HLTJets Class Reference

#include <HLTJets.h>

Public Member Functions
void	analyze (edm::Event const &iEvent, const edm::Handle< reco::CaloJetCollection > &ohjets, const edm::Handle< reco::CaloJetCollection > &ohcorjets, const edm::Handle< reco::CaloJetCollection > &ohcorL1L2L3jets, const edm::Handle< double > &rho, const edm::Handle< reco::CaloJetCollection > &recojets, const edm::Handle< reco::CaloJetCollection > &recocorjets, const edm::Handle< reco::GenJetCollection > &gjets, const edm::Handle< reco::CaloMETCollection > &rmets, const edm::Handle< reco::GenMETCollection > &gmets, const edm::Handle< reco::METCollection > &ht, const edm::Handle< reco::CaloJetCollection > &myHLTL2Tau, const edm::Handle< reco::HLTTauCollection > &myHLTTau, const edm::Handle< reco::PFTauCollection > &myHLTPFTau, const edm::Handle< reco::PFTauCollection > &myHLTPFTauTightCone, const edm::Handle< reco::PFJetCollection > &myHLTPFJets, const edm::Handle< reco::PFTauCollection > &myRecoPFTau, const edm::Handle< reco::PFTauDiscriminator > &theRecoPFTauDiscrByTanCOnePercent, const edm::Handle< reco::PFTauDiscriminator > &theRecoPFTauDiscrByTanCHalfPercent, const edm::Handle< reco::PFTauDiscriminator > &theRecoPFTauDiscrByTanCQuarterPercent, const edm::Handle< reco::PFTauDiscriminator > &theRecoPFTauDiscrByTanCTenthPercent, const edm::Handle< reco::PFTauDiscriminator > &theRecoPFTauDiscrByIsolation, const edm::Handle< reco::PFTauDiscriminator > &theRecoPFTauDiscrAgainstElec, const edm::Handle< reco::PFTauDiscriminator > &theRecoPFTauDiscrAgainstMuon, const edm::Handle< reco::PFJetCollection > &recoPFJets, const edm::Handle< CaloTowerCollection > &caloTowers, const edm::Handle< CaloTowerCollection > &caloTowersCleanerUpperR45, const edm::Handle< CaloTowerCollection > &caloTowersCleanerLowerR45, const edm::Handle< CaloTowerCollection > &caloTowersCleanerNoR45, const edm::Handle< reco::PFMETCollection > &pfmets, double thresholdForSavingTowers, double minPtCH, double minPtGamma, TTree *tree)
	HLTJets ()
void	setup (const edm::ParameterSet &pSet, TTree *tree)

Static Private Member Functions
static float	etaBarrel ()

Private Attributes
float	_CalJetMin
bool	_Debug
float	_GenJetMin
bool	_Monte
TString	calopfx
int	evtCounter
TString	gjetpfx
TString	gmetpfx
float *	HLTPFTauIsoTrDz
float *	HLTPFTauIsoTrPt
int *	hltpftauIsoTrToPFTauMatch
float *	HLTPFTauSignalTrDz
float *	HLTPFTauSignalTrPt
int *	hltpftauSignalTrToPFTauMatch
float	htcalet
float	htcalphi
float	htcalsum
int *	isoTrToPFTauMatch
reco::helper::JetIDHelper *	jetID
float *	jgene
float *	jgeneta
float *	jgenphi
float *	jgenpt
float *	jhcale
float *	jhcalemf
float *	jhcaleta
float *	jhcaln90
float *	jhcaln90hits
float *	jhcalphi
float *	jhcalpt
float *	jhcorcale
float *	jhcorcalemf
float *	jhcorcaleta
float *	jhcorcaln90
float *	jhcorcaln90hits
float *	jhcorcalphi
float *	jhcorcalpt
float *	jhcorL1L2L3cale
float *	jhcorL1L2L3calemf
float *	jhcorL1L2L3caleta
float *	jhcorL1L2L3caln90
float *	jhcorL1L2L3caln90hits
float *	jhcorL1L2L3calphi
float *	jhcorL1L2L3calpt
float *	jpfrecochargedEMFraction
float *	jpfrecochargedHadronFraction
int *	jpfrecochargedMultiplicity
float *	jpfrecoe
float *	jpfrecoeta
float *	jpfreconeutralEMFraction
float *	jpfreconeutralHadronFraction
int *	jpfreconeutralMultiplicity
float *	jpfrecophi
float *	jpfrecopt
float *	jrcale
float *	jrcalemf
float *	jrcaleta
float *	jrcaln90
float *	jrcaln90hits
float *	jrcalphi
float *	jrcalpt
float *	jrcorcale
float *	jrcorcalemf
float *	jrcorcaleta
float *	jrcorcaln90
float *	jrcorcaln90hits
float *	jrcorcalphi
float *	jrcorcalpt
double	jrho
float *	l25tauPt
float *	l2tauemiso
float *	l2tauEta
float *	l2tauPhi
float *	l2tauPt
int *	l3tautckiso
float	mcalmet
float	mcalphi
float	mcalsum
float	mgenmet
float	mgenphi
float	mgensum
int	nhcorjetcal
int	nhcorL1L2L3jetcal
int	nhjetcal
int	njetgen
int	nohl2tau
int	noHLTPFTausIso
int	noHLTPFTausSignal
int	nohPFJet
int	nohPFTau
int	nohPFTauTightCone
int	nohtau
int	noRecoPFTausIso
int	noRecoPFTausSignal
int	nrcorjetcal
int	nRecoPFTau
int	nrjetcal
int	nrpj
int	ntowcal
float *	ohpfTauEta
float *	ohpfTauGammaIso
float *	ohpfTauJetPt
float *	ohpfTauLeadPionPt
float *	ohpfTauLeadTrackPt
float *	ohpfTauLeadTrackVtxZ
float *	ohpfTauPhi
int *	ohpfTauProngs
float *	ohpfTauPt
float *	ohpfTauTightConeEta
float *	ohpfTauTightConeGammaIso
float *	ohpfTauTightConeJetPt
float *	ohpfTauTightConeLeadPionPt
float *	ohpfTauTightConeLeadTrackPt
float *	ohpfTauTightConePhi
int *	ohpfTauTightConeProngs
float *	ohpfTauTightConePt
float *	ohpfTauTightConeTrkIso
float *	ohpfTauTrkIso
float	pfHT
float *	pfJetchargedEMFraction
float *	pfJetchargedHadronFraction
float *	pfJetchargedMultiplicity
float *	pfJetE
float *	pfJetEta
float *	pfJetneutralEMFraction
float *	pfJetneutralHadronEnergyFraction
float *	pfJetneutralMultiplicity
float *	pfJetPhi
float *	pfJetPt
float	pfmet
float	pfmetphi
float	pfMHT
float	pfsumet
float *	recopfTauDiscrAgainstElec
float *	recopfTauDiscrAgainstMuon
float *	recopfTauDiscrByIso
float *	recopfTauDiscrByTancHalfPercent
float *	recopfTauDiscrByTancOnePercent
float *	recopfTauDiscrByTancQuarterPercent
float *	recopfTauDiscrByTancTenthPercent
float *	recopfTauEta
int *	recopfTauGammaIso
float *	recoPFTauIsoTrDz
float *	recoPFTauIsoTrPt
float *	recopfTauJetPt
float *	recopfTauLeadPionPt
float *	recopfTauLeadTrackPt
float *	recopfTauPhi
float *	recopfTauPt
float *	recoPFTauSignalTrDz
float *	recoPFTauSignalTrPt
int *	recopfTauTrkIso
TString	rjetpfx
TString	rmetpfx
int *	signalTrToPFTauMatch
float *	tauEta
float *	tauPhi
float *	tauPt
float *	towem
float *	towen
float *	towet
float *	toweta
float *	towhd
float *	towoe
float *	towphi
int *	towR45lower
int *	towR45none
int *	towR45upper

Detailed Description

$Date: November 2006 $Revision:

Author

L. Apanasevich - UIC, P. Bargassa - Rice U.

Definition at line 67 of file HLTJets.h.

Constructor & Destructor Documentation

HLTJets::HLTJets

(

)

Definition at line 17 of file HLTJets.cc.

References _CalJetMin, _Debug, _GenJetMin, _Monte, and evtCounter.

                 {
    evtCounter=0;
    
    //set parameter defaults 
    _Monte=false;
    _Debug=false;
    _CalJetMin=0.;
    _GenJetMin=0.;
}

Member Function Documentation

void HLTJets::analyze	(	edm::Event const &	iEvent,
		const edm::Handle< reco::CaloJetCollection > &	ohjets,
		const edm::Handle< reco::CaloJetCollection > &	ohcorjets,
		const edm::Handle< reco::CaloJetCollection > &	ohcorL1L2L3jets,
		const edm::Handle< double > &	rho,
		const edm::Handle< reco::CaloJetCollection > &	recojets,
		const edm::Handle< reco::CaloJetCollection > &	recocorjets,
		const edm::Handle< reco::GenJetCollection > &	gjets,
		const edm::Handle< reco::CaloMETCollection > &	rmets,
		const edm::Handle< reco::GenMETCollection > &	gmets,
		const edm::Handle< reco::METCollection > &	ht,
		const edm::Handle< reco::CaloJetCollection > &	myHLTL2Tau,
		const edm::Handle< reco::HLTTauCollection > &	myHLTTau,
		const edm::Handle< reco::PFTauCollection > &	myHLTPFTau,
		const edm::Handle< reco::PFTauCollection > &	myHLTPFTauTightCone,
		const edm::Handle< reco::PFJetCollection > &	myHLTPFJets,
		const edm::Handle< reco::PFTauCollection > &	myRecoPFTau,
		const edm::Handle< reco::PFTauDiscriminator > &	theRecoPFTauDiscrByTanCOnePercent,
		const edm::Handle< reco::PFTauDiscriminator > &	theRecoPFTauDiscrByTanCHalfPercent,
		const edm::Handle< reco::PFTauDiscriminator > &	theRecoPFTauDiscrByTanCQuarterPercent,
		const edm::Handle< reco::PFTauDiscriminator > &	theRecoPFTauDiscrByTanCTenthPercent,
		const edm::Handle< reco::PFTauDiscriminator > &	theRecoPFTauDiscrByIsolation,
		const edm::Handle< reco::PFTauDiscriminator > &	theRecoPFTauDiscrAgainstElec,
		const edm::Handle< reco::PFTauDiscriminator > &	theRecoPFTauDiscrAgainstMuon,
		const edm::Handle< reco::PFJetCollection > &	recoPFJets,
		const edm::Handle< CaloTowerCollection > &	caloTowers,
		const edm::Handle< CaloTowerCollection > &	caloTowersCleanerUpperR45,
		const edm::Handle< CaloTowerCollection > &	caloTowersCleanerLowerR45,
		const edm::Handle< CaloTowerCollection > &	caloTowersCleanerNoR45,
		const edm::Handle< reco::PFMETCollection > &	pfmets,
		double	thresholdForSavingTowers,
		double	minPtCH,
		double	minPtGamma,
		TTree *	tree
	)

Analyze the Data

Definition at line 400 of file HLTJets.cc.

References _CalJetMin, _Debug, _GenJetMin, _Monte, abs, reco::helper::JetIDHelper::calculate(), gather_cfg::cout, HLTPFTauIsoTrDz, HLTPFTauIsoTrPt, hltpftauIsoTrToPFTauMatch, HLTPFTauSignalTrDz, HLTPFTauSignalTrPt, hltpftauSignalTrToPFTauMatch, htcalet, htcalphi, htcalsum, i, isoTrToPFTauMatch, edm::HandleBase::isValid(), jetID, METSkim_cff::Jets, jgene, jgeneta, jgenphi, jgenpt, jhcale, jhcalemf, jhcaleta, jhcaln90, jhcaln90hits, jhcalphi, jhcalpt, jhcorcale, jhcorcalemf, jhcorcaleta, jhcorcaln90, jhcorcaln90hits, jhcorcalphi, jhcorcalpt, jhcorL1L2L3cale, jhcorL1L2L3calemf, jhcorL1L2L3caleta, jhcorL1L2L3caln90, jhcorL1L2L3caln90hits, jhcorL1L2L3calphi, jhcorL1L2L3calpt, jpfrecochargedEMFraction, jpfrecochargedHadronFraction, jpfrecochargedMultiplicity, jpfrecoe, jpfrecoeta, jpfreconeutralEMFraction, jpfreconeutralHadronFraction, jpfreconeutralMultiplicity, jpfrecophi, jpfrecopt, jrcale, jrcalemf, jrcaleta, jrcaln90, jrcaln90hits, jrcalphi, jrcalpt, jrcorcale, jrcorcalemf, jrcorcaleta, jrcorcaln90, jrcorcaln90hits, jrcorcalphi, jrcorcalpt, jrho, l25tauPt, l2tauemiso, l2tauEta, l2tauPhi, l2tauPt, l3tautckiso, mcalmet, mcalphi, mcalsum, mgenmet, mgenphi, mgensum, reco::helper::JetIDHelper::n90Hits(), nhcorjetcal, nhcorL1L2L3jetcal, nhjetcal, njetgen, nohl2tau, noHLTPFTausIso, noHLTPFTausSignal, nohPFJet, nohPFTau, nohPFTauTightCone, nohtau, noRecoPFTausIso, noRecoPFTausSignal, nrcorjetcal, nRecoPFTau, nrjetcal, nrpj, ntowcal, ohpfTauEta, ohpfTauGammaIso, ohpfTauJetPt, ohpfTauLeadPionPt, ohpfTauLeadTrackPt, ohpfTauLeadTrackVtxZ, ohpfTauPhi, ohpfTauProngs, ohpfTauPt, ohpfTauTightConeEta, ohpfTauTightConeGammaIso, ohpfTauTightConeJetPt, ohpfTauTightConeLeadPionPt, ohpfTauTightConeLeadTrackPt, ohpfTauTightConePhi, ohpfTauTightConeProngs, ohpfTauTightConePt, ohpfTauTightConeTrkIso, ohpfTauTrkIso, pfHT, pfJetchargedEMFraction, pfJetchargedHadronFraction, pfJetchargedMultiplicity, pfJetE, pfJetEta, pfJetneutralEMFraction, pfJetneutralHadronEnergyFraction, pfJetneutralMultiplicity, pfJetPhi, pfJetPt, pfJets_cff::pfJets, pfmet, pfmetphi, pfMHT, pfsumet, pfTaus_cff::pfTaus, RecoPFJets_cff::recoPFJets, recopfTauDiscrAgainstElec, recopfTauDiscrAgainstMuon, recopfTauDiscrByIso, recopfTauDiscrByTancHalfPercent, recopfTauDiscrByTancOnePercent, recopfTauDiscrByTancQuarterPercent, recopfTauDiscrByTancTenthPercent, recopfTauEta, recopfTauGammaIso, recoPFTauIsoTrDz, recoPFTauIsoTrPt, recopfTauLeadPionPt, recopfTauLeadTrackPt, recopfTauPhi, recopfTauPt, recoPFTauSignalTrDz, recoPFTauSignalTrPt, recopfTauTrkIso, rho, signalTrToPFTauMatch, python.multivaluedict::sort(), mathSSE::sqrt(), tauEta, tauPhi, tauPt, towem, towen, towet, toweta, towhd, towoe, towphi, towR45lower, towR45none, and towR45upper.

Referenced by HLTAnalyzer::analyze().

                                       {
    
    if (_Debug) std::cout << " Beginning HLTJets " << std::endl;
    
    //initialize branch variables
    nhjetcal=0; nhcorjetcal=0;nhcorL1L2L3jetcal=0; njetgen=0;ntowcal=0;
    jrho = 0;
    mcalmet=0.; mcalphi=0.;
    mgenmet=0.; mgenphi=0.;
    htcalet=0.,htcalphi=0.,htcalsum=0.;

    noRecoPFTausSignal = 0; noRecoPFTausIso =0;
    noHLTPFTausSignal = 0; noHLTPFTausIso = 0;



    if (rcalojets.isValid()) {
      reco::CaloJetCollection mycalojets;
      mycalojets=*rcalojets;
      std::sort(mycalojets.begin(),mycalojets.end(),PtGreater());
      typedef reco::CaloJetCollection::const_iterator cjiter;
      int jrcal=0;
      for ( cjiter i=mycalojets.begin(); i!=mycalojets.end(); i++) {
    
        if (i->pt()>_CalJetMin && i->energy()>0.){
          jrcalpt[jrcal] = i->pt();
          jrcalphi[jrcal] = i->phi();
          jrcaleta[jrcal] = i->eta();
          jrcale[jrcal] = i->energy();
          jrcalemf[jrcal] = i->emEnergyFraction();
          jrcaln90[jrcal] = i->n90();
      jetID->calculate( iEvent, *i );
      jrcaln90hits[jrcal] = jetID->n90Hits();
          jrcal++;
        }
      }
      nrjetcal = jrcal;
    }
    else {nrjetcal = 0;}
    
    if (rcalocorjets.isValid()) {
      reco::CaloJetCollection mycalojets;
      mycalojets=*rcalocorjets;
      std::sort(mycalojets.begin(),mycalojets.end(),PtGreater());
      typedef reco::CaloJetCollection::const_iterator cjiter;
      int jrcal=0;
      for ( cjiter i=mycalojets.begin(); i!=mycalojets.end(); i++) {
    
        if (i->pt()>_CalJetMin && i->energy()>0.){
          jrcorcalpt[jrcal] = i->pt();
          jrcorcalphi[jrcal] = i->phi();
          jrcorcaleta[jrcal] = i->eta();
          jrcorcale[jrcal] = i->energy();
          jrcorcalemf[jrcal] = i->emEnergyFraction();
          jrcorcaln90[jrcal] = i->n90();
      jetID->calculate( iEvent, *i );
          jrcorcaln90hits[jrcal] = jetID->n90Hits();
          jrcal++;
        }
      }
      nrcorjetcal = jrcal;
    }
    else {nrcorjetcal = 0;}
    
    if (ohcalojets.isValid()) {
        reco::CaloJetCollection mycalojets;
        mycalojets=*ohcalojets;
        std::sort(mycalojets.begin(),mycalojets.end(),PtGreater());
        typedef reco::CaloJetCollection::const_iterator cjiter;
        int jhcal=0;
        for ( cjiter i=mycalojets.begin(); i!=mycalojets.end(); i++) {
            
            if (i->pt()>_CalJetMin && i->energy()>0.){
                jhcalpt[jhcal] = i->pt();
                jhcalphi[jhcal] = i->phi();
                jhcaleta[jhcal] = i->eta();
                jhcale[jhcal] = i->energy();
                jhcalemf[jhcal] = i->emEnergyFraction();
                jhcaln90[jhcal] = i->n90();
        jetID->calculate( iEvent, *i );
                jhcaln90hits[jhcal] = jetID->n90Hits();
                jhcal++;
            }
            
        }
        nhjetcal = jhcal;
    }
    else {nhjetcal = 0;}
    
    if (ohcalocorjets.isValid()) {
        reco::CaloJetCollection mycalocorjets;
        mycalocorjets=*ohcalocorjets;
        std::sort(mycalocorjets.begin(),mycalocorjets.end(),PtGreater());
        typedef reco::CaloJetCollection::const_iterator ccorjiter;
        int jhcorcal=0;
        for ( ccorjiter i=mycalocorjets.begin(); i!=mycalocorjets.end(); i++) {
            
            if (i->pt()>_CalJetMin && i->energy()>0.){
                jhcorcalpt[jhcorcal] = i->pt();
                jhcorcalphi[jhcorcal] = i->phi();
                jhcorcaleta[jhcorcal] = i->eta();
                jhcorcale[jhcorcal] = i->energy();
                jhcorcalemf[jhcorcal] = i->emEnergyFraction();
                jhcorcaln90[jhcorcal] = i->n90();
        jetID->calculate( iEvent, *i );
                jhcorcaln90hits[jhcorcal] = jetID->n90Hits();
                jhcorcal++;
            }
            
        }
        nhcorjetcal = jhcorcal;
    }
    else {nhcorjetcal = 0;}
    
 if (ohcalocorL1L2L3jets.isValid()) {
        reco::CaloJetCollection mycalocorL1L2L3jets;
        mycalocorL1L2L3jets=*ohcalocorL1L2L3jets;
        std::sort(mycalocorL1L2L3jets.begin(),mycalocorL1L2L3jets.end(),PtGreater());
        typedef reco::CaloJetCollection::const_iterator ccorL1L2L3jiter;
        int jhcorL1L2L3cal=0;
        for ( ccorL1L2L3jiter i=mycalocorL1L2L3jets.begin(); i!=mycalocorL1L2L3jets.end(); i++) {
            
            if (i->pt()>_CalJetMin && i->energy()>0.){
                jhcorL1L2L3calpt[jhcorL1L2L3cal] = i->pt();
                jhcorL1L2L3calphi[jhcorL1L2L3cal] = i->phi();
                jhcorL1L2L3caleta[jhcorL1L2L3cal] = i->eta();
                jhcorL1L2L3cale[jhcorL1L2L3cal] = i->energy();
                jhcorL1L2L3calemf[jhcorL1L2L3cal] = i->emEnergyFraction();
                jhcorL1L2L3caln90[jhcorL1L2L3cal] = i->n90();
        jetID->calculate( iEvent, *i );
                jhcorL1L2L3caln90hits[jhcorL1L2L3cal] = jetID->n90Hits();
                jhcorL1L2L3cal++;
            }
            
        }
        nhcorL1L2L3jetcal = jhcorL1L2L3cal;
   }
 else {nhcorL1L2L3jetcal = 0;}

 if (rho.isValid()){
   jrho = *rho;
 }
 else {

   if (_Debug) std::cout << "rho not found" << std::endl;
 }

 std::set<unsigned int> towersUpper;
 std::set<unsigned int> towersLower;
 std::set<unsigned int> towersNone;

 bool towersUpperValid=false;
 bool towersLowerValid=false;
 bool towersNoneValid=false;
 if( caloTowersCleanerUpperR45.isValid() ){
   towersUpperValid = true;
   for( CaloTowerCollection::const_iterator tow = caloTowersCleanerUpperR45->begin(); tow != caloTowersCleanerUpperR45->end(); tow++){
     towersUpper.insert(tow->id().denseIndex());
   }
 }
 if( caloTowersCleanerLowerR45.isValid() ){
   towersLowerValid = true;
   for( CaloTowerCollection::const_iterator tow = caloTowersCleanerLowerR45->begin(); tow != caloTowersCleanerLowerR45->end(); tow++){
     towersLower.insert(tow->id().denseIndex());
   }
 }
 if( caloTowersCleanerNoR45.isValid() ){
   towersNoneValid = true;
   for( CaloTowerCollection::const_iterator tow = caloTowersCleanerNoR45->begin(); tow != caloTowersCleanerNoR45->end(); tow++){
     towersNone.insert(tow->id().denseIndex());
   }
 }
 if (caloTowers.isValid()) {
   //    ntowcal = caloTowers->size();
   int jtow = 0;
   for ( CaloTowerCollection::const_iterator tower=caloTowers->begin(); tower!=caloTowers->end(); tower++) {
     if(tower->energy() > thresholdForSavingTowers)
       {
     towet[jtow] = tower->et();
     toweta[jtow] = tower->eta();
     towphi[jtow] = tower->phi();
     towen[jtow] = tower->energy();
     towem[jtow] = tower->emEnergy();
     towhd[jtow] = tower->hadEnergy();
     towoe[jtow] = tower->outerEnergy();
     // noise filters: true = no noise, false = noise
     if(towersUpperValid) {if(towersUpper.find(tower->id().denseIndex()) == towersUpper.end()) towR45upper[jtow]=true; else towR45upper[jtow]=false;}
     if(towersLowerValid) {if(towersLower.find(tower->id().denseIndex()) == towersLower.end()) towR45lower[jtow]=true; else towR45lower[jtow]=false;}
     if(towersNoneValid) {if(towersNone.find(tower->id().denseIndex()) == towersNone.end()) towR45none[jtow]=true; else towR45none[jtow]=false;}
     jtow++;
       }
   }
   ntowcal = jtow;
 }
 else {ntowcal = 0;}
    
    if (recmets.isValid()) {
        typedef reco::CaloMETCollection::const_iterator cmiter;
        for ( cmiter i=recmets->begin(); i!=recmets->end(); i++) {
            mcalmet = i->pt();
            mcalphi = i->phi();
            mcalsum = i->sumEt();
        }
    }

    if (pfmets.isValid()) {
      typedef reco::PFMETCollection::const_iterator pfmetiter;
      for( pfmetiter i=pfmets->begin(); i!=pfmets->end(); i++) {
    pfmet = i->pt();
    pfsumet = i->sumEt();
    pfmetphi = i->phi();
      }
    }
    
    if (ht.isValid()) {
        typedef reco::METCollection::const_iterator iter;
        for ( iter i=ht->begin(); i!=ht->end(); i++) {
            htcalet = i->pt();
            htcalphi = i->phi();
            htcalsum = i->sumEt();
        }
    }
    
    if (_Monte){
        
        if (genjets.isValid()) {
            reco::GenJetCollection mygenjets;
            mygenjets=*genjets;
            std::sort(mygenjets.begin(),mygenjets.end(),PtGreater());
            typedef reco::GenJetCollection::const_iterator gjiter;
            int jgen=0;
            for ( gjiter i=mygenjets.begin(); i!=mygenjets.end(); i++) {
                
                if (i->pt()>_GenJetMin){
                    jgenpt[jgen] = i->pt();
                    jgenphi[jgen] = i->phi();
                    jgeneta[jgen] = i->eta();
                    jgene[jgen] = i->energy();
                    jgen++;
                }
                
            }
            njetgen = jgen;
        }
        else {njetgen = 0;}
        
        if (genmets.isValid()) {
            typedef reco::GenMETCollection::const_iterator gmiter;
            for ( gmiter i=genmets->begin(); i!=genmets->end(); i++) {
                mgenmet = i->pt();
                mgenphi = i->phi();
                mgensum = i->sumEt();
            }
        }
        
    }
    
    
    if (l2taujets.isValid()) {
        nohl2tau = l2taujets->size();
        reco::CaloJetCollection l2taus = *l2taujets;
        std::sort(l2taus.begin(),l2taus.end(),GetPFPtGreater());
        int itau=0;
        for(reco::CaloJetCollection::const_iterator i = l2taus.begin(); 
                                                   i!= l2taus.end(); ++i){
            l2tauPt[itau]  = i->pt();
            l2tauEta[itau] = i->eta();
            l2tauPhi[itau] = i->phi();
            itau++;
        }
    }else{
      nohl2tau = 0;
    }
    if (taujets.isValid()) {      
        nohtau = taujets->size();
        reco::HLTTauCollection mytaujets;
        mytaujets=*taujets;
        std::sort(mytaujets.begin(),mytaujets.end(),GetPtGreater());
        typedef reco::HLTTauCollection::const_iterator tauit;
        int itau=0;
        for(tauit i=mytaujets.begin(); i!=mytaujets.end(); i++){
            //Ask for Eta,Phi and Et of the tau:
            tauEta[itau] = i->getEta();
            tauPhi[itau] = i->getPhi();
            tauPt[itau] = i->getPt();
            //Ask for L2 EMIsolation cut: Nominal cut : < 5
            l2tauemiso[itau] = i->getEMIsolationValue();
            //Get L25 LeadTrackPt : Nominal cut : > 20 GeV
            l25tauPt[itau] = i->getL25LeadTrackPtValue();
            //Get TrackIsolation response (returns 0 = failed or 1= passed)
            l3tautckiso[itau] = i->getL3TrackIsolationResponse();
            //MET : > 65
            itau++;
        }      
    }
    else {nohtau = 0;}

    
    if(pfTaus.isValid()) {
        //float minTrkPt = minPtCH;
        //float minGammaPt = minPtGamma;
        nohPFTau  = pfTaus->size();
        reco::PFTauCollection taus = *pfTaus;
        std::sort(taus.begin(),taus.end(),GetPFPtGreater());
        typedef reco::PFTauCollection::const_iterator pftauit;
        int ipftau=0;
        for(pftauit i=taus.begin(); i!=taus.end(); i++){
            //Ask for Eta,Phi and Et of the tau:
        ohpfTauProngs[ipftau] = i->signalPFChargedHadrCands().size();
            ohpfTauEta[ipftau] = i->eta();
            ohpfTauPhi[ipftau] = i->phi();
            ohpfTauPt[ipftau] = i->pt();
            ohpfTauJetPt[ipftau] = i->pfTauTagInfoRef()->pfjetRef()->pt();

            
  /*
            if( (i->leadPFCand()).isNonnull())
                pfTauLeadPionPt[ipftau] = i->leadPFCand()->pt();            
*/
            if( (i->leadPFNeutralCand()).isNonnull())
                ohpfTauLeadPionPt[ipftau] = i->leadPFNeutralCand()->pt();        
            else 
                ohpfTauLeadPionPt[ipftau] = -999.0;

            if((i->leadPFChargedHadrCand()).isNonnull()){
                ohpfTauLeadTrackPt[ipftau] = i->leadPFChargedHadrCand()->pt();
                ohpfTauLeadTrackVtxZ[ipftau] = i->leadPFChargedHadrCand()->vertex().z(); 
            }else{
                ohpfTauLeadTrackPt[ipftau] = -999.0;
                ohpfTauLeadTrackVtxZ[ipftau] = -999.0;  
            }

            float maxPtTrkIso = 0;
            for (unsigned int iTrk = 0; iTrk < i->isolationPFChargedHadrCands().size(); iTrk++)
            {
                if(i->isolationPFChargedHadrCands()[iTrk]->pt() > maxPtTrkIso) maxPtTrkIso = i->isolationPFChargedHadrCands()[iTrk]->pt();

                if (i->isolationPFChargedHadrCands()[iTrk]->trackRef().isNonnull()){
                  hltpftauIsoTrToPFTauMatch[noHLTPFTausIso]=ipftau;
                  HLTPFTauIsoTrDz[noHLTPFTausIso]=i->isolationPFChargedHadrCands()[iTrk]->trackRef()->dz(); // dz wrt (0,0,0), to compare offline with HLT 
                  HLTPFTauIsoTrPt[noHLTPFTausIso]=i->isolationPFChargedHadrCands()[iTrk]->pt();
                  /*
                  std::cout << "Adding isocand for hltpftau " << ipftau
                      << " pt " << HLTPFTauIsoTrPt[noHLTPFTausIso]
                      << " dz " << HLTPFTauIsoTrDz[noHLTPFTausIso]
                      << std::endl; // */
                  ++noHLTPFTausIso;
                }

            }
                
            ohpfTauTrkIso[ipftau] = maxPtTrkIso;
            float maxPtGammaIso = 0;
            for (unsigned int iGamma = 0; iGamma < i->isolationPFGammaCands().size(); iGamma++)
            {
                if(i->isolationPFGammaCands()[iGamma]->pt() > maxPtGammaIso) maxPtGammaIso = i->isolationPFGammaCands()[iGamma]->pt();
            }                        



            for (unsigned int iTrk = 0; iTrk < i->signalPFChargedHadrCands().size(); iTrk++)
            {
              if (i->signalPFChargedHadrCands ()[iTrk]->trackRef().isNonnull()){
                hltpftauSignalTrToPFTauMatch[noHLTPFTausSignal]=ipftau;
                HLTPFTauSignalTrDz[noHLTPFTausSignal]=i->signalPFChargedHadrCands()[iTrk]->trackRef()->dz(); // dz wrt (0,0,0), to compare offline with HLT
                HLTPFTauSignalTrPt[noHLTPFTausSignal]=i->signalPFChargedHadrCands()[iTrk]->pt();
                /*
                  std::cout << "Adding sigcand for hltpftau " << ipftau
                      << " pt " << HLTPFTauSignalTrPt[noHLTPFTausSignal]
                      << " dz " << HLTPFTauSignalTrDz[noHLTPFTausSignal]
                      << std::endl; // */
                ++noHLTPFTausSignal;
              }
            }





            ohpfTauGammaIso[ipftau] = maxPtGammaIso;
            ipftau++;
        } 
      
    }

    if(pfTausTightCone.isValid()) {
        //float minTrkPt = minPtCH;
        //float minGammaPt = minPtGamma;
        nohPFTauTightCone = pfTaus->size();
        reco::PFTauCollection taus = *pfTausTightCone;
        std::sort(taus.begin(),taus.end(),GetPFPtGreater());
        typedef reco::PFTauCollection::const_iterator pftauit;
        int ipftau=0;
        for(pftauit i=taus.begin(); i!=taus.end(); i++){
            //Ask for Eta,Phi and Et of the tau:
            ohpfTauTightConeProngs[ipftau] = i->signalPFChargedHadrCands().size();
            ohpfTauTightConeEta[ipftau] = i->eta();
            ohpfTauTightConePhi[ipftau] = i->phi();
            ohpfTauTightConePt[ipftau] = i->pt();
            ohpfTauTightConeJetPt[ipftau] = i->pfTauTagInfoRef()->pfjetRef()->pt();

    
            if( (i->leadPFNeutralCand()).isNonnull())
                ohpfTauTightConeLeadPionPt[ipftau] = i->leadPFNeutralCand()->pt();
            else 
              ohpfTauTightConeLeadPionPt[ipftau] = -999.0;


            if((i->leadPFChargedHadrCand()).isNonnull())
                ohpfTauTightConeLeadTrackPt[ipftau] = i->leadPFChargedHadrCand()->pt();
            else
              ohpfTauTightConeLeadTrackPt[ipftau] = -999.0;

            float maxPtTrkIso = 0;
            for (unsigned int iTrk = 0; iTrk < i->isolationPFChargedHadrCands().size(); iTrk++)
            {
                if(i->isolationPFChargedHadrCands()[iTrk]->pt() > maxPtTrkIso) maxPtTrkIso = i->isolationPFChargedHadrCands()[iTrk]->pt();
            }

            ohpfTauTightConeTrkIso[ipftau] = maxPtTrkIso;
            float maxPtGammaIso = 0;
            for (unsigned int iGamma = 0; iGamma < i->isolationPFGammaCands().size(); iGamma++)
            {
                if(i->isolationPFGammaCands()[iGamma]->pt() > maxPtGammaIso) maxPtGammaIso = i->isolationPFGammaCands()[iGamma]->pt();
            }
            ohpfTauTightConeGammaIso[ipftau] = maxPtGammaIso;
            ipftau++;
        }

    }
    
      
    if(recoPfTaus.isValid()) {
        float minTrkPt = minPtCH;
        float minGammaPt = minPtGamma;
        nRecoPFTau  = recoPfTaus->size();
        reco::PFTauCollection taus = *recoPfTaus;

        // disable sorting for proper access to discriminators
        //std::sort(taus.begin(),taus.end(),GetPFPtGreater());
        typedef reco::PFTauCollection::const_iterator pftauit;
        int ipftau=0;
        
        for(pftauit i=taus.begin(); i!=taus.end(); i++){
            //Ask for Eta,Phi and Et of the tau:
            recopfTauEta[ipftau] = i->eta();
            recopfTauPhi[ipftau] = i->phi();
            recopfTauPt[ipftau]  = i->pt();

            if( (i->leadPFNeutralCand()).isNonnull())
                recopfTauLeadPionPt[ipftau] = i->leadPFNeutralCand()->pt();
            else
              recopfTauLeadPionPt[ipftau] = -999.0;  


            if((i->leadPFChargedHadrCand()).isNonnull())
                recopfTauLeadTrackPt[ipftau] = i->leadPFChargedHadrCand()->pt();
            else
              recopfTauLeadTrackPt[ipftau]  = -999.0;

            int myTrks=0;
            for (unsigned int iTrk = 0; iTrk < i->isolationPFChargedHadrCands().size(); iTrk++)
            {
                if(i->isolationPFChargedHadrCands()[iTrk]->pt() > minTrkPt) myTrks++;
                if (i->isolationPFChargedHadrCands()[iTrk]->trackRef().isNonnull()){
                  isoTrToPFTauMatch[noRecoPFTausIso]=ipftau;
                  recoPFTauIsoTrDz[noRecoPFTausIso]=i->isolationPFChargedHadrCands()[iTrk]->trackRef()->dz(); // dz wrt (0,0,0), to compare offline with HLT
                  recoPFTauIsoTrPt[noRecoPFTausIso]=i->isolationPFChargedHadrCands()[iTrk]->pt();
                  /*
                  std::cout << "Adding isocand for tau " << ipftau
                            << " pt " << recoPFTauIsoTrPt[noRecoPFTausIso]
                            << " dz " << recoPFTauIsoTrDz[noRecoPFTausIso]
                            << std::endl;// */
                  ++noRecoPFTausIso;
                }

            }
               
            recopfTauTrkIso[ipftau] = myTrks;
            int myGammas=0;
            for (unsigned int iGamma = 0; iGamma < i->isolationPFGammaCands().size(); iGamma++)
            {
                if(i->isolationPFGammaCands()[iGamma]->pt() > minGammaPt) myGammas++;
            }                        
            recopfTauGammaIso[ipftau] = myGammas;
        

            for (unsigned int iTrk = 0; iTrk < i->signalPFChargedHadrCands().size(); iTrk++)
            {
                if (i->signalPFChargedHadrCands ()[iTrk]->trackRef().isNonnull()){
                  signalTrToPFTauMatch[noRecoPFTausSignal]=ipftau;
                  recoPFTauSignalTrDz[noRecoPFTausSignal]=i->signalPFChargedHadrCands()[iTrk]->trackRef()->dz(); // dz wrt (0,0,0), to compare offline with HLT
                  recoPFTauSignalTrPt[noRecoPFTausSignal]=i->signalPFChargedHadrCands()[iTrk]->pt();
                  /*
                  std::cout << "Adding sigcand for tau " << ipftau
                            << " pt " << recoPFTauSignalTrPt[noRecoPFTausSignal]
                            << " dz " << recoPFTauSignalTrDz[noRecoPFTausSignal]
                            << std::endl;// */
                  ++noRecoPFTausSignal;
                }
            }

        const reco::PFTauRef thisTauRef(recoPfTaus,ipftau);
            
        if(theRecoPFTauDiscrByTanCOnePercent.isValid()){
        recopfTauDiscrByTancOnePercent[ipftau] = (*theRecoPFTauDiscrByTanCOnePercent)[thisTauRef];}
        if(theRecoPFTauDiscrByIsolation.isValid()){ 
        recopfTauDiscrByIso[ipftau] = (*theRecoPFTauDiscrByIsolation)[thisTauRef];} 
        if(theRecoPFTauDiscrAgainstMuon.isValid()){
        recopfTauDiscrAgainstMuon[ipftau] = (*theRecoPFTauDiscrAgainstMuon)[thisTauRef];}
        if(theRecoPFTauDiscrAgainstElec.isValid()){
        recopfTauDiscrAgainstElec[ipftau] = (*theRecoPFTauDiscrAgainstElec)[thisTauRef];}
        if(theRecoPFTauDiscrByTanCHalfPercent.isValid()){
        recopfTauDiscrByTancHalfPercent[ipftau] = (*theRecoPFTauDiscrByTanCHalfPercent)[thisTauRef];}
        if(theRecoPFTauDiscrByTanCQuarterPercent.isValid()){
        recopfTauDiscrByTancQuarterPercent[ipftau] = (*theRecoPFTauDiscrByTanCQuarterPercent)[thisTauRef];}
        if(theRecoPFTauDiscrByTanCTenthPercent.isValid()){
        recopfTauDiscrByTancTenthPercent[ipftau] = (*theRecoPFTauDiscrByTanCTenthPercent)[thisTauRef];}

        ipftau++;
        }        
    }
   
    if(pfJets.isValid()) {
        nohPFJet  = pfJets->size();
        reco::PFJetCollection Jets = *pfJets;
        std::sort(Jets.begin(),Jets.end(),GetPFPtGreater());
        typedef reco::PFJetCollection::const_iterator pfJetit;
        int ipfJet=0;
        float pfMHTx = 0.;
        float pfMHTy = 0.;
    pfHT         = 0.;

        for(pfJetit i=Jets.begin(); i!=Jets.end(); i++){
            //Ask for Eta,Phi and Et of the Jet:
            pfJetEta[ipfJet] = i->eta();
            pfJetPhi[ipfJet] = i->phi();
            pfJetPt[ipfJet] = i->pt();           
        pfJetE[ipfJet] = i->energy();
            pfJetneutralHadronEnergyFraction[ipfJet]=i->neutralHadronEnergyFraction();
            pfJetchargedHadronFraction[ipfJet] = i->chargedHadronEnergyFraction ();
            pfJetneutralMultiplicity[ipfJet] = i->neutralMultiplicity ();
            pfJetchargedMultiplicity[ipfJet] = i->chargedMultiplicity ();
            pfJetneutralEMFraction[ipfJet] = i->neutralEmEnergyFraction ();
            pfJetchargedEMFraction[ipfJet] = i->chargedEmEnergyFraction ();
        //std::cout << "jet pT = " << i->pt() << " ; neutralHadronEnergyFraction = " << i->neutralHadronEnergyFraction() << std::endl;

        if (i->pt() > 40. && abs(i->eta())<3.0)
          pfHT  += i -> pt();
        if (i->pt() > 30.){
          pfMHTx = pfMHTx + i->px();
          pfMHTy = pfMHTy + i->py();
        }
            ipfJet++;   
        } 
        pfMHT = sqrt(pfMHTx*pfMHTx + pfMHTy*pfMHTy);
        
    }
    nrpj = 0;
    if(recoPFJets.isValid()){
        nrpj = recoPFJets->size();
        reco::PFJetCollection Jets = *recoPFJets;
        std::sort(Jets.begin(),Jets.end(),GetPFPtGreater());
        typedef reco::PFJetCollection::const_iterator pfJetit;
        int ipfJet=0;
        for(pfJetit i=Jets.begin(); i!=Jets.end(); i++){
            //Ask for Eta,Phi and Et of the Jet:
            jpfrecoeta[ipfJet] = i->eta();
            jpfrecophi[ipfJet] = i->phi();
            jpfrecopt[ipfJet] = i->pt();           
            jpfrecoe[ipfJet] = i->energy();           
            jpfreconeutralHadronFraction[ipfJet] = i->neutralHadronEnergyFraction ();
            jpfrecochargedHadronFraction[ipfJet] = i->chargedHadronEnergyFraction ();
            jpfreconeutralMultiplicity[ipfJet] = i->neutralMultiplicity ();
            jpfrecochargedMultiplicity[ipfJet] = i->chargedMultiplicity ();
            jpfreconeutralEMFraction[ipfJet] = i->neutralEmEnergyFraction ();
            jpfrecochargedEMFraction[ipfJet] = i->chargedEmEnergyFraction ();

            ipfJet++;   
        } 

    }
    
}

static float HLTJets::etaBarrel ( )

inlinestaticprivate

Definition at line 194 of file HLTJets.h.

{ return 1.4; }

void HLTJets::setup	(	const edm::ParameterSet &	pSet,
		TTree *	tree
	)

Definition at line 28 of file HLTJets.cc.

References _CalJetMin, _Debug, _GenJetMin, _Monte, edm::ParameterSet::getParameter(), edm::ParameterSet::getParameterNames(), HLTPFTauIsoTrDz, HLTPFTauIsoTrPt, hltpftauIsoTrToPFTauMatch, HLTPFTauSignalTrDz, HLTPFTauSignalTrPt, hltpftauSignalTrToPFTauMatch, htcalet, htcalphi, htcalsum, isoTrToPFTauMatch, jetID, jgene, jgeneta, jgenphi, jgenpt, jhcale, jhcalemf, jhcaleta, jhcaln90, jhcaln90hits, jhcalphi, jhcalpt, jhcorcale, jhcorcalemf, jhcorcaleta, jhcorcaln90, jhcorcaln90hits, jhcorcalphi, jhcorcalpt, jhcorL1L2L3cale, jhcorL1L2L3calemf, jhcorL1L2L3caleta, jhcorL1L2L3caln90, jhcorL1L2L3caln90hits, jhcorL1L2L3calphi, jhcorL1L2L3calpt, jpfrecochargedEMFraction, jpfrecochargedHadronFraction, jpfrecochargedMultiplicity, jpfrecoe, jpfrecoeta, jpfreconeutralEMFraction, jpfreconeutralHadronFraction, jpfreconeutralMultiplicity, jpfrecophi, jpfrecopt, jrcale, jrcalemf, jrcaleta, jrcaln90, jrcaln90hits, jrcalphi, jrcalpt, jrcorcale, jrcorcalemf, jrcorcaleta, jrcorcaln90, jrcorcaln90hits, jrcorcalphi, jrcorcalpt, jrho, l25tauPt, l2tauemiso, l2tauEta, l2tauPhi, l2tauPt, l3tautckiso, mcalmet, mcalphi, mcalsum, mgenmet, mgenphi, mgensum, nhcorjetcal, nhcorL1L2L3jetcal, nhjetcal, njetgen, nohl2tau, noHLTPFTausIso, noHLTPFTausSignal, nohPFJet, nohPFTau, nohPFTauTightCone, nohtau, noRecoPFTausIso, noRecoPFTausSignal, nrcorjetcal, nRecoPFTau, nrjetcal, nrpj, ntowcal, ohpfTauEta, ohpfTauGammaIso, ohpfTauJetPt, ohpfTauLeadPionPt, ohpfTauLeadTrackPt, ohpfTauLeadTrackVtxZ, ohpfTauPhi, ohpfTauProngs, ohpfTauPt, ohpfTauTightConeEta, ohpfTauTightConeGammaIso, ohpfTauTightConeJetPt, ohpfTauTightConeLeadPionPt, ohpfTauTightConeLeadTrackPt, ohpfTauTightConePhi, ohpfTauTightConeProngs, ohpfTauTightConePt, ohpfTauTightConeTrkIso, ohpfTauTrkIso, pfHT, pfJetchargedEMFraction, pfJetchargedHadronFraction, pfJetchargedMultiplicity, pfJetE, pfJetEta, pfJetneutralEMFraction, pfJetneutralHadronEnergyFraction, pfJetneutralMultiplicity, pfJetPhi, pfJetPt, pfmet, pfmetphi, pfMHT, pfsumet, recopfTauDiscrAgainstElec, recopfTauDiscrAgainstMuon, recopfTauDiscrByIso, recopfTauDiscrByTancHalfPercent, recopfTauDiscrByTancOnePercent, recopfTauDiscrByTancQuarterPercent, recopfTauDiscrByTancTenthPercent, recopfTauEta, recopfTauGammaIso, recoPFTauIsoTrDz, recoPFTauIsoTrPt, recopfTauJetPt, recopfTauLeadPionPt, recopfTauLeadTrackPt, recopfTauPhi, recopfTauPt, recoPFTauSignalTrDz, recoPFTauSignalTrPt, recopfTauTrkIso, signalTrToPFTauMatch, tauEta, tauPhi, tauPt, towem, towen, towet, toweta, towhd, towoe, towphi, towR45lower, towR45none, and towR45upper.

Referenced by HLTAnalyzer::HLTAnalyzer().

                                                               {
    
    edm::ParameterSet myJetParams = pSet.getParameter<edm::ParameterSet>("RunParameters") ;
    std::vector<std::string> parameterNames = myJetParams.getParameterNames() ;
    
    for ( std::vector<std::string>::iterator iParam = parameterNames.begin();
         iParam != parameterNames.end(); iParam++ ){
        if  ( (*iParam) == "Monte" ) _Monte =  myJetParams.getParameter<bool>( *iParam );
        else if ( (*iParam) == "Debug" ) _Debug =  myJetParams.getParameter<bool>( *iParam );
        else if ( (*iParam) == "CalJetMin" ) _CalJetMin =  myJetParams.getParameter<double>( *iParam );
        else if ( (*iParam) == "GenJetMin" ) _GenJetMin =  myJetParams.getParameter<double>( *iParam );
    }

    jetID = new reco::helper::JetIDHelper(pSet.getParameter<edm::ParameterSet>("JetIDParams"));

    const int kMaxRecoPFJet = 10000;
    jpfrecopt=new float[kMaxRecoPFJet];
    jpfrecoe=new float[kMaxRecoPFJet];
    jpfrecophi=new float[kMaxRecoPFJet];
    jpfrecoeta=new float[kMaxRecoPFJet];
    jpfreconeutralHadronFraction=new float[kMaxRecoPFJet];
    jpfreconeutralEMFraction=new float[kMaxRecoPFJet];
    jpfrecochargedHadronFraction=new float[kMaxRecoPFJet];
    jpfrecochargedEMFraction=new float[kMaxRecoPFJet];
    jpfreconeutralMultiplicity=new int[kMaxRecoPFJet];
    jpfrecochargedMultiplicity=new int[kMaxRecoPFJet];
    
    const int kMaxJetCal = 10000;
    jhcalpt = new float[kMaxJetCal];
    jhcalphi = new float[kMaxJetCal];
    jhcaleta = new float[kMaxJetCal];
    jhcale = new float[kMaxJetCal];
    jhcalemf = new float[kMaxJetCal]; 
    jhcaln90 = new float[kMaxJetCal]; 
    jhcaln90hits = new float[kMaxJetCal]; 
    
    jhcorcalpt = new float[kMaxJetCal]; 
    jhcorcalphi = new float[kMaxJetCal]; 
    jhcorcaleta = new float[kMaxJetCal]; 
    jhcorcale = new float[kMaxJetCal]; 
    jhcorcalemf = new float[kMaxJetCal]; 
    jhcorcaln90 = new float[kMaxJetCal]; 
    jhcorcaln90hits = new float[kMaxJetCal]; 

    jhcorL1L2L3calpt = new float[kMaxJetCal]; 
    jhcorL1L2L3calphi = new float[kMaxJetCal]; 
    jhcorL1L2L3caleta = new float[kMaxJetCal]; 
    jhcorL1L2L3cale = new float[kMaxJetCal]; 
    jhcorL1L2L3calemf = new float[kMaxJetCal]; 
    jhcorL1L2L3caln90 = new float[kMaxJetCal]; 
    jhcorL1L2L3caln90hits = new float[kMaxJetCal]; 
   
    jrcalpt = new float[kMaxJetCal];
    jrcalphi = new float[kMaxJetCal];
    jrcaleta = new float[kMaxJetCal];
    jrcale = new float[kMaxJetCal];
    jrcalemf = new float[kMaxJetCal]; 
    jrcaln90 = new float[kMaxJetCal]; 
    jrcaln90hits = new float[kMaxJetCal]; 

    jrcorcalpt = new float[kMaxJetCal];
    jrcorcalphi = new float[kMaxJetCal];
    jrcorcaleta = new float[kMaxJetCal];
    jrcorcale = new float[kMaxJetCal];
    jrcorcalemf = new float[kMaxJetCal]; 
    jrcorcaln90 = new float[kMaxJetCal]; 
    jrcorcaln90hits = new float[kMaxJetCal]; 

    const int kMaxJetgen = 10000;
    jgenpt = new float[kMaxJetgen];
    jgenphi = new float[kMaxJetgen];
    jgeneta = new float[kMaxJetgen];
    jgene = new float[kMaxJetgen];
    const int kMaxTower = 10000;
    towet = new float[kMaxTower];
    toweta = new float[kMaxTower];
    towphi = new float[kMaxTower];
    towen = new float[kMaxTower];
    towem = new float[kMaxTower];
    towhd = new float[kMaxTower];
    towoe = new float[kMaxTower];
    towR45upper = new int[kMaxTower];
    towR45lower = new int[kMaxTower];
    towR45none = new int[kMaxTower];
    const int kMaxTau = 500;
    l2tauPt    = new float[kMaxTau];
    l2tauEta   = new float[kMaxTau];
    l2tauPhi   = new float[kMaxTau];
    l2tauemiso = new float[kMaxTau];
    l25tauPt = new float[kMaxTau];
    l3tautckiso = new int[kMaxTau];
    tauEta = new float[kMaxTau];
    tauPt = new float[kMaxTau];
    tauPhi = new float[kMaxTau];
    
    const int kMaxPFTau = 500;
    ohpfTauEta         =  new float[kMaxPFTau];
    ohpfTauProngs      =  new int[kMaxPFTau];
    ohpfTauPhi         =  new float[kMaxPFTau];
    ohpfTauPt          =  new float[kMaxPFTau];
    ohpfTauJetPt       =  new float[kMaxPFTau];
    ohpfTauLeadTrackPt =  new float[kMaxPFTau];
    ohpfTauLeadTrackVtxZ = new float[kMaxPFTau];
    ohpfTauLeadPionPt  =  new float[kMaxPFTau];
    ohpfTauTrkIso      =  new float[kMaxPFTau];
    ohpfTauGammaIso    =  new float[kMaxPFTau];

    ohpfTauTightConeProngs  =  new int[kMaxPFTau];
    ohpfTauTightConeEta         =  new float[kMaxPFTau];
    ohpfTauTightConePhi         =  new float[kMaxPFTau];
    ohpfTauTightConePt          =  new float[kMaxPFTau];
    ohpfTauTightConeJetPt       =  new float[kMaxPFTau];
    ohpfTauTightConeLeadTrackPt =  new float[kMaxPFTau];
    ohpfTauTightConeLeadPionPt  =  new float[kMaxPFTau];
    ohpfTauTightConeTrkIso      =  new float[kMaxPFTau];
    ohpfTauTightConeGammaIso    =  new float[kMaxPFTau];
    
    recopfTauEta     =  new float[kMaxPFTau];
    recopfTauPhi     =  new float[kMaxPFTau];
    recopfTauPt      =  new float[kMaxPFTau];
    recopfTauJetPt   =  new float[kMaxPFTau];
    recopfTauLeadTrackPt =  new float[kMaxPFTau];
    recopfTauLeadPionPt  =  new float[kMaxPFTau];
    recopfTauTrkIso  =  new int[kMaxPFTau];
    recopfTauGammaIso    =  new int[kMaxPFTau];
    recopfTauDiscrByTancOnePercent     =  new float[kMaxPFTau];
    recopfTauDiscrByTancHalfPercent    =  new float[kMaxPFTau];
    recopfTauDiscrByTancQuarterPercent =  new float[kMaxPFTau]; 
    recopfTauDiscrByTancTenthPercent   =  new float[kMaxPFTau];
    recopfTauDiscrByIso        =  new float[kMaxPFTau]; 
    recopfTauDiscrAgainstMuon  =  new float[kMaxPFTau];
    recopfTauDiscrAgainstElec  =  new float[kMaxPFTau];
    
    pfHT    = -100.;
    pfMHT   = -100.;    
    const int kMaxPFJet = 500;
    pfJetEta         = new float[kMaxPFJet];
    pfJetPhi         = new float[kMaxPFJet];
    pfJetPt         = new float[kMaxPFJet];
    pfJetE         = new float[kMaxPFJet];
    pfJetneutralHadronEnergyFraction = new float[kMaxPFJet];
    pfJetchargedHadronFraction = new float[kMaxPFJet];
    pfJetneutralMultiplicity = new float[kMaxPFJet];
    pfJetchargedMultiplicity = new float[kMaxPFJet];
    pfJetneutralEMFraction = new float[kMaxPFJet];
    pfJetchargedEMFraction = new float[kMaxPFJet];


    const int kMaxTauIso = 5000;

    // for offlineHPStau 
    signalTrToPFTauMatch = new int[kMaxTauIso];// index of reconstructed tau in tau collection
    recoPFTauSignalTrDz = new float[kMaxTauIso];
    recoPFTauSignalTrPt = new float[kMaxTauIso];

    isoTrToPFTauMatch = new int[kMaxTauIso]; // index of reconstructed tau in tau collection
    recoPFTauIsoTrDz = new float[kMaxTauIso];
    recoPFTauIsoTrPt = new float[kMaxTauIso];

    // HLT pf taus
    hltpftauSignalTrToPFTauMatch = new int[kMaxTauIso]; // index of HLTPF tau in tau collection
    HLTPFTauSignalTrDz = new float[kMaxTauIso];
    HLTPFTauSignalTrPt = new float[kMaxTauIso];

    hltpftauIsoTrToPFTauMatch = new int[kMaxTauIso]; // index of HLTPF tau in tau collection
    HLTPFTauIsoTrDz = new float[kMaxTauIso];
    HLTPFTauIsoTrPt = new float[kMaxTauIso];

    // offline pftau isolation and signal cands
    HltTree->Branch("NoRecoPFTausSignal",&noRecoPFTausSignal,"NoRecoPFTausSignal/I");
    HltTree->Branch("signalTrToPFTauMatch", signalTrToPFTauMatch,"signalTrToPFTauMatch[NoRecoPFTausSignal]/I");
    HltTree->Branch("recoPFTauSignalTrDz", recoPFTauSignalTrDz,"recoPFTauSignalTrDz[NoRecoPFTausSignal]/F");
    HltTree->Branch("recoPFTauSignalTrPt", recoPFTauSignalTrPt,"recoPFTauSignalTrPt[NoRecoPFTausSignal]/F");

    HltTree->Branch("NoRecoPFTausIso",&noRecoPFTausIso,"NoRecoPFTausIso/I");
    HltTree->Branch("isoTrToPFTauMatch", isoTrToPFTauMatch,"isoTrToPFTauMatch[NoRecoPFTausIso]/I");
    HltTree->Branch("recoPFTauIsoTrDz", recoPFTauIsoTrDz,"recoPFTauIsoTrDz[NoRecoPFTausIso]/F");
    HltTree->Branch("recoPFTauIsoTrPt", recoPFTauIsoTrPt,"recoPFTauIsoTrPt[NoRecoPFTausIso]/F");

    // HLT pftau isolation and signal cands
    HltTree->Branch("NoHLTPFTausSignal",&noHLTPFTausSignal,"NoHLTPFTausSignal/I");
    HltTree->Branch("hltpftauSignalTrToPFTauMatch",
                    hltpftauSignalTrToPFTauMatch,"hltpftauSignalTrToPFTauMatch[NoHLTPFTausSignal]/I");
    HltTree->Branch("HLTPFTauSignalTrDz", HLTPFTauSignalTrDz,"HLTPFTauSignalTrDz[NoHLTPFTausSignal]/F");
    HltTree->Branch("HLTPFTauSignalTrPt", HLTPFTauSignalTrPt,"HLTPFTauSignalTrPt[NoHLTPFTausSignal]/F");

    HltTree->Branch("NoHLTPFTausIso",&noHLTPFTausIso,"NoHLTPFTausIso/I");
    HltTree->Branch("hltpftauIsoTrToPFTauMatch",
                    hltpftauIsoTrToPFTauMatch,"hltpftauIsoTrToPFTauMatch[NoHLTPFTausIso]/I");
    HltTree->Branch("HLTPFTauIsoTrDz", HLTPFTauIsoTrDz,"HLTPFTauIsoTrDz[NoHLTPFTausIso]/F");
    HltTree->Branch("HLTPFTauIsoTrPt", HLTPFTauIsoTrPt,"HLTPFTauIsoTrPt[NoHLTPFTausIso]/F");
    
    // Jet- MEt-specific branches of the tree 

    HltTree->Branch("NrecoJetGen",&njetgen,"NrecoJetGen/I");
    HltTree->Branch("NrecoTowCal",&ntowcal,"NrecoTowCal/I");

    //ccla RECO JETs
    HltTree->Branch("NrecoJetCal",&nrjetcal,"NrecoJetCal/I");
    HltTree->Branch("recoJetCalPt",jrcalpt,"recoJetCalPt[NrecoJetCal]/F");
    HltTree->Branch("recoJetCalPhi",jrcalphi,"recoJetCalPhi[NrecoJetCal]/F");
    HltTree->Branch("recoJetCalEta",jrcaleta,"recoJetCalEta[NrecoJetCal]/F");
    HltTree->Branch("recoJetCalE",jrcale,"recoJetCalE[NrecoJetCal]/F");
    HltTree->Branch("recoJetCalEMF",jrcalemf,"recoJetCalEMF[NrecoJetCal]/F");
    HltTree->Branch("recoJetCalN90",jrcaln90,"recoJetCalN90[NrecoJetCal]/F");
    HltTree->Branch("recoJetCalN90hits",jrcaln90hits,"recoJetCalN90hits[NrecoJetCal]/F");

    HltTree->Branch("NrecoJetCorCal",&nrcorjetcal,"NrecoJetCorCal/I"); 
    HltTree->Branch("recoJetCorCalPt",jrcorcalpt,"recoJetCorCalPt[NrecoJetCorCal]/F"); 
    HltTree->Branch("recoJetCorCalPhi",jrcorcalphi,"recoJetCorCalPhi[NrecoJetCorCal]/F"); 
    HltTree->Branch("recoJetCorCalEta",jrcorcaleta,"recoJetCorCalEta[NrecoJetCorCal]/F"); 
    HltTree->Branch("recoJetCorCalE",jrcorcale,"recoJetCorCalE[NrecoJetCorCal]/F"); 
    HltTree->Branch("recoJetCorCalEMF",jrcorcalemf,"recoJetCorCalEMF[NrecoJetCorCal]/F");
    HltTree->Branch("recoJetCorCalN90",jrcorcaln90,"recoJetCorCalN90[NrecoJetCorCal]/F");
    HltTree->Branch("recoJetCorCalN90hits",jrcorcaln90hits,"recoJetCorCalN90hits[NrecoJetCorCal]/F");
 
    //ccla HLTJETS
    HltTree->Branch("NohJetCal",&nhjetcal,"NohJetCal/I");
    HltTree->Branch("ohJetCalPt",jhcalpt,"ohJetCalPt[NohJetCal]/F");
    HltTree->Branch("ohJetCalPhi",jhcalphi,"ohJetCalPhi[NohJetCal]/F");
    HltTree->Branch("ohJetCalEta",jhcaleta,"ohJetCalEta[NohJetCal]/F");
    HltTree->Branch("ohJetCalE",jhcale,"ohJetCalE[NohJetCal]/F");
    HltTree->Branch("ohJetCalEMF",jhcalemf,"ohJetCalEMF[NohJetCal]/F");
    HltTree->Branch("ohJetCalN90",jhcaln90,"ohJetCalN90[NohJetCal]/F");
    HltTree->Branch("ohJetCalN90hits",jhcaln90hits,"ohJetCalN90hits[NohJetCal]/F");

    HltTree->Branch("NohJetCorCal",&nhcorjetcal,"NohJetCorCal/I");
    HltTree->Branch("ohJetCorCalPt",jhcorcalpt,"ohJetCorCalPt[NohJetCorCal]/F");
    HltTree->Branch("ohJetCorCalPhi",jhcorcalphi,"ohJetCorCalPhi[NohJetCorCal]/F");
    HltTree->Branch("ohJetCorCalEta",jhcorcaleta,"ohJetCorCalEta[NohJetCorCal]/F");
    HltTree->Branch("ohJetCorCalE",jhcorcale,"ohJetCorCalE[NohJetCorCal]/F");
    HltTree->Branch("ohJetCorCalEMF",jhcorcalemf,"ohJetCorCalEMF[NohJetCorCal]/F");
    HltTree->Branch("ohJetCorCalN90",jhcorcaln90,"ohJetCorCalN90[NohJetCorCal]/F");
    HltTree->Branch("ohJetCorCalN90hits",jhcorcaln90hits,"ohJetCorCalN90hits[NohJetCorCal]/F");

    HltTree->Branch("NohJetCorL1L2L3Cal",&nhcorL1L2L3jetcal,"NohJetCorL1L2L3Cal/I");
    HltTree->Branch("ohJetCorL1L2L3CalPt",jhcorL1L2L3calpt,"ohJetCorL1L2L3CalPt[NohJetCorL1L2L3Cal]/F");
    HltTree->Branch("ohJetCorL1L2L3CalPhi",jhcorL1L2L3calphi,"ohJetCorL1L2L3CalPhi[NohJetCorL1L2L3Cal]/F");
    HltTree->Branch("ohJetCorL1L2L3CalEta",jhcorL1L2L3caleta,"ohJetCorL1L2L3CalEta[NohJetCorL1L2L3Cal]/F");
    HltTree->Branch("ohJetCorL1L2L3CalE",jhcorL1L2L3cale,"ohJetCorL1L2L3CalE[NohJetCorL1L2L3Cal]/F");
    HltTree->Branch("ohJetCorL1L2L3CalEMF",jhcorL1L2L3calemf,"ohJetCorL1L2L3CalEMF[NohJetCorL1L2L3Cal]/F");
    HltTree->Branch("ohJetCorL1L2L3CalN90",jhcorL1L2L3caln90,"ohJetCorL1L2L3CalN90[NohJetCorL1L2L3Cal]/F");
    HltTree->Branch("ohJetCorL1L2L3CalN90hits",jhcorL1L2L3caln90hits,"ohJetCorL1L2L3CalN90hits[NohJetCorL1L2L3Cal]/F");
    HltTree->Branch("rho",&jrho,"rho/D");
   
    //ccla GenJets
    HltTree->Branch("recoJetGenPt",jgenpt,"recoJetGenPt[NrecoJetGen]/F");
    HltTree->Branch("recoJetGenPhi",jgenphi,"recoJetGenPhi[NrecoJetGen]/F");
    HltTree->Branch("recoJetGenEta",jgeneta,"recoJetGenEta[NrecoJetGen]/F");
    HltTree->Branch("recoJetGenE",jgene,"recoJetGenE[NrecoJetGen]/F");

    HltTree->Branch("recoTowEt",towet,"recoTowEt[NrecoTowCal]/F");
    HltTree->Branch("recoTowEta",toweta,"recoTowEta[NrecoTowCal]/F");
    HltTree->Branch("recoTowPhi",towphi,"recoTowPhi[NrecoTowCal]/F");
    HltTree->Branch("recoTowE",towen,"recoTowE[NrecoTowCal]/F");
    HltTree->Branch("recoTowEm",towem,"recoTowEm[NrecoTowCal]/F");
    HltTree->Branch("recoTowHad",towhd,"recoTowHad[NrecoTowCal]/F");
    HltTree->Branch("recoTowOE",towoe,"recoTowOE[NrecoTowCal]/F");
    HltTree->Branch("recoTowHCalNoiseR45Upper",towR45upper,"recoTowHCalNoiseR45Upper[NrecoTowCal]/I");
    HltTree->Branch("recoTowHCalNoiseR45Lower",towR45lower,"recoTowHCalNoiseR45Lower[NrecoTowCal]/I");
    HltTree->Branch("recoTowHCalNoiseR45None",towR45none,"recoTowHCalNoiseR45None[NrecoTowCal]/I");

    HltTree->Branch("recoMetCal",&mcalmet,"recoMetCal/F");
    HltTree->Branch("recoMetCalPhi",&mcalphi,"recoMetCalPhi/F");
    HltTree->Branch("recoMetCalSum",&mcalsum,"recoMetCalSum/F");
    HltTree->Branch("recoMetGen",&mgenmet,"recoMetGen/F");
    HltTree->Branch("recoMetGenPhi",&mgenphi,"recoMetGenPhi/F");
    HltTree->Branch("recoMetGenSum",&mgensum,"recoMetGenSum/F");
    HltTree->Branch("recoHTCal",&htcalet,"recoHTCal/F");
    HltTree->Branch("recoHTCalPhi",&htcalphi,"recoHTCalPhi/F");
    HltTree->Branch("recoHTCalSum",&htcalsum,"recoHTCalSum/F");
    HltTree->Branch("recoMetPF", &pfmet, "recoMetPF/F");
    HltTree->Branch("recoMetPFSum", &pfsumet, "recoMetPFSum/F");
    HltTree->Branch("recoMetPFPhi", &pfmetphi, "recoMetPFPhi/F");

    //for(int ieta=0;ieta<NETA;ieta++){std::cout << " ieta " << ieta << " eta min " << CaloTowerEtaBoundries[ieta] <<std::endl;}
    
    
    // Taus
    nohl2tau = 0;
    HltTree->Branch("NohTauL2",&nohl2tau,"NohTauL2/I");
    HltTree->Branch("ohTauL2Pt",l2tauPt,"ohTauL2Pt[NohTauL2]/F");
    HltTree->Branch("ohTauL2Eta",l2tauEta,"ohTauL2Eta[NohTauL2]/F");
    HltTree->Branch("ohTauL2Phi",l2tauPhi,"ohTauL2Phi[NohTauL2]/F");

    nohtau = 0;
    HltTree->Branch("NohTau",&nohtau,"NohTau/I");
    HltTree->Branch("ohTauEta",tauEta,"ohTauEta[NohTau]/F");
    HltTree->Branch("ohTauPhi",tauPhi,"ohTauPhi[NohTau]/F");
    HltTree->Branch("ohTauPt",tauPt,"ohTauPt[NohTau]/F");
    HltTree->Branch("ohTauEiso",l2tauemiso,"ohTauEiso[NohTau]/F");
    HltTree->Branch("ohTauL25Tpt",l25tauPt,"ohTauL25Tpt[NohTau]/F");
    HltTree->Branch("ohTauL3Tiso",l3tautckiso,"ohTauL3Tiso[NohTau]/I");

    //ohpfTaus
    nohPFTau = 0;
    HltTree->Branch("NohpfTau",&nohPFTau,"NohpfTau/I");
    HltTree->Branch("ohpfTauPt",ohpfTauPt,"ohpfTauPt[NohpfTau]/F");
    HltTree->Branch("ohpfTauProngs",ohpfTauProngs,"ohpfTauProngs[NohpfTau]/I");
    HltTree->Branch("ohpfTauEta",ohpfTauEta,"ohpfTauEta[NohpfTau]/F");
    HltTree->Branch("ohpfTauPhi",ohpfTauPhi,"ohpfTauPhi[NohpfTau]/F");
    HltTree->Branch("ohpfTauLeadTrackPt",ohpfTauLeadTrackPt,"ohpfTauLeadTrackPt[NohpfTau]/F");
    HltTree->Branch("ohpfTauLeadTrackVtxZ",ohpfTauLeadTrackVtxZ,"ohpfTauLeadTrackVtxZ[NohpfTau]/F");
    HltTree->Branch("ohpfTauLeadPionPt",ohpfTauLeadPionPt,"ohpfTauLeadPionPt[NohpfTau]/F");
    HltTree->Branch("ohpfTauTrkIso",ohpfTauTrkIso,"ohpfTauTrkIso[NohpfTau]/F");
    HltTree->Branch("ohpfTauGammaIso",ohpfTauGammaIso,"ohpfTauGammaIso[NohpfTau]/F");
    HltTree->Branch("ohpfTauJetPt",ohpfTauJetPt,"ohpfTauJetPt[NohpfTau]/F");    

    //ohpfTaus tight cone
    nohPFTauTightCone = 0;
    HltTree->Branch("NohpfTauTightCone",&nohPFTauTightCone,"NohpfTauTightCone/I");
    HltTree->Branch("ohpfTauTightConePt",ohpfTauTightConePt,"ohpfTauTightConePt[NohpfTauTightCone]/F");
    HltTree->Branch("ohpfTauTightConeProngs",ohpfTauTightConeProngs,"ohpfTauProngs[NohpfTauTightCone]/I");
    HltTree->Branch("ohpfTauTightConeEta",ohpfTauTightConeEta,"ohpfTauEta[NohpfTauTightCone]/F");
    HltTree->Branch("ohpfTauTightConePhi",ohpfTauTightConePhi,"ohpfTauPhi[NohpfTauTightCone]/F");
    HltTree->Branch("ohpfTauTightConeLeadTrackPt",ohpfTauTightConeLeadTrackPt,"ohpfTauTightConeLeadTrackPt[NohpfTauTightCone]/F");
    HltTree->Branch("ohpfTauTightConeLeadPionPt",ohpfTauTightConeLeadPionPt,"ohpfTauTightConeLeadPionPt[NohpfTauTightCone]/F");
    HltTree->Branch("ohpfTauTightConeTrkIso",ohpfTauTightConeTrkIso,"ohpfTauTightConeTrkIso[NohpfTauTightCone]/F");
    HltTree->Branch("ohpfTauTightConeGammaIso",ohpfTauTightConeGammaIso,"ohpfTauTightConeGammaIso[NohpfTauTightCone]/F");
    HltTree->Branch("ohpfTauTightConeJetPt",ohpfTauTightConeJetPt,"ohpfTauTightConeJetPt[NohpfTauTightCone]/F");
   
   //Reco PFTaus
    nRecoPFTau = 0;
    HltTree->Branch("NRecoPFTau",&nRecoPFTau,"NRecoPFTau/I");
    HltTree->Branch("recopfTauPt",recopfTauPt,"recopfTauPt[NRecoPFTau]/F");
    HltTree->Branch("recopfTauEta",recopfTauEta,"recopfTauEta[NRecoPFTau]/F");
    HltTree->Branch("recopfTauPhi",recopfTauPhi,"recopfTauPhi[NRecoPFTau]/F");
    HltTree->Branch("recopfTauLeadTrackPt",recopfTauLeadTrackPt,"recopfTauLeadTrackPt[NRecoPFTau]/F");
    HltTree->Branch("recopfTauLeadPionPt",recopfTauLeadPionPt,"recopfTauLeadPionPt[NRecoPFTau]/F");
    HltTree->Branch("recopfTauTrkIso",recopfTauTrkIso,"recopfTauTrkIso[NRecoPFTau]/I");
    HltTree->Branch("recopfTauGammaIso",recopfTauGammaIso,"recopfTauGammaIso[NRecoPFTau]/I");
    HltTree->Branch("recopfTauJetPt",recopfTauJetPt,"recopfTauJetPt[NRecoPFTau]/F");   
    HltTree->Branch("recopfTauDiscrByTancOnePercent",recopfTauDiscrByTancOnePercent,"recopfTauDiscrByTancOnePercent[NRecoPFTau]/F");   
    HltTree->Branch("recopfTauDiscrByTancHalfPercent",recopfTauDiscrByTancHalfPercent,"recopfTauDiscrByTancHalfPercent[NRecoPFTau]/F");   
    HltTree->Branch("recopfTauDiscrByTancQuarterPercent",recopfTauDiscrByTancQuarterPercent,"recopfTauDiscrByTancQuarterPercent[NRecoPFTau]/F");   
    HltTree->Branch("recopfTauDiscrByTancTenthPercent",recopfTauDiscrByTancTenthPercent,"recopfTauDiscrByTancTenthPercent[NRecoPFTau]/F");   
    HltTree->Branch("recopfTauDiscrByIso",recopfTauDiscrByIso,"recopfTauDiscrByIso[NRecoPFTau]/F");   
    HltTree->Branch("recopfTauDiscrAgainstMuon",recopfTauDiscrAgainstMuon,"recopfTauDiscrAgainstMuon[NRecoPFTau]/F");
    HltTree->Branch("recopfTauDiscrAgainstElec",recopfTauDiscrAgainstElec,"recopfTauDiscrAgainstElec[NRecoPFTau]/F");
  
    //PFJets
    nohPFJet = 0;
    HltTree->Branch("pfHT",&pfHT,"pfHT/F");
    HltTree->Branch("pfMHT",&pfMHT,"pfMHT/F");
    HltTree->Branch("NohPFJet",&nohPFJet,"NohPFJet/I");
    HltTree->Branch("pfJetPt",pfJetPt,"pfJetPt[NohPFJet]/F");
    HltTree->Branch("pfJetE",pfJetE,"pfJetE[NohPFJet]/F");
    HltTree->Branch("pfJetEta",pfJetEta,"pfJetEta[NohPFJet]/F");
    HltTree->Branch("pfJetPhi",pfJetPhi,"pfJetPhi[NohPFJet]/F");
    HltTree->Branch("pfJetneutralHadronEnergyFraction",pfJetneutralHadronEnergyFraction,"pfJetneutralHadronEnergyFraction[NohPFJet]/F");
    HltTree->Branch("pfJetchargedHadronFraction",pfJetchargedHadronFraction,"pfJetchargedHadronFraction[NohPFJet]/F");
    HltTree->Branch("pfJetneutralMultiplicity",pfJetneutralMultiplicity,"pfJetneutralMultiplicity[NohPFJet]/F");
    HltTree->Branch("pfJetchargedMultiplicity",pfJetchargedMultiplicity,"pfJetchargedMultiplicity[NohPFJet]/F");
    HltTree->Branch("pfJetneutralEMFraction",pfJetneutralEMFraction,"pfJetneutralEMFraction[NohPFJet]/F");
    HltTree->Branch("pfJetchargedEMFraction",pfJetchargedEMFraction,"pfJetchargedEMFraction[NohPFJet]/F");

    //RECO PFJets
    HltTree->Branch("nrpj",&nrpj,"nrpj/I");
    HltTree->Branch("recopfJetpt",                    jpfrecopt,                     "recopfJetpt[nrpj]/F");
    HltTree->Branch("recopfJete",                     jpfrecoe,                      "recopfJete[nrpj]/F");
    HltTree->Branch("recopfJetphi",                   jpfrecophi,                    "recopfJetphi[nrpj]/F");
    HltTree->Branch("recopfJeteta",                   jpfrecoeta,                    "recopfJeteta[nrpj]/F");
    HltTree->Branch("recopfJetneutralHadronFraction", jpfreconeutralHadronFraction,  "recopfJetneutralHadronFraction[nrpj]/F");
    HltTree->Branch("recopfJetneutralEMFraction",     jpfreconeutralEMFraction,      "recopfJetneutralEMFraction[nrpj]/F");
    HltTree->Branch("recopfJetchargedHadronFraction", jpfrecochargedHadronFraction,  "recopfJetchargedHadronFraction[nrpj]/F");
    HltTree->Branch("recopfJetchargedEMFraction",     jpfrecochargedEMFraction,      "recopfJetchargedEMFraction[nrpj]/F");
    HltTree->Branch("recopfJetneutralMultiplicity",   jpfreconeutralMultiplicity,    "recopfJetneutralMultiplicity[nrpj]/I");
    HltTree->Branch("recopfJetchargedMultiplicity",   jpfrecochargedMultiplicity,    "recopfJetchargedMultiplicity[nrpj]/I"); 
    
}

Member Data Documentation

float HLTJets::_CalJetMin

private

Definition at line 190 of file HLTJets.h.

Referenced by analyze(), HLTJets(), and setup().

bool HLTJets::_Debug

private

Definition at line 189 of file HLTJets.h.

Referenced by analyze(), HLTJets(), and setup().

float HLTJets::_GenJetMin

private

Definition at line 190 of file HLTJets.h.

Referenced by analyze(), HLTJets(), and setup().

bool HLTJets::_Monte

private

Definition at line 189 of file HLTJets.h.

Referenced by analyze(), HLTJets(), and setup().

TString HLTJets::calopfx

private

Definition at line 197 of file HLTJets.h.

int HLTJets::evtCounter

private

Definition at line 192 of file HLTJets.h.

Referenced by HLTJets().

TString HLTJets::gjetpfx

private

Definition at line 197 of file HLTJets.h.

TString HLTJets::gmetpfx

private

Definition at line 197 of file HLTJets.h.

float* HLTJets::HLTPFTauIsoTrDz

private

Definition at line 182 of file HLTJets.h.

Referenced by analyze(), and setup().

float* HLTJets::HLTPFTauIsoTrPt

private

Definition at line 183 of file HLTJets.h.

Referenced by analyze(), and setup().

int* HLTJets::hltpftauIsoTrToPFTauMatch

private

Definition at line 181 of file HLTJets.h.

Referenced by analyze(), and setup().

float* HLTJets::HLTPFTauSignalTrDz

private

Definition at line 177 of file HLTJets.h.

Referenced by analyze(), and setup().

float* HLTJets::HLTPFTauSignalTrPt

private

Definition at line 178 of file HLTJets.h.

Referenced by analyze(), and setup().

int* HLTJets::hltpftauSignalTrToPFTauMatch

private

Definition at line 176 of file HLTJets.h.

Referenced by analyze(), and setup().

float HLTJets::htcalet

private

Definition at line 124 of file HLTJets.h.

Referenced by analyze(), and setup().

float HLTJets::htcalphi

private

Definition at line 124 of file HLTJets.h.

Referenced by analyze(), and setup().

float HLTJets::htcalsum

private

Definition at line 124 of file HLTJets.h.

Referenced by analyze(), and setup().

int* HLTJets::isoTrToPFTauMatch

private

Definition at line 171 of file HLTJets.h.

Referenced by analyze(), and setup().

reco::helper::JetIDHelper* HLTJets::jetID

private

Definition at line 185 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jgene

private

Definition at line 120 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jgeneta

private

Definition at line 120 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jgenphi

private

Definition at line 120 of file HLTJets.h.

Referenced by analyze(), and setup().

float* HLTJets::jgenpt

private

Definition at line 120 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jhcale

private

Definition at line 112 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jhcalemf

private

Definition at line 112 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jhcaleta

private

Definition at line 112 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jhcaln90

private

Definition at line 112 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jhcaln90hits

private

Definition at line 112 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jhcalphi

private

Definition at line 112 of file HLTJets.h.

Referenced by analyze(), and setup().

float* HLTJets::jhcalpt

private

Definition at line 112 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jhcorcale

private

Definition at line 113 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jhcorcalemf

private

Definition at line 113 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jhcorcaleta

private

Definition at line 113 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jhcorcaln90

private

Definition at line 113 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jhcorcaln90hits

private

Definition at line 113 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jhcorcalphi

private

Definition at line 113 of file HLTJets.h.

Referenced by analyze(), and setup().

float* HLTJets::jhcorcalpt

private

Definition at line 113 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jhcorL1L2L3cale

private

Definition at line 114 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jhcorL1L2L3calemf

private

Definition at line 114 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jhcorL1L2L3caleta

private

Definition at line 114 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jhcorL1L2L3caln90

private

Definition at line 114 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jhcorL1L2L3caln90hits

private

Definition at line 114 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jhcorL1L2L3calphi

private

Definition at line 114 of file HLTJets.h.

Referenced by analyze(), and setup().

float* HLTJets::jhcorL1L2L3calpt

private

Definition at line 114 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jpfrecochargedEMFraction

private

Definition at line 159 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jpfrecochargedHadronFraction

private

Definition at line 159 of file HLTJets.h.

Referenced by analyze(), and setup().

int * HLTJets::jpfrecochargedMultiplicity

private

Definition at line 160 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jpfrecoe

private

Definition at line 159 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jpfrecoeta

private

Definition at line 159 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jpfreconeutralEMFraction

private

Definition at line 159 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jpfreconeutralHadronFraction

private

Definition at line 159 of file HLTJets.h.

Referenced by analyze(), and setup().

int* HLTJets::jpfreconeutralMultiplicity

private

Definition at line 160 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jpfrecophi

private

Definition at line 159 of file HLTJets.h.

Referenced by analyze(), and setup().

float* HLTJets::jpfrecopt

private

Definition at line 159 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jrcale

private

Definition at line 117 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jrcalemf

private

Definition at line 117 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jrcaleta

private

Definition at line 117 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jrcaln90

private

Definition at line 117 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jrcaln90hits

private

Definition at line 117 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jrcalphi

private

Definition at line 117 of file HLTJets.h.

Referenced by analyze(), and setup().

float* HLTJets::jrcalpt

private

Definition at line 117 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jrcorcale

private

Definition at line 118 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jrcorcalemf

private

Definition at line 118 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jrcorcaleta

private

Definition at line 118 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jrcorcaln90

private

Definition at line 118 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jrcorcaln90hits

private

Definition at line 118 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::jrcorcalphi

private

Definition at line 118 of file HLTJets.h.

Referenced by analyze(), and setup().

float* HLTJets::jrcorcalpt

private

Definition at line 118 of file HLTJets.h.

Referenced by analyze(), and setup().

double HLTJets::jrho

private

Definition at line 115 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::l25tauPt

private

Definition at line 134 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::l2tauemiso

private

Definition at line 134 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::l2tauEta

private

Definition at line 134 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::l2tauPhi

private

Definition at line 134 of file HLTJets.h.

Referenced by analyze(), and setup().

float* HLTJets::l2tauPt

private

Definition at line 134 of file HLTJets.h.

Referenced by analyze(), and setup().

int* HLTJets::l3tautckiso

private

Definition at line 135 of file HLTJets.h.

Referenced by analyze(), and setup().

float HLTJets::mcalmet

private

Definition at line 123 of file HLTJets.h.

Referenced by analyze(), and setup().

float HLTJets::mcalphi

private

Definition at line 123 of file HLTJets.h.

Referenced by analyze(), and setup().

float HLTJets::mcalsum

private

Definition at line 123 of file HLTJets.h.

Referenced by analyze(), and setup().

float HLTJets::mgenmet

private

Definition at line 125 of file HLTJets.h.

Referenced by analyze(), and setup().

float HLTJets::mgenphi

private

Definition at line 125 of file HLTJets.h.

Referenced by analyze(), and setup().

float HLTJets::mgensum

private

Definition at line 125 of file HLTJets.h.

Referenced by analyze(), and setup().

int HLTJets::nhcorjetcal

private

Definition at line 130 of file HLTJets.h.

Referenced by analyze(), and setup().

int HLTJets::nhcorL1L2L3jetcal

private

Definition at line 130 of file HLTJets.h.

Referenced by analyze(), and setup().

int HLTJets::nhjetcal

private

Definition at line 130 of file HLTJets.h.

Referenced by analyze(), and setup().

int HLTJets::njetgen

private

Definition at line 129 of file HLTJets.h.

Referenced by analyze(), and setup().

int HLTJets::nohl2tau

private

Definition at line 136 of file HLTJets.h.

Referenced by analyze(), and setup().

int HLTJets::noHLTPFTausIso

private

Definition at line 180 of file HLTJets.h.

Referenced by analyze(), and setup().

int HLTJets::noHLTPFTausSignal

private

Definition at line 175 of file HLTJets.h.

Referenced by analyze(), and setup().

int HLTJets::nohPFJet

private

Definition at line 151 of file HLTJets.h.

Referenced by analyze(), and setup().

int HLTJets::nohPFTau

private

Definition at line 139 of file HLTJets.h.

Referenced by analyze(), and setup().

int HLTJets::nohPFTauTightCone

private

Definition at line 144 of file HLTJets.h.

Referenced by analyze(), and setup().

int HLTJets::nohtau

private

Definition at line 136 of file HLTJets.h.

Referenced by analyze(), and setup().

int HLTJets::noRecoPFTausIso

private

Definition at line 170 of file HLTJets.h.

Referenced by analyze(), and setup().

int HLTJets::noRecoPFTausSignal

private

Definition at line 165 of file HLTJets.h.

Referenced by analyze(), and setup().

int HLTJets::nrcorjetcal

private

Definition at line 131 of file HLTJets.h.

Referenced by analyze(), and setup().

int HLTJets::nRecoPFTau

private

Definition at line 154 of file HLTJets.h.

Referenced by analyze(), and setup().

int HLTJets::nrjetcal

private

Definition at line 131 of file HLTJets.h.

Referenced by analyze(), and setup().

int HLTJets::nrpj

private

Definition at line 161 of file HLTJets.h.

Referenced by analyze(), and setup().

int HLTJets::ntowcal

private

Definition at line 129 of file HLTJets.h.

Referenced by analyze(), and setup().

float* HLTJets::ohpfTauEta

private

Definition at line 141 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::ohpfTauGammaIso

private

Definition at line 142 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::ohpfTauJetPt

private

Definition at line 141 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::ohpfTauLeadPionPt

private

Definition at line 141 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::ohpfTauLeadTrackPt

private

Definition at line 141 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::ohpfTauLeadTrackVtxZ

private

Definition at line 141 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::ohpfTauPhi

private

Definition at line 141 of file HLTJets.h.

Referenced by analyze(), and setup().

int* HLTJets::ohpfTauProngs

private

Definition at line 140 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::ohpfTauPt

private

Definition at line 141 of file HLTJets.h.

Referenced by analyze(), and setup().

float* HLTJets::ohpfTauTightConeEta

private

Definition at line 146 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::ohpfTauTightConeGammaIso

private

Definition at line 147 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::ohpfTauTightConeJetPt

private

Definition at line 146 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::ohpfTauTightConeLeadPionPt

private

Definition at line 146 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::ohpfTauTightConeLeadTrackPt

private

Definition at line 146 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::ohpfTauTightConePhi

private

Definition at line 146 of file HLTJets.h.

Referenced by analyze(), and setup().

int* HLTJets::ohpfTauTightConeProngs

private

Definition at line 145 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::ohpfTauTightConePt

private

Definition at line 146 of file HLTJets.h.

Referenced by analyze(), and setup().

float* HLTJets::ohpfTauTightConeTrkIso

private

Definition at line 147 of file HLTJets.h.

Referenced by analyze(), and setup().

float* HLTJets::ohpfTauTrkIso

private

Definition at line 142 of file HLTJets.h.

Referenced by analyze(), and setup().

float HLTJets::pfHT

private

Definition at line 149 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::pfJetchargedEMFraction

private

Definition at line 152 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::pfJetchargedHadronFraction

private

Definition at line 152 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::pfJetchargedMultiplicity

private

Definition at line 152 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::pfJetE

private

Definition at line 152 of file HLTJets.h.

Referenced by analyze(), and setup().

float* HLTJets::pfJetEta

private

Definition at line 152 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::pfJetneutralEMFraction

private

Definition at line 152 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::pfJetneutralHadronEnergyFraction

private

Definition at line 152 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::pfJetneutralMultiplicity

private

Definition at line 152 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::pfJetPhi

private

Definition at line 152 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::pfJetPt

private

Definition at line 152 of file HLTJets.h.

Referenced by analyze(), and setup().

float HLTJets::pfmet

private

Definition at line 127 of file HLTJets.h.

Referenced by analyze(), and setup().

float HLTJets::pfmetphi

private

Definition at line 127 of file HLTJets.h.

Referenced by analyze(), and setup().

float HLTJets::pfMHT

private

Definition at line 150 of file HLTJets.h.

Referenced by analyze(), and setup().

float HLTJets::pfsumet

private

Definition at line 127 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::recopfTauDiscrAgainstElec

private

Definition at line 157 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::recopfTauDiscrAgainstMuon

private

Definition at line 157 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::recopfTauDiscrByIso

private

Definition at line 157 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::recopfTauDiscrByTancHalfPercent

private

Definition at line 157 of file HLTJets.h.

Referenced by analyze(), and setup().

float* HLTJets::recopfTauDiscrByTancOnePercent

private

Definition at line 157 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::recopfTauDiscrByTancQuarterPercent

private

Definition at line 157 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::recopfTauDiscrByTancTenthPercent

private

Definition at line 157 of file HLTJets.h.

Referenced by analyze(), and setup().

float* HLTJets::recopfTauEta

private

Definition at line 155 of file HLTJets.h.

Referenced by analyze(), and setup().

int * HLTJets::recopfTauGammaIso

private

Definition at line 156 of file HLTJets.h.

Referenced by analyze(), and setup().

float* HLTJets::recoPFTauIsoTrDz

private

Definition at line 172 of file HLTJets.h.

Referenced by analyze(), and setup().

float* HLTJets::recoPFTauIsoTrPt

private

Definition at line 173 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::recopfTauJetPt

private

Definition at line 155 of file HLTJets.h.

Referenced by setup().

float * HLTJets::recopfTauLeadPionPt

private

Definition at line 155 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::recopfTauLeadTrackPt

private

Definition at line 155 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::recopfTauPhi

private

Definition at line 155 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::recopfTauPt

private

Definition at line 155 of file HLTJets.h.

Referenced by analyze(), and setup().

float* HLTJets::recoPFTauSignalTrDz

private

Definition at line 167 of file HLTJets.h.

Referenced by analyze(), and setup().

float* HLTJets::recoPFTauSignalTrPt

private

Definition at line 168 of file HLTJets.h.

Referenced by analyze(), and setup().

int* HLTJets::recopfTauTrkIso

private

Definition at line 156 of file HLTJets.h.

Referenced by analyze(), and setup().

TString HLTJets::rjetpfx

private

Definition at line 197 of file HLTJets.h.

TString HLTJets::rmetpfx

private

Definition at line 197 of file HLTJets.h.

int* HLTJets::signalTrToPFTauMatch

private

Definition at line 166 of file HLTJets.h.

Referenced by analyze(), and setup().

float* HLTJets::tauEta

private

Definition at line 137 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::tauPhi

private

Definition at line 137 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::tauPt

private

Definition at line 137 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::towem

private

Definition at line 121 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::towen

private

Definition at line 121 of file HLTJets.h.

Referenced by analyze(), and setup().

float* HLTJets::towet

private

Definition at line 121 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::toweta

private

Definition at line 121 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::towhd

private

Definition at line 121 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::towoe

private

Definition at line 121 of file HLTJets.h.

Referenced by analyze(), and setup().

float * HLTJets::towphi

private

Definition at line 121 of file HLTJets.h.

Referenced by analyze(), and setup().

int * HLTJets::towR45lower

private

Definition at line 122 of file HLTJets.h.

Referenced by analyze(), and setup().

int * HLTJets::towR45none

private

Definition at line 122 of file HLTJets.h.

Referenced by analyze(), and setup().

int* HLTJets::towR45upper

private

Definition at line 122 of file HLTJets.h.

Referenced by analyze(), and setup().