ZToMuMuGammaAnalyzer Class Reference

EgammaCoreTools. More...

Inheritance diagram for ZToMuMuGammaAnalyzer:

Public Member Functions
void	analyze (const edm::Event &, const edm::EventSetup &) override
void	bookHistograms (DQMStore::IBooker &, edm::Run const &, edm::EventSetup const &) override
	ZToMuMuGammaAnalyzer (const edm::ParameterSet &)
	~ZToMuMuGammaAnalyzer () override

Private Member Functions
bool	basicMuonSelection (const reco::Muon &m)
float	mumuGammaInvMass (const reco::Muon &mu1, const reco::Muon &mu2, const reco::PhotonRef &pho)
float	mumuInvMass (const reco::Muon &m1, const reco::Muon &m2)
bool	muonSelection (const reco::Muon &m, const reco::BeamSpot &bs)
bool	photonSelection (const reco::PhotonRef &p)

Private Attributes
edm::EDGetTokenT< edm::SortedCollection< EcalRecHit, edm::StrictWeakOrdering< EcalRecHit > > >	barrelRecHit_token_
edm::EDGetTokenT< reco::BeamSpot >	beamSpot_token_
std::stringstream	currentFolder_
int	eBin_
double	eMax_
double	eMin_
edm::EDGetTokenT< edm::SortedCollection< EcalRecHit, edm::StrictWeakOrdering< EcalRecHit > > >	endcapRecHit_token_
int	etaBin_
double	etaMax_
double	etaMin_
int	etBin_
double	etMax_
double	etMin_
float	farMuonEcalIso_
float	farMuonMinPt_
float	farMuonTrackIso_
std::string	fName_
MonitorElement *	h1_mumuGammaInvMass_ [3]
MonitorElement *	h1_mumuInvMass_ [3]
	photon histos More...
MonitorElement *	h2_e1x5VsEt_ [3]
MonitorElement *	h2_e1x5VsEta_ [3]
MonitorElement *	h2_e2x5VsEt_ [3]
MonitorElement *	h2_e2x5VsEta_ [3]
MonitorElement *	h2_ecalSumVsEt_ [3]
MonitorElement *	h2_ecalSumVsEta_ [3]
MonitorElement *	h2_hcalSumVsEt_ [3]
MonitorElement *	h2_hcalSumVsEta_ [3]
MonitorElement *	h2_nTrackIsolHollowVsEt_ [3]
MonitorElement *	h2_nTrackIsolHollowVsEta_ [3]
MonitorElement *	h2_nTrackIsolSolidVsEt_ [3]
MonitorElement *	h2_nTrackIsolSolidVsEta_ [3]
MonitorElement *	h2_r1x5VsEt_ [3]
MonitorElement *	h2_r1x5VsEta_ [3]
MonitorElement *	h2_r2x5VsEt_ [3]
MonitorElement *	h2_r2x5VsEta_ [3]
MonitorElement *	h2_r9VsEt_ [3]
MonitorElement *	h2_r9VsEta_ [3]
MonitorElement *	h2_sigmaIetaIetaVsEta_ [3]
MonitorElement *	h2_trackPtSumHollowVsEt_ [3]
MonitorElement *	h2_trackPtSumHollowVsEta_ [3]
MonitorElement *	h2_trackPtSumSolidVsEt_ [3]
MonitorElement *	h2_trackPtSumSolidVsEta_ [3]
MonitorElement *	h_chHadIso_ [3]
MonitorElement *	h_dRPhoPFcand_ChHad_Cleaned_ [3]
MonitorElement *	h_dRPhoPFcand_ChHad_unCleaned_ [3]
MonitorElement *	h_dRPhoPFcand_NeuHad_Cleaned_ [3]
MonitorElement *	h_dRPhoPFcand_NeuHad_unCleaned_ [3]
MonitorElement *	h_dRPhoPFcand_Pho_Cleaned_ [3]
MonitorElement *	h_dRPhoPFcand_Pho_unCleaned_ [3]
MonitorElement *	h_e1x5_ [3]
MonitorElement *	h_e2x5_ [3]
MonitorElement *	h_ecalSum_ [3]
MonitorElement *	h_etOutsideMustache_ [3]
MonitorElement *	h_h1OverE_ [3]
MonitorElement *	h_h2OverE_ [3]
MonitorElement *	h_hcalSum_ [3]
MonitorElement *	h_hOverE_ [3]
MonitorElement *	h_nCluOutsideMustache_ [3]
MonitorElement *	h_newhOverE_ [3]
MonitorElement *	h_nHadIso_ [3]
MonitorElement *	h_nPho_ [3]
MonitorElement *	h_nRecoVtx_
MonitorElement *	h_nTrackIsolHollow_ [3]
MonitorElement *	h_nTrackIsolSolid_ [3]
MonitorElement *	h_pfMva_ [3]
MonitorElement *	h_phoE_ [3]
MonitorElement *	h_phoEt_ [3]
MonitorElement *	h_phoEta_ [3]
MonitorElement *	h_phoIso_ [3]
MonitorElement *	h_phoPhi_ [3]
MonitorElement *	h_phoSigmaEoverE_ [3]
MonitorElement *	h_phoSigmaIetaIeta_ [3]
MonitorElement *	h_r1x5_ [3]
MonitorElement *	h_r2x5_ [3]
MonitorElement *	h_r9_ [3]
MonitorElement *	h_scEta_ [3]
MonitorElement *	h_scPhi_ [3]
MonitorElement *	h_SumPtOverPhoPt_ChHad_Cleaned_ [3]
MonitorElement *	h_SumPtOverPhoPt_ChHad_unCleaned_ [3]
MonitorElement *	h_SumPtOverPhoPt_NeuHad_Cleaned_ [3]
MonitorElement *	h_SumPtOverPhoPt_NeuHad_unCleaned_ [3]
MonitorElement *	h_SumPtOverPhoPt_Pho_Cleaned_ [3]
MonitorElement *	h_SumPtOverPhoPt_Pho_unCleaned_ [3]
MonitorElement *	h_trackPtSumHollow_ [3]
MonitorElement *	h_trackPtSumSolid_ [3]
int	hOverEBin_
double	hOverEMax_
double	hOverEMin_
bool	makeProfiles_
float	maxMumuGammaInvMass_
float	maxMumuInvMass_
float	minMumuGammaInvMass_
float	minMumuInvMass_
int	minPixStripHits_
edm::EDGetTokenT< std::vector< reco::Muon > >	muon_token_
int	muonMatches_
float	muonMaxChi2_
float	muonMaxDxy_
float	muonMinPt_
float	muonTightEta_
float	muonTrackIso_
float	nearMuonDr2_
float	nearMuonHcalIso_
int	nEvt_
int	numberBin_
double	numberMax_
double	numberMin_
edm::EDGetTokenT< reco::VertexCollection >	offline_pvToken_
MonitorElement *	p_e1x5VsEt_ [3]
MonitorElement *	p_e1x5VsEta_ [3]
MonitorElement *	p_e2x5VsEt_ [3]
MonitorElement *	p_e2x5VsEta_ [3]
MonitorElement *	p_ecalSumVsEt_ [3]
MonitorElement *	p_ecalSumVsEta_ [3]
MonitorElement *	p_hcalSumVsEt_ [3]
MonitorElement *	p_hcalSumVsEta_ [3]
MonitorElement *	p_hOverEVsEt_ [3]
MonitorElement *	p_hOverEVsEta_ [3]
MonitorElement *	p_newhOverEVsEt_ [3]
MonitorElement *	p_newhOverEVsEta_ [3]
MonitorElement *	p_nTrackIsolHollowVsEt_ [3]
MonitorElement *	p_nTrackIsolHollowVsEta_ [3]
MonitorElement *	p_nTrackIsolSolidVsEt_ [3]
MonitorElement *	p_nTrackIsolSolidVsEta_ [3]
MonitorElement *	p_phoSigmaEoverEVsNVtx_ [3]
MonitorElement *	p_r1x5VsEt_ [3]
MonitorElement *	p_r1x5VsEta_ [3]
MonitorElement *	p_r2x5VsEt_ [3]
MonitorElement *	p_r2x5VsEta_ [3]
MonitorElement *	p_r9VsEt_ [3]
MonitorElement *	p_r9VsEta_ [3]
MonitorElement *	p_sigmaIetaIetaVsEta_ [3]
MonitorElement *	p_trackPtSumHollowVsEt_ [3]
MonitorElement *	p_trackPtSumHollowVsEta_ [3]
MonitorElement *	p_trackPtSumSolidVsEt_ [3]
MonitorElement *	p_trackPtSumSolidVsEta_ [3]
edm::EDGetTokenT< reco::PFCandidateCollection >	pfCandidates_
int	phiBin_
double	phiMax_
double	phiMin_
edm::EDGetTokenT< std::vector< reco::Photon > >	photon_token_
edm::EDGetTokenT< edm::ValueMap< bool > >	PhotonIDLoose_token_
edm::EDGetTokenT< edm::ValueMap< bool > >	PhotonIDTight_token_
edm::EDGetTokenT< edm::ValueMap< std::vector< reco::PFCandidateRef > > >	photonIsoValmap_token_
float	photonMaxEta_
float	photonMinEt_
float	photonTrackIso_
unsigned int	prescaleFactor_
int	r9Bin_
double	r9Max_
double	r9Min_
int	reducedEtaBin_
int	reducedEtBin_
int	reducedR9Bin_
int	reducedSumBin_
int	sigmaIetaBin_
double	sigmaIetaMax_
double	sigmaIetaMin_
int	sumBin_
double	sumMax_
double	sumMin_
edm::EDGetTokenT< trigger::TriggerEvent >	triggerEvent_token_
bool	use2DHistos_
int	validMuonHits_
int	validPixHits_

Detailed Description

EgammaCoreTools.

$Id: ZToMuMuGammaAnalyzer authors: Nancy Marinelli, U. of Notre Dame, US
Jamie Antonelli, U. of Notre Dame, US Nathan Kellams, U. of Notre Dame, US

Definition at line 80 of file ZToMuMuGammaAnalyzer.cc.

Constructor & Destructor Documentation

ZToMuMuGammaAnalyzer()

ZToMuMuGammaAnalyzer::ZToMuMuGammaAnalyzer ( const edm::ParameterSet &  pset )

explicit

Definition at line 304 of file ZToMuMuGammaAnalyzer.cc.

References ProducerED_cfi::InputTag, muonDTDigis_cfi::pset, and AlCaHLTBitMon_QueryRunRegistry::string.

                                                                      {
  fName_ = pset.getParameter<std::string>("analyzerName");
  prescaleFactor_ = pset.getUntrackedParameter<int>("prescaleFactor", 1);
  use2DHistos_ = pset.getParameter<bool>("use2DHistos");
  makeProfiles_ = pset.getParameter<bool>("makeProfiles");

  triggerEvent_token_ = consumes<trigger::TriggerEvent>(pset.getParameter<edm::InputTag>("triggerEvent"));
  offline_pvToken_ = consumes<reco::VertexCollection>(
      pset.getUntrackedParameter<edm::InputTag>("offlinePV", edm::InputTag("offlinePrimaryVertices")));
  photon_token_ = consumes<vector<reco::Photon> >(pset.getParameter<edm::InputTag>("phoProducer"));
  muon_token_ = consumes<vector<reco::Muon> >(pset.getParameter<edm::InputTag>("muonProducer"));
  pfCandidates_ = consumes<reco::PFCandidateCollection>(pset.getParameter<edm::InputTag>("pfCandidates"));
  photonIsoValmap_token_ = consumes<edm::ValueMap<std::vector<reco::PFCandidateRef> > >(
      pset.getParameter<edm::InputTag>("particleBasedIso"));
  barrelRecHit_token_ = consumes<edm::SortedCollection<EcalRecHit, edm::StrictWeakOrdering<EcalRecHit> > >(
      pset.getParameter<edm::InputTag>("barrelRecHitProducer"));
  endcapRecHit_token_ = consumes<edm::SortedCollection<EcalRecHit, edm::StrictWeakOrdering<EcalRecHit> > >(
      pset.getParameter<edm::InputTag>("endcapRecHitProducer"));
  beamSpot_token_ = consumes<reco::BeamSpot>(pset.getParameter<edm::InputTag>("beamSpot"));

  nEvt_ = 0;

  // Muon selection
  muonMinPt_ = pset.getParameter<double>("muonMinPt");
  minPixStripHits_ = pset.getParameter<int>("minPixStripHits");
  muonMaxChi2_ = pset.getParameter<double>("muonMaxChi2");
  muonMaxDxy_ = pset.getParameter<double>("muonMaxDxy");
  muonMatches_ = pset.getParameter<int>("muonMatches");
  validPixHits_ = pset.getParameter<int>("validPixHits");
  validMuonHits_ = pset.getParameter<int>("validMuonHits");
  muonTrackIso_ = pset.getParameter<double>("muonTrackIso");
  muonTightEta_ = pset.getParameter<double>("muonTightEta");
  // Dimuon selection
  minMumuInvMass_ = pset.getParameter<double>("minMumuInvMass");
  maxMumuInvMass_ = pset.getParameter<double>("maxMumuInvMass");
  // Photon selection
  photonMinEt_ = pset.getParameter<double>("photonMinEt");
  photonMaxEta_ = pset.getParameter<double>("photonMaxEta");
  photonTrackIso_ = pset.getParameter<double>("photonTrackIso");
  // mumuGamma selection
  nearMuonDr2_ = pset.getParameter<double>("nearMuonDr");
  nearMuonDr2_ *= nearMuonDr2_;
  nearMuonHcalIso_ = pset.getParameter<double>("nearMuonHcalIso");
  farMuonEcalIso_ = pset.getParameter<double>("farMuonEcalIso");
  farMuonTrackIso_ = pset.getParameter<double>("farMuonTrackIso");
  farMuonMinPt_ = pset.getParameter<double>("farMuonMinPt");
  minMumuGammaInvMass_ = pset.getParameter<double>("minMumuGammaInvMass");
  maxMumuGammaInvMass_ = pset.getParameter<double>("maxMumuGammaInvMass");

  // Histogram parameters
  eMin_ = pset.getParameter<double>("eMin");
  eMax_ = pset.getParameter<double>("eMax");
  eBin_ = pset.getParameter<int>("eBin");

  etMin_ = pset.getParameter<double>("etMin");
  etMax_ = pset.getParameter<double>("etMax");
  etBin_ = pset.getParameter<int>("etBin");

  sumMin_ = pset.getParameter<double>("sumMin");
  sumMax_ = pset.getParameter<double>("sumMax");
  sumBin_ = pset.getParameter<int>("sumBin");

  etaMin_ = pset.getParameter<double>("etaMin");
  etaMax_ = pset.getParameter<double>("etaMax");
  etaBin_ = pset.getParameter<int>("etaBin");

  phiMin_ = pset.getParameter<double>("phiMin");
  phiMax_ = pset.getParameter<double>("phiMax");
  phiBin_ = pset.getParameter<int>("phiBin");

  r9Min_ = pset.getParameter<double>("r9Min");
  r9Max_ = pset.getParameter<double>("r9Max");
  r9Bin_ = pset.getParameter<int>("r9Bin");

  hOverEMin_ = pset.getParameter<double>("hOverEMin");
  hOverEMax_ = pset.getParameter<double>("hOverEMax");
  hOverEBin_ = pset.getParameter<int>("hOverEBin");

  numberMin_ = pset.getParameter<double>("numberMin");
  numberMax_ = pset.getParameter<double>("numberMax");
  numberBin_ = pset.getParameter<int>("numberBin");

  sigmaIetaMin_ = pset.getParameter<double>("sigmaIetaMin");
  sigmaIetaMax_ = pset.getParameter<double>("sigmaIetaMax");
  sigmaIetaBin_ = pset.getParameter<int>("sigmaIetaBin");

  reducedEtBin_ = etBin_ / 4;
  reducedEtaBin_ = etaBin_ / 4;
  reducedSumBin_ = sumBin_ / 4;
  reducedR9Bin_ = r9Bin_ / 4;
}

~ZToMuMuGammaAnalyzer()

ZToMuMuGammaAnalyzer::~ZToMuMuGammaAnalyzer ( )

override

Definition at line 396 of file ZToMuMuGammaAnalyzer.cc.

{}

Member Function Documentation

analyze()

void ZToMuMuGammaAnalyzer::analyze ( const edm::Event &  e, const edm::EventSetup &  esup  )

override

uncleaned

Definition at line 1127 of file ZToMuMuGammaAnalyzer.cc.

References HLTMuonOfflineAnalyzer_cfi::deltaR2, HGC3DClusterGenMatchSelector_cfi::dR, MillePedeFileConverter_cfg::e, reco::PFCandidate::e, reco::MuonIsolation::emEt, edm::ValueMap< T >::end(), reco::PFCandidate::gamma, reco::PFCandidate::h, reco::PFCandidate::h0, reco::MuonIsolation::hadEt, mps_fire::i, reco::Muon::isolationR03(), edm::HandleBase::isValid(), label, pdwgLeptonRecoSkim_cfi::muonCollection, TopMuEGSkim_cff::muonSelection, ExoticaDQM_cfi::photonCollection, PhotonMonitor_cff::photonSelection, edm::Handle< T >::product(), reco::LeafCandidate::pt(), optionsL1T::skip, jetUpdater_cfi::sort, mathSSE::sqrt(), reco::MuonIsolation::sumPt, PDWG_DiPhoton_SD_cff::triggerEvent, and parallelization::uint.

                                                                               {
  using namespace edm;

  if (nEvt_ % prescaleFactor_)
    return;
  nEvt_++;
  LogInfo("ZToMuMuGammaAnalyzer") << "ZToMuMuGammaAnalyzer Analyzing event number: " << e.id() << " Global Counter "
                                  << nEvt_ << "\n";

  // Get the trigger results
  bool validTriggerEvent = true;
  edm::Handle<trigger::TriggerEvent> triggerEventHandle;
  trigger::TriggerEvent triggerEvent;
  e.getByToken(triggerEvent_token_, triggerEventHandle);
  if (!triggerEventHandle.isValid()) {
    edm::LogInfo("PhotonAnalyzer") << "Error! Can't get the product: triggerEvent_token_" << endl;
    validTriggerEvent = false;
  }
  if (validTriggerEvent)
    triggerEvent = *(triggerEventHandle.product());

  // Get the reconstructed photons
  //  bool validPhotons=true;
  Handle<reco::PhotonCollection> photonHandle;
  reco::PhotonCollection photonCollection;
  e.getByToken(photon_token_, photonHandle);
  if (!photonHandle.isValid()) {
    edm::LogInfo("ZToMuMuGammaAnalyzer") << "Error! Can't get the product: photon_token_" << endl;
    //validPhotons=false;
  }
  //  if(validPhotons) photonCollection = *(photonHandle.product());

  // Get the  PF refined cluster  collection
  Handle<reco::PFCandidateCollection> pfCandidateHandle;
  e.getByToken(pfCandidates_, pfCandidateHandle);
  if (!pfCandidateHandle.isValid()) {
    edm::LogError("PhotonValidator") << "Error! Can't get the product pfCandidates " << std::endl;
  }

  edm::Handle<edm::ValueMap<std::vector<reco::PFCandidateRef> > > phoToParticleBasedIsoMapHandle;
  edm::ValueMap<std::vector<reco::PFCandidateRef> > phoToParticleBasedIsoMap;
  if (fName_ == "zmumugammaGedValidation") {
    e.getByToken(photonIsoValmap_token_, phoToParticleBasedIsoMapHandle);
    //   e.getByLabel("particleBasedIsolation",valueMapPhoPFCandIso_,phoToParticleBasedIsoMapHandle);
    if (!phoToParticleBasedIsoMapHandle.isValid()) {
      edm::LogInfo("PhotonValidator") << "Error! Can't get the product: valueMap photons to particle based iso "
                                      << std::endl;
    }
    phoToParticleBasedIsoMap = *(phoToParticleBasedIsoMapHandle.product());
  }

  // Get the reconstructed muons
  bool validMuons = true;
  Handle<reco::MuonCollection> muonHandle;
  reco::MuonCollection muonCollection;
  e.getByToken(muon_token_, muonHandle);
  if (!muonHandle.isValid()) {
    edm::LogInfo("ZToMuMuGammaAnalyzer") << "Error! Can't get the product: muon_token_" << endl;
    validMuons = false;
  }
  if (validMuons)
    muonCollection = *(muonHandle.product());

  // Get the beam spot
  edm::Handle<reco::BeamSpot> bsHandle;
  e.getByToken(beamSpot_token_, bsHandle);
  if (!bsHandle.isValid()) {
    edm::LogError("TrackerOnlyConversionProducer") << "Error! Can't get the product primary Vertex Collection "
                                                   << "\n";
    return;
  }
  const reco::BeamSpot& thebs = *bsHandle.product();

  //Prepare list of photon-related HLT filter names
  vector<int> Keys;
  for (uint filterIndex = 0; filterIndex < triggerEvent.sizeFilters();
       ++filterIndex) {  //loop over all trigger filters in event (i.e. filters passed)
    string label = triggerEvent.filterTag(filterIndex).label();
    if (label.find("Photon") != string::npos) {  //get photon-related filters
      for (uint filterKeyIndex = 0; filterKeyIndex < triggerEvent.filterKeys(filterIndex).size();
           ++filterKeyIndex) {  //loop over keys to objects passing this filter
        Keys.push_back(
            triggerEvent.filterKeys(filterIndex)[filterKeyIndex]);  //add keys to a vector for later reference
      }
    }
  }

  // sort Keys vector in ascending order
  // and erases duplicate entries from the vector
  sort(Keys.begin(), Keys.end());
  for (uint i = 0; i < Keys.size();) {
    if (i != (Keys.size() - 1)) {
      if (Keys[i] == Keys[i + 1]) {
        Keys.erase(Keys.begin() + i + 1);
      } else {
        ++i;
      }
    } else {
      ++i;
    }
  }

  edm::Handle<reco::VertexCollection> vtxH;
  e.getByToken(offline_pvToken_, vtxH);
  h_nRecoVtx_->Fill(float(vtxH->size()));

  //photon counters
  int nPho = 0;
  int nPhoBarrel = 0;
  int nPhoEndcap = 0;

  if (muonCollection.size() < 2)
    return;

  for (reco::MuonCollection::const_iterator iMu = muonCollection.begin(); iMu != muonCollection.end(); iMu++) {
    if (!basicMuonSelection(*iMu))
      continue;

    for (reco::MuonCollection::const_iterator iMu2 = iMu + 1; iMu2 != muonCollection.end(); iMu2++) {
      if (!basicMuonSelection(*iMu2))
        continue;
      if (iMu->charge() * iMu2->charge() > 0)
        continue;

      if (!muonSelection(*iMu, thebs) && !muonSelection(*iMu2, thebs))
        continue;

      float mumuMass = mumuInvMass(*iMu, *iMu2);
      if (mumuMass < minMumuInvMass_ || mumuMass > maxMumuInvMass_)
        continue;

      h1_mumuInvMass_[0]->Fill(mumuMass);

      if (photonHandle->empty())
        continue;

      reco::Muon nearMuon;
      reco::Muon farMuon;
      for (unsigned int iPho = 0; iPho < photonHandle->size(); iPho++) {
        reco::PhotonRef aPho(reco::PhotonRef(photonHandle, iPho));
        //
        double dr1 = deltaR2((*iMu).eta(), aPho->eta(), (*iMu).phi(), aPho->phi());
        double dr2 = deltaR2((*iMu2).eta(), aPho->eta(), (*iMu2).phi(), aPho->phi());
        double drNear;
        if (dr1 < dr2) {
          nearMuon = *iMu;
          farMuon = *iMu2;
          drNear = dr1;
        } else {
          nearMuon = *iMu2;
          farMuon = *iMu;
          drNear = dr2;
        }
        //
        if (nearMuon.isolationR03().hadEt > nearMuonHcalIso_)
          continue;
        if (farMuon.isolationR03().sumPt > farMuonTrackIso_)
          continue;
        if (farMuon.isolationR03().emEt > farMuonEcalIso_)
          continue;
        if (farMuon.pt() < farMuonMinPt_)
          continue;
        if (drNear > nearMuonDr2_)
          continue;
        //
        if (!photonSelection(aPho))
          continue;
        float mumuGammaMass = mumuGammaInvMass(*iMu, *iMu2, aPho);
        if (mumuGammaMass < minMumuGammaInvMass_ || mumuGammaMass > maxMumuGammaInvMass_)
          continue;
        //
        //counter: number of photons
        int iDet = 0;
        if (aPho->isEB() || aPho->isEE()) {
          nPho++;
        }
        if (aPho->isEB()) {
          iDet = 1;
          nPhoBarrel++;
        }
        if (aPho->isEE()) {
          iDet = 2;
          nPhoEndcap++;
        }

        //PHOTON RELATED HISTOGRAMS
        h1_mumuGammaInvMass_[0]->Fill(mumuGammaMass);
        h1_mumuGammaInvMass_[iDet]->Fill(mumuGammaMass);
        //ENERGY
        h_phoE_[0]->Fill(aPho->energy());
        h_phoSigmaEoverE_[0]->Fill(aPho->getCorrectedEnergyError(aPho->getCandidateP4type()) / aPho->energy());
        h_phoEt_[0]->Fill(aPho->et());
        h_phoE_[iDet]->Fill(aPho->energy());
        h_phoSigmaEoverE_[iDet]->Fill(aPho->getCorrectedEnergyError(aPho->getCandidateP4type()) / aPho->energy());
        p_phoSigmaEoverEVsNVtx_[iDet]->Fill(float(vtxH->size()),
                                            aPho->getCorrectedEnergyError(aPho->getCandidateP4type()) / aPho->energy());
        h_phoEt_[iDet]->Fill(aPho->et());
        //GEOMETRICAL
        h_phoEta_[0]->Fill(aPho->eta());
        h_phoPhi_[0]->Fill(aPho->phi());
        h_scEta_[0]->Fill(aPho->superCluster()->eta());
        h_scPhi_[0]->Fill(aPho->superCluster()->phi());
        h_phoEta_[iDet]->Fill(aPho->eta());
        h_phoPhi_[iDet]->Fill(aPho->phi());
        h_scEta_[iDet]->Fill(aPho->superCluster()->eta());
        h_scPhi_[iDet]->Fill(aPho->superCluster()->phi());
        //SHOWER SHAPE
        h_r9_[0]->Fill(aPho->r9());
        h_e1x5_[0]->Fill(aPho->e1x5());
        h_e2x5_[0]->Fill(aPho->e2x5());
        h_r1x5_[0]->Fill(aPho->r1x5());
        h_r2x5_[0]->Fill(aPho->r2x5());
        h_phoSigmaIetaIeta_[0]->Fill(aPho->sigmaIetaIeta());
        //
        h_r9_[iDet]->Fill(aPho->r9());
        h_e1x5_[iDet]->Fill(aPho->e1x5());
        h_e2x5_[iDet]->Fill(aPho->e2x5());
        h_r1x5_[iDet]->Fill(aPho->r1x5());
        h_r2x5_[iDet]->Fill(aPho->r2x5());
        h_phoSigmaIetaIeta_[iDet]->Fill(aPho->sigmaIetaIeta());
        //TRACK ISOLATION
        h_nTrackIsolSolid_[0]->Fill(aPho->nTrkSolidConeDR04());
        h_nTrackIsolHollow_[0]->Fill(aPho->nTrkHollowConeDR04());
        h_trackPtSumSolid_[0]->Fill(aPho->trkSumPtSolidConeDR04());
        h_trackPtSumHollow_[0]->Fill(aPho->trkSumPtSolidConeDR04());
        h_nTrackIsolSolid_[iDet]->Fill(aPho->nTrkSolidConeDR04());
        h_nTrackIsolHollow_[iDet]->Fill(aPho->nTrkHollowConeDR04());
        h_trackPtSumSolid_[iDet]->Fill(aPho->trkSumPtSolidConeDR04());
        h_trackPtSumHollow_[iDet]->Fill(aPho->trkSumPtSolidConeDR04());
        //CALORIMETER ISOLATION
        h_ecalSum_[0]->Fill(aPho->ecalRecHitSumEtConeDR04());
        h_hcalSum_[0]->Fill(aPho->hcalTowerSumEtConeDR04());
        h_hOverE_[0]->Fill(aPho->hadTowOverEm());
        h_h1OverE_[0]->Fill(aPho->hadTowOverEm(1));
        h_h2OverE_[0]->Fill(aPho->hadTowOverEm(2));
        h_newhOverE_[0]->Fill(aPho->hadTowOverEm());
        h_ecalSum_[iDet]->Fill(aPho->ecalRecHitSumEtConeDR04());
        h_hcalSum_[iDet]->Fill(aPho->hcalTowerSumEtConeDR04());
        h_hOverE_[iDet]->Fill(aPho->hadTowOverEm());
        h_h1OverE_[iDet]->Fill(aPho->hadTowOverEm(1));
        h_h2OverE_[iDet]->Fill(aPho->hadTowOverEm(2));
        h_newhOverE_[iDet]->Fill(aPho->hadTowOverEm());
        // Isolation from particle flow
        h_chHadIso_[0]->Fill(aPho->chargedHadronIso());
        h_nHadIso_[0]->Fill(aPho->neutralHadronIso());
        h_phoIso_[0]->Fill(aPho->photonIso());
        h_nCluOutsideMustache_[0]->Fill(float(aPho->nClusterOutsideMustache()));
        h_etOutsideMustache_[0]->Fill(aPho->etOutsideMustache());
        h_pfMva_[0]->Fill(aPho->pfMVA());
        h_chHadIso_[iDet]->Fill(aPho->chargedHadronIso());
        h_nHadIso_[iDet]->Fill(aPho->neutralHadronIso());
        h_phoIso_[iDet]->Fill(aPho->photonIso());
        h_nCluOutsideMustache_[iDet]->Fill(float(aPho->nClusterOutsideMustache()));
        h_etOutsideMustache_[iDet]->Fill(aPho->etOutsideMustache());
        h_pfMva_[iDet]->Fill(aPho->pfMVA());

        if (fName_ == "zmumugammaGedValidation") {
          float SumPtIsoValCh = 0.;
          float SumPtIsoValNh = 0.;
          float SumPtIsoValPh = 0.;

          float SumPtIsoValCleanCh = 0.;
          float SumPtIsoValCleanNh = 0.;
          float SumPtIsoValCleanPh = 0.;

          for (unsigned int lCand = 0; lCand < pfCandidateHandle->size(); lCand++) {
            reco::PFCandidateRef pfCandRef(reco::PFCandidateRef(pfCandidateHandle, lCand));
            float dR = deltaR2(aPho->eta(), aPho->phi(), pfCandRef->eta(), pfCandRef->phi());
            if (dR < 0.4 * 0.4) {
              reco::PFCandidate::ParticleType type = pfCandRef->particleId();
              if (type == reco::PFCandidate::e)
                continue;
              if (type == reco::PFCandidate::gamma && pfCandRef->mva_nothing_gamma() > 0.)
                continue;
              dR = sqrt(dR);

              if (type == reco::PFCandidate::h) {
                SumPtIsoValCh += pfCandRef->pt();
                h_dRPhoPFcand_ChHad_unCleaned_[0]->Fill(dR);
                h_dRPhoPFcand_ChHad_unCleaned_[iDet]->Fill(dR);
              }
              if (type == reco::PFCandidate::h0) {
                SumPtIsoValNh += pfCandRef->pt();
                h_dRPhoPFcand_NeuHad_unCleaned_[0]->Fill(dR);
                h_dRPhoPFcand_NeuHad_unCleaned_[iDet]->Fill(dR);
              }
              if (type == reco::PFCandidate::gamma) {
                SumPtIsoValPh += pfCandRef->pt();
                h_dRPhoPFcand_Pho_unCleaned_[0]->Fill(dR);
                h_dRPhoPFcand_Pho_unCleaned_[iDet]->Fill(dR);
              }
              bool skip = false;
              for (std::vector<reco::PFCandidateRef>::const_iterator i = phoToParticleBasedIsoMap[aPho].begin();
                   i != phoToParticleBasedIsoMap[aPho].end();
                   ++i) {
                //        std::cout << " PhotonValidator PfCand pt " << pfCandRef->pt() << " id " <<pfCandRef->particleId() <<  " and in the map " << (*i)->pt() << " type " << (*i)->particleId() << std::endl;
                if ((*i) == pfCandRef) {
                  skip = true;
                }
              }  // loop over the PFCandidates flagged as overlapping with the photon

              if (skip)
                continue;
              if (type == reco::PFCandidate::h) {
                SumPtIsoValCleanCh += pfCandRef->pt();
                h_dRPhoPFcand_ChHad_Cleaned_[0]->Fill(dR);
                h_dRPhoPFcand_ChHad_Cleaned_[iDet]->Fill(dR);
              }
              if (type == reco::PFCandidate::h0) {
                SumPtIsoValCleanNh += pfCandRef->pt();
                h_dRPhoPFcand_NeuHad_Cleaned_[0]->Fill(dR);
                h_dRPhoPFcand_NeuHad_Cleaned_[iDet]->Fill(dR);
              }
              if (type == reco::PFCandidate::gamma) {
                SumPtIsoValCleanPh += pfCandRef->pt();
                h_dRPhoPFcand_Pho_Cleaned_[0]->Fill(dR);
                h_dRPhoPFcand_Pho_Cleaned_[iDet]->Fill(dR);
              }
            }  // dr=0.4
          }    // loop over all PF Candidates

          h_SumPtOverPhoPt_ChHad_Cleaned_[0]->Fill(SumPtIsoValCleanCh / aPho->pt());
          h_SumPtOverPhoPt_NeuHad_Cleaned_[0]->Fill(SumPtIsoValCleanNh / aPho->pt());
          h_SumPtOverPhoPt_Pho_Cleaned_[0]->Fill(SumPtIsoValCleanPh / aPho->pt());
          h_SumPtOverPhoPt_ChHad_unCleaned_[0]->Fill(SumPtIsoValCh / aPho->pt());
          h_SumPtOverPhoPt_NeuHad_unCleaned_[0]->Fill(SumPtIsoValNh / aPho->pt());
          h_SumPtOverPhoPt_Pho_unCleaned_[0]->Fill(SumPtIsoValPh / aPho->pt());
          //
          h_SumPtOverPhoPt_ChHad_Cleaned_[iDet]->Fill(SumPtIsoValCleanCh / aPho->pt());
          h_SumPtOverPhoPt_NeuHad_Cleaned_[iDet]->Fill(SumPtIsoValCleanNh / aPho->pt());
          h_SumPtOverPhoPt_Pho_Cleaned_[iDet]->Fill(SumPtIsoValCleanPh / aPho->pt());
          h_SumPtOverPhoPt_ChHad_unCleaned_[iDet]->Fill(SumPtIsoValCh / aPho->pt());
          h_SumPtOverPhoPt_NeuHad_unCleaned_[iDet]->Fill(SumPtIsoValNh / aPho->pt());
          h_SumPtOverPhoPt_Pho_unCleaned_[iDet]->Fill(SumPtIsoValPh / aPho->pt());
        }  // only for zmumugammaGedValidation

        if (makeProfiles_) {
          p_r9VsEt_[iDet]->Fill(aPho->et(), aPho->r9());
          p_r9VsEta_[0]->Fill(aPho->eta(), aPho->r9());
          p_e1x5VsEt_[iDet]->Fill(aPho->et(), aPho->e1x5());
          p_e1x5VsEta_[0]->Fill(aPho->eta(), aPho->e1x5());
          p_e2x5VsEt_[iDet]->Fill(aPho->et(), aPho->e2x5());
          p_e2x5VsEta_[0]->Fill(aPho->eta(), aPho->e2x5());
          p_r1x5VsEt_[iDet]->Fill(aPho->et(), aPho->r1x5());
          p_r1x5VsEta_[0]->Fill(aPho->eta(), aPho->r1x5());
          p_r2x5VsEt_[iDet]->Fill(aPho->et(), aPho->r2x5());
          p_r2x5VsEta_[0]->Fill(aPho->eta(), aPho->r2x5());
          //
          p_sigmaIetaIetaVsEta_[0]->Fill(aPho->eta(), aPho->sigmaIetaIeta());
          p_nTrackIsolSolidVsEt_[iDet]->Fill(aPho->et(), aPho->nTrkSolidConeDR04());
          p_nTrackIsolSolidVsEta_[0]->Fill(aPho->eta(), aPho->nTrkSolidConeDR04());
          p_nTrackIsolHollowVsEt_[iDet]->Fill(aPho->et(), aPho->nTrkHollowConeDR04());
          p_nTrackIsolHollowVsEta_[0]->Fill(aPho->eta(), aPho->nTrkHollowConeDR04());
          p_trackPtSumSolidVsEt_[iDet]->Fill(aPho->et(), aPho->trkSumPtSolidConeDR04());
          p_trackPtSumSolidVsEta_[0]->Fill(aPho->eta(), aPho->trkSumPtSolidConeDR04());
          p_trackPtSumHollowVsEt_[iDet]->Fill(aPho->et(), aPho->trkSumPtHollowConeDR04());
          p_trackPtSumHollowVsEta_[0]->Fill(aPho->eta(), aPho->trkSumPtHollowConeDR04());
          //
          p_ecalSumVsEt_[iDet]->Fill(aPho->et(), aPho->ecalRecHitSumEtConeDR04());
          p_ecalSumVsEta_[0]->Fill(aPho->eta(), aPho->ecalRecHitSumEtConeDR04());
          p_hcalSumVsEt_[iDet]->Fill(aPho->et(), aPho->hcalTowerSumEtConeDR04());
          p_hcalSumVsEta_[0]->Fill(aPho->eta(), aPho->hcalTowerSumEtConeDR04());
          p_hOverEVsEt_[iDet]->Fill(aPho->et(), aPho->hadTowOverEm());
          p_hOverEVsEta_[0]->Fill(aPho->eta(), aPho->hadTowOverEm());
        }

        if (use2DHistos_) {
          //SHOWER SHAPE
          h2_r9VsEt_[iDet]->Fill(aPho->et(), aPho->r9());
          h2_r9VsEta_[0]->Fill(aPho->eta(), aPho->r9());
          h2_e1x5VsEt_[iDet]->Fill(aPho->et(), aPho->e1x5());
          h2_e1x5VsEta_[0]->Fill(aPho->eta(), aPho->e1x5());
          h2_e2x5VsEta_[0]->Fill(aPho->eta(), aPho->e2x5());
          h2_e2x5VsEt_[iDet]->Fill(aPho->et(), aPho->e2x5());
          h2_r1x5VsEta_[0]->Fill(aPho->eta(), aPho->r1x5());
          h2_r1x5VsEt_[iDet]->Fill(aPho->et(), aPho->r1x5());
          h2_r2x5VsEt_[iDet]->Fill(aPho->et(), aPho->r2x5());
          h2_r2x5VsEta_[0]->Fill(aPho->eta(), aPho->r2x5());
          h2_sigmaIetaIetaVsEta_[0]->Fill(aPho->eta(), aPho->sigmaIetaIeta());
          //TRACK ISOLATION
          h2_nTrackIsolSolidVsEt_[0]->Fill(aPho->et(), aPho->nTrkSolidConeDR04());
          h2_nTrackIsolSolidVsEta_[0]->Fill(aPho->eta(), aPho->nTrkSolidConeDR04());
          h2_nTrackIsolHollowVsEt_[0]->Fill(aPho->et(), aPho->nTrkHollowConeDR04());
          h2_nTrackIsolHollowVsEta_[0]->Fill(aPho->eta(), aPho->nTrkHollowConeDR04());
          h2_trackPtSumSolidVsEt_[0]->Fill(aPho->et(), aPho->trkSumPtSolidConeDR04());
          h2_trackPtSumSolidVsEta_[0]->Fill(aPho->eta(), aPho->trkSumPtSolidConeDR04());
          h2_trackPtSumHollowVsEt_[0]->Fill(aPho->et(), aPho->trkSumPtHollowConeDR04());
          h2_trackPtSumHollowVsEta_[0]->Fill(aPho->eta(), aPho->trkSumPtHollowConeDR04());
          //CALORIMETER ISOLATION
          h2_ecalSumVsEt_[iDet]->Fill(aPho->et(), aPho->ecalRecHitSumEtConeDR04());
          h2_ecalSumVsEta_[0]->Fill(aPho->eta(), aPho->ecalRecHitSumEtConeDR04());
          h2_hcalSumVsEt_[iDet]->Fill(aPho->et(), aPho->hcalTowerSumEtConeDR04());
          h2_hcalSumVsEta_[0]->Fill(aPho->eta(), aPho->hcalTowerSumEtConeDR04());
        }
      }  //end photon loop

      h_nPho_[0]->Fill(float(nPho));
      h_nPho_[1]->Fill(float(nPhoBarrel));
      h_nPho_[2]->Fill(float(nPhoEndcap));
    }  //end inner muon loop
  }    //end outer muon loop
}  //End of Analyze method

basicMuonSelection()

bool ZToMuMuGammaAnalyzer::basicMuonSelection ( const reco::Muon &  m )

private

Definition at line 1535 of file ZToMuMuGammaAnalyzer.cc.

References amptDefaultParameters_cff::mu, and mps_fire::result.

                                                                {
  bool result = true;
  if (!mu.innerTrack().isNonnull())
    result = false;
  if (!mu.globalTrack().isNonnull())
    result = false;
  if (!mu.isGlobalMuon())
    result = false;
  if (mu.pt() < muonMinPt_)
    result = false;
  if (fabs(mu.eta()) > 2.4)
    result = false;

  int pixHits = 0;
  int tkHits = 0;
  if (mu.innerTrack().isNonnull()) {
    pixHits = mu.innerTrack()->hitPattern().numberOfValidPixelHits();
    tkHits = mu.innerTrack()->hitPattern().numberOfValidStripHits();
  }

  if (pixHits + tkHits < minPixStripHits_)
    result = false;

  return result;
}

bookHistograms()

void ZToMuMuGammaAnalyzer::bookHistograms ( DQMStore::IBooker &  iBooker, edm::Run const &  , edm::EventSetup const &    )

override

Definition at line 398 of file ZToMuMuGammaAnalyzer.cc.

References dqm::implementation::IBooker::book1D(), dqm::implementation::IBooker::book2D(), dqm::implementation::IBooker::bookProfile(), and dqm::implementation::NavigatorBase::setCurrentFolder().

                                                                  {
  iBooker.setCurrentFolder("Egamma/" + fName_ + "/ZToMuMuGamma");

  h1_mumuInvMass_[0] = iBooker.book1D("mumuInvMass", "Two muon invariant mass: M (GeV)", etBin_, etMin_, etMax_);
  h1_mumuGammaInvMass_[0] =
      iBooker.book1D("mumuGammaInvMass", "Two-muon plus gamma invariant mass: M (GeV)", etBin_, etMin_, etMax_);
  h1_mumuGammaInvMass_[1] =
      iBooker.book1D("mumuGammaInvMassBarrel", "Two-muon plus gamma invariant mass: M (GeV)", etBin_, etMin_, etMax_);
  h1_mumuGammaInvMass_[2] =
      iBooker.book1D("mumuGammaInvMassEndcap", "Two-muon plus gamma invariant mass: M (GeV)", etBin_, etMin_, etMax_);

  h_nRecoVtx_ = iBooker.book1D("nOfflineVtx", "# of Offline Vertices", 200, -0.5, 199.5);

  //ENERGY
  h_phoE_[0] = iBooker.book1D("phoE", "Energy;E (GeV)", eBin_, eMin_, eMax_);
  h_phoSigmaEoverE_[0] = iBooker.book1D("phoSigmaEoverE", "All Ecal: #sigma_{E}/E;#sigma_{E}/E", eBin_, eMin_, eMax_);
  h_phoEt_[0] = iBooker.book1D("phoEt", "E_{T};E_{T} (GeV)", etBin_, etMin_, etMax_);

  //NUMBER OF PHOTONS
  h_nPho_[0] = iBooker.book1D("nPho", "Number of Photons per Event;# #gamma", numberBin_, numberMin_, numberMax_);

  //GEOMETRICAL
  h_phoEta_[0] = iBooker.book1D("phoEta", "#eta;#eta", etaBin_, etaMin_, etaMax_);
  h_phoPhi_[0] = iBooker.book1D("phoPhi", "#phi;#phi", phiBin_, phiMin_, phiMax_);

  h_scEta_[0] = iBooker.book1D("scEta", "SuperCluster #eta;#eta", etaBin_, etaMin_, etaMax_);
  h_scPhi_[0] = iBooker.book1D("scPhi", "SuperCluster #phi;#phi", phiBin_, phiMin_, phiMax_);

  //SHOWER SHAPE
  h_r9_[0] = iBooker.book1D("r9", "R9;R9", r9Bin_, r9Min_, r9Max_);
  h_e1x5_[0] = iBooker.book1D("e1x5", "E1x5;E1X5 (GeV)", reducedEtBin_, etMin_, etMax_);
  h_e2x5_[0] = iBooker.book1D("e2x5", "E2x5;E2X5 (GeV)", reducedEtBin_, etMin_, etMax_);
  h_r1x5_[0] = iBooker.book1D("r1x5", "r1x5;r1X5 (GeV)", reducedEtBin_, etMin_, etMax_);
  h_r2x5_[0] = iBooker.book1D("r2x5", "r2x5;r2X5 (GeV)", reducedEtBin_, etMin_, etMax_);
  h_phoSigmaIetaIeta_[0] = iBooker.book1D(
      "phoSigmaIetaIeta", "#sigma_{i#etai#eta};#sigma_{i#etai#eta}", sigmaIetaBin_, sigmaIetaMin_, sigmaIetaMax_);
  //TRACK ISOLATION
  h_nTrackIsolSolid_[0] = iBooker.book1D(
      "nIsoTracksSolid", "Number Of Tracks in the Solid Iso Cone;# tracks", numberBin_, numberMin_, numberMax_);
  h_nTrackIsolHollow_[0] = iBooker.book1D(
      "nIsoTracksHollow", "Number Of Tracks in the Hollow Iso Cone;# tracks", numberBin_, numberMin_, numberMax_);
  h_trackPtSumSolid_[0] =
      iBooker.book1D("isoPtSumSolid", "Track P_{T} Sum in the Solid Iso Cone;P_{T} (GeV)", sumBin_, sumMin_, sumMax_);
  h_trackPtSumHollow_[0] =
      iBooker.book1D("isoPtSumHollow", "Track P_{T} Sum in the Hollow Iso Cone;P_{T} (GeV)", sumBin_, sumMin_, sumMax_);
  //CALORIMETER ISOLATION VARIABLES
  h_ecalSum_[0] = iBooker.book1D("ecalSum", "Ecal Sum in the Iso Cone;E (GeV)", sumBin_, sumMin_, sumMax_);
  h_hcalSum_[0] = iBooker.book1D("hcalSum", "Hcal Sum in the Iso Cone;E (GeV)", sumBin_, sumMin_, sumMax_);
  h_hOverE_[0] = iBooker.book1D("hOverE", "H/E;H/E", hOverEBin_, hOverEMin_, hOverEMax_);
  h_h1OverE_[0] = iBooker.book1D("h1OverE", "H/E for Depth 1;H/E", hOverEBin_, hOverEMin_, hOverEMax_);
  h_h2OverE_[0] = iBooker.book1D("h2OverE", "H/E for Depth 2;H/E", hOverEBin_, hOverEMin_, hOverEMax_);
  string histname = "newhOverE";
  h_newhOverE_[0] = iBooker.book1D(histname + "All", "new H/E: All Ecal", 100, 0., 0.1);
  //  Information from Particle Flow
  histname = "chargedHadIso";
  h_chHadIso_[0] = iBooker.book1D(histname + "All", "PF chargedHadIso:  All Ecal", etBin_, etMin_, 20.);
  histname = "neutralHadIso";
  h_nHadIso_[0] = iBooker.book1D(histname + "All", "PF neutralHadIso:  All Ecal", etBin_, etMin_, 20.);
  histname = "photonIso";
  h_phoIso_[0] = iBooker.book1D(histname + "All", "PF photonIso:  All Ecal", etBin_, etMin_, 20.);
  histname = "nCluOutMustache";
  h_nCluOutsideMustache_[0] =
      iBooker.book1D(histname + "All", "PF number of clusters outside Mustache:  All Ecal", 50, 0., 50.);
  histname = "etOutMustache";
  h_etOutsideMustache_[0] = iBooker.book1D(histname + "All", "PF et outside Mustache:  All Ecal", etBin_, etMin_, 20.);
  histname = "pfMVA";
  h_pfMva_[0] = iBooker.book1D(histname + "All", "PF MVA output:  All Ecal", 50, -1., 2.);
  histname = "SumPtOverPhoPt_ChHad_Cleaned";
  h_SumPtOverPhoPt_ChHad_Cleaned_[0] =
      iBooker.book1D(histname + "All", "Pf Cand Sum Pt Over photon pt Charged Hadrons:  All Ecal", etBin_, etMin_, 2.);
  histname = "SumPtOverPhoPt_NeuHad_Cleaned";
  h_SumPtOverPhoPt_NeuHad_Cleaned_[0] =
      iBooker.book1D(histname + "All", "Pf Cand Sum Pt Over photon pt Neutral Hadrons:  All Ecal", etBin_, etMin_, 2.);
  histname = "SumPtOverPhoPt_Pho_Cleaned";
  h_SumPtOverPhoPt_Pho_Cleaned_[0] =
      iBooker.book1D(histname + "All", "Pf Cand Sum Pt Over photon pt Photons Hadrons:  All Ecal", etBin_, etMin_, 2.);
  histname = "dRPhoPFcand_ChHad_Cleaned";
  h_dRPhoPFcand_ChHad_Cleaned_[0] =
      iBooker.book1D(histname + "All", "dR(pho,cand) Charged Hadrons : All Ecal", etBin_, etMin_, 0.7);
  histname = "dRPhoPFcand_NeuHad_Cleaned";
  h_dRPhoPFcand_NeuHad_Cleaned_[0] =
      iBooker.book1D(histname + "All", "dR(pho,cand) Neutral Hadrons : All Ecal", etBin_, etMin_, 0.7);
  histname = "dRPhoPFcand_Pho_Cleaned";
  h_dRPhoPFcand_Pho_Cleaned_[0] =
      iBooker.book1D(histname + "All", "dR(pho,cand) Photons : All Ecal", etBin_, etMin_, 0.7);
  //
  histname = "SumPtOverPhoPt_ChHad_unCleaned";
  h_SumPtOverPhoPt_ChHad_unCleaned_[0] =
      iBooker.book1D(histname + "All", "Pf Cand Sum Pt Over photon pt Charged Hadrons :  All Ecal", etBin_, etMin_, 2.);
  histname = "SumPtOverPhoPt_NeuHad_unCleaned";
  h_SumPtOverPhoPt_NeuHad_unCleaned_[0] =
      iBooker.book1D(histname + "All", "Pf Cand Sum Pt Over photon pt Neutral Hadrons :  All Ecal", etBin_, etMin_, 2.);
  histname = "SumPtOverPhoPt_Pho_unCleaned";
  h_SumPtOverPhoPt_Pho_unCleaned_[0] =
      iBooker.book1D(histname + "All", "Pf Cand Sum Pt Over photon pt Photons:  All Ecal", etBin_, etMin_, 2.);
  histname = "dRPhoPFcand_ChHad_unCleaned";
  h_dRPhoPFcand_ChHad_unCleaned_[0] =
      iBooker.book1D(histname + "All", "dR(pho,cand) Charged Hadrons :  All Ecal", etBin_, etMin_, 0.7);
  histname = "dRPhoPFcand_NeuHad_unCleaned";
  h_dRPhoPFcand_NeuHad_unCleaned_[0] =
      iBooker.book1D(histname + "All", "dR(pho,cand) Neutral Hadrons :  All Ecal", etBin_, etMin_, 0.7);
  histname = "dRPhoPFcand_Pho_unCleaned";
  h_dRPhoPFcand_Pho_unCleaned_[0] =
      iBooker.book1D(histname + "All", "dR(pho,cand) Photons:  All Ecal", etBin_, etMin_, 0.7);

  // NUMBER OF PHOTONS
  h_nPho_[1] = iBooker.book1D("nPhoBarrel", "Number of Photons per Event;# #gamma", numberBin_, numberMin_, numberMax_);
  h_nPho_[2] = iBooker.book1D("nPhoEndcap", "Number of Photons per Event;# #gamma", numberBin_, numberMin_, numberMax_);
  //EB ENERGY
  h_phoE_[1] = iBooker.book1D("phoEBarrel", "Energy for Barrel;E (GeV)", eBin_, eMin_, eMax_);
  h_phoSigmaEoverE_[1] = iBooker.book1D("phoSigmaEoverEBarrel", "Barrel: #sigma_E/E;#sigma_{E}/E", eBin_, eMin_, eMax_);
  h_phoEt_[1] = iBooker.book1D("phoEtBarrel", "E_{T};E_{T} (GeV)", etBin_, etMin_, etMax_);
  //EE ENERGY
  h_phoEt_[2] = iBooker.book1D("phoEtEndcap", "E_{T};E_{T} (GeV)", etBin_, etMin_, etMax_);
  h_phoE_[2] = iBooker.book1D("phoEEndcap", "Energy for Endcap;E (GeV)", eBin_, eMin_, eMax_);
  h_phoSigmaEoverE_[2] =
      iBooker.book1D("phoSigmaEoverEEndcap", "Endcap: #sigma_{E}/E;#sigma_{E}/E", eBin_, eMin_, eMax_);
  //EB GEOMETRICAL
  h_phoEta_[1] = iBooker.book1D("phoEtaBarrel", "#eta;#eta", etaBin_, etaMin_, etaMax_);
  h_phoPhi_[1] = iBooker.book1D("phoPhiBarrel", "#phi;#phi", phiBin_, phiMin_, phiMax_);
  h_scEta_[1] = iBooker.book1D("scEtaBarrel", "SuperCluster #eta;#eta", etaBin_, etaMin_, etaMax_);
  h_scPhi_[1] = iBooker.book1D("scPhiBarrel", "SuperCluster #phi;#phi", phiBin_, phiMin_, phiMax_);
  //EE GEOMETRICAL
  h_phoEta_[2] = iBooker.book1D("phoEtaEndcap", "#eta;#eta", etaBin_, etaMin_, etaMax_);
  h_phoPhi_[2] = iBooker.book1D("phoPhiEndcap", "#phi;#phi", phiBin_, phiMin_, phiMax_);
  h_scEta_[2] = iBooker.book1D("scEtaEndcap", "SuperCluster #eta;#eta", etaBin_, etaMin_, etaMax_);
  h_scPhi_[2] = iBooker.book1D("scPhiEndcap", "SuperCluster #phi;#phi", phiBin_, phiMin_, phiMax_);
  //SHOWER SHAPES
  h_r9_[1] = iBooker.book1D("r9Barrel", "R9;R9", r9Bin_, r9Min_, r9Max_);
  h_r9_[2] = iBooker.book1D("r9Endcap", "R9;R9", r9Bin_, r9Min_, r9Max_);
  h_e1x5_[1] = iBooker.book1D("e1x5Barrel", "E1x5;E1X5 (GeV)", reducedEtBin_, etMin_, etMax_);
  h_e1x5_[2] = iBooker.book1D("e1x5Endcap", "E1x5;E1X5 (GeV)", reducedEtBin_, etMin_, etMax_);
  h_e2x5_[1] = iBooker.book1D("e2x5Barrel", "E2x5;E2X5 (GeV)", reducedEtBin_, etMin_, etMax_);
  h_e2x5_[2] = iBooker.book1D("e2x5Endcap", "E2x5;E2X5 (GeV)", reducedEtBin_, etMin_, etMax_);
  h_r1x5_[1] = iBooker.book1D("r1x5Barrel", "r1x5;r1X5 (GeV)", reducedEtBin_, etMin_, etMax_);
  h_r1x5_[2] = iBooker.book1D("r1x5Endcap", "r1x5;r1X5 (GeV)", reducedEtBin_, etMin_, etMax_);
  h_r2x5_[1] = iBooker.book1D("r2x5Barrel", "r2x5;r2X5 (GeV)", reducedEtBin_, etMin_, etMax_);
  h_r2x5_[2] = iBooker.book1D("r2x5Endcap", "r2x5;r2X5 (GeV)", reducedEtBin_, etMin_, etMax_);
  h_phoSigmaIetaIeta_[1] = iBooker.book1D(
      "phoSigmaIetaIetaBarrel", "#sigma_{i#etai#eta};#sigma_{i#etai#eta}", sigmaIetaBin_, sigmaIetaMin_, sigmaIetaMax_);
  h_phoSigmaIetaIeta_[2] = iBooker.book1D(
      "phoSigmaIetaIetaEndcap", "#sigma_{i#etai#eta};#sigma_{i#etai#eta}", sigmaIetaBin_, sigmaIetaMin_, sigmaIetaMax_);
  // TRACK ISOLATION
  h_nTrackIsolSolid_[1] = iBooker.book1D(
      "nIsoTracksSolidBarrel", "Number Of Tracks in the Solid Iso Cone;# tracks", numberBin_, numberMin_, numberMax_);
  h_nTrackIsolSolid_[2] = iBooker.book1D(
      "nIsoTracksSolidEndcap", "Number Of Tracks in the Solid Iso Cone;# tracks", numberBin_, numberMin_, numberMax_);
  h_nTrackIsolHollow_[1] = iBooker.book1D(
      "nIsoTracksHollowBarrel", "Number Of Tracks in the Hollow Iso Cone;# tracks", numberBin_, numberMin_, numberMax_);
  h_nTrackIsolHollow_[2] = iBooker.book1D(
      "nIsoTracksHollowEndcap", "Number Of Tracks in the Hollow Iso Cone;# tracks", numberBin_, numberMin_, numberMax_);
  h_trackPtSumSolid_[1] = iBooker.book1D(
      "isoPtSumSolidBarrel", "Track P_{T} Sum in the Solid Iso Cone;P_{T} (GeV)", sumBin_, sumMin_, sumMax_);
  h_trackPtSumSolid_[2] = iBooker.book1D(
      "isoPtSumSolidEndcap", "Track P_{T} Sum in the Solid Iso Cone;P_{T} (GeV)", sumBin_, sumMin_, sumMax_);
  h_trackPtSumHollow_[1] = iBooker.book1D(
      "isoPtSumHollowBarrel", "Track P_{T} Sum in the Hollow Iso Cone;P_{T} (GeV)", sumBin_, sumMin_, sumMax_);
  h_trackPtSumHollow_[2] = iBooker.book1D(
      "isoPtSumHollowEndcap", "Track P_{T} Sum in the Hollow Iso Cone;P_{T} (GeV)", sumBin_, sumMin_, sumMax_);
  // CALORIMETER ISOLATION VARIABLES
  h_ecalSum_[1] = iBooker.book1D("ecalSumBarrel", "Ecal Sum in the Iso Cone;E (GeV)", sumBin_, sumMin_, sumMax_);
  h_ecalSum_[2] = iBooker.book1D("ecalSumEndcap", "Ecal Sum in the Iso Cone;E (GeV)", sumBin_, sumMin_, sumMax_);
  h_hcalSum_[1] = iBooker.book1D("hcalSumBarrel", "Hcal Sum in the Iso Cone;E (GeV)", sumBin_, sumMin_, sumMax_);
  h_hcalSum_[2] = iBooker.book1D("hcalSumEndcap", "Hcal Sum in the Iso Cone;E (GeV)", sumBin_, sumMin_, sumMax_);
  //H/E
  // EB
  h_hOverE_[1] = iBooker.book1D("hOverEBarrel", "H/E;H/E", hOverEBin_, hOverEMin_, hOverEMax_);
  h_h1OverE_[1] = iBooker.book1D("h1OverEBarrel", "H/E for Depth 1;H/E", hOverEBin_, hOverEMin_, hOverEMax_);
  h_h2OverE_[1] = iBooker.book1D("h2OverEBarrel", "H/E for Depth 2;H/E", hOverEBin_, hOverEMin_, hOverEMax_);
  histname = "newhOverE";
  h_newhOverE_[1] = iBooker.book1D(histname + "Barrel", "new H/E: Barrel", 100, 0., 0.1);
  //EE
  h_hOverE_[2] = iBooker.book1D("hOverEEndcap", "H/E;H/E", hOverEBin_, hOverEMin_, hOverEMax_);
  h_h1OverE_[2] = iBooker.book1D("h1OverEEndcap", "H/E for Depth 1;H/E", hOverEBin_, hOverEMin_, hOverEMax_);
  h_h2OverE_[2] = iBooker.book1D("h2OverEEndcap", "H/E for Depth 2;H/E", hOverEBin_, hOverEMin_, hOverEMax_);
  histname = "newhOverE";
  h_newhOverE_[2] = iBooker.book1D(histname + "Endcap", "new H/E: Endcap", 100, 0., 0.1);
  // Information from Particle Flow
  histname = "chargedHadIso";
  h_chHadIso_[1] = iBooker.book1D(histname + "Barrel", "PF chargedHadIso:  Barrel", etBin_, etMin_, 20.);
  h_chHadIso_[2] = iBooker.book1D(histname + "Endcap", "PF chargedHadIso:  Endcap", etBin_, etMin_, 20.);
  histname = "neutralHadIso";
  h_nHadIso_[1] = iBooker.book1D(histname + "Barrel", "PF neutralHadIso:  Barrel", etBin_, etMin_, 20.);
  h_nHadIso_[2] = iBooker.book1D(histname + "Endcap", "PF neutralHadIso:  Endcap", etBin_, etMin_, 20.);
  histname = "photonIso";
  h_phoIso_[1] = iBooker.book1D(histname + "Barrel", "PF photonIso:  Barrel", etBin_, etMin_, 20.);
  h_phoIso_[2] = iBooker.book1D(histname + "Endcap", "PF photonIso:  Endcap", etBin_, etMin_, 20.);
  histname = "nCluOutMustache";
  h_nCluOutsideMustache_[1] =
      iBooker.book1D(histname + "Barrel", "PF number of clusters outside Mustache:  Barrel", 50, 0., 50.);
  h_nCluOutsideMustache_[2] =
      iBooker.book1D(histname + "Endcap", "PF number of clusters outside Mustache:  Endcap", 50, 0., 50.);
  histname = "etOutMustache";
  h_etOutsideMustache_[1] = iBooker.book1D(histname + "Barrel", "PF et outside Mustache:  Barrel", etBin_, etMin_, 20.);
  h_etOutsideMustache_[2] = iBooker.book1D(histname + "Endcap", "PF et outside Mustache:  Endcap", etBin_, etMin_, 20.);
  histname = "pfMVA";
  h_pfMva_[1] = iBooker.book1D(histname + "Barrel", "PF MVA output:  Barrel", 50, -1., 2.);
  h_pfMva_[2] = iBooker.book1D(histname + "Endcap", "PF MVA output:  Endcap", 50, -1, 2.);
  histname = "SumPtOverPhoPt_ChHad_Cleaned";
  h_SumPtOverPhoPt_ChHad_Cleaned_[1] =
      iBooker.book1D(histname + "Barrel", "PF Cand Sum Pt Over photon pt Charged Hadrons:  Barrel", etBin_, etMin_, 2.);
  h_SumPtOverPhoPt_ChHad_Cleaned_[2] =
      iBooker.book1D(histname + "Endcap", "PF Cand Sum Pt Over photon pt Charged Hadrons:  Endcap", etBin_, etMin_, 2.);
  histname = "SumPtOverPhoPt_NeuHad_Cleaned";
  h_SumPtOverPhoPt_NeuHad_Cleaned_[1] =
      iBooker.book1D(histname + "Barrel", "PF Cand Sum Pt Over photon pt Neutral Hadrons:  Barrel", etBin_, etMin_, 2.);
  h_SumPtOverPhoPt_NeuHad_Cleaned_[2] =
      iBooker.book1D(histname + "Endcap", "PF Cand Sum Pt Over photon pt Neutral Hadrons:  Endcap", etBin_, etMin_, 2.);
  histname = "SumPtOverPhoPt_Pho_Cleaned";
  h_SumPtOverPhoPt_Pho_Cleaned_[1] =
      iBooker.book1D(histname + "Barrel", "PF Cand Sum Pt Over photon pt Photons Hadrons:  Barrel", etBin_, etMin_, 2.);
  h_SumPtOverPhoPt_Pho_Cleaned_[2] =
      iBooker.book1D(histname + "Endcap", "PF Cand Sum Pt Over photon pt Photons Hadrons:  Endcap", etBin_, etMin_, 2.);
  histname = "dRPhoPFcand_ChHad_Cleaned";
  h_dRPhoPFcand_ChHad_Cleaned_[1] =
      iBooker.book1D(histname + "Barrel", "dR(pho,cand) Charged Hadrons :  Barrel", etBin_, etMin_, 0.7);
  h_dRPhoPFcand_ChHad_Cleaned_[2] =
      iBooker.book1D(histname + "Endcap", "dR(pho,cand) Charged Hadrons :  Endcap", etBin_, etMin_, 0.7);
  histname = "dRPhoPFcand_NeuHad_Cleaned";
  h_dRPhoPFcand_NeuHad_Cleaned_[1] =
      iBooker.book1D(histname + "Barrel", "dR(pho,cand) Neutral Hadrons :  Barrel", etBin_, etMin_, 0.7);
  h_dRPhoPFcand_NeuHad_Cleaned_[2] =
      iBooker.book1D(histname + "Endcap", "dR(pho,cand) Neutral Hadrons :  Endcap", etBin_, etMin_, 0.7);
  histname = "dRPhoPFcand_Pho_Cleaned";
  h_dRPhoPFcand_Pho_Cleaned_[1] =
      iBooker.book1D(histname + "Barrel", "dR(pho,cand) Photons :  Barrel", etBin_, etMin_, 0.7);
  h_dRPhoPFcand_Pho_Cleaned_[2] =
      iBooker.book1D(histname + "Endcap", "dR(pho,cand) Photons :  Endcap", etBin_, etMin_, 0.7);
  //
  histname = "SumPtOverPhoPt_ChHad_unCleaned";
  h_SumPtOverPhoPt_ChHad_unCleaned_[1] =
      iBooker.book1D(histname + "Barrel", "PF Cand Sum Pt Over photon pt Charged Hadrons:  Barrel", etBin_, etMin_, 2.);
  h_SumPtOverPhoPt_ChHad_unCleaned_[2] =
      iBooker.book1D(histname + "Endcap", "PF Cand Sum Pt Over photon pt Charged Hadrons:  Endcap", etBin_, etMin_, 2.);
  histname = "SumPtOverPhoPt_NeuHad_unCleaned";
  h_SumPtOverPhoPt_NeuHad_unCleaned_[1] =
      iBooker.book1D(histname + "Barrel", "PF Cand Sum Pt Over photon pt Neutral Hadrons:  Barrel", etBin_, etMin_, 2.);
  h_SumPtOverPhoPt_NeuHad_unCleaned_[2] =
      iBooker.book1D(histname + "Endcap", "PF Cand Sum Pt Over photon pt Neutral Hadrons:  Endcap", etBin_, etMin_, 2.);
  histname = "SumPtOverPhoPt_Pho_unCleaned";
  h_SumPtOverPhoPt_Pho_unCleaned_[1] =
      iBooker.book1D(histname + "Barrel", "PF Cand Sum Pt Over photon pt Photons:  Barrel", etBin_, etMin_, 2.);
  h_SumPtOverPhoPt_Pho_unCleaned_[2] =
      iBooker.book1D(histname + "Endcap", "PF Cand Sum Pt Over photon pt Photons:  Endcap", etBin_, etMin_, 2.);
  histname = "dRPhoPFcand_ChHad_unCleaned";
  h_dRPhoPFcand_ChHad_unCleaned_[1] =
      iBooker.book1D(histname + "Barrel", "dR(pho,cand) Charged Hadrons :  Barrel", etBin_, etMin_, 0.7);
  h_dRPhoPFcand_ChHad_unCleaned_[2] =
      iBooker.book1D(histname + "Endcap", "dR(pho,cand) Charged Hadrons :  Endcap", etBin_, etMin_, 0.7);
  histname = "dRPhoPFcand_NeuHad_unCleaned";
  h_dRPhoPFcand_NeuHad_unCleaned_[1] =
      iBooker.book1D(histname + "Barrel", "dR(pho,cand) Neutral Hadrons :  Barrel", etBin_, etMin_, 0.7);
  h_dRPhoPFcand_NeuHad_unCleaned_[2] =
      iBooker.book1D(histname + "Endcap", "dR(pho,cand) Neutral Hadrons :  Endcap", etBin_, etMin_, 0.7);
  histname = "dRPhoPFcand_Pho_unCleaned";
  h_dRPhoPFcand_Pho_unCleaned_[1] =
      iBooker.book1D(histname + "Barrel", "dR(pho,cand) Photons:  Barrel", etBin_, etMin_, 0.7);
  h_dRPhoPFcand_Pho_unCleaned_[2] =
      iBooker.book1D(histname + "Endcap", "dR(pho,cand) Photons:  Endcap", etBin_, etMin_, 0.7);

  if (makeProfiles_) {
    //     p_r9VsEt_[0]  = iBooker.bookProfile("r9VsEt","Avg R9 vs E_{T};E_{T} (GeV);R9",etBin_,etMin_,etMax_,r9Bin_,r9Min_,r9Max_);
    p_r9VsEt_[1] = iBooker.bookProfile(
        "r9VsEtBarrel", "Avg R9 vs E_{T};E_{T} (GeV);R9", etBin_, etMin_, etMax_, r9Bin_, r9Min_, r9Max_);
    p_r9VsEt_[2] = iBooker.bookProfile(
        "r9VsEtEndcap", "Avg R9 vs E_{T};E_{T} (GeV);R9", etBin_, etMin_, etMax_, r9Bin_, r9Min_, r9Max_);
    p_r9VsEta_[0] =
        iBooker.bookProfile("r9VsEta", "Avg R9 vs #eta;#eta;R9", etaBin_, etaMin_, etaMax_, r9Bin_, r9Min_, r9Max_);
    //
    p_sigmaIetaIetaVsEta_[0] = iBooker.bookProfile("sigmaIetaIetaVsEta",
                                                   "Avg #sigma_{i#etai#eta} vs #eta;#eta;#sigma_{i#etai#eta}",
                                                   etaBin_,
                                                   etaMin_,
                                                   etaMax_,
                                                   sigmaIetaBin_,
                                                   sigmaIetaMin_,
                                                   sigmaIetaMax_);
    p_e1x5VsEt_[1] = iBooker.bookProfile(
        "e1x5VsEtBarrel", "Avg E1x5 vs E_{T};E_{T} (GeV);E1X5 (GeV)", etBin_, etMin_, etMax_, etBin_, etMin_, etMax_);
    p_e1x5VsEt_[2] = iBooker.bookProfile(
        "e1x5VsEtEndcap", "Avg E1x5 vs E_{T};E_{T} (GeV);E1X5 (GeV)", etBin_, etMin_, etMax_, etBin_, etMin_, etMax_);
    p_e1x5VsEta_[0] = iBooker.bookProfile(
        "e1x5VsEta", "Avg E1x5 vs #eta;#eta;E1X5 (GeV)", etaBin_, etaMin_, etaMax_, etBin_, etMin_, etMax_);
    p_e2x5VsEt_[1] = iBooker.bookProfile(
        "e2x5VsEtBarrel", "Avg E2x5 vs E_{T};E_{T} (GeV);E2X5 (GeV)", etBin_, etMin_, etMax_, etBin_, etMin_, etMax_);
    p_e2x5VsEt_[2] = iBooker.bookProfile(
        "e2x5VsEtEndcap", "Avg E2x5 vs E_{T};E_{T} (GeV);E2X5 (GeV)", etBin_, etMin_, etMax_, etBin_, etMin_, etMax_);
    p_e2x5VsEta_[0] = iBooker.bookProfile(
        "e2x5VsEta", "Avg E2x5 vs #eta;#eta;E2X5 (GeV)", etaBin_, etaMin_, etaMax_, etBin_, etMin_, etMax_);
    p_r1x5VsEt_[1] = iBooker.bookProfile(
        "r1x5VsEtBarrel", "Avg R1x5 vs E_{T};E_{T} (GeV);R1X5", etBin_, etMin_, etMax_, r9Bin_, r9Min_, r9Max_);
    p_r1x5VsEt_[2] = iBooker.bookProfile(
        "r1x5VsEtEndcap", "Avg R1x5 vs E_{T};E_{T} (GeV);R1X5", etBin_, etMin_, etMax_, r9Bin_, r9Min_, r9Max_);
    p_r1x5VsEta_[0] = iBooker.bookProfile(
        "r1x5VsEta", "Avg R1x5 vs #eta;#eta;R1X5", etaBin_, etaMin_, etaMax_, r9Bin_, r9Min_, r9Max_);
    p_r2x5VsEt_[1] = iBooker.bookProfile(
        "r2x5VsEtBarrel", "Avg R2x5 vs E_{T};E_{T} (GeV);R2X5", etBin_, etMin_, etMax_, r9Bin_, r9Min_, r9Max_);
    p_r2x5VsEt_[2] = iBooker.bookProfile(
        "r2x5VsEtEndcap", "Avg R2x5 vs E_{T};E_{T} (GeV);R2X5", etBin_, etMin_, etMax_, r9Bin_, r9Min_, r9Max_);
    p_r2x5VsEta_[0] = iBooker.bookProfile(
        "r2x5VsEta", "Avg R2x5 vs #eta;#eta;R2X5", etaBin_, etaMin_, etaMax_, r9Bin_, r9Min_, r9Max_);
    p_nTrackIsolSolidVsEt_[1] =
        iBooker.bookProfile("nIsoTracksSolidVsEtBarrel",
                            "Avg Number Of Tracks in the Solid Iso Cone vs E_{T};E_{T};# tracks",
                            etBin_,
                            etMin_,
                            etMax_,
                            numberBin_,
                            numberMin_,
                            numberMax_);
    p_nTrackIsolSolidVsEt_[2] =
        iBooker.bookProfile("nIsoTracksSolidVsEtEndcap",
                            "Avg Number Of Tracks in the Solid Iso Cone vs E_{T};E_{T};# tracks",
                            etBin_,
                            etMin_,
                            etMax_,
                            numberBin_,
                            numberMin_,
                            numberMax_);
    p_nTrackIsolSolidVsEta_[0] = iBooker.bookProfile("nIsoTracksSolidVsEta",
                                                     "Avg Number Of Tracks in the Solid Iso Cone vs #eta;#eta;# tracks",
                                                     etaBin_,
                                                     etaMin_,
                                                     etaMax_,
                                                     numberBin_,
                                                     numberMin_,
                                                     numberMax_);
    p_nTrackIsolHollowVsEt_[1] =
        iBooker.bookProfile("nIsoTracksHollowVsEtBarrel",
                            "Avg Number Of Tracks in the Hollow Iso Cone vs E_{T};E_{T};# tracks",
                            etBin_,
                            etMin_,
                            etMax_,
                            numberBin_,
                            numberMin_,
                            numberMax_);
    p_nTrackIsolHollowVsEt_[2] =
        iBooker.bookProfile("nIsoTracksHollowVsEtEndcap",
                            "Avg Number Of Tracks in the Hollow Iso Cone vs E_{T};E_{T};# tracks",
                            etBin_,
                            etMin_,
                            etMax_,
                            numberBin_,
                            numberMin_,
                            numberMax_);
    p_nTrackIsolHollowVsEta_[0] =
        iBooker.bookProfile("nIsoTracksHollowVsEta",
                            "Avg Number Of Tracks in the Hollow Iso Cone vs #eta;#eta;# tracks",
                            etaBin_,
                            etaMin_,
                            etaMax_,
                            numberBin_,
                            numberMin_,
                            numberMax_);
    p_trackPtSumSolidVsEt_[1] =
        iBooker.bookProfile("isoPtSumSolidVsEtBarrel",
                            "Avg Track P_{T} Sum in the Solid Iso Cone vs E_{T};E_{T} (GeV);P_{T} (GeV)",
                            etBin_,
                            etMin_,
                            etMax_,
                            sumBin_,
                            sumMin_,
                            sumMax_);
    p_trackPtSumSolidVsEt_[2] =
        iBooker.bookProfile("isoPtSumSolidVsEtEndcap",
                            "Avg Track P_{T} Sum in the Solid Iso Cone vs E_{T};E_{T} (GeV);P_{T} (GeV)",
                            etBin_,
                            etMin_,
                            etMax_,
                            sumBin_,
                            sumMin_,
                            sumMax_);
    p_trackPtSumSolidVsEta_[0] =
        iBooker.bookProfile("isoPtSumSolidVsEta",
                            "Avg Track P_{T} Sum in the Solid Iso Cone vs #eta;#eta;P_{T} (GeV)",
                            etaBin_,
                            etaMin_,
                            etaMax_,
                            sumBin_,
                            sumMin_,
                            sumMax_);
    p_trackPtSumHollowVsEt_[1] =
        iBooker.bookProfile("isoPtSumHollowVsEtBarrel",
                            "Avg Track P_{T} Sum in the Hollow Iso Cone vs E_{T};E_{T} (GeV);P_{T} (GeV)",
                            etBin_,
                            etMin_,
                            etMax_,
                            sumBin_,
                            sumMin_,
                            sumMax_);
    p_trackPtSumHollowVsEt_[2] =
        iBooker.bookProfile("isoPtSumHollowVsEtEndcap",
                            "Avg Track P_{T} Sum in the Hollow Iso Cone vs E_{T};E_{T} (GeV);P_{T} (GeV)",
                            etBin_,
                            etMin_,
                            etMax_,
                            sumBin_,
                            sumMin_,
                            sumMax_);
    p_trackPtSumHollowVsEta_[0] =
        iBooker.bookProfile("isoPtSumHollowVsEta",
                            "Avg Track P_{T} Sum in the Hollow Iso Cone vs #eta;#eta;P_{T} (GeV)",
                            etaBin_,
                            etaMin_,
                            etaMax_,
                            sumBin_,
                            sumMin_,
                            sumMax_);
    p_ecalSumVsEt_[1] = iBooker.bookProfile("ecalSumVsEtBarrel",
                                            "Avg Ecal Sum in the Iso Cone vs E_{T};E_{T} (GeV);E (GeV)",
                                            etBin_,
                                            etMin_,
                                            etMax_,
                                            sumBin_,
                                            sumMin_,
                                            sumMax_);
    p_ecalSumVsEt_[2] = iBooker.bookProfile("ecalSumVsEtEndcap",
                                            "Avg Ecal Sum in the Iso Cone vs E_{T};E_{T} (GeV);E (GeV)",
                                            etBin_,
                                            etMin_,
                                            etMax_,
                                            sumBin_,
                                            sumMin_,
                                            sumMax_);
    p_ecalSumVsEta_[0] = iBooker.bookProfile("ecalSumVsEta",
                                             "Avg Ecal Sum in the Iso Cone vs #eta;#eta;E (GeV)",
                                             etaBin_,
                                             etaMin_,
                                             etaMax_,
                                             sumBin_,
                                             sumMin_,
                                             sumMax_);
    p_hcalSumVsEt_[1] = iBooker.bookProfile("hcalSumVsEtBarrel",
                                            "Avg Hcal Sum in the Iso Cone vs E_{T};E_{T} (GeV);E (GeV)",
                                            etBin_,
                                            etMin_,
                                            etMax_,
                                            sumBin_,
                                            sumMin_,
                                            sumMax_);
    p_hcalSumVsEt_[2] = iBooker.bookProfile("hcalSumVsEtEndcap",
                                            "Avg Hcal Sum in the Iso Cone vs E_{T};E_{T} (GeV);E (GeV)",
                                            etBin_,
                                            etMin_,
                                            etMax_,
                                            sumBin_,
                                            sumMin_,
                                            sumMax_);
    p_hcalSumVsEta_[0] = iBooker.bookProfile("hcalSumVsEta",
                                             "Avg Hcal Sum in the Iso Cone vs #eta;#eta;E (GeV)",
                                             etaBin_,
                                             etaMin_,
                                             etaMax_,
                                             sumBin_,
                                             sumMin_,
                                             sumMax_);
    p_hOverEVsEt_[1] = iBooker.bookProfile("p_hOverEVsEtBarrel",
                                           "Avg H/E vs Et;E_{T} (GeV);H/E",
                                           etBin_,
                                           etMin_,
                                           etMax_,
                                           hOverEBin_,
                                           hOverEMin_,
                                           hOverEMax_);
    p_hOverEVsEt_[2] = iBooker.bookProfile("p_hOverEVsEtEndcap",
                                           "Avg H/E vs Et;E_{T} (GeV);H/E",
                                           etBin_,
                                           etMin_,
                                           etMax_,
                                           hOverEBin_,
                                           hOverEMin_,
                                           hOverEMax_);
    p_hOverEVsEta_[0] = iBooker.bookProfile(
        "p_hOverEVsEta", "Avg H/E vs #eta;#eta;H/E", etaBin_, etaMin_, etaMax_, hOverEBin_, hOverEMin_, hOverEMax_);

    // sigmaE/E
    histname = "sigmaEoverEVsNVtx";
    p_phoSigmaEoverEVsNVtx_[1] = iBooker.bookProfile(histname + "Barrel",
                                                     "Photons #sigma_{E}/E vs N_{vtx}: Barrel; N_{vtx}; #sigma_{E}/E ",
                                                     200,
                                                     -0.5,
                                                     199.5,
                                                     100,
                                                     0.,
                                                     0.08,
                                                     "");
    p_phoSigmaEoverEVsNVtx_[2] = iBooker.bookProfile(histname + "Endcap",
                                                     "Photons #sigma_{E}/E vs N_{vtx}: Endcap;  N_{vtx}; #sigma_{E}/E",
                                                     200,
                                                     -0.5,
                                                     199.5,
                                                     100,
                                                     0.,
                                                     0.08,
                                                     "");
  }

  if (use2DHistos_) {
    //SHOWER SHAPE
    //r9
    h2_r9VsEt_[0] = iBooker.book2D(
        "r9VsEt2D", "R9 vs E_{T};E_{T} (GeV);R9", reducedEtBin_, etMin_, etMax_, reducedR9Bin_, r9Min_, r9Max_);
    h2_r9VsEt_[1] = iBooker.book2D(
        "r9VsEt2DBarrel", "R9 vs E_{T};E_{T} (GeV);R9", reducedEtBin_, etMin_, etMax_, reducedR9Bin_, r9Min_, r9Max_);
    h2_r9VsEt_[2] = iBooker.book2D(
        "r9VsEt2DEndcap", "R9 vs E_{T};E_{T} (GeV);R9", reducedEtBin_, etMin_, etMax_, reducedR9Bin_, r9Min_, r9Max_);
    h2_r9VsEta_[0] = iBooker.book2D(
        "r9VsEta2D", "R9 vs #eta;#eta;R9", reducedEtaBin_, etaMin_, etaMax_, reducedR9Bin_, r9Min_, r9Max_);
    //sigmaIetaIeta
    h2_sigmaIetaIetaVsEta_[0] = iBooker.book2D("sigmaIetaIetaVsEta2D",
                                               "#sigma_{i#etai#eta} vs #eta;#eta;#sigma_{i#etai#eta}",
                                               reducedEtaBin_,
                                               etaMin_,
                                               etaMax_,
                                               sigmaIetaBin_,
                                               sigmaIetaMin_,
                                               sigmaIetaMax_);
    //e1x5
    h2_e1x5VsEt_[0] = iBooker.book2D("e1x5VsEt2D",
                                     "E1x5 vs E_{T};E_{T} (GeV);E1X5 (GeV)",
                                     reducedEtBin_,
                                     etMin_,
                                     etMax_,
                                     reducedEtBin_,
                                     etMin_,
                                     etMax_);
    h2_e1x5VsEt_[1] = iBooker.book2D("e1x5VsEt2DBarrel",
                                     "E1x5 vs E_{T};E_{T} (GeV);E1X5 (GeV)",
                                     reducedEtBin_,
                                     etMin_,
                                     etMax_,
                                     reducedEtBin_,
                                     etMin_,
                                     etMax_);
    h2_e1x5VsEt_[2] = iBooker.book2D("e1x5VsEt2DEndcap",
                                     "E1x5 vs E_{T};E_{T} (GeV);E1X5 (GeV)",
                                     reducedEtBin_,
                                     etMin_,
                                     etMax_,
                                     reducedEtBin_,
                                     etMin_,
                                     etMax_);
    h2_e1x5VsEta_[0] = iBooker.book2D(
        "e1x5VsEta2D", "E1x5 vs #eta;#eta;E1X5 (GeV)", reducedEtaBin_, etaMin_, etaMax_, reducedEtBin_, etMin_, etMax_);
    //e2x5
    h2_e2x5VsEt_[0] = iBooker.book2D("e2x5VsEt2D",
                                     "E2x5 vs E_{T};E_{T} (GeV);E2X5 (GeV)",
                                     reducedEtBin_,
                                     etMin_,
                                     etMax_,
                                     reducedEtBin_,
                                     etMin_,
                                     etMax_);
    h2_e2x5VsEt_[1] = iBooker.book2D("e2x5VsEt2DBarrel",
                                     "E2x5 vs E_{T};E_{T} (GeV);E2X5 (GeV)",
                                     reducedEtBin_,
                                     etMin_,
                                     etMax_,
                                     reducedEtBin_,
                                     etMin_,
                                     etMax_);
    h2_e2x5VsEt_[2] = iBooker.book2D("e2x5VsEt2DEndcap",
                                     "E2x5 vs E_{T};E_{T} (GeV);E2X5 (GeV)",
                                     reducedEtBin_,
                                     etMin_,
                                     etMax_,
                                     reducedEtBin_,
                                     etMin_,
                                     etMax_);
    h2_e2x5VsEta_[0] = iBooker.book2D(
        "e2x5VsEta2D", "E2x5 vs #eta;#eta;E2X5 (GeV)", reducedEtaBin_, etaMin_, etaMax_, reducedEtBin_, etMin_, etMax_);
    //r1x5
    h2_r1x5VsEt_[0] = iBooker.book2D(
        "r1x5VsEt2D", "R1x5 vs E_{T};E_{T} (GeV);R1X5", reducedEtBin_, etMin_, etMax_, reducedR9Bin_, r9Min_, r9Max_);
    h2_r1x5VsEt_[1] = iBooker.book2D("r1x5VsEt2DBarrel",
                                     "R1x5 vs E_{T};E_{T} (GeV);R1X5",
                                     reducedEtBin_,
                                     etMin_,
                                     etMax_,
                                     reducedR9Bin_,
                                     r9Min_,
                                     r9Max_);
    h2_r1x5VsEt_[2] = iBooker.book2D("r1x5VsEt2DEndcap",
                                     "R1x5 vs E_{T};E_{T} (GeV);R1X5",
                                     reducedEtBin_,
                                     etMin_,
                                     etMax_,
                                     reducedR9Bin_,
                                     r9Min_,
                                     r9Max_);
    h2_r1x5VsEta_[0] = iBooker.book2D(
        "r1x5VsEta2D", "R1x5 vs #eta;#eta;R1X5", reducedEtaBin_, etaMin_, etaMax_, reducedR9Bin_, r9Min_, r9Max_);
    //r2x5
    h2_r2x5VsEt_[0] = iBooker.book2D(
        "r2x5VsEt2D", "R2x5 vs E_{T};E_{T} (GeV);R2X5", reducedEtBin_, etMin_, etMax_, reducedR9Bin_, r9Min_, r9Max_);
    h2_r2x5VsEt_[1] = iBooker.book2D("r2x5VsEt2DBarrel",
                                     "R2x5 vs E_{T};E_{T} (GeV);R2X5",
                                     reducedEtBin_,
                                     etMin_,
                                     etMax_,
                                     reducedR9Bin_,
                                     r9Min_,
                                     r9Max_);
    h2_r2x5VsEt_[2] = iBooker.book2D("r2x5VsEt2DEndcap",
                                     "R2x5 vs E_{T};E_{T} (GeV);R2X5",
                                     reducedEtBin_,
                                     etMin_,
                                     etMax_,
                                     reducedR9Bin_,
                                     r9Min_,
                                     r9Max_);
    h2_r2x5VsEta_[0] = iBooker.book2D(
        "r2x5VsEta2D", "R2x5 vs #eta;#eta;R2X5", reducedEtaBin_, etaMin_, etaMax_, reducedR9Bin_, r9Min_, r9Max_);
    //TRACK ISOLATION
    //nTrackIsolSolid
    h2_nTrackIsolSolidVsEt_[0] = iBooker.book2D("nIsoTracksSolidVsEt2D",
                                                "Number Of Tracks in the Solid Iso Cone vs E_{T};E_{T};# tracks",
                                                reducedEtBin_,
                                                etMin_,
                                                etMax_,
                                                numberBin_,
                                                numberMin_,
                                                numberMax_);
    h2_nTrackIsolSolidVsEta_[0] = iBooker.book2D("nIsoTracksSolidVsEta2D",
                                                 "Number Of Tracks in the Solid Iso Cone vs #eta;#eta;# tracks",
                                                 reducedEtaBin_,
                                                 etaMin_,
                                                 etaMax_,
                                                 numberBin_,
                                                 numberMin_,
                                                 numberMax_);
    //nTrackIsolHollow
    h2_nTrackIsolHollowVsEt_[0] = iBooker.book2D("nIsoTracksHollowVsEt2D",
                                                 "Number Of Tracks in the Hollow Iso Cone vs E_{T};E_{T};# tracks",
                                                 reducedEtBin_,
                                                 etMin_,
                                                 etMax_,
                                                 numberBin_,
                                                 numberMin_,
                                                 numberMax_);
    h2_nTrackIsolHollowVsEta_[0] = iBooker.book2D("nIsoTracksHollowVsEta2D",
                                                  "Number Of Tracks in the Hollow Iso Cone vs #eta;#eta;# tracks",
                                                  reducedEtaBin_,
                                                  etaMin_,
                                                  etaMax_,
                                                  numberBin_,
                                                  numberMin_,
                                                  numberMax_);
    //trackPtSumSolid
    h2_trackPtSumSolidVsEt_[0] = iBooker.book2D("isoPtSumSolidVsEt2D",
                                                "Track P_{T} Sum in the Solid Iso Cone;E_{T} (GeV);P_{T} (GeV)",
                                                reducedEtBin_,
                                                etMin_,
                                                etMax_,
                                                reducedSumBin_,
                                                sumMin_,
                                                sumMax_);
    h2_trackPtSumSolidVsEta_[0] = iBooker.book2D("isoPtSumSolidVsEta2D",
                                                 "Track P_{T} Sum in the Solid Iso Cone;#eta;P_{T} (GeV)",
                                                 reducedEtaBin_,
                                                 etaMin_,
                                                 etaMax_,
                                                 reducedSumBin_,
                                                 sumMin_,
                                                 sumMax_);
    //trackPtSumHollow
    h2_trackPtSumHollowVsEt_[0] = iBooker.book2D("isoPtSumHollowVsEt2D",
                                                 "Track P_{T} Sum in the Hollow Iso Cone;E_{T} (GeV);P_{T} (GeV)",
                                                 reducedEtBin_,
                                                 etMin_,
                                                 etMax_,
                                                 reducedSumBin_,
                                                 sumMin_,
                                                 sumMax_);
    h2_trackPtSumHollowVsEta_[0] = iBooker.book2D("isoPtSumHollowVsEta2D",
                                                  "Track P_{T} Sum in the Hollow Iso Cone;#eta;P_{T} (GeV)",
                                                  reducedEtaBin_,
                                                  etaMin_,
                                                  etaMax_,
                                                  reducedSumBin_,
                                                  sumMin_,
                                                  sumMax_);
    //CALORIMETER ISOLATION VARIABLES
    //ecal sum
    h2_ecalSumVsEt_[0] = iBooker.book2D("ecalSumVsEt2D",
                                        "Ecal Sum in the Iso Cone;E_{T} (GeV);E (GeV)",
                                        reducedEtBin_,
                                        etMin_,
                                        etMax_,
                                        reducedSumBin_,
                                        sumMin_,
                                        sumMax_);
    h2_ecalSumVsEta_[0] = iBooker.book2D("ecalSumVsEta2D",
                                         "Ecal Sum in the Iso Cone;#eta;E (GeV)",
                                         reducedEtaBin_,
                                         etaMin_,
                                         etaMax_,
                                         reducedSumBin_,
                                         sumMin_,
                                         sumMax_);
    //hcal sum
    h2_hcalSumVsEt_[0] = iBooker.book2D("hcalSumVsEt2D",
                                        "Hcal Sum in the Iso Cone;E_{T} (GeV);E (GeV)",
                                        reducedEtBin_,
                                        etMin_,
                                        etMax_,
                                        reducedSumBin_,
                                        sumMin_,
                                        sumMax_);
    h2_hcalSumVsEta_[0] = iBooker.book2D("hcalSumVsEta2D",
                                         "Hcal Sum in the Iso Cone;#eta;E (GeV)",
                                         reducedEtaBin_,
                                         etaMin_,
                                         etaMax_,
                                         reducedSumBin_,
                                         sumMin_,
                                         sumMax_);
  }
}

mumuGammaInvMass()

float ZToMuMuGammaAnalyzer::mumuGammaInvMass ( const reco::Muon &  mu1, const reco::Muon &  mu2, const reco::PhotonRef &  pho  )

private

Definition at line 1632 of file ZToMuMuGammaAnalyzer.cc.

References reco::LeafCandidate::p4(), and mathSSE::sqrt().

                                                                                                               {
  math::XYZTLorentzVector p12 = mu1.p4() + mu2.p4() + pho->p4();
  float Mass2 = p12.Dot(p12);
  float invMass = sqrt(Mass2);
  return invMass;
}

mumuInvMass()

float ZToMuMuGammaAnalyzer::mumuInvMass ( const reco::Muon &  m1, const reco::Muon &  m2  )

private

Definition at line 1625 of file ZToMuMuGammaAnalyzer.cc.

References reco::LeafCandidate::p4(), and mathSSE::sqrt().

                                                                                {
  math::XYZTLorentzVector p12 = mu1.p4() + mu2.p4();
  float mumuMass2 = p12.Dot(p12);
  float invMass = sqrt(mumuMass2);
  return invMass;
}

muonSelection()

bool ZToMuMuGammaAnalyzer::muonSelection ( const reco::Muon &  m, const reco::BeamSpot &  bs  )

private

Definition at line 1561 of file ZToMuMuGammaAnalyzer.cc.

References pwdgSkimBPark_cfi::beamSpot, amptDefaultParameters_cff::mu, and mps_fire::result.

                                                                                         {
  bool result = true;
  if (mu.globalTrack()->normalizedChi2() > muonMaxChi2_)
    result = false;
  if (fabs(mu.globalTrack()->dxy(beamSpot)) > muonMaxDxy_)
    result = false;
  if (mu.numberOfMatches() < muonMatches_)
    result = false;

  if (mu.track()->hitPattern().numberOfValidPixelHits() < validPixHits_)
    result = false;
  if (mu.globalTrack()->hitPattern().numberOfValidMuonHits() < validMuonHits_)
    result = false;
  if (!mu.isTrackerMuon())
    result = false;
  // track isolation
  if (mu.isolationR03().sumPt > muonTrackIso_)
    result = false;
  if (fabs(mu.eta()) > muonTightEta_)
    result = false;

  return result;
}

photonSelection()

bool ZToMuMuGammaAnalyzer::photonSelection ( const reco::PhotonRef &  p )

private

remove after moriond if (EtCorrEcalIso>4.0) result=false;

remove after moriond if (EtCorrEcalIso>50.0) result=false;

Definition at line 1585 of file ZToMuMuGammaAnalyzer.cc.

References mps_fire::result.

                                                                   {
  bool result = true;
  if (pho->pt() < photonMinEt_)
    result = false;
  if (fabs(pho->eta()) > photonMaxEta_)
    result = false;
  if (pho->isEBEEGap())
    result = false;

  double EtCorrHcalIso = pho->hcalTowerSumEtConeDR03() - 0.005 * pho->pt();
  double EtCorrTrkIso = pho->trkSumPtHollowConeDR03() - 0.002 * pho->pt();

  if (pho->r9() <= 0.9) {
    if (pho->isEB() && (pho->hadTowOverEm() > 0.075 || pho->sigmaIetaIeta() > 0.014))
      result = false;
    if (pho->isEE() && (pho->hadTowOverEm() > 0.075 || pho->sigmaIetaIeta() > 0.034))
      result = false;
    if (EtCorrHcalIso > 4.0)
      result = false;
    if (EtCorrTrkIso > 4.0)
      result = false;
    if (pho->chargedHadronIso() > 4)
      result = false;
  } else {
    if (pho->isEB() && (pho->hadTowOverEm() > 0.082 || pho->sigmaIetaIeta() > 0.014))
      result = false;
    if (pho->isEE() && (pho->hadTowOverEm() > 0.075 || pho->sigmaIetaIeta() > 0.034))
      result = false;
    if (EtCorrHcalIso > 50.0)
      result = false;
    if (EtCorrTrkIso > 50.0)
      result = false;
    if (pho->chargedHadronIso() > 4)
      result = false;
  }
  return result;
}

Member Data Documentation

barrelRecHit_token_

edm::EDGetTokenT<edm::SortedCollection<EcalRecHit, edm::StrictWeakOrdering<EcalRecHit> > > ZToMuMuGammaAnalyzer::barrelRecHit_token_

private

Definition at line 92 of file ZToMuMuGammaAnalyzer.cc.

beamSpot_token_

edm::EDGetTokenT<reco::BeamSpot> ZToMuMuGammaAnalyzer::beamSpot_token_

private

Definition at line 95 of file ZToMuMuGammaAnalyzer.cc.

currentFolder_

std::stringstream ZToMuMuGammaAnalyzer::currentFolder_

private

Definition at line 104 of file ZToMuMuGammaAnalyzer.cc.

eBin_

int ZToMuMuGammaAnalyzer::eBin_

private

Definition at line 137 of file ZToMuMuGammaAnalyzer.cc.

eMax_

double ZToMuMuGammaAnalyzer::eMax_

private

Definition at line 136 of file ZToMuMuGammaAnalyzer.cc.

eMin_

double ZToMuMuGammaAnalyzer::eMin_

private

Definition at line 135 of file ZToMuMuGammaAnalyzer.cc.

endcapRecHit_token_

edm::EDGetTokenT<edm::SortedCollection<EcalRecHit, edm::StrictWeakOrdering<EcalRecHit> > > ZToMuMuGammaAnalyzer::endcapRecHit_token_

private

Definition at line 93 of file ZToMuMuGammaAnalyzer.cc.

etaBin_

int ZToMuMuGammaAnalyzer::etaBin_

private

Definition at line 149 of file ZToMuMuGammaAnalyzer.cc.

etaMax_

double ZToMuMuGammaAnalyzer::etaMax_

private

Definition at line 148 of file ZToMuMuGammaAnalyzer.cc.

etaMin_

double ZToMuMuGammaAnalyzer::etaMin_

private

Definition at line 147 of file ZToMuMuGammaAnalyzer.cc.

etBin_

int ZToMuMuGammaAnalyzer::etBin_

private

Definition at line 141 of file ZToMuMuGammaAnalyzer.cc.

etMax_

double ZToMuMuGammaAnalyzer::etMax_

private

Definition at line 140 of file ZToMuMuGammaAnalyzer.cc.

etMin_

double ZToMuMuGammaAnalyzer::etMin_

private

Definition at line 139 of file ZToMuMuGammaAnalyzer.cc.

farMuonEcalIso_

float ZToMuMuGammaAnalyzer::farMuonEcalIso_

private

Definition at line 128 of file ZToMuMuGammaAnalyzer.cc.

farMuonMinPt_

float ZToMuMuGammaAnalyzer::farMuonMinPt_

private

Definition at line 130 of file ZToMuMuGammaAnalyzer.cc.

farMuonTrackIso_

float ZToMuMuGammaAnalyzer::farMuonTrackIso_

private

Definition at line 129 of file ZToMuMuGammaAnalyzer.cc.

fName_

std::string ZToMuMuGammaAnalyzer::fName_

private

Definition at line 100 of file ZToMuMuGammaAnalyzer.cc.

h1_mumuGammaInvMass_

MonitorElement* ZToMuMuGammaAnalyzer::h1_mumuGammaInvMass_[3]

private

Definition at line 185 of file ZToMuMuGammaAnalyzer.cc.

h1_mumuInvMass_

MonitorElement* ZToMuMuGammaAnalyzer::h1_mumuInvMass_[3]

private

photon histos

Definition at line 184 of file ZToMuMuGammaAnalyzer.cc.

h2_e1x5VsEt_

MonitorElement* ZToMuMuGammaAnalyzer::h2_e1x5VsEt_[3]

private

Definition at line 208 of file ZToMuMuGammaAnalyzer.cc.

h2_e1x5VsEta_

MonitorElement* ZToMuMuGammaAnalyzer::h2_e1x5VsEta_[3]

private

Definition at line 206 of file ZToMuMuGammaAnalyzer.cc.

h2_e2x5VsEt_

MonitorElement* ZToMuMuGammaAnalyzer::h2_e2x5VsEt_[3]

private

Definition at line 214 of file ZToMuMuGammaAnalyzer.cc.

h2_e2x5VsEta_

MonitorElement* ZToMuMuGammaAnalyzer::h2_e2x5VsEta_[3]

private

Definition at line 212 of file ZToMuMuGammaAnalyzer.cc.

h2_ecalSumVsEt_

MonitorElement* ZToMuMuGammaAnalyzer::h2_ecalSumVsEt_[3]

private

Definition at line 258 of file ZToMuMuGammaAnalyzer.cc.

h2_ecalSumVsEta_

MonitorElement* ZToMuMuGammaAnalyzer::h2_ecalSumVsEta_[3]

private

Definition at line 260 of file ZToMuMuGammaAnalyzer.cc.

h2_hcalSumVsEt_

MonitorElement* ZToMuMuGammaAnalyzer::h2_hcalSumVsEt_[3]

private

Definition at line 264 of file ZToMuMuGammaAnalyzer.cc.

h2_hcalSumVsEta_

MonitorElement* ZToMuMuGammaAnalyzer::h2_hcalSumVsEta_[3]

private

Definition at line 266 of file ZToMuMuGammaAnalyzer.cc.

h2_nTrackIsolHollowVsEt_

MonitorElement* ZToMuMuGammaAnalyzer::h2_nTrackIsolHollowVsEt_[3]

private

Definition at line 240 of file ZToMuMuGammaAnalyzer.cc.

h2_nTrackIsolHollowVsEta_

MonitorElement* ZToMuMuGammaAnalyzer::h2_nTrackIsolHollowVsEta_[3]

private

Definition at line 242 of file ZToMuMuGammaAnalyzer.cc.

h2_nTrackIsolSolidVsEt_

MonitorElement* ZToMuMuGammaAnalyzer::h2_nTrackIsolSolidVsEt_[3]

private

Definition at line 234 of file ZToMuMuGammaAnalyzer.cc.

h2_nTrackIsolSolidVsEta_

MonitorElement* ZToMuMuGammaAnalyzer::h2_nTrackIsolSolidVsEta_[3]

private

Definition at line 236 of file ZToMuMuGammaAnalyzer.cc.

h2_r1x5VsEt_

MonitorElement* ZToMuMuGammaAnalyzer::h2_r1x5VsEt_[3]

private

Definition at line 220 of file ZToMuMuGammaAnalyzer.cc.

h2_r1x5VsEta_

MonitorElement* ZToMuMuGammaAnalyzer::h2_r1x5VsEta_[3]

private

Definition at line 218 of file ZToMuMuGammaAnalyzer.cc.

h2_r2x5VsEt_

MonitorElement* ZToMuMuGammaAnalyzer::h2_r2x5VsEt_[3]

private

Definition at line 226 of file ZToMuMuGammaAnalyzer.cc.

h2_r2x5VsEta_

MonitorElement* ZToMuMuGammaAnalyzer::h2_r2x5VsEta_[3]

private

Definition at line 224 of file ZToMuMuGammaAnalyzer.cc.

h2_r9VsEt_

MonitorElement* ZToMuMuGammaAnalyzer::h2_r9VsEt_[3]

private

Definition at line 200 of file ZToMuMuGammaAnalyzer.cc.

h2_r9VsEta_

MonitorElement* ZToMuMuGammaAnalyzer::h2_r9VsEta_[3]

private

Definition at line 202 of file ZToMuMuGammaAnalyzer.cc.

h2_sigmaIetaIetaVsEta_

MonitorElement* ZToMuMuGammaAnalyzer::h2_sigmaIetaIetaVsEta_[3]

private

Definition at line 230 of file ZToMuMuGammaAnalyzer.cc.

h2_trackPtSumHollowVsEt_

MonitorElement* ZToMuMuGammaAnalyzer::h2_trackPtSumHollowVsEt_[3]

private

Definition at line 252 of file ZToMuMuGammaAnalyzer.cc.

h2_trackPtSumHollowVsEta_

MonitorElement* ZToMuMuGammaAnalyzer::h2_trackPtSumHollowVsEta_[3]

private

Definition at line 254 of file ZToMuMuGammaAnalyzer.cc.

h2_trackPtSumSolidVsEt_

MonitorElement* ZToMuMuGammaAnalyzer::h2_trackPtSumSolidVsEt_[3]

private

Definition at line 246 of file ZToMuMuGammaAnalyzer.cc.

h2_trackPtSumSolidVsEta_

MonitorElement* ZToMuMuGammaAnalyzer::h2_trackPtSumSolidVsEta_[3]

private

Definition at line 248 of file ZToMuMuGammaAnalyzer.cc.

h_chHadIso_

MonitorElement* ZToMuMuGammaAnalyzer::h_chHadIso_[3]

private

Definition at line 280 of file ZToMuMuGammaAnalyzer.cc.

h_dRPhoPFcand_ChHad_Cleaned_

MonitorElement* ZToMuMuGammaAnalyzer::h_dRPhoPFcand_ChHad_Cleaned_[3]

private

Definition at line 288 of file ZToMuMuGammaAnalyzer.cc.

h_dRPhoPFcand_ChHad_unCleaned_

MonitorElement* ZToMuMuGammaAnalyzer::h_dRPhoPFcand_ChHad_unCleaned_[3]

private

Definition at line 291 of file ZToMuMuGammaAnalyzer.cc.

h_dRPhoPFcand_NeuHad_Cleaned_

MonitorElement* ZToMuMuGammaAnalyzer::h_dRPhoPFcand_NeuHad_Cleaned_[3]

private

Definition at line 289 of file ZToMuMuGammaAnalyzer.cc.

h_dRPhoPFcand_NeuHad_unCleaned_

MonitorElement* ZToMuMuGammaAnalyzer::h_dRPhoPFcand_NeuHad_unCleaned_[3]

private

Definition at line 292 of file ZToMuMuGammaAnalyzer.cc.

h_dRPhoPFcand_Pho_Cleaned_

MonitorElement* ZToMuMuGammaAnalyzer::h_dRPhoPFcand_Pho_Cleaned_[3]

private

Definition at line 290 of file ZToMuMuGammaAnalyzer.cc.

h_dRPhoPFcand_Pho_unCleaned_

MonitorElement* ZToMuMuGammaAnalyzer::h_dRPhoPFcand_Pho_unCleaned_[3]

private

Definition at line 293 of file ZToMuMuGammaAnalyzer.cc.

h_e1x5_

MonitorElement* ZToMuMuGammaAnalyzer::h_e1x5_[3]

private

Definition at line 205 of file ZToMuMuGammaAnalyzer.cc.

h_e2x5_

MonitorElement* ZToMuMuGammaAnalyzer::h_e2x5_[3]

private

Definition at line 211 of file ZToMuMuGammaAnalyzer.cc.

h_ecalSum_

MonitorElement* ZToMuMuGammaAnalyzer::h_ecalSum_[3]

private

Definition at line 257 of file ZToMuMuGammaAnalyzer.cc.

h_etOutsideMustache_

MonitorElement* ZToMuMuGammaAnalyzer::h_etOutsideMustache_[3]

private

Definition at line 285 of file ZToMuMuGammaAnalyzer.cc.

h_h1OverE_

MonitorElement* ZToMuMuGammaAnalyzer::h_h1OverE_[3]

private

Definition at line 272 of file ZToMuMuGammaAnalyzer.cc.

h_h2OverE_

MonitorElement* ZToMuMuGammaAnalyzer::h_h2OverE_[3]

private

Definition at line 273 of file ZToMuMuGammaAnalyzer.cc.

h_hcalSum_

MonitorElement* ZToMuMuGammaAnalyzer::h_hcalSum_[3]

private

Definition at line 263 of file ZToMuMuGammaAnalyzer.cc.

h_hOverE_

MonitorElement* ZToMuMuGammaAnalyzer::h_hOverE_[3]

private

Definition at line 269 of file ZToMuMuGammaAnalyzer.cc.

h_nCluOutsideMustache_

MonitorElement* ZToMuMuGammaAnalyzer::h_nCluOutsideMustache_[3]

private

Definition at line 284 of file ZToMuMuGammaAnalyzer.cc.

h_newhOverE_

MonitorElement* ZToMuMuGammaAnalyzer::h_newhOverE_[3]

private

Definition at line 275 of file ZToMuMuGammaAnalyzer.cc.

h_nHadIso_

MonitorElement* ZToMuMuGammaAnalyzer::h_nHadIso_[3]

private

Definition at line 281 of file ZToMuMuGammaAnalyzer.cc.

h_nPho_

MonitorElement* ZToMuMuGammaAnalyzer::h_nPho_[3]

private

Definition at line 192 of file ZToMuMuGammaAnalyzer.cc.

h_nRecoVtx_

MonitorElement* ZToMuMuGammaAnalyzer::h_nRecoVtx_

private

Definition at line 182 of file ZToMuMuGammaAnalyzer.cc.

h_nTrackIsolHollow_

MonitorElement* ZToMuMuGammaAnalyzer::h_nTrackIsolHollow_[3]

private

Definition at line 239 of file ZToMuMuGammaAnalyzer.cc.

h_nTrackIsolSolid_

MonitorElement* ZToMuMuGammaAnalyzer::h_nTrackIsolSolid_[3]

private

Definition at line 233 of file ZToMuMuGammaAnalyzer.cc.

h_pfMva_

MonitorElement* ZToMuMuGammaAnalyzer::h_pfMva_[3]

private

Definition at line 286 of file ZToMuMuGammaAnalyzer.cc.

h_phoE_

MonitorElement* ZToMuMuGammaAnalyzer::h_phoE_[3]

private

Definition at line 187 of file ZToMuMuGammaAnalyzer.cc.

h_phoEt_

MonitorElement* ZToMuMuGammaAnalyzer::h_phoEt_[3]

private

Definition at line 190 of file ZToMuMuGammaAnalyzer.cc.

h_phoEta_

MonitorElement* ZToMuMuGammaAnalyzer::h_phoEta_[3]

private

Definition at line 194 of file ZToMuMuGammaAnalyzer.cc.

h_phoIso_

MonitorElement* ZToMuMuGammaAnalyzer::h_phoIso_[3]

private

Definition at line 282 of file ZToMuMuGammaAnalyzer.cc.

h_phoPhi_

MonitorElement* ZToMuMuGammaAnalyzer::h_phoPhi_[3]

private

Definition at line 195 of file ZToMuMuGammaAnalyzer.cc.

h_phoSigmaEoverE_

MonitorElement* ZToMuMuGammaAnalyzer::h_phoSigmaEoverE_[3]

private

Definition at line 188 of file ZToMuMuGammaAnalyzer.cc.

h_phoSigmaIetaIeta_

MonitorElement* ZToMuMuGammaAnalyzer::h_phoSigmaIetaIeta_[3]

private

Definition at line 229 of file ZToMuMuGammaAnalyzer.cc.

h_r1x5_

MonitorElement* ZToMuMuGammaAnalyzer::h_r1x5_[3]

private

Definition at line 217 of file ZToMuMuGammaAnalyzer.cc.

h_r2x5_

MonitorElement* ZToMuMuGammaAnalyzer::h_r2x5_[3]

private

Definition at line 223 of file ZToMuMuGammaAnalyzer.cc.

h_r9_

MonitorElement* ZToMuMuGammaAnalyzer::h_r9_[3]

private

Definition at line 199 of file ZToMuMuGammaAnalyzer.cc.

h_scEta_

MonitorElement* ZToMuMuGammaAnalyzer::h_scEta_[3]

private

Definition at line 196 of file ZToMuMuGammaAnalyzer.cc.

h_scPhi_

MonitorElement* ZToMuMuGammaAnalyzer::h_scPhi_[3]

private

Definition at line 197 of file ZToMuMuGammaAnalyzer.cc.

h_SumPtOverPhoPt_ChHad_Cleaned_

MonitorElement* ZToMuMuGammaAnalyzer::h_SumPtOverPhoPt_ChHad_Cleaned_[3]

private

Definition at line 294 of file ZToMuMuGammaAnalyzer.cc.

h_SumPtOverPhoPt_ChHad_unCleaned_

MonitorElement* ZToMuMuGammaAnalyzer::h_SumPtOverPhoPt_ChHad_unCleaned_[3]

private

Definition at line 297 of file ZToMuMuGammaAnalyzer.cc.

h_SumPtOverPhoPt_NeuHad_Cleaned_

MonitorElement* ZToMuMuGammaAnalyzer::h_SumPtOverPhoPt_NeuHad_Cleaned_[3]

private

Definition at line 295 of file ZToMuMuGammaAnalyzer.cc.

h_SumPtOverPhoPt_NeuHad_unCleaned_

MonitorElement* ZToMuMuGammaAnalyzer::h_SumPtOverPhoPt_NeuHad_unCleaned_[3]

private

Definition at line 298 of file ZToMuMuGammaAnalyzer.cc.

h_SumPtOverPhoPt_Pho_Cleaned_

MonitorElement* ZToMuMuGammaAnalyzer::h_SumPtOverPhoPt_Pho_Cleaned_[3]

private

Definition at line 296 of file ZToMuMuGammaAnalyzer.cc.

h_SumPtOverPhoPt_Pho_unCleaned_

MonitorElement* ZToMuMuGammaAnalyzer::h_SumPtOverPhoPt_Pho_unCleaned_[3]

private

Definition at line 299 of file ZToMuMuGammaAnalyzer.cc.

h_trackPtSumHollow_

MonitorElement* ZToMuMuGammaAnalyzer::h_trackPtSumHollow_[3]

private

Definition at line 251 of file ZToMuMuGammaAnalyzer.cc.

h_trackPtSumSolid_

MonitorElement* ZToMuMuGammaAnalyzer::h_trackPtSumSolid_[3]

private

Definition at line 245 of file ZToMuMuGammaAnalyzer.cc.

hOverEBin_

int ZToMuMuGammaAnalyzer::hOverEBin_

private

Definition at line 161 of file ZToMuMuGammaAnalyzer.cc.

hOverEMax_

double ZToMuMuGammaAnalyzer::hOverEMax_

private

Definition at line 160 of file ZToMuMuGammaAnalyzer.cc.

hOverEMin_

double ZToMuMuGammaAnalyzer::hOverEMin_

private

Definition at line 159 of file ZToMuMuGammaAnalyzer.cc.

makeProfiles_

bool ZToMuMuGammaAnalyzer::makeProfiles_

private

Definition at line 102 of file ZToMuMuGammaAnalyzer.cc.

maxMumuGammaInvMass_

float ZToMuMuGammaAnalyzer::maxMumuGammaInvMass_

private

Definition at line 132 of file ZToMuMuGammaAnalyzer.cc.

maxMumuInvMass_

float ZToMuMuGammaAnalyzer::maxMumuInvMass_

private

Definition at line 119 of file ZToMuMuGammaAnalyzer.cc.

minMumuGammaInvMass_

float ZToMuMuGammaAnalyzer::minMumuGammaInvMass_

private

Definition at line 131 of file ZToMuMuGammaAnalyzer.cc.

minMumuInvMass_

float ZToMuMuGammaAnalyzer::minMumuInvMass_

private

Definition at line 118 of file ZToMuMuGammaAnalyzer.cc.

minPixStripHits_

int ZToMuMuGammaAnalyzer::minPixStripHits_

private

Definition at line 109 of file ZToMuMuGammaAnalyzer.cc.

muon_token_

edm::EDGetTokenT<std::vector<reco::Muon> > ZToMuMuGammaAnalyzer::muon_token_

private

Definition at line 89 of file ZToMuMuGammaAnalyzer.cc.

muonMatches_

int ZToMuMuGammaAnalyzer::muonMatches_

private

Definition at line 112 of file ZToMuMuGammaAnalyzer.cc.

muonMaxChi2_

float ZToMuMuGammaAnalyzer::muonMaxChi2_

private

Definition at line 110 of file ZToMuMuGammaAnalyzer.cc.

muonMaxDxy_

float ZToMuMuGammaAnalyzer::muonMaxDxy_

private

Definition at line 111 of file ZToMuMuGammaAnalyzer.cc.

muonMinPt_

float ZToMuMuGammaAnalyzer::muonMinPt_

private

Definition at line 108 of file ZToMuMuGammaAnalyzer.cc.

muonTightEta_

float ZToMuMuGammaAnalyzer::muonTightEta_

private

Definition at line 116 of file ZToMuMuGammaAnalyzer.cc.

muonTrackIso_

float ZToMuMuGammaAnalyzer::muonTrackIso_

private

Definition at line 115 of file ZToMuMuGammaAnalyzer.cc.

nearMuonDr2_

float ZToMuMuGammaAnalyzer::nearMuonDr2_

private

Definition at line 126 of file ZToMuMuGammaAnalyzer.cc.

nearMuonHcalIso_

float ZToMuMuGammaAnalyzer::nearMuonHcalIso_

private

Definition at line 127 of file ZToMuMuGammaAnalyzer.cc.

nEvt_

int ZToMuMuGammaAnalyzer::nEvt_

private

Definition at line 105 of file ZToMuMuGammaAnalyzer.cc.

numberBin_

int ZToMuMuGammaAnalyzer::numberBin_

private

Definition at line 165 of file ZToMuMuGammaAnalyzer.cc.

numberMax_

double ZToMuMuGammaAnalyzer::numberMax_

private

Definition at line 164 of file ZToMuMuGammaAnalyzer.cc.

numberMin_

double ZToMuMuGammaAnalyzer::numberMin_

private

Definition at line 163 of file ZToMuMuGammaAnalyzer.cc.

offline_pvToken_

edm::EDGetTokenT<reco::VertexCollection> ZToMuMuGammaAnalyzer::offline_pvToken_

private

Definition at line 97 of file ZToMuMuGammaAnalyzer.cc.

p_e1x5VsEt_

MonitorElement* ZToMuMuGammaAnalyzer::p_e1x5VsEt_[3]

private

Definition at line 209 of file ZToMuMuGammaAnalyzer.cc.

p_e1x5VsEta_

MonitorElement* ZToMuMuGammaAnalyzer::p_e1x5VsEta_[3]

private

Definition at line 207 of file ZToMuMuGammaAnalyzer.cc.

p_e2x5VsEt_

MonitorElement* ZToMuMuGammaAnalyzer::p_e2x5VsEt_[3]

private

Definition at line 215 of file ZToMuMuGammaAnalyzer.cc.

p_e2x5VsEta_

MonitorElement* ZToMuMuGammaAnalyzer::p_e2x5VsEta_[3]

private

Definition at line 213 of file ZToMuMuGammaAnalyzer.cc.

p_ecalSumVsEt_

MonitorElement* ZToMuMuGammaAnalyzer::p_ecalSumVsEt_[3]

private

Definition at line 259 of file ZToMuMuGammaAnalyzer.cc.

p_ecalSumVsEta_

MonitorElement* ZToMuMuGammaAnalyzer::p_ecalSumVsEta_[3]

private

Definition at line 261 of file ZToMuMuGammaAnalyzer.cc.

p_hcalSumVsEt_

MonitorElement* ZToMuMuGammaAnalyzer::p_hcalSumVsEt_[3]

private

Definition at line 265 of file ZToMuMuGammaAnalyzer.cc.

p_hcalSumVsEta_

MonitorElement* ZToMuMuGammaAnalyzer::p_hcalSumVsEta_[3]

private

Definition at line 267 of file ZToMuMuGammaAnalyzer.cc.

p_hOverEVsEt_

MonitorElement* ZToMuMuGammaAnalyzer::p_hOverEVsEt_[3]

private

Definition at line 270 of file ZToMuMuGammaAnalyzer.cc.

p_hOverEVsEta_

MonitorElement* ZToMuMuGammaAnalyzer::p_hOverEVsEta_[3]

private

Definition at line 271 of file ZToMuMuGammaAnalyzer.cc.

p_newhOverEVsEt_

MonitorElement* ZToMuMuGammaAnalyzer::p_newhOverEVsEt_[3]

private

Definition at line 277 of file ZToMuMuGammaAnalyzer.cc.

p_newhOverEVsEta_

MonitorElement* ZToMuMuGammaAnalyzer::p_newhOverEVsEta_[3]

private

Definition at line 276 of file ZToMuMuGammaAnalyzer.cc.

p_nTrackIsolHollowVsEt_

MonitorElement* ZToMuMuGammaAnalyzer::p_nTrackIsolHollowVsEt_[3]

private

Definition at line 241 of file ZToMuMuGammaAnalyzer.cc.

p_nTrackIsolHollowVsEta_

MonitorElement* ZToMuMuGammaAnalyzer::p_nTrackIsolHollowVsEta_[3]

private

Definition at line 243 of file ZToMuMuGammaAnalyzer.cc.

p_nTrackIsolSolidVsEt_

MonitorElement* ZToMuMuGammaAnalyzer::p_nTrackIsolSolidVsEt_[3]

private

Definition at line 235 of file ZToMuMuGammaAnalyzer.cc.

p_nTrackIsolSolidVsEta_

MonitorElement* ZToMuMuGammaAnalyzer::p_nTrackIsolSolidVsEta_[3]

private

Definition at line 237 of file ZToMuMuGammaAnalyzer.cc.

p_phoSigmaEoverEVsNVtx_

MonitorElement* ZToMuMuGammaAnalyzer::p_phoSigmaEoverEVsNVtx_[3]

private

Definition at line 189 of file ZToMuMuGammaAnalyzer.cc.

p_r1x5VsEt_

MonitorElement* ZToMuMuGammaAnalyzer::p_r1x5VsEt_[3]

private

Definition at line 221 of file ZToMuMuGammaAnalyzer.cc.

p_r1x5VsEta_

MonitorElement* ZToMuMuGammaAnalyzer::p_r1x5VsEta_[3]

private

Definition at line 219 of file ZToMuMuGammaAnalyzer.cc.

p_r2x5VsEt_

MonitorElement* ZToMuMuGammaAnalyzer::p_r2x5VsEt_[3]

private

Definition at line 227 of file ZToMuMuGammaAnalyzer.cc.

p_r2x5VsEta_

MonitorElement* ZToMuMuGammaAnalyzer::p_r2x5VsEta_[3]

private

Definition at line 225 of file ZToMuMuGammaAnalyzer.cc.

p_r9VsEt_

MonitorElement* ZToMuMuGammaAnalyzer::p_r9VsEt_[3]

private

Definition at line 201 of file ZToMuMuGammaAnalyzer.cc.

p_r9VsEta_

MonitorElement* ZToMuMuGammaAnalyzer::p_r9VsEta_[3]

private

Definition at line 203 of file ZToMuMuGammaAnalyzer.cc.

p_sigmaIetaIetaVsEta_

MonitorElement* ZToMuMuGammaAnalyzer::p_sigmaIetaIetaVsEta_[3]

private

Definition at line 231 of file ZToMuMuGammaAnalyzer.cc.

p_trackPtSumHollowVsEt_

MonitorElement* ZToMuMuGammaAnalyzer::p_trackPtSumHollowVsEt_[3]

private

Definition at line 253 of file ZToMuMuGammaAnalyzer.cc.

p_trackPtSumHollowVsEta_

MonitorElement* ZToMuMuGammaAnalyzer::p_trackPtSumHollowVsEta_[3]

private

Definition at line 255 of file ZToMuMuGammaAnalyzer.cc.

p_trackPtSumSolidVsEt_

MonitorElement* ZToMuMuGammaAnalyzer::p_trackPtSumSolidVsEt_[3]

private

Definition at line 247 of file ZToMuMuGammaAnalyzer.cc.

p_trackPtSumSolidVsEta_

MonitorElement* ZToMuMuGammaAnalyzer::p_trackPtSumSolidVsEta_[3]

private

Definition at line 249 of file ZToMuMuGammaAnalyzer.cc.

pfCandidates_

edm::EDGetTokenT<reco::PFCandidateCollection> ZToMuMuGammaAnalyzer::pfCandidates_

private

Definition at line 96 of file ZToMuMuGammaAnalyzer.cc.

phiBin_

int ZToMuMuGammaAnalyzer::phiBin_

private

Definition at line 153 of file ZToMuMuGammaAnalyzer.cc.

phiMax_

double ZToMuMuGammaAnalyzer::phiMax_

private

Definition at line 152 of file ZToMuMuGammaAnalyzer.cc.

phiMin_

double ZToMuMuGammaAnalyzer::phiMin_

private

Definition at line 151 of file ZToMuMuGammaAnalyzer.cc.

photon_token_

edm::EDGetTokenT<std::vector<reco::Photon> > ZToMuMuGammaAnalyzer::photon_token_

private

Definition at line 88 of file ZToMuMuGammaAnalyzer.cc.

PhotonIDLoose_token_

edm::EDGetTokenT<edm::ValueMap<bool> > ZToMuMuGammaAnalyzer::PhotonIDLoose_token_

private

Definition at line 90 of file ZToMuMuGammaAnalyzer.cc.

PhotonIDTight_token_

edm::EDGetTokenT<edm::ValueMap<bool> > ZToMuMuGammaAnalyzer::PhotonIDTight_token_

private

Definition at line 91 of file ZToMuMuGammaAnalyzer.cc.

photonIsoValmap_token_

edm::EDGetTokenT<edm::ValueMap<std::vector<reco::PFCandidateRef> > > ZToMuMuGammaAnalyzer::photonIsoValmap_token_

private

Definition at line 98 of file ZToMuMuGammaAnalyzer.cc.

photonMaxEta_

float ZToMuMuGammaAnalyzer::photonMaxEta_

private

Definition at line 122 of file ZToMuMuGammaAnalyzer.cc.

photonMinEt_

float ZToMuMuGammaAnalyzer::photonMinEt_

private

Definition at line 121 of file ZToMuMuGammaAnalyzer.cc.

photonTrackIso_

float ZToMuMuGammaAnalyzer::photonTrackIso_

private

Definition at line 123 of file ZToMuMuGammaAnalyzer.cc.

prescaleFactor_

unsigned int ZToMuMuGammaAnalyzer::prescaleFactor_

private

Definition at line 103 of file ZToMuMuGammaAnalyzer.cc.

r9Bin_

int ZToMuMuGammaAnalyzer::r9Bin_

private

Definition at line 157 of file ZToMuMuGammaAnalyzer.cc.

r9Max_

double ZToMuMuGammaAnalyzer::r9Max_

private

Definition at line 156 of file ZToMuMuGammaAnalyzer.cc.

r9Min_

double ZToMuMuGammaAnalyzer::r9Min_

private

Definition at line 155 of file ZToMuMuGammaAnalyzer.cc.

reducedEtaBin_

int ZToMuMuGammaAnalyzer::reducedEtaBin_

private

Definition at line 172 of file ZToMuMuGammaAnalyzer.cc.

reducedEtBin_

int ZToMuMuGammaAnalyzer::reducedEtBin_

private

Definition at line 171 of file ZToMuMuGammaAnalyzer.cc.

reducedR9Bin_

int ZToMuMuGammaAnalyzer::reducedR9Bin_

private

Definition at line 174 of file ZToMuMuGammaAnalyzer.cc.

reducedSumBin_

int ZToMuMuGammaAnalyzer::reducedSumBin_

private

Definition at line 173 of file ZToMuMuGammaAnalyzer.cc.

sigmaIetaBin_

int ZToMuMuGammaAnalyzer::sigmaIetaBin_

private

Definition at line 169 of file ZToMuMuGammaAnalyzer.cc.

sigmaIetaMax_

double ZToMuMuGammaAnalyzer::sigmaIetaMax_

private

Definition at line 168 of file ZToMuMuGammaAnalyzer.cc.

sigmaIetaMin_

double ZToMuMuGammaAnalyzer::sigmaIetaMin_

private

Definition at line 167 of file ZToMuMuGammaAnalyzer.cc.

sumBin_

int ZToMuMuGammaAnalyzer::sumBin_

private

Definition at line 145 of file ZToMuMuGammaAnalyzer.cc.

sumMax_

double ZToMuMuGammaAnalyzer::sumMax_

private

Definition at line 144 of file ZToMuMuGammaAnalyzer.cc.

sumMin_

double ZToMuMuGammaAnalyzer::sumMin_

private

Definition at line 143 of file ZToMuMuGammaAnalyzer.cc.

triggerEvent_token_

edm::EDGetTokenT<trigger::TriggerEvent> ZToMuMuGammaAnalyzer::triggerEvent_token_

private

Definition at line 94 of file ZToMuMuGammaAnalyzer.cc.

use2DHistos_

bool ZToMuMuGammaAnalyzer::use2DHistos_

private

Definition at line 101 of file ZToMuMuGammaAnalyzer.cc.

validMuonHits_

int ZToMuMuGammaAnalyzer::validMuonHits_

private

Definition at line 114 of file ZToMuMuGammaAnalyzer.cc.

validPixHits_

int ZToMuMuGammaAnalyzer::validPixHits_

private

Definition at line 113 of file ZToMuMuGammaAnalyzer.cc.