
	LPBYTE cbBitResult=(LPBYTE)ImageResult.GetBits();
	LPBYTE cbBitSource=(LPBYTE)ImageSource.GetBits();

	//创建区域
	for (INT nYSourcePos=0;nYSourcePos<SizeSource.cy;nYSourcePos++)
	{
		for (INT nXSourcePos=0;nXSourcePos<SizeSource.cx;nXSourcePos++)
		{
			//目标位置
			INT nXResultPos=(cbRoundType==ROUND_TYPE_LEFT)?nYSourcePos:(SizeSource.cy-nYSourcePos-1);
			INT nYResultPos=(cbRoundType==ROUND_TYPE_LEFT)?(SizeSource.cx-nXSourcePos-1):nXSourcePos;

			//设置颜色
			DWORD dwSource=nYSourcePos*nPitchSource+nXSourcePos*4L;
			DWORD dwResult=nYResultPos*nPitchResult+nXResultPos*4L;
			*(COLORREF *)(cbBitResult+dwResult)=*(COLORREF *)(cbBitSource+dwSource);
		}
	}

	//释放对象
	ImageSource.ReleaseDC();
	ImageResult.ReleaseDC();

	//更新图片
	if (LoadEditImage(ImageResult)==false)
	{
		ASSERT(FALSE);
		return;
	}

	return;
}
Exemple #2
0
//绘画头像
VOID CFaceItemControl::DrawFaceNormal(CDC * pDC, INT nXPos, INT nYPos, INT nWidth, INT nHeight, DWORD dwCustomFace[FACE_CX*FACE_CY])
{
	//创建位图
	CImage ImageCustomFace;
	ImageCustomFace.Create(FACE_CX,FACE_CY,32);

	//获取数据
	INT nImagePitch=ImageCustomFace.GetPitch();
	LPBYTE cbBitCustomFace=(LPBYTE)ImageCustomFace.GetBits();

	//创建区域
	for (INT nYImagePos=0;nYImagePos<FACE_CY;nYImagePos++)
	{
		for (INT nXImagePos=0;nXImagePos<FACE_CX;nXImagePos++)
		{
			//设置颜色
			DWORD dwImageTarget=nYImagePos*nImagePitch+nXImagePos*4L;
			*(COLORREF *)(cbBitCustomFace+dwImageTarget)=dwCustomFace[nYImagePos*FACE_CX+nXImagePos];
		}
	}

	//绘画界面
	ImageCustomFace.Draw(pDC->m_hDC,nXPos,nYPos,nWidth,nHeight);

	return;
}
Exemple #3
0
bool CImageEx::SetGray()
{
	CImage *pImage = &m_ImageClone;
	if ( pImage == NULL && pImage->IsNull() ) 
	{
		pImage = this;
	}

	int nWidth = pImage->GetWidth();
	int nHeight = pImage->GetHeight();

	BYTE* pArray = (BYTE*)pImage->GetBits();
	int nPitch = pImage->GetPitch();
	int nBitCount = pImage->GetBPP() / 8;

	for (int i = 0; i < nHeight; i++) 
	{
		for (int j = 0; j < nWidth; j++) 
		{
			int grayVal = (BYTE)(((*(pArray + nPitch * i + j * nBitCount) * 306)
				+ (*(pArray + nPitch * i + j * nBitCount + 1) * 601)
				+ (*(pArray + nPitch * i + j * nBitCount + 2) * 117) + 512 ) >> 10);	// 计算灰度值

			*(pArray + nPitch * i + j * nBitCount) = grayVal;							// 赋灰度值
			*(pArray + nPitch * i + j * nBitCount + 1) = grayVal;
			*(pArray + nPitch * i + j * nBitCount + 2) = grayVal;
		}
	}

	return true;
}
Exemple #4
0
//绘画头像
VOID CFaceItemControl::DrawFaceOffLine(CDC * pDC, INT nXPos, INT nYPos, INT nWidth, INT nHeight, DWORD dwCustomFace[FACE_CX*FACE_CY])
{
	//创建位图
	CImage ImageCustomFace;
	ImageCustomFace.Create(FACE_CX,FACE_CY,32);

	//获取数据
	INT nImagePitch=ImageCustomFace.GetPitch();
	LPBYTE cbBitCustomFace=(LPBYTE)ImageCustomFace.GetBits();

	//创建区域
	for (INT nYImagePos=0;nYImagePos<FACE_CY;nYImagePos++)
	{
		for (INT nXImagePos=0;nXImagePos<FACE_CX;nXImagePos++)
		{
			//设置颜色
			DWORD dwImageTarget=nYImagePos*nImagePitch+nXImagePos*4L;
			COLORREF crImageTarget=dwCustomFace[nYImagePos*FACE_CX+nXImagePos];

			//提取颜色
			BYTE cbColorR=GetRValue(crImageTarget);
			BYTE cbColorG=GetGValue(crImageTarget);
			BYTE cbColorB=GetBValue(crImageTarget);
			BYTE cbColorGray=(BYTE)(cbColorR*0.30+cbColorG*0.59+cbColorB*0.11);

			//设置颜色
			*(COLORREF *)(cbBitCustomFace+dwImageTarget)=RGB(cbColorGray,cbColorGray,cbColorGray);
		}
	}

	//绘画界面
	ImageCustomFace.Draw(pDC->m_hDC,nXPos,nYPos,nWidth,nHeight);

	return;
}
double img_get_pxl(int img_no, int i, int j, int channel) {
	// Reading input texture sample
	CImage* pImage = saved_images[img_no];
	unsigned char *pData = (unsigned char*)pImage->GetBits();
	int pitch = pImage->GetPitch();
	int byte_pp = pImage->GetBPP() / 8;
	//fout << "Initial sizeof: " << sizeof(pData) << std::endl;
	if (pitch < 0)
	{
		//fout << "NEGATIVE; pitch = " << pitch << std::endl;
		pData += pitch * (image_shapes[img_no].second - 1);
		//pitch = -pitch;
	}
	/*for (int i = 0; i < pImage->GetHeight(); i++) // Image lines
	{
		for (int j = 0; j < pImage->GetWidth(); j++) // Pixels in line
		{
			unsigned char b = pCurrentLine[j * 4];
			unsigned char g = pCurrentLine[j * 4 + 1];
			unsigned char r = pCurrentLine[j * 4 + 2];
			unsigned char alpha = pCurrentLine[j * 4 + 3];
		}
		pCurrentLine += pitch;
	}*/
	//fout << i << ' ' << pitch << ' ' << j << ' ' << byte_pp << ' ' << channel << std::endl << i * pitch + j * byte_pp + channel <<
	//	' ' << sizeof(pData) << std::endl;
	unsigned char *pxl_addr = (unsigned char *)pImage->GetPixelAddress(i, j); // j, i?
	double pxl = double(*(pxl_addr + channel));
	return pxl;
}
void Csmoothorsharp::FilterImg(int* temp,CImage imga){
	
	int nW=imga.GetWidth()-1;
	int nH=imga.GetHeight()-1;


	byte *pRealData;
	pRealData=(byte*)imga.GetBits();
	int pit=imga.GetPitch();
	int bitCount=imga.GetBPP()/8;

	for (int i=1;i<nH;i++)
	{
		for (int j=1;j<nW;j++)
		{
			int Rval=0,Gval=0,Bval=0,indx=0;
			for ( int row=-1;row<=1;row++)
			{
				for (int col=-1;col<=1;col++)
				{
					 Bval+=((int)(int)(*(pRealData+pit*(i+row)+(j+col)*bitCount))) *temp[indx];
					 Gval=((int)(int)(*(pRealData+pit*(i+row)+(j+col)*bitCount+1)))*temp[indx];
					 Rval=((int)(int)(*(pRealData+pit*(i+row)+(j+col)*bitCount+2)))*temp[indx];
					 indx++;
				}
			}
//template work is over,You need get the center point pixel.
			Rval=(int)(Rval*cval);
			if (Rval>255)
				Rval=255;
			else if(Rval<0)
				Rval=0;

			Gval=(int)(Gval*cval);
			if (Gval>255)
				Gval=255;
			else if(Gval<0)
				Gval=0;

			Bval=(int)(Bval*cval);
			if (Bval>255)
				Bval=255;
			else if (Bval<0)
				Bval=0;

//ok,write the new pixel into the pic.
			*(pRealData+pit*(i-1)+(j-1)*bitCount)=Bval;
			*(pRealData+pit*(i-1)+(j-1)*bitCount+1)=Gval;
			*(pRealData+pit*(i-1)+(j-1)*bitCount+2)=Rval;
		}
	}




//CALL the OnDraw in MFC
	
}
Exemple #7
0
//确定函数
VOID CDlgCustomFace::OnOK()
{
	//连接判断
	bool bConnect=false;

	//系统模式
	if (m_cbMode==MM_SYSTEM)
	{
		CGlobalUserInfo * pGlobalUserInfo=CGlobalUserInfo::GetInstance();
		bConnect=(pGlobalUserInfo->GetGlobalUserData()->wFaceID!=m_wFaceID);
	}

	//自定模式
	if (m_cbMode==MM_CUSTOM)
	{
		//创建缓冲
		CImage ImageCustomFace;
		ImageCustomFace.Create(FACE_CX,FACE_CY,32);

		//创建 DC
		CImageDC BufferDC(ImageCustomFace);
		m_FaceItemCustomWnd.DrawEditImage(CDC::FromHandle(BufferDC),0,0,FACE_CX,FACE_CY);

		//获取数据
		INT nImagePitch=ImageCustomFace.GetPitch();
		LPBYTE cbBitCustomFace=(LPBYTE)ImageCustomFace.GetBits();

		//创建区域
		for (INT nYImagePos=0;nYImagePos<FACE_CY;nYImagePos++)
		{
			for (INT nXImagePos=0;nXImagePos<FACE_CX;nXImagePos++)
			{
				//设置颜色
				DWORD dwImageTarget=nYImagePos*nImagePitch+nXImagePos*4L;
				m_CustomFaceInfo.dwCustomFace[nYImagePos*FACE_CX+nXImagePos]=*(COLORREF *)(cbBitCustomFace+dwImageTarget);
			}
		}

		//设置变量
		bConnect=true;
		m_CustomFaceInfo.dwDataSize=sizeof(m_CustomFaceInfo);
	}

	//激活任务
	if (bConnect==true)
	{
		//控件控制
		EnableControl(false);

		//激活任务
		m_MissionManager.AvtiveMissionItem(this,false);

		return;
	}

	__super::OnOK();
}
Exemple #8
0
UINT InverseThread(LPVOID pParam)
{
	LANGID id = PIGetThreadUILanguage();
	SetThreadUILanguage(id);

	CString str;
	str.LoadString(ID_IMAGE_INVERSE);
	PIProgressInit(PI_PROGRESS_DLG, str);
//	PIProgressInit(PI_PROGRESS_BAR, str);

	CImage* pImage = (CImage*)pParam;

	int nWidth = pImage->GetWidth();
	int nHeight = pImage->GetHeight();
	BYTE* pImageData = (BYTE*)pImage->GetBits();
	int nPitch = pImage->GetPitch();
	int nBitCount = pImage->GetBPP() / 8;

	for (int j=0; j<nHeight; j++)
	{
		for (int i=0; i<nWidth; i++)
		{
			int nPixelIndex = j * nPitch + i * nBitCount;
			BYTE* pPixel = pImageData + j * nPitch + i * nBitCount;
			*(pPixel) = 255 - *(pPixel);
			*(pPixel + 1) = 255 - *(pPixel + 1);
			*(pPixel + 2) = 255 - *(pPixel + 2);
		}

		LRESULT lResult = PIProgressPercent(j * 100 / nHeight);
		if (!lResult)
		{
			// quit thread
			return 1;
		}
	}

	PIProgressDone();

	// refresh view
	PIGetActiveView()->Invalidate(FALSE);

	return 0;
}
void CTraffic_Camera_Image::MatToCImage(Mat &mat, CImage &cImage)
{
//create new CImage  
int width    = mat.cols;  
int height   = mat.rows;  
int channels = mat.channels();  
	
//cImage.ReleaseDC();
//cImage.ReleaseGDIPlus();
cImage.Destroy(); //clear  
cImage.Create(width,   
              height, //positive: left-bottom-up   or negative: left-top-down  
              8*channels ); //numbers of bits per pixel  

 //copy values  
uchar* ps;  
uchar* pimg = (uchar*)cImage.GetBits(); //A pointer to the bitmap buffer  
          
    //The pitch is the distance, in bytes. represent the beginning of   
    // one bitmap line and the beginning of the next bitmap line  
    int step = cImage.GetPitch();  

	for (int i = 0; i < height; ++i)  
	{  
        ps = (mat.ptr<uchar>(i));  
        for ( int j = 0; j < width; ++j )  
        {  
            if ( channels == 1 ) //gray  
            {  
                *(pimg + i*step + j) = ps[j];  
            }  
            else if ( channels == 3 ) //color  
            {  
                for (int k = 0 ; k < 3; ++k )  
                {  
                    *(pimg + i*step + j*3 + k ) = ps[j*3 + k];  
                }             
            }  
        }     
    }  

}
void CTracer::SaveImageToFile(std::string fileName)
{
	CImage image;

	int width = m_camera.m_resolution.x;
	int height = m_camera.m_resolution.y;

	image.Create(width, height, 24);

	int pitch = image.GetPitch();
	unsigned char* imageBuffer = (unsigned char*)image.GetBits();

	if (pitch < 0)
	{
		imageBuffer += pitch * (height - 1);
		pitch = -pitch;
	}

	int i, j;
	int imageDisplacement = 0;
	int textureDisplacement = 0;

	for (i = 0; i < height; i++)
	{
		for (j = 0; j < width; j++)
		{
			glm::vec3 color = m_camera.m_pixels[textureDisplacement + j];

			// clamp(val, minVal, maxVal) = min(max(x, minVal), maxVal)
			// shows that val is in [minVal, maxVal]
			imageBuffer[imageDisplacement + j * 3] = unsigned(glm::clamp(color.b, 0.0f, 1.0f) * 255.0f);
			imageBuffer[imageDisplacement + j * 3 + 1] = unsigned(glm::clamp(color.g, 0.0f, 1.0f) * 255.0f);
			imageBuffer[imageDisplacement + j * 3 + 2] = unsigned(glm::clamp(color.r, 0.0f, 1.0f) * 255.0f);
		}

		imageDisplacement += pitch;
		textureDisplacement += width;
	}

	image.Save(fileName.c_str());
	image.Destroy();
}
void TestCommand::Func2()
{
	CImage saveimg;
	saveimg.Create(img_->GetWidth()/2,img_->GetHeight()/2,8);
	int steps=m_min(img_->GetWidth()/2,img_->GetHeight()/2);
	BYTE *psrc=(BYTE *)img_->GetImage()->GetBits();
	int nrowsrc=img_->GetImage()->GetPitch();
	BYTE *pdes=(BYTE *)saveimg.GetBits();
	int nrowdes=saveimg.GetPitch();
	for(int xi=0;xi<steps;xi++)
		for(int yi=0;yi<steps;yi++)
		{
			pdes[yi*nrowdes+xi]=(psrc[(yi*2)*nrowsrc+(xi*2)*3]+psrc[(yi*2)*nrowsrc+(xi*2)*3+1]+psrc[(yi*2)*nrowsrc+(xi*2)*3+2]
			                             +psrc[(yi*2)*nrowsrc+(2*xi+1)*3]+psrc[(yi*2)*nrowsrc+(2*xi+1)*3+1]+psrc[(yi*2)*nrowsrc+(2*xi+1)*3+2]
										 +psrc[(yi*2+1)*nrowsrc+(2*xi)*3]+psrc[(yi*2+1)*nrowsrc+(2*xi)*3+1]+psrc[(yi*2+1)*nrowsrc+(2*xi)*3+2]
										 +psrc[(yi*2+1)*nrowsrc+(2*xi+1)*3]+psrc[(yi*2+1)*nrowsrc+(2*xi+1)*3]+psrc[(yi*2+1)*nrowsrc+(2*xi+1)*3])/12;

		}
		saveimg.SetColorTable(0,255,ImageYH::GetColorTable());
		saveimg.Save("d:\\testImg\\lena256.bmp");
}
//
// Copies the content of a byte buffer to a MFC image with respect to the image's alignment
//
// Parameters:
//  [in]    pInbuffer       The byte buffer as received from the cam
//  [in]    ePixelFormat    The pixel format of the frame
//  [out]   OutImage        The filled MFC image
//
void CAsynchronousGrabDlg::CopyToImage( VmbUchar_t *pInBuffer, VmbPixelFormat_t ePixelFormat, CImage &OutImage )
{
    const int               nHeight         = m_ApiController.GetHeight();
    const int               nWidth          = m_ApiController.GetWidth();
    const int               nStride         = OutImage.GetPitch();
    const int               nBitsPerPixel   = OutImage.GetBPP();
    VmbError_t              Result;
    if( ( nWidth*nBitsPerPixel ) /8 != nStride )
    {
        Log( _TEXT( "Vimba only supports stride that is equal to width." ), VmbErrorWrongType );
        return;
    }
    VmbImage                SourceImage,DestinationImage;
    SourceImage.Size        = sizeof( SourceImage );
    DestinationImage.Size   = sizeof( DestinationImage );

    SourceImage.Data        = pInBuffer;
    DestinationImage.Data   = OutImage.GetBits();

    Result = VmbSetImageInfoFromPixelFormat( ePixelFormat, nWidth, nHeight, &SourceImage );
    if( VmbErrorSuccess != Result )
    {
        Log( _TEXT( "Error setting source image info." ), static_cast<VmbErrorType>( Result ) );
        return;
    }
    static const std::string DisplayFormat( "BGR24" );
    Result = VmbSetImageInfoFromString( DisplayFormat.c_str(),DisplayFormat.size(), nWidth,nHeight, &DestinationImage );
    if( VmbErrorSuccess != Result )
    {
        Log( _TEXT( "Error setting destination image info." ),static_cast<VmbErrorType>( Result ) );
        return;
    }
    Result = VmbImageTransform( &SourceImage, &DestinationImage,NULL,0 );
    if( VmbErrorSuccess != Result )
    {
        Log( _TEXT( "Error transforming image." ), static_cast<VmbErrorType>( Result ) );
    }
}
Exemple #13
0
//根据文件路径获取单张图片
Texture2D* TextureLoader::CreateTexture2D(const char* fileName)
{	

	GLuint texture;
	glGenTextures(1, &texture);
	glBindTexture( GL_TEXTURE_2D, texture);
    CImage *img = new CImage;		// 新建CImage对象
	char *complete_path = FileTool::GetInstance()->GetCompletePath(fileName);
	if (complete_path == NULL)
	{
		SAFDelete(img);
		return NULL;
	}
	wchar_t *wchat_file_name = ATC2W(complete_path);
	img->Load(wchat_file_name);			// 读入图像文件
	SAFDelete(wchat_file_name);
	SAFDelete(complete_path);
    int width = img->GetWidth();	// 获取图像宽度
    int height = img->GetHeight();	// 获取图像高度
    int n = img->GetBPP() / 8;
    int test = img->GetPitch();//图片是正的还是反的
    GLubyte *image = new GLubyte[width * height * n];	// 用于保存图像数据的数组
    // 将图像数据读入image数组
    if(test<0)
        for(int j = height-1,k=0; j >=0; j--,k++){
            for(int i = width-1,z=width-1; i >=0; i--,z--){
                int index = (k * width + z) * n;
                RGBQUAD rgb = GetPixelColor(img, i, j);
                image[index] = rgb.rgbRed;
                image[index+1] = rgb.rgbGreen;
                image[index+2] = rgb.rgbBlue;
                if(n==4)
                    image[index+3] = rgb.rgbReserved;
            }
        }
    else
        for(int j = 0; j < height; j++){
            for(int i = 0; i < width; i++){
                int index = (j * width + i) * n;
                RGBQUAD rgb = GetPixelColor(img, i, j);
                image[index] = rgb.rgbRed;
                image[index+1] = rgb.rgbGreen;
                image[index+2] = rgb.rgbBlue;
                if(n==4)
                    image[index+3] = rgb.rgbReserved;
            }
        }

    delete img;		// CImage对象已无用,数据已读入image数组
    // 根据image中的数据在纹理内存中创建纹理
    glPixelStorei(GL_UNPACK_ALIGNMENT, 1);	// 每行图像数据紧密排列
    if(n==4)
        glTexImage2D(GL_TEXTURE_2D, 0, GL_RGBA, width, height, 0, GL_RGBA, GL_UNSIGNED_BYTE, image);
    else
        glTexImage2D(GL_TEXTURE_2D, 0, GL_RGB, width, height, 0, GL_RGB, GL_UNSIGNED_BYTE, image);

	
	glTexParameterf( GL_TEXTURE_2D, GL_TEXTURE_WRAP_S, GL_REPEAT );
	glTexParameterf( GL_TEXTURE_2D, GL_TEXTURE_WRAP_T, GL_REPEAT );
	glTexParameterf( GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_LINEAR );
	glTexParameterf( GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_LINEAR );

    delete image;	// 纹理数据已在显卡纹理内存中了,主机内存中的image已无用

	Texture2D *tex = new Texture2D();
	tex->texture_name_ = fileName;
	tex->height_ = height;
	tex->width_ = width;
	tex->tex_res_ = texture;
	return tex;
}
void CanonCamera::UpdateView()
{

	if(!liveView)
		return;

    EdsError err = EDS_ERR_OK;
    EdsStreamRef stream = NULL;
    EdsEvfImageRef evfImage = NULL;

    // Create memory stream.
    err = EdsCreateMemoryStream(0, &stream);
  
	if(err != EDS_ERR_OK)
    {
        printf("Error in EdsCreateMemoryStream: 0x%X\n", err);
    }    

    err = EdsCreateEvfImageRef(stream, &evfImage);
    if(err != EDS_ERR_OK)
    {
        printf("Error in EdsCreateEvfImageRef: 0x%X\n", err);  
    }    

	
	bool wait = true;

    int numTries = 0;
    
	while(wait && numTries++ < 20)
    {
        err = EdsDownloadEvfImage(camera, evfImage);
        if(err != EDS_ERR_OK && err != EDS_ERR_OBJECT_NOTREADY)
        {
            printf("Error in EdsDownloadEvfImage: 0x%X\n", err);

        }
        if(err == EDS_ERR_OBJECT_NOTREADY)
        {
            Sleep(250);
        }
        else
        {
            wait = false;
        }
    }
    if(numTries > 20)
    {
        printf("ERROR: camera is taking too long for EdsDownloadEvfImage\n");

    }

    unsigned char* pByteImage = NULL;

    // Get image (JPEG) pointer.
    err = EdsGetPointer(stream, (EdsVoid**)&pByteImage );
    if(err != EDS_ERR_OK)
    {
        printf("Error in EdsGetPointer Histogram: 0x%X\n", err);
  
    }

    EdsUInt32 size;
    err = EdsGetLength(stream, &size);
    if(err != EDS_ERR_OK)
    {
        printf("Error in EdsGetLength Histogram: 0x%X\n", err);
 
    }

    EdsImageRef image = NULL;
    EdsImageInfo imageInfo;

    err = EdsCreateImageRef(stream, &image);
    if(err != EDS_ERR_OK)
    {
        printf("Error in EdsCreateImageRef: 0x%X\n", err);
 
    }

    err = EdsGetImageInfo(image, kEdsImageSrc_FullView, &imageInfo);
    if(err != EDS_ERR_OK)
    {
        printf("Error in EdsGetImageInfo: 0x%X\n", err);

    }

    if(imageInfo.componentDepth != 8)
    {
        printf("Error imageInfo.componentDepth != 8\n");

    }

	liveImage = cvCreateImage(cvSize(imageInfo.width, imageInfo.height), IPL_DEPTH_8U, imageInfo.numOfComponents);

    
    EdsUInt32 DataSize = 0;

    CImage cImage;
    HRESULT hr;

    CComPtr<IStream> iStream = NULL;
    HGLOBAL hMem = GlobalAlloc(GHND, size);
    LPVOID pBuff = GlobalLock(hMem);
    memcpy(pBuff, pByteImage, size);
    GlobalUnlock(hMem);
    hr = CreateStreamOnHGlobal(hMem, TRUE, &iStream);

    // Get the bitmap image from the stream
    if ((hr = cImage.Load(iStream)) == S_OK)
    {
        
        int pitch = cImage.GetPitch();
        int height = cImage.GetHeight();
        BYTE* pBits = (BYTE*)cImage.GetBits();
        if (pitch < 0)
            pBits += (pitch *(height -1));
        memcpy(liveImage->imageData, pBits, abs(pitch) * height);
		
    }

	cImage.~CImage();
    
    GlobalFree(hMem);
	

    cvFlip(liveImage, NULL, 0);

    // Release stream
    if(stream != NULL)
    {
        err = EdsRelease(stream);
        if(err != EDS_ERR_OK)
        {
            printf("Error in EdsRelease: 0x%X\n", err);

        }
        stream = NULL;
    }

   
   if(evfImage != NULL)
    {
        err = EdsRelease(evfImage);
        if(err != EDS_ERR_OK)
        {
            printf("Error in EdsRelease: 0x%X\n", err);

        }
        evfImage = NULL;
    }

	EdsRelease(image);
	
	cvShowImage(windowName.c_str(), liveImage);

	cvReleaseImage(&liveImage);
    
}
Exemple #15
0
//混合绘画
bool CSkinImage::BlendDrawImage(CDC * pDestDC, INT xDest, INT yDest, INT cxDest, INT cyDest, INT xSrc, INT ySrc, COLORREF crTransColor, BYTE cbAlphaDepth)
{
	//无效区域
	CRect rcDirty;
	pDestDC->GetClipBox(&rcDirty);

	//绘画判断
	if (IsNull()==true) return false;

	//位置调整
	tagImageRender ImageRender;
	GetDrawImageArea(xDest,yDest,cxDest,cyDest,xSrc,ySrc,rcDirty,ImageRender);

	//创建位图
	CImage ImageResult;
	CImage ImageSource;
	ImageResult.Create(ImageRender.cxRender,ImageRender.cyRender,32);
	ImageSource.Create(ImageRender.cxRender,ImageRender.cyRender,32);

	//绘画位图
	CDC * pDCImage=CDC::FromHandle(GetDC());
	CDC * pDCResult=CDC::FromHandle(ImageResult.GetDC());
	CDC * pDCSource=CDC::FromHandle(ImageSource.GetDC());
	pDCSource->BitBlt(0,0,ImageRender.cxRender,ImageRender.cyRender,pDCImage,ImageRender.nXImage,ImageRender.nYImage,SRCCOPY);
	pDCResult->BitBlt(0,0,ImageRender.cxRender,ImageRender.cyRender,pDestDC,ImageRender.nXScreen,ImageRender.nYScreen,SRCCOPY);

	//获取属性
	float fAlpha=(float)(cbAlphaDepth/255.0);
	INT nPitchResult=ImageResult.GetPitch();
	INT nPitchSource=ImageSource.GetPitch();

	//获取数据
	LPBYTE cbBitResult=(LPBYTE)ImageResult.GetBits();
	LPBYTE cbBitSource=(LPBYTE)ImageSource.GetBits();

	//创建区域
	for (INT nYPos=0;nYPos<ImageRender.cyRender;nYPos++)
	{
		for (INT nXPos=0;nXPos<ImageRender.cxRender;nXPos++)
		{
			//获取颜色
			COLORREF * pcrResult=(COLORREF *)(cbBitResult+nYPos*nPitchResult+nXPos*4);
			COLORREF * pcrSource=(COLORREF *)(cbBitSource+nYPos*nPitchSource+nXPos*4);

			//混合处理
			if (*pcrSource!=crTransColor)
			{
				//结果颜色
				BYTE cbResultR=GetRValue(*pcrResult);
				BYTE cbResultG=GetGValue(*pcrResult);
				BYTE cbResultB=GetBValue(*pcrResult);

				//原图颜色
				BYTE cbSourceR=GetRValue(*pcrSource);
				BYTE cbSourceG=GetGValue(*pcrSource);
				BYTE cbSourceB=GetBValue(*pcrSource);

				//颜色混合
				cbResultR=(BYTE)(cbSourceR*fAlpha+cbResultR*(1.0-fAlpha));
				cbResultG=(BYTE)(cbSourceG*fAlpha+cbResultG*(1.0-fAlpha));
				cbResultB=(BYTE)(cbSourceB*fAlpha+cbResultB*(1.0-fAlpha));

				//颜色混合
				*pcrResult=RGB(cbResultR,cbResultG,cbResultB);
			}
		}
	}

	//绘画界面
	ImageResult.BitBlt(pDestDC->m_hDC,ImageRender.nXScreen,ImageRender.nYScreen);

	//释放对象
	ReleaseDC();
	ImageSource.ReleaseDC();
	ImageResult.ReleaseDC();

	return true;
}
Exemple #16
0
void CStorageDoc::OnFileImport () {
	CFile		fImport;
	CFileDialog	dlgOpen (true);
	// #### TODO: Place here initial directory name taken from configuration structures
	dlgOpen.m_ofn.lpstrInitialDir = ".";
	dlgOpen.m_ofn.lpstrFilter = "Kontron Elektronik Images (*.img)""\0""*.IMG""\0"
		"All supported signle image formats""\0""*.JPG;*.JPEG;*.GIF;*.PNG;*.BMP;*.DIB""\0"
		"JPEG Bitmap (*.jpg, *.jpeg)""\0""*.JPG;*.JPEG""\0"
		"CumpuServe GIF (*.gif)""\0""*.GIF""\0"
		"Prtable Network Graphics (*.png)""\0""*.PNG""\0"
		"MS Windows Bitmap (*.bmp, *.dib)""\0""*.BMP;*.DIB""\0";
	dlgOpen.m_ofn.nFilterIndex = 1;
//	dlgOpen.SetWindowText (theApp.LoadString (IDS_IMPORTSEQ_DLGCAPTION));
	if (dlgOpen.DoModal () != IDOK)
		return;

	// #### TODO: Add support for video formats
	// #### TODO: Add support for multi-page tif format
	// #### TODO: Create import dialog
	// #### TODO: Add progress control on the status bar

	uvar32_64	selected;
	svar32_64	nImages;
	uvar32_64	dwSize = m_nDimX * m_nDimY;
	CString		strTitle;
	BYTE		*pbPixels = (BYTE *)aimMemoryCommit (dwSize, "CStorageDoc::OnDocAddImportseq", "pbPixels");


	if ((selected = Frames[aimActive].GetActiveImageNo()) == -1)
		selected = Images.GetCount () - 1;

	theApp.StatusState (IDI_INDICATOR_IMPORT);
	if (dlgOpen.m_ofn.nFilterIndex == 1) {
		if (!fImport.Open (dlgOpen.GetPathName (), CFile::modeRead | CFile::typeBinary | CFile::shareDenyWrite)) {
			MessageBox (theApp.m_pMainWnd->m_hWnd, theApp.LoadString (IDS_IMPORTSEQ_OPENERR), theApp.LoadString (IDS_IMPORTSEQ_DLGCAPTION), MB_OK | MB_ICONERROR);
			return;
		}
		BYTE	*pbHeader = new BYTE[0x80];
		fImport.Read ( pbHeader, 0x80 );
		if (((DWORD*)(pbHeader + 2))[0] != 0xB06D1247) {
			MessageBox  (theApp.m_pMainWnd->m_hWnd, theApp.LoadString (IDS_IMPORTSEQ_TYPEERR), theApp.LoadString (IDS_IMPORTSEQ_DLGCAPTION), MB_OK | MB_ICONERROR);
			return;
		}
		if (((WORD*)pbHeader)[5] != 0x4321) {
			MessageBox  (theApp.m_pMainWnd->m_hWnd, theApp.LoadString (IDS_IMPORTSEQ_TYPEERR), theApp.LoadString (IDS_IMPORTSEQ_DLGCAPTION), MB_OK | MB_ICONERROR);
			return;
		}
		if (((WORD*)pbHeader)[3] != m_nDimX || ((WORD*)pbHeader)[4] != m_nDimY || m_nBPP != 8) {
			MessageBox  (theApp.m_pMainWnd->m_hWnd, theApp.LoadString (IDS_IMPORTSEQ_SIZEERR), theApp.LoadString (IDS_IMPORTSEQ_DLGCAPTION), MB_OK | MB_ICONERROR);
			return;
		}
		nImages = ((WORD*)pbHeader)[6];

		theApp.StatusState (IDI_INDICATOR_IMPORT);
		while (--nImages >= 0) {
			strTitle.Format ("%s #%03d", dlgOpen.GetFileTitle (), ((WORD*)pbHeader)[6] - nImages);
			CPicture *pImg = new CPicture (this, strTitle, "");
			fImport.Read (pbPixels, dwSize);
			pImg->Channels(aimAll).SetBits (pbPixels, dwSize);
			Images.Insert (selected++, *pImg);
		}
		nImages = ((WORD*)pbHeader)[6];

		fImport.Close ();
		delete [] pbHeader;
		aimMemoryRelease (pbPixels, "CStorage::OnDocAddImportseq", "pbPixels");
	} else if (dlgOpen.m_ofn.nFilterIndex >= 2) {
		CImage image;
		image.Load (dlgOpen.GetPathName ());
		if (image.GetBPP () != m_nBPP || image.GetHeight () != m_nDimY || image.GetWidth () != m_nDimX) {
			MessageBox  (theApp.m_pMainWnd->m_hWnd, theApp.LoadString (IDS_IMPORTSEQ_SIZEERR), theApp.LoadString (IDS_IMPORTSEQ_DLGCAPTION), MB_OK | MB_ICONERROR);
			return;
		}
		CPicture *pImg = new CPicture (this, dlgOpen.GetFileTitle (), "");
		ubyte *pBits;
		if (image.IsDIBSection () && image.GetPitch () < 0)
			pBits = (ubyte*)image.GetBits () - (m_nDimY - 1) * m_nDimX;
		else
			pBits = (ubyte*)image.GetBits ();
		pImg->Channels(aimAll).SetBits (pBits, m_nDimX * m_nDimY * m_nBPP / 8);
		Images.Insert (selected++, *pImg);
	}

	theApp.StatusState (0);
}
Exemple #17
-10
void CiratefiApp::ShowMatOnPicture(Mat& image, CDialog* dlg, int pID)
{

	CRect PictureRect;
	CStatic* PictureControl=(CStatic*)dlg->GetDlgItem(pID);
	PictureControl->GetClientRect(&PictureRect);
	CDC *pDc = PictureControl->GetWindowDC();
	SetStretchBltMode(pDc->m_hDC,STRETCH_HALFTONE);

	Mat resizeImage = image.clone();
	if(resizeImage.rows>PictureRect.Height() || resizeImage.cols>PictureRect.Width())
	{
		double resizeRatio = min((double)PictureRect.Width()/(double)image.cols, (double)PictureRect.Height()/(double)image.rows);
		resize(image, resizeImage, Size(), resizeRatio, resizeRatio);
	}

	CImage outputImage;
	int width = resizeImage.cols;
	int height = resizeImage.rows;
	int channels = resizeImage.channels();
	outputImage.Destroy(); //clear
	outputImage.Create(width, height, 8*channels);

	if(channels==1)
	{
		RGBQUAD* ColorTable;
		int MaxColors=outputImage.GetMaxColorTableEntries();
		ColorTable = new RGBQUAD[MaxColors];
		outputImage.GetColorTable(0, MaxColors, ColorTable);
		for (int i = 0; i < MaxColors; i++)
		{
			ColorTable[i].rgbBlue = (BYTE)i;
			ColorTable[i].rgbGreen = (BYTE)i;
			ColorTable[i].rgbRed = (BYTE)i;
		}
		outputImage.SetColorTable(0, MaxColors, ColorTable);
		delete []ColorTable;
	}


	uchar* ps;
	uchar* pimg = (uchar*)outputImage.GetBits(); //A pointer to the bitmap buffer
	//The pitch is the distance, in bytes. represent the beginning of
	// one bitmap line and the beginning of the next bitmap line
	int step = outputImage.GetPitch();
	for (int i = 0; i < height; ++i)
	{
		ps = (resizeImage.ptr<uchar>(i));
		for ( int j = 0; j < width; j++ )
		{
			if ( channels == 1 ) //gray
			{
				*(pimg + i*step + j) = ps[j];
			}
			else if ( channels == 3 ) //color
			{
				for (int k = 0 ; k < 3; k++ )
				{
					*(pimg + i*step + j*3 + k ) = ps[j*3 + k];
				}
			}
		}
	}
	outputImage.Draw(pDc->m_hDC, CRect(CPoint(PictureRect.TopLeft().x+(PictureRect.Width()-width)/2,PictureRect.TopLeft().y+(PictureRect.Height()-height)/2), CSize(width,height)));
	dlg->ReleaseDC(pDc);
}