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GenHFHadronMatcher.cc
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1 // -*- C++ -*-
2 //
3 // Package: GenHFHadronMatcher
4 // Class: GenHFHadronMatcher
5 //
6 
19 // Original Author: Nazar Bartosik,DESY
20 
21 
22 // system include files
23 #include <memory>
24 #include <utility>
25 #include <vector>
26 #include <algorithm>
27 
28 
29 // user include files
32 
35 
37 
41 
43 
47 
49 
51 
52 
53 
54 //
55 // class declaration
56 //
57 
59 {
60 public:
61  explicit GenHFHadronMatcher ( const edm::ParameterSet& );
63 
64  static void fillDescriptions ( edm::ConfigurationDescriptions& descriptions );
65 
66 private:
67  virtual void beginJob() ;
68  virtual void produce( edm::Event&, const edm::EventSetup& );
69  virtual void endJob() ;
70 
71  virtual void beginRun( edm::Run&, edm::EventSetup const& );
72  virtual void endRun( edm::Run&, edm::EventSetup const& );
75 
77  std::vector<int> &hadIndex, std::vector<reco::GenParticle> &hadMothersGenPart,
78  std::vector<std::vector<int> > &hadMothersIndices, std::vector<int> &hadLeptonIndex,
79  std::vector<int> &hadLeptonHadIndex, std::vector<int> &hadLeptonViaTau,
80  std::vector<int> &hadFlavour, std::vector<int> &hadFromTopWeakDecay, std::vector<int> &hadBHadronId );
81  int analyzeMothers( const reco::Candidate* thisParticle, int& topDaughterQId, int& topBarDaughterQId,
82  std::vector<const reco::Candidate*> &hadMothers, std::vector<std::vector<int> > &hadMothersIndices,
83  std::set<const reco::Candidate*> *analyzedParticles, const int prevPartIndex );
84  bool putMotherIndex( std::vector<std::vector<int> > &hadMothersIndices, int partIndex, int mothIndex );
85  bool isHadron( const int flavour, const reco::Candidate* thisParticle );
86  bool isHadronPdgId( const int flavour, const int pdgId );
87  bool isMesonPdgId( const int flavour, const int pdgId );
88  bool isBaryonPdgId( const int flavour, const int pdgId );
89  int flavourSign( const int pdgId );
90  bool hasHadronDaughter( const int flavour, const reco::Candidate* thisParticle );
91  int idInList( std::vector<const reco::Candidate*> particleList, const reco::Candidate* particle );
92  int idInList( std::vector<int> list, const int value );
93  int findInMothers( int idx, std::vector<int> &mothChains, const std::vector<std::vector<int> > &hadMothersIndices,
94  const std::vector<reco::GenParticle> &hadMothers, int status, int pdgId, bool pdgAbs,
95  int stopId, int firstLast, bool verbose );
96  bool isNeutralPdg( int pdgId );
97 
98  bool checkForLoop( std::vector<const reco::Candidate*> &particleChain, const reco::Candidate* particle );
99  std::string getParticleName( int id ) const;
100 
101  bool fixExtraSameFlavours( const unsigned int hadId, const std::vector<int> &hadIndices,
102  const std::vector<reco::GenParticle> &hadMothers, const std::vector<std::vector<int> > &hadMothersIndices,
103  const std::vector<int> &isFromTopWeakDecay, const std::vector<std::vector<int> > &LastQuarkIds,
104  const std::vector<std::vector<int> > &LastQuarkMotherIds, std::vector<int> &lastQuarkIndices,
105  std::vector<int> &hadronFlavour, std::set<int> &checkedHadronIds, const int lastQuarkIndex );
106 
107  // ----------member data ---------------------------
110  int flavour_;
113 
114  std::string flavourStr_; // Name of the flavour specified in config file
115 
117 };
118 
119 //
120 // constants, enums and typedefs
121 //
122 
123 
124 //
125 // static data member definitions
126 //
127 
128 //
129 // constructors and destructor
130 //
140 genParticlesToken_(consumes<reco::GenParticleCollection>(cfg.getParameter<edm::InputTag>("genParticles"))),
141 jetFlavourInfosToken_(consumes<reco::JetFlavourInfoMatchingCollection>(cfg.getParameter<edm::InputTag>("jetFlavourInfos")))
142 {
143  flavour_ = cfg.getParameter<int> ( "flavour" );
144  noBBbarResonances_ = cfg.getParameter<bool> ( "noBBbarResonances" );
145  onlyJetClusteredHadrons_ = cfg.getParameter<bool> ( "onlyJetClusteredHadrons" );
146 
147  flavour_ = std::abs( flavour_ ); // Make flavour independent of sign given in configuration
148  if ( flavour_==5 ) {
149  flavourStr_="B";
150  } else if ( flavour_==4 ) {
151  flavourStr_="C";
152  } else {
153  edm::LogError ( "GenHFHadronMatcher" ) << "Flavour option must be 4 (c-jet) or 5 (b-jet), but is: " << flavour_ << ". Correct this!";
154  }
155 
156  // Hadron matching products
157  produces< std::vector<reco::GenParticle> > ( "gen"+flavourStr_+"HadPlusMothers" ); // All mothers in all decay chains above any hadron of specified flavour
158  produces< std::vector< std::vector<int> > > ( "gen"+flavourStr_+"HadPlusMothersIndices" ); // Indices of mothers of each hadMother
159  produces< std::vector<int> > ( "gen"+flavourStr_+"HadIndex" ); // Index of hadron in the vector of hadMothers
160  produces< std::vector<int> > ( "gen"+flavourStr_+"HadFlavour" ); // PdgId of the first non-b(c) quark mother with sign corresponding to hadron charge
161  produces< std::vector<int> > ( "gen"+flavourStr_+"HadJetIndex" ); // Index of genJet matched to each hadron by jet clustering algorithm
162  produces< std::vector<int> > ( "gen"+flavourStr_+"HadLeptonIndex" ); // Index of lepton found among the hadron decay products in the list of mothers
163  produces< std::vector<int> > ( "gen"+flavourStr_+"HadLeptonHadronIndex" ); // Index of hadron the lepton is associated to
164  produces< std::vector<int> > ( "gen"+flavourStr_+"HadLeptonViaTau" ); // Whether lepton comes directly from hadron or via tau decay
165  produces< std::vector<int> > ( "gen"+flavourStr_+"HadFromTopWeakDecay" ); // Tells whether the hadron appears in the chain after top decay
166  produces< std::vector<int> > ( "gen"+flavourStr_+"HadBHadronId" ); // Index of a b-hadron which the current hadron comes from (for c-hadrons)
167 }
168 
170 {
171 }
172 
173 
174 // ------------ method fills 'descriptions' with the allowed parameters for the module ------------
180 {
182  desc.add<edm::InputTag>("genParticles")->setComment( "Collection of GenParticle objects which contains all particles produced in the event" );
183  desc.add<edm::InputTag>("jetFlavourInfos")->setComment( "Output from the JetFlavour tool. Contains information about partons/hadrons/leptons associated to jets" );
184  desc.add<bool> ( "noBBbarResonances",true )->setComment ( "Whether resonances should not be treated as hadrons" );
185  desc.add<bool> ( "onlyJetClusteredHadrons",false )->setComment ( "Whether only hadrons that are matched to jets should be analysed. Runs x1000 faster in Sherpa" );
186  desc.add<int> ( "flavour",5 )->setComment ( "Flavour of weakly decaying hadron that should be analysed (4-c, 5-b)" );
187  descriptions.add ( "matchGenHFHadron",desc );
188 }
189 
190 
191 
192 //
193 // member functions
194 //
195 
196 // ------------ method called to produce the data ------------
198 {
199  setup.getData ( pdt_ );
200 
201  using namespace edm;
202 
205 
207  evt.getByToken(jetFlavourInfosToken_, jetFlavourInfos);
208 
209  // Defining adron matching variables
210  std::auto_ptr<std::vector<reco::GenParticle> > hadMothers ( new std::vector<reco::GenParticle> );
211  std::auto_ptr<std::vector<std::vector<int> > > hadMothersIndices ( new std::vector<std::vector<int> > );
212  std::auto_ptr<std::vector<int> > hadIndex ( new std::vector<int> );
213  std::auto_ptr<std::vector<int> > hadFlavour ( new std::vector<int> );
214  std::auto_ptr<std::vector<int> > hadJetIndex ( new std::vector<int> );
215  std::auto_ptr<std::vector<int> > hadLeptonIndex ( new std::vector<int> );
216  std::auto_ptr<std::vector<int> > hadLeptonHadIndex ( new std::vector<int> );
217  std::auto_ptr<std::vector<int> > hadLeptonViaTau( new std::vector<int> );
218  std::auto_ptr<std::vector<int> > hadFromTopWeakDecay ( new std::vector<int> );
219  std::auto_ptr<std::vector<int> > hadBHadronId ( new std::vector<int> );
220 
221  *hadJetIndex = findHadronJets (genParticles.product(), jetFlavourInfos.product(), *hadIndex, *hadMothers, *hadMothersIndices, *hadLeptonIndex, *hadLeptonHadIndex, *hadLeptonViaTau, *hadFlavour, *hadFromTopWeakDecay, *hadBHadronId );
222 
223  // Putting products to the event
224  evt.put ( hadMothers, "gen"+flavourStr_+"HadPlusMothers" );
225  evt.put ( hadMothersIndices, "gen"+flavourStr_+"HadPlusMothersIndices" );
226  evt.put ( hadIndex, "gen"+flavourStr_+"HadIndex" );
227  evt.put ( hadFlavour, "gen"+flavourStr_+"HadFlavour" );
228  evt.put ( hadJetIndex, "gen"+flavourStr_+"HadJetIndex" );
229  evt.put ( hadLeptonIndex, "gen"+flavourStr_+"HadLeptonIndex" );
230  evt.put ( hadLeptonHadIndex, "gen"+flavourStr_+"HadLeptonHadronIndex" );
231  evt.put ( hadLeptonViaTau, "gen"+flavourStr_+"HadLeptonViaTau" );
232  evt.put ( hadFromTopWeakDecay,"gen"+flavourStr_+"HadFromTopWeakDecay" );
233  evt.put ( hadBHadronId, "gen"+flavourStr_+"HadBHadronId" );
234 }
235 
236 // ------------ method called once each job just before starting event loop ------------
238 {
239 }
240 
241 // ------------ method called once each job just after ending the event loop ------------
243 {
244 }
245 
246 // ------------ method called when starting to processes a run ------------
248 {
249 }
250 
251 // ------------ method called when ending the processing of a run ------------
252 void
254 {
255 }
256 
257 // ------------ method called when starting to processes a luminosity block ------------
259 {
260 }
261 
262 // ------------ method called when ending the processing of a luminosity block ------------
264 {
265 }
266 
267 
268 
292  const reco::JetFlavourInfoMatchingCollection* jetFlavourInfos,
293  std::vector<int> &hadIndex,
294  std::vector<reco::GenParticle> &hadMothers, std::vector<std::vector<int> > &hadMothersIndices,
295  std::vector<int> &hadLeptonIndex, std::vector<int> &hadLeptonHadIndex,
296  std::vector<int> &hadLeptonViaTau, std::vector<int> &hadFlavour,
297  std::vector<int> &hadFromTopWeakDecay, std::vector<int> &hadBHadronId )
298 {
299  std::vector<int> hadJetIndex;
300  std::vector<const reco::Candidate*> hadMothersCand;
301 
302  int topDaughterQId = -1;
303  int topBarDaughterQId = -1;
304 
305  // Looping over all jets to get hadrons associated to them
306  for(reco::JetFlavourInfoMatchingCollection::const_iterator i_info = jetFlavourInfos->begin(); i_info != jetFlavourInfos->end(); ++i_info){
307  reco::JetFlavourInfo jetInfo = i_info->second;
308  const int jetIndex = i_info - jetFlavourInfos->begin();
309  // Looping over each hadron associated with the jet and finding its origin
310  const reco::GenParticleRefVector& hadronsInJet = flavour_==5 ? jetInfo.getbHadrons() : flavour_==4 ? jetInfo.getcHadrons() : reco::GenParticleRefVector();
311  for(reco::GenParticleRefVector::const_iterator hadron = hadronsInJet.begin(); hadron != hadronsInJet.end(); ++hadron) {
312  // Check that the hadron satisfies criteria configured in the module
313  if(!isHadron ( flavour_, (&**hadron) )) continue;
314  if(hasHadronDaughter ( flavour_, (reco::Candidate*)(&**hadron) )) continue;
315  // Scanning the chain starting from the hadron
316  int hadronIndex = analyzeMothers ( (reco::Candidate*)(&**hadron), topDaughterQId, topBarDaughterQId, hadMothersCand, hadMothersIndices, 0, -1 );
317  // Storing the index of the hadron to the list
318  hadIndex.push_back ( hadronIndex );
319  hadJetIndex.push_back ( jetIndex ); // Putting jet index to the result list
320  }
321  } // End of loop over jets
322 
323  // Access all hadrons which are not associated with jets, if requested
325  for(reco::GenParticleCollection::const_iterator i_particle = genParticles->begin(); i_particle != genParticles->end(); ++i_particle){
326  const reco::GenParticle* thisParticle = &*i_particle;
327  if(!isHadron(flavour_, thisParticle)) continue;
328  // Skipping the hadron if it was already found directly from jets
329  if(std::find(hadMothersCand.begin(), hadMothersCand.end(), thisParticle) != hadMothersCand.end()) continue;
330 
331  // Scanning the chain starting from the hadron
332  int hadronIndex = analyzeMothers ( thisParticle, topDaughterQId, topBarDaughterQId, hadMothersCand, hadMothersIndices, 0, -1 );
333  // Storing the index of the hadron to the list
334  hadIndex.push_back ( hadronIndex );
335  hadJetIndex.push_back ( -1 ); // Jet index undefined
336  }
337  }
338 
339  // Transfering Candidates to the list of processed particles for further analysis
340  for ( int i=0; i< (int)hadMothersCand.size(); i++ ) {
341  const reco::GenParticle* particle = dynamic_cast<const reco::GenParticle*>( hadMothersCand.at(i) );
342  hadMothers.push_back(*particle);
343  }
344 
345  // Adding leptons from hadron decays
346  for(reco::GenParticleCollection::const_iterator i_particle = genParticles->begin(); i_particle != genParticles->end(); ++i_particle){
347  const reco::GenParticle lepton = *i_particle;
348  const int pdg_abs = lepton.pdgId();
349  // Skipping if not a lepton: e/mu
350  if(pdg_abs != 11 && pdg_abs != 13) continue;
351  bool leptonViaTau = false;
352  const reco::Candidate* leptonMother = lepton.mother();
353  if(!leptonMother) continue;
354  // Taking next mother if direct mother is a tau
355  if(std::abs(leptonMother->pdgId()) == 15) {
356  leptonViaTau = 1;
357  leptonMother = leptonMother->mother();
358  }
359  // Skipping this lepton if its mother is not a proper hadron
360  if(!isHadron(flavour_, leptonMother)) continue;
361  // Finding the index of this hadron in the list of analysed particles
362  size_t leptonHadronParticleIndex = std::find(hadMothersCand.begin(), hadMothersCand.end(), leptonMother) - hadMothersCand.begin();
363  if(leptonHadronParticleIndex >= hadMothersCand.size()) continue;
364  // Finding the actual hadron index among those that were found
365  size_t leptonHadronIndex = std::find(hadIndex.begin(), hadIndex.end(), leptonHadronParticleIndex) - hadIndex.begin();
366  if(leptonHadronIndex >= hadIndex.size()) continue;
367  // Putting the lepton, its index and hadron index to the corresponding lists
368  hadMothers.push_back(lepton);
369  const int leptonIndex = hadMothersCand.size()-1;
370  hadLeptonIndex.push_back(leptonIndex);
371  hadLeptonViaTau.push_back(leptonViaTau);
372  hadLeptonHadIndex.push_back(leptonHadronIndex);
373  }
374 
375  // Checking mothers of hadrons in order to assign flags (where the hadron comes from)
376  unsigned int nHad = hadIndex.size();
377 
378  std::vector<std::vector<int> > LastQuarkMotherIds;
379  std::vector<std::vector<int> > LastQuarkIds;
380  std::vector<int> lastQuarkIndices(nHad, -1);
381 
382  // Looping over all hadrons
383  for ( unsigned int hadNum=0; hadNum<nHad; hadNum++ ) {
384  unsigned int hadIdx = hadIndex.at(hadNum); // Index of hadron in the hadMothers
385 
386  std::vector <int> FirstQuarkId;
387  std::vector <int> LastQuarkId;
388  std::vector <int> LastQuarkMotherId;
389 
390  const int hadronFlavourSign = flavourSign( hadMothers.at(hadIdx).pdgId() );
391 
392  // Searching only first quark in the chain with the same flavour as hadron
393  if(hadronFlavourSign != 0) {
394  findInMothers( hadIdx, FirstQuarkId, hadMothersIndices, hadMothers, 0, hadronFlavourSign*flavour_, false, -1, 1, false );
395  }
396  // Searching for quarks with both flavours since it is a bb/cc resonance
397  else {
398  findInMothers( hadIdx, FirstQuarkId, hadMothersIndices, hadMothers, 0, flavour_, false, -1, 1, false );
399  findInMothers( hadIdx, FirstQuarkId, hadMothersIndices, hadMothers, 0, -1*flavour_, false, -1, 1, false );
400  }
401 
402  // Finding last quark for each first quark
403  for ( unsigned int qId=0; qId<FirstQuarkId.size(); qId++ ) {
404  // Identifying the flavour of the first quark to find the last quark of the same flavour
405  const int quarkFlavourSign = flavourSign( hadMothers.at(FirstQuarkId.at(qId)).pdgId() );
406  // Finding last quark of the hadron starting from the first quark
407  findInMothers( FirstQuarkId.at(qId), LastQuarkId, hadMothersIndices, hadMothers, 0, quarkFlavourSign*flavour_, false, -1, 2, false );
408  } // End of loop over all first quarks of the hadron
409 
410 
411  // Setting initial flavour of the hadron
412  int hadronFlavour = 0;
413 
414  // Initialising pairs of last quark index and its distance from the hadron (to sort by distance)
415  std::vector<std::pair<double, int> > lastQuark_dR_id_pairs;
416 
417  // Finding the closest quark in dR
418  for ( unsigned int qId = 0; qId < LastQuarkId.size(); qId++ ) {
419  int qIdx = LastQuarkId.at(qId);
420  // Calculating the dR between hadron and quark
421  float dR = deltaR ( hadMothers.at(hadIdx).eta(),hadMothers.at(hadIdx).phi(),hadMothers.at(qIdx).eta(),hadMothers.at(qIdx).phi() );
422 
423  std::pair<double, int> dR_hadId_pair(dR,qIdx);
424  lastQuark_dR_id_pairs.push_back(dR_hadId_pair);
425  } // End of loop over all last quarks of the hadron
426 
427  std::sort(lastQuark_dR_id_pairs.begin(), lastQuark_dR_id_pairs.end());
428 
429  if(lastQuark_dR_id_pairs.size() > 1) {
430  double dRratio = (lastQuark_dR_id_pairs.at(1).first - lastQuark_dR_id_pairs.at(0).first)/lastQuark_dR_id_pairs.at(1).first;
431  int qIdx_closest = lastQuark_dR_id_pairs.at(0).second;
432  LastQuarkId.clear();
433  if(dRratio>0.5) LastQuarkId.push_back(qIdx_closest);
434  else for(std::pair<double, int> qIdDrPair : lastQuark_dR_id_pairs) LastQuarkId.push_back(qIdDrPair.second);
435  }
436  for(int qIdx : LastQuarkId) {
437  int qmIdx = hadMothersIndices.at(qIdx).at(0);
438  LastQuarkMotherId.push_back(qmIdx);
439  }
440 
441  if((int)LastQuarkId.size()>0) lastQuarkIndices.at(hadNum) = 0; // Setting the first quark in array as a candidate if it exists
442 
443  LastQuarkIds.push_back( LastQuarkId );
444 
445  LastQuarkMotherIds.push_back ( LastQuarkMotherId );
446 
447  if(LastQuarkMotherId.size()<1) {
448  hadronFlavour = 0;
449  } else {
450  int qIdx = LastQuarkId.at( lastQuarkIndices.at(hadNum) );
451  int qFlav = flavourSign( hadMothers.at(qIdx).pdgId() );
452  hadronFlavour = qFlav*std::abs( hadMothers.at( LastQuarkMotherId.at( lastQuarkIndices.at(hadNum) ) ).pdgId() );
453  }
454  hadFlavour.push_back(hadronFlavour); // Adding hadron flavour to the list of flavours
455 
456  // Checking whether hadron comes from the Top weak decay
457  int isFromTopWeakDecay = 1;
458  std::vector <int> checkedParticles;
459  if(hadFlavour.at(hadNum) != 0) {
460  int lastQIndex = LastQuarkId.at(lastQuarkIndices.at(hadNum));
461  bool fromTB = topDaughterQId >= 0 ? findInMothers( lastQIndex, checkedParticles, hadMothersIndices, hadMothers, -1, 0, false, topDaughterQId, 2, false ) >= 0 : false;
462  checkedParticles.clear();
463  bool fromTbarB = topBarDaughterQId >= 0 ? findInMothers( lastQIndex, checkedParticles, hadMothersIndices, hadMothers, -1, 0, false, topBarDaughterQId, 2, false) >= 0 : false;
464  checkedParticles.clear();
465  if(!fromTB && !fromTbarB) {
466  isFromTopWeakDecay = 0;
467  }
468  } else isFromTopWeakDecay = 2;
469  hadFromTopWeakDecay.push_back(isFromTopWeakDecay);
470  int bHadronMotherId = findInMothers( hadIdx, checkedParticles, hadMothersIndices, hadMothers, 0, 555555, true, -1, 1, false );
471  hadBHadronId.push_back(bHadronMotherId);
472 
473 
474  if(LastQuarkMotherId.size()>0) {
475  std::set<int> checkedHadronIds;
476  fixExtraSameFlavours(hadNum, hadIndex, hadMothers, hadMothersIndices, hadFromTopWeakDecay, LastQuarkIds, LastQuarkMotherIds, lastQuarkIndices, hadFlavour, checkedHadronIds, 0);
477  }
478 
479  } // End of loop over all hadrons
480 
481  return hadJetIndex;
482 }
483 
484 
493 int GenHFHadronMatcher::idInList ( std::vector<const reco::Candidate*> particleList, const reco::Candidate* particle )
494 {
495  const unsigned int position = std::find(particleList.begin(), particleList.end(), particle) - particleList.begin();
496  if( position >= particleList.size() ) return -1;
497 
498  return position;
499 }
500 
501 int GenHFHadronMatcher::idInList ( std::vector<int> list, const int value )
502 {
503  const unsigned int position = std::find(list.begin(), list.end(), value) - list.begin();
504  if( position >= list.size() ) return -1;
505 
506  return position;
507 }
508 
509 
518 bool GenHFHadronMatcher::isHadron ( const int flavour, const reco::Candidate* thisParticle )
519 {
520  return isHadronPdgId(flavour, thisParticle->pdgId());
521 }
522 
523 
532 bool GenHFHadronMatcher::isHadronPdgId ( const int flavour, const int pdgId )
533 {
534  if( isBaryonPdgId(flavour, pdgId) || isMesonPdgId(flavour, pdgId) ) return true;
535 
536  return false;
537 }
538 
539 
548 bool GenHFHadronMatcher::isMesonPdgId ( const int flavour, const int pdgId )
549 {
550  const int flavour_abs = std::abs(flavour);
551  if(flavour_abs != 5 && flavour_abs != 4) return false;
552  const int pdgId_abs = std::abs(pdgId);
553 
554  if( pdgId_abs/100%10 != flavour_abs) return false;
555  // Excluding baryons
556  if ( pdgId_abs/1000 == flavour_abs) return false;
557  // Excluding bb/cc resonances if required
558  if ( noBBbarResonances_ && pdgId_abs/10%100 == 11*flavour_abs ) return false;
559 
560  return true;
561 }
562 
563 
572 bool GenHFHadronMatcher::isBaryonPdgId ( const int flavour, const int pdgId )
573 {
574  const int flavour_abs = std::abs(flavour);
575  if(flavour_abs != 5 && flavour_abs != 4) return false;
576  const int pdgId_abs = std::abs(pdgId);
577 
578  if ( pdgId_abs/1000 != flavour_abs) return false;
579 
580  return true;
581 }
582 
583 
592 {
593  int flavourSign = pdgId / std::abs(pdgId);
594  // B mesons have opposite sign
595  if( isMesonPdgId(5, pdgId) ) flavourSign *= -1;
596  // Returning 0 for bb/cc resonances
597  if(pdgId % 1000 / 10 / 11 > 0) flavourSign = 0;
598 
599  return flavourSign;
600 }
601 
602 
611 bool GenHFHadronMatcher::hasHadronDaughter ( const int flavour, const reco::Candidate* thisParticle )
612 {
613  // Looping through daughters of the particle
614  bool hasDaughter = false;
615  for ( int k=0; k< (int)thisParticle->numberOfDaughters(); k++ ) {
616  if ( !isHadron( flavour, thisParticle->daughter(k) ) ) {
617  continue;
618  }
619  hasDaughter = true;
620  break;
621  }
622 
623  return hasDaughter;
624 }
625 
626 
644 int GenHFHadronMatcher::analyzeMothers ( const reco::Candidate* thisParticle, int& topDaughterQId, int& topBarDaughterQId, std::vector<const reco::Candidate*> &hadMothers, std::vector<std::vector<int> > &hadMothersIndices, std::set<const reco::Candidate*> *analyzedParticles, const int prevPartIndex )
645 {
646  // Getting the index of the particle which is a hadron in the first call
647  int hadronIndex=-1; // Index of the hadron that is returned by this function
648  int index = idInList( hadMothers, thisParticle );
649  if ( index<0 ) { // If hadron is not in the list of mothers yet
650  hadMothers.push_back ( thisParticle );
651  hadronIndex=hadMothers.size()-1;
652  } else { // If hadron is in the list of mothers already
653  hadronIndex=index;
654  }
655 
656  int partIndex = -1; // Index of particle being checked in the list of mothers
657  partIndex = idInList( hadMothers, thisParticle );
658 
659  // Checking whether this particle is already in the chain of analyzed particles in order to identify a loop
660  bool isLoop = false;
661  if ( !analyzedParticles ) {
662  analyzedParticles = new std::set<const reco::Candidate*>;
663  }
664  for ( unsigned int i=0; i<analyzedParticles->size(); i++ ) {
665  if ( analyzedParticles->count ( thisParticle ) <=0 ) {
666  continue;
667  }
668  isLoop = true;
669  break;
670  }
671 
672  // If a loop has been detected
673  if ( isLoop ) {
674  if ( prevPartIndex>=0 ) {
675  putMotherIndex ( hadMothersIndices, prevPartIndex, -1 ); // Setting mother index of previous particle to -1
676  }
677  return hadronIndex; // Stopping further processing of the current chain
678  }
679  analyzedParticles->insert ( thisParticle );
680 
681  // Putting the mothers to the list of mothers
682  for ( size_t iMother = 0; iMother < thisParticle->numberOfMothers(); ++iMother ) {
683  const reco::Candidate* mother = thisParticle->mother ( iMother );
684  int mothIndex = idInList( hadMothers, mother );
685  if ( mothIndex == partIndex && partIndex>=0 ) {
686  continue; // Skipping the mother that is its own daughter
687  }
688 
689  // If this mother isn't yet in the list and hadron or lepton is in the list
690  if ( mothIndex<0 ) {
691  hadMothers.push_back ( mother );
692  mothIndex=hadMothers.size()-1;
693  }
694  // If hadron has already been found in current chain and the mother isn't a duplicate of the particle being checked
695  if ( mothIndex!=partIndex && partIndex>=0 ) {
696  putMotherIndex ( hadMothersIndices, partIndex, mothIndex ); // Putting the index of mother for current particle
697  }
698  analyzeMothers ( mother, topDaughterQId, topBarDaughterQId, hadMothers, hadMothersIndices, analyzedParticles, partIndex );
699  // Setting the id of the particle which is a quark from the top decay
700  if(std::abs(mother->pdgId())==6) {
701  int& bId = mother->pdgId() < 0 ? topBarDaughterQId : topDaughterQId;
702  int thisFlav = std::abs(thisParticle->pdgId());
703  if( bId<0){
704  if(thisFlav <= 5) bId = partIndex;
705  } else {
706  int bIdFlav = std::abs(hadMothers.at(bId)->pdgId());
707  if( bIdFlav != 5 && thisFlav == 5) bId = partIndex;
708  else if( thisFlav == 5 && thisParticle->pt() > hadMothers.at(bId)->pt() ) bId = partIndex;
709  } // If daughter quark of the top not found yet
710  } // If the mother is a top quark and hadron has been found
711  } // End of loop over mothers
712 
713  analyzedParticles->erase ( thisParticle ); // Removing current particle from the current chain that is being analyzed
714 
715  if ( partIndex<0 ) {
716  return hadronIndex; // Safety check
717  }
718 
719  // Adding -1 to the list of mother indices for current particle if it has no mothers (for consistency between numbering of indices and mothers)
720  if ( (int)thisParticle->numberOfMothers() <=0) {
721  putMotherIndex ( hadMothersIndices, partIndex, -1 );
722  }
723 
724  return hadronIndex;
725 
726 }
727 
728 
738 bool GenHFHadronMatcher::putMotherIndex ( std::vector<std::vector<int> > &hadMothersIndices, int partIndex, int mothIndex )
739 {
740  // Putting vector of mothers indices for the given particle
741  bool inList=false;
742  if ( partIndex<0 ) {
743  return false;
744  }
745 
746  while ( (int)hadMothersIndices.size() <= partIndex ) { // If there is no list of mothers for current particle yet
747  std::vector<int> mothersIndices;
748  hadMothersIndices.push_back ( mothersIndices );
749  }
750 
751  std::vector<int> *hadMotherIndices = &hadMothersIndices.at(partIndex);
752  // Removing other mothers if particle must have no mothers
753  if ( mothIndex == -1 ) {
754  hadMotherIndices->clear();
755  } else {
756  // Checking if current mother is already in the list of theParticle's mothers
757  for ( int k = 0; k < (int)hadMotherIndices->size(); k++ ) {
758  if ( hadMotherIndices->at(k) != mothIndex && hadMotherIndices->at(k) != -1 ) {
759  continue;
760  }
761  inList=true;
762  break;
763  }
764  }
765  // Adding current mother to the list of mothers of this particle
766  if ( !inList ) {
767  hadMotherIndices->push_back(mothIndex);
768  }
769 
770  return inList;
771 }
772 
773 
791 int GenHFHadronMatcher::findInMothers ( int idx, std::vector<int> &mothChains, const std::vector<std::vector<int> > &hadMothersIndices,
792  const std::vector<reco::GenParticle> &hadMothers, int status, int pdgId, bool pdgAbs=false,
793  int stopId=-1, int firstLast=0, bool verbose=false)
794 {
795  int foundStopId = -1;
796  int pdg_1 = hadMothers.at(idx).pdgId();
797 
798  if ( (int)hadMothersIndices.size() <= idx ) {
799  if ( verbose ) {
800  printf ( " Stopping checking particle %d. No mothers are stored.\n",idx );
801  }
802  return -1; // Skipping if no mothers are stored for this particle
803  }
804 
805  if(std::abs(hadMothers.at( idx ).pdgId()) > 10 && std::abs(hadMothers.at( idx ).pdgId()) < 19) printf("Lepton: %d\n", hadMothers.at( idx ).pdgId());
806 
807  std::vector<int> mothers = hadMothersIndices.at(idx);
808  unsigned int nMothers = mothers.size();
809  bool isCorrect=false; // Whether current particle is what is being searched
810  if ( verbose ) {
811  if ( std::abs( hadMothers.at(idx).pdgId() ) ==2212 ) {
812  printf ( "Chk: %d\tpdg: %d\tstatus: %d",idx, hadMothers.at(idx).pdgId(), hadMothers.at(idx).status() );
813  } else {
814  printf ( " Chk: %d(%d mothers)\tpdg: %d\tstatus: %d\tPt: %.3f\tEta: %.3f",idx, nMothers, hadMothers.at(idx).pdgId(), hadMothers.at(idx).status(), hadMothers.at(idx).pt(),hadMothers.at(idx).eta() );
815  }
816  }
817  bool hasCorrectMothers = true;
818  if(nMothers<1) hasCorrectMothers=false; else if(mothers.at(0)<0) hasCorrectMothers=false;
819  if(!hasCorrectMothers) {
820  if(verbose) printf(" NO CORRECT MOTHER\n");
821  return -1;
822  }
823  // Stopping if the particular particle has been found
824  if(stopId>=0 && idx == stopId) return idx;
825 
826  // Stopping if the hadron of particular flavour has been found
827  if(pdgId%111111==0 && pdgId!=0) {
828  if(isHadronPdgId(pdgId/111111, hadMothers.at(idx).pdgId())) {
829  return idx;
830  }
831  }
832 
833  // Checking whether current mother satisfies selection criteria
834  if ( ( ( hadMothers.at(idx).pdgId() == pdgId && pdgAbs==false )
835  || ( std::abs( hadMothers.at(idx).pdgId() ) == std::abs( pdgId ) && pdgAbs==true ) )
836  && ( hadMothers.at(idx).status() == status || status==0 )
837  && hasCorrectMothers ) {
838  isCorrect=true;
839  // Adding to the list of candidates if not there and if mother of this quark has correct flavour sign
840  const bool inList = std::find(mothChains.begin(), mothChains.end(), idx) != mothChains.end();
841  if ( !inList && mothers.at(0) >= 0 && ( hadMothers.at(idx).pdgId()*pdgId > 0 || !pdgAbs ) ) {
842  if ( firstLast==0 || firstLast==1 ) {
843  mothChains.push_back(idx);
844  }
845  if ( verbose ) {
846  printf ( " *" );
847  }
848  }
849  if ( verbose ) {
850  printf ( " +++" );
851  }
852  }
853  if ( verbose ) {
854  printf ( "\n" );
855  }
856 
857  if ( isCorrect && firstLast==1 ) {
858  return -1; // Stopping if only the first particle in the chain is looked for
859  }
860 
861  // Checking next level mothers
862  unsigned int nDifferingMothers = 0;
863  for ( unsigned int i = 0; i < nMothers; i++ ) {
864  int idx2 = mothers.at(i);
865  if ( idx2 < 0 ) {
866  if(verbose) printf("^^^ Has no mother\n");
867  continue; // Skipping if mother's id is -1 (no mother), that means current particle is a proton
868  }
869  if ( idx2 == idx ) {
870  if(verbose) printf("^^^ Stored as its own mother\n");
871  continue; // Skipping if particle is stored as its own mother
872  }
873  int pdg_2 = hadMothers[idx2].pdgId();
874  // Inverting the flavour if bb oscillation detected
875  if ( isHadronPdgId(pdgId, pdg_1) && isHadronPdgId(pdgId, pdg_2) && pdg_1*pdg_2 < 0 ) {
876  pdgId *= -1;
877  if(verbose) printf("######### Inverting flavour of the hadron\n");
878  }
879  // Counting how many mothers are different from this particle
880  if ( ( std::abs( pdg_2 ) != std::abs( pdgId ) && pdgAbs==true ) ||
881  ( pdg_2 != pdgId && pdgAbs == false ) ) {
882  nDifferingMothers++;
883  }
884 
885  // Checking next level mother
886  if ( verbose ) {
887  printf ( "Checking mother %d out of %d mothers (%d -> %d), looking for pdgId: %d\n",i,nMothers,idx, idx2, pdgId );
888  }
889  if(firstLast==2 && pdg_1 != pdg_2) continue; // Requiring the same flavour when finding the last quark
890  foundStopId = findInMothers ( idx2, mothChains, hadMothersIndices, hadMothers, status, pdgId, pdgAbs, stopId, firstLast, verbose );
891  }
892  // Storing this particle if all its mothers are of another type and the last of its kind should be stored
893  if(firstLast==2 && isCorrect && nDifferingMothers >= nMothers) {
894  if ( verbose ) {
895  printf ( "Checking particle %d once more to store it as the last quark\n",idx);
896  }
897  foundStopId = findInMothers ( idx, mothChains, hadMothersIndices, hadMothers, 0, pdgId, pdgAbs, stopId, 1, verbose );
898  }
899 
900  return foundStopId;
901 }
902 
903 
913 {
914  const int neutralPdgs_array[] = {9, 21, 22, 23, 25};
915  const std::vector<int> neutralPdgs( neutralPdgs_array, neutralPdgs_array + sizeof(neutralPdgs_array) / sizeof(int) );
916  if( std::find( neutralPdgs.begin(), neutralPdgs.end(), std::abs(pdgId) ) == neutralPdgs.end() ) return false;
917 
918  return true;
919 }
920 
921 
937  const unsigned int hadId, const std::vector<int> &hadIndices, const std::vector<reco::GenParticle> &hadMothers,
938  const std::vector<std::vector<int> > &hadMothersIndices, const std::vector<int> &isFromTopWeakDecay,
939  const std::vector<std::vector<int> > &LastQuarkIds, const std::vector<std::vector<int> > &LastQuarkMotherIds,
940  std::vector<int> &lastQuarkIndices, std::vector<int> &hadronFlavour,
941  std::set<int> &checkedHadronIds, const int lastQuarkIndex)
942 {
943  if(checkedHadronIds.count(hadId) != 0) return false; // Hadron already checked previously and should be skipped
944  checkedHadronIds.insert(hadId); // Putting hadron to the list of checked ones in this run
945 
946  if(lastQuarkIndex<0) return false;
947  if((int)LastQuarkIds.at(hadId).size()<lastQuarkIndex+1) return false;
948  int LastQuarkId = LastQuarkIds.at(hadId).at(lastQuarkIndex);
949  int LastQuarkMotherId = LastQuarkMotherIds.at( hadId ).at( lastQuarkIndex );
950  int qmFlav = hadMothers.at(LastQuarkId).pdgId() < 0 ? -1 : 1;
951  int hadFlavour = qmFlav*std::abs( hadMothers.at( LastQuarkMotherId ).pdgId() );
952  bool ambiguityResolved = true;
953  // If last quark has inconsistent flavour with its mother, setting the hadron flavour to gluon
954  if( (hadMothers.at(LastQuarkId).pdgId()*hadMothers.at(LastQuarkMotherId).pdgId() < 0 && !isNeutralPdg(hadMothers.at(LastQuarkMotherId).pdgId())) ||
955  // If particle not coming from the Top weak decay has Top flavour
956  (std::abs(hadronFlavour.at(hadId))==6 && isFromTopWeakDecay.at(hadId)==0) ) {
957  if((int)LastQuarkIds.at(hadId).size()>lastQuarkIndex+1) fixExtraSameFlavours(hadId, hadIndices, hadMothers, hadMothersIndices, isFromTopWeakDecay, LastQuarkIds, LastQuarkMotherIds, lastQuarkIndices, hadronFlavour, checkedHadronIds, lastQuarkIndex+1);
958  else hadronFlavour.at(hadId) = qmFlav*21;
959  return true;
960  }
961 
962  int nSameFlavourHadrons = 0;
963  // Looping over all previous hadrons
964  for(unsigned int iHad = 0; iHad<hadronFlavour.size(); iHad++) {
965  if(iHad==hadId) continue;
966  int theLastQuarkIndex = lastQuarkIndices.at(iHad);
967  if(theLastQuarkIndex<0) continue;
968  if((int)LastQuarkMotherIds.at( iHad ).size() <= theLastQuarkIndex) continue;
969  int theLastQuarkMotherId = LastQuarkMotherIds.at( iHad ).at( theLastQuarkIndex );
970  int theHadFlavour = hadronFlavour.at(iHad);
971  // Skipping hadrons with different flavour
972  if(theHadFlavour==0 || std::abs(theHadFlavour)==21) continue;
973  if(theHadFlavour != hadFlavour || theLastQuarkMotherId != LastQuarkMotherId) continue;
974  ambiguityResolved = false;
975  nSameFlavourHadrons++;
976 
977  // Checking other b-quark mother candidates of this hadron
978  if((int)LastQuarkIds.at(hadId).size() > lastQuarkIndex+1) {
979  if(fixExtraSameFlavours(hadId, hadIndices, hadMothers, hadMothersIndices, isFromTopWeakDecay, LastQuarkIds, LastQuarkMotherIds, lastQuarkIndices, hadronFlavour, checkedHadronIds, lastQuarkIndex+1) ) {
980  ambiguityResolved = true;
981  break;
982  }
983  } else
984  // Checking other b-quark mother candidates of the particular previous hadron
985  if((int)LastQuarkIds.at(iHad).size() > theLastQuarkIndex+1) {
986  if(fixExtraSameFlavours(iHad, hadIndices, hadMothers, hadMothersIndices, isFromTopWeakDecay, LastQuarkIds, LastQuarkMotherIds, lastQuarkIndices, hadronFlavour, checkedHadronIds, theLastQuarkIndex+1) ) {
987  ambiguityResolved = true;
988  break;
989  };
990  }
991 
992  } // End of loop over all previous hadrons
993 
994  checkedHadronIds.erase(hadId); // Removing the hadron from the list of checked hadrons
995  if(nSameFlavourHadrons>0 && !ambiguityResolved) {
996  hadronFlavour.at(hadId) = qmFlav*21;
997  return true;
998  }
999  lastQuarkIndices.at(hadId) = lastQuarkIndex;
1000  hadronFlavour.at(hadId) = hadFlavour;
1001  return true;
1002 }
1003 
1004 //define this as a plug-in
std::vector< GenParticle > GenParticleCollection
collection of GenParticles
T getParameter(std::string const &) const
int i
Definition: DBlmapReader.cc:9
edm::ESHandle< ParticleDataTable > pdt_
virtual const Candidate * daughter(size_type i) const =0
return daughter at a given position, i = 0, ... numberOfDaughters() - 1 (read only mode) ...
tuple cfg
Definition: looper.py:293
int idInList(std::vector< const reco::Candidate * > particleList, const reco::Candidate *particle)
Check if the cpecified particle is already in the list of particles.
virtual const Candidate * mother(size_type i=0) const =0
return pointer to mother
transient_vector_type::const_iterator const_iterator
const GenParticleRefVector & getbHadrons() const
Return a vector of GenParticleRef&#39;s to b hadrons clustered inside the jet.
int flavourSign(const int pdgId)
Sign of the flavour (matter/antimatter)
bool isHadronPdgId(const int flavour, const int pdgId)
Check the pdgId if it represents a hadron of particular flavour.
bool getByToken(EDGetToken token, Handle< PROD > &result) const
Definition: Event.h:462
virtual double pt() const =0
transverse momentum
#define DEFINE_FWK_MODULE(type)
Definition: MakerMacros.h:17
const GenParticleRefVector & getcHadrons() const
Return a vector of GenParticleRef&#39;s to c hadrons clustered inside the jet.
virtual size_type numberOfMothers() const =0
number of mothers (zero or one in most of but not all the cases)
virtual void endRun(edm::Run &, edm::EventSetup const &)
const_iterator end() const
bool checkForLoop(std::vector< const reco::Candidate * > &particleChain, const reco::Candidate *particle)
const_iterator end() const
Termination of iteration.
Definition: RefVector.h:253
void find(edm::Handle< EcalRecHitCollection > &hits, DetId thisDet, std::vector< EcalRecHitCollection::const_iterator > &hit, bool debug=false)
Definition: FindCaloHit.cc:7
bool isNeutralPdg(int pdgId)
Check whether a given pdgId represents neutral particle.
const_iterator begin() const
Initialize an iterator over the RefVector.
Definition: RefVector.h:248
void getData(T &iHolder) const
Definition: EventSetup.h:79
int findInMothers(int idx, std::vector< int > &mothChains, const std::vector< std::vector< int > > &hadMothersIndices, const std::vector< reco::GenParticle > &hadMothers, int status, int pdgId, bool pdgAbs, int stopId, int firstLast, bool verbose)
helper function to find indices of particles with particular pdgId and status from the list of mother...
virtual void produce(edm::Event &, const edm::EventSetup &)
int analyzeMothers(const reco::Candidate *thisParticle, int &topDaughterQId, int &topBarDaughterQId, std::vector< const reco::Candidate * > &hadMothers, std::vector< std::vector< int > > &hadMothersIndices, std::set< const reco::Candidate * > *analyzedParticles, const int prevPartIndex)
do a recursive search for the mother particles until the b-quark is found or the absolute mother is f...
virtual size_type numberOfDaughters() const =0
number of daughters
OrphanHandle< PROD > put(std::auto_ptr< PROD > product)
Put a new product.
Definition: Event.h:121
Class storing the jet flavour information.
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
edm::EDGetTokenT< reco::JetFlavourInfoMatchingCollection > jetFlavourInfosToken_
bool isMesonPdgId(const int flavour, const int pdgId)
Check the pdgId if it represents a meson of particular flavour.
virtual void beginRun(edm::Run &, edm::EventSetup const &)
ParameterDescriptionBase * add(U const &iLabel, T const &value)
bool putMotherIndex(std::vector< std::vector< int > > &hadMothersIndices, int partIndex, int mothIndex)
puts mother index to the list of mothers of particle, if it isn&#39;t there already
bool isBaryonPdgId(const int flavour, const int pdgId)
Check the pdgId if it represents a baryon of particular flavour.
double deltaR(double eta1, double eta2, double phi1, double phi2)
Definition: TreeUtility.cc:17
virtual int pdgId() const =0
PDG identifier.
edm::RefVector< GenParticleCollection > GenParticleRefVector
vector of reference to GenParticle in the same collection
static void fillDescriptions(edm::ConfigurationDescriptions &descriptions)
description of the run-time parameters
virtual void beginLuminosityBlock(edm::LuminosityBlock &, edm::EventSetup const &)
edm::EDGetTokenT< reco::GenParticleCollection > genParticlesToken_
tuple idx
DEBUGGING if hasattr(process,&quot;trackMonIterativeTracking2012&quot;): print &quot;trackMonIterativeTracking2012 D...
virtual void endLuminosityBlock(edm::LuminosityBlock &, edm::EventSetup const &)
void add(std::string const &label, ParameterSetDescription const &psetDescription)
virtual int pdgId() const final
PDG identifier.
static int position[264][3]
Definition: ReadPGInfo.cc:509
GenHFHadronMatcher(const edm::ParameterSet &)
constructor initialising producer products and config parameters
volatile std::atomic< bool > shutdown_flag false
bool isHadron(const int flavour, const reco::Candidate *thisParticle)
Check the pdgId of a given particle if it is a hadron.
int flavour(const Candidate &part)
Definition: pdgIdUtils.h:31
const_iterator begin() const
virtual const Candidate * mother(size_type=0) const
return mother at a given position, i = 0, ... numberOfMothers() - 1 (read only mode) ...
bool hasHadronDaughter(const int flavour, const reco::Candidate *thisParticle)
Check if the particle has bHadron among daughters.
bool fixExtraSameFlavours(const unsigned int hadId, const std::vector< int > &hadIndices, const std::vector< reco::GenParticle > &hadMothers, const std::vector< std::vector< int > > &hadMothersIndices, const std::vector< int > &isFromTopWeakDecay, const std::vector< std::vector< int > > &LastQuarkIds, const std::vector< std::vector< int > > &LastQuarkMotherIds, std::vector< int > &lastQuarkIndices, std::vector< int > &hadronFlavour, std::set< int > &checkedHadronIds, const int lastQuarkIndex)
Finds the origin of each heavy flavour hadron and associated jets to it.
Definition: Run.h:43
std::vector< int > findHadronJets(const reco::GenParticleCollection *genParticles, const reco::JetFlavourInfoMatchingCollection *jetFlavourInfos, std::vector< int > &hadIndex, std::vector< reco::GenParticle > &hadMothersGenPart, std::vector< std::vector< int > > &hadMothersIndices, std::vector< int > &hadLeptonIndex, std::vector< int > &hadLeptonHadIndex, std::vector< int > &hadLeptonViaTau, std::vector< int > &hadFlavour, std::vector< int > &hadFromTopWeakDecay, std::vector< int > &hadBHadronId)
identify the jets that contain b-hadrons
How EventSelector::AcceptEvent() decides whether to accept an event for output otherwise it is excluding the probing of A single or multiple positive and the trigger will pass if any such matching triggers are PASS or EXCEPTION[A criterion thatmatches no triggers at all is detected and causes a throw.] A single negative with an expectation of appropriate bit checking in the decision and the trigger will pass if any such matching triggers are FAIL or EXCEPTION A wildcarded negative criterion that matches more than one trigger in the trigger list("!*","!HLTx*"if it matches 2 triggers or more) will accept the event if all the matching triggers are FAIL.It will reject the event if any of the triggers are PASS or EXCEPTION(this matches the behavior of"!*"before the partial wildcard feature was incorporated).Triggers which are in the READY state are completely ignored.(READY should never be returned since the trigger paths have been run
tuple status
Definition: mps_update.py:57
std::string getParticleName(int id) const