I have a RGB image and I trying to do some modification on R channel. So I do similar to the following:

Mat img;
vector<Mat> chs;
split(img, chs);
//some modification on chs[2]
imshow("Result", img);

But it seems that OpenCV copy data to chs by value (not by reference). As a result the img matrix not changed. But due to memory limitations I don't prefer to use merge function.

Is there any alternative to split the matrix in-place?

  • split copies data, since it's creating new matrices. I fail to see how it's ok with your memory to split but not to merge. However, you can work directly on the R channel without splitting. It really depends on what you want to do exactly. – Miki Nov 2 '15 at 15:34

split will always copy the data, since it's creating new matrices.

The simplest way to work on, say, red channel will be using split and merge:

Mat3b img(10,10,Vec3b(1,2,3));

vector<Mat1b> planes;
split(img, planes);

// Work on red plane
planes[2](2,3) = 5;

merge(planes, img);

Note that merge doesn't allocate any new memory, so if you're ok with split, there isn't any good reason not to call also merge.

You can always work on the R channel directly:

Mat3b img(10,10,Vec3b(1,2,3));

// Work on red channel, [2]
img(2,3)[2] = 5;

If you want to save the memory used by split, you can work directly on the red channel, but it's more cumbersome:

#include <opencv2\opencv.hpp>
using namespace cv;

int main()
    Mat3b img(10,10,Vec3b(1,2,3));

    // Create a column matrix header with red plane unwound
    // No copies here
    Mat1b R = img.reshape(1, img.rows*img.cols).colRange(2, 3);

    // Work on red plane
    int r = 2;
    int c = 3;

    // You need to access by index, not by (row, col).
    // This will also modify img
    R(img.rows * r + c) = 5;

    return 0;

You can probably find a good compromise by copying the red channel only in a new matrix (avoiding to allocate space also for other channels), and then by copying the result back into original image:

#include <opencv2\opencv.hpp>
using namespace cv;

int main()
    Mat3b img(10,10,Vec3b(1,2,3));

    // Allocate space only for red channel
    Mat1b R(img.rows, img.cols);
    for (int r=0; r<img.rows; ++r)
        for(int c=0; c<img.cols; ++c)
            R(r, c) = img(r, c)[2];

    // Work on red plane
    R(2,3) = 5;

    // Copy back into img
    for (int r = 0; r<img.rows; ++r)
        for (int c = 0; c<img.cols; ++c)
            img(r, c)[2] = R(r,c);

    return 0;

Thanks to @sturkmen for reviewing the answer

  • dear @Miki, please revise your answer according "the channels stored in B G R order" – sturkmen Nov 2 '15 at 17:40
  • @Miki, thanks. I will work on the solutions that you suggested. – ma.mehralian Nov 3 '15 at 4:11
  • @ma.mehralian glad it helped. If you find this answer useful please upvote, and eventually mark as an answer if this answer your question. Else, please let me know why this doesn't answer the question, so I can look for a better solution. – Miki Nov 3 '15 at 11:19

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