#include <DQMAnalyzer.h>

Inheritance diagram for DQMAnalyzer:

Public Member Functions
void	analyze (const edm::Event &e, const edm::EventSetup &c) override

void	beginJob () override

	DQMAnalyzer (const edm::ParameterSet &conf)

void	endJob () override

	~DQMAnalyzer () override

Public Member Functions inherited from edm::one::EDAnalyzer<>
	EDAnalyzer ()=default

SerialTaskQueue *	globalLuminosityBlocksQueue () final

SerialTaskQueue *	globalRunsQueue () final

bool	wantsGlobalLuminosityBlocks () const final

bool	wantsGlobalRuns () const final

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

	EDAnalyzerBase ()

ModuleDescription const &	moduleDescription () const

bool	wantsStreamLuminosityBlocks () const

bool	wantsStreamRuns () const

	~EDAnalyzerBase () override

Public Member Functions inherited from edm::EDConsumerBase
std::vector< ConsumesInfo >	consumesInfo () const

void	convertCurrentProcessAlias (std::string const &processName)
	Convert "@currentProcess" in InputTag process names to the actual current process name. More...

	EDConsumerBase ()

	EDConsumerBase (EDConsumerBase &&)=default

	EDConsumerBase (EDConsumerBase const &)=delete

ESProxyIndex const *	esGetTokenIndices (edm::Transition iTrans) const

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

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

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

std::vector< ProductResolverIndexAndSkipBit > const &	itemsToGetFrom (BranchType iType) const

void	labelsForToken (EDGetToken iToken, Labels &oLabels) const

void	modulesWhoseProductsAreConsumed (std::vector< ModuleDescription const * > &modules, ProductRegistry const &preg, std::map< std::string, ModuleDescription const * > const &labelsToDesc, std::string const &processName) const

EDConsumerBase &	operator= (EDConsumerBase &&)=default

EDConsumerBase const &	operator= (EDConsumerBase const &)=delete

bool	registeredToConsume (ProductResolverIndex, bool, BranchType) const

bool	registeredToConsumeMany (TypeID const &, BranchType) const

ProductResolverIndexAndSkipBit	uncheckedIndexFrom (EDGetToken) const

void	updateLookup (BranchType iBranchType, ProductResolverIndexHelper const &, bool iPrefetchMayGet)

void	updateLookup (eventsetup::ESRecordsToProxyIndices const &)

virtual	~EDConsumerBase () noexcept(false)

Private Member Functions
bool	etCut (const reco::GsfElectronCollection::const_iterator &gsfIter)

bool	generalCut (const reco::GsfElectronCollection::const_iterator &gsfIter)

bool	idCut (const reco::GsfElectronCollection::const_iterator &gsfIter)

bool	isolationCut (const reco::GsfElectronCollection::const_iterator &gsfIter, double vertexTIP)

bool	selected (const reco::GsfElectronCollection::const_iterator &gsfIter, double vertexTIP)

bool	trigger (const edm::Event &e)

Private Attributes
edm::InputTag	beamSpot_

double	deltaR_

double	detamatchmax

double	detamatchmin

double	detamax

double	dEtaMaxBarrel_

double	dEtaMaxEndcaps_

double	detamin

double	dEtaMinBarrel_

double	dEtaMinEndcaps_

double	dphimatchmax

double	dphimatchmin

double	dphimax

double	dPhiMaxBarrel_

double	dPhiMaxEndcaps_

double	dphimin

double	dPhiMinBarrel_

double	dPhiMinEndcaps_

double	ecalIso03MaxBarrel_

double	ecalIso03MaxEndcaps_

edm::InputTag	electronCollection_

double	eopmax

double	eopmaxsht

double	eOverPMaxBarrel_

double	eOverPMaxEndcaps_

double	eOverPMinBarrel_

double	eOverPMinEndcaps_

double	etamax

double	etamin

double	fhitsmax

TH1F *	h_ele_ambiguousTracks

TH2F *	h_ele_ambiguousTracksVsEta

TH2F *	h_ele_ambiguousTracksVsPhi

TH2F *	h_ele_ambiguousTracksVsPt

TH1F *	h_ele_charge

TH1F *	h_ele_chi2

TH2F *	h_ele_chi2VsEta

TH2F *	h_ele_chi2VsPhi

TH2F *	h_ele_chi2VsPt

TH1F *	h_ele_dEtaCl_propOut

TH1F *	h_ele_dEtaEleCl_propOut

TH1F *	h_ele_dEtaSc_propVtx

TH1F *	h_ele_dPhiCl_propOut

TH1F *	h_ele_dPhiEleCl_propOut

TH1F *	h_ele_dPhiSc_propVtx

TH1F *	h_ele_ecalRecHitSumEt_dr03

TH1F *	h_ele_ecalRecHitSumEt_dr04

TH1F *	h_ele_EeleOPout

TH1F *	h_ele_EoP

TH1F *	h_ele_Et

TH1F *	h_ele_foundHits

TH2F *	h_ele_foundHitsVsEta

TH2F *	h_ele_foundHitsVsPhi

TH2F *	h_ele_foundHitsVsPt

TH1F *	h_ele_hcalDepth1TowerSumEt_dr03

TH1F *	h_ele_hcalDepth1TowerSumEt_dr04

TH1F *	h_ele_hcalDepth2TowerSumEt_dr03

TH1F *	h_ele_hcalDepth2TowerSumEt_dr04

TH1F *	h_ele_HoE

TH1F *	h_ele_lostHits

TH2F *	h_ele_lostHitsVsEta

TH2F *	h_ele_lostHitsVsPhi

TH2F *	h_ele_lostHitsVsPt

TH1F *	h_ele_matchingObjectAbsEta_matched

TH1F *	h_ele_matchingObjectEta_matched

TH1F *	h_ele_matchingObjectPhi_matched

TH1F *	h_ele_matchingObjectPt_matched

TH1F *	h_ele_matchingObjectZ_matched

TH1F *	h_ele_mee_os

TH1F *	h_ele_mva

TH1F *	h_ele_outerP

TH1F *	h_ele_outerP_mode

TH1F *	h_ele_outerPt

TH1F *	h_ele_outerPt_mode

TH1F *	h_ele_PinMnPout

TH1F *	h_ele_PinMnPout_mode

TH1F *	h_ele_provenance

TH1F *	h_ele_tkSumPt_dr03

TH1F *	h_ele_tkSumPt_dr04

TH1F *	h_ele_vertexEta

TH1F *	h_ele_vertexPhi

TH1F *	h_ele_vertexPt

TH1F *	h_ele_vertexTIP

TH1F *	h_ele_vertexX

TH1F *	h_ele_vertexY

TH1F *	h_ele_vertexZ

TH1F *	h_matchingObjectAbsEta

TH1F *	h_matchingObjectEta

TH1F *	h_matchingObjectNum

TH1F *	h_matchingObjectP

TH1F *	h_matchingObjectPhi

TH1F *	h_matchingObjectPt

TH1F *	h_matchingObjectZ

double	hadronicOverEmMaxBarrel_

double	hadronicOverEmMaxEndcaps_

double	hcalIso03Depth1MaxBarrel_

double	hcalIso03Depth1MaxEndcaps_

double	hcalIso03Depth2MaxEndcaps_

TFile *	histfile_

TH1F *	histNum_

TH1F *	histSclEn_

TH1F *	histSclEt_

TH1F *	histSclEta_

TH1F *	histSclPhi_

TH1F *	histSclSigEtaEta_

std::vector< unsigned int >	HLTPathsByIndex_

std::vector< std::string >	HLTPathsByName_

double	hoemax

double	hoemin

bool	isEB_

bool	isEcalDriven_

bool	isEE_

bool	isNotEBEEGap_

bool	isTrackerDriven_

double	lhitsmax

double	massHigh_

double	massLow_

std::string	matchingCondition_

edm::InputTag	matchingObjectCollection_

double	maxAbsEta_

double	maxAbsEtaMatchingObject_

double	maxPtMatchingObject_

float	mcEnergy [10]

float	mcEta [10]

float	mcPhi [10]

float	mcPt [10]

float	mcQ [10]

double	meemax

double	meemin

double	minEt_

double	minPt_

double	mvaMin_

unsigned int	nAfterTrigger_

int	nbindeta

int	nbindetamatch

int	nbindetamatch2D

int	nbindphi

int	nbindphimatch

int	nbindphimatch2D

int	nbineop

int	nbineop2D

int	nbineta

int	nbineta2D

int	nbinfhits

int	nbinhoe

int	nbinlhits

int	nbinmee

int	nbinp

int	nbinp2D

int	nbinphi

int	nbinphi2D

int	nbinpoptrue

int	nbinpt

int	nbinpt2D

int	nbinpteff

int	nbinxyz

unsigned int	nEvents_

std::string	outputFile_

edm::ESHandle< TrackerGeometry >	pDD

double	phimax

double	phimin

double	pmax

double	poptruemax

double	poptruemin

bool	PROBEcheckclass_

bool	PROBEetcut_

double	ptmax

bool	readAOD_

float	seedEta [10]

float	seedMomentum [10]

float	seedPhi [10]

float	seedPt [10]

float	seedQ [10]

int	Selection_

double	sigIetaIetaMaxBarrel_

double	sigIetaIetaMaxEndcaps_

double	sigIetaIetaMinBarrel_

double	sigIetaIetaMinEndcaps_

float	superclusterEnergy [10]

float	superclusterEt [10]

float	superclusterEta [10]

float	superclusterPhi [10]

bool	TAGcheckclass_

edm::ESHandle< MagneticField >	theMagField

double	tipMaxBarrel_

double	tipMaxEndcaps_

double	tkIso03Max_

bool	TPchecksign_

TrajectoryStateTransform	transformer_

TTree *	tree_

edm::InputTag	triggerResults_

Additional Inherited Members
Public Types inherited from edm::one::EDAnalyzerBase
typedef EDAnalyzerBase	ModuleType

Public Types inherited from edm::EDConsumerBase
typedef ProductLabels	Labels

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

static void	fillDescriptions (ConfigurationDescriptions &descriptions)

static void	prevalidate (ConfigurationDescriptions &descriptions)

Protected Member Functions inherited from edm::EDConsumerBase
EDGetToken	consumes (const TypeToGet &id, edm::InputTag const &tag)

template<typename ProductType , BranchType B = InEvent>
EDGetTokenT< ProductType >	consumes (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 ESProduct , typename ESRecord , Transition Tr = Transition::Event>
auto	esConsumes ()

template<typename ESProduct , typename ESRecord , Transition Tr = Transition::Event>
auto	esConsumes (ESInputTag const &tag)

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

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

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

Detailed Description

Definition at line 36 of file DQMAnalyzer.h.

Constructor & Destructor Documentation

◆ DQMAnalyzer()

DQMAnalyzer::DQMAnalyzer ( const edm::ParameterSet & conf )

explicit

Definition at line 54 of file DQMAnalyzer.cc.

                                                     : beamSpot_(conf.getParameter<edm::InputTag>("beamSpot")) {
   outputFile_ = conf.getParameter<std::string>("outputFile");
   electronCollection_ = conf.getParameter<edm::InputTag>("electronCollection");
   matchingObjectCollection_ = conf.getParameter<edm::InputTag>("matchingObjectCollection");
   matchingCondition_ = conf.getParameter<std::string>("matchingCondition");
   readAOD_ = conf.getParameter<bool>("readAOD");
  
   histfile_ = new TFile(outputFile_.c_str(), "RECREATE");
  
   // currently only one possible matching conditions
   assert(matchingCondition_ == "Cone");
   maxPtMatchingObject_ = conf.getParameter<double>("MaxPtMatchingObject");
   maxAbsEtaMatchingObject_ = conf.getParameter<double>("MaxAbsEtaMatchingObject");
   deltaR_ = conf.getParameter<double>("DeltaR");
  
   Selection_ = conf.getParameter<int>("Selection");
   massLow_ = conf.getParameter<double>("MassLow");
   massHigh_ = conf.getParameter<double>("MassHigh");
   TPchecksign_ = conf.getParameter<bool>("TPchecksign");
   TAGcheckclass_ = conf.getParameter<bool>("TAGcheckclass");
   PROBEetcut_ = conf.getParameter<bool>("PROBEetcut");
   PROBEcheckclass_ = conf.getParameter<bool>("PROBEcheckclass");
  
   minEt_ = conf.getParameter<double>("MinEt");
   minPt_ = conf.getParameter<double>("MinPt");
   maxAbsEta_ = conf.getParameter<double>("MaxAbsEta");
   isEB_ = conf.getParameter<bool>("SelectEB");
   isEE_ = conf.getParameter<bool>("SelectEE");
   isNotEBEEGap_ = conf.getParameter<bool>("SelectNotEBEEGap");
   isEcalDriven_ = conf.getParameter<bool>("SelectEcalDriven");
   isTrackerDriven_ = conf.getParameter<bool>("SelectTrackerDriven");
   eOverPMinBarrel_ = conf.getParameter<double>("MinEOverPBarrel");
   eOverPMaxBarrel_ = conf.getParameter<double>("MaxEOverPBarrel");
   eOverPMinEndcaps_ = conf.getParameter<double>("MinEOverPEndcaps");
   eOverPMaxEndcaps_ = conf.getParameter<double>("MaxEOverPEndcaps");
   dEtaMinBarrel_ = conf.getParameter<double>("MinDetaBarrel");
   dEtaMaxBarrel_ = conf.getParameter<double>("MaxDetaBarrel");
   dEtaMinEndcaps_ = conf.getParameter<double>("MinDetaEndcaps");
   dEtaMaxEndcaps_ = conf.getParameter<double>("MaxDetaEndcaps");
   dPhiMinBarrel_ = conf.getParameter<double>("MinDphiBarrel");
   dPhiMaxBarrel_ = conf.getParameter<double>("MaxDphiBarrel");
   dPhiMinEndcaps_ = conf.getParameter<double>("MinDphiEndcaps");
   dPhiMaxEndcaps_ = conf.getParameter<double>("MaxDphiEndcaps");
   sigIetaIetaMinBarrel_ = conf.getParameter<double>("MinSigIetaIetaBarrel");
   sigIetaIetaMaxBarrel_ = conf.getParameter<double>("MaxSigIetaIetaBarrel");
   sigIetaIetaMinEndcaps_ = conf.getParameter<double>("MinSigIetaIetaEndcaps");
   sigIetaIetaMaxEndcaps_ = conf.getParameter<double>("MaxSigIetaIetaEndcaps");
   hadronicOverEmMaxBarrel_ = conf.getParameter<double>("MaxHoEBarrel");
   hadronicOverEmMaxEndcaps_ = conf.getParameter<double>("MaxHoEEndcaps");
   mvaMin_ = conf.getParameter<double>("MinMVA");
   tipMaxBarrel_ = conf.getParameter<double>("MaxTipBarrel");
   tipMaxEndcaps_ = conf.getParameter<double>("MaxTipEndcaps");
   tkIso03Max_ = conf.getParameter<double>("MaxTkIso03");
   hcalIso03Depth1MaxBarrel_ = conf.getParameter<double>("MaxHcalIso03Depth1Barrel");
   hcalIso03Depth1MaxEndcaps_ = conf.getParameter<double>("MaxHcalIso03Depth1Endcaps");
   hcalIso03Depth2MaxEndcaps_ = conf.getParameter<double>("MaxHcalIso03Depth2Endcaps");
   ecalIso03MaxBarrel_ = conf.getParameter<double>("MaxEcalIso03Barrel");
   ecalIso03MaxEndcaps_ = conf.getParameter<double>("MaxEcalIso03Endcaps");
  
   triggerResults_ = conf.getParameter<edm::InputTag>("triggerResults");
   HLTPathsByName_ = conf.getParameter<std::vector<std::string> >("hltPaths");
   HLTPathsByIndex_.resize(HLTPathsByName_.size());
  
   edm::ParameterSet pset = conf.getParameter<edm::ParameterSet>("HistosConfigurationData");
  
   etamin = pset.getParameter<double>("Etamin");
   etamax = pset.getParameter<double>("Etamax");
   phimin = pset.getParameter<double>("Phimin");
   phimax = pset.getParameter<double>("Phimax");
   ptmax = pset.getParameter<double>("Ptmax");
   pmax = pset.getParameter<double>("Pmax");
   eopmax = pset.getParameter<double>("Eopmax");
   eopmaxsht = pset.getParameter<double>("Eopmaxsht");
   detamin = pset.getParameter<double>("Detamin");
   detamax = pset.getParameter<double>("Detamax");
   dphimin = pset.getParameter<double>("Dphimin");
   dphimax = pset.getParameter<double>("Dphimax");
   detamatchmin = pset.getParameter<double>("Detamatchmin");
   detamatchmax = pset.getParameter<double>("Detamatchmax");
   dphimatchmin = pset.getParameter<double>("Dphimatchmin");
   dphimatchmax = pset.getParameter<double>("Dphimatchmax");
   fhitsmax = pset.getParameter<double>("Fhitsmax");
   lhitsmax = pset.getParameter<double>("Lhitsmax");
   nbineta = pset.getParameter<int>("Nbineta");
   nbineta2D = pset.getParameter<int>("Nbineta2D");
   nbinp = pset.getParameter<int>("Nbinp");
   nbinpt = pset.getParameter<int>("Nbinpt");
   nbinp2D = pset.getParameter<int>("Nbinp2D");
   nbinpt2D = pset.getParameter<int>("Nbinpt2D");
   nbinpteff = pset.getParameter<int>("Nbinpteff");
   nbinphi = pset.getParameter<int>("Nbinphi");
   nbinphi2D = pset.getParameter<int>("Nbinphi2D");
   nbineop = pset.getParameter<int>("Nbineop");
   nbineop2D = pset.getParameter<int>("Nbineop2D");
   nbinfhits = pset.getParameter<int>("Nbinfhits");
   nbinlhits = pset.getParameter<int>("Nbinlhits");
   nbinxyz = pset.getParameter<int>("Nbinxyz");
   nbindeta = pset.getParameter<int>("Nbindeta");
   nbindphi = pset.getParameter<int>("Nbindphi");
   nbindetamatch = pset.getParameter<int>("Nbindetamatch");
   nbindphimatch = pset.getParameter<int>("Nbindphimatch");
   nbindetamatch2D = pset.getParameter<int>("Nbindetamatch2D");
   nbindphimatch2D = pset.getParameter<int>("Nbindphimatch2D");
   nbinpoptrue = pset.getParameter<int>("Nbinpoptrue");
   poptruemin = pset.getParameter<double>("Poptruemin");
   poptruemax = pset.getParameter<double>("Poptruemax");
   nbinmee = pset.getParameter<int>("Nbinmee");
   meemin = pset.getParameter<double>("Meemin");
   meemax = pset.getParameter<double>("Meemax");
   nbinhoe = pset.getParameter<int>("Nbinhoe");
   hoemin = pset.getParameter<double>("Hoemin");
   hoemax = pset.getParameter<double>("Hoemax");
 }

References cms::cuda::assert(), deltaR_, detamatchmax, detamatchmin, detamax, dEtaMaxBarrel_, dEtaMaxEndcaps_, detamin, dEtaMinBarrel_, dEtaMinEndcaps_, dphimatchmax, dphimatchmin, dphimax, dPhiMaxBarrel_, dPhiMaxEndcaps_, dphimin, dPhiMinBarrel_, dPhiMinEndcaps_, ecalIso03MaxBarrel_, ecalIso03MaxEndcaps_, electronCollection_, eopmax, eopmaxsht, eOverPMaxBarrel_, eOverPMaxEndcaps_, eOverPMinBarrel_, eOverPMinEndcaps_, etamax, etamin, fhitsmax, edm::ParameterSet::getParameter(), hadronicOverEmMaxBarrel_, hadronicOverEmMaxEndcaps_, hcalIso03Depth1MaxBarrel_, hcalIso03Depth1MaxEndcaps_, hcalIso03Depth2MaxEndcaps_, histfile_, HLTPathsByIndex_, HLTPathsByName_, hoemax, hoemin, isEB_, isEcalDriven_, isEE_, isNotEBEEGap_, isTrackerDriven_, lhitsmax, massHigh_, massLow_, matchingCondition_, matchingObjectCollection_, maxAbsEta_, maxAbsEtaMatchingObject_, maxPtMatchingObject_, meemax, meemin, minEt_, minPt_, mvaMin_, nbindeta, nbindetamatch, nbindetamatch2D, nbindphi, nbindphimatch, nbindphimatch2D, nbineop, nbineop2D, nbineta, nbineta2D, nbinfhits, nbinhoe, nbinlhits, nbinmee, nbinp, nbinp2D, nbinphi, nbinphi2D, nbinpoptrue, nbinpt, nbinpt2D, nbinpteff, nbinxyz, outputFile_, phimax, phimin, pmax, poptruemax, poptruemin, PROBEcheckclass_, PROBEetcut_, muonDTDigis_cfi::pset, ptmax, readAOD_, Selection_, sigIetaIetaMaxBarrel_, sigIetaIetaMaxEndcaps_, sigIetaIetaMinBarrel_, sigIetaIetaMinEndcaps_, AlCaHLTBitMon_QueryRunRegistry::string, TAGcheckclass_, tipMaxBarrel_, tipMaxEndcaps_, tkIso03Max_, TPchecksign_, and triggerResults_.

◆ ~DQMAnalyzer()

DQMAnalyzer::~DQMAnalyzer ( )

override

Definition at line 168 of file DQMAnalyzer.cc.

                           {
   // do anything here that needs to be done at desctruction time
   // (e.g. close files, deallocate resources etc.)
   histfile_->Write();
   histfile_->Close();
 }

References histfile_.

Member Function Documentation

◆ analyze()

void DQMAnalyzer::analyze	(	const edm::Event &	e,
		const edm::EventSetup &	c
	)

overridevirtual

Implements edm::one::EDAnalyzerBase.

Definition at line 664 of file DQMAnalyzer.cc.

                                                                              {
   edm::LogInfo("DQMAnalyzer::analyze") << "Treating event " << iEvent.id();
   nEvents_++;
   if (!trigger(iEvent))
     return;
   nAfterTrigger_++;
   edm::LogInfo("DQMAnalyzer::analyze") << "Trigger OK";
   edm::Handle<reco::GsfElectronCollection> gsfElectrons;
   iEvent.getByLabel(electronCollection_, gsfElectrons);
   edm::LogInfo("DQMAnalyzer::analyze") << "Event has " << gsfElectrons.product()->size() << " electrons";
   edm::Handle<reco::SuperClusterCollection> recoClusters;
   iEvent.getByLabel(matchingObjectCollection_, recoClusters);
   edm::Handle<reco::BeamSpot> recoBeamSpotHandle;
   iEvent.getByLabel(beamSpot_, recoBeamSpotHandle);
   const reco::BeamSpot bs = *recoBeamSpotHandle;
   histNum_->Fill((*gsfElectrons).size());
  
   // selected rec electrons
   reco::GsfElectronCollection::const_iterator gsfIter;
   for (gsfIter = gsfElectrons->begin(); gsfIter != gsfElectrons->end(); gsfIter++) {
     // vertex TIP
     double vertexTIP = (gsfIter->vertex().x() - bs.position().x()) * (gsfIter->vertex().x() - bs.position().x()) +
                        (gsfIter->vertex().y() - bs.position().y()) * (gsfIter->vertex().y() - bs.position().y());
     vertexTIP = sqrt(vertexTIP);
  
     // select electrons
     if (!selected(gsfIter, vertexTIP))
       continue;
  
     // electron related distributions
     h_ele_charge->Fill(gsfIter->charge());
     //h_ele_vertexP->Fill( gsfIter->p() );
     h_ele_vertexPt->Fill(gsfIter->pt());
     h_ele_Et->Fill(gsfIter->superCluster()->energy() / cosh(gsfIter->superCluster()->eta()));
     h_ele_vertexEta->Fill(gsfIter->eta());
     h_ele_vertexPhi->Fill(gsfIter->phi());
     h_ele_vertexX->Fill(gsfIter->vertex().x());
     h_ele_vertexY->Fill(gsfIter->vertex().y());
     h_ele_vertexZ->Fill(gsfIter->vertex().z());
     h_ele_vertexTIP->Fill(vertexTIP);
  
     // supercluster related distributions
     reco::SuperClusterRef sclRef = gsfIter->superCluster();
     // ALREADY DONE IN GSF ELECTRON CORE
     //    if (!gsfIter->ecalDrivenSeed()&&gsfIter->trackerDrivenSeed())
     //      sclRef = gsfIter->parentSuperCluster() ;
     histSclEn_->Fill(sclRef->energy());
     double R = TMath::Sqrt(sclRef->x() * sclRef->x() + sclRef->y() * sclRef->y() + sclRef->z() * sclRef->z());
     double Rt = TMath::Sqrt(sclRef->x() * sclRef->x() + sclRef->y() * sclRef->y());
     histSclEt_->Fill(sclRef->energy() * (Rt / R));
     histSclEta_->Fill(sclRef->eta());
     histSclPhi_->Fill(sclRef->phi());
     histSclSigEtaEta_->Fill(gsfIter->scSigmaEtaEta());
  
     // track related distributions
     h_ele_ambiguousTracks->Fill(gsfIter->ambiguousGsfTracksSize());
     h_ele_ambiguousTracksVsEta->Fill(gsfIter->eta(), gsfIter->ambiguousGsfTracksSize());
     h_ele_ambiguousTracksVsPhi->Fill(gsfIter->phi(), gsfIter->ambiguousGsfTracksSize());
     h_ele_ambiguousTracksVsPt->Fill(gsfIter->pt(), gsfIter->ambiguousGsfTracksSize());
     if (!readAOD_) {  // track extra does not exist in AOD
       h_ele_foundHits->Fill(gsfIter->gsfTrack()->numberOfValidHits());
       h_ele_foundHitsVsEta->Fill(gsfIter->eta(), gsfIter->gsfTrack()->numberOfValidHits());
       h_ele_foundHitsVsPhi->Fill(gsfIter->phi(), gsfIter->gsfTrack()->numberOfValidHits());
       h_ele_foundHitsVsPt->Fill(gsfIter->pt(), gsfIter->gsfTrack()->numberOfValidHits());
       h_ele_lostHits->Fill(gsfIter->gsfTrack()->numberOfLostHits());
       h_ele_lostHitsVsEta->Fill(gsfIter->eta(), gsfIter->gsfTrack()->numberOfLostHits());
       h_ele_lostHitsVsPhi->Fill(gsfIter->phi(), gsfIter->gsfTrack()->numberOfLostHits());
       h_ele_lostHitsVsPt->Fill(gsfIter->pt(), gsfIter->gsfTrack()->numberOfLostHits());
       h_ele_chi2->Fill(gsfIter->gsfTrack()->normalizedChi2());
       h_ele_chi2VsEta->Fill(gsfIter->eta(), gsfIter->gsfTrack()->normalizedChi2());
       h_ele_chi2VsPhi->Fill(gsfIter->phi(), gsfIter->gsfTrack()->normalizedChi2());
       h_ele_chi2VsPt->Fill(gsfIter->pt(), gsfIter->gsfTrack()->normalizedChi2());
     }
  
     // from gsf track interface, hence using mean
     if (!readAOD_) {  // track extra does not exist in AOD
       h_ele_PinMnPout->Fill(gsfIter->gsfTrack()->innerMomentum().R() - gsfIter->gsfTrack()->outerMomentum().R());
       h_ele_outerP->Fill(gsfIter->gsfTrack()->outerMomentum().R());
       h_ele_outerPt->Fill(gsfIter->gsfTrack()->outerMomentum().Rho());
     }
  
     // from electron interface, hence using mode
     h_ele_PinMnPout_mode->Fill(gsfIter->trackMomentumAtVtx().R() - gsfIter->trackMomentumOut().R());
     h_ele_outerP_mode->Fill(gsfIter->trackMomentumOut().R());
     h_ele_outerPt_mode->Fill(gsfIter->trackMomentumOut().Rho());
  
     /*
     if (!readAOD_) { // track extra does not exist in AOD
             edm::RefToBase<TrajectorySeed> seed = gsfIter->gsfTrack()->extra()->seedRef();
       ElectronSeedRef elseed=seed.castTo<ElectronSeedRef>();
       h_ele_seed_dphi2_-> Fill(elseed->dPhiNeg(1));
             h_ele_seed_dphi2VsEta_-> Fill(gsfIter->eta(), elseed->dPhiNeg(1));
             h_ele_seed_dphi2VsPt_-> Fill(gsfIter->pt(), elseed->dPhiNeg(1)) ;
             h_ele_seed_drz2_-> Fill(elseed->dRZNeg(1));
             h_ele_seed_drz2VsEta_-> Fill(gsfIter->eta(), elseed->dRZNeg(1));
             h_ele_seed_drz2VsPt_-> Fill(gsfIter->pt(), elseed->dRZNeg(1));
             h_ele_seed_subdet2_-> Fill(elseed->subDet(1));
           }
     */
  
     // match distributions
     h_ele_EoP->Fill(gsfIter->eSuperClusterOverP());
     h_ele_EeleOPout->Fill(gsfIter->eEleClusterOverPout());
     h_ele_dEtaSc_propVtx->Fill(gsfIter->deltaEtaSuperClusterTrackAtVtx());
     h_ele_dPhiSc_propVtx->Fill(gsfIter->deltaPhiSuperClusterTrackAtVtx());
     h_ele_dEtaCl_propOut->Fill(gsfIter->deltaEtaSeedClusterTrackAtCalo());
     h_ele_dPhiCl_propOut->Fill(gsfIter->deltaPhiSeedClusterTrackAtCalo());
     h_ele_dEtaEleCl_propOut->Fill(gsfIter->deltaEtaEleClusterTrackAtCalo());
     h_ele_dPhiEleCl_propOut->Fill(gsfIter->deltaPhiEleClusterTrackAtCalo());
     h_ele_HoE->Fill(gsfIter->hadronicOverEm());
  
     //classes
  
     //fbrem
  
     h_ele_mva->Fill(gsfIter->mva_e_pi());
     if (gsfIter->ecalDrivenSeed())
       h_ele_provenance->Fill(1.);
     if (gsfIter->trackerDrivenSeed())
       h_ele_provenance->Fill(-1.);
     if (gsfIter->trackerDrivenSeed() || gsfIter->ecalDrivenSeed())
       h_ele_provenance->Fill(0.);
     if (gsfIter->trackerDrivenSeed() && !gsfIter->ecalDrivenSeed())
       h_ele_provenance->Fill(-2.);
     if (!gsfIter->trackerDrivenSeed() && gsfIter->ecalDrivenSeed())
       h_ele_provenance->Fill(2.);
  
     h_ele_tkSumPt_dr03->Fill(gsfIter->dr03TkSumPt());
     h_ele_ecalRecHitSumEt_dr03->Fill(gsfIter->dr03EcalRecHitSumEt());
     h_ele_hcalDepth1TowerSumEt_dr03->Fill(gsfIter->dr03HcalDepth1TowerSumEt());
     h_ele_hcalDepth2TowerSumEt_dr03->Fill(gsfIter->dr03HcalDepth2TowerSumEt());
     h_ele_tkSumPt_dr04->Fill(gsfIter->dr04TkSumPt());
     h_ele_ecalRecHitSumEt_dr04->Fill(gsfIter->dr04EcalRecHitSumEt());
     h_ele_hcalDepth1TowerSumEt_dr04->Fill(gsfIter->dr04HcalDepth1TowerSumEt());
     h_ele_hcalDepth2TowerSumEt_dr04->Fill(gsfIter->dr04HcalDepth2TowerSumEt());
   }
  
   // association matching object-reco electrons
   int matchingObjectNum = 0;
   reco::SuperClusterCollection::const_iterator moIter;
   for (moIter = recoClusters->begin(); moIter != recoClusters->end(); moIter++) {
     // number of matching objects
     matchingObjectNum++;
  
     if (moIter->energy() / cosh(moIter->eta()) > maxPtMatchingObject_ ||
         fabs(moIter->eta()) > maxAbsEtaMatchingObject_) {
       continue;
     }
  
     // suppress the endcaps
     //if (fabs(moIter->eta()) > 1.5) continue;
     // select central z
     //if ( fabs((*mcIter)->production_vertex()->position().z())>50.) continue;
  
     h_matchingObjectEta->Fill(moIter->eta());
     h_matchingObjectAbsEta->Fill(fabs(moIter->eta()));
     h_matchingObjectP->Fill(moIter->energy());
     h_matchingObjectPt->Fill(moIter->energy() / cosh(moIter->eta()));
     h_matchingObjectPhi->Fill(moIter->phi());
     h_matchingObjectZ->Fill(moIter->z());
  
     // find best matched electron
     bool okGsfFound = false;
     double gsfOkRatio = 999999.;
     reco::GsfElectron bestGsfElectron;
     reco::GsfElectronCollection::const_iterator gsfIter;
     for (gsfIter = gsfElectrons->begin(); gsfIter != gsfElectrons->end(); gsfIter++) {
       double vertexTIP = (gsfIter->vertex().x() - bs.position().x()) * (gsfIter->vertex().x() - bs.position().x()) +
                          (gsfIter->vertex().y() - bs.position().y()) * (gsfIter->vertex().y() - bs.position().y());
       vertexTIP = sqrt(vertexTIP);
  
       // select electrons
       if (!selected(gsfIter, vertexTIP))
         continue;
  
       if (Selection_ >= 4) {
         reco::GsfElectronCollection::const_iterator gsfIter2;
         for (gsfIter2 = gsfIter + 1; gsfIter2 != gsfElectrons->end(); gsfIter2++) {
           math::XYZTLorentzVector p12 = (*gsfIter).p4() + (*gsfIter2).p4();
           float mee2 = p12.Dot(p12);
           bool opsign = (gsfIter->charge() * gsfIter2->charge() < 0.);
           float invMass = sqrt(mee2);
  
           if (TPchecksign_ && !opsign)
             break;
  
           // conditions Tag
           if (TAGcheckclass_ && (gsfIter->classification() == GsfElectron::SHOWERING || gsfIter->isGap()))
             break;
  
           // conditions Probe
           if (PROBEetcut_ && (gsfIter2->superCluster()->energy() / cosh(gsfIter2->superCluster()->eta()) < minEt_))
             continue;
           if (PROBEcheckclass_ && (gsfIter2->classification() == GsfElectron::SHOWERING || gsfIter2->isGap()))
             continue;
  
           if (invMass < massLow_ || invMass > massHigh_)
             continue;
  
           h_ele_mee_os->Fill(invMass);
           bestGsfElectron = *gsfIter2;
           okGsfFound = true;
         }
       } else {
         reco::GsfElectronCollection::const_iterator gsfIter2;
         for (gsfIter2 = gsfIter + 1; gsfIter2 != gsfElectrons->end(); gsfIter2++) {
           math::XYZTLorentzVector p12 = (*gsfIter).p4() + (*gsfIter2).p4();
           float mee2 = p12.Dot(p12);
           //bool opsign = (gsfIter->charge()*gsfIter2->charge()<0.) ;
           float invMass = sqrt(mee2);
           h_ele_mee_os->Fill(invMass);
         }
  
         // matching with a cone in eta phi
         if (matchingCondition_ == "Cone") {
           double dphi = gsfIter->phi() - moIter->phi();
           if (fabs(dphi) > CLHEP::pi) {
             dphi = dphi < 0 ? (CLHEP::twopi) + dphi : dphi - CLHEP::twopi;
           }
           double deltaR = sqrt(std::pow((moIter->eta() - gsfIter->eta()), 2) + std::pow(dphi, 2));
           if (deltaR < deltaR_) {
             //if ( (genPc->pdg_id() == 11) && (gsfIter->charge() < 0.) || (genPc->pdg_id() == -11) &&
             //(gsfIter->charge() > 0.) ){
             double tmpGsfRatio = gsfIter->p() / moIter->energy();
             if (fabs(tmpGsfRatio - 1) < fabs(gsfOkRatio - 1) && Selection_ != 4) {
               gsfOkRatio = tmpGsfRatio;
               bestGsfElectron = *gsfIter;
               okGsfFound = true;
             }
             //}
           }
         }
       }
     }  // loop over rec ele to look for the best one
  
     // analysis when the matching object is matched by a rec electron
     if (okGsfFound) {
       // generated distributions for matched electrons
       h_ele_matchingObjectPt_matched->Fill(moIter->energy() / cosh(moIter->eta()));
       h_ele_matchingObjectPhi_matched->Fill(moIter->phi());
       h_ele_matchingObjectAbsEta_matched->Fill(fabs(moIter->eta()));
       h_ele_matchingObjectEta_matched->Fill(moIter->eta());
       h_ele_matchingObjectZ_matched->Fill(moIter->z());
  
       // OBSOLETE
       //      // comparison electron vs matching object
       //      h_ele_EtaMnEtamatchingObject_matched->Fill( bestGsfElectron.eta()-moIter->eta());
       //
       //      h_ele_PhiMnPhimatchingObject_matched->Fill( bestGsfElectron.phi()-moIter->phi());
       //      h_ele_PhiMnPhimatchingObject2_matched->Fill( bestGsfElectron.phi()-moIter->phi());
       //
       //      h_ele_PoPmatchingObject_matched->Fill( bestGsfElectron.p()/moIter->energy());
       //      h_ele_PtoPtmatchingObject_matched->Fill( bestGsfElectron.pt()/moIter->energy()/cosh(moIter->eta()));
       //
       //      if (bestGsfElectron.isEB()) h_ele_PoPmatchingObject_barrel_matched->Fill( bestGsfElectron.p()/moIter->energy());
       //      if (bestGsfElectron.isEE()) h_ele_PoPmatchingObject_endcaps_matched->Fill( bestGsfElectron.p()/moIter->energy());
       //      if (bestGsfElectron.isEB()) h_ele_PtoPtmatchingObject_barrel_matched->Fill( bestGsfElectron.pt()/moIter->energy()/cosh(moIter->eta()));
       //      if (bestGsfElectron.isEE()) h_ele_PtoPtmatchingObject_endcaps_matched->Fill( bestGsfElectron.pt()/moIter->energy()/cosh(moIter->eta()));
  
       reco::SuperClusterRef sclRef = bestGsfElectron.superCluster();
  
       // add here distributions for matched electrons as for all electrons
       //..
     }  // gsf electron found
  
   }  // loop overmatching object
  
   h_matchingObjectNum->Fill(matchingObjectNum);
 }

References beamSpot_, cms::cuda::bs, PbPb_ZMuSkimMuonDPG_cff::deltaR, deltaR_, electronCollection_, electronIsolatorFromEffectiveArea_cfi::gsfElectrons, h_ele_ambiguousTracks, h_ele_ambiguousTracksVsEta, h_ele_ambiguousTracksVsPhi, h_ele_ambiguousTracksVsPt, h_ele_charge, h_ele_chi2, h_ele_chi2VsEta, h_ele_chi2VsPhi, h_ele_chi2VsPt, h_ele_dEtaCl_propOut, h_ele_dEtaEleCl_propOut, h_ele_dEtaSc_propVtx, h_ele_dPhiCl_propOut, h_ele_dPhiEleCl_propOut, h_ele_dPhiSc_propVtx, h_ele_ecalRecHitSumEt_dr03, h_ele_ecalRecHitSumEt_dr04, h_ele_EeleOPout, h_ele_EoP, h_ele_Et, h_ele_foundHits, h_ele_foundHitsVsEta, h_ele_foundHitsVsPhi, h_ele_foundHitsVsPt, h_ele_hcalDepth1TowerSumEt_dr03, h_ele_hcalDepth1TowerSumEt_dr04, h_ele_hcalDepth2TowerSumEt_dr03, h_ele_hcalDepth2TowerSumEt_dr04, h_ele_HoE, h_ele_lostHits, h_ele_lostHitsVsEta, h_ele_lostHitsVsPhi, h_ele_lostHitsVsPt, h_ele_matchingObjectAbsEta_matched, h_ele_matchingObjectEta_matched, h_ele_matchingObjectPhi_matched, h_ele_matchingObjectPt_matched, h_ele_matchingObjectZ_matched, h_ele_mee_os, h_ele_mva, h_ele_outerP, h_ele_outerP_mode, h_ele_outerPt, h_ele_outerPt_mode, h_ele_PinMnPout, h_ele_PinMnPout_mode, h_ele_provenance, h_ele_tkSumPt_dr03, h_ele_tkSumPt_dr04, h_ele_vertexEta, h_ele_vertexPhi, h_ele_vertexPt, h_ele_vertexTIP, h_ele_vertexX, h_ele_vertexY, h_ele_vertexZ, h_matchingObjectAbsEta, h_matchingObjectEta, h_matchingObjectNum, h_matchingObjectP, h_matchingObjectPhi, h_matchingObjectPt, h_matchingObjectZ, histNum_, histSclEn_, histSclEt_, histSclEta_, histSclPhi_, histSclSigEtaEta_, iEvent, massHigh_, matchingCondition_, matchingObjectCollection_, maxAbsEtaMatchingObject_, maxPtMatchingObject_, minEt_, nAfterTrigger_, nEvents_, reco::GsfElectron::p4(), pi, funct::pow(), PROBEcheckclass_, PROBEetcut_, dttmaxenums::R, readAOD_, selected(), Selection_, mathSSE::sqrt(), reco::GsfElectron::superCluster(), TAGcheckclass_, TPchecksign_, and trigger().

◆ beginJob()

void DQMAnalyzer::beginJob ( void )

overridevirtual

Reimplemented from edm::one::EDAnalyzerBase.

Definition at line 175 of file DQMAnalyzer.cc.

                            {
   histfile_->cd();
  
   nEvents_ = 0;
   nAfterTrigger_ = 0;
  
   // matching object
   std::string::size_type locSC = matchingObjectCollection_.label().find("SuperCluster", 0);
   std::string type;
   if (locSC != std::string::npos) {
     std::cout << "Matching objects are SuperClusters " << std::endl;
     type = "SC";
   } else {
     std::cout << "Didn't recognize input matching objects!! " << std::endl;
   }
  
   //==================================================
   // matching object distributions
   //==================================================
  
   std::string htitle, hlabel;
   hlabel = "h_" + type + "Num";
   htitle = "# " + type + "s";
   h_matchingObjectNum = new TH1F(hlabel.c_str(), htitle.c_str(), nbinfhits, 0., fhitsmax);
   hlabel = "h_" + type + "_eta";
   htitle = type + " #eta";
   h_matchingObjectEta = new TH1F(hlabel.c_str(), htitle.c_str(), nbineta, etamin, etamax);
   hlabel = "h_" + type + "_abseta";
   htitle = type + " |#eta|";
   h_matchingObjectAbsEta = new TH1F(hlabel.c_str(), htitle.c_str(), nbineta / 2, 0., etamax);
   hlabel = "h_" + type + "_P";
   htitle = type + " p";
   h_matchingObjectP = new TH1F(hlabel.c_str(), htitle.c_str(), nbinp, 0., pmax);
   hlabel = "h_" + type + "_Pt";
   htitle = type + " pt";
   h_matchingObjectPt = new TH1F(hlabel.c_str(), htitle.c_str(), nbinpteff, 5., ptmax);
   hlabel = "h_" + type + "_phi";
   htitle = type + " phi";
   h_matchingObjectPhi = new TH1F(hlabel.c_str(), htitle.c_str(), nbinphi, phimin, phimax);
   hlabel = "h_" + type + "_z";
   htitle = type + " z";
   h_matchingObjectZ = new TH1F(hlabel.c_str(), htitle.c_str(), nbinxyz, -25, 25);
  
   h_matchingObjectNum->GetXaxis()->SetTitle("N_{SC}");
   h_matchingObjectNum->GetYaxis()->SetTitle("Events");
   h_matchingObjectEta->GetXaxis()->SetTitle("#eta_{SC}");
   h_matchingObjectEta->GetYaxis()->SetTitle("Events");
   h_matchingObjectP->GetXaxis()->SetTitle("E_{SC} (GeV)");
   h_matchingObjectP->GetYaxis()->SetTitle("Events");
  
   h_ele_matchingObjectEta_matched =
       new TH1F("h_ele_matchingObjectEta_matched", "Efficiency vs matching SC #eta", nbineta, etamin, etamax);
   h_ele_matchingObjectEta_matched->Sumw2();
   h_ele_matchingObjectAbsEta_matched =
       new TH1F("h_ele_matchingObjectAbsEta_matched", "Efficiency vs matching SC |#eta|", nbineta / 2, 0., 2.5);
   h_ele_matchingObjectAbsEta_matched->Sumw2();
   h_ele_matchingObjectPt_matched =
       new TH1F("h_ele_matchingObjectPt_matched", "Efficiency vs matching SC E_{T}", nbinpteff, 5., ptmax);
   h_ele_matchingObjectPt_matched->Sumw2();
   h_ele_matchingObjectPhi_matched =
       new TH1F("h_ele_matchingObjectPhi_matched", "Efficiency vs matching SC phi", nbinphi, phimin, phimax);
   h_ele_matchingObjectPhi_matched->Sumw2();
   h_ele_matchingObjectZ_matched =
       new TH1F("h_ele_matchingObjectZ_matched", "Efficiency vs matching SC z", nbinxyz, -25, 25);
   h_ele_matchingObjectZ_matched->Sumw2();
  
   //==================================================
   // caractéristique particule
   //==================================================
  
   h_ele_vertexPt = new TH1F("h_ele_vertexPt", "ele transverse momentum", nbinpt, 0., ptmax);
   h_ele_Et = new TH1F("h_ele_Et", "ele SC transverse energy", nbinpt, 0., ptmax);
   h_ele_vertexEta = new TH1F("h_ele_vertexEta", "ele momentum eta", nbineta, etamin, etamax);
   h_ele_vertexPhi = new TH1F("h_ele_vertexPhi", "ele  momentum #phi", nbinphi, phimin, phimax);
   h_ele_vertexX = new TH1F("h_ele_vertexX", "ele vertex x", nbinxyz, -0.1, 0.1);
   h_ele_vertexY = new TH1F("h_ele_vertexY", "ele vertex y", nbinxyz, -0.1, 0.1);
   h_ele_vertexZ = new TH1F("h_ele_vertexZ", "ele vertex z", nbinxyz, -25, 25);
   h_ele_vertexTIP = new TH1F("h_ele_vertexTIP", "ele transverse impact parameter (wrt bs)", 90, 0., 0.15);
   h_ele_charge = new TH1F("h_ele_charge", "ele charge", 5, -2., 2.);
  
   h_ele_charge->GetXaxis()->SetTitle("charge");
   h_ele_charge->GetYaxis()->SetTitle("Events");
  
   h_ele_vertexPt->GetXaxis()->SetTitle("p_{T vertex} (GeV/c)");
   h_ele_vertexPt->GetYaxis()->SetTitle("Events");
  
   h_ele_Et->GetXaxis()->SetTitle("E_{T} (GeV)");
   h_ele_Et->GetYaxis()->SetTitle("Events");
  
   h_ele_vertexEta->GetXaxis()->SetTitle("#eta");
   h_ele_vertexEta->GetYaxis()->SetTitle("Events");
   h_ele_vertexPhi->GetXaxis()->SetTitle("#phi (rad)");
   h_ele_vertexPhi->GetYaxis()->SetTitle("Events");
  
   h_ele_vertexX->GetXaxis()->SetTitle("x (cm)");
   h_ele_vertexX->GetYaxis()->SetTitle("Events");
   h_ele_vertexY->GetXaxis()->SetTitle("y (cm)");
   h_ele_vertexY->GetYaxis()->SetTitle("Events");
   h_ele_vertexZ->GetXaxis()->SetTitle("z (cm)");
   h_ele_vertexZ->GetYaxis()->SetTitle("Events");
  
   h_ele_vertexTIP->GetXaxis()->SetTitle("TIP (cm)");
   h_ele_vertexTIP->GetYaxis()->SetTitle("Events");
  
   //==================================================
   // # rec electrons
   //==================================================
  
   histNum_ = new TH1F("h_recEleNum", "# rec electrons", 20, 0., 20.);
  
   histNum_->GetXaxis()->SetTitle("N_{ele}");
   histNum_->GetYaxis()->SetTitle("Events");
  
   //==================================================
   // SuperClusters
   //==================================================
  
   histSclEn_ = new TH1F("h_scl_energy", "ele supercluster energy", nbinp, 0., pmax);
   histSclEt_ = new TH1F("h_scl_et", "ele supercluster transverse energy", nbinpt, 0., ptmax);
   histSclEta_ = new TH1F("h_scl_eta", "ele supercluster eta", nbineta, etamin, etamax);
   histSclPhi_ = new TH1F("h_scl_phi", "ele supercluster phi", nbinphi, phimin, phimax);
   histSclSigEtaEta_ = new TH1F("h_scl_sigetaeta", "ele supercluster sigma eta eta", 100, 0., 0.05);
  
   //==================================================
   // electron track
   //==================================================
  
   h_ele_ambiguousTracks = new TH1F("h_ele_ambiguousTracks", "ele # ambiguous tracks", 5, 0., 5.);
   h_ele_ambiguousTracksVsEta =
       new TH2F("h_ele_ambiguousTracksVsEta", "ele # ambiguous tracks  vs eta", nbineta2D, etamin, etamax, 5, 0., 5.);
   h_ele_ambiguousTracksVsPhi =
       new TH2F("h_ele_ambiguousTracksVsPhi", "ele # ambiguous tracks  vs phi", nbinphi2D, phimin, phimax, 5, 0., 5.);
   h_ele_ambiguousTracksVsPt =
       new TH2F("h_ele_ambiguousTracksVsPt", "ele # ambiguous tracks vs pt", nbinpt2D, 0., ptmax, 5, 0., 5.);
   h_ele_foundHits = new TH1F("h_ele_foundHits", "ele track # found hits", nbinfhits, 0., fhitsmax);
   h_ele_foundHitsVsEta = new TH2F(
       "h_ele_foundHitsVsEta", "ele track # found hits vs eta", nbineta2D, etamin, etamax, nbinfhits, 0., fhitsmax);
   h_ele_foundHitsVsPhi = new TH2F(
       "h_ele_foundHitsVsPhi", "ele track # found hits vs phi", nbinphi2D, phimin, phimax, nbinfhits, 0., fhitsmax);
   h_ele_foundHitsVsPt =
       new TH2F("h_ele_foundHitsVsPt", "ele track # found hits vs pt", nbinpt2D, 0., ptmax, nbinfhits, 0., fhitsmax);
   h_ele_lostHits = new TH1F("h_ele_lostHits", "ele track # lost hits", 5, 0., 5.);
   h_ele_lostHitsVsEta = new TH2F(
       "h_ele_lostHitsVsEta", "ele track # lost hits vs eta", nbineta2D, etamin, etamax, nbinlhits, 0., lhitsmax);
   h_ele_lostHitsVsPhi = new TH2F(
       "h_ele_lostHitsVsPhi", "ele track # lost hits vs eta", nbinphi2D, phimin, phimax, nbinlhits, 0., lhitsmax);
   h_ele_lostHitsVsPt =
       new TH2F("h_ele_lostHitsVsPt", "ele track # lost hits vs eta", nbinpt2D, 0., ptmax, nbinlhits, 0., lhitsmax);
   h_ele_chi2 = new TH1F("h_ele_chi2", "ele track #chi^{2}", 100, 0., 15.);
   h_ele_chi2VsEta = new TH2F("h_ele_chi2VsEta", "ele track #chi^{2} vs eta", nbineta2D, etamin, etamax, 50, 0., 15.);
   h_ele_chi2VsPhi = new TH2F("h_ele_chi2VsPhi", "ele track #chi^{2} vs phi", nbinphi2D, phimin, phimax, 50, 0., 15.);
   h_ele_chi2VsPt = new TH2F("h_ele_chi2VsPt", "ele track #chi^{2} vs pt", nbinpt2D, 0., ptmax, 50, 0., 15.);
  
   h_ele_foundHits->GetXaxis()->SetTitle("N_{hits}");
   h_ele_foundHits->GetYaxis()->SetTitle("Events");
   h_ele_lostHits->GetXaxis()->SetTitle("N_{lost hits}");
   h_ele_lostHits->GetYaxis()->SetTitle("Events");
   h_ele_chi2->GetXaxis()->SetTitle("#Chi^{2}");
   h_ele_chi2->GetYaxis()->SetTitle("Events");
  
   //==================================================
   // electron matching and ID
   //==================================================
  
   h_ele_EoP = new TH1F("h_ele_EoP", "ele E/P_{vertex}", nbineop, 0., eopmax);
   //  h_ele_EoPout         = new TH1F( "h_ele_EoPout",         "ele E/P_{out}",           nbineop,0.,eopmax);
   h_ele_EeleOPout = new TH1F("h_ele_EeleOPout", "ele E_{ele}/P_{out}", nbineop, 0., eopmax);
   h_ele_dEtaSc_propVtx = new TH1F(
       "h_ele_dEtaSc_propVtx", "ele #eta_{sc} - #eta_{tr}, prop from vertex", nbindetamatch, detamatchmin, detamatchmax);
   h_ele_dPhiSc_propVtx = new TH1F(
       "h_ele_dPhiSc_propVtx", "ele #phi_{sc} - #phi_{tr}, prop from vertex", nbindphimatch, dphimatchmin, dphimatchmax);
   h_ele_dEtaCl_propOut = new TH1F("h_ele_dEtaCl_propOut",
                                   "ele #eta_{cl} - #eta_{tr}, prop from outermost",
                                   nbindetamatch,
                                   detamatchmin,
                                   detamatchmax);
   h_ele_dPhiCl_propOut = new TH1F("h_ele_dPhiCl_propOut",
                                   "ele #phi_{cl} - #phi_{tr}, prop from outermost",
                                   nbindphimatch,
                                   dphimatchmin,
                                   dphimatchmax);
   h_ele_dEtaEleCl_propOut = new TH1F("h_ele_dEtaEleCl_propOut",
                                      "ele #eta_{EleCl} - #eta_{tr}, prop from outermost",
                                      nbindetamatch,
                                      detamatchmin,
                                      detamatchmax);
   h_ele_dPhiEleCl_propOut = new TH1F("h_ele_dPhiEleCl_propOut",
                                      "ele #phi_{EleCl} - #phi_{tr}, prop from outermost",
                                      nbindphimatch,
                                      dphimatchmin,
                                      dphimatchmax);
   h_ele_HoE = new TH1F("h_ele_HoE", "ele hadronic energy / em energy", nbinhoe, hoemin, hoemax);
   h_ele_outerP = new TH1F("h_ele_outerP", "ele track outer p, mean", nbinp, 0., pmax);
   h_ele_outerP_mode = new TH1F("h_ele_outerP_mode", "ele track outer p, mode", nbinp, 0., pmax);
   h_ele_outerPt = new TH1F("h_ele_outerPt", "ele track outer p_{T}, mean", nbinpt, 0., ptmax);
   h_ele_outerPt_mode = new TH1F("h_ele_outerPt_mode", "ele track outer p_{T}, mode", nbinpt, 0., ptmax);
  
   h_ele_PinMnPout = new TH1F("h_ele_PinMnPout", "ele track inner p - outer p, mean", nbinp, 0., 200.);
   h_ele_PinMnPout_mode = new TH1F("h_ele_PinMnPout_mode", "ele track inner p - outer p, mode", nbinp, 0., 100.);
  
   h_ele_mva = new TH1F("h_ele_mva", "ele identification mva", 100, -1., 1.);
   h_ele_provenance = new TH1F("h_ele_provenance", "ele provenance", 5, -2., 3.);
  
   h_ele_PinMnPout->GetXaxis()->SetTitle("P_{vertex} - P_{out} (GeV/c)");
   h_ele_PinMnPout->GetYaxis()->SetTitle("Events");
   h_ele_PinMnPout_mode->GetXaxis()->SetTitle("P_{vertex} - P_{out}, mode (GeV/c)");
   h_ele_PinMnPout_mode->GetYaxis()->SetTitle("Events");
  
   h_ele_outerP->GetXaxis()->SetTitle("P_{out} (GeV/c)");
   h_ele_outerP->GetYaxis()->SetTitle("Events");
   h_ele_outerP_mode->GetXaxis()->SetTitle("P_{out} (GeV/c)");
   h_ele_outerP_mode->GetYaxis()->SetTitle("Events");
  
   h_ele_outerPt->GetXaxis()->SetTitle("P_{T out} (GeV/c)");
   h_ele_outerPt->GetYaxis()->SetTitle("Events");
   h_ele_outerPt_mode->GetXaxis()->SetTitle("P_{T out} (GeV/c)");
   h_ele_outerPt_mode->GetYaxis()->SetTitle("Events");
  
   h_ele_EoP->GetXaxis()->SetTitle("E/P_{vertex}");
   h_ele_EoP->GetYaxis()->SetTitle("Events");
  
   //  h_ele_EoPout->GetXaxis()-> SetTitle("E_{seed}/P_{out}");
   //  h_ele_EoPout->GetYaxis()-> SetTitle("Events");
   h_ele_EeleOPout->GetXaxis()->SetTitle("E_{ele}/P_{out}");
   h_ele_EeleOPout->GetYaxis()->SetTitle("Events");
  
   h_ele_dEtaSc_propVtx->GetXaxis()->SetTitle("#eta_{sc} - #eta_{tr}");
   h_ele_dEtaSc_propVtx->GetYaxis()->SetTitle("Events");
   h_ele_dEtaCl_propOut->GetXaxis()->SetTitle("#eta_{seedcl} - #eta_{tr}");
   h_ele_dEtaCl_propOut->GetYaxis()->SetTitle("Events");
   h_ele_dEtaEleCl_propOut->GetXaxis()->SetTitle("#eta_{elecl} - #eta_{tr}");
   h_ele_dEtaEleCl_propOut->GetYaxis()->SetTitle("Events");
   h_ele_dPhiSc_propVtx->GetXaxis()->SetTitle("#phi_{sc} - #phi_{tr} (rad)");
   h_ele_dPhiSc_propVtx->GetYaxis()->SetTitle("Events");
   h_ele_dPhiCl_propOut->GetXaxis()->SetTitle("#phi_{seedcl} - #phi_{tr} (rad)");
   h_ele_dPhiCl_propOut->GetYaxis()->SetTitle("Events");
   h_ele_dPhiEleCl_propOut->GetXaxis()->SetTitle("#phi_{elecl} - #phi_{tr} (rad)");
   h_ele_dPhiEleCl_propOut->GetYaxis()->SetTitle("Events");
   h_ele_HoE->GetXaxis()->SetTitle("H/E");
   h_ele_HoE->GetYaxis()->SetTitle("Events");
  
   //==================================================
   // isolation
   //==================================================
  
   h_ele_tkSumPt_dr03 = new TH1F("h_ele_tkSumPt_dr03", "tk isolation sum, dR=0.3", 100, 0.0, 20.);
   h_ele_ecalRecHitSumEt_dr03 = new TH1F("h_ele_ecalRecHitSumEt_dr03", "ecal isolation sum, dR=0.3", 100, 0.0, 20.);
   h_ele_hcalDepth1TowerSumEt_dr03 =
       new TH1F("h_ele_hcalDepth1TowerSumEt_dr03", "hcal depth1 isolation sum, dR=0.3", 100, 0.0, 20.);
   h_ele_hcalDepth2TowerSumEt_dr03 =
       new TH1F("h_ele_hcalDepth2TowerSumEt_dr03", "hcal depth2 isolation sum, dR=0.3", 100, 0.0, 20.);
   h_ele_tkSumPt_dr04 = new TH1F("h_ele_tkSumPt_dr04", "hcal isolation sum", 100, 0.0, 20.);
   h_ele_ecalRecHitSumEt_dr04 = new TH1F("h_ele_ecalRecHitSumEt_dr04", "ecal isolation sum, dR=0.4", 100, 0.0, 20.);
   h_ele_hcalDepth1TowerSumEt_dr04 =
       new TH1F("h_ele_hcalDepth1TowerSumEt_dr04", "hcal depth1 isolation sum, dR=0.4", 100, 0.0, 20.);
   h_ele_hcalDepth2TowerSumEt_dr04 =
       new TH1F("h_ele_hcalDepth2TowerSumEt_dr04", "hcal depth2 isolation sum, dR=0.4", 100, 0.0, 20.);
  
   //==================================================
   // T&P
   //==================================================
   h_ele_mee_os = new TH1F("h_ele_mee_os", "ele pairs invariant mass, opposite sign", nbinmee, meemin, meemax);
  
   //==================================================
   // OBSOLETE
   //==================================================
  
   //  h_ele_PtoPtmatchingObject_matched        = new TH1F( "h_ele_PtoPtmatchingObject_matched",        "ele trans momentum / matching SC trans energy", nbinpoptrue,poptruemin,poptruemax);
   //  h_ele_PtoPtmatchingObject_barrel_matched         = new TH1F( "h_ele_PtoPmatchingObject_barrel_matched",        "ele trans momentum / matching SC trans energy, barrel",nbinpoptrue,poptruemin,poptruemax);
   //  h_ele_PtoPtmatchingObject_endcaps_matched        = new TH1F( "h_ele_PtoPmatchingObject_endcaps_matched",        "ele trans momentum / matching SC trans energy, endcaps",nbinpoptrue,poptruemin,poptruemax);
   //  h_ele_PoPmatchingObject_matched        = new TH1F( "h_ele_PoPmatchingObject_matched",        "ele momentum / matching SC energy", nbinpoptrue,poptruemin,poptruemax);
   //  h_ele_PoPmatchingObject_barrel_matched         = new TH1F( "h_ele_PoPmatchingObject_barrel_matched",        "ele momentum / matching SC energy, barrel",nbinpoptrue,poptruemin,poptruemax);
   //  h_ele_PoPmatchingObject_endcaps_matched        = new TH1F( "h_ele_PoPmatchingObject_endcaps_matched",        "ele momentum / matching SC energy, endcaps",nbinpoptrue,poptruemin,poptruemax);
   //  // h_ele_PtoPtmatchingObject_matched        = new TH1F( "h_ele_PtoPtmatchingObject_matched",        "ele trans momentum / matching SC trans energy", nbinpoptrue,poptruemin,poptruemax);
   //  h_ele_EtaMnEtamatchingObject_matched   = new TH1F( "h_ele_EtaMnEtamatchingObject_matched",   "ele momentum eta - matching SC eta",nbindeta,detamin,detamax);
   //  h_ele_PhiMnPhimatchingObject_matched   = new TH1F( "h_ele_PhiMnPhimatchingObject_matched",   "ele momentum phi - matching SC phi",nbindphi,dphimin,dphimax);
   //  h_ele_PhiMnPhimatchingObject2_matched   = new TH1F( "h_ele_PhiMnPhimatchingObject2_matched",   "ele momentum phi - matching SC phi",nbindphimatch2D,dphimatchmin,dphimatchmax);
  
   //  h_ele_PoPmatchingObject_matched->GetXaxis()-> SetTitle("P/E_{SC}");
   //  h_ele_PoPmatchingObject_matched->GetYaxis()-> SetTitle("Events");
   //  h_ele_PoPmatchingObject_barrel_matched->GetXaxis()-> SetTitle("P/E_{SC}");
   //  h_ele_PoPmatchingObject_barrel_matched->GetYaxis()-> SetTitle("Events");
   //  h_ele_PoPmatchingObject_endcaps_matched->GetXaxis()-> SetTitle("P/E_{SC}");
   //  h_ele_PoPmatchingObject_endcaps_matched->GetYaxis()-> SetTitle("Events");
   //  h_ele_PtoPtmatchingObject_matched->GetXaxis()-> SetTitle("P_{T}/E_{T}^{SC}");
   //  h_ele_PtoPtmatchingObject_matched->GetYaxis()-> SetTitle("Events");
   //  h_ele_PtoPtmatchingObject_barrel_matched->GetXaxis()-> SetTitle("P_{T}/E_{T}^{SC}");
   //  h_ele_PtoPtmatchingObject_barrel_matched->GetYaxis()-> SetTitle("Events");
   //  h_ele_PtoPtmatchingObject_endcaps_matched->GetXaxis()-> SetTitle("P_{T}/E_{T}^{SC}");
   //  h_ele_PtoPtmatchingObject_endcaps_matched->GetYaxis()-> SetTitle("Events");
   //
   //  h_ele_EtaMnEtamatchingObject_matched->GetXaxis()-> SetTitle("#eta_{rec} - #eta_{SC}");
   //  h_ele_EtaMnEtamatchingObject_matched->GetYaxis()-> SetTitle("Events");
   //  h_ele_PhiMnPhimatchingObject_matched->GetXaxis()-> SetTitle("#phi_{rec} - #phi_{SC} (rad)");
   //  h_ele_PhiMnPhimatchingObject_matched->GetYaxis()-> SetTitle("Events");
   //  h_ele_EtaMnEtamatchingObject_matched->GetXaxis()-> SetTitle("#eta_{rec} - #eta_{SC}");
   //  h_ele_EtaMnEtamatchingObject_matched->GetYaxis()-> SetTitle("Events");
   //  h_ele_PhiMnPhimatchingObject_matched->GetXaxis()-> SetTitle("#phi_{rec} - #phi_{SC} (rad)");
   //  h_ele_PhiMnPhimatchingObject_matched->GetYaxis()-> SetTitle("Events");
 }

References gather_cfg::cout, detamatchmax, detamatchmin, dphimatchmax, dphimatchmin, eopmax, etamax, etamin, fhitsmax, h_ele_ambiguousTracks, h_ele_ambiguousTracksVsEta, h_ele_ambiguousTracksVsPhi, h_ele_ambiguousTracksVsPt, h_ele_charge, h_ele_chi2, h_ele_chi2VsEta, h_ele_chi2VsPhi, h_ele_chi2VsPt, h_ele_dEtaCl_propOut, h_ele_dEtaEleCl_propOut, h_ele_dEtaSc_propVtx, h_ele_dPhiCl_propOut, h_ele_dPhiEleCl_propOut, h_ele_dPhiSc_propVtx, h_ele_ecalRecHitSumEt_dr03, h_ele_ecalRecHitSumEt_dr04, h_ele_EeleOPout, h_ele_EoP, h_ele_Et, h_ele_foundHits, h_ele_foundHitsVsEta, h_ele_foundHitsVsPhi, h_ele_foundHitsVsPt, h_ele_hcalDepth1TowerSumEt_dr03, h_ele_hcalDepth1TowerSumEt_dr04, h_ele_hcalDepth2TowerSumEt_dr03, h_ele_hcalDepth2TowerSumEt_dr04, h_ele_HoE, h_ele_lostHits, h_ele_lostHitsVsEta, h_ele_lostHitsVsPhi, h_ele_lostHitsVsPt, h_ele_matchingObjectAbsEta_matched, h_ele_matchingObjectEta_matched, h_ele_matchingObjectPhi_matched, h_ele_matchingObjectPt_matched, h_ele_matchingObjectZ_matched, h_ele_mee_os, h_ele_mva, h_ele_outerP, h_ele_outerP_mode, h_ele_outerPt, h_ele_outerPt_mode, h_ele_PinMnPout, h_ele_PinMnPout_mode, h_ele_provenance, h_ele_tkSumPt_dr03, h_ele_tkSumPt_dr04, h_ele_vertexEta, h_ele_vertexPhi, h_ele_vertexPt, h_ele_vertexTIP, h_ele_vertexX, h_ele_vertexY, h_ele_vertexZ, h_matchingObjectAbsEta, h_matchingObjectEta, h_matchingObjectNum, h_matchingObjectP, h_matchingObjectPhi, h_matchingObjectPt, h_matchingObjectZ, histfile_, histNum_, histSclEn_, histSclEt_, histSclEta_, histSclPhi_, histSclSigEtaEta_, hoemax, hoemin, edm::InputTag::label(), lhitsmax, matchingObjectCollection_, meemax, meemin, nAfterTrigger_, nbindetamatch, nbindphimatch, nbineop, nbineta, nbineta2D, nbinfhits, nbinhoe, nbinlhits, nbinmee, nbinp, nbinphi, nbinphi2D, nbinpt, nbinpt2D, nbinpteff, nbinxyz, nEvents_, phimax, phimin, pmax, ptmax, and AlCaHLTBitMon_QueryRunRegistry::string.

◆ endJob()

void DQMAnalyzer::endJob ( void )

overridevirtual

Reimplemented from edm::one::EDAnalyzerBase.

Definition at line 476 of file DQMAnalyzer.cc.

                          {
   histfile_->cd();
   std::cout << "efficiency calculation " << std::endl;
  
   // efficiency vs pt
   TH1F *h_ele_ptEff = (TH1F *)h_ele_matchingObjectPt_matched->Clone("h_ele_ptEff");
   h_ele_ptEff->Reset();
   h_ele_ptEff->Divide(h_ele_matchingObjectPt_matched, h_matchingObjectPt, 1, 1, "b");
   h_ele_ptEff->GetXaxis()->SetTitle("p_{T} (GeV/c)");
   h_ele_ptEff->GetYaxis()->SetTitle("Efficiency");
  
   // efficiency vs eta
   TH1F *h_ele_etaEff = (TH1F *)h_ele_matchingObjectEta_matched->Clone("h_ele_etaEff");
   h_ele_etaEff->Reset();
   h_ele_etaEff->Divide(h_ele_matchingObjectEta_matched, h_matchingObjectEta, 1, 1, "b");
   h_ele_etaEff->Print();
   h_ele_etaEff->GetXaxis()->SetTitle("#eta");
   h_ele_etaEff->GetYaxis()->SetTitle("Efficiency");
  
   // efficiency vs |eta|
   TH1F *h_ele_absetaEff = (TH1F *)h_ele_matchingObjectAbsEta_matched->Clone("h_ele_absetaEff");
   h_ele_absetaEff->Reset();
   h_ele_absetaEff->Divide(h_ele_matchingObjectAbsEta_matched, h_matchingObjectAbsEta, 1, 1, "b");
   h_ele_absetaEff->GetXaxis()->SetTitle("|#eta|");
   h_ele_absetaEff->GetYaxis()->SetTitle("Efficiency");
  
   // efficiency vs phi
   TH1F *h_ele_phiEff = (TH1F *)h_ele_matchingObjectPhi_matched->Clone("h_ele_phiEff");
   h_ele_phiEff->Reset();
   h_ele_phiEff->Divide(h_ele_matchingObjectPhi_matched, h_matchingObjectPhi, 1, 1, "b");
   h_ele_phiEff->GetXaxis()->SetTitle("#phi (rad)");
   h_ele_phiEff->GetYaxis()->SetTitle("Efficiency");
  
   // efficiency vs z
   TH1F *h_ele_zEff = (TH1F *)h_ele_matchingObjectZ_matched->Clone("h_ele_zEff");
   h_ele_zEff->Reset();
   h_ele_zEff->Divide(h_ele_matchingObjectZ_matched, h_matchingObjectZ, 1, 1, "b");
   h_ele_zEff->Print();
   h_ele_zEff->GetXaxis()->SetTitle("z (cm)");
   h_ele_zEff->GetYaxis()->SetTitle("Efficiency");
  
   // classes
  
   // fbrem
  
   //profiles from 2D histos
  
   // mc truth
  
   h_matchingObjectNum->Write();
  
   // rec event
  
   histNum_->Write();
  
   // mc
   h_matchingObjectEta->Write();
   h_matchingObjectAbsEta->Write();
   h_matchingObjectP->Write();
   h_matchingObjectPt->Write();
   h_matchingObjectPhi->Write();
   h_matchingObjectZ->Write();
  
   // matched electrons
   h_ele_charge->Write();
  
   //h_ele_vertexP->Write();
   h_ele_vertexPt->Write();
   h_ele_vertexEta->Write();
   h_ele_vertexPhi->Write();
   h_ele_vertexX->Write();
   h_ele_vertexY->Write();
   h_ele_vertexZ->Write();
  
   h_ele_vertexTIP->Write();
  
   h_ele_Et->Write();
  
   h_ele_matchingObjectPt_matched->Write();
   h_ele_matchingObjectAbsEta_matched->Write();
   h_ele_matchingObjectEta_matched->Write();
   h_ele_matchingObjectPhi_matched->Write();
   h_ele_matchingObjectZ_matched->Write();
  
   //  h_ele_PoPmatchingObject_matched->Write();
   //  h_ele_PtoPtmatchingObject_matched->Write();
   //  h_ele_PoPmatchingObject_barrel_matched ->Write();
   //  h_ele_PoPmatchingObject_endcaps_matched->Write();
   //  h_ele_PtoPtmatchingObject_barrel_matched ->Write();
   //  h_ele_PtoPtmatchingObject_endcaps_matched->Write();
   //  h_ele_EtaMnEtamatchingObject_matched->Write();
   //  h_ele_PhiMnPhimatchingObject_matched ->Write();
   //  h_ele_PhiMnPhimatchingObject2_matched ->Write();
  
   // matched electron, superclusters
   histSclEn_->Write();
   histSclEt_->Write();
   histSclEta_->Write();
   histSclPhi_->Write();
   histSclSigEtaEta_->Write();
  
   // matched electron, gsf tracks
   h_ele_ambiguousTracks->Write();
   h_ele_ambiguousTracksVsEta->Write();
   h_ele_ambiguousTracksVsPhi->Write();
   h_ele_ambiguousTracksVsPt->Write();
  
   h_ele_foundHits->Write();
   h_ele_foundHitsVsEta->Write();
   h_ele_foundHitsVsPhi->Write();
   h_ele_foundHitsVsPt->Write();
  
   h_ele_lostHits->Write();
   h_ele_lostHitsVsEta->Write();
   h_ele_lostHitsVsPhi->Write();
   h_ele_lostHitsVsPt->Write();
  
   h_ele_chi2->Write();
   h_ele_chi2VsEta->Write();
   h_ele_chi2VsPhi->Write();
   h_ele_chi2VsPt->Write();
  
   h_ele_PinMnPout->Write();
   h_ele_PinMnPout_mode->Write();
   h_ele_outerP->Write();
   h_ele_outerP_mode->Write();
   h_ele_outerPt->Write();
   h_ele_outerPt_mode->Write();
  
   // matched electrons, matching
   h_ele_EoP->Write();
   //  h_ele_EoPout->Write();
   h_ele_EeleOPout->Write();
   h_ele_dEtaSc_propVtx->Write();
   h_ele_dPhiSc_propVtx->Write();
   h_ele_dEtaCl_propOut->Write();
   h_ele_dPhiCl_propOut->Write();
   h_ele_dEtaEleCl_propOut->Write();
   h_ele_dPhiEleCl_propOut->Write();
   h_ele_HoE->Write();
  
   h_ele_mee_os->GetXaxis()->SetTitle("m_{e^{+}e^{-}} (GeV/c^{2})");
   h_ele_mee_os->GetYaxis()->SetTitle("Events");
   h_ele_mee_os->Write();
  
   // classes
  
   // fbrem
  
   // Eff
   h_ele_etaEff->Write();
   h_ele_zEff->Write();
   h_ele_phiEff->Write();
   h_ele_absetaEff->Write();
   h_ele_ptEff->Write();
  
   // e/g et pflow electrons
   h_ele_mva->Write();
   h_ele_provenance->Write();
  
   // isolation
   h_ele_tkSumPt_dr03->GetXaxis()->SetTitle("TkIsoSum, cone 0.3 (GeV/c)");
   h_ele_tkSumPt_dr03->GetYaxis()->SetTitle("Events");
   h_ele_ecalRecHitSumEt_dr03->GetXaxis()->SetTitle("EcalIsoSum, cone 0.3 (GeV)");
   h_ele_ecalRecHitSumEt_dr03->GetYaxis()->SetTitle("Events");
   h_ele_hcalDepth1TowerSumEt_dr03->GetXaxis()->SetTitle("Hcal1IsoSum, cone 0.3 (GeV)");
   h_ele_hcalDepth1TowerSumEt_dr03->GetYaxis()->SetTitle("Events");
   h_ele_hcalDepth2TowerSumEt_dr03->GetXaxis()->SetTitle("Hcal2IsoSum, cone 0.3 (GeV)");
   h_ele_hcalDepth2TowerSumEt_dr03->GetYaxis()->SetTitle("Events");
   h_ele_tkSumPt_dr04->GetXaxis()->SetTitle("TkIsoSum, cone 0.4 (GeV/c)");
   h_ele_tkSumPt_dr04->GetYaxis()->SetTitle("Events");
   h_ele_ecalRecHitSumEt_dr04->GetXaxis()->SetTitle("EcalIsoSum, cone 0.4 (GeV)");
   h_ele_ecalRecHitSumEt_dr04->GetYaxis()->SetTitle("Events");
   h_ele_hcalDepth1TowerSumEt_dr04->GetXaxis()->SetTitle("Hcal1IsoSum, cone 0.4 (GeV)");
   h_ele_hcalDepth1TowerSumEt_dr04->GetYaxis()->SetTitle("Events");
   h_ele_hcalDepth2TowerSumEt_dr04->GetXaxis()->SetTitle("Hcal2IsoSum, cone 0.4 (GeV)");
   h_ele_hcalDepth2TowerSumEt_dr04->GetYaxis()->SetTitle("Events");
  
   h_ele_tkSumPt_dr03->Write();
   h_ele_ecalRecHitSumEt_dr03->Write();
   h_ele_hcalDepth1TowerSumEt_dr03->Write();
   h_ele_hcalDepth2TowerSumEt_dr03->Write();
   h_ele_tkSumPt_dr04->Write();
   h_ele_ecalRecHitSumEt_dr04->Write();
   h_ele_hcalDepth1TowerSumEt_dr04->Write();
   h_ele_hcalDepth2TowerSumEt_dr04->Write();
 }

References gather_cfg::cout, h_ele_ambiguousTracks, h_ele_ambiguousTracksVsEta, h_ele_ambiguousTracksVsPhi, h_ele_ambiguousTracksVsPt, h_ele_charge, h_ele_chi2, h_ele_chi2VsEta, h_ele_chi2VsPhi, h_ele_chi2VsPt, h_ele_dEtaCl_propOut, h_ele_dEtaEleCl_propOut, h_ele_dEtaSc_propVtx, h_ele_dPhiCl_propOut, h_ele_dPhiEleCl_propOut, h_ele_dPhiSc_propVtx, h_ele_ecalRecHitSumEt_dr03, h_ele_ecalRecHitSumEt_dr04, h_ele_EeleOPout, h_ele_EoP, h_ele_Et, h_ele_foundHits, h_ele_foundHitsVsEta, h_ele_foundHitsVsPhi, h_ele_foundHitsVsPt, h_ele_hcalDepth1TowerSumEt_dr03, h_ele_hcalDepth1TowerSumEt_dr04, h_ele_hcalDepth2TowerSumEt_dr03, h_ele_hcalDepth2TowerSumEt_dr04, h_ele_HoE, h_ele_lostHits, h_ele_lostHitsVsEta, h_ele_lostHitsVsPhi, h_ele_lostHitsVsPt, h_ele_matchingObjectAbsEta_matched, h_ele_matchingObjectEta_matched, h_ele_matchingObjectPhi_matched, h_ele_matchingObjectPt_matched, h_ele_matchingObjectZ_matched, h_ele_mee_os, h_ele_mva, h_ele_outerP, h_ele_outerP_mode, h_ele_outerPt, h_ele_outerPt_mode, h_ele_PinMnPout, h_ele_PinMnPout_mode, h_ele_provenance, h_ele_tkSumPt_dr03, h_ele_tkSumPt_dr04, h_ele_vertexEta, h_ele_vertexPhi, h_ele_vertexPt, h_ele_vertexTIP, h_ele_vertexX, h_ele_vertexY, h_ele_vertexZ, h_matchingObjectAbsEta, h_matchingObjectEta, h_matchingObjectNum, h_matchingObjectP, h_matchingObjectPhi, h_matchingObjectPt, h_matchingObjectZ, histfile_, histNum_, histSclEn_, histSclEt_, histSclEta_, histSclPhi_, and histSclSigEtaEta_.

◆ etCut()

bool DQMAnalyzer::etCut ( const reco::GsfElectronCollection::const_iterator & gsfIter )

private

Definition at line 1033 of file DQMAnalyzer.cc.

                                                                               {
   if (gsfIter->superCluster()->energy() / cosh(gsfIter->superCluster()->eta()) < minEt_)
     return true;
  
   return false;
 }

References minEt_.

Referenced by selected().

◆ generalCut()

bool DQMAnalyzer::generalCut ( const reco::GsfElectronCollection::const_iterator & gsfIter )

private

Definition at line 1012 of file DQMAnalyzer.cc.

                                                                                    {
   if (fabs(gsfIter->eta()) > maxAbsEta_)
     return true;
   if (gsfIter->pt() < minPt_)
     return true;
  
   if (gsfIter->isEB() && isEE_)
     return true;
   if (gsfIter->isEE() && isEB_)
     return true;
   if (gsfIter->isEBEEGap() && isNotEBEEGap_)
     return true;
  
   if (gsfIter->ecalDrivenSeed() && isTrackerDriven_)
     return true;
   if (gsfIter->trackerDrivenSeed() && isEcalDriven_)
     return true;
  
   return false;
 }

References isEB_, isEcalDriven_, isEE_, isNotEBEEGap_, isTrackerDriven_, maxAbsEta_, and minPt_.

Referenced by selected().

◆ idCut()

bool DQMAnalyzer::idCut ( const reco::GsfElectronCollection::const_iterator & gsfIter )

private

Definition at line 1062 of file DQMAnalyzer.cc.

                                                                               {
   if (gsfIter->isEB() && gsfIter->eSuperClusterOverP() < eOverPMinBarrel_)
     return true;
   if (gsfIter->isEB() && gsfIter->eSuperClusterOverP() > eOverPMaxBarrel_)
     return true;
   if (gsfIter->isEE() && gsfIter->eSuperClusterOverP() < eOverPMinEndcaps_)
     return true;
   if (gsfIter->isEE() && gsfIter->eSuperClusterOverP() > eOverPMaxEndcaps_)
     return true;
   if (gsfIter->isEB() && fabs(gsfIter->deltaEtaSuperClusterTrackAtVtx()) < dEtaMinBarrel_)
     return true;
   if (gsfIter->isEB() && fabs(gsfIter->deltaEtaSuperClusterTrackAtVtx()) > dEtaMaxBarrel_)
     return true;
   if (gsfIter->isEE() && fabs(gsfIter->deltaEtaSuperClusterTrackAtVtx()) < dEtaMinEndcaps_)
     return true;
   if (gsfIter->isEE() && fabs(gsfIter->deltaEtaSuperClusterTrackAtVtx()) > dEtaMaxEndcaps_)
     return true;
   if (gsfIter->isEB() && fabs(gsfIter->deltaPhiSuperClusterTrackAtVtx()) < dPhiMinBarrel_)
     return true;
   if (gsfIter->isEB() && fabs(gsfIter->deltaPhiSuperClusterTrackAtVtx()) > dPhiMaxBarrel_)
     return true;
   if (gsfIter->isEE() && fabs(gsfIter->deltaPhiSuperClusterTrackAtVtx()) < dPhiMinEndcaps_)
     return true;
   if (gsfIter->isEE() && fabs(gsfIter->deltaPhiSuperClusterTrackAtVtx()) > dPhiMaxEndcaps_)
     return true;
   if (gsfIter->isEB() && gsfIter->scSigmaIEtaIEta() < sigIetaIetaMinBarrel_)
     return true;
   if (gsfIter->isEB() && gsfIter->scSigmaIEtaIEta() > sigIetaIetaMaxBarrel_)
     return true;
   if (gsfIter->isEE() && gsfIter->scSigmaIEtaIEta() < sigIetaIetaMinEndcaps_)
     return true;
   if (gsfIter->isEE() && gsfIter->scSigmaIEtaIEta() > sigIetaIetaMaxEndcaps_)
     return true;
   if (gsfIter->isEB() && gsfIter->hadronicOverEm() > hadronicOverEmMaxBarrel_)
     return true;
   if (gsfIter->isEE() && gsfIter->hadronicOverEm() > hadronicOverEmMaxEndcaps_)
     return true;
  
   return false;
 }

References dEtaMaxBarrel_, dEtaMaxEndcaps_, dEtaMinBarrel_, dEtaMinEndcaps_, dPhiMaxBarrel_, dPhiMaxEndcaps_, dPhiMinBarrel_, dPhiMinEndcaps_, eOverPMaxBarrel_, eOverPMaxEndcaps_, eOverPMinBarrel_, eOverPMinEndcaps_, hadronicOverEmMaxBarrel_, hadronicOverEmMaxEndcaps_, sigIetaIetaMaxBarrel_, sigIetaIetaMaxEndcaps_, sigIetaIetaMinBarrel_, and sigIetaIetaMinEndcaps_.

Referenced by selected().

◆ isolationCut()

bool DQMAnalyzer::isolationCut	(	const reco::GsfElectronCollection::const_iterator &	gsfIter,
		double	vertexTIP
	)

private

Definition at line 1040 of file DQMAnalyzer.cc.

                                                                                                        {
   if (gsfIter->isEB() && vertexTIP > tipMaxBarrel_)
     return true;
   if (gsfIter->isEE() && vertexTIP > tipMaxEndcaps_)
     return true;
  
   if (gsfIter->dr03TkSumPt() > tkIso03Max_)
     return true;
   if (gsfIter->isEB() && gsfIter->dr03HcalDepth1TowerSumEt() > hcalIso03Depth1MaxBarrel_)
     return true;
   if (gsfIter->isEE() && gsfIter->dr03HcalDepth1TowerSumEt() > hcalIso03Depth1MaxEndcaps_)
     return true;
   if (gsfIter->isEE() && gsfIter->dr03HcalDepth2TowerSumEt() > hcalIso03Depth2MaxEndcaps_)
     return true;
   if (gsfIter->isEB() && gsfIter->dr03EcalRecHitSumEt() > ecalIso03MaxBarrel_)
     return true;
   if (gsfIter->isEE() && gsfIter->dr03EcalRecHitSumEt() > ecalIso03MaxEndcaps_)
     return true;
  
   return false;
 }

References ecalIso03MaxBarrel_, ecalIso03MaxEndcaps_, hcalIso03Depth1MaxBarrel_, hcalIso03Depth1MaxEndcaps_, hcalIso03Depth2MaxEndcaps_, tipMaxBarrel_, tipMaxEndcaps_, and tkIso03Max_.

Referenced by selected().

◆ selected()

bool DQMAnalyzer::selected	(	const reco::GsfElectronCollection::const_iterator &	gsfIter,
		double	vertexTIP
	)

private

Definition at line 1000 of file DQMAnalyzer.cc.

                                                                                                    {
   if ((Selection_ > 0) && generalCut(gsfIter))
     return false;
   if ((Selection_ >= 1) && etCut(gsfIter))
     return false;
   if ((Selection_ >= 2) && isolationCut(gsfIter, vertexTIP))
     return false;
   if ((Selection_ >= 3) && idCut(gsfIter))
     return false;
   return true;
 }

References etCut(), generalCut(), idCut(), isolationCut(), and Selection_.

Referenced by analyze().

◆ trigger()

bool DQMAnalyzer::trigger ( const edm::Event & e )

private

Definition at line 934 of file DQMAnalyzer.cc.

                                            {
   // retreive TriggerResults from the event
   edm::Handle<edm::TriggerResults> triggerResults;
   e.getByLabel(triggerResults_, triggerResults);
  
   bool accept = false;
  
   if (triggerResults.isValid()) {
     //std::cout << "TriggerResults found, number of HLT paths: " << triggerResults->size() << std::endl;
  
     // get trigger names
     const edm::TriggerNames &triggerNames = e.triggerNames(*triggerResults);
     if (nEvents_ == 1) {
       for (unsigned int i = 0; i < triggerNames.size(); i++) {
         //        std::cout << "trigger path= " << triggerNames.triggerName(i) << std::endl;
       }
     }
  
     unsigned int n = HLTPathsByName_.size();
     for (unsigned int i = 0; i != n; i++) {
       HLTPathsByIndex_[i] = triggerNames.triggerIndex(HLTPathsByName_[i]);
     }
  
     // empty input vectors (n==0) means any trigger paths
     if (n == 0) {
       n = triggerResults->size();
       HLTPathsByName_.resize(n);
       HLTPathsByIndex_.resize(n);
       for (unsigned int i = 0; i != n; i++) {
         HLTPathsByName_[i] = triggerNames.triggerName(i);
         HLTPathsByIndex_[i] = i;
       }
     }
  
     //    if (nEvents_==1)
     //     {
     //      if (n>0)
     //       {
     //        std::cout << "HLT trigger paths requested: index, name and valididty:" << std::endl;
     //        for (unsigned int i=0; i!=n; i++)
     //         {
     //          bool validity = HLTPathsByIndex_[i]<triggerResults->size();
     //          std::cout
     //            << " " << HLTPathsByIndex_[i]
     //            << " " << HLTPathsByName_[i]
     //            << " " << validity << std::endl;
     //         }
     //       }
     //     }
  
     // count number of requested HLT paths which have fired
     unsigned int fired = 0;
     for (unsigned int i = 0; i != n; i++) {
       if (HLTPathsByIndex_[i] < triggerResults->size()) {
         if (triggerResults->accept(HLTPathsByIndex_[i])) {
           fired++;
           //std::cout << "Fired HLT path= " << HLTPathsByName_[i] << std::endl ;
           accept = true;
         }
       }
     }
   }
  
   return accept;
 }

References accept(), MillePedeFileConverter_cfg::e, HLTPathsByIndex_, HLTPathsByName_, mps_fire::i, dqmiodumpmetadata::n, nEvents_, L1TEGammaOffline_cfi::triggerNames, triggerResults, and triggerResults_.

Referenced by analyze().

Member Data Documentation

◆ beamSpot_

edm::InputTag DQMAnalyzer::beamSpot_

private

Definition at line 54 of file DQMAnalyzer.h.

Referenced by analyze().

◆ deltaR_

double DQMAnalyzer::deltaR_

private

Definition at line 62 of file DQMAnalyzer.h.

Referenced by analyze(), and DQMAnalyzer().

◆ detamatchmax

double DQMAnalyzer::detamatchmax

private

Definition at line 143 of file DQMAnalyzer.h.

Referenced by beginJob(), and DQMAnalyzer().

◆ detamatchmin

double DQMAnalyzer::detamatchmin

private

Definition at line 142 of file DQMAnalyzer.h.

Referenced by beginJob(), and DQMAnalyzer().

◆ detamax

double DQMAnalyzer::detamax

private

Definition at line 136 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer().

◆ dEtaMaxBarrel_

double DQMAnalyzer::dEtaMaxBarrel_

private

Definition at line 87 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer(), and idCut().

◆ dEtaMaxEndcaps_

double DQMAnalyzer::dEtaMaxEndcaps_

private

Definition at line 89 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer(), and idCut().

◆ detamin

double DQMAnalyzer::detamin

private

Definition at line 135 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer().

◆ dEtaMinBarrel_

double DQMAnalyzer::dEtaMinBarrel_

private

Definition at line 86 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer(), and idCut().

◆ dEtaMinEndcaps_

double DQMAnalyzer::dEtaMinEndcaps_

private

Definition at line 88 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer(), and idCut().

◆ dphimatchmax

double DQMAnalyzer::dphimatchmax

private

Definition at line 147 of file DQMAnalyzer.h.

Referenced by beginJob(), and DQMAnalyzer().

◆ dphimatchmin

double DQMAnalyzer::dphimatchmin

private

Definition at line 146 of file DQMAnalyzer.h.

Referenced by beginJob(), and DQMAnalyzer().

◆ dphimax

double DQMAnalyzer::dphimax

private

Definition at line 139 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer().

◆ dPhiMaxBarrel_

double DQMAnalyzer::dPhiMaxBarrel_

private

Definition at line 91 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer(), and idCut().

◆ dPhiMaxEndcaps_

double DQMAnalyzer::dPhiMaxEndcaps_

private

Definition at line 93 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer(), and idCut().

◆ dphimin

double DQMAnalyzer::dphimin

private

Definition at line 138 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer().

◆ dPhiMinBarrel_

double DQMAnalyzer::dPhiMinBarrel_

private

Definition at line 90 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer(), and idCut().

◆ dPhiMinEndcaps_

double DQMAnalyzer::dPhiMinEndcaps_

private

Definition at line 92 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer(), and idCut().

◆ ecalIso03MaxBarrel_

double DQMAnalyzer::ecalIso03MaxBarrel_

private

Definition at line 107 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer(), and isolationCut().

◆ ecalIso03MaxEndcaps_

double DQMAnalyzer::ecalIso03MaxEndcaps_

private

Definition at line 108 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer(), and isolationCut().

◆ electronCollection_

edm::InputTag DQMAnalyzer::electronCollection_

private

Definition at line 52 of file DQMAnalyzer.h.

Referenced by analyze(), and DQMAnalyzer().

◆ eopmax

double DQMAnalyzer::eopmax

private

Definition at line 132 of file DQMAnalyzer.h.

Referenced by beginJob(), and DQMAnalyzer().

◆ eopmaxsht

double DQMAnalyzer::eopmaxsht

private

Definition at line 133 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer().

◆ eOverPMaxBarrel_

double DQMAnalyzer::eOverPMaxBarrel_

private

Definition at line 83 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer(), and idCut().

◆ eOverPMaxEndcaps_

double DQMAnalyzer::eOverPMaxEndcaps_

private

Definition at line 85 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer(), and idCut().

◆ eOverPMinBarrel_

double DQMAnalyzer::eOverPMinBarrel_

private

Definition at line 82 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer(), and idCut().

◆ eOverPMinEndcaps_

double DQMAnalyzer::eOverPMinEndcaps_

private

Definition at line 84 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer(), and idCut().

◆ etamax

double DQMAnalyzer::etamax

private

Definition at line 118 of file DQMAnalyzer.h.

Referenced by beginJob(), and DQMAnalyzer().

◆ etamin

double DQMAnalyzer::etamin

private

Definition at line 117 of file DQMAnalyzer.h.

Referenced by beginJob(), and DQMAnalyzer().

◆ fhitsmax

double DQMAnalyzer::fhitsmax

private

Definition at line 149 of file DQMAnalyzer.h.

Referenced by beginJob(), and DQMAnalyzer().

◆ h_ele_ambiguousTracks

TH1F* DQMAnalyzer::h_ele_ambiguousTracks

private

Definition at line 229 of file DQMAnalyzer.h.

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

◆ h_ele_ambiguousTracksVsEta

TH2F* DQMAnalyzer::h_ele_ambiguousTracksVsEta

private

Definition at line 230 of file DQMAnalyzer.h.

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

◆ h_ele_ambiguousTracksVsPhi

TH2F* DQMAnalyzer::h_ele_ambiguousTracksVsPhi

private

Definition at line 231 of file DQMAnalyzer.h.

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

◆ h_ele_ambiguousTracksVsPt

TH2F* DQMAnalyzer::h_ele_ambiguousTracksVsPt

private

Definition at line 232 of file DQMAnalyzer.h.

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

◆ h_ele_charge

TH1F* DQMAnalyzer::h_ele_charge

private

Definition at line 219 of file DQMAnalyzer.h.

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

◆ h_ele_chi2

TH1F* DQMAnalyzer::h_ele_chi2

private

Definition at line 245 of file DQMAnalyzer.h.

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

◆ h_ele_chi2VsEta

TH2F* DQMAnalyzer::h_ele_chi2VsEta

private

Definition at line 248 of file DQMAnalyzer.h.

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

◆ h_ele_chi2VsPhi

TH2F* DQMAnalyzer::h_ele_chi2VsPhi

private

Definition at line 249 of file DQMAnalyzer.h.

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

◆ h_ele_chi2VsPt

TH2F* DQMAnalyzer::h_ele_chi2VsPt

private

Definition at line 250 of file DQMAnalyzer.h.

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

◆ h_ele_dEtaCl_propOut

TH1F* DQMAnalyzer::h_ele_dEtaCl_propOut

private

Definition at line 257 of file DQMAnalyzer.h.

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

◆ h_ele_dEtaEleCl_propOut

TH1F* DQMAnalyzer::h_ele_dEtaEleCl_propOut

private

Definition at line 259 of file DQMAnalyzer.h.

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

◆ h_ele_dEtaSc_propVtx

TH1F* DQMAnalyzer::h_ele_dEtaSc_propVtx

private

Definition at line 255 of file DQMAnalyzer.h.

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

◆ h_ele_dPhiCl_propOut

TH1F* DQMAnalyzer::h_ele_dPhiCl_propOut

private

Definition at line 258 of file DQMAnalyzer.h.

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

◆ h_ele_dPhiEleCl_propOut

TH1F* DQMAnalyzer::h_ele_dPhiEleCl_propOut

private

Definition at line 260 of file DQMAnalyzer.h.

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

◆ h_ele_dPhiSc_propVtx

TH1F* DQMAnalyzer::h_ele_dPhiSc_propVtx

private

Definition at line 256 of file DQMAnalyzer.h.

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

◆ h_ele_ecalRecHitSumEt_dr03

TH1F* DQMAnalyzer::h_ele_ecalRecHitSumEt_dr03

private

Definition at line 276 of file DQMAnalyzer.h.

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

◆ h_ele_ecalRecHitSumEt_dr04

TH1F* DQMAnalyzer::h_ele_ecalRecHitSumEt_dr04

private

Definition at line 280 of file DQMAnalyzer.h.

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

◆ h_ele_EeleOPout

TH1F* DQMAnalyzer::h_ele_EeleOPout

private

Definition at line 254 of file DQMAnalyzer.h.

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

◆ h_ele_EoP

TH1F* DQMAnalyzer::h_ele_EoP

private

Definition at line 252 of file DQMAnalyzer.h.

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

◆ h_ele_Et

TH1F* DQMAnalyzer::h_ele_Et

private

Definition at line 211 of file DQMAnalyzer.h.

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

◆ h_ele_foundHits

TH1F* DQMAnalyzer::h_ele_foundHits

private

Definition at line 233 of file DQMAnalyzer.h.

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

◆ h_ele_foundHitsVsEta

TH2F* DQMAnalyzer::h_ele_foundHitsVsEta

private

Definition at line 236 of file DQMAnalyzer.h.

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

◆ h_ele_foundHitsVsPhi

TH2F* DQMAnalyzer::h_ele_foundHitsVsPhi

private

Definition at line 237 of file DQMAnalyzer.h.

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

◆ h_ele_foundHitsVsPt

TH2F* DQMAnalyzer::h_ele_foundHitsVsPt

private

Definition at line 238 of file DQMAnalyzer.h.

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

◆ h_ele_hcalDepth1TowerSumEt_dr03

TH1F* DQMAnalyzer::h_ele_hcalDepth1TowerSumEt_dr03

private

Definition at line 277 of file DQMAnalyzer.h.

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

◆ h_ele_hcalDepth1TowerSumEt_dr04

TH1F* DQMAnalyzer::h_ele_hcalDepth1TowerSumEt_dr04

private

Definition at line 281 of file DQMAnalyzer.h.

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

◆ h_ele_hcalDepth2TowerSumEt_dr03

TH1F* DQMAnalyzer::h_ele_hcalDepth2TowerSumEt_dr03

private

Definition at line 278 of file DQMAnalyzer.h.

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

◆ h_ele_hcalDepth2TowerSumEt_dr04

TH1F* DQMAnalyzer::h_ele_hcalDepth2TowerSumEt_dr04

private

Definition at line 282 of file DQMAnalyzer.h.

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

◆ h_ele_HoE

TH1F* DQMAnalyzer::h_ele_HoE

private

Definition at line 263 of file DQMAnalyzer.h.

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

◆ h_ele_lostHits

TH1F* DQMAnalyzer::h_ele_lostHits

private

Definition at line 239 of file DQMAnalyzer.h.

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

◆ h_ele_lostHitsVsEta

TH2F* DQMAnalyzer::h_ele_lostHitsVsEta

private

Definition at line 242 of file DQMAnalyzer.h.

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

◆ h_ele_lostHitsVsPhi

TH2F* DQMAnalyzer::h_ele_lostHitsVsPhi

private

Definition at line 243 of file DQMAnalyzer.h.

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

◆ h_ele_lostHitsVsPt

TH2F* DQMAnalyzer::h_ele_lostHitsVsPt

private

Definition at line 244 of file DQMAnalyzer.h.

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

◆ h_ele_matchingObjectAbsEta_matched

TH1F* DQMAnalyzer::h_ele_matchingObjectAbsEta_matched

private

Definition at line 204 of file DQMAnalyzer.h.

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

◆ h_ele_matchingObjectEta_matched

TH1F* DQMAnalyzer::h_ele_matchingObjectEta_matched

private

Definition at line 203 of file DQMAnalyzer.h.

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

◆ h_ele_matchingObjectPhi_matched

TH1F* DQMAnalyzer::h_ele_matchingObjectPhi_matched

private

Definition at line 206 of file DQMAnalyzer.h.

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

◆ h_ele_matchingObjectPt_matched

TH1F* DQMAnalyzer::h_ele_matchingObjectPt_matched

private

Definition at line 205 of file DQMAnalyzer.h.

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

◆ h_ele_matchingObjectZ_matched

TH1F* DQMAnalyzer::h_ele_matchingObjectZ_matched

private

Definition at line 207 of file DQMAnalyzer.h.

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

◆ h_ele_mee_os

TH1F* DQMAnalyzer::h_ele_mee_os

private

Definition at line 284 of file DQMAnalyzer.h.

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

◆ h_ele_mva

TH1F* DQMAnalyzer::h_ele_mva

private

Definition at line 272 of file DQMAnalyzer.h.

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

◆ h_ele_outerP

TH1F* DQMAnalyzer::h_ele_outerP

private

Definition at line 264 of file DQMAnalyzer.h.

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

◆ h_ele_outerP_mode

TH1F* DQMAnalyzer::h_ele_outerP_mode

private

Definition at line 265 of file DQMAnalyzer.h.

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

◆ h_ele_outerPt

TH1F* DQMAnalyzer::h_ele_outerPt

private

Definition at line 266 of file DQMAnalyzer.h.

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

◆ h_ele_outerPt_mode

TH1F* DQMAnalyzer::h_ele_outerPt_mode

private

Definition at line 267 of file DQMAnalyzer.h.

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

◆ h_ele_PinMnPout

TH1F* DQMAnalyzer::h_ele_PinMnPout

private

Definition at line 269 of file DQMAnalyzer.h.

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

◆ h_ele_PinMnPout_mode

TH1F* DQMAnalyzer::h_ele_PinMnPout_mode

private

Definition at line 270 of file DQMAnalyzer.h.

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

◆ h_ele_provenance

TH1F* DQMAnalyzer::h_ele_provenance

private

Definition at line 273 of file DQMAnalyzer.h.

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

◆ h_ele_tkSumPt_dr03

TH1F* DQMAnalyzer::h_ele_tkSumPt_dr03

private

Definition at line 275 of file DQMAnalyzer.h.

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

◆ h_ele_tkSumPt_dr04

TH1F* DQMAnalyzer::h_ele_tkSumPt_dr04

private

Definition at line 279 of file DQMAnalyzer.h.

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

◆ h_ele_vertexEta

TH1F* DQMAnalyzer::h_ele_vertexEta

private

Definition at line 212 of file DQMAnalyzer.h.

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

◆ h_ele_vertexPhi

TH1F* DQMAnalyzer::h_ele_vertexPhi

private

Definition at line 214 of file DQMAnalyzer.h.

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

◆ h_ele_vertexPt

TH1F* DQMAnalyzer::h_ele_vertexPt

private

Definition at line 210 of file DQMAnalyzer.h.

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

◆ h_ele_vertexTIP

TH1F* DQMAnalyzer::h_ele_vertexTIP

private

Definition at line 218 of file DQMAnalyzer.h.

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

◆ h_ele_vertexX

TH1F* DQMAnalyzer::h_ele_vertexX

private

Definition at line 215 of file DQMAnalyzer.h.

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

◆ h_ele_vertexY

TH1F* DQMAnalyzer::h_ele_vertexY

private

Definition at line 216 of file DQMAnalyzer.h.

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

◆ h_ele_vertexZ

TH1F* DQMAnalyzer::h_ele_vertexZ

private

Definition at line 217 of file DQMAnalyzer.h.

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

◆ h_matchingObjectAbsEta

TH1F* DQMAnalyzer::h_matchingObjectAbsEta

private

Definition at line 197 of file DQMAnalyzer.h.

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

◆ h_matchingObjectEta

TH1F* DQMAnalyzer::h_matchingObjectEta

private

Definition at line 196 of file DQMAnalyzer.h.

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

◆ h_matchingObjectNum

TH1F* DQMAnalyzer::h_matchingObjectNum

private

Definition at line 194 of file DQMAnalyzer.h.

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

◆ h_matchingObjectP

TH1F* DQMAnalyzer::h_matchingObjectP

private

Definition at line 198 of file DQMAnalyzer.h.

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

◆ h_matchingObjectPhi

TH1F* DQMAnalyzer::h_matchingObjectPhi

private

Definition at line 200 of file DQMAnalyzer.h.

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

◆ h_matchingObjectPt

TH1F* DQMAnalyzer::h_matchingObjectPt

private

Definition at line 199 of file DQMAnalyzer.h.

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

◆ h_matchingObjectZ

TH1F* DQMAnalyzer::h_matchingObjectZ

private

Definition at line 201 of file DQMAnalyzer.h.

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

◆ hadronicOverEmMaxBarrel_

double DQMAnalyzer::hadronicOverEmMaxBarrel_

private

Definition at line 98 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer(), and idCut().

◆ hadronicOverEmMaxEndcaps_

double DQMAnalyzer::hadronicOverEmMaxEndcaps_

private

Definition at line 99 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer(), and idCut().

◆ hcalIso03Depth1MaxBarrel_

double DQMAnalyzer::hcalIso03Depth1MaxBarrel_

private

Definition at line 104 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer(), and isolationCut().

◆ hcalIso03Depth1MaxEndcaps_

double DQMAnalyzer::hcalIso03Depth1MaxEndcaps_

private

Definition at line 105 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer(), and isolationCut().

◆ hcalIso03Depth2MaxEndcaps_

double DQMAnalyzer::hcalIso03Depth2MaxEndcaps_

private

Definition at line 106 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer(), and isolationCut().

◆ histfile_

TFile* DQMAnalyzer::histfile_

private

Definition at line 183 of file DQMAnalyzer.h.

Referenced by beginJob(), DQMAnalyzer(), endJob(), and ~DQMAnalyzer().

◆ histNum_

TH1F* DQMAnalyzer::histNum_

private

Definition at line 221 of file DQMAnalyzer.h.

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

◆ histSclEn_

TH1F* DQMAnalyzer::histSclEn_

private

Definition at line 223 of file DQMAnalyzer.h.

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

◆ histSclEt_

TH1F* DQMAnalyzer::histSclEt_

private

Definition at line 224 of file DQMAnalyzer.h.

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

◆ histSclEta_

TH1F* DQMAnalyzer::histSclEta_

private

Definition at line 225 of file DQMAnalyzer.h.

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

◆ histSclPhi_

TH1F* DQMAnalyzer::histSclPhi_

private

Definition at line 226 of file DQMAnalyzer.h.

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

◆ histSclSigEtaEta_

TH1F* DQMAnalyzer::histSclSigEtaEta_

private

Definition at line 227 of file DQMAnalyzer.h.

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

◆ HLTPathsByIndex_

std::vector<unsigned int> DQMAnalyzer::HLTPathsByIndex_

private

Definition at line 177 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer(), and trigger().

◆ HLTPathsByName_

std::vector<std::string> DQMAnalyzer::HLTPathsByName_

private

Definition at line 112 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer(), and trigger().

◆ hoemax

double DQMAnalyzer::hoemax

private

Definition at line 161 of file DQMAnalyzer.h.

Referenced by beginJob(), and DQMAnalyzer().

◆ hoemin

double DQMAnalyzer::hoemin

private

Definition at line 160 of file DQMAnalyzer.h.

Referenced by beginJob(), and DQMAnalyzer().

◆ isEB_

bool DQMAnalyzer::isEB_

private

Definition at line 77 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer(), and generalCut().

◆ isEcalDriven_

bool DQMAnalyzer::isEcalDriven_

private

Definition at line 80 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer(), and generalCut().

◆ isEE_

bool DQMAnalyzer::isEE_

private

Definition at line 78 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer(), and generalCut().

◆ isNotEBEEGap_

bool DQMAnalyzer::isNotEBEEGap_

private

Definition at line 79 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer(), and generalCut().

◆ isTrackerDriven_

bool DQMAnalyzer::isTrackerDriven_

private

Definition at line 81 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer(), and generalCut().

◆ lhitsmax

double DQMAnalyzer::lhitsmax

private

Definition at line 151 of file DQMAnalyzer.h.

Referenced by beginJob(), and DQMAnalyzer().

◆ massHigh_

double DQMAnalyzer::massHigh_

private

Definition at line 67 of file DQMAnalyzer.h.

Referenced by analyze(), and DQMAnalyzer().

◆ massLow_

double DQMAnalyzer::massLow_

private

Definition at line 66 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer().

◆ matchingCondition_

std::string DQMAnalyzer::matchingCondition_

private

Definition at line 55 of file DQMAnalyzer.h.

Referenced by analyze(), and DQMAnalyzer().

◆ matchingObjectCollection_

edm::InputTag DQMAnalyzer::matchingObjectCollection_

private

Definition at line 53 of file DQMAnalyzer.h.

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

◆ maxAbsEta_

double DQMAnalyzer::maxAbsEta_

private

Definition at line 76 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer(), and generalCut().

◆ maxAbsEtaMatchingObject_

double DQMAnalyzer::maxAbsEtaMatchingObject_

private

Definition at line 61 of file DQMAnalyzer.h.

Referenced by analyze(), and DQMAnalyzer().

◆ maxPtMatchingObject_

double DQMAnalyzer::maxPtMatchingObject_

private

Definition at line 60 of file DQMAnalyzer.h.

Referenced by analyze(), and DQMAnalyzer().

◆ mcEnergy

float DQMAnalyzer::mcEnergy[10]

private

Definition at line 186 of file DQMAnalyzer.h.

◆ mcEta

float DQMAnalyzer::mcEta[10]

private

Definition at line 186 of file DQMAnalyzer.h.

◆ mcPhi

float DQMAnalyzer::mcPhi[10]

private

Definition at line 186 of file DQMAnalyzer.h.

◆ mcPt

float DQMAnalyzer::mcPt[10]

private

Definition at line 186 of file DQMAnalyzer.h.

◆ mcQ

float DQMAnalyzer::mcQ[10]

private

Definition at line 186 of file DQMAnalyzer.h.

◆ meemax

double DQMAnalyzer::meemax

private

Definition at line 158 of file DQMAnalyzer.h.

Referenced by beginJob(), and DQMAnalyzer().

◆ meemin

double DQMAnalyzer::meemin

private

Definition at line 157 of file DQMAnalyzer.h.

Referenced by beginJob(), and DQMAnalyzer().

◆ minEt_

double DQMAnalyzer::minEt_

private

Definition at line 74 of file DQMAnalyzer.h.

Referenced by analyze(), DQMAnalyzer(), and etCut().

◆ minPt_

double DQMAnalyzer::minPt_

private

Definition at line 75 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer(), and generalCut().

◆ mvaMin_

double DQMAnalyzer::mvaMin_

private

Definition at line 100 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer().

◆ nAfterTrigger_

unsigned int DQMAnalyzer::nAfterTrigger_

private

Definition at line 176 of file DQMAnalyzer.h.

Referenced by analyze(), and beginJob().

◆ nbindeta

int DQMAnalyzer::nbindeta

private

Definition at line 134 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer().

◆ nbindetamatch

int DQMAnalyzer::nbindetamatch

private

Definition at line 140 of file DQMAnalyzer.h.

Referenced by beginJob(), and DQMAnalyzer().

◆ nbindetamatch2D

int DQMAnalyzer::nbindetamatch2D

private

Definition at line 141 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer().

◆ nbindphi

int DQMAnalyzer::nbindphi

private

Definition at line 137 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer().

◆ nbindphimatch

int DQMAnalyzer::nbindphimatch

private

Definition at line 144 of file DQMAnalyzer.h.

Referenced by beginJob(), and DQMAnalyzer().

◆ nbindphimatch2D

int DQMAnalyzer::nbindphimatch2D

private

Definition at line 145 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer().

◆ nbineop

int DQMAnalyzer::nbineop

private

Definition at line 130 of file DQMAnalyzer.h.

Referenced by beginJob(), and DQMAnalyzer().

◆ nbineop2D

int DQMAnalyzer::nbineop2D

private

Definition at line 131 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer().

◆ nbineta

int DQMAnalyzer::nbineta

private

Definition at line 115 of file DQMAnalyzer.h.

Referenced by beginJob(), and DQMAnalyzer().

◆ nbineta2D

int DQMAnalyzer::nbineta2D

private

Definition at line 116 of file DQMAnalyzer.h.

Referenced by beginJob(), and DQMAnalyzer().

◆ nbinfhits

int DQMAnalyzer::nbinfhits

private

Definition at line 148 of file DQMAnalyzer.h.

Referenced by beginJob(), and DQMAnalyzer().

◆ nbinhoe

int DQMAnalyzer::nbinhoe

private

Definition at line 159 of file DQMAnalyzer.h.

Referenced by beginJob(), and DQMAnalyzer().

◆ nbinlhits

int DQMAnalyzer::nbinlhits

private

Definition at line 150 of file DQMAnalyzer.h.

Referenced by beginJob(), and DQMAnalyzer().

◆ nbinmee

int DQMAnalyzer::nbinmee

private

Definition at line 156 of file DQMAnalyzer.h.

Referenced by beginJob(), and DQMAnalyzer().

◆ nbinp

int DQMAnalyzer::nbinp

private

Definition at line 127 of file DQMAnalyzer.h.

Referenced by beginJob(), and DQMAnalyzer().

◆ nbinp2D

int DQMAnalyzer::nbinp2D

private

Definition at line 128 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer().

◆ nbinphi

int DQMAnalyzer::nbinphi

private

Definition at line 119 of file DQMAnalyzer.h.

Referenced by beginJob(), and DQMAnalyzer().

◆ nbinphi2D

int DQMAnalyzer::nbinphi2D

private

Definition at line 120 of file DQMAnalyzer.h.

Referenced by beginJob(), and DQMAnalyzer().

◆ nbinpoptrue

int DQMAnalyzer::nbinpoptrue

private

Definition at line 153 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer().

◆ nbinpt

int DQMAnalyzer::nbinpt

private

Definition at line 123 of file DQMAnalyzer.h.

Referenced by beginJob(), and DQMAnalyzer().

◆ nbinpt2D

int DQMAnalyzer::nbinpt2D

private

Definition at line 125 of file DQMAnalyzer.h.

Referenced by beginJob(), and DQMAnalyzer().

◆ nbinpteff

int DQMAnalyzer::nbinpteff

private

Definition at line 124 of file DQMAnalyzer.h.

Referenced by beginJob(), and DQMAnalyzer().

◆ nbinxyz

int DQMAnalyzer::nbinxyz

private

Definition at line 152 of file DQMAnalyzer.h.

Referenced by beginJob(), and DQMAnalyzer().

◆ nEvents_

unsigned int DQMAnalyzer::nEvents_

private

Definition at line 167 of file DQMAnalyzer.h.

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

◆ outputFile_

std::string DQMAnalyzer::outputFile_

private

Definition at line 51 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer().

◆ pDD

edm::ESHandle<TrackerGeometry> DQMAnalyzer::pDD

private

Definition at line 180 of file DQMAnalyzer.h.

◆ phimax

double DQMAnalyzer::phimax

private

Definition at line 122 of file DQMAnalyzer.h.

Referenced by beginJob(), and DQMAnalyzer().

◆ phimin

double DQMAnalyzer::phimin

private

Definition at line 121 of file DQMAnalyzer.h.

Referenced by beginJob(), and DQMAnalyzer().

◆ pmax

double DQMAnalyzer::pmax

private

Definition at line 129 of file DQMAnalyzer.h.

Referenced by beginJob(), and DQMAnalyzer().

◆ poptruemax

double DQMAnalyzer::poptruemax

private

Definition at line 155 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer().

◆ poptruemin

double DQMAnalyzer::poptruemin

private

Definition at line 154 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer().

◆ PROBEcheckclass_

bool DQMAnalyzer::PROBEcheckclass_

private

Definition at line 71 of file DQMAnalyzer.h.

Referenced by analyze(), and DQMAnalyzer().

◆ PROBEetcut_

bool DQMAnalyzer::PROBEetcut_

private

Definition at line 70 of file DQMAnalyzer.h.

Referenced by analyze(), and DQMAnalyzer().

◆ ptmax

double DQMAnalyzer::ptmax

private

Definition at line 126 of file DQMAnalyzer.h.

Referenced by beginJob(), and DQMAnalyzer().

◆ readAOD_

bool DQMAnalyzer::readAOD_

private

Definition at line 57 of file DQMAnalyzer.h.

Referenced by analyze(), and DQMAnalyzer().

◆ seedEta

float DQMAnalyzer::seedEta[10]

private

Definition at line 188 of file DQMAnalyzer.h.

◆ seedMomentum

float DQMAnalyzer::seedMomentum[10]

private

Definition at line 188 of file DQMAnalyzer.h.

◆ seedPhi

float DQMAnalyzer::seedPhi[10]

private

Definition at line 188 of file DQMAnalyzer.h.

◆ seedPt

float DQMAnalyzer::seedPt[10]

private

Definition at line 188 of file DQMAnalyzer.h.

◆ seedQ

float DQMAnalyzer::seedQ[10]

private

Definition at line 188 of file DQMAnalyzer.h.

◆ Selection_

int DQMAnalyzer::Selection_

private

Definition at line 65 of file DQMAnalyzer.h.

Referenced by analyze(), DQMAnalyzer(), and selected().

◆ sigIetaIetaMaxBarrel_

double DQMAnalyzer::sigIetaIetaMaxBarrel_

private

Definition at line 95 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer(), and idCut().

◆ sigIetaIetaMaxEndcaps_

double DQMAnalyzer::sigIetaIetaMaxEndcaps_

private

Definition at line 97 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer(), and idCut().

◆ sigIetaIetaMinBarrel_

double DQMAnalyzer::sigIetaIetaMinBarrel_

private

Definition at line 94 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer(), and idCut().

◆ sigIetaIetaMinEndcaps_

double DQMAnalyzer::sigIetaIetaMinEndcaps_

private

Definition at line 96 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer(), and idCut().

◆ superclusterEnergy

float DQMAnalyzer::superclusterEnergy[10]

private

Definition at line 187 of file DQMAnalyzer.h.

◆ superclusterEt

float DQMAnalyzer::superclusterEt[10]

private

Definition at line 187 of file DQMAnalyzer.h.

◆ superclusterEta

float DQMAnalyzer::superclusterEta[10]

private

Definition at line 187 of file DQMAnalyzer.h.

◆ superclusterPhi

float DQMAnalyzer::superclusterPhi[10]

private

Definition at line 187 of file DQMAnalyzer.h.

◆ TAGcheckclass_

bool DQMAnalyzer::TAGcheckclass_

private

Definition at line 69 of file DQMAnalyzer.h.

Referenced by analyze(), and DQMAnalyzer().

◆ theMagField

edm::ESHandle<MagneticField> DQMAnalyzer::theMagField

private

Definition at line 181 of file DQMAnalyzer.h.

◆ tipMaxBarrel_

double DQMAnalyzer::tipMaxBarrel_

private

Definition at line 101 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer(), and isolationCut().

◆ tipMaxEndcaps_

double DQMAnalyzer::tipMaxEndcaps_

private

Definition at line 102 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer(), and isolationCut().

◆ tkIso03Max_

double DQMAnalyzer::tkIso03Max_

private

Definition at line 103 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer(), and isolationCut().

◆ TPchecksign_

bool DQMAnalyzer::TPchecksign_

private

Definition at line 68 of file DQMAnalyzer.h.

Referenced by analyze(), and DQMAnalyzer().

◆ transformer_

TrajectoryStateTransform DQMAnalyzer::transformer_

private

Definition at line 179 of file DQMAnalyzer.h.

◆ tree_

TTree* DQMAnalyzer::tree_

private

Definition at line 184 of file DQMAnalyzer.h.

◆ triggerResults_

edm::InputTag DQMAnalyzer::triggerResults_

private

Definition at line 111 of file DQMAnalyzer.h.

Referenced by DQMAnalyzer(), and trigger().

Public Member Functions

Private Member Functions

Private Attributes

Additional Inherited Members

Detailed Description

Constructor & Destructor Documentation

◆ DQMAnalyzer()

◆ ~DQMAnalyzer()

Member Function Documentation

◆ analyze()

◆ beginJob()

◆ endJob()

◆ etCut()

◆ generalCut()

◆ idCut()

◆ isolationCut()

◆ selected()

◆ trigger()

Member Data Documentation

◆ beamSpot_

◆ deltaR_

◆ detamatchmax

◆ detamatchmin

◆ detamax

◆ dEtaMaxBarrel_

◆ dEtaMaxEndcaps_

◆ detamin

◆ dEtaMinBarrel_

◆ dEtaMinEndcaps_

◆ dphimatchmax

◆ dphimatchmin

◆ dphimax

◆ dPhiMaxBarrel_

◆ dPhiMaxEndcaps_

◆ dphimin

◆ dPhiMinBarrel_

◆ dPhiMinEndcaps_

◆ ecalIso03MaxBarrel_

◆ ecalIso03MaxEndcaps_

◆ electronCollection_

◆ eopmax

◆ eopmaxsht

◆ eOverPMaxBarrel_

◆ eOverPMaxEndcaps_

◆ eOverPMinBarrel_

◆ eOverPMinEndcaps_

◆ etamax

◆ etamin

◆ fhitsmax

◆ h_ele_ambiguousTracks

◆ h_ele_ambiguousTracksVsEta

◆ h_ele_ambiguousTracksVsPhi

◆ h_ele_ambiguousTracksVsPt

◆ h_ele_charge

◆ h_ele_chi2

◆ h_ele_chi2VsEta

◆ h_ele_chi2VsPhi

◆ h_ele_chi2VsPt

◆ h_ele_dEtaCl_propOut

◆ h_ele_dEtaEleCl_propOut

◆ h_ele_dEtaSc_propVtx

◆ h_ele_dPhiCl_propOut

◆ h_ele_dPhiEleCl_propOut

◆ h_ele_dPhiSc_propVtx

◆ h_ele_ecalRecHitSumEt_dr03

◆ h_ele_ecalRecHitSumEt_dr04

◆ h_ele_EeleOPout

◆ h_ele_EoP

◆ h_ele_Et

◆ h_ele_foundHits

◆ h_ele_foundHitsVsEta

◆ h_ele_foundHitsVsPhi

◆ h_ele_foundHitsVsPt

◆ h_ele_hcalDepth1TowerSumEt_dr03

◆ h_ele_hcalDepth1TowerSumEt_dr04

◆ h_ele_hcalDepth2TowerSumEt_dr03

◆ h_ele_hcalDepth2TowerSumEt_dr04

◆ h_ele_HoE

◆ h_ele_lostHits

◆ h_ele_lostHitsVsEta