DiJetAnalyzer Class Reference

#include <DiJetAnalyzer.h>

Inheritance diagram for DiJetAnalyzer:

Classes
struct	JetCorretPairComp

Public Member Functions
	DiJetAnalyzer (const edm::ParameterSet &)
	~DiJetAnalyzer ()
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 (const std::string &iProcessName, std::vector< const char * > &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 ()
double	deltaR (const reco::Jet *j1, const reco::Jet *j2)
double	deltaR (const double eta1, const double phi1, const double eta2, const double phi2)
virtual void	endJob ()
int	getEtaPhi (const DetId id)
int	getEtaPhi (const HcalDetId id)

Private Attributes
bool	debug_
TH1D *	h_PassSelPF_
std::string	hbheRecHitName_
std::string	hfRecHitName_
std::string	hoRecHitName_
double	maxDeltaEta_
double	maxTagJetEta_
double	maxThirdJetEt_
double	minJetEt_
double	minSumJetEt_
double	minTagJetEta_
float	pf_dijet_balance_
float	pf_dijet_deta_
float	pf_dijet_dphi_
int	pf_Event_
int	pf_Lumi_
int	pf_NPV_
float	pf_realthirdjet_px_
float	pf_realthirdjet_py_
float	pf_realthirdjet_scale_
int	pf_Run_
float	pf_thirdjet_px_
float	pf_thirdjet_py_
std::string	pfJetCollName_
std::string	pfJetCorrName_
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_
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_EBE_
float	ppfjet_EEE_
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_EMfrac_
float	ppfjet_eta_
std::vector< int >	ppfjet_had_candtrackind_
std::vector< float >	ppfjet_had_E_
std::vector< float >	ppfjet_had_EcalE_
std::vector< float >	ppfjet_had_emf_
std::vector< int >	ppfjet_had_id_
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_hadEcalEfrac_
float	ppfjet_HBE_
float	ppfjet_HEE_
float	ppfjet_HFE_
int	ppfjet_jetID_
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_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	pvCollName_
TFile *	rootfile_
std::string	rootHistFilename_
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 < reco::PFJetCollection >	tok_PFJet_
edm::EDGetTokenT < reco::VertexCollection >	tok_Vertex_
float	tpfjet_area_
std::vector< float >	tpfjet_candtrack_EcalE_
std::vector< float >	tpfjet_candtrack_px_
std::vector< float >	tpfjet_candtrack_py_
std::vector< float >	tpfjet_candtrack_pz_
std::vector< float >	tpfjet_cluster_dR_
std::vector< float >	tpfjet_cluster_eta_
int	tpfjet_cluster_n_
std::vector< float >	tpfjet_cluster_phi_
float	tpfjet_E_
float	tpfjet_EBE_
float	tpfjet_EEE_
float	tpfjet_electron_E_
float	tpfjet_electron_EcalE_
int	tpfjet_electron_n_
float	tpfjet_electron_px_
float	tpfjet_electron_py_
float	tpfjet_electron_pz_
float	tpfjet_EMfrac_
float	tpfjet_eta_
std::vector< int >	tpfjet_had_candtrackind_
std::vector< float >	tpfjet_had_E_
std::vector< float >	tpfjet_had_EcalE_
std::vector< float >	tpfjet_had_emf_
std::vector< int >	tpfjet_had_id_
int	tpfjet_had_n_
std::vector< int >	tpfjet_had_ntwrs_
std::vector< float >	tpfjet_had_px_
std::vector< float >	tpfjet_had_py_
std::vector< float >	tpfjet_had_pz_
std::vector< float >	tpfjet_had_rawHcalE_
float	tpfjet_hadEcalEfrac_
float	tpfjet_HBE_
float	tpfjet_HEE_
float	tpfjet_HFE_
int	tpfjet_jetID_
float	tpfjet_muon_E_
float	tpfjet_muon_EcalE_
int	tpfjet_muon_n_
float	tpfjet_muon_px_
float	tpfjet_muon_py_
float	tpfjet_muon_pz_
int	tpfjet_ncandtracks_
int	tpfjet_ntwrs_
float	tpfjet_p_
float	tpfjet_phi_
float	tpfjet_photon_E_
float	tpfjet_photon_EcalE_
int	tpfjet_photon_n_
float	tpfjet_photon_px_
float	tpfjet_photon_py_
float	tpfjet_photon_pz_
float	tpfjet_pt_
float	tpfjet_scale_
std::vector< int >	tpfjet_twr_candtrackind_
std::vector< int >	tpfjet_twr_clusterind_
std::vector< int >	tpfjet_twr_depth_
std::vector< float >	tpfjet_twr_dR_
std::vector< int >	tpfjet_twr_elmttype_
std::vector< float >	tpfjet_twr_frac_
std::vector< float >	tpfjet_twr_hade_
std::vector< int >	tpfjet_twr_hadind_
std::vector< int >	tpfjet_twr_ieta_
std::vector< int >	tpfjet_twr_iphi_
std::vector< int >	tpfjet_twr_subdet_
float	tpfjet_unkown_E_
float	tpfjet_unkown_EcalE_
int	tpfjet_unkown_n_
float	tpfjet_unkown_px_
float	tpfjet_unkown_py_
float	tpfjet_unkown_pz_
TTree *	tree_

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 81 of file DiJetAnalyzer.h.

Constructor & Destructor Documentation

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

explicit

Definition at line 9 of file DiJetAnalyzer.cc.

References debug_, edm::ParameterSet::getParameter(), edm::ParameterSet::getUntrackedParameter(), hbheRecHitName_, hfRecHitName_, hoRecHitName_, maxDeltaEta_, maxTagJetEta_, maxThirdJetEt_, minJetEt_, minSumJetEt_, minTagJetEta_, pfJetCollName_, pfJetCorrName_, pvCollName_, rootHistFilename_, AlCaHLTBitMon_QueryRunRegistry::string, tok_HBHE_, tok_HF_, tok_HO_, tok_PFJet_, and tok_Vertex_.

{
  // set parameters
  pfJetCollName_       = iConfig.getParameter<std::string>("pfJetCollName");
  pfJetCorrName_       = iConfig.getParameter<std::string>("pfJetCorrName");
  hbheRecHitName_      = iConfig.getParameter<std::string>("hbheRecHitName");
  hfRecHitName_        = iConfig.getParameter<std::string>("hfRecHitName");
  hoRecHitName_        = iConfig.getParameter<std::string>("hoRecHitName");
  pvCollName_          = iConfig.getParameter<std::string>("pvCollName");
  rootHistFilename_    = iConfig.getParameter<std::string>("rootHistFilename");
  maxDeltaEta_         = iConfig.getParameter<double>("maxDeltaEta");
  minTagJetEta_        = iConfig.getParameter<double>("minTagJetEta");
  maxTagJetEta_        = iConfig.getParameter<double>("maxTagJetEta");
  minSumJetEt_         = iConfig.getParameter<double>("minSumJetEt");
  minJetEt_            = iConfig.getParameter<double>("minJetEt");
  maxThirdJetEt_       = iConfig.getParameter<double>("maxThirdJetEt");
  debug_               = iConfig.getUntrackedParameter<bool>("debug", false);

  tok_PFJet_     = consumes<reco::PFJetCollection>(pfJetCollName_);
  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_Vertex_    = consumes<reco::VertexCollection>(pvCollName_);
}

DiJetAnalyzer::~DiJetAnalyzer

(

)

Definition at line 34 of file DiJetAnalyzer.cc.

{
}

Member Function Documentation

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

privatevirtual

Implements edm::EDAnalyzer.

Definition at line 44 of file DiJetAnalyzer.cc.

References reco::PFJet::chargedEmEnergyFraction(), reco::PFJet::chargedHadronEnergyFraction(), reco::PFJet::chargedMultiplicity(), JetCorrector::correction(), gather_cfg::cout, cuy::cv, debug_, deltaR(), reco::PFCandidate::e, alignCSCRings::e, reco::PFCandidate::egamma_HF, asciidump::elements, reco::LeafCandidate::energy(), reco::LeafCandidate::et(), reco::LeafCandidate::eta(), reco::CaloCluster::eta(), edm::EventID::event(), Exception, plotBeamSpotDB::first, reco::PFCandidate::gamma, edm::EventSetup::get(), edm::Event::getByToken(), CaloCellGeometry::getCorners(), getEtaPhi(), CaloSubdetectorGeometry::getGeometry(), JetCorrector::getJetCorrector(), reco::PFJet::getPFConstituents(), reco::PFCandidate::h, reco::PFCandidate::h0, reco::PFCandidate::h_HF, h_PassSelPF_, hbheRecHitName_, ReconstructionCosmics_cff::hbhereco, DetId::Hcal, reco::PFBlockElement::HCAL, HcalBarrel, HcalEndcap, reco::PFBlockElement::HFEM, reco::PFBlockElement::HFHAD, hfRecHitName_, HcalHitReconstructor_hf_cfi::hfreco, reco::CaloCluster::hitsAndFractions(), reco::PFBlockElement::HO, hoRecHitName_, HcalHitReconstructor_ho_cfi::horeco, i, edm::EventBase::id(), cmsHarvester::index, edm::Ref< C, T, F >::isNonnull(), edm::HandleBase::isValid(), patTestJEC_cfi::jec, metsig::jet, JetCorretPair::jet(), reco::Jet::jetArea(), edm::EventID::luminosityBlock(), maxDeltaEta_, maxTagJetEta_, maxThirdJetEt_, minJetEt_, minSumJetEt_, minTagJetEta_, reco::PFCandidate::mu, reco::PFJet::neutralEmEnergyFraction(), reco::PFJet::neutralHadronEnergyFraction(), reco::PFJet::neutralMultiplicity(), reco::LeafCandidate::p(), pf_dijet_balance_, pf_dijet_deta_, pf_dijet_dphi_, pf_Event_, pf_Lumi_, pf_NPV_, pf_realthirdjet_px_, pf_realthirdjet_py_, pf_realthirdjet_scale_, pf_Run_, pf_thirdjet_px_, pf_thirdjet_py_, pfJetCollName_, pfJetCorrName_, phi, reco::LeafCandidate::phi(), reco::CaloCluster::phi(), ppfjet_area_, ppfjet_candtrack_EcalE_, ppfjet_candtrack_px_, ppfjet_candtrack_py_, ppfjet_candtrack_pz_, ppfjet_cluster_dR_, ppfjet_cluster_eta_, ppfjet_cluster_n_, ppfjet_cluster_phi_, ppfjet_E_, ppfjet_electron_E_, ppfjet_electron_EcalE_, ppfjet_electron_n_, ppfjet_electron_px_, ppfjet_electron_py_, ppfjet_electron_pz_, ppfjet_EMfrac_, ppfjet_eta_, ppfjet_had_candtrackind_, ppfjet_had_E_, ppfjet_had_EcalE_, ppfjet_had_emf_, ppfjet_had_id_, ppfjet_had_n_, ppfjet_had_ntwrs_, ppfjet_had_px_, ppfjet_had_py_, ppfjet_had_pz_, ppfjet_had_rawHcalE_, ppfjet_hadEcalEfrac_, ppfjet_jetID_, ppfjet_muon_E_, ppfjet_muon_EcalE_, ppfjet_muon_n_, ppfjet_muon_px_, ppfjet_muon_py_, ppfjet_muon_pz_, ppfjet_ncandtracks_, 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_, edm::errors::ProductNotFound, reco::LeafCandidate::pt(), MetAnalyzer::pv(), pvCollName_, reco::LeafCandidate::px(), reco::TrackBase::px(), reco::LeafCandidate::py(), reco::TrackBase::py(), reco::TrackBase::pz(), edm::EventID::run(), JetCorretPair::scale(), edm::second(), edm::OwnVector< T, P >::size(), mathSSE::sqrt(), groupFilesInBlocks::temp, tok_HBHE_, tok_HF_, tok_HO_, tok_PFJet_, tok_Vertex_, tpfjet_area_, tpfjet_candtrack_EcalE_, tpfjet_candtrack_px_, tpfjet_candtrack_py_, tpfjet_candtrack_pz_, tpfjet_cluster_dR_, tpfjet_cluster_eta_, tpfjet_cluster_n_, tpfjet_cluster_phi_, tpfjet_E_, tpfjet_electron_E_, tpfjet_electron_EcalE_, tpfjet_electron_n_, tpfjet_electron_px_, tpfjet_electron_py_, tpfjet_electron_pz_, tpfjet_EMfrac_, tpfjet_eta_, tpfjet_had_candtrackind_, tpfjet_had_E_, tpfjet_had_EcalE_, tpfjet_had_emf_, tpfjet_had_id_, tpfjet_had_n_, tpfjet_had_ntwrs_, tpfjet_had_px_, tpfjet_had_py_, tpfjet_had_pz_, tpfjet_had_rawHcalE_, tpfjet_hadEcalEfrac_, tpfjet_jetID_, tpfjet_muon_E_, tpfjet_muon_EcalE_, tpfjet_muon_n_, tpfjet_muon_px_, tpfjet_muon_py_, tpfjet_muon_pz_, tpfjet_ncandtracks_, tpfjet_ntwrs_, tpfjet_p_, tpfjet_phi_, tpfjet_photon_E_, tpfjet_photon_EcalE_, tpfjet_photon_n_, tpfjet_photon_px_, tpfjet_photon_py_, tpfjet_photon_pz_, tpfjet_pt_, tpfjet_scale_, tpfjet_twr_candtrackind_, tpfjet_twr_clusterind_, tpfjet_twr_depth_, tpfjet_twr_dR_, tpfjet_twr_elmttype_, tpfjet_twr_frac_, tpfjet_twr_hade_, tpfjet_twr_hadind_, tpfjet_twr_ieta_, tpfjet_twr_iphi_, tpfjet_twr_subdet_, tpfjet_unkown_E_, tpfjet_unkown_EcalE_, tpfjet_unkown_n_, tpfjet_unkown_px_, tpfjet_unkown_py_, tpfjet_unkown_pz_, tree_, and reco::PFCandidate::X.

{ 
  pf_Run_ = iEvent.id().run();
  pf_Lumi_ = iEvent.id().luminosityBlock();
  pf_Event_ = iEvent.id().event();
  
  // Get PFJets
  edm::Handle<reco::PFJetCollection> pfjets;
  iEvent.getByToken(tok_PFJet_,pfjets);
  if(!pfjets.isValid()) {
    throw edm::Exception(edm::errors::ProductNotFound)
      << " could not find PFJetCollection named " << pfJetCollName_ << ".\n";
    return;
  }

  // Get RecHits in HB and HE
  edm::Handle<edm::SortedCollection<HBHERecHit,edm::StrictWeakOrdering<HBHERecHit>>> hbhereco;
  iEvent.getByToken(tok_HBHE_,hbhereco);
  if(!hbhereco.isValid()) {
    throw edm::Exception(edm::errors::ProductNotFound)
      << " could not find HBHERecHit named " << hbheRecHitName_ << ".\n";
    return;
  }

  // Get RecHits in HF
  edm::Handle<edm::SortedCollection<HFRecHit,edm::StrictWeakOrdering<HFRecHit>>> hfreco;
  iEvent.getByToken(tok_HF_,hfreco);
  if(!hfreco.isValid()) {
    throw edm::Exception(edm::errors::ProductNotFound)
      << " could not find HFRecHit named " << hfRecHitName_ << ".\n";
    return;
  }

  // Get RecHits in HO
  edm::Handle<edm::SortedCollection<HORecHit,edm::StrictWeakOrdering<HORecHit>>> horeco;
  iEvent.getByToken(tok_HO_,horeco);
  if(!horeco.isValid()) {
    throw edm::Exception(edm::errors::ProductNotFound)
      << " could not find HORecHit named " << hoRecHitName_ << ".\n";
    return;
  }

  // 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);
  
  int HBHE_n = 0;
  for(edm::SortedCollection<HBHERecHit,edm::StrictWeakOrdering<HBHERecHit>>::const_iterator ith=hbhereco->begin(); ith!=hbhereco->end(); ++ith){
    HBHE_n++;
  }
  int HF_n = 0;
  for(edm::SortedCollection<HFRecHit,edm::StrictWeakOrdering<HFRecHit>>::const_iterator ith=hfreco->begin(); ith!=hfreco->end(); ++ith){
    HF_n++;
  }
  int HO_n = 0;
  for(edm::SortedCollection<HORecHit,edm::StrictWeakOrdering<HORecHit>>::const_iterator ith=horeco->begin(); ith!=horeco->end(); ++ith){
    HO_n++;
  }

  // Get primary vertices
  edm::Handle<std::vector<reco::Vertex>> pv;
  iEvent.getByToken(tok_Vertex_,pv);
  if(!pv.isValid()) {
    throw edm::Exception(edm::errors::ProductNotFound)
      << " could not find Vertex named " << pvCollName_ << ".\n";
    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_;
  }
    
  // Get jet corrections
  const JetCorrector* correctorPF = JetCorrector::getJetCorrector(pfJetCorrName_,evSetup);
  
  // Event Selection
    
  // determine which cut results in failure
  int passSelPF=0;

  // sort jets by corrected et
  std::set<JetCorretPair, JetCorretPairComp> pfjetcorretpairset;
  for(reco::PFJetCollection::const_iterator it=pfjets->begin(); it!=pfjets->end(); ++it) {
    const reco::PFJet* jet=&(*it);
    double jec = correctorPF->correction(*it, iEvent, evSetup);
    pfjetcorretpairset.insert(JetCorretPair(jet, jec));
  }

  JetCorretPair pf_tag, pf_probe;
  pf_thirdjet_px_=pf_thirdjet_py_=0.0;
  pf_realthirdjet_px_=pf_realthirdjet_py_=0.0;
  pf_realthirdjet_px_ = 1;
  int cntr=0;
  for(std::set<JetCorretPair, JetCorretPairComp>::const_iterator it=pfjetcorretpairset.begin(); it!=pfjetcorretpairset.end(); ++it) {
    JetCorretPair jet=(*it);
    ++cntr;
    if(cntr==1) pf_tag=jet;
    else if(cntr==2) pf_probe=jet;
    else {
      pf_thirdjet_px_ += jet.scale()*jet.jet()->px();
      pf_thirdjet_py_ += jet.scale()*jet.jet()->py();
      if(cntr==3){
    pf_realthirdjet_px_ = jet.jet()->px();
    pf_realthirdjet_py_ = jet.jet()->py();
    pf_realthirdjet_scale_ = jet.scale();
      }
    }
  }
    
  if(pf_tag.jet() && pf_probe.jet()){
    // require that the first two jets are above some minimum,
    // and the rest are below some maximum
    if((pf_tag.jet()->et()+pf_probe.jet()->et())<minSumJetEt_) passSelPF |= 0x1;
    if(pf_tag.jet()->et()<minJetEt_ || pf_probe.jet()->et()<minJetEt_) passSelPF |= 0x2;
    if(sqrt(pf_thirdjet_px_*pf_thirdjet_px_ + pf_thirdjet_py_*pf_thirdjet_py_)>maxThirdJetEt_) passSelPF |= 0x4;
    
    // force the tag jet to have the smaller |eta|
    if(std::fabs(pf_tag.jet()->eta())>std::fabs(pf_probe.jet()->eta())) {
      JetCorretPair temp=pf_tag;
      pf_tag=pf_probe;
      pf_probe=temp;
    }
      
    // eta cuts
    double dAbsEta=std::fabs(std::fabs(pf_tag.jet()->eta())-std::fabs(pf_probe.jet()->eta()));
    if(dAbsEta>maxDeltaEta_) passSelPF |= 0x8;
    if(fabs(pf_tag.jet()->eta())<minTagJetEta_) passSelPF |= 0x10;
    if(fabs(pf_tag.jet()->eta())>maxTagJetEta_) passSelPF |= 0x10;
  }
  else{
    passSelPF = 0x40;
  }
    
  h_PassSelPF_->Fill(passSelPF);
  if(passSelPF) return;
  // dump
  if(debug_) {
    std::cout << "Run: " << iEvent.id().run() << "; Event: " << iEvent.id().event() << std::endl;
    for(reco::PFJetCollection::const_iterator it=pfjets->begin(); it!=pfjets->end(); ++it) {
      const reco::PFJet *jet=&(*it);
      std::cout << "istag=" << (jet==pf_tag.jet()) << "; isprobe=" << (jet==pf_probe.jet()) << "; et=" << jet->et() << "; eta=" << jet->eta() << std::endl;
    }
  }

  // Reset particle variables
  tpfjet_unkown_E_ = tpfjet_unkown_px_ = tpfjet_unkown_py_ = tpfjet_unkown_pz_ = tpfjet_unkown_EcalE_ = 0.0;
  tpfjet_electron_E_ = tpfjet_electron_px_ = tpfjet_electron_py_ = tpfjet_electron_pz_ = tpfjet_electron_EcalE_ = 0.0;
  tpfjet_muon_E_ = tpfjet_muon_px_ = tpfjet_muon_py_ = tpfjet_muon_pz_ = tpfjet_muon_EcalE_ = 0.0;
  tpfjet_photon_E_ = tpfjet_photon_px_ = tpfjet_photon_py_ = tpfjet_photon_pz_ = tpfjet_photon_EcalE_ = 0.0;
  tpfjet_unkown_n_ = tpfjet_electron_n_ = tpfjet_muon_n_ = tpfjet_photon_n_ = 0;
  tpfjet_had_n_ = 0;
  tpfjet_cluster_n_ = 0;
  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_cluster_n_ = 0;
  
  tpfjet_had_E_.clear();
  tpfjet_had_px_.clear();
  tpfjet_had_py_.clear();
  tpfjet_had_pz_.clear();
  tpfjet_had_EcalE_.clear();
  tpfjet_had_rawHcalE_.clear();
  tpfjet_had_emf_.clear();
  tpfjet_had_id_.clear();
  tpfjet_had_candtrackind_.clear();
  tpfjet_had_ntwrs_.clear();
  tpfjet_twr_ieta_.clear();
  tpfjet_twr_iphi_.clear();
  tpfjet_twr_depth_.clear();
  tpfjet_twr_subdet_.clear();
  tpfjet_twr_candtrackind_.clear();
  tpfjet_twr_hadind_.clear();
  tpfjet_twr_elmttype_.clear();
  tpfjet_twr_hade_.clear();
  tpfjet_twr_frac_.clear();
  tpfjet_twr_dR_.clear();
  tpfjet_twr_clusterind_.clear();
  tpfjet_cluster_eta_.clear();
  tpfjet_cluster_phi_.clear();
  tpfjet_cluster_dR_.clear();
  tpfjet_candtrack_px_.clear();
  tpfjet_candtrack_py_.clear();
  tpfjet_candtrack_pz_.clear();
  tpfjet_candtrack_EcalE_.clear();
  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_id_.clear();
  ppfjet_had_candtrackind_.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();

  std::map<int,std::pair<int,std::set<float>>> tpfjet_rechits;
  std::map<int,std::pair<int,std::set<float>>> ppfjet_rechits;
  std::map<float,int> tpfjet_clusters;
  std::map<float,int> ppfjet_clusters;
      
  // fill tag jet variables
  tpfjet_pt_    = pf_tag.jet()->pt();
  tpfjet_p_     = pf_tag.jet()->p();
  tpfjet_E_     = pf_tag.jet()->energy();
  tpfjet_eta_   = pf_tag.jet()->eta();
  tpfjet_phi_   = pf_tag.jet()->phi();
  tpfjet_scale_ = pf_tag.scale();
  tpfjet_area_  = pf_tag.jet()->jetArea();
  tpfjet_ntwrs_=0;
  tpfjet_ncandtracks_=0;

  tpfjet_jetID_ = 0; // Not a loose, medium, or tight jet
  if(fabs(pf_tag.jet()->eta()) < 2.4){
    if(pf_tag.jet()->chargedHadronEnergyFraction() > 0 &&
       pf_tag.jet()->chargedMultiplicity() > 0 &&
       pf_tag.jet()->chargedEmEnergyFraction() < 0.99 &&
       (pf_tag.jet()->chargedMultiplicity() + pf_tag.jet()->neutralMultiplicity()) > 1){
      if(pf_tag.jet()->neutralHadronEnergyFraction() < 0.9 &&
     pf_tag.jet()->neutralEmEnergyFraction() < 0.9){
    tpfjet_jetID_ = 3; // Tight jet
      }
      else if(pf_tag.jet()->neutralHadronEnergyFraction() < 0.95 &&
          pf_tag.jet()->neutralEmEnergyFraction() < 0.95){
    tpfjet_jetID_ = 2; // Medium jet
      }
      else if(pf_tag.jet()->neutralHadronEnergyFraction() < 0.99 &&
          pf_tag.jet()->neutralEmEnergyFraction() < 0.99){
    tpfjet_jetID_ = 1; // Loose jet
      }
    }
  }
  else if((pf_tag.jet()->chargedMultiplicity() + pf_tag.jet()->neutralMultiplicity()) > 1){
    if(pf_tag.jet()->neutralHadronEnergyFraction() < 0.9 &&
       pf_tag.jet()->neutralEmEnergyFraction() < 0.9){
      tpfjet_jetID_ = 3; // Tight jet
    }
    else if(pf_tag.jet()->neutralHadronEnergyFraction() < 0.95 &&
        pf_tag.jet()->neutralEmEnergyFraction() < 0.95){
      tpfjet_jetID_ = 2; // Medium jet
    }
    else if(pf_tag.jet()->neutralHadronEnergyFraction() < 0.99 &&
        pf_tag.jet()->neutralEmEnergyFraction() < 0.99){
      tpfjet_jetID_ = 1; // Loose jet
    }
  }

  // Get PF constituents and fill HCAL towers
  
  // Get tag PFCandidates
  std::vector<reco::PFCandidatePtr> tagconst=pf_tag.jet()->getPFConstituents();
  for(std::vector<reco::PFCandidatePtr>::const_iterator it=tagconst.begin(); it!=tagconst.end(); ++it){
    bool hasTrack = false;
    // Test PFCandidate type
    reco::PFCandidate::ParticleType candidateType = (*it)->particleId();
    switch(candidateType){
    case reco::PFCandidate::X:
      tpfjet_unkown_E_ += (*it)->energy();
      tpfjet_unkown_px_ += (*it)->px();
      tpfjet_unkown_py_ += (*it)->py();
      tpfjet_unkown_pz_ += (*it)->pz();
      tpfjet_unkown_EcalE_ += (*it)->ecalEnergy();
      tpfjet_unkown_n_++;
      continue;
    case reco::PFCandidate::h:
      {
    tpfjet_had_E_.push_back((*it)->energy());
    tpfjet_had_px_.push_back((*it)->px());
    tpfjet_had_py_.push_back((*it)->py());
    tpfjet_had_pz_.push_back((*it)->pz());
    tpfjet_had_EcalE_.push_back((*it)->ecalEnergy());
    tpfjet_had_rawHcalE_.push_back((*it)->rawHcalEnergy());
    tpfjet_had_id_.push_back(0);
    tpfjet_had_ntwrs_.push_back(0);
    tpfjet_had_n_++;

    reco::TrackRef trackRef = (*it)->trackRef();
    if(trackRef.isNonnull()){
      reco::Track track = *trackRef;
      tpfjet_candtrack_px_.push_back(track.px());
      tpfjet_candtrack_py_.push_back(track.py());
      tpfjet_candtrack_pz_.push_back(track.pz());
      tpfjet_candtrack_EcalE_.push_back((*it)->ecalEnergy());
      tpfjet_had_candtrackind_.push_back(tpfjet_ncandtracks_);
      hasTrack = true;
      tpfjet_ncandtracks_++;
    }
    else{
      tpfjet_had_candtrackind_.push_back(-2);
    }
      }
      break;
    case reco::PFCandidate::e:
      tpfjet_electron_E_ += (*it)->energy();
      tpfjet_electron_px_ += (*it)->px();
      tpfjet_electron_py_ += (*it)->py();
      tpfjet_electron_pz_ += (*it)->pz();
      tpfjet_electron_EcalE_ += (*it)->ecalEnergy();
      tpfjet_electron_n_++;
      continue;
    case reco::PFCandidate::mu:
      tpfjet_muon_E_ += (*it)->energy();
      tpfjet_muon_px_ += (*it)->px();
      tpfjet_muon_py_ += (*it)->py();
      tpfjet_muon_pz_ += (*it)->pz();
      tpfjet_muon_EcalE_ += (*it)->ecalEnergy();
      tpfjet_muon_n_++;
      continue;
    case reco::PFCandidate::gamma:
      tpfjet_photon_E_ += (*it)->energy();
      tpfjet_photon_px_ += (*it)->px();
      tpfjet_photon_py_ += (*it)->py();
      tpfjet_photon_pz_ += (*it)->pz();
      tpfjet_photon_EcalE_ += (*it)->ecalEnergy();
      tpfjet_photon_n_++;
      continue;
    case reco::PFCandidate::h0:
      {
    tpfjet_had_E_.push_back((*it)->energy());
    tpfjet_had_px_.push_back((*it)->px());
    tpfjet_had_py_.push_back((*it)->py());
    tpfjet_had_pz_.push_back((*it)->pz());
    tpfjet_had_EcalE_.push_back((*it)->ecalEnergy());
    tpfjet_had_rawHcalE_.push_back((*it)->rawHcalEnergy());
    tpfjet_had_id_.push_back(1);
    tpfjet_had_candtrackind_.push_back(-1);
    tpfjet_had_ntwrs_.push_back(0);
    tpfjet_had_n_++;
    break;
      }
    case reco::PFCandidate::h_HF:
      {
    tpfjet_had_E_.push_back((*it)->energy());
    tpfjet_had_px_.push_back((*it)->px());
    tpfjet_had_py_.push_back((*it)->py());
    tpfjet_had_pz_.push_back((*it)->pz());
    tpfjet_had_EcalE_.push_back((*it)->ecalEnergy());
    tpfjet_had_rawHcalE_.push_back((*it)->rawHcalEnergy());
    tpfjet_had_id_.push_back(2);
    tpfjet_had_candtrackind_.push_back(-1);
    tpfjet_had_ntwrs_.push_back(0);
    tpfjet_had_n_++;
    break;
      }
    case reco::PFCandidate::egamma_HF:
      {
    tpfjet_had_E_.push_back((*it)->energy());
    tpfjet_had_px_.push_back((*it)->px());
    tpfjet_had_py_.push_back((*it)->py());
    tpfjet_had_pz_.push_back((*it)->pz());
    tpfjet_had_EcalE_.push_back((*it)->ecalEnergy());
    tpfjet_had_rawHcalE_.push_back((*it)->rawHcalEnergy());
    tpfjet_had_id_.push_back(3);
    tpfjet_had_candtrackind_.push_back(-1);
    tpfjet_had_ntwrs_.push_back(0);
    tpfjet_had_n_++;
    break;
      }
    }

    std::map<int,int> twrietas;
    float HFHAD_E = 0;
    float HFEM_E = 0;
    int maxElement=(*it)->elementsInBlocks().size();
    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
        // Get cluster and hits
        reco::PFClusterRef clusterref = elements[iEle].clusterRef();
        reco::PFCluster cluster = *clusterref;
        double cluster_dR = deltaR(tpfjet_eta_,tpfjet_phi_,cluster.eta(),cluster.phi());
        if(tpfjet_clusters.count(cluster_dR) == 0){
          tpfjet_clusters[cluster_dR] = tpfjet_cluster_n_;
          tpfjet_cluster_eta_.push_back(cluster.eta());
          tpfjet_cluster_phi_.push_back(cluster.phi());
          tpfjet_cluster_dR_.push_back(cluster_dR);
          tpfjet_cluster_n_++;
        }
        int cluster_ind = tpfjet_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){
          tpfjet_had_ntwrs_.at(tpfjet_had_n_ - 1)++;
          if(tpfjet_rechits.count((*ith).id()) == 0){
            tpfjet_twr_ieta_.push_back((*ith).id().ieta());
            tpfjet_twr_iphi_.push_back((*ith).id().iphi());
            tpfjet_twr_depth_.push_back((*ith).id().depth());
            tpfjet_twr_subdet_.push_back((*ith).id().subdet());
            if(hitsAndFracs[iHit].second > 0.05 && (*ith).energy() > 0.0) twrietas[(*ith).id().ieta()]++;
            tpfjet_twr_hade_.push_back((*ith).energy());
            tpfjet_twr_frac_.push_back(hitsAndFracs[iHit].second);
            tpfjet_rechits[(*ith).id()].second.insert(hitsAndFracs[iHit].second);
            tpfjet_twr_hadind_.push_back(tpfjet_had_n_ - 1);
            tpfjet_twr_elmttype_.push_back(0);
            tpfjet_twr_clusterind_.push_back(cluster_ind);
            if(hasTrack){
              tpfjet_twr_candtrackind_.push_back(tpfjet_ncandtracks_ - 1);
            }
            else{
              tpfjet_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()) avgphi = (2.0*3.141592653 + static_cast<double>(cv[0].phi()) + static_cast<double>(cv[2].phi()))/2.0;
            tpfjet_twr_dR_.push_back(deltaR(tpfjet_eta_,tpfjet_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()) avgphi = (2.0*3.141592653 + static_cast<double>(cv[0].phi()) + static_cast<double>(cv[2].phi()))/2.0;
            tpfjet_twr_dR_.push_back(deltaR(tpfjet_eta_,tpfjet_phi_,avgeta,avgphi));
            break;
              }
            default:
              tpfjet_twr_dR_.push_back(-1);
              break;
            }
            tpfjet_rechits[(*ith).id()].first = tpfjet_ntwrs_;
            ++tpfjet_ntwrs_;
          }
          else if(tpfjet_rechits[(*ith).id()].second.count(hitsAndFracs[iHit].second) == 0){
            tpfjet_twr_frac_.at(tpfjet_rechits[(*ith).id()].first) += hitsAndFracs[iHit].second;
            if(cluster_dR < tpfjet_cluster_dR_.at(tpfjet_twr_clusterind_.at(tpfjet_rechits[(*ith).id()].first))){
              tpfjet_twr_clusterind_.at(tpfjet_rechits[(*ith).id()].first) = cluster_ind;
            }
            tpfjet_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   
        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){
        tpfjet_had_ntwrs_.at(tpfjet_had_n_ - 1)++;
        tpfjet_twr_ieta_.push_back((*ith).id().ieta());
        tpfjet_twr_iphi_.push_back((*ith).id().iphi());
        tpfjet_twr_depth_.push_back((*ith).id().depth());
        tpfjet_twr_subdet_.push_back((*ith).id().subdet());
        tpfjet_twr_hade_.push_back((*ith).energy());
        tpfjet_twr_frac_.push_back(1.0);
        tpfjet_twr_hadind_.push_back(tpfjet_had_n_ - 1);
        tpfjet_twr_elmttype_.push_back(1);
        tpfjet_twr_clusterind_.push_back(-1);
        tpfjet_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()) avgphi = (2.0*3.141592653 + static_cast<double>(cv[0].phi()) + static_cast<double>(cv[2].phi()))/2.0;
        tpfjet_twr_dR_.push_back(deltaR(tpfjet_eta_,tpfjet_phi_,avgeta,avgphi));
        ++tpfjet_ntwrs_;
        HFHAD_E += (*ith).energy();
          }
        }
      }
      else if(elements[iEle].type() == reco::PFBlockElement::HFEM){ // Element is HF
        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){
        tpfjet_had_ntwrs_.at(tpfjet_had_n_ - 1)++;
        tpfjet_twr_ieta_.push_back((*ith).id().ieta());
        tpfjet_twr_iphi_.push_back((*ith).id().iphi());
        tpfjet_twr_depth_.push_back((*ith).id().depth());
        tpfjet_twr_subdet_.push_back((*ith).id().subdet());
        tpfjet_twr_hade_.push_back((*ith).energy());
        tpfjet_twr_frac_.push_back(1.0);
        tpfjet_twr_hadind_.push_back(tpfjet_had_n_ - 1);
        tpfjet_twr_elmttype_.push_back(2);
        tpfjet_twr_clusterind_.push_back(-1);
        tpfjet_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()) avgphi = (2.0*3.141592653 + static_cast<double>(cv[0].phi()) + static_cast<double>(cv[2].phi()))/2.0;
        tpfjet_twr_dR_.push_back(deltaR(tpfjet_eta_,tpfjet_phi_,avgeta,avgphi));
        ++tpfjet_ntwrs_;
        HFEM_E += (*ith).energy();
          }
        }
      }
      else if(elements[iEle].type() == reco::PFBlockElement::HO){ // Element is HO
        reco::PFClusterRef clusterref = elements[iEle].clusterRef();
        reco::PFCluster cluster = *clusterref;
        double cluster_dR = deltaR(tpfjet_eta_,tpfjet_phi_,cluster.eta(),cluster.phi());
        if(tpfjet_clusters.count(cluster_dR) == 0){
          tpfjet_clusters[cluster_dR] = tpfjet_cluster_n_;
          tpfjet_cluster_eta_.push_back(cluster.eta());
          tpfjet_cluster_phi_.push_back(cluster.phi());
          tpfjet_cluster_dR_.push_back(cluster_dR);
          tpfjet_cluster_n_++;
        }
        int cluster_ind = tpfjet_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){
          tpfjet_had_ntwrs_.at(tpfjet_had_n_ - 1)++;
          if(tpfjet_rechits.count((*ith).id()) == 0){
            tpfjet_twr_ieta_.push_back((*ith).id().ieta());
            tpfjet_twr_iphi_.push_back((*ith).id().iphi());
            tpfjet_twr_depth_.push_back((*ith).id().depth());
            tpfjet_twr_subdet_.push_back((*ith).id().subdet());
            if(hitsAndFracs[iHit].second > 0.05 && (*ith).energy() > 0.0) twrietas[(*ith).id().ieta()]++;
            tpfjet_twr_hade_.push_back((*ith).energy());
            tpfjet_twr_frac_.push_back(hitsAndFracs[iHit].second);
            tpfjet_rechits[(*ith).id()].second.insert(hitsAndFracs[iHit].second);
            tpfjet_twr_hadind_.push_back(tpfjet_had_n_ - 1);
            tpfjet_twr_elmttype_.push_back(3);
            tpfjet_twr_clusterind_.push_back(cluster_ind);
            if(hasTrack){
              tpfjet_twr_candtrackind_.push_back(tpfjet_ncandtracks_ - 1);
            }
            else{
              tpfjet_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()) avgphi = (2.0*3.141592653 + static_cast<double>(cv[0].phi()) + static_cast<double>(cv[2].phi()))/2.0;
            tpfjet_twr_dR_.push_back(deltaR(tpfjet_eta_,tpfjet_phi_,avgeta,avgphi));
            tpfjet_rechits[(*ith).id()].first = tpfjet_ntwrs_;
            ++tpfjet_ntwrs_;
          }
          else if(tpfjet_rechits[(*ith).id()].second.count(hitsAndFracs[iHit].second) == 0){
            tpfjet_twr_frac_.at(tpfjet_rechits[(*ith).id()].first) += hitsAndFracs[iHit].second;
            if(cluster_dR < tpfjet_cluster_dR_.at(tpfjet_twr_clusterind_.at(tpfjet_rechits[(*ith).id()].first))){
              tpfjet_twr_clusterind_.at(tpfjet_rechits[(*ith).id()].first) = cluster_ind;
            }
            tpfjet_rechits[(*ith).id()].second.insert(hitsAndFracs[iHit].second);
          }
        } // Test if ieta,iphi match
          } // Loop over rechits
        } // Loop over hits
      } // Test if element is HO
    } // Test for right element index
      } // Loop over elements
    } // Loop over elements in blocks

    switch(candidateType){
    case reco::PFCandidate::h_HF:
      tpfjet_had_emf_.push_back(HFEM_E/(HFEM_E + HFHAD_E));
      break;
    case reco::PFCandidate::egamma_HF:
      tpfjet_had_emf_.push_back(-1);
      break;
    default:
      tpfjet_had_emf_.push_back(-1);
      break;
    }
  } // Loop over PF constitutents

  int tag_had_EcalE = 0;
  int tag_had_rawHcalE = 0;
  for(int i=0; i<tpfjet_had_n_; i++){
    tag_had_EcalE += tpfjet_had_EcalE_[i];
    tag_had_rawHcalE += tpfjet_had_rawHcalE_[i];
  }
  tpfjet_EMfrac_ = 1.0 - tag_had_rawHcalE/(tag_had_rawHcalE + tag_had_EcalE + tpfjet_unkown_E_ + tpfjet_electron_E_ + tpfjet_muon_E_ + tpfjet_photon_E_);
  tpfjet_hadEcalEfrac_ = tag_had_EcalE/(tag_had_rawHcalE + tag_had_EcalE + tpfjet_unkown_E_ + tpfjet_electron_E_ + tpfjet_muon_E_ + tpfjet_photon_E_);

  // fill probe jet variables
  ppfjet_pt_    = pf_probe.jet()->pt();
  ppfjet_p_     = pf_probe.jet()->p();
  ppfjet_E_     = pf_probe.jet()->energy();
  ppfjet_eta_   = pf_probe.jet()->eta();
  ppfjet_phi_   = pf_probe.jet()->phi();
  ppfjet_scale_ = pf_probe.scale();
  ppfjet_area_  = pf_probe.jet()->jetArea();
  ppfjet_ntwrs_=0;
  ppfjet_ncandtracks_=0;

  ppfjet_jetID_ = 0; // Not a loose, medium, or tight jet
  if(fabs(pf_probe.jet()->eta()) < 2.4){
    if(pf_probe.jet()->chargedHadronEnergyFraction() > 0 &&
       pf_probe.jet()->chargedMultiplicity() > 0 &&
       pf_probe.jet()->chargedEmEnergyFraction() < 0.99 &&
       (pf_probe.jet()->chargedMultiplicity() + pf_probe.jet()->neutralMultiplicity()) > 1){
      if(pf_probe.jet()->neutralHadronEnergyFraction() < 0.9 &&
     pf_probe.jet()->neutralEmEnergyFraction() < 0.9){
    ppfjet_jetID_ = 3; // Tight jet
      }
      else if(pf_probe.jet()->neutralHadronEnergyFraction() < 0.95 &&
          pf_probe.jet()->neutralEmEnergyFraction() < 0.95){
    ppfjet_jetID_ = 2; // Medium jet
      }
      else if(pf_probe.jet()->neutralHadronEnergyFraction() < 0.99 &&
          pf_probe.jet()->neutralEmEnergyFraction() < 0.99){
    ppfjet_jetID_ = 1; // Loose jet
      }
    }
  }
  else if((pf_probe.jet()->chargedMultiplicity() + pf_probe.jet()->neutralMultiplicity()) > 1){
    if(pf_probe.jet()->neutralHadronEnergyFraction() < 0.9 &&
       pf_probe.jet()->neutralEmEnergyFraction() < 0.9){
      ppfjet_jetID_ = 3; // Tight jet
    }
    else if(pf_probe.jet()->neutralHadronEnergyFraction() < 0.95 &&
        pf_probe.jet()->neutralEmEnergyFraction() < 0.95){
      ppfjet_jetID_ = 2; // Medium jet
    }
    else if(pf_probe.jet()->neutralHadronEnergyFraction() < 0.99 &&
        pf_probe.jet()->neutralEmEnergyFraction() < 0.99){
      ppfjet_jetID_ = 1; // Loose jet
    }
  }

  // Get PF constituents and fill HCAL towers
  std::vector<reco::PFCandidatePtr> probeconst=pf_probe.jet()->getPFConstituents();
  for(std::vector<reco::PFCandidatePtr>::const_iterator it=probeconst.begin(); it!=probeconst.end(); ++it){
    bool hasTrack = false;
    reco::PFCandidate::ParticleType candidateType = (*it)->particleId();
    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_++;

    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_++;
    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_++;
    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_++;
    break;
      }
    }

    float HFHAD_E = 0;
    float HFEM_E = 0;
    int maxElement=(*it)->elementsInBlocks().size();
    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
        // 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()) 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()) 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
        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()) 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
        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()) 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
        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()) 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

  int probe_had_EcalE = 0;
  int probe_had_rawHcalE = 0;
  for(int i=0; i<ppfjet_had_n_; i++){
    probe_had_EcalE += ppfjet_had_EcalE_[i];
    probe_had_rawHcalE += ppfjet_had_rawHcalE_[i];
  }
  ppfjet_EMfrac_ = 1.0 - probe_had_rawHcalE/(probe_had_rawHcalE + probe_had_EcalE + ppfjet_unkown_E_ + ppfjet_electron_E_ + ppfjet_muon_E_ + ppfjet_photon_E_);
  ppfjet_hadEcalEfrac_ = probe_had_EcalE/(probe_had_rawHcalE + probe_had_EcalE + ppfjet_unkown_E_ + ppfjet_electron_E_ + ppfjet_muon_E_ + ppfjet_photon_E_);
  
  // fill dijet variables
  pf_dijet_deta_=std::fabs(std::fabs(pf_tag.jet()->eta())-std::fabs(pf_probe.jet()->eta()));
  pf_dijet_dphi_=pf_tag.jet()->phi()-pf_probe.jet()->phi();
  if(pf_dijet_dphi_>3.1415) pf_dijet_dphi_ = 6.2832-pf_dijet_dphi_;
  pf_dijet_balance_ = (tpfjet_pt_-ppfjet_pt_)/(tpfjet_pt_+ppfjet_pt_);
      
  tree_->Fill();
  
  return;
}

void DiJetAnalyzer::beginJob ( void  )

privatevirtual

Reimplemented from edm::EDAnalyzer.

Definition at line 1096 of file DiJetAnalyzer.cc.

References h_PassSelPF_, pf_dijet_balance_, pf_dijet_deta_, pf_dijet_dphi_, pf_Event_, pf_Lumi_, pf_NPV_, pf_realthirdjet_px_, pf_realthirdjet_py_, pf_realthirdjet_scale_, pf_Run_, pf_thirdjet_px_, pf_thirdjet_py_, ppfjet_area_, ppfjet_candtrack_EcalE_, ppfjet_candtrack_px_, ppfjet_candtrack_py_, ppfjet_candtrack_pz_, ppfjet_cluster_dR_, ppfjet_cluster_eta_, ppfjet_cluster_n_, ppfjet_cluster_phi_, ppfjet_E_, ppfjet_electron_E_, ppfjet_electron_EcalE_, ppfjet_electron_n_, ppfjet_electron_px_, ppfjet_electron_py_, ppfjet_electron_pz_, ppfjet_EMfrac_, ppfjet_eta_, ppfjet_had_candtrackind_, ppfjet_had_E_, ppfjet_had_EcalE_, ppfjet_had_emf_, ppfjet_had_id_, ppfjet_had_n_, ppfjet_had_ntwrs_, ppfjet_had_px_, ppfjet_had_py_, ppfjet_had_pz_, ppfjet_had_rawHcalE_, ppfjet_hadEcalEfrac_, ppfjet_jetID_, ppfjet_muon_E_, ppfjet_muon_EcalE_, ppfjet_muon_n_, ppfjet_muon_px_, ppfjet_muon_py_, ppfjet_muon_pz_, ppfjet_ncandtracks_, 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_, rootfile_, rootHistFilename_, tpfjet_area_, tpfjet_candtrack_EcalE_, tpfjet_candtrack_px_, tpfjet_candtrack_py_, tpfjet_candtrack_pz_, tpfjet_cluster_dR_, tpfjet_cluster_eta_, tpfjet_cluster_n_, tpfjet_cluster_phi_, tpfjet_E_, tpfjet_electron_E_, tpfjet_electron_EcalE_, tpfjet_electron_n_, tpfjet_electron_px_, tpfjet_electron_py_, tpfjet_electron_pz_, tpfjet_EMfrac_, tpfjet_eta_, tpfjet_had_candtrackind_, tpfjet_had_E_, tpfjet_had_EcalE_, tpfjet_had_emf_, tpfjet_had_id_, tpfjet_had_n_, tpfjet_had_ntwrs_, tpfjet_had_px_, tpfjet_had_py_, tpfjet_had_pz_, tpfjet_had_rawHcalE_, tpfjet_hadEcalEfrac_, tpfjet_jetID_, tpfjet_muon_E_, tpfjet_muon_EcalE_, tpfjet_muon_n_, tpfjet_muon_px_, tpfjet_muon_py_, tpfjet_muon_pz_, tpfjet_ncandtracks_, tpfjet_ntwrs_, tpfjet_p_, tpfjet_phi_, tpfjet_photon_E_, tpfjet_photon_EcalE_, tpfjet_photon_n_, tpfjet_photon_px_, tpfjet_photon_py_, tpfjet_photon_pz_, tpfjet_pt_, tpfjet_scale_, tpfjet_twr_candtrackind_, tpfjet_twr_clusterind_, tpfjet_twr_depth_, tpfjet_twr_dR_, tpfjet_twr_elmttype_, tpfjet_twr_frac_, tpfjet_twr_hade_, tpfjet_twr_hadind_, tpfjet_twr_ieta_, tpfjet_twr_iphi_, tpfjet_twr_subdet_, tpfjet_unkown_E_, tpfjet_unkown_EcalE_, tpfjet_unkown_n_, tpfjet_unkown_px_, tpfjet_unkown_py_, tpfjet_unkown_pz_, and tree_.

{
  // book histograms
  rootfile_ = new TFile(rootHistFilename_.c_str(), "RECREATE");

  h_PassSelPF_ = new TH1D("h_PassSelectionPF", "Selection Pass Failures PFJets",200,-0.5,199.5);

  tree_ = new TTree("dijettree", "tree for dijet balancing");

  tree_->Branch("tpfjet_pt",&tpfjet_pt_, "tpfjet_pt/F");
  tree_->Branch("tpfjet_p",&tpfjet_p_, "tpfjet_p/F");
  tree_->Branch("tpfjet_E",&tpfjet_E_, "tpfjet_E/F");
  tree_->Branch("tpfjet_eta",&tpfjet_eta_, "tpfjet_eta/F");
  tree_->Branch("tpfjet_phi",&tpfjet_phi_, "tpfjet_phi/F");
  tree_->Branch("tpfjet_EMfrac",&tpfjet_EMfrac_, "tpfjet_EMfrac/F");
  tree_->Branch("tpfjet_hadEcalEfrac",&tpfjet_hadEcalEfrac_, "tpfjet_hadEcalEfrac/F");
  tree_->Branch("tpfjet_scale",&tpfjet_scale_, "tpfjet_scale/F");
  tree_->Branch("tpfjet_area",&tpfjet_area_, "tpfjet_area/F");
  tree_->Branch("tpfjet_jetID",&tpfjet_jetID_, "tpfjet_jetID/I");
  tree_->Branch("tpfjet_unkown_E",&tpfjet_unkown_E_, "tpfjet_unkown_E/F");
  tree_->Branch("tpfjet_electron_E",&tpfjet_electron_E_, "tpfjet_electron_E/F");
  tree_->Branch("tpfjet_muon_E",&tpfjet_muon_E_, "tpfjet_muon_E/F");
  tree_->Branch("tpfjet_photon_E",&tpfjet_photon_E_, "tpfjet_photon_E/F");
  tree_->Branch("tpfjet_unkown_px",&tpfjet_unkown_px_, "tpfjet_unkown_px/F");
  tree_->Branch("tpfjet_electron_px",&tpfjet_electron_px_, "tpfjet_electron_px/F");
  tree_->Branch("tpfjet_muon_px",&tpfjet_muon_px_, "tpfjet_muon_px/F");
  tree_->Branch("tpfjet_photon_px",&tpfjet_photon_px_, "tpfjet_photon_px/F");
  tree_->Branch("tpfjet_unkown_py",&tpfjet_unkown_py_, "tpfjet_unkown_py/F");
  tree_->Branch("tpfjet_electron_py",&tpfjet_electron_py_, "tpfjet_electron_py/F");
  tree_->Branch("tpfjet_muon_py",&tpfjet_muon_py_, "tpfjet_muon_py/F");
  tree_->Branch("tpfjet_photon_py",&tpfjet_photon_py_, "tpfjet_photon_py/F");
  tree_->Branch("tpfjet_unkown_pz",&tpfjet_unkown_pz_, "tpfjet_unkown_pz/F");
  tree_->Branch("tpfjet_electron_pz",&tpfjet_electron_pz_, "tpfjet_electron_pz/F");
  tree_->Branch("tpfjet_muon_pz",&tpfjet_muon_pz_, "tpfjet_muon_pz/F");
  tree_->Branch("tpfjet_photon_pz",&tpfjet_photon_pz_, "tpfjet_photon_pz/F");
  tree_->Branch("tpfjet_unkown_EcalE",&tpfjet_unkown_EcalE_, "tpfjet_unkown_EcalE/F");
  tree_->Branch("tpfjet_electron_EcalE",&tpfjet_electron_EcalE_, "tpfjet_electron_EcalE/F");
  tree_->Branch("tpfjet_muon_EcalE",&tpfjet_muon_EcalE_, "tpfjet_muon_EcalE/F");
  tree_->Branch("tpfjet_photon_EcalE",&tpfjet_photon_EcalE_, "tpfjet_photon_EcalE/F");
  tree_->Branch("tpfjet_unkown_n",&tpfjet_unkown_n_, "tpfjet_unkown_n/I");
  tree_->Branch("tpfjet_electron_n",&tpfjet_electron_n_, "tpfjet_electron_n/I");
  tree_->Branch("tpfjet_muon_n",&tpfjet_muon_n_, "tpfjet_muon_n/I");
  tree_->Branch("tpfjet_photon_n",&tpfjet_photon_n_, "tpfjet_photon_n/I");
  tree_->Branch("tpfjet_had_n",&tpfjet_had_n_, "tpfjet_had_n/I");
  tree_->Branch("tpfjet_had_E",&tpfjet_had_E_);
  tree_->Branch("tpfjet_had_px",&tpfjet_had_px_);
  tree_->Branch("tpfjet_had_py",&tpfjet_had_py_);
  tree_->Branch("tpfjet_had_pz",&tpfjet_had_pz_);
  tree_->Branch("tpfjet_had_EcalE",&tpfjet_had_EcalE_);
  tree_->Branch("tpfjet_had_rawHcalE",&tpfjet_had_rawHcalE_);
  tree_->Branch("tpfjet_had_emf",&tpfjet_had_emf_);
  tree_->Branch("tpfjet_had_id",&tpfjet_had_id_);
  tree_->Branch("tpfjet_had_candtrackind",&tpfjet_had_candtrackind_);
  tree_->Branch("tpfjet_had_ntwrs",&tpfjet_had_ntwrs_);
  tree_->Branch("tpfjet_ntwrs",&tpfjet_ntwrs_, "tpfjet_ntwrs/I");
  tree_->Branch("tpfjet_twr_ieta",&tpfjet_twr_ieta_);
  tree_->Branch("tpfjet_twr_iphi",&tpfjet_twr_iphi_);
  tree_->Branch("tpfjet_twr_depth",&tpfjet_twr_depth_);
  tree_->Branch("tpfjet_twr_subdet",&tpfjet_twr_subdet_);
  tree_->Branch("tpfjet_twr_hade",&tpfjet_twr_hade_);
  tree_->Branch("tpfjet_twr_frac",&tpfjet_twr_frac_);
  tree_->Branch("tpfjet_twr_candtrackind",&tpfjet_twr_candtrackind_);
  tree_->Branch("tpfjet_twr_hadind",&tpfjet_twr_hadind_);
  tree_->Branch("tpfjet_twr_elmttype",&tpfjet_twr_elmttype_);
  tree_->Branch("tpfjet_twr_dR",&tpfjet_twr_dR_);
  tree_->Branch("tpfjet_twr_clusterind",&tpfjet_twr_clusterind_);
  tree_->Branch("tpfjet_cluster_n",&tpfjet_cluster_n_, "tpfjet_cluster_n/I");
  tree_->Branch("tpfjet_cluster_eta",&tpfjet_cluster_eta_);
  tree_->Branch("tpfjet_cluster_phi",&tpfjet_cluster_phi_);
  tree_->Branch("tpfjet_cluster_dR",&tpfjet_cluster_dR_);
  tree_->Branch("tpfjet_ncandtracks",&tpfjet_ncandtracks_, "tpfjet_ncandtracks/I");
  tree_->Branch("tpfjet_candtrack_px",&tpfjet_candtrack_px_);
  tree_->Branch("tpfjet_candtrack_py",&tpfjet_candtrack_py_);
  tree_->Branch("tpfjet_candtrack_pz",&tpfjet_candtrack_pz_);
  tree_->Branch("tpfjet_candtrack_EcalE",&tpfjet_candtrack_EcalE_);
  tree_->Branch("ppfjet_pt",&ppfjet_pt_, "ppfjet_pt/F");
  tree_->Branch("ppfjet_p",&ppfjet_p_, "ppfjet_p/F");
  tree_->Branch("ppfjet_E",&ppfjet_E_, "ppfjet_E/F");
  tree_->Branch("ppfjet_eta",&ppfjet_eta_, "ppfjet_eta/F");
  tree_->Branch("ppfjet_phi",&ppfjet_phi_, "ppfjet_phi/F");
  tree_->Branch("ppfjet_EMfrac",&ppfjet_EMfrac_, "ppfjet_EMfrac/F");
  tree_->Branch("ppfjet_hadEcalEfrac",&ppfjet_hadEcalEfrac_, "ppfjet_hadEcalEfrac/F");
  tree_->Branch("ppfjet_scale",&ppfjet_scale_, "ppfjet_scale/F");
  tree_->Branch("ppfjet_area",&ppfjet_area_, "ppfjet_area/F");
  tree_->Branch("ppfjet_jetID",&ppfjet_jetID_, "ppfjet_jetID/I");
  tree_->Branch("ppfjet_unkown_E",&ppfjet_unkown_E_, "ppfjet_unkown_E/F");
  tree_->Branch("ppfjet_electron_E",&ppfjet_electron_E_, "ppfjet_electron_E/F");
  tree_->Branch("ppfjet_muon_E",&ppfjet_muon_E_, "ppfjet_muon_E/F");
  tree_->Branch("ppfjet_photon_E",&ppfjet_photon_E_, "ppfjet_photon_E/F");
  tree_->Branch("ppfjet_unkown_px",&ppfjet_unkown_px_, "ppfjet_unkown_px/F");
  tree_->Branch("ppfjet_electron_px",&ppfjet_electron_px_, "ppfjet_electron_px/F");
  tree_->Branch("ppfjet_muon_px",&ppfjet_muon_px_, "ppfjet_muon_px/F");
  tree_->Branch("ppfjet_photon_px",&ppfjet_photon_px_, "ppfjet_photon_px/F");
  tree_->Branch("ppfjet_unkown_py",&ppfjet_unkown_py_, "ppfjet_unkown_py/F");
  tree_->Branch("ppfjet_electron_py",&ppfjet_electron_py_, "ppfjet_electron_py/F");
  tree_->Branch("ppfjet_muon_py",&ppfjet_muon_py_, "ppfjet_muon_py/F");
  tree_->Branch("ppfjet_photon_py",&ppfjet_photon_py_, "ppfjet_photon_py/F");
  tree_->Branch("ppfjet_unkown_pz",&ppfjet_unkown_pz_, "ppfjet_unkown_pz/F");
  tree_->Branch("ppfjet_electron_pz",&ppfjet_electron_pz_, "ppfjet_electron_pz/F");
  tree_->Branch("ppfjet_muon_pz",&ppfjet_muon_pz_, "ppfjet_muon_pz/F");
  tree_->Branch("ppfjet_photon_pz",&ppfjet_photon_pz_, "ppfjet_photon_pz/F");
  tree_->Branch("ppfjet_unkown_EcalE",&ppfjet_unkown_EcalE_, "ppfjet_unkown_EcalE/F");
  tree_->Branch("ppfjet_electron_EcalE",&ppfjet_electron_EcalE_, "ppfjet_electron_EcalE/F");
  tree_->Branch("ppfjet_muon_EcalE",&ppfjet_muon_EcalE_, "ppfjet_muon_EcalE/F");
  tree_->Branch("ppfjet_photon_EcalE",&ppfjet_photon_EcalE_, "ppfjet_photon_EcalE/F");
  tree_->Branch("ppfjet_unkown_n",&ppfjet_unkown_n_, "ppfjet_unkown_n/I");
  tree_->Branch("ppfjet_electron_n",&ppfjet_electron_n_, "ppfjet_electron_n/I");
  tree_->Branch("ppfjet_muon_n",&ppfjet_muon_n_, "ppfjet_muon_n/I");
  tree_->Branch("ppfjet_photon_n",&ppfjet_photon_n_, "ppfjet_photon_n/I");
  tree_->Branch("ppfjet_had_n",&ppfjet_had_n_, "ppfjet_had_n/I");
  tree_->Branch("ppfjet_had_E",&ppfjet_had_E_);
  tree_->Branch("ppfjet_had_px",&ppfjet_had_px_);
  tree_->Branch("ppfjet_had_py",&ppfjet_had_py_);
  tree_->Branch("ppfjet_had_pz",&ppfjet_had_pz_);
  tree_->Branch("ppfjet_had_EcalE",&ppfjet_had_EcalE_);
  tree_->Branch("ppfjet_had_rawHcalE",&ppfjet_had_rawHcalE_);
  tree_->Branch("ppfjet_had_emf",&ppfjet_had_emf_);
  tree_->Branch("ppfjet_had_id",&ppfjet_had_id_);
  tree_->Branch("ppfjet_had_candtrackind",&ppfjet_had_candtrackind_);
  tree_->Branch("ppfjet_had_ntwrs",&ppfjet_had_ntwrs_);
  tree_->Branch("ppfjet_ntwrs",&ppfjet_ntwrs_, "ppfjet_ntwrs/I");
  tree_->Branch("ppfjet_twr_ieta",&ppfjet_twr_ieta_);
  tree_->Branch("ppfjet_twr_iphi",&ppfjet_twr_iphi_);
  tree_->Branch("ppfjet_twr_depth",&ppfjet_twr_depth_);
  tree_->Branch("ppfjet_twr_subdet",&ppfjet_twr_subdet_);
  tree_->Branch("ppfjet_twr_hade",&ppfjet_twr_hade_);
  tree_->Branch("ppfjet_twr_frac",&ppfjet_twr_frac_);
  tree_->Branch("ppfjet_twr_candtrackind",&ppfjet_twr_candtrackind_);
  tree_->Branch("ppfjet_twr_hadind",&ppfjet_twr_hadind_);
  tree_->Branch("ppfjet_twr_elmttype",&ppfjet_twr_elmttype_);
  tree_->Branch("ppfjet_twr_dR",&ppfjet_twr_dR_);
  tree_->Branch("ppfjet_twr_clusterind",&ppfjet_twr_clusterind_);
  tree_->Branch("ppfjet_cluster_n",&ppfjet_cluster_n_, "ppfjet_cluster_n/I");
  tree_->Branch("ppfjet_cluster_eta",&ppfjet_cluster_eta_);
  tree_->Branch("ppfjet_cluster_phi",&ppfjet_cluster_phi_);
  tree_->Branch("ppfjet_cluster_dR",&ppfjet_cluster_dR_);
  tree_->Branch("ppfjet_ncandtracks",&ppfjet_ncandtracks_, "ppfjet_ncandtracks/I");
  tree_->Branch("ppfjet_candtrack_px",&ppfjet_candtrack_px_);
  tree_->Branch("ppfjet_candtrack_py",&ppfjet_candtrack_py_);
  tree_->Branch("ppfjet_candtrack_pz",&ppfjet_candtrack_pz_);
  tree_->Branch("ppfjet_candtrack_EcalE",&ppfjet_candtrack_EcalE_);
  tree_->Branch("pf_dijet_deta",&pf_dijet_deta_, "pf_dijet_deta/F");
  tree_->Branch("pf_dijet_dphi",&pf_dijet_dphi_, "pf_dijet_dphi/F");
  tree_->Branch("pf_dijet_balance",&pf_dijet_balance_, "pf_dijet_balance/F");
  tree_->Branch("pf_thirdjet_px",&pf_thirdjet_px_, "pf_thirdjet_px/F");
  tree_->Branch("pf_thirdjet_py",&pf_thirdjet_py_, "pf_thirdjet_py/F");
  tree_->Branch("pf_realthirdjet_px",&pf_realthirdjet_px_, "pf_realthirdjet_px/F");
  tree_->Branch("pf_realthirdjet_py",&pf_realthirdjet_py_, "pf_realthirdjet_py/F");
  tree_->Branch("pf_realthirdjet_scale",&pf_realthirdjet_scale_, "pf_realthirdjet_scale/F");
  tree_->Branch("pf_Run",&pf_Run_, "pf_Run/I");
  tree_->Branch("pf_Lumi",&pf_Lumi_, "pf_Lumi/I");
  tree_->Branch("pf_Event",&pf_Event_, "pf_Event/I");
  tree_->Branch("pf_NPV",&pf_NPV_, "pf_NPV/I");

  return;
}  

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

private

Definition at line 1268 of file DiJetAnalyzer.cc.

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

Referenced by analyze().

{
  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 DiJetAnalyzer::deltaR ( const double  eta1, const double  phi1, const double  eta2, const double  phi2  )

private

Definition at line 1276 of file DiJetAnalyzer.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);
}

void DiJetAnalyzer::endJob ( void  )

privatevirtual

Reimplemented from edm::EDAnalyzer.

Definition at line 1255 of file DiJetAnalyzer.cc.

References h_PassSelPF_, rootfile_, and tree_.

                      {
  // write histograms
  rootfile_->cd();

  h_PassSelPF_->Write();
  tree_->Write();

  rootfile_->Close();

}

int DiJetAnalyzer::getEtaPhi ( const DetId  id )

private

Definition at line 1284 of file DiJetAnalyzer.cc.

Referenced by analyze().

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

int DiJetAnalyzer::getEtaPhi ( const HcalDetId  id )

private

Definition at line 1289 of file DiJetAnalyzer.cc.

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

Member Data Documentation

bool DiJetAnalyzer::debug_

private

Definition at line 94 of file DiJetAnalyzer.h.

Referenced by analyze(), and DiJetAnalyzer().

TH1D* DiJetAnalyzer::h_PassSelPF_

private

Definition at line 119 of file DiJetAnalyzer.h.

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

std::string DiJetAnalyzer::hbheRecHitName_

private

Definition at line 97 of file DiJetAnalyzer.h.

Referenced by analyze(), and DiJetAnalyzer().

std::string DiJetAnalyzer::hfRecHitName_

private

Definition at line 98 of file DiJetAnalyzer.h.

Referenced by analyze(), and DiJetAnalyzer().

std::string DiJetAnalyzer::hoRecHitName_

private

Definition at line 99 of file DiJetAnalyzer.h.

Referenced by analyze(), and DiJetAnalyzer().

double DiJetAnalyzer::maxDeltaEta_

private

Definition at line 102 of file DiJetAnalyzer.h.

Referenced by analyze(), and DiJetAnalyzer().

double DiJetAnalyzer::maxTagJetEta_

private

Definition at line 104 of file DiJetAnalyzer.h.

Referenced by analyze(), and DiJetAnalyzer().

double DiJetAnalyzer::maxThirdJetEt_

private

Definition at line 107 of file DiJetAnalyzer.h.

Referenced by analyze(), and DiJetAnalyzer().

double DiJetAnalyzer::minJetEt_

private

Definition at line 106 of file DiJetAnalyzer.h.

Referenced by analyze(), and DiJetAnalyzer().

double DiJetAnalyzer::minSumJetEt_

private

Definition at line 105 of file DiJetAnalyzer.h.

Referenced by analyze(), and DiJetAnalyzer().

double DiJetAnalyzer::minTagJetEta_

private

Definition at line 103 of file DiJetAnalyzer.h.

Referenced by analyze(), and DiJetAnalyzer().

float DiJetAnalyzer::pf_dijet_balance_

private

Definition at line 158 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::pf_dijet_deta_

private

Definition at line 158 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::pf_dijet_dphi_

private

Definition at line 158 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

int DiJetAnalyzer::pf_Event_

private

Definition at line 160 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

int DiJetAnalyzer::pf_Lumi_

private

Definition at line 160 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

int DiJetAnalyzer::pf_NPV_

private

Definition at line 161 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::pf_realthirdjet_px_

private

Definition at line 159 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::pf_realthirdjet_py_

private

Definition at line 159 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::pf_realthirdjet_scale_

private

Definition at line 159 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

int DiJetAnalyzer::pf_Run_

private

Definition at line 160 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::pf_thirdjet_px_

private

Definition at line 159 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::pf_thirdjet_py_

private

Definition at line 159 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::string DiJetAnalyzer::pfJetCollName_

private

Definition at line 95 of file DiJetAnalyzer.h.

Referenced by analyze(), and DiJetAnalyzer().

std::string DiJetAnalyzer::pfJetCorrName_

private

Definition at line 96 of file DiJetAnalyzer.h.

Referenced by analyze(), and DiJetAnalyzer().

float DiJetAnalyzer::ppfjet_area_

private

Definition at line 140 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<float> DiJetAnalyzer::ppfjet_candtrack_EcalE_

private

Definition at line 157 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<float> DiJetAnalyzer::ppfjet_candtrack_px_

private

Definition at line 157 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<float> DiJetAnalyzer::ppfjet_candtrack_py_

private

Definition at line 157 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<float> DiJetAnalyzer::ppfjet_candtrack_pz_

private

Definition at line 157 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<float> DiJetAnalyzer::ppfjet_cluster_dR_

private

Definition at line 155 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<float> DiJetAnalyzer::ppfjet_cluster_eta_

private

Definition at line 155 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

int DiJetAnalyzer::ppfjet_cluster_n_

private

Definition at line 154 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<float> DiJetAnalyzer::ppfjet_cluster_phi_

private

Definition at line 155 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::ppfjet_E_

private

Definition at line 140 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::ppfjet_EBE_

private

Definition at line 142 of file DiJetAnalyzer.h.

float DiJetAnalyzer::ppfjet_EEE_

private

Definition at line 142 of file DiJetAnalyzer.h.

float DiJetAnalyzer::ppfjet_electron_E_

private

Definition at line 144 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::ppfjet_electron_EcalE_

private

Definition at line 144 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

int DiJetAnalyzer::ppfjet_electron_n_

private

Definition at line 147 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::ppfjet_electron_px_

private

Definition at line 144 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::ppfjet_electron_py_

private

Definition at line 144 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::ppfjet_electron_pz_

private

Definition at line 144 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::ppfjet_EMfrac_

private

Definition at line 140 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::ppfjet_eta_

private

Definition at line 140 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<int> DiJetAnalyzer::ppfjet_had_candtrackind_

private

Definition at line 150 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<float> DiJetAnalyzer::ppfjet_had_E_

private

Definition at line 149 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<float> DiJetAnalyzer::ppfjet_had_EcalE_

private

Definition at line 149 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<float> DiJetAnalyzer::ppfjet_had_emf_

private

Definition at line 149 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<int> DiJetAnalyzer::ppfjet_had_id_

private

Definition at line 150 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

int DiJetAnalyzer::ppfjet_had_n_

private

Definition at line 148 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<int> DiJetAnalyzer::ppfjet_had_ntwrs_

private

Definition at line 150 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<float> DiJetAnalyzer::ppfjet_had_px_

private

Definition at line 149 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<float> DiJetAnalyzer::ppfjet_had_py_

private

Definition at line 149 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<float> DiJetAnalyzer::ppfjet_had_pz_

private

Definition at line 149 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<float> DiJetAnalyzer::ppfjet_had_rawHcalE_

private

Definition at line 149 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::ppfjet_hadEcalEfrac_

private

Definition at line 140 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::ppfjet_HBE_

private

Definition at line 142 of file DiJetAnalyzer.h.

float DiJetAnalyzer::ppfjet_HEE_

private

Definition at line 142 of file DiJetAnalyzer.h.

float DiJetAnalyzer::ppfjet_HFE_

private

Definition at line 142 of file DiJetAnalyzer.h.

int DiJetAnalyzer::ppfjet_jetID_

private

Definition at line 141 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::ppfjet_muon_E_

private

Definition at line 145 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::ppfjet_muon_EcalE_

private

Definition at line 145 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

int DiJetAnalyzer::ppfjet_muon_n_

private

Definition at line 147 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::ppfjet_muon_px_

private

Definition at line 145 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::ppfjet_muon_py_

private

Definition at line 145 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::ppfjet_muon_pz_

private

Definition at line 145 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

int DiJetAnalyzer::ppfjet_ncandtracks_

private

Definition at line 156 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

int DiJetAnalyzer::ppfjet_ntwrs_

private

Definition at line 151 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::ppfjet_p_

private

Definition at line 140 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::ppfjet_phi_

private

Definition at line 140 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::ppfjet_photon_E_

private

Definition at line 146 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::ppfjet_photon_EcalE_

private

Definition at line 146 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

int DiJetAnalyzer::ppfjet_photon_n_

private

Definition at line 147 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::ppfjet_photon_px_

private

Definition at line 146 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::ppfjet_photon_py_

private

Definition at line 146 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::ppfjet_photon_pz_

private

Definition at line 146 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::ppfjet_pt_

private

Definition at line 140 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::ppfjet_scale_

private

Definition at line 140 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<int> DiJetAnalyzer::ppfjet_twr_candtrackind_

private

Definition at line 152 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<int> DiJetAnalyzer::ppfjet_twr_clusterind_

private

Definition at line 152 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<int> DiJetAnalyzer::ppfjet_twr_depth_

private

Definition at line 152 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<float> DiJetAnalyzer::ppfjet_twr_dR_

private

Definition at line 153 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<int> DiJetAnalyzer::ppfjet_twr_elmttype_

private

Definition at line 152 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<float> DiJetAnalyzer::ppfjet_twr_frac_

private

Definition at line 153 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<float> DiJetAnalyzer::ppfjet_twr_hade_

private

Definition at line 153 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<int> DiJetAnalyzer::ppfjet_twr_hadind_

private

Definition at line 152 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<int> DiJetAnalyzer::ppfjet_twr_ieta_

private

Definition at line 152 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<int> DiJetAnalyzer::ppfjet_twr_iphi_

private

Definition at line 152 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<int> DiJetAnalyzer::ppfjet_twr_subdet_

private

Definition at line 152 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::ppfjet_unkown_E_

private

Definition at line 143 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::ppfjet_unkown_EcalE_

private

Definition at line 143 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

int DiJetAnalyzer::ppfjet_unkown_n_

private

Definition at line 147 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::ppfjet_unkown_px_

private

Definition at line 143 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::ppfjet_unkown_py_

private

Definition at line 143 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::ppfjet_unkown_pz_

private

Definition at line 143 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::string DiJetAnalyzer::pvCollName_

private

Definition at line 100 of file DiJetAnalyzer.h.

Referenced by analyze(), and DiJetAnalyzer().

TFile* DiJetAnalyzer::rootfile_

private

Definition at line 117 of file DiJetAnalyzer.h.

Referenced by beginJob(), and endJob().

std::string DiJetAnalyzer::rootHistFilename_

private

Definition at line 101 of file DiJetAnalyzer.h.

Referenced by beginJob(), and DiJetAnalyzer().

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

private

Definition at line 110 of file DiJetAnalyzer.h.

Referenced by analyze(), and DiJetAnalyzer().

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

private

Definition at line 111 of file DiJetAnalyzer.h.

Referenced by analyze(), and DiJetAnalyzer().

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

private

Definition at line 112 of file DiJetAnalyzer.h.

Referenced by analyze(), and DiJetAnalyzer().

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

private

Definition at line 109 of file DiJetAnalyzer.h.

Referenced by analyze(), and DiJetAnalyzer().

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

private

Definition at line 113 of file DiJetAnalyzer.h.

Referenced by analyze(), and DiJetAnalyzer().

float DiJetAnalyzer::tpfjet_area_

private

Definition at line 122 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<float> DiJetAnalyzer::tpfjet_candtrack_EcalE_

private

Definition at line 139 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<float> DiJetAnalyzer::tpfjet_candtrack_px_

private

Definition at line 139 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<float> DiJetAnalyzer::tpfjet_candtrack_py_

private

Definition at line 139 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<float> DiJetAnalyzer::tpfjet_candtrack_pz_

private

Definition at line 139 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<float> DiJetAnalyzer::tpfjet_cluster_dR_

private

Definition at line 137 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<float> DiJetAnalyzer::tpfjet_cluster_eta_

private

Definition at line 137 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

int DiJetAnalyzer::tpfjet_cluster_n_

private

Definition at line 136 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<float> DiJetAnalyzer::tpfjet_cluster_phi_

private

Definition at line 137 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::tpfjet_E_

private

Definition at line 122 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::tpfjet_EBE_

private

Definition at line 124 of file DiJetAnalyzer.h.

float DiJetAnalyzer::tpfjet_EEE_

private

Definition at line 124 of file DiJetAnalyzer.h.

float DiJetAnalyzer::tpfjet_electron_E_

private

Definition at line 126 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::tpfjet_electron_EcalE_

private

Definition at line 126 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

int DiJetAnalyzer::tpfjet_electron_n_

private

Definition at line 129 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::tpfjet_electron_px_

private

Definition at line 126 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::tpfjet_electron_py_

private

Definition at line 126 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::tpfjet_electron_pz_

private

Definition at line 126 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::tpfjet_EMfrac_

private

Definition at line 122 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::tpfjet_eta_

private

Definition at line 122 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<int> DiJetAnalyzer::tpfjet_had_candtrackind_

private

Definition at line 132 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<float> DiJetAnalyzer::tpfjet_had_E_

private

Definition at line 131 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<float> DiJetAnalyzer::tpfjet_had_EcalE_

private

Definition at line 131 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<float> DiJetAnalyzer::tpfjet_had_emf_

private

Definition at line 131 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<int> DiJetAnalyzer::tpfjet_had_id_

private

Definition at line 132 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

int DiJetAnalyzer::tpfjet_had_n_

private

Definition at line 130 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<int> DiJetAnalyzer::tpfjet_had_ntwrs_

private

Definition at line 132 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<float> DiJetAnalyzer::tpfjet_had_px_

private

Definition at line 131 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<float> DiJetAnalyzer::tpfjet_had_py_

private

Definition at line 131 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<float> DiJetAnalyzer::tpfjet_had_pz_

private

Definition at line 131 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<float> DiJetAnalyzer::tpfjet_had_rawHcalE_

private

Definition at line 131 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::tpfjet_hadEcalEfrac_

private

Definition at line 122 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::tpfjet_HBE_

private

Definition at line 124 of file DiJetAnalyzer.h.

float DiJetAnalyzer::tpfjet_HEE_

private

Definition at line 124 of file DiJetAnalyzer.h.

float DiJetAnalyzer::tpfjet_HFE_

private

Definition at line 124 of file DiJetAnalyzer.h.

int DiJetAnalyzer::tpfjet_jetID_

private

Definition at line 123 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::tpfjet_muon_E_

private

Definition at line 127 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::tpfjet_muon_EcalE_

private

Definition at line 127 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

int DiJetAnalyzer::tpfjet_muon_n_

private

Definition at line 129 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::tpfjet_muon_px_

private

Definition at line 127 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::tpfjet_muon_py_

private

Definition at line 127 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::tpfjet_muon_pz_

private

Definition at line 127 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

int DiJetAnalyzer::tpfjet_ncandtracks_

private

Definition at line 138 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

int DiJetAnalyzer::tpfjet_ntwrs_

private

Definition at line 133 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::tpfjet_p_

private

Definition at line 122 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::tpfjet_phi_

private

Definition at line 122 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::tpfjet_photon_E_

private

Definition at line 128 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::tpfjet_photon_EcalE_

private

Definition at line 128 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

int DiJetAnalyzer::tpfjet_photon_n_

private

Definition at line 129 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::tpfjet_photon_px_

private

Definition at line 128 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::tpfjet_photon_py_

private

Definition at line 128 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::tpfjet_photon_pz_

private

Definition at line 128 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::tpfjet_pt_

private

Definition at line 122 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::tpfjet_scale_

private

Definition at line 122 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<int> DiJetAnalyzer::tpfjet_twr_candtrackind_

private

Definition at line 134 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<int> DiJetAnalyzer::tpfjet_twr_clusterind_

private

Definition at line 134 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<int> DiJetAnalyzer::tpfjet_twr_depth_

private

Definition at line 134 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<float> DiJetAnalyzer::tpfjet_twr_dR_

private

Definition at line 135 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<int> DiJetAnalyzer::tpfjet_twr_elmttype_

private

Definition at line 134 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<float> DiJetAnalyzer::tpfjet_twr_frac_

private

Definition at line 135 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<float> DiJetAnalyzer::tpfjet_twr_hade_

private

Definition at line 135 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<int> DiJetAnalyzer::tpfjet_twr_hadind_

private

Definition at line 134 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<int> DiJetAnalyzer::tpfjet_twr_ieta_

private

Definition at line 134 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<int> DiJetAnalyzer::tpfjet_twr_iphi_

private

Definition at line 134 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

std::vector<int> DiJetAnalyzer::tpfjet_twr_subdet_

private

Definition at line 134 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::tpfjet_unkown_E_

private

Definition at line 125 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::tpfjet_unkown_EcalE_

private

Definition at line 125 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

int DiJetAnalyzer::tpfjet_unkown_n_

private

Definition at line 129 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::tpfjet_unkown_px_

private

Definition at line 125 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::tpfjet_unkown_py_

private

Definition at line 125 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

float DiJetAnalyzer::tpfjet_unkown_pz_

private

Definition at line 125 of file DiJetAnalyzer.h.

Referenced by analyze(), and beginJob().

TTree* DiJetAnalyzer::tree_

private

Definition at line 120 of file DiJetAnalyzer.h.

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