#include <TtSemiLepHitFitProducer.h>
Classes | |
struct | FitResult |
Public Member Functions | |
TtSemiLepHitFitProducer (const edm::ParameterSet &) | |
~TtSemiLepHitFitProducer () | |
Private Types | |
typedef hitfit::RunHitFit < pat::Electron, pat::Muon, pat::Jet, pat::MET > | PatHitFit |
Private Member Functions | |
virtual void | produce (edm::Event &, const edm::EventSetup &) |
Private Attributes | |
std::string | bTagAlgo_ |
input tag for b-tagging algorithm | |
hitfit::LeptonTranslatorBase < pat::Electron > | electronTranslator_ |
PatHitFit * | HitFit |
edm::FileInPath | hitfitBJetResolution_ |
edm::FileInPath | hitfitDefault_ |
edm::FileInPath | hitfitElectronResolution_ |
edm::FileInPath | hitfitMETResolution_ |
edm::FileInPath | hitfitMuonResolution_ |
edm::FileInPath | hitfitUdscJetResolution_ |
double | jes_ |
jet energy scale | |
double | jesB_ |
std::string | jetCorrectionLevel_ |
jet correction level | |
edm::InputTag | jets_ |
hitfit::JetTranslatorBase < pat::Jet > | jetTranslator_ |
edm::InputTag | leps_ |
double | maxBTagValueNonBJet_ |
max value of bTag for a non-b-jet | |
double | maxEtaEle_ |
maximum eta value for electrons, needed to limited range in which resolutions are provided | |
double | maxEtaJet_ |
maximum eta value for jets, needed to limited range in which resolutions are provided | |
double | maxEtaMu_ |
maximum eta value for muons, needed to limited range in which resolutions are provided | |
int | maxNComb_ |
maximal number of combinations to be written to the event | |
int | maxNJets_ |
maximal number of jets (-1 possible to indicate 'all') | |
edm::InputTag | mets_ |
hitfit::METTranslatorBase < pat::MET > | metTranslator_ |
double | minBTagValueBJet_ |
min value of bTag for a b-jet | |
double | mTop_ |
hitfit::LeptonTranslatorBase < pat::Muon > | muonTranslator_ |
double | mW_ |
constraints | |
bool | useBTag_ |
switch to tell whether to use b-tagging or not |
Definition at line 20 of file TtSemiLepHitFitProducer.h.
typedef hitfit::RunHitFit<pat::Electron,pat::Muon,pat::Jet,pat::MET> TtSemiLepHitFitProducer< LeptonCollection >::PatHitFit [private] |
Definition at line 83 of file TtSemiLepHitFitProducer.h.
TtSemiLepHitFitProducer< LeptonCollection >::TtSemiLepHitFitProducer | ( | const edm::ParameterSet & | cfg | ) | [explicit] |
Definition at line 101 of file TtSemiLepHitFitProducer.h.
References TtSemiLepHitFitProducer< LeptonCollection >::electronTranslator_, edm::FileInPath::fullPath(), TtSemiLepHitFitProducer< LeptonCollection >::HitFit, TtSemiLepHitFitProducer< LeptonCollection >::hitfitDefault_, TtSemiLepHitFitProducer< LeptonCollection >::jetTranslator_, TtSemiLepHitFitProducer< LeptonCollection >::maxEtaEle_, TtSemiLepHitFitProducer< LeptonCollection >::maxEtaJet_, TtSemiLepHitFitProducer< LeptonCollection >::maxEtaMu_, TtSemiLepHitFitProducer< LeptonCollection >::metTranslator_, TtSemiLepHitFitProducer< LeptonCollection >::mTop_, TtSemiLepHitFitProducer< LeptonCollection >::muonTranslator_, and TtSemiLepHitFitProducer< LeptonCollection >::mW_.
: jets_ (cfg.getParameter<edm::InputTag>("jets")), leps_ (cfg.getParameter<edm::InputTag>("leps")), mets_ (cfg.getParameter<edm::InputTag>("mets")), maxNJets_ (cfg.getParameter<int> ("maxNJets" )), maxNComb_ (cfg.getParameter<int> ("maxNComb" )), bTagAlgo_ (cfg.getParameter<std::string> ("bTagAlgo" )), minBTagValueBJet_ (cfg.getParameter<double> ("minBDiscBJets" )), maxBTagValueNonBJet_ (cfg.getParameter<double> ("maxBDiscLightJets" )), useBTag_ (cfg.getParameter<bool> ("useBTagging" )), mW_ (cfg.getParameter<double> ("mW" )), mTop_ (cfg.getParameter<double> ("mTop" )), jetCorrectionLevel_ (cfg.getParameter<std::string> ("jetCorrectionLevel" )), jes_ (cfg.getParameter<double> ("jes" )), jesB_ (cfg.getParameter<double> ("jesB" )), // The following five initializers read the config parameters for the // ASCII text files which contains the physics object resolutions. hitfitDefault_ (cfg.getUntrackedParameter<edm::FileInPath>(std::string("hitfitDefault"), edm::FileInPath(std::string("TopQuarkAnalysis/TopHitFit/data/setting/RunHitFitConfiguration.txt")))), hitfitElectronResolution_(cfg.getUntrackedParameter<edm::FileInPath>(std::string("hitfitElectronResolution"), edm::FileInPath(std::string("TopQuarkAnalysis/TopHitFit/data/resolution/tqafElectronResolution.txt")))), hitfitMuonResolution_ (cfg.getUntrackedParameter<edm::FileInPath>(std::string("hitfitMuonResolution"), edm::FileInPath(std::string("TopQuarkAnalysis/TopHitFit/data/resolution/tqafMuonResolution.txt")))), hitfitUdscJetResolution_ (cfg.getUntrackedParameter<edm::FileInPath>(std::string("hitfitUdscJetResolution"), edm::FileInPath(std::string("TopQuarkAnalysis/TopHitFit/data/resolution/tqafUdscJetResolution.txt")))), hitfitBJetResolution_ (cfg.getUntrackedParameter<edm::FileInPath>(std::string("hitfitBJetResolution"), edm::FileInPath(std::string("TopQuarkAnalysis/TopHitFit/data/resolution/tqafBJetResolution.txt")))), hitfitMETResolution_ (cfg.getUntrackedParameter<edm::FileInPath>(std::string("hitfitMETResolution"), edm::FileInPath(std::string("TopQuarkAnalysis/TopHitFit/data/resolution/tqafKtResolution.txt")))), // The following four initializers instantiate the translator between PAT objects // and HitFit objects using the ASCII text files which contains the resolutions. electronTranslator_(hitfitElectronResolution_.fullPath()), muonTranslator_ (hitfitMuonResolution_.fullPath()), jetTranslator_ (hitfitUdscJetResolution_.fullPath(), hitfitBJetResolution_.fullPath(), jetCorrectionLevel_, jes_, jesB_), metTranslator_ (hitfitMETResolution_.fullPath()) { // Create an instance of RunHitFit and initialize it. HitFit = new PatHitFit(electronTranslator_, muonTranslator_, jetTranslator_, metTranslator_, hitfitDefault_.fullPath(), mW_, mW_, mTop_); maxEtaMu_ = 2.4; maxEtaEle_ = 2.5; maxEtaJet_ = 2.5; edm::LogVerbatim( "TopHitFit" ) << "\n" << "+++++++++++ TtSemiLepHitFitProducer ++++++++++++ \n" << " Due to the eta ranges for which resolutions \n" << " are provided in \n" << " TopQuarkAnalysis/TopHitFit/data/resolution/ \n" << " so far, the following cuts are currently \n" << " implemented in the TtSemiLepHitFitProducer: \n" << " |eta(muons )| <= " << maxEtaMu_ << " \n" << " |eta(electrons)| <= " << maxEtaEle_ << " \n" << " |eta(jets )| <= " << maxEtaJet_ << " \n" << "++++++++++++++++++++++++++++++++++++++++++++++++ \n"; produces< std::vector<pat::Particle> >("PartonsHadP"); produces< std::vector<pat::Particle> >("PartonsHadQ"); produces< std::vector<pat::Particle> >("PartonsHadB"); produces< std::vector<pat::Particle> >("PartonsLepB"); produces< std::vector<pat::Particle> >("Leptons"); produces< std::vector<pat::Particle> >("Neutrinos"); produces< std::vector<std::vector<int> > >(); produces< std::vector<double> >("Chi2"); produces< std::vector<double> >("Prob"); produces< std::vector<double> >("MT"); produces< std::vector<double> >("SigMT"); produces< std::vector<int> >("Status"); produces< int >("NumberOfConsideredJets"); }
TtSemiLepHitFitProducer< LeptonCollection >::~TtSemiLepHitFitProducer | ( | ) |
Definition at line 184 of file TtSemiLepHitFitProducer.h.
{ delete HitFit; }
void TtSemiLepHitFitProducer< LeptonCollection >::produce | ( | edm::Event & | evt, |
const edm::EventSetup & | setup | ||
) | [private, virtual] |
Implements edm::EDProducer.
Definition at line 190 of file TtSemiLepHitFitProducer.h.
References abs, TtSemiLepHitFitProducer< LeptonCollection >::FitResult::Chi2, eta(), create_public_lumi_plots::exp, edm::Event::getByLabel(), TtSemiLepEvtPartons::HadB, TtSemiLepHitFitProducer< LeptonCollection >::FitResult::HadB, TtSemiLepHitFitProducer< LeptonCollection >::FitResult::HadP, TtSemiLepHitFitProducer< LeptonCollection >::FitResult::HadQ, i, metsig::jet, hitfit::Lepjets_Event::jet(), TtSemiLepHitFitProducer< LeptonCollection >::FitResult::JetCombi, fwrapper::jets, hitfit::Lepjets_Event::lep(), TtSemiLepEvtPartons::LepB, TtSemiLepHitFitProducer< LeptonCollection >::FitResult::LepB, TtSemiLepHitFitProducer< LeptonCollection >::FitResult::LepL, TtSemiLepHitFitProducer< LeptonCollection >::FitResult::LepN, TtSemiLepEvtPartons::LightQ, TtSemiLepEvtPartons::LightQBar, hitfit::Lepjets_Event::met(), TtSemiLepHitFitProducer< LeptonCollection >::FitResult::MT, nPartons, hitfit::Lepjets_Event_Lep::p(), TtSemiLepHitFitProducer< LeptonCollection >::FitResult::Prob, edm::Event::put(), query::result, TtSemiLepHitFitProducer< LeptonCollection >::FitResult::SigMT, and TtSemiLepHitFitProducer< LeptonCollection >::FitResult::Status.
{ std::auto_ptr< std::vector<pat::Particle> > pPartonsHadP( new std::vector<pat::Particle> ); std::auto_ptr< std::vector<pat::Particle> > pPartonsHadQ( new std::vector<pat::Particle> ); std::auto_ptr< std::vector<pat::Particle> > pPartonsHadB( new std::vector<pat::Particle> ); std::auto_ptr< std::vector<pat::Particle> > pPartonsLepB( new std::vector<pat::Particle> ); std::auto_ptr< std::vector<pat::Particle> > pLeptons ( new std::vector<pat::Particle> ); std::auto_ptr< std::vector<pat::Particle> > pNeutrinos ( new std::vector<pat::Particle> ); std::auto_ptr< std::vector<std::vector<int> > > pCombi ( new std::vector<std::vector<int> > ); std::auto_ptr< std::vector<double> > pChi2 ( new std::vector<double> ); std::auto_ptr< std::vector<double> > pProb ( new std::vector<double> ); std::auto_ptr< std::vector<double> > pMT ( new std::vector<double> ); std::auto_ptr< std::vector<double> > pSigMT ( new std::vector<double> ); std::auto_ptr< std::vector<int> > pStatus( new std::vector<int> ); std::auto_ptr< int > pJetsConsidered( new int ); edm::Handle<std::vector<pat::Jet> > jets; evt.getByLabel(jets_, jets); edm::Handle<std::vector<pat::MET> > mets; evt.getByLabel(mets_, mets); edm::Handle<LeptonCollection> leps; evt.getByLabel(leps_, leps); // ----------------------------------------------------- // skip events with no appropriate lepton candidate in // or empty MET or less jets than partons // ----------------------------------------------------- const unsigned int nPartons = 4; // Clear the internal state HitFit->clear(); // Add lepton into HitFit bool foundLepton = false; if(!leps->empty()) { double maxEtaLep = maxEtaMu_; if( !dynamic_cast<const reco::Muon*>(&((*leps)[0])) ) // assume electron if it is not a muon maxEtaLep = maxEtaEle_; for(unsigned iLep=0; iLep<(*leps).size() && !foundLepton; ++iLep) { if(std::abs((*leps)[iLep].eta()) <= maxEtaLep) { HitFit->AddLepton((*leps)[iLep]); foundLepton = true; } } } // Add jets into HitFit unsigned int nJetsFound = 0; for(unsigned iJet=0; iJet<(*jets).size() && (int)nJetsFound!=maxNJets_; ++iJet) { if(std::abs((*jets)[iJet].eta()) <= maxEtaJet_) { HitFit->AddJet((*jets)[iJet]); nJetsFound++; } } *pJetsConsidered = nJetsFound; // Add missing transverse energy into HitFit if(!mets->empty()) HitFit->SetMet((*mets)[0]); if( !foundLepton || mets->empty() || nJetsFound<nPartons ) { // the kinFit getters return empty objects here pPartonsHadP->push_back( pat::Particle() ); pPartonsHadQ->push_back( pat::Particle() ); pPartonsHadB->push_back( pat::Particle() ); pPartonsLepB->push_back( pat::Particle() ); pLeptons ->push_back( pat::Particle() ); pNeutrinos ->push_back( pat::Particle() ); // indices referring to the jet combination std::vector<int> invalidCombi; for(unsigned int i = 0; i < nPartons; ++i) invalidCombi.push_back( -1 ); pCombi->push_back( invalidCombi ); // chi2 pChi2->push_back( -1. ); // chi2 probability pProb->push_back( -1. ); // fitted top mass pMT->push_back( -1. ); pSigMT->push_back( -1. ); // status of the fitter pStatus->push_back( -1 ); // feed out all products evt.put(pCombi); evt.put(pPartonsHadP, "PartonsHadP"); evt.put(pPartonsHadQ, "PartonsHadQ"); evt.put(pPartonsHadB, "PartonsHadB"); evt.put(pPartonsLepB, "PartonsLepB"); evt.put(pLeptons , "Leptons" ); evt.put(pNeutrinos , "Neutrinos" ); evt.put(pChi2 , "Chi2" ); evt.put(pProb , "Prob" ); evt.put(pMT , "MT" ); evt.put(pSigMT , "SigMT" ); evt.put(pStatus , "Status" ); evt.put(pJetsConsidered, "NumberOfConsideredJets"); return; } std::list<FitResult> FitResultList; // // BEGIN DECLARATION OF VARIABLES FROM KINEMATIC FIT // // In this part are variables from the // kinematic fit procedure // Number of all permutations of the event size_t nHitFit = 0 ; // Number of jets in the event size_t nHitFitJet = 0 ; // Results of the fit for all jet permutations of the event std::vector<hitfit::Fit_Result> hitFitResult; // // R U N H I T F I T // // Run the kinematic fit and get how many permutations are possible // in the fit nHitFit = HitFit->FitAllPermutation(); // // BEGIN PART WHICH EXTRACTS INFORMATION FROM HITFIT // // Get the number of jets nHitFitJet = HitFit->GetUnfittedEvent()[0].njets(); // Get the fit results for all permutations hitFitResult = HitFit->GetFitAllPermutation(); // Loop over all permutations and extract the information for (size_t fit = 0 ; fit != nHitFit ; ++fit) { // Get the event after the fit hitfit::Lepjets_Event fittedEvent = hitFitResult[fit].ev(); /* Get jet permutation according to TQAF convention 11 : leptonic b 12 : hadronic b 13 : hadronic W 14 : hadronic W */ std::vector<int> hitCombi(4); for (size_t jet = 0 ; jet != nHitFitJet ; ++jet) { int jet_type = fittedEvent.jet(jet).type(); switch(jet_type) { case 11: hitCombi[TtSemiLepEvtPartons::LepB ] = jet; break; case 12: hitCombi[TtSemiLepEvtPartons::HadB ] = jet; break; case 13: hitCombi[TtSemiLepEvtPartons::LightQ ] = jet; break; case 14: hitCombi[TtSemiLepEvtPartons::LightQBar] = jet; break; } } // Store the kinematic quantities in the corresponding containers. hitfit::Lepjets_Event_Jet hadP_ = fittedEvent.jet(hitCombi[TtSemiLepEvtPartons::LightQ ]); hitfit::Lepjets_Event_Jet hadQ_ = fittedEvent.jet(hitCombi[TtSemiLepEvtPartons::LightQBar]); hitfit::Lepjets_Event_Jet hadB_ = fittedEvent.jet(hitCombi[TtSemiLepEvtPartons::HadB ]); hitfit::Lepjets_Event_Jet lepB_ = fittedEvent.jet(hitCombi[TtSemiLepEvtPartons::LepB ]); hitfit::Lepjets_Event_Lep lepL_ = fittedEvent.lep(0); /* std::string bTagAlgo_; double minBTagValueBJet_; double maxBTagValueNonBJet_; bool useBTag_; */ if ( hitFitResult[fit].chisq() > 0 // only take into account converged fits && (!useBTag_ || ( useBTag_ // use btag information if chosen && jets->at(hitCombi[TtSemiLepEvtPartons::LightQ ]).bDiscriminator(bTagAlgo_) < maxBTagValueNonBJet_ && jets->at(hitCombi[TtSemiLepEvtPartons::LightQBar]).bDiscriminator(bTagAlgo_) < maxBTagValueNonBJet_ && jets->at(hitCombi[TtSemiLepEvtPartons::HadB ]).bDiscriminator(bTagAlgo_) > minBTagValueBJet_ && jets->at(hitCombi[TtSemiLepEvtPartons::LepB ]).bDiscriminator(bTagAlgo_) > minBTagValueBJet_ ) ) ) { FitResult result; result.Status = 0; result.Chi2 = hitFitResult[fit].chisq(); result.Prob = exp(-1.0*(hitFitResult[fit].chisq())/2.0); result.MT = hitFitResult[fit].mt(); result.SigMT= hitFitResult[fit].sigmt(); result.HadB = pat::Particle(reco::LeafCandidate(0, math::XYZTLorentzVector(hadB_.p().x(), hadB_.p().y(), hadB_.p().z(), hadB_.p().t()), math::XYZPoint())); result.HadP = pat::Particle(reco::LeafCandidate(0, math::XYZTLorentzVector(hadP_.p().x(), hadP_.p().y(), hadP_.p().z(), hadP_.p().t()), math::XYZPoint())); result.HadQ = pat::Particle(reco::LeafCandidate(0, math::XYZTLorentzVector(hadQ_.p().x(), hadQ_.p().y(), hadQ_.p().z(), hadQ_.p().t()), math::XYZPoint())); result.LepB = pat::Particle(reco::LeafCandidate(0, math::XYZTLorentzVector(lepB_.p().x(), lepB_.p().y(), lepB_.p().z(), lepB_.p().t()), math::XYZPoint())); result.LepL = pat::Particle(reco::LeafCandidate(0, math::XYZTLorentzVector(lepL_.p().x(), lepL_.p().y(), lepL_.p().z(), lepL_.p().t()), math::XYZPoint())); result.LepN = pat::Particle(reco::LeafCandidate(0, math::XYZTLorentzVector(fittedEvent.met().x(), fittedEvent.met().y(), fittedEvent.met().z(), fittedEvent.met().t()), math::XYZPoint())); result.JetCombi = hitCombi; FitResultList.push_back(result); } } // sort results w.r.t. chi2 values FitResultList.sort(); // ----------------------------------------------------- // feed out result // starting with the JetComb having the smallest chi2 // ----------------------------------------------------- if( ((unsigned)FitResultList.size())<1 ) { // in case no fit results were stored in the list (all fits aborted) pPartonsHadP->push_back( pat::Particle() ); pPartonsHadQ->push_back( pat::Particle() ); pPartonsHadB->push_back( pat::Particle() ); pPartonsLepB->push_back( pat::Particle() ); pLeptons ->push_back( pat::Particle() ); pNeutrinos ->push_back( pat::Particle() ); // indices referring to the jet combination std::vector<int> invalidCombi; for(unsigned int i = 0; i < nPartons; ++i) invalidCombi.push_back( -1 ); pCombi->push_back( invalidCombi ); // chi2 pChi2->push_back( -1. ); // chi2 probability pProb->push_back( -1. ); // fitted top mass pMT->push_back( -1. ); pSigMT->push_back( -1. ); // status of the fitter pStatus->push_back( -1 ); } else { unsigned int iComb = 0; for(typename std::list<FitResult>::const_iterator result = FitResultList.begin(); result != FitResultList.end(); ++result) { if(maxNComb_ >= 1 && iComb == (unsigned int) maxNComb_) break; iComb++; // partons pPartonsHadP->push_back( result->HadP ); pPartonsHadQ->push_back( result->HadQ ); pPartonsHadB->push_back( result->HadB ); pPartonsLepB->push_back( result->LepB ); // lepton pLeptons->push_back( result->LepL ); // neutrino pNeutrinos->push_back( result->LepN ); // indices referring to the jet combination pCombi->push_back( result->JetCombi ); // chi2 pChi2->push_back( result->Chi2 ); // chi2 probability pProb->push_back( result->Prob ); // fitted top mass pMT->push_back( result->MT ); pSigMT->push_back( result->SigMT ); // status of the fitter pStatus->push_back( result->Status ); } } evt.put(pCombi); evt.put(pPartonsHadP, "PartonsHadP"); evt.put(pPartonsHadQ, "PartonsHadQ"); evt.put(pPartonsHadB, "PartonsHadB"); evt.put(pPartonsLepB, "PartonsLepB"); evt.put(pLeptons , "Leptons" ); evt.put(pNeutrinos , "Neutrinos" ); evt.put(pChi2 , "Chi2" ); evt.put(pProb , "Prob" ); evt.put(pMT , "MT" ); evt.put(pSigMT , "SigMT" ); evt.put(pStatus , "Status" ); evt.put(pJetsConsidered, "NumberOfConsideredJets"); }
std::string TtSemiLepHitFitProducer< LeptonCollection >::bTagAlgo_ [private] |
input tag for b-tagging algorithm
Definition at line 48 of file TtSemiLepHitFitProducer.h.
hitfit::LeptonTranslatorBase<pat::Electron> TtSemiLepHitFitProducer< LeptonCollection >::electronTranslator_ [private] |
Definition at line 92 of file TtSemiLepHitFitProducer.h.
Referenced by TtSemiLepHitFitProducer< LeptonCollection >::TtSemiLepHitFitProducer().
PatHitFit* TtSemiLepHitFitProducer< LeptonCollection >::HitFit [private] |
Definition at line 97 of file TtSemiLepHitFitProducer.h.
Referenced by TtSemiLepHitFitProducer< LeptonCollection >::TtSemiLepHitFitProducer().
edm::FileInPath TtSemiLepHitFitProducer< LeptonCollection >::hitfitBJetResolution_ [private] |
Definition at line 89 of file TtSemiLepHitFitProducer.h.
edm::FileInPath TtSemiLepHitFitProducer< LeptonCollection >::hitfitDefault_ [private] |
Definition at line 85 of file TtSemiLepHitFitProducer.h.
Referenced by TtSemiLepHitFitProducer< LeptonCollection >::TtSemiLepHitFitProducer().
edm::FileInPath TtSemiLepHitFitProducer< LeptonCollection >::hitfitElectronResolution_ [private] |
Definition at line 86 of file TtSemiLepHitFitProducer.h.
edm::FileInPath TtSemiLepHitFitProducer< LeptonCollection >::hitfitMETResolution_ [private] |
Definition at line 90 of file TtSemiLepHitFitProducer.h.
edm::FileInPath TtSemiLepHitFitProducer< LeptonCollection >::hitfitMuonResolution_ [private] |
Definition at line 87 of file TtSemiLepHitFitProducer.h.
edm::FileInPath TtSemiLepHitFitProducer< LeptonCollection >::hitfitUdscJetResolution_ [private] |
Definition at line 88 of file TtSemiLepHitFitProducer.h.
double TtSemiLepHitFitProducer< LeptonCollection >::jes_ [private] |
jet energy scale
Definition at line 64 of file TtSemiLepHitFitProducer.h.
double TtSemiLepHitFitProducer< LeptonCollection >::jesB_ [private] |
Definition at line 65 of file TtSemiLepHitFitProducer.h.
std::string TtSemiLepHitFitProducer< LeptonCollection >::jetCorrectionLevel_ [private] |
jet correction level
Definition at line 61 of file TtSemiLepHitFitProducer.h.
edm::InputTag TtSemiLepHitFitProducer< LeptonCollection >::jets_ [private] |
Definition at line 31 of file TtSemiLepHitFitProducer.h.
hitfit::JetTranslatorBase<pat::Jet> TtSemiLepHitFitProducer< LeptonCollection >::jetTranslator_ [private] |
Definition at line 94 of file TtSemiLepHitFitProducer.h.
Referenced by TtSemiLepHitFitProducer< LeptonCollection >::TtSemiLepHitFitProducer().
edm::InputTag TtSemiLepHitFitProducer< LeptonCollection >::leps_ [private] |
Definition at line 32 of file TtSemiLepHitFitProducer.h.
double TtSemiLepHitFitProducer< LeptonCollection >::maxBTagValueNonBJet_ [private] |
max value of bTag for a non-b-jet
Definition at line 52 of file TtSemiLepHitFitProducer.h.
double TtSemiLepHitFitProducer< LeptonCollection >::maxEtaEle_ [private] |
maximum eta value for electrons, needed to limited range in which resolutions are provided
Definition at line 43 of file TtSemiLepHitFitProducer.h.
Referenced by TtSemiLepHitFitProducer< LeptonCollection >::TtSemiLepHitFitProducer().
double TtSemiLepHitFitProducer< LeptonCollection >::maxEtaJet_ [private] |
maximum eta value for jets, needed to limited range in which resolutions are provided
Definition at line 45 of file TtSemiLepHitFitProducer.h.
Referenced by TtSemiLepHitFitProducer< LeptonCollection >::TtSemiLepHitFitProducer().
double TtSemiLepHitFitProducer< LeptonCollection >::maxEtaMu_ [private] |
maximum eta value for muons, needed to limited range in which resolutions are provided
Definition at line 41 of file TtSemiLepHitFitProducer.h.
Referenced by TtSemiLepHitFitProducer< LeptonCollection >::TtSemiLepHitFitProducer().
int TtSemiLepHitFitProducer< LeptonCollection >::maxNComb_ [private] |
maximal number of combinations to be written to the event
Definition at line 38 of file TtSemiLepHitFitProducer.h.
int TtSemiLepHitFitProducer< LeptonCollection >::maxNJets_ [private] |
maximal number of jets (-1 possible to indicate 'all')
Definition at line 36 of file TtSemiLepHitFitProducer.h.
edm::InputTag TtSemiLepHitFitProducer< LeptonCollection >::mets_ [private] |
Definition at line 33 of file TtSemiLepHitFitProducer.h.
hitfit::METTranslatorBase<pat::MET> TtSemiLepHitFitProducer< LeptonCollection >::metTranslator_ [private] |
Definition at line 95 of file TtSemiLepHitFitProducer.h.
Referenced by TtSemiLepHitFitProducer< LeptonCollection >::TtSemiLepHitFitProducer().
double TtSemiLepHitFitProducer< LeptonCollection >::minBTagValueBJet_ [private] |
min value of bTag for a b-jet
Definition at line 50 of file TtSemiLepHitFitProducer.h.
double TtSemiLepHitFitProducer< LeptonCollection >::mTop_ [private] |
Definition at line 58 of file TtSemiLepHitFitProducer.h.
Referenced by TtSemiLepHitFitProducer< LeptonCollection >::TtSemiLepHitFitProducer().
hitfit::LeptonTranslatorBase<pat::Muon> TtSemiLepHitFitProducer< LeptonCollection >::muonTranslator_ [private] |
Definition at line 93 of file TtSemiLepHitFitProducer.h.
Referenced by TtSemiLepHitFitProducer< LeptonCollection >::TtSemiLepHitFitProducer().
double TtSemiLepHitFitProducer< LeptonCollection >::mW_ [private] |
constraints
Definition at line 57 of file TtSemiLepHitFitProducer.h.
Referenced by TtSemiLepHitFitProducer< LeptonCollection >::TtSemiLepHitFitProducer().
bool TtSemiLepHitFitProducer< LeptonCollection >::useBTag_ [private] |
switch to tell whether to use b-tagging or not
Definition at line 54 of file TtSemiLepHitFitProducer.h.