std::vector<cv::DMatch> BTB::StaticDetector::computeMatches(cv::BFMatcher &matcher, const BTB::ProcessedImage &processedImage) { // TODO Use radiusMatch()? with radius < 0.3 std::vector<cv::DMatch> matches; matcher.match(processedImage.descriptors, matches); std::vector<cv::DMatch> goodMatches; for (int i = 0; i < matches.size(); i++) { if (matches[i].distance < 0.3) { goodMatches.push_back(matches[i]); } } return goodMatches; }
JNIEXPORT void JNICALL Java_org_opencv_samples_tutorial2_Tutorial2Activity_FindFeatures1(JNIEnv*, jobject, jlong addrGray, jlong addrRgba) { Mat& mGr = *(Mat*)addrGray; Mat& mRgb = *(Mat*)addrRgba; if (b==1&&capture1==true){ image_runtime=mRgb; FastFeatureDetector fastdetect( 10/*threshold*/, true/*nonmax_suppression*/ ); StarFeatureDetector stardetect( 16/*max_size*/, 5/*response_threshold*/, 10/*line_threshold_projected*/,8/*line_threshold_binarized*/, 5/*suppress_nonmax_size*/ ); OrbFeatureDetector orbdetect(500); cv::BRISK Briskdetect(60,4,1.0f); Briskdetect.create("Feature2D.BRISK"); GoodFeaturesToTrackDetector Gooddetect( 1000/*maxCorners*/, 0.01/*qualityLevel*/, 1./*minDistance*/,3/*int _blockSize*/, true/*useHarrisDetector*/, 0.04/*k*/ ); DenseFeatureDetector Densedetect(4, 4, 1.5); const clock_t start_fast = clock(); // do stuff here fastdetect.detect(image_runtime,keypoints_fast); clock_t now_fast = clock(); clock_t delta_fast = now_fast - start_fast; seconds_elapsed_fast = static_cast<double>(delta_fast) / CLOCKS_PER_SEC; const clock_t start_star = clock(); // do stuff here stardetect.detect(image_runtime,keypoints_star); clock_t now_star = clock(); clock_t delta_star = now_star - start_star; seconds_elapsed_star = static_cast<double>(delta_star) / CLOCKS_PER_SEC; const clock_t start_orb = clock(); // do stuff here orbdetect.detect(image_runtime,keypoints_orb); clock_t now_orb = clock(); clock_t delta_orb = now_orb - start_orb; seconds_elapsed_orb = static_cast<double>(delta_orb) / CLOCKS_PER_SEC; const clock_t start_brisk = clock(); // do stuff here Briskdetect.detect(image_runtime, keypoints_brisk); clock_t now_brisk = clock(); clock_t delta_brisk = now_brisk - start_brisk; seconds_elapsed_brisk = static_cast<double>(delta_brisk) / CLOCKS_PER_SEC; const clock_t start_good = clock(); // do stuff here Gooddetect.detect(image_runtime, keypoints_good); clock_t now_good = clock(); clock_t delta_good = now_good - start_good; seconds_elapsed_good = static_cast<double>(delta_good) / CLOCKS_PER_SEC; const clock_t start_dense = clock(); // do stuff here Densedetect.detect(image_runtime, keypoints_dense); clock_t now_dense = clock(); clock_t delta_dense = now_dense - start_dense; seconds_elapsed_dense = static_cast<double>(delta_dense) / CLOCKS_PER_SEC; capture1=false; display1=true; } if (display1==true){ std::stringstream str_stream_features1; str_stream_features1 << "#fast:" << seconds_elapsed_fast<<"#star:" << seconds_elapsed_star<<"#orb:" << seconds_elapsed_orb<<"#brisk:" << seconds_elapsed_brisk; cv::putText(mRgb, str_stream_features1.str() , cv::Point2i(50,40), CV_FONT_HERSHEY_PLAIN, 2, cv::Scalar(0, 255, 0)); std::stringstream str_stream_features2; str_stream_features2 << "#good:" << seconds_elapsed_good<< "#dense:" << seconds_elapsed_dense; cv::putText(mRgb, str_stream_features2.str() , cv::Point2i(50,80), CV_FONT_HERSHEY_PLAIN, 2, cv::Scalar(0, 255, 0)); } if (b==2&&capture1==true){ OrbFeatureDetector orb_detect(500); orb_detect.detect(image_runtime,keypoints_orb); const clock_t startorb = clock(); // do stuff here orb_detect.compute(image_runtime,keypoints_orb,descriptors_orb); clock_t noworb = clock(); clock_t deltaorb = noworb - startorb; seconds_elapsedorb = static_cast<double>(deltaorb) / CLOCKS_PER_SEC; BriefDescriptorExtractor extractor_brief(32); const clock_t startbrief = clock(); // do stuff here extractor_brief.compute(image_runtime,keypoints_orb,descriptors_brief); clock_t nowbrief = clock(); clock_t deltabrief = nowbrief - startbrief; seconds_elapsedbrief = static_cast<double>(deltabrief) / CLOCKS_PER_SEC; int Threshl=60; int Octaves=4; float PatternScales=1.0f; cv::BRISK Brisk_detect(Threshl,Octaves,PatternScales); Brisk_detect.create("Feature2D.BRISK"); Brisk_detect.detect(image_runtime, keypoints_brisk); const clock_t startbrisk = clock(); // do stuff here Brisk_detect.compute(image_runtime, keypoints_brisk,descriptors_brisk); clock_t nowbrisk = clock(); clock_t deltabrisk = nowbrisk - startbrisk; seconds_elapsedbrisk = static_cast<double>(deltabrisk) / CLOCKS_PER_SEC; capture1=false; display2=true; } if (display2==true){ std::stringstream str_stream_features3; str_stream_features3 << "#orb_des:" << seconds_elapsedorb<< "#brisk_des:" << seconds_elapsedbrisk<< "#brief_des:" << seconds_elapsedbrief ; cv::putText(mRgb, str_stream_features3.str() , cv::Point2i(50,700), CV_FONT_HERSHEY_PLAIN, 2, cv::Scalar(0, 255, 0)); } if (capture==true&&a==1){ image1=mRgb; capture=false; OrbFeatureDetector detector2(500); BriefDescriptorExtractor extractor2(32); detector2.detect(image1,keypoints_old2); extractor2.compute(image1,keypoints_old2,descriptors_old2); OrbFeatureDetector detector1(500); detector1.detect(image1,keypoints_old1); detector1.compute(image1,keypoints_old1,descriptors_old1); int Threshl=60; int Octaves=4; float PatternScales=1.0f; cv::BRISK BRISKD(Threshl,Octaves,PatternScales); BRISKD.create("Feature2D.BRISK"); BRISKD.detect(image1, keypoints_old3); BRISKD.compute(image1, keypoints_old3,descriptors_old3); } if (capture==true&&a==2){ image2=mRgb; capture=false; OrbFeatureDetector detector1(500); detector1.detect(image2,keypoints_new1); detector1.compute(image2,keypoints_new1,descriptors_new1); FastFeatureDetector detector2(50); BriefDescriptorExtractor extractor2(32); detector2.detect(image2,keypoints_new2); extractor2.compute(image2,keypoints_new2,descriptors_new2); int Threshl=60; int Octaves=4; float PatternScales=1.0f; cv::BRISK BRISKD(Threshl,Octaves,PatternScales); BRISKD.create("Feature2D.BRISK"); BRISKD.detect(image2, keypoints_new3); BRISKD.compute(image2, keypoints_new3,descriptors_new3); a=3; //process of orb features const clock_t startmatch1 = clock(); // do stuff here matcher1.match(descriptors_old1, descriptors_new1, matches1); clock_t nowmatch1 = clock(); clock_t deltamatch1 = nowmatch1 - startmatch1; seconds_elapsedmatch1 = static_cast<double>(deltamatch1) / CLOCKS_PER_SEC; for(int i = 0; i < matches1.size(); i++ ){ cv::DMatch& d = matches1[i]; cv::KeyPoint& init_pt = keypoints_old1[d.queryIdx]; cv::KeyPoint& new_pt = keypoints_new1[d.trainIdx]; initial_pts1.push_back(init_pt.pt); new_pts1.push_back(new_pt.pt); } const clock_t starthomo1 = clock(); // do stuff here homography1 = cv::findHomography(initial_pts1, new_pts1, CV_RANSAC, 2, mask1); clock_t nowhomo1 = clock(); clock_t deltahomo1 = nowhomo1 - starthomo1; seconds_elapsedhomo1 = static_cast<double>(deltahomo1) / CLOCKS_PER_SEC; for(unsigned int i = 0; i<mask1.size();i++) { if (mask1[i]){//> Inlier nbinliner1++; } } inliner_ratio1=100*nbinliner1/mask1.size(); //process of brief const clock_t startmatch2 = clock(); // do stuff here matcher2.match(descriptors_old2, descriptors_new2, matches2); clock_t nowmatch2 = clock(); clock_t deltamatch2 = nowmatch2 - startmatch2; seconds_elapsedmatch2 = static_cast<double>(deltamatch2) / CLOCKS_PER_SEC; for(int i = 0; i < matches2.size(); i++ ){ cv::DMatch& d = matches2[i]; cv::KeyPoint& init_pt = keypoints_old2[d.queryIdx]; cv::KeyPoint& new_pt = keypoints_new2[d.trainIdx]; initial_pts2.push_back(init_pt.pt); new_pts2.push_back(new_pt.pt); } const clock_t starthomo2 = clock(); // do stuff here homography2 = cv::findHomography(initial_pts2, new_pts2, CV_RANSAC, 2, mask2); clock_t nowhomo2 = clock(); clock_t deltahomo2 = nowhomo2 - starthomo2; seconds_elapsedhomo2 = static_cast<double>(deltahomo2) / CLOCKS_PER_SEC; for(unsigned int i = 0; i<mask2.size();i++) { if (mask2[i]){//> Inlier nbinliner2++; } } inliner_ratio2=100*nbinliner2/mask2.size(); //process of brisk const clock_t startmatch3 = clock(); // do stuff here matcher3.match(descriptors_old3, descriptors_new3, matches3); clock_t nowmatch3 = clock(); clock_t deltamatch3 = nowmatch3 - startmatch3; seconds_elapsedmatch3 = static_cast<double>(deltamatch3) / CLOCKS_PER_SEC; for(int i = 0; i < matches3.size(); i++ ){ cv::DMatch& d = matches3[i]; cv::KeyPoint& init_pt = keypoints_old3[d.queryIdx]; cv::KeyPoint& new_pt = keypoints_new3[d.trainIdx]; initial_pts3.push_back(init_pt.pt); new_pts3.push_back(new_pt.pt); } const clock_t starthomo3 = clock(); // do stuff here homography3 = cv::findHomography(initial_pts3, new_pts3, CV_RANSAC, 2, mask3); clock_t nowhomo3 = clock(); clock_t deltahomo3 = nowhomo3 - starthomo3; seconds_elapsedhomo3 = static_cast<double>(deltahomo3) / CLOCKS_PER_SEC; for(unsigned int i = 0; i<mask3.size();i++) { if (mask3[i]){//> Inlier nbinliner3++; } } inliner_ratio3=100*nbinliner3/mask3.size(); display=true; } if (a>0&&capture==false){ for( unsigned int i = 0; i < keypoints_old1.size(); i++ ) { const KeyPoint& kp = keypoints_old1[i]; circle(mRgb, Point(kp.pt.x, kp.pt.y), 5, Scalar(0,0,255,0)); } for( unsigned int j = 0; j < keypoints_new1.size(); j++ ) { const KeyPoint& kp = keypoints_new1[j]; circle(mRgb, Point(kp.pt.x, kp.pt.y), 5, Scalar(255,0,0,0)); } std::stringstream str_stream1; str_stream1 << "#nb_k1: " << keypoints_new1.size()<< "-" <<keypoints_new2.size()<< "-" <<keypoints_new3.size()<<"#nb_k2: "<<keypoints_old1.size() <<"-" <<keypoints_old2.size() <<"-" <<keypoints_old3.size() << "#nb_m: " << matches1.size()<<"-" << matches2.size()<<"-" << matches3.size(); //<< s.height; cv::putText(mRgb, str_stream1.str() , cv::Point2i(50,80), CV_FONT_HERSHEY_PLAIN, 2, cv::Scalar(0, 255, 0)); std::stringstream str_stream2; str_stream2 << "#m_size:" << mask1.size()<< "-"<< mask2.size()<< "-"<<mask3.size()<< "#in_n:" << nbinliner1<< "-"<< nbinliner2<< "-"<< nbinliner3<<"# in_r%" << inliner_ratio1<<"-" << inliner_ratio2<<"-" << inliner_ratio3; //<< s.height; cv::putText(mRgb, str_stream2.str() , cv::Point2i(50,40), CV_FONT_HERSHEY_PLAIN, 2, cv::Scalar(0, 255, 0)); std::stringstream str_stream3; str_stream3 << "#homography1:" << seconds_elapsedhomo1 << "#homography2:" << seconds_elapsedhomo2<< "#homography3:" << seconds_elapsedhomo3 ; cv::putText(mRgb, str_stream3.str() , cv::Point2i(50,700), CV_FONT_HERSHEY_PLAIN, 2, cv::Scalar(0, 255, 0)); std::stringstream str_stream4; str_stream4 << "#match1:" << seconds_elapsedmatch1 << "#match2:" << seconds_elapsedmatch2<< "#match3:" << seconds_elapsedmatch3 ; cv::putText(mRgb, str_stream4.str() , cv::Point2i(50,660), CV_FONT_HERSHEY_PLAIN, 2, cv::Scalar(0, 255, 0)); } }