HCALRecHitAnalyzer Class Reference

#include <HCALRecHitAnalyzer.h>

Inheritance diagram for HCALRecHitAnalyzer:

Public Member Functions
void	analyze (const edm::Event &, const edm::EventSetup &) override
void	bookHistograms (DQMStore::IBooker &, edm::Run const &, edm::EventSetup const &) override
void	dqmBeginRun (const edm::Run &, const edm::EventSetup &) override
	HCALRecHitAnalyzer (const edm::ParameterSet &)
Public Member Functions inherited from DQMEDAnalyzer
void	accumulate (edm::Event const &event, edm::EventSetup const &setup) final
void	beginLuminosityBlock (edm::LuminosityBlock const &lumi, edm::EventSetup const &setup) final
void	beginRun (edm::Run const &run, edm::EventSetup const &setup) final
void	beginStream (edm::StreamID id) final
	DQMEDAnalyzer ()
void	endLuminosityBlock (edm::LuminosityBlock const &lumi, edm::EventSetup const &setup) final
void	endRun (edm::Run const &run, edm::EventSetup const &setup) final
virtual bool	getCanSaveByLumi ()
Public Member Functions inherited from edm::stream::EDProducer< edm::GlobalCache< DQMEDAnalyzerGlobalCache >, edm::EndRunProducer, edm::EndLuminosityBlockProducer, edm::Accumulator >
	EDProducer ()=default
	EDProducer (const EDProducer &)=delete
bool	hasAbilityToProduceInBeginLumis () const final
bool	hasAbilityToProduceInBeginProcessBlocks () const final
bool	hasAbilityToProduceInBeginRuns () const final
bool	hasAbilityToProduceInEndLumis () const final
bool	hasAbilityToProduceInEndProcessBlocks () const final
bool	hasAbilityToProduceInEndRuns () const final
const EDProducer &	operator= (const EDProducer &)=delete

Private Member Functions
void	FillGeometry (const edm::EventSetup &)

Private Attributes
edm::ESGetToken< CaloGeometry, CaloGeometryRecord >	caloGeomToken_
bool	debug_
bool	finebinning_
std::string	FolderName_
edm::EDGetTokenT< HBHERecHitCollection >	hBHERecHitsLabel_
edm::EDGetTokenT< HFRecHitCollection >	hFRecHitsLabel_
MonitorElement *	hHCAL_D1_energy_ieta_iphi
MonitorElement *	hHCAL_D1_energyvsieta
MonitorElement *	hHCAL_D1_Maxenergy_ieta_iphi
MonitorElement *	hHCAL_D1_Maxenergyvsieta
MonitorElement *	hHCAL_D1_METPhivsieta
MonitorElement *	hHCAL_D1_METvsieta
MonitorElement *	hHCAL_D1_MExvsieta
MonitorElement *	hHCAL_D1_MEyvsieta
MonitorElement *	hHCAL_D1_Minenergy_ieta_iphi
MonitorElement *	hHCAL_D1_Minenergyvsieta
MonitorElement *	hHCAL_D1_Occ_ieta_iphi
MonitorElement *	hHCAL_D1_Occvsieta
MonitorElement *	hHCAL_D1_SETvsieta
MonitorElement *	hHCAL_D2_energy_ieta_iphi
MonitorElement *	hHCAL_D2_energyvsieta
MonitorElement *	hHCAL_D2_Maxenergy_ieta_iphi
MonitorElement *	hHCAL_D2_Maxenergyvsieta
MonitorElement *	hHCAL_D2_METPhivsieta
MonitorElement *	hHCAL_D2_METvsieta
MonitorElement *	hHCAL_D2_MExvsieta
MonitorElement *	hHCAL_D2_MEyvsieta
MonitorElement *	hHCAL_D2_Minenergy_ieta_iphi
MonitorElement *	hHCAL_D2_Minenergyvsieta
MonitorElement *	hHCAL_D2_Occ_ieta_iphi
MonitorElement *	hHCAL_D2_Occvsieta
MonitorElement *	hHCAL_D2_SETvsieta
MonitorElement *	hHCAL_D3_energy_ieta_iphi
MonitorElement *	hHCAL_D3_energyvsieta
MonitorElement *	hHCAL_D3_Maxenergy_ieta_iphi
MonitorElement *	hHCAL_D3_Maxenergyvsieta
MonitorElement *	hHCAL_D3_METPhivsieta
MonitorElement *	hHCAL_D3_METvsieta
MonitorElement *	hHCAL_D3_MExvsieta
MonitorElement *	hHCAL_D3_MEyvsieta
MonitorElement *	hHCAL_D3_Minenergy_ieta_iphi
MonitorElement *	hHCAL_D3_Minenergyvsieta
MonitorElement *	hHCAL_D3_Occ_ieta_iphi
MonitorElement *	hHCAL_D3_Occvsieta
MonitorElement *	hHCAL_D3_SETvsieta
MonitorElement *	hHCAL_D4_energy_ieta_iphi
MonitorElement *	hHCAL_D4_energyvsieta
MonitorElement *	hHCAL_D4_Maxenergy_ieta_iphi
MonitorElement *	hHCAL_D4_Maxenergyvsieta
MonitorElement *	hHCAL_D4_METPhivsieta
MonitorElement *	hHCAL_D4_METvsieta
MonitorElement *	hHCAL_D4_MExvsieta
MonitorElement *	hHCAL_D4_MEyvsieta
MonitorElement *	hHCAL_D4_Minenergy_ieta_iphi
MonitorElement *	hHCAL_D4_Minenergyvsieta
MonitorElement *	hHCAL_D4_Occ_ieta_iphi
MonitorElement *	hHCAL_D4_Occvsieta
MonitorElement *	hHCAL_D4_SETvsieta
MonitorElement *	hHCAL_ieta_detaMap
MonitorElement *	hHCAL_ieta_dphiMap
MonitorElement *	hHCAL_ieta_iphi_etaMap
MonitorElement *	hHCAL_ieta_iphi_HBMap
MonitorElement *	hHCAL_ieta_iphi_HEMap
MonitorElement *	hHCAL_ieta_iphi_HFMap
MonitorElement *	hHCAL_ieta_iphi_HOMap
MonitorElement *	hHCAL_ieta_iphi_phiMap
MonitorElement *	hHCAL_Nevents
edm::EDGetTokenT< HORecHitCollection >	hORecHitsLabel_
int	Nevents

Additional Inherited Members
Public Types inherited from DQMEDAnalyzer
typedef dqm::reco::DQMStore	DQMStore
typedef dqm::reco::MonitorElement	MonitorElement
Public Types inherited from edm::stream::EDProducer< edm::GlobalCache< DQMEDAnalyzerGlobalCache >, edm::EndRunProducer, edm::EndLuminosityBlockProducer, edm::Accumulator >
using	CacheTypes = CacheContexts< T... >
using	GlobalCache = typename CacheTypes::GlobalCache
using	HasAbility = AbilityChecker< T... >
using	InputProcessBlockCache = typename CacheTypes::InputProcessBlockCache
using	LuminosityBlockCache = typename CacheTypes::LuminosityBlockCache
using	LuminosityBlockContext = LuminosityBlockContextT< LuminosityBlockCache, RunCache, GlobalCache >
using	LuminosityBlockSummaryCache = typename CacheTypes::LuminosityBlockSummaryCache
using	RunCache = typename CacheTypes::RunCache
using	RunContext = RunContextT< RunCache, GlobalCache >
using	RunSummaryCache = typename CacheTypes::RunSummaryCache
Static Public Member Functions inherited from DQMEDAnalyzer
static void	globalEndJob (DQMEDAnalyzerGlobalCache const *)
static void	globalEndLuminosityBlockProduce (edm::LuminosityBlock &lumi, edm::EventSetup const &setup, LuminosityBlockContext const *context)
static void	globalEndRunProduce (edm::Run &run, edm::EventSetup const &setup, RunContext const *context)
static std::unique_ptr< DQMEDAnalyzerGlobalCache >	initializeGlobalCache (edm::ParameterSet const &)
Protected Member Functions inherited from DQMEDAnalyzer
uint64_t	meId () const
Protected Attributes inherited from DQMEDAnalyzer
edm::EDPutTokenT< DQMToken >	lumiToken_
edm::EDPutTokenT< DQMToken >	runToken_
unsigned int	streamId_

Detailed Description

Definition at line 25 of file HCALRecHitAnalyzer.h.

Constructor & Destructor Documentation

HCALRecHitAnalyzer()

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

explicit

Definition at line 49 of file HCALRecHitAnalyzer.cc.

References caloGeomToken_, debug_, finebinning_, FolderName_, edm::ParameterSet::getParameter(), edm::ParameterSet::getUntrackedParameter(), hBHERecHitsLabel_, hFRecHitsLabel_, hORecHitsLabel_, and AlCaHLTBitMon_QueryRunRegistry::string.

                                                                     {
  // Retrieve Information from the Configuration File
  hBHERecHitsLabel_ = consumes<HBHERecHitCollection>(iConfig.getParameter<edm::InputTag>("HBHERecHitsLabel"));
  hORecHitsLabel_ = consumes<HORecHitCollection>(iConfig.getParameter<edm::InputTag>("HORecHitsLabel"));
  hFRecHitsLabel_ = consumes<HFRecHitCollection>(iConfig.getParameter<edm::InputTag>("HFRecHitsLabel"));
  caloGeomToken_ = esConsumes<edm::Transition::BeginRun>();
  debug_ = iConfig.getParameter<bool>("Debug");
  finebinning_ = iConfig.getUntrackedParameter<bool>("FineBinning");
  FolderName_ = iConfig.getUntrackedParameter<std::string>("FolderName");
}

Member Function Documentation

analyze()

void HCALRecHitAnalyzer::analyze ( const edm::Event &  iEvent, const edm::EventSetup &  iSetup  )

overridevirtual

Int_t depth = det.depth(); //always 4

Reimplemented from DQMEDAnalyzer.

Definition at line 435 of file HCALRecHitAnalyzer.cc.

References edm::SortedCollection< T, SORT >::begin(), DEBUG, LEDCalibrationChannels::depth, HcalDetId::depth(), edm::SortedCollection< T, SORT >::end(), EcalCondDBWriter_cfi::Energy, ET, PVValHelper::eta, JetChargeProducer_cfi::exp, dqm::impl::MonitorElement::Fill(), dqm::impl::MonitorElement::getBinContent(), egHLT::errCodes::HBHERecHits, hBHERecHitsLabel_, HcalBarrel, egHLT::errCodes::HFRecHits, hFRecHitsLabel_, hHCAL_D1_energy_ieta_iphi, hHCAL_D1_energyvsieta, hHCAL_D1_Maxenergy_ieta_iphi, hHCAL_D1_Maxenergyvsieta, hHCAL_D1_METPhivsieta, hHCAL_D1_METvsieta, hHCAL_D1_MExvsieta, hHCAL_D1_MEyvsieta, hHCAL_D1_Minenergy_ieta_iphi, hHCAL_D1_Minenergyvsieta, hHCAL_D1_Occ_ieta_iphi, hHCAL_D1_Occvsieta, hHCAL_D1_SETvsieta, hHCAL_D2_energy_ieta_iphi, hHCAL_D2_energyvsieta, hHCAL_D2_Maxenergy_ieta_iphi, hHCAL_D2_Maxenergyvsieta, hHCAL_D2_METPhivsieta, hHCAL_D2_METvsieta, hHCAL_D2_MExvsieta, hHCAL_D2_MEyvsieta, hHCAL_D2_Minenergy_ieta_iphi, hHCAL_D2_Minenergyvsieta, hHCAL_D2_Occ_ieta_iphi, hHCAL_D2_Occvsieta, hHCAL_D2_SETvsieta, hHCAL_D3_energy_ieta_iphi, hHCAL_D3_energyvsieta, hHCAL_D3_Maxenergy_ieta_iphi, hHCAL_D3_Maxenergyvsieta, hHCAL_D3_METPhivsieta, hHCAL_D3_METvsieta, hHCAL_D3_MExvsieta, hHCAL_D3_MEyvsieta, hHCAL_D3_Minenergy_ieta_iphi, hHCAL_D3_Minenergyvsieta, hHCAL_D3_Occ_ieta_iphi, hHCAL_D3_Occvsieta, hHCAL_D3_SETvsieta, hHCAL_D4_energy_ieta_iphi, hHCAL_D4_energyvsieta, hHCAL_D4_Maxenergy_ieta_iphi, hHCAL_D4_Maxenergyvsieta, hHCAL_D4_METPhivsieta, hHCAL_D4_METvsieta, hHCAL_D4_MExvsieta, hHCAL_D4_MEyvsieta, hHCAL_D4_Minenergy_ieta_iphi, hHCAL_D4_Minenergyvsieta, hHCAL_D4_Occ_ieta_iphi, hHCAL_D4_Occvsieta, hHCAL_D4_SETvsieta, hHCAL_ieta_iphi_etaMap, hHCAL_ieta_iphi_phiMap, hHCAL_Nevents, hORecHitsLabel_, mps_fire::i, LEDCalibrationChannels::ieta, HcalDetId::ieta(), iEvent, LEDCalibrationChannels::iphi, HcalDetId::iphi(), edm::HandleBase::isValid(), dqmiolumiharvest::j, Nevents, phi, VtxSmearedParameters_cfi::Phi, edm::Handle< T >::product(), dqm::impl::MonitorElement::setBinContent(), HcalDetId::subdet(), and theta().

                                                                                    {
  Nevents++;
  hHCAL_Nevents->Fill(0);
  // ==========================================================
  // Retrieve!
  // ==========================================================

  const HBHERecHitCollection* HBHERecHits;
  const HORecHitCollection* HORecHits;
  const HFRecHitCollection* HFRecHits;

  edm::Handle<HBHERecHitCollection> HBHERecHitsHandle;
  iEvent.getByToken(hBHERecHitsLabel_, HBHERecHitsHandle);
  if (!HBHERecHitsHandle.isValid()) {
    edm::LogInfo("OutputInfo") << "Failed to retrieve an Event Handle, Aborting Task "
                               << "HCALRecHitAnalyzer::analyze!\n";
    return;
  } else {
    HBHERecHits = HBHERecHitsHandle.product();
  }
  edm::Handle<HORecHitCollection> HORecHitsHandle;
  iEvent.getByToken(hORecHitsLabel_, HORecHitsHandle);
  if (!HORecHitsHandle.isValid()) {
    edm::LogInfo("OutputInfo") << "Failed to retrieve an Event Handle, Aborting Task "
                               << "HCALRecHitAnalyzer::analyze!\n";
    return;
  } else {
    HORecHits = HORecHitsHandle.product();
  }
  edm::Handle<HFRecHitCollection> HFRecHitsHandle;
  iEvent.getByToken(hFRecHitsLabel_, HFRecHitsHandle);
  if (!HFRecHitsHandle.isValid()) {
    edm::LogInfo("OutputInfo") << "Failed to retrieve an Event Handle, Aborting Task "
                               << "HCALRecHitAnalyzer::analyze!\n";
    return;
  } else {
    HFRecHits = HFRecHitsHandle.product();
  }

  // ==========================================================
  // Fill Histograms!
  // ==========================================================

  TLorentzVector vHBHEMET_EtaRing[83][4];
  int HBHEActiveRing[83][4];
  int HBHENActiveCells[83][4];
  double HBHESET_EtaRing[83][4];
  double HBHEMinEnergy_EtaRing[83][4];
  double HBHEMaxEnergy_EtaRing[83][4];

  for (int i = 0; i < 83; i++) {
    for (int j = 0; j < 4; j++) {
      HBHEActiveRing[i][j] = 0;
      HBHENActiveCells[i][j] = 0;
      HBHESET_EtaRing[i][j] = 0;
      HBHEMinEnergy_EtaRing[i][j] = 14E3;
      HBHEMaxEnergy_EtaRing[i][j] = -999;
    }
  }

  // Loop over HBHERecHit's
  HBHERecHitCollection::const_iterator hbherechit;
  int nHBrechit = 0, nHErechit = 0;

  for (hbherechit = HBHERecHits->begin(); hbherechit != HBHERecHits->end(); hbherechit++) {
    HcalDetId det = hbherechit->id();
    double Energy = hbherechit->energy();
    Int_t depth = det.depth();
    Int_t ieta = det.ieta();
    Int_t iphi = det.iphi();
    int EtaRing = 41 + ieta;  // this counts from 0
    double eta = hHCAL_ieta_iphi_etaMap->getBinContent(EtaRing + 1, iphi);
    double phi = hHCAL_ieta_iphi_phiMap->getBinContent(EtaRing + 1, iphi);
    double theta = 2 * TMath::ATan(exp(-1 * eta));
    double ET = Energy * TMath::Sin(theta);
    HcalSubdetector HcalNum = det.subdet();
    TLorentzVector v_;

    if (Energy > 0)  // zero suppress
    {
      HBHEActiveRing[EtaRing][depth - 1] = 1;
      HBHENActiveCells[EtaRing][depth - 1]++;
      HBHESET_EtaRing[EtaRing][depth - 1] += ET;
      v_.SetPtEtaPhiE(ET, 0, phi, ET);
      vHBHEMET_EtaRing[EtaRing][depth - 1] -= v_;

      DEBUG(EtaRing << " " << Energy << " " << ET << " " << theta << " " << eta << " " << phi << " : "
                    << vHBHEMET_EtaRing[EtaRing][depth - 1].Phi() << " " << vHBHEMET_EtaRing[EtaRing][depth - 1].Pt());

      switch (depth) {
        case 1:
          hHCAL_D1_Occ_ieta_iphi->Fill(ieta, iphi);
          break;
        case 2:
          hHCAL_D2_Occ_ieta_iphi->Fill(ieta, iphi);
          break;
        case 3:
          hHCAL_D3_Occ_ieta_iphi->Fill(ieta, iphi);
          break;
      }  // end switch
    }

    if (Energy > HBHEMaxEnergy_EtaRing[EtaRing][depth - 1])
      HBHEMaxEnergy_EtaRing[EtaRing][depth - 1] = Energy;
    if (Energy < HBHEMinEnergy_EtaRing[EtaRing][depth - 1])
      HBHEMinEnergy_EtaRing[EtaRing][depth - 1] = Energy;

    switch (depth) {
      case 1:
        hHCAL_D1_energy_ieta_iphi->Fill(ieta, iphi, Energy);
        hHCAL_D1_energyvsieta->Fill(ieta, Energy);
        if (Energy > hHCAL_D1_Maxenergy_ieta_iphi->getBinContent(EtaRing + 1, iphi))
          hHCAL_D1_Maxenergy_ieta_iphi->setBinContent(EtaRing + 1, iphi, Energy);
        if (Energy < hHCAL_D1_Minenergy_ieta_iphi->getBinContent(EtaRing + 1, iphi))
          hHCAL_D1_Minenergy_ieta_iphi->setBinContent(EtaRing + 1, iphi, Energy);

        break;
      case 2:
        hHCAL_D2_energy_ieta_iphi->Fill(ieta, iphi, Energy);

        hHCAL_D2_energyvsieta->Fill(ieta, Energy);
        if (Energy > hHCAL_D2_Maxenergy_ieta_iphi->getBinContent(EtaRing + 1, iphi))
          hHCAL_D2_Maxenergy_ieta_iphi->setBinContent(EtaRing + 1, iphi, Energy);
        if (Energy < hHCAL_D2_Minenergy_ieta_iphi->getBinContent(EtaRing + 1, iphi))
          hHCAL_D2_Minenergy_ieta_iphi->setBinContent(EtaRing + 1, iphi, Energy);
        break;
      case 3:
        hHCAL_D3_energy_ieta_iphi->Fill(ieta, iphi, Energy);

        hHCAL_D3_energyvsieta->Fill(ieta, Energy);
        if (Energy > hHCAL_D3_Maxenergy_ieta_iphi->getBinContent(EtaRing + 1, iphi))
          hHCAL_D3_Maxenergy_ieta_iphi->setBinContent(EtaRing + 1, iphi, Energy);
        if (Energy < hHCAL_D3_Minenergy_ieta_iphi->getBinContent(EtaRing + 1, iphi))
          hHCAL_D3_Minenergy_ieta_iphi->setBinContent(EtaRing + 1, iphi, Energy);
        break;
    }  // end switch

    if (HcalNum == HcalBarrel) {
      nHBrechit++;
    } else {  // HcalEndcap
      nHErechit++;
    }
  }  // end loop over HBHERecHit's

  // Fill eta-ring MET quantities
  for (int iEtaRing = 0; iEtaRing < 83; iEtaRing++) {
    for (int jDepth = 0; jDepth < 3; jDepth++) {
      switch (jDepth + 1) {
        case 1:
          hHCAL_D1_Maxenergyvsieta->Fill(iEtaRing - 41, HBHEMaxEnergy_EtaRing[iEtaRing][jDepth]);
          hHCAL_D1_Minenergyvsieta->Fill(iEtaRing - 41, HBHEMinEnergy_EtaRing[iEtaRing][jDepth]);
          break;
        case 2:
          hHCAL_D2_Maxenergyvsieta->Fill(iEtaRing - 41, HBHEMaxEnergy_EtaRing[iEtaRing][jDepth]);
          hHCAL_D2_Minenergyvsieta->Fill(iEtaRing - 41, HBHEMinEnergy_EtaRing[iEtaRing][jDepth]);
          break;
        case 3:
          hHCAL_D3_Maxenergyvsieta->Fill(iEtaRing - 41, HBHEMaxEnergy_EtaRing[iEtaRing][jDepth]);
          hHCAL_D3_Minenergyvsieta->Fill(iEtaRing - 41, HBHEMinEnergy_EtaRing[iEtaRing][jDepth]);
          break;
      }

      if (HBHEActiveRing[iEtaRing][jDepth]) {
        switch (jDepth + 1) {
          case 1:
            hHCAL_D1_METPhivsieta->Fill(iEtaRing - 41, vHBHEMET_EtaRing[iEtaRing][jDepth].Phi());
            hHCAL_D1_MExvsieta->Fill(iEtaRing - 41, vHBHEMET_EtaRing[iEtaRing][jDepth].Px());
            hHCAL_D1_MEyvsieta->Fill(iEtaRing - 41, vHBHEMET_EtaRing[iEtaRing][jDepth].Py());
            hHCAL_D1_METvsieta->Fill(iEtaRing - 41, vHBHEMET_EtaRing[iEtaRing][jDepth].Pt());
            hHCAL_D1_SETvsieta->Fill(iEtaRing - 41, HBHESET_EtaRing[iEtaRing][jDepth]);
            hHCAL_D1_Occvsieta->Fill(iEtaRing - 41, HBHENActiveCells[iEtaRing][jDepth]);
            break;
          case 2:
            hHCAL_D2_METPhivsieta->Fill(iEtaRing - 41, vHBHEMET_EtaRing[iEtaRing][jDepth].Phi());
            hHCAL_D2_MExvsieta->Fill(iEtaRing - 41, vHBHEMET_EtaRing[iEtaRing][jDepth].Px());
            hHCAL_D2_MEyvsieta->Fill(iEtaRing - 41, vHBHEMET_EtaRing[iEtaRing][jDepth].Py());
            hHCAL_D2_METvsieta->Fill(iEtaRing - 41, vHBHEMET_EtaRing[iEtaRing][jDepth].Pt());
            hHCAL_D2_SETvsieta->Fill(iEtaRing - 41, HBHESET_EtaRing[iEtaRing][jDepth]);
            hHCAL_D2_Occvsieta->Fill(iEtaRing - 41, HBHENActiveCells[iEtaRing][jDepth]);
            break;
          case 3:
            hHCAL_D3_METPhivsieta->Fill(iEtaRing - 41, vHBHEMET_EtaRing[iEtaRing][jDepth].Phi());
            hHCAL_D3_MExvsieta->Fill(iEtaRing - 41, vHBHEMET_EtaRing[iEtaRing][jDepth].Px());
            hHCAL_D3_MEyvsieta->Fill(iEtaRing - 41, vHBHEMET_EtaRing[iEtaRing][jDepth].Py());
            hHCAL_D3_METvsieta->Fill(iEtaRing - 41, vHBHEMET_EtaRing[iEtaRing][jDepth].Pt());
            hHCAL_D3_SETvsieta->Fill(iEtaRing - 41, HBHESET_EtaRing[iEtaRing][jDepth]);
            hHCAL_D3_Occvsieta->Fill(iEtaRing - 41, HBHENActiveCells[iEtaRing][jDepth]);
            break;
        }  //switch
      }    //activering
    }      //depth
  }        //etaring

  //-------------------------------------------------HO
  TLorentzVector vHOMET_EtaRing[83];
  int HOActiveRing[83];
  int HONActiveCells[83];
  double HOSET_EtaRing[83];
  double HOMinEnergy_EtaRing[83];
  double HOMaxEnergy_EtaRing[83];

  for (int i = 0; i < 83; i++) {
    HOActiveRing[i] = 0;
    HONActiveCells[i] = 0;
    HOSET_EtaRing[i] = 0;
    HOMinEnergy_EtaRing[i] = 14E3;
    HOMaxEnergy_EtaRing[i] = -999;
  }

  // Loop over HORecHit's
  HORecHitCollection::const_iterator horechit;
  int nHOrechit = 0;

  for (horechit = HORecHits->begin(); horechit != HORecHits->end(); horechit++) {
    nHOrechit++;

    HcalDetId det = horechit->id();
    double Energy = horechit->energy();
    Int_t ieta = det.ieta();
    Int_t iphi = det.iphi();
    int EtaRing = 41 + ieta;  // this counts from 0
    double eta = hHCAL_ieta_iphi_etaMap->getBinContent(EtaRing + 1, iphi);
    double phi = hHCAL_ieta_iphi_phiMap->getBinContent(EtaRing + 1, iphi);
    double theta = 2 * TMath::ATan(exp(-1 * eta));
    double ET = Energy * TMath::Sin(theta);
    TLorentzVector v_;

    if (Energy > 0)  // zero suppress
    {
      HOActiveRing[EtaRing] = 1;
      HONActiveCells[EtaRing]++;
      HOSET_EtaRing[EtaRing] += ET;
      v_.SetPtEtaPhiE(ET, 0, phi, ET);
      vHOMET_EtaRing[EtaRing] -= v_;

      hHCAL_D4_Occ_ieta_iphi->Fill(ieta, iphi);
    }

    if (Energy > HOMaxEnergy_EtaRing[EtaRing])
      HOMaxEnergy_EtaRing[EtaRing] = Energy;
    if (Energy < HOMinEnergy_EtaRing[EtaRing])
      HOMinEnergy_EtaRing[EtaRing] = Energy;

    hHCAL_D4_energy_ieta_iphi->Fill(ieta, iphi, Energy);

    hHCAL_D4_energyvsieta->Fill(ieta, Energy);
    if (Energy > hHCAL_D4_Maxenergy_ieta_iphi->getBinContent(EtaRing + 1, iphi))
      hHCAL_D4_Maxenergy_ieta_iphi->setBinContent(EtaRing + 1, iphi, Energy);
    if (Energy < hHCAL_D4_Minenergy_ieta_iphi->getBinContent(EtaRing + 1, iphi))
      hHCAL_D4_Minenergy_ieta_iphi->setBinContent(EtaRing + 1, iphi, Energy);

  }  // end loop over HORecHit's

  // Fill eta-ring MET quantities
  for (int iEtaRing = 0; iEtaRing < 83; iEtaRing++) {
    hHCAL_D4_Maxenergyvsieta->Fill(iEtaRing - 41, HOMaxEnergy_EtaRing[iEtaRing]);
    hHCAL_D4_Minenergyvsieta->Fill(iEtaRing - 41, HOMinEnergy_EtaRing[iEtaRing]);

    if (HOActiveRing[iEtaRing]) {
      hHCAL_D4_METPhivsieta->Fill(iEtaRing - 41, vHOMET_EtaRing[iEtaRing].Phi());
      hHCAL_D4_MExvsieta->Fill(iEtaRing - 41, vHOMET_EtaRing[iEtaRing].Px());
      hHCAL_D4_MEyvsieta->Fill(iEtaRing - 41, vHOMET_EtaRing[iEtaRing].Py());
      hHCAL_D4_METvsieta->Fill(iEtaRing - 41, vHOMET_EtaRing[iEtaRing].Pt());
      hHCAL_D4_SETvsieta->Fill(iEtaRing - 41, HOSET_EtaRing[iEtaRing]);
      hHCAL_D4_Occvsieta->Fill(iEtaRing - 41, HONActiveCells[iEtaRing]);
    }
  }

  //------------------------------------------------HF

  TLorentzVector vHFMET_EtaRing[83][2];
  int HFActiveRing[83][2];
  int HFNActiveCells[83][2];
  double HFSET_EtaRing[83][2];
  double HFMinEnergy_EtaRing[83][2];
  double HFMaxEnergy_EtaRing[83][2];

  for (int i = 0; i < 83; i++) {
    for (int j = 0; j < 2; j++) {
      HFActiveRing[i][j] = 0;
      HFNActiveCells[i][j] = 0;
      HFSET_EtaRing[i][j] = 0;
      HFMinEnergy_EtaRing[i][j] = 14E3;
      HFMaxEnergy_EtaRing[i][j] = -999;
    }
  }

  // Loop over HFRecHit's
  HFRecHitCollection::const_iterator hfrechit;
  int nHFrechit = 0;

  for (hfrechit = HFRecHits->begin(); hfrechit != HFRecHits->end(); hfrechit++) {
    nHFrechit++;

    HcalDetId det = hfrechit->id();
    double Energy = hfrechit->energy();
    Int_t depth = det.depth();
    Int_t ieta = det.ieta();
    Int_t iphi = det.iphi();
    int EtaRing = 41 + ieta;  // this counts from 0
    double eta = hHCAL_ieta_iphi_etaMap->getBinContent(EtaRing + 1, iphi);
    double phi = hHCAL_ieta_iphi_phiMap->getBinContent(EtaRing + 1, iphi);
    double theta = 2 * TMath::ATan(exp(-1 * eta));
    double ET = Energy * TMath::Sin(theta);

    TLorentzVector v_;
    if (Energy > 0)  // zero suppress
    {
      HFActiveRing[EtaRing][depth - 1] = 1;
      HFNActiveCells[EtaRing][depth - 1]++;
      HFSET_EtaRing[EtaRing][depth - 1] += ET;
      v_.SetPtEtaPhiE(ET, 0, phi, ET);
      vHFMET_EtaRing[EtaRing][depth - 1] -= v_;

      switch (depth) {
        case 1:
          hHCAL_D1_Occ_ieta_iphi->Fill(ieta, iphi);
          break;
        case 2:
          hHCAL_D2_Occ_ieta_iphi->Fill(ieta, iphi);
          break;
      }
    }

    if (Energy > HFMaxEnergy_EtaRing[EtaRing][depth - 1])
      HFMaxEnergy_EtaRing[EtaRing][depth - 1] = Energy;
    if (Energy < HFMinEnergy_EtaRing[EtaRing][depth - 1])
      HFMinEnergy_EtaRing[EtaRing][depth - 1] = Energy;

    switch (depth) {
      case 1:
        hHCAL_D1_energy_ieta_iphi->Fill(ieta, iphi, Energy);

        hHCAL_D1_energyvsieta->Fill(ieta, Energy);
        if (Energy > hHCAL_D1_Maxenergy_ieta_iphi->getBinContent(EtaRing + 1, iphi))
          hHCAL_D1_Maxenergy_ieta_iphi->setBinContent(EtaRing + 1, iphi, Energy);
        if (Energy < hHCAL_D1_Minenergy_ieta_iphi->getBinContent(EtaRing + 1, iphi))
          hHCAL_D1_Minenergy_ieta_iphi->setBinContent(EtaRing + 1, iphi, Energy);
        break;
      case 2:
        hHCAL_D2_energy_ieta_iphi->Fill(ieta, iphi, Energy);

        hHCAL_D2_energyvsieta->Fill(ieta, Energy);
        if (Energy > hHCAL_D2_Maxenergy_ieta_iphi->getBinContent(EtaRing + 1, iphi))
          hHCAL_D2_Maxenergy_ieta_iphi->setBinContent(EtaRing + 1, iphi, Energy);
        if (Energy < hHCAL_D2_Minenergy_ieta_iphi->getBinContent(EtaRing + 1, iphi))
          hHCAL_D2_Minenergy_ieta_iphi->setBinContent(EtaRing + 1, iphi, Energy);
        break;
    }

  }  // end loop over HFRecHit's

  // Fill eta-ring MET quantities
  for (int iEtaRing = 0; iEtaRing < 83; iEtaRing++) {
    for (int jDepth = 0; jDepth < 2; jDepth++) {
      switch (jDepth + 1) {
        case 1:
          hHCAL_D1_Maxenergyvsieta->Fill(iEtaRing - 41, HFMaxEnergy_EtaRing[iEtaRing][jDepth]);
          hHCAL_D1_Minenergyvsieta->Fill(iEtaRing - 41, HFMinEnergy_EtaRing[iEtaRing][jDepth]);
          break;
        case 2:
          hHCAL_D2_Maxenergyvsieta->Fill(iEtaRing - 41, HFMaxEnergy_EtaRing[iEtaRing][jDepth]);
          hHCAL_D2_Minenergyvsieta->Fill(iEtaRing - 41, HFMinEnergy_EtaRing[iEtaRing][jDepth]);
          break;
      }

      if (HFActiveRing[iEtaRing][jDepth]) {
        switch (jDepth + 1) {
          case 1:

            hHCAL_D1_METPhivsieta->Fill(iEtaRing - 41, vHFMET_EtaRing[iEtaRing][jDepth].Phi());
            hHCAL_D1_MExvsieta->Fill(iEtaRing - 41, vHFMET_EtaRing[iEtaRing][jDepth].Px());
            hHCAL_D1_MEyvsieta->Fill(iEtaRing - 41, vHFMET_EtaRing[iEtaRing][jDepth].Py());
            hHCAL_D1_METvsieta->Fill(iEtaRing - 41, vHFMET_EtaRing[iEtaRing][jDepth].Pt());
            hHCAL_D1_SETvsieta->Fill(iEtaRing - 41, HFSET_EtaRing[iEtaRing][jDepth]);
            hHCAL_D1_Occvsieta->Fill(iEtaRing - 41, HFNActiveCells[iEtaRing][jDepth]);
            break;

          case 2:

            hHCAL_D2_METPhivsieta->Fill(iEtaRing - 41, vHFMET_EtaRing[iEtaRing][jDepth].Phi());
            hHCAL_D2_MExvsieta->Fill(iEtaRing - 41, vHFMET_EtaRing[iEtaRing][jDepth].Px());
            hHCAL_D2_MEyvsieta->Fill(iEtaRing - 41, vHFMET_EtaRing[iEtaRing][jDepth].Py());
            hHCAL_D2_METvsieta->Fill(iEtaRing - 41, vHFMET_EtaRing[iEtaRing][jDepth].Pt());
            hHCAL_D2_SETvsieta->Fill(iEtaRing - 41, HFSET_EtaRing[iEtaRing][jDepth]);
            hHCAL_D2_Occvsieta->Fill(iEtaRing - 41, HFNActiveCells[iEtaRing][jDepth]);
            break;
        }
      }
    }
  }
}

bookHistograms()

void HCALRecHitAnalyzer::bookHistograms ( DQMStore::IBooker &  ibooker, edm::Run const &  iRun, edm::EventSetup const &    )

overridevirtual

Implements DQMEDAnalyzer.

Definition at line 65 of file HCALRecHitAnalyzer.cc.

References dqm::implementation::IBooker::book1D(), dqm::implementation::IBooker::book2D(), finebinning_, FolderName_, hHCAL_D1_energy_ieta_iphi, hHCAL_D1_energyvsieta, hHCAL_D1_Maxenergy_ieta_iphi, hHCAL_D1_Maxenergyvsieta, hHCAL_D1_METPhivsieta, hHCAL_D1_METvsieta, hHCAL_D1_MExvsieta, hHCAL_D1_MEyvsieta, hHCAL_D1_Minenergy_ieta_iphi, hHCAL_D1_Minenergyvsieta, hHCAL_D1_Occ_ieta_iphi, hHCAL_D1_Occvsieta, hHCAL_D1_SETvsieta, hHCAL_D2_energy_ieta_iphi, hHCAL_D2_energyvsieta, hHCAL_D2_Maxenergy_ieta_iphi, hHCAL_D2_Maxenergyvsieta, hHCAL_D2_METPhivsieta, hHCAL_D2_METvsieta, hHCAL_D2_MExvsieta, hHCAL_D2_MEyvsieta, hHCAL_D2_Minenergy_ieta_iphi, hHCAL_D2_Minenergyvsieta, hHCAL_D2_Occ_ieta_iphi, hHCAL_D2_Occvsieta, hHCAL_D2_SETvsieta, hHCAL_D3_energy_ieta_iphi, hHCAL_D3_energyvsieta, hHCAL_D3_Maxenergy_ieta_iphi, hHCAL_D3_Maxenergyvsieta, hHCAL_D3_METPhivsieta, hHCAL_D3_METvsieta, hHCAL_D3_MExvsieta, hHCAL_D3_MEyvsieta, hHCAL_D3_Minenergy_ieta_iphi, hHCAL_D3_Minenergyvsieta, hHCAL_D3_Occ_ieta_iphi, hHCAL_D3_Occvsieta, hHCAL_D3_SETvsieta, hHCAL_D4_energy_ieta_iphi, hHCAL_D4_energyvsieta, hHCAL_D4_Maxenergy_ieta_iphi, hHCAL_D4_Maxenergyvsieta, hHCAL_D4_METPhivsieta, hHCAL_D4_METvsieta, hHCAL_D4_MExvsieta, hHCAL_D4_MEyvsieta, hHCAL_D4_Minenergy_ieta_iphi, hHCAL_D4_Minenergyvsieta, hHCAL_D4_Occ_ieta_iphi, hHCAL_D4_Occvsieta, hHCAL_D4_SETvsieta, hHCAL_ieta_detaMap, hHCAL_ieta_dphiMap, hHCAL_ieta_iphi_etaMap, hHCAL_ieta_iphi_HBMap, hHCAL_ieta_iphi_HEMap, hHCAL_ieta_iphi_HFMap, hHCAL_ieta_iphi_HOMap, hHCAL_ieta_iphi_phiMap, hHCAL_Nevents, mps_fire::i, dqmiolumiharvest::j, dqm::impl::MonitorElement::setBinContent(), and dqm::implementation::NavigatorBase::setCurrentFolder().

                                                                                                          {
  ibooker.setCurrentFolder(FolderName_ + "/geometry");
  hHCAL_ieta_iphi_HBMap = ibooker.book2D("METTask_HCAL_ieta_iphi_HBMap", "", 83, -41, 42, 72, 1, 73);
  hHCAL_ieta_iphi_HEMap = ibooker.book2D("METTask_HCAL_ieta_iphi_HEMap", "", 83, -41, 42, 72, 1, 73);
  hHCAL_ieta_iphi_HFMap = ibooker.book2D("METTask_HCAL_ieta_iphi_HFMap", "", 83, -41, 42, 72, 1, 73);
  hHCAL_ieta_iphi_HOMap = ibooker.book2D("METTask_HCAL_ieta_iphi_HOMap", "", 83, -41, 42, 72, 1, 73);
  hHCAL_ieta_iphi_etaMap = ibooker.book2D("METTask_HCAL_ieta_iphi_etaMap", "", 83, -41, 42, 72, 1, 73);
  hHCAL_ieta_iphi_phiMap = ibooker.book2D("METTask_HCAL_ieta_iphi_phiMap", "", 83, -41, 42, 72, 1, 73);
  hHCAL_ieta_detaMap = ibooker.book1D("METTask_HCAL_ieta_detaMap", "", 83, -41, 42);
  hHCAL_ieta_dphiMap = ibooker.book1D("METTask_HCAL_ieta_dphiMap", "", 83, -41, 42);

  // Initialize bins for geometry to -999 because z = 0 is a valid entry
  for (int i = 1; i <= 83; i++) {
    hHCAL_ieta_detaMap->setBinContent(i, -999);
    hHCAL_ieta_dphiMap->setBinContent(i, -999);

    for (int j = 1; j <= 72; j++) {
      hHCAL_ieta_iphi_HBMap->setBinContent(i, j, 0);
      hHCAL_ieta_iphi_HEMap->setBinContent(i, j, 0);
      hHCAL_ieta_iphi_HFMap->setBinContent(i, j, 0);
      hHCAL_ieta_iphi_HOMap->setBinContent(i, j, 0);
      hHCAL_ieta_iphi_etaMap->setBinContent(i, j, -999);
      hHCAL_ieta_iphi_phiMap->setBinContent(i, j, -999);
    }
  }

  //    ibooker.setCurrentFolder("RecoMETV/MET_HCAL/data");
  ibooker.setCurrentFolder(FolderName_);
  //--Store number of events used
  hHCAL_Nevents = ibooker.book1D("METTask_HCAL_Nevents", "", 1, 0, 1);
  //--Data integrated over all events and stored by HCAL(ieta,iphi)

  hHCAL_D1_energy_ieta_iphi = ibooker.book2D("METTask_HCAL_D1_energy_ieta_iphi", "", 83, -41, 42, 72, 1, 73);
  hHCAL_D2_energy_ieta_iphi = ibooker.book2D("METTask_HCAL_D2_energy_ieta_iphi", "", 83, -41, 42, 72, 1, 73);
  hHCAL_D3_energy_ieta_iphi = ibooker.book2D("METTask_HCAL_D3_energy_ieta_iphi", "", 83, -41, 42, 72, 1, 73);
  hHCAL_D4_energy_ieta_iphi = ibooker.book2D("METTask_HCAL_D4_energy_ieta_iphi", "", 83, -41, 42, 72, 1, 73);

  hHCAL_D1_Minenergy_ieta_iphi = ibooker.book2D("METTask_HCAL_D1_Minenergy_ieta_iphi", "", 83, -41, 42, 72, 1, 73);
  hHCAL_D2_Minenergy_ieta_iphi = ibooker.book2D("METTask_HCAL_D2_Minenergy_ieta_iphi", "", 83, -41, 42, 72, 1, 73);
  hHCAL_D3_Minenergy_ieta_iphi = ibooker.book2D("METTask_HCAL_D3_Minenergy_ieta_iphi", "", 83, -41, 42, 72, 1, 73);
  hHCAL_D4_Minenergy_ieta_iphi = ibooker.book2D("METTask_HCAL_D4_Minenergy_ieta_iphi", "", 83, -41, 42, 72, 1, 73);

  hHCAL_D1_Maxenergy_ieta_iphi = ibooker.book2D("METTask_HCAL_D1_Maxenergy_ieta_iphi", "", 83, -41, 42, 72, 1, 73);
  hHCAL_D2_Maxenergy_ieta_iphi = ibooker.book2D("METTask_HCAL_D2_Maxenergy_ieta_iphi", "", 83, -41, 42, 72, 1, 73);
  hHCAL_D3_Maxenergy_ieta_iphi = ibooker.book2D("METTask_HCAL_D3_Maxenergy_ieta_iphi", "", 83, -41, 42, 72, 1, 73);
  hHCAL_D4_Maxenergy_ieta_iphi = ibooker.book2D("METTask_HCAL_D4_Maxenergy_ieta_iphi", "", 83, -41, 42, 72, 1, 73);

  // need to initialize those
  for (int i = 1; i <= 83; i++)
    for (int j = 1; j <= 73; j++) {
      hHCAL_D1_Maxenergy_ieta_iphi->setBinContent(i, j, -999);
      hHCAL_D2_Maxenergy_ieta_iphi->setBinContent(i, j, -999);
      hHCAL_D3_Maxenergy_ieta_iphi->setBinContent(i, j, -999);
      hHCAL_D4_Maxenergy_ieta_iphi->setBinContent(i, j, -999);

      hHCAL_D1_Minenergy_ieta_iphi->setBinContent(i, j, 14000);
      hHCAL_D2_Minenergy_ieta_iphi->setBinContent(i, j, 14000);
      hHCAL_D3_Minenergy_ieta_iphi->setBinContent(i, j, 14000);
      hHCAL_D4_Minenergy_ieta_iphi->setBinContent(i, j, 14000);
    }

  hHCAL_D1_Occ_ieta_iphi = ibooker.book2D("METTask_HCAL_D1_Occ_ieta_iphi", "", 83, -41, 42, 72, 1, 73);
  hHCAL_D2_Occ_ieta_iphi = ibooker.book2D("METTask_HCAL_D2_Occ_ieta_iphi", "", 83, -41, 42, 72, 1, 73);
  hHCAL_D3_Occ_ieta_iphi = ibooker.book2D("METTask_HCAL_D3_Occ_ieta_iphi", "", 83, -41, 42, 72, 1, 73);
  hHCAL_D4_Occ_ieta_iphi = ibooker.book2D("METTask_HCAL_D4_Occ_ieta_iphi", "", 83, -41, 42, 72, 1, 73);
  //--Data over eta-rings

  // CaloTower values

  if (finebinning_) {
    hHCAL_D1_energyvsieta = ibooker.book2D("METTask_HCAL_D1_energyvsieta", "", 83, -41, 42, 20101, -100, 2001);
    hHCAL_D2_energyvsieta = ibooker.book2D("METTask_HCAL_D2_energyvsieta", "", 83, -41, 42, 20101, -100, 2001);
    hHCAL_D3_energyvsieta = ibooker.book2D("METTask_HCAL_D3_energyvsieta", "", 83, -41, 42, 20101, -100, 2001);
    hHCAL_D4_energyvsieta = ibooker.book2D("METTask_HCAL_D4_energyvsieta", "", 83, -41, 42, 20101, -100, 2001);

    hHCAL_D1_Minenergyvsieta = ibooker.book2D("METTask_HCAL_D1_Minenergyvsieta", "", 83, -41, 42, 20101, -100, 2001);
    hHCAL_D2_Minenergyvsieta = ibooker.book2D("METTask_HCAL_D2_Minenergyvsieta", "", 83, -41, 42, 20101, -100, 2001);
    hHCAL_D3_Minenergyvsieta = ibooker.book2D("METTask_HCAL_D3_Minenergyvsieta", "", 83, -41, 42, 20101, -100, 2001);
    hHCAL_D4_Minenergyvsieta = ibooker.book2D("METTask_HCAL_D4_Minenergyvsieta", "", 83, -41, 42, 20101, -100, 2001);

    hHCAL_D1_Maxenergyvsieta = ibooker.book2D("METTask_HCAL_D1_Maxenergyvsieta", "", 83, -41, 42, 20101, -100, 2001);
    hHCAL_D2_Maxenergyvsieta = ibooker.book2D("METTask_HCAL_D2_Maxenergyvsieta", "", 83, -41, 42, 20101, -100, 2001);
    hHCAL_D3_Maxenergyvsieta = ibooker.book2D("METTask_HCAL_D3_Maxenergyvsieta", "", 83, -41, 42, 20101, -100, 2001);
    hHCAL_D4_Maxenergyvsieta = ibooker.book2D("METTask_HCAL_D4_Maxenergyvsieta", "", 83, -41, 42, 20101, -100, 2001);

    // Integrated over phi
    hHCAL_D1_Occvsieta = ibooker.book2D("METTask_HCAL_D1_Occvsieta", "", 83, -41, 42, 73, 0, 73);
    hHCAL_D2_Occvsieta = ibooker.book2D("METTask_HCAL_D2_Occvsieta", "", 83, -41, 42, 73, 0, 73);
    hHCAL_D3_Occvsieta = ibooker.book2D("METTask_HCAL_D3_Occvsieta", "", 83, -41, 42, 73, 0, 73);
    hHCAL_D4_Occvsieta = ibooker.book2D("METTask_HCAL_D4_Occvsieta", "", 83, -41, 42, 73, 0, 73);

    hHCAL_D1_SETvsieta = ibooker.book2D("METTask_HCAL_D1_SETvsieta", "", 83, -41, 42, 20001, 0, 2001);
    hHCAL_D2_SETvsieta = ibooker.book2D("METTask_HCAL_D2_SETvsieta", "", 83, -41, 42, 20001, 0, 2001);
    hHCAL_D3_SETvsieta = ibooker.book2D("METTask_HCAL_D3_SETvsieta", "", 83, -41, 42, 20001, 0, 2001);
    hHCAL_D4_SETvsieta = ibooker.book2D("METTask_HCAL_D4_SETvsieta", "", 83, -41, 42, 20001, 0, 2001);

    hHCAL_D1_METvsieta = ibooker.book2D("METTask_HCAL_D1_METvsieta", "", 83, -41, 42, 20001, 0, 2001);
    hHCAL_D2_METvsieta = ibooker.book2D("METTask_HCAL_D2_METvsieta", "", 83, -41, 42, 20001, 0, 2001);
    hHCAL_D3_METvsieta = ibooker.book2D("METTask_HCAL_D3_METvsieta", "", 83, -41, 42, 20001, 0, 2001);
    hHCAL_D4_METvsieta = ibooker.book2D("METTask_HCAL_D4_METvsieta", "", 83, -41, 42, 20001, 0, 2001);

    hHCAL_D1_METPhivsieta = ibooker.book2D("METTask_HCAL_D1_METPhivsieta", "", 83, -41, 42, 80, -4, 4);
    hHCAL_D2_METPhivsieta = ibooker.book2D("METTask_HCAL_D2_METPhivsieta", "", 83, -41, 42, 80, -4, 4);
    hHCAL_D3_METPhivsieta = ibooker.book2D("METTask_HCAL_D3_METPhivsieta", "", 83, -41, 42, 80, -4, 4);
    hHCAL_D4_METPhivsieta = ibooker.book2D("METTask_HCAL_D4_METPhivsieta", "", 83, -41, 42, 80, -4, 4);

    hHCAL_D1_MExvsieta = ibooker.book2D("METTask_HCAL_D1_MExvsieta", "", 83, -41, 42, 10001, -500, 501);
    hHCAL_D2_MExvsieta = ibooker.book2D("METTask_HCAL_D2_MExvsieta", "", 83, -41, 42, 10001, -500, 501);
    hHCAL_D3_MExvsieta = ibooker.book2D("METTask_HCAL_D3_MExvsieta", "", 83, -41, 42, 10001, -500, 501);
    hHCAL_D4_MExvsieta = ibooker.book2D("METTask_HCAL_D4_MExvsieta", "", 83, -41, 42, 10001, -500, 501);

    hHCAL_D1_MEyvsieta = ibooker.book2D("METTask_HCAL_D1_MEyvsieta", "", 83, -41, 42, 10001, -500, 501);
    hHCAL_D2_MEyvsieta = ibooker.book2D("METTask_HCAL_D2_MEyvsieta", "", 83, -41, 42, 10001, -500, 501);
    hHCAL_D3_MEyvsieta = ibooker.book2D("METTask_HCAL_D3_MEyvsieta", "", 83, -41, 42, 10001, -500, 501);
    hHCAL_D4_MEyvsieta = ibooker.book2D("METTask_HCAL_D4_MEyvsieta", "", 83, -41, 42, 10001, -500, 501);
  } else {
    hHCAL_D1_energyvsieta = ibooker.book2D("METTask_HCAL_D1_energyvsieta", "", 83, -41, 42, 1000, -10, 1990);
    hHCAL_D2_energyvsieta = ibooker.book2D("METTask_HCAL_D2_energyvsieta", "", 83, -41, 42, 1000, -10, 1990);
    hHCAL_D3_energyvsieta = ibooker.book2D("METTask_HCAL_D3_energyvsieta", "", 83, -41, 42, 1000, -10, 1990);
    hHCAL_D4_energyvsieta = ibooker.book2D("METTask_HCAL_D4_energyvsieta", "", 83, -41, 42, 1000, -10, 1990);

    hHCAL_D1_Minenergyvsieta = ibooker.book2D("METTask_HCAL_D1_Minenergyvsieta", "", 83, -41, 42, 1000, -10, 1990);
    hHCAL_D2_Minenergyvsieta = ibooker.book2D("METTask_HCAL_D2_Minenergyvsieta", "", 83, -41, 42, 1000, -10, 1990);
    hHCAL_D3_Minenergyvsieta = ibooker.book2D("METTask_HCAL_D3_Minenergyvsieta", "", 83, -41, 42, 1000, -10, 1990);
    hHCAL_D4_Minenergyvsieta = ibooker.book2D("METTask_HCAL_D4_Minenergyvsieta", "", 83, -41, 42, 1000, -10, 1990);

    hHCAL_D1_Maxenergyvsieta = ibooker.book2D("METTask_HCAL_D1_Maxenergyvsieta", "", 83, -41, 42, 1000, -10, 1990);
    hHCAL_D2_Maxenergyvsieta = ibooker.book2D("METTask_HCAL_D2_Maxenergyvsieta", "", 83, -41, 42, 1000, -10, 1990);
    hHCAL_D3_Maxenergyvsieta = ibooker.book2D("METTask_HCAL_D3_Maxenergyvsieta", "", 83, -41, 42, 1000, -10, 1990);
    hHCAL_D4_Maxenergyvsieta = ibooker.book2D("METTask_HCAL_D4_Maxenergyvsieta", "", 83, -41, 42, 1000, -10, 1990);

    // Integrated over phi
    hHCAL_D1_Occvsieta = ibooker.book2D("METTask_HCAL_D1_Occvsieta", "", 83, -41, 42, 73, 0, 73);
    hHCAL_D2_Occvsieta = ibooker.book2D("METTask_HCAL_D2_Occvsieta", "", 83, -41, 42, 73, 0, 73);
    hHCAL_D3_Occvsieta = ibooker.book2D("METTask_HCAL_D3_Occvsieta", "", 83, -41, 42, 73, 0, 73);
    hHCAL_D4_Occvsieta = ibooker.book2D("METTask_HCAL_D4_Occvsieta", "", 83, -41, 42, 73, 0, 73);

    hHCAL_D1_SETvsieta = ibooker.book2D("METTask_HCAL_D1_SETvsieta", "", 83, -41, 42, 1000, 0, 2000);
    hHCAL_D2_SETvsieta = ibooker.book2D("METTask_HCAL_D2_SETvsieta", "", 83, -41, 42, 1000, 0, 2000);
    hHCAL_D3_SETvsieta = ibooker.book2D("METTask_HCAL_D3_SETvsieta", "", 83, -41, 42, 1000, 0, 2000);
    hHCAL_D4_SETvsieta = ibooker.book2D("METTask_HCAL_D4_SETvsieta", "", 83, -41, 42, 1000, 0, 2000);

    hHCAL_D1_METvsieta = ibooker.book2D("METTask_HCAL_D1_METvsieta", "", 83, -41, 42, 1000, 0, 2000);
    hHCAL_D2_METvsieta = ibooker.book2D("METTask_HCAL_D2_METvsieta", "", 83, -41, 42, 1000, 0, 2000);
    hHCAL_D3_METvsieta = ibooker.book2D("METTask_HCAL_D3_METvsieta", "", 83, -41, 42, 1000, 0, 2000);
    hHCAL_D4_METvsieta = ibooker.book2D("METTask_HCAL_D4_METvsieta", "", 83, -41, 42, 1000, 0, 2000);

    hHCAL_D1_METPhivsieta = ibooker.book2D("METTask_HCAL_D1_METPhivsieta", "", 83, -41, 42, 80, -4, 4);
    hHCAL_D2_METPhivsieta = ibooker.book2D("METTask_HCAL_D2_METPhivsieta", "", 83, -41, 42, 80, -4, 4);
    hHCAL_D3_METPhivsieta = ibooker.book2D("METTask_HCAL_D3_METPhivsieta", "", 83, -41, 42, 80, -4, 4);
    hHCAL_D4_METPhivsieta = ibooker.book2D("METTask_HCAL_D4_METPhivsieta", "", 83, -41, 42, 80, -4, 4);

    hHCAL_D1_MExvsieta = ibooker.book2D("METTask_HCAL_D1_MExvsieta", "", 83, -41, 42, 500, -500, 500);
    hHCAL_D2_MExvsieta = ibooker.book2D("METTask_HCAL_D2_MExvsieta", "", 83, -41, 42, 500, -500, 500);
    hHCAL_D3_MExvsieta = ibooker.book2D("METTask_HCAL_D3_MExvsieta", "", 83, -41, 42, 500, -500, 500);
    hHCAL_D4_MExvsieta = ibooker.book2D("METTask_HCAL_D4_MExvsieta", "", 83, -41, 42, 500, -500, 500);

    hHCAL_D1_MEyvsieta = ibooker.book2D("METTask_HCAL_D1_MEyvsieta", "", 83, -41, 42, 500, -500, 500);
    hHCAL_D2_MEyvsieta = ibooker.book2D("METTask_HCAL_D2_MEyvsieta", "", 83, -41, 42, 500, -500, 500);
    hHCAL_D3_MEyvsieta = ibooker.book2D("METTask_HCAL_D3_MEyvsieta", "", 83, -41, 42, 500, -500, 500);
    hHCAL_D4_MEyvsieta = ibooker.book2D("METTask_HCAL_D4_MEyvsieta", "", 83, -41, 42, 500, -500, 500);
  }
  // Inspect Setup for CaloTower Geometry
  //  FillGeometry(iSetup);
}

dqmBeginRun()

void HCALRecHitAnalyzer::dqmBeginRun ( const edm::Run &  iRun, const edm::EventSetup &  iSetup  )

overridevirtual

Reimplemented from DQMEDAnalyzer.

Definition at line 60 of file HCALRecHitAnalyzer.cc.

References FillGeometry(), and Nevents.

                                                                                    {
  Nevents = 0;
  FillGeometry(iSetup);
}

FillGeometry()

void HCALRecHitAnalyzer::FillGeometry ( const edm::EventSetup &  iSetup )

private

Definition at line 231 of file HCALRecHitAnalyzer.cc.

References caloGeomToken_, PVValHelper::eta, PV3DBase< T, PVType, FrameType >::eta(), dqmMemoryStats::float, dqm::impl::MonitorElement::getBinContent(), CaloSubdetectorGeometry::getGeometry(), edm::EventSetup::getHandle(), HcalGeometry::getPosition(), CaloGeometry::getSubdetectorGeometry(), HcalGeometry::getValidDetIds(), CaloSubdetectorGeometry::getValidDetIds(), DetId::Hcal, HcalBarrel, HcalEndcap, HcalForward, HcalOuter, hHCAL_ieta_detaMap, hHCAL_ieta_dphiMap, hHCAL_ieta_iphi_etaMap, hHCAL_ieta_iphi_phiMap, mps_fire::i, LEDCalibrationChannels::ieta, HcalDetId::ieta(), HcalDetId::iphi(), M_PI, phi, PV3DBase< T, PVType, FrameType >::phi(), and dqm::impl::MonitorElement::setBinContent().

Referenced by dqmBeginRun().

                                                                 {
  // ==========================================================
  // Retrieve!
  // ==========================================================

  const auto& pG = iSetup.getHandle(caloGeomToken_);

  if (!pG.isValid()) {
    edm::LogInfo("OutputInfo") << "Failed to retrieve an Event Setup Handle, Aborting Task "
                               << "HCALRecHitAnalyzer::FillGeometry!\n";
    return;
  }

  const CaloGeometry cG = *pG;

  const HcalGeometry* HBgeom = dynamic_cast<const HcalGeometry*>(cG.getSubdetectorGeometry(DetId::Hcal, HcalBarrel));
  const HcalGeometry* HEgeom = dynamic_cast<const HcalGeometry*>(cG.getSubdetectorGeometry(DetId::Hcal, HcalEndcap));
  const CaloSubdetectorGeometry* HOgeom = cG.getSubdetectorGeometry(DetId::Hcal, HcalOuter);
  const CaloSubdetectorGeometry* HFgeom = cG.getSubdetectorGeometry(DetId::Hcal, HcalForward);

  // ==========================================================
  // Fill Histograms!
  // ==========================================================

  std::vector<DetId>::iterator i;

  int HBmin_ieta = 99, HBmax_ieta = -99;
  int HBmin_iphi = 99, HBmax_iphi = -99;

  // Loop Over all Hcal Barrel DetId's
  int nHBdetid = 0;
  std::vector<DetId> HBids = HBgeom->getValidDetIds(DetId::Hcal, HcalBarrel);

  for (i = HBids.begin(); i != HBids.end(); i++) {
    nHBdetid++;

    HcalDetId HcalID(*i);

    int Calo_ieta = 42 + HcalID.ieta();
    int Calo_iphi = HcalID.iphi();
    double Calo_eta = HBgeom->getPosition(HcalID).eta();
    double Calo_phi = HBgeom->getPosition(HcalID).phi();

    if (hHCAL_ieta_iphi_etaMap->getBinContent(Calo_ieta, Calo_iphi) == -999) {
      hHCAL_ieta_iphi_etaMap->setBinContent(Calo_ieta, Calo_iphi, Calo_eta);
      hHCAL_ieta_iphi_phiMap->setBinContent(Calo_ieta, Calo_iphi, Calo_phi * 180.0 / M_PI);
    }

    if (Calo_ieta > HBmax_ieta)
      HBmax_ieta = Calo_ieta;
    if (Calo_ieta < HBmin_ieta)
      HBmin_ieta = Calo_ieta;
    if (Calo_iphi > HBmax_iphi)
      HBmax_iphi = Calo_iphi;
    if (Calo_iphi > HBmax_iphi)
      HBmin_iphi = Calo_iphi;
  }

  int HEmin_ieta = 99, HEmax_ieta = -99;
  int HEmin_iphi = 99, HEmax_iphi = -99;

  // Loop Over all Hcal Endcap DetId's
  int nHEdetid = 0;
  std::vector<DetId> HEids = HEgeom->getValidDetIds(DetId::Hcal, HcalEndcap);

  for (i = HEids.begin(); i != HEids.end(); i++) {
    nHEdetid++;

    HcalDetId HcalID(*i);

    int Calo_ieta = 42 + HcalID.ieta();
    int Calo_iphi = HcalID.iphi();
    double Calo_eta = HEgeom->getPosition(HcalID).eta();
    double Calo_phi = HEgeom->getPosition(HcalID).phi();

    // HCAL to HE eta, phi map comparison
    if (hHCAL_ieta_iphi_etaMap->getBinContent(Calo_ieta, Calo_iphi) == -999) {
      hHCAL_ieta_iphi_etaMap->setBinContent(Calo_ieta, Calo_iphi, Calo_eta);
      hHCAL_ieta_iphi_phiMap->setBinContent(Calo_ieta, Calo_iphi, Calo_phi * 180.0 / M_PI);
    }

    if (Calo_ieta > HEmax_ieta)
      HEmax_ieta = Calo_ieta;
    if (Calo_ieta < HEmin_ieta)
      HEmin_ieta = Calo_ieta;
    if (Calo_iphi > HEmax_iphi)
      HEmax_iphi = Calo_iphi;
    if (Calo_iphi > HEmax_iphi)
      HEmin_iphi = Calo_iphi;
  }

  int HFmin_ieta = 99, HFmax_ieta = -99;
  int HFmin_iphi = 99, HFmax_iphi = -99;

  // Loop Over all Hcal Forward DetId's
  int nHFdetid = 0;
  std::vector<DetId> HFids = HFgeom->getValidDetIds(DetId::Hcal, HcalForward);

  for (i = HFids.begin(); i != HFids.end(); i++) {
    nHFdetid++;

    auto cell = HFgeom->getGeometry(*i);
    HcalDetId HcalID(i->rawId());
    //GlobalPoint p = cell->getPosition();

    int Calo_ieta = 42 + HcalID.ieta();
    int Calo_iphi = HcalID.iphi();
    double Calo_eta = cell->getPosition().eta();
    double Calo_phi = cell->getPosition().phi();

    // HCAL to HF eta, phi map comparison
    if (hHCAL_ieta_iphi_etaMap->getBinContent(Calo_ieta, Calo_iphi) == -999) {
      hHCAL_ieta_iphi_etaMap->setBinContent(Calo_ieta, Calo_iphi, Calo_eta);
      hHCAL_ieta_iphi_phiMap->setBinContent(Calo_ieta, Calo_iphi, Calo_phi * 180.0 / M_PI);
    }

    if (Calo_ieta > HFmax_ieta)
      HFmax_ieta = Calo_ieta;
    if (Calo_ieta < HFmin_ieta)
      HFmin_ieta = Calo_ieta;
    if (Calo_iphi > HFmax_iphi)
      HFmax_iphi = Calo_iphi;
    if (Calo_iphi > HFmax_iphi)
      HFmin_iphi = Calo_iphi;
  }

  int HOmin_ieta = 99, HOmax_ieta = -99;
  int HOmin_iphi = 99, HOmax_iphi = -99;

  // Loop Over all Hcal Outer DetId's
  int nHOdetid = 0;
  std::vector<DetId> HOids = HOgeom->getValidDetIds(DetId::Hcal, HcalOuter);

  for (i = HOids.begin(); i != HOids.end(); i++) {
    nHOdetid++;

    auto cell = HOgeom->getGeometry(*i);
    HcalDetId HcalID(i->rawId());
    //GlobalPoint p = cell->getPosition();

    int Calo_ieta = 42 + HcalID.ieta();
    int Calo_iphi = HcalID.iphi();
    double Calo_eta = cell->getPosition().eta();
    double Calo_phi = cell->getPosition().phi();

    // HCAL to HO eta, phi map comparison
    if (hHCAL_ieta_iphi_etaMap->getBinContent(Calo_ieta, Calo_iphi) == -999) {
      hHCAL_ieta_iphi_etaMap->setBinContent(Calo_ieta, Calo_iphi, Calo_eta);
      hHCAL_ieta_iphi_phiMap->setBinContent(Calo_ieta, Calo_iphi, Calo_phi * 180.0 / M_PI);
    }

    if (Calo_ieta > HOmax_ieta)
      HOmax_ieta = Calo_ieta;
    if (Calo_ieta < HOmin_ieta)
      HOmin_ieta = Calo_ieta;
    if (Calo_iphi > HOmax_iphi)
      HOmax_iphi = Calo_iphi;
    if (Calo_iphi > HOmax_iphi)
      HOmin_iphi = Calo_iphi;
  }

  // Set the Cell Size for each (ieta, iphi) Bin
  double currentLowEdge_eta = 0;  //double currentHighEdge_eta = 0;
  for (int ieta = 1; ieta < 42; ieta++) {
    int ieta_ = 42 + ieta;
    double eta = hHCAL_ieta_iphi_etaMap->getBinContent(ieta_, 3);
    double phi = hHCAL_ieta_iphi_phiMap->getBinContent(ieta_, 3);
    double deta = 2.0 * (eta - currentLowEdge_eta);
    deta = ((float)((int)(1.0E3 * deta + 0.5))) / 1.0E3;
    double dphi = 2.0 * phi;
    if (ieta == 40 || ieta == 41)
      dphi = 20;
    if (ieta <= 39 && ieta >= 21)
      dphi = 10;
    if (ieta <= 20)
      dphi = 5;
    // BS: This is WRONG...need to correct overlap
    if (ieta == 28)
      deta = 0.218;
    if (ieta == 29)
      deta = 0.096;
    currentLowEdge_eta += deta;

    // BS: This is WRONG...need to correct overlap
    if (ieta == 29)
      currentLowEdge_eta = 2.964;

    hHCAL_ieta_detaMap->setBinContent(ieta_, deta);      // positive rings
    hHCAL_ieta_dphiMap->setBinContent(ieta_, dphi);      // positive rings
    hHCAL_ieta_detaMap->setBinContent(42 - ieta, deta);  // negative rings
    hHCAL_ieta_dphiMap->setBinContent(42 - ieta, dphi);  // negative rings

  }  // end loop over ieta

  edm::LogInfo("OutputInfo") << "HB ieta range: " << HBmin_ieta << " " << HBmax_ieta;
  edm::LogInfo("OutputInfo") << "HB iphi range: " << HBmin_iphi << " " << HBmax_iphi;
  edm::LogInfo("OutputInfo") << "HE ieta range: " << HEmin_ieta << " " << HEmax_ieta;
  edm::LogInfo("OutputInfo") << "HE iphi range: " << HEmin_iphi << " " << HEmax_iphi;
  edm::LogInfo("OutputInfo") << "HF ieta range: " << HFmin_ieta << " " << HFmax_ieta;
  edm::LogInfo("OutputInfo") << "HF iphi range: " << HFmin_iphi << " " << HFmax_iphi;
  edm::LogInfo("OutputInfo") << "HO ieta range: " << HOmin_ieta << " " << HOmax_ieta;
  edm::LogInfo("OutputInfo") << "HO iphi range: " << HOmin_iphi << " " << HOmax_iphi;
}

Member Data Documentation

caloGeomToken_

edm::ESGetToken<CaloGeometry, CaloGeometryRecord> HCALRecHitAnalyzer::caloGeomToken_

private

Definition at line 40 of file HCALRecHitAnalyzer.h.

Referenced by FillGeometry(), and HCALRecHitAnalyzer().

debug_

bool HCALRecHitAnalyzer::debug_

private

Definition at line 41 of file HCALRecHitAnalyzer.h.

Referenced by HCALRecHitAnalyzer().

finebinning_

bool HCALRecHitAnalyzer::finebinning_

private

Definition at line 42 of file HCALRecHitAnalyzer.h.

Referenced by bookHistograms(), and HCALRecHitAnalyzer().

FolderName_

std::string HCALRecHitAnalyzer::FolderName_

private

Definition at line 43 of file HCALRecHitAnalyzer.h.

Referenced by bookHistograms(), and HCALRecHitAnalyzer().

hBHERecHitsLabel_

edm::EDGetTokenT<HBHERecHitCollection> HCALRecHitAnalyzer::hBHERecHitsLabel_

private

Definition at line 37 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and HCALRecHitAnalyzer().

hFRecHitsLabel_

edm::EDGetTokenT<HFRecHitCollection> HCALRecHitAnalyzer::hFRecHitsLabel_

private

Definition at line 38 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and HCALRecHitAnalyzer().

hHCAL_D1_energy_ieta_iphi

MonitorElement* HCALRecHitAnalyzer::hHCAL_D1_energy_ieta_iphi

private

Definition at line 61 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D1_energyvsieta

MonitorElement* HCALRecHitAnalyzer::hHCAL_D1_energyvsieta

private

Definition at line 81 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D1_Maxenergy_ieta_iphi

MonitorElement* HCALRecHitAnalyzer::hHCAL_D1_Maxenergy_ieta_iphi

private

Definition at line 71 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D1_Maxenergyvsieta

MonitorElement* HCALRecHitAnalyzer::hHCAL_D1_Maxenergyvsieta

private

Definition at line 91 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D1_METPhivsieta

MonitorElement* HCALRecHitAnalyzer::hHCAL_D1_METPhivsieta

private

Definition at line 111 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D1_METvsieta

MonitorElement* HCALRecHitAnalyzer::hHCAL_D1_METvsieta

private

Definition at line 106 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D1_MExvsieta

MonitorElement* HCALRecHitAnalyzer::hHCAL_D1_MExvsieta

private

Definition at line 116 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D1_MEyvsieta

MonitorElement* HCALRecHitAnalyzer::hHCAL_D1_MEyvsieta

private

Definition at line 121 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D1_Minenergy_ieta_iphi

MonitorElement* HCALRecHitAnalyzer::hHCAL_D1_Minenergy_ieta_iphi

private

Definition at line 66 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D1_Minenergyvsieta

MonitorElement* HCALRecHitAnalyzer::hHCAL_D1_Minenergyvsieta

private

Definition at line 86 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D1_Occ_ieta_iphi

MonitorElement* HCALRecHitAnalyzer::hHCAL_D1_Occ_ieta_iphi

private

Definition at line 76 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D1_Occvsieta

MonitorElement* HCALRecHitAnalyzer::hHCAL_D1_Occvsieta

private

Definition at line 96 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D1_SETvsieta

MonitorElement* HCALRecHitAnalyzer::hHCAL_D1_SETvsieta

private

Definition at line 101 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D2_energy_ieta_iphi

MonitorElement* HCALRecHitAnalyzer::hHCAL_D2_energy_ieta_iphi

private

Definition at line 62 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D2_energyvsieta

MonitorElement* HCALRecHitAnalyzer::hHCAL_D2_energyvsieta

private

Definition at line 82 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D2_Maxenergy_ieta_iphi

MonitorElement* HCALRecHitAnalyzer::hHCAL_D2_Maxenergy_ieta_iphi

private

Definition at line 72 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D2_Maxenergyvsieta

MonitorElement* HCALRecHitAnalyzer::hHCAL_D2_Maxenergyvsieta

private

Definition at line 92 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D2_METPhivsieta

MonitorElement* HCALRecHitAnalyzer::hHCAL_D2_METPhivsieta

private

Definition at line 112 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D2_METvsieta

MonitorElement* HCALRecHitAnalyzer::hHCAL_D2_METvsieta

private

Definition at line 107 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D2_MExvsieta

MonitorElement* HCALRecHitAnalyzer::hHCAL_D2_MExvsieta

private

Definition at line 117 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D2_MEyvsieta

MonitorElement* HCALRecHitAnalyzer::hHCAL_D2_MEyvsieta

private

Definition at line 122 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D2_Minenergy_ieta_iphi

MonitorElement* HCALRecHitAnalyzer::hHCAL_D2_Minenergy_ieta_iphi

private

Definition at line 67 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D2_Minenergyvsieta

MonitorElement* HCALRecHitAnalyzer::hHCAL_D2_Minenergyvsieta

private

Definition at line 87 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D2_Occ_ieta_iphi

MonitorElement* HCALRecHitAnalyzer::hHCAL_D2_Occ_ieta_iphi

private

Definition at line 77 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D2_Occvsieta

MonitorElement* HCALRecHitAnalyzer::hHCAL_D2_Occvsieta

private

Definition at line 97 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D2_SETvsieta

MonitorElement* HCALRecHitAnalyzer::hHCAL_D2_SETvsieta

private

Definition at line 102 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D3_energy_ieta_iphi

MonitorElement* HCALRecHitAnalyzer::hHCAL_D3_energy_ieta_iphi

private

Definition at line 63 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D3_energyvsieta

MonitorElement* HCALRecHitAnalyzer::hHCAL_D3_energyvsieta

private

Definition at line 83 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D3_Maxenergy_ieta_iphi

MonitorElement* HCALRecHitAnalyzer::hHCAL_D3_Maxenergy_ieta_iphi

private

Definition at line 73 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D3_Maxenergyvsieta

MonitorElement* HCALRecHitAnalyzer::hHCAL_D3_Maxenergyvsieta

private

Definition at line 93 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D3_METPhivsieta

MonitorElement* HCALRecHitAnalyzer::hHCAL_D3_METPhivsieta

private

Definition at line 113 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D3_METvsieta

MonitorElement* HCALRecHitAnalyzer::hHCAL_D3_METvsieta

private

Definition at line 108 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D3_MExvsieta

MonitorElement* HCALRecHitAnalyzer::hHCAL_D3_MExvsieta

private

Definition at line 118 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D3_MEyvsieta

MonitorElement* HCALRecHitAnalyzer::hHCAL_D3_MEyvsieta

private

Definition at line 123 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D3_Minenergy_ieta_iphi

MonitorElement* HCALRecHitAnalyzer::hHCAL_D3_Minenergy_ieta_iphi

private

Definition at line 68 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D3_Minenergyvsieta

MonitorElement* HCALRecHitAnalyzer::hHCAL_D3_Minenergyvsieta

private

Definition at line 88 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D3_Occ_ieta_iphi

MonitorElement* HCALRecHitAnalyzer::hHCAL_D3_Occ_ieta_iphi

private

Definition at line 78 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D3_Occvsieta

MonitorElement* HCALRecHitAnalyzer::hHCAL_D3_Occvsieta

private

Definition at line 98 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D3_SETvsieta

MonitorElement* HCALRecHitAnalyzer::hHCAL_D3_SETvsieta

private

Definition at line 103 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D4_energy_ieta_iphi

MonitorElement* HCALRecHitAnalyzer::hHCAL_D4_energy_ieta_iphi

private

Definition at line 64 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D4_energyvsieta

MonitorElement* HCALRecHitAnalyzer::hHCAL_D4_energyvsieta

private

Definition at line 84 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D4_Maxenergy_ieta_iphi

MonitorElement* HCALRecHitAnalyzer::hHCAL_D4_Maxenergy_ieta_iphi

private

Definition at line 74 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D4_Maxenergyvsieta

MonitorElement* HCALRecHitAnalyzer::hHCAL_D4_Maxenergyvsieta

private

Definition at line 94 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D4_METPhivsieta

MonitorElement* HCALRecHitAnalyzer::hHCAL_D4_METPhivsieta

private

Definition at line 114 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D4_METvsieta

MonitorElement* HCALRecHitAnalyzer::hHCAL_D4_METvsieta

private

Definition at line 109 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D4_MExvsieta

MonitorElement* HCALRecHitAnalyzer::hHCAL_D4_MExvsieta

private

Definition at line 119 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D4_MEyvsieta

MonitorElement* HCALRecHitAnalyzer::hHCAL_D4_MEyvsieta

private

Definition at line 124 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D4_Minenergy_ieta_iphi

MonitorElement* HCALRecHitAnalyzer::hHCAL_D4_Minenergy_ieta_iphi

private

Definition at line 69 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D4_Minenergyvsieta

MonitorElement* HCALRecHitAnalyzer::hHCAL_D4_Minenergyvsieta

private

Definition at line 89 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D4_Occ_ieta_iphi

MonitorElement* HCALRecHitAnalyzer::hHCAL_D4_Occ_ieta_iphi

private

Definition at line 79 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D4_Occvsieta

MonitorElement* HCALRecHitAnalyzer::hHCAL_D4_Occvsieta

private

Definition at line 99 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_D4_SETvsieta

MonitorElement* HCALRecHitAnalyzer::hHCAL_D4_SETvsieta

private

Definition at line 104 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hHCAL_ieta_detaMap

MonitorElement* HCALRecHitAnalyzer::hHCAL_ieta_detaMap

private

Definition at line 56 of file HCALRecHitAnalyzer.h.

Referenced by bookHistograms(), and FillGeometry().

hHCAL_ieta_dphiMap

MonitorElement* HCALRecHitAnalyzer::hHCAL_ieta_dphiMap

private

Definition at line 57 of file HCALRecHitAnalyzer.h.

Referenced by bookHistograms(), and FillGeometry().

hHCAL_ieta_iphi_etaMap

MonitorElement* HCALRecHitAnalyzer::hHCAL_ieta_iphi_etaMap

private

Definition at line 54 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), bookHistograms(), and FillGeometry().

hHCAL_ieta_iphi_HBMap

MonitorElement* HCALRecHitAnalyzer::hHCAL_ieta_iphi_HBMap

private

Definition at line 50 of file HCALRecHitAnalyzer.h.

Referenced by bookHistograms().

hHCAL_ieta_iphi_HEMap

MonitorElement* HCALRecHitAnalyzer::hHCAL_ieta_iphi_HEMap

private

Definition at line 51 of file HCALRecHitAnalyzer.h.

Referenced by bookHistograms().

hHCAL_ieta_iphi_HFMap

MonitorElement* HCALRecHitAnalyzer::hHCAL_ieta_iphi_HFMap

private

Definition at line 52 of file HCALRecHitAnalyzer.h.

Referenced by bookHistograms().

hHCAL_ieta_iphi_HOMap

MonitorElement* HCALRecHitAnalyzer::hHCAL_ieta_iphi_HOMap

private

Definition at line 53 of file HCALRecHitAnalyzer.h.

Referenced by bookHistograms().

hHCAL_ieta_iphi_phiMap

MonitorElement* HCALRecHitAnalyzer::hHCAL_ieta_iphi_phiMap

private

Definition at line 55 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), bookHistograms(), and FillGeometry().

hHCAL_Nevents

MonitorElement* HCALRecHitAnalyzer::hHCAL_Nevents

private

Definition at line 59 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and bookHistograms().

hORecHitsLabel_

edm::EDGetTokenT<HORecHitCollection> HCALRecHitAnalyzer::hORecHitsLabel_

private

Definition at line 39 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and HCALRecHitAnalyzer().

Nevents

int HCALRecHitAnalyzer::Nevents

private

Definition at line 47 of file HCALRecHitAnalyzer.h.

Referenced by analyze(), and dqmBeginRun().