TreeFiller/src/FillerElectrons.cc

// $Id: FillerElectrons.cc,v 1.34 2009/05/05 13:24:01 loizides Exp $

#include "MitProd/TreeFiller/interface/FillerElectrons.h"
#include "DataFormats/TrackReco/interface/Track.h"
#include "DataFormats/GsfTrackReco/interface/GsfTrack.h"
#include "DataFormats/TrackReco/interface/TrackFwd.h"
#include "DataFormats/EgammaCandidates/interface/GsfElectron.h"
#include "DataFormats/EgammaCandidates/interface/GsfElectronFwd.h"
#include "DataFormats/EgammaReco/interface/ClusterShape.h"
#include "DataFormats/EgammaReco/interface/BasicClusterShapeAssociation.h"
#include "DataFormats/Common/interface/RefToPtr.h"
#include "DataFormats/Common/interface/ValueMap.h"
#include "AnalysisDataFormats/Egamma/interface/ElectronID.h"
#include "AnalysisDataFormats/Egamma/interface/ElectronIDAssociation.h"
#include "RecoEgamma/EgammaIsolationAlgos/interface/ElectronTkIsolation.h"
#include "RecoEgamma/EgammaIsolationAlgos/interface/EgammaEcalIsolation.h"
#include "RecoEgamma/EgammaIsolationAlgos/interface/EgammaTowerIsolation.h"
#include "RecoEcal/EgammaCoreTools/interface/EcalClusterLazyTools.h"
#include "MitAna/DataTree/interface/ElectronCol.h"
#include "MitAna/DataTree/interface/Names.h"
#include "MitAna/DataTree/interface/Track.h"
#include "MitEdm/DataFormats/interface/RefToBaseToPtr.h"
#include "MitProd/ObjectService/interface/ObjectService.h"

using namespace std;
using namespace edm;
using namespace mithep;

//--------------------------------------------------------------------------------------------------
FillerElectrons::FillerElectrons(const edm::ParameterSet &cfg, const char *name, bool active) :
  BaseFiller(cfg,name,active),
  edmName_(Conf().getUntrackedParameter<string>("edmName","pixelMatchGsfElectrons")),
  mitName_(Conf().getUntrackedParameter<string>("mitName",Names::gkElectronBrn)),
  gsfTrackMapName_(Conf().getUntrackedParameter<string>("gsfTrackMapName","")),
  trackerTrackMapName_(Conf().getUntrackedParameter<string>("trackerTrackMapName","")),
  barrelEcalRecHitName_(Conf().getUntrackedParameter<string>("barrelEcalRecHitName","")),
  endcapEcalRecHitName_(Conf().getUntrackedParameter<string>("endcapEcalRecHitName","")),
  barrelSuperClusterName_(Conf().getUntrackedParameter<string>("barrelSuperClusterName", "")),
  endcapSuperClusterName_(Conf().getUntrackedParameter<string>("endcapSuperClusterName", "")),
  barrelBasicClusterName_(Conf().getUntrackedParameter<string>("barrelBasicClusterName", "")),
  endcapBasicClusterName_(Conf().getUntrackedParameter<string>("endcapBasicClusterName", "")),
  barrelSuperClusterMapName_(Conf().getUntrackedParameter<string>("barrelSuperClusterMapName","")),
  endcapSuperClusterMapName_(Conf().getUntrackedParameter<string>("endcapSuperClusterMapName","")),
  eIDCutBasedTightName_(Conf().getUntrackedParameter<string>("eIDCutBasedTightName","eidTight")),
  eIDCutBasedLooseName_(Conf().getUntrackedParameter<string>("eIDCutBasedLooseName","eidLoose")),  
  eIDLikelihoodName_(Conf().getUntrackedParameter<string>("eIDLikelihood","eidLikelihood")),     
  eIDNeuralNetName_(Conf().getUntrackedParameter<string>("eIDNeuralNet","eidNeuralNet")),
  isoTrackColName_(Conf().getUntrackedParameter<string>
                   ("IsolationTrackCollectionName","generalTracks")),
  isoCaloTowerColName_(Conf().getUntrackedParameter<string>
                       ("IsolationCaloTowerCollectionName","towerMaker")),
  ecalJurassicIsoName_(Conf().getUntrackedParameter<string>
                       ("EcalJurassicIsolationName","eleIsoFromDepsEcalFromHits")),
  hcalJurassicIsoName_(Conf().getUntrackedParameter<string>
                       ("HcalJurassicIsolationName","eleIsoFromDepsHcalFromHits")),
  trackerIsoName_(Conf().getUntrackedParameter<string>
                  ("TrackerIsolationName","eleIsoFromDepsTk")),
  gsfTrackAssocName_(Conf().getUntrackedParameter<string>("gsfTrackAssocName","")),
  electrons_(new mithep::ElectronArr(16)),
  gsfTrackMap_(0),
  trackerTrackMap_(0),
  barrelSuperClusterMap_(0),
  endcapSuperClusterMap_(0)
{
  // Constructor.
}

//--------------------------------------------------------------------------------------------------
FillerElectrons::~FillerElectrons()
{
  // Destructor.

  delete electrons_;
}

//--------------------------------------------------------------------------------------------------
void FillerElectrons::BookDataBlock(TreeWriter &tws)
{
  // Add electron branch to our tree and get our maps.

  tws.AddBranch(mitName_,&electrons_);
  OS()->add<mithep::ElectronArr>(electrons_,mitName_);

  if (!gsfTrackMapName_.empty()) {
    gsfTrackMap_ = OS()->get<TrackMap>(gsfTrackMapName_);
    if (gsfTrackMap_)
      AddBranchDep(mitName_,gsfTrackMap_->GetBrName());
  }
  if (!trackerTrackMapName_.empty()) {
    trackerTrackMap_ = OS()->get<TrackMap>(trackerTrackMapName_);
    if (trackerTrackMap_)
      AddBranchDep(mitName_,trackerTrackMap_->GetBrName());
  }
  if (!barrelSuperClusterMapName_.empty()) {
    barrelSuperClusterMap_ = OS()->get<SuperClusterMap>(barrelSuperClusterMapName_);
    if (barrelSuperClusterMap_)
      AddBranchDep(mitName_,barrelSuperClusterMap_->GetBrName());
  }
  if (!endcapSuperClusterMapName_.empty()) {
    endcapSuperClusterMap_ = OS()->get<SuperClusterMap>(endcapSuperClusterMapName_);
    if (endcapSuperClusterMap_)
      AddBranchDep(mitName_,endcapSuperClusterMap_->GetBrName());
  }
}

//--------------------------------------------------------------------------------------------------
void FillerElectrons::FillDataBlock(const edm::Event &event, const edm::EventSetup &setup)       
{
  // Fill electrons from edm collection into our collection.

  electrons_->Delete();
  
  Handle<reco::GsfElectronCollection> hElectronProduct;
  GetProduct(edmName_, hElectronProduct, event);
  
  // handles to get the electron ID information
  Handle<edm::ValueMap<float> > eidLooseMap;
  GetProduct(eIDCutBasedLooseName_, eidLooseMap, event);
  Handle<edm::ValueMap<float> > eidTightMap;
  GetProduct(eIDCutBasedTightName_, eidTightMap, event);
  Handle<edm::ValueMap<float> > eidLikelihoodMap;
  GetProduct(eIDLikelihoodName_, eidLikelihoodMap, event);

  // get gsf track association map if needed
  mitedm::TrackAssociation gsfAssociation;
  if (trackerTrackMap_ && !gsfTrackAssocName_.empty()) {
    Handle<mitedm::TrackAssociation> gsfAssociationProduct;
    GetProduct(gsfTrackAssocName_, gsfAssociationProduct, event);  
    gsfAssociation = *(gsfAssociationProduct.product());
  }
  
  const reco::GsfElectronCollection inElectrons = *(hElectronProduct.product());
  // loop over electrons
  for (reco::GsfElectronCollection::const_iterator iM = inElectrons.begin(); 
       iM != inElectrons.end(); ++iM) {

    // the index and Ref are needed for the eID association Map
    unsigned int iElectron = iM - inElectrons.begin();
    reco::GsfElectronRef eRef(hElectronProduct, iElectron);

    mithep::Electron *outElectron = electrons_->AddNew();
    
    outElectron->SetPtEtaPhi(iM->pt(),iM->eta(),iM->phi());
         
    outElectron->SetESuperClusterOverP(iM->eSuperClusterOverP());
    outElectron->SetESeedClusterOverPout(iM->eSeedClusterOverPout());
    outElectron->SetPIn(iM->trackMomentumAtVtx().R());
    outElectron->SetPOut(iM->trackMomentumOut().R());
    outElectron->SetDeltaEtaSuperClusterTrackAtVtx(iM->deltaEtaSuperClusterTrackAtVtx());
    outElectron->SetDeltaEtaSeedClusterTrackAtCalo(iM->deltaEtaSeedClusterTrackAtCalo());
    outElectron->SetDeltaPhiSuperClusterTrackAtVtx(iM->deltaPhiSuperClusterTrackAtVtx());
    outElectron->SetDeltaPhiSeedClusterTrackAtCalo(iM->deltaPhiSeedClusterTrackAtCalo());
    outElectron->SetHadronicOverEm(iM->hadronicOverEm());
    outElectron->SetIsEnergyScaleCorrected(iM->isEnergyScaleCorrected());
    outElectron->SetIsMomentumCorrected(iM->isMomentumCorrected());
    outElectron->SetNumberOfClusters(iM->numberOfClusters());
    outElectron->SetClassification(iM->classification());

    // shower shape variables   
    EcalClusterLazyTools lazyTools(event, setup, edm::InputTag(barrelEcalRecHitName_), 
                                   edm::InputTag(endcapEcalRecHitName_));
    outElectron->SetE33(lazyTools.e3x3(*(iM->superCluster()->seed())));
    outElectron->SetE55(lazyTools.e5x5(*(iM->superCluster()->seed())));
    std::vector<float> vCov = lazyTools.covariances(*(iM->superCluster()->seed()));
    outElectron->SetCovEtaEta(vCov[0]);
    outElectron->SetCovEtaPhi(vCov[1]);
    outElectron->SetCovPhiPhi(vCov[2]);    
    std::vector<float> vCov2 = lazyTools.localCovariances(*(iM->superCluster()->seed()));
    outElectron->SetCoviEtaiEta(vCov2[0]);

    // compute isolations
    // get the barrel BasicClusters 
    edm::Handle<reco::BasicClusterCollection> barrelBasicClusterHandle;    
    GetProduct(barrelBasicClusterName_, barrelBasicClusterHandle, event);
    const reco::BasicClusterCollection* barrelBasicClusters = barrelBasicClusterHandle.product();

    // get the  endcap BasicClusters
    edm::Handle<reco::BasicClusterCollection> endcapBasicClusterHandle;
    GetProduct(endcapBasicClusterName_, endcapBasicClusterHandle, event);
    const reco::BasicClusterCollection* endcapBasicClusters = endcapBasicClusterHandle.product();
    
    // get the barrel SuperClusters
    edm::Handle<reco::SuperClusterCollection> barrelSuperClusterHandle;
    GetProduct(barrelSuperClusterName_, barrelSuperClusterHandle, event);
    const reco::SuperClusterCollection* barrelSuperClusters = barrelSuperClusterHandle.product();  

    // get the endcap SuperClusters
    edm::Handle<reco::SuperClusterCollection> endcapSuperClusterHandle;
    GetProduct(endcapSuperClusterName_, endcapSuperClusterHandle, event);
    const reco::SuperClusterCollection* endcapSuperClusters = endcapSuperClusterHandle.product();

    // find out whether this electron super cluster is in the barrel or endcap
    bool isBarrel=false;    
    if(barrelSuperClusterMap_->HasMit(iM->superCluster()))
      isBarrel = true;
   
    // compute ECAL isolation
    double extRadius = 0.3;
    double etLow = 0.0;
    double ecalIsoValue = 0.0;
    if (!isBarrel) {
      EgammaEcalIsolation myEcalIsolation(extRadius,etLow,endcapBasicClusters,endcapSuperClusters);
      ecalIsoValue = myEcalIsolation.getEcalEtSum(&(*iM));
    } else { 
      EgammaEcalIsolation myEcalIsolation(extRadius,etLow,barrelBasicClusters,barrelSuperClusters);
      ecalIsoValue = myEcalIsolation.getEcalEtSum(&(*iM));
    }
    
    // compute CaloTower isolation
    edm::Handle<CaloTowerCollection> caloTowers;
    GetProduct(isoCaloTowerColName_, caloTowers, event);
    extRadius = 0.3;
    etLow = 0.0;
    double intRadius = 0.02;
    //int hcalDepth = -1;  //-1 means we take all depths
    EgammaTowerIsolation myTowerIsolation(extRadius,intRadius,etLow,caloTowers.product());
    double towerIsoValue = myTowerIsolation.getTowerEtSum(&(*iM));
    outElectron->SetCaloTowerIsolation(towerIsoValue);
  
    // fill the isolation values
    outElectron->SetCaloIsolation(ecalIsoValue);

    // get and fill Track isolation        
    Handle<edm::ValueMap<double> > eleIsoFromDepsTkValueMap;
    GetProduct(trackerIsoName_, eleIsoFromDepsTkValueMap, event);
    outElectron->SetTrackIsolation((*eleIsoFromDepsTkValueMap)[eRef]); 
   
    // get and fill Jurassic isolation values
    Handle<edm::ValueMap<double> > eleIsoFromDepsEcalFromHitsValueMap;
    GetProduct(ecalJurassicIsoName_, eleIsoFromDepsEcalFromHitsValueMap, event);
    Handle<edm::ValueMap<double> > eleIsoFromDepsHcalFromHitsValueMap;
    GetProduct(hcalJurassicIsoName_, eleIsoFromDepsHcalFromHitsValueMap, event);

    outElectron->SetEcalJurassicIso((*eleIsoFromDepsEcalFromHitsValueMap)[eRef]);    
    outElectron->SetHcalIsolation((*eleIsoFromDepsHcalFromHitsValueMap)[eRef]);

    // make proper links to Tracks and Super Clusters
    if (gsfTrackMap_ && iM->gsfTrack().isNonnull()) 
      outElectron->SetGsfTrk(gsfTrackMap_->GetMit(refToPtr(iM->gsfTrack())));
    // make tracker track links, relinking from gsf track associations if configured and 
    // link is otherwise absent
    if (trackerTrackMap_) {
      if (iM->track().isNonnull()) 
        outElectron->SetTrackerTrk(trackerTrackMap_->GetMit(refToPtr(iM->track())));
      else if (!gsfTrackAssocName_.empty() && iM->gsfTrack().isNonnull()) {
        reco::TrackBaseRef gsfRef(iM->gsfTrack());
        std::vector<std::pair<reco::TrackBaseRef, double> > matchedTracks;
        try {
          matchedTracks = gsfAssociation[gsfRef];
        }
        catch (edm::Exception &ex) {
        }
        // take the best match, but only if more than 50% of the hits came 
        // from the original gsf track
        reco::TrackBaseRef trackerRef;
        double rMax = 0.0;
        for (uint imatch=0; imatch<matchedTracks.size(); ++imatch) {
          std::pair<reco::TrackBaseRef, double> &match = matchedTracks.at(imatch);
          double r = match.second;
          if (r>rMax && r>0.5) {
            rMax = r;
            trackerRef = match.first;
          }
        }
        if (trackerRef.isNonnull())
          outElectron->SetTrackerTrk(trackerTrackMap_->GetMit(mitedm::refToBaseToPtr(trackerRef)));
      }
    }
    if (barrelSuperClusterMap_ && endcapSuperClusterMap_ && iM->superCluster().isNonnull())
      if(isBarrel) {
        outElectron->SetSuperCluster(barrelSuperClusterMap_->GetMit(iM->superCluster()));        
      } else {
        outElectron->SetSuperCluster(endcapSuperClusterMap_->GetMit(iM->superCluster()));
      }

    // fill Electron ID information
    outElectron->SetPassLooseID((*eidLooseMap)[eRef]);
    outElectron->SetPassTightID((*eidTightMap)[eRef]);
    outElectron->SetIDLikelihood((*eidLikelihoodMap)[eRef]);
    
    if (verbose_>1) {
      double recomass = sqrt(iM->energy()*iM->energy() - iM->p()*iM->p());
      printf(" mithep::Electron,    pt=%5f, eta=%5f, phi=%5f, energy=%5f, p=%5f, mass=%5f\n",
             outElectron->Pt(), outElectron->Eta(), outElectron->Phi(), 
             outElectron->E(), outElectron->P(), outElectron->Mass());
      printf("reco::GsfElectron   , pt=%5f, eta=%5f, phi=%5f, energy=%5f, p=%5f, mass=%5f\n",
             iM->pt(), iM->eta(), iM->phi(), iM->energy(), iM->p(), recomass);  
    }
  }  
  electrons_->Trim();
}
Revision:	1.35
Committed:	Mon Jun 15 15:00:26 2009 UTC (15 years, 10 months ago) by loizides
Content type:	text/plain
Branch:	MAIN
CVS Tags:	Mit_009c, Mit_009b
Changes since 1.34:	+9 -9 lines
Log Message:	Added proper fwd defs plus split up complilation of MitAna/DataTree LinkDefs.
#	Content
1	// $Id: FillerElectrons.cc,v 1.34 2009/05/05 13:24:01 loizides Exp $
2
3	#include "MitProd/TreeFiller/interface/FillerElectrons.h"
4	#include "DataFormats/TrackReco/interface/Track.h"
5	#include "DataFormats/GsfTrackReco/interface/GsfTrack.h"
6	#include "DataFormats/TrackReco/interface/TrackFwd.h"
7	#include "DataFormats/EgammaCandidates/interface/GsfElectron.h"
8	#include "DataFormats/EgammaCandidates/interface/GsfElectronFwd.h"
9	#include "DataFormats/EgammaReco/interface/ClusterShape.h"
10	#include "DataFormats/EgammaReco/interface/BasicClusterShapeAssociation.h"
11	#include "DataFormats/Common/interface/RefToPtr.h"
12	#include "DataFormats/Common/interface/ValueMap.h"
13	#include "AnalysisDataFormats/Egamma/interface/ElectronID.h"
14	#include "AnalysisDataFormats/Egamma/interface/ElectronIDAssociation.h"
15	#include "RecoEgamma/EgammaIsolationAlgos/interface/ElectronTkIsolation.h"
16	#include "RecoEgamma/EgammaIsolationAlgos/interface/EgammaEcalIsolation.h"
17	#include "RecoEgamma/EgammaIsolationAlgos/interface/EgammaTowerIsolation.h"
18	#include "RecoEcal/EgammaCoreTools/interface/EcalClusterLazyTools.h"
19	#include "MitAna/DataTree/interface/ElectronCol.h"
20	#include "MitAna/DataTree/interface/Names.h"
21	#include "MitAna/DataTree/interface/Track.h"
22	#include "MitEdm/DataFormats/interface/RefToBaseToPtr.h"
23	#include "MitProd/ObjectService/interface/ObjectService.h"
24
25	using namespace std;
26	using namespace edm;
27	using namespace mithep;
28
29	//--------------------------------------------------------------------------------------------------
30	FillerElectrons::FillerElectrons(const edm::ParameterSet &cfg, const char *name, bool active) :
31	BaseFiller(cfg,name,active),
32	edmName_(Conf().getUntrackedParameter<string>("edmName","pixelMatchGsfElectrons")),
33	mitName_(Conf().getUntrackedParameter<string>("mitName",Names::gkElectronBrn)),
34	gsfTrackMapName_(Conf().getUntrackedParameter<string>("gsfTrackMapName","")),
35	trackerTrackMapName_(Conf().getUntrackedParameter<string>("trackerTrackMapName","")),
36	barrelEcalRecHitName_(Conf().getUntrackedParameter<string>("barrelEcalRecHitName","")),
37	endcapEcalRecHitName_(Conf().getUntrackedParameter<string>("endcapEcalRecHitName","")),
38	barrelSuperClusterName_(Conf().getUntrackedParameter<string>("barrelSuperClusterName", "")),
39	endcapSuperClusterName_(Conf().getUntrackedParameter<string>("endcapSuperClusterName", "")),
40	barrelBasicClusterName_(Conf().getUntrackedParameter<string>("barrelBasicClusterName", "")),
41	endcapBasicClusterName_(Conf().getUntrackedParameter<string>("endcapBasicClusterName", "")),
42	barrelSuperClusterMapName_(Conf().getUntrackedParameter<string>("barrelSuperClusterMapName","")),
43	endcapSuperClusterMapName_(Conf().getUntrackedParameter<string>("endcapSuperClusterMapName","")),
44	eIDCutBasedTightName_(Conf().getUntrackedParameter<string>("eIDCutBasedTightName","eidTight")),
45	eIDCutBasedLooseName_(Conf().getUntrackedParameter<string>("eIDCutBasedLooseName","eidLoose")),
46	eIDLikelihoodName_(Conf().getUntrackedParameter<string>("eIDLikelihood","eidLikelihood")),
47	eIDNeuralNetName_(Conf().getUntrackedParameter<string>("eIDNeuralNet","eidNeuralNet")),
48	isoTrackColName_(Conf().getUntrackedParameter<string>
49	("IsolationTrackCollectionName","generalTracks")),
50	isoCaloTowerColName_(Conf().getUntrackedParameter<string>
51	("IsolationCaloTowerCollectionName","towerMaker")),
52	ecalJurassicIsoName_(Conf().getUntrackedParameter<string>
53	("EcalJurassicIsolationName","eleIsoFromDepsEcalFromHits")),
54	hcalJurassicIsoName_(Conf().getUntrackedParameter<string>
55	("HcalJurassicIsolationName","eleIsoFromDepsHcalFromHits")),
56	trackerIsoName_(Conf().getUntrackedParameter<string>
57	("TrackerIsolationName","eleIsoFromDepsTk")),
58	gsfTrackAssocName_(Conf().getUntrackedParameter<string>("gsfTrackAssocName","")),
59	electrons_(new mithep::ElectronArr(16)),
60	gsfTrackMap_(0),
61	trackerTrackMap_(0),
62	barrelSuperClusterMap_(0),
63	endcapSuperClusterMap_(0)
64	{
65	// Constructor.
66	}
67
68	//--------------------------------------------------------------------------------------------------
69	FillerElectrons::~FillerElectrons()
70	{
71	// Destructor.
72
73	delete electrons_;
74	}
75
76	//--------------------------------------------------------------------------------------------------
77	void FillerElectrons::BookDataBlock(TreeWriter &tws)
78	{
79	// Add electron branch to our tree and get our maps.
80
81	tws.AddBranch(mitName_,&electrons_);
82	OS()->add<mithep::ElectronArr>(electrons_,mitName_);
83
84	if (!gsfTrackMapName_.empty()) {
85	gsfTrackMap_ = OS()->get<TrackMap>(gsfTrackMapName_);
86	if (gsfTrackMap_)
87	AddBranchDep(mitName_,gsfTrackMap_->GetBrName());
88	}
89	if (!trackerTrackMapName_.empty()) {
90	trackerTrackMap_ = OS()->get<TrackMap>(trackerTrackMapName_);
91	if (trackerTrackMap_)
92	AddBranchDep(mitName_,trackerTrackMap_->GetBrName());
93	}
94	if (!barrelSuperClusterMapName_.empty()) {
95	barrelSuperClusterMap_ = OS()->get<SuperClusterMap>(barrelSuperClusterMapName_);
96	if (barrelSuperClusterMap_)
97	AddBranchDep(mitName_,barrelSuperClusterMap_->GetBrName());
98	}
99	if (!endcapSuperClusterMapName_.empty()) {
100	endcapSuperClusterMap_ = OS()->get<SuperClusterMap>(endcapSuperClusterMapName_);
101	if (endcapSuperClusterMap_)
102	AddBranchDep(mitName_,endcapSuperClusterMap_->GetBrName());
103	}
104	}
105
106	//--------------------------------------------------------------------------------------------------
107	void FillerElectrons::FillDataBlock(const edm::Event &event, const edm::EventSetup &setup)
108	{
109	// Fill electrons from edm collection into our collection.
110
111	electrons_->Delete();
112
113	Handle<reco::GsfElectronCollection> hElectronProduct;
114	GetProduct(edmName_, hElectronProduct, event);
115
116	// handles to get the electron ID information
117	Handle<edm::ValueMap<float> > eidLooseMap;
118	GetProduct(eIDCutBasedLooseName_, eidLooseMap, event);
119	Handle<edm::ValueMap<float> > eidTightMap;
120	GetProduct(eIDCutBasedTightName_, eidTightMap, event);
121	Handle<edm::ValueMap<float> > eidLikelihoodMap;
122	GetProduct(eIDLikelihoodName_, eidLikelihoodMap, event);
123
124	// get gsf track association map if needed
125	mitedm::TrackAssociation gsfAssociation;
126	if (trackerTrackMap_ && !gsfTrackAssocName_.empty()) {
127	Handle<mitedm::TrackAssociation> gsfAssociationProduct;
128	GetProduct(gsfTrackAssocName_, gsfAssociationProduct, event);
129	gsfAssociation = *(gsfAssociationProduct.product());
130	}
131
132	const reco::GsfElectronCollection inElectrons = *(hElectronProduct.product());
133	// loop over electrons
134	for (reco::GsfElectronCollection::const_iterator iM = inElectrons.begin();
135	iM != inElectrons.end(); ++iM) {
136
137	// the index and Ref are needed for the eID association Map
138	unsigned int iElectron = iM - inElectrons.begin();
139	reco::GsfElectronRef eRef(hElectronProduct, iElectron);
140
141	mithep::Electron *outElectron = electrons_->AddNew();
142
143	outElectron->SetPtEtaPhi(iM->pt(),iM->eta(),iM->phi());
144
145	outElectron->SetESuperClusterOverP(iM->eSuperClusterOverP());
146	outElectron->SetESeedClusterOverPout(iM->eSeedClusterOverPout());
147	outElectron->SetPIn(iM->trackMomentumAtVtx().R());
148	outElectron->SetPOut(iM->trackMomentumOut().R());
149	outElectron->SetDeltaEtaSuperClusterTrackAtVtx(iM->deltaEtaSuperClusterTrackAtVtx());
150	outElectron->SetDeltaEtaSeedClusterTrackAtCalo(iM->deltaEtaSeedClusterTrackAtCalo());
151	outElectron->SetDeltaPhiSuperClusterTrackAtVtx(iM->deltaPhiSuperClusterTrackAtVtx());
152	outElectron->SetDeltaPhiSeedClusterTrackAtCalo(iM->deltaPhiSeedClusterTrackAtCalo());
153	outElectron->SetHadronicOverEm(iM->hadronicOverEm());
154	outElectron->SetIsEnergyScaleCorrected(iM->isEnergyScaleCorrected());
155	outElectron->SetIsMomentumCorrected(iM->isMomentumCorrected());
156	outElectron->SetNumberOfClusters(iM->numberOfClusters());
157	outElectron->SetClassification(iM->classification());
158
159	// shower shape variables
160	EcalClusterLazyTools lazyTools(event, setup, edm::InputTag(barrelEcalRecHitName_),
161	edm::InputTag(endcapEcalRecHitName_));
162	outElectron->SetE33(lazyTools.e3x3(*(iM->superCluster()->seed())));
163	outElectron->SetE55(lazyTools.e5x5(*(iM->superCluster()->seed())));
164	std::vector<float> vCov = lazyTools.covariances(*(iM->superCluster()->seed()));
165	outElectron->SetCovEtaEta(vCov[0]);
166	outElectron->SetCovEtaPhi(vCov[1]);
167	outElectron->SetCovPhiPhi(vCov[2]);
168	std::vector<float> vCov2 = lazyTools.localCovariances(*(iM->superCluster()->seed()));
169	outElectron->SetCoviEtaiEta(vCov2[0]);
170
171	// compute isolations
172	// get the barrel BasicClusters
173	edm::Handle<reco::BasicClusterCollection> barrelBasicClusterHandle;
174	GetProduct(barrelBasicClusterName_, barrelBasicClusterHandle, event);
175	const reco::BasicClusterCollection* barrelBasicClusters = barrelBasicClusterHandle.product();
176
177	// get the endcap BasicClusters
178	edm::Handle<reco::BasicClusterCollection> endcapBasicClusterHandle;
179	GetProduct(endcapBasicClusterName_, endcapBasicClusterHandle, event);
180	const reco::BasicClusterCollection* endcapBasicClusters = endcapBasicClusterHandle.product();
181
182	// get the barrel SuperClusters
183	edm::Handle<reco::SuperClusterCollection> barrelSuperClusterHandle;
184	GetProduct(barrelSuperClusterName_, barrelSuperClusterHandle, event);
185	const reco::SuperClusterCollection* barrelSuperClusters = barrelSuperClusterHandle.product();
186
187	// get the endcap SuperClusters
188	edm::Handle<reco::SuperClusterCollection> endcapSuperClusterHandle;
189	GetProduct(endcapSuperClusterName_, endcapSuperClusterHandle, event);
190	const reco::SuperClusterCollection* endcapSuperClusters = endcapSuperClusterHandle.product();
191
192	// find out whether this electron super cluster is in the barrel or endcap
193	bool isBarrel=false;
194	if(barrelSuperClusterMap_->HasMit(iM->superCluster()))
195	isBarrel = true;
196
197	// compute ECAL isolation
198	double extRadius = 0.3;
199	double etLow = 0.0;
200	double ecalIsoValue = 0.0;
201	if (!isBarrel) {
202	EgammaEcalIsolation myEcalIsolation(extRadius,etLow,endcapBasicClusters,endcapSuperClusters);
203	ecalIsoValue = myEcalIsolation.getEcalEtSum(&(*iM));
204	} else {
205	EgammaEcalIsolation myEcalIsolation(extRadius,etLow,barrelBasicClusters,barrelSuperClusters);
206	ecalIsoValue = myEcalIsolation.getEcalEtSum(&(*iM));
207	}
208
209	// compute CaloTower isolation
210	edm::Handle<CaloTowerCollection> caloTowers;
211	GetProduct(isoCaloTowerColName_, caloTowers, event);
212	extRadius = 0.3;
213	etLow = 0.0;
214	double intRadius = 0.02;
215	//int hcalDepth = -1; //-1 means we take all depths
216	EgammaTowerIsolation myTowerIsolation(extRadius,intRadius,etLow,caloTowers.product());
217	double towerIsoValue = myTowerIsolation.getTowerEtSum(&(*iM));
218	outElectron->SetCaloTowerIsolation(towerIsoValue);
219
220	// fill the isolation values
221	outElectron->SetCaloIsolation(ecalIsoValue);
222
223	// get and fill Track isolation
224	Handle<edm::ValueMap<double> > eleIsoFromDepsTkValueMap;
225	GetProduct(trackerIsoName_, eleIsoFromDepsTkValueMap, event);
226	outElectron->SetTrackIsolation((*eleIsoFromDepsTkValueMap)[eRef]);
227
228	// get and fill Jurassic isolation values
229	Handle<edm::ValueMap<double> > eleIsoFromDepsEcalFromHitsValueMap;
230	GetProduct(ecalJurassicIsoName_, eleIsoFromDepsEcalFromHitsValueMap, event);
231	Handle<edm::ValueMap<double> > eleIsoFromDepsHcalFromHitsValueMap;
232	GetProduct(hcalJurassicIsoName_, eleIsoFromDepsHcalFromHitsValueMap, event);
233
234	outElectron->SetEcalJurassicIso((*eleIsoFromDepsEcalFromHitsValueMap)[eRef]);
235	outElectron->SetHcalIsolation((*eleIsoFromDepsHcalFromHitsValueMap)[eRef]);
236
237	// make proper links to Tracks and Super Clusters
238	if (gsfTrackMap_ && iM->gsfTrack().isNonnull())
239	outElectron->SetGsfTrk(gsfTrackMap_->GetMit(refToPtr(iM->gsfTrack())));
240	// make tracker track links, relinking from gsf track associations if configured and
241	// link is otherwise absent
242	if (trackerTrackMap_) {
243	if (iM->track().isNonnull())
244	outElectron->SetTrackerTrk(trackerTrackMap_->GetMit(refToPtr(iM->track())));
245	else if (!gsfTrackAssocName_.empty() && iM->gsfTrack().isNonnull()) {
246	reco::TrackBaseRef gsfRef(iM->gsfTrack());
247	std::vector<std::pair<reco::TrackBaseRef, double> > matchedTracks;
248	try {
249	matchedTracks = gsfAssociation[gsfRef];
250	}
251	catch (edm::Exception &ex) {
252	}
253	// take the best match, but only if more than 50% of the hits came
254	// from the original gsf track
255	reco::TrackBaseRef trackerRef;
256	double rMax = 0.0;
257	for (uint imatch=0; imatch<matchedTracks.size(); ++imatch) {
258	std::pair<reco::TrackBaseRef, double> &match = matchedTracks.at(imatch);
259	double r = match.second;
260	if (r>rMax && r>0.5) {
261	rMax = r;
262	trackerRef = match.first;
263	}
264	}
265	if (trackerRef.isNonnull())
266	outElectron->SetTrackerTrk(trackerTrackMap_->GetMit(mitedm::refToBaseToPtr(trackerRef)));
267	}
268	}
269	if (barrelSuperClusterMap_ && endcapSuperClusterMap_ && iM->superCluster().isNonnull())
270	if(isBarrel) {
271	outElectron->SetSuperCluster(barrelSuperClusterMap_->GetMit(iM->superCluster()));
272	} else {
273	outElectron->SetSuperCluster(endcapSuperClusterMap_->GetMit(iM->superCluster()));
274	}
275
276	// fill Electron ID information
277	outElectron->SetPassLooseID((*eidLooseMap)[eRef]);
278	outElectron->SetPassTightID((*eidTightMap)[eRef]);
279	outElectron->SetIDLikelihood((*eidLikelihoodMap)[eRef]);
280
281	if (verbose_>1) {
282	double recomass = sqrt(iM->energy()iM->energy() - iM->p()iM->p());
283	printf(" mithep::Electron, pt=%5f, eta=%5f, phi=%5f, energy=%5f, p=%5f, mass=%5f\n",
284	outElectron->Pt(), outElectron->Eta(), outElectron->Phi(),
285	outElectron->E(), outElectron->P(), outElectron->Mass());
286	printf("reco::GsfElectron , pt=%5f, eta=%5f, phi=%5f, energy=%5f, p=%5f, mass=%5f\n",
287	iM->pt(), iM->eta(), iM->phi(), iM->energy(), iM->p(), recomass);
288	}
289	}
290	electrons_->Trim();
291	}