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524 lines
23 KiB
C++
524 lines
23 KiB
C++
/*
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/*********************************************************************
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* Software License Agreement (BSD License)
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*
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* Copyright (c) 2015, Willow Garage, Inc.
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* All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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*
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* * Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* * Redistributions in binary form must reproduce the above
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* copyright notice, this list of conditions and the following
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* disclaimer in the documentation and/or other materials provided
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* with the distribution.
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* * Neither the name of the Willow Garage nor the names of its
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* contributors may be used to endorse or promote products derived
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* from this software without specific prior written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
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* FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
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* COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
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* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
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* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
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* CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
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* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
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* ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
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* POSSIBILITY OF SUCH DAMAGE.
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*********************************************************************/
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/*
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Authors: Ippei Ito
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for OpenCV2.4/OpenCV3.0
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Test for Pull Request # 3829
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https://github.com/Itseez/opencv/pull/3829
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This test code creates brute force matcher for accuracy of reference, and the test target matcher.
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Then, add() and train() transformed query image descriptors, and some outlier images descriptors to both matchers.
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Then, compared with the query image by match() and findHomography() to detect outlier and calculate accuracy.
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And each drawMatches() images are saved, if SAVE_DRAW_MATCHES_IMAGES is true.
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Finally, compare accuracies between the brute force matcher and the test target matcher.
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The lsh algorithm uses std::random_shuffle in lsh_index.h to make the random indexes table.
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So, in relation to default random seed value of the execution environment or by using "srand(time(0)) function",
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the match time and accuracy of the match results are different, each time the code ran.
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And the match time becomes late in relation to the number of the hash collision times.
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*/
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#include "test_precomp.hpp"
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#include "opencv2/ts.hpp" // for FilePath::CreateFolder()
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#include <time.h> // for time()
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// If defined, the match time and accuracy of the match results are a little different, each time the code ran.
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#define INIT_RANDOM_SEED
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// If defined, some outlier images descriptors add() the matcher.
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#define TRAIN_WITH_OUTLIER_IMAGES
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// If true, save drawMatches() images.
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#define SAVE_DRAW_MATCHES_IMAGES false
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// if true, verbose output
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#define SHOW_DEBUG_LOG true
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#if CV_MAJOR_VERSION==2
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#define OrbCreate new ORB(4000)
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#elif CV_MAJOR_VERSION==3
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#define OrbCreate ORB::create(4000)
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#define AKazeCreate AKAZE::create()
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#endif
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using namespace cv;
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using namespace std;
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int testno_for_make_filename = 0;
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// --------------------------------------------------------------------------------------
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// Parameter class to transform query image
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// --------------------------------------------------------------------------------------
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class testparam
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{
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public:
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string transname;
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void(*transfunc)(float, const Mat&, Mat&);
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float from, to, step;
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testparam(string _transname, void(*_transfunc)(float, const Mat&, Mat&), float _from, float _to, float _step) :
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transname(_transname),
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transfunc(_transfunc),
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from(_from),
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to(_to),
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step(_step)
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{}
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};
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// --------------------------------------------------------------------------------------
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// from matching_to_many_images.cpp
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// --------------------------------------------------------------------------------------
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int maskMatchesByTrainImgIdx(const vector<DMatch>& matches, int trainImgIdx, vector<char>& mask)
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{
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int matchcnt = 0;
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mask.resize(matches.size());
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fill(mask.begin(), mask.end(), 0);
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for (size_t i = 0; i < matches.size(); i++)
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{
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if (matches[i].imgIdx == trainImgIdx)
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{
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mask[i] = 1;
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matchcnt++;
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}
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}
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return matchcnt;
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}
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int calcHomographyAndInlierCount(const vector<KeyPoint>& query_kp, const vector<KeyPoint>& train_kp, const vector<DMatch>& match, vector<char> &mask, Mat &homography)
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{
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// make query and current train image keypoint pairs
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std::vector<cv::Point2f> srcPoints, dstPoints;
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for (unsigned int i = 0; i < match.size(); ++i)
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{
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if (mask[i] != 0) // is current train image ?
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{
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srcPoints.push_back(query_kp[match[i].queryIdx].pt);
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dstPoints.push_back(train_kp[match[i].trainIdx].pt);
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}
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}
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// calc homography
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vector<uchar> inlierMask;
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homography = findHomography(srcPoints, dstPoints, RANSAC, 3.0, inlierMask);
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// update outlier mask
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int j = 0;
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for (unsigned int i = 0; i < match.size(); ++i)
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{
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if (mask[i] != 0) // is current train image ?
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{
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if (inlierMask.size() == 0 || inlierMask[j] == 0) // is outlier ?
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{
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mask[i] = 0;
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}
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j++;
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}
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}
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// count inlier
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int inlierCnt = 0;
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for (unsigned int i = 0; i < mask.size(); ++i)
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{
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if (mask[i] != 0)
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{
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inlierCnt++;
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}
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}
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return inlierCnt;
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}
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void drawDetectedRectangle(Mat& imgResult, const Mat& homography, const Mat& imgQuery)
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{
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std::vector<Point2f> query_corners(4);
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query_corners[0] = Point(0, 0);
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query_corners[1] = Point(imgQuery.cols, 0);
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query_corners[2] = Point(imgQuery.cols, imgQuery.rows);
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query_corners[3] = Point(0, imgQuery.rows);
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std::vector<Point2f> train_corners(4);
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perspectiveTransform(query_corners, train_corners, homography);
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line(imgResult, train_corners[0] + query_corners[1], train_corners[1] + query_corners[1], Scalar(0, 255, 0), 4);
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line(imgResult, train_corners[1] + query_corners[1], train_corners[2] + query_corners[1], Scalar(0, 255, 0), 4);
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line(imgResult, train_corners[2] + query_corners[1], train_corners[3] + query_corners[1], Scalar(0, 255, 0), 4);
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line(imgResult, train_corners[3] + query_corners[1], train_corners[0] + query_corners[1], Scalar(0, 255, 0), 4);
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}
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// --------------------------------------------------------------------------------------
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// transform query image, extract&compute, train, matching and save result image function
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// --------------------------------------------------------------------------------------
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typedef struct tagTrainInfo
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{
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int traindesccnt;
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double traintime;
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double matchtime;
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double accuracy;
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}TrainInfo;
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TrainInfo transImgAndTrain(
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Feature2D *fe,
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DescriptorMatcher *matcher,
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const string &matchername,
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const Mat& imgQuery, const vector<KeyPoint>& query_kp, const Mat& query_desc,
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const vector<Mat>& imgOutliers, const vector<vector<KeyPoint> >& outliers_kp, const vector<Mat>& outliers_desc, const int totalOutlierDescCnt,
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const float t, const testparam &tp,
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const int testno, const bool bVerboseOutput, const bool bSaveDrawMatches)
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{
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TrainInfo ti;
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// transform query image
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Mat imgTransform;
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(tp.transfunc)(t, imgQuery, imgTransform);
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// extract kp and compute desc from transformed query image
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vector<KeyPoint> trans_query_kp;
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Mat trans_query_desc;
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#if CV_MAJOR_VERSION==2
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(*fe)(imgTransform, Mat(), trans_query_kp, trans_query_desc);
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#elif CV_MAJOR_VERSION==3
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fe->detectAndCompute(imgTransform, Mat(), trans_query_kp, trans_query_desc);
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#endif
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// add&train transformed query desc and outlier desc
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matcher->clear();
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matcher->add(vector<Mat>(1, trans_query_desc));
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double s = (double)getTickCount();
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matcher->train();
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ti.traintime = 1000.0*((double)getTickCount() - s) / getTickFrequency();
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ti.traindesccnt = trans_query_desc.rows;
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#if defined(TRAIN_WITH_OUTLIER_IMAGES)
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// same as matcher->add(outliers_desc); matcher->train();
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for (unsigned int i = 0; i < outliers_desc.size(); ++i)
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{
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matcher->add(vector<Mat>(1, outliers_desc[i]));
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s = (double)getTickCount();
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matcher->train();
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ti.traintime += 1000.0*((double)getTickCount() - s) / getTickFrequency();
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}
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ti.traindesccnt += totalOutlierDescCnt;
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#endif
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// matching
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vector<DMatch> match;
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s = (double)getTickCount();
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matcher->match(query_desc, match);
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ti.matchtime = 1000.0*((double)getTickCount() - s) / getTickFrequency();
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// prepare a directory and variables for save matching images
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vector<char> mask;
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Mat imgResult;
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const char resultDir[] = "result";
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if (bSaveDrawMatches)
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{
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testing::internal::FilePath fp = testing::internal::FilePath(resultDir);
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fp.CreateFolder();
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}
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char buff[2048];
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int matchcnt;
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// save query vs transformed query matching image with detected rectangle
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matchcnt = maskMatchesByTrainImgIdx(match, (int)0, mask);
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// calc homography and inlier
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Mat homography;
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int inlierCnt = calcHomographyAndInlierCount(query_kp, trans_query_kp, match, mask, homography);
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ti.accuracy = (double)inlierCnt / (double)mask.size()*100.0;
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drawMatches(imgQuery, query_kp, imgTransform, trans_query_kp, match, imgResult, Scalar::all(-1), Scalar::all(128), mask, DrawMatchesFlags::DRAW_RICH_KEYPOINTS);
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if (inlierCnt)
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{
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// draw detected rectangle
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drawDetectedRectangle(imgResult, homography, imgQuery);
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}
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// draw status
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sprintf(buff, "%s accuracy:%-3.2f%% %d descriptors training time:%-3.2fms matching :%-3.2fms", matchername.c_str(), ti.accuracy, ti.traindesccnt, ti.traintime, ti.matchtime);
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putText(imgResult, buff, Point(0, 12), FONT_HERSHEY_PLAIN, 0.8, Scalar(0., 0., 255.));
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sprintf(buff, "%s/res%03d_%s_%s%.1f_inlier.png", resultDir, testno, matchername.c_str(), tp.transname.c_str(), t);
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if (bSaveDrawMatches && !imwrite(buff, imgResult)) cout << "Image " << buff << " can not be saved (may be because directory " << resultDir << " does not exist)." << endl;
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#if defined(TRAIN_WITH_OUTLIER_IMAGES)
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// save query vs outlier matching image(s)
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for (unsigned int i = 0; i <imgOutliers.size(); ++i)
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{
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matchcnt = maskMatchesByTrainImgIdx(match, (int)i + 1, mask);
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drawMatches(imgQuery, query_kp, imgOutliers[i], outliers_kp[i], match, imgResult, Scalar::all(-1), Scalar::all(128), mask);// , DrawMatchesFlags::DRAW_RICH_KEYPOINTS);
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sprintf(buff, "query_num:%d train_num:%d matched:%d %d descriptors training time:%-3.2fms matching :%-3.2fms", (int)query_kp.size(), (int)outliers_kp[i].size(), matchcnt, ti.traindesccnt, ti.traintime, ti.matchtime);
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putText(imgResult, buff, Point(0, 12), FONT_HERSHEY_PLAIN, 0.8, Scalar(0., 0., 255.));
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sprintf(buff, "%s/res%03d_%s_%s%.1f_outlier%02d.png", resultDir, testno, matchername.c_str(), tp.transname.c_str(), t, i);
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if (bSaveDrawMatches && !imwrite(buff, imgResult)) cout << "Image " << buff << " can not be saved (may be because directory " << resultDir << " does not exist)." << endl;
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}
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#endif
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if (bVerboseOutput)
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{
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cout << tp.transname <<" image matching accuracy:" << ti.accuracy << "% " << ti.traindesccnt << " train:" << ti.traintime << "ms match:" << ti.matchtime << "ms" << endl;
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}
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return ti;
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}
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// --------------------------------------------------------------------------------------
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// Main Test Class
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// --------------------------------------------------------------------------------------
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class CV_FeatureDetectorMatcherBaseTest : public cvtest::BaseTest
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{
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private:
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Ptr<DescriptorMatcher> bfmatcher; // brute force matcher for accuracy of reference
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Ptr<DescriptorMatcher> flmatcher; // flann matcher to test
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Ptr<Feature2D> fe; // feature detector extractor
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Mat imgQuery; // query image
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vector<Mat> imgOutliers; // outlier image
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vector<KeyPoint> query_kp; // query key points detect from imgQuery
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Mat query_desc; // query descriptors extract from imgQuery
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vector<vector<KeyPoint> > outliers_kp;
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vector<Mat> outliers_desc;
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int totalOutlierDescCnt;
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string flmatchername;
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testparam tp;
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double target_accuracy_margin_from_bfmatcher;
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public:
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//
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// constructor
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//
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CV_FeatureDetectorMatcherBaseTest(testparam _tp, double _accuracy_margin, Ptr<Feature2D> _fe, DescriptorMatcher *_flmatcher, string _flmatchername, int norm_type_for_bfmatcher) :
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tp(_tp),
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fe(_fe),
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flmatcher(_flmatcher),
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flmatchername(_flmatchername),
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target_accuracy_margin_from_bfmatcher(_accuracy_margin)
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{
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#if defined(INIT_RANDOM_SEED)
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// from test/test_eigen.cpp
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srand((unsigned int)time(0));
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#endif
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// create brute force matcher for accuracy of reference
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bfmatcher = makePtr<BFMatcher>(norm_type_for_bfmatcher);
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}
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//
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// Main Test method
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//
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virtual void run(int)
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{
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// load query image
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string strQueryFile = string(cvtest::TS::ptr()->get_data_path()) + "shared/lena.png";
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imgQuery = imread(strQueryFile, 0);
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if (imgQuery.empty())
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{
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ts->printf(cvtest::TS::LOG, "Image %s can not be read.\n", strQueryFile.c_str());
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ts->set_failed_test_info(cvtest::TS::FAIL_INVALID_TEST_DATA);
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return;
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}
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// load outlier images
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char* outliers[] = { (char*)"baboon.png", (char*)"fruits.png", (char*)"airplane.png" };
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for (unsigned int i = 0; i < sizeof(outliers) / sizeof(char*); i++)
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{
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string strOutlierFile = string(cvtest::TS::ptr()->get_data_path()) + "shared/" + outliers[i];
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Mat imgOutlier = imread(strOutlierFile, 0);
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if (imgQuery.empty())
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{
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ts->printf(cvtest::TS::LOG, "Image %s can not be read.\n", strOutlierFile.c_str());
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ts->set_failed_test_info(cvtest::TS::FAIL_INVALID_TEST_DATA);
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return;
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}
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imgOutliers.push_back(imgOutlier);
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}
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// extract and compute keypoints and descriptors from query image
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#if CV_MAJOR_VERSION==2
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(*fe)(imgQuery, Mat(), query_kp, query_desc);
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#elif CV_MAJOR_VERSION==3
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fe->detectAndCompute(imgQuery, Mat(), query_kp, query_desc);
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#endif
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// extract and compute keypoints and descriptors from outlier images
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fe->detect(imgOutliers, outliers_kp);
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((DescriptorExtractor*)fe)->compute(imgOutliers, outliers_kp, outliers_desc);
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totalOutlierDescCnt = 0;
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for (unsigned int i = 0; i < outliers_desc.size(); ++i) totalOutlierDescCnt += outliers_desc[i].rows;
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if (SHOW_DEBUG_LOG)
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{
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cout << query_kp.size() << " keypoints extracted from query image." << endl;
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#if defined(TRAIN_WITH_OUTLIER_IMAGES)
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cout << totalOutlierDescCnt << " keypoints extracted from outlier image(s)." << endl;
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#endif
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}
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// compute brute force matcher accuracy for reference
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double totalTrainTime = 0.;
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double totalMatchTime = 0.;
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double totalAccuracy = 0.;
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int cnt = 0;
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for (float t = tp.from; t <= tp.to; t += tp.step, ++testno_for_make_filename, ++cnt)
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{
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if (SHOW_DEBUG_LOG) cout << "Test No." << testno_for_make_filename << " BFMatcher " << t;
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TrainInfo ti = transImgAndTrain(fe, bfmatcher, "BFMatcher",
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imgQuery, query_kp, query_desc,
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imgOutliers, outliers_kp, outliers_desc,
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totalOutlierDescCnt,
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t, tp, testno_for_make_filename, SHOW_DEBUG_LOG, SAVE_DRAW_MATCHES_IMAGES);
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totalTrainTime += ti.traintime;
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totalMatchTime += ti.matchtime;
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totalAccuracy += ti.accuracy;
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}
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double bf_average_accuracy = totalAccuracy / cnt;
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if (SHOW_DEBUG_LOG)
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{
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cout << "total training time: " << totalTrainTime << "ms" << endl;
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cout << "total matching time: " << totalMatchTime << "ms" << endl;
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cout << "average accuracy:" << bf_average_accuracy << "%" << endl;
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}
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// test the target matcher
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totalTrainTime = 0.;
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totalMatchTime = 0.;
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totalAccuracy = 0.;
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cnt = 0;
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for (float t = tp.from; t <= tp.to; t += tp.step, ++testno_for_make_filename, ++cnt)
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{
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if (SHOW_DEBUG_LOG) cout << "Test No." << testno_for_make_filename << " " << flmatchername << " " << t;
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TrainInfo ti = transImgAndTrain(fe, flmatcher, flmatchername,
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imgQuery, query_kp, query_desc,
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imgOutliers, outliers_kp, outliers_desc,
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totalOutlierDescCnt,
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t, tp, testno_for_make_filename, SHOW_DEBUG_LOG, SAVE_DRAW_MATCHES_IMAGES);
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totalTrainTime += ti.traintime;
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totalMatchTime += ti.matchtime;
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totalAccuracy += ti.accuracy;
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}
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double average_accuracy = totalAccuracy / cnt;
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double target_average_accuracy = bf_average_accuracy * target_accuracy_margin_from_bfmatcher;
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if (SHOW_DEBUG_LOG)
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{
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cout << "total training time: " << totalTrainTime << "ms" << endl;
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cout << "total matching time: " << totalMatchTime << "ms" << endl;
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cout << "average accuracy:" << average_accuracy << "%" << endl;
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cout << "threshold of the target matcher average accuracy as error :" << target_average_accuracy << "%" << endl;
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cout << "accuracy degraded " << (100.0 - (average_accuracy / bf_average_accuracy *100.0)) << "% from BFMatcher.(lower percentage is better)" << endl;
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}
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// compare accuracies between the brute force matcher and the test target matcher
|
|
if (average_accuracy < target_average_accuracy)
|
|
{
|
|
ts->printf(cvtest::TS::LOG, "Bad average accuracy %f < %f while test %s %s query\n", average_accuracy, target_average_accuracy, flmatchername, tp.transname.c_str());
|
|
ts->set_failed_test_info(cvtest::TS::FAIL_BAD_ACCURACY);
|
|
}
|
|
return;
|
|
}
|
|
|
|
};
|
|
|
|
// --------------------------------------------------------------------------------------
|
|
// Transform Functions
|
|
// --------------------------------------------------------------------------------------
|
|
static void rotate(float deg, const Mat& src, Mat& dst)
|
|
{
|
|
warpAffine(src, dst, getRotationMatrix2D(Point2f(src.cols / 2.0f, src.rows / 2.0f), deg, 1), src.size(), INTER_CUBIC);
|
|
}
|
|
static void scale(float scale, const Mat& src, Mat& dst)
|
|
{
|
|
resize(src, dst, Size((int)(src.cols*scale), (int)(src.rows*scale)), INTER_AREA);
|
|
}
|
|
static void blur(float k, const Mat& src, Mat& dst)
|
|
{
|
|
GaussianBlur(src, dst, Size((int)k, (int)k), 0);
|
|
}
|
|
|
|
// --------------------------------------------------------------------------------------
|
|
// Tests Registrations
|
|
// --------------------------------------------------------------------------------------
|
|
#define SHORT_LSH_KEY_ACCURACY_MARGIN 0.72 // The margin for FlannBasedMatcher. 28% degraded from BFMatcher(Actually, about 10..24% measured.lower percentage is better.) for lsh key size=16.
|
|
#define MIDDLE_LSH_KEY_ACCURACY_MARGIN 0.72 // The margin for FlannBasedMatcher. 28% degraded from BFMatcher(Actually, about 7..24% measured.lower percentage is better.) for lsh key size=24.
|
|
#define LONG_LSH_KEY_ACCURACY_MARGIN 0.90 // The margin for FlannBasedMatcher. 10% degraded from BFMatcher(Actually, about -29...7% measured.lower percentage is better.) for lsh key size=31.
|
|
|
|
TEST(BlurredQueryFlannBasedLshShortKeyMatcherAdditionalTrainTest, accuracy)
|
|
{
|
|
testparam tp("blurred", blur, 1.0f, 11.0f, 2.0f);
|
|
CV_FeatureDetectorMatcherBaseTest test(tp, SHORT_LSH_KEY_ACCURACY_MARGIN, OrbCreate, new FlannBasedMatcher(makePtr<flann::LshIndexParams>(1, 16, 2)), "FlannLsh(1, 16, 2)", NORM_HAMMING);
|
|
test.safe_run();
|
|
}
|
|
TEST(BlurredQueryFlannBasedLshMiddleKeyMatcherAdditionalTrainTest, accuracy)
|
|
{
|
|
testparam tp("blurred", blur, 1.0f, 11.0f, 2.0f);
|
|
CV_FeatureDetectorMatcherBaseTest test(tp, MIDDLE_LSH_KEY_ACCURACY_MARGIN, OrbCreate, new FlannBasedMatcher(makePtr<flann::LshIndexParams>(1, 24, 2)), "FlannLsh(1, 24, 2)", NORM_HAMMING);
|
|
test.safe_run();
|
|
}
|
|
TEST(BlurredQueryFlannBasedLshLongKeyMatcherAdditionalTrainTest, accuracy)
|
|
{
|
|
testparam tp("blurred", blur, 1.0f, 11.0f, 2.0f);
|
|
CV_FeatureDetectorMatcherBaseTest test(tp, LONG_LSH_KEY_ACCURACY_MARGIN, OrbCreate, new FlannBasedMatcher(makePtr<flann::LshIndexParams>(1, 31, 2)), "FlannLsh(1, 31, 2)", NORM_HAMMING);
|
|
test.safe_run();
|
|
}
|
|
|
|
TEST(ScaledQueryFlannBasedLshShortKeyMatcherAdditionalTrainTest, accuracy)
|
|
{
|
|
testparam tp("scaled", scale, 0.5f, 1.5f, 0.1f);
|
|
CV_FeatureDetectorMatcherBaseTest test(tp, SHORT_LSH_KEY_ACCURACY_MARGIN, OrbCreate, new FlannBasedMatcher(makePtr<flann::LshIndexParams>(1, 16, 2)), "FlannLsh(1, 16, 2)", NORM_HAMMING);
|
|
test.safe_run();
|
|
}
|
|
TEST(ScaledQueryFlannBasedLshMiddleKeyMatcherAdditionalTrainTest, accuracy)
|
|
{
|
|
testparam tp("scaled", scale, 0.5f, 1.5f, 0.1f);
|
|
CV_FeatureDetectorMatcherBaseTest test(tp, MIDDLE_LSH_KEY_ACCURACY_MARGIN, OrbCreate, new FlannBasedMatcher(makePtr<flann::LshIndexParams>(1, 24, 2)), "FlannLsh(1, 24, 2)", NORM_HAMMING);
|
|
test.safe_run();
|
|
}
|
|
TEST(ScaledQueryFlannBasedLshLongKeyMatcherAdditionalTrainTest, accuracy)
|
|
{
|
|
testparam tp("scaled", scale, 0.5f, 1.5f, 0.1f);
|
|
CV_FeatureDetectorMatcherBaseTest test(tp, LONG_LSH_KEY_ACCURACY_MARGIN, OrbCreate, new FlannBasedMatcher(makePtr<flann::LshIndexParams>(1, 31, 2)), "FlannLsh(1, 31, 2)", NORM_HAMMING);
|
|
test.safe_run();
|
|
}
|
|
|
|
TEST(RotatedQueryFlannBasedLshShortKeyMatcherAdditionalTrainTest, accuracy)
|
|
{
|
|
testparam tp("rotated", rotate, 0.0f, 359.0f, 30.0f);
|
|
CV_FeatureDetectorMatcherBaseTest test(tp, SHORT_LSH_KEY_ACCURACY_MARGIN, OrbCreate, new FlannBasedMatcher(makePtr<flann::LshIndexParams>(1, 16, 2)), "FlannLsh(1, 16, 2)", NORM_HAMMING);
|
|
test.safe_run();
|
|
}
|
|
TEST(RotatedQueryFlannBasedLshMiddleKeyMatcherAdditionalTrainTest, accuracy)
|
|
{
|
|
testparam tp("rotated", rotate, 0.0f, 359.0f, 30.0f);
|
|
CV_FeatureDetectorMatcherBaseTest test(tp, MIDDLE_LSH_KEY_ACCURACY_MARGIN, OrbCreate, new FlannBasedMatcher(makePtr<flann::LshIndexParams>(1, 24, 2)), "FlannLsh(1, 24, 2)", NORM_HAMMING);
|
|
test.safe_run();
|
|
}
|
|
TEST(RotatedQueryFlannBasedLshLongKeyMatcherAdditionalTrainTest, accuracy)
|
|
{
|
|
testparam tp("rotated", rotate, 0.0f, 359.0f, 30.0f);
|
|
CV_FeatureDetectorMatcherBaseTest test(tp, LONG_LSH_KEY_ACCURACY_MARGIN, OrbCreate, new FlannBasedMatcher(makePtr<flann::LshIndexParams>(1, 31, 2)), "FlannLsh(1, 31, 2)", NORM_HAMMING);
|
|
test.safe_run();
|
|
}
|