CMS 3D CMS Logo

List of all members | Public Types | Public Member Functions | Public Attributes | Private Member Functions | Private Attributes
MuonSeedBuilder Class Reference

#include <MuonSeedBuilder.h>

Public Types

typedef std::deque< bool > BoolContainer
 
typedef MuonTransientTrackingRecHit::MuonRecHitContainer SegmentContainer
 

Public Member Functions

int build (edm::Event &event, const edm::EventSetup &eventSetup, TrajectorySeedCollection &seeds)
 Build seed collection. More...
 
 MuonSeedBuilder (const edm::ParameterSet &, edm::ConsumesCollector &)
 Constructor. More...
 
void setBField (const MagneticField *theField)
 Cache pointer to Magnetic field. More...
 
void setGeometry (const MuonDetLayerGeometry *lgeom)
 Cache pointer to geometry. More...
 
 ~MuonSeedBuilder ()
 Destructor. More...
 

Public Attributes

std::vector< int > badSeedLayer
 

Private Member Functions

double etaError (const GlobalPoint gp, double rErr)
 calculate the eta error from global R error More...
 
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. More...
 
bool IdentifyShowering (SegmentContainer &segs, BoolContainer &usedSeg, float &eta_last, float &phi_last, int layer, int &NShoweringSegments)
 identify the showering layer More...
 
std::vector< TrajectorySeedseedCleaner (const edm::EventSetup &eventSetup, std::vector< TrajectorySeed > &seeds)
 cleaning the seeds More...
 

Private Attributes

const MagneticFieldBField
 
bool debug
 group the seeds More...
 
bool enableCSCMeasurement
 
bool enableDTMeasurement
 
float maxDeltaEtaCSC
 
float maxDeltaEtaDT
 
float maxDeltaEtaOverlap
 
float maxDeltaPhiCSC
 
float maxDeltaPhiDT
 
float maxDeltaPhiOverlap
 
float maxEtaResolutionCSC
 
float maxEtaResolutionDT
 
float maxPhiResolutionCSC
 
float maxPhiResolutionDT
 
int minCSCHitsPerSegment
 
int minDTHitsPerSegment
 
const MuonDetLayerGeometrymuonLayers
 
MuonDetLayerMeasurementsmuonMeasurements
 
MuonSeedCleanermuonSeedClean_
 
MuonSeedCreatormuonSeedCreate_
 Create seed according to region (CSC, DT, Overlap) More...
 
int NShowerSeg
 
std::vector< int > ShoweringLayers
 
SegmentContainer ShoweringSegments
 
edm::InputTag theCSCSegmentLabel
 Name of the CSC segment collection. More...
 
edm::InputTag theDTSegmentLabel
 Name of the DT segment collection. More...
 
float theMinMomentum
 
MuonServiceProxytheService
 

Detailed Description

Algorith to build TrajectorySeed for muon standalone reconstruction. The segments are sorted out to make a protoTrack (vector of matching segments in different stations a.k.a. layers), for DT+overlap and CSC regions, in that order. The protoTrack is then passed to the seed creator to create CSC, overlap and/or DT seeds.

Author
Shih-Chuan Kao, Dominique Fortin - UCR

Definition at line 33 of file MuonSeedBuilder.h.

Member Typedef Documentation

typedef std::deque<bool> MuonSeedBuilder::BoolContainer

Definition at line 39 of file MuonSeedBuilder.h.

Definition at line 38 of file MuonSeedBuilder.h.

Constructor & Destructor Documentation

MuonSeedBuilder::MuonSeedBuilder ( const edm::ParameterSet pset,
edm::ConsumesCollector iC 
)
explicit

Constructor.

See header file for a description of this class.

Author
Shih-Chuan Kao, Dominique Fortin - UCR

Definition at line 52 of file MuonSeedBuilder.cc.

References debug, enableCSCMeasurement, enableDTMeasurement, edm::ParameterSet::getParameter(), maxDeltaEtaCSC, maxDeltaEtaDT, maxDeltaEtaOverlap, maxDeltaPhiCSC, maxDeltaPhiDT, maxDeltaPhiOverlap, maxEtaResolutionCSC, maxEtaResolutionDT, maxPhiResolutionCSC, maxPhiResolutionDT, minCSCHitsPerSegment, minDTHitsPerSegment, muonMeasurements, muonSeedClean_, muonSeedCreate_, MuonServiceProxy_cff::MuonServiceProxy, theCSCSegmentLabel, theDTSegmentLabel, and theService.

52  {
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 }
bool debug
group the seeds
T getParameter(std::string const &) const
MuonDetLayerMeasurements * muonMeasurements
MuonSeedCleaner * muonSeedClean_
edm::InputTag theCSCSegmentLabel
Name of the CSC segment collection.
edm::InputTag theDTSegmentLabel
Name of the DT segment collection.
MuonServiceProxy * theService
MuonSeedCreator * muonSeedCreate_
Create seed according to region (CSC, DT, Overlap)
MuonSeedBuilder::~MuonSeedBuilder ( )

Destructor.

Definition at line 104 of file MuonSeedBuilder.cc.

References muonMeasurements, muonSeedClean_, muonSeedCreate_, and theService.

104  {
105 
106  delete muonSeedCreate_;
107  delete muonSeedClean_;
108  if (theService) delete theService;
110 
111 }
MuonDetLayerMeasurements * muonMeasurements
MuonSeedCleaner * muonSeedClean_
MuonServiceProxy * theService
MuonSeedCreator * muonSeedCreate_
Create seed according to region (CSC, DT, Overlap)

Member Function Documentation

int MuonSeedBuilder::build ( edm::Event event,
const edm::EventSetup eventSetup,
TrajectorySeedCollection seeds 
)

Build seed collection.

Definition at line 121 of file MuonSeedBuilder.cc.

References MuonDetLayerGeometry::allDTLayers(), MuonDetLayerGeometry::backwardCSCLayers(), BField, gather_cfg::cout, MuonSeedCreator::createSeed(), debug, PV3DBase< T, PVType, FrameType >::eta(), MuonDetLayerGeometry::forwardCSCLayers(), foundMatchingSegment(), runTauDisplay::gp, mps_fire::i, IdentifyShowering(), LayerTriplets::layers(), minCSCHitsPerSegment, minDTHitsPerSegment, muonLayers, muonMeasurements, muonSeedClean_, muonSeedCreate_, NShowerSeg, PV3DBase< T, PVType, FrameType >::phi(), MuonDetLayerMeasurements::recHits(), MuonSeedCleaner::seedCleaner(), MuonSeedCreator::setBField(), ShoweringLayers, ShoweringSegments, and funct::true.

Referenced by MuonSeedProducer::produce(), and setBField().

121  {
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 }
bool debug
group the seeds
std::vector< LayerSetAndLayers > layers(const SeedingLayerSetsHits &sets)
Definition: LayerTriplets.cc:4
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
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.
MuonDetLayerMeasurements * muonMeasurements
MuonSeedCleaner * muonSeedClean_
const MagneticField * BField
std::deque< bool > BoolContainer
std::vector< int > ShoweringLayers
MuonRecHitContainer recHits(const DetLayer *layer, const edm::Event &iEvent)
returns the rechits which are on the layer
void setBField(const MagneticField *theField)
Cache Magnetic Field for current event.
const std::vector< const DetLayer * > & allDTLayers() const
return the DT DetLayers (barrel), inside-out
const std::vector< const DetLayer * > & forwardCSCLayers() const
return the forward (+Z) CSC DetLayers, inside-out
T eta() const
Definition: PV3DBase.h:76
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
double MuonSeedBuilder::etaError ( const GlobalPoint  gp,
double  rErr 
)
private

calculate the eta error from global R error

Definition at line 1280 of file MuonSeedBuilder.cc.

References PV3DBase< T, PVType, FrameType >::mag(), PV3DBase< T, PVType, FrameType >::perp(), PV3DBase< T, PVType, FrameType >::perp2(), and PV3DBase< T, PVType, FrameType >::z().

1280  {
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 }
T perp() const
Definition: PV3DBase.h:72
T perp2() const
Definition: PV3DBase.h:71
T mag() const
Definition: PV3DBase.h:67
T z() const
Definition: PV3DBase.h:64
bool MuonSeedBuilder::foundMatchingSegment ( int  type,
SegmentContainer protoTrack,
SegmentContainer segments,
BoolContainer usedSeg,
float &  eta_temp,
float &  phi_temp,
int &  lastLayer,
bool &  showeringBefore 
)
private

Find segment which matches protoTrack for endcap only.

segment for seeding , segments collection

reject possible edge segments

Definition at line 1090 of file MuonSeedBuilder.cc.

References case1, case2, cuy::dh, PFRecoTauDiscriminationAgainstElectronDeadECAL_cfi::dR, PV3DBase< T, PVType, FrameType >::eta(), funct::false, IdentifyShowering(), maxDeltaEtaCSC, maxDeltaEtaDT, maxDeltaEtaOverlap, maxDeltaPhiCSC, maxDeltaPhiDT, maxDeltaPhiOverlap, minCSCHitsPerSegment, minDTHitsPerSegment, muonSeedClean_, MuonSeedCleaner::NRecHitsFromSegment(), NShowerSeg, convertSQLiteXML::ok, PV3DBase< T, PVType, FrameType >::phi(), and mathSSE::sqrt().

Referenced by build().

1091  {
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 }
type
Definition: HCALResponse.h:21
#define case2(par1, par2)
Definition: vmac.h:94
bool IdentifyShowering(SegmentContainer &segs, BoolContainer &usedSeg, float &eta_last, float &phi_last, int layer, int &NShoweringSegments)
identify the showering layer
Geom::Phi< T > phi() const
Definition: PV3DBase.h:69
MuonSeedCleaner * muonSeedClean_
T sqrt(T t)
Definition: SSEVec.h:18
int NRecHitsFromSegment(const TrackingRecHit &rhit)
#define case1(par)
Definition: vmac.h:83
T eta() const
Definition: PV3DBase.h:76
dh
Definition: cuy.py:353
bool MuonSeedBuilder::IdentifyShowering ( SegmentContainer segs,
BoolContainer usedSeg,
float &  eta_last,
float &  phi_last,
int  layer,
int &  NShoweringSegments 
)
private

identify the showering layer

Definition at line 1211 of file MuonSeedBuilder.cc.

References cuy::dh, PFRecoTauDiscriminationAgainstElectronDeadECAL_cfi::dR, MuonSubdetId::DT, PV3DBase< T, PVType, FrameType >::eta(), funct::false, runTauDisplay::gp, GeomDetEnumerators::isDT(), muonSeedClean_, MuonSeedCleaner::NRecHitsFromSegment(), PV3DBase< T, PVType, FrameType >::phi(), ShoweringLayers, ShoweringSegments, mathSSE::sqrt(), DetId::subdetId(), and funct::true.

Referenced by build(), and foundMatchingSegment().

1211  {
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 }
SegmentContainer ShoweringSegments
Geom::Phi< T > phi() const
Definition: PV3DBase.h:69
bool isDT(GeomDetEnumerators::SubDetector m)
MuonSeedCleaner * muonSeedClean_
std::vector< int > ShoweringLayers
T sqrt(T t)
Definition: SSEVec.h:18
int subdetId() const
get the contents of the subdetector field (not cast into any detector&#39;s numbering enum) ...
Definition: DetId.h:38
Definition: DetId.h:18
int NRecHitsFromSegment(const TrackingRecHit &rhit)
T eta() const
Definition: PV3DBase.h:76
static const int DT
Definition: MuonSubdetId.h:12
dh
Definition: cuy.py:353
std::vector<TrajectorySeed> MuonSeedBuilder::seedCleaner ( const edm::EventSetup eventSetup,
std::vector< TrajectorySeed > &  seeds 
)
private

cleaning the seeds

void MuonSeedBuilder::setBField ( const MagneticField theField)
inline

Cache pointer to Magnetic field.

Definition at line 53 of file MuonSeedBuilder.h.

References BField, and build().

Referenced by MuonSeedProducer::produce().

53 {BField = theField;}
const MagneticField * BField
void MuonSeedBuilder::setGeometry ( const MuonDetLayerGeometry lgeom)
inline

Cache pointer to geometry.

Definition at line 50 of file MuonSeedBuilder.h.

References muonLayers.

Referenced by MuonSeedProducer::produce().

50 {muonLayers = lgeom;}
const MuonDetLayerGeometry * muonLayers

Member Data Documentation

std::vector<int> MuonSeedBuilder::badSeedLayer

Definition at line 58 of file MuonSeedBuilder.h.

const MagneticField* MuonSeedBuilder::BField
private

Definition at line 145 of file MuonSeedBuilder.h.

Referenced by build(), and setBField().

bool MuonSeedBuilder::debug
private

group the seeds

pick the seed by better parameter error filter out the bad pt seeds, if all are bad pt seeds then keep all collect long seeds pick the seeds w/ 1st layer information and w/ more than 1 segments check overlapping segment for seeds retrieve number of rechits& normalized chi2 of associated segments of a seed retrieve seed global position retrieve seed global momentum

Definition at line 105 of file MuonSeedBuilder.h.

Referenced by build(), and MuonSeedBuilder().

bool MuonSeedBuilder::enableCSCMeasurement
private

Definition at line 111 of file MuonSeedBuilder.h.

Referenced by MuonSeedBuilder().

bool MuonSeedBuilder::enableDTMeasurement
private

Definition at line 108 of file MuonSeedBuilder.h.

Referenced by MuonSeedBuilder().

float MuonSeedBuilder::maxDeltaEtaCSC
private

Definition at line 120 of file MuonSeedBuilder.h.

Referenced by foundMatchingSegment(), and MuonSeedBuilder().

float MuonSeedBuilder::maxDeltaEtaDT
private

Definition at line 124 of file MuonSeedBuilder.h.

Referenced by foundMatchingSegment(), and MuonSeedBuilder().

float MuonSeedBuilder::maxDeltaEtaOverlap
private

Definition at line 122 of file MuonSeedBuilder.h.

Referenced by foundMatchingSegment(), and MuonSeedBuilder().

float MuonSeedBuilder::maxDeltaPhiCSC
private

Definition at line 121 of file MuonSeedBuilder.h.

Referenced by foundMatchingSegment(), and MuonSeedBuilder().

float MuonSeedBuilder::maxDeltaPhiDT
private

Definition at line 125 of file MuonSeedBuilder.h.

Referenced by foundMatchingSegment(), and MuonSeedBuilder().

float MuonSeedBuilder::maxDeltaPhiOverlap
private

Definition at line 123 of file MuonSeedBuilder.h.

Referenced by foundMatchingSegment(), and MuonSeedBuilder().

float MuonSeedBuilder::maxEtaResolutionCSC
private

Definition at line 153 of file MuonSeedBuilder.h.

Referenced by MuonSeedBuilder().

float MuonSeedBuilder::maxEtaResolutionDT
private

Definition at line 152 of file MuonSeedBuilder.h.

Referenced by MuonSeedBuilder().

float MuonSeedBuilder::maxPhiResolutionCSC
private

Definition at line 155 of file MuonSeedBuilder.h.

Referenced by MuonSeedBuilder().

float MuonSeedBuilder::maxPhiResolutionDT
private

Definition at line 154 of file MuonSeedBuilder.h.

Referenced by MuonSeedBuilder().

int MuonSeedBuilder::minCSCHitsPerSegment
private

Definition at line 114 of file MuonSeedBuilder.h.

Referenced by build(), foundMatchingSegment(), and MuonSeedBuilder().

int MuonSeedBuilder::minDTHitsPerSegment
private

Definition at line 117 of file MuonSeedBuilder.h.

Referenced by build(), foundMatchingSegment(), and MuonSeedBuilder().

const MuonDetLayerGeometry* MuonSeedBuilder::muonLayers
private

Definition at line 142 of file MuonSeedBuilder.h.

Referenced by build(), and setGeometry().

MuonDetLayerMeasurements* MuonSeedBuilder::muonMeasurements
private

Definition at line 158 of file MuonSeedBuilder.h.

Referenced by build(), MuonSeedBuilder(), and ~MuonSeedBuilder().

MuonSeedCleaner* MuonSeedBuilder::muonSeedClean_
private
MuonSeedCreator* MuonSeedBuilder::muonSeedCreate_
private

Create seed according to region (CSC, DT, Overlap)

Definition at line 138 of file MuonSeedBuilder.h.

Referenced by build(), MuonSeedBuilder(), and ~MuonSeedBuilder().

int MuonSeedBuilder::NShowerSeg
private

Definition at line 128 of file MuonSeedBuilder.h.

Referenced by build(), and foundMatchingSegment().

std::vector<int> MuonSeedBuilder::ShoweringLayers
private

Definition at line 130 of file MuonSeedBuilder.h.

Referenced by build(), and IdentifyShowering().

SegmentContainer MuonSeedBuilder::ShoweringSegments
private

Definition at line 129 of file MuonSeedBuilder.h.

Referenced by build(), and IdentifyShowering().

edm::InputTag MuonSeedBuilder::theCSCSegmentLabel
private

Name of the CSC segment collection.

Definition at line 135 of file MuonSeedBuilder.h.

Referenced by MuonSeedBuilder().

edm::InputTag MuonSeedBuilder::theDTSegmentLabel
private

Name of the DT segment collection.

Definition at line 132 of file MuonSeedBuilder.h.

Referenced by MuonSeedBuilder().

float MuonSeedBuilder::theMinMomentum
private

Definition at line 156 of file MuonSeedBuilder.h.

MuonServiceProxy* MuonSeedBuilder::theService
private

Definition at line 148 of file MuonSeedBuilder.h.

Referenced by MuonSeedBuilder(), and ~MuonSeedBuilder().