Exemplo n.º 1
0
void HammingMatchBatch::getResult(MatchList &good) const{
	good.clear();
	cv::DMatch _mtch;
	for ( int _i = 0; _i < this->result.rows; ++_i){
		_mtch.queryIdx = this->result.at<int>(_i, 0);
		_mtch.trainIdx = this->result.at<int>(_i, 1);
		_mtch.distance = this->result.at<int>(_i, 2);
		if ( _mtch.queryIdx != -1 ) good.push_back(_mtch);
	}
}
Exemplo n.º 2
0
void fast_hammingnorm_matchserial(const cv::Mat &des1, const cv::Mat &des2, ListIdxCorrespondance &_list, const float ratio){
	MatchList good;
	good.clear();
	bool flipcorrespondence = false;
	if ( des1.rows <= des2.rows ){
		_hammingmatchserial(des1, des2, good, ratio);
	} else {
		flipcorrespondence = true;
		_hammingmatchserial(des2, des1, good, ratio);
	}	
	correspondance_list(good, _list, flipcorrespondence);
	
	
}
Exemplo n.º 3
0
void fast_hammingnorm_match_neighborhood(const cv::Mat& des1, const cv::Mat& des2, const cv::Mat& neighborhood,
										 ListIdxCorrespondance& _list, const float ratio, const int parscore)
{
	cv::setNumThreads(3);
	MatchList good;
	good.clear();
	bool flipcorrespondence = false;
	if ( des1.rows <= des2.rows ){
		HammingMatchBatch _hmtbb(des1, des2,neighborhood, ratio, parscore);
		cv::parallel_for_(cv::Range(0, des1.rows), _hmtbb, 3);
		_hmtbb.getResult(good);
	} else {
		flipcorrespondence = true;
		cv::Mat _neight=neighborhood.t();
		HammingMatchBatch _hmtbb(des2, des1, _neight, ratio, parscore);
		cv::parallel_for_(cv::Range(0, des2.rows), _hmtbb, 3);
		_hmtbb.getResult(good);
	}	
	correspondance_list(good, _list, flipcorrespondence);
}
Exemplo n.º 4
0
void fast_hammingnorm_match(const cv::Mat &des1, const cv::Mat&des2, ListIdxCorrespondance &_list,
							const float ratio, const int parscore){
	// Fast Hamming Norm based test
	cv::setNumThreads(3);
	cv::Mat empty;
	MatchList good;
	good.clear();
	bool flipcorrespondence = false;
	if ( des1.rows <= des2.rows ){
		HammingMatchBatch _hmtbb(des1, des2, empty, ratio, parscore);		
		cv::parallel_for_(cv::Range(0, des1.rows), _hmtbb, 3);
		_hmtbb.getResult(good);
	} else {
		flipcorrespondence = true;
		HammingMatchBatch _hmtbb(des2, des1, empty, ratio, parscore);
		cv::parallel_for_(cv::Range(0, des2.rows), _hmtbb, 3);
		_hmtbb.getResult(good);
	}	
	correspondance_list(good, _list, flipcorrespondence);
}