// This file is part of OpenCV project. // It is subject to the license terms in the LICENSE file found in the top-level directory // of this distribution and at http://opencv.org/license.html. // // Copyright (C) 2016, Itseez, Inc, all rights reserved. #include "test_precomp.hpp" namespace opencv_test { namespace { // return true if point lies inside ellipse static bool check_pt_in_ellipse(const Point2f& pt, const RotatedRect& el) { Point2f to_pt = pt - el.center; double pt_angle = atan2(to_pt.y, to_pt.x); double el_angle = el.angle * CV_PI / 180; double x_dist = 0.5 * el.size.width * cos(pt_angle + el_angle); double y_dist = 0.5 * el.size.height * sin(pt_angle + el_angle); double el_dist = sqrt(x_dist * x_dist + y_dist * y_dist); return cv::norm(to_pt) < el_dist; } // Return true if mass center of fitted points lies inside ellipse static bool fit_and_check_ellipse(const vector& pts) { RotatedRect ellipse = fitEllipseDirect(pts); // fitEllipseAMS() also works fine Point2f mass_center; for (size_t i = 0; i < pts.size(); i++) { mass_center += pts[i]; } mass_center /= (float)pts.size(); return check_pt_in_ellipse(mass_center, ellipse); } TEST(Imgproc_FitEllipse_Issue_4515, accuracy) { vector pts; pts.push_back(Point2f(327, 317)); pts.push_back(Point2f(328, 316)); pts.push_back(Point2f(329, 315)); pts.push_back(Point2f(330, 314)); pts.push_back(Point2f(331, 314)); pts.push_back(Point2f(332, 314)); pts.push_back(Point2f(333, 315)); pts.push_back(Point2f(333, 316)); pts.push_back(Point2f(333, 317)); pts.push_back(Point2f(333, 318)); pts.push_back(Point2f(333, 319)); pts.push_back(Point2f(333, 320)); EXPECT_TRUE(fit_and_check_ellipse(pts)); } TEST(Imgproc_FitEllipse_Issue_6544, accuracy) { vector pts; pts.push_back(Point2f(924.784f, 764.160f)); pts.push_back(Point2f(928.388f, 615.903f)); pts.push_back(Point2f(847.4f, 888.014f)); pts.push_back(Point2f(929.406f, 741.675f)); pts.push_back(Point2f(904.564f, 825.605f)); pts.push_back(Point2f(926.742f, 760.746f)); pts.push_back(Point2f(863.479f, 873.406f)); pts.push_back(Point2f(910.987f, 808.863f)); pts.push_back(Point2f(929.145f, 744.976f)); pts.push_back(Point2f(917.474f, 791.823f)); EXPECT_TRUE(fit_and_check_ellipse(pts)); } }} // namespace