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PhotonValidator Class Reference

#include <PhotonValidator.h>

Inheritance diagram for PhotonValidator:
DQMOneEDAnalyzer<> edm::one::EDProducer< edm::EndRunProducer, edm::one::WatchRuns, edm::Accumulator, Args... > edm::one::EDProducerBase edm::ProducerBase edm::EDConsumerBase edm::ProductRegistryHelper

Classes

class  sortPhotons
 

Public Member Functions

void analyze (const edm::Event &, const edm::EventSetup &) override
 
void bookHistograms (DQMStore::IBooker &, edm::Run const &, edm::EventSetup const &) override
 
void dqmBeginRun (edm::Run const &r, edm::EventSetup const &theEventSetup) override
 
void dqmEndRun (edm::Run const &r, edm::EventSetup const &es) override
 
 PhotonValidator (const edm::ParameterSet &)
 
 ~PhotonValidator () override
 
- Public Member Functions inherited from DQMOneEDAnalyzer<>
void accumulate (edm::Event const &event, edm::EventSetup const &setup) override
 
void beginRun (edm::Run const &run, edm::EventSetup const &setup) final
 
 DQMOneEDAnalyzer ()
 
void endRun (edm::Run const &, edm::EventSetup const &) final
 
void endRunProduce (edm::Run &run, edm::EventSetup const &setup) final
 
virtual bool getCanSaveByLumi ()
 
- Public Member Functions inherited from edm::one::EDProducer< edm::EndRunProducer, edm::one::WatchRuns, edm::Accumulator, Args... >
 EDProducer ()=default
 
 EDProducer (const EDProducer &)=delete
 
SerialTaskQueueglobalLuminosityBlocksQueue () final
 
SerialTaskQueueglobalRunsQueue () final
 
bool hasAbilityToProduceInBeginLumis () const final
 
bool hasAbilityToProduceInBeginProcessBlocks () const final
 
bool hasAbilityToProduceInBeginRuns () const final
 
bool hasAbilityToProduceInEndLumis () const final
 
bool hasAbilityToProduceInEndProcessBlocks () const final
 
bool hasAbilityToProduceInEndRuns () const final
 
const EDProduceroperator= (const EDProducer &)=delete
 
bool wantsGlobalLuminosityBlocks () const final
 
bool wantsGlobalRuns () const final
 
bool wantsInputProcessBlocks () const final
 
bool wantsProcessBlocks () const final
 
- Public Member Functions inherited from edm::one::EDProducerBase
 EDProducerBase ()
 
ModuleDescription const & moduleDescription () const
 
bool wantsStreamLuminosityBlocks () const
 
bool wantsStreamRuns () const
 
 ~EDProducerBase () override
 
- Public Member Functions inherited from edm::ProducerBase
void callWhenNewProductsRegistered (std::function< void(BranchDescription const &)> const &func)
 
std::vector< edm::ProductResolverIndex > const & indiciesForPutProducts (BranchType iBranchType) const
 
 ProducerBase ()
 
std::vector< edm::ProductResolverIndex > const & putTokenIndexToProductResolverIndex () const
 
std::vector< bool > const & recordProvenanceList () const
 
void registerProducts (ProducerBase *, ProductRegistry *, ModuleDescription const &)
 
std::function< void(BranchDescription const &)> registrationCallback () const
 used by the fwk to register list of products More...
 
void resolvePutIndicies (BranchType iBranchType, ModuleToResolverIndicies const &iIndicies, std::string const &moduleLabel)
 
TypeLabelList const & typeLabelList () const
 used by the fwk to register the list of products of this module More...
 
 ~ProducerBase () noexcept(false) override
 
- Public Member Functions inherited from edm::EDConsumerBase
std::vector< ConsumesInfoconsumesInfo () const
 
void convertCurrentProcessAlias (std::string const &processName)
 Convert "@currentProcess" in InputTag process names to the actual current process name. More...
 
 EDConsumerBase ()
 
 EDConsumerBase (EDConsumerBase const &)=delete
 
 EDConsumerBase (EDConsumerBase &&)=default
 
ESProxyIndex const * esGetTokenIndices (edm::Transition iTrans) const
 
std::vector< ESProxyIndex > const & esGetTokenIndicesVector (edm::Transition iTrans) const
 
std::vector< ESRecordIndex > const & esGetTokenRecordIndicesVector (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::array< std::vector< ModuleDescription const *> *, NumBranchTypes > &modulesAll, std::vector< ModuleProcessName > &modulesInPreviousProcesses, ProductRegistry const &preg, std::map< std::string, ModuleDescription const *> const &labelsToDesc, std::string const &processName) const
 
EDConsumerBase const & operator= (EDConsumerBase const &)=delete
 
EDConsumerBaseoperator= (EDConsumerBase &&)=default
 
bool registeredToConsume (ProductResolverIndex, bool, BranchType) const
 
bool registeredToConsumeMany (TypeID const &, BranchType) const
 
void selectInputProcessBlocks (ProductRegistry const &productRegistry, ProcessBlockHelperBase const &processBlockHelperBase)
 
ProductResolverIndexAndSkipBit uncheckedIndexFrom (EDGetToken) const
 
void updateLookup (BranchType iBranchType, ProductResolverIndexHelper const &, bool iPrefetchMayGet)
 
void updateLookup (eventsetup::ESRecordsToProxyIndices const &)
 
virtual ~EDConsumerBase () noexcept(false)
 

Private Member Functions

float etaTransformation (float a, float b)
 
float phiNormalization (float &a)
 

Private Attributes

edm::EDGetTokenT< EcalRecHitCollectionbarrelEcalHits_
 
edm::InputTag bcBarrelCollection_
 
edm::InputTag bcEndcapCollection_
 
double bcEtLow_
 
const edm::ESGetToken< CaloGeometry, CaloGeometryRecordcaloGeometryToken_
 
edm::EDGetTokenT< edm::View< reco::Track > > conversionIOTrackPr_Token_
 
edm::InputTag conversionIOTrackProducer_
 
edm::EDGetTokenT< edm::View< reco::Track > > conversionOITrackPr_Token_
 
edm::InputTag conversionOITrackProducer_
 
double convTrackMinPtCut_
 
bool dCotCutOn_
 
double dCotCutValue_
 
double dCotHardCutValue_
 
double ecalEtSumCut_
 
double ecalIsolRadius_
 
edm::EDGetTokenT< EcalRecHitCollectionendcapEcalHits_
 
edm::EDGetTokenT< edm::SimTrackContainerfamos_simTk_Token_
 
edm::EDGetTokenT< edm::SimVertexContainerfamos_simVtx_Token_
 
bool fastSim_
 
std::string fName_
 
edm::EDGetTokenT< edm::SimTrackContainerg4_simTk_Token_
 
edm::EDGetTokenT< edm::SimVertexContainerg4_simVtx_Token_
 
edm::EDGetTokenT< reco::GenJetCollectiongenjets_Token_
 
edm::EDGetTokenT< reco::GenParticleCollectiongenpartToken_
 
MonitorElementh2_Chi2VsEta_ [3]
 
MonitorElementh2_Chi2VsR_ [3]
 
MonitorElementh2_convVtxdRVsEta_
 
MonitorElementh2_convVtxdRVsR_
 
MonitorElementh2_convVtxRrecVsTrue_
 
MonitorElementh2_DCotTracksVsEta_
 
MonitorElementh2_DCotTracksVsR_
 
MonitorElementh2_DPhiTracksAtEcalVsEta_
 
MonitorElementh2_DPhiTracksAtEcalVsR_
 
MonitorElementh2_DPhiTracksAtVtxVsEta_
 
MonitorElementh2_DPhiTracksAtVtxVsR_
 
MonitorElementh2_dzPVVsR_
 
MonitorElementh2_ecalRecHitSumEtConeDR04VsEt_ [3]
 
MonitorElementh2_ecalRecHitSumEtConeDR04VsEta_ [3]
 
MonitorElementh2_ecalRecHitSumEtConeDR04VsEtaBkg_
 
MonitorElementh2_ecalRecHitSumEtConeDR04VsEtBkg_ [3]
 
MonitorElementh2_EoverEtrueVsEoverP_ [3]
 
MonitorElementh2_EoverEtrueVsEta_ [3]
 
MonitorElementh2_EoverEtrueVsR_ [3]
 
MonitorElementh2_EoverPVsEta_ [3]
 
MonitorElementh2_EoverPVsR_ [3]
 
MonitorElementh2_eResVsEt_ [3][3]
 
MonitorElementh2_eResVsEta_ [3]
 
MonitorElementh2_eResVsR9_ [3]
 
MonitorElementh2_etaVsRreco_ [3]
 
MonitorElementh2_etaVsRsim_ [3]
 
MonitorElementh2_hcalTowerSumEtConeDR04VsEt_ [3]
 
MonitorElementh2_hcalTowerSumEtConeDR04VsEta_ [3]
 
MonitorElementh2_hcalTowerSumEtConeDR04VsEtaBkg_
 
MonitorElementh2_hcalTowerSumEtConeDR04VsEtBkg_ [3]
 
MonitorElementh2_hOverEVsEt_ [3]
 
MonitorElementh2_hOverEVsEta_ [3]
 
MonitorElementh2_hOverEVsEtaBkg_
 
MonitorElementh2_hOverEVsEtBkg_
 
MonitorElementh2_isoTrkSolidConeDR04VsEt_ [3]
 
MonitorElementh2_isoTrkSolidConeDR04VsEta_ [3]
 
MonitorElementh2_isoTrkSolidConeDR04VsEtaBkg_
 
MonitorElementh2_isoTrkSolidConeDR04VsEtBkg_ [3]
 
MonitorElementh2_nTrkSolidConeDR04VsEt_ [3]
 
MonitorElementh2_nTrkSolidConeDR04VsEta_ [3]
 
MonitorElementh2_nTrkSolidConeDR04VsEtaBkg_
 
MonitorElementh2_nTrkSolidConeDR04VsEtBkg_ [3]
 
MonitorElementh2_PoverPtrueVsEoverP_ [3]
 
MonitorElementh2_PoverPtrueVsEta_ [3]
 
MonitorElementh2_PtRecVsPtSim_ [3]
 
MonitorElementh2_PtRecVsPtSimMixProv_
 
MonitorElementh2_r1VsEt_ [3]
 
MonitorElementh2_r1VsEta_ [3]
 
MonitorElementh2_r1VsEtaBkg_
 
MonitorElementh2_r1VsEtBkg_
 
MonitorElementh2_r2VsEt_ [3]
 
MonitorElementh2_r2VsEta_ [3]
 
MonitorElementh2_r2VsEtaBkg_
 
MonitorElementh2_r2VsEtBkg_
 
MonitorElementh2_r9VsEt_ [3]
 
MonitorElementh2_r9VsEtaBkg_
 
MonitorElementh2_r9VsEtBkg_
 
MonitorElementh2_sceResVsR9_ [3]
 
MonitorElementh2_sigmaIetaIetaVsEt_ [3]
 
MonitorElementh2_sigmaIetaIetaVsEta_ [3]
 
MonitorElementh2_sigmaIetaIetaVsEtaBkg_
 
MonitorElementh2_sigmaIetaIetaVsEtBkg_ [3]
 
MonitorElementh2_TkPtPull_ [3]
 
MonitorElementh_AllSimConv_ [5]
 
MonitorElementh_chHadIso_ [3]
 
MonitorElementh_chHadIso_miniAOD_ [3]
 
MonitorElementh_convAlgo_
 
MonitorElementh_convERes_ [2][3]
 
MonitorElementh_convEta_ [3]
 
MonitorElementh_convEtaBkg_
 
MonitorElementh_convPhi_ [2]
 
MonitorElementh_convPhiBkg_
 
MonitorElementh_convPtRes_ [2][3]
 
MonitorElementh_convQuality_
 
MonitorElementh_convSLVtxRvsZ_ [3]
 
MonitorElementh_convVtxdEta_
 
MonitorElementh_convVtxdPhi_
 
MonitorElementh_convVtxdR_
 
MonitorElementh_convVtxdR_barrel_
 
MonitorElementh_convVtxdR_endcap_
 
MonitorElementh_convVtxdX_
 
MonitorElementh_convVtxdX_barrel_
 
MonitorElementh_convVtxdX_endcap_
 
MonitorElementh_convVtxdY_
 
MonitorElementh_convVtxdY_barrel_
 
MonitorElementh_convVtxdY_endcap_
 
MonitorElementh_convVtxdZ_
 
MonitorElementh_convVtxdZ_barrel_
 
MonitorElementh_convVtxdZ_endcap_
 
MonitorElementh_convVtxRvsZ_ [3]
 
MonitorElementh_convVtxRvsZ_zoom_ [2]
 
MonitorElementh_convVtxRvsZBkg_ [2]
 
MonitorElementh_convVtxYvsX_
 
MonitorElementh_convVtxYvsX_zoom_ [2]
 
MonitorElementh_convVtxYvsXBkg_
 
MonitorElementh_DCotTracks_ [2][3]
 
MonitorElementh_DCotTracksBkg_ [3]
 
MonitorElementh_DEtaTracksAtEcal_ [2][3]
 
MonitorElementh_distMinAppTracks_ [2][3]
 
MonitorElementh_DPhiTracksAtEcal_ [2][3]
 
MonitorElementh_DPhiTracksAtVtx_ [2][3]
 
MonitorElementh_DPhiTracksAtVtxBkg_ [3]
 
MonitorElementh_dRPhoPFcand_ChHad_Cleaned_ [3]
 
MonitorElementh_dRPhoPFcand_ChHad_unCleaned_ [3]
 
MonitorElementh_dRPhoPFcand_NeuHad_Cleaned_ [3]
 
MonitorElementh_dRPhoPFcand_NeuHad_unCleaned_ [3]
 
MonitorElementh_dRPhoPFcand_Pho_Cleaned_ [3]
 
MonitorElementh_dRPhoPFcand_Pho_unCleaned_ [3]
 
MonitorElementh_dzPVFromTracks_ [5]
 
MonitorElementh_ecalRecHitSumEtConeDR04_ [3][3]
 
MonitorElementh_ecalRecHitSumEtConeDR04_miniAOD_ [3][3]
 
MonitorElementh_ecalRecHitSumEtConeDR04Bkg_ [3]
 
MonitorElementh_EoverP_SL_ [3]
 
MonitorElementh_EoverPTracks_ [2][3]
 
MonitorElementh_EoverPTracksBkg_ [3]
 
MonitorElementh_etOutsideMustache_ [3]
 
MonitorElementh_EtR9Less093_ [3][3]
 
MonitorElementh_full5x5_r9_miniAOD_ [3][3]
 
MonitorElementh_full5x5_sigmaIetaIeta_miniAOD_ [3][3]
 
MonitorElementh_gamgamMass_ [3][3]
 
MonitorElementh_gamgamMassRegr1_ [3][3]
 
MonitorElementh_gamgamMassRegr2_ [3][3]
 
MonitorElementh_hcalTowerBcSumEtConeDR04_ [3][3]
 
MonitorElementh_hcalTowerBcSumEtConeDR04_miniAOD_ [3][3]
 
MonitorElementh_hcalTowerSumEtConeDR04_ [3][3]
 
MonitorElementh_hcalTowerSumEtConeDR04_miniAOD_ [3][3]
 
MonitorElementh_hcalTowerSumEtConeDR04Bkg_ [3]
 
MonitorElementh_hOverE_ [3][3]
 
MonitorElementh_hOverE_miniAOD_ [3][3]
 
MonitorElementh_hOverEBkg_ [3]
 
MonitorElementh_invMass_ [2][3]
 
MonitorElementh_IOinnermostHitR_
 
MonitorElementh_isoTrkSolidConeDR04_ [3][3]
 
MonitorElementh_isoTrkSolidConeDR04_miniAOD_ [3][3]
 
MonitorElementh_isoTrkSolidConeDR04Bkg_ [3]
 
MonitorElementh_MatchedSimJet_ [3]
 
MonitorElementh_MatchedSimJetBadCh_ [3]
 
MonitorElementh_MatchedSimPho_ [3]
 Numerator for efficiencies. More...
 
MonitorElementh_MatchedSimPhoBadCh_ [3]
 
MonitorElementh_mvaOut_ [3]
 
MonitorElementh_mvaOutBkg_ [3]
 
MonitorElementh_nCluOutsideMustache_ [3]
 
MonitorElementh_nConv_ [2][3]
 info per conversion More...
 
MonitorElementh_newhOverE_ [3][3]
 
MonitorElementh_newhOverE_miniAOD_ [3][3]
 
MonitorElementh_nHadIso_ [3]
 
MonitorElementh_nHadIso_miniAOD_ [3]
 
MonitorElementh_nPho_
 
MonitorElementh_nRecoVtx_
 
MonitorElementh_nSimConv_ [2]
 
MonitorElementh_nSimPho_ [2]
 
MonitorElementh_nTrkSolidConeDR04_ [3][3]
 
MonitorElementh_nTrkSolidConeDR04_miniAOD_ [3][3]
 
MonitorElementh_nTrkSolidConeDR04Bkg_ [3]
 
MonitorElementh_OIinnermostHitR_
 
MonitorElementh_pfMva_ [3]
 
MonitorElementh_phoBkgDEta_
 
MonitorElementh_phoBkgDPhi_
 
MonitorElementh_phoBkgE_ [3]
 
MonitorElementh_phoBkgEt_ [3]
 
MonitorElementh_phoBkgEta_
 
MonitorElementh_phoBkgPhi_
 
MonitorElementh_phoDEta_ [2]
 
MonitorElementh_phoDPhi_ [2]
 
MonitorElementh_phoE_ [2][3]
 
MonitorElementh_phoE_miniAOD_ [2][3]
 
MonitorElementh_phoERes_ [3][3]
 
MonitorElementh_phoERes_miniAOD_ [3][3]
 
MonitorElementh_phoEResRegr1_ [3][3]
 
MonitorElementh_phoEResRegr2_ [3][3]
 
MonitorElementh_phoEt_ [2][3]
 
MonitorElementh_phoEt_miniAOD_ [2][3]
 
MonitorElementh_phoEta_ [2]
 
MonitorElementh_phoIso_ [3]
 
MonitorElementh_phoIso_miniAOD_ [3]
 
MonitorElementh_phoPhi_ [2]
 
MonitorElementh_phoPixSeedSize_ [2]
 
MonitorElementh_phoSigmaEoE_ [3][3]
 
MonitorElementh_phoSigmaEoE_miniAOD_ [3][3]
 
MonitorElementh_PoverETracks_ [2][3]
 
MonitorElementh_PoverETracksBkg_ [3]
 
MonitorElementh_psE_
 
MonitorElementh_r1_ [3][3]
 
MonitorElementh_r1_miniAOD_ [3][3]
 
MonitorElementh_r1Bkg_ [3]
 
MonitorElementh_r2_ [3][3]
 
MonitorElementh_r2_miniAOD_ [3][3]
 
MonitorElementh_r2Bkg_ [3]
 
MonitorElementh_r9_ [3][3]
 
MonitorElementh_r9_miniAOD_ [3][3]
 
MonitorElementh_r9Bkg_ [3]
 
MonitorElementh_r9VsNofTracks_ [2][3]
 
MonitorElementh_RecoConvTwoMTracks_ [5]
 
MonitorElementh_RecoConvTwoTracks_ [5]
 
MonitorElementh_scBkgE_ [3]
 
MonitorElementh_scBkgEt_ [3]
 
MonitorElementh_scBkgEta_
 
MonitorElementh_scBkgPhi_
 
MonitorElementh_scE_ [2][3]
 
MonitorElementh_scEt_ [2][3]
 
MonitorElementh_scEta_ [2]
 
MonitorElementh_scEta_miniAOD_ [2]
 Histos for comparison with miniAOD content. More...
 
MonitorElementh_scEtaPhi_ [2]
 
MonitorElementh_scEtaWidth_ [2]
 
MonitorElementh_scPhi_ [2]
 
MonitorElementh_scPhi_miniAOD_ [2]
 
MonitorElementh_scPhiWidth_ [2]
 
MonitorElementh_sigmaIetaIeta_ [3][3]
 
MonitorElementh_sigmaIetaIeta_miniAOD_ [3][3]
 
MonitorElementh_sigmaIetaIetaBkg_ [3]
 
MonitorElementh_SimConvEtaPix_ [2]
 
MonitorElementh_SimConvMTotal_ [5]
 
MonitorElementh_SimConvOneMTracks_ [5]
 
MonitorElementh_SimConvOneTracks_ [5]
 
MonitorElementh_SimConvTwoMTracks_ [5]
 
MonitorElementh_SimConvTwoMTracksAndVtxPGT0005_ [5]
 
MonitorElementh_SimConvTwoMTracksAndVtxPGT01_ [5]
 
MonitorElementh_SimConvTwoMTracksAndVtxPGT0_ [5]
 
MonitorElementh_SimConvTwoTracks_ [5]
 
MonitorElementh_simConvVtxRvsZ_ [4]
 
MonitorElementh_simConvVtxYvsX_
 
MonitorElementh_SimJet_ [3]
 
MonitorElementh_SimPho_ [3]
 Denominator for efficiencies. More...
 
MonitorElementh_SimPhoEtaSmallR9_
 
MonitorElementh_SimPhoMotherEt_ [2]
 
MonitorElementh_SimPhoMotherEta_ [2]
 
MonitorElementh_SimPhoMotherType_ [2]
 
MonitorElementh_simTkEta_
 
MonitorElementh_simTkPt_
 
MonitorElementh_SumPtOverPhoPt_ChHad_Cleaned_ [3]
 
MonitorElementh_SumPtOverPhoPt_ChHad_unCleaned_ [3]
 
MonitorElementh_SumPtOverPhoPt_NeuHad_Cleaned_ [3]
 
MonitorElementh_SumPtOverPhoPt_NeuHad_unCleaned_ [3]
 
MonitorElementh_SumPtOverPhoPt_Pho_Cleaned_ [3]
 
MonitorElementh_SumPtOverPhoPt_Pho_unCleaned_ [3]
 
MonitorElementh_tkChi2_ [2]
 
MonitorElementh_tkChi2Bkg_
 
MonitorElementh_tkChi2Large_ [2]
 
MonitorElementh_tkChi2SL_ [2]
 
MonitorElementh_TkD0_ [3]
 
MonitorElementh_TkPtPull_ [3]
 
MonitorElementh_trkAlgo_
 
MonitorElementh_trkProv_ [2]
 
MonitorElementh_VisSimConv_ [6]
 
MonitorElementh_VisSimConvLarge_
 
MonitorElementh_vtxChi2_ [3]
 
MonitorElementh_vtxChi2Prob_ [3]
 
MonitorElementh_zPVFromTracks_ [5]
 
MonitorElementhBCEnergyOverTrackPout_ [3]
 
double hcalEtSumCut_
 
double hcalHitEtLow_
 
double hcalIsolExtRadius_
 
double hcalIsolInnRadius_
 
edm::EDGetTokenT< edm::HepMCProducthepMC_Token_
 
bool isRunCentrally_
 
double likelihoodCut_
 
double lip_
 
const edm::ESGetToken< MagneticField, IdealMagneticFieldRecordmagneticFieldToken_
 
double mcConvEta_
 
double mcConvPhi_
 
double mcConvR_
 
double mcConvX_
 
double mcConvY_
 
double mcConvZ_
 
double mcEta_
 
double mcJetEta_
 
double mcJetPhi_
 
double mcPhi_
 global variable for the MC photon More...
 
double minPhoEtCut_
 
int nEntry_
 
int nEvt_
 
MonitorElementnHitsVsEta_ [2]
 
MonitorElementnHitsVsEtaBkg_
 
MonitorElementnHitsVsR_ [2]
 
int nInvalidPCA_
 
int nMatched_
 
int nRecConv_
 
int nRecConvAss_
 
int nRecConvAssWithEcal_
 
int nSimConv_ [2]
 
int nSimPho_ [2]
 
int numOfTracksInCone_
 
edm::EDGetTokenT< reco::VertexCollectionoffline_pvToken_
 
MonitorElementp_Chi2VsEta_ [3]
 
MonitorElementp_Chi2VsR_ [3]
 
MonitorElementp_convVtxdRVsEta_
 
MonitorElementp_convVtxdRVsR_
 
MonitorElementp_convVtxdXVsX_
 
MonitorElementp_convVtxdYVsY_
 
MonitorElementp_convVtxdZVsZ_
 
MonitorElementp_DCotTracksVsEta_
 
MonitorElementp_DCotTracksVsR_
 
MonitorElementp_DPhiTracksAtEcalVsEta_
 
MonitorElementp_DPhiTracksAtEcalVsR_
 
MonitorElementp_DPhiTracksAtVtxVsEta_
 
MonitorElementp_DPhiTracksAtVtxVsR_
 
MonitorElementp_dzPVVsEta_
 
MonitorElementp_dzPVVsR_
 
MonitorElementp_ecalRecHitSumEtConeDR04VsEt_ [3]
 
MonitorElementp_ecalRecHitSumEtConeDR04VsEta_ [3]
 
MonitorElementp_ecalRecHitSumEtConeDR04VsEtaBkg_
 
MonitorElementp_ecalRecHitSumEtConeDR04VsEtBkg_ [3]
 
MonitorElementp_EoverEtrueVsEta_ [3]
 
MonitorElementp_EoverEtrueVsR_ [3]
 
MonitorElementp_EoverPVsEta_ [3]
 
MonitorElementp_EoverPVsR_ [3]
 
MonitorElementp_eResVsEt_ [3][3]
 
MonitorElementp_eResVsEta_ [3]
 
MonitorElementp_eResVsNVtx_ [3][3]
 
MonitorElementp_eResVsR9_ [3]
 
MonitorElementp_eResVsR_
 
MonitorElementp_hcalTowerBcSumEtConeDR04VsEt_ [3]
 
MonitorElementp_hcalTowerBcSumEtConeDR04VsEta_ [3]
 
MonitorElementp_hcalTowerSumEtConeDR04VsEt_ [3]
 
MonitorElementp_hcalTowerSumEtConeDR04VsEta_ [3]
 
MonitorElementp_hcalTowerSumEtConeDR04VsEtaBkg_
 
MonitorElementp_hcalTowerSumEtConeDR04VsEtBkg_ [3]
 
MonitorElementp_hOverEVsEt_ [3]
 
MonitorElementp_hOverEVsEta_ [3]
 
MonitorElementp_hOverEVsEtaBkg_
 
MonitorElementp_hOverEVsEtBkg_
 
MonitorElementp_isoTrkSolidConeDR04VsEt_ [3]
 
MonitorElementp_isoTrkSolidConeDR04VsEta_ [3]
 
MonitorElementp_isoTrkSolidConeDR04VsEtaBkg_
 
MonitorElementp_isoTrkSolidConeDR04VsEtBkg_ [3]
 
MonitorElementp_newhOverEVsEt_ [3]
 
MonitorElementp_newhOverEVsEta_ [3]
 
MonitorElementp_nHitsVsEta_ [2]
 
MonitorElementp_nHitsVsEtaSL_ [2]
 
MonitorElementp_nHitsVsR_ [2]
 
MonitorElementp_nHitsVsRSL_ [2]
 
MonitorElementp_nTrkSolidConeDR04VsEt_ [3]
 
MonitorElementp_nTrkSolidConeDR04VsEta_ [3]
 
MonitorElementp_nTrkSolidConeDR04VsEtaBkg_
 
MonitorElementp_nTrkSolidConeDR04VsEtBkg_ [3]
 
MonitorElementp_PoverPtrueVsEta_ [3]
 
MonitorElementp_r1VsEt_ [3]
 
MonitorElementp_r1VsEta_ [3]
 
MonitorElementp_r1VsEtaBkg_
 
MonitorElementp_r1VsEtBkg_
 
MonitorElementp_r2VsEt_ [3]
 
MonitorElementp_r2VsEta_ [3]
 
MonitorElementp_r2VsEtaBkg_
 
MonitorElementp_r2VsEtBkg_
 
MonitorElementp_r9VsEt_ [3]
 
MonitorElementp_r9VsEta_ [3]
 
MonitorElementp_sceResVsR9_ [3]
 
MonitorElementp_sigmaEoEVsEt_ [3][3]
 
MonitorElementp_sigmaEoEVsEta_ [3]
 
MonitorElementp_sigmaEoEVsNVtx_ [3][3]
 
MonitorElementp_sigmaIetaIetaVsEt_ [3]
 
MonitorElementp_sigmaIetaIetaVsEta_ [3]
 
MonitorElementp_sigmaIetaIetaVsEtaBkg_
 
MonitorElementp_sigmaIetaIetaVsEtBkg_ [3]
 
MonitorElementp_TkPtPull_ [3]
 
edm::ParameterSet parameters_
 
edm::EDGetTokenT< edm::ValueMap< std::vector< reco::PFCandidateRef > > > particleBasedIso_token
 
edm::EDGetTokenT< reco::PFCandidateCollectionpfCandidates_
 
std::string photonCollection_
 
std::string photonCollectionProducer_
 
edm::EDGetTokenT< reco::PhotonCollectionphotonCollectionToken_
 
double recMaxPt_
 
double recMinPt_
 Global variables for reco Photon. More...
 
double simMaxPt_
 
double simMinPt_
 
TH1F * th1f_SimConvMTotal_ [5]
 
edm::ESHandle< CaloGeometrytheCaloGeom_
 
edm::ESHandle< CaloTopologytheCaloTopo_
 
edm::RefVector< TrackingParticleCollectiontheConvTP_
 
edm::ESHandle< MagneticFieldtheMF_
 
std::unique_ptr< PhotonMCTruthFinderthePhotonMCTruthFinder_
 
edm::EDGetTokenT< TrackingParticleCollectiontoken_tp_
 
const edm::ESGetToken< TransientTrackBuilder, TransientTrackRecordtransientTrackBuilderToken_
 
double trkIsolExtRadius_
 
double trkIsolInnRadius_
 
double trkPtLow_
 
double trkPtSumCut_
 
std::string valueMapPhoPFCandIso_
 
int verbosity_
 

Additional Inherited Members

- Public Types inherited from DQMOneEDAnalyzer<>
typedef dqm::reco::DQMStore DQMStore
 
typedef dqm::reco::MonitorElement MonitorElement
 
- Public Types inherited from edm::one::EDProducerBase
typedef EDProducerBase ModuleType
 
- Public Types inherited from edm::ProducerBase
template<typename T >
using BranchAliasSetterT = ProductRegistryHelper::BranchAliasSetterT< T >
 
using ModuleToResolverIndicies = std::unordered_multimap< std::string, std::tuple< edm::TypeID const *, const char *, edm::ProductResolverIndex > >
 
typedef ProductRegistryHelper::TypeLabelList TypeLabelList
 
- Public Types inherited from edm::EDConsumerBase
typedef ProductLabels Labels
 
- Static Public Member Functions inherited from edm::one::EDProducerBase
static const std::string & baseType ()
 
static void fillDescriptions (ConfigurationDescriptions &descriptions)
 
static void prevalidate (ConfigurationDescriptions &descriptions)
 
- Protected Member Functions inherited from edm::ProducerBase
template<Transition Tr = Transition::Event>
auto produces (std::string instanceName) noexcept
 declare what type of product will make and with which optional label More...
 
template<Transition B>
BranchAliasSetter produces (const TypeID &id, std::string instanceName=std::string(), bool recordProvenance=true)
 
template<BranchType B>
BranchAliasSetter produces (const TypeID &id, std::string instanceName=std::string(), bool recordProvenance=true)
 
BranchAliasSetter produces (const TypeID &id, std::string instanceName=std::string(), bool recordProvenance=true)
 
template<typename ProductType , Transition B>
BranchAliasSetterT< ProductType > produces (std::string instanceName)
 
template<class ProductType >
BranchAliasSetterT< ProductType > produces ()
 
template<typename ProductType , BranchType B>
BranchAliasSetterT< ProductType > produces (std::string instanceName)
 
template<typename ProductType , BranchType B>
BranchAliasSetterT< ProductType > produces ()
 
template<class ProductType >
BranchAliasSetterT< ProductType > produces (std::string instanceName)
 
template<typename ProductType , Transition B>
BranchAliasSetterT< ProductType > produces ()
 
template<Transition Tr = Transition::Event>
auto produces () noexcept
 
ProducesCollector producesCollector ()
 
- Protected Member Functions inherited from edm::EDConsumerBase
template<typename ProductType , BranchType B = InEvent>
EDGetTokenT< ProductType > consumes (edm::InputTag const &tag)
 
template<BranchType B = InEvent>
EDConsumerBaseAdaptor< Bconsumes (edm::InputTag tag) noexcept
 
EDGetToken consumes (const TypeToGet &id, edm::InputTag const &tag)
 
template<BranchType B>
EDGetToken consumes (TypeToGet const &id, edm::InputTag const &tag)
 
ConsumesCollector consumesCollector ()
 Use a ConsumesCollector to gather consumes information from helper functions. More...
 
template<typename ProductType , BranchType B = InEvent>
void consumesMany ()
 
void consumesMany (const TypeToGet &id)
 
template<BranchType B>
void consumesMany (const TypeToGet &id)
 
template<typename ESProduct , typename ESRecord , Transition Tr = Transition::Event>
auto esConsumes ()
 
template<typename ESProduct , typename ESRecord , Transition Tr = Transition::Event>
auto esConsumes (ESInputTag const &tag)
 
template<Transition Tr = Transition::Event>
constexpr auto esConsumes ()
 
template<Transition Tr = Transition::Event>
auto esConsumes (ESInputTag tag)
 
template<Transition Tr = Transition::Event>
ESGetTokenGeneric esConsumes (eventsetup::EventSetupRecordKey const &iRecord, eventsetup::DataKey const &iKey)
 Used with EventSetupRecord::doGet. More...
 
template<typename ProductType , BranchType B = InEvent>
EDGetTokenT< ProductType > mayConsume (edm::InputTag const &tag)
 
EDGetToken mayConsume (const TypeToGet &id, edm::InputTag const &tag)
 
template<BranchType B>
EDGetToken mayConsume (const TypeToGet &id, edm::InputTag const &tag)
 
void resetItemsToGetFrom (BranchType iType)
 
- Protected Attributes inherited from DQMOneEDAnalyzer<>
edm::EDPutTokenT< DQMTokenrunToken_
 

Detailed Description

$Id: PhotonValidator

Author
Nancy Marinelli, U. of Notre Dame, US

Definition at line 59 of file PhotonValidator.h.

Constructor & Destructor Documentation

◆ PhotonValidator()

PhotonValidator::PhotonValidator ( const edm::ParameterSet pset)
explicit

Definition at line 83 of file PhotonValidator.cc.

84  : magneticFieldToken_{esConsumes<edm::Transition::BeginRun>()},
86  transientTrackBuilderToken_{esConsumes(edm::ESInputTag("", "TransientTrackBuilder"))} {
87  fName_ = pset.getParameter<std::string>("analyzerName");
88  verbosity_ = pset.getUntrackedParameter<int>("Verbosity");
89  parameters_ = pset;
90  fastSim_ = pset.getParameter<bool>("fastSim");
91  isRunCentrally_ = pset.getParameter<bool>("isRunCentrally");
92 
93  photonCollectionProducer_ = pset.getParameter<std::string>("phoProducer");
94  photonCollection_ = pset.getParameter<std::string>("photonCollection");
96  consumes<reco::PhotonCollection>(edm::InputTag(photonCollectionProducer_, photonCollection_));
97 
98  token_tp_ = consumes<TrackingParticleCollection>(pset.getParameter<edm::InputTag>("label_tp"));
99 
100  barrelEcalHits_ = consumes<EcalRecHitCollection>(pset.getParameter<edm::InputTag>("barrelEcalHits"));
101  endcapEcalHits_ = consumes<EcalRecHitCollection>(pset.getParameter<edm::InputTag>("endcapEcalHits"));
102 
103  conversionOITrackProducer_ = pset.getParameter<std::string>("conversionOITrackProducer");
104  conversionIOTrackProducer_ = pset.getParameter<std::string>("conversionIOTrackProducer");
105  conversionOITrackPr_Token_ = consumes<edm::View<reco::Track> >(edm::InputTag(conversionOITrackProducer_));
106  conversionIOTrackPr_Token_ = consumes<edm::View<reco::Track> >(edm::InputTag(conversionIOTrackProducer_));
107 
108  pfCandidates_ = consumes<reco::PFCandidateCollection>(pset.getParameter<edm::InputTag>("pfCandidates"));
109  valueMapPhoPFCandIso_ = pset.getParameter<std::string>("valueMapPhoToParticleBasedIso");
111  consumes<edm::ValueMap<std::vector<reco::PFCandidateRef> > >(pset.getUntrackedParameter<edm::InputTag>(
112  "particleBasedIso", edm::InputTag("particleBasedIsolation", valueMapPhoPFCandIso_)));
113 
114  minPhoEtCut_ = pset.getParameter<double>("minPhoEtCut");
115  convTrackMinPtCut_ = pset.getParameter<double>("convTrackMinPtCut");
116  likelihoodCut_ = pset.getParameter<double>("likelihoodCut");
117 
118  trkIsolExtRadius_ = pset.getParameter<double>("trkIsolExtR");
119  trkIsolInnRadius_ = pset.getParameter<double>("trkIsolInnR");
120  trkPtLow_ = pset.getParameter<double>("minTrackPtCut");
121  lip_ = pset.getParameter<double>("lipCut");
122  ecalIsolRadius_ = pset.getParameter<double>("ecalIsolR");
123  bcEtLow_ = pset.getParameter<double>("minBcEtCut");
124  hcalIsolExtRadius_ = pset.getParameter<double>("hcalIsolExtR");
125  hcalIsolInnRadius_ = pset.getParameter<double>("hcalIsolInnR");
126  hcalHitEtLow_ = pset.getParameter<double>("minHcalHitEtCut");
127 
128  numOfTracksInCone_ = pset.getParameter<int>("maxNumOfTracksInCone");
129  trkPtSumCut_ = pset.getParameter<double>("trkPtSumCut");
130  ecalEtSumCut_ = pset.getParameter<double>("ecalEtSumCut");
131  hcalEtSumCut_ = pset.getParameter<double>("hcalEtSumCut");
132  dCotCutOn_ = pset.getParameter<bool>("dCotCutOn");
133  dCotCutValue_ = pset.getParameter<double>("dCotCutValue");
134  dCotHardCutValue_ = pset.getParameter<double>("dCotHardCutValue");
135 
136  offline_pvToken_ = consumes<reco::VertexCollection>(
137  pset.getUntrackedParameter<edm::InputTag>("offlinePV", edm::InputTag("offlinePrimaryVertices")));
138  g4_simTk_Token_ = consumes<edm::SimTrackContainer>(edm::InputTag("g4SimHits"));
139  g4_simVtx_Token_ = consumes<edm::SimVertexContainer>(edm::InputTag("g4SimHits"));
140  famos_simTk_Token_ = consumes<edm::SimTrackContainer>(edm::InputTag("fastSimProducer"));
141  famos_simVtx_Token_ = consumes<edm::SimVertexContainer>(edm::InputTag("fastSimProducer"));
142  hepMC_Token_ = consumes<edm::HepMCProduct>(edm::InputTag("generatorSmeared"));
143  genjets_Token_ = consumes<reco::GenJetCollection>(edm::InputTag("ak4GenJets"));
144 
145  genpartToken_ = consumes<reco::GenParticleCollection>(edm::InputTag("genParticles"));
146 
147  consumes<reco::TrackToTrackingParticleAssociator>(edm::InputTag("trackAssociatorByHitsForPhotonValidation"));
148 
149  nEvt_ = 0;
150  nEntry_ = 0;
151  nRecConv_ = 0;
152  nRecConvAss_ = 0;
154  nInvalidPCA_ = 0;
155 }
edm::EDGetTokenT< EcalRecHitCollection > barrelEcalHits_
const edm::ESGetToken< CaloGeometry, CaloGeometryRecord > caloGeometryToken_
const edm::ESGetToken< MagneticField, IdealMagneticFieldRecord > magneticFieldToken_
edm::EDGetTokenT< edm::SimVertexContainer > g4_simVtx_Token_
edm::EDGetTokenT< reco::VertexCollection > offline_pvToken_
std::string photonCollectionProducer_
std::string photonCollection_
edm::EDGetTokenT< edm::HepMCProduct > hepMC_Token_
std::string fName_
edm::EDGetTokenT< edm::SimVertexContainer > famos_simVtx_Token_
const edm::ESGetToken< TransientTrackBuilder, TransientTrackRecord > transientTrackBuilderToken_
edm::EDGetTokenT< reco::PFCandidateCollection > pfCandidates_
edm::EDGetTokenT< edm::View< reco::Track > > conversionIOTrackPr_Token_
edm::EDGetTokenT< EcalRecHitCollection > endcapEcalHits_
edm::EDGetTokenT< edm::ValueMap< std::vector< reco::PFCandidateRef > > > particleBasedIso_token
edm::EDGetTokenT< edm::SimTrackContainer > g4_simTk_Token_
edm::ParameterSet parameters_
std::string valueMapPhoPFCandIso_
edm::EDGetTokenT< TrackingParticleCollection > token_tp_
edm::EDGetTokenT< reco::GenParticleCollection > genpartToken_
edm::EDGetTokenT< reco::GenJetCollection > genjets_Token_
edm::InputTag conversionOITrackProducer_
edm::EDGetTokenT< reco::PhotonCollection > photonCollectionToken_
edm::InputTag conversionIOTrackProducer_
edm::EDGetTokenT< edm::View< reco::Track > > conversionOITrackPr_Token_
edm::EDGetTokenT< edm::SimTrackContainer > famos_simTk_Token_

◆ ~PhotonValidator()

PhotonValidator::~PhotonValidator ( )
override

Definition at line 157 of file PhotonValidator.cc.

157 {}

Member Function Documentation

◆ analyze()

void PhotonValidator::analyze ( const edm::Event e,
const edm::EventSetup esup 
)
overridevirtual

uncleaned

Reimplemented from DQMOneEDAnalyzer<>.

Definition at line 3169 of file PhotonValidator.cc.

References funct::abs(), MillePedeAlignmentAlgorithm_cfi::algoName, barrelEcalHits_, edm::RefVector< C, T, F >::begin(), edm::SortedCollection< T, SORT >::begin(), caloGeometryToken_, ALCARECOTkAlJpsiMuMu_cff::charge, hltPixelTracks_cff::chi2, ChiSquaredProbability(), edm::RefVector< C, T, F >::clear(), conversionIOTrackPr_Token_, conversionOITrackPr_Token_, pwdgSkimBPark_cfi::conversions, reco::Photon::conversions(), convTrackMinPtCut_, d0, dCotCutOn_, dCotCutValue_, dCotHardCutValue_, dumpMFGeometry_cfg::delta, spr::deltaEta, SiPixelRawToDigiRegional_cfi::deltaPhi, PbPb_ZMuSkimMuonDPG_cff::deltaR, HLT_2022v15_cff::dEta, HLT_2022v15_cff::dPhi, HGC3DClusterGenMatchSelector_cfi::dR, MillePedeFileConverter_cfg::e, reco::PFCandidate::e, reco::Photon::ecalRecHitSumEtConeDR04(), relativeConstraints::empty, edm::RefVector< C, T, F >::end(), edm::SortedCollection< T, SORT >::end(), edm::ValueMap< T >::end(), endcapEcalHits_, reco::LeafCandidate::energy(), EgHLTOffHistBins_cfi::et, reco::LeafCandidate::et(), reco::LeafCandidate::eta(), etaTransformation(), famos_simTk_Token_, famos_simVtx_Token_, fastSim_, dqm::impl::MonitorElement::Fill(), HcalObjRepresent::Fill(), fName_, g4_simTk_Token_, g4_simVtx_Token_, reco::PFCandidate::gamma, particleFlowDQM_cff::genJetCollection, genjets_Token_, GenParticle::GenParticle, AJJGenJetFilter_cfi::genParticles, genpartToken_, edm::RefToBase< T >::get(), edm::EventSetup::getHandle(), edm::ParameterSet::getParameter(), good, reco::PFCandidate::h, reco::PFCandidate::h0, h2_Chi2VsEta_, h2_Chi2VsR_, h2_convVtxdRVsEta_, h2_convVtxdRVsR_, h2_convVtxRrecVsTrue_, h2_DCotTracksVsEta_, h2_DCotTracksVsR_, h2_DPhiTracksAtEcalVsEta_, h2_DPhiTracksAtEcalVsR_, h2_DPhiTracksAtVtxVsEta_, h2_DPhiTracksAtVtxVsR_, h2_dzPVVsR_, h2_ecalRecHitSumEtConeDR04VsEt_, h2_ecalRecHitSumEtConeDR04VsEta_, h2_ecalRecHitSumEtConeDR04VsEtaBkg_, h2_ecalRecHitSumEtConeDR04VsEtBkg_, h2_EoverEtrueVsEoverP_, h2_EoverEtrueVsEta_, h2_EoverEtrueVsR_, h2_EoverPVsEta_, h2_EoverPVsR_, h2_eResVsEt_, h2_eResVsEta_, h2_eResVsR9_, h2_etaVsRreco_, h2_etaVsRsim_, h2_hcalTowerSumEtConeDR04VsEt_, h2_hcalTowerSumEtConeDR04VsEta_, h2_hcalTowerSumEtConeDR04VsEtaBkg_, h2_hcalTowerSumEtConeDR04VsEtBkg_, h2_hOverEVsEt_, h2_hOverEVsEta_, h2_hOverEVsEtaBkg_, h2_hOverEVsEtBkg_, h2_isoTrkSolidConeDR04VsEt_, h2_isoTrkSolidConeDR04VsEta_, h2_isoTrkSolidConeDR04VsEtaBkg_, h2_isoTrkSolidConeDR04VsEtBkg_, h2_nTrkSolidConeDR04VsEt_, h2_nTrkSolidConeDR04VsEta_, h2_nTrkSolidConeDR04VsEtaBkg_, h2_nTrkSolidConeDR04VsEtBkg_, h2_PoverPtrueVsEoverP_, h2_PoverPtrueVsEta_, h2_PtRecVsPtSim_, h2_PtRecVsPtSimMixProv_, h2_r1VsEt_, h2_r1VsEta_, h2_r1VsEtaBkg_, h2_r1VsEtBkg_, h2_r2VsEt_, h2_r2VsEta_, h2_r2VsEtaBkg_, h2_r2VsEtBkg_, h2_r9VsEt_, h2_r9VsEtaBkg_, h2_r9VsEtBkg_, h2_sceResVsR9_, h2_sigmaIetaIetaVsEt_, h2_sigmaIetaIetaVsEta_, h2_sigmaIetaIetaVsEtaBkg_, h2_sigmaIetaIetaVsEtBkg_, h2_TkPtPull_, h_AllSimConv_, h_chHadIso_, h_chHadIso_miniAOD_, h_convAlgo_, h_convERes_, h_convEta_, h_convEtaBkg_, h_convPhi_, h_convPhiBkg_, h_convPtRes_, h_convSLVtxRvsZ_, h_convVtxdEta_, h_convVtxdPhi_, h_convVtxdR_, h_convVtxdR_barrel_, h_convVtxdR_endcap_, h_convVtxdX_, h_convVtxdX_barrel_, h_convVtxdX_endcap_, h_convVtxdY_, h_convVtxdY_barrel_, h_convVtxdY_endcap_, h_convVtxdZ_, h_convVtxdZ_barrel_, h_convVtxdZ_endcap_, h_convVtxRvsZ_, h_convVtxRvsZ_zoom_, h_convVtxRvsZBkg_, h_convVtxYvsX_, h_convVtxYvsX_zoom_, h_convVtxYvsXBkg_, h_DCotTracks_, h_DCotTracksBkg_, h_DEtaTracksAtEcal_, h_DPhiTracksAtEcal_, h_DPhiTracksAtVtx_, h_DPhiTracksAtVtxBkg_, h_dRPhoPFcand_ChHad_Cleaned_, h_dRPhoPFcand_ChHad_unCleaned_, h_dRPhoPFcand_NeuHad_Cleaned_, h_dRPhoPFcand_NeuHad_unCleaned_, h_dRPhoPFcand_Pho_Cleaned_, h_dRPhoPFcand_Pho_unCleaned_, h_dzPVFromTracks_, h_ecalRecHitSumEtConeDR04_, h_ecalRecHitSumEtConeDR04_miniAOD_, h_ecalRecHitSumEtConeDR04Bkg_, h_EoverP_SL_, h_EoverPTracks_, h_EoverPTracksBkg_, h_etOutsideMustache_, h_EtR9Less093_, h_full5x5_r9_miniAOD_, h_full5x5_sigmaIetaIeta_miniAOD_, h_gamgamMass_, h_gamgamMassRegr1_, h_gamgamMassRegr2_, h_hcalTowerBcSumEtConeDR04_, h_hcalTowerBcSumEtConeDR04_miniAOD_, h_hcalTowerSumEtConeDR04_, h_hcalTowerSumEtConeDR04_miniAOD_, h_hcalTowerSumEtConeDR04Bkg_, h_hOverE_, h_hOverE_miniAOD_, h_hOverEBkg_, h_invMass_, h_IOinnermostHitR_, h_isoTrkSolidConeDR04_, h_isoTrkSolidConeDR04_miniAOD_, h_isoTrkSolidConeDR04Bkg_, h_MatchedSimJet_, h_MatchedSimJetBadCh_, h_MatchedSimPho_, h_MatchedSimPhoBadCh_, h_mvaOut_, h_mvaOutBkg_, h_nCluOutsideMustache_, h_nConv_, h_newhOverE_, h_newhOverE_miniAOD_, h_nHadIso_, h_nHadIso_miniAOD_, h_nPho_, h_nRecoVtx_, h_nSimConv_, h_nSimPho_, h_nTrkSolidConeDR04_, h_nTrkSolidConeDR04_miniAOD_, h_nTrkSolidConeDR04Bkg_, h_OIinnermostHitR_, h_pfMva_, h_phoBkgDEta_, h_phoBkgDPhi_, h_phoBkgE_, h_phoBkgEt_, h_phoBkgEta_, h_phoBkgPhi_, h_phoDEta_, h_phoDPhi_, h_phoE_, h_phoE_miniAOD_, h_phoERes_, h_phoERes_miniAOD_, h_phoEResRegr1_, h_phoEResRegr2_, h_phoEt_, h_phoEt_miniAOD_, h_phoEta_, h_phoIso_, h_phoIso_miniAOD_, h_phoPhi_, h_phoPixSeedSize_, h_phoSigmaEoE_, h_phoSigmaEoE_miniAOD_, h_PoverETracks_, h_PoverETracksBkg_, h_psE_, h_r1_, h_r1_miniAOD_, h_r1Bkg_, h_r2_, h_r2_miniAOD_, h_r2Bkg_, h_r9_, h_r9_miniAOD_, h_r9Bkg_, h_r9VsNofTracks_, h_RecoConvTwoMTracks_, h_RecoConvTwoTracks_, h_scBkgE_, h_scBkgEt_, h_scBkgEta_, h_scBkgPhi_, h_scE_, h_scEt_, h_scEta_, h_scEta_miniAOD_, h_scEtaWidth_, h_scPhi_, h_scPhi_miniAOD_, h_scPhiWidth_, h_sigmaIetaIeta_, h_sigmaIetaIeta_miniAOD_, h_sigmaIetaIetaBkg_, h_SimConvEtaPix_, h_SimConvOneMTracks_, h_SimConvTwoMTracks_, h_SimConvTwoMTracksAndVtxPGT0005_, h_SimConvTwoMTracksAndVtxPGT0_, h_SimConvTwoTracks_, h_simConvVtxRvsZ_, h_simConvVtxYvsX_, h_SimJet_, h_SimPho_, h_SimPhoMotherEt_, h_SimPhoMotherEta_, h_simTkEta_, h_simTkPt_, h_SumPtOverPhoPt_ChHad_Cleaned_, h_SumPtOverPhoPt_ChHad_unCleaned_, h_SumPtOverPhoPt_NeuHad_Cleaned_, h_SumPtOverPhoPt_NeuHad_unCleaned_, h_SumPtOverPhoPt_Pho_Cleaned_, h_SumPtOverPhoPt_Pho_unCleaned_, h_tkChi2_, h_tkChi2Large_, h_tkChi2SL_, h_TkD0_, h_TkPtPull_, h_trkAlgo_, h_trkProv_, h_VisSimConv_, h_vtxChi2_, h_vtxChi2Prob_, h_zPVFromTracks_, reco::Photon::hadronicOverEm(), hBCEnergyOverTrackPout_, reco::Photon::hcalTowerSumEtConeDR04(), MuonClassifier_cff::hepMC, hepMC_Token_, EgHLTOffHistBins_cfi::hOverE, mps_fire::i, edm::Ref< C, T, F >::isNonnull(), isRunCentrally_, edm::HandleBase::isValid(), edm::Ref< C, T, F >::key(), cmsLHEtoEOSManager::l, edm::EDConsumerBase::labelsForToken(), likelihoodCut_, muonTagProbeFilters_cff::matched, mcConvEta_, mcConvPhi_, mcConvR_, mcConvX_, mcConvY_, mcConvZ_, mcEta_, mcJetEta_, mcJetPhi_, mcPhi_, minPhoEtCut_, reco::TrackBase::momentum(), ndof, nEvt_, nHits, nHitsVsEta_, nHitsVsR_, TrackCollections2monitor_cff::normalizedChi2, nRecConv_, nRecConvAss_, nRecConvAssWithEcal_, nSimConv_, nSimPho_, BeamSpotPI::nTracks, reco::Photon::nTrkSolidConeDR04(), TrackCollections2monitor_cff::numberOfValidHits, offline_pvToken_, LaserDQM_cfg::p1, SiStripOfflineCRack_cfg::p2, p_Chi2VsEta_, p_Chi2VsR_, p_convVtxdRVsEta_, p_convVtxdRVsR_, p_convVtxdXVsX_, p_convVtxdYVsY_, p_convVtxdZVsZ_, p_DCotTracksVsEta_, p_DCotTracksVsR_, p_DPhiTracksAtEcalVsEta_, p_DPhiTracksAtEcalVsR_, p_DPhiTracksAtVtxVsEta_, p_DPhiTracksAtVtxVsR_, p_dzPVVsEta_, p_dzPVVsR_, p_ecalRecHitSumEtConeDR04VsEt_, p_ecalRecHitSumEtConeDR04VsEta_, p_ecalRecHitSumEtConeDR04VsEtaBkg_, p_ecalRecHitSumEtConeDR04VsEtBkg_, p_EoverEtrueVsEta_, p_EoverEtrueVsR_, p_EoverPVsEta_, p_EoverPVsR_, p_eResVsEt_, p_eResVsEta_, p_eResVsNVtx_, p_eResVsR9_, p_eResVsR_, p_hcalTowerBcSumEtConeDR04VsEt_, p_hcalTowerBcSumEtConeDR04VsEta_, p_hcalTowerSumEtConeDR04VsEt_, p_hcalTowerSumEtConeDR04VsEta_, p_hcalTowerSumEtConeDR04VsEtaBkg_, p_hcalTowerSumEtConeDR04VsEtBkg_, p_hOverEVsEt_, p_hOverEVsEta_, p_hOverEVsEtaBkg_, p_hOverEVsEtBkg_, p_isoTrkSolidConeDR04VsEtaBkg_, p_isoTrkSolidConeDR04VsEtBkg_, p_newhOverEVsEt_, p_newhOverEVsEta_, p_nHitsVsEta_, p_nHitsVsEtaSL_, p_nHitsVsR_, p_nHitsVsRSL_, p_nTrkSolidConeDR04VsEtaBkg_, p_nTrkSolidConeDR04VsEtBkg_, p_PoverPtrueVsEta_, p_r1VsEtaBkg_, p_r1VsEtBkg_, p_r2VsEtaBkg_, p_r2VsEtBkg_, p_r9VsEta_, p_sceResVsR9_, p_sigmaEoEVsEt_, p_sigmaEoEVsEta_, p_sigmaEoEVsNVtx_, p_sigmaIetaIetaVsEtaBkg_, p_sigmaIetaIetaVsEtBkg_, parameters_, parents, particleBasedIso_token, EgammaValidation_cff::pdgId, pfCandidates_, reco::LeafCandidate::phi(), phiNormalization(), nanoDQM_cfi::Photon, ExoticaDQM_cfi::photonCollection, photonCollectionToken_, gedPhotonSequence_cff::photonIso, pi, funct::pow(), edm::Handle< T >::product(), HiEvtPlane_cfi::pterror, edm::RefToBaseVector< T >::push_back(), edm::RefVector< C, T, F >::push_back(), multPhiCorr_741_25nsDY_cfi::px, multPhiCorr_741_25nsDY_cfi::py, submitPVResolutionJobs::q, diffTwoXMLs::r1, reco::Photon::r1x5(), diffTwoXMLs::r2, reco::Photon::r2x5(), reco::Photon::r9(), electrons_cff::r9, reco::Photon::regression1, reco::Photon::regression2, hitfit::scalar(), reco::Photon::sigmaIetaIeta(), funct::sin(), edm::RefVector< C, T, F >::size(), optionsL1T::skip, jetsAK4_CHS_cff::sort, mathSSE::sqrt(), reco::Photon::superCluster(), theCaloGeom_, theConvTP_, thePhotonMCTruthFinder_, token_tp_, cmsswSequenceInfo::tp, GenTrackMatcher_cfi::trackAssociator, muonClassificationByHits_cfi::trackingParticles, tracks, transientTrackBuilderToken_, reco::Photon::trkSumPtSolidConeDR04(), photonValidationSequence_cff::useTP, and z.

3169  {
3170  thePhotonMCTruthFinder_->clear();
3171  using namespace edm;
3172  // const float etaPhiDistance=0.01;
3173  // Fiducial region
3174  // const float TRK_BARL =0.9;
3175  const float BARL = 1.4442; // DAQ TDR p.290
3176  // const float END_LO = 1.566; // unused
3177  const float END_HI = 2.5;
3178  // Electron mass
3179  //const Float_t mElec= 0.000511;
3180 
3182  e.getByLabel("trackAssociatorByHitsForPhotonValidation", theHitsAssociator);
3184 
3185  nEvt_++;
3186  LogInfo("PhotonValidator") << "PhotonValidator Analyzing event number: " << e.id() << " Global Counter " << nEvt_
3187  << "\n";
3188 
3189  // get the geometry from the event setup:
3191 
3193  e.getByToken(offline_pvToken_, vtxH);
3194  h_nRecoVtx_->Fill(float(vtxH->size()));
3195 
3196  // Transform Track into TransientTrack (needed by the Vertex fitter)
3197  auto theTTB = esup.getHandle(transientTrackBuilderToken_);
3198 
3200  Handle<reco::PhotonCollection> photonHandle;
3201  e.getByToken(photonCollectionToken_, photonHandle);
3202  const reco::PhotonCollection photonCollection = *(photonHandle.product());
3203  if (!photonHandle.isValid()) {
3204  edm::LogError("PhotonProducer") << "Error! Can't get the Photon collection " << std::endl;
3205  return;
3206  }
3207 
3208  // Get the PF refined cluster collection
3209  Handle<reco::PFCandidateCollection> pfCandidateHandle;
3210  e.getByToken(pfCandidates_, pfCandidateHandle);
3211  if (!pfCandidateHandle.isValid()) {
3212  edm::LogError("PhotonValidator") << "Error! Can't get the product pfCandidates " << std::endl;
3213  }
3214 
3215  edm::Handle<edm::ValueMap<std::vector<reco::PFCandidateRef> > > phoToParticleBasedIsoMapHandle;
3216  edm::ValueMap<std::vector<reco::PFCandidateRef> > phoToParticleBasedIsoMap;
3217  if (fName_ == "pfPhotonValidator") {
3218  e.getByToken(particleBasedIso_token, phoToParticleBasedIsoMapHandle);
3219  if (!phoToParticleBasedIsoMapHandle.isValid()) {
3220  edm::LogInfo("PhotonValidator") << "Error! Can't get the product: valueMap photons to particle based iso "
3221  << std::endl;
3222  }
3223  phoToParticleBasedIsoMap = *(phoToParticleBasedIsoMapHandle.product());
3224  }
3225 
3226  Handle<edm::View<reco::Track> > outInTrkHandle;
3227  Handle<edm::View<reco::Track> > inOutTrkHandle;
3228  if (!fastSim_) {
3230  e.getByToken(conversionOITrackPr_Token_, outInTrkHandle);
3232  e.getByToken(conversionIOTrackPr_Token_, inOutTrkHandle);
3233 
3234  // Loop over Out In Tracks
3235  int iTrk = 0;
3236  int nHits = 0;
3237  for (View<reco::Track>::const_iterator iTk = outInTrkHandle->begin(); iTk != outInTrkHandle->end(); iTk++) {
3238  h_OIinnermostHitR_->Fill(sqrt(iTk->innerPosition().Perp2()));
3239  for (trackingRecHit_iterator itHits = iTk->extra()->recHitsBegin(); itHits != iTk->extra()->recHitsEnd();
3240  ++itHits) {
3241  if ((*itHits)->isValid()) {
3242  nHits++;
3243  }
3244  }
3245 
3246  iTrk++;
3247  }
3248 
3249  // Loop over In Out Tracks Barrel
3250  iTrk = 0;
3251  for (View<reco::Track>::const_iterator iTk = inOutTrkHandle->begin(); iTk != inOutTrkHandle->end(); iTk++) {
3252  h_IOinnermostHitR_->Fill(sqrt(iTk->innerPosition().Perp2()));
3253  nHits = 0;
3254  for (trackingRecHit_iterator itHits = iTk->extra()->recHitsBegin(); itHits != iTk->extra()->recHitsEnd();
3255  ++itHits) {
3256  if ((*itHits)->isValid()) {
3257  nHits++;
3258  }
3259  }
3260  iTrk++;
3261  }
3262 
3263  } // if !fastSim
3264 
3266  //get simtrack info
3267  std::vector<SimTrack> theSimTracks;
3268  std::vector<SimVertex> theSimVertices;
3271 
3272  if (!fastSim_) {
3273  e.getByToken(g4_simTk_Token_, SimTk);
3274  e.getByToken(g4_simVtx_Token_, SimVtx);
3275  } else {
3276  e.getByToken(famos_simTk_Token_, SimTk);
3277  e.getByToken(famos_simVtx_Token_, SimVtx);
3278  }
3279 
3280  theSimTracks.insert(theSimTracks.end(), SimTk->begin(), SimTk->end());
3281  theSimVertices.insert(theSimVertices.end(), SimVtx->begin(), SimVtx->end());
3282  std::vector<PhotonMCTruth> mcPhotons = thePhotonMCTruthFinder_->find(theSimTracks, theSimVertices);
3283 
3285  e.getByToken(hepMC_Token_, hepMC);
3286  const HepMC::GenEvent* myGenEvent = hepMC->GetEvent();
3287 
3289  e.getByToken(genpartToken_, genParticles);
3290 
3291  // get generated jets
3292  Handle<reco::GenJetCollection> GenJetsHandle;
3293  e.getByToken(genjets_Token_, GenJetsHandle);
3294  reco::GenJetCollection genJetCollection = *(GenJetsHandle.product());
3295 
3296  // Get electron tracking truth
3297  bool useTP = parameters_.getParameter<bool>("useTP");
3299  edm::Handle<TrackingParticleCollection> ElectronTPHandle;
3300  if (useTP) {
3301  if (!fastSim_) {
3302  e.getByToken(token_tp_, ElectronTPHandle);
3303  trackingParticles = *(ElectronTPHandle.product());
3304  }
3305  }
3306 
3308  std::vector<reco::PhotonCollection::const_iterator> StoRMatchedConvertedPhotons;
3309  reco::SimToRecoCollection OISimToReco;
3310  reco::SimToRecoCollection IOSimToReco;
3311  // Reco to Sim
3312  reco::RecoToSimCollection OIRecoToSim;
3313  reco::RecoToSimCollection IORecoToSim;
3314 
3315  if (useTP) {
3316  if (!fastSim_) {
3317  // Sim to Reco
3318  OISimToReco = trackAssociator->associateSimToReco(outInTrkHandle, ElectronTPHandle);
3319  IOSimToReco = trackAssociator->associateSimToReco(inOutTrkHandle, ElectronTPHandle);
3320  // Reco to Sim
3321  OIRecoToSim = trackAssociator->associateRecoToSim(outInTrkHandle, ElectronTPHandle);
3322  IORecoToSim = trackAssociator->associateRecoToSim(inOutTrkHandle, ElectronTPHandle);
3323  }
3324  }
3325  //
3326  vector<reco::SimToRecoCollection*> StoRCollPtrs;
3327  StoRCollPtrs.push_back(&OISimToReco);
3328  StoRCollPtrs.push_back(&IOSimToReco);
3329  vector<reco::RecoToSimCollection*> RtoSCollPtrs;
3330  RtoSCollPtrs.push_back(&OIRecoToSim);
3331  RtoSCollPtrs.push_back(&IORecoToSim);
3332  //
3333  for (int i = 0; i < 2; i++)
3334  nSimPho_[i] = 0;
3335  for (int i = 0; i < 2; i++)
3336  nSimConv_[i] = 0;
3337 
3338  std::vector<reco::PhotonRef> myPhotons;
3339 
3340  for (unsigned int iPho = 0; iPho < photonHandle->size(); iPho++) {
3341  reco::PhotonRef phoRef(reco::PhotonRef(photonHandle, iPho));
3342  // for( reco::PhotonCollection::const_iterator iPho = photonCollection.begin(); iPho != photonCollection.end(); iPho++) {
3343  if (fabs(phoRef->eta()) > 2.5)
3344  continue;
3345  myPhotons.push_back(phoRef);
3346  }
3347 
3348  std::sort(myPhotons.begin(), myPhotons.end(), sortPhotons());
3349  // if ( ! isRunCentrally_ ) {
3350  if (myPhotons.size() >= 2) {
3351  if (myPhotons[0]->et() > 40 && myPhotons[1]->et() > 25) {
3352  math::XYZTLorentzVector p12 = myPhotons[0]->p4() + myPhotons[1]->p4();
3353  math::XYZTLorentzVector p12_regr1 =
3354  myPhotons[0]->p4(reco::Photon::regression1) + myPhotons[1]->p4(reco::Photon::regression1);
3355  math::XYZTLorentzVector p12_regr2 =
3356  myPhotons[0]->p4(reco::Photon::regression2) + myPhotons[1]->p4(reco::Photon::regression2);
3357  float gamgamMass2 = p12.Dot(p12);
3358  float gamgamMass2_regr1 = p12_regr1.Dot(p12_regr1);
3359  float gamgamMass2_regr2 = p12_regr2.Dot(p12_regr2);
3360 
3362  if (gamgamMass2 > 0) {
3363  // total
3364  h_gamgamMass_[0][0]->Fill(sqrt(gamgamMass2));
3365  if (myPhotons[0]->isEB() && myPhotons[1]->isEB())
3366  h_gamgamMass_[0][1]->Fill(sqrt(gamgamMass2));
3367  if ((myPhotons[0]->isEE() && myPhotons[1]->isEE()) || (myPhotons[0]->isEE() && myPhotons[1]->isEB()) ||
3368  (myPhotons[0]->isEB() && myPhotons[1]->isEE()))
3369  h_gamgamMass_[0][2]->Fill(sqrt(gamgamMass2));
3370  // Golden photons
3371  if (myPhotons[0]->r9() > 0.94 && myPhotons[1]->r9() > 0.94) {
3372  h_gamgamMass_[1][0]->Fill(sqrt(gamgamMass2));
3373  if (myPhotons[0]->isEB() && myPhotons[1]->isEB())
3374  h_gamgamMass_[1][1]->Fill(sqrt(gamgamMass2));
3375  if ((myPhotons[0]->isEE() && myPhotons[1]->isEE()) || (myPhotons[0]->isEE() && myPhotons[1]->isEB()) ||
3376  (myPhotons[0]->isEB() && myPhotons[1]->isEE()))
3377  h_gamgamMass_[1][2]->Fill(sqrt(gamgamMass2));
3378  }
3379  // both photons converted
3380  if (!myPhotons[0]->conversions().empty() && !myPhotons[1]->conversions().empty()) {
3381  if (myPhotons[0]->conversions()[0]->nTracks() == 2 && myPhotons[1]->conversions()[0]->nTracks() == 2) {
3382  float chi2Prob1 = ChiSquaredProbability(myPhotons[0]->conversions()[0]->conversionVertex().chi2(),
3383  myPhotons[0]->conversions()[0]->conversionVertex().ndof());
3384  float chi2Prob2 = ChiSquaredProbability(myPhotons[1]->conversions()[0]->conversionVertex().chi2(),
3385  myPhotons[1]->conversions()[0]->conversionVertex().ndof());
3386  if (chi2Prob1 > 0.0005 && chi2Prob2 > 0.0005) {
3387  h_gamgamMass_[2][0]->Fill(sqrt(gamgamMass2));
3388  if (myPhotons[0]->isEB() && myPhotons[1]->isEB()) {
3389  h_gamgamMass_[2][1]->Fill(sqrt(gamgamMass2));
3390  }
3391  if ((myPhotons[0]->isEE() && myPhotons[1]->isEE()) || (myPhotons[0]->isEE() && myPhotons[1]->isEB()) ||
3392  (myPhotons[0]->isEB() && myPhotons[1]->isEE())) {
3393  h_gamgamMass_[2][2]->Fill(sqrt(gamgamMass2));
3394  }
3395  }
3396  }
3397  } else if (!myPhotons[0]->conversions().empty() && myPhotons[1]->conversions().empty() &&
3398  myPhotons[1]->r9() > 0.93) { // one photon converted
3399  if (myPhotons[0]->conversions()[0]->nTracks() == 2) {
3400  float chi2Prob1 = ChiSquaredProbability(myPhotons[0]->conversions()[0]->conversionVertex().chi2(),
3401  myPhotons[0]->conversions()[0]->conversionVertex().ndof());
3402  if (chi2Prob1 > 0.0005) {
3403  h_gamgamMass_[2][0]->Fill(sqrt(gamgamMass2));
3404  if (myPhotons[0]->isEB() && myPhotons[1]->isEB()) {
3405  h_gamgamMass_[2][1]->Fill(sqrt(gamgamMass2));
3406  }
3407  if (myPhotons[0]->isEE() || myPhotons[1]->isEE()) {
3408  h_gamgamMass_[2][2]->Fill(sqrt(gamgamMass2));
3409  }
3410  }
3411  }
3412  } else if (!myPhotons[1]->conversions().empty() && myPhotons[0]->conversions().empty() &&
3413  myPhotons[0]->r9() > 0.93) { // one photon converted
3414  if (myPhotons[1]->conversions()[0]->nTracks() == 2) {
3415  float chi2Prob1 = ChiSquaredProbability(myPhotons[1]->conversions()[0]->conversionVertex().chi2(),
3416  myPhotons[1]->conversions()[0]->conversionVertex().ndof());
3417  if (chi2Prob1 > 0.0005) {
3418  h_gamgamMass_[2][0]->Fill(sqrt(gamgamMass2));
3419  if (myPhotons[0]->isEB() && myPhotons[1]->isEB()) {
3420  h_gamgamMass_[2][1]->Fill(sqrt(gamgamMass2));
3421  }
3422  if (myPhotons[0]->isEE() || myPhotons[1]->isEE()) {
3423  h_gamgamMass_[2][2]->Fill(sqrt(gamgamMass2));
3424  }
3425  }
3426  }
3427  }
3428  } // gamgamMass2 > 0
3429 
3431  if (gamgamMass2_regr1 > 0) {
3432  // total
3433  h_gamgamMassRegr1_[0][0]->Fill(sqrt(gamgamMass2_regr1));
3434  if (myPhotons[0]->isEB() && myPhotons[1]->isEB())
3435  h_gamgamMassRegr1_[0][1]->Fill(sqrt(gamgamMass2_regr1));
3436  if ((myPhotons[0]->isEE() && myPhotons[1]->isEE()) || (myPhotons[0]->isEE() && myPhotons[1]->isEB()) ||
3437  (myPhotons[0]->isEB() && myPhotons[1]->isEE()))
3438  h_gamgamMassRegr1_[0][2]->Fill(sqrt(gamgamMass2_regr1));
3439  // Golden photons
3440  if (myPhotons[0]->r9() > 0.94 && myPhotons[1]->r9() > 0.94) {
3441  h_gamgamMassRegr1_[1][0]->Fill(sqrt(gamgamMass2_regr1));
3442  if (myPhotons[0]->isEB() && myPhotons[1]->isEB())
3443  h_gamgamMassRegr1_[1][1]->Fill(sqrt(gamgamMass2_regr1));
3444  if ((myPhotons[0]->isEE() && myPhotons[1]->isEE()) || (myPhotons[0]->isEE() && myPhotons[1]->isEB()) ||
3445  (myPhotons[0]->isEB() && myPhotons[1]->isEE()))
3446  h_gamgamMassRegr1_[1][2]->Fill(sqrt(gamgamMass2_regr1));
3447  }
3448 
3449  // both photons converted
3450  if (!myPhotons[0]->conversions().empty() && !myPhotons[1]->conversions().empty()) {
3451  if (myPhotons[0]->conversions()[0]->nTracks() == 2 && myPhotons[1]->conversions()[0]->nTracks() == 2) {
3452  float chi2Prob1 = ChiSquaredProbability(myPhotons[0]->conversions()[0]->conversionVertex().chi2(),
3453  myPhotons[0]->conversions()[0]->conversionVertex().ndof());
3454  float chi2Prob2 = ChiSquaredProbability(myPhotons[1]->conversions()[0]->conversionVertex().chi2(),
3455  myPhotons[1]->conversions()[0]->conversionVertex().ndof());
3456  if (chi2Prob1 > 0.0005 && chi2Prob2 > 0.0005) {
3457  h_gamgamMassRegr1_[2][0]->Fill(sqrt(gamgamMass2_regr1));
3458  if (myPhotons[0]->isEB() && myPhotons[1]->isEB()) {
3459  h_gamgamMassRegr1_[2][1]->Fill(sqrt(gamgamMass2_regr1));
3460  }
3461  if ((myPhotons[0]->isEE() && myPhotons[1]->isEE()) || (myPhotons[0]->isEE() && myPhotons[1]->isEB()) ||
3462  (myPhotons[0]->isEB() && myPhotons[1]->isEE())) {
3463  h_gamgamMassRegr1_[2][2]->Fill(sqrt(gamgamMass2_regr1));
3464  }
3465  }
3466  }
3467  } else if (!myPhotons[0]->conversions().empty() && myPhotons[1]->conversions().empty() &&
3468  myPhotons[1]->r9() > 0.93) { // one photon converted
3469  if (myPhotons[0]->conversions()[0]->nTracks() == 2) {
3470  float chi2Prob1 = ChiSquaredProbability(myPhotons[0]->conversions()[0]->conversionVertex().chi2(),
3471  myPhotons[0]->conversions()[0]->conversionVertex().ndof());
3472  if (chi2Prob1 > 0.0005) {
3473  h_gamgamMassRegr1_[2][0]->Fill(sqrt(gamgamMass2_regr1));
3474  if (myPhotons[0]->isEB() && myPhotons[1]->isEB()) {
3475  h_gamgamMassRegr1_[2][1]->Fill(sqrt(gamgamMass2_regr1));
3476  }
3477  if (myPhotons[0]->isEE() || myPhotons[1]->isEE()) {
3478  h_gamgamMassRegr1_[2][2]->Fill(sqrt(gamgamMass2_regr1));
3479  }
3480  }
3481  }
3482  } else if (!myPhotons[1]->conversions().empty() && myPhotons[0]->conversions().empty() &&
3483  myPhotons[0]->r9() > 0.93) { // one photon converted
3484  if (myPhotons[1]->conversions()[0]->nTracks() == 2) {
3485  float chi2Prob1 = ChiSquaredProbability(myPhotons[1]->conversions()[0]->conversionVertex().chi2(),
3486  myPhotons[1]->conversions()[0]->conversionVertex().ndof());
3487  if (chi2Prob1 > 0.0005) {
3488  h_gamgamMassRegr1_[2][0]->Fill(sqrt(gamgamMass2_regr1));
3489  if (myPhotons[0]->isEB() && myPhotons[1]->isEB()) {
3490  h_gamgamMassRegr1_[2][1]->Fill(sqrt(gamgamMass2_regr1));
3491  }
3492  if (myPhotons[0]->isEE() || myPhotons[1]->isEE()) {
3493  h_gamgamMassRegr1_[2][2]->Fill(sqrt(gamgamMass2_regr1));
3494  }
3495  }
3496  }
3497  }
3498  } // gamgamMass2_regr1 > 0
3499 
3501  if (gamgamMass2_regr2 > 0) {
3502  // total
3503  h_gamgamMassRegr2_[0][0]->Fill(sqrt(gamgamMass2_regr2));
3504  if (myPhotons[0]->isEB() && myPhotons[1]->isEB())
3505  h_gamgamMassRegr2_[0][1]->Fill(sqrt(gamgamMass2_regr2));
3506  if ((myPhotons[0]->isEE() && myPhotons[1]->isEE()) || (myPhotons[0]->isEE() && myPhotons[1]->isEB()) ||
3507  (myPhotons[0]->isEB() && myPhotons[1]->isEE()))
3508  h_gamgamMassRegr2_[0][2]->Fill(sqrt(gamgamMass2_regr2));
3509  // Golden photons
3510  if (myPhotons[0]->r9() > 0.94 && myPhotons[1]->r9() > 0.94) {
3511  h_gamgamMassRegr2_[1][0]->Fill(sqrt(gamgamMass2_regr2));
3512  if (myPhotons[0]->isEB() && myPhotons[1]->isEB())
3513  h_gamgamMassRegr2_[1][1]->Fill(sqrt(gamgamMass2_regr2));
3514  if ((myPhotons[0]->isEE() && myPhotons[1]->isEE()) || (myPhotons[0]->isEE() && myPhotons[1]->isEB()) ||
3515  (myPhotons[0]->isEB() && myPhotons[1]->isEE()))
3516  h_gamgamMassRegr2_[1][2]->Fill(sqrt(gamgamMass2_regr2));
3517  }
3518 
3519  // both photons converted
3520  if (!myPhotons[0]->conversions().empty() && !myPhotons[1]->conversions().empty()) {
3521  if (myPhotons[0]->conversions()[0]->nTracks() == 2 && myPhotons[1]->conversions()[0]->nTracks() == 2) {
3522  float chi2Prob1 = ChiSquaredProbability(myPhotons[0]->conversions()[0]->conversionVertex().chi2(),
3523  myPhotons[0]->conversions()[0]->conversionVertex().ndof());
3524  float chi2Prob2 = ChiSquaredProbability(myPhotons[1]->conversions()[0]->conversionVertex().chi2(),
3525  myPhotons[1]->conversions()[0]->conversionVertex().ndof());
3526  if (chi2Prob1 > 0.0005 && chi2Prob2 > 0.0005) {
3527  h_gamgamMassRegr2_[2][0]->Fill(sqrt(gamgamMass2_regr2));
3528  if (myPhotons[0]->isEB() && myPhotons[1]->isEB()) {
3529  h_gamgamMassRegr2_[2][1]->Fill(sqrt(gamgamMass2_regr2));
3530  }
3531  if ((myPhotons[0]->isEE() && myPhotons[1]->isEE()) || (myPhotons[0]->isEE() && myPhotons[1]->isEB()) ||
3532  (myPhotons[0]->isEB() && myPhotons[1]->isEE())) {
3533  h_gamgamMassRegr2_[2][2]->Fill(sqrt(gamgamMass2_regr2));
3534  }
3535  }
3536  }
3537  } else if (!myPhotons[0]->conversions().empty() && myPhotons[1]->conversions().empty() &&
3538  myPhotons[1]->r9() > 0.93) { // one photon converted
3539  if (myPhotons[0]->conversions()[0]->nTracks() == 2) {
3540  float chi2Prob1 = ChiSquaredProbability(myPhotons[0]->conversions()[0]->conversionVertex().chi2(),
3541  myPhotons[0]->conversions()[0]->conversionVertex().ndof());
3542  if (chi2Prob1 > 0.0005) {
3543  h_gamgamMassRegr2_[2][0]->Fill(sqrt(gamgamMass2_regr2));
3544  if (myPhotons[0]->isEB() && myPhotons[1]->isEB()) {
3545  h_gamgamMassRegr2_[2][1]->Fill(sqrt(gamgamMass2_regr2));
3546  }
3547  if (myPhotons[0]->isEE() || myPhotons[1]->isEE()) {
3548  h_gamgamMassRegr2_[2][2]->Fill(sqrt(gamgamMass2_regr2));
3549  }
3550  }
3551  }
3552  } else if (!myPhotons[1]->conversions().empty() && myPhotons[0]->conversions().empty() &&
3553  myPhotons[0]->r9() > 0.93) { // one photon converted
3554  if (myPhotons[1]->conversions()[0]->nTracks() == 2) {
3555  float chi2Prob1 = ChiSquaredProbability(myPhotons[1]->conversions()[0]->conversionVertex().chi2(),
3556  myPhotons[1]->conversions()[0]->conversionVertex().ndof());
3557  if (chi2Prob1 > 0.0005) {
3558  h_gamgamMassRegr2_[2][0]->Fill(sqrt(gamgamMass2_regr2));
3559  if (myPhotons[0]->isEB() && myPhotons[1]->isEB()) {
3560  h_gamgamMassRegr2_[2][1]->Fill(sqrt(gamgamMass2_regr2));
3561  }
3562  if (myPhotons[0]->isEE() || myPhotons[1]->isEE()) {
3563  h_gamgamMassRegr2_[2][2]->Fill(sqrt(gamgamMass2_regr2));
3564  }
3565  }
3566  }
3567  }
3568  } // gamgamMass2_regr2 > 0
3569  }
3570  }
3571  // }
3572 
3573  for (std::vector<PhotonMCTruth>::const_iterator mcPho = mcPhotons.begin(); mcPho != mcPhotons.end(); mcPho++) {
3574  if ((*mcPho).fourMomentum().et() < minPhoEtCut_)
3575  continue;
3576 
3577  for (HepMC::GenEvent::particle_const_iterator mcIter = myGenEvent->particles_begin();
3578  mcIter != myGenEvent->particles_end();
3579  mcIter++) {
3580  if ((*mcIter)->pdg_id() != 22)
3581  continue;
3582  bool isTheSame = false;
3583  HepMC::GenParticle* mother = nullptr;
3584  if ((*mcIter)->production_vertex()) {
3585  if ((*mcIter)->production_vertex()->particles_begin(HepMC::parents) !=
3586  (*mcIter)->production_vertex()->particles_end(HepMC::parents))
3587  mother = *((*mcIter)->production_vertex()->particles_begin(HepMC::parents));
3588  }
3589 
3590  float mcPhi = (*mcPho).fourMomentum().phi();
3591  mcPhi_ = phiNormalization(mcPhi);
3592  mcEta_ = (*mcPho).fourMomentum().pseudoRapidity();
3593  mcEta_ = etaTransformation(mcEta_, (*mcPho).primaryVertex().z());
3594  mcConvR_ = (*mcPho).vertex().perp();
3595  mcConvX_ = (*mcPho).vertex().x();
3596  mcConvY_ = (*mcPho).vertex().y();
3597  mcConvZ_ = (*mcPho).vertex().z();
3598  mcConvEta_ = (*mcPho).vertex().eta();
3599  mcConvPhi_ = (*mcPho).vertex().phi();
3600 
3601  if (fabs(mcEta_) > END_HI)
3602  continue;
3603 
3604  if (mother == nullptr || (mother != nullptr && mother->pdg_id() == 22) ||
3605  (mother != nullptr && mother->pdg_id() == 25) || (mother != nullptr && mother->pdg_id() == 35)) {
3606  double dPt = fabs((*mcIter)->momentum().perp() - (*mcPho).fourMomentum().et());
3607  float phiMother = (*mcIter)->momentum().phi();
3608  double dPhi = phiNormalization(phiMother) - mcPhi_;
3609  double dEta = fabs((*mcIter)->momentum().eta() - (*mcPho).fourMomentum().pseudoRapidity());
3610 
3611  if (dEta <= 0.0001 && dPhi <= 0.0001 && dPt <= 0.0001)
3612  isTheSame = true;
3613  }
3614  if (!isTheSame)
3615  continue;
3616 
3617  nSimPho_[0]++;
3618  if (!isRunCentrally_) {
3619  h_SimPhoMotherEt_[0]->Fill((*mcPho).motherMomentum().et());
3620  h_SimPhoMotherEta_[0]->Fill((*mcPho).motherMomentum().pseudoRapidity());
3621  }
3622 
3623  h_SimPho_[0]->Fill(mcEta_);
3624  h_SimPho_[1]->Fill(mcPhi_);
3625  h_SimPho_[2]->Fill((*mcPho).fourMomentum().et());
3626 
3628 
3629  bool goodSimConversion = false;
3630  bool visibleConversion = false;
3631  bool visibleConversionsWithTwoSimTracks = false;
3632  if ((*mcPho).isAConversion() == 1) {
3633  nSimConv_[0]++;
3634  h_AllSimConv_[0]->Fill(mcEta_);
3635  h_AllSimConv_[1]->Fill(mcPhi_);
3638  h_AllSimConv_[4]->Fill((*mcPho).fourMomentum().et());
3639 
3640  if (!isRunCentrally_) {
3641  if (mcConvR_ < 51)
3643  }
3644 
3645  if ((fabs(mcEta_) <= BARL && mcConvR_ < 85) ||
3646  (fabs(mcEta_) > BARL && fabs(mcEta_) <= END_HI && fabs((*mcPho).vertex().z()) < 210))
3647  visibleConversion = true;
3648 
3649  theConvTP_.clear();
3650  for (size_t i = 0; i < trackingParticles.size(); ++i) {
3651  TrackingParticleRef tp(ElectronTPHandle, i);
3652  if (fabs(tp->vx() - (*mcPho).vertex().x()) < 0.001 && fabs(tp->vy() - (*mcPho).vertex().y()) < 0.001 &&
3653  fabs(tp->vz() - (*mcPho).vertex().z()) < 0.001) {
3655  }
3656  }
3657  if (theConvTP_.size() == 2)
3658  visibleConversionsWithTwoSimTracks = true;
3659  goodSimConversion = false;
3660 
3661  if (visibleConversion && visibleConversionsWithTwoSimTracks)
3662  goodSimConversion = true;
3663  if (goodSimConversion) {
3664  nSimConv_[1]++;
3665  h_VisSimConv_[0]->Fill(mcEta_);
3666  h_VisSimConv_[1]->Fill(mcPhi_);
3669  h_VisSimConv_[4]->Fill((*mcPho).fourMomentum().et());
3670 
3671  if (useTP) {
3672  if (!isRunCentrally_) {
3674  iTrk != theConvTP_.end();
3675  ++iTrk) {
3676  h_simTkPt_->Fill((*iTrk)->pt());
3677  h_simTkEta_->Fill((*iTrk)->eta());
3678  }
3679  }
3680  }
3681  }
3682  }
3683 
3684  float minDelta = 10000.;
3685  std::vector<reco::PhotonRef> thePhotons;
3686  int index = 0;
3687  int iMatch = -1;
3688  bool matched = false;
3689 
3690  for (unsigned int iPho = 0; iPho < photonHandle->size(); iPho++) {
3691  reco::PhotonRef aPho(reco::PhotonRef(photonHandle, iPho));
3692  thePhotons.push_back(aPho);
3693  float phiPho = aPho->phi();
3694  float etaPho = aPho->eta();
3695  float deltaPhi = phiPho - mcPhi_;
3696  float deltaEta = etaPho - mcEta_;
3697  if (deltaPhi > pi)
3698  deltaPhi -= twopi;
3699  if (deltaPhi < -pi)
3700  deltaPhi += twopi;
3701  deltaPhi = pow(deltaPhi, 2);
3702  deltaEta = pow(deltaEta, 2);
3703  float delta = sqrt(deltaPhi + deltaEta);
3704  if (delta < 0.1 && delta < minDelta) {
3705  minDelta = delta;
3706  iMatch = index;
3707  }
3708  index++;
3709  } // end loop over reco photons
3710  if (iMatch > -1)
3711  matched = true;
3712 
3713  if (matched) {
3714  nSimPho_[1]++;
3715  if (!isRunCentrally_) {
3716  h_SimPhoMotherEt_[1]->Fill((*mcPho).motherMomentum().et());
3717  h_SimPhoMotherEta_[1]->Fill((*mcPho).motherMomentum().pseudoRapidity());
3718  }
3721  h_MatchedSimPho_[2]->Fill((*mcPho).fourMomentum().et());
3722  }
3723 
3724  if (!matched)
3725  continue;
3726 
3727  bool phoIsInBarrel = false;
3728  bool phoIsInEndcap = false;
3729  bool phoIsInEndcapP = false;
3730  bool phoIsInEndcapM = false;
3731 
3732  reco::PhotonRef matchingPho = thePhotons[iMatch];
3733 
3734  if (fabs(matchingPho->superCluster()->position().eta()) < 1.479) {
3735  phoIsInBarrel = true;
3736  } else {
3737  phoIsInEndcap = true;
3738  if (matchingPho->superCluster()->position().eta() > 0)
3739  phoIsInEndcapP = true;
3740  if (matchingPho->superCluster()->position().eta() < 0)
3741  phoIsInEndcapM = true;
3742  }
3743 
3744  edm::Handle<EcalRecHitCollection> ecalRecHitHandle;
3745  if (phoIsInBarrel) {
3746  // Get handle to rec hits ecal barrel
3747  e.getByToken(barrelEcalHits_, ecalRecHitHandle);
3748  if (!ecalRecHitHandle.isValid()) {
3749  Labels l;
3751  edm::LogError("PhotonProducer") << "Error! Can't get the product " << l.module;
3752  return;
3753  }
3754 
3755  } else if (phoIsInEndcap) {
3756  // Get handle to rec hits ecal encap
3757  e.getByToken(endcapEcalHits_, ecalRecHitHandle);
3758  if (!ecalRecHitHandle.isValid()) {
3759  Labels l;
3761  edm::LogError("PhotonProducer") << "Error! Can't get the product " << l.module;
3762  return;
3763  }
3764  }
3765 
3766  int type = 0;
3767  const EcalRecHitCollection ecalRecHitCollection = *(ecalRecHitHandle.product());
3768  float photonE = matchingPho->energy();
3769  float sigmaEoE = matchingPho->getCorrectedEnergyError(matchingPho->getCandidateP4type()) / matchingPho->energy();
3770  //float photonEt= matchingPho->energy()/cosh( matchingPho->eta()) ;
3771  float photonEt = matchingPho->pt();
3772  float photonERegr1 = matchingPho->getCorrectedEnergy(reco::Photon::regression1);
3773  float photonERegr2 = matchingPho->getCorrectedEnergy(reco::Photon::regression2);
3774  float r9 = matchingPho->r9();
3775  // float full5x5_r9 = matchingPho->full5x5_r9();
3776  float r1 = matchingPho->r1x5();
3777  float r2 = matchingPho->r2x5();
3778  float sigmaIetaIeta = matchingPho->sigmaIetaIeta();
3779  //float full5x5_sieie = matchingPho->full5x5_sigmaIetaIeta();
3780  float hOverE = matchingPho->hadronicOverEm();
3781  float newhOverE = matchingPho->hadTowOverEm();
3782  float ecalIso = matchingPho->ecalRecHitSumEtConeDR04();
3783  float hcalIso = matchingPho->hcalTowerSumEtConeDR04();
3784  float newhcalIso = matchingPho->hcalTowerSumEtBcConeDR04();
3785  float trkIso = matchingPho->trkSumPtSolidConeDR04();
3786  float nIsoTrk = matchingPho->nTrkSolidConeDR04();
3787  // PF related quantities
3788  float chargedHadIso = matchingPho->chargedHadronIso();
3789  float neutralHadIso = matchingPho->neutralHadronIso();
3790  float photonIso = matchingPho->photonIso();
3791  float etOutsideMustache = matchingPho->etOutsideMustache();
3792  int nClusterOutsideMustache = matchingPho->nClusterOutsideMustache();
3793  float pfMVA = matchingPho->pfMVA();
3794 
3795  std::vector<std::pair<DetId, float> >::const_iterator rhIt;
3796  bool atLeastOneDeadChannel = false;
3797  for (reco::CaloCluster_iterator bcIt = matchingPho->superCluster()->clustersBegin();
3798  bcIt != matchingPho->superCluster()->clustersEnd();
3799  ++bcIt) {
3800  for (rhIt = (*bcIt)->hitsAndFractions().begin(); rhIt != (*bcIt)->hitsAndFractions().end(); ++rhIt) {
3801  for (EcalRecHitCollection::const_iterator it = ecalRecHitCollection.begin(); it != ecalRecHitCollection.end();
3802  ++it) {
3803  if (rhIt->first == (*it).id()) {
3804  if ((*it).recoFlag() == 9) {
3805  atLeastOneDeadChannel = true;
3806  break;
3807  }
3808  }
3809  }
3810  }
3811  }
3812 
3813  if (atLeastOneDeadChannel) {
3816  h_MatchedSimPhoBadCh_[2]->Fill((*mcPho).fourMomentum().et());
3817  }
3818 
3819  if (phoIsInBarrel)
3820  h_phoPixSeedSize_[0]->Fill(matchingPho->electronPixelSeeds().size());
3821  else
3822  h_phoPixSeedSize_[1]->Fill(matchingPho->electronPixelSeeds().size());
3823 
3824  h_scEta_[type]->Fill(matchingPho->superCluster()->eta());
3825  h_scPhi_[type]->Fill(matchingPho->superCluster()->phi());
3826  if (!isRunCentrally_) {
3827  h_scEtaWidth_[type]->Fill(matchingPho->superCluster()->etaWidth());
3828  h_scPhiWidth_[type]->Fill(matchingPho->superCluster()->phiWidth());
3829  }
3830  h_scE_[type][0]->Fill(matchingPho->superCluster()->energy());
3831  h_scEt_[type][0]->Fill(matchingPho->superCluster()->energy() / cosh(matchingPho->superCluster()->eta()));
3832  if (phoIsInEndcap)
3833  h_psE_->Fill(matchingPho->superCluster()->preshowerEnergy());
3834  //
3835  h_r9_[type][0]->Fill(r9);
3836  //
3837  h_r1_[type][0]->Fill(r1);
3838  //
3839  h_r2_[type][0]->Fill(r2);
3840  //
3841  h_sigmaIetaIeta_[type][0]->Fill(sigmaIetaIeta);
3842  //
3843  h_hOverE_[type][0]->Fill(hOverE);
3844  p_r9VsEta_[0]->Fill(mcEta_, r9);
3845 
3846  if (!isRunCentrally_) {
3847  h2_r9VsEt_[0]->Fill((*mcPho).fourMomentum().et(), r9);
3848  h2_r1VsEta_[0]->Fill(mcEta_, r1);
3849  h2_r1VsEt_[0]->Fill((*mcPho).fourMomentum().et(), r1);
3850  h2_r2VsEta_[0]->Fill(mcEta_, r2);
3851  h2_r2VsEt_[0]->Fill((*mcPho).fourMomentum().et(), r2);
3852  h2_sigmaIetaIetaVsEta_[0]->Fill(mcEta_, sigmaIetaIeta);
3853  h2_sigmaIetaIetaVsEt_[0]->Fill((*mcPho).fourMomentum().et(), sigmaIetaIeta);
3855  h2_hOverEVsEt_[0]->Fill((*mcPho).fourMomentum().et(), hOverE);
3856  }
3858  p_hOverEVsEt_[0]->Fill((*mcPho).fourMomentum().et(), hOverE);
3859  //
3860  h_newhOverE_[type][0]->Fill(newhOverE);
3861  p_newhOverEVsEta_[0]->Fill(mcEta_, newhOverE);
3862  p_newhOverEVsEt_[0]->Fill((*mcPho).fourMomentum().et(), newhOverE);
3863 
3864  //
3865  h_ecalRecHitSumEtConeDR04_[type][0]->Fill(ecalIso);
3866  if (!isRunCentrally_) {
3868  h2_ecalRecHitSumEtConeDR04VsEt_[0]->Fill((*mcPho).fourMomentum().et(), ecalIso);
3870  h2_hcalTowerSumEtConeDR04VsEt_[0]->Fill((*mcPho).fourMomentum().et(), hcalIso);
3871  }
3873  if (!isRunCentrally_)
3874  p_ecalRecHitSumEtConeDR04VsEt_[0]->Fill((*mcPho).fourMomentum().et(), ecalIso);
3875  //
3876  h_hcalTowerSumEtConeDR04_[type][0]->Fill(hcalIso);
3878  if (!isRunCentrally_)
3879  p_hcalTowerSumEtConeDR04VsEt_[0]->Fill((*mcPho).fourMomentum().et(), hcalIso);
3880  //
3881  if (!isRunCentrally_)
3882  h_hcalTowerBcSumEtConeDR04_[type][0]->Fill(newhcalIso);
3883  p_hcalTowerBcSumEtConeDR04VsEta_[0]->Fill(mcEta_, newhcalIso);
3884  if (!isRunCentrally_)
3885  p_hcalTowerBcSumEtConeDR04VsEt_[0]->Fill((*mcPho).fourMomentum().et(), newhcalIso);
3886  //
3887  h_isoTrkSolidConeDR04_[type][0]->Fill(trkIso);
3888  h_nTrkSolidConeDR04_[type][0]->Fill(nIsoTrk);
3889 
3890  if (!isRunCentrally_) {
3892  h2_isoTrkSolidConeDR04VsEt_[0]->Fill((*mcPho).fourMomentum().et(), trkIso);
3893  h2_nTrkSolidConeDR04VsEta_[0]->Fill(mcEta_, nIsoTrk);
3894  h2_nTrkSolidConeDR04VsEt_[0]->Fill((*mcPho).fourMomentum().et(), nIsoTrk);
3895  }
3896 
3897  h_chHadIso_[0]->Fill(chargedHadIso);
3898  h_nHadIso_[0]->Fill(neutralHadIso);
3899  h_phoIso_[0]->Fill(photonIso);
3900  h_nCluOutsideMustache_[0]->Fill(float(nClusterOutsideMustache));
3901  h_etOutsideMustache_[0]->Fill(etOutsideMustache);
3902  h_pfMva_[0]->Fill(pfMVA);
3903  //
3904  h_phoEta_[type]->Fill(matchingPho->eta());
3905  h_phoPhi_[type]->Fill(matchingPho->phi());
3906  h_phoDEta_[0]->Fill(matchingPho->eta() - (*mcPho).fourMomentum().eta());
3907  h_phoDPhi_[0]->Fill(matchingPho->phi() - mcPhi_);
3908  h_phoE_[type][0]->Fill(photonE);
3909  h_phoEt_[type][0]->Fill(photonEt);
3910  h_nConv_[0][0]->Fill(float(matchingPho->conversions().size()));
3911  h_nConv_[1][0]->Fill(float(matchingPho->conversionsOneLeg().size()));
3912 
3913  //
3914  h_phoERes_[0][0]->Fill(photonE / (*mcPho).fourMomentum().e());
3915  h_phoSigmaEoE_[0][0]->Fill(sigmaEoE);
3916  h_phoEResRegr1_[0][0]->Fill(photonERegr1 / (*mcPho).fourMomentum().e());
3917  h_phoEResRegr2_[0][0]->Fill(photonERegr2 / (*mcPho).fourMomentum().e());
3918 
3919  p_eResVsEta_[0]->Fill(mcEta_, photonE / (*mcPho).fourMomentum().e());
3920  p_sigmaEoEVsEta_[0]->Fill(mcEta_, sigmaEoE);
3921  p_eResVsEt_[0][0]->Fill((*mcPho).fourMomentum().et(), photonE / (*mcPho).fourMomentum().e());
3922 
3923  if (!isRunCentrally_)
3924  h2_eResVsEta_[0]->Fill(mcEta_, photonE / (*mcPho).fourMomentum().e());
3925  if (!isRunCentrally_)
3926  h2_eResVsEt_[0][0]->Fill((*mcPho).fourMomentum().et(), photonE / (*mcPho).fourMomentum().e());
3927  if (!isRunCentrally_)
3928  h2_eResVsR9_[0]->Fill(r9, photonE / (*mcPho).fourMomentum().e());
3929  if (!isRunCentrally_)
3930  h2_sceResVsR9_[0]->Fill(r9, matchingPho->superCluster()->energy() / (*mcPho).fourMomentum().e());
3931  if (!isRunCentrally_)
3932  p_eResVsR9_[0]->Fill(r9, photonE / (*mcPho).fourMomentum().e());
3933  if (!isRunCentrally_)
3934  p_sceResVsR9_[0]->Fill(r9, matchingPho->superCluster()->energy() / (*mcPho).fourMomentum().e());
3935  //
3936  if ((*mcPho).isAConversion() == 0) {
3937  if (!isRunCentrally_) {
3938  h2_eResVsEta_[1]->Fill(mcEta_, photonE / (*mcPho).fourMomentum().e());
3939  h2_r9VsEt_[1]->Fill((*mcPho).fourMomentum().et(), r9);
3940  //
3941  h2_r1VsEta_[1]->Fill(mcEta_, r1);
3942  h2_r1VsEt_[1]->Fill((*mcPho).fourMomentum().et(), r1);
3943  //
3944  h2_r2VsEta_[1]->Fill(mcEta_, r2);
3945  h2_r2VsEt_[1]->Fill((*mcPho).fourMomentum().et(), r2);
3946  //
3947  h2_sigmaIetaIetaVsEta_[1]->Fill(mcEta_, sigmaIetaIeta);
3948  h2_sigmaIetaIetaVsEt_[1]->Fill((*mcPho).fourMomentum().et(), sigmaIetaIeta);
3949  //
3951  h2_hOverEVsEt_[1]->Fill((*mcPho).fourMomentum().et(), hOverE);
3952  }
3953 
3954  if (!isRunCentrally_) {
3958  h2_isoTrkSolidConeDR04VsEt_[1]->Fill((*mcPho).fourMomentum().et(), trkIso);
3959  h2_nTrkSolidConeDR04VsEta_[1]->Fill(mcEta_, nIsoTrk);
3960  h2_nTrkSolidConeDR04VsEt_[1]->Fill((*mcPho).fourMomentum().et(), nIsoTrk);
3961  }
3963  if (!isRunCentrally_)
3965  }
3966 
3967  if (photonE / (*mcPho).fourMomentum().e() < 0.3 && photonE / (*mcPho).fourMomentum().e() > 0.1) {
3968  }
3969 
3970  if ((r9 > 0.94 && phoIsInBarrel) || (r9 > 0.95 && phoIsInEndcap)) {
3971  h_phoERes_[1][0]->Fill(photonE / (*mcPho).fourMomentum().e());
3972  h_phoSigmaEoE_[1][0]->Fill(sigmaEoE);
3973  h_phoEResRegr1_[1][0]->Fill(photonERegr1 / (*mcPho).fourMomentum().e());
3974  h_phoEResRegr2_[1][0]->Fill(photonERegr2 / (*mcPho).fourMomentum().e());
3975  if (!isRunCentrally_)
3976  h2_eResVsEt_[0][1]->Fill((*mcPho).fourMomentum().et(), photonE / (*mcPho).fourMomentum().e());
3977  p_eResVsEt_[0][1]->Fill((*mcPho).fourMomentum().et(), photonE / (*mcPho).fourMomentum().e());
3978  p_eResVsEta_[1]->Fill(mcEta_, photonE / (*mcPho).fourMomentum().e());
3979  p_r9VsEta_[1]->Fill(mcEta_, r9);
3980  p_sigmaEoEVsEta_[1]->Fill(mcEta_, sigmaEoE);
3981 
3982  } else if ((r9 <= 0.94 && phoIsInBarrel) || (r9 <= 0.95 && phoIsInEndcap)) {
3983  h_phoERes_[2][0]->Fill(photonE / (*mcPho).fourMomentum().e());
3984  h_phoSigmaEoE_[2][0]->Fill(sigmaEoE);
3985  h_phoEResRegr1_[2][0]->Fill(photonERegr1 / (*mcPho).fourMomentum().e());
3986  h_phoEResRegr2_[2][0]->Fill(photonERegr2 / (*mcPho).fourMomentum().e());
3987  p_eResVsEt_[0][2]->Fill((*mcPho).fourMomentum().et(), photonE / (*mcPho).fourMomentum().e());
3988  p_eResVsEta_[2]->Fill(mcEta_, photonE / (*mcPho).fourMomentum().e());
3989  p_r9VsEta_[2]->Fill(mcEta_, r9);
3990  p_sigmaEoEVsEta_[2]->Fill(mcEta_, sigmaEoE);
3991 
3992  if (!isRunCentrally_) {
3993  h2_eResVsEt_[0][2]->Fill((*mcPho).fourMomentum().et(), photonE / (*mcPho).fourMomentum().e());
3994  h_EtR9Less093_[0][0]->Fill(photonEt);
3995  }
3996  }
3997 
3998  if (phoIsInBarrel) {
3999  h_scE_[type][1]->Fill(matchingPho->superCluster()->energy());
4000  h_scEt_[type][1]->Fill(matchingPho->superCluster()->energy() / cosh(matchingPho->superCluster()->eta()));
4001  h_r9_[type][1]->Fill(r9);
4002  h_r1_[type][1]->Fill(r1);
4003  h_r2_[type][1]->Fill(r2);
4004  h_sigmaIetaIeta_[type][1]->Fill(sigmaIetaIeta);
4005  h_hOverE_[type][1]->Fill(hOverE);
4006  h_newhOverE_[type][1]->Fill(newhOverE);
4007  h_ecalRecHitSumEtConeDR04_[type][1]->Fill(ecalIso);
4008  p_ecalRecHitSumEtConeDR04VsEt_[1]->Fill((*mcPho).fourMomentum().et(), ecalIso);
4009  h_hcalTowerSumEtConeDR04_[type][1]->Fill(hcalIso);
4010  p_hcalTowerSumEtConeDR04VsEt_[1]->Fill((*mcPho).fourMomentum().et(), hcalIso);
4011  h_hcalTowerBcSumEtConeDR04_[type][1]->Fill(newhcalIso);
4012  p_hcalTowerBcSumEtConeDR04VsEt_[1]->Fill((*mcPho).fourMomentum().et(), newhcalIso);
4013  h_isoTrkSolidConeDR04_[type][1]->Fill(trkIso);
4014  h_nTrkSolidConeDR04_[type][1]->Fill(nIsoTrk);
4015  h_chHadIso_[1]->Fill(chargedHadIso);
4016  h_nHadIso_[1]->Fill(neutralHadIso);
4017  h_phoIso_[1]->Fill(photonIso);
4018  h_nCluOutsideMustache_[1]->Fill(float(nClusterOutsideMustache));
4019  h_etOutsideMustache_[1]->Fill(etOutsideMustache);
4020  h_pfMva_[1]->Fill(pfMVA);
4021  h_phoE_[type][1]->Fill(photonE);
4022  h_phoEt_[type][1]->Fill(photonEt);
4023  h_nConv_[type][1]->Fill(float(matchingPho->conversions().size()));
4024  h_nConv_[1][1]->Fill(float(matchingPho->conversionsOneLeg().size()));
4025  h_phoERes_[0][1]->Fill(photonE / (*mcPho).fourMomentum().e());
4026  h_phoSigmaEoE_[0][1]->Fill(sigmaEoE);
4027  h_phoEResRegr1_[0][1]->Fill(photonERegr1 / (*mcPho).fourMomentum().e());
4028  h_phoEResRegr2_[0][1]->Fill(photonERegr2 / (*mcPho).fourMomentum().e());
4029  p_eResVsR9_[1]->Fill(r9, photonE / (*mcPho).fourMomentum().e());
4030  p_sceResVsR9_[1]->Fill(r9, matchingPho->superCluster()->energy() / (*mcPho).fourMomentum().e());
4031  if (!isRunCentrally_) {
4032  h2_eResVsR9_[1]->Fill(r9, photonE / (*mcPho).fourMomentum().e());
4033  h2_sceResVsR9_[1]->Fill(r9, matchingPho->superCluster()->energy() / (*mcPho).fourMomentum().e());
4034  h2_ecalRecHitSumEtConeDR04VsEt_[1]->Fill((*mcPho).fourMomentum().et(), ecalIso);
4035  h2_hcalTowerSumEtConeDR04VsEt_[1]->Fill((*mcPho).fourMomentum().et(), hcalIso);
4036  h2_eResVsEt_[1][0]->Fill((*mcPho).fourMomentum().et(), photonE / (*mcPho).fourMomentum().e());
4037  }
4038  p_eResVsEt_[1][0]->Fill((*mcPho).fourMomentum().et(), photonE / (*mcPho).fourMomentum().e());
4039  p_eResVsNVtx_[1][0]->Fill(float(vtxH->size()), photonE / (*mcPho).fourMomentum().e());
4040  p_sigmaEoEVsEt_[1][0]->Fill((*mcPho).fourMomentum().et(), sigmaEoE);
4041  p_sigmaEoEVsNVtx_[1][0]->Fill(float(vtxH->size()), sigmaEoE);
4042 
4043  if (r9 > 0.94) {
4044  h_phoERes_[1][1]->Fill(photonE / (*mcPho).fourMomentum().e());
4045  h_phoSigmaEoE_[1][1]->Fill(sigmaEoE);
4046  h_phoEResRegr1_[1][1]->Fill(photonERegr1 / (*mcPho).fourMomentum().e());
4047  h_phoEResRegr2_[1][1]->Fill(photonERegr2 / (*mcPho).fourMomentum().e());
4048  if (!isRunCentrally_)
4049  h2_eResVsEt_[1][1]->Fill((*mcPho).fourMomentum().et(), photonE / (*mcPho).fourMomentum().e());
4050  p_eResVsEt_[1][1]->Fill((*mcPho).fourMomentum().et(), photonE / (*mcPho).fourMomentum().e());
4051  p_eResVsNVtx_[1][1]->Fill(float(vtxH->size()), photonE / (*mcPho).fourMomentum().e());
4052  p_sigmaEoEVsEt_[1][1]->Fill((*mcPho).fourMomentum().et(), sigmaEoE);
4053  p_sigmaEoEVsNVtx_[1][1]->Fill(float(vtxH->size()), sigmaEoE);
4054  }
4055  if (r9 <= 0.94) {
4056  h_phoERes_[2][1]->Fill(photonE / (*mcPho).fourMomentum().e());
4057  h_phoSigmaEoE_[2][1]->Fill(sigmaEoE);
4058  h_phoEResRegr1_[2][1]->Fill(photonERegr1 / (*mcPho).fourMomentum().e());
4059  h_phoEResRegr2_[2][1]->Fill(photonERegr2 / (*mcPho).fourMomentum().e());
4060  p_eResVsEt_[1][2]->Fill((*mcPho).fourMomentum().et(), photonE / (*mcPho).fourMomentum().e());
4061  p_eResVsNVtx_[1][2]->Fill(float(vtxH->size()), photonE / (*mcPho).fourMomentum().e());
4062  p_sigmaEoEVsEt_[1][2]->Fill((*mcPho).fourMomentum().et(), sigmaEoE);
4063  p_sigmaEoEVsNVtx_[1][2]->Fill(float(vtxH->size()), sigmaEoE);
4064  if (!isRunCentrally_) {
4065  h2_eResVsEt_[1][2]->Fill((*mcPho).fourMomentum().et(), photonE / (*mcPho).fourMomentum().e());
4066  h_EtR9Less093_[0][1]->Fill(photonEt);
4067  }
4068  }
4069  }
4070  if (phoIsInEndcap) {
4071  h_scE_[type][2]->Fill(matchingPho->superCluster()->energy());
4072  h_scEt_[type][2]->Fill(matchingPho->superCluster()->energy() / cosh(matchingPho->superCluster()->eta()));
4073  h_r9_[type][2]->Fill(r9);
4074  h_r1_[type][2]->Fill(r1);
4075  h_r2_[type][2]->Fill(r2);
4076  h_sigmaIetaIeta_[type][2]->Fill(sigmaIetaIeta);
4077  h_hOverE_[type][2]->Fill(hOverE);
4078  h_newhOverE_[type][2]->Fill(newhOverE);
4079  h_ecalRecHitSumEtConeDR04_[type][2]->Fill(ecalIso);
4080  p_ecalRecHitSumEtConeDR04VsEt_[2]->Fill((*mcPho).fourMomentum().et(), ecalIso);
4081  h_hcalTowerSumEtConeDR04_[type][2]->Fill(hcalIso);
4082  p_hcalTowerSumEtConeDR04VsEt_[2]->Fill((*mcPho).fourMomentum().et(), hcalIso);
4083  h_hcalTowerBcSumEtConeDR04_[type][2]->Fill(newhcalIso);
4084  p_hcalTowerBcSumEtConeDR04VsEt_[2]->Fill((*mcPho).fourMomentum().et(), newhcalIso);
4085  h_isoTrkSolidConeDR04_[type][2]->Fill(trkIso);
4086  h_nTrkSolidConeDR04_[type][2]->Fill(nIsoTrk);
4087  h_chHadIso_[2]->Fill(chargedHadIso);
4088  h_nHadIso_[2]->Fill(neutralHadIso);
4089  h_phoIso_[2]->Fill(photonIso);
4090  h_nCluOutsideMustache_[2]->Fill(float(nClusterOutsideMustache));
4091  h_etOutsideMustache_[2]->Fill(etOutsideMustache);
4092  h_pfMva_[2]->Fill(pfMVA);
4093  h_phoE_[type][2]->Fill(photonE);
4094  h_phoEt_[type][2]->Fill(photonEt);
4095  h_nConv_[type][2]->Fill(float(matchingPho->conversions().size()));
4096  h_nConv_[1][2]->Fill(float(matchingPho->conversionsOneLeg().size()));
4097  h_phoERes_[0][2]->Fill(photonE / (*mcPho).fourMomentum().e());
4098  h_phoSigmaEoE_[0][2]->Fill(sigmaEoE);
4099  h_phoEResRegr1_[0][2]->Fill(photonERegr1 / (*mcPho).fourMomentum().e());
4100  h_phoEResRegr2_[0][2]->Fill(photonERegr2 / (*mcPho).fourMomentum().e());
4101  p_eResVsR9_[2]->Fill(r9, photonE / (*mcPho).fourMomentum().e());
4102  p_sceResVsR9_[2]->Fill(r9, matchingPho->superCluster()->energy() / (*mcPho).fourMomentum().e());
4103  if (!isRunCentrally_) {
4104  h2_eResVsR9_[2]->Fill(r9, photonE / (*mcPho).fourMomentum().e());
4105  h2_sceResVsR9_[2]->Fill(r9, matchingPho->superCluster()->energy() / (*mcPho).fourMomentum().e());
4106  h2_ecalRecHitSumEtConeDR04VsEt_[2]->Fill((*mcPho).fourMomentum().et(), ecalIso);
4107  h2_hcalTowerSumEtConeDR04VsEt_[2]->Fill((*mcPho).fourMomentum().et(), hcalIso);
4108  h2_eResVsEt_[2][0]->Fill((*mcPho).fourMomentum().et(), photonE / (*mcPho).fourMomentum().e());
4109  }
4110 
4111  p_eResVsEt_[2][0]->Fill((*mcPho).fourMomentum().et(), photonE / (*mcPho).fourMomentum().e());
4112  p_eResVsNVtx_[2][0]->Fill(float(vtxH->size()), photonE / (*mcPho).fourMomentum().e());
4113  p_sigmaEoEVsEt_[2][0]->Fill((*mcPho).fourMomentum().et(), sigmaEoE);
4114  p_sigmaEoEVsNVtx_[2][0]->Fill(float(vtxH->size()), sigmaEoE);
4115 
4116  if (r9 > 0.95) {
4117  h_phoERes_[1][2]->Fill(photonE / (*mcPho).fourMomentum().e());
4118  h_phoSigmaEoE_[1][2]->Fill(sigmaEoE);
4119  h_phoEResRegr1_[1][2]->Fill(photonERegr1 / (*mcPho).fourMomentum().e());
4120  h_phoEResRegr2_[1][2]->Fill(photonERegr2 / (*mcPho).fourMomentum().e());
4121  if (!isRunCentrally_)
4122  h2_eResVsEt_[2][1]->Fill((*mcPho).fourMomentum().et(), photonE / (*mcPho).fourMomentum().e());
4123  p_eResVsEt_[2][1]->Fill((*mcPho).fourMomentum().et(), photonE / (*mcPho).fourMomentum().e());
4124  p_eResVsNVtx_[2][1]->Fill(float(vtxH->size()), photonE / (*mcPho).fourMomentum().e());
4125  p_sigmaEoEVsEt_[2][1]->Fill((*mcPho).fourMomentum().et(), sigmaEoE);
4126  p_sigmaEoEVsNVtx_[2][1]->Fill(float(vtxH->size()), sigmaEoE);
4127  }
4128  if (r9 <= 0.95) {
4129  h_phoERes_[2][2]->Fill(photonE / (*mcPho).fourMomentum().e());
4130  h_phoSigmaEoE_[2][2]->Fill(sigmaEoE);
4131  h_phoEResRegr1_[2][2]->Fill(photonERegr1 / (*mcPho).fourMomentum().e());
4132  h_phoEResRegr2_[2][2]->Fill(photonERegr2 / (*mcPho).fourMomentum().e());
4133  p_eResVsEt_[2][2]->Fill((*mcPho).fourMomentum().et(), photonE / (*mcPho).fourMomentum().e());
4134  p_eResVsNVtx_[2][2]->Fill(float(vtxH->size()), photonE / (*mcPho).fourMomentum().e());
4135  p_sigmaEoEVsEt_[2][2]->Fill((*mcPho).fourMomentum().et(), sigmaEoE);
4136  p_sigmaEoEVsNVtx_[2][2]->Fill(float(vtxH->size()), sigmaEoE);
4137 
4138  if (!isRunCentrally_) {
4139  h2_eResVsEt_[2][2]->Fill((*mcPho).fourMomentum().et(), photonE / (*mcPho).fourMomentum().e());
4140  h_EtR9Less093_[0][2]->Fill(photonEt);
4141  }
4142  }
4143  }
4144 
4146  if (fName_ == "pfPhotonValidator") {
4147  float SumPtIsoValCh = 0.;
4148  float SumPtIsoValNh = 0.;
4149  float SumPtIsoValPh = 0.;
4150 
4151  float SumPtIsoValCleanCh = 0.;
4152  float SumPtIsoValCleanNh = 0.;
4153  float SumPtIsoValCleanPh = 0.;
4154 
4155  for (unsigned int lCand = 0; lCand < pfCandidateHandle->size(); lCand++) {
4156  reco::PFCandidateRef pfCandRef(reco::PFCandidateRef(pfCandidateHandle, lCand));
4157  float dR = deltaR(matchingPho->eta(), matchingPho->phi(), pfCandRef->eta(), pfCandRef->phi());
4158  if (dR < 0.4) {
4160  reco::PFCandidate::ParticleType type = pfCandRef->particleId();
4161  if (type == reco::PFCandidate::e)
4162  continue;
4163  if (type == reco::PFCandidate::gamma && pfCandRef->mva_nothing_gamma() > 0.)
4164  continue;
4165 
4166  if (type == reco::PFCandidate::h) {
4167  SumPtIsoValCh += pfCandRef->pt();
4169  if (phoIsInBarrel)
4171  else
4173  }
4174  if (type == reco::PFCandidate::h0) {
4175  SumPtIsoValNh += pfCandRef->pt();
4177  if (phoIsInBarrel)
4179  else
4181  }
4182  if (type == reco::PFCandidate::gamma) {
4183  SumPtIsoValPh += pfCandRef->pt();
4185  if (phoIsInBarrel)
4187  else
4189  }
4191  bool skip = false;
4192  for (std::vector<reco::PFCandidateRef>::const_iterator i = phoToParticleBasedIsoMap[matchingPho].begin();
4193  i != phoToParticleBasedIsoMap[matchingPho].end();
4194  ++i) {
4195  if ((*i) == pfCandRef) {
4196  skip = true;
4197  }
4198  } // loop over the PFCandidates flagged as overlapping with the photon
4199 
4200  if (skip)
4201  continue;
4202  if (type == reco::PFCandidate::h) {
4203  SumPtIsoValCleanCh += pfCandRef->pt();
4205  if (phoIsInBarrel)
4207  else
4209  }
4210  if (type == reco::PFCandidate::h0) {
4211  SumPtIsoValCleanNh += pfCandRef->pt();
4213  if (phoIsInBarrel)
4215  else
4217  }
4218  if (type == reco::PFCandidate::gamma) {
4219  SumPtIsoValCleanPh += pfCandRef->pt();
4221  if (phoIsInBarrel)
4223  else
4225  }
4226 
4227  } // dr=0.4
4228  } // loop over all PF Candidates
4229 
4230  h_SumPtOverPhoPt_ChHad_Cleaned_[0]->Fill(SumPtIsoValCleanCh / matchingPho->pt());
4231  h_SumPtOverPhoPt_NeuHad_Cleaned_[0]->Fill(SumPtIsoValCleanNh / matchingPho->pt());
4232  h_SumPtOverPhoPt_Pho_Cleaned_[0]->Fill(SumPtIsoValCleanPh / matchingPho->pt());
4233  h_SumPtOverPhoPt_ChHad_unCleaned_[0]->Fill(SumPtIsoValCh / matchingPho->pt());
4234  h_SumPtOverPhoPt_NeuHad_unCleaned_[0]->Fill(SumPtIsoValNh / matchingPho->pt());
4235  h_SumPtOverPhoPt_Pho_unCleaned_[0]->Fill(SumPtIsoValPh / matchingPho->pt());
4236  if (phoIsInBarrel) {
4237  h_SumPtOverPhoPt_ChHad_Cleaned_[1]->Fill(SumPtIsoValCleanCh / matchingPho->pt());
4238  h_SumPtOverPhoPt_NeuHad_Cleaned_[1]->Fill(SumPtIsoValCleanNh / matchingPho->pt());
4239  h_SumPtOverPhoPt_Pho_Cleaned_[1]->Fill(SumPtIsoValCleanPh / matchingPho->pt());
4240  h_SumPtOverPhoPt_ChHad_unCleaned_[1]->Fill(SumPtIsoValCh / matchingPho->pt());
4241  h_SumPtOverPhoPt_NeuHad_unCleaned_[1]->Fill(SumPtIsoValNh / matchingPho->pt());
4242  h_SumPtOverPhoPt_Pho_unCleaned_[1]->Fill(SumPtIsoValPh / matchingPho->pt());
4243  } else {
4244  h_SumPtOverPhoPt_ChHad_Cleaned_[2]->Fill(SumPtIsoValCleanCh / matchingPho->pt());
4245  h_SumPtOverPhoPt_NeuHad_Cleaned_[2]->Fill(SumPtIsoValCleanNh / matchingPho->pt());
4246  h_SumPtOverPhoPt_Pho_Cleaned_[2]->Fill(SumPtIsoValCleanPh / matchingPho->pt());
4247  h_SumPtOverPhoPt_ChHad_unCleaned_[2]->Fill(SumPtIsoValCh / matchingPho->pt());
4248  h_SumPtOverPhoPt_NeuHad_unCleaned_[2]->Fill(SumPtIsoValNh / matchingPho->pt());
4249  h_SumPtOverPhoPt_Pho_unCleaned_[2]->Fill(SumPtIsoValPh / matchingPho->pt());
4250  }
4251 
4252  } // only for pfPhotonValidator
4253 
4254  if (!(visibleConversion && visibleConversionsWithTwoSimTracks))
4255  continue;
4256 
4257  if (!isRunCentrally_) {
4258  h_r9_[1][0]->Fill(r9);
4259  if (phoIsInBarrel)
4260  h_r9_[1][1]->Fill(r9);
4261  if (phoIsInEndcap)
4262  h_r9_[1][2]->Fill(r9);
4263 
4265  if (fabs(mcEta_) <= 1.) {
4268  } else
4270  }
4271 
4272  if (!fastSim_) {
4274  reco::ConversionRefVector conversions = matchingPho->conversions();
4275  bool atLeastOneRecoTwoTrackConversion = false;
4276  for (unsigned int iConv = 0; iConv < conversions.size(); iConv++) {
4277  reco::ConversionRef aConv = conversions[iConv];
4278  double like = aConv->MVAout();
4279  if (like < likelihoodCut_)
4280  continue;
4281 
4282  if (!isRunCentrally_)
4283  h2_EoverEtrueVsEta_[1]->Fill(mcEta_, matchingPho->superCluster()->energy() / (*mcPho).fourMomentum().e());
4284  p_EoverEtrueVsEta_[1]->Fill(mcEta_, matchingPho->superCluster()->energy() / (*mcPho).fourMomentum().e());
4285 
4286  //std::vector<reco::TrackRef> tracks = aConv->tracks();
4287  const std::vector<edm::RefToBase<reco::Track> > tracks = aConv->tracks();
4288  if (tracks.size() < 2)
4289  continue;
4290  atLeastOneRecoTwoTrackConversion = true;
4291 
4292  h_mvaOut_[0]->Fill(like);
4293 
4294  if (tracks.size() == 2) {
4295  if (sqrt(aConv->tracksPin()[0].Perp2()) < convTrackMinPtCut_ ||
4296  sqrt(aConv->tracksPin()[1].Perp2()) < convTrackMinPtCut_)
4297  continue;
4298  }
4299 
4300  if (dCotCutOn_) {
4301  if ((fabs(mcEta_) > 1.1 && fabs(mcEta_) < 1.4) && fabs(aConv->pairCotThetaSeparation()) > dCotHardCutValue_)
4302  continue;
4303  if (fabs(aConv->pairCotThetaSeparation()) > dCotCutValue_)
4304  continue;
4305  }
4306 
4307  nRecConv_++;
4308 
4309  std::map<const reco::Track*, TrackingParticleRef> myAss;
4310  std::map<const reco::Track*, TrackingParticleRef>::const_iterator itAss;
4311  std::map<reco::TrackRef, TrackingParticleRef>::const_iterator itAssMin;
4312  std::map<reco::TrackRef, TrackingParticleRef>::const_iterator itAssMax;
4313  //
4314 
4315  int nAssT2 = 0;
4316  for (unsigned int i = 0; i < tracks.size(); i++) {
4317  // reco::TrackRef track = tracks[i].castTo<reco::TrackRef>();
4318 
4319  type = 0;
4320  if (!isRunCentrally_)
4321  nHitsVsEta_[type]->Fill(mcEta_, float(tracks[i]->numberOfValidHits()) - 0.0001);
4322  if (!isRunCentrally_)
4323  nHitsVsR_[type]->Fill(mcConvR_, float(tracks[i]->numberOfValidHits()) - 0.0001);
4324  p_nHitsVsEta_[type]->Fill(mcEta_, float(tracks[i]->numberOfValidHits() - 0.0001));
4325  p_nHitsVsR_[type]->Fill(mcConvR_, float(tracks[i]->numberOfValidHits() - 0.0001));
4327 
4330  tc.push_back(tfrb);
4331  // reco::RecoToSimCollection q = trackAssociator->associateRecoToSim(tc,theConvTP_);
4332  reco::SimToRecoCollection q = trackAssociator->associateSimToReco(tc, theConvTP_);
4333  std::vector<std::pair<RefToBase<reco::Track>, double> > trackV;
4334  int tpI = 0;
4335 
4336  if (q.find(theConvTP_[0]) != q.end()) {
4337  trackV = (std::vector<std::pair<RefToBase<reco::Track>, double> >)q[theConvTP_[0]];
4338  } else if (q.find(theConvTP_[1]) != q.end()) {
4339  trackV = (std::vector<std::pair<RefToBase<reco::Track>, double> >)q[theConvTP_[1]];
4340  tpI = 1;
4341  }
4342 
4343  if (trackV.empty())
4344  continue;
4345  edm::RefToBase<reco::Track> tr = trackV.front().first;
4346  myAss.insert(std::make_pair(tr.get(), theConvTP_[tpI]));
4347  nAssT2++;
4348  }
4349 
4350  type = 0;
4351 
4352  // float totP = sqrt(aConv->pairMomentum().Mag2());
4353  float refP = -99999.;
4354  float refPt = -99999.;
4355  if (aConv->conversionVertex().isValid()) {
4356  refP = sqrt(aConv->refittedPairMomentum().Mag2());
4357  refPt = sqrt(aConv->refittedPairMomentum().perp2());
4358  }
4359  float invM = aConv->pairInvariantMass();
4360 
4361  h_invMass_[type][0]->Fill(invM);
4362  if (phoIsInBarrel)
4363  h_invMass_[type][1]->Fill(invM);
4364  if (phoIsInEndcap)
4365  h_invMass_[type][2]->Fill(invM);
4366 
4368  if (tracks.size() == 2) {
4373  h_SimConvTwoTracks_[4]->Fill((*mcPho).fourMomentum().et());
4374 
4375  if (!aConv->caloCluster().empty())
4376  h_convEta_[1]->Fill(aConv->caloCluster()[0]->eta());
4377 
4378  float trkProvenance = 3;
4379  if (tracks[0]->algoName() == "outInEcalSeededConv" && tracks[1]->algoName() == "outInEcalSeededConv")
4380  trkProvenance = 0;
4381  if (tracks[0]->algoName() == "inOutEcalSeededConv" && tracks[1]->algoName() == "inOutEcalSeededConv")
4382  trkProvenance = 1;
4383  if ((tracks[0]->algoName() == "outInEcalSeededConv" && tracks[1]->algoName() == "inOutEcalSeededConv") ||
4384  (tracks[1]->algoName() == "outInEcalSeededConv" && tracks[0]->algoName() == "inOutEcalSeededConv"))
4385  trkProvenance = 2;
4386  if (trkProvenance == 3) {
4387  }
4388  h_trkProv_[0]->Fill(trkProvenance);
4389  h_trkAlgo_->Fill(tracks[0]->algo());
4390  h_trkAlgo_->Fill(tracks[1]->algo());
4391  h_convAlgo_->Fill(aConv->algo());
4392 
4394  if (nAssT2 == 2) {
4395  if (!isRunCentrally_) {
4396  h_r9_[2][0]->Fill(r9);
4397  if (phoIsInBarrel)
4398  h_r9_[2][1]->Fill(r9);
4399  if (phoIsInEndcap)
4400  h_r9_[2][2]->Fill(r9);
4401  }
4402 
4403  if (!aConv->caloCluster().empty())
4404  h_convEta_[2]->Fill(aConv->caloCluster()[0]->eta());
4405  nRecConvAss_++;
4406 
4411  h_SimConvTwoMTracks_[4]->Fill((*mcPho).fourMomentum().et());
4412 
4413  if (aConv->conversionVertex().isValid()) {
4414  float chi2Prob =
4415  ChiSquaredProbability(aConv->conversionVertex().chi2(), aConv->conversionVertex().ndof());
4416  if (chi2Prob > 0) {
4421  h_SimConvTwoMTracksAndVtxPGT0_[4]->Fill((*mcPho).fourMomentum().et());
4422  }
4423  if (chi2Prob > 0.0005) {
4428  h_SimConvTwoMTracksAndVtxPGT0005_[4]->Fill((*mcPho).fourMomentum().et());
4429  }
4430 
4431  if (chi2Prob > 0.0005) {
4432  if (!aConv->caloCluster().empty()) {
4433  h_convEta_[0]->Fill(aConv->caloCluster()[0]->eta());
4434  h_convPhi_[0]->Fill(aConv->caloCluster()[0]->phi());
4435  h_convERes_[0][0]->Fill(aConv->caloCluster()[0]->energy() / (*mcPho).fourMomentum().e());
4436  }
4437  if (!isRunCentrally_) {
4438  h_r9VsNofTracks_[0][0]->Fill(r9, aConv->nTracks());
4439  h_EtR9Less093_[1][0]->Fill(photonEt);
4440  if (phoIsInBarrel)
4441  h_EtR9Less093_[1][1]->Fill(photonEt);
4442  if (phoIsInEndcap)
4443  h_EtR9Less093_[1][2]->Fill(photonEt);
4444  }
4445  if (phoIsInBarrel) {
4446  if (!aConv->caloCluster().empty())
4447  h_convERes_[0][1]->Fill(aConv->caloCluster()[0]->energy() / (*mcPho).fourMomentum().e());
4448  if (!isRunCentrally_)
4449  h_r9VsNofTracks_[0][1]->Fill(r9, aConv->nTracks());
4450  h_mvaOut_[1]->Fill(like);
4451  }
4452  if (phoIsInEndcap) {
4453  if (!aConv->caloCluster().empty())
4454  h_convERes_[0][2]->Fill(aConv->caloCluster()[0]->energy() / (*mcPho).fourMomentum().e());
4455  if (!isRunCentrally_)
4456  h_r9VsNofTracks_[0][2]->Fill(r9, aConv->nTracks());
4457  h_mvaOut_[2]->Fill(like);
4458  }
4459  }
4460  }
4461 
4463  type = 1;
4464 
4465  h_trkProv_[1]->Fill(trkProvenance);
4466  h_invMass_[type][0]->Fill(invM);
4467 
4468  float eoverp = -99999.;
4469 
4470  if (aConv->conversionVertex().isValid()) {
4471  eoverp = photonE / sqrt(aConv->refittedPairMomentum().Mag2());
4472  //eoverp= aConv->EoverPrefittedTracks();
4473  h_convPtRes_[type][0]->Fill(refPt / (*mcPho).fourMomentum().et());
4474  h_EoverPTracks_[type][0]->Fill(eoverp);
4475  h_PoverETracks_[type][0]->Fill(1. / eoverp);
4476  if (!isRunCentrally_)
4477  h2_EoverEtrueVsEoverP_[0]->Fill(eoverp,
4478  matchingPho->superCluster()->energy() / (*mcPho).fourMomentum().e());
4479  if (!isRunCentrally_)
4480  h2_PoverPtrueVsEoverP_[0]->Fill(eoverp, refP / (*mcPho).fourMomentum().e());
4481  if (!isRunCentrally_)
4482  h2_EoverPVsEta_[0]->Fill(mcEta_, eoverp);
4483  if (!isRunCentrally_)
4484  h2_EoverPVsR_[0]->Fill(mcConvR_, eoverp);
4485  p_EoverPVsEta_[0]->Fill(mcEta_, eoverp);
4486  p_EoverPVsR_[0]->Fill(mcConvR_, eoverp);
4487  p_eResVsR_->Fill(mcConvR_, photonE / (*mcPho).fourMomentum().e());
4488  if (!isRunCentrally_)
4489  h2_PoverPtrueVsEta_[0]->Fill(mcEta_, refP / (*mcPho).fourMomentum().e());
4490  p_PoverPtrueVsEta_[0]->Fill(mcEta_, refP / (*mcPho).fourMomentum().e());
4491  }
4492 
4493  if (!isRunCentrally_)
4495  matchingPho->superCluster()->energy() / (*mcPho).fourMomentum().e());
4496  if (!isRunCentrally_)
4498  matchingPho->superCluster()->energy() / (*mcPho).fourMomentum().e());
4499  p_EoverEtrueVsEta_[0]->Fill(mcEta_, matchingPho->superCluster()->energy() / (*mcPho).fourMomentum().e());
4500  p_EoverEtrueVsR_[0]->Fill(mcConvR_, matchingPho->superCluster()->energy() / (*mcPho).fourMomentum().e());
4501 
4502  if (!isRunCentrally_)
4504 
4505  // here original tracks and their inner momentum is considered
4506  float dPhiTracksAtVtx = aConv->dPhiTracksAtVtx();
4507  h_DPhiTracksAtVtx_[type][0]->Fill(dPhiTracksAtVtx);
4508  if (!isRunCentrally_)
4509  h2_DPhiTracksAtVtxVsEta_->Fill(mcEta_, dPhiTracksAtVtx);
4510  if (!isRunCentrally_)
4511  h2_DPhiTracksAtVtxVsR_->Fill(mcConvR_, dPhiTracksAtVtx);
4512  p_DPhiTracksAtVtxVsEta_->Fill(mcEta_, dPhiTracksAtVtx);
4513  p_DPhiTracksAtVtxVsR_->Fill(mcConvR_, dPhiTracksAtVtx);
4514 
4515  h_DCotTracks_[type][0]->Fill(aConv->pairCotThetaSeparation());
4516  if (!isRunCentrally_)
4517  h2_DCotTracksVsEta_->Fill(mcEta_, aConv->pairCotThetaSeparation());
4518  if (!isRunCentrally_)
4519  h2_DCotTracksVsR_->Fill(mcConvR_, aConv->pairCotThetaSeparation());
4520  p_DCotTracksVsEta_->Fill(mcEta_, aConv->pairCotThetaSeparation());
4521  p_DCotTracksVsR_->Fill(mcConvR_, aConv->pairCotThetaSeparation());
4522 
4523  if (phoIsInBarrel) {
4524  h_invMass_[type][1]->Fill(invM);
4525  if (aConv->conversionVertex().isValid()) {
4526  h_convPtRes_[type][1]->Fill(refPt / (*mcPho).fourMomentum().et());
4527  h_EoverPTracks_[type][1]->Fill(eoverp);
4528  if (mcConvR_ < 15)
4529  h_EoverPTracks_[0][0]->Fill(eoverp);
4530  if (mcConvR_ > 15 && mcConvR_ < 58)
4531  h_EoverPTracks_[0][1]->Fill(eoverp);
4532  if (mcConvR_ > 58)
4533  h_EoverPTracks_[0][2]->Fill(eoverp);
4534  h_PoverETracks_[type][1]->Fill(1. / eoverp);
4535  if (!isRunCentrally_)
4537  eoverp, matchingPho->superCluster()->energy() / (*mcPho).fourMomentum().e());
4538  if (!isRunCentrally_)
4539  h2_PoverPtrueVsEoverP_[1]->Fill(eoverp, refP / (*mcPho).fourMomentum().e());
4540  }
4541  h_DPhiTracksAtVtx_[type][1]->Fill(dPhiTracksAtVtx);
4542  h_DCotTracks_[type][1]->Fill(aConv->pairCotThetaSeparation());
4543  }
4544 
4545  if (phoIsInEndcap) {
4546  h_invMass_[type][2]->Fill(invM);
4547  if (aConv->conversionVertex().isValid()) {
4548  h_convPtRes_[type][2]->Fill(refPt / (*mcPho).fourMomentum().et());
4549  h_EoverPTracks_[type][2]->Fill(eoverp);
4550  h_PoverETracks_[type][2]->Fill(1. / eoverp);
4551  if (!isRunCentrally_)
4553  eoverp, matchingPho->superCluster()->energy() / (*mcPho).fourMomentum().e());
4554  if (!isRunCentrally_)
4555  h2_PoverPtrueVsEoverP_[2]->Fill(eoverp, refP / (*mcPho).fourMomentum().e());
4556  }
4557  h_DPhiTracksAtVtx_[type][2]->Fill(dPhiTracksAtVtx);
4558  h_DCotTracks_[type][2]->Fill(aConv->pairCotThetaSeparation());
4559  }
4560 
4561  if (aConv->conversionVertex().isValid()) {
4562  h_convVtxdX_->Fill(aConv->conversionVertex().position().x() - mcConvX_);
4563  h_convVtxdY_->Fill(aConv->conversionVertex().position().y() - mcConvY_);
4564  h_convVtxdZ_->Fill(aConv->conversionVertex().position().z() - mcConvZ_);
4565  h_convVtxdR_->Fill(sqrt(aConv->conversionVertex().position().perp2()) - mcConvR_);
4566 
4567  if (fabs(mcConvEta_) <= 1.2) {
4568  h_convVtxdX_barrel_->Fill(aConv->conversionVertex().position().x() - mcConvX_);
4569  h_convVtxdY_barrel_->Fill(aConv->conversionVertex().position().y() - mcConvY_);
4570  h_convVtxdZ_barrel_->Fill(aConv->conversionVertex().position().z() - mcConvZ_);
4571  h_convVtxdR_barrel_->Fill(sqrt(aConv->conversionVertex().position().perp2()) - mcConvR_);
4572  } else {
4573  h_convVtxdX_endcap_->Fill(aConv->conversionVertex().position().x() - mcConvX_);
4574  h_convVtxdY_endcap_->Fill(aConv->conversionVertex().position().y() - mcConvY_);
4575  h_convVtxdZ_endcap_->Fill(aConv->conversionVertex().position().z() - mcConvZ_);
4576  h_convVtxdR_endcap_->Fill(sqrt(aConv->conversionVertex().position().perp2()) - mcConvR_);
4577  }
4578 
4579  h_convVtxdPhi_->Fill(aConv->conversionVertex().position().phi() - mcConvPhi_);
4580  h_convVtxdEta_->Fill(aConv->conversionVertex().position().eta() - mcConvEta_);
4581  if (!isRunCentrally_)
4582  h2_convVtxdRVsR_->Fill(mcConvR_, sqrt(aConv->conversionVertex().position().perp2()) - mcConvR_);
4583  if (!isRunCentrally_)
4584  h2_convVtxdRVsEta_->Fill(mcEta_, sqrt(aConv->conversionVertex().position().perp2()) - mcConvR_);
4585  p_convVtxdRVsR_->Fill(mcConvR_, sqrt(aConv->conversionVertex().position().perp2()) - mcConvR_);
4586  p_convVtxdRVsEta_->Fill(mcEta_, sqrt(aConv->conversionVertex().position().perp2()) - mcConvR_);
4587  float signX = aConv->refittedPairMomentum().x() / fabs(aConv->refittedPairMomentum().x());
4588  float signY = aConv->refittedPairMomentum().y() / fabs(aConv->refittedPairMomentum().y());
4589  float signZ = aConv->refittedPairMomentum().z() / fabs(aConv->refittedPairMomentum().z());
4590  p_convVtxdXVsX_->Fill(mcConvX_, (aConv->conversionVertex().position().x() - mcConvX_) * signX);
4591  p_convVtxdYVsY_->Fill(mcConvY_, (aConv->conversionVertex().position().y() - mcConvY_) * signY);
4592  p_convVtxdZVsZ_->Fill(mcConvZ_, (aConv->conversionVertex().position().z() - mcConvZ_) * signZ);
4593 
4594  if (!isRunCentrally_)
4595  h2_convVtxRrecVsTrue_->Fill(mcConvR_, sqrt(aConv->conversionVertex().position().perp2()));
4596 
4597  //float zPV = aConv->zOfPrimaryVertexFromTracks();
4598  float thetaConv = aConv->refittedPairMomentum().Theta();
4599  float thetaSC = matchingPho->superCluster()->position().theta();
4600  float rSC =
4601  sqrt(matchingPho->superCluster()->position().x() * matchingPho->superCluster()->position().x() +
4602  matchingPho->superCluster()->position().y() * matchingPho->superCluster()->position().y());
4603  float zSC = matchingPho->superCluster()->position().z();
4604  float zPV = sqrt(rSC * rSC + zSC * zSC) * sin(thetaConv - thetaSC) / sin(thetaConv);
4605 
4606  h_zPVFromTracks_[0]->Fill(zPV);
4607  h_dzPVFromTracks_[0]->Fill(zPV - (*mcPho).primaryVertex().z());
4608 
4609  if (phoIsInBarrel) {
4610  h_zPVFromTracks_[1]->Fill(zPV);
4611  h_dzPVFromTracks_[1]->Fill(zPV - (*mcPho).primaryVertex().z());
4612  } else if (phoIsInEndcap) {
4613  h_zPVFromTracks_[2]->Fill(zPV);
4614  h_dzPVFromTracks_[2]->Fill(zPV - (*mcPho).primaryVertex().z());
4615  } else if (phoIsInEndcapP) {
4616  h_zPVFromTracks_[3]->Fill(zPV);
4617  h_dzPVFromTracks_[3]->Fill(zPV - (*mcPho).primaryVertex().z());
4618  } else if (phoIsInEndcapM) {
4619  h_zPVFromTracks_[4]->Fill(zPV);
4620  h_dzPVFromTracks_[4]->Fill(zPV - (*mcPho).primaryVertex().z());
4621  }
4622 
4623  p_dzPVVsR_->Fill(mcConvR_, zPV - (*mcPho).primaryVertex().z());
4624  p_dzPVVsEta_->Fill(mcConvEta_, zPV - (*mcPho).primaryVertex().z());
4625  if (!isRunCentrally_)
4626  h2_dzPVVsR_->Fill(mcConvR_, zPV - (*mcPho).primaryVertex().z());
4627  }
4628 
4629  float dPhiTracksAtEcal = -99;
4630  float dEtaTracksAtEcal = -99;
4631  if (!aConv->bcMatchingWithTracks().empty() && aConv->bcMatchingWithTracks()[0].isNonnull() &&
4632  aConv->bcMatchingWithTracks()[1].isNonnull()) {
4634  float recoPhi1 = aConv->ecalImpactPosition()[0].phi();
4635  float recoPhi2 = aConv->ecalImpactPosition()[1].phi();
4636  float recoEta1 = aConv->ecalImpactPosition()[0].eta();
4637  float recoEta2 = aConv->ecalImpactPosition()[1].eta();
4638  // unused float bcPhi1 = aConv->bcMatchingWithTracks()[0]->phi();
4639  // unused float bcPhi2 = aConv->bcMatchingWithTracks()[1]->phi();
4640  // unused float bcEta1 = aConv->bcMatchingWithTracks()[0]->eta();
4641  // unused float bcEta2 = aConv->bcMatchingWithTracks()[1]->eta();
4642  recoPhi1 = phiNormalization(recoPhi1);
4643  recoPhi2 = phiNormalization(recoPhi2);
4644  dPhiTracksAtEcal = recoPhi1 - recoPhi2;
4645  dPhiTracksAtEcal = phiNormalization(dPhiTracksAtEcal);
4646  dEtaTracksAtEcal = recoEta1 - recoEta2;
4647 
4648  h_DPhiTracksAtEcal_[type][0]->Fill(fabs(dPhiTracksAtEcal));
4649  if (!isRunCentrally_)
4650  h2_DPhiTracksAtEcalVsR_->Fill(mcConvR_, fabs(dPhiTracksAtEcal));
4651  if (!isRunCentrally_)
4652  h2_DPhiTracksAtEcalVsEta_->Fill(mcEta_, fabs(dPhiTracksAtEcal));
4653  p_DPhiTracksAtEcalVsR_->Fill(mcConvR_, fabs(dPhiTracksAtEcal));
4654  p_DPhiTracksAtEcalVsEta_->Fill(mcEta_, fabs(dPhiTracksAtEcal));
4655 
4656  h_DEtaTracksAtEcal_[type][0]->Fill(dEtaTracksAtEcal);
4657 
4658  if (phoIsInBarrel) {
4659  h_DPhiTracksAtEcal_[type][1]->Fill(fabs(dPhiTracksAtEcal));
4660  h_DEtaTracksAtEcal_[type][1]->Fill(dEtaTracksAtEcal);
4661  }
4662  if (phoIsInEndcap) {
4663  h_DPhiTracksAtEcal_[type][2]->Fill(fabs(dPhiTracksAtEcal));
4664  h_DEtaTracksAtEcal_[type][2]->Fill(dEtaTracksAtEcal);
4665  }
4666  }
4668  for (unsigned int i = 0; i < tracks.size(); i++) {
4670  itAss = myAss.find(tfrb.get());
4671  if (itAss == myAss.end())
4672  continue;
4673 
4674  float trkProvenance = 3;
4675  if (tracks[0]->algoName() == "outInEcalSeededConv" && tracks[1]->algoName() == "outInEcalSeededConv")
4676  trkProvenance = 0;
4677  if (tracks[0]->algoName() == "inOutEcalSeededConv" && tracks[1]->algoName() == "inOutEcalSeededConv")
4678  trkProvenance = 1;
4679  if ((tracks[0]->algoName() == "outInEcalSeededConv" &&
4680  tracks[1]->algoName() == "inOutEcalSeededConv") ||
4681  (tracks[1]->algoName() == "outInEcalSeededConv" && tracks[0]->algoName() == "inOutEcalSeededConv"))
4682  trkProvenance = 2;
4683 
4684  if (!isRunCentrally_)
4686  if (!isRunCentrally_)
4688  p_nHitsVsEta_[type]->Fill(mcEta_, float(tracks[i]->numberOfValidHits()) - 0.0001);
4689  p_nHitsVsR_[type]->Fill(mcConvR_, float(tracks[i]->numberOfValidHits()) - 0.0001);
4692  if (!isRunCentrally_)
4694  if (!isRunCentrally_)
4698 
4699  float simPt = sqrt(((*itAss).second)->momentum().perp2());
4700  // float recPt = sqrt( aConv->tracks()[i]->innerMomentum().Perp2() ) ;
4701  float refPt = -9999.;
4702  float px = 0, py = 0;
4703 
4704  if (aConv->conversionVertex().isValid()) {
4705  reco::Track refTrack = aConv->conversionVertex().refittedTracks()[i];
4706  px = refTrack.momentum().x();
4707  py = refTrack.momentum().y();
4708  refPt = sqrt(px * px + py * py);
4709 
4710  float ptres = refPt - simPt;
4711  // float pterror = aConv->tracks()[i]->ptError();
4712  float pterror = aConv->conversionVertex().refittedTracks()[i].ptError();
4713  if (!isRunCentrally_) {
4714  h2_PtRecVsPtSim_[0]->Fill(simPt, refPt);
4715  if (trkProvenance == 3)
4716  h2_PtRecVsPtSimMixProv_->Fill(simPt, refPt);
4717  }
4718 
4719  h_TkPtPull_[0]->Fill(ptres / pterror);
4720  if (!isRunCentrally_)
4721  h2_TkPtPull_[0]->Fill(mcEta_, ptres / pterror);
4722 
4723  h_TkD0_[0]->Fill(tracks[i]->d0() * tracks[i]->charge());
4724 
4725  // if ( fName_ != "pfPhotonValidator" && fName_ != "oldpfPhotonValidator" )
4726  if (!aConv->bcMatchingWithTracks().empty() && aConv->bcMatchingWithTracks()[i].isNonnull())
4727  hBCEnergyOverTrackPout_[0]->Fill(aConv->bcMatchingWithTracks()[i]->energy() /
4728  sqrt(aConv->tracks()[i]->outerMomentum().Mag2()));
4729 
4730  if (phoIsInBarrel) {
4731  h_TkD0_[1]->Fill(tracks[i]->d0() * tracks[i]->charge());
4732  h_TkPtPull_[1]->Fill(ptres / pterror);
4733  if (!isRunCentrally_)
4734  h2_PtRecVsPtSim_[1]->Fill(simPt, refPt);
4735  //if ( fName_ != "pfPhotonValidator" && fName_ != "oldpfPhotonValidator")
4736  if (!aConv->bcMatchingWithTracks().empty() && aConv->bcMatchingWithTracks()[i].isNonnull())
4737  hBCEnergyOverTrackPout_[1]->Fill(aConv->bcMatchingWithTracks()[i]->energy() /
4738  sqrt(aConv->tracks()[i]->outerMomentum().Mag2()));
4739  }
4740  if (phoIsInEndcap) {
4741  h_TkD0_[2]->Fill(tracks[i]->d0() * tracks[i]->charge());
4742  h_TkPtPull_[2]->Fill(ptres / pterror);
4743  if (!isRunCentrally_)
4744  h2_PtRecVsPtSim_[2]->Fill(simPt, refPt);
4745  // if ( fName_ != "pfPhotonValidator" && fName_ != "oldpfPhotonValidator")
4746  if (!aConv->bcMatchingWithTracks().empty() && aConv->bcMatchingWithTracks()[i].isNonnull())
4747  hBCEnergyOverTrackPout_[2]->Fill(aConv->bcMatchingWithTracks()[i]->energy() /
4748  sqrt(aConv->tracks()[i]->outerMomentum().Mag2()));
4749  }
4750  }
4751 
4752  } // end loop over track
4753  } // end analysis of two associated tracks
4754  } // end analysis of two tracks
4755 
4756  } // loop over conversions
4757 
4759 
4760  reco::ConversionRefVector conversionsOneLeg = matchingPho->conversionsOneLeg();
4761  if (!atLeastOneRecoTwoTrackConversion) {
4762  for (unsigned int iConv = 0; iConv < conversionsOneLeg.size(); iConv++) {
4763  reco::ConversionRef aConv = conversionsOneLeg[iConv];
4764  const std::vector<edm::RefToBase<reco::Track> > tracks = aConv->tracks();
4765 
4766  h_trkAlgo_->Fill(tracks[0]->algo());
4767  h_convAlgo_->Fill(aConv->algo());
4768 
4769  int nAssT = 0;
4770  std::map<const reco::Track*, TrackingParticleRef> myAss;
4771  for (unsigned int i = 0; i < tracks.size(); i++) {
4772  p_nHitsVsEtaSL_[0]->Fill(mcEta_, float(tracks[0]->numberOfValidHits() - 0.0001));
4773  p_nHitsVsRSL_[0]->Fill(mcConvR_, float(tracks[0]->numberOfValidHits() - 0.0001));
4775 
4776  float eoverp = photonE / tracks[0]->p();
4777  h_EoverP_SL_[0]->Fill(eoverp);
4778  if (phoIsInBarrel) {
4779  h_EoverP_SL_[1]->Fill(eoverp);
4780  } else {
4781  h_EoverP_SL_[2]->Fill(eoverp);
4782  }
4783  h_convSLVtxRvsZ_[0]->Fill(tracks[0]->innerPosition().z(), sqrt(tracks[0]->innerPosition().Perp2()));
4784  if (fabs(mcEta_) <= 1.) {
4785  h_convSLVtxRvsZ_[1]->Fill(tracks[0]->innerPosition().z(), sqrt(tracks[0]->innerPosition().Perp2()));
4786  } else {
4787  h_convSLVtxRvsZ_[2]->Fill(tracks[0]->innerPosition().z(), sqrt(tracks[0]->innerPosition().Perp2()));
4788  }
4789 
4792  tc.push_back(tfrb);
4793  reco::SimToRecoCollection q = trackAssociator->associateSimToReco(tc, theConvTP_);
4794  std::vector<std::pair<RefToBase<reco::Track>, double> > trackV;
4795  int tpI = 0;
4796 
4797  if (q.find(theConvTP_[0]) != q.end()) {
4798  trackV = (std::vector<std::pair<RefToBase<reco::Track>, double> >)q[theConvTP_[0]];
4799  } else if (q.find(theConvTP_[1]) != q.end()) {
4800  trackV = (std::vector<std::pair<RefToBase<reco::Track>, double> >)q[theConvTP_[1]];
4801  tpI = 1;
4802  }
4803 
4804  if (trackV.empty())
4805  continue;
4806  edm::RefToBase<reco::Track> tr = trackV.front().first;
4807  myAss.insert(std::make_pair(tr.get(), theConvTP_[tpI]));
4808  nAssT++;
4809  }
4810 
4811  if (nAssT > 0) {
4816  h_SimConvOneMTracks_[4]->Fill((*mcPho).fourMomentum().et());
4817  }
4818  } // End loop over single leg conversions
4819  }
4820 
4821  } // if !fastSim
4822  } // End loop over generated particles
4823  } // End loop over simulated Photons
4824 
4825  if (!isRunCentrally_) {
4826  h_nSimPho_[0]->Fill(float(nSimPho_[0]));
4827  h_nSimPho_[1]->Fill(float(nSimPho_[1]));
4828  h_nSimConv_[0]->Fill(float(nSimConv_[0]));
4829  h_nSimConv_[1]->Fill(float(nSimConv_[1]));
4830  }
4831 
4832  if (!fastSim_) {
4834  for (reco::PhotonCollection::const_iterator iPho = photonCollection.begin(); iPho != photonCollection.end();
4835  iPho++) {
4836  reco::Photon aPho = reco::Photon(*iPho);
4837  // float et= aPho.superCluster()->energy()/cosh( aPho.superCluster()->eta()) ;
4839  for (unsigned int iConv = 0; iConv < conversions.size(); iConv++) {
4840  reco::ConversionRef aConv = conversions[iConv];
4841  double like = aConv->MVAout();
4842  if (like < likelihoodCut_)
4843  continue;
4844  //std::vector<reco::TrackRef> tracks = aConv->tracks();
4845  const std::vector<edm::RefToBase<reco::Track> > tracks = aConv->tracks();
4846  if (tracks.size() < 2)
4847  continue;
4848 
4849  RefToBase<reco::Track> tk1 = aConv->tracks().front();
4850  RefToBase<reco::Track> tk2 = aConv->tracks().back();
4852  tc1.push_back(tk1);
4853  tc2.push_back(tk2);
4854 
4855  bool phoIsInBarrel = false;
4856  bool phoIsInEndcap = false;
4857  if (fabs(aPho.superCluster()->position().eta()) < 1.479) {
4858  phoIsInBarrel = true;
4859  } else {
4860  phoIsInEndcap = true;
4861  }
4862 
4863  if (dCotCutOn_) {
4864  if ((fabs(mcEta_) > 1.1 && fabs(mcEta_) < 1.4) && fabs(aConv->pairCotThetaSeparation()) > dCotHardCutValue_)
4865  continue;
4866  if (fabs(aConv->pairCotThetaSeparation()) > dCotCutValue_)
4867  continue;
4868  }
4869 
4870  h_RecoConvTwoTracks_[0]->Fill(aPho.eta());
4871  h_RecoConvTwoTracks_[1]->Fill(aPho.phi());
4872  if (aConv->conversionVertex().isValid())
4873  h_RecoConvTwoTracks_[2]->Fill(aConv->conversionVertex().position().perp2());
4874  h_RecoConvTwoTracks_[3]->Fill(aConv->conversionVertex().position().z());
4875  h_RecoConvTwoTracks_[4]->Fill(aPho.et());
4876 
4877  int nAssT2 = 0;
4878  for (std::vector<PhotonMCTruth>::const_iterator mcPho = mcPhotons.begin(); mcPho != mcPhotons.end(); mcPho++) {
4879  // mcConvPt_= (*mcPho).fourMomentum().et();
4880  float mcPhi = (*mcPho).fourMomentum().phi();
4881  //simPV_Z = (*mcPho).primaryVertex().z();
4882  mcPhi_ = phiNormalization(mcPhi);
4883  mcEta_ = (*mcPho).fourMomentum().pseudoRapidity();
4884  mcEta_ = etaTransformation(mcEta_, (*mcPho).primaryVertex().z());
4885  //mcConvR_= (*mcPho).vertex().perp();
4886  //mcConvX_= (*mcPho).vertex().x();
4887  //mcConvY_= (*mcPho).vertex().y();
4888  //mcConvZ_= (*mcPho).vertex().z();
4889  //mcConvEta_= (*mcPho).vertex().eta();
4890  //mcConvPhi_= (*mcPho).vertex().phi();
4891  if (fabs(mcEta_) > END_HI)
4892  continue;
4893  // if (mcConvPt_<minPhoPtForPurity) continue;
4894  //if (fabs(mcEta_)>maxPhoEtaForPurity) continue;
4895  //if (fabs(mcConvZ_)>maxPhoZForPurity) continue;
4896  //if (mcConvR_>maxPhoRForEffic) continue;
4897 
4898  if ((*mcPho).isAConversion() != 1)
4899  continue;
4900  if (!((fabs(mcEta_) <= BARL && mcConvR_ < 85) ||
4901  (fabs(mcEta_) > BARL && fabs(mcEta_) <= END_HI && fabs((*mcPho).vertex().z()) < 210)))
4902  continue;
4903 
4904  theConvTP_.clear();
4905  for (size_t i = 0; i < trackingParticles.size(); ++i) {
4906  TrackingParticleRef tp(ElectronTPHandle, i);
4907  if (fabs(tp->vx() - (*mcPho).vertex().x()) < 0.0001 && fabs(tp->vy() - (*mcPho).vertex().y()) < 0.0001 &&
4908  fabs(tp->vz() - (*mcPho).vertex().z()) < 0.0001) {
4910  }
4911  }
4912 
4913  if (theConvTP_.size() < 2)
4914  continue;
4915 
4916  reco::RecoToSimCollection const& p1 = trackAssociator->associateRecoToSim(tc1, theConvTP_);
4917  reco::RecoToSimCollection const& p2 = trackAssociator->associateRecoToSim(tc2, theConvTP_);
4918  std::vector<std::pair<RefToBase<reco::Track>, double> > trackV1, trackV2;
4919 
4920  auto itP1 = p1.find(tk1);
4921  auto itP2 = p2.find(tk2);
4922  bool good = (itP1 != p1.end()) and (not itP1->val.empty()) and (itP2 != p2.end()) and (not itP2->val.empty());
4923  if (not good) {
4924  itP1 = p1.find(tk2);
4925  itP2 = p2.find(tk1);
4926  good = (itP1 != p1.end()) and (not itP1->val.empty()) and (itP2 != p2.end()) and (not itP2->val.empty());
4927  }
4928  if (good) {
4929  std::vector<std::pair<TrackingParticleRef, double> > const& tp1 = itP1->val;
4930  std::vector<std::pair<TrackingParticleRef, double> > const& tp2 = itP2->val;
4931 
4932  TrackingParticleRef tpr1 = tp1.front().first;
4933  TrackingParticleRef tpr2 = tp2.front().first;
4934 
4935  if (abs(tpr1->pdgId()) == 11 && abs(tpr2->pdgId()) == 11) {
4936  if ((tpr1->parentVertex()->sourceTracks_end() - tpr1->parentVertex()->sourceTracks_begin() == 1) &&
4937  (tpr2->parentVertex()->sourceTracks_end() - tpr2->parentVertex()->sourceTracks_begin() == 1)) {
4938  if (tpr1->parentVertex().key() == tpr2->parentVertex().key() &&
4939  ((*tpr1->parentVertex()->sourceTracks_begin())->pdgId() == 22)) {
4940  nAssT2 = 2;
4941  break;
4942  }
4943  }
4944  }
4945  }
4946 
4947  } // end loop over simulated photons
4948 
4949  if (nAssT2 == 2) {
4950  h_RecoConvTwoMTracks_[0]->Fill(aPho.eta());
4951  h_RecoConvTwoMTracks_[1]->Fill(aPho.phi());
4952  if (aConv->conversionVertex().isValid())
4953  h_RecoConvTwoMTracks_[2]->Fill(aConv->conversionVertex().position().perp2());
4954  h_RecoConvTwoMTracks_[3]->Fill(aConv->conversionVertex().position().z());
4955  h_RecoConvTwoMTracks_[4]->Fill(aPho.et());
4956  }
4957 
4959  if (aConv->conversionVertex().isValid()) {
4960  float chi2Prob = ChiSquaredProbability(aConv->conversionVertex().chi2(), aConv->conversionVertex().ndof());
4961  double convR = sqrt(aConv->conversionVertex().position().perp2());
4962  double scalar = aConv->conversionVertex().position().x() * aConv->pairMomentum().x() +
4963  aConv->conversionVertex().position().y() * aConv->pairMomentum().y();
4964 
4965  if (scalar < 0)
4966  convR = -sqrt(aConv->conversionVertex().position().perp2());
4967  h_convVtxRvsZ_[0]->Fill(fabs(aConv->conversionVertex().position().z()),
4968  sqrt(aConv->conversionVertex().position().perp2()));
4969 
4970  if (!aConv->caloCluster().empty()) {
4971  if (!isRunCentrally_)
4972  h2_etaVsRreco_[0]->Fill(aConv->caloCluster()[0]->eta(),
4973  sqrt(aConv->conversionVertex().position().perp2()));
4974  if (fabs(aConv->caloCluster()[0]->eta()) <= 1.) {
4975  h_convVtxYvsX_->Fill(aConv->conversionVertex().position().y(), aConv->conversionVertex().position().x());
4976  h_convVtxRvsZ_[1]->Fill(fabs(aConv->conversionVertex().position().z()), convR);
4977 
4978  if (!isRunCentrally_) {
4979  h_convVtxYvsX_zoom_[0]->Fill(aConv->conversionVertex().position().y(),
4980  aConv->conversionVertex().position().x());
4981  h_convVtxYvsX_zoom_[1]->Fill(aConv->conversionVertex().position().y(),
4982  aConv->conversionVertex().position().x());
4983  h_convVtxRvsZ_zoom_[0]->Fill(fabs(aConv->conversionVertex().position().z()), convR);
4984  h_convVtxRvsZ_zoom_[1]->Fill(fabs(aConv->conversionVertex().position().z()), convR);
4985  }
4986  }
4987  if (fabs(aConv->caloCluster()[0]->eta()) > 1.)
4988  h_convVtxRvsZ_[2]->Fill(fabs(aConv->conversionVertex().position().z()), convR);
4989  }
4990 
4991  h_vtxChi2Prob_[0]->Fill(chi2Prob);
4992  h_vtxChi2_[0]->Fill(aConv->conversionVertex().normalizedChi2());
4993  if (phoIsInBarrel) {
4994  h_vtxChi2Prob_[1]->Fill(chi2Prob);
4995  h_vtxChi2_[1]->Fill(aConv->conversionVertex().normalizedChi2());
4996  }
4997  if (phoIsInEndcap) {
4998  h_vtxChi2Prob_[2]->Fill(chi2Prob);
4999  h_vtxChi2_[2]->Fill(aConv->conversionVertex().normalizedChi2());
5000  }
5001 
5002  } // end conversion vertex valid
5003  } // end loop over reco conversions
5004  } // end loop on all reco photons
5005  } // if !fastSim
5006 
5008  float nPho = 0;
5009  for (reco::GenJetCollection::const_iterator genJetIter = genJetCollection.begin();
5010  genJetIter != genJetCollection.end();
5011  ++genJetIter) {
5012  if (genJetIter->pt() < minPhoEtCut_)
5013  continue;
5014  if (fabs(genJetIter->eta()) > 2.5)
5015  continue;
5016 
5017  float mcJetPhi = genJetIter->phi();
5018  mcJetPhi_ = phiNormalization(mcJetPhi);
5019  mcJetEta_ = genJetIter->eta();
5020  float mcJetPt = genJetIter->pt();
5021 
5022  h_SimJet_[0]->Fill(mcJetEta_);
5023  h_SimJet_[1]->Fill(mcJetPhi_);
5024  h_SimJet_[2]->Fill(mcJetPt);
5025 
5026  std::vector<reco::Photon> thePhotons;
5027  bool matched = false;
5028 
5029  reco::Photon matchingPho;
5030  for (reco::PhotonCollection::const_iterator iPho = photonCollection.begin(); iPho != photonCollection.end();
5031  iPho++) {
5032  reco::Photon aPho = reco::Photon(*iPho);
5033  float phiPho = aPho.phi();
5034  float etaPho = aPho.eta();
5035  float deltaPhi = phiPho - mcJetPhi_;
5036  float deltaEta = etaPho - mcJetEta_;
5037  if (deltaPhi > pi)
5038  deltaPhi -= twopi;
5039  if (deltaPhi < -pi)
5040  deltaPhi += twopi;
5041  deltaPhi = pow(deltaPhi, 2);
5042  deltaEta = pow(deltaEta, 2);
5043  float delta = sqrt(deltaPhi + deltaEta);
5044  if (delta < 0.3) {
5045  matchingPho = *iPho;
5046  matched = true;
5047  }
5048  } // end loop over reco photons
5049 
5050  if (!matched)
5051  continue;
5052  nPho++;
5053 
5056  h_MatchedSimJet_[2]->Fill(mcJetPt);
5057 
5058  bool phoIsInBarrel = false;
5059  bool phoIsInEndcap = false;
5060  if (fabs(matchingPho.superCluster()->position().eta()) < 1.479) {
5061  phoIsInBarrel = true;
5062  } else {
5063  phoIsInEndcap = true;
5064  }
5065  edm::Handle<EcalRecHitCollection> ecalRecHitHandle;
5066  if (phoIsInBarrel) {
5067  // Get handle to rec hits ecal barrel
5068  e.getByToken(barrelEcalHits_, ecalRecHitHandle);
5069  if (!ecalRecHitHandle.isValid()) {
5070  Labels l;
5072  edm::LogError("PhotonProducer") << "Error! Can't get the product " << l.module;
5073  return;
5074  }
5075 
5076  } else if (phoIsInEndcap) {
5077  // Get handle to rec hits ecal encap
5078  e.getByToken(endcapEcalHits_, ecalRecHitHandle);
5079  if (!ecalRecHitHandle.isValid()) {
5080  Labels l;
5082  edm::LogError("PhotonProducer") << "Error! Can't get the product " << l.module;
5083  return;
5084  }
5085  }
5086 
5087  const EcalRecHitCollection ecalRecHitCollection = *(ecalRecHitHandle.product());
5088  float photonE = matchingPho.energy();
5089  float photonEt = matchingPho.et();
5090  float r9 = matchingPho.r9();
5091  float r1 = matchingPho.r1x5();
5092  float r2 = matchingPho.r2x5();
5093  float sigmaIetaIeta = matchingPho.sigmaIetaIeta();
5094  float hOverE = matchingPho.hadronicOverEm();
5095  float ecalIso = matchingPho.ecalRecHitSumEtConeDR04();
5096  float hcalIso = matchingPho.hcalTowerSumEtConeDR04();
5097  float trkIso = matchingPho.trkSumPtSolidConeDR04();
5098  float nIsoTrk = matchingPho.nTrkSolidConeDR04();
5099  std::vector<std::pair<DetId, float> >::const_iterator rhIt;
5100 
5101  bool atLeastOneDeadChannel = false;
5102  for (reco::CaloCluster_iterator bcIt = matchingPho.superCluster()->clustersBegin();
5103  bcIt != matchingPho.superCluster()->clustersEnd();
5104  ++bcIt) {
5105  for (rhIt = (*bcIt)->hitsAndFractions().begin(); rhIt != (*bcIt)->hitsAndFractions().end(); ++rhIt) {
5106  for (EcalRecHitCollection::const_iterator it = ecalRecHitCollection.begin(); it != ecalRecHitCollection.end();
5107  ++it) {
5108  if (rhIt->first == (*it).id()) {
5109  if ((*it).recoFlag() == 9) {
5110  atLeastOneDeadChannel = true;
5111  break;
5112  }
5113  }
5114  }
5115  }
5116  }
5117 
5118  if (atLeastOneDeadChannel) {
5121  h_MatchedSimJetBadCh_[2]->Fill(mcJetPt);
5122  }
5123 
5124  h_scBkgEta_->Fill(matchingPho.superCluster()->eta());
5125  h_scBkgPhi_->Fill(matchingPho.superCluster()->phi());
5126  h_scBkgE_[0]->Fill(matchingPho.superCluster()->energy());
5127  h_scBkgEt_[0]->Fill(matchingPho.superCluster()->energy() / cosh(matchingPho.superCluster()->eta()));
5128  //
5129  h_phoBkgEta_->Fill(matchingPho.eta());
5130  h_phoBkgPhi_->Fill(matchingPho.phi());
5131  h_phoBkgE_[0]->Fill(photonE);
5132  h_phoBkgEt_[0]->Fill(photonEt);
5133  h_phoBkgDEta_->Fill(matchingPho.eta() - mcJetEta_);
5134  h_phoBkgDPhi_->Fill(matchingPho.phi() - mcJetPhi_);
5135 
5136  h_r9Bkg_[0]->Fill(r9);
5137  h_r1Bkg_[0]->Fill(r1);
5138  h_r2Bkg_[0]->Fill(r2);
5139  h_sigmaIetaIetaBkg_[0]->Fill(sigmaIetaIeta);
5140  h_hOverEBkg_[0]->Fill(hOverE);
5141  h_ecalRecHitSumEtConeDR04Bkg_[0]->Fill(ecalIso);
5142  h_hcalTowerSumEtConeDR04Bkg_[0]->Fill(hcalIso);
5143  h_isoTrkSolidConeDR04Bkg_[0]->Fill(trkIso);
5144  h_nTrkSolidConeDR04Bkg_[0]->Fill(nIsoTrk);
5145 
5146  if (!isRunCentrally_) {
5148  h2_r9VsEtBkg_->Fill(mcJetPt, r9);
5150  h2_r1VsEtBkg_->Fill(mcJetPt, r1);
5152  h2_r2VsEtBkg_->Fill(mcJetPt, r2);
5153  h2_sigmaIetaIetaVsEtaBkg_->Fill(mcJetEta_, sigmaIetaIeta);
5154  h2_sigmaIetaIetaVsEtBkg_[0]->Fill(mcJetPt, sigmaIetaIeta);
5156  h2_hOverEVsEtBkg_->Fill(mcJetPt, hOverE);
5157 
5159  p_r1VsEtBkg_->Fill(mcJetPt, r1);
5161  p_r2VsEtBkg_->Fill(mcJetPt, r2);
5162  p_sigmaIetaIetaVsEtaBkg_->Fill(mcJetEta_, sigmaIetaIeta);
5163  p_sigmaIetaIetaVsEtBkg_[0]->Fill(mcJetPt, sigmaIetaIeta);
5165  p_hOverEVsEtBkg_->Fill(mcJetPt, hOverE);
5166  }
5167 
5168  if (!isRunCentrally_) {
5170  h2_ecalRecHitSumEtConeDR04VsEtBkg_[0]->Fill(mcJetPt, ecalIso);
5172  h2_hcalTowerSumEtConeDR04VsEtBkg_[0]->Fill(mcJetPt, hcalIso);
5174  p_ecalRecHitSumEtConeDR04VsEtBkg_[0]->Fill(mcJetPt, ecalIso);
5176  p_hcalTowerSumEtConeDR04VsEtBkg_[0]->Fill(mcJetPt, hcalIso);
5178  p_isoTrkSolidConeDR04VsEtBkg_[0]->Fill(mcJetPt, trkIso);
5180  p_nTrkSolidConeDR04VsEtBkg_[0]->Fill(mcJetPt, nIsoTrk);
5182  h2_isoTrkSolidConeDR04VsEtBkg_[0]->Fill(mcJetPt, trkIso);
5184  h2_nTrkSolidConeDR04VsEtBkg_[0]->Fill(mcJetPt, nIsoTrk);
5185  }
5186 
5187  if (phoIsInBarrel) {
5188  h_r9Bkg_[1]->Fill(r9);
5189  h_r1Bkg_[1]->Fill(r1);
5190  h_r2Bkg_[1]->Fill(r2);
5191 
5192  h_sigmaIetaIetaBkg_[1]->Fill(sigmaIetaIeta);
5193  h_hOverEBkg_[1]->Fill(hOverE);
5194  h_ecalRecHitSumEtConeDR04Bkg_[1]->Fill(ecalIso);
5195  h_hcalTowerSumEtConeDR04Bkg_[1]->Fill(hcalIso);
5196  h_isoTrkSolidConeDR04Bkg_[1]->Fill(trkIso);
5197  h_nTrkSolidConeDR04Bkg_[1]->Fill(nIsoTrk);
5198 
5199  if (!isRunCentrally_) {
5200  h2_sigmaIetaIetaVsEtBkg_[1]->Fill(mcJetPt, sigmaIetaIeta);
5201  h2_isoTrkSolidConeDR04VsEtBkg_[1]->Fill(mcJetPt, trkIso);
5202  h2_nTrkSolidConeDR04VsEtBkg_[1]->Fill(mcJetPt, nIsoTrk);
5203  h2_ecalRecHitSumEtConeDR04VsEtBkg_[1]->Fill(mcJetPt, ecalIso);
5204  h2_hcalTowerSumEtConeDR04VsEtBkg_[1]->Fill(mcJetPt, hcalIso);
5205  p_sigmaIetaIetaVsEtBkg_[1]->Fill(mcJetPt, sigmaIetaIeta);
5206  p_ecalRecHitSumEtConeDR04VsEtBkg_[1]->Fill(mcJetPt, ecalIso);
5207  p_hcalTowerSumEtConeDR04VsEtBkg_[1]->Fill(mcJetPt, hcalIso);
5208  p_isoTrkSolidConeDR04VsEtBkg_[1]->Fill(mcJetPt, trkIso);
5209  p_nTrkSolidConeDR04VsEtBkg_[1]->Fill(mcJetPt, nIsoTrk);
5210  }
5211  } else if (phoIsInEndcap) {
5212  h_r9Bkg_[2]->Fill(r9);
5213  h_r1Bkg_[2]->Fill(r1);
5214  h_r2Bkg_[2]->Fill(r2);
5215 
5216  h_sigmaIetaIetaBkg_[2]->Fill(sigmaIetaIeta);
5217  h_hOverEBkg_[2]->Fill(hOverE);
5218  h_ecalRecHitSumEtConeDR04Bkg_[2]->Fill(ecalIso);
5219  h_hcalTowerSumEtConeDR04Bkg_[2]->Fill(hcalIso);
5220  h_isoTrkSolidConeDR04Bkg_[2]->Fill(trkIso);
5221  h_nTrkSolidConeDR04Bkg_[2]->Fill(nIsoTrk);
5222 
5223  if (!isRunCentrally_) {
5224  h2_sigmaIetaIetaVsEtBkg_[2]->Fill(mcJetPt, sigmaIetaIeta);
5225  h2_isoTrkSolidConeDR04VsEtBkg_[2]->Fill(mcJetPt, trkIso);
5226  h2_nTrkSolidConeDR04VsEtBkg_[2]->Fill(mcJetPt, nIsoTrk);
5227  h2_ecalRecHitSumEtConeDR04VsEtBkg_[2]->Fill(mcJetPt, ecalIso);
5228  h2_hcalTowerSumEtConeDR04VsEtBkg_[2]->Fill(mcJetPt, hcalIso);
5229  p_sigmaIetaIetaVsEtBkg_[2]->Fill(mcJetPt, sigmaIetaIeta);
5230  p_ecalRecHitSumEtConeDR04VsEtBkg_[2]->Fill(mcJetPt, ecalIso);
5231  p_hcalTowerSumEtConeDR04VsEtBkg_[2]->Fill(mcJetPt, hcalIso);
5232  p_isoTrkSolidConeDR04VsEtBkg_[2]->Fill(mcJetPt, trkIso);
5233  p_nTrkSolidConeDR04VsEtBkg_[2]->Fill(mcJetPt, nIsoTrk);
5234  }
5235  }
5236 
5237  if (!fastSim_) {
5240  for (unsigned int iConv = 0; iConv < conversions.size(); iConv++) {
5241  reco::ConversionRef aConv = conversions[iConv];
5242  //std::vector<reco::TrackRef> tracks = aConv->tracks();
5243  const std::vector<edm::RefToBase<reco::Track> > tracks = aConv->tracks();
5244  double like = aConv->MVAout();
5245  if (like < likelihoodCut_)
5246  continue;
5247  if (tracks.size() < 2)
5248  continue;
5249  if (!aConv->caloCluster().empty()) {
5250  h_convEtaBkg_->Fill(aConv->caloCluster()[0]->eta());
5251  h_convPhiBkg_->Fill(aConv->caloCluster()[0]->phi());
5252  }
5253  h_mvaOutBkg_[0]->Fill(like);
5254  float eoverp = aConv->EoverP();
5255  h_EoverPTracksBkg_[0]->Fill(eoverp);
5256  h_PoverETracksBkg_[0]->Fill(1. / eoverp);
5257  h_DCotTracksBkg_[0]->Fill(aConv->pairCotThetaSeparation());
5258  float dPhiTracksAtVtx = aConv->dPhiTracksAtVtx();
5259  h_DPhiTracksAtVtxBkg_[0]->Fill(dPhiTracksAtVtx);
5260 
5261  if (phoIsInBarrel) {
5262  h_mvaOutBkg_[1]->Fill(like);
5263  h_EoverPTracksBkg_[1]->Fill(eoverp);
5264  h_PoverETracksBkg_[1]->Fill(1. / eoverp);
5265  h_DCotTracksBkg_[1]->Fill(aConv->pairCotThetaSeparation());
5266  h_DPhiTracksAtVtxBkg_[1]->Fill(dPhiTracksAtVtx);
5267  } else if (phoIsInEndcap) {
5268  h_mvaOutBkg_[2]->Fill(like);
5269  h_EoverPTracksBkg_[2]->Fill(eoverp);
5270  h_PoverETracksBkg_[2]->Fill(1. / eoverp);
5271  h_DCotTracksBkg_[2]->Fill(aConv->pairCotThetaSeparation());
5272  h_DPhiTracksAtVtxBkg_[2]->Fill(dPhiTracksAtVtx);
5273  }
5274 
5275  if (aConv->conversionVertex().isValid()) {
5276  double convR = sqrt(aConv->conversionVertex().position().perp2());
5277  double scalar = aConv->conversionVertex().position().x() * aConv->pairMomentum().x() +
5278  aConv->conversionVertex().position().y() * aConv->pairMomentum().y();
5279  if (scalar < 0)
5280  convR = -sqrt(aConv->conversionVertex().position().perp2());
5281 
5282  if (!isRunCentrally_) {
5283  h_convVtxRvsZBkg_[0]->Fill(fabs(aConv->conversionVertex().position().z()),
5284  sqrt(aConv->conversionVertex().position().perp2()));
5285  if (!aConv->caloCluster().empty() && fabs(aConv->caloCluster()[0]->eta()) <= 1.) {
5286  h_convVtxYvsXBkg_->Fill(aConv->conversionVertex().position().y(),
5287  aConv->conversionVertex().position().x());
5288  h_convVtxRvsZBkg_[1]->Fill(fabs(aConv->conversionVertex().position().z()), convR);
5289  }
5290  }
5291 
5292  } // end vertex valid
5293 
5294  } // end loop over conversions
5295  } // if !fastSim
5296  } // end loop over sim jets
5297 
5299  for (reco::GenParticleCollection::const_iterator mcIter = genParticles->begin(); mcIter != genParticles->end();
5300  mcIter++) {
5301  if (!(mcIter->pdgId() == 22))
5302  continue;
5303  if (mcIter->mother() != nullptr and !(mcIter->mother()->pdgId() == 25))
5304  continue;
5305  if (fabs(mcIter->eta()) > 2.5)
5306  continue;
5307 
5308  float mcPhi = mcIter->phi();
5309  float mcEta = mcIter->eta();
5310  //mcEta = etaTransformation(mcEta, (*mcPho).primaryVertex().z() );
5311  float mcEnergy = mcIter->energy();
5312 
5313  double dR = 9999999.;
5314  float minDr = 10000.;
5315  int iMatch = -1;
5316  bool matched = false;
5317 
5318  for (unsigned int ipho = 0; ipho < photonHandle->size(); ipho++) {
5319  reco::PhotonRef pho(reco::PhotonRef(photonHandle, ipho));
5320 
5321  double dphi = pho->phi() - mcPhi;
5322  if (std::fabs(dphi) > CLHEP::pi) {
5323  dphi = dphi < 0 ? (CLHEP::twopi) + dphi : dphi - CLHEP::twopi;
5324  }
5325  double deta = pho->superCluster()->position().eta() - mcEta;
5326 
5327  dR = sqrt(pow((deta), 2) + pow(dphi, 2));
5328  if (dR < 0.1 && dR < minDr) {
5329  minDr = dR;
5330  iMatch = ipho;
5331  }
5332  }
5333 
5334  if (iMatch > -1)
5335  matched = true;
5336  if (!matched)
5337  continue;
5338 
5339  reco::PhotonRef matchingPho(reco::PhotonRef(photonHandle, iMatch));
5340 
5341  bool phoIsInBarrel = false;
5342  bool phoIsInEndcap = false;
5343 
5344  float phoEta = matchingPho->superCluster()->position().eta();
5345  if (fabs(phoEta) < 1.479) {
5346  phoIsInBarrel = true;
5347  } else {
5348  phoIsInEndcap = true;
5349  }
5350 
5351  float photonE = matchingPho->energy();
5352  float sigmaEoE = matchingPho->getCorrectedEnergyError(matchingPho->getCandidateP4type()) / matchingPho->energy();
5353  float photonEt = matchingPho->energy() / cosh(matchingPho->eta());
5354  // float photonERegr1 = matchingPho->getCorrectedEnergy(reco::Photon::regression1);
5355  //float photonERegr2 = matchingPho->getCorrectedEnergy(reco::Photon::regression2);
5356  float r9 = matchingPho->r9();
5357  float full5x5_r9 = matchingPho->full5x5_r9();
5358  float r1 = matchingPho->r1x5();
5359  float r2 = matchingPho->r2x5();
5360  float sigmaIetaIeta = matchingPho->sigmaIetaIeta();
5361  float full5x5_sieie = matchingPho->full5x5_sigmaIetaIeta();
5362  float hOverE = matchingPho->hadronicOverEm();
5363  float newhOverE = matchingPho->hadTowOverEm();
5364  float ecalIso = matchingPho->ecalRecHitSumEtConeDR04();
5365  float hcalIso = matchingPho->hcalTowerSumEtConeDR04();
5366  float newhcalIso = matchingPho->hcalTowerSumEtBcConeDR04();
5367  float trkIso = matchingPho->trkSumPtSolidConeDR04();
5368  float nIsoTrk = matchingPho->nTrkSolidConeDR04();
5369  // PF related quantities
5370  float chargedHadIso = matchingPho->chargedHadronIso();
5371  float neutralHadIso = matchingPho->neutralHadronIso();
5372  float photonIso = matchingPho->photonIso();
5373  // float etOutsideMustache = matchingPho->etOutsideMustache();
5374  // int nClusterOutsideMustache = matchingPho->nClusterOutsideMustache();
5375  //float pfMVA = matchingPho->pfMVA();
5376 
5377  if ((photonEt > 14 && newhOverE < 0.15) || (photonEt > 10 && photonEt < 14 && chargedHadIso < 10)) {
5378  h_scEta_miniAOD_[0]->Fill(matchingPho->superCluster()->eta());
5379  h_scPhi_miniAOD_[0]->Fill(matchingPho->superCluster()->phi());
5380 
5381  h_phoE_miniAOD_[0][0]->Fill(photonE);
5382  h_phoEt_miniAOD_[0][0]->Fill(photonEt);
5383 
5384  h_phoERes_miniAOD_[0][0]->Fill(photonE / mcEnergy);
5385  h_phoSigmaEoE_miniAOD_[0][0]->Fill(sigmaEoE);
5386 
5387  h_r9_miniAOD_[0][0]->Fill(r9);
5388  h_full5x5_r9_miniAOD_[0][0]->Fill(full5x5_r9);
5389  h_r1_miniAOD_[0][0]->Fill(r1);
5390  h_r2_miniAOD_[0][0]->Fill(r2);
5391 
5392  h_sigmaIetaIeta_miniAOD_[0][0]->Fill(sigmaIetaIeta);
5393  h_full5x5_sigmaIetaIeta_miniAOD_[0][0]->Fill(full5x5_sieie);
5394  h_hOverE_miniAOD_[0][0]->Fill(hOverE);
5395  h_newhOverE_miniAOD_[0][0]->Fill(newhOverE);
5396 
5397  h_ecalRecHitSumEtConeDR04_miniAOD_[0][0]->Fill(ecalIso);
5398  h_hcalTowerSumEtConeDR04_miniAOD_[0][0]->Fill(hcalIso);
5399  h_hcalTowerBcSumEtConeDR04_miniAOD_[0][0]->Fill(newhcalIso);
5400  h_isoTrkSolidConeDR04_miniAOD_[0][0]->Fill(trkIso);
5401  h_nTrkSolidConeDR04_miniAOD_[0][0]->Fill(nIsoTrk);
5402 
5403  //
5404  h_chHadIso_miniAOD_[0]->Fill(chargedHadIso);
5405  h_nHadIso_miniAOD_[0]->Fill(neutralHadIso);
5407 
5408  //
5409  if (phoIsInBarrel) {
5410  h_phoE_miniAOD_[0][1]->Fill(photonE);
5411  h_phoEt_miniAOD_[0][1]->Fill(photonEt);
5412 
5413  h_phoERes_miniAOD_[0][1]->Fill(photonE / mcEnergy);
5414  h_phoSigmaEoE_miniAOD_[0][1]->Fill(sigmaEoE);
5415 
5416  h_r9_miniAOD_[0][1]->Fill(r9);
5417  h_full5x5_r9_miniAOD_[0][1]->Fill(full5x5_r9);
5418  h_r1_miniAOD_[0][1]->Fill(r1);
5419  h_r2_miniAOD_[0][1]->Fill(r2);
5420  h_sigmaIetaIeta_miniAOD_[0][1]->Fill(sigmaIetaIeta);
5421  h_full5x5_sigmaIetaIeta_miniAOD_[0][1]->Fill(full5x5_sieie);
5422  h_hOverE_miniAOD_[0][1]->Fill(hOverE);
5423  h_newhOverE_miniAOD_[0][1]->Fill(newhOverE);
5424  h_ecalRecHitSumEtConeDR04_miniAOD_[0][1]->Fill(ecalIso);
5425  h_hcalTowerSumEtConeDR04_miniAOD_[0][1]->Fill(hcalIso);
5426  h_hcalTowerBcSumEtConeDR04_miniAOD_[0][1]->Fill(newhcalIso);
5427  h_isoTrkSolidConeDR04_miniAOD_[0][1]->Fill(trkIso);
5428  h_nTrkSolidConeDR04_miniAOD_[0][1]->Fill(nIsoTrk);
5429  h_chHadIso_miniAOD_[1]->Fill(chargedHadIso);
5430  h_nHadIso_miniAOD_[1]->Fill(neutralHadIso);
5432  }
5433  if (phoIsInEndcap) {
5434  h_phoE_miniAOD_[0][2]->Fill(photonE);
5435  h_phoEt_miniAOD_[0][2]->Fill(photonEt);
5436 
5437  h_phoERes_miniAOD_[0][2]->Fill(photonE / mcEnergy);
5438  h_phoSigmaEoE_miniAOD_[0][2]->Fill(sigmaEoE);
5439  h_r9_miniAOD_[0][2]->Fill(r9);
5440  h_full5x5_r9_miniAOD_[0][2]->Fill(full5x5_r9);
5441  h_r1_miniAOD_[0][2]->Fill(r1);
5442  h_r2_miniAOD_[0][2]->Fill(r2);
5443  h_sigmaIetaIeta_miniAOD_[0][2]->Fill(sigmaIetaIeta);
5444  h_full5x5_sigmaIetaIeta_miniAOD_[0][2]->Fill(full5x5_sieie);
5445  h_hOverE_miniAOD_[0][2]->Fill(hOverE);
5446  h_newhOverE_miniAOD_[0][2]->Fill(newhOverE);
5447  h_ecalRecHitSumEtConeDR04_miniAOD_[0][2]->Fill(ecalIso);
5448  h_hcalTowerSumEtConeDR04_miniAOD_[0][2]->Fill(hcalIso);
5449  h_hcalTowerBcSumEtConeDR04_miniAOD_[0][2]->Fill(newhcalIso);
5450  h_isoTrkSolidConeDR04_miniAOD_[0][2]->Fill(trkIso);
5451  h_nTrkSolidConeDR04_miniAOD_[0][2]->Fill(nIsoTrk);
5452  h_chHadIso_miniAOD_[2]->Fill(chargedHadIso);
5453  h_nHadIso_miniAOD_[2]->Fill(neutralHadIso);
5455  }
5456  } // end histos for comparing with miniAOD
5457 
5458  } // end loop over gen photons
5459 
5460  h_nPho_->Fill(float(nPho));
5461 }
MonitorElement * p_DCotTracksVsR_
MonitorElement * p_sigmaEoEVsEta_[3]
MonitorElement * h_convVtxdX_endcap_
MonitorElement * h_SumPtOverPhoPt_NeuHad_unCleaned_[3]
MonitorElement * h_zPVFromTracks_[5]
MonitorElement * h_hOverE_miniAOD_[3][3]
edm::EDGetTokenT< EcalRecHitCollection > barrelEcalHits_
MonitorElement * h_OIinnermostHitR_
MonitorElement * h2_nTrkSolidConeDR04VsEta_[3]
const edm::ESGetToken< CaloGeometry, CaloGeometryRecord > caloGeometryToken_
MonitorElement * p_hOverEVsEtBkg_
MonitorElement * h_nSimPho_[2]
MonitorElement * p_DPhiTracksAtEcalVsR_
MonitorElement * h_scBkgPhi_
MonitorElement * h2_Chi2VsR_[3]
T getParameter(std::string const &) const
Definition: ParameterSet.h:303
MonitorElement * h_sigmaIetaIeta_[3][3]
ParticleType
particle types
Definition: PFCandidate.h:44
MonitorElement * p_sceResVsR9_[3]
MonitorElement * h_DPhiTracksAtEcal_[2][3]
MonitorElement * h_scPhi_miniAOD_[2]
TPRegexp parents
Definition: eve_filter.cc:21
MonitorElement * h2_hcalTowerSumEtConeDR04VsEta_[3]
MonitorElement * h_IOinnermostHitR_
MonitorElement * h_phoBkgDPhi_
MonitorElement * p_nHitsVsEtaSL_[2]
MonitorElement * h_DPhiTracksAtVtx_[2][3]
MonitorElement * p_EoverEtrueVsEta_[3]
MonitorElement * p_EoverPVsEta_[3]
MonitorElement * h_convVtxdZ_
MonitorElement * h_dRPhoPFcand_Pho_Cleaned_[3]
MonitorElement * h_newhOverE_[3][3]
MonitorElement * h_phoBkgPhi_
MonitorElement * h_chHadIso_[3]
MonitorElement * h_phoPhi_[2]
edm::EDGetTokenT< edm::SimVertexContainer > g4_simVtx_Token_
MonitorElement * h_hcalTowerBcSumEtConeDR04_[3][3]
MonitorElement * h2_PoverPtrueVsEoverP_[3]
reco::ConversionRefVector conversions() const
vector of references to Conversion&#39;s
Definition: Photon.h:64
MonitorElement * h_mvaOut_[3]
MonitorElement * h_scE_[2][3]
edm::EDGetTokenT< reco::VertexCollection > offline_pvToken_
MonitorElement * h_nRecoVtx_
MonitorElement * h_convVtxRvsZ_zoom_[2]
MonitorElement * h2_hOverEVsEt_[3]
MonitorElement * h_hcalTowerSumEtConeDR04_miniAOD_[3][3]
MonitorElement * h_SumPtOverPhoPt_NeuHad_Cleaned_[3]
edm::EDGetTokenT< edm::HepMCProduct > hepMC_Token_
MonitorElement * p_hcalTowerSumEtConeDR04VsEt_[3]
std::string fName_
MonitorElement * p_isoTrkSolidConeDR04VsEtBkg_[3]
MonitorElement * h_DPhiTracksAtVtxBkg_[3]
edm::EDGetTokenT< edm::SimVertexContainer > famos_simVtx_Token_
MonitorElement * h2_EoverPVsR_[3]
MonitorElement * h_phoEt_[2][3]
const edm::ESGetToken< TransientTrackBuilder, TransientTrackRecord > transientTrackBuilderToken_
float ecalRecHitSumEtConeDR04() const
Definition: Photon.h:457
MonitorElement * h_DEtaTracksAtEcal_[2][3]
edm::EDGetTokenT< reco::PFCandidateCollection > pfCandidates_
MonitorElement * h_phoEResRegr2_[3][3]
MonitorElement * p_convVtxdYVsY_
MonitorElement * h_phoDEta_[2]
MonitorElement * h_SimJet_[3]
MonitorElement * h2_convVtxdRVsEta_
MonitorElement * h_RecoConvTwoMTracks_[5]
MonitorElement * h_convVtxdY_
MonitorElement * h_psE_
MonitorElement * h_scEtaWidth_[2]
Sin< T >::type sin(const T &t)
Definition: Sin.h:22
MonitorElement * h2_hOverEVsEtaBkg_
MonitorElement * h2_DCotTracksVsEta_
std::vector< GenJet > GenJetCollection
collection of GenJet objects
T const * product() const
Definition: Handle.h:70
MonitorElement * h2_etaVsRsim_[3]
MonitorElement * h2_PtRecVsPtSim_[3]
MonitorElement * h2_PoverPtrueVsEta_[3]
MonitorElement * h_convVtxdZ_endcap_
std::vector< EcalRecHit >::const_iterator const_iterator
MonitorElement * h_scEt_[2][3]
edm::EDGetTokenT< edm::View< reco::Track > > conversionIOTrackPr_Token_
MonitorElement * h_dzPVFromTracks_[5]
MonitorElement * p_EoverEtrueVsR_[3]
MonitorElement * h2_sigmaIetaIetaVsEtBkg_[3]
MonitorElement * h_ecalRecHitSumEtConeDR04Bkg_[3]
MonitorElement * h_simConvVtxRvsZ_[4]
MonitorElement * h2_hcalTowerSumEtConeDR04VsEt_[3]
MonitorElement * h_MatchedSimJet_[3]
MonitorElement * p_nHitsVsRSL_[2]
MonitorElement * p_r2VsEtBkg_
bool isNonnull() const
Checks for non-null.
Definition: Ref.h:238
MonitorElement * h_dRPhoPFcand_NeuHad_Cleaned_[3]
MonitorElement * h2_isoTrkSolidConeDR04VsEtaBkg_
MonitorElement * h_SimConvTwoMTracksAndVtxPGT0005_[5]
MonitorElement * h2_r1VsEtaBkg_
MonitorElement * h2_isoTrkSolidConeDR04VsEtBkg_[3]
MonitorElement * h_TkD0_[3]
MonitorElement * h_dRPhoPFcand_ChHad_Cleaned_[3]
MonitorElement * h_chHadIso_miniAOD_[3]
MonitorElement * h_convVtxdY_endcap_
MonitorElement * h_EoverP_SL_[3]
std::unique_ptr< PhotonMCTruthFinder > thePhotonMCTruthFinder_
float r1x5() const
Definition: Photon.h:274
MonitorElement * p_eResVsR9_[3]
MonitorElement * h_etOutsideMustache_[3]
MonitorElement * h2_DPhiTracksAtVtxVsEta_
MonitorElement * p_DPhiTracksAtVtxVsR_
MonitorElement * h_SumPtOverPhoPt_ChHad_Cleaned_[3]
MonitorElement * p_sigmaEoEVsEt_[3][3]
MonitorElement * h_convVtxdR_endcap_
Log< level::Error, false > LogError
MonitorElement * h_convSLVtxRvsZ_[3]
MonitorElement * h_phoEt_miniAOD_[2][3]
MonitorElement * p_newhOverEVsEta_[3]
MonitorElement * h2_convVtxRrecVsTrue_
MonitorElement * h2_DCotTracksVsR_
edm::EDGetTokenT< EcalRecHitCollection > endcapEcalHits_
MonitorElement * h2_PtRecVsPtSimMixProv_
MonitorElement * h_SumPtOverPhoPt_ChHad_unCleaned_[3]
key_type key() const
Accessor for product key.
Definition: Ref.h:250
MonitorElement * h_convEtaBkg_
edm::EDGetTokenT< edm::ValueMap< std::vector< reco::PFCandidateRef > > > particleBasedIso_token
static const double deltaEta
Definition: CaloConstants.h:8
MonitorElement * h_phoE_miniAOD_[2][3]
MonitorElement * h_scPhi_[2]
MonitorElement * h2_r2VsEtaBkg_
MonitorElement * h_convVtxdPhi_
float photonIso() const
Definition: Photon.h:550
MonitorElement * h_scBkgE_[3]
MonitorElement * h_convERes_[2][3]
MonitorElement * p_Chi2VsR_[3]
MonitorElement * h_SimPho_[3]
Denominator for efficiencies.
const_iterator end() const
Definition: ValueMap.h:230
MonitorElement * h2_r2VsEtBkg_
MonitorElement * p_r2VsEtaBkg_
MonitorElement * h_convVtxRvsZ_[3]
const Double_t pi
MonitorElement * h_nTrkSolidConeDR04_miniAOD_[3][3]
MonitorElement * h_convPhi_[2]
MonitorElement * h_nConv_[2][3]
info per conversion
MonitorElement * h2_isoTrkSolidConeDR04VsEt_[3]
MonitorElement * h_full5x5_r9_miniAOD_[3][3]
void Fill(long long x)
P4type getCandidateP4type() const
Definition: Photon.h:360
MonitorElement * h_r9_[3][3]
MonitorElement * h2_sigmaIetaIetaVsEta_[3]
XYZTLorentzVectorD XYZTLorentzVector
Lorentz vector with cylindrical internal representation using pseudorapidity.
Definition: LorentzVector.h:29
MonitorElement * h_dRPhoPFcand_Pho_unCleaned_[3]
MonitorElement * p_EoverPVsR_[3]
float trkSumPtSolidConeDR04() const
Definition: Photon.h:495
MonitorElement * h2_sceResVsR9_[3]
MonitorElement * h_phoEta_[2]
MonitorElement * h2_Chi2VsEta_[3]
MonitorElement * h_simTkPt_
MonitorElement * h_mvaOutBkg_[3]
MonitorElement * h_trkAlgo_
MonitorElement * h2_dzPVVsR_
edm::EDGetTokenT< edm::SimTrackContainer > g4_simTk_Token_
MonitorElement * h_scEta_[2]
MonitorElement * h_convVtxdX_barrel_
MonitorElement * h2_hOverEVsEta_[3]
MonitorElement * p_eResVsR_
MonitorElement * p_hcalTowerSumEtConeDR04VsEtBkg_[3]
MonitorElement * h_tkChi2Large_[2]
MonitorElement * h2_r1VsEt_[3]
MonitorElement * h_trkProv_[2]
MonitorElement * p_sigmaIetaIetaVsEtaBkg_
reco::SuperClusterRef superCluster() const override
Ref to SuperCluster.
float hcalTowerSumEtConeDR04(int depth=0) const
Definition: Photon.h:475
edm::ParameterSet parameters_
MonitorElement * p_convVtxdRVsEta_
MonitorElement * h_r1_[3][3]
MonitorElement * h_EoverPTracks_[2][3]
MonitorElement * h_phoSigmaEoE_miniAOD_[3][3]
MonitorElement * h_scPhiWidth_[2]
MonitorElement * h2_etaVsRreco_[3]
float sigmaIetaIeta() const
Definition: Photon.h:273
MonitorElement * h2_r1VsEta_[3]
void Fill(HcalDetId &id, double val, std::vector< TH2F > &depth)
MonitorElement * p_ecalRecHitSumEtConeDR04VsEtaBkg_
float phiNormalization(float &a)
T sqrt(T t)
Definition: SSEVec.h:19
MonitorElement * h2_r2VsEta_[3]
MonitorElement * h_nHadIso_miniAOD_[3]
MonitorElement * h_isoTrkSolidConeDR04_[3][3]
MonitorElement * p_hOverEVsEt_[3]
MonitorElement * h_EtR9Less093_[3][3]
MonitorElement * h_tkChi2SL_[2]
float chargedHadronIso() const
Accessors for Particle Flow Isolation variables.
Definition: Photon.h:545
MonitorElement * h2_eResVsEt_[3][3]
MonitorElement * h_r9VsNofTracks_[2][3]
MonitorElement * h_ecalRecHitSumEtConeDR04_[3][3]
MonitorElement * h_ecalRecHitSumEtConeDR04_miniAOD_[3][3]
float full5x5_sigmaIetaIeta() const
Definition: Photon.h:285
MonitorElement * h_phoEResRegr1_[3][3]
MonitorElement * h2_r9VsEtBkg_
MonitorElement * p_hOverEVsEta_[3]
float getCorrectedEnergyError(P4type type) const
MonitorElement * h2_TkPtPull_[3]
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
float hcalTowerSumEtBcConeDR04(int depth=0) const
Definition: Photon.h:493
MonitorElement * h_SumPtOverPhoPt_Pho_Cleaned_[3]
MonitorElement * h_MatchedSimPhoBadCh_[3]
MonitorElement * h_MatchedSimJetBadCh_[3]
MonitorElement * h_convVtxdEta_
MonitorElement * h_r2_[3][3]
MonitorElement * p_nHitsVsEta_[2]
MonitorElement * h_convVtxdY_barrel_
float ChiSquaredProbability(double chiSquared, double nrDOF)
MonitorElement * p_sigmaIetaIetaVsEtBkg_[3]
MonitorElement * h2_EoverEtrueVsEta_[3]
MonitorElement * h_phoBkgDEta_
MonitorElement * h_phoIso_miniAOD_[3]
MonitorElement * h_simTkEta_
MonitorElement * nHitsVsEta_[2]
const_iterator begin() const
MonitorElement * p_nTrkSolidConeDR04VsEtaBkg_
MonitorElement * h2_sigmaIetaIetaVsEtaBkg_
MonitorElement * h_gamgamMassRegr1_[3][3]
MonitorElement * p_convVtxdXVsX_
MonitorElement * p_dzPVVsR_
MonitorElement * hBCEnergyOverTrackPout_[3]
MonitorElement * h_PoverETracksBkg_[3]
MonitorElement * h_invMass_[2][3]
edm::EDGetTokenT< TrackingParticleCollection > token_tp_
MonitorElement * h2_EoverEtrueVsEoverP_[3]
ESHandle< T > getHandle(const ESGetToken< T, R > &iToken) const
Definition: EventSetup.h:151
MonitorElement * h_phoE_[2][3]
MonitorElement * h_simConvVtxYvsX_
MonitorElement * h_hOverE_[3][3]
MonitorElement * h_hOverEBkg_[3]
MonitorElement * h_dRPhoPFcand_NeuHad_unCleaned_[3]
float hadTowOverEm(int depth=0) const
Definition: Photon.h:256
MonitorElement * h_SimPhoMotherEt_[2]
MonitorElement * h2_eResVsR9_[3]
MonitorElement * nHitsVsR_[2]
MonitorElement * h_r1Bkg_[3]
MonitorElement * h_scEta_miniAOD_[2]
Histos for comparison with miniAOD content.
const_iterator end() const
MonitorElement * h_convVtxdX_
MonitorElement * p_isoTrkSolidConeDR04VsEtaBkg_
MonitorElement * h2_DPhiTracksAtVtxVsR_
MonitorElement * h_convVtxYvsXBkg_
MonitorElement * h_TkPtPull_[3]
MonitorElement * h2_EoverPVsEta_[3]
edm::ESHandle< CaloGeometry > theCaloGeom_
ProductLabels Labels
MonitorElement * h_nTrkSolidConeDR04Bkg_[3]
Log< level::Info, false > LogInfo
int nTrkSolidConeDR04() const
Definition: Photon.h:499
MonitorElement * p_DCotTracksVsEta_
MonitorElement * h_convPtRes_[2][3]
MonitorElement * h2_nTrkSolidConeDR04VsEtaBkg_
MonitorElement * h_r2Bkg_[3]
float r2x5() const
Definition: Photon.h:275
MonitorElement * h_MatchedSimPho_[3]
Numerator for efficiencies.
MonitorElement * p_convVtxdRVsR_
static constexpr float d0
float hadronicOverEm(int depth=0) const
Definition: Photon.h:236
MonitorElement * h_convVtxRvsZBkg_[2]
MonitorElement * p_Chi2VsEta_[3]
MonitorElement * h_nHadIso_[3]
MonitorElement * h2_hOverEVsEtBkg_
MonitorElement * p_sigmaEoEVsNVtx_[3][3]
size_type size() const
Size of the RefVector.
Definition: RefVector.h:102
MonitorElement * p_eResVsNVtx_[3][3]
auto const & tracks
cannot be loose
MonitorElement * h_SumPtOverPhoPt_Pho_unCleaned_[3]
MonitorElement * h2_ecalRecHitSumEtConeDR04VsEtBkg_[3]
auto const good
min quality of good
void clear()
Clear the vector.
Definition: RefVector.h:142
MonitorElement * h_nSimConv_[2]
MonitorElement * h_nTrkSolidConeDR04_[3][3]
MonitorElement * h_sigmaIetaIetaBkg_[3]
MonitorElement * h2_EoverEtrueVsR_[3]
MonitorElement * p_hcalTowerBcSumEtConeDR04VsEta_[3]
MonitorElement * h_SimConvTwoMTracksAndVtxPGT0_[5]
MonitorElement * h_gamgamMass_[3][3]
MonitorElement * h_nPho_
std::vector< Photon > PhotonCollection
collectin of Photon objects
Definition: PhotonFwd.h:9
MonitorElement * p_PoverPtrueVsEta_[3]
edm::EDGetTokenT< reco::GenParticleCollection > genpartToken_
const_iterator end() const
Termination of iteration.
Definition: RefVector.h:228
MonitorElement * h_r9Bkg_[3]
MonitorElement * h_phoERes_[3][3]
MonitorElement * h_isoTrkSolidConeDR04Bkg_[3]
MonitorElement * h2_r9VsEtaBkg_
MonitorElement * h_convVtxYvsX_zoom_[2]
MonitorElement * h_convAlgo_
MonitorElement * h_nCluOutsideMustache_[3]
edm::EDGetTokenT< reco::GenJetCollection > genjets_Token_
MonitorElement * h_hcalTowerSumEtConeDR04_[3][3]
MonitorElement * h2_nTrkSolidConeDR04VsEt_[3]
MonitorElement * h2_hcalTowerSumEtConeDR04VsEtBkg_[3]
caConstants::TupleMultiplicity const CAHitNtupletGeneratorKernelsGPU::HitToTuple const cms::cuda::AtomicPairCounter GPUCACell const *__restrict__ uint32_t const *__restrict__ gpuPixelDoublets::CellNeighborsVector const gpuPixelDoublets::CellTracksVector const GPUCACell::OuterHitOfCell const int32_t nHits
MonitorElement * h2_r1VsEtBkg_
MonitorElement * h_DCotTracksBkg_[3]
MonitorElement * h_phoIso_[3]
MonitorElement * p_ecalRecHitSumEtConeDR04VsEta_[3]
MonitorElement * p_r1VsEtaBkg_
MonitorElement * h_PoverETracks_[2][3]
float etaTransformation(float a, float b)
MonitorElement * h2_ecalRecHitSumEtConeDR04VsEt_[3]
MonitorElement * h_phoPixSeedSize_[2]
float r9() const
Definition: Photon.h:276
const Vector & momentum() const
track momentum vector
Definition: TrackBase.h:664
MonitorElement * h_vtxChi2_[3]
MonitorElement * p_nTrkSolidConeDR04VsEtBkg_[3]
MonitorElement * p_hcalTowerBcSumEtConeDR04VsEt_[3]
bool isValid() const
Definition: HandleBase.h:70
MonitorElement * h_pfMva_[3]
edm::EDGetTokenT< reco::PhotonCollection > photonCollectionToken_
MonitorElement * p_ecalRecHitSumEtConeDR04VsEtBkg_[3]
MonitorElement * h_hcalTowerSumEtConeDR04Bkg_[3]
MonitorElement * p_convVtxdZVsZ_
MonitorElement * p_hcalTowerSumEtConeDR04VsEta_[3]
MonitorElement * h_r1_miniAOD_[3][3]
MonitorElement * p_r1VsEtBkg_
MonitorElement * h_phoBkgEt_[3]
double et() const final
transverse energy
HLT enums.
MonitorElement * h2_isoTrkSolidConeDR04VsEta_[3]
boost::indirect_iterator< typename seq_t::const_iterator > const_iterator
Definition: View.h:86
MonitorElement * h_SimPhoMotherEta_[2]
MonitorElement * h_EoverPTracksBkg_[3]
MonitorElement * h_convVtxdR_barrel_
void push_back(const RefToBase< T > &)
MonitorElement * h_VisSimConv_[6]
MonitorElement * h_SimConvTwoMTracks_[5]
MonitorElement * h2_nTrkSolidConeDR04VsEtBkg_[3]
MonitorElement * h2_hcalTowerSumEtConeDR04VsEtaBkg_
MonitorElement * p_eResVsEt_[3][3]
void push_back(value_type const &ref)
Add a Ref<C, T> to the RefVector.
Definition: RefVector.h:67
MonitorElement * h_convVtxYvsX_
MonitorElement * h_phoBkgE_[3]
MonitorElement * p_hOverEVsEtaBkg_
MonitorElement * h_r2_miniAOD_[3][3]
MonitorElement * h_phoSigmaEoE_[3][3]
MonitorElement * h_RecoConvTwoTracks_[5]
MonitorElement * p_r9VsEta_[3]
MonitorElement * h_DCotTracks_[2][3]
MonitorElement * h_phoERes_miniAOD_[3][3]
MonitorElement * h2_DPhiTracksAtEcalVsR_
std::vector< TrackingParticle > TrackingParticleCollection
MonitorElement * p_eResVsEta_[3]
edm::RefVector< TrackingParticleCollection > theConvTP_
MonitorElement * h_newhOverE_miniAOD_[3][3]
MonitorElement * h_dRPhoPFcand_ChHad_unCleaned_[3]
MonitorElement * h_AllSimConv_[5]
MonitorElement * h_vtxChi2Prob_[3]
MonitorElement * h_scBkgEta_
MonitorElement * p_nHitsVsR_[2]
const_iterator begin() const
Initialize an iterator over the RefVector.
Definition: RefVector.h:223
MonitorElement * h_hcalTowerBcSumEtConeDR04_miniAOD_[3][3]
MonitorElement * h_r9_miniAOD_[3][3]
MonitorElement * h2_convVtxdRVsR_
double phi() const final
momentum azimuthal angle
MonitorElement * h_gamgamMassRegr2_[3][3]
MonitorElement * p_newhOverEVsEt_[3]
MonitorElement * h2_r2VsEt_[3]
MonitorElement * h_convVtxdR_
MonitorElement * h_convVtxdZ_barrel_
value_type const * get() const
Definition: RefToBase.h:209
MonitorElement * h_full5x5_sigmaIetaIeta_miniAOD_[3][3]
MonitorElement * h_convEta_[3]
MonitorElement * p_hcalTowerSumEtConeDR04VsEtaBkg_
float neutralHadronIso() const
Definition: Photon.h:549
MonitorElement * p_ecalRecHitSumEtConeDR04VsEt_[3]
double mcPhi_
global variable for the MC photon
Power< A, B >::type pow(const A &a, const B &b)
Definition: Power.h:29
MonitorElement * h_SimConvTwoTracks_[5]
MonitorElement * h2_sigmaIetaIetaVsEt_[3]
MonitorElement * h2_ecalRecHitSumEtConeDR04VsEtaBkg_
MonitorElement * h_scBkgEt_[3]
MonitorElement * h2_DPhiTracksAtEcalVsEta_
edm::EDGetTokenT< edm::View< reco::Track > > conversionOITrackPr_Token_
MonitorElement * h_sigmaIetaIeta_miniAOD_[3][3]
MonitorElement * h2_ecalRecHitSumEtConeDR04VsEta_[3]
MonitorElement * h_SimConvEtaPix_[2]
MonitorElement * h2_eResVsEta_[3]
MonitorElement * p_DPhiTracksAtVtxVsEta_
void labelsForToken(EDGetToken iToken, Labels &oLabels) const
MonitorElement * p_DPhiTracksAtEcalVsEta_
MonitorElement * h_phoDPhi_[2]
MonitorElement * h_convPhiBkg_
edm::EDGetTokenT< edm::SimTrackContainer > famos_simTk_Token_
MonitorElement * h_phoBkgEta_
MonitorElement * h2_r9VsEt_[3]
float full5x5_r9() const
Definition: Photon.h:288
MonitorElement * h_tkChi2_[2]
MonitorElement * p_dzPVVsEta_
double scalar(const CLHEP::HepGenMatrix &m)
Return the matrix as a scalar. Raise an assertion if the matris is not .
Definition: matutil.cc:166
MonitorElement * h_SimConvOneMTracks_[5]
double energy() const final
energy
MonitorElement * h_isoTrkSolidConeDR04_miniAOD_[3][3]
double eta() const final
momentum pseudorapidity

◆ bookHistograms()

void PhotonValidator::bookHistograms ( DQMStore::IBooker iBooker,
edm::Run const &  run,
edm::EventSetup const &   
)
overridevirtual

Histograms for efficiencies

Denominators

Numerators

zooms

test track provenance

Implements DQMOneEDAnalyzer<>.

Definition at line 159 of file PhotonValidator.cc.

References reco::TrackBase::algoSize, dqm::implementation::IBooker::book1D(), dqm::implementation::IBooker::book2D(), dqm::implementation::IBooker::bookProfile(), muonRecoAnalyzer_cfi::chi2Max, muonRecoAnalyzer_cfi::chi2Min, photonValidator_cfi::dCotTracksBin, photonValidator_cfi::dCotTracksMax, photonValidator_cfi::dCotTracksMin, photonValidator_cfi::dEtaBin, photonValidator_cfi::dEtaMax, photonValidator_cfi::dEtaMin, photonAnalyzer_cfi::dEtaTracksBin, photonAnalyzer_cfi::dEtaTracksMax, photonAnalyzer_cfi::dEtaTracksMin, photonValidator_cfi::dPhiBin, HLT_2022v15_cff::dPhiMax, photonValidator_cfi::dPhiMin, photonAnalyzer_cfi::dPhiTracksBin, photonAnalyzer_cfi::dPhiTracksMax, photonAnalyzer_cfi::dPhiTracksMin, photonAnalyzer_cfi::eBin, cosmicPhotonAnalyzer_cfi::eMax, photonAnalyzer_cfi::eMin, photonValidator_cfi::eoverpBin, photonValidationSequence_cff::eoverpMax, photonValidationSequence_cff::eoverpMin, muonRecoAnalyzer_cfi::etaBin, conversionPostprocessing_cfi::etaBin2, ALCARECOTkAlBeamHalo_cff::etaMax, ALCARECOTkAlBeamHalo_cff::etaMin, photonAnalyzer_cfi::etBin, cosmicPhotonAnalyzer_cfi::etMax, photonAnalyzer_cfi::etMin, photonValidator_cfi::etScale, fName_, edm::ParameterSet::getParameter(), photonValidator_cfi::ggMassBin, photonValidator_cfi::ggMassMax, photonValidator_cfi::ggMassMin, h2_Chi2VsEta_, h2_Chi2VsR_, h2_convVtxdRVsEta_, h2_convVtxdRVsR_, h2_convVtxRrecVsTrue_, h2_DCotTracksVsEta_, h2_DCotTracksVsR_, h2_DPhiTracksAtEcalVsEta_, h2_DPhiTracksAtEcalVsR_, h2_DPhiTracksAtVtxVsEta_, h2_DPhiTracksAtVtxVsR_, h2_dzPVVsR_, h2_ecalRecHitSumEtConeDR04VsEt_, h2_ecalRecHitSumEtConeDR04VsEta_, h2_ecalRecHitSumEtConeDR04VsEtaBkg_, h2_ecalRecHitSumEtConeDR04VsEtBkg_, h2_EoverEtrueVsEoverP_, h2_EoverEtrueVsEta_, h2_EoverEtrueVsR_, h2_EoverPVsEta_, h2_EoverPVsR_, h2_eResVsEt_, h2_eResVsEta_, h2_eResVsR9_, h2_etaVsRreco_, h2_etaVsRsim_, h2_hcalTowerSumEtConeDR04VsEt_, h2_hcalTowerSumEtConeDR04VsEta_, h2_hcalTowerSumEtConeDR04VsEtaBkg_, h2_hcalTowerSumEtConeDR04VsEtBkg_, h2_hOverEVsEt_, h2_hOverEVsEta_, h2_hOverEVsEtaBkg_, h2_hOverEVsEtBkg_, h2_isoTrkSolidConeDR04VsEt_, h2_isoTrkSolidConeDR04VsEta_, h2_isoTrkSolidConeDR04VsEtaBkg_, h2_isoTrkSolidConeDR04VsEtBkg_, h2_nTrkSolidConeDR04VsEt_, h2_nTrkSolidConeDR04VsEta_, h2_nTrkSolidConeDR04VsEtaBkg_, h2_nTrkSolidConeDR04VsEtBkg_, h2_PoverPtrueVsEoverP_, h2_PoverPtrueVsEta_, h2_PtRecVsPtSim_, h2_PtRecVsPtSimMixProv_, h2_r1VsEt_, h2_r1VsEta_, h2_r1VsEtaBkg_, h2_r1VsEtBkg_, h2_r2VsEt_, h2_r2VsEta_, h2_r2VsEtaBkg_, h2_r2VsEtBkg_, h2_r9VsEt_, h2_r9VsEtaBkg_, h2_r9VsEtBkg_, h2_sceResVsR9_, h2_sigmaIetaIetaVsEt_, h2_sigmaIetaIetaVsEta_, h2_sigmaIetaIetaVsEtaBkg_, h2_sigmaIetaIetaVsEtBkg_, h2_TkPtPull_, h_AllSimConv_, h_chHadIso_, h_chHadIso_miniAOD_, h_convAlgo_, h_convERes_, h_convEta_, h_convEtaBkg_, h_convPhi_, h_convPhiBkg_, h_convPtRes_, h_convQuality_, h_convSLVtxRvsZ_, h_convVtxdEta_, h_convVtxdPhi_, h_convVtxdR_, h_convVtxdR_barrel_, h_convVtxdR_endcap_, h_convVtxdX_, h_convVtxdX_barrel_, h_convVtxdX_endcap_, h_convVtxdY_, h_convVtxdY_barrel_, h_convVtxdY_endcap_, h_convVtxdZ_, h_convVtxdZ_barrel_, h_convVtxdZ_endcap_, h_convVtxRvsZ_, h_convVtxRvsZ_zoom_, h_convVtxRvsZBkg_, h_convVtxYvsX_, h_convVtxYvsX_zoom_, h_convVtxYvsXBkg_, h_DCotTracks_, h_DCotTracksBkg_, h_DEtaTracksAtEcal_, h_distMinAppTracks_, h_DPhiTracksAtEcal_, h_DPhiTracksAtVtx_, h_DPhiTracksAtVtxBkg_, h_dRPhoPFcand_ChHad_Cleaned_, h_dRPhoPFcand_ChHad_unCleaned_, h_dRPhoPFcand_NeuHad_Cleaned_, h_dRPhoPFcand_NeuHad_unCleaned_, h_dRPhoPFcand_Pho_Cleaned_, h_dRPhoPFcand_Pho_unCleaned_, h_dzPVFromTracks_, h_ecalRecHitSumEtConeDR04_, h_ecalRecHitSumEtConeDR04_miniAOD_, h_ecalRecHitSumEtConeDR04Bkg_, h_EoverP_SL_, h_EoverPTracks_, h_EoverPTracksBkg_, h_etOutsideMustache_, h_EtR9Less093_, h_full5x5_r9_miniAOD_, h_full5x5_sigmaIetaIeta_miniAOD_, h_gamgamMass_, h_gamgamMassRegr1_, h_gamgamMassRegr2_, h_hcalTowerBcSumEtConeDR04_, h_hcalTowerBcSumEtConeDR04_miniAOD_, h_hcalTowerSumEtConeDR04_, h_hcalTowerSumEtConeDR04_miniAOD_, h_hcalTowerSumEtConeDR04Bkg_, h_hOverE_, h_hOverE_miniAOD_, h_hOverEBkg_, h_invMass_, h_IOinnermostHitR_, h_isoTrkSolidConeDR04_, h_isoTrkSolidConeDR04_miniAOD_, h_isoTrkSolidConeDR04Bkg_, h_MatchedSimJet_, h_MatchedSimJetBadCh_, h_MatchedSimPho_, h_MatchedSimPhoBadCh_, h_mvaOut_, h_mvaOutBkg_, h_nCluOutsideMustache_, h_nConv_, h_newhOverE_, h_newhOverE_miniAOD_, h_nHadIso_, h_nHadIso_miniAOD_, h_nPho_, h_nRecoVtx_, h_nSimConv_, h_nSimPho_, h_nTrkSolidConeDR04_, h_nTrkSolidConeDR04_miniAOD_, h_nTrkSolidConeDR04Bkg_, h_OIinnermostHitR_, h_pfMva_, h_phoBkgDEta_, h_phoBkgDPhi_, h_phoBkgE_, h_phoBkgEt_, h_phoBkgEta_, h_phoBkgPhi_, h_phoDEta_, h_phoDPhi_, h_phoE_, h_phoE_miniAOD_, h_phoERes_, h_phoERes_miniAOD_, h_phoEResRegr1_, h_phoEResRegr2_, h_phoEt_, h_phoEt_miniAOD_, h_phoEta_, h_phoIso_, h_phoIso_miniAOD_, h_phoPhi_, h_phoPixSeedSize_, h_phoSigmaEoE_, h_phoSigmaEoE_miniAOD_, h_PoverETracks_, h_PoverETracksBkg_, h_psE_, h_r1_, h_r1_miniAOD_, h_r1Bkg_, h_r2_, h_r2_miniAOD_, h_r2Bkg_, h_r9_, h_r9_miniAOD_, h_r9Bkg_, h_r9VsNofTracks_, h_RecoConvTwoMTracks_, h_RecoConvTwoTracks_, h_scBkgE_, h_scBkgEt_, h_scBkgEta_, h_scBkgPhi_, h_scE_, h_scEt_, h_scEta_, h_scEta_miniAOD_, h_scEtaWidth_, h_scPhi_, h_scPhi_miniAOD_, h_scPhiWidth_, h_sigmaIetaIeta_, h_sigmaIetaIeta_miniAOD_, h_sigmaIetaIetaBkg_, h_SimConvEtaPix_, h_SimConvOneMTracks_, h_SimConvOneTracks_, h_SimConvTwoMTracks_, h_SimConvTwoMTracksAndVtxPGT0005_, h_SimConvTwoMTracksAndVtxPGT0_, h_SimConvTwoTracks_, h_simConvVtxRvsZ_, h_simConvVtxYvsX_, h_SimJet_, h_SimPho_, h_SimPhoMotherEt_, h_SimPhoMotherEta_, h_simTkEta_, h_simTkPt_, h_SumPtOverPhoPt_ChHad_Cleaned_, h_SumPtOverPhoPt_ChHad_unCleaned_, h_SumPtOverPhoPt_NeuHad_Cleaned_, h_SumPtOverPhoPt_NeuHad_unCleaned_, h_SumPtOverPhoPt_Pho_Cleaned_, h_SumPtOverPhoPt_Pho_unCleaned_, h_tkChi2_, h_tkChi2Large_, h_tkChi2SL_, h_TkD0_, h_TkPtPull_, h_trkAlgo_, h_trkProv_, h_VisSimConv_, h_vtxChi2_, h_vtxChi2Prob_, h_zPVFromTracks_, hBCEnergyOverTrackPout_, isRunCentrally_, nHitsVsEta_, nHitsVsR_, p_Chi2VsEta_, p_Chi2VsR_, p_convVtxdRVsEta_, p_convVtxdRVsR_, p_convVtxdXVsX_, p_convVtxdYVsY_, p_convVtxdZVsZ_, p_DCotTracksVsEta_, p_DCotTracksVsR_, p_DPhiTracksAtEcalVsEta_, p_DPhiTracksAtEcalVsR_, p_DPhiTracksAtVtxVsEta_, p_DPhiTracksAtVtxVsR_, p_dzPVVsEta_, p_dzPVVsR_, p_ecalRecHitSumEtConeDR04VsEt_, p_ecalRecHitSumEtConeDR04VsEta_, p_ecalRecHitSumEtConeDR04VsEtaBkg_, p_ecalRecHitSumEtConeDR04VsEtBkg_, p_EoverEtrueVsEta_, p_EoverEtrueVsR_, p_EoverPVsEta_, p_EoverPVsR_, p_eResVsEt_, p_eResVsEta_, p_eResVsNVtx_, p_eResVsR9_, p_eResVsR_, p_hcalTowerBcSumEtConeDR04VsEt_, p_hcalTowerBcSumEtConeDR04VsEta_, p_hcalTowerSumEtConeDR04VsEt_, p_hcalTowerSumEtConeDR04VsEta_, p_hcalTowerSumEtConeDR04VsEtaBkg_, p_hcalTowerSumEtConeDR04VsEtBkg_, p_hOverEVsEt_, p_hOverEVsEta_, p_hOverEVsEtaBkg_, p_hOverEVsEtBkg_, p_isoTrkSolidConeDR04VsEtaBkg_, p_isoTrkSolidConeDR04VsEtBkg_, p_newhOverEVsEt_, p_newhOverEVsEta_, p_nHitsVsEta_, p_nHitsVsEtaSL_, p_nHitsVsR_, p_nHitsVsRSL_, p_nTrkSolidConeDR04VsEtaBkg_, p_nTrkSolidConeDR04VsEtBkg_, p_PoverPtrueVsEta_, p_r1VsEtaBkg_, p_r1VsEtBkg_, p_r2VsEtaBkg_, p_r2VsEtBkg_, p_r9VsEta_, p_sceResVsR9_, p_sigmaEoEVsEt_, p_sigmaEoEVsEta_, p_sigmaEoEVsNVtx_, p_sigmaIetaIetaVsEtaBkg_, p_sigmaIetaIetaVsEtBkg_, p_TkPtPull_, parameters_, BeamMonitor_cff::phiBin, AlignmentTrackSelector_cfi::phiMax, AlignmentTrackSelector_cfi::phiMin, photonValidator_cfi::povereBin, photonValidator_cfi::povereMax, photonValidator_cfi::povereMin, photonAnalyzer_cfi::r9Bin, cosmicPhotonAnalyzer_cfi::r9Max, photonAnalyzer_cfi::r9Min, photonAnalyzer_cfi::rBin, photonValidator_cfi::rBinForXray, photonValidator_cfi::resBin, photonValidator_cfi::resMax, photonValidator_cfi::resMin, photonAnalyzer_cfi::rMax, photonValidator_cfi::rMaxForXray, photonAnalyzer_cfi::rMin, photonValidator_cfi::rMinForXray, dqm::implementation::NavigatorBase::setCurrentFolder(), AlCaHLTBitMon_QueryRunRegistry::string, photonAnalyzer_cfi::zBin, photonValidator_cfi::zBin2ForXray, photonValidator_cfi::zBinForXray, photonAnalyzer_cfi::zMax, photonValidator_cfi::zMaxForXray, photonAnalyzer_cfi::zMin, and photonValidator_cfi::zMinForXray.

159  {
160  double resMin = parameters_.getParameter<double>("resMin");
161  double resMax = parameters_.getParameter<double>("resMax");
162  int resBin = parameters_.getParameter<int>("resBin");
163 
164  double eMin = parameters_.getParameter<double>("eMin");
165  double eMax = parameters_.getParameter<double>("eMax");
166  int eBin = parameters_.getParameter<int>("eBin");
167 
168  double etMin = parameters_.getParameter<double>("etMin");
169  double etMax = parameters_.getParameter<double>("etMax");
170  int etBin = parameters_.getParameter<int>("etBin");
171 
172  double etScale = parameters_.getParameter<double>("etScale");
173 
174  double etaMin = parameters_.getParameter<double>("etaMin");
175  double etaMax = parameters_.getParameter<double>("etaMax");
176  int etaBin = parameters_.getParameter<int>("etaBin");
177  int etaBin2 = parameters_.getParameter<int>("etaBin2");
178 
179  double dEtaMin = parameters_.getParameter<double>("dEtaMin");
180  double dEtaMax = parameters_.getParameter<double>("dEtaMax");
181  int dEtaBin = parameters_.getParameter<int>("dEtaBin");
182 
183  double phiMin = parameters_.getParameter<double>("phiMin");
184  double phiMax = parameters_.getParameter<double>("phiMax");
185  int phiBin = parameters_.getParameter<int>("phiBin");
186 
187  double dPhiMin = parameters_.getParameter<double>("dPhiMin");
188  double dPhiMax = parameters_.getParameter<double>("dPhiMax");
189  int dPhiBin = parameters_.getParameter<int>("dPhiBin");
190 
191  double rMin = parameters_.getParameter<double>("rMin");
192  double rMax = parameters_.getParameter<double>("rMax");
193  int rBin = parameters_.getParameter<int>("rBin");
194 
195  double zMin = parameters_.getParameter<double>("zMin");
196  double zMax = parameters_.getParameter<double>("zMax");
197  int zBin = parameters_.getParameter<int>("zBin");
198 
199  double r9Min = parameters_.getParameter<double>("r9Min");
200  double r9Max = parameters_.getParameter<double>("r9Max");
201  int r9Bin = parameters_.getParameter<int>("r9Bin");
202 
203  double dPhiTracksMin = parameters_.getParameter<double>("dPhiTracksMin");
204  double dPhiTracksMax = parameters_.getParameter<double>("dPhiTracksMax");
205  int dPhiTracksBin = parameters_.getParameter<int>("dPhiTracksBin");
206 
207  double dEtaTracksMin = parameters_.getParameter<double>("dEtaTracksMin");
208  double dEtaTracksMax = parameters_.getParameter<double>("dEtaTracksMax");
209  int dEtaTracksBin = parameters_.getParameter<int>("dEtaTracksBin");
210 
211  double dCotTracksMin = parameters_.getParameter<double>("dCotTracksMin");
212  double dCotTracksMax = parameters_.getParameter<double>("dCotTracksMax");
213  int dCotTracksBin = parameters_.getParameter<int>("dCotTracksBin");
214 
215  double povereMin = parameters_.getParameter<double>("povereMin");
216  double povereMax = parameters_.getParameter<double>("povereMax");
217  int povereBin = parameters_.getParameter<int>("povereBin");
218 
219  double eoverpMin = parameters_.getParameter<double>("eoverpMin");
220  double eoverpMax = parameters_.getParameter<double>("eoverpMax");
221  int eoverpBin = parameters_.getParameter<int>("eoverpBin");
222 
223  double chi2Min = parameters_.getParameter<double>("chi2Min");
224  double chi2Max = parameters_.getParameter<double>("chi2Max");
225 
226  int ggMassBin = parameters_.getParameter<int>("ggMassBin");
227  double ggMassMin = parameters_.getParameter<double>("ggMassMin");
228  double ggMassMax = parameters_.getParameter<double>("ggMassMax");
229 
230  double rMinForXray = parameters_.getParameter<double>("rMinForXray");
231  double rMaxForXray = parameters_.getParameter<double>("rMaxForXray");
232  int rBinForXray = parameters_.getParameter<int>("rBinForXray");
233  double zMinForXray = parameters_.getParameter<double>("zMinForXray");
234  double zMaxForXray = parameters_.getParameter<double>("zMaxForXray");
235  int zBinForXray = parameters_.getParameter<int>("zBinForXray");
236  int zBin2ForXray = parameters_.getParameter<int>("zBin2ForXray");
237 
239  // SC from reco photons
240 
241  iBooker.setCurrentFolder("EgammaV/" + fName_ + "/SimulationInfo");
242 
243  // simulation information about all MC photons found
244  std::string histname = "nOfSimPhotons";
245  if (!isRunCentrally_) {
246  h_nSimPho_[0] = iBooker.book1D(histname, "# of Sim photons per event ", 20, -0.5, 19.5);
247  histname = "SimPhoMotherEt";
248  h_SimPhoMotherEt_[0] = iBooker.book1D(histname, "Sim photon Mother tranverse energy spectrum", etBin, etMin, etMax);
249  h_SimPhoMotherEta_[0] = iBooker.book1D("SimPhoMotherEta", " Sim Photon Mother Eta ", etaBin, etaMin, etaMax);
250  histname = "SimPhoMotherEtMatched";
251  h_SimPhoMotherEt_[1] = iBooker.book1D(
252  histname, "Sim photon matched by a reco Photon: Mother tranverse energy spectrum", etBin, etMin, etMax);
253  h_SimPhoMotherEta_[1] = iBooker.book1D(
254  "SimPhoMotherEtaMatched", " Sim Photon matched by a reco Photon: Mother Eta ", etaBin, etaMin, etaMax);
255  }
256 
257  histname = "h_SimPhoEta";
258  h_SimPho_[0] = iBooker.book1D(histname, " All photons simulated #eta", etaBin, etaMin, etaMax);
259  histname = "h_SimPhoPhi";
260  h_SimPho_[1] = iBooker.book1D(histname, " All photons simulated #phi", phiBin, phiMin, phiMax);
261  histname = "h_SimPhoEt";
262  h_SimPho_[2] = iBooker.book1D(histname, " All photons simulated Et", etBin, etMin, etMax);
263  // Numerators
264  histname = "nOfSimPhotonsMatched";
265  h_nSimPho_[1] = iBooker.book1D(histname, "# of Sim photons matched by a reco Photon per event ", 20, -0.5, 19.5);
266  histname = "h_MatchedSimPhoEta";
267  h_MatchedSimPho_[0] = iBooker.book1D(histname, " Matching photons simulated #eta", etaBin, etaMin, etaMax);
268  histname = "h_MatchedSimPhoPhi";
269  h_MatchedSimPho_[1] = iBooker.book1D(histname, " Matching photons simulated #phi", phiBin, phiMin, phiMax);
270  histname = "h_MatchedSimPhoEt";
271  h_MatchedSimPho_[2] = iBooker.book1D(histname, " Matching photons simulated Et", etBin, etMin, etMax);
272  //
273  histname = "h_MatchedSimPhoBadChEta";
274  h_MatchedSimPhoBadCh_[0] = iBooker.book1D(histname, " Matching photons simulated #eta", etaBin, etaMin, etaMax);
275  histname = "h_MatchedSimPhoBadChPhi";
276  h_MatchedSimPhoBadCh_[1] = iBooker.book1D(histname, " Matching photons simulated #phi", phiBin, phiMin, phiMax);
277  histname = "h_MatchedSimPhoBadChEt";
278  h_MatchedSimPhoBadCh_[2] = iBooker.book1D(histname, " Matching photons simulated Et", etBin, etMin, etMax);
279 
281  histname = "nOfSimConversions";
282  if (!isRunCentrally_) {
283  h_nSimConv_[0] = iBooker.book1D(histname, "# of Sim conversions per event ", 20, -0.5, 19.5);
284  histname = "nOfVisSimConversions";
285  h_nSimConv_[1] = iBooker.book1D(histname, "# of Sim conversions per event ", 20, -0.5, 19.5);
286  }
288  histname = "h_AllSimConvEta";
289  h_AllSimConv_[0] = iBooker.book1D(histname, " All conversions: simulated #eta", etaBin2, etaMin, etaMax);
290  histname = "h_AllSimConvPhi";
291  h_AllSimConv_[1] = iBooker.book1D(histname, " All conversions: simulated #phi", phiBin, phiMin, phiMax);
292  histname = "h_AllSimConvR";
293  h_AllSimConv_[2] = iBooker.book1D(histname, " All conversions: simulated R", rBin, rMin, rMax);
294  histname = "h_AllSimConvZ";
295  h_AllSimConv_[3] = iBooker.book1D(histname, " All conversions: simulated Z", zBin, zMin, zMax);
296  histname = "h_AllSimConvEt";
297  h_AllSimConv_[4] = iBooker.book1D(histname, " All conversions: simulated Et", etBin, etMin, etMax);
298  //
299  histname = "h_VisSimConvEta";
300  h_VisSimConv_[0] = iBooker.book1D(histname, " All vis conversions: simulated #eta", etaBin2, etaMin, etaMax);
301  histname = "h_VisSimConvPhi";
302  h_VisSimConv_[1] = iBooker.book1D(histname, " All vis conversions: simulated #phi", phiBin, phiMin, phiMax);
303  histname = "h_VisSimConvR";
304  h_VisSimConv_[2] = iBooker.book1D(histname, " All vis conversions: simulated R", rBin, rMin, rMax);
305  histname = "h_VisSimConvZ";
306  h_VisSimConv_[3] = iBooker.book1D(histname, " All vis conversions: simulated Z", zBin, zMin, zMax);
307  histname = "h_VisSimConvEt";
308  h_VisSimConv_[4] = iBooker.book1D(histname, " All vis conversions: simulated Et", etBin, etMin, etMax);
310  histname = "h_SimConvOneTracksEta";
312  iBooker.book1D(histname, " All vis conversions with 1 reco tracks: simulated #eta", etaBin2, etaMin, etaMax);
313  histname = "h_SimConvOneTracksPhi";
315  iBooker.book1D(histname, " All vis conversions with 1 reco tracks: simulated #phi", phiBin, phiMin, phiMax);
316  histname = "h_SimConvOneTracksR";
318  iBooker.book1D(histname, " All vis conversions with 1 reco tracks: simulated R", rBin, rMin, rMax);
319  histname = "h_SimConvOneTracksZ";
321  iBooker.book1D(histname, " All vis conversions with 1 reco tracks: simulated Z", zBin, zMin, zMax);
322  histname = "h_SimConvOneTracksEt";
324  iBooker.book1D(histname, " All vis conversions with 1 reco tracks: simulated Et", etBin, etMin, etMax);
325  //
326  histname = "h_SimConvTwoMTracksEta";
327  h_SimConvTwoMTracks_[0] = iBooker.book1D(
328  histname, " All vis conversions with 2 reco-matching tracks: simulated #eta", etaBin2, etaMin, etaMax);
329  histname = "h_SimConvTwoMTracksPhi";
330  h_SimConvTwoMTracks_[1] = iBooker.book1D(
331  histname, " All vis conversions with 2 reco-matching tracks: simulated #phi", phiBin, phiMin, phiMax);
332  histname = "h_SimConvTwoMTracksR";
334  iBooker.book1D(histname, " All vis conversions with 2 reco-matching tracks: simulated R", rBin, rMin, rMax);
335  histname = "h_SimConvTwoMTracksZ";
337  iBooker.book1D(histname, " All vis conversions with 2 reco-matching tracks: simulated Z", zBin, zMin, zMax);
338  histname = "h_SimConvTwoMTracksEt";
340  iBooker.book1D(histname, " All vis conversions with 2 reco-matching tracks: simulated Et", etBin, etMin, etMax);
341  //
342  histname = "h_SimConvTwoTracksEta";
344  iBooker.book1D(histname, " All vis conversions with 2 reco tracks: simulated #eta", etaBin2, etaMin, etaMax);
345  histname = "h_SimConvTwoTracksPhi";
347  iBooker.book1D(histname, " All vis conversions with 2 reco tracks: simulated #phi", phiBin, phiMin, phiMax);
348  histname = "h_SimConvTwoTracksR";
350  iBooker.book1D(histname, " All vis conversions with 2 reco tracks: simulated R", rBin, rMin, rMax);
351  histname = "h_SimConvTwoTracksZ";
353  iBooker.book1D(histname, " All vis conversions with 2 reco tracks: simulated Z", zBin, zMin, zMax);
354  histname = "h_SimConvTwoTracksEt";
356  iBooker.book1D(histname, " All vis conversions with 2 reco tracks: simulated Et", etBin, etMin, etMax);
357  //
358  histname = "h_SimConvOneMTracksEta";
359  h_SimConvOneMTracks_[0] = iBooker.book1D(
360  histname, " All vis conversions with 1 reco-matching tracks: simulated #eta", etaBin2, etaMin, etaMax);
361  histname = "h_SimConvOneMTracksPhi";
362  h_SimConvOneMTracks_[1] = iBooker.book1D(
363  histname, " All vis conversions with 1 reco-matching tracks: simulated #phi", phiBin, phiMin, phiMax);
364  histname = "h_SimConvOneMTracksR";
366  iBooker.book1D(histname, " All vis conversions with 1 reco-matching tracks: simulated R", rBin, rMin, rMax);
367  histname = "h_SimConvOneMTracksZ";
369  iBooker.book1D(histname, " All vis conversions with 1 reco-matching tracks: simulated Z", zBin, zMin, zMax);
370  histname = "h_SimConvOneMTracksEt";
372  iBooker.book1D(histname, " All vis conversions with 1 reco-matching tracks: simulated Et", etBin, etMin, etMax);
373  //
374  histname = "h_SimConvTwoMTracksEtaAndVtxPGT0";
376  histname, " All vis conversions with 2 reco-matching tracks + vertex: simulated #eta", etaBin2, etaMin, etaMax);
377  histname = "h_SimConvTwoMTracksPhiAndVtxPGT0";
379  histname, " All vis conversions with 2 reco-matching tracks + vertex: simulated #phi", phiBin, phiMin, phiMax);
380  histname = "h_SimConvTwoMTracksRAndVtxPGT0";
382  histname, " All vis conversions with 2 reco-matching tracks + vertex: simulated R", rBin, rMin, rMax);
383  histname = "h_SimConvTwoMTracksZAndVtxPGT0";
385  histname, " All vis conversions with 2 reco-matching tracks + vertex: simulated Z", zBin, zMin, zMax);
386  histname = "h_SimConvTwoMTracksEtAndVtxPGT0";
388  histname, " All vis conversions with 2 reco-matching tracks + vertex: simulated Et", etBin, etMin, etMax);
389  //
390  histname = "h_SimConvTwoMTracksEtaAndVtxPGT0005";
392  histname, " All vis conversions with 2 reco-matching tracks + vertex: simulated #eta", etaBin2, etaMin, etaMax);
393  histname = "h_SimConvTwoMTracksPhiAndVtxPGT0005";
395  histname, " All vis conversions with 2 reco-matching tracks + vertex: simulated #phi", phiBin, phiMin, phiMax);
396  histname = "h_SimConvTwoMTracksRAndVtxPGT0005";
398  histname, " All vis conversions with 2 reco-matching tracks + vertex: simulated R", rBin, rMin, rMax);
399  histname = "h_SimConvTwoMTracksZAndVtxPGT0005";
401  histname, " All vis conversions with 2 reco-matching tracks + vertex: simulated Z", zBin, zMin, zMax);
402  histname = "h_SimConvTwoMTracksEtAndVtxPGT0005";
404  histname, " All vis conversions with 2 reco-matching tracks + vertex: simulated Et", etBin, etMin, etMax);
405 
406  if (!isRunCentrally_) {
407  h_SimConvEtaPix_[0] = iBooker.book1D("simConvEtaPix", " sim converted Photon Eta: Pix ", etaBin, etaMin, etaMax);
408  h_simTkPt_ = iBooker.book1D("simTkPt", "Sim conversion tracks pt ", etBin * 3, 0., etMax);
409  h_simTkEta_ = iBooker.book1D("simTkEta", "Sim conversion tracks eta ", etaBin, etaMin, etaMax);
410  h_simConvVtxRvsZ_[0] = iBooker.book2D("simConvVtxRvsZAll",
411  " Photon Sim conversion vtx position",
412  zBinForXray,
413  zMinForXray,
414  zMaxForXray,
415  rBinForXray,
416  rMinForXray,
417  rMaxForXray);
418  h_simConvVtxRvsZ_[1] = iBooker.book2D("simConvVtxRvsZBarrel",
419  " Photon Sim conversion vtx position",
420  zBinForXray,
421  zMinForXray,
422  zMaxForXray,
423  rBinForXray,
424  rMinForXray,
425  rMaxForXray);
426  h_simConvVtxRvsZ_[2] = iBooker.book2D("simConvVtxRvsZEndcap",
427  " Photon Sim conversion vtx position",
428  zBin2ForXray,
429  zMinForXray,
430  zMaxForXray,
431  rBinForXray,
432  rMinForXray,
433  rMaxForXray);
434  h_simConvVtxYvsX_ = iBooker.book2D(
435  "simConvVtxYvsXTrkBarrel", " Photon Sim conversion vtx position, (x,y) eta<1 ", 100, -80., 80., 100, -80., 80.);
436  }
437 
439  histname = "h_SimJetEta";
440  h_SimJet_[0] = iBooker.book1D(histname, " Jet bkg simulated #eta", etaBin, etaMin, etaMax);
441  histname = "h_SimJetPhi";
442  h_SimJet_[1] = iBooker.book1D(histname, " Jet bkg simulated #phi", phiBin, phiMin, phiMax);
443  histname = "h_SimJetEt";
444  h_SimJet_[2] = iBooker.book1D(histname, " Jet bkg simulated Et", etBin, etMin, etMax);
445  //
446  histname = "h_MatchedSimJetEta";
447  h_MatchedSimJet_[0] = iBooker.book1D(histname, " Matching jet simulated #eta", etaBin, etaMin, etaMax);
448  histname = "h_MatchedSimJetPhi";
449  h_MatchedSimJet_[1] = iBooker.book1D(histname, " Matching jet simulated #phi", phiBin, phiMin, phiMax);
450  histname = "h_MatchedSimJetEt";
451  h_MatchedSimJet_[2] = iBooker.book1D(histname, " Matching jet simulated Et", etBin, etMin, etMax);
452  //
453  histname = "h_MatchedSimJetBadChEta";
454  h_MatchedSimJetBadCh_[0] = iBooker.book1D(histname, " Matching jet simulated #eta", etaBin, etaMin, etaMax);
455  histname = "h_MatchedSimJetBadChPhi";
456  h_MatchedSimJetBadCh_[1] = iBooker.book1D(histname, " Matching jet simulated #phi", phiBin, phiMin, phiMax);
457  histname = "h_MatchedSimJetBadChEt";
458  h_MatchedSimJetBadCh_[2] = iBooker.book1D(histname, " Matching jet simulated Et", etBin, etMin, etMax);
459 
460  iBooker.setCurrentFolder("EgammaV/" + fName_ + "/Background");
461 
462  histname = "nOfPhotons";
463  h_nPho_ = iBooker.book1D(histname, "# of Reco photons per event ", 20, -0.5, 19.5);
464 
465  h_scBkgEta_ = iBooker.book1D("scBkgEta", " SC Bkg Eta ", etaBin, etaMin, etaMax);
466  h_scBkgPhi_ = iBooker.book1D("scBkgPhi", " SC Bkg Phi ", phiBin, phiMin, phiMax);
467  //
468  h_phoBkgEta_ = iBooker.book1D("phoBkgEta", " Photon Bkg Eta ", etaBin, etaMin, etaMax);
469  h_phoBkgPhi_ = iBooker.book1D("phoBkgPhi", " Photon Bkg Phi ", phiBin, phiMin, phiMax);
470  //
471  h_phoBkgDEta_ = iBooker.book1D("phoBkgDEta", " Photon Eta(rec)-Eta(true) ", dEtaBin, dEtaMin, dEtaMax);
472  h_phoBkgDPhi_ = iBooker.book1D("phoBkgDPhi", " Photon Phi(rec)-Phi(true) ", dPhiBin, dPhiMin, dPhiMax);
473  //
474  histname = "phoBkgE";
475  h_phoBkgE_[0] = iBooker.book1D(histname + "All", " Photon Bkg Energy: All ecal ", eBin, eMin, eMax);
476  h_phoBkgE_[1] = iBooker.book1D(histname + "Barrel", " Photon Bkg Energy: barrel ", eBin, eMin, eMax);
477  h_phoBkgE_[2] = iBooker.book1D(histname + "Endcap", " Photon Bkg Energy: Endcap ", eBin, eMin, eMax);
478  //
479  histname = "phoBkgEt";
480  h_phoBkgEt_[0] = iBooker.book1D(histname + "All", " Photon Bkg Transverse Energy: All ecal ", etBin, etMin, etMax);
481  h_phoBkgEt_[1] = iBooker.book1D(histname + "Barrel", " Photon Bkg Transverse Energy: Barrel ", etBin, etMin, etMax);
482  h_phoBkgEt_[2] = iBooker.book1D(histname + "Endcap", " Photon BkgTransverse Energy: Endcap ", etBin, etMin, etMax);
483 
484  //
485  histname = "scBkgE";
486  h_scBkgE_[0] = iBooker.book1D(histname + "All", " SC bkg Energy: All Ecal ", eBin, eMin, eMax);
487  h_scBkgE_[1] = iBooker.book1D(histname + "Barrel", " SC bkg Energy: Barrel ", eBin, eMin, eMax);
488  h_scBkgE_[2] = iBooker.book1D(histname + "Endcap", " SC bkg Energy: Endcap ", eBin, eMin, eMax);
489  histname = "scBkgEt";
490  h_scBkgEt_[0] = iBooker.book1D(histname + "All", " SC bkg Et: All Ecal ", eBin, eMin, eMax);
491  h_scBkgEt_[1] = iBooker.book1D(histname + "Barrel", " SC bkg Et: Barrel ", eBin, eMin, eMax);
492  h_scBkgEt_[2] = iBooker.book1D(histname + "Endcap", " SC bkg Et: Endcap ", eBin, eMin, eMax);
493  //
494  histname = "r9Bkg";
495  h_r9Bkg_[0] = iBooker.book1D(histname + "All", " r9 bkg: All Ecal", r9Bin, r9Min, r9Max);
496  h_r9Bkg_[1] = iBooker.book1D(histname + "Barrel", " r9 bkg: Barrel ", r9Bin, r9Min, r9Max);
497  h_r9Bkg_[2] = iBooker.book1D(histname + "Endcap", " r9 bkg: Endcap ", r9Bin, r9Min, r9Max);
498  //
499  histname = "R9VsEtaBkg";
500  if (!isRunCentrally_)
502  iBooker.book2D(histname + "All", " Bkg r9 vs #eta: all Ecal ", etaBin2, etaMin, etaMax, 100, 0., 1.1);
503  //
504  histname = "R9VsEtBkg";
505  if (!isRunCentrally_)
506  h2_r9VsEtBkg_ =
507  iBooker.book2D(histname + "All", " Bkg photons r9 vs Et: all Ecal ", etBin, etMin, etMax, 100, 0., 1.1);
508  //
509  histname = "r1Bkg";
510  h_r1Bkg_[0] = iBooker.book1D(histname + "All", " Bkg photon e1x5/e5x5: All Ecal", r9Bin, r9Min, r9Max);
511  h_r1Bkg_[1] = iBooker.book1D(histname + "Barrel", " Bkg photon e1x5/e5x5: Barrel ", r9Bin, r9Min, r9Max);
512  h_r1Bkg_[2] = iBooker.book1D(histname + "Endcap", " Bkg photon e1x5/e5x5: Endcap ", r9Bin, r9Min, r9Max);
513  //
514  histname = "R1VsEtaBkg";
515  if (!isRunCentrally_)
516  h2_r1VsEtaBkg_ = iBooker.book2D(
517  histname + "All", " Bkg photons e1x5/e5x5 vs #eta: all Ecal ", etaBin2, etaMin, etaMax, 100, 0., 1.1);
518  histname = "pR1VsEtaBkg";
519  if (!isRunCentrally_)
520  p_r1VsEtaBkg_ = iBooker.bookProfile(
521  histname + "All", " Bkg photons e1x5/e5x5 vs #eta: all Ecal ", etaBin2, etaMin, etaMax, 100, 0., 1.1);
522  //
523  histname = "R1VsEtBkg";
524  if (!isRunCentrally_)
525  h2_r1VsEtBkg_ =
526  iBooker.book2D(histname + "All", " Bkg photons e1x5/e5x5 vs Et: all Ecal ", etBin, etMin, etMax, 100, 0., 1.1);
527  histname = "pR1VsEtBkg";
528  if (!isRunCentrally_)
529  p_r1VsEtBkg_ = iBooker.bookProfile(
530  histname + "All", " Bkg photons e2x5/e5x5 vs Et: all Ecal ", etBin, etMin, etMax, 100, 0., 1.1);
531  //
532  histname = "r2Bkg";
533  h_r2Bkg_[0] = iBooker.book1D(histname + "All", " Bkg photon e2x5/e5x5: All Ecal", r9Bin, r9Min, r9Max);
534  h_r2Bkg_[1] = iBooker.book1D(histname + "Barrel", " Bkg photon e2x5/e5x5: Barrel ", r9Bin, r9Min, r9Max);
535  h_r2Bkg_[2] = iBooker.book1D(histname + "Endcap", " Bkg photon e2x5/e5x5: Endcap ", r9Bin, r9Min, r9Max);
536  //
537  histname = "R2VsEtaBkg";
538  if (!isRunCentrally_)
539  h2_r2VsEtaBkg_ = iBooker.book2D(
540  histname + "All", " Bkg photons e2x5/e5x5 vs #eta: all Ecal ", etaBin2, etaMin, etaMax, 100, 0., 1.1);
541  histname = "pR2VsEtaBkg";
542  if (!isRunCentrally_)
543  p_r2VsEtaBkg_ = iBooker.bookProfile(
544  histname + "All", " Bkg photons e2x5/e5x5 vs #eta: all Ecal ", etaBin2, etaMin, etaMax, 100, 0., 1.1);
545  //
546  histname = "R2VsEtBkg";
547  if (!isRunCentrally_)
548  h2_r2VsEtBkg_ =
549  iBooker.book2D(histname + "All", " Bkg photons e2x5/e5x5 vs Et: all Ecal ", etBin, etMin, etMax, 100, 0., 1.1);
550  histname = "pR2VsEtBkg";
551  if (!isRunCentrally_)
552  p_r2VsEtBkg_ = iBooker.bookProfile(
553  histname + "All", " Bkg photons e2x5/e5x5 vs Et: all Ecal ", etBin, etMin, etMax, 100, 0., 1.1);
554 
555  histname = "sigmaIetaIetaBkg";
556  h_sigmaIetaIetaBkg_[0] = iBooker.book1D(histname + "All", "Bkg sigmaIetaIeta: All Ecal", 100, 0., 0.1);
557  h_sigmaIetaIetaBkg_[1] = iBooker.book1D(histname + "Barrel", "Bkg sigmaIetaIeta: Barrel ", 100, 0., 0.05);
558  h_sigmaIetaIetaBkg_[2] = iBooker.book1D(histname + "Endcap", "Bkg sigmaIetaIeta: Endcap ", 100, 0., 0.1);
559  //
560  histname = "sigmaIetaIetaVsEtaBkg";
561  if (!isRunCentrally_)
563  histname + "All", " Bkg photons sigmaIetaIeta vs #eta: all Ecal ", etaBin2, etaMin, etaMax, 100, 0., 0.1);
564  histname = "pSigmaIetaIetaVsEtaBkg";
565  if (!isRunCentrally_)
567  histname + "All", " Bkg photons sigmaIetaIeta vs #eta: all Ecal ", etaBin2, etaMin, etaMax, 100, 0., 0.1);
568  //
569  histname = "sigmaIetaIetaVsEtBkg";
570  if (!isRunCentrally_)
571  h2_sigmaIetaIetaVsEtBkg_[0] = iBooker.book2D(
572  histname + "All", " Bkg photons sigmaIetaIeta vs Et: all Ecal ", etBin, etMin, etMax, 100, 0., 0.1);
573  if (!isRunCentrally_)
574  h2_sigmaIetaIetaVsEtBkg_[1] = iBooker.book2D(
575  histname + "Barrel", " Bkg photons sigmaIetaIeta vs Et: all Ecal ", etBin, etMin, etMax, 100, 0., 0.1);
576  if (!isRunCentrally_)
577  h2_sigmaIetaIetaVsEtBkg_[2] = iBooker.book2D(
578  histname + "Endcap", " Bkg photons sigmaIetaIeta vs Et: all Ecal ", etBin, etMin, etMax, 100, 0., 0.1);
579  //
580  histname = "pSigmaIetaIetaVsEtBkg";
581  if (!isRunCentrally_)
583  histname + "All", " Bkg photons sigmaIetaIeta vs Et: all Ecal ", etBin, etMin, etMax, 100, 0., 0.1);
584  if (!isRunCentrally_)
586  histname + "Barrel", " Bkg photons sigmaIetaIeta vs Et: all Ecal ", etBin, etMin, etMax, 100, 0., 0.1);
587  if (!isRunCentrally_)
589  histname + "Endcap", " Bkg photons sigmaIetaIeta vs Et: all Ecal ", etBin, etMin, etMax, 100, 0., 0.1);
590  //
591  histname = "hOverEBkg";
592  h_hOverEBkg_[0] = iBooker.book1D(histname + "All", "H/E bkg: All Ecal", 100, 0., 1.);
593  h_hOverEBkg_[1] = iBooker.book1D(histname + "Barrel", "H/E bkg: Barrel ", 100, 0., 1.);
594  h_hOverEBkg_[2] = iBooker.book1D(histname + "Endcap", "H/E bkg: Endcap ", 100, 0., 1.);
595  //
596  histname = "pHOverEVsEtaBkg";
597  if (!isRunCentrally_)
599  iBooker.bookProfile(histname + "All", " Bkg H/E vs #eta: all Ecal ", etaBin2, etaMin, etaMax, 100, 0., 0.1);
600  histname = "pHOverEVsEtBkg";
601  if (!isRunCentrally_)
603  iBooker.bookProfile(histname + "All", " Bkg photons H/E vs Et: all Ecal ", etBin, etMin, etMax, 100, 0., 0.1);
604  if (!isRunCentrally_) {
605  histname = "hOverEVsEtaBkg";
607  iBooker.book2D(histname + "All", " Bkg H/E vs #eta: all Ecal ", etaBin2, etaMin, etaMax, 100, 0., 0.1);
608  //
609  histname = "hOverEVsEtBkg";
611  iBooker.book2D(histname + "All", " Bkg photons H/E vs Et: all Ecal ", etBin, etMin, etMax, 100, 0., 0.1);
612  }
613  //
614  histname = "ecalRecHitSumEtConeDR04Bkg";
616  iBooker.book1D(histname + "All", "bkg ecalRecHitSumEtDR04: All Ecal", etBin, etMin, 50.);
618  iBooker.book1D(histname + "Barrel", "bkg ecalRecHitSumEtDR04: Barrel ", etBin, etMin, 50.);
620  iBooker.book1D(histname + "Endcap", "bkg ecalRecHitSumEtDR04: Endcap ", etBin, etMin, 50.);
621  //
622  if (!isRunCentrally_) {
623  histname = "ecalRecHitSumEtConeDR04VsEtaBkg";
624  h2_ecalRecHitSumEtConeDR04VsEtaBkg_ = iBooker.book2D(histname + "All",
625  " bkg ecalRecHitSumEtDR04 vs #eta: all Ecal ",
626  etaBin2,
627  etaMin,
628  etaMax,
629  etBin,
630  etMin,
631  etMax * etScale);
632  histname = "ecalRecHitSumEtConeDR04VsEtBkg";
633  h2_ecalRecHitSumEtConeDR04VsEtBkg_[0] = iBooker.book2D(histname + "All",
634  " Bkg ecalRecHitSumEtDR04 vs Et: all Ecal ",
635  etBin,
636  etMin,
637  etMax,
638  etBin,
639  etMin,
640  etMax * etScale);
641  h2_ecalRecHitSumEtConeDR04VsEtBkg_[1] = iBooker.book2D(histname + "Barrel",
642  " Bkg ecalRecHitSumEtDR04 vs Et: Barrel ",
643  etBin,
644  etMin,
645  etMax,
646  etBin,
647  etMin,
648  etMax * etScale);
649  h2_ecalRecHitSumEtConeDR04VsEtBkg_[2] = iBooker.book2D(histname + "Endcap",
650  " Bkg ecalRecHitSumEtDR04 vs Et: Endcap ",
651  etBin,
652  etMin,
653  etMax,
654  etBin,
655  etMin,
656  etMax * etScale);
657  histname = "hcalTowerSumEtConeDR04VsEtaBkg";
658  h2_hcalTowerSumEtConeDR04VsEtaBkg_ = iBooker.book2D(histname + "All",
659  " bkg hcalTowerSumEtDR04 vs #eta: all Ecal ",
660  etaBin2,
661  etaMin,
662  etaMax,
663  etBin,
664  etMin,
665  etMax * etScale);
666  histname = "hcalTowerSumEtConeDR04VsEtBkg";
667  h2_hcalTowerSumEtConeDR04VsEtBkg_[0] = iBooker.book2D(histname + "All",
668  " Bkg hcalTowerSumEtDR04 vs Et: all Ecal ",
669  etBin,
670  etMin,
671  etMax,
672  etBin,
673  etMin,
674  etMax * etScale);
675  h2_hcalTowerSumEtConeDR04VsEtBkg_[1] = iBooker.book2D(histname + "Barrel",
676  " Bkg hcalTowerSumEtDR04 vs Et: Barrel ",
677  etBin,
678  etMin,
679  etMax,
680  etBin,
681  etMin,
682  etMax * etScale);
683  h2_hcalTowerSumEtConeDR04VsEtBkg_[2] = iBooker.book2D(histname + "Endcap",
684  " Bkg hcalTowerSumEtDR04 vs Et: Endcap ",
685  etBin,
686  etMin,
687  etMax,
688  etBin,
689  etMin,
690  etMax * etScale);
691  }
692 
693  histname = "pEcalRecHitSumEtConeDR04VsEtaBkg";
694  if (!isRunCentrally_)
695  p_ecalRecHitSumEtConeDR04VsEtaBkg_ = iBooker.bookProfile(histname + "All",
696  "bkg photons ecalRecHitSumEtDR04 vs #eta: all Ecal ",
697  etaBin2,
698  etaMin,
699  etaMax,
700  etBin,
701  etMin,
702  etMax * etScale,
703  "");
704  //
705  histname = "pEcalRecHitSumEtConeDR04VsEtBkg";
706  if (!isRunCentrally_)
707  p_ecalRecHitSumEtConeDR04VsEtBkg_[0] = iBooker.bookProfile(histname + "All",
708  "Bkg ecalRecHitSumEtDR04 vs Et: all Ecal ",
709  etBin,
710  etMin,
711  etMax,
712  etBin,
713  etMin,
714  etMax * etScale,
715  "");
716  if (!isRunCentrally_)
717  p_ecalRecHitSumEtConeDR04VsEtBkg_[1] = iBooker.bookProfile(histname + "Barrel",
718  "Bkg ecalRecHitSumEtDR04 vs Et: all Ecal ",
719  etBin,
720  etMin,
721  etMax,
722  etBin,
723  etMin,
724  etMax * etScale,
725  "");
726  if (!isRunCentrally_)
727  p_ecalRecHitSumEtConeDR04VsEtBkg_[2] = iBooker.bookProfile(histname + "Endcap",
728  "Bkg ecalRecHitSumEtDR04 vs Et: all Ecal ",
729  etBin,
730  etMin,
731  etMax,
732  etBin,
733  etMin,
734  etMax * etScale,
735  "");
736  //
737  histname = "hcalTowerSumEtConeDR04Bkg";
739  iBooker.book1D(histname + "All", "bkg hcalTowerSumEtDR04: All Ecal", etBin, etMin, 20.);
741  iBooker.book1D(histname + "Barrel", "bkg hcalTowerSumEtDR04: Barrel ", etBin, etMin, 20.);
743  iBooker.book1D(histname + "Endcap", "bkg hcalTowerSumEtDR04: Endcap ", etBin, etMin, 20.);
744  //
745  histname = "pHcalTowerSumEtConeDR04VsEtaBkg";
746  if (!isRunCentrally_)
747  p_hcalTowerSumEtConeDR04VsEtaBkg_ = iBooker.bookProfile(histname + "All",
748  "bkg photons hcalTowerSumEtDR04 vs #eta: all Ecal ",
749  etaBin2,
750  etaMin,
751  etaMax,
752  etBin,
753  etMin,
754  etMax * etScale,
755  "");
756  //
757  histname = "pHcalTowerSumEtConeDR04VsEtBkg";
758  if (!isRunCentrally_)
759  p_hcalTowerSumEtConeDR04VsEtBkg_[0] = iBooker.bookProfile(histname + "All",
760  "Bkg hcalTowerSumEtDR04 vs Et: all Ecal ",
761  etBin,
762  etMin,
763  etMax,
764  etBin,
765  etMin,
766  etMax * etScale,
767  "");
768  if (!isRunCentrally_)
769  p_hcalTowerSumEtConeDR04VsEtBkg_[1] = iBooker.bookProfile(histname + "Barrel",
770  "Bkg hcalTowerSumEtDR04 vs Et: all Ecal ",
771  etBin,
772  etMin,
773  etMax,
774  etBin,
775  etMin,
776  etMax * etScale,
777  "");
778  if (!isRunCentrally_)
779  p_hcalTowerSumEtConeDR04VsEtBkg_[2] = iBooker.bookProfile(histname + "Endcap",
780  "Bkg hcalTowerSumEtDR04 vs Et: all Ecal ",
781  etBin,
782  etMin,
783  etMax,
784  etBin,
785  etMin,
786  etMax * etScale,
787  "");
788  //
789  histname = "isoTrkSolidConeDR04Bkg";
791  iBooker.book1D(histname + "All", "isoTrkSolidConeDR04 Bkg: All Ecal", etBin, etMin, etMax * 0.1);
793  iBooker.book1D(histname + "Barrel", "isoTrkSolidConeDR04 Bkg: Barrel ", etBin, etMin, etMax * 0.1);
795  iBooker.book1D(histname + "Endcap", "isoTrkSolidConeDR04 Bkg: Endcap ", etBin, etMin, etMax * 0.1);
796  //
797  histname = "isoTrkSolidConeDR04VsEtaBkg";
798  if (!isRunCentrally_)
799  h2_isoTrkSolidConeDR04VsEtaBkg_ = iBooker.book2D(histname + "All",
800  " Bkg photons isoTrkSolidConeDR04 vs #eta: all Ecal ",
801  etaBin2,
802  etaMin,
803  etaMax,
804  etBin,
805  etMin,
806  etMax * 0.1);
807  histname = "pIsoTrkSolidConeDR04VsEtaBkg";
808  if (!isRunCentrally_)
809  p_isoTrkSolidConeDR04VsEtaBkg_ = iBooker.bookProfile(histname + "All",
810  " Bkg photons isoTrkSolidConeDR04 vs #eta: all Ecal ",
811  etaBin2,
812  etaMin,
813  etaMax,
814  etBin,
815  etMin,
816  etMax * 0.1);
817  //
818  histname = "isoTrkSolidConeDR04VsEtBkg";
819  if (!isRunCentrally_)
820  h2_isoTrkSolidConeDR04VsEtBkg_[0] = iBooker.book2D(histname + "All",
821  " Bkg photons isoTrkSolidConeDR04 vs Et: all Ecal ",
822  etBin,
823  etMin,
824  etMax,
825  etBin,
826  etMin,
827  etMax * 0.1);
828  if (!isRunCentrally_)
829  h2_isoTrkSolidConeDR04VsEtBkg_[1] = iBooker.book2D(histname + "Barrel",
830  " Bkg photons isoTrkSolidConeDR04 vs Et: all Ecal ",
831  etBin,
832  etMin,
833  etMax,
834  etBin,
835  etMin,
836  etMax * 0.1);
837  if (!isRunCentrally_)
838  h2_isoTrkSolidConeDR04VsEtBkg_[2] = iBooker.book2D(histname + "Endcap",
839  " Bkg photons isoTrkSolidConeDR04 vs Et: all Ecal ",
840  etBin,
841  etMin,
842  etMax,
843  etBin,
844  etMin,
845  etMax * 0.1);
846  histname = "pIsoTrkSolidConeDR04VsEtBkg";
847  if (!isRunCentrally_)
848  p_isoTrkSolidConeDR04VsEtBkg_[0] = iBooker.bookProfile(histname + "All",
849  " Bkg photons isoTrkSolidConeDR04 vs Et: all Ecal ",
850  etBin,
851  etMin,
852  etMax,
853  etBin,
854  etMin,
855  etMax * 0.1);
856  if (!isRunCentrally_)
857  p_isoTrkSolidConeDR04VsEtBkg_[1] = iBooker.bookProfile(histname + "Barrel",
858  " Bkg photons isoTrkSolidConeDR04 vs Et: all Ecal ",
859  etBin,
860  etMin,
861  etMax,
862  etBin,
863  etMin,
864  etMax * 0.1);
865  if (!isRunCentrally_)
866  p_isoTrkSolidConeDR04VsEtBkg_[2] = iBooker.bookProfile(histname + "Endcap",
867  " Bkg photons isoTrkSolidConeDR04 vs Et: all Ecal ",
868  etBin,
869  etMin,
870  etMax,
871  etBin,
872  etMin,
873  etMax * 0.1);
874  //
875  histname = "nTrkSolidConeDR04Bkg";
876  h_nTrkSolidConeDR04Bkg_[0] = iBooker.book1D(histname + "All", "Bkg nTrkSolidConeDR04: All Ecal", 20, 0., 20);
877  h_nTrkSolidConeDR04Bkg_[1] = iBooker.book1D(histname + "Barrel", "Bkg nTrkSolidConeDR04: Barrel ", 20, 0., 20);
878  h_nTrkSolidConeDR04Bkg_[2] = iBooker.book1D(histname + "Endcap", "Bkg nTrkSolidConeDR04: Endcap ", 20, 0., 20);
879  //
880  histname = "nTrkSolidConeDR04VsEtaBkg";
881  if (!isRunCentrally_)
883  histname + "All", " Bkg photons nTrkSolidConeDR04 vs #eta: all Ecal ", etaBin2, etaMin, etaMax, 20, 0., 20);
884  histname = "p_nTrkSolidConeDR04VsEtaBkg";
885  if (!isRunCentrally_)
887  histname + "All", " Bkg photons nTrkSolidConeDR04 vs #eta: all Ecal ", etaBin2, etaMin, etaMax, 20, 0., 20);
888  //
889  histname = "nTrkSolidConeDR04VsEtBkg";
890  if (!isRunCentrally_)
892  histname + "All", "Bkg photons nTrkSolidConeDR04 vs Et: all Ecal ", etBin, etMin, etMax, 20, 0., 20);
893  if (!isRunCentrally_)
895  histname + "Barrel", "Bkg photons nTrkSolidConeDR04 vs Et: all Ecal ", etBin, etMin, etMax, 20, 0., 20);
896  if (!isRunCentrally_)
898  histname + "Endcap", "Bkg photons nTrkSolidConeDR04 vs Et: all Ecal ", etBin, etMin, etMax, 20, 0., 20);
899  //
900  histname = "pnTrkSolidConeDR04VsEtBkg";
901  if (!isRunCentrally_)
903  histname + "All", "Bkg photons nTrkSolidConeDR04 vs Et: all Ecal ", etBin, etMin, etMax, 20, 0., 20);
904  if (!isRunCentrally_)
906  histname + "Barrel", "Bkg photons nTrkSolidConeDR04 vs Et: all Ecal ", etBin, etMin, etMax, 20, 0., 20);
907  if (!isRunCentrally_)
909  histname + "Endcap", "Bkg photons nTrkSolidConeDR04 vs Et: all Ecal ", etBin, etMin, etMax, 20, 0., 20);
910  //
911  h_convEtaBkg_ = iBooker.book1D("convEtaBkg", " converted Photon Bkg Eta 2 tracks", etaBin, etaMin, etaMax);
912  h_convPhiBkg_ = iBooker.book1D("convPhiBkg", " converted Photon Bkg Phi ", phiBin, phiMin, phiMax);
913  //
914  histname = "mvaOutBkg";
915  h_mvaOutBkg_[0] = iBooker.book1D(histname + "All", " mvaOut conversions bkg : All Ecal", 100, 0., 1.);
916  h_mvaOutBkg_[1] = iBooker.book1D(histname + "Barrel", " mvaOut conversions bkg: Barrel Ecal", 100, 0., 1.);
917  h_mvaOutBkg_[2] = iBooker.book1D(histname + "Endcap", " mvaOut conversions bkg: Endcap Ecal", 100, 0., 1.);
918 
919  histname = "PoverEtracksBkg";
920  h_PoverETracksBkg_[0] =
921  iBooker.book1D(histname + "All", " bkg photons conversion p/E: all Ecal ", povereBin, povereMin, povereMax);
922  h_PoverETracksBkg_[1] =
923  iBooker.book1D(histname + "Barrel", "bkg photons conversion p/E: Barrel Ecal", povereBin, povereMin, povereMax);
924  h_PoverETracksBkg_[2] =
925  iBooker.book1D(histname + "Endcap", " bkg photons conversion p/E: Endcap Ecal ", povereBin, povereMin, povereMax);
926 
927  histname = "EoverPtracksBkg";
928  h_EoverPTracksBkg_[0] =
929  iBooker.book1D(histname + "All", " bkg photons conversion E/p: all Ecal ", eoverpBin, eoverpMin, eoverpMax);
930  h_EoverPTracksBkg_[1] =
931  iBooker.book1D(histname + "Barrel", "bkg photons conversion E/p: Barrel Ecal", eoverpBin, eoverpMin, eoverpMax);
932  h_EoverPTracksBkg_[2] =
933  iBooker.book1D(histname + "Endcap", " bkg photons conversion E/p: Endcap Ecal ", eoverpBin, eoverpMin, eoverpMax);
934 
935  histname = "hDCotTracksBkg";
936  h_DCotTracksBkg_[0] = iBooker.book1D(histname + "All",
937  " bkg Photons:Tracks from conversions #delta cotg(#Theta) Tracks: all Ecal ",
940  dCotTracksMax);
941  h_DCotTracksBkg_[1] = iBooker.book1D(histname + "Barrel",
942  " bkg Photons:Tracks from conversions #delta cotg(#Theta) Tracks: Barrel Ecal ",
945  dCotTracksMax);
946  h_DCotTracksBkg_[2] = iBooker.book1D(histname + "Endcap",
947  " bkg Photons:Tracks from conversions #delta cotg(#Theta) Tracks: Endcap Ecal ",
950  dCotTracksMax);
951 
952  histname = "hDPhiTracksAtVtxBkg";
954  iBooker.book1D(histname + "All",
955  " Bkg Photons:Tracks from conversions: #delta#phi Tracks at vertex: all Ecal",
958  dPhiTracksMax);
960  iBooker.book1D(histname + "Barrel",
961  " Bkg Photons:Tracks from conversions: #delta#phi Tracks at vertex: Barrel Ecal",
964  dPhiTracksMax);
966  iBooker.book1D(histname + "Endcap",
967  " Bkg Photons:Tracks from conversions: #delta#phi Tracks at vertex: Endcap Ecal",
970  dPhiTracksMax);
971 
972  if (!isRunCentrally_) {
973  h_convVtxRvsZBkg_[0] = iBooker.book2D("convVtxRvsZAllBkg",
974  " Bkg Photon Reco conversion vtx position",
975  zBinForXray,
976  zMinForXray,
977  zMaxForXray,
978  rBinForXray,
979  rMinForXray,
980  rMaxForXray);
981  h_convVtxRvsZBkg_[1] = iBooker.book2D("convVtxRvsZBarrelBkg",
982  " Bkg Photon Reco conversion vtx position",
983  zBinForXray,
984  zMinForXray,
985  zMaxForXray,
986  rBinForXray,
987  rMinForXray,
988  rMaxForXray);
989  h_convVtxYvsXBkg_ = iBooker.book2D("convVtxYvsXTrkBarrelBkg",
990  " Bkg Photon Reco conversion vtx position, (x,y) eta<1 ",
991  100,
992  -80.,
993  80.,
994  100,
995  -80.,
996  80.);
997  }
998 
999  //
1000  iBooker.setCurrentFolder("EgammaV/" + fName_ + "/Photons");
1001 
1002  histname = "nOfflineVtx";
1003  h_nRecoVtx_ = iBooker.book1D(histname, "# of Offline Vertices", 200, -0.5, 199.5);
1004 
1005  h_phoEta_[0] = iBooker.book1D("phoEta", " Photon Eta ", etaBin, etaMin, etaMax);
1006  h_phoPhi_[0] = iBooker.book1D("phoPhi", " Photon Phi ", phiBin, phiMin, phiMax);
1007 
1008  h_phoDEta_[0] = iBooker.book1D("phoDEta", " Photon Eta(rec)-Eta(true) ", dEtaBin, dEtaMin, dEtaMax);
1009  h_phoDPhi_[0] = iBooker.book1D("phoDPhi", " Photon Phi(rec)-Phi(true) ", dPhiBin, dPhiMin, dPhiMax);
1010 
1011  h_scEta_[0] = iBooker.book1D("scEta", " SC Eta ", etaBin, etaMin, etaMax);
1012  h_scPhi_[0] = iBooker.book1D("scPhi", " SC Phi ", phiBin, phiMin, phiMax);
1013 
1014  if (!isRunCentrally_) {
1015  h_scEtaWidth_[0] = iBooker.book1D("scEtaWidth", " SC Eta Width ", 100, 0., 0.1);
1016  h_scPhiWidth_[0] = iBooker.book1D("scPhiWidth", " SC Phi Width ", 100, 0., 1.);
1017  }
1018 
1019  histname = "scE";
1020  h_scE_[0][0] = iBooker.book1D(histname + "All", " SC Energy: All Ecal ", eBin, eMin, eMax);
1021  h_scE_[0][1] = iBooker.book1D(histname + "Barrel", " SC Energy: Barrel ", eBin, eMin, eMax);
1022  h_scE_[0][2] = iBooker.book1D(histname + "Endcap", " SC Energy: Endcap ", eBin, eMin, eMax);
1023 
1024  histname = "psE";
1025  h_psE_ = iBooker.book1D(histname + "Endcap", " ES Energy ", eBin, eMin, 50.);
1026 
1027  histname = "scEt";
1028  h_scEt_[0][0] = iBooker.book1D(histname + "All", " SC Et: All Ecal ", etBin, etMin, etMax);
1029  h_scEt_[0][1] = iBooker.book1D(histname + "Barrel", " SC Et: Barrel", etBin, etMin, etMax);
1030  h_scEt_[0][2] = iBooker.book1D(histname + "Endcap", " SC Et: Endcap", etBin, etMin, etMax);
1031 
1032  histname = "r9";
1033  h_r9_[0][0] = iBooker.book1D(histname + "All", " r9: All Ecal", r9Bin, r9Min, r9Max);
1034  h_r9_[0][1] = iBooker.book1D(histname + "Barrel", " r9: Barrel ", r9Bin, r9Min, r9Max);
1035  h_r9_[0][2] = iBooker.book1D(histname + "Endcap", " r9: Endcap ", r9Bin, r9Min, r9Max);
1036  //
1037 
1038  if (!isRunCentrally_) {
1039  histname = "r9ConvFromMC";
1040  h_r9_[1][0] = iBooker.book1D(histname + "All", " r9: All Ecal", r9Bin, r9Min, r9Max);
1041  h_r9_[1][1] = iBooker.book1D(histname + "Barrel", " r9: Barrel ", r9Bin, r9Min, r9Max);
1042  h_r9_[1][2] = iBooker.book1D(histname + "Endcap", " r9: Endcap ", r9Bin, r9Min, r9Max);
1043  //
1044  histname = "r9ConvFromReco";
1045  h_r9_[2][0] = iBooker.book1D(histname + "All", " r9: All Ecal", r9Bin, r9Min, r9Max);
1046  h_r9_[2][1] = iBooker.book1D(histname + "Barrel", " r9: Barrel ", r9Bin, r9Min, r9Max);
1047  h_r9_[2][2] = iBooker.book1D(histname + "Endcap", " r9: Endcap ", r9Bin, r9Min, r9Max);
1049  histname = "EtR9Less093";
1050  h_EtR9Less093_[0][0] = iBooker.book1D(histname + "All", " r9 < 0.94 or 0.95 : All Ecal", etBin, etMin, etMax);
1051  h_EtR9Less093_[0][1] = iBooker.book1D(histname + "Barrel", " r9 < 0.94 : Barrel ", etBin, etMin, etMax);
1052  h_EtR9Less093_[0][2] = iBooker.book1D(histname + "Endcap", " r9 < 0.95 : Endcap ", etBin, etMin, etMax);
1053  histname = "EtR9Less093Conv";
1054  h_EtR9Less093_[1][0] =
1055  iBooker.book1D(histname + "All", " r9 < 0.94, 0.95 and good conv : All Ecal", etBin, etMin, etMax);
1056  h_EtR9Less093_[1][1] =
1057  iBooker.book1D(histname + "Barrel", " r9 < 0.94 and good conv : Barrel ", etBin, etMin, etMax);
1058  h_EtR9Less093_[1][2] =
1059  iBooker.book1D(histname + "Endcap", " r9 < 0.95 and good conv : Endcap ", etBin, etMin, etMax);
1060  }
1061 
1063  histname = "pR9VsEta";
1064  p_r9VsEta_[0] = iBooker.bookProfile(
1065  histname + "All", " All photons r9 vs #eta: all Ecal ", etaBin2, etaMin, etaMax, 100, 0., 1.1);
1066  p_r9VsEta_[1] = iBooker.bookProfile(
1067  histname + "Unconv", " Unconv photons r9 vs #eta: all Ecal ", etaBin2, etaMin, etaMax, 100, 0., 1.1);
1068  p_r9VsEta_[2] = iBooker.bookProfile(
1069  histname + "Conv", " Conv photons r9 vs #eta: all Ecal ", etaBin2, etaMin, etaMax, 100, 0., 1.1);
1070  //
1071  histname = "R9VsEt";
1072  if (!isRunCentrally_)
1073  h2_r9VsEt_[0] =
1074  iBooker.book2D(histname + "All", " All photons r9 vs Et: all Ecal ", etBin, etMin, etMax, 100, 0., 1.1);
1075  if (!isRunCentrally_)
1076  h2_r9VsEt_[1] =
1077  iBooker.book2D(histname + "Unconv", " All photons r9 vs Et: all Ecal ", etBin, etMin, etMax, 100, 0., 1.1);
1078  //
1079  histname = "r1";
1080  h_r1_[0][0] = iBooker.book1D(histname + "All", " e1x5/e5x5: All Ecal", r9Bin, r9Min, r9Max);
1081  h_r1_[0][1] = iBooker.book1D(histname + "Barrel", " e1x5/e5x5: Barrel ", r9Bin, r9Min, r9Max);
1082  h_r1_[0][2] = iBooker.book1D(histname + "Endcap", " e1x5/e5x5: Endcap ", r9Bin, r9Min, r9Max);
1083  //
1084  histname = "R1VsEta";
1085  if (!isRunCentrally_)
1086  h2_r1VsEta_[0] = iBooker.book2D(
1087  histname + "All", " All photons e1x5/e5x5 vs #eta: all Ecal ", etaBin2, etaMin, etaMax, 100, 0., 1.1);
1088  if (!isRunCentrally_)
1089  h2_r1VsEta_[1] = iBooker.book2D(
1090  histname + "Unconv", " All photons e1x5/e5x5 vs #eta: all Ecal ", etaBin2, etaMin, etaMax, 100, 0., 1.1);
1091  //
1092  histname = "R1VsEt";
1093  if (!isRunCentrally_)
1094  h2_r1VsEt_[0] =
1095  iBooker.book2D(histname + "All", " All photons e1x5/e5x5 vs Et: all Ecal ", etBin, etMin, etMax, 100, 0., 1.1);
1096  if (!isRunCentrally_)
1097  h2_r1VsEt_[1] = iBooker.book2D(
1098  histname + "Unconv", " All photons e1x5/e5x5 vs Et: all Ecal ", etBin, etMin, etMax, 100, 0., 1.1);
1099  //
1100  histname = "r2";
1101  h_r2_[0][0] = iBooker.book1D(histname + "All", " e2x5/e5x5: All Ecal", r9Bin, r9Min, r9Max);
1102  h_r2_[0][1] = iBooker.book1D(histname + "Barrel", " e2x5/e5x5: Barrel ", r9Bin, r9Min, r9Max);
1103  h_r2_[0][2] = iBooker.book1D(histname + "Endcap", " e2x5/e5x5: Endcap ", r9Bin, r9Min, r9Max);
1104  //
1105  histname = "R2VsEta";
1106  if (!isRunCentrally_)
1107  h2_r2VsEta_[0] = iBooker.book2D(
1108  histname + "All", " All photons e2x5/e5x5 vs #eta: all Ecal ", etaBin2, etaMin, etaMax, 100, 0., 1.1);
1109  if (!isRunCentrally_)
1110  h2_r2VsEta_[1] = iBooker.book2D(
1111  histname + "Unconv", " All photons e2x5/e5x5 vs #eta: all Ecal ", etaBin2, etaMin, etaMax, 100, 0., 1.1);
1112  //
1113  histname = "R2VsEt";
1114  if (!isRunCentrally_)
1115  h2_r2VsEt_[0] =
1116  iBooker.book2D(histname + "All", " All photons e2x5/e5x5 vs Et: all Ecal ", etBin, etMin, etMax, 100, 0., 1.1);
1117  if (!isRunCentrally_)
1118  h2_r2VsEt_[1] = iBooker.book2D(
1119  histname + "Unconv", " All photons e2x5/e5x5 vs Et: all Ecal ", etBin, etMin, etMax, 100, 0., 1.1);
1120  //
1121  histname = "sigmaIetaIeta";
1122  h_sigmaIetaIeta_[0][0] = iBooker.book1D(histname + "All", "sigmaIetaIeta: All Ecal", 100, 0., 0.1);
1123  h_sigmaIetaIeta_[0][1] = iBooker.book1D(histname + "Barrel", "sigmaIetaIeta: Barrel ", 100, 0., 0.05);
1124  h_sigmaIetaIeta_[0][2] = iBooker.book1D(histname + "Endcap", "sigmaIetaIeta: Endcap ", 100, 0., 0.1);
1125  //
1126  histname = "sigmaIetaIetaVsEta";
1127  if (!isRunCentrally_)
1128  h2_sigmaIetaIetaVsEta_[0] = iBooker.book2D(
1129  histname + "All", " All photons sigmaIetaIeta vs #eta: all Ecal ", etaBin2, etaMin, etaMax, 100, 0., 0.1);
1130  if (!isRunCentrally_)
1131  h2_sigmaIetaIetaVsEta_[1] = iBooker.book2D(
1132  histname + "Unconv", " All photons sigmaIetaIeta vs #eta: all Ecal ", etaBin2, etaMin, etaMax, 100, 0., 0.1);
1133  //
1134  histname = "sigmaIetaIetaVsEt";
1135  if (!isRunCentrally_)
1136  h2_sigmaIetaIetaVsEt_[0] = iBooker.book2D(
1137  histname + "All", " All photons sigmaIetaIeta vs Et: all Ecal ", etBin, etMin, etMax, 100, 0., 0.1);
1138  if (!isRunCentrally_)
1139  h2_sigmaIetaIetaVsEt_[1] = iBooker.book2D(
1140  histname + "Unconv", " All photons sigmaIetaIeta vs Et: all Ecal ", etBin, etMin, etMax, 100, 0., 0.1);
1141  //
1142  histname = "hOverE";
1143  h_hOverE_[0][0] = iBooker.book1D(histname + "All", "H/E: All Ecal", 100, 0., 0.1);
1144  h_hOverE_[0][1] = iBooker.book1D(histname + "Barrel", "H/E: Barrel ", 100, 0., 0.1);
1145  h_hOverE_[0][2] = iBooker.book1D(histname + "Endcap", "H/E: Endcap ", 100, 0., 0.1);
1146  //
1147  histname = "newhOverE";
1148  h_newhOverE_[0][0] = iBooker.book1D(histname + "All", "new H/E: All Ecal", 100, 0., 0.1);
1149  h_newhOverE_[0][1] = iBooker.book1D(histname + "Barrel", "new H/E: Barrel ", 100, 0., 0.1);
1150  h_newhOverE_[0][2] = iBooker.book1D(histname + "Endcap", "new H/E: Endcap ", 100, 0., 0.1);
1151 
1152  //
1153  if (!isRunCentrally_) {
1154  histname = "hOverEVsEta";
1155  h2_hOverEVsEta_[0] =
1156  iBooker.book2D(histname + "All", " All photons H/E vs #eta: all Ecal ", etaBin2, etaMin, etaMax, 100, 0., 0.1);
1157  h2_hOverEVsEta_[1] = iBooker.book2D(
1158  histname + "Unconv", " All photons H/E vs #eta: all Ecal ", etaBin2, etaMin, etaMax, 100, 0., 0.1);
1159  //
1160  histname = "hOverEVsEt";
1161  h2_hOverEVsEt_[0] =
1162  iBooker.book2D(histname + "All", " All photons H/E vs Et: all Ecal ", etBin, etMin, etMax, 100, 0., 0.1);
1163  h2_hOverEVsEt_[1] =
1164  iBooker.book2D(histname + "Unconv", " All photons H/E vs Et: all Ecal ", etBin, etMin, etMax, 100, 0., 0.1);
1165  //
1166  }
1167  histname = "pHoverEVsEta";
1168  p_hOverEVsEta_[0] = iBooker.bookProfile(
1169  histname + "All", " All photons H/E vs #eta: all Ecal ", etaBin2, etaMin, etaMax, 100, 0., 0.1);
1170  p_hOverEVsEta_[1] = iBooker.bookProfile(
1171  histname + "Unconv", " All photons H/E vs #eta: all Ecal ", etaBin2, etaMin, etaMax, 100, 0., 0.1);
1172  //
1173  histname = "pHoverEVsEt";
1174  p_hOverEVsEt_[0] =
1175  iBooker.bookProfile(histname + "All", " All photons H/E vs Et: all Ecal ", etBin, etMin, etMax, 100, 0., 0.1);
1176  p_hOverEVsEt_[1] =
1177  iBooker.bookProfile(histname + "Unconv", " All photons H/E vs Et: all Ecal ", etBin, etMin, etMax, 100, 0., 0.1);
1178  //
1179  histname = "pnewHoverEVsEta";
1180  p_newhOverEVsEta_[0] = iBooker.bookProfile(
1181  histname + "All", " All photons new H/E vs #eta: all Ecal ", etaBin2, etaMin, etaMax, 100, 0., 0.1);
1182  p_newhOverEVsEta_[1] = iBooker.bookProfile(
1183  histname + "Unconv", " All photons new H/E vs #eta: all Ecal ", etaBin2, etaMin, etaMax, 100, 0., 0.1);
1184  //
1185  histname = "pnewHoverEVsEt";
1186  p_newhOverEVsEt_[0] =
1187  iBooker.bookProfile(histname + "All", " All photons new H/E vs Et: all Ecal ", etBin, etMin, etMax, 100, 0., 0.1);
1188  p_newhOverEVsEt_[1] = iBooker.bookProfile(
1189  histname + "Unconv", " All photons new H/E vs Et: all Ecal ", etBin, etMin, etMax, 100, 0., 0.1);
1190  //
1191  histname = "ecalRecHitSumEtConeDR04";
1193  iBooker.book1D(histname + "All", "ecalRecHitSumEtDR04: All Ecal", etBin, etMin, 20.);
1195  iBooker.book1D(histname + "Barrel", "ecalRecHitSumEtDR04: Barrel ", etBin, etMin, 20.);
1197  iBooker.book1D(histname + "Endcap", "ecalRecHitSumEtDR04: Endcap ", etBin, etMin, 20.);
1198  //
1199 
1200  if (!isRunCentrally_) {
1201  histname = "ecalRecHitSumEtConeDR04VsEta";
1202  h2_ecalRecHitSumEtConeDR04VsEta_[0] = iBooker.book2D(histname + "All",
1203  " All photons ecalRecHitSumEtDR04 vs #eta: all Ecal ",
1204  etaBin2,
1205  etaMin,
1206  etaMax,
1207  etBin,
1208  etMin,
1209  etMax * etScale);
1210  h2_ecalRecHitSumEtConeDR04VsEta_[1] = iBooker.book2D(histname + "Unconv",
1211  " All photons ecalRecHitSumEtDR04 vs #eta: all Ecal ",
1212  etaBin2,
1213  etaMin,
1214  etaMax,
1215  etBin,
1216  etMin,
1217  etMax * etScale);
1218  }
1219  histname = "pEcalRecHitSumEtConeDR04VsEta";
1220  p_ecalRecHitSumEtConeDR04VsEta_[0] = iBooker.bookProfile(histname + "All",
1221  "All photons ecalRecHitSumEtDR04 vs #eta: all Ecal ",
1222  etaBin2,
1223  etaMin,
1224  etaMax,
1225  etBin,
1226  etMin,
1227  etMax * etScale,
1228  "");
1229  p_ecalRecHitSumEtConeDR04VsEta_[1] = iBooker.bookProfile(histname + "Unconv",
1230  "All photons ecalRecHitSumEtDR04 vs #eta: all Ecal ",
1231  etaBin2,
1232  etaMin,
1233  etaMax,
1234  etBin,
1235  etMin,
1236  etMax * etScale,
1237  "");
1238  //
1239  if (!isRunCentrally_) {
1240  histname = "ecalRecHitSumEtConeDR04VsEt";
1241  h2_ecalRecHitSumEtConeDR04VsEt_[0] = iBooker.book2D(histname + "All",
1242  " All photons ecalRecHitSumEtDR04 vs Et: all Ecal ",
1243  etBin,
1244  etMin,
1245  etMax,
1246  etBin,
1247  etMin,
1248  etMax * etScale);
1249  h2_ecalRecHitSumEtConeDR04VsEt_[1] = iBooker.book2D(histname + "Barrel",
1250  " All photons ecalRecHitSumEtDR04 vs Et: Barrel ",
1251  etBin,
1252  etMin,
1253  etMax,
1254  etBin,
1255  etMin,
1256  etMax * etScale);
1257  h2_ecalRecHitSumEtConeDR04VsEt_[2] = iBooker.book2D(histname + "Endcap",
1258  " All photons ecalRecHitSumEtDR04 vs Et: Endcap ",
1259  etBin,
1260  etMin,
1261  etMax,
1262  etBin,
1263  etMin,
1264  etMax * etScale);
1265  }
1266  histname = "pEcalRecHitSumEtConeDR04VsEt";
1267  if (!isRunCentrally_)
1268  p_ecalRecHitSumEtConeDR04VsEt_[0] = iBooker.bookProfile(histname + "All",
1269  "All photons ecalRecHitSumEtDR04 vs Et: all Ecal ",
1270  etBin,
1271  etMin,
1272  etMax,
1273  etBin,
1274  etMin,
1275  etMax * etScale,
1276  "");
1277  p_ecalRecHitSumEtConeDR04VsEt_[1] = iBooker.bookProfile(histname + "Barrel",
1278  "All photons ecalRecHitSumEtDR04 vs Et: all Ecal ",
1279  etBin,
1280  etMin,
1281  etMax,
1282  etBin,
1283  etMin,
1284  etMax * etScale,
1285  "");
1286  p_ecalRecHitSumEtConeDR04VsEt_[2] = iBooker.bookProfile(histname + "Endcap",
1287  "All photons ecalRecHitSumEtDR04 vs Et: all Ecal ",
1288  etBin,
1289  etMin,
1290  etMax,
1291  etBin,
1292  etMin,
1293  etMax * etScale,
1294  "");
1295  //
1296  histname = "hcalTowerSumEtConeDR04";
1298  iBooker.book1D(histname + "All", "hcalTowerSumEtConeDR04: All Ecal", etBin, etMin, 20.);
1300  iBooker.book1D(histname + "Barrel", "hcalTowerSumEtConeDR04: Barrel ", etBin, etMin, 20.);
1302  iBooker.book1D(histname + "Endcap", "hcalTowerSumEtConeDR04: Endcap ", etBin, etMin, 20.);
1303  //
1304  histname = "hcalTowerBcSumEtConeDR04";
1305  if (!isRunCentrally_)
1307  iBooker.book1D(histname + "All", "hcalTowerBcSumEtConeDR04: All Ecal", etBin, etMin, 20.);
1309  iBooker.book1D(histname + "Barrel", "hcalTowerBcSumEtConeDR04: Barrel ", etBin, etMin, 20.);
1311  iBooker.book1D(histname + "Endcap", "hcalTowerBcSumEtConeDR04: Endcap ", etBin, etMin, 20.);
1312 
1313  //
1314  if (!isRunCentrally_) {
1315  histname = "hcalTowerSumEtConeDR04VsEta";
1316  h2_hcalTowerSumEtConeDR04VsEta_[0] = iBooker.book2D(histname + "All",
1317  " All photons hcalTowerSumEtConeDR04 vs #eta: all Ecal ",
1318  etaBin2,
1319  etaMin,
1320  etaMax,
1321  etBin,
1322  etMin,
1323  etMax * 0.1);
1324  h2_hcalTowerSumEtConeDR04VsEta_[1] = iBooker.book2D(histname + "Unconv",
1325  " All photons hcalTowerSumEtConeDR04 vs #eta: all Ecal ",
1326  etaBin2,
1327  etaMin,
1328  etaMax,
1329  etBin,
1330  etMin,
1331  etMax * 0.1);
1332  }
1333  histname = "pHcalTowerSumEtConeDR04VsEta";
1334  p_hcalTowerSumEtConeDR04VsEta_[0] = iBooker.bookProfile(histname + "All",
1335  "All photons hcalTowerSumEtDR04 vs #eta: all Ecal ",
1336  etaBin2,
1337  etaMin,
1338  etaMax,
1339  etBin,
1340  etMin,
1341  etMax * 0.1,
1342  "");
1343  p_hcalTowerSumEtConeDR04VsEta_[1] = iBooker.bookProfile(histname + "Unconv",
1344  "All photons hcalTowerSumEtDR04 vs #eta: all Ecal ",
1345  etaBin2,
1346  etaMin,
1347  etaMax,
1348  etBin,
1349  etMin,
1350  etMax * 0.1,
1351  "");
1352  histname = "pHcalTowerBcSumEtConeDR04VsEta";
1353  p_hcalTowerBcSumEtConeDR04VsEta_[0] = iBooker.bookProfile(histname + "All",
1354  "All photons hcalTowerBcSumEtDR04 vs #eta: all Ecal ",
1355  etaBin2,
1356  etaMin,
1357  etaMax,
1358  etBin,
1359  etMin,
1360  etMax * 0.1,
1361  "");
1362  p_hcalTowerBcSumEtConeDR04VsEta_[1] = iBooker.bookProfile(histname + "Unconv",
1363  "All photons hcalTowerBcSumEtDR04 vs #eta: all Ecal ",
1364  etaBin2,
1365  etaMin,
1366  etaMax,
1367  etBin,
1368  etMin,
1369  etMax * 0.1,
1370  "");
1371  //
1372  if (!isRunCentrally_) {
1373  histname = "hcalTowerSumEtConeDR04VsEt";
1374  h2_hcalTowerSumEtConeDR04VsEt_[0] = iBooker.book2D(histname + "All",
1375  " All photons hcalTowerSumEtConeDR04 vs Et: all Ecal ",
1376  etBin,
1377  etMin,
1378  etMax,
1379  etBin,
1380  etMin,
1381  etMax * 0.1);
1382  h2_hcalTowerSumEtConeDR04VsEt_[1] = iBooker.book2D(histname + "Barrel",
1383  " All photons hcalTowerSumEtConeDR04 vs Et: Barrel ",
1384  etBin,
1385  etMin,
1386  etMax,
1387  etBin,
1388  etMin,
1389  etMax * 0.1);
1390  h2_hcalTowerSumEtConeDR04VsEt_[2] = iBooker.book2D(histname + "Endcap",
1391  " All photons hcalTowerSumEtConeDR04 vs Et: Endcap ",
1392  etBin,
1393  etMin,
1394  etMax,
1395  etBin,
1396  etMin,
1397  etMax * 0.1);
1398  }
1399  histname = "pHcalTowerSumEtConeDR04VsEt";
1400  if (!isRunCentrally_)
1401  p_hcalTowerSumEtConeDR04VsEt_[0] = iBooker.bookProfile(histname + "All",
1402  "All photons hcalTowerSumEtDR04 vs Et: all Ecal ",
1403  etBin,
1404  etMin,
1405  etMax,
1406  etBin,
1407  etMin,
1408  etMax * etScale,
1409  "");
1410  p_hcalTowerSumEtConeDR04VsEt_[1] = iBooker.bookProfile(histname + "Barrel",
1411  "All photons hcalTowerSumEtDR04 vs Et: all Ecal ",
1412  etBin,
1413  etMin,
1414  etMax,
1415  etBin,
1416  etMin,
1417  etMax * etScale,
1418  "");
1419  p_hcalTowerSumEtConeDR04VsEt_[2] = iBooker.bookProfile(histname + "Endcap",
1420  "All photons hcalTowerSumEtDR04 vs Et: all Ecal ",
1421  etBin,
1422  etMin,
1423  etMax,
1424  etBin,
1425  etMin,
1426  etMax * etScale,
1427  "");
1428  //
1429  histname = "pHcalTowerBcSumEtConeDR04VsEt";
1430  if (!isRunCentrally_)
1431  p_hcalTowerBcSumEtConeDR04VsEt_[0] = iBooker.bookProfile(histname + "All",
1432  "All photons hcalTowerBcSumEtDR04 vs Et: all Ecal ",
1433  etBin,
1434  etMin,
1435  etMax,
1436  etBin,
1437  etMin,
1438  etMax * etScale,
1439  "");
1440  p_hcalTowerBcSumEtConeDR04VsEt_[1] = iBooker.bookProfile(histname + "Barrel",
1441  "All photons hcalTowerBcSumEtDR04 vs Et: all Ecal ",
1442  etBin,
1443  etMin,
1444  etMax,
1445  etBin,
1446  etMin,
1447  etMax * etScale,
1448  "");
1449  p_hcalTowerBcSumEtConeDR04VsEt_[2] = iBooker.bookProfile(histname + "Endcap",
1450  "All photons hcalTowerBcSumEtDR04 vs Et: all Ecal ",
1451  etBin,
1452  etMin,
1453  etMax,
1454  etBin,
1455  etMin,
1456  etMax * etScale,
1457  "");
1458 
1459  //
1460  histname = "isoTrkSolidConeDR04";
1461  h_isoTrkSolidConeDR04_[0][0] =
1462  iBooker.book1D(histname + "All", "isoTrkSolidConeDR04: All Ecal", etBin, etMin, etMax * 0.1);
1463  h_isoTrkSolidConeDR04_[0][1] =
1464  iBooker.book1D(histname + "Barrel", "isoTrkSolidConeDR04: Barrel ", etBin, etMin, etMax * 0.1);
1465  h_isoTrkSolidConeDR04_[0][2] =
1466  iBooker.book1D(histname + "Endcap", "isoTrkSolidConeDR04: Endcap ", etBin, etMin, etMax * 0.1);
1467  //
1468 
1469  histname = "isoTrkSolidConeDR04VsEta";
1470  if (!isRunCentrally_)
1471  h2_isoTrkSolidConeDR04VsEta_[0] = iBooker.book2D(histname + "All",
1472  " All photons isoTrkSolidConeDR04 vs #eta: all Ecal ",
1473  etaBin2,
1474  etaMin,
1475  etaMax,
1476  etBin,
1477  etMin,
1478  etMax * 0.1);
1479  if (!isRunCentrally_)
1480  h2_isoTrkSolidConeDR04VsEta_[1] = iBooker.book2D(histname + "Unconv",
1481  " All photons isoTrkSolidConeDR04 vs #eta: all Ecal ",
1482  etaBin2,
1483  etaMin,
1484  etaMax,
1485  etBin,
1486  etMin,
1487  etMax * 0.1);
1488 
1489  //
1490  histname = "isoTrkSolidConeDR04VsEt";
1491  if (!isRunCentrally_)
1492  h2_isoTrkSolidConeDR04VsEt_[0] = iBooker.book2D(histname + "All",
1493  " All photons isoTrkSolidConeDR04 vs Et: all Ecal ",
1494  etBin,
1495  etMin,
1496  etMax,
1497  etBin,
1498  etMin,
1499  etMax * 0.1);
1500  if (!isRunCentrally_)
1501  h2_isoTrkSolidConeDR04VsEt_[1] = iBooker.book2D(histname + "Unconv",
1502  " All photons isoTrkSolidConeDR04 vs Et: all Ecal ",
1503  etBin,
1504  etMin,
1505  etMax,
1506  etBin,
1507  etMin,
1508  etMax * 0.1);
1509  //
1510  histname = "nTrkSolidConeDR04";
1511  h_nTrkSolidConeDR04_[0][0] = iBooker.book1D(histname + "All", "nTrkSolidConeDR04: All Ecal", 20, 0., 20);
1512  h_nTrkSolidConeDR04_[0][1] = iBooker.book1D(histname + "Barrel", "nTrkSolidConeDR04: Barrel ", 20, 0., 20);
1513  h_nTrkSolidConeDR04_[0][2] = iBooker.book1D(histname + "Endcap", "nTrkSolidConeDR04: Endcap ", 20, 0., 20);
1514  //
1515  histname = "nTrkSolidConeDR04VsEta";
1516  if (!isRunCentrally_)
1517  h2_nTrkSolidConeDR04VsEta_[0] = iBooker.book2D(
1518  histname + "All", " All photons nTrkSolidConeDR04 vs #eta: all Ecal ", etaBin2, etaMin, etaMax, 20, 0., 20);
1519  if (!isRunCentrally_)
1520  h2_nTrkSolidConeDR04VsEta_[1] = iBooker.book2D(
1521  histname + "Unconv", " All photons nTrkSolidConeDR04 vs #eta: all Ecal ", etaBin2, etaMin, etaMax, 20, 0., 20);
1522  //
1523  histname = "nTrkSolidConeDR04VsEt";
1524  if (!isRunCentrally_)
1525  h2_nTrkSolidConeDR04VsEt_[0] = iBooker.book2D(
1526  histname + "All", " All photons nTrkSolidConeDR04 vs Et: all Ecal ", etBin, etMin, etMax, 20, 0., 20);
1527  if (!isRunCentrally_)
1528  h2_nTrkSolidConeDR04VsEt_[1] = iBooker.book2D(
1529  histname + "Unconv", " All photons nTrkSolidConeDR04 vs Et: all Ecal ", etBin, etMin, etMax, 20, 0., 20);
1530  //
1531  histname = "phoE";
1532  h_phoE_[0][0] = iBooker.book1D(histname + "All", " Photon Energy: All ecal ", eBin, eMin, eMax);
1533  h_phoE_[0][1] = iBooker.book1D(histname + "Barrel", " Photon Energy: barrel ", eBin, eMin, eMax);
1534  h_phoE_[0][2] = iBooker.book1D(histname + "Endcap", " Photon Energy: Endcap ", eBin, eMin, eMax);
1535 
1536  histname = "phoEt";
1537  h_phoEt_[0][0] = iBooker.book1D(histname + "All", " Photon Transverse Energy: All ecal ", etBin, etMin, etMax);
1538  h_phoEt_[0][1] = iBooker.book1D(histname + "Barrel", " Photon Transverse Energy: Barrel ", etBin, etMin, etMax);
1539  h_phoEt_[0][2] = iBooker.book1D(histname + "Endcap", " Photon Transverse Energy: Endcap ", etBin, etMin, etMax);
1540 
1541  histname = "eRes";
1542  h_phoERes_[0][0] =
1543  iBooker.book1D(histname + "All", " Photon E/E_{true}: All ecal; E/E_{true} (GeV)", resBin, resMin, resMax);
1544  h_phoERes_[0][1] =
1545  iBooker.book1D(histname + "Barrel", "Photon E/E_{true}: Barrel; E/E_{true} (GeV)", resBin, resMin, resMax);
1546  h_phoERes_[0][2] =
1547  iBooker.book1D(histname + "Endcap", " Photon E/E_{true}: Endcap; E/E_{true} (GeV)", resBin, resMin, resMax);
1548 
1549  h_phoERes_[1][0] = iBooker.book1D(
1550  histname + "unconvAll", " Photon E/E_{true} if r9>0.94, 0.95: All ecal; E/E_{true} (GeV)", resBin, resMin, resMax);
1551  h_phoERes_[1][1] = iBooker.book1D(
1552  histname + "unconvBarrel", " Photon E/E_{true} if r9>0.94: Barrel; E/E_{true} (GeV)", resBin, resMin, resMax);
1553  h_phoERes_[1][2] = iBooker.book1D(
1554  histname + "unconvEndcap", " Photon E/E_{true} if r9>0.95: Endcap; E/E_{true} (GeV)", resBin, resMin, resMax);
1555 
1556  h_phoERes_[2][0] = iBooker.book1D(
1557  histname + "convAll", " Photon E/E_{true} if r9<0.0.94, 0.95: All ecal; E/E_{true} (GeV)", resBin, resMin, resMax);
1558  h_phoERes_[2][1] = iBooker.book1D(
1559  histname + "convBarrel", " Photon E/E_{true} if r9<0.94: Barrel; E/E_{true} (GeV)", resBin, resMin, resMax);
1560  h_phoERes_[2][2] = iBooker.book1D(
1561  histname + "convEndcap", " Photon E/E_{true} if r9<0.95: Endcap; E/E_{true} (GeV)", resBin, resMin, resMax);
1562 
1563  histname = "sigmaEoE";
1564  h_phoSigmaEoE_[0][0] = iBooker.book1D(histname + "All", "#sigma_{E}/E: All ecal; #sigma_{E}/E", 100, 0., 0.08);
1565  h_phoSigmaEoE_[0][1] = iBooker.book1D(histname + "Barrel", "#sigma_{E}/E: Barrel; #sigma_{E}/E", 100, 0., 0.08);
1566  h_phoSigmaEoE_[0][2] = iBooker.book1D(histname + "Endcap", "#sigma_{E}/E: Endcap, #sigma_{E}/E", 100, 0., 0.08);
1567 
1568  h_phoSigmaEoE_[1][0] =
1569  iBooker.book1D(histname + "unconvAll", "#sigma_{E}/E if r9>0.94, 0.95: All ecal; #sigma_{E}/E", 100, 0., 0.08);
1570  h_phoSigmaEoE_[1][1] =
1571  iBooker.book1D(histname + "unconvBarrel", "#sigma_{E}/E if r9>0.94: Barrel; #sigma_{E}/E", 100, 0., 0.08);
1572  h_phoSigmaEoE_[1][2] =
1573  iBooker.book1D(histname + "unconvEndcap", "#sigma_{E}/E r9>0.95: Endcap; #sigma_{E}/E", 100, 0., 0.08);
1574 
1575  h_phoSigmaEoE_[2][0] =
1576  iBooker.book1D(histname + "convAll", "#sigma_{E}/E if r9<0.0.94, 0.95: All ecal, #sigma_{E}/E", 100, 0., 0.08);
1577  h_phoSigmaEoE_[2][1] =
1578  iBooker.book1D(histname + "convBarrel", "#sigma_{E}/E if r9<0.94: Barrel, #sigma_{E}/E", 100, 0., 0.08);
1579  h_phoSigmaEoE_[2][2] =
1580  iBooker.book1D(histname + "convEndcap", "#sigma_{E}/E if r9<0.95: Endcap, #sigma_{E}/E", 100, 0., 0.08);
1581 
1582  histname = "eResVsEta";
1583  if (!isRunCentrally_)
1584  h2_eResVsEta_[0] = iBooker.book2D(
1585  histname + "All", " All photons E/Etrue vs #eta: all Ecal ", etaBin2, etaMin, etaMax, 100, 0., 2.5);
1586  if (!isRunCentrally_)
1587  h2_eResVsEta_[1] = iBooker.book2D(
1588  histname + "Unconv", " Unconv photons E/Etrue vs #eta: all Ecal ", etaBin2, etaMin, etaMax, 100, 0., 2.5);
1589 
1590  histname = "pEResVsEta";
1591  p_eResVsEta_[0] = iBooker.bookProfile(
1592  histname + "All", "All photons E/Etrue vs #eta: all Ecal ", etaBin2, etaMin, etaMax, resBin, resMin, resMax, "");
1593  p_eResVsEta_[1] = iBooker.bookProfile(histname + "Unconv",
1594  "Unconv photons E/Etrue vs #eta: all Ecal",
1595  etaBin2,
1596  etaMin,
1597  etaMax,
1598  resBin,
1599  resMin,
1600  resMax,
1601  "");
1602  p_eResVsEta_[2] = iBooker.bookProfile(
1603  histname + "Conv", "Conv photons E/Etrue vs #eta: all Ecal", etaBin2, etaMin, etaMax, resBin, resMin, resMax, "");
1604 
1605  histname = "pSigmaEoEVsEta";
1606  p_sigmaEoEVsEta_[0] = iBooker.bookProfile(histname + "All",
1607  "All photons: #sigma_{E}/E vs #eta: all Ecal; #eta; #sigma_{E}/E",
1608  etaBin2,
1609  etaMin,
1610  etaMax,
1611  100,
1612  0.,
1613  0.08,
1614  "");
1615  p_sigmaEoEVsEta_[1] = iBooker.bookProfile(histname + "Unconv",
1616  "Unconv photons #sigma_{E}/E vs #eta: all Ecal; #eta; #sigma_{E}/E ",
1617  etaBin2,
1618  etaMin,
1619  etaMax,
1620  100,
1621  0.,
1622  0.08,
1623  "");
1624  p_sigmaEoEVsEta_[2] = iBooker.bookProfile(histname + "Conv",
1625  "Conv photons #sigma_{E}/E vs #eta: all Ecal; #eta; #sigma_{E}/E",
1626  etaBin2,
1627  etaMin,
1628  etaMax,
1629  100,
1630  0.,
1631  0.08,
1632  "");
1633 
1634  histname = "pSigmaEoEVsEt";
1635  p_sigmaEoEVsEt_[1][0] = iBooker.bookProfile(histname + "Barrel",
1636  "All photons #sigma_{E}/E vs E_{T}: Barrel; E_{T} (GeV); #sigma_{E}/E ",
1637  etBin,
1638  etMin,
1639  etMax,
1640  100,
1641  0.,
1642  0.08,
1643  "");
1644  p_sigmaEoEVsEt_[1][1] =
1645  iBooker.bookProfile(histname + "unconvBarrel",
1646  "Unconv photons #sigma_{E}/E vs E_{T}: Barrel; E_{T} (GeV); #sigma_{E}/E ",
1647  etBin,
1648  etMin,
1649  etMax,
1650  100,
1651  0.,
1652  0.08,
1653  "");
1654  p_sigmaEoEVsEt_[1][2] = iBooker.bookProfile(histname + "convBarrel",
1655  "Conv photons #sigma_{E}/E vs E_{T}: Barrel; E_{T} (GeV); #sigma_{E}/E",
1656  etBin,
1657  etMin,
1658  etMax,
1659  100,
1660  0.,
1661  0.08,
1662  "");
1663  p_sigmaEoEVsEt_[2][0] = iBooker.bookProfile(histname + "Endcap",
1664  "All photons #sigma_{E}/E vs E_{T}: Endcap; E_{T} (GeV); #sigma_{E}/E ",
1665  etBin,
1666  etMin,
1667  etMax,
1668  100,
1669  0.,
1670  0.08,
1671  "");
1672  p_sigmaEoEVsEt_[2][1] =
1673  iBooker.bookProfile(histname + "unconvEndcap",
1674  "Unconv photons #sigma_{E}/E vs E_{T}: Endcap; E_{T} (GeV); #sigma_{E}/E ",
1675  etBin,
1676  etMin,
1677  etMax,
1678  100,
1679  0.,
1680  0.08,
1681  "");
1682  p_sigmaEoEVsEt_[2][2] = iBooker.bookProfile(histname + "convEndcap",
1683  "Conv photons #sigma_{E}/E vs E_{T}: Endcap; E_{T} (GeV); #sigma_{E}/E",
1684  etBin,
1685  etMin,
1686  etMax,
1687  100,
1688  0.,
1689  0.08,
1690  "");
1691 
1692  histname = "pSigmaEoEVsNVtx";
1693  p_sigmaEoEVsNVtx_[1][0] = iBooker.bookProfile(histname + "Barrel",
1694  "All photons: #sigma_{E}/E vs N_{vtx}: Barrel; N_{vtx}; #sigma_{E}/E",
1695  200,
1696  -0.5,
1697  199.5,
1698  100,
1699  0.,
1700  0.08,
1701  "");
1702  p_sigmaEoEVsNVtx_[1][1] =
1703  iBooker.bookProfile(histname + "unconvBarrel",
1704  "Unconv photons #sigma_{E}/E vs N_{vtx}: Barrel; N_{vtx}; #sigma_{E}/E ",
1705  200,
1706  -0.5,
1707  199.5,
1708  100,
1709  0.,
1710  0.08,
1711  "");
1712  p_sigmaEoEVsNVtx_[1][2] = iBooker.bookProfile(histname + "convBarrel",
1713  "Conv photons #sigma_{E}/E vs N_{vtx}: Barrel; N_{vtx}; #sigma_{E}/E",
1714  200,
1715  -0.5,
1716  199.5,
1717  100,
1718  0.,
1719  0.08,
1720  "");
1721  p_sigmaEoEVsNVtx_[2][0] = iBooker.bookProfile(histname + "Endcap",
1722  "All photons: #sigma_{E}/E vs N_{vtx}: Endcap; N_{vtx}; #sigma_{E}/E",
1723  200,
1724  -0.5,
1725  199.5,
1726  100,
1727  0.,
1728  0.08,
1729  "");
1730  p_sigmaEoEVsNVtx_[2][1] =
1731  iBooker.bookProfile(histname + "unconvEndcap",
1732  "Unconv photons #sigma_{E}/E vs N_{vtx}: Endcap; N_{vtx}; #sigma_{E}/E ",
1733  200,
1734  -0.5,
1735  199.5,
1736  100,
1737  0.,
1738  0.08,
1739  "");
1740  p_sigmaEoEVsNVtx_[2][2] = iBooker.bookProfile(histname + "convEndcap",
1741  "Conv photons #sigma_{E}/E vs N_{vtx}: Endcap; N_{vtx}; #sigma_{E}/E",
1742  200,
1743  -0.5,
1744  199.5,
1745  100,
1746  0.,
1747  0.08,
1748  "");
1749 
1750  if (!isRunCentrally_) {
1751  histname = "eResVsEt";
1752  h2_eResVsEt_[0][0] = iBooker.book2D(
1753  histname + "All", " All photons E/Etrue vs true Et: all Ecal ", etBin, etMin, etMax, 100, 0.9, 1.1);
1754  h2_eResVsEt_[0][1] = iBooker.book2D(
1755  histname + "unconv", " All photons E/Etrue vs true Et: all Ecal ", etBin, etMin, etMax, 100, 0.9, 1.1);
1756  h2_eResVsEt_[0][2] = iBooker.book2D(
1757  histname + "conv", " All photons E/Etrue vs true Et: all Ecal ", etBin, etMin, etMax, 100, 0.9, 1.1);
1758  h2_eResVsEt_[1][0] = iBooker.book2D(
1759  histname + "Barrel", " All photons E/Etrue vs true Et: Barrel ", etBin, etMin, etMax, 100, 0.9, 1.1);
1760  h2_eResVsEt_[1][1] = iBooker.book2D(
1761  histname + "unconvBarrel", " All photons E/Etrue vs true Et: Barrel ", etBin, etMin, etMax, 100, 0.9, 1.1);
1762  h2_eResVsEt_[1][2] = iBooker.book2D(
1763  histname + "convBarrel", " All photons E/Etrue vs true Et: Barrel ", etBin, etMin, etMax, 100, 0.9, 1.1);
1764  h2_eResVsEt_[2][0] = iBooker.book2D(
1765  histname + "Endcap", " All photons E/Etrue vs true Et: Endcap ", etBin, etMin, etMax, 100, 0.9, 1.1);
1766  h2_eResVsEt_[2][1] = iBooker.book2D(
1767  histname + "unconvEndcap", " All photons E/Etrue vs true Et: Endcap ", etBin, etMin, etMax, 100, 0.9, 1.1);
1768  h2_eResVsEt_[2][2] = iBooker.book2D(
1769  histname + "convEndcap", " All photons E/Etrue vs true Et: Endcap ", etBin, etMin, etMax, 100, 0.9, 1.1);
1770  }
1771 
1772  histname = "pEResVsEt";
1773  p_eResVsEt_[0][0] = iBooker.bookProfile(
1774  histname + "All", "All photons E/Etrue vs Et: all Ecal ", etBin, etMin, etMax, resBin, resMin, resMax, "");
1775  p_eResVsEt_[0][1] = iBooker.bookProfile(
1776  histname + "unconv", "All photons E/Etrue vs Et: all Ecal ", etBin, etMin, etMax, resBin, resMin, resMax, "");
1777  p_eResVsEt_[0][2] = iBooker.bookProfile(
1778  histname + "conv", "All photons E/Etrue vs Et: all Ecal ", etBin, etMin, etMax, resBin, resMin, resMax, "");
1779  p_eResVsEt_[1][0] = iBooker.bookProfile(
1780  histname + "Barrel", "All photons E/Etrue vs Et: Barrel ", etBin, etMin, etMax, resBin, resMin, resMax, "");
1781  p_eResVsEt_[1][1] = iBooker.bookProfile(
1782  histname + "unconvBarrel", "All photons E/Etrue vs Et: Barrel ", etBin, etMin, etMax, resBin, resMin, resMax, "");
1783  p_eResVsEt_[1][2] = iBooker.bookProfile(
1784  histname + "convBarrel", "All photons E/Etrue vs Et: Barrel ", etBin, etMin, etMax, resBin, resMin, resMax, "");
1785  p_eResVsEt_[2][0] = iBooker.bookProfile(
1786  histname + "Endcap", "All photons E/Etrue vs Et: Endcap ", etBin, etMin, etMax, resBin, resMin, resMax, "");
1787  p_eResVsEt_[2][1] = iBooker.bookProfile(
1788  histname + "unconvEndcap", "All photons E/Etrue vs Et: Endcap ", etBin, etMin, etMax, resBin, resMin, resMax, "");
1789  p_eResVsEt_[2][2] = iBooker.bookProfile(
1790  histname + "convEndcap", "All photons E/Etrue vs Et: Endcap ", etBin, etMin, etMax, resBin, resMin, resMax, "");
1791 
1792  histname = "pEResVsNVtx";
1793  p_eResVsNVtx_[1][0] = iBooker.bookProfile(histname + "Barrel",
1794  "All photons E/E_{true} vs N_{vtx}: Barrel; N_{vtx}; E}/E_{true}",
1795  200,
1796  -0.5,
1797  199.5,
1798  resBin,
1799  resMin,
1800  resMax,
1801  "");
1802  p_eResVsNVtx_[1][1] =
1803  iBooker.bookProfile(histname + "unconvBarrel",
1804  "Unconverted photons E/E_{true} vs N_{vtx}: Barrel; N_{vtx}; E}/E_{true} ",
1805  200,
1806  -0.5,
1807  199.5,
1808  resBin,
1809  resMin,
1810  resMax,
1811  "");
1812  p_eResVsNVtx_[1][2] =
1813  iBooker.bookProfile(histname + "convBarrel",
1814  " Converted photons E/E_{true} vs N_{vtx}: Barrel; N_{vtx}; E}/E_{true} ",
1815  200,
1816  -0.5,
1817  199.5,
1818  resBin,
1819  resMin,
1820  resMax,
1821  "");
1822  p_eResVsNVtx_[2][0] = iBooker.bookProfile(histname + "Endcap",
1823  "All photons E/E_{true} vs N_{vtx}: Endcap; N_{vtx}; E}/E_{true} ",
1824  200,
1825  -0.5,
1826  199.5,
1827  resBin,
1828  resMin,
1829  resMax,
1830  "");
1831  p_eResVsNVtx_[2][1] =
1832  iBooker.bookProfile(histname + "unconvEndcap",
1833  "Uncoverted photons E/E_{true} vs N_{vtx}: Endcap; N_{vtx}; E}/E_{true} ",
1834  2080,
1835  -0.5,
1836  199.5,
1837  resBin,
1838  resMin,
1839  resMax,
1840  "");
1841  p_eResVsNVtx_[2][2] = iBooker.bookProfile(histname + "convEndcap",
1842  "Converted photons E/E_{true} vs N_{vtx}: Endcap; N_{vtx}; E}/E_{true} ",
1843  200,
1844  -0.5,
1845  199.5,
1846  resBin,
1847  resMin,
1848  resMax,
1849  "");
1850 
1851  histname = "eResVsR9";
1852  if (!isRunCentrally_)
1853  h2_eResVsR9_[0] = iBooker.book2D(
1854  histname + "All", " All photons E/Etrue vs R9: all Ecal ", r9Bin * 2, r9Min, r9Max, 100, 0., 2.5);
1855  if (!isRunCentrally_)
1856  h2_eResVsR9_[1] = iBooker.book2D(
1857  histname + "Barrel", " All photons E/Etrue vs R9: Barrel ", r9Bin * 2, r9Min, r9Max, 100, 0., 2.5);
1858  if (!isRunCentrally_)
1859  h2_eResVsR9_[2] = iBooker.book2D(
1860  histname + "Endcap", " All photons E/Etrue vs R9: Endcap ", r9Bin * 2, r9Min, r9Max, 100, 0., 2.5);
1861  histname = "pEResVsR9";
1862  if (!isRunCentrally_)
1863  p_eResVsR9_[0] = iBooker.bookProfile(
1864  histname + "All", " All photons E/Etrue vs R9: all Ecal ", r9Bin * 2, r9Min, r9Max, resBin, resMin, resMax, "");
1865  p_eResVsR9_[1] = iBooker.bookProfile(
1866  histname + "Barrel", " All photons E/Etrue vs R9: Barrel ", r9Bin * 2, r9Min, r9Max, resBin, resMin, resMax, "");
1867  p_eResVsR9_[2] = iBooker.bookProfile(
1868  histname + "Endcap", " All photons E/Etrue vs R9: Endcap ", r9Bin * 2, r9Min, r9Max, resBin, resMin, resMax, "");
1869  histname = "sceResVsR9";
1870  if (!isRunCentrally_)
1871  h2_sceResVsR9_[0] = iBooker.book2D(
1872  histname + "All", " All photons scE/Etrue vs R9: all Ecal ", r9Bin * 2, r9Min, r9Max, 100, 0., 2.5);
1873  if (!isRunCentrally_)
1874  h2_sceResVsR9_[1] = iBooker.book2D(
1875  histname + "Barrel", " All photons scE/Etrue vs R9: Barrel ", r9Bin * 2, r9Min, r9Max, 100, 0., 2.5);
1876  if (!isRunCentrally_)
1877  h2_sceResVsR9_[2] = iBooker.book2D(
1878  histname + "Endcap", " All photons scE/Etrue vs R9: Endcap ", r9Bin * 2, r9Min, r9Max, 100, 0., 2.5);
1879  histname = "scpEResVsR9";
1880  if (!isRunCentrally_)
1881  p_sceResVsR9_[0] = iBooker.bookProfile(histname + "All",
1882  " All photons scE/Etrue vs R9: all Ecal ",
1883  r9Bin * 2,
1884  r9Min,
1885  r9Max,
1886  resBin,
1887  resMin,
1888  resMax,
1889  "");
1890  p_sceResVsR9_[1] = iBooker.bookProfile(histname + "Barrel",
1891  " All photons scE/Etrue vs R9: Barrel ",
1892  r9Bin * 2,
1893  r9Min,
1894  r9Max,
1895  resBin,
1896  resMin,
1897  resMax,
1898  "");
1899  p_sceResVsR9_[2] = iBooker.bookProfile(histname + "Endcap",
1900  " All photons scE/Etrue vs R9: Endcap ",
1901  r9Bin * 2,
1902  r9Min,
1903  r9Max,
1904  resBin,
1905  resMin,
1906  resMax,
1907  "");
1908 
1909  // Photon E resolution when using energy values from regressions
1910  histname = "eResRegr1";
1911  h_phoEResRegr1_[0][0] =
1912  iBooker.book1D(histname + "All", " Photon rec/true Energy from Regression1 : All ecal ", resBin, resMin, resMax);
1913  h_phoEResRegr1_[0][1] =
1914  iBooker.book1D(histname + "Barrel", " Photon rec/true Energy from Regression1: Barrel ", resBin, resMin, resMax);
1915  h_phoEResRegr1_[0][2] =
1916  iBooker.book1D(histname + "Endcap", " Photon rec/true Energy from Regression1: Endcap ", resBin, resMin, resMax);
1917 
1918  h_phoEResRegr1_[1][0] = iBooker.book1D(histname + "unconvAll",
1919  " Photon rec/true Energy from Regression1 if r9>0.94, 0.95: All ecal ",
1920  resBin,
1921  resMin,
1922  resMax);
1923  h_phoEResRegr1_[1][1] = iBooker.book1D(
1924  histname + "unconvBarrel", " Photon rec/true Energy from Regression1 if r9>0.94: Barrel ", resBin, resMin, resMax);
1925  h_phoEResRegr1_[1][2] = iBooker.book1D(
1926  histname + "unconvEndcap", " Photon rec/true Energy from Regression1 if r9>0.95: Endcap ", resBin, resMin, resMax);
1927 
1928  h_phoEResRegr1_[2][0] = iBooker.book1D(histname + "convAll",
1929  " Photon rec/true Energy from Regression1if r9<0.0.94, 0.95: All ecal ",
1930  resBin,
1931  resMin,
1932  resMax);
1933  h_phoEResRegr1_[2][1] = iBooker.book1D(
1934  histname + "convBarrel", " Photon rec/true Energy from Regression1 if r9<0.94: Barrel ", resBin, resMin, resMax);
1935  h_phoEResRegr1_[2][2] = iBooker.book1D(
1936  histname + "convEndcap", " Photon rec/true Energy from Regression1 if r9<0.95: Endcap ", resBin, resMin, resMax);
1937 
1938  histname = "eResRegr2";
1939  h_phoEResRegr2_[0][0] =
1940  iBooker.book1D(histname + "All", " Photon rec/true Energy from Regression2 : All ecal ", resBin, resMin, resMax);
1941  h_phoEResRegr2_[0][1] =
1942  iBooker.book1D(histname + "Barrel", " Photon rec/true Energy from Regression2: Barrel ", resBin, resMin, resMax);
1943  h_phoEResRegr2_[0][2] =
1944  iBooker.book1D(histname + "Endcap", " Photon rec/true Energy from Regression2: Endcap ", resBin, resMin, resMax);
1945 
1946  h_phoEResRegr2_[1][0] = iBooker.book1D(histname + "unconvAll",
1947  " Photon rec/true Energy from Regression2 if r9>0.94, 0.95: All ecal ",
1948  resBin,
1949  resMin,
1950  resMax);
1951  h_phoEResRegr2_[1][1] = iBooker.book1D(
1952  histname + "unconvBarrel", " Photon rec/true Energy from Regression2 if r9>0.94: Barrel ", resBin, resMin, resMax);
1953  h_phoEResRegr2_[1][2] = iBooker.book1D(
1954  histname + "unconvEndcap", " Photon rec/true Energy from Regression2 if r9>0.95: Endcap ", resBin, resMin, resMax);
1955 
1956  h_phoEResRegr2_[2][0] = iBooker.book1D(histname + "convAll",
1957  " Photon rec/true Energy from Regression2 if r9<0.0.94, 0.95: All ecal ",
1958  resBin,
1959  resMin,
1960  resMax);
1961  h_phoEResRegr2_[2][1] = iBooker.book1D(
1962  histname + "convBarrel", " Photon rec/true Energy from Regression2 if r9<0.94: Barrel ", resBin, resMin, resMax);
1963  h_phoEResRegr2_[2][2] = iBooker.book1D(
1964  histname + "convEndcap", " Photon rec/true Energy from Regression2 if r9<0.95: Endcap ", resBin, resMin, resMax);
1965  //
1966  histname = "phoPixSeedSize";
1967  h_phoPixSeedSize_[0] = iBooker.book1D(histname + "Barrel", "Pixel seeds size ", 100, 0., 100.);
1968  h_phoPixSeedSize_[1] = iBooker.book1D(histname + "Endcap", "Pixel seeds size ", 100, 0., 100.);
1969 
1970  // Infos from Particle Flow - isolation and ID
1971  histname = "chargedHadIso";
1972  h_chHadIso_[0] = iBooker.book1D(histname + "All", "PF chargedHadIso: All Ecal", etBin, etMin, 20.);
1973  h_chHadIso_[1] = iBooker.book1D(histname + "Barrel", "PF chargedHadIso: Barrel", etBin, etMin, 20.);
1974  h_chHadIso_[2] = iBooker.book1D(histname + "Endcap", "PF chargedHadIso: Endcap", etBin, etMin, 20.);
1975  histname = "neutralHadIso";
1976  h_nHadIso_[0] = iBooker.book1D(histname + "All", "PF neutralHadIso: All Ecal", etBin, etMin, 20.);
1977  h_nHadIso_[1] = iBooker.book1D(histname + "Barrel", "PF neutralHadIso: Barrel", etBin, etMin, 20.);
1978  h_nHadIso_[2] = iBooker.book1D(histname + "Endcap", "PF neutralHadIso: Endcap", etBin, etMin, 20.);
1979  histname = "photonIso";
1980  h_phoIso_[0] = iBooker.book1D(histname + "All", "PF photonIso: All Ecal", etBin, etMin, 20.);
1981  h_phoIso_[1] = iBooker.book1D(histname + "Barrel", "PF photonIso: Barrel", etBin, etMin, 20.);
1982  h_phoIso_[2] = iBooker.book1D(histname + "Endcap", "PF photonIso: Endcap", etBin, etMin, 20.);
1983  histname = "nCluOutMustache";
1985  iBooker.book1D(histname + "All", "PF number of clusters outside Mustache: All Ecal", 50, 0., 50.);
1987  iBooker.book1D(histname + "Barrel", "PF number of clusters outside Mustache: Barrel", 50, 0., 50.);
1989  iBooker.book1D(histname + "Endcap", "PF number of clusters outside Mustache: Endcap", 50, 0., 50.);
1990  histname = "etOutMustache";
1991  h_etOutsideMustache_[0] = iBooker.book1D(histname + "All", "PF et outside Mustache: All Ecal", etBin, etMin, 20.);
1992  h_etOutsideMustache_[1] = iBooker.book1D(histname + "Barrel", "PF et outside Mustache: Barrel", etBin, etMin, 20.);
1993  h_etOutsideMustache_[2] = iBooker.book1D(histname + "Endcap", "PF et outside Mustache: Endcap", etBin, etMin, 20.);
1994  histname = "pfMVA";
1995  h_pfMva_[0] = iBooker.book1D(histname + "All", "PF MVA output: All Ecal", 50, -1., 2.);
1996  h_pfMva_[1] = iBooker.book1D(histname + "Barrel", "PF MVA output: Barrel", 50, -1., 2.);
1997  h_pfMva_[2] = iBooker.book1D(histname + "Endcap", "PF MVA output: Endcap", 50, -1, 2.);
1999  histname = "SumPtOverPhoPt_ChHad_Cleaned";
2001  iBooker.book1D(histname + "All", "Pf Cand SumPt/P_{T}_{#gamma}: Charged Hadrons: All Ecal", etBin, etMin, 2.);
2003  iBooker.book1D(histname + "Barrel", "PF Cand SumPt/P_{T}_{#gamma}: Charged Hadrons: Barrel", etBin, etMin, 2.);
2005  iBooker.book1D(histname + "Endcap", "PF Cand SumPt/P_{T}_{#gamma}: Charged Hadrons: Endcap", etBin, etMin, 2.);
2006  histname = "SumPtOverPhoPt_NeuHad_Cleaned";
2008  iBooker.book1D(histname + "All", "Pf Cand SumPt/P_{T}_{#gamma}: Neutral Hadrons: All Ecal", etBin, etMin, 2.);
2010  iBooker.book1D(histname + "Barrel", "PF Cand SumPt/P_{T}_{#gamma}: Neutral Hadrons: Barrel", etBin, etMin, 2.);
2012  iBooker.book1D(histname + "Endcap", "PF Cand SumPt/P_{T}_{#gamma}: Neutral Hadrons: Endcap", etBin, etMin, 2.);
2013  histname = "SumPtOverPhoPt_Pho_Cleaned";
2015  iBooker.book1D(histname + "All", "Pf Cand SumPt/P_{T}_{#gamma}: Photons: All Ecal", etBin, etMin, 2.);
2017  iBooker.book1D(histname + "Barrel", "PF Cand SumPt/P_{T}_{#gamma}: Photons: Barrel", etBin, etMin, 2.);
2019  iBooker.book1D(histname + "Endcap", "PF Cand SumPt/P_{T}_{#gamma}: Photons: Endcap", etBin, etMin, 2.);
2020 
2021  histname = "dRPhoPFcand_ChHad_Cleaned";
2023  iBooker.book1D(histname + "All", "dR(pho,cand) Charged Hadrons : All Ecal", etBin, etMin, 0.7);
2025  iBooker.book1D(histname + "Barrel", "dR(pho,cand) Charged Hadrons : Barrel", etBin, etMin, 0.7);
2027  iBooker.book1D(histname + "Endcap", "dR(pho,cand) Charged Hadrons : Endcap", etBin, etMin, 0.7);
2028  histname = "dRPhoPFcand_NeuHad_Cleaned";
2030  iBooker.book1D(histname + "All", "dR(pho,cand) Neutral Hadrons : All Ecal", etBin, etMin, 0.7);
2032  iBooker.book1D(histname + "Barrel", "dR(pho,cand) Neutral Hadrons : Barrel", etBin, etMin, 0.7);
2034  iBooker.book1D(histname + "Endcap", "dR(pho,cand) Neutral Hadrons : Endcap", etBin, etMin, 0.7);
2035  histname = "dRPhoPFcand_Pho_Cleaned";
2037  iBooker.book1D(histname + "All", "dR(pho,cand) Photons : All Ecal", etBin, etMin, 0.7);
2039  iBooker.book1D(histname + "Barrel", "dR(pho,cand) Photons : Barrel", etBin, etMin, 0.7);
2041  iBooker.book1D(histname + "Endcap", "dR(pho,cand) Photons : Endcap", etBin, etMin, 0.7);
2042 
2043  //
2044  histname = "SumPtOverPhoPt_ChHad_unCleaned";
2046  iBooker.book1D(histname + "All", "Pf Cand Sum Pt Over photon pt Charged Hadrons : All Ecal", etBin, etMin, 2.);
2048  iBooker.book1D(histname + "Barrel", "PF Cand Sum Pt Over photon pt Charged Hadrons: Barrel", etBin, etMin, 2.);
2050  iBooker.book1D(histname + "Endcap", "PF Cand Sum Pt Over photon pt Charged Hadrons: Endcap", etBin, etMin, 2.);
2051  histname = "SumPtOverPhoPt_NeuHad_unCleaned";
2053  iBooker.book1D(histname + "All", "Pf Cand Sum Pt Over photon pt Neutral Hadrons : All Ecal", etBin, etMin, 2.);
2055  iBooker.book1D(histname + "Barrel", "PF Cand Sum Pt Over photon pt Neutral Hadrons: Barrel", etBin, etMin, 2.);
2057  iBooker.book1D(histname + "Endcap", "PF Cand Sum Pt Over photon pt Neutral Hadrons: Endcap", etBin, etMin, 2.);
2058  histname = "SumPtOverPhoPt_Pho_unCleaned";
2060  iBooker.book1D(histname + "All", "Pf Cand Sum Pt Over photon pt Photons: All Ecal", etBin, etMin, 2.);
2062  iBooker.book1D(histname + "Barrel", "PF Cand Sum Pt Over photon pt Photons: Barrel", etBin, etMin, 2.);
2064  iBooker.book1D(histname + "Endcap", "PF Cand Sum Pt Over photon pt Photons: Endcap", etBin, etMin, 2.);
2065  histname = "dRPhoPFcand_ChHad_unCleaned";
2067  iBooker.book1D(histname + "All", "dR(pho,cand) Charged Hadrons : All Ecal", etBin, etMin, 0.7);
2069  iBooker.book1D(histname + "Barrel", "dR(pho,cand) Charged Hadrons : Barrel", etBin, etMin, 0.7);
2071  iBooker.book1D(histname + "Endcap", "dR(pho,cand) Charged Hadrons : Endcap", etBin, etMin, 0.7);
2072  histname = "dRPhoPFcand_NeuHad_unCleaned";
2074  iBooker.book1D(histname + "All", "dR(pho,cand) Neutral Hadrons : All Ecal", etBin, etMin, 0.7);
2076  iBooker.book1D(histname + "Barrel", "dR(pho,cand) Neutral Hadrons : Barrel", etBin, etMin, 0.7);
2078  iBooker.book1D(histname + "Endcap", "dR(pho,cand) Neutral Hadrons : Endcap", etBin, etMin, 0.7);
2079  histname = "dRPhoPFcand_Pho_unCleaned";
2081  iBooker.book1D(histname + "All", "dR(pho,cand) Photons: All Ecal", etBin, etMin, 0.7);
2083  iBooker.book1D(histname + "Barrel", "dR(pho,cand) Photons: Barrel", etBin, etMin, 0.7);
2085  iBooker.book1D(histname + "Endcap", "dR(pho,cand) Photons: Endcap", etBin, etMin, 0.7);
2086 
2087  // if ( ! isRunCentrally_ ) {
2088  // Photon pair invariant mass
2089  histname = "gamgamMass";
2090  h_gamgamMass_[0][0] =
2091  iBooker.book1D(histname + "All", "2 photons invariant mass: All ecal ", ggMassBin, ggMassMin, ggMassMax);
2092  h_gamgamMass_[0][1] =
2093  iBooker.book1D(histname + "Barrel", "2 photons invariant mass: Barrel ", ggMassBin, ggMassMin, ggMassMax);
2094  h_gamgamMass_[0][2] =
2095  iBooker.book1D(histname + "Endcap", "2 photons invariant mass: Endcap ", ggMassBin, ggMassMin, ggMassMax);
2096  //
2097  histname = "gamgamMassNoConv";
2098  h_gamgamMass_[1][0] = iBooker.book1D(
2099  histname + "All", "2 photons with no conversion invariant mass: All ecal ", ggMassBin, ggMassMin, ggMassMax);
2100  h_gamgamMass_[1][1] = iBooker.book1D(
2101  histname + "Barrel", "2 photons with no conversion invariant mass: Barrel ", ggMassBin, ggMassMin, ggMassMax);
2102  h_gamgamMass_[1][2] = iBooker.book1D(
2103  histname + "Endcap", "2 photons with no conversion invariant mass: Endcap ", ggMassBin, ggMassMin, ggMassMax);
2104  //
2105  histname = "gamgamMassConv";
2106  h_gamgamMass_[2][0] = iBooker.book1D(
2107  histname + "All", "2 photons with conversion invariant mass: All ecal ", ggMassBin, ggMassMin, ggMassMax);
2108  h_gamgamMass_[2][1] = iBooker.book1D(
2109  histname + "Barrel", "2 photons with conversion invariant mass: Barrel ", ggMassBin, ggMassMin, ggMassMax);
2110  h_gamgamMass_[2][2] = iBooker.book1D(
2111  histname + "Endcap", "2 photons with conversion invariant mass: Endcap ", ggMassBin, ggMassMin, ggMassMax);
2112  // with energy regression1
2113  histname = "gamgamMassRegr1";
2114  h_gamgamMassRegr1_[0][0] =
2115  iBooker.book1D(histname + "All", "2 photons invariant mass Regr1 : All ecal ", ggMassBin, ggMassMin, ggMassMax);
2116  h_gamgamMassRegr1_[0][1] =
2117  iBooker.book1D(histname + "Barrel", "2 photons invariant mass Regr1 : Barrel ", ggMassBin, ggMassMin, ggMassMax);
2118  h_gamgamMassRegr1_[0][2] =
2119  iBooker.book1D(histname + "Endcap", "2 photons invariant mass Regr1 : Endcap ", ggMassBin, ggMassMin, ggMassMax);
2120  //
2121  histname = "gamgamMassRegr1NoConv";
2122  h_gamgamMassRegr1_[1][0] = iBooker.book1D(
2123  histname + "All", "2 photons with no conversion invariant mass Regr1: All ecal ", ggMassBin, ggMassMin, ggMassMax);
2124  h_gamgamMassRegr1_[1][1] = iBooker.book1D(histname + "Barrel",
2125  "2 photons with no conversion invariant mass Regr1: Barrel ",
2126  ggMassBin,
2127  ggMassMin,
2128  ggMassMax);
2129  h_gamgamMassRegr1_[1][2] = iBooker.book1D(histname + "Endcap",
2130  "2 photons with no conversion invariant mass Regr1: Endcap ",
2131  ggMassBin,
2132  ggMassMin,
2133  ggMassMax);
2134  //
2135  histname = "gamgamMassRegr1Conv";
2136  h_gamgamMassRegr1_[2][0] = iBooker.book1D(
2137  histname + "All", "2 photons with conversion invariant mass Regr1: All ecal ", ggMassBin, ggMassMin, ggMassMax);
2138  h_gamgamMassRegr1_[2][1] = iBooker.book1D(histname + "Barrel",
2139  "2 photons with conversion invariant mass Regr1: Barrel ",
2140  ggMassBin,
2141  ggMassMin,
2142  ggMassMax);
2143  h_gamgamMassRegr1_[2][2] = iBooker.book1D(histname + "Endcap",
2144  "2 photons with conversion invariant mass Regr1: Endcap ",
2145  ggMassBin,
2146  ggMassMin,
2147  ggMassMax);
2148  // with energy regression2
2149  histname = "gamgamMassRegr2";
2150  h_gamgamMassRegr2_[0][0] =
2151  iBooker.book1D(histname + "All", "2 photons invariant mass Regr2 : All ecal ", ggMassBin, ggMassMin, ggMassMax);
2152  h_gamgamMassRegr2_[0][1] =
2153  iBooker.book1D(histname + "Barrel", "2 photons invariant mass Regr2 : Barrel ", ggMassBin, ggMassMin, ggMassMax);
2154  h_gamgamMassRegr2_[0][2] =
2155  iBooker.book1D(histname + "Endcap", "2 photons invariant mass Regr2 : Endcap ", ggMassBin, ggMassMin, ggMassMax);
2156  //
2157  histname = "gamgamMassRegr2NoConv";
2158  h_gamgamMassRegr2_[1][0] = iBooker.book1D(
2159  histname + "All", "2 photons with no conversion invariant mass Regr2: All ecal ", ggMassBin, ggMassMin, ggMassMax);
2160  h_gamgamMassRegr2_[1][1] = iBooker.book1D(histname + "Barrel",
2161  "2 photons with no conversion invariant mass Regr2: Barrel ",
2162  ggMassBin,
2163  ggMassMin,
2164  ggMassMax);
2165  h_gamgamMassRegr2_[1][2] = iBooker.book1D(histname + "Endcap",
2166  "2 photons with no conversion invariant mass Regr2: Endcap ",
2167  ggMassBin,
2168  ggMassMin,
2169  ggMassMax);
2170  //
2171  histname = "gamgamMassRegr2Conv";
2172  h_gamgamMassRegr2_[2][0] = iBooker.book1D(
2173  histname + "All", "2 photons with conversion invariant mass Regr2: All ecal ", ggMassBin, ggMassMin, ggMassMax);
2174  h_gamgamMassRegr2_[2][1] = iBooker.book1D(histname + "Barrel",
2175  "2 photons with conversion invariant mass Regr2: Barrel ",
2176  ggMassBin,
2177  ggMassMin,
2178  ggMassMax);
2179  h_gamgamMassRegr2_[2][2] = iBooker.book1D(histname + "Endcap",
2180  "2 photons with conversion invariant mass Regr2: Endcap ",
2181  ggMassBin,
2182  ggMassMin,
2183  ggMassMax);
2184 
2185  //}
2186 
2188 
2189  h_scEta_miniAOD_[0] = iBooker.book1D("scEta_miniAOD", " SC Eta ", etaBin, etaMin, etaMax);
2190  h_scPhi_miniAOD_[0] = iBooker.book1D("scPhi_miniAOD", " SC Phi ", phiBin, phiMin, phiMax);
2191  histname = "phoE";
2192  h_phoE_miniAOD_[0][0] = iBooker.book1D(histname + "All_miniAOD", " Photon Energy: All ecal ", eBin, eMin, eMax);
2193  h_phoE_miniAOD_[0][1] = iBooker.book1D(histname + "Barrel_miniAOD", " Photon Energy: barrel ", eBin, eMin, eMax);
2194  h_phoE_miniAOD_[0][2] = iBooker.book1D(histname + "Endcap_miniAOD", " Photon Energy: Endcap ", eBin, eMin, eMax);
2195 
2196  histname = "phoEt";
2197  h_phoEt_miniAOD_[0][0] =
2198  iBooker.book1D(histname + "All_miniAOD", " Photon Transverse Energy: All ecal ", etBin, etMin, etMax);
2199  h_phoEt_miniAOD_[0][1] =
2200  iBooker.book1D(histname + "Barrel_miniAOD", " Photon Transverse Energy: Barrel ", etBin, etMin, etMax);
2201  h_phoEt_miniAOD_[0][2] =
2202  iBooker.book1D(histname + "Endcap_miniAOD", " Photon Transverse Energy: Endcap ", etBin, etMin, etMax);
2203 
2204  histname = "eRes";
2205  h_phoERes_miniAOD_[0][0] = iBooker.book1D(
2206  histname + "All_miniAOD", " Photon E/E_{true}: All ecal; E/E_{true} (GeV)", resBin, resMin, resMax);
2207  h_phoERes_miniAOD_[0][1] = iBooker.book1D(
2208  histname + "Barrel_miniAOD", "Photon E/E_{true}: Barrel; E/E_{true} (GeV)", resBin, resMin, resMax);
2209  h_phoERes_miniAOD_[0][2] = iBooker.book1D(
2210  histname + "Endcap_miniAOD", " Photon E/E_{true}: Endcap; E/E_{true} (GeV)", resBin, resMin, resMax);
2211 
2212  histname = "sigmaEoE";
2213  h_phoSigmaEoE_miniAOD_[0][0] =
2214  iBooker.book1D(histname + "All_miniAOD", "#sigma_{E}/E: All ecal; #sigma_{E}/E", 100, 0., 0.08);
2215  h_phoSigmaEoE_miniAOD_[0][1] =
2216  iBooker.book1D(histname + "Barrel_miniAOD", "#sigma_{E}/E: Barrel; #sigma_{E}/E", 100, 0., 0.08);
2217  h_phoSigmaEoE_miniAOD_[0][2] =
2218  iBooker.book1D(histname + "Endcap_miniAOD", "#sigma_{E}/E: Endcap, #sigma_{E}/E", 100, 0., 0.08);
2219 
2220  histname = "r9";
2221  h_r9_miniAOD_[0][0] = iBooker.book1D(histname + "All_miniAOD", " r9: All Ecal", r9Bin, r9Min, r9Max);
2222  h_r9_miniAOD_[0][1] = iBooker.book1D(histname + "Barrel_miniAOD", " r9: Barrel ", r9Bin, r9Min, r9Max);
2223  h_r9_miniAOD_[0][2] = iBooker.book1D(histname + "Endcap_miniAOD", " r9: Endcap ", r9Bin, r9Min, r9Max);
2224  histname = "full5x5_r9";
2225  h_full5x5_r9_miniAOD_[0][0] = iBooker.book1D(histname + "All_miniAOD", " r9: All Ecal", r9Bin, r9Min, r9Max);
2226  h_full5x5_r9_miniAOD_[0][1] = iBooker.book1D(histname + "Barrel_miniAOD", " r9: Barrel ", r9Bin, r9Min, r9Max);
2227  h_full5x5_r9_miniAOD_[0][2] = iBooker.book1D(histname + "Endcap_miniAOD", " r9: Endcap ", r9Bin, r9Min, r9Max);
2228  histname = "r1";
2229  h_r1_miniAOD_[0][0] = iBooker.book1D(histname + "All_miniAOD", " e1x5/e5x5: All Ecal", r9Bin, r9Min, r9Max);
2230  h_r1_miniAOD_[0][1] = iBooker.book1D(histname + "Barrel_miniAOD", " e1x5/e5x5: Barrel ", r9Bin, r9Min, r9Max);
2231  h_r1_miniAOD_[0][2] = iBooker.book1D(histname + "Endcap_miniAOD", " e1x5/e5x5: Endcap ", r9Bin, r9Min, r9Max);
2232  histname = "r2";
2233  h_r2_miniAOD_[0][0] = iBooker.book1D(histname + "All_miniAOD", " e2x5/e5x5: All Ecal", r9Bin, r9Min, r9Max);
2234  h_r2_miniAOD_[0][1] = iBooker.book1D(histname + "Barrel_miniAOD", " e2x5/e5x5: Barrel ", r9Bin, r9Min, r9Max);
2235  h_r2_miniAOD_[0][2] = iBooker.book1D(histname + "Endcap_miniAOD", " e2x5/e5x5: Endcap ", r9Bin, r9Min, r9Max);
2236  histname = "hOverE";
2237  h_hOverE_miniAOD_[0][0] = iBooker.book1D(histname + "All_miniAOD", "H/E: All Ecal", 100, 0., 0.2);
2238  h_hOverE_miniAOD_[0][1] = iBooker.book1D(histname + "Barrel_miniAOD", "H/E: Barrel ", 100, 0., 0.2);
2239  h_hOverE_miniAOD_[0][2] = iBooker.book1D(histname + "Endcap_miniAOD", "H/E: Endcap ", 100, 0., 0.2);
2240  //
2241  histname = "newhOverE";
2242  h_newhOverE_miniAOD_[0][0] = iBooker.book1D(histname + "All_miniAOD", "new H/E: All Ecal", 100, 0., 0.2);
2243  h_newhOverE_miniAOD_[0][1] = iBooker.book1D(histname + "Barrel_miniAOD", "new H/E: Barrel ", 100, 0., 0.2);
2244  h_newhOverE_miniAOD_[0][2] = iBooker.book1D(histname + "Endcap_miniAOD", "new H/E: Endcap ", 100, 0., 0.2);
2245  //
2246  histname = "sigmaIetaIeta";
2247  h_sigmaIetaIeta_miniAOD_[0][0] = iBooker.book1D(histname + "All_miniAOD", "sigmaIetaIeta: All Ecal", 100, 0., 0.1);
2248  h_sigmaIetaIeta_miniAOD_[0][1] = iBooker.book1D(histname + "Barrel_miniAOD", "sigmaIetaIeta: Barrel ", 100, 0., 0.05);
2249  h_sigmaIetaIeta_miniAOD_[0][2] = iBooker.book1D(histname + "Endcap_miniAOD", "sigmaIetaIeta: Endcap ", 100, 0., 0.1);
2250  histname = "full5x5_sigmaIetaIeta";
2252  iBooker.book1D(histname + "All_miniAOD", "Full5x5 sigmaIetaIeta: All Ecal", 100, 0., 0.1);
2254  iBooker.book1D(histname + "Barrel_miniAOD", "Full5x5 sigmaIetaIeta: Barrel ", 100, 0., 0.05);
2256  iBooker.book1D(histname + "Endcap_miniAOD", "Full5x5 sigmaIetaIeta: Endcap ", 100, 0., 0.1);
2257  //
2258  histname = "ecalRecHitSumEtConeDR04";
2260  iBooker.book1D(histname + "All_miniAOD", "ecalRecHitSumEtDR04: All Ecal", etBin, etMin, 20.);
2262  iBooker.book1D(histname + "Barrel_miniAOD", "ecalRecHitSumEtDR04: Barrel ", etBin, etMin, 20.);
2264  iBooker.book1D(histname + "Endcap_miniAOD", "ecalRecHitSumEtDR04: Endcap ", etBin, etMin, 20.);
2265  histname = "hcalTowerSumEtConeDR04";
2267  iBooker.book1D(histname + "All_miniAOD", "hcalTowerSumEtConeDR04: All Ecal", etBin, etMin, 20.);
2269  iBooker.book1D(histname + "Barrel_miniAOD", "hcalTowerSumEtConeDR04: Barrel ", etBin, etMin, 20.);
2271  iBooker.book1D(histname + "Endcap_miniAOD", "hcalTowerSumEtConeDR04: Endcap ", etBin, etMin, 20.);
2272  //
2273  histname = "hcalTowerBcSumEtConeDR04";
2275  iBooker.book1D(histname + "All_miniAOD", "hcalTowerBcSumEtConeDR04: All Ecal", etBin, etMin, 20.);
2277  iBooker.book1D(histname + "Barrel_miniAOD", "hcalTowerBcSumEtConeDR04: Barrel ", etBin, etMin, 20.);
2279  iBooker.book1D(histname + "Endcap_miniAOD", "hcalTowerBcSumEtConeDR04: Endcap ", etBin, etMin, 20.);
2280  histname = "isoTrkSolidConeDR04";
2282  iBooker.book1D(histname + "All_miniAOD", "isoTrkSolidConeDR04: All Ecal", etBin, etMin, etMax * 0.1);
2284  iBooker.book1D(histname + "Barrel_miniAOD", "isoTrkSolidConeDR04: Barrel ", etBin, etMin, etMax * 0.1);
2286  iBooker.book1D(histname + "Endcap_miniAOD", "isoTrkSolidConeDR04: Endcap ", etBin, etMin, etMax * 0.1);
2287  histname = "nTrkSolidConeDR04";
2289  iBooker.book1D(histname + "All_miniAOD", "nTrkSolidConeDR04: All Ecal", 20, 0., 20);
2291  iBooker.book1D(histname + "Barrel_miniAOD", "nTrkSolidConeDR04: Barrel ", 20, 0., 20);
2293  iBooker.book1D(histname + "Endcap_miniAOD", "nTrkSolidConeDR04: Endcap ", 20, 0., 20);
2294 
2295  // Infos from Particle Flow - isolation and ID
2296  histname = "chargedHadIso";
2297  h_chHadIso_miniAOD_[0] = iBooker.book1D(histname + "All_miniAOD", "PF chargedHadIso: All Ecal", etBin, etMin, 20.);
2298  h_chHadIso_miniAOD_[1] = iBooker.book1D(histname + "Barrel_miniAOD", "PF chargedHadIso: Barrel", etBin, etMin, 20.);
2299  h_chHadIso_miniAOD_[2] = iBooker.book1D(histname + "Endcap_miniAOD", "PF chargedHadIso: Endcap", etBin, etMin, 20.);
2300  histname = "neutralHadIso";
2301  h_nHadIso_miniAOD_[0] = iBooker.book1D(histname + "All_miniAOD", "PF neutralHadIso: All Ecal", etBin, etMin, 20.);
2302  h_nHadIso_miniAOD_[1] = iBooker.book1D(histname + "Barrel_miniAOD", "PF neutralHadIso: Barrel", etBin, etMin, 20.);
2303  h_nHadIso_miniAOD_[2] = iBooker.book1D(histname + "Endcap_miniAOD", "PF neutralHadIso: Endcap", etBin, etMin, 20.);
2304  histname = "photonIso";
2305  h_phoIso_miniAOD_[0] = iBooker.book1D(histname + "All_miniAOD", "PF photonIso: All Ecal", etBin, etMin, 20.);
2306  h_phoIso_miniAOD_[1] = iBooker.book1D(histname + "Barrel_miniAOD", "PF photonIso: Barrel", etBin, etMin, 20.);
2307  h_phoIso_miniAOD_[2] = iBooker.book1D(histname + "Endcap_miniAOD", "PF photonIso: Endcap", etBin, etMin, 20.);
2308 
2309  iBooker.setCurrentFolder("EgammaV/" + fName_ + "/ConversionInfo");
2310 
2311  histname = "nConv";
2312  h_nConv_[0][0] = iBooker.book1D(histname + "All",
2313  "Number Of two-tracks Conversions per isolated candidates per events: All Ecal ",
2314  10,
2315  -0.5,
2316  9.5);
2317  h_nConv_[0][1] = iBooker.book1D(histname + "Barrel",
2318  "Number Of two-tracks Conversions per isolated candidates per events: Ecal Barrel ",
2319  10,
2320  -0.5,
2321  9.5);
2322  h_nConv_[0][2] = iBooker.book1D(histname + "Endcap",
2323  "Number Of two-tracks Conversions per isolated candidates per events: Ecal Endcap ",
2324  10,
2325  -0.5,
2326  9.5);
2327  h_nConv_[1][0] = iBooker.book1D(histname + "OneLegAll",
2328  "Number Of single leg Conversions per isolated candidates per events: All Ecal ",
2329  10,
2330  -0.5,
2331  9.5);
2332  h_nConv_[1][1] = iBooker.book1D(histname + "OneLegBarrel",
2333  "Number Of single leg Conversions per isolated candidates per events: Ecal Barrel ",
2334  10,
2335  -0.5,
2336  9.5);
2337  h_nConv_[1][2] = iBooker.book1D(histname + "OneLegEndcap",
2338  "Number Of single leg Conversions per isolated candidates per events: Ecal Endcap ",
2339  10,
2340  -0.5,
2341  9.5);
2342 
2343  h_convEta_[0] = iBooker.book1D("convEta1", " converted Photon Eta >1 track", etaBin, etaMin, etaMax);
2344  h_convEta_[1] = iBooker.book1D("convEta2", " converted Photon Eta =2 tracks ", etaBin, etaMin, etaMax);
2345  h_convEta_[2] = iBooker.book1D("convEta2ass", " converted Photon Eta =2 tracks, both ass ", etaBin, etaMin, etaMax);
2346  h_convPhi_[0] = iBooker.book1D("convPhi", " converted Photon Phi ", phiBin, phiMin, phiMax);
2347 
2348  histname = "convERes";
2349  h_convERes_[0][0] =
2350  iBooker.book1D(histname + "All", " Conversion rec/true Energy: All ecal ", resBin, resMin, resMax);
2351  h_convERes_[0][1] =
2352  iBooker.book1D(histname + "Barrel", " Conversion rec/true Energy: Barrel ", resBin, resMin, resMax);
2353  h_convERes_[0][2] =
2354  iBooker.book1D(histname + "Endcap", " Conversion rec/true Energy: Endcap ", resBin, resMin, resMax);
2355 
2356  histname = "p_EResVsR";
2357  p_eResVsR_ = iBooker.bookProfile(
2358  histname + "All", " photons conversion E/Etrue vs R: all Ecal ", rBin, rMin, rMax, 100, 0., 1.5, "");
2359 
2360  histname = "convPtRes";
2361  h_convPtRes_[1][0] =
2362  iBooker.book1D(histname + "All", " Conversion Pt rec/true from tracks : All ecal ", resBin, 0., 1.5);
2363  h_convPtRes_[1][1] =
2364  iBooker.book1D(histname + "Barrel", " Conversion Pt rec/true from tracks: Barrel ", resBin, 0., 1.5);
2365  h_convPtRes_[1][2] =
2366  iBooker.book1D(histname + "Endcap", " Conversion Pt rec/true from tracks: Endcap ", resBin, 0., 1.5);
2367 
2368  if (!isRunCentrally_) {
2369  histname = "r9VsTracks";
2370  h_r9VsNofTracks_[0][0] = iBooker.book2D(
2371  histname + "All", " photons r9 vs nTracks from conversions: All Ecal", r9Bin, r9Min, r9Max, 3, -0.5, 2.5);
2372  h_r9VsNofTracks_[0][1] = iBooker.book2D(
2373  histname + "Barrel", " photons r9 vs nTracks from conversions: Barrel Ecal", r9Bin, r9Min, r9Max, 3, -0.5, 2.5);
2374  h_r9VsNofTracks_[0][2] = iBooker.book2D(
2375  histname + "Endcap", " photons r9 vs nTracks from conversions: Endcap Ecal", r9Bin, r9Min, r9Max, 3, -0.5, 2.5);
2376  }
2377 
2378  histname = "mvaOut";
2379  h_mvaOut_[0] = iBooker.book1D(histname + "All", " mvaOut for all conversions : All Ecal", 100, 0., 1.);
2380  h_mvaOut_[1] = iBooker.book1D(histname + "Barrel", " mvaOut for all conversions : Barrel Ecal", 100, 0., 1.);
2381  h_mvaOut_[2] = iBooker.book1D(histname + "Endcap", " mvaOut for all conversions : Endcap Ecal", 100, 0., 1.);
2382 
2383  histname = "EoverPtracks";
2384  h_EoverPTracks_[0][0] =
2385  iBooker.book1D(histname + "BarrelPix", " photons conversion E/p: barrel pix", eoverpBin, eoverpMin, eoverpMax);
2386  h_EoverPTracks_[0][1] =
2387  iBooker.book1D(histname + "BarrelTib", " photons conversion E/p: barrel tib", eoverpBin, eoverpMin, eoverpMax);
2388  h_EoverPTracks_[0][2] =
2389  iBooker.book1D(histname + "BarrelTob", " photons conversion E/p: barrel tob ", eoverpBin, eoverpMin, eoverpMax);
2390 
2391  h_EoverPTracks_[1][0] = iBooker.book1D(histname + "All", " photons conversion E/p: all Ecal ", 100, 0., 5.);
2392  h_EoverPTracks_[1][1] = iBooker.book1D(histname + "Barrel", " photons conversion E/p: Barrel Ecal", 100, 0., 5.);
2393  h_EoverPTracks_[1][2] = iBooker.book1D(histname + "Endcap", " photons conversion E/p: Endcap Ecal ", 100, 0., 5.);
2394  histname = "EoverP_SL";
2395  h_EoverP_SL_[0] = iBooker.book1D(histname + "All", " photons single leg conversion E/p: all Ecal ", 100, 0., 5.);
2396  h_EoverP_SL_[1] = iBooker.book1D(histname + "Barrel", " photons single leg conversion E/p: Barrel Ecal", 100, 0., 5.);
2397  h_EoverP_SL_[2] =
2398  iBooker.book1D(histname + "Endcap", " photons single leg conversion E/p: Endcap Ecal ", 100, 0., 5.);
2399 
2400  histname = "PoverEtracks";
2401  h_PoverETracks_[1][0] =
2402  iBooker.book1D(histname + "All", " photons conversion p/E: all Ecal ", povereBin, povereMin, povereMax);
2403  h_PoverETracks_[1][1] =
2404  iBooker.book1D(histname + "Barrel", " photons conversion p/E: Barrel Ecal", povereBin, povereMin, povereMax);
2405  h_PoverETracks_[1][2] =
2406  iBooker.book1D(histname + "Endcap", " photons conversion p/E: Endcap Ecal ", povereBin, povereMin, povereMax);
2407 
2408  histname = "pEoverEtrueVsEta";
2409  p_EoverEtrueVsEta_[0] =
2410  iBooker.bookProfile(histname + "All",
2411  " photons conversion with 2 (associated) reco tracks E/Etrue vs #eta: all Ecal ",
2412  etaBin2,
2413  etaMin,
2414  etaMax,
2415  100,
2416  0.,
2417  2.5,
2418  "");
2419 
2420  histname = "pEoverEtrueVsR";
2421  p_EoverEtrueVsR_[0] = iBooker.bookProfile(
2422  histname + "All", " photons conversion E/Etrue vs R: all Ecal ", rBin, rMin, rMax, 100, 0., 2.5, "");
2423 
2424  histname = "pEoverEtrueVsEta";
2425  p_EoverEtrueVsEta_[1] = iBooker.bookProfile(histname + "All2",
2426  " photons conversion 2 reco tracks E/Etrue vs #eta: all Ecal ",
2427  etaBin2,
2428  etaMin,
2429  etaMax,
2430  100,
2431  0.,
2432  2.5,
2433  "");
2434 
2435  histname = "pPoverPtrueVsEta";
2436  p_PoverPtrueVsEta_[0] = iBooker.bookProfile(
2437  histname + "All", " photons conversion P/Ptrue vs #eta: all Ecal ", etaBin2, etaMin, etaMax, 100, 0., 5., "");
2438 
2439  histname = "pEoverPVsEta";
2440  p_EoverPVsEta_[0] = iBooker.bookProfile(
2441  histname + "All", " photons conversion E/P vs #eta: all Ecal ", etaBin2, etaMin, etaMax, 100, 0., 5., "");
2442 
2443  if (!isRunCentrally_) {
2444  histname = "EoverEtrueVsEoverP";
2446  iBooker.book2D(histname + "All", " photons conversion E/Etrue vs E/P: all Ecal ", 100, 0., 5., 100, 0.5, 1.5);
2447  h2_EoverEtrueVsEoverP_[1] = iBooker.book2D(
2448  histname + "Barrel", " photons conversion E/Etrue vs E/: Barrel Ecal", 100, 0., 5., 100, 0.5, 1.5);
2449  h2_EoverEtrueVsEoverP_[2] = iBooker.book2D(
2450  histname + "Endcap", " photons conversion E/Etrue vs E/: Endcap Ecal ", 100, 0., 5., 100, 0.5, 1.5);
2451  histname = "PoverPtrueVsEoverP";
2453  iBooker.book2D(histname + "All", " photons conversion P/Ptrue vs E/P: all Ecal ", 100, 0., 5., 100, 0., 2.5);
2454  h2_PoverPtrueVsEoverP_[1] = iBooker.book2D(
2455  histname + "Barrel", " photons conversion P/Ptrue vs E/: Barrel Ecal", 100, 0., 5., 100, 0., 2.5);
2456  h2_PoverPtrueVsEoverP_[2] = iBooker.book2D(
2457  histname + "Endcap", " photons conversion P/Ptrue vs E/: Endcap Ecal ", 100, 0., 5., 100, 0., 2.5);
2458 
2459  histname = "EoverEtrueVsEta";
2460  h2_EoverEtrueVsEta_[0] =
2461  iBooker.book2D(histname + "All",
2462  " photons conversion with 2 (associated) reco tracks E/Etrue vs #eta: all Ecal ",
2463  etaBin2,
2464  etaMin,
2465  etaMax,
2466  100,
2467  0.,
2468  2.5);
2469 
2470  histname = "EoverEtrueVsEta";
2471  h2_EoverEtrueVsEta_[1] = iBooker.book2D(histname + "All2",
2472  " photons conversion 2 reco tracks E/Etrue vs #eta: all Ecal ",
2473  etaBin2,
2474  etaMin,
2475  etaMax,
2476  100,
2477  0.,
2478  2.5);
2479 
2480  histname = "EoverEtrueVsR";
2481  h2_EoverEtrueVsR_[0] =
2482  iBooker.book2D(histname + "All", " photons conversion E/Etrue vs R: all Ecal ", rBin, rMin, rMax, 100, 0., 2.5);
2483 
2484  histname = "PoverPtrueVsEta";
2485  h2_PoverPtrueVsEta_[0] = iBooker.book2D(
2486  histname + "All", " photons conversion P/Ptrue vs #eta: all Ecal ", etaBin2, etaMin, etaMax, 100, 0., 5.);
2487 
2488  histname = "EoverPVsEta";
2489  h2_EoverPVsEta_[0] = iBooker.book2D(
2490  histname + "All", " photons conversion E/P vs #eta: all Ecal ", etaBin2, etaMin, etaMax, 100, 0., 5.);
2491 
2492  histname = "EoverPVsR";
2493  h2_EoverPVsR_[0] =
2494  iBooker.book2D(histname + "All", " photons conversion E/P vs R: all Ecal ", rBin, rMin, rMax, 100, 0., 5.);
2495 
2496  histname = "etaVsRsim";
2497  h2_etaVsRsim_[0] = iBooker.book2D(histname + "All",
2498  " eta(sim) vs R (sim) for associated conversions: all Ecal ",
2499  etaBin,
2500  etaMin,
2501  etaMax,
2502  rBin,
2503  rMin,
2504  rMax);
2505  histname = "etaVsRreco";
2506  h2_etaVsRreco_[0] = iBooker.book2D(histname + "All",
2507  " eta(reco) vs R (reco) for associated conversions: all Ecal ",
2508  etaBin,
2509  etaMin,
2510  etaMax,
2511  rBin,
2512  rMin,
2513  rMax);
2514  }
2515 
2516  histname = "pEoverPVsR";
2517  p_EoverPVsR_[0] = iBooker.bookProfile(
2518  histname + "All", " photons conversion E/P vs R: all Ecal ", rBin, rMin, rMax, 100, 0., 5., "");
2519 
2520  histname = "hInvMass";
2521  h_invMass_[0][0] = iBooker.book1D(
2522  histname + "All_AllTracks", " Photons:Tracks from conversion: Pair invariant mass: all Ecal ", 100, 0., 1.5);
2523  h_invMass_[0][1] = iBooker.book1D(
2524  histname + "Barrel_AllTracks", " Photons:Tracks from conversion: Pair invariant mass: Barrel Ecal ", 100, 0., 1.5);
2525  h_invMass_[0][2] = iBooker.book1D(
2526  histname + "Endcap_AllTracks", " Photons:Tracks from conversion: Pair invariant mass: Endcap Ecal ", 100, 0., 1.5);
2527  histname = "hInvMass";
2528  h_invMass_[1][0] = iBooker.book1D(
2529  histname + "All_AssTracks", " Photons:Tracks from conversion: Pair invariant mass: all Ecal ", 100, 0., 1.5);
2530  h_invMass_[1][1] = iBooker.book1D(
2531  histname + "Barrel_AssTracks", " Photons:Tracks from conversion: Pair invariant mass: Barrel Ecal ", 100, 0., 1.5);
2532  h_invMass_[1][2] = iBooker.book1D(
2533  histname + "Endcap_AssTracks", " Photons:Tracks from conversion: Pair invariant mass: Endcap Ecal ", 100, 0., 1.5);
2534 
2535  histname = "hDPhiTracksAtVtx";
2536  h_DPhiTracksAtVtx_[1][0] = iBooker.book1D(histname + "All",
2537  " Photons:Tracks from conversions: #delta#phi Tracks at vertex: all Ecal",
2538  dPhiTracksBin,
2539  dPhiTracksMin,
2540  dPhiTracksMax);
2541  h_DPhiTracksAtVtx_[1][1] =
2542  iBooker.book1D(histname + "Barrel",
2543  " Photons:Tracks from conversions: #delta#phi Tracks at vertex: Barrel Ecal",
2544  dPhiTracksBin,
2545  dPhiTracksMin,
2546  dPhiTracksMax);
2547  h_DPhiTracksAtVtx_[1][2] =
2548  iBooker.book1D(histname + "Endcap",
2549  " Photons:Tracks from conversions: #delta#phi Tracks at vertex: Endcap Ecal",
2550  dPhiTracksBin,
2551  dPhiTracksMin,
2552  dPhiTracksMax);
2553 
2554  if (!isRunCentrally_) {
2555  histname = "hDPhiTracksAtVtxVsEta";
2556  h2_DPhiTracksAtVtxVsEta_ = iBooker.book2D(histname + "All",
2557  " Photons:Tracks from conversions: #delta#phi Tracks at vertex vs #eta",
2558  etaBin2,
2559  etaMin,
2560  etaMax,
2561  100,
2562  -0.5,
2563  0.5);
2564 
2565  histname = "hDPhiTracksAtVtxVsR";
2566  h2_DPhiTracksAtVtxVsR_ = iBooker.book2D(histname + "All",
2567  " Photons:Tracks from conversions: #delta#phi Tracks at vertex vs R",
2568  rBin,
2569  rMin,
2570  rMax,
2571  100,
2572  -0.5,
2573  0.5);
2574 
2575  histname = "hDCotTracksVsEta";
2576  h2_DCotTracksVsEta_ = iBooker.book2D(histname + "All",
2577  " Photons:Tracks from conversions: #delta cotg(#Theta) Tracks vs #eta",
2578  etaBin2,
2579  etaMin,
2580  etaMax,
2581  100,
2582  -0.2,
2583  0.2);
2584 
2585  histname = "hDCotTracksVsR";
2586  h2_DCotTracksVsR_ = iBooker.book2D(histname + "All",
2587  " Photons:Tracks from conversions: #delta cotg(#Theta) Tracks at vertex vs R",
2588  rBin,
2589  rMin,
2590  rMax,
2591  100,
2592  -0.2,
2593  0.2);
2594 
2595  histname = "h2_DPhiTracksAtEcalVsR";
2596  if (fName_ != "pfPhotonValidator" && fName_ != "oldpfPhotonValidator")
2597  h2_DPhiTracksAtEcalVsR_ = iBooker.book2D(histname + "All",
2598  " Photons:Tracks from conversions: #delta#phi at Ecal vs R : all Ecal ",
2599  rBin,
2600  rMin,
2601  rMax,
2602  dPhiTracksBin,
2603  0.,
2604  dPhiTracksMax);
2605 
2606  histname = "h2_DPhiTracksAtEcalVsEta";
2607  if (fName_ != "pfPhotonValidator" && fName_ != "oldpfPhotonValidator")
2609  iBooker.book2D(histname + "All",
2610  " Photons:Tracks from conversions: #delta#phi at Ecal vs #eta : all Ecal ",
2611  etaBin2,
2612  etaMin,
2613  etaMax,
2614  dPhiTracksBin,
2615  0.,
2616  dPhiTracksMax);
2617  }
2618 
2619  histname = "pDPhiTracksAtVtxVsEta";
2621  iBooker.bookProfile(histname + "All",
2622  " Photons:Tracks from conversions: #delta#phi Tracks at vertex vs #eta ",
2623  etaBin2,
2624  etaMin,
2625  etaMax,
2626  100,
2627  -0.5,
2628  0.5,
2629  "");
2630 
2631  histname = "pDPhiTracksAtVtxVsR";
2632  p_DPhiTracksAtVtxVsR_ = iBooker.bookProfile(histname + "All",
2633  " Photons:Tracks from conversions: #delta#phi Tracks at vertex vs R ",
2634  rBin,
2635  rMin,
2636  rMax,
2637  100,
2638  -0.5,
2639  0.5,
2640  "");
2641 
2642  histname = "hDCotTracks";
2643  h_DCotTracks_[1][0] = iBooker.book1D(histname + "All",
2644  " Photons:Tracks from conversions #delta cotg(#Theta) Tracks: all Ecal ",
2645  dCotTracksBin,
2646  dCotTracksMin,
2647  dCotTracksMax);
2648  h_DCotTracks_[1][1] = iBooker.book1D(histname + "Barrel",
2649  " Photons:Tracks from conversions #delta cotg(#Theta) Tracks: Barrel Ecal ",
2650  dCotTracksBin,
2651  dCotTracksMin,
2652  dCotTracksMax);
2653  h_DCotTracks_[1][2] = iBooker.book1D(histname + "Endcap",
2654  " Photons:Tracks from conversions #delta cotg(#Theta) Tracks: Endcap Ecal ",
2655  dCotTracksBin,
2656  dCotTracksMin,
2657  dCotTracksMax);
2658 
2659  histname = "pDCotTracksVsEta";
2660  p_DCotTracksVsEta_ = iBooker.bookProfile(histname + "All",
2661  " Photons:Tracks from conversions: #delta cotg(#Theta) Tracks vs #eta ",
2662  etaBin2,
2663  etaMin,
2664  etaMax,
2665  100,
2666  -0.2,
2667  0.2,
2668  "");
2669 
2670  histname = "pDCotTracksVsR";
2672  iBooker.bookProfile(histname + "All",
2673  " Photons:Tracks from conversions: #delta cotg(#Theta) Tracks at vertex vs R ",
2674  rBin,
2675  rMin,
2676  rMax,
2677  100,
2678  -0.2,
2679  0.2,
2680  "");
2681 
2682  histname = "hDistMinAppTracks";
2683  h_distMinAppTracks_[1][0] = iBooker.book1D(histname + "All",
2684  " Photons:Tracks from conversions Min Approach Dist Tracks: all Ecal ",
2685  dEtaTracksBin,
2686  -0.1,
2687  0.6);
2688  h_distMinAppTracks_[1][1] = iBooker.book1D(histname + "Barrel",
2689  " Photons:Tracks from conversions Min Approach Dist Tracks: Barrel Ecal ",
2690  dEtaTracksBin,
2691  -0.1,
2692  0.6);
2693  h_distMinAppTracks_[1][2] = iBooker.book1D(histname + "Endcap",
2694  " Photons:Tracks from conversions Min Approach Dist Tracks: Endcap Ecal ",
2695  dEtaTracksBin,
2696  -0.1,
2697  0.6);
2698 
2699  // if ( fName_ != "pfPhotonValidator" && fName_ != "oldpfPhotonValidator" ) {
2700  histname = "hDPhiTracksAtEcal";
2701  h_DPhiTracksAtEcal_[1][0] = iBooker.book1D(histname + "All",
2702  " Photons:Tracks from conversions: #delta#phi at Ecal : all Ecal ",
2703  dPhiTracksBin,
2704  0.,
2705  dPhiTracksMax);
2706  h_DPhiTracksAtEcal_[1][1] = iBooker.book1D(histname + "Barrel",
2707  " Photons:Tracks from conversions: #delta#phi at Ecal : Barrel Ecal ",
2708  dPhiTracksBin,
2709  0.,
2710  dPhiTracksMax);
2711  h_DPhiTracksAtEcal_[1][2] = iBooker.book1D(histname + "Endcap",
2712  " Photons:Tracks from conversions: #delta#phi at Ecal : Endcap Ecal ",
2713  dPhiTracksBin,
2714  0.,
2715  dPhiTracksMax);
2716 
2717  histname = "pDPhiTracksAtEcalVsR";
2718  p_DPhiTracksAtEcalVsR_ = iBooker.bookProfile(histname + "All",
2719  " Photons:Tracks from conversions: #delta#phi at Ecal vs R ",
2720  rBin,
2721  rMin,
2722  rMax,
2723  dPhiTracksBin,
2724  0.,
2725  dPhiTracksMax,
2726  "");
2727 
2728  histname = "pDPhiTracksAtEcalVsEta";
2729  p_DPhiTracksAtEcalVsEta_ = iBooker.bookProfile(histname + "All",
2730  " Photons:Tracks from conversions: #delta#phi at Ecal vs #eta ",
2731  etaBin2,
2732  etaMin,
2733  etaMax,
2734  dPhiTracksBin,
2735  0.,
2736  dPhiTracksMax,
2737  "");
2738 
2739  histname = "hDEtaTracksAtEcal";
2740  h_DEtaTracksAtEcal_[1][0] = iBooker.book1D(histname + "All",
2741  " Photons:Tracks from conversions: #delta#eta at Ecal : all Ecal ",
2742  dEtaTracksBin,
2743  dEtaTracksMin,
2744  dEtaTracksMax);
2745  h_DEtaTracksAtEcal_[1][1] = iBooker.book1D(histname + "Barrel",
2746  " Photons:Tracks from conversions: #delta#eta at Ecal : Barrel Ecal ",
2747  dEtaTracksBin,
2748  dEtaTracksMin,
2749  dEtaTracksMax);
2750  h_DEtaTracksAtEcal_[1][2] = iBooker.book1D(histname + "Endcap",
2751  " Photons:Tracks from conversions: #delta#eta at Ecal : Endcap Ecal ",
2752  dEtaTracksBin,
2753  dEtaTracksMin,
2754  dEtaTracksMax);
2755 
2756  // }
2757 
2758  h_convVtxRvsZ_[0] = iBooker.book2D("convVtxRvsZAll",
2759  " Photon Reco conversion vtx position",
2760  zBinForXray,
2761  zMinForXray,
2762  zMaxForXray,
2763  rBinForXray,
2764  rMinForXray,
2765  rMaxForXray);
2766  h_convVtxRvsZ_[1] = iBooker.book2D("convVtxRvsZBarrel",
2767  " Photon Reco conversion vtx position",
2768  zBinForXray,
2769  zMinForXray,
2770  zMaxForXray,
2771  rBinForXray,
2772  rMinForXray,
2773  rMaxForXray);
2774  h_convVtxRvsZ_[2] = iBooker.book2D("convVtxRvsZEndcap",
2775  " Photon Reco conversion vtx position",
2776  zBin2ForXray,
2777  zMinForXray,
2778  zMaxForXray,
2779  rBinForXray,
2780  rMinForXray,
2781  rMaxForXray);
2782  h_convVtxYvsX_ = iBooker.book2D(
2783  "convVtxYvsXTrkBarrel", " Photon Reco conversion vtx position, (x,y) eta<1 ", 100, -80., 80., 100, -80., 80.);
2784  //
2785  h_convSLVtxRvsZ_[0] = iBooker.book2D("convSLVtxRvsZAll",
2786  " Photon Reco single leg conversion innermost hit position",
2787  zBinForXray,
2788  zMinForXray,
2789  zMaxForXray,
2790  rBinForXray,
2791  rMinForXray,
2792  rMaxForXray);
2793  h_convSLVtxRvsZ_[1] = iBooker.book2D("convSLVtxRvsZBarrel",
2794  " Photon Reco single leg conversion innermost hit position",
2795  zBinForXray,
2796  zMinForXray,
2797  zMaxForXray,
2798  rBinForXray,
2799  rMinForXray,
2800  rMaxForXray);
2801  h_convSLVtxRvsZ_[2] = iBooker.book2D("convSLVtxRvsZEndcap",
2802  " Photon Reco single leg conversion innermost hit position",
2803  zBin2ForXray,
2804  zMinForXray,
2805  zMaxForXray,
2806  rBinForXray,
2807  rMinForXray,
2808  rMaxForXray);
2809 
2811  if (!isRunCentrally_) {
2812  h_convVtxRvsZ_zoom_[0] = iBooker.book2D("convVtxRvsZBarrelZoom1",
2813  " Photon Reco conversion vtx position",
2814  zBinForXray,
2815  zMinForXray,
2816  zMaxForXray,
2817  rBinForXray,
2818  -10.,
2819  40.);
2820  h_convVtxRvsZ_zoom_[1] = iBooker.book2D("convVtxRvsZBarrelZoom2",
2821  " Photon Reco conversion vtx position",
2822  zBinForXray,
2823  zMinForXray,
2824  zMaxForXray,
2825  rBinForXray,
2826  -10.,
2827  20.);
2828  h_convVtxYvsX_zoom_[0] = iBooker.book2D("convVtxYvsXTrkBarrelZoom1",
2829  " Photon Reco conversion vtx position, (x,y) eta<1 ",
2830  100,
2831  -40.,
2832  40.,
2833  100,
2834  -40.,
2835  40.);
2836  h_convVtxYvsX_zoom_[1] = iBooker.book2D("convVtxYvsXTrkBarrelZoom2",
2837  " Photon Reco conversion vtx position, (x,y) eta<1 ",
2838  100,
2839  -20.,
2840  20.,
2841  100,
2842  -20.,
2843  20.);
2844  }
2845 
2846  h_convVtxdX_ = iBooker.book1D("convVtxdX", " Photon Reco conversion vtx dX", 100, -20., 20.);
2847  h_convVtxdY_ = iBooker.book1D("convVtxdY", " Photon Reco conversion vtx dY", 100, -20., 20.);
2848  h_convVtxdZ_ = iBooker.book1D("convVtxdZ", " Photon Reco conversion vtx dZ", 100, -20., 20.);
2849  h_convVtxdR_ = iBooker.book1D("convVtxdR", " Photon Reco conversion vtx dR", 100, -20., 20.);
2850 
2852  iBooker.book1D("convVtxdX_barrel", " Photon Reco conversion vtx dX, |eta|<=1.2", 100, -20., 20.);
2854  iBooker.book1D("convVtxdY_barrel", " Photon Reco conversion vtx dY, |eta|<=1.2 ", 100, -20., 20.);
2856  iBooker.book1D("convVtxdZ_barrel", " Photon Reco conversion vtx dZ, |eta|<=1.2,", 100, -20., 20.);
2858  iBooker.book1D("convVtxdR_barrel", " Photon Reco conversion vtx dR, |eta|<=1.2", 100, -20., 20.);
2860  iBooker.book1D("convVtxdX_endcap", " Photon Reco conversion vtx dX, |eta|>1.2", 100, -20., 20.);
2862  iBooker.book1D("convVtxdY_endcap", " Photon Reco conversion vtx dY, |eta|>1.2", 100, -20., 20.);
2864  iBooker.book1D("convVtxdZ_endcap", " Photon Reco conversion vtx dZ, |eta|>1.2", 100, -20., 20.);
2866  iBooker.book1D("convVtxdR_endcap", " Photon Reco conversion vtx dR, |eta|>1.2 ", 100, -20., 20.);
2867 
2868  h_convVtxdPhi_ = iBooker.book1D("convVtxdPhi", " Photon Reco conversion vtx dPhi", 100, -0.005, 0.005);
2869  h_convVtxdEta_ = iBooker.book1D("convVtxdEta", " Photon Reco conversion vtx dEta", 100, -0.5, 0.5);
2870 
2871  if (!isRunCentrally_) {
2873  iBooker.book2D("h2ConvVtxdRVsR", "Photon Reco conversion vtx dR vsR", rBin, rMin, rMax, 100, -20., 20.);
2874  h2_convVtxdRVsEta_ = iBooker.book2D(
2875  "h2ConvVtxdRVsEta", "Photon Reco conversion vtx dR vs Eta", etaBin2, etaMin, etaMax, 100, -20., 20.);
2876  }
2877 
2878  p_convVtxdRVsR_ =
2879  iBooker.bookProfile("pConvVtxdRVsR", "Photon Reco conversion vtx dR vsR", rBin, rMin, rMax, 100, -20., 20., "");
2880  p_convVtxdRVsEta_ = iBooker.bookProfile(
2881  "pConvVtxdRVsEta", "Photon Reco conversion vtx dR vs Eta", etaBin2, etaMin, etaMax, 100, -20., 20., "");
2882  p_convVtxdXVsX_ = iBooker.bookProfile("pConvVtxdXVsX", "Conversion vtx dX vs X", 120, -60, 60, 100, -20., 20., "");
2883  p_convVtxdYVsY_ = iBooker.bookProfile("pConvVtxdYVsY", "Conversion vtx dY vs Y", 120, -60, 60, 100, -20., 20., "");
2884  p_convVtxdZVsZ_ =
2885  iBooker.bookProfile("pConvVtxdZVsZ", "Conversion vtx dZ vs Z", zBin, zMin, zMax, 100, -20., 20., "");
2886 
2887  if (!isRunCentrally_) {
2888  h2_convVtxRrecVsTrue_ = iBooker.book2D(
2889  "h2ConvVtxRrecVsTrue", "Photon Reco conversion vtx R rec vs true", rBin, rMin, rMax, rBin, rMin, rMax);
2890  }
2891 
2892  histname = "vtxChi2";
2893  h_vtxChi2_[0] = iBooker.book1D(histname + "All", "vertex #chi^{2} all", 100, chi2Min, chi2Max);
2894  h_vtxChi2_[1] = iBooker.book1D(histname + "Barrel", "vertex #chi^{2} barrel", 100, chi2Min, chi2Max);
2895  h_vtxChi2_[2] = iBooker.book1D(histname + "Endcap", "vertex #chi^{2} endcap", 100, chi2Min, chi2Max);
2896  histname = "vtxChi2Prob";
2897  h_vtxChi2Prob_[0] = iBooker.book1D(histname + "All", "vertex #chi^{2} all", 100, 0., 1.);
2898  h_vtxChi2Prob_[1] = iBooker.book1D(histname + "Barrel", "vertex #chi^{2} barrel", 100, 0., 1.);
2899  h_vtxChi2Prob_[2] = iBooker.book1D(histname + "Endcap", "vertex #chi^{2} endcap", 100, 0., 1.);
2900 
2901  histname = "zPVFromTracks";
2902  h_zPVFromTracks_[0] = iBooker.book1D(histname + "All", " Photons: PV z from conversion tracks", 100, -30., 30.);
2903  h_zPVFromTracks_[1] = iBooker.book1D(histname + "Barrel", " Photons: PV z from conversion tracks", 100, -30., 30.);
2904  h_zPVFromTracks_[2] = iBooker.book1D(histname + "Endcap", " Photons: PV z from conversion tracks", 100, -30., 30.);
2905  h_zPVFromTracks_[3] = iBooker.book1D(histname + "EndcapP", " Photons: PV z from conversion tracks", 100, -30., 30.);
2906  h_zPVFromTracks_[4] = iBooker.book1D(histname + "EndcapM", " Photons: PV z from conversion tracks", 100, -30., 30.);
2907  histname = "dzPVFromTracks";
2908  h_dzPVFromTracks_[0] =
2909  iBooker.book1D(histname + "All", " Photons: PV Z_rec - Z_true from conversion tracks", 100, -10., 10.);
2910  h_dzPVFromTracks_[1] =
2911  iBooker.book1D(histname + "Barrel", " Photons: PV Z_rec - Z_true from conversion tracks", 100, -10., 10.);
2912  h_dzPVFromTracks_[2] =
2913  iBooker.book1D(histname + "Endcap", " Photons: PV Z_rec - Z_true from conversion tracks", 100, -10., 10.);
2914  h_dzPVFromTracks_[3] =
2915  iBooker.book1D(histname + "EndcapP", " Photons: PV Z_rec - Z_true from conversion tracks", 100, -10., 10.);
2916  h_dzPVFromTracks_[4] =
2917  iBooker.book1D(histname + "EndcapM", " Photons: PV Z_rec - Z_true from conversion tracks", 100, -10., 10.);
2918  p_dzPVVsR_ =
2919  iBooker.bookProfile("pdzPVVsR", "Photon Reco conversions: dz(PV) vs R", rBin, rMin, rMax, 100, -3., 3., "");
2920  p_dzPVVsEta_ = iBooker.bookProfile(
2921  "pdzPVVsEta", "Photon Reco conversions: dz(PV) vs Eta", etaBin, etaMin, etaMax, 100, -3., 3., "");
2922 
2923  if (!isRunCentrally_) {
2924  h2_dzPVVsR_ = iBooker.book2D("h2dzPVVsR", "Photon Reco conversions: dz(PV) vs R", rBin, rMin, rMax, 100, -3., 3.);
2925  }
2926 
2928  if (!isRunCentrally_) {
2929  histname = "nHitsVsEta";
2930  nHitsVsEta_[0] = iBooker.book2D(histname + "AllTracks",
2931  "Photons:Tracks from conversions: # of hits vs #eta all tracks",
2932  etaBin,
2933  etaMin,
2934  etaMax,
2935  25,
2936  0.,
2937  25.);
2938 
2939  histname = "nHitsVsEta";
2940  nHitsVsEta_[1] = iBooker.book2D(histname + "AssTracks",
2941  "Photons:Tracks from conversions: # of hits vs #eta associated tracks",
2942  etaBin,
2943  etaMin,
2944  etaMax,
2945  25,
2946  0.,
2947  25.);
2948 
2949  histname = "nHitsVsR";
2950  nHitsVsR_[0] = iBooker.book2D(histname + "AllTracks",
2951  "Photons:Tracks from conversions: # of hits vs radius all tracks",
2952  rBin,
2953  rMin,
2954  rMax,
2955  25,
2956  0.,
2957  25);
2958 
2959  histname = "nHitsVsR";
2960  nHitsVsR_[1] = iBooker.book2D(histname + "AssTracks",
2961  "Photons:Tracks from conversions: # of hits vs radius associated tracks",
2962  rBin,
2963  rMin,
2964  rMax,
2965  25,
2966  0.,
2967  25);
2968 
2969  histname = "h2Chi2VsEta";
2970  h2_Chi2VsEta_[0] = iBooker.book2D(
2971  histname + "All", " Reco Track #chi^{2} vs #eta: All ", etaBin2, etaMin, etaMax, 100, chi2Min, chi2Max);
2972 
2973  histname = "h2Chi2VsR";
2974  h2_Chi2VsR_[0] =
2975  iBooker.book2D(histname + "All", " Reco Track #chi^{2} vs R: All ", rBin, rMin, rMax, 100, chi2Min, chi2Max);
2976  }
2977 
2978  histname = "h_nHitsVsEta";
2979  p_nHitsVsEta_[0] = iBooker.bookProfile(histname + "AllTracks",
2980  "Photons:Tracks from conversions: # of hits vs #eta all tracks",
2981  etaBin,
2982  etaMin,
2983  etaMax,
2984  25,
2985  -0.5,
2986  24.5,
2987  "");
2988 
2989  histname = "h_nHitsVsEta";
2990  p_nHitsVsEta_[1] = iBooker.bookProfile(histname + "AssTracks",
2991  "Photons:Tracks from conversions: # of hits vs #eta associated tracks",
2992  etaBin,
2993  etaMin,
2994  etaMax,
2995  25,
2996  -0.5,
2997  24.5,
2998  "");
2999 
3000  histname = "p_nHitsVsEtaSL";
3001  p_nHitsVsEtaSL_[0] = iBooker.bookProfile(histname + "AllTracks",
3002  "Photons:Tracks from single leg conversions: # of hits vs #eta all tracks",
3003  etaBin,
3004  etaMin,
3005  etaMax,
3006  25,
3007  -0.5,
3008  24.5,
3009  "");
3010 
3011  histname = "h_nHitsVsR";
3012  p_nHitsVsR_[0] = iBooker.bookProfile(histname + "AllTracks",
3013  "Photons:Tracks from conversions: # of hits vs radius all tracks",
3014  rBin,
3015  rMin,
3016  rMax,
3017  25,
3018  -0.5,
3019  24.5,
3020  "");
3021  histname = "p_nHitsVsRSL";
3022  p_nHitsVsRSL_[0] = iBooker.bookProfile(histname + "AllTracks",
3023  "Photons:Tracks from single leg conversions: # of hits vs radius all tracks",
3024  rBin,
3025  rMin,
3026  rMax,
3027  25,
3028  -0.5,
3029  24.5,
3030  "");
3031 
3032  histname = "tkChi2";
3033  h_tkChi2_[0] = iBooker.book1D(
3034  histname + "AllTracks", "Photons:Tracks from conversions: #chi^{2} of all tracks", 100, chi2Min, chi2Max);
3035  histname = "tkChi2SL";
3036  h_tkChi2SL_[0] = iBooker.book1D(histname + "AllTracks",
3037  "Photons:Tracks from single leg conversions: #chi^{2} of associated tracks",
3038  100,
3039  chi2Min,
3040  chi2Max);
3041  histname = "tkChi2Large";
3042  h_tkChi2Large_[0] = iBooker.book1D(
3043  histname + "AllTracks", "Photons:Tracks from conversions: #chi^{2} of all tracks", 1000, 0., 5000.0);
3044 
3045  histname = "h_nHitsVsR";
3046  p_nHitsVsR_[1] = iBooker.bookProfile(histname + "AssTracks",
3047  "Photons:Tracks from conversions: # of hits vs radius associated tracks",
3048  rBin,
3049  rMin,
3050  rMax,
3051  25,
3052  -0.5,
3053  24.5,
3054  "");
3055 
3056  histname = "tkChi2";
3057  h_tkChi2_[1] = iBooker.book1D(
3058  histname + "AssTracks", "Photons:Tracks from conversions: #chi^{2} of associated tracks", 100, chi2Min, chi2Max);
3059  histname = "tkChi2Large";
3060  h_tkChi2Large_[1] = iBooker.book1D(
3061  histname + "AssTracks", "Photons:Tracks from conversions: #chi^{2} of associated tracks", 1000, 0., 5000.0);
3062 
3063  histname = "pChi2VsEta";
3064  p_Chi2VsEta_[0] = iBooker.bookProfile(
3065  histname + "All", " Reco Track #chi^{2} vs #eta : All ", etaBin2, etaMin, etaMax, 100, chi2Min, chi2Max, "");
3066 
3067  histname = "pChi2VsR";
3068  p_Chi2VsR_[0] = iBooker.bookProfile(
3069  histname + "All", " Reco Track #chi^{2} vas R : All ", rBin, rMin, rMax, 100, chi2Min, chi2Max, "");
3070 
3071  histname = "hTkD0";
3072  h_TkD0_[0] = iBooker.book1D(histname + "All", " Reco Track D0*q: All ", 100, -0.1, 0.6);
3073  h_TkD0_[1] = iBooker.book1D(histname + "Barrel", " Reco Track D0*q: Barrel ", 100, -0.1, 0.6);
3074  h_TkD0_[2] = iBooker.book1D(histname + "Endcap", " Reco Track D0*q: Endcap ", 100, -0.1, 0.6);
3075 
3076  histname = "hTkPtPull";
3077  h_TkPtPull_[0] = iBooker.book1D(histname + "All", " Reco Track Pt pull: All ", 100, -10., 10.);
3078  histname = "hTkPtPull";
3079  h_TkPtPull_[1] = iBooker.book1D(histname + "Barrel", " Reco Track Pt pull: Barrel ", 100, -10., 10.);
3080  histname = "hTkPtPull";
3081  h_TkPtPull_[2] = iBooker.book1D(histname + "Endcap", " Reco Track Pt pull: Endcap ", 100, -10., 10.);
3082 
3083  histname = "pTkPtPullEta";
3084  p_TkPtPull_[0] =
3085  iBooker.bookProfile(histname + "All", " Reco Track Pt pull: All ", etaBin2, etaMin, etaMax, 100, -10., 10., " ");
3086 
3087  if (!isRunCentrally_) {
3088  histname = "h2TkPtPullEta";
3089  h2_TkPtPull_[0] =
3090  iBooker.book2D(histname + "All", " Reco Track Pt pull: All ", etaBin2, etaMin, etaMax, 100, -10., 10.);
3091 
3092  histname = "PtRecVsPtSim";
3093  h2_PtRecVsPtSim_[0] =
3094  iBooker.book2D(histname + "All", "Pt Rec vs Pt sim: All ", etBin, etMin, etMax, etBin, etMin, etMax);
3095  h2_PtRecVsPtSim_[1] =
3096  iBooker.book2D(histname + "Barrel", "Pt Rec vs Pt sim: Barrel ", etBin, etMin, etMax, etBin, etMin, etMax);
3097  h2_PtRecVsPtSim_[2] =
3098  iBooker.book2D(histname + "Endcap", "Pt Rec vs Pt sim: Endcap ", etBin, etMin, etMax, etBin, etMin, etMax);
3099  histname = "PtRecVsPtSimMixProv";
3100  h2_PtRecVsPtSimMixProv_ = iBooker.book2D(
3101  histname + "All", "Pt Rec vs Pt sim All for mix with general tracks ", etBin, etMin, etMax, etBin, etMin, etMax);
3102  }
3103 
3104  // if ( fName_ != "pfPhotonValidator" && fName_ != "oldpfPhotonValidator" ) {
3105  histname = "eBcOverTkPout";
3106  hBCEnergyOverTrackPout_[0] = iBooker.book1D(histname + "All", "Matrching BC E/P_out: all Ecal ", 100, 0., 5.);
3107  hBCEnergyOverTrackPout_[1] = iBooker.book1D(histname + "Barrel", "Matrching BC E/P_out: Barrel ", 100, 0., 5.);
3108  hBCEnergyOverTrackPout_[2] = iBooker.book1D(histname + "Endcap", "Matrching BC E/P_out: Endcap ", 100, 0., 5.);
3109  // }
3110 
3112  h_OIinnermostHitR_ = iBooker.book1D("OIinnermostHitR", " R innermost hit for OI tracks ", 50, 0., 25);
3113  h_IOinnermostHitR_ = iBooker.book1D("IOinnermostHitR", " R innermost hit for IO tracks ", 50, 0., 25);
3114 
3116  h_trkProv_[0] = iBooker.book1D("allTrkProv", " Track pair provenance ", 4, 0., 4.);
3117  h_trkProv_[1] = iBooker.book1D("assTrkProv", " Track pair provenance ", 4, 0., 4.);
3118  //
3119  h_trkAlgo_ =
3120  iBooker.book1D("allTrackAlgo", " Track Algo ", reco::TrackBase::algoSize, -0.5, reco::TrackBase::algoSize - 0.5);
3121  h_convAlgo_ = iBooker.book1D("allConvAlgo", " Conv Algo ", 5, -0.5, 4.5);
3122  h_convQuality_ = iBooker.book1D("allConvQuality", "Conv quality ", 11, -0.5, 11.);
3123 
3124  // histos for fake rate
3125  histname = "h_RecoConvTwoTracksEta";
3127  iBooker.book1D(histname, " All reco conversions with 2 reco tracks: simulated #eta", etaBin2, etaMin, etaMax);
3128  histname = "h_RecoConvTwoTracksPhi";
3130  iBooker.book1D(histname, " All reco conversions with 2 reco tracks: simulated #phi", phiBin, phiMin, phiMax);
3131  histname = "h_RecoConvTwoTracksR";
3133  iBooker.book1D(histname, " All reco conversions with 2 reco tracks: simulated R", rBin, rMin, rMax);
3134  histname = "h_RecoConvTwoTracksZ";
3136  iBooker.book1D(histname, " All reco conversions with 2 reco tracks: simulated Z", zBin, zMin, zMax);
3137  histname = "h_RecoConvTwoTracksEt";
3139  iBooker.book1D(histname, " All reco conversions with 2 reco tracks: simulated Et", etBin, etMin, etMax);
3140  //
3141  histname = "h_RecoConvTwoMTracksEta";
3143  iBooker.book1D(histname, " All reco conversions with 2 reco-ass tracks: simulated #eta", etaBin2, etaMin, etaMax);
3144  histname = "h_RecoConvTwoMTracksPhi";
3146  iBooker.book1D(histname, " All reco conversions with 2 reco-ass tracks: simulated #phi", phiBin, phiMin, phiMax);
3147  histname = "h_RecoConvTwoMTracksR";
3149  iBooker.book1D(histname, " All reco conversions with 2 reco-ass tracks: simulated R", rBin, rMin, rMax);
3150  histname = "h_RecoConvTwoMTracksZ";
3152  iBooker.book1D(histname, " All reco conversions with 2 reco-ass tracks: simulated Z", zBin, zMin, zMax);
3153  histname = "h_RecoConvTwoMTracksEt";
3155  iBooker.book1D(histname, " All reco conversions with 2 reco-ass tracks: simulated Et", etBin, etMin, etMax);
3156 }
MonitorElement * p_DCotTracksVsR_
MonitorElement * p_sigmaEoEVsEta_[3]
MonitorElement * h_convVtxdX_endcap_
MonitorElement * h_SumPtOverPhoPt_NeuHad_unCleaned_[3]
MonitorElement * h_zPVFromTracks_[5]
MonitorElement * h_hOverE_miniAOD_[3][3]
MonitorElement * h_OIinnermostHitR_
MonitorElement * h2_nTrkSolidConeDR04VsEta_[3]
MonitorElement * p_hOverEVsEtBkg_
MonitorElement * h_nSimPho_[2]
MonitorElement * p_DPhiTracksAtEcalVsR_
MonitorElement * h_scBkgPhi_
MonitorElement * h2_Chi2VsR_[3]
T getParameter(std::string const &) const
Definition: ParameterSet.h:303
MonitorElement * h_sigmaIetaIeta_[3][3]
MonitorElement * p_sceResVsR9_[3]
MonitorElement * h_DPhiTracksAtEcal_[2][3]
MonitorElement * h_scPhi_miniAOD_[2]
MonitorElement * h2_hcalTowerSumEtConeDR04VsEta_[3]
MonitorElement * h_IOinnermostHitR_
MonitorElement * h_phoBkgDPhi_
MonitorElement * p_nHitsVsEtaSL_[2]
MonitorElement * h_DPhiTracksAtVtx_[2][3]
MonitorElement * p_EoverEtrueVsEta_[3]
MonitorElement * p_EoverPVsEta_[3]
MonitorElement * h_convVtxdZ_
MonitorElement * h_dRPhoPFcand_Pho_Cleaned_[3]
MonitorElement * h_newhOverE_[3][3]
MonitorElement * h_phoBkgPhi_
MonitorElement * h_chHadIso_[3]
MonitorElement * h_phoPhi_[2]
MonitorElement * h_hcalTowerBcSumEtConeDR04_[3][3]
MonitorElement * h2_PoverPtrueVsEoverP_[3]
virtual void setCurrentFolder(std::string const &fullpath)
Definition: DQMStore.cc:36
MonitorElement * h_mvaOut_[3]
MonitorElement * h_scE_[2][3]
MonitorElement * h_nRecoVtx_
MonitorElement * h_convVtxRvsZ_zoom_[2]
MonitorElement * h2_hOverEVsEt_[3]
MonitorElement * h_hcalTowerSumEtConeDR04_miniAOD_[3][3]
MonitorElement * h_SumPtOverPhoPt_NeuHad_Cleaned_[3]
MonitorElement * p_hcalTowerSumEtConeDR04VsEt_[3]
std::string fName_
MonitorElement * p_isoTrkSolidConeDR04VsEtBkg_[3]
MonitorElement * h_DPhiTracksAtVtxBkg_[3]
MonitorElement * h2_EoverPVsR_[3]
MonitorElement * h_phoEt_[2][3]
MonitorElement * h_DEtaTracksAtEcal_[2][3]
MonitorElement * h_phoEResRegr2_[3][3]
MonitorElement * p_convVtxdYVsY_
MonitorElement * h_phoDEta_[2]
MonitorElement * h_SimJet_[3]
MonitorElement * h2_convVtxdRVsEta_
MonitorElement * h_RecoConvTwoMTracks_[5]
MonitorElement * h_convVtxdY_
MonitorElement * h_psE_
MonitorElement * h_scEtaWidth_[2]
MonitorElement * h2_hOverEVsEtaBkg_
MonitorElement * h2_DCotTracksVsEta_
MonitorElement * h2_etaVsRsim_[3]
MonitorElement * h2_PtRecVsPtSim_[3]
MonitorElement * h2_PoverPtrueVsEta_[3]
MonitorElement * h_convVtxdZ_endcap_
MonitorElement * h_scEt_[2][3]
MonitorElement * h_dzPVFromTracks_[5]
MonitorElement * p_EoverEtrueVsR_[3]
MonitorElement * h2_sigmaIetaIetaVsEtBkg_[3]
MonitorElement * h_ecalRecHitSumEtConeDR04Bkg_[3]
MonitorElement * h_simConvVtxRvsZ_[4]
MonitorElement * h2_hcalTowerSumEtConeDR04VsEt_[3]
MonitorElement * h_MatchedSimJet_[3]
MonitorElement * p_nHitsVsRSL_[2]
MonitorElement * p_r2VsEtBkg_
MonitorElement * h_dRPhoPFcand_NeuHad_Cleaned_[3]
MonitorElement * h2_isoTrkSolidConeDR04VsEtaBkg_
MonitorElement * h_SimConvTwoMTracksAndVtxPGT0005_[5]
MonitorElement * h2_r1VsEtaBkg_
MonitorElement * h2_isoTrkSolidConeDR04VsEtBkg_[3]
MonitorElement * h_TkD0_[3]
MonitorElement * h_dRPhoPFcand_ChHad_Cleaned_[3]
MonitorElement * h_chHadIso_miniAOD_[3]
MonitorElement * h_convVtxdY_endcap_
MonitorElement * h_EoverP_SL_[3]
MonitorElement * p_eResVsR9_[3]
MonitorElement * h_etOutsideMustache_[3]
MonitorElement * h2_DPhiTracksAtVtxVsEta_
MonitorElement * p_DPhiTracksAtVtxVsR_
MonitorElement * h_SumPtOverPhoPt_ChHad_Cleaned_[3]
MonitorElement * p_sigmaEoEVsEt_[3][3]
MonitorElement * h_convVtxdR_endcap_
MonitorElement * h_convSLVtxRvsZ_[3]
MonitorElement * h_phoEt_miniAOD_[2][3]
MonitorElement * p_newhOverEVsEta_[3]
MonitorElement * h2_convVtxRrecVsTrue_
MonitorElement * h2_DCotTracksVsR_
MonitorElement * h2_PtRecVsPtSimMixProv_
MonitorElement * h_SumPtOverPhoPt_ChHad_unCleaned_[3]
MonitorElement * h_convEtaBkg_
MonitorElement * h_phoE_miniAOD_[2][3]
MonitorElement * h_scPhi_[2]
MonitorElement * h2_r2VsEtaBkg_
MonitorElement * h_convVtxdPhi_
MonitorElement * h_scBkgE_[3]
MonitorElement * h_convERes_[2][3]
MonitorElement * p_Chi2VsR_[3]
MonitorElement * h_SimPho_[3]
Denominator for efficiencies.
MonitorElement * h2_r2VsEtBkg_
MonitorElement * p_r2VsEtaBkg_
MonitorElement * h_convVtxRvsZ_[3]
MonitorElement * h_nTrkSolidConeDR04_miniAOD_[3][3]
MonitorElement * h_convPhi_[2]
MonitorElement * h_nConv_[2][3]
info per conversion
MonitorElement * h2_isoTrkSolidConeDR04VsEt_[3]
MonitorElement * h_full5x5_r9_miniAOD_[3][3]
MonitorElement * h_r9_[3][3]
eBin
CAREFULL for the time being only Loos exists 1 => Tight Photon = GoodCandidate.
MonitorElement * h2_sigmaIetaIetaVsEta_[3]
MonitorElement * h_dRPhoPFcand_Pho_unCleaned_[3]
MonitorElement * p_EoverPVsR_[3]
MonitorElement * h2_sceResVsR9_[3]
MonitorElement * h_phoEta_[2]
MonitorElement * h2_Chi2VsEta_[3]
MonitorElement * h_simTkPt_
MonitorElement * h_mvaOutBkg_[3]
MonitorElement * h_trkAlgo_
MonitorElement * h2_dzPVVsR_
MonitorElement * h_scEta_[2]
MonitorElement * h_convVtxdX_barrel_
MonitorElement * h2_hOverEVsEta_[3]
MonitorElement * p_eResVsR_
MonitorElement * p_hcalTowerSumEtConeDR04VsEtBkg_[3]
MonitorElement * h_tkChi2Large_[2]
MonitorElement * h2_r1VsEt_[3]
MonitorElement * h_trkProv_[2]
MonitorElement * p_sigmaIetaIetaVsEtaBkg_
edm::ParameterSet parameters_
MonitorElement * p_convVtxdRVsEta_
MonitorElement * h_r1_[3][3]
MonitorElement * h_EoverPTracks_[2][3]
MonitorElement * h_phoSigmaEoE_miniAOD_[3][3]
MonitorElement * h_scPhiWidth_[2]
MonitorElement * h2_etaVsRreco_[3]
MonitorElement * bookProfile(TString const &name, TString const &title, int nchX, double lowX, double highX, int, double lowY, double highY, char const *option="s", FUNC onbooking=NOOP())
Definition: DQMStore.h:399
MonitorElement * h2_r1VsEta_[3]
MonitorElement * p_ecalRecHitSumEtConeDR04VsEtaBkg_
MonitorElement * h2_r2VsEta_[3]
MonitorElement * h_nHadIso_miniAOD_[3]
MonitorElement * h_isoTrkSolidConeDR04_[3][3]
MonitorElement * p_hOverEVsEt_[3]
MonitorElement * h_EtR9Less093_[3][3]
MonitorElement * h_tkChi2SL_[2]
MonitorElement * h2_eResVsEt_[3][3]
MonitorElement * h_r9VsNofTracks_[2][3]
MonitorElement * h_ecalRecHitSumEtConeDR04_[3][3]
MonitorElement * h_ecalRecHitSumEtConeDR04_miniAOD_[3][3]
MonitorElement * h_phoEResRegr1_[3][3]
MonitorElement * h2_r9VsEtBkg_
MonitorElement * p_hOverEVsEta_[3]
MonitorElement * h2_TkPtPull_[3]
MonitorElement * h_SumPtOverPhoPt_Pho_Cleaned_[3]
MonitorElement * h_MatchedSimPhoBadCh_[3]
MonitorElement * h_MatchedSimJetBadCh_[3]
MonitorElement * h_convVtxdEta_
MonitorElement * h_r2_[3][3]
MonitorElement * p_nHitsVsEta_[2]
MonitorElement * h_convVtxdY_barrel_
MonitorElement * p_sigmaIetaIetaVsEtBkg_[3]
MonitorElement * h2_EoverEtrueVsEta_[3]
MonitorElement * h_phoBkgDEta_
MonitorElement * h_phoIso_miniAOD_[3]
MonitorElement * h_simTkEta_
MonitorElement * nHitsVsEta_[2]
MonitorElement * p_nTrkSolidConeDR04VsEtaBkg_
MonitorElement * h2_sigmaIetaIetaVsEtaBkg_
MonitorElement * h_gamgamMassRegr1_[3][3]
MonitorElement * p_convVtxdXVsX_
MonitorElement * p_dzPVVsR_
MonitorElement * hBCEnergyOverTrackPout_[3]
MonitorElement * h_PoverETracksBkg_[3]
MonitorElement * h_invMass_[2][3]
MonitorElement * h2_EoverEtrueVsEoverP_[3]
MonitorElement * h_phoE_[2][3]
MonitorElement * h_simConvVtxYvsX_
MonitorElement * h_hOverE_[3][3]
MonitorElement * p_TkPtPull_[3]
MonitorElement * h_hOverEBkg_[3]
MonitorElement * h_dRPhoPFcand_NeuHad_unCleaned_[3]
MonitorElement * h_SimPhoMotherEt_[2]
MonitorElement * h2_eResVsR9_[3]
MonitorElement * nHitsVsR_[2]
MonitorElement * h_r1Bkg_[3]
MonitorElement * h_scEta_miniAOD_[2]
Histos for comparison with miniAOD content.
MonitorElement * h_convVtxdX_
MonitorElement * p_isoTrkSolidConeDR04VsEtaBkg_
MonitorElement * h2_DPhiTracksAtVtxVsR_
MonitorElement * h_convVtxYvsXBkg_
MonitorElement * h_TkPtPull_[3]
MonitorElement * h2_EoverPVsEta_[3]
MonitorElement * h_nTrkSolidConeDR04Bkg_[3]
MonitorElement * p_DCotTracksVsEta_
MonitorElement * h_convPtRes_[2][3]
MonitorElement * h2_nTrkSolidConeDR04VsEtaBkg_
MonitorElement * h_r2Bkg_[3]
MonitorElement * h_MatchedSimPho_[3]
Numerator for efficiencies.
MonitorElement * p_convVtxdRVsR_
MonitorElement * h_convVtxRvsZBkg_[2]
MonitorElement * p_Chi2VsEta_[3]
MonitorElement * h_nHadIso_[3]
MonitorElement * h2_hOverEVsEtBkg_
MonitorElement * p_sigmaEoEVsNVtx_[3][3]
MonitorElement * p_eResVsNVtx_[3][3]
MonitorElement * h_SumPtOverPhoPt_Pho_unCleaned_[3]
MonitorElement * h2_ecalRecHitSumEtConeDR04VsEtBkg_[3]
MonitorElement * h_nSimConv_[2]
MonitorElement * h_nTrkSolidConeDR04_[3][3]
MonitorElement * h_sigmaIetaIetaBkg_[3]
MonitorElement * h2_EoverEtrueVsR_[3]
MonitorElement * p_hcalTowerBcSumEtConeDR04VsEta_[3]
MonitorElement * h_SimConvTwoMTracksAndVtxPGT0_[5]
MonitorElement * h_gamgamMass_[3][3]
MonitorElement * h_distMinAppTracks_[2][3]
MonitorElement * h_nPho_
MonitorElement * p_PoverPtrueVsEta_[3]
MonitorElement * h_r9Bkg_[3]
MonitorElement * h_phoERes_[3][3]
MonitorElement * book2D(TString const &name, TString const &title, int nchX, double lowX, double highX, int nchY, double lowY, double highY, FUNC onbooking=NOOP())
Definition: DQMStore.h:212
MonitorElement * h_isoTrkSolidConeDR04Bkg_[3]
MonitorElement * h2_r9VsEtaBkg_
MonitorElement * h_convVtxYvsX_zoom_[2]
MonitorElement * h_convAlgo_
MonitorElement * h_nCluOutsideMustache_[3]
MonitorElement * h_hcalTowerSumEtConeDR04_[3][3]
MonitorElement * h2_nTrkSolidConeDR04VsEt_[3]
MonitorElement * h2_hcalTowerSumEtConeDR04VsEtBkg_[3]
MonitorElement * h_convQuality_
MonitorElement * h2_r1VsEtBkg_
MonitorElement * h_DCotTracksBkg_[3]
MonitorElement * h_phoIso_[3]
MonitorElement * p_ecalRecHitSumEtConeDR04VsEta_[3]
MonitorElement * p_r1VsEtaBkg_
MonitorElement * h_PoverETracks_[2][3]
MonitorElement * h2_ecalRecHitSumEtConeDR04VsEt_[3]
MonitorElement * h_phoPixSeedSize_[2]
MonitorElement * h_vtxChi2_[3]
MonitorElement * p_nTrkSolidConeDR04VsEtBkg_[3]
MonitorElement * p_hcalTowerBcSumEtConeDR04VsEt_[3]
MonitorElement * h_pfMva_[3]
MonitorElement * p_ecalRecHitSumEtConeDR04VsEtBkg_[3]
MonitorElement * h_hcalTowerSumEtConeDR04Bkg_[3]
MonitorElement * p_convVtxdZVsZ_
MonitorElement * p_hcalTowerSumEtConeDR04VsEta_[3]
MonitorElement * h_r1_miniAOD_[3][3]
MonitorElement * p_r1VsEtBkg_
MonitorElement * h_phoBkgEt_[3]
MonitorElement * h2_isoTrkSolidConeDR04VsEta_[3]
MonitorElement * h_SimPhoMotherEta_[2]
MonitorElement * h_EoverPTracksBkg_[3]
MonitorElement * h_convVtxdR_barrel_
MonitorElement * h_VisSimConv_[6]
MonitorElement * h_SimConvTwoMTracks_[5]
MonitorElement * h2_nTrkSolidConeDR04VsEtBkg_[3]
MonitorElement * h2_hcalTowerSumEtConeDR04VsEtaBkg_
MonitorElement * p_eResVsEt_[3][3]
MonitorElement * h_convVtxYvsX_
MonitorElement * h_phoBkgE_[3]
MonitorElement * p_hOverEVsEtaBkg_
MonitorElement * h_r2_miniAOD_[3][3]
MonitorElement * h_phoSigmaEoE_[3][3]
MonitorElement * h_RecoConvTwoTracks_[5]
MonitorElement * p_r9VsEta_[3]
MonitorElement * h_DCotTracks_[2][3]
MonitorElement * h_phoERes_miniAOD_[3][3]
MonitorElement * h2_DPhiTracksAtEcalVsR_
MonitorElement * p_eResVsEta_[3]
MonitorElement * h_newhOverE_miniAOD_[3][3]
MonitorElement * h_dRPhoPFcand_ChHad_unCleaned_[3]
MonitorElement * h_AllSimConv_[5]
MonitorElement * book1D(TString const &name, TString const &title, int const nchX, double const lowX, double const highX, FUNC onbooking=NOOP())
Definition: DQMStore.h:98
MonitorElement * h_vtxChi2Prob_[3]
MonitorElement * h_scBkgEta_
MonitorElement * p_nHitsVsR_[2]
MonitorElement * h_hcalTowerBcSumEtConeDR04_miniAOD_[3][3]
MonitorElement * h_r9_miniAOD_[3][3]
MonitorElement * h2_convVtxdRVsR_
MonitorElement * h_gamgamMassRegr2_[3][3]
MonitorElement * p_newhOverEVsEt_[3]
MonitorElement * h2_r2VsEt_[3]
MonitorElement * h_convVtxdR_
MonitorElement * h_convVtxdZ_barrel_
MonitorElement * h_SimConvOneTracks_[5]
MonitorElement * h_full5x5_sigmaIetaIeta_miniAOD_[3][3]
MonitorElement * h_convEta_[3]
MonitorElement * p_hcalTowerSumEtConeDR04VsEtaBkg_
MonitorElement * p_ecalRecHitSumEtConeDR04VsEt_[3]
MonitorElement * h_SimConvTwoTracks_[5]
MonitorElement * h2_sigmaIetaIetaVsEt_[3]
MonitorElement * h2_ecalRecHitSumEtConeDR04VsEtaBkg_
MonitorElement * h_scBkgEt_[3]
MonitorElement * h2_DPhiTracksAtEcalVsEta_
MonitorElement * h_sigmaIetaIeta_miniAOD_[3][3]
MonitorElement * h2_ecalRecHitSumEtConeDR04VsEta_[3]
MonitorElement * h_SimConvEtaPix_[2]
MonitorElement * h2_eResVsEta_[3]
MonitorElement * p_DPhiTracksAtVtxVsEta_
MonitorElement * p_DPhiTracksAtEcalVsEta_
MonitorElement * h_phoDPhi_[2]
MonitorElement * h_convPhiBkg_
MonitorElement * h_phoBkgEta_
MonitorElement * h2_r9VsEt_[3]
MonitorElement * h_tkChi2_[2]
MonitorElement * p_dzPVVsEta_
MonitorElement * h_SimConvOneMTracks_[5]
MonitorElement * h_isoTrkSolidConeDR04_miniAOD_[3][3]

◆ dqmBeginRun()

void PhotonValidator::dqmBeginRun ( edm::Run const &  r,
edm::EventSetup const &  theEventSetup 
)
overridevirtual

Reimplemented from DQMOneEDAnalyzer<>.

Definition at line 3158 of file PhotonValidator.cc.

References edm::EventSetup::getHandle(), magneticFieldToken_, theMF_, and thePhotonMCTruthFinder_.

3158  {
3159  //get magnetic field
3160  edm::LogInfo("ConvertedPhotonProducer") << " get magnetic field"
3161  << "\n";
3162  theMF_ = theEventSetup.getHandle(magneticFieldToken_);
3163 
3164  thePhotonMCTruthFinder_ = std::make_unique<PhotonMCTruthFinder>();
3165 }
const edm::ESGetToken< MagneticField, IdealMagneticFieldRecord > magneticFieldToken_
std::unique_ptr< PhotonMCTruthFinder > thePhotonMCTruthFinder_
edm::ESHandle< MagneticField > theMF_
Log< level::Info, false > LogInfo

◆ dqmEndRun()

void PhotonValidator::dqmEndRun ( edm::Run const &  r,
edm::EventSetup const &  es 
)
overridevirtual

Reimplemented from DQMOneEDAnalyzer<>.

Definition at line 3167 of file PhotonValidator.cc.

References thePhotonMCTruthFinder_.

3167 { thePhotonMCTruthFinder_.reset(); }
std::unique_ptr< PhotonMCTruthFinder > thePhotonMCTruthFinder_

◆ etaTransformation()

float PhotonValidator::etaTransformation ( float  a,
float  b 
)
private

Definition at line 5478 of file PhotonValidator.cc.

References ETA, etaBarrelEndcap, dqm-mbProfile::log, PI, R_ECAL, funct::tan(), and Z_Endcap.

Referenced by analyze().

5478  {
5479  //---Definitions
5480  const float PI = 3.1415927;
5481 
5482  //---Definitions for ECAL
5483  const float R_ECAL = 136.5;
5484  const float Z_Endcap = 328.0;
5485  const float etaBarrelEndcap = 1.479;
5486 
5487  //---ETA correction
5488 
5489  float Theta = 0.0;
5490  float ZEcal = R_ECAL * sinh(EtaParticle) + Zvertex;
5491 
5492  if (ZEcal != 0.0)
5493  Theta = atan(R_ECAL / ZEcal);
5494  if (Theta < 0.0)
5495  Theta = Theta + PI;
5496  float ETA = -log(tan(0.5 * Theta));
5497 
5498  if (fabs(ETA) > etaBarrelEndcap) {
5499  float Zend = Z_Endcap;
5500  if (EtaParticle < 0.0)
5501  Zend = -Zend;
5502  float Zlen = Zend - Zvertex;
5503  float RR = Zlen / sinh(EtaParticle);
5504  Theta = atan(RR / Zend);
5505  if (Theta < 0.0)
5506  Theta = Theta + PI;
5507  ETA = -log(tan(0.5 * Theta));
5508  }
5509  //---Return the result
5510  return ETA;
5511  //---end
5512 }
static constexpr float R_ECAL
#define ETA
Tan< T >::type tan(const T &t)
Definition: Tan.h:22
static constexpr float etaBarrelEndcap
#define PI
Definition: QcdUeDQM.h:37
static constexpr float Z_Endcap

◆ phiNormalization()

float PhotonValidator::phiNormalization ( float &  a)
private

Definition at line 5463 of file PhotonValidator.cc.

References phi, PI, and TWOPI.

Referenced by analyze().

5463  {
5464  //---Definitions
5465  const float PI = 3.1415927;
5466  const float TWOPI = 2.0 * PI;
5467 
5468  if (phi > PI) {
5469  phi = phi - TWOPI;
5470  }
5471  if (phi < -PI) {
5472  phi = phi + TWOPI;
5473  }
5474 
5475  return phi;
5476 }
#define TWOPI
#define PI
Definition: QcdUeDQM.h:37

Member Data Documentation

◆ barrelEcalHits_

edm::EDGetTokenT<EcalRecHitCollection> PhotonValidator::barrelEcalHits_
private

Definition at line 107 of file PhotonValidator.h.

Referenced by analyze().

◆ bcBarrelCollection_

edm::InputTag PhotonValidator::bcBarrelCollection_
private

Definition at line 103 of file PhotonValidator.h.

◆ bcEndcapCollection_

edm::InputTag PhotonValidator::bcEndcapCollection_
private

Definition at line 104 of file PhotonValidator.h.

◆ bcEtLow_

double PhotonValidator::bcEtLow_
private

Definition at line 141 of file PhotonValidator.h.

◆ caloGeometryToken_

const edm::ESGetToken<CaloGeometry, CaloGeometryRecord> PhotonValidator::caloGeometryToken_
private

Definition at line 125 of file PhotonValidator.h.

Referenced by analyze().

◆ conversionIOTrackPr_Token_

edm::EDGetTokenT<edm::View<reco::Track> > PhotonValidator::conversionIOTrackPr_Token_
private

Definition at line 115 of file PhotonValidator.h.

Referenced by analyze().

◆ conversionIOTrackProducer_

edm::InputTag PhotonValidator::conversionIOTrackProducer_
private

Definition at line 112 of file PhotonValidator.h.

◆ conversionOITrackPr_Token_

edm::EDGetTokenT<edm::View<reco::Track> > PhotonValidator::conversionOITrackPr_Token_
private

Definition at line 114 of file PhotonValidator.h.

Referenced by analyze().

◆ conversionOITrackProducer_

edm::InputTag PhotonValidator::conversionOITrackProducer_
private

Definition at line 111 of file PhotonValidator.h.

◆ convTrackMinPtCut_

double PhotonValidator::convTrackMinPtCut_
private

Definition at line 134 of file PhotonValidator.h.

Referenced by analyze().

◆ dCotCutOn_

bool PhotonValidator::dCotCutOn_
private

Definition at line 149 of file PhotonValidator.h.

Referenced by analyze().

◆ dCotCutValue_

double PhotonValidator::dCotCutValue_
private

Definition at line 150 of file PhotonValidator.h.

Referenced by analyze().

◆ dCotHardCutValue_

double PhotonValidator::dCotHardCutValue_
private

Definition at line 151 of file PhotonValidator.h.

Referenced by analyze().

◆ ecalEtSumCut_

double PhotonValidator::ecalEtSumCut_
private

Definition at line 147 of file PhotonValidator.h.

◆ ecalIsolRadius_

double PhotonValidator::ecalIsolRadius_
private

Definition at line 140 of file PhotonValidator.h.

◆ endcapEcalHits_

edm::EDGetTokenT<EcalRecHitCollection> PhotonValidator::endcapEcalHits_
private

Definition at line 108 of file PhotonValidator.h.

Referenced by analyze().

◆ famos_simTk_Token_

edm::EDGetTokenT<edm::SimTrackContainer> PhotonValidator::famos_simTk_Token_
private

Definition at line 119 of file PhotonValidator.h.

Referenced by analyze().

◆ famos_simVtx_Token_

edm::EDGetTokenT<edm::SimVertexContainer> PhotonValidator::famos_simVtx_Token_
private

Definition at line 120 of file PhotonValidator.h.

Referenced by analyze().

◆ fastSim_

bool PhotonValidator::fastSim_
private

Definition at line 130 of file PhotonValidator.h.

Referenced by analyze().

◆ fName_

std::string PhotonValidator::fName_
private

Definition at line 77 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ g4_simTk_Token_

edm::EDGetTokenT<edm::SimTrackContainer> PhotonValidator::g4_simTk_Token_
private

Definition at line 117 of file PhotonValidator.h.

Referenced by analyze().

◆ g4_simVtx_Token_

edm::EDGetTokenT<edm::SimVertexContainer> PhotonValidator::g4_simVtx_Token_
private

Definition at line 118 of file PhotonValidator.h.

Referenced by analyze().

◆ genjets_Token_

edm::EDGetTokenT<reco::GenJetCollection> PhotonValidator::genjets_Token_
private

Definition at line 122 of file PhotonValidator.h.

Referenced by analyze().

◆ genpartToken_

edm::EDGetTokenT<reco::GenParticleCollection> PhotonValidator::genpartToken_
private

Definition at line 105 of file PhotonValidator.h.

Referenced by analyze().

◆ h2_Chi2VsEta_

MonitorElement* PhotonValidator::h2_Chi2VsEta_[3]
private

Definition at line 498 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_Chi2VsR_

MonitorElement* PhotonValidator::h2_Chi2VsR_[3]
private

Definition at line 500 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_convVtxdRVsEta_

MonitorElement* PhotonValidator::h2_convVtxdRVsEta_
private

Definition at line 471 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_convVtxdRVsR_

MonitorElement* PhotonValidator::h2_convVtxdRVsR_
private

Definition at line 469 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_convVtxRrecVsTrue_

MonitorElement* PhotonValidator::h2_convVtxRrecVsTrue_
private

Definition at line 477 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_DCotTracksVsEta_

MonitorElement* PhotonValidator::h2_DCotTracksVsEta_
private

Definition at line 430 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_DCotTracksVsR_

MonitorElement* PhotonValidator::h2_DCotTracksVsR_
private

Definition at line 432 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_DPhiTracksAtEcalVsEta_

MonitorElement* PhotonValidator::h2_DPhiTracksAtEcalVsEta_
private

Definition at line 440 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_DPhiTracksAtEcalVsR_

MonitorElement* PhotonValidator::h2_DPhiTracksAtEcalVsR_
private

Definition at line 438 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_DPhiTracksAtVtxVsEta_

MonitorElement* PhotonValidator::h2_DPhiTracksAtVtxVsEta_
private

Definition at line 424 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_DPhiTracksAtVtxVsR_

MonitorElement* PhotonValidator::h2_DPhiTracksAtVtxVsR_
private

Definition at line 426 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_dzPVVsR_

MonitorElement* PhotonValidator::h2_dzPVVsR_
private

Definition at line 484 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_ecalRecHitSumEtConeDR04VsEt_

MonitorElement* PhotonValidator::h2_ecalRecHitSumEtConeDR04VsEt_[3]
private

Definition at line 275 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_ecalRecHitSumEtConeDR04VsEta_

MonitorElement* PhotonValidator::h2_ecalRecHitSumEtConeDR04VsEta_[3]
private

Definition at line 273 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_ecalRecHitSumEtConeDR04VsEtaBkg_

MonitorElement* PhotonValidator::h2_ecalRecHitSumEtConeDR04VsEtaBkg_
private

Definition at line 563 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_ecalRecHitSumEtConeDR04VsEtBkg_

MonitorElement* PhotonValidator::h2_ecalRecHitSumEtConeDR04VsEtBkg_[3]
private

Definition at line 565 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_EoverEtrueVsEoverP_

MonitorElement* PhotonValidator::h2_EoverEtrueVsEoverP_[3]
private

Definition at line 407 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_EoverEtrueVsEta_

MonitorElement* PhotonValidator::h2_EoverEtrueVsEta_[3]
private

Definition at line 415 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_EoverEtrueVsR_

MonitorElement* PhotonValidator::h2_EoverEtrueVsR_[3]
private

Definition at line 417 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_EoverPVsEta_

MonitorElement* PhotonValidator::h2_EoverPVsEta_[3]
private

Definition at line 410 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_EoverPVsR_

MonitorElement* PhotonValidator::h2_EoverPVsR_[3]
private

Definition at line 412 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_eResVsEt_

MonitorElement* PhotonValidator::h2_eResVsEt_[3][3]
private

Definition at line 313 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_eResVsEta_

MonitorElement* PhotonValidator::h2_eResVsEta_[3]
private

Definition at line 310 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_eResVsR9_

MonitorElement* PhotonValidator::h2_eResVsR9_[3]
private

Definition at line 320 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_etaVsRreco_

MonitorElement* PhotonValidator::h2_etaVsRreco_[3]
private

Definition at line 405 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_etaVsRsim_

MonitorElement* PhotonValidator::h2_etaVsRsim_[3]
private

Definition at line 404 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_hcalTowerSumEtConeDR04VsEt_

MonitorElement* PhotonValidator::h2_hcalTowerSumEtConeDR04VsEt_[3]
private

Definition at line 281 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_hcalTowerSumEtConeDR04VsEta_

MonitorElement* PhotonValidator::h2_hcalTowerSumEtConeDR04VsEta_[3]
private

Definition at line 279 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_hcalTowerSumEtConeDR04VsEtaBkg_

MonitorElement* PhotonValidator::h2_hcalTowerSumEtConeDR04VsEtaBkg_
private

Definition at line 569 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_hcalTowerSumEtConeDR04VsEtBkg_

MonitorElement* PhotonValidator::h2_hcalTowerSumEtConeDR04VsEtBkg_[3]
private

Definition at line 571 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_hOverEVsEt_

MonitorElement* PhotonValidator::h2_hOverEVsEt_[3]
private

Definition at line 264 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_hOverEVsEta_

MonitorElement* PhotonValidator::h2_hOverEVsEta_[3]
private

Definition at line 262 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_hOverEVsEtaBkg_

MonitorElement* PhotonValidator::h2_hOverEVsEtaBkg_
private

Definition at line 557 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_hOverEVsEtBkg_

MonitorElement* PhotonValidator::h2_hOverEVsEtBkg_
private

Definition at line 558 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_isoTrkSolidConeDR04VsEt_

MonitorElement* PhotonValidator::h2_isoTrkSolidConeDR04VsEt_[3]
private

Definition at line 291 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_isoTrkSolidConeDR04VsEta_

MonitorElement* PhotonValidator::h2_isoTrkSolidConeDR04VsEta_[3]
private

Definition at line 289 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_isoTrkSolidConeDR04VsEtaBkg_

MonitorElement* PhotonValidator::h2_isoTrkSolidConeDR04VsEtaBkg_
private

Definition at line 575 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_isoTrkSolidConeDR04VsEtBkg_

MonitorElement* PhotonValidator::h2_isoTrkSolidConeDR04VsEtBkg_[3]
private

Definition at line 577 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_nTrkSolidConeDR04VsEt_

MonitorElement* PhotonValidator::h2_nTrkSolidConeDR04VsEt_[3]
private

Definition at line 297 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_nTrkSolidConeDR04VsEta_

MonitorElement* PhotonValidator::h2_nTrkSolidConeDR04VsEta_[3]
private

Definition at line 295 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_nTrkSolidConeDR04VsEtaBkg_

MonitorElement* PhotonValidator::h2_nTrkSolidConeDR04VsEtaBkg_
private

Definition at line 581 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_nTrkSolidConeDR04VsEtBkg_

MonitorElement* PhotonValidator::h2_nTrkSolidConeDR04VsEtBkg_[3]
private

Definition at line 583 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_PoverPtrueVsEoverP_

MonitorElement* PhotonValidator::h2_PoverPtrueVsEoverP_[3]
private

Definition at line 408 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_PoverPtrueVsEta_

MonitorElement* PhotonValidator::h2_PoverPtrueVsEta_[3]
private

Definition at line 420 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_PtRecVsPtSim_

MonitorElement* PhotonValidator::h2_PtRecVsPtSim_[3]
private

Definition at line 508 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_PtRecVsPtSimMixProv_

MonitorElement* PhotonValidator::h2_PtRecVsPtSimMixProv_
private

Definition at line 509 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_r1VsEt_

MonitorElement* PhotonValidator::h2_r1VsEt_[3]
private

Definition at line 246 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_r1VsEta_

MonitorElement* PhotonValidator::h2_r1VsEta_[3]
private

Definition at line 244 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_r1VsEtaBkg_

MonitorElement* PhotonValidator::h2_r1VsEtaBkg_
private

Definition at line 541 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_r1VsEtBkg_

MonitorElement* PhotonValidator::h2_r1VsEtBkg_
private

Definition at line 542 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_r2VsEt_

MonitorElement* PhotonValidator::h2_r2VsEt_[3]
private

Definition at line 252 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_r2VsEta_

MonitorElement* PhotonValidator::h2_r2VsEta_[3]
private

Definition at line 250 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_r2VsEtaBkg_

MonitorElement* PhotonValidator::h2_r2VsEtaBkg_
private

Definition at line 546 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_r2VsEtBkg_

MonitorElement* PhotonValidator::h2_r2VsEtBkg_
private

Definition at line 547 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_r9VsEt_

MonitorElement* PhotonValidator::h2_r9VsEt_[3]
private

Definition at line 240 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_r9VsEtaBkg_

MonitorElement* PhotonValidator::h2_r9VsEtaBkg_
private

Definition at line 538 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_r9VsEtBkg_

MonitorElement* PhotonValidator::h2_r9VsEtBkg_
private

Definition at line 539 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_sceResVsR9_

MonitorElement* PhotonValidator::h2_sceResVsR9_[3]
private

Definition at line 322 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_sigmaIetaIetaVsEt_

MonitorElement* PhotonValidator::h2_sigmaIetaIetaVsEt_[3]
private

Definition at line 258 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_sigmaIetaIetaVsEta_

MonitorElement* PhotonValidator::h2_sigmaIetaIetaVsEta_[3]
private

Definition at line 256 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_sigmaIetaIetaVsEtaBkg_

MonitorElement* PhotonValidator::h2_sigmaIetaIetaVsEtaBkg_
private

Definition at line 552 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_sigmaIetaIetaVsEtBkg_

MonitorElement* PhotonValidator::h2_sigmaIetaIetaVsEtBkg_[3]
private

Definition at line 554 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h2_TkPtPull_

MonitorElement* PhotonValidator::h2_TkPtPull_[3]
private

Definition at line 506 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_AllSimConv_

MonitorElement* PhotonValidator::h_AllSimConv_[5]
private

Definition at line 193 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_chHadIso_

MonitorElement* PhotonValidator::h_chHadIso_[3]
private

Definition at line 337 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_chHadIso_miniAOD_

MonitorElement* PhotonValidator::h_chHadIso_miniAOD_[3]
private

Definition at line 383 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_convAlgo_

MonitorElement* PhotonValidator::h_convAlgo_
private

Definition at line 220 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_convERes_

MonitorElement* PhotonValidator::h_convERes_[2][3]
private

Definition at line 391 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_convEta_

MonitorElement* PhotonValidator::h_convEta_[3]
private

Definition at line 389 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_convEtaBkg_

MonitorElement* PhotonValidator::h_convEtaBkg_
private

Definition at line 586 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_convPhi_

MonitorElement* PhotonValidator::h_convPhi_[2]
private

Definition at line 390 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_convPhiBkg_

MonitorElement* PhotonValidator::h_convPhiBkg_
private

Definition at line 587 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_convPtRes_

MonitorElement* PhotonValidator::h_convPtRes_[2][3]
private

Definition at line 394 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_convQuality_

MonitorElement* PhotonValidator::h_convQuality_
private

Definition at line 221 of file PhotonValidator.h.

Referenced by bookHistograms().

◆ h_convSLVtxRvsZ_

MonitorElement* PhotonValidator::h_convSLVtxRvsZ_[3]
private

Definition at line 449 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_convVtxdEta_

MonitorElement* PhotonValidator::h_convVtxdEta_
private

Definition at line 466 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_convVtxdPhi_

MonitorElement* PhotonValidator::h_convVtxdPhi_
private

Definition at line 467 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_convVtxdR_

MonitorElement* PhotonValidator::h_convVtxdR_
private

Definition at line 454 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_convVtxdR_barrel_

MonitorElement* PhotonValidator::h_convVtxdR_barrel_
private

Definition at line 459 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_convVtxdR_endcap_

MonitorElement* PhotonValidator::h_convVtxdR_endcap_
private

Definition at line 464 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_convVtxdX_

MonitorElement* PhotonValidator::h_convVtxdX_
private

Definition at line 451 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_convVtxdX_barrel_

MonitorElement* PhotonValidator::h_convVtxdX_barrel_
private

Definition at line 456 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_convVtxdX_endcap_

MonitorElement* PhotonValidator::h_convVtxdX_endcap_
private

Definition at line 461 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_convVtxdY_

MonitorElement* PhotonValidator::h_convVtxdY_
private

Definition at line 452 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_convVtxdY_barrel_

MonitorElement* PhotonValidator::h_convVtxdY_barrel_
private

Definition at line 457 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_convVtxdY_endcap_

MonitorElement* PhotonValidator::h_convVtxdY_endcap_
private

Definition at line 462 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_convVtxdZ_

MonitorElement* PhotonValidator::h_convVtxdZ_
private

Definition at line 453 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_convVtxdZ_barrel_

MonitorElement* PhotonValidator::h_convVtxdZ_barrel_
private

Definition at line 458 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_convVtxdZ_endcap_

MonitorElement* PhotonValidator::h_convVtxdZ_endcap_
private

Definition at line 463 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_convVtxRvsZ_

MonitorElement* PhotonValidator::h_convVtxRvsZ_[3]
private

Definition at line 445 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_convVtxRvsZ_zoom_

MonitorElement* PhotonValidator::h_convVtxRvsZ_zoom_[2]
private

Definition at line 447 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_convVtxRvsZBkg_

MonitorElement* PhotonValidator::h_convVtxRvsZBkg_[2]
private

Definition at line 596 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_convVtxYvsX_

MonitorElement* PhotonValidator::h_convVtxYvsX_
private

Definition at line 446 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_convVtxYvsX_zoom_

MonitorElement* PhotonValidator::h_convVtxYvsX_zoom_[2]
private

Definition at line 448 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_convVtxYvsXBkg_

MonitorElement* PhotonValidator::h_convVtxYvsXBkg_
private

Definition at line 595 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_DCotTracks_

MonitorElement* PhotonValidator::h_DCotTracks_[2][3]
private

Definition at line 429 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_DCotTracksBkg_

MonitorElement* PhotonValidator::h_DCotTracksBkg_[3]
private

Definition at line 594 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_DEtaTracksAtEcal_

MonitorElement* PhotonValidator::h_DEtaTracksAtEcal_[2][3]
private

Definition at line 443 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_distMinAppTracks_

MonitorElement* PhotonValidator::h_distMinAppTracks_[2][3]
private

Definition at line 435 of file PhotonValidator.h.

Referenced by bookHistograms().

◆ h_DPhiTracksAtEcal_

MonitorElement* PhotonValidator::h_DPhiTracksAtEcal_[2][3]
private

Definition at line 437 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_DPhiTracksAtVtx_

MonitorElement* PhotonValidator::h_DPhiTracksAtVtx_[2][3]
private

Definition at line 423 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_DPhiTracksAtVtxBkg_

MonitorElement* PhotonValidator::h_DPhiTracksAtVtxBkg_[3]
private

Definition at line 593 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_dRPhoPFcand_ChHad_Cleaned_

MonitorElement* PhotonValidator::h_dRPhoPFcand_ChHad_Cleaned_[3]
private

Definition at line 345 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_dRPhoPFcand_ChHad_unCleaned_

MonitorElement* PhotonValidator::h_dRPhoPFcand_ChHad_unCleaned_[3]
private

Definition at line 348 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_dRPhoPFcand_NeuHad_Cleaned_

MonitorElement* PhotonValidator::h_dRPhoPFcand_NeuHad_Cleaned_[3]
private

Definition at line 346 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_dRPhoPFcand_NeuHad_unCleaned_

MonitorElement* PhotonValidator::h_dRPhoPFcand_NeuHad_unCleaned_[3]
private

Definition at line 349 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_dRPhoPFcand_Pho_Cleaned_

MonitorElement* PhotonValidator::h_dRPhoPFcand_Pho_Cleaned_[3]
private

Definition at line 347 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_dRPhoPFcand_Pho_unCleaned_

MonitorElement* PhotonValidator::h_dRPhoPFcand_Pho_unCleaned_[3]
private

Definition at line 350 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_dzPVFromTracks_

MonitorElement* PhotonValidator::h_dzPVFromTracks_[5]
private

Definition at line 483 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_ecalRecHitSumEtConeDR04_

MonitorElement* PhotonValidator::h_ecalRecHitSumEtConeDR04_[3][3]
private

Definition at line 272 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_ecalRecHitSumEtConeDR04_miniAOD_

MonitorElement* PhotonValidator::h_ecalRecHitSumEtConeDR04_miniAOD_[3][3]
private

Definition at line 370 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_ecalRecHitSumEtConeDR04Bkg_

MonitorElement* PhotonValidator::h_ecalRecHitSumEtConeDR04Bkg_[3]
private

Definition at line 562 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_EoverP_SL_

MonitorElement* PhotonValidator::h_EoverP_SL_[3]
private

Definition at line 401 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_EoverPTracks_

MonitorElement* PhotonValidator::h_EoverPTracks_[2][3]
private

Definition at line 398 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_EoverPTracksBkg_

MonitorElement* PhotonValidator::h_EoverPTracksBkg_[3]
private

Definition at line 591 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_etOutsideMustache_

MonitorElement* PhotonValidator::h_etOutsideMustache_[3]
private

Definition at line 342 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_EtR9Less093_

MonitorElement* PhotonValidator::h_EtR9Less093_[3][3]
private

Definition at line 237 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_full5x5_r9_miniAOD_

MonitorElement* PhotonValidator::h_full5x5_r9_miniAOD_[3][3]
private

Definition at line 363 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_full5x5_sigmaIetaIeta_miniAOD_

MonitorElement* PhotonValidator::h_full5x5_sigmaIetaIeta_miniAOD_[3][3]
private

Definition at line 365 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_gamgamMass_

MonitorElement* PhotonValidator::h_gamgamMass_[3][3]
private

Definition at line 301 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_gamgamMassRegr1_

MonitorElement* PhotonValidator::h_gamgamMassRegr1_[3][3]
private

Definition at line 302 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_gamgamMassRegr2_

MonitorElement* PhotonValidator::h_gamgamMassRegr2_[3][3]
private

Definition at line 303 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_hcalTowerBcSumEtConeDR04_

MonitorElement* PhotonValidator::h_hcalTowerBcSumEtConeDR04_[3][3]
private

Definition at line 284 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_hcalTowerBcSumEtConeDR04_miniAOD_

MonitorElement* PhotonValidator::h_hcalTowerBcSumEtConeDR04_miniAOD_[3][3]
private

Definition at line 372 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_hcalTowerSumEtConeDR04_

MonitorElement* PhotonValidator::h_hcalTowerSumEtConeDR04_[3][3]
private

Definition at line 278 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_hcalTowerSumEtConeDR04_miniAOD_

MonitorElement* PhotonValidator::h_hcalTowerSumEtConeDR04_miniAOD_[3][3]
private

Definition at line 371 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_hcalTowerSumEtConeDR04Bkg_

MonitorElement* PhotonValidator::h_hcalTowerSumEtConeDR04Bkg_[3]
private

Definition at line 568 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_hOverE_

MonitorElement* PhotonValidator::h_hOverE_[3][3]
private

Definition at line 261 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_hOverE_miniAOD_

MonitorElement* PhotonValidator::h_hOverE_miniAOD_[3][3]
private

Definition at line 368 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_hOverEBkg_

MonitorElement* PhotonValidator::h_hOverEBkg_[3]
private

Definition at line 536 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_invMass_

MonitorElement* PhotonValidator::h_invMass_[2][3]
private

Definition at line 396 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_IOinnermostHitR_

MonitorElement* PhotonValidator::h_IOinnermostHitR_
private

Definition at line 217 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_isoTrkSolidConeDR04_

MonitorElement* PhotonValidator::h_isoTrkSolidConeDR04_[3][3]
private

Definition at line 288 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_isoTrkSolidConeDR04_miniAOD_

MonitorElement* PhotonValidator::h_isoTrkSolidConeDR04_miniAOD_[3][3]
private

Definition at line 373 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_isoTrkSolidConeDR04Bkg_

MonitorElement* PhotonValidator::h_isoTrkSolidConeDR04Bkg_[3]
private

Definition at line 574 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_MatchedSimJet_

MonitorElement* PhotonValidator::h_MatchedSimJet_[3]
private

Definition at line 515 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_MatchedSimJetBadCh_

MonitorElement* PhotonValidator::h_MatchedSimJetBadCh_[3]
private

Definition at line 516 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_MatchedSimPho_

MonitorElement* PhotonValidator::h_MatchedSimPho_[3]
private

Numerator for efficiencies.

Definition at line 197 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_MatchedSimPhoBadCh_

MonitorElement* PhotonValidator::h_MatchedSimPhoBadCh_[3]
private

Definition at line 198 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_mvaOut_

MonitorElement* PhotonValidator::h_mvaOut_[3]
private

Definition at line 403 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_mvaOutBkg_

MonitorElement* PhotonValidator::h_mvaOutBkg_[3]
private

Definition at line 588 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_nCluOutsideMustache_

MonitorElement* PhotonValidator::h_nCluOutsideMustache_[3]
private

Definition at line 341 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_nConv_

MonitorElement* PhotonValidator::h_nConv_[2][3]
private

info per conversion

Definition at line 388 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_newhOverE_

MonitorElement* PhotonValidator::h_newhOverE_[3][3]
private

Definition at line 267 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_newhOverE_miniAOD_

MonitorElement* PhotonValidator::h_newhOverE_miniAOD_[3][3]
private

Definition at line 369 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_nHadIso_

MonitorElement* PhotonValidator::h_nHadIso_[3]
private

Definition at line 338 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_nHadIso_miniAOD_

MonitorElement* PhotonValidator::h_nHadIso_miniAOD_[3]
private

Definition at line 384 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_nPho_

MonitorElement* PhotonValidator::h_nPho_
private

Definition at line 519 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_nRecoVtx_

MonitorElement* PhotonValidator::h_nRecoVtx_
private

Definition at line 174 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_nSimConv_

MonitorElement* PhotonValidator::h_nSimConv_[2]
private

Definition at line 182 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_nSimPho_

MonitorElement* PhotonValidator::h_nSimPho_[2]
private

Definition at line 176 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_nTrkSolidConeDR04_

MonitorElement* PhotonValidator::h_nTrkSolidConeDR04_[3][3]
private

Definition at line 294 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_nTrkSolidConeDR04_miniAOD_

MonitorElement* PhotonValidator::h_nTrkSolidConeDR04_miniAOD_[3][3]
private

Definition at line 374 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_nTrkSolidConeDR04Bkg_

MonitorElement* PhotonValidator::h_nTrkSolidConeDR04Bkg_[3]
private

Definition at line 580 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_OIinnermostHitR_

MonitorElement* PhotonValidator::h_OIinnermostHitR_
private

Definition at line 216 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_pfMva_

MonitorElement* PhotonValidator::h_pfMva_[3]
private

Definition at line 343 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_phoBkgDEta_

MonitorElement* PhotonValidator::h_phoBkgDEta_
private

Definition at line 525 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_phoBkgDPhi_

MonitorElement* PhotonValidator::h_phoBkgDPhi_
private

Definition at line 526 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_phoBkgE_

MonitorElement* PhotonValidator::h_phoBkgE_[3]
private

Definition at line 527 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_phoBkgEt_

MonitorElement* PhotonValidator::h_phoBkgEt_[3]
private

Definition at line 528 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_phoBkgEta_

MonitorElement* PhotonValidator::h_phoBkgEta_
private

Definition at line 523 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_phoBkgPhi_

MonitorElement* PhotonValidator::h_phoBkgPhi_
private

Definition at line 524 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_phoDEta_

MonitorElement* PhotonValidator::h_phoDEta_[2]
private

Definition at line 223 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_phoDPhi_

MonitorElement* PhotonValidator::h_phoDPhi_[2]
private

Definition at line 224 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_phoE_

MonitorElement* PhotonValidator::h_phoE_[2][3]
private

Definition at line 305 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_phoE_miniAOD_

MonitorElement* PhotonValidator::h_phoE_miniAOD_[2][3]
private

Definition at line 376 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_phoERes_

MonitorElement* PhotonValidator::h_phoERes_[3][3]
private

Definition at line 307 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_phoERes_miniAOD_

MonitorElement* PhotonValidator::h_phoERes_miniAOD_[3][3]
private

Definition at line 378 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_phoEResRegr1_

MonitorElement* PhotonValidator::h_phoEResRegr1_[3][3]
private

Definition at line 329 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_phoEResRegr2_

MonitorElement* PhotonValidator::h_phoEResRegr2_[3][3]
private

Definition at line 330 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_phoEt_

MonitorElement* PhotonValidator::h_phoEt_[2][3]
private

Definition at line 306 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_phoEt_miniAOD_

MonitorElement* PhotonValidator::h_phoEt_miniAOD_[2][3]
private

Definition at line 377 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_phoEta_

MonitorElement* PhotonValidator::h_phoEta_[2]
private

Definition at line 325 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_phoIso_

MonitorElement* PhotonValidator::h_phoIso_[3]
private

Definition at line 339 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_phoIso_miniAOD_

MonitorElement* PhotonValidator::h_phoIso_miniAOD_[3]
private

Definition at line 385 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_phoPhi_

MonitorElement* PhotonValidator::h_phoPhi_[2]
private

Definition at line 326 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_phoPixSeedSize_

MonitorElement* PhotonValidator::h_phoPixSeedSize_[2]
private

Definition at line 333 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_phoSigmaEoE_

MonitorElement* PhotonValidator::h_phoSigmaEoE_[3][3]
private

Definition at line 308 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_phoSigmaEoE_miniAOD_

MonitorElement* PhotonValidator::h_phoSigmaEoE_miniAOD_[3][3]
private

Definition at line 379 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_PoverETracks_

MonitorElement* PhotonValidator::h_PoverETracks_[2][3]
private

Definition at line 399 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_PoverETracksBkg_

MonitorElement* PhotonValidator::h_PoverETracksBkg_[3]
private

Definition at line 592 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_psE_

MonitorElement* PhotonValidator::h_psE_
private

Definition at line 235 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_r1_

MonitorElement* PhotonValidator::h_r1_[3][3]
private

Definition at line 243 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_r1_miniAOD_

MonitorElement* PhotonValidator::h_r1_miniAOD_[3][3]
private

Definition at line 366 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_r1Bkg_

MonitorElement* PhotonValidator::h_r1Bkg_[3]
private

Definition at line 534 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_r2_

MonitorElement* PhotonValidator::h_r2_[3][3]
private

Definition at line 249 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_r2_miniAOD_

MonitorElement* PhotonValidator::h_r2_miniAOD_[3][3]
private

Definition at line 367 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_r2Bkg_

MonitorElement* PhotonValidator::h_r2Bkg_[3]
private

Definition at line 535 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_r9_

MonitorElement* PhotonValidator::h_r9_[3][3]
private

Definition at line 238 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_r9_miniAOD_

MonitorElement* PhotonValidator::h_r9_miniAOD_[3][3]
private

Definition at line 362 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_r9Bkg_

MonitorElement* PhotonValidator::h_r9Bkg_[3]
private

Definition at line 533 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_r9VsNofTracks_

MonitorElement* PhotonValidator::h_r9VsNofTracks_[2][3]
private

Definition at line 397 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_RecoConvTwoMTracks_

MonitorElement* PhotonValidator::h_RecoConvTwoMTracks_[5]
private

Definition at line 210 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_RecoConvTwoTracks_

MonitorElement* PhotonValidator::h_RecoConvTwoTracks_[5]
private

Definition at line 208 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_scBkgE_

MonitorElement* PhotonValidator::h_scBkgE_[3]
private

Definition at line 530 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_scBkgEt_

MonitorElement* PhotonValidator::h_scBkgEt_[3]
private

Definition at line 531 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_scBkgEta_

MonitorElement* PhotonValidator::h_scBkgEta_
private

Definition at line 521 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_scBkgPhi_

MonitorElement* PhotonValidator::h_scBkgPhi_
private

Definition at line 522 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_scE_

MonitorElement* PhotonValidator::h_scE_[2][3]
private

Definition at line 232 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_scEt_

MonitorElement* PhotonValidator::h_scEt_[2][3]
private

Definition at line 233 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_scEta_

MonitorElement* PhotonValidator::h_scEta_[2]
private

Definition at line 226 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_scEta_miniAOD_

MonitorElement* PhotonValidator::h_scEta_miniAOD_[2]
private

Histos for comparison with miniAOD content.

Definition at line 359 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_scEtaPhi_

MonitorElement* PhotonValidator::h_scEtaPhi_[2]
private

Definition at line 230 of file PhotonValidator.h.

◆ h_scEtaWidth_

MonitorElement* PhotonValidator::h_scEtaWidth_[2]
private

Definition at line 227 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_scPhi_

MonitorElement* PhotonValidator::h_scPhi_[2]
private

Definition at line 228 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_scPhi_miniAOD_

MonitorElement* PhotonValidator::h_scPhi_miniAOD_[2]
private

Definition at line 360 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_scPhiWidth_

MonitorElement* PhotonValidator::h_scPhiWidth_[2]
private

Definition at line 229 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_sigmaIetaIeta_

MonitorElement* PhotonValidator::h_sigmaIetaIeta_[3][3]
private

Definition at line 255 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_sigmaIetaIeta_miniAOD_

MonitorElement* PhotonValidator::h_sigmaIetaIeta_miniAOD_[3][3]
private

Definition at line 364 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_sigmaIetaIetaBkg_

MonitorElement* PhotonValidator::h_sigmaIetaIetaBkg_[3]
private

Definition at line 551 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_SimConvEtaPix_

MonitorElement* PhotonValidator::h_SimConvEtaPix_[2]
private

Definition at line 183 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_SimConvMTotal_

MonitorElement* PhotonValidator::h_SimConvMTotal_[5]
private

Definition at line 203 of file PhotonValidator.h.

◆ h_SimConvOneMTracks_

MonitorElement* PhotonValidator::h_SimConvOneMTracks_[5]
private

Definition at line 200 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_SimConvOneTracks_

MonitorElement* PhotonValidator::h_SimConvOneTracks_[5]
private

Definition at line 199 of file PhotonValidator.h.

Referenced by bookHistograms().

◆ h_SimConvTwoMTracks_

MonitorElement* PhotonValidator::h_SimConvTwoMTracks_[5]
private

Definition at line 202 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_SimConvTwoMTracksAndVtxPGT0005_

MonitorElement* PhotonValidator::h_SimConvTwoMTracksAndVtxPGT0005_[5]
private

Definition at line 205 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_SimConvTwoMTracksAndVtxPGT01_

MonitorElement* PhotonValidator::h_SimConvTwoMTracksAndVtxPGT01_[5]
private

Definition at line 206 of file PhotonValidator.h.

◆ h_SimConvTwoMTracksAndVtxPGT0_

MonitorElement* PhotonValidator::h_SimConvTwoMTracksAndVtxPGT0_[5]
private

Definition at line 204 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_SimConvTwoTracks_

MonitorElement* PhotonValidator::h_SimConvTwoTracks_[5]
private

Definition at line 201 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_simConvVtxRvsZ_

MonitorElement* PhotonValidator::h_simConvVtxRvsZ_[4]
private

Definition at line 188 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_simConvVtxYvsX_

MonitorElement* PhotonValidator::h_simConvVtxYvsX_
private

Definition at line 189 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_SimJet_

MonitorElement* PhotonValidator::h_SimJet_[3]
private

Definition at line 514 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_SimPho_

MonitorElement* PhotonValidator::h_SimPho_[3]
private

Denominator for efficiencies.

Definition at line 192 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_SimPhoEtaSmallR9_

MonitorElement* PhotonValidator::h_SimPhoEtaSmallR9_
private

Definition at line 180 of file PhotonValidator.h.

◆ h_SimPhoMotherEt_

MonitorElement* PhotonValidator::h_SimPhoMotherEt_[2]
private

Definition at line 178 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_SimPhoMotherEta_

MonitorElement* PhotonValidator::h_SimPhoMotherEta_[2]
private

Definition at line 179 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_SimPhoMotherType_

MonitorElement* PhotonValidator::h_SimPhoMotherType_[2]
private

Definition at line 177 of file PhotonValidator.h.

◆ h_simTkEta_

MonitorElement* PhotonValidator::h_simTkEta_
private

Definition at line 186 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_simTkPt_

MonitorElement* PhotonValidator::h_simTkPt_
private

Definition at line 185 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_SumPtOverPhoPt_ChHad_Cleaned_

MonitorElement* PhotonValidator::h_SumPtOverPhoPt_ChHad_Cleaned_[3]
private

Definition at line 351 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_SumPtOverPhoPt_ChHad_unCleaned_

MonitorElement* PhotonValidator::h_SumPtOverPhoPt_ChHad_unCleaned_[3]
private

Definition at line 354 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_SumPtOverPhoPt_NeuHad_Cleaned_

MonitorElement* PhotonValidator::h_SumPtOverPhoPt_NeuHad_Cleaned_[3]
private

Definition at line 352 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_SumPtOverPhoPt_NeuHad_unCleaned_

MonitorElement* PhotonValidator::h_SumPtOverPhoPt_NeuHad_unCleaned_[3]
private

Definition at line 355 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_SumPtOverPhoPt_Pho_Cleaned_

MonitorElement* PhotonValidator::h_SumPtOverPhoPt_Pho_Cleaned_[3]
private

Definition at line 353 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_SumPtOverPhoPt_Pho_unCleaned_

MonitorElement* PhotonValidator::h_SumPtOverPhoPt_Pho_unCleaned_[3]
private

Definition at line 356 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_tkChi2_

MonitorElement* PhotonValidator::h_tkChi2_[2]
private

Definition at line 495 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_tkChi2Bkg_

MonitorElement* PhotonValidator::h_tkChi2Bkg_
private

Definition at line 590 of file PhotonValidator.h.

◆ h_tkChi2Large_

MonitorElement* PhotonValidator::h_tkChi2Large_[2]
private

Definition at line 497 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_tkChi2SL_

MonitorElement* PhotonValidator::h_tkChi2SL_[2]
private

Definition at line 496 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_TkD0_

MonitorElement* PhotonValidator::h_TkD0_[3]
private

Definition at line 503 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_TkPtPull_

MonitorElement* PhotonValidator::h_TkPtPull_[3]
private

Definition at line 505 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_trkAlgo_

MonitorElement* PhotonValidator::h_trkAlgo_
private

Definition at line 219 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_trkProv_

MonitorElement* PhotonValidator::h_trkProv_[2]
private

Definition at line 218 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_VisSimConv_

MonitorElement* PhotonValidator::h_VisSimConv_[6]
private

Definition at line 194 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_VisSimConvLarge_

MonitorElement* PhotonValidator::h_VisSimConvLarge_
private

Definition at line 195 of file PhotonValidator.h.

◆ h_vtxChi2_

MonitorElement* PhotonValidator::h_vtxChi2_[3]
private

Definition at line 479 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_vtxChi2Prob_

MonitorElement* PhotonValidator::h_vtxChi2Prob_[3]
private

Definition at line 480 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ h_zPVFromTracks_

MonitorElement* PhotonValidator::h_zPVFromTracks_[5]
private

Definition at line 482 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ hBCEnergyOverTrackPout_

MonitorElement* PhotonValidator::hBCEnergyOverTrackPout_[3]
private

Definition at line 511 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ hcalEtSumCut_

double PhotonValidator::hcalEtSumCut_
private

Definition at line 148 of file PhotonValidator.h.

◆ hcalHitEtLow_

double PhotonValidator::hcalHitEtLow_
private

Definition at line 144 of file PhotonValidator.h.

◆ hcalIsolExtRadius_

double PhotonValidator::hcalIsolExtRadius_
private

Definition at line 142 of file PhotonValidator.h.

◆ hcalIsolInnRadius_

double PhotonValidator::hcalIsolInnRadius_
private

Definition at line 143 of file PhotonValidator.h.

◆ hepMC_Token_

edm::EDGetTokenT<edm::HepMCProduct> PhotonValidator::hepMC_Token_
private

Definition at line 121 of file PhotonValidator.h.

Referenced by analyze().

◆ isRunCentrally_

bool PhotonValidator::isRunCentrally_
private

Definition at line 131 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ likelihoodCut_

double PhotonValidator::likelihoodCut_
private

Definition at line 135 of file PhotonValidator.h.

Referenced by analyze().

◆ lip_

double PhotonValidator::lip_
private

Definition at line 139 of file PhotonValidator.h.

◆ magneticFieldToken_

const edm::ESGetToken<MagneticField, IdealMagneticFieldRecord> PhotonValidator::magneticFieldToken_
private

Definition at line 124 of file PhotonValidator.h.

Referenced by dqmBeginRun().

◆ mcConvEta_

double PhotonValidator::mcConvEta_
private

Definition at line 161 of file PhotonValidator.h.

Referenced by analyze().

◆ mcConvPhi_

double PhotonValidator::mcConvPhi_
private

Definition at line 160 of file PhotonValidator.h.

Referenced by analyze().

◆ mcConvR_

double PhotonValidator::mcConvR_
private

Definition at line 156 of file PhotonValidator.h.

Referenced by analyze().

◆ mcConvX_

double PhotonValidator::mcConvX_
private

Definition at line 159 of file PhotonValidator.h.

Referenced by analyze().

◆ mcConvY_

double PhotonValidator::mcConvY_
private

Definition at line 158 of file PhotonValidator.h.

Referenced by analyze().

◆ mcConvZ_

double PhotonValidator::mcConvZ_
private

Definition at line 157 of file PhotonValidator.h.

Referenced by analyze().

◆ mcEta_

double PhotonValidator::mcEta_
private

Definition at line 155 of file PhotonValidator.h.

Referenced by analyze().

◆ mcJetEta_

double PhotonValidator::mcJetEta_
private

Definition at line 162 of file PhotonValidator.h.

Referenced by analyze().

◆ mcJetPhi_

double PhotonValidator::mcJetPhi_
private

Definition at line 163 of file PhotonValidator.h.

Referenced by analyze().

◆ mcPhi_

double PhotonValidator::mcPhi_
private

global variable for the MC photon

Definition at line 154 of file PhotonValidator.h.

Referenced by analyze().

◆ minPhoEtCut_

double PhotonValidator::minPhoEtCut_
private

Definition at line 133 of file PhotonValidator.h.

Referenced by analyze().

◆ nEntry_

int PhotonValidator::nEntry_
private

Definition at line 82 of file PhotonValidator.h.

◆ nEvt_

int PhotonValidator::nEvt_
private

Definition at line 81 of file PhotonValidator.h.

Referenced by analyze().

◆ nHitsVsEta_

MonitorElement* PhotonValidator::nHitsVsEta_[2]
private

Definition at line 491 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ nHitsVsEtaBkg_

MonitorElement* PhotonValidator::nHitsVsEtaBkg_
private

Definition at line 589 of file PhotonValidator.h.

◆ nHitsVsR_

MonitorElement* PhotonValidator::nHitsVsR_[2]
private

Definition at line 494 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ nInvalidPCA_

int PhotonValidator::nInvalidPCA_
private

Definition at line 90 of file PhotonValidator.h.

◆ nMatched_

int PhotonValidator::nMatched_
private

Definition at line 85 of file PhotonValidator.h.

◆ nRecConv_

int PhotonValidator::nRecConv_
private

Definition at line 86 of file PhotonValidator.h.

Referenced by analyze().

◆ nRecConvAss_

int PhotonValidator::nRecConvAss_
private

Definition at line 87 of file PhotonValidator.h.

Referenced by analyze().

◆ nRecConvAssWithEcal_

int PhotonValidator::nRecConvAssWithEcal_
private

Definition at line 88 of file PhotonValidator.h.

Referenced by analyze().

◆ nSimConv_

int PhotonValidator::nSimConv_[2]
private

Definition at line 84 of file PhotonValidator.h.

Referenced by analyze().

◆ nSimPho_

int PhotonValidator::nSimPho_[2]
private

Definition at line 83 of file PhotonValidator.h.

Referenced by analyze().

◆ numOfTracksInCone_

int PhotonValidator::numOfTracksInCone_
private

Definition at line 145 of file PhotonValidator.h.

◆ offline_pvToken_

edm::EDGetTokenT<reco::VertexCollection> PhotonValidator::offline_pvToken_
private

Definition at line 102 of file PhotonValidator.h.

Referenced by analyze().

◆ p_Chi2VsEta_

MonitorElement* PhotonValidator::p_Chi2VsEta_[3]
private

Definition at line 499 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_Chi2VsR_

MonitorElement* PhotonValidator::p_Chi2VsR_[3]
private

Definition at line 501 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_convVtxdRVsEta_

MonitorElement* PhotonValidator::p_convVtxdRVsEta_
private

Definition at line 472 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_convVtxdRVsR_

MonitorElement* PhotonValidator::p_convVtxdRVsR_
private

Definition at line 470 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_convVtxdXVsX_

MonitorElement* PhotonValidator::p_convVtxdXVsX_
private

Definition at line 473 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_convVtxdYVsY_

MonitorElement* PhotonValidator::p_convVtxdYVsY_
private

Definition at line 474 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_convVtxdZVsZ_

MonitorElement* PhotonValidator::p_convVtxdZVsZ_
private

Definition at line 475 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_DCotTracksVsEta_

MonitorElement* PhotonValidator::p_DCotTracksVsEta_
private

Definition at line 431 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_DCotTracksVsR_

MonitorElement* PhotonValidator::p_DCotTracksVsR_
private

Definition at line 433 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_DPhiTracksAtEcalVsEta_

MonitorElement* PhotonValidator::p_DPhiTracksAtEcalVsEta_
private

Definition at line 441 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_DPhiTracksAtEcalVsR_

MonitorElement* PhotonValidator::p_DPhiTracksAtEcalVsR_
private

Definition at line 439 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_DPhiTracksAtVtxVsEta_

MonitorElement* PhotonValidator::p_DPhiTracksAtVtxVsEta_
private

Definition at line 425 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_DPhiTracksAtVtxVsR_

MonitorElement* PhotonValidator::p_DPhiTracksAtVtxVsR_
private

Definition at line 427 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_dzPVVsEta_

MonitorElement* PhotonValidator::p_dzPVVsEta_
private

Definition at line 486 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_dzPVVsR_

MonitorElement* PhotonValidator::p_dzPVVsR_
private

Definition at line 485 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_ecalRecHitSumEtConeDR04VsEt_

MonitorElement* PhotonValidator::p_ecalRecHitSumEtConeDR04VsEt_[3]
private

Definition at line 276 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_ecalRecHitSumEtConeDR04VsEta_

MonitorElement* PhotonValidator::p_ecalRecHitSumEtConeDR04VsEta_[3]
private

Definition at line 274 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_ecalRecHitSumEtConeDR04VsEtaBkg_

MonitorElement* PhotonValidator::p_ecalRecHitSumEtConeDR04VsEtaBkg_
private

Definition at line 564 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_ecalRecHitSumEtConeDR04VsEtBkg_

MonitorElement* PhotonValidator::p_ecalRecHitSumEtConeDR04VsEtBkg_[3]
private

Definition at line 566 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_EoverEtrueVsEta_

MonitorElement* PhotonValidator::p_EoverEtrueVsEta_[3]
private

Definition at line 416 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_EoverEtrueVsR_

MonitorElement* PhotonValidator::p_EoverEtrueVsR_[3]
private

Definition at line 418 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_EoverPVsEta_

MonitorElement* PhotonValidator::p_EoverPVsEta_[3]
private

Definition at line 411 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_EoverPVsR_

MonitorElement* PhotonValidator::p_EoverPVsR_[3]
private

Definition at line 413 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_eResVsEt_

MonitorElement* PhotonValidator::p_eResVsEt_[3][3]
private

Definition at line 314 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_eResVsEta_

MonitorElement* PhotonValidator::p_eResVsEta_[3]
private

Definition at line 311 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_eResVsNVtx_

MonitorElement* PhotonValidator::p_eResVsNVtx_[3][3]
private

Definition at line 315 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_eResVsR9_

MonitorElement* PhotonValidator::p_eResVsR9_[3]
private

Definition at line 321 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_eResVsR_

MonitorElement* PhotonValidator::p_eResVsR_
private

Definition at line 392 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_hcalTowerBcSumEtConeDR04VsEt_

MonitorElement* PhotonValidator::p_hcalTowerBcSumEtConeDR04VsEt_[3]
private

Definition at line 286 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_hcalTowerBcSumEtConeDR04VsEta_

MonitorElement* PhotonValidator::p_hcalTowerBcSumEtConeDR04VsEta_[3]
private

Definition at line 285 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_hcalTowerSumEtConeDR04VsEt_

MonitorElement* PhotonValidator::p_hcalTowerSumEtConeDR04VsEt_[3]
private

Definition at line 282 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_hcalTowerSumEtConeDR04VsEta_

MonitorElement* PhotonValidator::p_hcalTowerSumEtConeDR04VsEta_[3]
private

Definition at line 280 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_hcalTowerSumEtConeDR04VsEtaBkg_

MonitorElement* PhotonValidator::p_hcalTowerSumEtConeDR04VsEtaBkg_
private

Definition at line 570 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_hcalTowerSumEtConeDR04VsEtBkg_

MonitorElement* PhotonValidator::p_hcalTowerSumEtConeDR04VsEtBkg_[3]
private

Definition at line 572 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_hOverEVsEt_

MonitorElement* PhotonValidator::p_hOverEVsEt_[3]
private

Definition at line 265 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_hOverEVsEta_

MonitorElement* PhotonValidator::p_hOverEVsEta_[3]
private

Definition at line 263 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_hOverEVsEtaBkg_

MonitorElement* PhotonValidator::p_hOverEVsEtaBkg_
private

Definition at line 559 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_hOverEVsEtBkg_

MonitorElement* PhotonValidator::p_hOverEVsEtBkg_
private

Definition at line 560 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_isoTrkSolidConeDR04VsEt_

MonitorElement* PhotonValidator::p_isoTrkSolidConeDR04VsEt_[3]
private

Definition at line 292 of file PhotonValidator.h.

◆ p_isoTrkSolidConeDR04VsEta_

MonitorElement* PhotonValidator::p_isoTrkSolidConeDR04VsEta_[3]
private

Definition at line 290 of file PhotonValidator.h.

◆ p_isoTrkSolidConeDR04VsEtaBkg_

MonitorElement* PhotonValidator::p_isoTrkSolidConeDR04VsEtaBkg_
private

Definition at line 576 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_isoTrkSolidConeDR04VsEtBkg_

MonitorElement* PhotonValidator::p_isoTrkSolidConeDR04VsEtBkg_[3]
private

Definition at line 578 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_newhOverEVsEt_

MonitorElement* PhotonValidator::p_newhOverEVsEt_[3]
private

Definition at line 269 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_newhOverEVsEta_

MonitorElement* PhotonValidator::p_newhOverEVsEta_[3]
private

Definition at line 268 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_nHitsVsEta_

MonitorElement* PhotonValidator::p_nHitsVsEta_[2]
private

Definition at line 489 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_nHitsVsEtaSL_

MonitorElement* PhotonValidator::p_nHitsVsEtaSL_[2]
private

Definition at line 490 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_nHitsVsR_

MonitorElement* PhotonValidator::p_nHitsVsR_[2]
private

Definition at line 492 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_nHitsVsRSL_

MonitorElement* PhotonValidator::p_nHitsVsRSL_[2]
private

Definition at line 493 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_nTrkSolidConeDR04VsEt_

MonitorElement* PhotonValidator::p_nTrkSolidConeDR04VsEt_[3]
private

Definition at line 298 of file PhotonValidator.h.

◆ p_nTrkSolidConeDR04VsEta_

MonitorElement* PhotonValidator::p_nTrkSolidConeDR04VsEta_[3]
private

Definition at line 296 of file PhotonValidator.h.

◆ p_nTrkSolidConeDR04VsEtaBkg_

MonitorElement* PhotonValidator::p_nTrkSolidConeDR04VsEtaBkg_
private

Definition at line 582 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_nTrkSolidConeDR04VsEtBkg_

MonitorElement* PhotonValidator::p_nTrkSolidConeDR04VsEtBkg_[3]
private

Definition at line 584 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_PoverPtrueVsEta_

MonitorElement* PhotonValidator::p_PoverPtrueVsEta_[3]
private

Definition at line 421 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_r1VsEt_

MonitorElement* PhotonValidator::p_r1VsEt_[3]
private

Definition at line 247 of file PhotonValidator.h.

◆ p_r1VsEta_

MonitorElement* PhotonValidator::p_r1VsEta_[3]
private

Definition at line 245 of file PhotonValidator.h.

◆ p_r1VsEtaBkg_

MonitorElement* PhotonValidator::p_r1VsEtaBkg_
private

Definition at line 543 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_r1VsEtBkg_

MonitorElement* PhotonValidator::p_r1VsEtBkg_
private

Definition at line 544 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_r2VsEt_

MonitorElement* PhotonValidator::p_r2VsEt_[3]
private

Definition at line 253 of file PhotonValidator.h.

◆ p_r2VsEta_

MonitorElement* PhotonValidator::p_r2VsEta_[3]
private

Definition at line 251 of file PhotonValidator.h.

◆ p_r2VsEtaBkg_

MonitorElement* PhotonValidator::p_r2VsEtaBkg_
private

Definition at line 548 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_r2VsEtBkg_

MonitorElement* PhotonValidator::p_r2VsEtBkg_
private

Definition at line 549 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_r9VsEt_

MonitorElement* PhotonValidator::p_r9VsEt_[3]
private

Definition at line 241 of file PhotonValidator.h.

◆ p_r9VsEta_

MonitorElement* PhotonValidator::p_r9VsEta_[3]
private

Definition at line 239 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_sceResVsR9_

MonitorElement* PhotonValidator::p_sceResVsR9_[3]
private

Definition at line 323 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_sigmaEoEVsEt_

MonitorElement* PhotonValidator::p_sigmaEoEVsEt_[3][3]
private

Definition at line 317 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_sigmaEoEVsEta_

MonitorElement* PhotonValidator::p_sigmaEoEVsEta_[3]
private

Definition at line 312 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_sigmaEoEVsNVtx_

MonitorElement* PhotonValidator::p_sigmaEoEVsNVtx_[3][3]
private

Definition at line 318 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_sigmaIetaIetaVsEt_

MonitorElement* PhotonValidator::p_sigmaIetaIetaVsEt_[3]
private

Definition at line 259 of file PhotonValidator.h.

◆ p_sigmaIetaIetaVsEta_

MonitorElement* PhotonValidator::p_sigmaIetaIetaVsEta_[3]
private

Definition at line 257 of file PhotonValidator.h.

◆ p_sigmaIetaIetaVsEtaBkg_

MonitorElement* PhotonValidator::p_sigmaIetaIetaVsEtaBkg_
private

Definition at line 553 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_sigmaIetaIetaVsEtBkg_

MonitorElement* PhotonValidator::p_sigmaIetaIetaVsEtBkg_[3]
private

Definition at line 555 of file PhotonValidator.h.

Referenced by analyze(), and bookHistograms().

◆ p_TkPtPull_

MonitorElement* PhotonValidator::p_TkPtPull_[3]
private

Definition at line 507 of file PhotonValidator.h.

Referenced by bookHistograms().

◆ parameters_

edm::ParameterSet PhotonValidator::parameters_
private

◆ particleBasedIso_token

edm::EDGetTokenT<edm::ValueMap<std::vector<reco::PFCandidateRef> > > PhotonValidator::particleBasedIso_token
private

Definition at line 101 of file PhotonValidator.h.

Referenced by analyze().

◆ pfCandidates_

edm::EDGetTokenT<reco::PFCandidateCollection> PhotonValidator::pfCandidates_
private

Definition at line 99 of file PhotonValidator.h.

Referenced by analyze().

◆ photonCollection_

std::string PhotonValidator::photonCollection_
private

Definition at line 97 of file PhotonValidator.h.

◆ photonCollectionProducer_

std::string PhotonValidator::photonCollectionProducer_
private

Definition at line 96 of file PhotonValidator.h.

◆ photonCollectionToken_

edm::EDGetTokenT<reco::PhotonCollection> PhotonValidator::photonCollectionToken_
private

Definition at line 98 of file PhotonValidator.h.

Referenced by analyze().

◆ recMaxPt_

double PhotonValidator::recMaxPt_
private

Definition at line 173 of file PhotonValidator.h.

◆ recMinPt_

double PhotonValidator::recMinPt_
private

Global variables for reco Photon.

Definition at line 172 of file PhotonValidator.h.

◆ simMaxPt_

double PhotonValidator::simMaxPt_
private

Definition at line 169 of file PhotonValidator.h.

◆ simMinPt_

double PhotonValidator::simMinPt_
private

Definition at line 168 of file PhotonValidator.h.

◆ th1f_SimConvMTotal_

TH1F* PhotonValidator::th1f_SimConvMTotal_[5]
private

Definition at line 213 of file PhotonValidator.h.

◆ theCaloGeom_

edm::ESHandle<CaloGeometry> PhotonValidator::theCaloGeom_
private

Definition at line 93 of file PhotonValidator.h.

Referenced by analyze().

◆ theCaloTopo_

edm::ESHandle<CaloTopology> PhotonValidator::theCaloTopo_
private

Definition at line 94 of file PhotonValidator.h.

◆ theConvTP_

edm::RefVector<TrackingParticleCollection> PhotonValidator::theConvTP_
private

Definition at line 165 of file PhotonValidator.h.

Referenced by analyze().

◆ theMF_

edm::ESHandle<MagneticField> PhotonValidator::theMF_
private

Definition at line 78 of file PhotonValidator.h.

Referenced by dqmBeginRun().

◆ thePhotonMCTruthFinder_

std::unique_ptr<PhotonMCTruthFinder> PhotonValidator::thePhotonMCTruthFinder_
private

Definition at line 128 of file PhotonValidator.h.

Referenced by analyze(), dqmBeginRun(), and dqmEndRun().

◆ token_tp_

edm::EDGetTokenT<TrackingParticleCollection> PhotonValidator::token_tp_
private

Definition at line 109 of file PhotonValidator.h.

Referenced by analyze().

◆ transientTrackBuilderToken_

const edm::ESGetToken<TransientTrackBuilder, TransientTrackRecord> PhotonValidator::transientTrackBuilderToken_
private

Definition at line 126 of file PhotonValidator.h.

Referenced by analyze().

◆ trkIsolExtRadius_

double PhotonValidator::trkIsolExtRadius_
private

Definition at line 136 of file PhotonValidator.h.

◆ trkIsolInnRadius_

double PhotonValidator::trkIsolInnRadius_
private

Definition at line 137 of file PhotonValidator.h.

◆ trkPtLow_

double PhotonValidator::trkPtLow_
private

Definition at line 138 of file PhotonValidator.h.

◆ trkPtSumCut_

double PhotonValidator::trkPtSumCut_
private

Definition at line 146 of file PhotonValidator.h.

◆ valueMapPhoPFCandIso_

std::string PhotonValidator::valueMapPhoPFCandIso_
private

Definition at line 100 of file PhotonValidator.h.

◆ verbosity_

int PhotonValidator::verbosity_
private

Definition at line 80 of file PhotonValidator.h.