OpenCV----访问图像元素

访问图像元素

 

  • 假设需要读取在i行j列像点的第k通道. 其中, 行数i的范围为[0, height-1], 列数j的范围为[0, width-1], 通道k的范围为[0, nchannels-1].

     

  • 间接存取: (比较通用, 但效率低, 可读取任一类型图像数据)

     

    • 对单通道字节图像:
      IplImage* img=cvCreateImage(cvSize(640,480),IPL_DEPTH_8U,1);
      CvScalar s;
      s=cvGet2D(img,i,j); // get the (i,j) pixel value
      printf("intensity=%f/n",s.val[0]);
      s.val[0]=111;
      cvSet2D(img,i,j,s); // set the (i,j) pixel value

       

    • 对多通道浮点或字节图像:
      IplImage* img=cvCreateImage(cvSize(640,480),IPL_DEPTH_32F,3);
      CvScalar s;
      s=cvGet2D(img,i,j); // get the (i,j) pixel value
      printf("B=%f, G=%f, R=%f/n",s.val[0],s.val[1],s.val[2]);
      s.val[0]=111;
      s.val[1]=111;
      s.val[2]=111;
      cvSet2D(img,i,j,s); // set the (i,j) pixel value

       

     

  • 直接存取: (效率高, 但容易出错)

     

    • 对单通道字节图像:
      IplImage* img=cvCreateImage(cvSize(640,480),IPL_DEPTH_8U,1);
      ((uchar *)(img->imageData + i*img->widthStep))[j]=111;

       

    • 对多通道字节图像:
      IplImage* img=cvCreateImage(cvSize(640,480),IPL_DEPTH_8U,3);
      ((uchar *)(img->imageData + i*img->widthStep))[j*img->nChannels + 0]=111; // B
      ((uchar *)(img->imageData + i*img->widthStep))[j*img->nChannels + 1]=112; // G
      ((uchar *)(img->imageData + i*img->widthStep))[j*img->nChannels + 2]=113; // R

       

    • 对多通道浮点图像:
      IplImage* img=cvCreateImage(cvSize(640,480),IPL_DEPTH_32F,3);
      ((float *)(img->imageData + i*img->widthStep))[j*img->nChannels + 0]=111; // B
      ((float *)(img->imageData + i*img->widthStep))[j*img->nChannels + 1]=112; // G
      ((float *)(img->imageData + i*img->widthStep))[j*img->nChannels + 2]=113; // R

       

     

  • 用指针直接存取 : (在某些情况下简单高效)

     

    • 对单通道字节图像:
      IplImage* img  = cvCreateImage(cvSize(640,480),IPL_DEPTH_8U,1);
      int height = img->height;
      int width = img->width;
      int step = img->widthStep/sizeof(uchar);
      uchar* data = (uchar *)img->imageData;
      data[i*step+j] = 111;

       

    • 对多通道字节图像:
      IplImage* img  = cvCreateImage(cvSize(640,480),IPL_DEPTH_8U,3);
      int height = img->height;
      int width = img->width;
      int step = img->widthStep/sizeof(uchar);
      int channels = img->nChannels;
      uchar* data = (uchar *)img->imageData;
      data[i*step+j*channels+k] = 111;

       

    • 对单通道浮点图像(假设用4字节调整):
      IplImage* img  = cvCreateImage(cvSize(640,480),IPL_DEPTH_32F,3);
      int height = img->height;
      int width = img->width;
      int step = img->widthStep/sizeof(float);
      int channels = img->nChannels;
      float * data = (float *)img->imageData;
      data[i*step+j*channels+k] = 111;

       

     

     

  • 使用 c++ wrapper 进行直接存取: (简单高效)

     

    • 对单/多通道字节图像,多通道浮点图像定义一个 c++ wrapper:
      template<class T> class Image
      {
      private:
      IplImage* imgp;
      public:
      Image(IplImage* img=0) {imgp=img;}
      ~Image(){imgp=0;}
      void operator=(IplImage* img) {imgp=img;}
      inline T* operator[](const int rowIndx) {
      return ((T *)(imgp->imageData + rowIndx*imgp->widthStep));}
      };

      typedef struct{
      unsigned char b,g,r;
      } RgbPixel;

      typedef struct{
      float b,g,r;
      } RgbPixelFloat;

      typedef Image<RgbPixel> RgbImage;
      typedef Image<RgbPixelFloat> RgbImageFloat;
      typedef Image<unsigned char> BwImage;
      typedef Image<float> BwImageFloat;

       

    • 单通道字节图像:
      IplImage* img=cvCreateImage(cvSize(640,480),IPL_DEPTH_8U,1);
      BwImage imgA(img);
      imgA[i][j] = 111;

       

    • 多通道字节图像:
      IplImage* img=cvCreateImage(cvSize(640,480),IPL_DEPTH_8U,3);
      RgbImage imgA(img);
      imgA[i][j].b = 111;
      imgA[i][j].g = 111;
      imgA[i][j].r = 111;

       

    • 多通道浮点图像:
      IplImage* img=cvCreateImage(cvSize(640,480),IPL_DEPTH_32F,3);
      RgbImageFloat imgA(img);
      imgA[i][j].b = 111;
      imgA[i][j].g = 111;
      imgA[i][j].r = 111;
    摘自《OpenCV》教程--基础篇

       

     

你可能感兴趣的:(c,image,struct,Class,float,wrapper)