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GsfTrackProducerBase Class Reference

#include <GsfTrackProducerBase.h>

Inheritance diagram for GsfTrackProducerBase:
TrackProducerBase< reco::GsfTrack > AlgoProductTraits< reco::GsfTrack > GsfTrackProducer GsfTrackRefitter

Public Member Functions

 GsfTrackProducerBase (bool trajectoryInEvent, bool split)
 Constructor. More...
 
virtual void putInEvt (edm::Event &, const Propagator *prop, const MeasurementTracker *measTk, std::unique_ptr< TrackingRecHitCollection > &, std::unique_ptr< reco::GsfTrackCollection > &, std::unique_ptr< reco::TrackExtraCollection > &, std::unique_ptr< reco::GsfTrackExtraCollection > &, std::unique_ptr< std::vector< Trajectory > > &, AlgoProductCollection &, TransientTrackingRecHitBuilder const *, const reco::BeamSpot &, const TrackerTopology *ttopo)
 Put produced collections in the event. More...
 
- Public Member Functions inherited from TrackProducerBase< reco::GsfTrack >
const edm::ParameterSetgetConf () const
 
virtual void getFromES (const edm::EventSetup &, edm::ESHandle< TrackerGeometry > &, edm::ESHandle< MagneticField > &, edm::ESHandle< TrajectoryFitter > &, edm::ESHandle< Propagator > &, edm::ESHandle< MeasurementTracker > &, edm::ESHandle< TransientTrackingRecHitBuilder > &)
 Get needed services from the Event Setup. More...
 
virtual void getFromEvt (edm::Event &, edm::Handle< TrackCandidateCollection > &, reco::BeamSpot &)
 Get TrackCandidateCollection from the Event (needed by TrackProducer) More...
 
virtual void getFromEvt (edm::Event &, edm::Handle< TrackView > &, reco::BeamSpot &)
 Get TrackCollection from the Event (needed by TrackRefitter) More...
 
virtual void produce (edm::Event &, const edm::EventSetup &)=0
 Method where the procduction take place. To be implemented in concrete classes. More...
 
void setAlias (std::string alias)
 set the aliases of produced collections More...
 
void setClusterRemovalInfo (const edm::InputTag &clusterRemovalInfo)
 Sets the information on cluster removal, and turns it on. More...
 
void setConf (const edm::ParameterSet &conf)
 Set parameter set. More...
 
void setSecondHitPattern (Trajectory *traj, reco::GsfTrack &track, const Propagator *prop, const MeasurementTrackerEvent *measTk, const TrackerTopology *ttopo)
 
void setSrc (const edm::EDGetToken &src, const edm::EDGetTokenT< reco::BeamSpot > &bsSrc, const edm::EDGetTokenT< MeasurementTrackerEvent > &mteSrc)
 set label of source collection More...
 
 TrackProducerBase (bool trajectoryInEvent=false)
 Constructor. More...
 
virtual ~TrackProducerBase () noexcept(false)
 Destructor. More...
 

Protected Member Functions

void fillMode (reco::GsfTrack &track, const TrajectoryStateOnSurface innertsos, const Propagator &gsfProp, const TransverseImpactPointExtrapolator &tipExtrapolator, TrajectoryStateClosestToBeamLineBuilder &tscblBuilder, const reco::BeamSpot &bs) const
 
void fillStates (TrajectoryStateOnSurface tsos, std::vector< reco::GsfComponent5D > &states) const
 

Private Member Functions

bool computeModeAtTM (const TrajectoryMeasurement &tm, reco::GsfTrackExtra::Point &position, reco::GsfTrackExtra::Vector &momentum, Measurement1D &deltaP) const
 position, momentum and estimated deltaP at an intermediate measurement (true if successful) More...
 
void localParametersFromQpMode (const TrajectoryStateOnSurface tsos, AlgebraicVector5 &parameters, AlgebraicSymMatrix55 &covariance) const
 local parameters rescaled with q/p from mode More...
 

Private Attributes

bool useSplitting
 

Additional Inherited Members

- Public Types inherited from TrackProducerBase< reco::GsfTrack >
using AlgoProductCollection = typename Base::AlgoProductCollection
 
using Base = AlgoProductTraits< reco::GsfTrack >
 
using TrackCollection = typename Base::TrackCollection
 
using TrackView = typename Base::TrackView
 
- Public Types inherited from AlgoProductTraits< reco::GsfTrack >
using AlgoProductCollection = std::vector< AlgoProduct >
 
using TrackCollection = std::vector< reco::GsfTrack >
 
using TrackView = edm::View< reco::GsfTrack >
 
- Protected Attributes inherited from TrackProducerBase< reco::GsfTrack >
std::string alias_
 
edm::EDGetTokenT< reco::BeamSpotbsSrc_
 
edm::InputTag clusterRemovalInfo_
 
edm::ParameterSet conf_
 
edm::EDGetTokenT< MeasurementTrackerEventmteSrc_
 
bool rekeyClusterRefs_
 
edm::OrphanHandle< TrackCollectionrTracks_
 
edm::EDGetToken src_
 
edm::ESHandle< NavigationSchooltheSchool
 
bool trajectoryInEvent_
 

Detailed Description

Produce Tracks from TrackCandidates

Author
cerati

Definition at line 26 of file GsfTrackProducerBase.h.

Constructor & Destructor Documentation

◆ GsfTrackProducerBase()

GsfTrackProducerBase::GsfTrackProducerBase ( bool  trajectoryInEvent,
bool  split 
)
inlineexplicit

Constructor.

Definition at line 29 of file GsfTrackProducerBase.h.

30  : TrackProducerBase<reco::GsfTrack>(trajectoryInEvent), useSplitting(split) {}

Member Function Documentation

◆ computeModeAtTM()

bool GsfTrackProducerBase::computeModeAtTM ( const TrajectoryMeasurement tm,
reco::GsfTrackExtra::Point position,
reco::GsfTrackExtra::Vector momentum,
Measurement1D deltaP 
) const
private

position, momentum and estimated deltaP at an intermediate measurement (true if successful)

Definition at line 344 of file GsfTrackProducerBase.cc.

347  {
348  //
349  // states
350  //
351  TrajectoryStateOnSurface const& fwdState = tm.forwardPredictedState();
352  TrajectoryStateOnSurface const& bwdState = tm.backwardPredictedState();
353  TrajectoryStateOnSurface const& upState = tm.updatedState();
354 
355  if (!fwdState.isValid() || !bwdState.isValid() || !upState.isValid()) {
356  return false;
357  }
358  //
359  // position from mean, momentum from mode (in cartesian coordinates)
360  // following PF code
361  //
362  GlobalPoint pos = upState.globalPosition();
363  position = reco::GsfTrackExtra::Point(pos.x(), pos.y(), pos.z());
364  GlobalVector mom;
366  if (!result) {
367  // std::cout << "momentumFromModeCartesian failed" << std::endl;
368  return false;
369  }
370  momentum = reco::GsfTrackExtra::Vector(mom.x(), mom.y(), mom.z());
371  //
372  // calculation from deltaP from fit to forward & backward predictions
373  // (momentum from mode) and hit
374  //
375  // prepare input parameter vectors and covariance matrices
376  AlgebraicVector5 fwdPars = fwdState.localParameters().vector();
377  AlgebraicSymMatrix55 fwdCov = fwdState.localError().matrix();
378  localParametersFromQpMode(fwdState, fwdPars, fwdCov);
379  AlgebraicVector5 bwdPars = bwdState.localParameters().vector();
380  AlgebraicSymMatrix55 bwdCov = bwdState.localError().matrix();
381  localParametersFromQpMode(bwdState, bwdPars, bwdCov);
382  LocalPoint hitPos(0., 0., 0.);
383  LocalError hitErr(-1., -1., -1.);
384  if (tm.recHit()->isValid()) {
385  hitPos = tm.recHit()->localPosition();
386  hitErr = tm.recHit()->localPositionError();
387  }
388  CollinearFitAtTM2 collinearFit(fwdPars, fwdCov, bwdPars, bwdCov, hitPos, hitErr);
389  deltaP = collinearFit.deltaP();
390 
391  return true;
392 }

References TrajectoryMeasurement::backwardPredictedState(), CollinearFitAtTM2::deltaP(), TrajectoryMeasurement::forwardPredictedState(), TrajectoryStateOnSurface::globalPosition(), TrajectoryStateOnSurface::isValid(), TrajectoryStateOnSurface::localError(), TrajectoryStateOnSurface::localParameters(), localParametersFromQpMode(), LocalTrajectoryError::matrix(), multiTrajectoryStateMode::momentumFromModeCartesian(), position, TrajectoryMeasurement::recHit(), mps_fire::result, TrajectoryMeasurement::updatedState(), and LocalTrajectoryParameters::vector().

Referenced by putInEvt().

◆ fillMode()

void GsfTrackProducerBase::fillMode ( reco::GsfTrack track,
const TrajectoryStateOnSurface  innertsos,
const Propagator gsfProp,
const TransverseImpactPointExtrapolator tipExtrapolator,
TrajectoryStateClosestToBeamLineBuilder tscblBuilder,
const reco::BeamSpot bs 
) const
protected

Definition at line 247 of file GsfTrackProducerBase.cc.

252  {
253  // Get transverse impact parameter plane (from mean). This is a first approximation;
254  // the mode is then extrapolated to the
255  // final position closest to the beamline.
256  GlobalPoint bsPos(bs.position().x() + (track.vz() - bs.position().z()) * bs.dxdz(),
257  bs.position().y() + (track.vz() - bs.position().z()) * bs.dydz(),
258  track.vz());
259  TrajectoryStateOnSurface vtxTsos = tipExtrapolator.extrapolate(innertsos, bsPos);
260  if (!vtxTsos.isValid())
261  vtxTsos = innertsos;
262  // extrapolate mixture
263  vtxTsos = gsfProp.propagate(innertsos, vtxTsos.surface());
264  if (!vtxTsos.isValid())
265  return; // failed (GsfTrack keeps mode = mean)
266  // extract mode
267  // build perigee parameters (for covariance to be stored)
268  AlgebraicVector5 modeParameters;
269  AlgebraicSymMatrix55 modeCovariance;
270  // set parameters and variances for "mode" state (local parameters)
271  for (unsigned int iv = 0; iv < 5; ++iv) {
273  GaussianSumUtilities1D utils(state1D);
274  modeParameters(iv) = utils.mode().mean();
275  modeCovariance(iv, iv) = utils.mode().variance();
276  if (!utils.modeIsValid()) {
277  // if mode calculation fails: use mean
278  modeParameters(iv) = utils.mean();
279  modeCovariance(iv, iv) = utils.variance();
280  }
281  }
282  // complete covariance matrix
283  // approximation: use correlations from mean
284  const AlgebraicSymMatrix55& meanCovariance(vtxTsos.localError().matrix());
285  for (unsigned int iv1 = 0; iv1 < 5; ++iv1) {
286  for (unsigned int iv2 = 0; iv2 < iv1; ++iv2) {
287  double cov12 = meanCovariance(iv1, iv2) * sqrt(modeCovariance(iv1, iv1) / meanCovariance(iv1, iv1) *
288  modeCovariance(iv2, iv2) / meanCovariance(iv2, iv2));
289  modeCovariance(iv1, iv2) = modeCovariance(iv2, iv1) = cov12;
290  }
291  }
292  TrajectoryStateOnSurface modeTsos(LocalTrajectoryParameters(modeParameters, vtxTsos.localParameters().pzSign()),
293  LocalTrajectoryError(modeCovariance),
294  vtxTsos.surface(),
295  vtxTsos.magneticField(),
296  vtxTsos.surfaceSide());
297  TrajectoryStateClosestToBeamLine tscbl = tscblBuilder(*modeTsos.freeState(), bs);
298  if (!tscbl.isValid())
299  return; // failed (GsfTrack keeps mode = mean)
300  //
301  // extract state at PCA and create momentum vector and covariance matrix
302  //
303  const FreeTrajectoryState& fts = tscbl.trackStateAtPCA();
304  GlobalVector tscblMom = fts.momentum();
305  reco::GsfTrack::Vector mom(tscblMom.x(), tscblMom.y(), tscblMom.z());
307  const AlgebraicSymMatrix55& tscblCov = fts.curvilinearError().matrix();
308  for (unsigned int iv1 = 0; iv1 < reco::GsfTrack::dimensionMode; ++iv1) {
309  for (unsigned int iv2 = 0; iv2 < reco::GsfTrack::dimensionMode; ++iv2) {
310  cov(iv1, iv2) = tscblCov(iv1, iv2);
311  }
312  }
313  track.setMode(fts.charge(), mom, cov);
314 }

References cms::cuda::bs, qcdUeDQM_cfi::bsPos, FreeTrajectoryState::charge(), FreeTrajectoryState::curvilinearError(), reco::GsfTrack::dimensionMode, TransverseImpactPointExtrapolator::extrapolate(), CurvilinearTrajectoryError::matrix(), FreeTrajectoryState::momentum(), MultiGaussianStateTransform::multiState1D(), Propagator::propagate(), mathSSE::sqrt(), TrajectoryStateOnSurface::surface(), HLT_2018_cff::track, PV3DBase< T, PVType, FrameType >::x(), PV3DBase< T, PVType, FrameType >::y(), and PV3DBase< T, PVType, FrameType >::z().

Referenced by putInEvt().

◆ fillStates()

void GsfTrackProducerBase::fillStates ( TrajectoryStateOnSurface  tsos,
std::vector< reco::GsfComponent5D > &  states 
) const
protected

Definition at line 237 of file GsfTrackProducerBase.cc.

237  {
240  GetComponents comps(tsos);
241  auto const& components = comps();
242  states.reserve(components.size());
243  for (auto const& st : components)
244  states.emplace_back(st.weight(), st.localParameters().vector(), st.localError().matrix());
245 }

References makeMuonMisalignmentScenario::components.

Referenced by putInEvt().

◆ localParametersFromQpMode()

void GsfTrackProducerBase::localParametersFromQpMode ( const TrajectoryStateOnSurface  tsos,
AlgebraicVector5 parameters,
AlgebraicSymMatrix55 covariance 
) const
private

local parameters rescaled with q/p from mode

Definition at line 316 of file GsfTrackProducerBase.cc.

318  {
319  //
320  // parameters and errors from combined state
321  //
322  parameters = tsos.localParameters().vector();
323  covariance = tsos.localError().matrix();
324  //
325  // mode for parameter 0 (q/p)
326  //
328  GaussianSumUtilities1D qpGS(qpState);
329  if (!qpGS.modeIsValid())
330  return;
331  double qp = qpGS.mode().mean();
332  double varQp = qpGS.mode().variance();
333  //
334  // replace q/p value and variance, rescale correlation terms
335  // (heuristic procedure - alternative would be mode in 5D ...)
336  //
337  double VarQpRatio = sqrt(varQp / covariance(0, 0));
338  parameters(0) = qp;
339  covariance(0, 0) = varQp;
340  for (int i = 1; i < 5; ++i)
341  covariance(i, 0) *= VarQpRatio;
342 }

References mps_fire::i, TrajectoryStateOnSurface::localError(), TrajectoryStateOnSurface::localParameters(), LocalTrajectoryError::matrix(), SingleGaussianState1D::mean(), GaussianSumUtilities1D::mode(), GaussianSumUtilities1D::modeIsValid(), MultiGaussianStateTransform::multiState1D(), mathSSE::sqrt(), SingleGaussianState1D::variance(), and LocalTrajectoryParameters::vector().

Referenced by computeModeAtTM().

◆ putInEvt()

void GsfTrackProducerBase::putInEvt ( edm::Event evt,
const Propagator prop,
const MeasurementTracker measTk,
std::unique_ptr< TrackingRecHitCollection > &  selHits,
std::unique_ptr< reco::GsfTrackCollection > &  selTracks,
std::unique_ptr< reco::TrackExtraCollection > &  selTrackExtras,
std::unique_ptr< reco::GsfTrackExtraCollection > &  selGsfTrackExtras,
std::unique_ptr< std::vector< Trajectory > > &  selTrajectories,
AlgoProductCollection algoResults,
TransientTrackingRecHitBuilder const *  hitBuilder,
const reco::BeamSpot bs,
const TrackerTopology ttopo 
)
virtual

Put produced collections in the event.

Definition at line 30 of file GsfTrackProducerBase.cc.

41  {
46 
50  edm::Ref<std::vector<Trajectory> >::key_type iTjRef = 0;
51  std::map<unsigned int, unsigned int> tjTkMap;
52 
53  TSCBLBuilderNoMaterial tscblBuilder;
54 
55  for (auto& i : algoResults) {
56  Trajectory* theTraj = i.trajectory;
57  if (trajectoryInEvent_) {
58  selTrajectories->push_back(*theTraj);
59  iTjRef++;
60  }
61 
62  reco::GsfTrack* theTrack = i.track;
63  PropagationDirection seedDir = i.pDir;
64 
65  LogDebug("TrackProducer") << "In GsfTrackProducerBase::putInEvt - seedDir=" << seedDir;
66 
67  reco::GsfTrack t = *theTrack;
68  selTracks->push_back(t);
69  iTkRef++;
70 
71  // Store indices in local map (starts at 0)
73  tjTkMap[iTjRef - 1] = iTkRef - 1;
74 
75  //sets the outermost and innermost TSOSs
76  TrajectoryStateOnSurface outertsos;
77  TrajectoryStateOnSurface innertsos;
78  unsigned int innerId, outerId;
79 
80  // --- NOTA BENE: the convention is to sort hits and measurements "along the momentum".
81  // This is consistent with innermost and outermost labels only for tracks from LHC collision
82  if (theTraj->direction() == alongMomentum) {
83  outertsos = theTraj->lastMeasurement().updatedState();
84  innertsos = theTraj->firstMeasurement().updatedState();
85  outerId = theTraj->lastMeasurement().recHit()->geographicalId().rawId();
86  innerId = theTraj->firstMeasurement().recHit()->geographicalId().rawId();
87  } else {
88  outertsos = theTraj->firstMeasurement().updatedState();
89  innertsos = theTraj->lastMeasurement().updatedState();
90  outerId = theTraj->firstMeasurement().recHit()->geographicalId().rawId();
91  innerId = theTraj->lastMeasurement().recHit()->geographicalId().rawId();
92  }
93  //build the TrackExtra
94  GlobalPoint v = outertsos.globalParameters().position();
95  GlobalVector p = outertsos.globalParameters().momentum();
96  math::XYZVector outmom(p.x(), p.y(), p.z());
97  math::XYZPoint outpos(v.x(), v.y(), v.z());
98  v = innertsos.globalParameters().position();
99  p = innertsos.globalParameters().momentum();
100  math::XYZVector inmom(p.x(), p.y(), p.z());
101  math::XYZPoint inpos(v.x(), v.y(), v.z());
102 
103  reco::TrackExtraRef teref = reco::TrackExtraRef(rTrackExtras, idx++);
104  reco::GsfTrack& track = selTracks->back();
105  track.setExtra(teref);
106 
107  //======= I want to set the second hitPattern here =============
108  if (theSchool.isValid()) {
110  evt.getByToken(mteSrc_, mte);
111  // NavigationSetter setter( *theSchool );
112  setSecondHitPattern(theTraj, track, prop, &*mte, ttopo);
113  }
114  //==============================================================
115 
116  selTrackExtras->push_back(reco::TrackExtra(outpos,
117  outmom,
118  true,
119  inpos,
120  inmom,
121  true,
122  outertsos.curvilinearError(),
123  outerId,
124  innertsos.curvilinearError(),
125  innerId,
126  seedDir,
127  theTraj->seedRef()));
128 
129  reco::TrackExtra& tx = selTrackExtras->back();
130 
131  // --- NOTA BENE: the convention is to sort hits and measurements "along the momentum".
132  // This is consistent with innermost and outermost labels only for tracks from LHC collisions
133  reco::TrackExtra::TrajParams trajParams;
135  Traj2TrackHits t2t;
136  auto ih = selHits->size();
137  t2t(*theTraj, *selHits, trajParams, chi2s);
138  auto ie = selHits->size();
139  tx.setHits(rHits, ih, ie - ih);
140  tx.setTrajParams(std::move(trajParams), std::move(chi2s));
141  for (; ih < ie; ++ih) {
142  auto const& hit = (*selHits)[ih];
143  track.appendHitPattern(hit, *ttopo);
144  }
145 
146  // ----
147 
148  std::vector<reco::GsfTangent> tangents;
149  const Trajectory::DataContainer& measurements = theTraj->measurements();
150  if (measurements.size() > 2) {
151  tangents.reserve(measurements.size() - 2);
152  Trajectory::DataContainer::const_iterator ibegin, iend;
153  int increment(0);
154  if (theTraj->direction() == alongMomentum) {
155  ibegin = measurements.begin() + 1;
156  iend = measurements.end() - 1;
157  increment = 1;
158  } else {
159  ibegin = measurements.end() - 2;
160  iend = measurements.begin();
161  increment = -1;
162  }
164  math::XYZVector momentum;
165  Measurement1D deltaP;
166  // only measurements on "mono" detectors
167  for (Trajectory::DataContainer::const_iterator i = ibegin; i != iend; i += increment) {
168  if (i->recHit().get()) {
169  DetId detId(i->recHit()->geographicalId());
170  if (detId.det() == DetId::Tracker) {
171  int subdetId = detId.subdetId();
172  if (subdetId == SiStripDetId::TIB || subdetId == SiStripDetId::TID || subdetId == SiStripDetId::TOB ||
173  subdetId == SiStripDetId::TEC) {
174  if (SiStripDetId(detId).stereo())
175  continue;
176  }
177  }
178  }
179  bool valid = computeModeAtTM(*i, position, momentum, deltaP);
180  if (valid) {
181  tangents.push_back(reco::GsfTangent(position, momentum, deltaP));
182  }
183  }
184  }
185 
186  //build the GsfTrackExtra
187  std::vector<reco::GsfComponent5D> outerStates;
188  fillStates(outertsos, outerStates);
189  std::vector<reco::GsfComponent5D> innerStates;
190  fillStates(innertsos, innerStates);
191 
192  reco::GsfTrackExtraRef terefGsf = reco::GsfTrackExtraRef(rGsfTrackExtras, idxGsf++);
193  track.setGsfExtra(terefGsf);
194  selGsfTrackExtras->push_back(reco::GsfTrackExtra(
195  outerStates, outertsos.localParameters().pzSign(), innerStates, innertsos.localParameters().pzSign(), tangents));
196 
197  if (innertsos.isValid()) {
199  TransverseImpactPointExtrapolator tipExtrapolator(gsfProp);
200  fillMode(track, innertsos, gsfProp, tipExtrapolator, tscblBuilder, bs);
201  }
202 
203  delete theTrack;
204  delete theTraj;
205  }
206 
207  LogTrace("TrackingRegressionTest") << "========== TrackProducer Info ===================";
208  LogTrace("TrackingRegressionTest") << "number of finalGsfTracks: " << selTracks->size();
209  for (reco::GsfTrackCollection::const_iterator it = selTracks->begin(); it != selTracks->end(); it++) {
210  LogTrace("TrackingRegressionTest") << "track's n valid and invalid hit, chi2, pt : " << it->found() << " , "
211  << it->lost() << " , " << it->normalizedChi2() << " , " << it->pt() << " , "
212  << it->eta();
213  }
214  LogTrace("TrackingRegressionTest") << "=================================================";
215 
216  rTracks_ = evt.put(std::move(selTracks));
217  evt.put(std::move(selTrackExtras));
218  evt.put(std::move(selGsfTrackExtras));
219  evt.put(std::move(selHits));
220 
221  if (trajectoryInEvent_) {
222  edm::OrphanHandle<std::vector<Trajectory> > rTrajs = evt.put(std::move(selTrajectories));
223 
224  // Now Create traj<->tracks association map
225  std::unique_ptr<TrajGsfTrackAssociationCollection> trajTrackMap(
227  for (std::map<unsigned int, unsigned int>::iterator i = tjTkMap.begin(); i != tjTkMap.end(); i++) {
228  edm::Ref<std::vector<Trajectory> > trajRef(rTrajs, (*i).first);
229  edm::Ref<reco::GsfTrackCollection> tkRef(rTracks_, (*i).second);
230  trajTrackMap->insert(edm::Ref<std::vector<Trajectory> >(rTrajs, (*i).first),
232  }
233  evt.put(std::move(trajTrackMap));
234  }
235 }

References alongMomentum, AnalyticalPropagator_cfi::AnalyticalPropagator, anyDirection, cms::cuda::bs, computeModeAtTM(), TrajectoryStateOnSurface::curvilinearError(), Trajectory::direction(), fillMode(), fillStates(), Trajectory::firstMeasurement(), edm::Event::getByToken(), edm::Event::getRefBeforePut(), TrajectoryStateOnSurface::globalParameters(), mps_fire::i, training_settings::idx, edm::ESHandleBase::isValid(), TrajectoryStateOnSurface::isValid(), Trajectory::lastMeasurement(), TrajectoryStateOnSurface::localParameters(), LogDebug, LogTrace, TrajectoryStateOnSurface::magneticField(), Trajectory::measurements(), GlobalTrajectoryParameters::momentum(), eostools::move(), TrackProducerBase< reco::GsfTrack >::mteSrc_, AlCaHLTBitMon_ParallelJobs::p, GlobalTrajectoryParameters::position(), position, edm::Event::put(), LocalTrajectoryParameters::pzSign(), TrajectoryMeasurement::recHit(), TrackProducerBase< reco::GsfTrack >::rTracks_, Trajectory::seedRef(), reco::TrackExtraBase::setHits(), TrackProducerBase< reco::GsfTrack >::setSecondHitPattern(), reco::TrackExtraBase::setTrajParams(), DetId::subdetId(), OrderedSet::t, SiStripDetId::TEC, TrackProducerBase< reco::GsfTrack >::theSchool, SiStripDetId::TIB, SiStripDetId::TID, SiStripDetId::TOB, HLT_2018_cff::track, DetId::Tracker, TrackProducerBase< reco::GsfTrack >::trajectoryInEvent_, TrajectoryMeasurement::updatedState(), findQualityFiles::v, and validateGeometry_cfg::valid.

Referenced by GsfTrackProducer::produce(), and GsfTrackRefitter::produce().

Member Data Documentation

◆ useSplitting

bool GsfTrackProducerBase::useSplitting
private

Definition at line 67 of file GsfTrackProducerBase.h.

Vector3DBase
Definition: Vector3DBase.h:8
edm::RefProd< TrackingRecHitCollection >
reco::GsfTrackExtra::Point
math::XYZPoint Point
point in the space
Definition: GsfTrackExtra.h:25
FreeTrajectoryState::momentum
GlobalVector momentum() const
Definition: FreeTrajectoryState.h:68
TrajectoryStateClosestToBeamLine
Definition: TrajectoryStateClosestToBeamLine.h:15
edm::Event::getRefBeforePut
RefProd< PROD > getRefBeforePut()
Definition: Event.h:157
Measurement1D
Definition: Measurement1D.h:11
anyDirection
Definition: PropagationDirection.h:4
mps_fire.i
i
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Definition: TrackProducerBase.h:109
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Definition: GsfTrackProducerBase.cc:247
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Definition: Trajectory.h:303
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Definition: GlobalTrajectoryParameters.h:60
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Definition: PV3DBase.h:59
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Definition: Trajectory.cc:133
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Definition: GsfTrackExtra.h:27
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Definition: AlCaHLTBitMon_ParallelJobs.py:153
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Definition: TrajectoryStateOnSurface.h:65
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Definition: PixelAliasList.h:18
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Definition: FreeTrajectoryState.h:69
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Definition: GsfTrack.h:21
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Definition: GsfTrackExtraFwd.h:9
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Definition: TrajectoryMeasurement.h:184
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Definition: LocalTrajectoryError.h:60
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Definition: MultiTrajectoryStateMode.cc:16
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Definition: TransverseImpactPointExtrapolator.h:26
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Definition: training_settings.py:16
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Definition: GsfTrackProducerBase.cc:316
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Definition: validateGeometry_cfg.py:21
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Definition: BeamSpot_PayloadInspector.cc:14
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Definition: PV3DBase.h:61
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Definition: LocalTrajectoryParameters.h:25
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Definition: DetId.h:17
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Definition: TrackExtra.h:26
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Definition: GsfTrack.h:12
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Definition: GetComponents.h:4
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Definition: TrajectoryMeasurement.h:179
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Definition: Trajectory.h:40
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Definition: FreeTrajectoryState.h:89
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Definition: TrajectoryMeasurement.h:177
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Definition: SSEVec.h:19
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Definition: GsfComponent5D.h:12
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Definition: TrackExtraFwd.h:10
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Definition: MultiGaussianState1D.h:12
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Definition: TrajGsfTrackAssociation.h:9
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Definition: LocalTrajectoryParameters.h:120
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Definition: Event.h:528
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Definition: OrderedSet.py:90
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Definition: SiStripDetId.h:40
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Definition: GlobalTrajectoryParameters.h:65
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get the contents of the subdetector field (not cast into any detector's numbering enum)
Definition: DetId.h:48
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Definition: qcdUeDQM_cfi.py:39
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Definition: AnalyticalPropagator_cfi.py:3
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Definition: TrackExtraBase.h:36
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Definition: TrajectoryStateOnSurface.h:73
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Definition: LocalTrajectoryError.h:20
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float pzSign() const
Sign of the z-component of the momentum in the local frame.
Definition: LocalTrajectoryParameters.h:146
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Definition: MessageLogger.h:670
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Definition: Point3D.h:12
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Definition: DetId.h:25
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Definition: GsfComponent5D.h:13
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Definition: LocalError.h:12
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Definition: Trajectory.h:150
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Definition: Traj2TrackHits.h:16
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Definition: CollinearFitAtTM.h:18
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Definition: Vector3D.h:31
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Definition: TrackExtraFwd.h:16
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Definition: ReadPGInfo.cc:289
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Definition: PV3DBase.h:60
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Definition: Event.h:132
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Definition: SiStripDetId.h:39
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Definition: TrackProducerBase.h:108
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Definition: Propagator.h:50
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Definition: AlgebraicROOTObjects.h:14
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Definition: GsfTrackProducerBase.h:67
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Definition: ESHandle.h:44
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Definition: Ref.h:164
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Definition: Trajectory.h:178
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Definition: TrackExtraBase.h:30
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Definition: TrajectoryMeasurement.h:190
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Definition: SiStripDetId.h:38
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Definition: GsfTrackFwd.h:9
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Definition: eostools.py:511
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Definition: EDProductfwd.h:39
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Definition: Trajectory.h:166
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Definition: FreeTrajectoryState.h:27
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bool computeModeAtTM(const TrajectoryMeasurement &tm, reco::GsfTrackExtra::Point &position, reco::GsfTrackExtra::Vector &momentum, Measurement1D &deltaP) const
position, momentum and estimated deltaP at an intermediate measurement (true if successful)
Definition: GsfTrackProducerBase.cc:344
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Definition: TrackExtraBase.h:25
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Definition: Trajectory.h:38
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Definition: TrackProducerBase.h:111
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Definition: TSCBLBuilderNoMaterial.h:13
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Definition: makeMuonMisalignmentScenario.py:58
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Definition: TrajectoryStateOnSurface.h:72
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Definition: PropagationDirection.h:4
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Definition: utils.py:1
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Definition: GsfTrack.h:15
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Definition: SiStripDetId.h:37
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extrapolation with default (=geometrical) propagator
Definition: TransverseImpactPointExtrapolator.cc:23
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Definition: GaussianSumUtilities1D.h:16
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Definition: HLT_2018_cff.py:10352
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Definition: GsfTrackExtra.h:16
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Definition: mps_fire.py:303
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Definition: GsfTrackExtraFwd.h:13
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Definition: MessageLogger.h:671
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Definition: TrajectoryStateOnSurface.h:64
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Definition: SiStripDetId.h:18
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MultiGaussianState1D multiState1D(const std::vector< MultiGaussianState< N >::Vector > &, const std::vector< MultiGaussianState< N >::Matrix > &, const std::vector< double > &, unsigned int)
Definition: MultiGaussianStateTransform.cc:54
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Definition: GsfTrackProducerBase.cc:237
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Definition: GsfPropagatorAdapter.h:14
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Definition: TrajectoryStateOnSurface.h:77
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Definition: AlgebraicROOTObjects.h:23
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Definition: TrajectoryStateOnSurface.h:62
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Definition: TrackExtraBase.h:24
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Definition: PropagationDirection.h:4
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Definition: CurvilinearTrajectoryError.h:61
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Definition: TrajectoryStateOnSurface.h:54
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Definition: SiStripHitEffFromCalibTree.cc:88
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