CMS 3D CMS Logo

 All Classes Namespaces Files Functions Variables Typedefs Enumerations Enumerator Properties Friends Macros Pages
IsolatedTracksCone.cc
Go to the documentation of this file.
1 // -*- C++ -*-
2 //
3 // Package: IsolatedTracksCone
4 // Class: IsolatedTracksCone
5 //
6 
15 //
16 // Original Author: Jim Hirschauer (adaptation of Seema Sharma's
17 // IsolatedTracksNew)
18 // Created: Thu Nov 6 15:30:40 CST 2008
19 //
20 //
21 #define _DEBUG_QUIET
22 
25 
32 
36 
38 
39  //now do what ever initialization is needed
40  doMC = iConfig.getUntrackedParameter<bool> ("DoMC", false);
41  myverbose_ = iConfig.getUntrackedParameter<int>( "Verbosity", 5 );
42  useJetTrigger_ = iConfig.getUntrackedParameter<bool>( "useJetTrigger", false);
43  drLeadJetVeto_ = iConfig.getUntrackedParameter<double>( "drLeadJetVeto", 1.2 );
44  ptMinLeadJet_ = iConfig.getUntrackedParameter<double>( "ptMinLeadJet", 15.0 );
45 
46  debugTrks_ = iConfig.getUntrackedParameter<int>("DebugTracks");
47  printTrkHitPattern_ = iConfig.getUntrackedParameter<bool>("PrintTrkHitPattern");
48 
49  minTrackP_ = iConfig.getUntrackedParameter<double>( "minTrackP", 10.0);
50  maxTrackEta_ = iConfig.getUntrackedParameter<double>( "maxTrackEta", 5.0);
51  maxNearTrackP_ = iConfig.getUntrackedParameter<double>( "maxNearTrackP", 1.0);
52 
53  debugEcalSimInfo_ = iConfig.getUntrackedParameter<int>("DebugEcalSimInfo");
54 
55  applyEcalIsolation_ = iConfig.getUntrackedParameter<bool>("ApplyEcalIsolation");
56 
57  tok_L1extTauJet_ = consumes<l1extra::L1JetParticleCollection>(iConfig.getParameter<edm::InputTag>("L1extraTauJetSource"));
58  tok_L1extCenJet_ = consumes<l1extra::L1JetParticleCollection>(iConfig.getParameter<edm::InputTag>("L1extraCenJetSource"));
59  tok_L1extFwdJet_ = consumes<l1extra::L1JetParticleCollection>(iConfig.getParameter<edm::InputTag>("L1extraFwdJetSource"));
60 
61  // hard coded collection access
62  tok_EB_ = consumes<EcalRecHitCollection>(edm::InputTag("ecalRecHit","EcalRecHitsEB"));
63  tok_EE_ = consumes<EcalRecHitCollection>(edm::InputTag("ecalRecHit","EcalRecHitsEE"));
64  tok_hbhe_ = consumes<HBHERecHitCollection>(edm::InputTag("hbhereco"));
65  tok_genTrack_ = consumes<reco::TrackCollection>(edm::InputTag("generalTracks"));
66  tok_simTk_ = consumes<edm::SimTrackContainer>(edm::InputTag("g4SimHits"));
67  tok_simVtx_ = consumes<edm::SimVertexContainer>(edm::InputTag("g4SimHits"));
68  tok_caloEB_ = consumes<edm::PCaloHitContainer>(edm::InputTag("g4SimHits", "EcalHitsEB"));
69  tok_caloEE_ = consumes<edm::PCaloHitContainer>(edm::InputTag("g4SimHits", "EcalHitsEE"));
70  tok_caloHH_ = consumes<edm::PCaloHitContainer>(edm::InputTag("g4SimHits", "HcalHits"));
71  tok_trigger_ = consumes<edm::TriggerResults>(edm::InputTag("TriggerResults","","HLT"));
72 
73  edm::ParameterSet parameters = iConfig.getParameter<edm::ParameterSet>("TrackAssociatorParameters");
75  parameters_.loadParameters( parameters, iC );
78 
79  if(myverbose_>=0) {
80  std::cout <<"Parameters read from config file \n"
81  << "myverbose_ " << myverbose_ << "\n"
82  << "useJetTrigger_ " << useJetTrigger_ << "\n"
83  << "drLeadJetVeto_ " << drLeadJetVeto_ << "\n"
84  << "minTrackP_ " << minTrackP_ << "\n"
85  << "maxTrackEta_ " << maxTrackEta_ << "\n"
86  << "maxNearTrackP_ " << maxNearTrackP_
87  << std::endl;
88  }
89 }
90 
92  delete trackAssociator_;
93 }
94 
96  const edm::EventSetup& iSetup) {
97 
98  unsigned int irun = (unsigned int)iEvent.id().run();
99  unsigned int ilum = (unsigned int)iEvent.getLuminosityBlock().luminosityBlock();
100  unsigned int ievt = (unsigned int)iEvent.id().event();
101 
102 
103 
105 
106  // check the L1 objects
107  bool L1Pass = false;
108  leadL1JetPT=-999, leadL1JetEta=-999, leadL1JetPhi=-999;
109  if( !useJetTrigger_ ) {
110  L1Pass = true;
111  } else {
113  iEvent.getByToken(tok_L1extTauJet_,l1TauHandle);
114  l1extra::L1JetParticleCollection::const_iterator itr;
115  for(itr = l1TauHandle->begin(); itr != l1TauHandle->end(); ++itr )
116  {
117  if( itr->pt()>leadL1JetPT ) {
118  leadL1JetPT = itr->pt();
119  leadL1JetEta = itr->eta();
120  leadL1JetPhi = itr->phi();
121  }
122  }
124  iEvent.getByToken(tok_L1extCenJet_,l1CenJetHandle);
125  for( itr = l1CenJetHandle->begin(); itr != l1CenJetHandle->end(); ++itr )
126  {
127  if( itr->pt()>leadL1JetPT ) {
128  leadL1JetPT = itr->pt();
129  leadL1JetEta = itr->eta();
130  leadL1JetPhi = itr->phi();
131  }
132  }
134  iEvent.getByToken(tok_L1extFwdJet_,l1FwdJetHandle);
135  for( itr = l1FwdJetHandle->begin(); itr != l1FwdJetHandle->end(); ++itr )
136  {
137  if( itr->pt()>leadL1JetPT ) {
138  leadL1JetPT = itr->pt();
139  leadL1JetEta = itr->eta();
140  leadL1JetPhi = itr->phi();
141  }
142  }
144  {
145  L1Pass = true;
146  }
147 
148  }
149 
150 
152  // Break now if L1Pass is false
154  if (!L1Pass) {
155  nEVT_failL1++;
156  // // std::cout << "L1Pass is false : " << L1Pass << std::endl;
157  // return;
158  }
159 
161  // Get the collection handles
163 
164 
166  iSetup.get<CaloGeometryRecord>().get(pG);
167  const CaloGeometry* geo = pG.product();
168  const CaloSubdetectorGeometry* gEB =
170  const CaloSubdetectorGeometry* gEE =
172  const CaloSubdetectorGeometry* gHB =
174  const CaloSubdetectorGeometry* gHE =
176 
177  edm::ESHandle<CaloTopology> theCaloTopology;
178  iSetup.get<CaloTopologyRecord>().get(theCaloTopology);
179  const CaloTopology *caloTopology = theCaloTopology.product();
180  // const CaloSubdetectorTopology* theEBTopology = theCaloTopology->getSubdetectorTopology(DetId::Ecal,EcalBarrel);
181  // const CaloSubdetectorTopology* theEETopology = theCaloTopology->getSubdetectorTopology(DetId::Ecal,EcalEndcap);
182 
184  iSetup.get<IdealGeometryRecord>().get(htopo);
185  const HcalTopology* theHBHETopology = htopo.product();
186 
187  edm::Handle<EcalRecHitCollection> barrelRecHitsHandle;
188  edm::Handle<EcalRecHitCollection> endcapRecHitsHandle;
189  iEvent.getByToken(tok_EB_,barrelRecHitsHandle);
190  iEvent.getByToken(tok_EE_,endcapRecHitsHandle);
191 
192  // Retrieve the good/bad ECAL channels from the DB
194  iSetup.get<EcalChannelStatusRcd>().get(ecalChStatus);
195  const EcalChannelStatus* theEcalChStatus = ecalChStatus.product();
196 
198  iEvent.getByToken(tok_hbhe_,hbhe);
199  const HBHERecHitCollection Hithbhe = *(hbhe.product());
200 
202  iEvent.getByToken(tok_genTrack_, trkCollection);
203  reco::TrackCollection::const_iterator trkItr;
204  if(debugTrks_>1){
205  std::cout << "Track Collection: " << std::endl;
206  std::cout << "Number of Tracks " << trkCollection->size() << std::endl;
207  }
208  std::string theTrackQuality = "highPurity";
209  reco::TrackBase::TrackQuality trackQuality_=
210  reco::TrackBase::qualityByName(theTrackQuality);
211 
212  //get Handles to SimTracks and SimHits
214  if (doMC) iEvent.getByToken(tok_simTk_,SimTk);
215  edm::SimTrackContainer::const_iterator simTrkItr;
216 
218  if (doMC) iEvent.getByToken(tok_simVtx_,SimVtx);
219 
220  //get Handles to PCaloHitContainers of eb/ee/hbhe
222  if (doMC) iEvent.getByToken(tok_caloEB_, pcaloeb);
223 
225  if (doMC) iEvent.getByToken(tok_caloEE_, pcaloee);
226 
228  if (doMC) iEvent.getByToken(tok_caloHH_, pcalohh);
229 
230 
231 
233  // Get HLT_IsoTrackHB/HE Information
235 
237  iEvent.getByToken( tok_trigger_, triggerResults);
238 
239 
240 
241  std::vector<int> v_hlTriggers;
242  int hltHB(-99);
243  int hltHE(-99);
244  int hltL1Jet15 (-99);
245  int hltJet30 (-99);
246  int hltJet50 (-99);
247  int hltJet80 (-99);
248  int hltJet110 (-99);
249  int hltJet140 (-99);
250  int hltJet180 (-99);
251  int hltL1SingleEG5 (-99);
252  int hltZeroBias (-99);
253  int hltMinBiasHcal (-99);
254  int hltMinBiasEcal (-99);
255  int hltMinBiasPixel (-99);
256  int hltSingleIsoTau30_Trk5 (-99);
257  int hltDoubleLooseIsoTau15_Trk5(-99);
258 
259  if (triggerResults.isValid()) {
260 
261  const edm::TriggerNames & triggerNames = iEvent.triggerNames(*triggerResults);
262  // TriggerNames class triggerNames.init(*triggerResults);
263 
264 
265  for (unsigned int i=0; i<triggerResults->size(); i++){
266  // std::cout << "triggerNames.triggerName(" << i << ") = " << triggerNames.triggerName(i) << std::endl;
267  if (triggerNames.triggerName(i) == "HLT_IsoTrackHE_1E31") hltHE = triggerResults->accept(i);
268  if (triggerNames.triggerName(i) == "HLT_IsoTrackHB_1E31") hltHB = triggerResults->accept(i);
269  if (triggerNames.triggerName(i) == "HLT_L1Jet15" ) hltL1Jet15 = triggerResults->accept(i);
270  if (triggerNames.triggerName(i) == "HLT_Jet30" ) hltJet30 = triggerResults->accept(i);
271  if (triggerNames.triggerName(i) == "HLT_Jet50" ) hltJet50 = triggerResults->accept(i);
272  if (triggerNames.triggerName(i) == "HLT_Jet80" ) hltJet80 = triggerResults->accept(i);
273  if (triggerNames.triggerName(i) == "HLT_Jet110" ) hltJet110 = triggerResults->accept(i);
274  if (triggerNames.triggerName(i) == "HLT_Jet140" ) hltJet140 = triggerResults->accept(i);
275  if (triggerNames.triggerName(i) == "HLT_Jet180" ) hltJet180 = triggerResults->accept(i);
276  if (triggerNames.triggerName(i) == "HLT_L1SingleEG5" ) hltL1SingleEG5 = triggerResults->accept(i);
277  if (triggerNames.triggerName(i) == "HLT_ZeroBias" ) hltZeroBias = triggerResults->accept(i);
278  if (triggerNames.triggerName(i) == "HLT_MinBiasHcal" ) hltMinBiasHcal = triggerResults->accept(i);
279  if (triggerNames.triggerName(i) == "HLT_MinBiasEcal" ) hltMinBiasEcal = triggerResults->accept(i);
280  if (triggerNames.triggerName(i) == "HLT_MinBiasPixel" ) hltMinBiasPixel = triggerResults->accept(i);
281  if (triggerNames.triggerName(i) == "HLT_SingleIsoTau30_Trk5" ) hltSingleIsoTau30_Trk5 = triggerResults->accept(i);
282  if (triggerNames.triggerName(i) == "HLT_DoubleLooseIsoTau15_Trk5" ) hltDoubleLooseIsoTau15_Trk5 = triggerResults->accept(i);
283  }
284  }
285 
286 
287 
288 
290  // Primary loop over tracks
292  TrackerHitAssociator* associate=0;
293  if (doMC) associate = new TrackerHitAssociator(iEvent);
294 
295 
296  nTRK = 0;
297  nRawTRK = 0;
298  nFailPt = 0;
299  nFailEta = 0;
301  nMissEcal = 0;
302  nMissHcal = 0;
303 
304  for( trkItr = trkCollection->begin();
305  trkItr != trkCollection->end(); ++trkItr)
306  {
307 
308  nRawTRK++;
309 
310  const reco::Track* pTrack = &(*trkItr);
311 
313  // Check for min Pt and max Eta P
315 
316  bool trkQual = pTrack->quality(trackQuality_);
317  bool goodPt = pTrack->p()>minTrackP_;
318  bool goodEta = std::abs(pTrack->momentum().eta())<maxTrackEta_;
319 
320  double eta1 = pTrack->momentum().eta();
321  double phi1 = pTrack->momentum().phi();
322  double pt1 = pTrack->pt();
323  double p1 = pTrack->p();
324 
325 
326  if (!goodEta){
327  nFailEta++;
328  }
329  if (!goodPt){
330  nFailPt++;
331  }
332  if (!trkQual){
334  }
335 
336  hRawPt ->Fill(pt1 );
337  hRawP ->Fill(p1 );
338  hRawEta->Fill(eta1);
339  hRawPhi->Fill(phi1);
340 
341  if( !goodEta || !goodPt || !trkQual ) continue; // Skip to next track
342 
344  // Find track trajectory
346 
347 
348  const FreeTrajectoryState fts1 =
349  trackAssociator_->getFreeTrajectoryState(iSetup, *pTrack);
350 
351 
352  TrackDetMatchInfo info1 =
353  trackAssociator_->associate(iEvent, iSetup, fts1, parameters_);
354 
355 
356 
358  // First confirm track makes it to Hcal
360 
361  if (info1.trkGlobPosAtHcal.x()==0 &&
362  info1.trkGlobPosAtHcal.y()==0 &&
363  info1.trkGlobPosAtHcal.z()==0)
364  {
365  nMissHcal++;
366  continue;
367  }
368 
369  const GlobalPoint hpoint1(info1.trkGlobPosAtHcal.x(),
370  info1.trkGlobPosAtHcal.y(),
371  info1.trkGlobPosAtHcal.z());
372 
373 
374 
376  // Get basic quantities
378 
379  const reco::HitPattern& hitp = pTrack->hitPattern();
380  int nLayersCrossed = hitp.trackerLayersWithMeasurement();
381  int nOuterHits = hitp.stripTOBLayersWithMeasurement()
382  +hitp.stripTECLayersWithMeasurement() ;
383 
384 
385  double simP = 0;
386  if (doMC) {
387  edm::SimTrackContainer::const_iterator matchedSimTrk =
388  spr::matchedSimTrack(iEvent, SimTk, SimVtx, pTrack, *associate, false);
389  simP = matchedSimTrk->momentum().P();
390  }
392  // Get Ecal Point
394 
395  const GlobalPoint point1(info1.trkGlobPosAtEcal.x(),
396  info1.trkGlobPosAtEcal.y(),
397  info1.trkGlobPosAtEcal.z());
398 
399 
400  // Sanity check that track hits Ecal
401 
402  if (info1.trkGlobPosAtEcal.x()==0 &&
403  info1.trkGlobPosAtEcal.y()==0 &&
404  info1.trkGlobPosAtEcal.z()==0)
405  {
406  std::cout << "Track doesn't reach Ecal." << std::endl;
407  nMissEcal++;
408  continue;
409  }
410 
411  // Get Track Momentum - make sure you have latest version of TrackDetMatchInfo
412 
413  GlobalVector trackMomAtEcal = info1.trkMomAtEcal;
414  GlobalVector trackMomAtHcal = info1.trkMomAtHcal;
415 
417  // If using Jet trigger, get distance from leading jet
419 
420  double drFromLeadJet = 999.0;
421  if( useJetTrigger_ ) {
422  double dphi = DeltaPhi(phi1, leadL1JetPhi);
423  double deta = eta1 - leadL1JetEta;
424  drFromLeadJet = sqrt(dphi*dphi + deta*deta);
425  }
426 
427 
429  // Define Arrays for sizes of Charge, Neut Iso Radii and
430  // Clustering Cone Radius.
432 
433  const int a_size = 7;
434  double a_coneR[a_size];
435  double a_charIsoR[a_size];
436  double a_neutIsoR[a_size];
437 
438  a_coneR[0] = 17.49; // = area of 2x2
439  a_coneR[1] = 26.23; // = area of 3x3
440  a_coneR[2] = 30.61;
441  a_coneR[3] = 34.98; // = area of 4x4
442  a_coneR[4] = 39.35;
443  a_coneR[5] = 43.72; // = area of 5x5
444  a_coneR[6] = 52.46; // = area of 6x6
445 
446  for (int i=0; i<a_size; i++){
447  a_charIsoR[i] = a_coneR[i]+28.9; // 28.9 gives 55.1 for 3x3 benchmark
448  a_neutIsoR[i] = a_charIsoR[i]*0.726; // Ecal radius = 0.726*Hcal radius
449  }
450 
452  // Do Neutral Iso in radius on Ecal surface.
454 
455  // NxN cluster
456  double e3x3=-999.0;
457  double trkEcalEne =-999.0;
459  iSetup.get<EcalSeverityLevelAlgoRcd>().get(sevlv);
460 
461  if(std::abs(point1.eta())<1.479) {
462  const DetId isoCell = gEB->getClosestCell(point1);
463  e3x3 = spr::eECALmatrix(isoCell,barrelRecHitsHandle,endcapRecHitsHandle, *theEcalChStatus, geo, caloTopology, sevlv.product(),1,1).first;
464  trkEcalEne = spr::eCaloSimInfo(iEvent, geo, pcaloeb, pcaloee, SimTk, SimVtx, pTrack, *associate);
465  } else {
466  const DetId isoCell = gEE->getClosestCell(point1);
467  e3x3 = spr::eECALmatrix(isoCell,barrelRecHitsHandle,endcapRecHitsHandle, *theEcalChStatus, geo, caloTopology, sevlv.product(),1,1).first;
468  trkEcalEne = spr::eCaloSimInfo(iEvent, geo, pcaloeb, pcaloee, SimTk, SimVtx, pTrack, *associate);
469  }
470 
471  // Cone cluster
472 
473  // Set up array of cone sizes for MIP cut
474  const int a_mip_size = 5;
475  double a_mipR[a_mip_size];
476  a_mipR[0] = 3.84; // = area of 3x3 ecal
477  a_mipR[1] = 14.0;
478  a_mipR[2] = 19.0;
479  a_mipR[3] = 24.0;
480  a_mipR[4] = 9.0; // = from standard analyzer
481 
482  std::vector<double> v_eDR;
483  for (int i = 0 ; i < a_size ; i++){
484  int nRH_eDR = 0;
485 
486  // Cone in ecal
487  double eDR = spr::eCone_ecal(geo,
488  barrelRecHitsHandle,
489  endcapRecHitsHandle,
490  hpoint1, point1,
491  a_neutIsoR[i],
492  trackMomAtEcal, nRH_eDR);
493  v_eDR.push_back(eDR);
494 
495  }
496 
497  std::vector<double> v_eMipDR;
498  for (int i = 0 ; i < a_mip_size ; i++){
499  int nRH_eMipDR = 0;
500  double eMipDR = spr::eCone_ecal(geo, barrelRecHitsHandle,
501  endcapRecHitsHandle,
502  hpoint1, point1,
503  a_mipR[i], trackMomAtEcal, nRH_eMipDR);
504 
505  v_eMipDR.push_back(eMipDR);
506  }
507 
508 
510  // Do charge isolation in radius at Hcal surface for 5 different
511  // radii defined above in a_charIso
513 
514  std::vector<double> v_hmaxNearP_goodTrk;
515  std::vector<double> v_hmaxNearP ;
516  std::vector<int> v_hnNearTRKs ;
517  std::vector<int> v_hnLayers_maxNearP;
518  std::vector<int> v_htrkQual_maxNearP;
519 
520  std::vector<double> v_cone_hmaxNearP_goodTrk;
521  std::vector<double> v_cone_hmaxNearP ;
522  std::vector<int> v_cone_hnNearTRKs ;
523  std::vector<int> v_cone_hnLayers_maxNearP;
524  std::vector<int> v_cone_htrkQual_maxNearP;
525 
526  for (int i = 0 ; i < a_size ; i++){
527 
528  double hmaxNearP = -999.0;
529  int hnNearTRKs = 0;
530  int hnLayers_maxNearP = 0;
531  int htrkQual_maxNearP = -1;
532  double hmaxNearP_goodTrk = -999.0;
533 
534  double conehmaxNearP = -999.0;
535  int conehnNearTRKs = 0;
536  int conehnLayers_maxNearP = 0;
537  int conehtrkQual_maxNearP = -1;
538  double conehmaxNearP_goodTrk = -999.0;
539 
540  conehmaxNearP = spr::coneChargeIsolation(iEvent, iSetup,
541  trkItr, trkCollection,
543  theTrackQuality, conehnNearTRKs,
544  conehnLayers_maxNearP,
545  conehtrkQual_maxNearP,
546  conehmaxNearP_goodTrk,
547  hpoint1, trackMomAtHcal,
548  a_charIsoR[i]);
549 
550  v_hmaxNearP_goodTrk.push_back(hmaxNearP_goodTrk);
551  v_hmaxNearP .push_back(hmaxNearP );
552  v_hnNearTRKs .push_back(hnNearTRKs );
553  v_hnLayers_maxNearP.push_back(hnLayers_maxNearP);
554  v_htrkQual_maxNearP.push_back(htrkQual_maxNearP);
555 
556  v_cone_hmaxNearP_goodTrk.push_back(conehmaxNearP_goodTrk);
557  v_cone_hmaxNearP .push_back(conehmaxNearP );
558  v_cone_hnNearTRKs .push_back(conehnNearTRKs );
559  v_cone_hnLayers_maxNearP.push_back(conehnLayers_maxNearP);
560  v_cone_htrkQual_maxNearP.push_back(conehtrkQual_maxNearP);
561 
562  }
563 
564  double h3x3=-999.0, h5x5=-999.0;
565  double hsim3x3=-999.0, hsim5x5=-999.0, trkHcalEne=-999.0;
566  std::map<std::string, double> hsimInfo3x3, hsimInfo5x5;
567  double distFromHotCell_h3x3 = -99.;
568  int ietaFromHotCell_h3x3 = -99;
569  int iphiFromHotCell_h3x3 = -99;
570  double distFromHotCell_h5x5 = -99.;
571  int ietaFromHotCell_h5x5 = -99;
572  int iphiFromHotCell_h5x5 = -99;
573 
574  GlobalPoint gPosHotCell_h3x3(0.,0.,0.);
575  GlobalPoint gPosHotCell_h5x5(0.,0.,0.);
576 
577  int nRH_h3x3(0), nRH_h5x5(0);
578 
579  // Hcal Energy Clustering
580 
581  // Get closetcell for ietaFromHotCell and iphiFromHotCell
582  DetId ClosestCell;
583  if( std::abs(pTrack->eta())<1.392 ) {
584  ClosestCell = gHB->getClosestCell(hpoint1);
585  } else {
586  ClosestCell = gHE->getClosestCell(hpoint1);
587  }
588  // Transform into HcalDetId so that I can get ieta, iphi later.
589  HcalDetId ClosestCell_HcalDetId(ClosestCell.rawId());
590 
591  // Using NxN Cluster
592  std::vector<int> v_RH_h3x3_ieta;
593  std::vector<int> v_RH_h3x3_iphi;
594  std::vector<double> v_RH_h3x3_ene;
595  std::vector<int> v_RH_h5x5_ieta;
596  std::vector<int> v_RH_h5x5_iphi;
597  std::vector<double> v_RH_h5x5_ene;
598 
599 
600  h3x3 = spr::eHCALmatrix(geo, theHBHETopology, ClosestCell, hbhe,1,1,
601  nRH_h3x3, v_RH_h3x3_ieta, v_RH_h3x3_iphi, v_RH_h3x3_ene,
602  gPosHotCell_h3x3);
603  distFromHotCell_h3x3 = spr::getDistInPlaneTrackDir(hpoint1, trackMomAtHcal, gPosHotCell_h3x3);
604 
605  h5x5 = spr::eHCALmatrix(geo, theHBHETopology, ClosestCell, hbhe,2,2,
606  nRH_h5x5, v_RH_h5x5_ieta, v_RH_h5x5_iphi, v_RH_h5x5_ene,
607  gPosHotCell_h5x5);
608  distFromHotCell_h5x5 = spr::getDistInPlaneTrackDir(hpoint1, trackMomAtHcal, gPosHotCell_h5x5);
609 
610 
611  // double heta = (double)hpoint1.eta();
612  // double hphi = (double)hpoint1.phi();
613  std::vector<int> multiplicity3x3;
614  std::vector<int> multiplicity5x5;
615  if (doMC) {
616  hsim3x3 = spr::eHCALmatrix(theHBHETopology, ClosestCell,
617  pcalohh,1,1);
618  hsim5x5 = spr::eHCALmatrix(theHBHETopology, ClosestCell,
619  pcalohh,2,2);
620 
621  hsimInfo3x3 = spr::eHCALSimInfo(iEvent, theHBHETopology, ClosestCell, pcalohh, SimTk, SimVtx, pTrack, *associate, 1,1, multiplicity3x3);
622  hsimInfo5x5 = spr::eHCALSimInfo(iEvent, theHBHETopology, ClosestCell, pcalohh, SimTk, SimVtx, pTrack, *associate, 2,2, multiplicity5x5);
623 
624  // Get energy from all simhits in hcal associated with iso track
625  trkHcalEne = spr::eCaloSimInfo(iEvent, geo, pcalohh, SimTk, SimVtx, pTrack, *associate);
626  }
627 
628  // Finally for cones of varying radii.
629  std::vector<double> v_hsimInfoConeMatched;
630  std::vector<double> v_hsimInfoConeRest ;
631  std::vector<double> v_hsimInfoConePhoton ;
632  std::vector<double> v_hsimInfoConeNeutHad;
633  std::vector<double> v_hsimInfoConeCharHad;
634  std::vector<double> v_hsimInfoConePdgMatched;
635  std::vector<double> v_hsimInfoConeTotal ;
636 
637  std::vector<int> v_hsimInfoConeNMatched;
638  std::vector<int> v_hsimInfoConeNTotal ;
639  std::vector<int> v_hsimInfoConeNNeutHad;
640  std::vector<int> v_hsimInfoConeNCharHad;
641  std::vector<int> v_hsimInfoConeNPhoton ;
642  std::vector<int> v_hsimInfoConeNRest ;
643 
644  std::vector<double> v_hsimCone ;
645  std::vector<double> v_hCone ;
646 
647  std::vector<int> v_nRecHitsCone ;
648  std::vector<int> v_nSimHitsCone ;
649 
650  std::vector<double> v_distFromHotCell;
651  std::vector<int> v_ietaFromHotCell;
652  std::vector<int> v_iphiFromHotCell;
653  GlobalPoint gposHotCell(0.,0.,0.);
654 
655 
656  std::vector<int> v_RH_r26_ieta;
657  std::vector<int> v_RH_r26_iphi;
658  std::vector<double> v_RH_r26_ene;
659  std::vector<int> v_RH_r44_ieta;
660  std::vector<int> v_RH_r44_iphi;
661  std::vector<double> v_RH_r44_ene;
662 
663 
664 
665  for (int i = 0 ; i < a_size ; i++){
666 
667 
668  std::map<std::string, double> hsimInfoCone;
669  double hsimCone = -999.0, hCone = -999.0;
670  double distFromHotCell = -99.0;
671  int ietaFromHotCell = -99;
672  int iphiFromHotCell = -99;
673  int ietaHotCell = -99;
674  int iphiHotCell = -99;
675  int nRecHitsCone = -999;
676  int nSimHitsCone = -999;
677 
678  std::vector<int> multiplicityCone;
679  std::vector<DetId> coneRecHitDetIds;
680  if (doMC)
681  hsimCone = spr::eCone_hcal(geo, pcalohh, hpoint1, point1,
682  a_coneR[i], trackMomAtHcal, nSimHitsCone);
683 
684  // If needed, get ieta and iphi of rechits for cones of 23.25
685  // and for hitmap for debugging
686  bool makeHitmaps = false;
687  if (a_coneR[i] == 26.23 && makeHitmaps)
688  {
689 
690  hCone = spr::eCone_hcal(geo, hbhe, hpoint1, point1,
691  a_coneR[i], trackMomAtHcal,nRecHitsCone,
692  v_RH_r26_ieta, v_RH_r26_iphi, v_RH_r26_ene,
693  coneRecHitDetIds, distFromHotCell,
694  ietaHotCell, iphiHotCell, gposHotCell);
695  }
696  else if (a_coneR[i] == 43.72 && makeHitmaps)
697  {
698 
699  hCone = spr::eCone_hcal(geo, hbhe, hpoint1, point1,
700  a_coneR[i], trackMomAtHcal,nRecHitsCone,
701  v_RH_r44_ieta, v_RH_r44_iphi, v_RH_r44_ene,
702  coneRecHitDetIds, distFromHotCell,
703  ietaHotCell, iphiHotCell, gposHotCell);
704  }
705  else
706  {
707 
708  hCone = spr::eCone_hcal(geo, hbhe, hpoint1, point1,
709  a_coneR[i], trackMomAtHcal, nRecHitsCone,
710  coneRecHitDetIds, distFromHotCell,
711  ietaHotCell, iphiHotCell, gposHotCell);
712  }
713 
714 
715 
716  if (ietaHotCell != 99){
717  ietaFromHotCell = ietaHotCell-ClosestCell_HcalDetId.ieta();
718  iphiFromHotCell = iphiHotCell-ClosestCell_HcalDetId.iphi();
719  }
720 
721  // SimHits NOT matched to RecHits
722  if (doMC) {
723  hsimInfoCone = spr::eHCALSimInfoCone(iEvent,pcalohh, SimTk, SimVtx, pTrack, *associate, geo, hpoint1, point1, a_coneR[i], trackMomAtHcal, multiplicityCone);
724 
725 
726 
727  // SimHits matched to RecHits
728  // hsimInfoCone = spr::eHCALSimInfoCone(iEvent,pcalohh, SimTk, SimVtx,
729  // pTrack, *associate,
730  // geo, hpoint1, point1,
731  // a_coneR[i], trackMomAtHcal,
732  // multiplicityCone,
733  // coneRecHitDetIds);
734 
735  v_hsimInfoConeMatched .push_back(hsimInfoCone["eMatched" ]);
736  v_hsimInfoConeRest .push_back(hsimInfoCone["eRest" ]);
737  v_hsimInfoConePhoton .push_back(hsimInfoCone["eGamma" ]);
738  v_hsimInfoConeNeutHad .push_back(hsimInfoCone["eNeutralHad"]);
739  v_hsimInfoConeCharHad .push_back(hsimInfoCone["eChargedHad"]);
740  v_hsimInfoConePdgMatched.push_back(hsimInfoCone["pdgMatched" ]);
741  v_hsimInfoConeTotal .push_back(hsimInfoCone["eTotal" ]);
742 
743  v_hsimInfoConeNMatched .push_back(multiplicityCone.at(0));
744 
745  v_hsimInfoConeNTotal .push_back(multiplicityCone.at(1));
746  v_hsimInfoConeNNeutHad .push_back(multiplicityCone.at(2));
747  v_hsimInfoConeNCharHad .push_back(multiplicityCone.at(3));
748  v_hsimInfoConeNPhoton .push_back(multiplicityCone.at(4));
749  v_hsimInfoConeNRest .push_back(multiplicityCone.at(5));
750 
751  v_hsimCone .push_back(hsimCone );
752  v_nSimHitsCone .push_back(nSimHitsCone );
753  }
754  v_hCone .push_back(hCone );
755  v_nRecHitsCone .push_back(nRecHitsCone );
756 
757  v_distFromHotCell .push_back(distFromHotCell );
758  v_ietaFromHotCell .push_back(ietaFromHotCell );
759  v_iphiFromHotCell .push_back(iphiFromHotCell );
760 
761 
762  }
763 
764 
766  // Fill Vectors that go into root file
768 
769  t_v_hnNearTRKs ->push_back(v_hnNearTRKs );
770  t_v_hnLayers_maxNearP ->push_back(v_hnLayers_maxNearP );
771  t_v_htrkQual_maxNearP ->push_back(v_htrkQual_maxNearP );
772  t_v_hmaxNearP_goodTrk ->push_back(v_hmaxNearP_goodTrk );
773  t_v_hmaxNearP ->push_back(v_hmaxNearP );
774 
775  t_v_cone_hnNearTRKs ->push_back(v_cone_hnNearTRKs );
776  t_v_cone_hnLayers_maxNearP ->push_back(v_cone_hnLayers_maxNearP);
777  t_v_cone_htrkQual_maxNearP ->push_back(v_cone_htrkQual_maxNearP);
778  t_v_cone_hmaxNearP_goodTrk ->push_back(v_cone_hmaxNearP_goodTrk);
779  t_v_cone_hmaxNearP ->push_back(v_cone_hmaxNearP );
780 
781  // t_hScale ->push_back(hScale );
782  t_trkNOuterHits ->push_back(nOuterHits );
783  t_trkNLayersCrossed ->push_back(nLayersCrossed );
784  t_dtFromLeadJet ->push_back(drFromLeadJet );
785  t_trkP ->push_back(p1 );
786  t_trkPt ->push_back(pt1 );
787  t_trkEta ->push_back(eta1 );
788  t_trkPhi ->push_back(phi1 );
789 
790  t_e3x3 ->push_back(e3x3 );
791  t_v_eDR ->push_back(v_eDR );
792  t_v_eMipDR ->push_back(v_eMipDR );
793 
794  t_h3x3 ->push_back(h3x3 );
795  t_h5x5 ->push_back(h5x5 );
796  t_nRH_h3x3 ->push_back(nRH_h3x3 );
797  t_nRH_h5x5 ->push_back(nRH_h5x5 );
798 
799  t_v_RH_h3x3_ieta ->push_back(v_RH_h3x3_ieta);
800  t_v_RH_h3x3_iphi ->push_back(v_RH_h3x3_iphi);
801  t_v_RH_h3x3_ene ->push_back(v_RH_h3x3_ene);
802  t_v_RH_h5x5_ieta ->push_back(v_RH_h5x5_ieta);
803  t_v_RH_h5x5_iphi ->push_back(v_RH_h5x5_iphi);
804  t_v_RH_h5x5_ene ->push_back(v_RH_h5x5_ene);
805 
806  if (doMC) {
807  t_simP ->push_back(simP );
808  t_hsim3x3 ->push_back(hsim3x3 );
809  t_hsim5x5 ->push_back(hsim5x5 );
810 
811  t_hsim3x3Matched ->push_back(hsimInfo3x3["eMatched"] );
812  t_hsim5x5Matched ->push_back(hsimInfo5x5["eMatched"] );
813  t_hsim3x3Rest ->push_back(hsimInfo3x3["eRest"] );
814  t_hsim5x5Rest ->push_back(hsimInfo5x5["eRest"] );
815  t_hsim3x3Photon ->push_back(hsimInfo3x3["eGamma"] );
816  t_hsim5x5Photon ->push_back(hsimInfo5x5["eGamma"] );
817  t_hsim3x3NeutHad ->push_back(hsimInfo3x3["eNeutralHad"] );
818  t_hsim5x5NeutHad ->push_back(hsimInfo5x5["eNeutralHad"] );
819  t_hsim3x3CharHad ->push_back(hsimInfo3x3["eChargedHad"] );
820  t_hsim5x5CharHad ->push_back(hsimInfo5x5["eChargedHad"] );
821  t_hsim3x3Total ->push_back(hsimInfo3x3["eTotal"] );
822  t_hsim5x5Total ->push_back(hsimInfo5x5["eTotal"] );
823  t_hsim3x3PdgMatched ->push_back(hsimInfo3x3["pdgMatched"] );
824  t_hsim5x5PdgMatched ->push_back(hsimInfo5x5["pdgMatched"] );
825 
826  t_hsim3x3NMatched ->push_back(multiplicity3x3.at(0));
827  t_hsim3x3NTotal ->push_back(multiplicity3x3.at(1));
828  t_hsim3x3NNeutHad ->push_back(multiplicity3x3.at(2));
829  t_hsim3x3NCharHad ->push_back(multiplicity3x3.at(3));
830  t_hsim3x3NPhoton ->push_back(multiplicity3x3.at(4));
831  t_hsim3x3NRest ->push_back(multiplicity3x3.at(5));
832 
833  t_hsim5x5NMatched ->push_back(multiplicity5x5.at(0));
834  t_hsim5x5NTotal ->push_back(multiplicity5x5.at(1));
835  t_hsim5x5NNeutHad ->push_back(multiplicity5x5.at(2));
836  t_hsim5x5NCharHad ->push_back(multiplicity5x5.at(3));
837  t_hsim5x5NPhoton ->push_back(multiplicity5x5.at(4));
838  t_hsim5x5NRest ->push_back(multiplicity5x5.at(5));
839  }
840 
841  t_distFromHotCell_h3x3->push_back(distFromHotCell_h3x3);
842  t_ietaFromHotCell_h3x3->push_back(ietaFromHotCell_h3x3);
843  t_iphiFromHotCell_h3x3->push_back(iphiFromHotCell_h3x3);
844  t_distFromHotCell_h5x5->push_back(distFromHotCell_h5x5);
845  t_ietaFromHotCell_h5x5->push_back(ietaFromHotCell_h5x5);
846  t_iphiFromHotCell_h5x5->push_back(iphiFromHotCell_h5x5);
847 
848  if (doMC) {
849  t_trkHcalEne ->push_back(trkHcalEne );
850  t_trkEcalEne ->push_back(trkEcalEne );
851 
852  t_v_hsimInfoConeMatched ->push_back(v_hsimInfoConeMatched );
853  t_v_hsimInfoConeRest ->push_back(v_hsimInfoConeRest );
854  t_v_hsimInfoConePhoton ->push_back(v_hsimInfoConePhoton );
855  t_v_hsimInfoConeNeutHad ->push_back(v_hsimInfoConeNeutHad );
856  t_v_hsimInfoConeCharHad ->push_back(v_hsimInfoConeCharHad );
857  t_v_hsimInfoConePdgMatched ->push_back(v_hsimInfoConePdgMatched);
858  t_v_hsimInfoConeTotal ->push_back(v_hsimInfoConeTotal );
859 
860  t_v_hsimInfoConeNMatched ->push_back(v_hsimInfoConeNMatched );
861  t_v_hsimInfoConeNTotal ->push_back(v_hsimInfoConeNTotal );
862  t_v_hsimInfoConeNNeutHad ->push_back(v_hsimInfoConeNNeutHad );
863  t_v_hsimInfoConeNCharHad ->push_back(v_hsimInfoConeNCharHad );
864  t_v_hsimInfoConeNPhoton ->push_back(v_hsimInfoConeNPhoton );
865  t_v_hsimInfoConeNRest ->push_back(v_hsimInfoConeNRest );
866 
867  t_v_hsimCone ->push_back(v_hsimCone );
868  t_v_hCone ->push_back(v_hCone );
869  t_v_nRecHitsCone->push_back(v_nRecHitsCone);
870  t_v_nSimHitsCone->push_back(v_nSimHitsCone);
871  }
872 
873 
874  t_v_distFromHotCell->push_back(v_distFromHotCell);
875  t_v_ietaFromHotCell->push_back(v_ietaFromHotCell);
876  t_v_iphiFromHotCell->push_back(v_iphiFromHotCell);
877 
878  t_v_RH_r26_ieta ->push_back(v_RH_r26_ieta);
879  t_v_RH_r26_iphi ->push_back(v_RH_r26_iphi);
880  t_v_RH_r26_ene ->push_back(v_RH_r26_ene);
881  t_v_RH_r44_ieta ->push_back(v_RH_r44_ieta);
882  t_v_RH_r44_iphi ->push_back(v_RH_r44_iphi);
883  t_v_RH_r44_ene ->push_back(v_RH_r44_ene);
884 
885 
886 
887  t_v_hlTriggers ->push_back(v_hlTriggers);
888  t_hltHB ->push_back(hltHB);
889  t_hltHE ->push_back(hltHE);
890  t_hltL1Jet15 ->push_back(hltL1Jet15 );
891  t_hltJet30 ->push_back(hltJet30 );
892  t_hltJet50 ->push_back(hltJet50 );
893  t_hltJet80 ->push_back(hltJet80 );
894  t_hltJet110 ->push_back(hltJet110 );
895  t_hltJet140 ->push_back(hltJet140 );
896  t_hltJet180 ->push_back(hltJet180 );
897  t_hltL1SingleEG5 ->push_back(hltL1SingleEG5 );
898  t_hltZeroBias ->push_back(hltZeroBias );
899  t_hltMinBiasHcal ->push_back(hltMinBiasHcal );
900  t_hltMinBiasEcal ->push_back(hltMinBiasEcal );
901  t_hltMinBiasPixel ->push_back(hltMinBiasPixel );
902  t_hltSingleIsoTau30_Trk5 ->push_back(hltSingleIsoTau30_Trk5 );
903  t_hltDoubleLooseIsoTau15_Trk5->push_back(hltDoubleLooseIsoTau15_Trk5);
904 
905  t_irun->push_back(irun);
906  t_ievt->push_back(ievt);
907  t_ilum->push_back(ilum);
908 
909  nTRK++;
910 
911 
912  } // Loop over track collection
913 
914  // std::cout << "nEVT= " << nEVT << std::endl;
915 
916  ntp->Fill();
917  nEVT++;
918 
919 
920  delete associate;
921 }
922 
923 
924 
926 
927  // hbScale = 120.0;
928  // heScale = 135.0;
929  nEVT=0;
930  nEVT_failL1=0;
931  nTRK=0;
932 
933  double tempgen_TH[22] = { 0.0, 1.0, 2.0, 3.0, 4.0,
934  5.0, 6.0, 7.0, 8.0, 9.0,
935  10.0, 12.0, 15.0, 20.0, 25.0,
936  30.0, 40.0, 50.0, 60.0, 70.0, 80.0, 100};
937  for(int i=0; i<22; i++) genPartPBins[i] = tempgen_TH[i];
938 
939 
940  double tempgen_Eta[5] = {0.0, 0.5, 1.1, 1.7, 2.0};
941  for(int i=0; i<5; i++) genPartEtaBins[i] = tempgen_Eta[i];
942 
943  t_v_hnNearTRKs = new std::vector<std::vector<int> > ();
944  t_v_hnLayers_maxNearP = new std::vector<std::vector<int> > ();
945  t_v_htrkQual_maxNearP = new std::vector<std::vector<int> > ();
946  t_v_hmaxNearP_goodTrk = new std::vector<std::vector<double> >();
947  t_v_hmaxNearP = new std::vector<std::vector<double> >();
948 
949  t_v_cone_hnNearTRKs = new std::vector<std::vector<int> > ();
950  t_v_cone_hnLayers_maxNearP = new std::vector<std::vector<int> > ();
951  t_v_cone_htrkQual_maxNearP = new std::vector<std::vector<int> > ();
952  t_v_cone_hmaxNearP_goodTrk = new std::vector<std::vector<double> >();
953  t_v_cone_hmaxNearP = new std::vector<std::vector<double> >();
954 
955  // t_hScale = new std::vector<double>();
956  t_trkNOuterHits = new std::vector<double>();
957  t_trkNLayersCrossed = new std::vector<double>();
958  t_dtFromLeadJet = new std::vector<double>();
959  t_trkP = new std::vector<double>();
960  t_trkPt = new std::vector<double>();
961  t_trkEta = new std::vector<double>();
962  t_trkPhi = new std::vector<double>();
963 
964  t_e3x3 = new std::vector<double>();
965  t_v_eDR = new std::vector<std::vector<double> >();
966  t_v_eMipDR = new std::vector<std::vector<double> >();
967 
968  t_h3x3 = new std::vector<double>();
969  t_h5x5 = new std::vector<double>();
970 
971  t_nRH_h3x3 = new std::vector<double>();
972  t_nRH_h5x5 = new std::vector<double>();
973 
974  if (doMC) {
975  t_simP = new std::vector<double>();
976  t_hsim3x3 = new std::vector<double>();
977  t_hsim5x5 = new std::vector<double>();
978 
979  t_hsim3x3Matched = new std::vector<double>();
980  t_hsim5x5Matched = new std::vector<double>();
981  t_hsim3x3Rest = new std::vector<double>();
982  t_hsim5x5Rest = new std::vector<double>();
983  t_hsim3x3Photon = new std::vector<double>();
984  t_hsim5x5Photon = new std::vector<double>();
985  t_hsim3x3NeutHad = new std::vector<double>();
986  t_hsim5x5NeutHad = new std::vector<double>();
987  t_hsim3x3CharHad = new std::vector<double>();
988  t_hsim5x5CharHad = new std::vector<double>();
989  t_hsim3x3PdgMatched = new std::vector<double>();
990  t_hsim5x5PdgMatched = new std::vector<double>();
991  t_hsim3x3Total = new std::vector<double>();
992  t_hsim5x5Total = new std::vector<double>();
993 
994  t_hsim3x3NMatched = new std::vector<int>();
995  t_hsim3x3NTotal = new std::vector<int>();
996  t_hsim3x3NNeutHad = new std::vector<int>();
997  t_hsim3x3NCharHad = new std::vector<int>();
998  t_hsim3x3NPhoton = new std::vector<int>();
999  t_hsim3x3NRest = new std::vector<int>();
1000 
1001  t_hsim5x5NMatched = new std::vector<int>();
1002  t_hsim5x5NTotal = new std::vector<int>();
1003  t_hsim5x5NNeutHad = new std::vector<int>();
1004  t_hsim5x5NCharHad = new std::vector<int>();
1005  t_hsim5x5NPhoton = new std::vector<int>();
1006  t_hsim5x5NRest = new std::vector<int>();
1007 
1008  t_trkHcalEne = new std::vector<double>();
1009  t_trkEcalEne = new std::vector<double>();
1010  }
1011 
1012  t_distFromHotCell_h3x3 = new std::vector<double>();
1013  t_ietaFromHotCell_h3x3 = new std::vector<int>();
1014  t_iphiFromHotCell_h3x3 = new std::vector<int>();
1015  t_distFromHotCell_h5x5 = new std::vector<double>();
1016  t_ietaFromHotCell_h5x5 = new std::vector<int>();
1017  t_iphiFromHotCell_h5x5 = new std::vector<int>();
1018 
1019  if (doMC) {
1020  t_v_hsimInfoConeMatched = new std::vector<std::vector<double> >();
1021  t_v_hsimInfoConeRest = new std::vector<std::vector<double> >();
1022  t_v_hsimInfoConePhoton = new std::vector<std::vector<double> >();
1023  t_v_hsimInfoConeNeutHad = new std::vector<std::vector<double> >();
1024  t_v_hsimInfoConeCharHad = new std::vector<std::vector<double> >();
1025  t_v_hsimInfoConePdgMatched= new std::vector<std::vector<double> >();
1026  t_v_hsimInfoConeTotal = new std::vector<std::vector<double> >();
1027 
1028  t_v_hsimInfoConeNMatched = new std::vector<std::vector<int> >();
1029  t_v_hsimInfoConeNTotal = new std::vector<std::vector<int> >();
1030  t_v_hsimInfoConeNNeutHad = new std::vector<std::vector<int> >();
1031  t_v_hsimInfoConeNCharHad = new std::vector<std::vector<int> >();
1032  t_v_hsimInfoConeNPhoton = new std::vector<std::vector<int> >();
1033  t_v_hsimInfoConeNRest = new std::vector<std::vector<int> >();
1034 
1035  t_v_hsimCone = new std::vector<std::vector<double> >();
1036  }
1037 
1038  t_v_hCone = new std::vector<std::vector<double> >();
1039  t_v_nRecHitsCone= new std::vector<std::vector<int> >();
1040  t_v_nSimHitsCone= new std::vector<std::vector<int> >();
1041 
1042  t_v_distFromHotCell= new std::vector<std::vector<double> >();
1043  t_v_ietaFromHotCell= new std::vector<std::vector<int> >();
1044  t_v_iphiFromHotCell= new std::vector<std::vector<int> >();
1045 
1046  t_v_RH_h3x3_ieta = new std::vector<std::vector<int> >();
1047  t_v_RH_h3x3_iphi = new std::vector<std::vector<int> >();
1048  t_v_RH_h3x3_ene = new std::vector<std::vector<double> >();
1049  t_v_RH_h5x5_ieta = new std::vector<std::vector<int> >();
1050  t_v_RH_h5x5_iphi = new std::vector<std::vector<int> >();
1051  t_v_RH_h5x5_ene = new std::vector<std::vector<double> >();
1052  t_v_RH_r26_ieta = new std::vector<std::vector<int> >();
1053  t_v_RH_r26_iphi = new std::vector<std::vector<int> >();
1054  t_v_RH_r26_ene = new std::vector<std::vector<double> >();
1055  t_v_RH_r44_ieta = new std::vector<std::vector<int> >();
1056  t_v_RH_r44_iphi = new std::vector<std::vector<int> >();
1057  t_v_RH_r44_ene = new std::vector<std::vector<double> >();
1058 
1059 
1060  t_v_hlTriggers = new std::vector<std::vector<int> >();
1061 
1062  t_hltHE = new std::vector<int>();
1063  t_hltHB = new std::vector<int>();
1064  t_hltL1Jet15 = new std::vector<int>();
1065  t_hltJet30 = new std::vector<int>();
1066  t_hltJet50 = new std::vector<int>();
1067  t_hltJet80 = new std::vector<int>();
1068  t_hltJet110 = new std::vector<int>();
1069  t_hltJet140 = new std::vector<int>();
1070  t_hltJet180 = new std::vector<int>();
1071  t_hltL1SingleEG5 = new std::vector<int>();
1072  t_hltZeroBias = new std::vector<int>();
1073  t_hltMinBiasHcal = new std::vector<int>();
1074  t_hltMinBiasEcal = new std::vector<int>();
1075  t_hltMinBiasPixel = new std::vector<int>();
1076  t_hltSingleIsoTau30_Trk5 = new std::vector<int>();
1077  t_hltDoubleLooseIsoTau15_Trk5 = new std::vector<int>();
1078 
1079 
1080  t_irun = new std::vector<unsigned int>();
1081  t_ievt = new std::vector<unsigned int>();
1082  t_ilum = new std::vector<unsigned int>();
1083 
1084  BuildTree();
1085 }
1086 
1088 
1089  t_v_hnNearTRKs ->clear();
1090  t_v_hnLayers_maxNearP ->clear();
1091  t_v_htrkQual_maxNearP ->clear();
1092  t_v_hmaxNearP_goodTrk ->clear();
1093  t_v_hmaxNearP ->clear();
1094 
1095  t_v_cone_hnNearTRKs ->clear();
1096  t_v_cone_hnLayers_maxNearP ->clear();
1097  t_v_cone_htrkQual_maxNearP ->clear();
1098  t_v_cone_hmaxNearP_goodTrk ->clear();
1099  t_v_cone_hmaxNearP ->clear();
1100 
1101  // t_hScale ->clear();
1102  t_trkNOuterHits ->clear();
1103  t_trkNLayersCrossed ->clear();
1104  t_dtFromLeadJet ->clear();
1105  t_trkP ->clear();
1106  t_trkPt ->clear();
1107  t_trkEta ->clear();
1108  t_trkPhi ->clear();
1109  t_e3x3 ->clear();
1110  t_v_eDR ->clear();
1111  t_v_eMipDR ->clear();
1112  t_h3x3 ->clear();
1113  t_h5x5 ->clear();
1114  t_nRH_h3x3 ->clear();
1115  t_nRH_h5x5 ->clear();
1116 
1117  if (doMC) {
1118  t_simP ->clear();
1119  t_hsim3x3 ->clear();
1120  t_hsim5x5 ->clear();
1121  t_hsim3x3Matched ->clear();
1122  t_hsim5x5Matched ->clear();
1123  t_hsim3x3Rest ->clear();
1124  t_hsim5x5Rest ->clear();
1125  t_hsim3x3Photon ->clear();
1126  t_hsim5x5Photon ->clear();
1127  t_hsim3x3NeutHad ->clear();
1128  t_hsim5x5NeutHad ->clear();
1129  t_hsim3x3CharHad ->clear();
1130  t_hsim5x5CharHad ->clear();
1131  t_hsim3x3PdgMatched ->clear();
1132  t_hsim5x5PdgMatched ->clear();
1133  t_hsim3x3Total ->clear();
1134  t_hsim5x5Total ->clear();
1135 
1136  t_hsim3x3NMatched ->clear();
1137  t_hsim3x3NTotal ->clear();
1138  t_hsim3x3NNeutHad ->clear();
1139  t_hsim3x3NCharHad ->clear();
1140  t_hsim3x3NPhoton ->clear();
1141  t_hsim3x3NRest ->clear();
1142 
1143  t_hsim5x5NMatched ->clear();
1144  t_hsim5x5NTotal ->clear();
1145  t_hsim5x5NNeutHad ->clear();
1146  t_hsim5x5NCharHad ->clear();
1147  t_hsim5x5NPhoton ->clear();
1148  t_hsim5x5NRest ->clear();
1149 
1150  t_trkHcalEne ->clear();
1151  t_trkEcalEne ->clear();
1152  }
1153 
1154  t_distFromHotCell_h3x3 ->clear();
1155  t_ietaFromHotCell_h3x3 ->clear();
1156  t_iphiFromHotCell_h3x3 ->clear();
1157  t_distFromHotCell_h5x5 ->clear();
1158  t_ietaFromHotCell_h5x5 ->clear();
1159  t_iphiFromHotCell_h5x5 ->clear();
1160 
1161  if (doMC) {
1162  t_v_hsimInfoConeMatched ->clear();
1163  t_v_hsimInfoConeRest ->clear();
1164  t_v_hsimInfoConePhoton ->clear();
1165  t_v_hsimInfoConeNeutHad ->clear();
1166  t_v_hsimInfoConeCharHad ->clear();
1167  t_v_hsimInfoConePdgMatched->clear();
1168  t_v_hsimInfoConeTotal ->clear();
1169 
1170  t_v_hsimInfoConeNMatched ->clear();
1171  t_v_hsimInfoConeNRest ->clear();
1172  t_v_hsimInfoConeNPhoton ->clear();
1173  t_v_hsimInfoConeNNeutHad ->clear();
1174  t_v_hsimInfoConeNCharHad ->clear();
1175  t_v_hsimInfoConeNTotal ->clear();
1176 
1177  t_v_hsimCone ->clear();
1178  }
1179 
1180  t_v_hCone ->clear();
1181  t_v_nRecHitsCone->clear();
1182  t_v_nSimHitsCone->clear();
1183 
1184  t_v_distFromHotCell->clear();
1185  t_v_ietaFromHotCell->clear();
1186  t_v_iphiFromHotCell->clear();
1187 
1188  t_v_RH_h3x3_ieta ->clear();
1189  t_v_RH_h3x3_iphi ->clear();
1190  t_v_RH_h3x3_ene ->clear();
1191  t_v_RH_h5x5_ieta ->clear();
1192  t_v_RH_h5x5_iphi ->clear();
1193  t_v_RH_h5x5_ene ->clear();
1194  t_v_RH_r26_ieta ->clear();
1195  t_v_RH_r26_iphi ->clear();
1196  t_v_RH_r26_ene ->clear();
1197  t_v_RH_r44_ieta ->clear();
1198  t_v_RH_r44_iphi ->clear();
1199  t_v_RH_r44_ene ->clear();
1200 
1201  t_v_hlTriggers ->clear();
1202  t_hltHB->clear();
1203  t_hltHE->clear();
1204  t_hltL1Jet15 ->clear();
1205  t_hltJet30 ->clear();
1206  t_hltJet50 ->clear();
1207  t_hltJet80 ->clear();
1208  t_hltJet110 ->clear();
1209  t_hltJet140 ->clear();
1210  t_hltJet180 ->clear();
1211  t_hltL1SingleEG5 ->clear();
1212  t_hltZeroBias ->clear();
1213  t_hltMinBiasHcal ->clear();
1214  t_hltMinBiasEcal ->clear();
1215  t_hltMinBiasPixel ->clear();
1216  t_hltSingleIsoTau30_Trk5 ->clear();
1218 
1219  t_irun->clear();
1220  t_ievt->clear();
1221  t_ilum->clear();
1222 
1223 
1224 
1225 }
1226 
1227 // ----- method called once each job just after ending the event loop ----
1229 
1230  std::cout << "Number of Events Processed " << nEVT << " failed L1 "
1231  << nEVT_failL1 << std::endl;
1232 
1233 }
1234 
1235 
1237 
1238 
1239  hRawPt = fs->make<TH1F>("hRawPt ", "hRawPt ", 100, 0.0, 100.0);
1240  hRawP = fs->make<TH1F>("hRawP ", "hRawP ", 100, 0.0, 100.0);
1241  hRawEta = fs->make<TH1F>("hRawEta", "hRawEta", 15, 0.0, 3.0);
1242  hRawPhi = fs->make<TH1F>("hRawPhi", "hRawPhi", 100, -3.2, 3.2);
1243 
1244  ntp = fs->make<TTree>("ntp", "ntp");
1245 
1246 
1247  // Counters
1248  ntp->Branch("nEVT" , &nEVT , "nEVT/I" );
1249  ntp->Branch("leadL1JetPT" , &leadL1JetPT , "leadL1JetPT/D" );
1250  ntp->Branch("leadL1JetEta", &leadL1JetEta, "leadL1JetEta/D");
1251  ntp->Branch("leadL1JetPhi", &leadL1JetPhi, "leadL1JetPhi/D");
1252  ntp->Branch("nTRK", &nTRK, "nTRK/I");
1253  ntp->Branch("nRawTRK" , &nRawTRK ,"nRawTRK/I" );
1254  ntp->Branch("nFailHighPurityQaul", &nFailHighPurityQaul,"nFailHighPurityQaul/I");
1255  ntp->Branch("nFailPt" , &nFailPt ,"nFailPt/I" );
1256  ntp->Branch("nFailEta" , &nFailEta ,"nFailEta/I" );
1257  ntp->Branch("nMissEcal" , &nMissEcal ,"nMissEcal/I" );
1258  ntp->Branch("nMissHcal" , &nMissHcal ,"nMissHcal/I" );
1259 
1260  ntp->Branch("hnNearTRKs" ,"vector<vector<int> > ",&t_v_hnNearTRKs );
1261  ntp->Branch("hnLayers_maxNearP" ,"vector<vector<int> > ",&t_v_hnLayers_maxNearP );
1262  ntp->Branch("htrkQual_maxNearP" ,"vector<vector<int> > ",&t_v_htrkQual_maxNearP );
1263  ntp->Branch("hmaxNearP_goodTrk" ,"vector<vector<double> >",&t_v_hmaxNearP_goodTrk );
1264  ntp->Branch("hmaxNearP" ,"vector<vector<double> >",&t_v_hmaxNearP );
1265 
1266  ntp->Branch("cone_hnNearTRKs" ,"vector<vector<int> > ",&t_v_cone_hnNearTRKs );
1267  ntp->Branch("cone_hnLayers_maxNearP","vector<vector<int> > ",&t_v_cone_hnLayers_maxNearP);
1268  ntp->Branch("cone_htrkQual_maxNearP","vector<vector<int> > ",&t_v_cone_htrkQual_maxNearP);
1269  ntp->Branch("cone_hmaxNearP_goodTrk","vector<vector<double> >",&t_v_cone_hmaxNearP_goodTrk);
1270  ntp->Branch("cone_hmaxNearP" ,"vector<vector<double> >",&t_v_cone_hmaxNearP );
1271 
1272  // ntp->Branch("hScale" , "vector<double>", &t_hScale );
1273  ntp->Branch("trkNOuterHits" , "vector<double>", &t_trkNOuterHits );
1274  ntp->Branch("trkNLayersCrossed", "vector<double>", &t_trkNLayersCrossed);
1275  ntp->Branch("drFromLeadJet" , "vector<double>", &t_dtFromLeadJet );
1276  ntp->Branch("trkP" , "vector<double>", &t_trkP );
1277  ntp->Branch("trkPt" , "vector<double>", &t_trkPt );
1278  ntp->Branch("trkEta" , "vector<double>", &t_trkEta );
1279  ntp->Branch("trkPhi" , "vector<double>", &t_trkPhi );
1280  ntp->Branch("e3x3" , "vector<double>", &t_e3x3 );
1281 
1282  ntp->Branch("e3x3" , "vector<double>" , &t_e3x3 );
1283  ntp->Branch("v_eDR" , "vector<vector<double> >", &t_v_eDR);
1284  ntp->Branch("v_eMipDR" , "vector<vector<double> >", &t_v_eMipDR);
1285 
1286  ntp->Branch("h3x3" , "vector<double>", &t_h3x3 );
1287  ntp->Branch("h5x5" , "vector<double>", &t_h5x5 );
1288  ntp->Branch("nRH_h3x3" , "vector<double>", &t_nRH_h3x3 );
1289  ntp->Branch("nRH_h5x5" , "vector<double>", &t_nRH_h5x5 );
1290 
1291  if (doMC) {
1292  ntp->Branch("simP" , "vector<double>", &t_simP );
1293  ntp->Branch("hsim3x3" , "vector<double>", &t_hsim3x3 );
1294  ntp->Branch("hsim5x5" , "vector<double>", &t_hsim5x5 );
1295 
1296  ntp->Branch("hsim3x3Matched" , "vector<double>", &t_hsim3x3Matched );
1297  ntp->Branch("hsim5x5Matched" , "vector<double>", &t_hsim5x5Matched );
1298  ntp->Branch("hsim3x3Rest" , "vector<double>", &t_hsim3x3Rest );
1299  ntp->Branch("hsim5x5Rest" , "vector<double>", &t_hsim5x5Rest );
1300  ntp->Branch("hsim3x3Photon" , "vector<double>", &t_hsim3x3Photon );
1301  ntp->Branch("hsim5x5Photon" , "vector<double>", &t_hsim5x5Photon );
1302  ntp->Branch("hsim3x3NeutHad" , "vector<double>", &t_hsim3x3NeutHad );
1303  ntp->Branch("hsim5x5NeutHad" , "vector<double>", &t_hsim5x5NeutHad );
1304  ntp->Branch("hsim3x3CharHad" , "vector<double>", &t_hsim3x3CharHad );
1305  ntp->Branch("hsim5x5CharHad" , "vector<double>", &t_hsim5x5CharHad );
1306  ntp->Branch("hsim3x3PdgMatched", "vector<double>", &t_hsim3x3PdgMatched);
1307  ntp->Branch("hsim5x5PdgMatched", "vector<double>", &t_hsim5x5PdgMatched);
1308  ntp->Branch("hsim3x3Total" , "vector<double>", &t_hsim3x3Total );
1309  ntp->Branch("hsim5x5Total" , "vector<double>", &t_hsim5x5Total );
1310 
1311  ntp->Branch("hsim3x3NMatched" , "vector<int>", &t_hsim3x3NMatched );
1312  ntp->Branch("hsim3x3NRest" , "vector<int>", &t_hsim3x3NRest );
1313  ntp->Branch("hsim3x3NPhoton" , "vector<int>", &t_hsim3x3NPhoton );
1314  ntp->Branch("hsim3x3NNeutHad" , "vector<int>", &t_hsim3x3NNeutHad );
1315  ntp->Branch("hsim3x3NCharHad" , "vector<int>", &t_hsim3x3NCharHad );
1316  ntp->Branch("hsim3x3NTotal" , "vector<int>", &t_hsim3x3NTotal );
1317 
1318  ntp->Branch("hsim5x5NMatched" , "vector<int>", &t_hsim5x5NMatched );
1319  ntp->Branch("hsim5x5NRest" , "vector<int>", &t_hsim5x5NRest );
1320  ntp->Branch("hsim5x5NPhoton" , "vector<int>", &t_hsim5x5NPhoton );
1321  ntp->Branch("hsim5x5NNeutHad" , "vector<int>", &t_hsim5x5NNeutHad );
1322  ntp->Branch("hsim5x5NCharHad" , "vector<int>", &t_hsim5x5NCharHad );
1323  ntp->Branch("hsim5x5NTotal" , "vector<int>", &t_hsim5x5NTotal );
1324 
1325  ntp->Branch("trkHcalEne" , "vector<double>", &t_trkHcalEne );
1326  ntp->Branch("trkEcalEne" , "vector<double>", &t_trkEcalEne );
1327  }
1328 
1329  ntp->Branch("distFromHotCell_h3x3", "vector<double>", &t_distFromHotCell_h3x3);
1330  ntp->Branch("ietaFromHotCell_h3x3", "vector<int>", &t_ietaFromHotCell_h3x3);
1331  ntp->Branch("iphiFromHotCell_h3x3", "vector<int>", &t_iphiFromHotCell_h3x3);
1332  ntp->Branch("distFromHotCell_h5x5", "vector<double>", &t_distFromHotCell_h5x5);
1333  ntp->Branch("ietaFromHotCell_h5x5", "vector<int>", &t_ietaFromHotCell_h5x5);
1334  ntp->Branch("iphiFromHotCell_h5x5", "vector<int>", &t_iphiFromHotCell_h5x5);
1335 
1336  if (doMC) {
1337  ntp->Branch("v_hsimInfoConeMatched" ,"vector<vector<double> >",&t_v_hsimInfoConeMatched );
1338  ntp->Branch("v_hsimInfoConeRest" ,"vector<vector<double> >",&t_v_hsimInfoConeRest );
1339  ntp->Branch("v_hsimInfoConePhoton" ,"vector<vector<double> >",&t_v_hsimInfoConePhoton );
1340  ntp->Branch("v_hsimInfoConeNeutHad" ,"vector<vector<double> >",&t_v_hsimInfoConeNeutHad );
1341  ntp->Branch("v_hsimInfoConeCharHad" ,"vector<vector<double> >",&t_v_hsimInfoConeCharHad );
1342  ntp->Branch("v_hsimInfoConePdgMatched","vector<vector<double> >",&t_v_hsimInfoConePdgMatched);
1343  ntp->Branch("v_hsimInfoConeTotal" ,"vector<vector<double> >",&t_v_hsimInfoConeTotal );
1344 
1345  ntp->Branch("v_hsimInfoConeNMatched" ,"vector<vector<int> >" ,&t_v_hsimInfoConeNMatched );
1346  ntp->Branch("v_hsimInfoConeNRest" ,"vector<vector<int> >" ,&t_v_hsimInfoConeNRest );
1347  ntp->Branch("v_hsimInfoConeNPhoton" ,"vector<vector<int> >" ,&t_v_hsimInfoConeNPhoton );
1348  ntp->Branch("v_hsimInfoConeNNeutHad" ,"vector<vector<int> >" ,&t_v_hsimInfoConeNNeutHad );
1349  ntp->Branch("v_hsimInfoConeNCharHad" ,"vector<vector<int> >" ,&t_v_hsimInfoConeNCharHad );
1350  ntp->Branch("v_hsimInfoConeNTotal" ,"vector<vector<int> >" ,&t_v_hsimInfoConeNTotal );
1351 
1352  ntp->Branch("v_hsimCone" ,"vector<vector<double> >",&t_v_hsimCone );
1353  }
1354 
1355  ntp->Branch("v_hCone" ,"vector<vector<double> >",&t_v_hCone );
1356  ntp->Branch("v_nRecHitsCone" ,"vector<vector<int> >" ,&t_v_nRecHitsCone);
1357  ntp->Branch("v_nSimHitsCone" ,"vector<vector<int> >" ,&t_v_nSimHitsCone);
1358 
1359  ntp->Branch("v_distFromHotCell" ,"vector<vector<double> >",&t_v_distFromHotCell );
1360  ntp->Branch("v_ietaFromHotCell" ,"vector<vector<int> >",&t_v_ietaFromHotCell );
1361  ntp->Branch("v_iphiFromHotCell" ,"vector<vector<int> >",&t_v_iphiFromHotCell );
1362 
1363  ntp->Branch("v_RH_h3x3_ieta" ,"vector<vector<int> >" ,&t_v_RH_h3x3_ieta);
1364  ntp->Branch("v_RH_h3x3_iphi" ,"vector<vector<int> >" ,&t_v_RH_h3x3_iphi);
1365  ntp->Branch("v_RH_h3x3_ene" ,"vector<vector<double> >",&t_v_RH_h3x3_ene );
1366  ntp->Branch("v_RH_h5x5_ieta" ,"vector<vector<int> >" ,&t_v_RH_h5x5_ieta);
1367  ntp->Branch("v_RH_h5x5_iphi" ,"vector<vector<int> >" ,&t_v_RH_h5x5_iphi);
1368  ntp->Branch("v_RH_h5x5_ene" ,"vector<vector<double> >",&t_v_RH_h5x5_ene );
1369  ntp->Branch("v_RH_r26_ieta" ,"vector<vector<int> >" ,&t_v_RH_r26_ieta );
1370  ntp->Branch("v_RH_r26_iphi" ,"vector<vector<int> >" ,&t_v_RH_r26_iphi );
1371  ntp->Branch("v_RH_r26_ene" ,"vector<vector<double> >",&t_v_RH_r26_ene );
1372  ntp->Branch("v_RH_r44_ieta" ,"vector<vector<int> >" ,&t_v_RH_r44_ieta );
1373  ntp->Branch("v_RH_r44_iphi" ,"vector<vector<int> >" ,&t_v_RH_r44_iphi );
1374  ntp->Branch("v_RH_r44_ene" ,"vector<vector<double> >",&t_v_RH_r44_ene );
1375 
1376  ntp->Branch("v_hlTriggers" ,"vector<vector<int> >",&t_v_hlTriggers);
1377  ntp->Branch("v_hltHB" ,"vector<int>",&t_hltHB);
1378  ntp->Branch("v_hltHE" ,"vector<int>",&t_hltHE);
1379  ntp->Branch("v_hltL1Jet15" ,"vector<int>",&t_hltL1Jet15 );
1380  ntp->Branch("v_hltJet30" ,"vector<int>",&t_hltJet30 );
1381  ntp->Branch("v_hltJet50" ,"vector<int>",&t_hltJet50 );
1382  ntp->Branch("v_hltJet80" ,"vector<int>",&t_hltJet80 );
1383  ntp->Branch("v_hltJet110" ,"vector<int>",&t_hltJet110 );
1384  ntp->Branch("v_hltJet140" ,"vector<int>",&t_hltJet140 );
1385  ntp->Branch("v_hltJet180" ,"vector<int>",&t_hltJet180 );
1386  ntp->Branch("v_hltL1SingleEG5" ,"vector<int>",&t_hltL1SingleEG5 );
1387  ntp->Branch("v_hltZeroBias" ,"vector<int>",&t_hltZeroBias );
1388  ntp->Branch("v_hltMinBiasHcal" ,"vector<int>",&t_hltMinBiasHcal );
1389  ntp->Branch("v_hltMinBiasEcal" ,"vector<int>",&t_hltMinBiasEcal );
1390  ntp->Branch("v_hltMinBiasPixel" ,"vector<int>",&t_hltMinBiasPixel );
1391  ntp->Branch("v_hltSingleIsoTau30_Trk5" ,"vector<int>",&t_hltSingleIsoTau30_Trk5 );
1392  ntp->Branch("v_hltDoubleLooseIsoTau15_Trk5" ,"vector<int>",&t_hltDoubleLooseIsoTau15_Trk5);
1393 
1394  ntp->Branch("irun" ,"vector<unsigned int>", &t_irun);
1395  ntp->Branch("ievt" ,"vector<unsigned int>", &t_ievt);
1396  ntp->Branch("ilum" ,"vector<unsigned int>", &t_ilum);
1397 
1398 }
1399 
1400 
1402 
1403  std::string theTrackQuality = "highPurity";
1404  reco::TrackBase::TrackQuality trackQuality_ = reco::TrackBase::qualityByName(theTrackQuality);
1405 
1406  std::cout << " Reference Point " << pTrack->referencePoint() <<"\n"
1407  << " TrackMmentum " << pTrack->momentum()
1408  << " (pt,eta,phi)(" << pTrack->pt()<<","<<pTrack->eta()<<","<<pTrack->phi()<<")"
1409  << " p " << pTrack->p() << "\n"
1410  << " Normalized chi2 " << pTrack->normalizedChi2() <<" charge " << pTrack->charge()
1411  << " qoverp() " << pTrack->qoverp() <<"+-" << pTrack->qoverpError()
1412  << " d0 " << pTrack->d0() << "\n"
1413  << " NValidHits " << pTrack->numberOfValidHits() << " NLostHits " << pTrack->numberOfLostHits()
1414  << " TrackQuality " << pTrack->qualityName(trackQuality_) << " " << pTrack->quality(trackQuality_)
1415  << std::endl;
1416 
1417  if( printTrkHitPattern_ ) {
1418  const reco::HitPattern& p = pTrack->hitPattern();
1419 
1420  for (int i=0; i<p.numberOfHits(reco::HitPattern::TRACK_HITS); i++) {
1422  }
1423  }
1424 
1425 }
1426 
1427 double IsolatedTracksCone::DeltaPhi(double v1, double v2) {
1428  // Computes the correctly normalized phi difference
1429  // v1, v2 = phi of object 1 and 2
1430 
1431  double pi = 3.141592654;
1432  double twopi = 6.283185307;
1433 
1434  double diff = std::abs(v2 - v1);
1435  double corr = twopi - diff;
1436  if (diff < pi){ return diff;} else { return corr;}
1437 }
1438 
1439 
1440 double IsolatedTracksCone::DeltaR(double eta1, double phi1,
1441  double eta2, double phi2) {
1442  double deta = eta1 - eta2;
1443  double dphi = DeltaPhi(phi1, phi2);
1444  return std::sqrt(deta*deta + dphi*dphi);
1445 }
1446 
1447 
1448 //define this as a plug-in
1450 
1451 
1452 
1453 
1454 
1455 
1456 
1457 
1458 
1459 
1460 
1461 
1462 
1463 
1464 
RunNumber_t run() const
Definition: EventID.h:39
std::vector< int > * t_hsim5x5NTotal
edm::EDGetTokenT< l1extra::L1JetParticleCollection > tok_L1extFwdJet_
std::vector< std::vector< double > > * t_v_distFromHotCell
double qoverp() const
q / p
Definition: TrackBase.h:621
std::vector< double > * t_hsim5x5CharHad
double p() const
momentum vector magnitude
Definition: TrackBase.h:663
T getParameter(std::string const &) const
const CaloSubdetectorGeometry * getSubdetectorGeometry(const DetId &id) const
access the subdetector geometry for the given subdetector directly
Definition: CaloGeometry.cc:43
virtual void beginJob()
Definition: EDAnalyzer.h:72
EventNumber_t event() const
Definition: EventID.h:41
std::vector< std::vector< double > > * t_v_hmaxNearP_goodTrk
T getUntrackedParameter(std::string const &, T const &) const
std::vector< std::vector< int > > * t_v_hlTriggers
const Point & referencePoint() const
Reference point on the track.
Definition: TrackBase.h:729
int i
Definition: DBlmapReader.cc:9
dictionary parameters
Definition: Parameters.py:2
std::vector< double > * t_trkEcalEne
virtual edm::TriggerNames const & triggerNames(edm::TriggerResults const &triggerResults) const
Definition: Event.cc:208
std::vector< std::vector< double > > * t_v_hsimCone
TrackAssociatorParameters parameters_
static std::string qualityName(TrackQuality)
Definition: TrackBase.h:580
std::vector< int > * t_hltJet30
edm::EDGetTokenT< edm::SimTrackContainer > tok_simTk_
double getDistInPlaneTrackDir(const GlobalPoint &caloPoint, const GlobalVector &caloVector, const GlobalPoint &rechitPoint, bool debug=false)
Definition: FindDistCone.cc:8
std::vector< double > * t_trkPt
std::vector< int > * t_ietaFromHotCell_h5x5
void eCaloSimInfo(std::vector< DetId > vdets, const CaloGeometry *geo, edm::Handle< T > &hitsEB, edm::Handle< T > &hitsEE, edm::Handle< edm::SimTrackContainer > &SimTk, edm::Handle< edm::SimVertexContainer > &SimVtx, edm::SimTrackContainer::const_iterator trkInfo, caloSimInfo &info, double timeCut=150, bool debug=false)
std::vector< double > * t_nRH_h3x3
std::vector< double > * t_distFromHotCell_h3x3
edm::EDGetTokenT< HBHERecHitCollection > tok_hbhe_
std::vector< std::vector< int > > * t_v_hsimInfoConeNCharHad
std::vector< int > * t_hsim5x5NNeutHad
edm::EDGetTokenT< EcalRecHitCollection > tok_EE_
std::vector< double > * t_hsim5x5Photon
double d0() const
dxy parameter in perigee convention (d0 = -dxy)
Definition: TrackBase.h:645
std::vector< int > * t_hltMinBiasHcal
std::vector< std::vector< double > > * t_v_cone_hmaxNearP_goodTrk
std::vector< double > * t_hsim3x3CharHad
std::vector< int > * t_hsim5x5NPhoton
std::vector< std::vector< double > > * t_v_RH_r44_ene
std::map< std::string, double > eHCALSimInfo(const edm::Event &, const HcalTopology *topology, const DetId &det, const CaloGeometry *geo, edm::Handle< T > &hits, edm::Handle< edm::SimTrackContainer > &SimTk, edm::Handle< edm::SimVertexContainer > &SimVtx, const reco::Track *pTrack, TrackerHitAssociator &associate, int ieta, int iphi, double timeCut=150, bool includeHO=false, bool debug=false)
std::vector< int > * t_iphiFromHotCell_h3x3
double normalizedChi2() const
chi-squared divided by n.d.o.f. (or chi-squared * 1e6 if n.d.o.f. is zero)
Definition: TrackBase.h:609
std::vector< std::vector< int > > * t_v_cone_hnLayers_maxNearP
std::vector< double > * t_hsim5x5PdgMatched
bool getByToken(EDGetToken token, Handle< PROD > &result) const
Definition: Event.h:449
std::vector< double > * t_hsim3x3NeutHad
std::vector< double > * t_nRH_h5x5
TrackQuality
track quality
Definition: TrackBase.h:133
#define DEFINE_FWK_MODULE(type)
Definition: MakerMacros.h:17
static FreeTrajectoryState getFreeTrajectoryState(const edm::EventSetup &, const reco::Track &)
get FreeTrajectoryState from different track representations
std::vector< std::vector< int > > * t_v_hnLayers_maxNearP
std::vector< int > * t_hltHB
edm::EDGetTokenT< edm::TriggerResults > tok_trigger_
std::vector< std::vector< double > > * t_v_hmaxNearP
std::vector< std::vector< double > > * t_v_RH_h3x3_ene
void useDefaultPropagator()
use the default propagator
edm::EDGetTokenT< reco::TrackCollection > tok_genTrack_
std::vector< int > * t_hsim5x5NCharHad
void loadParameters(const edm::ParameterSet &, edm::ConsumesCollector &)
std::vector< std::vector< int > > * t_v_hsimInfoConeNNeutHad
std::vector< std::vector< int > > * t_v_nRecHitsCone
double phi() const
azimuthal angle of momentum vector
Definition: TrackBase.h:693
std::vector< std::vector< int > > * t_v_hsimInfoConeNMatched
unsigned short numberOfLostHits() const
number of cases where track crossed a layer without getting a hit.
Definition: TrackBase.h:874
T * make(const Args &...args) const
make new ROOT object
Definition: TFileService.h:64
std::vector< double > * t_trkP
std::vector< int > * t_hltL1SingleEG5
std::vector< int > * t_hsim5x5NRest
std::vector< double > * t_hsim5x5NeutHad
std::vector< int > * t_hltJet50
const Vector & momentum() const
track momentum vector
Definition: TrackBase.h:723
std::vector< std::vector< double > > * t_v_cone_hmaxNearP
std::vector< double > * t_simP
int trackerLayersWithMeasurement() const
Definition: HitPattern.cc:477
std::vector< int > * t_hsim3x3NCharHad
std::vector< std::vector< int > > * t_v_iphiFromHotCell
std::vector< std::vector< int > > * t_v_hnNearTRKs
std::vector< std::vector< int > > * t_v_cone_htrkQual_maxNearP
math::XYZPoint trkGlobPosAtHcal
std::vector< std::vector< double > > * t_v_RH_r26_ene
const Double_t pi
LuminosityBlockNumber_t luminosityBlock() const
uint32_t rawId() const
get the raw id
Definition: DetId.h:43
std::vector< int > * t_hltDoubleLooseIsoTau15_Trk5
double eHCALmatrix(const HcalTopology *topology, const DetId &det, edm::Handle< T > &hits, int ieta, int iphi, bool includeHO=false, bool algoNew=true, double hbThr=-100, double heThr=-100, double hfThr=-100, double hoThr=-100, double tMin=-500, double tMax=500, bool debug=false)
void printHitPattern(HitCategory category, int position, std::ostream &stream) const
Definition: HitPattern.cc:791
edm::EDGetTokenT< l1extra::L1JetParticleCollection > tok_L1extTauJet_
std::vector< int > * t_hltJet140
int iEvent
Definition: GenABIO.cc:230
double eta() const
pseudorapidity of momentum vector
Definition: TrackBase.h:699
std::vector< int > * t_hltMinBiasPixel
std::vector< double > * t_trkPhi
std::vector< double > * t_hsim3x3Total
edm::EDGetTokenT< edm::PCaloHitContainer > tok_caloEB_
std::vector< int > * t_hltHE
ConsumesCollector consumesCollector()
Use a ConsumesCollector to gather consumes information from helper functions.
T sqrt(T t)
Definition: SSEVec.h:48
std::vector< std::vector< int > > * t_v_RH_h3x3_iphi
std::vector< int > * t_iphiFromHotCell_h5x5
std::vector< std::vector< double > > * t_v_hsimInfoConePdgMatched
double pt() const
track transverse momentum
Definition: TrackBase.h:669
std::vector< std::vector< int > > * t_v_htrkQual_maxNearP
std::vector< int > * t_hltMinBiasEcal
std::vector< std::vector< int > > * t_v_RH_r44_iphi
std::vector< double > * t_hsim5x5Matched
std::vector< std::vector< double > > * t_v_hsimInfoConeTotal
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
edm::EDGetTokenT< EcalRecHitCollection > tok_EB_
std::vector< std::vector< double > > * t_v_RH_h5x5_ene
double eCone_ecal(const CaloGeometry *geo, edm::Handle< T > &barrelhits, edm::Handle< T > &endcaphits, const GlobalPoint &hpoint1, const GlobalPoint &point1, double dR, const GlobalVector &trackMom, int &nRecHits, double ebThr=-100, double eeThr=-100, double tMin=-500, double tMax=500, bool debug=false)
double DeltaPhi(double v1, double v2)
std::vector< std::vector< int > > * t_v_hsimInfoConeNRest
LuminosityBlock const & getLuminosityBlock() const
Definition: Event.h:77
edm::SimTrackContainer::const_iterator matchedSimTrack(const edm::Event &iEvent, edm::Handle< edm::SimTrackContainer > &SimTk, edm::Handle< edm::SimVertexContainer > &SimVtx, const reco::Track *pTrack, TrackerHitAssociator &associate, bool debug=false)
unsigned short numberOfValidHits() const
number of valid hits found
Definition: TrackBase.h:868
std::vector< std::vector< double > > * t_v_hsimInfoConeCharHad
static std::string const triggerResults
Definition: EdmProvDump.cc:40
std::vector< double > * t_hsim5x5Total
bool isValid() const
Definition: HandleBase.h:75
std::vector< double > * t_hsim3x3Photon
std::vector< double > * t_hsim3x3PdgMatched
std::vector< std::vector< int > > * t_v_ietaFromHotCell
std::vector< double > * t_hsim5x5Rest
std::vector< int > * t_hltJet110
JetCorrectorParameters corr
Definition: classes.h:5
std::vector< std::vector< double > > * t_v_eMipDR
std::vector< int > * t_hltL1Jet15
double qoverpError() const
error on signed transverse curvature
Definition: TrackBase.h:805
virtual DetId getClosestCell(const GlobalPoint &r) const
std::vector< int > * t_hsim3x3NRest
std::vector< std::vector< double > > * t_v_hsimInfoConeRest
std::vector< std::vector< int > > * t_v_hsimInfoConeNPhoton
std::vector< std::vector< int > > * t_v_RH_r26_ieta
std::vector< double > * t_dtFromLeadJet
std::vector< std::vector< int > > * t_v_RH_h5x5_ieta
std::vector< std::vector< int > > * t_v_RH_h3x3_ieta
Definition: DetId.h:18
std::vector< unsigned int > * t_ievt
std::vector< double > * t_trkNLayersCrossed
edm::EDGetTokenT< l1extra::L1JetParticleCollection > tok_L1extCenJet_
static TrackQuality qualityByName(const std::string &name)
Definition: TrackBase.cc:108
std::vector< std::vector< double > > * t_v_hsimInfoConeNeutHad
std::vector< std::vector< int > > * t_v_nSimHitsCone
std::vector< int > * t_hltSingleIsoTau30_Trk5
std::vector< double > * t_hsim5x5
T const * product() const
Definition: Handle.h:81
GlobalVector trkMomAtEcal
double eCone_hcal(const CaloGeometry *geo, edm::Handle< T > &hits, const GlobalPoint &hpoint1, const GlobalPoint &point1, double dR, const GlobalVector &trackMom, int &nRecHits, double hbThr=-100, double heThr=-100, double hfThr=-100, double hoThr=-100, double tMin=-500, double tMax=500, int detOnly=-1, bool debug=false)
const HitPattern & hitPattern() const
Access the hit pattern, indicating in which Tracker layers the track has hits.
Definition: TrackBase.h:384
std::string const & triggerName(unsigned int index) const
Definition: TriggerNames.cc:27
const T & get() const
Definition: EventSetup.h:55
std::vector< std::vector< int > > * t_v_RH_h5x5_iphi
T const * product() const
Definition: ESHandle.h:86
IsolatedTracksCone(const edm::ParameterSet &)
std::vector< std::vector< int > > * t_v_hsimInfoConeNTotal
std::vector< double > * t_hsim3x3Matched
bool quality(const TrackQuality) const
Track quality.
Definition: TrackBase.h:551
std::vector< int > * t_hsim3x3NNeutHad
virtual void analyze(const edm::Event &, const edm::EventSetup &)
edm::Service< TFileService > fs
GlobalVector trkMomAtHcal
edm::EDGetTokenT< edm::SimVertexContainer > tok_simVtx_
std::vector< int > * t_hltZeroBias
edm::EventID id() const
Definition: EventBase.h:60
std::vector< double > * t_h5x5
std::vector< double > * t_trkNOuterHits
std::vector< std::vector< double > > * t_v_hCone
double p1[4]
Definition: TauolaWrapper.h:89
std::vector< int > * t_hsim3x3NPhoton
std::vector< double > * t_hsim3x3Rest
std::vector< double > * t_hsim3x3
std::vector< int > * t_hsim3x3NMatched
std::vector< std::vector< int > > * t_v_RH_r44_ieta
std::vector< double > * t_trkHcalEne
std::vector< unsigned int > * t_irun
std::vector< int > * t_hltJet180
std::vector< int > * t_hsim3x3NTotal
TrackDetMatchInfo associate(const edm::Event &, const edm::EventSetup &, const FreeTrajectoryState &, const AssociatorParameters &)
void printTrack(const reco::Track *pTrack)
std::vector< int > * t_ietaFromHotCell_h3x3
math::XYZPoint trkGlobPosAtEcal
Track position at different parts of the calorimeter.
tuple cout
Definition: gather_cfg.py:121
int charge() const
track electric charge
Definition: TrackBase.h:615
std::vector< double > * t_distFromHotCell_h5x5
edm::EDGetTokenT< edm::PCaloHitContainer > tok_caloHH_
std::vector< double > * t_e3x3
double DeltaR(double eta1, double phi1, double eta2, double phi2)
std::vector< double > * t_trkEta
std::vector< double > * t_h3x3
double coneChargeIsolation(const edm::Event &iEvent, const edm::EventSetup &iSetup, reco::TrackCollection::const_iterator trkItr, edm::Handle< reco::TrackCollection > trkCollection, TrackDetectorAssociator &associator, TrackAssociatorParameters &parameters_, std::string theTrackQuality, int &nNearTRKs, int &nLayers_maxNearP, int &trkQual_maxNearP, double &maxNearP_goodTrk, const GlobalPoint &hpoint1, const GlobalVector &trackMom, double dR)
std::vector< std::vector< double > > * t_v_hsimInfoConePhoton
std::vector< unsigned int > * t_ilum
edm::EDGetTokenT< edm::PCaloHitContainer > tok_caloEE_
TrackDetectorAssociator * trackAssociator_
std::vector< int > * t_hltJet80
std::vector< std::vector< double > > * t_v_eDR
std::vector< std::vector< double > > * t_v_hsimInfoConeMatched
std::vector< std::vector< int > > * t_v_RH_r26_iphi
int numberOfHits(HitCategory category) const
Definition: HitPattern.h:718
std::vector< int > * t_hsim5x5NMatched
std::vector< std::vector< int > > * t_v_cone_hnNearTRKs
double eECALmatrix(const DetId &detId, edm::Handle< T > &hitsEB, edm::Handle< T > &hitsEE, const CaloGeometry *geo, const CaloTopology *caloTopology, int ieta, int iphi, double ebThr=-100, double eeThr=-100, double tMin=-500, double tMax=500, bool debug=false)