When we access specific elements of a cv::Mat structure, we can use mat.at<float>(i,j) to access the element at position i, j. What is not immediately clear, however, whether i, j refers to the x, y coordinate in the matrix, or the ith row and the jth column.

5 Answers 5


OpenCV, like many other libraries, treat matrix access in row-major order. That means every access is defined as (row, column). Note that if you're working with x and y coordinates of an image, this becomes (y, x), if y is your vertical axis.

Most matrix libraries are the same in that regards, the access is (row, col) as well in, for example, Matlab or Eigen (a C++ matrix library).

Where these applications and libraries do differ however is how the data is actually stored in memory. OpenCV stores the data in row-major order in memory (i.e. the rows come first), while for example Matlab stores the data in column-major order in memory. But if you're just a user of these libraries, and accessing the data via a (row, col) accessor, you'll never actually see this difference in memory storage order.

  • 1
    Note that in the Eigen library, there is an optional template argument Options to specify the storage order which specifies how the data should/will be stored in the memory. Its values can be ColMajor or RowMajor. If the storage order is not specified, Eigen defaults to storing the data in column-major. However, in either case, matrix access is still defined as (row, col) i.e. row-major Source: eigen.tuxfamily.org/dox/group__TopicStorageOrders.html
    – Milan
    Jun 6, 2022 at 16:11
  • 1
    @Milan Good point, and a great extension to my answer!
    – Ela782
    Jun 7, 2022 at 18:25

So OpenCV handles this a bit strange. OpenCV stores the Mat in row major order, but addressing it over the methood Mat::at() falsely suggests column major order. I think the Opencv documentation is misleading in this case. I had to write this testcase to make sure for myself.

cv::Mat m(3,3,CV_32FC1,0.0f);
m.at<float>(1,0) = 2;
cout << m << endl;

So addressing is done with Mat::at(y,x) :

[0, 0, 0;
2, 0, 0;
0, 0, 0]

But raw pointer access reveals that it is actually stored row major, e.g. the "2" is in the 4th position. If it were stored in column major order, it would be in the 2nd position.

float* mp = &m.at<float>(0);
for(int i=0;i<9;i++)
    cout << mp[i] << " ";

0 0 0 2 0 0 0 0 0

As a side remark: Matlab stores and addresses a matrix in column major order. It might be annoying, but at least it is consistent.

  • really nice; It is an clearly example to depend on an abstraction, not on an implementation.
    – marol
    Jun 3, 2014 at 10:12
  • 2
    I believe that OpenCV addressing method follows the Math terminology for matrices, rows x cols, so you have Mat::at(row, col).
    – Josejulio
    Aug 19, 2015 at 21:53
  • 1
    This answer also contains some false information. Matrix access in OpenCV is row-first too (e.g. Mat::at(row, col)). It is (row, col) in Matlab too. The difference between OpenCV and Matlab is memory storage order, but this is completely independent from accessing the matrices with (row, col). See my answer below for more details.
    – Ela782
    Mar 30, 2017 at 10:24
  • 1
    @Ela782: Indeed the access order and storage order are two separate things (as commented in the other answer). However, I would argue that answer does not provide false information. It merely points out that one might be easily confused (e.g. when coming from Matlab) by having row-major storage order and using an access API with the (row, col) convention. At least it confused me back in the day, because I assumed the first parameter to be the "major storage dimension".
    – Insa
    Mar 31, 2017 at 11:35
  • If that weren't confusing enough, cv::Point by convention is constructed (x, y). So: m.at(y, x) is the same as m.at(Point(x, y)). Nov 14, 2018 at 20:38

OpenCV, like may other libraries, treat matrices (and images) in row-major order. That means every access is defined as (row, column).

Notable exceptions from this general rule are Matlab and Eigen libraries.

  • 2
    It's a bit long a time since I worked with MATLAB, but I doubt it uses [column,row], I would remember such a mathematical inconsistency. Nov 18, 2011 at 14:42
  • 11
    It may be stored in column-major order internally, but the indexing is done in standard mathematical (row,col) order and matrices are even specified in row-major order. Have you even worked with MATLAB for at least 1 minute or is it only Wikipedia that's on your side? Keep in mind that the question was about indexing and not about storage. Those may coincide, but they needn't, at least when there's an additional abstraction layer in between. Nov 18, 2011 at 14:49
  • 7
    Note that this answer is incorrect as it stands and contains incorrect misleading information. I've edited (it's in peer review) but also posted a correct version below: stackoverflow.com/a/42327350/1345959
    – Ela782
    Feb 19, 2017 at 12:46
  • 2
    @Ela782: Of course, you're right that there's a distinction between access order (the API) and storage order (an implementation detail), but I don't think it's a good idea to edit other people's answers, especially not to change their meaning. Post your own answer (which you have done) and try to redirect people to it.
    – isekaijin
    Feb 19, 2017 at 17:34
  • 2
    @pyon: Yep, after some pondering and review-feedback I definitely agree. Thanks for posting. It's just so hard to see this as the accepted answer ;-) Especially as this pops up high in Google search results.
    – Ela782
    Feb 19, 2017 at 17:44

From what I've read in the documentation, it's at(y, x) (i.e. row, col).


Since cv::Mat is actually a general matrix, with images being just a special case, it follows matrix indexing and therefore the row (y) comes before the column (x):

mat.at(i, j) = mat.at(row, col) = mat.at(y, x)

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

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