#include <RecoMuonValidator.h>

Inheritance diagram for RecoMuonValidator:

Classes
struct	CommonME
struct	MuonME
Public Member Functions
virtual void	analyze (const edm::Event &event, const edm::EventSetup &eventSetup)
virtual void	beginRun (const edm::Run &, const edm::EventSetup &eventSetup)
virtual int	countMuonHits (const reco::Track &track) const
virtual int	countTrackerHits (const reco::Track &track) const
virtual void	endRun ()
	RecoMuonValidator (const edm::ParameterSet &pset)
	~RecoMuonValidator ()
Protected Attributes
const MuonAssociatorByHits *	assoByHits
edm::InputTag	beamspotLabel_
CommonME *	commonME_
bool	doAbsEta_
bool	doAssoc_
edm::InputTag	muAssocLabel_
edm::InputTag	muonLabel_
MuonME *	muonME_
std::string	muonSelection_
std::string	outputFileName_
edm::InputTag	primvertexLabel_
edm::InputTag	simLabel_
std::string	subDir_
DQMStore *	theDQM
MuonServiceProxy *	theMuonService
TrackingParticleSelector	tpSelector_
MuonAssociatorByHits::MuonTrackType	trackType_
bool	usePFMuon_
unsigned int	verbose_
Private Attributes
StringCutObjectSelector < reco::Muon >	selector_
bool	wantTightMuon_

Detailed Description

Definition at line 25 of file RecoMuonValidator.h.

Constructor & Destructor Documentation

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

Definition at line 469 of file RecoMuonValidator.cc.

                                                            :
    selector_(pset.getParameter<std::string>("selection"))
{

  verbose_ = pset.getUntrackedParameter<unsigned int>("verbose", 0);

  outputFileName_ = pset.getUntrackedParameter<string>("outputFileName", "");

  wantTightMuon_ = pset.getParameter<bool>("wantTightMuon");
  beamspotLabel_ = pset.getParameter< edm::InputTag >("beamSpot");
  primvertexLabel_ = pset.getParameter< edm::InputTag >("primaryVertex");

  // Set histogram dimensions from config
  HistoDimensions hDim;
  
  hDim.nBinP = pset.getUntrackedParameter<unsigned int>("nBinP");
  hDim.minP = pset.getUntrackedParameter<double>("minP");
  hDim.maxP = pset.getUntrackedParameter<double>("maxP");

  hDim.nBinPt = pset.getUntrackedParameter<unsigned int>("nBinPt");
  hDim.minPt = pset.getUntrackedParameter<double>("minPt");
  hDim.maxPt = pset.getUntrackedParameter<double>("maxPt");

  doAbsEta_ = pset.getUntrackedParameter<bool>("doAbsEta");
  hDim.doAbsEta = doAbsEta_;
  hDim.nBinEta  = pset.getUntrackedParameter<unsigned int>("nBinEta");
  hDim.minEta = pset.getUntrackedParameter<double>("minEta");
  hDim.maxEta = pset.getUntrackedParameter<double>("maxEta");

  hDim.nBinDxy  = pset.getUntrackedParameter<unsigned int>("nBinDxy");
  hDim.minDxy = pset.getUntrackedParameter<double>("minDxy");
  hDim.maxDxy = pset.getUntrackedParameter<double>("maxDxy");

  hDim.nBinDz  = pset.getUntrackedParameter<unsigned int>("nBinDz");
  hDim.minDz = pset.getUntrackedParameter<double>("minDz");
  hDim.maxDz = pset.getUntrackedParameter<double>("maxDz");

  hDim.nBinPhi  = pset.getUntrackedParameter<unsigned int>("nBinPhi");
  hDim.minPhi = pset.getUntrackedParameter<double>("minPhi", -TMath::Pi());
  hDim.maxPhi = pset.getUntrackedParameter<double>("maxPhi",  TMath::Pi());

  hDim.nBinErr  = pset.getUntrackedParameter<unsigned int>("nBinErr");
  hDim.nBinPull = pset.getUntrackedParameter<unsigned int>("nBinPull");

  hDim.wPull = pset.getUntrackedParameter<double>("wPull");

  hDim.minErrP = pset.getUntrackedParameter<double>("minErrP");
  hDim.maxErrP = pset.getUntrackedParameter<double>("maxErrP");

  hDim.minErrPt = pset.getUntrackedParameter<double>("minErrPt");
  hDim.maxErrPt = pset.getUntrackedParameter<double>("maxErrPt");

  hDim.minErrQPt = pset.getUntrackedParameter<double>("minErrQPt");
  hDim.maxErrQPt = pset.getUntrackedParameter<double>("maxErrQPt");

  hDim.minErrEta = pset.getUntrackedParameter<double>("minErrEta");
  hDim.maxErrEta = pset.getUntrackedParameter<double>("maxErrEta");

  hDim.minErrPhi = pset.getUntrackedParameter<double>("minErrPhi");
  hDim.maxErrPhi = pset.getUntrackedParameter<double>("maxErrPhi");

  hDim.minErrDxy = pset.getUntrackedParameter<double>("minErrDxy");
  hDim.maxErrDxy = pset.getUntrackedParameter<double>("maxErrDxy");

  hDim.minErrDz  = pset.getUntrackedParameter<double>("minErrDz" );
  hDim.maxErrDz  = pset.getUntrackedParameter<double>("maxErrDz" );

  hDim.nTrks = pset.getUntrackedParameter<unsigned int>("nTrks");
  hDim.nAssoc = pset.getUntrackedParameter<unsigned int>("nAssoc");
  hDim.nDof = pset.getUntrackedParameter<unsigned int>("nDof", 55);

  // Labels for simulation and reconstruction tracks
  simLabel_  = pset.getParameter<InputTag>("simLabel" );
  muonLabel_ = pset.getParameter<InputTag>("muonLabel");

  // Labels for sim-reco association
  doAssoc_ = pset.getUntrackedParameter<bool>("doAssoc", true);
  muAssocLabel_ = pset.getParameter<InputTag>("muAssocLabel");

  // Different momentum assignment and additional histos in case of PF muons
  usePFMuon_ = pset.getUntrackedParameter<bool>("usePFMuon");
  hDim.usePFMuon = usePFMuon_;

  //type of track
  std::string trackType = pset.getParameter< std::string >("trackType");
  if (trackType == "inner") trackType_ = MuonAssociatorByHits::InnerTk;
  else if (trackType == "outer") trackType_ = MuonAssociatorByHits::OuterTk;
  else if (trackType == "global") trackType_ = MuonAssociatorByHits::GlobalTk;
  else if (trackType == "segments") trackType_ = MuonAssociatorByHits::Segments;
  else throw cms::Exception("Configuration") << "Track type '" << trackType << "' not supported.\n";

//  seedPropagatorName_ = pset.getParameter<string>("SeedPropagator");

  ParameterSet tpset = pset.getParameter<ParameterSet>("tpSelector");
  tpSelector_ = TrackingParticleSelector(tpset.getParameter<double>("ptMin"),
                                         tpset.getParameter<double>("minRapidity"),
                                         tpset.getParameter<double>("maxRapidity"),
                                         tpset.getParameter<double>("tip"),
                                         tpset.getParameter<double>("lip"),
                                         tpset.getParameter<int>("minHit"),
                                         tpset.getParameter<bool>("signalOnly"),
                                         tpset.getParameter<bool>("chargedOnly"),
                                         tpset.getParameter<bool>("stableOnly"),
                                         tpset.getParameter<std::vector<int> >("pdgId"));

  // the service parameters
  ParameterSet serviceParameters 
    = pset.getParameter<ParameterSet>("ServiceParameters");
  theMuonService = new MuonServiceProxy(serviceParameters);

  // retrieve the instance of DQMService
  theDQM = 0;
  theDQM = Service<DQMStore>().operator->();

  if ( ! theDQM ) {
    LogError("RecoMuonValidator") << "DQMService not initialized\n";
    return;
  }

  subDir_ = pset.getUntrackedParameter<string>("subDir");
  if ( subDir_.empty() ) subDir_ = "RecoMuonV";
  if ( subDir_[subDir_.size()-1] == '/' ) subDir_.erase(subDir_.size()-1);

  // book histograms
  theDQM->cd();

  theDQM->setCurrentFolder(subDir_);

  commonME_ = new CommonME;
  muonME_  = new MuonME;

  //commonME
  const int nHits = 100;

  // - diffs
  commonME_->hTrkToGlbDiffNTrackerHits_ = theDQM->book1D("TrkGlbDiffNTrackerHits", "Difference of number of tracker hits (tkMuon - globalMuon)", 2*nHits+1, -nHits-0.5, nHits+0.5);
  commonME_->hStaToGlbDiffNMuonHits_ = theDQM->book1D("StaGlbDiffNMuonHits", "Difference of number of muon hits (staMuon - globalMuon)", 2*nHits+1, -nHits-0.5, nHits+0.5);

  commonME_->hTrkToGlbDiffNTrackerHitsEta_ = theDQM->book2D("TrkGlbDiffNTrackerHitsEta", "Difference of number of tracker hits (tkMuon - globalMuon)", hDim.nBinEta, hDim.minEta, hDim.maxEta,2*nHits+1, -nHits-0.5, nHits+0.5);
  commonME_->hStaToGlbDiffNMuonHitsEta_ = theDQM->book2D("StaGlbDiffNMuonHitsEta", "Difference of number of muon hits (staMuon - globalMuon)", hDim.nBinEta, hDim.minEta, hDim.maxEta,2*nHits+1, -nHits-0.5, nHits+0.5);

  commonME_->hTrkToGlbDiffNTrackerHitsPt_ = theDQM->book2D("TrkGlbDiffNTrackerHitsPt", "Difference of number of tracker hits (tkMuon - globalMuon)", hDim.nBinPt, hDim.minPt, hDim.maxPt,2*nHits+1, -nHits-0.5, nHits+0.5);
  commonME_->hStaToGlbDiffNMuonHitsPt_ = theDQM->book2D("StaGlbDiffNMuonHitsPt", "Difference of number of muon hits (staMuon - globalMuon)", hDim.nBinPt, hDim.minPt, hDim.maxPt,2*nHits+1, -nHits-0.5, nHits+0.5);

  // -global muon hit pattern
  commonME_->hNInvalidHitsGTHitPattern_ = theDQM->book1D("NInvalidHitsGTHitPattern", "Number of invalid hits on a global track", nHits+1, -0.5, nHits+0.5);
  commonME_->hNInvalidHitsITHitPattern_ = theDQM->book1D("NInvalidHitsITHitPattern", "Number of invalid hits on an inner track", nHits+1, -0.5, nHits+0.5);
  commonME_->hNInvalidHitsOTHitPattern_ = theDQM->book1D("NInvalidHitsOTHitPattern", "Number of invalid hits on an outer track", nHits+1, -0.5, nHits+0.5);
  commonME_->hNDeltaInvalidHitsHitPattern_ = theDQM->book1D("hNDeltaInvalidHitsHitPattern", "The discrepancy for Number of invalid hits on an global track and inner and outer tracks", 2*nHits+1, -nHits-0.5, nHits+0.5);

  //muon based kinematics
  commonME_->hMuonP_   = theDQM->book1D("PMuon"  , "p of muon"    , hDim.nBinP  , hDim.minP  , hDim.maxP  );
  commonME_->hMuonPt_  = theDQM->book1D("PtMuon" , "p_{T} of muon", hDim.nBinPt , hDim.minPt , hDim.maxPt );
  commonME_->hMuonEta_ = theDQM->book1D("EtaMuon", "#eta of muon" , hDim.nBinEta, hDim.minEta, hDim.maxEta);
  commonME_->hMuonPhi_ = theDQM->book1D("PhiMuon", "#phi of muon" , hDim.nBinPhi, hDim.minPhi, hDim.maxPhi);
  //track based kinematics
  commonME_->hMuonTrackP_   = theDQM->book1D("PMuonTrack"  , "p of reco muon track"    , hDim.nBinP  , hDim.minP  , hDim.maxP  );
  commonME_->hMuonTrackPt_  = theDQM->book1D("PtMuonTrack" , "p_{T} of reco muon track", hDim.nBinPt , hDim.minPt , hDim.maxPt );
  commonME_->hMuonTrackEta_ = theDQM->book1D("EtaMuonTrack", "#eta of reco muon track" , hDim.nBinEta, hDim.minEta, hDim.maxEta);
  commonME_->hMuonTrackPhi_ = theDQM->book1D("PhiMuonTrack", "#phi of reco muon track" , hDim.nBinPhi, hDim.minPhi, hDim.maxPhi);
  commonME_->hMuonTrackDxy_ = theDQM->book1D("DxyMuonTrack", "Dxy of reco muon track" , hDim.nBinDxy, hDim.minDxy, hDim.maxDxy);
  commonME_->hMuonTrackDz_ = theDQM->book1D("DzMuonTrack", "Dz of reco muon track" , hDim.nBinDz, hDim.minDz, hDim.maxDz);

  //histograms for fractions
  commonME_->hMuonAllP_   = theDQM->book1D("PMuonAll"  , "p of muons of all types"    , hDim.nBinP  , hDim.minP  , hDim.maxP  );
  commonME_->hMuonAllPt_  = theDQM->book1D("PtMuonAll" , "p_{T} of muon of all types", hDim.nBinPt , hDim.minPt , hDim.maxPt );
  commonME_->hMuonAllEta_ = theDQM->book1D("EtaMuonAll", "#eta of muon of all types" , hDim.nBinEta, hDim.minEta, hDim.maxEta);
  commonME_->hMuonAllPhi_ = theDQM->book1D("PhiMuonAll", "#phi of muon of all types" , hDim.nBinPhi, hDim.minPhi, hDim.maxPhi);

  muonME_->bookHistograms(theDQM, subDir_, hDim);

  if ( verbose_ > 0 ) theDQM->showDirStructure();
}

RecoMuonValidator::~RecoMuonValidator ( )

Definition at line 646 of file RecoMuonValidator.cc.

References theMuonService.

{
  if ( theMuonService ) delete theMuonService;
}

Member Function Documentation

void RecoMuonValidator::analyze	(	const edm::Event &	event,
		const edm::EventSetup &	eventSetup
	)		`[virtual]`

Implements edm::EDAnalyzer.

Definition at line 678 of file RecoMuonValidator.cc.

{
  if ( ! theDQM ) {
    LogError("RecoMuonValidator") << "DQMService not initialized\n";
    return;
  }

  // Look for the Primary Vertex (and use the BeamSpot instead, if you can't find it):
  reco::Vertex::Point posVtx;
  reco::Vertex::Error errVtx;
  edm::Handle<reco::VertexCollection> recVtxs;
  event.getByLabel(primvertexLabel_,recVtxs);
  unsigned int theIndexOfThePrimaryVertex = 999.;
  for (unsigned int ind=0; ind<recVtxs->size(); ++ind) {
    if ( (*recVtxs)[ind].isValid() && !((*recVtxs)[ind].isFake()) ) {
      theIndexOfThePrimaryVertex = ind;
      break;
    }
  }
  if (theIndexOfThePrimaryVertex<100) {
    posVtx = ((*recVtxs)[theIndexOfThePrimaryVertex]).position();
    errVtx = ((*recVtxs)[theIndexOfThePrimaryVertex]).error();
  }
  else {
    LogInfo("RecoMuonValidator") << "reco::PrimaryVertex not found, use BeamSpot position instead\n";
    edm::Handle<reco::BeamSpot> recoBeamSpotHandle;
    event.getByLabel(beamspotLabel_,recoBeamSpotHandle);
    reco::BeamSpot bs = *recoBeamSpotHandle;
    posVtx = bs.position();
    errVtx(0,0) = bs.BeamWidthX();
    errVtx(1,1) = bs.BeamWidthY();
    errVtx(2,2) = bs.sigmaZ();
  }
  const reco::Vertex thePrimaryVertex(posVtx,errVtx);


  // Get TrackingParticles
  Handle<TrackingParticleCollection> simHandle;
  event.getByLabel(simLabel_, simHandle);
  const TrackingParticleCollection simColl = *(simHandle.product());

  // Get Muons
  Handle<View<Muon> > muonHandle;
  event.getByLabel(muonLabel_, muonHandle);
  View<Muon> muonColl = *(muonHandle.product());

  const TrackingParticleCollection::size_type nSim = simColl.size();

  edm::RefToBaseVector<reco::Muon> Muons;
  Muons = muonHandle->refVector();

  edm::RefVector<TrackingParticleCollection> allTPs;
  for (size_t i = 0; i < nSim; ++i) {
      allTPs.push_back(TrackingParticleRef(simHandle,i));
  }

  muonME_->hNSim_->Fill(nSim);
  muonME_->hNMuon_->Fill(muonColl.size());

  MuonAssociatorByHits::MuonToSimCollection muonToSimColl;
  MuonAssociatorByHits::SimToMuonCollection simToMuonColl;

  if ( doAssoc_ ) {
  assoByHits->associateMuons(muonToSimColl, simToMuonColl, Muons, trackType_, allTPs, &event, &eventSetup);
  } else {
/*
    // SimToMuon associations
    Handle<reco::RecoToSimCollection> simToTrkMuHandle;
    event.getByLabel(trkMuAssocLabel_, simToTrkMuHandle);
    trkSimRecColl = *(simToTrkMuHandle.product());

    Handle<reco::RecoToSimCollection> simToStaMuHandle;
    event.getByLabel(staMuAssocLabel_, simToStaMuHandle);
    staSimRecColl = *(simToStaMuHandle.product());

    Handle<reco::RecoToSimCollection> simToGlbMuHandle;
    event.getByLabel(glbMuAssocLabel_, simToGlbMuHandle);
    glbSimRecColl = *(simToGlbMuHandle.product());

    // MuonToSim associations
    Handle<reco::SimToRecoCollection> trkMuToSimHandle;
    event.getByLabel(trkMuAssocLabel_, trkMuToSimHandle);
    trkRecSimColl = *(trkMuToSimHandle.product());

    Handle<reco::SimToRecoCollection> staMuToSimHandle;
    event.getByLabel(staMuAssocLabel_, staMuToSimHandle);
    staRecSimColl = *(staMuToSimHandle.product());

    Handle<reco::SimToRecoCollection> glbMuToSimHandle;
    event.getByLabel(glbMuAssocLabel_, glbMuToSimHandle);
    glbRecSimColl = *(glbMuToSimHandle.product());
*/
  }

  int glbNTrackerHits = 0; int trkNTrackerHits = 0;
  int glbNMuonHits = 0; int staNMuonHits = 0;
  int NTrackerHits = 0; int NMuonHits = 0;
  
  // Analyzer reco::Muon  
  for(View<Muon>::const_iterator iMuon = muonColl.begin();
      iMuon != muonColl.end(); ++iMuon) {
      
    double muonP, muonPt, muonEta, muonPhi;
    if (usePFMuon_) {
      muonP   = iMuon->pfP4().P();
      muonPt  = iMuon->pfP4().Pt();
      muonEta = iMuon->pfP4().Eta(); 
      muonPhi = iMuon->pfP4().Phi();
    }
    else {
      muonP   = iMuon->p(); 
      muonPt  = iMuon->pt();
      muonEta = iMuon->eta();
      muonPhi = iMuon->phi();
    }

    //histograms for fractions
    commonME_->hMuonAllP_->Fill(muonP);
    commonME_->hMuonAllPt_->Fill(muonPt);
    commonME_->hMuonAllEta_->Fill(muonEta);
    commonME_->hMuonAllPhi_->Fill(muonPhi);

    if (!selector_(*iMuon)) continue;
    if (wantTightMuon_)
      {
        if (!muon::isTightMuon(*iMuon, thePrimaryVertex)) continue;
      }

    TrackRef Track = iMuon->track();

    if (Track.isNonnull()) {
      commonME_->hMuonTrackP_->Fill(Track->p());
      commonME_->hMuonTrackPt_->Fill(Track->pt());
      commonME_->hMuonTrackEta_->Fill(Track->eta());
      commonME_->hMuonTrackPhi_->Fill(Track->phi());
      
      //ip histograms
      commonME_->hMuonTrackDxy_->Fill(Track->dxy());
      commonME_->hMuonTrackDz_->Fill(Track->dz());
    }
    
    if (iMuon->isGlobalMuon()) {
      Track = iMuon->combinedMuon();
      glbNTrackerHits = countTrackerHits(*Track);
      glbNMuonHits = countMuonHits(*Track);
    } else if (iMuon->isTrackerMuon()) {
      Track = iMuon->track();
      trkNTrackerHits = countTrackerHits(*Track);
    } else {
      Track = iMuon->standAloneMuon();
    } 
    
    NTrackerHits = countTrackerHits(*Track);
    muonME_->hNTrackerHits_->Fill(NTrackerHits);
    muonME_->hNTrackerHits_vs_Pt_->Fill(Track->pt(), NTrackerHits);
    muonME_->hNTrackerHits_vs_Eta_->Fill(Track->eta(), NTrackerHits);

    NMuonHits = countMuonHits(*Track);
    muonME_->hNMuonHits_->Fill(NMuonHits);
    muonME_->hNMuonHits_vs_Pt_->Fill(Track->pt(), NMuonHits);
    muonME_->hNMuonHits_vs_Eta_->Fill(Track->eta(), NMuonHits);

//list of histos for each type

//      muonME_->hNTrks_->Fill();
    muonME_->hNTrksEta_->Fill(Track->eta());
    muonME_->hNTrksPt_->Fill(Track->pt());

    commonME_->hMuonP_->Fill(muonP);
    commonME_->hMuonPt_->Fill(muonPt);
    commonME_->hMuonEta_->Fill(muonEta);
    commonME_->hMuonPhi_->Fill(muonPhi);

    if (iMuon->isGlobalMuon()) {
      double gtHitPat = iMuon->globalTrack()->hitPattern().numberOfHits() - iMuon->globalTrack()->hitPattern().numberOfValidHits();
      double itHitPat = iMuon->innerTrack()->hitPattern().numberOfHits() - iMuon->innerTrack()->hitPattern().numberOfValidHits();
      double otHitPat = iMuon->outerTrack()->hitPattern().numberOfHits() - iMuon->outerTrack()->hitPattern().numberOfValidHits();
      
      commonME_->hNInvalidHitsGTHitPattern_->Fill(gtHitPat);
      commonME_->hNInvalidHitsITHitPattern_->Fill(itHitPat);
      commonME_->hNInvalidHitsOTHitPattern_->Fill(otHitPat);
      commonME_->hNDeltaInvalidHitsHitPattern_->Fill(gtHitPat - itHitPat - otHitPat);

      //must be global and standalone
      if (iMuon->isStandAloneMuon()) { 
        commonME_->hStaToGlbDiffNMuonHitsEta_->Fill(Track->eta(),staNMuonHits-glbNMuonHits);
        commonME_->hStaToGlbDiffNMuonHitsPt_->Fill(Track->pt(),staNMuonHits-glbNMuonHits);
        commonME_->hStaToGlbDiffNMuonHits_->Fill(staNMuonHits-glbNMuonHits);
      }
      
      //must be global and tracker
      if (iMuon->isTrackerMuon()) {
        commonME_->hTrkToGlbDiffNTrackerHitsEta_->Fill(Track->eta(),trkNTrackerHits-glbNTrackerHits);
        commonME_->hTrkToGlbDiffNTrackerHitsPt_->Fill(Track->pt(),trkNTrackerHits-glbNTrackerHits);
        commonME_->hTrkToGlbDiffNTrackerHits_->Fill(trkNTrackerHits-glbNTrackerHits);
      }
    }

  }//end of reco muon loop

  // Associate by hits
  for(TrackingParticleCollection::size_type i=0; i<nSim; i++) {
    TrackingParticleRef simRef(simHandle, i);
    const TrackingParticle* simTP = simRef.get();
    if ( ! tpSelector_(*simTP) ) continue;

    //denominators for efficiency plots
    const double simP   = simRef->p();
    const double simPt  = simRef->pt();
    const double simEta = doAbsEta_ ? fabs(simRef->eta()) : simRef->eta();
    const double simPhi = simRef->phi();
    
    GlobalPoint  simVtx(simRef->vertex().x(), simRef->vertex().y(), simRef->vertex().z());
    GlobalVector simMom(simRef->momentum().x(), simRef->momentum().y(), simRef->momentum().z());
    const double simDxy = -simVtx.x()*sin(simPhi)+simVtx.y()*cos(simPhi);
    const double simDz  = simVtx.z() - (simVtx.x()*simMom.x()+simVtx.y()*simMom.y())*simMom.z()/simMom.perp2();
    
    const unsigned int nSimHits = simRef->numberOfHits();

    muonME_->hSimP_  ->Fill(simP  );
    muonME_->hSimPt_ ->Fill(simPt );
    muonME_->hSimEta_->Fill(simEta);
    muonME_->hSimPhi_->Fill(simPhi);
    muonME_->hSimDxy_->Fill(simDxy);
    muonME_->hSimDz_->Fill(simDz);
    muonME_->hNSimHits_->Fill(nSimHits);

    // Get sim-reco association for a simRef
    vector<pair<RefToBase<Muon>, double> > MuRefV;
    if ( simToMuonColl.find(simRef) != simToMuonColl.end() ) {
      MuRefV = simToMuonColl[simRef];

      if ( !MuRefV.empty()) {
        muonME_->hNSimToReco_->Fill(MuRefV.size());
        const Muon* Mu = MuRefV.begin()->first.get();
        if (!selector_(*Mu)) continue;
        if (wantTightMuon_)
          {
            if (!muon::isTightMuon(*Mu, thePrimaryVertex)) continue;
          }

        muonME_->fill(&*simTP, Mu); 
      }
    }
  }
}

void RecoMuonValidator::beginRun	(	const edm::Run &	,
		const edm::EventSetup &	eventSetup
	)		`[virtual]`

Reimplemented from edm::EDAnalyzer.

Definition at line 654 of file RecoMuonValidator.cc.

References assoByHits, doAssoc_, Exception, edm::EventSetup::get(), edm::InputTag::label(), muAssocLabel_, edm::ESHandle< T >::product(), and theMuonService.

{
  if ( theMuonService ) theMuonService->update(eventSetup);

  if ( doAssoc_ ) {
    edm::ESHandle<TrackAssociatorBase> associatorBase;
    eventSetup.get<TrackAssociatorRecord>().get(muAssocLabel_.label(), associatorBase);
    assoByHits = dynamic_cast<const MuonAssociatorByHits *>(associatorBase.product());
    if (assoByHits == 0) throw cms::Exception("Configuration") << "The Track Associator with label '" << muAssocLabel_.label() << "' is not a MuonAssociatorByHits.\n";
    }

}

int RecoMuonValidator::countMuonHits ( const reco::Track & track ) const [virtual]

Definition at line 926 of file RecoMuonValidator.cc.

References prof2calltree::count, DetId::det(), DetId::Muon, reco::Track::recHitsBegin(), reco::Track::recHitsEnd(), and query::result.

Referenced by analyze().

                                                             {
  TransientTrackingRecHit::ConstRecHitContainer result;
  
  int count = 0;

  for (trackingRecHit_iterator hit = track.recHitsBegin(); hit != track.recHitsEnd(); ++hit) {
    if((*hit)->isValid()) {
      DetId recoid = (*hit)->geographicalId();
      if ( recoid.det() == DetId::Muon ) count++;
    }
  }
  return count;
}

int RecoMuonValidator::countTrackerHits ( const reco::Track & track ) const [virtual]

Definition at line 941 of file RecoMuonValidator.cc.

References prof2calltree::count, DetId::det(), reco::Track::recHitsBegin(), reco::Track::recHitsEnd(), query::result, and align::Tracker.

Referenced by analyze().

                                                                {
  TransientTrackingRecHit::ConstRecHitContainer result;
  
  int count = 0;

  for (trackingRecHit_iterator hit = track.recHitsBegin(); hit != track.recHitsEnd(); ++hit) {
    if((*hit)->isValid()) {
      DetId recoid = (*hit)->geographicalId();
      if ( recoid.det() == DetId::Tracker ) count++;
    }
  }
  return count;
}

void RecoMuonValidator::endRun ( void ) [virtual]

Definition at line 670 of file RecoMuonValidator.cc.

References outputFileName_, DQMStore::save(), and theDQM.

{
  if ( theDQM && ! outputFileName_.empty() ) theDQM->save(outputFileName_);
}

Member Data Documentation

const MuonAssociatorByHits* RecoMuonValidator::assoByHits [protected]

Definition at line 45 of file RecoMuonValidator.h.

Referenced by analyze(), and beginRun().

edm::InputTag RecoMuonValidator::beamspotLabel_ [protected]

Definition at line 47 of file RecoMuonValidator.h.

Referenced by analyze(), and RecoMuonValidator().

CommonME* RecoMuonValidator::commonME_ [protected]

Definition at line 68 of file RecoMuonValidator.h.

Referenced by analyze(), and RecoMuonValidator().

bool RecoMuonValidator::doAbsEta_ [protected]

Definition at line 56 of file RecoMuonValidator.h.

Referenced by analyze(), and RecoMuonValidator().

bool RecoMuonValidator::doAssoc_ [protected]

Definition at line 57 of file RecoMuonValidator.h.

Referenced by analyze(), beginRun(), and RecoMuonValidator().

edm::InputTag RecoMuonValidator::muAssocLabel_ [protected]

Definition at line 44 of file RecoMuonValidator.h.

Referenced by beginRun(), and RecoMuonValidator().

edm::InputTag RecoMuonValidator::muonLabel_ [protected]

Definition at line 41 of file RecoMuonValidator.h.

Referenced by analyze(), and RecoMuonValidator().

MuonME* RecoMuonValidator::muonME_ [protected]

Definition at line 65 of file RecoMuonValidator.h.

Referenced by analyze(), and RecoMuonValidator().

std::string RecoMuonValidator::muonSelection_ [protected]

Definition at line 42 of file RecoMuonValidator.h.

std::string RecoMuonValidator::outputFileName_ [protected]

Definition at line 50 of file RecoMuonValidator.h.

Referenced by endRun(), and RecoMuonValidator().

edm::InputTag RecoMuonValidator::primvertexLabel_ [protected]

Definition at line 48 of file RecoMuonValidator.h.

Referenced by analyze(), and RecoMuonValidator().

StringCutObjectSelector<reco::Muon> RecoMuonValidator::selector_ [private]

Definition at line 72 of file RecoMuonValidator.h.

Referenced by analyze().

edm::InputTag RecoMuonValidator::simLabel_ [protected]

Definition at line 40 of file RecoMuonValidator.h.

Referenced by analyze(), and RecoMuonValidator().

std::string RecoMuonValidator::subDir_ [protected]

Definition at line 51 of file RecoMuonValidator.h.

Referenced by RecoMuonValidator().

DQMStore* RecoMuonValidator::theDQM [protected]

Definition at line 54 of file RecoMuonValidator.h.

Referenced by analyze(), endRun(), and RecoMuonValidator().

MuonServiceProxy* RecoMuonValidator::theMuonService [protected]

Definition at line 53 of file RecoMuonValidator.h.

Referenced by beginRun(), RecoMuonValidator(), and ~RecoMuonValidator().

TrackingParticleSelector RecoMuonValidator::tpSelector_ [protected]

Definition at line 60 of file RecoMuonValidator.h.

Referenced by analyze(), and RecoMuonValidator().

MuonAssociatorByHits::MuonTrackType RecoMuonValidator::trackType_ [protected]

Definition at line 63 of file RecoMuonValidator.h.

Referenced by analyze(), and RecoMuonValidator().

bool RecoMuonValidator::usePFMuon_ [protected]

Definition at line 58 of file RecoMuonValidator.h.

Referenced by analyze(), and RecoMuonValidator().

unsigned int RecoMuonValidator::verbose_ [protected]

Definition at line 38 of file RecoMuonValidator.h.

Referenced by RecoMuonValidator().

bool RecoMuonValidator::wantTightMuon_ [private]

Definition at line 73 of file RecoMuonValidator.h.

Referenced by analyze(), and RecoMuonValidator().

RecoMuonValidator Class Reference

Classes

Public Member Functions

Protected Attributes

Private Attributes

Detailed Description

Constructor & Destructor Documentation

Member Function Documentation

Member Data Documentation