IsolatedGenParticles Class Reference

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

Inheritance diagram for IsolatedGenParticles:

Public Member Functions
	IsolatedGenParticles (const edm::ParameterSet &)
	~IsolatedGenParticles ()
Public Member Functions inherited from edm::EDAnalyzer
	EDAnalyzer ()
std::string	workerType () const
virtual	~EDAnalyzer ()
Public Member Functions inherited from edm::EDConsumerBase
	EDConsumerBase ()
ProductHolderIndex	indexFrom (EDGetToken, BranchType, TypeID const &) const
void	itemsMayGet (BranchType, std::vector< ProductHolderIndex > &) const
void	itemsToGet (BranchType, std::vector< ProductHolderIndex > &) const
void	labelsForToken (EDGetToken iToken, Labels &oLabels) const
void	updateLookup (BranchType iBranchType, ProductHolderIndexHelper const &)
virtual	~EDConsumerBase ()

Private Member Functions
virtual void	analyze (const edm::Event &, const edm::EventSetup &)
virtual void	beginJob ()
void	BookHistograms ()
void	clearTreeVectors ()
double	DeltaPhi (double v1, double v2)
double	DeltaR (double eta1, double phi1, double eta2, double phi2)
double	DeltaR2 (double eta1, double phi1, double eta2, double phi2)
virtual void	endJob ()
void	fillIsolatedTrack (math::XYZTLorentzVector &momVec, GlobalPoint &posECAL, int pdgId)
void	fillTrack (GlobalPoint &posVec, math::XYZTLorentzVector &momVec, GlobalPoint &posECAL, int pdgId, bool okECAL, bool accpet)
int	particleCode (int)

Private Attributes
double	a_charIsoR
double	a_coneR
bool	a_Isolation
double	a_mipR
double	a_neutIsoR
std::string	algoBitToName [nL1BitsMax]
const MagneticField *	bField
bool	debugL1Info_
int	debugTrks_
double	drLeadJetVeto_
double	etaMax
edm::Service< TFileService >	fs
double	genPartEtaBins [NEtaBins+1]
double	genPartPBins [NPBins+1]
std::string	genSrc_
TH1I *	h_L1AlgoNames
TH1I *	h_NEventProc
TH2D *	h_pEta [Particles]
bool	initL1
spr::genSimInfo	isoinfo11x11
spr::genSimInfo	isoinfo15x15
spr::genSimInfo	isoinfo1x1
spr::genSimInfo	isoinfo21x21
spr::genSimInfo	isoinfo25x25
spr::genSimInfo	isoinfo31x31
spr::genSimInfo	isoinfo3x3
spr::genSimInfo	isoinfo7x7
spr::genSimInfo	isoinfo9x9
spr::genSimInfo	isoinfoHC1x1
spr::genSimInfo	isoinfoHC3x3
spr::genSimInfo	isoinfoHC5x5
spr::genSimInfo	isoinfoHC7x7
spr::genSimInfo	isoinfoHCR
spr::genSimInfo	isoinfoIsoHCR
spr::genSimInfo	isoinfoIsoR
spr::genSimInfo	isoinfoR
edm::InputTag	L1extraCenJetSource_
edm::InputTag	L1extraFwdJetSource_
edm::InputTag	L1extraIsoEmSource_
edm::InputTag	L1extraMuonSource_
edm::InputTag	L1extraNonIsoEmSource_
edm::InputTag	L1extraTauJetSource_
edm::InputTag	L1GTObjectMapRcdSource_
edm::InputTag	L1GTReadoutRcdSource_
int	myverbose_
int	nEventProc
double	pCutIsolate
bool	printTrkHitPattern_
double	pSeed
double	ptMin
double	ptMinLeadJet_
std::vector< double > *	t_cHadronEne11x11
std::vector< double > *	t_cHadronEne11x11_1
std::vector< double > *	t_cHadronEne11x11_2
std::vector< double > *	t_cHadronEne11x11_3
std::vector< double > *	t_cHadronEne15x15
std::vector< double > *	t_cHadronEne15x15_1
std::vector< double > *	t_cHadronEne15x15_2
std::vector< double > *	t_cHadronEne15x15_3
std::vector< double > *	t_cHadronEne1x1
std::vector< double > *	t_cHadronEne1x1_1
std::vector< double > *	t_cHadronEne1x1_2
std::vector< double > *	t_cHadronEne1x1_3
std::vector< double > *	t_cHadronEne21x21
std::vector< double > *	t_cHadronEne21x21_1
std::vector< double > *	t_cHadronEne21x21_2
std::vector< double > *	t_cHadronEne21x21_3
std::vector< double > *	t_cHadronEne25x25
std::vector< double > *	t_cHadronEne25x25_1
std::vector< double > *	t_cHadronEne25x25_2
std::vector< double > *	t_cHadronEne25x25_3
std::vector< double > *	t_cHadronEne31x31
std::vector< double > *	t_cHadronEne31x31_1
std::vector< double > *	t_cHadronEne31x31_2
std::vector< double > *	t_cHadronEne31x31_3
std::vector< double > *	t_cHadronEne3x3
std::vector< double > *	t_cHadronEne3x3_1
std::vector< double > *	t_cHadronEne3x3_2
std::vector< double > *	t_cHadronEne3x3_3
std::vector< double > *	t_cHadronEne7x7
std::vector< double > *	t_cHadronEne7x7_1
std::vector< double > *	t_cHadronEne7x7_2
std::vector< double > *	t_cHadronEne7x7_3
std::vector< double > *	t_cHadronEne9x9
std::vector< double > *	t_cHadronEne9x9_1
std::vector< double > *	t_cHadronEne9x9_2
std::vector< double > *	t_cHadronEne9x9_3
std::vector< double > *	t_cHadronEneHC1x1
std::vector< double > *	t_cHadronEneHC1x1_1
std::vector< double > *	t_cHadronEneHC1x1_2
std::vector< double > *	t_cHadronEneHC1x1_3
std::vector< double > *	t_cHadronEneHC3x3
std::vector< double > *	t_cHadronEneHC3x3_1
std::vector< double > *	t_cHadronEneHC3x3_2
std::vector< double > *	t_cHadronEneHC3x3_3
std::vector< double > *	t_cHadronEneHC5x5
std::vector< double > *	t_cHadronEneHC5x5_1
std::vector< double > *	t_cHadronEneHC5x5_2
std::vector< double > *	t_cHadronEneHC5x5_3
std::vector< double > *	t_cHadronEneHC7x7
std::vector< double > *	t_cHadronEneHC7x7_1
std::vector< double > *	t_cHadronEneHC7x7_2
std::vector< double > *	t_cHadronEneHC7x7_3
std::vector< double > *	t_cHadronEneHCR
std::vector< double > *	t_cHadronEneHCR_1
std::vector< double > *	t_cHadronEneHCR_2
std::vector< double > *	t_cHadronEneHCR_3
std::vector< double > *	t_cHadronEneIsoHCR
std::vector< double > *	t_cHadronEneIsoHCR_1
std::vector< double > *	t_cHadronEneIsoHCR_2
std::vector< double > *	t_cHadronEneIsoHCR_3
std::vector< double > *	t_cHadronEneIsoR
std::vector< double > *	t_cHadronEneIsoR_1
std::vector< double > *	t_cHadronEneIsoR_2
std::vector< double > *	t_cHadronEneIsoR_3
std::vector< double > *	t_cHadronEneR
std::vector< double > *	t_cHadronEneR_1
std::vector< double > *	t_cHadronEneR_2
std::vector< double > *	t_cHadronEneR_3
std::vector< double > *	t_eleEne11x11
std::vector< double > *	t_eleEne15x15
std::vector< double > *	t_eleEne1x1
std::vector< double > *	t_eleEne21x21
std::vector< double > *	t_eleEne25x25
std::vector< double > *	t_eleEne31x31
std::vector< double > *	t_eleEne3x3
std::vector< double > *	t_eleEne7x7
std::vector< double > *	t_eleEne9x9
std::vector< double > *	t_eleEneHC1x1
std::vector< double > *	t_eleEneHC3x3
std::vector< double > *	t_eleEneHC5x5
std::vector< double > *	t_eleEneHC7x7
std::vector< double > *	t_eleEneHCR
std::vector< double > *	t_eleEneIsoHCR
std::vector< double > *	t_eleEneIsoR
std::vector< double > *	t_eleEneR
std::vector< double > *	t_isoTrkDEtaAll
std::vector< double > *	t_isoTrkDPhiAll
std::vector< double > *	t_isoTrkEne
std::vector< double > *	t_isoTrkEta
std::vector< double > *	t_isoTrkEtaAll
std::vector< double > *	t_isoTrkEtaEC
std::vector< double > *	t_isoTrkP
std::vector< double > *	t_isoTrkPAll
std::vector< double > *	t_isoTrkPdgId
std::vector< double > *	t_isoTrkPdgIdAll
std::vector< double > *	t_isoTrkPhi
std::vector< double > *	t_isoTrkPhiAll
std::vector< double > *	t_isoTrkPhiEC
std::vector< double > *	t_isoTrkPt
std::vector< double > *	t_isoTrkPtAll
std::vector< double > *	t_L1CenJetEta
std::vector< double > *	t_L1CenJetPhi
std::vector< double > *	t_L1CenJetPt
std::vector< int > *	t_L1Decision
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< double > *	t_L1TauJetEta
std::vector< double > *	t_L1TauJetPhi
std::vector< double > *	t_L1TauJetPt
std::vector< double > *	t_maxNearP11x11
std::vector< double > *	t_maxNearP15x15
std::vector< double > *	t_maxNearP1x1
std::vector< double > *	t_maxNearP21x21
std::vector< double > *	t_maxNearP25x25
std::vector< double > *	t_maxNearP31x31
std::vector< double > *	t_maxNearP3x3
std::vector< double > *	t_maxNearP7x7
std::vector< double > *	t_maxNearP9x9
std::vector< double > *	t_maxNearPHC1x1
std::vector< double > *	t_maxNearPHC3x3
std::vector< double > *	t_maxNearPHC5x5
std::vector< double > *	t_maxNearPHC7x7
std::vector< double > *	t_maxNearPHCR
std::vector< double > *	t_maxNearPIsoHCR
std::vector< double > *	t_maxNearPIsoR
std::vector< double > *	t_maxNearPR
std::vector< double > *	t_muEne11x11
std::vector< double > *	t_muEne15x15
std::vector< double > *	t_muEne1x1
std::vector< double > *	t_muEne21x21
std::vector< double > *	t_muEne25x25
std::vector< double > *	t_muEne31x31
std::vector< double > *	t_muEne3x3
std::vector< double > *	t_muEne7x7
std::vector< double > *	t_muEne9x9
std::vector< double > *	t_muEneHC1x1
std::vector< double > *	t_muEneHC3x3
std::vector< double > *	t_muEneHC5x5
std::vector< double > *	t_muEneHC7x7
std::vector< double > *	t_muEneHCR
std::vector< double > *	t_muEneIsoHCR
std::vector< double > *	t_muEneIsoR
std::vector< double > *	t_muEneR
std::vector< double > *	t_nHadronEne11x11
std::vector< double > *	t_nHadronEne15x15
std::vector< double > *	t_nHadronEne1x1
std::vector< double > *	t_nHadronEne21x21
std::vector< double > *	t_nHadronEne25x25
std::vector< double > *	t_nHadronEne31x31
std::vector< double > *	t_nHadronEne3x3
std::vector< double > *	t_nHadronEne7x7
std::vector< double > *	t_nHadronEne9x9
std::vector< double > *	t_nHadronEneHC1x1
std::vector< double > *	t_nHadronEneHC3x3
std::vector< double > *	t_nHadronEneHC5x5
std::vector< double > *	t_nHadronEneHC7x7
std::vector< double > *	t_nHadronEneHCR
std::vector< double > *	t_nHadronEneIsoHCR
std::vector< double > *	t_nHadronEneIsoR
std::vector< double > *	t_nHadronEneR
std::vector< double > *	t_photonEne11x11
std::vector< double > *	t_photonEne15x15
std::vector< double > *	t_photonEne1x1
std::vector< double > *	t_photonEne21x21
std::vector< double > *	t_photonEne25x25
std::vector< double > *	t_photonEne31x31
std::vector< double > *	t_photonEne3x3
std::vector< double > *	t_photonEne7x7
std::vector< double > *	t_photonEne9x9
std::vector< double > *	t_photonEneHC1x1
std::vector< double > *	t_photonEneHC3x3
std::vector< double > *	t_photonEneHC5x5
std::vector< double > *	t_photonEneHC7x7
std::vector< double > *	t_photonEneHCR
std::vector< double > *	t_photonEneIsoHCR
std::vector< double > *	t_photonEneIsoR
std::vector< double > *	t_photonEneR
TTree *	tree
bool	useHepMC
bool	useJetTrigger_
int	verbosity

Static Private Attributes
static const int	NEtaBins = 4
static const size_t	nL1BitsMax =128
static const int	NPBins = 3
static const int	Particles =12

Additional Inherited Members
Public Types inherited from edm::EDAnalyzer
typedef EDAnalyzer	ModuleType
typedef WorkerT< EDAnalyzer >	WorkerType
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::EDAnalyzer
void	callWhenNewProductsRegistered (std::function< void(BranchDescription const &)> const &func)
CurrentProcessingContext const *	currentContext () const
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 88 of file IsolatedGenParticles.h.

Constructor & Destructor Documentation

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

explicit

Definition at line 44 of file IsolatedGenParticles.cc.

References a_charIsoR, a_coneR, a_Isolation, a_mipR, a_neutIsoR, gather_cfg::cout, debugL1Info_, etaMax, funct::false, genSrc_, edm::ParameterSet::getParameter(), edm::ParameterSet::getUntrackedParameter(), L1extraCenJetSource_, L1extraFwdJetSource_, L1extraIsoEmSource_, L1extraMuonSource_, L1extraNonIsoEmSource_, L1extraTauJetSource_, L1GTObjectMapRcdSource_, L1GTReadoutRcdSource_, pCutIsolate, pSeed, ptMin, AlCaHLTBitMon_QueryRunRegistry::string, useHepMC, and verbosity.

                                                                         {

  genSrc_    = iConfig.getUntrackedParameter("GenSrc",std::string("generator"));
  useHepMC   = iConfig.getUntrackedParameter<bool>("UseHepMC", false );
  pSeed      = iConfig.getUntrackedParameter<double>("ChargedHadronSeedP", 1.0);
  ptMin      = iConfig.getUntrackedParameter<double>("PTMin", 1.0);
  etaMax     = iConfig.getUntrackedParameter<double>("MaxChargedHadronEta", 2.5);
  a_coneR    = iConfig.getUntrackedParameter<double>("ConeRadius",34.98);
  a_charIsoR = a_coneR + 28.9;
  a_neutIsoR = a_charIsoR*0.726;
  a_mipR     = iConfig.getUntrackedParameter<double>("ConeRadiusMIP",14.0);
  a_Isolation= iConfig.getUntrackedParameter<bool>("UseConeIsolation",false);
  pCutIsolate= iConfig.getUntrackedParameter<double>("PMaxIsolation",20.0);
  verbosity  = iConfig.getUntrackedParameter<int>("Verbosity", 0);

  debugL1Info_           = iConfig.getUntrackedParameter<bool>( "DebugL1Info", false );
  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");

  if (!strcmp("Dummy", genSrc_.c_str())) {
    if (useHepMC) genSrc_ = "generator";
    else          genSrc_ = "genParticles";
  }
  std::cout << "Generator Source " << genSrc_ << " Use HepMC " << useHepMC
        << " pSeed " << pSeed << " ptMin " << ptMin << " etaMax " << etaMax
        << "\n a_coneR " << a_coneR << " a_charIsoR " << a_charIsoR
        << " a_neutIsoR " << a_neutIsoR << " a_mipR " << a_mipR 
        << " debug " << verbosity << " debugL1Info " <<   debugL1Info_ << "\n"
        << " Isolation Flag " << a_Isolation << " with cut "
        << pCutIsolate << " GeV\n"
        << " L1extraTauJetSource_   " << L1extraTauJetSource_ 
        << " L1extraCenJetSource_   " << L1extraCenJetSource_ 
        << " L1extraFwdJetSource_   " << L1extraFwdJetSource_   
        << " L1extraMuonSource_     " << L1extraMuonSource_   
        << " L1extraIsoEmSource_    " << L1extraIsoEmSource_    
        << " L1extraNonIsoEmSource_ " << L1extraNonIsoEmSource_
        << " L1GTReadoutRcdSource_  " << L1GTReadoutRcdSource_  
        << " L1GTObjectMapRcdSource_" << L1GTObjectMapRcdSource_ 
        << std::endl;
}

IsolatedGenParticles::~IsolatedGenParticles

(

)

Definition at line 91 of file IsolatedGenParticles.cc.

                                            {

}

Member Function Documentation

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

privatevirtual

Implements edm::EDAnalyzer.

Definition at line 95 of file IsolatedGenParticles.cc.

References a_charIsoR, a_coneR, a_Isolation, a_mipR, a_neutIsoR, abs, accept(), algoBitToName, bField, DeDxDiscriminatorTools::charge(), clearTreeVectors(), gather_cfg::cout, debugL1Info_, spr::eGenSimInfo(), reco::tau::disc::Eta(), eta(), etaMax, edm::EventID::event(), fillIsolatedTrack(), fillTrack(), genParticleCandidates2GenParticles_cfi::genParticles, genSrc_, edm::EventSetup::get(), edm::Event::getByLabel(), edm::EventSetup::getData(), h_L1AlgoNames, h_NEventProc, h_pEta, spr::hGenSimInfo(), edm::EventBase::id(), initL1, isoinfo11x11, isoinfo15x15, isoinfo1x1, isoinfo21x21, isoinfo25x25, isoinfo31x31, isoinfo3x3, isoinfo7x7, isoinfo9x9, isoinfoHC1x1, isoinfoHC3x3, isoinfoHC5x5, isoinfoHC7x7, isoinfoHCR, isoinfoIsoHCR, isoinfoIsoR, isoinfoR, edm::HandleBase::isValid(), L1extraCenJetSource_, L1extraFwdJetSource_, L1extraIsoEmSource_, L1extraMuonSource_, L1extraNonIsoEmSource_, L1extraTauJetSource_, L1GTObjectMapRcdSource_, L1GTReadoutRcdSource_, spr::genSimInfo::maxNearP, nEventProc, convertSQLiteXML::ok, AlCaHLTBitMon_ParallelJobs::p, particleCode(), pCutIsolate, benchmark_cfg::pdgId, createTree::pp, edm::ESHandle< class >::product(), spr::propagateCALO(), ptMin, dttmaxenums::R, t_L1CenJetEta, t_L1CenJetPhi, t_L1CenJetPt, t_L1Decision, t_L1FwdJetEta, t_L1FwdJetPhi, t_L1FwdJetPt, t_L1IsoEMEta, t_L1IsoEMPhi, t_L1IsoEMPt, t_L1MuonEta, t_L1MuonPhi, t_L1MuonPt, t_L1NonIsoEMEta, t_L1NonIsoEMPhi, t_L1NonIsoEMPt, t_L1TauJetEta, t_L1TauJetPhi, t_L1TauJetPt, tree, useHepMC, and verbosity.

                                                                                     {

  clearTreeVectors();

  nEventProc++;

  edm::ESHandle<MagneticField> bFieldH;
  iSetup.get<IdealMagneticFieldRecord>().get(bFieldH);
  bField = bFieldH.product();

  // get particle data table
  edm::ESHandle<ParticleDataTable> pdt;
  iSetup.getData(pdt);

  // get handle to HEPMCProduct
  edm::Handle<edm::HepMCProduct> hepmc;
  edm::Handle<reco::GenParticleCollection> genParticles;
  if (useHepMC) iEvent.getByLabel(genSrc_, hepmc);
  else          iEvent.getByLabel(genSrc_, genParticles);

  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();

  //===================== save L1 Trigger information =======================
  // get L1TriggerReadout records
  edm::Handle<L1GlobalTriggerReadoutRecord>   gtRecord;
  iEvent.getByLabel(L1GTReadoutRcdSource_,   gtRecord);
  
  edm::Handle<L1GlobalTriggerObjectMapRecord> gtOMRec;
  iEvent.getByLabel(L1GTObjectMapRcdSource_, gtOMRec);
  
  // sanity check on L1 Trigger Records
  if (!gtRecord.isValid()) {
    std::cout << "\nL1GlobalTriggerReadoutRecord with \n \nnot found"
      "\n  --> returning false by default!\n" << std::endl;
  }
  if (!gtOMRec.isValid()) {
    std::cout << "\nL1GlobalTriggerObjectMapRecord with \n \nnot found"
      "\n  --> returning false by default!\n" << std::endl;
  }

  // L1 decision word
  const DecisionWord dWord = gtRecord->decisionWord();  
  unsigned int numberTriggerBits= dWord.size();

  // just print the L1Bit number and AlgoName in first event
  if ( !initL1){
    initL1=true;
    std::cout << "\n  Number of Trigger bits " << numberTriggerBits << "\n\n";
    std::cout << "\tBit \t L1 Algorithm " << std::endl;

    // get ObjectMaps from ObjectMapRecord
    const std::vector<L1GlobalTriggerObjectMap>& objMapVec =  gtOMRec->gtObjectMap();
    for (std::vector<L1GlobalTriggerObjectMap>::const_iterator itMap = objMapVec.begin();
     itMap != objMapVec.end(); ++itMap) {

      // Get trigger bits
      int itrig = (*itMap).algoBitNumber();

      // Get trigger names
      algoBitToName[itrig] = (*itMap).algoName();

      std::cout  << "\t" << itrig << "\t" << algoBitToName[itrig] << std::endl;      

      // store the algoNames as bin labels of a histogram
      h_L1AlgoNames->GetXaxis()->SetBinLabel(itrig+1, algoBitToName[itrig].c_str());

    } // end of for loop    
  } // end of initL1

  // save L1 decision for each event 
  for (unsigned int iBit = 0; iBit < numberTriggerBits; ++iBit) {  
    bool accept = dWord[iBit];
    t_L1Decision->push_back(accept);
    // fill the trigger map
    if(debugL1Info_) std::cout << "Bit " << iBit << " " << algoBitToName[iBit] << " " << accept << std::endl;

    if(accept) h_L1AlgoNames->Fill(iBit);
  }

  //===================
  // L1Taus 
  edm::Handle<l1extra::L1JetParticleCollection> l1TauHandle;
  iEvent.getByLabel(L1extraTauJetSource_,l1TauHandle);
  l1extra::L1JetParticleCollection::const_iterator itr;
  for(itr = l1TauHandle->begin(); itr != l1TauHandle->end(); ++itr ) {
    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.getByLabel(L1extraCenJetSource_,l1CenJetHandle);
  for( itr = l1CenJetHandle->begin();  itr != l1CenJetHandle->end(); ++itr ) {
    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.getByLabel(L1extraFwdJetSource_,l1FwdJetHandle);
  for( itr = l1FwdJetHandle->begin();  itr != l1FwdJetHandle->end(); ++itr ) {
    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.getByLabel(L1extraIsoEmSource_, l1IsoEmHandle);
  for( itrEm = l1IsoEmHandle->begin();  itrEm != l1IsoEmHandle->end(); ++itrEm ) {
    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.getByLabel(L1extraNonIsoEmSource_, l1NonIsoEmHandle);
  for( itrEm = l1NonIsoEmHandle->begin();  itrEm != l1NonIsoEmHandle->end(); ++itrEm ) {
    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.getByLabel(L1extraMuonSource_, l1MuHandle);
  for( itrMu = l1MuHandle->begin();  itrMu != l1MuHandle->end(); ++itrMu ) {
    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;
    }
  }
  //=====================================================================
  
  GlobalPoint  posVec, posECAL;
  math::XYZTLorentzVector momVec;
  if (verbosity>0) std::cout << "event number " << iEvent.id().event() <<std::endl;
  if (useHepMC) {
    const HepMC::GenEvent *myGenEvent = hepmc->GetEvent();
    std::vector<spr::propagatedGenTrackID> trackIDs = spr::propagateCALO(myGenEvent, pdt, geo, bField, etaMax, false);
    
    for (unsigned int indx=0; indx<trackIDs.size(); ++indx) {
      int charge = trackIDs[indx].charge;
      HepMC::GenEvent::particle_const_iterator p = trackIDs[indx].trkItr;
      momVec = math::XYZTLorentzVector((*p)->momentum().px(), (*p)->momentum().py(), (*p)->momentum().pz(), (*p)->momentum().e());
      if (verbosity>1) std::cout << "trkIndx " << indx << " pdgid " << trackIDs[indx].pdgId << " charge " << charge <<  " momVec " << momVec << std::endl; 
      // only stable particles avoiding electrons and muons
      if (trackIDs[indx].ok && (std::abs(trackIDs[indx].pdgId)<11 ||
                std::abs(trackIDs[indx].pdgId)>=21)) {
    // consider particles within a phased space   
    if (momVec.Pt() > ptMin && std::abs(momVec.eta()) < etaMax) { 
      posVec  = GlobalPoint(0.1*(*p)->production_vertex()->position().x(), 
                0.1*(*p)->production_vertex()->position().y(), 
                0.1*(*p)->production_vertex()->position().z());
      posECAL = trackIDs[indx].pointECAL;
      fillTrack (posVec, momVec, posECAL, trackIDs[indx].pdgId, trackIDs[indx].okECAL, true);
      if (verbosity>1) std::cout << "posECAL " << posECAL << " okECAL " << trackIDs[indx].okECAL << "okHCAL " << trackIDs[indx].okHCAL << std::endl;
      if (trackIDs[indx].okECAL) {
        if ( std::abs(charge)>0 ) {
          spr::eGenSimInfo(trackIDs[indx].detIdECAL, p, trackIDs, geo, caloTopology, 0, 0, isoinfo1x1,   false);
          spr::eGenSimInfo(trackIDs[indx].detIdECAL, p, trackIDs, geo, caloTopology, 1, 1, isoinfo3x3,   false);
          spr::eGenSimInfo(trackIDs[indx].detIdECAL, p, trackIDs, geo, caloTopology, 3, 3, isoinfo7x7,   false);
          spr::eGenSimInfo(trackIDs[indx].detIdECAL, p, trackIDs, geo, caloTopology, 4, 4, isoinfo9x9,   false);
          spr::eGenSimInfo(trackIDs[indx].detIdECAL, p, trackIDs, geo, caloTopology, 5, 5, isoinfo11x11, false);
          spr::eGenSimInfo(trackIDs[indx].detIdECAL, p, trackIDs, geo, caloTopology, 7, 7, isoinfo15x15, false);
          spr::eGenSimInfo(trackIDs[indx].detIdECAL, p, trackIDs, geo, caloTopology,10,10, isoinfo21x21, false);
          spr::eGenSimInfo(trackIDs[indx].detIdECAL, p, trackIDs, geo, caloTopology,12,12, isoinfo25x25, false);
          spr::eGenSimInfo(trackIDs[indx].detIdECAL, p, trackIDs, geo, caloTopology,15,15, isoinfo31x31, false);
          spr::eGenSimInfo(trackIDs[indx].detIdECAL, p, trackIDs, geo, caloTopology, a_mipR, trackIDs[indx].directionECAL, isoinfoR, false);
          spr::eGenSimInfo(trackIDs[indx].detIdECAL, p, trackIDs, geo, caloTopology, a_neutIsoR, trackIDs[indx].directionECAL, isoinfoIsoR, false);
          if (trackIDs[indx].okHCAL) {
        spr::hGenSimInfo(trackIDs[indx].detIdHCAL, p, trackIDs, theHBHETopology, 0, 0, isoinfoHC1x1, false);
        spr::hGenSimInfo(trackIDs[indx].detIdHCAL, p, trackIDs, theHBHETopology, 1, 1, isoinfoHC3x3, false);
        spr::hGenSimInfo(trackIDs[indx].detIdHCAL, p, trackIDs, theHBHETopology, 2, 2, isoinfoHC5x5, false);
        spr::hGenSimInfo(trackIDs[indx].detIdHCAL, p, trackIDs, theHBHETopology, 3, 3, isoinfoHC7x7, false);
        spr::hGenSimInfo(trackIDs[indx].detIdHCAL, p, trackIDs, geo, theHBHETopology, a_coneR, trackIDs[indx].directionHCAL, isoinfoHCR, false);
        spr::hGenSimInfo(trackIDs[indx].detIdHCAL, p, trackIDs, geo, theHBHETopology, a_charIsoR, trackIDs[indx].directionHCAL, isoinfoIsoHCR, false);
          }

          bool saveTrack = true;
          if (a_Isolation) saveTrack = (isoinfoR.maxNearP < pCutIsolate);
          else             saveTrack = (isoinfo7x7.maxNearP < pCutIsolate);
          if (saveTrack) fillIsolatedTrack(momVec, posECAL, trackIDs[indx].pdgId);
        }
      }
    } else { // stabale particles within |eta|=2.5
      fillTrack (posVec, momVec, posECAL, 0, false, false);
    } 
      }
    }

    unsigned int indx;
    HepMC::GenEvent::particle_const_iterator p;
    for (p=myGenEvent->particles_begin(),indx=0; p!=myGenEvent->particles_end();
     ++p,++indx) {
      int pdgId  = ((*p)->pdg_id());
      int ix     = particleCode(pdgId);
      if (ix >= 0) {
    double  pp = (*p)->momentum().rho();
    double eta = (*p)->momentum().eta();
    h_pEta[ix]->Fill(pp,eta);
      }
    }
  } else {  // loop over gen particles
    std::vector<spr::propagatedGenParticleID> trackIDs = spr::propagateCALO(genParticles, pdt, geo, bField, etaMax, (verbosity>0));

    for (unsigned int indx=0; indx<trackIDs.size(); ++indx) {
      int charge = trackIDs[indx].charge;
      reco::GenParticleCollection::const_iterator p = trackIDs[indx].trkItr;
      
      momVec = math::XYZTLorentzVector(p->momentum().x(), p->momentum().y(), p->momentum().z(), p->energy());
      if (verbosity>1) std::cout << "trkIndx " << indx << " pdgid " << trackIDs[indx].pdgId << " charge " << charge <<  " momVec " << momVec << std::endl; 
      // only stable particles avoiding electrons and muons
      if (trackIDs[indx].ok && std::abs(trackIDs[indx].pdgId)>21) { 
    // consider particles within a phased space
    if (verbosity>1) std::cout << " pt " << momVec.Pt() << " eta " << momVec.eta() << std::endl;
    if (momVec.Pt() > ptMin && std::abs(momVec.eta()) < etaMax) { 
      posVec  = GlobalPoint(p->vertex().x(), p->vertex().y(), p->vertex().z());
      posECAL = trackIDs[indx].pointECAL;
      if (verbosity>0) std::cout << "posECAL " << posECAL << " okECAL " << trackIDs[indx].okECAL << "okHCAL " << trackIDs[indx].okHCAL << std::endl;
      fillTrack (posVec, momVec, posECAL, trackIDs[indx].pdgId, trackIDs[indx].okECAL, true);
      if (trackIDs[indx].okECAL) {
        if ( std::abs(charge)>0 ) {
          spr::eGenSimInfo(trackIDs[indx].detIdECAL, p, trackIDs, geo, caloTopology, 0, 0, isoinfo1x1,   verbosity>1);
          spr::eGenSimInfo(trackIDs[indx].detIdECAL, p, trackIDs, geo, caloTopology, 1, 1, isoinfo3x3,   verbosity>0);
          spr::eGenSimInfo(trackIDs[indx].detIdECAL, p, trackIDs, geo, caloTopology, 3, 3, isoinfo7x7,   verbosity>1);
          spr::eGenSimInfo(trackIDs[indx].detIdECAL, p, trackIDs, geo, caloTopology, 4, 4, isoinfo9x9,   verbosity>1);
          spr::eGenSimInfo(trackIDs[indx].detIdECAL, p, trackIDs, geo, caloTopology, 5, 5, isoinfo11x11, verbosity>1);
          spr::eGenSimInfo(trackIDs[indx].detIdECAL, p, trackIDs, geo, caloTopology, 7, 7, isoinfo15x15, verbosity>1);
          spr::eGenSimInfo(trackIDs[indx].detIdECAL, p, trackIDs, geo, caloTopology,10,10, isoinfo21x21, verbosity>1);
          spr::eGenSimInfo(trackIDs[indx].detIdECAL, p, trackIDs, geo, caloTopology,12,12, isoinfo25x25, verbosity>1);
          spr::eGenSimInfo(trackIDs[indx].detIdECAL, p, trackIDs, geo, caloTopology,15,15, isoinfo31x31, verbosity>1);
          spr::eGenSimInfo(trackIDs[indx].detIdECAL, p, trackIDs, geo, caloTopology, a_mipR, trackIDs[indx].directionECAL, isoinfoR, verbosity>1);
          spr::eGenSimInfo(trackIDs[indx].detIdECAL, p, trackIDs, geo, caloTopology, a_neutIsoR, trackIDs[indx].directionECAL, isoinfoIsoR, verbosity>1);
          if (trackIDs[indx].okHCAL) {
        spr::hGenSimInfo(trackIDs[indx].detIdHCAL, p, trackIDs, theHBHETopology, 0, 0, isoinfoHC1x1, verbosity>1);
        spr::hGenSimInfo(trackIDs[indx].detIdHCAL, p, trackIDs, theHBHETopology, 1, 1, isoinfoHC3x3, verbosity>1);
        spr::hGenSimInfo(trackIDs[indx].detIdHCAL, p, trackIDs, theHBHETopology, 2, 2, isoinfoHC5x5, verbosity>1);
        spr::hGenSimInfo(trackIDs[indx].detIdHCAL, p, trackIDs, theHBHETopology, 3, 3, isoinfoHC7x7, verbosity>1);
        spr::hGenSimInfo(trackIDs[indx].detIdHCAL, p, trackIDs, geo, theHBHETopology, a_coneR, trackIDs[indx].directionHCAL, isoinfoHCR, verbosity>1);
        spr::hGenSimInfo(trackIDs[indx].detIdHCAL, p, trackIDs, geo, theHBHETopology, a_charIsoR, trackIDs[indx].directionHCAL, isoinfoIsoHCR, verbosity>1);
          }

          bool saveTrack = true;
          if (a_Isolation) saveTrack = (isoinfoIsoR.maxNearP < pCutIsolate);
          else             saveTrack = (isoinfo7x7.maxNearP < pCutIsolate);
          if (saveTrack) fillIsolatedTrack(momVec, posECAL, trackIDs[indx].pdgId);
        }
      }
    } else { // stabale particles within |eta|=2.5
      fillTrack (posVec, momVec, posECAL, 0, false, false);
    } 
      }
    } // loop over gen particles

    unsigned int indx;
    reco::GenParticleCollection::const_iterator p;
    for (p=genParticles->begin(),indx=0; p!=genParticles->end(); ++p,++indx) {
      int pdgId  = (p->pdgId());
      int ix     = particleCode(pdgId);
      if (ix >= 0) {
    double  pp = (p->momentum()).R();
    double eta = (p->momentum()).Eta();
    h_pEta[ix]->Fill(pp,eta);
      }
    }

  } 

  //t_nEvtProc->push_back(nEventProc);
  h_NEventProc->SetBinContent(1,nEventProc);
  tree->Fill();
  
} 

void IsolatedGenParticles::beginJob ( void  )

privatevirtual

Reimplemented from edm::EDAnalyzer.

Definition at line 411 of file IsolatedGenParticles.cc.

References BookHistograms(), genPartEtaBins, genPartPBins, i, initL1, NEtaBins, nEventProc, and NPBins.

                                    {
  
  nEventProc=0;
  
  initL1 = false;

  double tempgen_TH[NPBins+1] = { 0.0,  5.0,  12.0, 300.0}; 
  for(int i=0; i<=NPBins; i++)  genPartPBins[i]  = tempgen_TH[i];
  
  double tempgen_Eta[NEtaBins+1] = {0.0, 0.5, 1.1, 1.7, 2.3};
  for(int i=0; i<=NEtaBins; i++) genPartEtaBins[i] = tempgen_Eta[i];
  
  BookHistograms();

}

void IsolatedGenParticles::BookHistograms ( )

private

Definition at line 661 of file IsolatedGenParticles.cc.

References constexpr, fs, h_L1AlgoNames, h_NEventProc, h_pEta, i, TFileDirectory::make(), TFileDirectory::mkdir(), mergeVDriftHistosByStation::name, Particles, t_cHadronEne11x11, t_cHadronEne11x11_1, t_cHadronEne11x11_2, t_cHadronEne11x11_3, t_cHadronEne15x15, t_cHadronEne15x15_1, t_cHadronEne15x15_2, t_cHadronEne15x15_3, t_cHadronEne1x1, t_cHadronEne1x1_1, t_cHadronEne1x1_2, t_cHadronEne1x1_3, t_cHadronEne21x21, t_cHadronEne21x21_1, t_cHadronEne21x21_2, t_cHadronEne21x21_3, t_cHadronEne25x25, t_cHadronEne25x25_1, t_cHadronEne25x25_2, t_cHadronEne25x25_3, t_cHadronEne31x31, t_cHadronEne31x31_1, t_cHadronEne31x31_2, t_cHadronEne31x31_3, t_cHadronEne3x3, t_cHadronEne3x3_1, t_cHadronEne3x3_2, t_cHadronEne3x3_3, t_cHadronEne7x7, t_cHadronEne7x7_1, t_cHadronEne7x7_2, t_cHadronEne7x7_3, t_cHadronEne9x9, t_cHadronEne9x9_1, t_cHadronEne9x9_2, t_cHadronEne9x9_3, t_cHadronEneHC1x1, t_cHadronEneHC1x1_1, t_cHadronEneHC1x1_2, t_cHadronEneHC1x1_3, t_cHadronEneHC3x3, t_cHadronEneHC3x3_1, t_cHadronEneHC3x3_2, t_cHadronEneHC3x3_3, t_cHadronEneHC5x5, t_cHadronEneHC5x5_1, t_cHadronEneHC5x5_2, t_cHadronEneHC5x5_3, t_cHadronEneHC7x7, t_cHadronEneHC7x7_1, t_cHadronEneHC7x7_2, t_cHadronEneHC7x7_3, t_cHadronEneHCR, t_cHadronEneHCR_1, t_cHadronEneHCR_2, t_cHadronEneHCR_3, t_cHadronEneIsoHCR, t_cHadronEneIsoHCR_1, t_cHadronEneIsoHCR_2, t_cHadronEneIsoHCR_3, t_cHadronEneIsoR, t_cHadronEneIsoR_1, t_cHadronEneIsoR_2, t_cHadronEneIsoR_3, t_cHadronEneR, t_cHadronEneR_1, t_cHadronEneR_2, t_cHadronEneR_3, t_eleEne11x11, t_eleEne15x15, t_eleEne1x1, t_eleEne21x21, t_eleEne25x25, t_eleEne31x31, t_eleEne3x3, t_eleEne7x7, t_eleEne9x9, t_eleEneHC1x1, t_eleEneHC3x3, t_eleEneHC5x5, t_eleEneHC7x7, t_eleEneHCR, t_eleEneIsoHCR, t_eleEneIsoR, t_eleEneR, t_isoTrkDEtaAll, t_isoTrkDPhiAll, t_isoTrkEne, t_isoTrkEta, t_isoTrkEtaAll, t_isoTrkEtaEC, t_isoTrkP, t_isoTrkPAll, t_isoTrkPdgId, t_isoTrkPdgIdAll, t_isoTrkPhi, t_isoTrkPhiAll, t_isoTrkPhiEC, t_isoTrkPt, t_isoTrkPtAll, 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_L1TauJetEta, t_L1TauJetPhi, t_L1TauJetPt, t_maxNearP11x11, t_maxNearP15x15, t_maxNearP1x1, t_maxNearP21x21, t_maxNearP25x25, t_maxNearP31x31, t_maxNearP3x3, t_maxNearP7x7, t_maxNearP9x9, t_maxNearPHC1x1, t_maxNearPHC3x3, t_maxNearPHC5x5, t_maxNearPHC7x7, t_maxNearPHCR, t_maxNearPIsoHCR, t_maxNearPIsoR, t_maxNearPR, t_muEne11x11, t_muEne15x15, t_muEne1x1, t_muEne21x21, t_muEne25x25, t_muEne31x31, t_muEne3x3, t_muEne7x7, t_muEne9x9, t_muEneHC1x1, t_muEneHC3x3, t_muEneHC5x5, t_muEneHC7x7, t_muEneHCR, t_muEneIsoHCR, t_muEneIsoR, t_muEneR, t_nHadronEne11x11, t_nHadronEne15x15, t_nHadronEne1x1, t_nHadronEne21x21, t_nHadronEne25x25, t_nHadronEne31x31, t_nHadronEne3x3, t_nHadronEne7x7, t_nHadronEne9x9, t_nHadronEneHC1x1, t_nHadronEneHC3x3, t_nHadronEneHC5x5, t_nHadronEneHC7x7, t_nHadronEneHCR, t_nHadronEneIsoHCR, t_nHadronEneIsoR, t_nHadronEneR, t_photonEne11x11, t_photonEne15x15, t_photonEne1x1, t_photonEne21x21, t_photonEne25x25, t_photonEne31x31, t_photonEne3x3, t_photonEne7x7, t_photonEne9x9, t_photonEneHC1x1, t_photonEneHC3x3, t_photonEneHC5x5, t_photonEneHC7x7, t_photonEneHCR, t_photonEneIsoHCR, t_photonEneIsoR, t_photonEneR, indexGen::title, and tree.

Referenced by beginJob().

                                         {

  //char hname[100], htit[100];

  h_NEventProc  = fs->make<TH1I>("h_NEventProc",  "h_NEventProc", 2, -0.5, 0.5);
  h_L1AlgoNames = fs->make<TH1I>("h_L1AlgoNames", "h_L1AlgoNames:Bin Labels", 128, -0.5, 127.5);  

  double pBin[] = {0.0, 2.0, 4.0, 6.0, 8.0, 10.0, 20.0, 30.0, 40.0, 50.0,
           60.0, 70.0, 80.0, 90.0, 100.0, 150.0, 200.0, 250.0,
           300.0, 350.0, 400.0, 450.0, 500.0, 550.0, 600.0,
           650.0, 700.0, 750.0, 800.0, 850.0, 900.0, 950.0,
           1000.0};
  constexpr double etaBin[] = {-3.0, -2.9, -2.8, -2.7, -2.6, -2.5, -2.4, -2.3,
                  -2.2, -2.1, -2.0, -1.9, -1.8, -1.7, -1.6, -1.5,
                  -1.4, -1.3, -1.2, -1.1, -1.0, -0.9, -0.8, -0.7,
                  -0.6, -0.5, -0.4, -0.3, -0.2, -0.1,  0.0,  0.1,
                   0.2,  0.3,  0.4,  0.5,  0.6,  0.7,  0.8,  0.9,
                   1.0,  1.1,  1.2,  1.3,  1.4,  1.5,  1.6,  1.7,
                   1.8,  1.9,  2.0,  2.1,  2.2,  2.3,  2.4,  2.5,
                   2.6,  2.7,  2.8,  2.9,  3.0};
  constexpr char const* particle[] = {"electron", "positron", "#gamma", "#pi^+",
                      "#pi^-", "K^+", "K^-", "p", "n", "pbar",
                      "nbar", "K^0_L"};
  TFileDirectory dir1     = fs->mkdir( "pEta" );
  char name[20], title[50];
  for (int i=0; i<Particles; ++i) {
    sprintf (name, "pEta%d", i);
    sprintf (title, "#eta vs momentum for %s", particle[i]);
    h_pEta[i] = dir1.make<TH2D>(name, title, (sizeof(pBin)/sizeof(double))-1, pBin, (sizeof(etaBin)/sizeof(double))-1, etaBin);
  }

  // build the tree
  tree = fs->make<TTree>("tree", "tree");

  t_isoTrkPAll        = new std::vector<double>();
  t_isoTrkPtAll       = new std::vector<double>();
  t_isoTrkPhiAll      = new std::vector<double>();
  t_isoTrkEtaAll      = new std::vector<double>();
  t_isoTrkDPhiAll     = new std::vector<double>();
  t_isoTrkDEtaAll     = new std::vector<double>();
  t_isoTrkPdgIdAll    = new std::vector<double>();

  t_isoTrkP           = new std::vector<double>();
  t_isoTrkPt          = new std::vector<double>();
  t_isoTrkEne         = new std::vector<double>();
  t_isoTrkEta         = new std::vector<double>();
  t_isoTrkPhi         = new std::vector<double>();
  t_isoTrkEtaEC       = new std::vector<double>();
  t_isoTrkPhiEC       = new std::vector<double>();
  t_isoTrkPdgId       = new std::vector<double>();
  
  t_maxNearP31x31     = new std::vector<double>();
  t_cHadronEne31x31   = new std::vector<double>();
  t_cHadronEne31x31_1 = new std::vector<double>();
  t_cHadronEne31x31_2 = new std::vector<double>();
  t_cHadronEne31x31_3 = new std::vector<double>();
  t_nHadronEne31x31   = new std::vector<double>();
  t_photonEne31x31    = new std::vector<double>();
  t_eleEne31x31       = new std::vector<double>();
  t_muEne31x31        = new std::vector<double>();

  t_maxNearP25x25     = new std::vector<double>();
  t_cHadronEne25x25   = new std::vector<double>();
  t_cHadronEne25x25_1 = new std::vector<double>();
  t_cHadronEne25x25_2 = new std::vector<double>();
  t_cHadronEne25x25_3 = new std::vector<double>();
  t_nHadronEne25x25   = new std::vector<double>();
  t_photonEne25x25    = new std::vector<double>();
  t_eleEne25x25       = new std::vector<double>();
  t_muEne25x25        = new std::vector<double>();

  t_maxNearP21x21     = new std::vector<double>();
  t_cHadronEne21x21   = new std::vector<double>();
  t_cHadronEne21x21_1 = new std::vector<double>();
  t_cHadronEne21x21_2 = new std::vector<double>();
  t_cHadronEne21x21_3 = new std::vector<double>();
  t_nHadronEne21x21   = new std::vector<double>();
  t_photonEne21x21    = new std::vector<double>();
  t_eleEne21x21       = new std::vector<double>();
  t_muEne21x21        = new std::vector<double>();

  t_maxNearP15x15     = new std::vector<double>();
  t_cHadronEne15x15   = new std::vector<double>();
  t_cHadronEne15x15_1 = new std::vector<double>();
  t_cHadronEne15x15_2 = new std::vector<double>();
  t_cHadronEne15x15_3 = new std::vector<double>();
  t_nHadronEne15x15   = new std::vector<double>();
  t_photonEne15x15    = new std::vector<double>();
  t_eleEne15x15       = new std::vector<double>();
  t_muEne15x15        = new std::vector<double>();

  t_maxNearP11x11     = new std::vector<double>();
  t_cHadronEne11x11   = new std::vector<double>();
  t_cHadronEne11x11_1 = new std::vector<double>();
  t_cHadronEne11x11_2 = new std::vector<double>();
  t_cHadronEne11x11_3 = new std::vector<double>();
  t_nHadronEne11x11   = new std::vector<double>();
  t_photonEne11x11    = new std::vector<double>();
  t_eleEne11x11       = new std::vector<double>();
  t_muEne11x11        = new std::vector<double>();

  t_maxNearP9x9       = new std::vector<double>();
  t_cHadronEne9x9     = new std::vector<double>();
  t_cHadronEne9x9_1   = new std::vector<double>();
  t_cHadronEne9x9_2   = new std::vector<double>();
  t_cHadronEne9x9_3   = new std::vector<double>();
  t_nHadronEne9x9     = new std::vector<double>();
  t_photonEne9x9      = new std::vector<double>();
  t_eleEne9x9         = new std::vector<double>();
  t_muEne9x9          = new std::vector<double>();

  t_maxNearP7x7       = new std::vector<double>();
  t_cHadronEne7x7     = new std::vector<double>();
  t_cHadronEne7x7_1   = new std::vector<double>();
  t_cHadronEne7x7_2   = new std::vector<double>();
  t_cHadronEne7x7_3   = new std::vector<double>();
  t_nHadronEne7x7     = new std::vector<double>();
  t_photonEne7x7      = new std::vector<double>();
  t_eleEne7x7         = new std::vector<double>();
  t_muEne7x7          = new std::vector<double>();

  t_maxNearP3x3       = new std::vector<double>();
  t_cHadronEne3x3     = new std::vector<double>();
  t_cHadronEne3x3_1   = new std::vector<double>();
  t_cHadronEne3x3_2   = new std::vector<double>();
  t_cHadronEne3x3_3   = new std::vector<double>();
  t_nHadronEne3x3     = new std::vector<double>();
  t_photonEne3x3      = new std::vector<double>();
  t_eleEne3x3         = new std::vector<double>();
  t_muEne3x3          = new std::vector<double>();

  t_maxNearP1x1       = new std::vector<double>();
  t_cHadronEne1x1     = new std::vector<double>();
  t_cHadronEne1x1_1   = new std::vector<double>();
  t_cHadronEne1x1_2   = new std::vector<double>();
  t_cHadronEne1x1_3   = new std::vector<double>();
  t_nHadronEne1x1     = new std::vector<double>();
  t_photonEne1x1      = new std::vector<double>();
  t_eleEne1x1         = new std::vector<double>();
  t_muEne1x1          = new std::vector<double>();

  t_maxNearPHC1x1       = new std::vector<double>();
  t_cHadronEneHC1x1     = new std::vector<double>();
  t_cHadronEneHC1x1_1   = new std::vector<double>();
  t_cHadronEneHC1x1_2   = new std::vector<double>();
  t_cHadronEneHC1x1_3   = new std::vector<double>();
  t_nHadronEneHC1x1     = new std::vector<double>();
  t_photonEneHC1x1      = new std::vector<double>();
  t_eleEneHC1x1         = new std::vector<double>();
  t_muEneHC1x1          = new std::vector<double>();

  t_maxNearPHC3x3       = new std::vector<double>();
  t_cHadronEneHC3x3     = new std::vector<double>();
  t_cHadronEneHC3x3_1   = new std::vector<double>();
  t_cHadronEneHC3x3_2   = new std::vector<double>();
  t_cHadronEneHC3x3_3   = new std::vector<double>();
  t_nHadronEneHC3x3     = new std::vector<double>();
  t_photonEneHC3x3      = new std::vector<double>();
  t_eleEneHC3x3         = new std::vector<double>();
  t_muEneHC3x3          = new std::vector<double>();

  t_maxNearPHC5x5       = new std::vector<double>();
  t_cHadronEneHC5x5     = new std::vector<double>();
  t_cHadronEneHC5x5_1   = new std::vector<double>();
  t_cHadronEneHC5x5_2   = new std::vector<double>();
  t_cHadronEneHC5x5_3   = new std::vector<double>();
  t_nHadronEneHC5x5     = new std::vector<double>();
  t_photonEneHC5x5      = new std::vector<double>();
  t_eleEneHC5x5         = new std::vector<double>();
  t_muEneHC5x5          = new std::vector<double>();

  t_maxNearPHC7x7       = new std::vector<double>();
  t_cHadronEneHC7x7     = new std::vector<double>();
  t_cHadronEneHC7x7_1   = new std::vector<double>();
  t_cHadronEneHC7x7_2   = new std::vector<double>();
  t_cHadronEneHC7x7_3   = new std::vector<double>();
  t_nHadronEneHC7x7     = new std::vector<double>();
  t_photonEneHC7x7      = new std::vector<double>();
  t_eleEneHC7x7         = new std::vector<double>();
  t_muEneHC7x7          = new std::vector<double>();

  t_maxNearPR           = new std::vector<double>();
  t_cHadronEneR         = new std::vector<double>();
  t_cHadronEneR_1       = new std::vector<double>();
  t_cHadronEneR_2       = new std::vector<double>();
  t_cHadronEneR_3       = new std::vector<double>();
  t_nHadronEneR         = new std::vector<double>();
  t_photonEneR          = new std::vector<double>();
  t_eleEneR             = new std::vector<double>();
  t_muEneR              = new std::vector<double>();

  t_maxNearPIsoR        = new std::vector<double>();
  t_cHadronEneIsoR      = new std::vector<double>();
  t_cHadronEneIsoR_1    = new std::vector<double>();
  t_cHadronEneIsoR_2    = new std::vector<double>();
  t_cHadronEneIsoR_3    = new std::vector<double>();
  t_nHadronEneIsoR      = new std::vector<double>();
  t_photonEneIsoR       = new std::vector<double>();
  t_eleEneIsoR          = new std::vector<double>();
  t_muEneIsoR           = new std::vector<double>();

  t_maxNearPHCR         = new std::vector<double>();
  t_cHadronEneHCR       = new std::vector<double>();
  t_cHadronEneHCR_1     = new std::vector<double>();
  t_cHadronEneHCR_2     = new std::vector<double>();
  t_cHadronEneHCR_3     = new std::vector<double>();
  t_nHadronEneHCR       = new std::vector<double>();
  t_photonEneHCR        = new std::vector<double>();
  t_eleEneHCR           = new std::vector<double>();
  t_muEneHCR            = new std::vector<double>();

  t_maxNearPIsoHCR      = new std::vector<double>();
  t_cHadronEneIsoHCR    = new std::vector<double>();
  t_cHadronEneIsoHCR_1  = new std::vector<double>();
  t_cHadronEneIsoHCR_2  = new std::vector<double>();
  t_cHadronEneIsoHCR_3  = new std::vector<double>();
  t_nHadronEneIsoHCR    = new std::vector<double>();
  t_photonEneIsoHCR     = new std::vector<double>();
  t_eleEneIsoHCR        = new std::vector<double>();
  t_muEneIsoHCR         = new std::vector<double>();

  //----- L1Trigger 
  t_L1Decision        = 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_nEvtProc",          "vector<int>",    &t_nEvtProc);

  tree->Branch("t_isoTrkPAll",        "vector<double>", &t_isoTrkPAll);
  tree->Branch("t_isoTrkPtAll",       "vector<double>", &t_isoTrkPtAll);
  tree->Branch("t_isoTrkPhiAll",      "vector<double>", &t_isoTrkPhiAll);
  tree->Branch("t_isoTrkEtaAll",      "vector<double>", &t_isoTrkEtaAll);
  tree->Branch("t_isoTrkDPhiAll",     "vector<double>", &t_isoTrkDPhiAll);
  tree->Branch("t_isoTrkDEtaAll",     "vector<double>", &t_isoTrkDEtaAll);
  tree->Branch("t_isoTrkPdgIdAll",    "vector<double>", &t_isoTrkPdgIdAll);

  tree->Branch("t_isoTrkP",           "vector<double>", &t_isoTrkP);
  tree->Branch("t_isoTrkPt",          "vector<double>", &t_isoTrkPt);
  tree->Branch("t_isoTrkEne",         "vector<double>", &t_isoTrkEne);
  tree->Branch("t_isoTrkEta",         "vector<double>", &t_isoTrkEta);
  tree->Branch("t_isoTrkPhi",         "vector<double>", &t_isoTrkPhi);
  tree->Branch("t_isoTrkEtaEC",       "vector<double>", &t_isoTrkEtaEC);
  tree->Branch("t_isoTrkPhiEC",       "vector<double>", &t_isoTrkPhiEC);
  tree->Branch("t_isoTrkPdgId",       "vector<double>", &t_isoTrkPdgId);

  tree->Branch("t_maxNearP31x31",     "vector<double>", &t_maxNearP31x31);
  tree->Branch("t_cHadronEne31x31",   "vector<double>", &t_cHadronEne31x31);
  tree->Branch("t_cHadronEne31x31_1", "vector<double>", &t_cHadronEne31x31_1);
  tree->Branch("t_cHadronEne31x31_2", "vector<double>", &t_cHadronEne31x31_2);
  tree->Branch("t_cHadronEne31x31_3", "vector<double>", &t_cHadronEne31x31_3);
  tree->Branch("t_nHadronEne31x31",   "vector<double>", &t_nHadronEne31x31);
  tree->Branch("t_photonEne31x31",    "vector<double>", &t_photonEne31x31);
  tree->Branch("t_eleEne31x31",       "vector<double>", &t_eleEne31x31);
  tree->Branch("t_muEne31x31",        "vector<double>", &t_muEne31x31);

  tree->Branch("t_maxNearP25x25",     "vector<double>", &t_maxNearP25x25);
  tree->Branch("t_cHadronEne25x25",   "vector<double>", &t_cHadronEne25x25);
  tree->Branch("t_cHadronEne25x25_1", "vector<double>", &t_cHadronEne25x25_1);
  tree->Branch("t_cHadronEne25x25_2", "vector<double>", &t_cHadronEne25x25_2);
  tree->Branch("t_cHadronEne25x25_3", "vector<double>", &t_cHadronEne25x25_3);
  tree->Branch("t_nHadronEne25x25",   "vector<double>", &t_nHadronEne25x25);
  tree->Branch("t_photonEne25x25",    "vector<double>", &t_photonEne25x25);
  tree->Branch("t_eleEne25x25",       "vector<double>", &t_eleEne25x25);
  tree->Branch("t_muEne25x25",        "vector<double>", &t_muEne25x25);
  
  tree->Branch("t_maxNearP21x21",     "vector<double>", &t_maxNearP21x21);
  tree->Branch("t_cHadronEne21x21",   "vector<double>", &t_cHadronEne21x21);
  tree->Branch("t_cHadronEne21x21_1", "vector<double>", &t_cHadronEne21x21_1);
  tree->Branch("t_cHadronEne21x21_2", "vector<double>", &t_cHadronEne21x21_2);
  tree->Branch("t_cHadronEne21x21_3", "vector<double>", &t_cHadronEne21x21_3);
  tree->Branch("t_nHadronEne21x21",   "vector<double>", &t_nHadronEne21x21);
  tree->Branch("t_photonEne21x21",    "vector<double>", &t_photonEne21x21);
  tree->Branch("t_eleEne21x21",       "vector<double>", &t_eleEne21x21);
  tree->Branch("t_muEne21x21",        "vector<double>", &t_muEne21x21);

  tree->Branch("t_maxNearP15x15",     "vector<double>", &t_maxNearP15x15);
  tree->Branch("t_cHadronEne15x15",   "vector<double>", &t_cHadronEne15x15);
  tree->Branch("t_cHadronEne15x15_1", "vector<double>", &t_cHadronEne15x15_1);
  tree->Branch("t_cHadronEne15x15_2", "vector<double>", &t_cHadronEne15x15_2);
  tree->Branch("t_cHadronEne15x15_3", "vector<double>", &t_cHadronEne15x15_3);
  tree->Branch("t_nHadronEne15x15",   "vector<double>", &t_nHadronEne15x15);
  tree->Branch("t_photonEne15x15",    "vector<double>", &t_photonEne15x15);
  tree->Branch("t_eleEne15x15",       "vector<double>", &t_eleEne15x15);
  tree->Branch("t_muEne15x15",        "vector<double>", &t_muEne15x15);

  tree->Branch("t_maxNearP11x11",     "vector<double>", &t_maxNearP11x11);
  tree->Branch("t_cHadronEne11x11",   "vector<double>", &t_cHadronEne11x11);
  tree->Branch("t_cHadronEne11x11_1", "vector<double>", &t_cHadronEne11x11_1);
  tree->Branch("t_cHadronEne11x11_2", "vector<double>", &t_cHadronEne11x11_2);
  tree->Branch("t_cHadronEne11x11_3", "vector<double>", &t_cHadronEne11x11_3);
  tree->Branch("t_nHadronEne11x11",   "vector<double>", &t_nHadronEne11x11);
  tree->Branch("t_photonEne11x11",    "vector<double>", &t_photonEne11x11);
  tree->Branch("t_eleEne11x11",       "vector<double>", &t_eleEne11x11);
  tree->Branch("t_muEne11x11",        "vector<double>", &t_muEne11x11);

  tree->Branch("t_maxNearP9x9",       "vector<double>", &t_maxNearP9x9);
  tree->Branch("t_cHadronEne9x9",     "vector<double>", &t_cHadronEne9x9);
  tree->Branch("t_cHadronEne9x9_1",   "vector<double>", &t_cHadronEne9x9_1);
  tree->Branch("t_cHadronEne9x9_2",   "vector<double>", &t_cHadronEne9x9_2);
  tree->Branch("t_cHadronEne9x9_3",   "vector<double>", &t_cHadronEne9x9_3);
  tree->Branch("t_nHadronEne9x9",     "vector<double>", &t_nHadronEne9x9);
  tree->Branch("t_photonEne9x9",      "vector<double>", &t_photonEne9x9);
  tree->Branch("t_eleEne9x9",         "vector<double>", &t_eleEne9x9);
  tree->Branch("t_muEne9x9",          "vector<double>", &t_muEne9x9);

  tree->Branch("t_maxNearP7x7",       "vector<double>", &t_maxNearP7x7);
  tree->Branch("t_cHadronEne7x7",     "vector<double>", &t_cHadronEne7x7);
  tree->Branch("t_cHadronEne7x7_1",   "vector<double>", &t_cHadronEne7x7_1);
  tree->Branch("t_cHadronEne7x7_2",   "vector<double>", &t_cHadronEne7x7_2);
  tree->Branch("t_cHadronEne7x7_3",   "vector<double>", &t_cHadronEne7x7_3);
  tree->Branch("t_nHadronEne7x7",     "vector<double>", &t_nHadronEne7x7);
  tree->Branch("t_photonEne7x7",      "vector<double>", &t_photonEne7x7);
  tree->Branch("t_eleEne7x7",         "vector<double>", &t_eleEne7x7);
  tree->Branch("t_muEne7x7",          "vector<double>", &t_muEne7x7);

  tree->Branch("t_maxNearP3x3",       "vector<double>", &t_maxNearP3x3);
  tree->Branch("t_cHadronEne3x3",     "vector<double>", &t_cHadronEne3x3);
  tree->Branch("t_cHadronEne3x3_1",   "vector<double>", &t_cHadronEne3x3_1);
  tree->Branch("t_cHadronEne3x3_2",   "vector<double>", &t_cHadronEne3x3_2);
  tree->Branch("t_cHadronEne3x3_3",   "vector<double>", &t_cHadronEne3x3_3);
  tree->Branch("t_nHadronEne3x3",     "vector<double>", &t_nHadronEne3x3);
  tree->Branch("t_photonEne3x3",      "vector<double>", &t_photonEne3x3);
  tree->Branch("t_eleEne3x3",         "vector<double>", &t_eleEne3x3);
  tree->Branch("t_muEne3x3",          "vector<double>", &t_muEne3x3);

  tree->Branch("t_maxNearP1x1",       "vector<double>", &t_maxNearP1x1);
  tree->Branch("t_cHadronEne1x1",     "vector<double>", &t_cHadronEne1x1);
  tree->Branch("t_cHadronEne1x1_1",   "vector<double>", &t_cHadronEne1x1_1);
  tree->Branch("t_cHadronEne1x1_2",   "vector<double>", &t_cHadronEne1x1_2);
  tree->Branch("t_cHadronEne1x1_3",   "vector<double>", &t_cHadronEne1x1_3);
  tree->Branch("t_nHadronEne1x1",     "vector<double>", &t_nHadronEne1x1);
  tree->Branch("t_photonEne1x1",      "vector<double>", &t_photonEne1x1);
  tree->Branch("t_eleEne1x1",         "vector<double>", &t_eleEne1x1);
  tree->Branch("t_muEne1x1",          "vector<double>", &t_muEne1x1);

  tree->Branch("t_maxNearPHC1x1",       "vector<double>", &t_maxNearPHC1x1);
  tree->Branch("t_cHadronEneHC1x1",     "vector<double>", &t_cHadronEneHC1x1);
  tree->Branch("t_cHadronEneHC1x1_1",   "vector<double>", &t_cHadronEneHC1x1_1);
  tree->Branch("t_cHadronEneHC1x1_2",   "vector<double>", &t_cHadronEneHC1x1_2);
  tree->Branch("t_cHadronEneHC1x1_3",   "vector<double>", &t_cHadronEneHC1x1_3);
  tree->Branch("t_nHadronEneHC1x1",     "vector<double>", &t_nHadronEneHC1x1);
  tree->Branch("t_photonEneHC1x1",      "vector<double>", &t_photonEneHC1x1);
  tree->Branch("t_eleEneHC1x1",         "vector<double>", &t_eleEneHC1x1);
  tree->Branch("t_muEneHC1x1",          "vector<double>", &t_muEneHC1x1);

  tree->Branch("t_maxNearPHC3x3",       "vector<double>", &t_maxNearPHC3x3);
  tree->Branch("t_cHadronEneHC3x3",     "vector<double>", &t_cHadronEneHC3x3);
  tree->Branch("t_cHadronEneHC3x3_1",   "vector<double>", &t_cHadronEneHC3x3_1);
  tree->Branch("t_cHadronEneHC3x3_2",   "vector<double>", &t_cHadronEneHC3x3_2);
  tree->Branch("t_cHadronEneHC3x3_3",   "vector<double>", &t_cHadronEneHC3x3_3);
  tree->Branch("t_nHadronEneHC3x3",     "vector<double>", &t_nHadronEneHC3x3);
  tree->Branch("t_photonEneHC3x3",      "vector<double>", &t_photonEneHC3x3);
  tree->Branch("t_eleEneHC3x3",         "vector<double>", &t_eleEneHC3x3);
  tree->Branch("t_muEneHC3x3",          "vector<double>", &t_muEneHC3x3);

  tree->Branch("t_maxNearPHC5x5",       "vector<double>", &t_maxNearPHC5x5);
  tree->Branch("t_cHadronEneHC5x5",     "vector<double>", &t_cHadronEneHC5x5);
  tree->Branch("t_cHadronEneHC5x5_1",   "vector<double>", &t_cHadronEneHC5x5_1);
  tree->Branch("t_cHadronEneHC5x5_2",   "vector<double>", &t_cHadronEneHC5x5_2);
  tree->Branch("t_cHadronEneHC5x5_3",   "vector<double>", &t_cHadronEneHC5x5_3);
  tree->Branch("t_nHadronEneHC5x5",     "vector<double>", &t_nHadronEneHC5x5);
  tree->Branch("t_photonEneHC5x5",      "vector<double>", &t_photonEneHC5x5);
  tree->Branch("t_eleEneHC5x5",         "vector<double>", &t_eleEneHC5x5);
  tree->Branch("t_muEneHC5x5",          "vector<double>", &t_muEneHC5x5);

  tree->Branch("t_maxNearPHC7x7",       "vector<double>", &t_maxNearPHC7x7);
  tree->Branch("t_cHadronEneHC7x7",     "vector<double>", &t_cHadronEneHC7x7);
  tree->Branch("t_cHadronEneHC7x7_1",   "vector<double>", &t_cHadronEneHC7x7_1);
  tree->Branch("t_cHadronEneHC7x7_2",   "vector<double>", &t_cHadronEneHC7x7_2);
  tree->Branch("t_cHadronEneHC7x7_3",   "vector<double>", &t_cHadronEneHC7x7_3);
  tree->Branch("t_nHadronEneHC7x7",     "vector<double>", &t_nHadronEneHC7x7);
  tree->Branch("t_photonEneHC7x7",      "vector<double>", &t_photonEneHC7x7);
  tree->Branch("t_eleEneHC7x7",         "vector<double>", &t_eleEneHC7x7);
  tree->Branch("t_muEneHC7x7",          "vector<double>", &t_muEneHC7x7);

  tree->Branch("t_maxNearPR",       "vector<double>", &t_maxNearPR);
  tree->Branch("t_cHadronEneR",     "vector<double>", &t_cHadronEneR);
  tree->Branch("t_cHadronEneR_1",   "vector<double>", &t_cHadronEneR_1);
  tree->Branch("t_cHadronEneR_2",   "vector<double>", &t_cHadronEneR_2);
  tree->Branch("t_cHadronEneR_3",   "vector<double>", &t_cHadronEneR_3);
  tree->Branch("t_nHadronEneR",     "vector<double>", &t_nHadronEneR);
  tree->Branch("t_photonEneR",      "vector<double>", &t_photonEneR);
  tree->Branch("t_eleEneR",         "vector<double>", &t_eleEneR);
  tree->Branch("t_muEneR",          "vector<double>", &t_muEneR);

  tree->Branch("t_maxNearPIsoR",       "vector<double>", &t_maxNearPIsoR);
  tree->Branch("t_cHadronEneIsoR",     "vector<double>", &t_cHadronEneIsoR);
  tree->Branch("t_cHadronEneIsoR_1",   "vector<double>", &t_cHadronEneIsoR_1);
  tree->Branch("t_cHadronEneIsoR_2",   "vector<double>", &t_cHadronEneIsoR_2);
  tree->Branch("t_cHadronEneIsoR_3",   "vector<double>", &t_cHadronEneIsoR_3);
  tree->Branch("t_nHadronEneIsoR",     "vector<double>", &t_nHadronEneIsoR);
  tree->Branch("t_photonEneIsoR",      "vector<double>", &t_photonEneIsoR);
  tree->Branch("t_eleEneIsoR",         "vector<double>", &t_eleEneIsoR);
  tree->Branch("t_muEneIsoR",          "vector<double>", &t_muEneIsoR);

  tree->Branch("t_maxNearPHCR",       "vector<double>", &t_maxNearPHCR);
  tree->Branch("t_cHadronEneHCR",     "vector<double>", &t_cHadronEneHCR);
  tree->Branch("t_cHadronEneHCR_1",   "vector<double>", &t_cHadronEneHCR_1);
  tree->Branch("t_cHadronEneHCR_2",   "vector<double>", &t_cHadronEneHCR_2);
  tree->Branch("t_cHadronEneHCR_3",   "vector<double>", &t_cHadronEneHCR_3);
  tree->Branch("t_nHadronEneHCR",     "vector<double>", &t_nHadronEneHCR);
  tree->Branch("t_photonEneHCR",      "vector<double>", &t_photonEneHCR);
  tree->Branch("t_eleEneHCR",         "vector<double>", &t_eleEneHCR);
  tree->Branch("t_muEneHCR",          "vector<double>", &t_muEneHCR);

  tree->Branch("t_maxNearPIsoHCR",       "vector<double>", &t_maxNearPIsoHCR);
  tree->Branch("t_cHadronEneIsoHCR",     "vector<double>", &t_cHadronEneIsoHCR);
  tree->Branch("t_cHadronEneIsoHCR_1",   "vector<double>", &t_cHadronEneIsoHCR_1);
  tree->Branch("t_cHadronEneIsoHCR_2",   "vector<double>", &t_cHadronEneIsoHCR_2);
  tree->Branch("t_cHadronEneIsoHCR_3",   "vector<double>", &t_cHadronEneIsoHCR_3);
  tree->Branch("t_nHadronEneIsoHCR",     "vector<double>", &t_nHadronEneIsoHCR);
  tree->Branch("t_photonEneIsoHCR",      "vector<double>", &t_photonEneIsoHCR);
  tree->Branch("t_eleEneIsoHCR",         "vector<double>", &t_eleEneIsoHCR);
  tree->Branch("t_muEneIsoHCR",          "vector<double>", &t_muEneIsoHCR);

  tree->Branch("t_L1Decision",        "vector<int>",    &t_L1Decision);
  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);
}

void IsolatedGenParticles::clearTreeVectors ( )

private

Definition at line 1120 of file IsolatedGenParticles.cc.

References t_cHadronEne11x11, t_cHadronEne11x11_1, t_cHadronEne11x11_2, t_cHadronEne11x11_3, t_cHadronEne15x15, t_cHadronEne15x15_1, t_cHadronEne15x15_2, t_cHadronEne15x15_3, t_cHadronEne1x1, t_cHadronEne1x1_1, t_cHadronEne1x1_2, t_cHadronEne1x1_3, t_cHadronEne21x21, t_cHadronEne21x21_1, t_cHadronEne21x21_2, t_cHadronEne21x21_3, t_cHadronEne25x25, t_cHadronEne25x25_1, t_cHadronEne25x25_2, t_cHadronEne25x25_3, t_cHadronEne31x31, t_cHadronEne31x31_1, t_cHadronEne31x31_2, t_cHadronEne31x31_3, t_cHadronEne3x3, t_cHadronEne3x3_1, t_cHadronEne3x3_2, t_cHadronEne3x3_3, t_cHadronEne7x7, t_cHadronEne7x7_1, t_cHadronEne7x7_2, t_cHadronEne7x7_3, t_cHadronEne9x9, t_cHadronEne9x9_1, t_cHadronEne9x9_2, t_cHadronEne9x9_3, t_cHadronEneHC1x1, t_cHadronEneHC1x1_1, t_cHadronEneHC1x1_2, t_cHadronEneHC1x1_3, t_cHadronEneHC3x3, t_cHadronEneHC3x3_1, t_cHadronEneHC3x3_2, t_cHadronEneHC3x3_3, t_cHadronEneHC5x5, t_cHadronEneHC5x5_1, t_cHadronEneHC5x5_2, t_cHadronEneHC5x5_3, t_cHadronEneHC7x7, t_cHadronEneHC7x7_1, t_cHadronEneHC7x7_2, t_cHadronEneHC7x7_3, t_cHadronEneHCR, t_cHadronEneHCR_1, t_cHadronEneHCR_2, t_cHadronEneHCR_3, t_cHadronEneIsoHCR, t_cHadronEneIsoHCR_1, t_cHadronEneIsoHCR_2, t_cHadronEneIsoHCR_3, t_cHadronEneIsoR, t_cHadronEneIsoR_1, t_cHadronEneIsoR_2, t_cHadronEneIsoR_3, t_cHadronEneR, t_cHadronEneR_1, t_cHadronEneR_2, t_cHadronEneR_3, t_eleEne11x11, t_eleEne15x15, t_eleEne1x1, t_eleEne21x21, t_eleEne25x25, t_eleEne31x31, t_eleEne3x3, t_eleEne7x7, t_eleEne9x9, t_eleEneHC1x1, t_eleEneHC3x3, t_eleEneHC5x5, t_eleEneHC7x7, t_eleEneHCR, t_eleEneIsoHCR, t_eleEneIsoR, t_eleEneR, t_isoTrkDEtaAll, t_isoTrkDPhiAll, t_isoTrkEne, t_isoTrkEta, t_isoTrkEtaAll, t_isoTrkEtaEC, t_isoTrkP, t_isoTrkPAll, t_isoTrkPdgId, t_isoTrkPdgIdAll, t_isoTrkPhi, t_isoTrkPhiAll, t_isoTrkPhiEC, t_isoTrkPt, t_isoTrkPtAll, 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_L1TauJetEta, t_L1TauJetPhi, t_L1TauJetPt, t_maxNearP11x11, t_maxNearP15x15, t_maxNearP1x1, t_maxNearP21x21, t_maxNearP25x25, t_maxNearP31x31, t_maxNearP3x3, t_maxNearP7x7, t_maxNearP9x9, t_maxNearPHC1x1, t_maxNearPHC3x3, t_maxNearPHC5x5, t_maxNearPHC7x7, t_maxNearPHCR, t_maxNearPIsoHCR, t_maxNearPIsoR, t_maxNearPR, t_muEne11x11, t_muEne15x15, t_muEne1x1, t_muEne21x21, t_muEne25x25, t_muEne31x31, t_muEne3x3, t_muEne7x7, t_muEne9x9, t_muEneHC1x1, t_muEneHC3x3, t_muEneHC5x5, t_muEneHC7x7, t_muEneHCR, t_muEneIsoHCR, t_muEneIsoR, t_muEneR, t_nHadronEne11x11, t_nHadronEne15x15, t_nHadronEne1x1, t_nHadronEne21x21, t_nHadronEne25x25, t_nHadronEne31x31, t_nHadronEne3x3, t_nHadronEne7x7, t_nHadronEne9x9, t_nHadronEneHC1x1, t_nHadronEneHC3x3, t_nHadronEneHC5x5, t_nHadronEneHC7x7, t_nHadronEneHCR, t_nHadronEneIsoHCR, t_nHadronEneIsoR, t_nHadronEneR, t_photonEne11x11, t_photonEne15x15, t_photonEne1x1, t_photonEne21x21, t_photonEne25x25, t_photonEne31x31, t_photonEne3x3, t_photonEne7x7, t_photonEne9x9, t_photonEneHC1x1, t_photonEneHC3x3, t_photonEneHC5x5, t_photonEneHC7x7, t_photonEneHCR, t_photonEneIsoHCR, t_photonEneIsoR, and t_photonEneR.

Referenced by analyze().

                                            {
  //  t_maxNearP31x31->clear();
  
  //t_nEvtProc          ->clear();

  t_isoTrkPAll        ->clear();
  t_isoTrkPtAll       ->clear();
  t_isoTrkPhiAll      ->clear();
  t_isoTrkEtaAll      ->clear();
  t_isoTrkDPhiAll     ->clear();
  t_isoTrkDEtaAll     ->clear();
  t_isoTrkPdgIdAll    ->clear();

  t_isoTrkP           ->clear();
  t_isoTrkPt          ->clear();
  t_isoTrkEne         ->clear();
  t_isoTrkEta         ->clear();
  t_isoTrkPhi         ->clear();
  t_isoTrkEtaEC       ->clear();
  t_isoTrkPhiEC       ->clear();
  t_isoTrkPdgId       ->clear();

  t_maxNearP31x31     ->clear();
  t_cHadronEne31x31   ->clear();
  t_cHadronEne31x31_1 ->clear();
  t_cHadronEne31x31_2 ->clear();
  t_cHadronEne31x31_3 ->clear();
  t_nHadronEne31x31   ->clear();
  t_photonEne31x31    ->clear();
  t_eleEne31x31       ->clear();
  t_muEne31x31        ->clear();

  t_maxNearP25x25     ->clear();
  t_cHadronEne25x25   ->clear();
  t_cHadronEne25x25_1 ->clear();
  t_cHadronEne25x25_2 ->clear();
  t_cHadronEne25x25_3 ->clear();
  t_nHadronEne25x25   ->clear();
  t_photonEne25x25    ->clear();
  t_eleEne25x25       ->clear();
  t_muEne25x25        ->clear();

  t_maxNearP21x21     ->clear();
  t_cHadronEne21x21   ->clear();
  t_cHadronEne21x21_1 ->clear();
  t_cHadronEne21x21_2 ->clear();
  t_cHadronEne21x21_3 ->clear();
  t_nHadronEne21x21   ->clear();
  t_photonEne21x21    ->clear();
  t_eleEne21x21       ->clear();
  t_muEne21x21        ->clear();

  t_maxNearP15x15     ->clear();
  t_cHadronEne15x15   ->clear();
  t_cHadronEne15x15_1 ->clear();
  t_cHadronEne15x15_2 ->clear();
  t_cHadronEne15x15_3 ->clear();
  t_nHadronEne15x15   ->clear();
  t_photonEne15x15    ->clear();
  t_eleEne15x15       ->clear();
  t_muEne15x15        ->clear();

  t_maxNearP11x11     ->clear();
  t_cHadronEne11x11   ->clear();
  t_cHadronEne11x11_1 ->clear();
  t_cHadronEne11x11_2 ->clear();
  t_cHadronEne11x11_3 ->clear();
  t_nHadronEne11x11   ->clear();
  t_photonEne11x11    ->clear();
  t_eleEne11x11       ->clear();
  t_muEne11x11        ->clear();

  t_maxNearP9x9       ->clear();
  t_cHadronEne9x9     ->clear();
  t_cHadronEne9x9_1   ->clear();
  t_cHadronEne9x9_2   ->clear();
  t_cHadronEne9x9_3   ->clear();
  t_nHadronEne9x9     ->clear();
  t_photonEne9x9      ->clear();
  t_eleEne9x9         ->clear();
  t_muEne9x9          ->clear();

  t_maxNearP7x7       ->clear();
  t_cHadronEne7x7     ->clear();
  t_cHadronEne7x7_1   ->clear();
  t_cHadronEne7x7_2   ->clear();
  t_cHadronEne7x7_3   ->clear();
  t_nHadronEne7x7     ->clear();
  t_photonEne7x7      ->clear();
  t_eleEne7x7         ->clear();
  t_muEne7x7          ->clear();

  t_maxNearP3x3       ->clear();
  t_cHadronEne3x3     ->clear();
  t_cHadronEne3x3_1   ->clear();
  t_cHadronEne3x3_2   ->clear();
  t_cHadronEne3x3_3   ->clear();
  t_nHadronEne3x3     ->clear();
  t_photonEne3x3      ->clear();
  t_eleEne3x3         ->clear();
  t_muEne3x3          ->clear();

  t_maxNearP1x1       ->clear();
  t_cHadronEne1x1     ->clear();
  t_cHadronEne1x1_1   ->clear();
  t_cHadronEne1x1_2   ->clear();
  t_cHadronEne1x1_3   ->clear();
  t_nHadronEne1x1     ->clear();
  t_photonEne1x1      ->clear();
  t_eleEne1x1         ->clear();
  t_muEne1x1          ->clear();

  t_maxNearPHC1x1       ->clear();
  t_cHadronEneHC1x1     ->clear();
  t_cHadronEneHC1x1_1   ->clear();
  t_cHadronEneHC1x1_2   ->clear();
  t_cHadronEneHC1x1_3   ->clear();
  t_nHadronEneHC1x1     ->clear();
  t_photonEneHC1x1      ->clear();
  t_eleEneHC1x1         ->clear();
  t_muEneHC1x1          ->clear();

  t_maxNearPHC3x3       ->clear();
  t_cHadronEneHC3x3     ->clear();
  t_cHadronEneHC3x3_1   ->clear();
  t_cHadronEneHC3x3_2   ->clear();
  t_cHadronEneHC3x3_3   ->clear();
  t_nHadronEneHC3x3     ->clear();
  t_photonEneHC3x3      ->clear();
  t_eleEneHC3x3         ->clear();
  t_muEneHC3x3          ->clear();

  t_maxNearPHC5x5       ->clear();
  t_cHadronEneHC5x5     ->clear();
  t_cHadronEneHC5x5_1   ->clear();
  t_cHadronEneHC5x5_2   ->clear();
  t_cHadronEneHC5x5_3   ->clear();
  t_nHadronEneHC5x5     ->clear();
  t_photonEneHC5x5      ->clear();
  t_eleEneHC5x5         ->clear();
  t_muEneHC5x5          ->clear();

  t_maxNearPHC7x7       ->clear();
  t_cHadronEneHC7x7     ->clear();
  t_cHadronEneHC7x7_1   ->clear();
  t_cHadronEneHC7x7_2   ->clear();
  t_cHadronEneHC7x7_3   ->clear();
  t_nHadronEneHC7x7     ->clear();
  t_photonEneHC7x7      ->clear();
  t_eleEneHC7x7         ->clear();
  t_muEneHC7x7          ->clear();

  t_maxNearPR           ->clear();
  t_cHadronEneR         ->clear();
  t_cHadronEneR_1       ->clear();
  t_cHadronEneR_2       ->clear();
  t_cHadronEneR_3       ->clear();
  t_nHadronEneR         ->clear();
  t_photonEneR          ->clear();
  t_eleEneR             ->clear();
  t_muEneR              ->clear();

  t_maxNearPIsoR        ->clear();
  t_cHadronEneIsoR      ->clear();
  t_cHadronEneIsoR_1    ->clear();
  t_cHadronEneIsoR_2    ->clear();
  t_cHadronEneIsoR_3    ->clear();
  t_nHadronEneIsoR      ->clear();
  t_photonEneIsoR       ->clear();
  t_eleEneIsoR          ->clear();
  t_muEneIsoR           ->clear();

  t_maxNearPHCR         ->clear();
  t_cHadronEneHCR       ->clear();
  t_cHadronEneHCR_1     ->clear();
  t_cHadronEneHCR_2     ->clear();
  t_cHadronEneHCR_3     ->clear();
  t_nHadronEneHCR       ->clear();
  t_photonEneHCR        ->clear();
  t_eleEneHCR           ->clear();
  t_muEneHCR            ->clear();

  t_maxNearPIsoHCR      ->clear();
  t_cHadronEneIsoHCR    ->clear();
  t_cHadronEneIsoHCR_1  ->clear();
  t_cHadronEneIsoHCR_2  ->clear();
  t_cHadronEneIsoHCR_3  ->clear();
  t_nHadronEneIsoHCR    ->clear();
  t_photonEneIsoHCR     ->clear();
  t_eleEneIsoHCR        ->clear();
  t_muEneIsoHCR         ->clear();

  t_L1Decision        ->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();
}

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

private

Definition at line 430 of file IsolatedGenParticles.cc.

References abs, corr, diffTreeTool::diff, and pi.

Referenced by DeltaR(), DeltaR2(), and fillTrack().

                                                          {
  // 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 IsolatedGenParticles::DeltaR ( double  eta1, double  phi1, double  eta2, double  phi2  )

private

Definition at line 442 of file IsolatedGenParticles.cc.

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

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

double IsolatedGenParticles::DeltaR2 ( double  eta1, double  phi1, double  eta2, double  phi2  )

private

Definition at line 448 of file IsolatedGenParticles.cc.

References DeltaPhi().

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

void IsolatedGenParticles::endJob ( void  )

privatevirtual

Reimplemented from edm::EDAnalyzer.

Definition at line 427 of file IsolatedGenParticles.cc.

                                  {
}

void IsolatedGenParticles::fillIsolatedTrack ( math::XYZTLorentzVector &  momVec, GlobalPoint &  posECAL, int  pdgId  )

private

Definition at line 479 of file IsolatedGenParticles.cc.

References spr::genSimInfo::cHadronEne, spr::genSimInfo::cHadronEne_, spr::genSimInfo::eleEne, PV3DBase< T, PVType, FrameType >::eta(), isoinfo11x11, isoinfo15x15, isoinfo1x1, isoinfo21x21, isoinfo25x25, isoinfo31x31, isoinfo3x3, isoinfo7x7, isoinfo9x9, isoinfoHC1x1, isoinfoHC3x3, isoinfoHC5x5, isoinfoHC7x7, isoinfoHCR, isoinfoIsoHCR, isoinfoIsoR, isoinfoR, spr::genSimInfo::maxNearP, spr::genSimInfo::muEne, spr::genSimInfo::nHadronEne, PV3DBase< T, PVType, FrameType >::phi(), spr::genSimInfo::photonEne, t_cHadronEne11x11, t_cHadronEne11x11_1, t_cHadronEne11x11_2, t_cHadronEne11x11_3, t_cHadronEne15x15, t_cHadronEne15x15_1, t_cHadronEne15x15_2, t_cHadronEne15x15_3, t_cHadronEne1x1, t_cHadronEne1x1_1, t_cHadronEne1x1_2, t_cHadronEne1x1_3, t_cHadronEne21x21, t_cHadronEne21x21_1, t_cHadronEne21x21_2, t_cHadronEne21x21_3, t_cHadronEne25x25, t_cHadronEne25x25_1, t_cHadronEne25x25_2, t_cHadronEne25x25_3, t_cHadronEne31x31, t_cHadronEne31x31_1, t_cHadronEne31x31_2, t_cHadronEne31x31_3, t_cHadronEne3x3, t_cHadronEne3x3_1, t_cHadronEne3x3_2, t_cHadronEne3x3_3, t_cHadronEne7x7, t_cHadronEne7x7_1, t_cHadronEne7x7_2, t_cHadronEne7x7_3, t_cHadronEne9x9, t_cHadronEne9x9_1, t_cHadronEne9x9_2, t_cHadronEne9x9_3, t_cHadronEneHC1x1, t_cHadronEneHC1x1_1, t_cHadronEneHC1x1_2, t_cHadronEneHC1x1_3, t_cHadronEneHC3x3, t_cHadronEneHC3x3_1, t_cHadronEneHC3x3_2, t_cHadronEneHC3x3_3, t_cHadronEneHC5x5, t_cHadronEneHC5x5_1, t_cHadronEneHC5x5_2, t_cHadronEneHC5x5_3, t_cHadronEneHC7x7, t_cHadronEneHC7x7_1, t_cHadronEneHC7x7_2, t_cHadronEneHC7x7_3, t_cHadronEneHCR, t_cHadronEneHCR_1, t_cHadronEneHCR_2, t_cHadronEneHCR_3, t_cHadronEneIsoHCR, t_cHadronEneIsoHCR_1, t_cHadronEneIsoHCR_2, t_cHadronEneIsoHCR_3, t_cHadronEneIsoR, t_cHadronEneIsoR_1, t_cHadronEneIsoR_2, t_cHadronEneIsoR_3, t_cHadronEneR, t_cHadronEneR_1, t_cHadronEneR_2, t_cHadronEneR_3, t_eleEne11x11, t_eleEne15x15, t_eleEne1x1, t_eleEne21x21, t_eleEne25x25, t_eleEne31x31, t_eleEne3x3, t_eleEne7x7, t_eleEne9x9, t_eleEneHC1x1, t_eleEneHC3x3, t_eleEneHC5x5, t_eleEneHC7x7, t_eleEneHCR, t_eleEneIsoHCR, t_eleEneIsoR, t_eleEneR, t_isoTrkEne, t_isoTrkEta, t_isoTrkEtaEC, t_isoTrkP, t_isoTrkPdgId, t_isoTrkPhi, t_isoTrkPhiEC, t_isoTrkPt, t_maxNearP11x11, t_maxNearP15x15, t_maxNearP1x1, t_maxNearP21x21, t_maxNearP25x25, t_maxNearP31x31, t_maxNearP3x3, t_maxNearP7x7, t_maxNearP9x9, t_maxNearPHC1x1, t_maxNearPHC3x3, t_maxNearPHC5x5, t_maxNearPHC7x7, t_maxNearPHCR, t_maxNearPIsoHCR, t_maxNearPIsoR, t_maxNearPR, t_muEne11x11, t_muEne15x15, t_muEne1x1, t_muEne21x21, t_muEne25x25, t_muEne31x31, t_muEne3x3, t_muEne7x7, t_muEne9x9, t_muEneHC1x1, t_muEneHC3x3, t_muEneHC5x5, t_muEneHC7x7, t_muEneHCR, t_muEneIsoHCR, t_muEneIsoR, t_muEneR, t_nHadronEne11x11, t_nHadronEne15x15, t_nHadronEne1x1, t_nHadronEne21x21, t_nHadronEne25x25, t_nHadronEne31x31, t_nHadronEne3x3, t_nHadronEne7x7, t_nHadronEne9x9, t_nHadronEneHC1x1, t_nHadronEneHC3x3, t_nHadronEneHC5x5, t_nHadronEneHC7x7, t_nHadronEneHCR, t_nHadronEneIsoHCR, t_nHadronEneIsoR, t_nHadronEneR, t_photonEne11x11, t_photonEne15x15, t_photonEne1x1, t_photonEne21x21, t_photonEne25x25, t_photonEne31x31, t_photonEne3x3, t_photonEne7x7, t_photonEne9x9, t_photonEneHC1x1, t_photonEneHC3x3, t_photonEneHC5x5, t_photonEneHC7x7, t_photonEneHCR, t_photonEneIsoHCR, t_photonEneIsoR, and t_photonEneR.

Referenced by analyze().

                                                                                                             {

  t_isoTrkP           ->push_back(momVec.P());
  t_isoTrkPt          ->push_back(momVec.Pt());
  t_isoTrkEne         ->push_back(momVec.E());
  t_isoTrkEta         ->push_back(momVec.eta());
  t_isoTrkPhi         ->push_back(momVec.phi());
  t_isoTrkEtaEC       ->push_back(posECAL.eta());
  t_isoTrkPhiEC       ->push_back(posECAL.phi());
  t_isoTrkPdgId       ->push_back(pdgId);
  
  t_maxNearP31x31     ->push_back(isoinfo31x31.maxNearP);
  t_cHadronEne31x31   ->push_back(isoinfo31x31.cHadronEne);
  t_cHadronEne31x31_1 ->push_back(isoinfo31x31.cHadronEne_[0]);
  t_cHadronEne31x31_2 ->push_back(isoinfo31x31.cHadronEne_[1]);
  t_cHadronEne31x31_3 ->push_back(isoinfo31x31.cHadronEne_[2]);
  t_nHadronEne31x31   ->push_back(isoinfo31x31.nHadronEne);
  t_photonEne31x31    ->push_back(isoinfo31x31.photonEne);
  t_eleEne31x31       ->push_back(isoinfo31x31.eleEne);
  t_muEne31x31        ->push_back(isoinfo31x31.muEne);
      
  t_maxNearP25x25     ->push_back(isoinfo25x25.maxNearP);
  t_cHadronEne25x25   ->push_back(isoinfo25x25.cHadronEne);
  t_cHadronEne25x25_1 ->push_back(isoinfo25x25.cHadronEne_[0]);
  t_cHadronEne25x25_2 ->push_back(isoinfo25x25.cHadronEne_[1]);
  t_cHadronEne25x25_3 ->push_back(isoinfo25x25.cHadronEne_[2]);
  t_nHadronEne25x25   ->push_back(isoinfo25x25.nHadronEne);
  t_photonEne25x25    ->push_back(isoinfo25x25.photonEne);
  t_eleEne25x25       ->push_back(isoinfo25x25.eleEne);
  t_muEne25x25        ->push_back(isoinfo25x25.muEne);
      
  t_maxNearP21x21     ->push_back(isoinfo21x21.maxNearP);
  t_cHadronEne21x21   ->push_back(isoinfo21x21.cHadronEne);
  t_cHadronEne21x21_1 ->push_back(isoinfo21x21.cHadronEne_[0]);
  t_cHadronEne21x21_2 ->push_back(isoinfo21x21.cHadronEne_[1]);
  t_cHadronEne21x21_3 ->push_back(isoinfo21x21.cHadronEne_[2]);
  t_nHadronEne21x21   ->push_back(isoinfo21x21.nHadronEne);
  t_photonEne21x21    ->push_back(isoinfo21x21.photonEne);
  t_eleEne21x21       ->push_back(isoinfo21x21.eleEne);
  t_muEne21x21        ->push_back(isoinfo21x21.muEne);
      
  t_maxNearP15x15     ->push_back(isoinfo15x15.maxNearP);
  t_cHadronEne15x15   ->push_back(isoinfo15x15.cHadronEne);
  t_cHadronEne15x15_1 ->push_back(isoinfo15x15.cHadronEne_[0]);
  t_cHadronEne15x15_2 ->push_back(isoinfo15x15.cHadronEne_[1]);
  t_cHadronEne15x15_3 ->push_back(isoinfo15x15.cHadronEne_[2]);
  t_nHadronEne15x15   ->push_back(isoinfo15x15.nHadronEne);
  t_photonEne15x15    ->push_back(isoinfo15x15.photonEne);
  t_eleEne15x15       ->push_back(isoinfo15x15.eleEne);
  t_muEne15x15        ->push_back(isoinfo15x15.muEne);
      
  t_maxNearP11x11     ->push_back(isoinfo11x11.maxNearP);
  t_cHadronEne11x11   ->push_back(isoinfo11x11.cHadronEne);
  t_cHadronEne11x11_1 ->push_back(isoinfo11x11.cHadronEne_[0]);
  t_cHadronEne11x11_2 ->push_back(isoinfo11x11.cHadronEne_[1]);
  t_cHadronEne11x11_3 ->push_back(isoinfo11x11.cHadronEne_[2]);
  t_nHadronEne11x11   ->push_back(isoinfo11x11.nHadronEne);
  t_photonEne11x11    ->push_back(isoinfo11x11.photonEne);
  t_eleEne11x11       ->push_back(isoinfo11x11.eleEne);
  t_muEne11x11        ->push_back(isoinfo11x11.muEne);
      
  t_maxNearP9x9       ->push_back(isoinfo9x9.maxNearP);
  t_cHadronEne9x9     ->push_back(isoinfo9x9.cHadronEne);
  t_cHadronEne9x9_1   ->push_back(isoinfo9x9.cHadronEne_[0]);
  t_cHadronEne9x9_2   ->push_back(isoinfo9x9.cHadronEne_[1]);
  t_cHadronEne9x9_3   ->push_back(isoinfo9x9.cHadronEne_[2]);
  t_nHadronEne9x9     ->push_back(isoinfo9x9.nHadronEne);
  t_photonEne9x9      ->push_back(isoinfo9x9.photonEne);
  t_eleEne9x9         ->push_back(isoinfo9x9.eleEne);
  t_muEne9x9          ->push_back(isoinfo9x9.muEne);
        
  t_maxNearP7x7       ->push_back(isoinfo7x7.maxNearP);
  t_cHadronEne7x7     ->push_back(isoinfo7x7.cHadronEne);
  t_cHadronEne7x7_1   ->push_back(isoinfo7x7.cHadronEne_[0]);
  t_cHadronEne7x7_2   ->push_back(isoinfo7x7.cHadronEne_[1]);
  t_cHadronEne7x7_3   ->push_back(isoinfo7x7.cHadronEne_[2]);
  t_nHadronEne7x7     ->push_back(isoinfo7x7.nHadronEne);
  t_photonEne7x7      ->push_back(isoinfo7x7.photonEne);
  t_eleEne7x7         ->push_back(isoinfo7x7.eleEne);
  t_muEne7x7          ->push_back(isoinfo7x7.muEne);
  
  t_maxNearP3x3       ->push_back(isoinfo3x3.maxNearP);
  t_cHadronEne3x3     ->push_back(isoinfo3x3.cHadronEne);
  t_cHadronEne3x3_1   ->push_back(isoinfo3x3.cHadronEne_[0]);
  t_cHadronEne3x3_2   ->push_back(isoinfo3x3.cHadronEne_[1]);
  t_cHadronEne3x3_3   ->push_back(isoinfo3x3.cHadronEne_[2]);
  t_nHadronEne3x3     ->push_back(isoinfo3x3.nHadronEne);
  t_photonEne3x3      ->push_back(isoinfo3x3.photonEne);
  t_eleEne3x3         ->push_back(isoinfo3x3.eleEne);
  t_muEne3x3          ->push_back(isoinfo3x3.muEne);

  t_maxNearP1x1       ->push_back(isoinfo1x1.maxNearP);
  t_cHadronEne1x1     ->push_back(isoinfo1x1.cHadronEne);
  t_cHadronEne1x1_1   ->push_back(isoinfo1x1.cHadronEne_[0]);
  t_cHadronEne1x1_2   ->push_back(isoinfo1x1.cHadronEne_[1]);
  t_cHadronEne1x1_3   ->push_back(isoinfo1x1.cHadronEne_[2]);
  t_nHadronEne1x1     ->push_back(isoinfo1x1.nHadronEne);
  t_photonEne1x1      ->push_back(isoinfo1x1.photonEne);
  t_eleEne1x1         ->push_back(isoinfo1x1.eleEne);
  t_muEne1x1          ->push_back(isoinfo1x1.muEne);

  t_maxNearPHC1x1       ->push_back(isoinfoHC1x1.maxNearP);
  t_cHadronEneHC1x1     ->push_back(isoinfoHC1x1.cHadronEne);
  t_cHadronEneHC1x1_1   ->push_back(isoinfoHC1x1.cHadronEne_[0]);
  t_cHadronEneHC1x1_2   ->push_back(isoinfoHC1x1.cHadronEne_[1]);
  t_cHadronEneHC1x1_3   ->push_back(isoinfoHC1x1.cHadronEne_[2]);
  t_nHadronEneHC1x1     ->push_back(isoinfoHC1x1.nHadronEne);
  t_photonEneHC1x1      ->push_back(isoinfoHC1x1.photonEne);
  t_eleEneHC1x1         ->push_back(isoinfoHC1x1.eleEne);
  t_muEneHC1x1          ->push_back(isoinfoHC1x1.muEne);
  
  t_maxNearPHC3x3       ->push_back(isoinfoHC3x3.maxNearP);
  t_cHadronEneHC3x3     ->push_back(isoinfoHC3x3.cHadronEne);
  t_cHadronEneHC3x3_1   ->push_back(isoinfoHC3x3.cHadronEne_[0]);
  t_cHadronEneHC3x3_2   ->push_back(isoinfoHC3x3.cHadronEne_[1]);
  t_cHadronEneHC3x3_3   ->push_back(isoinfoHC3x3.cHadronEne_[2]);
  t_nHadronEneHC3x3     ->push_back(isoinfoHC3x3.nHadronEne);
  t_photonEneHC3x3      ->push_back(isoinfoHC3x3.photonEne);
  t_eleEneHC3x3         ->push_back(isoinfoHC3x3.eleEne);
  t_muEneHC3x3          ->push_back(isoinfoHC3x3.muEne);

  t_maxNearPHC5x5       ->push_back(isoinfoHC5x5.maxNearP);
  t_cHadronEneHC5x5     ->push_back(isoinfoHC5x5.cHadronEne);
  t_cHadronEneHC5x5_1   ->push_back(isoinfoHC5x5.cHadronEne_[0]);
  t_cHadronEneHC5x5_2   ->push_back(isoinfoHC5x5.cHadronEne_[1]);
  t_cHadronEneHC5x5_3   ->push_back(isoinfoHC5x5.cHadronEne_[2]);
  t_nHadronEneHC5x5     ->push_back(isoinfoHC5x5.nHadronEne);
  t_photonEneHC5x5      ->push_back(isoinfoHC5x5.photonEne);
  t_eleEneHC5x5         ->push_back(isoinfoHC5x5.eleEne);
  t_muEneHC5x5          ->push_back(isoinfoHC5x5.muEne);

  t_maxNearPHC7x7       ->push_back(isoinfoHC7x7.maxNearP);
  t_cHadronEneHC7x7     ->push_back(isoinfoHC7x7.cHadronEne);
  t_cHadronEneHC7x7_1   ->push_back(isoinfoHC7x7.cHadronEne_[0]);
  t_cHadronEneHC7x7_2   ->push_back(isoinfoHC7x7.cHadronEne_[1]);
  t_cHadronEneHC7x7_3   ->push_back(isoinfoHC7x7.cHadronEne_[2]);
  t_nHadronEneHC7x7     ->push_back(isoinfoHC7x7.nHadronEne);
  t_photonEneHC7x7      ->push_back(isoinfoHC7x7.photonEne);
  t_eleEneHC7x7         ->push_back(isoinfoHC7x7.eleEne);
  t_muEneHC7x7          ->push_back(isoinfoHC7x7.muEne);

  t_maxNearPR           ->push_back(isoinfoR.maxNearP);
  t_cHadronEneR         ->push_back(isoinfoR.cHadronEne);
  t_cHadronEneR_1       ->push_back(isoinfoR.cHadronEne_[0]);
  t_cHadronEneR_2       ->push_back(isoinfoR.cHadronEne_[1]);
  t_cHadronEneR_3       ->push_back(isoinfoR.cHadronEne_[2]);
  t_nHadronEneR         ->push_back(isoinfoR.nHadronEne);
  t_photonEneR          ->push_back(isoinfoR.photonEne);
  t_eleEneR             ->push_back(isoinfoR.eleEne);
  t_muEneR              ->push_back(isoinfoR.muEne);

  t_maxNearPIsoR        ->push_back(isoinfoIsoR.maxNearP);
  t_cHadronEneIsoR      ->push_back(isoinfoIsoR.cHadronEne);
  t_cHadronEneIsoR_1    ->push_back(isoinfoIsoR.cHadronEne_[0]);
  t_cHadronEneIsoR_2    ->push_back(isoinfoIsoR.cHadronEne_[1]);
  t_cHadronEneIsoR_3    ->push_back(isoinfoIsoR.cHadronEne_[2]);
  t_nHadronEneIsoR      ->push_back(isoinfoIsoR.nHadronEne);
  t_photonEneIsoR       ->push_back(isoinfoIsoR.photonEne);
  t_eleEneIsoR          ->push_back(isoinfoIsoR.eleEne);
  t_muEneIsoR           ->push_back(isoinfoIsoR.muEne);

  t_maxNearPHCR         ->push_back(isoinfoHCR.maxNearP);
  t_cHadronEneHCR       ->push_back(isoinfoHCR.cHadronEne);
  t_cHadronEneHCR_1     ->push_back(isoinfoHCR.cHadronEne_[0]);
  t_cHadronEneHCR_2     ->push_back(isoinfoHCR.cHadronEne_[1]);
  t_cHadronEneHCR_3     ->push_back(isoinfoHCR.cHadronEne_[2]);
  t_nHadronEneHCR       ->push_back(isoinfoHCR.nHadronEne);
  t_photonEneHCR        ->push_back(isoinfoHCR.photonEne);
  t_eleEneHCR           ->push_back(isoinfoHCR.eleEne);
  t_muEneHCR            ->push_back(isoinfoHCR.muEne);

  t_maxNearPIsoHCR      ->push_back(isoinfoIsoHCR.maxNearP);
  t_cHadronEneIsoHCR    ->push_back(isoinfoIsoHCR.cHadronEne);
  t_cHadronEneIsoHCR_1  ->push_back(isoinfoIsoHCR.cHadronEne_[0]);
  t_cHadronEneIsoHCR_2  ->push_back(isoinfoIsoHCR.cHadronEne_[1]);
  t_cHadronEneIsoHCR_3  ->push_back(isoinfoIsoHCR.cHadronEne_[2]);
  t_nHadronEneIsoHCR    ->push_back(isoinfoIsoHCR.nHadronEne);
  t_photonEneIsoHCR     ->push_back(isoinfoIsoHCR.photonEne);
  t_eleEneIsoHCR        ->push_back(isoinfoIsoHCR.eleEne);
  t_muEneIsoHCR         ->push_back(isoinfoIsoHCR.muEne);
}

void IsolatedGenParticles::fillTrack ( GlobalPoint &  posVec, math::XYZTLorentzVector &  momVec, GlobalPoint &  posECAL, int  pdgId, bool  okECAL, bool  accpet  )

private

Definition at line 454 of file IsolatedGenParticles.cc.

References DeltaPhi(), eta(), phi, t_isoTrkDEtaAll, t_isoTrkDPhiAll, t_isoTrkEtaAll, t_isoTrkPAll, t_isoTrkPdgIdAll, t_isoTrkPhiAll, and t_isoTrkPtAll.

Referenced by analyze().

                                                                                                                                                      {

  if (accept) {
    t_isoTrkPAll        ->push_back( momVec.P() );
    t_isoTrkPtAll       ->push_back( momVec.Pt() );
    t_isoTrkPhiAll      ->push_back( momVec.phi() );
    t_isoTrkEtaAll      ->push_back( momVec.eta() );
    t_isoTrkPdgIdAll    ->push_back( pdgId ) ;
    if (okECAL) {
      double phi1 = momVec.phi();
      double phi2 = (posECAL - posVec).phi();
      double dphi = DeltaPhi( phi1, phi2 );
      double deta = momVec.eta() - (posECAL - posVec).eta();
      t_isoTrkDPhiAll ->push_back( dphi );
      t_isoTrkDEtaAll ->push_back( deta );  
    } else {
      t_isoTrkDPhiAll ->push_back( 999.0 );
      t_isoTrkDEtaAll ->push_back( 999.0 ); 
    }
  } else {
    t_isoTrkDPhiAll ->push_back( -999.0 );
    t_isoTrkDEtaAll ->push_back( -999.0 );  
  }
}

int IsolatedGenParticles::particleCode ( int  pdgId )

private

Definition at line 1336 of file IsolatedGenParticles.cc.

References Particles.

Referenced by analyze().

                                                {
 
 int partID[Particles]={11,-11,21,211,-211,321,-321,2212,2112,-2212,-2112,130};
  int ix = -1;
  for (int ik=0; ik<Particles; ++ik) {
    if (pdgId == partID[ik]) {
      ix = ik; break;
    }
  }
  return ix;
}

Member Data Documentation

double IsolatedGenParticles::a_charIsoR

private

Definition at line 124 of file IsolatedGenParticles.h.

Referenced by analyze(), and IsolatedGenParticles().

double IsolatedGenParticles::a_coneR

private

Definition at line 124 of file IsolatedGenParticles.h.

Referenced by analyze(), and IsolatedGenParticles().

bool IsolatedGenParticles::a_Isolation

private

Definition at line 116 of file IsolatedGenParticles.h.

Referenced by analyze(), and IsolatedGenParticles().

double IsolatedGenParticles::a_mipR

private

Definition at line 124 of file IsolatedGenParticles.h.

Referenced by analyze(), and IsolatedGenParticles().

double IsolatedGenParticles::a_neutIsoR

private

Definition at line 124 of file IsolatedGenParticles.h.

Referenced by analyze(), and IsolatedGenParticles().

std::string IsolatedGenParticles::algoBitToName[nL1BitsMax]

private

Definition at line 123 of file IsolatedGenParticles.h.

Referenced by analyze().

const MagneticField* IsolatedGenParticles::bField

private

Definition at line 119 of file IsolatedGenParticles.h.

Referenced by analyze().

bool IsolatedGenParticles::debugL1Info_

private

Definition at line 126 of file IsolatedGenParticles.h.

Referenced by analyze(), and IsolatedGenParticles().

int IsolatedGenParticles::debugTrks_

private

Definition at line 127 of file IsolatedGenParticles.h.

double IsolatedGenParticles::drLeadJetVeto_

private

Definition at line 131 of file IsolatedGenParticles.h.

double IsolatedGenParticles::etaMax

private

Definition at line 115 of file IsolatedGenParticles.h.

Referenced by analyze(), and IsolatedGenParticles().

edm::Service<TFileService> IsolatedGenParticles::fs

private

Definition at line 137 of file IsolatedGenParticles.h.

Referenced by BookHistograms().

double IsolatedGenParticles::genPartEtaBins[NEtaBins+1]

private

Definition at line 114 of file IsolatedGenParticles.h.

Referenced by beginJob().

double IsolatedGenParticles::genPartPBins[NPBins+1]

private

Definition at line 114 of file IsolatedGenParticles.h.

Referenced by beginJob().

std::string IsolatedGenParticles::genSrc_

private

Definition at line 118 of file IsolatedGenParticles.h.

Referenced by analyze(), and IsolatedGenParticles().

TH1I* IsolatedGenParticles::h_L1AlgoNames

private

Definition at line 139 of file IsolatedGenParticles.h.

Referenced by analyze(), and BookHistograms().

TH1I* IsolatedGenParticles::h_NEventProc

private

Definition at line 140 of file IsolatedGenParticles.h.

Referenced by analyze(), and BookHistograms().

TH2D* IsolatedGenParticles::h_pEta[Particles]

private

Definition at line 141 of file IsolatedGenParticles.h.

Referenced by analyze(), and BookHistograms().

bool IsolatedGenParticles::initL1

private

Definition at line 121 of file IsolatedGenParticles.h.

Referenced by analyze(), and beginJob().

spr::genSimInfo IsolatedGenParticles::isoinfo11x11

private

Definition at line 290 of file IsolatedGenParticles.h.

Referenced by analyze(), and fillIsolatedTrack().

spr::genSimInfo IsolatedGenParticles::isoinfo15x15

private

Definition at line 291 of file IsolatedGenParticles.h.

Referenced by analyze(), and fillIsolatedTrack().

spr::genSimInfo IsolatedGenParticles::isoinfo1x1

private

Definition at line 290 of file IsolatedGenParticles.h.

Referenced by analyze(), and fillIsolatedTrack().

spr::genSimInfo IsolatedGenParticles::isoinfo21x21

private

Definition at line 291 of file IsolatedGenParticles.h.

Referenced by analyze(), and fillIsolatedTrack().

spr::genSimInfo IsolatedGenParticles::isoinfo25x25

private

Definition at line 291 of file IsolatedGenParticles.h.

Referenced by analyze(), and fillIsolatedTrack().

spr::genSimInfo IsolatedGenParticles::isoinfo31x31

private

Definition at line 291 of file IsolatedGenParticles.h.

Referenced by analyze(), and fillIsolatedTrack().

spr::genSimInfo IsolatedGenParticles::isoinfo3x3

private

Definition at line 290 of file IsolatedGenParticles.h.

Referenced by analyze(), and fillIsolatedTrack().

spr::genSimInfo IsolatedGenParticles::isoinfo7x7

private

Definition at line 290 of file IsolatedGenParticles.h.

Referenced by analyze(), and fillIsolatedTrack().

spr::genSimInfo IsolatedGenParticles::isoinfo9x9

private

Definition at line 290 of file IsolatedGenParticles.h.

Referenced by analyze(), and fillIsolatedTrack().

spr::genSimInfo IsolatedGenParticles::isoinfoHC1x1

private

Definition at line 292 of file IsolatedGenParticles.h.

Referenced by analyze(), and fillIsolatedTrack().

spr::genSimInfo IsolatedGenParticles::isoinfoHC3x3

private

Definition at line 292 of file IsolatedGenParticles.h.

Referenced by analyze(), and fillIsolatedTrack().

spr::genSimInfo IsolatedGenParticles::isoinfoHC5x5

private

Definition at line 292 of file IsolatedGenParticles.h.

Referenced by analyze(), and fillIsolatedTrack().

spr::genSimInfo IsolatedGenParticles::isoinfoHC7x7

private

Definition at line 292 of file IsolatedGenParticles.h.

Referenced by analyze(), and fillIsolatedTrack().

spr::genSimInfo IsolatedGenParticles::isoinfoHCR

private

Definition at line 293 of file IsolatedGenParticles.h.

Referenced by analyze(), and fillIsolatedTrack().

spr::genSimInfo IsolatedGenParticles::isoinfoIsoHCR

private

Definition at line 293 of file IsolatedGenParticles.h.

Referenced by analyze(), and fillIsolatedTrack().

spr::genSimInfo IsolatedGenParticles::isoinfoIsoR

private

Definition at line 293 of file IsolatedGenParticles.h.

Referenced by analyze(), and fillIsolatedTrack().

spr::genSimInfo IsolatedGenParticles::isoinfoR

private

Definition at line 293 of file IsolatedGenParticles.h.

Referenced by analyze(), and fillIsolatedTrack().

edm::InputTag IsolatedGenParticles::L1extraCenJetSource_

private

Definition at line 132 of file IsolatedGenParticles.h.

Referenced by analyze(), and IsolatedGenParticles().

edm::InputTag IsolatedGenParticles::L1extraFwdJetSource_

private

Definition at line 132 of file IsolatedGenParticles.h.

Referenced by analyze(), and IsolatedGenParticles().

edm::InputTag IsolatedGenParticles::L1extraIsoEmSource_

private

Definition at line 133 of file IsolatedGenParticles.h.

Referenced by analyze(), and IsolatedGenParticles().

edm::InputTag IsolatedGenParticles::L1extraMuonSource_

private

Definition at line 133 of file IsolatedGenParticles.h.

Referenced by analyze(), and IsolatedGenParticles().

edm::InputTag IsolatedGenParticles::L1extraNonIsoEmSource_

private

Definition at line 133 of file IsolatedGenParticles.h.

Referenced by analyze(), and IsolatedGenParticles().

edm::InputTag IsolatedGenParticles::L1extraTauJetSource_

private

Definition at line 132 of file IsolatedGenParticles.h.

Referenced by analyze(), and IsolatedGenParticles().

edm::InputTag IsolatedGenParticles::L1GTObjectMapRcdSource_

private

Definition at line 134 of file IsolatedGenParticles.h.

Referenced by analyze(), and IsolatedGenParticles().

edm::InputTag IsolatedGenParticles::L1GTReadoutRcdSource_

private

Definition at line 134 of file IsolatedGenParticles.h.

Referenced by analyze(), and IsolatedGenParticles().

int IsolatedGenParticles::myverbose_

private

Definition at line 129 of file IsolatedGenParticles.h.

const int IsolatedGenParticles::NEtaBins = 4

staticprivate

Definition at line 111 of file IsolatedGenParticles.h.

Referenced by beginJob().

int IsolatedGenParticles::nEventProc

private

Definition at line 113 of file IsolatedGenParticles.h.

Referenced by analyze(), and beginJob().

const size_t IsolatedGenParticles::nL1BitsMax =128

staticprivate

Definition at line 122 of file IsolatedGenParticles.h.

const int IsolatedGenParticles::NPBins = 3

staticprivate

Definition at line 110 of file IsolatedGenParticles.h.

Referenced by beginJob().

const int IsolatedGenParticles::Particles =12

staticprivate

Definition at line 112 of file IsolatedGenParticles.h.

Referenced by BookHistograms(), and particleCode().

double IsolatedGenParticles::pCutIsolate

private

Definition at line 115 of file IsolatedGenParticles.h.

Referenced by analyze(), and IsolatedGenParticles().

bool IsolatedGenParticles::printTrkHitPattern_

private

Definition at line 128 of file IsolatedGenParticles.h.

double IsolatedGenParticles::pSeed

private

Definition at line 115 of file IsolatedGenParticles.h.

Referenced by IsolatedGenParticles().

double IsolatedGenParticles::ptMin

private

Definition at line 115 of file IsolatedGenParticles.h.

Referenced by analyze(), and IsolatedGenParticles().

double IsolatedGenParticles::ptMinLeadJet_

private

Definition at line 131 of file IsolatedGenParticles.h.

std::vector<double>* IsolatedGenParticles::t_cHadronEne11x11

private

Definition at line 191 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEne11x11_1

private

Definition at line 191 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEne11x11_2

private

Definition at line 191 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEne11x11_3

private

Definition at line 191 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_cHadronEne15x15

private

Definition at line 184 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEne15x15_1

private

Definition at line 184 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEne15x15_2

private

Definition at line 184 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEne15x15_3

private

Definition at line 184 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_cHadronEne1x1

private

Definition at line 219 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEne1x1_1

private

Definition at line 219 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEne1x1_2

private

Definition at line 219 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEne1x1_3

private

Definition at line 219 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_cHadronEne21x21

private

Definition at line 177 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEne21x21_1

private

Definition at line 177 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEne21x21_2

private

Definition at line 177 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEne21x21_3

private

Definition at line 177 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_cHadronEne25x25

private

Definition at line 170 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEne25x25_1

private

Definition at line 170 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEne25x25_2

private

Definition at line 170 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEne25x25_3

private

Definition at line 170 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_cHadronEne31x31

private

Definition at line 163 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEne31x31_1

private

Definition at line 163 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEne31x31_2

private

Definition at line 163 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEne31x31_3

private

Definition at line 163 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_cHadronEne3x3

private

Definition at line 212 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEne3x3_1

private

Definition at line 212 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEne3x3_2

private

Definition at line 212 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEne3x3_3

private

Definition at line 212 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_cHadronEne7x7

private

Definition at line 205 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEne7x7_1

private

Definition at line 205 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEne7x7_2

private

Definition at line 205 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEne7x7_3

private

Definition at line 205 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_cHadronEne9x9

private

Definition at line 198 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEne9x9_1

private

Definition at line 198 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEne9x9_2

private

Definition at line 198 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEne9x9_3

private

Definition at line 198 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_cHadronEneHC1x1

private

Definition at line 226 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEneHC1x1_1

private

Definition at line 226 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEneHC1x1_2

private

Definition at line 226 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEneHC1x1_3

private

Definition at line 226 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_cHadronEneHC3x3

private

Definition at line 233 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEneHC3x3_1

private

Definition at line 233 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEneHC3x3_2

private

Definition at line 233 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEneHC3x3_3

private

Definition at line 233 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_cHadronEneHC5x5

private

Definition at line 240 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEneHC5x5_1

private

Definition at line 240 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEneHC5x5_2

private

Definition at line 240 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEneHC5x5_3

private

Definition at line 240 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_cHadronEneHC7x7

private

Definition at line 247 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEneHC7x7_1

private

Definition at line 247 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEneHC7x7_2

private

Definition at line 247 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEneHC7x7_3

private

Definition at line 247 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_cHadronEneHCR

private

Definition at line 268 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEneHCR_1

private

Definition at line 268 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEneHCR_2

private

Definition at line 268 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEneHCR_3

private

Definition at line 268 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_cHadronEneIsoHCR

private

Definition at line 275 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEneIsoHCR_1

private

Definition at line 275 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEneIsoHCR_2

private

Definition at line 275 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEneIsoHCR_3

private

Definition at line 275 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_cHadronEneIsoR

private

Definition at line 261 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEneIsoR_1

private

Definition at line 261 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEneIsoR_2

private

Definition at line 261 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEneIsoR_3

private

Definition at line 261 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_cHadronEneR

private

Definition at line 254 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEneR_1

private

Definition at line 254 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEneR_2

private

Definition at line 254 of file IsolatedGenParticles.h.

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

std::vector<double> * IsolatedGenParticles::t_cHadronEneR_3

private

Definition at line 254 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_eleEne11x11

private

Definition at line 194 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_eleEne15x15

private

Definition at line 187 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_eleEne1x1

private

Definition at line 222 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_eleEne21x21

private

Definition at line 180 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_eleEne25x25

private

Definition at line 173 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_eleEne31x31

private

Definition at line 166 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_eleEne3x3

private

Definition at line 215 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_eleEne7x7

private

Definition at line 208 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_eleEne9x9

private

Definition at line 201 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_eleEneHC1x1

private

Definition at line 229 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_eleEneHC3x3

private

Definition at line 236 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_eleEneHC5x5

private

Definition at line 243 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_eleEneHC7x7

private

Definition at line 250 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_eleEneHCR

private

Definition at line 271 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_eleEneIsoHCR

private

Definition at line 278 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_eleEneIsoR

private

Definition at line 264 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_eleEneR

private

Definition at line 257 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_isoTrkDEtaAll

private

Definition at line 150 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_isoTrkDPhiAll

private

Definition at line 151 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_isoTrkEne

private

Definition at line 155 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_isoTrkEta

private

Definition at line 156 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_isoTrkEtaAll

private

Definition at line 148 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_isoTrkEtaEC

private

Definition at line 158 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_isoTrkP

private

Definition at line 153 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_isoTrkPAll

private

Definition at line 145 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_isoTrkPdgId

private

Definition at line 160 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_isoTrkPdgIdAll

private

Definition at line 149 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_isoTrkPhi

private

Definition at line 157 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_isoTrkPhiAll

private

Definition at line 147 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_isoTrkPhiEC

private

Definition at line 159 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_isoTrkPt

private

Definition at line 154 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_isoTrkPtAll

private

Definition at line 146 of file IsolatedGenParticles.h.

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

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

private

Definition at line 282 of file IsolatedGenParticles.h.

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

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

private

Definition at line 282 of file IsolatedGenParticles.h.

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

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

private

Definition at line 282 of file IsolatedGenParticles.h.

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

std::vector<int>* IsolatedGenParticles::t_L1Decision

private

Definition at line 281 of file IsolatedGenParticles.h.

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

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

private

Definition at line 283 of file IsolatedGenParticles.h.

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

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

private

Definition at line 283 of file IsolatedGenParticles.h.

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

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

private

Definition at line 283 of file IsolatedGenParticles.h.

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

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

private

Definition at line 286 of file IsolatedGenParticles.h.

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

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

private

Definition at line 286 of file IsolatedGenParticles.h.

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

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

private

Definition at line 286 of file IsolatedGenParticles.h.

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

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

private

Definition at line 288 of file IsolatedGenParticles.h.

Referenced by BookHistograms(), and clearTreeVectors().

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

private

Definition at line 288 of file IsolatedGenParticles.h.

Referenced by BookHistograms(), and clearTreeVectors().

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

private

Definition at line 288 of file IsolatedGenParticles.h.

Referenced by BookHistograms(), and clearTreeVectors().

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

private

Definition at line 285 of file IsolatedGenParticles.h.

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

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

private

Definition at line 285 of file IsolatedGenParticles.h.

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

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

private

Definition at line 285 of file IsolatedGenParticles.h.

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

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

private

Definition at line 287 of file IsolatedGenParticles.h.

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

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

private

Definition at line 287 of file IsolatedGenParticles.h.

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

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

private

Definition at line 287 of file IsolatedGenParticles.h.

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

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

private

Definition at line 284 of file IsolatedGenParticles.h.

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

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

private

Definition at line 284 of file IsolatedGenParticles.h.

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

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

private

Definition at line 284 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_maxNearP11x11

private

Definition at line 190 of file IsolatedGenParticles.h.

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

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

private

Definition at line 183 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_maxNearP1x1

private

Definition at line 218 of file IsolatedGenParticles.h.

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

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

private

Definition at line 176 of file IsolatedGenParticles.h.

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

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

private

Definition at line 169 of file IsolatedGenParticles.h.

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

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

private

Definition at line 162 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_maxNearP3x3

private

Definition at line 211 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_maxNearP7x7

private

Definition at line 204 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_maxNearP9x9

private

Definition at line 197 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_maxNearPHC1x1

private

Definition at line 225 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_maxNearPHC3x3

private

Definition at line 232 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_maxNearPHC5x5

private

Definition at line 239 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_maxNearPHC7x7

private

Definition at line 246 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_maxNearPHCR

private

Definition at line 267 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_maxNearPIsoHCR

private

Definition at line 274 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_maxNearPIsoR

private

Definition at line 260 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_maxNearPR

private

Definition at line 253 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_muEne11x11

private

Definition at line 195 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_muEne15x15

private

Definition at line 188 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_muEne1x1

private

Definition at line 223 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_muEne21x21

private

Definition at line 181 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_muEne25x25

private

Definition at line 174 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_muEne31x31

private

Definition at line 167 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_muEne3x3

private

Definition at line 216 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_muEne7x7

private

Definition at line 209 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_muEne9x9

private

Definition at line 202 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_muEneHC1x1

private

Definition at line 230 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_muEneHC3x3

private

Definition at line 237 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_muEneHC5x5

private

Definition at line 244 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_muEneHC7x7

private

Definition at line 251 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_muEneHCR

private

Definition at line 272 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_muEneIsoHCR

private

Definition at line 279 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_muEneIsoR

private

Definition at line 265 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_muEneR

private

Definition at line 258 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_nHadronEne11x11

private

Definition at line 192 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_nHadronEne15x15

private

Definition at line 185 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_nHadronEne1x1

private

Definition at line 220 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_nHadronEne21x21

private

Definition at line 178 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_nHadronEne25x25

private

Definition at line 171 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_nHadronEne31x31

private

Definition at line 164 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_nHadronEne3x3

private

Definition at line 213 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_nHadronEne7x7

private

Definition at line 206 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_nHadronEne9x9

private

Definition at line 199 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_nHadronEneHC1x1

private

Definition at line 227 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_nHadronEneHC3x3

private

Definition at line 234 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_nHadronEneHC5x5

private

Definition at line 241 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_nHadronEneHC7x7

private

Definition at line 248 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_nHadronEneHCR

private

Definition at line 269 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_nHadronEneIsoHCR

private

Definition at line 276 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_nHadronEneIsoR

private

Definition at line 262 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_nHadronEneR

private

Definition at line 255 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_photonEne11x11

private

Definition at line 193 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_photonEne15x15

private

Definition at line 186 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_photonEne1x1

private

Definition at line 221 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_photonEne21x21

private

Definition at line 179 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_photonEne25x25

private

Definition at line 172 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_photonEne31x31

private

Definition at line 165 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_photonEne3x3

private

Definition at line 214 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_photonEne7x7

private

Definition at line 207 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_photonEne9x9

private

Definition at line 200 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_photonEneHC1x1

private

Definition at line 228 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_photonEneHC3x3

private

Definition at line 235 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_photonEneHC5x5

private

Definition at line 242 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_photonEneHC7x7

private

Definition at line 249 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_photonEneHCR

private

Definition at line 270 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_photonEneIsoHCR

private

Definition at line 277 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_photonEneIsoR

private

Definition at line 263 of file IsolatedGenParticles.h.

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

std::vector<double>* IsolatedGenParticles::t_photonEneR

private

Definition at line 256 of file IsolatedGenParticles.h.

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

TTree* IsolatedGenParticles::tree

private

Definition at line 143 of file IsolatedGenParticles.h.

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

bool IsolatedGenParticles::useHepMC

private

Definition at line 121 of file IsolatedGenParticles.h.

Referenced by analyze(), and IsolatedGenParticles().

bool IsolatedGenParticles::useJetTrigger_

private

Definition at line 130 of file IsolatedGenParticles.h.

int IsolatedGenParticles::verbosity

private

Definition at line 127 of file IsolatedGenParticles.h.

Referenced by analyze(), and IsolatedGenParticles().