// 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. #include "test_precomp.hpp" namespace opencv_test { namespace { TEST(Imgproc_IntersectConvexConvex, no_intersection) { std::vector convex1; convex1.push_back(cv::Point(290, 126)); convex1.push_back(cv::Point(284, 132)); convex1.push_back(cv::Point(281, 133)); convex1.push_back(cv::Point(256, 124)); convex1.push_back(cv::Point(249, 116)); convex1.push_back(cv::Point(234, 91)); convex1.push_back(cv::Point(232, 86)); convex1.push_back(cv::Point(232, 79)); convex1.push_back(cv::Point(251, 69)); convex1.push_back(cv::Point(257, 68)); convex1.push_back(cv::Point(297, 85)); convex1.push_back(cv::Point(299, 87)); std::vector convex2; convex2.push_back(cv::Point(192, 236)); convex2.push_back(cv::Point(190, 245)); convex2.push_back(cv::Point(177, 260)); convex2.push_back(cv::Point(154, 271)); convex2.push_back(cv::Point(142, 270)); convex2.push_back(cv::Point(135, 263)); convex2.push_back(cv::Point(131, 254)); convex2.push_back(cv::Point(132, 240)); convex2.push_back(cv::Point(172, 213)); convex2.push_back(cv::Point(176, 216)); std::vector intersection; float area = cv::intersectConvexConvex(convex1, convex2, intersection); EXPECT_TRUE(intersection.empty()); EXPECT_NEAR(area, 0, std::numeric_limits::epsilon()); } TEST(Imgproc_IntersectConvexConvex, no_intersection_with_1_vertex_on_edge_1) { std::vector convex1; convex1.push_back(cv::Point(0,0)); convex1.push_back(cv::Point(740, 0)); convex1.push_back(cv::Point(740, 540)); convex1.push_back(cv::Point(0, 540)); std::vector convex2; convex2.push_back(cv::Point(0, 210)); convex2.push_back(cv::Point(-30, 210)); convex2.push_back(cv::Point(-37, 170)); convex2.push_back(cv::Point(-7, 172)); std::vector intersection; float area = cv::intersectConvexConvex(convex1, convex2, intersection); EXPECT_TRUE(intersection.empty()); EXPECT_NEAR(area, 0, std::numeric_limits::epsilon()); } TEST(Imgproc_IntersectConvexConvex, no_intersection_with_1_vertex_on_edge_2) { std::vector convex1; convex1.push_back(cv::Point(0,0)); convex1.push_back(cv::Point(740, 0)); convex1.push_back(cv::Point(740, 540)); convex1.push_back(cv::Point(0, 540)); std::vector convex2; convex2.push_back(cv::Point(740, 210)); convex2.push_back(cv::Point(750, 100)); convex2.push_back(cv::Point(790, 250)); convex2.push_back(cv::Point(800, 500)); std::vector intersection; float area = cv::intersectConvexConvex(convex1, convex2, intersection); EXPECT_TRUE(intersection.empty()); EXPECT_NEAR(area, 0, std::numeric_limits::epsilon()); } TEST(Imgproc_IntersectConvexConvex, intersection_with_1_vertex_on_edge) { std::vector convex1; convex1.push_back(cv::Point(0,0)); convex1.push_back(cv::Point(740, 0)); convex1.push_back(cv::Point(740, 540)); convex1.push_back(cv::Point(0, 540)); std::vector convex2; convex2.push_back(cv::Point(30, 210)); convex2.push_back(cv::Point(0,210)); convex2.push_back(cv::Point(7, 172)); convex2.push_back(cv::Point(37, 170)); std::vector intersection; float area = cv::intersectConvexConvex(convex1, convex2, intersection); std::vector expected_intersection; expected_intersection.push_back(cv::Point(0, 210)); expected_intersection.push_back(cv::Point(7, 172)); expected_intersection.push_back(cv::Point(37, 170)); expected_intersection.push_back(cv::Point(30, 210)); EXPECT_EQ(intersection, expected_intersection); EXPECT_NEAR(area, 1163, std::numeric_limits::epsilon()); } TEST(Imgproc_IntersectConvexConvex, intersection_with_2_vertices_on_edge) { std::vector convex1; convex1.push_back(cv::Point(0,0)); convex1.push_back(cv::Point(740, 0)); convex1.push_back(cv::Point(740, 540)); convex1.push_back(cv::Point(0, 540)); std::vector convex2; convex2.push_back(cv::Point(30, 210)); convex2.push_back(cv::Point(37, 170)); convex2.push_back(cv::Point(0,210)); convex2.push_back(cv::Point(0, 300)); std::vector intersection; float area = cv::intersectConvexConvex(convex1, convex2, intersection); std::vector expected_intersection; expected_intersection.push_back(cv::Point(0, 300)); expected_intersection.push_back(cv::Point(0, 210)); expected_intersection.push_back(cv::Point(37, 170)); expected_intersection.push_back(cv::Point(30, 210)); EXPECT_EQ(intersection, expected_intersection); EXPECT_NEAR(area, 1950, std::numeric_limits::epsilon()); } TEST(Imgproc_IntersectConvexConvex, intersection_1) { std::vector convex1; convex1.push_back(cv::Point(0,0)); convex1.push_back(cv::Point(740, 0)); convex1.push_back(cv::Point(740, 540)); convex1.push_back(cv::Point(0, 540)); std::vector convex2; convex2.push_back(cv::Point(20,210)); convex2.push_back(cv::Point(30, 210)); convex2.push_back(cv::Point(37, 170)); convex2.push_back(cv::Point(7, 172)); std::vector intersection; float area = cv::intersectConvexConvex(convex1, convex2, intersection); std::vector expected_intersection; expected_intersection.push_back(cv::Point(7, 172)); expected_intersection.push_back(cv::Point(37, 170)); expected_intersection.push_back(cv::Point(30, 210)); expected_intersection.push_back(cv::Point(20, 210)); EXPECT_EQ(intersection, expected_intersection); EXPECT_NEAR(area, 783, std::numeric_limits::epsilon()); } TEST(Imgproc_IntersectConvexConvex, intersection_2) { std::vector convex1; convex1.push_back(cv::Point(0,0)); convex1.push_back(cv::Point(740, 0)); convex1.push_back(cv::Point(740, 540)); convex1.push_back(cv::Point(0, 540)); std::vector convex2; convex2.push_back(cv::Point(-2,210)); convex2.push_back(cv::Point(-5, 300)); convex2.push_back(cv::Point(37, 150)); convex2.push_back(cv::Point(7, 172)); std::vector intersection; float area = cv::intersectConvexConvex(convex1, convex2, intersection); std::vector expected_intersection; expected_intersection.push_back(cv::Point(0, 202)); expected_intersection.push_back(cv::Point(7, 172)); expected_intersection.push_back(cv::Point(37, 150)); expected_intersection.push_back(cv::Point(0, 282)); EXPECT_EQ(intersection, expected_intersection); EXPECT_NEAR(area, 1857.19836425781, std::numeric_limits::epsilon()); } TEST(Imgproc_IntersectConvexConvex, intersection_3) { std::vector convex1; convex1.push_back(cv::Point(15, 0)); convex1.push_back(cv::Point(740, 0)); convex1.push_back(cv::Point(740, 540)); convex1.push_back(cv::Point(15, 540)); std::vector convex2; convex2.push_back(cv::Point(0,210)); convex2.push_back(cv::Point(30, 210)); convex2.push_back(cv::Point(37, 170)); convex2.push_back(cv::Point(7, 172)); std::vector intersection; float area = cv::intersectConvexConvex(convex1, convex2, intersection); std::vector expected_intersection; expected_intersection.push_back(cv::Point(15, 171)); expected_intersection.push_back(cv::Point(37, 170)); expected_intersection.push_back(cv::Point(30, 210)); expected_intersection.push_back(cv::Point(15, 210)); EXPECT_EQ(intersection, expected_intersection); EXPECT_NEAR(area, 723.866760253906, std::numeric_limits::epsilon()); } TEST(Imgproc_IntersectConvexConvex, intersection_4) { std::vector convex1; convex1.push_back(cv::Point(15, 0)); convex1.push_back(cv::Point(740, 0)); convex1.push_back(cv::Point(740, 540)); convex1.push_back(cv::Point(15, 540)); std::vector convex2; convex2.push_back(cv::Point(15, 0)); convex2.push_back(cv::Point(740, 0)); convex2.push_back(cv::Point(740, 540)); convex2.push_back(cv::Point(15, 540)); std::vector intersection; float area = cv::intersectConvexConvex(convex1, convex2, intersection); std::vector expected_intersection; expected_intersection.push_back(cv::Point(15, 0)); expected_intersection.push_back(cv::Point(740, 0)); expected_intersection.push_back(cv::Point(740, 540)); expected_intersection.push_back(cv::Point(15, 540)); EXPECT_EQ(intersection, expected_intersection); EXPECT_NEAR(area, 391500, std::numeric_limits::epsilon()); } // The inputs are not convex and cuased buffer overflow // See https://github.com/opencv/opencv/issues/25259 TEST(Imgproc_IntersectConvexConvex, not_convex) { std::vector convex1 = { { 46.077175f , 228.66121f }, { 5.428622f , 250.05899f }, {207.51741f , 109.645676f }, {175.94789f , 32.6566f }, {217.4915f , 252.66176f }, {187.09386f , 6.3988557f}, { 52.20488f , 69.266205f }, { 38.188286f , 134.48068f }, {246.4742f , 31.41043f }, {178.97946f , 169.52287f }, {103.40764f , 153.30397f }, {160.67746f , 17.166115f }, {152.44255f , 135.35f }, {197.03804f , 193.04782f }, {248.28397f , 56.821487f }, { 10.907227f , 82.55291f }, {109.67949f , 70.7405f }, { 58.96842f , 150.132f }, {150.7613f , 129.54753f }, {254.98463f , 228.21748f }, {139.02563f , 193.89336f }, { 84.79946f , 162.25363f }, { 39.83567f , 44.626484f }, {107.034996f , 209.38887f }, { 67.61073f , 17.119232f }, {208.8617f , 33.67367f }, {182.65207f , 8.291072f }, { 72.89319f , 42.51845f }, {202.4902f , 123.97209f }, { 79.945076f , 140.99268f }, {225.8952f , 66.226326f }, { 34.08404f , 219.2208f }, {243.1221f , 60.95162f } }; std::vector convex2 = { {144.33624f , 247.15732f }, { 5.656847f , 17.461054f }, {230.54338f , 2.0446582f}, {143.0578f , 215.27856f }, {250.44626f , 82.54287f }, { 0.3846766f, 11.101262f }, { 70.81022f , 17.243904f }, { 77.18812f , 75.760666f }, {190.34933f , 234.30962f }, {230.10204f , 133.67998f }, { 58.903755f , 252.96451f }, {213.57228f , 155.7058f }, {190.80992f , 212.90802f }, {203.4356f , 36.55016f }, { 32.276424f , 2.5646307f}, { 39.73823f , 87.23782f }, {112.46902f , 101.81753f }, { 58.154305f , 238.40395f }, {187.01064f , 96.24343f }, { 44.42692f , 10.573529f }, {118.76949f , 233.35114f }, { 86.26109f , 120.93148f }, {217.94751f , 130.5933f }, {148.2687f , 68.56015f }, {187.44174f , 214.32857f }, {247.19875f , 180.8494f }, { 17.986013f , 61.451443f }, {254.74344f , 204.71747f }, {211.92726f , 132.0139f }, { 51.36624f , 116.63085f }, { 83.80044f , 124.20074f }, {122.125854f , 25.182402f }, { 39.08164f , 180.08517f } }; std::vector intersection; float area = cv::intersectConvexConvex(convex1, convex2, intersection, false); EXPECT_TRUE(intersection.empty()); EXPECT_LE(area, 0.f); } } // namespace } // opencv_test