#include <MuonMaker.h>

Public Member Functions
	MuonMaker (const edm::ParameterSet &, edm::ConsumesCollector)

void	SetVars (HWW &, const edm::Event &, const edm::EventSetup &)

Detailed Description

Definition at line 14 of file MuonMaker.h.

Constructor & Destructor Documentation

MuonMaker::MuonMaker	(	const edm::ParameterSet &	iConfig,
		edm::ConsumesCollector	iCollector
	)

Definition at line 11 of file MuonMaker.cc.

References edm::ConsumesCollector::consumes(), and edm::ParameterSet::getParameter().

                                                                                     {
 
   Muon_                     = iCollector.consumes<edm::View<reco::Muon> > (iConfig.getParameter<edm::InputTag>("muonsInputTag"));
   MuonShower_               = iCollector.consumes<edm::ValueMap<reco::MuonShower> > (iConfig.getParameter<edm::InputTag>("muonShower"));
   thePVCollection_          = iCollector.consumes<reco::VertexCollection>(iConfig.getParameter<edm::InputTag>("primaryVertexInputTag"));
   PFCandidateCollection_    = iCollector.consumes<reco::PFCandidateCollection>(iConfig.getParameter<edm::InputTag>("pfCandsInputTag"));
   BeamSpot_                 = iCollector.consumes<reco::BeamSpot>(iConfig.getParameter<edm::InputTag>("beamSpotTag"));
   MuonCollection_           = iCollector.consumes<reco::MuonCollection> (iConfig.getParameter<edm::InputTag>("muonsInputTag"));
 
 }

Member Function Documentation

void MuonMaker::SetVars	(	HWW &	hww,
		const edm::Event &	iEvent,
		const edm::EventSetup &	iSetup
	)

Definition at line 23 of file MuonMaker.cc.

Referenced by HWWAnalyzer::analyze().

                                                                                      {
 
   hww.Load_mus_sta_d0();
   hww.Load_mus_sta_z0corr();
   hww.Load_mus_sta_p4();
   hww.Load_mus_gfit_chi2();
   hww.Load_mus_gfit_ndof();
   hww.Load_mus_gfit_validSTAHits();
   hww.Load_mus_trkKink();
   hww.Load_mus_type();
   hww.Load_mus_goodmask();
   hww.Load_mus_charge();
   hww.Load_mus_nmatches();
   hww.Load_mus_caloCompatibility();
   hww.Load_mus_segmCompatibility();
   hww.Load_mus_p4();
   hww.Load_mus_numberOfMatchedStations();
   hww.Load_mus_pid_TMLastStationTight();
   hww.Load_mus_pid_PFMuon();
   hww.Load_mus_e_em();
   hww.Load_mus_e_had();
   hww.Load_mus_e_ho();
   hww.Load_mus_e_emS9();
   hww.Load_mus_e_hadS9();
   hww.Load_mus_e_hoS9();
   hww.Load_mus_iso_ecalvetoDep();
   hww.Load_mus_iso_hcalvetoDep();
   hww.Load_mus_iso03_sumPt();
   hww.Load_mus_iso03_emEt();
   hww.Load_mus_iso03_hadEt();
   hww.Load_mus_iso05_sumPt();
   hww.Load_mus_iso05_emEt();
   hww.Load_mus_iso05_hadEt();
   hww.Load_mus_trk_p4();
   hww.Load_mus_vertex_p4();
   hww.Load_mus_trkidx();
   hww.Load_mus_d0();
   hww.Load_mus_chi2();
   hww.Load_mus_ndof();
   hww.Load_mus_validHits();
   hww.Load_mus_ptErr();
   hww.Load_mus_isoR03_pf_ChargedHadronPt();
   hww.Load_mus_isoR03_pf_NeutralHadronEt();
   hww.Load_mus_isoR03_pf_PhotonEt();
   hww.Load_mus_isoR03_pf_PUPt();
 
   bool validToken;
 
   // Get Muons //
 
   Handle<View<Muon> > muon_h;
   validToken = iEvent.getByToken( Muon_ , muon_h );
   if(!validToken) return;
 
   
   // Get Muon Shower Information //
 
   Handle<ValueMap<MuonShower> > showerMap;
   validToken = iEvent.getByToken( MuonShower_ , showerMap );
   if(!validToken) return;
 
 
   // Get Vertices //
 
   edm::Handle<reco::VertexCollection> vertexHandle;
   validToken = iEvent.getByToken( thePVCollection_ , vertexHandle );  
   if(!validToken) return;
 
 
   // Get PF Candidates //
 
   edm::Handle<reco::PFCandidateCollection> pfCand_h;
   validToken = iEvent.getByToken( PFCandidateCollection_ , pfCand_h );
   if(!validToken) return;
 
 
   // Beamspot //
 
   Handle<reco::BeamSpot> beamspot_h;
   validToken = iEvent.getByToken(BeamSpot_, beamspot_h);
   if(!validToken) return;
   const reco::BeamSpot &beamSpotreco = *(beamspot_h.product());
   const Point beamSpot = Point(beamSpotreco.x0(), beamSpotreco.y0(), beamSpotreco.z0());
 
   
   // Cosmic Compatibility //
 
   Handle<MuonCollection> muons;
   validToken = iEvent.getByToken( MuonCollection_, muons );
   if(!validToken) return;
 
   // Muons // 
   
   unsigned int muonIndex = 0;
   View<Muon>::const_iterator muons_end = muon_h->end();  // Iterator
   for ( View<Muon>::const_iterator muon = muon_h->begin(); muon != muons_end; ++muon ) {
 
     // References
     const RefToBase<Muon>         muonRef                 = muon_h->refAt(muonIndex); 
     const TrackRef                globalTrack             = muon->globalTrack();
     const TrackRef                siTrack                 = muon->innerTrack();
     const TrackRef                staTrack                = muon->outerTrack();
     const MuonQuality             quality                 = muon->combinedQuality();
 
 
     // STA //
 
     hww.mus_sta_d0()            .push_back( staTrack.isNonnull()  ? staTrack->d0()                   :  -9999.        );
     hww.mus_sta_z0corr()        .push_back( staTrack.isNonnull()  ? staTrack->dz(beamSpot)           :  -9999.        );
     hww.mus_sta_p4()            .push_back( staTrack.isNonnull()  ? LorentzVector( staTrack->px() , staTrack->py() , staTrack->pz() , staTrack->p() ) : LorentzVector(0, 0, 0, 0) );
 
 
     // Global //
 
     hww.mus_gfit_chi2()         .push_back( globalTrack.isNonnull() ? globalTrack->chi2()               :  -9999.        );
     hww.mus_gfit_ndof()         .push_back( globalTrack.isNonnull() ? globalTrack->ndof()               :  -9999         );
     hww.mus_gfit_validSTAHits() .push_back( globalTrack.isNonnull() ? globalTrack->hitPattern().numberOfValidMuonHits()    : -9999         );
 
     // Muon Quality //
 
     hww.mus_trkKink()           .push_back( quality.trkKink             );
 
 
 
     // Calculate Overlaps
     int mus_overlap0 = -1, muInd = -1, mus_nOverlaps = 0;
     for ( View<Muon>::const_iterator muonJ = muon_h->begin(); muonJ != muons_end; ++muonJ ) {
       muInd++;
       if ( muonJ != muon ){
         if ( muon::overlap( *muon, *muonJ ) ) {
           if ( mus_overlap0 == -1) mus_overlap0 = muInd;
           mus_nOverlaps++;
         }
       }
     }
 
     // Calculate Muon position at ECAL
     math::XYZPoint ecal_p( -9999.0, -9999.0, -9999.0 );
     if( muon->isEnergyValid() ) ecal_p = muon->calEnergy().ecal_position;
 
     // Calculate Mask
     int goodMask = 0;
     for ( int iG = 0; iG < 24; ++iG ) { //overkill here
       if( isGoodMuon( *muon, (muon::SelectionType)iG ) ) goodMask |= (1<<iG);
     }
 
     
     // Muon Quantities //
 
     hww.mus_type()                    .push_back( muon->type()                                              );
     hww.mus_goodmask()                .push_back( goodMask                                                  );
     hww.mus_charge()                  .push_back( muon->charge()                                            );
     hww.mus_nmatches()                .push_back( muon->isMatchesValid() ? muon->numberOfMatches() :  -9999 );
     hww.mus_caloCompatibility()       .push_back( muon->caloCompatibility()                                 );
     hww.mus_segmCompatibility()       .push_back( muon::segmentCompatibility(*muon)                         );
     hww.mus_p4()                      .push_back( LorentzVector( muon->p4()                              )  );
     hww.mus_numberOfMatchedStations() .push_back( muon->numberOfMatchedStations()                            );
 
 
     // Muon Shower Information //
 
     const MuonShower muShower = showerMap.isValid() ? (*showerMap)[muonRef] : MuonShower();
 
 
     // ID //
 
     bool matchIsValid = muon->isMatchesValid();
 
     hww.mus_pid_TMLastStationTight()     .push_back( matchIsValid ? muon::isGoodMuon( *muon, muon::TMLastStationTight     ) : -9999  );
     hww.mus_pid_PFMuon()                 .push_back( muon->isPFMuon() );
 
     // Energy //
 
     bool energyIsValid = muon->isEnergyValid();
 
     hww.mus_e_em()               .push_back( energyIsValid ? muon->calEnergy().em                                 :  -9999.       );
     hww.mus_e_had()              .push_back( energyIsValid ? muon->calEnergy().had                                :  -9999.       );
     hww.mus_e_ho()               .push_back( energyIsValid ? muon->calEnergy().ho                                 :  -9999.       );
     hww.mus_e_emS9()             .push_back( energyIsValid ? muon->calEnergy().emS9                               :  -9999.       );
     hww.mus_e_hadS9()            .push_back( energyIsValid ? muon->calEnergy().hadS9                              :  -9999.       );
     hww.mus_e_hoS9()             .push_back( energyIsValid ? muon->calEnergy().hoS9                               :  -9999.       );
 
 
     // Isolation //
 
     hww.mus_iso_ecalvetoDep()    .push_back( muon->isEnergyValid()    ? muon->isolationR03().emVetoEt       : -9999.        );
     hww.mus_iso_hcalvetoDep()    .push_back( muon->isEnergyValid()    ? muon->isolationR03().hadVetoEt      : -9999.        );
     hww.mus_iso03_sumPt()        .push_back( muon->isIsolationValid() ? muon->isolationR03().sumPt          : -9999.        );
     hww.mus_iso03_emEt()         .push_back( muon->isIsolationValid() ? muon->isolationR03().emEt           : -9999.        );
     hww.mus_iso03_hadEt()        .push_back( muon->isIsolationValid() ? muon->isolationR03().hadEt          : -9999.        );
     hww.mus_iso05_sumPt()        .push_back( muon->isIsolationValid() ? muon->isolationR05().sumPt          : -9999.        );
     hww.mus_iso05_emEt()         .push_back( muon->isIsolationValid() ? muon->isolationR05().emEt           : -9999.        );
     hww.mus_iso05_hadEt()        .push_back( muon->isIsolationValid() ? muon->isolationR05().hadEt          : -9999.        );
 
     // Tracks //
 
     hww.mus_trk_p4()             .push_back( siTrack.isNonnull()     ? LorentzVector( siTrack.get()->px() , siTrack.get()->py() , siTrack.get()->pz() , siTrack.get()->p() ) : LorentzVector(     0.0,     0.0,     0.0,     0.0) );
     hww.mus_vertex_p4()          .push_back( siTrack.isNonnull()     ? LorentzVector( siTrack->vx()       , siTrack->vy()       , siTrack->vz()       , 0.0                ) : LorentzVector( -9999.0, -9999.0, -9999.0, -9999.0) );
     hww.mus_trkidx()             .push_back( siTrack.isNonnull()     ? static_cast<int>(siTrack.key())                      : -9999         );
     hww.mus_d0()                 .push_back( siTrack.isNonnull()     ? siTrack->d0()                                        : -9999.        );
     hww.mus_chi2()               .push_back( siTrack.isNonnull()     ? siTrack->chi2()                                      : -9999.        );
     hww.mus_ndof()               .push_back( siTrack.isNonnull()     ? siTrack->ndof()                                      : -9999.        );
     hww.mus_validHits()          .push_back( siTrack.isNonnull()     ? siTrack->numberOfValidHits()                         : -9999         );
     hww.mus_ptErr()              .push_back( siTrack.isNonnull()     ? siTrack->ptError()                                   : -9999.        );
 
 
     // PF //
 
     MuonPFIsolation pfStructR03 = muon->pfIsolationR03();
 
     hww.mus_isoR03_pf_ChargedHadronPt()                 .push_back( pfStructR03.sumChargedHadronPt              );
     hww.mus_isoR03_pf_NeutralHadronEt()                 .push_back( pfStructR03.sumNeutralHadronEt              );
     hww.mus_isoR03_pf_PhotonEt()                        .push_back( pfStructR03.sumPhotonEt                     );
     hww.mus_isoR03_pf_PUPt()                            .push_back( pfStructR03.sumPUPt                         );
 
 
     muonIndex++;
 
   } // end loop on muons
 
 } 

Member Data Documentation

edm::EDGetTokenT<reco::BeamSpot> MuonMaker::BeamSpot_

private

Definition at line 27 of file MuonMaker.h.

edm::EDGetTokenT<edm::View<reco::Muon> > MuonMaker::Muon_

private

Definition at line 23 of file MuonMaker.h.

edm::EDGetTokenT<reco::MuonCollection> MuonMaker::MuonCollection_

private

Definition at line 28 of file MuonMaker.h.

edm::EDGetTokenT<edm::ValueMap<reco::MuonShower> > MuonMaker::MuonShower_

private

Definition at line 24 of file MuonMaker.h.

edm::EDGetTokenT<reco::PFCandidateCollection> MuonMaker::PFCandidateCollection_

private

Definition at line 26 of file MuonMaker.h.

edm::EDGetTokenT<reco::VertexCollection> MuonMaker::thePVCollection_

private

Definition at line 25 of file MuonMaker.h.

Private Attributes
edm::EDGetTokenT< reco::BeamSpot >	BeamSpot_

edm::EDGetTokenT< edm::View < reco::Muon > >	Muon_

edm::EDGetTokenT < reco::MuonCollection >	MuonCollection_

edm::EDGetTokenT < edm::ValueMap < reco::MuonShower > >	MuonShower_

edm::EDGetTokenT < reco::PFCandidateCollection >	PFCandidateCollection_

edm::EDGetTokenT < reco::VertexCollection >	thePVCollection_

Public Member Functions

Private Attributes

Detailed Description

Constructor & Destructor Documentation

Member Function Documentation

Member Data Documentation