#include "perf_precomp.hpp" #include "opencv2/highgui/highgui.hpp" #include "opencv2/core/internal.hpp" #include "opencv2/flann/flann.hpp" #include "opencv2/opencv_modules.hpp" using namespace std; using namespace cv; using namespace perf; using std::tr1::make_tuple; using std::tr1::get; #define SURF_MATCH_CONFIDENCE 0.65f #define ORB_MATCH_CONFIDENCE 0.3f #define WORK_MEGAPIX 0.6 typedef TestBaseWithParam stitch; typedef TestBaseWithParam match; typedef std::tr1::tuple matchVector_t; typedef TestBaseWithParam matchVector; #ifdef HAVE_OPENCV_NONFREE #define TEST_DETECTORS testing::Values("surf", "orb") #else #define TEST_DETECTORS testing::Values("orb") #endif PERF_TEST_P(stitch, a123, TEST_DETECTORS) { Mat pano; vector imgs; imgs.push_back( imread( getDataPath("stitching/a1.png") ) ); imgs.push_back( imread( getDataPath("stitching/a2.png") ) ); imgs.push_back( imread( getDataPath("stitching/a3.png") ) ); Ptr featuresFinder = GetParam() == "orb" ? (detail::FeaturesFinder*)new detail::OrbFeaturesFinder() : (detail::FeaturesFinder*)new detail::SurfFeaturesFinder(); Ptr featuresMatcher = GetParam() == "orb" ? new detail::BestOf2NearestMatcher(false, ORB_MATCH_CONFIDENCE) : new detail::BestOf2NearestMatcher(false, SURF_MATCH_CONFIDENCE); declare.time(30 * 20).iterations(20); while(next()) { Stitcher stitcher = Stitcher::createDefault(); stitcher.setFeaturesFinder(featuresFinder); stitcher.setFeaturesMatcher(featuresMatcher); stitcher.setWarper(new SphericalWarper()); stitcher.setRegistrationResol(WORK_MEGAPIX); startTimer(); stitcher.stitch(imgs, pano); stopTimer(); } SANITY_CHECK(pano, 2); } PERF_TEST_P(stitch, b12, TEST_DETECTORS) { Mat pano; vector imgs; imgs.push_back( imread( getDataPath("stitching/b1.png") ) ); imgs.push_back( imread( getDataPath("stitching/b2.png") ) ); Ptr featuresFinder = GetParam() == "orb" ? (detail::FeaturesFinder*)new detail::OrbFeaturesFinder() : (detail::FeaturesFinder*)new detail::SurfFeaturesFinder(); Ptr featuresMatcher = GetParam() == "orb" ? new detail::BestOf2NearestMatcher(false, ORB_MATCH_CONFIDENCE) : new detail::BestOf2NearestMatcher(false, SURF_MATCH_CONFIDENCE); declare.time(30 * 20).iterations(20); while(next()) { Stitcher stitcher = Stitcher::createDefault(); stitcher.setFeaturesFinder(featuresFinder); stitcher.setFeaturesMatcher(featuresMatcher); stitcher.setWarper(new SphericalWarper()); stitcher.setRegistrationResol(WORK_MEGAPIX); startTimer(); stitcher.stitch(imgs, pano); stopTimer(); } SANITY_CHECK(pano, 2); } PERF_TEST_P( match, bestOf2Nearest, TEST_DETECTORS) { Mat img1, img1_full = imread( getDataPath("stitching/b1.png") ); Mat img2, img2_full = imread( getDataPath("stitching/b2.png") ); float scale1 = (float)std::min(1.0, sqrt(WORK_MEGAPIX * 1e6 / img1_full.total())); float scale2 = (float)std::min(1.0, sqrt(WORK_MEGAPIX * 1e6 / img2_full.total())); resize(img1_full, img1, Size(), scale1, scale1); resize(img2_full, img2, Size(), scale2, scale2); Ptr finder; Ptr matcher; if (GetParam() == "surf") { finder = new detail::SurfFeaturesFinder(); matcher = new detail::BestOf2NearestMatcher(false, SURF_MATCH_CONFIDENCE); } else if (GetParam() == "orb") { finder = new detail::OrbFeaturesFinder(); matcher = new detail::BestOf2NearestMatcher(false, ORB_MATCH_CONFIDENCE); } else { FAIL() << "Unknown 2D features type: " << GetParam(); } detail::ImageFeatures features1, features2; (*finder)(img1, features1); (*finder)(img2, features2); detail::MatchesInfo pairwise_matches; declare.in(features1.descriptors, features2.descriptors); while(next()) { cvflann::seed_random(42);//for predictive FlannBasedMatcher startTimer(); (*matcher)(features1, features2, pairwise_matches); stopTimer(); matcher->collectGarbage(); } SANITY_CHECK_MATCHES(pairwise_matches.matches); } PERF_TEST_P( matchVector, bestOf2NearestVectorFeatures, testing::Combine( TEST_DETECTORS, testing::Values(2, 4, 6, 8)) ) { Mat img1, img1_full = imread( getDataPath("stitching/b1.png") ); Mat img2, img2_full = imread( getDataPath("stitching/b2.png") ); float scale1 = (float)std::min(1.0, sqrt(WORK_MEGAPIX * 1e6 / img1_full.total())); float scale2 = (float)std::min(1.0, sqrt(WORK_MEGAPIX * 1e6 / img2_full.total())); resize(img1_full, img1, Size(), scale1, scale1); resize(img2_full, img2, Size(), scale2, scale2); Ptr finder; Ptr matcher; String detectorName = get<0>(GetParam()); int featuresVectorSize = get<1>(GetParam()); if (detectorName == "surf") { finder = new detail::SurfFeaturesFinder(); matcher = new detail::BestOf2NearestMatcher(false, SURF_MATCH_CONFIDENCE); } else if (detectorName == "orb") { finder = new detail::OrbFeaturesFinder(); matcher = new detail::BestOf2NearestMatcher(false, ORB_MATCH_CONFIDENCE); } else { FAIL() << "Unknown 2D features type: " << get<0>(GetParam()); } detail::ImageFeatures features1, features2; (*finder)(img1, features1); (*finder)(img2, features2); vector features; vector pairwise_matches; for(int i = 0; i < featuresVectorSize/2; i++) { features.push_back(features1); features.push_back(features2); } declare.time(200); while(next()) { cvflann::seed_random(42);//for predictive FlannBasedMatcher startTimer(); (*matcher)(features, pairwise_matches); stopTimer(); matcher->collectGarbage(); } std::vector& matches = pairwise_matches[0].matches; SANITY_CHECK_MATCHES(matches); }