29

How to access elements by row, col in OpenCV 2.0's new "Mat" class? The documentation is linked below, but I have not been able to make any sense of it. http://opencv.willowgarage.com/documentation/cpp/basic_structures.html#mat

49

On the documentation:

http://docs.opencv.org/2.4/modules/core/doc/basic_structures.html#mat

It says:

(...) if you know the matrix element type, e.g. it is float, then you can use at<>() method

That is, you can use:

Mat M(100, 100, CV_64F);
cout << M.at<double>(0,0);

Maybe it is easier to use the Mat_ class. It is a template wrapper for Mat. Mat_ has the operator() overloaded in order to access the elements.

  • How do you set a particular value to some particular index of M? – damned Nov 5 '11 at 19:54
  • 5
    @sumit the at<>() method returns a reference to the element. You can use: M.at<double>(0, 0) = value; – J. Calleja Nov 7 '11 at 13:58
  • 1
    I'm pretty sure the example is this answer is flawed. I believe at does a unsafe cast internally so using at with double on a uint matrix would produce undesired/corrupted results. Suggesting correction. – Catskul Dec 16 '11 at 20:04
  • @Catskul You are right. The text is fine, but the example should say CV_64F. I have corrected it. – J. Calleja Dec 16 '11 at 23:23
  • 1
    What if I don't know the type of a Mat? – nn0p Apr 28 '16 at 6:51
10

The ideas provided above are good. For fast access (in case you would like to make a real time application) you could try the following:

//suppose you read an image from a file that is gray scale
Mat image = imread("Your path", CV_8UC1);
//...do some processing
uint8_t *myData = image.data;
int width = image.cols;
int height = image.rows;
int _stride = image.step;//in case cols != strides
for(int i = 0; i < height; i++)
{
    for(int j = 0; j < width; j++)
    {
        uint8_t val = myData[ i * _stride + j];
        //do whatever you want with your value
    }
}

Pointer access is much faster than the Mat.at<> accessing. Hope it helps!

  • 3
    Pointer access cost is exactly same as Mat.at<> (when compiling in release). The only difference is asserts, that are active unless the code is compiled in debug mode. – Mark Kahn Aug 17 '16 at 15:48
  • Why would pointer access be much faster than the Mat.at version? – bergercookie Apr 2 at 12:17
4

Based on what @J. Calleja said, you have two choices

Method 1 - Random access

If you want to random access the element of Mat, just simply use

Mat.at<data_Type>(row_num, col_num) = value;

Method 2 - Continuous access

If you want to continuous access, OpenCV provides Mat iterator compatible with STL iterator and it's more C++ style

MatIterator_<double> it, end;
for( it = I.begin<double>(), end = I.end<double>(); it != end; ++it)
{
    //do something here
}

or

for(int row = 0; row < mat.rows; ++row) {
    float* p = mat.ptr(row); //pointer p points to the first place of each row
    for(int col = 0; col < mat.cols; ++col) {
         *p++;  // operation here
    }
}

If you have any difficulty to understand how Method 2 works, I borrow the picture from a blog post in the article Dynamic Two-dimensioned Arrays in C, which is much more intuitive and comprehensible.

See the picture below.

enter image description here

1

OCV goes out of its way to make sure you can't do this without knowing the element type, but if you want an easily codable but not-very-efficient way to read it type-agnostically, you can use something like

double val=mean(someMat(Rect(x,y,1,1)))[channel];

To do it well, you do have to know the type though. The at<> method is the safe way, but direct access to the data pointer is generally faster if you do it correctly.

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