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// $Id: FillerElectrons.cc,v 1.53 2011/03/22 00:22:51 bendavid Exp $
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#include "MitProd/TreeFiller/interface/FillerElectrons.h"
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#include "DataFormats/TrackReco/interface/Track.h"
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#include "DataFormats/GsfTrackReco/interface/GsfTrack.h"
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#include "DataFormats/TrackReco/interface/TrackFwd.h"
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#include "DataFormats/EgammaCandidates/interface/GsfElectron.h"
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#include "DataFormats/EgammaCandidates/interface/GsfElectronFwd.h"
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#include "DataFormats/EgammaReco/interface/ClusterShape.h"
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#include "DataFormats/EgammaReco/interface/BasicClusterShapeAssociation.h"
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#include "DataFormats/Common/interface/RefToPtr.h"
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#include "DataFormats/Common/interface/ValueMap.h"
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#include "AnalysisDataFormats/Egamma/interface/ElectronID.h"
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#include "AnalysisDataFormats/Egamma/interface/ElectronIDAssociation.h"
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#include "RecoEgamma/EgammaIsolationAlgos/interface/ElectronTkIsolation.h"
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#include "RecoEgamma/EgammaIsolationAlgos/interface/EgammaEcalIsolation.h"
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#include "RecoEgamma/EgammaIsolationAlgos/interface/EgammaTowerIsolation.h"
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#include "RecoEcal/EgammaCoreTools/interface/EcalClusterLazyTools.h"
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#include "DataFormats/VertexReco/interface/VertexFwd.h"
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#include "TrackingTools/TransientTrack/interface/TransientTrackBuilder.h"
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#include "TrackingTools/TransientTrack/plugins/TransientTrackBuilderESProducer.h"
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#include "RecoVertex/GaussianSumVertexFit/interface/GsfVertexTrackCompatibilityEstimator.h"
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#include "TrackingTools/IPTools/interface/IPTools.h"
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#include "RecoEgamma/EgammaTools/interface/ConversionFinder.h"
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#include "MagneticField/Records/interface/IdealMagneticFieldRecord.h"
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#include "MagneticField/Engine/interface/MagneticField.h"
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#include "MitAna/DataTree/interface/ElectronCol.h"
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#include "MitAna/DataTree/interface/Names.h"
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#include "MitAna/DataTree/interface/Track.h"
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#include "MitEdm/DataFormats/interface/RefToBaseToPtr.h"
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#include "MitProd/ObjectService/interface/ObjectService.h"
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#include "MitEdm/DataFormats/interface/DecayPart.h"
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#include "MitEdm/ConversionRejection/interface/ConversionMatcher.h"
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#include "RecoVertex/VertexTools/interface/LinearizedTrackStateFactory.h"
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#include "RecoVertex/VertexTools/interface/VertexTrackFactory.h"
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#include "RecoVertex/VertexPrimitives/interface/VertexTrack.h"
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#include "RecoVertex/VertexPrimitives/interface/CachingVertex.h"
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#include "RecoVertex/KalmanVertexFit/interface/KalmanVertexUpdator.h"
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using namespace std;
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using namespace edm;
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using namespace mithep;
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//--------------------------------------------------------------------------------------------------
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FillerElectrons::FillerElectrons(const edm::ParameterSet &cfg, const char *name, bool active) :
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BaseFiller(cfg,name,active),
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edmName_(Conf().getUntrackedParameter<string>("edmName","pixelMatchGsfElectrons")),
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expectedHitsName_(Conf().getUntrackedParameter<string>("expectedHitsName","")),
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mitName_(Conf().getUntrackedParameter<string>("mitName",Names::gkElectronBrn)),
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gsfTrackMapName_(Conf().getUntrackedParameter<string>("gsfTrackMapName","")),
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trackerTrackMapName_(Conf().getUntrackedParameter<string>("trackerTrackMapName","")),
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barrelSuperClusterMapName_(Conf().getUntrackedParameter<string>("barrelSuperClusterMapName","")),
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endcapSuperClusterMapName_(Conf().getUntrackedParameter<string>("endcapSuperClusterMapName","")),
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pfSuperClusterMapName_(Conf().getUntrackedParameter<string>("pfSuperClusterMapName","")),
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eIDCutBasedTightName_(Conf().getUntrackedParameter<string>("eIDCutBasedTightName","eidTight")),
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eIDCutBasedLooseName_(Conf().getUntrackedParameter<string>("eIDCutBasedLooseName","eidLoose")),
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eIDLikelihoodName_(Conf().getUntrackedParameter<string>("eIDLikelihoodName","")),
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pvEdmName_(Conf().getUntrackedParameter<string>("pvEdmName","offlinePrimaryVertices")),
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pvBSEdmName_(Conf().getUntrackedParameter<string>("pvBSEdmName","offlinePrimaryVerticesWithBS")),
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recomputeConversionInfo_(Conf().getUntrackedParameter<bool>("recomputeConversionInfo",false)),
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electrons_(new mithep::ElectronArr(16)),
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gsfTrackMap_(0),
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trackerTrackMap_(0),
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barrelSuperClusterMap_(0),
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endcapSuperClusterMap_(0)
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{
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// Constructor.
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}
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//--------------------------------------------------------------------------------------------------
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FillerElectrons::~FillerElectrons()
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{
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// Destructor.
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delete electrons_;
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}
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//--------------------------------------------------------------------------------------------------
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void FillerElectrons::BookDataBlock(TreeWriter &tws)
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{
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// Add electron branch to our tree and get our maps.
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tws.AddBranch(mitName_,&electrons_);
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OS()->add<mithep::ElectronArr>(electrons_,mitName_);
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if (!gsfTrackMapName_.empty()) {
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gsfTrackMap_ = OS()->get<TrackMap>(gsfTrackMapName_);
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if (gsfTrackMap_)
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AddBranchDep(mitName_,gsfTrackMap_->GetBrName());
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}
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if (!trackerTrackMapName_.empty()) {
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trackerTrackMap_ = OS()->get<TrackMap>(trackerTrackMapName_);
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if (trackerTrackMap_)
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AddBranchDep(mitName_,trackerTrackMap_->GetBrName());
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}
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if (!barrelSuperClusterMapName_.empty()) {
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barrelSuperClusterMap_ = OS()->get<SuperClusterMap>(barrelSuperClusterMapName_);
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if (barrelSuperClusterMap_)
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AddBranchDep(mitName_,barrelSuperClusterMap_->GetBrName());
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}
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if (!endcapSuperClusterMapName_.empty()) {
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endcapSuperClusterMap_ = OS()->get<SuperClusterMap>(endcapSuperClusterMapName_);
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if (endcapSuperClusterMap_)
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AddBranchDep(mitName_,endcapSuperClusterMap_->GetBrName());
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}
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if (!pfSuperClusterMapName_.empty()) {
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pfSuperClusterMap_ = OS()->get<SuperClusterMap>(pfSuperClusterMapName_);
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if (pfSuperClusterMap_)
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AddBranchDep(mitName_,pfSuperClusterMap_->GetBrName());
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}
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}
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//--------------------------------------------------------------------------------------------------
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void FillerElectrons::FillDataBlock(const edm::Event &event, const edm::EventSetup &setup)
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{
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// Fill electrons from edm collection into our collection.
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electrons_->Delete();
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Handle<reco::GsfElectronCollection> hElectronProduct;
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GetProduct(edmName_, hElectronProduct, event);
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// handles to get the electron ID information
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Handle<edm::ValueMap<float> > eidLooseMap;
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GetProduct(eIDCutBasedLooseName_, eidLooseMap, event);
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Handle<edm::ValueMap<float> > eidTightMap;
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GetProduct(eIDCutBasedTightName_, eidTightMap, event);
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edm::Handle<edm::ValueMap<float> > eidLikelihoodMap;
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if (!eIDLikelihoodName_.empty()) {
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GetProduct(eIDLikelihoodName_, eidLikelihoodMap, event);
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}
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edm::Handle<reco::VertexCollection> hVertex;
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event.getByLabel(pvEdmName_, hVertex);
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const reco::VertexCollection *pvCol = hVertex.product();
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edm::Handle<reco::VertexCollection> hVertexBS;
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event.getByLabel(pvBSEdmName_, hVertexBS);
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const reco::VertexCollection *pvBSCol = hVertexBS.product();
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edm::Handle<reco::TrackCollection> hGeneralTracks;
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event.getByLabel("generalTracks", hGeneralTracks);
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//const reco::VertexCollection *trackCol = hGeneralTracks.product();
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edm::Handle<reco::GsfTrackCollection> hGsfTracks;
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event.getByLabel("electronGsfTracks", hGsfTracks);
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edm::Handle<std::vector<mitedm::DecayPart> > hConversions;
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event.getByLabel("mvfConversionRemoval", hConversions);
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mitedm::ConversionMatcher convMatcher;
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edm::ESHandle<TransientTrackBuilder> hTransientTrackBuilder;
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setup.get<TransientTrackRecord>().get("TransientTrackBuilder",hTransientTrackBuilder);
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const TransientTrackBuilder *transientTrackBuilder = hTransientTrackBuilder.product();
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GsfVertexTrackCompatibilityEstimator gsfEstimator;
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LinearizedTrackStateFactory lTrackFactory;
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VertexTrackFactory<5> vTrackFactory;
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KalmanVertexUpdator<5> updator;
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//Get Magnetic Field from event setup, taking value at (0,0,0)
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edm::ESHandle<MagneticField> magneticField;
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setup.get<IdealMagneticFieldRecord>().get(magneticField);
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const double bfield = magneticField->inTesla(GlobalPoint(0.,0.,0.)).z();
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const reco::GsfElectronCollection inElectrons = *(hElectronProduct.product());
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// loop over electrons
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for (reco::GsfElectronCollection::const_iterator iM = inElectrons.begin();
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iM != inElectrons.end(); ++iM) {
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// the index and Ref are needed for the eID association Map
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unsigned int iElectron = iM - inElectrons.begin();
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reco::GsfElectronRef eRef(hElectronProduct, iElectron);
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mithep::Electron *outElectron = electrons_->AddNew();
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outElectron->SetPtEtaPhi(iM->pt(),iM->eta(),iM->phi());
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outElectron->SetCharge(iM->charge());
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outElectron->SetScPixCharge(iM->scPixCharge());
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outElectron->SetESuperClusterOverP(iM->eSuperClusterOverP());
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outElectron->SetESeedClusterOverPout(iM->eSeedClusterOverPout());
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outElectron->SetPIn(iM->trackMomentumAtVtx().R());
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outElectron->SetPOut(iM->trackMomentumOut().R());
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outElectron->SetDeltaEtaSuperClusterTrackAtVtx(iM->deltaEtaSuperClusterTrackAtVtx());
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outElectron->SetDeltaEtaSeedClusterTrackAtCalo(iM->deltaEtaSeedClusterTrackAtCalo());
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outElectron->SetDeltaPhiSuperClusterTrackAtVtx(iM->deltaPhiSuperClusterTrackAtVtx());
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outElectron->SetDeltaPhiSeedClusterTrackAtCalo(iM->deltaPhiSeedClusterTrackAtCalo());
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outElectron->SetIsEnergyScaleCorrected(iM->isEnergyScaleCorrected());
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outElectron->SetIsMomentumCorrected(iM->isMomentumCorrected());
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outElectron->SetNumberOfClusters(iM->basicClustersSize());
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outElectron->SetClassification(iM->classification());
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outElectron->SetFBrem(iM->fbrem());
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// pflow electron stuff
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outElectron->SetIsEcalDriven(iM->ecalDrivenSeed());
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outElectron->SetIsTrackerDriven(iM->trackerDrivenSeed());
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outElectron->SetMva(iM->mva());
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// shower shape variables
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outElectron->SetE15(iM->e1x5());
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outElectron->SetE25Max(iM->e2x5Max());
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outElectron->SetE55(iM->e5x5());
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outElectron->SetCovEtaEta(iM->sigmaEtaEta());
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outElectron->SetCoviEtaiEta(iM->sigmaIetaIeta());
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outElectron->SetHadronicOverEm(iM->hcalOverEcal());
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outElectron->SetHcalDepth1OverEcal(iM->hcalDepth1OverEcal());
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outElectron->SetHcalDepth2OverEcal(iM->hcalDepth2OverEcal());
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// fill isolation variables for both cone sizes
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outElectron->SetEcalRecHitIsoDr04(iM->dr04EcalRecHitSumEt());
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outElectron->SetHcalDepth1TowerSumEtDr04(iM->dr04HcalDepth1TowerSumEt());
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outElectron->SetHcalDepth2TowerSumEtDr04(iM->dr04HcalDepth2TowerSumEt());
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outElectron->SetTrackIsolationDr04(iM->dr04TkSumPt());
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outElectron->SetEcalRecHitIsoDr03(iM->dr03EcalRecHitSumEt());
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outElectron->SetHcalTowerSumEtDr03(iM->dr03HcalTowerSumEt());
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outElectron->SetHcalDepth1TowerSumEtDr03(iM->dr03HcalDepth1TowerSumEt());
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outElectron->SetHcalDepth2TowerSumEtDr03(iM->dr03HcalDepth2TowerSumEt());
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outElectron->SetTrackIsolationDr03(iM->dr03TkSumPt());
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// fiducial flags
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outElectron->SetIsEB(iM->isEB());
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outElectron->SetIsEE(iM->isEE());
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outElectron->SetIsEBEEGap(iM->isEBEEGap());
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outElectron->SetIsEBEtaGap(iM->isEBEtaGap());
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outElectron->SetIsEBPhiGap(iM->isEBPhiGap());
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outElectron->SetIsEEDeeGap(iM->isEEDeeGap());
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outElectron->SetIsEERingGap(iM->isEERingGap());
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// gsf-tracker match quality
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outElectron->SetFracSharedHits(iM->shFracInnerHits());
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// make proper links to Tracks and Super Clusters
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if (gsfTrackMap_ && iM->gsfTrack().isNonnull()) {
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outElectron->SetGsfTrk(gsfTrackMap_->GetMit(refToPtr(iM->gsfTrack())));
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}
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// make links to ambigous gsf tracks
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if (gsfTrackMap_) {
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for (reco::GsfTrackRefVector::const_iterator agsfi = iM->ambiguousGsfTracksBegin(); agsfi != iM->ambiguousGsfTracksEnd(); ++agsfi) {
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outElectron->AddAmbiguousGsfTrack(gsfTrackMap_->GetMit(refToPtr(*agsfi)));
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}
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}
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// make tracker track links,
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if (trackerTrackMap_ && iM->closestCtfTrackRef().isNonnull()) {
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outElectron->SetTrackerTrk(trackerTrackMap_->GetMit(refToPtr(iM->closestCtfTrackRef())));
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}
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if (barrelSuperClusterMap_ && endcapSuperClusterMap_ &&
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pfSuperClusterMap_ && iM->superCluster().isNonnull()) {
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if(barrelSuperClusterMap_->HasMit(iM->superCluster())) {
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outElectron->SetSuperCluster(barrelSuperClusterMap_->GetMit(iM->superCluster()));
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}
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else if (endcapSuperClusterMap_->HasMit(iM->superCluster())) {
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outElectron->SetSuperCluster(endcapSuperClusterMap_->GetMit(iM->superCluster()));
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}
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else if (pfSuperClusterMap_->HasMit(iM->superCluster())) {
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outElectron->SetSuperCluster(pfSuperClusterMap_->GetMit(iM->superCluster()));
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}
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else throw edm::Exception(edm::errors::Configuration, "FillerElectrons:FillDataBlock()\n")
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<< "Error! SuperCluster reference in unmapped collection " << edmName_ << endl;
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}
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//compute impact parameter with respect to PV
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if (iM->gsfTrack().isNonnull()) {
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const reco::TransientTrack &tt = transientTrackBuilder->build(iM->gsfTrack());
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reco::TransientTrack ttckf;
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reco::Vertex thevtx;// = pvCol->at(0);
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reco::Vertex thevtxbs;// = pvBSCol->at(0);
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double mindzvtx = 9999.;
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for (uint ivtx = 0; ivtx<pvCol->size(); ++ivtx) {
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reco::Vertex avtx = pvCol->at(ivtx);
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double dzvtx = std::abs(iM->gsfTrack()->dz(avtx.position()));
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if (dzvtx<mindzvtx) {
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mindzvtx = dzvtx;
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thevtx = avtx;
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}
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}
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double mindzvtxbs = 9999.;
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for (uint ivtxbs = 0; ivtxbs<pvBSCol->size(); ++ivtxbs) {
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reco::Vertex avtxbs = pvBSCol->at(ivtxbs);
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double dzvtxbs = std::abs(iM->gsfTrack()->dz(avtxbs.position()));
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if (dzvtxbs<mindzvtxbs) {
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mindzvtxbs = dzvtxbs;
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thevtxbs = avtxbs;
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}
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}
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//check if closest ctf track is included in PV and if so, remove it before computing impact parameters and uncertainties
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if (iM->closestCtfTrackRef().isNonnull()) {
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ttckf = transientTrackBuilder->build(iM->closestCtfTrackRef());
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if (0) { //don't refit vertex for now
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if (find(thevtx.tracks_begin(), thevtx.tracks_end(), ttckf.trackBaseRef()) != thevtx.tracks_end()) {
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GlobalPoint linP(Basic3DVector<float> (thevtx.position()));
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KalmanVertexUpdator<5>::RefCountedLinearizedTrackState linTrack = lTrackFactory.linearizedTrackState(linP, ttckf);
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GlobalError err(thevtx.covariance());
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VertexState vState(linP, err);
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KalmanVertexUpdator<5>::RefCountedVertexTrack vertexTrack = vTrackFactory.vertexTrack(linTrack, vState);
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std::vector<KalmanVertexUpdator<5>::RefCountedVertexTrack> initialTracks(1, vertexTrack);
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CachingVertex<5> cachingVertex(linP, err, initialTracks, thevtx.chi2());
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const CachingVertex<5> &newCachingVertex = updator.remove(cachingVertex,vertexTrack);
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if (newCachingVertex.isValid()) {
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const TransientVertex &tvtx = newCachingVertex;
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thevtx = tvtx;
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}
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}
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if (find(thevtxbs.tracks_begin(), thevtxbs.tracks_end(), ttckf.trackBaseRef()) != thevtxbs.tracks_end()) {
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GlobalPoint linP(Basic3DVector<float> (thevtxbs.position()));
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KalmanVertexUpdator<5>::RefCountedLinearizedTrackState linTrack = lTrackFactory.linearizedTrackState(linP, ttckf);
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GlobalError err(thevtxbs.covariance());
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VertexState vState(linP, err);
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KalmanVertexUpdator<5>::RefCountedVertexTrack vertexTrack = vTrackFactory.vertexTrack(linTrack, vState);
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std::vector<KalmanVertexUpdator<5>::RefCountedVertexTrack> initialTracks(1, vertexTrack);
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CachingVertex<5> cachingVertex(linP, err, initialTracks, thevtxbs.chi2());
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| 328 |
const CachingVertex<5> &newCachingVertex = updator.remove(cachingVertex,vertexTrack);
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if (newCachingVertex.isValid()) {
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const TransientVertex &tvtx = newCachingVertex;
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thevtxbs = tvtx;
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}
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}
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}
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}
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//preserve sign of transverse impact parameter (cross-product definition from track, not lifetime-signing)
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const double gsfsign = ( (-iM->gsfTrack()->dxy(thevtx.position())) >=0 ) ? 1. : -1.;
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const double gsfsignbs = ( (-iM->gsfTrack()->dxy(thevtxbs.position())) >=0 ) ? 1. : -1.;
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| 342 |
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const std::pair<bool,Measurement1D> &d0pv = IPTools::absoluteTransverseImpactParameter(tt,thevtx);
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if (d0pv.first) {
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outElectron->SetD0PV(gsfsign*d0pv.second.value());
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outElectron->SetD0PVErr(d0pv.second.error());
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| 347 |
}
|
| 348 |
else {
|
| 349 |
outElectron->SetD0PV(-999.0);
|
| 350 |
}
|
| 351 |
|
| 352 |
|
| 353 |
const std::pair<bool,Measurement1D> &ip3dpv = IPTools::absoluteImpactParameter3D(tt,thevtx);
|
| 354 |
if (ip3dpv.first) {
|
| 355 |
outElectron->SetIp3dPV(gsfsign*ip3dpv.second.value());
|
| 356 |
outElectron->SetIp3dPVErr(ip3dpv.second.error());
|
| 357 |
}
|
| 358 |
else {
|
| 359 |
outElectron->SetIp3dPV(-999.0);
|
| 360 |
}
|
| 361 |
|
| 362 |
const std::pair<bool,Measurement1D> &d0pvbs = IPTools::absoluteTransverseImpactParameter(tt,thevtxbs);
|
| 363 |
if (d0pvbs.first) {
|
| 364 |
outElectron->SetD0PVBS(gsfsignbs*d0pvbs.second.value());
|
| 365 |
outElectron->SetD0PVBSErr(d0pvbs.second.error());
|
| 366 |
}
|
| 367 |
else {
|
| 368 |
outElectron->SetD0PVBS(-999.0);
|
| 369 |
}
|
| 370 |
|
| 371 |
const std::pair<bool,Measurement1D> &ip3dpvbs = IPTools::absoluteImpactParameter3D(tt,thevtxbs);
|
| 372 |
if (ip3dpvbs.first) {
|
| 373 |
outElectron->SetIp3dPVBS(gsfsignbs*ip3dpvbs.second.value());
|
| 374 |
outElectron->SetIp3dPVBSErr(ip3dpvbs.second.error());
|
| 375 |
}
|
| 376 |
else {
|
| 377 |
outElectron->SetIp3dPVBS(-999.0);
|
| 378 |
}
|
| 379 |
|
| 380 |
if (iM->closestCtfTrackRef().isNonnull()) {
|
| 381 |
|
| 382 |
const double ckfsign = ( (-iM->closestCtfTrackRef()->dxy(thevtx.position())) >=0 ) ? 1. : -1.;
|
| 383 |
const double ckfsignbs = ( (-iM->closestCtfTrackRef()->dxy(thevtxbs.position())) >=0 ) ? 1. : -1.;
|
| 384 |
|
| 385 |
const std::pair<bool,Measurement1D> &d0pvckf = IPTools::absoluteTransverseImpactParameter(ttckf,thevtx);
|
| 386 |
if (d0pvckf.first) {
|
| 387 |
outElectron->SetD0PVCkf(ckfsign*d0pvckf.second.value());
|
| 388 |
outElectron->SetD0PVCkfErr(d0pvckf.second.error());
|
| 389 |
}
|
| 390 |
else {
|
| 391 |
outElectron->SetD0PVCkf(-999.0);
|
| 392 |
}
|
| 393 |
|
| 394 |
|
| 395 |
const std::pair<bool,Measurement1D> &ip3dpvckf = IPTools::absoluteImpactParameter3D(ttckf,thevtx);
|
| 396 |
if (ip3dpvckf.first) {
|
| 397 |
outElectron->SetIp3dPVCkf(ckfsign*ip3dpvckf.second.value());
|
| 398 |
outElectron->SetIp3dPVCkfErr(ip3dpvckf.second.error());
|
| 399 |
}
|
| 400 |
else {
|
| 401 |
outElectron->SetIp3dPVCkf(-999.0);
|
| 402 |
}
|
| 403 |
|
| 404 |
const std::pair<bool,Measurement1D> &d0pvbsckf = IPTools::absoluteTransverseImpactParameter(ttckf,thevtxbs);
|
| 405 |
if (d0pvbsckf.first) {
|
| 406 |
outElectron->SetD0PVBSCkf(ckfsignbs*d0pvbsckf.second.value());
|
| 407 |
outElectron->SetD0PVBSCkfErr(d0pvbsckf.second.error());
|
| 408 |
}
|
| 409 |
else {
|
| 410 |
outElectron->SetD0PVBSCkf(-999.0);
|
| 411 |
}
|
| 412 |
|
| 413 |
const std::pair<bool,Measurement1D> &ip3dpvbsckf = IPTools::absoluteImpactParameter3D(ttckf,thevtxbs);
|
| 414 |
if (ip3dpvbsckf.first) {
|
| 415 |
outElectron->SetIp3dPVBSCkf(ckfsignbs*ip3dpvbsckf.second.value());
|
| 416 |
outElectron->SetIp3dPVBSCkfErr(ip3dpvbsckf.second.error());
|
| 417 |
}
|
| 418 |
else {
|
| 419 |
outElectron->SetIp3dPVBSCkf(-999.0);
|
| 420 |
}
|
| 421 |
}
|
| 422 |
else {
|
| 423 |
outElectron->SetD0PVCkf(-999.0);
|
| 424 |
outElectron->SetIp3dPVCkf(-999.0);
|
| 425 |
outElectron->SetD0PVBSCkf(-999.0);
|
| 426 |
outElectron->SetIp3dPVBSCkf(-999.0);
|
| 427 |
}
|
| 428 |
|
| 429 |
|
| 430 |
if (verbose_>1) {
|
| 431 |
printf("gsf track pt = %5f\n",iM->gsfTrack()->pt());
|
| 432 |
printf("gsf track mode pt = %5f\n",iM->gsfTrack()->ptMode());
|
| 433 |
printf("ttrack pt = %5f\n",tt.initialFreeState().momentum().perp());
|
| 434 |
//printf("ttrackgsf pt = %5f\n",ttgsf.innermostMeasurementState().globalMomentum().perp());
|
| 435 |
printf("ip3dpv reduced chisquared = %5f, probability = %5f\n", ip3dpv.second.value()/ip3dpv.second.error(), TMath::Prob(ip3dpv.second.value()/ip3dpv.second.error(),1));
|
| 436 |
//printf("gsf reduced chisquared = %5f, probability = %5f\n", pvGsfCompat.second/2, TMath::Prob(pvGsfCompat.second,2));
|
| 437 |
}
|
| 438 |
|
| 439 |
}
|
| 440 |
|
| 441 |
|
| 442 |
//fill conversion partner track info
|
| 443 |
if (recomputeConversionInfo_) {
|
| 444 |
ConversionFinder convFinder; outElectron->SetConvPartnerDCotTheta(iM->convDcot());
|
| 445 |
ConversionInfo convInfo = convFinder.getConversionInfo(*iM, hGeneralTracks, hGsfTracks, bfield);
|
| 446 |
|
| 447 |
outElectron->SetConvFlag(convInfo.flag());
|
| 448 |
outElectron->SetConvPartnerDCotTheta(convInfo.dcot());
|
| 449 |
outElectron->SetConvPartnerDist(convInfo.dist());
|
| 450 |
outElectron->SetConvPartnerRadius(convInfo.radiusOfConversion());
|
| 451 |
reco::TrackRef ckfconvTrackRef = convInfo.conversionPartnerCtfTk();
|
| 452 |
reco::GsfTrackRef gsfconvTrackRef = convInfo.conversionPartnerGsfTk();
|
| 453 |
|
| 454 |
|
| 455 |
if ( gsfconvTrackRef.isNonnull() && gsfTrackMap_ ) {
|
| 456 |
outElectron->SetConvPartnerTrk(gsfTrackMap_->GetMit(edm::refToPtr(gsfconvTrackRef)));
|
| 457 |
}
|
| 458 |
else if (ckfconvTrackRef.isNonnull() && trackerTrackMap_) {
|
| 459 |
outElectron->SetConvPartnerTrk(trackerTrackMap_->GetMit(edm::refToPtr(ckfconvTrackRef)));
|
| 460 |
}
|
| 461 |
}
|
| 462 |
else {
|
| 463 |
outElectron->SetConvFlag(iM->convFlags());
|
| 464 |
outElectron->SetConvPartnerDCotTheta(iM->convDcot());
|
| 465 |
outElectron->SetConvPartnerDist(iM->convDist());
|
| 466 |
outElectron->SetConvPartnerRadius(iM->convRadius());
|
| 467 |
reco::TrackBaseRef convTrackRef = iM->convPartner();
|
| 468 |
if (convTrackRef.isNonnull()) {
|
| 469 |
if ( dynamic_cast<const reco::GsfTrack*>(convTrackRef.get()) && gsfTrackMap_ ) {
|
| 470 |
outElectron->SetConvPartnerTrk(gsfTrackMap_->GetMit(mitedm::refToBaseToPtr(convTrackRef)));
|
| 471 |
}
|
| 472 |
else if (trackerTrackMap_) {
|
| 473 |
outElectron->SetConvPartnerTrk(trackerTrackMap_->GetMit(mitedm::refToBaseToPtr(convTrackRef)));
|
| 474 |
}
|
| 475 |
}
|
| 476 |
}
|
| 477 |
|
| 478 |
|
| 479 |
|
| 480 |
// fill Electron ID information
|
| 481 |
outElectron->SetPassLooseID((*eidLooseMap)[eRef]);
|
| 482 |
outElectron->SetPassTightID((*eidTightMap)[eRef]);
|
| 483 |
if (!eIDLikelihoodName_.empty()) {
|
| 484 |
outElectron->SetIDLikelihood((*eidLikelihoodMap)[eRef]);
|
| 485 |
}
|
| 486 |
|
| 487 |
// fill corrected expected inner hits
|
| 488 |
if(iM->gsfTrack().isNonnull()) {
|
| 489 |
outElectron->SetCorrectedNExpectedHitsInner(iM->gsfTrack()->trackerExpectedHitsInner().numberOfHits());
|
| 490 |
}
|
| 491 |
|
| 492 |
//fill additional conversion flag
|
| 493 |
outElectron->SetMatchesVertexConversion(convMatcher.matchesGoodConversion(*iM,hConversions));
|
| 494 |
|
| 495 |
if (verbose_>1) {
|
| 496 |
double recomass = sqrt(iM->energy()*iM->energy() - iM->p()*iM->p());
|
| 497 |
printf(" mithep::Electron, pt=%5f, eta=%5f, phi=%5f, energy=%5f, p=%5f, mass=%5f\n",
|
| 498 |
outElectron->Pt(), outElectron->Eta(), outElectron->Phi(),
|
| 499 |
outElectron->E(), outElectron->P(), outElectron->Mass());
|
| 500 |
printf("reco::GsfElectron , pt=%5f, eta=%5f, phi=%5f, energy=%5f, p=%5f, mass=%5f\n",
|
| 501 |
iM->pt(), iM->eta(), iM->phi(), iM->energy(), iM->p(), recomass);
|
| 502 |
}
|
| 503 |
}
|
| 504 |
electrons_->Trim();
|
| 505 |
}
|
