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InOutConversionSeedFinder Class Reference

#include <InOutConversionSeedFinder.h>

Inheritance diagram for InOutConversionSeedFinder:
ConversionSeedFinder

Public Member Functions

 InOutConversionSeedFinder (const edm::ParameterSet &config, edm::ConsumesCollector &&iC)
 
virtual void makeSeeds (const edm::Handle< edm::View< reco::CaloCluster > > &allBc) const
 
void setTracks (std::vector< Trajectory > const &in)
 
virtual ~InOutConversionSeedFinder ()
 
- Public Member Functions inherited from ConversionSeedFinder
void clear ()
 
 ConversionSeedFinder ()
 
 ConversionSeedFinder (const edm::ParameterSet &config, edm::ConsumesCollector &iC)
 
const MeasurementTrackergetMeasurementTracker () const
 
std::vector< const DetLayer * >
const & 
layerList () const
 
TrajectorySeedCollectionseeds ()
 
virtual void setCandidate (float e, GlobalPoint pos) const
 
void setEvent (const edm::Event &e)
 
void setEventSetup (const edm::EventSetup &es)
 Initialize EventSetup objects at each event. More...
 
void setMeasurementTracker (const MeasurementTracker *tracker) const
 
void setNavigationSchool (const NavigationSchool *navigation)
 
virtual ~ConversionSeedFinder ()
 

Private Types

typedef FreeTrajectoryState FTS
 
typedef TrajectoryStateOnSurface TSOS
 

Private Member Functions

void completeSeed (const TrajectoryMeasurement &m1, FreeTrajectoryState &fts, const Propagator *propagator, int ilayer) const
 
void createSeed (const TrajectoryMeasurement &m1, const TrajectoryMeasurement &m2) const
 
virtual void fillClusterSeeds () const
 
virtual void findSeeds (const TrajectoryStateOnSurface &startingState, float signedpt, unsigned int startingLayer) const
 
std::vector< const
reco::CaloCluster * > 
getSecondCaloClusters (const GlobalPoint &conversionPosition, float charge) const
 
void startSeed (const FreeTrajectoryState *fts, const TrajectoryStateOnSurface &stateAtPreviousLayer, int charge, int layer) const
 

Private Attributes

edm::Handle< edm::View
< reco::CaloCluster > > 
bcCollection_
 
edm::ParameterSet conf_
 
std::vector< TrajectoryinputTracks_
 
int maxNumberOfInOutSeedsPerInputTrack_
 
TrajectoryMeasurementmyPointer
 
int nSeedsPerInputTrack_
 
float the2ndHitdphi_
 
float the2ndHitdzConst_
 
float the2ndHitdznSigma_
 
std::vector
< TrajectoryMeasurement
theFirstMeasurements_
 
std::vector< TrajectorytheOutInTracks_
 
reco::CaloCluster theSecondBC_
 
int track2Charge_
 
GlobalVector track2InitialMomentum_
 

Additional Inherited Members

- Protected Member Functions inherited from ConversionSeedFinder
void findLayers () const
 
void findLayers (const FreeTrajectoryState &fts) const
 
void printLayer (int i) const
 
FreeTrajectoryState trackStateFromClusters (int aCharge, const GlobalPoint &gpOrigine, PropagationDirection dir, float scaleFactor) const
 
- Protected Attributes inherited from ConversionSeedFinder
edm::EDGetTokenT< reco::BeamSpotbeamSpotToken_
 
PropagationDirection dir_
 
edm::EDGetTokenT
< MeasurementTrackerEvent
measurementTrkToken_
 
float theBCEnergy_
 
GlobalPoint theBCPosition_
 
reco::BeamSpot theBeamSpot_
 
edm::ESHandle
< GeometricSearchTracker
theGeomSearchTracker_
 
std::vector< const DetLayer * > theLayerList_
 
const MeasurementTrackertheMeasurementTracker_
 
std::string theMeasurementTrackerName_
 
edm::ESHandle< MagneticFieldtheMF_
 
const NavigationSchooltheNavigationSchool_ = 0
 
const PropagatorthePropagatorAlongMomentum_
 
const PropagatorthePropagatorOppositeToMomentum_
 
reco::CaloClustertheSC_
 
float theSCenergy_
 
GlobalPoint theSCPosition_
 
TrajectorySeedCollection theSeeds_
 
edm::Handle
< MeasurementTrackerEvent
theTrackerData_
 
const TrackingGeometrytheTrackerGeom_
 
KFUpdator theUpdator_
 

Detailed Description

Author
Nancy Marinelli, U. of Notre Dame, US

Definition at line 36 of file InOutConversionSeedFinder.h.

Member Typedef Documentation

Definition at line 41 of file InOutConversionSeedFinder.h.

Definition at line 42 of file InOutConversionSeedFinder.h.

Constructor & Destructor Documentation

InOutConversionSeedFinder::InOutConversionSeedFinder ( const edm::ParameterSet config,
edm::ConsumesCollector &&  iC 
)

Definition at line 21 of file InOutConversionSeedFinder.cc.

References conf_, edm::ParameterSet::getParameter(), maxNumberOfInOutSeedsPerInputTrack_, the2ndHitdphi_, the2ndHitdzConst_, and the2ndHitdznSigma_.

21  :
23 {
24 
25 
26  // std::cout << " InOutConversionSeedFinder CTOR " << "\n";
27 
28  maxNumberOfInOutSeedsPerInputTrack_ = conf_.getParameter<int>("maxNumOfSeedsInOut");
29  //the2ndHitdphi_ = 0.008;
30  the2ndHitdphi_ = 0.01;
31  the2ndHitdzConst_ = 5.;
32  the2ndHitdznSigma_ = 2.;
33 
34 
35 }
T getParameter(std::string const &) const
tuple conf
Definition: dbtoconf.py:185
InOutConversionSeedFinder::~InOutConversionSeedFinder ( )
virtual

Definition at line 39 of file InOutConversionSeedFinder.cc.

39  {
40  //std::cout << " InOutConversionSeedFinder DTOR " << "\n";
41 }

Member Function Documentation

void InOutConversionSeedFinder::completeSeed ( const TrajectoryMeasurement m1,
FreeTrajectoryState fts,
const Propagator propagator,
int  ilayer 
) const
private
 }

/ end debug

Definition at line 593 of file InOutConversionSeedFinder.cc.

References GeomDetEnumerators::barrel, createSeed(), ConversionSeedFinder::getMeasurementTracker(), i, ConversionSeedFinder::layerList(), DetLayer::location(), LayerMeasurements::measurements(), ConversionSeedFinder::printLayer(), TrajectoryMeasurement::recHit(), mathSSE::sqrt(), GeometricSearchDet::surface(), the2ndHitdphi_, the2ndHitdzConst_, the2ndHitdznSigma_, and ConversionSeedFinder::theTrackerData_.

Referenced by findSeeds().

594  {
595 
596  //std::cout<< "InOutConversionSeedFinder::completeSeed ilayer " << ilayer << "\n";
597  // A seed is made from 2 Trajectory Measuremennts. The 1st is the input
598  // argument m1. This routine looks for the 2nd measurement in layer ilayer
599  // Begin by making a new much stricter MeasurementEstimator based on the
600  // position errors of the 1st hit.
601  printLayer(ilayer);
602 
603  MeasurementEstimator * newEstimator;
604  std::vector<const DetLayer*> allLayers=layerList();
605  const DetLayer * layer = allLayers[ilayer];
606 
608  // if ( layer->location() == GeomDetEnumerators::barrel ) {const BarrelDetLayer * barrelLayer = dynamic_cast<const BarrelDetLayer*>(layer);
609  // //std::cout << "InOutConversionSeedFinder::completeSeed **** Barrel on layer " << ilayer << " R= " << barrelLayer->specificSurface().radius() << "\n";
610  // } else {
611  // const ForwardDetLayer * forwardLayer = dynamic_cast<const ForwardDetLayer*>(layer);
612  // //std::cout << "InOutConversionSeedFinder::completeSeed **** Forw on layer " << ilayer << " Z= " << forwardLayer->specificSurface().position().z() << "\n";
615 
616 
617 
618 
619  if (layer->location() == GeomDetEnumerators::barrel ) {
620 
621  float dz = sqrt(the2ndHitdznSigma_*the2ndHitdznSigma_*m1.recHit()->globalPositionError().czz()
623  newEstimator = new ConversionBarrelEstimator(-the2ndHitdphi_, the2ndHitdphi_, -dz, dz);
624 
625  }
626  else {
627  float m1dr = sqrt(m1.recHit()->localPositionError().yy());
628  float dr = sqrt(the2ndHitdznSigma_*the2ndHitdznSigma_*m1dr*m1dr
630 
631  newEstimator = new ConversionForwardEstimator(-the2ndHitdphi_, the2ndHitdphi_, dr);
632  }
633 
634 
635  //std::cout << "InOutConversionSeedFinder::completeSeed fts For the TSOS " << fts << "\n";
636 
637  TSOS tsos(fts, layer->surface() );
638 
639  if ( !tsos.isValid() ) {
640  //std::cout << "InOutConversionSeedFinder::completeSeed TSOS is not valid " << "\n";
641  }
642 
643  //std::cout << "InOutConversionSeedFinder::completeSeed TSOS " << tsos << "\n";
644  //std::cout << "InOutConversionSeedFinder::completeSeed propagationDirection " << int(propagator->propagationDirection() ) << "\n";
645  //std::cout << "InOutConversionSeedFinder::completeSeed pointer to estimator " << newEstimator << "\n";
646 
647  LayerMeasurements theLayerMeasurements_( *this->getMeasurementTracker(), *theTrackerData_ );
648  std::vector<TrajectoryMeasurement> measurements = theLayerMeasurements_.measurements( *layer, tsos, *propagator, *newEstimator);
649  //std::cout << "InOutConversionSeedFinder::completeSeed Found " << measurements.size() << " second hits " << "\n";
650  delete newEstimator;
651 
652  for(unsigned int i = 0; i < measurements.size(); ++i) {
653  if( measurements[i].recHit()->isValid() ) {
654  createSeed(m1, measurements[i]);
655  }
656  }
657 
658 
659 
660 
661 
662 
663 }
std::vector< const DetLayer * > const & layerList() const
virtual const BoundSurface & surface() const =0
The surface of the GeometricSearchDet.
int i
Definition: DBlmapReader.cc:9
const MeasurementTracker * getMeasurementTracker() const
ConstRecHitPointer const & recHit() const
virtual Location location() const =0
Which part of the detector (barrel, endcap)
void printLayer(int i) const
T sqrt(T t)
Definition: SSEVec.h:48
edm::Handle< MeasurementTrackerEvent > theTrackerData_
void createSeed(const TrajectoryMeasurement &m1, const TrajectoryMeasurement &m2) const
void InOutConversionSeedFinder::createSeed ( const TrajectoryMeasurement m1,
const TrajectoryMeasurement m2 
) const
private

Definition at line 667 of file InOutConversionSeedFinder.cc.

References alongMomentum, TrajectoryStateOnSurface::curvilinearError(), benchmark_cfg::errors, TrajectoryMeasurement::estimate(), TrajectoryStateOnSurface::freeTrajectoryState(), TrajectoryStateOnSurface::isValid(), TrajectoryMeasurement::layer(), maxNumberOfInOutSeedsPerInputTrack_, nSeedsPerInputTrack_, trajectoryStateTransform::persistentState(), TrajectoryMeasurement::predictedState(), Propagator::propagate(), edm::OwnVector< T, P >::push_back(), TrajectoryMeasurement::recHit(), ConversionSeedFinder::thePropagatorAlongMomentum_, ConversionSeedFinder::theSeeds_, ConversionSeedFinder::theUpdator_, track2Charge_, track2InitialMomentum_, and KFUpdator::update().

Referenced by completeSeed().

667  {
668 
669  //std::cout << "InOutConversionSeedFinder::createSeed " << "\n";
670 
671  if ( m1.predictedState().isValid() ) {
672  GlobalTrajectoryParameters newgtp( m1.recHit()->globalPosition(), track2InitialMomentum_, track2Charge_, &(*theMF_) );
674  FreeTrajectoryState fts(newgtp, errors);
675 
676  TrajectoryStateOnSurface state1 = thePropagatorAlongMomentum_->propagate(fts, m1.recHit()->det()->surface());
677 
678  /*
679  //std::cout << "hit surface " << m1.recHit()->det()->surface().position() << "\n";
680  //std::cout << "prop to " << typeid( m1.recHit()->det()->surface() ).name() <<"\n";
681  //std::cout << "prop to first hit " << state1 << "\n";
682  //std::cout << "update to " << m1.recHit()->globalPosition() << "\n";
683  */
684 
685 
686 
687 
688  if ( state1.isValid() ) {
689 
690  TrajectoryStateOnSurface updatedState1 = theUpdator_.update(state1, *m1.recHit() );
691 
692  if ( updatedState1.isValid() ) {
693 
694  TrajectoryStateOnSurface state2 = thePropagatorAlongMomentum_->propagate(*updatedState1.freeTrajectoryState(), m2.recHit()->det()->surface());
695 
696  if ( state2.isValid() ) {
697 
698  TrajectoryStateOnSurface updatedState2 = theUpdator_.update(state2, *m2.recHit() );
699  TrajectoryMeasurement meas1(state1, updatedState1, m1.recHit() , m1.estimate(), m1.layer());
700  TrajectoryMeasurement meas2(state2, updatedState2, m2.recHit() , m2.estimate(), m2.layer());
701 
703  myHits.push_back(meas1.recHit()->hit()->clone());
704  myHits.push_back(meas2.recHit()->hit()->clone());
705 
706  //std::cout << "InOutConversionSeedFinder::createSeed new seed " << "\n";
708 
709 
710 
711  PTrajectoryStateOnDet const & ptsod= trajectoryStateTransform::persistentState(state2, meas2.recHit()->hit()->geographicalId().rawId() );
712  //std::cout << " InOutConversionSeedFinder::createSeed New seed parameters " << state2 << "\n";
713 
714 
715 
716  theSeeds_.push_back(TrajectorySeed( ptsod, myHits, alongMomentum ));
718 
719  //std::cout << "InOutConversionSeedFinder::createSeed New seed hit 1 R " << m1.recHit()->globalPosition().perp() << "\n";
720  //std::cout << "InOutConversionSeedFinder::createSeed New seed hit 2 R " << m2.recHit()->globalPosition().perp() << "\n";
721 
722  }
723  }
724  }
725  }
726 
727 
728 }
const Propagator * thePropagatorAlongMomentum_
virtual FreeTrajectoryState propagate(const FreeTrajectoryState &ftsStart, const GlobalPoint &pDest) const final
Definition: Propagator.h:119
TrajectoryStateOnSurface const & predictedState() const
ConstRecHitPointer const & recHit() const
const CurvilinearTrajectoryError & curvilinearError() const
PTrajectoryStateOnDet persistentState(const TrajectoryStateOnSurface &ts, unsigned int detid)
TrajectorySeedCollection theSeeds_
void push_back(D *&d)
Definition: OwnVector.h:280
TrajectoryStateOnSurface update(const TrajectoryStateOnSurface &, const TrackingRecHit &) const
Definition: KFUpdator.cc:75
FreeTrajectoryState const * freeTrajectoryState(bool withErrors=true) const
const DetLayer * layer() const
void InOutConversionSeedFinder::fillClusterSeeds ( ) const
privatevirtual

Definition at line 68 of file InOutConversionSeedFinder.cc.

References GeomDetEnumerators::barrel, TrajectoryStateOnSurface::freeTrajectoryState(), i, TrackingGeometry::idToDet(), TrajectoryStateOnSurface::isValid(), ConversionSeedFinder::layerList(), myPointer, nSeedsPerInputTrack_, ConversionSeedFinder::printLayer(), Propagator::propagate(), TrajectoryMeasurement::recHit(), startSeed(), GeometricSearchDet::surface(), theOutInTracks_, ConversionSeedFinder::thePropagatorOppositeToMomentum_, ConversionSeedFinder::theTrackerGeom_, and TrajectoryMeasurement::updatedState().

Referenced by makeSeeds().

68  {
69 
70  std::vector<Trajectory>::const_iterator outInTrackItr;
71 
72  //std::cout << " InOutConversionSeedFinder::fillClusterSeeds outInTracks_.size " << theOutInTracks_.size() << "\n";
73  //Start looking for seeds for both of the 2 best tracks from the inward tracking
74 
76  /*
77  for(outInTrackItr = theOutInTracks_.begin(); outInTrackItr != theOutInTracks_.end(); ++outInTrackItr) {
78 
79 
80  //std::cout << " InOutConversionSeedFinder::fillClusterSeeds out in input track hits " << (*outInTrackItr).foundHits() << "\n";
81  DetId tmpId = DetId( (*outInTrackItr).seed().startingState().detId());
82  const GeomDet* tmpDet = this->getMeasurementTracker()->geomTracker()->idToDet( tmpId );
83  GlobalVector gv = tmpDet->surface().toGlobal( (*outInTrackItr).seed().startingState().parameters().momentum() );
84 
85 
86  //std::cout << " InOutConversionSeedFinder::fillClusterSeed was built from seed position " <<gv << " charge " << (*outInTrackItr).seed().startingState().parameters().charge() << "\n";
87 
88  Trajectory::DataContainer m= outInTrackItr->measurements();
89  int nHit=0;
90  for (Trajectory::DataContainer::iterator itm = m.begin(); itm != m.end(); ++itm) {
91  if ( itm->recHit()->isValid() ) {
92  nHit++;
93  //std::cout << nHit << ") Valid RecHit global position " << itm->recHit()->globalPosition() << " R " << itm->recHit()->globalPosition().perp() << " phi " << itm->recHit()->globalPosition().phi() << " eta " << itm->recHit()->globalPosition().eta() << "\n";
94  }
95 
96  }
97 
98  }
99 
100  */
101 
102 
103  //Start looking for seeds for both of the 2 best tracks from the inward tracking
104  for(outInTrackItr = theOutInTracks_.begin(); outInTrackItr != theOutInTracks_.end(); ++outInTrackItr) {
105  //std::cout << " InOutConversionSeedFinder::fillClusterSeeds out in input track hits " << (*outInTrackItr).foundHits() << "\n";
107 
108  //Find the first valid hit of the track
109  // Measurements are ordered according to the direction in which the trajectories were built
110  std::vector<TrajectoryMeasurement> measurements = (*outInTrackItr).measurements();
111 
112  std::vector<const DetLayer*> allLayers=layerList();
113 
114  //std::cout << " InOutConversionSeedFinder::fill clusterSeed allLayers.size " << allLayers.size() << "\n";
115  for(unsigned int i = 0; i < allLayers.size(); ++i) {
116  //std::cout << " allLayers " << allLayers[i] << "\n";
117  printLayer(i);
118  }
119 
120 
121 
122  std::vector<const DetLayer*> myLayers;
123  myLayers.clear();
124  std::vector<TrajectoryMeasurement>::reverse_iterator measurementItr;
125  std::vector<TrajectoryMeasurement*> myItr;
126  // TrajectoryMeasurement* myPointer=0;
127  myPointer=0;
128  //std::cout << " InOutConversionSeedFinder::fillClusterSeeds measurements.size " << measurements.size() <<"\n";
129 
130  for(measurementItr = measurements.rbegin() ; measurementItr != measurements.rend(); ++measurementItr) {
131 
132 
133  if( (*measurementItr).recHit()->isValid()) {
134 
135  //std::cout << " InOutConversionSeedFinder::fillClusterSeeds measurement on layer " << measurementItr->layer() << " " <<&(*measurementItr) << " position " << measurementItr->recHit()->globalPosition() << " R " << sqrt( measurementItr->recHit()->globalPosition().x()*measurementItr->recHit()->globalPosition().x() + measurementItr->recHit()->globalPosition().y()*measurementItr->recHit()->globalPosition().y() ) << " Z " << measurementItr->recHit()->globalPosition().z() << " phi " << measurementItr->recHit()->globalPosition().phi() << "\n";
136 
137 
138  myLayers.push_back( measurementItr->layer() ) ;
139  myItr.push_back( &(*measurementItr) );
140 
141 
142  }
143  }
144 
145 
146 
147  //std::cout << " InOutConversionSeedFinder::fillClusterSeed myLayers.size " << myLayers.size() << "\n";
148  // for( unsigned int i = 0; i < myLayers.size(); ++i) {
150  // }
151 
152 
153  if ( myItr.size()==0 ) {
154  //std::cout << "HORRENDOUS ERROR! No meas on track!" << "\n";
155  }
156  unsigned int ilayer;
157  for(ilayer = 0; ilayer < allLayers.size(); ++ilayer) {
158  //std::cout << " allLayers in the search loop " << allLayers[ilayer] << " " << myLayers[0] << "\n";
159  if ( allLayers[ilayer] == myLayers[0]) {
160 
161  myPointer=myItr[0];
162 
163  //std::cout << " allLayers in the search loop allLayers[ilayer] == myLayers[0]) " << allLayers[ilayer] << " " << myLayers[0] << " myPointer " << myPointer << "\n";
164 
165  //std::cout << "Layer " << ilayer << " contains the first valid measurement " << "\n";
166  printLayer(ilayer);
167 
168  if ( (myLayers[0])->location() == GeomDetEnumerators::barrel ) {
169  // const BarrelDetLayer * barrelLayer = dynamic_cast<const BarrelDetLayer*>(myLayers[0]);
170  //std::cout << " InOutConversionSeedFinder::fillClusterSeeds **** firstHit found in Barrel on layer " << ilayer << " R= " << barrelLayer->specificSurface().radius() << "\n";
171  } else {
172  //const ForwardDetLayer * forwardLayer = dynamic_cast<const ForwardDetLayer*>(myLayers[0]);
173  //std::cout << " InOutwardConversionSeedFinder::fillClusterSeeds **** firstHit found in Forw on layer " << ilayer << " Z= " << forwardLayer->specificSurface().position().z() << "\n";
174  }
175 
176 
177  break;
178 
179  } else if ( allLayers[ilayer] == myLayers[1] ) {
180  myPointer=myItr[1];
181 
182  //std::cout << " allLayers in the search loop allLayers[ilayer] == myLayers[1]) " << allLayers[ilayer] << " " << myLayers[1] << " myPointer " << myPointer << "\n";
183 
184  //std::cout << "Layer " << ilayer << " contains the first innermost valid measurement " << "\n";
185  if ( (myLayers[1])->location() == GeomDetEnumerators::barrel ) {
186  // const BarrelDetLayer * barrelLayer = dynamic_cast<const BarrelDetLayer*>(myLayers[1]);
187  //std::cout << " InOutConversionSeedFinder::fillClusterSeeds **** 2ndHit found in Barrel on layer " << ilayer << " R= " << barrelLayer->specificSurface().radius() << "\n";
188  } else {
189  //const ForwardDetLayer * forwardLayer = dynamic_cast<const ForwardDetLayer*>(myLayers[1]);
190  //std::cout << " InOutwardConversionSeedFinder::fillClusterSeeds **** 2ndHitfound on forw layer " << ilayer << " Z= " << forwardLayer->specificSurface().position().z() << "\n";
191  }
192 
193 
194 
195  break;
196 
197  }
198  }
199 
200 
201 
202  if(ilayer == allLayers.size()) {
203  //std::cout << "InOutConversionSeedFinder::fillClusterSeeds ERROR could not find layer on list" << "\n";
204  return;
205  }
206 
207  //PropagatorWithMaterial reversePropagator(oppositeToMomentum, 0.000511, &(*theMF_) );
209 
210  //std::cout << " InOutConversionSeedFinder::fillClusterSeeds First FTS charge " << fts->charge() << " Position " << fts->position() << " momentum " << fts->momentum() << " R " << sqrt(fts->position().x()*fts->position().x() + fts->position().y()* fts->position().y() ) << " Z " << fts->position().z() << " phi " << fts->position().phi() << " fts parameters " << fts->parameters() << "\n";
211 
212 
213  while (ilayer > 0) {
214 
215  //std::cout << " InOutConversionSeedFinder::fillClusterSeeds looking for 2nd seed from layer " << ilayer << "\n";
216 
217  // if ( (allLayers[ilayer])->location() == GeomDetEnumerators::barrel ) {const BarrelDetLayer * barrelLayer = dynamic_cast<const BarrelDetLayer*>(allLayers[ilayer]);
218  //std::cout << " InOutConversionSeedFinder::fillClusterSeeds **** Barrel on layer " << ilayer << " R= " << barrelLayer->specificSurface().radius() << "\n";
219  // } else {
220  //const ForwardDetLayer * forwardLayer = dynamic_cast<const ForwardDetLayer*>(allLayers[ilayer]);
221  //std::cout << " InOutConversionSeedFinder::fillClusterSeeds **** Forw on layer " << ilayer << " Z= " << forwardLayer->specificSurface().position().z() << "\n";
222  // }
223 
224 
225  const DetLayer * previousLayer = allLayers[ilayer];
226  TrajectoryStateOnSurface stateAtPreviousLayer;
227  //std::cout << " InOutConversionSeedFinder::fillClusterSeeds previousLayer->surface() position before " <<allLayers[ilayer] << " " << previousLayer->surface().position() << " layer location " << previousLayer->location() << "\n";
228  // Propagate to the previous layer
229  // The present layer is actually included in the loop so that a partner can be searched for
230  // Applying the propagator to the same layer does not do any harm. It simply does nothing
231 
232  // const Propagator& newProp=thePropagatorOppositeToMomentum_;
233  //std::cout << " InOutConversionSeedFinder::fillClusterSeeds reversepropagator direction " << thePropagatorOppositeToMomentum_->propagationDirection() << "\n";
234  if (ilayer-1>0) {
235 
236  if ( allLayers[ilayer] == myLayers[0] ) {
237  //std::cout << " innermost hit R " << myPointer->recHit()->globalPosition().perp() << " Z " << myPointer->recHit()->globalPosition().z() << " phi " <<myPointer->recHit()->globalPosition().phi() << "\n";
238  //std::cout << " surface R " << theTrackerGeom_->idToDet( myPointer->recHit() ->geographicalId())->surface().position().perp() << " Z " << theTrackerGeom_->idToDet( myPointer->recHit() ->geographicalId())->surface().position().z() << " phi " << theTrackerGeom_->idToDet( myPointer->recHit() ->geographicalId())->surface().position().phi() << "\n";
239 
240  stateAtPreviousLayer= thePropagatorOppositeToMomentum_->propagate(*fts, theTrackerGeom_->idToDet( myPointer->recHit() ->geographicalId())->surface() );
241 
242  } else {
243 
244  stateAtPreviousLayer= thePropagatorOppositeToMomentum_->propagate(*fts, previousLayer->surface() );
245  //std::cout << " InOutConversionSeedFinder::fillClusterSeeds previousLayer->surface() position after " << previousLayer->surface().position() << " layer location " << previousLayer->location() << "\n";
246 
247  }
248 
249  } else if ( ilayer-1==0) {
250 
251 
254 
255  //stateAtPreviousLayer= thePropagatorOppositeToMomentum_->propagate(*fts, theTrackerGeom_->idToDet( myPointer->recHit() ->geographicalId())->surface() );
256  stateAtPreviousLayer= thePropagatorOppositeToMomentum_->propagate(*fts, previousLayer->surface() );
257 
258  }
259 
260  if(!stateAtPreviousLayer.isValid()) {
261  //std::cout << "InOutConversionSeedFinder::fillClusterSeeds ERROR:could not propagate back to layer " << ilayer << "\n";
263  } else {
264  //std::cout << "InOutConversionSeedFinder::fillClusterSeeds stateAtPreviousLayer is valid. Propagating back to layer " << ilayer << "\n";
265  //std::cout << "InOutConversionSeedFinder::fillClusterSeeds stateAtPreviousLayer R " << stateAtPreviousLayer.globalPosition().perp() << " Z " << stateAtPreviousLayer.globalPosition().z() << " phi " << stateAtPreviousLayer.globalPosition().phi() << "\n";
266 
267  startSeed(fts, stateAtPreviousLayer, -1, ilayer );
268 
269 
270  }
271 
272  --ilayer;
273 
274  }
275 
276  if ( ilayer == 0) {
277 
278 
279  // if ( (allLayers[ilayer])->location() == GeomDetEnumerators::barrel ) {const BarrelDetLayer * barrelLayer = dynamic_cast<const BarrelDetLayer*>(allLayers[ilayer]);
280  // //std::cout << " InOutConversionSeedFinder::fillClusterSeeds **** Barrel on layer " << ilayer << " R= " << barrelLayer->specificSurface().radius() << "\n";
281  // } else {
282  //const ForwardDetLayer * forwardLayer = dynamic_cast<const ForwardDetLayer*>(allLayers[ilayer]);
283  //std::cout << " InOutConversionSeedFinder::fillClusterSeeds **** Forw on layer " << ilayer << " Z= " << forwardLayer->specificSurface().position().z() << "\n";
284  // }
285  const DetLayer * previousLayer = allLayers[ilayer];
286  TrajectoryStateOnSurface stateAtPreviousLayer;
287  stateAtPreviousLayer= thePropagatorOppositeToMomentum_->propagate(*fts, previousLayer->surface() );
288 
289  if(!stateAtPreviousLayer.isValid()) {
290  //std::cout << "InOutConversionSeedFinder::fillClusterSeeds ERROR:could not propagate back to layer " << ilayer << "\n";
292  } else {
293  //std::cout << "InOutConversionSeedFinder::fillClusterSeeds stateAtPreviousLayer is valid. Propagating back to layer " << ilayer << "\n";
294  //std::cout << "InOutConversionSeedFinder::fillClusterSeeds stateAtPreviousLayer R " << stateAtPreviousLayer.globalPosition().perp() << " Z " << stateAtPreviousLayer.globalPosition().z() << " phi " << stateAtPreviousLayer.globalPosition().phi() << "\n";
295 
296  startSeed(fts, stateAtPreviousLayer, -1, ilayer );
297  }
298 
299 
300  }
301 
302 
303 
304 
305  } // End loop over Out In tracks
306 
307 
308 
309 }
std::vector< const DetLayer * > const & layerList() const
virtual const BoundSurface & surface() const =0
The surface of the GeometricSearchDet.
virtual FreeTrajectoryState propagate(const FreeTrajectoryState &ftsStart, const GlobalPoint &pDest) const final
Definition: Propagator.h:119
int i
Definition: DBlmapReader.cc:9
ConstRecHitPointer const & recHit() const
const Propagator * thePropagatorOppositeToMomentum_
TrajectoryMeasurement * myPointer
void startSeed(const FreeTrajectoryState *fts, const TrajectoryStateOnSurface &stateAtPreviousLayer, int charge, int layer) const
FreeTrajectoryState const * freeTrajectoryState(bool withErrors=true) const
void printLayer(int i) const
const TrackingGeometry * theTrackerGeom_
virtual const GeomDet * idToDet(DetId) const =0
TrajectoryStateOnSurface const & updatedState() const
std::vector< Trajectory > theOutInTracks_
void InOutConversionSeedFinder::findSeeds ( const TrajectoryStateOnSurface startingState,
float  signedpt,
unsigned int  startingLayer 
) const
privatevirtual

Rememeber that this alwyas give back at least one dummy-innvalid it which prevents from everything getting stopped

Definition at line 410 of file InOutConversionSeedFinder.cc.

References GeomDetEnumerators::barrel, completeSeed(), dir, ConversionSeedFinder::getMeasurementTracker(), TrajectoryStateOnSurface::globalDirection(), TrajectoryStateOnSurface::globalPosition(), ConversionSeedFinder::layerList(), DetLayer::location(), contentValuesFiles::m, myPointer, reco::CaloCluster::position(), TrajectoryMeasurement::recHit(), ConversionFastHelix::stateAtVertex(), GeometricSearchDet::surface(), theFirstMeasurements_, ConversionSeedFinder::thePropagatorAlongMomentum_, theSecondBC_, ConversionSeedFinder::theTrackerData_, track2InitialMomentum_, x, detailsBasic3DVector::y, and detailsBasic3DVector::z.

Referenced by startSeed().

412  {
413 
414 
415  std::vector<const DetLayer*> allLayers=layerList();
416  //std::cout << "InOutConversionSeedFinder::findSeeds starting forward propagation from startingLayer " << startingLayer << "\n";
417 
418 
419  // create error matrix
421  m(0,0) = 0.1; m(1,1) = 0.0001 ; m(2,2) = 0.0001 ;
422  m(3,3) = 0.0001 ; m(4,4) = 0.001;
423 
424  // Make an FTS consistent with the start point, start direction and curvature
426  startingState.globalDirection(),
427  double(transverseCurvature), 0, &(*theMF_) ),
429  if (fts.momentum().mag2() == 0){
430  edm::LogWarning("FailedToInitiateSeeding")<< " initial FTS has a zero momentum, probably because of the zero field. ";
431  return;
432  }
433  //std::cout << " InOutConversionSeedFinder::findSeeds startingState R "<< startingState.globalPosition().perp() << " Z " << startingState.globalPosition().z() << " phi " << startingState.globalPosition().phi() << " position " << startingState.globalPosition() << "\n";
434  //std::cout << " InOutConversionSeedFinder::findSeeds Initial FTS charge " << fts.charge() << " curvature " << transverseCurvature << "\n";
435  //std::cout << " InOutConversionSeedFinder::findSeeds Initial FTS parameters " << fts << "\n";
436 
437 
438  //float dphi = 0.01;
439  float dphi = 0.03;
440  float zrange = 5.;
441  for( unsigned int ilayer = startingLayer; ilayer <= startingLayer+1 && (ilayer < allLayers.size()-2); ++ilayer) {
442  const DetLayer * layer = allLayers[ilayer];
443 
444 
445 
447  // if ( layer->location() == GeomDetEnumerators::barrel ) {const BarrelDetLayer * barrelLayer = dynamic_cast<const BarrelDetLayer*>(layer);
448  // //std::cout << "InOutConversionSeedFinder::findSeeds **** Barrel on layer " << ilayer << " R= " << barrelLayer->specificSurface().radius() << "\n";
449  // } else {
450  // const ForwardDetLayer * forwardLayer = dynamic_cast<const ForwardDetLayer*>(layer);
452  // }
453  // // end debug
454 
455 
456 
457  MeasurementEstimator * newEstimator=0;
458  if (layer->location() == GeomDetEnumerators::barrel ) {
459  //std::cout << "InOutConversionSeedFinder::findSeeds Barrel ilayer " << ilayer << "\n";
460  newEstimator = new ConversionBarrelEstimator(-dphi, dphi, -zrange, zrange);
461  }
462  else {
463  //std::cout << "InOutConversionSeedFinder::findSeeds Forward ilayer " << ilayer << "\n";
464  newEstimator = new ConversionForwardEstimator(-dphi, dphi, 15.);
465  }
466 
467 
468  theFirstMeasurements_.clear();
469  // Get measurements compatible with the FTS and Estimator
470  TSOS tsos(fts, layer->surface() );
471 
472  //std::cout << "InOutConversionSeedFinder::findSeed propagationDirection " << int(thePropagatorAlongMomentum_->propagationDirection() ) << "\n";
474  LayerMeasurements theLayerMeasurements_( *this->getMeasurementTracker(), *theTrackerData_ );
475 
476  theFirstMeasurements_ = theLayerMeasurements_.measurements( *layer, tsos, *thePropagatorAlongMomentum_, *newEstimator);
477 
478  delete newEstimator;
479  //std::cout << "InOutConversionSeedFinder::findSeeds Found " << theFirstMeasurements_.size() << " first hits" << "\n";
480 
481  if ( theFirstMeasurements_.size() == 1 ) { // only dummy hit found: start finding the seed from the innermost hit of the OutIn track
482 
483 
485  GlobalVector dir = startingState.globalDirection();
486  GlobalPoint back1mm = myPointer->recHit()->globalPosition();
487 
488  back1mm -= dir.unit()*0.1;
489  //std::cout << " InOutConversionSeedFinder:::findSeeds going to make the helix using back1mm " << back1mm << "\n";
490  ConversionFastHelix helix(bcPos, myPointer->recHit()->globalPosition(), back1mm, &(*theMF_));
491 
492  helix.stateAtVertex();
493  //std::cout << " InOutConversionSeedFinder:::findSeeds helix status " <<helix.isValid() << std::endl;
494  if ( !helix.isValid() ) continue;
495 
496  track2InitialMomentum_= helix.stateAtVertex().momentum();
497 
498  // Make a new FTS
500  myPointer->recHit()->globalPosition(), startingState.globalDirection(),
501  helix.stateAtVertex().transverseCurvature(), 0, &(*theMF_)),
503 
504 
507 
508 
509  } else {
510 
511 
512 
513  //Loop over compatible hits
514  int mea=0;
515  for(std::vector<TrajectoryMeasurement>::iterator tmItr = theFirstMeasurements_.begin(); tmItr !=theFirstMeasurements_.end(); ++tmItr) {
516 
517  mea++;
518 
519 
520  if (tmItr->recHit()->isValid() ) {
521  // Make a new helix as in fillClusterSeeds() but using the hit position
522  //std::cout << "InOutConversionSeedFinder::findSeeds hit R " << tmItr->recHit()->globalPosition().perp() << " Z " << tmItr->recHit()->globalPosition().z() << " " << tmItr->recHit()->globalPosition() << "\n";
524  GlobalVector dir = startingState.globalDirection();
525  GlobalPoint back1mm = tmItr->recHit()->globalPosition();
526 
527  back1mm -= dir.unit()*0.1;
528  //std::cout << " InOutConversionSeedFinder:::findSeeds going to make the helix using back1mm " << back1mm << "\n";
529  ConversionFastHelix helix(bcPos, tmItr->recHit()->globalPosition(), back1mm, &(*theMF_));
530 
531  helix.stateAtVertex();
532  //std::cout << " InOutConversionSeedFinder:::findSeeds helix status " <<helix.isValid() << std::endl;
533  if ( !helix.isValid() ) continue;
534 
535  track2InitialMomentum_= helix.stateAtVertex().momentum();
536 
537  //std::cout << "InOutConversionSeedFinder::findSeeds Updated estimatedPt = " << helix.stateAtVertex().momentum().perp() << " curvature " << helix.stateAtVertex().transverseCurvature() << "\n";
538  // << ", bcet = " << theBc->Et()
539  // << ", estimatedPt/bcet = " << estimatedPt/theBc->Et() << endl;
540 
541 
542  // Make a new FTS
544  tmItr->recHit()->globalPosition(), startingState.globalDirection(),
545  helix.stateAtVertex().transverseCurvature(), 0, &(*theMF_)),
547 
548  //std::cout << "InOutConversionSeedFinder::findSeeds new FTS charge " << newfts.charge() << "\n";
549 
550 
551  /*
552  // Soome diagnostic output
553  // may be useful - comparission of the basic cluster position
554  // with the ecal impact position of the track
555  TrajectoryStateOnSurface stateAtECAL
556  = forwardPropagator.propagate(newfts, ECALSurfaces::barrel());
557  if (!stateAtECAL.isValid() || abs(stateAtECAL.globalPosition().eta())>1.479) {
558  if (startingState.globalDirection().eta() > 0.) {
559  stateAtECAL = forwardPropagator.propagate(newfts,
560  ECALSurfaces::positiveEtaEndcap());
561  } else {
562  stateAtECAL = forwardPropagator.propagate(newfts,
563  ECALSurfaces::negativeEtaEndcap());
564  }
565  }
566  GlobalPoint ecalImpactPosition = stateAtECAL.isValid() ? stateAtECAL.globalPosition() : GlobalPoint(0.,0.,0.);
567  cout << "Projected fts positon at ECAL surface: " <<
568  ecalImpactPosition << " bc position: " << theBc->Position() << endl;
569  */
570 
571 
572  completeSeed(*tmItr, newfts, thePropagatorAlongMomentum_, ilayer+1);
573  completeSeed(*tmItr, newfts, thePropagatorAlongMomentum_, ilayer+2);
574 
575 
576  }
577 
578  }
579 
580  }
581 
582 
583  }
584 
585 
586 
587 }
const Propagator * thePropagatorAlongMomentum_
const math::XYZPoint & position() const
cluster centroid position
Definition: CaloCluster.h:126
std::vector< const DetLayer * > const & layerList() const
virtual const BoundSurface & surface() const =0
The surface of the GeometricSearchDet.
const MeasurementTracker * getMeasurementTracker() const
ConstRecHitPointer const & recHit() const
virtual Location location() const =0
Which part of the detector (barrel, endcap)
ROOT::Math::SMatrixIdentity AlgebraicMatrixID
GlobalPoint globalPosition() const
ROOT::Math::SMatrix< double, 5, 5, ROOT::Math::MatRepSym< double, 5 > > AlgebraicSymMatrix55
std::vector< TrajectoryMeasurement > theFirstMeasurements_
float float float z
TrajectoryMeasurement * myPointer
void completeSeed(const TrajectoryMeasurement &m1, FreeTrajectoryState &fts, const Propagator *propagator, int ilayer) const
dbl *** dir
Definition: mlp_gen.cc:35
Definition: DDAxes.h:10
edm::Handle< MeasurementTrackerEvent > theTrackerData_
GlobalVector globalDirection() const
std::vector< const reco::CaloCluster * > InOutConversionSeedFinder::getSecondCaloClusters ( const GlobalPoint conversionPosition,
float  charge 
) const
private

Definition at line 367 of file InOutConversionSeedFinder.cc.

References bcCollection_, i, PV3DBase< T, PVType, FrameType >::phi(), and query::result.

Referenced by startSeed().

367  {
368 
369 
370  std::vector<const reco::CaloCluster*> result;
371 
372  //std::cout << "InOutConversionSeedFinder::getSecondCaloClusters" << "\n";
373 
374  Geom::Phi<float> theConvPhi(conversionPosition.phi() );
375 
376  for (unsigned i = 0; i < bcCollection_->size(); ++i ) {
377 
378  Geom::Phi<float> theBcPhi( bcCollection_->ptrAt(i)->position().phi() );
379  //std::cout<< "InOutConversionSeedFinder::getSecondCaloClusters BC energy " << bcCollection_->ptrAt(i)->energy() << " Calo cluster phi " << theBcPhi << " " << bcCollection_->ptrAt(i)->position().phi()<< " theConvPhi " << theConvPhi << "\n";
380 
381  // Require phi of cluster to be consistent with the conversion
382  // position and the track charge
383 
384 
385  if (fabs(theBcPhi-theConvPhi ) < .5 &&
386  ((charge<0 && theBcPhi-theConvPhi >-.5) ||
387  (charge>0 && theBcPhi-theConvPhi <.5))){
389 
390  //result.push_back(&(*bcItr));
391 
392  result.push_back(&(*(bcCollection_->ptrAt(i)) ));
393 
394  }
395 
396 
397 
398 
399  }
400 
401 
402 
403  return result;
404 
405 
406 }
int i
Definition: DBlmapReader.cc:9
Geom::Phi< T > phi() const
Definition: PV3DBase.h:69
tuple result
Definition: query.py:137
edm::Handle< edm::View< reco::CaloCluster > > bcCollection_
void InOutConversionSeedFinder::makeSeeds ( const edm::Handle< edm::View< reco::CaloCluster > > &  allBc) const
virtual

Implements ConversionSeedFinder.

Definition at line 45 of file InOutConversionSeedFinder.cc.

References bcCollection_, fillClusterSeeds(), ConversionSeedFinder::findLayers(), inputTracks_, theFirstMeasurements_, theOutInTracks_, and ConversionSeedFinder::theSeeds_.

45  {
46 
47 
48  //std::cout << " InOutConversionSeedFinder::makeSeeds() " << "\n";
49  theSeeds_.clear();
50  //std::cout << " Check Calo cluster collection size " << allBC->size() << "\n";
51  bcCollection_= allBC;
52 
53 
54  findLayers();
55 
56 
58  //std::cout << "Built vector of seeds of size " << theSeeds_.size() << "\n" ;
59 
60 
61  theOutInTracks_.clear();
62  inputTracks_.clear();
63  theFirstMeasurements_.clear();
64 
65 }
std::vector< TrajectoryMeasurement > theFirstMeasurements_
TrajectorySeedCollection theSeeds_
std::vector< Trajectory > inputTracks_
edm::Handle< edm::View< reco::CaloCluster > > bcCollection_
std::vector< Trajectory > theOutInTracks_
virtual void fillClusterSeeds() const
void InOutConversionSeedFinder::setTracks ( std::vector< Trajectory > const &  in)
inline

Definition at line 60 of file InOutConversionSeedFinder.h.

References recoMuon::in, and theOutInTracks_.

void InOutConversionSeedFinder::startSeed ( const FreeTrajectoryState fts,
const TrajectoryStateOnSurface stateAtPreviousLayer,
int  charge,
int  layer 
) const
private

Definition at line 313 of file InOutConversionSeedFinder.cc.

References FreeTrajectoryState::charge(), dir, findSeeds(), getSecondCaloClusters(), TrajectoryStateOnSurface::globalDirection(), TrajectoryStateOnSurface::globalPosition(), reco::CaloCluster::position(), ConversionFastHelix::stateAtVertex(), theSecondBC_, track2Charge_, TrajectoryStateOnSurface::transverseCurvature(), x, detailsBasic3DVector::y, and detailsBasic3DVector::z.

Referenced by fillClusterSeeds().

313  {
314 
315  //std::cout << "InOutConversionSeedFinder::startSeed ilayer " << ilayer << "\n";
316  // Get a list of basic clusters that are consistent with a track
317  // starting at the assumed conversion point with opp. charge to the
318  // inward track. Loop over these basic clusters.
319  track2Charge_ = charge*fts->charge();
320  std::vector<const reco::CaloCluster*> bcVec;
321  //std::cout << "InOutConversionSeedFinder::startSeed charge assumed for the in-out track " << track2Charge_ << "\n";
322 
323  // Geom::Phi<float> theConvPhi( stateAtPreviousLayer.globalPosition().phi());
324  //std::cout << "InOutConversionSeedFinder::startSeed stateAtPreviousLayer phi " << stateAtPreviousLayer.globalPosition().phi() << " R " << stateAtPreviousLayer.globalPosition().perp() << " Z " << stateAtPreviousLayer.globalPosition().z() << "\n";
325 
326  bcVec = getSecondCaloClusters(stateAtPreviousLayer.globalPosition(),track2Charge_);
327 
328  std::vector<const reco::CaloCluster*>::iterator bcItr;
329  //std::cout << "InOutConversionSeedFinder::startSeed bcVec.size " << bcVec.size() << "\n";
330 
331  // debug
332  // for(bcItr = bcVec.begin(); bcItr != bcVec.end(); ++bcItr) {
333  // //std::cout << "InOutConversionSeedFinder::startSeed list of bc eta " << (*bcItr)->position().eta() << " phi " << (*bcItr)->position().phi() << " x " << (*bcItr)->position().x() << " y " << (*bcItr)->position().y() << " z " << (*bcItr)->position().z() << "\n";
334  // }
335 
336 
337  for(bcItr = bcVec.begin(); bcItr != bcVec.end(); ++bcItr) {
338 
339  theSecondBC_ = **bcItr;
340  GlobalPoint bcPos((theSecondBC_.position()).x(),
341  (theSecondBC_.position()).y(),
342  (theSecondBC_.position()).z());
343 
344  //std::cout << "InOutConversionSeedFinder::startSeed for bc position x " << bcPos.x() << " y " << bcPos.y() << " z " << bcPos.z() << " eta " << bcPos.eta() << " phi " << bcPos.phi() << "\n";
345  GlobalVector dir = stateAtPreviousLayer.globalDirection();
346  GlobalPoint back1mm = stateAtPreviousLayer.globalPosition();
347  //std::cout << "InOutConversionSeedFinder::startSeed stateAtPreviousLayer.globalPosition() " << back1mm << "\n";
348 
349  back1mm -= dir.unit()*0.1;
350  //std::cout << " InOutConversionSeedFinder:::startSeed going to make the helix using back1mm " << back1mm <<"\n";
351  ConversionFastHelix helix(bcPos, stateAtPreviousLayer.globalPosition(), back1mm, &(*theMF_));
352  helix.stateAtVertex();
353 
354  //std::cout << " InOutConversionSeedFinder:::startSeed helix status " <<helix.isValid() << std::endl;
355  if ( !helix.isValid() ) continue;
356  findSeeds(stateAtPreviousLayer, helix.stateAtVertex().transverseCurvature(), ilayer);
357 
358 
359  }
360 
361 
362 
363 }
const math::XYZPoint & position() const
cluster centroid position
Definition: CaloCluster.h:126
virtual void findSeeds(const TrajectoryStateOnSurface &startingState, float signedpt, unsigned int startingLayer) const
GlobalPoint globalPosition() const
TrackCharge charge() const
float float float z
std::vector< const reco::CaloCluster * > getSecondCaloClusters(const GlobalPoint &conversionPosition, float charge) const
dbl *** dir
Definition: mlp_gen.cc:35
Definition: DDAxes.h:10
GlobalVector globalDirection() const

Member Data Documentation

edm::Handle<edm::View<reco::CaloCluster> > InOutConversionSeedFinder::bcCollection_
mutableprivate

Definition at line 93 of file InOutConversionSeedFinder.h.

Referenced by getSecondCaloClusters(), and makeSeeds().

edm::ParameterSet InOutConversionSeedFinder::conf_
private

Definition at line 65 of file InOutConversionSeedFinder.h.

Referenced by InOutConversionSeedFinder().

std::vector<Trajectory> InOutConversionSeedFinder::inputTracks_
mutableprivate

Definition at line 88 of file InOutConversionSeedFinder.h.

Referenced by makeSeeds().

int InOutConversionSeedFinder::maxNumberOfInOutSeedsPerInputTrack_
private

Definition at line 83 of file InOutConversionSeedFinder.h.

Referenced by createSeed(), and InOutConversionSeedFinder().

TrajectoryMeasurement* InOutConversionSeedFinder::myPointer
mutableprivate

Definition at line 86 of file InOutConversionSeedFinder.h.

Referenced by fillClusterSeeds(), and findSeeds().

int InOutConversionSeedFinder::nSeedsPerInputTrack_
mutableprivate

Definition at line 82 of file InOutConversionSeedFinder.h.

Referenced by createSeed(), and fillClusterSeeds().

float InOutConversionSeedFinder::the2ndHitdphi_
private

Definition at line 77 of file InOutConversionSeedFinder.h.

Referenced by completeSeed(), and InOutConversionSeedFinder().

float InOutConversionSeedFinder::the2ndHitdzConst_
private

Definition at line 78 of file InOutConversionSeedFinder.h.

Referenced by completeSeed(), and InOutConversionSeedFinder().

float InOutConversionSeedFinder::the2ndHitdznSigma_
private

Definition at line 79 of file InOutConversionSeedFinder.h.

Referenced by completeSeed(), and InOutConversionSeedFinder().

std::vector<TrajectoryMeasurement> InOutConversionSeedFinder::theFirstMeasurements_
mutableprivate

Definition at line 90 of file InOutConversionSeedFinder.h.

Referenced by findSeeds(), and makeSeeds().

std::vector<Trajectory> InOutConversionSeedFinder::theOutInTracks_
mutableprivate

Definition at line 89 of file InOutConversionSeedFinder.h.

Referenced by fillClusterSeeds(), makeSeeds(), and setTracks().

reco::CaloCluster InOutConversionSeedFinder::theSecondBC_
mutableprivate

Definition at line 92 of file InOutConversionSeedFinder.h.

Referenced by findSeeds(), and startSeed().

int InOutConversionSeedFinder::track2Charge_
mutableprivate

Definition at line 80 of file InOutConversionSeedFinder.h.

Referenced by createSeed(), and startSeed().

GlobalVector InOutConversionSeedFinder::track2InitialMomentum_
mutableprivate

Definition at line 81 of file InOutConversionSeedFinder.h.

Referenced by createSeed(), and findSeeds().