#include <GhostTrackComputer.h>

Public Member Functions
	GhostTrackComputer (const edm::ParameterSet &params)

virtual reco::TaggingVariableList	operator() (const reco::TrackIPTagInfo &ipInfo, const reco::SecondaryVertexTagInfo &svInfo) const

virtual reco::TaggingVariableList	operator() (const reco::CandIPTagInfo &ipInfo, const reco::CandSecondaryVertexTagInfo &svInfo) const

virtual	~GhostTrackComputer ()=default

Private Member Functions
const reco::btag::TrackIPData &	threshTrack (const reco::TrackIPTagInfo &trackIPTagInfo, const reco::btag::SortCriteria sort, const reco::Jet &jet, const GlobalPoint &pv) const

const reco::btag::TrackIPData &	threshTrack (const reco::CandIPTagInfo &trackIPTagInfo, const reco::btag::SortCriteria sort, const reco::Jet &jet, const GlobalPoint &pv) const

Private Attributes
double	charmCut

double	minTrackWeight

reco::btag::SortCriteria	sortCriterium

reco::TrackSelector	trackNoDeltaRSelector

reco::V0Filter	trackPairV0Filter

reco::TrackSelector	trackSelector

bool	vertexMassCorrection

Detailed Description

Definition at line 16 of file GhostTrackComputer.h.

Constructor & Destructor Documentation

◆ GhostTrackComputer()

GhostTrackComputer::GhostTrackComputer ( const edm::ParameterSet & params )

Definition at line 41 of file GhostTrackComputer.cc.

     : charmCut(params.getParameter<double>("charmCut")),
       sortCriterium(TrackSorting::getCriterium(params.getParameter<std::string>("trackSort"))),
       trackSelector(params.getParameter<edm::ParameterSet>("trackSelection")),
       trackNoDeltaRSelector(dropDeltaR(params.getParameter<edm::ParameterSet>("trackSelection"))),
       minTrackWeight(params.getParameter<double>("minimumTrackWeight")),
       trackPairV0Filter(params.getParameter<edm::ParameterSet>("trackPairV0Filter")) {}

◆ ~GhostTrackComputer()

virtual GhostTrackComputer::~GhostTrackComputer ( )

virtualdefault

Member Function Documentation

◆ operator()() [1/2]

TaggingVariableList GhostTrackComputer::operator()	(	const reco::TrackIPTagInfo &	ipInfo,
		const reco::SecondaryVertexTagInfo &	svInfo
	)		const

virtual

Definition at line 118 of file GhostTrackComputer.cc.

References reco::TrackKinematics::add(), addMeas(), data, electronAnalyzer_cfi::DeltaR, PbPb_ZMuSkimMuonDPG_cff::deltaR, reco::btau::etaRel(), reco::TemplatedSecondaryVertexTagInfo< IPTI, VTX >::flightDirection(), reco::TemplatedSecondaryVertexTagInfo< IPTI, VTX >::flightDistance(), reco::btau::flightDistance2dSig, reco::btau::flightDistance2dVal, reco::btau::flightDistance3dSig, reco::btau::flightDistance3dVal, mps_fire::i, heavyIonCSV_trainingSettings::idx, reco::IPTagInfo< Container, Base >::impactParameterData(), dqmdumpme::indices, reco::btag::IP2DSig, electrons_cff::ip3d, reco::btag::IP3DSig, edm::Ref< C, T, F >::isNonnull(), dqmiolumiharvest::j, metsig::jet, reco::btau::jetEta, reco::btau::jetNSecondaryVertices, reco::btau::jetNSingleTrackVertices, reco::btau::jetPt, minTrackWeight, reco::TrackBase::momentum(), dqmiodumpmetadata::n, reco::btag::Vertices::NoVertex, beamSpotPI::nTracks, reco::TrackKinematics::numberOfTracks(), reco::TemplatedSecondaryVertexTagInfo< IPTI, VTX >::nVertices(), TrackCollections2monitor_cff::nVertices, convertSQLiteXML::ok, reco::IPTagInfo< Container, Base >::primaryVertex(), reco::btag::Vertices::PseudoVertex, MetAnalyzer::pv(), reco::btag::Vertices::RecoVertex, reco::TemplatedSecondaryVertexTagInfo< IPTI, VTX >::secondaryVertex(), reco::IPTagInfo< Container, Base >::selectedTracks(), Measurement1D::significance(), sortCriterium, reco::IPTagInfo< Container, Base >::sortedIndexes(), mathSSE::sqrt(), threshTrack(), HLT_2023v12_cff::track, reco::btau::trackChi2, reco::btau::trackDecayLenVal, reco::btau::trackDeltaR, reco::btau::trackEta, reco::btau::trackEtaRel, reco::btau::trackGhostTrackDistSig, reco::btau::trackGhostTrackDistVal, reco::btau::trackGhostTrackWeight, reco::btau::trackJetDistVal, reco::btau::trackMomentum, reco::btau::trackNPixelHits, reco::btau::trackNTotalHits, trackPairV0Filter, reco::btau::trackPtRel, pwdgSkimBPark_cfi::tracks, trackSelector, reco::btau::trackSip2dSig, reco::btau::trackSip2dSigAboveCharm, reco::btau::trackSip2dVal, reco::btau::trackSip3dSig, reco::btau::trackSip3dSigAboveCharm, reco::btau::trackSip3dVal, reco::btau::trackSumJetDeltaR, reco::btau::trackSumJetEtRatio, reco::TemplatedSecondaryVertexTagInfo< IPTI, VTX >::trackWeight(), Measurement1D::value(), reco::TrackKinematics::vectorSum(), bphysicsOniaDQM_cfi::vertex, reco::btau::vertexCategory, reco::btau::vertexEnergyRatio, reco::btau::vertexJetDeltaR, reco::btau::vertexMass, reco::btau::vertexNTracks, reco::TemplatedSecondaryVertexTagInfo< IPTI, VTX >::vertexTracks(), and w().

                                                                                                {
   using namespace ROOT::Math;
 
   edm::RefToBase<Jet> jet = ipInfo.jet();
   math::XYZVector jetDir = jet->momentum().Unit();
   bool havePv = ipInfo.primaryVertex().isNonnull();
   GlobalPoint pv;
   if (havePv)
     pv = GlobalPoint(ipInfo.primaryVertex()->x(), ipInfo.primaryVertex()->y(), ipInfo.primaryVertex()->z());
 
   btag::Vertices::VertexType vtxType = btag::Vertices::NoVertex;
 
   TaggingVariableList vars;
 
   vars.insert(btau::jetPt, jet->pt(), true);
   vars.insert(btau::jetEta, jet->eta(), true);
 
   TrackKinematics allKinematics;
   TrackKinematics vertexKinematics;
   TrackKinematics trackKinematics;
 
   std::pair<double, double> vertexDist2D, vertexDist3D;
   std::pair<double, double> tracksDist2D, tracksDist3D;
 
   unsigned int nVertices = 0;
   unsigned int nVertexTracks = 0;
   unsigned int nTracks = 0;
   for (unsigned int i = 0; i < svInfo.nVertices(); i++) {
     const Vertex &vertex = svInfo.secondaryVertex(i);
     bool hasRefittedTracks = vertex.hasRefittedTracks();
     TrackRefVector tracks = svInfo.vertexTracks(i);
     unsigned int n = 0;
     for (TrackRefVector::const_iterator track = tracks.begin(); track != tracks.end(); track++)
       if (svInfo.trackWeight(i, *track) >= minTrackWeight)
         n++;
 
     if (n < 1)
       continue;
     bool isTrackVertex = (n == 1);
     ++*(isTrackVertex ? &nTracks : &nVertices);
 
     addMeas(*(isTrackVertex ? &tracksDist2D : &vertexDist2D), svInfo.flightDistance(i, true));
     addMeas(*(isTrackVertex ? &tracksDist3D : &vertexDist3D), svInfo.flightDistance(i, false));
 
     TrackKinematics &kin = isTrackVertex ? trackKinematics : vertexKinematics;
     for (TrackRefVector::const_iterator track = tracks.begin(); track != tracks.end(); track++) {
       float w = svInfo.trackWeight(i, *track);
       if (w < minTrackWeight)
         continue;
       if (hasRefittedTracks) {
         Track actualTrack = vertex.refittedTrack(*track);
         kin.add(actualTrack, w);
         vars.insert(btau::trackEtaRel, reco::btau::etaRel(jetDir, actualTrack.momentum()), true);
       } else {
         kin.add(**track, w);
         vars.insert(btau::trackEtaRel, reco::btau::etaRel(jetDir, (*track)->momentum()), true);
       }
       if (!isTrackVertex)
         nVertexTracks++;
     }
   }
 
   Measurement1D dist2D, dist3D;
   if (nVertices) {
     vtxType = btag::Vertices::RecoVertex;
 
     if (nVertices == 1 && nTracks) {
       vertexDist2D.first += tracksDist2D.first;
       vertexDist2D.second += tracksDist2D.second;
       vertexDist3D.first += tracksDist3D.first;
       vertexDist3D.second += tracksDist3D.second;
       vertexKinematics += trackKinematics;
     }
 
     dist2D = Measurement1D(vertexDist2D.first / vertexDist2D.second, std::sqrt(1. / vertexDist2D.second));
     dist3D = Measurement1D(vertexDist3D.first / vertexDist3D.second, std::sqrt(1. / vertexDist3D.second));
 
     vars.insert(btau::jetNSecondaryVertices, nVertices, true);
     vars.insert(btau::vertexNTracks, nVertexTracks, true);
   } else if (nTracks) {
     vtxType = btag::Vertices::PseudoVertex;
     vertexKinematics = trackKinematics;
 
     dist2D = Measurement1D(tracksDist2D.first / tracksDist2D.second, std::sqrt(1. / tracksDist2D.second));
     dist3D = Measurement1D(tracksDist3D.first / tracksDist3D.second, std::sqrt(1. / tracksDist3D.second));
   }
 
   if (nVertices || nTracks) {
     vars.insert(btau::flightDistance2dVal, dist2D.value(), true);
     vars.insert(btau::flightDistance2dSig, dist2D.significance(), true);
     vars.insert(btau::flightDistance3dVal, dist3D.value(), true);
     vars.insert(btau::flightDistance3dSig, dist3D.significance(), true);
     vars.insert(btau::vertexJetDeltaR, Geom::deltaR(svInfo.flightDirection(0), jetDir), true);
     vars.insert(btau::jetNSingleTrackVertices, nTracks, true);
   }
 
   std::vector<std::size_t> indices = ipInfo.sortedIndexes(sortCriterium);
   const std::vector<btag::TrackIPData> &ipData = ipInfo.impactParameterData();
   const edm::RefVector<TrackCollection> &tracks = ipInfo.selectedTracks();
 
   TrackRef trackPairV0Test[2];
   for (unsigned int i = 0; i < indices.size(); i++) {
     std::size_t idx = indices[i];
     const btag::TrackIPData &data = ipData[idx];
     const TrackRef &trackRef = tracks[idx];
     const Track &track = *trackRef;
 
     // filter track
 
     if (!trackSelector(track, data, *jet, pv))
       continue;
 
     // add track to kinematics for all tracks in jet
 
     allKinematics.add(track);
 
     // check against all other tracks for V0 track pairs
 
     trackPairV0Test[0] = tracks[idx];
     bool ok = true;
     for (unsigned int j = 0; j < indices.size(); j++) {
       if (i == j)
         continue;
 
       std::size_t pairIdx = indices[j];
       const btag::TrackIPData &pairTrackData = ipData[pairIdx];
       const TrackRef &pairTrackRef = tracks[pairIdx];
       const Track &pairTrack = *pairTrackRef;
 
       if (!trackSelector(pairTrack, pairTrackData, *jet, pv))
         continue;
 
       trackPairV0Test[1] = pairTrackRef;
       if (!trackPairV0Filter(trackPairV0Test, 2)) {
         ok = false;
         break;
       }
     }
     if (!ok)
       continue;
 
     // add track variables
 
     const math::XYZVector &trackMom = track.momentum();
     double trackMag = std::sqrt(trackMom.Mag2());
 
     vars.insert(btau::trackSip3dVal, data.ip3d.value(), true);
     vars.insert(btau::trackSip3dSig, data.ip3d.significance(), true);
     vars.insert(btau::trackSip2dVal, data.ip2d.value(), true);
     vars.insert(btau::trackSip2dSig, data.ip2d.significance(), true);
     vars.insert(btau::trackJetDistVal, data.distanceToJetAxis.value(), true);
     vars.insert(btau::trackGhostTrackDistVal, data.distanceToGhostTrack.value(), true);
     vars.insert(btau::trackGhostTrackDistSig, data.distanceToGhostTrack.significance(), true);
     vars.insert(btau::trackGhostTrackWeight, data.ghostTrackWeight, true);
     vars.insert(btau::trackDecayLenVal, havePv ? (data.closestToGhostTrack - pv).mag() : -1.0, true);
 
     vars.insert(btau::trackMomentum, trackMag, true);
     vars.insert(btau::trackEta, trackMom.Eta(), true);
 
     vars.insert(btau::trackChi2, track.normalizedChi2(), true);
     vars.insert(btau::trackNPixelHits, track.hitPattern().pixelLayersWithMeasurement(), true);
     vars.insert(btau::trackNTotalHits, track.hitPattern().trackerLayersWithMeasurement(), true);
     vars.insert(btau::trackPtRel, VectorUtil::Perp(trackMom, jetDir), true);
     vars.insert(btau::trackDeltaR, VectorUtil::DeltaR(trackMom, jetDir), true);
   }
 
   vars.insert(btau::vertexCategory, vtxType, true);
   vars.insert(btau::trackSumJetDeltaR, VectorUtil::DeltaR(allKinematics.vectorSum(), jetDir), true);
   vars.insert(btau::trackSumJetEtRatio, allKinematics.vectorSum().Et() / ipInfo.jet()->et(), true);
   vars.insert(
       btau::trackSip3dSigAboveCharm, threshTrack(ipInfo, reco::btag::IP3DSig, *jet, pv).ip3d.significance(), true);
   vars.insert(
       btau::trackSip2dSigAboveCharm, threshTrack(ipInfo, reco::btag::IP2DSig, *jet, pv).ip2d.significance(), true);
 
   if (vtxType != btag::Vertices::NoVertex) {
     const math::XYZTLorentzVector &allSum = allKinematics.vectorSum();
     const math::XYZTLorentzVector &vertexSum = vertexKinematics.vectorSum();
 
     vars.insert(btau::vertexMass, vertexSum.M(), true);
     if (allKinematics.numberOfTracks())
       vars.insert(btau::vertexEnergyRatio, vertexSum.E() / allSum.E(), true);
     else
       vars.insert(btau::vertexEnergyRatio, 1, true);
   }
 
   vars.finalize();
 
   return vars;
 }

◆ operator()() [2/2]

TaggingVariableList GhostTrackComputer::operator()	(	const reco::CandIPTagInfo &	ipInfo,
		const reco::CandSecondaryVertexTagInfo &	svInfo
	)		const

virtual

Definition at line 309 of file GhostTrackComputer.cc.

References reco::TrackKinematics::add(), addMeas(), data, electronAnalyzer_cfi::DeltaR, PbPb_ZMuSkimMuonDPG_cff::deltaR, reco::btau::etaRel(), reco::TemplatedSecondaryVertexTagInfo< IPTI, VTX >::flightDirection(), reco::TemplatedSecondaryVertexTagInfo< IPTI, VTX >::flightDistance(), reco::btau::flightDistance2dSig, reco::btau::flightDistance2dVal, reco::btau::flightDistance3dSig, reco::btau::flightDistance3dVal, mps_fire::i, heavyIonCSV_trainingSettings::idx, reco::IPTagInfo< Container, Base >::impactParameterData(), dqmdumpme::indices, reco::btag::IP2DSig, electrons_cff::ip3d, reco::btag::IP3DSig, edm::Ref< C, T, F >::isNonnull(), dqmiolumiharvest::j, metsig::jet, reco::btau::jetEta, reco::btau::jetNSecondaryVertices, reco::btau::jetNSingleTrackVertices, reco::btau::jetPt, dqmiodumpmetadata::n, reco::btag::Vertices::NoVertex, beamSpotPI::nTracks, reco::TrackKinematics::numberOfTracks(), reco::TemplatedSecondaryVertexTagInfo< IPTI, VTX >::nVertices(), TrackCollections2monitor_cff::nVertices, convertSQLiteXML::ok, reco::IPTagInfo< Container, Base >::primaryVertex(), reco::btag::Vertices::PseudoVertex, MetAnalyzer::pv(), reco::btag::Vertices::RecoVertex, reco::TemplatedSecondaryVertexTagInfo< IPTI, VTX >::secondaryVertex(), reco::IPTagInfo< Container, Base >::selectedTracks(), Measurement1D::significance(), sortCriterium, reco::IPTagInfo< Container, Base >::sortedIndexes(), mathSSE::sqrt(), threshTrack(), reco::btag::toTrack(), HLT_2023v12_cff::track, reco::btau::trackChi2, reco::btau::trackDecayLenVal, reco::btau::trackDeltaR, reco::btau::trackEta, reco::btau::trackEtaRel, reco::btau::trackGhostTrackDistSig, reco::btau::trackGhostTrackDistVal, reco::btau::trackGhostTrackWeight, reco::btau::trackJetDistVal, reco::btau::trackMomentum, reco::btau::trackNPixelHits, reco::btau::trackNTotalHits, trackPairV0Filter, reco::btau::trackPtRel, pwdgSkimBPark_cfi::tracks, trackSelector, reco::btau::trackSip2dSig, reco::btau::trackSip2dSigAboveCharm, reco::btau::trackSip2dVal, reco::btau::trackSip3dSig, reco::btau::trackSip3dSigAboveCharm, reco::btau::trackSip3dVal, reco::btau::trackSumJetDeltaR, reco::btau::trackSumJetEtRatio, Measurement1D::value(), reco::TrackKinematics::vectorSum(), bphysicsOniaDQM_cfi::vertex, reco::btau::vertexCategory, reco::btau::vertexEnergyRatio, reco::btau::vertexJetDeltaR, reco::btau::vertexMass, and reco::btau::vertexNTracks.

                                                                                                    {
   using namespace ROOT::Math;
 
   edm::RefToBase<Jet> jet = ipInfo.jet();
   math::XYZVector jetDir = jet->momentum().Unit();
   bool havePv = ipInfo.primaryVertex().isNonnull();
   GlobalPoint pv;
   if (havePv)
     pv = GlobalPoint(ipInfo.primaryVertex()->x(), ipInfo.primaryVertex()->y(), ipInfo.primaryVertex()->z());
 
   btag::Vertices::VertexType vtxType = btag::Vertices::NoVertex;
 
   TaggingVariableList vars;
 
   vars.insert(btau::jetPt, jet->pt(), true);
   vars.insert(btau::jetEta, jet->eta(), true);
 
   TrackKinematics allKinematics;
   TrackKinematics vertexKinematics;
   TrackKinematics trackKinematics;
 
   std::pair<double, double> vertexDist2D, vertexDist3D;
   std::pair<double, double> tracksDist2D, tracksDist3D;
 
   unsigned int nVertices = 0;
   unsigned int nVertexTracks = 0;
   unsigned int nTracks = 0;
   for (unsigned int i = 0; i < svInfo.nVertices(); i++) {
     const reco::VertexCompositePtrCandidate &vertex = svInfo.secondaryVertex(i);
     const std::vector<CandidatePtr> &tracks = vertex.daughterPtrVector();
     unsigned int n = 0;
     for (std::vector<CandidatePtr>::const_iterator track = tracks.begin(); track != tracks.end(); ++track)
       n++;
 
     if (n < 1)
       continue;
     bool isTrackVertex = (n == 1);
     ++*(isTrackVertex ? &nTracks : &nVertices);
 
     addMeas(*(isTrackVertex ? &tracksDist2D : &vertexDist2D), svInfo.flightDistance(i, true));
     addMeas(*(isTrackVertex ? &tracksDist3D : &vertexDist3D), svInfo.flightDistance(i, false));
 
     TrackKinematics &kin = isTrackVertex ? trackKinematics : vertexKinematics;
 
     for (std::vector<CandidatePtr>::const_iterator track = tracks.begin(); track != tracks.end(); ++track) {
       kin.add(*track);
       vars.insert(btau::trackEtaRel, reco::btau::etaRel(jetDir, (*track)->momentum()), true);
       if (!isTrackVertex)
         nVertexTracks++;
     }
   }
 
   Measurement1D dist2D, dist3D;
   if (nVertices) {
     vtxType = btag::Vertices::RecoVertex;
 
     if (nVertices == 1 && nTracks) {
       vertexDist2D.first += tracksDist2D.first;
       vertexDist2D.second += tracksDist2D.second;
       vertexDist3D.first += tracksDist3D.first;
       vertexDist3D.second += tracksDist3D.second;
       vertexKinematics += trackKinematics;
     }
 
     dist2D = Measurement1D(vertexDist2D.first / vertexDist2D.second, std::sqrt(1. / vertexDist2D.second));
     dist3D = Measurement1D(vertexDist3D.first / vertexDist3D.second, std::sqrt(1. / vertexDist3D.second));
 
     vars.insert(btau::jetNSecondaryVertices, nVertices, true);
     vars.insert(btau::vertexNTracks, nVertexTracks, true);
   } else if (nTracks) {
     vtxType = btag::Vertices::PseudoVertex;
     vertexKinematics = trackKinematics;
 
     dist2D = Measurement1D(tracksDist2D.first / tracksDist2D.second, std::sqrt(1. / tracksDist2D.second));
     dist3D = Measurement1D(tracksDist3D.first / tracksDist3D.second, std::sqrt(1. / tracksDist3D.second));
   }
 
   if (nVertices || nTracks) {
     vars.insert(btau::flightDistance2dVal, dist2D.value(), true);
     vars.insert(btau::flightDistance2dSig, dist2D.significance(), true);
     vars.insert(btau::flightDistance3dVal, dist3D.value(), true);
     vars.insert(btau::flightDistance3dSig, dist3D.significance(), true);
     vars.insert(btau::vertexJetDeltaR, Geom::deltaR(svInfo.flightDirection(0), jetDir), true);
     vars.insert(btau::jetNSingleTrackVertices, nTracks, true);
   }
 
   std::vector<std::size_t> indices = ipInfo.sortedIndexes(sortCriterium);
   const std::vector<btag::TrackIPData> &ipData = ipInfo.impactParameterData();
   const CandIPTagInfo::input_container &tracks = ipInfo.selectedTracks();
 
   const Track *trackPairV0Test[2];
   for (unsigned int i = 0; i < indices.size(); i++) {
     std::size_t idx = indices[i];
     const btag::TrackIPData &data = ipData[idx];
     const Track *trackPtr = reco::btag::toTrack(tracks[idx]);
     const Track &track = *trackPtr;
 
     // filter track
 
     if (!trackSelector(track, data, *jet, pv))
       continue;
 
     // add track to kinematics for all tracks in jet
 
     allKinematics.add(track);
 
     // check against all other tracks for V0 track pairs
 
     trackPairV0Test[0] = reco::btag::toTrack(tracks[idx]);
     bool ok = true;
     for (unsigned int j = 0; j < indices.size(); j++) {
       if (i == j)
         continue;
 
       std::size_t pairIdx = indices[j];
       const btag::TrackIPData &pairTrackData = ipData[pairIdx];
       const Track *pairTrackPtr = reco::btag::toTrack(tracks[pairIdx]);
       const Track &pairTrack = *pairTrackPtr;
 
       if (!trackSelector(pairTrack, pairTrackData, *jet, pv))
         continue;
 
       trackPairV0Test[1] = pairTrackPtr;
       if (!trackPairV0Filter(trackPairV0Test, 2)) {
         ok = false;
         break;
       }
     }
     if (!ok)
       continue;
 
     // add track variables
 
     const math::XYZVector &trackMom = track.momentum();
     double trackMag = std::sqrt(trackMom.Mag2());
 
     vars.insert(btau::trackSip3dVal, data.ip3d.value(), true);
     vars.insert(btau::trackSip3dSig, data.ip3d.significance(), true);
     vars.insert(btau::trackSip2dVal, data.ip2d.value(), true);
     vars.insert(btau::trackSip2dSig, data.ip2d.significance(), true);
     vars.insert(btau::trackJetDistVal, data.distanceToJetAxis.value(), true);
     vars.insert(btau::trackGhostTrackDistVal, data.distanceToGhostTrack.value(), true);
     vars.insert(btau::trackGhostTrackDistSig, data.distanceToGhostTrack.significance(), true);
     vars.insert(btau::trackGhostTrackWeight, data.ghostTrackWeight, true);
     vars.insert(btau::trackDecayLenVal, havePv ? (data.closestToGhostTrack - pv).mag() : -1.0, true);
 
     vars.insert(btau::trackMomentum, trackMag, true);
     vars.insert(btau::trackEta, trackMom.Eta(), true);
 
     vars.insert(btau::trackChi2, track.normalizedChi2(), true);
     vars.insert(btau::trackNPixelHits, track.hitPattern().pixelLayersWithMeasurement(), true);
     vars.insert(btau::trackNTotalHits, track.hitPattern().trackerLayersWithMeasurement(), true);
     vars.insert(btau::trackPtRel, VectorUtil::Perp(trackMom, jetDir), true);
     vars.insert(btau::trackDeltaR, VectorUtil::DeltaR(trackMom, jetDir), true);
   }
 
   vars.insert(btau::vertexCategory, vtxType, true);
   vars.insert(btau::trackSumJetDeltaR, VectorUtil::DeltaR(allKinematics.vectorSum(), jetDir), true);
   vars.insert(btau::trackSumJetEtRatio, allKinematics.vectorSum().Et() / ipInfo.jet()->et(), true);
   vars.insert(
       btau::trackSip3dSigAboveCharm, threshTrack(ipInfo, reco::btag::IP3DSig, *jet, pv).ip3d.significance(), true);
   vars.insert(
       btau::trackSip2dSigAboveCharm, threshTrack(ipInfo, reco::btag::IP2DSig, *jet, pv).ip2d.significance(), true);
 
   if (vtxType != btag::Vertices::NoVertex) {
     const math::XYZTLorentzVector &allSum = allKinematics.vectorSum();
     const math::XYZTLorentzVector &vertexSum = vertexKinematics.vectorSum();
 
     vars.insert(btau::vertexMass, vertexSum.M(), true);
     if (allKinematics.numberOfTracks())
       vars.insert(btau::vertexEnergyRatio, vertexSum.E() / allSum.E(), true);
     else
       vars.insert(btau::vertexEnergyRatio, 1, true);
   }
 
   vars.finalize();
 
   return vars;
 }

◆ threshTrack() [1/2]

const reco::btag::TrackIPData& GhostTrackComputer::threshTrack	(	const reco::TrackIPTagInfo &	trackIPTagInfo,
		const reco::btag::SortCriteria	sort,
		const reco::Jet &	jet,
		const GlobalPoint &	pv
	)		const

private

Referenced by operator()().

◆ threshTrack() [2/2]

const reco::btag::TrackIPData& GhostTrackComputer::threshTrack	(	const reco::CandIPTagInfo &	trackIPTagInfo,
		const reco::btag::SortCriteria	sort,
		const reco::Jet &	jet,
		const GlobalPoint &	pv
	)		const

private

Member Data Documentation

◆ charmCut

double GhostTrackComputer::charmCut

private

Definition at line 35 of file GhostTrackComputer.h.

◆ minTrackWeight

double GhostTrackComputer::minTrackWeight

private

Definition at line 39 of file GhostTrackComputer.h.

Referenced by operator()().

◆ sortCriterium

reco::btag::SortCriteria GhostTrackComputer::sortCriterium

private

Definition at line 36 of file GhostTrackComputer.h.

Referenced by operator()().

◆ trackNoDeltaRSelector

reco::TrackSelector GhostTrackComputer::trackNoDeltaRSelector

private

Definition at line 38 of file GhostTrackComputer.h.

◆ trackPairV0Filter

reco::V0Filter GhostTrackComputer::trackPairV0Filter

private

Definition at line 41 of file GhostTrackComputer.h.

Referenced by operator()().

◆ trackSelector

reco::TrackSelector GhostTrackComputer::trackSelector

private

Definition at line 37 of file GhostTrackComputer.h.

Referenced by operator()().

◆ vertexMassCorrection

bool GhostTrackComputer::vertexMassCorrection

private

Definition at line 40 of file GhostTrackComputer.h.

Public Member Functions

Private Member Functions

Private Attributes

Detailed Description

Constructor & Destructor Documentation

◆ GhostTrackComputer()

◆ ~GhostTrackComputer()

Member Function Documentation

◆ operator()() [1/2]

◆ operator()() [2/2]

◆ threshTrack() [1/2]

◆ threshTrack() [2/2]

Member Data Documentation

◆ charmCut

◆ minTrackWeight

◆ sortCriterium

◆ trackNoDeltaRSelector

◆ trackPairV0Filter

◆ trackSelector

◆ vertexMassCorrection