Go to the documentation of this file.00001 #ifndef _MtvClusterizer1D_H_
00002 #define _MtvClusterizer1D_H_
00003
00004 #include "CommonTools/Clustering1D/interface/Clusterizer1D.h"
00005 #include "CommonTools/Clustering1D/interface/Clusterizer1DCommons.h"
00006 #include "CommonTools/Clustering1D/interface/TrivialWeightEstimator.h"
00007 #include "CommonTools/Clustering1D/interface/Clustering1DException.h"
00008
00009 #include <vector>
00010 #include <cmath>
00011 #include <algorithm>
00012
00016 template <class T>
00017 class MtvClusterizer1D : public Clusterizer1D<T>
00018 {
00019 public:
00020 MtvClusterizer1D ( const WeightEstimator<T> & est = TrivialWeightEstimator<T>() );
00021 MtvClusterizer1D ( const MtvClusterizer1D & );
00022 ~MtvClusterizer1D();
00023
00024 std::pair < std::vector < Cluster1D<T> >, std::vector < const T * > >
00025 operator() ( const std::vector< Cluster1D<T> > & ) const;
00026
00027 virtual MtvClusterizer1D * clone() const;
00028
00029 private:
00030 WeightEstimator<T> * theEstimator;
00031 float theErrorStretchFactor;
00032 };
00033
00034
00035
00036
00037
00038
00039 template <class T>
00040 MtvClusterizer1D<T>::MtvClusterizer1D(
00041 const MtvClusterizer1D<T> & o ) : theEstimator ( o.theEstimator->clone() )
00042 {}
00043
00044
00045 template <class T>
00046 MtvClusterizer1D<T>::MtvClusterizer1D(
00047 const WeightEstimator<T> & est ) : theEstimator ( est.clone() )
00048 {}
00049
00050
00051 template <class T>
00052 MtvClusterizer1D<T>::~MtvClusterizer1D()
00053 {
00054 delete theEstimator;
00055 }
00056
00057 template <class T>
00058 MtvClusterizer1D<T> * MtvClusterizer1D<T>::clone() const
00059 {
00060 return new MtvClusterizer1D<T> ( * this );
00061 }
00062
00063 template <class T>
00064 std::pair < std::vector < Cluster1D<T> >, std::vector < const T * > >
00065 MtvClusterizer1D<T>::operator() ( const std::vector < Cluster1D<T> > & ov ) const
00066 {
00067 typedef Cluster1D<T> Cluster1D;
00068 using namespace Clusterizer1DCommons;
00069 std::vector < const T * > unusedtracks;
00070 switch ( ov.size() )
00071 {
00072 case 0:
00073 throw Clustering1DException("[MtvClusterizer1D] no values given" );
00074 case 1:
00075 std::pair < std::vector < Cluster1D >, std::vector < const T * > > ret ( ov, unusedtracks );
00076 return ret;
00077 };
00078 std::vector < Cluster1D > v = ov;
00079 sort ( v.begin(), v.end(), ComparePairs<T>() );
00080 std::vector < Cluster1D > sols;
00081 std::vector < const T * > trks;
00082
00083 typename std::vector< Cluster1D >::iterator cur = v.begin();
00084 typename std::vector< Cluster1D >::iterator end = (v.end() - 1 );
00085 double cur_min = cur->weight() + ( cur+1 )->weight();
00086
00087 for ( typename std::vector< Cluster1D >::iterator i=v.begin();
00088 i!=end ; ++i )
00089 {
00090 double cur_val = i->weight() + ( i+1 )->weight();
00091 if ( cur_val > cur_min )
00092 {
00093 cur_min = cur_val;
00094 cur = i;
00095 };
00096 };
00097
00098 double weight = ( cur->weight() + (cur+1)->weight() );
00099 double est = ( cur->weight() * cur->position().value() +
00100 (cur+1)->weight() * (cur+1)->position().value()) / weight;
00101 double sigma = sqrt ( square ( cur->position().value() - est ) +
00102 square ( (cur+1)->position().value() - est ) );
00103 double err=0.;
00104 int inliers=0;
00105
00106 for ( typename std::vector< Cluster1D >::iterator i=v.begin();
00107 i!=v.end() ; ++i )
00108 {
00109 if ( fabs ( i->position().value() - est ) < 3 * sigma )
00110 {
00111
00112 add
00113 ( i->tracks(), trks );
00114 err+= square ( i->position().value() - est );
00115 inliers++;
00116 }
00117 else
00118 {
00119 add
00120 ( i->tracks(), unusedtracks );
00121 };
00122 };
00123 err /= ( inliers - 1 );
00124 err = sqrt ( err );
00125
00126 sols.push_back ( Cluster1D ( Measurement1D ( est,err ), trks, weight ) );
00127 std::pair < std::vector < Cluster1D >, std::vector < const T * > > ret ( sols, unusedtracks );
00128 return ret;
00129 }
00130
00131 #endif