JetTester.cc

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// Producer for validation histograms for Calo, JPT and PF jet objects
// F. Ratnikov, Sept. 7, 2006
// Modified by Chiyoung Jeong, Feb. 2, 2010
// Modified by J. Piedra, Sept. 11, 2013

#include "JetTester.h"

using namespace edm;
using namespace reco;
using namespace std;

JetTester::JetTester(const edm::ParameterSet &iConfig)
    : mInputCollection(iConfig.getParameter<edm::InputTag>("src")),
      //  rhoTag                         (iConfig.getParameter<edm::InputTag>
      //  ("srcRho")),
      JetType(iConfig.getUntrackedParameter<std::string>("JetType")),
      mRecoJetPtThreshold(iConfig.getParameter<double>("recoJetPtThreshold")),
      mMatchGenPtThreshold(iConfig.getParameter<double>("matchGenPtThreshold")),
      mRThreshold(iConfig.getParameter<double>("RThreshold")) {
  std::string inputCollectionLabel(mInputCollection.label());

  isCaloJet = (std::string("calo") == JetType);
  isPFJet = (std::string("pf") == JetType);
  isMiniAODJet = (std::string("miniaod") == JetType);
  if (!isMiniAODJet) {
    mJetCorrector = iConfig.getParameter<edm::InputTag>("JetCorrections");
  }

  // consumes
  pvToken_ = consumes<std::vector<reco::Vertex>>(iConfig.getParameter<edm::InputTag>("primVertex"));
  if (isCaloJet)
    caloJetsToken_ = consumes<reco::CaloJetCollection>(mInputCollection);
  if (isPFJet)
    pfJetsToken_ = consumes<reco::PFJetCollection>(mInputCollection);
  if (isMiniAODJet)
    patJetsToken_ = consumes<pat::JetCollection>(mInputCollection);
  mInputGenCollection = iConfig.getParameter<edm::InputTag>("srcGen");
  genJetsToken_ = consumes<reco::GenJetCollection>(edm::InputTag(mInputGenCollection));
  evtToken_ = consumes<GenEventInfoProduct>(edm::InputTag("generator"));
  if (!isMiniAODJet && !mJetCorrector.label().empty()) {
    jetCorrectorToken_ = consumes<reco::JetCorrector>(mJetCorrector);
  }

  // Events variables
  mNvtx = nullptr;

  // Jet parameters
  mEta = nullptr;
  mPhi = nullptr;
  mEnergy = nullptr;
  mP = nullptr;
  mPt = nullptr;
  mMass = nullptr;
  mConstituents = nullptr;
  mJetArea = nullptr;
  //  mRho          = 0;

  // Corrected jets
  mCorrJetPt = nullptr;
  mCorrJetEta = nullptr;
  mCorrJetPhi = nullptr;
  mCorrJetEta_Pt40 = nullptr;
  mCorrJetPhi_Pt40 = nullptr;

  // Corrected jets profiles
  mPtCorrOverReco_Pt_B = nullptr;
  mPtCorrOverReco_Pt_E = nullptr;
  mPtCorrOverReco_Pt_F = nullptr;
  mPtCorrOverReco_Eta_20_40 = nullptr;
  mPtCorrOverReco_Eta_40_200 = nullptr;
  mPtCorrOverReco_Eta_200_600 = nullptr;
  mPtCorrOverReco_Eta_600_1500 = nullptr;
  mPtCorrOverReco_Eta_1500_3500 = nullptr;
  mPtCorrOverReco_Eta_3500_5000 = nullptr;
  mPtCorrOverReco_Eta_5000_6500 = nullptr;
  mPtCorrOverReco_Eta_3500 = nullptr;
  mPtCorrOverGen_GenPt_B = nullptr;
  mPtCorrOverGen_GenPt_E = nullptr;
  mPtCorrOverGen_GenPt_F = nullptr;
  mPtCorrOverGen_GenEta_20_40 = nullptr;
  mPtCorrOverGen_GenEta_40_200 = nullptr;
  mPtCorrOverGen_GenEta_200_600 = nullptr;
  mPtCorrOverGen_GenEta_600_1500 = nullptr;
  mPtCorrOverGen_GenEta_1500_3500 = nullptr;
  mPtCorrOverGen_GenEta_3500_5000 = nullptr;
  mPtCorrOverGen_GenEta_5000_6500 = nullptr;
  mPtCorrOverGen_GenEta_3500 = nullptr;

  // Generation
  mGenEta = nullptr;
  mGenPhi = nullptr;
  mGenPt = nullptr;
  mGenEtaFirst = nullptr;
  mGenPhiFirst = nullptr;
  mPtHat = nullptr;
  mDeltaEta = nullptr;
  mDeltaPhi = nullptr;
  mDeltaPt = nullptr;

  mPtRecoOverGen_B_20_40 = nullptr;
  mPtRecoOverGen_E_20_40 = nullptr;
  mPtRecoOverGen_F_20_40 = nullptr;
  mPtRecoOverGen_B_40_200 = nullptr;
  mPtRecoOverGen_E_40_200 = nullptr;
  mPtRecoOverGen_F_40_200 = nullptr;
  mPtRecoOverGen_B_200_600 = nullptr;
  mPtRecoOverGen_E_200_600 = nullptr;
  mPtRecoOverGen_F_200_600 = nullptr;
  mPtRecoOverGen_B_600_1500 = nullptr;
  mPtRecoOverGen_E_600_1500 = nullptr;
  mPtRecoOverGen_F_600_1500 = nullptr;
  mPtRecoOverGen_B_1500_3500 = nullptr;
  mPtRecoOverGen_E_1500_3500 = nullptr;
  mPtRecoOverGen_F_1500_3500 = nullptr;
  mPtRecoOverGen_B_3500_5000 = nullptr;
  mPtRecoOverGen_E_3500_5000 = nullptr;
  mPtRecoOverGen_B_5000_6500 = nullptr;
  mPtRecoOverGen_E_5000_6500 = nullptr;
  mPtRecoOverGen_B_3500 = nullptr;
  mPtRecoOverGen_E_3500 = nullptr;
  mPtRecoOverGen_F_3500 = nullptr;

  // Generation profiles
  mPtRecoOverGen_GenPt_B = nullptr;
  mPtRecoOverGen_GenPt_E = nullptr;
  mPtRecoOverGen_GenPt_F = nullptr;
  mPtRecoOverGen_GenPhi_B = nullptr;
  mPtRecoOverGen_GenPhi_E = nullptr;
  mPtRecoOverGen_GenPhi_F = nullptr;
  mPtRecoOverGen_GenEta_20_40 = nullptr;
  mPtRecoOverGen_GenEta_40_200 = nullptr;
  mPtRecoOverGen_GenEta_200_600 = nullptr;
  mPtRecoOverGen_GenEta_600_1500 = nullptr;
  mPtRecoOverGen_GenEta_1500_3500 = nullptr;
  mPtRecoOverGen_GenEta_3500_5000 = nullptr;
  mPtRecoOverGen_GenEta_5000_6500 = nullptr;
  mPtRecoOverGen_GenEta_3500 = nullptr;

  // Some jet algebra
  mEtaFirst = nullptr;
  mPhiFirst = nullptr;
  mPtFirst = nullptr;
  mMjj = nullptr;
  mNJetsEta_B_20_40 = nullptr;
  mNJetsEta_E_20_40 = nullptr;
  mNJetsEta_B_40 = nullptr;
  mNJetsEta_E_40 = nullptr;
  mNJets1 = nullptr;
  mNJets2 = nullptr;

  //  // PFJet specific
  //  mHadEnergyInHF       = 0;
  //  mEmEnergyInHF        = 0;
  //  mChargedEmEnergy     = 0;
  //  mChargedHadronEnergy = 0;
  //  mNeutralEmEnergy     = 0;
  //  mNeutralHadronEnergy = 0;

  // ---- Calo Jet specific information ----
  maxEInEmTowers = nullptr;
  maxEInHadTowers = nullptr;
  energyFractionHadronic = nullptr;
  emEnergyFraction = nullptr;
  hadEnergyInHB = nullptr;
  hadEnergyInHO = nullptr;
  hadEnergyInHE = nullptr;
  hadEnergyInHF = nullptr;
  emEnergyInEB = nullptr;
  emEnergyInEE = nullptr;
  emEnergyInHF = nullptr;
  towersArea = nullptr;
  n90 = nullptr;
  n60 = nullptr;

  // ---- JPT Jet specific information ----
  //  elecMultiplicity = 0;

  // ---- JPT or PF Jet specific information ----
  muonMultiplicity = nullptr;
  chargedMultiplicity = nullptr;
  chargedEmEnergy = nullptr;
  neutralEmEnergy = nullptr;
  chargedHadronEnergy = nullptr;
  neutralHadronEnergy = nullptr;
  chargedHadronEnergyFraction = nullptr;
  neutralHadronEnergyFraction = nullptr;
  chargedEmEnergyFraction = nullptr;
  neutralEmEnergyFraction = nullptr;

  // ---- PF Jet specific information ----
  photonEnergy = nullptr;
  photonEnergyFraction = nullptr;
  electronEnergy = nullptr;
  electronEnergyFraction = nullptr;
  muonEnergy = nullptr;
  muonEnergyFraction = nullptr;
  HFHadronEnergy = nullptr;
  HFHadronEnergyFraction = nullptr;
  HFEMEnergy = nullptr;
  HFEMEnergyFraction = nullptr;
  chargedHadronMultiplicity = nullptr;
  neutralHadronMultiplicity = nullptr;
  photonMultiplicity = nullptr;
  electronMultiplicity = nullptr;
  HFHadronMultiplicity = nullptr;
  HFEMMultiplicity = nullptr;
  chargedMuEnergy = nullptr;
  chargedMuEnergyFraction = nullptr;
  neutralMultiplicity = nullptr;

  HOEnergy = nullptr;
  HOEnergyFraction = nullptr;

  hadronFlavor = nullptr;
  partonFlavor = nullptr;
  genPartonPDGID = nullptr;
}

void JetTester::bookHistograms(DQMStore::IBooker &ibooker, edm::Run const &iRun, edm::EventSetup const &) {
  ibooker.setCurrentFolder("JetMET/JetValidation/" + mInputCollection.label());

  double log10PtMin = 0.50;
  double log10PtMax = 3.75;
  int log10PtBins = 26;

  // if eta range changed here need change in JetTesterPostProcessor as well
  double etaRange[91] = {-6.0, -5.8, -5.6, -5.4, -5.2, -5.0, -4.8, -4.6, -4.4, -4.2, -4.0, -3.8, -3.6, -3.4, -3.2, -3.0,
                         -2.9, -2.8, -2.7, -2.6, -2.5, -2.4, -2.3, -2.2, -2.1, -2.0, -1.9, -1.8, -1.7, -1.6, -1.5, -1.4,
                         -1.3, -1.2, -1.1, -1.0, -0.9, -0.8, -0.7, -0.6, -0.5, -0.4, -0.3, -0.2, -0.1, 0.0,  0.1,  0.2,
                         0.3,  0.4,  0.5,  0.6,  0.7,  0.8,  0.9,  1.0,  1.1,  1.2,  1.3,  1.4,  1.5,  1.6,  1.7,  1.8,
                         1.9,  2.0,  2.1,  2.2,  2.3,  2.4,  2.5,  2.6,  2.7,  2.8,  2.9,  3.0,  3.2,  3.4,  3.6,  3.8,
                         4.0,  4.2,  4.4,  4.6,  4.8,  5.0,  5.2,  5.4,  5.6,  5.8,  6.0};

  // Event variables
  mNvtx = ibooker.book1D("Nvtx", "number of vertices", 60, 0, 60);

  // Jet parameters
  mEta = ibooker.book1D("Eta", "Eta", 120, -6, 6);
  mPhi = ibooker.book1D("Phi", "Phi", 70, -3.5, 3.5);
  mPt = ibooker.book1D("Pt", "Pt", 100, 0, 1000);
  mP = ibooker.book1D("P", "P", 100, 0, 1000);
  mEnergy = ibooker.book1D("Energy", "Energy", 100, 0, 1000);
  mMass = ibooker.book1D("Mass", "Mass", 100, 0, 200);
  mConstituents = ibooker.book1D("Constituents", "Constituents", 100, 0, 100);
  mJetArea = ibooker.book1D("JetArea", "JetArea", 100, 0, 4);
  // jet flavors contained in MiniAOD
  if (isMiniAODJet) {
    hadronFlavor = ibooker.book1D("HadronFlavor", "HadronFlavor", 44, -22, 22);
    partonFlavor = ibooker.book1D("PartonFlavor", "PartonFlavor", 44, -22, 22);
    genPartonPDGID = ibooker.book1D("genPartonPDGID", "genPartonPDGID", 44, -22, 22);
  }
  // Corrected jets
  if (isMiniAODJet || !mJetCorrector.label().empty()) {  // if correction label is filled, but
                                                         // fill also for MiniAOD though
    mCorrJetPt = ibooker.book1D("CorrJetPt", "CorrJetPt", 150, 0, 1500);
    mCorrJetEta = ibooker.book1D("CorrJetEta", "CorrJetEta Pt>20", 60, -6, 6);
    mCorrJetPhi = ibooker.book1D("CorrJetPhi", "CorrJetPhi Pt>20", 70, -3.5, 3.5);
    mCorrJetEta_Pt40 = ibooker.book1D("CorrJetEta_Pt40", "CorrJetEta Pt>40", 60, -6, 6);
    mCorrJetPhi_Pt40 = ibooker.book1D("CorrJetPhi_Pt40", "CorrJetPhi Pt>40", 70, -3.5, 3.5);

    // Corrected jets profiles
    mPtCorrOverReco_Pt_B =
        ibooker.bookProfile("PtCorrOverReco_Pt_B", "0<|eta|<1.5", log10PtBins, log10PtMin, log10PtMax, 0, 5, " ");
    mPtCorrOverReco_Pt_E =
        ibooker.bookProfile("PtCorrOverReco_Pt_E", "1.5<|eta|<3", log10PtBins, log10PtMin, log10PtMax, 0, 5, " ");
    mPtCorrOverReco_Pt_F =
        ibooker.bookProfile("PtCorrOverReco_Pt_F", "3<|eta|<6", log10PtBins, log10PtMin, log10PtMax, 0, 5, " ");

    mPtCorrOverReco_Eta_20_40 = ibooker.bookProfile("PtCorrOverReco_Eta_20_40", "20<genPt<40", 90, etaRange, 0, 5, " ");
    mPtCorrOverReco_Eta_40_200 =
        ibooker.bookProfile("PtCorrOverReco_Eta_40_200", "40<genPt<200", 90, etaRange, 0, 5, " ");
    mPtCorrOverReco_Eta_200_600 =
        ibooker.bookProfile("PtCorrOverReco_Eta_200_600", "200<genPt<600", 90, etaRange, 0, 5, " ");
    mPtCorrOverReco_Eta_600_1500 =
        ibooker.bookProfile("PtCorrOverReco_Eta_600_1500", "600<genPt<1500", 90, etaRange, 0, 5, " ");
    mPtCorrOverReco_Eta_1500_3500 =
        ibooker.bookProfile("PtCorrOverReco_Eta_1500_3500", "1500<genPt<3500", 90, etaRange, 0, 5, " ");
    mPtCorrOverReco_Eta_3500_5000 =
        ibooker.bookProfile("PtCorrOverReco_Eta_3500_5000", "3500<genPt<5000", 90, etaRange, 0, 5, " ");
    mPtCorrOverReco_Eta_5000_6500 =
        ibooker.bookProfile("PtCorrOverReco_Eta_5000_6500", "5000<genPt<6500", 90, etaRange, 0, 5, " ");
    mPtCorrOverReco_Eta_3500 = ibooker.bookProfile("PtCorrOverReco_Eta_3500", "genPt>3500", 90, etaRange, 0, 5, " ");

    mPtCorrOverGen_GenPt_B =
        ibooker.bookProfile("PtCorrOverGen_GenPt_B", "0<|eta|<1.5", log10PtBins, log10PtMin, log10PtMax, 0.8, 1.2, " ");
    mPtCorrOverGen_GenPt_E =
        ibooker.bookProfile("PtCorrOverGen_GenPt_E", "1.5<|eta|<3", log10PtBins, log10PtMin, log10PtMax, 0.8, 1.2, " ");
    mPtCorrOverGen_GenPt_F =
        ibooker.bookProfile("PtCorrOverGen_GenPt_F", "3<|eta|<6", log10PtBins, log10PtMin, log10PtMax, 0.8, 1.2, " ");
    // if eta range changed here need change in JetTesterPostProcessor as well
    mPtCorrOverGen_GenEta_20_40 =
        ibooker.bookProfile("PtCorrOverGen_GenEta_20_40", "20<genPt<40;#eta", 90, etaRange, 0.8, 1.2, " ");
    mPtCorrOverGen_GenEta_40_200 =
        ibooker.bookProfile("PtCorrOverGen_GenEta_40_200", "40<genPt<200;#eta", 90, etaRange, 0.8, 1.2, " ");
    mPtCorrOverGen_GenEta_200_600 =
        ibooker.bookProfile("PtCorrOverGen_GenEta_200_600", "200<genPt<600;#eta", 90, etaRange, 0.8, 1.2, " ");
    mPtCorrOverGen_GenEta_600_1500 =
        ibooker.bookProfile("PtCorrOverGen_GenEta_600_1500", "600<genPt<1500;#eta", 90, etaRange, 0.8, 1.2, " ");
    mPtCorrOverGen_GenEta_1500_3500 =
        ibooker.bookProfile("PtCorrOverGen_GenEta_1500_3500", "1500<genPt<3500;#eta", 90, etaRange, 0.8, 1.2, " ");
    mPtCorrOverGen_GenEta_3500_5000 =
        ibooker.bookProfile("PtCorrOverGen_GenEta_3500_5000", "3500<genPt<5000;#eta", 90, etaRange, 0.8, 1.2, " ");
    mPtCorrOverGen_GenEta_5000_6500 =
        ibooker.bookProfile("PtCorrOverGen_GenEta_5000_6500", "5000<genPt<6500;#eta", 90, etaRange, 0.8, 1.2, " ");
    mPtCorrOverGen_GenEta_3500 =
        ibooker.bookProfile("PtCorrOverGen_GenEta_3500", "genPt>3500;#eta", 90, etaRange, 0.8, 1.2, " ");
  }

  mGenEta = ibooker.book1D("GenEta", "GenEta", 120, -6, 6);
  mGenPhi = ibooker.book1D("GenPhi", "GenPhi", 70, -3.5, 3.5);
  mGenPt = ibooker.book1D("GenPt", "GenPt", 100, 0, 1000);
  mGenEtaFirst = ibooker.book1D("GenEtaFirst", "GenEtaFirst", 120, -6, 6);
  mGenPhiFirst = ibooker.book1D("GenPhiFirst", "GenPhiFirst", 70, -3.5, 3.5);
  mPtHat = ibooker.book1D("PtHat", "PtHat", 100, 0, 1000);
  mDeltaEta = ibooker.book1D("DeltaEta", "DeltaEta", 100, -0.5, 0.5);
  mDeltaPhi = ibooker.book1D("DeltaPhi", "DeltaPhi", 100, -0.5, 0.5);
  mDeltaPt = ibooker.book1D("DeltaPt", "DeltaPt", 100, -1.0, 1.0);

  mPtRecoOverGen_B_20_40 = ibooker.book1D("PtRecoOverGen_B_20_40", "20<genpt<40", 90, 0, 2);
  mPtRecoOverGen_E_20_40 = ibooker.book1D("PtRecoOverGen_E_20_40", "20<genpt<40", 90, 0, 2);
  mPtRecoOverGen_F_20_40 = ibooker.book1D("PtRecoOverGen_F_20_40", "20<genpt<40", 90, 0, 2);
  mPtRecoOverGen_B_40_200 = ibooker.book1D("PtRecoOverGen_B_40_200", "40<genpt<200", 90, 0, 2);
  mPtRecoOverGen_E_40_200 = ibooker.book1D("PtRecoOverGen_E_40_200", "40<genpt<200", 90, 0, 2);
  mPtRecoOverGen_F_40_200 = ibooker.book1D("PtRecoOverGen_F_40_200", "40<genpt<200", 90, 0, 2);
  mPtRecoOverGen_B_200_600 = ibooker.book1D("PtRecoOverGen_B_200_600", "200<genpt<600", 90, 0, 2);
  mPtRecoOverGen_E_200_600 = ibooker.book1D("PtRecoOverGen_E_200_600", "200<genpt<600", 90, 0, 2);
  mPtRecoOverGen_F_200_600 = ibooker.book1D("PtRecoOverGen_F_200_600", "200<genpt<600", 90, 0, 2);
  mPtRecoOverGen_B_600_1500 = ibooker.book1D("PtRecoOverGen_B_600_1500", "600<genpt<1500", 90, 0, 2);
  mPtRecoOverGen_E_600_1500 = ibooker.book1D("PtRecoOverGen_E_600_1500", "600<genpt<1500", 90, 0, 2);
  mPtRecoOverGen_F_600_1500 = ibooker.book1D("PtRecoOverGen_F_600_1500", "600<genpt<1500", 90, 0, 2);
  mPtRecoOverGen_B_1500_3500 = ibooker.book1D("PtRecoOverGen_B_1500_3500", "1500<genpt<3500", 90, 0, 2);
  mPtRecoOverGen_E_1500_3500 = ibooker.book1D("PtRecoOverGen_E_1500_3500", "1500<genpt<3500", 90, 0, 2);
  mPtRecoOverGen_F_1500_3500 = ibooker.book1D("PtRecoOverGen_F_1500_3500", "1500<genpt<3500", 90, 0, 2);
  mPtRecoOverGen_B_3500_5000 = ibooker.book1D("PtRecoOverGen_B_3500_5000", "3500<genpt<5000", 90, 0, 2);
  mPtRecoOverGen_E_3500_5000 = ibooker.book1D("PtRecoOverGen_E_3500_5000", "3500<genpt<5000", 90, 0, 2);
  mPtRecoOverGen_B_5000_6500 = ibooker.book1D("PtRecoOverGen_B_5000_6500", "5000<genpt<6500", 90, 0, 2);
  mPtRecoOverGen_E_5000_6500 = ibooker.book1D("PtRecoOverGen_E_5000_6500", "5000<genpt<6500", 90, 0, 2);
  mPtRecoOverGen_B_3500 = ibooker.book1D("PtRecoOverGen_B_3500", "genpt>3500", 90, 0, 2);
  mPtRecoOverGen_E_3500 = ibooker.book1D("PtRecoOverGen_E_3500", "genpt>3500", 90, 0, 2);
  mPtRecoOverGen_F_3500 = ibooker.book1D("PtRecoOverGen_F_3500", "genpt>3500", 90, 0, 2);

  mMassRecoOverGen_B_20_40 = ibooker.book1D("MassRecoOverGen_B_20_40", "20<genpt<40", 90, 0, 3);
  mMassRecoOverGen_E_20_40 = ibooker.book1D("MassRecoOverGen_E_20_40", "20<genpt<40", 90, 0, 3);
  mMassRecoOverGen_F_20_40 = ibooker.book1D("MassRecoOverGen_F_20_40", "20<genpt<40", 90, 0, 3);
  mMassRecoOverGen_B_40_200 = ibooker.book1D("MassRecoOverGen_B_40_200", "40<genpt<200", 90, 0, 3);
  mMassRecoOverGen_E_40_200 = ibooker.book1D("MassRecoOverGen_E_40_200", "40<genpt<200", 90, 0, 3);
  mMassRecoOverGen_F_40_200 = ibooker.book1D("MassRecoOverGen_F_40_200", "40<genpt<200", 90, 0, 3);
  mMassRecoOverGen_B_200_500 = ibooker.book1D("MassRecoOverGen_B_200_500", "200<genpt<500", 90, 0, 3);
  mMassRecoOverGen_E_200_500 = ibooker.book1D("MassRecoOverGen_E_200_500", "200<genpt<500", 90, 0, 3);
  mMassRecoOverGen_F_200_500 = ibooker.book1D("MassRecoOverGen_F_200_500", "200<genpt<500", 90, 0, 3);
  mMassRecoOverGen_B_500_750 = ibooker.book1D("MassRecoOverGen_B_500_750", "500<genpt<750", 90, 0, 3);
  mMassRecoOverGen_E_500_750 = ibooker.book1D("MassRecoOverGen_E_500_750", "500<genpt<750", 90, 0, 3);
  mMassRecoOverGen_F_500_750 = ibooker.book1D("MassRecoOverGen_F_500_750", "500<genpt<750", 90, 0, 3);
  mMassRecoOverGen_B_750_1000 = ibooker.book1D("MassRecoOverGen_B_750_1000", "750<genpt<1000", 90, 0, 3);
  mMassRecoOverGen_E_750_1000 = ibooker.book1D("MassRecoOverGen_E_750_1000", "750<genpt<1000", 90, 0, 3);
  mMassRecoOverGen_F_750_1000 = ibooker.book1D("MassRecoOverGen_F_750_1000", "750<genpt<1000", 90, 0, 3);
  mMassRecoOverGen_B_1000_1500 = ibooker.book1D("MassRecoOverGen_B_1000_1500", "1000<genpt<1500", 90, 0, 3);
  mMassRecoOverGen_E_1000_1500 = ibooker.book1D("MassRecoOverGen_E_1000_1500", "1000<genpt<1500", 90, 0, 3);
  mMassRecoOverGen_F_1000_1500 = ibooker.book1D("MassRecoOverGen_F_1000_1500", "1000<genpt<1500", 90, 0, 3);
  mMassRecoOverGen_B_1500_3500 = ibooker.book1D("MassRecoOverGen_B_1500_3500", "1500<genpt<3500", 90, 0, 3);
  mMassRecoOverGen_E_1500_3500 = ibooker.book1D("MassRecoOverGen_E_1500_3500", "1500<genpt<3500", 90, 0, 3);
  mMassRecoOverGen_F_1500 = ibooker.book1D("MassRecoOverGen_F_1500", "genpt>1500", 90, 0, 3);
  mMassRecoOverGen_B_3500_5000 = ibooker.book1D("MassRecoOverGen_B_3500_5000", "3500<genpt<5000", 90, 0, 3);
  mMassRecoOverGen_E_3500_5000 = ibooker.book1D("MassRecoOverGen_E_3500_5000", "3500<genpt<5000", 90, 0, 3);
  mMassRecoOverGen_B_5000 = ibooker.book1D("MassRecoOverGen_B_5000", "genpt>5000", 90, 0, 3);
  mMassRecoOverGen_E_5000 = ibooker.book1D("MassRecoOverGen_E_5000", "genpt>5000", 90, 0, 3);

  // Generation profiles
  mPtRecoOverGen_GenPt_B =
      ibooker.bookProfile("PtRecoOverGen_GenPt_B", "0<|eta|<1.5", log10PtBins, log10PtMin, log10PtMax, 0, 2, " ");
  mPtRecoOverGen_GenPt_E =
      ibooker.bookProfile("PtRecoOverGen_GenPt_E", "1.5<|eta|<3", log10PtBins, log10PtMin, log10PtMax, 0, 2, " ");
  mPtRecoOverGen_GenPt_F =
      ibooker.bookProfile("PtRecoOverGen_GenPt_F", "3<|eta|<6", log10PtBins, log10PtMin, log10PtMax, 0, 2, " ");
  mPtRecoOverGen_GenPhi_B = ibooker.bookProfile("PtRecoOverGen_GenPhi_B", "0<|eta|<1.5", 70, -3.5, 3.5, 0, 2, " ");
  mPtRecoOverGen_GenPhi_E = ibooker.bookProfile("PtRecoOverGen_GenPhi_E", "1.5<|eta|<3", 70, -3.5, 3.5, 0, 2, " ");
  mPtRecoOverGen_GenPhi_F = ibooker.bookProfile("PtRecoOverGen_GenPhi_F", "3<|eta|<6", 70, -3.5, 3.5, 0, 2, " ");
  // if eta range changed here need change in JetTesterPostProcessor as well
  mPtRecoOverGen_GenEta_20_40 =
      ibooker.bookProfile("PtRecoOverGen_GenEta_20_40", "20<genpt<40", 90, etaRange, 0, 2, " ");
  mPtRecoOverGen_GenEta_40_200 =
      ibooker.bookProfile("PtRecoOverGen_GenEta_40_200", "40<genpt<200", 90, etaRange, 0, 2, " ");
  mPtRecoOverGen_GenEta_200_600 =
      ibooker.bookProfile("PtRecoOverGen_GenEta_200_600", "200<genpt<600", 90, etaRange, 0, 2, " ");
  mPtRecoOverGen_GenEta_600_1500 =
      ibooker.bookProfile("PtRecoOverGen_GenEta_600_1500", "600<genpt<1500", 90, etaRange, 0, 2, " ");
  mPtRecoOverGen_GenEta_1500_3500 =
      ibooker.bookProfile("PtRecoOverGen_GenEta_1500_3500", "1500<genpt<3500", 90, etaRange, 0, 2, " ");
  mPtRecoOverGen_GenEta_3500_5000 =
      ibooker.bookProfile("PtRecoOverGen_GenEta_3500_5000", "3500<genpt<5000", 90, etaRange, 0, 2, " ");
  mPtRecoOverGen_GenEta_5000_6500 =
      ibooker.bookProfile("PtRecoOverGen_GenEta_5000_6500", "5000<genpt<6500", 90, etaRange, 0, 2, " ");
  mPtRecoOverGen_GenEta_3500 = ibooker.bookProfile("PtRecoOverGen_GenEta_3500", "genpt>3500", 90, etaRange, 0, 2, " ");

  // Some jet algebra
  //------------------------------------------------------------------------
  mEtaFirst = ibooker.book1D("EtaFirst", "EtaFirst", 120, -6, 6);
  mPhiFirst = ibooker.book1D("PhiFirst", "PhiFirst", 70, -3.5, 3.5);
  mPtFirst = ibooker.book1D("PtFirst", "PtFirst", 50, 0, 1000);
  mMjj = ibooker.book1D("Mjj", "Mjj", 100, 0, 2000);
  mNJetsEta_B_20_40 = ibooker.book1D("NJetsEta_B_20_40", "NJetsEta_B 20<Pt<40", 15, 0, 15);
  mNJetsEta_E_20_40 = ibooker.book1D("NJetsEta_E_20_40", "NJetsEta_E 20<Pt<40", 15, 0, 15);
  mNJetsEta_B_40 = ibooker.book1D("NJetsEta_B", "NJetsEta_B 40<Pt", 15, 0, 15);
  mNJetsEta_E_40 = ibooker.book1D("NJetsEta_E", "NJetsEta_E 40<Pt", 15, 0, 15);
  mNJets_40 = ibooker.book1D("NJets", "NJets 40>Pt", 15, 0, 15);
  mNJets1 = ibooker.bookProfile("NJets1", "Number of jets above Pt threshold", 100, 0, 200, 100, 0, 50, "s");
  mNJets2 = ibooker.bookProfile("NJets2", "Number of jets above Pt threshold", 100, 0, 4000, 100, 0, 50, "s");

  if (isCaloJet) {
    maxEInEmTowers = ibooker.book1D("maxEInEmTowers", "maxEInEmTowers", 50, 0, 500);
    maxEInHadTowers = ibooker.book1D("maxEInHadTowers", "maxEInHadTowers", 50, 0, 500);
    energyFractionHadronic = ibooker.book1D("energyFractionHadronic", "energyFractionHadronic", 50, 0, 1);
    emEnergyFraction = ibooker.book1D("emEnergyFraction", "emEnergyFraction", 50, 0, 1);
    hadEnergyInHB = ibooker.book1D("hadEnergyInHB", "hadEnergyInHB", 50, 0, 500);
    hadEnergyInHO = ibooker.book1D("hadEnergyInHO", "hadEnergyInHO", 50, 0, 500);
    hadEnergyInHE = ibooker.book1D("hadEnergyInHE", "hadEnergyInHE", 50, 0, 500);
    hadEnergyInHF = ibooker.book1D("hadEnergyInHF", "hadEnergyInHF", 50, 0, 500);
    emEnergyInEB = ibooker.book1D("emEnergyInEB", "emEnergyInEB", 50, 0, 500);
    emEnergyInEE = ibooker.book1D("emEnergyInEE", "emEnergyInEE", 50, 0, 500);
    emEnergyInHF = ibooker.book1D("emEnergyInHF", "emEnergyInHF", 50, 0, 500);
    towersArea = ibooker.book1D("towersArea", "towersArea", 50, 0, 1);
    n90 = ibooker.book1D("n90", "n90", 30, 0, 30);
    n60 = ibooker.book1D("n60", "n60", 30, 0, 30);
  }

  if (isPFJet || isMiniAODJet) {
    muonMultiplicity = ibooker.book1D("muonMultiplicity", "muonMultiplicity", 10, 0, 10);
    chargedMultiplicity = ibooker.book1D("chargedMultiplicity", "chargedMultiplicity", 100, 0, 100);
    chargedEmEnergy = ibooker.book1D("chargedEmEnergy", "chargedEmEnergy", 100, 0, 500);
    neutralEmEnergy = ibooker.book1D("neutralEmEnergy", "neutralEmEnergy", 100, 0, 500);
    chargedHadronEnergy = ibooker.book1D("chargedHadronEnergy", "chargedHadronEnergy", 100, 0, 500);
    neutralHadronEnergy = ibooker.book1D("neutralHadronEnergy", "neutralHadronEnergy", 100, 0, 500);
    chargedHadronEnergyFraction =
        ibooker.book1D("chargedHadronEnergyFraction", "chargedHadronEnergyFraction", 50, 0, 1);
    neutralHadronEnergyFraction =
        ibooker.book1D("neutralHadronEnergyFraction", "neutralHadronEnergyFraction", 50, 0, 1);
    chargedEmEnergyFraction = ibooker.book1D("chargedEmEnergyFraction", "chargedEmEnergyFraction", 50, 0, 1);
    neutralEmEnergyFraction = ibooker.book1D("neutralEmEnergyFraction", "neutralEmEnergyFraction", 50, 0, 1);
    photonEnergy = ibooker.book1D("photonEnergy", "photonEnergy", 50, 0, 500);
    photonEnergyFraction = ibooker.book1D("photonEnergyFraction", "photonEnergyFraction", 50, 0, 1);
    electronEnergy = ibooker.book1D("electronEnergy", "electronEnergy", 50, 0, 500);
    electronEnergyFraction = ibooker.book1D("electronEnergyFraction", "electronEnergyFraction", 50, 0, 1);
    muonEnergy = ibooker.book1D("muonEnergy", "muonEnergy", 50, 0, 500);
    muonEnergyFraction = ibooker.book1D("muonEnergyFraction", "muonEnergyFraction", 50, 0, 1);
    HFHadronEnergy = ibooker.book1D("HFHadronEnergy", "HFHadronEnergy", 50, 0, 500);
    HFHadronEnergyFraction = ibooker.book1D("HFHadronEnergyFraction", "HFHadronEnergyFraction", 50, 0, 1);
    HFEMEnergy = ibooker.book1D("HFEMEnergy", "HFEMEnergy", 50, 0, 500);
    HFEMEnergyFraction = ibooker.book1D("HFEMEnergyFraction", "HFEMEnergyFraction", 50, 0, 1);
    chargedHadronMultiplicity = ibooker.book1D("chargedHadronMultiplicity", "chargedHadronMultiplicity", 50, 0, 50);
    neutralHadronMultiplicity = ibooker.book1D("neutralHadronMultiplicity", "neutralHadronMultiplicity", 50, 0, 50);
    photonMultiplicity = ibooker.book1D("photonMultiplicity", "photonMultiplicity", 10, 0, 10);
    electronMultiplicity = ibooker.book1D("electronMultiplicity", "electronMultiplicity", 10, 0, 10);
    HFHadronMultiplicity = ibooker.book1D("HFHadronMultiplicity", "HFHadronMultiplicity", 50, 0, 50);
    HFEMMultiplicity = ibooker.book1D("HFEMMultiplicity", "HFEMMultiplicity", 50, 0, 50);
    chargedMuEnergy = ibooker.book1D("chargedMuEnergy", "chargedMuEnergy", 50, 0, 500);
    chargedMuEnergyFraction = ibooker.book1D("chargedMuEnergyFraction", "chargedMuEnergyFraction", 50, 0, 1);
    neutralMultiplicity = ibooker.book1D("neutralMultiplicity", "neutralMultiplicity", 50, 0, 50);
    HOEnergy = ibooker.book1D("HOEnergy", "HOEnergy", 50, 0, 500);
    HOEnergyFraction = ibooker.book1D("HOEnergyFraction", "HOEnergyFraction", 50, 0, 1);
  }
}

//------------------------------------------------------------------------------
// ~JetTester
//------------------------------------------------------------------------------
JetTester::~JetTester() {}

//------------------------------------------------------------------------------
// analyze
//------------------------------------------------------------------------------
void JetTester::analyze(const edm::Event &mEvent, const edm::EventSetup &mSetup) {
  // Get the primary vertices
  //----------------------------------------------------------------------------
  edm::Handle<vector<reco::Vertex>> pvHandle;
  mEvent.getByToken(pvToken_, pvHandle);

  int nGoodVertices = 0;

  if (pvHandle.isValid()) {
    for (unsigned i = 0; i < pvHandle->size(); i++) {
      if ((*pvHandle)[i].ndof() > 4 && (fabs((*pvHandle)[i].z()) <= 24) && (fabs((*pvHandle)[i].position().rho()) <= 2))
        nGoodVertices++;
    }
  }

  mNvtx->Fill(nGoodVertices);

  //  // Get the jet rho
  //  //----------------------------------------------------------------------------
  //  edm::Handle<double> pRho;
  //  mEvent.getByToken(rhoTag, pRho);
  //
  //  if (pRho.isValid())
  //    {
  //      double jetRho = *pRho;
  //
  //      if (mRho) mRho->Fill(jetRho);
  //    }

  // Get the Jet collection
  //----------------------------------------------------------------------------
  math::XYZTLorentzVector p4tmp[2];

  std::vector<Jet> recoJets;
  recoJets.clear();

  edm::Handle<CaloJetCollection> caloJets;
  edm::Handle<PFJetCollection> pfJets;
  //  edm::Handle<JPTJetCollection>  jptJets;
  edm::Handle<pat::JetCollection> patJets;

  if (isCaloJet)
    mEvent.getByToken(caloJetsToken_, caloJets);
  if (isPFJet)
    mEvent.getByToken(pfJetsToken_, pfJets);
  //  if (isJPTJet)  mEvent.getByToken(jptJetsToken_, jptJets);
  if (isMiniAODJet)
    mEvent.getByToken(patJetsToken_, patJets);

  if (isCaloJet && !caloJets.isValid())
    return;
  if (isPFJet && !pfJets.isValid())
    return;
  //  if (isJPTJet  && !jptJets.isValid())  return;
  if (isMiniAODJet && !patJets.isValid())
    return;

  if (isCaloJet) {
    for (unsigned ijet = 0; ijet < caloJets->size(); ijet++)
      recoJets.push_back((*caloJets)[ijet]);
  }

  /*  if (isJPTJet)
      {
        for (unsigned ijet=0; ijet<jptJets->size(); ijet++)
          recoJets.push_back((*jptJets)[ijet]);
      }*/

  if (isPFJet) {
    for (unsigned ijet = 0; ijet < pfJets->size(); ijet++)
      recoJets.push_back((*pfJets)[ijet]);
  }
  if (isMiniAODJet) {
    for (unsigned ijet = 0; ijet < patJets->size(); ijet++)
      recoJets.push_back((*patJets)[ijet]);
  }

  int nJet = 0;
  int nJet_E_20_40 = 0;
  int nJet_B_20_40 = 0;
  int nJet_E_40 = 0;
  int nJet_B_40 = 0;
  int nJet_40 = 0;

  int index_first_jet = -1;
  double pt_first = -1;

  int index_second_jet = -1;
  double pt_second = -1;

  for (unsigned ijet = 0; ijet < recoJets.size(); ijet++) {
    bool pass_lowjet = false;
    bool pass_mediumjet = false;
    if (!isMiniAODJet) {
      if ((recoJets[ijet].pt() > 20.) && (recoJets[ijet].pt() < mRecoJetPtThreshold)) {
        pass_lowjet = true;
      }
    }
    if (isMiniAODJet) {
      if ((recoJets[ijet].pt() * (*patJets)[ijet].jecFactor("Uncorrected")) > 20. &&
          ((recoJets[ijet].pt() * (*patJets)[ijet].jecFactor("Uncorrected")) < mRecoJetPtThreshold)) {
        pass_lowjet = true;
      }
    }
    if (pass_lowjet) {
      if (fabs(recoJets[ijet].eta()) > 1.5)
        nJet_E_20_40++;
      else
        nJet_B_20_40++;
    }
    if (!isMiniAODJet) {
      if (recoJets[ijet].pt() > mRecoJetPtThreshold) {
        pass_mediumjet = true;
      }
    }
    if (isMiniAODJet) {
      if ((recoJets[ijet].pt() * (*patJets)[ijet].jecFactor("Uncorrected")) > mRecoJetPtThreshold) {
        pass_mediumjet = true;
      }
    }
    if (pass_mediumjet) {
      if (isMiniAODJet) {
        if ((recoJets[ijet].pt() * (*patJets)[ijet].jecFactor("Uncorrected")) > pt_first) {
          pt_second = pt_first;
          pt_first = recoJets[ijet].pt() * (*patJets)[ijet].jecFactor("Uncorrected");
          index_second_jet = index_first_jet;
          index_first_jet = ijet;
        } else if ((recoJets[ijet].pt() * (*patJets)[ijet].jecFactor("Uncorrected")) > pt_second) {
          index_second_jet = ijet;
          pt_second = recoJets[ijet].pt() * (*patJets)[ijet].jecFactor("Uncorrected");
        }
      }
      // counting forward and barrel jets
      if (fabs(recoJets[ijet].eta()) > 1.5)
        nJet_E_40++;
      else
        nJet_B_40++;
      nJet_40++;

      if (mEta)
        mEta->Fill(recoJets[ijet].eta());

      if (mJetArea)
        mJetArea->Fill(recoJets[ijet].jetArea());
      if (mPhi)
        mPhi->Fill(recoJets[ijet].phi());
      if (!isMiniAODJet) {
        if (mEnergy)
          mEnergy->Fill(recoJets[ijet].energy());
        if (mP)
          mP->Fill(recoJets[ijet].p());
        if (mPt)
          mPt->Fill(recoJets[ijet].pt());
        if (mMass)
          mMass->Fill(recoJets[ijet].mass());
      } else {
        if (mEnergy)
          mEnergy->Fill(recoJets[ijet].energy() * (*patJets)[ijet].jecFactor("Uncorrected"));
        if (mP)
          mP->Fill(recoJets[ijet].p() * (*patJets)[ijet].jecFactor("Uncorrected"));
        if (mPt)
          mPt->Fill(recoJets[ijet].pt() * (*patJets)[ijet].jecFactor("Uncorrected"));
        if (mMass)
          mMass->Fill(recoJets[ijet].mass() * (*patJets)[ijet].jecFactor("Uncorrected"));
      }
      if (mConstituents)
        mConstituents->Fill(recoJets[ijet].nConstituents());
      if (!isMiniAODJet) {
        if (ijet == 0) {
          if (mEtaFirst)
            mEtaFirst->Fill(recoJets[ijet].eta());
          if (mPhiFirst)
            mPhiFirst->Fill(recoJets[ijet].phi());
          if (mPtFirst)
            mPtFirst->Fill(recoJets[ijet].pt());
        }

        if (ijet == 0) {
          nJet++;
          p4tmp[0] = recoJets[ijet].p4();
        }
        if (ijet == 1) {
          nJet++;
          p4tmp[1] = recoJets[ijet].p4();
        }
      }
      //    if (isPFJet || isCaloJet) {
      //      if (mHadEnergyInHF)       mHadEnergyInHF
      //      ->Fill((*pfJets)[ijet].HFHadronEnergy()); if (mEmEnergyInHF)
      //      mEmEnergyInHF       ->Fill((*pfJets)[ijet].HFEMEnergy()); if
      //      (mChargedEmEnergy)     mChargedEmEnergy
      //      ->Fill((*pfJets)[ijet].chargedEmEnergy()); if
      //      (mChargedHadronEnergy)
      //      mChargedHadronEnergy->Fill((*pfJets)[ijet].chargedHadronEnergy());
      //      if (mNeutralEmEnergy)     mNeutralEmEnergy
      //      ->Fill((*pfJets)[ijet].neutralEmEnergy()); if
      //      (mNeutralHadronEnergy)
      //      mNeutralHadronEnergy->Fill((*pfJets)[ijet].neutralHadronEnergy());
      //    }

      // ---- Calo Jet specific information ----
      if (isCaloJet) {
        maxEInEmTowers->Fill((*caloJets)[ijet].maxEInEmTowers());
        maxEInHadTowers->Fill((*caloJets)[ijet].maxEInHadTowers());
        energyFractionHadronic->Fill((*caloJets)[ijet].energyFractionHadronic());
        emEnergyFraction->Fill((*caloJets)[ijet].emEnergyFraction());
        hadEnergyInHB->Fill((*caloJets)[ijet].hadEnergyInHB());
        hadEnergyInHO->Fill((*caloJets)[ijet].hadEnergyInHO());
        hadEnergyInHE->Fill((*caloJets)[ijet].hadEnergyInHE());
        hadEnergyInHF->Fill((*caloJets)[ijet].hadEnergyInHF());
        emEnergyInEB->Fill((*caloJets)[ijet].emEnergyInEB());
        emEnergyInEE->Fill((*caloJets)[ijet].emEnergyInEE());
        emEnergyInHF->Fill((*caloJets)[ijet].emEnergyInHF());
        towersArea->Fill((*caloJets)[ijet].towersArea());
        n90->Fill((*caloJets)[ijet].n90());
        n60->Fill((*caloJets)[ijet].n60());
      }
      // ---- PF Jet specific information ----
      if (isPFJet) {
        muonMultiplicity->Fill((*pfJets)[ijet].muonMultiplicity());
        chargedMultiplicity->Fill((*pfJets)[ijet].chargedMultiplicity());
        chargedEmEnergy->Fill((*pfJets)[ijet].chargedEmEnergy());
        neutralEmEnergy->Fill((*pfJets)[ijet].neutralEmEnergy());
        chargedHadronEnergy->Fill((*pfJets)[ijet].chargedHadronEnergy());
        neutralHadronEnergy->Fill((*pfJets)[ijet].neutralHadronEnergy());
        chargedHadronEnergyFraction->Fill((*pfJets)[ijet].chargedHadronEnergyFraction());
        neutralHadronEnergyFraction->Fill((*pfJets)[ijet].neutralHadronEnergyFraction());
        chargedEmEnergyFraction->Fill((*pfJets)[ijet].chargedEmEnergyFraction());
        neutralEmEnergyFraction->Fill((*pfJets)[ijet].neutralEmEnergyFraction());
        photonEnergy->Fill((*pfJets)[ijet].photonEnergy());
        photonEnergyFraction->Fill((*pfJets)[ijet].photonEnergyFraction());
        electronEnergy->Fill((*pfJets)[ijet].electronEnergy());
        electronEnergyFraction->Fill((*pfJets)[ijet].electronEnergyFraction());
        muonEnergy->Fill((*pfJets)[ijet].muonEnergy());
        muonEnergyFraction->Fill((*pfJets)[ijet].muonEnergyFraction());
        HFHadronEnergy->Fill((*pfJets)[ijet].HFHadronEnergy());
        HFHadronEnergyFraction->Fill((*pfJets)[ijet].HFHadronEnergyFraction());
        HFEMEnergy->Fill((*pfJets)[ijet].HFEMEnergy());
        HFEMEnergyFraction->Fill((*pfJets)[ijet].HFEMEnergyFraction());
        chargedHadronMultiplicity->Fill((*pfJets)[ijet].chargedHadronMultiplicity());
        neutralHadronMultiplicity->Fill((*pfJets)[ijet].neutralHadronMultiplicity());
        photonMultiplicity->Fill((*pfJets)[ijet].photonMultiplicity());
        electronMultiplicity->Fill((*pfJets)[ijet].electronMultiplicity());
        HFHadronMultiplicity->Fill((*pfJets)[ijet].HFHadronMultiplicity());
        HFEMMultiplicity->Fill((*pfJets)[ijet].HFEMMultiplicity());
        chargedMuEnergy->Fill((*pfJets)[ijet].chargedMuEnergy());
        chargedMuEnergyFraction->Fill((*pfJets)[ijet].chargedMuEnergyFraction());
        neutralMultiplicity->Fill((*pfJets)[ijet].neutralMultiplicity());
        HOEnergy->Fill((*pfJets)[ijet].hoEnergy());
        HOEnergyFraction->Fill((*pfJets)[ijet].hoEnergyFraction());
      }
      if (isMiniAODJet && (*patJets)[ijet].isPFJet()) {
        muonMultiplicity->Fill((*patJets)[ijet].muonMultiplicity());
        chargedMultiplicity->Fill((*patJets)[ijet].chargedMultiplicity());
        chargedEmEnergy->Fill((*patJets)[ijet].chargedEmEnergy());
        neutralEmEnergy->Fill((*patJets)[ijet].neutralEmEnergy());
        chargedHadronEnergy->Fill((*patJets)[ijet].chargedHadronEnergy());
        neutralHadronEnergy->Fill((*patJets)[ijet].neutralHadronEnergy());
        chargedHadronEnergyFraction->Fill((*patJets)[ijet].chargedHadronEnergyFraction());
        neutralHadronEnergyFraction->Fill((*patJets)[ijet].neutralHadronEnergyFraction());
        chargedEmEnergyFraction->Fill((*patJets)[ijet].chargedEmEnergyFraction());
        neutralEmEnergyFraction->Fill((*patJets)[ijet].neutralEmEnergyFraction());
        photonEnergy->Fill((*patJets)[ijet].photonEnergy());
        photonEnergyFraction->Fill((*patJets)[ijet].photonEnergyFraction());
        electronEnergy->Fill((*patJets)[ijet].electronEnergy());
        electronEnergyFraction->Fill((*patJets)[ijet].electronEnergyFraction());
        muonEnergy->Fill((*patJets)[ijet].muonEnergy());
        muonEnergyFraction->Fill((*patJets)[ijet].muonEnergyFraction());
        HFHadronEnergy->Fill((*patJets)[ijet].HFHadronEnergy());
        HFHadronEnergyFraction->Fill((*patJets)[ijet].HFHadronEnergyFraction());
        HFEMEnergy->Fill((*patJets)[ijet].HFEMEnergy());
        HFEMEnergyFraction->Fill((*patJets)[ijet].HFEMEnergyFraction());
        chargedHadronMultiplicity->Fill((*patJets)[ijet].chargedHadronMultiplicity());
        neutralHadronMultiplicity->Fill((*patJets)[ijet].neutralHadronMultiplicity());
        photonMultiplicity->Fill((*patJets)[ijet].photonMultiplicity());
        electronMultiplicity->Fill((*patJets)[ijet].electronMultiplicity());
        HFHadronMultiplicity->Fill((*patJets)[ijet].HFHadronMultiplicity());
        HFEMMultiplicity->Fill((*patJets)[ijet].HFEMMultiplicity());
        chargedMuEnergy->Fill((*patJets)[ijet].chargedMuEnergy());
        chargedMuEnergyFraction->Fill((*patJets)[ijet].chargedMuEnergyFraction());
        neutralMultiplicity->Fill((*patJets)[ijet].neutralMultiplicity());
        HOEnergy->Fill((*patJets)[ijet].hoEnergy());
        HOEnergyFraction->Fill((*patJets)[ijet].hoEnergyFraction());
      }
    }  // fill quantities for medium jets
  }

  if (mNJetsEta_B_20_40)
    mNJetsEta_B_20_40->Fill(nJet_B_20_40);
  if (mNJetsEta_E_20_40)
    mNJetsEta_E_20_40->Fill(nJet_E_20_40);
  if (mNJetsEta_B_40)
    mNJetsEta_B_40->Fill(nJet_B_40);
  if (mNJetsEta_E_40)
    mNJetsEta_E_40->Fill(nJet_E_40);
  if (mNJets_40)
    mNJets_40->Fill(nJet_40);
  if (!isMiniAODJet) {
    if (nJet >= 2) {
      if (mMjj)
        mMjj->Fill((p4tmp[0] + p4tmp[1]).mass());
    }
  } else {
    if (index_first_jet > -1) {
      if (mEtaFirst)
        mEtaFirst->Fill(recoJets[index_first_jet].eta());
      if (mPhiFirst)
        mPhiFirst->Fill(recoJets[index_first_jet].phi());
      if (mPtFirst)
        mPtFirst->Fill(recoJets[index_first_jet].pt() * (*patJets)[index_first_jet].jecFactor("Uncorrected"));
      nJet++;
      p4tmp[0] = recoJets[index_first_jet].p4() * (*patJets)[index_first_jet].jecFactor("Uncorrected");
    }
    if (index_second_jet > -1) {
      nJet++;
      p4tmp[1] = recoJets[index_second_jet].p4() * (*patJets)[index_second_jet].jecFactor("Uncorrected");
    }
    if (nJet >= 2) {
      if (mMjj)
        mMjj->Fill((p4tmp[0] + p4tmp[1]).mass());
    }
  }

  // Count jets above pt cut
  //----------------------------------------------------------------------------
  for (int istep = 0; istep < 100; ++istep) {
    int njets1 = 0;
    int njets2 = 0;

    float ptStep1 = (istep * (200. / 100.));
    float ptStep2 = (istep * (4000. / 100.));

    for (unsigned ijet = 0; ijet < recoJets.size(); ijet++) {
      if (!isMiniAODJet) {
        if (recoJets[ijet].pt() > ptStep1)
          njets1++;
        if (recoJets[ijet].pt() > ptStep2)
          njets2++;
      } else {
        if ((recoJets[ijet].pt() * (*patJets)[ijet].jecFactor("Uncorrected")) > ptStep1)
          njets1++;
        if ((recoJets[ijet].pt() * (*patJets)[ijet].jecFactor("Uncorrected")) > ptStep2)
          njets2++;
      }
      mNJets1->Fill(ptStep1, njets1);
      mNJets2->Fill(ptStep2, njets2);
    }
  }

  // Corrected jets
  //----------------------------------------------------------------------------
  double scale = -999;
  edm::Handle<reco::JetCorrector> jetCorr;
  bool pass_correction_flag = false;
  if (!isMiniAODJet && !mJetCorrector.label().empty()) {
    mEvent.getByToken(jetCorrectorToken_, jetCorr);
    if (jetCorr.isValid()) {
      pass_correction_flag = true;
    }
  }
  if (isMiniAODJet) {
    pass_correction_flag = true;
  }
  for (unsigned ijet = 0; ijet < recoJets.size(); ijet++) {
    Jet correctedJet = recoJets[ijet];
    if (pass_correction_flag) {
      if (isCaloJet)
        scale = jetCorr->correction((*caloJets)[ijet]);
      if (isPFJet)
        scale = jetCorr->correction((*pfJets)[ijet]);
      // if (isJPTJet)  scale = jetCorr->correction((*jptJets)[ijet]);
      if (!isMiniAODJet) {
        correctedJet.scaleEnergy(scale);
      }

      if (correctedJet.pt() < 20)
        continue;

      if (isMiniAODJet) {
        if (hadronFlavor)
          hadronFlavor->Fill((*patJets)[ijet].hadronFlavour());
        if (partonFlavor)
          partonFlavor->Fill((*patJets)[ijet].partonFlavour());
        if (genPartonPDGID && (*patJets)[ijet].genParton() != nullptr)
          genPartonPDGID->Fill((*patJets)[ijet].genParton()->pdgId());
      }

      mCorrJetEta->Fill(correctedJet.eta());
      mCorrJetPhi->Fill(correctedJet.phi());
      mCorrJetPt->Fill(correctedJet.pt());
      if (correctedJet.pt() >= 40) {
        mCorrJetEta_Pt40->Fill(correctedJet.eta());
        mCorrJetPhi_Pt40->Fill(correctedJet.phi());
      }

      double ijetEta = recoJets[ijet].eta();
      double ijetPt = recoJets[ijet].pt();
      if (isMiniAODJet) {
        ijetPt = recoJets[ijet].pt() * (*patJets)[ijet].jecFactor("Uncorrected");
      }
      double ratio = correctedJet.pt() / ijetPt;
      if (isMiniAODJet) {
        ratio = 1. / (*patJets)[ijet].jecFactor("Uncorrected");
      }

      if (fabs(ijetEta) < 1.5)
        mPtCorrOverReco_Pt_B->Fill(log10(ijetPt), ratio);
      else if (fabs(ijetEta) < 3.0)
        mPtCorrOverReco_Pt_E->Fill(log10(ijetPt), ratio);
      else if (fabs(ijetEta) < 6.0)
        mPtCorrOverReco_Pt_F->Fill(log10(ijetPt), ratio);

      if (ijetPt < 40)
        mPtCorrOverReco_Eta_20_40->Fill(ijetEta, ratio);
      else if (ijetPt < 200)
        mPtCorrOverReco_Eta_40_200->Fill(ijetEta, ratio);
      else if (ijetPt < 600)
        mPtCorrOverReco_Eta_200_600->Fill(ijetEta, ratio);
      else if (ijetPt < 1500)
        mPtCorrOverReco_Eta_600_1500->Fill(ijetEta, ratio);
      else if (ijetPt < 3500)
        mPtCorrOverReco_Eta_1500_3500->Fill(ijetEta, ratio);
      else if (ijetPt < 5000)
        mPtCorrOverReco_Eta_3500_5000->Fill(ijetEta, ratio);
      else if (ijetPt < 6500)
        mPtCorrOverReco_Eta_5000_6500->Fill(ijetEta, ratio);
      if (ijetPt > 3500)
        mPtCorrOverReco_Eta_3500->Fill(ijetEta, ratio);
    }
  }

  //----------------------------------------------------------------------------
  //
  // Generation
  //
  //----------------------------------------------------------------------------
  if (!mEvent.isRealData()) {
    // Get ptHat
    //------------------------------------------------------------------------
    edm::Handle<GenEventInfoProduct> myGenEvt;
    mEvent.getByToken(evtToken_, myGenEvt);

    if (myGenEvt.isValid()) {
      if (myGenEvt->hasBinningValues()) {
        double ptHat = myGenEvt->binningValues()[0];
        if (mPtHat)
          mPtHat->Fill(ptHat);
      }
    }
    // Gen jets
    //------------------------------------------------------------------------
    edm::Handle<GenJetCollection> genJets;
    mEvent.getByToken(genJetsToken_, genJets);

    if (!genJets.isValid())
      return;

    for (GenJetCollection::const_iterator gjet = genJets->begin(); gjet != genJets->end(); gjet++) {
      // for MiniAOD we have here intrinsic thresholds, introduce also threshold
      // for RECO
      if (gjet->pt() > mMatchGenPtThreshold) {
        if (mGenEta)
          mGenEta->Fill(gjet->eta());
        if (mGenPhi)
          mGenPhi->Fill(gjet->phi());
        if (mGenPt)
          mGenPt->Fill(gjet->pt());
        if (gjet == genJets->begin()) {
          if (mGenEtaFirst)
            mGenEtaFirst->Fill(gjet->eta());
          if (mGenPhiFirst)
            mGenPhiFirst->Fill(gjet->phi());
        }
      }
    }

    if (!(mInputGenCollection.label().empty())) {
      for (GenJetCollection::const_iterator gjet = genJets->begin(); gjet != genJets->end(); gjet++) {
        if (fabs(gjet->eta()) > 6.)
          continue;  // Out of the detector
        if (gjet->pt() < mMatchGenPtThreshold)
          continue;
        if (recoJets.empty())
          continue;
        // pt response
        //------------------------------------------------------------
        int iMatch = -1;
        double CorrdeltaRBest = 999;
        double CorrJetPtBest = 0;
        double CorrJetMassBest = 0;
        for (unsigned ijet = 0; ijet < recoJets.size(); ++ijet) {
          Jet correctedJet = recoJets[ijet];
          if (pass_correction_flag && !isMiniAODJet) {
            if (isCaloJet)
              scale = jetCorr->correction((*caloJets)[ijet]);
            if (isPFJet)
              scale = jetCorr->correction((*pfJets)[ijet]);
            correctedJet.scaleEnergy(scale);
          }
          double CorrJetPt = correctedJet.pt();
          if (CorrJetPt > 10) {
            double CorrdR = deltaR(gjet->eta(), gjet->phi(), correctedJet.eta(), correctedJet.phi());
            if (CorrdR < CorrdeltaRBest) {
              CorrJetMassBest = correctedJet.mass();
              CorrdeltaRBest = CorrdR;
              CorrJetPtBest = CorrJetPt;
              iMatch = ijet;
            }
          }
        }
        if (iMatch < 0)
          continue;
        // use mass after jet energy correction -> for MiniAOD that is the case
        // per default
        if (!isMiniAODJet) {
          fillMatchHists(gjet->eta(),
                         gjet->phi(),
                         gjet->pt(),
                         gjet->mass(),
                         recoJets[iMatch].eta(),
                         recoJets[iMatch].phi(),
                         recoJets[iMatch].pt(),
                         CorrJetMassBest);
        } else {
          fillMatchHists(gjet->eta(),
                         gjet->phi(),
                         gjet->pt(),
                         gjet->mass(),
                         (*patJets)[iMatch].eta(),
                         (*patJets)[iMatch].phi(),
                         (*patJets)[iMatch].pt() * (*patJets)[iMatch].jecFactor("Uncorrected"),
                         recoJets[iMatch].mass());
        }
        if (pass_correction_flag) {  // fill only for corrected jets
          if (CorrdeltaRBest < mRThreshold) {
            double response = CorrJetPtBest / gjet->pt();

            if (fabs(gjet->eta()) < 1.5)
              mPtCorrOverGen_GenPt_B->Fill(log10(gjet->pt()), response);
            else if (fabs(gjet->eta()) < 3.0)
              mPtCorrOverGen_GenPt_E->Fill(log10(gjet->pt()), response);
            else if (fabs(gjet->eta()) < 6.0)
              mPtCorrOverGen_GenPt_F->Fill(log10(gjet->pt()), response);

            if (gjet->pt() > 20) {
              if (gjet->pt() < 40)
                mPtCorrOverGen_GenEta_20_40->Fill(gjet->eta(), response);
              else if (gjet->pt() < 200)
                mPtCorrOverGen_GenEta_40_200->Fill(gjet->eta(), response);
              else if (gjet->pt() < 600)
                mPtCorrOverGen_GenEta_200_600->Fill(gjet->eta(), response);
              else if (gjet->pt() < 1500)
                mPtCorrOverGen_GenEta_600_1500->Fill(gjet->eta(), response);
              else if (gjet->pt() < 3500)
                mPtCorrOverGen_GenEta_1500_3500->Fill(gjet->eta(), response);
              else if (gjet->pt() < 5000)
                mPtCorrOverGen_GenEta_3500_5000->Fill(gjet->eta(), response);
              else if (gjet->pt() < 6500)
                mPtCorrOverGen_GenEta_5000_6500->Fill(gjet->eta(), response);
              if (gjet->pt() > 3500)
                mPtCorrOverGen_GenEta_3500->Fill(gjet->eta(), response);
            }
          }
        }
      }
    }
  }
}

//------------------------------------------------------------------------------
// fillMatchHists
//------------------------------------------------------------------------------
void JetTester::fillMatchHists(const double GenEta,
                               const double GenPhi,
                               const double GenPt,
                               const double GenMass,
                               const double RecoEta,
                               const double RecoPhi,
                               const double RecoPt,
                               const double RecoMass) {
  if (GenPt > mMatchGenPtThreshold) {
    mDeltaEta->Fill(GenEta - RecoEta);
    mDeltaPhi->Fill(GenPhi - RecoPhi);
    mDeltaPt->Fill((GenPt - RecoPt) / GenPt);
  }

  if (fabs(GenEta) < 1.5) {
    mPtRecoOverGen_GenPt_B->Fill(log10(GenPt), RecoPt / GenPt);
    mPtRecoOverGen_GenPhi_B->Fill(GenPhi, RecoPt / GenPt);

    if (GenPt > 20 && GenPt < 40)
      mMassRecoOverGen_B_20_40->Fill(RecoMass / GenMass);
    else if (GenPt < 200)
      mMassRecoOverGen_B_40_200->Fill(RecoMass / GenMass);
    else if (GenPt < 500)
      mMassRecoOverGen_B_200_500->Fill(RecoMass / GenMass);
    else if (GenPt < 750)
      mMassRecoOverGen_B_500_750->Fill(RecoMass / GenMass);
    else if (GenPt < 1000)
      mMassRecoOverGen_B_750_1000->Fill(RecoMass / GenMass);
    else if (GenPt < 1500)
      mMassRecoOverGen_B_1000_1500->Fill(RecoMass / GenMass);
    else if (GenPt < 3500)
      mMassRecoOverGen_B_1500_3500->Fill(RecoMass / GenMass);
    else if (GenPt < 5000)
      mMassRecoOverGen_B_3500_5000->Fill(RecoMass / GenMass);
    else if (GenPt >= 5000)
      mMassRecoOverGen_B_5000->Fill(RecoMass / GenMass);

    if (GenPt > 20 && GenPt < 40)
      mPtRecoOverGen_B_20_40->Fill(RecoPt / GenPt);
    else if (GenPt < 200)
      mPtRecoOverGen_B_40_200->Fill(RecoPt / GenPt);
    else if (GenPt < 600)
      mPtRecoOverGen_B_200_600->Fill(RecoPt / GenPt);
    else if (GenPt < 1500)
      mPtRecoOverGen_B_600_1500->Fill(RecoPt / GenPt);
    else if (GenPt < 3500)
      mPtRecoOverGen_B_1500_3500->Fill(RecoPt / GenPt);
    else if (GenPt < 5000)
      mPtRecoOverGen_B_3500_5000->Fill(RecoPt / GenPt);
    else if (GenPt < 6500)
      mPtRecoOverGen_B_5000_6500->Fill(RecoPt / GenPt);
    if (GenPt > 3500)
      mPtRecoOverGen_B_3500->Fill(RecoPt / GenPt);
  } else if (fabs(GenEta) < 3.0) {
    mPtRecoOverGen_GenPt_E->Fill(log10(GenPt), RecoPt / GenPt);
    mPtRecoOverGen_GenPhi_E->Fill(GenPhi, RecoPt / GenPt);

    if (GenPt > 20 && GenPt < 40)
      mPtRecoOverGen_E_20_40->Fill(RecoPt / GenPt);
    else if (GenPt < 200)
      mPtRecoOverGen_E_40_200->Fill(RecoPt / GenPt);
    else if (GenPt < 600)
      mPtRecoOverGen_E_200_600->Fill(RecoPt / GenPt);
    else if (GenPt < 1500)
      mPtRecoOverGen_E_600_1500->Fill(RecoPt / GenPt);
    else if (GenPt < 3500)
      mPtRecoOverGen_E_1500_3500->Fill(RecoPt / GenPt);
    else if (GenPt < 5000)
      mPtRecoOverGen_E_3500_5000->Fill(RecoPt / GenPt);
    else if (GenPt < 6500)
      mPtRecoOverGen_E_5000_6500->Fill(RecoPt / GenPt);
    if (GenPt > 3500)
      mPtRecoOverGen_E_3500->Fill(RecoPt / GenPt);

    if (GenPt > 20 && GenPt < 40)
      mMassRecoOverGen_E_20_40->Fill(RecoMass / GenMass);
    else if (GenPt < 200)
      mMassRecoOverGen_E_40_200->Fill(RecoMass / GenMass);
    else if (GenPt < 500)
      mMassRecoOverGen_E_200_500->Fill(RecoMass / GenMass);
    else if (GenPt < 750)
      mMassRecoOverGen_E_500_750->Fill(RecoMass / GenMass);
    else if (GenPt < 1000)
      mMassRecoOverGen_E_750_1000->Fill(RecoMass / GenMass);
    else if (GenPt < 1500)
      mMassRecoOverGen_E_1000_1500->Fill(RecoMass / GenMass);
    else if (GenPt < 3500)
      mMassRecoOverGen_E_1500_3500->Fill(RecoMass / GenMass);
    else if (GenPt < 5000)
      mMassRecoOverGen_E_3500_5000->Fill(RecoMass / GenMass);
    else if (GenPt >= 5000)
      mMassRecoOverGen_E_5000->Fill(RecoMass / GenMass);

  } else if (fabs(GenEta) < 6.0) {
    mPtRecoOverGen_GenPt_F->Fill(log10(GenPt), RecoPt / GenPt);
    mPtRecoOverGen_GenPhi_F->Fill(GenPhi, RecoPt / GenPt);

    if (GenPt > 20 && GenPt < 40)
      mPtRecoOverGen_F_20_40->Fill(RecoPt / GenPt);
    else if (GenPt < 200)
      mPtRecoOverGen_F_40_200->Fill(RecoPt / GenPt);
    else if (GenPt < 600)
      mPtRecoOverGen_F_200_600->Fill(RecoPt / GenPt);
    else if (GenPt < 1500)
      mPtRecoOverGen_F_600_1500->Fill(RecoPt / GenPt);
    else if (GenPt < 3500)
      mPtRecoOverGen_F_1500_3500->Fill(RecoPt / GenPt);
    if (GenPt > 3500)
      mPtRecoOverGen_F_3500->Fill(RecoPt / GenPt);

    if (GenPt > 20 && GenPt < 40)
      mMassRecoOverGen_F_20_40->Fill(RecoMass / GenMass);
    else if (GenPt < 200)
      mMassRecoOverGen_F_40_200->Fill(RecoMass / GenMass);
    else if (GenPt < 500)
      mMassRecoOverGen_F_200_500->Fill(RecoMass / GenMass);
    else if (GenPt < 750)
      mMassRecoOverGen_F_500_750->Fill(RecoMass / GenMass);
    else if (GenPt < 1000)
      mMassRecoOverGen_F_750_1000->Fill(RecoMass / GenMass);
    else if (GenPt < 1500)
      mMassRecoOverGen_F_1000_1500->Fill(RecoMass / GenMass);
    else if (GenPt >= 1500)
      mMassRecoOverGen_F_1500->Fill(RecoMass / GenMass);
  }

  if (GenPt > 20 && GenPt < 40)
    mPtRecoOverGen_GenEta_20_40->Fill(GenEta, RecoPt / GenPt);
  else if (GenPt < 200)
    mPtRecoOverGen_GenEta_40_200->Fill(GenEta, RecoPt / GenPt);
  else if (GenPt < 600)
    mPtRecoOverGen_GenEta_200_600->Fill(GenEta, RecoPt / GenPt);
  else if (GenPt < 1500)
    mPtRecoOverGen_GenEta_600_1500->Fill(GenEta, RecoPt / GenPt);
  else if (GenPt < 3500)
    mPtRecoOverGen_GenEta_1500_3500->Fill(GenEta, RecoPt / GenPt);
  else if (GenPt < 5000)
    mPtRecoOverGen_GenEta_3500_5000->Fill(GenEta, RecoPt / GenPt);
  else if (GenPt < 6500)
    mPtRecoOverGen_GenEta_5000_6500->Fill(GenEta, RecoPt / GenPt);
  if (GenPt > 3500)
    mPtRecoOverGen_GenEta_3500->Fill(GenEta, RecoPt / GenPt);
}