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GsfElectronAlgo.cc
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27 
28 #include <Math/Point3D.h>
29 #include <memory>
30 
31 #include <algorithm>
32 #include <sstream>
33 
34 using namespace edm;
35 using namespace reco;
36 
38  // soft electron MVA
40  sconfig.vweightsfiles = conf.getParameter<std::vector<std::string>>("SoftElecMVAFilesString");
41  sElectronMVAEstimator = std::make_unique<SoftElectronMVAEstimator>(sconfig);
42  // isolated electron MVA
44  iconfig.vweightsfiles = conf.getParameter<std::vector<std::string>>("ElecMVAFilesString");
45  iElectronMVAEstimator = std::make_unique<ElectronMVAEstimator>(iconfig);
46 }
47 
48 //===================================================================
49 // GsfElectronAlgo::EventData
50 //===================================================================
51 
53  // utilities
54  void retreiveOriginalTrackCollections(const reco::TrackRef&, const reco::GsfTrackRef&);
55 
56  // general
57  edm::Event const* event;
59 
60  // input collections
68 
69  // isolation helpers
76 
81 
84 
85  bool originalCtfTrackCollectionRetreived = false;
86  bool originalGsfTrackCollectionRetreived = false;
87 };
88 
89 //===================================================================
90 // GsfElectronAlgo::ElectronData
91 //===================================================================
92 
94  // Refs to subproducts
101 
102  // constructors
104 
105  // utilities
106  void computeCharge(int& charge, reco::GsfElectron::ChargeInfo& info);
107  reco::CaloClusterPtr getEleBasicCluster(MultiTrajectoryStateTransform const&);
108  bool calculateTSOS(MultiTrajectoryStateTransform const&, GsfConstraintAtVertex const&);
109  void calculateMode();
110  reco::Candidate::LorentzVector calculateMomentum();
111 
112  // TSOS
120 
121  // mode
122  GlobalVector innMom, seedMom, eleMom, sclMom, vtxMom, outMom;
123  GlobalPoint innPos, seedPos, elePos, sclPos, vtxPos, outPos;
125 };
126 
128  const reco::GsfTrackRef& gsfTrack) {
129  if ((!originalCtfTrackCollectionRetreived) && (ctfTrack.isNonnull())) {
130  event->get(ctfTrack.id(), originalCtfTracks);
131  originalCtfTrackCollectionRetreived = true;
132  }
133  if ((!originalGsfTrackCollectionRetreived) && (gsfTrack.isNonnull())) {
134  event->get(gsfTrack.id(), originalGsfTracks);
135  originalGsfTrackCollectionRetreived = true;
136  }
137 }
138 
140  : coreRef(core),
141  gsfTrackRef(coreRef->gsfTrack()),
142  superClusterRef(coreRef->superCluster()),
143  ctfTrackRef(coreRef->ctfTrack()),
144  shFracInnerHits(coreRef->ctfGsfOverlap()),
145  beamSpot(bs) {}
146 
148  // determine charge from SC
149  GlobalPoint orig, scpos;
150  ele_convert(beamSpot.position(), orig);
151  ele_convert(superClusterRef->position(), scpos);
152  GlobalVector scvect(scpos - orig);
153  GlobalPoint inntkpos = innTSOS.globalPosition();
154  GlobalVector inntkvect = GlobalVector(inntkpos - orig);
155  float dPhiInnEle = normalizedPhi(scvect.barePhi() - inntkvect.barePhi());
156  if (dPhiInnEle > 0)
157  info.scPixCharge = -1;
158  else
159  info.scPixCharge = 1;
160 
161  // flags
162  int chargeGsf = gsfTrackRef->charge();
163  info.isGsfScPixConsistent = ((chargeGsf * info.scPixCharge) > 0);
164  info.isGsfCtfConsistent = (ctfTrackRef.isNonnull() && ((chargeGsf * ctfTrackRef->charge()) > 0));
165  info.isGsfCtfScPixConsistent = (info.isGsfScPixConsistent && info.isGsfCtfConsistent);
166 
167  // default charge
168  if (info.isGsfScPixConsistent || ctfTrackRef.isNull()) {
169  charge = info.scPixCharge;
170  } else {
171  charge = ctfTrackRef->charge();
172  }
173 }
174 
176  CaloClusterPtr eleRef;
177  TrajectoryStateOnSurface tempTSOS;
178  TrajectoryStateOnSurface outTSOS = mtsTransform.outerStateOnSurface(*gsfTrackRef);
179  float dphimin = 1.e30;
180  for (auto const& bc : superClusterRef->clusters()) {
181  GlobalPoint posclu(bc->position().x(), bc->position().y(), bc->position().z());
182  tempTSOS = mtsTransform.extrapolatedState(outTSOS, posclu);
183  if (!tempTSOS.isValid())
184  tempTSOS = outTSOS;
185  GlobalPoint extrap = tempTSOS.globalPosition();
186  float dphi = EleRelPointPair(posclu, extrap, beamSpot.position()).dPhi();
187  if (std::abs(dphi) < dphimin) {
188  dphimin = std::abs(dphi);
189  eleRef = bc;
190  eleTSOS = tempTSOS;
191  }
192  }
193  return eleRef;
194 }
195 
197  GsfConstraintAtVertex const& constraintAtVtx) {
198  //at innermost point
199  innTSOS = mtsTransform.innerStateOnSurface(*gsfTrackRef);
200  if (!innTSOS.isValid())
201  return false;
202 
203  //at vertex
204  // innermost state propagation to the beam spot position
206  ele_convert(beamSpot.position(), bsPos);
207  vtxTSOS = mtsTransform.extrapolatedState(innTSOS, bsPos);
208  if (!vtxTSOS.isValid())
209  vtxTSOS = innTSOS;
210 
211  //at seed
212  outTSOS = mtsTransform.outerStateOnSurface(*gsfTrackRef);
213  if (!outTSOS.isValid())
214  return false;
215 
216  // TrajectoryStateOnSurface seedTSOS
217  seedTSOS = mtsTransform.extrapolatedState(outTSOS,
218  GlobalPoint(superClusterRef->seed()->position().x(),
219  superClusterRef->seed()->position().y(),
220  superClusterRef->seed()->position().z()));
221  if (!seedTSOS.isValid())
222  seedTSOS = outTSOS;
223 
224  // at scl
225  sclTSOS = mtsTransform.extrapolatedState(
226  innTSOS, GlobalPoint(superClusterRef->x(), superClusterRef->y(), superClusterRef->z()));
227  if (!sclTSOS.isValid())
228  sclTSOS = outTSOS;
229 
230  // constrained momentum
231  constrainedVtxTSOS = constraintAtVtx.constrainAtBeamSpot(*gsfTrackRef, beamSpot);
232 
233  return true;
234 }
235 
249  multiTrajectoryStateMode::momentumFromModeCartesian(constrainedVtxTSOS, vtxMomWithConstraint);
250 }
251 
253  double scale = superClusterRef->energy() / vtxMom.mag();
255  vtxMom.x() * scale, vtxMom.y() * scale, vtxMom.z() * scale, superClusterRef->energy());
256 }
257 
259  EventData const& eventData) const {
261 
262  const reco::CaloCluster& seedCluster = *(theClus->seed());
263  DetId seedXtalId = seedCluster.seed();
264  int detector = seedXtalId.subdetId();
265  const EcalRecHitCollection* ecalRecHits = nullptr;
266  if (detector == EcalBarrel)
267  ecalRecHits = eventData.barrelRecHits.product();
268  else
269  ecalRecHits = eventData.endcapRecHits.product();
270 
271  int nSaturatedXtals = 0;
272  bool isSeedSaturated = false;
273  for (auto&& hitFractionPair : theClus->hitsAndFractions()) {
274  auto&& ecalRecHit = ecalRecHits->find(hitFractionPair.first);
275  if (ecalRecHit == ecalRecHits->end())
276  continue;
277  if (ecalRecHit->checkFlag(EcalRecHit::Flags::kSaturated)) {
278  nSaturatedXtals++;
279  if (seedXtalId == ecalRecHit->detid())
280  isSeedSaturated = true;
281  }
282  }
283  si.nSaturatedXtals = nSaturatedXtals;
284  si.isSeedSaturated = isSeedSaturated;
285 
286  return si;
287 }
288 
289 template <bool full5x5>
291  ElectronHcalHelper const& hcalHelper,
292  EventData const& eventData,
293  CaloTopology const& topology,
294  CaloGeometry const& geometry) const {
295  using ClusterTools = EcalClusterToolsT<full5x5>;
296  reco::GsfElectron::ShowerShape showerShape;
297 
298  const reco::CaloCluster& seedCluster = *(theClus->seed());
299  // temporary, till CaloCluster->seed() is made available
300  DetId seedXtalId = seedCluster.hitsAndFractions()[0].first;
301  int detector = seedXtalId.subdetId();
302 
303  const EcalRecHitCollection* recHits = nullptr;
304  std::vector<int> recHitFlagsToBeExcluded;
305  std::vector<int> recHitSeverityToBeExcluded;
306  if (detector == EcalBarrel) {
307  recHits = eventData.barrelRecHits.product();
308  recHitFlagsToBeExcluded = cfg_.recHits.recHitFlagsToBeExcludedBarrel;
309  recHitSeverityToBeExcluded = cfg_.recHits.recHitSeverityToBeExcludedBarrel;
310  } else {
311  recHits = eventData.endcapRecHits.product();
312  recHitFlagsToBeExcluded = cfg_.recHits.recHitFlagsToBeExcludedEndcaps;
313  recHitSeverityToBeExcluded = cfg_.recHits.recHitSeverityToBeExcludedEndcaps;
314  }
315 
316  std::vector<float> covariances = ClusterTools::covariances(seedCluster, recHits, &topology, &geometry);
317  std::vector<float> localCovariances = ClusterTools::localCovariances(seedCluster, recHits, &topology);
318  showerShape.sigmaEtaEta = sqrt(covariances[0]);
319  showerShape.sigmaIetaIeta = sqrt(localCovariances[0]);
320  if (!edm::isNotFinite(localCovariances[2]))
321  showerShape.sigmaIphiIphi = sqrt(localCovariances[2]);
322  showerShape.e1x5 = ClusterTools::e1x5(seedCluster, recHits, &topology);
323  showerShape.e2x5Max = ClusterTools::e2x5Max(seedCluster, recHits, &topology);
324  showerShape.e5x5 = ClusterTools::e5x5(seedCluster, recHits, &topology);
325  showerShape.r9 = ClusterTools::e3x3(seedCluster, recHits, &topology) / theClus->rawEnergy();
326 
327  const float scale = full5x5 ? showerShape.e5x5 : theClus->energy();
328 
329  showerShape.hcalDepth1OverEcal = hcalHelper.hcalESumDepth1(*theClus) / theClus->energy();
330  showerShape.hcalDepth2OverEcal = hcalHelper.hcalESumDepth2(*theClus) / theClus->energy();
331  showerShape.hcalTowersBehindClusters = hcalHelper.hcalTowersBehindClusters(*theClus);
332  showerShape.hcalDepth1OverEcalBc =
334  showerShape.hcalDepth2OverEcalBc =
336  showerShape.invalidHcal = (showerShape.hcalDepth1OverEcalBc == 0 && showerShape.hcalDepth2OverEcalBc == 0 &&
337  !hcalHelper.hasActiveHcal(*theClus));
338 
339  // extra shower shapes
340  const float see_by_spp = showerShape.sigmaIetaIeta * showerShape.sigmaIphiIphi;
341  if (see_by_spp > 0) {
342  showerShape.sigmaIetaIphi = localCovariances[1] / see_by_spp;
343  } else if (localCovariances[1] > 0) {
344  showerShape.sigmaIetaIphi = 1.f;
345  } else {
346  showerShape.sigmaIetaIphi = -1.f;
347  }
348  showerShape.eMax = ClusterTools::eMax(seedCluster, recHits);
349  showerShape.e2nd = ClusterTools::e2nd(seedCluster, recHits);
350  showerShape.eTop = ClusterTools::eTop(seedCluster, recHits, &topology);
351  showerShape.eLeft = ClusterTools::eLeft(seedCluster, recHits, &topology);
352  showerShape.eRight = ClusterTools::eRight(seedCluster, recHits, &topology);
353  showerShape.eBottom = ClusterTools::eBottom(seedCluster, recHits, &topology);
354 
355  showerShape.e2x5Left = ClusterTools::e2x5Left(seedCluster, recHits, &topology);
356  showerShape.e2x5Right = ClusterTools::e2x5Right(seedCluster, recHits, &topology);
357  showerShape.e2x5Top = ClusterTools::e2x5Top(seedCluster, recHits, &topology);
358  showerShape.e2x5Bottom = ClusterTools::e2x5Bottom(seedCluster, recHits, &topology);
359 
360  return showerShape;
361 }
362 
363 //===================================================================
364 // GsfElectronAlgo
365 //===================================================================
366 
368  const StrategyConfiguration& strategy,
369  const CutsConfiguration& cuts,
371  const IsolationConfiguration& iso,
373  std::unique_ptr<EcalClusterFunctionBaseClass>&& superClusterErrorFunction,
374  std::unique_ptr<EcalClusterFunctionBaseClass>&& crackCorrectionFunction,
376  const edm::ParameterSet& tkIsol03,
377  const edm::ParameterSet& tkIsol04,
378  const edm::ParameterSet& tkIsolHEEP03,
379  const edm::ParameterSet& tkIsolHEEP04,
381  : cfg_{input, strategy, cuts, iso, recHits},
382  tkIsol03CalcCfg_(tkIsol03),
383  tkIsol04CalcCfg_(tkIsol04),
384  tkIsolHEEP03CalcCfg_(tkIsolHEEP03),
385  tkIsolHEEP04CalcCfg_(tkIsolHEEP04),
386  magneticFieldToken_{cc.esConsumes()},
387  caloGeometryToken_{cc.esConsumes()},
388  caloTopologyToken_{cc.esConsumes()},
389  trackerGeometryToken_{cc.esConsumes()},
390  ecalSeveretyLevelAlgoToken_{cc.esConsumes()},
391  hcalHelper_{hcal, std::move(cc)},
392  superClusterErrorFunction_{
393  std::forward<std::unique_ptr<EcalClusterFunctionBaseClass>>(superClusterErrorFunction)},
394  crackCorrectionFunction_{std::forward<std::unique_ptr<EcalClusterFunctionBaseClass>>(crackCorrectionFunction)},
395  regHelper_{reg, cfg_.strategy.useEcalRegression, cfg_.strategy.useCombinationRegression, cc}
396 
397 {}
398 
402 
404  superClusterErrorFunction_->init(es);
405  }
407  crackCorrectionFunction_->init(es);
408  }
409 }
410 
412  CaloGeometry const& caloGeometry,
413  EcalSeverityLevelAlgo const& ecalSeveretyLevelAlgo) {
414  auto const& towers = event.get(cfg_.tokens.hcalTowersTag);
415 
416  // Isolation algos
417  float egHcalIsoConeSizeOutSmall = 0.3, egHcalIsoConeSizeOutLarge = 0.4;
418  float egHcalIsoConeSizeIn = cfg_.iso.intRadiusHcal, egHcalIsoPtMin = cfg_.iso.etMinHcal;
419  int egHcalDepth1 = 1, egHcalDepth2 = 2;
420 
421  float egIsoConeSizeOutSmall = 0.3, egIsoConeSizeOutLarge = 0.4, egIsoJurassicWidth = cfg_.iso.jurassicWidth;
422  float egIsoPtMinBarrel = cfg_.iso.etMinBarrel, egIsoEMinBarrel = cfg_.iso.eMinBarrel,
423  egIsoConeSizeInBarrel = cfg_.iso.intRadiusEcalBarrel;
424  float egIsoPtMinEndcap = cfg_.iso.etMinEndcaps, egIsoEMinEndcap = cfg_.iso.eMinEndcaps,
425  egIsoConeSizeInEndcap = cfg_.iso.intRadiusEcalEndcaps;
426 
427  auto barrelRecHits = event.getHandle(cfg_.tokens.barrelRecHitCollection);
428  auto endcapRecHits = event.getHandle(cfg_.tokens.endcapRecHitCollection);
429 
430  auto ctfTracks = event.getHandle(cfg_.tokens.ctfTracks);
431 
432  EventData eventData{
433  .event = &event,
434  .beamspot = &event.get(cfg_.tokens.beamSpotTag),
435  .coreElectrons = event.getHandle(cfg_.tokens.gsfElectronCores),
436  .barrelRecHits = barrelRecHits,
437  .endcapRecHits = endcapRecHits,
438  .currentCtfTracks = ctfTracks,
439  .seeds = event.getHandle(cfg_.tokens.seedsTag),
440  .vertices = event.getHandle(cfg_.tokens.vtxCollectionTag),
441  .conversions = cfg_.strategy.fillConvVtxFitProb ? event.getHandle(cfg_.tokens.conversions)
443  .hadDepth1Isolation03 =
444  EgammaTowerIsolation(egHcalIsoConeSizeOutSmall, egHcalIsoConeSizeIn, egHcalIsoPtMin, egHcalDepth1, &towers),
445  .hadDepth1Isolation04 =
446  EgammaTowerIsolation(egHcalIsoConeSizeOutLarge, egHcalIsoConeSizeIn, egHcalIsoPtMin, egHcalDepth1, &towers),
447  .hadDepth2Isolation03 =
448  EgammaTowerIsolation(egHcalIsoConeSizeOutSmall, egHcalIsoConeSizeIn, egHcalIsoPtMin, egHcalDepth2, &towers),
449  .hadDepth2Isolation04 =
450  EgammaTowerIsolation(egHcalIsoConeSizeOutLarge, egHcalIsoConeSizeIn, egHcalIsoPtMin, egHcalDepth2, &towers),
451  .hadDepth1Isolation03Bc =
452  EgammaTowerIsolation(egHcalIsoConeSizeOutSmall, 0., egHcalIsoPtMin, egHcalDepth1, &towers),
453  .hadDepth1Isolation04Bc =
454  EgammaTowerIsolation(egHcalIsoConeSizeOutLarge, 0., egHcalIsoPtMin, egHcalDepth1, &towers),
455  .hadDepth2Isolation03Bc =
456  EgammaTowerIsolation(egHcalIsoConeSizeOutSmall, 0., egHcalIsoPtMin, egHcalDepth2, &towers),
457  .hadDepth2Isolation04Bc =
458  EgammaTowerIsolation(egHcalIsoConeSizeOutLarge, 0., egHcalIsoPtMin, egHcalDepth2, &towers),
459  .ecalBarrelIsol03 = EgammaRecHitIsolation(egIsoConeSizeOutSmall,
460  egIsoConeSizeInBarrel,
461  egIsoJurassicWidth,
462  egIsoPtMinBarrel,
463  egIsoEMinBarrel,
464  &caloGeometry,
465  *barrelRecHits,
466  &ecalSeveretyLevelAlgo,
467  DetId::Ecal),
468  .ecalBarrelIsol04 = EgammaRecHitIsolation(egIsoConeSizeOutLarge,
469  egIsoConeSizeInBarrel,
470  egIsoJurassicWidth,
471  egIsoPtMinBarrel,
472  egIsoEMinBarrel,
473  &caloGeometry,
474  *barrelRecHits,
475  &ecalSeveretyLevelAlgo,
476  DetId::Ecal),
477  .ecalEndcapIsol03 = EgammaRecHitIsolation(egIsoConeSizeOutSmall,
478  egIsoConeSizeInEndcap,
479  egIsoJurassicWidth,
480  egIsoPtMinEndcap,
481  egIsoEMinEndcap,
482  &caloGeometry,
483  *endcapRecHits,
484  &ecalSeveretyLevelAlgo,
485  DetId::Ecal),
486  .ecalEndcapIsol04 = EgammaRecHitIsolation(egIsoConeSizeOutLarge,
487  egIsoConeSizeInEndcap,
488  egIsoJurassicWidth,
489  egIsoPtMinEndcap,
490  egIsoEMinEndcap,
491  &caloGeometry,
492  *endcapRecHits,
493  &ecalSeveretyLevelAlgo,
494  DetId::Ecal),
495  .tkIsol03Calc = EleTkIsolFromCands(tkIsol03CalcCfg_, *ctfTracks),
496  .tkIsol04Calc = EleTkIsolFromCands(tkIsol04CalcCfg_, *ctfTracks),
497  .tkIsolHEEP03Calc = EleTkIsolFromCands(tkIsolHEEP03CalcCfg_, *ctfTracks),
498  .tkIsolHEEP04Calc = EleTkIsolFromCands(tkIsolHEEP04CalcCfg_, *ctfTracks),
499  .originalCtfTracks = {},
500  .originalGsfTracks = {}};
501 
502  eventData.ecalBarrelIsol03.setUseNumCrystals(cfg_.iso.useNumCrystals);
503  eventData.ecalBarrelIsol03.setVetoClustered(cfg_.iso.vetoClustered);
504  eventData.ecalBarrelIsol03.doSeverityChecks(eventData.barrelRecHits.product(),
506  eventData.ecalBarrelIsol03.doFlagChecks(cfg_.recHits.recHitFlagsToBeExcludedBarrel);
507  eventData.ecalBarrelIsol04.setUseNumCrystals(cfg_.iso.useNumCrystals);
508  eventData.ecalBarrelIsol04.setVetoClustered(cfg_.iso.vetoClustered);
509  eventData.ecalBarrelIsol04.doSeverityChecks(eventData.barrelRecHits.product(),
511  eventData.ecalBarrelIsol04.doFlagChecks(cfg_.recHits.recHitFlagsToBeExcludedBarrel);
512  eventData.ecalEndcapIsol03.setUseNumCrystals(cfg_.iso.useNumCrystals);
513  eventData.ecalEndcapIsol03.setVetoClustered(cfg_.iso.vetoClustered);
514  eventData.ecalEndcapIsol03.doSeverityChecks(eventData.endcapRecHits.product(),
516  eventData.ecalEndcapIsol03.doFlagChecks(cfg_.recHits.recHitFlagsToBeExcludedEndcaps);
517  eventData.ecalEndcapIsol04.setUseNumCrystals(cfg_.iso.useNumCrystals);
518  eventData.ecalEndcapIsol04.setVetoClustered(cfg_.iso.vetoClustered);
519  eventData.ecalEndcapIsol04.doSeverityChecks(eventData.endcapRecHits.product(),
521  eventData.ecalEndcapIsol04.doFlagChecks(cfg_.recHits.recHitFlagsToBeExcludedEndcaps);
522 
523  return eventData;
524 }
525 
527  edm::EventSetup const& eventSetup,
530 
531  auto const& magneticField = eventSetup.getData(magneticFieldToken_);
532  auto const& caloGeometry = eventSetup.getData(caloGeometryToken_);
533  auto const& caloTopology = eventSetup.getData(caloTopologyToken_);
534  auto const& trackerGeometry = eventSetup.getData(trackerGeometryToken_);
535  auto const& ecalSeveretyLevelAlgo = eventSetup.getData(ecalSeveretyLevelAlgoToken_);
536 
537  // prepare access to hcal data
538  hcalHelper_.beginEvent(event, eventSetup);
539 
540  checkSetup(eventSetup);
541  auto eventData = beginEvent(event, caloGeometry, ecalSeveretyLevelAlgo);
542  double magneticFieldInTesla = magneticField.inTesla(GlobalPoint(0., 0., 0.)).z();
543 
544  MultiTrajectoryStateTransform mtsTransform(&trackerGeometry, &magneticField);
545  GsfConstraintAtVertex constraintAtVtx(eventSetup);
546 
547  std::optional<egamma::conv::TrackTable> ctfTrackTable = std::nullopt;
548  std::optional<egamma::conv::TrackTable> gsfTrackTable = std::nullopt;
549 
550  const GsfElectronCoreCollection* coreCollection = eventData.coreElectrons.product();
551  for (unsigned int i = 0; i < coreCollection->size(); ++i) {
552  // check there is no existing electron with this core
553  const GsfElectronCoreRef coreRef = edm::Ref<GsfElectronCoreCollection>(eventData.coreElectrons, i);
554 
555  // check there is a super-cluster
556  if (coreRef->superCluster().isNull())
557  continue;
558 
559  // prepare internal structure for electron specific data
560  ElectronData electronData(coreRef, *eventData.beamspot);
561 
562  // calculate and check Trajectory StatesOnSurface....
563  if (!electronData.calculateTSOS(mtsTransform, constraintAtVtx))
564  continue;
565 
566  eventData.retreiveOriginalTrackCollections(electronData.ctfTrackRef, electronData.coreRef->gsfTrack());
567 
568  if (!eventData.originalCtfTracks.isValid()) {
569  eventData.originalCtfTracks = eventData.currentCtfTracks;
570  }
571 
572  if (ctfTrackTable == std::nullopt) {
573  ctfTrackTable = egamma::conv::TrackTable(*eventData.originalCtfTracks);
574  }
575  if (gsfTrackTable == std::nullopt) {
576  gsfTrackTable = egamma::conv::TrackTable(*eventData.originalGsfTracks);
577  }
578 
580  electronData,
581  eventData,
582  caloTopology,
583  caloGeometry,
584  mtsTransform,
585  magneticFieldInTesla,
586  hoc,
587  ctfTrackTable.value(),
588  gsfTrackTable.value());
589 
590  } // loop over tracks
591  return electrons;
592 }
593 
595  // default value
596  ele.setPassCutBasedPreselection(false);
597 
598  // kind of seeding
599  bool eg = ele.core()->ecalDrivenSeed();
600  bool pf = ele.core()->trackerDrivenSeed() && !ele.core()->ecalDrivenSeed();
601  if (eg && pf) {
602  throw cms::Exception("GsfElectronAlgo|BothEcalAndPureTrackerDriven")
603  << "An electron cannot be both egamma and purely pflow";
604  }
605  if ((!eg) && (!pf)) {
606  throw cms::Exception("GsfElectronAlgo|NeitherEcalNorPureTrackerDriven")
607  << "An electron cannot be neither egamma nor purely pflow";
608  }
609 
610  CutsConfiguration const& cfg = cfg_.cuts;
611 
612  // Et cut
613  double etaValue = EleRelPoint(ele.superCluster()->position(), bs.position()).eta();
614  double etValue = ele.superCluster()->energy() / cosh(etaValue);
615  LogTrace("GsfElectronAlgo") << "Et : " << etValue;
616  if (ele.isEB() && (etValue < cfg.minSCEtBarrel))
617  return;
618  if (ele.isEE() && (etValue < cfg.minSCEtEndcaps))
619  return;
620  LogTrace("GsfElectronAlgo") << "Et criteria are satisfied";
621 
622  // E/p cut
623  double eopValue = ele.eSuperClusterOverP();
624  LogTrace("GsfElectronAlgo") << "E/p : " << eopValue;
625  if (ele.isEB() && (eopValue > cfg.maxEOverPBarrel))
626  return;
627  if (ele.isEE() && (eopValue > cfg.maxEOverPEndcaps))
628  return;
629  if (ele.isEB() && (eopValue < cfg.minEOverPBarrel))
630  return;
631  if (ele.isEE() && (eopValue < cfg.minEOverPEndcaps))
632  return;
633  LogTrace("GsfElectronAlgo") << "E/p criteria are satisfied";
634 
635  // HoE cuts
636  LogTrace("GsfElectronAlgo") << "HoE1 : " << ele.hcalDepth1OverEcal() << ", HoE2 : " << ele.hcalDepth2OverEcal();
637  double hoeCone = ele.hcalOverEcal();
638  double hoeTower = ele.hcalOverEcalBc();
639  const reco::CaloCluster& seedCluster = *(ele.superCluster()->seed());
640  int detector = seedCluster.hitsAndFractions()[0].first.subdetId();
641  bool HoEveto = false;
642  double scle = ele.superCluster()->energy();
643 
644  if (detector == EcalBarrel)
645  HoEveto = hoeCone * scle < cfg.maxHBarrelCone || hoeTower * scle < cfg.maxHBarrelTower ||
646  hoeCone < cfg.maxHOverEBarrelCone || hoeTower < cfg.maxHOverEBarrelTower;
647  else if (detector == EcalEndcap)
648  HoEveto = hoeCone * scle < cfg.maxHEndcapsCone || hoeTower * scle < cfg.maxHEndcapsTower ||
649  hoeCone < cfg.maxHOverEEndcapsCone || hoeTower < cfg.maxHOverEEndcapsTower;
650 
651  if (!HoEveto)
652  return;
653  LogTrace("GsfElectronAlgo") << "H/E criteria are satisfied";
654 
655  // delta eta criteria
656  double deta = ele.deltaEtaSuperClusterTrackAtVtx();
657  LogTrace("GsfElectronAlgo") << "delta eta : " << deta;
658  if (ele.isEB() && (std::abs(deta) > cfg.maxDeltaEtaBarrel))
659  return;
660  if (ele.isEE() && (std::abs(deta) > cfg.maxDeltaEtaEndcaps))
661  return;
662  LogTrace("GsfElectronAlgo") << "Delta eta criteria are satisfied";
663 
664  // delta phi criteria
665  double dphi = ele.deltaPhiSuperClusterTrackAtVtx();
666  LogTrace("GsfElectronAlgo") << "delta phi : " << dphi;
667  if (ele.isEB() && (std::abs(dphi) > cfg.maxDeltaPhiBarrel))
668  return;
669  if (ele.isEE() && (std::abs(dphi) > cfg.maxDeltaPhiEndcaps))
670  return;
671  LogTrace("GsfElectronAlgo") << "Delta phi criteria are satisfied";
672 
673  // sigma ieta ieta
674  LogTrace("GsfElectronAlgo") << "sigma ieta ieta : " << ele.sigmaIetaIeta();
675  if (ele.isEB() && (ele.sigmaIetaIeta() > cfg.maxSigmaIetaIetaBarrel))
676  return;
677  if (ele.isEE() && (ele.sigmaIetaIeta() > cfg.maxSigmaIetaIetaEndcaps))
678  return;
679  LogTrace("GsfElectronAlgo") << "Sigma ieta ieta criteria are satisfied";
680 
681  // fiducial
682  if (!ele.isEB() && cfg.isBarrel)
683  return;
684  if (!ele.isEE() && cfg.isEndcaps)
685  return;
686  if (cfg.isFiducial &&
687  (ele.isEBEEGap() || ele.isEBEtaGap() || ele.isEBPhiGap() || ele.isEERingGap() || ele.isEEDeeGap()))
688  return;
689  LogTrace("GsfElectronAlgo") << "Fiducial flags criteria are satisfied";
690 
691  // seed in TEC
692  edm::RefToBase<TrajectorySeed> seed = ele.gsfTrack()->extra()->seedRef();
693  ElectronSeedRef elseed = seed.castTo<ElectronSeedRef>();
694  if (eg && !cfg_.cuts.seedFromTEC) {
695  if (elseed.isNull()) {
696  throw cms::Exception("GsfElectronAlgo|NotElectronSeed") << "The GsfTrack seed is not an ElectronSeed ?!";
697  } else {
698  if (elseed->subDet(1) == 6)
699  return;
700  }
701  }
702 
703  // transverse impact parameter
704  if (std::abs(ele.gsfTrack()->dxy(bs.position())) > cfg.maxTIP)
705  return;
706  LogTrace("GsfElectronAlgo") << "TIP criterion is satisfied";
707 
708  LogTrace("GsfElectronAlgo") << "All cut based criteria are satisfied";
709  ele.setPassCutBasedPreselection(true);
710 }
711 
713  ElectronData& electronData,
714  EventData& eventData,
715  CaloTopology const& topology,
716  CaloGeometry const& geometry,
717  MultiTrajectoryStateTransform const& mtsTransform,
718  double magneticFieldInTesla,
721  egamma::conv::TrackTableView gsfTable) {
722  // charge ID
723  int eleCharge;
724  GsfElectron::ChargeInfo eleChargeInfo;
725  electronData.computeCharge(eleCharge, eleChargeInfo);
726 
727  // electron basic cluster
728  CaloClusterPtr elbcRef = electronData.getEleBasicCluster(mtsTransform);
729 
730  // Seed cluster
731  const reco::CaloCluster& seedCluster = *(electronData.superClusterRef->seed());
732 
733  // seed Xtal
734  // temporary, till CaloCluster->seed() is made available
735  DetId seedXtalId = seedCluster.hitsAndFractions()[0].first;
736 
737  electronData.calculateMode();
738 
739  //====================================================
740  // Candidate attributes
741  //====================================================
742 
743  Candidate::LorentzVector momentum = electronData.calculateMomentum();
744 
745  //====================================================
746  // Track-Cluster Matching
747  //====================================================
748 
750  tcMatching.electronCluster = elbcRef;
751  tcMatching.eSuperClusterOverP =
752  (electronData.vtxMom.mag() > 0) ? (electronData.superClusterRef->energy() / electronData.vtxMom.mag()) : (-1.);
753  tcMatching.eSeedClusterOverP =
754  (electronData.vtxMom.mag() > 0.) ? (seedCluster.energy() / electronData.vtxMom.mag()) : (-1);
755  tcMatching.eSeedClusterOverPout =
756  (electronData.seedMom.mag() > 0.) ? (seedCluster.energy() / electronData.seedMom.mag()) : (-1.);
757  tcMatching.eEleClusterOverPout =
758  (electronData.eleMom.mag() > 0.) ? (elbcRef->energy() / electronData.eleMom.mag()) : (-1.);
759 
760  EleRelPointPair scAtVtx(
761  electronData.superClusterRef->position(), electronData.sclPos, eventData.beamspot->position());
762  tcMatching.deltaEtaSuperClusterAtVtx = scAtVtx.dEta();
763  tcMatching.deltaPhiSuperClusterAtVtx = scAtVtx.dPhi();
764 
765  EleRelPointPair seedAtCalo(seedCluster.position(), electronData.seedPos, eventData.beamspot->position());
766  tcMatching.deltaEtaSeedClusterAtCalo = seedAtCalo.dEta();
767  tcMatching.deltaPhiSeedClusterAtCalo = seedAtCalo.dPhi();
768 
769  EleRelPointPair ecAtCalo(elbcRef->position(), electronData.elePos, eventData.beamspot->position());
770  tcMatching.deltaEtaEleClusterAtCalo = ecAtCalo.dEta();
771  tcMatching.deltaPhiEleClusterAtCalo = ecAtCalo.dPhi();
772 
773  //=======================================================
774  // Track extrapolations
775  //=======================================================
776 
778  ele_convert(electronData.vtxPos, tkExtra.positionAtVtx);
779  ele_convert(electronData.sclPos, tkExtra.positionAtCalo);
780  ele_convert(electronData.vtxMom, tkExtra.momentumAtVtx);
781  ele_convert(electronData.sclMom, tkExtra.momentumAtCalo);
782  ele_convert(electronData.seedMom, tkExtra.momentumOut);
783  ele_convert(electronData.eleMom, tkExtra.momentumAtEleClus);
785 
786  //=======================================================
787  // Closest Ctf Track
788  //=======================================================
789 
791  ctfInfo.ctfTrack = electronData.ctfTrackRef;
792  ctfInfo.shFracInnerHits = electronData.shFracInnerHits;
793 
794  //====================================================
795  // FiducialFlags, using nextToBoundary definition of gaps
796  //====================================================
797 
798  reco::GsfElectron::FiducialFlags fiducialFlags;
799  int region = seedXtalId.det();
800  int detector = seedXtalId.subdetId();
801  double feta = std::abs(electronData.superClusterRef->position().eta());
802  if (detector == EcalBarrel) {
803  fiducialFlags.isEB = true;
804  EBDetId ebdetid(seedXtalId);
805  if (EBDetId::isNextToEtaBoundary(ebdetid)) {
806  if (ebdetid.ietaAbs() == 85) {
807  fiducialFlags.isEBEEGap = true;
808  } else {
809  fiducialFlags.isEBEtaGap = true;
810  }
811  }
812  if (EBDetId::isNextToPhiBoundary(ebdetid)) {
813  fiducialFlags.isEBPhiGap = true;
814  }
815  } else if (detector == EcalEndcap) {
816  fiducialFlags.isEE = true;
817  EEDetId eedetid(seedXtalId);
818  if (EEDetId::isNextToRingBoundary(eedetid)) {
819  if (std::abs(feta) < 2.) {
820  fiducialFlags.isEBEEGap = true;
821  } else {
822  fiducialFlags.isEERingGap = true;
823  }
824  }
825  if (EEDetId::isNextToDBoundary(eedetid)) {
826  fiducialFlags.isEEDeeGap = true;
827  }
829  fiducialFlags.isEE = true;
830  //HGCalDetId eeDetid(seedXtalId);
831  // fill in fiducial information when we know how to use it...
832  } else {
833  throw cms::Exception("GsfElectronAlgo|UnknownXtalRegion")
834  << "createElectron(): do not know if it is a barrel or endcap seed cluster !!!!";
835  }
836 
837  //====================================================
838  // SaturationInfo
839  //====================================================
840 
841  auto saturationInfo = calculateSaturationInfo(electronData.superClusterRef, eventData);
842 
843  //====================================================
844  // ShowerShape
845  //====================================================
846 
847  reco::GsfElectron::ShowerShape showerShape;
848  reco::GsfElectron::ShowerShape full5x5_showerShape;
850  showerShape = calculateShowerShape<false>(electronData.superClusterRef, hcalHelper_, eventData, topology, geometry);
851  full5x5_showerShape =
852  calculateShowerShape<true>(electronData.superClusterRef, hcalHelper_, eventData, topology, geometry);
853  }
854 
855  //====================================================
856  // ConversionRejection
857  //====================================================
858 
860  if (!ctfTracks.isValid()) {
861  ctfTracks = eventData.currentCtfTracks;
862  }
863 
864  {
865  //get the references to the gsf and ctf tracks that are made
866  //by the electron
867  const reco::TrackRef el_ctftrack = electronData.coreRef->ctfTrack();
868  const reco::GsfTrackRef& el_gsftrack = electronData.coreRef->gsfTrack();
869 
870  //protect against the wrong collection being passed to the function
871  if (el_ctftrack.isNonnull() && el_ctftrack.id() != ctfTracks.id())
872  throw cms::Exception("ConversionFinderError")
873  << "ProductID of ctf track collection does not match ProductID of electron's CTF track! \n";
874  if (el_gsftrack.isNonnull() && el_gsftrack.id() != eventData.originalGsfTracks.id())
875  throw cms::Exception("ConversionFinderError")
876  << "ProductID of gsf track collection does not match ProductID of electron's GSF track! \n";
877  }
878 
879  // values of conversionInfo.flag
880  // -9999 : Partner track was not found
881  // 0 : Partner track found in the CTF collection using
882  // 1 : Partner track found in the CTF collection using
883  // 2 : Partner track found in the GSF collection using
884  // 3 : Partner track found in the GSF collection using the electron's GSF track
885  auto conversionInfo = egamma::conv::findConversion(*electronData.coreRef, ctfTable, gsfTable, magneticFieldInTesla);
886 
888  conversionVars.flags = conversionInfo.flag;
889  conversionVars.dist = conversionInfo.dist;
890  conversionVars.dcot = conversionInfo.dcot;
891  conversionVars.radius = conversionInfo.radiusOfConversion;
893  //this is an intentionally bugged version which ignores the GsfTrack
894  //this is a bug which was introduced in reduced e/gamma where the GsfTrack gets
895  //relinked to a new collection which means it can no longer match the conversion
896  //as it matches based on product/id
897  //we keep this defination for the MVAs
898  const auto matchedConv = ConversionTools::matchedConversion(
899  electronData.coreRef->ctfTrack(), *eventData.conversions, eventData.beamspot->position(), 2.0, 1e-6, 0);
900  conversionVars.vtxFitProb = ConversionTools::getVtxFitProb(matchedConv);
901  }
902  if (conversionInfo.conversionPartnerCtfTkIdx) {
903  conversionVars.partner = TrackBaseRef(reco::TrackRef(ctfTracks, conversionInfo.conversionPartnerCtfTkIdx.value()));
904  } else if (conversionInfo.conversionPartnerGsfTkIdx) {
905  conversionVars.partner =
906  TrackBaseRef(reco::GsfTrackRef(eventData.originalGsfTracks, conversionInfo.conversionPartnerGsfTkIdx.value()));
907  }
908 
909  //====================================================
910  // Go !
911  //====================================================
912 
913  electrons.emplace_back(eleCharge,
914  eleChargeInfo,
915  electronData.coreRef,
916  tcMatching,
917  tkExtra,
918  ctfInfo,
919  fiducialFlags,
920  showerShape,
921  full5x5_showerShape,
922  conversionVars,
923  saturationInfo);
924  auto& ele = electrons.back();
925  // Will be overwritten later in the case of the regression
926  ele.setCorrectedEcalEnergyError(superClusterErrorFunction_->getValue(*(ele.superCluster()), 0));
927  ele.setP4(GsfElectron::P4_FROM_SUPER_CLUSTER, momentum, 0, true);
928 
929  //====================================================
930  // brems fractions
931  //====================================================
932 
933  if (electronData.innMom.mag() > 0.) {
934  ele.setTrackFbrem((electronData.innMom.mag() - electronData.outMom.mag()) / electronData.innMom.mag());
935  }
936 
937  // the supercluster is the refined one The seed is not necessarily the first cluster
938  // hence the use of the electronCluster
939  SuperClusterRef sc = ele.superCluster();
940  if (!(sc.isNull())) {
941  CaloClusterPtr cl = ele.electronCluster();
942  if (sc->clustersSize() > 1) {
943  float pf_fbrem = (sc->energy() - cl->energy()) / sc->energy();
944  ele.setSuperClusterFbrem(pf_fbrem);
945  } else {
946  ele.setSuperClusterFbrem(0);
947  }
948  }
949 
950  //====================================================
951  // classification and corrections
952  //====================================================
953  // classification
954  const auto elClass = egamma::classifyElectron(ele);
955  ele.setClassification(elClass);
956 
957  bool unexpectedClassification = elClass == GsfElectron::UNKNOWN || elClass > GsfElectron::GAP;
958  if (unexpectedClassification) {
959  edm::LogWarning("GsfElectronAlgo") << "unexpected classification";
960  }
961 
962  // ecal energy
963  if (cfg_.strategy.useEcalRegression) // new
964  {
965  regHelper_.applyEcalRegression(ele, *eventData.vertices, *eventData.barrelRecHits, *eventData.endcapRecHits);
966  } else // original implementation
967  {
969  if (ele.core()->ecalDrivenSeed()) {
970  if (cfg_.strategy.ecalDrivenEcalEnergyFromClassBasedParameterization && !unexpectedClassification) {
971  if (ele.isEcalEnergyCorrected()) {
972  edm::LogWarning("ElectronEnergyCorrector::classBasedElectronEnergy") << "already done";
973  } else {
974  ele.setCorrectedEcalEnergy(
976  }
977  }
979  ele.setCorrectedEcalEnergyError(egamma::classBasedElectronEnergyUncertainty(ele));
980  }
981  } else {
983  ele.setCorrectedEcalEnergyError(egamma::simpleElectronEnergyUncertainty(ele));
984  }
985  }
986  }
987  }
988 
989  // momentum
990  // Keep the default correction running first. The track momentum error is computed in there
991  if (cfg_.strategy.useDefaultEnergyCorrection && ele.core()->ecalDrivenSeed() && !unexpectedClassification) {
992  if (ele.p4Error(reco::GsfElectron::P4_COMBINATION) != 999.) {
993  edm::LogWarning("ElectronMomentumCorrector::correct") << "already done";
994  } else {
995  auto p = egamma::correctElectronMomentum(ele, electronData.vtxTSOS);
996  ele.correctMomentum(p.momentum, p.trackError, p.finalError);
997  }
998  }
1000  {
1002  }
1003 
1004  //====================================================
1005  // now isolation variables
1006  //====================================================
1008  dr03.tkSumPt = eventData.tkIsol03Calc(*ele.gsfTrack()).ptSum;
1009  dr04.tkSumPt = eventData.tkIsol04Calc(*ele.gsfTrack()).ptSum;
1010  dr03.tkSumPtHEEP = eventData.tkIsolHEEP03Calc(*ele.gsfTrack()).ptSum;
1011  dr04.tkSumPtHEEP = eventData.tkIsolHEEP04Calc(*ele.gsfTrack()).ptSum;
1012 
1016  dr03.hcalDepth1TowerSumEtBc =
1017  eventData.hadDepth1Isolation03Bc.getTowerEtSum(&ele, &(showerShape.hcalTowersBehindClusters));
1018  dr03.hcalDepth2TowerSumEtBc =
1019  eventData.hadDepth2Isolation03Bc.getTowerEtSum(&ele, &(showerShape.hcalTowersBehindClusters));
1020  dr03.ecalRecHitSumEt = eventData.ecalBarrelIsol03.getEtSum(&ele);
1021  dr03.ecalRecHitSumEt += eventData.ecalEndcapIsol03.getEtSum(&ele);
1024  dr04.hcalDepth1TowerSumEtBc =
1025  eventData.hadDepth1Isolation04Bc.getTowerEtSum(&ele, &(showerShape.hcalTowersBehindClusters));
1026  dr04.hcalDepth2TowerSumEtBc =
1027  eventData.hadDepth2Isolation04Bc.getTowerEtSum(&ele, &(showerShape.hcalTowersBehindClusters));
1028  dr04.ecalRecHitSumEt = eventData.ecalBarrelIsol04.getEtSum(&ele);
1029  dr04.ecalRecHitSumEt += eventData.ecalEndcapIsol04.getEtSum(&ele);
1030  }
1031  ele.setIsolation03(dr03);
1032  ele.setIsolation04(dr04);
1033 
1034  //====================================================
1035  // preselection flag
1036  //====================================================
1037 
1038  setCutBasedPreselectionFlag(ele, *eventData.beamspot);
1039  //setting mva flag, currently GedGsfElectron and GsfElectron pre-selection flags have desynced
1040  //this is for GedGsfElectrons, GsfElectrons (ie old pre 7X std reco) resets this later on
1041  //in the function "addPfInfo"
1042  //yes this is awful, we'll fix it once we work out how to...
1043  float mvaValue = hoc->sElectronMVAEstimator->mva(ele, *(eventData.vertices));
1044  ele.setPassMvaPreselection(mvaValue > cfg_.strategy.PreSelectMVA);
1045 
1046  //====================================================
1047  // Pixel match variables
1048  //====================================================
1050 
1051  LogTrace("GsfElectronAlgo") << "Constructed new electron with energy " << ele.p4().e();
1052 }
1053 
1054 // Pixel match variables
1056  int sd1 = 0;
1057  int sd2 = 0;
1058  float dPhi1 = 0;
1059  float dPhi2 = 0;
1060  float dRz1 = 0;
1061  float dRz2 = 0;
1062  edm::RefToBase<TrajectorySeed> seed = ele.gsfTrack()->extra()->seedRef();
1063  ElectronSeedRef elseed = seed.castTo<ElectronSeedRef>();
1064  if (seed.isNull()) {
1065  } else {
1066  if (elseed.isNull()) {
1067  } else {
1068  sd1 = elseed->subDet(0);
1069  sd2 = elseed->subDet(1);
1070  dPhi1 = (ele.charge() > 0) ? elseed->dPhiPos(0) : elseed->dPhiNeg(0);
1071  dPhi2 = (ele.charge() > 0) ? elseed->dPhiPos(1) : elseed->dPhiNeg(1);
1072  dRz1 = (ele.charge() > 0) ? elseed->dRZPos(0) : elseed->dRZNeg(0);
1073  dRz2 = (ele.charge() > 0) ? elseed->dRZPos(1) : elseed->dRZNeg(1);
1074  }
1075  }
1076  ele.setPixelMatchSubdetectors(sd1, sd2);
1077  ele.setPixelMatchDPhi1(dPhi1);
1078  ele.setPixelMatchDPhi2(dPhi2);
1079  ele.setPixelMatchDRz1(dRz1);
1080  ele.setPixelMatchDRz2(dRz2);
1081 }
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Definition: GsfElectron.h:576
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Definition: GsfElectron.h:371
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Definition: GsfElectronAlgo.cc:72
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Definition: GsfElectron.h:386
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Definition: GsfElectron.h:322
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Definition: RegressionHelper.cc:114
GsfElectronAlgo::ElectronData::getEleBasicCluster
reco::CaloClusterPtr getEleBasicCluster(MultiTrajectoryStateTransform const &)
Definition: GsfElectronAlgo.cc:175
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Definition: GsfElectron.h:425
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Definition: GsfElectron.h:367
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virtual GsfElectronCoreRef core() const
Definition: GsfElectron.cc:8
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Definition: GsfElectron.h:212
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Definition: patCandidatesForDimuonsSequences_cff.py:37
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Definition: fileCollector.py:127
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Definition: GsfElectron.h:512
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Definition: GetRecoTauVFromDQM_MC_cff.py:38
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Definition: DetId.h:17
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Definition: GsfElectronAlgo.cc:114
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Definition: TrajectoryStateOnSurface.h:16
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Definition: CaloGeometry.h:21
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Definition: HistoContainer.h:127
GsfElectronAlgo::HeavyObjectCache
Definition: GsfElectronAlgo.h:52
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Definition: GsfElectron.h:511
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Definition: GsfElectron.h:324
GsfElectronAlgo::caloTopologyToken_
const edm::ESGetToken< CaloTopology, CaloTopologyRecord > caloTopologyToken_
Definition: GsfElectronAlgo.h:248
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Definition: SoftElectronMVAEstimator.h:17
EgAmbiguityTools.h
EgammaRecHitIsolation::getEtSum
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Definition: EgammaRecHitIsolation.h:39
ElectronHcalHelper::hcalESumDepth2BehindClusters
auto hcalESumDepth2BehindClusters(const std::vector< CaloTowerDetId > &towers) const
Definition: ElectronHcalHelper.h:56
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Definition: GsfElectronAlgo.h:256
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Definition: GsfElectronAlgo.cc:63
GsfElectronAlgo::GsfElectronAlgo
GsfElectronAlgo(const Tokens &, const StrategyConfiguration &, const CutsConfiguration &cutsCfg, const ElectronHcalHelper::Configuration &hcalCfg, const IsolationConfiguration &, const EcalRecHitsConfiguration &, std::unique_ptr< EcalClusterFunctionBaseClass > &&superClusterErrorFunction, std::unique_ptr< EcalClusterFunctionBaseClass > &&crackCorrectionFunction, const RegressionHelper::Configuration &regCfg, const edm::ParameterSet &tkIsol03Cfg, const edm::ParameterSet &tkIsol04Cfg, const edm::ParameterSet &tkIsolHEEP03Cfg, const edm::ParameterSet &tkIsolHEEP04Cfg, edm::ConsumesCollector &&cc)
Definition: GsfElectronAlgo.cc:367
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Definition: GsfElectronAlgo.cc:57
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void setPixelMatchDRz2(float dRz2)
Definition: GsfElectron.h:857
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const CaloTopology * topology(nullptr)
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Definition: GsfElectron.h:572
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Definition: GsfConstraintAtVertex.h:21
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Definition: GsfElectron.h:366
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Definition: PVValidationHelpers.h:69
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Definition: GsfElectronCoreFwd.h:12
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Definition: CaloCluster.h:31
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Definition: SSEVec.h:19
GsfElectronAlgo::setPixelMatchInfomation
void setPixelMatchInfomation(reco::GsfElectron &) const
Definition: GsfElectronAlgo.cc:1055
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Definition: BeamSpot.h:21
GsfElectronAlgo::ElectronData::innMom
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Definition: GsfElectronAlgo.cc:122
GsfElectronAlgo::ElectronData::beamSpot
const reco::BeamSpot beamSpot
Definition: GsfElectronAlgo.cc:100
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constexpr T normalizedPhi(T phi)
Definition: normalizedPhi.h:8
reco::GsfElectron::isEEDeeGap
bool isEEDeeGap() const
Definition: GsfElectron.h:344
reco::GsfElectron::IsolationVariables::hcalDepth1TowerSumEt
float hcalDepth1TowerSumEt
Definition: GsfElectron.h:514
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float eTop
Definition: GsfElectron.h:383
reco::GsfElectron::FiducialFlags
Definition: GsfElectron.h:317
reco::GsfElectron::setPixelMatchDRz1
void setPixelMatchDRz1(float dRz1)
Definition: GsfElectron.h:856
ElectronHcalHelper::hasActiveHcal
bool hasActiveHcal(const reco::SuperCluster &sc) const
Definition: ElectronHcalHelper.cc:86
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Definition: GsfElectron.h:35
GlobalPoint
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Definition: GlobalPoint.h:10
reco::BeamSpot::position
const Point & position() const
position
Definition: BeamSpot.h:59
GsfElectronAlgo::HeavyObjectCache::HeavyObjectCache
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Definition: GsfElectronAlgo.cc:37
Point3DBase< float, GlobalTag >
GsfElectron.h
reco::GsfElectron::IsolationVariables
Definition: GsfElectron.h:510
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Definition: GsfElectron.h:376
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const EleTkIsolFromCands::Configuration tkIsolHEEP03CalcCfg_
Definition: GsfElectronAlgo.h:243
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Definition: ElectronHcalHelper.h:25
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float sigmaIphiIphi
Definition: GsfElectron.h:369
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constexpr int subdetId() const
get the contents of the subdetector field (not cast into any detector's numbering enum)
Definition: DetId.h:48
qcdUeDQM_cfi.bsPos
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Definition: qcdUeDQM_cfi.py:39
EEDetId
Definition: EEDetId.h:14
GsfElectronAlgo::ElectronData::elePos
GlobalPoint elePos
Definition: GsfElectronAlgo.cc:123
GsfElectronAlgo::EventData::hadDepth2Isolation04Bc
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Definition: GsfElectronAlgo.cc:73
GsfElectronAlgo::beginEvent
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Definition: GsfElectronAlgo.cc:411
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Definition: ConversionFinder.h:57
GsfElectronAlgo::ElectronData::ElectronData
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Definition: GsfElectronAlgo.cc:119
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Definition: GsfElectronAlgo.h:65
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float classBasedElectronEnergy(reco::GsfElectron const &, reco::BeamSpot const &, EcalClusterFunctionBaseClass const &crackCorrectionFunction)
Definition: ElectronEnergyCorrector.cc:295
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Definition: EcalSubdetector.h:10
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Definition: GsfElectron.h:516
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Definition: FastTrackerRecHitMaskProducer_cfi.py:8
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Definition: GsfElectronAlgo.cc:66
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Definition: ALCARECOTkAlJpsiMuMu_cff.py:47
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Definition: GsfElectronAlgo.cc:62
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Definition: GsfElectron.h:206
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Definition: GsfElectronAlgo.h:59
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Definition: GsfElectronAlgo.cc:80
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Definition: GsfElectron.h:517
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Definition: IOMC_cff.py:103
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Definition: JetMETHLTOfflineSource_cfi.py:30
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Definition: __init__.py:1
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Definition: GsfElectron.h:202
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Definition: GsfElectron.h:204
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Definition: ParameterSet.h:47
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float deltaEtaSuperClusterTrackAtVtx() const
Definition: GsfElectron.h:233
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T barePhi() const
Definition: PV3DBase.h:65
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const std::vector< std::pair< DetId, float > > & hitsAndFractions() const
Definition: CaloCluster.h:210
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const edm::ESGetToken< EcalSeverityLevelAlgo, EcalSeverityLevelAlgoRcd > ecalSeveretyLevelAlgoToken_
Definition: GsfElectronAlgo.h:250
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const EleTkIsolFromCands::Configuration tkIsol04CalcCfg_
Definition: GsfElectronAlgo.h:242
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void checkSetup(edm::EventSetup const &eventSetup)
Definition: GsfElectronAlgo.cc:399
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static bool isNextToRingBoundary(EEDetId id)
Definition: EEDetId.cc:284
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Definition: cosmicPhotonAnalyzer_cfi.py:10
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Definition: GsfElectronAlgo.h:70
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Definition: GsfElectron.h:270
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const_iterator end() const
Definition: SortedCollection.h:267
EcalClusterTools.h
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bool isNonnull() const
Checks for non-null.
Definition: Ref.h:238
reco::GsfElectron::TrackExtrapolations
Definition: GsfElectron.h:260
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Definition: edmPickEvents.py:273
GsfElectronAlgo::createElectron
void createElectron(reco::GsfElectronCollection &electrons, ElectronData &electronData, EventData &eventData, CaloTopology const &topology, CaloGeometry const &geometry, MultiTrajectoryStateTransform const &mtsTransform, double magneticFieldInTesla, const HeavyObjectCache *, egamma::conv::TrackTableView ctfTable, egamma::conv::TrackTableView gsfTable)
Definition: GsfElectronAlgo.cc:712
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Definition: GsfElectronAlgo.cc:122
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Definition: GsfElectronAlgo.cc:67
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ElectronMomentum correctElectronMomentum(reco::GsfElectron const &, TrajectoryStateOnSurface const &)
Definition: ElectronMomentumCorrector.cc:22
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Definition: GsfElectron.h:388
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Definition: EgammaTowerIsolation.h:197
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Definition: HLT_FULL_cff.py:88338
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Definition: GsfElectronAlgo.cc:118
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const StrategyConfiguration strategy
Definition: GsfElectronAlgo.h:199
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Definition: GsfElectronAlgo.cc:74
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float hcalOverEcalBc() const
Definition: GsfElectron.h:433
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Definition: GsfElectron.h:211
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bool positionFromModeCartesian(TrajectoryStateOnSurface const &tsos, GlobalPoint &position)
Definition: MultiTrajectoryStateMode.cc:63
GsfElectronAlgo::ElectronData::sclTSOS
TrajectoryStateOnSurface sclTSOS
Definition: GsfElectronAlgo.cc:116
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edm::Handle< reco::GsfTrackCollection > originalGsfTracks
Definition: GsfElectronAlgo.cc:83
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GlobalVector outMom
Definition: GsfElectronAlgo.cc:122
reco::GsfElectron::ShowerShape::e2x5Top
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Definition: GsfElectron.h:387
ElectronHcalHelper::beginEvent
void beginEvent(const edm::Event &, const edm::EventSetup &)
Definition: ElectronHcalHelper.cc:23
GsfElectronAlgo::IsolationConfiguration::etMinEndcaps
double etMinEndcaps
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