Open Source Computer Vision Library https://opencv.org/
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#include <iostream>
#include <stdio.h>
#include "opencv2/core/core.hpp"
#include "opencv2/core/utility.hpp"
#include "opencv2/core/ocl.hpp"
#include "opencv2/highgui.hpp"
#include "opencv2/features2d.hpp"
#include "opencv2/calib3d.hpp"
#include "opencv2/imgproc.hpp"
#include "opencv2/nonfree.hpp"
using namespace cv;
const int LOOP_NUM = 10;
const int GOOD_PTS_MAX = 50;
const float GOOD_PORTION = 0.15f;
int64 work_begin = 0;
int64 work_end = 0;
static void workBegin()
{
work_begin = getTickCount();
}
static void workEnd()
{
work_end = getTickCount() - work_begin;
}
static double getTime()
{
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return work_end /((double)getTickFrequency() )* 1000.;
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}
template<class KPDetector>
struct SURFDetector
{
KPDetector surf;
SURFDetector(double hessian = 800.0)
:surf(hessian)
{
}
template<class T>
void operator()(const T& in, const T& mask, std::vector<cv::KeyPoint>& pts, T& descriptors, bool useProvided = false)
{
surf(in, mask, pts, descriptors, useProvided);
}
};
template<class KPMatcher>
struct SURFMatcher
{
KPMatcher matcher;
template<class T>
void match(const T& in1, const T& in2, std::vector<cv::DMatch>& matches)
{
matcher.match(in1, in2, matches);
}
};
static Mat drawGoodMatches(
const Mat& img1,
const Mat& img2,
const std::vector<KeyPoint>& keypoints1,
const std::vector<KeyPoint>& keypoints2,
std::vector<DMatch>& matches,
std::vector<Point2f>& scene_corners_
)
{
//-- Sort matches and preserve top 10% matches
std::sort(matches.begin(), matches.end());
std::vector< DMatch > good_matches;
double minDist = matches.front().distance;
double maxDist = matches.back().distance;
const int ptsPairs = std::min(GOOD_PTS_MAX, (int)(matches.size() * GOOD_PORTION));
for( int i = 0; i < ptsPairs; i++ )
{
good_matches.push_back( matches[i] );
}
std::cout << "\nMax distance: " << maxDist << std::endl;
std::cout << "Min distance: " << minDist << std::endl;
std::cout << "Calculating homography using " << ptsPairs << " point pairs." << std::endl;
// drawing the results
Mat img_matches;
drawMatches( img1, keypoints1, img2, keypoints2,
good_matches, img_matches, Scalar::all(-1), Scalar::all(-1),
std::vector<char>(), DrawMatchesFlags::NOT_DRAW_SINGLE_POINTS );
//-- Localize the object
std::vector<Point2f> obj;
std::vector<Point2f> scene;
for( size_t i = 0; i < good_matches.size(); i++ )
{
//-- Get the keypoints from the good matches
obj.push_back( keypoints1[ good_matches[i].queryIdx ].pt );
scene.push_back( keypoints2[ good_matches[i].trainIdx ].pt );
}
//-- Get the corners from the image_1 ( the object to be "detected" )
std::vector<Point2f> obj_corners(4);
obj_corners[0] = Point(0,0);
obj_corners[1] = Point( img1.cols, 0 );
obj_corners[2] = Point( img1.cols, img1.rows );
obj_corners[3] = Point( 0, img1.rows );
std::vector<Point2f> scene_corners(4);
Mat H = findHomography( obj, scene, RANSAC );
perspectiveTransform( obj_corners, scene_corners, H);
scene_corners_ = scene_corners;
//-- Draw lines between the corners (the mapped object in the scene - image_2 )
line( img_matches,
scene_corners[0] + Point2f( (float)img1.cols, 0), scene_corners[1] + Point2f( (float)img1.cols, 0),
Scalar( 0, 255, 0), 2, LINE_AA );
line( img_matches,
scene_corners[1] + Point2f( (float)img1.cols, 0), scene_corners[2] + Point2f( (float)img1.cols, 0),
Scalar( 0, 255, 0), 2, LINE_AA );
line( img_matches,
scene_corners[2] + Point2f( (float)img1.cols, 0), scene_corners[3] + Point2f( (float)img1.cols, 0),
Scalar( 0, 255, 0), 2, LINE_AA );
line( img_matches,
scene_corners[3] + Point2f( (float)img1.cols, 0), scene_corners[0] + Point2f( (float)img1.cols, 0),
Scalar( 0, 255, 0), 2, LINE_AA );
return img_matches;
}
////////////////////////////////////////////////////
// This program demonstrates the usage of SURF_OCL.
// use cpu findHomography interface to calculate the transformation matrix
int main(int argc, char* argv[])
{
const char* keys =
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"{ h help | false | print help message }"
"{ l left | box.png | specify left image }"
"{ r right | box_in_scene.png | specify right image }"
"{ o output | SURF_output.jpg | specify output save path }"
"{ m cpu_mode | false | run without OpenCL }";
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CommandLineParser cmd(argc, argv, keys);
if (cmd.has("help"))
{
std::cout << "Usage: surf_matcher [options]" << std::endl;
std::cout << "Available options:" << std::endl;
cmd.printMessage();
return EXIT_SUCCESS;
}
if (cmd.has("cpu_mode"))
{
ocl::setUseOpenCL(false);
std::cout << "OpenCL was disabled" << std::endl;
}
UMat img1, img2;
std::string outpath = cmd.get<std::string>("o");
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std::string leftName = cmd.get<std::string>("l");
imread(leftName, IMREAD_GRAYSCALE).copyTo(img1);
if(img1.empty())
{
std::cout << "Couldn't load " << leftName << std::endl;
cmd.printMessage();
return EXIT_FAILURE;
}
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std::string rightName = cmd.get<std::string>("r");
imread(rightName, IMREAD_GRAYSCALE).copyTo(img2);
if(img2.empty())
{
std::cout << "Couldn't load " << rightName << std::endl;
cmd.printMessage();
return EXIT_FAILURE;
}
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double surf_time = 0.;
//declare input/output
std::vector<KeyPoint> keypoints1, keypoints2;
std::vector<DMatch> matches;
UMat _descriptors1, _descriptors2;
Mat descriptors1 = _descriptors1.getMat(ACCESS_RW),
descriptors2 = _descriptors2.getMat(ACCESS_RW);
//instantiate detectors/matchers
SURFDetector<SURF> surf;
SURFMatcher<BFMatcher> matcher;
//-- start of timing section
for (int i = 0; i <= LOOP_NUM; i++)
{
if(i == 1) workBegin();
surf(img1.getMat(ACCESS_READ), Mat(), keypoints1, descriptors1);
surf(img2.getMat(ACCESS_READ), Mat(), keypoints2, descriptors2);
matcher.match(descriptors1, descriptors2, matches);
}
workEnd();
std::cout << "FOUND " << keypoints1.size() << " keypoints on first image" << std::endl;
std::cout << "FOUND " << keypoints2.size() << " keypoints on second image" << std::endl;
surf_time = getTime();
std::cout << "SURF run time: " << surf_time / LOOP_NUM << " ms" << std::endl<<"\n";
std::vector<Point2f> corner;
Mat img_matches = drawGoodMatches(img1.getMat(ACCESS_READ), img2.getMat(ACCESS_READ), keypoints1, keypoints2, matches, corner);
//-- Show detected matches
namedWindow("surf matches", 0);
imshow("surf matches", img_matches);
imwrite(outpath, img_matches);
waitKey(0);
return EXIT_SUCCESS;
}