CMS 3D CMS Logo

Public Member Functions | Private Member Functions | Private Attributes

PhotonsWithConversionsAnalyzer Class Reference

#include <PhotonsWithConversionsAnalyzer.h>

Inheritance diagram for PhotonsWithConversionsAnalyzer:
edm::EDAnalyzer

List of all members.

Public Member Functions

virtual void analyze (const edm::Event &, const edm::EventSetup &)
virtual void beginJob ()
virtual void endJob ()
 PhotonsWithConversionsAnalyzer (const edm::ParameterSet &)
virtual ~PhotonsWithConversionsAnalyzer ()

Private Member Functions

float etaTransformation (float a, float b)

Private Attributes

TFile * fOutputFile_
std::string fOutputFileName_
TH2F * h2_tk_inPtVsR_
TH2F * h2_tk_nHitsVsR_
TH1F * h_deltaEta_
TH1F * h_deltaPhi_
TH1F * h_ErecoEMC_
TH1F * h_MCConvE_
TH1F * h_MCConvEta_
TH1F * h_MCConvPt_
TH1F * h_MCphoE_
TH1F * h_MCphoEta_
TH1F * h_MCphoPhi_
TH1F * h_phoE_
TH1F * h_phoEta_
TH1F * h_phoPhi_
TH1F * h_scE_
TH1F * h_scEt_
TH1F * h_scEta_
TH1F * h_scPhi_
std::string HepMCLabel
int nEvt_
int nMatched_
int nMCPho_
std::string photonCollection_
std::string photonCollectionProducer_
std::string SimHitLabel
std::string SimTkLabel
std::string SimVtxLabel
PhotonMCTruthFinderthePhotonMCTruthFinder_

Detailed Description

Definition at line 23 of file PhotonsWithConversionsAnalyzer.h.


Constructor & Destructor Documentation

PhotonsWithConversionsAnalyzer::PhotonsWithConversionsAnalyzer ( const edm::ParameterSet pset) [explicit]

Definition at line 51 of file PhotonsWithConversionsAnalyzer.cc.

References edm::ParameterSet::getParameter().

  {

  photonCollectionProducer_ = pset.getParameter<std::string>("phoProducer");
  photonCollection_ = pset.getParameter<std::string>("photonCollection");
  //


}
PhotonsWithConversionsAnalyzer::~PhotonsWithConversionsAnalyzer ( ) [virtual]

Definition at line 63 of file PhotonsWithConversionsAnalyzer.cc.


Member Function Documentation

void PhotonsWithConversionsAnalyzer::analyze ( const edm::Event e,
const edm::EventSetup  
) [virtual]

Loop over recontructed photons

End loop over Reco particles

End loop over MC particles

Implements edm::EDAnalyzer.

Definition at line 162 of file PhotonsWithConversionsAnalyzer.cc.

References conversions_cfi::conversions, gather_cfg::cout, delta, HLTFastRecoForTau_cff::deltaEta, SiPixelRawToDigiRegional_cfi::deltaPhi, HcalObjRepresent::Fill(), edm::Event::getByLabel(), i, edm::EventBase::id(), Geom::pi(), funct::pow(), edm::RefVector< C, T, F >::size(), mathSSE::sqrt(), testEve_cfg::tracks, and Geom::twoPi().

{


  using namespace edm;
  const float etaPhiDistance=0.01;
  // Fiducial region
  //UNUSED const float TRK_BARL =0.9;
  //UNUSED const float BARL = 1.4442; // DAQ TDR p.290
  //UNUSED const float END_LO = 1.566;
  //UNUSED const float END_HI = 2.5;
 // Electron mass
  //UNUSED const Float_t mElec= 0.000511;


  nEvt_++;
  LogInfo("ConvertedPhotonAnalyzer") << "ConvertedPhotonAnalyzer Analyzing event number: " << e.id() << " Global Counter " << nEvt_ <<"\n";
  //  LogDebug("ConvertedPhotonAnalyzer") << "ConvertedPhotonAnalyzer Analyzing event number: "  << e.id() << " Global Counter " << nEvt_ <<"\n";
  std::cout << "ConvertedPhotonAnalyzer Analyzing event number: "  << e.id() << " Global Counter " << nEvt_ <<"\n";


  Handle<reco::PhotonCollection> photonHandle;
  e.getByLabel(photonCollectionProducer_, photonCollection_ , photonHandle);
  const reco::PhotonCollection photonCollection = *(photonHandle.product());
  std::cout  << "ConvertedPhotonAnalyzer  Photons with conversions collection size " << photonCollection.size() << "\n";


  std::cout  << " ConvertedPhotonAnalyzer Looking for MC truth " << "\n";

  //get simtrack info
  std::vector<SimTrack> theSimTracks;
  std::vector<SimVertex> theSimVertices;

  edm::Handle<SimTrackContainer> SimTk;
  edm::Handle<SimVertexContainer> SimVtx;
  e.getByLabel("g4SimHits",SimTk);
  e.getByLabel("g4SimHits",SimVtx);

  theSimTracks.insert(theSimTracks.end(),SimTk->begin(),SimTk->end());
  theSimVertices.insert(theSimVertices.end(),SimVtx->begin(),SimVtx->end());

  std::vector<PhotonMCTruth> mcPhotons=thePhotonMCTruthFinder_->find (theSimTracks,  theSimVertices);
  std::cout << " ConvertedPhotonAnalyzer mcPhotons size " <<  mcPhotons.size() << std::endl;



  // Loop over simulated photons
  //UNUSED int iDet=0;
  //UNUSED int iRadius=-1;
  //UNUSED int indPho=0;

  for ( std::vector<PhotonMCTruth>::const_iterator mcPho=mcPhotons.begin(); mcPho !=mcPhotons.end(); mcPho++) {
    float mcPhi= (*mcPho).fourMomentum().phi();
    float mcEta= (*mcPho).fourMomentum().pseudoRapidity();
    mcEta = etaTransformation(mcEta, (*mcPho).primaryVertex().z() );

    if ( (*mcPho).fourMomentum().et() < 20 ) continue;
    //    if ( ! (  fabs(mcEta) <= BARL || ( fabs(mcEta) >= END_LO && fabs(mcEta) <=END_HI ) ) ) {
    //     continue;
    //} // all ecal fiducial region



    h_MCphoE_->Fill(  (*mcPho).fourMomentum().e());
    h_MCphoEta_->Fill( (*mcPho).fourMomentum().eta());
    h_MCphoPhi_->Fill(  (*mcPho).fourMomentum().phi());



    // keep only visible conversions
    if (  (*mcPho).isAConversion() == 0 ) continue;


    nMCPho_++;

    h_MCConvEta_ ->Fill ( fabs( (*mcPho).fourMomentum().pseudoRapidity()) - 0.001);


    bool REJECTED;


    //std::cout   << " ConvertedPhotonAnalyzer  Starting loop over photon candidates " << "\n";
    for( reco::PhotonCollection::const_iterator  iPho = photonCollection.begin(); iPho != photonCollection.end(); iPho++) {
      REJECTED=false;

      //      std::cout  << " ConvertedPhotonAnalyzer Reco SC energy " << (*iPho).superCluster()->energy() <<  "\n";

      float phiClu=(*iPho).superCluster()->phi();
      float etaClu=(*iPho).superCluster()->eta();
      float deltaPhi = phiClu-mcPhi;
      float deltaEta = etaClu-mcEta;


      if ( deltaPhi > Geom::pi()  ) deltaPhi -= Geom::twoPi();
      if ( deltaPhi < -Geom::pi() ) deltaPhi += Geom::twoPi();
      deltaPhi=pow(deltaPhi,2);
      deltaEta=pow(deltaEta,2);
      float delta =  deltaPhi+deltaEta ;
      if (  delta >= etaPhiDistance  )  REJECTED=true;


      //      if ( ! (  fabs(etaClu) <= BARL || ( fabs(etaClu) >= END_LO && fabs(etaClu) <=END_HI ) ) ) REJECTED=true;

      if ( REJECTED ) continue;
      std::cout << " MATCHED " << std::endl;
      nMatched_++;


      //      std::cout << " ConvertedPhotonAnalyzer Matching candidate " << std::endl;

      // std::cout << " ConvertedPhotonAnalyzer Photons isAconversion " << (*mcPho).isAConversion() << " mcMatchingPhoton energy " <<  (*mcPho).fourMomentum().e()  << " ConvertedPhotonAnalyzer conversion vertex R " <<  (*mcPho).vertex().perp() << " Z " <<  (*mcPho).vertex().z() <<  std::endl;


      h_ErecoEMC_->Fill(   (*iPho).superCluster()->energy()/(*mcPho).fourMomentum().e());
      h_deltaPhi_-> Fill ( (*iPho).superCluster()->position().phi()- mcPhi);
      h_deltaEta_-> Fill ( (*iPho).superCluster()->position().eta()- mcEta);

      h_scE_->Fill( (*iPho).superCluster()->energy() );
      h_scEt_->Fill( (*iPho).superCluster()->energy()/cosh( (*iPho).superCluster()->position().eta()) );
      h_scEta_->Fill( (*iPho).superCluster()->position().eta() );
      h_scPhi_->Fill( (*iPho).superCluster()->position().phi() );


      h_phoE_->Fill( (*iPho).energy() );
      h_phoEta_->Fill( (*iPho).eta() );
      h_phoPhi_->Fill( (*iPho).phi() );

      if ( !(*iPho).hasConversionTracks() ) continue;
      //   std::cout << " This photons has " << (*iPho).conversions().size() << " conversions candidates " << std::endl;
      reco::ConversionRefVector conversions = (*iPho).conversions();
      //std::vector<reco::ConversionRef> conversions = (*iPho).conversions();


      for (unsigned int i=0; i<conversions.size(); i++) {
        //std::cout << " Conversion candidate Energy " << (*iPho).energy() << " number of tracks " << conversions[i]->nTracks() << std::endl;
        std::vector< edm::RefToBase<reco::Track> > tracks = conversions[i]->tracks();

        for (unsigned int i=0; i<tracks.size(); i++) {

          //      std::cout  << " ConvertedPhotonAnalyzer Reco Track charge " <<  tracks[i]->charge() << "  Num of RecHits " << tracks[i]->recHitsSize() << " inner momentum " <<  sqrt ( tracks[i]->innerMomentum().Mag2() )  <<  "\n";


          h2_tk_nHitsVsR_ -> Fill (  (*mcPho).vertex().perp(), tracks[i]->recHitsSize()   );
          h2_tk_inPtVsR_->Fill  (  (*mcPho).vertex().perp(),  sqrt( tracks[i]->innerMomentum().Mag2() ) );
        }

      }


    }

  }


}
void PhotonsWithConversionsAnalyzer::beginJob ( void  ) [virtual]

Reco - MC

Reimplemented from edm::EDAnalyzer.

Definition at line 71 of file PhotonsWithConversionsAnalyzer.cc.

{


  nEvt_=0;
  nMCPho_=0;
  nMatched_=0;


  thePhotonMCTruthFinder_ = new PhotonMCTruthFinder();



  edm::Service<TFileService> fs;


  h_ErecoEMC_  = fs->make<TH1F>("deltaE","    delta(reco-mc) energy",100,0.,2.);
  h_deltaPhi_ = fs->make<TH1F>("deltaPhi","  delta(reco-mc) phi",100,-0.1, 0.1);
  h_deltaEta_ = fs->make<TH1F>("deltaEta","  delta(reco-mc) eta",100,-0.05, 0.05);

  h_MCphoE_ = fs->make<TH1F>("MCphoE","MC photon energy",100,0.,100.);
  h_MCphoPhi_ = fs->make<TH1F>("MCphoPhi","MC photon phi",40,-3.14, 3.14);
  h_MCphoEta_ = fs->make<TH1F>("MCphoEta","MC photon eta",40,-3., 3.);


  h_MCConvE_ = fs->make<TH1F>("MCConvE","MC converted photon energy",100,0.,100.);
  h_MCConvPt_ = fs->make<TH1F>("MCConvPt","MC converted photon pt",100,0.,100.);
  h_MCConvEta_ = fs->make<TH1F>("MCConvEta","MC converted photon eta",50, 0., 2.5);

  h_scE_ = fs->make<TH1F>("scE","SC Energy ",100,0., 200.);
  h_scEt_ = fs->make<TH1F>("scEt","SC Et ",100,0., 200.);
  h_scEta_ = fs->make<TH1F>("scEta","SC Eta ",40,-3., 3.);
  h_scPhi_ = fs->make<TH1F>("scPhi","SC Phi ",40, -3.14, 3.14);
  //
  h_phoE_ = fs->make<TH1F>("phoE","Photon Energy ",100,0., 200.);
  h_phoEta_ = fs->make<TH1F>("phoEta","Photon Eta ",40,-3., 3.);
  h_phoPhi_ = fs->make<TH1F>("phoPhi","Photon  Phi ",40,  -3.14, 3.14);

  // Recontructed tracks from converted photon candidates
  h2_tk_nHitsVsR_ = fs->make<TH2F>("tknHitsVsR","Tracks Hits vs R  ", 12,0.,120.,20,0.5, 20.5);
  h2_tk_inPtVsR_  = fs->make<TH2F>("tkInPtvsR","Tracks inner Pt vs R  ", 12,0.,120.,100,0., 100.);


  return ;
}
void PhotonsWithConversionsAnalyzer::endJob ( void  ) [virtual]

Reimplemented from edm::EDAnalyzer.

Definition at line 324 of file PhotonsWithConversionsAnalyzer.cc.

References gather_cfg::cout.

{




  //   fOutputFile_->Write() ;
  // fOutputFile_->Close() ;

   edm::LogInfo("ConvertedPhotonAnalyzer") << "Analyzed " << nEvt_  << "\n";
   // std::cout  << "::endJob Analyzed " << nEvt_ << " events " << " with total " << nPho_ << " Photons " << "\n";
   std::cout  << "ConvertedPhotonAnalyzer::endJob Analyzed " << nEvt_ << " events " << "\n";

   return ;
}
float PhotonsWithConversionsAnalyzer::etaTransformation ( float  a,
float  b 
) [private]

Definition at line 122 of file PhotonsWithConversionsAnalyzer.cc.

References ETA, etaBarrelEndcap, funct::log(), PI, R_ECAL, funct::tan(), and Z_Endcap.

                                                                                            {

//---Definitions
        const float PI    = 3.1415927;
        //UNUSED const float TWOPI = 2.0*PI;

//---Definitions for ECAL
        const float R_ECAL           = 136.5;
        const float Z_Endcap         = 328.0;
        const float etaBarrelEndcap  = 1.479;

//---ETA correction

        float Theta = 0.0  ;
        float ZEcal = R_ECAL*sinh(EtaParticle)+Zvertex;

        if(ZEcal != 0.0) Theta = atan(R_ECAL/ZEcal);
        if(Theta<0.0) Theta = Theta+PI ;
        float ETA = - log(tan(0.5*Theta));

        if( fabs(ETA) > etaBarrelEndcap )
          {
           float Zend = Z_Endcap ;
           if(EtaParticle<0.0 )  Zend = -Zend ;
           float Zlen = Zend - Zvertex ;
           float RR = Zlen/sinh(EtaParticle);
           Theta = atan(RR/Zend);
           if(Theta<0.0) Theta = Theta+PI ;
           ETA = - log(tan(0.5*Theta));
          }
//---Return the result
        return ETA;
//---end
}

Member Data Documentation

Definition at line 46 of file PhotonsWithConversionsAnalyzer.h.

Definition at line 45 of file PhotonsWithConversionsAnalyzer.h.

Definition at line 93 of file PhotonsWithConversionsAnalyzer.h.

Definition at line 91 of file PhotonsWithConversionsAnalyzer.h.

Definition at line 64 of file PhotonsWithConversionsAnalyzer.h.

Definition at line 63 of file PhotonsWithConversionsAnalyzer.h.

Definition at line 62 of file PhotonsWithConversionsAnalyzer.h.

Definition at line 75 of file PhotonsWithConversionsAnalyzer.h.

Definition at line 77 of file PhotonsWithConversionsAnalyzer.h.

Definition at line 76 of file PhotonsWithConversionsAnalyzer.h.

Definition at line 68 of file PhotonsWithConversionsAnalyzer.h.

Definition at line 70 of file PhotonsWithConversionsAnalyzer.h.

Definition at line 69 of file PhotonsWithConversionsAnalyzer.h.

Definition at line 86 of file PhotonsWithConversionsAnalyzer.h.

Definition at line 87 of file PhotonsWithConversionsAnalyzer.h.

Definition at line 88 of file PhotonsWithConversionsAnalyzer.h.

Definition at line 81 of file PhotonsWithConversionsAnalyzer.h.

Definition at line 82 of file PhotonsWithConversionsAnalyzer.h.

Definition at line 83 of file PhotonsWithConversionsAnalyzer.h.

Definition at line 84 of file PhotonsWithConversionsAnalyzer.h.

Definition at line 53 of file PhotonsWithConversionsAnalyzer.h.

Definition at line 49 of file PhotonsWithConversionsAnalyzer.h.

Definition at line 51 of file PhotonsWithConversionsAnalyzer.h.

Definition at line 50 of file PhotonsWithConversionsAnalyzer.h.

Definition at line 60 of file PhotonsWithConversionsAnalyzer.h.

Definition at line 59 of file PhotonsWithConversionsAnalyzer.h.

Definition at line 56 of file PhotonsWithConversionsAnalyzer.h.

Definition at line 54 of file PhotonsWithConversionsAnalyzer.h.

Definition at line 55 of file PhotonsWithConversionsAnalyzer.h.

Definition at line 43 of file PhotonsWithConversionsAnalyzer.h.