#include <HLTHiggsTruth.h>
$Date: November 2006 $Revision:
Definition at line 56 of file HLTHiggsTruth.h.
HLTHiggsTruth::HLTHiggsTruth | ( | ) |
Definition at line 14 of file HLTHiggsTruth.cc.
References _Debug, _Monte, isElecDecay_recoacc, isEMuDecay_recoacc, isMuonDecay_recoacc, isPhotonDecay_acc, isPhotonDecay_recoacc, isTauDecay_acc, isTauDecay_recoacc, isvisible, and isvisible_reco.
{ //set parameter defaults _Monte=false; _Debug=false; isvisible=false; // isMuonDecay=false; // isElecDecay=false; //isEMuDecay=false; // isPhotonDecay=false; // isMuonDecay_acc=false; // isElecDecay_acc=false; // isEMuDecay_acc=false; isPhotonDecay_acc=false; isTauDecay_acc =false; isMuonDecay_recoacc=false; isElecDecay_recoacc=false; isEMuDecay_recoacc=false; isPhotonDecay_recoacc=false; isTauDecay_recoacc =false; isvisible_reco= false; }
void HLTHiggsTruth::analyzeA2mu | ( | const reco::CandidateView & | mctruth, |
TTree * | tree | ||
) |
Definition at line 418 of file HLTHiggsTruth.cc.
References _Monte, abs, gather_cfg::cout, reco::Candidate::eta(), i, isvisible, AlCaHLTBitMon_ParallelJobs::p, reco::Candidate::pdgId(), evf::utils::pid, reco::Candidate::pt(), edm::View< T >::size(), ntuplemaker::status, and reco::Candidate::status().
{ if (_Monte) { int nmuons=0; if (&mctruth){ for (size_t i = 0; i < mctruth.size(); ++ i) { const reco::Candidate & p = (mctruth)[i]; int status = p.status(); if (status==1) { int pid=p.pdgId(); bool ismuon = std::abs(pid)==13; bool inacceptance = (std::abs(p.eta()) < 2.4); bool aboveptcut = (p.pt() > 3.0); if (inacceptance && aboveptcut && ismuon) { if (nmuons==0) { nmuons=int(pid/std::abs(pid)); } else if (pid<0 && nmuons==1) { nmuons=2; } else if (pid>0 && nmuons==-1) { nmuons=2; } } } } // request 2 opposite charge muons isvisible = nmuons==2; } else {std::cout << "%HLTHiggsTruth -- No MC truth information" << std::endl;} // std::cout << "nmuons = " << nmuons << " " << isvisible_2mu << std::endl; } }
void HLTHiggsTruth::analyzeH2tau | ( | const reco::CandidateView & | mctruth, |
TTree * | tree | ||
) |
semileptonic decay study H->2tau, tau->mu & tau->had
H->2tau, tau->el & tau->had
Definition at line 450 of file HLTHiggsTruth.cc.
References _Monte, gather_cfg::cout, EtaElFromTau, etaElMax, EtaMuFromTau, etaMuMax, i, isElecDecay_recoacc, isMuonDecay_recoacc, LeptonicTauDecay(), AlCaHLTBitMon_ParallelJobs::p, reco::Candidate::pdgId(), evf::utils::pid, PtElFromTau, ptElMax, PtMuFromTau, ptMuMax, edm::View< T >::size(), ntuplemaker::status, and reco::Candidate::status().
Referenced by HLTHiggsBits::analyze().
{ if (_Monte) { // int ntaus=0; int ngentau=0; int itauel=0; int itauelaccept=0; int itaumu=0; int itaumuaccept=0; //int itauq=0; std::vector<double> ptMuFromTau_,ptElFromTau_; std::vector<double> etaMuFromTau_,etaElFromTau_; if (&mctruth){ for (size_t i = 0; i < mctruth.size(); ++ i) { const reco::Candidate & p = (mctruth)[i]; int status = p.status(); int pid=p.pdgId(); //========== if (status==3 && fabs(pid)==15) { ngentau++; bool elecdec = false, muondec = false; LeptonicTauDecay(p, elecdec, muondec); if (elecdec) { itauel++; if (PtElFromTau > 15 && fabs(EtaElFromTau)<2.4) { itauelaccept++; // keep electrons from tau decay with pt>15 ptElFromTau_.push_back(PtElFromTau); etaElFromTau_.push_back(EtaElFromTau); } } if (muondec) { itaumu++; if (PtMuFromTau>15 && fabs(EtaMuFromTau)<2.4) { itaumuaccept++; // keep muons from tau decay with pt>15 ptMuFromTau_.push_back(PtMuFromTau); etaMuFromTau_.push_back(EtaMuFromTau); } } } } /* //=============== if (status==1 || status==2) { bool istau = std::abs(pid)==15; bool inacceptance = (fabs(p.eta()) < 2.4); bool aboveptcut = (p.pt() > 20.0); if (inacceptance && aboveptcut && istau) { if (ntaus==0) { ntaus=int(pid/std::abs(pid)); } else if (pid<0 && ntaus==1) { ntaus=2; } else if (pid>0 && ntaus==-1) { ntaus=2; } } } } // request 2 opposite charge taus isvisible = ntaus==2; */ int iTauQ = ngentau - itauel - itaumu; if (ngentau==2 && itaumu==1 && iTauQ==1 && itaumuaccept==1){ //H->tautau->muq isMuonDecay_recoacc=true; ptMuMax = ptMuFromTau_[0]; // ptMuMin = 0.; etaMuMax = etaMuFromTau_[0]; // etaMuMin = 0.; } else {isMuonDecay_recoacc=false;} if (ngentau==2 && itauel==1 && iTauQ==1 && itauelaccept==1){ //H->tautau->eq // if (ngentau==2 && itauel==2 && itauelaccept==2){ // dileptonic case isElecDecay_recoacc=true; ptElMax=ptElFromTau_[0]; // ptElMin=0.; etaElMax=etaElFromTau_[0]; // etaElMin=0.; } else { isElecDecay_recoacc=false;} } else {std::cout << "%HLTHiggsTruth -- No MC truth information" << std::endl;} // std::cout << "ntaus = " << ntaus << " " << isvisible << std::endl; } }
void HLTHiggsTruth::analyzeHgg | ( | const reco::CandidateView & | mctruth, |
const reco::PhotonCollection & | photonHandle, | ||
TTree * | tree | ||
) |
Definition at line 372 of file HLTHiggsTruth.cc.
References _Monte, eta(), i, isPhotonDecay_acc, isvisible_reco, Photon1, and Photon2.
Referenced by HLTHiggsBits::analyze().
{ if (_Monte) { // int nphotons=0; std::map<double,reco::Photon> photonMap; // if (&mctruth){ //keep reco photons with pt>20, eta<2.4 for (size_t i = 0; i < photonHandle.size(); ++ i) { if ( (photonHandle)[i].pt()>20 && fabs((photonHandle)[i].eta())<2.4 ){ photonMap[(photonHandle)[i].pt()]= (photonHandle)[i]; } } std::vector<reco::Photon> selected_photons; for( std::map<double,reco::Photon>::reverse_iterator rit=photonMap.rbegin(); rit!=photonMap.rend(); ++rit){ selected_photons.push_back( (*rit).second ); } // request 2 photons (or more) // isvisible = nphotons > 1; if (selected_photons.size()>1){ // at least 2 selected photons in the event isPhotonDecay_acc=true; isvisible_reco= true; Photon1 = selected_photons[0]; Photon2 = selected_photons[1]; } else{ isPhotonDecay_acc=false; isvisible_reco=false; } //} //else {std::cout << "%HLTHiggsTruth -- No MC truth information" << std::endl;} // std::cout << "nphotons = " << nphotons << " " << isvisible_gg << std::endl; } }
void HLTHiggsTruth::analyzeHinv | ( | const reco::CandidateView & | mctruth, |
TTree * | tree | ||
) |
Definition at line 590 of file HLTHiggsTruth.cc.
References _Monte, gather_cfg::cout, and isvisible.
Referenced by HLTHiggsBits::analyze().
void HLTHiggsTruth::analyzeHtaunu | ( | const reco::CandidateView & | mctruth, |
TTree * | tree | ||
) |
Definition at line 550 of file HLTHiggsTruth.cc.
References _Monte, abs, gather_cfg::cout, reco::Candidate::eta(), i, isTauDecay_acc, isvisible, AlCaHLTBitMon_ParallelJobs::p, reco::Candidate::pdgId(), evf::utils::pid, reco::Candidate::pt(), edm::View< T >::size(), ntuplemaker::status, and reco::Candidate::status().
Referenced by HLTHiggsBits::analyze().
{ if (_Monte) { int ntaus=0; std::map<double,reco::Particle> tauMap; if (&mctruth){ for (size_t i = 0; i < mctruth.size(); ++ i) { const reco::Candidate & p = (mctruth)[i]; int status = p.status(); int pid=p.pdgId(); // const reco::Candidate *m=p.mother(); if (status==1 || status==2) { bool istau = std::abs(pid)==15; bool inacceptance = (fabs(p.eta()) < 2.4); bool aboveptcut = (p.pt() > 100); if (inacceptance && aboveptcut && istau) { ntaus++; } } } isvisible= (ntaus>0); isTauDecay_acc = isvisible; } else {std::cout << "%HLTHiggsTruth -- No MC truth information" << std::endl;} // std::cout << "ntaus = " << ntaus << " " << isvisible_taunu << std::endl; } }
void HLTHiggsTruth::analyzeHWW2l | ( | const reco::CandidateView & | mctruth, |
const reco::CaloMETCollection & | caloMet, | ||
const reco::TrackCollection & | Tracks, | ||
const reco::MuonCollection & | muonHandle, | ||
const reco::GsfElectronCollection & | electronHandle, | ||
TTree * | tree | ||
) |
Analyze the Data
Event classification ,take lepton pair with highest pt
Definition at line 78 of file HLTHiggsTruth.cc.
References _Monte, reco::LeafCandidate::charge(), Electron1, Electron2, eta(), i, isElecDecay_recoacc, isEMuDecay_recoacc, isMuonDecay_recoacc, met_hwwdiel_, met_hwwdimu_, met_hwwemu_, Muon1, Muon2, and reco::LeafCandidate::pt().
Referenced by HLTHiggsBits::analyze().
{ if (_Monte) { // if (&mctruth){ std::map<double, reco::Muon> muonMap; std::map<double,reco::GsfElectron> electronMap; // keep globalmuons with pt>10 in eta<2.4 for (size_t i = 0; i < muonHandle.size(); ++ i) { if ( (muonHandle)[i].isGlobalMuon() && (muonHandle)[i].pt()>10 && fabs((muonHandle)[i].eta())<2.4 ){ //&& (muonHandle)[i].isolationR03().sumPt<2 && // ((muonHandle)[i].isolationR03().emEt + (muonHandle)[i].isolationR03().hadEt)<5 ){ muonMap[(muonHandle)[i].pt()]= (muonHandle)[i]; } } // keep electrons with pt>10, eta<2.4, H/E<0.05, 0.6<E/p<2.5 for (size_t ii = 0; ii < electronHandle.size(); ++ ii) { if ( (electronHandle)[ii].pt()>10 && fabs((electronHandle)[ii].eta())<2.4 && (electronHandle)[ii].hadronicOverEm()<0.05 && (electronHandle)[ii].eSuperClusterOverP()>0.6 && (electronHandle)[ii].eSuperClusterOverP()<2.5 ){ electronMap[(electronHandle)[ii].pt()]= (electronHandle)[ii]; } } std::vector<reco::Muon> selected_muons; for( std::map<double,reco::Muon>::reverse_iterator rit=muonMap.rbegin(); rit!=muonMap.rend(); ++rit){ selected_muons.push_back( (*rit).second ); // sort muons by pt } std::vector<reco::GsfElectron> selected_electrons; for( std::map<double,reco::GsfElectron>::reverse_iterator rit=electronMap.rbegin(); rit!=electronMap.rend(); ++rit){ selected_electrons.push_back( (*rit).second ); // sort electrons by pt } //------------------------------------ reco::Muon muon1, muon2; reco::GsfElectron electron1, electron2; if (selected_electrons.size() ==1 ) electron1 = selected_electrons[0]; if (selected_electrons.size() > 1){ electron1 = selected_electrons[0]; electron2 = selected_electrons[1]; } if (selected_muons.size() ==1 ) muon1 = selected_muons[0]; if (selected_muons.size() > 1){ muon1 = selected_muons[0]; muon2 = selected_muons[1]; } // bool dimuEvent = false; // bool emuEvent = false; // bool dielEvent = false; double ptel1=0.; double ptel2=0.; double ptmu1=0.; double ptmu2=0.; if (selected_electrons.size()==0) { ptel1 = 0; ptel2 = 0; } if (selected_electrons.size()==1) { ptel1 = electron1.pt(); ptel2 = 0; } if (selected_electrons.size()>1) { ptel1 = electron1.pt() ; ptel2 = electron2.pt();} if (selected_muons.size()==0) { ptmu1 = 0; ptmu2 = 0; } if (selected_muons.size()==1) { ptmu1 = muon1.pt(); ptmu2 = 0; } if (selected_muons.size()>1) { ptmu1 = muon1.pt(); ptmu2 =muon2.pt();} if (selected_muons.size() + selected_electrons.size() > 1){ if (ptel2 > ptmu1){ if (electron1.charge()*electron2.charge()<0 && electron1.pt()>20 /*&& electron2.pt()>20*/ ) { // dielEvent=true; isElecDecay_recoacc=true; isMuonDecay_recoacc=false; isEMuDecay_recoacc=false; Electron1 = selected_electrons[0]; Electron2 = selected_electrons[1]; met_hwwdiel_ = caloMet[0].pt(); } } else if (ptmu2 > ptel1){ // if (muon1.charge()*muon2.charge()<0 && muon1.pt()>20 /*&& muon2.pt()>20*/ ) dimuEvent =true; if (muon1.charge()*muon2.charge()<0 && muon1.pt()>20 /*&& fabs(muon1.eta())<2.1*/ ){ // dimuEvent =true; isElecDecay_recoacc=false; isMuonDecay_recoacc=true; isEMuDecay_recoacc=false; Muon1 = selected_muons[0]; Muon2 = selected_muons[1]; met_hwwdimu_ = caloMet[0].pt(); } } else { // if (muon1.charge()*electron1.charge()<0 && (muon1.pt()>20 || electron1.pt()>20) ) emuEvent = true; if (muon1.charge()*electron1.charge()<0 && (muon1.pt()>20 || electron1.pt()>20) /*&& fabs(muon1.eta())<2.1 */) { // emuEvent = true; isElecDecay_recoacc=false; isMuonDecay_recoacc=false; isEMuDecay_recoacc=true; Muon1 = selected_muons[0]; Electron1 = selected_electrons[0]; met_hwwemu_ = caloMet[0].pt(); } } } else{ isElecDecay_recoacc=false; isMuonDecay_recoacc=false; isEMuDecay_recoacc=false; } // } // else {std::cout << "%HLTHiggsTruth -- No MC truth information" << std::endl;} // std::cout << "nleptons = " << nleptons << " " << isvisible_WW << std::endl; } }
void HLTHiggsTruth::analyzeHZZ4l | ( | const reco::CandidateView & | mctruth, |
const reco::MuonCollection & | muonHandle, | ||
const reco::GsfElectronCollection & | electronHandle, | ||
TTree * | tree | ||
) |
Event selection : 2 pairs of opp charge leptons (4mu, 4e or 2e2mu)
Definition at line 238 of file HLTHiggsTruth.cc.
References _Monte, DeDxDiscriminatorTools::charge(), Electron1, Electron2, eta(), i, isElecDecay_recoacc, isEMuDecay_recoacc, isMuonDecay_recoacc, gen::k, Muon1, and Muon2.
Referenced by HLTHiggsBits::analyze().
{ if (_Monte) { // if (&mctruth){ //----selection based on reco--- std::map<double,reco::Muon> muonMap; // keep globalmuons with pt>10, eta<2.4 for (size_t i = 0; i < muonHandle.size(); ++ i) { if ( (muonHandle)[i].isGlobalMuon() && (muonHandle)[i].pt()>10 && fabs((muonHandle)[i].eta())<2.4 ){ muonMap[(muonHandle)[i].pt()]= (muonHandle)[i]; } } // keep electrons with pt>10, eta<2.4, H/E<0.05, 0.6<E/p<2.5 std::map<double,reco::GsfElectron> electronMap; for (size_t ii = 0; ii < electronHandle.size(); ++ ii) { if ( (electronHandle)[ii].pt()>10 && fabs((electronHandle)[ii].eta())<2.4 && (electronHandle)[ii].hadronicOverEm()<0.05 && (electronHandle)[ii].eSuperClusterOverP()>0.6 && (electronHandle)[ii].eSuperClusterOverP()<2.5){ electronMap[(electronHandle)[ii].pt()]= (electronHandle)[ii]; } } std::vector<reco::Muon> selected_muons; for( std::map<double,reco::Muon>::reverse_iterator rit=muonMap.rbegin(); rit!=muonMap.rend(); ++rit){ selected_muons.push_back( (*rit).second ); // sort muons by pt } std::vector<reco::GsfElectron> selected_electrons; for( std::map<double,reco::GsfElectron>::reverse_iterator rit=electronMap.rbegin(); rit!=electronMap.rend(); ++rit){ selected_electrons.push_back( (*rit).second ); // sort electrons by pt } int posEle=0; int negEle=0; int posMu=0; int negMu=0; for (size_t k=0; k<selected_muons.size();k++){ if (selected_muons[k].charge()>0) posMu++; //n muons pos charge else if (selected_muons[k].charge()<0) negMu++; // n muons neg charge } for (size_t k=0; k<selected_electrons.size();k++){ if (selected_electrons[k].charge()>0) posEle++; // n electrons pos charge else if (selected_electrons[k].charge()<0) negEle++; // n electrons neg charge } //---------- int nElectron=0; int nMuon=0; bool hzz2e2mu_decay = false; // at least 4 reco muons in the event bool hzz4e_decay =false; // at least 4 electrons in the event bool hzz4mu_decay=false; // at least 2 muons and 2 electrons if (selected_muons.size()>=4) hzz4mu_decay=true; else if (selected_electrons.size()>=4) hzz4e_decay=true; else if (selected_muons.size()>=2 && selected_electrons.size()>=2) hzz2e2mu_decay=true; if (hzz2e2mu_decay) { if ( posEle>=1 && negEle>=1 ) { nElectron=posEle+negEle; } if ( posMu>=1 && negMu>=1 ) { nMuon=posMu+negMu; } } else if (hzz4e_decay) { if ( posEle>=2 && negEle>=2 ) { nElectron=posEle+negEle; } } else if (hzz4mu_decay) { if ( posMu>=2 && negMu>=2 ) { nMuon=posMu+negMu; } } if (hzz2e2mu_decay && nElectron>=2 && nMuon>=2 ){ // at least 2 electrons and 2 muons // with opp charge isEMuDecay_recoacc =true; Muon1 = selected_muons[0]; Electron1 = selected_electrons[0]; } else if (hzz4e_decay && nElectron>=4){ isElecDecay_recoacc=true; Electron1 = selected_electrons[0]; Electron2 = selected_electrons[1]; } else if (hzz4mu_decay && nMuon>=4){ isMuonDecay_recoacc =true; Muon1 = selected_muons[0]; Muon2 = selected_muons[1]; } else { isElecDecay_recoacc=false; isMuonDecay_recoacc=false; isEMuDecay_recoacc=false; } // } //else {std::cout << "%HLTHiggsTruth -- No MC truth information" << std::endl;} // std::cout << "nepair, nmupair = " << nepair << ", " << nmupair << " " << isvisible << std::endl; } }
bool HLTHiggsTruth::decision | ( | ) | const [inline] |
bool HLTHiggsTruth::decision_reco | ( | ) | const [inline] |
Definition at line 105 of file HLTHiggsTruth.h.
References isvisible_reco.
{return isvisible_reco;};
bool HLTHiggsTruth::ElecChannel_recoacc | ( | ) | const [inline] |
Definition at line 101 of file HLTHiggsTruth.h.
References isElecDecay_recoacc.
Referenced by HLTHiggsBits::analyze().
{return isElecDecay_recoacc;};
bool HLTHiggsTruth::ElecMuChannel_recoacc | ( | ) | const [inline] |
Definition at line 102 of file HLTHiggsTruth.h.
References isEMuDecay_recoacc.
Referenced by HLTHiggsBits::analyze().
{return isEMuDecay_recoacc;};
reco::GsfElectron HLTHiggsTruth::electron1_ | ( | ) | const [inline] |
Definition at line 143 of file HLTHiggsTruth.h.
References Electron1.
Referenced by HLTHiggsBits::analyze().
{return Electron1;};
reco::GsfElectron HLTHiggsTruth::electron2_ | ( | ) | const [inline] |
Definition at line 144 of file HLTHiggsTruth.h.
References Electron2.
Referenced by HLTHiggsBits::analyze().
{return Electron2;};
reco::GsfElectron HLTHiggsTruth::electron3_ | ( | ) | const [inline] |
reco::GsfElectron HLTHiggsTruth::electron4_ | ( | ) | const [inline] |
double HLTHiggsTruth::etaElectron1 | ( | ) | const [inline] |
Definition at line 114 of file HLTHiggsTruth.h.
References etaElMax.
Referenced by HLTHiggsBits::analyze().
{return etaElMax;};
double HLTHiggsTruth::etaElectron2 | ( | ) | const [inline] |
double HLTHiggsTruth::etaMuon1 | ( | ) | const [inline] |
Definition at line 110 of file HLTHiggsTruth.h.
References etaMuMax.
Referenced by HLTHiggsBits::analyze().
{return etaMuMax;};
double HLTHiggsTruth::etaMuon2 | ( | ) | const [inline] |
double HLTHiggsTruth::etaTau1 | ( | ) | const [inline] |
void HLTHiggsTruth::LeptonicTauDecay | ( | const reco::Candidate & | tau, |
bool & | elecdec, | ||
bool & | muondec | ||
) |
Definition at line 601 of file HLTHiggsTruth.cc.
References abs, reco::Candidate::begin(), reco::Candidate::end(), EtaElFromTau, EtaMuFromTau, reco::Candidate::pdgId(), PtElFromTau, and PtMuFromTau.
Referenced by analyzeH2tau().
{ //if (tau.begin() == tau.end()) std::cout << "No_llega_a_entrar_en_el_bucle" << std::endl; // loop on tau decays, check for an electron or muon for(reco::Candidate::const_iterator daughter=tau.begin();daughter!=tau.end(); ++daughter){ //cout << "daughter_x" << std::endl; // if the tau daughter is a tau, it means the particle has still to be propagated. // In that case, return the result of the same method on that daughter. if(daughter->pdgId()==tau.pdgId()) return LeptonicTauDecay(*daughter, elecdec, muondec); // check for leptons elecdec |= std::abs(daughter->pdgId())==11; muondec |= std::abs(daughter->pdgId())==13; if (std::abs(daughter->pdgId())==11) { PtElFromTau = daughter->pt(); EtaElFromTau = daughter->eta(); } if (std::abs(daughter->pdgId())==13){ PtMuFromTau = daughter->pt(); EtaMuFromTau = daughter->eta(); } } }
double HLTHiggsTruth::met_hwwdiel | ( | ) | const [inline] |
Definition at line 149 of file HLTHiggsTruth.h.
References met_hwwdiel_.
Referenced by HLTHiggsBits::analyze().
{return met_hwwdiel_ ;};
double HLTHiggsTruth::met_hwwdimu | ( | ) | const [inline] |
Definition at line 148 of file HLTHiggsTruth.h.
References met_hwwdimu_.
Referenced by HLTHiggsBits::analyze().
{return met_hwwdimu_ ;};
double HLTHiggsTruth::met_hwwemu | ( | ) | const [inline] |
Definition at line 150 of file HLTHiggsTruth.h.
References met_hwwemu_.
Referenced by HLTHiggsBits::analyze().
{return met_hwwemu_ ;};
reco::Muon HLTHiggsTruth::muon1_ | ( | ) | const [inline] |
Definition at line 135 of file HLTHiggsTruth.h.
References Muon1.
Referenced by HLTHiggsBits::analyze().
{return Muon1;};
reco::Muon HLTHiggsTruth::muon2_ | ( | ) | const [inline] |
Definition at line 136 of file HLTHiggsTruth.h.
References Muon2.
Referenced by HLTHiggsBits::analyze().
{return Muon2;};
reco::Muon HLTHiggsTruth::muon3_ | ( | ) | const [inline] |
reco::Muon HLTHiggsTruth::muon4_ | ( | ) | const [inline] |
bool HLTHiggsTruth::MuonChannel_recoacc | ( | ) | const [inline] |
Definition at line 100 of file HLTHiggsTruth.h.
References isMuonDecay_recoacc.
Referenced by HLTHiggsBits::analyze().
{return isMuonDecay_recoacc;}; //within acceptance +reco cuts
reco::Photon HLTHiggsTruth::photon1_ | ( | ) | const [inline] |
Definition at line 132 of file HLTHiggsTruth.h.
References Photon1.
Referenced by HLTHiggsBits::analyze().
{return Photon1;};
reco::Photon HLTHiggsTruth::photon2_ | ( | ) | const [inline] |
Definition at line 133 of file HLTHiggsTruth.h.
References Photon2.
Referenced by HLTHiggsBits::analyze().
{return Photon2;};
bool HLTHiggsTruth::PhotonChannel_acc | ( | ) | const [inline] |
Definition at line 96 of file HLTHiggsTruth.h.
References isPhotonDecay_acc.
Referenced by HLTHiggsBits::analyze().
{return isPhotonDecay_acc;};
bool HLTHiggsTruth::PhotonChannel_recoacc | ( | ) | const [inline] |
Definition at line 103 of file HLTHiggsTruth.h.
References isPhotonDecay_recoacc.
{return isPhotonDecay_recoacc;};
double HLTHiggsTruth::ptElectron1 | ( | ) | const [inline] |
Definition at line 112 of file HLTHiggsTruth.h.
References ptElMax.
Referenced by HLTHiggsBits::analyze().
{return ptElMax;};
double HLTHiggsTruth::ptElectron2 | ( | ) | const [inline] |
double HLTHiggsTruth::ptMuon1 | ( | ) | const [inline] |
Definition at line 108 of file HLTHiggsTruth.h.
References ptMuMax.
Referenced by HLTHiggsBits::analyze().
{return ptMuMax;};
double HLTHiggsTruth::ptMuon2 | ( | ) | const [inline] |
double HLTHiggsTruth::ptTau1 | ( | ) | const [inline] |
void HLTHiggsTruth::setup | ( | const edm::ParameterSet & | pSet, |
TTree * | tree | ||
) |
Definition at line 41 of file HLTHiggsTruth.cc.
References _Debug, _Monte, edm::ParameterSet::getParameter(), and edm::ParameterSet::getParameterNames().
Referenced by HLTHiggsBits::HLTHiggsBits().
{ edm::ParameterSet myMCParams = pSet.getParameter<edm::ParameterSet>("RunParameters") ; std::vector<std::string> parameterNames = myMCParams.getParameterNames() ; for ( std::vector<std::string>::iterator iParam = parameterNames.begin(); iParam != parameterNames.end(); iParam++ ){ if ( (*iParam) == "Monte" ) _Monte = myMCParams.getParameter<bool>( *iParam ); else if ( (*iParam) == "Debug" ) _Debug = myMCParams.getParameter<bool>( *iParam ); } // const int kMaxMcTruth = 50000; // mcpid = new float[kMaxMcTruth]; // mcvx = new float[kMaxMcTruth]; // mcvy = new float[kMaxMcTruth]; // mcvz = new float[kMaxMcTruth]; // mcpt = new float[kMaxMcTruth]; // MCtruth-specific branches of the tree // HltTree->Branch("NobjMCPart",&nmcpart,"NobjMCPart/I"); // HltTree->Branch("MCPid",mcpid,"MCPid[NobjMCPart]/I"); // HltTree->Branch("MCVtxX",mcvx,"MCVtxX[NobjMCPart]/F"); // HltTree->Branch("MCVtxY",mcvy,"MCVtxY[NobjMCPart]/F"); // HltTree->Branch("MCVtxZ",mcvz,"MCVtxZ[NobjMCPart]/F"); // HltTree->Branch("MCPt",mcpt,"MCPt[NobjMCPart]/F"); }
bool HLTHiggsTruth::TauChannel_acc | ( | ) | const [inline] |
Definition at line 97 of file HLTHiggsTruth.h.
References isTauDecay_acc.
Referenced by HLTHiggsBits::analyze().
{return isTauDecay_acc;};
bool HLTHiggsTruth::TauChannel_recoacc | ( | ) | const [inline] |
Definition at line 104 of file HLTHiggsTruth.h.
References isTauDecay_recoacc.
{return isTauDecay_recoacc;};
bool HLTHiggsTruth::_Debug [private] |
Definition at line 225 of file HLTHiggsTruth.h.
Referenced by HLTHiggsTruth(), and setup().
bool HLTHiggsTruth::_Monte [private] |
Definition at line 225 of file HLTHiggsTruth.h.
Referenced by analyzeA2mu(), analyzeH2tau(), analyzeHgg(), analyzeHinv(), analyzeHtaunu(), analyzeHWW2l(), analyzeHZZ4l(), HLTHiggsTruth(), and setup().
reco::GsfElectron HLTHiggsTruth::Electron1 [private] |
Definition at line 211 of file HLTHiggsTruth.h.
Referenced by analyzeHWW2l(), analyzeHZZ4l(), and electron1_().
reco::GsfElectron HLTHiggsTruth::Electron2 [private] |
Definition at line 212 of file HLTHiggsTruth.h.
Referenced by analyzeHWW2l(), analyzeHZZ4l(), and electron2_().
reco::GsfElectron HLTHiggsTruth::Electron3 [private] |
Definition at line 213 of file HLTHiggsTruth.h.
Referenced by electron3_().
reco::GsfElectron HLTHiggsTruth::Electron4 [private] |
Definition at line 214 of file HLTHiggsTruth.h.
Referenced by electron4_().
double HLTHiggsTruth::EtaElFromTau [private] |
Definition at line 194 of file HLTHiggsTruth.h.
Referenced by analyzeH2tau(), and LeptonicTauDecay().
double HLTHiggsTruth::etaElMax [private] |
Definition at line 188 of file HLTHiggsTruth.h.
Referenced by analyzeH2tau(), and etaElectron1().
double HLTHiggsTruth::etaElMin [private] |
Definition at line 188 of file HLTHiggsTruth.h.
Referenced by etaElectron2().
double HLTHiggsTruth::EtaMuFromTau [private] |
Definition at line 194 of file HLTHiggsTruth.h.
Referenced by analyzeH2tau(), and LeptonicTauDecay().
double HLTHiggsTruth::etaMuMax [private] |
Definition at line 187 of file HLTHiggsTruth.h.
Referenced by analyzeH2tau(), and etaMuon1().
double HLTHiggsTruth::etaMuMin [private] |
Definition at line 187 of file HLTHiggsTruth.h.
Referenced by etaMuon2().
double HLTHiggsTruth::etaPhMax [private] |
Definition at line 189 of file HLTHiggsTruth.h.
double HLTHiggsTruth::etaPhMin [private] |
Definition at line 189 of file HLTHiggsTruth.h.
double HLTHiggsTruth::etaTauMax [private] |
Definition at line 190 of file HLTHiggsTruth.h.
Referenced by etaTau1().
bool HLTHiggsTruth::isElecDecay_recoacc [private] |
Definition at line 173 of file HLTHiggsTruth.h.
Referenced by analyzeH2tau(), analyzeHWW2l(), analyzeHZZ4l(), ElecChannel_recoacc(), and HLTHiggsTruth().
bool HLTHiggsTruth::isEMuDecay_recoacc [private] |
Definition at line 174 of file HLTHiggsTruth.h.
Referenced by analyzeHWW2l(), analyzeHZZ4l(), ElecMuChannel_recoacc(), and HLTHiggsTruth().
bool HLTHiggsTruth::isMuonDecay_recoacc [private] |
Definition at line 172 of file HLTHiggsTruth.h.
Referenced by analyzeH2tau(), analyzeHWW2l(), analyzeHZZ4l(), HLTHiggsTruth(), and MuonChannel_recoacc().
bool HLTHiggsTruth::isPhotonDecay_acc [private] |
Definition at line 167 of file HLTHiggsTruth.h.
Referenced by analyzeHgg(), HLTHiggsTruth(), and PhotonChannel_acc().
bool HLTHiggsTruth::isPhotonDecay_recoacc [private] |
Definition at line 175 of file HLTHiggsTruth.h.
Referenced by HLTHiggsTruth(), and PhotonChannel_recoacc().
bool HLTHiggsTruth::isTauDecay [private] |
Definition at line 168 of file HLTHiggsTruth.h.
bool HLTHiggsTruth::isTauDecay_acc [private] |
Definition at line 169 of file HLTHiggsTruth.h.
Referenced by analyzeHtaunu(), HLTHiggsTruth(), and TauChannel_acc().
bool HLTHiggsTruth::isTauDecay_recoacc [private] |
Definition at line 176 of file HLTHiggsTruth.h.
Referenced by HLTHiggsTruth(), and TauChannel_recoacc().
bool HLTHiggsTruth::isvisible [private] |
Definition at line 150 of file HLTHiggsTruth.h.
Referenced by analyzeA2mu(), analyzeHinv(), analyzeHtaunu(), decision(), and HLTHiggsTruth().
bool HLTHiggsTruth::isvisible_reco [private] |
Definition at line 178 of file HLTHiggsTruth.h.
Referenced by analyzeHgg(), decision_reco(), and HLTHiggsTruth().
double HLTHiggsTruth::met_hwwdiel_ [private] |
Definition at line 197 of file HLTHiggsTruth.h.
Referenced by analyzeHWW2l(), and met_hwwdiel().
double HLTHiggsTruth::met_hwwdimu_ [private] |
Definition at line 196 of file HLTHiggsTruth.h.
Referenced by analyzeHWW2l(), and met_hwwdimu().
double HLTHiggsTruth::met_hwwemu_ [private] |
Definition at line 198 of file HLTHiggsTruth.h.
Referenced by analyzeHWW2l(), and met_hwwemu().
reco::Muon HLTHiggsTruth::Muon1 [private] |
Definition at line 206 of file HLTHiggsTruth.h.
Referenced by analyzeHWW2l(), analyzeHZZ4l(), and muon1_().
reco::Muon HLTHiggsTruth::Muon2 [private] |
Definition at line 207 of file HLTHiggsTruth.h.
Referenced by analyzeHWW2l(), analyzeHZZ4l(), and muon2_().
reco::Muon HLTHiggsTruth::Muon3 [private] |
Definition at line 208 of file HLTHiggsTruth.h.
Referenced by muon3_().
reco::Muon HLTHiggsTruth::Muon4 [private] |
Definition at line 209 of file HLTHiggsTruth.h.
Referenced by muon4_().
reco::Photon HLTHiggsTruth::Photon1 [private] |
Definition at line 203 of file HLTHiggsTruth.h.
Referenced by analyzeHgg(), and photon1_().
reco::Photon HLTHiggsTruth::Photon2 [private] |
Definition at line 204 of file HLTHiggsTruth.h.
Referenced by analyzeHgg(), and photon2_().
double HLTHiggsTruth::PtElFromTau [private] |
Definition at line 193 of file HLTHiggsTruth.h.
Referenced by analyzeH2tau(), and LeptonicTauDecay().
double HLTHiggsTruth::ptElMax [private] |
Definition at line 184 of file HLTHiggsTruth.h.
Referenced by analyzeH2tau(), and ptElectron1().
double HLTHiggsTruth::ptElMin [private] |
Definition at line 184 of file HLTHiggsTruth.h.
Referenced by ptElectron2().
double HLTHiggsTruth::PtMuFromTau [private] |
Definition at line 193 of file HLTHiggsTruth.h.
Referenced by analyzeH2tau(), and LeptonicTauDecay().
double HLTHiggsTruth::ptMuMax [private] |
Definition at line 183 of file HLTHiggsTruth.h.
Referenced by analyzeH2tau(), and ptMuon1().
double HLTHiggsTruth::ptMuMin [private] |
Definition at line 183 of file HLTHiggsTruth.h.
Referenced by ptMuon2().
double HLTHiggsTruth::ptTauMax [private] |
Definition at line 186 of file HLTHiggsTruth.h.
Referenced by ptTau1().