CMS 3D CMS Logo

MuonSeedBuilder.cc
Go to the documentation of this file.
1 
11 
12 // Data Formats
21 
22 // Geometry
28 
29 // muon service
32 
33 // Framework
39 
40 // C++
41 #include <vector>
42 #include <deque>
43 #include <utility>
44 
45 //typedef std::pair<double, TrajectorySeed> seedpr ;
46 //static bool ptDecreasing(const seedpr s1, const seedpr s2) { return ( s1.first > s2.first ); }
47 //static bool lengthSorting(const TrajectorySeed s1, const TrajectorySeed s2) { return ( s1.nHits() > s2.nHits() ); }
48 
49 /*
50  * Constructor
51  */
53 
54  // Local Debug flag
55  debug = pset.getParameter<bool>("DebugMuonSeed");
56 
57  // enable the DT chamber
58  enableDTMeasurement = pset.getParameter<bool>("EnableDTMeasurement");
59  theDTSegmentLabel = pset.getParameter<edm::InputTag>("DTSegmentLabel");
60 
61  // enable the CSC chamber
62  enableCSCMeasurement = pset.getParameter<bool>("EnableCSCMeasurement");
63  theCSCSegmentLabel = pset.getParameter<edm::InputTag>("CSCSegmentLabel");
64 
65  // Parameters for seed creation in endcap region
66  minCSCHitsPerSegment = pset.getParameter<int>("minCSCHitsPerSegment");
67  maxDeltaEtaCSC = pset.getParameter<double>("maxDeltaEtaCSC");
68  maxDeltaPhiCSC = pset.getParameter<double>("maxDeltaPhiCSC");
69 
70  // Parameters for seed creation in overlap region
71  maxDeltaEtaOverlap = pset.getParameter<double>("maxDeltaEtaOverlap");
72  maxDeltaPhiOverlap = pset.getParameter<double>("maxDeltaPhiOverlap");
73 
74  // Parameters for seed creation in barrel region
75  minDTHitsPerSegment = pset.getParameter<int>("minDTHitsPerSegment");
76  maxDeltaEtaDT = pset.getParameter<double>("maxDeltaEtaDT");
77  maxDeltaPhiDT = pset.getParameter<double>("maxDeltaPhiDT");
78 
79  // Parameters to suppress combinatorics (ghosts)
80  maxEtaResolutionDT = pset.getParameter<double>("maxEtaResolutionDT");
81  maxPhiResolutionDT = pset.getParameter<double>("maxPhiResolutionDT");
82  maxEtaResolutionCSC = pset.getParameter<double>("maxEtaResolutionCSC");
83  maxPhiResolutionCSC = pset.getParameter<double>("maxPhiResolutionCSC");
84 
85  // muon service
86  edm::ParameterSet serviceParameters = pset.getParameter<edm::ParameterSet>("ServiceParameters");
87  theService = new MuonServiceProxy(serviceParameters);
88 
89  // Class for forming muon seeds
90  muonSeedCreate_ = new MuonSeedCreator( pset );
91  muonSeedClean_ = new MuonSeedCleaner( pset );
92 
93  // Instantiate the accessor (get the segments: DT + CSC but not RPC=false)
94  muonMeasurements = new MuonDetLayerMeasurements(theDTSegmentLabel,theCSCSegmentLabel,edm::InputTag(),edm::InputTag(),edm::InputTag(),iC,
95  enableDTMeasurement,enableCSCMeasurement,false,false,false);
96 
97 
98 
99 }
100 
101 /*
102  * Destructor
103  */
105 
106  delete muonSeedCreate_;
107  delete muonSeedClean_;
108  if (theService) delete theService;
110 
111 }
112 
113 /*
114  * build
115  *
116  * Where the segments are sorted out to make a protoTrack (vector of matching segments in different
117  * stations/layers). The protoTrack is then passed to the seed creator to create CSC, DT or overlap seeds
118  *
119  */
120 //void MuonSeedBuilder::build( MuonDetLayerMeasurements muonMeasurements, TrajectorySeedCollection& theSeeds ) {
122 
123 
124  // Pass the Magnetic Field to where the seed is create
126 
127  // Create temporary collection of seeds which will be cleaned up to remove combinatorics
128  std::vector<TrajectorySeed> rawSeeds;
129  std::vector<float> etaOfSeed;
130  std::vector<float> phiOfSeed;
131  std::vector<int> nSegOnSeed;
132 
133 
134  // Instantiate the accessor (get the segments: DT + CSC but not RPC=false)
135  // MuonDetLayerMeasurements muonMeasurements(enableDTMeasurement,enableCSCMeasurement,false,
136  // theDTSegmentLabel.label(),theCSCSegmentLabel.label());
137 
138 
139  // 1) Get the various stations and store segments in containers for each station (layers)
140 
141  // 1a. get the DT segments by stations (layers):
142  std::vector<const DetLayer*> dtLayers = muonLayers->allDTLayers();
143 
144  SegmentContainer DTlist4 = muonMeasurements->recHits( dtLayers[3], event );
145  SegmentContainer DTlist3 = muonMeasurements->recHits( dtLayers[2], event );
146  SegmentContainer DTlist2 = muonMeasurements->recHits( dtLayers[1], event );
147  SegmentContainer DTlist1 = muonMeasurements->recHits( dtLayers[0], event );
148 
149  // Initialize flags that a given segment has been allocated to a seed
150  BoolContainer usedDTlist4(DTlist4.size(), false);
151  BoolContainer usedDTlist3(DTlist3.size(), false);
152  BoolContainer usedDTlist2(DTlist2.size(), false);
153  BoolContainer usedDTlist1(DTlist1.size(), false);
154 
155  if (debug) {
156  std::cout << "*** Number of DT segments is: " << DTlist4.size()+DTlist3.size()+DTlist2.size()+DTlist1.size() << std::endl;
157  std::cout << "In MB1: " << DTlist1.size() << std::endl;
158  std::cout << "In MB2: " << DTlist2.size() << std::endl;
159  std::cout << "In MB3: " << DTlist3.size() << std::endl;
160  std::cout << "In MB4: " << DTlist4.size() << std::endl;
161  }
162 
163  // 1b. get the CSC segments by stations (layers):
164  // 1b.1 Global z < 0
165  std::vector<const DetLayer*> cscBackwardLayers = muonLayers->backwardCSCLayers();
166  SegmentContainer CSClist4B = muonMeasurements->recHits( cscBackwardLayers[4], event );
167  SegmentContainer CSClist3B = muonMeasurements->recHits( cscBackwardLayers[3], event );
168  SegmentContainer CSClist2B = muonMeasurements->recHits( cscBackwardLayers[2], event );
169  SegmentContainer CSClist1B = muonMeasurements->recHits( cscBackwardLayers[1], event ); // ME1/2 and 1/3
170  SegmentContainer CSClist0B = muonMeasurements->recHits( cscBackwardLayers[0], event ); // ME11
171 
172  BoolContainer usedCSClist4B(CSClist4B.size(), false);
173  BoolContainer usedCSClist3B(CSClist3B.size(), false);
174  BoolContainer usedCSClist2B(CSClist2B.size(), false);
175  BoolContainer usedCSClist1B(CSClist1B.size(), false);
176  BoolContainer usedCSClist0B(CSClist0B.size(), false);
177 
178  // 1b.2 Global z > 0
179  std::vector<const DetLayer*> cscForwardLayers = muonLayers->forwardCSCLayers();
180  SegmentContainer CSClist4F = muonMeasurements->recHits( cscForwardLayers[4], event );
181  SegmentContainer CSClist3F = muonMeasurements->recHits( cscForwardLayers[3], event );
182  SegmentContainer CSClist2F = muonMeasurements->recHits( cscForwardLayers[2], event );
183  SegmentContainer CSClist1F = muonMeasurements->recHits( cscForwardLayers[1], event );
184  SegmentContainer CSClist0F = muonMeasurements->recHits( cscForwardLayers[0], event );
185 
186  BoolContainer usedCSClist4F(CSClist4F.size(), false);
187  BoolContainer usedCSClist3F(CSClist3F.size(), false);
188  BoolContainer usedCSClist2F(CSClist2F.size(), false);
189  BoolContainer usedCSClist1F(CSClist1F.size(), false);
190  BoolContainer usedCSClist0F(CSClist0F.size(), false);
191 
192  if (debug) {
193  std::cout << "*** Number of CSC segments is " << CSClist4F.size()+CSClist3F.size()+CSClist2F.size()+CSClist1F.size()+CSClist0F.size()+CSClist4B.size()+CSClist3B.size()+CSClist2B.size()+CSClist1B.size()+CSClist0B.size()<< std::endl;
194  std::cout << "In ME11: " << CSClist0F.size()+CSClist0B.size() << std::endl;
195  std::cout << "In ME12: " << CSClist1F.size()+CSClist1B.size() << std::endl;
196  std::cout << "In ME2 : " << CSClist2F.size()+CSClist2B.size() << std::endl;
197  std::cout << "In ME3 : " << CSClist3F.size()+CSClist3B.size() << std::endl;
198  std::cout << "In ME4 : " << CSClist4F.size()+CSClist4B.size() << std::endl;
199  }
200 
201 
202  /* ******************************************************************************************************************
203  * Form seeds in barrel region
204  *
205  * Proceed from inside -> out
206  * ******************************************************************************************************************/
207 
208 
209  // Loop over all possible MB1 segment to form seeds:
210  int index = -1;
211  for (SegmentContainer::iterator it = DTlist1.begin(); it != DTlist1.end(); ++it ){
212 
213  index++;
214 
215  if (usedDTlist1[index] == true) continue;
216  if ( int ((*it)->recHits().size()) < minDTHitsPerSegment ) continue;
217  if ((*it)->dimension() != 4) continue;
218 
219  //double dof = static_cast<double>( (*it)->degreesOfFreedom() ) ;
220  //if ( ((*it)->chi2()/dof) > 20000.0 ) continue;
221 
222  // Global position of starting point for protoTrack
223  GlobalPoint gp = (*it)->globalPosition();
224  float eta_temp = gp.eta();
225  float phi_temp = gp.phi();
226  bool showeringBefore = false;
227  NShowerSeg = 0;
228  if ( IdentifyShowering( DTlist1, usedDTlist1, eta_temp, phi_temp, -1, NShowerSeg ) ) showeringBefore = true ;
229  int NShowers = 0;
230  if ( showeringBefore ) {
231  //usedDTlist1[index] = true;
232  NShowers++ ;
233  }
234 
235  SegmentContainer protoTrack;
236  protoTrack.push_back(*it);
237 
238  std::vector<int> layers;
239  layers.push_back(-1);
240 
241  // Try adding segment from other stations
242  if (foundMatchingSegment(3, protoTrack, DTlist2, usedDTlist2, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(-2);
243  if ( showeringBefore ) NShowers++ ;
244  if (foundMatchingSegment(3, protoTrack, DTlist3, usedDTlist3, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(-3);
245  if ( showeringBefore ) NShowers++ ;
246  if (foundMatchingSegment(3, protoTrack, DTlist4, usedDTlist4, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(-4);
247  if ( showeringBefore ) NShowers++ ;
248 
249  // Check if in overlap region
250  if (eta_temp > 0.8) {
251  if (foundMatchingSegment(2, protoTrack, CSClist1F, usedCSClist1F, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(1);
252  if ( showeringBefore ) NShowers++ ;
253  if (foundMatchingSegment(2, protoTrack, CSClist2F, usedCSClist2F, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(2);
254  if ( showeringBefore ) NShowers++ ;
255  if (foundMatchingSegment(2, protoTrack, CSClist3F, usedCSClist3F, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(3);
256  if ( showeringBefore ) NShowers++ ;
257  }
258  else if (eta_temp < -0.8) {
259  if (foundMatchingSegment(2, protoTrack, CSClist1B, usedCSClist1B, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(1);
260  if ( showeringBefore ) NShowers++ ;
261  if (foundMatchingSegment(2, protoTrack, CSClist2B, usedCSClist2B, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(2);
262  if ( showeringBefore ) NShowers++ ;
263  if (foundMatchingSegment(2, protoTrack, CSClist3B, usedCSClist3B, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(3);
264  if ( showeringBefore ) NShowers++ ;
265  }
266 
267 
268  // adding showering information
269  if ( layers.size() < 2 && !ShoweringSegments.empty() ) {
270  for (size_t i=0; i< ShoweringSegments.size(); i++) {
271  if ( ShoweringLayers[i] > 0 ) {
272  if ( ShoweringLayers[i] <= layers[ layers.size()-1] ) continue;
273  protoTrack.push_back( ShoweringSegments[i] );
274  layers.push_back( ShoweringLayers[i] );
275  }
276  if ( ShoweringLayers[i] < 0 && layers[ layers.size()-1] < 0 ) {
277  if ( ShoweringLayers[i] >= layers[ layers.size()-1] ) continue;
278  protoTrack.push_back( ShoweringSegments[i] );
279  layers.push_back( ShoweringLayers[i] );
280  }
281  }
282  }
283  ShoweringSegments.clear() ;
284  ShoweringLayers.clear() ;
285 
286  TrajectorySeed thisSeed;
287 
288  if ( layers.size() < 2 ) {
289  thisSeed = muonSeedCreate_->createSeed(4, protoTrack, layers, NShowers, NShowerSeg );
290  } else {
291  if ( layers[ layers.size()-1] > 0 ) {
292  thisSeed = muonSeedCreate_->createSeed(2, protoTrack, layers, NShowers, NShowerSeg );
293  } else {
294  thisSeed = muonSeedCreate_->createSeed(3, protoTrack, layers, NShowers, NShowerSeg );
295  }
296  }
297  // Add the seeds to master collection
298  rawSeeds.push_back(thisSeed);
299  etaOfSeed.push_back(eta_temp);
300  phiOfSeed.push_back(phi_temp);
301  nSegOnSeed.push_back( protoTrack.size() );
302 
303  // Marked segment as used
304  usedDTlist1[index] = true;
305  }
306 
307 
308  // Loop over all possible MB2 segment to form seeds:
309  index = -1;
310  for (SegmentContainer::iterator it = DTlist2.begin(); it != DTlist2.end(); ++it ){
311 
312  index++;
313 
314  if (usedDTlist2[index] == true) continue;
315  if ( int ((*it)->recHits().size()) < minDTHitsPerSegment ) continue;
316  if ((*it)->dimension() != 4) continue;
317 
318  //double dof = static_cast<double>( (*it)->degreesOfFreedom() ) ;
319  //if ( ((*it)->chi2()/dof) > 20000.0 ) continue;
320 
321  // Global position of starting point for protoTrack
322  GlobalPoint gp = (*it)->globalPosition();
323  float eta_temp = gp.eta();
324  float phi_temp = gp.phi();
325  bool showeringBefore = false;
326  NShowerSeg = 0;
327  if ( IdentifyShowering( DTlist2, usedDTlist2, eta_temp, phi_temp, -2, NShowerSeg) ) showeringBefore = true ;
328  int NShowers = 0;
329  if ( showeringBefore ) {
330  // usedDTlist2[index] = true;
331  NShowers++ ;
332  }
333 
334  SegmentContainer protoTrack;
335  protoTrack.push_back(*it);
336 
337  std::vector<int> layers;
338  layers.push_back(-2);
339 
340 
341  // Try adding segment from other stations
342  if (foundMatchingSegment(3, protoTrack, DTlist3, usedDTlist3, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(-3);
343  if ( showeringBefore ) NShowers++ ;
344  if (foundMatchingSegment(3, protoTrack, DTlist4, usedDTlist4, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(-4);
345  if ( showeringBefore ) NShowers++ ;
346 
347  // Check if in overlap region
348  if (eta_temp > 0.8) {
349  if (foundMatchingSegment(2, protoTrack, CSClist1F, usedCSClist1F, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(1);
350  if ( showeringBefore ) NShowers++ ;
351  if (foundMatchingSegment(2, protoTrack, CSClist2F, usedCSClist2F, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(2);
352  if ( showeringBefore ) NShowers++ ;
353  if (foundMatchingSegment(2, protoTrack, CSClist3F, usedCSClist3F, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(3);
354  if ( showeringBefore ) NShowers++ ;
355  }
356  else if (eta_temp < -0.8) {
357  if (foundMatchingSegment(2, protoTrack, CSClist1B, usedCSClist1B, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(1);
358  if ( showeringBefore ) NShowers++ ;
359  if (foundMatchingSegment(2, protoTrack, CSClist2B, usedCSClist2B, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(2);
360  if ( showeringBefore ) NShowers++ ;
361  if (foundMatchingSegment(2, protoTrack, CSClist3B, usedCSClist3B, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(3);
362  if ( showeringBefore ) NShowers++ ;
363  }
364 
365  // adding showering information
366  if ( layers.size() < 2 && !ShoweringSegments.empty() ) {
367  for (size_t i=0; i< ShoweringSegments.size(); i++) {
368  if ( ShoweringLayers[i] > 0 ) {
369  if ( ShoweringLayers[i] <= layers[ layers.size()-1] ) continue;
370  protoTrack.push_back( ShoweringSegments[i] );
371  layers.push_back( ShoweringLayers[i] );
372  }
373  if ( ShoweringLayers[i] < 0 && layers[ layers.size()-1] < 0 ) {
374  if ( ShoweringLayers[i] >= layers[ layers.size()-1] ) continue;
375  protoTrack.push_back( ShoweringSegments[i] );
376  layers.push_back( ShoweringLayers[i] );
377  }
378  }
379  }
380  ShoweringSegments.clear() ;
381  ShoweringLayers.clear() ;
382 
383 
384  TrajectorySeed thisSeed;
385 
386  if ( layers.size() < 2 ) {
387  thisSeed = muonSeedCreate_->createSeed(4, protoTrack, layers, NShowers, NShowerSeg );
388  } else {
389  if ( layers[ layers.size()-1] > 0 ) {
390  thisSeed = muonSeedCreate_->createSeed(2, protoTrack, layers, NShowers, NShowerSeg );
391  } else {
392  thisSeed = muonSeedCreate_->createSeed(3, protoTrack, layers, NShowers, NShowerSeg );
393  }
394  }
395  // Add the seeds to master collection
396  rawSeeds.push_back(thisSeed);
397  etaOfSeed.push_back(eta_temp);
398  phiOfSeed.push_back(phi_temp);
399  nSegOnSeed.push_back( protoTrack.size() );
400 
401  // Marked segment as used
402  usedDTlist2[index] = true;
403  }
404 
405 
406  // Loop over all possible MB3 segment to form seeds:
407  index = -1;
408  for (SegmentContainer::iterator it = DTlist3.begin(); it != DTlist3.end(); ++it ){
409 
410  index++;
411 
412  if (usedDTlist3[index] == true) continue;
413  if ( int ((*it)->recHits().size()) < minDTHitsPerSegment ) continue;
414  if ((*it)->dimension() != 4) continue;
415 
416  //double dof = static_cast<double>( (*it)->degreesOfFreedom() ) ;
417  //if ( ((*it)->chi2()/dof) > 20000.0 ) continue;
418 
419  // Global position of starting point for protoTrack
420  GlobalPoint gp = (*it)->globalPosition();
421  float eta_temp = gp.eta();
422  float phi_temp = gp.phi();
423  bool showeringBefore = false;
424  NShowerSeg = 0;
425  if ( IdentifyShowering( DTlist3, usedDTlist3, eta_temp, phi_temp, -3, NShowerSeg) ) showeringBefore = true ;
426  int NShowers = 0;
427  if ( showeringBefore ) {
428  // usedDTlist3[index] = true;
429  NShowers++ ;
430  }
431 
432  SegmentContainer protoTrack;
433  protoTrack.push_back(*it);
434 
435  std::vector<int> layers;
436  layers.push_back(-3);
437 
438  // Try adding segment from other stations
439  if (foundMatchingSegment(3, protoTrack, DTlist4, usedDTlist4, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(-4);
440  if ( showeringBefore ) NShowers++ ;
441 
442  // Check if in overlap region
443  if (eta_temp > 0.8) {
444  if (foundMatchingSegment(2, protoTrack, CSClist1F, usedCSClist1F, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(1);
445  if ( showeringBefore ) NShowers++ ;
446  if (foundMatchingSegment(2, protoTrack, CSClist2F, usedCSClist2F, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(2);
447  if ( showeringBefore ) NShowers++ ;
448  if (foundMatchingSegment(2, protoTrack, CSClist3F, usedCSClist3F, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(3);
449  if ( showeringBefore ) NShowers++ ;
450  }
451  else if (eta_temp < -0.8) {
452  if (foundMatchingSegment(2, protoTrack, CSClist1B, usedCSClist1B, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(1);
453  if ( showeringBefore ) NShowers++ ;
454  if (foundMatchingSegment(2, protoTrack, CSClist2B, usedCSClist2B, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(2);
455  if ( showeringBefore ) NShowers++ ;
456  if (foundMatchingSegment(2, protoTrack, CSClist3B, usedCSClist3B, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(3);
457  if ( showeringBefore ) NShowers++ ;
458  }
459 
460  // adding showering information
461  if ( layers.size() < 2 && !ShoweringSegments.empty() ) {
462  for (size_t i=0; i< ShoweringSegments.size(); i++) {
463  if ( ShoweringLayers[i] > 0 ) {
464  if ( ShoweringLayers[i] <= layers[ layers.size()-1] ) continue;
465  protoTrack.push_back( ShoweringSegments[i] );
466  layers.push_back( ShoweringLayers[i] );
467  }
468  if ( ShoweringLayers[i] < 0 && layers[ layers.size()-1] < 0 ) {
469  if ( ShoweringLayers[i] >= layers[ layers.size()-1] ) continue;
470  protoTrack.push_back( ShoweringSegments[i] );
471  layers.push_back( ShoweringLayers[i] );
472  }
473  }
474  }
475  ShoweringSegments.clear() ;
476  ShoweringLayers.clear() ;
477 
478 
479  TrajectorySeed thisSeed;
480  if ( layers.size() < 2 ) {
481  thisSeed = muonSeedCreate_->createSeed(4, protoTrack, layers, NShowers, NShowerSeg );
482  }else {
483  if ( layers[ layers.size()-1] > 0 ) {
484  thisSeed = muonSeedCreate_->createSeed(2, protoTrack, layers, NShowers, NShowerSeg );
485  } else {
486  thisSeed = muonSeedCreate_->createSeed(3, protoTrack, layers, NShowers, NShowerSeg );
487  }
488  }
489 
490  // Add the seeds to master collection
491  rawSeeds.push_back(thisSeed);
492  etaOfSeed.push_back(eta_temp);
493  phiOfSeed.push_back(phi_temp);
494  nSegOnSeed.push_back( protoTrack.size() );
495 
496  // Marked segment as used
497  usedDTlist3[index] = true;
498  }
499 
500  /* *********************************************************************************************************************
501  * Form seeds from backward endcap
502  *
503  * Proceed from inside -> out
504  * *********************************************************************************************************************/
505 
506  // Loop over all possible ME11 segment to form seeds:
507  index = -1;
508 
509  for (SegmentContainer::iterator it = CSClist0B.begin(); it != CSClist0B.end(); ++it ){
510 
511  index++;
512 
513  if (usedCSClist0B[index] == true) continue;
514  if ( int ((*it)->recHits().size()) < minCSCHitsPerSegment ) continue;
515 
516  //double dof = static_cast<double>( (*it)->degreesOfFreedom() ) ;
517  //if ( ((*it)->chi2()/dof) > 20000.0 ) continue;
518 
519  // Global position of starting point for protoTrack
520  GlobalPoint gp = (*it)->globalPosition();
521  float eta_temp = gp.eta();
522  float phi_temp = gp.phi();
523  bool showeringBefore = false;
524  NShowerSeg = 0;
525  if ( IdentifyShowering( CSClist0B, usedCSClist0B, eta_temp, phi_temp, 0, NShowerSeg) ) showeringBefore = true ;
526  int NShowers = 0;
527  if ( showeringBefore ) {
528  // usedCSClist0B[index] = true;
529  NShowers++ ;
530  }
531 
532  SegmentContainer protoTrack;
533  protoTrack.push_back(*it);
534 
535  std::vector<int> layers;
536  layers.push_back(0);
537 
538  // Try adding segment from other station
539  if (foundMatchingSegment(1, protoTrack, CSClist1B, usedCSClist1B, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(1);
540  if ( showeringBefore ) NShowers++ ;
541  if (foundMatchingSegment(1, protoTrack, CSClist2B, usedCSClist2B, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(2);
542  if ( showeringBefore ) NShowers++ ;
543  if (foundMatchingSegment(1, protoTrack, CSClist3B, usedCSClist3B, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(3);
544  if ( showeringBefore ) NShowers++ ;
545  if (foundMatchingSegment(1, protoTrack, CSClist4B, usedCSClist4B, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(4);
546  if ( showeringBefore ) NShowers++ ;
547 
548 
549  // adding showering information
550  if ( layers.size() < 2 && !ShoweringSegments.empty() ) {
551  for (size_t i=0; i< ShoweringSegments.size(); i++) {
552  if ( ShoweringLayers[i] <= layers[ layers.size()-1] ) continue;
553  protoTrack.push_back( ShoweringSegments[i] );
554  layers.push_back( ShoweringLayers[i] );
555  }
556  }
557  ShoweringSegments.clear() ;
558  ShoweringLayers.clear() ;
559 
560 
561  TrajectorySeed thisSeed;
562  if ( layers.size() < 2 ) {
563  thisSeed = muonSeedCreate_->createSeed(4, protoTrack, layers, NShowers, NShowerSeg );
564  }else {
565  if ( fabs( gp.eta() ) > 1.7 ) {
566  thisSeed = muonSeedCreate_->createSeed(5, protoTrack, layers, NShowers, NShowerSeg );
567  } else {
568  thisSeed = muonSeedCreate_->createSeed(1, protoTrack, layers, NShowers, NShowerSeg );
569  }
570  }
571 
572  // Add the seeds to master collection
573  rawSeeds.push_back(thisSeed);
574  etaOfSeed.push_back(eta_temp);
575  phiOfSeed.push_back(phi_temp);
576  nSegOnSeed.push_back( protoTrack.size() );
577 
578  // mark this segment as used
579  usedCSClist0B[index] = true;
580  }
581 
582 
583  // Loop over all possible ME1/2 ME1/3 segment to form seeds:
584  index = -1;
585  for (SegmentContainer::iterator it = CSClist1B.begin(); it != CSClist1B.end(); ++it ){
586 
587  index++;
588 
589  if (usedCSClist1B[index] == true) continue;
590  if ( int ((*it)->recHits().size()) < minCSCHitsPerSegment ) continue;
591 
592  //double dof = static_cast<double>( (*it)->degreesOfFreedom() ) ;
593  //if ( ((*it)->chi2()/dof) > 20000.0 ) continue;
594 
595  // Global position of starting point for protoTrack
596  GlobalPoint gp = (*it)->globalPosition();
597  float eta_temp = gp.eta();
598  float phi_temp = gp.phi();
599  bool showeringBefore = false;
600  NShowerSeg = 0;
601  if ( IdentifyShowering( CSClist1B, usedCSClist1B, eta_temp, phi_temp, 1, NShowerSeg) ) showeringBefore = true ;
602  int NShowers = 0;
603  if ( showeringBefore ) {
604  // usedCSClist1B[index] = true;
605  NShowers++ ;
606  }
607 
608  SegmentContainer protoTrack;
609  protoTrack.push_back(*it);
610 
611  std::vector<int> layers;
612  layers.push_back(1);
613 
614  // Try adding segment from other stations
615  if (foundMatchingSegment(1, protoTrack, CSClist2B, usedCSClist2B, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(2);
616  if ( showeringBefore ) NShowers++ ;
617  if (foundMatchingSegment(1, protoTrack, CSClist3B, usedCSClist3B, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(3);
618  if ( showeringBefore ) NShowers++ ;
619  if (foundMatchingSegment(1, protoTrack, CSClist4B, usedCSClist4B, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(4);
620  if ( showeringBefore ) NShowers++ ;
621 
622  // adding showering information
623  if ( layers.size() < 2 && !ShoweringSegments.empty() ) {
624  for (size_t i=0; i< ShoweringSegments.size(); i++) {
625  if ( ShoweringLayers[i] <= layers[ layers.size()-1] ) continue;
626  protoTrack.push_back( ShoweringSegments[i] );
627  layers.push_back( ShoweringLayers[i] );
628  }
629  }
630  ShoweringSegments.clear() ;
631  ShoweringLayers.clear() ;
632 
633  TrajectorySeed thisSeed;
634  if ( layers.size() < 2 ) {
635  thisSeed = muonSeedCreate_->createSeed(4, protoTrack, layers, NShowers, NShowerSeg );
636  } else {
637  thisSeed = muonSeedCreate_->createSeed(1, protoTrack, layers, NShowers, NShowerSeg );
638  }
639  // Add the seeds to master collection
640  rawSeeds.push_back(thisSeed);
641  etaOfSeed.push_back(eta_temp);
642  phiOfSeed.push_back(phi_temp);
643  nSegOnSeed.push_back( protoTrack.size() );
644 
645  // mark this segment as used
646  usedCSClist1B[index] = true;
647 
648  }
649 
650 
651  // Loop over all possible ME2 segment to form seeds:
652  index = -1;
653  for (SegmentContainer::iterator it = CSClist2B.begin(); it != CSClist2B.end(); ++it ){
654 
655  index++;
656 
657  if (usedCSClist2B[index] == true) continue;
658  if ( int ((*it)->recHits().size()) < minCSCHitsPerSegment ) continue;
659 
660  double dof = static_cast<double>( (*it)->degreesOfFreedom() ) ;
661  if ( ((*it)->chi2()/dof) > 20000.0 ) continue;
662 
663  // Global position of starting point for protoTrack
664  GlobalPoint gp = (*it)->globalPosition();
665  float eta_temp = gp.eta();
666  float phi_temp = gp.phi();
667  bool showeringBefore = false;
668  NShowerSeg = 0;
669  if ( IdentifyShowering( CSClist2B, usedCSClist2B, eta_temp, phi_temp, 2, NShowerSeg) ) showeringBefore = true ;
670  int NShowers = 0;
671  if ( showeringBefore ) {
672  // usedCSClist2B[index] = true;
673  NShowers++ ;
674  }
675 
676  SegmentContainer protoTrack;
677  protoTrack.push_back(*it);
678 
679  std::vector<int> layers;
680  layers.push_back(2);
681 
682  // Try adding segment from other stations
683  if (foundMatchingSegment(1, protoTrack, CSClist3B, usedCSClist3B, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(3);
684  if ( showeringBefore ) NShowers++ ;
685  if (foundMatchingSegment(1, protoTrack, CSClist4B, usedCSClist4B, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(4);
686  if ( showeringBefore ) NShowers++ ;
687 
688  // adding showering information
689  if ( layers.size() < 2 && !ShoweringSegments.empty() ) {
690  for (size_t i=0; i< ShoweringSegments.size(); i++) {
691  if ( ShoweringLayers[i] <= layers[ layers.size()-1] ) continue;
692  protoTrack.push_back( ShoweringSegments[i] );
693  layers.push_back( ShoweringLayers[i] );
694  }
695  }
696  ShoweringSegments.clear() ;
697  ShoweringLayers.clear() ;
698 
699 
700  TrajectorySeed thisSeed;
701  if ( layers.size() < 2) {
702  thisSeed = muonSeedCreate_->createSeed(4, protoTrack, layers, NShowers, NShowerSeg );
703  } else {
704  thisSeed = muonSeedCreate_->createSeed(1, protoTrack, layers, NShowers, NShowerSeg );
705  }
706 
707  // Add the seeds to master collection
708  rawSeeds.push_back(thisSeed);
709  etaOfSeed.push_back(eta_temp);
710  phiOfSeed.push_back(phi_temp);
711  nSegOnSeed.push_back( protoTrack.size() );
712  // mark this segment as used
713  usedCSClist2B[index] = true;
714  }
715 
716  // Loop over all possible ME3 segment to form seeds:
717  index = -1;
718  for (SegmentContainer::iterator it = CSClist3B.begin(); it != CSClist3B.end(); ++it ){
719 
720  index++;
721 
722  if (usedCSClist3B[index] == true) continue;
723  if ( int ((*it)->recHits().size()) < minCSCHitsPerSegment ) continue;
724 
725  double dof = static_cast<double>( (*it)->degreesOfFreedom() ) ;
726  if ( ((*it)->chi2()/dof) > 20000.0 ) continue;
727 
728  // Global position of starting point for protoTrack
729  GlobalPoint gp = (*it)->globalPosition();
730  float eta_temp = gp.eta();
731  float phi_temp = gp.phi();
732  bool showeringBefore = false;
733  NShowerSeg = 0;
734  if ( IdentifyShowering( CSClist3B, usedCSClist3B, eta_temp, phi_temp, 3, NShowerSeg) ) showeringBefore = true ;
735  int NShowers = 0;
736  if ( showeringBefore ) {
737  // usedCSClist3B[index] = true;
738  NShowers++ ;
739  }
740 
741  SegmentContainer protoTrack;
742  protoTrack.push_back(*it);
743 
744  std::vector<int> layers;
745  layers.push_back(2);
746 
747  // Try adding segment from other stations
748  if (foundMatchingSegment(1, protoTrack, CSClist4B, usedCSClist4B, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(4);
749  if ( showeringBefore ) NShowers++ ;
750 
751 
752  // adding showering information
753  if ( layers.size() < 2 && !ShoweringSegments.empty() ) {
754  for (size_t i=0; i< ShoweringSegments.size(); i++) {
755  if ( ShoweringLayers[i] <= layers[ layers.size()-1] ) continue;
756  protoTrack.push_back( ShoweringSegments[i] );
757  layers.push_back( ShoweringLayers[i] );
758  }
759  }
760  ShoweringSegments.clear() ;
761  ShoweringLayers.clear() ;
762 
763  // mark this segment as used
764  usedCSClist3B[index] = true;
765 
766  if ( layers.size() < 2 ) continue;
767  TrajectorySeed thisSeed = muonSeedCreate_->createSeed(1, protoTrack, layers, NShowers, NShowerSeg );
768 
769  // Add the seeds to master collection
770  rawSeeds.push_back(thisSeed);
771  etaOfSeed.push_back(eta_temp);
772  phiOfSeed.push_back(phi_temp);
773  nSegOnSeed.push_back( protoTrack.size() );
774  }
775 
776 
777  /* *****************************************************************************************************************
778  * Form seeds from forward endcap
779  *
780  * Proceed from inside -> out
781  * *****************************************************************************************************************/
782 
783  // Loop over all possible ME11 segment to form seeds:
784  index = -1;
785  for (SegmentContainer::iterator it = CSClist0F.begin(); it != CSClist0F.end(); ++it ){
786 
787  index++;
788 
789  if (usedCSClist0F[index] == true) continue;
790  if ( int ((*it)->recHits().size()) < minCSCHitsPerSegment ) continue;
791 
792  //double dof = static_cast<double>( (*it)->degreesOfFreedom() ) ;
793  //if ( ((*it)->chi2()/dof) > 20000.0 ) continue;
794 
795  // Global position of starting point for protoTrack
796  GlobalPoint gp = (*it)->globalPosition();
797  float eta_temp = gp.eta();
798  float phi_temp = gp.phi();
799  bool showeringBefore = false;
800  NShowerSeg = 0;
801  if ( IdentifyShowering( CSClist0F, usedCSClist0F, eta_temp, phi_temp, 0, NShowerSeg) ) showeringBefore = true ;
802  int NShowers = 0;
803  if ( showeringBefore ) {
804  // usedCSClist0F[index] = true;
805  NShowers++ ;
806  }
807 
808  SegmentContainer protoTrack;
809  protoTrack.push_back(*it);
810 
811  std::vector<int> layers;
812  layers.push_back(0);
813 
814  // Try adding segment from other station
815  if (foundMatchingSegment(1, protoTrack, CSClist1F, usedCSClist1F, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(1);
816  if ( showeringBefore ) NShowers++ ;
817  if (foundMatchingSegment(1, protoTrack, CSClist2F, usedCSClist2F, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(2);
818  if ( showeringBefore ) NShowers++ ;
819  if (foundMatchingSegment(1, protoTrack, CSClist3F, usedCSClist3F, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(3);
820  if ( showeringBefore ) NShowers++ ;
821  if (foundMatchingSegment(1, protoTrack, CSClist4F, usedCSClist4F, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(4);
822  if ( showeringBefore ) NShowers++ ;
823 
824 
825  // adding showering information
826  if ( layers.size() < 2 && !ShoweringSegments.empty() ) {
827  for (size_t i=0; i< ShoweringSegments.size(); i++) {
828  if ( ShoweringLayers[i] <= layers[ layers.size()-1] ) continue;
829  protoTrack.push_back( ShoweringSegments[i] );
830  layers.push_back( ShoweringLayers[i] );
831  }
832  }
833  ShoweringSegments.clear() ;
834  ShoweringLayers.clear() ;
835 
836 
837  TrajectorySeed thisSeed;
838  if ( layers.size() < 2 ) {
839  thisSeed = muonSeedCreate_->createSeed(4, protoTrack, layers, NShowers, NShowerSeg );
840  } else {
841  if ( fabs( gp.eta() ) > 1.7 ) {
842  thisSeed = muonSeedCreate_->createSeed(5, protoTrack, layers, NShowers, NShowerSeg );
843  } else {
844  thisSeed = muonSeedCreate_->createSeed(1, protoTrack, layers, NShowers, NShowerSeg );
845  }
846  }
847  // Add the seeds to master collection
848  rawSeeds.push_back(thisSeed);
849  etaOfSeed.push_back(eta_temp);
850  phiOfSeed.push_back(phi_temp);
851  nSegOnSeed.push_back( protoTrack.size() );
852 
853  // mark this segment as used
854  usedCSClist0F[index] = true;
855  }
856 
857 
858  // Loop over all possible ME1/2 ME1/3 segment to form seeds:
859  index = -1;
860  for (SegmentContainer::iterator it = CSClist1F.begin(); it != CSClist1F.end(); ++it ){
861 
862  index++;
863 
864  if (usedCSClist1F[index] == true) continue;
865  if ( int ((*it)->recHits().size()) < minCSCHitsPerSegment ) continue;
866 
867  //double dof = static_cast<double>( (*it)->degreesOfFreedom() ) ;
868  //if ( ((*it)->chi2()/dof) > 20000.0 ) continue;
869 
870  // Global position of starting point for protoTrack
871  GlobalPoint gp = (*it)->globalPosition();
872  float eta_temp = gp.eta();
873  float phi_temp = gp.phi();
874  bool showeringBefore = false;
875  NShowerSeg = 0;
876  if ( IdentifyShowering( CSClist1F, usedCSClist1F, eta_temp, phi_temp, 1, NShowerSeg) ) showeringBefore = true ;
877  int NShowers = 0;
878  if ( showeringBefore ) {
879  // usedCSClist1F[index] = true;
880  NShowers++ ;
881  }
882 
883  SegmentContainer protoTrack;
884  protoTrack.push_back(*it);
885 
886  std::vector<int> layers;
887  layers.push_back(1);
888 
889  // Try adding segment from other stations
890  if (foundMatchingSegment(1, protoTrack, CSClist2F, usedCSClist2F, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(2);
891  if ( showeringBefore ) NShowers++ ;
892  if (foundMatchingSegment(1, protoTrack, CSClist3F, usedCSClist3F, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(3);
893  if ( showeringBefore ) NShowers++ ;
894  if (foundMatchingSegment(1, protoTrack, CSClist4F, usedCSClist4F, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(4);
895  if ( showeringBefore ) NShowers++ ;
896 
897 
898  // adding showering information
899  if ( layers.size() < 2 && !ShoweringSegments.empty() ) {
900  for (size_t i=0; i< ShoweringSegments.size(); i++) {
901  if ( ShoweringLayers[i] <= layers[ layers.size()-1] ) continue;
902  protoTrack.push_back( ShoweringSegments[i] );
903  layers.push_back( ShoweringLayers[i] );
904  }
905  }
906  ShoweringSegments.clear() ;
907  ShoweringLayers.clear() ;
908 
909 
910  TrajectorySeed thisSeed;
911  if ( layers.size() < 2) {
912  thisSeed = muonSeedCreate_->createSeed(4, protoTrack, layers, NShowers, NShowerSeg );
913  } else {
914  thisSeed = muonSeedCreate_->createSeed(1, protoTrack, layers, NShowers, NShowerSeg );
915  }
916 
917  // Add the seeds to master collection
918  rawSeeds.push_back(thisSeed);
919  etaOfSeed.push_back(eta_temp);
920  phiOfSeed.push_back(phi_temp);
921  nSegOnSeed.push_back( protoTrack.size() );
922 
923  // mark this segment as used
924  usedCSClist1F[index] = true;
925  }
926 
927 
928  // Loop over all possible ME2 segment to form seeds:
929  index = -1;
930  for (SegmentContainer::iterator it = CSClist2F.begin(); it != CSClist2F.end(); ++it ){
931 
932  index++;
933 
934  if (usedCSClist2F[index] == true) continue;
935  if ( int ((*it)->recHits().size()) < minCSCHitsPerSegment ) continue;
936 
937  double dof = static_cast<double>( (*it)->degreesOfFreedom() ) ;
938  if ( ((*it)->chi2()/dof) > 20000.0 ) continue;
939 
940  // Global position of starting point for protoTrack
941  GlobalPoint gp = (*it)->globalPosition();
942  float eta_temp = gp.eta();
943  float phi_temp = gp.phi();
944  bool showeringBefore = false;
945  NShowerSeg = 0;
946  if ( IdentifyShowering( CSClist2F, usedCSClist2F, eta_temp, phi_temp, 2, NShowerSeg) ) showeringBefore = true ;
947  int NShowers = 0;
948  if ( showeringBefore ) {
949  // usedCSClist2F[index] = true;
950  NShowers++ ;
951  }
952 
953  SegmentContainer protoTrack;
954  protoTrack.push_back(*it);
955 
956  std::vector<int> layers;
957  layers.push_back(2);
958 
959  // Try adding segment from other stations
960  if (foundMatchingSegment(1, protoTrack, CSClist3F, usedCSClist3F, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(3);
961  if ( showeringBefore ) NShowers++ ;
962  if (foundMatchingSegment(1, protoTrack, CSClist4F, usedCSClist4F, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(4);
963  if ( showeringBefore ) NShowers++ ;
964 
965 
966  // adding showering information
967  if ( layers.size() < 2 && !ShoweringSegments.empty() ) {
968  for (size_t i=0; i< ShoweringSegments.size(); i++) {
969  if ( ShoweringLayers[i] <= layers[ layers.size()-1] ) continue;
970  protoTrack.push_back( ShoweringSegments[i] );
971  layers.push_back( ShoweringLayers[i] );
972  }
973  }
974  ShoweringSegments.clear() ;
975  ShoweringLayers.clear() ;
976 
977  TrajectorySeed thisSeed;
978  if ( layers.size() < 2) {
979  thisSeed = muonSeedCreate_->createSeed(4, protoTrack, layers, NShowers, NShowerSeg );
980  } else {
981  thisSeed = muonSeedCreate_->createSeed(1, protoTrack, layers, NShowers, NShowerSeg );
982  }
983 
984  // Add the seeds to master collection
985  rawSeeds.push_back(thisSeed);
986  etaOfSeed.push_back(eta_temp);
987  phiOfSeed.push_back(phi_temp);
988  nSegOnSeed.push_back( protoTrack.size() );
989 
990  // mark this segment as used
991  usedCSClist2F[index] = true;
992  }
993 
994  // Loop over all possible ME3 segment to form seeds:
995  index = -1;
996  for (SegmentContainer::iterator it = CSClist3F.begin(); it != CSClist3F.end(); ++it ){
997 
998  index++;
999 
1000  if (usedCSClist3F[index] == true) continue;
1001  if ( int ((*it)->recHits().size()) < minCSCHitsPerSegment ) continue;
1002 
1003  double dof = static_cast<double>( (*it)->degreesOfFreedom() ) ;
1004  if ( ((*it)->chi2()/dof) > 20000.0 ) continue;
1005 
1006  // Global position of starting point for protoTrack
1007  GlobalPoint gp = (*it)->globalPosition();
1008  float eta_temp = gp.eta();
1009  float phi_temp = gp.phi();
1010  bool showeringBefore = false;
1011  NShowerSeg = 0;
1012  if ( IdentifyShowering( CSClist3F, usedCSClist3F, eta_temp, phi_temp, 3, NShowerSeg) ) showeringBefore = true ;
1013  int NShowers = 0;
1014  if ( showeringBefore ) {
1015  // usedCSClist3F[index] = true;
1016  NShowers++ ;
1017  }
1018 
1019  SegmentContainer protoTrack;
1020  protoTrack.push_back(*it);
1021 
1022  std::vector<int> layers;
1023  layers.push_back(2);
1024 
1025  // Try adding segment from other stations
1026  if (foundMatchingSegment(1, protoTrack, CSClist4F, usedCSClist4F, eta_temp, phi_temp, layers[layers.size()-1], showeringBefore )) layers.push_back(4);
1027  if ( showeringBefore ) NShowers++ ;
1028 
1029 
1030  // adding showering information
1031  if ( layers.size() < 2 && !ShoweringSegments.empty() ) {
1032  for (size_t i=0; i< ShoweringSegments.size(); i++) {
1033  if ( ShoweringLayers[i] <= layers[ layers.size()-1] ) continue;
1034  protoTrack.push_back( ShoweringSegments[i] );
1035  layers.push_back( ShoweringLayers[i] );
1036  }
1037  }
1038  ShoweringSegments.clear() ;
1039  ShoweringLayers.clear() ;
1040 
1041  // mark this segment as used
1042  usedCSClist3F[index] = true;
1043 
1044  if ( layers.size() < 2 ) continue;
1045 
1046  TrajectorySeed thisSeed = muonSeedCreate_->createSeed(1, protoTrack, layers, NShowers, NShowerSeg );
1047 
1048  // Add the seeds to master collection
1049  rawSeeds.push_back(thisSeed);
1050  etaOfSeed.push_back(eta_temp);
1051  phiOfSeed.push_back(phi_temp);
1052  nSegOnSeed.push_back( protoTrack.size() );
1053 
1054  }
1055 
1056 
1057  /* *********************************************************************************************************************
1058  * Clean up raw seed collection and pass to master collection
1059  * *********************************************************************************************************************/
1060 
1061  if (debug) std::cout << "*** CLEAN UP " << std::endl;
1062  if (debug) std::cout << "Number of seeds BEFORE " << rawSeeds.size() << std::endl;
1063 
1064 
1065  int goodSeeds = 0;
1066 
1067  theSeeds = muonSeedClean_->seedCleaner(eventSetup,rawSeeds);
1068  goodSeeds = theSeeds.size();
1069 
1070  //std::cout << " === Before Cleaning : " << rawSeeds.size() <<std::endl;
1071  //std::cout << " => AFTER :" << goodSeeds << std::endl;
1072 
1073  if (debug) std::cout << "Number of seeds AFTER " << goodSeeds << std::endl;
1074 
1075 
1076  return goodSeeds;
1077 }
1078 
1079 
1080 
1081 /* *********************************************************************************************************************
1082  * Try to match segment from different station (layer)
1083  *
1084  * Note type = 1 --> endcap
1085  * = 2 --> overlap
1086  * = 3 --> barrel
1087  * *********************************************************************************************************************/
1088 
1091  BoolContainer& usedSeg, float& eta_last, float& phi_last, int& lastLayer, bool& showeringBefore ) {
1092 
1093  bool ok = false;
1094  int scanlayer = (lastLayer < 0 ) ? (lastLayer-1) : (lastLayer+1) ;
1095 
1096  if ( IdentifyShowering( segs, usedSeg, eta_last, phi_last, scanlayer, NShowerSeg ) ) {
1097  showeringBefore = true;
1098  return ok ;
1099  }
1100 
1101  // Setup the searching cone-size
1102  // searching cone-size should changes with bending power
1103  double maxdEta;
1104  double maxdPhi;
1105  if ( type == 1 ) {
1106  // CSC
1107  maxdEta = maxDeltaEtaCSC;
1108  if ( lastLayer == 0 || lastLayer == 1 ) {
1109  if ( fabs(eta_last) < 2.1 ) { maxdPhi = maxDeltaPhiCSC; }
1110  else { maxdPhi = 0.06; }
1111  }
1112  else if (lastLayer== 2 ) { maxdPhi = 0.5*maxDeltaPhiCSC; }
1113  else { maxdPhi = 0.2*maxDeltaPhiCSC; }
1114 
1115  } else if ( type == 2 ) {
1116  // Overlap
1117  maxdEta = maxDeltaEtaOverlap;
1118  if ( lastLayer == -1 ) { maxdPhi = maxDeltaPhiDT; }
1119  else { maxdPhi = maxDeltaPhiOverlap; }
1120 
1121  } else {
1122  // DT
1123  maxdEta = maxDeltaEtaDT;
1124  if ( lastLayer == -1 ) { maxdPhi = maxDeltaPhiDT; }
1125  else if ( lastLayer == -2 ) { maxdPhi = 0.8*maxDeltaPhiDT; }
1126  else { maxdPhi = 0.4*maxDeltaPhiDT; }
1127 
1128  }
1129 
1130  // if previous layer showers, limite the maxdPhi < 0.06
1131  if ( showeringBefore && maxdPhi > 0.03 ) maxdPhi = 0.03;
1132  // reset the showering flag
1133  showeringBefore = false ;
1134 
1135  // global phi/eta from previous segment
1136  float eta_temp = eta_last;
1137  float phi_temp = phi_last;
1138 
1139  // Index counter to keep track of element used in segs
1140  int index = -1;
1141  int best_match = index;
1142  float best_R = sqrt( (maxdEta*maxdEta) + (maxdPhi*maxdPhi) );
1143  float best_chi2 = 200;
1144  int best_dimension = 2;
1145  int best_nhits = minDTHitsPerSegment;
1146  if( type == 1 ) best_nhits = minCSCHitsPerSegment;
1147  // Loop over segments in other station (layer) and find candidate match
1148  for (SegmentContainer::iterator it=segs.begin(); it!=segs.end(); ++it){
1149 
1150  index++;
1151 
1152  // Not to get confused: eta_last is from the previous layer.
1153  // This is only to find the best set of segments by comparing at the distance layer-by-layer
1154  GlobalPoint gp2 = (*it)->globalPosition();
1155  double dh = fabs( gp2.eta() - eta_temp );
1156  double df = fabs( gp2.phi() - phi_temp );
1157  double dR = sqrt( (dh*dh) + (df*df) );
1158 
1159  // dEta and dPhi should be within certain range
1160  bool case1 = ( dh < maxdEta && df < maxdPhi ) ? true:false ;
1161  // for DT station 4 ; CSCSegment is always 4D
1162  bool case2 = ( ((*it)->dimension()!= 4) && (dh< 0.5) && (df < maxdPhi) ) ? true:false ;
1163  if ( !case1 && !case2 ) continue;
1164 
1165  int NRechits = muonSeedClean_->NRecHitsFromSegment( &*(*it) ) ;
1166 
1167  if ( NRechits < best_nhits ) continue;
1168  best_nhits = NRechits ;
1169 
1170  // reject 2D segments if 4D segments are available
1171  if ( (*it)->dimension() < best_dimension ) continue;
1172  best_dimension = (*it)->dimension();
1173 
1174  // pick the segment with best chi2/dof within a fixed cone size
1175  if ( dR > best_R ) continue;
1176 
1177  // select smaller chi2/dof
1178  double dof = static_cast<double>( (*it)->degreesOfFreedom() ) ;
1180  if ( (*it)->chi2()/dof < 0.001 && NRechits < 6 && type == 1) continue;
1181  if ( (*it)->chi2()/dof > best_chi2 ) continue;
1182  best_chi2 = (*it)->chi2()/dof ;
1183  best_match = index;
1184  // propagate the eta and phi to next layer
1185  if ((*it)->dimension() != 4 ) {
1186  // Self assignment, is this a bug??
1187  // should this have been (phi/eta)_last = (phi/eta)_temp to make it reset?
1188  //phi_last = phi_last;
1189  //eta_last = eta_last;
1190  } else {
1191  phi_last = gp2.phi();
1192  eta_last = gp2.eta();
1193  }
1194  }
1195 
1196  if (best_match < 0) return ok;
1197 
1198  // Add best matching segment to protoTrack:
1199  index = -1;
1200  for (SegmentContainer::iterator it=segs.begin(); it!=segs.end(); ++it){
1201  index++;
1202  if (index != best_match) continue;
1203  protoTrack.push_back(*it);
1204  usedSeg[best_match] = true;
1205  ok = true;
1206  }
1207  return ok;
1208 }
1209 
1210 
1211 bool MuonSeedBuilder::IdentifyShowering( SegmentContainer& segs, BoolContainer& usedSeg, float& eta_last, float& phi_last, int layer, int& NShoweringSegments ) {
1212 
1213  bool showering = false ;
1214 
1215  int nSeg = 0 ;
1216  int nRhits = 0 ;
1217  double nChi2 = 9999. ;
1218  int theOrigin = -1;
1219  std::vector<int> badtag;
1220  int index = -1;
1221  double aveEta = 0.0;
1222  for (SegmentContainer::iterator it = segs.begin(); it != segs.end(); ++it){
1223 
1224  index++;
1225  GlobalPoint gp = (*it)->globalPosition();
1226  double dh = gp.eta() - eta_last ;
1227  double df = gp.phi() - phi_last ;
1228  double dR = sqrt( (dh*dh) + (df*df) ) ;
1229 
1230  double dof = static_cast<double>( (*it)->degreesOfFreedom() );
1231  double nX2 = (*it)->chi2() / dof ;
1232 
1233  bool isDT = false ;
1234  DetId geoId = (*it)->geographicalId();
1235  if ( geoId.subdetId() == MuonSubdetId::DT ) isDT = true;
1236 
1237  if (dR < 0.3 ) {
1238  nSeg++ ;
1239  badtag.push_back( index ) ;
1240  aveEta += fabs( gp.eta() ) ;
1241  // pick up the best segment from showering chamber
1242  int rh = muonSeedClean_->NRecHitsFromSegment( &*(*it) );
1243  if (rh < 6 && !isDT) continue;
1244  if (rh < 12 && isDT) continue;
1245  if ( rh > nRhits ) {
1246  nRhits = rh ;
1247  if ( nX2 > nChi2 ) continue ;
1248  if (layer != 0 && layer != 1 && layer != -1 ) {
1249  theOrigin = index ;
1250  }
1251  }
1252  }
1253 
1254  }
1255  aveEta = aveEta/static_cast<double>(nSeg) ;
1256  bool isME11A = (aveEta >= 2.1 && layer == 0) ? true : false ;
1257  bool isME12 = (aveEta > 1.2 && aveEta <= 1.65 && layer == 1) ? true : false ;
1258  bool isME11 = (aveEta > 1.65 && aveEta <= 2.1 && layer == 0) ? true : false ;
1259  bool is1stLayer = (layer == -1 || layer == 0 || isME12 || isME11 || isME11A) ? true : false ;
1260 
1261  NShoweringSegments += nSeg;
1262 
1263  if ( nSeg > 3 && !isME11A ) showering = true ;
1264  if ( nSeg > 6 && isME11A ) showering = true ;
1265 
1266  // if showering, flag all segments in order to skip this layer for pt estimation except 1st layer
1267  //std::cout<<" from Showering "<<std::endl;
1268  if (showering && !is1stLayer ) {
1269  for (std::vector<int>::iterator it = badtag.begin(); it != badtag.end(); ++it ) {
1270  usedSeg[*it] = true;
1271  if ( (*it) != theOrigin ) continue;
1272  ShoweringSegments.push_back( segs[*it] );
1273  ShoweringLayers.push_back( layer );
1274  }
1275  }
1276  return showering ;
1277 
1278 }
1279 
1280 double MuonSeedBuilder::etaError(const GlobalPoint gp, double rErr) {
1281 
1282  double dHdTheta = 0.0;
1283  double dThetadR = 0.0;
1284  double etaErr = 1.0;
1285 
1286  if (gp.perp() != 0) {
1287 
1288  dHdTheta = ( gp.mag()+gp.z() )/gp.perp();
1289  dThetadR = gp.z() / gp.perp2() ;
1290  etaErr = 0.25 * (dHdTheta * dThetadR) * (dHdTheta * dThetadR) * rErr ;
1291  }
1292 
1293  return etaErr;
1294 }
1295 
bool debug
group the seeds
type
Definition: HCALResponse.h:21
T getParameter(std::string const &) const
double etaError(const GlobalPoint gp, double rErr)
calculate the eta error from global R error
#define case2(par1, par2)
Definition: vmac.h:92
std::vector< LayerSetAndLayers > layers(const SeedingLayerSetsHits &sets)
Definition: LayerTriplets.cc:4
T perp() const
Definition: PV3DBase.h:72
MuonTransientTrackingRecHit::MuonRecHitContainer SegmentContainer
SegmentContainer ShoweringSegments
bool IdentifyShowering(SegmentContainer &segs, BoolContainer &usedSeg, float &eta_last, float &phi_last, int layer, int &NShoweringSegments)
identify the showering layer
int build(edm::Event &event, const edm::EventSetup &eventSetup, TrajectorySeedCollection &seeds)
Build seed collection.
bool foundMatchingSegment(int type, SegmentContainer &protoTrack, SegmentContainer &segments, BoolContainer &usedSeg, float &eta_temp, float &phi_temp, int &lastLayer, bool &showeringBefore)
Find segment which matches protoTrack for endcap only.
Geom::Phi< T > phi() const
Definition: PV3DBase.h:69
TrajectorySeed createSeed(int type, const SegmentContainer &seg, const std::vector< int > &layers, int NShower, int NShowerSeg)
Create a seed from set of segments.
T perp2() const
Definition: PV3DBase.h:71
bool isDT(GeomDetEnumerators::SubDetector m)
MuonDetLayerMeasurements * muonMeasurements
MuonSeedCleaner * muonSeedClean_
const MagneticField * BField
edm::InputTag theCSCSegmentLabel
Name of the CSC segment collection.
std::deque< bool > BoolContainer
T mag() const
Definition: PV3DBase.h:67
edm::InputTag theDTSegmentLabel
Name of the DT segment collection.
std::vector< int > ShoweringLayers
std::vector< TrajectorySeed > TrajectorySeedCollection
MuonRecHitContainer recHits(const DetLayer *layer, const edm::Event &iEvent)
returns the rechits which are on the layer
T sqrt(T t)
Definition: SSEVec.h:18
T z() const
Definition: PV3DBase.h:64
void setBField(const MagneticField *theField)
Cache Magnetic Field for current event.
int subdetId() const
get the contents of the subdetector field (not cast into any detector&#39;s numbering enum) ...
Definition: DetId.h:37
Definition: DetId.h:18
int NRecHitsFromSegment(const TrackingRecHit &rhit)
const std::vector< const DetLayer * > & allDTLayers() const
return the DT DetLayers (barrel), inside-out
#define case1(par)
Definition: vmac.h:81
const std::vector< const DetLayer * > & forwardCSCLayers() const
return the forward (+Z) CSC DetLayers, inside-out
T eta() const
Definition: PV3DBase.h:76
MuonSeedBuilder(const edm::ParameterSet &, edm::ConsumesCollector &)
Constructor.
MuonServiceProxy * theService
~MuonSeedBuilder()
Destructor.
static const int DT
Definition: MuonSubdetId.h:12
std::vector< TrajectorySeed > seedCleaner(const edm::EventSetup &eventSetup, std::vector< TrajectorySeed > &seeds)
Cache pointer to geometry.
const std::vector< const DetLayer * > & backwardCSCLayers() const
return the backward (-Z) CSC DetLayers, inside-out
MuonSeedCreator * muonSeedCreate_
Create seed according to region (CSC, DT, Overlap)
const MuonDetLayerGeometry * muonLayers
dh
Definition: cuy.py:353
Definition: event.py:1