/* * * cvout_sample just demonstrates the serial out capabilities of cv::Mat * That is, cv::Mat M(...); cout << M; Now works. * */ #include "opencv2/core/core.hpp" #include using namespace std; using namespace cv; void help() { cout << "\n------------------------------------------------------------------\n" << "This program shows the serial out capabilities of cv::Mat\n" << "That is, cv::Mat M(...); cout << M; Now works.\n" << "Output can be formated to OpenCV, python, numpy, csv and C styles" << "Usage:\n" << "./cvout_sample\n" << "------------------------------------------------------------------\n\n" << endl; } int main(int,char**) { help(); Mat i = Mat::eye(4, 4, CV_64F); i.at(1,1) = CV_PI; cout << "i = " << i << ";" << endl; Mat r = Mat(10, 3, CV_8UC3); randu(r, Scalar::all(0), Scalar::all(255)); cout << "r (default) = " << r << ";" << endl << endl; cout << "r (python) = " << format(r,"python") << ";" << endl << endl; cout << "r (numpy) = " << format(r,"numpy") << ";" << endl << endl; cout << "r (csv) = " << format(r,"csv") << ";" << endl << endl; cout << "r (c) = " << format(r,"C") << ";" << endl << endl; Point2f p(5, 1); cout << "p = " << p << ";" << endl; Point3f p3f(2, 6, 7); cout << "p3f = " << p3f << ";" << endl; vector v; v.push_back(1); v.push_back(2); v.push_back(3); cout << "shortvec = " << Mat(v) << endl; vector points(20); for (size_t i = 0; i < points.size(); ++i) points[i] = Point2f((float)(i * 5), (float)(i % 7)); cout << "points = " << points << ";" << endl; return 0; }