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Public Member Functions | Private Types | Private Member Functions | Private Attributes | Static Private Attributes

GoodSeedProducer Class Reference

#include <GoodSeedProducer.h>

Inheritance diagram for GoodSeedProducer:
edm::EDProducer edm::ProducerBase edm::ProductRegistryHelper

List of all members.

Public Member Functions

 GoodSeedProducer (const edm::ParameterSet &)
 ~GoodSeedProducer ()

Private Types

typedef TrajectoryStateOnSurface TSOS

Private Member Functions

virtual void beginRun (edm::Run &run, const edm::EventSetup &)
virtual void endRun ()
void fillPreIdRefValueMap (edm::Handle< reco::TrackCollection > tkhandle, const edm::OrphanHandle< reco::PreIdCollection > &, edm::ValueMap< reco::PreIdRef >::Filler &filler)
int getBin (float, float)
 Find the bin in pt and eta.
int getBin (float)
bool IsIsolated (float charge, float P, math::XYZPointF, const reco::PFClusterCollection &ecalColl, const reco::PFClusterCollection &hcalColl)
virtual void produce (edm::Event &, const edm::EventSetup &)
void PSforTMVA (math::XYZTLorentzVector mom, math::XYZTLorentzVector pos)

Private Attributes

bool applyIsolation_
 ISOLATION REQUEST AS DONE IN THE TAU GROUP.
math::XYZVector B_
 B field.
float chi
float chiRatio
float chired
double clusThreshold_
 Cut on the energy of the clusters.
edm::ParameterSet conf_
bool disablePreId_
 switch to disable the pre-id
float dpt
double EcalStripSumE_deltaEta_
double EcalStripSumE_deltaPhiOverQ_maxValue_
double EcalStripSumE_deltaPhiOverQ_minValue_
double EcalStripSumE_minClusEnergy_
float eP
 VARIABLES NEEDED FOR TMVA.
float eta
edm::ESHandle< TrajectoryFitterfitter_
 Fitter.
std::string fitterName_
double HcalIsolWindow_
double maxEp_
double maxEta_
double maxHoverP_
double maxPt_
std::string method_
 TMVA method.
double minEoverP_
double minEp_
 Min and MAx allowed values forEoverP.
double minPt_
 Minimum transverse momentum and maximum pseudorapidity.
float nhit
int nHitsInSeed_
 Number of hits in the seed;.
edm::InputTag pfCLusTagECLabel_
edm::InputTag pfCLusTagHCLabel_
edm::InputTag pfCLusTagPSLabel_
PFTrackTransformerpfTransformer_
 PFTrackTransformer.
std::string preidckf_
 Name of the Seed(Ckf) Collection.
std::string preidgsf_
 Name of the Seed(Gsf) Collection.
std::string preidname_
 Name of the preid Collection (FB)
bool produceCkfseed_
 Produce the Seed for Ckf tracks?
bool producePreId_
 Produce the pre-id debugging collection.
std::string propagatorName_
float ps1chi
std::vector< reco::PFClusterps1Clus
 Vector of clusters of the PreShower.
float ps1En
float ps2chi
std::vector< reco::PFClusterps2Clus
float ps2En
float pt
double PtThresholdSavePredId_
 Threshold to save Pre Idinfo.
TMVA::Reader * reader
 READER FOR TMVA.
std::map< reco::TrackRef,
unsigned > 
refMap_
 Map used to create the TrackRef, PreIdRef value map.
edm::ESHandle< TrajectorySmoothersmoother_
 Smoother.
std::string smootherName_
float thr [150]
 vector of thresholds for different bins of eta and pt
float thrPS [20]
reco::TrackBase::TrackQuality trackQuality_
std::vector< edm::InputTagtracksContainers_
bool usePreshower_
 Use of Preshower clusters.
bool useQuality_
 TRACK QUALITY.
bool useTmva_
 USE OF TMVA.

Static Private Attributes

static PFResolutionMapresMapEtaECAL_ = 0
static PFResolutionMapresMapPhiECAL_ = 0

Detailed Description

Definition at line 46 of file GoodSeedProducer.h.


Member Typedef Documentation

Definition at line 47 of file GoodSeedProducer.h.


Constructor & Destructor Documentation

GoodSeedProducer::GoodSeedProducer ( const edm::ParameterSet iConfig) [explicit]

Definition at line 40 of file GoodSeedProducer.cc.

References applyIsolation_, clusThreshold_, disablePreId_, EcalStripSumE_deltaEta_, EcalStripSumE_deltaPhiOverQ_maxValue_, EcalStripSumE_deltaPhiOverQ_minValue_, EcalStripSumE_minClusEnergy_, fitterName_, edm::ParameterSet::getParameter(), edm::ParameterSet::getUntrackedParameter(), HcalIsolWindow_, LogDebug, maxEp_, maxEta_, maxHoverP_, maxPt_, minEoverP_, minEp_, minPt_, nHitsInSeed_, pfCLusTagECLabel_, pfCLusTagHCLabel_, pfCLusTagPSLabel_, preidckf_, preidgsf_, preidname_, produceCkfseed_, producePreId_, edm::ProductRegistryHelper::produces(), PtThresholdSavePredId_, smootherName_, trackQuality_, tracksContainers_, usePreshower_, useQuality_, and useTmva_.

                                                             :
  pfTransformer_(0),
  conf_(iConfig)
{
  LogInfo("GoodSeedProducer")<<"Electron PreIdentification started  ";
  
  //now do what ever initialization is needed
 
  tracksContainers_ = 
    iConfig.getParameter< vector < InputTag > >("TkColList");
  
  minPt_=iConfig.getParameter<double>("MinPt");
  maxPt_=iConfig.getParameter<double>("MaxPt");
  maxEta_=iConfig.getParameter<double>("MaxEta");


  //ISOLATION REQUEST AS DONE IN THE TAU GROUP
  applyIsolation_ =iConfig.getParameter<bool>("ApplyIsolation");
  HcalIsolWindow_                       =iConfig.getParameter<double>("HcalWindow");
  EcalStripSumE_minClusEnergy_ = iConfig.getParameter<double>("EcalStripSumE_minClusEnergy");
  EcalStripSumE_deltaEta_ = iConfig.getParameter<double>("EcalStripSumE_deltaEta");
  EcalStripSumE_deltaPhiOverQ_minValue_ = iConfig.getParameter<double>("EcalStripSumE_deltaPhiOverQ_minValue");
  EcalStripSumE_deltaPhiOverQ_maxValue_ = iConfig.getParameter<double>("EcalStripSumE_deltaPhiOverQ_maxValue");
   minEoverP_= iConfig.getParameter<double>("EOverPLead_minValue");
   maxHoverP_= iConfig.getParameter<double>("HOverPLead_maxValue");
 
  //
  pfCLusTagECLabel_=
    iConfig.getParameter<InputTag>("PFEcalClusterLabel");

  pfCLusTagHCLabel_=
   iConfig.getParameter<InputTag>("PFHcalClusterLabel");  

  pfCLusTagPSLabel_=
    iConfig.getParameter<InputTag>("PFPSClusterLabel");
  
  preidgsf_ = iConfig.getParameter<string>("PreGsfLabel");
  preidckf_ = iConfig.getParameter<string>("PreCkfLabel");
  preidname_= iConfig.getParameter<string>("PreIdLabel");
  
  
  fitterName_ = iConfig.getParameter<string>("Fitter");
  smootherName_ = iConfig.getParameter<string>("Smoother");
  
  
  nHitsInSeed_=iConfig.getParameter<int>("NHitsInSeed");

  clusThreshold_=iConfig.getParameter<double>("ClusterThreshold");
  
  minEp_=iConfig.getParameter<double>("MinEOverP");
  maxEp_=iConfig.getParameter<double>("MaxEOverP");

  //collection to produce
  produceCkfseed_ = iConfig.getUntrackedParameter<bool>("ProduceCkfSeed",false);

  // to disable the electron part (for HI collisions for examples) 
  disablePreId_ = iConfig.getUntrackedParameter<bool>("DisablePreId",false);  

  producePreId_ = iConfig.getUntrackedParameter<bool>("ProducePreId",true);  
  //  if no electron, cannot produce the preid
  if(disablePreId_) 
    producePreId_=false;
  PtThresholdSavePredId_ = iConfig.getUntrackedParameter<double>("PtThresholdSavePreId",1.);  

  LogDebug("GoodSeedProducer")<<"Seeds for GSF will be produced ";

  // no disablePreId_ switch here. The collection will be empty if it is true
  produces<ElectronSeedCollection>(preidgsf_);

  if(produceCkfseed_){
    LogDebug("GoodSeedProducer")<<"Seeds for CKF will be produced ";
    produces<TrajectorySeedCollection>(preidckf_);
  }
  

  if(producePreId_){
    LogDebug("GoodSeedProducer")<<"PreId debugging information will be produced ";

    produces<PreIdCollection>(preidname_);
    if(tracksContainers_.size()==1) // do not make a value map if more than one input track collection
      produces<edm::ValueMap<reco::PreIdRef> >(preidname_);
  } 
  
  useQuality_   = iConfig.getParameter<bool>("UseQuality");
  trackQuality_=TrackBase::qualityByName(iConfig.getParameter<std::string>("TrackQuality"));

  useTmva_= iConfig.getUntrackedParameter<bool>("UseTMVA",false);
  
  usePreshower_ = iConfig.getParameter<bool>("UsePreShower");

}
GoodSeedProducer::~GoodSeedProducer ( )

Definition at line 133 of file GoodSeedProducer.cc.

References pfTransformer_.

{
  
  // do anything here that needs to be done at desctruction time
  // (e.g. close files, deallocate resources etc.) 

  delete pfTransformer_;
}

Member Function Documentation

void GoodSeedProducer::beginRun ( edm::Run run,
const edm::EventSetup es 
) [private, virtual]

Reimplemented from edm::EDProducer.

Definition at line 496 of file GoodSeedProducer.cc.

References B_, chi, chiRatio, chired, conf_, dpt, eP, eta, edm::FileInPath::fullPath(), edm::EventSetup::get(), edm::ParameterSet::getParameter(), method_, nhit, PFTrackTransformer::OnlyProp(), pfTransformer_, pt, reader, resMapEtaECAL_, resMapPhiECAL_, thr, thrPS, and useTmva_.

{
  //Magnetic Field
  ESHandle<MagneticField> magneticField;
  es.get<IdealMagneticFieldRecord>().get(magneticField);
  B_=magneticField->inTesla(GlobalPoint(0,0,0));
  
  pfTransformer_= new PFTrackTransformer(B_);
  pfTransformer_->OnlyProp();


  
  //Resolution maps
  FileInPath ecalEtaMap(conf_.getParameter<string>("EtaMap"));
  FileInPath ecalPhiMap(conf_.getParameter<string>("PhiMap"));
  resMapEtaECAL_ = new PFResolutionMap("ECAL_eta",ecalEtaMap.fullPath().c_str());
  resMapPhiECAL_ = new PFResolutionMap("ECAL_phi",ecalPhiMap.fullPath().c_str());

  if(useTmva_){
    reader = new TMVA::Reader("!Color:Silent");
    method_ = conf_.getParameter<string>("TMVAMethod");
    
    reader->AddVariable("eP",&eP);
    reader->AddVariable("chi",&chi);
    reader->AddVariable("chired",&chired);
    reader->AddVariable("chiRatio",&chiRatio);
    reader->AddVariable("dpt",&dpt);
    reader->AddVariable("nhit",&nhit);
    reader->AddVariable("eta",&eta);
    reader->AddVariable("pt",&pt);
    FileInPath Weigths(conf_.getParameter<string>("Weights"));
    reader->BookMVA( method_, Weigths.fullPath().c_str()  );    
    }

    
    //read threshold
    FileInPath parFile(conf_.getParameter<string>("ThresholdFile"));
    ifstream ifs(parFile.fullPath().c_str());
    for (int iy=0;iy<72;iy++) ifs >> thr[iy];
    
    //read PS threshold
    FileInPath parPSFile(conf_.getParameter<string>("PSThresholdFile"));
    ifstream ifsPS(parPSFile.fullPath().c_str());
    for (int iy=0;iy<12;iy++) ifsPS >> thrPS[iy];

}
void GoodSeedProducer::endRun ( void  ) [private, virtual]

Definition at line 545 of file GoodSeedProducer.cc.

References pfTransformer_, reader, resMapEtaECAL_, resMapPhiECAL_, and useTmva_.

                         {
  delete pfTransformer_;
  delete resMapEtaECAL_;
  delete resMapPhiECAL_;
  if(useTmva_) delete reader;
}
void GoodSeedProducer::fillPreIdRefValueMap ( edm::Handle< reco::TrackCollection tkhandle,
const edm::OrphanHandle< reco::PreIdCollection > &  preidhandle,
edm::ValueMap< reco::PreIdRef >::Filler &  filler 
) [private]

Definition at line 692 of file GoodSeedProducer.cc.

References edm::helper::Filler< Map >::insert(), refMap_, and makeHLTPrescaleTable::values.

Referenced by produce().

{
  std::vector<reco::PreIdRef> values;

  unsigned ntracks=tracks->size();
  for(unsigned itrack=0;itrack<ntracks;++itrack)
   {
     reco::TrackRef theTrackRef(tracks,itrack);
     std::map<reco::TrackRef,unsigned>::const_iterator itcheck=refMap_.find(theTrackRef);
     if(itcheck==refMap_.end()) 
       {
         // the track has been early discarded
         values.push_back(reco::PreIdRef());
       }
     else
       {
         edm::Ref<reco::PreIdCollection> preIdRef(preidhandle,itcheck->second);
         values.push_back(preIdRef);
         //      std::cout << " Checking Refs " << (theTrackRef==preIdRef->trackRef()) << std::endl;
       }
   }
  filler.insert(tracks,values.begin(),values.end());
}
int GoodSeedProducer::getBin ( float  eta,
float  pt 
) [private]

Find the bin in pt and eta.

Definition at line 563 of file GoodSeedProducer.cc.

References LogDebug.

Referenced by produce().

                                           {
  int ie=0;
  int ip=0;
  if (fabs(eta)<1.2) ie=0;
  else{ if (fabs(eta)<1.68) ie=1;
    else ie=2;
  }
  if (pt<6) ip=0;
  else {  if (pt<12) ip=1;     
        else ip=2;
  }
  int iep= ie*3+ip;
  LogDebug("GoodSeedProducer")<<"Track pt ="<<pt<<" eta="<<eta<<" bin="<<iep;
  return iep;
}
int GoodSeedProducer::getBin ( float  pt) [private]

Definition at line 553 of file GoodSeedProducer.cc.

                                {
int ip=0;
  if (pt<6) ip=0;
  else {  if (pt<12) ip=1;
        else ip=2;
  }
return ip;
}
bool GoodSeedProducer::IsIsolated ( float  charge,
float  P,
math::XYZPointF  myElecTrkEcalPos,
const reco::PFClusterCollection ecalColl,
const reco::PFClusterCollection hcalColl 
) [private]

Definition at line 640 of file GoodSeedProducer.cc.

References abs, DeDxDiscriminatorTools::charge(), HLTFastRecoForTau_cff::deltaEta, SiPixelRawToDigiRegional_cfi::deltaPhi, deltaR(), EcalStripSumE_deltaPhiOverQ_maxValue_, EcalStripSumE_deltaPhiOverQ_minValue_, EcalStripSumE_minClusEnergy_, HcalIsolWindow_, maxHoverP_, minEoverP_, and P.

Referenced by produce().

                                                                 {


  double myHCALenergy3x3=0.;
  double myStripClusterE=0.;
 

  //  reco::TrackRef myElecTrk;
  
  if (fabs(myElecTrkEcalPos.z())<1. && myElecTrkEcalPos.x()<1. && myElecTrkEcalPos.y()<1. ) return false; 

  
  
  PFClusterCollection::const_iterator hc=hcalColl.begin();
  PFClusterCollection::const_iterator hcend=hcalColl.end();
  for (;hc!=hcend;++hc){
    math::XYZPoint clusPos = hc->position();
    double en = hc->energy();
    double deltaR = ROOT::Math::VectorUtil::DeltaR(myElecTrkEcalPos,clusPos);
    if (deltaR<HcalIsolWindow_) {
      myHCALenergy3x3 += en;
      
    }
  }



  PFClusterCollection::const_iterator ec=ecalColl.begin();
  PFClusterCollection::const_iterator ecend=ecalColl.end();
  for (;ec!=ecend;++ec){
    math::XYZPoint clusPos = ec->position();
    double en = ec->energy();


    double deltaPhi = ROOT::Math::VectorUtil::DeltaPhi(myElecTrkEcalPos,clusPos);
    double deltaEta = abs(myElecTrkEcalPos.eta()-clusPos.eta());
    double deltaPhiOverQ = deltaPhi/charge;
    if (en >= EcalStripSumE_minClusEnergy_ && deltaEta<EcalStripSumE_deltaEta_ && deltaPhiOverQ > EcalStripSumE_deltaPhiOverQ_minValue_ && deltaPhiOverQ < EcalStripSumE_deltaPhiOverQ_maxValue_) { 
      myStripClusterE += en;
    }
  }       
  
  double EoP=myStripClusterE/P;
  double HoP=myHCALenergy3x3/P;


  return ((EoP>minEoverP_)&&(EoP<2.5) && (HoP<maxHoverP_))?true:false;
}
void GoodSeedProducer::produce ( edm::Event iEvent,
const edm::EventSetup iSetup 
) [private, virtual]

Implements edm::EDProducer.

Definition at line 149 of file GoodSeedProducer.cc.

References applyIsolation_, B_, DeDxDiscriminatorTools::charge(), chi, chiRatio, chired, clusThreshold_, disablePreId_, dpt, eP, eta, edm::EventID::event(), edm::helper::Filler< Map >::fill(), fillPreIdRefValueMap(), PFResolutionMap::FindBin(), fitter_, fitterName_, edm::EventSetup::get(), getBin(), edm::Event::getByLabel(), BaseParticlePropagator::getSuccess(), i, edm::EventBase::id(), IsIsolated(), LogDebug, maxEp_, maxEta_, maxPt_, method_, minEp_, minPt_, RawParticle::momentum(), nhit, AlCaHLTBitMon_ParallelJobs::p, pfCLusTagECLabel_, pfCLusTagHCLabel_, pfCLusTagPSLabel_, pos, funct::pow(), preidckf_, preidgsf_, preidname_, produceCkfseed_, producePreId_, edm::ESHandle< T >::product(), edm::Handle< T >::product(), BaseParticlePropagator::propagateToEcalEntrance(), ps1chi, ps1Clus, ps1En, ps2chi, ps2Clus, ps2En, PSforTMVA(), pt, reco::PreId::pt(), PtThresholdSavePredId_, edm::Event::put(), reader, refMap_, resMapEtaECAL_, resMapPhiECAL_, edm::EventID::run(), RawParticle::setCharge(), reco::ElectronSeed::setCtfTrack(), reco::PreId::setECALMatching(), reco::PreId::setECALMatchingProperties(), reco::PreId::setESMatching(), reco::PreId::setFinalDecision(), reco::PreId::setMVA(), reco::PreId::setTrack(), reco::PreId::setTrackFiltering(), reco::PreId::setTrackProperties(), smoother_, smootherName_, mathSSE::sqrt(), thr, thrPS, tmp, trackQuality_, tracksContainers_, TwoPi, usePreshower_, useQuality_, useTmva_, RawParticle::vertex(), x, detailsBasic3DVector::y, and z.

{

  LogDebug("GoodSeedProducer")<<"START event: "<<iEvent.id().event()
                              <<" in run "<<iEvent.id().run();
  //Create empty output collections
  auto_ptr<ElectronSeedCollection> output_preid(new ElectronSeedCollection);
  auto_ptr<TrajectorySeedCollection> output_nopre(new TrajectorySeedCollection);
  auto_ptr<PreIdCollection> output_preidinfo(new PreIdCollection);
  auto_ptr<edm::ValueMap<reco::PreIdRef> > preIdMap_p(new edm::ValueMap<reco::PreIdRef>);
  edm::ValueMap<reco::PreIdRef>::Filler mapFiller(*preIdMap_p);

  //Tracking Tools
  if(!disablePreId_)
    {
      iSetup.get<TrajectoryFitter::Record>().get(fitterName_, fitter_);
      iSetup.get<TrajectoryFitter::Record>().get(smootherName_, smoother_);
    }

  // clear temporary maps
  refMap_.clear();

  //Handle input collections
  //ECAL clusters             
  Handle<PFClusterCollection> theECPfClustCollection;
  iEvent.getByLabel(pfCLusTagECLabel_,theECPfClustCollection);
  
  vector<PFCluster> basClus;
  vector<PFCluster>::const_iterator iklus;
  for (iklus=theECPfClustCollection.product()->begin();
       iklus!=theECPfClustCollection.product()->end();
       iklus++){
    if((*iklus).energy()>clusThreshold_) basClus.push_back(*iklus);
  }

  //HCAL clusters
  Handle<PFClusterCollection> theHCPfClustCollection;
  iEvent.getByLabel(pfCLusTagHCLabel_,theHCPfClustCollection);
  
  //PS clusters
  Handle<PFClusterCollection> thePSPfClustCollection;
  iEvent.getByLabel(pfCLusTagPSLabel_,thePSPfClustCollection);
  
  ps1Clus.clear();
  ps2Clus.clear();
  
  for (iklus=thePSPfClustCollection.product()->begin();
       iklus!=thePSPfClustCollection.product()->end();
       iklus++){
    //layer==-11 first layer of PS
    //layer==-12 secon layer of PS
    if ((*iklus).layer()==-11) ps1Clus.push_back(*iklus);
    if ((*iklus).layer()==-12) ps2Clus.push_back(*iklus);
  }
  
  //Vector of track collections
  for (unsigned int istr=0; istr<tracksContainers_.size();istr++){
    
    //Track collection
    Handle<TrackCollection> tkRefCollection;
    iEvent.getByLabel(tracksContainers_[istr], tkRefCollection);
    const TrackCollection&  Tk=*(tkRefCollection.product());
    
    //Trajectory collection
    Handle<vector<Trajectory> > tjCollection;
    iEvent.getByLabel(tracksContainers_[istr], tjCollection);
    vector<Trajectory> Tj=*(tjCollection.product());
    
    
    LogDebug("GoodSeedProducer")<<"Number of tracks in collection "
                                <<tracksContainers_[istr] <<" to be analyzed "
                                <<Tj.size();
    

    //loop over the track collection
    for(unsigned int i=0;i<Tk.size();i++){              
      if (useQuality_ &&
          (!(Tk[i].quality(trackQuality_)))) continue;
      
      reco::PreId myPreId;
      bool GoodPreId=false;

      TrackRef trackRef(tkRefCollection, i);
      // TrajectorySeed Seed=Tj[i].seed();
      TrajectorySeed Seed=(*trackRef->seedRef());
      if(!disablePreId_)
        {
          int ipteta=getBin(Tk[i].eta(),Tk[i].pt());
          int ibin=ipteta*8;
          
          float PTOB=Tj[i].lastMeasurement().updatedState().globalMomentum().mag();
          float chikfred=Tk[i].normalizedChi2();
          int nhitpi=Tj[i].foundHits();
          float EP=0;
      
          // set track info
          myPreId.setTrack(trackRef);
          //CLUSTERS - TRACK matching
      
          float pfmass=  0.0005;
          float pfoutenergy=sqrt((pfmass*pfmass)+Tk[i].outerMomentum().Mag2());
          XYZTLorentzVector mom =XYZTLorentzVector(Tk[i].outerMomentum().x(),
                                                   Tk[i].outerMomentum().y(),
                                                   Tk[i].outerMomentum().z(),
                                                   pfoutenergy);
          XYZTLorentzVector pos =   XYZTLorentzVector(Tk[i].outerPosition().x(),
                                                      Tk[i].outerPosition().y(),
                                                      Tk[i].outerPosition().z(),
                                                      0.);

          BaseParticlePropagator theOutParticle = 
            BaseParticlePropagator( RawParticle(mom,pos),
                                    0,0,B_.z());
          theOutParticle.setCharge(Tk[i].charge());
      
          theOutParticle.propagateToEcalEntrance(false);
      
      
          float toteta=1000;
          float totphi=1000;
          float dr=1000;
          float EE=0;
          float feta=0;
          math::XYZPointF ElecTrkEcalPos(0,0,0);
          PFClusterRef clusterRef;
          math::XYZPoint meanShowerSaved;
          if(theOutParticle.getSuccess()!=0){
            ElecTrkEcalPos=math::XYZPointF(theOutParticle.vertex().x(),
                                           theOutParticle.vertex().y(),
                                           theOutParticle.vertex().z());
            bool isBelowPS=(fabs(theOutParticle.vertex().eta())>1.65) ? true :false;    
        
            unsigned clusCounter=0;

            for(vector<PFCluster>::const_iterator aClus = basClus.begin();
                aClus != basClus.end(); aClus++,++clusCounter) {
          
              double ecalShowerDepth
                = PFCluster::getDepthCorrection(aClus->energy(),
                                                isBelowPS,
                                                false);
        
              math::XYZPoint meanShower=math::XYZPoint(theOutParticle.vertex())+
                math::XYZTLorentzVector(theOutParticle.momentum()).Vect().Unit()*ecalShowerDepth;       
          
              float etarec=meanShower.eta();
              float phirec=meanShower.phi();
              float tmp_ep=aClus->energy()/PTOB;
              float tmp_phi=fabs(aClus->position().phi()-phirec);
              if (tmp_phi>TMath::TwoPi()) tmp_phi-= TMath::TwoPi();
              float tmp_dr=sqrt(pow(tmp_phi,2)+
                                pow((aClus->position().eta()-etarec),2));
          
              if ((tmp_dr<dr)&&(tmp_ep>minEp_)&&(tmp_ep<maxEp_)){
                dr=tmp_dr;
                toteta=aClus->position().eta()-etarec;
                totphi=tmp_phi;
                EP=tmp_ep;
                EE=aClus->energy();
                feta= aClus->position().eta();
                clusterRef = PFClusterRef(theECPfClustCollection,clusCounter);
                meanShowerSaved = meanShower;
              }
            }
          }

          //Resolution maps
          double ecaletares 
            = resMapEtaECAL_->GetBinContent(resMapEtaECAL_->FindBin(feta,EE));
          double ecalphires 
            = resMapPhiECAL_->GetBinContent(resMapPhiECAL_->FindBin(feta,EE)); 
      
          //geomatrical compatibility
          float chieta=(toteta!=1000)? toteta/ecaletares : toteta;
          float chiphi=(totphi!=1000)? totphi/ecalphires : totphi;
          float chichi= sqrt(chieta*chieta + chiphi*chiphi);
      
      
          //Matching criteria
          float chi2cut=thr[ibin+0];
          float ep_cutmin=thr[ibin+1];
          bool GoodMatching= ((chichi<chi2cut) &&(EP>ep_cutmin) && (nhitpi>10));
          bool EcalMatching=GoodMatching;
      
          if (Tk[i].pt()>maxPt_) GoodMatching=true;
          if (Tk[i].pt()<minPt_) GoodMatching=false;

          //ENDCAP
          //USE OF PRESHOWER 
          bool GoodPSMatching=false;
          if ((fabs(Tk[i].eta())>1.68)&&(usePreshower_)){
            int iptbin =4*getBin(Tk[i].pt());
            ps2En=0;ps1En=0;
            ps2chi=100.; ps1chi=100.;
            PSforTMVA(mom,pos);
            float p1e=thrPS[iptbin];
            float p2e=thrPS[iptbin+1];
            float p1c=thrPS[iptbin+2];
            float p2c=thrPS[iptbin+3];
            GoodPSMatching= 
              ((ps2En>p2e)
               &&(ps1En>p1e)
               &&(ps1chi<p1c)
               &&(ps2chi<p2c));
            GoodMatching = (GoodMatching && GoodPSMatching);
          }
  
          math::XYZPoint myPoint(ElecTrkEcalPos.X(),ElecTrkEcalPos.Y(),ElecTrkEcalPos.Z());
          myPreId.setECALMatchingProperties(clusterRef,myPoint,meanShowerSaved,toteta,totphi,chieta,
                                            chiphi,chichi,EP);
          myPreId.setECALMatching(EcalMatching);
          myPreId.setESMatching(GoodPSMatching);

          if(applyIsolation_){
            if(IsIsolated(float(Tk[i].charge()),Tk[i].p(),
                          ElecTrkEcalPos,*theECPfClustCollection,*theHCPfClustCollection)) 
              GoodMatching=true;
          }
          bool GoodRange= ((fabs(Tk[i].eta())<maxEta_) && 
                           (Tk[i].pt()>minPt_));
          //KF FILTERING FOR UNMATCHED EVENTS
          int hit1max=int(thr[ibin+2]);
          float chiredmin=thr[ibin+3];
          bool GoodKFFiltering =
            ((chikfred>chiredmin) || (nhitpi<hit1max));
      
          myPreId.setTrackFiltering(GoodKFFiltering);

          bool GoodTkId= false;
      
          if((!GoodMatching) &&(GoodKFFiltering) &&(GoodRange)){
            chi=chichi;
            chired=1000;
            chiRatio=1000;
            dpt=0;
            nhit=nhitpi;
      
            Trajectory::ConstRecHitContainer tmp;
            Trajectory::ConstRecHitContainer hits=Tj[i].recHits();
            for (int ih=hits.size()-1; ih>=0; ih--)  tmp.push_back(hits[ih]);
            vector<Trajectory> FitTjs=(fitter_.product())->fit(Seed,tmp,Tj[i].lastMeasurement().updatedState());
        
            if(FitTjs.size()>0){
              if(FitTjs[0].isValid()){
                vector<Trajectory> SmooTjs=(smoother_.product())->trajectories(FitTjs[0]);
                if(SmooTjs.size()>0){
                  if(SmooTjs[0].isValid()){
                
                    //Track refitted with electron hypothesis
                
                    float pt_out=SmooTjs[0].firstMeasurement().
                      updatedState().globalMomentum().perp();
                    float pt_in=SmooTjs[0].lastMeasurement().
                      updatedState().globalMomentum().perp();
                    dpt=(pt_in>0) ? fabs(pt_out-pt_in)/pt_in : 0.;
                    // the following is simply the number of degrees of freedom
                    chiRatio=SmooTjs[0].chiSquared()/Tj[i].chiSquared();
                    chired=chiRatio*chikfred;
                  }
                }
              }
            }
        
            //TMVA Analysis
            if(useTmva_){
        
              eta=Tk[i].eta();
              pt=Tk[i].pt();
              eP=EP;
          
              float Ytmva=reader->EvaluateMVA( method_ );
              
              float BDTcut=thr[ibin+4]; 
              if ( Ytmva>BDTcut) GoodTkId=true;
              myPreId.setMVA(GoodTkId,Ytmva);
              myPreId.setTrackProperties(chired,chiRatio,dpt);
            }else{ 
                          
              //
              float chiratiocut=thr[ibin+5]; 
              float gschicut=thr[ibin+6]; 
              float gsptmin=thr[ibin+7];

              GoodTkId=((dpt>gsptmin)&&(chired<gschicut)&&(chiRatio<chiratiocut));      
       
            }
          }
    
          GoodPreId= (GoodTkId || GoodMatching); 

          myPreId.setFinalDecision(GoodPreId);
      
          if(GoodPreId)
            LogDebug("GoodSeedProducer")<<"Track (pt= "<<Tk[i].pt()<<
              "GeV/c, eta= "<<Tk[i].eta() <<
              ") preidentified for agreement between  track and ECAL cluster";
          if(GoodPreId &&(!GoodMatching))
            LogDebug("GoodSeedProducer")<<"Track (pt= "<<Tk[i].pt()<<
              "GeV/c, eta= "<<Tk[i].eta() <<
              ") preidentified only for track properties";
        
        } // end of !disablePreId_
      
      if (GoodPreId){

        //NEW SEED with n hits  
        ElectronSeed NewSeed(Seed);
        NewSeed.setCtfTrack(trackRef);
        output_preid->push_back(NewSeed);
      }else{
        if (produceCkfseed_){
          output_nopre->push_back(Seed);
        }
      }
      if(producePreId_ && myPreId.pt()>PtThresholdSavePredId_)
        {
          // save the index of the PreId object as to be able to create a Ref later
          refMap_[trackRef] = output_preidinfo->size();
          output_preidinfo->push_back(myPreId);   
        }
    } //end loop on track collection
  } //end loop on the vector of track collections
  
  // no disablePreId_ switch, it is simpler to have an empty collection rather than no collection
  iEvent.put(output_preid,preidgsf_);
  if (produceCkfseed_)
    iEvent.put(output_nopre,preidckf_);
  if(producePreId_)
    {
      const edm::OrphanHandle<reco::PreIdCollection> preIdRefProd = iEvent.put(output_preidinfo,preidname_);
      // now make the Value Map, but only if one input collection
      if(tracksContainers_.size()==1)
        {
          Handle<TrackCollection> tkRefCollection ;
          iEvent.getByLabel(tracksContainers_[0],tkRefCollection);
          fillPreIdRefValueMap(tkRefCollection,preIdRefProd,mapFiller);
          mapFiller.fill();
          iEvent.put(preIdMap_p,preidname_);
        }
    }

   // clear temporary maps
  refMap_.clear();

}
void GoodSeedProducer::PSforTMVA ( math::XYZTLorentzVector  mom,
math::XYZTLorentzVector  pos 
) [private]

Definition at line 580 of file GoodSeedProducer.cc.

References create_public_lumi_plots::ax, B_, PFGeometry::innerRadius(), PFGeometry::outerRadius(), BaseParticlePropagator::propagateToPreshowerLayer1(), PFGeometry::PS1, ps1chi, ps1Clus, ps1En, PFGeometry::PS2, ps2chi, ps2Clus, ps2En, and mathSSE::sqrt().

Referenced by produce().

                                                                       {

  BaseParticlePropagator OutParticle(RawParticle(mom,pos)
                                     ,0.,0.,B_.z()) ;

  OutParticle.propagateToPreshowerLayer1(false);
  if (OutParticle.getSuccess()!=0){
    //   GlobalPoint v1=ps1TSOS.globalPosition();
    math::XYZPoint v1=math::XYZPoint(OutParticle.vertex());
    if ((v1.Rho() >=
         PFGeometry::innerRadius(PFGeometry::PS1)) &&
        (v1.Rho() <=
         PFGeometry::outerRadius(PFGeometry::PS1))) {
      float enPScl1=0;
      float chi1=100;
      vector<PFCluster>::const_iterator ips;
      for (ips=ps1Clus.begin(); ips!=ps1Clus.end();ips++){
        float ax=((*ips).position().x()-v1.x())/0.114;
        float ay=((*ips).position().y()-v1.y())/2.43;
        float pschi= sqrt(ax*ax+ay*ay);
        if (pschi<chi1){
          chi1=pschi;
          enPScl1=(*ips).energy();
        }
      }
      ps1En=enPScl1;
      ps1chi=chi1;


      OutParticle.propagateToPreshowerLayer2(false);
      if (OutParticle.getSuccess()!=0){
        math::XYZPoint v2=math::XYZPoint(OutParticle.vertex());
        if ((v2.Rho() >=
             PFGeometry::innerRadius(PFGeometry::PS2)) &&
            (v2.Rho() <=
             PFGeometry::outerRadius(PFGeometry::PS2))){
          float enPScl2=0;
          float chi2=100;
          for (ips=ps2Clus.begin(); ips!=ps2Clus.end();ips++){
            float ax=((*ips).position().x()-v2.x())/1.88;
            float ay=((*ips).position().y()-v2.y())/0.1449;
            float pschi= sqrt(ax*ax+ay*ay);
            if (pschi<chi2){
              chi2=pschi;
              enPScl2=(*ips).energy();
            }
          }

          ps2En=enPScl2;
          ps2chi=chi2;

        }
      }
      
    }
    
  }
}

Member Data Documentation

ISOLATION REQUEST AS DONE IN THE TAU GROUP.

Definition at line 103 of file GoodSeedProducer.h.

Referenced by GoodSeedProducer(), and produce().

B field.

Definition at line 168 of file GoodSeedProducer.h.

Referenced by beginRun(), produce(), and PSforTMVA().

float GoodSeedProducer::chi [private]

Definition at line 159 of file GoodSeedProducer.h.

Referenced by beginRun(), and produce().

float GoodSeedProducer::chiRatio [private]

Definition at line 159 of file GoodSeedProducer.h.

Referenced by beginRun(), and produce().

float GoodSeedProducer::chired [private]

Definition at line 159 of file GoodSeedProducer.h.

Referenced by beginRun(), and produce().

Cut on the energy of the clusters.

Definition at line 114 of file GoodSeedProducer.h.

Referenced by GoodSeedProducer(), and produce().

Definition at line 137 of file GoodSeedProducer.h.

Referenced by beginRun().

switch to disable the pre-id

Definition at line 124 of file GoodSeedProducer.h.

Referenced by GoodSeedProducer(), and produce().

float GoodSeedProducer::dpt [private]

Definition at line 159 of file GoodSeedProducer.h.

Referenced by beginRun(), and produce().

Definition at line 106 of file GoodSeedProducer.h.

Referenced by GoodSeedProducer().

Definition at line 108 of file GoodSeedProducer.h.

Referenced by GoodSeedProducer(), and IsIsolated().

Definition at line 107 of file GoodSeedProducer.h.

Referenced by GoodSeedProducer(), and IsIsolated().

Definition at line 105 of file GoodSeedProducer.h.

Referenced by GoodSeedProducer(), and IsIsolated().

float GoodSeedProducer::eP [private]

VARIABLES NEEDED FOR TMVA.

Definition at line 159 of file GoodSeedProducer.h.

Referenced by beginRun(), and produce().

float GoodSeedProducer::eta [private]

Definition at line 159 of file GoodSeedProducer.h.

Referenced by beginRun(), and produce().

Fitter.

Definition at line 86 of file GoodSeedProducer.h.

Referenced by produce().

std::string GoodSeedProducer::fitterName_ [private]

Definition at line 144 of file GoodSeedProducer.h.

Referenced by GoodSeedProducer(), and produce().

Definition at line 104 of file GoodSeedProducer.h.

Referenced by GoodSeedProducer(), and IsIsolated().

double GoodSeedProducer::maxEp_ [private]

Definition at line 118 of file GoodSeedProducer.h.

Referenced by GoodSeedProducer(), and produce().

double GoodSeedProducer::maxEta_ [private]

Definition at line 100 of file GoodSeedProducer.h.

Referenced by GoodSeedProducer(), and produce().

double GoodSeedProducer::maxHoverP_ [private]

Definition at line 110 of file GoodSeedProducer.h.

Referenced by GoodSeedProducer(), and IsIsolated().

double GoodSeedProducer::maxPt_ [private]

Definition at line 99 of file GoodSeedProducer.h.

Referenced by GoodSeedProducer(), and produce().

std::string GoodSeedProducer::method_ [private]

TMVA method.

Definition at line 165 of file GoodSeedProducer.h.

Referenced by beginRun(), and produce().

double GoodSeedProducer::minEoverP_ [private]

Definition at line 109 of file GoodSeedProducer.h.

Referenced by GoodSeedProducer(), and IsIsolated().

double GoodSeedProducer::minEp_ [private]

Min and MAx allowed values forEoverP.

Definition at line 117 of file GoodSeedProducer.h.

Referenced by GoodSeedProducer(), and produce().

double GoodSeedProducer::minPt_ [private]

Minimum transverse momentum and maximum pseudorapidity.

Definition at line 98 of file GoodSeedProducer.h.

Referenced by GoodSeedProducer(), and produce().

float GoodSeedProducer::nhit [private]

Definition at line 159 of file GoodSeedProducer.h.

Referenced by beginRun(), and produce().

Number of hits in the seed;.

Definition at line 95 of file GoodSeedProducer.h.

Referenced by GoodSeedProducer().

Definition at line 139 of file GoodSeedProducer.h.

Referenced by GoodSeedProducer(), and produce().

Definition at line 140 of file GoodSeedProducer.h.

Referenced by GoodSeedProducer(), and produce().

Definition at line 138 of file GoodSeedProducer.h.

Referenced by GoodSeedProducer(), and produce().

PFTrackTransformer.

Definition at line 92 of file GoodSeedProducer.h.

Referenced by beginRun(), endRun(), and ~GoodSeedProducer().

std::string GoodSeedProducer::preidckf_ [private]

Name of the Seed(Ckf) Collection.

Definition at line 77 of file GoodSeedProducer.h.

Referenced by GoodSeedProducer(), and produce().

std::string GoodSeedProducer::preidgsf_ [private]

Name of the Seed(Gsf) Collection.

Definition at line 80 of file GoodSeedProducer.h.

Referenced by GoodSeedProducer(), and produce().

std::string GoodSeedProducer::preidname_ [private]

Name of the preid Collection (FB)

Definition at line 83 of file GoodSeedProducer.h.

Referenced by GoodSeedProducer(), and produce().

Produce the Seed for Ckf tracks?

Definition at line 121 of file GoodSeedProducer.h.

Referenced by GoodSeedProducer(), and produce().

Produce the pre-id debugging collection.

Definition at line 127 of file GoodSeedProducer.h.

Referenced by GoodSeedProducer(), and produce().

std::string GoodSeedProducer::propagatorName_ [private]

Definition at line 146 of file GoodSeedProducer.h.

float GoodSeedProducer::ps1chi [private]

Definition at line 160 of file GoodSeedProducer.h.

Referenced by produce(), and PSforTMVA().

Vector of clusters of the PreShower.

Definition at line 73 of file GoodSeedProducer.h.

Referenced by produce(), and PSforTMVA().

float GoodSeedProducer::ps1En [private]

Definition at line 160 of file GoodSeedProducer.h.

Referenced by produce(), and PSforTMVA().

float GoodSeedProducer::ps2chi [private]

Definition at line 160 of file GoodSeedProducer.h.

Referenced by produce(), and PSforTMVA().

Definition at line 74 of file GoodSeedProducer.h.

Referenced by produce(), and PSforTMVA().

float GoodSeedProducer::ps2En [private]

Definition at line 160 of file GoodSeedProducer.h.

Referenced by produce(), and PSforTMVA().

float GoodSeedProducer::pt [private]

Definition at line 159 of file GoodSeedProducer.h.

Referenced by beginRun(), and produce().

Threshold to save Pre Idinfo.

Definition at line 130 of file GoodSeedProducer.h.

Referenced by GoodSeedProducer(), and produce().

TMVA::Reader* GoodSeedProducer::reader [private]

READER FOR TMVA.

Definition at line 156 of file GoodSeedProducer.h.

Referenced by beginRun(), endRun(), and produce().

std::map<reco::TrackRef,unsigned> GoodSeedProducer::refMap_ [private]

Map used to create the TrackRef, PreIdRef value map.

Definition at line 174 of file GoodSeedProducer.h.

Referenced by fillPreIdRefValueMap(), and produce().

Definition at line 148 of file GoodSeedProducer.h.

Referenced by beginRun(), endRun(), and produce().

Definition at line 149 of file GoodSeedProducer.h.

Referenced by beginRun(), endRun(), and produce().

Smoother.

Definition at line 89 of file GoodSeedProducer.h.

Referenced by produce().

std::string GoodSeedProducer::smootherName_ [private]

Definition at line 145 of file GoodSeedProducer.h.

Referenced by GoodSeedProducer(), and produce().

float GoodSeedProducer::thr[150] [private]

vector of thresholds for different bins of eta and pt

Definition at line 133 of file GoodSeedProducer.h.

Referenced by beginRun(), and produce().

float GoodSeedProducer::thrPS[20] [private]

Definition at line 134 of file GoodSeedProducer.h.

Referenced by beginRun(), and produce().

Definition at line 153 of file GoodSeedProducer.h.

Referenced by GoodSeedProducer(), and produce().

Definition at line 141 of file GoodSeedProducer.h.

Referenced by GoodSeedProducer(), and produce().

Use of Preshower clusters.

Definition at line 171 of file GoodSeedProducer.h.

Referenced by GoodSeedProducer(), and produce().

TRACK QUALITY.

Definition at line 152 of file GoodSeedProducer.h.

Referenced by GoodSeedProducer(), and produce().

USE OF TMVA.

Definition at line 162 of file GoodSeedProducer.h.

Referenced by beginRun(), endRun(), GoodSeedProducer(), and produce().