From 89f35d8df6a97f3d238a74dde0af41b76042da4f Mon Sep 17 00:00:00 2001 From: David Lange Date: Wed, 30 Sep 2015 10:11:08 +0200 Subject: [PATCH] Revert "Exotica dqm updated histograms" --- DQM/Physics/python/ExoticaDQM_cfi.py | 2 +- DQM/Physics/src/ExoticaDQM.cc | 58 +++++++++------------------- DQM/Physics/src/ExoticaDQM.h | 14 ++----- 3 files changed, 22 insertions(+), 52 deletions(-) diff --git a/DQM/Physics/python/ExoticaDQM_cfi.py b/DQM/Physics/python/ExoticaDQM_cfi.py index 280f45772e3dd..df8c5dc8c70fe 100644 --- a/DQM/Physics/python/ExoticaDQM_cfi.py +++ b/DQM/Physics/python/ExoticaDQM_cfi.py @@ -17,7 +17,7 @@ photonCollection = cms.InputTag("gedPhotons"), pfJetCollection = cms.InputTag('ak4PFJetsCHS'), - corrector = cms.InputTag('ak4PFCHSL1FastjetCorrector'), + PFJetCorService = cms.string("ak4PFL1FastL2L3"), DiJetPFJetCollection = cms.VInputTag('ak4PFJetsCHS','ak8PFJetsCHS'), diff --git a/DQM/Physics/src/ExoticaDQM.cc b/DQM/Physics/src/ExoticaDQM.cc index 4f838b5627d30..5fcc61178339a 100644 --- a/DQM/Physics/src/ExoticaDQM.cc +++ b/DQM/Physics/src/ExoticaDQM.cc @@ -128,10 +128,9 @@ ExoticaDQM::ExoticaDQM(const edm::ParameterSet& ps){ ecalEndcapRecHitToken_ = consumes( ps.getUntrackedParameter("ecalEndcapRecHit", InputTag("reducedEcalRecHitsEE"))); - correctorToken_ = consumes(ps.getParameter("corrector")); - //Cuts - MultiJets jetID = new reco::helper::JetIDHelper(ps.getParameter("JetIDParams"), consumesCollector()); + PFJetCorService_ = ps.getParameter("PFJetCorService"); //Varibles and Cuts for each Module: //Dijet @@ -192,7 +191,6 @@ void ExoticaDQM::bookHistograms(DQMStore::IBooker& bei, edm::Run const&, dijet_deltaEtaPFJet1PFJet2.push_back(bei.book1D("dijet_deltaEtaPFJet1PFJet2", "#Delta#eta(Leading PFJet, Sub PFJet)", 40, -5., 5.)); dijet_deltaRPFJet1PFJet2.push_back(bei.book1D("dijet_deltaRPFJet1PFJet2", "#DeltaR(Leading PFJet, Sub PFJet)", 50, 0., 6.)); dijet_invMassPFJet1PFJet2.push_back(bei.book1D("dijet_invMassPFJet1PFJet2", "Leading PFJet, SubLeading PFJet Invariant mass (GeV)", 50, 0. , 8000.)); - dijet_invMassPFJet1PFJet2_Tail.push_back(bei.book1D("dijet_invMassPFJet1PFJet2_Tail", "Leading PFJet, SubLeading PFJet Invariant mass Tail (GeV)", 50, 4000. , 8000.)); dijet_PFchef.push_back(bei.book1D("dijet_PFchef", "Leading PFJet CHEF", 50, 0.0 , 1.0)); dijet_PFnhef.push_back(bei.book1D("dijet_PFnhef", "Leading PFJet NHEF", 50, 0.0 , 1.0)); dijet_PFcemf.push_back(bei.book1D("dijet_PFcemf", "Leading PFJet CEMF", 50, 0.0 , 1.0)); @@ -201,31 +199,31 @@ void ExoticaDQM::bookHistograms(DQMStore::IBooker& bei, edm::Run const&, } //--- DiMuon bei.setCurrentFolder("Physics/Exotica/DiMuons"); - dimuon_Muon_pt = bei.book1D("dimuon_Muon_pt", "Pt of Muon (GeV)", 50, 30.0 , 2500); + dimuon_Muon_pt = bei.book1D("dimuon_Muon_pt", "Pt of Muon (GeV)", 50, 30.0 , 2000); dimuon_Muon_eta = bei.book1D("dimuon_Muon_eta", "#eta (Muon)", 50, -2.5, 2.5); dimuon_Muon_phi = bei.book1D("dimuon_Muon_phi", "#phi (Muon)", 50, -3.14,3.14); dimuon_Charge = bei.book1D("dimuon_Charge", "Charge of the Muon", 10, -5., 5.); dimuon_deltaEtaMuon1Muon2 = bei.book1D("dimuon_deltaEtaMuon1Muon2", "#Delta#eta(Leading Muon, Sub Muon)", 40, -5., 5.); dimuon_deltaPhiMuon1Muon2 = bei.book1D("dimuon_deltaPhiMuon1Muon2", "#Delta#phi(Leading Muon, Sub Muon)", 40, 0., 3.15); dimuon_deltaRMuon1Muon2 = bei.book1D("dimuon_deltaRMuon1Muon2", "#DeltaR(Leading Muon, Sub Muon)", 50, 0., 6.); - dimuon_invMassMuon1Muon2 = bei.book1D("dimuon_invMassMuon1Muon2", "Leading Muon, SubLeading Muon Low Invariant mass (GeV)", 50, 1000. , 4500.); + dimuon_invMassMuon1Muon2 = bei.book1D("dimuon_invMassMuon1Muon2", "Leading Muon, SubLeading Muon Low Invariant mass (GeV)", 50, 1000. , 4000.); dimuon_MuonMulti = bei.book1D("dimuon_MuonMulti", "No. of Muons", 10, 0., 10.); //--- DiElectrons bei.setCurrentFolder("Physics/Exotica/DiElectrons"); - dielectron_Electron_pt = bei.book1D("dielectron_Electron_pt", "Pt of Electron (GeV)", 50, 30.0 , 2500); + dielectron_Electron_pt = bei.book1D("dielectron_Electron_pt", "Pt of Electron (GeV)", 50, 30.0 , 2000); dielectron_Electron_eta = bei.book1D("dielectron_Electron_eta", "#eta (Electron)", 50, -2.5, 2.5); dielectron_Electron_phi = bei.book1D("dielectron_Electron_phi", "#phi (Electron)", 50, -3.14,3.14); dielectron_Charge = bei.book1D("dielectron_Charge", "Charge of the Electron", 10, -5., 5.); dielectron_deltaEtaElectron1Electron2 = bei.book1D("dielectron_deltaEtaElectron1Electron2", "#Delta#eta(Leading Electron, Sub Electron)", 40, -5., 5.); dielectron_deltaPhiElectron1Electron2 = bei.book1D("dielectron_deltaPhiElectron1Electron2", "#Delta#phi(Leading Electron, Sub Electron)", 40, 0., 3.15); dielectron_deltaRElectron1Electron2 = bei.book1D("dielectron_deltaRElectron1Electron2", "#DeltaR(Leading Electron, Sub Electron)", 50, 0., 6.); - dielectron_invMassElectron1Electron2 = bei.book1D("dielectron_invMassElectron1Electron2", "Leading Electron, SubLeading Electron Invariant mass (GeV)", 50, 1000. , 4500.); + dielectron_invMassElectron1Electron2 = bei.book1D("dielectron_invMassElectron1Electron2", "Leading Electron, SubLeading Electron Invariant mass (GeV)", 50, 1000. , 4000.); dielectron_ElectronMulti = bei.book1D("dielectron_ElectronMulti", "No. of Electrons", 10, 0., 10.); //--- DiPhotons bei.setCurrentFolder("Physics/Exotica/DiPhotons"); diphoton_Photon_energy = bei.book1D("diphoton_Photon_energy", "Energy of Photon (GeV)", 50, 30.0 , 300); - diphoton_Photon_et = bei.book1D("diphoton_Photon_et", "Et of Photon (GeV)", 50, 200.0 , 3000.); - diphoton_Photon_pt = bei.book1D("diphoton_Photon_pt", "Pt of Photon (GeV)", 50, 200.0 , 3000.); + diphoton_Photon_et = bei.book1D("diphoton_Photon_et", "Et of Photon (GeV)", 50, 30.0 , 300); + diphoton_Photon_pt = bei.book1D("diphoton_Photon_pt", "Pt of Photon (GeV)", 50, 30.0 , 300); diphoton_Photon_eta = bei.book1D("diphoton_Photon_eta", "#eta (Photon)", 50, -2.5, 2.5); diphoton_Photon_etasc = bei.book1D("diphoton_Photon_etasc", "#eta sc(Photon)", 50, -2.5, 2.5); diphoton_Photon_phi = bei.book1D("diphoton_Photon_phi", "#phi (Photon)", 50, -3.14,3.14); @@ -242,7 +240,7 @@ void ExoticaDQM::bookHistograms(DQMStore::IBooker& bei, edm::Run const&, diphoton_deltaEtaPhoton1Photon2 = bei.book1D("diphoton_deltaEtaPhoton1Photon2", "#Delta#eta(SubLeading Photon, Sub Photon)", 40, -5., 5.); diphoton_deltaPhiPhoton1Photon2 = bei.book1D("diphoton_deltaPhiPhoton1Photon2", "#Delta#phi(SubLeading Photon, Sub Photon)", 40, 0., 3.15); diphoton_deltaRPhoton1Photon2 = bei.book1D("diphoton_deltaRPhoton1Photon2", "#DeltaR(SubLeading Photon, Sub Photon)", 50, 0., 6.); - diphoton_invMassPhoton1Photon2 = bei.book1D("diphoton_invMassPhoton1Photon2", "SubLeading Photon, SubSubLeading Photon Invariant mass (GeV)", 50, 1000. , 5000.); + diphoton_invMassPhoton1Photon2 = bei.book1D("diphoton_invMassPhoton1Photon2", "SubLeading Photon, SubSubLeading Photon Invariant mass (GeV)", 50, 100. , 150.); diphoton_PhotonMulti = bei.book1D("diphoton_PhotonMulti", "No. of Photons", 10, 0., 10.); //--- MonoJet bei.setCurrentFolder("Physics/Exotica/MonoJet"); @@ -260,31 +258,27 @@ void ExoticaDQM::bookHistograms(DQMStore::IBooker& bei, edm::Run const&, monojet_PFJetMulti = bei.book1D("monojet_PFJetMulti", "No. of PFJets", 10, 0., 10.); //--- MonoMuon bei.setCurrentFolder("Physics/Exotica/MonoMuon"); - monomuon_Muon_pt = bei.book1D("monomuon_Muon_pt", "Pt of Monomuon (GeV)", 50, 30.0 , 3000); + monomuon_Muon_pt = bei.book1D("monomuon_Muon_pt", "Pt of Monomuon (GeV)", 50, 30.0 , 2000); monomuon_Muon_eta = bei.book1D("monomuon_Muon_eta", "#eta(Monomuon)", 50, -2.5, 2.5); monomuon_Muon_phi = bei.book1D("monomuon_Muon_phi", "#phi(Monomuon)", 50, -3.14,3.14); monomuon_Charge = bei.book1D("monomuon_Charge", "Charge of the MonoMuon", 10, -5., 5.); - monomuon_PFMet = bei.book1D("monomuon_PFMet", "Pt of PFMET (GeV)", 40, 0.0 , 3000); + monomuon_PFMet = bei.book1D("monomuon_PFMet", "Pt of PFMET (GeV)", 40, 0.0 , 2000); monomuon_PFMet_phi = bei.book1D("monomuon_PFMet_phi", "PFMET #phi", 50, -3.14,3.14); monomuon_MuonPtOverPFMet = bei.book1D("monomuon_MuonPtOverPFMet", "Pt of Monomuon/PFMet", 40, 0.0 , 5.); monomuon_deltaPhiMuonPFMet = bei.book1D("monomuon_deltaPhiMuonPFMet", "#Delta#phi(Monomuon, PFMet)", 40, 0., 3.15); - monomuon_TransverseMass = bei.book1D("monomuon_TransverseMass", "Transverse Mass M_{T} GeV", 40, 200., 4000.); - monomuon_TransverseMassBarrel = bei.book1D("monomuon_TransverseMassBarrel", "Transverse Mass M_{T} GeV, Barrel", 40, 200., 4000.); - monomuon_TransverseMassEndcap = bei.book1D("monomuon_TransverseMassEndcap", "Transverse Mass M_{T} GeV, Endcap", 40, 200., 4000.); + monomuon_TransverseMass = bei.book1D("monomuon_TransverseMass", "Transverse Mass M_{T} GeV", 40, 200., 3000.); monomuon_MuonMulti = bei.book1D("monomuon_MuonMulti", "No. of Muons", 10, 0., 10.); //--- MonoElectron bei.setCurrentFolder("Physics/Exotica/MonoElectron"); - monoelectron_Electron_pt = bei.book1D("monoelectron_Electron_pt", "Pt of Monoelectron (GeV)", 50, 30.0 , 3000); + monoelectron_Electron_pt = bei.book1D("monoelectron_Electron_pt", "Pt of Monoelectron (GeV)", 50, 30.0 , 4000); monoelectron_Electron_eta = bei.book1D("monoelectron_Electron_eta", "#eta(MonoElectron)", 50, -2.5, 2.5); monoelectron_Electron_phi = bei.book1D("monoelectron_Electron_phi", "#phi(MonoElectron)", 50, -3.14,3.14); monoelectron_Charge = bei.book1D("monoelectron_Charge", "Charge of the MonoElectron", 10, -5., 5.); - monoelectron_PFMet = bei.book1D("monoelectron_PFMet", "Pt of PFMET (GeV)", 40, 0.0 , 3000); + monoelectron_PFMet = bei.book1D("monoelectron_PFMet", "Pt of PFMET (GeV)", 40, 0.0 , 4000); monoelectron_PFMet_phi = bei.book1D("monoelectron_PFMet_phi", "PFMET #phi", 50, -3.14,3.14); monoelectron_ElectronPtOverPFMet = bei.book1D("monoelectron_ElectronPtOverPFMet", "Pt of Monoelectron/PFMet", 40, 0.0 , 5.); monoelectron_deltaPhiElectronPFMet = bei.book1D("monoelectron_deltaPhiElectronPFMet", "#Delta#phi(MonoElectron, PFMet)", 40, 0., 3.15); monoelectron_TransverseMass = bei.book1D("monoelectron_TransverseMass", "Transverse Mass M_{T} GeV", 40, 200., 4000.); - monoelectron_TransverseMassBarrel = bei.book1D("monoelectron_TransverseMassBarrel", "Transverse Mass M_{T} GeV, Barrel", 40, 200., 4000.); - monoelectron_TransverseMassEndcap = bei.book1D("monoelectron_TransverseMassEndcap", "Transverse Mass M_{T} GeV, Endcap", 40, 200., 4000.); monoelectron_ElectronMulti = bei.book1D("monoelectron_ElectronMulti", "No. of Electrons", 10, 0., 10.); //--- DiPhotons @@ -395,12 +389,10 @@ void ExoticaDQM::analyze(const edm::Event& iEvent, const edm::EventSetup& iSetup //Getting information from the RecoObjects dijet_countPFJet_=0; monojet_countPFJet_=0; - edm::Handle jetCorrector; - iEvent.getByToken( correctorToken_, jetCorrector ); - + const JetCorrector* pfcorrector = JetCorrector::getJetCorrector(PFJetCorService_,iSetup); PFJetCollection::const_iterator pfjet_ = pfjets.begin(); for(; pfjet_ != pfjets.end(); ++pfjet_){ - double scale = jetCorrector->correction(*pfjet_); + double scale = pfcorrector->correction(*pfjet_,iEvent, iSetup); if(scale*pfjet_->pt()>PFJetPt[0]){ PFJetPt[1] = PFJetPt[0]; PFJetPx[1] = PFJetPx[0]; @@ -534,9 +526,6 @@ void ExoticaDQM::analyze(const edm::Event& iEvent, const edm::EventSetup& iSetup diphoton_countPhoton_ = 0.; reco::PhotonCollection::const_iterator photon_ = PhotonCollection_->begin(); for(; photon_ != PhotonCollection_->end(); ++photon_){ - if (fabs(photon_->eta()) < 1.442 && (photon_->sigmaIetaIeta() > 0.0105 || photon_->hadronicOverEm() > 0.05 )) continue; - if (fabs(photon_->eta()) > 1.442 && (photon_->sigmaIetaIeta() > 0.028 || photon_->hadronicOverEm() > 0.05 )) continue; - if(photon_->pt()>PhotonPt[0] ){ PhotonEnergy[1] = PhotonEnergy[0]; PhotonPt[1] = PhotonPt[0]; @@ -640,7 +629,7 @@ void ExoticaDQM::analyzeDiJets(const Event & iEvent){ }else{} if(scale*DiJetpfjet_->pt()>dijet_PFJet1_pt_cut_) dijet_countPFJet_++; } - if(PFJetPt[0]> dijet_PFJet1_pt_cut_ && PFJetPt[1]> dijet_PFJet2_pt_cut_ && fabs(PFJetEta[0]-PFJetEta[1]) <1.3){ + if(PFJetPt[0]> dijet_PFJet1_pt_cut_ && PFJetPt[1]> dijet_PFJet2_pt_cut_){ dijet_PFJet_pt[icoll]->Fill(PFJetPt[0]); dijet_PFJet_eta[icoll]->Fill(PFJetEta[0]); dijet_PFJet_phi[icoll]->Fill(PFJetPhi[0]); @@ -655,7 +644,6 @@ void ExoticaDQM::analyzeDiJets(const Event & iEvent){ dijet_deltaEtaPFJet1PFJet2[icoll]->Fill(PFJetEta[0]-PFJetEta[1]); dijet_deltaRPFJet1PFJet2[icoll]->Fill(deltaR(PFJetEta[0],PFJetPhi[0],PFJetEta[1],PFJetPhi[1])); dijet_invMassPFJet1PFJet2[icoll]->Fill(sqrt(2*PFJetPt[0]*PFJetPt[1]*(cosh(PFJetEta[0]-PFJetEta[1])-cos(PFJetPhi[0]-PFJetPhi[1])))); - dijet_invMassPFJet1PFJet2_Tail[icoll]->Fill(sqrt(2*PFJetPt[0]*PFJetPt[1]*(cosh(PFJetEta[0]-PFJetEta[1])-cos(PFJetPhi[0]-PFJetPhi[1])))); dijet_PFchef[icoll]->Fill(PFJetCHEF[0]); dijet_PFnhef[icoll]->Fill(PFJetNHEF[0]); dijet_PFcemf[icoll]->Fill(PFJetCEMF[0]); @@ -665,7 +653,7 @@ void ExoticaDQM::analyzeDiJets(const Event & iEvent){ } } void ExoticaDQM::analyzeDiMuons(const Event & iEvent){ - if(MuonPt[0] > dimuon_Muon1_pt_cut_ && MuonPt[1]> dimuon_Muon2_pt_cut_ ){ + if(MuonPt[0] > dimuon_Muon1_pt_cut_ && MuonPt[1]> dimuon_Muon2_pt_cut_ && MuonCharge[0]*MuonCharge[1] == -1){ dimuon_Muon_pt->Fill(MuonPt[0]); dimuon_Muon_eta->Fill(MuonEta[0]); dimuon_Muon_phi->Fill(MuonPhi[0]); @@ -682,7 +670,7 @@ void ExoticaDQM::analyzeDiMuons(const Event & iEvent){ } } void ExoticaDQM::analyzeDiElectrons(const Event & iEvent){ - if(ElectronPt[0] > dielectron_Electron1_pt_cut_ && ElectronPt[1]> dielectron_Electron2_pt_cut_ ){ + if(ElectronPt[0] > dielectron_Electron1_pt_cut_ && ElectronPt[1]> dielectron_Electron2_pt_cut_ && ElectronCharge[0]*ElectronCharge[1] == -1.){ dielectron_Electron_pt->Fill(ElectronPt[0]); dielectron_Electron_eta->Fill(ElectronEta[0]); dielectron_Electron_phi->Fill(ElectronPhi[0]); @@ -778,11 +766,6 @@ void ExoticaDQM::analyzeMonoMuons(const Event & iEvent){ monomuon_MuonPtOverPFMet->Fill(MuonPt[0]/pfmet.et()); monomuon_deltaPhiMuonPFMet->Fill(deltaPhi(MuonPhi[0],pfmet.phi())); monomuon_TransverseMass->Fill(sqrt(2*MuonPt[0]*pfmet.et()*(1-cos(deltaPhi(MuonPhi[0],pfmet.phi()))))); - if (fabs(MuonEta[0]) <1.2){ - monomuon_TransverseMassBarrel->Fill(sqrt(2*MuonPt[0]*pfmet.et()*(1-cos(deltaPhi(MuonPhi[0],pfmet.phi()))))); - }else{ - monomuon_TransverseMassEndcap->Fill(sqrt(2*MuonPt[0]*pfmet.et()*(1-cos(deltaPhi(MuonPhi[0],pfmet.phi()))))); - } monomuon_MuonMulti->Fill(monomuon_countMuon_); } } @@ -799,11 +782,6 @@ void ExoticaDQM::analyzeMonoElectrons(const Event & iEvent){ monoelectron_ElectronPtOverPFMet->Fill(ElectronPt[0]/pfmet.et()); monoelectron_deltaPhiElectronPFMet->Fill(deltaPhi(ElectronPhi[0],pfmet.phi())); monoelectron_TransverseMass->Fill(sqrt(2*ElectronPt[0]*pfmet.et()*(1-cos(deltaPhi(ElectronPhi[0],pfmet.phi()))))); - if (fabs(ElectronEta[0]) <1.2){ - monoelectron_TransverseMassBarrel->Fill(sqrt(2*ElectronPt[0]*pfmet.et()*(1-cos(deltaPhi(ElectronPhi[0],pfmet.phi()))))); - }else{ - monoelectron_TransverseMassEndcap->Fill(sqrt(2*ElectronPt[0]*pfmet.et()*(1-cos(deltaPhi(ElectronPhi[0],pfmet.phi()))))); - } monoelectron_ElectronMulti->Fill(monoelectron_countElectron_); } } diff --git a/DQM/Physics/src/ExoticaDQM.h b/DQM/Physics/src/ExoticaDQM.h index d4b97cb7e60a2..db4c5720cfa22 100644 --- a/DQM/Physics/src/ExoticaDQM.h +++ b/DQM/Physics/src/ExoticaDQM.h @@ -8,7 +8,6 @@ #include "FWCore/Framework/interface/Run.h" #include "FWCore/Framework/interface/Event.h" #include "FWCore/Framework/interface/EventSetup.h" -#include "FWCore/Utilities/interface/EDGetToken.h" #include "FWCore/Utilities/interface/InputTag.h" #include "DataFormats/Candidate/interface/Candidate.h" #include "DataFormats/Candidate/interface/CandidateFwd.h" @@ -22,6 +21,7 @@ #include "FWCore/Framework/interface/DataKeyTags.h" #include "Geometry/CaloGeometry/interface/CaloGeometry.h" #include "Geometry/CaloGeometry/interface/CaloCellGeometry.h" +#include "Geometry/Records/interface/IdealGeometryRecord.h" #include "DataFormats/MuonReco/interface/Muon.h" #include "DataFormats/MuonReco/interface/MuonFwd.h" #include @@ -79,8 +79,6 @@ #include "DataFormats/EcalRecHit/interface/EcalRecHitCollections.h" #include "RecoEcal/EgammaCoreTools/interface/EcalClusterTools.h" -#include "JetMETCorrections/JetCorrector/interface/JetCorrector.h" - #include #include #include @@ -168,14 +166,13 @@ class ExoticaDQM: public DQMEDAnalyzer { edm::EDGetTokenT ecalBarrelRecHitToken_; // reducedEcalRecHitsEB edm::EDGetTokenT ecalEndcapRecHitToken_; // reducedEcalRecHitsEE - edm::EDGetTokenT correctorToken_; - /////////////////////////// // Parameters /////////////////////////// // Cuts - MultiJets // inputs - + std::string CaloJetCorService_; + std::string PFJetCorService_; reco::helper::JetIDHelper *jetID; //Varibles Used @@ -237,7 +234,6 @@ class ExoticaDQM: public DQMEDAnalyzer { std::vector dijet_deltaEtaPFJet1PFJet2; std::vector dijet_deltaRPFJet1PFJet2; std::vector dijet_invMassPFJet1PFJet2; - std::vector dijet_invMassPFJet1PFJet2_Tail; std::vector dijet_PFchef; std::vector dijet_PFnhef; std::vector dijet_PFcemf; @@ -343,8 +339,6 @@ class ExoticaDQM: public DQMEDAnalyzer { MonitorElement* monomuon_MuonPtOverPFMet; MonitorElement* monomuon_deltaPhiMuonPFMet; MonitorElement* monomuon_TransverseMass; - MonitorElement* monomuon_TransverseMassBarrel; - MonitorElement* monomuon_TransverseMassEndcap; MonitorElement* monomuon_MuonMulti; // double monomuon_Muon_pt_cut_; @@ -363,8 +357,6 @@ class ExoticaDQM: public DQMEDAnalyzer { MonitorElement* monoelectron_PFMet_phi; MonitorElement* monoelectron_deltaPhiElectronPFMet; MonitorElement* monoelectron_TransverseMass; - MonitorElement* monoelectron_TransverseMassBarrel; - MonitorElement* monoelectron_TransverseMassEndcap; MonitorElement* monoelectron_ElectronMulti; // double monoelectron_Electron_pt_cut_;