#include #include #include #include #include #include #include using namespace std; using namespace cv; enum { INTERACTIVE_MODE, PRESPECIFIED_MODE }; #define KEY_ESCAPE 1048603 #define KEY_SPACE 1048608 #define KEY_CLOSE_WINDOW -1 #define COUNT_SQUARES_X 4 #define COUNT_SQUARES_Y 6 int detect_pattern(Mat frame, vector > object_points, vector > image_points) { // interior number of corners Size pattern_size(COUNT_SQUARES_X, COUNT_SQUARES_Y); // will be filled by the detected corners vector corners; bool pattern_found = findChessboardCorners( frame, pattern_size, corners, CALIB_CB_ADAPTIVE_THRESH + CALIB_CB_NORMALIZE_IMAGE + CALIB_CB_FAST_CHECK); if (!pattern_found) return -1; // to tweak params: http://bit.ly/QyoU3k cornerSubPix(frame, corners, Size(11, 11), Size(-1, -1), TermCriteria(CV_TERMCRIT_EPS + CV_TERMCRIT_ITER, 30, 0.1)); drawChessboardCorners(frame, pattern_size, Mat(corners), pattern_found); vector obj; for (int j = 0; j < COUNT_SQUARES_X * COUNT_SQUARES_Y; ++j) obj.push_back(Point3f(j / COUNT_SQUARES_X, j % COUNT_SQUARES_X, 0.0f)); object_points.push_back(obj); image_points.push_back(corners); return 0; } int run_interactive() { namedWindow("Camera Image", CV_WINDOW_KEEPRATIO); int count = 0; Mat frame; vector > object_points; vector > image_points; Mat intrinsic = Mat(3, 3, CV_32FC1); Mat distCoeffs; vector rvecs, tvecs; // open the default camera VideoCapture capture(-1); // check if opening camera stream succeeded if (!capture.isOpened()) { cerr << "Camera could not be found. Exiting.\n"; return -1; } for (;;) { cout << "Frame: " << count << endl; Mat gray_frame; capture >> frame; // get a new frame from camera cvtColor(frame, gray_frame, CV_BGR2GRAY); imshow("Camera Image", frame); int key_pressed = waitKey(0); if (key_pressed == KEY_CLOSE_WINDOW || key_pressed == KEY_ESCAPE) break; if (key_pressed == KEY_SPACE) { if (detect_pattern(gray_frame, object_points, image_points) == 0) { cout << "Frame " << count << " grabbed." << endl; } else { cout << "pattern not found" << endl; } } } calibrateCamera(object_points, image_points, frame.size(), intrinsic, distCoeffs, rvecs, tvecs); for (;;) { capture >> frame; Mat imageUndistorted; undistort(frame, imageUndistorted, intrinsic, distCoeffs); imshow("win1", frame); imshow("win2", imageUndistorted); waitKey(1); } capture.release(); } int run_prespecified(int argc, char **argv) { int count = 0; Mat frame; vector > object_points; vector > image_points; Mat intrinsic = Mat(3, 3, CV_32FC1); Mat distCoeffs; vector rvecs, tvecs; for (int i; i < argc; i++) { Mat gray_frame; frame = imread(argv[i], CV_LOAD_IMAGE_COLOR); cvtColor(frame, gray_frame, CV_BGR2GRAY); imshow("Camera Image", frame); if (detect_pattern(gray_frame, object_points, image_points) == 0) { cout << "Frame " << count << " grabbed." << endl; } else { cout << "pattern not found" << endl; } } calibrateCamera(object_points, image_points, frame.size(), intrinsic, distCoeffs, rvecs, tvecs); for (int i; i < argc; i++) { frame = imread(argv[i], CV_LOAD_IMAGE_COLOR); Mat imageUndistorted; undistort(frame, imageUndistorted, intrinsic, distCoeffs); imshow("win1", frame); imshow("win2", imageUndistorted); waitKey(1); } return 0; } int main(int argc, char **argv) { int user_mode; int specified_boards; /* no arguments means interactive mode * one or more arguments are image filenames */ if (argc == 1) { run_interactive(); } else { run_prespecified(argc-1, ++argv); } return 0; }