Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

Imagine I have the following:

CvMat* mat = cvCreateMat(3,3,CV_16SC3)

This is a 3x3 matrix of integers of channel 3.

Now if you look at OpenCV documentation you will find the following as the deceleration for cvMat:

typedef struct CvMat {

int type;
int step;

int* refcount;

    uchar* ptr;
    short* s;
    int* i;
    float* fl;
    double* db;
} data;

    int rows;
    int height;

    int cols;
    int width;
} CvMat;

Now, I want to play around with the data.ptr, which is the pointer to the data stored in cvMat. However, I'm having a hard time understanding how the memory is layed out. If I have a 3 channel matrix, how does this work? For one channel its simple because it's just a simple matrix of MxN where M is rows and N is cols. However for 3 channel, are there 3 of these MxN matrix's?? Can someone show me how I would go about initalizing a 3 channel matrix via data.ptr and how to access these values please? Thank you.

share|improve this question
Basically what this question boils down to is how do I access lets say channel 2 of row 2, column 1? – Sevaj Ba Nov 11 '09 at 4:56

This webpage is an excellent introduction to OpenCV 1.1. I would recommend using the latest version, Open CV 2.0 which has a general Mat class which handles images, matrices, etc. unlike OpenCV 1.1.

The above webpage has detailed the following methods for element access in multi-channel images:

Indirect access: (General, but inefficient, access to any type image)

For a multi-channel float (or byte) image:

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]);
cvSet2D(img,i,j,s); // set the (i,j) pixel value

Direct access: (Efficient access, but error prone)

For a multi-channel float image:

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

Direct access using a pointer: (Simplified and efficient access under limiting assumptions)

For a multi-channel float image (assuming a 4-byte alignment):

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;

Direct access using a c++ wrapper: (Simple and efficient access)

Define a c++ wrapper for single-channel byte images, multi-channel byte images, and multi-channel float images:

template<class T> class Image
    IplImage* imgp;
    Image(IplImage* img=0) {imgp=img;}
    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;

For a multi-channel float image:

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;
share|improve this answer
thank you for this complete answer – user261002 Apr 20 '12 at 16:33
This answer should have covered some details on cvMat. cvMat is not mentioned at all – vishal May 3 '13 at 10:45

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.