CMS 3D CMS Logo

/data/doxygen/doxygen-1.7.3/gen/CMSSW_4_2_8/src/DataFormats/ParticleFlowReco/interface/PFDisplacedVertex.h

Go to the documentation of this file.
00001 #ifndef DataFormat_ParticleFlowReco_PFDisplacedVertex_h
00002 #define DataFormat_ParticleFlowReco_PFDisplacedVertex_h 
00003 
00004 #include "DataFormats/TrackReco/interface/TrackFwd.h"
00005 #include "DataFormats/VertexReco/interface/Vertex.h"
00006 #include "DataFormats/Math/interface/LorentzVector.h"
00007 #include "TVector3.h"
00008 
00009 #include <vector>
00010 #include <string>
00011 #include <iostream>
00012 
00013 namespace reco {
00014 
00015   
00017 
00025   class PFDisplacedVertex : public Vertex{
00026 
00027   public:
00028 
00030     typedef std::pair <unsigned int, unsigned int> PFTrackHitInfo;
00031     typedef std::pair <PFTrackHitInfo, PFTrackHitInfo> PFTrackHitFullInfo;
00032 
00034     enum M_Hypo {
00035       M_CUSTOM,
00036       M_MASSLESS,
00037       M_PION,
00038       M_KAON,
00039       M_LAMBDA
00040     };
00041 
00042 
00047     enum VertexTrackType {
00048       T_NOT_FROM_VERTEX,
00049       T_TO_VERTEX,
00050       T_FROM_VERTEX,
00051       T_MERGED
00052     };
00053 
00056     enum VertexType {
00057       ANY = 0,
00058       FAKE = 1,
00059       LOOPER = 2,
00060       NUCL = 10,
00061       NUCL_LOOSE = 11,
00062       NUCL_KINK = 12,
00063       CONVERSION = 20,
00064       CONVERSION_LOOSE = 21,
00065       CONVERTED_BREMM = 22,
00066       K0_DECAY = 30,
00067       LAMBDA_DECAY = 31,
00068       LAMBDABAR_DECAY = 32,
00069       KPLUS_DECAY = 40,
00070       KMINUS_DECAY = 41,
00071       KPLUS_DECAY_LOOSE = 42,
00072       KMINUS_DECAY_LOOSE = 43,
00073       BSM_VERTEX = 100
00074     };
00075 
00076 
00078     PFDisplacedVertex();
00079 
00081     PFDisplacedVertex(reco::Vertex&);
00082 
00084     void addElement( const TrackBaseRef & r, const Track & refTrack, 
00085                      const PFTrackHitFullInfo& hitInfo , 
00086                      VertexTrackType trackType = T_NOT_FROM_VERTEX, float w=1.0 );
00087 
00089     void cleanTracks();
00090     
00092     void setVertexType(VertexType vertexType) {vertexType_ = vertexType;}
00093 
00096     void setPrimaryDirection(const math::XYZPoint& pvtx);
00097 
00099     VertexType vertexType(){return vertexType_;}
00100 
00101     const std::vector < PFTrackHitFullInfo > trackHitFullInfos() const
00102       {return trackHitFullInfos_;}
00103 
00104     const std::vector <VertexTrackType> trackTypes() const
00105       {return trackTypes_;}
00106 
00107 
00109 
00111     const bool isTherePrimaryTracks() const 
00112     {return isThereKindTracks(T_TO_VERTEX);}
00113 
00115     const bool isThereMergedTracks() const
00116     {return isThereKindTracks(T_MERGED);}
00117 
00119     const bool isThereSecondaryTracks() const
00120     {return isThereKindTracks(T_FROM_VERTEX);}
00121 
00123     const bool isThereNotFromVertexTracks() const
00124     {return isThereKindTracks(T_NOT_FROM_VERTEX);}
00125 
00126 
00127 
00128 
00130     const bool isPrimaryTrack(const reco::TrackBaseRef& originalTrack) const 
00131     {
00132       size_t itrk = trackPosition(originalTrack);
00133       return isTrack(itrk, T_TO_VERTEX);
00134     }
00135 
00137     const bool isSecondaryTrack(const reco::TrackBaseRef& originalTrack) const 
00138     {
00139       size_t itrk = trackPosition(originalTrack);
00140       return isTrack(itrk, T_FROM_VERTEX);
00141     }
00142 
00144     const bool isMergedTrack(const reco::TrackBaseRef& originalTrack) const 
00145     {
00146       size_t itrk = trackPosition(originalTrack);
00147       return isTrack(itrk, T_MERGED);
00148     }
00149 
00150     const PFTrackHitFullInfo trackHitFullInfo(const reco::TrackBaseRef& originalTrack) const{
00151       size_t itrk = trackPosition(originalTrack);
00152       return trackHitFullInfos_[itrk];
00153     }
00154 
00155 
00156 
00158     const bool isIncomingTrack(const reco::TrackBaseRef& originalTrack) const 
00159     {
00160       size_t itrk = trackPosition(originalTrack);
00161       return isTrack(itrk, T_MERGED) || isTrack(itrk, T_TO_VERTEX);
00162     }
00163  
00165     const bool isOutgoingTrack(const reco::TrackBaseRef& originalTrack) const 
00166     {
00167       size_t itrk = trackPosition(originalTrack);
00168       return isTrack(itrk, T_FROM_VERTEX);    
00169     }
00170 
00171 
00173     const int nPrimaryTracks() const
00174     {return nKindTracks(T_TO_VERTEX);}
00175 
00177     const int nMergedTracks() const
00178     {return nKindTracks(T_MERGED);}
00179 
00181     const int nSecondaryTracks() const
00182     {return nKindTracks(T_FROM_VERTEX);}
00183 
00185     const int nNotFromVertexTracks() const
00186     {return nKindTracks(T_NOT_FROM_VERTEX);}
00187 
00189     const int nTracks() const {return trackTypes_.size();}
00190 
00191     //    const reco::VertexTrackType vertexTrackType(reco::TrackBaseRef tkRef) const;
00192 
00196     const math::XYZTLorentzVector 
00197       secondaryMomentum(std::string massHypo = "PI", 
00198                         bool useRefitted = true, double mass = 0.0) const 
00199       {return momentum(massHypo, T_FROM_VERTEX, useRefitted, mass);}
00200 
00202     const math::XYZTLorentzVector 
00203       primaryMomentum(std::string massHypo = "PI", 
00204                       bool useRefitted = true, double mass = 0.0) const
00205       {return momentum(massHypo, T_TO_VERTEX, useRefitted, mass);}
00206 
00207 
00208 
00212     const math::XYZTLorentzVector 
00213       secondaryMomentum(M_Hypo massHypo, 
00214                         bool useRefitted = true, double mass = 0.0) const 
00215       {return momentum(massHypo, T_FROM_VERTEX, useRefitted, mass);}
00216 
00218     const math::XYZTLorentzVector 
00219       primaryMomentum(M_Hypo massHypo, 
00220                       bool useRefitted = true, double mass = 0.0) const
00221       {return momentum(massHypo, T_TO_VERTEX, useRefitted, mass);}
00222 
00223 
00224     void calcKinematics(){
00225       defaultPrimaryMomentum_ = momentum("PI", T_TO_VERTEX, false, 0.0);
00226       defaultSecondaryMomentum_ = momentum("PI", T_FROM_VERTEX, true, 0.0);
00227     }
00228 
00229 
00230     const double secondaryPt() const 
00231       {return defaultPrimaryMomentum_.Pt();}
00232 
00234     const double primaryPt() const
00235       {return defaultSecondaryMomentum_.Pt();}
00236 
00237 
00238 
00240     const int totalCharge() const;
00241 
00244     const double angle_io() const;
00245 
00246 
00248     const math::XYZVector primaryDirection() const;
00249 
00250 
00251 
00252     bool isFake() const { return vertexType_ == FAKE;}
00253     bool isLooper() const { return vertexType_ ==  LOOPER;}
00254     bool isNucl() const { return vertexType_ ==  NUCL;}
00255     bool isNucl_Loose() const { return vertexType_ ==  NUCL_LOOSE;}
00256     bool isNucl_Kink() const { return vertexType_ ==   NUCL_KINK;}
00257     bool isConv() const { return vertexType_ ==   CONVERSION;}
00258     bool isConv_Loose() const { return vertexType_ ==   CONVERSION_LOOSE;}
00259     bool isConvertedBremm() const { return vertexType_ ==   CONVERTED_BREMM;}
00260     bool isK0() const { return vertexType_ ==   K0_DECAY;}
00261     bool isLambda() const { return vertexType_ ==   LAMBDA_DECAY;}
00262     bool isLambdaBar() const { return vertexType_ ==   LAMBDABAR_DECAY;}
00263     bool isKplus() const { return vertexType_ ==   KPLUS_DECAY;}
00264     bool isKminus() const { return vertexType_ ==   KMINUS_DECAY;}
00265     bool isKplus_Loose() const { return vertexType_ ==   KPLUS_DECAY_LOOSE;}
00266     bool isKminus_Loose() const { return vertexType_ ==   KMINUS_DECAY_LOOSE;}
00267     bool isBSM() const { return vertexType_ ==   BSM_VERTEX;}
00268 
00269 
00270     std::string nameVertexType() const;
00271 
00273     void Dump(std::ostream& out = std::cout) const;
00274 
00275   private:
00276 
00278 
00280     const bool isThereKindTracks(VertexTrackType) const;
00281 
00283     const int nKindTracks(VertexTrackType) const;
00284 
00286     const  math::XYZTLorentzVector momentum(std::string, 
00287                                             VertexTrackType,
00288                                             bool, double mass) const;
00289 
00291     const  math::XYZTLorentzVector momentum(M_Hypo massHypo, 
00292                                             VertexTrackType,
00293                                             bool, double mass) const;
00294 
00296     const double getMass2(M_Hypo, double) const;
00297 
00298     const size_t trackPosition(const reco::TrackBaseRef& originalTrack) const;
00299 
00300     const bool isTrack(size_t itrk, VertexTrackType T) const {
00301       return  trackTypes_[itrk] == T;
00302     }
00303 
00304 
00306 
00308     VertexType vertexType_;
00309 
00311     std::vector < VertexTrackType > trackTypes_;
00312 
00314     std::vector < PFTrackHitFullInfo > trackHitFullInfos_;
00315 
00316     math::XYZVector primaryDirection_;
00317 
00318     math::XYZTLorentzVector defaultPrimaryMomentum_;
00319     math::XYZTLorentzVector defaultSecondaryMomentum_;
00320 
00321     
00322   };
00323 }
00324 
00325 #endif
00326 
00327 
00328