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MuonSeedOrcaPatternRecognition.cc
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1 
13 
20 
23 
24 
25 // Geometry
28 
31 
32 // Framework
38 
39 // C++
40 #include <vector>
41 
42 using namespace std;
43 
44  const std::string metname = "Muon|RecoMuon|MuonSeedOrcaPatternRecognition";
45 
46 // Constructor
49  theCrackEtas(pset.getParameter<std::vector<double> >("crackEtas")),
50  theCrackWindow(pset.getParameter<double>("crackWindow")),
51  theDeltaPhiWindow(pset.existsAs<double>("deltaPhiSearchWindow") ? pset.getParameter<double>("deltaPhiSearchWindow") : 0.25),
52  theDeltaEtaWindow(pset.existsAs<double>("deltaEtaSearchWindow") ? pset.getParameter<double>("deltaEtaSearchWindow") : 0.2),
53 theDeltaCrackWindow(pset.existsAs<double>("deltaEtaCrackSearchWindow") ? pset.getParameter<double>("deltaEtaCrackSearchWindow") : 0.25)
54 {
55 
57  iC,
58  enableDTMeasurement,enableCSCMeasurement,false,false,false);
59 }
60 
61 
62 // reconstruct muon's seeds
64  std::vector<MuonRecHitContainer> & result)
65 {
66 
67  // divide the RecHits by DetLayer, in order to fill the
68  // RecHitContainer like it was in ORCA
69 
70  // Muon Geometry - DT, CSC and RPC
72  eSetup.get<MuonRecoGeometryRecord>().get(muonLayers);
73 
74  // get the DT layers
75  vector<const DetLayer*> dtLayers = muonLayers->allDTLayers();
76 
77  // get the CSC layers
78  vector<const DetLayer*> cscForwardLayers = muonLayers->forwardCSCLayers();
79  vector<const DetLayer*> cscBackwardLayers = muonLayers->backwardCSCLayers();
80 
81  // Backward (z<0) EndCap disk
82  const DetLayer* ME4Bwd = cscBackwardLayers[4];
83  const DetLayer* ME3Bwd = cscBackwardLayers[3];
84  const DetLayer* ME2Bwd = cscBackwardLayers[2];
85  const DetLayer* ME12Bwd = cscBackwardLayers[1];
86  const DetLayer* ME11Bwd = cscBackwardLayers[0];
87 
88  // Forward (z>0) EndCap disk
89  const DetLayer* ME11Fwd = cscForwardLayers[0];
90  const DetLayer* ME12Fwd = cscForwardLayers[1];
91  const DetLayer* ME2Fwd = cscForwardLayers[2];
92  const DetLayer* ME3Fwd = cscForwardLayers[3];
93  const DetLayer* ME4Fwd = cscForwardLayers[4];
94 
95  // barrel
96  const DetLayer* MB4DL = dtLayers[3];
97  const DetLayer* MB3DL = dtLayers[2];
98  const DetLayer* MB2DL = dtLayers[1];
99  const DetLayer* MB1DL = dtLayers[0];
100 
101  // instantiate the accessor
102  // Don not use RPC for seeding
103 
104  double barreldThetaCut = 0.2;
105  // still lose good muons to a tighter cut
106  double endcapdThetaCut = 1.0;
107  MuonRecHitContainer list9 = filterSegments(muonMeasurements->recHits(MB4DL,event), barreldThetaCut);
108  MuonRecHitContainer list6 = filterSegments(muonMeasurements->recHits(MB3DL,event), barreldThetaCut);
109  MuonRecHitContainer list7 = filterSegments(muonMeasurements->recHits(MB2DL,event), barreldThetaCut);
110  MuonRecHitContainer list8 = filterSegments(muonMeasurements->recHits(MB1DL,event), barreldThetaCut);
111 
112  dumpLayer("MB4 ", list9);
113  dumpLayer("MB3 ", list6);
114  dumpLayer("MB2 ", list7);
115  dumpLayer("MB1 ", list8);
116 
117  bool* MB1 = zero(list8.size());
118  bool* MB2 = zero(list7.size());
119  bool* MB3 = zero(list6.size());
120 
121  endcapPatterns(filterSegments(muonMeasurements->recHits(ME11Bwd,event), endcapdThetaCut),
122  filterSegments(muonMeasurements->recHits(ME12Bwd,event), endcapdThetaCut),
123  filterSegments(muonMeasurements->recHits(ME2Bwd,event), endcapdThetaCut),
124  filterSegments(muonMeasurements->recHits(ME3Bwd,event), endcapdThetaCut),
125  filterSegments(muonMeasurements->recHits(ME4Bwd,event), endcapdThetaCut),
126  list8, list7, list6,
127  MB1, MB2, MB3, result);
128 
129  endcapPatterns(filterSegments(muonMeasurements->recHits(ME11Fwd,event), endcapdThetaCut),
130  filterSegments(muonMeasurements->recHits(ME12Fwd,event), endcapdThetaCut),
131  filterSegments(muonMeasurements->recHits(ME2Fwd,event), endcapdThetaCut),
132  filterSegments(muonMeasurements->recHits(ME3Fwd,event), endcapdThetaCut),
133  filterSegments(muonMeasurements->recHits(ME4Fwd,event), endcapdThetaCut),
134  list8, list7, list6,
135  MB1, MB2, MB3, result);
136 
137 
138  // ---------- Barrel only
139 
140  unsigned int counter = 0;
141  if ( list9.size() < 100 ) { // +v
142  for (MuonRecHitContainer::iterator iter=list9.begin(); iter!=list9.end(); iter++ ){
143  MuonRecHitContainer seedSegments;
144  seedSegments.push_back(*iter);
145  complete(seedSegments, list6, MB3);
146  complete(seedSegments, list7, MB2);
147  complete(seedSegments, list8, MB1);
148  if(check(seedSegments)) result.push_back(seedSegments);
149  }
150  }
151 
152 
153  if ( list6.size() < 100 ) { // +v
154  for ( counter = 0; counter<list6.size(); counter++ ){
155  if ( !MB3[counter] ) {
156  MuonRecHitContainer seedSegments;
157  seedSegments.push_back(list6[counter]);
158  complete(seedSegments, list7, MB2);
159  complete(seedSegments, list8, MB1);
160  complete(seedSegments, list9);
161  if(check(seedSegments)) result.push_back(seedSegments);
162  }
163  }
164  }
165 
166 
167  if ( list7.size() < 100 ) { // +v
168  for ( counter = 0; counter<list7.size(); counter++ ){
169  if ( !MB2[counter] ) {
170  MuonRecHitContainer seedSegments;
171  seedSegments.push_back(list7[counter]);
172  complete(seedSegments, list8, MB1);
173  complete(seedSegments, list9);
174  complete(seedSegments, list6, MB3);
175  if (seedSegments.size()>1 ||
176  (seedSegments.size()==1 && seedSegments[0]->dimension()==4) )
177  {
178  result.push_back(seedSegments);
179  }
180  }
181  }
182  }
183 
184 
185  if ( list8.size() < 100 ) { // +v
186  for ( counter = 0; counter<list8.size(); counter++ ){
187  if ( !MB1[counter] ) {
188  MuonRecHitContainer seedSegments;
189  seedSegments.push_back(list8[counter]);
190  complete(seedSegments, list9);
191  complete(seedSegments, list6, MB3);
192  complete(seedSegments, list7, MB2);
193  if (seedSegments.size()>1 ||
194  (seedSegments.size()==1 && seedSegments[0]->dimension()==4) )
195  {
196  result.push_back(seedSegments);
197  }
198  }
199  }
200  }
201 
202  if ( MB3 ) delete [] MB3;
203  if ( MB2 ) delete [] MB2;
204  if ( MB1 ) delete [] MB1;
205 
206  if(result.empty())
207  {
208  // be a little stricter with single segment seeds
209  barreldThetaCut = 0.2;
210  endcapdThetaCut = 0.2;
211 
213  MuonRecHitContainer tmp = filterSegments(muonMeasurements->recHits(ME3Bwd,event), endcapdThetaCut);
214  copy(tmp.begin(),tmp.end(),back_inserter(all));
215 
216  tmp = filterSegments(muonMeasurements->recHits(ME2Bwd,event), endcapdThetaCut);
217  copy(tmp.begin(),tmp.end(),back_inserter(all));
218 
219  tmp = filterSegments(muonMeasurements->recHits(ME12Bwd,event), endcapdThetaCut);
220  copy(tmp.begin(),tmp.end(),back_inserter(all));
221 
222  tmp = filterSegments(muonMeasurements->recHits(ME11Bwd,event), endcapdThetaCut);
223  copy(tmp.begin(),tmp.end(),back_inserter(all));
224 
225  tmp = filterSegments(muonMeasurements->recHits(ME11Fwd,event), endcapdThetaCut);
226  copy(tmp.begin(),tmp.end(),back_inserter(all));
227 
228  tmp = filterSegments(muonMeasurements->recHits(ME12Fwd,event), endcapdThetaCut);
229  copy(tmp.begin(),tmp.end(),back_inserter(all));
230 
231  tmp = filterSegments(muonMeasurements->recHits(ME2Fwd,event), endcapdThetaCut);
232  copy(tmp.begin(),tmp.end(),back_inserter(all));
233 
234  tmp = filterSegments(muonMeasurements->recHits(ME3Fwd,event), endcapdThetaCut);
235  copy(tmp.begin(),tmp.end(),back_inserter(all));
236 
237  tmp = filterSegments(muonMeasurements->recHits(ME4Fwd,event), endcapdThetaCut);
238  copy(tmp.begin(),tmp.end(),back_inserter(all));
239 
240  tmp = filterSegments(muonMeasurements->recHits(MB4DL,event), barreldThetaCut);
241  copy(tmp.begin(),tmp.end(),back_inserter(all));
242 
243  tmp = filterSegments(muonMeasurements->recHits(MB3DL,event), barreldThetaCut);
244  copy(tmp.begin(),tmp.end(),back_inserter(all));
245 
246  tmp = filterSegments(muonMeasurements->recHits(MB2DL,event), barreldThetaCut);
247  copy(tmp.begin(),tmp.end(),back_inserter(all));
248 
249  tmp = filterSegments(muonMeasurements->recHits(MB1DL,event), barreldThetaCut);
250  copy(tmp.begin(),tmp.end(),back_inserter(all));
251 
252  LogTrace(metname)<<"Number of segments: "<<all.size();
253 
254  for(MuonRecHitContainer::const_iterator segmentItr = all.begin();
255  segmentItr != all.end(); ++segmentItr)
256  {
257  MuonRecHitContainer singleSegmentContainer;
258  singleSegmentContainer.push_back(*segmentItr);
259  result.push_back(singleSegmentContainer);
260  }
261  }
262 
263 }
264 
265 
266 bool * MuonSeedOrcaPatternRecognition::zero(unsigned listSize)
267 {
268  bool * result = 0;
269  if (listSize) {
270  result = new bool[listSize];
271  for ( size_t i=0; i<listSize; i++ ) result[i]=false;
272  }
273  return result;
274 }
275 
276 
278  const MuonRecHitContainer & me11, const MuonRecHitContainer & me12,
279  const MuonRecHitContainer & me2, const MuonRecHitContainer & me3,
280  const MuonRecHitContainer & me4, const MuonRecHitContainer & mb1,
282  bool * MB1, bool * MB2, bool * MB3,
283  std::vector<MuonRecHitContainer> & result)
284 {
285  dumpLayer("ME4 ", me4);
286  dumpLayer("ME3 ", me3);
287  dumpLayer("ME2 ", me2);
288  dumpLayer("ME12 ", me12);
289  dumpLayer("ME11 ", me11);
290 
291  std::vector<MuonRecHitContainer> patterns;
292  MuonRecHitContainer crackSegments;
293  rememberCrackSegments(me11, crackSegments);
294  rememberCrackSegments(me12, crackSegments);
295  rememberCrackSegments(me2, crackSegments);
296  rememberCrackSegments(me3, crackSegments);
297  rememberCrackSegments(me4, crackSegments);
298 
299 
300  MuonRecHitContainer list24 = me4;
301  MuonRecHitContainer list23 = me3;
302 
303  MuonRecHitContainer list12 = me2;
304 
305  MuonRecHitContainer list22 = me12;
306  MuonRecHitContainer list21 = me11;
307 
308  MuonRecHitContainer list11 = list21;
309  MuonRecHitContainer list5 = list22;
310  MuonRecHitContainer list13 = list23;
311  MuonRecHitContainer list4 = list24;
312 
313  if ( list21.size() == 0 ) {
314  list11 = list22; list5 = list21;
315  }
316 
317  if ( list24.size() < list23.size() && list24.size() > 0 ) {
318  list13 = list24; list4 = list23;
319  }
320 
321  if ( list23.size() == 0 ) {
322  list13 = list24; list4 = list23;
323  }
324 
325  MuonRecHitContainer list1 = list11;
326  MuonRecHitContainer list2 = list12;
327  MuonRecHitContainer list3 = list13;
328 
329 
330  if ( list12.size() == 0 ) {
331  list3 = list12;
332  if ( list11.size() <= list13.size() && list11.size() > 0 ) {
333  list1 = list11; list2 = list13;}
334  else { list1 = list13; list2 = list11;}
335  }
336 
337  if ( list13.size() == 0 ) {
338  if ( list11.size() <= list12.size() && list11.size() > 0 ) {
339  list1 = list11; list2 = list12;}
340  else { list1 = list12; list2 = list11;}
341  }
342 
343  if ( list12.size() != 0 && list13.size() != 0 ) {
344  if ( list11.size()<=list12.size() && list11.size()<=list13.size() && list11.size()>0 ) { // ME 1
345  if ( list12.size() > list13.size() ) {
346  list2 = list13; list3 = list12;}
347  }
348  else if ( list12.size() <= list13.size() ) { // start with ME 2
349  list1 = list12;
350  if ( list11.size() <= list13.size() && list11.size() > 0 ) {
351  list2 = list11; list3 = list13;}
352  else { list2 = list13; list3 = list11;}
353  }
354  else { // start with ME 3
355  list1 = list13;
356  if ( list11.size() <= list12.size() && list11.size() > 0 ) {
357  list2 = list11; list3 = list12;}
358  else { list2 = list12; list3 = list11;}
359  }
360  }
361 
362 
363  bool* ME2 = zero(list2.size());
364  bool* ME3 = zero(list3.size());
365  bool* ME4 = zero(list4.size());
366  bool* ME5 = zero(list5.size());
367 
368 
369  // creates list of compatible track segments
370 
371  for (MuonRecHitContainer::iterator iter = list1.begin(); iter!=list1.end(); iter++ ){
372  if ( (*iter)->recHits().size() < 4 && list3.size() > 0 ) continue; // 3p.tr-seg. are not so good for starting
373  MuonRecHitContainer seedSegments;
374  seedSegments.push_back(*iter);
375  complete(seedSegments, list2, ME2);
376  complete(seedSegments, list3, ME3);
377  complete(seedSegments, list4, ME4);
378  complete(seedSegments, list5, ME5);
379  complete(seedSegments, mb3, MB3);
380  complete(seedSegments, mb2, MB2);
381  complete(seedSegments, mb1, MB1);
382  if(check(seedSegments)) patterns.push_back(seedSegments);
383  }
384 
385 
386  unsigned int counter;
387 
388  for ( counter = 0; counter<list2.size(); counter++ ){
389 
390  if ( !ME2[counter] ) {
391  MuonRecHitContainer seedSegments;
392  seedSegments.push_back(list2[counter]);
393  complete(seedSegments, list3, ME3);
394  complete(seedSegments, list4, ME4);
395  complete(seedSegments, list5, ME5);
396  complete(seedSegments, mb3, MB3);
397  complete(seedSegments, mb2, MB2);
398  complete(seedSegments, mb1, MB1);
399  if(check(seedSegments)) patterns.push_back(seedSegments);
400  }
401  }
402 
403 
404  if ( list3.size() < 20 ) { // +v
405  for ( counter = 0; counter<list3.size(); counter++ ){
406  if ( !ME3[counter] ) {
407  MuonRecHitContainer seedSegments;
408  seedSegments.push_back(list3[counter]);
409  complete(seedSegments, list4, ME4);
410  complete(seedSegments, list5, ME5);
411  complete(seedSegments, mb3, MB3);
412  complete(seedSegments, mb2, MB2);
413  complete(seedSegments, mb1, MB1);
414  if(check(seedSegments)) patterns.push_back(seedSegments);
415  }
416  }
417  }
418 
419  if ( list4.size() < 20 ) { // +v
420  for ( counter = 0; counter<list4.size(); counter++ ){
421  if ( !ME4[counter] ) {
422  MuonRecHitContainer seedSegments;
423  seedSegments.push_back(list4[counter]);
424  complete(seedSegments, list5, ME5);
425  complete(seedSegments, mb3, MB3);
426  complete(seedSegments, mb2, MB2);
427  complete(seedSegments, mb1, MB1);
428  if(check(seedSegments)) patterns.push_back(seedSegments);
429  }
430  }
431  }
432 
433  if ( ME5 ) delete [] ME5;
434  if ( ME4 ) delete [] ME4;
435  if ( ME3 ) delete [] ME3;
436  if ( ME2 ) delete [] ME2;
437 
438  if(!patterns.empty())
439  {
440  result.insert(result.end(), patterns.begin(), patterns.end());
441  }
442  else
443  {
444  if(!crackSegments.empty())
445  {
446  // make some single-segment seeds
447  for(MuonRecHitContainer::const_iterator crackSegmentItr = crackSegments.begin();
448  crackSegmentItr != crackSegments.end(); ++crackSegmentItr)
449  {
450  MuonRecHitContainer singleSegmentPattern;
451  singleSegmentPattern.push_back(*crackSegmentItr);
452  result.push_back(singleSegmentPattern);
453  }
454  }
455  }
456 }
457 
458 
459 
461  const MuonRecHitContainer &recHits, bool* used) const {
462 
463  MuonRecHitContainer good_rhit;
464  MuonPatternRecoDumper theDumper;
465  //+v get all rhits compatible with the seed on dEta/dPhi Glob.
466 
467  ConstMuonRecHitPointer first = seedSegments[0]; // first rechit of seed
468 
469  GlobalPoint ptg2 = first->globalPosition(); // its global pos +v
470 
471  for (unsigned nr = 0; nr < recHits.size(); ++nr ){
472  MuonRecHitPointer recHit(recHits[nr]);
473  GlobalPoint ptg1(recHit->globalPosition());
474  float deta = fabs (ptg1.eta()-ptg2.eta());
475  // Geom::Phi should keep it in the range [-pi, pi]
476  float dphi = fabs( deltaPhi(ptg1.barePhi(), ptg2.barePhi()) );
477  // be a little more lenient in cracks
478  bool crack = isCrack(recHit) || isCrack(first);
479  //float detaWindow = 0.3;
480  float detaWindow = crack ? theDeltaCrackWindow : theDeltaEtaWindow;
481  if ( deta > detaWindow || dphi > theDeltaPhiWindow ) {
482  continue;
483  } // +vvp!!!
484 
485  good_rhit.push_back(recHit);
486  if (used) markAsUsed(nr, recHits, used);
487  } // recHits iter
488 
489  // select the best rhit among the compatible ones (based on Dphi Glob & Dir)
490  MuonRecHitPointer best=bestMatch(first, good_rhit);
491  if(best && best->isValid() ) seedSegments.push_back(best);
492 }
493 
494 
495 
498  MuonRecHitContainer & good_rhit) const
499 {
500  MuonRecHitPointer best = 0;
501  if(good_rhit.size() == 1) return good_rhit[0];
502  double bestDiscrim = 10000.;
503  for (MuonRecHitContainer::iterator iter=good_rhit.begin();
504  iter!=good_rhit.end(); iter++)
505  {
506  double discrim = discriminator(first, *iter);
507  if(discrim < bestDiscrim)
508  {
509  bestDiscrim = discrim;
510  best = *iter;
511  }
512  }
513  return best;
514 }
515 
516 
518 {
519  GlobalPoint gp1= first->globalPosition();
520  GlobalPoint gp2= other->globalPosition();
521  GlobalVector gd1 = first->globalDirection();
522  GlobalVector gd2 = other->globalDirection();
523  if(first->isDT() || other->isDT()) {
524  return fabs(deltaPhi(gd1.barePhi(), gd2.barePhi()));
525  }
526 
527  // penalize those 3-hit segments
528  int nhits = other->recHits().size();
529  int penalty = std::max(nhits-2, 1);
530  float dphig = deltaPhi(gp1.barePhi(), gp2.barePhi());
531  // ME1A has slanted wires, so matching theta position doesn't work well.
532  if(isME1A(first) || isME1A(other)) {
533  return fabs(dphig/penalty);
534  }
535 
536  float dthetag = gp1.theta()-gp2.theta();
537  float dphid2 = fabs(deltaPhi(gd2.barePhi(), gp2.barePhi()));
538  if (dphid2 > M_PI*.5) dphid2 = M_PI - dphid2; //+v
539  float dthetad2 = gp2.theta()-gd2.theta();
540  // for CSC, make a big chi-squared of relevant variables
541  // FIXME for 100 GeV mnd above muons, this doesn't perform as well as
542  // previous methods. needs investigation.
543  float chisq = ((dphig/0.02)*(dphig/0.02)
544  + (dthetag/0.003)*(dthetag/0.003)
545  + (dphid2/0.06)*(dphid2/0.06)
546  + (dthetad2/0.08)*(dthetad2/0.08)
547  );
548  return chisq / penalty;
549 }
550 
551 
553 {
554  return (segments.size() > 1);
555 }
556 
557 
559 {
560  used[nr] = true;
561  // if it's ME1A with two other segments in the container, mark the ghosts as used, too.
562  if(recHits[nr]->isCSC())
563  {
564  CSCDetId detId(recHits[nr]->geographicalId().rawId());
565  if(detId.ring() == 4)
566  {
567  std::vector<unsigned> chamberHitNs;
568  for(unsigned i = 0; i < recHits.size(); ++i)
569  {
570  if(recHits[i]->geographicalId().rawId() == detId.rawId())
571  {
572  chamberHitNs.push_back(i);
573  }
574  }
575  if(chamberHitNs.size() == 3)
576  {
577  for(unsigned i = 0; i < 3; ++i)
578  {
579  used[chamberHitNs[i]] = true;
580  }
581  }
582  }
583  }
584 }
585 
586 
588 {
589  bool result = false;
590  double absEta = fabs(segment->globalPosition().eta());
591  for(std::vector<double>::const_iterator crackItr = theCrackEtas.begin();
592  crackItr != theCrackEtas.end(); ++crackItr)
593  {
594  if(fabs(absEta-*crackItr) < theCrackWindow) {
595  result = true;
596  }
597  }
598  return result;
599 }
600 
601 
603  MuonRecHitContainer & crackSegments) const
604 {
605  for(MuonRecHitContainer::const_iterator segmentItr = segments.begin();
606  segmentItr != segments.end(); ++segmentItr)
607  {
608  if((**segmentItr).hit()->dimension() == 4 && isCrack(*segmentItr))
609  {
610  crackSegments.push_back(*segmentItr);
611  }
612  }
613 }
614 
615 
616 
617 void MuonSeedOrcaPatternRecognition::dumpLayer(const char * name, const MuonRecHitContainer & segments) const
618 {
619  MuonPatternRecoDumper theDumper;
620 
621  LogTrace(metname) << name << std::endl;
622  for(MuonRecHitContainer::const_iterator segmentItr = segments.begin();
623  segmentItr != segments.end(); ++segmentItr)
624  {
625  LogTrace(metname) << theDumper.dumpMuonId((**segmentItr).geographicalId());
626  }
627 }
628 
629 
632 {
633 MuonPatternRecoDumper theDumper;
635  for(MuonRecHitContainer::const_iterator segmentItr = segments.begin();
636  segmentItr != segments.end(); ++segmentItr)
637  {
638  double dtheta = (*segmentItr)->globalDirection().theta() - (*segmentItr)->globalPosition().theta();
639  if((*segmentItr)->isDT())
640  {
641  // only apply the cut to 4D segments
642  if((*segmentItr)->dimension() == 2 || fabs(dtheta) < dThetaCut)
643  {
644  result.push_back(*segmentItr);
645  }
646  else
647  {
648  LogTrace(metname) << "Cutting segment " << theDumper.dumpMuonId((**segmentItr).geographicalId()) << " because dtheta = " << dtheta;
649  }
650 
651  }
652  else if((*segmentItr)->isCSC())
653  {
654  if(fabs(dtheta) < dThetaCut)
655  {
656  result.push_back(*segmentItr);
657  }
658  else
659  {
660  LogTrace(metname) << "Cutting segment " << theDumper.dumpMuonId((**segmentItr).geographicalId()) << " because dtheta = " << dtheta;
661  }
662  }
663  }
665  return result;
666 }
667 
668 
670 {
671  if(segments.empty()) return;
672  MuonPatternRecoDumper theDumper;
673  // need to optimize cuts
674  double dphiCut = 0.05;
675  double detaCut = 0.05;
676  std::vector<unsigned> toKill;
677  std::vector<unsigned> me1aOverlaps;
678  // loop over all segment pairs to see if there are two that match up in eta and phi
679  // but from different chambers
680  unsigned nseg = segments.size();
681  for(unsigned i = 0; i < nseg-1; ++i)
682  {
683  GlobalPoint pg1 = segments[i]->globalPosition();
684  for(unsigned j = i+1; j < nseg; ++j)
685  {
686  GlobalPoint pg2 = segments[j]->globalPosition();
687  if(segments[i]->geographicalId().rawId() != segments[j]->geographicalId().rawId()
688  && fabs(deltaPhi(pg1.barePhi(), pg2.barePhi())) < dphiCut
689  && fabs(pg1.eta()-pg2.eta()) < detaCut)
690  {
691  LogTrace(metname) << "OVERLAP " << theDumper.dumpMuonId(segments[i]->geographicalId()) << " " <<
692  theDumper.dumpMuonId(segments[j]->geographicalId());
693  // see which one is best
694  toKill.push_back( (countHits(segments[i]) < countHits(segments[j])) ? i : j);
695  if(isME1A(segments[i]))
696  {
697  me1aOverlaps.push_back(i);
698  me1aOverlaps.push_back(j);
699  }
700  }
701  }
702  }
703 
704  if(toKill.empty()) return;
705 
706  // try to kill ghosts assigned to overlaps
707  for(unsigned i = 0; i < me1aOverlaps.size(); ++i)
708  {
709  DetId detId(segments[me1aOverlaps[i]]->geographicalId());
710  vector<unsigned> inSameChamber;
711  for(unsigned j = 0; j < nseg; ++j)
712  {
713  if(i != j && segments[j]->geographicalId() == detId)
714  {
715  inSameChamber.push_back(j);
716  }
717  }
718  if(inSameChamber.size() == 2)
719  {
720  toKill.push_back(inSameChamber[0]);
721  toKill.push_back(inSameChamber[1]);
722  }
723  }
724  // now kill the killable
726  for(unsigned i = 0; i < nseg; ++i)
727  {
728  if(std::find(toKill.begin(), toKill.end(), i) == toKill.end())
729  {
730  result.push_back(segments[i]);
731  }
732 
733  }
734  segments.swap(result);
735 }
736 
737 
739 {
740  return segment->isCSC() && CSCDetId(segment->geographicalId()).ring() == 4;
741 }
742 
743 
745  int count = 0;
746  vector<TrackingRecHit*> components = (*segment).recHits();
747  for(vector<TrackingRecHit*>::const_iterator component = components.begin();
748  component != components.end(); ++component)
749  {
750  int componentSize = (**component).recHits().size();
751  count += (componentSize == 0) ? 1 : componentSize;
752  }
753  return count;
754 }
755 
756 
int i
Definition: DBlmapReader.cc:9
PhiMemoryImage patterns[9]
MuonTransientTrackingRecHit::ConstMuonRecHitPointer ConstMuonRecHitPointer
MuonRecHitPointer bestMatch(const ConstMuonRecHitPointer &first, MuonRecHitContainer &good_rhit) const
MuonTransientTrackingRecHit::MuonRecHitPointer MuonRecHitPointer
const std::string metname
void filterOverlappingChambers(MuonRecHitContainer &segments) const
bool isCrack(const ConstMuonRecHitPointer &segment) const
bool check(const MuonRecHitContainer &segments)
void find(edm::Handle< EcalRecHitCollection > &hits, DetId thisDet, std::vector< EcalRecHitCollection::const_iterator > &hit, bool debug=false)
Definition: FindCaloHit.cc:7
tuple result
Definition: mps_fire.py:84
std::string dumpMuonId(const DetId &id) const
Geom::Theta< T > theta() const
Definition: PV3DBase.h:75
uint32_t rawId() const
get the raw id
Definition: DetId.h:43
T barePhi() const
Definition: PV3DBase.h:68
bool enableCSCMeasurement
Enable the CSC measurement.
int countHits(const MuonRecHitPointer &segment) const
MuonRecHitContainer recHits(const DetLayer *layer, const edm::Event &iEvent)
returns the rechits which are on the layer
void produce(const edm::Event &event, const edm::EventSetup &eSetup, std::vector< MuonRecHitContainer > &result)
void endcapPatterns(const MuonRecHitContainer &me11, const MuonRecHitContainer &me12, const MuonRecHitContainer &me2, const MuonRecHitContainer &me3, const MuonRecHitContainer &me4, const MuonRecHitContainer &mb1, const MuonRecHitContainer &mb2, const MuonRecHitContainer &mb3, bool *MB1, bool *MB2, bool *MB3, std::vector< MuonRecHitContainer > &result)
int j
Definition: DBlmapReader.cc:9
void rememberCrackSegments(const MuonRecHitContainer &segments, MuonRecHitContainer &crackSegments) const
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
#define LogTrace(id)
#define M_PI
int ring() const
Definition: CSCDetId.h:75
Definition: DetId.h:18
MuonTransientTrackingRecHit::MuonRecHitContainer MuonRecHitContainer
bool isME1A(const ConstMuonRecHitPointer &segment) const
void complete(MuonRecHitContainer &seedSegments, const MuonRecHitContainer &recHits, bool *used=0) const
const T & get() const
Definition: EventSetup.h:56
std::string const & label() const
Definition: InputTag.h:36
T eta() const
Definition: PV3DBase.h:76
std::vector< std::vector< double > > tmp
Definition: MVATrainer.cc:100
void markAsUsed(int nr, const MuonRecHitContainer &recHits, bool *used) const
MuonSeedOrcaPatternRecognition(const edm::ParameterSet &pset, edm::ConsumesCollector &iC)
static std::atomic< unsigned int > counter
bool enableDTMeasurement
Enable the DT measurement.
void dumpLayer(const char *name, const MuonRecHitContainer &segments) const
double discriminator(const ConstMuonRecHitPointer &first, MuonRecHitPointer &other) const
bool isCSC(const GeomDetEnumerators::SubDetector m)
edm::InputTag theCSCRecSegmentLabel
the name of the CSC rec hits collection
edm::InputTag theDTRecSegmentLabel
the name of the DT rec hits collection
MuonRecHitContainer filterSegments(const MuonRecHitContainer &segments, double dThetaCut) const
apply some cuts to segments before using them