IsolatedTracksCone.cc

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// -*- C++ -*-
//
// Package:    IsolatedParticles
// Class:      IsolatedTracksCone
//
//
// Original Author: Jim Hirschauer (adaptation of Seema Sharma's
//                                  IsolatedTracksNew)
//         Created:  Thu Nov  6 15:30:40 CST 2008
//
//
// system include files
#include <cmath>
#include <map>
#include <memory>
#include <sstream>
#include <string>
#include <vector>

#include <Math/GenVector/VectorUtil.h>

// user include files
#include "Calibration/IsolatedParticles/interface/ChargeIsolation.h"
#include "Calibration/IsolatedParticles/interface/FindCaloHitCone.h"
#include "Calibration/IsolatedParticles/interface/FindCaloHit.h"
#include "Calibration/IsolatedParticles/interface/eECALMatrix.h"
#include "Calibration/IsolatedParticles/interface/eHCALMatrix.h"
#include "Calibration/IsolatedParticles/interface/eCone.h"
#include "Calibration/IsolatedParticles/interface/MatchingSimTrack.h"
#include "Calibration/IsolatedParticles/interface/CaloSimInfo.h"

#include "CondFormats/DataRecord/interface/EcalChannelStatusRcd.h"

#include "DataFormats/Common/interface/Ref.h"
#include "DataFormats/Common/interface/Handle.h"
#include "DataFormats/Candidate/interface/Candidate.h"
#include "DataFormats/DetId/interface/DetId.h"
#include "DataFormats/EcalDetId/interface/EBDetId.h"
#include "DataFormats/EcalDetId/interface/EEDetId.h"
#include "DataFormats/HcalDetId/interface/HcalDetId.h"
#include "DataFormats/EcalRecHit/interface/EcalRecHitCollections.h"
#include "DataFormats/HcalRecHit/interface/HcalRecHitCollections.h"
// muons and tracks
#include "DataFormats/TrackReco/interface/Track.h"
#include "DataFormats/TrackReco/interface/TrackFwd.h"
#include "DataFormats/TrackReco/interface/HitPattern.h"
// Vertices
#include "DataFormats/VertexReco/interface/VertexFwd.h"
#include "DataFormats/VertexReco/interface/Vertex.h"
//L1 objects
#include "DataFormats/L1Trigger/interface/L1JetParticle.h"
#include "DataFormats/L1Trigger/interface/L1JetParticleFwd.h"
#include "DataFormats/HLTReco/interface/TriggerObject.h"
#include "DataFormats/Common/interface/TriggerResults.h"
#include "DataFormats/HLTReco/interface/TriggerEvent.h"
#include "DataFormats/HLTReco/interface/TriggerTypeDefs.h"
#include "DataFormats/Math/interface/deltaPhi.h"

#include "FWCore/Framework/interface/Frameworkfwd.h"
#include "FWCore/Framework/interface/one/EDAnalyzer.h"
#include "FWCore/Framework/interface/Event.h"
#include "FWCore/Framework/interface/EventSetup.h"
#include "FWCore/Framework/interface/MakerMacros.h"
#include "FWCore/Common/interface/TriggerNames.h"
#include "FWCore/Framework/interface/LuminosityBlock.h"
#include "FWCore/MessageLogger/interface/MessageLogger.h"
#include "FWCore/ParameterSet/interface/ParameterSet.h"

//TFile Service
#include "FWCore/ServiceRegistry/interface/Service.h"
#include "CommonTools/UtilAlgos/interface/TFileService.h"

// ecal / hcal
#include "Geometry/CaloGeometry/interface/CaloGeometry.h"
#include "Geometry/CaloGeometry/interface/CaloSubdetectorGeometry.h"
#include "Geometry/Records/interface/CaloTopologyRecord.h"
#include "Geometry/CaloTopology/interface/CaloSubdetectorTopology.h"
#include "Geometry/CaloTopology/interface/HcalTopology.h"
#include "Geometry/CaloTopology/interface/CaloTopology.h"

#include "RecoLocalCalo/EcalRecAlgos/interface/EcalSeverityLevelAlgo.h"
#include "RecoLocalCalo/EcalRecAlgos/interface/EcalSeverityLevelAlgoRcd.h"

// SimHit, SimTrack, ...
#include "SimDataFormats/CaloHit/interface/PCaloHitContainer.h"
#include "SimDataFormats/Track/interface/SimTrack.h"
#include "SimDataFormats/Track/interface/SimTrackContainer.h"
#include "SimDataFormats/Vertex/interface/SimVertex.h"
#include "SimDataFormats/Vertex/interface/SimVertexContainer.h"

// track associator
#include "TrackingTools/TrajectoryState/interface/FreeTrajectoryState.h"
#include "TrackingTools/TrackAssociator/interface/TrackDetectorAssociator.h"

// tracker hit associator
#include "SimTracker/TrackerHitAssociation/interface/TrackerHitAssociator.h"
#include "RecoCaloTools/Navigation/interface/CaloNavigator.h"

// root objects
#include "TROOT.h"
#include "TSystem.h"
#include "TFile.h"
#include "TH1F.h"
#include "TH2F.h"
#include "TProfile.h"
#include "TDirectory.h"
#include "TTree.h"

class IsolatedTracksCone : public edm::one::EDAnalyzer<edm::one::SharedResources> {
public:
  explicit IsolatedTracksCone(const edm::ParameterSet&);
  ~IsolatedTracksCone() override;

  static void fillDescriptions(edm::ConfigurationDescriptions& descriptions);

private:
  void beginJob() override;
  void analyze(const edm::Event&, const edm::EventSetup&) override;
  void endJob() override;

  void printTrack(const reco::Track* pTrack);

  //   void BookHistograms();
  void buildTree();
  void clearTrackVectors();

  static constexpr int nEtaBins_ = 4;
  static constexpr int nPBins_ = 21;
  std::array<double, nPBins_ + 1> genPartPBins_;
  std::array<double, nEtaBins_ + 1> genPartEtaBins;

  const bool doMC_;
  const int myverbose_;
  const bool useJetTrigger_;
  const double drLeadJetVeto_, ptMinLeadJet_;
  const int debugTrks_;
  const bool printTrkHitPattern_;

  const TrackerHitAssociator::Config trackerHitAssociatorConfig_;

  const edm::EDGetTokenT<l1extra::L1JetParticleCollection> tok_L1extTauJet_;
  const edm::EDGetTokenT<l1extra::L1JetParticleCollection> tok_L1extCenJet_;
  const edm::EDGetTokenT<l1extra::L1JetParticleCollection> tok_L1extFwdJet_;

  const edm::EDGetTokenT<EcalRecHitCollection> tok_EB_;
  const edm::EDGetTokenT<EcalRecHitCollection> tok_EE_;
  const edm::EDGetTokenT<HBHERecHitCollection> tok_hbhe_;

  const edm::EDGetTokenT<reco::TrackCollection> tok_genTrack_;
  const edm::EDGetTokenT<edm::SimTrackContainer> tok_simTk_;
  const edm::EDGetTokenT<edm::SimVertexContainer> tok_simVtx_;

  const edm::EDGetTokenT<edm::PCaloHitContainer> tok_caloEB_;
  const edm::EDGetTokenT<edm::PCaloHitContainer> tok_caloEE_;
  const edm::EDGetTokenT<edm::PCaloHitContainer> tok_caloHH_;
  const edm::EDGetTokenT<edm::TriggerResults> tok_trigger_;

  const edm::ESGetToken<CaloGeometry, CaloGeometryRecord> tok_geom_;
  const edm::ESGetToken<CaloTopology, CaloTopologyRecord> tok_caloTopology_;
  const edm::ESGetToken<HcalTopology, HcalRecNumberingRecord> tok_topo_;
  const edm::ESGetToken<EcalChannelStatus, EcalChannelStatusRcd> tok_ecalChStatus_;
  const edm::ESGetToken<EcalSeverityLevelAlgo, EcalSeverityLevelAlgoRcd> tok_sevlv_;

  const double minTrackP_, maxTrackEta_, maxNearTrackP_;
  const int debugEcalSimInfo_;
  const bool applyEcalIsolation_;

  // track associator to detector parameters
  TrackAssociatorParameters parameters_;
  std::unique_ptr<TrackDetectorAssociator> trackAssociator_;

  TTree* ntp_;

  TH1F* h_RawPt;
  TH1F* h_RawP;
  TH1F* h_RawEta;
  TH1F* h_RawPhi;

  int nRawTRK;
  int nFailHighPurityQaul;
  int nFailPt;
  int nFailEta;
  int nMissEcal;
  int nMissHcal;
  int nEVT;
  int nEVT_failL1;
  int nTRK;
  double leadL1JetPT;
  double leadL1JetEta;
  double leadL1JetPhi;

  std::unique_ptr<std::vector<std::vector<int> > > t_v_hnNearTRKs;
  std::unique_ptr<std::vector<std::vector<int> > > t_v_hnLayers_maxNearP;
  std::unique_ptr<std::vector<std::vector<int> > > t_v_htrkQual_maxNearP;
  std::unique_ptr<std::vector<std::vector<double> > > t_v_hmaxNearP_goodTrk;
  std::unique_ptr<std::vector<std::vector<double> > > t_v_hmaxNearP;

  std::unique_ptr<std::vector<std::vector<int> > > t_v_cone_hnNearTRKs;
  std::unique_ptr<std::vector<std::vector<int> > > t_v_cone_hnLayers_maxNearP;
  std::unique_ptr<std::vector<std::vector<int> > > t_v_cone_htrkQual_maxNearP;
  std::unique_ptr<std::vector<std::vector<double> > > t_v_cone_hmaxNearP_goodTrk;
  std::unique_ptr<std::vector<std::vector<double> > > t_v_cone_hmaxNearP;

  std::unique_ptr<std::vector<double> > t_trkNOuterHits;
  std::unique_ptr<std::vector<double> > t_trkNLayersCrossed;
  std::unique_ptr<std::vector<double> > t_dtFromLeadJet;
  std::unique_ptr<std::vector<double> > t_trkP;
  std::unique_ptr<std::vector<double> > t_simP;
  std::unique_ptr<std::vector<double> > t_trkPt;
  std::unique_ptr<std::vector<double> > t_trkEta;
  std::unique_ptr<std::vector<double> > t_trkPhi;
  std::unique_ptr<std::vector<double> > t_e3x3;

  std::unique_ptr<std::vector<std::vector<double> > > t_v_eDR;
  std::unique_ptr<std::vector<std::vector<double> > > t_v_eMipDR;

  std::unique_ptr<std::vector<double> > t_h3x3;
  std::unique_ptr<std::vector<double> > t_h5x5;
  std::unique_ptr<std::vector<double> > t_hsim3x3;
  std::unique_ptr<std::vector<double> > t_hsim5x5;

  std::unique_ptr<std::vector<double> > t_nRH_h3x3;
  std::unique_ptr<std::vector<double> > t_nRH_h5x5;

  std::unique_ptr<std::vector<double> > t_hsim3x3Matched;
  std::unique_ptr<std::vector<double> > t_hsim5x5Matched;
  std::unique_ptr<std::vector<double> > t_hsim3x3Rest;
  std::unique_ptr<std::vector<double> > t_hsim5x5Rest;
  std::unique_ptr<std::vector<double> > t_hsim3x3Photon;
  std::unique_ptr<std::vector<double> > t_hsim5x5Photon;
  std::unique_ptr<std::vector<double> > t_hsim3x3NeutHad;
  std::unique_ptr<std::vector<double> > t_hsim5x5NeutHad;
  std::unique_ptr<std::vector<double> > t_hsim3x3CharHad;
  std::unique_ptr<std::vector<double> > t_hsim5x5CharHad;
  std::unique_ptr<std::vector<double> > t_hsim3x3PdgMatched;
  std::unique_ptr<std::vector<double> > t_hsim5x5PdgMatched;
  std::unique_ptr<std::vector<double> > t_hsim3x3Total;
  std::unique_ptr<std::vector<double> > t_hsim5x5Total;

  std::unique_ptr<std::vector<int> > t_hsim3x3NMatched;
  std::unique_ptr<std::vector<int> > t_hsim3x3NRest;
  std::unique_ptr<std::vector<int> > t_hsim3x3NPhoton;
  std::unique_ptr<std::vector<int> > t_hsim3x3NNeutHad;
  std::unique_ptr<std::vector<int> > t_hsim3x3NCharHad;
  std::unique_ptr<std::vector<int> > t_hsim3x3NTotal;

  std::unique_ptr<std::vector<int> > t_hsim5x5NMatched;
  std::unique_ptr<std::vector<int> > t_hsim5x5NRest;
  std::unique_ptr<std::vector<int> > t_hsim5x5NPhoton;
  std::unique_ptr<std::vector<int> > t_hsim5x5NNeutHad;
  std::unique_ptr<std::vector<int> > t_hsim5x5NCharHad;
  std::unique_ptr<std::vector<int> > t_hsim5x5NTotal;

  std::unique_ptr<std::vector<double> > t_distFromHotCell_h3x3;
  std::unique_ptr<std::vector<int> > t_ietaFromHotCell_h3x3;
  std::unique_ptr<std::vector<int> > t_iphiFromHotCell_h3x3;
  std::unique_ptr<std::vector<double> > t_distFromHotCell_h5x5;
  std::unique_ptr<std::vector<int> > t_ietaFromHotCell_h5x5;
  std::unique_ptr<std::vector<int> > t_iphiFromHotCell_h5x5;

  std::unique_ptr<std::vector<double> > t_trkHcalEne;
  std::unique_ptr<std::vector<double> > t_trkEcalEne;

  std::unique_ptr<std::vector<std::vector<double> > > t_v_hsimInfoConeMatched;
  std::unique_ptr<std::vector<std::vector<double> > > t_v_hsimInfoConeRest;
  std::unique_ptr<std::vector<std::vector<double> > > t_v_hsimInfoConePhoton;
  std::unique_ptr<std::vector<std::vector<double> > > t_v_hsimInfoConeNeutHad;
  std::unique_ptr<std::vector<std::vector<double> > > t_v_hsimInfoConeCharHad;
  std::unique_ptr<std::vector<std::vector<double> > > t_v_hsimInfoConePdgMatched;
  std::unique_ptr<std::vector<std::vector<double> > > t_v_hsimInfoConeTotal;

  std::unique_ptr<std::vector<std::vector<int> > > t_v_hsimInfoConeNMatched;
  std::unique_ptr<std::vector<std::vector<int> > > t_v_hsimInfoConeNRest;
  std::unique_ptr<std::vector<std::vector<int> > > t_v_hsimInfoConeNPhoton;
  std::unique_ptr<std::vector<std::vector<int> > > t_v_hsimInfoConeNNeutHad;
  std::unique_ptr<std::vector<std::vector<int> > > t_v_hsimInfoConeNCharHad;
  std::unique_ptr<std::vector<std::vector<int> > > t_v_hsimInfoConeNTotal;

  std::unique_ptr<std::vector<std::vector<double> > > t_v_hsimCone;
  std::unique_ptr<std::vector<std::vector<double> > > t_v_hCone;
  std::unique_ptr<std::vector<std::vector<int> > > t_v_nRecHitsCone;
  std::unique_ptr<std::vector<std::vector<int> > > t_v_nSimHitsCone;

  std::unique_ptr<std::vector<std::vector<double> > > t_v_distFromHotCell;
  std::unique_ptr<std::vector<std::vector<int> > > t_v_ietaFromHotCell;
  std::unique_ptr<std::vector<std::vector<int> > > t_v_iphiFromHotCell;

  std::unique_ptr<std::vector<std::vector<int> > > t_v_hlTriggers;
  std::unique_ptr<std::vector<int> > t_hltHB;
  std::unique_ptr<std::vector<int> > t_hltHE;
  std::unique_ptr<std::vector<int> > t_hltL1Jet15;
  std::unique_ptr<std::vector<int> > t_hltJet30;
  std::unique_ptr<std::vector<int> > t_hltJet50;
  std::unique_ptr<std::vector<int> > t_hltJet80;
  std::unique_ptr<std::vector<int> > t_hltJet110;
  std::unique_ptr<std::vector<int> > t_hltJet140;
  std::unique_ptr<std::vector<int> > t_hltJet180;
  std::unique_ptr<std::vector<int> > t_hltL1SingleEG5;
  std::unique_ptr<std::vector<int> > t_hltZeroBias;
  std::unique_ptr<std::vector<int> > t_hltMinBiasHcal;
  std::unique_ptr<std::vector<int> > t_hltMinBiasEcal;
  std::unique_ptr<std::vector<int> > t_hltMinBiasPixel;
  std::unique_ptr<std::vector<int> > t_hltSingleIsoTau30_Trk5;
  std::unique_ptr<std::vector<int> > t_hltDoubleLooseIsoTau15_Trk5;

  std::unique_ptr<std::vector<std::vector<int> > > t_v_RH_h3x3_ieta;
  std::unique_ptr<std::vector<std::vector<int> > > t_v_RH_h3x3_iphi;
  std::unique_ptr<std::vector<std::vector<double> > > t_v_RH_h3x3_ene;
  std::unique_ptr<std::vector<std::vector<int> > > t_v_RH_h5x5_ieta;
  std::unique_ptr<std::vector<std::vector<int> > > t_v_RH_h5x5_iphi;
  std::unique_ptr<std::vector<std::vector<double> > > t_v_RH_h5x5_ene;
  std::unique_ptr<std::vector<std::vector<int> > > t_v_RH_r26_ieta;
  std::unique_ptr<std::vector<std::vector<int> > > t_v_RH_r26_iphi;
  std::unique_ptr<std::vector<std::vector<double> > > t_v_RH_r26_ene;
  std::unique_ptr<std::vector<std::vector<int> > > t_v_RH_r44_ieta;
  std::unique_ptr<std::vector<std::vector<int> > > t_v_RH_r44_iphi;
  std::unique_ptr<std::vector<std::vector<double> > > t_v_RH_r44_ene;

  std::unique_ptr<std::vector<unsigned int> > t_irun;
  std::unique_ptr<std::vector<unsigned int> > t_ievt;
  std::unique_ptr<std::vector<unsigned int> > t_ilum;
};

IsolatedTracksCone::IsolatedTracksCone(const edm::ParameterSet& iConfig)
    : doMC_(iConfig.getUntrackedParameter<bool>("doMC", false)),
      myverbose_(iConfig.getUntrackedParameter<int>("verbosity", 5)),
      useJetTrigger_(iConfig.getUntrackedParameter<bool>("useJetTrigger", false)),
      drLeadJetVeto_(iConfig.getUntrackedParameter<double>("drLeadJetVeto", 1.2)),
      ptMinLeadJet_(iConfig.getUntrackedParameter<double>("ptMinLeadJet", 15.0)),
      debugTrks_(iConfig.getUntrackedParameter<int>("debugTracks")),
      printTrkHitPattern_(iConfig.getUntrackedParameter<bool>("printTrkHitPattern")),
      trackerHitAssociatorConfig_(consumesCollector()),
      tok_L1extTauJet_(
          consumes<l1extra::L1JetParticleCollection>(iConfig.getParameter<edm::InputTag>("L1extraTauJetSource"))),
      tok_L1extCenJet_(
          consumes<l1extra::L1JetParticleCollection>(iConfig.getParameter<edm::InputTag>("L1extraCenJetSource"))),
      tok_L1extFwdJet_(
          consumes<l1extra::L1JetParticleCollection>(iConfig.getParameter<edm::InputTag>("L1extraFwdJetSource"))),
      tok_EB_(consumes<EcalRecHitCollection>(edm::InputTag("ecalRecHit", "EcalRecHitsEB"))),
      tok_EE_(consumes<EcalRecHitCollection>(edm::InputTag("ecalRecHit", "EcalRecHitsEE"))),
      tok_hbhe_(consumes<HBHERecHitCollection>(edm::InputTag("hbhereco"))),
      tok_genTrack_(consumes<reco::TrackCollection>(edm::InputTag("generalTracks"))),
      tok_simTk_(consumes<edm::SimTrackContainer>(edm::InputTag("g4SimHits"))),
      tok_simVtx_(consumes<edm::SimVertexContainer>(edm::InputTag("g4SimHits"))),
      tok_caloEB_(consumes<edm::PCaloHitContainer>(edm::InputTag("g4SimHits", "EcalHitsEB"))),
      tok_caloEE_(consumes<edm::PCaloHitContainer>(edm::InputTag("g4SimHits", "EcalHitsEE"))),
      tok_caloHH_(consumes<edm::PCaloHitContainer>(edm::InputTag("g4SimHits", "HcalHits"))),
      tok_trigger_(consumes<edm::TriggerResults>(edm::InputTag("TriggerResults", "", "HLT"))),
      tok_geom_(esConsumes()),
      tok_caloTopology_(esConsumes()),
      tok_topo_(esConsumes()),
      tok_ecalChStatus_(esConsumes()),
      tok_sevlv_(esConsumes()),
      minTrackP_(iConfig.getUntrackedParameter<double>("minTrackP", 10.0)),
      maxTrackEta_(iConfig.getUntrackedParameter<double>("maxTrackEta", 5.0)),
      maxNearTrackP_(iConfig.getUntrackedParameter<double>("maxNearTrackP", 1.0)),
      debugEcalSimInfo_(iConfig.getUntrackedParameter<int>("debugEcalSimInfo")),
      applyEcalIsolation_(iConfig.getUntrackedParameter<bool>("applyEcalIsolation")) {
  //now do what ever initialization is needed

  edm::ParameterSet parameters = iConfig.getParameter<edm::ParameterSet>("TrackAssociatorParameters");
  edm::ConsumesCollector iC = consumesCollector();
  parameters_.loadParameters(parameters, iC);
  trackAssociator_ = std::make_unique<TrackDetectorAssociator>();
  trackAssociator_->useDefaultPropagator();

  if (myverbose_ >= 0) {
    edm::LogVerbatim("IsoTrack") << "Parameters read from config file \n"
                                 << "myverbose_ " << myverbose_ << "\n"
                                 << "useJetTrigger_ " << useJetTrigger_ << "\n"
                                 << "drLeadJetVeto_ " << drLeadJetVeto_ << "\n"
                                 << "minTrackP_ " << minTrackP_ << "\n"
                                 << "maxTrackEta_ " << maxTrackEta_ << "\n"
                                 << "maxNearTrackP_ " << maxNearTrackP_;
  }
}

IsolatedTracksCone::~IsolatedTracksCone() {}

void IsolatedTracksCone::fillDescriptions(edm::ConfigurationDescriptions& descriptions) {
  edm::ParameterSetDescription desc;
  desc.addUntracked<bool>("doMC", false);
  desc.addUntracked<int>("verbosity", 1);
  desc.addUntracked<bool>("useJetTrigger", false);
  desc.addUntracked<double>("drLeadJetVeto", 1.2);
  desc.addUntracked<double>("ptMinLeadJet", 15.0);
  desc.addUntracked<int>("debugTracks", 0);
  desc.addUntracked<bool>("printTrkHitPattern", true);
  desc.addUntracked<double>("minTrackP", 1.0);
  desc.addUntracked<double>("maxTrackEta", 2.6);
  desc.addUntracked<double>("maxNearTrackP", 1.0);
  desc.addUntracked<bool>("debugEcalSimInfo", false);
  desc.addUntracked<bool>("applyEcalIsolation", true);
  desc.addUntracked<bool>("debugL1Info", false);
  desc.add<edm::InputTag>("L1extraTauJetSource", edm::InputTag("l1extraParticles", "Tau"));
  desc.add<edm::InputTag>("L1extraCenJetSource", edm::InputTag("l1extraParticles", "Central"));
  desc.add<edm::InputTag>("L1extraFwdJetSource", edm::InputTag("l1extraParticles", "Forward"));
  //The following parameters are used as default for track association
  edm::ParameterSetDescription desc_TrackAssoc;
  desc_TrackAssoc.add<double>("muonMaxDistanceSigmaX", 0.0);
  desc_TrackAssoc.add<double>("muonMaxDistanceSigmaY", 0.0);
  desc_TrackAssoc.add<edm::InputTag>("CSCSegmentCollectionLabel", edm::InputTag("cscSegments"));
  desc_TrackAssoc.add<double>("dRHcal", 9999.0);
  desc_TrackAssoc.add<double>("dREcal", 9999.0);
  desc_TrackAssoc.add<edm::InputTag>("CaloTowerCollectionLabel", edm::InputTag("towerMaker"));
  desc_TrackAssoc.add<bool>("useEcal", true);
  desc_TrackAssoc.add<double>("dREcalPreselection", 0.05);
  desc_TrackAssoc.add<edm::InputTag>("HORecHitCollectionLabel", edm::InputTag("horeco"));
  desc_TrackAssoc.add<double>("dRMuon", 9999.0);
  desc_TrackAssoc.add<std::string>("crossedEnergyType", "SinglePointAlongTrajectory");
  desc_TrackAssoc.add<double>("muonMaxDistanceX", 5.0);
  desc_TrackAssoc.add<double>("muonMaxDistanceY", 5.0);
  desc_TrackAssoc.add<bool>("useHO", false);
  desc_TrackAssoc.add<bool>("accountForTrajectoryChangeCalo", false);
  desc_TrackAssoc.add<edm::InputTag>("DTRecSegment4DCollectionLabel", edm::InputTag("dt4DSegments"));
  desc_TrackAssoc.add<edm::InputTag>("EERecHitCollectionLabel", edm::InputTag("ecalRecHit", "EcalRecHitsEE"));
  desc_TrackAssoc.add<double>("dRHcalPreselection", 0.2);
  desc_TrackAssoc.add<bool>("useMuon", false);
  desc_TrackAssoc.add<bool>("useCalo", true);
  desc_TrackAssoc.add<edm::InputTag>("EBRecHitCollectionLabel", edm::InputTag("ecalRecHit", "EcalRecHitsEB"));
  desc_TrackAssoc.add<double>("dRMuonPreselection", 0.2);
  desc_TrackAssoc.add<bool>("truthMatch", false);
  desc_TrackAssoc.add<edm::InputTag>("HBHERecHitCollectionLabel", edm::InputTag("hbhereco"));
  desc_TrackAssoc.add<bool>("useHcal", true);
  desc_TrackAssoc.add<bool>("usePreshower", false);
  desc_TrackAssoc.add<double>("dRPreshowerPreselection", 0.2);
  desc_TrackAssoc.add<double>("trajectoryUncertaintyTolerance", 1.0);
  desc.add<edm::ParameterSetDescription>("TrackAssociatorParameters", desc_TrackAssoc);
  descriptions.add("isolatedTracksCone", desc);
}

void IsolatedTracksCone::analyze(const edm::Event& iEvent, const edm::EventSetup& iSetup) {
  unsigned int irun = (unsigned int)iEvent.id().run();
  unsigned int ilum = (unsigned int)iEvent.getLuminosityBlock().luminosityBlock();
  unsigned int ievt = (unsigned int)iEvent.id().event();

  clearTrackVectors();

  // check the L1 objects
  bool L1Pass = false;
  leadL1JetPT = -999, leadL1JetEta = -999, leadL1JetPhi = -999;
  if (!useJetTrigger_) {
    L1Pass = true;
  } else {
    edm::Handle<l1extra::L1JetParticleCollection> l1TauHandle;
    iEvent.getByToken(tok_L1extTauJet_, l1TauHandle);
    l1extra::L1JetParticleCollection::const_iterator itr;
    for (itr = l1TauHandle->begin(); itr != l1TauHandle->end(); ++itr) {
      if (itr->pt() > leadL1JetPT) {
        leadL1JetPT = itr->pt();
        leadL1JetEta = itr->eta();
        leadL1JetPhi = itr->phi();
      }
    }
    edm::Handle<l1extra::L1JetParticleCollection> l1CenJetHandle;
    iEvent.getByToken(tok_L1extCenJet_, l1CenJetHandle);
    for (itr = l1CenJetHandle->begin(); itr != l1CenJetHandle->end(); ++itr) {
      if (itr->pt() > leadL1JetPT) {
        leadL1JetPT = itr->pt();
        leadL1JetEta = itr->eta();
        leadL1JetPhi = itr->phi();
      }
    }
    edm::Handle<l1extra::L1JetParticleCollection> l1FwdJetHandle;
    iEvent.getByToken(tok_L1extFwdJet_, l1FwdJetHandle);
    for (itr = l1FwdJetHandle->begin(); itr != l1FwdJetHandle->end(); ++itr) {
      if (itr->pt() > leadL1JetPT) {
        leadL1JetPT = itr->pt();
        leadL1JetEta = itr->eta();
        leadL1JetPhi = itr->phi();
      }
    }
    if (leadL1JetPT > ptMinLeadJet_) {
      L1Pass = true;
    }
  }

  // Break now if L1Pass is false
  if (!L1Pass) {
    nEVT_failL1++;
    //    edm::LogVerbatim("IsoTrack") << "L1Pass is false : " << L1Pass;
    //     return;
  }

  // Get the collection handles

  const CaloGeometry* geo = &iSetup.getData(tok_geom_);
  const CaloSubdetectorGeometry* gEB = (geo->getSubdetectorGeometry(DetId::Ecal, EcalBarrel));
  const CaloSubdetectorGeometry* gEE = (geo->getSubdetectorGeometry(DetId::Ecal, EcalEndcap));
  const CaloSubdetectorGeometry* gHB = (geo->getSubdetectorGeometry(DetId::Hcal, HcalBarrel));
  const CaloSubdetectorGeometry* gHE = (geo->getSubdetectorGeometry(DetId::Hcal, HcalEndcap));

  const CaloTopology* caloTopology = &iSetup.getData(tok_caloTopology_);
  const HcalTopology* theHBHETopology = &iSetup.getData(tok_topo_);

  edm::Handle<EcalRecHitCollection> barrelRecHitsHandle;
  edm::Handle<EcalRecHitCollection> endcapRecHitsHandle;
  iEvent.getByToken(tok_EB_, barrelRecHitsHandle);
  iEvent.getByToken(tok_EE_, endcapRecHitsHandle);

  // Retrieve the good/bad ECAL channels from the DB
  const EcalChannelStatus* theEcalChStatus = &iSetup.getData(tok_ecalChStatus_);

  edm::Handle<HBHERecHitCollection> hbhe;
  iEvent.getByToken(tok_hbhe_, hbhe);
  const HBHERecHitCollection Hithbhe = *(hbhe.product());

  edm::Handle<reco::TrackCollection> trkCollection;
  iEvent.getByToken(tok_genTrack_, trkCollection);
  reco::TrackCollection::const_iterator trkItr;
  if (debugTrks_ > 1) {
    edm::LogVerbatim("IsoTrack") << "Track Collection: ";
    edm::LogVerbatim("IsoTrack") << "Number of Tracks " << trkCollection->size();
  }
  std::string theTrackQuality = "highPurity";
  reco::TrackBase::TrackQuality trackQuality_ = reco::TrackBase::qualityByName(theTrackQuality);

  //get Handles to SimTracks and SimHits
  edm::Handle<edm::SimTrackContainer> SimTk;
  if (doMC_)
    iEvent.getByToken(tok_simTk_, SimTk);

  edm::Handle<edm::SimVertexContainer> SimVtx;
  if (doMC_)
    iEvent.getByToken(tok_simVtx_, SimVtx);

  //get Handles to PCaloHitContainers of eb/ee/hbhe
  edm::Handle<edm::PCaloHitContainer> pcaloeb;
  if (doMC_)
    iEvent.getByToken(tok_caloEB_, pcaloeb);

  edm::Handle<edm::PCaloHitContainer> pcaloee;
  if (doMC_)
    iEvent.getByToken(tok_caloEE_, pcaloee);

  edm::Handle<edm::PCaloHitContainer> pcalohh;
  if (doMC_)
    iEvent.getByToken(tok_caloHH_, pcalohh);

  // Get HLT_IsoTrackHB/HE Information

  edm::Handle<edm::TriggerResults> triggerResults;
  iEvent.getByToken(tok_trigger_, triggerResults);

  std::vector<int> v_hlTriggers;
  int hltHB(-99);
  int hltHE(-99);
  int hltL1Jet15(-99);
  int hltJet30(-99);
  int hltJet50(-99);
  int hltJet80(-99);
  int hltJet110(-99);
  int hltJet140(-99);
  int hltJet180(-99);
  int hltL1SingleEG5(-99);
  int hltZeroBias(-99);
  int hltMinBiasHcal(-99);
  int hltMinBiasEcal(-99);
  int hltMinBiasPixel(-99);
  int hltSingleIsoTau30_Trk5(-99);
  int hltDoubleLooseIsoTau15_Trk5(-99);

  if (triggerResults.isValid()) {
    const edm::TriggerNames& triggerNames = iEvent.triggerNames(*triggerResults);
    // TriggerNames class  triggerNames.init(*triggerResults);

    for (unsigned int i = 0; i < triggerResults->size(); i++) {
      //      edm::LogVerbatim("IsoTrack") << "triggerNames.triggerName(" << i << ") = " << triggerNames.triggerName(i);
      if (triggerNames.triggerName(i) == "HLT_IsoTrackHE_1E31")
        hltHE = triggerResults->accept(i);
      if (triggerNames.triggerName(i) == "HLT_IsoTrackHB_1E31")
        hltHB = triggerResults->accept(i);
      if (triggerNames.triggerName(i) == "HLT_L1Jet15")
        hltL1Jet15 = triggerResults->accept(i);
      if (triggerNames.triggerName(i) == "HLT_Jet30")
        hltJet30 = triggerResults->accept(i);
      if (triggerNames.triggerName(i) == "HLT_Jet50")
        hltJet50 = triggerResults->accept(i);
      if (triggerNames.triggerName(i) == "HLT_Jet80")
        hltJet80 = triggerResults->accept(i);
      if (triggerNames.triggerName(i) == "HLT_Jet110")
        hltJet110 = triggerResults->accept(i);
      if (triggerNames.triggerName(i) == "HLT_Jet140")
        hltJet140 = triggerResults->accept(i);
      if (triggerNames.triggerName(i) == "HLT_Jet180")
        hltJet180 = triggerResults->accept(i);
      if (triggerNames.triggerName(i) == "HLT_L1SingleEG5")
        hltL1SingleEG5 = triggerResults->accept(i);
      if (triggerNames.triggerName(i) == "HLT_ZeroBias")
        hltZeroBias = triggerResults->accept(i);
      if (triggerNames.triggerName(i) == "HLT_MinBiasHcal")
        hltMinBiasHcal = triggerResults->accept(i);
      if (triggerNames.triggerName(i) == "HLT_MinBiasEcal")
        hltMinBiasEcal = triggerResults->accept(i);
      if (triggerNames.triggerName(i) == "HLT_MinBiasPixel")
        hltMinBiasPixel = triggerResults->accept(i);
      if (triggerNames.triggerName(i) == "HLT_SingleIsoTau30_Trk5")
        hltSingleIsoTau30_Trk5 = triggerResults->accept(i);
      if (triggerNames.triggerName(i) == "HLT_DoubleLooseIsoTau15_Trk5")
        hltDoubleLooseIsoTau15_Trk5 = triggerResults->accept(i);
    }
  }

  // Primary loop over tracks
  std::unique_ptr<TrackerHitAssociator> associate;
  if (doMC_)
    associate = std::make_unique<TrackerHitAssociator>(iEvent, trackerHitAssociatorConfig_);

  nTRK = 0;
  nRawTRK = 0;
  nFailPt = 0;
  nFailEta = 0;
  nFailHighPurityQaul = 0;
  nMissEcal = 0;
  nMissHcal = 0;

  const EcalSeverityLevelAlgo* sevlv = &iSetup.getData(tok_sevlv_);
  for (trkItr = trkCollection->begin(); trkItr != trkCollection->end(); ++trkItr) {
    nRawTRK++;

    const reco::Track* pTrack = &(*trkItr);

    // Check for min Pt and max Eta P

    bool trkQual = pTrack->quality(trackQuality_);
    bool goodPt = pTrack->p() > minTrackP_;
    bool goodEta = std::abs(pTrack->momentum().eta()) < maxTrackEta_;

    double eta1 = pTrack->momentum().eta();
    double phi1 = pTrack->momentum().phi();
    double pt1 = pTrack->pt();
    double p1 = pTrack->p();

    if (!goodEta) {
      nFailEta++;
    }
    if (!goodPt) {
      nFailPt++;
    }
    if (!trkQual) {
      nFailHighPurityQaul++;
    }

    h_RawPt->Fill(pt1);
    h_RawP->Fill(p1);
    h_RawEta->Fill(eta1);
    h_RawPhi->Fill(phi1);

    if (!goodEta || !goodPt || !trkQual)
      continue;  // Skip to next track

    // Find track trajectory

    const FreeTrajectoryState fts1 =
        trackAssociator_->getFreeTrajectoryState(&iSetup.getData(parameters_.bFieldToken), *pTrack);

    TrackDetMatchInfo info1 = trackAssociator_->associate(iEvent, iSetup, fts1, parameters_);

    // First confirm track makes it to Hcal

    if (info1.trkGlobPosAtHcal.x() == 0 && info1.trkGlobPosAtHcal.y() == 0 && info1.trkGlobPosAtHcal.z() == 0) {
      nMissHcal++;
      continue;
    }

    const GlobalPoint hpoint1(info1.trkGlobPosAtHcal.x(), info1.trkGlobPosAtHcal.y(), info1.trkGlobPosAtHcal.z());

    // Get basic quantities

    const reco::HitPattern& hitp = pTrack->hitPattern();
    int nLayersCrossed = hitp.trackerLayersWithMeasurement();
    int nOuterHits = hitp.stripTOBLayersWithMeasurement() + hitp.stripTECLayersWithMeasurement();

    double simP = 0;
    if (doMC_) {
      edm::SimTrackContainer::const_iterator matchedSimTrk =
          spr::matchedSimTrack(iEvent, SimTk, SimVtx, pTrack, *associate, false);
      simP = matchedSimTrk->momentum().P();
    }
    // Get Ecal Point

    const GlobalPoint point1(info1.trkGlobPosAtEcal.x(), info1.trkGlobPosAtEcal.y(), info1.trkGlobPosAtEcal.z());

    // Sanity check that track hits Ecal

    if (info1.trkGlobPosAtEcal.x() == 0 && info1.trkGlobPosAtEcal.y() == 0 && info1.trkGlobPosAtEcal.z() == 0) {
      edm::LogVerbatim("IsoTrack") << "Track doesn't reach Ecal.";
      nMissEcal++;
      continue;
    }

    // Get Track Momentum - make sure you have latest version of TrackDetMatchInfo

    GlobalVector trackMomAtEcal = info1.trkMomAtEcal;
    GlobalVector trackMomAtHcal = info1.trkMomAtHcal;

    // If using Jet trigger, get distance from leading jet

    double drFromLeadJet = 999.0;
    if (useJetTrigger_) {
      double dphi = reco::deltaPhi(phi1, leadL1JetPhi);
      double deta = eta1 - leadL1JetEta;
      drFromLeadJet = sqrt(dphi * dphi + deta * deta);
    }

    // Define Arrays for sizes of Charge, Neut Iso Radii and
    // Clustering Cone Radius.

    const int a_size = 7;
    double a_coneR[a_size];
    double a_charIsoR[a_size];
    double a_neutIsoR[a_size];

    a_coneR[0] = 17.49;  // = area of 2x2
    a_coneR[1] = 26.23;  // = area of 3x3
    a_coneR[2] = 30.61;
    a_coneR[3] = 34.98;  // = area of 4x4
    a_coneR[4] = 39.35;
    a_coneR[5] = 43.72;  // = area of 5x5
    a_coneR[6] = 52.46;  // = area of 6x6

    for (int i = 0; i < a_size; i++) {
      a_charIsoR[i] = a_coneR[i] + 28.9;      // 28.9 gives 55.1 for 3x3 benchmark
      a_neutIsoR[i] = a_charIsoR[i] * 0.726;  // Ecal radius = 0.726*Hcal radius
    }

    // Do Neutral Iso in radius on Ecal surface.

    // NxN cluster
    double e3x3 = -999.0;
    double trkEcalEne = -999.0;

    if (std::abs(point1.eta()) < 1.479) {
      const DetId isoCell = gEB->getClosestCell(point1);
      e3x3 = spr::eECALmatrix(
                 isoCell, barrelRecHitsHandle, endcapRecHitsHandle, *theEcalChStatus, geo, caloTopology, sevlv, 1, 1)
                 .first;
      trkEcalEne = spr::eCaloSimInfo(iEvent, geo, pcaloeb, pcaloee, SimTk, SimVtx, pTrack, *associate);
    } else {
      const DetId isoCell = gEE->getClosestCell(point1);
      e3x3 = spr::eECALmatrix(
                 isoCell, barrelRecHitsHandle, endcapRecHitsHandle, *theEcalChStatus, geo, caloTopology, sevlv, 1, 1)
                 .first;
      trkEcalEne = spr::eCaloSimInfo(iEvent, geo, pcaloeb, pcaloee, SimTk, SimVtx, pTrack, *associate);
    }

    // Cone cluster

    // Set up array of cone sizes for MIP cut
    const int a_mip_size = 5;
    double a_mipR[a_mip_size];
    a_mipR[0] = 3.84;  // = area of 3x3 ecal
    a_mipR[1] = 14.0;
    a_mipR[2] = 19.0;
    a_mipR[3] = 24.0;
    a_mipR[4] = 9.0;  // = from standard analyzer

    std::vector<double> v_eDR;
    for (int i = 0; i < a_size; i++) {
      int nRH_eDR = 0;

      // Cone in ecal
      double eDR = spr::eCone_ecal(
          geo, barrelRecHitsHandle, endcapRecHitsHandle, hpoint1, point1, a_neutIsoR[i], trackMomAtEcal, nRH_eDR);
      v_eDR.push_back(eDR);
    }

    std::vector<double> v_eMipDR;
    for (int i = 0; i < a_mip_size; i++) {
      int nRH_eMipDR = 0;
      double eMipDR = spr::eCone_ecal(
          geo, barrelRecHitsHandle, endcapRecHitsHandle, hpoint1, point1, a_mipR[i], trackMomAtEcal, nRH_eMipDR);

      v_eMipDR.push_back(eMipDR);
    }

    // Do charge isolation in radius at Hcal surface for 5 different
    // radii defined above in a_charIso

    std::vector<double> v_hmaxNearP_goodTrk;
    std::vector<double> v_hmaxNearP;
    std::vector<int> v_hnNearTRKs;
    std::vector<int> v_hnLayers_maxNearP;
    std::vector<int> v_htrkQual_maxNearP;

    std::vector<double> v_cone_hmaxNearP_goodTrk;
    std::vector<double> v_cone_hmaxNearP;
    std::vector<int> v_cone_hnNearTRKs;
    std::vector<int> v_cone_hnLayers_maxNearP;
    std::vector<int> v_cone_htrkQual_maxNearP;

    for (int i = 0; i < a_size; i++) {
      double hmaxNearP = -999.0;
      int hnNearTRKs = 0;
      int hnLayers_maxNearP = 0;
      int htrkQual_maxNearP = -1;
      double hmaxNearP_goodTrk = -999.0;

      double conehmaxNearP = -999.0;
      int conehnNearTRKs = 0;
      int conehnLayers_maxNearP = 0;
      int conehtrkQual_maxNearP = -1;
      double conehmaxNearP_goodTrk = -999.0;

      conehmaxNearP = spr::coneChargeIsolation(iEvent,
                                               iSetup,
                                               trkItr,
                                               trkCollection,
                                               *trackAssociator_,
                                               parameters_,
                                               theTrackQuality,
                                               conehnNearTRKs,
                                               conehnLayers_maxNearP,
                                               conehtrkQual_maxNearP,
                                               conehmaxNearP_goodTrk,
                                               hpoint1,
                                               trackMomAtHcal,
                                               a_charIsoR[i]);

      v_hmaxNearP_goodTrk.push_back(hmaxNearP_goodTrk);
      v_hmaxNearP.push_back(hmaxNearP);
      v_hnNearTRKs.push_back(hnNearTRKs);
      v_hnLayers_maxNearP.push_back(hnLayers_maxNearP);
      v_htrkQual_maxNearP.push_back(htrkQual_maxNearP);

      v_cone_hmaxNearP_goodTrk.push_back(conehmaxNearP_goodTrk);
      v_cone_hmaxNearP.push_back(conehmaxNearP);
      v_cone_hnNearTRKs.push_back(conehnNearTRKs);
      v_cone_hnLayers_maxNearP.push_back(conehnLayers_maxNearP);
      v_cone_htrkQual_maxNearP.push_back(conehtrkQual_maxNearP);
    }

    double h3x3 = -999.0, h5x5 = -999.0;
    double hsim3x3 = -999.0, hsim5x5 = -999.0, trkHcalEne = -999.0;
    std::map<std::string, double> hsimInfo3x3, hsimInfo5x5;
    double distFromHotCell_h3x3 = -99.;
    int ietaFromHotCell_h3x3 = -99;
    int iphiFromHotCell_h3x3 = -99;
    double distFromHotCell_h5x5 = -99.;
    int ietaFromHotCell_h5x5 = -99;
    int iphiFromHotCell_h5x5 = -99;

    GlobalPoint gPosHotCell_h3x3(0., 0., 0.);
    GlobalPoint gPosHotCell_h5x5(0., 0., 0.);

    int nRH_h3x3(0), nRH_h5x5(0);

    // Hcal Energy Clustering

    // Get closetcell for ietaFromHotCell and iphiFromHotCell
    DetId ClosestCell;
    if (std::abs(pTrack->eta()) < 1.392) {
      ClosestCell = gHB->getClosestCell(hpoint1);
    } else {
      ClosestCell = gHE->getClosestCell(hpoint1);
    }
    // Transform into HcalDetId so that I can get ieta, iphi later.
    HcalDetId ClosestCell_HcalDetId(ClosestCell.rawId());

    // Using NxN Cluster
    std::vector<int> v_RH_h3x3_ieta;
    std::vector<int> v_RH_h3x3_iphi;
    std::vector<double> v_RH_h3x3_ene;
    std::vector<int> v_RH_h5x5_ieta;
    std::vector<int> v_RH_h5x5_iphi;
    std::vector<double> v_RH_h5x5_ene;

    h3x3 = spr::eHCALmatrix(geo,
                            theHBHETopology,
                            ClosestCell,
                            hbhe,
                            1,
                            1,
                            nRH_h3x3,
                            v_RH_h3x3_ieta,
                            v_RH_h3x3_iphi,
                            v_RH_h3x3_ene,
                            gPosHotCell_h3x3);
    distFromHotCell_h3x3 = spr::getDistInPlaneTrackDir(hpoint1, trackMomAtHcal, gPosHotCell_h3x3);

    h5x5 = spr::eHCALmatrix(geo,
                            theHBHETopology,
                            ClosestCell,
                            hbhe,
                            2,
                            2,
                            nRH_h5x5,
                            v_RH_h5x5_ieta,
                            v_RH_h5x5_iphi,
                            v_RH_h5x5_ene,
                            gPosHotCell_h5x5);
    distFromHotCell_h5x5 = spr::getDistInPlaneTrackDir(hpoint1, trackMomAtHcal, gPosHotCell_h5x5);

    //     double heta = (double)hpoint1.eta();
    //     double hphi = (double)hpoint1.phi();
    std::vector<int> multiplicity3x3;
    std::vector<int> multiplicity5x5;
    if (doMC_) {
      hsim3x3 = spr::eHCALmatrix(theHBHETopology, ClosestCell, pcalohh, 1, 1);
      hsim5x5 = spr::eHCALmatrix(theHBHETopology, ClosestCell, pcalohh, 2, 2);

      hsimInfo3x3 = spr::eHCALSimInfo(
          iEvent, theHBHETopology, ClosestCell, pcalohh, SimTk, SimVtx, pTrack, *associate, 1, 1, multiplicity3x3);
      hsimInfo5x5 = spr::eHCALSimInfo(
          iEvent, theHBHETopology, ClosestCell, pcalohh, SimTk, SimVtx, pTrack, *associate, 2, 2, multiplicity5x5);

      // Get energy from all simhits in hcal associated with iso track
      trkHcalEne = spr::eCaloSimInfo(iEvent, geo, pcalohh, SimTk, SimVtx, pTrack, *associate);
    }

    // Finally for cones of varying radii.
    std::vector<double> v_hsimInfoConeMatched;
    std::vector<double> v_hsimInfoConeRest;
    std::vector<double> v_hsimInfoConePhoton;
    std::vector<double> v_hsimInfoConeNeutHad;
    std::vector<double> v_hsimInfoConeCharHad;
    std::vector<double> v_hsimInfoConePdgMatched;
    std::vector<double> v_hsimInfoConeTotal;

    std::vector<int> v_hsimInfoConeNMatched;
    std::vector<int> v_hsimInfoConeNTotal;
    std::vector<int> v_hsimInfoConeNNeutHad;
    std::vector<int> v_hsimInfoConeNCharHad;
    std::vector<int> v_hsimInfoConeNPhoton;
    std::vector<int> v_hsimInfoConeNRest;

    std::vector<double> v_hsimCone;
    std::vector<double> v_hCone;

    std::vector<int> v_nRecHitsCone;
    std::vector<int> v_nSimHitsCone;

    std::vector<double> v_distFromHotCell;
    std::vector<int> v_ietaFromHotCell;
    std::vector<int> v_iphiFromHotCell;
    GlobalPoint gposHotCell(0., 0., 0.);

    std::vector<int> v_RH_r26_ieta;
    std::vector<int> v_RH_r26_iphi;
    std::vector<double> v_RH_r26_ene;
    std::vector<int> v_RH_r44_ieta;
    std::vector<int> v_RH_r44_iphi;
    std::vector<double> v_RH_r44_ene;

    for (int i = 0; i < a_size; i++) {
      std::map<std::string, double> hsimInfoCone;
      double hsimCone = -999.0, hCone = -999.0;
      double distFromHotCell = -99.0;
      int ietaFromHotCell = -99;
      int iphiFromHotCell = -99;
      int ietaHotCell = -99;
      int iphiHotCell = -99;
      int nRecHitsCone = -999;
      int nSimHitsCone = -999;

      std::vector<int> multiplicityCone;
      std::vector<DetId> coneRecHitDetIds;
      if (doMC_)
        hsimCone = spr::eCone_hcal(geo, pcalohh, hpoint1, point1, a_coneR[i], trackMomAtHcal, nSimHitsCone);

      // If needed, get ieta and iphi of rechits for cones of 23.25
      // and for hitmap for debugging
      bool makeHitmaps = false;
      if (a_coneR[i] == 26.23 && makeHitmaps) {
        hCone = spr::eCone_hcal(geo,
                                hbhe,
                                hpoint1,
                                point1,
                                a_coneR[i],
                                trackMomAtHcal,
                                nRecHitsCone,
                                v_RH_r26_ieta,
                                v_RH_r26_iphi,
                                v_RH_r26_ene,
                                coneRecHitDetIds,
                                distFromHotCell,
                                ietaHotCell,
                                iphiHotCell,
                                gposHotCell);
      } else if (a_coneR[i] == 43.72 && makeHitmaps) {
        hCone = spr::eCone_hcal(geo,
                                hbhe,
                                hpoint1,
                                point1,
                                a_coneR[i],
                                trackMomAtHcal,
                                nRecHitsCone,
                                v_RH_r44_ieta,
                                v_RH_r44_iphi,
                                v_RH_r44_ene,
                                coneRecHitDetIds,
                                distFromHotCell,
                                ietaHotCell,
                                iphiHotCell,
                                gposHotCell);
      } else {
        hCone = spr::eCone_hcal(geo,
                                hbhe,
                                hpoint1,
                                point1,
                                a_coneR[i],
                                trackMomAtHcal,
                                nRecHitsCone,
                                coneRecHitDetIds,
                                distFromHotCell,
                                ietaHotCell,
                                iphiHotCell,
                                gposHotCell);
      }

      if (ietaHotCell != 99) {
        ietaFromHotCell = ietaHotCell - ClosestCell_HcalDetId.ieta();
        iphiFromHotCell = iphiHotCell - ClosestCell_HcalDetId.iphi();
      }

      // SimHits NOT matched to RecHits
      if (doMC_) {
        hsimInfoCone = spr::eHCALSimInfoCone(iEvent,
                                             pcalohh,
                                             SimTk,
                                             SimVtx,
                                             pTrack,
                                             *associate,
                                             geo,
                                             hpoint1,
                                             point1,
                                             a_coneR[i],
                                             trackMomAtHcal,
                                             multiplicityCone);

        // SimHits matched to RecHits
        //       hsimInfoCone = spr::eHCALSimInfoCone(iEvent,pcalohh, SimTk, SimVtx,
        //                             pTrack, *associate,
        //                             geo, hpoint1, point1,
        //                             a_coneR[i], trackMomAtHcal,
        //                             multiplicityCone,
        //                             coneRecHitDetIds);

        v_hsimInfoConeMatched.push_back(hsimInfoCone["eMatched"]);
        v_hsimInfoConeRest.push_back(hsimInfoCone["eRest"]);
        v_hsimInfoConePhoton.push_back(hsimInfoCone["eGamma"]);
        v_hsimInfoConeNeutHad.push_back(hsimInfoCone["eNeutralHad"]);
        v_hsimInfoConeCharHad.push_back(hsimInfoCone["eChargedHad"]);
        v_hsimInfoConePdgMatched.push_back(hsimInfoCone["pdgMatched"]);
        v_hsimInfoConeTotal.push_back(hsimInfoCone["eTotal"]);

        v_hsimInfoConeNMatched.push_back(multiplicityCone.at(0));

        v_hsimInfoConeNTotal.push_back(multiplicityCone.at(1));
        v_hsimInfoConeNNeutHad.push_back(multiplicityCone.at(2));
        v_hsimInfoConeNCharHad.push_back(multiplicityCone.at(3));
        v_hsimInfoConeNPhoton.push_back(multiplicityCone.at(4));
        v_hsimInfoConeNRest.push_back(multiplicityCone.at(5));

        v_hsimCone.push_back(hsimCone);
        v_nSimHitsCone.push_back(nSimHitsCone);
      }
      v_hCone.push_back(hCone);
      v_nRecHitsCone.push_back(nRecHitsCone);

      v_distFromHotCell.push_back(distFromHotCell);
      v_ietaFromHotCell.push_back(ietaFromHotCell);
      v_iphiFromHotCell.push_back(iphiFromHotCell);
    }

    // Fill Vectors that go into root file

    t_v_hnNearTRKs->push_back(v_hnNearTRKs);
    t_v_hnLayers_maxNearP->push_back(v_hnLayers_maxNearP);
    t_v_htrkQual_maxNearP->push_back(v_htrkQual_maxNearP);
    t_v_hmaxNearP_goodTrk->push_back(v_hmaxNearP_goodTrk);
    t_v_hmaxNearP->push_back(v_hmaxNearP);

    t_v_cone_hnNearTRKs->push_back(v_cone_hnNearTRKs);
    t_v_cone_hnLayers_maxNearP->push_back(v_cone_hnLayers_maxNearP);
    t_v_cone_htrkQual_maxNearP->push_back(v_cone_htrkQual_maxNearP);
    t_v_cone_hmaxNearP_goodTrk->push_back(v_cone_hmaxNearP_goodTrk);
    t_v_cone_hmaxNearP->push_back(v_cone_hmaxNearP);

    //    t_hScale            ->push_back(hScale                    );
    t_trkNOuterHits->push_back(nOuterHits);
    t_trkNLayersCrossed->push_back(nLayersCrossed);
    t_dtFromLeadJet->push_back(drFromLeadJet);
    t_trkP->push_back(p1);
    t_trkPt->push_back(pt1);
    t_trkEta->push_back(eta1);
    t_trkPhi->push_back(phi1);

    t_e3x3->push_back(e3x3);
    t_v_eDR->push_back(v_eDR);
    t_v_eMipDR->push_back(v_eMipDR);

    t_h3x3->push_back(h3x3);
    t_h5x5->push_back(h5x5);
    t_nRH_h3x3->push_back(nRH_h3x3);
    t_nRH_h5x5->push_back(nRH_h5x5);

    t_v_RH_h3x3_ieta->push_back(v_RH_h3x3_ieta);
    t_v_RH_h3x3_iphi->push_back(v_RH_h3x3_iphi);
    t_v_RH_h3x3_ene->push_back(v_RH_h3x3_ene);
    t_v_RH_h5x5_ieta->push_back(v_RH_h5x5_ieta);
    t_v_RH_h5x5_iphi->push_back(v_RH_h5x5_iphi);
    t_v_RH_h5x5_ene->push_back(v_RH_h5x5_ene);

    if (doMC_) {
      t_simP->push_back(simP);
      t_hsim3x3->push_back(hsim3x3);
      t_hsim5x5->push_back(hsim5x5);

      t_hsim3x3Matched->push_back(hsimInfo3x3["eMatched"]);
      t_hsim5x5Matched->push_back(hsimInfo5x5["eMatched"]);
      t_hsim3x3Rest->push_back(hsimInfo3x3["eRest"]);
      t_hsim5x5Rest->push_back(hsimInfo5x5["eRest"]);
      t_hsim3x3Photon->push_back(hsimInfo3x3["eGamma"]);
      t_hsim5x5Photon->push_back(hsimInfo5x5["eGamma"]);
      t_hsim3x3NeutHad->push_back(hsimInfo3x3["eNeutralHad"]);
      t_hsim5x5NeutHad->push_back(hsimInfo5x5["eNeutralHad"]);
      t_hsim3x3CharHad->push_back(hsimInfo3x3["eChargedHad"]);
      t_hsim5x5CharHad->push_back(hsimInfo5x5["eChargedHad"]);
      t_hsim3x3Total->push_back(hsimInfo3x3["eTotal"]);
      t_hsim5x5Total->push_back(hsimInfo5x5["eTotal"]);
      t_hsim3x3PdgMatched->push_back(hsimInfo3x3["pdgMatched"]);
      t_hsim5x5PdgMatched->push_back(hsimInfo5x5["pdgMatched"]);

      t_hsim3x3NMatched->push_back(multiplicity3x3.at(0));
      t_hsim3x3NTotal->push_back(multiplicity3x3.at(1));
      t_hsim3x3NNeutHad->push_back(multiplicity3x3.at(2));
      t_hsim3x3NCharHad->push_back(multiplicity3x3.at(3));
      t_hsim3x3NPhoton->push_back(multiplicity3x3.at(4));
      t_hsim3x3NRest->push_back(multiplicity3x3.at(5));

      t_hsim5x5NMatched->push_back(multiplicity5x5.at(0));
      t_hsim5x5NTotal->push_back(multiplicity5x5.at(1));
      t_hsim5x5NNeutHad->push_back(multiplicity5x5.at(2));
      t_hsim5x5NCharHad->push_back(multiplicity5x5.at(3));
      t_hsim5x5NPhoton->push_back(multiplicity5x5.at(4));
      t_hsim5x5NRest->push_back(multiplicity5x5.at(5));
    }

    t_distFromHotCell_h3x3->push_back(distFromHotCell_h3x3);
    t_ietaFromHotCell_h3x3->push_back(ietaFromHotCell_h3x3);
    t_iphiFromHotCell_h3x3->push_back(iphiFromHotCell_h3x3);
    t_distFromHotCell_h5x5->push_back(distFromHotCell_h5x5);
    t_ietaFromHotCell_h5x5->push_back(ietaFromHotCell_h5x5);
    t_iphiFromHotCell_h5x5->push_back(iphiFromHotCell_h5x5);

    if (doMC_) {
      t_trkHcalEne->push_back(trkHcalEne);
      t_trkEcalEne->push_back(trkEcalEne);

      t_v_hsimInfoConeMatched->push_back(v_hsimInfoConeMatched);
      t_v_hsimInfoConeRest->push_back(v_hsimInfoConeRest);
      t_v_hsimInfoConePhoton->push_back(v_hsimInfoConePhoton);
      t_v_hsimInfoConeNeutHad->push_back(v_hsimInfoConeNeutHad);
      t_v_hsimInfoConeCharHad->push_back(v_hsimInfoConeCharHad);
      t_v_hsimInfoConePdgMatched->push_back(v_hsimInfoConePdgMatched);
      t_v_hsimInfoConeTotal->push_back(v_hsimInfoConeTotal);

      t_v_hsimInfoConeNMatched->push_back(v_hsimInfoConeNMatched);
      t_v_hsimInfoConeNTotal->push_back(v_hsimInfoConeNTotal);
      t_v_hsimInfoConeNNeutHad->push_back(v_hsimInfoConeNNeutHad);
      t_v_hsimInfoConeNCharHad->push_back(v_hsimInfoConeNCharHad);
      t_v_hsimInfoConeNPhoton->push_back(v_hsimInfoConeNPhoton);
      t_v_hsimInfoConeNRest->push_back(v_hsimInfoConeNRest);

      t_v_hsimCone->push_back(v_hsimCone);
      t_v_hCone->push_back(v_hCone);
      t_v_nRecHitsCone->push_back(v_nRecHitsCone);
      t_v_nSimHitsCone->push_back(v_nSimHitsCone);
    }

    t_v_distFromHotCell->push_back(v_distFromHotCell);
    t_v_ietaFromHotCell->push_back(v_ietaFromHotCell);
    t_v_iphiFromHotCell->push_back(v_iphiFromHotCell);

    t_v_RH_r26_ieta->push_back(v_RH_r26_ieta);
    t_v_RH_r26_iphi->push_back(v_RH_r26_iphi);
    t_v_RH_r26_ene->push_back(v_RH_r26_ene);
    t_v_RH_r44_ieta->push_back(v_RH_r44_ieta);
    t_v_RH_r44_iphi->push_back(v_RH_r44_iphi);
    t_v_RH_r44_ene->push_back(v_RH_r44_ene);

    t_v_hlTriggers->push_back(v_hlTriggers);
    t_hltHB->push_back(hltHB);
    t_hltHE->push_back(hltHE);
    t_hltL1Jet15->push_back(hltL1Jet15);
    t_hltJet30->push_back(hltJet30);
    t_hltJet50->push_back(hltJet50);
    t_hltJet80->push_back(hltJet80);
    t_hltJet110->push_back(hltJet110);
    t_hltJet140->push_back(hltJet140);
    t_hltJet180->push_back(hltJet180);
    t_hltL1SingleEG5->push_back(hltL1SingleEG5);
    t_hltZeroBias->push_back(hltZeroBias);
    t_hltMinBiasHcal->push_back(hltMinBiasHcal);
    t_hltMinBiasEcal->push_back(hltMinBiasEcal);
    t_hltMinBiasPixel->push_back(hltMinBiasPixel);
    t_hltSingleIsoTau30_Trk5->push_back(hltSingleIsoTau30_Trk5);
    t_hltDoubleLooseIsoTau15_Trk5->push_back(hltDoubleLooseIsoTau15_Trk5);

    t_irun->push_back(irun);
    t_ievt->push_back(ievt);
    t_ilum->push_back(ilum);

    nTRK++;

  }  // Loop over track collection

  //  edm::LogVerbatim("IsoTrack") << "nEVT= " << nEVT;

  ntp_->Fill();
  nEVT++;
}

void IsolatedTracksCone::beginJob() {
  //   hbScale = 120.0;
  //   heScale = 135.0;
  nEVT = 0;
  nEVT_failL1 = 0;
  nTRK = 0;

  genPartPBins_ = {{0.0,  1.0,  2.0,  3.0,  4.0,  5.0,  6.0,  7.0,  8.0,  9.0,  10.0,
                    12.0, 15.0, 20.0, 25.0, 30.0, 40.0, 50.0, 60.0, 70.0, 80.0, 100.0}};

  genPartEtaBins = {{0.0, 0.5, 1.1, 1.7, 2.0}};

  t_v_hnNearTRKs = std::make_unique<std::vector<std::vector<int> > >();
  t_v_hnLayers_maxNearP = std::make_unique<std::vector<std::vector<int> > >();
  t_v_htrkQual_maxNearP = std::make_unique<std::vector<std::vector<int> > >();
  t_v_hmaxNearP_goodTrk = std::make_unique<std::vector<std::vector<double> > >();
  t_v_hmaxNearP = std::make_unique<std::vector<std::vector<double> > >();

  t_v_cone_hnNearTRKs = std::make_unique<std::vector<std::vector<int> > >();
  t_v_cone_hnLayers_maxNearP = std::make_unique<std::vector<std::vector<int> > >();
  t_v_cone_htrkQual_maxNearP = std::make_unique<std::vector<std::vector<int> > >();
  t_v_cone_hmaxNearP_goodTrk = std::make_unique<std::vector<std::vector<double> > >();
  t_v_cone_hmaxNearP = std::make_unique<std::vector<std::vector<double> > >();

  //  t_hScale             = std::make_unique<std::vector<double> >();
  t_trkNOuterHits = std::make_unique<std::vector<double> >();
  t_trkNLayersCrossed = std::make_unique<std::vector<double> >();
  t_dtFromLeadJet = std::make_unique<std::vector<double> >();
  t_trkP = std::make_unique<std::vector<double> >();
  t_trkPt = std::make_unique<std::vector<double> >();
  t_trkEta = std::make_unique<std::vector<double> >();
  t_trkPhi = std::make_unique<std::vector<double> >();

  t_e3x3 = std::make_unique<std::vector<double> >();
  t_v_eDR = std::make_unique<std::vector<std::vector<double> > >();
  t_v_eMipDR = std::make_unique<std::vector<std::vector<double> > >();

  t_h3x3 = std::make_unique<std::vector<double> >();
  t_h5x5 = std::make_unique<std::vector<double> >();

  t_nRH_h3x3 = std::make_unique<std::vector<double> >();
  t_nRH_h5x5 = std::make_unique<std::vector<double> >();

  if (doMC_) {
    t_simP = std::make_unique<std::vector<double> >();
    t_hsim3x3 = std::make_unique<std::vector<double> >();
    t_hsim5x5 = std::make_unique<std::vector<double> >();

    t_hsim3x3Matched = std::make_unique<std::vector<double> >();
    t_hsim5x5Matched = std::make_unique<std::vector<double> >();
    t_hsim3x3Rest = std::make_unique<std::vector<double> >();
    t_hsim5x5Rest = std::make_unique<std::vector<double> >();
    t_hsim3x3Photon = std::make_unique<std::vector<double> >();
    t_hsim5x5Photon = std::make_unique<std::vector<double> >();
    t_hsim3x3NeutHad = std::make_unique<std::vector<double> >();
    t_hsim5x5NeutHad = std::make_unique<std::vector<double> >();
    t_hsim3x3CharHad = std::make_unique<std::vector<double> >();
    t_hsim5x5CharHad = std::make_unique<std::vector<double> >();
    t_hsim3x3PdgMatched = std::make_unique<std::vector<double> >();
    t_hsim5x5PdgMatched = std::make_unique<std::vector<double> >();
    t_hsim3x3Total = std::make_unique<std::vector<double> >();
    t_hsim5x5Total = std::make_unique<std::vector<double> >();

    t_hsim3x3NMatched = std::make_unique<std::vector<int> >();
    t_hsim3x3NTotal = std::make_unique<std::vector<int> >();
    t_hsim3x3NNeutHad = std::make_unique<std::vector<int> >();
    t_hsim3x3NCharHad = std::make_unique<std::vector<int> >();
    t_hsim3x3NPhoton = std::make_unique<std::vector<int> >();
    t_hsim3x3NRest = std::make_unique<std::vector<int> >();

    t_hsim5x5NMatched = std::make_unique<std::vector<int> >();
    t_hsim5x5NTotal = std::make_unique<std::vector<int> >();
    t_hsim5x5NNeutHad = std::make_unique<std::vector<int> >();
    t_hsim5x5NCharHad = std::make_unique<std::vector<int> >();
    t_hsim5x5NPhoton = std::make_unique<std::vector<int> >();
    t_hsim5x5NRest = std::make_unique<std::vector<int> >();

    t_trkHcalEne = std::make_unique<std::vector<double> >();
    t_trkEcalEne = std::make_unique<std::vector<double> >();
  }

  t_distFromHotCell_h3x3 = std::make_unique<std::vector<double> >();
  t_ietaFromHotCell_h3x3 = std::make_unique<std::vector<int> >();
  t_iphiFromHotCell_h3x3 = std::make_unique<std::vector<int> >();
  t_distFromHotCell_h5x5 = std::make_unique<std::vector<double> >();
  t_ietaFromHotCell_h5x5 = std::make_unique<std::vector<int> >();
  t_iphiFromHotCell_h5x5 = std::make_unique<std::vector<int> >();

  if (doMC_) {
    t_v_hsimInfoConeMatched = std::make_unique<std::vector<std::vector<double> > >();
    t_v_hsimInfoConeRest = std::make_unique<std::vector<std::vector<double> > >();
    t_v_hsimInfoConePhoton = std::make_unique<std::vector<std::vector<double> > >();
    t_v_hsimInfoConeNeutHad = std::make_unique<std::vector<std::vector<double> > >();
    t_v_hsimInfoConeCharHad = std::make_unique<std::vector<std::vector<double> > >();
    t_v_hsimInfoConePdgMatched = std::make_unique<std::vector<std::vector<double> > >();
    t_v_hsimInfoConeTotal = std::make_unique<std::vector<std::vector<double> > >();

    t_v_hsimInfoConeNMatched = std::make_unique<std::vector<std::vector<int> > >();
    t_v_hsimInfoConeNTotal = std::make_unique<std::vector<std::vector<int> > >();
    t_v_hsimInfoConeNNeutHad = std::make_unique<std::vector<std::vector<int> > >();
    t_v_hsimInfoConeNCharHad = std::make_unique<std::vector<std::vector<int> > >();
    t_v_hsimInfoConeNPhoton = std::make_unique<std::vector<std::vector<int> > >();
    t_v_hsimInfoConeNRest = std::make_unique<std::vector<std::vector<int> > >();

    t_v_hsimCone = std::make_unique<std::vector<std::vector<double> > >();
  }

  t_v_hCone = std::make_unique<std::vector<std::vector<double> > >();
  t_v_nRecHitsCone = std::make_unique<std::vector<std::vector<int> > >();
  t_v_nSimHitsCone = std::make_unique<std::vector<std::vector<int> > >();

  t_v_distFromHotCell = std::make_unique<std::vector<std::vector<double> > >();
  t_v_ietaFromHotCell = std::make_unique<std::vector<std::vector<int> > >();
  t_v_iphiFromHotCell = std::make_unique<std::vector<std::vector<int> > >();

  t_v_RH_h3x3_ieta = std::make_unique<std::vector<std::vector<int> > >();
  t_v_RH_h3x3_iphi = std::make_unique<std::vector<std::vector<int> > >();
  t_v_RH_h3x3_ene = std::make_unique<std::vector<std::vector<double> > >();
  t_v_RH_h5x5_ieta = std::make_unique<std::vector<std::vector<int> > >();
  t_v_RH_h5x5_iphi = std::make_unique<std::vector<std::vector<int> > >();
  t_v_RH_h5x5_ene = std::make_unique<std::vector<std::vector<double> > >();
  t_v_RH_r26_ieta = std::make_unique<std::vector<std::vector<int> > >();
  t_v_RH_r26_iphi = std::make_unique<std::vector<std::vector<int> > >();
  t_v_RH_r26_ene = std::make_unique<std::vector<std::vector<double> > >();
  t_v_RH_r44_ieta = std::make_unique<std::vector<std::vector<int> > >();
  t_v_RH_r44_iphi = std::make_unique<std::vector<std::vector<int> > >();
  t_v_RH_r44_ene = std::make_unique<std::vector<std::vector<double> > >();

  t_v_hlTriggers = std::make_unique<std::vector<std::vector<int> > >();

  t_hltHE = std::make_unique<std::vector<int> >();
  t_hltHB = std::make_unique<std::vector<int> >();
  t_hltL1Jet15 = std::make_unique<std::vector<int> >();
  t_hltJet30 = std::make_unique<std::vector<int> >();
  t_hltJet50 = std::make_unique<std::vector<int> >();
  t_hltJet80 = std::make_unique<std::vector<int> >();
  t_hltJet110 = std::make_unique<std::vector<int> >();
  t_hltJet140 = std::make_unique<std::vector<int> >();
  t_hltJet180 = std::make_unique<std::vector<int> >();
  t_hltL1SingleEG5 = std::make_unique<std::vector<int> >();
  t_hltZeroBias = std::make_unique<std::vector<int> >();
  t_hltMinBiasHcal = std::make_unique<std::vector<int> >();
  t_hltMinBiasEcal = std::make_unique<std::vector<int> >();
  t_hltMinBiasPixel = std::make_unique<std::vector<int> >();
  t_hltSingleIsoTau30_Trk5 = std::make_unique<std::vector<int> >();
  t_hltDoubleLooseIsoTau15_Trk5 = std::make_unique<std::vector<int> >();

  t_irun = std::make_unique<std::vector<unsigned int> >();
  t_ievt = std::make_unique<std::vector<unsigned int> >();
  t_ilum = std::make_unique<std::vector<unsigned int> >();

  buildTree();
}

void IsolatedTracksCone::clearTrackVectors() {
  t_v_hnNearTRKs->clear();
  t_v_hnLayers_maxNearP->clear();
  t_v_htrkQual_maxNearP->clear();
  t_v_hmaxNearP_goodTrk->clear();
  t_v_hmaxNearP->clear();

  t_v_cone_hnNearTRKs->clear();
  t_v_cone_hnLayers_maxNearP->clear();
  t_v_cone_htrkQual_maxNearP->clear();
  t_v_cone_hmaxNearP_goodTrk->clear();
  t_v_cone_hmaxNearP->clear();

  //  t_hScale             ->clear();
  t_trkNOuterHits->clear();
  t_trkNLayersCrossed->clear();
  t_dtFromLeadJet->clear();
  t_trkP->clear();
  t_trkPt->clear();
  t_trkEta->clear();
  t_trkPhi->clear();
  t_e3x3->clear();
  t_v_eDR->clear();
  t_v_eMipDR->clear();
  t_h3x3->clear();
  t_h5x5->clear();
  t_nRH_h3x3->clear();
  t_nRH_h5x5->clear();

  if (doMC_) {
    t_simP->clear();
    t_hsim3x3->clear();
    t_hsim5x5->clear();
    t_hsim3x3Matched->clear();
    t_hsim5x5Matched->clear();
    t_hsim3x3Rest->clear();
    t_hsim5x5Rest->clear();
    t_hsim3x3Photon->clear();
    t_hsim5x5Photon->clear();
    t_hsim3x3NeutHad->clear();
    t_hsim5x5NeutHad->clear();
    t_hsim3x3CharHad->clear();
    t_hsim5x5CharHad->clear();
    t_hsim3x3PdgMatched->clear();
    t_hsim5x5PdgMatched->clear();
    t_hsim3x3Total->clear();
    t_hsim5x5Total->clear();

    t_hsim3x3NMatched->clear();
    t_hsim3x3NTotal->clear();
    t_hsim3x3NNeutHad->clear();
    t_hsim3x3NCharHad->clear();
    t_hsim3x3NPhoton->clear();
    t_hsim3x3NRest->clear();

    t_hsim5x5NMatched->clear();
    t_hsim5x5NTotal->clear();
    t_hsim5x5NNeutHad->clear();
    t_hsim5x5NCharHad->clear();
    t_hsim5x5NPhoton->clear();
    t_hsim5x5NRest->clear();

    t_trkHcalEne->clear();
    t_trkEcalEne->clear();
  }

  t_distFromHotCell_h3x3->clear();
  t_ietaFromHotCell_h3x3->clear();
  t_iphiFromHotCell_h3x3->clear();
  t_distFromHotCell_h5x5->clear();
  t_ietaFromHotCell_h5x5->clear();
  t_iphiFromHotCell_h5x5->clear();

  if (doMC_) {
    t_v_hsimInfoConeMatched->clear();
    t_v_hsimInfoConeRest->clear();
    t_v_hsimInfoConePhoton->clear();
    t_v_hsimInfoConeNeutHad->clear();
    t_v_hsimInfoConeCharHad->clear();
    t_v_hsimInfoConePdgMatched->clear();
    t_v_hsimInfoConeTotal->clear();

    t_v_hsimInfoConeNMatched->clear();
    t_v_hsimInfoConeNRest->clear();
    t_v_hsimInfoConeNPhoton->clear();
    t_v_hsimInfoConeNNeutHad->clear();
    t_v_hsimInfoConeNCharHad->clear();
    t_v_hsimInfoConeNTotal->clear();

    t_v_hsimCone->clear();
  }

  t_v_hCone->clear();
  t_v_nRecHitsCone->clear();
  t_v_nSimHitsCone->clear();

  t_v_distFromHotCell->clear();
  t_v_ietaFromHotCell->clear();
  t_v_iphiFromHotCell->clear();

  t_v_RH_h3x3_ieta->clear();
  t_v_RH_h3x3_iphi->clear();
  t_v_RH_h3x3_ene->clear();
  t_v_RH_h5x5_ieta->clear();
  t_v_RH_h5x5_iphi->clear();
  t_v_RH_h5x5_ene->clear();
  t_v_RH_r26_ieta->clear();
  t_v_RH_r26_iphi->clear();
  t_v_RH_r26_ene->clear();
  t_v_RH_r44_ieta->clear();
  t_v_RH_r44_iphi->clear();
  t_v_RH_r44_ene->clear();

  t_v_hlTriggers->clear();
  t_hltHB->clear();
  t_hltHE->clear();
  t_hltL1Jet15->clear();
  t_hltJet30->clear();
  t_hltJet50->clear();
  t_hltJet80->clear();
  t_hltJet110->clear();
  t_hltJet140->clear();
  t_hltJet180->clear();
  t_hltL1SingleEG5->clear();
  t_hltZeroBias->clear();
  t_hltMinBiasHcal->clear();
  t_hltMinBiasEcal->clear();
  t_hltMinBiasPixel->clear();
  t_hltSingleIsoTau30_Trk5->clear();
  t_hltDoubleLooseIsoTau15_Trk5->clear();

  t_irun->clear();
  t_ievt->clear();
  t_ilum->clear();
}

// ----- method called once each job just after ending the event loop ----
void IsolatedTracksCone::endJob() {
  edm::LogVerbatim("IsoTrack") << "Number of Events Processed " << nEVT << " failed L1 " << nEVT_failL1;
}

void IsolatedTracksCone::buildTree() {
  edm::Service<TFileService> fs;
  h_RawPt = fs->make<TH1F>("hRawPt", "hRawPt", 100, 0.0, 100.0);
  h_RawP = fs->make<TH1F>("hRawP", "hRawP", 100, 0.0, 100.0);
  h_RawEta = fs->make<TH1F>("hRawEta", "hRawEta", 15, 0.0, 3.0);
  h_RawPhi = fs->make<TH1F>("hRawPhi", "hRawPhi", 100, -3.2, 3.2);

  ntp_ = fs->make<TTree>("ntp", "ntp");

  // Counters
  ntp_->Branch("nEVT", &nEVT, "nEVT/I");
  ntp_->Branch("leadL1JetPT", &leadL1JetPT, "leadL1JetPT/D");
  ntp_->Branch("leadL1JetEta", &leadL1JetEta, "leadL1JetEta/D");
  ntp_->Branch("leadL1JetPhi", &leadL1JetPhi, "leadL1JetPhi/D");
  ntp_->Branch("nTRK", &nTRK, "nTRK/I");
  ntp_->Branch("nRawTRK", &nRawTRK, "nRawTRK/I");
  ntp_->Branch("nFailHighPurityQaul", &nFailHighPurityQaul, "nFailHighPurityQaul/I");
  ntp_->Branch("nFailPt", &nFailPt, "nFailPt/I");
  ntp_->Branch("nFailEta", &nFailEta, "nFailEta/I");
  ntp_->Branch("nMissEcal", &nMissEcal, "nMissEcal/I");
  ntp_->Branch("nMissHcal", &nMissHcal, "nMissHcal/I");

  ntp_->Branch("hnNearTRKs", "std::vector<std::vector<int> >   ", &t_v_hnNearTRKs);
  ntp_->Branch("hnLayers_maxNearP", "std::vector<std::vector<int> >   ", &t_v_hnLayers_maxNearP);
  ntp_->Branch("htrkQual_maxNearP", "std::vector<std::vector<int> >   ", &t_v_htrkQual_maxNearP);
  ntp_->Branch("hmaxNearP_goodTrk", "std::vector<std::vector<double> >", &t_v_hmaxNearP_goodTrk);
  ntp_->Branch("hmaxNearP", "std::vector<std::vector<double> >", &t_v_hmaxNearP);

  ntp_->Branch("cone_hnNearTRKs", "std::vector<std::vector<int> >   ", &t_v_cone_hnNearTRKs);
  ntp_->Branch("cone_hnLayers_maxNearP", "std::vector<std::vector<int> >   ", &t_v_cone_hnLayers_maxNearP);
  ntp_->Branch("cone_htrkQual_maxNearP", "std::vector<std::vector<int> >   ", &t_v_cone_htrkQual_maxNearP);
  ntp_->Branch("cone_hmaxNearP_goodTrk", "std::vector<std::vector<double> >", &t_v_cone_hmaxNearP_goodTrk);
  ntp_->Branch("cone_hmaxNearP", "std::vector<std::vector<double> >", &t_v_cone_hmaxNearP);

  //ntp_->Branch("hScale"           , "std::vector<double>", &t_hScale          );
  ntp_->Branch("trkNOuterHits", "std::vector<double>", &t_trkNOuterHits);
  ntp_->Branch("trkNLayersCrossed", "std::vector<double>", &t_trkNLayersCrossed);
  ntp_->Branch("drFromLeadJet", "std::vector<double>", &t_dtFromLeadJet);
  ntp_->Branch("trkP", "std::vector<double>", &t_trkP);
  ntp_->Branch("trkPt", "std::vector<double>", &t_trkPt);
  ntp_->Branch("trkEta", "std::vector<double>", &t_trkEta);
  ntp_->Branch("trkPhi", "std::vector<double>", &t_trkPhi);
  ntp_->Branch("e3x3", "std::vector<double>", &t_e3x3);

  ntp_->Branch("e3x3", "std::vector<double>", &t_e3x3);
  ntp_->Branch("v_eDR", "std::vector<std::vector<double> >", &t_v_eDR);
  ntp_->Branch("v_eMipDR", "std::vector<std::vector<double> >", &t_v_eMipDR);

  ntp_->Branch("h3x3", "std::vector<double>", &t_h3x3);
  ntp_->Branch("h5x5", "std::vector<double>", &t_h5x5);
  ntp_->Branch("nRH_h3x3", "std::vector<double>", &t_nRH_h3x3);
  ntp_->Branch("nRH_h5x5", "std::vector<double>", &t_nRH_h5x5);

  if (doMC_) {
    ntp_->Branch("simP", "std::vector<double>", &t_simP);
    ntp_->Branch("hsim3x3", "std::vector<double>", &t_hsim3x3);
    ntp_->Branch("hsim5x5", "std::vector<double>", &t_hsim5x5);

    ntp_->Branch("hsim3x3Matched", "std::vector<double>", &t_hsim3x3Matched);
    ntp_->Branch("hsim5x5Matched", "std::vector<double>", &t_hsim5x5Matched);
    ntp_->Branch("hsim3x3Rest", "std::vector<double>", &t_hsim3x3Rest);
    ntp_->Branch("hsim5x5Rest", "std::vector<double>", &t_hsim5x5Rest);
    ntp_->Branch("hsim3x3Photon", "std::vector<double>", &t_hsim3x3Photon);
    ntp_->Branch("hsim5x5Photon", "std::vector<double>", &t_hsim5x5Photon);
    ntp_->Branch("hsim3x3NeutHad", "std::vector<double>", &t_hsim3x3NeutHad);
    ntp_->Branch("hsim5x5NeutHad", "std::vector<double>", &t_hsim5x5NeutHad);
    ntp_->Branch("hsim3x3CharHad", "std::vector<double>", &t_hsim3x3CharHad);
    ntp_->Branch("hsim5x5CharHad", "std::vector<double>", &t_hsim5x5CharHad);
    ntp_->Branch("hsim3x3PdgMatched", "std::vector<double>", &t_hsim3x3PdgMatched);
    ntp_->Branch("hsim5x5PdgMatched", "std::vector<double>", &t_hsim5x5PdgMatched);
    ntp_->Branch("hsim3x3Total", "std::vector<double>", &t_hsim3x3Total);
    ntp_->Branch("hsim5x5Total", "std::vector<double>", &t_hsim5x5Total);

    ntp_->Branch("hsim3x3NMatched", "std::vector<int>", &t_hsim3x3NMatched);
    ntp_->Branch("hsim3x3NRest", "std::vector<int>", &t_hsim3x3NRest);
    ntp_->Branch("hsim3x3NPhoton", "std::vector<int>", &t_hsim3x3NPhoton);
    ntp_->Branch("hsim3x3NNeutHad", "std::vector<int>", &t_hsim3x3NNeutHad);
    ntp_->Branch("hsim3x3NCharHad", "std::vector<int>", &t_hsim3x3NCharHad);
    ntp_->Branch("hsim3x3NTotal", "std::vector<int>", &t_hsim3x3NTotal);

    ntp_->Branch("hsim5x5NMatched", "std::vector<int>", &t_hsim5x5NMatched);
    ntp_->Branch("hsim5x5NRest", "std::vector<int>", &t_hsim5x5NRest);
    ntp_->Branch("hsim5x5NPhoton", "std::vector<int>", &t_hsim5x5NPhoton);
    ntp_->Branch("hsim5x5NNeutHad", "std::vector<int>", &t_hsim5x5NNeutHad);
    ntp_->Branch("hsim5x5NCharHad", "std::vector<int>", &t_hsim5x5NCharHad);
    ntp_->Branch("hsim5x5NTotal", "std::vector<int>", &t_hsim5x5NTotal);

    ntp_->Branch("trkHcalEne", "std::vector<double>", &t_trkHcalEne);
    ntp_->Branch("trkEcalEne", "std::vector<double>", &t_trkEcalEne);
  }

  ntp_->Branch("distFromHotCell_h3x3", "std::vector<double>", &t_distFromHotCell_h3x3);
  ntp_->Branch("ietaFromHotCell_h3x3", "std::vector<int>", &t_ietaFromHotCell_h3x3);
  ntp_->Branch("iphiFromHotCell_h3x3", "std::vector<int>", &t_iphiFromHotCell_h3x3);
  ntp_->Branch("distFromHotCell_h5x5", "std::vector<double>", &t_distFromHotCell_h5x5);
  ntp_->Branch("ietaFromHotCell_h5x5", "std::vector<int>", &t_ietaFromHotCell_h5x5);
  ntp_->Branch("iphiFromHotCell_h5x5", "std::vector<int>", &t_iphiFromHotCell_h5x5);

  if (doMC_) {
    ntp_->Branch("v_hsimInfoConeMatched", "std::vector<std::vector<double> >", &t_v_hsimInfoConeMatched);
    ntp_->Branch("v_hsimInfoConeRest", "std::vector<std::vector<double> >", &t_v_hsimInfoConeRest);
    ntp_->Branch("v_hsimInfoConePhoton", "std::vector<std::vector<double> >", &t_v_hsimInfoConePhoton);
    ntp_->Branch("v_hsimInfoConeNeutHad", "std::vector<std::vector<double> >", &t_v_hsimInfoConeNeutHad);
    ntp_->Branch("v_hsimInfoConeCharHad", "std::vector<std::vector<double> >", &t_v_hsimInfoConeCharHad);
    ntp_->Branch("v_hsimInfoConePdgMatched", "std::vector<std::vector<double> >", &t_v_hsimInfoConePdgMatched);
    ntp_->Branch("v_hsimInfoConeTotal", "std::vector<std::vector<double> >", &t_v_hsimInfoConeTotal);

    ntp_->Branch("v_hsimInfoConeNMatched", "std::vector<std::vector<int> >", &t_v_hsimInfoConeNMatched);
    ntp_->Branch("v_hsimInfoConeNRest", "std::vector<std::vector<int> >", &t_v_hsimInfoConeNRest);
    ntp_->Branch("v_hsimInfoConeNPhoton", "std::vector<std::vector<int> >", &t_v_hsimInfoConeNPhoton);
    ntp_->Branch("v_hsimInfoConeNNeutHad", "std::vector<std::vector<int> >", &t_v_hsimInfoConeNNeutHad);
    ntp_->Branch("v_hsimInfoConeNCharHad", "std::vector<std::vector<int> >", &t_v_hsimInfoConeNCharHad);
    ntp_->Branch("v_hsimInfoConeNTotal", "std::vector<std::vector<int> >", &t_v_hsimInfoConeNTotal);

    ntp_->Branch("v_hsimCone", "std::vector<std::vector<double> >", &t_v_hsimCone);
  }

  ntp_->Branch("v_hCone", "std::vector<std::vector<double> >", &t_v_hCone);
  ntp_->Branch("v_nRecHitsCone", "std::vector<std::vector<int> >", &t_v_nRecHitsCone);
  ntp_->Branch("v_nSimHitsCone", "std::vector<std::vector<int> >", &t_v_nSimHitsCone);

  ntp_->Branch("v_distFromHotCell", "std::vector<std::vector<double> >", &t_v_distFromHotCell);
  ntp_->Branch("v_ietaFromHotCell", "std::vector<std::vector<int> >", &t_v_ietaFromHotCell);
  ntp_->Branch("v_iphiFromHotCell", "std::vector<std::vector<int> >", &t_v_iphiFromHotCell);

  ntp_->Branch("v_RH_h3x3_ieta", "std::vector<std::vector<int> >", &t_v_RH_h3x3_ieta);
  ntp_->Branch("v_RH_h3x3_iphi", "std::vector<std::vector<int> >", &t_v_RH_h3x3_iphi);
  ntp_->Branch("v_RH_h3x3_ene", "std::vector<std::vector<double> >", &t_v_RH_h3x3_ene);
  ntp_->Branch("v_RH_h5x5_ieta", "std::vector<std::vector<int> >", &t_v_RH_h5x5_ieta);
  ntp_->Branch("v_RH_h5x5_iphi", "std::vector<std::vector<int> >", &t_v_RH_h5x5_iphi);
  ntp_->Branch("v_RH_h5x5_ene", "std::vector<std::vector<double> >", &t_v_RH_h5x5_ene);
  ntp_->Branch("v_RH_r26_ieta", "std::vector<std::vector<int> >", &t_v_RH_r26_ieta);
  ntp_->Branch("v_RH_r26_iphi", "std::vector<std::vector<int> >", &t_v_RH_r26_iphi);
  ntp_->Branch("v_RH_r26_ene", "std::vector<std::vector<double> >", &t_v_RH_r26_ene);
  ntp_->Branch("v_RH_r44_ieta", "std::vector<std::vector<int> >", &t_v_RH_r44_ieta);
  ntp_->Branch("v_RH_r44_iphi", "std::vector<std::vector<int> >", &t_v_RH_r44_iphi);
  ntp_->Branch("v_RH_r44_ene", "std::vector<std::vector<double> >", &t_v_RH_r44_ene);

  ntp_->Branch("v_hlTriggers", "std::vector<std::vector<int> >", &t_v_hlTriggers);
  ntp_->Branch("v_hltHB", "std::vector<int>", &t_hltHB);
  ntp_->Branch("v_hltHE", "std::vector<int>", &t_hltHE);
  ntp_->Branch("v_hltL1Jet15", "std::vector<int>", &t_hltL1Jet15);
  ntp_->Branch("v_hltJet30", "std::vector<int>", &t_hltJet30);
  ntp_->Branch("v_hltJet50", "std::vector<int>", &t_hltJet50);
  ntp_->Branch("v_hltJet80", "std::vector<int>", &t_hltJet80);
  ntp_->Branch("v_hltJet110", "std::vector<int>", &t_hltJet110);
  ntp_->Branch("v_hltJet140", "std::vector<int>", &t_hltJet140);
  ntp_->Branch("v_hltJet180", "std::vector<int>", &t_hltJet180);
  ntp_->Branch("v_hltL1SingleEG5", "std::vector<int>", &t_hltL1SingleEG5);
  ntp_->Branch("v_hltZeroBias", "std::vector<int>", &t_hltZeroBias);
  ntp_->Branch("v_hltMinBiasHcal", "std::vector<int>", &t_hltMinBiasHcal);
  ntp_->Branch("v_hltMinBiasEcal", "std::vector<int>", &t_hltMinBiasEcal);
  ntp_->Branch("v_hltMinBiasPixel", "std::vector<int>", &t_hltMinBiasPixel);
  ntp_->Branch("v_hltSingleIsoTau30_Trk5", "std::vector<int>", &t_hltSingleIsoTau30_Trk5);
  ntp_->Branch("v_hltDoubleLooseIsoTau15_Trk5", "std::vector<int>", &t_hltDoubleLooseIsoTau15_Trk5);

  ntp_->Branch("irun", "std::vector<unsigned int>", &t_irun);
  ntp_->Branch("ievt", "std::vector<unsigned int>", &t_ievt);
  ntp_->Branch("ilum", "std::vector<unsigned int>", &t_ilum);
}

void IsolatedTracksCone::printTrack(const reco::Track* pTrack) {
  std::string theTrackQuality = "highPurity";
  reco::TrackBase::TrackQuality trackQuality_ = reco::TrackBase::qualityByName(theTrackQuality);

  edm::LogVerbatim("IsoTrack") << " Reference Point " << pTrack->referencePoint() << "\n"
                               << " TrackMmentum " << pTrack->momentum() << " (pt,eta,phi)(" << pTrack->pt() << ","
                               << pTrack->eta() << "," << pTrack->phi() << ")"
                               << " p " << pTrack->p() << "\n"
                               << " Normalized chi2 " << pTrack->normalizedChi2() << "  charge " << pTrack->charge()
                               << " qoverp() " << pTrack->qoverp() << "+-" << pTrack->qoverpError() << " d0 "
                               << pTrack->d0() << "\n"
                               << " NValidHits " << pTrack->numberOfValidHits() << "  NLostHits "
                               << pTrack->numberOfLostHits() << " TrackQuality " << pTrack->qualityName(trackQuality_)
                               << " " << pTrack->quality(trackQuality_);

  if (printTrkHitPattern_) {
    const reco::HitPattern& p = pTrack->hitPattern();
    for (int i = 0; i < p.numberOfAllHits(reco::HitPattern::TRACK_HITS); i++) {
      std::ostringstream st1;
      p.printHitPattern(reco::HitPattern::TRACK_HITS, i, st1);
      edm::LogVerbatim("IsoTrack") << st1.str();
    }
  }
}

//define this as a plug-in
DEFINE_FWK_MODULE(IsolatedTracksCone);