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MuScleFitMuonSelector.cc
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5 
6 const double MuScleFitMuonSelector::mMu2 = 0.011163612;
7 const unsigned int MuScleFitMuonSelector::motherPdgIdArray[] = {23, 100553, 100553, 553, 100443, 443};
8 
9 const reco::Candidate*
11  const reco::Candidate* tempMuon = status3Muon;
12  // bool lastCopy = ((reco::GenParticle*)tempMuon)->isLastCopy(); // isLastCopy() likely not enough robust
13  bool isPromptFinalState = ((reco::GenParticle*)tempMuon)->isPromptFinalState(); // pre-CMSSW_74X code: int status = tempStatus1Muon->status();
14  while(tempMuon == 0 || tempMuon->numberOfDaughters()!=0){
15  if ( isPromptFinalState ) break; // pre-CMSSW_74X code: if (status == 1) break;
16  //std::vector<const reco::Candidate*> daughters;
17  for (unsigned int i=0; i<tempMuon->numberOfDaughters(); ++i){
18  if ( tempMuon->daughter(i)->pdgId()==tempMuon->pdgId() ){
19  tempMuon = tempMuon->daughter(i);
20  isPromptFinalState = ((reco::GenParticle*)tempMuon)->isPromptFinalState(); // pre-CMSSW_74X code: status = tempStatus1Muon->status();
21  break;
22  }else continue;
23  }//for loop
24  }//while loop
25 
26  return tempMuon;
27 }
28 
29 const reco::Candidate*
31  const reco::Candidate* tempMuon = status3Muon;
32  bool lastCopy = ((reco::GenParticle*)tempMuon)->isLastCopyBeforeFSR(); // pre-CMSSW_74X code: int status = tempStatus1Muon->status();
33  while(tempMuon == 0 || tempMuon->numberOfDaughters()!=0){
34  if ( lastCopy ) break; // pre-CMSSW_74X code: if (status == 3) break;
35  //std::vector<const reco::Candidate*> daughters;
36  for (unsigned int i=0; i<tempMuon->numberOfDaughters(); ++i){
37  if ( tempMuon->daughter(i)->pdgId()==tempMuon->pdgId() ){
38  tempMuon = tempMuon->daughter(i);
39  lastCopy = ((reco::GenParticle*)tempMuon)->isLastCopyBeforeFSR(); // pre-CMSSW_74X code: status = tempStatus1Muon->status();
40  break;
41  }else continue;
42  }//for loop
43  }//while loop
44 
45  return tempMuon;
46 }
47 
48 
49 
51 {
52  reco::TrackRef iTrack = aMuon->innerTrack();
53  const reco::HitPattern& p = iTrack->hitPattern();
54 
55  reco::TrackRef gTrack = aMuon->globalTrack();
56  const reco::HitPattern& q = gTrack->hitPattern();
57 
58  return (//isMuonInAccept(aMuon) &&// no acceptance cuts!
59  iTrack->found() > 11 &&
60  gTrack->chi2()/gTrack->ndof() < 20.0 &&
61  q.numberOfValidMuonHits() > 0 &&
62  iTrack->chi2()/iTrack->ndof() < 4.0 &&
63  aMuon->muonID("TrackerMuonArbitrated") &&
64  aMuon->muonID("TMLastStationAngTight") &&
66  fabs(iTrack->dxy()) < 3.0 && //should be done w.r.t. PV!
67  fabs(iTrack->dz()) < 15.0 //should be done w.r.t. PV!
68  );
69 }
70 
72 {
73  reco::TrackRef iTrack = aMuon->innerTrack();
74  const reco::HitPattern& p = iTrack->hitPattern();
75 
76  return (//isMuonInAccept(aMuon) // no acceptance cuts!
77  iTrack->found() > 11 &&
78  iTrack->chi2()/iTrack->ndof() < 4.0 &&
79  aMuon->muonID("TrackerMuonArbitrated") &&
80  aMuon->muonID("TMLastStationAngTight") &&
82  fabs(iTrack->dxy()) < 3.0 && //should be done w.r.t. PV!
83  fabs(iTrack->dz()) < 15.0 //should be done w.r.t. PV!
84  );
85 }
86 
87 // Note that at this level we save all the information. Events for which no suitable muon pair is found
88 // are removed from the tree (together with the gen and sim information) at a later stage.
89 // It would be better to remove them directly at this point.
90 void MuScleFitMuonSelector::selectMuons(const edm::Event & event, std::vector<MuScleFitMuon> & muons,
91  std::vector<GenMuonPair> & genPair,
92  std::vector<std::pair<lorentzVector, lorentzVector> > & simPair,
94 {
96  try { event.getByLabel("onia2MuMuPatTrkTrk", collAll); }
97  catch (...) { std::cout << "J/psi not present in event!" << std::endl; }
98  std::vector<const pat::Muon*> collMuSel;
99 
100  //================onia cuts===========================/
101 
102  if (muonType_ <= -1 && PATmuons_) {
103  std::vector<const pat::CompositeCandidate*> collSelGG;
104  std::vector<const pat::CompositeCandidate*> collSelGT;
105  std::vector<const pat::CompositeCandidate*> collSelTT;
106  if (collAll.isValid()) {
107 
108  for (std::vector<pat::CompositeCandidate>::const_iterator it=collAll->begin();
109  it!=collAll->end(); ++it) {
110 
111  const pat::CompositeCandidate* cand = &(*it);
112  // cout << "Now checking candidate of type " << theJpsiCat << " with pt = " << cand->pt() << endl;
113  const pat::Muon* muon1 = dynamic_cast<const pat::Muon*>(cand->daughter("muon1"));
114  const pat::Muon* muon2 = dynamic_cast<const pat::Muon*>(cand->daughter("muon2"));
115 
116  if ((muon1->charge() * muon2->charge())>0)
117  continue;
118  // global + global?
119  if (muon1->isGlobalMuon() && muon2->isGlobalMuon()) {
120  if (selGlobalMuon(muon1) && selGlobalMuon(muon2) && cand->userFloat("vProb") > 0.001) {
121  collSelGG.push_back(cand);
122  continue;
123  }
124  }
125  // global + tracker? (x2)
126  if (muon1->isGlobalMuon() && muon2->isTrackerMuon()) {
127  if (selGlobalMuon(muon1) && selTrackerMuon(muon2) && cand->userFloat("vProb") > 0.001) {
128  collSelGT.push_back(cand);
129  continue;
130  }
131  }
132  if (muon2->isGlobalMuon() && muon1->isTrackerMuon()) {
133  if (selGlobalMuon(muon2) && selTrackerMuon(muon1) && cand->userFloat("vProb") > 0.001) {
134  collSelGT.push_back(cand);
135  continue;
136  }
137  }
138  // tracker + tracker?
139  if (muon1->isTrackerMuon() && muon2->isTrackerMuon()) {
140  if (selTrackerMuon(muon1) && selTrackerMuon(muon2) && cand->userFloat("vProb") > 0.001) {
141  collSelTT.push_back(cand);
142  continue;
143  }
144  }
145  }
146  }
147  // Split them in independent collections if using muonType_ == -2, -3 or -4. Take them all if muonType_ == -1.
148  std::vector<reco::Track> tracks;
149  if (collSelGG.size()){
150  //CHECK THAT THEY ARE ORDERED BY PT !!!!!!!!!!!!!!!!!!!!!!!
151  const pat::Muon* muon1 = dynamic_cast<const pat::Muon*>(collSelGG[0]->daughter("muon1"));
152  const pat::Muon* muon2 = dynamic_cast<const pat::Muon*>(collSelGG[0]->daughter("muon2"));
153  if (muonType_ == -1 || muonType_ == -2) {
154  tracks.push_back(*(muon1->innerTrack()));
155  tracks.push_back(*(muon2->innerTrack()));
156  collMuSel.push_back(muon1);
157  collMuSel.push_back(muon2);
158  }
159  }
160  else if (!collSelGG.size() && collSelGT.size()){
161  //CHECK THAT THEY ARE ORDERED BY PT !!!!!!!!!!!!!!!!!!!!!!!
162  const pat::Muon* muon1 = dynamic_cast<const pat::Muon*>(collSelGT[0]->daughter("muon1"));
163  const pat::Muon* muon2 = dynamic_cast<const pat::Muon*>(collSelGT[0]->daughter("muon2"));
164  if (muonType_ == -1 || muonType_ == -3) {
165  tracks.push_back(*(muon1->innerTrack()));
166  tracks.push_back(*(muon2->innerTrack()));
167  collMuSel.push_back(muon1);
168  collMuSel.push_back(muon2);
169  }
170  }
171  else if (!collSelGG.size() && !collSelGT.size() && collSelTT.size()){
172  //CHECK THAT THEY ARE ORDERED BY PT !!!!!!!!!!!!!!!!!!!!!!!
173  const pat::Muon* muon1 = dynamic_cast<const pat::Muon*>(collSelTT[0]->daughter("muon1"));
174  const pat::Muon* muon2 = dynamic_cast<const pat::Muon*>(collSelTT[0]->daughter("muon2"));
175  if (muonType_ == -1 || muonType_ == -4) {
176  tracks.push_back(*(muon1->innerTrack()));
177  tracks.push_back(*(muon2->innerTrack()));
178  collMuSel.push_back(muon1);
179  collMuSel.push_back(muon2);
180  }
181  }
182  if (tracks.size() != 2 && tracks.size() != 0){
183  std::cout<<"ERROR strange number of muons selected by onia cuts!"<<std::endl;
184  abort();
185  }
186  muons = fillMuonCollection(tracks);
187  }
188  else if ((muonType_<4 && muonType_>=0) || muonType_>=10) { // Muons (glb,sta,trk)
189  std::vector<reco::Track> tracks;
190  if (PATmuons_ == true) {
192  event.getByLabel(muonLabel_, allMuons);
193  if (muonType_ == 0) {
194  // Take directly the muon
195  muons = fillMuonCollection(*allMuons);
196  }
197  else {
198  for (std::vector<pat::Muon>::const_iterator muon = allMuons->begin(); muon != allMuons->end(); ++muon) {
199  //std::cout<<"pat muon is global "<<muon->isGlobalMuon()<<std::endl;
200  takeSelectedMuonType(muon, tracks);
201  }
202  muons = fillMuonCollection(tracks);
203  }
204  }
205  else {
207  event.getByLabel(muonLabel_, allMuons);
208  if (muonType_ == 0) {
209  // Take directly the muon
210  muons = fillMuonCollection(*allMuons);
211  }
212  else {
213  for (std::vector<reco::Muon>::const_iterator muon = allMuons->begin(); muon != allMuons->end(); ++muon) {
214  takeSelectedMuonType(muon, tracks);
215  }
216  muons = fillMuonCollection(tracks);
217  }
218  }
219  }
220  else if (muonType_==4){ //CaloMuons
222  event.getByLabel(muonLabel_, caloMuons);
223  std::vector<reco::Track> tracks;
224  for (std::vector<reco::CaloMuon>::const_iterator muon = caloMuons->begin(); muon != caloMuons->end(); ++muon){
225  tracks.push_back(*(muon->track()));
226  }
227  muons = fillMuonCollection(tracks);
228  }
229 
230  else if (muonType_==5) { // Inner tracker tracks
232  event.getByLabel(muonLabel_, tracks);
233  muons = fillMuonCollection(*tracks);
234  }
235  plotter->fillRec(muons);
236 
237  // Generation and simulation part
238  if (speedup_ == false)
239  {
240  if (PATmuons_) {
241  // EM 2015.04.02 temporary fix to run on MINIAODSIM (which contains PAT muons) but not the "onia2MuMuPatTrkTrk" collection
242  // selectGeneratedMuons(collAll, collMuSel, genPair, plotter);
243  selectGenSimMuons(event, genPair, simPair, plotter);
244  }
245  else {
246  selectGenSimMuons(event, genPair, simPair, plotter);
247  }
248  }
249 }
250 
253  const std::vector<const pat::Muon*> & collMuSel,
254  std::vector<GenMuonPair> & genPair,
256 {
258 
259  //explicitly for JPsi but can be adapted!!!!!
260  for(std::vector<pat::CompositeCandidate>::const_iterator it=collAll->begin();
261  it!=collAll->end();++it) {
262  reco::GenParticleRef genJpsi = it->genParticleRef();
263  bool isMatched = (genJpsi.isAvailable() && genJpsi->pdgId() == 443);
264  if (isMatched){
265  genPatParticles->push_back(*(const_cast<reco::GenParticle*>(genJpsi.get())));
266  }
267  }
268 
269  if(collMuSel.size()==2) {
270  reco::GenParticleRef genMu1 = collMuSel[0]->genParticleRef();
271  reco::GenParticleRef genMu2 = collMuSel[1]->genParticleRef();
272  bool isMuMatched = (genMu1.isAvailable() && genMu2.isAvailable() &&
273  genMu1->pdgId()*genMu2->pdgId() == -169);
274  if (isMuMatched) {
275  genPatParticles->push_back(*(const_cast<reco::GenParticle*>(genMu1.get())));
276  genPatParticles->push_back(*(const_cast<reco::GenParticle*>(genMu2.get())));
277 
278  unsigned int motherId = 0;
279  if( genMu1->mother() != 0 ) {
280  motherId = genMu1->mother()->pdgId();
281  }
282  if(genMu1->pdgId()==13)
283  genPair.push_back(GenMuonPair(genMu1.get()->p4(), genMu2.get()->p4(), motherId));
284  else
285  // genPair.push_back(std::make_pair(genMu2.get()->p4(),genMu1.get()->p4()) );
286  genPair.push_back(GenMuonPair(genMu2.get()->p4(), genMu1.get()->p4(), motherId));
287 
288  plotter->fillGen(const_cast <reco::GenParticleCollection*> (genPatParticles), true);
289 
290  if (debug_>0) std::cout << "Found genParticles in PAT" << std::endl;
291  }
292  else {
293  std::cout << "No recomuon selected so no access to generated info"<<std::endl;
294  // Fill it in any case, otherwise it will not be in sync with the event number
295  // genPair.push_back( std::make_pair( lorentzVector(0.,0.,0.,0.), lorentzVector(0.,0.,0.,0.) ) );
296  genPair.push_back( GenMuonPair(lorentzVector(0.,0.,0.,0.), lorentzVector(0.,0.,0.,0.), 0 ) );
297  }
298  }
299  else{
300  std::cout << "No recomuon selected so no access to generated info"<<std::endl;
301  // Fill it in any case, otherwise it will not be in sync with the event number
302  // genPair.push_back( std::make_pair( lorentzVector(0.,0.,0.,0.), lorentzVector(0.,0.,0.,0.) ) );
303  genPair.push_back( GenMuonPair(lorentzVector(0.,0.,0.,0.), lorentzVector(0.,0.,0.,0.), 0 ) );
304  }
305  if(debug_>0) {
306  std::cout << "genParticles:" << std::endl;
307  // std::cout << genPair.back().first << " , " << genPair.back().second << std::endl;
308  std::cout << genPair.back().mu1 << " , " << genPair.back().mu2 << std::endl;
309  }
310 }
311 
313  std::vector<GenMuonPair> & genPair,
314  std::vector<std::pair<lorentzVector,lorentzVector> > & simPair,
316 {
317  // Find and store in histograms the generated and simulated resonance and muons
318  // ----------------------------------------------------------------------------
321 
322  // Fill gen information only in the first loop
323  bool ifHepMC=false;
324 
325  event.getByLabel( genParticlesName_, evtMC );
326  event.getByLabel( genParticlesName_, genParticles );
327  if( evtMC.isValid() ) {
328  genPair.push_back( findGenMuFromRes(evtMC.product()) );
329  plotter->fillGen(evtMC.product(), sherpa_);
330  ifHepMC = true;
331  if (debug_>0) std::cout << "Found hepMC" << std::endl;
332  }
333  else if( genParticles.isValid() ) {
334  genPair.push_back( findGenMuFromRes(genParticles.product()) );
335  plotter->fillGen(genParticles.product());
336  if (debug_>0) std::cout << "Found genParticles" << std::endl;
337  }
338  else {
339  std::cout<<"ERROR "<<"non generation info and speedup true!!!!!!!!!!!!"<<std::endl;
340  // Fill it in any case, otherwise it will not be in sync with the event number
341  // genPair.push_back( std::make_pair( lorentzVector(0.,0.,0.,0.), lorentzVector(0.,0.,0.,0.) ) );
342  genPair.push_back( GenMuonPair( lorentzVector(0.,0.,0.,0.), lorentzVector(0.,0.,0.,0.), 0 ) );
343  }
344  if(debug_>0) {
345  std::cout << "genParticles:" << std::endl;
346  std::cout << genPair.back().mu1 << " , " << genPair.back().mu2 << std::endl;
347  }
348  selectSimulatedMuons(event, ifHepMC, evtMC, simPair, plotter);
349 }
350 
352  const bool ifHepMC, edm::Handle<edm::HepMCProduct> evtMC,
353  std::vector<std::pair<lorentzVector,lorentzVector> > & simPair,
355 {
357  bool simTracksFound = false;
358  event.getByLabel(simTracksCollectionName_, simTracks);
359  if( simTracks.isValid() ) {
360  plotter->fillSim(simTracks);
361  if(ifHepMC) {
362  simPair.push_back( findSimMuFromRes(evtMC, simTracks) );
363  simTracksFound = true;
364  plotter->fillGenSim(evtMC,simTracks);
365  }
366  }
367  else {
368  std::cout << "SimTracks not existent" << std::endl;
369  }
370  if( !simTracksFound ) {
371  simPair.push_back( std::make_pair( lorentzVector(0.,0.,0.,0.), lorentzVector(0.,0.,0.,0.) ) );
372  }
373 }
374 
376 {
377  const HepMC::GenEvent* Evt = evtMC->GetEvent();
378  GenMuonPair muFromRes;
379  //Loop on generated particles
380  for (HepMC::GenEvent::particle_const_iterator part=Evt->particles_begin();
381  part!=Evt->particles_end(); part++) {
382  if (fabs((*part)->pdg_id())==13 && (*part)->status()==1) {
383  bool fromRes = false;
384  unsigned int motherPdgId = 0;
385  for (HepMC::GenVertex::particle_iterator mother = (*part)->production_vertex()->particles_begin(HepMC::ancestors);
386  mother != (*part)->production_vertex()->particles_end(HepMC::ancestors); ++mother) {
387  motherPdgId = (*mother)->pdg_id();
388 
389  // For sherpa the resonance is not saved. The muons from the resonance can be identified
390  // by having as mother a muon of status 3.
391  if( sherpa_ ) {
392  if( motherPdgId == 13 && (*mother)->status() == 3 ) fromRes = true;
393  }
394  else {
395  for( int ires = 0; ires < 6; ++ires ) {
396  if( motherPdgId == motherPdgIdArray[ires] && resfind_[ires] ) fromRes = true;
397  }
398  }
399  }
400  if(fromRes){
401  if((*part)->pdg_id()==13) {
402  // muFromRes.first = (*part)->momentum();
403  muFromRes.mu1 = (lorentzVector((*part)->momentum().px(),(*part)->momentum().py(),
404  (*part)->momentum().pz(),(*part)->momentum().e()));
405  }
406  else {
407  muFromRes.mu2 = (lorentzVector((*part)->momentum().px(),(*part)->momentum().py(),
408  (*part)->momentum().pz(),(*part)->momentum().e()));
409  }
410  muFromRes.motherId = motherPdgId;
411  }
412  }
413  }
414  return muFromRes;
415 }
416 
417 // std::pair<lorentzVector, lorentzVector> MuScleFitMuonSelector::findGenMuFromRes( const reco::GenParticleCollection* genParticles)
419 {
420  // std::pair<lorentzVector,lorentzVector> muFromRes;
421  GenMuonPair muFromRes;
422 
423  //Loop on generated particles
424  if( debug_>0 ) std::cout << "Starting loop on " << genParticles->size() << " genParticles" << std::endl;
425  for( reco::GenParticleCollection::const_iterator part=genParticles->begin(); part!=genParticles->end(); ++part ) {
426  if (debug_>0) std::cout<<"genParticle has pdgId = "<<fabs(part->pdgId())<<" and status = "<<part->status()<<std::endl;
427  if (fabs(part->pdgId())==13){// && part->status()==3) {
428  bool fromRes = false;
429  unsigned int motherPdgId = part->mother()->pdgId();
430  if( debug_>0 ) {
431  std::cout << "Found a muon with mother: " << motherPdgId << std::endl;
432  }
433  for( int ires = 0; ires < 6; ++ires ) {
434  // if( motherPdgId == motherPdgIdArray[ires] && resfind_[ires] ) fromRes = true; // changed by EM 2015.07.30
435  // begin of comment
436  // the list of resonances motherPdgIdArray does not contain the photon (PdgId = 21) while ~1% of the
437  // mu+mu- events in the range [50,120] GeV has a photon as the mother.
438  // It needs to be fixed without spoiling the logic of the selection of different resonances
439  // e.g. mixing up onia etc.
440  // end of comment
441  if( ( motherPdgId == motherPdgIdArray[ires] && resfind_[ires] ) || motherPdgId == 21 ) fromRes = true;
442  }
443  if(fromRes){
444  if (debug_>0) std::cout<<"fromRes = true, motherPdgId = "<<motherPdgId<<std::endl;
445  const reco::Candidate* status3Muon = &(*part);
446  const reco::Candidate* status1Muon = getStatus1Muon(status3Muon);
447  if(part->pdgId()==13) {
448  if (status1Muon->p4().pt()!=0) muFromRes.mu1 = MuScleFitMuon(status1Muon->p4(),-1);
449  else muFromRes.mu1 = MuScleFitMuon(status3Muon->p4(),-1);
450  if( debug_>0 ) std::cout << "Found a genMuon - : " << muFromRes.mu1 << std::endl;
451  // muFromRes.first = (lorentzVector(status1Muon->p4().px(),status1Muon->p4().py(),
452  // status1Muon->p4().pz(),status1Muon->p4().e()));
453  }
454  else {
455  if (status1Muon->p4().pt()!=0) muFromRes.mu2 = MuScleFitMuon(status1Muon->p4(),+1);
456  else muFromRes.mu2 = MuScleFitMuon(status3Muon->p4(),+1);
457  if( debug_>0 ) std::cout << "Found a genMuon + : " << muFromRes.mu2 << std::endl;
458  // muFromRes.second = (lorentzVector(status1Muon->p4().px(),status1Muon->p4().py(),
459  // status1Muon->p4().pz(),status1Muon->p4().e()));
460  }
461  muFromRes.motherId = motherPdgId;
462  }
463  }
464  }
465  return muFromRes;
466 }
467 
468 std::pair<lorentzVector, lorentzVector> MuScleFitMuonSelector::findSimMuFromRes( const edm::Handle<edm::HepMCProduct> & evtMC,
469  const edm::Handle<edm::SimTrackContainer> & simTracks )
470 {
471  //Loop on simulated tracks
472  std::pair<lorentzVector, lorentzVector> simMuFromRes;
473  for( edm::SimTrackContainer::const_iterator simTrack=simTracks->begin(); simTrack!=simTracks->end(); ++simTrack ) {
474  //Chose muons
475  if (fabs((*simTrack).type())==13) {
476  //If tracks from IP than find mother
477  if ((*simTrack).genpartIndex()>0) {
478  HepMC::GenParticle* gp = evtMC->GetEvent()->barcode_to_particle ((*simTrack).genpartIndex());
479  if( gp != 0 ) {
480 
481  for (HepMC::GenVertex::particle_iterator mother = gp->production_vertex()->particles_begin(HepMC::ancestors);
482  mother!=gp->production_vertex()->particles_end(HepMC::ancestors); ++mother) {
483 
484  bool fromRes = false;
485  unsigned int motherPdgId = (*mother)->pdg_id();
486  for( int ires = 0; ires < 6; ++ires ) {
487  if( ( motherPdgId == motherPdgIdArray[ires] && resfind_[ires] ) || motherPdgId == 21 ) fromRes = true;
488  }
489  if( fromRes ) {
490  if(gp->pdg_id() == 13)
491  simMuFromRes.first = lorentzVector(simTrack->momentum().px(),simTrack->momentum().py(),
492  simTrack->momentum().pz(),simTrack->momentum().e());
493  else
494  simMuFromRes.second = lorentzVector(simTrack->momentum().px(),simTrack->momentum().py(),
495  simTrack->momentum().pz(),simTrack->momentum().e());
496  }
497  }
498  }
499  // else LogDebug("MuScleFitUtils") << "WARNING: no matching genParticle found for simTrack" << std::endl;
500  }
501  }
502  }
503  return simMuFromRes;
504 }
Analysis-level particle class.
bool isAvailable() const
Definition: Ref.h:576
std::vector< GenParticle > GenParticleCollection
collection of GenParticles
int i
Definition: DBlmapReader.cc:9
void selectGeneratedMuons(const edm::Handle< pat::CompositeCandidateCollection > &collAll, const std::vector< const pat::Muon * > &collMuSel, std::vector< GenMuonPair > &genPair, MuScleFitPlotter *plotter)
For PATmuons the generator information is read directly from the PAT object.
reco::TrackRef innerTrack() const
reference to Track reconstructed in the tracker only (reimplemented from reco::Muon) ...
Definition: Muon.h:72
std::pair< lorentzVector, lorentzVector > findSimMuFromRes(const edm::Handle< edm::HepMCProduct > &evtMC, const edm::Handle< edm::SimTrackContainer > &simTracks)
virtual const Candidate * daughter(size_type i) const =0
return daughter at a given position, i = 0, ... numberOfDaughters() - 1 (read only mode) ...
const std::string genParticlesName_
void selectMuons(const edm::Event &event, std::vector< MuScleFitMuon > &muons, std::vector< GenMuonPair > &genPair, std::vector< std::pair< lorentzVector, lorentzVector > > &simPair, MuScleFitPlotter *plotter)
Main method used to select muons of type specified by muonType_ from the collection specified by muon...
void fillGenSim(edm::Handle< edm::HepMCProduct > evtMC, edm::Handle< edm::SimTrackContainer > simTracks)
bool isTrackerMuon() const
Definition: Muon.h:223
int ires[2]
std::vector< MuScleFitMuon > fillMuonCollection(const std::vector< T > &tracks)
Template function used to convert the muon collection to a vector of reco::LeafCandidate.
bool selTrackerMuon(const pat::Muon *aMuon)
Apply the Onia cuts to select trackerMuons.
bool isGlobalMuon() const
Definition: Muon.h:222
bool muonID(const std::string &name) const
void selectSimulatedMuons(const edm::Event &event, const bool ifHepMC, edm::Handle< edm::HepMCProduct > evtMC, std::vector< std::pair< lorentzVector, lorentzVector > > &simPair, MuScleFitPlotter *plotter)
MuScleFitMuon mu1
Definition: GenMuonPair.h:54
int pixelLayersWithMeasurement() const
Definition: HitPattern.cc:508
Int_t motherId
Definition: GenMuonPair.h:56
float userFloat(const std::string &key) const
Definition: PATObject.h:791
reco::Particle::LorentzVector lorentzVector
Definition: GenMuonPair.h:9
static const unsigned int motherPdgIdArray[6]
const edm::InputTag muonLabel_
static const double mMu2
virtual size_type numberOfDaughters() const =0
number of daughters
void fillRec(std::vector< MuScleFitMuon > &muons)
Used when running on the root tree containing preselected muon pairs.
void fillSim(edm::Handle< edm::SimTrackContainer > simTracks)
virtual int charge() const final
electric charge
Definition: LeafCandidate.h:91
tuple allMuons
Definition: allMuons_cfi.py:3
bool isMatched(TrackingRecHit const &hit)
T const * get() const
Returns C++ pointer to the item.
Definition: Ref.h:244
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 but the state exists so we define the behavior If all triggers are the negative crieriion will lead to accepting the event(this again matches the behavior of"!*"before the partial wildcard feature was incorporated).The per-event"cost"of each negative criterion with multiple relevant triggers is about the same as!*was in the past
bool isValid() const
Definition: HandleBase.h:75
reco::TrackRef globalTrack() const
reference to Track reconstructed in both tracked and muon detector (reimplemented from reco::Muon) ...
Definition: Muon.h:80
virtual int pdgId() const =0
PDG identifier.
const HepMC::GenEvent * GetEvent() const
Definition: HepMCProduct.h:35
T const * product() const
Definition: Handle.h:81
tuple tracks
Definition: testEve_cfg.py:39
part
Definition: HCALResponse.h:20
GenMuonPair findGenMuFromRes(const reco::GenParticleCollection *genParticles)
void selectGenSimMuons(const edm::Event &event, std::vector< GenMuonPair > &genPair, std::vector< std::pair< lorentzVector, lorentzVector > > &simPair, MuScleFitPlotter *plotter)
virtual const Candidate * daughter(size_type) const
return daughter at a given position, i = 0, ... numberOfDaughters() - 1 (read only mode) ...
const edm::InputTag simTracksCollectionName_
tuple muons
Definition: patZpeak.py:38
void fillGen(const reco::GenParticleCollection *genParticles, bool=false)
bool selGlobalMuon(const pat::Muon *aMuon)
Apply the Onia cuts to select globalMuons.
tuple cout
Definition: gather_cfg.py:145
void takeSelectedMuonType(const T &muon, std::vector< reco::Track > &tracks)
Template function used to extract the selected muon type from the muon collection.
int numberOfValidMuonHits() const
Definition: HitPattern.h:833
const reco::Candidate * getStatus3Muon(const reco::Candidate *status3Muon)
const std::vector< int > resfind_
Analysis-level muon class.
Definition: Muon.h:49
MuScleFitMuon mu2
Definition: GenMuonPair.h:55
const reco::Candidate * getStatus1Muon(const reco::Candidate *status3Muon)
virtual const LorentzVector & p4() const =0
four-momentum Lorentz vector