# In OpenCV 2.1: How to assign a matrix to a submatrix of another matrix?

Assume I have a matrix

``````A = cv::Mat(3,3,CV_32F)
``````

and a matrix

``````B = cv::Mat(2,2,CV_32F).
``````

Let's say A has all zeros and B has all ones. I want to assign the values of B to the upper left corner of A. How can I do this?

I tried the following:

``````A(cv::Rect_<int>(0,0,2,2)) = B
``````

But this doesn't seem to work. However assigning a scalar value to the subrect of A this way does work:

``````A(cv::Rect_<int>(0,0,2,2)) = 1.0
``````

What is wrong with the first approach?

-

I believe the reason your first method

``````A(cv::Rect_<int>(0,0,2,2)) = B
``````

doesn't work is because the assignment operator `=` does not copy values but modifies the header of a matrix to point at a submatrix of another. Therefore all this line does is create a temporary header matrix pointing to the submatrix of A, and then replace the header of that temporary matrix to point at B. And then forget about it. The data in A and B remains unchanged.

What you want (although I've not tested it) is

``````B.copyTo(A(cv::Rect_<int>(0,0,2,2)))
``````
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But this doesn't generate what the question asker wanted. This generates a Mat A from a sub-range of B, i.e. in that example, A will be 2x2 as well. – Ela782 Nov 29 '13 at 15:45
@Ela782 You're right my answer was completely wrong. I've replaced it with a (hopefully) correct answer. – Tim MB Jan 10 '14 at 15:43

You can do this in one line with:

``````B = A(cv::Rect(0,0,2,2)).clone();
``````
-

I'd prefer a one-liner, but this does the trick:

``````cv::Mat tmp = A(cv::Rect(0,0,2,2));
B.copyTo(tmp);
``````
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I have a indexing doubt about this. A is 3x3 and Bis 2x2 so if you want to copy B to a, shouldn't you say `cv::Mat tmp = A(cv::Rect(0,0,1,1))` instead? – Ander Biguri Jun 27 '13 at 8:06
It's Rect(x,y, width, height), so Christian's response is correct. Although, user11094 is more compact. – RawMean Oct 4 '13 at 17:58

Don't be afraid to work with pointers

``````const unsigned int row_size = col_size = 3;
Mat A = Mat::one( row_size, col_size, CV_32F );
Mat B = Mat::zeros( row_size, col_size, CV_32F );

for(int i = 0; i < row_size; i++)
{
float* Aitt = A.ptr<float>(i);
float* Bitt = B.ptr<float>(i);

for(int j = 0; j < ( col_size - i ); ++j)
Aitt[j] = Bitt[j];
}
``````

What is wrong with the first approach?

To many Matlab time

-
I'd like a little more compact version ;) – Christian Oct 30 '10 at 10:22