0

In the OpenCV Tutorial

http://docs.opencv.org/master/d6/d6d/tutorial_mat_the_basic_image_container.html

is the following example for creating a Mat.

int sz[3] = {2,2,2};
Mat L(3,sz, CV_8UC(1), Scalar::all(0));

This works fine, but when i try to print the Mat my programm crashes.

cout << "L = " << endl << " " << L << endl << endl;

Why doesn't this work ? Is there a way to do this without loops or splitting the Mat L ?

  • 1
    what error message, if any, is shown when you crash? – hammeramr Oct 4 '17 at 9:28
  • As far as i know there is no overload of << operator for multidimensional array. The only solution is to print matrix slices – Kamil Szelag Oct 4 '17 at 10:55
  • @hammeramr error message probably is that dims<=2 is not satisfied. It is opencv assert – Kamil Szelag Oct 4 '17 at 11:03
  • @hammeramr the console output was Exception thrown at 0x00007FF909679E08 in OpenCV_tutorial_coremodule_1.exe: Microsoft C++ exception: cv::Exception at memory location 0x000000BFD9F6D150. Unhandled exception at 0x00007FF909679E08 in OpenCV_tutorial_coremodule_1.exe: Microsoft C++ exception: cv::Exception at memory location 0x000000BFD9F6D150. wich made no sense to me. However the Stacktrace pointed to std::ostream operator<< which seems to be the the problem KamilSzelag described. – UNKN57 Oct 4 '17 at 14:29
1

To print n-dim matrix you could use Matrix slice. Since 2d matrices are stored row by row, 3d matrices plane by plane and so on, you could use code:

cv::Mat sliceMat(cv::Mat L,int dim,std::vector<int> _sz)
{
cv::Mat M(L.dims - 1, std::vector<int>(_sz.begin() + 1, _sz.end()).data(), CV_8UC1, L.data + L.step[0] * 0);
return M;
}

To perform mat slice.For more dimensions you should make more slices. Example shows 3 and 4 dimension matrices:

std::cout << "3 dimensions" << std::endl;

std::vector<int> sz = { 3,3,3 };

cv::Mat L;
L.create(3, sz.data(), CV_8UC1);
L = cv::Scalar(255);

std::cout<< sliceMat(L, 1, sz);

std::cout << std::endl;
std::cout <<"4 dimensions"<< std::endl;
sz = { 5,4,3,5 };
L.create(4, sz.data(), CV_8UC1);
L = cv::Scalar(255);
std::cout << sliceMat(sliceMat(L, 1, sz),2, std::vector<int>(sz.begin() + 1, sz.end()));

end result screen

enter image description here

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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