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/data/refman/pasoursint/CMSSW_5_3_0/src/HiggsAnalysis/Skimming/src/HiggsToZZ4LeptonsSkimEff.cc

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00001 
00002 /* \class HiggsTo4LeptonsSkimEff 
00003  *
00004  * Consult header file for description
00005  *
00006  * author:  Dominique Fortin - UC Riverside
00007  *
00008  */
00009 
00010 
00011 // system include files
00012 #include <HiggsAnalysis/Skimming/interface/HiggsToZZ4LeptonsSkimEff.h>
00013 
00014 // User include files
00015 #include <FWCore/ParameterSet/interface/ParameterSet.h>
00016 
00017 // Muons:
00018 #include <DataFormats/TrackReco/interface/Track.h>
00019 
00020 // Electrons
00021 #include "DataFormats/EgammaCandidates/interface/GsfElectron.h"
00022 #include "DataFormats/EgammaCandidates/interface/GsfElectronFwd.h"
00023 
00024 // Candidate handling
00025 #include "DataFormats/Candidate/interface/Candidate.h"
00026 #include "DataFormats/Candidate/interface/CandMatchMap.h"
00027 #include "DataFormats/Common/interface/AssociationVector.h"
00028 #include "DataFormats/HepMCCandidate/interface/GenParticle.h"
00029 
00030 
00031 // C++
00032 #include <iostream>
00033 #include <vector>
00034 
00035 using namespace std;
00036 using namespace edm;
00037 using namespace reco;
00038 
00039 
00040 // Constructor
00041 HiggsToZZ4LeptonsSkimEff::HiggsToZZ4LeptonsSkimEff(const edm::ParameterSet& pset) {
00042 
00043   // Local Debug flag
00044   debug              = pset.getParameter<bool>("DebugHiggsToZZ4LeptonsSkim");
00045 
00046   // Reconstructed objects
00047   recTrackLabel      = pset.getParameter<edm::InputTag>("RecoTrackLabel");
00048   theGLBMuonLabel    = pset.getParameter<edm::InputTag>("GlobalMuonCollectionLabel");
00049   thePixelGsfELabel  = pset.getParameter<edm::InputTag>("ElectronCollectionLabel");
00050 
00051   // Minimum Pt for leptons for skimming
00052   // Minimum Pt for leptons for skimming
00053   stiffMinPt         = pset.getParameter<double>("stiffMinimumPt");
00054   softMinPt          = pset.getParameter<double>("softMinimumPt");
00055   nStiffLeptonMin    = pset.getParameter<int>("nStiffLeptonMinimum");
00056   nLeptonMin         = pset.getParameter<int>("nLeptonMinimum");
00057 
00058   nEvents   = 0;
00059   nSelFourE = nSelFourM = nSelTwoETwoM = nSelFourL = nSelTau = 0;
00060   nFourE    = nFourM    = nTwoETwoM    = nFourL    = nTau    = 0;
00061 
00062 }
00063 
00064 
00065 // Destructor
00066 HiggsToZZ4LeptonsSkimEff::~HiggsToZZ4LeptonsSkimEff() {
00067 
00068   std::cout << "Number of events read " << nEvents << std::endl;
00069   std::cout << "*** Efficiency for the various subsamples *** " <<  endl;
00070 
00071   std::cout << "Four leptons: " 
00072   << " pres "    << nFourL         
00073   << " kept "    << nSelFourL
00074   << " eff  "    << ((double)nSelFourL)/((double) nFourL + 0.0001) << std::endl;
00075   std::cout << "Four muons:   "
00076   << " pres "    << nFourM         
00077   << " kept "    << nSelFourM
00078   << " eff  "    << ((double)nSelFourM)/((double) nFourM + 0.0001) << std::endl;
00079   std::cout << "Four elecs:   "
00080   << " pres "    << nFourE         
00081   << " kept "    << nSelFourE
00082   << " eff  "    << ((double)nSelFourE)/((double) nFourE + 0.0001) << std::endl;
00083   std::cout << "2 elec 2 mu:  "
00084   << " pres "    << nTwoETwoM   
00085   << " kept "    << nSelTwoETwoM
00086   << " eff  "    << ((double)nSelTwoETwoM)/((double) nTwoETwoM + 0.0001) << std::endl;
00087   std::cout << "with taus:    "
00088   << " pres "    << nTau     
00089   << " kept "    << nSelTau
00090   << " eff  "    << ((double)nSelTau)/((double) nTau + 0.0001) << std::endl;
00091 
00092 }
00093 
00094 
00095 
00096 // Filter event
00097 void HiggsToZZ4LeptonsSkimEff::analyze(const edm::Event& event, const edm::EventSetup& setup ) {
00098 
00099   nEvents++;
00100 
00101   using reco::TrackCollection;
00102 
00103   bool keepEvent   = false;
00104 
00105   // First, pre-selection:
00106   int nMuon = 0;
00107   int nElec = 0;
00108   int nTau  = 0;
00109 
00110   bool isFourE = false;
00111   bool isFourM = false;
00112   bool isTwoETwoM = false;
00113   bool isFourL = false;
00114   bool isTau = false;
00115 
00116   // get gen particle candidates
00117   edm::Handle<CandidateCollection> genCandidates;
00118   event.getByLabel("genParticleCandidates", genCandidates);
00119 
00120   for ( CandidateCollection::const_iterator mcIter=genCandidates->begin(); mcIter!=genCandidates->end(); ++mcIter ) {
00121 
00122     // Muons:
00123     if ( mcIter->pdgId() == 13 || mcIter->pdgId() == -13) {
00124       // Mother is a Z
00125       if ( mcIter->mother()->pdgId() == 23 ) {
00126        // In fiducial volume:
00127         if ( mcIter->eta() > -2.4 && mcIter->eta() < 2.4 ) nMuon++;
00128       }
00129     }
00130     // Electrons:
00131     if ( mcIter->pdgId() == 11 || mcIter->pdgId() == -11) {
00132       // Mother is a Z
00133       if ( mcIter->mother()->pdgId() == 23 ) {
00134         // In fiducial volume:
00135         if ( mcIter->eta() > -2.5 && mcIter->eta() < 2.5 ) nElec++;
00136       }
00137     }
00138     // Taus:
00139     if ( mcIter->pdgId() == 15 || mcIter->pdgId() == -15) {
00140       // Mother is a Z
00141       if ( mcIter->mother()->pdgId() == 23 ) {
00142         // In fiducial volume:
00143         if ( mcIter->eta() > -2.5 && mcIter->eta() < 2.5 ) nTau++;
00144       }
00145     }
00146 
00147   }
00148    
00149     if (nElec > 3) {
00150       isFourE = true;
00151       nFourE++;
00152     }
00153     if (nMuon > 3) {
00154       isFourM = true;
00155       nFourM++;
00156     }
00157     if (nMuon > 1 && nElec > 1) {
00158       isTwoETwoM = true;
00159       nTwoETwoM++;
00160     }
00161     if ( isFourE || isFourM || isTwoETwoM ) {
00162       isFourL = true;
00163       nFourL++;
00164     }
00165     if (nTau > 1) {
00166       isTau = true;
00167       nTau++;
00168     }
00169 
00170   if ( isFourL ) {
00171     keepEvent = true;
00172   } else {
00173     return;
00174   }
00175 
00176 
00177   int  nStiffLeptons = 0;
00178   int  nLeptons      = 0;
00179 
00180   // First look at muons:
00181 
00182   // Get the muon track collection from the event
00183   edm::Handle<reco::TrackCollection> muTracks;
00184   event.getByLabel(theGLBMuonLabel.label(), muTracks);
00185  
00186   if ( muTracks.isValid() ) {   
00187     reco::TrackCollection::const_iterator muons;
00188         
00189     // Loop over muon collections and count how many muons there are, 
00190     // and how many are above threshold
00191     for ( muons = muTracks->begin(); muons != muTracks->end(); ++muons ) {
00192       float pt_mu =  muons->pt();
00193       if ( pt_mu > stiffMinPt ) nStiffLeptons++; 
00194       if ( pt_mu > softMinPt ) nLeptons++; 
00195     }  
00196   } 
00197   
00198 
00199   // Now look at electrons:
00200 
00201   // Get the electron track collection from the event
00202   edm::Handle<reco::GsfElectronCollection> pTracks;
00203   event.getByLabel(thePixelGsfELabel.label(),pTracks);
00204 
00205   if ( pTracks.isValid() ) { 
00206 
00207     const reco::GsfElectronCollection* eTracks = pTracks.product();
00208 
00209     reco::GsfElectronCollection::const_iterator electrons;
00210 
00211     // Loop over electron collections and count how many muons there are, 
00212     // and how many are above threshold
00213     for ( electrons = eTracks->begin(); electrons != eTracks->end(); ++electrons ) {
00214       float pt_e = electrons->pt(); 
00215       if ( pt_e > stiffMinPt ) nStiffLeptons++; 
00216       if ( pt_e > softMinPt ) nLeptons++; 
00217     }
00218   }
00219 
00220   
00221   // Make decision:
00222   if ( nStiffLeptons >= nStiffLeptonMin && nLeptons >= nLeptonMin) {
00223     keepEvent = true;
00224   } else {
00225     keepEvent = false;
00226   }
00227 
00228   if ( keepEvent ) {
00229     if (isFourE)    nSelFourE++;
00230     if (isFourM)    nSelFourM++;
00231     if (isTwoETwoM) nSelTwoETwoM++;
00232     if (isFourL)    nSelFourL++;
00233     if (isTau)      nSelTau++;
00234   }
00235 
00236 }