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/data/refman/pasoursint/CMSSW_5_3_9_patch3/src/DataFormats/PatCandidates/interface/GenericParticle.h

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00001 //
00002 // $Id: GenericParticle.h,v 1.9 2010/03/02 21:02:46 rwolf Exp $
00003 //
00004 
00005 #ifndef DataFormats_PatCandidates_GenericParticle_h
00006 #define DataFormats_PatCandidates_GenericParticle_h
00007 
00019 #include "DataFormats/PatCandidates/interface/PATObject.h"
00020 #include "DataFormats/RecoCandidate/interface/RecoCandidate.h"
00021 #include "DataFormats/EgammaReco/interface/SuperClusterFwd.h"
00022 #include "DataFormats/EgammaReco/interface/SuperCluster.h"
00023 #include "DataFormats/GsfTrackReco/interface/GsfTrackFwd.h"
00024 #include "DataFormats/GsfTrackReco/interface/GsfTrack.h"
00025 #include "DataFormats/PatCandidates/interface/Isolation.h"
00026 #include "DataFormats/PatCandidates/interface/Vertexing.h"
00027 #include "DataFormats/HepMCCandidate/interface/GenParticle.h"
00028 
00029 // Define typedefs for convenience
00030 namespace pat {
00031   class GenericParticle;
00032   typedef std::vector<GenericParticle>              GenericParticleCollection; 
00033   typedef edm::Ref<GenericParticleCollection>       GenericParticleRef; 
00034   typedef edm::RefVector<GenericParticleCollection> GenericParticleRefVector; 
00035 }
00036 
00037 
00038 // Class definition
00039 namespace pat {
00040 
00041 
00042   class GenericParticle : public PATObject<reco::RecoCandidate> {
00043 
00044     public:
00045 
00047       GenericParticle();
00049       GenericParticle(const reco::Candidate & aGenericParticle);
00051       GenericParticle(const edm::RefToBase<reco::Candidate> & aGenericParticleRef);
00053       GenericParticle(const edm::Ptr<reco::Candidate> & aGenericParticleRef);
00055       virtual ~GenericParticle();
00056 
00058       virtual GenericParticle * clone() const { return new GenericParticle(*this); }
00059 
00064       virtual bool overlap( const Candidate & ) const ;
00065 
00068       virtual reco::TrackRef track() const    { return track_.empty() ? trackRef_ : reco::TrackRef(&track_, 0); }
00071       virtual reco::TrackRef track( size_t idx ) const {  
00072             if (idx >= numberOfTracks()) throw cms::Exception("Index out of bounds") << "Requested track " << idx << " out of " << numberOfTracks() << ".\n";
00073             return (tracks_.empty() ? trackRefs_[idx] : reco::TrackRef(&tracks_, idx) );
00074       }
00076       virtual size_t numberOfTracks() const { return tracks_.empty() ? trackRefs_.size() : tracks_.size(); }
00079       virtual reco::GsfTrackRef gsfTrack() const    { return (gsfTrack_.empty() ? gsfTrackRef_ : reco::GsfTrackRef(&gsfTrack_, 0)); }
00082       virtual reco::TrackRef standAloneMuon() const { return (standaloneTrack_.empty() ? standaloneTrackRef_ : reco::TrackRef(&standaloneTrack_, 0)); }
00085       virtual reco::TrackRef combinedMuon()   const { return (combinedTrack_.empty() ? combinedTrackRef_ : reco::TrackRef(&combinedTrack_, 0)); }
00088       virtual reco::SuperClusterRef superCluster() const { return superCluster_.empty() ? superClusterRef_ : reco::SuperClusterRef(&superCluster_, 0); }
00091       virtual CaloTowerRef caloTower() const { return caloTower_.empty() ? caloTowerRef_ : CaloTowerRef(&caloTower_, 0); }
00092 
00094       virtual void setTrack(const reco::TrackRef &ref, bool embed=false) ;
00096       virtual void setTracks(const reco::TrackRefVector &refs, bool embed=false) ;
00098       virtual void setStandAloneMuon(const reco::TrackRef &ref, bool embed=false) ;
00100       virtual void setCombinedMuon(const reco::TrackRef &ref, bool embed=false) ;
00102       virtual void setGsfTrack(const reco::GsfTrackRef &ref, bool embed=false) ;
00104       virtual void setSuperCluster(const reco::SuperClusterRef &ref, bool embed=false) ;
00106       virtual void setCaloTower(const CaloTowerRef &ref, bool embed=false) ;
00107 
00109       void embedTrack() ; 
00111       void embedTracks() ; 
00113       void embedStandalone() ; 
00115       void embedCombined() ; 
00117       void embedGsfTrack() ; 
00119       void embedSuperCluster() ; 
00121       void embedCaloTower() ; 
00122 
00124       float quality() { return quality_; }
00126       void setQuality(float quality) { quality_ = quality; }
00127       
00128       //============ BEGIN ISOLATION BLOCK =====
00131       float userIsolation(IsolationKeys key) const { 
00132           if (key >= 0) {
00133               //if (key >= isolations_.size()) throw cms::Excepton("Missing Data") 
00134               //<< "Isolation corresponding to key " 
00135               //<< key << " was not stored for this particle.";
00136               if (size_t(key) >= isolations_.size()) return -1.0;
00137               return isolations_[key];
00138           } else switch (key) {
00139           case pat::CaloIso:  
00140             //if (isolations_.size() <= pat::HcalIso) throw cms::Excepton("Missing Data") 
00141             //<< "CalIsoo Isolation was not stored for this particle.";
00142             if (isolations_.size() <= pat::HcalIso) return -1.0; 
00143             return isolations_[pat::EcalIso] + isolations_[pat::HcalIso];
00144           default:
00145             return -1.0;
00146             //throw cms::Excepton("Missing Data") << "Isolation corresponding to key " 
00147             //<< key << " was not stored for this particle.";
00148           }
00149       }
00154       float userIsolation(const std::string& key) const {
00155         // remove leading namespace specifier
00156         std::string prunedKey = ( key.find("pat::") == 0 ) ? std::string(key, 5) : key;
00157         if ( prunedKey == "TrackIso" ) return userIsolation(pat::TrackIso);
00158         if ( prunedKey == "EcalIso" ) return userIsolation(pat::EcalIso);
00159         if ( prunedKey == "HcalIso" ) return userIsolation(pat::HcalIso);
00160         if ( prunedKey == "PfAllParticleIso" ) return userIsolation(pat::PfAllParticleIso);
00161         if ( prunedKey == "PfChargedHadronIso" ) return userIsolation(pat::PfChargedHadronIso);
00162         if ( prunedKey == "PfNeutralHadronIso" ) return userIsolation(pat::PfNeutralHadronIso);
00163         if ( prunedKey == "PfGammaIso" ) return userIsolation(pat::PfGammaIso);
00164         if ( prunedKey == "User1Iso" ) return userIsolation(pat::User1Iso);
00165         if ( prunedKey == "User2Iso" ) return userIsolation(pat::User2Iso);
00166         if ( prunedKey == "User3Iso" ) return userIsolation(pat::User3Iso);
00167         if ( prunedKey == "User4Iso" ) return userIsolation(pat::User4Iso);
00168         if ( prunedKey == "User5Iso" ) return userIsolation(pat::User5Iso);
00169         if ( prunedKey == "UserBaseIso" ) return userIsolation(pat::UserBaseIso);
00170         if ( prunedKey == "CaloIso" ) return userIsolation(pat::CaloIso);
00171         //throw cms::Excepton("Missing Data")
00172         //<< "Isolation corresponding to key " 
00173         //<< key << " was not stored for this particle.";
00174         return -1.0;
00175       }
00178       void setIsolation(IsolationKeys key, float value) {
00179           if (key >= 0) {
00180               if (size_t(key) >= isolations_.size()) isolations_.resize(key+1, -1.0);
00181               isolations_[key] = value;
00182           } else {
00183               throw cms::Exception("Illegal Argument") << 
00184                   "The key for which you're setting isolation does not correspond " <<
00185                   "to an individual isolation but to the sum of more independent isolations " <<
00186                   "(e.g. Calo = Ecal + Hcal), so you can't SET the value, just GET it.\n" <<
00187                   "Please set up each component independly.\n";
00188           }
00189       }
00190 
00191       // ---- specific getters ----
00194       float trackIso() const { return userIsolation(pat::TrackIso); }
00198       float caloIso()  const { return userIsolation(pat::CaloIso); }
00201       float ecalIso()  const { return userIsolation(pat::EcalIso); }
00204       float hcalIso()  const { return userIsolation(pat::HcalIso); }
00205 
00206       // ---- specific setters ----
00208       void setTrackIso(float trackIso) { setIsolation(pat::TrackIso, trackIso); }
00210       void setEcalIso(float caloIso)   { setIsolation(pat::EcalIso, caloIso);  } 
00212       void setHcalIso(float caloIso)   { setIsolation(pat::HcalIso, caloIso);  }
00214       void setUserIso(float value, uint8_t index=0)  { setIsolation(IsolationKeys(UserBaseIso + index), value); }
00215 
00216 
00217       //============ BEGIN ISODEPOSIT BLOCK =====
00219       const IsoDeposit * isoDeposit(IsolationKeys key) const {
00220           for (IsoDepositPairs::const_iterator it = isoDeposits_.begin(), ed = isoDeposits_.end(); 
00221                   it != ed; ++it) 
00222           {
00223               if (it->first == key) return & it->second;
00224           }
00225           return 0;
00226       } 
00227 
00229       void setIsoDeposit(IsolationKeys key, const IsoDeposit &dep) {
00230           IsoDepositPairs::iterator it = isoDeposits_.begin(), ed = isoDeposits_.end();
00231           for (; it != ed; ++it) {
00232               if (it->first == key) { it->second = dep; return; }
00233           }
00234           isoDeposits_.push_back(std::make_pair(key,dep));
00235       } 
00236 
00237       // ---- specific getters ----
00238       const IsoDeposit * trackIsoDeposit() const { return isoDeposit(pat::TrackIso); }
00239       const IsoDeposit * ecalIsoDeposit()  const { return isoDeposit(pat::EcalIso ); }
00240       const IsoDeposit * hcalIsoDeposit()  const { return isoDeposit(pat::HcalIso ); }
00241       const IsoDeposit * userIsoDeposit(uint8_t index=0) const { return isoDeposit(IsolationKeys(UserBaseIso + index)); }
00242 
00243       // ---- specific setters ----
00244       void trackIsoDeposit(const IsoDeposit &dep) { setIsoDeposit(pat::TrackIso, dep); }
00245       void ecalIsoDeposit(const IsoDeposit &dep)  { setIsoDeposit(pat::EcalIso,  dep); }
00246       void hcalIsoDeposit(const IsoDeposit &dep)  { setIsoDeposit(pat::HcalIso,  dep); }
00247       void userIsoDeposit(const IsoDeposit &dep, uint8_t index=0) { setIsoDeposit(IsolationKeys(UserBaseIso + index), dep); }
00248 
00250       const pat::VertexAssociation              * vertexAssociation(size_t index=0) const { return vtxAss_.size() > index ? & vtxAss_[index] : 0; }
00252       const std::vector<pat::VertexAssociation> & vertexAssociations()              const { return vtxAss_; }
00254       void  setVertexAssociation(const pat::VertexAssociation &assoc)  { vtxAss_ = std::vector<pat::VertexAssociation>(1, assoc); }
00256       void  setVertexAssociations(const std::vector<pat::VertexAssociation> &assocs) { vtxAss_ = assocs; }
00257     protected:
00258       // Any sort of single tracks
00259       reco::TrackRef           trackRef_, standaloneTrackRef_, combinedTrackRef_; // ref
00260       reco::TrackCollection    track_,    standaloneTrack_,    combinedTrack_;    // embedded
00261 
00262       // GsfTrack
00263       reco::GsfTrackRef        gsfTrackRef_; // normal
00264       reco::GsfTrackCollection gsfTrack_;    // embedded
00265 
00266       // CaloTower
00267       CaloTowerRef           caloTowerRef_;    // ref
00268       CaloTowerCollection    caloTower_;       // embedded
00269 
00270       // SuperCluster
00271       reco::SuperClusterRef        superClusterRef_; // ref
00272       reco::SuperClusterCollection superCluster_;    // embedded
00273 
00274       // Multiple tracks
00275       reco::TrackRefVector  trackRefs_; // by ref
00276       reco::TrackCollection tracks_;    // embedded
00277 
00278       // information originally in external branches
00279       // some quality variable
00280       float quality_;
00281 
00282       // --- Isolation and IsoDeposit related datamebers ---
00283       typedef std::vector<std::pair<IsolationKeys, pat::IsoDeposit> > IsoDepositPairs;
00284       IsoDepositPairs    isoDeposits_;
00285       std::vector<float> isolations_;
00286 
00287       // --- Vertexing information
00288       std::vector<pat::VertexAssociation> vtxAss_;
00289 
00290       void fillInFrom(const reco::Candidate &cand); 
00291     
00292   };
00293 
00294 
00295 }
00296 
00297 #endif