void METAnalyser::analyse_ST(const EventPtr event, const ParticlePointer particle, const JetCollection jets) {
histMan_->setCurrentHistogramFolder(histogramFolder_);
weight_ = event->weight() * prescale_ * scale_;
for (unsigned index = 0; index < METAlgorithm::NUMBER_OF_METALGORITHMS; ++index) {
std::string prefix = METAlgorithm::prefixes.at(index);
METAlgorithm::value metType = (METAlgorithm::value) index;
if (!MET::isAvailableInNTupleVersion(Globals::NTupleVersion, index))
continue;
bool isMCOnlyMET = MET::isMCOnlyMETType(index);
if (isMCOnlyMET && event->isRealData()) //these METs are MC only (Jet resolution systematics)
continue;
const METPointer met(event->MET(metType));
float ST = Event::ST(jets, particle, met);
float WPT = Event::WPT(particle, met);
float MT = Event::MT(particle, met);
histMan_->setCurrentHistogramFolder(histogramFolder_ + "/" + prefix);
histMan_->H1D("ST")->Fill(ST, weight_);
histMan_->H1D("WPT")->Fill(WPT, weight_);
histMan_->H1D("MT")->Fill(MT, weight_);
treeMan_->setCurrentFolder(histogramFolder_);
treeMan_->Fill("ST",ST);
treeMan_->Fill("WPT",WPT);
treeMan_->Fill("MT",MT);
histMan_->H2D("HT_vs_MET_plus_leptonPt")->Fill(particle->pt() + met->et(), Event::HT(jets), weight_);
}
}
void METAnalyser::analyseTransverseMass(const EventPtr event, const ParticlePointer particle) {
histMan_->setCurrentHistogramFolder(histogramFolder_);
weight_ = event->weight() * prescale_ * scale_;
for (unsigned index = 0; index < METAlgorithm::NUMBER_OF_METALGORITHMS; ++index) {
std::string prefix = METAlgorithm::prefixes.at(index);
METAlgorithm::value metType = (METAlgorithm::value) index;
if (!MET::isAvailableInNTupleVersion(Globals::NTupleVersion, index))
continue;
if (MET::isMCOnlyMETType(index) && event->isRealData())
continue; //skip MC only METs for real data
const METPointer met(event->MET(metType));
histMan_->setCurrentHistogramFolder(histogramFolder_ + "/" + prefix);
//do not fill histograms for met systematics
if (index > METAlgorithm::patType1p2CorrectedPFMet)
continue;
double MT = Event::MT(particle, met);
double angle = met->angle(particle);
double delPhi = met->deltaPhi(particle);
histMan_->H1D_BJetBinned("Transverse_Mass")->Fill(MT, weight_);
histMan_->H1D_BJetBinned("Angle_lepton_MET")->Fill(angle, weight_);
histMan_->H1D_BJetBinned("DeltaPhi_lepton_MET")->Fill(delPhi, weight_);
if (met->et() < 20)
histMan_->H1D_BJetBinned("Transverse_Mass_MET20")->Fill(MT, weight_);
}
}
bool TopPairEMuReferenceSelection::passesMetCut(const EventPtr event) const {
const METPointer met(event->MET());
return met->pt() > 40;
}
void TTbar_plus_X_analyser::fillCommonTreesNoBSelection(const EventPtr event, const unsigned int selectionCriteria, std::string folder ) {
SelectionCriteria::selection selection = SelectionCriteria::selection(selectionCriteria);
// Jets
const JetCollection jets(event->CleanedJets());
// B Jets
const JetCollection bJets(event->CleanedBJets());
// Lepton
const LeptonPointer signalLepton = event->getSignalLepton( selection );
// MET
const METPointer MET_original(event->MET((METAlgorithm::value) 0));
treeMan_->setCurrentFolder(folder);
treeMan_->Fill("EventWeight", event->weight());
treeMan_->Fill("PUWeight", event->PileUpWeight());
treeMan_->Fill("PUWeight_up", event->PileUpWeight(1));
treeMan_->Fill("PUWeight_down", event->PileUpWeight(-1));
treeMan_->Fill("M3",Event::M3(jets));
if ( Event::NJets(bJets) > 0 ) {
treeMan_->Fill("M_bl",Event::M_bl(bJets, signalLepton));
treeMan_->Fill("angle_bl",Event::angle_bl(bJets, signalLepton));
}
treeMan_->Fill("HT",Event::HT(jets));
treeMan_->Fill("MET",MET_original->et());
treeMan_->Fill("MET_phi",MET_original->phi());
treeMan_->Fill("ST",Event::ST(jets, signalLepton, MET_original));
treeMan_->Fill("WPT",Event::WPT(signalLepton, MET_original));
treeMan_->Fill("MT",Event::MT(signalLepton, MET_original));
treeMan_->Fill("NJets",Event::NJets(jets));
treeMan_->Fill("NBJets",Event::NJets(bJets));
treeMan_->Fill("NVertices", event->Vertices().size());
treeMan_->Fill("BJetWeight",event->BJetWeight());
treeMan_->Fill("BJetEfficiencyCorrectionWeight",event->BJetEfficiencyCorrectionWeight());
treeMan_->Fill("BJetAlternativeWeight",event->BJetAlternativeWeight());
treeMan_->Fill("BJetUpWeight",event->BJetUpWeight());
treeMan_->Fill("BJetDownWeight",event->BJetDownWeight());
treeMan_->Fill("LightJetUpWeight",event->LightJetUpWeight());
treeMan_->Fill("LightJetDownWeight",event->LightJetDownWeight());
if (selection == SelectionCriteria::selection(SelectionCriteria::ElectronPlusJetsReference)){
treeMan_->Fill("lepton_isolation", signalLepton->PFRelIso03DeltaBeta());
}
else if (selection == SelectionCriteria::selection(SelectionCriteria::MuonPlusJetsReference)){
treeMan_->Fill("lepton_isolation", signalLepton->PFRelIso04DeltaBeta());
}
for (unsigned int index = 0; index < jets.size(); ++index) {
treeMan_->Fill("jet_csv", jets.at(index)->getBTagDiscriminator(BtagAlgorithm::CombinedSecondaryVertexV2) );
}
fillLeptonEfficiencyCorrectionBranches( event, selectionCriteria, signalLepton );
}
double Event::MT(const ParticlePointer particle, const METPointer met) {
double energySquared = pow(particle->et() + met->et(), 2);
double momentumSquared = pow(particle->px() + met->px(), 2) + pow(particle->py() + met->py(), 2);
double MTSquared = energySquared - momentumSquared;
if (MTSquared > 0)
return sqrt(MTSquared);
else
return -1;
}
void METAnalyser::analyse(const EventPtr event) {
histMan_->setCurrentHistogramFolder(histogramFolder_);
weight_ = event->weight() * prescale_ * scale_;
for (unsigned index = 0; index < METAlgorithm::NUMBER_OF_METALGORITHMS; ++index) {
std::string prefix = METAlgorithm::prefixes.at(index);
METAlgorithm::value metType = (METAlgorithm::value) index;
if (!MET::isAvailableInNTupleVersion(Globals::NTupleVersion, index))
continue;
bool isMCOnlyMET = MET::isMCOnlyMETType(index);
if (isMCOnlyMET && event->isRealData()) //these METs are MC only (Jet resolution systematics)
continue;
const METPointer met(event->MET(metType));
histMan_->setCurrentHistogramFolder(histogramFolder_ + "/" + prefix);
histMan_->H1D_BJetBinned("MET")->Fill(met->et(), weight_);
if (index != METAlgorithm::GenMET && !event->isRealData()) {
histMan_->H2D_BJetBinned("RecoMET_vs_GenMET")->Fill(event->GenMET()->et(), met->et(), weight_);
}
//do not fill other histograms for met systematics
if ((index > METAlgorithm::patType1p2CorrectedPFMet) && (index != METAlgorithm::recoMetPFlow))
continue;
histMan_->H1D_BJetBinned("MET_phi")->Fill(met->phi(), weight_);
histMan_->H1D_BJetBinned("METsignificance")->Fill(met->significance(), weight_);
histMan_->H2D_BJetBinned("METsignificance_vs_MET")->Fill(met->et(), met->significance(), weight_);
}
}
void TTbar_plus_X_analyser::fillCommonTrees(const EventPtr event, const unsigned int selectionCriteria, std::string folder ) {
SelectionCriteria::selection selection = SelectionCriteria::selection(selectionCriteria);
// Jets
const JetCollection jets(event->CleanedJets());
// B Jets
unsigned int numberOfBjets = event->getNBJets( selection );
const JetCollection bJets(event->CleanedBJets());
// Lepton
const LeptonPointer signalLepton = event->getSignalLepton( selection );
// MET
const METPointer MET_original(event->MET((METAlgorithm::value) 0));
treeMan_->setCurrentFolder(folder);
treeMan_->Fill("EventWeight", event->weight());
treeMan_->Fill("PUWeight", event->PileUpWeight());
treeMan_->Fill("PUWeight_up", event->PileUpWeight(1));
treeMan_->Fill("PUWeight_down", event->PileUpWeight(-1));
treeMan_->Fill("lepton_eta",signalLepton->eta());
treeMan_->Fill("lepton_pt",signalLepton->pt());
treeMan_->Fill("lepton_charge",signalLepton->charge());
if (selection == SelectionCriteria::selection(SelectionCriteria::ElectronPlusJetsReference) ||
selection == SelectionCriteria::selection(SelectionCriteria::ElectronPlusJetsQCDNonIsolated) ||
selection == SelectionCriteria::selection(SelectionCriteria::ElectronPlusJetsQCDConversion)){
treeMan_->Fill("lepton_isolation", signalLepton->PFRelIsoWithEA());
treeMan_->Fill("lepton_hltECALisolation", signalLepton->hltECALIso());
treeMan_->Fill("lepton_hltHCALisolation", signalLepton->hltHCALIso());
treeMan_->Fill("lepton_hltTrackerisolation", signalLepton->hltTrackerIso());
if ( signalLepton->pt() > 0 ) {
treeMan_->Fill("lepton_hltTrackerisolation_overPt", signalLepton->hltTrackerIso() / signalLepton->pt() );
}
}
else if (selection == SelectionCriteria::selection(SelectionCriteria::MuonPlusJetsReference) ||
selection == SelectionCriteria::selection(SelectionCriteria::MuonPlusJetsQCDNonIsolated1p5to3) ||
selection == SelectionCriteria::selection(SelectionCriteria::MuonPlusJetsQCDNonIsolated3toInf)){
treeMan_->Fill("lepton_isolation", signalLepton->PFRelIso04DeltaBeta());
}
treeMan_->Fill("M3",Event::M3(jets));
if ( numberOfBjets > 0 ) {
treeMan_->Fill("M_bl",Event::M_bl(bJets, signalLepton));
treeMan_->Fill("angle_bl",Event::angle_bl(bJets, signalLepton));
// if ( numberOfBjets >= 2 ) {
// unsigned int highestCSVJetIndex = 0;
// unsigned int secondHighestCSVJetIndex = 0;
// Event::getTopTwoCSVJets( bJets, highestCSVJetIndex, secondHighestCSVJetIndex );
// JetPointer highestCSVJet(bJets.at(highestCSVJetIndex));
// JetPointer secondHighestCSVJet(bJets.at(secondHighestCSVJetIndex));
// treeMan_->Fill("deltaPhi_bb", fabs( Event::deltaPhi_bb(highestCSVJet, secondHighestCSVJet) ) ) ;
// treeMan_->Fill("deltaEta_bb", fabs( Event::deltaEta_bb(highestCSVJet, secondHighestCSVJet) ) ) ;
// treeMan_->Fill("angle_bb", Event::angle_bb(highestCSVJet, secondHighestCSVJet));
// }
}
for (unsigned int index = 0; index < jets.size(); ++index) {
treeMan_->Fill("jet_pt", jets.at(index)->pt() );
treeMan_->Fill("jet_eta", jets.at(index)->eta() );
treeMan_->Fill("jet_csv", jets.at(index)->getBTagDiscriminator(BtagAlgorithm::CombinedSecondaryVertexV2) );
}
treeMan_->Fill("HT",Event::HT(jets));
treeMan_->Fill("MET",MET_original->et());
treeMan_->Fill("MET_phi",MET_original->phi());
treeMan_->Fill("ST",Event::ST(jets, signalLepton, MET_original));
treeMan_->Fill("WPT",Event::WPT(signalLepton, MET_original));
treeMan_->Fill("MT",Event::MT(signalLepton, MET_original));
treeMan_->Fill("NJets",Event::NJets(jets));
treeMan_->Fill("NBJets",Event::NJets(bJets));
treeMan_->Fill("NVertices", event->Vertices().size());
treeMan_->Fill("BJetWeight",event->BJetWeight());
treeMan_->Fill("BJetEfficiencyCorrectionWeight",event->BJetEfficiencyCorrectionWeight());
treeMan_->Fill("BJetAlternativeWeight",event->BJetAlternativeWeight());
treeMan_->Fill("BJetUpWeight",event->BJetUpWeight());
treeMan_->Fill("BJetDownWeight",event->BJetDownWeight());
treeMan_->Fill("LightJetUpWeight",event->LightJetUpWeight());
treeMan_->Fill("LightJetDownWeight",event->LightJetDownWeight());
treeMan_->Fill("tau1", event->getTau1());
treeMan_->Fill("tau2", event->getTau2());
treeMan_->Fill("tau3", event->getTau3());
treeMan_->Fill("tau4", event->getTau4());
treeMan_->Fill("tau5", event->getTau5());
treeMan_->Fill("tau6", event->getTau6());
// MET Uncertainties
for ( unsigned int unc_i = 0; unc_i < MET_original->getAllMETUncertainties().size(); ++unc_i ) {
METPointer METForUnc_i = MET_original->getMETForUncertainty( unc_i );
treeMan_->Fill("MET_METUncertainties",METForUnc_i->et());
treeMan_->Fill("ST_METUncertainties",Event::ST(jets, signalLepton, METForUnc_i));
treeMan_->Fill("WPT_METUncertainties",Event::WPT(signalLepton, METForUnc_i));
}
double topPtWeight = 1.;
if ( ( event->isSemiLeptonicElectron() || event->isSemiLeptonicMuon() ) ) {
const TTGenInfoPointer ttGen( event->TTGenInfo() );
const ParticlePointer leptonicTop = ttGen->getLeptonicTop();
const ParticlePointer hadronicTop = ttGen->getHadronicTop();
if ( leptonicTop != 0 && hadronicTop != 0 ) {
// Store info on leptonic top
treeMan_->Fill("lepTopPt_parton", leptonicTop->pt() );
treeMan_->Fill("hadTopPt_parton", hadronicTop->pt() );
topPtWeight = exp( 0.0615 - 0.0005 * leptonicTop->pt() ) * exp( 0.0615 - 0.0005 * hadronicTop->pt() );
}
}
treeMan_->Fill("topPtWeight",topPtWeight);
fillLeptonEfficiencyCorrectionBranches( event, selectionCriteria, signalLepton );
wAnalyser_->analyseHadronicW( event, jets, bJets, folder );
}
void TTbar_plus_X_analyser::fillCommonTrees(const EventPtr event, const unsigned int selectionCriteria, std::string folder ) {
SelectionCriteria::selection selection = SelectionCriteria::selection(selectionCriteria);
// Jets
const JetCollection jets(event->CleanedJets());
// B Jets
unsigned int numberOfBjets = event->getNBJets( selection );
const JetCollection bJets(event->CleanedBJets());
// Lepton
const LeptonPointer signalLepton = event->getSignalLepton( selection );
// MET
const METPointer MET_original(event->MET((METAlgorithm::value) 0));
treeMan_->setCurrentFolder(folder);
treeMan_->Fill("EventWeight", event->weight());
treeMan_->Fill("PUWeight", event->PileUpWeight());
treeMan_->Fill("PUWeight_up", event->PileUpWeight(1));
treeMan_->Fill("PUWeight_down", event->PileUpWeight(-1));
treeMan_->Fill("lepton_eta",signalLepton->eta());
treeMan_->Fill("lepton_pt",signalLepton->pt());
treeMan_->Fill("lepton_charge",signalLepton->charge());
if (selection == SelectionCriteria::selection(SelectionCriteria::ElectronPlusJetsReference) ||
selection == SelectionCriteria::selection(SelectionCriteria::ElectronPlusJetsQCDNonIsolated) ||
selection == SelectionCriteria::selection(SelectionCriteria::ElectronPlusJetsQCDConversion)){
treeMan_->Fill("lepton_isolation", signalLepton->PFRelIsoWithEA());
}
else if (selection == SelectionCriteria::selection(SelectionCriteria::MuonPlusJetsReference) ||
selection == SelectionCriteria::selection(SelectionCriteria::MuonPlusJetsQCDNonIsolated1p5to3) ||
selection == SelectionCriteria::selection(SelectionCriteria::MuonPlusJetsQCDNonIsolated3toInf)){
treeMan_->Fill("lepton_isolation", signalLepton->PFRelIso04DeltaBeta());
}
treeMan_->Fill("M3",Event::M3(jets));
if ( numberOfBjets > 0 ) {
treeMan_->Fill("M_bl",Event::M_bl(bJets, signalLepton));
treeMan_->Fill("angle_bl",Event::angle_bl(bJets, signalLepton));
}
for (unsigned int index = 0; index < jets.size(); ++index) {
treeMan_->Fill("jet_pt", jets.at(index)->pt() );
treeMan_->Fill("jet_eta", jets.at(index)->eta() );
}
treeMan_->Fill("HT",Event::HT(jets));
treeMan_->Fill("MET",MET_original->et());
treeMan_->Fill("ST",Event::ST(jets, signalLepton, MET_original));
treeMan_->Fill("WPT",Event::WPT(signalLepton, MET_original));
treeMan_->Fill("MT",Event::MT(signalLepton, MET_original));
treeMan_->Fill("NJets",Event::NJets(jets));
treeMan_->Fill("NBJets",Event::NJets(bJets));
treeMan_->Fill("NVertices", event->Vertices().size());
treeMan_->Fill("BJetWeight",event->BJetWeight());
treeMan_->Fill("BJetUpWeight",event->BJetUpWeight());
treeMan_->Fill("BJetDownWeight",event->BJetDownWeight());
treeMan_->Fill("LightJetUpWeight",event->LightJetUpWeight());
treeMan_->Fill("LightJetDownWeight",event->LightJetDownWeight());
// MET Uncertainties
for ( unsigned int unc_i = 0; unc_i < MET_original->getAllMETUncertainties().size(); ++unc_i ) {
METPointer METForUnc_i = MET_original->getMETForUncertainty( unc_i );
treeMan_->Fill("MET_METUncertainties",METForUnc_i->et());
treeMan_->Fill("ST_METUncertainties",Event::ST(jets, signalLepton, METForUnc_i));
treeMan_->Fill("WPT_METUncertainties",Event::WPT(signalLepton, METForUnc_i));
}
fillLeptonEfficiencyCorrectionBranches( event, selectionCriteria, signalLepton );
}
const EventPtr NTupleEventReader::getNextEvent() {
currentEvent = EventPtr(new Event());
selectNextNtupleEvent();
// boost::shared_ptr<std::vector<int> > triggers(new std::vector<int>());
// boost::shared_ptr<std::vector<int> > triggerPrescales(new std::vector<int>());
// // assert(hltReader->size() == HLTriggers::NUMBER_OF_TRIGGERS);
// for (unsigned int i = 0; i < hltReader->size(); i++) {
// triggers->push_back(hltReader->getIntVariableAt(i));
// triggerPrescales->push_back(hltPrescaleReader->getIntVariableAt(i));
// }
// while (triggers->size() < HLTriggers::NUMBER_OF_TRIGGERS) {
// triggers->push_back(0);
// triggerPrescales->push_back(0);
// }
currentEvent->setDataType(DataType::getDataType(getCurrentFile()));
currentEvent->setFile(getCurrentFile());
// currentEvent->setHLTs(triggers);
// currentEvent->setHLTPrescales(triggerPrescales);
currentEvent->setVertices(vertexReader->getVertices());
if (NTupleEventReader::loadTracks)
currentEvent->setTracks(trackReader->getTracks());
//fill leptons BEFORE jets for jet cleaning
currentEvent->setElectrons(electronReader->getElectrons());
currentEvent->setMuons(muonReader->getMuons());
currentEvent->setJets(jetReader->getJets(currentEvent->isRealData()));
if (currentEvent->isRealData()) {
currentEvent->setPassesElectronChannelTrigger( passesElectronChannelTriggerReader->getVariable() );
currentEvent->setPassesMuonChannelTrigger( passesMuonChannelTriggerReader->getVariable() );
currentEvent->setPassesTkMuonChannelTrigger( passesTkMuonChannelTriggerReader->getVariable() );
currentEvent->setPassesElectronChannelQCDTrigger( passesElectronChannelTriggerReader->getVariable() );
currentEvent->setPassesMuonChannelQCDTrigger( passesMuonChannelTriggerReader->getVariable() );
}
else if ( currentEvent->isReHLTMC() ) {
// currentEvent->setPassesElectronChannelTrigger( passesElectronChannelMCTriggerReader->getVariable() );
// currentEvent->setPassesMuonChannelTrigger( passesMuonChannelMCTriggerReader->getVariable() );
// currentEvent->setPassesTkMuonChannelTrigger( passesTkMuonChannelMCTriggerReader->getVariable() );
currentEvent->setPassesElectronChannelTrigger( true );
currentEvent->setPassesMuonChannelTrigger( true );
currentEvent->setPassesTkMuonChannelTrigger( true );
currentEvent->setPassesElectronChannelQCDTrigger( true );
currentEvent->setPassesMuonChannelQCDTrigger( passesMuonChannelMCTriggerReader->getVariable() );
}
else {
currentEvent->setPassesElectronChannelTrigger( true );
currentEvent->setPassesMuonChannelTrigger( true );
currentEvent->setPassesTkMuonChannelTrigger( true );
currentEvent->setPassesElectronChannelQCDTrigger( true );
currentEvent->setPassesMuonChannelQCDTrigger( true );
}
// Set info that depends on selection criteria e.g. cleaned jets
// Must do this before setPassOfflineSelectionInfo, as this selects on the cleaned jets
currentEvent->setElectronSelectionOutputInfo( selectionOutputReader_electron->getSelectionOutputInfo() );
currentEvent->setMuonSelectionOutputInfo( selectionOutputReader_muon->getSelectionOutputInfo() );
currentEvent->setElectronQCDNonisolatedSelectionOutputInfo( selectionOutputReader_electronQCDNonisolated->getSelectionOutputInfo() );
currentEvent->setElectronConversionSelectionOutputInfo( selectionOutputReader_electronQCDConversion->getSelectionOutputInfo() );
currentEvent->setMuonQCDNonisolatedSelection1p5to3OutputInfo( selectionOutputReader_muonQCDNonisolated1p5to3->getSelectionOutputInfo() );
currentEvent->setMuonQCDNonisolatedSelection3toInfOutputInfo( selectionOutputReader_muonQCDNonisolated3toInf->getSelectionOutputInfo() );
currentEvent->setPassOfflineSelectionInfo( *passesOfflineSelectionReader->getVariable() );
currentEvent->setPassGenSelectionInfo( *passesGenSelectionReader->getVariable() );
if (!currentEvent->isRealData()) {
currentEvent->setTTGenInfo( ttGenInfoReader->getTTGenInfo());
// Have to do this after setting jets and TTGenInfo
currentEvent->setJetTTBarPartons();
// std::cout << "Gen Particles etc." << std::endl;
// currentEvent->setGenParticles(genParticleReader->getGenParticles());
currentEvent->setGenJets(genJetReader->getGenJets());
currentEvent->setPseudoTopParticles( pseudoTopReader->getPseudoTopParticles() );
// currentEvent->setGenNumberOfPileUpVertices(*PileupInfoReader->getVariable());
// currentEvent->setPDFWeights(*PDFWeightsReader->getVariable());
currentEvent->setTrueNumberOfPileUpVertices(*TruePileupInfoReader->getVariable());
// if (Globals::NTupleVersion >= 6) {
// currentEvent->setPUWeightInTimeOnly(PUWeightInTimeOnly_->getVariable());
// currentEvent->setPUWeight3BX(PUWeight3BX_->getVariable());
// currentEvent->setPUWeightShiftUp(PUWeightShiftUp_->getVariable());
// currentEvent->setPUWeightShiftDown(PUWeightShiftDown_->getVariable());
// }
currentEvent->setGeneratorWeight( generatorWeightReader_->getVariable() );
currentEvent->setGeneratorSystematicWeights( *systematicWeightsReader_->getVariable() );
currentEvent->setCentralLHEWeight( centralLHEWeightReader_->getVariable() );
}
// Get and set the cleaned jets for this event
// After knowing which selection criteria are satisfied
if( currentEvent->PassesElectronSelectionNoB() ) {
currentEvent->setCleanedJets( currentEvent->getCleanedJets( SelectionCriteria::ElectronPlusJetsReference ) );
currentEvent->setCleanedBJets( currentEvent->getCleanedBJets( SelectionCriteria::ElectronPlusJetsReference ) );
}
else if ( currentEvent->PassesMuonSelectionNoB() ) {
currentEvent->setCleanedJets( currentEvent->getCleanedJets( SelectionCriteria::MuonPlusJetsReference ) );
currentEvent->setCleanedBJets( currentEvent->getCleanedBJets( SelectionCriteria::MuonPlusJetsReference ) );
}
else if ( currentEvent->PassesElectronQCDSelectionNoB() ) {
currentEvent->setCleanedJets( currentEvent->getCleanedJets( SelectionCriteria::ElectronPlusJetsQCDNonIsolated ) );
currentEvent->setCleanedBJets( currentEvent->getCleanedBJets( SelectionCriteria::ElectronPlusJetsQCDNonIsolated ) );
}
else if ( currentEvent->PassesElectronConversionSelectionNoB() ) {
currentEvent->setCleanedJets( currentEvent->getCleanedJets( SelectionCriteria::ElectronPlusJetsQCDConversion ) );
currentEvent->setCleanedBJets( currentEvent->getCleanedBJets( SelectionCriteria::ElectronPlusJetsQCDConversion ) );
}
else if ( currentEvent->PassesMuonQCDSelection1p5to3NoB() ) {
currentEvent->setCleanedJets( currentEvent->getCleanedJets( SelectionCriteria::MuonPlusJetsQCDNonIsolated1p5to3 ) );
currentEvent->setCleanedBJets( currentEvent->getCleanedBJets( SelectionCriteria::MuonPlusJetsQCDNonIsolated1p5to3 ) );
}
else if ( currentEvent->PassesMuonQCDSelection3toInfNoB() ) {
currentEvent->setCleanedJets( currentEvent->getCleanedJets( SelectionCriteria::MuonPlusJetsQCDNonIsolated3toInf ) );
currentEvent->setCleanedBJets( currentEvent->getCleanedBJets( SelectionCriteria::MuonPlusJetsQCDNonIsolated3toInf ) );
}
// Set bjet weight
if ( !currentEvent->isRealData() ) {
boost::scoped_ptr<BTagWeight> btagWeight(new BTagWeight());
// Normal 2 medium BTags selection
// Which combination of b tags do you want?
// L = Loose, Not implemented yet
// M = Medium,
// T = Tight,
// Currently only same WP jets are supported
double bweight = btagWeight->weight( currentEvent->CleanedJets(), 0, {"M", "M"} );
currentEvent->setBJetWeight( bweight );
bweight = btagWeight->weight( currentEvent->CleanedJets(), 1, {"M", "M"} );
currentEvent->setLightJetUpWeight( bweight );
bweight = btagWeight->weight( currentEvent->CleanedJets(), -1, {"M", "M"} );
currentEvent->setLightJetDownWeight( bweight );
bweight = btagWeight->weight( currentEvent->CleanedJets(), 2, {"M", "M"} );
currentEvent->setBJetUpWeight( bweight );
bweight = btagWeight->weight( currentEvent->CleanedJets(), -2, {"M", "M"} );
currentEvent->setBJetDownWeight( bweight );
// 2 tight BTags selection
bweight = btagWeight->weight( currentEvent->CleanedJets(), 0, {"T", "T"} );
currentEvent->setTightBJetWeight( bweight );
// bweight = btagWeight->weight( currentEvent->CleanedJets(), 1, {"T", "T"} );
// currentEvent->setTightLightJetUpWeight( bweight );
// bweight = btagWeight->weight( currentEvent->CleanedJets(), -1, {"T", "T"} );
// currentEvent->setTightLightJetDownWeight( bweight );
// bweight = btagWeight->weight( currentEvent->CleanedJets(), 2, {"T", "T"} );
// currentEvent->setTightBJetUpWeight( bweight );
// bweight = btagWeight->weight( currentEvent->CleanedJets(), -2, {"T", "T"} );
// currentEvent->setTightBJetDownWeight( bweight );
}
double sysShiftMetCorrectionX = 0;
double sysShiftMetCorrectionY = 0;
double type0MetCorrectionX = 0;
double type0MetCorrectionY = 0;
double type1MetCorrectionX = 0;
double type1MetCorrectionY = 0;
double totalMetCorrectionX = sysShiftMetCorrectionX + type0MetCorrectionX + type1MetCorrectionX;
double totalMetCorrectionY = sysShiftMetCorrectionY + type0MetCorrectionY + type1MetCorrectionY;
METCollection mets;
mets.resize(METAlgorithm::NUMBER_OF_METALGORITHMS);
for (unsigned int index = 0; index < METAlgorithm::NUMBER_OF_METALGORITHMS; ++index) {
if (!MET::isAvailableInNTupleVersion(Globals::NTupleVersion, index))
continue;
bool isMCOnlyMET = MET::isMCOnlyMETType(index);
// if (isMCOnlyMET && currentEvent->isRealData())
if (isMCOnlyMET)
continue;
const METPointer met(metReaders.at(index)->getMET(totalMetCorrectionX, totalMetCorrectionY));
if (Globals::NTupleVersion >= 7){
met->setSumET(sumETReader_->getVariable());
currentEvent->setHCALLaserFilter(HCALLaserFilter->getVariable());
currentEvent->setECALDeadCellFilter(ECALDeadCellFilter->getVariable());
currentEvent->setTrackingFailureFilter(TrackingFailureFilter->getVariable());
currentEvent->setCSCTightBeamHaloFilter(!CSCTightHaloId->getVariable());
currentEvent->setHBHENoiseFilter(true);//we filter on this for the skim
}
if (Globals::NTupleVersion >= 9){
currentEvent->setECALDeadCellTPFilter(ECALDeadCellTPFilter->getVariable());
}
if (Globals::NTupleVersion >= 10){
currentEvent->setEEBadSCFilter(EEBadSCFilter->getVariable());
currentEvent->setECALLaserCorrFilter(ECALLaserCorrFilter->getVariable());
currentEvent->setTrackingPOGFilters(TrackingPOGFilters->getVariable());
}
mets.at(index) = met;
}
currentEvent->setMETs(mets);
currentEvent->setRunNumber(runNumberReader->getVariable());
currentEvent->setEventNumber(eventNumberReader->getVariable());
currentEvent->setLocalEventNumber(currentEventEntry);
currentEvent->setLumiBlock(lumiBlockReader->getVariable());
currentEvent->setBeamScrapingVeto(false);
if (currentEvent->isRealData()) {
currentEvent->setPassesMETFilters(passesMetFilterReader_->getVariable());
}
return currentEvent;
}
const EventPtr NTupleEventReader::getNextEvent() {
currentEvent = EventPtr(new Event());
selectNextNtupleEvent();
// boost::shared_ptr<std::vector<int> > triggers(new std::vector<int>());
// boost::shared_ptr<std::vector<int> > triggerPrescales(new std::vector<int>());
// // assert(hltReader->size() == HLTriggers::NUMBER_OF_TRIGGERS);
// for (unsigned int i = 0; i < hltReader->size(); i++) {
// triggers->push_back(hltReader->getIntVariableAt(i));
// triggerPrescales->push_back(hltPrescaleReader->getIntVariableAt(i));
// }
// while (triggers->size() < HLTriggers::NUMBER_OF_TRIGGERS) {
// triggers->push_back(0);
// triggerPrescales->push_back(0);
// }
currentEvent->setDataType(DataType::getDataType(getCurrentFile()));
currentEvent->setFile(getCurrentFile());
// currentEvent->setHLTs(triggers);
// currentEvent->setHLTPrescales(triggerPrescales);
currentEvent->setVertices(vertexReader->getVertices());
if (NTupleEventReader::loadTracks)
currentEvent->setTracks(trackReader->getTracks());
//fill leptons BEFORE jets for jet cleaning
currentEvent->setElectrons(electronReader->getElectrons());
currentEvent->setMuons(muonReader->getMuons());
currentEvent->setJets(jetReader->getJets(currentEvent->isRealData()));
currentEvent->setPassesElectronChannelTrigger( passesElectronChannelTriggerReader->getVariable() );
currentEvent->setPassesMuonChannelTrigger( passesMuonChannelTriggerReader->getVariable() );
// Set info that depends on selection criteria e.g. cleaned jets
// Must do this before setPassOfflineSelectionInfo, as this selects on the cleaned jets
currentEvent->setElectronSelectionOutputInfo( selectionOutputReader_electron->getSelectionOutputInfo() );
currentEvent->setMuonSelectionOutputInfo( selectionOutputReader_muon->getSelectionOutputInfo() );
currentEvent->setElectronQCDNonisolatedSelectionOutputInfo( selectionOutputReader_electronQCDNonisolated->getSelectionOutputInfo() );
currentEvent->setElectronConversionSelectionOutputInfo( selectionOutputReader_electronQCDConversion->getSelectionOutputInfo() );
currentEvent->setMuonQCDNonisolatedSelectionOutputInfo( selectionOutputReader_muonQCDNonisolated->getSelectionOutputInfo() );
currentEvent->setPassOfflineSelectionInfo( *passesOfflineSelectionReader->getVariable() );
currentEvent->setPassGenSelectionInfo( *passesGenSelectionReader->getVariable() );
currentEvent->setTTGenInfo( ttGenInfoReader->getTTGenInfo());
// Have to do this after setting jets and TTGenInfo
currentEvent->setJetTTBarPartons();
if (!currentEvent->isRealData()) {
// std::cout << "Gen Particles etc." << std::endl;
// currentEvent->setGenParticles(genParticleReader->getGenParticles());
currentEvent->setGenJets(genJetReader->getGenJets());
currentEvent->setPseudoTopParticles( pseudoTopReader->getPseudoTopParticles() );
// currentEvent->setGenNumberOfPileUpVertices(*PileupInfoReader->getVariable());
// currentEvent->setPDFWeights(*PDFWeightsReader->getVariable());
// if (Globals::NTupleVersion >= 6) {
// currentEvent->setTrueNumberOfPileUpVertices(*TruePileupInfoReader->getVariable());
// currentEvent->setPUWeightInTimeOnly(PUWeightInTimeOnly_->getVariable());
// currentEvent->setPUWeight3BX(PUWeight3BX_->getVariable());
// currentEvent->setPUWeightShiftUp(PUWeightShiftUp_->getVariable());
// currentEvent->setPUWeightShiftDown(PUWeightShiftDown_->getVariable());
// }
}
// Get and set the cleaned jets for this event
// After knowing which selection criteria are satisfied
if( currentEvent->PassesElectronSelection() ) {
currentEvent->setCleanedJets( currentEvent->getCleanedJets( SelectionCriteria::ElectronPlusJetsReference ) );
currentEvent->setCleanedBJets( currentEvent->getCleanedBJets( SelectionCriteria::ElectronPlusJetsReference ) );
}
else if ( currentEvent->PassesMuonSelection() ) {
currentEvent->setCleanedJets( currentEvent->getCleanedJets( SelectionCriteria::MuonPlusJetsReference ) );
currentEvent->setCleanedBJets( currentEvent->getCleanedBJets( SelectionCriteria::MuonPlusJetsReference ) );
}
else if ( currentEvent->PassesElectronQCDSelection() ) {
currentEvent->setCleanedJets( currentEvent->getCleanedJets( SelectionCriteria::ElectronPlusJetsQCDNonIsolated ) );
currentEvent->setCleanedBJets( currentEvent->getCleanedBJets( SelectionCriteria::ElectronPlusJetsQCDNonIsolated ) );
}
else if ( currentEvent->PassesElectronConversionSelection() ) {
currentEvent->setCleanedJets( currentEvent->getCleanedJets( SelectionCriteria::ElectronPlusJetsQCDConversion ) );
currentEvent->setCleanedBJets( currentEvent->getCleanedBJets( SelectionCriteria::ElectronPlusJetsQCDConversion ) );
}
else if ( currentEvent->PassesMuonQCDSelection() ) {
currentEvent->setCleanedJets( currentEvent->getCleanedJets( SelectionCriteria::MuonPlusJetsQCDNonIsolated ) );
currentEvent->setCleanedBJets( currentEvent->getCleanedBJets( SelectionCriteria::MuonPlusJetsQCDNonIsolated ) );
}
double sysShiftMetCorrectionX = 0;
double sysShiftMetCorrectionY = 0;
double type0MetCorrectionX = 0;
double type0MetCorrectionY = 0;
double type1MetCorrectionX = 0;
double type1MetCorrectionY = 0;
// if (Globals::NTupleVersion > 8) {
// if (Globals::applySysShiftMetCorrection) {
// metCorrReaders.at(METCorrections::pfMetSysShiftCorrections)->readMETCorrections();
// sysShiftMetCorrectionX = metCorrReaders.at(METCorrections::pfMetSysShiftCorrections)->getXcorrection();
// sysShiftMetCorrectionY = metCorrReaders.at(METCorrections::pfMetSysShiftCorrections)->getYcorrection();
// }
// if (Globals::applyType0MetCorrection) {
// metCorrReaders.at(METCorrections::pfMetType0Corrections)->readMETCorrections();
// type0MetCorrectionX = metCorrReaders.at(METCorrections::pfMetType0Corrections)->getXcorrection();
// type0MetCorrectionY = metCorrReaders.at(METCorrections::pfMetType0Corrections)->getYcorrection();
// }
// if (Globals::applyType1MetCorrection) {
// metCorrReaders.at(METCorrections::pfMetType1Corrections)->readMETCorrections();
// type1MetCorrectionX = metCorrReaders.at(METCorrections::pfMetType1Corrections)->getXcorrection();
// type1MetCorrectionY = metCorrReaders.at(METCorrections::pfMetType1Corrections)->getYcorrection();
// }
// }
double totalMetCorrectionX = sysShiftMetCorrectionX + type0MetCorrectionX + type1MetCorrectionX;
double totalMetCorrectionY = sysShiftMetCorrectionY + type0MetCorrectionY + type1MetCorrectionY;
METCollection mets;
mets.resize(METAlgorithm::NUMBER_OF_METALGORITHMS);
for (unsigned int index = 0; index < METAlgorithm::NUMBER_OF_METALGORITHMS; ++index) {
if (!MET::isAvailableInNTupleVersion(Globals::NTupleVersion, index))
continue;
bool isMCOnlyMET = MET::isMCOnlyMETType(index);
// if (isMCOnlyMET && currentEvent->isRealData())
if (isMCOnlyMET)
continue;
const METPointer met(metReaders.at(index)->getMET(totalMetCorrectionX, totalMetCorrectionY));
if (Globals::NTupleVersion >= 7){
met->setSumET(sumETReader_->getVariable());
currentEvent->setHCALLaserFilter(HCALLaserFilter->getVariable());
currentEvent->setECALDeadCellFilter(ECALDeadCellFilter->getVariable());
currentEvent->setTrackingFailureFilter(TrackingFailureFilter->getVariable());
currentEvent->setCSCTightBeamHaloFilter(!CSCTightHaloId->getVariable());
currentEvent->setHBHENoiseFilter(true);//we filter on this for the skim
}
if (Globals::NTupleVersion >= 9){
currentEvent->setECALDeadCellTPFilter(ECALDeadCellTPFilter->getVariable());
}
if (Globals::NTupleVersion >= 10){
currentEvent->setEEBadSCFilter(EEBadSCFilter->getVariable());
currentEvent->setECALLaserCorrFilter(ECALLaserCorrFilter->getVariable());
currentEvent->setTrackingPOGFilters(TrackingPOGFilters->getVariable());
}
mets.at(index) = met;
}
currentEvent->setMETs(mets);
currentEvent->setRunNumber(runNumberReader->getVariable());
currentEvent->setEventNumber(eventNumberReader->getVariable());
currentEvent->setLocalEventNumber(currentEventEntry);
currentEvent->setLumiBlock(lumiBlockReader->getVariable());
currentEvent->setBeamScrapingVeto(false);
return currentEvent;
}
void PseudoTopAnalyser::analyse(const EventPtr event) {
weight_ = event->weight();
treeMan_->setCurrentFolder(histogramFolder_);
// Store gen selection criteria
treeMan_->Fill("isSemiLeptonicElectron", event->isSemiLeptonicElectron());
treeMan_->Fill("isSemiLeptonicMuon", event->isSemiLeptonicMuon());
const PseudoTopParticlesPointer pseudoTopParticles = event->PseudoTopParticles();
const MCParticleCollection pseudoTops = pseudoTopParticles->getPseudoTops();
const MCParticlePointer pseudoLeptonicW = pseudoTopParticles->getPseudoLeptonicW();
const MCParticlePointer pseudoLepton = pseudoTopParticles->getPseudoLepton();
const ParticleCollection allPseudoLeptons = pseudoTopParticles->getAllPseudoLeptons();
const MCParticleCollection pseudoBs = pseudoTopParticles->getPseudoBs();
const ParticlePointer pseudoMET = pseudoTopParticles->getPseudoMET();
const ParticlePointer pseudoNeutrino = pseudoTopParticles->getPseudoNeutrino();
const JetCollection pseudoJets = pseudoTopParticles->getPseudoJets();
ParticleCollection pseudoTopsForTTbar;
// // Only consider events with two pseudo tops
// if ( pseudoTops.size() != 2 ) return;
// // Also only consider events that are semi leptonic at the pseudo top level
// if ( !pseudoTopParticles->isSemiLeptonic() ) return;
// Check if event passes event selection (at pseudo top level)
if ( passesEventSelection( pseudoLepton, pseudoNeutrino, pseudoJets, pseudoBs, allPseudoLeptons, pseudoMET ) ) {
treeMan_->Fill("passesGenEventSelection",1);
}
else {
treeMan_->Fill("passesGenEventSelection",0);
}
//
// TOP VARIABLES
// Top reco at particle level performed
//
// Store info on top
for ( unsigned int ptIndex = 0; ptIndex < pseudoTops.size(); ++ ptIndex ) {
// cout << "Getting pseudo top number : " << ptIndex << endl;
const ParticlePointer pseudoTop = pseudoTops[ptIndex];
pseudoTopsForTTbar.push_back( pseudoTop );
treeMan_->Fill("pseudoTop_pT", pseudoTop->pt() );
treeMan_->Fill("pseudoTop_y", pseudoTop->rapidity() );
}
if( pseudoTopsForTTbar.size() == 2 ) {
// Store info on ttbar
ParticlePointer pseudoTTbar( new Particle( *pseudoTopsForTTbar[0] + *pseudoTopsForTTbar[1] ) );
treeMan_->Fill("pseudoTTbar_pT", pseudoTTbar->pt() );
treeMan_->Fill("pseudoTTbar_y", pseudoTTbar->rapidity() );
treeMan_->Fill("pseudoTTbar_m", pseudoTTbar->mass() );
}
// Store info on Bs
if ( pseudoBs.size() == 2 ) {
unsigned int leadingPsuedoBIndex = 0;
if ( pseudoBs[1]->pt() > pseudoBs[0]->pt() ) {
leadingPsuedoBIndex = 1;
}
unsigned int subleadingPsuedoBIndex = ( leadingPsuedoBIndex == 0 ) ? 1 : 0;
treeMan_->Fill("pseudoB_pT", pseudoBs[leadingPsuedoBIndex]->pt() );
treeMan_->Fill("pseudoB_eta", pseudoBs[leadingPsuedoBIndex]->eta() );
treeMan_->Fill("pseudoB_pT", pseudoBs[subleadingPsuedoBIndex]->pt() );
treeMan_->Fill("pseudoB_eta", pseudoBs[subleadingPsuedoBIndex]->eta() );
// for ( unsigned int pbIndex = 0; pbIndex < pseudoBs.size(); ++pbIndex ) {
// treeMan_->Fill("pseudoB_pT", pseudoBs[pbIndex]->pt() );
// treeMan_->Fill("pseudoB_eta", pseudoBs[pbIndex]->eta() );
// }
}
//
// GLOBAL VARIABLES
// No top reco at particle level
//
if ( allPseudoLeptons.size() > 0 ) {
// Store info on lepton
treeMan_->Fill("pseudoLepton_pT", allPseudoLeptons[0]->pt() );
treeMan_->Fill("pseudoLepton_eta", allPseudoLeptons[0]->eta() );
}
// Store pseudo MET
if ( pseudoMET != 0 ) {
treeMan_->Fill("pseudoMET", pseudoMET->et() );
METAlgorithm::value metType = (METAlgorithm::value) 0;
const METPointer met(event->MET(metType));
if ( pseudoMET->et() <= 0 && met->et() > 0 ) {
}
treeMan_->Fill("pseudoMET_mass", pseudoMET->mass() );
}
// Store pseudo HT
treeMan_->Fill("pseudoHT", event->HT( pseudoJets ) );
// Store pseudo ST
if ( allPseudoLeptons.size() > 0 ) {
treeMan_->Fill("pseudoST", event->ST( pseudoJets, allPseudoLeptons[0], METPointer( new MET( pseudoMET->px(), pseudoMET->py() )) ) );
}
// Store pseudo MT and WPT
// These are from the W reconstructed from the pseudo particles
// i.e. use the neutrino assocaited with the W rather than the more "global" MET
if ( pseudoLeptonicW != 0 ) {
treeMan_->Fill("pseudoWPT_reco", pseudoLeptonicW->pt() );
}
if ( pseudoMET != 0 && allPseudoLeptons.size() > 0 ) {
double WPT = event->WPT( allPseudoLeptons[0], METPointer( new MET( pseudoMET->px(), pseudoMET->py() )) );
treeMan_->Fill("pseudoWPT", WPT );
double MT = event->MT( allPseudoLeptons[0], METPointer( new MET( pseudoMET->px(), pseudoMET->py() )) );
treeMan_->Fill("pseudoMT", MT );
}
}
void UnfoldingRecoAnalyser::analyse(const EventPtr event) {
weight_ = event->weight();
treeMan_->setCurrentFolder(histogramFolder_);
treeMan_->Fill("EventWeight", event->weight());
double centralLHEWeight = event->centralLHEWeight();
for ( unsigned int unc_i = 0; unc_i < event->generatorSystematicWeights().size(); ++unc_i ) {
double weight = event->generatorSystematicWeights().at( unc_i ) / centralLHEWeight;
int weightID = event->generatorSystematicWeightsID().at( unc_i );
// cout << to_string(unc_i) << " " << weightID << " " << weight/centralLHEWeight << endl;
// string uncString = to_string(unc_i);
if ( weightID >= 1001 && weightID <= 1009 ) {
treeMan_->Fill( "muFmuRWeight_" + to_string(weightID-1001), weight);
}
else if ( weightID >= 2001 && weightID <= 2100 ) {
treeMan_->Fill( "pdfWeight_" + to_string(weightID-2001), weight);
}
else if ( weightID == 2101 || weightID == 2102 ) {
treeMan_->Fill( "alphaSWeight_" + to_string(weightID-2101), weight);
}
}
treeMan_->setCurrentFolder(histogramFolder_);
int selectionCriteria = -1;
if ( event->PassesElectronTriggerAndSelection() ) selectionCriteria = SelectionCriteria::ElectronPlusJetsReference;
else if ( event->PassesMuonTriggerAndSelection() ) selectionCriteria = SelectionCriteria::MuonPlusJetsReference;
if ( event->PassesElectronTriggerAndSelection() && event->PassesMuonTriggerAndSelection() ) {
cout << "-------------> This should not happen <-------------" << endl;
}
// Store selection flags first
treeMan_->Fill("passSelection",selectionCriteria);
if ( !( event->PassesMuonTriggerAndSelection() || event->PassesElectronTriggerAndSelection() )) return;
const JetCollection jets(event->CleanedJets());
const JetCollection bjets(event->CleanedBJets());
const LeptonPointer signalLepton = event->getSignalLepton( selectionCriteria );
METAlgorithm::value metType = (METAlgorithm::value) 0;
const METPointer met(event->MET(metType));
treeMan_->Fill("MET",met->et());
treeMan_->Fill("HT",Event::HT(jets));
treeMan_->Fill("ST",Event::ST(jets,signalLepton,met));
treeMan_->Fill("WPT",Event::WPT(signalLepton,met));
treeMan_->Fill("MT",Event::MT(signalLepton,met));
treeMan_->Fill("leptonPt", signalLepton->pt() );
treeMan_->Fill("leptonEta", signalLepton->eta() );
treeMan_->Fill("leptonCharge", signalLepton->charge() );
// Get lepton scale factor
if ( event->PassesMuonTriggerAndSelection() ) {
const MuonPointer signalMuon(boost::static_pointer_cast<Muon>(signalLepton));
double efficiencyCorrection = signalMuon->getEfficiencyCorrection( 0 );
treeMan_->Fill("LeptonEfficiencyCorrection", efficiencyCorrection);
treeMan_->Fill("LeptonEfficiencyCorrectionUp", signalMuon->getEfficiencyCorrection( 1 ));
treeMan_->Fill("LeptonEfficiencyCorrectionDown", signalMuon->getEfficiencyCorrection( -1 ));
}
else if ( event->PassesElectronTriggerAndSelection() ) {
const ElectronPointer signalElectron(boost::static_pointer_cast<Electron>(signalLepton));
double efficiencyCorrection = signalElectron->getEfficiencyCorrection( 0 );
treeMan_->Fill("LeptonEfficiencyCorrection", efficiencyCorrection);
treeMan_->Fill("LeptonEfficiencyCorrectionUp", signalElectron->getEfficiencyCorrection( 1 ));
treeMan_->Fill("LeptonEfficiencyCorrectionDown", signalElectron->getEfficiencyCorrection( -1 ));
}
treeMan_->Fill("PUWeight", event->PileUpWeight() );
treeMan_->Fill("PUWeight_up", event->PileUpWeight(1) );
treeMan_->Fill("PUWeight_down", event->PileUpWeight(-1) );
treeMan_->Fill("BJetWeight",event->BJetWeight());
treeMan_->Fill("LightJetUpWeight",event->LightJetUpWeight());
treeMan_->Fill("LightJetDownWeight",event->LightJetDownWeight());
treeMan_->Fill("BJetUpWeight",event->BJetUpWeight());
treeMan_->Fill("BJetDownWeight",event->BJetDownWeight());
// MET Uncertainties
for ( unsigned int unc_i = 0; unc_i < met->getAllMETUncertainties().size(); ++unc_i ) {
METPointer METForUnc_i = met->getMETForUncertainty( unc_i );
treeMan_->Fill("MET_METUncertainties",METForUnc_i->et());
treeMan_->Fill("ST_METUncertainties",Event::ST(jets, signalLepton, METForUnc_i));
treeMan_->Fill("WPT_METUncertainties",Event::WPT(signalLepton, METForUnc_i));
}
for (unsigned int index = 0; index < bjets.size(); ++index) {
treeMan_->Fill("bPt", bjets.at(index)->pt() );
treeMan_->Fill("bEta", bjets.at(index)->eta() );
}
for (unsigned int index = 0; index < jets.size(); ++index) {
treeMan_->Fill("jetPt", jets.at(index)->pt() );
treeMan_->Fill("jetEta", jets.at(index)->eta() );
treeMan_->Fill("jetParton", jets.at(index)->ttbar_decay_parton() );
}
BAT::TtbarHypothesis topHypothesis = event->ttbarHypothesis();
if ( topHypothesis.isValid() && topHypothesis.isPhysical() ) {
treeMan_->Fill("lepTopPt",topHypothesis.leptonicTop->pt());
treeMan_->Fill("hadTopPt",topHypothesis.hadronicTop->pt());
treeMan_->Fill("lepTopRap",topHypothesis.leptonicTop->rapidity());
treeMan_->Fill("hadTopRap",topHypothesis.hadronicTop->rapidity());
treeMan_->Fill("ttbarPt",topHypothesis.resonance->pt());
treeMan_->Fill("ttbarM",topHypothesis.resonance->mass());
treeMan_->Fill("ttbarRap",topHypothesis.resonance->rapidity());
}
unsigned int numberOfJets(event->NJets(jets));
unsigned int numberOfBJets(event->NJets(bjets));
treeMan_->Fill("NJets", numberOfJets );
treeMan_->Fill("NBJets", numberOfBJets );
}
double Event::ST(const JetCollection jets, const ParticlePointer lepton, const METPointer met) {
// ST = HT + MET + lepton pt
double ht = Event::HT(jets);
return ht + met->et() + lepton->pt();
}
