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MuonSimClassifier.cc
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1 // -*- C++ -*-
2 //
3 // Package: SimMuon/MCTruth
4 // Class: MuonSimClassifier
5 //
6 /*
7 
8 
9  CLASSIFICATION: For each RECO Muon, match to SIM particle, and then:
10  - If the SIM is not a Muon, label as Punchthrough (1) except if it is an
11  electron or positron (11)
12  - If the SIM is a Muon, then look at it's provenance.
13  A) the SIM muon is also a GEN muon, whose parent is NOT A HADRON AND NOT A
14  TAU
15  -> classify as "primary" (4).
16  B) the SIM muon is also a GEN muon, whose parent is HEAVY FLAVOURED HADRON
17  OR A TAU
18  -> classify as "heavy flavour" (3)
19  C) classify as "light flavour/decay" (2)
20 
21  In any case, if the TP is not preferentially matched back to the same RECO
22  muon, label as Ghost (flip the classification)
23 
24 
25  FLAVOUR:
26  - for non-muons: 0
27  - for primary muons: 13
28  - for non primary muons: flavour of the mother: std::abs(pdgId) of heaviest
29  quark, or 15 for tau
30 
31 */
32 //
33 // Original Author: G.Petrucciani and G.Abbiendi
34 // Created: Sun Nov 16 16:14:09 CET 2008
35 // revised: 3/Aug/2017
36 //
37 
38 // system include files
39 #include <memory>
40 #include <set>
41 
42 // user include files
45 
50 
52 
56 
61 
64 
66 
67 //
68 // class decleration
70 public:
71  explicit MuonSimClassifier(const edm::ParameterSet &);
72  ~MuonSimClassifier() override;
73 
74 private:
75  void produce(edm::Event &, const edm::EventSetup &) override;
78 
81 
84 
88 
91 
96 
98  int flavour(int pdgId) const;
99 
101  template <typename T>
104  const std::vector<T> &values,
105  const std::string &label) const;
106 
108  if (tp.isNonnull() && tp->parentVertex().isNonnull() && !tp->parentVertex()->sourceTracks().empty()) {
109  return tp->parentVertex()->sourceTracks()[0];
110  } else {
111  return TrackingParticleRef();
112  }
113  }
114 
120  const TrackingParticleRef &momRef,
122 };
123 
125  : muonsToken_(consumes<edm::View<reco::Muon>>(iConfig.getParameter<edm::InputTag>("muons"))),
126  trackingParticlesToken_(
127  consumes<TrackingParticleCollection>(iConfig.getParameter<edm::InputTag>("trackingParticles"))),
128  muAssocToken_(
129  consumes<reco::MuonToTrackingParticleAssociator>(iConfig.getParameter<edm::InputTag>("associatorLabel"))),
130  decayRho_(iConfig.getParameter<double>("decayRho")),
131  decayAbsZ_(iConfig.getParameter<double>("decayAbsZ")),
132  linkToGenParticles_(iConfig.getParameter<bool>("linkToGenParticles")),
133  genParticles_(linkToGenParticles_ ? iConfig.getParameter<edm::InputTag>("genParticles") : edm::InputTag())
134 
135 {
136  std::string trackType = iConfig.getParameter<std::string>("trackType");
137  if (trackType == "inner")
139  else if (trackType == "outer")
141  else if (trackType == "global")
143  else if (trackType == "segments")
145  else if (trackType == "glb_or_trk")
147  else
148  throw cms::Exception("Configuration") << "Track type '" << trackType << "' not supported.\n";
149  if (linkToGenParticles_) {
150  genParticlesToken_ = consumes<reco::GenParticleCollection>(genParticles_);
151  }
152 
153  produces<edm::ValueMap<reco::MuonSimInfo>>();
154  if (linkToGenParticles_) {
155  produces<reco::GenParticleCollection>("secondaries");
156  produces<edm::Association<reco::GenParticleCollection>>("toPrimaries");
157  produces<edm::Association<reco::GenParticleCollection>>("toSecondaries");
158  }
159 }
160 
162 
163 void dumpFormatedInfo(const reco::MuonSimInfo &simInfo) {
164  return;
165  LogTrace("MuonSimClassifier") << "\t Particle pdgId = " << simInfo.pdgId << ", (Event,Bx) = "
166  << "(" << simInfo.tpEvent << "," << simInfo.tpBX << ")"
167  << "\n\t q*p = " << simInfo.charge * simInfo.p4.P() << ", pT = " << simInfo.p4.pt()
168  << ", eta = " << simInfo.p4.eta() << ", phi = " << simInfo.p4.phi()
169  << "\n\t produced at vertex rho = " << simInfo.vertex.Rho()
170  << ", z = " << simInfo.vertex.Z() << ", (GEANT4 process = " << simInfo.g4processType
171  << ")\n";
172 }
173 
176  iEvent.getByToken(muonsToken_, muons);
177 
180 
182  if (linkToGenParticles_) {
184  }
185 
187  iEvent.getByToken(muAssocToken_, associatorBase);
188  const reco::MuonToTrackingParticleAssociator *assoByHits = associatorBase.product();
189 
190  reco::MuonToSimCollection recSimColl;
191  reco::SimToMuonCollection simRecColl;
192  LogTrace("MuonSimClassifier") << "\n "
193  "***************************************************************** ";
194  LogTrace("MuonSimClassifier") << " RECO MUON association, type: " << trackType_;
195  LogTrace("MuonSimClassifier") << " ******************************************"
196  "*********************** \n";
197 
199  for (size_t i = 0, n = muons->size(); i < n; ++i) {
200  allMuons.push_back(muons->refAt(i));
201  }
202 
204  for (size_t i = 0, n = trackingParticles->size(); i < n; ++i) {
206  }
207 
208  assoByHits->associateMuons(recSimColl, simRecColl, allMuons, trackType_, allTPs);
209 
210  // for global muons without hits on muon detectors, look at the linked
211  // standalone muon
212  reco::MuonToSimCollection updSTA_recSimColl;
213  reco::SimToMuonCollection updSTA_simRecColl;
214  if (trackType_ == reco::GlobalTk) {
215  LogTrace("MuonSimClassifier") << "\n "
216  "***************************************************************** ";
217  LogTrace("MuonSimClassifier") << " STANDALONE (UpdAtVtx) MUON association ";
218  LogTrace("MuonSimClassifier") << " ****************************************"
219  "************************* \n";
220  assoByHits->associateMuons(updSTA_recSimColl, updSTA_simRecColl, allMuons, reco::OuterTk, allTPs);
221  }
222 
223  typedef reco::MuonToSimCollection::const_iterator r2s_it;
224  typedef reco::SimToMuonCollection::const_iterator s2r_it;
225 
226  size_t nmu = muons->size();
227  LogTrace("MuonSimClassifier") << "\n There are " << nmu << " reco::Muons.";
228 
229  std::vector<reco::MuonSimInfo> simInfo;
230 
231  std::unique_ptr<reco::GenParticleCollection> secondaries; // output collection of secondary muons
232  std::map<TrackingParticleRef, int> tpToSecondaries; // map from tp to (index+1) in output collection
233  std::vector<int> muToPrimary(nmu, -1), muToSecondary(nmu,
234  -1); // map from input into (index) in output, -1 for null
236  secondaries = std::make_unique<reco::GenParticleCollection>();
237 
238  // loop on reco muons
239  for (size_t i = 0; i < nmu; ++i) {
240  simInfo.push_back(reco::MuonSimInfo());
241  LogTrace("MuonSimClassifier") << "\n reco::Muon # " << i;
242 
244  edm::RefToBase<reco::Muon> muMatchBack;
245  r2s_it match = recSimColl.find(allMuons.at(i));
246  s2r_it matchback;
247  if (match != recSimColl.end()) {
248  // match->second is vector, front is first element, first is the ref
249  // (second would be the quality)
250  tp = match->second.front().first;
251  simInfo[i].tpId = tp.isNonnull() ? tp.key() : -1; // we check, even if null refs should not appear here at all
252  simInfo[i].tpAssoQuality = match->second.front().second;
253  s2r_it matchback = simRecColl.find(tp);
254  if (matchback != simRecColl.end()) {
255  muMatchBack = matchback->second.front().first;
256  } else {
257  LogTrace("MuonSimClassifier") << "\n***WARNING: This I do NOT understand: why no match back? "
258  "*** \n";
259  }
260  } else {
261  if ((trackType_ == reco::GlobalTk) && allMuons.at(i)->isGlobalMuon()) {
262  // perform a second attempt, matching with the standalone muon
263  r2s_it matchSta = updSTA_recSimColl.find(allMuons.at(i));
264  if (matchSta != updSTA_recSimColl.end()) {
265  tp = matchSta->second.front().first;
266  simInfo[i].tpId = tp.isNonnull() ? tp.key() : -1; // we check, even if null refs
267  // should not appear here at all
268  simInfo[i].tpAssoQuality = matchSta->second.front().second;
269  s2r_it matchback = updSTA_simRecColl.find(tp);
270  if (matchback != updSTA_simRecColl.end()) {
271  muMatchBack = matchback->second.front().first;
272  } else {
273  LogTrace("MuonSimClassifier") << "\n***WARNING: This I do NOT understand: why no match back "
274  "in updSTA? *** \n";
275  }
276  }
277  } else {
278  LogTrace("MuonSimClassifier") << "\t No matching TrackingParticle is found ";
279  }
280  }
281 
282  if (tp.isNonnull()) {
283  bool isGhost = muMatchBack != allMuons.at(i);
284  if (isGhost)
285  LogTrace("MuonSimClassifier") << "\t *** This seems a Duplicate muon ! "
286  "classif[i] will be < 0 ***";
287 
288  // identify signal and pileup TP
289  simInfo[i].tpBX = tp->eventId().bunchCrossing();
290  simInfo[i].tpEvent = tp->eventId().event();
291 
292  simInfo[i].pdgId = tp->pdgId();
293  simInfo[i].vertex = tp->vertex();
294 
295  // added info on GEANT process producing the TrackingParticle
296  const std::vector<SimVertex> &g4Vs = tp->parentVertex()->g4Vertices();
297  simInfo[i].g4processType = g4Vs[0].processType();
298 
299  simInfo[i].charge = tp->charge();
300  simInfo[i].p4 = tp->p4();
301 
302  // Try to extract mother and grand mother of this muon.
303  // Unfortunately, SIM and GEN histories require diffent code :-(
304  if (!tp->genParticles().empty()) { // Muon is in GEN
305  reco::GenParticleRef genp = tp->genParticles()[0];
306  reco::GenParticleRef genMom = genp->numberOfMothers() > 0 ? genp->motherRef() : reco::GenParticleRef();
307  reco::GenParticleRef mMom = genMom;
308 
309  if (genMom.isNonnull()) {
310  if (genMom->pdgId() != tp->pdgId()) {
311  simInfo[i].motherPdgId = genMom->pdgId();
312  simInfo[i].motherStatus = genMom->status();
313  simInfo[i].motherVertex = genMom->vertex();
314  } else {
315  // if mother has the same identity look backwards for the real
316  // mother (it may happen in radiative decays)
317  int jm = 0;
318  while (mMom->pdgId() == tp->pdgId()) {
319  jm++;
320  if (mMom->numberOfMothers() > 0) {
321  mMom = mMom->motherRef();
322  } else {
323  LogTrace("MuonSimClassifier") << "\t No Mother is found ";
324  break;
325  }
326 
327  LogTrace("MuonSimClassifier") << "\t\t backtracking mother " << jm << ", pdgId = " << mMom->pdgId()
328  << ", status= " << mMom->status();
329  }
330  genMom = mMom; // redefine genMom
331  simInfo[i].motherPdgId = genMom->pdgId();
332  simInfo[i].motherStatus = genMom->status();
333  simInfo[i].motherVertex = genMom->vertex();
334  }
335  dumpFormatedInfo(simInfo[i]);
336  LogTrace("MuonSimClassifier") << "\t has GEN mother pdgId = " << simInfo[i].motherPdgId
337  << " (status = " << simInfo[i].motherStatus << ")";
338 
339  reco::GenParticleRef genGMom = genMom->numberOfMothers() > 0 ? genMom->motherRef() : reco::GenParticleRef();
340 
341  if (genGMom.isNonnull()) {
342  simInfo[i].grandMotherPdgId = genGMom->pdgId();
343  LogTrace("MuonSimClassifier")
344  << "\t\t mother prod. vertex rho = " << simInfo[i].motherVertex.Rho()
345  << ", z = " << simInfo[i].motherVertex.Z() << ", grand-mom pdgId = " << simInfo[i].grandMotherPdgId;
346  }
347  // in this case, we might want to know the heaviest mom flavour
348  for (reco::GenParticleRef nMom = genMom;
349  nMom.isNonnull() && std::abs(nMom->pdgId()) >= 100; // stop when we're no longer
350  // looking at hadrons or mesons
351  nMom = nMom->numberOfMothers() > 0 ? nMom->motherRef() : reco::GenParticleRef()) {
352  int flav = flavour(nMom->pdgId());
353  if (simInfo[i].heaviestMotherFlavour < flav)
354  simInfo[i].heaviestMotherFlavour = flav;
355  LogTrace("MuonSimClassifier")
356  << "\t\t backtracking flavour: mom pdgId = " << nMom->pdgId() << ", flavour = " << flav
357  << ", heaviest so far = " << simInfo[i].heaviestMotherFlavour;
358  }
359  } else { // mother is null ??
360  dumpFormatedInfo(simInfo[i]);
361  LogTrace("MuonSimClassifier") << "\t has NO mother!";
362  }
363  } else { // Muon is in SIM Only
365  if (simMom.isNonnull()) {
366  simInfo[i].motherPdgId = simMom->pdgId();
367  simInfo[i].motherVertex = simMom->vertex();
368  dumpFormatedInfo(simInfo[i]);
369  LogTrace("MuonSimClassifier") << "\t has SIM mother pdgId = " << simInfo[i].motherPdgId
370  << " produced at rho = " << simMom->vertex().Rho()
371  << ", z = " << simMom->vertex().Z();
372 
373  if (!simMom->genParticles().empty()) {
374  simInfo[i].motherStatus = simMom->genParticles()[0]->status();
375  reco::GenParticleRef genGMom =
376  (simMom->genParticles()[0]->numberOfMothers() > 0 ? simMom->genParticles()[0]->motherRef()
378  if (genGMom.isNonnull())
379  simInfo[i].grandMotherPdgId = genGMom->pdgId();
380  LogTrace("MuonSimClassifier") << "\t\t SIM mother is in GEN (status " << simInfo[i].motherStatus
381  << "), grand-mom id = " << simInfo[i].grandMotherPdgId;
382  } else {
383  simInfo[i].motherStatus = -1;
384  TrackingParticleRef simGMom = getTpMother(simMom);
385  if (simGMom.isNonnull())
386  simInfo[i].grandMotherPdgId = simGMom->pdgId();
387  LogTrace("MuonSimClassifier")
388  << "\t\t SIM mother is in SIM only, grand-mom id = " << simInfo[i].grandMotherPdgId;
389  }
390  } else {
391  dumpFormatedInfo(simInfo[i]);
392  LogTrace("MuonSimClassifier") << "\t has NO mother!";
393  }
394  }
395  simInfo[i].motherFlavour = flavour(simInfo[i].motherPdgId);
396  simInfo[i].grandMotherFlavour = flavour(simInfo[i].grandMotherPdgId);
397 
398  // Check first IF this is a muon at all
399  if (std::abs(tp->pdgId()) != 13) {
400  if (std::abs(tp->pdgId()) == 11) {
401  simInfo[i].primaryClass = isGhost ? reco::MuonSimType::GhostElectron : reco::MuonSimType::MatchedElectron;
402  simInfo[i].extendedClass =
404  LogTrace("MuonSimClassifier") << "\t This is electron/positron. classif[i] = " << simInfo[i].primaryClass;
405  } else {
406  simInfo[i].primaryClass =
408  simInfo[i].extendedClass = isGhost ? reco::ExtendedMuonSimType::ExtGhostPunchthrough
410  LogTrace("MuonSimClassifier") << "\t This is not a muon. Sorry. classif[i] = " << simInfo[i].primaryClass;
411  }
412  continue;
413  }
414 
415  // Is this SIM muon also a GEN muon, with a mother?
416  if (!tp->genParticles().empty() && (simInfo[i].motherPdgId != 0)) {
417  if (std::abs(simInfo[i].motherPdgId) < 100 && (std::abs(simInfo[i].motherPdgId) != 15)) {
418  simInfo[i].primaryClass =
420  simInfo[i].flavour = 13;
421  simInfo[i].extendedClass = isGhost ? reco::ExtendedMuonSimType::GhostMuonFromGaugeOrHiggsBoson
423  LogTrace("MuonSimClassifier") << "\t This seems PRIMARY MUON ! classif[i] = " << simInfo[i].primaryClass;
424  } else if (simInfo[i].motherFlavour == 4 || simInfo[i].motherFlavour == 5 || simInfo[i].motherFlavour == 15) {
425  simInfo[i].primaryClass =
427  simInfo[i].flavour = simInfo[i].motherFlavour;
428  if (simInfo[i].motherFlavour == 15)
429  simInfo[i].extendedClass =
431  else if (simInfo[i].motherFlavour == 5)
432  simInfo[i].extendedClass =
434  else if (simInfo[i].heaviestMotherFlavour == 5)
435  simInfo[i].extendedClass =
437  else
438  simInfo[i].extendedClass =
440  LogTrace("MuonSimClassifier") << "\t This seems HEAVY FLAVOUR ! classif[i] = " << simInfo[i].primaryClass;
441  } else {
442  simInfo[i].primaryClass =
444  simInfo[i].flavour = simInfo[i].motherFlavour;
445  LogTrace("MuonSimClassifier") << "\t This seems LIGHT FLAVOUR ! classif[i] = " << simInfo[i].primaryClass;
446  }
447  } else {
448  simInfo[i].primaryClass =
450  simInfo[i].flavour = simInfo[i].motherFlavour;
451  LogTrace("MuonSimClassifier") << "\t This seems LIGHT FLAVOUR ! classif[i] = " << simInfo[i].primaryClass;
452  }
453 
454  // extended classification
455  // don't we override previous decisions?
456  if (simInfo[i].motherPdgId == 0)
457  // if it has no mom, it's not a primary particle so it won't be in ppMuX
458  simInfo[i].extendedClass = isGhost ? reco::ExtendedMuonSimType::GhostMuonFromNonPrimaryParticle
460  else if (std::abs(simInfo[i].motherPdgId) < 100) {
461  if (simInfo[i].motherFlavour == 15)
462  simInfo[i].extendedClass =
464  else
465  simInfo[i].extendedClass = isGhost ? reco::ExtendedMuonSimType::GhostMuonFromGaugeOrHiggsBoson
467  } else if (simInfo[i].motherFlavour == 5)
468  simInfo[i].extendedClass =
470  else if (simInfo[i].motherFlavour == 4) {
471  if (simInfo[i].heaviestMotherFlavour == 5)
472  simInfo[i].extendedClass =
474  else
475  simInfo[i].extendedClass =
477  } else if (simInfo[i].motherStatus != -1) { // primary light particle
478  int id = std::abs(simInfo[i].motherPdgId);
479  if (id != /*pi+*/ 211 && id != /*K+*/ 321 && id != 130 /*K0L*/)
480  // other light particle, possibly short-lived
481  simInfo[i].extendedClass = isGhost ? reco::ExtendedMuonSimType::GhostMuonFromOtherLight
483  else if (simInfo[i].vertex.Rho() < decayRho_ && std::abs(simInfo[i].vertex.Z()) < decayAbsZ_)
484  // decay a la ppMuX (primary pi/K within a cylinder)
485  simInfo[i].extendedClass = isGhost ? reco::ExtendedMuonSimType::GhostMuonFromPiKppMuX
487  else
488  // late decay that wouldn't be in ppMuX
489  simInfo[i].extendedClass = isGhost ? reco::ExtendedMuonSimType::GhostMuonFromPiKNotppMuX
491  } else
492  // decay of non-primary particle, would not be in ppMuX
493  simInfo[i].extendedClass = isGhost ? reco::ExtendedMuonSimType::GhostMuonFromNonPrimaryParticle
495 
496  if (linkToGenParticles_ && std::abs(simInfo[i].extendedClass) >= 2) {
497  // Link to the genParticle if possible, but not decays in flight (in
498  // ppMuX they're in GEN block, but they have wrong parameters)
499  if (!tp->genParticles().empty() && std::abs(simInfo[i].extendedClass) >= 5) {
500  if (genParticles.id() != tp->genParticles().id()) {
501  throw cms::Exception("Configuration")
502  << "Product ID mismatch between the genParticle collection (" << genParticles_ << ", id "
503  << genParticles.id() << ") and the references in the TrackingParticles (id " << tp->genParticles().id()
504  << ")\n";
505  }
506  muToPrimary[i] = tp->genParticles()[0].key();
507  } else {
508  // Don't put the same trackingParticle twice!
509  int &indexPlus1 = tpToSecondaries[tp]; // will create a 0 if the tp is
510  // not in the list already
511  if (indexPlus1 == 0)
512  indexPlus1 = convertAndPush(*tp, *secondaries, getTpMother(tp), genParticles) + 1;
513  muToSecondary[i] = indexPlus1 - 1;
514  }
515  }
516  LogTrace("MuonSimClassifier") << "\t Extended classification code = " << simInfo[i].extendedClass;
517  } else { // if (tp.isNonnull())
518  simInfo[i].primaryClass = reco::MuonSimType::NotMatched;
519  simInfo[i].extendedClass = reco::ExtendedMuonSimType::ExtNotMatched;
520  }
521  } // end loop on reco muons
522 
523  writeValueMap(iEvent, muons, simInfo, "");
524 
525  if (linkToGenParticles_) {
526  edm::OrphanHandle<reco::GenParticleCollection> secHandle = iEvent.put(std::move(secondaries), "secondaries");
529  std::unique_ptr<edm::Association<reco::GenParticleCollection>> outPri(
531  std::unique_ptr<edm::Association<reco::GenParticleCollection>> outSec(
533  edm::Association<reco::GenParticleCollection>::Filler fillPri(*outPri), fillSec(*outSec);
534  fillPri.insert(muons, muToPrimary.begin(), muToPrimary.end());
535  fillSec.insert(muons, muToSecondary.begin(), muToSecondary.end());
536  fillPri.fill();
537  fillSec.fill();
538  iEvent.put(std::move(outPri), "toPrimaries");
539  iEvent.put(std::move(outSec), "toSecondaries");
540  }
541 }
542 
543 template <typename T>
546  const std::vector<T> &values,
547  const std::string &label) const {
548  using namespace edm;
549  using namespace std;
550  unique_ptr<ValueMap<T>> valMap(new ValueMap<T>());
551  typename edm::ValueMap<T>::Filler filler(*valMap);
552  filler.insert(handle, values.begin(), values.end());
553  filler.fill();
554  iEvent.put(std::move(valMap), label);
555 }
556 
558  int flav = std::abs(pdgId);
559  // for quarks, leptons and bosons except gluons, take their pdgId
560  // muons and taus have themselves as flavour
561  if (flav <= 37 && flav != 21)
562  return flav;
563  // look for barions
564  int bflav = ((flav / 1000) % 10);
565  if (bflav != 0)
566  return bflav;
567  // look for mesons
568  int mflav = ((flav / 100) % 10);
569  if (mflav != 0)
570  return mflav;
571  return 0;
572 }
573 
574 // push secondary in collection.
575 // if it has a primary mother link to it.
578  const TrackingParticleRef &simMom,
580  out.push_back(reco::GenParticle(tp.charge(), tp.p4(), tp.vertex(), tp.pdgId(), tp.status(), true));
581  if (simMom.isNonnull() && !simMom->genParticles().empty()) {
582  if (genParticles.id() != simMom->genParticles().id()) {
583  throw cms::Exception("Configuration")
584  << "Product ID mismatch between the genParticle collection (" << genParticles_ << ", id " << genParticles.id()
585  << ") and the references in the TrackingParticles (id " << simMom->genParticles().id() << ")\n";
586  }
587  out.back().addMother(simMom->genParticles()[0]);
588  }
589  return out.size() - 1;
590 }
591 
592 // define this as a plug-in
std::vector< GenParticle > GenParticleCollection
collection of GenParticles
std::map< edm::RefToBase< reco::Muon >, std::vector< std::pair< TrackingParticleRef, double > >, RefToBaseSort > MuonToSimCollection
Definition: MuonTrackType.h:37
T getParameter(std::string const &) const
Definition: ParameterSet.h:307
void associateMuons(MuonToSimCollection &recoToSim, SimToMuonCollection &simToReco, const edm::RefToBaseVector< reco::Muon > &muons, MuonTrackType type, const edm::RefVector< TrackingParticleCollection > &tpColl) const
genp
produce generated paricles in acceptance #
ProductID id() const
Accessor for product ID.
Definition: Ref.h:244
TrackingParticleRef getTpMother(TrackingParticleRef tp)
edm::EDGetTokenT< edm::View< reco::Muon > > muonsToken_
The RECO objects.
#define DEFINE_FWK_MODULE(type)
Definition: MakerMacros.h:16
void produce(edm::Event &, const edm::EventSetup &) override
reco::MuonTrackType trackType_
Track to use.
edm::Ref< GenParticleCollection > GenParticleRef
persistent reference to a GenParticle
T const * product() const
Definition: Handle.h:70
void insert(const H &h, I begin, I end)
Definition: ValueMap.h:53
bool isNonnull() const
Checks for non-null.
Definition: Ref.h:238
#define LogTrace(id)
std::map< TrackingParticleRef, std::vector< std::pair< edm::RefToBase< reco::Muon >, double > > > SimToMuonCollection
Definition: MuonTrackType.h:38
char const * label
edm::InputTag genParticles_
int iEvent
Definition: GenABIO.cc:224
Definition: Muon.py:1
MuonSimClassifier(const edm::ParameterSet &)
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
edm::EDGetTokenT< reco::GenParticleCollection > genParticlesToken_
edm::EDGetTokenT< reco::MuonToTrackingParticleAssociator > muAssocToken_
edm::EDGetTokenT< TrackingParticleCollection > trackingParticlesToken_
The TrackingParticle objects.
void dumpFormatedInfo(const reco::MuonSimInfo &simInfo)
LorentzVector p4
Definition: MuonSimInfo.h:94
edm::InputTag associatorLabel_
The Associations.
fixed size matrix
HLT enums.
double decayRho_
Cylinder to use to decide if a decay is early or late.
void push_back(value_type const &ref)
Add a Ref<C, T> to the RefVector.
Definition: RefVector.h:67
int convertAndPush(const TrackingParticle &tp, reco::GenParticleCollection &out, const TrackingParticleRef &momRef, const edm::Handle< reco::GenParticleCollection > &genParticles) const
Monte Carlo truth information used for tracking validation.
std::pair< typename Association::data_type::first_type, double > match(Reference key, Association association, bool bestMatchByMaxValue)
Generic matching function.
Definition: Utils.h:10
std::vector< TrackingParticle > TrackingParticleCollection
MuonTrackType
Definition: MuonTrackType.h:28
bool linkToGenParticles_
Create a link to the generator level particles.
edm::Ref< TrackingParticleCollection > TrackingParticleRef
def move(src, dest)
Definition: eostools.py:511
~MuonSimClassifier() override
void writeValueMap(edm::Event &iEvent, const edm::Handle< edm::View< reco::Muon >> &handle, const std::vector< T > &values, const std::string &label) const
Write a ValueMap<int> in the event.
int flavour(int pdgId) const
Returns the flavour given a pdg id code.