#include <Calibration/IsolatedParticles/plugins/IsolatedTracksNxN.cc>

Inheritance diagram for IsolatedTracksNxN:

Public Member Functions
	IsolatedTracksNxN (const edm::ParameterSet &)

	~IsolatedTracksNxN ()

Public Member Functions inherited from edm::EDAnalyzer
void	callWhenNewProductsRegistered (std::function< void(BranchDescription const &)> const &func)

	EDAnalyzer ()

ModuleDescription const &	moduleDescription () const

std::string	workerType () const

virtual	~EDAnalyzer ()

Public Member Functions inherited from edm::EDConsumerBase
	EDConsumerBase ()

ProductHolderIndexAndSkipBit	indexFrom (EDGetToken, BranchType, TypeID const &) const

void	itemsMayGet (BranchType, std::vector< ProductHolderIndexAndSkipBit > &) const

void	itemsToGet (BranchType, std::vector< ProductHolderIndexAndSkipBit > &) const

std::vector < ProductHolderIndexAndSkipBit > const &	itemsToGetFromEvent () const

void	labelsForToken (EDGetToken iToken, Labels &oLabels) const

bool	registeredToConsume (ProductHolderIndex, bool, BranchType) const

bool	registeredToConsumeMany (TypeID const &, BranchType) const

void	updateLookup (BranchType iBranchType, ProductHolderIndexHelper const &)

virtual	~EDConsumerBase ()

Private Member Functions
void	analyze (const edm::Event &, const edm::EventSetup &)

void	beginJob ()

void	BookHistograms ()

void	clearTreeVectors ()

double	DeltaPhi (double v1, double v2)

double	DeltaR (double eta1, double phi1, double eta2, double phi2)

void	endJob ()

void	printTrack (const reco::Track *pTrack)

Private Attributes
const MagneticField *	bField

bool	debugL1Info_

int	debugTrks_

bool	doMC

edm::Service< TFileService >	fs

double	genPartEtaBins [4]

double	genPartPBins [16]

TH1I *	h_L1AlgoNames

TH1F *	h_maxNearP15x15 [NPBins][NEtaBins]

TH1F *	h_maxNearP21x21 [NPBins][NEtaBins]

TH1F *	h_maxNearP25x25 [NPBins][NEtaBins]

TH1F *	h_maxNearP31x31 [NPBins][NEtaBins]

TH1F *	h_nTracks

TH1F *	h_PVTracksWt

TH1F *	h_recEta_0

TH1F *	h_recEta_1

TH1F *	h_recEta_2

TH2F *	h_recEtaP_0

TH2F *	h_recEtaP_1

TH2F *	h_recEtaP_2

TH2F *	h_recEtaPt_0

TH2F *	h_recEtaPt_1

TH2F *	h_recEtaPt_2

TH1F *	h_recP_0

TH1F *	h_recP_1

TH1F *	h_recP_2

TH1F *	h_recPhi_0

TH1F *	h_recPhi_1

TH1F *	h_recPhi_2

TH1F *	h_recPt_0

TH1F *	h_recPt_1

TH1F *	h_recPt_2

edm::InputTag	HBHERecHitSource_

bool	initL1

edm::InputTag	JetExtender_

edm::InputTag	JetSrc_

std::map< std::pair< unsigned int, std::string >, int >	l1AlgoMap

edm::InputTag	L1extraCenJetSource_

edm::InputTag	L1extraFwdJetSource_

edm::InputTag	L1extraIsoEmSource_

edm::InputTag	L1extraMuonSource_

edm::InputTag	L1extraNonIsoEmSource_

edm::InputTag	L1extraTauJetSource_

edm::InputTag	L1GTObjectMapRcdSource_

edm::InputTag	L1GTReadoutRcdSource_

bool	L1TriggerAlgoInfo_

const L1GtTriggerMask *	m_l1GtTmAlgo
	trigger masks & veto masks More...

L1GtUtils	m_l1GtUtils

unsigned int	m_numberDaqPartitions
	number of DAQ partitions More...

std::vector< unsigned int >	m_triggerMaskAlgoTrig

double	maxTrackEta_

double	minTrackP_

int	myverbose_

int	nbad

int	nEventProc

bool	printTrkHitPattern_

double	pvTracksPtMin_

int	t_Bunch

std::vector< double > *	t_e11x11

std::vector< double > *	t_e11x11_10Sig

std::vector< double > *	t_e11x11_15Sig

std::vector< double > *	t_e11x11_20Sig

std::vector< double > *	t_e11x11_25Sig

std::vector< double > *	t_e11x11_30Sig

std::vector< double > *	t_e15x15

std::vector< double > *	t_e15x15_10Sig

std::vector< double > *	t_e15x15_15Sig

std::vector< double > *	t_e15x15_20Sig

std::vector< double > *	t_e15x15_25Sig

std::vector< double > *	t_e15x15_30Sig

std::vector< double > *	t_e7x7

std::vector< double > *	t_e7x7_10Sig

std::vector< double > *	t_e7x7_15Sig

std::vector< double > *	t_e7x7_20Sig

std::vector< double > *	t_e7x7_25Sig

std::vector< double > *	t_e7x7_30Sig

std::vector< double > *	t_e9x9

std::vector< double > *	t_e9x9_10Sig

std::vector< double > *	t_e9x9_15Sig

std::vector< double > *	t_e9x9_20Sig

std::vector< double > *	t_e9x9_25Sig

std::vector< double > *	t_e9x9_30Sig

std::vector< int > *	t_ecalSpike11x11

std::vector< double > *	t_esim11x11

std::vector< double > *	t_esim11x11CharHad

std::vector< double > *	t_esim11x11Matched

std::vector< double > *	t_esim11x11NeutHad

std::vector< double > *	t_esim11x11Photon

std::vector< double > *	t_esim11x11Rest

std::vector< double > *	t_esim15x15

std::vector< double > *	t_esim15x15CharHad

std::vector< double > *	t_esim15x15Matched

std::vector< double > *	t_esim15x15NeutHad

std::vector< double > *	t_esim15x15Photon

std::vector< double > *	t_esim15x15Rest

std::vector< double > *	t_esim7x7

std::vector< double > *	t_esim7x7CharHad

std::vector< double > *	t_esim7x7Matched

std::vector< double > *	t_esim7x7NeutHad

std::vector< double > *	t_esim7x7Photon

std::vector< double > *	t_esim7x7Rest

std::vector< double > *	t_esim9x9

std::vector< double > *	t_esim9x9CharHad

std::vector< double > *	t_esim9x9Matched

std::vector< double > *	t_esim9x9NeutHad

std::vector< double > *	t_esim9x9Photon

std::vector< double > *	t_esim9x9Rest

std::vector< double > *	t_esimPdgId

int	t_EvtNo

std::vector< double > *	t_h3x3

std::vector< double > *	t_h3x3Sig

std::vector< double > *	t_h5x5

std::vector< double > *	t_h5x5Sig

std::vector< double > *	t_h7x7

std::vector< double > *	t_h7x7Sig

std::vector< double > *	t_hsim3x3

std::vector< double > *	t_hsim3x3CharHad

std::vector< double > *	t_hsim3x3Matched

std::vector< double > *	t_hsim3x3NeutHad

std::vector< double > *	t_hsim3x3Photon

std::vector< double > *	t_hsim3x3Rest

std::vector< double > *	t_hsim5x5

std::vector< double > *	t_hsim5x5CharHad

std::vector< double > *	t_hsim5x5Matched

std::vector< double > *	t_hsim5x5NeutHad

std::vector< double > *	t_hsim5x5Photon

std::vector< double > *	t_hsim5x5Rest

std::vector< double > *	t_hsim7x7

std::vector< double > *	t_hsim7x7CharHad

std::vector< double > *	t_hsim7x7Matched

std::vector< double > *	t_hsim7x7NeutHad

std::vector< double > *	t_hsim7x7Photon

std::vector< double > *	t_hsim7x7Rest

std::vector< int > *	t_infoHcal

std::vector< double > *	t_jetEta

std::vector< double > *	t_jetPhi

std::vector< double > *	t_jetPt

std::vector< std::string > *	t_L1AlgoNames

std::vector< double > *	t_L1CenJetEta

std::vector< double > *	t_L1CenJetPhi

std::vector< double > *	t_L1CenJetPt

int	t_L1Decision [128]

std::vector< double > *	t_L1FwdJetEta

std::vector< double > *	t_L1FwdJetPhi

std::vector< double > *	t_L1FwdJetPt

std::vector< double > *	t_L1IsoEMEta

std::vector< double > *	t_L1IsoEMPhi

std::vector< double > *	t_L1IsoEMPt

std::vector< double > *	t_L1METEta

std::vector< double > *	t_L1METPhi

std::vector< double > *	t_L1METPt

std::vector< double > *	t_L1MuonEta

std::vector< double > *	t_L1MuonPhi

std::vector< double > *	t_L1MuonPt

std::vector< double > *	t_L1NonIsoEMEta

std::vector< double > *	t_L1NonIsoEMPhi

std::vector< double > *	t_L1NonIsoEMPt

std::vector< int > *	t_L1PreScale

std::vector< double > *	t_L1TauJetEta

std::vector< double > *	t_L1TauJetPhi

std::vector< double > *	t_L1TauJetPt

int	t_Lumi

std::vector< double > *	t_maxNearHcalP3x3

std::vector< double > *	t_maxNearHcalP5x5

std::vector< double > *	t_maxNearHcalP7x7

std::vector< double > *	t_maxNearP15x15

std::vector< double > *	t_maxNearP21x21

std::vector< double > *	t_maxNearP25x25

std::vector< double > *	t_maxNearP31x31

std::vector< int > *	t_NLayersCrossed

int	t_nTracks

std::vector< double > *	t_nTrksJetCalo

std::vector< double > *	t_nTrksJetVtx

std::vector< int > *	t_PVisValid

std::vector< int > *	t_PVndof

std::vector< int > *	t_PVNTracks

std::vector< int > *	t_PVNTracksHP

std::vector< int > *	t_PVNTracksHPWt

std::vector< int > *	t_PVNTracksWt

std::vector< double > *	t_PVTracksSumPt

std::vector< double > *	t_PVTracksSumPtHP

std::vector< double > *	t_PVTracksSumPtHPWt

std::vector< double > *	t_PVTracksSumPtWt

std::vector< double > *	t_PVx

std::vector< double > *	t_PVy

std::vector< double > *	t_PVz

int	t_RunNo

std::vector< double > *	t_simTrackP

std::vector< double > *	t_trackChiSq

std::vector< double > *	t_trackChiSqAll

std::vector< double > *	t_trackDxy

std::vector< double > *	t_trackDxyAll

std::vector< double > *	t_trackDxyBS

std::vector< double > *	t_trackDxyPV

std::vector< double > *	t_trackDxyPVAll

std::vector< double > *	t_trackDz

std::vector< double > *	t_trackDzAll

std::vector< double > *	t_trackDzBS

std::vector< double > *	t_trackDzPV

std::vector< double > *	t_trackDzPVAll

std::vector< double > *	t_trackEcalEta

std::vector< double > *	t_trackEcalPhi

std::vector< double > *	t_trackEta

std::vector< double > *	t_trackEtaAll

std::vector< double > *	t_trackHcalEta

std::vector< double > *	t_trackHcalPhi

std::vector< int > *	t_trackHitInMeasTEC

std::vector< int > *	t_trackHitInMeasTIB

std::vector< int > *	t_trackHitInMeasTID

std::vector< int > *	t_trackHitInMeasTOB

std::vector< int > *	t_trackHitInMissTEC

std::vector< int > *	t_trackHitInMissTIB

std::vector< int > *	t_trackHitInMissTIBTID

std::vector< int > *	t_trackHitInMissTID

std::vector< int > *	t_trackHitInMissTOB

std::vector< int > *	t_trackHitOutMeasTEC

std::vector< int > *	t_trackHitOutMeasTIB

std::vector< int > *	t_trackHitOutMeasTID

std::vector< int > *	t_trackHitOutMeasTOB

std::vector< int > *	t_trackHitOutMissTEC

std::vector< int > *	t_trackHitOutMissTIB

std::vector< int > *	t_trackHitOutMissTID

std::vector< int > *	t_trackHitOutMissTOB

std::vector< int > *	t_trackHitOutMissTOBTEC

std::vector< int > *	t_trackHitsTEC

std::vector< int > *	t_trackHitsTOB

std::vector< double > *	t_trackL

std::vector< int > *	t_trackNOuterHits

std::vector< double > *	t_trackOutPosOutHitDr

std::vector< double > *	t_trackP

std::vector< double > *	t_trackPAll

std::vector< double > *	t_trackPdgIdAll

std::vector< double > *	t_trackPhi

std::vector< double > *	t_trackPhiAll

std::vector< double > *	t_trackPt

std::vector< double > *	t_trackPtAll

std::vector< int > *	t_trackPVIdx

std::vector< double > *	t_trkEcalEne

std::vector< double > *	t_trkHcalEne

double	tMaxE_

double	tMaxH_

double	tMinE_

double	tMinH_

edm::EDGetTokenT< reco::BeamSpot >	tok_bs_

edm::EDGetTokenT < edm::PCaloHitContainer >	tok_caloEB_

edm::EDGetTokenT < edm::PCaloHitContainer >	tok_caloEE_

edm::EDGetTokenT < edm::PCaloHitContainer >	tok_caloHH_

edm::EDGetTokenT < EcalRecHitCollection >	tok_EB_

edm::EDGetTokenT < EcalRecHitCollection >	tok_EE_

edm::EDGetTokenT < reco::TrackCollection >	tok_genTrack_

edm::EDGetTokenT < HBHERecHitCollection >	tok_hbhe_

edm::EDGetTokenT < reco::CaloJetCollection >	tok_jets_

edm::EDGetTokenT < l1extra::L1JetParticleCollection >	tok_L1extCenJet_

edm::EDGetTokenT < l1extra::L1JetParticleCollection >	tok_L1extFwdJet_

edm::EDGetTokenT < l1extra::L1EmParticleCollection >	tok_L1extIsoEm_

edm::EDGetTokenT < l1extra::L1MuonParticleCollection >	tok_L1extMu_

edm::EDGetTokenT < l1extra::L1EmParticleCollection >	tok_L1extNoIsoEm_

edm::EDGetTokenT < l1extra::L1JetParticleCollection >	tok_L1extTauJet_

edm::EDGetTokenT < reco::VertexCollection >	tok_recVtx_

edm::EDGetTokenT < edm::SimTrackContainer >	tok_simTk_

edm::EDGetTokenT < edm::SimVertexContainer >	tok_simVtx_

TTree *	tree

bool	writeAllTracks

Static Private Attributes
static const size_t	NEtaBins = 3

static const size_t	nL1BitsMax =128

static const size_t	NPBins = 15

Additional Inherited Members
Public Types inherited from edm::EDAnalyzer
typedef EDAnalyzer	ModuleType

Static Public Member Functions inherited from edm::EDAnalyzer
static const std::string &	baseType ()

static void	fillDescriptions (ConfigurationDescriptions &descriptions)

static void	prevalidate (ConfigurationDescriptions &)

Protected Member Functions inherited from edm::EDConsumerBase
template<typename ProductType , BranchType B = InEvent>
EDGetTokenT< ProductType >	consumes (edm::InputTag const &tag)

EDGetToken	consumes (const TypeToGet &id, edm::InputTag const &tag)

template<BranchType B>
EDGetToken	consumes (TypeToGet const &id, edm::InputTag const &tag)

ConsumesCollector	consumesCollector ()
	Use a ConsumesCollector to gather consumes information from helper functions. More...

template<typename ProductType , BranchType B = InEvent>
void	consumesMany ()

void	consumesMany (const TypeToGet &id)

template<BranchType B>
void	consumesMany (const TypeToGet &id)

template<typename ProductType , BranchType B = InEvent>
EDGetTokenT< ProductType >	mayConsume (edm::InputTag const &tag)

EDGetToken	mayConsume (const TypeToGet &id, edm::InputTag const &tag)

template<BranchType B>
EDGetToken	mayConsume (const TypeToGet &id, edm::InputTag const &tag)

Detailed Description

Description: <one line="" class="" summary>="">

Implementation: <Notes on="" implementation>="">

Definition at line 114 of file IsolatedTracksNxN.h.

Constructor & Destructor Documentation

IsolatedTracksNxN::IsolatedTracksNxN ( const edm::ParameterSet & iConfig )

explicit

Definition at line 35 of file IsolatedTracksNxN.cc.

References gather_cfg::cout, debugL1Info_, debugTrks_, doMC, edm::false, edm::ParameterSet::getParameter(), edm::ParameterSet::getUntrackedParameter(), HBHERecHitSource_, initL1, JetExtender_, JetSrc_, L1extraCenJetSource_, L1extraFwdJetSource_, L1extraIsoEmSource_, L1extraMuonSource_, L1extraNonIsoEmSource_, L1extraTauJetSource_, L1GTObjectMapRcdSource_, L1GTReadoutRcdSource_, L1TriggerAlgoInfo_, maxTrackEta_, minTrackP_, myverbose_, nbad, printTrkHitPattern_, pvTracksPtMin_, tMaxE_, tMaxH_, tMinE_, tMinH_, tok_bs_, tok_caloEB_, tok_caloEE_, tok_caloHH_, tok_EB_, tok_EE_, tok_genTrack_, tok_hbhe_, tok_jets_, tok_L1extCenJet_, tok_L1extFwdJet_, tok_L1extIsoEm_, tok_L1extMu_, tok_L1extNoIsoEm_, tok_L1extTauJet_, tok_recVtx_, tok_simTk_, tok_simVtx_, and writeAllTracks.

                                                                    {
 
   //now do what ever initialization is needed
   doMC                   = iConfig.getUntrackedParameter<bool>  ("DoMC", false); 
   writeAllTracks         = iConfig.getUntrackedParameter<bool>  ("WriteAllTracks", false ); 
   myverbose_             = iConfig.getUntrackedParameter<int>   ("Verbosity", 5          );
   pvTracksPtMin_         = iConfig.getUntrackedParameter<double>("PVTracksPtMin", 1.0    );
   debugTrks_             = iConfig.getUntrackedParameter<int>   ("DebugTracks"           );
   printTrkHitPattern_    = iConfig.getUntrackedParameter<bool>  ("PrintTrkHitPattern"    );
   minTrackP_             = iConfig.getUntrackedParameter<double>("minTrackP", 1.0        );
   maxTrackEta_           = iConfig.getUntrackedParameter<double>("maxTrackEta", 5.0      );
   debugL1Info_           = iConfig.getUntrackedParameter<bool>  ("DebugL1Info", false    );
   L1TriggerAlgoInfo_     = iConfig.getUntrackedParameter<bool>  ("L1TriggerAlgoInfo");
   L1extraTauJetSource_   = iConfig.getParameter<edm::InputTag>  ("L1extraTauJetSource"   );
   L1extraCenJetSource_   = iConfig.getParameter<edm::InputTag>  ("L1extraCenJetSource"   );
   L1extraFwdJetSource_   = iConfig.getParameter<edm::InputTag>  ("L1extraFwdJetSource"   );
   L1extraMuonSource_     = iConfig.getParameter<edm::InputTag>  ("L1extraMuonSource"     );
   L1extraIsoEmSource_    = iConfig.getParameter<edm::InputTag>  ("L1extraIsoEmSource"    );
   L1extraNonIsoEmSource_ = iConfig.getParameter<edm::InputTag>  ("L1extraNonIsoEmSource" );
   L1GTReadoutRcdSource_  = iConfig.getParameter<edm::InputTag>  ("L1GTReadoutRcdSource"  );
   L1GTObjectMapRcdSource_= iConfig.getParameter<edm::InputTag>  ("L1GTObjectMapRcdSource");
   JetSrc_                = iConfig.getParameter<edm::InputTag>  ("JetSource");
   JetExtender_           = iConfig.getParameter<edm::InputTag>  ("JetExtender");
   HBHERecHitSource_      = iConfig.getParameter<edm::InputTag>  ("HBHERecHitSource");
   tMinE_                 = iConfig.getUntrackedParameter<double>("TimeMinCutECAL", -500.);
   tMaxE_                 = iConfig.getUntrackedParameter<double>("TimeMaxCutECAL",  500.);
   tMinH_                 = iConfig.getUntrackedParameter<double>("TimeMinCutHCAL", -500.);
   tMaxH_                 = iConfig.getUntrackedParameter<double>("TimeMaxCutHCAL",  500.);
   nbad                   = 0;
 
   // define tokens for access
   tok_L1extTauJet_ = consumes<l1extra::L1JetParticleCollection>(L1extraTauJetSource_);
   tok_L1extCenJet_ = consumes<l1extra::L1JetParticleCollection>(L1extraCenJetSource_);
   tok_L1extFwdJet_ = consumes<l1extra::L1JetParticleCollection>(L1extraFwdJetSource_);
   tok_L1extMu_ = consumes<l1extra::L1MuonParticleCollection>(L1extraMuonSource_);
   tok_L1extIsoEm_ = consumes<l1extra::L1EmParticleCollection>(L1extraIsoEmSource_);
   tok_L1extNoIsoEm_ = consumes<l1extra::L1EmParticleCollection>(L1extraNonIsoEmSource_);
   tok_jets_ = consumes<reco::CaloJetCollection>(JetSrc_);
   tok_hbhe_ = consumes<HBHERecHitCollection>(HBHERecHitSource_);
 
   
   tok_genTrack_ = consumes<reco::TrackCollection>(edm::InputTag("generalTracks"));
   tok_recVtx_ = consumes<reco::VertexCollection>(edm::InputTag("offlinePrimaryVertices"));
   tok_bs_ = consumes<reco::BeamSpot>(edm::InputTag("offlineBeamSpot"));
   tok_EB_ = consumes<EcalRecHitCollection>(edm::InputTag("ecalRecHit","EcalRecHitsEB"));
   tok_EE_ = consumes<EcalRecHitCollection>(edm::InputTag("ecalRecHit","EcalRecHitsEE"));
   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"));
 
   if(myverbose_>=0) {
     std::cout <<"Parameters read from config file \n" 
           <<" doMC         "               << doMC
           <<"\t myverbose_ "               << myverbose_        
           <<"\t minTrackP_ "               << minTrackP_     
           << "\t maxTrackEta_ "            << maxTrackEta_
           << "\t tMinE_ "                  << tMinE_
           << "\t tMaxE_ "                  << tMaxE_
           << "\t tMinH_ "                  << tMinH_
           << "\t tMaxH_ "                  << tMaxH_
           << "\n debugL1Info_ "            << debugL1Info_  
           << "\t L1TriggerAlgoInfo_ "      << L1TriggerAlgoInfo_
           << "\t L1extraTauJetSource_ "    << L1extraTauJetSource_
           << "\t L1extraCenJetSource_ "    << L1extraCenJetSource_
           << "\t L1extraFwdJetSource_ "    << L1extraFwdJetSource_
           << "\t L1extraMuonSource_ "      << L1extraMuonSource_
           << "\t L1extraIsoEmSource_ "     << L1extraIsoEmSource_
           << "\t L1extraNonIsoEmSource_ "  << L1extraNonIsoEmSource_
           << "\t L1GTReadoutRcdSource_ "   << L1GTReadoutRcdSource_
           << "\t L1GTObjectMapRcdSource_ " << L1GTObjectMapRcdSource_
           << "\t JetSrc_  "                << JetSrc_
           << "\t JetExtender_ "            << JetExtender_
           << "\t HBHERecHitSource_ "       << HBHERecHitSource_ 
           << "\n" << std::endl;
   }
 
   initL1 = false;
 
 }

IsolatedTracksNxN::~IsolatedTracksNxN ( )

Definition at line 117 of file IsolatedTracksNxN.cc.

117 {

118 }

Member Function Documentation

void IsolatedTracksNxN::analyze	(	const edm::Event &	iEvent,
		const edm::EventSetup &	iSetup
	)

privatevirtual

Implements edm::EDAnalyzer.

Definition at line 120 of file IsolatedTracksNxN.cc.

                                                                                    {
 
   bool haveIsoTrack=false;  
 
   edm::ESHandle<MagneticField> bFieldH;
   iSetup.get<IdealMagneticFieldRecord>().get(bFieldH);
   bField = bFieldH.product();
 
   clearTreeVectors();
 
   t_RunNo = iEvent.id().run();
   t_EvtNo = iEvent.id().event();
   t_Lumi  = iEvent.luminosityBlock();
   t_Bunch = iEvent.bunchCrossing();
 
   nEventProc++;
 
   edm::Handle<reco::TrackCollection> trkCollection;
   iEvent.getByToken(tok_genTrack_, trkCollection);
   reco::TrackCollection::const_iterator trkItr;
   if(debugTrks_>1){
     std::cout << "Track Collection: " << std::endl;
     std::cout << "Number of Tracks " << trkCollection->size() << std::endl;
   }
   std::string theTrackQuality = "highPurity";
   reco::TrackBase::TrackQuality trackQuality_=reco::TrackBase::qualityByName(theTrackQuality);
 
   //===================== save L1 Trigger information =======================
   if( L1TriggerAlgoInfo_ ) {
 
     bool useL1EventSetup = true;
     bool useL1GtTriggerMenuLite = true;
 
     m_l1GtUtils.getL1GtRunCache(iEvent, iSetup, useL1EventSetup, useL1GtTriggerMenuLite);
 
     int iErrorCode = -1;
     int l1ConfCode = -1;
     const bool l1Conf = m_l1GtUtils.availableL1Configuration(iErrorCode, l1ConfCode);
     if( !l1Conf) { 
       std::cout << "\nL1 configuration code:" << l1ConfCode
         << "\nNo valid L1 trigger configuration available."
         << "\nSee text above for error code interpretation"
         << "\nNo return here, in order to test each method, protected against configuration error."
         << std::endl;
     }
 
     const L1GtTriggerMenu* m_l1GtMenu   = m_l1GtUtils.ptrL1TriggerMenuEventSetup(iErrorCode);
     const AlgorithmMap&    algorithmMap = m_l1GtMenu->gtAlgorithmMap();
     const std::string&     menuName     = m_l1GtMenu->gtTriggerMenuName();
 
     if (!initL1) {
       initL1=true;
       std::cout << "menuName " << menuName << std::endl;
       for (CItAlgo itAlgo = algorithmMap.begin(); itAlgo != algorithmMap.end(); itAlgo++) {
     std::string algName = itAlgo->first;
     int algBitNumber = ( itAlgo->second ).algoBitNumber();
     l1AlgoMap.insert( std::pair<std::pair<unsigned int,std::string>,int>( std::pair<unsigned int,std::string>(algBitNumber, algName) , 0) ) ;
       }
       std::map< std::pair<unsigned int,std::string>, int>::iterator itr;
       for(itr=l1AlgoMap.begin(); itr!=l1AlgoMap.end(); itr++) {
     std::cout << " ********** " << (itr->first).first <<" "<<(itr->first).second <<" "<<itr->second << std::endl;
       }
     }
 
     std::vector<int> algbits;
     for (CItAlgo itAlgo        = algorithmMap.begin(); itAlgo != algorithmMap.end(); itAlgo++) {
       std::string algName      = itAlgo->first;
       int algBitNumber         = ( itAlgo->second ).algoBitNumber();
       //bool algResultBeforeMask = m_l1GtUtils.decisionBeforeMask(iEvent, itAlgo->first, iErrorCode);
       //bool algResultAfterMask  = m_l1GtUtils.decisionAfterMask (iEvent, itAlgo->first, iErrorCode);
       //int  triggerMask         = m_l1GtUtils.triggerMask       (iEvent, itAlgo->first, iErrorCode);
       bool decision            = m_l1GtUtils.decision          (iEvent, itAlgo->first, iErrorCode);
       int  preScale            = m_l1GtUtils.prescaleFactor    (iEvent, itAlgo->first, iErrorCode);
     
       // save the algo names which fired
       if( decision ){
     l1AlgoMap[std::pair<unsigned int,std::string>(algBitNumber, algName)] += 1;
     h_L1AlgoNames->Fill( algBitNumber );
     t_L1AlgoNames->push_back(itAlgo->first); 
     t_L1PreScale->push_back(preScale);
     t_L1Decision[algBitNumber] = 1;
     algbits.push_back(algBitNumber);
       }
     }
 
     if(debugL1Info_) {
       for(unsigned int ii=0; ii<t_L1AlgoNames->size(); ii++){
     std::cout<<ii<<" "<<(*t_L1AlgoNames)[ii]<<" "<<(*t_L1PreScale)[ii]<<" "<<algbits[ii]<<std::endl;
       }
       std::cout << "L1Decision: ";
       for (int i=0; i<128; ++i) {
     std::cout << " " << i << ":" << t_L1Decision[i];
     if ((i+1)%32 == 0) std::cout << std::endl;
       }
     }
 
     // L1Taus 
     edm::Handle<l1extra::L1JetParticleCollection> l1TauHandle;
     iEvent.getByToken(tok_L1extTauJet_,l1TauHandle);
     l1extra::L1JetParticleCollection::const_iterator itr;
     int iL1Obj=0;
     for(itr = l1TauHandle->begin(),iL1Obj=0; itr != l1TauHandle->end(); ++itr,iL1Obj++) {    
       if(iL1Obj<1) {
     t_L1TauJetPt      ->push_back( itr->pt() );
     t_L1TauJetEta     ->push_back( itr->eta() );
     t_L1TauJetPhi     ->push_back( itr->phi() );
       }
       if(debugL1Info_) {
     std::cout << "tauJ p/pt  " << itr->momentum() << " " << itr->pt() 
           << "  eta/phi " << itr->eta() << " " << itr->phi()
           << std::endl;
       }
     }
 
     // L1 Central Jets
     edm::Handle<l1extra::L1JetParticleCollection> l1CenJetHandle;
     iEvent.getByToken(tok_L1extCenJet_,l1CenJetHandle);
     for( itr = l1CenJetHandle->begin(),iL1Obj=0;  itr != l1CenJetHandle->end(); ++itr,iL1Obj++ ) {
       if(iL1Obj<1) {
     t_L1CenJetPt    ->push_back( itr->pt() );
     t_L1CenJetEta   ->push_back( itr->eta() );
     t_L1CenJetPhi   ->push_back( itr->phi() );
       }
       if(debugL1Info_) {
     std::cout << "cenJ p/pt     " << itr->momentum() << " " << itr->pt() 
           << "  eta/phi " << itr->eta() << " " << itr->phi()
           << std::endl;
       }
     }
   
     // L1 Forward Jets
     edm::Handle<l1extra::L1JetParticleCollection> l1FwdJetHandle;
     iEvent.getByToken(tok_L1extFwdJet_,l1FwdJetHandle);
     for( itr = l1FwdJetHandle->begin(),iL1Obj=0;  itr != l1FwdJetHandle->end(); ++itr,iL1Obj++ ) {
       if(iL1Obj<1) {
     t_L1FwdJetPt    ->push_back( itr->pt() );
     t_L1FwdJetEta   ->push_back( itr->eta() );
     t_L1FwdJetPhi   ->push_back( itr->phi() );
       }
       if(debugL1Info_) {
     std::cout << "fwdJ p/pt     " << itr->momentum() << " " << itr->pt() 
           << "  eta/phi " << itr->eta() << " " << itr->phi()
           << std::endl;
       }
     }
 
     // L1 Isolated EM onjects
     l1extra::L1EmParticleCollection::const_iterator itrEm;
     edm::Handle<l1extra::L1EmParticleCollection> l1IsoEmHandle ;
     iEvent.getByToken(tok_L1extIsoEm_, l1IsoEmHandle);
     for( itrEm = l1IsoEmHandle->begin(),iL1Obj=0;  itrEm != l1IsoEmHandle->end(); ++itrEm,iL1Obj++ ) {
       if(iL1Obj<1) {
     t_L1IsoEMPt     ->push_back(  itrEm->pt() );
     t_L1IsoEMEta    ->push_back(  itrEm->eta() );
     t_L1IsoEMPhi    ->push_back(  itrEm->phi() );
       }
       if(debugL1Info_) {
     std::cout << "isoEm p/pt    " << itrEm->momentum() << " " << itrEm->pt()
           << "  eta/phi " << itrEm->eta() << " " << itrEm->phi()
           << std::endl;
       }
     }
   
     // L1 Non-Isolated EM onjects
     edm::Handle<l1extra::L1EmParticleCollection> l1NonIsoEmHandle ;
     iEvent.getByToken(tok_L1extNoIsoEm_, l1NonIsoEmHandle);
     for( itrEm = l1NonIsoEmHandle->begin(),iL1Obj=0;  itrEm != l1NonIsoEmHandle->end(); ++itrEm,iL1Obj++ ) {
       if(iL1Obj<1) {
     t_L1NonIsoEMPt  ->push_back( itrEm->pt() );
     t_L1NonIsoEMEta ->push_back( itrEm->eta() );
     t_L1NonIsoEMPhi ->push_back( itrEm->phi() );
       }
       if(debugL1Info_) {
     std::cout << "nonIsoEm p/pt " << itrEm->momentum() << " " << itrEm->pt()
           << "  eta/phi " << itrEm->eta() << " " << itrEm->phi()
           << std::endl;
       }
     }
   
     // L1 Muons
     l1extra::L1MuonParticleCollection::const_iterator itrMu;
     edm::Handle<l1extra::L1MuonParticleCollection> l1MuHandle ;
     iEvent.getByToken(tok_L1extMu_, l1MuHandle);
     for( itrMu = l1MuHandle->begin(),iL1Obj=0;  itrMu != l1MuHandle->end(); ++itrMu,iL1Obj++ ) {
       if(iL1Obj<1) {
     t_L1MuonPt      ->push_back( itrMu->pt() );
     t_L1MuonEta     ->push_back( itrMu->eta() );
     t_L1MuonPhi     ->push_back( itrMu->phi() );
       }
       if(debugL1Info_) {
     std::cout << "l1muon p/pt   " << itrMu->momentum() << " " << itrMu->pt()
           << "  eta/phi " << itrMu->eta() << " " << itrMu->phi()
           << std::endl;
       }
     }
   }
 
   //============== store the information about all the Non-Fake vertices ===============
 
   edm::Handle<reco::VertexCollection> recVtxs;
   iEvent.getByToken(tok_recVtx_,recVtxs);
   
   std::vector<reco::Track> svTracks;
   math::XYZPoint leadPV(0,0,0);
   double sumPtMax = -1.0;
   for(unsigned int ind=0;ind<recVtxs->size();ind++) {
 
     if ( !((*recVtxs)[ind].isFake()) ) {
       double vtxTrkSumPt=0.0, vtxTrkSumPtWt=0.0;
       int    vtxTrkNWt =0;
       double vtxTrkSumPtHP=0.0, vtxTrkSumPtHPWt=0.0;
       int    vtxTrkNHP =0, vtxTrkNHPWt =0;
 
       reco::Vertex::trackRef_iterator vtxTrack = (*recVtxs)[ind].tracks_begin();
 
       for (vtxTrack = (*recVtxs)[ind].tracks_begin(); vtxTrack!=(*recVtxs)[ind].tracks_end(); vtxTrack++) {
 
     if((*vtxTrack)->pt()<pvTracksPtMin_) continue;
 
     bool trkQuality  = (*vtxTrack)->quality(trackQuality_);
     
     vtxTrkSumPt += (*vtxTrack)->pt();
     
     vtxTrkSumPt += (*vtxTrack)->pt();
     if( trkQuality ) {
       vtxTrkSumPtHP += (*vtxTrack)->pt();
       vtxTrkNHP++;
     }
 
     double weight = (*recVtxs)[ind].trackWeight(*vtxTrack);
     h_PVTracksWt ->Fill(weight);
     if( weight>0.5) {
       vtxTrkSumPtWt += (*vtxTrack)->pt();
       vtxTrkNWt++;
       if( trkQuality ) {
         vtxTrkSumPtHPWt += (*vtxTrack)->pt();
         vtxTrkNHPWt++;
       }
     }
       }
 
       if(vtxTrkSumPt>sumPtMax) {
     sumPtMax = vtxTrkSumPt;
     leadPV = math::XYZPoint( (*recVtxs)[ind].x(),(*recVtxs)[ind].y(), (*recVtxs)[ind].z() );
       } 
 
       t_PVx            ->push_back( (*recVtxs)[ind].x() );
       t_PVy            ->push_back( (*recVtxs)[ind].y() );
       t_PVz            ->push_back( (*recVtxs)[ind].z() );
       t_PVisValid      ->push_back( (*recVtxs)[ind].isValid() );
       t_PVNTracks      ->push_back( (*recVtxs)[ind].tracksSize() );
       t_PVndof         ->push_back( (*recVtxs)[ind].ndof() );
       t_PVNTracksWt    ->push_back( vtxTrkNWt );
       t_PVTracksSumPt  ->push_back( vtxTrkSumPt );
       t_PVTracksSumPtWt->push_back( vtxTrkSumPtWt );
 
       t_PVNTracksHP      ->push_back( vtxTrkNHP );
       t_PVNTracksHPWt    ->push_back( vtxTrkNHPWt );
       t_PVTracksSumPtHP  ->push_back( vtxTrkSumPtHP );
       t_PVTracksSumPtHPWt->push_back( vtxTrkSumPtHPWt );
 
       if(myverbose_==4) {
     std::cout<<"PV "<<ind<<" isValid "<<(*recVtxs)[ind].isValid()<<" isFake "<<(*recVtxs)[ind].isFake()
          <<" hasRefittedTracks() "<<ind<<" "<<(*recVtxs)[ind].hasRefittedTracks()
          <<" refittedTrksSize "<<(*recVtxs)[ind].refittedTracks().size()
          <<"  tracksSize() "<<(*recVtxs)[ind].tracksSize()<<" sumPt "<<vtxTrkSumPt
          <<std::endl;
       }
     } // if vtx is not Fake
   } // loop over PVs
   //===================================================================================
 
   // Get the beamspot
   edm::Handle<reco::BeamSpot> beamSpotH;
   iEvent.getByToken(tok_bs_, beamSpotH);
   math::XYZPoint bspot;
   bspot = ( beamSpotH.isValid() ) ? beamSpotH->position() : math::XYZPoint(0, 0, 0);
 
   //=====================================================================
 
   edm::Handle<reco::CaloJetCollection> jets;
   iEvent.getByToken(tok_jets_,jets);
   //  edm::Handle<reco::JetExtendedAssociation::Container> jetExtender;
   //  iEvent.getByLabel(JetExtender_,jetExtender);
 
   for(unsigned int ijet=0;ijet<(*jets).size();ijet++) {
     t_jetPt       ->push_back( (*jets)[ijet].pt()     );
     t_jetEta      ->push_back( (*jets)[ijet].eta()    );
     t_jetPhi      ->push_back( (*jets)[ijet].phi()    );
     t_nTrksJetVtx ->push_back( -1.0);
     t_nTrksJetCalo->push_back( -1.0);
   }
 
   //===================================================================================
   
   // get handles to calogeometry and calotopology
   edm::ESHandle<CaloGeometry> pG;
   iSetup.get<CaloGeometryRecord>().get(pG);
   const CaloGeometry* geo = pG.product();
   
   edm::ESHandle<CaloTopology> theCaloTopology;
   iSetup.get<CaloTopologyRecord>().get(theCaloTopology); 
   const CaloTopology *caloTopology = theCaloTopology.product();
   
   edm::ESHandle<HcalTopology> htopo;
   iSetup.get<IdealGeometryRecord>().get(htopo);
   const HcalTopology* theHBHETopology = htopo.product();
   
   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
   edm::ESHandle<EcalChannelStatus> ecalChStatus;
   iSetup.get<EcalChannelStatusRcd>().get(ecalChStatus);
   const EcalChannelStatus* theEcalChStatus = ecalChStatus.product();
 
   // Retrieve trigger tower map
   edm::ESHandle<EcalTrigTowerConstituentsMap> hTtmap;
   iSetup.get<IdealGeometryRecord>().get(hTtmap);
   const EcalTrigTowerConstituentsMap& ttMap = *hTtmap;
 
   edm::Handle<HBHERecHitCollection> hbhe;
   iEvent.getByToken(tok_hbhe_, hbhe);
   if (!hbhe.isValid()) {
     nbad++;
     if (nbad < 10) std::cout << "No HBHE rechit collection\n";
     return;
   }
   const HBHERecHitCollection Hithbhe = *(hbhe.product());
 
   //get Handles to SimTracks and SimHits
   edm::Handle<edm::SimTrackContainer> SimTk;
   if (doMC) iEvent.getByToken(tok_simTk_,SimTk);
   edm::SimTrackContainer::const_iterator simTrkItr;
 
   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);
   
   //associates tracker rechits/simhits to a track
   TrackerHitAssociator* associate=0;
   if (doMC) associate = new TrackerHitAssociator(iEvent);
 
   //===================================================================================
   
   h_nTracks->Fill(trkCollection->size());
   
   int nTracks        = 0;
 
   t_nTracks = trkCollection->size();
 
   // get the list of DetIds closest to the impact point of track on surface calorimeters
   std::vector<spr::propagatedTrackID> trkCaloDets;
   spr::propagateCALO(trkCollection, geo, bField, theTrackQuality, trkCaloDets, false);
   std::vector<spr::propagatedTrackID>::const_iterator trkDetItr;
 
   if(myverbose_>2) {
     for(trkDetItr = trkCaloDets.begin(); trkDetItr != trkCaloDets.end(); trkDetItr++){
       std::cout<<trkDetItr->trkItr->p()<<" "<<trkDetItr->trkItr->eta()<<" "<<trkDetItr->okECAL<<" ";
       if(trkDetItr->detIdECAL.subdetId() == EcalBarrel) std::cout << (EBDetId)trkDetItr->detIdECAL <<" ";
       else                                              std::cout << (EEDetId)trkDetItr->detIdECAL <<" ";
       std::cout<<trkDetItr->okHCAL<<" ";
       if(trkDetItr->okHCAL) std::cout<<(HcalDetId)trkDetItr->detIdHCAL;
       std::cout << std::endl;
     }
   }
   
   int nvtxTracks=0;
   for(trkDetItr = trkCaloDets.begin(),nTracks=0; trkDetItr != trkCaloDets.end(); trkDetItr++,nTracks++){
     
     const reco::Track* pTrack = &(*(trkDetItr->trkItr));
     
     // find vertex index the track is associated with
     int pVtxTkId = -1;
     for(unsigned int ind=0; ind<recVtxs->size(); ind++) {
       if (!((*recVtxs)[ind].isFake())) {
     reco::Vertex::trackRef_iterator vtxTrack = (*recVtxs)[ind].tracks_begin();
     for (vtxTrack = (*recVtxs)[ind].tracks_begin(); vtxTrack!=(*recVtxs)[ind].tracks_end(); vtxTrack++) {
       
       const edm::RefToBase<reco::Track> pvtxTrack = (*vtxTrack);
       if ( pTrack == pvtxTrack.get() ) { 
         pVtxTkId = ind;
         break;
         if(myverbose_>2) {
           if( pTrack->pt()>1.0) {
         std::cout<<"Debug the track association with vertex "<<std::endl;
         std::cout<< pTrack << " "<< pvtxTrack.get() << std::endl;
         std::cout<<" trkVtxIndex "<<nvtxTracks<<" vtx "<<ind<<" pt "<<pTrack->pt()
              <<" eta "<<pTrack->eta()<<" "<<pTrack->pt()-pvtxTrack->pt()
              <<" "<< pTrack->eta()-pvtxTrack->eta()
              << std::endl;
         nvtxTracks++;
           }
         }
       }
     }
       }
     }
     
     const reco::HitPattern& hitp    = pTrack->hitPattern();
     const reco::HitPattern& hitpIn  = pTrack->trackerExpectedHitsInner();
     const reco::HitPattern& hitpOut = pTrack->trackerExpectedHitsOuter();
 
     int nLayersCrossed = hitp.trackerLayersWithMeasurement() ;        
     int nOuterHits     = hitp.stripTOBLayersWithMeasurement()+hitp.stripTECLayersWithMeasurement() ;
     
     bool   ifGood      = pTrack->quality(trackQuality_);
     double pt1         = pTrack->pt();
     double p1          = pTrack->p();
     double eta1        = pTrack->momentum().eta();
     double phi1        = pTrack->momentum().phi();
     double etaEcal1    = trkDetItr->etaECAL;
     double phiEcal1    = trkDetItr->phiECAL;
     double etaHcal1    = trkDetItr->etaHCAL;
     double phiHcal1    = trkDetItr->phiHCAL;
     double dxy1        = pTrack->dxy();
     double dz1         = pTrack->dz();
     double chisq1      = pTrack->normalizedChi2();
     double dxybs1      = beamSpotH.isValid() ? pTrack->dxy(bspot) : pTrack->dxy();  
     double dzbs1       = beamSpotH.isValid() ? pTrack->dz(bspot)  : pTrack->dz();   
     double dxypv1      = pTrack->dxy(); 
     double dzpv1       = pTrack->dz();  
     if(pVtxTkId>=0) {
       math::XYZPoint thisTkPV = math::XYZPoint( (*recVtxs)[pVtxTkId].x(),(*recVtxs)[pVtxTkId].y(), (*recVtxs)[pVtxTkId].z() );
       dxypv1 = pTrack->dxy(thisTkPV);
       dzpv1  = pTrack->dz (thisTkPV);
     }
 
     h_recEtaPt_0->Fill(eta1, pt1);
     h_recEtaP_0 ->Fill(eta1, p1);
     h_recPt_0   ->Fill(pt1);
     h_recP_0    ->Fill(p1);
     h_recEta_0  ->Fill(eta1);
     h_recPhi_0  ->Fill(phi1);
     
     if(ifGood && nLayersCrossed>7 ) {
       h_recEtaPt_1->Fill(eta1, pt1);
       h_recEtaP_1 ->Fill(eta1, p1);
       h_recPt_1   ->Fill(pt1);
       h_recP_1    ->Fill(p1);
       h_recEta_1  ->Fill(eta1);
       h_recPhi_1  ->Fill(phi1);
     }
     
     if( ! ifGood ) continue;
 
     if( writeAllTracks && p1>2.0 && nLayersCrossed>7) {
       t_trackPAll             ->push_back( p1 );
       t_trackEtaAll           ->push_back( eta1 );
       t_trackPhiAll           ->push_back( phi1 );
       t_trackPtAll            ->push_back( pt1 );
       t_trackDxyAll           ->push_back( dxy1 );  
       t_trackDzAll            ->push_back( dz1 );   
       t_trackDxyPVAll         ->push_back( dxypv1 );    
       t_trackDzPVAll          ->push_back( dzpv1 ); 
       t_trackChiSqAll         ->push_back( chisq1 );    
     }
     if (doMC) {
       edm::SimTrackContainer::const_iterator matchedSimTrkAll = spr::matchedSimTrack(iEvent, SimTk, SimVtx, pTrack, *associate, false); 
       if( writeAllTracks && matchedSimTrkAll != SimTk->end())     t_trackPdgIdAll->push_back( matchedSimTrkAll->type() );
     }
     
     if( pt1>minTrackP_ && std::abs(eta1)<maxTrackEta_ && trkDetItr->okECAL) { 
       
       double maxNearP31x31=999.0, maxNearP25x25=999.0, maxNearP21x21=999.0, maxNearP15x15=999.0;
       maxNearP31x31 = spr::chargeIsolationEcal(nTracks, trkCaloDets, geo, caloTopology, 15,15);
       maxNearP25x25 = spr::chargeIsolationEcal(nTracks, trkCaloDets, geo, caloTopology, 12,12);
       maxNearP21x21 = spr::chargeIsolationEcal(nTracks, trkCaloDets, geo, caloTopology, 10,10);
       maxNearP15x15 = spr::chargeIsolationEcal(nTracks, trkCaloDets, geo, caloTopology,  7, 7);
 
       int iTrkEtaBin=-1, iTrkMomBin=-1;
       for(unsigned int ieta=0; ieta<NEtaBins; ieta++) {
         if(std::abs(eta1)>genPartEtaBins[ieta] && std::abs(eta1)<genPartEtaBins[ieta+1] ) iTrkEtaBin = ieta;
       }
       for(unsigned int ipt=0;  ipt<NPBins;   ipt++) {
         if( p1>genPartPBins[ipt] &&  p1<genPartPBins[ipt+1] )  iTrkMomBin = ipt;
       }
       if( iTrkMomBin>=0 && iTrkEtaBin>=0 ) {
     h_maxNearP31x31[iTrkMomBin][iTrkEtaBin]->Fill( maxNearP31x31 );
     h_maxNearP25x25[iTrkMomBin][iTrkEtaBin]->Fill( maxNearP25x25 );
     h_maxNearP21x21[iTrkMomBin][iTrkEtaBin]->Fill( maxNearP21x21 );
     h_maxNearP15x15[iTrkMomBin][iTrkEtaBin]->Fill( maxNearP15x15 );
       }
       if( maxNearP31x31<0.0 && nLayersCrossed>7 && nOuterHits>4) {
     h_recEtaPt_2->Fill(eta1, pt1);
     h_recEtaP_2 ->Fill(eta1, p1);
     h_recPt_2   ->Fill(pt1);
     h_recP_2    ->Fill(p1);
     h_recEta_2  ->Fill(eta1);
     h_recPhi_2  ->Fill(phi1);
       }
       
       // if charge isolated in ECAL, store the further quantities
       if( maxNearP31x31<1.0) {
 
     haveIsoTrack = true;
     
     // get the matching simTrack
     double simTrackP = -1;
     if (doMC) {
       edm::SimTrackContainer::const_iterator matchedSimTrk = spr::matchedSimTrack(iEvent, SimTk, SimVtx, pTrack, *associate, false);
       if( matchedSimTrk != SimTk->end() )simTrackP = matchedSimTrk->momentum().P();
     }
 
     edm::ESHandle<EcalSeverityLevelAlgo> sevlv;
     iSetup.get<EcalSeverityLevelAlgoRcd>().get(sevlv);
 
     // get ECal Tranverse Profile
     std::pair<double, bool>  e7x7P, e9x9P, e11x11P, e15x15P;
     std::pair<double, bool>  e7x7_10SigP, e9x9_10SigP, e11x11_10SigP, e15x15_10SigP;
     std::pair<double, bool>  e7x7_15SigP, e9x9_15SigP, e11x11_15SigP, e15x15_15SigP;
     std::pair<double, bool>  e7x7_20SigP, e9x9_20SigP, e11x11_20SigP, e15x15_20SigP;
     std::pair<double, bool>  e7x7_25SigP, e9x9_25SigP, e11x11_25SigP, e15x15_25SigP;
     std::pair<double, bool>  e7x7_30SigP, e9x9_30SigP, e11x11_30SigP, e15x15_30SigP;
 
     spr::caloSimInfo simInfo3x3,   simInfo5x5,   simInfo7x7,   simInfo9x9;
     spr::caloSimInfo simInfo11x11, simInfo13x13, simInfo15x15, simInfo21x21, simInfo25x25, simInfo31x31;
     double trkEcalEne=0;
 
     const DetId isoCell = trkDetItr->detIdECAL;
     e7x7P         = spr::eECALmatrix(isoCell,barrelRecHitsHandle,endcapRecHitsHandle, *theEcalChStatus, geo, caloTopology,sevlv.product(),3,3,   -100.0, -100.0, tMinE_,tMaxE_);
     e9x9P         = spr::eECALmatrix(isoCell,barrelRecHitsHandle,endcapRecHitsHandle, *theEcalChStatus, geo, caloTopology,sevlv.product(),4,4,   -100.0, -100.0, tMinE_,tMaxE_);
     e11x11P       = spr::eECALmatrix(isoCell,barrelRecHitsHandle,endcapRecHitsHandle, *theEcalChStatus, geo, caloTopology,sevlv.product(),5,5,   -100.0, -100.0, tMinE_,tMaxE_);
     e15x15P       = spr::eECALmatrix(isoCell,barrelRecHitsHandle,endcapRecHitsHandle, *theEcalChStatus, geo, caloTopology,sevlv.product(),7,7,   -100.0, -100.0, tMinE_,tMaxE_);
     
     e7x7_10SigP   = spr::eECALmatrix(isoCell,barrelRecHitsHandle,endcapRecHitsHandle, *theEcalChStatus, geo, caloTopology,sevlv.product(),3,3,   0.030,  0.150, tMinE_,tMaxE_);
     e9x9_10SigP   = spr::eECALmatrix(isoCell,barrelRecHitsHandle,endcapRecHitsHandle, *theEcalChStatus, geo, caloTopology,sevlv.product(),4,4,   0.030,  0.150, tMinE_,tMaxE_);
     e11x11_10SigP = spr::eECALmatrix(isoCell,barrelRecHitsHandle,endcapRecHitsHandle, *theEcalChStatus, geo, caloTopology,sevlv.product(),5,5,   0.030,  0.150, tMinE_,tMaxE_);
     e15x15_10SigP = spr::eECALmatrix(isoCell,barrelRecHitsHandle,endcapRecHitsHandle, *theEcalChStatus, geo, caloTopology,sevlv.product(),7,7,   0.030,  0.150, tMinE_,tMaxE_);
 
     e7x7_15SigP   = spr::eECALmatrix(isoCell,barrelRecHitsHandle,endcapRecHitsHandle, *theEcalChStatus, geo, caloTopology, sevlv.product(),ttMap, 3,3, 0.20,0.45, tMinE_,tMaxE_);
     e9x9_15SigP   = spr::eECALmatrix(isoCell,barrelRecHitsHandle,endcapRecHitsHandle, *theEcalChStatus, geo, caloTopology, sevlv.product(),ttMap, 4,4, 0.20,0.45, tMinE_,tMaxE_);
     e11x11_15SigP = spr::eECALmatrix(isoCell,barrelRecHitsHandle,endcapRecHitsHandle, *theEcalChStatus, geo, caloTopology,sevlv.product(), ttMap, 5,5, 0.20,0.45, tMinE_,tMaxE_);
     e15x15_15SigP = spr::eECALmatrix(isoCell,barrelRecHitsHandle,endcapRecHitsHandle, *theEcalChStatus, geo, caloTopology, sevlv.product(),ttMap, 7,7, 0.20,0.45, tMinE_,tMaxE_, false);
     
     e7x7_20SigP   = spr::eECALmatrix(isoCell,barrelRecHitsHandle,endcapRecHitsHandle, *theEcalChStatus, geo, caloTopology,sevlv.product(),3,3,   0.060,  0.300, tMinE_,tMaxE_);
     e9x9_20SigP   = spr::eECALmatrix(isoCell,barrelRecHitsHandle,endcapRecHitsHandle, *theEcalChStatus, geo, caloTopology,sevlv.product(),4,4,   0.060,  0.300, tMinE_,tMaxE_);
     e11x11_20SigP = spr::eECALmatrix(isoCell,barrelRecHitsHandle,endcapRecHitsHandle, *theEcalChStatus, geo, caloTopology,sevlv.product(),5,5,   0.060,  0.300, tMinE_,tMaxE_);
     e15x15_20SigP = spr::eECALmatrix(isoCell,barrelRecHitsHandle,endcapRecHitsHandle, *theEcalChStatus, geo, caloTopology,sevlv.product(),7,7,   0.060,  0.300, tMinE_,tMaxE_);
     
     e7x7_25SigP   = spr::eECALmatrix(isoCell,barrelRecHitsHandle,endcapRecHitsHandle, *theEcalChStatus, geo, caloTopology,sevlv.product(),3,3,   0.075,  0.375, tMinE_,tMaxE_);
     e9x9_25SigP   = spr::eECALmatrix(isoCell,barrelRecHitsHandle,endcapRecHitsHandle, *theEcalChStatus, geo, caloTopology,sevlv.product(),4,4,   0.075,  0.375, tMinE_,tMaxE_);
     e11x11_25SigP = spr::eECALmatrix(isoCell,barrelRecHitsHandle,endcapRecHitsHandle, *theEcalChStatus, geo, caloTopology,sevlv.product(),5,5,   0.075,  0.375, tMinE_,tMaxE_);
     e15x15_25SigP = spr::eECALmatrix(isoCell,barrelRecHitsHandle,endcapRecHitsHandle, *theEcalChStatus, geo, caloTopology,sevlv.product(),7,7,   0.075,  0.375, tMinE_,tMaxE_);
     
     e7x7_30SigP   = spr::eECALmatrix(isoCell,barrelRecHitsHandle,endcapRecHitsHandle, *theEcalChStatus, geo, caloTopology,sevlv.product(),3,3,   0.090,  0.450, tMinE_,tMaxE_);
     e9x9_30SigP   = spr::eECALmatrix(isoCell,barrelRecHitsHandle,endcapRecHitsHandle, *theEcalChStatus, geo, caloTopology,sevlv.product(),4,4,   0.090,  0.450, tMinE_,tMaxE_);
     e11x11_30SigP = spr::eECALmatrix(isoCell,barrelRecHitsHandle,endcapRecHitsHandle, *theEcalChStatus, geo, caloTopology,sevlv.product(),5,5,   0.090,  0.450, tMinE_,tMaxE_);
     e15x15_30SigP = spr::eECALmatrix(isoCell,barrelRecHitsHandle,endcapRecHitsHandle, *theEcalChStatus, geo, caloTopology,sevlv.product(),7,7,   0.090,  0.450, tMinE_,tMaxE_);
     if(myverbose_ == 2) {
       std::cout << "clean  ecal rechit " << std::endl;
       std::cout<<"e7x7 "<<e7x7P.first<<" e9x9 "<<e9x9P.first<<" e11x11 " << e11x11P.first << " e15x15 "<<e15x15P.first<<std::endl;
       std::cout<<"e7x7_10Sig "<<e7x7_10SigP.first<<" e11x11_10Sig "<<e11x11_10SigP.first<<" e15x15_10Sig "<<e15x15_10SigP.first<<std::endl;
     }
 
     if (doMC) {
       // check the energy from SimHits
       spr::eECALSimInfo(iEvent,isoCell,geo,caloTopology,pcaloeb,pcaloee,SimTk,SimVtx,pTrack, *associate, 1,1, simInfo3x3);
       spr::eECALSimInfo(iEvent,isoCell,geo,caloTopology,pcaloeb,pcaloee,SimTk,SimVtx,pTrack, *associate, 2,2, simInfo5x5);
       spr::eECALSimInfo(iEvent,isoCell,geo,caloTopology,pcaloeb,pcaloee,SimTk,SimVtx,pTrack, *associate, 3,3, simInfo7x7);
       spr::eECALSimInfo(iEvent,isoCell,geo,caloTopology,pcaloeb,pcaloee,SimTk,SimVtx,pTrack, *associate, 4,4, simInfo9x9);
       spr::eECALSimInfo(iEvent,isoCell,geo,caloTopology,pcaloeb,pcaloee,SimTk,SimVtx,pTrack, *associate, 5,5, simInfo11x11);
       spr::eECALSimInfo(iEvent,isoCell,geo,caloTopology,pcaloeb,pcaloee,SimTk,SimVtx,pTrack, *associate, 6,6, simInfo13x13);
       spr::eECALSimInfo(iEvent,isoCell,geo,caloTopology,pcaloeb,pcaloee,SimTk,SimVtx,pTrack, *associate, 7,7, simInfo15x15, 150.0,false);
       spr::eECALSimInfo(iEvent,isoCell,geo,caloTopology,pcaloeb,pcaloee,SimTk,SimVtx,pTrack, *associate, 10,10, simInfo21x21);
       spr::eECALSimInfo(iEvent,isoCell,geo,caloTopology,pcaloeb,pcaloee,SimTk,SimVtx,pTrack, *associate, 12,12, simInfo25x25);
       spr::eECALSimInfo(iEvent,isoCell,geo,caloTopology,pcaloeb,pcaloee,SimTk,SimVtx,pTrack, *associate, 15,15, simInfo31x31);
   
       trkEcalEne   = spr::eCaloSimInfo(iEvent, geo, pcaloeb,pcaloee, SimTk, SimVtx, pTrack, *associate);
        if(myverbose_ == 1) {
         std::cout << "Track momentum " << pt1 << std::endl;
 
         std::cout << "ecal siminfo " << std::endl;
         std::cout << "simInfo3x3: " << "eTotal " << simInfo3x3.eTotal << " eMatched " << simInfo3x3.eMatched << " eRest " << simInfo3x3.eRest << " eGamma "<<simInfo3x3.eGamma << " eNeutralHad " << simInfo3x3.eNeutralHad << " eChargedHad " << simInfo3x3.eChargedHad << std::endl;
         std::cout << "simInfo5x5: " << "eTotal " << simInfo5x5.eTotal << " eMatched " << simInfo5x5.eMatched << " eRest " << simInfo5x5.eRest << " eGamma "<<simInfo5x5.eGamma << " eNeutralHad " << simInfo5x5.eNeutralHad << " eChargedHad " << simInfo5x5.eChargedHad << std::endl;
         std::cout << "simInfo7x7: " << "eTotal " << simInfo7x7.eTotal << " eMatched " << simInfo7x7.eMatched << " eRest " << simInfo7x7.eRest << " eGamma "<<simInfo7x7.eGamma << " eNeutralHad " << simInfo7x7.eNeutralHad << " eChargedHad " << simInfo7x7.eChargedHad << std::endl;
         std::cout << "simInfo9x9: " << "eTotal " << simInfo9x9.eTotal << " eMatched " << simInfo9x9.eMatched << " eRest " << simInfo9x9.eRest << " eGamma "<<simInfo9x9.eGamma << " eNeutralHad " << simInfo9x9.eNeutralHad << " eChargedHad " << simInfo9x9.eChargedHad << std::endl;
         std::cout << "simInfo11x11: " << "eTotal " << simInfo11x11.eTotal << " eMatched " << simInfo11x11.eMatched << " eRest " << simInfo11x11.eRest << " eGamma "<<simInfo11x11.eGamma << " eNeutralHad " << simInfo11x11.eNeutralHad << " eChargedHad " << simInfo11x11.eChargedHad << std::endl;
         std::cout << "simInfo15x15: " << "eTotal " << simInfo15x15.eTotal << " eMatched " << simInfo15x15.eMatched << " eRest " << simInfo15x15.eRest << " eGamma "<<simInfo15x15.eGamma << " eNeutralHad " << simInfo15x15.eNeutralHad << " eChargedHad " << simInfo15x15.eChargedHad << std::endl;
         std::cout << "simInfo31x31: " << "eTotal " << simInfo31x31.eTotal << " eMatched " << simInfo31x31.eMatched << " eRest " << simInfo31x31.eRest << " eGamma "<<simInfo31x31.eGamma << " eNeutralHad " << simInfo31x31.eNeutralHad << " eChargedHad " << simInfo31x31.eChargedHad << std::endl;
         std::cout << "trkEcalEne" << trkEcalEne << std::endl;
        }
     }
 
     // =======  Get HCAL information 
     double hcalScale=1.0;
     if( std::abs(pTrack->eta())<1.4 ) {
       hcalScale=120.0;
     } else {
       hcalScale=135.0;
     }
     
     double maxNearHcalP3x3=-1, maxNearHcalP5x5=-1, maxNearHcalP7x7=-1;
     maxNearHcalP3x3  = spr::chargeIsolationHcal(nTracks, trkCaloDets, theHBHETopology, 1,1);
     maxNearHcalP5x5  = spr::chargeIsolationHcal(nTracks, trkCaloDets, theHBHETopology, 2,2);
     maxNearHcalP7x7  = spr::chargeIsolationHcal(nTracks, trkCaloDets, theHBHETopology, 3,3);
 
     double h3x3=0,    h5x5=0,    h7x7=0;
     double h3x3Sig=0, h5x5Sig=0, h7x7Sig=0;
     double trkHcalEne = 0;
     spr::caloSimInfo hsimInfo3x3, hsimInfo5x5, hsimInfo7x7;
     
     if(trkDetItr->okHCAL) {
       const DetId ClosestCell(trkDetItr->detIdHCAL);
       // bool includeHO=false, bool algoNew=true, bool debug=false
       h3x3 = spr::eHCALmatrix(theHBHETopology, ClosestCell, hbhe,1,1, false, true, -100.0, -100.0, -100.0, -100.0, tMinH_,tMaxH_);  
       h5x5 = spr::eHCALmatrix(theHBHETopology, ClosestCell, hbhe,2,2, false, true, -100.0, -100.0, -100.0, -100.0, tMinH_,tMaxH_);  
       h7x7 = spr::eHCALmatrix(theHBHETopology, ClosestCell, hbhe,3,3, false, true, -100.0, -100.0, -100.0, -100.0, tMinH_,tMaxH_);  
       h3x3Sig = spr::eHCALmatrix(theHBHETopology, ClosestCell, hbhe,1,1, false, true, 0.7, 0.8, -100.0, -100.0, tMinH_,tMaxH_);  
       h5x5Sig = spr::eHCALmatrix(theHBHETopology, ClosestCell, hbhe,2,2, false, true, 0.7, 0.8, -100.0, -100.0, tMinH_,tMaxH_);  
       h7x7Sig = spr::eHCALmatrix(theHBHETopology, ClosestCell, hbhe,3,3, false, true, 0.7, 0.8, -100.0, -100.0, tMinH_,tMaxH_);  
 
       if(myverbose_==2) {
         std::cout << "HCAL 3x3 " << h3x3 << " " << h3x3Sig << " 5x5 " <<  h5x5 << " " << h5x5Sig << " 7x7 " << h7x7 << " " << h7x7Sig << std::endl;
       }
       
       if (doMC) {
         spr::eHCALSimInfo(iEvent, theHBHETopology, ClosestCell, geo,pcalohh, SimTk, SimVtx, pTrack, *associate, 1,1, hsimInfo3x3);
         spr::eHCALSimInfo(iEvent, theHBHETopology, ClosestCell, geo,pcalohh, SimTk, SimVtx, pTrack, *associate, 2,2, hsimInfo5x5);
         spr::eHCALSimInfo(iEvent, theHBHETopology, ClosestCell, geo,pcalohh, SimTk, SimVtx, pTrack, *associate, 3,3, hsimInfo7x7, 150.0, false,false);
         trkHcalEne  = spr::eCaloSimInfo(iEvent, geo,pcalohh, SimTk, SimVtx, pTrack, *associate);
         if(myverbose_ == 1) {
           std::cout << "Hcal siminfo " << std::endl;
           std::cout << "hsimInfo3x3: " << "eTotal " << hsimInfo3x3.eTotal << " eMatched " << hsimInfo3x3.eMatched << " eRest " << hsimInfo3x3.eRest << " eGamma "<<hsimInfo3x3.eGamma << " eNeutralHad " << hsimInfo3x3.eNeutralHad << " eChargedHad " << hsimInfo3x3.eChargedHad << std::endl;
           std::cout << "hsimInfo5x5: " << "eTotal " << hsimInfo5x5.eTotal << " eMatched " << hsimInfo5x5.eMatched << " eRest " << hsimInfo5x5.eRest << " eGamma "<<hsimInfo5x5.eGamma << " eNeutralHad " << hsimInfo5x5.eNeutralHad << " eChargedHad " << hsimInfo5x5.eChargedHad << std::endl;
           std::cout << "hsimInfo7x7: " << "eTotal " << hsimInfo7x7.eTotal << " eMatched " << hsimInfo7x7.eMatched << " eRest " << hsimInfo7x7.eRest << " eGamma "<<hsimInfo7x7.eGamma << " eNeutralHad " << hsimInfo7x7.eNeutralHad << " eChargedHad " << hsimInfo7x7.eChargedHad << std::endl;
           std::cout << "trkHcalEne " << trkHcalEne << std::endl;
         }
       }
 
       // debug the ecal and hcal matrix
       if(myverbose_==4) {
         std::cout<<"Run "<<iEvent.id().run()<<"  Event "<<iEvent.id().event()<<std::endl; 
         std::vector<std::pair<DetId,double> > v7x7 = spr::eHCALmatrixCell(theHBHETopology, ClosestCell, hbhe,3,3, false, false);
         double sumv=0.0;
         
         for(unsigned int iv=0; iv<v7x7.size(); iv++) { 
           sumv += v7x7[iv].second;
         }
         std::cout<<"h7x7 "<<h7x7<<" v7x7 "<<sumv << " in " << v7x7.size() <<std::endl;
         for(unsigned int iv=0; iv<v7x7.size(); iv++) { 
           HcalDetId id = v7x7[iv].first;
           std::cout << " Cell " << iv << " 0x" << std::hex << v7x7[iv].first() << std::dec << " " << id << " Energy " << v7x7[iv].second << std::endl;
         }
       }
       
     }
     if (doMC) {
       trkHcalEne  = spr::eCaloSimInfo(iEvent, geo,pcalohh, SimTk, SimVtx, pTrack, *associate);
     }
 
     // ====================================================================================================
     // get diff between track outermost hit position and the propagation point at outermost surface of tracker  
     std::pair<math::XYZPoint,double> point2_TK0 = spr::propagateTrackerEnd( pTrack, bField, false);
     math::XYZPoint diff(pTrack->outerPosition().X()-point2_TK0.first.X(), 
                 pTrack->outerPosition().Y()-point2_TK0.first.Y(), 
                 pTrack->outerPosition().Z()-point2_TK0.first.Z() );
     double trackOutPosOutHitDr = diff.R();
     double trackL              = point2_TK0.second;
     if (myverbose_==5) {
       std::cout<<" propagted "<<point2_TK0.first<<" "<< point2_TK0.first.eta()<<" "<<point2_TK0.first.phi()<<std::endl;
       std::cout<<" outerPosition() "<< pTrack->outerPosition() << " "<< pTrack->outerPosition().eta()<< " " << pTrack->outerPosition().phi()<< std::endl;
       std::cout<<"diff " << diff << " diffR " <<diff.R()<<" diffR/L "<<diff.R()/point2_TK0.second <<std::endl;
     }
 
     for(unsigned int ind=0;ind<recVtxs->size();ind++) {
       if (!((*recVtxs)[ind].isFake())) {
         reco::Vertex::trackRef_iterator vtxTrack = (*recVtxs)[ind].tracks_begin();
         if( DeltaR(eta1,phi1, (*vtxTrack)->eta(),(*vtxTrack)->phi()) < 0.01 ) t_trackPVIdx ->push_back( ind );
         else                                                                  t_trackPVIdx ->push_back( -1 );
       }
     }
 
     // Fill the tree Branches here 
     t_trackPVIdx            ->push_back( pVtxTkId );
     t_trackP                ->push_back( p1 );
     t_trackPt               ->push_back( pt1 );
     t_trackEta              ->push_back( eta1 );
     t_trackPhi              ->push_back( phi1 );
     t_trackEcalEta          ->push_back( etaEcal1 );
     t_trackEcalPhi          ->push_back( phiEcal1 );
     t_trackHcalEta          ->push_back( etaHcal1 );
     t_trackHcalPhi          ->push_back( phiHcal1 );
     t_trackDxy              ->push_back( dxy1 );    
     t_trackDz               ->push_back( dz1 ); 
     t_trackDxyBS            ->push_back( dxybs1 );  
     t_trackDzBS             ->push_back( dzbs1 );   
     t_trackDxyPV            ->push_back( dxypv1 );  
     t_trackDzPV             ->push_back( dzpv1 );   
     t_trackChiSq            ->push_back( chisq1 );  
     t_trackNOuterHits       ->push_back( nOuterHits );
     t_NLayersCrossed        ->push_back( nLayersCrossed );
     
     t_trackHitsTOB          ->push_back( hitp.stripTOBLayersWithMeasurement()       ); 
     t_trackHitsTEC          ->push_back( hitp.stripTECLayersWithMeasurement()       );
     t_trackHitInMissTOB     ->push_back( hitpIn.stripTOBLayersWithoutMeasurement()  ); 
     t_trackHitInMissTEC     ->push_back( hitpIn.stripTECLayersWithoutMeasurement()  );  
     t_trackHitInMissTIB     ->push_back( hitpIn.stripTIBLayersWithoutMeasurement()  );  
     t_trackHitInMissTID     ->push_back( hitpIn.stripTIDLayersWithoutMeasurement()  );
     t_trackHitInMissTIBTID  ->push_back( hitpIn.stripTIBLayersWithoutMeasurement() + hitpIn.stripTIDLayersWithoutMeasurement() );  
 
     t_trackHitOutMissTOB    ->push_back( hitpOut.stripTOBLayersWithoutMeasurement() );
     t_trackHitOutMissTEC    ->push_back( hitpOut.stripTECLayersWithoutMeasurement() ); 
     t_trackHitOutMissTIB    ->push_back( hitpOut.stripTIBLayersWithoutMeasurement() );
     t_trackHitOutMissTID    ->push_back( hitpOut.stripTIDLayersWithoutMeasurement() );
     t_trackHitOutMissTOBTEC ->push_back( hitpOut.stripTOBLayersWithoutMeasurement() + hitpOut.stripTECLayersWithoutMeasurement() );
 
     t_trackHitInMeasTOB     ->push_back( hitpIn.stripTOBLayersWithMeasurement()  ); 
     t_trackHitInMeasTEC     ->push_back( hitpIn.stripTECLayersWithMeasurement()  );  
     t_trackHitInMeasTIB     ->push_back( hitpIn.stripTIBLayersWithMeasurement()  );  
     t_trackHitInMeasTID     ->push_back( hitpIn.stripTIDLayersWithMeasurement()  );
     t_trackHitOutMeasTOB    ->push_back( hitpOut.stripTOBLayersWithMeasurement() );
     t_trackHitOutMeasTEC    ->push_back( hitpOut.stripTECLayersWithMeasurement() ); 
     t_trackHitOutMeasTIB    ->push_back( hitpOut.stripTIBLayersWithMeasurement() );
     t_trackHitOutMeasTID    ->push_back( hitpOut.stripTIDLayersWithMeasurement() );
     t_trackOutPosOutHitDr   ->push_back( trackOutPosOutHitDr                     );
     t_trackL                ->push_back( trackL                                  );
 
     t_maxNearP31x31         ->push_back( maxNearP31x31 );
     t_maxNearP21x21         ->push_back( maxNearP21x21 );
     
     t_ecalSpike11x11        ->push_back( e11x11P.second );
     t_e7x7                  ->push_back( e7x7P.first );
     t_e9x9                  ->push_back( e9x9P.first );
     t_e11x11                ->push_back( e11x11P.first );
     t_e15x15                ->push_back( e15x15P.first );
 
     t_e7x7_10Sig            ->push_back( e7x7_10SigP.first   ); 
     t_e9x9_10Sig            ->push_back( e9x9_10SigP.first   ); 
     t_e11x11_10Sig          ->push_back( e11x11_10SigP.first ); 
     t_e15x15_10Sig          ->push_back( e15x15_10SigP.first );
     t_e7x7_15Sig            ->push_back( e7x7_15SigP.first   ); 
     t_e9x9_15Sig            ->push_back( e9x9_15SigP.first   ); 
     t_e11x11_15Sig          ->push_back( e11x11_15SigP.first ); 
     t_e15x15_15Sig          ->push_back( e15x15_15SigP.first );
     t_e7x7_20Sig            ->push_back( e7x7_20SigP.first   ); 
     t_e9x9_20Sig            ->push_back( e9x9_20SigP.first   ); 
     t_e11x11_20Sig          ->push_back( e11x11_20SigP.first ); 
     t_e15x15_20Sig          ->push_back( e15x15_20SigP.first );
     t_e7x7_25Sig            ->push_back( e7x7_25SigP.first   ); 
     t_e9x9_25Sig            ->push_back( e9x9_25SigP.first   ); 
     t_e11x11_25Sig          ->push_back( e11x11_25SigP.first ); 
     t_e15x15_25Sig          ->push_back( e15x15_25SigP.first );
     t_e7x7_30Sig            ->push_back( e7x7_30SigP.first   ); 
     t_e9x9_30Sig            ->push_back( e9x9_30SigP.first   ); 
     t_e11x11_30Sig          ->push_back( e11x11_30SigP.first ); 
     t_e15x15_30Sig          ->push_back( e15x15_30SigP.first );
 
     if (doMC) {
       t_esim7x7               ->push_back( simInfo7x7.eTotal );
       t_esim9x9               ->push_back( simInfo9x9.eTotal );
       t_esim11x11             ->push_back( simInfo11x11.eTotal );
       t_esim15x15             ->push_back( simInfo15x15.eTotal );
     
       t_esim7x7Matched        ->push_back( simInfo7x7.eMatched );
       t_esim9x9Matched        ->push_back( simInfo9x9.eMatched );
       t_esim11x11Matched      ->push_back( simInfo11x11.eMatched );
       t_esim15x15Matched      ->push_back( simInfo15x15.eMatched );
     
       t_esim7x7Rest           ->push_back( simInfo7x7.eRest );
       t_esim9x9Rest           ->push_back( simInfo9x9.eRest );
       t_esim11x11Rest         ->push_back( simInfo11x11.eRest );
       t_esim15x15Rest         ->push_back( simInfo15x15.eRest );
     
       t_esim7x7Photon         ->push_back( simInfo7x7.eGamma );
       t_esim9x9Photon         ->push_back( simInfo9x9.eGamma );
       t_esim11x11Photon       ->push_back( simInfo11x11.eGamma );
       t_esim15x15Photon       ->push_back( simInfo15x15.eGamma );
     
       t_esim7x7NeutHad        ->push_back( simInfo7x7.eNeutralHad );
       t_esim9x9NeutHad        ->push_back( simInfo9x9.eNeutralHad );
       t_esim11x11NeutHad      ->push_back( simInfo11x11.eNeutralHad );
       t_esim15x15NeutHad      ->push_back( simInfo15x15.eNeutralHad );
     
       t_esim7x7CharHad        ->push_back( simInfo7x7.eChargedHad );
       t_esim9x9CharHad        ->push_back( simInfo9x9.eChargedHad );
       t_esim11x11CharHad      ->push_back( simInfo11x11.eChargedHad );
       t_esim15x15CharHad      ->push_back( simInfo15x15.eChargedHad );
     
       t_trkEcalEne            ->push_back( trkEcalEne );
       t_simTrackP             ->push_back( simTrackP );
       t_esimPdgId             ->push_back( simInfo11x11.pdgMatched );
     }
 
     t_maxNearHcalP3x3       ->push_back( maxNearHcalP3x3 );
     t_maxNearHcalP5x5       ->push_back( maxNearHcalP5x5 );
     t_maxNearHcalP7x7       ->push_back( maxNearHcalP7x7 );
     
     t_h3x3                  ->push_back( h3x3 );
     t_h5x5                  ->push_back( h5x5 );
     t_h7x7                  ->push_back( h7x7 );
     t_h3x3Sig               ->push_back( h3x3Sig );
     t_h5x5Sig               ->push_back( h5x5Sig );
     t_h7x7Sig               ->push_back( h7x7Sig );
     
     t_infoHcal              ->push_back( trkDetItr->okHCAL );
     if (doMC) {
       t_trkHcalEne            ->push_back( hcalScale*trkHcalEne );
     
       t_hsim3x3               ->push_back( hcalScale*hsimInfo3x3.eTotal );
       t_hsim5x5               ->push_back( hcalScale*hsimInfo5x5.eTotal );
       t_hsim7x7               ->push_back( hcalScale*hsimInfo7x7.eTotal );
     
       t_hsim3x3Matched        ->push_back( hcalScale*hsimInfo3x3.eMatched );
       t_hsim5x5Matched        ->push_back( hcalScale*hsimInfo5x5.eMatched );
       t_hsim7x7Matched        ->push_back( hcalScale*hsimInfo7x7.eMatched );
     
       t_hsim3x3Rest           ->push_back( hcalScale*hsimInfo3x3.eRest );
       t_hsim5x5Rest           ->push_back( hcalScale*hsimInfo5x5.eRest );
       t_hsim7x7Rest           ->push_back( hcalScale*hsimInfo7x7.eRest );
     
       t_hsim3x3Photon         ->push_back( hcalScale*hsimInfo3x3.eGamma );
       t_hsim5x5Photon         ->push_back( hcalScale*hsimInfo5x5.eGamma );
       t_hsim7x7Photon         ->push_back( hcalScale*hsimInfo7x7.eGamma );
     
       t_hsim3x3NeutHad        ->push_back( hcalScale*hsimInfo3x3.eNeutralHad );
       t_hsim5x5NeutHad        ->push_back( hcalScale*hsimInfo5x5.eNeutralHad );
       t_hsim7x7NeutHad        ->push_back( hcalScale*hsimInfo7x7.eNeutralHad );
     
       t_hsim3x3CharHad        ->push_back( hcalScale*hsimInfo3x3.eChargedHad );
       t_hsim5x5CharHad        ->push_back( hcalScale*hsimInfo5x5.eChargedHad );
       t_hsim7x7CharHad        ->push_back( hcalScale*hsimInfo7x7.eChargedHad );
     }
     /*
     if(hcalScale*hsimInfo3x3["eTotal"] > 50.0) {
 
       std::cout << "Loosely Iso Track : eta " << eta1 << " Rec Mom " << p1 << " SimMom " << simTrackP << " h3x3 " << h3x3 << std::endl;
 
       std::cout <<"Closest cell Hcal (atHCAL) " << (HcalDetId)ClosestCell << std::endl;
 
       std::cout <<"trkHcalEne, etotal, matched, rest " <<hcalScale*trkHcalEne<<std::setw(15)<<hcalScale*hsimInfo3x3["eTotal"]
             <<std::setw(15)<<hcalScale*hsimInfo3x3["eMatched"]<<std::setw(15)<<hcalScale*hsimInfo3x3["eRest"]
             <<std::endl;
       unsigned int nn = t_trkHcalEne->size();
       std::cout <<"in Tree                           " << (*t_trkHcalEne)[nn-1] <<std::setw(15)<< (*t_hsim3x3)[nn-1]
             <<std::setw(15)<< (*t_hsim3x3Matched)[nn-1] <<std::setw(15)<< (*t_hsim3x3Rest)[nn-1]
             << std::endl;
 
       std::cout << "debug output \n" << std::endl;
       std::map<std::string, double> hsimInfo3x3_debug = spr::eHCALSimInfo(iEvent, theHBHETopology, ClosestCell, geo,pcalohh, SimTk, SimVtx, pTrack, *associate, 1,1, 150.0, true);
 
     }
     */
 
 
       } // if loosely isolated track
     } // check p1/eta
   } // loop over track collection
   
   if(haveIsoTrack) tree->Fill();
 }

void IsolatedTracksNxN::beginJob ( void )

privatevirtual

Reimplemented from edm::EDAnalyzer.

Definition at line 984 of file IsolatedTracksNxN.cc.

References BookHistograms(), genPartEtaBins, genPartPBins, i, and nEventProc.

                                  {
 
   nEventProc=0;
 
   //  double tempgen_TH[21] = { 1.0,  2.0,  3.0,  4.0,  5.0, 
  double tempgen_TH[16] = { 0.0,  1.0,  2.0,  3.0,  4.0,  
                5.0,  6.0,  7.0,  9.0, 11.0, 
               15.0, 20.0, 30.0, 50.0, 75.0, 100.0};
 
   for(int i=0; i<16; i++)  genPartPBins[i]  = tempgen_TH[i];
 
   double tempgen_Eta[4] = {0.0, 1.131, 1.653, 2.172};
 
   for(int i=0; i<4; i++) genPartEtaBins[i] = tempgen_Eta[i];
 
   BookHistograms();
 }

void IsolatedTracksNxN::BookHistograms ( )

private

Definition at line 1225 of file IsolatedTracksNxN.cc.

References dir, doMC, fs, genPartEtaBins, genPartPBins, h_L1AlgoNames, h_maxNearP15x15, h_maxNearP21x21, h_maxNearP25x25, h_maxNearP31x31, h_nTracks, h_PVTracksWt, h_recEta_0, h_recEta_1, h_recEta_2, h_recEtaP_0, h_recEtaP_1, h_recEtaP_2, h_recEtaPt_0, h_recEtaPt_1, h_recEtaPt_2, h_recP_0, h_recP_1, h_recP_2, h_recPhi_0, h_recPhi_1, h_recPhi_2, h_recPt_0, h_recPt_1, h_recPt_2, i, TFileDirectory::make(), TFileService::make(), TFileService::mkdir(), NEtaBins, NPBins, t_Bunch, t_e11x11, t_e11x11_10Sig, t_e11x11_15Sig, t_e11x11_20Sig, t_e11x11_25Sig, t_e11x11_30Sig, t_e15x15, t_e15x15_10Sig, t_e15x15_15Sig, t_e15x15_20Sig, t_e15x15_25Sig, t_e15x15_30Sig, t_e7x7, t_e7x7_10Sig, t_e7x7_15Sig, t_e7x7_20Sig, t_e7x7_25Sig, t_e7x7_30Sig, t_e9x9, t_e9x9_10Sig, t_e9x9_15Sig, t_e9x9_20Sig, t_e9x9_25Sig, t_e9x9_30Sig, t_ecalSpike11x11, t_esim11x11, t_esim11x11CharHad, t_esim11x11Matched, t_esim11x11NeutHad, t_esim11x11Photon, t_esim11x11Rest, t_esim15x15, t_esim15x15CharHad, t_esim15x15Matched, t_esim15x15NeutHad, t_esim15x15Photon, t_esim15x15Rest, t_esim7x7, t_esim7x7CharHad, t_esim7x7Matched, t_esim7x7NeutHad, t_esim7x7Photon, t_esim7x7Rest, t_esim9x9, t_esim9x9CharHad, t_esim9x9Matched, t_esim9x9NeutHad, t_esim9x9Photon, t_esim9x9Rest, t_esimPdgId, t_EvtNo, t_h3x3, t_h3x3Sig, t_h5x5, t_h5x5Sig, t_h7x7, t_h7x7Sig, t_hsim3x3, t_hsim3x3CharHad, t_hsim3x3Matched, t_hsim3x3NeutHad, t_hsim3x3Photon, t_hsim3x3Rest, t_hsim5x5, t_hsim5x5CharHad, t_hsim5x5Matched, t_hsim5x5NeutHad, t_hsim5x5Photon, t_hsim5x5Rest, t_hsim7x7, t_hsim7x7CharHad, t_hsim7x7Matched, t_hsim7x7NeutHad, t_hsim7x7Photon, t_hsim7x7Rest, t_infoHcal, t_jetEta, t_jetPhi, t_jetPt, t_L1AlgoNames, t_L1CenJetEta, t_L1CenJetPhi, t_L1CenJetPt, t_L1Decision, t_L1FwdJetEta, t_L1FwdJetPhi, t_L1FwdJetPt, t_L1IsoEMEta, t_L1IsoEMPhi, t_L1IsoEMPt, t_L1METEta, t_L1METPhi, t_L1METPt, t_L1MuonEta, t_L1MuonPhi, t_L1MuonPt, t_L1NonIsoEMEta, t_L1NonIsoEMPhi, t_L1NonIsoEMPt, t_L1PreScale, t_L1TauJetEta, t_L1TauJetPhi, t_L1TauJetPt, t_Lumi, t_maxNearHcalP3x3, t_maxNearHcalP5x5, t_maxNearHcalP7x7, t_maxNearP21x21, t_maxNearP31x31, t_NLayersCrossed, t_nTracks, t_nTrksJetCalo, t_nTrksJetVtx, t_PVisValid, t_PVndof, t_PVNTracks, t_PVNTracksHP, t_PVNTracksHPWt, t_PVNTracksWt, t_PVTracksSumPt, t_PVTracksSumPtHP, t_PVTracksSumPtHPWt, t_PVTracksSumPtWt, t_PVx, t_PVy, t_PVz, t_RunNo, t_simTrackP, t_trackChiSq, t_trackChiSqAll, t_trackDxy, t_trackDxyAll, t_trackDxyBS, t_trackDxyPV, t_trackDxyPVAll, t_trackDz, t_trackDzAll, t_trackDzBS, t_trackDzPV, t_trackDzPVAll, t_trackEcalEta, t_trackEcalPhi, t_trackEta, t_trackEtaAll, t_trackHcalEta, t_trackHcalPhi, t_trackHitInMeasTEC, t_trackHitInMeasTIB, t_trackHitInMeasTID, t_trackHitInMeasTOB, t_trackHitInMissTEC, t_trackHitInMissTIB, t_trackHitInMissTIBTID, t_trackHitInMissTID, t_trackHitInMissTOB, t_trackHitOutMeasTEC, t_trackHitOutMeasTIB, t_trackHitOutMeasTID, t_trackHitOutMeasTOB, t_trackHitOutMissTEC, t_trackHitOutMissTIB, t_trackHitOutMissTID, t_trackHitOutMissTOB, t_trackHitOutMissTOBTEC, t_trackHitsTEC, t_trackHitsTOB, t_trackL, t_trackNOuterHits, t_trackOutPosOutHitDr, t_trackP, t_trackPAll, t_trackPdgIdAll, t_trackPhi, t_trackPhiAll, t_trackPt, t_trackPtAll, t_trackPVIdx, t_trkEcalEne, t_trkHcalEne, and tree.

Referenced by beginJob().

                                       {
 
   char hname[100], htit[100];
 
   TFileDirectory dir = fs->mkdir("nearMaxTrackP");
 
   for(unsigned int ieta=0; ieta<NEtaBins; ieta++) {
     double lowEta=-5.0, highEta= 5.0;
     lowEta  = genPartEtaBins[ieta];
     highEta = genPartEtaBins[ieta+1];
 
     for(unsigned int ipt=0; ipt<NPBins; ipt++) {
       double lowP=0.0, highP=300.0;
       lowP    = genPartPBins[ipt];
       highP   = genPartPBins[ipt+1];
       sprintf(hname, "h_maxNearP31x31_ptBin%i_etaBin%i",ipt, ieta);
       sprintf(htit,  "maxNearP in 31x31 (%3.2f<|#eta|<%3.2f), (%2.0f<trkP<%3.0f)", lowEta, highEta, lowP, highP );
       h_maxNearP31x31[ipt][ieta] = dir.make<TH1F>(hname, htit, 220, -2.0, 20.0);
       h_maxNearP31x31[ipt][ieta] ->Sumw2();
       sprintf(hname, "h_maxNearP25x25_ptBin%i_etaBin%i",ipt, ieta);
       sprintf(htit,  "maxNearP in 25x25 (%3.2f<|#eta|<%3.2f), (%2.0f<trkP<%3.0f)", lowEta, highEta, lowP, highP );
       h_maxNearP25x25[ipt][ieta] = dir.make<TH1F>(hname, htit, 220, -2.0, 20.0);
       h_maxNearP25x25[ipt][ieta] ->Sumw2();
       sprintf(hname, "h_maxNearP21x21_ptBin%i_etaBin%i",ipt, ieta);
       sprintf(htit,  "maxNearP in 21x21 (%3.2f<|#eta|<%3.2f), (%2.0f<trkP<%3.0f)", lowEta, highEta, lowP, highP );
       h_maxNearP21x21[ipt][ieta] = dir.make<TH1F>(hname, htit, 220, -2.0, 20.0);
       h_maxNearP21x21[ipt][ieta] ->Sumw2();
       sprintf(hname, "h_maxNearP15x15_ptBin%i_etaBin%i",ipt, ieta);
       sprintf(htit,  "maxNearP in 15x15 (%3.2f<|#eta|<%3.2f), (%2.0f<trkP<%3.0f)", lowEta, highEta, lowP, highP );
       h_maxNearP15x15[ipt][ieta] = dir.make<TH1F>(hname, htit, 220, -2.0, 20.0);
       h_maxNearP15x15[ipt][ieta] ->Sumw2();
      }
   }
 
   h_L1AlgoNames = fs->make<TH1I>("h_L1AlgoNames", "h_L1AlgoNames:Bin Labels", 128, -0.5, 127.5);  
 
   // Reconstructed Tracks
 
   h_PVTracksWt = fs->make<TH1F>("h_PVTracksWt", "h_PVTracksWt", 600, -0.1, 1.1);
 
   h_nTracks = fs->make<TH1F>("h_nTracks", "h_nTracks", 1000, -0.5, 999.5);
 
   sprintf(hname, "h_recEtaPt_0");
   sprintf(htit,  "h_recEtaPt (all tracks Eta vs pT)");
   h_recEtaPt_0 = fs->make<TH2F>(hname, htit, 30, -3.0,3.0, 15, genPartPBins);
 
   sprintf(hname, "h_recEtaP_0");
   sprintf(htit,  "h_recEtaP (all tracks Eta vs pT)");
   h_recEtaP_0 = fs->make<TH2F>(hname, htit, 30, -3.0,3.0, 15, genPartPBins);
 
   h_recPt_0  = fs->make<TH1F>("h_recPt_0",  "Pt (all tracks)",  15, genPartPBins);
   h_recP_0   = fs->make<TH1F>("h_recP_0",   "P  (all tracks)",  15, genPartPBins);
   h_recEta_0 = fs->make<TH1F>("h_recEta_0", "Eta (all tracks)", 60, -3.0,   3.0);
   h_recPhi_0 = fs->make<TH1F>("h_recPhi_0", "Phi (all tracks)", 100, -3.2,   3.2);
   //-------------------------
   sprintf(hname, "h_recEtaPt_1");
   sprintf(htit,  "h_recEtaPt (all good tracks Eta vs pT)");
   h_recEtaPt_1 = fs->make<TH2F>(hname, htit, 30, -3.0,3.0, 15, genPartPBins);
 
   sprintf(hname, "h_recEtaP_1");
   sprintf(htit,  "h_recEtaP (all good tracks Eta vs pT)");
   h_recEtaP_1 = fs->make<TH2F>(hname, htit, 30, -3.0, 3.0, 15, genPartPBins);
 
   h_recPt_1  = fs->make<TH1F>("h_recPt_1",  "Pt (all good tracks)",  15, genPartPBins);
   h_recP_1   = fs->make<TH1F>("h_recP_1",   "P  (all good tracks)",  15, genPartPBins);
   h_recEta_1 = fs->make<TH1F>("h_recEta_1", "Eta (all good tracks)", 60, -3.0,   3.0);
   h_recPhi_1 = fs->make<TH1F>("h_recPhi_1", "Phi (all good tracks)", 100, -3.2,   3.2);
   //-------------------------
   sprintf(hname, "h_recEtaPt_2");
   sprintf(htit,  "h_recEtaPt (charge isolation Eta vs pT)");
   h_recEtaPt_2 = fs->make<TH2F>(hname, htit, 30, -3.0, 3.0, 15, genPartPBins);
 
   sprintf(hname, "h_recEtaP_2");
   sprintf(htit,  "h_recEtaP (charge isolation Eta vs pT)");
   h_recEtaP_2 = fs->make<TH2F>(hname, htit, 30, -3.0, 3.0, 15, genPartPBins);
   
   h_recPt_2  = fs->make<TH1F>("h_recPt_2",  "Pt (charge isolation)",  15, genPartPBins);
   h_recP_2   = fs->make<TH1F>("h_recP_2",   "P  (charge isolation)",  15, genPartPBins);
   h_recEta_2 = fs->make<TH1F>("h_recEta_2", "Eta (charge isolation)", 60, -3.0,   3.0);
   h_recPhi_2 = fs->make<TH1F>("h_recPhi_2", "Phi (charge isolation)", 100, -3.2,   3.2);
 
 
   tree = fs->make<TTree>("tree", "tree");
   tree->SetAutoSave(10000);
 
 
   tree->Branch("t_EvtNo"              ,&t_EvtNo               ,"t_EvtNo/I");
   tree->Branch("t_RunNo"              ,&t_RunNo               ,"t_RunNo/I");
   tree->Branch("t_Lumi"               ,&t_Lumi                ,"t_Lumi/I");
   tree->Branch("t_Bunch"              ,&t_Bunch               ,"t_Bunch/I");
 
 
   t_PVx               = new std::vector<double>();
   t_PVy               = new std::vector<double>();
   t_PVz               = new std::vector<double>();
   t_PVisValid         = new std::vector<int>();
   t_PVndof            = new std::vector<int>(); 
   t_PVNTracks         = new std::vector<int>();
   t_PVNTracksWt       = new std::vector<int>();
   t_PVTracksSumPt     = new std::vector<double>();
   t_PVTracksSumPtWt   = new std::vector<double>();
   t_PVNTracksHP       = new std::vector<int>();
   t_PVNTracksHPWt     = new std::vector<int>();
   t_PVTracksSumPtHP   = new std::vector<double>();
   t_PVTracksSumPtHPWt = new std::vector<double>();
 
   tree->Branch("PVx"                  ,"vector<double>"      ,&t_PVx);
   tree->Branch("PVy"                  ,"vector<double>"      ,&t_PVy);
   tree->Branch("PVz"                  ,"vector<double>"      ,&t_PVz);
   tree->Branch("PVisValid"            ,"vector<int>"         ,&t_PVisValid);
   tree->Branch("PVndof"               ,"vector<int>"         ,&t_PVndof);
   tree->Branch("PVNTracks"            ,"vector<int>"         ,&t_PVNTracks);
   tree->Branch("PVNTracksWt"          ,"vector<int>"         ,&t_PVNTracksWt);
   tree->Branch("t_PVTracksSumPt"      ,"vector<double>"      ,&t_PVTracksSumPt);
   tree->Branch("t_PVTracksSumPtWt"    ,"vector<double>"      ,&t_PVTracksSumPtWt);
   tree->Branch("PVNTracksHP"          ,"vector<int>"         ,&t_PVNTracksHP);
   tree->Branch("PVNTracksHPWt"        ,"vector<int>"         ,&t_PVNTracksHPWt);
   tree->Branch("t_PVTracksSumPtHP"    ,"vector<double>"      ,&t_PVTracksSumPtHP);
   tree->Branch("t_PVTracksSumPtHPWt"  ,"vector<double>"      ,&t_PVTracksSumPtHPWt);
 
   //----- L1Trigger information
   for(int i=0; i<128; i++) t_L1Decision[i]=0;
   t_L1AlgoNames       = new std::vector<std::string>();
   t_L1PreScale        = new std::vector<int>();
   t_L1CenJetPt        = new std::vector<double>();
   t_L1CenJetEta       = new std::vector<double>();    
   t_L1CenJetPhi       = new std::vector<double>();
   t_L1FwdJetPt        = new std::vector<double>();
   t_L1FwdJetEta       = new std::vector<double>();
   t_L1FwdJetPhi       = new std::vector<double>();
   t_L1TauJetPt        = new std::vector<double>();
   t_L1TauJetEta       = new std::vector<double>();     
   t_L1TauJetPhi       = new std::vector<double>();
   t_L1MuonPt          = new std::vector<double>();
   t_L1MuonEta         = new std::vector<double>();     
   t_L1MuonPhi         = new std::vector<double>();
   t_L1IsoEMPt         = new std::vector<double>();
   t_L1IsoEMEta        = new std::vector<double>();
   t_L1IsoEMPhi        = new std::vector<double>();
   t_L1NonIsoEMPt      = new std::vector<double>();
   t_L1NonIsoEMEta     = new std::vector<double>();
   t_L1NonIsoEMPhi     = new std::vector<double>();
   t_L1METPt           = new std::vector<double>();
   t_L1METEta          = new std::vector<double>();
   t_L1METPhi          = new std::vector<double>();
   
   tree->Branch("t_L1Decision",        t_L1Decision,     "t_L1Decision[128]/I");
   tree->Branch("t_L1AlgoNames",       "vector<string>", &t_L1AlgoNames);
   tree->Branch("t_L1PreScale",        "vector<int>",    &t_L1PreScale);
   tree->Branch("t_L1CenJetPt",        "vector<double>", &t_L1CenJetPt);
   tree->Branch("t_L1CenJetEta",       "vector<double>", &t_L1CenJetEta);
   tree->Branch("t_L1CenJetPhi",       "vector<double>", &t_L1CenJetPhi);
   tree->Branch("t_L1FwdJetPt",        "vector<double>", &t_L1FwdJetPt);
   tree->Branch("t_L1FwdJetEta",       "vector<double>", &t_L1FwdJetEta);
   tree->Branch("t_L1FwdJetPhi",       "vector<double>", &t_L1FwdJetPhi);
   tree->Branch("t_L1TauJetPt",        "vector<double>", &t_L1TauJetPt);
   tree->Branch("t_L1TauJetEta",       "vector<double>", &t_L1TauJetEta);     
   tree->Branch("t_L1TauJetPhi",       "vector<double>", &t_L1TauJetPhi);
   tree->Branch("t_L1MuonPt",          "vector<double>", &t_L1MuonPt);
   tree->Branch("t_L1MuonEta",         "vector<double>", &t_L1MuonEta);
   tree->Branch("t_L1MuonPhi",         "vector<double>", &t_L1MuonPhi);
   tree->Branch("t_L1IsoEMPt",         "vector<double>", &t_L1IsoEMPt);
   tree->Branch("t_L1IsoEMEta",        "vector<double>", &t_L1IsoEMEta);
   tree->Branch("t_L1IsoEMPhi",        "vector<double>", &t_L1IsoEMPhi);
   tree->Branch("t_L1NonIsoEMPt",      "vector<double>", &t_L1NonIsoEMPt);
   tree->Branch("t_L1NonIsoEMEta",     "vector<double>", &t_L1NonIsoEMEta);
   tree->Branch("t_L1NonIsoEMPhi",     "vector<double>", &t_L1NonIsoEMPhi);
   tree->Branch("t_L1METPt",           "vector<double>", &t_L1METPt);
   tree->Branch("t_L1METEta",          "vector<double>", &t_L1METEta);
   tree->Branch("t_L1METPhi",          "vector<double>", &t_L1METPhi);
 
   t_jetPt            = new std::vector<double>();
   t_jetEta           = new std::vector<double>();
   t_jetPhi           = new std::vector<double>();
   t_nTrksJetCalo     = new std::vector<double>();  
   t_nTrksJetVtx      = new std::vector<double>();
   tree->Branch("t_jetPt",             "vector<double>",&t_jetPt);
   tree->Branch("t_jetEta",            "vector<double>",&t_jetEta);
   tree->Branch("t_jetPhi",            "vector<double>",&t_jetPhi);
   tree->Branch("t_nTrksJetCalo",      "vector<double>",&t_nTrksJetCalo);  
   tree->Branch("t_nTrksJetVtx",       "vector<double>",&t_nTrksJetVtx);
 
   t_trackPAll        = new std::vector<double>();
   t_trackEtaAll      = new std::vector<double>();
   t_trackPhiAll      = new std::vector<double>();
   t_trackPdgIdAll    = new std::vector<double>();
   t_trackPtAll       = new std::vector<double>();
   t_trackDxyAll      = new std::vector<double>();
   t_trackDzAll       = new std::vector<double>();
   t_trackDxyPVAll    = new std::vector<double>();
   t_trackDzPVAll     = new std::vector<double>();
   t_trackChiSqAll    = new std::vector<double>();
   tree->Branch("t_trackPAll",         "vector<double>", &t_trackPAll    );
   tree->Branch("t_trackPhiAll",       "vector<double>", &t_trackPhiAll  );
   tree->Branch("t_trackEtaAll",       "vector<double>", &t_trackEtaAll  );
   tree->Branch("t_trackPtAll",        "vector<double>", &t_trackPtAll    );
   tree->Branch("t_trackDxyAll",       "vector<double>", &t_trackDxyAll    );
   tree->Branch("t_trackDzAll",        "vector<double>", &t_trackDzAll    );
   tree->Branch("t_trackDxyPVAll",     "vector<double>", &t_trackDxyPVAll    );
   tree->Branch("t_trackDzPVAll",      "vector<double>", &t_trackDzPVAll    );
   tree->Branch("t_trackChiSqAll",     "vector<double>", &t_trackChiSqAll    );
   //tree->Branch("t_trackPdgIdAll",     "vector<double>", &t_trackPdgIdAll);
 
   t_trackP               = new std::vector<double>();
   t_trackPt              = new std::vector<double>();
   t_trackEta             = new std::vector<double>();
   t_trackPhi             = new std::vector<double>();
   t_trackEcalEta         = new std::vector<double>();
   t_trackEcalPhi         = new std::vector<double>();
   t_trackHcalEta         = new std::vector<double>();
   t_trackHcalPhi         = new std::vector<double>();
   t_trackNOuterHits      = new std::vector<int>();
   t_NLayersCrossed       = new std::vector<int>();
   t_trackDxy             = new std::vector<double>();
   t_trackDxyBS           = new std::vector<double>();
   t_trackDz              = new std::vector<double>();
   t_trackDzBS            = new std::vector<double>();
   t_trackDxyPV           = new std::vector<double>();
   t_trackDzPV            = new std::vector<double>();
   t_trackPVIdx           = new std::vector<int>();
   t_trackChiSq           = new std::vector<double>();
   t_trackHitsTOB         = new std::vector<int>(); 
   t_trackHitsTEC         = new std::vector<int>();
   t_trackHitInMissTOB    = new std::vector<int>(); 
   t_trackHitInMissTEC    = new std::vector<int>();  
   t_trackHitInMissTIB    = new std::vector<int>();  
   t_trackHitInMissTID    = new std::vector<int>();
   t_trackHitOutMissTOB   = new std::vector<int>();
   t_trackHitOutMissTEC   = new std::vector<int>(); 
   t_trackHitOutMissTIB   = new std::vector<int>();
   t_trackHitOutMissTID   = new std::vector<int>();
   t_trackHitInMissTIBTID = new std::vector<int>();  
   t_trackHitOutMissTOB   = new std::vector<int>();
   t_trackHitOutMissTEC   = new std::vector<int>(); 
   t_trackHitOutMissTIB   = new std::vector<int>();
   t_trackHitOutMissTID   = new std::vector<int>();
   t_trackHitOutMissTOBTEC= new std::vector<int>();
   t_trackHitInMeasTOB    = new std::vector<int>(); 
   t_trackHitInMeasTEC    = new std::vector<int>();  
   t_trackHitInMeasTIB    = new std::vector<int>();  
   t_trackHitInMeasTID    = new std::vector<int>();
   t_trackHitOutMeasTOB   = new std::vector<int>();
   t_trackHitOutMeasTEC   = new std::vector<int>(); 
   t_trackHitOutMeasTIB   = new std::vector<int>();
   t_trackHitOutMeasTID   = new std::vector<int>();
   t_trackOutPosOutHitDr  = new std::vector<double>();
   t_trackL               = new std::vector<double>();
 
   tree->Branch("t_trackP",            "vector<double>", &t_trackP            );
   tree->Branch("t_trackPt",           "vector<double>", &t_trackPt           );
   tree->Branch("t_trackEta",          "vector<double>", &t_trackEta          );
   tree->Branch("t_trackPhi",          "vector<double>", &t_trackPhi          );
   tree->Branch("t_trackEcalEta",      "vector<double>", &t_trackEcalEta      );
   tree->Branch("t_trackEcalPhi",      "vector<double>", &t_trackEcalPhi      );
   tree->Branch("t_trackHcalEta",      "vector<double>", &t_trackHcalEta      );
   tree->Branch("t_trackHcalPhi",      "vector<double>", &t_trackHcalPhi      );
 
   tree->Branch("t_trackNOuterHits",      "vector<int>",    &t_trackNOuterHits   );
   tree->Branch("t_NLayersCrossed",       "vector<int>",    &t_NLayersCrossed    );
   tree->Branch("t_trackHitsTOB",         "vector<int>",   &t_trackHitsTOB      ); 
   tree->Branch("t_trackHitsTEC",         "vector<int>",   &t_trackHitsTEC      );
   tree->Branch("t_trackHitInMissTOB",    "vector<int>",   &t_trackHitInMissTOB ); 
   tree->Branch("t_trackHitInMissTEC",    "vector<int>",   &t_trackHitInMissTEC );  
   tree->Branch("t_trackHitInMissTIB",    "vector<int>",   &t_trackHitInMissTIB );  
   tree->Branch("t_trackHitInMissTID",    "vector<int>",   &t_trackHitInMissTID );
   tree->Branch("t_trackHitInMissTIBTID", "vector<int>",   &t_trackHitInMissTIBTID );  
   tree->Branch("t_trackHitOutMissTOB",   "vector<int>",   &t_trackHitOutMissTOB);
   tree->Branch("t_trackHitOutMissTEC",   "vector<int>",   &t_trackHitOutMissTEC); 
   tree->Branch("t_trackHitOutMissTIB",   "vector<int>",   &t_trackHitOutMissTIB);
   tree->Branch("t_trackHitOutMissTID",   "vector<int>",   &t_trackHitOutMissTID);
   tree->Branch("t_trackHitOutMissTOBTEC","vector<int>",   &t_trackHitOutMissTOBTEC);
   tree->Branch("t_trackHitInMeasTOB",    "vector<int>",   &t_trackHitInMeasTOB ); 
   tree->Branch("t_trackHitInMeasTEC",    "vector<int>",   &t_trackHitInMeasTEC );  
   tree->Branch("t_trackHitInMeasTIB",    "vector<int>",   &t_trackHitInMeasTIB );  
   tree->Branch("t_trackHitInMeasTID",    "vector<int>",   &t_trackHitInMeasTID );
   tree->Branch("t_trackHitOutMeasTOB",   "vector<int>",   &t_trackHitOutMeasTOB);
   tree->Branch("t_trackHitOutMeasTEC",   "vector<int>",   &t_trackHitOutMeasTEC); 
   tree->Branch("t_trackHitOutMeasTIB",   "vector<int>",   &t_trackHitOutMeasTIB);
   tree->Branch("t_trackHitOutMeasTID",   "vector<int>",   &t_trackHitOutMeasTID);
   tree->Branch("t_trackOutPosOutHitDr",  "vector<double>", &t_trackOutPosOutHitDr);
   tree->Branch("t_trackL",               "vector<double>", &t_trackL);
 
   tree->Branch("t_trackDxy",          "vector<double>", &t_trackDxy     );
   tree->Branch("t_trackDxyBS",        "vector<double>", &t_trackDxyBS   );
   tree->Branch("t_trackDz",           "vector<double>", &t_trackDz      );
   tree->Branch("t_trackDzBS",         "vector<double>", &t_trackDzBS    );
   tree->Branch("t_trackDxyPV",        "vector<double>", &t_trackDxyPV   );
   tree->Branch("t_trackDzPV",         "vector<double>", &t_trackDzPV    );
   tree->Branch("t_trackChiSq",        "vector<double>", &t_trackChiSq   );
   tree->Branch("t_trackPVIdx",        "vector<int>",    &t_trackPVIdx   );
 
   t_maxNearP31x31     = new std::vector<double>();
   t_maxNearP21x21     = new std::vector<double>();
 
   tree->Branch("t_maxNearP31x31",     "vector<double>", &t_maxNearP31x31);
   tree->Branch("t_maxNearP21x21",     "vector<double>", &t_maxNearP21x21);
 
   t_ecalSpike11x11    = new std::vector<int>();
   t_e7x7              = new std::vector<double>();
   t_e9x9              = new std::vector<double>();
   t_e11x11            = new std::vector<double>();
   t_e15x15            = new std::vector<double>();
 
   tree->Branch("t_ecalSpike11x11",    "vector<int>",    &t_ecalSpike11x11);
   tree->Branch("t_e7x7",              "vector<double>", &t_e7x7);
   tree->Branch("t_e9x9",              "vector<double>", &t_e9x9);
   tree->Branch("t_e11x11",            "vector<double>", &t_e11x11);
   tree->Branch("t_e15x15",            "vector<double>", &t_e15x15);
 
   t_e7x7_10Sig        = new std::vector<double>();
   t_e9x9_10Sig        = new std::vector<double>();
   t_e11x11_10Sig      = new std::vector<double>();
   t_e15x15_10Sig      = new std::vector<double>();
   t_e7x7_15Sig        = new std::vector<double>();
   t_e9x9_15Sig        = new std::vector<double>();
   t_e11x11_15Sig      = new std::vector<double>();
   t_e15x15_15Sig      = new std::vector<double>();
   t_e7x7_20Sig        = new std::vector<double>();
   t_e9x9_20Sig        = new std::vector<double>();
   t_e11x11_20Sig      = new std::vector<double>();
   t_e15x15_20Sig      = new std::vector<double>();
   t_e7x7_25Sig        = new std::vector<double>();
   t_e9x9_25Sig        = new std::vector<double>();
   t_e11x11_25Sig      = new std::vector<double>();
   t_e15x15_25Sig      = new std::vector<double>();
   t_e7x7_30Sig        = new std::vector<double>();
   t_e9x9_30Sig        = new std::vector<double>();
   t_e11x11_30Sig      = new std::vector<double>();
   t_e15x15_30Sig      = new std::vector<double>();
 
   tree->Branch("t_e7x7_10Sig"        ,"vector<double>", &t_e7x7_10Sig);
   tree->Branch("t_e9x9_10Sig"        ,"vector<double>", &t_e9x9_10Sig);
   tree->Branch("t_e11x11_10Sig"      ,"vector<double>", &t_e11x11_10Sig);
   tree->Branch("t_e15x15_10Sig"      ,"vector<double>", &t_e15x15_10Sig);
   tree->Branch("t_e7x7_15Sig"        ,"vector<double>", &t_e7x7_15Sig);
   tree->Branch("t_e9x9_15Sig"        ,"vector<double>", &t_e9x9_15Sig);
   tree->Branch("t_e11x11_15Sig"      ,"vector<double>", &t_e11x11_15Sig);
   tree->Branch("t_e15x15_15Sig"      ,"vector<double>", &t_e15x15_15Sig);
   tree->Branch("t_e7x7_20Sig"        ,"vector<double>", &t_e7x7_20Sig);
   tree->Branch("t_e9x9_20Sig"        ,"vector<double>", &t_e9x9_20Sig);
   tree->Branch("t_e11x11_20Sig"      ,"vector<double>", &t_e11x11_20Sig);
   tree->Branch("t_e15x15_20Sig"      ,"vector<double>", &t_e15x15_20Sig);
   tree->Branch("t_e7x7_25Sig"        ,"vector<double>", &t_e7x7_25Sig);
   tree->Branch("t_e9x9_25Sig"        ,"vector<double>", &t_e9x9_25Sig);
   tree->Branch("t_e11x11_25Sig"      ,"vector<double>", &t_e11x11_25Sig);
   tree->Branch("t_e15x15_25Sig"      ,"vector<double>", &t_e15x15_25Sig);
   tree->Branch("t_e7x7_30Sig"        ,"vector<double>", &t_e7x7_30Sig);
   tree->Branch("t_e9x9_30Sig"        ,"vector<double>", &t_e9x9_30Sig);
   tree->Branch("t_e11x11_30Sig"      ,"vector<double>", &t_e11x11_30Sig);
   tree->Branch("t_e15x15_30Sig"      ,"vector<double>", &t_e15x15_30Sig);
 
   if (doMC) {
     t_esim7x7              = new std::vector<double>();
     t_esim9x9              = new std::vector<double>();
     t_esim11x11            = new std::vector<double>();
     t_esim15x15            = new std::vector<double>();
 
     t_esim7x7Matched       = new std::vector<double>();
     t_esim9x9Matched       = new std::vector<double>();
     t_esim11x11Matched     = new std::vector<double>();
     t_esim15x15Matched     = new std::vector<double>();
 
     t_esim7x7Rest          = new std::vector<double>();
     t_esim9x9Rest          = new std::vector<double>();
     t_esim11x11Rest        = new std::vector<double>();
     t_esim15x15Rest        = new std::vector<double>();
 
     t_esim7x7Photon        = new std::vector<double>();
     t_esim9x9Photon        = new std::vector<double>();
     t_esim11x11Photon      = new std::vector<double>();
     t_esim15x15Photon      = new std::vector<double>();
 
     t_esim7x7NeutHad       = new std::vector<double>();
     t_esim9x9NeutHad       = new std::vector<double>();
     t_esim11x11NeutHad     = new std::vector<double>();
     t_esim15x15NeutHad     = new std::vector<double>();
 
     t_esim7x7CharHad       = new std::vector<double>();
     t_esim9x9CharHad       = new std::vector<double>();
     t_esim11x11CharHad     = new std::vector<double>();
     t_esim15x15CharHad     = new std::vector<double>();
 
     t_trkEcalEne           = new std::vector<double>();
     t_simTrackP            = new std::vector<double>();
     t_esimPdgId            = new std::vector<double>();
 
     tree->Branch("t_esim7x7",             "vector<double>", &t_esim7x7);
     tree->Branch("t_esim9x9",             "vector<double>", &t_esim9x9);
     tree->Branch("t_esim11x11",           "vector<double>", &t_esim11x11);
     tree->Branch("t_esim15x15",           "vector<double>", &t_esim15x15);
 
     tree->Branch("t_esim7x7Matched",      "vector<double>", &t_esim7x7Matched);
     tree->Branch("t_esim9x9Matched",      "vector<double>", &t_esim9x9Matched);
     tree->Branch("t_esim11x11Matched",    "vector<double>", &t_esim11x11Matched);
     tree->Branch("t_esim15x15Matched",    "vector<double>", &t_esim15x15Matched);
 
     tree->Branch("t_esim7x7Rest",         "vector<double>", &t_esim7x7Rest);
     tree->Branch("t_esim9x9Rest",         "vector<double>", &t_esim9x9Rest);
     tree->Branch("t_esim11x11Rest",       "vector<double>", &t_esim11x11Rest);
     tree->Branch("t_esim15x15Rest",       "vector<double>", &t_esim15x15Rest);
 
     tree->Branch("t_esim7x7Photon",       "vector<double>", &t_esim7x7Photon);
     tree->Branch("t_esim9x9Photon",       "vector<double>", &t_esim9x9Photon);
     tree->Branch("t_esim11x11Photon",     "vector<double>", &t_esim11x11Photon);
     tree->Branch("t_esim15x15Photon",     "vector<double>", &t_esim15x15Photon);
 
 ;
     tree->Branch("t_esim7x7NeutHad",      "vector<double>", &t_esim7x7NeutHad);
     tree->Branch("t_esim9x9NeutHad",      "vector<double>", &t_esim9x9NeutHad);
     tree->Branch("t_esim11x11NeutHad",    "vector<double>", &t_esim11x11NeutHad);
     tree->Branch("t_esim15x15NeutHad",    "vector<double>", &t_esim15x15NeutHad);
 
     tree->Branch("t_esim7x7CharHad",      "vector<double>", &t_esim7x7CharHad);
     tree->Branch("t_esim9x9CharHad",      "vector<double>", &t_esim9x9CharHad);
     tree->Branch("t_esim11x11CharHad",    "vector<double>", &t_esim11x11CharHad);
     tree->Branch("t_esim15x15CharHad",    "vector<double>", &t_esim15x15CharHad);
 
     tree->Branch("t_trkEcalEne",          "vector<double>", &t_trkEcalEne);
     tree->Branch("t_simTrackP",           "vector<double>", &t_simTrackP);
     tree->Branch("t_esimPdgId",           "vector<double>", &t_esimPdgId);
   }
 
   t_maxNearHcalP3x3      = new std::vector<double>();
   t_maxNearHcalP5x5      = new std::vector<double>();
   t_maxNearHcalP7x7      = new std::vector<double>();
   t_h3x3                 = new std::vector<double>();
   t_h5x5                 = new std::vector<double>();
   t_h7x7                 = new std::vector<double>();
   t_h3x3Sig              = new std::vector<double>();
   t_h5x5Sig              = new std::vector<double>();
   t_h7x7Sig              = new std::vector<double>();
   t_infoHcal             = new std::vector<int>();
 
   if (doMC) {
     t_trkHcalEne           = new std::vector<double>();
     t_hsim3x3              = new std::vector<double>();
     t_hsim5x5              = new std::vector<double>();
     t_hsim7x7              = new std::vector<double>();
     t_hsim3x3Matched       = new std::vector<double>();
     t_hsim5x5Matched       = new std::vector<double>();
     t_hsim7x7Matched       = new std::vector<double>();
     t_hsim3x3Rest          = new std::vector<double>();
     t_hsim5x5Rest          = new std::vector<double>();
     t_hsim7x7Rest          = new std::vector<double>();
     t_hsim3x3Photon        = new std::vector<double>();
     t_hsim5x5Photon        = new std::vector<double>();
     t_hsim7x7Photon        = new std::vector<double>();
     t_hsim3x3NeutHad       = new std::vector<double>();
     t_hsim5x5NeutHad       = new std::vector<double>();
     t_hsim7x7NeutHad       = new std::vector<double>();
     t_hsim3x3CharHad       = new std::vector<double>();
     t_hsim5x5CharHad       = new std::vector<double>();
     t_hsim7x7CharHad       = new std::vector<double>();
   }
 
   tree->Branch("t_maxNearHcalP3x3",     "vector<double>", &t_maxNearHcalP3x3);
   tree->Branch("t_maxNearHcalP5x5",     "vector<double>", &t_maxNearHcalP5x5);
   tree->Branch("t_maxNearHcalP7x7",     "vector<double>", &t_maxNearHcalP7x7);
   tree->Branch("t_h3x3",                "vector<double>", &t_h3x3);
   tree->Branch("t_h5x5",                "vector<double>", &t_h5x5);
   tree->Branch("t_h7x7",                "vector<double>", &t_h7x7);
   tree->Branch("t_h3x3Sig",             "vector<double>", &t_h3x3Sig);
   tree->Branch("t_h5x5Sig",             "vector<double>", &t_h5x5Sig);
   tree->Branch("t_h7x7Sig",             "vector<double>", &t_h7x7Sig);
   tree->Branch("t_infoHcal",            "vector<int>",    &t_infoHcal);
 
   if (doMC) {
     tree->Branch("t_trkHcalEne",          "vector<double>", &t_trkHcalEne);
     tree->Branch("t_hsim3x3",             "vector<double>", &t_hsim3x3);
     tree->Branch("t_hsim5x5",             "vector<double>", &t_hsim5x5);
     tree->Branch("t_hsim7x7",             "vector<double>", &t_hsim7x7);
     tree->Branch("t_hsim3x3Matched",      "vector<double>", &t_hsim3x3Matched);
     tree->Branch("t_hsim5x5Matched",      "vector<double>", &t_hsim5x5Matched);
     tree->Branch("t_hsim7x7Matched",      "vector<double>", &t_hsim7x7Matched);
     tree->Branch("t_hsim3x3Rest",         "vector<double>", &t_hsim3x3Rest);
     tree->Branch("t_hsim5x5Rest",         "vector<double>", &t_hsim5x5Rest);
     tree->Branch("t_hsim7x7Rest",         "vector<double>", &t_hsim7x7Rest);
     tree->Branch("t_hsim3x3Photon",       "vector<double>", &t_hsim3x3Photon);
     tree->Branch("t_hsim5x5Photon",       "vector<double>", &t_hsim5x5Photon);
     tree->Branch("t_hsim7x7Photon",       "vector<double>", &t_hsim7x7Photon);
     tree->Branch("t_hsim3x3NeutHad",      "vector<double>", &t_hsim3x3NeutHad);
     tree->Branch("t_hsim5x5NeutHad",      "vector<double>", &t_hsim5x5NeutHad);
     tree->Branch("t_hsim7x7NeutHad",      "vector<double>", &t_hsim7x7NeutHad);
     tree->Branch("t_hsim3x3CharHad",      "vector<double>", &t_hsim3x3CharHad);
     tree->Branch("t_hsim5x5CharHad",      "vector<double>", &t_hsim5x5CharHad);
     tree->Branch("t_hsim7x7CharHad",      "vector<double>", &t_hsim7x7CharHad);
   }
   tree->Branch("t_nTracks",             &t_nTracks,       "t_nTracks/I");
 
 }

void IsolatedTracksNxN::clearTreeVectors ( )

private

Definition at line 1022 of file IsolatedTracksNxN.cc.

References doMC, i, t_e11x11, t_e11x11_10Sig, t_e11x11_15Sig, t_e11x11_20Sig, t_e11x11_25Sig, t_e11x11_30Sig, t_e15x15, t_e15x15_10Sig, t_e15x15_15Sig, t_e15x15_20Sig, t_e15x15_25Sig, t_e15x15_30Sig, t_e7x7, t_e7x7_10Sig, t_e7x7_15Sig, t_e7x7_20Sig, t_e7x7_25Sig, t_e7x7_30Sig, t_e9x9, t_e9x9_10Sig, t_e9x9_15Sig, t_e9x9_20Sig, t_e9x9_25Sig, t_e9x9_30Sig, t_ecalSpike11x11, t_esim11x11, t_esim11x11CharHad, t_esim11x11Matched, t_esim11x11NeutHad, t_esim11x11Photon, t_esim11x11Rest, t_esim15x15, t_esim15x15CharHad, t_esim15x15Matched, t_esim15x15NeutHad, t_esim15x15Photon, t_esim15x15Rest, t_esim7x7, t_esim7x7CharHad, t_esim7x7Matched, t_esim7x7NeutHad, t_esim7x7Photon, t_esim7x7Rest, t_esim9x9, t_esim9x9CharHad, t_esim9x9Matched, t_esim9x9NeutHad, t_esim9x9Photon, t_esim9x9Rest, t_esimPdgId, t_h3x3, t_h3x3Sig, t_h5x5, t_h5x5Sig, t_h7x7, t_h7x7Sig, t_hsim3x3, t_hsim3x3CharHad, t_hsim3x3Matched, t_hsim3x3NeutHad, t_hsim3x3Photon, t_hsim3x3Rest, t_hsim5x5, t_hsim5x5CharHad, t_hsim5x5Matched, t_hsim5x5NeutHad, t_hsim5x5Photon, t_hsim5x5Rest, t_hsim7x7, t_hsim7x7CharHad, t_hsim7x7Matched, t_hsim7x7NeutHad, t_hsim7x7Photon, t_hsim7x7Rest, t_infoHcal, t_jetEta, t_jetPhi, t_jetPt, t_L1AlgoNames, t_L1CenJetEta, t_L1CenJetPhi, t_L1CenJetPt, t_L1Decision, t_L1FwdJetEta, t_L1FwdJetPhi, t_L1FwdJetPt, t_L1IsoEMEta, t_L1IsoEMPhi, t_L1IsoEMPt, t_L1METEta, t_L1METPhi, t_L1METPt, t_L1MuonEta, t_L1MuonPhi, t_L1MuonPt, t_L1NonIsoEMEta, t_L1NonIsoEMPhi, t_L1NonIsoEMPt, t_L1PreScale, t_L1TauJetEta, t_L1TauJetPhi, t_L1TauJetPt, t_maxNearHcalP3x3, t_maxNearHcalP5x5, t_maxNearHcalP7x7, t_maxNearP21x21, t_maxNearP31x31, t_NLayersCrossed, t_nTrksJetCalo, t_nTrksJetVtx, t_PVisValid, t_PVndof, t_PVNTracks, t_PVNTracksHP, t_PVNTracksHPWt, t_PVNTracksWt, t_PVTracksSumPt, t_PVTracksSumPtHP, t_PVTracksSumPtHPWt, t_PVTracksSumPtWt, t_PVx, t_PVy, t_PVz, t_simTrackP, t_trackChiSq, t_trackChiSqAll, t_trackDxy, t_trackDxyAll, t_trackDxyBS, t_trackDxyPV, t_trackDxyPVAll, t_trackDz, t_trackDzAll, t_trackDzBS, t_trackDzPV, t_trackDzPVAll, t_trackEcalEta, t_trackEcalPhi, t_trackEta, t_trackEtaAll, t_trackHcalEta, t_trackHcalPhi, t_trackHitInMeasTEC, t_trackHitInMeasTIB, t_trackHitInMeasTID, t_trackHitInMeasTOB, t_trackHitInMissTEC, t_trackHitInMissTIB, t_trackHitInMissTIBTID, t_trackHitInMissTID, t_trackHitInMissTOB, t_trackHitOutMeasTEC, t_trackHitOutMeasTIB, t_trackHitOutMeasTID, t_trackHitOutMeasTOB, t_trackHitOutMissTEC, t_trackHitOutMissTIB, t_trackHitOutMissTID, t_trackHitOutMissTOB, t_trackHitOutMissTOBTEC, t_trackHitsTEC, t_trackHitsTOB, t_trackL, t_trackNOuterHits, t_trackOutPosOutHitDr, t_trackP, t_trackPAll, t_trackPdgIdAll, t_trackPhi, t_trackPhiAll, t_trackPt, t_trackPtAll, t_trackPVIdx, t_trkEcalEne, and t_trkHcalEne.

Referenced by analyze().

                                          {
 
   t_PVx               ->clear();
   t_PVy               ->clear();
   t_PVz               ->clear();
   t_PVisValid         ->clear();
   t_PVndof            ->clear();
   t_PVNTracks         ->clear();
   t_PVNTracksWt       ->clear();
   t_PVTracksSumPt     ->clear();
   t_PVTracksSumPtWt   ->clear();
   t_PVNTracksHP       ->clear();
   t_PVNTracksHPWt     ->clear();
   t_PVTracksSumPtHP   ->clear();
   t_PVTracksSumPtHPWt ->clear();
 
   for(int i=0; i<128; i++) t_L1Decision[i]=0;
   t_L1AlgoNames       ->clear();
   t_L1PreScale        ->clear();
 
   t_L1CenJetPt        ->clear();
   t_L1CenJetEta       ->clear();    
   t_L1CenJetPhi       ->clear();
   t_L1FwdJetPt        ->clear();
   t_L1FwdJetEta       ->clear();
   t_L1FwdJetPhi       ->clear();
   t_L1TauJetPt        ->clear();
   t_L1TauJetEta       ->clear();     
   t_L1TauJetPhi       ->clear();
   t_L1MuonPt          ->clear();
   t_L1MuonEta         ->clear();     
   t_L1MuonPhi         ->clear();
   t_L1IsoEMPt         ->clear();
   t_L1IsoEMEta        ->clear();
   t_L1IsoEMPhi        ->clear();
   t_L1NonIsoEMPt      ->clear();
   t_L1NonIsoEMEta     ->clear();
   t_L1NonIsoEMPhi     ->clear();
   t_L1METPt           ->clear();
   t_L1METEta          ->clear();
   t_L1METPhi          ->clear();
 
   t_jetPt             ->clear();
   t_jetEta            ->clear();
   t_jetPhi            ->clear();
   t_nTrksJetCalo      ->clear();  
   t_nTrksJetVtx       ->clear();
 
   t_trackPAll         ->clear();
   t_trackEtaAll       ->clear();
   t_trackPhiAll       ->clear();
   t_trackPdgIdAll     ->clear();
   t_trackPtAll        ->clear();
   t_trackDxyAll       ->clear();
   t_trackDzAll        ->clear();
   t_trackDxyPVAll     ->clear();
   t_trackDzPVAll      ->clear();
   t_trackChiSqAll     ->clear();
 
   t_trackP            ->clear();
   t_trackPt           ->clear();
   t_trackEta          ->clear();
   t_trackPhi          ->clear();
   t_trackEcalEta      ->clear();
   t_trackEcalPhi      ->clear();
   t_trackHcalEta      ->clear();
   t_trackHcalPhi      ->clear();
   t_NLayersCrossed    ->clear();
   t_trackNOuterHits   ->clear();
   t_trackDxy          ->clear();
   t_trackDxyBS        ->clear();
   t_trackDz           ->clear();
   t_trackDzBS         ->clear();
   t_trackDxyPV        ->clear();
   t_trackDzPV         ->clear();
   t_trackChiSq        ->clear();
   t_trackPVIdx        ->clear();
   t_trackHitsTOB          ->clear(); 
   t_trackHitsTEC          ->clear();
   t_trackHitInMissTOB     ->clear(); 
   t_trackHitInMissTEC     ->clear();  
   t_trackHitInMissTIB     ->clear();  
   t_trackHitInMissTID     ->clear();
   t_trackHitInMissTIBTID  ->clear();  
   t_trackHitOutMissTOB    ->clear();
   t_trackHitOutMissTEC    ->clear(); 
   t_trackHitOutMissTIB    ->clear();
   t_trackHitOutMissTID    ->clear(); 
   t_trackHitOutMissTOBTEC ->clear();
   t_trackHitInMeasTOB     ->clear(); 
   t_trackHitInMeasTEC     ->clear();  
   t_trackHitInMeasTIB     ->clear();  
   t_trackHitInMeasTID     ->clear();
   t_trackHitOutMeasTOB    ->clear();
   t_trackHitOutMeasTEC    ->clear(); 
   t_trackHitOutMeasTIB    ->clear();
   t_trackHitOutMeasTID    ->clear();
   t_trackOutPosOutHitDr   ->clear();
   t_trackL                ->clear();
 
   t_maxNearP31x31     ->clear();
   t_maxNearP21x21     ->clear();
 
   t_ecalSpike11x11    ->clear();
   t_e7x7              ->clear();
   t_e9x9              ->clear();
   t_e11x11            ->clear();
   t_e15x15            ->clear();
 
   t_e7x7_10Sig        ->clear();
   t_e9x9_10Sig        ->clear();
   t_e11x11_10Sig      ->clear();
   t_e15x15_10Sig      ->clear();
   t_e7x7_15Sig        ->clear();
   t_e9x9_15Sig        ->clear();
   t_e11x11_15Sig      ->clear();
   t_e15x15_15Sig      ->clear();
   t_e7x7_20Sig        ->clear();
   t_e9x9_20Sig        ->clear();
   t_e11x11_20Sig      ->clear();
   t_e15x15_20Sig      ->clear();
   t_e7x7_25Sig        ->clear();
   t_e9x9_25Sig        ->clear();
   t_e11x11_25Sig      ->clear();
   t_e15x15_25Sig      ->clear();
   t_e7x7_30Sig        ->clear();
   t_e9x9_30Sig        ->clear();
   t_e11x11_30Sig      ->clear();
   t_e15x15_30Sig      ->clear();
 
   if (doMC) {
     t_simTrackP         ->clear();
     t_esimPdgId         ->clear();
     t_trkEcalEne        ->clear();
 
     t_esim7x7           ->clear();
     t_esim9x9           ->clear();
     t_esim11x11         ->clear();
     t_esim15x15         ->clear();
   
     t_esim7x7Matched    ->clear();
     t_esim9x9Matched    ->clear();
     t_esim11x11Matched  ->clear();
     t_esim15x15Matched  ->clear();
 
     t_esim7x7Rest       ->clear();
     t_esim9x9Rest       ->clear();
     t_esim11x11Rest     ->clear();
     t_esim15x15Rest     ->clear();
 
     t_esim7x7Photon     ->clear();
     t_esim9x9Photon     ->clear();
     t_esim11x11Photon   ->clear();
     t_esim15x15Photon   ->clear();
 
     t_esim7x7NeutHad    ->clear();
     t_esim9x9NeutHad    ->clear();
     t_esim11x11NeutHad  ->clear();
     t_esim15x15NeutHad  ->clear();
 
     t_esim7x7CharHad    ->clear();
     t_esim9x9CharHad    ->clear();
     t_esim11x11CharHad  ->clear();
     t_esim15x15CharHad  ->clear();
   }
 
   t_maxNearHcalP3x3   ->clear();
   t_maxNearHcalP5x5   ->clear();
   t_maxNearHcalP7x7   ->clear();
 
   t_h3x3              ->clear();
   t_h5x5              ->clear();
   t_h7x7              ->clear();
   t_h3x3Sig           ->clear();
   t_h5x5Sig           ->clear();
   t_h7x7Sig           ->clear();
 
   t_infoHcal          ->clear();
 
   if (doMC) {
     t_trkHcalEne        ->clear();
 
     t_hsim3x3           ->clear();
     t_hsim5x5           ->clear();
     t_hsim7x7           ->clear();
     t_hsim3x3Matched    ->clear();
     t_hsim5x5Matched    ->clear();
     t_hsim7x7Matched    ->clear();
     t_hsim3x3Rest       ->clear();
     t_hsim5x5Rest       ->clear();
     t_hsim7x7Rest       ->clear();
     t_hsim3x3Photon     ->clear();
     t_hsim5x5Photon     ->clear();
     t_hsim7x7Photon     ->clear();
     t_hsim3x3NeutHad    ->clear();
     t_hsim5x5NeutHad    ->clear();
     t_hsim7x7NeutHad    ->clear();
     t_hsim3x3CharHad    ->clear();
     t_hsim5x5CharHad    ->clear();
     t_hsim7x7CharHad    ->clear();
   }
 }

double IsolatedTracksNxN::DeltaPhi	(	double	v1,
		double	v2
	)

private

Definition at line 1717 of file IsolatedTracksNxN.cc.

References funct::abs(), alignCSCRings::corr, diffTreeTool::diff, and pi.

Referenced by DeltaR().

                                                        {
   // Computes the correctly normalized phi difference
   // v1, v2 = phi of object 1 and 2
   
   double pi    = 3.141592654;
   double twopi = 6.283185307;
   
   double diff = std::abs(v2 - v1);
   double corr = twopi - diff;
   if (diff < pi){ return diff;} else { return corr;} 
 }

double IsolatedTracksNxN::DeltaR	(	double	eta1,
		double	phi1,
		double	eta2,
		double	phi2
	)

private

Definition at line 1729 of file IsolatedTracksNxN.cc.

References DeltaPhi(), and mathSSE::sqrt().

Referenced by analyze().

                                                                                    {
   double deta = eta1 - eta2;
   double dphi = DeltaPhi(phi1, phi2);
   return std::sqrt(deta*deta + dphi*dphi);
 }

void IsolatedTracksNxN::endJob ( void )

privatevirtual

Reimplemented from edm::EDAnalyzer.

Definition at line 1003 of file IsolatedTracksNxN.cc.

References gather_cfg::cout, first, h_L1AlgoNames, l1AlgoMap, L1TriggerAlgoInfo_, mergeVDriftHistosByStation::name, and nEventProc.

                                {
 
   if(L1TriggerAlgoInfo_) {
     std::map< std::pair<unsigned int,std::string>, int>::iterator itr;
     for(itr=l1AlgoMap.begin(); itr!=l1AlgoMap.end(); itr++) {
       std::cout << " ****endjob**** " << (itr->first).first <<" "
         <<(itr->first).second <<" "<<itr->second 
         << std::endl;
       int ibin = (itr->first).first;
       TString name( (itr->first).second );
       h_L1AlgoNames->GetXaxis()->SetBinLabel(ibin+1,name);
     }
     std::cout << "Number of Events Processed " << nEventProc << std::endl;
   }
 
 }

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

private

Definition at line 1735 of file IsolatedTracksNxN.cc.

                                                           {
   
   std::string theTrackQuality = "highPurity";
   reco::TrackBase::TrackQuality trackQuality_ = reco::TrackBase::qualityByName(theTrackQuality);
 
   std::cout << " 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_) 
         << std::endl;
   
   if( printTrkHitPattern_ ) {
     const reco::HitPattern& p = pTrack->hitPattern();
     const reco::HitPattern& p1 = pTrack->trackerExpectedHitsInner();
     const reco::HitPattern& p2 = pTrack->trackerExpectedHitsOuter();
 
     std::cout<<"default " << std::endl;
     for (int i=0; i<p.numberOfHits(); i++) {
       p.printHitPattern(i, std::cout);
     }
     std::cout<<"trackerExpectedHitsInner() " << std::endl;
     for (int i=0; i<p1.numberOfHits(); i++) {
       p1.printHitPattern(i, std::cout);
     }
     std::cout<<"trackerExpectedHitsOuter() " << std::endl;
     for (int i=0; i<p2.numberOfHits(); i++) {
       p2.printHitPattern(i, std::cout);
     }
 
 
     std::cout << "\n \t trackerLayersWithMeasurement() "     << p.trackerLayersWithMeasurement() 
           << "\n \t pixelLayersWithMeasurement() "       << p.pixelLayersWithMeasurement() 
           << "\n \t stripLayersWithMeasurement() "       << p.stripLayersWithMeasurement()  
           << "\n \t pixelBarrelLayersWithMeasurement() " << p.pixelBarrelLayersWithMeasurement()
           << "\n \t pixelEndcapLayersWithMeasurement() " << p.pixelEndcapLayersWithMeasurement()
           << "\n \t stripTIBLayersWithMeasurement() "    << p.stripTIBLayersWithMeasurement()
           << "\n \t stripTIDLayersWithMeasurement() "    << p.stripTIDLayersWithMeasurement()
           << "\n \t stripTOBLayersWithMeasurement() "    << p.stripTOBLayersWithMeasurement()
           << "\n \t stripTECLayersWithMeasurement() "    << p.stripTECLayersWithMeasurement()
           << std::endl;
 
   }
 }

Member Data Documentation

const MagneticField* IsolatedTracksNxN::bField

private

Definition at line 189 of file IsolatedTracksNxN.h.

Referenced by analyze().

bool IsolatedTracksNxN::debugL1Info_

private

Definition at line 152 of file IsolatedTracksNxN.h.

Referenced by analyze(), and IsolatedTracksNxN().

int IsolatedTracksNxN::debugTrks_

private

Definition at line 153 of file IsolatedTracksNxN.h.

Referenced by analyze(), and IsolatedTracksNxN().

bool IsolatedTracksNxN::doMC

private

Definition at line 140 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), clearTreeVectors(), and IsolatedTracksNxN().

edm::Service<TFileService> IsolatedTracksNxN::fs

private

Definition at line 298 of file IsolatedTracksNxN.h.

Referenced by BookHistograms().

double IsolatedTracksNxN::genPartEtaBins[4]

private

Definition at line 191 of file IsolatedTracksNxN.h.

Referenced by analyze(), beginJob(), and BookHistograms().

double IsolatedTracksNxN::genPartPBins[16]

private

Definition at line 191 of file IsolatedTracksNxN.h.

Referenced by analyze(), beginJob(), and BookHistograms().

TH1I* IsolatedTracksNxN::h_L1AlgoNames

private

Definition at line 201 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and endJob().

TH1F* IsolatedTracksNxN::h_maxNearP15x15[NPBins][NEtaBins]

private

Definition at line 196 of file IsolatedTracksNxN.h.

Referenced by analyze(), and BookHistograms().

TH1F * IsolatedTracksNxN::h_maxNearP21x21[NPBins][NEtaBins]

private

Definition at line 196 of file IsolatedTracksNxN.h.

Referenced by analyze(), and BookHistograms().

TH1F * IsolatedTracksNxN::h_maxNearP25x25[NPBins][NEtaBins]

private

Definition at line 196 of file IsolatedTracksNxN.h.

Referenced by analyze(), and BookHistograms().

TH1F * IsolatedTracksNxN::h_maxNearP31x31[NPBins][NEtaBins]

private

Definition at line 196 of file IsolatedTracksNxN.h.

Referenced by analyze(), and BookHistograms().

TH1F* IsolatedTracksNxN::h_nTracks

private

Definition at line 204 of file IsolatedTracksNxN.h.

Referenced by analyze(), and BookHistograms().

TH1F* IsolatedTracksNxN::h_PVTracksWt

private

Definition at line 202 of file IsolatedTracksNxN.h.

Referenced by analyze(), and BookHistograms().

TH1F * IsolatedTracksNxN::h_recEta_0

private

Definition at line 206 of file IsolatedTracksNxN.h.

Referenced by analyze(), and BookHistograms().

TH1F * IsolatedTracksNxN::h_recEta_1

private

Definition at line 209 of file IsolatedTracksNxN.h.

Referenced by analyze(), and BookHistograms().

TH1F * IsolatedTracksNxN::h_recEta_2

private

Definition at line 212 of file IsolatedTracksNxN.h.

Referenced by analyze(), and BookHistograms().

TH2F * IsolatedTracksNxN::h_recEtaP_0

private

Definition at line 207 of file IsolatedTracksNxN.h.

Referenced by analyze(), and BookHistograms().

TH2F * IsolatedTracksNxN::h_recEtaP_1

private

Definition at line 210 of file IsolatedTracksNxN.h.

Referenced by analyze(), and BookHistograms().

TH2F * IsolatedTracksNxN::h_recEtaP_2

private

Definition at line 213 of file IsolatedTracksNxN.h.

Referenced by analyze(), and BookHistograms().

TH2F* IsolatedTracksNxN::h_recEtaPt_0

private

Definition at line 207 of file IsolatedTracksNxN.h.

Referenced by analyze(), and BookHistograms().

TH2F* IsolatedTracksNxN::h_recEtaPt_1

private

Definition at line 210 of file IsolatedTracksNxN.h.

Referenced by analyze(), and BookHistograms().

TH2F* IsolatedTracksNxN::h_recEtaPt_2

private

Definition at line 213 of file IsolatedTracksNxN.h.

Referenced by analyze(), and BookHistograms().

TH1F * IsolatedTracksNxN::h_recP_0

private

Definition at line 206 of file IsolatedTracksNxN.h.

Referenced by analyze(), and BookHistograms().

TH1F * IsolatedTracksNxN::h_recP_1

private

Definition at line 209 of file IsolatedTracksNxN.h.

Referenced by analyze(), and BookHistograms().

TH1F * IsolatedTracksNxN::h_recP_2

private

Definition at line 212 of file IsolatedTracksNxN.h.

Referenced by analyze(), and BookHistograms().

TH1F * IsolatedTracksNxN::h_recPhi_0

private

Definition at line 206 of file IsolatedTracksNxN.h.

Referenced by analyze(), and BookHistograms().

TH1F * IsolatedTracksNxN::h_recPhi_1

private

Definition at line 209 of file IsolatedTracksNxN.h.

Referenced by analyze(), and BookHistograms().

TH1F * IsolatedTracksNxN::h_recPhi_2

private

Definition at line 212 of file IsolatedTracksNxN.h.

Referenced by analyze(), and BookHistograms().

TH1F* IsolatedTracksNxN::h_recPt_0

private

Definition at line 206 of file IsolatedTracksNxN.h.

Referenced by analyze(), and BookHistograms().

TH1F* IsolatedTracksNxN::h_recPt_1

private

Definition at line 209 of file IsolatedTracksNxN.h.

Referenced by analyze(), and BookHistograms().

TH1F* IsolatedTracksNxN::h_recPt_2

private

Definition at line 212 of file IsolatedTracksNxN.h.

Referenced by analyze(), and BookHistograms().

edm::InputTag IsolatedTracksNxN::HBHERecHitSource_

private

Definition at line 160 of file IsolatedTracksNxN.h.

Referenced by IsolatedTracksNxN().

bool IsolatedTracksNxN::initL1

private

Definition at line 140 of file IsolatedTracksNxN.h.

Referenced by analyze(), and IsolatedTracksNxN().

edm::InputTag IsolatedTracksNxN::JetExtender_

private

Definition at line 159 of file IsolatedTracksNxN.h.

Referenced by IsolatedTracksNxN().

edm::InputTag IsolatedTracksNxN::JetSrc_

private

Definition at line 159 of file IsolatedTracksNxN.h.

Referenced by IsolatedTracksNxN().

std::map< std::pair<unsigned int,std::string>, int> IsolatedTracksNxN::l1AlgoMap

private

Definition at line 144 of file IsolatedTracksNxN.h.

Referenced by analyze(), and endJob().

edm::InputTag IsolatedTracksNxN::L1extraCenJetSource_

private

Definition at line 156 of file IsolatedTracksNxN.h.

Referenced by IsolatedTracksNxN().

edm::InputTag IsolatedTracksNxN::L1extraFwdJetSource_

private

Definition at line 156 of file IsolatedTracksNxN.h.

Referenced by IsolatedTracksNxN().

edm::InputTag IsolatedTracksNxN::L1extraIsoEmSource_

private

Definition at line 157 of file IsolatedTracksNxN.h.

Referenced by IsolatedTracksNxN().

edm::InputTag IsolatedTracksNxN::L1extraMuonSource_

private

Definition at line 157 of file IsolatedTracksNxN.h.

Referenced by IsolatedTracksNxN().

edm::InputTag IsolatedTracksNxN::L1extraNonIsoEmSource_

private

Definition at line 157 of file IsolatedTracksNxN.h.

Referenced by IsolatedTracksNxN().

edm::InputTag IsolatedTracksNxN::L1extraTauJetSource_

private

Definition at line 156 of file IsolatedTracksNxN.h.

Referenced by IsolatedTracksNxN().

edm::InputTag IsolatedTracksNxN::L1GTObjectMapRcdSource_

private

Definition at line 158 of file IsolatedTracksNxN.h.

Referenced by IsolatedTracksNxN().

edm::InputTag IsolatedTracksNxN::L1GTReadoutRcdSource_

private

Definition at line 158 of file IsolatedTracksNxN.h.

Referenced by IsolatedTracksNxN().

bool IsolatedTracksNxN::L1TriggerAlgoInfo_

private

Definition at line 152 of file IsolatedTracksNxN.h.

Referenced by analyze(), endJob(), and IsolatedTracksNxN().

const L1GtTriggerMask* IsolatedTracksNxN::m_l1GtTmAlgo

private

trigger masks & veto masks

Definition at line 148 of file IsolatedTracksNxN.h.

L1GtUtils IsolatedTracksNxN::m_l1GtUtils

private

Definition at line 138 of file IsolatedTracksNxN.h.

Referenced by analyze().

unsigned int IsolatedTracksNxN::m_numberDaqPartitions

private

number of DAQ partitions

Definition at line 146 of file IsolatedTracksNxN.h.

std::vector<unsigned int> IsolatedTracksNxN::m_triggerMaskAlgoTrig

private

Definition at line 149 of file IsolatedTracksNxN.h.

double IsolatedTracksNxN::maxTrackEta_

private

Definition at line 185 of file IsolatedTracksNxN.h.

Referenced by analyze(), and IsolatedTracksNxN().

double IsolatedTracksNxN::minTrackP_

private

Definition at line 185 of file IsolatedTracksNxN.h.

Referenced by analyze(), and IsolatedTracksNxN().

int IsolatedTracksNxN::myverbose_

private

Definition at line 155 of file IsolatedTracksNxN.h.

Referenced by analyze(), and IsolatedTracksNxN().

int IsolatedTracksNxN::nbad

private

Definition at line 299 of file IsolatedTracksNxN.h.

Referenced by analyze(), and IsolatedTracksNxN().

const size_t IsolatedTracksNxN::NEtaBins = 3

staticprivate

Definition at line 194 of file IsolatedTracksNxN.h.

Referenced by analyze(), and BookHistograms().

int IsolatedTracksNxN::nEventProc

private

Definition at line 187 of file IsolatedTracksNxN.h.

Referenced by analyze(), beginJob(), and endJob().

const size_t IsolatedTracksNxN::nL1BitsMax =128

staticprivate

Definition at line 141 of file IsolatedTracksNxN.h.

const size_t IsolatedTracksNxN::NPBins = 15

staticprivate

Definition at line 193 of file IsolatedTracksNxN.h.

Referenced by analyze(), and BookHistograms().

bool IsolatedTracksNxN::printTrkHitPattern_

private

Definition at line 154 of file IsolatedTracksNxN.h.

Referenced by IsolatedTracksNxN(), and printTrack().

double IsolatedTracksNxN::pvTracksPtMin_

private

Definition at line 151 of file IsolatedTracksNxN.h.

Referenced by analyze(), and IsolatedTracksNxN().

int IsolatedTracksNxN::t_Bunch

private

Definition at line 221 of file IsolatedTracksNxN.h.

Referenced by analyze(), and BookHistograms().

std::vector<double> * IsolatedTracksNxN::t_e11x11

private

Definition at line 267 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_e11x11_10Sig

private

Definition at line 268 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_e11x11_15Sig

private

Definition at line 269 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_e11x11_20Sig

private

Definition at line 270 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_e11x11_25Sig

private

Definition at line 271 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_e11x11_30Sig

private

Definition at line 272 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_e15x15

private

Definition at line 267 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_e15x15_10Sig

private

Definition at line 268 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_e15x15_15Sig

private

Definition at line 269 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_e15x15_20Sig

private

Definition at line 270 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_e15x15_25Sig

private

Definition at line 271 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_e15x15_30Sig

private

Definition at line 272 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_e7x7

private

Definition at line 267 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_e7x7_10Sig

private

Definition at line 268 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_e7x7_15Sig

private

Definition at line 269 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_e7x7_20Sig

private

Definition at line 270 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_e7x7_25Sig

private

Definition at line 271 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_e7x7_30Sig

private

Definition at line 272 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_e9x9

private

Definition at line 267 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_e9x9_10Sig

private

Definition at line 268 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_e9x9_15Sig

private

Definition at line 269 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_e9x9_20Sig

private

Definition at line 270 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_e9x9_25Sig

private

Definition at line 271 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_e9x9_30Sig

private

Definition at line 272 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<int>* IsolatedTracksNxN::t_ecalSpike11x11

private

Definition at line 266 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_esim11x11

private

Definition at line 278 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_esim11x11CharHad

private

Definition at line 283 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_esim11x11Matched

private

Definition at line 279 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_esim11x11NeutHad

private

Definition at line 282 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_esim11x11Photon

private

Definition at line 281 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_esim11x11Rest

private

Definition at line 280 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_esim15x15

private

Definition at line 278 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_esim15x15CharHad

private

Definition at line 283 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_esim15x15Matched

private

Definition at line 279 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_esim15x15NeutHad

private

Definition at line 282 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_esim15x15Photon

private

Definition at line 281 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_esim15x15Rest

private

Definition at line 280 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_esim7x7

private

Definition at line 278 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_esim7x7CharHad

private

Definition at line 283 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_esim7x7Matched

private

Definition at line 279 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_esim7x7NeutHad

private

Definition at line 282 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_esim7x7Photon

private

Definition at line 281 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_esim7x7Rest

private

Definition at line 280 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_esim9x9

private

Definition at line 278 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_esim9x9CharHad

private

Definition at line 283 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_esim9x9Matched

private

Definition at line 279 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_esim9x9NeutHad

private

Definition at line 282 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_esim9x9Photon

private

Definition at line 281 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_esim9x9Rest

private

Definition at line 280 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_esimPdgId

private

Definition at line 274 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

int IsolatedTracksNxN::t_EvtNo

private

Definition at line 221 of file IsolatedTracksNxN.h.

Referenced by analyze(), and BookHistograms().

std::vector<double>* IsolatedTracksNxN::t_h3x3

private

Definition at line 286 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_h3x3Sig

private

Definition at line 287 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_h5x5

private

Definition at line 286 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_h5x5Sig

private

Definition at line 287 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_h7x7

private

Definition at line 286 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_h7x7Sig

private

Definition at line 287 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_hsim3x3

private

Definition at line 291 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_hsim3x3CharHad

private

Definition at line 296 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_hsim3x3Matched

private

Definition at line 292 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_hsim3x3NeutHad

private

Definition at line 295 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_hsim3x3Photon

private

Definition at line 294 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_hsim3x3Rest

private

Definition at line 293 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_hsim5x5

private

Definition at line 291 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_hsim5x5CharHad

private

Definition at line 296 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_hsim5x5Matched

private

Definition at line 292 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_hsim5x5NeutHad

private

Definition at line 295 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_hsim5x5Photon

private

Definition at line 294 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_hsim5x5Rest

private

Definition at line 293 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_hsim7x7

private

Definition at line 291 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_hsim7x7CharHad

private

Definition at line 296 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_hsim7x7Matched

private

Definition at line 292 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_hsim7x7NeutHad

private

Definition at line 295 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_hsim7x7Photon

private

Definition at line 294 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_hsim7x7Rest

private

Definition at line 293 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<int>* IsolatedTracksNxN::t_infoHcal

private

Definition at line 288 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_jetEta

private

Definition at line 239 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_jetPhi

private

Definition at line 239 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_jetPt

private

Definition at line 239 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<std::string>* IsolatedTracksNxN::t_L1AlgoNames

private

Definition at line 222 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_L1CenJetEta

private

Definition at line 231 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_L1CenJetPhi

private

Definition at line 231 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_L1CenJetPt

private

Definition at line 231 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

int IsolatedTracksNxN::t_L1Decision[128]

private

Definition at line 224 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_L1FwdJetEta

private

Definition at line 232 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_L1FwdJetPhi

private

Definition at line 232 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_L1FwdJetPt

private

Definition at line 232 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_L1IsoEMEta

private

Definition at line 235 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_L1IsoEMPhi

private

Definition at line 235 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_L1IsoEMPt

private

Definition at line 235 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_L1METEta

private

Definition at line 237 of file IsolatedTracksNxN.h.

Referenced by BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_L1METPhi

private

Definition at line 237 of file IsolatedTracksNxN.h.

Referenced by BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_L1METPt

private

Definition at line 237 of file IsolatedTracksNxN.h.

Referenced by BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_L1MuonEta

private

Definition at line 234 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_L1MuonPhi

private

Definition at line 234 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_L1MuonPt

private

Definition at line 234 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_L1NonIsoEMEta

private

Definition at line 236 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_L1NonIsoEMPhi

private

Definition at line 236 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_L1NonIsoEMPt

private

Definition at line 236 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<int>* IsolatedTracksNxN::t_L1PreScale

private

Definition at line 223 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_L1TauJetEta

private

Definition at line 233 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_L1TauJetPhi

private

Definition at line 233 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_L1TauJetPt

private

Definition at line 233 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

int IsolatedTracksNxN::t_Lumi

private

Definition at line 221 of file IsolatedTracksNxN.h.

Referenced by analyze(), and BookHistograms().

std::vector<double>* IsolatedTracksNxN::t_maxNearHcalP3x3

private

Definition at line 285 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_maxNearHcalP5x5

private

Definition at line 285 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_maxNearHcalP7x7

private

Definition at line 285 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_maxNearP15x15

private

Definition at line 264 of file IsolatedTracksNxN.h.

std::vector<double>* IsolatedTracksNxN::t_maxNearP21x21

private

Definition at line 263 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_maxNearP25x25

private

Definition at line 262 of file IsolatedTracksNxN.h.

std::vector<double>* IsolatedTracksNxN::t_maxNearP31x31

private

Definition at line 261 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<int>* IsolatedTracksNxN::t_NLayersCrossed

private

Definition at line 253 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

int IsolatedTracksNxN::t_nTracks

private

Definition at line 219 of file IsolatedTracksNxN.h.

Referenced by analyze(), and BookHistograms().

std::vector<double>* IsolatedTracksNxN::t_nTrksJetCalo

private

Definition at line 240 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_nTrksJetVtx

private

Definition at line 240 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<int>* IsolatedTracksNxN::t_PVisValid

private

Definition at line 228 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<int> * IsolatedTracksNxN::t_PVndof

private

Definition at line 228 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<int> * IsolatedTracksNxN::t_PVNTracks

private

Definition at line 228 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<int>* IsolatedTracksNxN::t_PVNTracksHP

private

Definition at line 229 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<int> * IsolatedTracksNxN::t_PVNTracksHPWt

private

Definition at line 229 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<int> * IsolatedTracksNxN::t_PVNTracksWt

private

Definition at line 228 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_PVTracksSumPt

private

Definition at line 226 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_PVTracksSumPtHP

private

Definition at line 227 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_PVTracksSumPtHPWt

private

Definition at line 227 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_PVTracksSumPtWt

private

Definition at line 227 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_PVx

private

Definition at line 226 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_PVy

private

Definition at line 226 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_PVz

private

Definition at line 226 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

int IsolatedTracksNxN::t_RunNo

private

Definition at line 221 of file IsolatedTracksNxN.h.

Referenced by analyze(), and BookHistograms().

std::vector<double> * IsolatedTracksNxN::t_simTrackP

private

Definition at line 274 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_trackChiSq

private

Definition at line 250 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_trackChiSqAll

private

Definition at line 244 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_trackDxy

private

Definition at line 248 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_trackDxyAll

private

Definition at line 244 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_trackDxyBS

private

Definition at line 248 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_trackDxyPV

private

Definition at line 249 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_trackDxyPVAll

private

Definition at line 244 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_trackDz

private

Definition at line 248 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_trackDzAll

private

Definition at line 244 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_trackDzBS

private

Definition at line 248 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_trackDzPV

private

Definition at line 249 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_trackDzPVAll

private

Definition at line 244 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_trackEcalEta

private

Definition at line 247 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_trackEcalPhi

private

Definition at line 247 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_trackEta

private

Definition at line 246 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_trackEtaAll

private

Definition at line 242 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_trackHcalEta

private

Definition at line 247 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_trackHcalPhi

private

Definition at line 247 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<int> * IsolatedTracksNxN::t_trackHitInMeasTEC

private

Definition at line 257 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<int> * IsolatedTracksNxN::t_trackHitInMeasTIB

private

Definition at line 257 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<int> * IsolatedTracksNxN::t_trackHitInMeasTID

private

Definition at line 257 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<int>* IsolatedTracksNxN::t_trackHitInMeasTOB

private

Definition at line 257 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<int> * IsolatedTracksNxN::t_trackHitInMissTEC

private

Definition at line 255 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<int> * IsolatedTracksNxN::t_trackHitInMissTIB

private

Definition at line 255 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<int> * IsolatedTracksNxN::t_trackHitInMissTIBTID

private

Definition at line 255 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<int> * IsolatedTracksNxN::t_trackHitInMissTID

private

Definition at line 255 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<int>* IsolatedTracksNxN::t_trackHitInMissTOB

private

Definition at line 255 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<int> * IsolatedTracksNxN::t_trackHitOutMeasTEC

private

Definition at line 258 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<int> * IsolatedTracksNxN::t_trackHitOutMeasTIB

private

Definition at line 258 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<int> * IsolatedTracksNxN::t_trackHitOutMeasTID

private

Definition at line 258 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<int>* IsolatedTracksNxN::t_trackHitOutMeasTOB

private

Definition at line 258 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<int> * IsolatedTracksNxN::t_trackHitOutMissTEC

private

Definition at line 256 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<int> * IsolatedTracksNxN::t_trackHitOutMissTIB

private

Definition at line 256 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<int> * IsolatedTracksNxN::t_trackHitOutMissTID

private

Definition at line 256 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<int>* IsolatedTracksNxN::t_trackHitOutMissTOB

private

Definition at line 256 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<int> * IsolatedTracksNxN::t_trackHitOutMissTOBTEC

private

Definition at line 256 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<int> * IsolatedTracksNxN::t_trackHitsTEC

private

Definition at line 254 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<int>* IsolatedTracksNxN::t_trackHitsTOB

private

Definition at line 254 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_trackL

private

Definition at line 259 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<int> * IsolatedTracksNxN::t_trackNOuterHits

private

Definition at line 253 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_trackOutPosOutHitDr

private

Definition at line 259 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_trackP

private

Definition at line 246 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_trackPAll

private

Definition at line 242 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_trackPdgIdAll

private

Definition at line 242 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_trackPhi

private

Definition at line 246 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_trackPhiAll

private

Definition at line 242 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double> * IsolatedTracksNxN::t_trackPt

private

Definition at line 246 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_trackPtAll

private

Definition at line 243 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<int>* IsolatedTracksNxN::t_trackPVIdx

private

Definition at line 251 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_trkEcalEne

private

Definition at line 276 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

std::vector<double>* IsolatedTracksNxN::t_trkHcalEne

private

Definition at line 290 of file IsolatedTracksNxN.h.

Referenced by analyze(), BookHistograms(), and clearTreeVectors().

double IsolatedTracksNxN::tMaxE_

private

Definition at line 186 of file IsolatedTracksNxN.h.

Referenced by analyze(), and IsolatedTracksNxN().

double IsolatedTracksNxN::tMaxH_

private

Definition at line 186 of file IsolatedTracksNxN.h.

Referenced by analyze(), and IsolatedTracksNxN().

double IsolatedTracksNxN::tMinE_

private

Definition at line 186 of file IsolatedTracksNxN.h.

Referenced by analyze(), and IsolatedTracksNxN().

double IsolatedTracksNxN::tMinH_

private

Definition at line 186 of file IsolatedTracksNxN.h.

Referenced by analyze(), and IsolatedTracksNxN().

edm::EDGetTokenT<reco::BeamSpot> IsolatedTracksNxN::tok_bs_

private

Definition at line 175 of file IsolatedTracksNxN.h.

Referenced by analyze(), and IsolatedTracksNxN().

edm::EDGetTokenT<edm::PCaloHitContainer> IsolatedTracksNxN::tok_caloEB_

private

Definition at line 181 of file IsolatedTracksNxN.h.

Referenced by analyze(), and IsolatedTracksNxN().

edm::EDGetTokenT<edm::PCaloHitContainer> IsolatedTracksNxN::tok_caloEE_

private

Definition at line 182 of file IsolatedTracksNxN.h.

Referenced by analyze(), and IsolatedTracksNxN().

edm::EDGetTokenT<edm::PCaloHitContainer> IsolatedTracksNxN::tok_caloHH_

private

Definition at line 183 of file IsolatedTracksNxN.h.

Referenced by analyze(), and IsolatedTracksNxN().

edm::EDGetTokenT<EcalRecHitCollection> IsolatedTracksNxN::tok_EB_

private

Definition at line 177 of file IsolatedTracksNxN.h.

Referenced by analyze(), and IsolatedTracksNxN().

edm::EDGetTokenT<EcalRecHitCollection> IsolatedTracksNxN::tok_EE_

private

Definition at line 178 of file IsolatedTracksNxN.h.

Referenced by analyze(), and IsolatedTracksNxN().

edm::EDGetTokenT<reco::TrackCollection> IsolatedTracksNxN::tok_genTrack_

private

Definition at line 173 of file IsolatedTracksNxN.h.

Referenced by analyze(), and IsolatedTracksNxN().

edm::EDGetTokenT<HBHERecHitCollection> IsolatedTracksNxN::tok_hbhe_

private

Definition at line 171 of file IsolatedTracksNxN.h.

Referenced by analyze(), and IsolatedTracksNxN().

edm::EDGetTokenT<reco::CaloJetCollection> IsolatedTracksNxN::tok_jets_

private

Definition at line 170 of file IsolatedTracksNxN.h.

Referenced by analyze(), and IsolatedTracksNxN().

edm::EDGetTokenT<l1extra::L1JetParticleCollection> IsolatedTracksNxN::tok_L1extCenJet_

private

Definition at line 163 of file IsolatedTracksNxN.h.

Referenced by analyze(), and IsolatedTracksNxN().

edm::EDGetTokenT<l1extra::L1JetParticleCollection> IsolatedTracksNxN::tok_L1extFwdJet_

private

Definition at line 164 of file IsolatedTracksNxN.h.

Referenced by analyze(), and IsolatedTracksNxN().

edm::EDGetTokenT<l1extra::L1EmParticleCollection> IsolatedTracksNxN::tok_L1extIsoEm_

private

Definition at line 167 of file IsolatedTracksNxN.h.

Referenced by analyze(), and IsolatedTracksNxN().

edm::EDGetTokenT<l1extra::L1MuonParticleCollection> IsolatedTracksNxN::tok_L1extMu_

private

Definition at line 166 of file IsolatedTracksNxN.h.

Referenced by analyze(), and IsolatedTracksNxN().

edm::EDGetTokenT<l1extra::L1EmParticleCollection> IsolatedTracksNxN::tok_L1extNoIsoEm_

private

Definition at line 168 of file IsolatedTracksNxN.h.

Referenced by analyze(), and IsolatedTracksNxN().

edm::EDGetTokenT<l1extra::L1JetParticleCollection> IsolatedTracksNxN::tok_L1extTauJet_

private

Definition at line 162 of file IsolatedTracksNxN.h.

Referenced by analyze(), and IsolatedTracksNxN().

edm::EDGetTokenT<reco::VertexCollection> IsolatedTracksNxN::tok_recVtx_

private

Definition at line 174 of file IsolatedTracksNxN.h.

Referenced by analyze(), and IsolatedTracksNxN().

edm::EDGetTokenT<edm::SimTrackContainer> IsolatedTracksNxN::tok_simTk_

private

Definition at line 179 of file IsolatedTracksNxN.h.

Referenced by analyze(), and IsolatedTracksNxN().

edm::EDGetTokenT<edm::SimVertexContainer> IsolatedTracksNxN::tok_simVtx_

private

Definition at line 180 of file IsolatedTracksNxN.h.

Referenced by analyze(), and IsolatedTracksNxN().

TTree* IsolatedTracksNxN::tree

private

Definition at line 217 of file IsolatedTracksNxN.h.

Referenced by svgfig.SVG::__str__(), analyze(), BookHistograms(), and python.cmstools.EventTree::SetAlias().

bool IsolatedTracksNxN::writeAllTracks

private

Definition at line 140 of file IsolatedTracksNxN.h.

Referenced by analyze(), and IsolatedTracksNxN().

Public Member Functions

Private Member Functions

Private Attributes

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Additional Inherited Members

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