#include <GammaJetAnalysis.h>

Inheritance diagram for GammaJetAnalysis:

Classes
struct	PFJetCorretPairComp

struct	PhotonPairComp

Public Member Functions
	GammaJetAnalysis (const edm::ParameterSet &)

float	pfEcalIso (const reco::Photon *localPho1, edm::Handle< reco::PFCandidateCollection > pfHandle, float dRmax, float dRVetoBarrel, float dRVetoEndcap, float etaStripBarrel, float etaStripEndcap, float energyBarrel, float energyEndcap, reco::PFCandidate::ParticleType pfToUse)

float	pfHcalIso (const reco::Photon *localPho, edm::Handle< reco::PFCandidateCollection > pfHandle, float dRmax, float dRveto, reco::PFCandidate::ParticleType pfToUse)

std::vector< float >	pfTkIsoWithVertex (const reco::Photon *localPho1, edm::Handle< reco::PFCandidateCollection > pfHandle, edm::Handle< reco::VertexCollection > vtxHandle, float dRmax, float dRvetoBarrel, float dRvetoEndcap, float ptMin, float dzMax, float dxyMax, reco::PFCandidate::ParticleType pfToUse)

	~GammaJetAnalysis ()

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

	EDAnalyzer ()

ModuleDescription const &	moduleDescription () const

std::string	workerType () const

virtual	~EDAnalyzer ()

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

	EDConsumerBase ()

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

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

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

std::vector < ProductHolderIndexAndSkipBit > const &	itemsToGetFromEvent () const

void	labelsForToken (EDGetToken iToken, Labels &oLabels) const

void	modulesDependentUpon (std::string const &iProcessName, std::string const &iModuleLabel, bool iPrint, std::vector< char const * > &oModuleLabels) const

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

bool	registeredToConsume (ProductHolderIndex, bool, BranchType) const

bool	registeredToConsumeMany (TypeID const &, BranchType) const

void	updateLookup (BranchType iBranchType, ProductHolderIndexHelper const &)

virtual	~EDConsumerBase ()

Private Member Functions
virtual void	analyze (const edm::Event &, const edm::EventSetup &)

virtual void	beginJob ()

void	beginRun (const edm::Run &, const edm::EventSetup &)

template<class JetPair_type >
float	calc_dPhi (const PhotonPair &pho, const JetPair_type &jet)

void	clear_leadingPfJetVars ()

void	copy_leadingPfJetVars_to_pfJet2 ()

double	deltaR (const reco::Jet j1, const reco::Jet j2)

double	deltaR (const double eta1, const double phi1, const double eta2, const double phi2)

template<class Jet_type >
double	deltaR (const PhotonPair &photon, const Jet_type *jet)

virtual void	endJob ()

int	getEtaPhi (const DetId id)

int	getEtaPhi (const HcalDetId id)

Private Attributes
bool	allowNoPhoton_

TTree *	calo_tree_

int	debug_

unsigned int	debugEvent

int	debugHLTTrigNames

bool	doGenJets_

bool	doPFJets_

int	eventNumber_

float	eventPtHat_

float	eventWeight_

std::string	genEventInfoName_

std::string	genJetCollName_

std::string	genParticleCollName_

std::string	hbheRecHitName_

std::string	hfRecHitName_

HLTPrescaleProvider	hltPrescaleProvider_

std::string	hoRecHitName_

bool	ignoreHLT_

double	jet2EtMax_

double	jet3EtMax_

double	jetEtMin_

std::vector< int >	jetTrigFired_

std::vector< std::string >	jetTrigNamesV_

std::vector< int >	jetTrigPrescale_

int	lumiBlock_

float	met_phi_

float	met_sumEt_

float	met_value_
	MET info. More...

float	metType1_phi_

float	metType1_sumEt_

float	metType1_value_

TTree *	misc_tree_

int	nGenJets_

int	nPFJets_

int	nPhotons_

ULong64_t	nProcessed_

int	pf_NPV_

float	pf_thirdjet_E_

float	pf_thirdjet_et_

float	pf_thirdjet_eta_

float	pf_thirdjet_p_

float	pf_thirdjet_phi_

float	pf_thirdjet_pt_

float	pf_thirdjet_px_

float	pf_thirdjet_py_

float	pf_thirdjet_scale_

TTree *	pf_tree_

float	pfjet2_area_

std::vector< float >	pfjet2_candtrack_EcalE_

std::vector< float >	pfjet2_candtrack_px_

std::vector< float >	pfjet2_candtrack_py_

std::vector< float >	pfjet2_candtrack_pz_

float	pfjet2_ChargedEMFrac_

float	pfjet2_ChargedHadronFrac_

float	pfjet2_ChargedMultiplicity_

std::vector< float >	pfjet2_cluster_dR_

std::vector< float >	pfjet2_cluster_eta_

int	pfjet2_cluster_n_

std::vector< float >	pfjet2_cluster_phi_

float	pfjet2_E_

float	pfjet2_E_NPVcorr_

float	pfjet2_electron_E_

float	pfjet2_electron_EcalE_

int	pfjet2_electron_n_

float	pfjet2_electron_px_

float	pfjet2_electron_py_

float	pfjet2_electron_pz_

float	pfjet2_eta_

float	pfjet2_gendr_

float	pfjet2_genE_

float	pfjet2_genp_

float	pfjet2_genpt_

std::vector< int >	pfjet2_had_candtrackind_

std::vector< float >	pfjet2_had_E_

std::vector< float >	pfjet2_had_E_mctruth_

std::vector< float >	pfjet2_had_EcalE_

std::vector< float >	pfjet2_had_emf_

std::vector< int >	pfjet2_had_id_

std::vector< int >	pfjet2_had_mcpdgId_

int	pfjet2_had_n_

std::vector< int >	pfjet2_had_ntwrs_

std::vector< float >	pfjet2_had_px_

std::vector< float >	pfjet2_had_py_

std::vector< float >	pfjet2_had_pz_

std::vector< float >	pfjet2_had_rawHcalE_

float	pfjet2_muon_E_

float	pfjet2_muon_EcalE_

int	pfjet2_muon_n_

float	pfjet2_muon_px_

float	pfjet2_muon_py_

float	pfjet2_muon_pz_

int	pfjet2_ncandtracks_

int	pfjet2_nConstituents_

float	pfjet2_NeutralEMFrac_

float	pfjet2_NeutralHadronFrac_

int	pfjet2_ntwrs_

float	pfjet2_p_

float	pfjet2_phi_

float	pfjet2_photon_E_

float	pfjet2_photon_EcalE_

int	pfjet2_photon_n_

float	pfjet2_photon_px_

float	pfjet2_photon_py_

float	pfjet2_photon_pz_

float	pfjet2_pt_

float	pfjet2_scale_

std::vector< int >	pfjet2_twr_candtrackind_

std::vector< int >	pfjet2_twr_clusterind_

std::vector< int >	pfjet2_twr_depth_

std::vector< float >	pfjet2_twr_dR_

std::vector< int >	pfjet2_twr_elmttype_

std::vector< float >	pfjet2_twr_frac_

std::vector< float >	pfjet2_twr_hade_

std::vector< int >	pfjet2_twr_hadind_

std::vector< int >	pfjet2_twr_ieta_

std::vector< int >	pfjet2_twr_iphi_

std::vector< int >	pfjet2_twr_subdet_

float	pfjet2_unkown_E_

float	pfjet2_unkown_EcalE_

int	pfjet2_unkown_n_

float	pfjet2_unkown_px_

float	pfjet2_unkown_py_

float	pfjet2_unkown_pz_

std::string	pfJetCollName_

std::string	pfJetCorrName_

edm::InputTag	pfMETColl

edm::InputTag	pfType1METColl

float	pho_2nd_pt_

std::string	photonCollName_

double	photonJetDPhiMin_

double	photonPtMin_

std::vector< int >	photonTrigFired_

std::vector< std::string >	photonTrigNamesV_

std::vector< int >	photonTrigPrescale_

float	ppfjet_area_

std::vector< float >	ppfjet_candtrack_EcalE_

std::vector< float >	ppfjet_candtrack_px_

std::vector< float >	ppfjet_candtrack_py_

std::vector< float >	ppfjet_candtrack_pz_

float	ppfjet_ChargedEMFrac_

float	ppfjet_ChargedHadronFrac_

float	ppfjet_ChargedMultiplicity_

std::vector< float >	ppfjet_cluster_dR_

std::vector< float >	ppfjet_cluster_eta_

int	ppfjet_cluster_n_

std::vector< float >	ppfjet_cluster_phi_

float	ppfjet_E_

float	ppfjet_E_NPVcorr_

float	ppfjet_electron_E_

float	ppfjet_electron_EcalE_

int	ppfjet_electron_n_

float	ppfjet_electron_px_

float	ppfjet_electron_py_

float	ppfjet_electron_pz_

float	ppfjet_eta_

float	ppfjet_gendr_

float	ppfjet_genE_

float	ppfjet_genp_

float	ppfjet_genpt_

std::vector< int >	ppfjet_had_candtrackind_

std::vector< float >	ppfjet_had_E_

std::vector< float >	ppfjet_had_E_mctruth_

std::vector< float >	ppfjet_had_EcalE_

std::vector< float >	ppfjet_had_emf_

std::vector< int >	ppfjet_had_id_

std::vector< int >	ppfjet_had_mcpdgId_

int	ppfjet_had_n_

std::vector< int >	ppfjet_had_ntwrs_

std::vector< float >	ppfjet_had_px_

std::vector< float >	ppfjet_had_py_

std::vector< float >	ppfjet_had_pz_

std::vector< float >	ppfjet_had_rawHcalE_

float	ppfjet_muon_E_

float	ppfjet_muon_EcalE_

int	ppfjet_muon_n_

float	ppfjet_muon_px_

float	ppfjet_muon_py_

float	ppfjet_muon_pz_

int	ppfjet_ncandtracks_

int	ppfjet_nConstituents_

float	ppfjet_NeutralEMFrac_

float	ppfjet_NeutralHadronFrac_

int	ppfjet_ntwrs_

float	ppfjet_p_

float	ppfjet_phi_

float	ppfjet_photon_E_

float	ppfjet_photon_EcalE_

int	ppfjet_photon_n_

float	ppfjet_photon_px_

float	ppfjet_photon_py_

float	ppfjet_photon_pz_

float	ppfjet_pt_

float	ppfjet_scale_

std::vector< int >	ppfjet_twr_candtrackind_

std::vector< int >	ppfjet_twr_clusterind_

std::vector< int >	ppfjet_twr_depth_

std::vector< float >	ppfjet_twr_dR_

std::vector< int >	ppfjet_twr_elmttype_

std::vector< float >	ppfjet_twr_frac_

std::vector< float >	ppfjet_twr_hade_

std::vector< int >	ppfjet_twr_hadind_

std::vector< int >	ppfjet_twr_ieta_

std::vector< int >	ppfjet_twr_iphi_

std::vector< int >	ppfjet_twr_subdet_

float	ppfjet_unkown_E_

float	ppfjet_unkown_EcalE_

int	ppfjet_unkown_n_

float	ppfjet_unkown_px_

float	ppfjet_unkown_py_

float	ppfjet_unkown_pz_

std::string	prodProcess_

std::string	pvCollName_

float	rho2012_

edm::InputTag	rhoCollection_

TFile *	rootfile_

std::string	rootHistFilename_

int	runNumber_

int	tagPho_ConvSafeEleVeto_

float	tagPho_EcalIsoDR04_

float	tagPho_energy_

float	tagPho_eta_

float	tagPho_genDeltaR_

float	tagPho_genEnergy_

float	tagPho_genEta_

float	tagPho_genPhi_

float	tagPho_genPt_

float	tagPho_HcalIsoDR0412_

float	tagPho_HcalIsoDR04_

float	tagPho_HoE_

int	tagPho_idLoose_

int	tagPho_idTight_

std::vector< std::vector< float > >	tagPho_pfiso_mycharged03

float	tagPho_pfiso_myneutral03_

float	tagPho_pfiso_myphoton03_

float	tagPho_phi_

int	tagPho_pixelSeed_

float	tagPho_pt_

float	tagPho_r9_

float	tagPho_sieie_

float	tagPho_TrkIsoHollowDR04_

edm::EDGetTokenT< reco::BeamSpot >	tok_BS_

edm::EDGetTokenT < reco::ConversionCollection >	tok_Conv_

edm::EDGetTokenT < GenEventInfoProduct >	tok_GenEvInfo_

edm::EDGetTokenT< std::vector < reco::GenJet > >	tok_GenJet_

edm::EDGetTokenT< std::vector < reco::GenParticle > >	tok_GenPart_

edm::EDGetTokenT < reco::GsfElectronCollection >	tok_GsfElec_

edm::EDGetTokenT < edm::SortedCollection < HBHERecHit, edm::StrictWeakOrdering < HBHERecHit > > >	tok_HBHE_

edm::EDGetTokenT < edm::SortedCollection < HFRecHit, edm::StrictWeakOrdering < HFRecHit > > >	tok_HF_

edm::EDGetTokenT < edm::SortedCollection < HORecHit, edm::StrictWeakOrdering < HORecHit > > >	tok_HO_

edm::EDGetTokenT < edm::ValueMap< Bool_t > >	tok_loosePhoton_

edm::EDGetTokenT< std::vector < Bool_t > >	tok_loosePhotonV_

edm::EDGetTokenT < reco::PFCandidateCollection >	tok_PFCand_

edm::EDGetTokenT < reco::PFJetCollection >	tok_PFJet_

edm::EDGetTokenT < reco::PFMETCollection >	tok_PFMET_

edm::EDGetTokenT < reco::PFMETCollection >	tok_PFType1MET_

edm::EDGetTokenT < reco::PhotonCollection >	tok_Photon_

edm::EDGetTokenT< std::vector < reco::Vertex > >	tok_PV_

edm::EDGetTokenT< double >	tok_Rho_

edm::EDGetTokenT < edm::ValueMap< Bool_t > >	tok_tightPhoton_

edm::EDGetTokenT< std::vector < Bool_t > >	tok_tightPhotonV_

edm::EDGetTokenT < edm::TriggerResults >	tok_TrigRes_

edm::EDGetTokenT < reco::VertexCollection >	tok_Vertex_

int	workOnAOD_

bool	writeTriggerPrescale_

Additional Inherited Members
Public Types inherited from edm::EDAnalyzer
typedef EDAnalyzer	ModuleType

Public Types inherited from edm::EDConsumerBase
typedef ProductLabels	Labels

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

static void	fillDescriptions (ConfigurationDescriptions &descriptions)

static void	prevalidate (ConfigurationDescriptions &)

Protected Member Functions inherited from edm::EDConsumerBase
template<typename ProductType , BranchType B = InEvent>
EDGetTokenT< ProductType >	consumes (edm::InputTag const &tag)

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

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

ConsumesCollector	consumesCollector ()
	Use a ConsumesCollector to gather consumes information from helper functions. More...

template<typename ProductType , BranchType B = InEvent>
void	consumesMany ()

void	consumesMany (const TypeToGet &id)

template<BranchType B>
void	consumesMany (const TypeToGet &id)

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

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

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

Detailed Description

Definition at line 118 of file GammaJetAnalysis.h.

Constructor & Destructor Documentation

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

explicit

Definition at line 71 of file GammaJetAnalysis.cc.

References allowNoPhoton_, debug_, debugEvent, debugHLTTrigNames, doGenJets_, doPFJets_, eventPtHat_, eventWeight_, Exception, edm::ParameterSet::exists(), genEventInfoName_, genJetCollName_, genParticleCollName_, edm::ParameterSet::getParameter(), edm::ParameterSet::getUntrackedParameter(), hbheRecHitName_, hfRecHitName_, hoRecHitName_, ignoreHLT_, HLT_25ns10e33_v2_cff::InputTag, jet2EtMax_, jet3EtMax_, jetEtMin_, jetTrigNamesV_, edm::InputTag::label(), nProcessed_, pfJetCollName_, pfJetCorrName_, pfMETColl, pfType1METColl, photonCollName_, photonJetDPhiMin_, photonPtMin_, photonTrigNamesV_, parseEventContent::prod, prodProcess_, edm::errors::ProductNotFound, pvCollName_, rhoCollection_, rootHistFilename_, AlCaHLTBitMon_QueryRunRegistry::string, tok_BS_, tok_Conv_, tok_GenEvInfo_, tok_GenJet_, tok_GenPart_, tok_GsfElec_, tok_HBHE_, tok_HF_, tok_HO_, tok_loosePhoton_, tok_loosePhotonV_, tok_PFCand_, tok_PFJet_, tok_PFMET_, tok_PFType1MET_, tok_Photon_, tok_PV_, tok_Rho_, tok_tightPhoton_, tok_tightPhotonV_, tok_TrigRes_, tok_Vertex_, workOnAOD_, and writeTriggerPrescale_.

                                                                  :
   hltPrescaleProvider_(iConfig, consumesCollector(), *this) {
 
   // set parameters
   debug_               = iConfig.getUntrackedParameter<int>("debug", 0);
   debugHLTTrigNames    = iConfig.getUntrackedParameter<int>("debugHLTTrigNames",1);
   debugEvent           = iConfig.getUntrackedParameter<unsigned int>("debugEvent",0);
   pfMETColl            = iConfig.getParameter<edm::InputTag>("PFMETColl");
   pfType1METColl       = iConfig.getParameter<edm::InputTag>("PFMETTYPE1Coll");
   rhoCollection_       = iConfig.getParameter<edm::InputTag>("rhoColl");
   photonCollName_      = iConfig.getParameter<std::string>("photonCollName");
   pfJetCollName_       = iConfig.getParameter<std::string>("pfJetCollName");
   pfJetCorrName_       = iConfig.getParameter<std::string>("pfJetCorrName");
   genJetCollName_      = iConfig.getParameter<std::string>("genJetCollName");
   genParticleCollName_ = iConfig.getParameter<std::string>("genParticleCollName");
   genEventInfoName_    = iConfig.getParameter<std::string>("genEventInfoName");
   hbheRecHitName_      = iConfig.getParameter<std::string>("hbheRecHitName");
   hfRecHitName_        = iConfig.getParameter<std::string>("hfRecHitName");
   hoRecHitName_        = iConfig.getParameter<std::string>("hoRecHitName");
   rootHistFilename_    = iConfig.getParameter<std::string>("rootHistFilename");
   pvCollName_          = iConfig.getParameter<std::string>("pvCollName");
   prodProcess_         = "MYGAMMA";
   if (iConfig.exists("prodProcess"))
     prodProcess_ = iConfig.getUntrackedParameter<std::string>("prodProcess");
 
   allowNoPhoton_       = iConfig.getParameter<bool>("allowNoPhoton");
   photonPtMin_         = iConfig.getParameter<double>("photonPtMin");
   photonJetDPhiMin_    = iConfig.getParameter<double>("photonJetDPhiMin");
   jetEtMin_            = iConfig.getParameter<double>("jetEtMin");
   jet2EtMax_           = iConfig.getParameter<double>("jet2EtMax");
   jet3EtMax_           = iConfig.getParameter<double>("jet3EtMax");
   photonTrigNamesV_    = iConfig.getParameter<std::vector<std::string>>("photonTriggers");
   jetTrigNamesV_       = iConfig.getParameter<std::vector<std::string>>("jetTriggers");
   writeTriggerPrescale_= iConfig.getParameter<bool>("writeTriggerPrescale");
   doPFJets_            = iConfig.getParameter<bool>("doPFJets");
   doGenJets_           = iConfig.getParameter<bool>("doGenJets");
   workOnAOD_           = iConfig.getParameter<int>("workOnAOD");
   ignoreHLT_           = iConfig.getUntrackedParameter<bool>("ignoreHLT",false);
 
   eventWeight_ = 1.0;
   eventPtHat_ = 0.;
   nProcessed_ = 0;
 
   //Get the tokens
   // FAST FIX
   if (workOnAOD_ < 2) { // origin data file
     tok_Photon_      = consumes<reco::PhotonCollection>(photonCollName_);
     tok_PFJet_       = consumes<reco::PFJetCollection>(pfJetCollName_);
     tok_GenJet_      = consumes<std::vector<reco::GenJet> >(genJetCollName_);
     tok_GenPart_     = consumes<std::vector<reco::GenParticle> >(genParticleCollName_);
     tok_GenEvInfo_   = consumes<GenEventInfoProduct>(genEventInfoName_);
     tok_HBHE_        = consumes<edm::SortedCollection<HBHERecHit,edm::StrictWeakOrdering<HBHERecHit> > >(hbheRecHitName_);
     tok_HF_          = consumes<edm::SortedCollection<HFRecHit,edm::StrictWeakOrdering<HFRecHit> > >(hfRecHitName_);
     tok_HO_          = consumes<edm::SortedCollection<HORecHit,edm::StrictWeakOrdering<HORecHit> > >(hoRecHitName_);
     tok_loosePhoton_ = consumes<edm::ValueMap<Bool_t> >(edm::InputTag("PhotonIDProdGED","PhotonCutBasedIDLoose"));
     tok_tightPhoton_ = consumes<edm::ValueMap<Bool_t> >(edm::InputTag("PhotonIDProdGED:PhotonCutBasedIDTight"));
     tok_PFCand_      = consumes<reco::PFCandidateCollection>(edm::InputTag("particleFlow"));
     tok_Vertex_      = consumes<reco::VertexCollection>(edm::InputTag("offlinePrimaryVertices"));
     tok_GsfElec_     = consumes<reco::GsfElectronCollection>(edm::InputTag("gsfElectrons"));
     tok_Rho_         = consumes<double>(rhoCollection_);
     tok_Conv_        = consumes<reco::ConversionCollection>(edm::InputTag("allConversions"));
     tok_BS_          = consumes<reco::BeamSpot>(edm::InputTag("offlineBeamSpot"));
     tok_PV_          = consumes<std::vector<reco::Vertex> >(pvCollName_);
     tok_PFMET_       = consumes<reco::PFMETCollection>(pfMETColl);
     tok_PFType1MET_  = consumes<reco::PFMETCollection>(pfType1METColl);
     tok_TrigRes_     = consumes<edm::TriggerResults>(edm::InputTag("TriggerResults::HLT"));
 
   } else {
     // FAST FIX
     const char* prod= "GammaJetProd";
     if (prodProcess_.size()==0) {
       edm::LogError("GammaJetAnalysis") << "prodProcess needs to be defined";
       throw edm::Exception(edm::errors::ProductNotFound);
     }
     const char* an= prodProcess_.c_str();
     edm::LogWarning("GammaJetAnalysis") << "FAST FIX: changing " << photonCollName_
                     << " to" << edm::InputTag(prod,photonCollName_,an);
     tok_Photon_      = consumes<reco::PhotonCollection>(edm::InputTag(prod,photonCollName_,an));
     tok_PFJet_       = consumes<reco::PFJetCollection>(edm::InputTag(prod,pfJetCollName_,an));
     tok_GenJet_      = consumes<std::vector<reco::GenJet> >(edm::InputTag(prod,genJetCollName_,an));
     tok_GenPart_     = consumes<std::vector<reco::GenParticle> >(edm::InputTag(prod,genParticleCollName_,an));
     tok_GenEvInfo_   = consumes<GenEventInfoProduct>(edm::InputTag(prod,genEventInfoName_,an));
     tok_HBHE_        = consumes<edm::SortedCollection<HBHERecHit,edm::StrictWeakOrdering<HBHERecHit> > >(edm::InputTag(prod,hbheRecHitName_,an));
     tok_HF_          = consumes<edm::SortedCollection<HFRecHit,edm::StrictWeakOrdering<HFRecHit> > >(edm::InputTag(prod,hfRecHitName_,an));
     tok_HO_          = consumes<edm::SortedCollection<HORecHit,edm::StrictWeakOrdering<HORecHit> > >(edm::InputTag(prod,hoRecHitName_,an));
     //tok_loosePhoton_ = consumes<edm::ValueMap<Bool_t> >(edm::InputTag("PhotonIDProdGED","PhotonCutBasedIDLoose"));
     //tok_tightPhoton_ = consumes<edm::ValueMap<Bool_t> >(edm::InputTag("PhotonIDProdGED:PhotonCutBasedIDTight"));
     tok_loosePhotonV_ = consumes<std::vector<Bool_t> >(edm::InputTag(prod,"PhotonIDProdGED:PhotonCutBasedIDLoose",an));
     tok_tightPhotonV_ = consumes<std::vector<Bool_t> >(edm::InputTag(prod,"PhotonIDProdGED:PhotonCutBasedIDTight",an));
     tok_PFCand_      = consumes<reco::PFCandidateCollection>(edm::InputTag(prod,"particleFlow",an));
     tok_Vertex_      = consumes<reco::VertexCollection>(edm::InputTag(prod,"offlinePrimaryVertices",an));
     tok_GsfElec_     = consumes<reco::GsfElectronCollection>(edm::InputTag(prod,"gedGsfElectrons",an));
     tok_Rho_         = consumes<double>(edm::InputTag(prod,rhoCollection_.label(),an));
     tok_Conv_        = consumes<reco::ConversionCollection>(edm::InputTag(prod,"allConversions",an));
     tok_BS_          = consumes<reco::BeamSpot>(edm::InputTag(prod,"offlineBeamSpot",an));
     tok_PV_          = consumes<std::vector<reco::Vertex> >(edm::InputTag(prod,pvCollName_,an));
     tok_PFMET_       = consumes<reco::PFMETCollection>(edm::InputTag(prod,pfMETColl.label(),an));
     tok_PFType1MET_  = consumes<reco::PFMETCollection>(edm::InputTag(prod,pfType1METColl.label(),an));
     TString HLTlabel = "TriggerResults::HLT";
     if (prodProcess_.find("reRECO")!=std::string::npos)
       HLTlabel.ReplaceAll("HLT","reHLT");
     tok_TrigRes_     = consumes<edm::TriggerResults>(edm::InputTag(prod,HLTlabel.Data(),an));
   }
 }

GammaJetAnalysis::~GammaJetAnalysis ( )

Definition at line 176 of file GammaJetAnalysis.cc.

176 {}

Member Function Documentation

void GammaJetAnalysis::analyze	(	const edm::Event &	iEvent,
		const edm::EventSetup &	evSetup
	)

privatevirtual

h_pfrecoOgen_et->Fill(jer, eventWeight_);

Implements edm::EDAnalyzer.

Definition at line 183 of file GammaJetAnalysis.cc.

                                                                                    { 
   nProcessed_++;
 
   edm::LogInfo("GammaJetAnalysis") << "nProcessed=" << nProcessed_ << "\n";
 
   // 1st. Get Photons //
   edm::Handle<reco::PhotonCollection> photons;
   iEvent.getByToken(tok_Photon_, photons);
   if(!photons.isValid()) {
     edm::LogWarning("GammaJetAnalysis") << "Could not find PhotonCollection named "
                     << photonCollName_;
     return;
   }
 
   if ((photons->size()==0) && !allowNoPhoton_) {
     if (debug_>0) edm::LogInfo("GammaJetAnalysis") << "No photons in the event";
     return;
   }
 
   nPhotons_= photons->size();
   edm::LogInfo("GammaJetAnalysis") << "nPhotons_=" << nPhotons_;
 
   // Get photon quality flags
   edm::Handle<edm::ValueMap<Bool_t> > loosePhotonQual, tightPhotonQual;
   edm::Handle<std::vector<Bool_t> > loosePhotonQual_Vec, tightPhotonQual_Vec;
   if (workOnAOD_ < 2) {
     iEvent.getByToken(tok_loosePhoton_, loosePhotonQual);
     iEvent.getByToken(tok_tightPhoton_, tightPhotonQual);
     if (!loosePhotonQual.isValid() || !tightPhotonQual.isValid()) {
       edm::LogWarning("GammaJetAnalysis") << "Failed to get photon quality flags";
       return;
     }
   }
   else {
     iEvent.getByToken(tok_loosePhotonV_, loosePhotonQual_Vec);
     iEvent.getByToken(tok_tightPhotonV_, tightPhotonQual_Vec);
     if (!loosePhotonQual_Vec.isValid() || !tightPhotonQual_Vec.isValid()) {
       edm::LogWarning("GammaJetAnalysis") << "Failed to get photon quality flags (vec)";
       return;
     }
   }
 
   // sort photons by Et //
   // counter is needed later to get the reference to the ptr
   std::set<PhotonPair, PhotonPairComp> photonpairset;
   int counter=0;
   for(reco::PhotonCollection::const_iterator it=photons->begin(); it!=photons->end(); ++it) {
     //HERE(Form("photon counter=%d",counter));
     const reco::Photon* photon=&(*it);
     //if(loosePhotonQual.isValid()){
     photonpairset.insert( PhotonPair(photon, photon->pt(), counter) );
     counter++;
     //}
   }
 
   HERE(Form("photonpairset.size=%d",int(photonpairset.size())));
 
   if ((photonpairset.size()==0) && !allowNoPhoton_) {
     if (debug_>0) edm::LogInfo("GammaJetAnalysis") << "No good quality photons in the event";
     return;
   }
 
   // TAG = Highest Et photon
 
   // find highest Et photon //
   PhotonPair  photon_tag;
   PhotonPair  photon_2nd;
   counter=0;
   for(std::set<PhotonPair, PhotonPairComp>::const_iterator it=photonpairset.begin(); it!=photonpairset.end(); ++it) {
     PhotonPair photon=(*it);
     ++counter;
     if(counter==1) photon_tag = photon;
     else if (counter==2) photon_2nd = photon;
     else break;
   }
 
   if (counter==0) {
     edm::LogWarning("GammaJetAnalysis") << "Code bug";
     return;
   }
 
   HERE(Form("counter=%d",counter));
 
   // cut on photon pt
   if (photon_tag.isValid() && ( photon_tag.pt() < photonPtMin_ )) {
     if (debug_>0) edm::LogInfo("GammaJetAnalysis") << "largest photonPt=" << photon_tag.pt();
     return;
   }
 
   HERE("aa");
 
   // 2nd. Get Jets
   edm::Handle<reco::PFJetCollection> pfjets;
   nPFJets_=0;
   nGenJets_=0;
 
   unsigned int anyJetCount=0;
 
   if (doPFJets_) {
     iEvent.getByToken(tok_PFJet_,pfjets);
     if(!pfjets.isValid()) {
       edm::LogWarning("GammaJetAnalysis") << "Could not find PFJetCollection named " << pfJetCollName_;
       return;
     }
     anyJetCount+= pfjets->size();
     nPFJets_ = pfjets->size();
   }
 
   HERE(Form("anyJetCount=%d",anyJetCount));
 
   if (anyJetCount==0) {
     if (debug_>0) edm::LogInfo("GammaJetAnalysis") << "Event contains no jets";
     return;
   }
   if (debug_>0)  edm::LogInfo("GammaJetAnalysis") << "nPhotons=" << nPhotons_ 
                           <<  ", nPFJets=" << nPFJets_;
 
   HERE(Form("nPhotons_=%d, nPFJets_=%d",nPhotons_,nPFJets_));
 
   // 3rd. Check the trigger
   photonTrigFired_.clear();
   photonTrigPrescale_.clear();
   jetTrigFired_.clear();
   jetTrigPrescale_.clear();
 
   HERE("trigger");
 
   // HLT Trigger
   // assign "trig fired" if no triggers are specified
   bool photonTrigFlag= (photonTrigNamesV_.size()==0) ? true : false;
   bool jetTrigFlag= (jetTrigNamesV_.size()==0) ? true : false;
   if ((photonTrigNamesV_.size()==1) &&
       (photonTrigNamesV_[0].length()==0)) photonTrigFlag=true;
   if ((jetTrigNamesV_.size()==1) &&
       (jetTrigNamesV_[0].length()==0)) jetTrigFlag=true;
 
   // If needed, process trigger information
   if (!photonTrigFlag || !jetTrigFlag) {
     // check the triggers
     edm::Handle<edm::TriggerResults> triggerResults;
     if( !iEvent.getByToken(tok_TrigRes_,triggerResults) ) {
       edm::LogWarning("GammaJetAnalysis") << "Could not find TriggerResults::HLT";
       return;
     }
     const edm::TriggerNames &evTrigNames =iEvent.triggerNames(*triggerResults);
 
     if (debugHLTTrigNames>0) {
       if (debug_>1)  edm::LogInfo("GammaJetAnalysis") << "debugHLTTrigNames is on";
       const std::vector<std::string> *trNames= & evTrigNames.triggerNames();
       for (size_t i=0; i<trNames->size(); ++i) {
     if (trNames->at(i).find("_Photon")!=std::string::npos) {
       if (debug_>1) edm::LogInfo("GammaJetAnalysis") << " - " << trNames->at(i);
     }
       }
       if (debug_>1) edm::LogInfo("GammaJetAnalysis") << " ";
       debugHLTTrigNames--;
     }
 
     size_t id = 0;
     for (size_t i=0; i<photonTrigNamesV_.size(); ++i) {
       const std::string trigName=photonTrigNamesV_.at(i);
       id= helper_findTrigger(evTrigNames.triggerNames(),trigName);
       if (id==evTrigNames.size()) {
     photonTrigFired_.push_back(0);
     photonTrigPrescale_.push_back(-1);
     continue;
       }
       int fired= triggerResults->accept(id);
       if (fired) photonTrigFlag=true;
       photonTrigFired_.push_back(fired);
       if (!writeTriggerPrescale_) photonTrigPrescale_.push_back(-1);
       else {
     // for triggers with two L1 seeds this fails
     std::pair<int,int> prescaleVals= hltPrescaleProvider_.prescaleValues(iEvent,evSetup, evTrigNames.triggerName(id));
     photonTrigPrescale_.push_back(prescaleVals.first * prescaleVals.second);
       }
     }
     for (size_t i=0; i<jetTrigNamesV_.size(); ++i) {
       const std::string trigName=jetTrigNamesV_.at(i);
       id= helper_findTrigger(evTrigNames.triggerNames(),trigName);
       if (id==evTrigNames.size()) {
     jetTrigFired_.push_back(0);
     jetTrigPrescale_.push_back(-1);
     continue;
       }
       int fired= triggerResults->accept(id);
       if (fired) jetTrigFlag=true;
       jetTrigFired_.push_back(fired);
       std::pair<int,int> prescaleVals = hltPrescaleProvider_.prescaleValues(iEvent,evSetup,evTrigNames.triggerName(id));
       jetTrigPrescale_.push_back(prescaleVals.first * prescaleVals.second);
     }
   }
 
   if (!photonTrigFlag && !jetTrigFlag) {
     if (debug_>0) edm::LogInfo("GammaJetAnalysis") << "no trigger fired";
     return;
   }
 
   HERE("start isolation");
 
   tagPho_pfiso_mycharged03.clear();
 
   edm::Handle<std::vector<reco::GenJet>> genjets;
   edm::Handle<std::vector<reco::GenParticle> > genparticles;
   edm::Handle<reco::PFCandidateCollection> pfHandle;
   iEvent.getByToken(tok_PFCand_, pfHandle);
 
   edm::Handle<reco::VertexCollection> vtxHandle;
   iEvent.getByToken(tok_Vertex_, vtxHandle);
 
   edm::Handle<reco::GsfElectronCollection> gsfElectronHandle;
   iEvent.getByToken(tok_GsfElec_, gsfElectronHandle);
   edm::Handle<double> rhoHandle_2012;
   iEvent.getByToken(tok_Rho_, rhoHandle_2012);
   rho2012_ = *(rhoHandle_2012.product());
   //rho2012_ = -1e6;
 
   edm::Handle<reco::ConversionCollection> convH;
   iEvent.getByToken(tok_Conv_, convH);
   edm::Handle<reco::BeamSpot> beamSpotHandle;
   iEvent.getByToken(tok_BS_, beamSpotHandle);
 
   HERE("doGenJets");
 
   if(doGenJets_){
     // Get GenJets
     iEvent.getByToken(tok_GenJet_,genjets);
     if(!genjets.isValid()) {
       edm::LogWarning("GammaJetAnalysis") << "Could not find GenJet vector named "
                       << genJetCollName_;
       return;
     }
     nGenJets_= genjets->size();
 
     // Get GenParticles
     iEvent.getByToken(tok_GenPart_,genparticles);
     if(!genparticles.isValid()) {
       edm::LogWarning("GammaJetAnalysis") << "Could not find GenParticle vector named " << genParticleCollName_;
       return;
     }
 
     // Get weights
     edm::Handle<GenEventInfoProduct> genEventInfoProduct;
     iEvent.getByToken(tok_GenEvInfo_, genEventInfoProduct);
     if(!genEventInfoProduct.isValid()){
       edm::LogWarning("GammaJetAnalysis") << "Could not find GenEventInfoProduct named " << genEventInfoName_;
       return;
     }
     eventWeight_ = genEventInfoProduct->weight();
     eventPtHat_ = 0.;
     if (genEventInfoProduct->hasBinningValues()) {
       eventPtHat_ = genEventInfoProduct->binningValues()[0];
     }
   }
 
   runNumber_ = iEvent.id().run();
   lumiBlock_ = iEvent.id().luminosityBlock();
   eventNumber_ = iEvent.id().event();
 
   HERE(Form("runNumber=%d, eventNumber=%d",runNumber_,eventNumber_));
 
   // fill tag photon variables
   if (!photon_tag.isValid()) {
     tagPho_pt_=-1;
     pho_2nd_pt_=-1;
     tagPho_energy_=-1;
     tagPho_eta_=0;
     tagPho_phi_=0;
     tagPho_sieie_=0;
     tagPho_HoE_=0;
     tagPho_r9_=0;
     tagPho_EcalIsoDR04_=0;
     tagPho_HcalIsoDR04_=0;
     tagPho_HcalIsoDR0412_=0;
     tagPho_TrkIsoHollowDR04_=0;
     tagPho_pfiso_myphoton03_=0;
     tagPho_pfiso_myneutral03_=0;
     tagPho_pfiso_mycharged03.clear();
     tagPho_pixelSeed_=0;
     tagPho_ConvSafeEleVeto_=0;
     tagPho_idTight_=0;
     tagPho_idLoose_=0;
     tagPho_genPt_=0;
     tagPho_genEnergy_=0;
     tagPho_genEta_=0;
     tagPho_genPhi_=0;
     tagPho_genDeltaR_=0;
   }
   else {
     HERE("bb");
 
     tagPho_pt_    = photon_tag.photon()->pt();
     pho_2nd_pt_   = (photon_2nd.photon()) ? photon_2nd.photon()->pt() : -1.;
     tagPho_energy_     = photon_tag.photon()->energy();
     tagPho_eta_   = photon_tag.photon()->eta();
     tagPho_phi_   = photon_tag.photon()->phi();
     tagPho_sieie_ = photon_tag.photon()->sigmaIetaIeta();
     tagPho_HoE_   = photon_tag.photon()->hadTowOverEm();
     tagPho_r9_    = photon_tag.photon()->r9();
     tagPho_pixelSeed_ = photon_tag.photon()->hasPixelSeed();
     tagPho_TrkIsoHollowDR04_ =  photon_tag.photon()->trkSumPtHollowConeDR04();
     tagPho_EcalIsoDR04_ = photon_tag.photon()->ecalRecHitSumEtConeDR04();
     tagPho_HcalIsoDR04_ = photon_tag.photon()->hcalTowerSumEtConeDR04();
     tagPho_HcalIsoDR0412_ = photon_tag.photon()->hcalTowerSumEtConeDR04() + (photon_tag.photon()->hadronicOverEm() - photon_tag.photon()->hadTowOverEm())*(photon_tag.photon()->energy()/cosh((photon_tag.photon()->eta())));
 
     HERE("tt");
     
     tagPho_pfiso_myphoton03_  = pfEcalIso(photon_tag.photon(), pfHandle, 0.3, 0.0, 0.070, 0.015, 0.0, 0.0, 0.0, reco::PFCandidate::gamma);
     tagPho_pfiso_myneutral03_ = pfHcalIso(photon_tag.photon(), pfHandle, 0.3, 0.0, reco::PFCandidate::h0);
     HERE("calc charged pfiso");
     tagPho_pfiso_mycharged03.push_back(pfTkIsoWithVertex(photon_tag.photon(), pfHandle, vtxHandle, 0.3, 0.02, 0.02, 0.0, 0.2, 0.1, reco::PFCandidate::h));
 
     HERE("got isolation");
 
     //tagPho_ConvSafeEleVeto_ = ((int)ConversionTools::hasMatchedPromptElectron(photon_tag.photon()->superCluster(), gsfElectronHandle, convH, beamSpotHandle->position()));
     tagPho_ConvSafeEleVeto_ = -999;
 
     HERE("get id");
     if (workOnAOD_ < 2) {
       HERE(Form("workOnAOD_<2. loose photon qual size=%d",int(loosePhotonQual->size())));
 
       edm::Ref<reco::PhotonCollection> photonRef(photons, photon_tag.idx());
       HERE(Form("got photon ref, photon_tag.idx()=%d",photon_tag.idx()));
 
       //std::cout << "loosePhotonQual->at(photon_tag.idx())=" << loosePhotonQual->at(photon_tag.idx()) << std::endl;
 
       tagPho_idLoose_ = (loosePhotonQual.isValid()) ? (*loosePhotonQual)[photonRef] : -1;
       tagPho_idTight_ = (tightPhotonQual.isValid()) ? (*tightPhotonQual)[photonRef] : -1;
     }
     else {
       tagPho_idLoose_ = (loosePhotonQual_Vec.isValid()) ? loosePhotonQual_Vec->at(photon_tag.idx()) : -1;
       tagPho_idTight_ = (tightPhotonQual_Vec.isValid()) ? tightPhotonQual_Vec->at(photon_tag.idx()) : -1; 
     }
 
     if (debug_>1) edm::LogInfo("GammaJetAnalysis") << "photon tag ID = " 
                            << tagPho_idLoose_ << " and "
                            << tagPho_idTight_;
 
     HERE(Form("tagPhoID= %d and %d",tagPho_idLoose_,tagPho_idTight_));
 
     HERE("reset pho gen");
     
     tagPho_genPt_=0;
     tagPho_genEnergy_=0;
     tagPho_genEta_=0;
     tagPho_genPhi_=0;
     tagPho_genDeltaR_=0;
     if (doGenJets_) {
       tagPho_genDeltaR_=9999.;
       for (std::vector<reco::GenParticle>::const_iterator itmc=genparticles->begin();
        itmc!=genparticles->end(); itmc++) {
     if (itmc->status() == 1 && itmc->pdgId()==22) {
       float dR= deltaR(tagPho_eta_,tagPho_phi_,
                itmc->eta(),itmc->phi());
       if (dR < tagPho_genDeltaR_) {
         tagPho_genPt_     = itmc->pt();
         tagPho_genEnergy_ = itmc->energy();
         tagPho_genEta_    = itmc->eta();
         tagPho_genPhi_    = itmc->phi();
         tagPho_genDeltaR_ = dR;
       }
     }
       }
     }
   }
   
   HERE("run over PFJets");
 
   // Run over PFJets //
   
   if(doPFJets_ && (nPFJets_>0)){
        
     // Get RecHits in HB and HE
     edm::Handle<edm::SortedCollection<HBHERecHit,edm::StrictWeakOrdering<HBHERecHit>>> hbhereco;
     iEvent.getByToken(tok_HBHE_,hbhereco);
     if(!hbhereco.isValid() && !workOnAOD_) {
       edm::LogWarning("GammaJetAnalysis") << "Could not find HBHERecHit named " 
                        << hbheRecHitName_;
       return;
     }
     
     // Get RecHits in HF
     edm::Handle<edm::SortedCollection<HFRecHit,edm::StrictWeakOrdering<HFRecHit>>> hfreco;
     iEvent.getByToken(tok_HF_,hfreco);
     if(!hfreco.isValid() && !workOnAOD_) {
       edm::LogWarning("GammaJetAnalysis") << "Could not find HFRecHit named " 
                        << hfRecHitName_;
       return;
     }
 
     // Get RecHits in HO
     edm::Handle<edm::SortedCollection<HORecHit,edm::StrictWeakOrdering<HORecHit>>> horeco;
     iEvent.getByToken(tok_HO_,horeco);
     if(!horeco.isValid() && !workOnAOD_) {
       edm::LogWarning("GammaJetAnalysis") << "Could not find HORecHit named " 
                        << hoRecHitName_;
       return;
     }
 
     HERE("get geometry");
 
     // Get geometry
     edm::ESHandle<CaloGeometry> geoHandle;
     evSetup.get<CaloGeometryRecord>().get(geoHandle);
     const CaloSubdetectorGeometry *HBGeom = geoHandle->getSubdetectorGeometry(DetId::Hcal, 1);
     const CaloSubdetectorGeometry *HEGeom = geoHandle->getSubdetectorGeometry(DetId::Hcal, 2);
     const CaloSubdetectorGeometry *HOGeom = geoHandle->getSubdetectorGeometry(DetId::Hcal, 3);
     const CaloSubdetectorGeometry *HFGeom = geoHandle->getSubdetectorGeometry(DetId::Hcal, 4);
 
     HERE("work");
 
     int HBHE_n = 0;
     if (hbhereco.isValid()) {
       for(edm::SortedCollection<HBHERecHit,edm::StrictWeakOrdering<HBHERecHit>>::const_iterator ith=hbhereco->begin(); ith!=hbhereco->end(); ++ith){
     HBHE_n++;
     if(iEvent.id().event() == debugEvent){
       if (debug_>1) 
         edm::LogInfo("GammaJetAnalysis") << (*ith).id().ieta() << " " 
                          << (*ith).id().iphi();
     }
       }
     }
     int HF_n = 0;
     if (hfreco.isValid()) {
       for(edm::SortedCollection<HFRecHit,edm::StrictWeakOrdering<HFRecHit>>::const_iterator ith=hfreco->begin(); ith!=hfreco->end(); ++ith){
     HF_n++;
     if(iEvent.id().event() == debugEvent){
     }
       }
     }
     int HO_n = 0;
     if (horeco.isValid()) {
       for(edm::SortedCollection<HORecHit,edm::StrictWeakOrdering<HORecHit>>::const_iterator ith=horeco->begin(); ith!=horeco->end(); ++ith){
     HO_n++;
     if(iEvent.id().event() == debugEvent){
     }
       }
     }
 
     HERE("Get primary vertices");
 
     // Get primary vertices
     edm::Handle<std::vector<reco::Vertex>> pv;
     iEvent.getByToken(tok_PV_,pv);
     if(!pv.isValid()) {
       edm::LogWarning("GammaJetAnalysis") << "Could not find Vertex named " 
                        << pvCollName_;
       return;
     }
     pf_NPV_ = 0;
     for(std::vector<reco::Vertex>::const_iterator it=pv->begin(); it!=pv->end(); ++it){
       if(!it->isFake() && it->ndof() > 4) ++pf_NPV_;
     }
 
     HERE("get corrector");
 
     // Get jet corrections
     const JetCorrector* correctorPF = JetCorrector::getJetCorrector(pfJetCorrName_,evSetup);
     
     // sort jets by corrected et
     std::set<PFJetCorretPair, PFJetCorretPairComp> pfjetcorretpairset;
     for(reco::PFJetCollection::const_iterator it=pfjets->begin(); it!=pfjets->end(); ++it) {
       const reco::PFJet* jet=&(*it);
       // do not let the jet to be close to the tag photon
       if (deltaR(photon_tag,jet)<0.5) continue;
       double jec = correctorPF->correction(*it, iEvent, evSetup);
       pfjetcorretpairset.insert( PFJetCorretPair(jet, jec));
     }
 
     PFJetCorretPair pfjet_probe;
     PFJetCorretPair pf_2ndjet;
     PFJetCorretPair pf_3rdjet;
     int jet_cntr=0;
     for(std::set<PFJetCorretPair, PFJetCorretPairComp>::const_iterator it=pfjetcorretpairset.begin(); it!=pfjetcorretpairset.end(); ++it) {
       PFJetCorretPair jet=(*it);
       ++jet_cntr;
       if(jet_cntr==1) pfjet_probe = jet;
       else if(jet_cntr==2) pf_2ndjet = jet;
       else if(jet_cntr==3) pf_3rdjet = jet;
       //else break; // don't break for the statistics
     }
 
     HERE("reached selection");
 
     // Check selection
     int failSelPF = 0;
 
     if (!pfjet_probe.isValid()) failSelPF |= 1;
     else {
       if (pfjet_probe.scaledEt() < jetEtMin_) failSelPF |= 2;
       if (calc_dPhi(photon_tag,pfjet_probe) < photonJetDPhiMin_) failSelPF |= 3;
       if (deltaR(photon_tag,pfjet_probe.jet())<0.5) failSelPF |= 4;
       if (pf_2ndjet.isValid() && (pf_2ndjet.scaledEt() > jet2EtMax_))
     failSelPF |= 5;
       if (pf_3rdjet.isValid() && (pf_3rdjet.scaledEt() > jet3EtMax_))
     failSelPF |= 6;
     }
 
     if (!failSelPF) {
       // put values into 3rd jet quantities
       if (pf_3rdjet.isValid()) {
     pf_thirdjet_et_ = pf_3rdjet.jet()->et();
     pf_thirdjet_pt_ = pf_3rdjet.jet()->pt();
     pf_thirdjet_p_  = pf_3rdjet.jet()->p();
     pf_thirdjet_px_ = pf_3rdjet.jet()->px();
     pf_thirdjet_py_ = pf_3rdjet.jet()->py();
     pf_thirdjet_E_  = pf_3rdjet.jet()->energy();
     pf_thirdjet_eta_= pf_3rdjet.jet()->eta();
     pf_thirdjet_phi_= pf_3rdjet.jet()->phi();
     pf_thirdjet_scale_= pf_3rdjet.scale();
       }
       else {
     pf_thirdjet_et_ = 0;
     pf_thirdjet_pt_ = pf_thirdjet_p_ = 0;
     pf_thirdjet_px_ = pf_thirdjet_py_ = 0;
     pf_thirdjet_E_ = pf_thirdjet_eta_ = pf_thirdjet_phi_ = 0;
     pf_thirdjet_scale_=0;
       }
 
       HERE("fill PF jet");
 
     int types = 0;
     int ntypes = 0;
     
     // Get PF constituents and fill HCAL towers
     
     // fill jet variables
     // First start from a second jet, then fill the first jet
     PFJetCorretPair pfjet_probe_store = pfjet_probe;
     for (int iJet=2; iJet>0; iJet--) {
       // prepare the container
       clear_leadingPfJetVars();
 
       if (iJet==2) pfjet_probe= pf_2ndjet;
       else pfjet_probe = pfjet_probe_store;
 
       if(!pfjet_probe.jet()) {
     if (iJet==2) {
       // put zeros into 2nd jet quantities
       copy_leadingPfJetVars_to_pfJet2();
     } else {
       edm::LogWarning("GammaJetAnalysis") << "error in the code: leading pf jet is null";
     }
     continue;
       }
 
       HERE("work further");
 
       // temporary variables
       std::map<int,std::pair<int,std::set<float>>> ppfjet_rechits;
       std::map<float,int> ppfjet_clusters;
 
       // fill the values
       ppfjet_pt_    = pfjet_probe.jet()->pt();
       ppfjet_p_     = pfjet_probe.jet()->p();
       ppfjet_eta_   = pfjet_probe.jet()->eta();
       ppfjet_area_ = pfjet_probe.jet()->jetArea();
       ppfjet_E_     = pfjet_probe.jet()->energy();
       ppfjet_E_NPVcorr_   = pfjet_probe.jet()->energy() - getNeutralPVCorr(ppfjet_eta_,pf_NPV_,ppfjet_area_,doGenJets_);
       ppfjet_phi_   = pfjet_probe.jet()->phi();
       ppfjet_NeutralHadronFrac_  = pfjet_probe.jet()->neutralHadronEnergyFraction();
       ppfjet_NeutralEMFrac_      = pfjet_probe.jet()->neutralEmEnergyFraction();
       ppfjet_nConstituents_      = pfjet_probe.jet()->nConstituents();
       ppfjet_ChargedHadronFrac_  = pfjet_probe.jet()->chargedHadronEnergyFraction();
       ppfjet_ChargedMultiplicity_= pfjet_probe.jet()->chargedMultiplicity();
       ppfjet_ChargedEMFrac_      = pfjet_probe.jet()->chargedEmEnergyFraction();
       ppfjet_scale_ = pfjet_probe.scale();
       ppfjet_ntwrs_=0;
       ppfjet_cluster_n_=0;
       ppfjet_ncandtracks_=0;
       
       HERE("Get PF constituents");
       
       // Get PF constituents and fill HCAL towers
       std::vector<reco::PFCandidatePtr> probeconst=pfjet_probe.jet()->getPFConstituents();
       HERE(Form("probeconst.size=%d",int(probeconst.size())));
       int iPF=0;
       for(std::vector<reco::PFCandidatePtr>::const_iterator it=probeconst.begin(); it!=probeconst.end(); ++it){
     bool hasTrack = false;
     if (!(*it)) HERE("\tnull probeconst iterator value\n");
     reco::PFCandidate::ParticleType candidateType = (*it)->particleId();
     iPF++;
     HERE(Form("iPF=%d",iPF));
 
     // store information
     switch(candidateType){
     case reco::PFCandidate::X:
       ppfjet_unkown_E_ += (*it)->energy();
       ppfjet_unkown_px_ += (*it)->px();
       ppfjet_unkown_py_ += (*it)->py();
       ppfjet_unkown_pz_ += (*it)->pz();
       ppfjet_unkown_EcalE_ += (*it)->ecalEnergy();
       ppfjet_unkown_n_++;
       continue;
     case reco::PFCandidate::h:
       {
         ppfjet_had_E_.push_back((*it)->energy());
         ppfjet_had_px_.push_back((*it)->px());
         ppfjet_had_py_.push_back((*it)->py());
         ppfjet_had_pz_.push_back((*it)->pz());
         ppfjet_had_EcalE_.push_back((*it)->ecalEnergy());
         ppfjet_had_rawHcalE_.push_back((*it)->rawHcalEnergy());
         ppfjet_had_id_.push_back(0);
         ppfjet_had_ntwrs_.push_back(0);
         ppfjet_had_n_++;
         
         if(doGenJets_){
           float gendr = 99999;
           float genE = 0;
           int genpdgId = 0;
           for(std::vector<reco::GenParticle>::const_iterator itmc = genparticles->begin(); itmc != genparticles->end(); itmc++){
         if(itmc->status() == 1 && itmc->pdgId() > 100){
           double dr = deltaR((*it)->eta(),(*it)->phi(),itmc->eta(),itmc->phi());
           if(dr < gendr){
             gendr = dr;
             genE = itmc->energy();
             genpdgId = itmc->pdgId();
           }
         }
           }
           ppfjet_had_E_mctruth_.push_back(genE);
           ppfjet_had_mcpdgId_.push_back(genpdgId);
         }
         
         reco::TrackRef trackRef = (*it)->trackRef();
         if(trackRef.isNonnull()){
           reco::Track track = *trackRef;
           ppfjet_candtrack_px_.push_back(track.px());
           ppfjet_candtrack_py_.push_back(track.py());
           ppfjet_candtrack_pz_.push_back(track.pz());
           ppfjet_candtrack_EcalE_.push_back((*it)->ecalEnergy());
           ppfjet_had_candtrackind_.push_back(ppfjet_ncandtracks_);
           hasTrack = true;
           ppfjet_ncandtracks_++;
         }
         else{
           ppfjet_had_candtrackind_.push_back(-2);
         }
       }
       break;
     case reco::PFCandidate::e:
       ppfjet_electron_E_ += (*it)->energy();
       ppfjet_electron_px_ += (*it)->px();
       ppfjet_electron_py_ += (*it)->py();
       ppfjet_electron_pz_ += (*it)->pz();
       ppfjet_electron_EcalE_ += (*it)->ecalEnergy();
       ppfjet_electron_n_++;
       continue;
     case reco::PFCandidate::mu:
       ppfjet_muon_E_ += (*it)->energy();
       ppfjet_muon_px_ += (*it)->px();
       ppfjet_muon_py_ += (*it)->py();
       ppfjet_muon_pz_ += (*it)->pz();
       ppfjet_muon_EcalE_ += (*it)->ecalEnergy();
       ppfjet_muon_n_++;
       continue;
     case reco::PFCandidate::gamma:
       ppfjet_photon_E_ += (*it)->energy();
       ppfjet_photon_px_ += (*it)->px();
       ppfjet_photon_py_ += (*it)->py();
       ppfjet_photon_pz_ += (*it)->pz();
       ppfjet_photon_EcalE_ += (*it)->ecalEnergy();
       ppfjet_photon_n_++;
       continue;
     case reco::PFCandidate::h0:
       {
         ppfjet_had_E_.push_back((*it)->energy());
         ppfjet_had_px_.push_back((*it)->px());
         ppfjet_had_py_.push_back((*it)->py());
         ppfjet_had_pz_.push_back((*it)->pz());
         ppfjet_had_EcalE_.push_back((*it)->ecalEnergy());
         ppfjet_had_rawHcalE_.push_back((*it)->rawHcalEnergy());
         ppfjet_had_id_.push_back(1);
         ppfjet_had_candtrackind_.push_back(-1);
         ppfjet_had_ntwrs_.push_back(0);
         ppfjet_had_n_++;
 
         if(doGenJets_){
           float gendr = 99999;
           float genE = 0;
           int genpdgId = 0;
           for(std::vector<reco::GenParticle>::const_iterator itmc = genparticles->begin(); itmc != genparticles->end(); itmc++){
         if(itmc->status() == 1 && itmc->pdgId() > 100){
           double dr = deltaR((*it)->eta(),(*it)->phi(),itmc->eta(),itmc->phi());
           if(dr < gendr){
             gendr = dr;
             genE = itmc->energy();
             genpdgId = itmc->pdgId();
           }
         }
           }
           ppfjet_had_E_mctruth_.push_back(genE);
           ppfjet_had_mcpdgId_.push_back(genpdgId);
         }
         
         break;
       }
     case reco::PFCandidate::h_HF:
       {
         ppfjet_had_E_.push_back((*it)->energy());
         ppfjet_had_px_.push_back((*it)->px());
         ppfjet_had_py_.push_back((*it)->py());
         ppfjet_had_pz_.push_back((*it)->pz());
         ppfjet_had_EcalE_.push_back((*it)->ecalEnergy());
         ppfjet_had_rawHcalE_.push_back((*it)->rawHcalEnergy());
         ppfjet_had_id_.push_back(2);
         ppfjet_had_candtrackind_.push_back(-1);
         ppfjet_had_ntwrs_.push_back(0);
         ppfjet_had_n_++;
         
         if(doGenJets_){
           float gendr = 99999;
           float genE = 0;
           int genpdgId = 0;
           for(std::vector<reco::GenParticle>::const_iterator itmc = genparticles->begin(); itmc != genparticles->end(); itmc++){
         if(itmc->status() == 1 && itmc->pdgId() > 100){
           double dr = deltaR((*it)->eta(),(*it)->phi(),itmc->eta(),itmc->phi());
           if(dr < gendr){
             gendr = dr;
             genE = itmc->energy();
             genpdgId = itmc->pdgId();
           }
         }
           }
           ppfjet_had_E_mctruth_.push_back(genE);
           ppfjet_had_mcpdgId_.push_back(genpdgId);
         }
         
         break;
       }
     case reco::PFCandidate::egamma_HF:
       {
         ppfjet_had_E_.push_back((*it)->energy());
         ppfjet_had_px_.push_back((*it)->px());
         ppfjet_had_py_.push_back((*it)->py());
         ppfjet_had_pz_.push_back((*it)->pz());
         ppfjet_had_EcalE_.push_back((*it)->ecalEnergy());
         ppfjet_had_rawHcalE_.push_back((*it)->rawHcalEnergy());
         ppfjet_had_id_.push_back(3);
         ppfjet_had_candtrackind_.push_back(-1);
         ppfjet_had_ntwrs_.push_back(0);
         ppfjet_had_n_++;
 
         if(doGenJets_){
           float gendr = 99999;
           float genE = 0;
           int genpdgId = 0;
           for(std::vector<reco::GenParticle>::const_iterator itmc = genparticles->begin(); itmc != genparticles->end(); itmc++){
         if(itmc->status() == 1 && itmc->pdgId() > 100){
           double dr = deltaR((*it)->eta(),(*it)->phi(),itmc->eta(),itmc->phi());
           if(dr < gendr){
             gendr = dr;
             genE = itmc->energy();
             genpdgId = itmc->pdgId();
           }
         }
           }
           ppfjet_had_E_mctruth_.push_back(genE);
           ppfjet_had_mcpdgId_.push_back(genpdgId);
         }
         
         break;
       }
     }
 
     float HFHAD_E = 0;
     float HFEM_E = 0;
     int HFHAD_n_ = 0;
     int HFEM_n_ = 0;
     int HF_type_ = 0;
     int maxElement=(*it)->elementsInBlocks().size();
     if (debug_>1) edm::LogInfo("GammaJetAnalysis") << "maxElement=" << maxElement;
     if (workOnAOD_==1) {
       maxElement=0;
       if (debug_>1)  edm::LogInfo("GammaJetAnalysis") << "forced 0";
     }
     HERE(Form("maxElement=%d",maxElement));
     for(int e=0; e<maxElement; ++e){
       // Get elements from block
       reco::PFBlockRef blockRef = (*it)->elementsInBlocks()[e].first;
       const edm::OwnVector<reco::PFBlockElement>& elements = blockRef->elements();
       for(unsigned iEle=0; iEle<elements.size(); iEle++) {
         if(elements[iEle].index() == (*it)->elementsInBlocks()[e].second){
           if(elements[iEle].type() == reco::PFBlockElement::HCAL){ // Element is HB or HE
         HF_type_ |= 0x1;
         // Get cluster and hits
         reco::PFClusterRef clusterref = elements[iEle].clusterRef();
         reco::PFCluster cluster = *clusterref;
         double cluster_dR = deltaR(ppfjet_eta_,ppfjet_phi_,cluster.eta(),cluster.phi());
         if(ppfjet_clusters.count(cluster_dR) == 0){
           ppfjet_clusters[cluster_dR] = ppfjet_cluster_n_;
           ppfjet_cluster_eta_.push_back(cluster.eta());
           ppfjet_cluster_phi_.push_back(cluster.phi());
           ppfjet_cluster_dR_.push_back(cluster_dR);
           ppfjet_cluster_n_++;
         }
         int cluster_ind = ppfjet_clusters[cluster_dR];
         std::vector<std::pair<DetId,float>> hitsAndFracs = cluster.hitsAndFractions();
 
         // Run over hits and match
         int nHits = hitsAndFracs.size();
         for(int iHit=0; iHit<nHits; iHit++){
           int etaPhiPF = getEtaPhi(hitsAndFracs[iHit].first);
 
           for(edm::SortedCollection<HBHERecHit,edm::StrictWeakOrdering<HBHERecHit>>::const_iterator ith=hbhereco->begin(); ith!=hbhereco->end(); ++ith){
             int etaPhiRecHit = getEtaPhi((*ith).id());
             if(etaPhiPF == etaPhiRecHit){
               ppfjet_had_ntwrs_.at(ppfjet_had_n_ - 1)++;
               if(ppfjet_rechits.count((*ith).id()) == 0){
             ppfjet_twr_ieta_.push_back((*ith).id().ieta());
             ppfjet_twr_iphi_.push_back((*ith).id().iphi());
             ppfjet_twr_depth_.push_back((*ith).id().depth());
             ppfjet_twr_subdet_.push_back((*ith).id().subdet());
             ppfjet_twr_hade_.push_back((*ith).energy());
             ppfjet_twr_frac_.push_back(hitsAndFracs[iHit].second);
             ppfjet_rechits[(*ith).id()].second.insert(hitsAndFracs[iHit].second);
             ppfjet_twr_hadind_.push_back(ppfjet_had_n_ - 1);
             ppfjet_twr_elmttype_.push_back(0);
             ppfjet_twr_clusterind_.push_back(cluster_ind);
             if(hasTrack){
               ppfjet_twr_candtrackind_.push_back(ppfjet_ncandtracks_ - 1);
             }
             else{
               ppfjet_twr_candtrackind_.push_back(-1);
             }
             switch((*ith).id().subdet()){
             case HcalSubdetector::HcalBarrel:
               {
                 const CaloCellGeometry *thisCell = HBGeom->getGeometry((*ith).id().rawId());
                 const CaloCellGeometry::CornersVec& cv = thisCell->getCorners();
                 float avgeta = (cv[0].eta() + cv[2].eta())/2.0;
                 float avgphi = (static_cast<double>(cv[0].phi()) + static_cast<double>(cv[2].phi()))/2.0;
                 if((cv[0].phi() < cv[2].phi()) && (debug_>1)) edm::LogInfo("GammaJetAnalysis") << "pHB" << cv[0].phi() << " " << cv[2].phi();
                 if(cv[0].phi() < cv[2].phi()) avgphi = (2.0*3.141592653 + static_cast<double>(cv[0].phi()) + static_cast<double>(cv[2].phi()))/2.0;
                 ppfjet_twr_dR_.push_back(deltaR(ppfjet_eta_,ppfjet_phi_,avgeta,avgphi));
                 break;
               }
             case HcalSubdetector::HcalEndcap:
               {
                 const CaloCellGeometry *thisCell = HEGeom->getGeometry((*ith).id().rawId());
                 const CaloCellGeometry::CornersVec& cv = thisCell->getCorners();
                 float avgeta = (cv[0].eta() + cv[2].eta())/2.0;
                 float avgphi = (static_cast<double>(cv[0].phi()) + static_cast<double>(cv[2].phi()))/2.0;
                 if((cv[0].phi() < cv[2].phi()) && (debug_>1)) edm::LogInfo("GammaJetAnalysis") << "pHE" << cv[0].phi() << " " << cv[2].phi();
                 if(cv[0].phi() < cv[2].phi()) avgphi = (2.0*3.141592653 + static_cast<double>(cv[0].phi()) + static_cast<double>(cv[2].phi()))/2.0;
                 ppfjet_twr_dR_.push_back(deltaR(ppfjet_eta_,ppfjet_phi_,avgeta,avgphi));
                 break;
               }
             default:
               ppfjet_twr_dR_.push_back(-1);
               break;
             }
             ppfjet_rechits[(*ith).id()].first = ppfjet_ntwrs_;
             ++ppfjet_ntwrs_;
               }
               else if(ppfjet_rechits[(*ith).id()].second.count(hitsAndFracs[iHit].second) == 0){
             ppfjet_twr_frac_.at(ppfjet_rechits[(*ith).id()].first) += hitsAndFracs[iHit].second;
             if(cluster_dR < ppfjet_cluster_dR_.at(ppfjet_twr_clusterind_.at(ppfjet_rechits[(*ith).id()].first))){
               ppfjet_twr_clusterind_.at(ppfjet_rechits[(*ith).id()].first) = cluster_ind;
             }
             ppfjet_rechits[(*ith).id()].second.insert(hitsAndFracs[iHit].second);
               }
             } // Test if ieta,iphi matches
           } // Loop over rechits
         } // Loop over hits
           } // Test if element is from HCAL
           else if(elements[iEle].type() == reco::PFBlockElement::HFHAD){ // Element is HF
         types |= 0x2;
         ntypes++;
         HFHAD_n_++;
         HF_type_ |= 0x2;
         
 
         for(edm::SortedCollection<HFRecHit,edm::StrictWeakOrdering<HFRecHit>>::const_iterator ith=hfreco->begin(); ith!=hfreco->end(); ++ith){
           if((*ith).id().depth() == 1) continue; // Remove long fibers
           const CaloCellGeometry *thisCell = HFGeom->getGeometry((*ith).id().rawId());
           const CaloCellGeometry::CornersVec& cv = thisCell->getCorners();
           
           bool passMatch = false;
           if((*it)->eta() < cv[0].eta() && (*it)->eta() > cv[2].eta()){
             if((*it)->phi() < cv[0].phi() && (*it)->phi() > cv[2].phi()) passMatch = true;
             else if(cv[0].phi() < cv[2].phi()){
               if((*it)->phi() < cv[0].phi()) passMatch = true;
               else if((*it)->phi() > cv[2].phi()) passMatch = true;
             }
           }
           
           if(passMatch){
             ppfjet_had_ntwrs_.at(ppfjet_had_n_ - 1)++;
             ppfjet_twr_ieta_.push_back((*ith).id().ieta());
             ppfjet_twr_iphi_.push_back((*ith).id().iphi());
             ppfjet_twr_depth_.push_back((*ith).id().depth());
             ppfjet_twr_subdet_.push_back((*ith).id().subdet());
             ppfjet_twr_hade_.push_back((*ith).energy());
             ppfjet_twr_frac_.push_back(1.0);
             ppfjet_twr_hadind_.push_back(ppfjet_had_n_ - 1);
             ppfjet_twr_elmttype_.push_back(1);
             ppfjet_twr_clusterind_.push_back(-1);
             ppfjet_twr_candtrackind_.push_back(-1);
             float avgeta = (cv[0].eta() + cv[2].eta())/2.0;
             float avgphi = (static_cast<double>(cv[0].phi()) + static_cast<double>(cv[2].phi()))/2.0;
             if((cv[0].phi() < cv[2].phi()) &&  (debug_>1)) edm::LogInfo("GammaJetAnalysis") << "pHFhad" << cv[0].phi() << " " << cv[2].phi();
             if(cv[0].phi() < cv[2].phi()) avgphi = (2.0*3.141592653 + static_cast<double>(cv[0].phi()) + static_cast<double>(cv[2].phi()))/2.0;
             ppfjet_twr_dR_.push_back(deltaR(ppfjet_eta_,ppfjet_phi_,avgeta,avgphi));
             ++ppfjet_ntwrs_;
             HFHAD_E += (*ith).energy();
           }
         }       
           }
           else if(elements[iEle].type() == reco::PFBlockElement::HFEM){ // Element is HF
         types |= 0x4;
         ntypes++;
         HFEM_n_++;
         HF_type_ |= 0x4;
         
         for(edm::SortedCollection<HFRecHit,edm::StrictWeakOrdering<HFRecHit>>::const_iterator ith=hfreco->begin(); ith!=hfreco->end(); ++ith){
           if((*ith).id().depth() == 2) continue; // Remove short fibers
           const CaloCellGeometry *thisCell = HFGeom->getGeometry((*ith).id().rawId());
           const CaloCellGeometry::CornersVec& cv = thisCell->getCorners();
           
           bool passMatch = false;
           if((*it)->eta() < cv[0].eta() && (*it)->eta() > cv[2].eta()){
             if((*it)->phi() < cv[0].phi() && (*it)->phi() > cv[2].phi()) passMatch = true;
             else if(cv[0].phi() < cv[2].phi()){
               if((*it)->phi() < cv[0].phi()) passMatch = true;
               else if((*it)->phi() > cv[2].phi()) passMatch = true;
             }
           }
           
           if(passMatch){
             ppfjet_had_ntwrs_.at(ppfjet_had_n_ - 1)++;
             ppfjet_twr_ieta_.push_back((*ith).id().ieta());
             ppfjet_twr_iphi_.push_back((*ith).id().iphi());
             ppfjet_twr_depth_.push_back((*ith).id().depth());
             ppfjet_twr_subdet_.push_back((*ith).id().subdet());
             ppfjet_twr_hade_.push_back((*ith).energy());
             ppfjet_twr_frac_.push_back(1.0);
             ppfjet_twr_hadind_.push_back(ppfjet_had_n_ - 1);
             ppfjet_twr_elmttype_.push_back(2);
             ppfjet_twr_clusterind_.push_back(-1);
             ppfjet_twr_candtrackind_.push_back(-1);
             float avgeta = (cv[0].eta() + cv[2].eta())/2.0;
             float avgphi = (static_cast<double>(cv[0].phi()) + static_cast<double>(cv[2].phi()))/2.0;
             if((cv[0].phi() < cv[2].phi()) && (debug_>1)) edm::LogInfo("GammaJetAnalysis") << "pHFem" << cv[0].phi() << " " << cv[2].phi();
             if(cv[0].phi() < cv[2].phi()) avgphi = (2.0*3.141592653 + static_cast<double>(cv[0].phi()) + static_cast<double>(cv[2].phi()))/2.0;
             ppfjet_twr_dR_.push_back(deltaR(ppfjet_eta_,ppfjet_phi_,avgeta,avgphi));
             ++ppfjet_ntwrs_;
             HFEM_E += (*ith).energy();
           }
         }
           }
           else if(elements[iEle].type() == reco::PFBlockElement::HO){ // Element is HO
         types |= 0x8;
         ntypes++;
         HF_type_ |= 0x8;
         reco::PFClusterRef clusterref = elements[iEle].clusterRef();
         reco::PFCluster cluster = *clusterref;
         double cluster_dR = deltaR(ppfjet_eta_,ppfjet_phi_,cluster.eta(),cluster.phi());
         if(ppfjet_clusters.count(cluster_dR) == 0){
           ppfjet_clusters[cluster_dR] = ppfjet_cluster_n_;
           ppfjet_cluster_eta_.push_back(cluster.eta());
           ppfjet_cluster_phi_.push_back(cluster.phi());
           ppfjet_cluster_dR_.push_back(cluster_dR);
           ppfjet_cluster_n_++;
         }
         int cluster_ind = ppfjet_clusters[cluster_dR];
 
         std::vector<std::pair<DetId,float>> hitsAndFracs = cluster.hitsAndFractions();
         int nHits = hitsAndFracs.size();
         for(int iHit=0; iHit<nHits; iHit++){
           int etaPhiPF = getEtaPhi(hitsAndFracs[iHit].first);
 
           for(edm::SortedCollection<HORecHit,edm::StrictWeakOrdering<HORecHit>>::const_iterator ith=horeco->begin(); ith!=horeco->end(); ++ith){
             int etaPhiRecHit = getEtaPhi((*ith).id());
             if(etaPhiPF == etaPhiRecHit){
               ppfjet_had_ntwrs_.at(ppfjet_had_n_ - 1)++;
               if(ppfjet_rechits.count((*ith).id()) == 0){
             ppfjet_twr_ieta_.push_back((*ith).id().ieta());
             ppfjet_twr_iphi_.push_back((*ith).id().iphi());
             ppfjet_twr_depth_.push_back((*ith).id().depth());
             ppfjet_twr_subdet_.push_back((*ith).id().subdet());
             ppfjet_twr_hade_.push_back((*ith).energy());
             ppfjet_twr_frac_.push_back(hitsAndFracs[iHit].second);
             ppfjet_rechits[(*ith).id()].second.insert(hitsAndFracs[iHit].second);
             ppfjet_twr_hadind_.push_back(ppfjet_had_n_ - 1);
             ppfjet_twr_elmttype_.push_back(3);
             ppfjet_twr_clusterind_.push_back(cluster_ind);
             if(hasTrack){
               ppfjet_twr_candtrackind_.push_back(ppfjet_ncandtracks_ - 1);
             }
             else{
               ppfjet_twr_candtrackind_.push_back(-1);
             }
             const CaloCellGeometry *thisCell = HOGeom->getGeometry((*ith).id().rawId());
             const CaloCellGeometry::CornersVec& cv = thisCell->getCorners();
             float avgeta = (cv[0].eta() + cv[2].eta())/2.0;
             float avgphi = (static_cast<double>(cv[0].phi()) + static_cast<double>(cv[2].phi()))/2.0;
             if((cv[0].phi() < cv[2].phi()) &&  (debug_>1))  edm::LogInfo("GammaJetAnalysis") << "pHO" << cv[0].phi() << " " << cv[2].phi();
             if(cv[0].phi() < cv[2].phi()) avgphi = (2.0*3.141592653 + static_cast<double>(cv[0].phi()) + static_cast<double>(cv[2].phi()))/2.0;
 
             ppfjet_twr_dR_.push_back(deltaR(ppfjet_eta_,ppfjet_phi_,avgeta,avgphi));
             ppfjet_rechits[(*ith).id()].first = ppfjet_ntwrs_;
             ++ppfjet_ntwrs_;
               }
               else if(ppfjet_rechits[(*ith).id()].second.count(hitsAndFracs[iHit].second) == 0){
             ppfjet_twr_frac_.at(ppfjet_rechits[(*ith).id()].first) += hitsAndFracs[iHit].second;
             if(cluster_dR < ppfjet_cluster_dR_.at(ppfjet_twr_clusterind_.at(ppfjet_rechits[(*ith).id()].first))){
               ppfjet_twr_clusterind_.at(ppfjet_rechits[(*ith).id()].first) = cluster_ind;
             }
             ppfjet_rechits[(*ith).id()].second.insert(hitsAndFracs[iHit].second);
               }
             } // Test if ieta,iphi match
           } // Loop over rechits
         } // Loop over hits
           } // Test if element is from HO
         } // Test for right element index
       } // Loop over elements
     } // Loop over elements in blocks
     switch(candidateType){
     case reco::PFCandidate::h_HF:
       ppfjet_had_emf_.push_back(HFEM_E/(HFEM_E + HFHAD_E));
       break;
     case reco::PFCandidate::egamma_HF:
       ppfjet_had_emf_.push_back(-1);
       break;
     default:
       ppfjet_had_emf_.push_back(-1);
       break;
     }
       } // Loop over PF constitutents
       
       if(doGenJets_){
     // fill genjet variables
     ppfjet_gendr_ = 99999.;
     ppfjet_genpt_ = 0;
     ppfjet_genp_  = 0;
     for(std::vector<reco::GenJet>::const_iterator it=genjets->begin(); it!=genjets->end(); ++it){
       const reco::GenJet* jet=&(*it);
       double dr=deltaR(jet, pfjet_probe.jet());
       if(dr<ppfjet_gendr_) {
         ppfjet_gendr_ = dr;
         ppfjet_genpt_ = jet->pt();
         ppfjet_genp_ = jet->p();
         ppfjet_genE_ = jet->energy();
       }
     }
       } // doGenJets_
       if (iJet==2) {
     copy_leadingPfJetVars_to_pfJet2();
       }
     }
     // double jer= (ppfjet_genpt_==double(0)) ?
     //  0. : pfjet_probe.jet()->et()/ppfjet_genpt_;
 
     edm::Handle<reco::PFMETCollection> pfmet_h;
     iEvent.getByToken(tok_PFMET_, pfmet_h);
     if (!pfmet_h.isValid()) {
       edm::LogWarning("GammaJetAnalysis") << " could not find " << pfMETColl;
       return;
     }
     met_value_ = pfmet_h->begin()->et();
     met_phi_   = pfmet_h->begin()->phi();
     met_sumEt_ = pfmet_h->begin()->sumEt();
 
     edm::Handle<reco::PFMETCollection> pfmetType1_h;
     iEvent.getByToken(tok_PFType1MET_, pfmetType1_h);
     if ( pfmetType1_h.isValid()) {
       metType1_value_ = pfmetType1_h->begin()->et();
       metType1_phi_   = pfmetType1_h->begin()->phi();
       metType1_sumEt_ = pfmetType1_h->begin()->sumEt();
     }
     else {
       // do we need an exception here?
       metType1_value_ = -999.;
       metType1_phi_   = -999.;
       metType1_sumEt_ = -999.;
     }
 
 
     // fill photon+jet variables
     pf_tree_->Fill();
     }
   }
   return;
 
 }

void GammaJetAnalysis::beginJob ( void )

privatevirtual

Reimplemented from edm::EDAnalyzer.

Definition at line 1278 of file GammaJetAnalysis.cc.

References assert(), doGenJets_, doPFJets_, eventNumber_, eventPtHat_, eventWeight_, jetTrigFired_, jetTrigPrescale_, lumiBlock_, met_phi_, met_sumEt_, met_value_, metType1_phi_, metType1_sumEt_, metType1_value_, nGenJets_, nPFJets_, nPhotons_, pf_NPV_, pf_thirdjet_E_, pf_thirdjet_et_, pf_thirdjet_eta_, pf_thirdjet_p_, pf_thirdjet_phi_, pf_thirdjet_pt_, pf_thirdjet_px_, pf_thirdjet_py_, pf_thirdjet_scale_, pf_tree_, pfjet2_area_, pfjet2_candtrack_EcalE_, pfjet2_candtrack_px_, pfjet2_candtrack_py_, pfjet2_candtrack_pz_, pfjet2_ChargedEMFrac_, pfjet2_ChargedHadronFrac_, pfjet2_ChargedMultiplicity_, pfjet2_cluster_dR_, pfjet2_cluster_eta_, pfjet2_cluster_n_, pfjet2_cluster_phi_, pfjet2_E_, pfjet2_E_NPVcorr_, pfjet2_electron_E_, pfjet2_electron_EcalE_, pfjet2_electron_n_, pfjet2_electron_px_, pfjet2_electron_py_, pfjet2_electron_pz_, pfjet2_eta_, pfjet2_gendr_, pfjet2_genE_, pfjet2_genp_, pfjet2_genpt_, pfjet2_had_candtrackind_, pfjet2_had_E_, pfjet2_had_E_mctruth_, pfjet2_had_EcalE_, pfjet2_had_emf_, pfjet2_had_id_, pfjet2_had_mcpdgId_, pfjet2_had_n_, pfjet2_had_ntwrs_, pfjet2_had_px_, pfjet2_had_py_, pfjet2_had_pz_, pfjet2_had_rawHcalE_, pfjet2_muon_E_, pfjet2_muon_EcalE_, pfjet2_muon_n_, pfjet2_muon_px_, pfjet2_muon_py_, pfjet2_muon_pz_, pfjet2_ncandtracks_, pfjet2_nConstituents_, pfjet2_NeutralEMFrac_, pfjet2_NeutralHadronFrac_, pfjet2_ntwrs_, pfjet2_p_, pfjet2_phi_, pfjet2_photon_E_, pfjet2_photon_EcalE_, pfjet2_photon_n_, pfjet2_photon_px_, pfjet2_photon_py_, pfjet2_photon_pz_, pfjet2_pt_, pfjet2_scale_, pfjet2_twr_candtrackind_, pfjet2_twr_clusterind_, pfjet2_twr_depth_, pfjet2_twr_dR_, pfjet2_twr_elmttype_, pfjet2_twr_frac_, pfjet2_twr_hade_, pfjet2_twr_hadind_, pfjet2_twr_ieta_, pfjet2_twr_iphi_, pfjet2_twr_subdet_, pfjet2_unkown_E_, pfjet2_unkown_EcalE_, pfjet2_unkown_n_, pfjet2_unkown_px_, pfjet2_unkown_py_, pfjet2_unkown_pz_, pho_2nd_pt_, photonTrigFired_, photonTrigPrescale_, ppfjet_area_, ppfjet_candtrack_EcalE_, ppfjet_candtrack_px_, ppfjet_candtrack_py_, ppfjet_candtrack_pz_, ppfjet_ChargedEMFrac_, ppfjet_ChargedHadronFrac_, ppfjet_ChargedMultiplicity_, ppfjet_cluster_dR_, ppfjet_cluster_eta_, ppfjet_cluster_n_, ppfjet_cluster_phi_, ppfjet_E_, ppfjet_E_NPVcorr_, ppfjet_electron_E_, ppfjet_electron_EcalE_, ppfjet_electron_n_, ppfjet_electron_px_, ppfjet_electron_py_, ppfjet_electron_pz_, ppfjet_eta_, ppfjet_gendr_, ppfjet_genE_, ppfjet_genp_, ppfjet_genpt_, ppfjet_had_candtrackind_, ppfjet_had_E_, ppfjet_had_E_mctruth_, ppfjet_had_EcalE_, ppfjet_had_emf_, ppfjet_had_id_, ppfjet_had_mcpdgId_, ppfjet_had_n_, ppfjet_had_ntwrs_, ppfjet_had_px_, ppfjet_had_py_, ppfjet_had_pz_, ppfjet_had_rawHcalE_, ppfjet_muon_E_, ppfjet_muon_EcalE_, ppfjet_muon_n_, ppfjet_muon_px_, ppfjet_muon_py_, ppfjet_muon_pz_, ppfjet_ncandtracks_, ppfjet_nConstituents_, ppfjet_NeutralEMFrac_, ppfjet_NeutralHadronFrac_, ppfjet_ntwrs_, ppfjet_p_, ppfjet_phi_, ppfjet_photon_E_, ppfjet_photon_EcalE_, ppfjet_photon_n_, ppfjet_photon_px_, ppfjet_photon_py_, ppfjet_photon_pz_, ppfjet_pt_, ppfjet_scale_, ppfjet_twr_candtrackind_, ppfjet_twr_clusterind_, ppfjet_twr_depth_, ppfjet_twr_dR_, ppfjet_twr_elmttype_, ppfjet_twr_frac_, ppfjet_twr_hade_, ppfjet_twr_hadind_, ppfjet_twr_ieta_, ppfjet_twr_iphi_, ppfjet_twr_subdet_, ppfjet_unkown_E_, ppfjet_unkown_EcalE_, ppfjet_unkown_n_, ppfjet_unkown_px_, ppfjet_unkown_py_, ppfjet_unkown_pz_, rho2012_, rootfile_, rootHistFilename_, runNumber_, tagPho_ConvSafeEleVeto_, tagPho_EcalIsoDR04_, tagPho_energy_, tagPho_eta_, tagPho_genDeltaR_, tagPho_genEnergy_, tagPho_genEta_, tagPho_genPhi_, tagPho_genPt_, tagPho_HcalIsoDR0412_, tagPho_HcalIsoDR04_, tagPho_HoE_, tagPho_idLoose_, tagPho_idTight_, tagPho_pfiso_mycharged03, tagPho_pfiso_myneutral03_, tagPho_pfiso_myphoton03_, tagPho_phi_, tagPho_pixelSeed_, tagPho_pt_, tagPho_r9_, tagPho_sieie_, tagPho_TrkIsoHollowDR04_, and MainPageGenerator::tree.

 {
   rootfile_ = new TFile(rootHistFilename_.c_str(), "RECREATE");
   if (doPFJets_) {
     pf_tree_ = new TTree("pf_gammajettree", "tree for gamma+jet balancing using PFJets");
     assert(pf_tree_);
   }
 
   for (int iJet=0; iJet<2; iJet++) {
     bool doJet=doPFJets_;
     if (!doJet) continue;
     if (iJet>0) continue; // ! caloJet are no longer there, so store only once
     TTree *tree= pf_tree_;
 
     // Event triggers
     tree->Branch("photonTrig_fired", &photonTrigFired_);
     tree->Branch("photonTrig_prescale", &photonTrigPrescale_);
     tree->Branch("jetTrig_fired", &jetTrigFired_);
     tree->Branch("jetTrig_prescale", &jetTrigPrescale_);
 
     // Event info
     tree->Branch("RunNumber",&runNumber_, "RunNumber/I");
     tree->Branch("LumiBlock",&lumiBlock_, "LumiBlock/I");
     tree->Branch("EventNumber",&eventNumber_, "EventNumber/I");
     tree->Branch("EventWeight",&eventWeight_, "EventWeight/F");
     tree->Branch("EventPtHat",&eventPtHat_, "EventPtHat/F");
 
     // Photon info
     tree->Branch("rho2012", &rho2012_, "rho2012/F");
     tree->Branch("tagPho_pt",    &tagPho_pt_,    "tagPho_pt/F");
     tree->Branch("pho_2nd_pt",   &pho_2nd_pt_,   "pho_2nd_pt/F");
     tree->Branch("tagPho_energy",     &tagPho_energy_,     "tagPho_energy/F");
     tree->Branch("tagPho_eta",   &tagPho_eta_,   "tagPho_eta/F");
     tree->Branch("tagPho_phi",   &tagPho_phi_,   "tagPho_phi/F");
     tree->Branch("tagPho_sieie", &tagPho_sieie_, "tagPho_sieie/F");
     tree->Branch("tagPho_HoE",   &tagPho_HoE_,   "tagPho_HoE/F");
     tree->Branch("tagPho_r9",    &tagPho_r9_,    "tagPho_r9/F");
     tree->Branch("tagPho_EcalIsoDR04",&tagPho_EcalIsoDR04_, "tagPho_EcalIsoDR04/F");
     tree->Branch("tagPho_HcalIsoDR04",&tagPho_HcalIsoDR04_, "tagPho_HcalIsoDR04/F");
     tree->Branch("tagPho_HcalIsoDR0412",&tagPho_HcalIsoDR0412_, "tagPho_HcalIsoDR0412/F");
     tree->Branch("tagPho_TrkIsoHollowDR04",&tagPho_TrkIsoHollowDR04_, "tagPho_TrkIsoHollowDR04/F");
     tree->Branch("tagPho_pfiso_myphoton03",&tagPho_pfiso_myphoton03_, "tagPho_pfiso_myphoton03/F");
     tree->Branch("tagPho_pfiso_myneutral03",&tagPho_pfiso_myneutral03_, "tagPho_pfiso_myneutral03/F");
     tree->Branch("tagPho_pfiso_mycharged03","std::vector<std::vector<float> >", &tagPho_pfiso_mycharged03);
     tree->Branch("tagPho_pixelSeed",    &tagPho_pixelSeed_,    "tagPho_pixelSeed/I");
     tree->Branch("tagPho_ConvSafeEleVeto", &tagPho_ConvSafeEleVeto_, "tagPho_ConvSafeEleVeto/I");
     tree->Branch("tagPho_idTight",&tagPho_idTight_, "tagPho_idTight/I");
     tree->Branch("tagPho_idLoose",&tagPho_idLoose_, "tagPho_idLoose/I");
     // gen.info on photon
     if(doGenJets_){
       tree->Branch("tagPho_genPt",&tagPho_genPt_, "tagPho_genPt/F");
       tree->Branch("tagPho_genEnergy",&tagPho_genEnergy_,"tagPho_genEnergy/F");
       tree->Branch("tagPho_genEta",&tagPho_genEta_, "tagPho_genEta/F");
       tree->Branch("tagPho_genPhi",&tagPho_genPhi_, "tagPho_genPhi/F");
       tree->Branch("tagPho_genDeltaR",&tagPho_genDeltaR_,"tagPho_genDeltaR/F");
     }
       // counters
     tree->Branch("nPhotons",&nPhotons_, "nPhotons/I");
     tree->Branch("nGenJets",&nGenJets_, "nGenJets/I");
   }
 
 
   if (doPFJets_) {
 
     pf_tree_->Branch("nPFJets",&nPFJets_, "nPFJets/I");
 
     // Leading jet info
     pf_tree_->Branch("ppfjet_pt",&ppfjet_pt_, "ppfjet_pt/F");
     pf_tree_->Branch("ppfjet_p",&ppfjet_p_, "ppfjet_p/F");
     pf_tree_->Branch("ppfjet_E",&ppfjet_E_, "ppfjet_E/F");
     pf_tree_->Branch("ppfjet_E_NPVcorr",&ppfjet_E_NPVcorr_, "ppfjet_E_NPVcorr/F");
     pf_tree_->Branch("ppfjet_area",&ppfjet_area_, "ppfjet_area/F");
     pf_tree_->Branch("ppfjet_eta",&ppfjet_eta_, "ppfjet_eta/F");
     pf_tree_->Branch("ppfjet_phi",&ppfjet_phi_, "ppfjet_phi/F");
     pf_tree_->Branch("ppfjet_scale",&ppfjet_scale_, "ppfjet_scale/F");
     pf_tree_->Branch("ppfjet_NeutralHadronFrac", &ppfjet_NeutralHadronFrac_, "ppfjet_NeutralHadronFrac/F");
     pf_tree_->Branch("ppfjet_NeutralEMFrac", &ppfjet_NeutralEMFrac_, "ppfjet_NeutralEMFrac/F");
     pf_tree_->Branch("ppfjet_nConstituents", &ppfjet_nConstituents_, "ppfjet_nConstituents/I");
     pf_tree_->Branch("ppfjet_ChargedHadronFrac", &ppfjet_ChargedHadronFrac_, "ppfjet_ChargedHadronFrac/F");
     pf_tree_->Branch("ppfjet_ChargedMultiplicity", &ppfjet_ChargedMultiplicity_, "ppfjet_ChargedMultiplicity/F");
     pf_tree_->Branch("ppfjet_ChargedEMFrac", &ppfjet_ChargedEMFrac_, "ppfjet_ChargedEMFrac/F");
     if(doGenJets_){
       pf_tree_->Branch("ppfjet_genpt",&ppfjet_genpt_, "ppfjet_genpt/F");
       pf_tree_->Branch("ppfjet_genp",&ppfjet_genp_, "ppfjet_genp/F");
       pf_tree_->Branch("ppfjet_genE",&ppfjet_genE_, "ppfjet_genE/F");
       pf_tree_->Branch("ppfjet_gendr",&ppfjet_gendr_, "ppfjet_gendr/F");
     }
     pf_tree_->Branch("ppfjet_unkown_E",&ppfjet_unkown_E_, "ppfjet_unkown_E/F");
     pf_tree_->Branch("ppfjet_electron_E",&ppfjet_electron_E_, "ppfjet_electron_E/F");
     pf_tree_->Branch("ppfjet_muon_E",&ppfjet_muon_E_, "ppfjet_muon_E/F");
     pf_tree_->Branch("ppfjet_photon_E",&ppfjet_photon_E_, "ppfjet_photon_E/F");
     pf_tree_->Branch("ppfjet_unkown_px",&ppfjet_unkown_px_, "ppfjet_unkown_px/F");
     pf_tree_->Branch("ppfjet_electron_px",&ppfjet_electron_px_, "ppfjet_electron_px/F");
     pf_tree_->Branch("ppfjet_muon_px",&ppfjet_muon_px_, "ppfjet_muon_px/F");
     pf_tree_->Branch("ppfjet_photon_px",&ppfjet_photon_px_, "ppfjet_photon_px/F");
     pf_tree_->Branch("ppfjet_unkown_py",&ppfjet_unkown_py_, "ppfjet_unkown_py/F");
     pf_tree_->Branch("ppfjet_electron_py",&ppfjet_electron_py_, "ppfjet_electron_py/F");
     pf_tree_->Branch("ppfjet_muon_py",&ppfjet_muon_py_, "ppfjet_muon_py/F");
     pf_tree_->Branch("ppfjet_photon_py",&ppfjet_photon_py_, "ppfjet_photon_py/F");
     pf_tree_->Branch("ppfjet_unkown_pz",&ppfjet_unkown_pz_, "ppfjet_unkown_pz/F");
     pf_tree_->Branch("ppfjet_electron_pz",&ppfjet_electron_pz_, "ppfjet_electron_pz/F");
     pf_tree_->Branch("ppfjet_muon_pz",&ppfjet_muon_pz_, "ppfjet_muon_pz/F");
     pf_tree_->Branch("ppfjet_photon_pz",&ppfjet_photon_pz_, "ppfjet_photon_pz/F");
     pf_tree_->Branch("ppfjet_unkown_EcalE",&ppfjet_unkown_EcalE_, "ppfjet_unkown_EcalE/F");
     pf_tree_->Branch("ppfjet_electron_EcalE",&ppfjet_electron_EcalE_, "ppfjet_electron_EcalE/F");
     pf_tree_->Branch("ppfjet_muon_EcalE",&ppfjet_muon_EcalE_, "ppfjet_muon_EcalE/F");
     pf_tree_->Branch("ppfjet_photon_EcalE",&ppfjet_photon_EcalE_, "ppfjet_photon_EcalE/F");
     pf_tree_->Branch("ppfjet_unkown_n",&ppfjet_unkown_n_, "ppfjet_unkown_n/I");
     pf_tree_->Branch("ppfjet_electron_n",&ppfjet_electron_n_, "ppfjet_electron_n/I");
     pf_tree_->Branch("ppfjet_muon_n",&ppfjet_muon_n_, "ppfjet_muon_n/I");
     pf_tree_->Branch("ppfjet_photon_n",&ppfjet_photon_n_, "ppfjet_photon_n/I");
     pf_tree_->Branch("ppfjet_had_n",&ppfjet_had_n_, "ppfjet_had_n/I");
     pf_tree_->Branch("ppfjet_had_E",&ppfjet_had_E_);
     pf_tree_->Branch("ppfjet_had_px",&ppfjet_had_px_);
     pf_tree_->Branch("ppfjet_had_py",&ppfjet_had_py_);
     pf_tree_->Branch("ppfjet_had_pz",&ppfjet_had_pz_);
     pf_tree_->Branch("ppfjet_had_EcalE",&ppfjet_had_EcalE_);
     pf_tree_->Branch("ppfjet_had_rawHcalE",&ppfjet_had_rawHcalE_);
     pf_tree_->Branch("ppfjet_had_emf",&ppfjet_had_emf_);
     pf_tree_->Branch("ppfjet_had_id",&ppfjet_had_id_);
     pf_tree_->Branch("ppfjet_had_candtrackind",&ppfjet_had_candtrackind_);
     if(doGenJets_){
       pf_tree_->Branch("ppfjet_had_E_mctruth",&ppfjet_had_E_mctruth_);
       pf_tree_->Branch("ppfjet_had_mcpdgId",&ppfjet_had_mcpdgId_);
     }
     pf_tree_->Branch("ppfjet_had_ntwrs",&ppfjet_had_ntwrs_);
     pf_tree_->Branch("ppfjet_ntwrs",&ppfjet_ntwrs_, "ppfjet_ntwrs/I");
     pf_tree_->Branch("ppfjet_twr_ieta",&ppfjet_twr_ieta_);
     pf_tree_->Branch("ppfjet_twr_iphi",&ppfjet_twr_iphi_);
     pf_tree_->Branch("ppfjet_twr_depth",&ppfjet_twr_depth_);
     pf_tree_->Branch("ppfjet_twr_subdet",&ppfjet_twr_subdet_);
     pf_tree_->Branch("ppfjet_twr_hade",&ppfjet_twr_hade_);
     pf_tree_->Branch("ppfjet_twr_frac",&ppfjet_twr_frac_);
     pf_tree_->Branch("ppfjet_twr_candtrackind",&ppfjet_twr_candtrackind_);
     pf_tree_->Branch("ppfjet_twr_hadind",&ppfjet_twr_hadind_);
     pf_tree_->Branch("ppfjet_twr_elmttype",&ppfjet_twr_elmttype_);
     pf_tree_->Branch("ppfjet_twr_dR",&ppfjet_twr_dR_);
     pf_tree_->Branch("ppfjet_twr_clusterind",&ppfjet_twr_clusterind_);
     pf_tree_->Branch("ppfjet_cluster_n",&ppfjet_cluster_n_, "ppfjet_cluster_n/I");
     pf_tree_->Branch("ppfjet_cluster_eta",&ppfjet_cluster_eta_);
     pf_tree_->Branch("ppfjet_cluster_phi",&ppfjet_cluster_phi_);
     pf_tree_->Branch("ppfjet_cluster_dR",&ppfjet_cluster_dR_);
     pf_tree_->Branch("ppfjet_ncandtracks",&ppfjet_ncandtracks_, "ppfjet_ncandtracks/I");
     pf_tree_->Branch("ppfjet_candtrack_px",&ppfjet_candtrack_px_);
     pf_tree_->Branch("ppfjet_candtrack_py",&ppfjet_candtrack_py_);
     pf_tree_->Branch("ppfjet_candtrack_pz",&ppfjet_candtrack_pz_);
     pf_tree_->Branch("ppfjet_candtrack_EcalE",&ppfjet_candtrack_EcalE_);
 
     // Subleading jet info
     pf_tree_->Branch("pfjet2_pt",&pfjet2_pt_, "pfjet2_pt/F");
     pf_tree_->Branch("pfjet2_p",&pfjet2_p_, "pfjet2_p/F");
     pf_tree_->Branch("pfjet2_E",&pfjet2_E_, "pfjet2_E/F");
     pf_tree_->Branch("pfjet2_E_NPVcorr",&pfjet2_E_NPVcorr_, "pfjet2_E_NPVcorr/F");
     pf_tree_->Branch("pfjet2_area",&pfjet2_area_, "pfjet2_area/F");
     pf_tree_->Branch("pfjet2_eta",&pfjet2_eta_, "pfjet2_eta/F");
     pf_tree_->Branch("pfjet2_phi",&pfjet2_phi_, "pfjet2_phi/F");
     pf_tree_->Branch("pfjet2_scale",&pfjet2_scale_, "pfjet2_scale/F");
     pf_tree_->Branch("pfjet2_NeutralHadronFrac", &pfjet2_NeutralHadronFrac_, "pfjet2_NeutralHadronFrac/F");
     pf_tree_->Branch("pfjet2_NeutralEMFrac", &pfjet2_NeutralEMFrac_, "pfjet2_NeutralEMFrac/F");
     pf_tree_->Branch("pfjet2_nConstituents", &pfjet2_nConstituents_, "pfjet2_nConstituents/I");
     pf_tree_->Branch("pfjet2_ChargedHadronFrac", &pfjet2_ChargedHadronFrac_, "pfjet2_ChargedHadronFrac/F");
     pf_tree_->Branch("pfjet2_ChargedMultiplicity", &pfjet2_ChargedMultiplicity_, "pfjet2_ChargedMultiplicity/F");
     pf_tree_->Branch("pfjet2_ChargedEMFrac", &pfjet2_ChargedEMFrac_, "pfjet2_ChargedEMFrac/F");
     if(doGenJets_){
       pf_tree_->Branch("pfjet2_genpt",&pfjet2_genpt_, "pfjet2_genpt/F");
       pf_tree_->Branch("pfjet2_genp",&pfjet2_genp_, "pfjet2_genp/F");
       pf_tree_->Branch("pfjet2_genE",&pfjet2_genE_, "pfjet2_genE/F");
       pf_tree_->Branch("pfjet2_gendr",&pfjet2_gendr_, "pfjet2_gendr/F");
     }
     pf_tree_->Branch("pfjet2_unkown_E",&pfjet2_unkown_E_, "pfjet2_unkown_E/F");
     pf_tree_->Branch("pfjet2_electron_E",&pfjet2_electron_E_, "pfjet2_electron_E/F");
     pf_tree_->Branch("pfjet2_muon_E",&pfjet2_muon_E_, "pfjet2_muon_E/F");
     pf_tree_->Branch("pfjet2_photon_E",&pfjet2_photon_E_, "pfjet2_photon_E/F");
     pf_tree_->Branch("pfjet2_unkown_px",&pfjet2_unkown_px_, "pfjet2_unkown_px/F");
     pf_tree_->Branch("pfjet2_electron_px",&pfjet2_electron_px_, "pfjet2_electron_px/F");
     pf_tree_->Branch("pfjet2_muon_px",&pfjet2_muon_px_, "pfjet2_muon_px/F");
     pf_tree_->Branch("pfjet2_photon_px",&pfjet2_photon_px_, "pfjet2_photon_px/F");
     pf_tree_->Branch("pfjet2_unkown_py",&pfjet2_unkown_py_, "pfjet2_unkown_py/F");
     pf_tree_->Branch("pfjet2_electron_py",&pfjet2_electron_py_, "pfjet2_electron_py/F");
     pf_tree_->Branch("pfjet2_muon_py",&pfjet2_muon_py_, "pfjet2_muon_py/F");
     pf_tree_->Branch("pfjet2_photon_py",&pfjet2_photon_py_, "pfjet2_photon_py/F");
     pf_tree_->Branch("pfjet2_unkown_pz",&pfjet2_unkown_pz_, "pfjet2_unkown_pz/F");
     pf_tree_->Branch("pfjet2_electron_pz",&pfjet2_electron_pz_, "pfjet2_electron_pz/F");
     pf_tree_->Branch("pfjet2_muon_pz",&pfjet2_muon_pz_, "pfjet2_muon_pz/F");
     pf_tree_->Branch("pfjet2_photon_pz",&pfjet2_photon_pz_, "pfjet2_photon_pz/F");
     pf_tree_->Branch("pfjet2_unkown_EcalE",&pfjet2_unkown_EcalE_, "pfjet2_unkown_EcalE/F");
     pf_tree_->Branch("pfjet2_electron_EcalE",&pfjet2_electron_EcalE_, "pfjet2_electron_EcalE/F");
     pf_tree_->Branch("pfjet2_muon_EcalE",&pfjet2_muon_EcalE_, "pfjet2_muon_EcalE/F");
     pf_tree_->Branch("pfjet2_photon_EcalE",&pfjet2_photon_EcalE_, "pfjet2_photon_EcalE/F");
     pf_tree_->Branch("pfjet2_unkown_n",&pfjet2_unkown_n_, "pfjet2_unkown_n/I");
     pf_tree_->Branch("pfjet2_electron_n",&pfjet2_electron_n_, "pfjet2_electron_n/I");
     pf_tree_->Branch("pfjet2_muon_n",&pfjet2_muon_n_, "pfjet2_muon_n/I");
     pf_tree_->Branch("pfjet2_photon_n",&pfjet2_photon_n_, "pfjet2_photon_n/I");
     pf_tree_->Branch("pfjet2_had_n",&pfjet2_had_n_, "pfjet2_had_n/I");
     pf_tree_->Branch("pfjet2_had_E",&pfjet2_had_E_);
     pf_tree_->Branch("pfjet2_had_px",&pfjet2_had_px_);
     pf_tree_->Branch("pfjet2_had_py",&pfjet2_had_py_);
     pf_tree_->Branch("pfjet2_had_pz",&pfjet2_had_pz_);
     pf_tree_->Branch("pfjet2_had_EcalE",&pfjet2_had_EcalE_);
     pf_tree_->Branch("pfjet2_had_rawHcalE",&pfjet2_had_rawHcalE_);
     pf_tree_->Branch("pfjet2_had_emf",&pfjet2_had_emf_);
     pf_tree_->Branch("pfjet2_had_id",&pfjet2_had_id_);
     pf_tree_->Branch("pfjet2_had_candtrackind",&pfjet2_had_candtrackind_);
     if(doGenJets_){
       pf_tree_->Branch("pfjet2_had_E_mctruth",&pfjet2_had_E_mctruth_);
       pf_tree_->Branch("pfjet2_had_mcpdgId",&pfjet2_had_mcpdgId_);
     }
     pf_tree_->Branch("pfjet2_had_ntwrs",&pfjet2_had_ntwrs_);
     pf_tree_->Branch("pfjet2_ntwrs",&pfjet2_ntwrs_, "pfjet2_ntwrs/I");
     pf_tree_->Branch("pfjet2_twr_ieta",&pfjet2_twr_ieta_);
     pf_tree_->Branch("pfjet2_twr_iphi",&pfjet2_twr_iphi_);
     pf_tree_->Branch("pfjet2_twr_depth",&pfjet2_twr_depth_);
     pf_tree_->Branch("pfjet2_twr_subdet",&pfjet2_twr_subdet_);
     pf_tree_->Branch("pfjet2_twr_hade",&pfjet2_twr_hade_);
     pf_tree_->Branch("pfjet2_twr_frac",&pfjet2_twr_frac_);
     pf_tree_->Branch("pfjet2_twr_candtrackind",&pfjet2_twr_candtrackind_);
     pf_tree_->Branch("pfjet2_twr_hadind",&pfjet2_twr_hadind_);
     pf_tree_->Branch("pfjet2_twr_elmttype",&pfjet2_twr_elmttype_);
     pf_tree_->Branch("pfjet2_twr_dR",&pfjet2_twr_dR_);
     pf_tree_->Branch("pfjet2_twr_clusterind",&pfjet2_twr_clusterind_);
     pf_tree_->Branch("pfjet2_cluster_n",&pfjet2_cluster_n_, "pfjet2_cluster_n/I");
     pf_tree_->Branch("pfjet2_cluster_eta",&pfjet2_cluster_eta_);
     pf_tree_->Branch("pfjet2_cluster_phi",&pfjet2_cluster_phi_);
     pf_tree_->Branch("pfjet2_cluster_dR",&pfjet2_cluster_dR_);
     pf_tree_->Branch("pfjet2_ncandtracks",&pfjet2_ncandtracks_, "pfjet2_ncandtracks/I");
     pf_tree_->Branch("pfjet2_candtrack_px",&pfjet2_candtrack_px_);
     pf_tree_->Branch("pfjet2_candtrack_py",&pfjet2_candtrack_py_);
     pf_tree_->Branch("pfjet2_candtrack_pz",&pfjet2_candtrack_pz_);
     pf_tree_->Branch("pfjet2_candtrack_EcalE",&pfjet2_candtrack_EcalE_);
 
     // third pf jet
     pf_tree_->Branch("pf_thirdjet_et", &pf_thirdjet_et_, "pf_thirdjet_et/F");
     pf_tree_->Branch("pf_thirdjet_pt", &pf_thirdjet_pt_, "pf_thirdjet_pt/F");
     pf_tree_->Branch("pf_thirdjet_p", &pf_thirdjet_p_, "pf_thirdjet_p/F");
     pf_tree_->Branch("pf_thirdjet_px", &pf_thirdjet_px_, "pf_thirdjet_px/F");
     pf_tree_->Branch("pf_thirdjet_py", &pf_thirdjet_py_, "pf_thirdjet_py/F");
     pf_tree_->Branch("pf_thirdjet_E", &pf_thirdjet_E_, "pf_thirdjet_E/F");
     pf_tree_->Branch("pf_thirdjet_eta", &pf_thirdjet_eta_, "pf_thirdjet_eta/F");
     pf_tree_->Branch("pf_thirdjet_phi", &pf_thirdjet_phi_, "pf_thirdjet_phi/F");
     pf_tree_->Branch("pf_thirdjet_scale", &pf_thirdjet_scale_, "pf_thirdjet_scale/F");
 
     pf_tree_->Branch("met_value", &met_value_, "met_value/F");
     pf_tree_->Branch("met_phi", &met_phi_, "met_phi/F");
     pf_tree_->Branch("met_sumEt", &met_sumEt_, "met_sumEt/F");
     pf_tree_->Branch("metType1_value", &metType1_value_, "metType1_value/F");
     pf_tree_->Branch("metType1_phi", &metType1_phi_, "metType1_phi/F");
     pf_tree_->Branch("metType1_sumEt", &metType1_sumEt_, "metType1_sumEt/F");
     pf_tree_->Branch("pf_NPV",&pf_NPV_, "pf_NPV/I");
   }
 
   return;
 }  

void GammaJetAnalysis::beginRun	(	const edm::Run &	iRun,
		const edm::EventSetup &	setup
	)

privatevirtual

Reimplemented from edm::EDAnalyzer.

Definition at line 1572 of file GammaJetAnalysis.cc.

References debug_, Exception, hltPrescaleProvider_, ignoreHLT_, HLTPrescaleProvider::init(), jetTrigNamesV_, photonTrigNamesV_, FSQHLTOfflineSource_cfi::processName, edm::errors::ProductNotFound, and AlCaHLTBitMon_QueryRunRegistry::string.

                                                  {
   if (debug_>1) edm::LogInfo("GammaJetAnalysis") << "beginRun()";
 
   if (!ignoreHLT_) {
     int noPhotonTrigger= (photonTrigNamesV_.size()==0) ? 1:0;
     int noJetTrigger= (jetTrigNamesV_.size()==0) ? 1:0;
     if (!noPhotonTrigger &&
     (photonTrigNamesV_.size()==1) &&
     (photonTrigNamesV_[0].length()==0)) noPhotonTrigger=1;
     if (!noJetTrigger &&
     (jetTrigNamesV_.size()==1) &&
     (jetTrigNamesV_[0].length()==0)) noJetTrigger=1;
     if (noPhotonTrigger && noJetTrigger) {
       ignoreHLT_=true;
       if (debug_>1) edm::LogInfo("GammaJetAnalysis") << "HLT trigger ignored: no trigger requested";
     }
   } else {
     // clear trigger names, if needed
     photonTrigNamesV_.clear();
     jetTrigNamesV_.clear();
   }
 
   if (!ignoreHLT_) {
     if (debug_>0) edm::LogInfo("GammaJetAnalysis") << "Initializing trigger information for individual run";
     bool changed(true);
     std::string processName="HLT";
     if (hltPrescaleProvider_.init(iRun,setup,processName,changed)) {
       // if init returns TRUE, initialisation has succeeded!
       if (changed) {
     // The HLT config has actually changed wrt the previous Run, hence rebook your
     // histograms or do anything else dependent on the revised HLT config
       }
     }
     else {
       // if init returns FALSE, initialisation has NOT succeeded, which indicates a problem
       // with the file and/or code and needs to be investigated!
       throw edm::Exception(edm::errors::ProductNotFound)
     << " HLT config extraction failure with process name " << processName;
       // In this case, all access methods will return empty values!
     }
   }
 }

template<class JetPair_type >

float GammaJetAnalysis::calc_dPhi	(	const PhotonPair &	pho,
		const JetPair_type &	jet
	)

inlineprivate

Definition at line 286 of file GammaJetAnalysis.h.

References PhotonPair::isValid(), reco::LeafCandidate::phi(), and PhotonPair::photon().

Referenced by analyze().

                                                                   {
     if (!pho.isValid() || !jet.isValid()) return 9999.;
     float phi1=pho.photon()->phi();
     float phi2=jet.jet()->phi();
     float dphi=fabs(phi1-phi2);
     const float cPi= 4*atan(1);
     while (dphi>cPi) dphi = fabs(2*cPi - dphi);
     return dphi;
   }

void GammaJetAnalysis::clear_leadingPfJetVars ( )

private

Definition at line 1751 of file GammaJetAnalysis.cc.

References ppfjet_area_, ppfjet_candtrack_EcalE_, ppfjet_candtrack_px_, ppfjet_candtrack_py_, ppfjet_candtrack_pz_, ppfjet_ChargedEMFrac_, ppfjet_ChargedHadronFrac_, ppfjet_ChargedMultiplicity_, ppfjet_cluster_dR_, ppfjet_cluster_eta_, ppfjet_cluster_n_, ppfjet_cluster_phi_, ppfjet_E_, ppfjet_E_NPVcorr_, ppfjet_electron_E_, ppfjet_electron_EcalE_, ppfjet_electron_n_, ppfjet_electron_px_, ppfjet_electron_py_, ppfjet_electron_pz_, ppfjet_eta_, ppfjet_gendr_, ppfjet_genE_, ppfjet_genp_, ppfjet_genpt_, ppfjet_had_candtrackind_, ppfjet_had_E_, ppfjet_had_E_mctruth_, ppfjet_had_EcalE_, ppfjet_had_emf_, ppfjet_had_id_, ppfjet_had_mcpdgId_, ppfjet_had_n_, ppfjet_had_ntwrs_, ppfjet_had_px_, ppfjet_had_py_, ppfjet_had_pz_, ppfjet_had_rawHcalE_, ppfjet_muon_E_, ppfjet_muon_EcalE_, ppfjet_muon_n_, ppfjet_muon_px_, ppfjet_muon_py_, ppfjet_muon_pz_, ppfjet_ncandtracks_, ppfjet_nConstituents_, ppfjet_NeutralEMFrac_, ppfjet_NeutralHadronFrac_, ppfjet_ntwrs_, ppfjet_p_, ppfjet_phi_, ppfjet_photon_E_, ppfjet_photon_EcalE_, ppfjet_photon_n_, ppfjet_photon_px_, ppfjet_photon_py_, ppfjet_photon_pz_, ppfjet_pt_, ppfjet_scale_, ppfjet_twr_candtrackind_, ppfjet_twr_clusterind_, ppfjet_twr_depth_, ppfjet_twr_dR_, ppfjet_twr_elmttype_, ppfjet_twr_frac_, ppfjet_twr_hade_, ppfjet_twr_hadind_, ppfjet_twr_ieta_, ppfjet_twr_iphi_, ppfjet_twr_subdet_, ppfjet_unkown_E_, ppfjet_unkown_EcalE_, ppfjet_unkown_n_, ppfjet_unkown_px_, ppfjet_unkown_py_, and ppfjet_unkown_pz_.

Referenced by analyze().

                                               {
   ppfjet_pt_ = ppfjet_p_ = ppfjet_E_ = 0;
   ppfjet_eta_ = ppfjet_phi_ = ppfjet_scale_ = 0.;
   ppfjet_area_ = ppfjet_E_NPVcorr_ = 0.;
   ppfjet_NeutralHadronFrac_ = ppfjet_NeutralEMFrac_ = 0.;
   ppfjet_nConstituents_ = 0;
   ppfjet_ChargedHadronFrac_ = ppfjet_ChargedMultiplicity_ = 0;
   ppfjet_ChargedEMFrac_ = 0.;
   ppfjet_gendr_ = ppfjet_genpt_ = ppfjet_genp_ = ppfjet_genE_ = 0.;
   // Reset particle variables
   ppfjet_unkown_E_ = ppfjet_unkown_px_ = ppfjet_unkown_py_ = ppfjet_unkown_pz_ = ppfjet_unkown_EcalE_ = 0.0;
   ppfjet_electron_E_ = ppfjet_electron_px_ = ppfjet_electron_py_ = ppfjet_electron_pz_ = ppfjet_electron_EcalE_ = 0.0;
   ppfjet_muon_E_ = ppfjet_muon_px_ = ppfjet_muon_py_ = ppfjet_muon_pz_ = ppfjet_muon_EcalE_ = 0.0;
   ppfjet_photon_E_ = ppfjet_photon_px_ = ppfjet_photon_py_ = ppfjet_photon_pz_ = ppfjet_photon_EcalE_ = 0.0;
   ppfjet_unkown_n_ = ppfjet_electron_n_ = ppfjet_muon_n_ = ppfjet_photon_n_ = 0;
   ppfjet_had_n_ = 0;
   ppfjet_ntwrs_ = 0;
   ppfjet_cluster_n_ = 0;
   ppfjet_ncandtracks_ = 0;
 
   ppfjet_had_E_.clear();
   ppfjet_had_px_.clear();
   ppfjet_had_py_.clear();
   ppfjet_had_pz_.clear();
   ppfjet_had_EcalE_.clear();
   ppfjet_had_rawHcalE_.clear();
   ppfjet_had_emf_.clear();
   ppfjet_had_E_mctruth_.clear();
   ppfjet_had_id_.clear();
   ppfjet_had_candtrackind_.clear();
   ppfjet_had_mcpdgId_.clear();
   ppfjet_had_ntwrs_.clear();
   ppfjet_twr_ieta_.clear();
   ppfjet_twr_iphi_.clear();
   ppfjet_twr_depth_.clear();
   ppfjet_twr_subdet_.clear();
   ppfjet_twr_candtrackind_.clear();
   ppfjet_twr_hadind_.clear();
   ppfjet_twr_elmttype_.clear();
   ppfjet_twr_hade_.clear();
   ppfjet_twr_frac_.clear();
   ppfjet_twr_dR_.clear();
   ppfjet_twr_clusterind_.clear();
   ppfjet_cluster_eta_.clear();
   ppfjet_cluster_phi_.clear();
   ppfjet_cluster_dR_.clear();
   ppfjet_candtrack_px_.clear();
   ppfjet_candtrack_py_.clear();
   ppfjet_candtrack_pz_.clear();
   ppfjet_candtrack_EcalE_.clear();
 
 }

void GammaJetAnalysis::copy_leadingPfJetVars_to_pfJet2 ( )

private

Definition at line 1806 of file GammaJetAnalysis.cc.

References pfjet2_area_, pfjet2_candtrack_EcalE_, pfjet2_candtrack_px_, pfjet2_candtrack_py_, pfjet2_candtrack_pz_, pfjet2_ChargedEMFrac_, pfjet2_ChargedHadronFrac_, pfjet2_ChargedMultiplicity_, pfjet2_cluster_dR_, pfjet2_cluster_eta_, pfjet2_cluster_n_, pfjet2_cluster_phi_, pfjet2_E_, pfjet2_E_NPVcorr_, pfjet2_electron_E_, pfjet2_electron_EcalE_, pfjet2_electron_n_, pfjet2_electron_px_, pfjet2_electron_py_, pfjet2_electron_pz_, pfjet2_eta_, pfjet2_gendr_, pfjet2_genE_, pfjet2_genp_, pfjet2_genpt_, pfjet2_had_candtrackind_, pfjet2_had_E_, pfjet2_had_E_mctruth_, pfjet2_had_EcalE_, pfjet2_had_emf_, pfjet2_had_id_, pfjet2_had_mcpdgId_, pfjet2_had_n_, pfjet2_had_ntwrs_, pfjet2_had_px_, pfjet2_had_py_, pfjet2_had_pz_, pfjet2_had_rawHcalE_, pfjet2_muon_E_, pfjet2_muon_EcalE_, pfjet2_muon_n_, pfjet2_muon_px_, pfjet2_muon_py_, pfjet2_muon_pz_, pfjet2_ncandtracks_, pfjet2_nConstituents_, pfjet2_NeutralEMFrac_, pfjet2_NeutralHadronFrac_, pfjet2_ntwrs_, pfjet2_p_, pfjet2_phi_, pfjet2_photon_E_, pfjet2_photon_EcalE_, pfjet2_photon_n_, pfjet2_photon_px_, pfjet2_photon_py_, pfjet2_photon_pz_, pfjet2_pt_, pfjet2_scale_, pfjet2_twr_candtrackind_, pfjet2_twr_clusterind_, pfjet2_twr_depth_, pfjet2_twr_dR_, pfjet2_twr_elmttype_, pfjet2_twr_frac_, pfjet2_twr_hade_, pfjet2_twr_hadind_, pfjet2_twr_ieta_, pfjet2_twr_iphi_, pfjet2_twr_subdet_, pfjet2_unkown_E_, pfjet2_unkown_EcalE_, pfjet2_unkown_n_, pfjet2_unkown_px_, pfjet2_unkown_py_, pfjet2_unkown_pz_, ppfjet_area_, ppfjet_candtrack_EcalE_, ppfjet_candtrack_px_, ppfjet_candtrack_py_, ppfjet_candtrack_pz_, ppfjet_ChargedEMFrac_, ppfjet_ChargedHadronFrac_, ppfjet_ChargedMultiplicity_, ppfjet_cluster_dR_, ppfjet_cluster_eta_, ppfjet_cluster_n_, ppfjet_cluster_phi_, ppfjet_E_, ppfjet_E_NPVcorr_, ppfjet_electron_E_, ppfjet_electron_EcalE_, ppfjet_electron_n_, ppfjet_electron_px_, ppfjet_electron_py_, ppfjet_electron_pz_, ppfjet_eta_, ppfjet_gendr_, ppfjet_genE_, ppfjet_genp_, ppfjet_genpt_, ppfjet_had_candtrackind_, ppfjet_had_E_, ppfjet_had_E_mctruth_, ppfjet_had_EcalE_, ppfjet_had_emf_, ppfjet_had_id_, ppfjet_had_mcpdgId_, ppfjet_had_n_, ppfjet_had_ntwrs_, ppfjet_had_px_, ppfjet_had_py_, ppfjet_had_pz_, ppfjet_had_rawHcalE_, ppfjet_muon_E_, ppfjet_muon_EcalE_, ppfjet_muon_n_, ppfjet_muon_px_, ppfjet_muon_py_, ppfjet_muon_pz_, ppfjet_ncandtracks_, ppfjet_nConstituents_, ppfjet_NeutralEMFrac_, ppfjet_NeutralHadronFrac_, ppfjet_ntwrs_, ppfjet_p_, ppfjet_phi_, ppfjet_photon_E_, ppfjet_photon_EcalE_, ppfjet_photon_n_, ppfjet_photon_px_, ppfjet_photon_py_, ppfjet_photon_pz_, ppfjet_pt_, ppfjet_scale_, ppfjet_twr_candtrackind_, ppfjet_twr_clusterind_, ppfjet_twr_depth_, ppfjet_twr_dR_, ppfjet_twr_elmttype_, ppfjet_twr_frac_, ppfjet_twr_hade_, ppfjet_twr_hadind_, ppfjet_twr_ieta_, ppfjet_twr_iphi_, ppfjet_twr_subdet_, ppfjet_unkown_E_, ppfjet_unkown_EcalE_, ppfjet_unkown_n_, ppfjet_unkown_px_, ppfjet_unkown_py_, and ppfjet_unkown_pz_.

Referenced by analyze().

                                                        {
   pfjet2_pt_ = ppfjet_pt_;
   pfjet2_p_ = ppfjet_p_;
   pfjet2_E_ = ppfjet_E_;
   pfjet2_eta_ = ppfjet_eta_;
   pfjet2_phi_ = ppfjet_phi_;
   pfjet2_scale_ = ppfjet_scale_;
   pfjet2_area_ = ppfjet_area_;
   pfjet2_E_NPVcorr_ = ppfjet_E_NPVcorr_;
   pfjet2_NeutralHadronFrac_ = ppfjet_NeutralHadronFrac_;
   pfjet2_NeutralEMFrac_ = ppfjet_NeutralEMFrac_;
   pfjet2_nConstituents_ = ppfjet_nConstituents_;
   pfjet2_ChargedHadronFrac_ = ppfjet_ChargedHadronFrac_;
   pfjet2_ChargedMultiplicity_ = ppfjet_ChargedMultiplicity_;
   pfjet2_ChargedEMFrac_ = ppfjet_ChargedEMFrac_;
 
   pfjet2_gendr_ = ppfjet_gendr_;
   pfjet2_genpt_ = ppfjet_genpt_;
   pfjet2_genp_ = ppfjet_genp_;
   pfjet2_genE_ = ppfjet_genE_;
 
   pfjet2_unkown_E_ = ppfjet_unkown_E_;
   pfjet2_unkown_px_ = ppfjet_unkown_px_;
   pfjet2_unkown_py_ = ppfjet_unkown_py_;
   pfjet2_unkown_pz_ = ppfjet_unkown_pz_;
   pfjet2_unkown_EcalE_ = ppfjet_unkown_EcalE_;
 
   pfjet2_electron_E_ = ppfjet_electron_E_;
   pfjet2_electron_px_ = ppfjet_electron_px_;
   pfjet2_electron_py_ = ppfjet_electron_py_;
   pfjet2_electron_pz_ = ppfjet_electron_pz_;
   pfjet2_electron_EcalE_ = ppfjet_electron_EcalE_;
 
   pfjet2_muon_E_ = ppfjet_muon_E_;
   pfjet2_muon_px_ = ppfjet_muon_px_;
   pfjet2_muon_py_ = ppfjet_muon_py_;
   pfjet2_muon_pz_ = ppfjet_muon_pz_;
   pfjet2_muon_EcalE_ = ppfjet_muon_EcalE_;
 
   pfjet2_photon_E_ = ppfjet_photon_E_;
   pfjet2_photon_px_ = ppfjet_photon_px_;
   pfjet2_photon_py_ = ppfjet_photon_py_;
   pfjet2_photon_pz_ = ppfjet_photon_pz_;
   pfjet2_photon_EcalE_ = ppfjet_photon_EcalE_;
 
   pfjet2_unkown_n_ = ppfjet_unkown_n_;
   pfjet2_electron_n_ = ppfjet_electron_n_;
   pfjet2_muon_n_ = ppfjet_muon_n_;
   pfjet2_photon_n_ = ppfjet_photon_n_;
   pfjet2_had_n_ = ppfjet_had_n_;
 
   pfjet2_had_E_ = ppfjet_had_E_;
   pfjet2_had_px_ = ppfjet_had_px_;
   pfjet2_had_py_ = ppfjet_had_py_;
   pfjet2_had_pz_ = ppfjet_had_pz_;
   pfjet2_had_EcalE_ = ppfjet_had_EcalE_;
   pfjet2_had_rawHcalE_ = ppfjet_had_rawHcalE_;
   pfjet2_had_emf_ = ppfjet_had_emf_;
   pfjet2_had_E_mctruth_ = ppfjet_had_E_mctruth_;
 
   pfjet2_had_id_ = ppfjet_had_id_;
   pfjet2_had_candtrackind_ = ppfjet_had_candtrackind_;
   pfjet2_had_mcpdgId_ = ppfjet_had_mcpdgId_;
   pfjet2_had_ntwrs_ = ppfjet_had_ntwrs_;
 
   pfjet2_ntwrs_ = ppfjet_ntwrs_;
   pfjet2_twr_ieta_ = ppfjet_twr_ieta_;
   pfjet2_twr_iphi_ = ppfjet_twr_iphi_;
   pfjet2_twr_depth_ = ppfjet_twr_depth_;
   pfjet2_twr_subdet_ = ppfjet_twr_subdet_;
   pfjet2_twr_candtrackind_ = ppfjet_twr_candtrackind_;
   pfjet2_twr_hadind_ = ppfjet_twr_hadind_;
   pfjet2_twr_elmttype_ = ppfjet_twr_elmttype_;
   pfjet2_twr_clusterind_ = ppfjet_twr_clusterind_;
 
   pfjet2_twr_hade_ = ppfjet_twr_hade_;
   pfjet2_twr_frac_ = ppfjet_twr_frac_;
   pfjet2_twr_dR_ = ppfjet_twr_dR_;
 
   pfjet2_cluster_n_ = ppfjet_cluster_n_;
   pfjet2_cluster_eta_ = ppfjet_cluster_eta_;
   pfjet2_cluster_phi_ = ppfjet_cluster_phi_;
   pfjet2_cluster_dR_ = ppfjet_cluster_dR_;
 
   pfjet2_ncandtracks_ = ppfjet_ncandtracks_;
   pfjet2_candtrack_px_ = ppfjet_candtrack_px_;
   pfjet2_candtrack_py_ = ppfjet_candtrack_py_;
   pfjet2_candtrack_pz_ = ppfjet_candtrack_pz_;
   pfjet2_candtrack_EcalE_ = ppfjet_candtrack_EcalE_;
 }

double GammaJetAnalysis::deltaR	(	const reco::Jet *	j1,
		const reco::Jet *	j2
	)

private

Definition at line 1899 of file GammaJetAnalysis.cc.

References reco::LeafCandidate::eta(), reco::LeafCandidate::phi(), and mathSSE::sqrt().

Referenced by analyze(), deltaR(), pfEcalIso(), and pfTkIsoWithVertex().

 {
   double deta = j1->eta()-j2->eta();
   double dphi = std::fabs(j1->phi()-j2->phi());
   if(dphi>3.1415927) dphi = 2*3.1415927 - dphi;
   return std::sqrt(deta*deta + dphi*dphi);
 }

double GammaJetAnalysis::deltaR	(	const double	eta1,
		const double	phi1,
		const double	eta2,
		const double	phi2
	)

private

Definition at line 1909 of file GammaJetAnalysis.cc.

References mathSSE::sqrt().

 {
   double deta = eta1 - eta2;
   double dphi = std::fabs(phi1 - phi2);
   if(dphi>3.1415927) dphi = 2*3.1415927 - dphi;
   return std::sqrt(deta*deta + dphi*dphi);
 }

template<class Jet_type >

double GammaJetAnalysis::deltaR	(	const PhotonPair &	photon,
		const Jet_type *	jet
	)

inlineprivate

Definition at line 305 of file GammaJetAnalysis.h.

References deltaR(), reco::LeafCandidate::eta(), PhotonPair::isValid(), reco::LeafCandidate::phi(), and PhotonPair::photon().

                                                                {
     if (!photon.isValid()) return 9999.;
     return deltaR(photon.photon()->eta(),photon.photon()->phi(),
           jet->eta(), jet->phi());
   }

void GammaJetAnalysis::endJob ( void )

privatevirtual

Reimplemented from edm::EDAnalyzer.

Definition at line 1534 of file GammaJetAnalysis.cc.

References doGenJets_, doPFJets_, ignoreHLT_, jetTrigNamesV_, misc_tree_, nProcessed_, NULL, pf_tree_, photonTrigNamesV_, rootfile_, and workOnAOD_.

Referenced by o2o.O2ORunMgr::executeJob().

                          {
   rootfile_->cd();
 
   if(doPFJets_){
     pf_tree_->Write();
   }
   // write miscItems
   // Save info about the triggers and other misc items
   {
     rootfile_->cd();
     rootfile_->mkdir("miscItems");
     rootfile_->cd("miscItems");
     misc_tree_= new TTree("misc_tree","tree for misc.info");
     misc_tree_->Branch("ignoreHLT",&ignoreHLT_,"ignoreHLT/O");
     misc_tree_->Branch("doPFJets",&doPFJets_,"doPFJets/O");
     misc_tree_->Branch("doGenJets",&doGenJets_,"doGenJets/O");
     misc_tree_->Branch("workOnAOD",&workOnAOD_,"workOnAOD/O");
     misc_tree_->Branch("photonTriggerNames",&photonTrigNamesV_);
     misc_tree_->Branch("jetTriggerNames",&jetTrigNamesV_);
     misc_tree_->Branch("nProcessed",&nProcessed_,"nProcessed/l");
     // put time stamp
     time_t ltime;
     ltime=time(NULL);
     TString str = TString(asctime(localtime(&ltime)));
     if (str[str.Length()-1]=='\n') str.Remove(str.Length()-1,1);
     TObjString date(str);
     date.Write(str.Data());
     misc_tree_->Fill();
     misc_tree_->Write();
     rootfile_->cd();
   }
 
   rootfile_->Close();
 }

int GammaJetAnalysis::getEtaPhi ( const DetId id )

private

Definition at line 1932 of file GammaJetAnalysis.cc.

Referenced by analyze().

 {
   return id.rawId() & 0x3FFF; // Get 14 least-significant digits
 }

int GammaJetAnalysis::getEtaPhi ( const HcalDetId id )

private

Definition at line 1939 of file GammaJetAnalysis.cc.

 {
   return id.rawId() & 0x3FFF; // Get 14 least-significant digits
 }

float GammaJetAnalysis::pfEcalIso	(	const reco::Photon *	localPho1,
		edm::Handle< reco::PFCandidateCollection >	pfHandle,
		float	dRmax,
		float	dRVetoBarrel,
		float	dRVetoEndcap,
		float	etaStripBarrel,
		float	etaStripEndcap,
		float	energyBarrel,
		float	energyEndcap,
		reco::PFCandidate::ParticleType	pfToUse
	)

Definition at line 1620 of file GammaJetAnalysis.cc.

References reco::Photon::clone(), debug_, deltaR(), PFRecoTauDiscriminationAgainstElectronDeadECAL_cfi::dR, reco::LeafCandidate::energy(), HLT_25ns10e33_v2_cff::etaStripBarrel, HLT_25ns10e33_v2_cff::etaStripEndcap, i, reco::Photon::isEB(), edm::Ref< C, T, F >::isNonnull(), reco::LeafCandidate::momentum(), reco::PFCandidate::particleId(), edm::Handle< T >::product(), reco::LeafCandidate::pt(), reco::Photon::superCluster(), reco::PFCandidate::superClusterRef(), and reco::PFCandidate::vertex().

Referenced by analyze(), and pfHcalIso().

                                                                                                                                                                                                                                                                                           {
   if (debug_>1) edm::LogInfo("GammaJetAnalysis") << "Inside pfEcalIso";
   reco::Photon* localPho = localPho1->clone();
   float dRVeto;
   float etaStrip;
 
   if (localPho->isEB()) {
     dRVeto = dRVetoBarrel;
     etaStrip = etaStripBarrel;
   } else {
     dRVeto = dRVetoEndcap;
     etaStrip = etaStripEndcap;
   }
   const reco::PFCandidateCollection* forIsolation = pfHandle.product();
   int nsize = forIsolation->size();
   float sum = 0;
   for (int i=0; i<nsize; i++) {
     const reco::PFCandidate& pfc = (*forIsolation)[i];
     if (pfc.particleId() ==  pfToUse) {
       // Do not include the PFCandidate associated by SC Ref to the reco::Photon                                                       
       if(pfc.superClusterRef().isNonnull() && localPho->superCluster().isNonnull()) {
         if (pfc.superClusterRef() == localPho->superCluster())
           continue;
       }
 
       if (localPho->isEB()) {
         if (fabs(pfc.pt()) < energyBarrel)
           continue;
       } else {
         if (fabs(pfc.energy()) < energyEndcap)
           continue;
       }
       // Shift the photon direction vector according to the PF vertex                                                                  
       math::XYZPoint pfvtx = pfc.vertex();
       math::XYZVector photon_directionWrtVtx(localPho->superCluster()->x() - pfvtx.x(),
                                              localPho->superCluster()->y() - pfvtx.y(),
                                              localPho->superCluster()->z() - pfvtx.z());
 
       float dEta = fabs(photon_directionWrtVtx.Eta() - pfc.momentum().Eta());
       float dR = deltaR(photon_directionWrtVtx.Eta(), photon_directionWrtVtx.Phi(), pfc.momentum().Eta(), pfc.momentum().Phi());
 
       if (dEta < etaStrip)
         continue;
 
       if(dR > dRmax || dR < dRVeto)
         continue;
 
       sum += pfc.pt();
     }
   }
   return sum;
 }

float GammaJetAnalysis::pfHcalIso	(	const reco::Photon *	localPho,
		edm::Handle< reco::PFCandidateCollection >	pfHandle,
		float	dRmax,
		float	dRveto,
		reco::PFCandidate::ParticleType	pfToUse
	)

Definition at line 1675 of file GammaJetAnalysis.cc.

References debug_, and pfEcalIso().

Referenced by analyze().

                                                                                                                                                                         {
   if (debug_>1) edm::LogInfo("GammaJetAnalysis") << "Inside pfHcalIso";
   return pfEcalIso(localPho, pfHandle, dRmax, dRveto, dRveto, 0.0, 0.0, 0.0, 0.0, pfToUse);
 
 }

std::vector< float > GammaJetAnalysis::pfTkIsoWithVertex	(	const reco::Photon *	localPho1,
		edm::Handle< reco::PFCandidateCollection >	pfHandle,
		edm::Handle< reco::VertexCollection >	vtxHandle,
		float	dRmax,
		float	dRvetoBarrel,
		float	dRvetoEndcap,
		float	ptMin,
		float	dzMax,
		float	dxyMax,
		reco::PFCandidate::ParticleType	pfToUse
	)

Definition at line 1683 of file GammaJetAnalysis.cc.

References reco::Photon::clone(), debug_, deltaR(), PFRecoTauDiscriminationAgainstElectronDeadECAL_cfi::dR, i, reco::Photon::isEB(), reco::LeafCandidate::momentum(), reco::PFCandidate::particleId(), edm::Handle< T >::product(), reco::LeafCandidate::pt(), PtMinSelector_cfg::ptMin, mps_fire::result, reco::Photon::superCluster(), and reco::PFCandidate::trackRef().

Referenced by analyze().

                                                                                                                                                                                                                                                                                                             {
 
   if (debug_>1) edm::LogInfo("GammaJetAnalysis") << "Inside pfTkIsoWithVertex()";
   reco::Photon* localPho = localPho1->clone();
 
   float dRveto;
   if (localPho->isEB())
     dRveto = dRvetoBarrel;
   else
     dRveto = dRvetoEndcap;
 
   std::vector<float> result;
   const reco::PFCandidateCollection* forIsolation = pfHandle.product();
 
   //Calculate isolation sum separately for each vertex
   if (debug_>1) edm::LogInfo("GammaJetAnalysis") << "vtxHandle->size() = " << vtxHandle->size();
   for(unsigned int ivtx=0; ivtx<(vtxHandle->size()); ++ivtx) {
     if (debug_>1) edm::LogInfo("GammaJetAnalysis") << "Vtx " << ivtx;
     // Shift the photon according to the vertex                                                                                        
     reco::VertexRef vtx(vtxHandle, ivtx);
     math::XYZVector photon_directionWrtVtx(localPho->superCluster()->x() - vtx->x(),
                                            localPho->superCluster()->y() - vtx->y(),
                                            localPho->superCluster()->z() - vtx->z());
     if (debug_>1) edm::LogInfo("GammaJetAnalysis") << "pfTkIsoWithVertex :: Will Loop over the PFCandidates";
     float sum = 0;
     // Loop over the PFCandidates                                                                                                      
     for(unsigned i=0; i<forIsolation->size(); i++) {
       if (debug_>1) edm::LogInfo("GammaJetAnalysis") << "inside loop"; 
       const reco::PFCandidate& pfc = (*forIsolation)[i];
 
       //require that PFCandidate is a charged hadron
       if (debug_>1) {
     edm::LogInfo("GammaJetAnalysis") << "pfToUse=" << pfToUse;
     edm::LogInfo("GammaJetAnalysis") << "pfc.particleId()=" << pfc.particleId();
       }
       
       if (pfc.particleId() == pfToUse) {
     if (debug_>1) {
       edm::LogInfo("GammaJetAnalysis") << "\n ***** HERE pfc.particleId() == pfToUse ";
       edm::LogInfo("GammaJetAnalysis") << "pfc.pt()=" << pfc.pt();
     }
         if (pfc.pt() < ptMin) continue;
     
         float dz = fabs(pfc.trackRef()->dz(vtx->position()));
         if (dz > dzMax)       continue;
     
         float dxy = fabs(pfc.trackRef()->dxy(vtx->position()));
         if(fabs(dxy) > dxyMax) continue;
         float dR = deltaR(photon_directionWrtVtx.Eta(), photon_directionWrtVtx.Phi(), pfc.momentum().Eta(), pfc.momentum().Phi());
         if(dR > dRmax || dR < dRveto) continue;
         sum += pfc.pt();
     if (debug_>1) edm::LogInfo("GammaJetAnalysis") << "pt=" << pfc.pt();
       }
     }
     if (debug_>1)  edm::LogInfo("GammaJetAnalysis") << "sum=" << sum;
     sum = sum*1.0;
     result.push_back(sum);
   }
   if (debug_>1)  {
     edm::LogInfo("GammaJetAnalysis") << "Will return result";
     edm::LogInfo("GammaJetAnalysis") << "result" << &result;
     edm::LogInfo("GammaJetAnalysis") << "Result returned";
   }
   return result;
 }

Member Data Documentation

bool GammaJetAnalysis::allowNoPhoton_

private

Definition at line 157 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

TTree* GammaJetAnalysis::calo_tree_

private

Definition at line 199 of file GammaJetAnalysis.h.

int GammaJetAnalysis::debug_

private

Definition at line 137 of file GammaJetAnalysis.h.

Referenced by analyze(), beginRun(), GammaJetAnalysis(), pfEcalIso(), pfHcalIso(), and pfTkIsoWithVertex().

unsigned int GammaJetAnalysis::debugEvent

private

Definition at line 138 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

int GammaJetAnalysis::debugHLTTrigNames

private

Definition at line 139 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

bool GammaJetAnalysis::doGenJets_

private

Definition at line 191 of file GammaJetAnalysis.h.

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

bool GammaJetAnalysis::doPFJets_

private

Definition at line 190 of file GammaJetAnalysis.h.

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

int GammaJetAnalysis::eventNumber_

private

Definition at line 210 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

float GammaJetAnalysis::eventPtHat_

private

Definition at line 211 of file GammaJetAnalysis.h.

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

float GammaJetAnalysis::eventWeight_

private

Definition at line 211 of file GammaJetAnalysis.h.

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

std::string GammaJetAnalysis::genEventInfoName_

private

Definition at line 149 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

std::string GammaJetAnalysis::genJetCollName_

private

Definition at line 147 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

std::string GammaJetAnalysis::genParticleCollName_

private

Definition at line 148 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

std::string GammaJetAnalysis::hbheRecHitName_

private

Definition at line 150 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

std::string GammaJetAnalysis::hfRecHitName_

private

Definition at line 151 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

HLTPrescaleProvider GammaJetAnalysis::hltPrescaleProvider_

private

Definition at line 203 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginRun().

std::string GammaJetAnalysis::hoRecHitName_

private

Definition at line 152 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

bool GammaJetAnalysis::ignoreHLT_

private

Definition at line 193 of file GammaJetAnalysis.h.

Referenced by beginRun(), endJob(), and GammaJetAnalysis().

double GammaJetAnalysis::jet2EtMax_

private

Definition at line 161 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

double GammaJetAnalysis::jet3EtMax_

private

Definition at line 162 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

double GammaJetAnalysis::jetEtMin_

private

Definition at line 160 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

std::vector<int> GammaJetAnalysis::jetTrigFired_

private

Definition at line 206 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

std::vector<std::string> GammaJetAnalysis::jetTrigNamesV_

private

Definition at line 164 of file GammaJetAnalysis.h.

Referenced by analyze(), beginRun(), endJob(), and GammaJetAnalysis().

std::vector<int> GammaJetAnalysis::jetTrigPrescale_

private

Definition at line 207 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

int GammaJetAnalysis::lumiBlock_

private

Definition at line 210 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

float GammaJetAnalysis::met_phi_

private

Definition at line 218 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

float GammaJetAnalysis::met_sumEt_

private

Definition at line 218 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

float GammaJetAnalysis::met_value_

private

MET info.

Definition at line 218 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

float GammaJetAnalysis::metType1_phi_

private

Definition at line 219 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

float GammaJetAnalysis::metType1_sumEt_

private

Definition at line 219 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

float GammaJetAnalysis::metType1_value_

private

Definition at line 219 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

TTree* GammaJetAnalysis::misc_tree_

private

Definition at line 198 of file GammaJetAnalysis.h.

Referenced by endJob().

int GammaJetAnalysis::nGenJets_

private

Definition at line 212 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

int GammaJetAnalysis::nPFJets_

private

Definition at line 213 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

int GammaJetAnalysis::nPhotons_

private

Definition at line 212 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

ULong64_t GammaJetAnalysis::nProcessed_

private

Definition at line 214 of file GammaJetAnalysis.h.

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

int GammaJetAnalysis::pf_NPV_

private

Definition at line 215 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

float GammaJetAnalysis::pf_thirdjet_E_

private

Definition at line 282 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

float GammaJetAnalysis::pf_thirdjet_et_

private

Definition at line 280 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

float GammaJetAnalysis::pf_thirdjet_eta_

private

Definition at line 282 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

float GammaJetAnalysis::pf_thirdjet_p_

private

Definition at line 281 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

float GammaJetAnalysis::pf_thirdjet_phi_

private

Definition at line 282 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

float GammaJetAnalysis::pf_thirdjet_pt_

private

Definition at line 281 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

float GammaJetAnalysis::pf_thirdjet_px_

private

Definition at line 281 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

float GammaJetAnalysis::pf_thirdjet_py_

private

Definition at line 281 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

float GammaJetAnalysis::pf_thirdjet_scale_

private

Definition at line 282 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

TTree* GammaJetAnalysis::pf_tree_

private

Definition at line 200 of file GammaJetAnalysis.h.

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

float GammaJetAnalysis::pfjet2_area_

private

Definition at line 259 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<float> GammaJetAnalysis::pfjet2_candtrack_EcalE_

private

Definition at line 278 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<float> GammaJetAnalysis::pfjet2_candtrack_px_

private

Definition at line 278 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<float> GammaJetAnalysis::pfjet2_candtrack_py_

private

Definition at line 278 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<float> GammaJetAnalysis::pfjet2_candtrack_pz_

private

Definition at line 278 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::pfjet2_ChargedEMFrac_

private

Definition at line 262 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::pfjet2_ChargedHadronFrac_

private

Definition at line 262 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::pfjet2_ChargedMultiplicity_

private

Definition at line 262 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<float> GammaJetAnalysis::pfjet2_cluster_dR_

private

Definition at line 276 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<float> GammaJetAnalysis::pfjet2_cluster_eta_

private

Definition at line 276 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

int GammaJetAnalysis::pfjet2_cluster_n_

private

Definition at line 275 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<float> GammaJetAnalysis::pfjet2_cluster_phi_

private

Definition at line 276 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::pfjet2_E_

private

Definition at line 258 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::pfjet2_E_NPVcorr_

private

Definition at line 259 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::pfjet2_electron_E_

private

Definition at line 265 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::pfjet2_electron_EcalE_

private

Definition at line 265 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

int GammaJetAnalysis::pfjet2_electron_n_

private

Definition at line 268 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::pfjet2_electron_px_

private

Definition at line 265 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::pfjet2_electron_py_

private

Definition at line 265 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::pfjet2_electron_pz_

private

Definition at line 265 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::pfjet2_eta_

private

Definition at line 258 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::pfjet2_gendr_

private

Definition at line 263 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::pfjet2_genE_

private

Definition at line 263 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::pfjet2_genp_

private

Definition at line 263 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::pfjet2_genpt_

private

Definition at line 263 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<int> GammaJetAnalysis::pfjet2_had_candtrackind_

private

Definition at line 271 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<float> GammaJetAnalysis::pfjet2_had_E_

private

Definition at line 270 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<float> GammaJetAnalysis::pfjet2_had_E_mctruth_

private

Definition at line 270 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<float> GammaJetAnalysis::pfjet2_had_EcalE_

private

Definition at line 270 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<float> GammaJetAnalysis::pfjet2_had_emf_

private

Definition at line 270 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<int> GammaJetAnalysis::pfjet2_had_id_

private

Definition at line 271 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<int> GammaJetAnalysis::pfjet2_had_mcpdgId_

private

Definition at line 271 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

int GammaJetAnalysis::pfjet2_had_n_

private

Definition at line 269 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<int> GammaJetAnalysis::pfjet2_had_ntwrs_

private

Definition at line 271 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<float> GammaJetAnalysis::pfjet2_had_px_

private

Definition at line 270 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<float> GammaJetAnalysis::pfjet2_had_py_

private

Definition at line 270 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<float> GammaJetAnalysis::pfjet2_had_pz_

private

Definition at line 270 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<float> GammaJetAnalysis::pfjet2_had_rawHcalE_

private

Definition at line 270 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::pfjet2_muon_E_

private

Definition at line 266 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::pfjet2_muon_EcalE_

private

Definition at line 266 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

int GammaJetAnalysis::pfjet2_muon_n_

private

Definition at line 268 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::pfjet2_muon_px_

private

Definition at line 266 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::pfjet2_muon_py_

private

Definition at line 266 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::pfjet2_muon_pz_

private

Definition at line 266 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

int GammaJetAnalysis::pfjet2_ncandtracks_

private

Definition at line 277 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

int GammaJetAnalysis::pfjet2_nConstituents_

private

Definition at line 261 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::pfjet2_NeutralEMFrac_

private

Definition at line 260 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::pfjet2_NeutralHadronFrac_

private

Definition at line 260 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

int GammaJetAnalysis::pfjet2_ntwrs_

private

Definition at line 272 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::pfjet2_p_

private

Definition at line 258 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::pfjet2_phi_

private

Definition at line 258 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::pfjet2_photon_E_

private

Definition at line 267 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::pfjet2_photon_EcalE_

private

Definition at line 267 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

int GammaJetAnalysis::pfjet2_photon_n_

private

Definition at line 268 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::pfjet2_photon_px_

private

Definition at line 267 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::pfjet2_photon_py_

private

Definition at line 267 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::pfjet2_photon_pz_

private

Definition at line 267 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::pfjet2_pt_

private

Definition at line 258 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::pfjet2_scale_

private

Definition at line 258 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<int> GammaJetAnalysis::pfjet2_twr_candtrackind_

private

Definition at line 273 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<int> GammaJetAnalysis::pfjet2_twr_clusterind_

private

Definition at line 273 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<int> GammaJetAnalysis::pfjet2_twr_depth_

private

Definition at line 273 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<float> GammaJetAnalysis::pfjet2_twr_dR_

private

Definition at line 274 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<int> GammaJetAnalysis::pfjet2_twr_elmttype_

private

Definition at line 273 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<float> GammaJetAnalysis::pfjet2_twr_frac_

private

Definition at line 274 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<float> GammaJetAnalysis::pfjet2_twr_hade_

private

Definition at line 274 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<int> GammaJetAnalysis::pfjet2_twr_hadind_

private

Definition at line 273 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<int> GammaJetAnalysis::pfjet2_twr_ieta_

private

Definition at line 273 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<int> GammaJetAnalysis::pfjet2_twr_iphi_

private

Definition at line 273 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<int> GammaJetAnalysis::pfjet2_twr_subdet_

private

Definition at line 273 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::pfjet2_unkown_E_

private

Definition at line 264 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::pfjet2_unkown_EcalE_

private

Definition at line 264 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

int GammaJetAnalysis::pfjet2_unkown_n_

private

Definition at line 268 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::pfjet2_unkown_px_

private

Definition at line 264 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::pfjet2_unkown_py_

private

Definition at line 264 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::pfjet2_unkown_pz_

private

Definition at line 264 of file GammaJetAnalysis.h.

Referenced by beginJob(), and copy_leadingPfJetVars_to_pfJet2().

std::string GammaJetAnalysis::pfJetCollName_

private

Definition at line 145 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

std::string GammaJetAnalysis::pfJetCorrName_

private

Definition at line 146 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

edm::InputTag GammaJetAnalysis::pfMETColl

private

Definition at line 142 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

edm::InputTag GammaJetAnalysis::pfType1METColl

private

Definition at line 142 of file GammaJetAnalysis.h.

Referenced by GammaJetAnalysis().

float GammaJetAnalysis::pho_2nd_pt_

private

Definition at line 223 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

std::string GammaJetAnalysis::photonCollName_

private

Definition at line 144 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

double GammaJetAnalysis::photonJetDPhiMin_

private

Definition at line 159 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

double GammaJetAnalysis::photonPtMin_

private

Definition at line 158 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

std::vector<int> GammaJetAnalysis::photonTrigFired_

private

Definition at line 204 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

std::vector<std::string> GammaJetAnalysis::photonTrigNamesV_

private

Definition at line 163 of file GammaJetAnalysis.h.

Referenced by analyze(), beginRun(), endJob(), and GammaJetAnalysis().

std::vector<int> GammaJetAnalysis::photonTrigPrescale_

private

Definition at line 205 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

float GammaJetAnalysis::ppfjet_area_

private

Definition at line 236 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<float> GammaJetAnalysis::ppfjet_candtrack_EcalE_

private

Definition at line 255 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<float> GammaJetAnalysis::ppfjet_candtrack_px_

private

Definition at line 255 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<float> GammaJetAnalysis::ppfjet_candtrack_py_

private

Definition at line 255 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<float> GammaJetAnalysis::ppfjet_candtrack_pz_

private

Definition at line 255 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::ppfjet_ChargedEMFrac_

private

Definition at line 239 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::ppfjet_ChargedHadronFrac_

private

Definition at line 239 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::ppfjet_ChargedMultiplicity_

private

Definition at line 239 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<float> GammaJetAnalysis::ppfjet_cluster_dR_

private

Definition at line 253 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<float> GammaJetAnalysis::ppfjet_cluster_eta_

private

Definition at line 253 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

int GammaJetAnalysis::ppfjet_cluster_n_

private

Definition at line 252 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<float> GammaJetAnalysis::ppfjet_cluster_phi_

private

Definition at line 253 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::ppfjet_E_

private

Definition at line 235 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::ppfjet_E_NPVcorr_

private

Definition at line 236 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::ppfjet_electron_E_

private

Definition at line 242 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::ppfjet_electron_EcalE_

private

Definition at line 242 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

int GammaJetAnalysis::ppfjet_electron_n_

private

Definition at line 245 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::ppfjet_electron_px_

private

Definition at line 242 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::ppfjet_electron_py_

private

Definition at line 242 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::ppfjet_electron_pz_

private

Definition at line 242 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::ppfjet_eta_

private

Definition at line 235 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::ppfjet_gendr_

private

Definition at line 240 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::ppfjet_genE_

private

Definition at line 240 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::ppfjet_genp_

private

Definition at line 240 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::ppfjet_genpt_

private

Definition at line 240 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<int> GammaJetAnalysis::ppfjet_had_candtrackind_

private

Definition at line 248 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<float> GammaJetAnalysis::ppfjet_had_E_

private

Definition at line 247 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<float> GammaJetAnalysis::ppfjet_had_E_mctruth_

private

Definition at line 247 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<float> GammaJetAnalysis::ppfjet_had_EcalE_

private

Definition at line 247 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<float> GammaJetAnalysis::ppfjet_had_emf_

private

Definition at line 247 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<int> GammaJetAnalysis::ppfjet_had_id_

private

Definition at line 248 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<int> GammaJetAnalysis::ppfjet_had_mcpdgId_

private

Definition at line 248 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

int GammaJetAnalysis::ppfjet_had_n_

private

Definition at line 246 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<int> GammaJetAnalysis::ppfjet_had_ntwrs_

private

Definition at line 248 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<float> GammaJetAnalysis::ppfjet_had_px_

private

Definition at line 247 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<float> GammaJetAnalysis::ppfjet_had_py_

private

Definition at line 247 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<float> GammaJetAnalysis::ppfjet_had_pz_

private

Definition at line 247 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<float> GammaJetAnalysis::ppfjet_had_rawHcalE_

private

Definition at line 247 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::ppfjet_muon_E_

private

Definition at line 243 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::ppfjet_muon_EcalE_

private

Definition at line 243 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

int GammaJetAnalysis::ppfjet_muon_n_

private

Definition at line 245 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::ppfjet_muon_px_

private

Definition at line 243 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::ppfjet_muon_py_

private

Definition at line 243 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::ppfjet_muon_pz_

private

Definition at line 243 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

int GammaJetAnalysis::ppfjet_ncandtracks_

private

Definition at line 254 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

int GammaJetAnalysis::ppfjet_nConstituents_

private

Definition at line 238 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::ppfjet_NeutralEMFrac_

private

Definition at line 237 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::ppfjet_NeutralHadronFrac_

private

Definition at line 237 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

int GammaJetAnalysis::ppfjet_ntwrs_

private

Definition at line 249 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::ppfjet_p_

private

Definition at line 235 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::ppfjet_phi_

private

Definition at line 235 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::ppfjet_photon_E_

private

Definition at line 244 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::ppfjet_photon_EcalE_

private

Definition at line 244 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

int GammaJetAnalysis::ppfjet_photon_n_

private

Definition at line 245 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::ppfjet_photon_px_

private

Definition at line 244 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::ppfjet_photon_py_

private

Definition at line 244 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::ppfjet_photon_pz_

private

Definition at line 244 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::ppfjet_pt_

private

Definition at line 235 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::ppfjet_scale_

private

Definition at line 235 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<int> GammaJetAnalysis::ppfjet_twr_candtrackind_

private

Definition at line 250 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<int> GammaJetAnalysis::ppfjet_twr_clusterind_

private

Definition at line 250 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<int> GammaJetAnalysis::ppfjet_twr_depth_

private

Definition at line 250 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<float> GammaJetAnalysis::ppfjet_twr_dR_

private

Definition at line 251 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<int> GammaJetAnalysis::ppfjet_twr_elmttype_

private

Definition at line 250 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<float> GammaJetAnalysis::ppfjet_twr_frac_

private

Definition at line 251 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<float> GammaJetAnalysis::ppfjet_twr_hade_

private

Definition at line 251 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<int> GammaJetAnalysis::ppfjet_twr_hadind_

private

Definition at line 250 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<int> GammaJetAnalysis::ppfjet_twr_ieta_

private

Definition at line 250 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<int> GammaJetAnalysis::ppfjet_twr_iphi_

private

Definition at line 250 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

std::vector<int> GammaJetAnalysis::ppfjet_twr_subdet_

private

Definition at line 250 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::ppfjet_unkown_E_

private

Definition at line 241 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::ppfjet_unkown_EcalE_

private

Definition at line 241 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

int GammaJetAnalysis::ppfjet_unkown_n_

private

Definition at line 245 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::ppfjet_unkown_px_

private

Definition at line 241 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::ppfjet_unkown_py_

private

Definition at line 241 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

float GammaJetAnalysis::ppfjet_unkown_pz_

private

Definition at line 241 of file GammaJetAnalysis.h.

Referenced by analyze(), beginJob(), clear_leadingPfJetVars(), and copy_leadingPfJetVars_to_pfJet2().

std::string GammaJetAnalysis::prodProcess_

private

Definition at line 155 of file GammaJetAnalysis.h.

Referenced by GammaJetAnalysis().

std::string GammaJetAnalysis::pvCollName_

private

Definition at line 154 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

float GammaJetAnalysis::rho2012_

private

Definition at line 222 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

edm::InputTag GammaJetAnalysis::rhoCollection_

private

Definition at line 141 of file GammaJetAnalysis.h.

Referenced by GammaJetAnalysis().

TFile* GammaJetAnalysis::rootfile_

private

Definition at line 196 of file GammaJetAnalysis.h.

Referenced by beginJob(), and endJob().

std::string GammaJetAnalysis::rootHistFilename_

private

Definition at line 153 of file GammaJetAnalysis.h.

Referenced by beginJob(), and GammaJetAnalysis().

int GammaJetAnalysis::runNumber_

private

Definition at line 210 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

int GammaJetAnalysis::tagPho_ConvSafeEleVeto_

private

Definition at line 228 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

float GammaJetAnalysis::tagPho_EcalIsoDR04_

private

Definition at line 224 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

float GammaJetAnalysis::tagPho_energy_

private

Definition at line 223 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

float GammaJetAnalysis::tagPho_eta_

private

Definition at line 223 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

float GammaJetAnalysis::tagPho_genDeltaR_

private

Definition at line 231 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

float GammaJetAnalysis::tagPho_genEnergy_

private

Definition at line 230 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

float GammaJetAnalysis::tagPho_genEta_

private

Definition at line 230 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

float GammaJetAnalysis::tagPho_genPhi_

private

Definition at line 230 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

float GammaJetAnalysis::tagPho_genPt_

private

Definition at line 230 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

float GammaJetAnalysis::tagPho_HcalIsoDR0412_

private

Definition at line 224 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

float GammaJetAnalysis::tagPho_HcalIsoDR04_

private

Definition at line 224 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

float GammaJetAnalysis::tagPho_HoE_

private

Definition at line 224 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

int GammaJetAnalysis::tagPho_idLoose_

private

Definition at line 229 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

int GammaJetAnalysis::tagPho_idTight_

private

Definition at line 229 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

std::vector<std::vector<float> > GammaJetAnalysis::tagPho_pfiso_mycharged03

private

Definition at line 226 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

float GammaJetAnalysis::tagPho_pfiso_myneutral03_

private

Definition at line 225 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

float GammaJetAnalysis::tagPho_pfiso_myphoton03_

private

Definition at line 224 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

float GammaJetAnalysis::tagPho_phi_

private

Definition at line 223 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

int GammaJetAnalysis::tagPho_pixelSeed_

private

Definition at line 227 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

float GammaJetAnalysis::tagPho_pt_

private

Definition at line 223 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

float GammaJetAnalysis::tagPho_r9_

private

Definition at line 224 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

float GammaJetAnalysis::tagPho_sieie_

private

Definition at line 223 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

float GammaJetAnalysis::tagPho_TrkIsoHollowDR04_

private

Definition at line 224 of file GammaJetAnalysis.h.

Referenced by analyze(), and beginJob().

edm::EDGetTokenT<reco::BeamSpot> GammaJetAnalysis::tok_BS_

private

Definition at line 185 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

edm::EDGetTokenT<reco::ConversionCollection> GammaJetAnalysis::tok_Conv_

private

Definition at line 184 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

edm::EDGetTokenT<GenEventInfoProduct> GammaJetAnalysis::tok_GenEvInfo_

private

Definition at line 172 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

edm::EDGetTokenT<std::vector<reco::GenJet> > GammaJetAnalysis::tok_GenJet_

private

Definition at line 170 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

edm::EDGetTokenT<std::vector<reco::GenParticle> > GammaJetAnalysis::tok_GenPart_

private

Definition at line 171 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

edm::EDGetTokenT<reco::GsfElectronCollection> GammaJetAnalysis::tok_GsfElec_

private

Definition at line 182 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

edm::EDGetTokenT<edm::SortedCollection<HBHERecHit,edm::StrictWeakOrdering<HBHERecHit> > > GammaJetAnalysis::tok_HBHE_

private

Definition at line 173 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

edm::EDGetTokenT<edm::SortedCollection<HFRecHit,edm::StrictWeakOrdering<HFRecHit> > > GammaJetAnalysis::tok_HF_

private

Definition at line 174 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

edm::EDGetTokenT<edm::SortedCollection<HORecHit,edm::StrictWeakOrdering<HORecHit> > > GammaJetAnalysis::tok_HO_

private

Definition at line 175 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

edm::EDGetTokenT<edm::ValueMap<Bool_t> > GammaJetAnalysis::tok_loosePhoton_

private

Definition at line 176 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

edm::EDGetTokenT<std::vector<Bool_t> > GammaJetAnalysis::tok_loosePhotonV_

private

Definition at line 178 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

edm::EDGetTokenT<reco::PFCandidateCollection> GammaJetAnalysis::tok_PFCand_

private

Definition at line 180 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

edm::EDGetTokenT<reco::PFJetCollection> GammaJetAnalysis::tok_PFJet_

private

Definition at line 169 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

edm::EDGetTokenT<reco::PFMETCollection> GammaJetAnalysis::tok_PFMET_

private

Definition at line 187 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

edm::EDGetTokenT<reco::PFMETCollection> GammaJetAnalysis::tok_PFType1MET_

private

Definition at line 188 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

edm::EDGetTokenT<reco::PhotonCollection> GammaJetAnalysis::tok_Photon_

private

Definition at line 168 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

edm::EDGetTokenT<std::vector<reco::Vertex> > GammaJetAnalysis::tok_PV_

private

Definition at line 186 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

edm::EDGetTokenT<double> GammaJetAnalysis::tok_Rho_

private

Definition at line 183 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

edm::EDGetTokenT<edm::ValueMap<Bool_t> > GammaJetAnalysis::tok_tightPhoton_

private

Definition at line 177 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

edm::EDGetTokenT<std::vector<Bool_t> > GammaJetAnalysis::tok_tightPhotonV_

private

Definition at line 179 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

edm::EDGetTokenT<edm::TriggerResults> GammaJetAnalysis::tok_TrigRes_

private

Definition at line 189 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

edm::EDGetTokenT<reco::VertexCollection> GammaJetAnalysis::tok_Vertex_

private

Definition at line 181 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

int GammaJetAnalysis::workOnAOD_

private

Definition at line 192 of file GammaJetAnalysis.h.

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

bool GammaJetAnalysis::writeTriggerPrescale_

private

Definition at line 165 of file GammaJetAnalysis.h.

Referenced by analyze(), and GammaJetAnalysis().

Classes

Public Member Functions

Private Member Functions

Private Attributes

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