CMS 3D CMS Logo

 All Classes Namespaces Files Functions Variables Typedefs Enumerations Enumerator Properties Friends Macros Pages
List of all members | Public Member Functions | Private Member Functions | Private Attributes
myJetAna Class Reference

#include <myJetAna.h>

Inheritance diagram for myJetAna:
edm::EDAnalyzer edm::EDConsumerBase

Public Member Functions

 myJetAna (const edm::ParameterSet &)
 
- 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

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

Private Attributes

TH1F * caloEta
 
TH1F * caloEtaEt
 
std::string CaloJetAlgorithm
 
TH1F * caloPhi
 
TH1F * dijetMass
 
TH1F * EBEne
 
TH1F * EBEneTh
 
TH1F * EBEneX
 
TH1F * EBEneY
 
TH1F * EBTime
 
TH1F * EBTimeTh
 
TH1F * EBTimeX
 
TH1F * EBTimeY
 
TH2F * EBvHB
 
TH2F * ECALvHCAL
 
TH2F * ECALvHCALEta1
 
TH2F * ECALvHCALEta2
 
TH2F * ECALvHCALEta3
 
TH1F * EEEne
 
TH1F * EEEneTh
 
TH1F * EEEneX
 
TH1F * EEEneY
 
TH1F * EEnegEne
 
TH1F * EEnegTime
 
TH1F * EEposEne
 
TH1F * EEposTime
 
TH1F * EETime
 
TH1F * EETimeTh
 
TH1F * EETimeX
 
TH1F * EETimeY
 
TH2F * EEvHE
 
TH1F * emEneLeadJetEta1
 
TH1F * emEneLeadJetEta2
 
TH1F * emEneLeadJetEta3
 
TProfile * EMF_Eta
 
TProfile * EMF_EtaX
 
TProfile * EMF_Phi
 
TProfile * EMF_PhiX
 
TH1F * ETime
 
TH2F * fedSize
 
std::string GenJetAlgorithm
 
TH1F * h_ClusteredE
 
TH2F * h_EmEnergy
 
TH1F * h_EMFracCal
 
TH1F * h_et
 
TH1F * h_eta
 
TH1F * h_etaCal
 
TH1F * h_etaGen
 
TH1F * h_etaGenL
 
TH2F * h_HadEnergy
 
TH1F * h_jet1Eta
 
TH1F * h_jet1Pt
 
TH1F * h_jet1PtHLT
 
TH1F * h_jet2Eta
 
TH1F * h_jet2Pt
 
TH1F * h_jetEt
 
TH1F * h_nCalJets
 
TH1F * h_nGenJets
 
TH1F * h_nTowersCal
 
TH1F * h_phi
 
TH1F * h_phiCal
 
TH1F * h_phiGen
 
TH1F * h_phiGenL
 
TH1F * h_pt
 
TH1F * h_ptCal
 
TH1F * h_ptGen
 
TH1F * h_ptGenL
 
TH1F * h_ptHPD
 
TH1F * h_ptRBX
 
TH1F * h_ptTower
 
TH1F * h_TotalClusteredE
 
TH1F * h_TotalUnclusteredE
 
TH1F * h_TotalUnclusteredEt
 
TH1F * h_Trk_NTrk
 
TH1F * h_Trk_pt
 
TH1F * h_UnclusteredE
 
TH1F * h_UnclusteredEt
 
TH1F * h_UnclusteredEts
 
TH1F * h_VNTrks
 
TH1F * h_Vx
 
TH1F * h_Vy
 
TH1F * h_Vz
 
TH1F * hadEneLeadJetEta1
 
TH1F * hadEneLeadJetEta2
 
TH1F * hadEneLeadJetEta3
 
TH1F * hadFracEta1
 
TH1F * hadFracEta2
 
TH1F * hadFracEta3
 
TH1F * HBEne
 
TH1F * HBEneOOT
 
TH1F * HBEneOOTTh
 
TH1F * HBEneOOTTh1
 
TH1F * HBEneTh
 
TH1F * HBEneTh1
 
TH1F * HBEneTThr
 
TH1F * HBEneX
 
TH1F * HBEneY
 
TH2F * HBocc
 
TH2F * HBoccOOT
 
TH1F * HBTime
 
TH1F * HBTimeFlagged
 
TH1F * HBTimeFlagged2
 
TH1F * HBTimeTh
 
TH1F * HBTimeTh1
 
TH1F * HBTimeTh1Flagged
 
TH1F * HBTimeTh1Flagged2
 
TH1F * HBTimeTh1R
 
TH1F * HBTimeTh2
 
TH1F * HBTimeTh2Flagged
 
TH1F * HBTimeTh2Flagged2
 
TH1F * HBTimeTh2R
 
TH1F * HBTimeTh3
 
TH1F * HBTimeTh3R
 
TH1F * HBTimeThFlagged
 
TH1F * HBTimeThFlagged2
 
TH1F * HBTimeThR
 
TH1F * HBTimeX
 
TH1F * HBTimeY
 
TH2F * HBTvsE
 
edm::InputTag hcalNoiseSummaryTag_
 
TH1F * HEEne
 
TH1F * HEEneOOT
 
TH1F * HEEneOOTTh
 
TH1F * HEEneOOTTh1
 
TH1F * HEEneTh
 
TH1F * HEEneTh1
 
TH1F * HEEneTThr
 
TH1F * HEEneX
 
TH1F * HEEneY
 
TH1F * HEnegEne
 
TH1F * HEnegTime
 
TH2F * HEocc
 
TH2F * HEoccOOT
 
TH1F * HEposEne
 
TH1F * HEposTime
 
TH1F * HETime
 
TH1F * HETimeFlagged
 
TH1F * HETimeFlagged2
 
TH1F * HETimeTh
 
TH1F * HETimeTh1
 
TH1F * HETimeTh1Flagged
 
TH1F * HETimeTh1Flagged2
 
TH1F * HETimeTh1R
 
TH1F * HETimeTh2
 
TH1F * HETimeTh2Flagged
 
TH1F * HETimeTh2Flagged2
 
TH1F * HETimeTh2R
 
TH1F * HETimeTh3
 
TH1F * HETimeTh3R
 
TH1F * HETimeThFlagged
 
TH1F * HETimeThFlagged2
 
TH1F * HETimeThR
 
TH1F * HETimeX
 
TH1F * HETimeY
 
TH2F * HETvsE
 
TH1F * hf_sumTowerAllEx
 
TH1F * hf_sumTowerAllEy
 
TH1F * hf_TowerJetEt
 
TH1F * HFDigiTimeEne
 
TH1F * HFDigiTimeEta
 
TH1F * HFDigiTimeNHits
 
TH1F * HFDigiTimePhi
 
TH1F * HFDigiTimeTime
 
TH1F * HFEne
 
TH1F * HFEneFlagged
 
TH1F * HFEneFlagged2
 
TH1F * HFEneM
 
TH1F * HFEneOOT
 
TH1F * HFEneOOTTh
 
TH1F * HFEneOOTTh1
 
TH1F * HFEneP
 
TH1F * HFEnePMT0
 
TH1F * HFEnePMT1
 
TH1F * HFEnePMT2
 
TH1F * HFEneTh
 
TH1F * HFEneTh1
 
TH1F * HFEneTThr
 
TH1F * HFEtaFlagged
 
TH1F * HFEtaFlaggedL
 
TH1F * HFEtaFlaggedLN
 
TH1F * HFEtaFlaggedS
 
TH1F * HFEtaFlaggedSN
 
TProfile * HFEtaNFlagged
 
TH2F * HFEtaPhiNFlagged
 
TH1F * HFLEne
 
TH1F * HFLEneAll
 
TH1F * HFLEneAllF
 
TH1F * HFLEneNoS
 
TH1F * HFLEneNoSFlagged
 
TH1F * HFLEneNoSFlaggedN
 
TH1F * HFLongShortEne
 
TH1F * HFLongShortEta
 
TH1F * HFLongShortNHits
 
TH1F * HFLongShortPhi
 
TH1F * HFLongShortTime
 
TH1F * HFLSRatio
 
TH1F * HFLTime
 
TH2F * HFLvsS
 
TH1F * HFMET
 
TH2F * HFocc
 
TH2F * HFoccFlagged
 
TH2F * HFoccFlagged2
 
TH2F * HFoccOOT
 
TH2F * HFoccTime
 
TH1F * HFOERatio
 
TH1F * HFRecHitEne
 
TH1F * HFRecHitEneClean
 
TH1F * HFRecHitTime
 
TH1F * HFSEne
 
TH1F * HFSEneAll
 
TH1F * HFSEneAllF
 
TH1F * HFSEneNoL
 
TH1F * HFSEneNoLFlagged
 
TH1F * HFSEneNoLFlaggedN
 
TH1F * HFSTime
 
TH1F * HFSumEt
 
TH1F * HFTime
 
TH1F * HFTimeFlagged
 
TH1F * HFTimeFlagged2
 
TH1F * HFTimeFlagged3
 
TH1F * HFTimeM
 
TH1F * HFTimeP
 
TH1F * HFTimePM
 
TH1F * HFTimePMa
 
TH1F * HFTimePMT0
 
TH1F * HFTimePMT1
 
TH1F * HFTimePMT2
 
TH1F * HFTimeTh
 
TH1F * HFTimeTh1
 
TH1F * HFTimeTh1Flagged2
 
TH1F * HFTimeTh1Flagged3
 
TH1F * HFTimeTh1R
 
TH1F * HFTimeTh2
 
TH1F * HFTimeTh2Flagged
 
TH1F * HFTimeTh2Flagged2
 
TH1F * HFTimeTh2Flagged3
 
TH1F * HFTimeTh2R
 
TH1F * HFTimeTh3
 
TH1F * HFTimeTh3Flagged
 
TH1F * HFTimeTh3Flagged2
 
TH1F * HFTimeTh3Flagged3
 
TH1F * HFTimeTh3R
 
TH1F * HFTimeThFlagged
 
TH1F * HFTimeThFlagged2
 
TH1F * HFTimeThFlagged3
 
TH1F * HFTimeThFlaggedR
 
TH1F * HFTimeThFlaggedR1
 
TH1F * HFTimeThFlaggedR2
 
TH1F * HFTimeThFlaggedR3
 
TH1F * HFTimeThFlaggedR4
 
TH1F * HFTimeThFlaggedRM
 
TH1F * HFTimeThR
 
TProfile * HFTimeVsiEtaM
 
TProfile * HFTimeVsiEtaM20
 
TProfile * HFTimeVsiEtaM5
 
TProfile * HFTimeVsiEtaP
 
TProfile * HFTimeVsiEtaP20
 
TProfile * HFTimeVsiEtaP5
 
TH2F * HFTvsE
 
TH2F * HFTvsEFlagged
 
TH2F * HFTvsEFlagged2
 
TH2F * HFTvsEFlagged2Thr
 
TH2F * HFTvsEFlaggedThr
 
TH2F * HFTvsEThr
 
TH2F * HFvsZ
 
TH1F * hitEta
 
TH1F * hitEtaEt
 
TH1F * hitPhi
 
TH1F * HOEne
 
TH1F * HOEneOOT
 
TH1F * HOEneOOTTh
 
TH1F * HOEneOOTTh1
 
TH1F * HOEneTh
 
TH1F * HOEneTh1
 
TH1F * HOHEne
 
TH1F * HOHr0Ene
 
TH1F * HOHr0Time
 
TH1F * HOHrm1Ene
 
TH1F * HOHrm1Time
 
TH1F * HOHrm2Ene
 
TH1F * HOHrm2Time
 
TH1F * HOHrp1Ene
 
TH1F * HOHrp1Time
 
TH1F * HOHrp2Ene
 
TH1F * HOHrp2Time
 
TH1F * HOHTime
 
TH2F * HOocc
 
TH2F * HOoccOOT
 
TH1F * HOSEne
 
TH1F * HOSTime
 
TH1F * HOTime
 
TH1F * HOTimeTh
 
TH2F * HOTvsE
 
TH1F * HPD_et
 
TH1F * HPD_hadEnergy
 
TH1F * HPD_hcalTime
 
TH1F * HPD_N
 
TH1F * HPD_nTowers
 
TH1F * HTime
 
std::string JetCorrectionService
 
TH1F * jetEMFraction
 
TH1F * jetHOEne
 
TH1F * MET
 
TH1F * MET_HPD
 
TH1F * MET_RBX
 
TH1F * MET_Tower
 
TH1F * METPhi
 
TH1F * METSig
 
TH1F * MEx
 
TH1F * MEy
 
TH1F * NPass
 
TH1F * NTime
 
TH1F * NTotal
 
TH1F * NTowers
 
TH1F * nTowers1
 
TH1F * nTowers2
 
TH1F * nTowers3
 
TH1F * nTowers4
 
TH1F * nTowersLeadJetPt1
 
TH1F * nTowersLeadJetPt2
 
TH1F * nTowersLeadJetPt3
 
TH1F * nTowersLeadJetPt4
 
TH1F * OERMET
 
TH1F * PMTHits
 
TH1F * RBX_et
 
TH1F * RBX_hadEnergy
 
TH1F * RBX_hcalTime
 
TH1F * RBX_N
 
TH1F * RBX_nTowers
 
TH1F * SiClusters
 
TH1F * st_Constituents
 
TH1F * st_EmEnergy
 
TH1F * st_Energy
 
TH1F * st_Eta
 
TH1F * st_Frac
 
TH1F * st_HadEnergy
 
TH1F * st_iEta
 
TH1F * st_iPhi
 
TH1F * st_OuterEnergy
 
TH1F * st_Phi
 
TH1F * st_Pt
 
TH1F * SumEt
 
edm::InputTag theTriggerResultsLabel
 
TH1F * tMassGen
 
TH1F * totEneLeadJetEta1
 
TH1F * totEneLeadJetEta2
 
TH1F * totEneLeadJetEta3
 
TH1F * totFedSize
 
TH1F * towerEmEn
 
TH1F * towerEmEnHB
 
TH1F * towerEmEnHE
 
TH1F * towerEmEnHF
 
TH1F * towerEmFrac
 
TH1F * towerHadEn
 
TH1F * towerHadEnHB
 
TH1F * towerHadEnHE
 
TH1F * towerHadEnHF
 
TH1F * towerOuterEn
 
TH1F * TrkMultFlagged0
 
TH1F * TrkMultFlagged1
 
TH1F * TrkMultFlagged2
 
TH1F * TrkMultFlagged3
 
TH1F * TrkMultFlagged4
 
TH1F * TrkMultFlaggedM
 

Additional Inherited Members

- Public Types inherited from edm::EDAnalyzer
typedef EDAnalyzer ModuleType
 
typedef WorkerT< EDAnalyzerWorkerType
 
- 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

Definition at line 46 of file myJetAna.h.

Constructor & Destructor Documentation

myJetAna::myJetAna ( const edm::ParameterSet cfg)

Definition at line 125 of file myJetAna.cc.

References edm::ParameterSet::getParameter(), and theTriggerResultsLabel.

125  :
126  CaloJetAlgorithm( cfg.getParameter<string>( "CaloJetAlgorithm" ) ),
127  GenJetAlgorithm( cfg.getParameter<string>( "GenJetAlgorithm" ) ),
128  hcalNoiseSummaryTag_(cfg.getParameter<edm::InputTag>("hcalNoiseSummaryTag"))
129 {
130  theTriggerResultsLabel = cfg.getParameter<edm::InputTag>("TriggerResultsLabel");
131 }
T getParameter(std::string const &) const
std::string GenJetAlgorithm
Definition: myJetAna.h:57
std::string CaloJetAlgorithm
Definition: myJetAna.h:56
edm::InputTag theTriggerResultsLabel
Definition: myJetAna.h:58
edm::InputTag hcalNoiseSummaryTag_
Definition: myJetAna.h:59

Member Function Documentation

void myJetAna::analyze ( const edm::Event evt,
const edm::EventSetup es 
)
privatevirtual

Implements edm::EDAnalyzer.

Definition at line 599 of file myJetAna.cc.

References abs, edm::EventBase::bunchCrossing(), caloEta, caloEtaEt, CaloJetAlgorithm, FamosSequences_cff::caloJets, caloPhi, HiRecoJets_cff::caloTowers, funct::cos(), gather_cfg::cout, DEBUG, dijetMass, EBEne, EBEneTh, EBEneX, EBEneY, EBTime, EBTimeTh, EBTimeX, EBTimeY, EBvHB, EcalBarrel, EcalEndcap, RBX_struct::ecalTime, HPD_struct::ecalTime, ECALvHCAL, ECALvHCALEta1, ECALvHCALEta2, ECALvHCALEta3, EEEne, EEEneTh, EEEneX, EEEneY, EETime, EETimeTh, EETimeX, EETimeY, EEvHE, emEneLeadJetEta1, emEneLeadJetEta2, emEneLeadJetEta3, RBX_struct::emEnergy, HPD_struct::emEnergy, EMF_Eta, EMF_EtaX, EMF_Phi, EMF_PhiX, relval_parameters_module::energy, RBX_struct::et, HPD_struct::et, ETime, edm::EventID::event(), edm::hlt::Exception, edm::Event::getByLabel(), edm::Event::getManyByType(), h_ClusteredE, h_EmEnergy, h_EMFracCal, h_et, h_eta, h_etaCal, h_HadEnergy, h_jet1Eta, h_jet1Pt, h_jet1PtHLT, h_jet2Eta, h_jet2Pt, h_jetEt, h_nCalJets, h_nTowersCal, h_phi, h_phiCal, h_pt, h_ptCal, h_ptHPD, h_ptRBX, h_ptTower, h_TotalClusteredE, h_TotalUnclusteredE, h_TotalUnclusteredEt, h_Trk_NTrk, h_Trk_pt, h_UnclusteredE, h_UnclusteredEt, h_UnclusteredEts, h_Vx, h_Vy, h_Vz, hadEneLeadJetEta1, hadEneLeadJetEta2, hadEneLeadJetEta3, RBX_struct::hadEnergy, HPD_struct::hadEnergy, hadFracEta1, hadFracEta2, hadFracEta3, HBEne, HBEneOOT, HBEneOOTTh, HBEneOOTTh1, HBEneTh, HBEneTh1, HBEneTThr, HBEneX, HBEneY, HcalCaloFlagLabels::HBHETimingShapedCutsBits, HBocc, HBoccOOT, HBTime, HBTimeFlagged, HBTimeFlagged2, HBTimeTh, HBTimeTh1, HBTimeTh1Flagged, HBTimeTh1Flagged2, HBTimeTh1R, HBTimeTh2, HBTimeTh2Flagged, HBTimeTh2Flagged2, HBTimeTh2R, HBTimeTh3, HBTimeTh3R, HBTimeThFlagged, HBTimeThFlagged2, HBTimeThR, HBTimeX, HBTimeY, HBTvsE, HcalBarrel, HcalEndcap, HcalForward, hcalNoiseSummaryTag_, HcalOuter, RBX_struct::hcalTime, HPD_struct::hcalTime, HEEne, HEEneOOT, HEEneOOTTh, HEEneOOTTh1, HEEneTh, HEEneTh1, HEEneTThr, HEEneX, HEEneY, HEnegEne, HEnegTime, HEocc, HEoccOOT, HEposEne, HEposTime, HETime, HETimeFlagged, HETimeFlagged2, HETimeTh, HETimeTh1, HETimeTh1Flagged, HETimeTh1Flagged2, HETimeTh1R, HETimeTh2, HETimeTh2Flagged, HETimeTh2Flagged2, HETimeTh2R, HETimeTh3, HETimeTh3R, HETimeThFlagged, HETimeThFlagged2, HETimeThR, HETimeX, HETimeY, HETvsE, hf_sumTowerAllEx, hf_sumTowerAllEy, hf_TowerJetEt, HcalCaloFlagLabels::HFDigiTime, HFDigiTimeEne, HFDigiTimeEta, HFDigiTimeNHits, HFDigiTimePhi, HFDigiTimeTime, HFEne, HFEneFlagged, HFEneFlagged2, HFEneM, HFEneP, HFEnePMT0, HFEnePMT1, HFEnePMT2, HFEneTh, HFEneTh1, HFEneTThr, HFEtaFlagged, HFEtaFlaggedL, HFEtaFlaggedLN, HFEtaFlaggedS, HFEtaFlaggedSN, HFEtaNFlagged, HFEtaPhiNFlagged, HFLEne, HFLEneAll, HFLEneAllF, HFLEneNoS, HFLEneNoSFlagged, HFLEneNoSFlaggedN, HcalCaloFlagLabels::HFLongShort, HFLongShortEne, HFLongShortEta, HFLongShortNHits, HFLongShortPhi, HFLongShortTime, HFLSRatio, HFLTime, HFLvsS, HFMET, HFocc, HFoccFlagged, HFoccFlagged2, HFoccOOT, HFoccTime, HFOERatio, HFRecHitEne, HFRecHitEneClean, HFRecHitTime, HFSEne, HFSEneAll, HFSEneAllF, HFSEneNoL, HFSEneNoLFlagged, HFSEneNoLFlaggedN, HFSTime, HFSumEt, HFTime, HFTimeFlagged, HFTimeFlagged2, HFTimeFlagged3, HFTimeM, HFTimeP, HFTimePM, HFTimePMa, HFTimePMT0, HFTimePMT1, HFTimePMT2, HFTimeTh, HFTimeTh1, HFTimeTh1Flagged2, HFTimeTh1Flagged3, HFTimeTh1R, HFTimeTh2, HFTimeTh2Flagged, HFTimeTh2Flagged2, HFTimeTh2Flagged3, HFTimeTh2R, HFTimeTh3, HFTimeTh3Flagged, HFTimeTh3Flagged2, HFTimeTh3Flagged3, HFTimeTh3R, HFTimeThFlagged, HFTimeThFlagged2, HFTimeThFlagged3, HFTimeThFlaggedR, HFTimeThFlaggedR1, HFTimeThFlaggedR2, HFTimeThFlaggedR3, HFTimeThFlaggedR4, HFTimeThFlaggedRM, HFTimeThR, HFTimeVsiEtaM, HFTimeVsiEtaM20, HFTimeVsiEtaM5, HFTimeVsiEtaP, HFTimeVsiEtaP20, HFTimeVsiEtaP5, HFTvsE, HFTvsEFlagged, HFTvsEFlagged2, HFTvsEFlagged2Thr, HFTvsEThr, HFvsZ, hitEta, hitPhi, HOEne, HOEneTh, HOEneTh1, HOHEne, HOHr0Ene, HOHr0Time, HOHrm1Ene, HOHrm1Time, HOHrm2Ene, HOHrm2Time, HOHrp1Ene, HOHrp1Time, HOHrp2Ene, HOHrp2Time, HOHTime, HOocc, HOSEne, HOSTime, HOTime, HOTimeTh, HOTvsE, HPD_et, HPD_hadEnergy, HPD_hcalTime, HPD_N, HPD_nTowers, HPDColl, HTime, i, edm::EventBase::id(), HcalDetId::ieta(), INVALID, edm::HandleBase::isValid(), j, jetEMFraction, reco::btau::jetEta, jetHOEne, reco::btau::jetPhi, reco::btau::jetPt, edm::EventBase::luminosityBlock(), MET_HPD, MET_RBX, MET_Tower, METPhi, reco::MET::mEtSig(), METSig, MEx, MEy, n, nBNC, NPass, NTime, NTotal, RBX_struct::nTowers, HPD_struct::nTowers, NTowers, nTowers1, nTowers2, nTowers3, nTowers4, nTowersLeadJetPt1, nTowersLeadJetPt2, nTowersLeadJetPt3, nTowersLeadJetPt4, OERMET, edm::EventBase::orbitNumber(), edm::hlt::Pass, phi, reco::LeafCandidate::phi(), PMTHits, edm::Handle< T >::product(), edm::errors::ProductNotFound, reco::LeafCandidate::pt(), reco::LeafCandidate::px(), reco::LeafCandidate::py(), dttmaxenums::R, RBX_et, RBX_hadEnergy, RBX_hcalTime, RBX_N, RBX_nTowers, RBXColl, edm::EventID::run(), pileupReCalc_HLTpaths::scale, SiClusters, funct::sin(), mathSSE::sqrt(), st_Constituents, st_EmEnergy, st_Energy, st_Eta, st_Frac, st_HadEnergy, st_iEta, st_iPhi, st_OuterEnergy, st_Phi, st_Pt, reco::MET::sumEt(), SumEt, edmLumisInFiles::summary, lumiQTWidget::t, theTriggerResultsLabel, cond::rpcobgas::time, totBNC, totEneLeadJetEta1, totEneLeadJetEta2, totEneLeadJetEta3, towerEmEn, towerEmEnHB, towerEmEnHE, towerEmEnHF, towerEmFrac, towerHadEn, towerHadEnHB, towerHadEnHE, towerHadEnHF, towerOuterEn, patRefSel_triggerSelection_cff::triggerResults, TrkMultFlagged0, TrkMultFlagged1, TrkMultFlagged2, TrkMultFlagged3, TrkMultFlagged4, TrkMultFlaggedM, and GoodVertex_cfg::vertexCollection.

599  {
600 
601  using namespace edm;
602 
603  bool Pass, Pass_HFTime, Pass_DiJet, Pass_BunchCrossing, Pass_Vertex;
604 
605  int EtaOk10, EtaOk13, EtaOk40;
606 
607  double LeadMass;
608 
609  double HFRecHit[100][100][2];
610  int HFRecHitFlag[100][100][2];
611 
612  double towerEtCut, towerECut, towerE;
613 
614  towerEtCut = 1.0;
615  towerECut = 1.0;
616 
617  unsigned int StableRun = 123732;
618 
619  double HBHEThreshold = 2.0;
620  double HFThreshold = 2.0;
621  double HOThreshold = 2.0;
622  double EBEEThreshold = 2.0;
623 
624  double HBHEThreshold1 = 4.0;
625  double HFThreshold1 = 4.0;
626  double HOThreshold1 = 4.0;
627  //double EBEEThreshold1 = 4.0;
628 
629  double HBHEThreshold2 = 10.0;
630  double HFThreshold2 = 10.0;
631  //double HOThreshold2 = 10.0;
632  //double EBEEThreshold2 = 10.0;
633 
634  double HBHEThreshold3 = 40.0;
635  double HFThreshold3 = 40.0;
636  //double HOThreshold3 = 40.0;
637  //double EBEEThreshold3 = 40.0;
638 
639  float minJetPt = 20.;
640  float minJetPt10 = 10.;
641  int jetInd, allJetInd;
642  LeadMass = -1;
643 
644  // Handle<DcsStatusCollection> dcsStatus;
645  // evt.getByLabel("scalersRawToDigi", dcsStatus);
646  // std::cout << dcsStatus << std::endl;
647  // if (dcsStatus.isValid()) {
648  // }
649 
650  // DcsStatus dcsStatus;
651  // Handle<DcsStatus> dcsStatus;
652  // evt.getByLabel("dcsStatus", dcsStatus);
653 
654 
655  math::XYZTLorentzVector p4tmp[2], p4cortmp[2];
656 
657  // --------------------------------------------------------------
658  // --------------------------------------------------------------
659 
660  /***
661  std::cout << ">>>> ANA: Run = " << evt.id().run()
662  << " Event = " << evt.id().event()
663  << " Bunch Crossing = " << evt.bunchCrossing()
664  << " Orbit Number = " << evt.orbitNumber()
665  << " Luminosity Block = " << evt.luminosityBlock()
666  << std::endl;
667  ***/
668 
669  // *********************
670  // *** Filter Event
671  // *********************
672  Pass = false;
673 
674  /***
675  if (evt.bunchCrossing()== 100) {
676  Pass = true;
677  } else {
678  Pass = false;
679  }
680  ***/
681 
682  // ***********************
683  // *** Pass Trigger
684  // ***********************
685 
686 
687  // **** Get the TriggerResults container
690  // evt.getByLabel("TriggerResults::HLT", triggerResults);
691 
692  if (triggerResults.isValid()) {
693  if (DEBUG) std::cout << "trigger valid " << std::endl;
694  // edm::TriggerNames triggerNames; // TriggerNames class
695  // triggerNames.init(*triggerResults);
696  unsigned int n = triggerResults->size();
697  for (unsigned int i=0; i!=n; i++) {
698 
699  /***
700  std::cout << ">>> Trigger Name (" << i << ") = " << triggerNames.triggerName(i)
701  << " Accept = " << triggerResults->accept(i)
702  << std::endl;
703  ***/
704  /****
705  if (triggerResults->accept(i) == 1) {
706  std::cout << "+++ Trigger Name (" << i << ") = " << triggerNames.triggerName(i)
707  << " Accept = " << triggerResults->accept(i)
708  << std::endl;
709  }
710  ****/
711 
712  // if (DEBUG) std::cout << triggerNames.triggerName(i) << std::endl;
713 
714  // if ( (triggerNames.triggerName(i) == "HLT_ZeroBias") ||
715  // (triggerNames.triggerName(i) == "HLT_MinBias") ||
716  // (triggerNames.triggerName(i) == "HLT_MinBiasHcal") ) {
717 
718  }
719 
720  } else {
721 
723  triggerResults = (*tr);
724 
725  // std::cout << "triggerResults is not valid" << std::endl;
726  // std::cout << triggerResults << std::endl;
727  // std::cout << triggerResults.isValid() << std::endl;
728 
729  if (DEBUG) std::cout << "trigger not valid " << std::endl;
730  edm::LogInfo("myJetAna") << "TriggerResults::HLT not found, "
731  "automatically select events";
732 
733  //return;
734  }
735 
736 
737 
738  /***
739  Handle<L1GlobalTriggerReadoutRecord> gtRecord;
740  evt.getByLabel("gtDigis",gtRecord);
741  const TechnicalTriggerWord tWord = gtRecord->technicalTriggerWord();
742 
743  ***/
744 
745 
746  // *************************
747  // *** Pass Bunch Crossing
748  // *************************
749 
750  // *** Check Luminosity Section
751  if (evt.id().run() == 122294)
752  if ( (evt.luminosityBlock() >= 37) && (evt.luminosityBlock() <= 43) )
753  Pass = true;
754  if (evt.id().run() == 122314)
755  if ( (evt.luminosityBlock() >= 24) && (evt.luminosityBlock() <= 37) )
756  Pass = true;
757  if (evt.id().run() == 123575)
758  Pass = true;
759  if (evt.id().run() == 123596)
760  Pass = true;
761 
762  // ***********
763  if (evt.id().run() == 124009) {
764  if ( (evt.bunchCrossing() == 51) ||
765  (evt.bunchCrossing() == 151) ||
766  (evt.bunchCrossing() == 2824) ) {
767  Pass = true;
768  }
769  }
770 
771  if (evt.id().run() == 124020) {
772  if ( (evt.bunchCrossing() == 51) ||
773  (evt.bunchCrossing() == 151) ||
774  (evt.bunchCrossing() == 2824) ) {
775  Pass = true;
776  }
777  }
778 
779  if (evt.id().run() == 124024) {
780  if ( (evt.bunchCrossing() == 51) ||
781  (evt.bunchCrossing() == 151) ||
782  (evt.bunchCrossing() == 2824) ) {
783  Pass = true;
784  }
785  }
786 
787  if ( (evt.bunchCrossing() == 51) ||
788  (evt.bunchCrossing() == 151) ||
789  (evt.bunchCrossing() == 2596) ||
790  (evt.bunchCrossing() == 2724) ||
791  (evt.bunchCrossing() == 2824) ||
792  (evt.bunchCrossing() == 3487) ) {
793  Pass_BunchCrossing = true;
794  } else {
795  Pass_BunchCrossing = false;
796  }
797 
798 
799  // ***********************
800  // *** Pass HF Timing
801  // ***********************
802 
803  double HFM_ETime, HFP_ETime;
804  double HFM_E, HFP_E;
805  double HF_PMM;
806 
807  HFM_ETime = 0.;
808  HFM_E = 0.;
809  HFP_ETime = 0.;
810  HFP_E = 0.;
811 
812  for (int i=0; i<100; i++) {
813  for (int j=0; j<100; j++) {
814  HFRecHit[i][j][0] = -10.;
815  HFRecHit[i][j][1] = -10.;
816  HFRecHitFlag[i][j][0] = 0;
817  HFRecHitFlag[i][j][1] = 0;
818  }
819  }
820 
821 
822  int nTime = 0;
823  int NHFLongShortHits;
824  int NHFDigiTimeHits;
825  NHFLongShortHits = 0;
826  NHFDigiTimeHits = 0;
827 
828  // edm::Handle<reco::VertexCollection> vertexCollection;
829 
830  try {
831  std::vector<edm::Handle<HFRecHitCollection> > colls;
832  evt.getManyByType(colls);
833 
834  std::vector<edm::Handle<HFRecHitCollection> >::iterator i;
835  for (i=colls.begin(); i!=colls.end(); i++) {
836 
837  for (HFRecHitCollection::const_iterator j=(*i)->begin(); j!=(*i)->end(); j++) {
838  if (j->id().subdet() == HcalForward) {
839 
840  HFRecHitEne->Fill(j->energy());
841  if ( (j->flagField(HcalCaloFlagLabels::HFLongShort) == 0) &&
842  (j->flagField(HcalCaloFlagLabels::HFDigiTime) == 0) ) {
843  HFRecHitEneClean->Fill(j->energy());
844  }
845 
846  HFRecHitTime->Fill(j->time());
847 
848  int myFlag;
849  myFlag= j->flagField(HcalCaloFlagLabels::HFLongShort);
850  if (myFlag==1) {
851  NHFLongShortHits++;
852  HFLongShortPhi->Fill(j->id().iphi());
853  HFLongShortEta->Fill(j->id().ieta());
854  HFLongShortEne->Fill(j->energy());
855  HFLongShortTime->Fill(j->time());
856  }
857 
858  myFlag= j->flagField(HcalCaloFlagLabels::HFDigiTime);
859  if (myFlag==1) {
860  NHFDigiTimeHits++;
861  HFDigiTimePhi->Fill(j->id().iphi());
862  HFDigiTimeEta->Fill(j->id().ieta());
863  HFDigiTimeEne->Fill(j->energy());
864  HFDigiTimeTime->Fill(j->time());
865  }
866 
867 
868  float en = j->energy();
869  float time = j->time();
870  if ((en > 20.) && (time>20.)) {
871  HFoccTime->Fill(j->id().ieta(),j->id().iphi());
872  nTime++;
873  }
874  HcalDetId id(j->detid().rawId());
875  int ieta = id.ieta();
876  int iphi = id.iphi();
877  int depth = id.depth();
878 
879 
880  // Long: depth = 1
881  // Short: depth = 2
882  HFRecHit[ieta+41][iphi][depth-1] = en;
883  HFRecHitFlag[ieta+41][iphi][depth-1] = j->flagField(0);
884 
885  /****
886  std::cout << "RecHit Flag = "
887  << j->flagField(0)a
888  << std::endl;
889  ***/
890 
891  if (j->id().ieta()<0) {
892  if (j->energy() > HFThreshold) {
893  HFM_ETime += j->energy()*j->time();
894  HFM_E += j->energy();
895  }
896  } else {
897  if (j->energy() > HFThreshold) {
898  HFP_ETime += j->energy()*j->time();
899  HFP_E += j->energy();
900  }
901  }
902 
903  }
904  }
905  break;
906  }
907  } catch (...) {
908  cout << "No HF RecHits." << endl;
909  }
910 
911  cout << "N HF Hits" << NHFLongShortHits << " " << NHFDigiTimeHits << endl;
912  HFLongShortNHits->Fill(NHFLongShortHits);
913  HFDigiTimeNHits->Fill(NHFDigiTimeHits);
914 
915  NTime->Fill(nTime);
916 
917  double OER = 0, OddEne, EvenEne;
918  int nOdd, nEven;
919 
920  for (int iphi=0; iphi<100; iphi++) {
921  OddEne = EvenEne = 0.;
922  nOdd = 0;
923  nEven = 0;
924  for (int ieta=0; ieta<100; ieta++) {
925  if (HFRecHit[ieta][iphi][0] > 1.0) {
926  if (ieta%2 == 0) {
927  EvenEne += HFRecHit[ieta][iphi][0];
928  nEven++;
929  } else {
930  OddEne += HFRecHit[ieta][iphi][0];
931  nOdd++;
932  }
933  }
934  if (HFRecHit[ieta][iphi][1] > 1.0) {
935  if (ieta%2 == 0) {
936  EvenEne += HFRecHit[ieta][iphi][1];
937  nEven++;
938  } else {
939  OddEne += HFRecHit[ieta][iphi][1];
940  nOdd++;
941  }
942  }
943  }
944  if (((OddEne + EvenEne) > 10.) && (nOdd > 1) && (nEven > 1)) {
945  OER = (OddEne - EvenEne) / (OddEne + EvenEne);
946  HFOERatio->Fill(OER);
947  }
948  }
949 
950  if ((HFP_E > 0.) && (HFM_E > 0.)) {
951  HF_PMM = (HFP_ETime / HFP_E) - (HFM_ETime / HFM_E);
952  HFTimePMa->Fill(HF_PMM);
953  } else {
954  HF_PMM = INVALID;
955  }
956 
957 
958  if (fabs(HF_PMM) < 10.) {
959  Pass_HFTime = true;
960  } else {
961  Pass_HFTime = false;
962  }
963 
964 
965  // **************************
966  // *** Pass DiJet Criteria
967  // **************************
968  double highestPt;
969  double nextPt;
970  // double dphi;
971  int nDiJet, nJet;
972 
973  nJet = 0;
974  nDiJet = 0;
975  highestPt = 0.0;
976  nextPt = 0.0;
977 
978  allJetInd = 0;
981  for( CaloJetCollection::const_iterator cal = caloJets->begin(); cal != caloJets->end(); ++ cal ) {
982 
983  // TODO: verify first two jets are the leading jets
984  if (nJet == 0) p4tmp[0] = cal->p4();
985  if (nJet == 1) p4tmp[1] = cal->p4();
986 
987  if ( (cal->pt() > 3.) &&
988  (fabs(cal->eta()) < 3.0) ) {
989  nDiJet++;
990  }
991  nJet++;
992 
993  }
994 
995 
996  if (nDiJet > 1) {
997  //dphi = deltaPhi(p4tmp[0].phi(), p4tmp[1].phi());
998  Pass_DiJet = true;
999  } else {
1000  // dphi = INVALID;
1001  Pass_DiJet = false;
1002  }
1003 
1004 
1005  // **************************
1006  // *** Pass Vertex
1007  // **************************
1008  double VTX;
1009  int nVTX;
1010 
1012  evt.getByLabel("offlinePrimaryVertices", vertexCollection);
1013  const reco::VertexCollection vC = *(vertexCollection.product());
1014 
1015  // std::cout << "Reconstructed "<< vC.size() << " vertices" << std::endl ;
1016 
1017  nVTX = vC.size();
1018  for (reco::VertexCollection::const_iterator vertex=vC.begin(); vertex!=vC.end(); vertex++){
1019  VTX = vertex->z();
1020  }
1021 
1022  if ( (fabs(VTX) < 20.) && (nVTX > 0) ){
1023  Pass_Vertex = true;
1024  } else {
1025  Pass_Vertex = false;
1026  }
1027 
1028  // ***********************
1029  // ***********************
1030 
1031 
1032  nBNC[evt.bunchCrossing()]++;
1033  totBNC++;
1034 
1035  // Pass = true;
1036 
1037  // *** Check for tracks
1038  // edm::Handle<reco::TrackCollection> trackCollection;
1039  // evt.getByLabel("generalTracks", trackCollection);
1040  // const reco::TrackCollection tC = *(trackCollection.product());
1041  // if ((Pass) && (tC.size()>1)) {
1042  // } else {
1043  // Pass = false;
1044  // }
1045 
1046 
1047  // ********************************
1048  // *** Pixel Clusters
1049  // ********************************
1051  evt.getByLabel("siPixelClusters", hClusterColl);
1052  const edmNew::DetSetVector<SiPixelCluster> clustColl = *(hClusterColl.product());
1053 
1054  edm::Handle<reco::TrackCollection> trackCollection;
1055  evt.getByLabel("generalTracks", trackCollection);
1056  const reco::TrackCollection tC = *(trackCollection.product());
1057 
1058 
1059  // **************************
1060  // *** Event Passed Selection
1061  // **************************
1062 
1063 
1064  if (evt.id().run() == 1) {
1065  if ( (Pass_DiJet) &&
1066  (Pass_Vertex) ) {
1067  Pass = true;
1068  } else {
1069  Pass = false;
1070  }
1071  Pass = true;
1072 
1073  } else {
1074  if ( (Pass_BunchCrossing) &&
1075  (Pass_HFTime) &&
1076  (Pass_Vertex) ) {
1077  Pass = true;
1078  } else {
1079  Pass = false;
1080  }
1081  }
1082 
1083  /***
1084  std::cout << "+++ Result "
1085  << " Event = "
1086  << evt.id().run()
1087  << " LS = "
1088  << evt.luminosityBlock()
1089  << " dphi = "
1090  << dphi
1091  << " Pass = "
1092  << Pass
1093  << std::endl;
1094  ***/
1095 
1096  NTotal->Fill(0);
1097 
1098  Pass = false;
1099  if ((tC.size() > 100) && (clustColl.size() > 1000)) Pass = true;
1100  Pass = true;
1101 
1102  /****
1103  if (Pass_HFTime) {
1104  Pass = true;
1105  } else {
1106  Pass = false;
1107  }
1108  ****/
1109 
1110  // **************************
1111  // *** Noise Summary Object
1112  // **************************
1113 
1115  evt.getByLabel(hcalNoiseSummaryTag_, summary_h);
1116  if(!summary_h.isValid()) {
1117  throw edm::Exception(edm::errors::ProductNotFound) << " could not find HcalNoiseSummary.\n";
1118  // return true;
1119  }
1120 
1121  const HcalNoiseSummary summary = *summary_h;
1122 
1123  bool Pass_NoiseSummary;
1124  Pass_NoiseSummary = true;
1125  if(summary.minE2Over10TS()<0.7) {
1126  Pass_NoiseSummary = false;
1127  }
1128  if(summary.maxE2Over10TS()>0.96) {
1129  Pass_NoiseSummary = false;
1130  }
1131  if(summary.maxHPDHits()>=17) {
1132  Pass_NoiseSummary = false;
1133  }
1134  if(summary.maxRBXHits()>=999) {
1135  Pass_NoiseSummary = false;
1136  }
1137  if(summary.maxHPDNoOtherHits()>=10) {
1138  Pass_NoiseSummary = false;
1139  }
1140  if(summary.maxZeros()>=10) {
1141  Pass_NoiseSummary = false;
1142  }
1143  if(summary.min25GeVHitTime()<-9999.0) {
1144  Pass_NoiseSummary = false;
1145  }
1146  if(summary.max25GeVHitTime()>9999.0) {
1147  Pass_NoiseSummary = false;
1148  }
1149  if(summary.minRBXEMF()<0.01) {
1150  }
1151 
1152  if (Pass_NoiseSummary) {
1153  Pass = false;
1154  } else {
1155  Pass = true;
1156  }
1157 
1158 
1159  Pass = true;
1160  if (Pass) {
1161 
1162  NPass->Fill(0);
1163 
1164  // *********************
1165  // *** Classify Event
1166  // *********************
1167  int evtType = 0;
1168 
1170  evt.getByLabel( "towerMaker", caloTowers );
1171 
1172  for (int i=0;i<36;i++) {
1173  RBXColl[i].et = 0;
1174  RBXColl[i].hadEnergy = 0;
1175  RBXColl[i].emEnergy = 0;
1176  RBXColl[i].hcalTime = 0;
1177  RBXColl[i].ecalTime = 0;
1178  RBXColl[i].nTowers = 0;
1179  }
1180  for (int i=0;i<144;i++) {
1181  HPDColl[i].et = 0;
1182  HPDColl[i].hadEnergy = 0;
1183  HPDColl[i].emEnergy = 0;
1184  HPDColl[i].hcalTime = 0;
1185  HPDColl[i].ecalTime = 0;
1186  HPDColl[i].nTowers = 0;
1187  }
1188 
1189  double ETotal, emFrac;
1190  double HCALTotalCaloTowerE, ECALTotalCaloTowerE;
1191  double HCALTotalCaloTowerE_Eta1, ECALTotalCaloTowerE_Eta1;
1192  double HCALTotalCaloTowerE_Eta2, ECALTotalCaloTowerE_Eta2;
1193  double HCALTotalCaloTowerE_Eta3, ECALTotalCaloTowerE_Eta3;
1194 
1195  ETotal = 0.;
1196  emFrac = 0.;
1197 
1198  HCALTotalCaloTowerE = 0;
1199  ECALTotalCaloTowerE = 0;
1200  HCALTotalCaloTowerE_Eta1 = 0.;
1201  ECALTotalCaloTowerE_Eta1 = 0.;
1202  HCALTotalCaloTowerE_Eta2 = 0.;
1203  ECALTotalCaloTowerE_Eta2 = 0.;
1204  HCALTotalCaloTowerE_Eta3 = 0.;
1205  ECALTotalCaloTowerE_Eta3 = 0.;
1206 
1207  for (CaloTowerCollection::const_iterator tower = caloTowers->begin();
1208  tower != caloTowers->end(); tower++) {
1209  ETotal += tower->hadEnergy();
1210  ETotal += tower->emEnergy();
1211  }
1212 
1213  for (CaloTowerCollection::const_iterator tower = caloTowers->begin();
1214  tower != caloTowers->end(); tower++) {
1215 
1216  // Raw tower energy without grouping or thresholds
1217  if (abs(tower->ieta()) < 100) EMF_Eta->Fill(tower->ieta(), emFrac);
1218 
1219  if (abs(tower->ieta()) < 15) {
1220  towerHadEnHB->Fill(tower->hadEnergy());
1221  towerEmEnHB->Fill(tower->emEnergy());
1222  }
1223  if ( (abs(tower->ieta()) > 17) && ((abs(tower->ieta()) < 30)) ){
1224  towerHadEnHE->Fill(tower->hadEnergy());
1225  towerEmEnHE->Fill(tower->emEnergy());
1226  }
1227  if (abs(tower->ieta()) > 29) {
1228  towerHadEnHF->Fill(tower->hadEnergy());
1229  towerEmEnHF->Fill(tower->emEnergy());
1230  }
1231 
1232  towerHadEn->Fill(tower->hadEnergy());
1233  towerEmEn->Fill(tower->emEnergy());
1234  towerOuterEn->Fill(tower->outerEnergy());
1235 
1236  // towerHadEt->Fill(tower->hadEt());
1237  // towerEmEt->Fill(tower->emEt());
1238  // towerOuterEt->Fill(tower->outerEt());
1239 
1240  if ((tower->emEnergy()+tower->hadEnergy()) != 0) {
1241  emFrac = tower->emEnergy()/(tower->emEnergy()+tower->hadEnergy());
1242  towerEmFrac->Fill(emFrac);
1243  } else {
1244  emFrac = 0.;
1245  }
1246 
1247  /***
1248  std::cout << "ETotal = " << ETotal
1249  << " EMF = " << emFrac
1250  << " EM = " << tower->emEnergy()
1251  << " Tot = " << tower->emEnergy()+tower->hadEnergy()
1252  << " ieta/iphi = " << tower->ieta() << " / " << tower->iphi()
1253  << std::endl;
1254  ***/
1255 
1256  if (abs(tower->iphi()) < 100) EMF_Phi->Fill(tower->iphi(), emFrac);
1257  if (abs(tower->ieta()) < 100) EMF_Eta->Fill(tower->ieta(), emFrac);
1258  if ( (evt.id().run() == 120020) && (evt.id().event() == 453) ) {
1259  std::cout << "Bunch Crossing = " << evt.bunchCrossing()
1260  << " Orbit Number = " << evt.orbitNumber()
1261  << std::endl;
1262 
1263  if (abs(tower->iphi()) < 100) EMF_PhiX->Fill(tower->iphi(), emFrac);
1264  if (abs(tower->ieta()) < 100) EMF_EtaX->Fill(tower->ieta(), emFrac);
1265  }
1266 
1267  HCALTotalCaloTowerE += tower->hadEnergy();
1268  ECALTotalCaloTowerE += tower->emEnergy();
1269 
1270  towerE = tower->hadEnergy() + tower->emEnergy();
1271  if (tower->et() > towerEtCut) caloEtaEt->Fill(tower->eta());
1272  if (towerE > towerECut) caloEta->Fill(tower->eta());
1273  caloPhi->Fill(tower->phi());
1274 
1275  if (fabs(tower->eta()) < 1.3) {
1276  HCALTotalCaloTowerE_Eta1 += tower->hadEnergy();
1277  ECALTotalCaloTowerE_Eta1 += tower->emEnergy();
1278  }
1279  if ((fabs(tower->eta()) >= 1.3) && (fabs(tower->eta()) < 2.5)) {
1280  HCALTotalCaloTowerE_Eta2 += tower->hadEnergy();
1281  ECALTotalCaloTowerE_Eta2 += tower->emEnergy();
1282  }
1283  if (fabs(tower->eta()) > 2.5) {
1284  HCALTotalCaloTowerE_Eta3 += tower->hadEnergy();
1285  ECALTotalCaloTowerE_Eta3 += tower->emEnergy();
1286  }
1287 
1288  /***
1289  std::cout << "had = " << tower->hadEnergy()
1290  << " em = " << tower->emEnergy()
1291  << " fabs(eta) = " << fabs(tower->eta())
1292  << " ieta/iphi = " << tower->ieta() << " / " << tower->iphi()
1293  << std::endl;
1294  ***/
1295 
1296  if ((tower->hadEnergy() + tower->emEnergy()) > 2.0) {
1297 
1298  int iRBX = tower->iphi();
1299  iRBX = iRBX-2;
1300  if (iRBX == 0) iRBX = 17;
1301  if (iRBX == -1) iRBX = 18;
1302  iRBX = (iRBX-1)/4;
1303 
1304  if (tower->ieta() < 0) iRBX += 18;
1305  if (iRBX < 36) {
1306  RBXColl[iRBX].et += tower->et();
1307  RBXColl[iRBX].hadEnergy += tower->hadEnergy();
1308  RBXColl[iRBX].emEnergy += tower->emEnergy();
1309  RBXColl[iRBX].hcalTime += tower->hcalTime();
1310  RBXColl[iRBX].ecalTime += tower->ecalTime();
1311  RBXColl[iRBX].nTowers++;
1312  }
1313  /***
1314  std::cout << "iRBX = " << iRBX << " "
1315  << "ieta/iphi = " << tower->ieta() << " / " << tower->iphi()
1316  << " et = " << tower->et()
1317  << std::endl;
1318  ***/
1319  int iHPD = tower->iphi();
1320  if (tower->ieta() < 0) iHPD = iHPD + 72;
1321  if (iHPD < 144) {
1322  HPDColl[iHPD].et += tower->et();
1323  HPDColl[iHPD].hadEnergy += tower->hadEnergy();
1324  HPDColl[iHPD].emEnergy += tower->emEnergy();
1325  HPDColl[iHPD].hcalTime += tower->hcalTime();
1326  HPDColl[iHPD].ecalTime += tower->ecalTime();
1327  HPDColl[iHPD].nTowers++;
1328  }
1329  /***
1330  std::cout << "iHPD = " << iHPD << " "
1331  << "ieta/iphi = " << tower->ieta() << " / " << tower->iphi()
1332  << " et = " << tower->et()
1333  << std::endl;
1334  ***/
1335 
1336  }
1337 
1338  }
1339 
1340  ECALvHCAL->Fill(HCALTotalCaloTowerE, ECALTotalCaloTowerE);
1341  ECALvHCALEta1->Fill(HCALTotalCaloTowerE_Eta1, ECALTotalCaloTowerE_Eta1);
1342  ECALvHCALEta2->Fill(HCALTotalCaloTowerE_Eta2, ECALTotalCaloTowerE_Eta2);
1343  ECALvHCALEta3->Fill(HCALTotalCaloTowerE_Eta3, ECALTotalCaloTowerE_Eta3);
1344 
1345  /***
1346  std::cout << " Total CaloTower Energy : "
1347  << " ETotal= " << ETotal
1348  << " HCAL= " << HCALTotalCaloTowerE
1349  << " ECAL= " << ECALTotalCaloTowerE
1350  << std::endl;
1351  ***/
1352 
1353  /***
1354  << " HCAL Eta1 = " << HCALTotalCaloTowerE_Eta1
1355  << " ECAL= " << ECALTotalCaloTowerE_Eta1
1356  << " HCAL Eta2 = " << HCALTotalCaloTowerE_Eta2
1357  << " ECAL= " << ECALTotalCaloTowerE_Eta2
1358  << " HCAL Eta3 = " << HCALTotalCaloTowerE_Eta3
1359  << " ECAL= " << ECALTotalCaloTowerE_Eta3
1360  << std::endl;
1361  ***/
1362 
1363 
1364  // Loop over the RBX Collection
1365  int nRBX = 0;
1366  int nTowers = 0;
1367  for (int i=0;i<36;i++) {
1368  RBX_et->Fill(RBXColl[i].et);
1369  RBX_hadEnergy->Fill(RBXColl[i].hadEnergy);
1370  RBX_hcalTime->Fill(RBXColl[i].hcalTime / RBXColl[i].nTowers);
1371  RBX_nTowers->Fill(RBXColl[i].nTowers);
1372  if (RBXColl[i].hadEnergy > 3.0) {
1373  nRBX++;
1374  nTowers = RBXColl[i].nTowers;
1375  }
1376  }
1377  RBX_N->Fill(nRBX);
1378  if ( (nRBX == 1) && (nTowers > 24) ) {
1379  evtType = 1;
1380  }
1381 
1382  // Loop over the HPD Collection
1383  int nHPD = 0;
1384  for (int i=0;i<144;i++) {
1385  HPD_et->Fill(HPDColl[i].et);
1386  HPD_hadEnergy->Fill(HPDColl[i].hadEnergy);
1387  HPD_hcalTime->Fill(HPDColl[i].hcalTime / HPDColl[i].nTowers);
1388  HPD_nTowers->Fill(HPDColl[i].nTowers);
1389  if (HPDColl[i].hadEnergy > 3.0) {
1390  nHPD++;
1391  nTowers = HPDColl[i].nTowers;
1392  }
1393  }
1394  HPD_N->Fill(nHPD);
1395  if ( (nHPD == 1) && (nTowers > 6) ) {
1396  evtType = 2;
1397  cout << " nHPD = " << nHPD
1398  << " Towers = " << nTowers
1399  << " Type = " << evtType
1400  << endl;
1401  }
1402 
1403  // **************************************************************
1404  // ** Access Trigger Information
1405  // **************************************************************
1406 
1407  // **** Get the TriggerResults container
1409  evt.getByLabel(theTriggerResultsLabel, triggerResults);
1410 
1411  Int_t JetLoPass = 0;
1412 
1413  if (triggerResults.isValid()) {
1414  if (DEBUG) std::cout << "trigger valid " << std::endl;
1415  // edm::TriggerNames triggerNames; // TriggerNames class
1416  // triggerNames.init(*triggerResults);
1417  unsigned int n = triggerResults->size();
1418  for (unsigned int i=0; i!=n; i++) {
1419 
1420  /***
1421  std::cout << " Trigger Name = " << triggerNames.triggerName(i)
1422  << " Accept = " << triggerResults->accept(i)
1423  << std::endl;
1424  ***/
1425 
1426  // if (DEBUG) std::cout << triggerNames.triggerName(i) << std::endl;
1427 
1428  /***
1429  if ( triggerNames.triggerName(i) == "HLT_Jet30" ) {
1430  JetLoPass = triggerResults->accept(i);
1431  if (DEBUG) std::cout << "Found HLT_Jet30 "
1432  << JetLoPass
1433  << std::endl;
1434  }
1435  ***/
1436 
1437  }
1438 
1439  } else {
1440 
1442  triggerResults = (*tr);
1443 
1444  // std::cout << "triggerResults is not valid" << std::endl;
1445  // std::cout << triggerResults << std::endl;
1446  // std::cout << triggerResults.isValid() << std::endl;
1447 
1448  if (DEBUG) std::cout << "trigger not valid " << std::endl;
1449  edm::LogInfo("myJetAna") << "TriggerResults::HLT not found, "
1450  "automatically select events";
1451  //return;
1452  }
1453 
1454  /****
1455  Handle <L1GlobalTriggerReadoutRecord> gtRecord_h;
1456  evt.getByType (gtRecord_h); // assume only one L1 trigger record here
1457  const L1GlobalTriggerReadoutRecord* gtRecord = gtRecord_h.failedToGet () ? 0 : &*gtRecord_h;
1458 
1459  if (gtRecord) { // object is available
1460  for (int l1bit = 0; l1bit < 128; ++l1bit) {
1461  if (gtRecord->decisionWord() [l1bit]) h_L1TrigBit->Fill (l1bit);
1462  }
1463  }
1464  ****/
1465 
1466 
1467 
1468 
1469  // **************************************************************
1470  // ** Loop over the two leading CaloJets and fill some histograms
1471  // **************************************************************
1473  evt.getByLabel( CaloJetAlgorithm, caloJets );
1474 
1475 
1476  jetInd = 0;
1477  allJetInd = 0;
1478 
1479  EtaOk10 = 0;
1480  EtaOk13 = 0;
1481  EtaOk40 = 0;
1482 
1483  // const JetCorrector* corrector =
1484  // JetCorrector::getJetCorrector (JetCorrectionService, es);
1485 
1486 
1487  highestPt = 0.0;
1488  nextPt = 0.0;
1489 
1490  for( CaloJetCollection::const_iterator cal = caloJets->begin(); cal != caloJets->end(); ++ cal ) {
1491 
1492  // double scale = corrector->correction (*cal);
1493  double scale = 1.0;
1494  double corPt = scale*cal->pt();
1495  // double corPt = cal->pt();
1496  // cout << "Pt = " << cal->pt() << endl;
1497 
1498  if (corPt>highestPt) {
1499  nextPt = highestPt;
1500  p4cortmp[1] = p4cortmp[0];
1501  highestPt = corPt;
1502  p4cortmp[0] = scale*cal->p4();
1503  } else if (corPt>nextPt) {
1504  nextPt = corPt;
1505  p4cortmp[1] = scale*cal->p4();
1506  }
1507 
1508  allJetInd++;
1509  if (allJetInd == 1) {
1510  h_jet1Pt->Fill( cal->pt() );
1511  h_jet1Eta->Fill( cal->eta() );
1512  if (JetLoPass != 0) h_jet1PtHLT->Fill( cal->pt() );
1513  p4tmp[0] = cal->p4();
1514  if ( fabs(cal->eta()) < 1.0) EtaOk10++;
1515  if ( fabs(cal->eta()) < 1.3) EtaOk13++;
1516  if ( fabs(cal->eta()) < 4.0) EtaOk40++;
1517  }
1518  if (allJetInd == 2) {
1519  h_jet2Pt->Fill( cal->pt() );
1520  h_jet2Eta->Fill( cal->eta() );
1521  p4tmp[1] = cal->p4();
1522  if ( fabs(cal->eta()) < 1.0) EtaOk10++;
1523  if ( fabs(cal->eta()) < 1.3) EtaOk13++;
1524  if ( fabs(cal->eta()) < 4.0) EtaOk40++;
1525  }
1526 
1527  if ( cal->pt() > minJetPt) {
1528  const std::vector<CaloTowerPtr> jetCaloRefs = cal->getCaloConstituents();
1529  int nConstituents = jetCaloRefs.size();
1530  h_nTowersCal->Fill(nConstituents);
1531  h_EMFracCal->Fill(cal->emEnergyFraction());
1532  h_ptCal->Fill( cal->pt() );
1533  h_etaCal->Fill( cal->eta() );
1534  h_phiCal->Fill( cal->phi() );
1535  jetInd++;
1536  }
1537  }
1538 
1539  h_nCalJets->Fill( jetInd );
1540 
1541  if (jetInd > 1) {
1542  LeadMass = (p4tmp[0]+p4tmp[1]).mass();
1543  dijetMass->Fill( LeadMass );
1544  }
1545 
1546 
1547  // ******************
1548  // *** Jet Properties
1549  // ******************
1550 
1551  int nTow1, nTow2, nTow3, nTow4;
1552  // Handle<CaloJetCollection> jets;
1553  // evt.getByLabel( CaloJetAlgorithm, jets );
1554 
1555  // *********************************************************
1556  // --- Loop over jets and make a list of all the used towers
1557  int jjet = 0;
1558  for ( CaloJetCollection::const_iterator ijet=caloJets->begin(); ijet!=caloJets->end(); ijet++) {
1559  jjet++;
1560 
1561  float hadEne = ijet->hadEnergyInHB() + ijet->hadEnergyInHO() +
1562  ijet->hadEnergyInHE() + ijet->hadEnergyInHF();
1563  float emEne = ijet->emEnergyInEB() + ijet->emEnergyInEE() + ijet->emEnergyInHF();
1564  float had = ijet->energyFractionHadronic();
1565  float j_et = ijet->et();
1566 
1567  // *** Barrel
1568  if (fabs(ijet->eta()) < 1.3) {
1569  totEneLeadJetEta1->Fill(hadEne+emEne);
1570  hadEneLeadJetEta1->Fill(ijet->hadEnergyInHB());
1571  emEneLeadJetEta1->Fill(ijet->emEnergyInEB());
1572  if (ijet->pt() > minJetPt10) hadFracEta1->Fill(had);
1573  }
1574 
1575  // *** EndCap
1576  if ((fabs(ijet->eta()) > 1.3) && (fabs(ijet->eta()) < 3.) ) {
1577  totEneLeadJetEta2->Fill(hadEne+emEne);
1578  hadEneLeadJetEta2->Fill(ijet->hadEnergyInHE());
1579  emEneLeadJetEta2->Fill(ijet->emEnergyInEE());
1580  if (ijet->pt() > minJetPt10) hadFracEta2->Fill(had);
1581  }
1582 
1583  // *** Forward
1584  if (fabs(ijet->eta()) > 3.) {
1585  totEneLeadJetEta3->Fill(hadEne+emEne);
1586  hadEneLeadJetEta3->Fill(hadEne);
1587  emEneLeadJetEta3->Fill(emEne);
1588  if (ijet->pt() > minJetPt10) hadFracEta3->Fill(had);
1589  }
1590 
1591  // *** CaloTowers in Jet
1592  const std::vector<CaloTowerPtr> jetCaloRefs = ijet->getCaloConstituents();
1593  int nConstituents = jetCaloRefs.size();
1594  NTowers->Fill(nConstituents);
1595 
1596  if (jjet == 1) {
1597 
1598  nTow1 = nTow2 = nTow3 = nTow4 = 0;
1599  for (int i = 0; i <nConstituents ; i++){
1600 
1601  float et = jetCaloRefs[i]->et();
1602 
1603  if (et > 0.5) nTow1++;
1604  if (et > 1.0) nTow2++;
1605  if (et > 1.5) nTow3++;
1606  if (et > 2.0) nTow4++;
1607 
1608  hf_TowerJetEt->Fill(et/j_et);
1609 
1610  }
1611 
1612  nTowersLeadJetPt1->Fill(nTow1);
1613  nTowersLeadJetPt2->Fill(nTow2);
1614  nTowersLeadJetPt3->Fill(nTow3);
1615  nTowersLeadJetPt4->Fill(nTow4);
1616 
1617  }
1618 
1619  }
1620 
1621 
1622  // **********************
1623  // *** Unclustered Energy
1624  // **********************
1625 
1626  double SumPtJet(0);
1627 
1628  double SumEtNotJets(0);
1629  double SumEtJets(0);
1630  double SumEtTowers(0);
1631  double TotalClusteredE(0);
1632  double TotalUnclusteredE(0);
1633 
1634  double sumJetPx(0);
1635  double sumJetPy(0);
1636 
1637  double sumTowerAllPx(0);
1638  double sumTowerAllPy(0);
1639 
1640  double sumTowerAllEx(0);
1641  double sumTowerAllEy(0);
1642 
1643  // double HCALTotalE;
1644  double HBTotalE, HETotalE, HOTotalE, HFTotalE;
1645  // double ECALTotalE;
1646  double EBTotalE, EETotalE;
1647 
1648  std::vector<CaloTowerPtr> UsedTowerList;
1649  std::vector<CaloTower> TowerUsedInJets;
1650  std::vector<CaloTower> TowerNotUsedInJets;
1651 
1652  // *********************
1653  // *** Hcal recHits
1654  // *********************
1655 
1657 
1658  // HCALTotalE = 0.;
1659  HBTotalE = HETotalE = HOTotalE = HFTotalE = 0.;
1660  try {
1661  std::vector<edm::Handle<HBHERecHitCollection> > colls;
1662  evt.getManyByType(colls);
1663  std::vector<edm::Handle<HBHERecHitCollection> >::iterator i;
1664  for (i=colls.begin(); i!=colls.end(); i++) {
1665 
1666 
1667  for (HBHERecHitCollection::const_iterator j=(*i)->begin(); j!=(*i)->end(); j++) {
1668  // std::cout << *j << std::endl;
1669  if (j->id().subdet() == HcalBarrel) {
1670  HBEne->Fill(j->energy());
1671  HBTime->Fill(j->time());
1672  if (!Pass_NoiseSummary) HBTimeFlagged2->Fill(j->time());
1673  if (j->flagField(HcalCaloFlagLabels::HBHETimingShapedCutsBits) != 0) HBTimeFlagged->Fill(j->time());
1674  HBTvsE->Fill(j->energy(), j->time());
1675 
1676  if (j->time() > 20.) HBEneTThr->Fill(j->energy());
1677 
1678  if ((j->time()<-25.) || (j->time()>75.)) {
1679  HBEneOOT->Fill(j->energy());
1680  if (j->energy() > HBHEThreshold) HBEneOOTTh->Fill(j->energy());
1681  if (j->energy() > HBHEThreshold1) HBEneOOTTh1->Fill(j->energy());
1682  }
1683  if (j->energy() > HBHEThreshold) {
1684  HBEneTh->Fill(j->energy());
1685  HBTimeTh->Fill(j->time());
1686  if (!Pass_NoiseSummary) HBTimeThFlagged2->Fill(j->time());
1687  if (j->flagField(HcalCaloFlagLabels::HBHETimingShapedCutsBits) != 0) HBTimeThFlagged->Fill(j->time());
1688 
1689  if (evt.id().run() >= StableRun) HBTimeThR->Fill(j->time());
1690  HBTotalE += j->energy();
1691  HBocc->Fill(j->id().ieta(),j->id().iphi());
1692  hitEta->Fill(j->id().ieta());
1693  hitPhi->Fill(j->id().iphi());
1694  }
1695  if (j->energy() > HBHEThreshold1) {
1696  HBEneTh1->Fill(j->energy());
1697  HBTimeTh1->Fill(j->time());
1698  if (!Pass_NoiseSummary) HBTimeTh1Flagged2->Fill(j->time());
1699  if (j->flagField(HcalCaloFlagLabels::HBHETimingShapedCutsBits) != 0) HBTimeTh1Flagged->Fill(j->time());
1700 
1701  if (evt.id().run() >= StableRun) HBTimeTh1R->Fill(j->time());
1702  if ((j->time()<-25.) || (j->time()>75.)) {
1703  HBoccOOT->Fill(j->id().ieta(),j->id().iphi());
1704  }
1705  }
1706  if (j->energy() > HBHEThreshold2) {
1707  HBTimeTh2->Fill(j->time());
1708  if (!Pass_NoiseSummary) HBTimeTh2Flagged2->Fill(j->time());
1709  if (j->flagField(HcalCaloFlagLabels::HBHETimingShapedCutsBits) != 0) HBTimeTh2Flagged->Fill(j->time());
1710 
1711  if (evt.id().run() >= StableRun) HBTimeTh2R->Fill(j->time());
1712  }
1713  if (j->energy() > HBHEThreshold3) {
1714  HBTimeTh3->Fill(j->time());
1715  if (evt.id().run() >= StableRun) HBTimeTh3R->Fill(j->time());
1716  }
1717  if ( (evt.id().run() == 120020) && (evt.id().event() == 453) ) {
1718  HBEneX->Fill(j->energy());
1719  if (j->energy() > HBHEThreshold) HBTimeX->Fill(j->time());
1720  }
1721  if ( (evt.id().run() == 120020) && (evt.id().event() == 457) ) {
1722  HBEneY->Fill(j->energy());
1723  if (j->energy() > HBHEThreshold) HBTimeY->Fill(j->time());
1724  }
1725  }
1726  if (j->id().subdet() == HcalEndcap) {
1727  HEEne->Fill(j->energy());
1728  HETime->Fill(j->time());
1729  if (!Pass_NoiseSummary) HETimeFlagged2->Fill(j->time());
1730  if (j->flagField(HcalCaloFlagLabels::HBHETimingShapedCutsBits) != 0) HETimeFlagged->Fill(j->time());
1731  HETvsE->Fill(j->energy(), j->time());
1732 
1733  if (j->time() > 20.) HEEneTThr->Fill(j->energy());
1734 
1735  if ((j->time()<-25.) || (j->time()>75.)) {
1736  HEEneOOT->Fill(j->energy());
1737  if (j->energy() > HBHEThreshold) HEEneOOTTh->Fill(j->energy());
1738  if (j->energy() > HBHEThreshold1) HEEneOOTTh1->Fill(j->energy());
1739  }
1740 
1741  if (j->energy() > HBHEThreshold) {
1742  HEEneTh->Fill(j->energy());
1743  HETimeTh->Fill(j->time());
1744  if (!Pass_NoiseSummary) HETimeThFlagged2->Fill(j->time());
1745  if (j->flagField(HcalCaloFlagLabels::HBHETimingShapedCutsBits) != 0) HETimeThFlagged->Fill(j->time());
1746 
1747  if (evt.id().run() >= StableRun) HETimeThR->Fill(j->time());
1748  HETotalE += j->energy();
1749  HEocc->Fill(j->id().ieta(),j->id().iphi());
1750  hitEta->Fill(j->id().ieta());
1751  hitPhi->Fill(j->id().iphi());
1752  }
1753  if (j->energy() > HBHEThreshold1) {
1754  HEEneTh1->Fill(j->energy());
1755  HETimeTh1->Fill(j->time());
1756  if (!Pass_NoiseSummary) HETimeTh1Flagged2->Fill(j->time());
1757  if (j->flagField(HcalCaloFlagLabels::HBHETimingShapedCutsBits) != 0) HETimeTh1Flagged->Fill(j->time());
1758  if (evt.id().run() >= StableRun) HETimeTh1R->Fill(j->time());
1759  if ((j->time()<-25.) || (j->time()>75.)) {
1760  HEoccOOT->Fill(j->id().ieta(),j->id().iphi());
1761  }
1762  }
1763  if (j->energy() > HBHEThreshold2) {
1764  HETimeTh2->Fill(j->time());
1765  if (!Pass_NoiseSummary) HETimeTh2Flagged2->Fill(j->time());
1766  if (j->flagField(HcalCaloFlagLabels::HBHETimingShapedCutsBits) != 0) HETimeTh2Flagged->Fill(j->time());
1767  if (evt.id().run() >= StableRun) HETimeTh2R->Fill(j->time());
1768  }
1769  if (j->energy() > HBHEThreshold3) {
1770  HETimeTh3->Fill(j->time());
1771  if (evt.id().run() >= StableRun) HETimeTh3R->Fill(j->time());
1772  }
1773 
1774  if ( (evt.id().run() == 120020) && (evt.id().event() == 453) ) {
1775  HEEneX->Fill(j->energy());
1776  if (j->energy() > HBHEThreshold) HETimeX->Fill(j->time());
1777  }
1778  if ( (evt.id().run() == 120020) && (evt.id().event() == 457) ) {
1779  HEEneY->Fill(j->energy());
1780  if (j->energy() > HBHEThreshold) HETimeY->Fill(j->time());
1781  }
1782 
1783  // Fill +-HE separately
1784  if (j->id().ieta()<0) {
1785  HEnegEne->Fill(j->energy());
1786  if (j->energy() > HBHEThreshold) {
1787  HEnegTime->Fill(j->time());
1788  }
1789  } else {
1790  HEposEne->Fill(j->energy());
1791  if (j->energy() > HBHEThreshold) {
1792  HEposTime->Fill(j->time());
1793  }
1794  }
1795 
1796  }
1797 
1798  /***
1799  std::cout << j->id() << " "
1800  << j->id().subdet() << " "
1801  << j->id().ieta() << " "
1802  << j->id().iphi() << " "
1803  << j->id().depth() << " "
1804  << j->energy() << " "
1805  << j->time() << std::endl;
1806  ****/
1807  }
1808  }
1809  } catch (...) {
1810  cout << "No HB/HE RecHits." << endl;
1811  }
1812 
1813 
1814  HFM_ETime = 0.;
1815  HFM_E = 0.;
1816  HFP_ETime = 0.;
1817  HFP_E = 0.;
1818 
1819  int NPMTHits;
1820  NPMTHits = 0;
1821  try {
1822  std::vector<edm::Handle<HFRecHitCollection> > colls;
1823  evt.getManyByType(colls);
1824  std::vector<edm::Handle<HFRecHitCollection> >::iterator i;
1825  for (i=colls.begin(); i!=colls.end(); i++) {
1826  for (HFRecHitCollection::const_iterator j=(*i)->begin(); j!=(*i)->end(); j++) {
1827  if ( (j->flagField(HcalCaloFlagLabels::HFLongShort) == 1) ||
1828  (j->flagField(HcalCaloFlagLabels::HFDigiTime) == 1) ) {
1829  NPMTHits++;
1830  }
1831  }
1832  break;
1833  }
1834  } catch (...) {
1835  cout << "No HF RecHits." << endl;
1836  }
1837 
1838 
1839  PMTHits->Fill(NPMTHits);
1840 
1841  try {
1842  std::vector<edm::Handle<HFRecHitCollection> > colls;
1843  evt.getManyByType(colls);
1844  std::vector<edm::Handle<HFRecHitCollection> >::iterator i;
1845  for (i=colls.begin(); i!=colls.end(); i++) {
1846  for (HFRecHitCollection::const_iterator j=(*i)->begin(); j!=(*i)->end(); j++) {
1847 
1848  /****
1849  float en = j->energy();
1850  HcalDetId id(j->detid().rawId());
1851  int ieta = id.ieta();
1852  int iphi = id.iphi();
1853  int depth = id.depth();
1854  *****/
1855 
1856  // std::cout << *j << std::endl;
1857 
1858  if (j->id().subdet() == HcalForward) {
1859 
1860  if (NPMTHits == 1) {
1861  if ( (j->flagField(HcalCaloFlagLabels::HFLongShort) == 1) ||
1862  (j->flagField(HcalCaloFlagLabels::HFDigiTime) == 1) ) {
1863  HFEtaFlagged->Fill(j->id().ieta());
1864  if (j->id().depth() == 1) HFEtaFlaggedL->Fill(j->id().ieta());
1865  if (j->id().depth() == 2) HFEtaFlaggedS->Fill(j->id().ieta());
1866  } else {
1867  HFEtaNFlagged->Fill(j->id().ieta(), j->energy());
1868  HFEtaPhiNFlagged->Fill(j->id().ieta(),j->id().iphi(),j->energy());
1869  }
1870  }
1871  if (j->energy() > 20.) {
1872  if (NPMTHits == 0) {
1873  HFEnePMT0->Fill(j->energy());
1874  HFTimePMT0->Fill(j->time());
1875  }
1876  if (NPMTHits == 1) {
1877  if ( (j->flagField(HcalCaloFlagLabels::HFLongShort) == 1) ||
1878  (j->flagField(HcalCaloFlagLabels::HFDigiTime) == 1) ) {
1879  HFEnePMT1->Fill(j->energy());
1880  HFTimePMT1->Fill(j->time());
1881  }
1882  }
1883  if (NPMTHits > 1) {
1884  if ( (j->flagField(HcalCaloFlagLabels::HFLongShort) == 1) ||
1885  (j->flagField(HcalCaloFlagLabels::HFDigiTime) == 1) ) {
1886  HFEnePMT2->Fill(j->energy());
1887  HFTimePMT2->Fill(j->time());
1888  }
1889  }
1890  }
1891 
1892  HFTimeVsiEtaP->Fill(j->id().ieta(), j->time());
1893  HFTimeVsiEtaM->Fill(j->id().ieta(), j->time());
1894 
1895  if (j->energy() > 5.) {
1896  HFTimeVsiEtaP5->Fill(j->id().ieta(), j->time());
1897  HFTimeVsiEtaM5->Fill(j->id().ieta(), j->time());
1898  }
1899 
1900  if (j->energy() > 20.) {
1901  HFTimeVsiEtaP20->Fill(j->id().ieta(), j->time());
1902  HFTimeVsiEtaM20->Fill(j->id().ieta(), j->time());
1903  }
1904 
1905  HFEne->Fill(j->energy());
1906  HFTime->Fill(j->time());
1907  HFTvsE->Fill(j->energy(), j->time());
1908 
1909  if (j->time() > 20.) HFEneTThr->Fill(j->energy());
1910 
1911  if (j->energy() > 10.) HFTvsEThr->Fill(j->energy(), j->time());
1912 
1913  if ( (j->flagField(HcalCaloFlagLabels::HFLongShort) == 1)||
1914  (j->flagField(HcalCaloFlagLabels::HFDigiTime) == 1) ) {
1915  HFEneFlagged->Fill(j->energy());
1916  HFoccFlagged->Fill(j->id().ieta(),j->id().iphi());
1917  HFTimeFlagged->Fill(j->time());
1918  HFTvsEFlagged->Fill(j->energy(), j->time());
1919 
1920  // std::cout << "Flagged: " << j->energy() << " "
1921  // << j->time()
1922  // << std::endl;
1923  }
1924 
1925 
1926  if (j->flagField(HcalCaloFlagLabels::HFLongShort) == 1) {
1927  HFEneFlagged2->Fill(j->energy());
1928  HFoccFlagged2->Fill(j->id().ieta(),j->id().iphi());
1929  HFTimeFlagged2->Fill(j->time());
1930  HFTvsEFlagged2->Fill(j->energy(), j->time());
1931  if (j->energy() > 10.) HFTvsEFlagged2Thr->Fill(j->energy(), j->time());
1932  }
1933 
1934  if (j->flagField(HcalCaloFlagLabels::HFDigiTime) == 1) {
1935  HFTimeFlagged3->Fill(j->time());
1936  }
1937 
1938  if (j->energy() > HFThreshold) {
1939  HFEneTh->Fill(j->energy());
1940  HFTimeTh->Fill(j->time());
1941  if (j->flagField(HcalCaloFlagLabels::HFLongShort) == 1) HFTimeThFlagged2->Fill(j->time());
1942  if (j->flagField(HcalCaloFlagLabels::HFDigiTime) == 1) HFTimeThFlagged3->Fill(j->time());
1943 
1944  if (evt.id().run() >= StableRun) HFTimeThR->Fill(j->time());
1945  if ( (j->flagField(HcalCaloFlagLabels::HFLongShort) == 1)||
1946  (j->flagField(HcalCaloFlagLabels::HFDigiTime) == 1) ) {
1947 
1948  HFTimeThFlagged->Fill(j->time());
1949 
1950  if (j->energy() > HFThreshold2) HFTimeTh2Flagged->Fill(j->time());
1951  if (j->energy() > HFThreshold3) HFTimeTh3Flagged->Fill(j->time());
1952 
1953  if (evt.id().run() >= StableRun) {
1954  HFTimeThFlaggedR->Fill(j->time());
1955  if (NPMTHits == 1) HFTimeThFlaggedR1->Fill(j->time());
1956  if (NPMTHits == 2) HFTimeThFlaggedR2->Fill(j->time());
1957  if (NPMTHits == 3) HFTimeThFlaggedR3->Fill(j->time());
1958  if (NPMTHits == 4) HFTimeThFlaggedR4->Fill(j->time());
1959  if (NPMTHits > 1) HFTimeThFlaggedRM->Fill(j->time());
1960  }
1961  }
1962  HFTotalE += j->energy();
1963  HFocc->Fill(j->id().ieta(),j->id().iphi());
1964  hitEta->Fill(j->id().ieta());
1965  hitPhi->Fill(j->id().iphi());
1966  }
1967 
1968  if (j->energy() > HFThreshold1) {
1969  HFEneTh1->Fill(j->energy());
1970  HFTimeTh1->Fill(j->time());
1971  if (j->flagField(HcalCaloFlagLabels::HFLongShort) == 1) HFTimeTh1Flagged2->Fill(j->time());
1972  if (j->flagField(HcalCaloFlagLabels::HFDigiTime) == 1) HFTimeTh1Flagged3->Fill(j->time());
1973  if (evt.id().run() >= StableRun) HFTimeTh1R->Fill(j->time());
1974  if ((j->time()<-20.) || (j->time()>20.)) {
1975  HFoccOOT->Fill(j->id().ieta(),j->id().iphi());
1976  }
1977  }
1978  if (j->energy() > HFThreshold2) {
1979  HFTimeTh2->Fill(j->time());
1980  if (j->flagField(HcalCaloFlagLabels::HFLongShort) == 1) HFTimeTh2Flagged2->Fill(j->time());
1981  if (j->flagField(HcalCaloFlagLabels::HFDigiTime) == 1) HFTimeTh2Flagged3->Fill(j->time());
1982  if (evt.id().run() >= StableRun) HFTimeTh2R->Fill(j->time());
1983  }
1984  if (j->energy() > HFThreshold3) {
1985  HFTimeTh3->Fill(j->time());
1986  if (j->flagField(HcalCaloFlagLabels::HFLongShort) == 1) HFTimeTh3Flagged2->Fill(j->time());
1987  if (j->flagField(HcalCaloFlagLabels::HFDigiTime) == 1) HFTimeTh3Flagged3->Fill(j->time());
1988  if (evt.id().run() >= StableRun) HFTimeTh3R->Fill(j->time());
1989  }
1990 
1991  if (j->id().ieta()<0) {
1992  if (j->energy() > HFThreshold) {
1993  // HFTimeM->Fill(j->time());
1994  HFEneM->Fill(j->energy());
1995  HFM_ETime += j->energy()*j->time();
1996  HFM_E += j->energy();
1997  }
1998  } else {
1999  if (j->energy() > HFThreshold) {
2000  // HFTimeP->Fill(j->time());
2001  HFEneP->Fill(j->energy());
2002  HFP_ETime += j->energy()*j->time();
2003  HFP_E += j->energy();
2004  }
2005  }
2006 
2007  // Long and short fibers
2008  if (j->id().depth() == 1){
2009  HFLEne->Fill(j->energy());
2010  if (j->energy() > HFThreshold) HFLTime->Fill(j->time());
2011  } else {
2012  HFSEne->Fill(j->energy());
2013  if (j->energy() > HFThreshold) HFSTime->Fill(j->time());
2014  }
2015  }
2016  }
2017  break;
2018 
2019  }
2020 
2021  } catch (...) {
2022  cout << "No HF RecHits." << endl;
2023  }
2024 
2025 
2026 
2027  for (int ieta=0; ieta<100; ieta++) {
2028  for (int iphi=0; iphi<100; iphi++) {
2029  double longF, shortF;
2030  if (HFRecHit[ieta][iphi][0] == -10.) {
2031  longF = 0.;
2032  } else {
2033  longF = HFRecHit[ieta][iphi][0];
2034  }
2035  if (HFRecHit[ieta][iphi][1] == -10.) {
2036  shortF = 0.;
2037  } else {
2038  shortF = HFRecHit[ieta][iphi][1];
2039  }
2040  // if ((longF > HFThreshold) || (shortF > HFThreshold)) HFLSRatio->Fill((longF-shortF)/(longF+shortF));
2041 
2042  if (longF > 0.) HFLEneAll->Fill(longF);
2043  if (shortF > 0.) HFSEneAll->Fill(shortF);
2044 
2045 
2046  if ((longF > 20.) || (shortF > 20.)) {
2047  double R = (longF-shortF)/(longF+shortF);
2048  HFLSRatio->Fill(R);
2049  if (fabs(R) > 0.995) {
2050 
2051  // if (longF > 110.) {
2052  // if (longF > 50.) {
2053  if (longF > (162.4-10.19*abs(ieta-41)+.21*abs(ieta-41)*abs(ieta-41)) ) {
2054  HFEtaFlaggedLN->Fill(ieta-41);
2055 
2056  HFLEneAllF->Fill(longF);
2057 
2058  if (shortF == 0.) HFLEneNoSFlaggedN->Fill(longF);
2059  }
2060  // if (shortF > 70.) {
2061  // if (shortF > 50.) {
2062  if (shortF > (129.9-6.61*abs(ieta-41)+0.1153*abs(ieta-41)*abs(ieta-41)) ) {
2063  HFEtaFlaggedSN->Fill(ieta-41);
2064 
2065  HFSEneAllF->Fill(shortF);
2066 
2067  if (longF == 0.) HFSEneNoLFlaggedN->Fill(shortF);
2068  }
2069  }
2070  }
2071  /***
2072  cout << "HF LS Ratio long= "
2073  << longF
2074  << " short= "
2075  << shortF
2076  << endl;
2077  ***/
2078 
2079  HFLvsS->Fill(HFRecHit[ieta][iphi][1], HFRecHit[ieta][iphi][0]);
2080  if ( (HFRecHit[ieta][iphi][1] == -10.) && (HFRecHit[ieta][iphi][0] != -10.) ) {
2081  HFLEneNoS->Fill(HFRecHit[ieta][iphi][0]);
2082  if (HFRecHitFlag[ieta][iphi][0] !=0 ) HFLEneNoSFlagged->Fill(HFRecHit[ieta][iphi][0]);
2083  }
2084  if ( (HFRecHit[ieta][iphi][0] == -10.) && (HFRecHit[ieta][iphi][1] != -10.) ) {
2085  HFSEneNoL->Fill(HFRecHit[ieta][iphi][1]);
2086  if (HFRecHitFlag[ieta][iphi][1] !=0 ) HFSEneNoLFlagged->Fill(HFRecHit[ieta][iphi][1]);
2087  }
2088 
2089  }
2090  }
2091 
2092  if (HFP_E > 0.) HFTimeP->Fill(HFP_ETime / HFP_E);
2093  if (HFM_E > 0.) HFTimeM->Fill(HFM_ETime / HFM_E);
2094 
2095  if ((HFP_E > 0.) && (HFM_E > 0.)) {
2096  HF_PMM = (HFP_ETime / HFP_E) - (HFM_ETime / HFM_E);
2097  HFTimePM->Fill(HF_PMM);
2098  } else {
2099  HF_PMM = INVALID;
2100  }
2101 
2102 
2103 
2104  try {
2105  std::vector<edm::Handle<HORecHitCollection> > colls;
2106  evt.getManyByType(colls);
2107  std::vector<edm::Handle<HORecHitCollection> >::iterator i;
2108  for (i=colls.begin(); i!=colls.end(); i++) {
2109  for (HORecHitCollection::const_iterator j=(*i)->begin(); j!=(*i)->end(); j++) {
2110  if (j->id().subdet() == HcalOuter) {
2111  HOEne->Fill(j->energy());
2112  HOTime->Fill(j->time());
2113  HOTvsE->Fill(j->energy(), j->time());
2114  if (j->energy() > HOThreshold1) {
2115  HOEneTh1->Fill(j->energy());
2116  }
2117  if (j->energy() > HOThreshold) {
2118  HOEneTh->Fill(j->energy());
2119  HOTimeTh->Fill(j->time());
2120  HOTotalE += j->energy();
2121  HOocc->Fill(j->id().ieta(),j->id().iphi());
2122  }
2123 
2124  // Separate SiPMs and HPDs:
2125  if (((j->id().iphi()>=59 && j->id().iphi()<=70 &&
2126  j->id().ieta()>=11 && j->id().ieta()<=15) ||
2127  (j->id().iphi()>=47 && j->id().iphi()<=58 &&
2128  j->id().ieta()>=5 && j->id().ieta()<=10)))
2129  {
2130  HOSEne->Fill(j->energy());
2131  if (j->energy() > HOThreshold) HOSTime->Fill(j->time());
2132  } else if ((j->id().iphi()<59 || j->id().iphi()>70 ||
2133  j->id().ieta()<11 || j->id().ieta()>15) &&
2134  (j->id().iphi()<47 || j->id().iphi()>58 ||
2135  j->id().ieta()<5 || j->id().ieta()>10))
2136  {
2137  HOHEne->Fill(j->energy());
2138  if (j->energy() > HOThreshold) HOHTime->Fill(j->time());
2139  // Separate rings -1,-2,0,1,2 in HPDs:
2140  if (j->id().ieta()<= -11){
2141  HOHrm2Ene->Fill(j->energy());
2142  if (j->energy() > HOThreshold) HOHrm2Time->Fill(j->time());
2143  } else if (j->id().ieta()>= -10 && j->id().ieta() <= -5) {
2144  HOHrm1Ene->Fill(j->energy());
2145  if (j->energy() > HOThreshold) HOHrm1Time->Fill(j->time());
2146  } else if (j->id().ieta()>= -4 && j->id().ieta() <= 4) {
2147  HOHr0Ene->Fill(j->energy());
2148  if (j->energy() > HOThreshold) HOHr0Time->Fill(j->time());
2149  } else if (j->id().ieta()>= 5 && j->id().ieta() <= 10) {
2150  HOHrp1Ene->Fill(j->energy());
2151  if (j->energy() > HOThreshold) HOHrp1Time->Fill(j->time());
2152  } else if (j->id().ieta()>= 11) {
2153  HOHrp2Ene->Fill(j->energy());
2154  if (j->energy() > HOThreshold) HOHrp2Time->Fill(j->time());
2155  } else {
2156  std::cout << "Finding events that are in no ring !?!" << std::endl;
2157  std::cout << "eta = " << j->id().ieta() << std::endl;
2158 
2159  }
2160  } else {
2161  std::cout << "Finding events that are neither SiPM nor HPD!?" << std::endl;
2162  }
2163 
2164 
2165 
2166  }
2167  // std::cout << *j << std::endl;
2168  }
2169  }
2170  } catch (...) {
2171  cout << "No HO RecHits." << endl;
2172  }
2173 
2174  // HCALTotalE = HBTotalE + HETotalE + HFTotalE + HOTotalE;
2175  // ECALTotalE = 0.;
2176  EBTotalE = EETotalE = 0.;
2177 
2178 
2179  try {
2180  std::vector<edm::Handle<EcalRecHitCollection> > colls;
2181  evt.getManyByType(colls);
2182  std::vector<edm::Handle<EcalRecHitCollection> >::iterator i;
2183  for (i=colls.begin(); i!=colls.end(); i++) {
2184  for (EcalRecHitCollection::const_iterator j=(*i)->begin(); j!=(*i)->end(); j++) {
2185  if (j->id().subdetId() == EcalBarrel) {
2186  EBEne->Fill(j->energy());
2187  EBTime->Fill(j->time());
2188  if (j->energy() > EBEEThreshold) {
2189  EBEneTh->Fill(j->energy());
2190  EBTimeTh->Fill(j->time());
2191  }
2192  if ( (evt.id().run() == 120020) && (evt.id().event() == 453) ) {
2193  EBEneX->Fill(j->energy());
2194  EBTimeX->Fill(j->time());
2195  }
2196  if ( (evt.id().run() == 120020) && (evt.id().event() == 457) ) {
2197  EBEneY->Fill(j->energy());
2198  EBTimeY->Fill(j->time());
2199  }
2200  EBTotalE += j->energy();
2201  }
2202  if (j->id().subdetId() == EcalEndcap) {
2203  EEEne->Fill(j->energy());
2204  EETime->Fill(j->time());
2205  if (j->energy() > EBEEThreshold) {
2206  EEEneTh->Fill(j->energy());
2207  EETimeTh->Fill(j->time());
2208  }
2209  if ( (evt.id().run() == 120020) && (evt.id().event() == 453) ) {
2210  EEEneX->Fill(j->energy());
2211  EETimeX->Fill(j->time());
2212  }
2213  if ( (evt.id().run() == 120020) && (evt.id().event() == 457 ) ) {
2214  EEEneY->Fill(j->energy());
2215  EETimeY->Fill(j->time());
2216  }
2217  EETotalE += j->energy();
2218  }
2219  // std::cout << *j << std::endl;
2220  // std::cout << "EB ID = " << j->id().subdetId() << "/" << EcalBarrel << std::endl;
2221  }
2222  }
2223  } catch (...) {
2224  cout << "No ECAL RecHits." << endl;
2225  }
2226 
2227  EBvHB->Fill(HBTotalE, EBTotalE);
2228  EEvHE->Fill(HETotalE, EETotalE);
2229 
2230  /*****
2231  try {
2232  std::vector<edm::Handle<EBRecHitCollection> > colls;
2233  evt.getManyByType(colls);
2234  std::vector<edm::Handle<EBRecHitCollection> >::iterator i;
2235 
2236  for (i=colls.begin(); i!=colls.end(); i++) {
2237  for (EBRecHitCollection::const_iterator j=(*i)->begin(); j!=(*i)->end(); j++) {
2238  // if (j->id().subdetId() == EcalBarrel) {
2239  EBEne->Fill(j->energy());
2240  EBTime->Fill(j->time());
2241  // EBTotalE = j->energy();
2242  // }
2243  // std::cout << *j << std::endl;
2244  // std::cout << "EB ID = " << j->id().subdetId() << "/" << EcalBarrel << std::endl;
2245  }
2246  }
2247  } catch (...) {
2248  cout << "No EB RecHits." << endl;
2249  }
2250 
2251  try {
2252  std::vector<edm::Handle<EERecHitCollection> > colls;
2253  evt.getManyByType(colls);
2254  std::vector<edm::Handle<EERecHitCollection> >::iterator i;
2255  for (i=colls.begin(); i!=colls.end(); i++) {
2256  for (EERecHitCollection::const_iterator j=(*i)->begin(); j!=(*i)->end(); j++) {
2257  // if (j->id().subdetId() == EcalEndcap) {
2258  EEEne->Fill(j->energy());
2259  EETime->Fill(j->time());
2260  // EETotalE = j->energy();
2261  // Separate +-EE;
2262  EEDetId EEid = EEDetId(j->id());
2263  if (!EEid.positiveZ())
2264  {
2265  EEnegEne->Fill(j->energy());
2266  EEnegTime->Fill(j->time());
2267  }else{
2268  EEposEne->Fill(j->energy());
2269  EEposTime->Fill(j->time());
2270  }
2271  // }
2272  // std::cout << *j << std::endl;
2273  }
2274  }
2275  } catch (...) {
2276  cout << "No EE RecHits." << endl;
2277  }
2278  ******/
2279 
2280  // ECALTotalE = EBTotalE + EETotalE;
2281 
2282  if ( (EBTotalE > 320000) && (EBTotalE < 330000) &&
2283  (HBTotalE > 2700000) && (HBTotalE < 2800000) ) {
2284 
2285  std::cout << ">>> Off Axis! "
2286  << std::endl;
2287 
2288  }
2289 
2290  /***
2291  std::cout << " Rechits: Total Energy : "
2292  << " HCAL= " << HCALTotalE
2293  << " ECAL= " << ECALTotalE
2294  << " HB = " << HBTotalE
2295  << " EB = " << EBTotalE
2296  << std::endl;
2297  ***/
2298 
2299 
2300  // *********************
2301  // *** CaloTowers
2302  // *********************
2303  // Handle<CaloTowerCollection> caloTowers;
2304  // evt.getByLabel( "towerMaker", caloTowers );
2305 
2306  nTow1 = nTow2 = nTow3 = nTow4 = 0;
2307 
2308  double sum_et = 0.0;
2309  double sum_ex = 0.0;
2310  double sum_ey = 0.0;
2311 
2312  double HFsum_et = 0.0;
2313  double HFsum_ex = 0.0;
2314  double HFsum_ey = 0.0;
2315  // double sum_ez = 0.0;
2316 
2317 
2318  // std::cout<<">>>> Run " << evt.id().run() << " Event " << evt.id().event() << std::endl;
2319  // --- Loop over towers and make a lists of used and unused towers
2320  for (CaloTowerCollection::const_iterator tower = caloTowers->begin();
2321  tower != caloTowers->end(); tower++) {
2322 
2323  Double_t et = tower->et();
2324  Double_t phix = tower->phi();
2325 
2326  if (et > 0.5) nTow1++;
2327  if (et > 1.0) nTow2++;
2328  if (et > 1.5) nTow3++;
2329  if (et > 2.0) nTow4++;
2330 
2331  // if ( (fabs(tower->ieta() > 42)) || (fabs(tower->iphi()) > 72) ) {
2332  // std::cout << "ieta/iphi = " << tower->ieta() << " / " << tower->iphi() << std::endl;
2333  // }
2334 
2335  if (tower->emEnergy() > 2.0) {
2336  h_EmEnergy->Fill (tower->ieta(), tower->iphi(), tower->emEnergy());
2337  }
2338  if (tower->hadEnergy() > 2.0) {
2339  h_HadEnergy->Fill (tower->ieta(), tower->iphi(), tower->hadEnergy());
2340  }
2341 
2342  if (fabs(tower->ieta()) > 29) {
2343  HFsum_et += et;
2344  HFsum_ex += et*cos(phix);
2345  HFsum_ey += et*sin(phix);
2346  }
2347 
2348 
2349  if (et>0.5) {
2350 
2351  ETime->Fill(tower->ecalTime());
2352  HTime->Fill(tower->hcalTime());
2353 
2354  // ********
2355  // double theta = tower->theta();
2356  // double e = tower->energy();
2357  // double et = e*sin(theta);
2358  // double et = tower->emEt() + tower->hadEt();
2359  // sum_ez += e*cos(theta);
2360  sum_et += et;
2361  sum_ex += et*cos(phix);
2362  sum_ey += et*sin(phix);
2363  // ********
2364 
2365  Double_t phi = tower->phi();
2366  SumEtTowers += tower->et();
2367 
2368  sumTowerAllEx += et*cos(phi);
2369  sumTowerAllEy += et*sin(phi);
2370 
2371  }
2372 
2373  }
2374 
2375  // SumEt->Fill(sum_et);
2376  // MET->Fill(sqrt( sum_ex*sum_ex + sum_ey*sum_ey));
2377 
2378  HFSumEt->Fill(HFsum_et);
2379  HFMET->Fill(sqrt( HFsum_ex*HFsum_ex + HFsum_ey*HFsum_ey));
2380 
2381  hf_sumTowerAllEx->Fill(sumTowerAllEx);
2382  hf_sumTowerAllEy->Fill(sumTowerAllEy);
2383 
2384  nTowers1->Fill(nTow1);
2385  nTowers2->Fill(nTow2);
2386  nTowers3->Fill(nTow3);
2387  nTowers4->Fill(nTow4);
2388 
2389 
2390  // *********************
2391  // *********************
2392 
2393  UsedTowerList.clear();
2394  TowerUsedInJets.clear();
2395  TowerNotUsedInJets.clear();
2396 
2397  // --- Loop over jets and make a list of all the used towers
2398  // evt.getByLabel( CaloJetAlgorithm, jets );
2399  for ( CaloJetCollection::const_iterator ijet=caloJets->begin(); ijet!=caloJets->end(); ijet++) {
2400 
2401  Double_t jetPt = ijet->pt();
2402  Double_t jetEta = ijet->eta();
2403  Double_t jetPhi = ijet->phi();
2404 
2405  // if (jetPt>5.0) {
2406 
2407  Double_t jetPx = jetPt*cos(jetPhi);
2408  Double_t jetPy = jetPt*sin(jetPhi);
2409 
2410  sumJetPx +=jetPx;
2411  sumJetPy +=jetPy;
2412 
2413  const std::vector<CaloTowerPtr> jetCaloRefs = ijet->getCaloConstituents();
2414  int nConstituents = jetCaloRefs.size();
2415  for (int i = 0; i <nConstituents ; i++){
2416 
2417  UsedTowerList.push_back(jetCaloRefs[i]);
2418  }
2419 
2420  SumPtJet +=jetPt;
2421 
2422  // }
2423 
2424  if ( (jetPt>80.0) && (fabs(jetEta) < 1.3) ){
2425  st_Pt->Fill( jetPt );
2426  int nConstituents = ijet->getCaloConstituents().size();
2427  st_Constituents->Fill( nConstituents );
2428 
2429  float maxEne = 0.;
2430  float totEne = 0.;
2431 
2432  for(unsigned twr=0; twr<ijet->getCaloConstituents().size(); ++twr){
2433  CaloTowerPtr tower = (ijet->getCaloConstituents())[twr];
2434  // CaloTowerDetId id = tower->id();
2435  if( tower->et()>0. ){
2436 
2437  if (tower->energy() > maxEne) maxEne = tower->energy();
2438  totEne += tower->energy();
2439 
2440  st_Energy->Fill( tower->energy() );
2441  st_EmEnergy->Fill( tower->emEnergy() );
2442  st_HadEnergy->Fill( tower->hadEnergy() );
2443  st_OuterEnergy->Fill( tower->outerEnergy() );
2444 
2445  st_Eta->Fill( tower->eta() );
2446  st_Phi->Fill( tower->phi() );
2447 
2448  st_iEta->Fill( tower->ieta() );
2449  st_iPhi->Fill( tower->iphi() );
2450 
2451  /****
2452  std::cout << ">>> Towers : "
2453  << " " << tower->energy()
2454  << " " << tower->emEnergy()
2455  << " " << tower->hadEnergy()
2456  << " " << tower->outerEnergy()
2457  << " " << tower->et()
2458  << " " << tower->emEt()
2459  << " " << tower->hadEt()
2460  << " " << tower->outerEt()
2461  << " " << tower->eta()
2462  << " " << tower->phi()
2463  << std::endl;
2464  ****/
2465  }
2466  }
2467  st_Frac->Fill( maxEne / totEne );
2468 
2469  }
2470 
2471  }
2472 
2473  int NTowersUsed = UsedTowerList.size();
2474 
2475  // --- Loop over towers and make a lists of used and unused towers
2476  for (CaloTowerCollection::const_iterator tower = caloTowers->begin();
2477  tower != caloTowers->end(); tower++) {
2478 
2479  CaloTower t = *tower;
2480  Double_t et = tower->et();
2481 
2482  if(et>0) {
2483 
2484  Double_t phi = tower->phi();
2485  SumEtTowers += tower->et();
2486 
2487  sumTowerAllPx += et*cos(phi);
2488  sumTowerAllPy += et*sin(phi);
2489 
2490  bool used = false;
2491 
2492  for(int i=0; i<NTowersUsed; i++){
2493  if(tower->id() == UsedTowerList[i]->id()){
2494  used=true;
2495  break;
2496  }
2497  }
2498 
2499  if (used) {
2500  TowerUsedInJets.push_back(t);
2501  } else {
2502  TowerNotUsedInJets.push_back(t);
2503  }
2504  }
2505  }
2506 
2507  int nUsed = TowerUsedInJets.size();
2508  int nNotUsed = TowerNotUsedInJets.size();
2509 
2510  SumEtJets = 0;
2511  SumEtNotJets = 0;
2512  TotalClusteredE = 0;
2513  TotalUnclusteredE = 0;
2514 
2515  for(int i=0;i<nUsed;i++){
2516  SumEtJets += TowerUsedInJets[i].et();
2517  h_ClusteredE->Fill(TowerUsedInJets[i].energy());
2518  if (TowerUsedInJets[i].energy() > 1.0)
2519  TotalClusteredE += TowerUsedInJets[i].energy();
2520  }
2521  h_jetEt->Fill(SumEtJets);
2522 
2523  for(int i=0;i<nNotUsed;i++){
2524  if (TowerNotUsedInJets[i].et() > 0.5)
2525  SumEtNotJets += TowerNotUsedInJets[i].et();
2526  h_UnclusteredEt->Fill(TowerNotUsedInJets[i].et());
2527  h_UnclusteredEts->Fill(TowerNotUsedInJets[i].et());
2528  h_UnclusteredE->Fill(TowerNotUsedInJets[i].energy());
2529  if (TowerNotUsedInJets[i].energy() > 1.0)
2530  TotalUnclusteredE += TowerNotUsedInJets[i].energy();
2531  }
2532 
2533  h_TotalClusteredE->Fill(TotalClusteredE);
2534  h_TotalUnclusteredE->Fill(TotalUnclusteredE);
2535  h_TotalUnclusteredEt->Fill(SumEtNotJets);
2536 
2537  // ********************************
2538  // *** CaloMET
2539  // ********************************
2540 
2542  evt.getByLabel("met", calometcoll);
2543  if (calometcoll.isValid()) {
2544  const CaloMETCollection *calometcol = calometcoll.product();
2545  const CaloMET *calomet;
2546  calomet = &(calometcol->front());
2547 
2548  double caloSumET = calomet->sumEt();
2549  double caloMET = calomet->pt();
2550  double caloMETSig = calomet->mEtSig();
2551  double caloMEx = calomet->px();
2552  double caloMEy = calomet->py();
2553  double caloMETPhi = calomet->phi();
2554 
2555  SumEt->Fill(caloSumET);
2556  MET->Fill(caloMET);
2557  if (std::abs(OER) > 0.8) OERMET->Fill(caloMET);
2558 
2559  if (evtType == 0) MET_Tower->Fill(caloMET);
2560  if (evtType == 1) MET_RBX->Fill(caloMET);
2561  if (evtType == 2) MET_HPD->Fill(caloMET);
2562  METSig->Fill(caloMETSig);
2563  MEx->Fill(caloMEx);
2564  MEy->Fill(caloMEy);
2565  METPhi->Fill(caloMETPhi);
2566 
2567  /***
2568  double caloEz = calomet->e_longitudinal();
2569 
2570  double caloMaxEtInEMTowers = calomet->maxEtInEmTowers();
2571  double caloMaxEtInHadTowers = calomet->maxEtInHadTowers();
2572  double caloEtFractionHadronic = calomet->etFractionHadronic();
2573  double caloEmEtFraction = calomet->emEtFraction();
2574 
2575  double caloHadEtInHB = calomet->hadEtInHB();
2576  double caloHadEtInHO = calomet->hadEtInHO();
2577  double caloHadEtInHE = calomet->hadEtInHE();
2578  double caloHadEtInHF = calomet->hadEtInHF();
2579  double caloEmEtInEB = calomet->emEtInEB();
2580  double caloEmEtInEE = calomet->emEtInEE();
2581  double caloEmEtInHF = calomet->emEtInHF();
2582  ****/
2583  }
2584 
2585  // ********************************
2586  // *** Vertex
2587  // ********************************
2588  VTX = INVALID;
2589  nVTX = 0;
2590 
2592  evt.getByLabel("offlinePrimaryVertices", vertexCollection);
2593  const reco::VertexCollection vC = *(vertexCollection.product());
2594 
2595  // std::cout << "Reconstructed "<< vC.size() << " vertices" << std::endl ;
2596  nVTX = vC.size();
2597  //double vertex_numTrks;
2598  for (reco::VertexCollection::const_iterator vertex=vC.begin(); vertex!=vC.end(); vertex++){
2599 
2600  h_Vx->Fill(vertex->x());
2601  h_Vy->Fill(vertex->y());
2602  h_Vz->Fill(vertex->z());
2603  VTX = vertex->z();
2604  // vertex_numTrks = vertex->tracksSize();
2605  // h_VNTrks->Fill(vertex_numTrks);
2606 
2607  }
2608 
2609  if ((HF_PMM != INVALID) || (nVTX > 0)) {
2610  HFvsZ->Fill(HF_PMM,VTX);
2611  }
2612 
2613  // ********************************
2614  // *** Pixel Clusters
2615  // ********************************
2616  // edm::Handle< edmNew::DetSetVector<SiPixelCluster> > hClusterColl;
2617  // evt.getByLabel("siPixelClusters", hClusterColl);
2618  // const edmNew::DetSetVector<SiPixelCluster> clustColl = *(hClusterColl.product());
2619 
2620  SiClusters->Fill(clustColl.size());
2621 
2622  // ********************************
2623  // *** Tracks
2624  // ********************************
2625  // edm::Handle<reco::TrackCollection> trackCollection;
2626  // evt.getByLabel("ctfWithMaterialTracks", trackCollection);
2627  // evt.getByLabel("generalTracks", trackCollection);
2628  // const reco::TrackCollection tC = *(trackCollection.product());
2629 
2630  // std::cout << "ANA: Reconstructed "<< tC.size() << " tracks" << std::endl ;
2631 
2632  // *************************************
2633  /*****
2634  //Get the Vertex Collection
2635  edm::Handle<std::vector<reco::Vertex> > verticies; evt.getByLabel("offlinePrimaryVertices", verticies);
2636 
2637  //Fill the variables
2638  int _ntracksw5 = 0;
2639  for (std::vector<reco::Vertex>::const_iterator it = verticies->begin(); it != verticies->end(); ++it) {
2640 
2641  // ntracks->push_back(int(it->tracksSize())); //all tracks considered for vertexing
2642  // isvalid->push_back(int(it->isValid()));
2643  // isfake->push_back(int(it->isFake()));
2644 
2645  if(it->tracksSize() > 0) {
2646  std::vector<TrackBaseRef>::const_iterator trackIt;
2647  for( trackIt = it->tracks_begin(); trackIt != it->tracks_end(); trackIt++) {
2648  if(fabs((**trackIt).charge()) <= 1.) {
2649  //tracks that contribute with more than 0.5 weight in vertex reconstruction
2650  if (it->trackWeight(*trackIt) >= 0.5 )
2651  _ntracksw5++;
2652  }
2653  }
2654  }
2655  }
2656  *****/
2657  // *************************************
2658 
2659 
2660  h_Trk_NTrk->Fill(tC.size());
2661  if (NPMTHits == 0) TrkMultFlagged0->Fill(tC.size());
2662  if (NPMTHits == 1) TrkMultFlagged1->Fill(tC.size());
2663  if (NPMTHits == 2) TrkMultFlagged2->Fill(tC.size());
2664  if (NPMTHits == 3) TrkMultFlagged3->Fill(tC.size());
2665  if (NPMTHits == 4) TrkMultFlagged4->Fill(tC.size());
2666  if (NPMTHits > 1) TrkMultFlaggedM->Fill(tC.size());
2667  for (reco::TrackCollection::const_iterator track=tC.begin(); track!=tC.end(); track++){
2668  h_Trk_pt->Fill(track->pt());
2669  }
2670 
2671 
2672  /****
2673  std::cout << "Track number "<< i << std::endl ;
2674  std::cout << "\tmomentum: " << track->momentum()<< std::endl;
2675  std::cout << "\tPT: " << track->pt()<< std::endl;
2676  std::cout << "\tvertex: " << track->vertex()<< std::endl;
2677  std::cout << "\timpact parameter: " << track->d0()<< std::endl;
2678  std::cout << "\tcharge: " << track->charge()<< std::endl;
2679  std::cout << "\tnormalizedChi2: " << track->normalizedChi2()<< std::endl;
2680 
2681  cout<<"\tFrom EXTRA : "<<endl;
2682  cout<<"\t\touter PT "<< track->outerPt()<<endl;
2683  std::cout << "\t direction: " << track->seedDirection() << std::endl;
2684  ****/
2685 
2686  // ********************************
2687  // *** Photons
2688  // ********************************
2689  /***
2690  edm::Handle<reco::PhotonCollection> photonCollection;
2691  evt.getByLabel("photons", photonCollection);
2692  const reco::PhotonCollection pC = *(photonCollection.product());
2693 
2694  std::cout << "Reconstructed "<< pC.size() << " photons" << std::endl ;
2695  for (reco::PhotonCollection::const_iterator photon=pC.begin(); photon!=pC.end(); photon++){
2696  }
2697  ***/
2698 
2699  // ********************************
2700  // *** Muons
2701  // ********************************
2702  /***
2703  edm::Handle<reco::MuonCollection> muonCollection;
2704  evt.getByLabel("muons", muonCollection);
2705 
2706  const reco::MuonCollection mC = *(muonCollection.product());
2707 
2708  std::cout << "Reconstructed "<< mC.size() << " muons" << std::endl ;
2709  for (reco::MuonCollection::const_iterator muon=mC.begin(); muon!=mC.end(); muon++){
2710  }
2711  ***/
2712 
2713 
2714 
2715 
2716  // ********************************
2717  // *** Events passing seletion cuts
2718  // ********************************
2719 
2720  // --- Cosmic Cleanup
2721  // --- Vertex
2722  // --- Eta
2723 
2724  int iJet;
2725  iJet = 0;
2726  for( CaloJetCollection::const_iterator ijet = caloJets->begin(); ijet != caloJets->end(); ++ ijet ) {
2727 
2728  // if ( (fabs(ijet->eta()) < 1.3) &&
2729  // (fabs(ijet->pt()) > 20.) ) {
2730 
2731  // (ijet->emEnergyFraction() > 0.01) &&
2732  // (ijet->emEnergyFraction() > 0.99) ) {
2733 
2734  iJet++;
2735  // if (iJet == 1) {
2736  // cout << " CaloJet: Event Type = " << evtType
2737  // << " pt = " << ijet->pt()
2738  // << endl;
2739  // }
2740  h_pt->Fill(ijet->pt());
2741  if (evtType == 0) h_ptTower->Fill(ijet->pt());
2742  if (evtType == 1) h_ptRBX->Fill(ijet->pt());
2743  if (evtType == 2) h_ptHPD->Fill(ijet->pt());
2744  h_et->Fill(ijet->et());
2745  h_eta->Fill(ijet->eta());
2746  h_phi->Fill(ijet->phi());
2747 
2748  jetHOEne->Fill(ijet->hadEnergyInHO());
2749  jetEMFraction->Fill(ijet->emEnergyFraction());
2750 
2751  // }
2752  }
2753 
2754 
2755 
2756  //*****************************
2757  //*** Get the GenJet collection
2758  //*****************************
2759 
2760  /**************
2761  Handle<GenJetCollection> genJets;
2762  evt.getByLabel( GenJetAlgorithm, genJets );
2763 
2764  //Loop over the two leading GenJets and fill some histograms
2765  jetInd = 0;
2766  allJetInd = 0;
2767  for( GenJetCollection::const_iterator gen = genJets->begin(); gen != genJets->end(); ++ gen ) {
2768  allJetInd++;
2769  if (allJetInd == 1) {
2770  p4tmp[0] = gen->p4();
2771  }
2772  if (allJetInd == 2) {
2773  p4tmp[1] = gen->p4();
2774  }
2775 
2776  if ( (allJetInd == 1) || (allJetInd == 2) ) {
2777  h_ptGenL->Fill( gen->pt() );
2778  h_etaGenL->Fill( gen->eta() );
2779  h_phiGenL->Fill( gen->phi() );
2780  }
2781 
2782  if ( gen->pt() > minJetPt) {
2783  // std::cout << "GEN JET1 #" << jetInd << std::endl << gen->print() << std::endl;
2784  h_ptGen->Fill( gen->pt() );
2785  h_etaGen->Fill( gen->eta() );
2786  h_phiGen->Fill( gen->phi() );
2787  jetInd++;
2788  }
2789  }
2790 
2791  h_nGenJets->Fill( jetInd );
2792  *******/
2793  }
2794 
2795 }
TH1F * MET_HPD
Definition: myJetAna.h:328
TProfile * HFTimeVsiEtaM20
Definition: myJetAna.h:483
RunNumber_t run() const
Definition: EventID.h:42
TH1F * HFTimeTh
Definition: myJetAna.h:178
void getManyByType(std::vector< Handle< PROD > > &results) const
Definition: Event.h:395
TH1F * HETimeTh1Flagged2
Definition: myJetAna.h:145
TH1F * HFEtaFlagged
Definition: myJetAna.h:238
TH1F * HBTimeTh1
Definition: myJetAna.h:101
TH1F * HFSEneNoLFlaggedN
Definition: myJetAna.h:219
EventNumber_t event() const
Definition: EventID.h:44
TH1F * TrkMultFlagged1
Definition: myJetAna.h:187
TH1F * h_pt
Definition: myJetAna.h:64
TH1F * EEEneX
Definition: myJetAna.h:281
TH1F * HBEneOOTTh1
Definition: myJetAna.h:84
TH1F * h_jet1Eta
Definition: myJetAna.h:422
TH1F * NTotal
Definition: myJetAna.h:446
TProfile * HFTimeVsiEtaM
Definition: myJetAna.h:479
TH1F * st_EmEnergy
Definition: myJetAna.h:436
int i
Definition: DBlmapReader.cc:9
TH1F * HFTimeM
Definition: myJetAna.h:206
TH1F * HFEneTh
Definition: myJetAna.h:160
TH1F * HETimeX
Definition: myJetAna.h:148
TH2F * ECALvHCALEta3
Definition: myJetAna.h:472
double emEnergy
Definition: myFilter.cc:63
TProfile * HFTimeVsiEtaP20
Definition: myJetAna.h:482
TH1F * HBEne
Definition: myJetAna.h:94
TH1F * h_ptCal
Definition: myJetAna.h:396
TH1F * HFTimeTh1Flagged3
Definition: myJetAna.h:175
TH1F * totEneLeadJetEta3
Definition: myJetAna.h:367
TH1F * HBTimeTh
Definition: myJetAna.h:100
TH1F * hadFracEta1
Definition: myJetAna.h:375
TH1F * RBX_nTowers
Definition: myJetAna.h:310
TH1F * HOHrp2Time
Definition: myJetAna.h:270
double et
Definition: myFilter.cc:61
TH1F * st_Frac
Definition: myJetAna.h:443
TH2F * HETvsE
Definition: myJetAna.h:223
TH1F * HFTimeTh1
Definition: myJetAna.h:179
TH1F * HFTimeTh1R
Definition: myJetAna.h:183
TH1F * nTowersLeadJetPt2
Definition: myJetAna.h:361
TH1F * HBTimeTh2
Definition: myJetAna.h:102
TH1F * MET_Tower
Definition: myJetAna.h:326
TH1F * HOHrm1Time
Definition: myJetAna.h:264
TH1F * HFRecHitTime
Definition: myJetAna.h:451
TH1F * HBTimeTh2Flagged2
Definition: myJetAna.h:117
TH1F * HFTimeTh2R
Definition: myJetAna.h:184
TH1F * HFEtaFlaggedSN
Definition: myJetAna.h:242
TH1F * h_ClusteredE
Definition: myJetAna.h:417
TH1F * HEposTime
Definition: myJetAna.h:150
TH1F * h_nCalJets
Definition: myJetAna.h:383
TH1F * HBTimeTh1Flagged2
Definition: myJetAna.h:116
TH1F * HOHrp1Time
Definition: myJetAna.h:268
TH1F * nTowers4
Definition: myJetAna.h:359
TH1F * HFEneM
Definition: myJetAna.h:205
TH2F * HBocc
Definition: myJetAna.h:246
TH1F * RBX_N
Definition: myJetAna.h:311
TH1F * HFTimeFlagged3
Definition: myJetAna.h:173
TH1F * HFEneTThr
Definition: myJetAna.h:92
TH1F * h_et
Definition: myJetAna.h:68
TH1F * h_EMFracCal
Definition: myJetAna.h:395
TH1F * HETimeThFlagged2
Definition: myJetAna.h:144
TH1F * HFLEneNoSFlagged
Definition: myJetAna.h:209
TH1F * hadFracEta2
Definition: myJetAna.h:376
TH1F * HOTime
Definition: myJetAna.h:236
TProfile * HFTimeVsiEtaP
Definition: myJetAna.h:478
TH1F * EEEneY
Definition: myJetAna.h:282
TH1F * HFTimeTh3
Definition: myJetAna.h:181
TProfile * HFEtaNFlagged
Definition: myJetAna.h:244
TH1F * EETime
Definition: myJetAna.h:285
TH1F * HFRecHitEne
Definition: myJetAna.h:449
Sin< T >::type sin(const T &t)
Definition: Sin.h:22
TH1F * HEEneX
Definition: myJetAna.h:124
TH1F * EBTimeTh
Definition: myJetAna.h:276
double emEnergy
Definition: myFilter.cc:54
TH1F * hf_TowerJetEt
Definition: myJetAna.h:351
TH1F * HFLEneNoSFlaggedN
Definition: myJetAna.h:210
TH1F * HFSEneAllF
Definition: myJetAna.h:213
TH1F * totEneLeadJetEta2
Definition: myJetAna.h:366
TH1F * HFLTime
Definition: myJetAna.h:211
TH1F * HFEnePMT1
Definition: myJetAna.h:155
std::vector< Track > TrackCollection
collection of Tracks
Definition: TrackFwd.h:10
std::vector< T >::const_iterator const_iterator
TH1F * HFTimeThFlaggedR
Definition: myJetAna.h:195
int bunchCrossing() const
Definition: EventBase.h:62
TH1F * HEEneTh
Definition: myJetAna.h:122
TH1F * HBTimeY
Definition: myJetAna.h:120
TH1F * h_ptRBX
Definition: myJetAna.h:66
#define abs(x)
Definition: mlp_lapack.h:159
edm::LuminosityBlockNumber_t luminosityBlock() const
Definition: EventBase.h:59
double hadEnergy
Definition: myFilter.cc:62
TH1F * HBTimeTh3
Definition: myJetAna.h:103
TH1F * HOHr0Time
Definition: myJetAna.h:262
TH2F * HOTvsE
Definition: myJetAna.h:230
std::vector< Vertex > VertexCollection
collection of Vertex objects
Definition: VertexFwd.h:9
int nTowers
Definition: myFilter.cc:57
TH1F * HFEnePMT2
Definition: myJetAna.h:156
TH1F * h_TotalUnclusteredE
Definition: myJetAna.h:415
TH2F * h_EmEnergy
Definition: myJetAna.h:430
TH1F * towerEmEnHF
Definition: myJetAna.h:301
TH1F * HOHrp1Ene
Definition: myJetAna.h:267
TH1F * HFTimeThFlaggedR3
Definition: myJetAna.h:198
TH2F * HOocc
Definition: myJetAna.h:245
TH1F * HETimeTh
Definition: myJetAna.h:129
TH1F * HEEneTh1
Definition: myJetAna.h:123
TH1F * HFLEne
Definition: myJetAna.h:207
TH1F * HFSEneNoL
Definition: myJetAna.h:217
TH1F * HOEneTh
Definition: myJetAna.h:234
TH1F * HETimeTh2
Definition: myJetAna.h:131
TH1F * ETime
Definition: myJetAna.h:353
TH1F * HFTimePMa
Definition: myJetAna.h:203
TH1F * HBTimeTh3R
Definition: myJetAna.h:107
TH1F * h_Trk_NTrk
Definition: myJetAna.h:346
TH1F * EETimeY
Definition: myJetAna.h:288
TH1F * HETimeFlagged
Definition: myJetAna.h:138
TH1F * h_Trk_pt
Definition: myJetAna.h:345
float totBNC
Definition: myJetAna.cc:114
TH1F * HEEne
Definition: myJetAna.h:121
HPD HPDColl[144]
Definition: myJetAna.cc:117
#define INVALID
Definition: myJetAna.cc:89
TH1F * caloEtaEt
Definition: myJetAna.h:386
TH2F * ECALvHCALEta2
Definition: myJetAna.h:471
TH1F * HBTimeTh2R
Definition: myJetAna.h:106
tuple vertexCollection
virtual double py() const GCC11_FINAL
y coordinate of momentum vector
TH1F * HBTimeTh1Flagged
Definition: myJetAna.h:111
TH1F * HBTime
Definition: myJetAna.h:99
TH1F * HFEtaFlaggedLN
Definition: myJetAna.h:240
TH1F * HFSEneNoLFlagged
Definition: myJetAna.h:218
TH1F * towerEmFrac
Definition: myJetAna.h:305
TH1F * OERMET
Definition: myJetAna.h:325
TH1F * nTowers2
Definition: myJetAna.h:357
TH1F * HFTimeTh3Flagged
Definition: myJetAna.h:194
TH1F * h_jet1Pt
Definition: myJetAna.h:420
TH2F * EEvHE
Definition: myJetAna.h:468
double et
Definition: myFilter.cc:52
TH1F * HPD_hcalTime
Definition: myJetAna.h:315
TH1F * HFDigiTimeNHits
Definition: myJetAna.h:464
float nBNC[4000]
Definition: myJetAna.cc:114
TH2F * EBvHB
Definition: myJetAna.h:467
TH1F * h_eta
Definition: myJetAna.h:69
TH1F * HOTimeTh
Definition: myJetAna.h:237
TH1F * EEEne
Definition: myJetAna.h:279
TH1F * HFTimePM
Definition: myJetAna.h:204
Collection of Calo MET.
TH1F * HFDigiTimeEne
Definition: myJetAna.h:460
TH1F * EBTimeY
Definition: myJetAna.h:278
TH1F * HFSEne
Definition: myJetAna.h:216
XYZTLorentzVectorD XYZTLorentzVector
Lorentz vector with cylindrical internal representation using pseudorapidity.
Definition: LorentzVector.h:30
TH1F * HOEne
Definition: myJetAna.h:233
TH1F * HPD_nTowers
Definition: myJetAna.h:316
TH1F * HFLEneAll
Definition: myJetAna.h:214
TH1F * EETimeTh
Definition: myJetAna.h:286
TH2F * h_HadEnergy
Definition: myJetAna.h:431
TH1F * towerOuterEn
Definition: myJetAna.h:303
TProfile * EMF_EtaX
Definition: myJetAna.h:476
int nTowers
Definition: myFilter.cc:67
virtual float phi() const GCC11_FINAL
momentum azimuthal angle
TH1F * EBEneY
Definition: myJetAna.h:274
TH1F * HFLSRatio
Definition: myJetAna.h:152
RBX RBXColl[36]
Definition: myJetAna.cc:116
double mEtSig() const
Definition: MET.h:50
TH1F * HPD_hadEnergy
Definition: myJetAna.h:314
TH1F * HFMET
Definition: myJetAna.h:321
TH1F * HTime
Definition: myJetAna.h:354
TH1F * EBTime
Definition: myJetAna.h:275
TH1F * TrkMultFlagged0
Definition: myJetAna.h:186
double sumEt() const
Definition: MET.h:48
TH1F * jetHOEne
Definition: myJetAna.h:426
TH1F * HBTimeThFlagged
Definition: myJetAna.h:110
TH1F * HFTimeTh3Flagged2
Definition: myJetAna.h:172
std::string CaloJetAlgorithm
Definition: myJetAna.h:56
TH1F * h_jet2Pt
Definition: myJetAna.h:421
TH1F * HFTime
Definition: myJetAna.h:165
TH1F * HBTimeThR
Definition: myJetAna.h:104
TH1F * HFTimeTh2Flagged
Definition: myJetAna.h:193
TH1F * h_TotalUnclusteredEt
Definition: myJetAna.h:412
TH1F * h_Vz
Definition: myJetAna.h:340
TH1F * TrkMultFlagged2
Definition: myJetAna.h:188
TH1F * HFEneTh1
Definition: myJetAna.h:161
edm::InputTag theTriggerResultsLabel
Definition: myJetAna.h:58
accept
Definition: HLTenums.h:22
TH1F * jetEMFraction
Definition: myJetAna.h:427
TH1F * HFTimeThFlaggedR2
Definition: myJetAna.h:197
TH1F * HFSEneAll
Definition: myJetAna.h:212
TH1F * HFTimeTh1Flagged2
Definition: myJetAna.h:170
TH1F * h_TotalClusteredE
Definition: myJetAna.h:418
TH1F * HEEneTThr
Definition: myJetAna.h:91
TH1F * HETime
Definition: myJetAna.h:128
Definition: MET.h:32
TH1F * HBEneY
Definition: myJetAna.h:98
TH1F * hf_sumTowerAllEy
Definition: myJetAna.h:350
TH2F * HFTvsEFlagged2Thr
Definition: myJetAna.h:229
T sqrt(T t)
Definition: SSEVec.h:48
TH1F * HETimeTh1Flagged
Definition: myJetAna.h:140
TH1F * NPass
Definition: myJetAna.h:445
TH1F * HFLongShortNHits
Definition: myJetAna.h:463
TH2F * HEoccOOT
Definition: myJetAna.h:255
TH1F * st_Constituents
Definition: myJetAna.h:434
TH1F * HBEneOOT
Definition: myJetAna.h:74
TH1F * HFSTime
Definition: myJetAna.h:232
TProfile * EMF_Eta
Definition: myJetAna.h:474
ProductID id() const
Accessor for product ID.
Definition: Ptr.h:164
TH1F * hadEneLeadJetEta2
Definition: myJetAna.h:369
TH1F * HFTimeP
Definition: myJetAna.h:202
Cos< T >::type cos(const T &t)
Definition: Cos.h:22
TH1F * HEposEne
Definition: myJetAna.h:126
int ieta() const
get the cell ieta
Definition: HcalDetId.h:38
float ecalTime
Definition: myFilter.cc:66
TH1F * HBEneTThr
Definition: myJetAna.h:90
TH1F * HFTimeThFlagged2
Definition: myJetAna.h:169
TH1F * HBTimeFlagged2
Definition: myJetAna.h:114
TH1F * HETimeTh3R
Definition: myJetAna.h:136
TH1F * st_iEta
Definition: myJetAna.h:441
TH1F * HFTimePMT1
Definition: myJetAna.h:163
virtual double px() const GCC11_FINAL
x coordinate of momentum vector
TH1F * h_Vy
Definition: myJetAna.h:339
TH1F * HEEneOOTTh1
Definition: myJetAna.h:85
TH1F * HEEneOOT
Definition: myJetAna.h:75
TH1F * HFTimeThFlaggedR1
Definition: myJetAna.h:196
TH2F * HFoccFlagged
Definition: myJetAna.h:251
int j
Definition: DBlmapReader.cc:9
TH2F * HEocc
Definition: myJetAna.h:247
TH1F * TrkMultFlaggedM
Definition: myJetAna.h:191
TH2F * HFoccFlagged2
Definition: myJetAna.h:252
TH1F * HFTimeTh2Flagged3
Definition: myJetAna.h:176
TH1F * h_jet1PtHLT
Definition: myJetAna.h:424
TH1F * h_etaCal
Definition: myJetAna.h:397
TH1F * h_UnclusteredEts
Definition: myJetAna.h:411
TH1F * st_OuterEnergy
Definition: myJetAna.h:438
TH1F * HFTimeFlagged2
Definition: myJetAna.h:168
TH1F * PMTHits
Definition: myJetAna.h:166
int orbitNumber() const
Definition: EventBase.h:63
TH1F * HPD_N
Definition: myJetAna.h:317
TH1F * HOHrm2Ene
Definition: myJetAna.h:265
TH1F * HFTimeThR
Definition: myJetAna.h:182
TH1F * towerEmEnHE
Definition: myJetAna.h:300
TProfile * EMF_Phi
Definition: myJetAna.h:473
TH1F * HOHTime
Definition: myJetAna.h:260
TH2F * ECALvHCAL
Definition: myJetAna.h:469
TH1F * h_jet2Eta
Definition: myJetAna.h:423
TH2F * HFTvsEThr
Definition: myJetAna.h:227
bool isValid() const
Definition: HandleBase.h:76
TH1F * totEneLeadJetEta1
Definition: myJetAna.h:365
TH1F * HFEtaFlaggedL
Definition: myJetAna.h:239
TH1F * HOHr0Ene
Definition: myJetAna.h:261
bool getByLabel(InputTag const &tag, Handle< PROD > &result) const
Definition: Event.h:361
TH1F * st_Eta
Definition: myJetAna.h:439
TH1F * RBX_hcalTime
Definition: myJetAna.h:309
TH1F * HBTimeFlagged
Definition: myJetAna.h:109
TH1F * HFTimeTh3Flagged3
Definition: myJetAna.h:177
TH1F * HOSEne
Definition: myJetAna.h:257
TH1F * HETimeTh2Flagged
Definition: myJetAna.h:141
TH1F * towerHadEnHB
Definition: myJetAna.h:295
TProfile * EMF_PhiX
Definition: myJetAna.h:475
TH1F * HETimeThR
Definition: myJetAna.h:133
TH1F * HETimeTh1
Definition: myJetAna.h:130
TH1F * HFRecHitEneClean
Definition: myJetAna.h:450
TH1F * hadFracEta3
Definition: myJetAna.h:377
TH1F * HFEneFlagged
Definition: myJetAna.h:158
TH2F * HFoccTime
Definition: myJetAna.h:249
TH1F * nTowers1
Definition: myJetAna.h:356
TH1F * HOHEne
Definition: myJetAna.h:259
TH1F * EBEne
Definition: myJetAna.h:271
TH2F * HFTvsE
Definition: myJetAna.h:224
float hcalTime
Definition: myFilter.cc:55
TH1F * HETimeThFlagged
Definition: myJetAna.h:139
TH1F * HBTimeTh2Flagged
Definition: myJetAna.h:112
TH1F * EBTimeX
Definition: myJetAna.h:277
TH1F * h_nTowersCal
Definition: myJetAna.h:394
TH1F * hf_sumTowerAllEx
Definition: myJetAna.h:349
TH1F * HFDigiTimeTime
Definition: myJetAna.h:461
TH1F * HOSTime
Definition: myJetAna.h:258
TH1F * HOHrm2Time
Definition: myJetAna.h:266
TH1F * MEy
Definition: myJetAna.h:331
TH1F * HFTimeThFlaggedR4
Definition: myJetAna.h:199
TH1F * hitPhi
Definition: myJetAna.h:392
TH2F * HFTvsEFlagged
Definition: myJetAna.h:225
TH1F * HFTimeFlagged
Definition: myJetAna.h:167
TH1F * HFEnePMT0
Definition: myJetAna.h:154
TH1F * HFLongShortTime
Definition: myJetAna.h:456
TH1F * TrkMultFlagged3
Definition: myJetAna.h:189
TH1F * METPhi
Definition: myJetAna.h:332
TH1F * TrkMultFlagged4
Definition: myJetAna.h:190
TH1F * SumEt
Definition: myJetAna.h:323
TH1F * st_iPhi
Definition: myJetAna.h:442
TH1F * NTime
Definition: myJetAna.h:447
TH1F * RBX_et
Definition: myJetAna.h:307
TH1F * emEneLeadJetEta2
Definition: myJetAna.h:372
TH1F * nTowersLeadJetPt4
Definition: myJetAna.h:363
TH1F * HBEneTh1
Definition: myJetAna.h:96
TH1F * towerHadEnHE
Definition: myJetAna.h:296
TH1F * HETimeTh1R
Definition: myJetAna.h:134
TH1F * RBX_hadEnergy
Definition: myJetAna.h:308
TH1F * HETimeTh2Flagged2
Definition: myJetAna.h:146
TH1F * h_ptTower
Definition: myJetAna.h:65
TH1F * HETimeFlagged2
Definition: myJetAna.h:143
double hadEnergy
Definition: myFilter.cc:53
T const * product() const
Definition: Handle.h:74
TH1F * h_jetEt
Definition: myJetAna.h:408
TH1F * towerHadEn
Definition: myJetAna.h:298
TH2F * HFEtaPhiNFlagged
Definition: myJetAna.h:250
TH1F * h_phiCal
Definition: myJetAna.h:398
TH1F * HFDigiTimePhi
Definition: myJetAna.h:458
TProfile * HFTimeVsiEtaM5
Definition: myJetAna.h:481
TH2F * HFoccOOT
Definition: myJetAna.h:256
TH1F * HBTimeTh1R
Definition: myJetAna.h:105
TH1F * HFLongShortEne
Definition: myJetAna.h:455
TH1F * HBEneOOTTh
Definition: myJetAna.h:79
TH2F * HFocc
Definition: myJetAna.h:248
edm::InputTag hcalNoiseSummaryTag_
Definition: myJetAna.h:59
TH1F * EBEneTh
Definition: myJetAna.h:272
TH1F * HEnegTime
Definition: myJetAna.h:151
edm::EventID id() const
Definition: EventBase.h:56
TH1F * h_Vx
Definition: myJetAna.h:338
float hcalTime
Definition: myFilter.cc:65
TH1F * HETimeY
Definition: myJetAna.h:149
TH1F * HFTimeThFlaggedRM
Definition: myJetAna.h:200
TH1F * HFDigiTimeEta
Definition: myJetAna.h:459
TH1F * HFSumEt
Definition: myJetAna.h:320
TH1F * HFTimeThFlagged3
Definition: myJetAna.h:174
TH1F * h_UnclusteredEt
Definition: myJetAna.h:410
TH1F * caloPhi
Definition: myJetAna.h:388
TH1F * MET_RBX
Definition: myJetAna.h:327
TH1F * h_ptHPD
Definition: myJetAna.h:67
TH1F * SiClusters
Definition: myJetAna.h:335
TH1F * HBEneX
Definition: myJetAna.h:97
TH1F * h_phi
Definition: myJetAna.h:70
float ecalTime
Definition: myFilter.cc:56
TH1F * HBEneTh
Definition: myJetAna.h:95
TH1F * HFLongShortEta
Definition: myJetAna.h:454
TH1F * HFLEneAllF
Definition: myJetAna.h:215
TH2F * ECALvHCALEta1
Definition: myJetAna.h:470
TH1F * HFTimeTh2Flagged2
Definition: myJetAna.h:171
TH1F * towerEmEnHB
Definition: myJetAna.h:299
TH1F * st_Energy
Definition: myJetAna.h:435
TH1F * towerEmEn
Definition: myJetAna.h:302
TH1F * NTowers
Definition: myJetAna.h:428
TH1F * towerHadEnHF
Definition: myJetAna.h:297
TH1F * HOHrm1Ene
Definition: myJetAna.h:263
TH1F * hitEta
Definition: myJetAna.h:391
TH1F * HEnegEne
Definition: myJetAna.h:127
TH1F * dijetMass
Definition: myJetAna.h:381
TH1F * HBTimeThFlagged2
Definition: myJetAna.h:115
TH1F * HFEtaFlaggedS
Definition: myJetAna.h:241
TH1F * HEEneY
Definition: myJetAna.h:125
TH1F * HPD_et
Definition: myJetAna.h:313
TH1F * nTowersLeadJetPt3
Definition: myJetAna.h:362
tuple cout
Definition: gather_cfg.py:121
TH1F * st_Phi
Definition: myJetAna.h:440
TH1F * caloEta
Definition: myJetAna.h:387
TH1F * st_Pt
Definition: myJetAna.h:433
TH1F * HEEneOOTTh
Definition: myJetAna.h:80
#define DEBUG
Definition: myJetAna.cc:90
TH1F * HOEneTh1
Definition: myJetAna.h:235
TH1F * HFEneP
Definition: myJetAna.h:201
TH1F * HFEne
Definition: myJetAna.h:157
TH1F * hadEneLeadJetEta1
Definition: myJetAna.h:368
ProductIndex id() const
Definition: ProductID.h:38
TH1F * HFTimeThFlagged
Definition: myJetAna.h:192
TH1F * st_HadEnergy
Definition: myJetAna.h:437
TProfile * HFTimeVsiEtaP5
Definition: myJetAna.h:480
TH1F * EBEneX
Definition: myJetAna.h:273
TH2F * HFvsZ
Definition: myJetAna.h:466
TH1F * HBTimeX
Definition: myJetAna.h:119
TH1F * HFLEneNoS
Definition: myJetAna.h:208
virtual float pt() const GCC11_FINAL
transverse momentum
TH1F * HETimeTh3
Definition: myJetAna.h:132
TH1F * HFTimePMT0
Definition: myJetAna.h:162
TH1F * emEneLeadJetEta3
Definition: myJetAna.h:373
TH2F * HBTvsE
Definition: myJetAna.h:222
TH1F * HETimeTh2R
Definition: myJetAna.h:135
TH1F * HFLongShortPhi
Definition: myJetAna.h:453
TH1F * hadEneLeadJetEta3
Definition: myJetAna.h:370
TH1F * h_UnclusteredE
Definition: myJetAna.h:414
TH1F * HFOERatio
Definition: myJetAna.h:153
TH1F * nTowersLeadJetPt1
Definition: myJetAna.h:360
TH1F * HOHrp2Ene
Definition: myJetAna.h:269
TH1F * HFTimeTh2
Definition: myJetAna.h:180
TH1F * HFTimeTh3R
Definition: myJetAna.h:185
TH1F * MEx
Definition: myJetAna.h:330
TH1F * HFTimePMT2
Definition: myJetAna.h:164
TH1F * METSig
Definition: myJetAna.h:329
TH2F * HBoccOOT
Definition: myJetAna.h:254
TH1F * EETimeX
Definition: myJetAna.h:287
TH1F * HFEneFlagged2
Definition: myJetAna.h:159
TH2F * HFTvsEFlagged2
Definition: myJetAna.h:226
TH1F * nTowers3
Definition: myJetAna.h:358
TH1F * EEEneTh
Definition: myJetAna.h:280
Definition: DDAxes.h:10
TH1F * emEneLeadJetEta1
Definition: myJetAna.h:371
TH2F * HFLvsS
Definition: myJetAna.h:220
void myJetAna::beginJob ( void  )
privatevirtual

Reimplemented from edm::EDAnalyzer.

Definition at line 137 of file myJetAna.cc.

References caloEta, caloEtaEt, caloPhi, dijetMass, EBEne, EBEneTh, EBEneX, EBEneY, EBTime, EBTimeTh, EBTimeX, EBTimeY, EBvHB, ECALvHCAL, ECALvHCALEta1, ECALvHCALEta2, ECALvHCALEta3, EEEne, EEEneTh, EEEneX, EEEneY, EEnegEne, EEnegTime, EEposEne, EEposTime, EETime, EETimeTh, EETimeX, EETimeY, EEvHE, emEneLeadJetEta1, emEneLeadJetEta2, emEneLeadJetEta3, EMF_Eta, EMF_EtaX, EMF_Phi, EMF_PhiX, ETime, h_ClusteredE, h_EmEnergy, h_EMFracCal, h_et, h_eta, h_etaCal, h_etaGen, h_etaGenL, h_HadEnergy, h_jet1Eta, h_jet1Pt, h_jet1PtHLT, h_jet2Eta, h_jet2Pt, h_jetEt, h_nCalJets, h_nGenJets, h_nTowersCal, h_phi, h_phiCal, h_phiGen, h_phiGenL, h_pt, h_ptCal, h_ptGen, h_ptGenL, h_ptHPD, h_ptRBX, h_ptTower, h_TotalClusteredE, h_TotalUnclusteredE, h_TotalUnclusteredEt, h_Trk_NTrk, h_Trk_pt, h_UnclusteredE, h_UnclusteredEt, h_UnclusteredEts, h_VNTrks, h_Vx, h_Vy, h_Vz, hadEneLeadJetEta1, hadEneLeadJetEta2, hadEneLeadJetEta3, hadFracEta1, hadFracEta2, hadFracEta3, HBEne, HBEneOOT, HBEneOOTTh, HBEneOOTTh1, HBEneTh, HBEneTh1, HBEneTThr, HBEneX, HBEneY, HBocc, HBoccOOT, HBTime, HBTimeFlagged, HBTimeFlagged2, HBTimeTh, HBTimeTh1, HBTimeTh1Flagged, HBTimeTh1Flagged2, HBTimeTh1R, HBTimeTh2, HBTimeTh2Flagged, HBTimeTh2Flagged2, HBTimeTh2R, HBTimeTh3, HBTimeTh3R, HBTimeThFlagged, HBTimeThFlagged2, HBTimeThR, HBTimeX, HBTimeY, HBTvsE, HEEne, HEEneOOT, HEEneOOTTh, HEEneOOTTh1, HEEneTh, HEEneTh1, HEEneTThr, HEEneX, HEEneY, HEnegEne, HEnegTime, HEocc, HEoccOOT, HEposEne, HEposTime, HETime, HETimeFlagged, HETimeFlagged2, HETimeTh, HETimeTh1, HETimeTh1Flagged, HETimeTh1Flagged2, HETimeTh1R, HETimeTh2, HETimeTh2Flagged, HETimeTh2Flagged2, HETimeTh2R, HETimeTh3, HETimeTh3R, HETimeThFlagged, HETimeThFlagged2, HETimeThR, HETimeX, HETimeY, HETvsE, hf_sumTowerAllEx, hf_sumTowerAllEy, hf_TowerJetEt, HFDigiTimeEne, HFDigiTimeEta, HFDigiTimeNHits, HFDigiTimePhi, HFDigiTimeTime, HFEne, HFEneFlagged, HFEneFlagged2, HFEneM, HFEneOOT, HFEneOOTTh, HFEneOOTTh1, HFEneP, HFEnePMT0, HFEnePMT1, HFEnePMT2, HFEneTh, HFEneTh1, HFEneTThr, HFEtaFlagged, HFEtaFlaggedL, HFEtaFlaggedLN, HFEtaFlaggedS, HFEtaFlaggedSN, HFEtaNFlagged, HFEtaPhiNFlagged, HFLEne, HFLEneAll, HFLEneAllF, HFLEneNoS, HFLEneNoSFlagged, HFLEneNoSFlaggedN, HFLongShortEne, HFLongShortEta, HFLongShortNHits, HFLongShortPhi, HFLongShortTime, HFLSRatio, HFLTime, HFLvsS, HFMET, HFocc, HFoccFlagged, HFoccFlagged2, HFoccOOT, HFoccTime, HFOERatio, HFRecHitEne, HFRecHitEneClean, HFRecHitTime, HFSEne, HFSEneAll, HFSEneAllF, HFSEneNoL, HFSEneNoLFlagged, HFSEneNoLFlaggedN, HFSTime, HFSumEt, HFTime, HFTimeFlagged, HFTimeFlagged2, HFTimeFlagged3, HFTimeM, HFTimeP, HFTimePM, HFTimePMa, HFTimePMT0, HFTimePMT1, HFTimePMT2, HFTimeTh, HFTimeTh1, HFTimeTh1Flagged2, HFTimeTh1Flagged3, HFTimeTh1R, HFTimeTh2, HFTimeTh2Flagged, HFTimeTh2Flagged2, HFTimeTh2Flagged3, HFTimeTh2R, HFTimeTh3, HFTimeTh3Flagged, HFTimeTh3Flagged2, HFTimeTh3Flagged3, HFTimeTh3R, HFTimeThFlagged, HFTimeThFlagged2, HFTimeThFlagged3, HFTimeThFlaggedR, HFTimeThFlaggedR1, HFTimeThFlaggedR2, HFTimeThFlaggedR3, HFTimeThFlaggedR4, HFTimeThFlaggedRM, HFTimeThR, HFTimeVsiEtaM, HFTimeVsiEtaM20, HFTimeVsiEtaM5, HFTimeVsiEtaP, HFTimeVsiEtaP20, HFTimeVsiEtaP5, HFTvsE, HFTvsEFlagged, HFTvsEFlagged2, HFTvsEFlagged2Thr, HFTvsEFlaggedThr, HFTvsEThr, HFvsZ, hitEta, hitEtaEt, hitPhi, HOEne, HOEneOOT, HOEneOOTTh, HOEneOOTTh1, HOEneTh, HOEneTh1, HOHEne, HOHr0Ene, HOHr0Time, HOHrm1Ene, HOHrm1Time, HOHrm2Ene, HOHrm2Time, HOHrp1Ene, HOHrp1Time, HOHrp2Ene, HOHrp2Time, HOHTime, HOocc, HOoccOOT, HOSEne, HOSTime, HOTime, HOTimeTh, HOTvsE, HPD_et, HPD_hadEnergy, HPD_hcalTime, HPD_N, HPD_nTowers, HTime, i, jetEMFraction, jetHOEne, M_PI, TFileDirectory::make(), MET_HPD, MET_RBX, MET_Tower, METPhi, METSig, MEx, MEy, nBNC, NPass, NTime, NTotal, NTowers, nTowers1, nTowers2, nTowers3, nTowers4, nTowersLeadJetPt1, nTowersLeadJetPt2, nTowersLeadJetPt3, nTowersLeadJetPt4, OERMET, PMTHits, RBX_et, RBX_hadEnergy, RBX_hcalTime, RBX_N, RBX_nTowers, SiClusters, st_Constituents, st_EmEnergy, st_Energy, st_Eta, st_Frac, st_HadEnergy, st_iEta, st_iPhi, st_OuterEnergy, st_Phi, st_Pt, SumEt, totBNC, totEneLeadJetEta1, totEneLeadJetEta2, totEneLeadJetEta3, towerEmEn, towerEmEnHB, towerEmEnHE, towerEmEnHF, towerEmFrac, towerHadEn, towerHadEnHB, towerHadEnHE, towerHadEnHF, towerOuterEn, TrkMultFlagged0, TrkMultFlagged1, TrkMultFlagged2, TrkMultFlagged3, TrkMultFlagged4, and TrkMultFlaggedM.

137  {
138 
139 
140 
142 
143  // --- passed selection cuts
144  h_pt = fs->make<TH1F>( "pt", "Jet p_{T}", 100, 0, 50 );
145  h_ptRBX = fs->make<TH1F>( "ptRBX", "RBX: Jet p_{T}", 100, 0, 50 );
146  h_ptHPD = fs->make<TH1F>( "ptHPD", "HPD: Jet p_{T}", 100, 0, 50 );
147  h_ptTower = fs->make<TH1F>( "ptTower", "Jet p_{T}", 100, 0, 50 );
148  h_et = fs->make<TH1F>( "et", "Jet E_{T}", 100, 0, 50 );
149  h_eta = fs->make<TH1F>( "eta", "Jet #eta", 100, -5, 5 );
150  h_phi = fs->make<TH1F>( "phi", "Jet #phi", 50, -M_PI, M_PI );
151  // ---
152 
153  hitEtaEt = fs->make<TH1F>( "hitEtaEt", "RecHit #eta", 90, -45, 45 );
154  hitEta = fs->make<TH1F>( "hitEta", "RecHit #eta", 90, -45, 45 );
155  hitPhi = fs->make<TH1F>( "hitPhi", "RecHit #phi", 73, 0, 73 );
156 
157  caloEtaEt = fs->make<TH1F>( "caloEtaEt", "CaloTower #eta", 100, -4, 4 );
158  caloEta = fs->make<TH1F>( "caloEta", "CaloTower #eta", 100, -4, 4 );
159  caloPhi = fs->make<TH1F>( "caloPhi", "CaloTower #phi", 50, -M_PI, M_PI );
160 
161  dijetMass = fs->make<TH1F>("dijetMass","DiJet Mass",100,0,100);
162 
163  totEneLeadJetEta1 = fs->make<TH1F>("totEneLeadJetEta1","Total Energy Lead Jet Eta1 1",100,0,100);
164  totEneLeadJetEta2 = fs->make<TH1F>("totEneLeadJetEta2","Total Energy Lead Jet Eta2 1",150,0,150);
165  totEneLeadJetEta3 = fs->make<TH1F>("totEneLeadJetEta3","Total Energy Lead Jet Eta3 1",150,0,150);
166 
167  hadEneLeadJetEta1 = fs->make<TH1F>("hadEneLeadJetEta1","Hadronic Energy Lead Jet Eta1 1",50,0,50);
168  hadEneLeadJetEta2 = fs->make<TH1F>("hadEneLeadJetEta2","Hadronic Energy Lead Jet Eta2 1",100,0,100);
169  hadEneLeadJetEta3 = fs->make<TH1F>("hadEneLeadJetEta3","Hadronic Energy Lead Jet Eta3 1",100,0,100);
170  emEneLeadJetEta1 = fs->make<TH1F>("emEneLeadJetEta1","EM Energy Lead Jet Eta1 1",50,0,50);
171  emEneLeadJetEta2 = fs->make<TH1F>("emEneLeadJetEta2","EM Energy Lead Jet Eta2 1",100,0,100);
172  emEneLeadJetEta3 = fs->make<TH1F>("emEneLeadJetEta3","EM Energy Lead Jet Eta3 1",100,0,100);
173 
174 
175  hadFracEta1 = fs->make<TH1F>("hadFracEta11","Hadronic Fraction Eta1 Jet 1",100,0,1);
176  hadFracEta2 = fs->make<TH1F>("hadFracEta21","Hadronic Fraction Eta2 Jet 1",100,0,1);
177  hadFracEta3 = fs->make<TH1F>("hadFracEta31","Hadronic Fraction Eta3 Jet 1",100,0,1);
178 
179  HFSumEt = fs->make<TH1F>("HFSumEt","HFSumEt",100,0,100);
180  HFMET = fs->make<TH1F>("HFMET", "HFMET",120,0,120);
181 
182  SumEt = fs->make<TH1F>("SumEt","SumEt",100,0,100);
183  MET = fs->make<TH1F>("MET", "MET",120,0,120);
184  OERMET = fs->make<TH1F>("OERMET", "OERMET",120,0,120);
185  METSig = fs->make<TH1F>("METSig", "METSig",100,0,50);
186  MEx = fs->make<TH1F>("MEx", "MEx",100,-20,20);
187  MEy = fs->make<TH1F>("MEy", "MEy",100,-20,20);
188  METPhi = fs->make<TH1F>("METPhi", "METPhi",315,0,3.15);
189  MET_RBX = fs->make<TH1F>("MET_RBX", "MET",100,0,1000);
190  MET_HPD = fs->make<TH1F>("MET_HPD", "MET",100,0,1000);
191  MET_Tower = fs->make<TH1F>("MET_Tower", "MET",100,0,1000);
192 
193  SiClusters = fs->make<TH1F>("SiClusters", "SiClusters",150,0,1500);
194 
195  h_Vx = fs->make<TH1F>("Vx", "Vx",100,-0.5,0.5);
196  h_Vy = fs->make<TH1F>("Vy", "Vy",100,-0.5,0.5);
197  h_Vz = fs->make<TH1F>("Vz", "Vz",100,-20,20);
198  h_VNTrks = fs->make<TH1F>("VNTrks", "VNTrks",10,1,100);
199 
200  h_Trk_pt = fs->make<TH1F>("Trk_pt", "Trk_pt",100,0,20);
201  h_Trk_NTrk = fs->make<TH1F>("Trk_NTrk", "Trk_NTrk",150,0,150);
202 
203  hf_sumTowerAllEx = fs->make<TH1F>("sumTowerAllEx","Tower Ex",100,-1000,1000);
204  hf_sumTowerAllEy = fs->make<TH1F>("sumTowerAllEy","Tower Ey",100,-1000,1000);
205 
206  hf_TowerJetEt = fs->make<TH1F>("TowerJetEt","Tower/Jet Et 1",50,0,1);
207 
208  ETime = fs->make<TH1F>("ETime","Ecal Time",200,-200,200);
209  HTime = fs->make<TH1F>("HTime","Hcal Time",200,-200,200);
210 
211  towerHadEnHB = fs->make<TH1F>("towerHadEnHB" ,"HB: Calo Tower HAD Energy",210,-1,20);
212  towerHadEnHE = fs->make<TH1F>("towerHadEnHE" ,"HE: Calo Tower HAD Energy",510,-1,50);
213  towerHadEnHF = fs->make<TH1F>("towerHadEnHF" ,"HF: Calo Tower HAD Energy",510,-1,50);
214 
215  towerEmEnHB = fs->make<TH1F>("towerEmEnHB" ,"HB: Calo Tower EM Energy",210,-1,20);
216  towerEmEnHE = fs->make<TH1F>("towerEmEnHE" ,"HE: Calo Tower EM Energy",510,-1,50);
217  towerEmEnHF = fs->make<TH1F>("towerEmEnHF" ,"HF: Calo Tower EM Energy",510,-1,50);
218 
219  towerHadEn = fs->make<TH1F>("towerHadEn" ,"Hadronic Energy in Calo Tower",2000,-100,100);
220  towerEmEn = fs->make<TH1F>("towerEmEn" ,"EM Energy in Calo Tower",2000,-100,100);
221  towerOuterEn = fs->make<TH1F>("towerOuterEn" ,"HO Energy in Calo Tower",2000,-100,100);
222 
223  towerEmFrac = fs->make<TH1F>("towerEmFrac","EM Fraction of Energy in Calo Tower",100,-1.,1.);
224 
225  RBX_et = fs->make<TH1F>("RBX_et","ET in RBX",1000,-20,100);
226  RBX_hadEnergy = fs->make<TH1F>("RBX_hadEnergy","Hcal Energy in RBX",1000,-20,100);
227  RBX_hcalTime = fs->make<TH1F>("RBX_hcalTime","Hcal Time in RBX",200,-200,200);
228  RBX_nTowers = fs->make<TH1F>("RBX_nTowers","Number of Towers in RBX",75,0,75);
229  RBX_N = fs->make<TH1F>("RBX_N","Number of RBX",10,0,10);
230 
231  HPD_et = fs->make<TH1F>("HPD_et","ET in HPD",1000,-20,100);
232  HPD_hadEnergy = fs->make<TH1F>("HPD_hadEnergy","Hcal Energy in HPD",1000,-20,100);
233  HPD_hcalTime = fs->make<TH1F>("HPD_hcalTime","Hcal Time in HPD",200,-200,200);
234  HPD_nTowers = fs->make<TH1F>("HPD_nTowers","Number of Towers in HPD",20,0,20);
235  HPD_N = fs->make<TH1F>("HPD_N","Number of HPD",10,0,10);
236 
237  nTowers1 = fs->make<TH1F>("nTowers1","Number of Towers pt 0.5",100,0,200);
238  nTowers2 = fs->make<TH1F>("nTowers2","Number of Towers pt 1.0",100,0,200);
239  nTowers3 = fs->make<TH1F>("nTowers3","Number of Towers pt 1.5",100,0,200);
240  nTowers4 = fs->make<TH1F>("nTowers4","Number of Towers pt 2.0",100,0,200);
241 
242  nTowersLeadJetPt1 = fs->make<TH1F>("nTowersLeadJetPt1","Number of Towers in Lead Jet pt 0.5",100,0,100);
243  nTowersLeadJetPt2 = fs->make<TH1F>("nTowersLeadJetPt2","Number of Towers in Lead Jet pt 1.0",100,0,100);
244  nTowersLeadJetPt3 = fs->make<TH1F>("nTowersLeadJetPt3","Number of Towers in Lead Jet pt 1.5",100,0,100);
245  nTowersLeadJetPt4 = fs->make<TH1F>("nTowersLeadJetPt4","Number of Towers in Lead Jet pt 2.0",100,0,100);
246 
247  h_nCalJets = fs->make<TH1F>( "nCalJets", "Number of CalJets", 20, 0, 20 );
248 
249  HBEneOOT = fs->make<TH1F>( "HBEneOOT", "HBEneOOT", 200, -5, 10 );
250  HEEneOOT = fs->make<TH1F>( "HEEneOOT", "HEEneOOT", 200, -5, 10 );
251  HFEneOOT = fs->make<TH1F>( "HFEneOOT", "HFEneOOT", 200, -5, 10 );
252  HOEneOOT = fs->make<TH1F>( "HOEneOOT", "HOEneOOT", 200, -5, 10 );
253 
254  HBEneOOTTh = fs->make<TH1F>( "HBEneOOTTh", "HBEneOOTTh", 200, -5, 10 );
255  HEEneOOTTh = fs->make<TH1F>( "HEEneOOTTh", "HEEneOOTTh", 200, -5, 10 );
256  HFEneOOTTh = fs->make<TH1F>( "HFEneOOTTh", "HFEneOOTTh", 200, -5, 10 );
257  HOEneOOTTh = fs->make<TH1F>( "HOEneOOTTh", "HOEneOOTTh", 200, -5, 10 );
258 
259  HBEneOOTTh1 = fs->make<TH1F>( "HBEneOOTTh1", "HBEneOOT", 200, -5, 10 );
260  HEEneOOTTh1 = fs->make<TH1F>( "HEEneOOTTh1", "HEEneOOT", 200, -5, 10 );
261  HFEneOOTTh1 = fs->make<TH1F>( "HFEneOOTTh1", "HFEneOOT", 200, -5, 10 );
262  HOEneOOTTh1 = fs->make<TH1F>( "HOEneOOTTh1", "HOEneOOT", 200, -5, 10 );
263 
264  HBEneTThr = fs->make<TH1F>( "HBEneTThr", "HBEneTThr", 105, -5, 100 );
265  HEEneTThr = fs->make<TH1F>( "HEEneTThr", "HEEneTThr", 105, -5, 100 );
266  HFEneTThr = fs->make<TH1F>( "HFEneTThr", "HFEneTThr", 105, -5, 100 );
267 
268 
269  HBEne = fs->make<TH1F>( "HBEne", "HBEne", 205, -5, 200 );
270  HBEneTh = fs->make<TH1F>( "HBEneTh", "HBEneTh", 205, -5, 200 );
271  HBEneTh1 = fs->make<TH1F>( "HBEneTh1", "HBEneTh1", 205, -5, 200 );
272  HBEneX = fs->make<TH1F>( "HBEneX", "HBEneX", 200, -5, 10 );
273  HBEneY = fs->make<TH1F>( "HBEneY", "HBEnedY", 200, -5, 10 );
274  HBTime = fs->make<TH1F>( "HBTime", "HBTime", 200, -100, 100 );
275  HBTimeTh = fs->make<TH1F>( "HBTimeTh", "HBTimeTh", 200, -100, 100 );
276  HBTimeTh1 = fs->make<TH1F>( "HBTimeTh1", "HBTimeTh1", 200, -100, 100 );
277  HBTimeTh2 = fs->make<TH1F>( "HBTimeTh2", "HBTimeTh2", 200, -100, 100 );
278  HBTimeTh3 = fs->make<TH1F>( "HBTimeTh3", "HBTimeTh3", 200, -100, 100 );
279  HBTimeThR = fs->make<TH1F>( "HBTimeThR", "HBTimeThR", 200, -100, 100 );
280  HBTimeTh1R = fs->make<TH1F>( "HBTimeTh1R", "HBTimeTh1R", 200, -100, 100 );
281  HBTimeTh2R = fs->make<TH1F>( "HBTimeTh2R", "HBTimeTh2R", 200, -100, 100 );
282  HBTimeTh3R = fs->make<TH1F>( "HBTimeTh3R", "HBTimeTh3R", 200, -100, 100 );
283 
284  HBTimeFlagged = fs->make<TH1F>( "HBTimeFlagged", "HBTimeFlagged", 200, -100, 100 );
285  HBTimeThFlagged = fs->make<TH1F>( "HBTimeThFlagged", "HBTimeThFlagged", 200, -100, 100 );
286  HBTimeTh1Flagged = fs->make<TH1F>( "HBTimeTh1Flagged", "HBTimeTh1Flagged", 200, -100, 100 );
287  HBTimeTh2Flagged = fs->make<TH1F>( "HBTimeTh2Flagged", "HBTimeTh2Flagged", 200, -100, 100 );
288 
289  HBTimeFlagged2 = fs->make<TH1F>( "HBTimeFlagged2", "HBTimeFlagged2", 200, -100, 100 );
290  HBTimeThFlagged2 = fs->make<TH1F>( "HBTimeThFlagged2", "HBTimeThFlagged2", 200, -100, 100 );
291  HBTimeTh1Flagged2 = fs->make<TH1F>( "HBTimeTh1Flagged2", "HBTimeTh1Flagged2", 200, -100, 100 );
292  HBTimeTh2Flagged2 = fs->make<TH1F>( "HBTimeTh2Flagged2", "HBTimeTh2Flagged2", 200, -100, 100 );
293 
294  HBTimeX = fs->make<TH1F>( "HBTimeX", "HBTimeX", 200, -100, 100 );
295  HBTimeY = fs->make<TH1F>( "HBTimeY", "HBTimeY", 200, -100, 100 );
296  HEEne = fs->make<TH1F>( "HEEne", "HEEne", 205, -5, 200 );
297  HEEneTh = fs->make<TH1F>( "HEEneTh", "HEEneTh", 205, -5, 200 );
298  HEEneTh1 = fs->make<TH1F>( "HEEneTh1", "HEEneTh1", 205, -5, 200 );
299  HEEneX = fs->make<TH1F>( "HEEneX", "HEEneX", 200, -5, 10 );
300  HEEneY = fs->make<TH1F>( "HEEneY", "HEEneY", 200, -5, 10 );
301  HEposEne = fs->make<TH1F>( "HEposEne", "HEposEne", 200, -5, 10 );
302  HEnegEne = fs->make<TH1F>( "HEnegEne", "HEnegEne", 200, -5, 10 );
303  HETime = fs->make<TH1F>( "HETime", "HETime", 200, -100, 100 );
304  HETimeTh = fs->make<TH1F>( "HETimeTh", "HETimeTh", 200, -100, 100 );
305  HETimeTh1 = fs->make<TH1F>( "HETimeTh1", "HETimeTh1", 200, -100, 100 );
306  HETimeTh2 = fs->make<TH1F>( "HETimeTh2", "HETimeTh2", 200, -100, 100 );
307  HETimeTh3 = fs->make<TH1F>( "HETimeTh3", "HETimeTh3", 200, -100, 100 );
308  HETimeThR = fs->make<TH1F>( "HETimeThR", "HETimeThR", 200, -100, 100 );
309  HETimeTh1R = fs->make<TH1F>( "HETimeTh1R", "HETimeTh1R", 200, -100, 100 );
310  HETimeTh2R = fs->make<TH1F>( "HETimeTh2R", "HETimeTh2R", 200, -100, 100 );
311  HETimeTh3R = fs->make<TH1F>( "HETimeTh3R", "HETimeTh3R", 200, -100, 100 );
312 
313  HETimeFlagged = fs->make<TH1F>( "HETimeFlagged", "HETimeFlagged", 200, -100, 100 );
314  HETimeThFlagged = fs->make<TH1F>( "HETimeThFlagged", "HETimeThFlagged", 200, -100, 100 );
315  HETimeTh1Flagged = fs->make<TH1F>( "HETimeTh1Flagged", "HETimeTh1Flagged", 200, -100, 100 );
316  HETimeTh2Flagged = fs->make<TH1F>( "HETimeTh2Flagged", "HETimeTh2Flagged", 200, -100, 100 );
317 
318  HETimeFlagged2 = fs->make<TH1F>( "HETimeFlagged2", "HETimeFlagged2", 200, -100, 100 );
319  HETimeThFlagged2 = fs->make<TH1F>( "HETimeThFlagged2", "HETimeThFlagged2", 200, -100, 100 );
320  HETimeTh1Flagged2 = fs->make<TH1F>( "HETimeTh1Flagged2", "HETimeTh1Flagged2", 200, -100, 100 );
321  HETimeTh2Flagged2 = fs->make<TH1F>( "HETimeTh2Flagged2", "HETimeTh2Flagged2", 200, -100, 100 );
322 
323  HETimeX = fs->make<TH1F>( "HETimeX", "HETimeX", 200, -100, 100 );
324  HETimeY = fs->make<TH1F>( "HETimeY", "HETimeY", 200, -100, 100 );
325  HEposTime = fs->make<TH1F>( "HEposTime", "HEposTime", 200, -100, 100 );
326  HEnegTime = fs->make<TH1F>( "HEnegTime", "HEnegTime", 200, -100, 100 );
327  HOEne = fs->make<TH1F>( "HOEne", "HOEne", 200, -5, 10 );
328  HOEneTh = fs->make<TH1F>( "HOEneTh", "HOEneTh", 200, -5, 10 );
329  HOEneTh1 = fs->make<TH1F>( "HOEneTh1", "HOEneTh1", 200, -5, 10 );
330  HOTime = fs->make<TH1F>( "HOTime", "HOTime", 200, -100, 100 );
331  HOTimeTh = fs->make<TH1F>( "HOTimeTh", "HOTimeTh", 200, -100, 100 );
332 
333  // Histos for separating SiPMs and HPDs in HO:
334  HOSEne = fs->make<TH1F>( "HOSEne", "HOSEne", 12000, -20, 100 );
335  HOSTime = fs->make<TH1F>( "HOSTime", "HOSTime", 200, -100, 100 );
336  HOHEne = fs->make<TH1F>( "HOHEne", "HOHEne", 12000, -20, 100 );
337  HOHTime = fs->make<TH1F>( "HOHTime", "HOHTime", 200, -100, 100 );
338 
339  HOHr0Ene = fs->make<TH1F>( "HOHr0Ene" , "HOHr0Ene", 12000, -20 , 100 );
340  HOHr0Time = fs->make<TH1F>( "HOHr0Time" , "HOHr0Time", 200, -200, 200 );
341  HOHrm1Ene = fs->make<TH1F>( "HOHrm1Ene" , "HOHrm1Ene", 12000, -20 , 100 );
342  HOHrm1Time = fs->make<TH1F>( "HOHrm1Time", "HOHrm1Time", 200, -200, 200 );
343  HOHrm2Ene = fs->make<TH1F>( "HOHrm2Ene" , "HOHrm2Ene", 12000, -20 , 100 );
344  HOHrm2Time = fs->make<TH1F>( "HOHrm2Time", "HOHrm2Time", 200, -200, 200 );
345  HOHrp1Ene = fs->make<TH1F>( "HOHrp1Ene" , "HOHrp1Ene", 12000, -20 , 100 );
346  HOHrp1Time = fs->make<TH1F>( "HOHrp1Time", "HOHrp1Time", 200, -200, 200 );
347  HOHrp2Ene = fs->make<TH1F>( "HOHrp2Ene" , "HOHrp2Ene", 12000, -20 , 100 );
348  HOHrp2Time = fs->make<TH1F>( "HOHrp2Time", "HOHrp2Time", 200, -200, 200 );
349 
350  HBTvsE = fs->make<TH2F>( "HBTvsE", "HBTvsE",305, -5, 300, 100, -100, 100);
351  HETvsE = fs->make<TH2F>( "HETvsE", "HETvsE",305, -5, 300, 100, -100, 100);
352 
353  HFTvsE = fs->make<TH2F>( "HFTvsE", "HFTvsE",305, -5, 300, 100, -100, 100);
354  HFTvsEFlagged = fs->make<TH2F>( "HFTvsEFlagged", "HFTvsEFlagged",305, -5, 300, 100, -100, 100);
355  HFTvsEFlagged2 = fs->make<TH2F>( "HFTvsEFlagged2", "HFTvsEFlagged2",305, -5, 300, 100, -100, 100);
356 
357  HFTvsEThr = fs->make<TH2F>( "HFTvsEThr", "HFTvsEThr",305, -5, 300, 100, -100, 100);
358  HFTvsEFlaggedThr = fs->make<TH2F>( "HFTvsEFlaggedThr", "HFTvsEFlaggedThr",305, -5, 300, 100, -100, 100);
359  HFTvsEFlagged2Thr = fs->make<TH2F>( "HFTvsEFlagged2Thr", "HFTvsEFlagged2Thr",305, -5, 300, 100, -100, 100);
360 
361  HOTvsE = fs->make<TH2F>( "HOTvsE", "HOTvsE",305, -5, 300, 100, -100, 100);
362 
363  HFvsZ = fs->make<TH2F>( "HFvsZ", "HFvsZ",100,-50,50,100,-50,50);
364 
365 
366 
367  HOocc = fs->make<TH2F>( "HOocc", "HOocc",85,-42.5,42.5,70,0.5,70.5);
368  HBocc = fs->make<TH2F>( "HBocc", "HBocc",85,-42.5,42.5,70,0.5,70.5);
369  HEocc = fs->make<TH2F>( "HEocc", "HEocc",85,-42.5,42.5,70,0.5,70.5);
370  HFocc = fs->make<TH2F>( "HFocc", "HFocc",85,-42.5,42.5,70,0.5,70.5);
371  HFoccTime = fs->make<TH2F>( "HFoccTime", "HFoccTime",85,-42.5,42.5,70,0.5,70.5);
372  HFoccFlagged = fs->make<TH2F>( "HFoccFlagged", "HFoccFlagged",85,-42.5,42.5,70,0.5,70.5);
373  HFoccFlagged2 = fs->make<TH2F>( "HFoccFlagged2", "HFoccFlagged2",85,-42.5,42.5,70,0.5,70.5);
374 
375  HFEtaPhiNFlagged = fs->make<TH2F>( "HFEtaPhiNFlagged", "HFEtaPhiNFlagged",85,-42.5,42.5,70,0.5,70.5);
376 
377  // HFEtaFlagged = fs->make<TProfile>( "HFEtaFlagged", "HFEtaFlagged",85,-42.5,42.5,0, 10000);
378  HFEtaFlagged = fs->make<TH1F>( "HFEtaFlagged", "HFEtaFlagged",85,-42.5,42.5);
379  HFEtaFlaggedL = fs->make<TH1F>( "HFEtaFlaggedL", "HFEtaFlaggedL",85,-42.5,42.5);
380  HFEtaFlaggedLN = fs->make<TH1F>( "HFEtaFlaggedLN", "HFEtaFlaggedLN",85,-42.5,42.5);
381  HFEtaFlaggedS = fs->make<TH1F>( "HFEtaFlaggedS", "HFEtaFlaggedS",85,-42.5,42.5);
382  HFEtaFlaggedSN = fs->make<TH1F>( "HFEtaFlaggedSN", "HFEtaFlaggedSN",85,-42.5,42.5);
383 
384  HFEtaNFlagged = fs->make<TProfile>( "HFEtaNFlagged", "HFEtaNFlagged",85,-42.5,42.5,0, 10000);
385 
386  HOoccOOT = fs->make<TH2F>( "HOoccOOT", "HOoccOOT",85,-42.5,42.5,70,0.5,70.5);
387  HBoccOOT = fs->make<TH2F>( "HBoccOOT", "HBoccOOT",85,-42.5,42.5,70,0.5,70.5);
388  HEoccOOT = fs->make<TH2F>( "HEoccOOT", "HEoccOOT",85,-42.5,42.5,70,0.5,70.5);
389  HFoccOOT = fs->make<TH2F>( "HFoccOOT", "HFoccOOT",85,-42.5,42.5,70,0.5,70.5);
390 
391  HFEnePMT0 = fs->make<TH1F>( "HFEnePMT0", "HFEnePMT0", 210, -10, 200 );
392  HFEnePMT1 = fs->make<TH1F>( "HFEnePMT1", "HFEnePMT1", 210, -10, 200 );
393  HFEnePMT2 = fs->make<TH1F>( "HFEnePMT2", "HFEnePMT2", 210, -10, 200 );
394  HFTimePMT0 = fs->make<TH1F>( "HFTimePMT0", "HFTimePMT0", 200, -100, 100 );
395  HFTimePMT1 = fs->make<TH1F>( "HFTimePMT1", "HFTimePMT1", 200, -100, 100 );
396  HFTimePMT2 = fs->make<TH1F>( "HFTimePMT2", "HFTimePMT2", 200, -100, 100 );
397 
398  HFEne = fs->make<TH1F>( "HFEne", "HFEne", 210, -10, 200 );
399  HFEneFlagged = fs->make<TH1F>( "HFEneFlagged", "HFEneFlagged", 210, -10, 200 );
400  HFEneFlagged2 = fs->make<TH1F>( "HFEneFlagged2", "HFEneFlagged2", 210, -10, 200 );
401  HFEneTh = fs->make<TH1F>( "HFEneTh", "HFEneTh", 210, -10, 200 );
402  HFEneTh1 = fs->make<TH1F>( "HFEneTh1", "HFEneTh1", 210, -10, 200 );
403  HFEneP = fs->make<TH1F>( "HFEneP", "HFEneP", 200, -5, 10 );
404  HFEneM = fs->make<TH1F>( "HFEneM", "HFEneM", 200, -5, 10 );
405  HFTime = fs->make<TH1F>( "HFTime", "HFTime", 200, -100, 100 );
406  PMTHits = fs->make<TH1F>( "PMTHits", "PMTHits", 10, 0, 10 );
407  HFTimeFlagged = fs->make<TH1F>( "HFTimeFlagged", "HFTimeFlagged", 200, -100, 100 );
408 
409  HFTimeFlagged2 = fs->make<TH1F>( "HFTimeFlagged2", "HFTimeFlagged2", 200, -100, 100 );
410  HFTimeThFlagged2 = fs->make<TH1F>( "HFTimeThFlagged2", "HFTimeThFlagged2", 200, -100, 100 );
411  HFTimeTh1Flagged2 = fs->make<TH1F>( "HFTimeTh1Flagged2", "HFTimeTh1Flagged2", 200, -100, 100 );
412  HFTimeTh2Flagged2 = fs->make<TH1F>( "HFTimeTh2Flagged2", "HFTimeTh2Flagged2", 200, -100, 100 );
413  HFTimeTh3Flagged2 = fs->make<TH1F>( "HFTimeTh3Flagged2", "HFTimeTh3Flagged2", 200, -100, 100 );
414 
415  HFTimeFlagged3 = fs->make<TH1F>( "HFTimeFlagged3", "HFTimeFlagged3", 200, -100, 100 );
416  HFTimeThFlagged3 = fs->make<TH1F>( "HFTimeThFlagged3", "HFTimeThFlagged3", 200, -100, 100 );
417  HFTimeTh1Flagged3 = fs->make<TH1F>( "HFTimeTh1Flagged3", "HFTimeTh1Flagged3", 200, -100, 100 );
418  HFTimeTh2Flagged3 = fs->make<TH1F>( "HFTimeTh2Flagged3", "HFTimeTh2Flagged3", 200, -100, 100 );
419  HFTimeTh3Flagged3 = fs->make<TH1F>( "HFTimeTh3Flagged3", "HFTimeTh3Flagged3", 200, -100, 100 );
420 
421  HFTimeThFlagged = fs->make<TH1F>( "HFTimeThFlagged", "HFTimeThFlagged", 200, -100, 100 );
422  HFTimeTh2Flagged = fs->make<TH1F>( "HFTimeTh2Flagged", "HFTimeTh2Flagged", 200, -100, 100 );
423  HFTimeTh3Flagged = fs->make<TH1F>( "HFTimeTh3Flagged", "HFTimeTh3Flagged", 200, -100, 100 );
424 
425  HFTimeThFlaggedR = fs->make<TH1F>( "HFTimeThFlaggedR", "HFTimeThFlaggedR", 200, -100, 100 );
426  HFTimeThFlaggedR1 = fs->make<TH1F>( "HFTimeThFlaggedR1", "HFTimeThFlaggedR1", 200, -100, 100 );
427  HFTimeThFlaggedR2 = fs->make<TH1F>( "HFTimeThFlaggedR2", "HFTimeThFlaggedR2", 200, -100, 100 );
428  HFTimeThFlaggedR3 = fs->make<TH1F>( "HFTimeThFlaggedR3", "HFTimeThFlaggedR3", 200, -100, 100 );
429  HFTimeThFlaggedR4 = fs->make<TH1F>( "HFTimeThFlaggedR4", "HFTimeThFlaggedR4", 200, -100, 100 );
430  HFTimeThFlaggedRM = fs->make<TH1F>( "HFTimeThFlaggedRM", "HFTimeThFlaggedRM", 200, -100, 100 );
431  TrkMultFlagged0 = fs->make<TH1F>( "TrkMultFlagged0", "TrkMultFlagged0", 100, 0, 100 );
432  TrkMultFlagged1 = fs->make<TH1F>( "TrkMultFlagged1", "TrkMultFlagged1", 100, 0, 100 );
433  TrkMultFlagged2 = fs->make<TH1F>( "TrkMultFlagged2", "TrkMultFlagged2", 100, 0, 100 );
434  TrkMultFlagged3 = fs->make<TH1F>( "TrkMultFlagged3", "TrkMultFlagged3", 100, 0, 100 );
435  TrkMultFlagged4 = fs->make<TH1F>( "TrkMultFlagged4", "TrkMultFlagged4", 100, 0, 100 );
436  TrkMultFlaggedM = fs->make<TH1F>( "TrkMultFlaggedM", "TrkMultFlaggedM", 100, 0, 100 );
437  HFTimeTh = fs->make<TH1F>( "HFTimeTh", "HFTimeTh", 200, -100, 100 );
438  HFTimeTh1 = fs->make<TH1F>( "HFTimeTh1", "HFTimeTh1", 200, -100, 100 );
439  HFTimeTh2 = fs->make<TH1F>( "HFTimeTh2", "HFTimeTh2", 200, -100, 100 );
440  HFTimeTh3 = fs->make<TH1F>( "HFTimeTh3", "HFTimeTh3", 200, -100, 100 );
441  HFTimeThR = fs->make<TH1F>( "HFTimeThR", "HFTimeThR", 200, -100, 100 );
442  HFTimeTh1R = fs->make<TH1F>( "HFTimeTh1R", "HFTimeTh1R", 200, -100, 100 );
443  HFTimeTh2R = fs->make<TH1F>( "HFTimeTh2R", "HFTimeTh2R", 200, -100, 100 );
444  HFTimeTh3R = fs->make<TH1F>( "HFTimeTh3R", "HFTimeTh3R", 200, -100, 100 );
445  HFTimeP = fs->make<TH1F>( "HFTimeP", "HFTimeP", 100, -100, 50 );
446  HFTimeM = fs->make<TH1F>( "HFTimeM", "HFTimeM", 100, -100, 50 );
447  HFTimePMa = fs->make<TH1F>( "HFTimePMa", "HFTimePMa", 100, -100, 100 );
448  HFTimePM = fs->make<TH1F>( "HFTimePM", "HFTimePM", 100, -100, 100 );
449 
450  // Histos for separating HF long/short fibers:
451  HFLEneAll = fs->make<TH1F>( "HFLEneAll", "HFLEneAll", 210, -10, 200 );
452  HFLEneAllF = fs->make<TH1F>( "HFLEneAllF", "HFLEneAllF", 210, -10, 200 );
453  HFSEneAll = fs->make<TH1F>( "HFSEneAll", "HFSEneAll", 210, -10, 200 );
454  HFSEneAllF = fs->make<TH1F>( "HFSEneAllF", "HFSEneAllF", 210, -10, 200 );
455  HFLEne = fs->make<TH1F>( "HFLEne", "HFLEne", 200, -5, 10 );
456  HFLTime = fs->make<TH1F>( "HFLTime", "HFLTime", 200, -100, 100 );
457  HFSEne = fs->make<TH1F>( "HFSEne", "HFSEne", 200, -5, 10 );
458  HFSTime = fs->make<TH1F>( "HFSTime", "HFSTime", 200, -100, 100 );
459  HFLSRatio = fs->make<TH1F>( "HFLSRatio", "HFLSRatio", 220, -1.1, 1.1 );
460 
461  HFOERatio = fs->make<TH1F>( "HFOERatio", "HFOERatio", 2200, -1.1, 1.1 );
462 
463  HFLvsS = fs->make<TH2F>( "HFLvsS", "HFLvsS",220,-20,200,220,-20,200);
464  HFLEneNoS = fs->make<TH1F>( "HFLEneNoS", "HFLEneNoS", 205, -5, 200 );
465  HFSEneNoL = fs->make<TH1F>( "HFSEneNoL", "HFSEneNoL", 205, -5, 200 );
466  HFLEneNoSFlagged = fs->make<TH1F>( "HFLEneNoSFlagged", "HFLEneNoSFlagged", 205, -5, 200 );
467  HFSEneNoLFlagged = fs->make<TH1F>( "HFSEneNoLFlagged", "HFSEneNoLFlagged", 205, -5, 200 );
468  HFLEneNoSFlaggedN = fs->make<TH1F>( "HFLEneNoSFlaggedN", "HFLEneNoSFlaggedN", 205, -5, 200 );
469  HFSEneNoLFlaggedN = fs->make<TH1F>( "HFSEneNoLFlaggedN", "HFSEneNoLFlaggedN", 205, -5, 200 );
470 
471 
472  EBEne = fs->make<TH1F>( "EBEne", "EBEne", 200, -5, 10 );
473  EBEneTh = fs->make<TH1F>( "EBEneTh", "EBEneTh", 200, -5, 10 );
474  EBEneX = fs->make<TH1F>( "EBEneX", "EBEneX", 200, -5, 10 );
475  EBEneY = fs->make<TH1F>( "EBEneY", "EBEneY", 200, -5, 10 );
476  EBTime = fs->make<TH1F>( "EBTime", "EBTime", 200, -100, 100 );
477  EBTimeTh = fs->make<TH1F>( "EBTimeTh", "EBTimeTh", 200, -100, 100 );
478  EBTimeX = fs->make<TH1F>( "EBTimeX", "EBTimeX", 200, -100, 100 );
479  EBTimeY = fs->make<TH1F>( "EBTimeY", "EBTimeY", 200, -100, 100 );
480  EEEne = fs->make<TH1F>( "EEEne", "EEEne", 200, -5, 10 );
481  EEEneTh = fs->make<TH1F>( "EEEneTh", "EEEneTh", 200, -5, 10 );
482  EEEneX = fs->make<TH1F>( "EEEneX", "EEEneX", 200, -5, 10 );
483  EEEneY = fs->make<TH1F>( "EEEneY", "EEEneY", 200, -5, 10 );
484  EEnegEne = fs->make<TH1F>( "EEnegEne", "EEnegEne", 200, -5, 10 );
485  EEposEne = fs->make<TH1F>( "EEposEne", "EEposEne", 200, -5, 10 );
486  EETime = fs->make<TH1F>( "EETime", "EETime", 200, -100, 100 );
487  EETimeTh = fs->make<TH1F>( "EETimeTh", "EETimeTh", 200, -100, 100 );
488  EETimeX = fs->make<TH1F>( "EETimeX", "EETimeX", 200, -100, 100 );
489  EETimeY = fs->make<TH1F>( "EETimeY", "EETimeY", 200, -100, 100 );
490  EEnegTime = fs->make<TH1F>( "EEnegTime", "EEnegTime", 200, -100, 100 );
491  EEposTime = fs->make<TH1F>( "EEposTime", "EEposTime", 200, -100, 100 );
492 
493  h_nTowersCal = fs->make<TH1F>( "nTowersCal", "N Towers in Jet", 100, 0, 50 );
494  h_EMFracCal = fs->make<TH1F>( "EMFracCal", "EM Fraction in Jet", 100, -1.1, 1.1 );
495  h_ptCal = fs->make<TH1F>( "ptCal", "p_{T} of CalJet", 100, 0, 50 );
496  h_etaCal = fs->make<TH1F>( "etaCal", "#eta of CalJet", 100, -4, 4 );
497  h_phiCal = fs->make<TH1F>( "phiCal", "#phi of CalJet", 50, -M_PI, M_PI );
498 
499  h_nGenJets = fs->make<TH1F>( "nGenJets", "Number of GenJets", 20, 0, 20 );
500 
501  h_ptGen = fs->make<TH1F>( "ptGen", "p_{T} of GenJet", 100, 0, 50 );
502  h_etaGen = fs->make<TH1F>( "etaGen", "#eta of GenJet", 100, -4, 4 );
503  h_phiGen = fs->make<TH1F>( "phiGen", "#phi of GenJet", 50, -M_PI, M_PI );
504 
505  h_ptGenL = fs->make<TH1F>( "ptGenL", "p_{T} of GenJetL", 100, 0, 50 );
506  h_etaGenL = fs->make<TH1F>( "etaGenL", "#eta of GenJetL", 100, -4, 4 );
507  h_phiGenL = fs->make<TH1F>( "phiGenL", "#phi of GenJetL", 50, -M_PI, M_PI );
508 
509  h_jetEt = fs->make<TH1F>( "jetEt", "Total Jet Et", 100, 0, 3000 );
510 
511  h_jet1Pt = fs->make<TH1F>( "jet1Pt", "Jet1 Pt", 100, 0, 1000 );
512  h_jet2Pt = fs->make<TH1F>( "jet2Pt", "Jet2 Pt", 100, 0, 1000 );
513  h_jet1Eta = fs->make<TH1F>( "jet1Eta", "Jet1 Eta", 50, -5, 5 );
514  h_jet2Eta = fs->make<TH1F>( "jet2Eta", "Jet2 Eta", 50, -5, 5 );
515  h_jet1PtHLT = fs->make<TH1F>( "jet1PtHLT", "Jet1 Pt HLT", 100, 0, 1000 );
516 
517  h_TotalUnclusteredEt = fs->make<TH1F>( "TotalUnclusteredEt", "Total Unclustered Et", 100, 0, 500 );
518  h_UnclusteredEt = fs->make<TH1F>( "UnclusteredEt", "Unclustered Et", 100, 0, 50 );
519  h_UnclusteredEts = fs->make<TH1F>( "UnclusteredEts", "Unclustered Et", 100, 0, 2 );
520 
521  h_ClusteredE = fs->make<TH1F>( "ClusteredE", "Clustered E", 200, 0, 20 );
522  h_TotalClusteredE = fs->make<TH1F>( "TotalClusteredE", "Total Clustered E", 200, 0, 100 );
523  h_UnclusteredE = fs->make<TH1F>( "UnclusteredE", "Unclustered E", 200, 0, 20 );
524  h_TotalUnclusteredE = fs->make<TH1F>( "TotalUnclusteredE", "Total Unclustered E", 200, 0, 100 );
525 
526  jetHOEne = fs->make<TH1F>("jetHOEne" ,"HO Energy in Jet",100, 0,100);
527  jetEMFraction = fs->make<TH1F>( "jetEMFraction", "Jet EM Fraction", 100, -1.1, 1.1 );
528  NTowers = fs->make<TH1F>( "NTowers", "Number of Towers", 100, 0, 100 );
529 
530 
531  h_EmEnergy = fs->make<TH2F>( "EmEnergy", "Em Energy", 90, -45, 45, 73, 0, 73 );
532  h_HadEnergy = fs->make<TH2F>( "HadEnergy", "Had Energy", 90, -45, 45, 73, 0, 73 );
533 
534  st_Pt = fs->make<TH1F>( "st_Pt", "Pt", 200, 0, 200 );
535  st_Constituents = fs->make<TH1F>( "st_Constituents", "Constituents", 200, 0, 200 );
536  st_Energy = fs->make<TH1F>( "st_Energy", "Tower Energy", 200, 0, 200 );
537  st_EmEnergy = fs->make<TH1F>( "st_EmEnergy", "Tower EmEnergy", 200, 0, 200 );
538  st_HadEnergy = fs->make<TH1F>( "st_HadEnergy", "Tower HadEnergy", 200, 0, 200 );
539  st_OuterEnergy = fs->make<TH1F>( "st_OuterEnergy", "Tower OuterEnergy", 200, 0, 200 );
540  st_Eta = fs->make<TH1F>( "st_Eta", "Eta", 100, -4, 4 );
541  st_Phi = fs->make<TH1F>( "st_Phi", "Phi", 50, -M_PI, M_PI );
542  st_iEta = fs->make<TH1F>( "st_iEta", "iEta", 60, -30, 30 );
543  st_iPhi = fs->make<TH1F>( "st_iPhi", "iPhi", 80, 0, 80 );
544  st_Frac = fs->make<TH1F>( "st_Frac", "Frac", 100, 0, 1 );
545 
546 
547  EBvHB = fs->make<TH2F>( "EBvHB", "EB vs HB",1000,0,4500000.,1000,0,1000000.);
548  EEvHE = fs->make<TH2F>( "EEvHE", "EE vs HE",1000,0,4500000.,1000,0,200000.);
549 
550  ECALvHCAL = fs->make<TH2F>( "ECALvHCAL", "ECAL vs HCAL",100,0,20000000.,100,-500000,500000.);
551  ECALvHCALEta1 = fs->make<TH2F>( "ECALvHCALEta1", "ECAL vs HCALEta1",100,0,20000000.,100,-500000,500000.);
552  ECALvHCALEta2 = fs->make<TH2F>( "ECALvHCALEta2", "ECAL vs HCALEta2",100,0,20000000.,100,-500000,500000.);
553  ECALvHCALEta3 = fs->make<TH2F>( "ECALvHCALEta3", "ECAL vs HCALEta3",100,0,20000000.,100,-500000,500000.);
554 
555  EMF_Eta = fs->make<TProfile>("EMF_Eta","EMF Eta", 100, -50, 50, 0, 10);
556  EMF_Phi = fs->make<TProfile>("EMF_Phi","EMF Phi", 100, 0, 100, 0, 10);
557  EMF_EtaX = fs->make<TProfile>("EMF_EtaX","EMF EtaX", 100, -50, 50, 0, 10);
558  EMF_PhiX = fs->make<TProfile>("EMF_PhiX","EMF PhiX", 100, 0, 100, 0, 10);
559 
560  HFTimeVsiEtaP = fs->make<TProfile>("HFTimeVsiEtaP","HFTimeVsiEtaP", 13, 28.5, 41.5, -100, 100);
561  HFTimeVsiEtaM = fs->make<TProfile>("HFTimeVsiEtaM","HFTimeVsiEtaM", 13, -41.5, -28.5, -100, 100);
562 
563  HFTimeVsiEtaP5 = fs->make<TProfile>("HFTimeVsiEtaP5","HFTimeVsiEtaP5", 13, 28.5, 41.5, -100, 100);
564  HFTimeVsiEtaM5 = fs->make<TProfile>("HFTimeVsiEtaM5","HFTimeVsiEtaM5", 13, -41.5, -28.5, -100, 100);
565 
566  HFTimeVsiEtaP20 = fs->make<TProfile>("HFTimeVsiEtaP20","HFTimeVsiEtaP20", 13, 28.5, 41.5, -100, 100);
567  HFTimeVsiEtaM20 = fs->make<TProfile>("HFTimeVsiEtaM20","HFTimeVsiEtaM20", 13, -41.5, -28.5, -100, 100);
568 
569  NPass = fs->make<TH1F>( "NPass", "NPass", 3, -1, 1 );
570  NTotal = fs->make<TH1F>( "NTotal", "NTotal", 3, -1, 1 );
571  NTime = fs->make<TH1F>( "NTime", "NTime", 10, 0, 10 );
572 
573 
574  HFRecHitEne = fs->make<TH1F>( "HFRecHitEne", "HFRecHitEne", 300, 0, 3000 );
575  HFRecHitEneClean = fs->make<TH1F>( "HFRecHitEneClean", "HFRecHitEneClean", 300, 0, 3000 );
576  HFRecHitTime = fs->make<TH1F>( "HFRecHitTime", "HFRecHitTime", 120, -60, 60 );
577 
578 
579  HFLongShortPhi = fs->make<TH1F>( "HFLongShortPhi", "HFLongShortPhi", 73, 0, 73 );
580  HFLongShortEta = fs->make<TH1F>( "HFLongShortEta", "HFLongShortEta", 90, -45, 45 );
581  HFLongShortEne = fs->make<TH1F>( "HFLongShortEne", "HFLongShortEne", 300, 0, 3000 );
582  HFLongShortTime = fs->make<TH1F>( "HFLongShortTime", "HFLongShortTime", 120, -60, 60 );
583  HFLongShortNHits = fs->make<TH1F>( "HFLongShortNHits", "HFLongShortNHits", 30, 0, 30 );
584 
585  HFDigiTimePhi = fs->make<TH1F>( "HFDigiTimePhi", "HFDigiTimePhi", 73, 0, 73 );
586  HFDigiTimeEta = fs->make<TH1F>( "HFDigiTimeEta", "HFDigiTimeEta", 90, -45, 45 );
587  HFDigiTimeEne = fs->make<TH1F>( "HFDigiTimeEne", "HFDigiTimeEne", 300, 0, 3000 );
588  HFDigiTimeTime = fs->make<TH1F>( "HFDigiTimeTime", "HFDigiTimeTime", 120, -60, 60 );
589  HFDigiTimeNHits = fs->make<TH1F>( "HFDigiTimeNHits", "HFDigiTimeNHits", 30, 0, 30 );
590 
591 
592  totBNC = 0;
593  for (int i=0; i<4000; i++) nBNC[i] = 0;
594 
595 }
TH1F * MET_HPD
Definition: myJetAna.h:328
TProfile * HFTimeVsiEtaM20
Definition: myJetAna.h:483
TH1F * HFTimeTh
Definition: myJetAna.h:178
TH1F * HETimeTh1Flagged2
Definition: myJetAna.h:145
TH1F * HFEtaFlagged
Definition: myJetAna.h:238
TH1F * HBTimeTh1
Definition: myJetAna.h:101
TH1F * HFSEneNoLFlaggedN
Definition: myJetAna.h:219
TH1F * TrkMultFlagged1
Definition: myJetAna.h:187
TH1F * h_pt
Definition: myJetAna.h:64
TH1F * EEEneX
Definition: myJetAna.h:281
TH1F * HBEneOOTTh1
Definition: myJetAna.h:84
TH1F * h_jet1Eta
Definition: myJetAna.h:422
TH1F * NTotal
Definition: myJetAna.h:446
TProfile * HFTimeVsiEtaM
Definition: myJetAna.h:479
TH1F * st_EmEnergy
Definition: myJetAna.h:436
int i
Definition: DBlmapReader.cc:9
TH1F * HFTimeM
Definition: myJetAna.h:206
TH1F * EEnegTime
Definition: myJetAna.h:289
TH1F * HFEneTh
Definition: myJetAna.h:160
TH1F * HETimeX
Definition: myJetAna.h:148
TH1F * HOEneOOTTh1
Definition: myJetAna.h:87
TH2F * ECALvHCALEta3
Definition: myJetAna.h:472
TProfile * HFTimeVsiEtaP20
Definition: myJetAna.h:482
TH1F * HBEne
Definition: myJetAna.h:94
TH1F * h_ptCal
Definition: myJetAna.h:396
TH1F * HFTimeTh1Flagged3
Definition: myJetAna.h:175
TH1F * totEneLeadJetEta3
Definition: myJetAna.h:367
TH1F * HBTimeTh
Definition: myJetAna.h:100
TH1F * hadFracEta1
Definition: myJetAna.h:375
TH1F * RBX_nTowers
Definition: myJetAna.h:310
TH1F * HOHrp2Time
Definition: myJetAna.h:270
TH1F * st_Frac
Definition: myJetAna.h:443
TH2F * HETvsE
Definition: myJetAna.h:223
TH1F * HFTimeTh1
Definition: myJetAna.h:179
TH1F * HFTimeTh1R
Definition: myJetAna.h:183
TH1F * nTowersLeadJetPt2
Definition: myJetAna.h:361
TH1F * HBTimeTh2
Definition: myJetAna.h:102
TH1F * MET_Tower
Definition: myJetAna.h:326
TH1F * HOHrm1Time
Definition: myJetAna.h:264
TH1F * HFRecHitTime
Definition: myJetAna.h:451
TH1F * HBTimeTh2Flagged2
Definition: myJetAna.h:117
TH1F * HFTimeTh2R
Definition: myJetAna.h:184
TH1F * HFEtaFlaggedSN
Definition: myJetAna.h:242
TH1F * h_ClusteredE
Definition: myJetAna.h:417
TH1F * HEposTime
Definition: myJetAna.h:150
TH1F * h_nCalJets
Definition: myJetAna.h:383
TH1F * HBTimeTh1Flagged2
Definition: myJetAna.h:116
TH1F * h_phiGenL
Definition: myJetAna.h:406
TH1F * HOHrp1Time
Definition: myJetAna.h:268
TH1F * nTowers4
Definition: myJetAna.h:359
TH1F * HFEneM
Definition: myJetAna.h:205
TH2F * HBocc
Definition: myJetAna.h:246
TH1F * hitEtaEt
Definition: myJetAna.h:390
TH1F * RBX_N
Definition: myJetAna.h:311
TH1F * HFTimeFlagged3
Definition: myJetAna.h:173
TH1F * h_nGenJets
Definition: myJetAna.h:384
TH1F * HOEneOOT
Definition: myJetAna.h:77
TH1F * h_etaGenL
Definition: myJetAna.h:405
TH1F * HFEneTThr
Definition: myJetAna.h:92
TH1F * h_et
Definition: myJetAna.h:68
TH1F * h_EMFracCal
Definition: myJetAna.h:395
TH1F * HETimeThFlagged2
Definition: myJetAna.h:144
TH1F * HFLEneNoSFlagged
Definition: myJetAna.h:209
TH1F * hadFracEta2
Definition: myJetAna.h:376
TH1F * HOTime
Definition: myJetAna.h:236
TProfile * HFTimeVsiEtaP
Definition: myJetAna.h:478
TH1F * EEEneY
Definition: myJetAna.h:282
TH1F * HFTimeTh3
Definition: myJetAna.h:181
TProfile * HFEtaNFlagged
Definition: myJetAna.h:244
TH1F * EETime
Definition: myJetAna.h:285
TH1F * HFRecHitEne
Definition: myJetAna.h:449
TH1F * HEEneX
Definition: myJetAna.h:124
TH1F * EBTimeTh
Definition: myJetAna.h:276
TH1F * hf_TowerJetEt
Definition: myJetAna.h:351
TH1F * HFLEneNoSFlaggedN
Definition: myJetAna.h:210
TH1F * HFSEneAllF
Definition: myJetAna.h:213
TH1F * totEneLeadJetEta2
Definition: myJetAna.h:366
TH1F * HFLTime
Definition: myJetAna.h:211
TH1F * HFEnePMT1
Definition: myJetAna.h:155
TH1F * HFTimeThFlaggedR
Definition: myJetAna.h:195
TH1F * HEEneTh
Definition: myJetAna.h:122
TH1F * HBTimeY
Definition: myJetAna.h:120
TH1F * h_ptRBX
Definition: myJetAna.h:66
TH1F * HBTimeTh3
Definition: myJetAna.h:103
TH1F * HOHr0Time
Definition: myJetAna.h:262
TH2F * HOTvsE
Definition: myJetAna.h:230
TH1F * HFEnePMT2
Definition: myJetAna.h:156
TH1F * h_TotalUnclusteredE
Definition: myJetAna.h:415
TH2F * h_EmEnergy
Definition: myJetAna.h:430
TH1F * towerEmEnHF
Definition: myJetAna.h:301
TH1F * HOHrp1Ene
Definition: myJetAna.h:267
TH1F * HFTimeThFlaggedR3
Definition: myJetAna.h:198
TH2F * HOocc
Definition: myJetAna.h:245
TH1F * HETimeTh
Definition: myJetAna.h:129
TH1F * HEEneTh1
Definition: myJetAna.h:123
TH1F * HFLEne
Definition: myJetAna.h:207
TH1F * HFSEneNoL
Definition: myJetAna.h:217
TH1F * HOEneTh
Definition: myJetAna.h:234
TH1F * EEnegEne
Definition: myJetAna.h:283
TH1F * HETimeTh2
Definition: myJetAna.h:131
TH1F * ETime
Definition: myJetAna.h:353
TH1F * HFTimePMa
Definition: myJetAna.h:203
TH1F * HBTimeTh3R
Definition: myJetAna.h:107
TH1F * h_Trk_NTrk
Definition: myJetAna.h:346
TH1F * EETimeY
Definition: myJetAna.h:288
TH1F * HETimeFlagged
Definition: myJetAna.h:138
TH1F * h_Trk_pt
Definition: myJetAna.h:345
float totBNC
Definition: myJetAna.cc:114
TH1F * HEEne
Definition: myJetAna.h:121
TH1F * caloEtaEt
Definition: myJetAna.h:386
TH2F * ECALvHCALEta2
Definition: myJetAna.h:471
TH1F * HBTimeTh2R
Definition: myJetAna.h:106
TH1F * HBTimeTh1Flagged
Definition: myJetAna.h:111
TH1F * HBTime
Definition: myJetAna.h:99
TH1F * HFEtaFlaggedLN
Definition: myJetAna.h:240
TH1F * HFSEneNoLFlagged
Definition: myJetAna.h:218
TH1F * towerEmFrac
Definition: myJetAna.h:305
TH1F * OERMET
Definition: myJetAna.h:325
TH1F * nTowers2
Definition: myJetAna.h:357
TH1F * HFTimeTh3Flagged
Definition: myJetAna.h:194
TH1F * h_jet1Pt
Definition: myJetAna.h:420
TH2F * EEvHE
Definition: myJetAna.h:468
TH1F * HPD_hcalTime
Definition: myJetAna.h:315
TH1F * HFDigiTimeNHits
Definition: myJetAna.h:464
float nBNC[4000]
Definition: myJetAna.cc:114
TH2F * EBvHB
Definition: myJetAna.h:467
TH1F * h_eta
Definition: myJetAna.h:69
TH1F * HOTimeTh
Definition: myJetAna.h:237
TH1F * EEEne
Definition: myJetAna.h:279
TH1F * HFTimePM
Definition: myJetAna.h:204
TH1F * HFDigiTimeEne
Definition: myJetAna.h:460
TH1F * EBTimeY
Definition: myJetAna.h:278
TH1F * HFSEne
Definition: myJetAna.h:216
TH1F * HOEne
Definition: myJetAna.h:233
TH1F * HPD_nTowers
Definition: myJetAna.h:316
TH1F * HFLEneAll
Definition: myJetAna.h:214
TH1F * EETimeTh
Definition: myJetAna.h:286
TH2F * h_HadEnergy
Definition: myJetAna.h:431
TH1F * towerOuterEn
Definition: myJetAna.h:303
TProfile * EMF_EtaX
Definition: myJetAna.h:476
TH1F * EBEneY
Definition: myJetAna.h:274
TH1F * HFLSRatio
Definition: myJetAna.h:152
TH1F * HPD_hadEnergy
Definition: myJetAna.h:314
TH1F * HFMET
Definition: myJetAna.h:321
TH1F * HTime
Definition: myJetAna.h:354
TH1F * EBTime
Definition: myJetAna.h:275
TH1F * TrkMultFlagged0
Definition: myJetAna.h:186
TH1F * jetHOEne
Definition: myJetAna.h:426
TH1F * HBTimeThFlagged
Definition: myJetAna.h:110
TH1F * HFTimeTh3Flagged2
Definition: myJetAna.h:172
TH1F * h_jet2Pt
Definition: myJetAna.h:421
TH1F * HFTime
Definition: myJetAna.h:165
TH1F * HBTimeThR
Definition: myJetAna.h:104
TH1F * HFTimeTh2Flagged
Definition: myJetAna.h:193
TH1F * h_TotalUnclusteredEt
Definition: myJetAna.h:412
TH1F * h_Vz
Definition: myJetAna.h:340
TH1F * TrkMultFlagged2
Definition: myJetAna.h:188
TH1F * HFEneTh1
Definition: myJetAna.h:161
TH1F * jetEMFraction
Definition: myJetAna.h:427
TH1F * HFTimeThFlaggedR2
Definition: myJetAna.h:197
TH1F * h_ptGenL
Definition: myJetAna.h:404
TH1F * HFSEneAll
Definition: myJetAna.h:212
TH1F * HFTimeTh1Flagged2
Definition: myJetAna.h:170
TH1F * h_TotalClusteredE
Definition: myJetAna.h:418
TH1F * HEEneTThr
Definition: myJetAna.h:91
TH1F * HETime
Definition: myJetAna.h:128
Definition: MET.h:32
TH1F * HBEneY
Definition: myJetAna.h:98
TH1F * hf_sumTowerAllEy
Definition: myJetAna.h:350
TH2F * HFTvsEFlagged2Thr
Definition: myJetAna.h:229
TH1F * HETimeTh1Flagged
Definition: myJetAna.h:140
TH1F * NPass
Definition: myJetAna.h:445
TH1F * HFLongShortNHits
Definition: myJetAna.h:463
TH2F * HEoccOOT
Definition: myJetAna.h:255
TH1F * st_Constituents
Definition: myJetAna.h:434
TH1F * HBEneOOT
Definition: myJetAna.h:74
TH1F * HFSTime
Definition: myJetAna.h:232
TProfile * EMF_Eta
Definition: myJetAna.h:474
TH1F * hadEneLeadJetEta2
Definition: myJetAna.h:369
TH1F * HFTimeP
Definition: myJetAna.h:202
TH1F * HEposEne
Definition: myJetAna.h:126
TH1F * HBEneTThr
Definition: myJetAna.h:90
TH1F * HFTimeThFlagged2
Definition: myJetAna.h:169
TH1F * HBTimeFlagged2
Definition: myJetAna.h:114
TH1F * HETimeTh3R
Definition: myJetAna.h:136
TH1F * st_iEta
Definition: myJetAna.h:441
TH1F * HFTimePMT1
Definition: myJetAna.h:163
TH1F * h_Vy
Definition: myJetAna.h:339
TH1F * HEEneOOTTh1
Definition: myJetAna.h:85
TH1F * HEEneOOT
Definition: myJetAna.h:75
TH1F * HFTimeThFlaggedR1
Definition: myJetAna.h:196
TH2F * HFoccFlagged
Definition: myJetAna.h:251
TH2F * HEocc
Definition: myJetAna.h:247
TH1F * TrkMultFlaggedM
Definition: myJetAna.h:191
TH2F * HFoccFlagged2
Definition: myJetAna.h:252
TH1F * HFTimeTh2Flagged3
Definition: myJetAna.h:176
TH1F * h_jet1PtHLT
Definition: myJetAna.h:424
TH1F * h_etaCal
Definition: myJetAna.h:397
TH1F * h_UnclusteredEts
Definition: myJetAna.h:411
TH1F * st_OuterEnergy
Definition: myJetAna.h:438
TH1F * HFTimeFlagged2
Definition: myJetAna.h:168
TH1F * PMTHits
Definition: myJetAna.h:166
TH1F * HFEneOOTTh
Definition: myJetAna.h:81
TH1F * HPD_N
Definition: myJetAna.h:317
TH1F * HOHrm2Ene
Definition: myJetAna.h:265
TH1F * HFTimeThR
Definition: myJetAna.h:182
TH1F * towerEmEnHE
Definition: myJetAna.h:300
TProfile * EMF_Phi
Definition: myJetAna.h:473
TH1F * HOHTime
Definition: myJetAna.h:260
TH2F * ECALvHCAL
Definition: myJetAna.h:469
TH1F * h_jet2Eta
Definition: myJetAna.h:423
TH2F * HFTvsEThr
Definition: myJetAna.h:227
TH1F * totEneLeadJetEta1
Definition: myJetAna.h:365
TH1F * HFEtaFlaggedL
Definition: myJetAna.h:239
TH1F * HOHr0Ene
Definition: myJetAna.h:261
TH1F * st_Eta
Definition: myJetAna.h:439
TH1F * RBX_hcalTime
Definition: myJetAna.h:309
TH1F * HBTimeFlagged
Definition: myJetAna.h:109
TH1F * HFTimeTh3Flagged3
Definition: myJetAna.h:177
TH2F * HOoccOOT
Definition: myJetAna.h:253
TH1F * HOSEne
Definition: myJetAna.h:257
TH1F * HETimeTh2Flagged
Definition: myJetAna.h:141
TH1F * towerHadEnHB
Definition: myJetAna.h:295
TProfile * EMF_PhiX
Definition: myJetAna.h:475
TH1F * HETimeThR
Definition: myJetAna.h:133
TH1F * HETimeTh1
Definition: myJetAna.h:130
TH1F * HFRecHitEneClean
Definition: myJetAna.h:450
TH1F * hadFracEta3
Definition: myJetAna.h:377
TH1F * HFEneFlagged
Definition: myJetAna.h:158
TH2F * HFoccTime
Definition: myJetAna.h:249
TH1F * nTowers1
Definition: myJetAna.h:356
TH1F * HOHEne
Definition: myJetAna.h:259
TH1F * EBEne
Definition: myJetAna.h:271
TH2F * HFTvsE
Definition: myJetAna.h:224
TH1F * HETimeThFlagged
Definition: myJetAna.h:139
TH1F * HBTimeTh2Flagged
Definition: myJetAna.h:112
TH1F * EBTimeX
Definition: myJetAna.h:277
#define M_PI
Definition: BFit3D.cc:3
TH1F * h_nTowersCal
Definition: myJetAna.h:394
TH1F * hf_sumTowerAllEx
Definition: myJetAna.h:349
TH2F * HFTvsEFlaggedThr
Definition: myJetAna.h:228
TH1F * HFDigiTimeTime
Definition: myJetAna.h:461
TH1F * HOSTime
Definition: myJetAna.h:258
TH1F * HOHrm2Time
Definition: myJetAna.h:266
TH1F * MEy
Definition: myJetAna.h:331
TH1F * HFTimeThFlaggedR4
Definition: myJetAna.h:199
TH1F * hitPhi
Definition: myJetAna.h:392
TH2F * HFTvsEFlagged
Definition: myJetAna.h:225
TH1F * HFTimeFlagged
Definition: myJetAna.h:167
TH1F * HFEnePMT0
Definition: myJetAna.h:154
TH1F * HFLongShortTime
Definition: myJetAna.h:456
TH1F * TrkMultFlagged3
Definition: myJetAna.h:189
TH1F * METPhi
Definition: myJetAna.h:332
TH1F * TrkMultFlagged4
Definition: myJetAna.h:190
TH1F * SumEt
Definition: myJetAna.h:323
TH1F * st_iPhi
Definition: myJetAna.h:442
TH1F * NTime
Definition: myJetAna.h:447
TH1F * RBX_et
Definition: myJetAna.h:307
TH1F * emEneLeadJetEta2
Definition: myJetAna.h:372
TH1F * nTowersLeadJetPt4
Definition: myJetAna.h:363
TH1F * HBEneTh1
Definition: myJetAna.h:96
TH1F * towerHadEnHE
Definition: myJetAna.h:296
TH1F * HETimeTh1R
Definition: myJetAna.h:134
TH1F * RBX_hadEnergy
Definition: myJetAna.h:308
TH1F * HETimeTh2Flagged2
Definition: myJetAna.h:146
TH1F * h_ptTower
Definition: myJetAna.h:65
TH1F * HOEneOOTTh
Definition: myJetAna.h:82
TH1F * HETimeFlagged2
Definition: myJetAna.h:143
TH1F * h_jetEt
Definition: myJetAna.h:408
TH1F * towerHadEn
Definition: myJetAna.h:298
TH2F * HFEtaPhiNFlagged
Definition: myJetAna.h:250
TH1F * h_phiCal
Definition: myJetAna.h:398
TH1F * HFDigiTimePhi
Definition: myJetAna.h:458
TProfile * HFTimeVsiEtaM5
Definition: myJetAna.h:481
TH2F * HFoccOOT
Definition: myJetAna.h:256
TH1F * h_etaGen
Definition: myJetAna.h:401
TH1F * HBTimeTh1R
Definition: myJetAna.h:105
TH1F * HFLongShortEne
Definition: myJetAna.h:455
TH1F * HBEneOOTTh
Definition: myJetAna.h:79
TH2F * HFocc
Definition: myJetAna.h:248
TH1F * EBEneTh
Definition: myJetAna.h:272
TH1F * HEnegTime
Definition: myJetAna.h:151
TH1F * h_Vx
Definition: myJetAna.h:338
TH1F * HETimeY
Definition: myJetAna.h:149
TH1F * HFTimeThFlaggedRM
Definition: myJetAna.h:200
TH1F * HFEneOOTTh1
Definition: myJetAna.h:86
TH1F * HFDigiTimeEta
Definition: myJetAna.h:459
TH1F * HFSumEt
Definition: myJetAna.h:320
TH1F * HFTimeThFlagged3
Definition: myJetAna.h:174
TH1F * h_UnclusteredEt
Definition: myJetAna.h:410
TH1F * caloPhi
Definition: myJetAna.h:388
TH1F * EEposEne
Definition: myJetAna.h:284
TH1F * MET_RBX
Definition: myJetAna.h:327
TH1F * h_ptHPD
Definition: myJetAna.h:67
TH1F * SiClusters
Definition: myJetAna.h:335
TH1F * HBEneX
Definition: myJetAna.h:97
TH1F * h_phi
Definition: myJetAna.h:70
TH1F * h_VNTrks
Definition: myJetAna.h:341
TH1F * HBEneTh
Definition: myJetAna.h:95
TH1F * HFLongShortEta
Definition: myJetAna.h:454
TH1F * HFLEneAllF
Definition: myJetAna.h:215
TH2F * ECALvHCALEta1
Definition: myJetAna.h:470
TH1F * HFTimeTh2Flagged2
Definition: myJetAna.h:171
TH1F * towerEmEnHB
Definition: myJetAna.h:299
TH1F * st_Energy
Definition: myJetAna.h:435
TH1F * towerEmEn
Definition: myJetAna.h:302
T * make() const
make new ROOT object
TH1F * NTowers
Definition: myJetAna.h:428
TH1F * towerHadEnHF
Definition: myJetAna.h:297
TH1F * HOHrm1Ene
Definition: myJetAna.h:263
TH1F * hitEta
Definition: myJetAna.h:391
TH1F * HEnegEne
Definition: myJetAna.h:127
TH1F * dijetMass
Definition: myJetAna.h:381
TH1F * HBTimeThFlagged2
Definition: myJetAna.h:115
TH1F * h_ptGen
Definition: myJetAna.h:400
TH1F * HFEtaFlaggedS
Definition: myJetAna.h:241
TH1F * HEEneY
Definition: myJetAna.h:125
TH1F * HPD_et
Definition: myJetAna.h:313
TH1F * nTowersLeadJetPt3
Definition: myJetAna.h:362
TH1F * st_Phi
Definition: myJetAna.h:440
TH1F * caloEta
Definition: myJetAna.h:387
TH1F * st_Pt
Definition: myJetAna.h:433
TH1F * HEEneOOTTh
Definition: myJetAna.h:80
TH1F * HOEneTh1
Definition: myJetAna.h:235
TH1F * HFEneP
Definition: myJetAna.h:201
TH1F * HFEne
Definition: myJetAna.h:157
TH1F * hadEneLeadJetEta1
Definition: myJetAna.h:368
TH1F * HFTimeThFlagged
Definition: myJetAna.h:192
TH1F * st_HadEnergy
Definition: myJetAna.h:437
TProfile * HFTimeVsiEtaP5
Definition: myJetAna.h:480
TH1F * EBEneX
Definition: myJetAna.h:273
TH2F * HFvsZ
Definition: myJetAna.h:466
TH1F * HBTimeX
Definition: myJetAna.h:119
TH1F * HFLEneNoS
Definition: myJetAna.h:208
TH1F * HETimeTh3
Definition: myJetAna.h:132
TH1F * HFTimePMT0
Definition: myJetAna.h:162
TH1F * HFEneOOT
Definition: myJetAna.h:76
TH1F * emEneLeadJetEta3
Definition: myJetAna.h:373
TH2F * HBTvsE
Definition: myJetAna.h:222
TH1F * HETimeTh2R
Definition: myJetAna.h:135
TH1F * HFLongShortPhi
Definition: myJetAna.h:453
TH1F * hadEneLeadJetEta3
Definition: myJetAna.h:370
TH1F * h_UnclusteredE
Definition: myJetAna.h:414
TH1F * HFOERatio
Definition: myJetAna.h:153
TH1F * EEposTime
Definition: myJetAna.h:290
TH1F * nTowersLeadJetPt1
Definition: myJetAna.h:360
TH1F * HOHrp2Ene
Definition: myJetAna.h:269
TH1F * HFTimeTh2
Definition: myJetAna.h:180
TH1F * HFTimeTh3R
Definition: myJetAna.h:185
TH1F * MEx
Definition: myJetAna.h:330
TH1F * HFTimePMT2
Definition: myJetAna.h:164
TH1F * METSig
Definition: myJetAna.h:329
TH2F * HBoccOOT
Definition: myJetAna.h:254
TH1F * EETimeX
Definition: myJetAna.h:287
TH1F * h_phiGen
Definition: myJetAna.h:402
TH1F * HFEneFlagged2
Definition: myJetAna.h:159
TH2F * HFTvsEFlagged2
Definition: myJetAna.h:226
TH1F * nTowers3
Definition: myJetAna.h:358
TH1F * EEEneTh
Definition: myJetAna.h:280
TH1F * emEneLeadJetEta1
Definition: myJetAna.h:371
TH2F * HFLvsS
Definition: myJetAna.h:220
void myJetAna::endJob ( void  )
privatevirtual

Reimplemented from edm::EDAnalyzer.

Definition at line 2799 of file myJetAna.cc.

References gather_cfg::cout, i, nBNC, and totBNC.

2799  {
2800 
2801  for (int i=0; i<4000; i++) {
2802  if ((nBNC[i]/totBNC) > 0.05) {
2803  std::cout << "+++ " << i << " "
2804  << (nBNC[i]/totBNC) << " "
2805  << nBNC[i] << " "
2806  << totBNC << " "
2807  << std::endl;
2808  }
2809  }
2810 
2811 
2812 }
int i
Definition: DBlmapReader.cc:9
float totBNC
Definition: myJetAna.cc:114
float nBNC[4000]
Definition: myJetAna.cc:114
tuple cout
Definition: gather_cfg.py:121

Member Data Documentation

TH1F* myJetAna::caloEta
private

Definition at line 387 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::caloEtaEt
private

Definition at line 386 of file myJetAna.h.

Referenced by analyze(), and beginJob().

std::string myJetAna::CaloJetAlgorithm
private

Definition at line 56 of file myJetAna.h.

Referenced by analyze().

TH1F* myJetAna::caloPhi
private

Definition at line 388 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::dijetMass
private

Definition at line 381 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::EBEne
private

Definition at line 271 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::EBEneTh
private

Definition at line 272 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::EBEneX
private

Definition at line 273 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::EBEneY
private

Definition at line 274 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::EBTime
private

Definition at line 275 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::EBTimeTh
private

Definition at line 276 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::EBTimeX
private

Definition at line 277 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::EBTimeY
private

Definition at line 278 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH2F* myJetAna::EBvHB
private

Definition at line 467 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH2F* myJetAna::ECALvHCAL
private

Definition at line 469 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH2F* myJetAna::ECALvHCALEta1
private

Definition at line 470 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH2F* myJetAna::ECALvHCALEta2
private

Definition at line 471 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH2F* myJetAna::ECALvHCALEta3
private

Definition at line 472 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::EEEne
private

Definition at line 279 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::EEEneTh
private

Definition at line 280 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::EEEneX
private

Definition at line 281 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::EEEneY
private

Definition at line 282 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::EEnegEne
private

Definition at line 283 of file myJetAna.h.

Referenced by beginJob().

TH1F* myJetAna::EEnegTime
private

Definition at line 289 of file myJetAna.h.

Referenced by beginJob().

TH1F* myJetAna::EEposEne
private

Definition at line 284 of file myJetAna.h.

Referenced by beginJob().

TH1F* myJetAna::EEposTime
private

Definition at line 290 of file myJetAna.h.

Referenced by beginJob().

TH1F* myJetAna::EETime
private

Definition at line 285 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::EETimeTh
private

Definition at line 286 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::EETimeX
private

Definition at line 287 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::EETimeY
private

Definition at line 288 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH2F* myJetAna::EEvHE
private

Definition at line 468 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::emEneLeadJetEta1
private

Definition at line 371 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::emEneLeadJetEta2
private

Definition at line 372 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::emEneLeadJetEta3
private

Definition at line 373 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TProfile* myJetAna::EMF_Eta
private

Definition at line 474 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TProfile* myJetAna::EMF_EtaX
private

Definition at line 476 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TProfile* myJetAna::EMF_Phi
private

Definition at line 473 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TProfile* myJetAna::EMF_PhiX
private

Definition at line 475 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::ETime
private

Definition at line 353 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH2F* myJetAna::fedSize
private

Definition at line 292 of file myJetAna.h.

std::string myJetAna::GenJetAlgorithm
private

Definition at line 57 of file myJetAna.h.

TH1F* myJetAna::h_ClusteredE
private

Definition at line 417 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH2F* myJetAna::h_EmEnergy
private

Definition at line 430 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::h_EMFracCal
private

Definition at line 395 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::h_et
private

Definition at line 68 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::h_eta
private

Definition at line 69 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::h_etaCal
private

Definition at line 397 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::h_etaGen
private

Definition at line 401 of file myJetAna.h.

Referenced by beginJob().

TH1F* myJetAna::h_etaGenL
private

Definition at line 405 of file myJetAna.h.

Referenced by beginJob().

TH2F* myJetAna::h_HadEnergy
private

Definition at line 431 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::h_jet1Eta
private

Definition at line 422 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::h_jet1Pt
private

Definition at line 420 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::h_jet1PtHLT
private

Definition at line 424 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::h_jet2Eta
private

Definition at line 423 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::h_jet2Pt
private

Definition at line 421 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::h_jetEt
private

Definition at line 408 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::h_nCalJets
private

Definition at line 383 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::h_nGenJets
private

Definition at line 384 of file myJetAna.h.

Referenced by beginJob().

TH1F* myJetAna::h_nTowersCal
private

Definition at line 394 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::h_phi
private

Definition at line 70 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::h_phiCal
private

Definition at line 398 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::h_phiGen
private

Definition at line 402 of file myJetAna.h.

Referenced by beginJob().

TH1F* myJetAna::h_phiGenL
private

Definition at line 406 of file myJetAna.h.

Referenced by beginJob().

TH1F* myJetAna::h_pt
private

Definition at line 64 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::h_ptCal
private

Definition at line 396 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::h_ptGen
private

Definition at line 400 of file myJetAna.h.

Referenced by beginJob().

TH1F* myJetAna::h_ptGenL
private

Definition at line 404 of file myJetAna.h.

Referenced by beginJob().

TH1F* myJetAna::h_ptHPD
private

Definition at line 67 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::h_ptRBX
private

Definition at line 66 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::h_ptTower
private

Definition at line 65 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::h_TotalClusteredE
private

Definition at line 418 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::h_TotalUnclusteredE
private

Definition at line 415 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::h_TotalUnclusteredEt
private

Definition at line 412 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::h_Trk_NTrk
private

Definition at line 346 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::h_Trk_pt
private

Definition at line 345 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::h_UnclusteredE
private

Definition at line 414 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::h_UnclusteredEt
private

Definition at line 410 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::h_UnclusteredEts
private

Definition at line 411 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::h_VNTrks
private

Definition at line 341 of file myJetAna.h.

Referenced by beginJob().

TH1F* myJetAna::h_Vx
private

Definition at line 338 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::h_Vy
private

Definition at line 339 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::h_Vz
private

Definition at line 340 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::hadEneLeadJetEta1
private

Definition at line 368 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::hadEneLeadJetEta2
private

Definition at line 369 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::hadEneLeadJetEta3
private

Definition at line 370 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::hadFracEta1
private

Definition at line 375 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::hadFracEta2
private

Definition at line 376 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::hadFracEta3
private

Definition at line 377 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HBEne
private

Definition at line 94 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HBEneOOT
private

Definition at line 74 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HBEneOOTTh
private

Definition at line 79 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HBEneOOTTh1
private

Definition at line 84 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HBEneTh
private

Definition at line 95 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HBEneTh1
private

Definition at line 96 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HBEneTThr
private

Definition at line 90 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HBEneX
private

Definition at line 97 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HBEneY
private

Definition at line 98 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH2F* myJetAna::HBocc
private

Definition at line 246 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH2F* myJetAna::HBoccOOT
private

Definition at line 254 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HBTime
private

Definition at line 99 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HBTimeFlagged
private

Definition at line 109 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HBTimeFlagged2
private

Definition at line 114 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HBTimeTh
private

Definition at line 100 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HBTimeTh1
private

Definition at line 101 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HBTimeTh1Flagged
private

Definition at line 111 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HBTimeTh1Flagged2
private

Definition at line 116 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HBTimeTh1R
private

Definition at line 105 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HBTimeTh2
private

Definition at line 102 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HBTimeTh2Flagged
private

Definition at line 112 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HBTimeTh2Flagged2
private

Definition at line 117 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HBTimeTh2R
private

Definition at line 106 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HBTimeTh3
private

Definition at line 103 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HBTimeTh3R
private

Definition at line 107 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HBTimeThFlagged
private

Definition at line 110 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HBTimeThFlagged2
private

Definition at line 115 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HBTimeThR
private

Definition at line 104 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HBTimeX
private

Definition at line 119 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HBTimeY
private

Definition at line 120 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH2F* myJetAna::HBTvsE
private

Definition at line 222 of file myJetAna.h.

Referenced by analyze(), and beginJob().

edm::InputTag myJetAna::hcalNoiseSummaryTag_
private

Definition at line 59 of file myJetAna.h.

Referenced by analyze().

TH1F* myJetAna::HEEne
private

Definition at line 121 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HEEneOOT
private

Definition at line 75 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HEEneOOTTh
private

Definition at line 80 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HEEneOOTTh1
private

Definition at line 85 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HEEneTh
private

Definition at line 122 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HEEneTh1
private

Definition at line 123 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HEEneTThr
private

Definition at line 91 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HEEneX
private

Definition at line 124 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HEEneY
private

Definition at line 125 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HEnegEne
private

Definition at line 127 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HEnegTime
private

Definition at line 151 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH2F* myJetAna::HEocc
private

Definition at line 247 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH2F* myJetAna::HEoccOOT
private

Definition at line 255 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HEposEne
private

Definition at line 126 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HEposTime
private

Definition at line 150 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HETime
private

Definition at line 128 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HETimeFlagged
private

Definition at line 138 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HETimeFlagged2
private

Definition at line 143 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HETimeTh
private

Definition at line 129 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HETimeTh1
private

Definition at line 130 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HETimeTh1Flagged
private

Definition at line 140 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HETimeTh1Flagged2
private

Definition at line 145 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HETimeTh1R
private

Definition at line 134 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HETimeTh2
private

Definition at line 131 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HETimeTh2Flagged
private

Definition at line 141 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HETimeTh2Flagged2
private

Definition at line 146 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HETimeTh2R
private

Definition at line 135 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HETimeTh3
private

Definition at line 132 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HETimeTh3R
private

Definition at line 136 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HETimeThFlagged
private

Definition at line 139 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HETimeThFlagged2
private

Definition at line 144 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HETimeThR
private

Definition at line 133 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HETimeX
private

Definition at line 148 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HETimeY
private

Definition at line 149 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH2F* myJetAna::HETvsE
private

Definition at line 223 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::hf_sumTowerAllEx
private

Definition at line 349 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::hf_sumTowerAllEy
private

Definition at line 350 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::hf_TowerJetEt
private

Definition at line 351 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFDigiTimeEne
private

Definition at line 460 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFDigiTimeEta
private

Definition at line 459 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFDigiTimeNHits
private

Definition at line 464 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFDigiTimePhi
private

Definition at line 458 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFDigiTimeTime
private

Definition at line 461 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFEne
private

Definition at line 157 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFEneFlagged
private

Definition at line 158 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFEneFlagged2
private

Definition at line 159 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFEneM
private

Definition at line 205 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFEneOOT
private

Definition at line 76 of file myJetAna.h.

Referenced by beginJob().

TH1F* myJetAna::HFEneOOTTh
private

Definition at line 81 of file myJetAna.h.

Referenced by beginJob().

TH1F* myJetAna::HFEneOOTTh1
private

Definition at line 86 of file myJetAna.h.

Referenced by beginJob().

TH1F* myJetAna::HFEneP
private

Definition at line 201 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFEnePMT0
private

Definition at line 154 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFEnePMT1
private

Definition at line 155 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFEnePMT2
private

Definition at line 156 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFEneTh
private

Definition at line 160 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFEneTh1
private

Definition at line 161 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFEneTThr
private

Definition at line 92 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFEtaFlagged
private

Definition at line 238 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFEtaFlaggedL
private

Definition at line 239 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFEtaFlaggedLN
private

Definition at line 240 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFEtaFlaggedS
private

Definition at line 241 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFEtaFlaggedSN
private

Definition at line 242 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TProfile* myJetAna::HFEtaNFlagged
private

Definition at line 244 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH2F* myJetAna::HFEtaPhiNFlagged
private

Definition at line 250 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFLEne
private

Definition at line 207 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFLEneAll
private

Definition at line 214 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFLEneAllF
private

Definition at line 215 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFLEneNoS
private

Definition at line 208 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFLEneNoSFlagged
private

Definition at line 209 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFLEneNoSFlaggedN
private

Definition at line 210 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFLongShortEne
private

Definition at line 455 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFLongShortEta
private

Definition at line 454 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFLongShortNHits
private

Definition at line 463 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFLongShortPhi
private

Definition at line 453 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFLongShortTime
private

Definition at line 456 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFLSRatio
private

Definition at line 152 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFLTime
private

Definition at line 211 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH2F* myJetAna::HFLvsS
private

Definition at line 220 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFMET
private

Definition at line 321 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH2F* myJetAna::HFocc
private

Definition at line 248 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH2F* myJetAna::HFoccFlagged
private

Definition at line 251 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH2F* myJetAna::HFoccFlagged2
private

Definition at line 252 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH2F* myJetAna::HFoccOOT
private

Definition at line 256 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH2F* myJetAna::HFoccTime
private

Definition at line 249 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFOERatio
private

Definition at line 153 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFRecHitEne
private

Definition at line 449 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFRecHitEneClean
private

Definition at line 450 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFRecHitTime
private

Definition at line 451 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFSEne
private

Definition at line 216 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFSEneAll
private

Definition at line 212 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFSEneAllF
private

Definition at line 213 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFSEneNoL
private

Definition at line 217 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFSEneNoLFlagged
private

Definition at line 218 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFSEneNoLFlaggedN
private

Definition at line 219 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFSTime
private

Definition at line 232 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFSumEt
private

Definition at line 320 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFTime
private

Definition at line 165 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFTimeFlagged
private

Definition at line 167 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFTimeFlagged2
private

Definition at line 168 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFTimeFlagged3
private

Definition at line 173 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFTimeM
private

Definition at line 206 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFTimeP
private

Definition at line 202 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFTimePM
private

Definition at line 204 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFTimePMa
private

Definition at line 203 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFTimePMT0
private

Definition at line 162 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFTimePMT1
private

Definition at line 163 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFTimePMT2
private

Definition at line 164 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFTimeTh
private

Definition at line 178 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFTimeTh1
private

Definition at line 179 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFTimeTh1Flagged2
private

Definition at line 170 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFTimeTh1Flagged3
private

Definition at line 175 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFTimeTh1R
private

Definition at line 183 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFTimeTh2
private

Definition at line 180 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFTimeTh2Flagged
private

Definition at line 193 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFTimeTh2Flagged2
private

Definition at line 171 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFTimeTh2Flagged3
private

Definition at line 176 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFTimeTh2R
private

Definition at line 184 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFTimeTh3
private

Definition at line 181 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFTimeTh3Flagged
private

Definition at line 194 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFTimeTh3Flagged2
private

Definition at line 172 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFTimeTh3Flagged3
private

Definition at line 177 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFTimeTh3R
private

Definition at line 185 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFTimeThFlagged
private

Definition at line 192 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFTimeThFlagged2
private

Definition at line 169 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFTimeThFlagged3
private

Definition at line 174 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFTimeThFlaggedR
private

Definition at line 195 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFTimeThFlaggedR1
private

Definition at line 196 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFTimeThFlaggedR2
private

Definition at line 197 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFTimeThFlaggedR3
private

Definition at line 198 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFTimeThFlaggedR4
private

Definition at line 199 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFTimeThFlaggedRM
private

Definition at line 200 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HFTimeThR
private

Definition at line 182 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TProfile* myJetAna::HFTimeVsiEtaM
private

Definition at line 479 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TProfile* myJetAna::HFTimeVsiEtaM20
private

Definition at line 483 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TProfile* myJetAna::HFTimeVsiEtaM5
private

Definition at line 481 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TProfile* myJetAna::HFTimeVsiEtaP
private

Definition at line 478 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TProfile* myJetAna::HFTimeVsiEtaP20
private

Definition at line 482 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TProfile* myJetAna::HFTimeVsiEtaP5
private

Definition at line 480 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH2F* myJetAna::HFTvsE
private

Definition at line 224 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH2F* myJetAna::HFTvsEFlagged
private

Definition at line 225 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH2F* myJetAna::HFTvsEFlagged2
private

Definition at line 226 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH2F* myJetAna::HFTvsEFlagged2Thr
private

Definition at line 229 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH2F* myJetAna::HFTvsEFlaggedThr
private

Definition at line 228 of file myJetAna.h.

Referenced by beginJob().

TH2F* myJetAna::HFTvsEThr
private

Definition at line 227 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH2F* myJetAna::HFvsZ
private

Definition at line 466 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::hitEta
private

Definition at line 391 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::hitEtaEt
private

Definition at line 390 of file myJetAna.h.

Referenced by beginJob().

TH1F* myJetAna::hitPhi
private

Definition at line 392 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HOEne
private

Definition at line 233 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HOEneOOT
private

Definition at line 77 of file myJetAna.h.

Referenced by beginJob().

TH1F* myJetAna::HOEneOOTTh
private

Definition at line 82 of file myJetAna.h.

Referenced by beginJob().

TH1F* myJetAna::HOEneOOTTh1
private

Definition at line 87 of file myJetAna.h.

Referenced by beginJob().

TH1F* myJetAna::HOEneTh
private

Definition at line 234 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HOEneTh1
private

Definition at line 235 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HOHEne
private

Definition at line 259 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HOHr0Ene
private

Definition at line 261 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HOHr0Time
private

Definition at line 262 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HOHrm1Ene
private

Definition at line 263 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HOHrm1Time
private

Definition at line 264 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HOHrm2Ene
private

Definition at line 265 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HOHrm2Time
private

Definition at line 266 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HOHrp1Ene
private

Definition at line 267 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HOHrp1Time
private

Definition at line 268 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HOHrp2Ene
private

Definition at line 269 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HOHrp2Time
private

Definition at line 270 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HOHTime
private

Definition at line 260 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH2F* myJetAna::HOocc
private

Definition at line 245 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH2F* myJetAna::HOoccOOT
private

Definition at line 253 of file myJetAna.h.

Referenced by beginJob().

TH1F* myJetAna::HOSEne
private

Definition at line 257 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HOSTime
private

Definition at line 258 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HOTime
private

Definition at line 236 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HOTimeTh
private

Definition at line 237 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH2F* myJetAna::HOTvsE
private

Definition at line 230 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HPD_et
private

Definition at line 313 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HPD_hadEnergy
private

Definition at line 314 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HPD_hcalTime
private

Definition at line 315 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HPD_N
private

Definition at line 317 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HPD_nTowers
private

Definition at line 316 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::HTime
private

Definition at line 354 of file myJetAna.h.

Referenced by analyze(), and beginJob().

std::string myJetAna::JetCorrectionService
private

Definition at line 60 of file myJetAna.h.

TH1F* myJetAna::jetEMFraction
private

Definition at line 427 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::jetHOEne
private

Definition at line 426 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::MET
private

Definition at line 324 of file myJetAna.h.

TH1F* myJetAna::MET_HPD
private

Definition at line 328 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::MET_RBX
private

Definition at line 327 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::MET_Tower
private

Definition at line 326 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::METPhi
private

Definition at line 332 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::METSig
private

Definition at line 329 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::MEx
private

Definition at line 330 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::MEy
private

Definition at line 331 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::NPass
private

Definition at line 445 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::NTime
private

Definition at line 447 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::NTotal
private

Definition at line 446 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::NTowers
private

Definition at line 428 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::nTowers1
private

Definition at line 356 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::nTowers2
private

Definition at line 357 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::nTowers3
private

Definition at line 358 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::nTowers4
private

Definition at line 359 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::nTowersLeadJetPt1
private

Definition at line 360 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::nTowersLeadJetPt2
private

Definition at line 361 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::nTowersLeadJetPt3
private

Definition at line 362 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::nTowersLeadJetPt4
private

Definition at line 363 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::OERMET
private

Definition at line 325 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::PMTHits
private

Definition at line 166 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::RBX_et
private

Definition at line 307 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::RBX_hadEnergy
private

Definition at line 308 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::RBX_hcalTime
private

Definition at line 309 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::RBX_N
private

Definition at line 311 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::RBX_nTowers
private

Definition at line 310 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::SiClusters
private

Definition at line 335 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::st_Constituents
private

Definition at line 434 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::st_EmEnergy
private

Definition at line 436 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::st_Energy
private

Definition at line 435 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::st_Eta
private

Definition at line 439 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::st_Frac
private

Definition at line 443 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::st_HadEnergy
private

Definition at line 437 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::st_iEta
private

Definition at line 441 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::st_iPhi
private

Definition at line 442 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::st_OuterEnergy
private

Definition at line 438 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::st_Phi
private

Definition at line 440 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::st_Pt
private

Definition at line 433 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::SumEt
private

Definition at line 323 of file myJetAna.h.

Referenced by analyze(), and beginJob().

edm::InputTag myJetAna::theTriggerResultsLabel
private

Definition at line 58 of file myJetAna.h.

Referenced by analyze(), and myJetAna().

TH1F* myJetAna::tMassGen
private

Definition at line 379 of file myJetAna.h.

TH1F* myJetAna::totEneLeadJetEta1
private

Definition at line 365 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::totEneLeadJetEta2
private

Definition at line 366 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::totEneLeadJetEta3
private

Definition at line 367 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::totFedSize
private

Definition at line 293 of file myJetAna.h.

TH1F* myJetAna::towerEmEn
private

Definition at line 302 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::towerEmEnHB
private

Definition at line 299 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::towerEmEnHE
private

Definition at line 300 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::towerEmEnHF
private

Definition at line 301 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::towerEmFrac
private

Definition at line 305 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::towerHadEn
private

Definition at line 298 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::towerHadEnHB
private

Definition at line 295 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::towerHadEnHE
private

Definition at line 296 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::towerHadEnHF
private

Definition at line 297 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::towerOuterEn
private

Definition at line 303 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::TrkMultFlagged0
private

Definition at line 186 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::TrkMultFlagged1
private

Definition at line 187 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::TrkMultFlagged2
private

Definition at line 188 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::TrkMultFlagged3
private

Definition at line 189 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::TrkMultFlagged4
private

Definition at line 190 of file myJetAna.h.

Referenced by analyze(), and beginJob().

TH1F* myJetAna::TrkMultFlaggedM
private

Definition at line 191 of file myJetAna.h.

Referenced by analyze(), and beginJob().