#include "perf_precomp.hpp" namespace opencv_test { using namespace perf; typedef tuple String_Size_t; typedef perf::TestBaseWithParam String_Size; PERF_TEST_P(String_Size, asymm_circles_grid, testing::Values( String_Size_t("cv/cameracalibration/asymmetric_circles/acircles1.png", Size(7,13)), String_Size_t("cv/cameracalibration/asymmetric_circles/acircles2.png", Size(7,13)), String_Size_t("cv/cameracalibration/asymmetric_circles/acircles3.png", Size(7,13)), String_Size_t("cv/cameracalibration/asymmetric_circles/acircles4.png", Size(5,5)), String_Size_t("cv/cameracalibration/asymmetric_circles/acircles5.png", Size(5,5)), String_Size_t("cv/cameracalibration/asymmetric_circles/acircles6.png", Size(5,5)), String_Size_t("cv/cameracalibration/asymmetric_circles/acircles7.png", Size(3,9)), String_Size_t("cv/cameracalibration/asymmetric_circles/acircles8.png", Size(3,9)), String_Size_t("cv/cameracalibration/asymmetric_circles/acircles9.png", Size(3,9)) ) ) { string filename = getDataPath(get<0>(GetParam())); Size gridSize = get<1>(GetParam()); Mat frame = imread(filename); if (frame.empty()) FAIL() << "Unable to load source image " << filename; vector ptvec; ptvec.resize(gridSize.area()); cvtColor(frame, frame, COLOR_BGR2GRAY); declare.in(frame).out(ptvec); TEST_CYCLE() ASSERT_TRUE(findCirclesGrid(frame, gridSize, ptvec, CALIB_CB_CLUSTERING | CALIB_CB_ASYMMETRIC_GRID)); SANITY_CHECK(ptvec, 2); } } // namespace