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GlobalHaloAlgo Class Reference

#include <GlobalHaloAlgo.h>

Public Member Functions

reco::GlobalHaloData Calculate (const CaloGeometry &TheCaloGeometry, const CSCGeometry &TheCSCGeometry, const reco::CaloMET &TheCaloMET, edm::Handle< edm::View< reco::Candidate > > &TheCaloTowers, edm::Handle< CSCSegmentCollection > &TheCSCSegments, edm::Handle< CSCRecHit2DCollection > &TheCSCRecHits, edm::Handle< reco::MuonCollection > &TheMuons, const reco::CSCHaloData &TheCSCHaloData, const reco::EcalHaloData &TheEcalHaloData, const reco::HcalHaloData &TheHcalHaloData, bool ishlt=false)
 
 GlobalHaloAlgo ()
 
void SetCaloTowerEtThreshold (float EtMin)
 
void setDPhicalosegmThresholdforCSCCaloMatchingEB (float x)
 
void setDPhicalosegmThresholdforCSCCaloMatchingEE (float x)
 
void setDPhicalosegmThresholdforCSCCaloMatchingHB (float x)
 
void setDPhicalosegmThresholdforCSCCaloMatchingHE (float x)
 
void setDtcalosegmThresholdforCSCCaloMatchingEB (float x)
 
void setDtcalosegmThresholdforCSCCaloMatchingEE (float x)
 
void setDtcalosegmThresholdforCSCCaloMatchingHB (float x)
 
void setDtcalosegmThresholdforCSCCaloMatchingHE (float x)
 
void SetEcalMatchingRadius (float min, float max)
 
void setEtThresholdforCSCCaloMatchingEB (float x)
 
void setEtThresholdforCSCCaloMatchingEE (float x)
 
void setEtThresholdforCSCCaloMatchingHB (float x)
 
void setEtThresholdforCSCCaloMatchingHE (float x)
 
void SetHcalMatchingRadius (float min, float max)
 
void SetMaxSegmentTheta (float x)
 
void setRcaloMinRsegmHighThresholdforCSCCaloMatchingEB (float x)
 
void setRcaloMinRsegmHighThresholdforCSCCaloMatchingEE (float x)
 
void setRcaloMinRsegmHighThresholdforCSCCaloMatchingHB (float x)
 
void setRcaloMinRsegmHighThresholdforCSCCaloMatchingHE (float x)
 
void setRcaloMinRsegmLowThresholdforCSCCaloMatchingEB (float x)
 
void setRcaloMinRsegmLowThresholdforCSCCaloMatchingEE (float x)
 
void setRcaloMinRsegmLowThresholdforCSCCaloMatchingHB (float x)
 
void setRcaloMinRsegmLowThresholdforCSCCaloMatchingHE (float x)
 
 ~GlobalHaloAlgo ()
 

Private Member Functions

void AddtoBeamHaloEBEERechits (edm::RefVector< EcalRecHitCollection > &bhtaggedrechits, reco::GlobalHaloData &thehalodata, bool isbarrel)
 
void AddtoBeamHaloHBHERechits (edm::RefVector< HBHERecHitCollection > &bhtaggedrechits, reco::GlobalHaloData &thehalodata)
 
bool ApplyMatchingCuts (int subdet, bool ishlt, double rhet, double segZ, double rhZ, double segR, double rhR, double segT, double rhT, double segPhi, double rhPhi)
 
bool SegmentMatchingEB (reco::GlobalHaloData &thehalodata, const std::vector< reco::HaloClusterCandidateECAL > &haloclustercands, float iZ, float iR, float iT, float iPhi, bool ishlt)
 
bool SegmentMatchingEE (reco::GlobalHaloData &thehalodata, const std::vector< reco::HaloClusterCandidateECAL > &haloclustercands, float iZ, float iR, float iT, float iPhi, bool ishlt)
 
bool SegmentMatchingHB (reco::GlobalHaloData &thehalodata, const std::vector< reco::HaloClusterCandidateHCAL > &haloclustercands, float iZ, float iR, float iT, float iPhi, bool ishlt)
 
bool SegmentMatchingHE (reco::GlobalHaloData &thehalodata, const std::vector< reco::HaloClusterCandidateHCAL > &haloclustercands, float iZ, float iR, float iT, float iPhi, bool ishlt)
 

Private Attributes

float dphi_thresh_segvsrh_eb
 
float dphi_thresh_segvsrh_ee
 
float dphi_thresh_segvsrh_hb
 
float dphi_thresh_segvsrh_he
 
float dr_highthresh_segvsrh_eb
 
float dr_highthresh_segvsrh_ee
 
float dr_highthresh_segvsrh_hb
 
float dr_highthresh_segvsrh_he
 
float dr_lowthresh_segvsrh_eb
 
float dr_lowthresh_segvsrh_ee
 
float dr_lowthresh_segvsrh_hb
 
float dr_lowthresh_segvsrh_he
 
float dt_segvsrh_eb
 
float dt_segvsrh_ee
 
float dt_segvsrh_hb
 
float dt_segvsrh_he
 
float Ecal_R_Max
 
float Ecal_R_Min
 
float et_thresh_rh_eb
 
float et_thresh_rh_ee
 
float et_thresh_rh_hb
 
float et_thresh_rh_he
 
float Hcal_R_Max
 
float Hcal_R_Min
 
float max_segment_theta
 
float TowerEtThreshold
 

Detailed Description

Definition at line 60 of file GlobalHaloAlgo.h.

Constructor & Destructor Documentation

GlobalHaloAlgo::GlobalHaloAlgo ( )

Definition at line 34 of file GlobalHaloAlgo.cc.

35 {
36  // Defaults are "loose"
37  Ecal_R_Min = 110.; // Tight: 200.
38  Ecal_R_Max = 330.; // Tight: 250.
39  Hcal_R_Min = 110.; // Tight: 220.
40  Hcal_R_Max = 490.; // Tight: 350.
41 
42 }
GlobalHaloAlgo::~GlobalHaloAlgo ( )
inline

Definition at line 65 of file GlobalHaloAlgo.h.

65 {}

Member Function Documentation

void GlobalHaloAlgo::AddtoBeamHaloEBEERechits ( edm::RefVector< EcalRecHitCollection > &  bhtaggedrechits,
reco::GlobalHaloData thehalodata,
bool  isbarrel 
)
private

Definition at line 531 of file GlobalHaloAlgo.cc.

References reco::GlobalHaloData::GetEBRechits(), reco::GlobalHaloData::GetEERechits(), edm::RefVector< C, T, F >::push_back(), and edm::RefVector< C, T, F >::size().

531  {
532  for(size_t ihit = 0; ihit<bhtaggedrechits.size(); ++ ihit){
533  bool alreadyincl = false;
534  edm::Ref<EcalRecHitCollection> rhRef( bhtaggedrechits[ihit] ) ;
536  if(isbarrel) refrhcoll=thehalodata.GetEBRechits();
537  else refrhcoll=thehalodata.GetEERechits();
538  for(size_t jhit =0; jhit < refrhcoll.size();jhit++){
539  edm::Ref<EcalRecHitCollection> rhitRef( refrhcoll[jhit] ) ;
540  if(rhitRef->detid() == rhRef->detid()) alreadyincl=true;
541  if(rhitRef->detid() == rhRef->detid()) break;
542  }
543  if(!alreadyincl&&isbarrel)thehalodata.GetEBRechits().push_back(rhRef);
544  if(!alreadyincl&&!isbarrel)thehalodata.GetEERechits().push_back(rhRef);
545  }
546 }
void push_back(value_type const &ref)
Add a Ref&lt;C, T&gt; to the RefVector.
Definition: RefVector.h:69
size_type size() const
Size of the RefVector.
Definition: RefVector.h:107
edm::RefVector< EcalRecHitCollection > & GetEBRechits()
edm::RefVector< EcalRecHitCollection > & GetEERechits()
void GlobalHaloAlgo::AddtoBeamHaloHBHERechits ( edm::RefVector< HBHERecHitCollection > &  bhtaggedrechits,
reco::GlobalHaloData thehalodata 
)
private

Definition at line 549 of file GlobalHaloAlgo.cc.

References reco::GlobalHaloData::GetHBHERechits(), and edm::RefVector< C, T, F >::size().

549  {
550  for(size_t ihit = 0; ihit<bhtaggedrechits.size(); ++ ihit){
551  bool alreadyincl = false;
552  edm::Ref<HBHERecHitCollection> rhRef( bhtaggedrechits[ihit] ) ;
554  refrhcoll=thehalodata.GetHBHERechits();
555  for(size_t jhit =0; jhit < refrhcoll.size();jhit++){
556  edm::Ref<HBHERecHitCollection> rhitRef( refrhcoll[jhit] ) ;
557  if(rhitRef->detid() == rhRef->detid()) alreadyincl=true;
558  if(rhitRef->detid() == rhRef->detid()) break;
559  }
560  if(!alreadyincl)thehalodata.GetHBHERechits().push_back(rhRef);
561  }
562 }
edm::RefVector< HBHERecHitCollection > & GetHBHERechits()
size_type size() const
Size of the RefVector.
Definition: RefVector.h:107
bool GlobalHaloAlgo::ApplyMatchingCuts ( int  subdet,
bool  ishlt,
double  rhet,
double  segZ,
double  rhZ,
double  segR,
double  rhR,
double  segT,
double  rhT,
double  segPhi,
double  rhPhi 
)
private

Definition at line 461 of file GlobalHaloAlgo.cc.

References funct::abs(), SiPixelRawToDigiRegional_cfi::deltaPhi, EB, EE, HB, HE, and mathSSE::sqrt().

461  {
462  //Std::Absolute time wrt BX
463  double tBXrh = rhT+sqrt(rhR*rhR+rhZ*rhZ)/c_cm_per_ns;
464  double tBXseg = segT+sqrt(segR*segR+segZ*segZ)/c_cm_per_ns;
465  //Time at z=0, under beam halo hypothesis
466  double tcorseg = tBXseg - std::abs(segZ)/c_cm_per_ns;//Outgoing beam halo
467  double tcorsegincbh = tBXseg + std::abs(segZ)/c_cm_per_ns;//Ingoing beam halo
468  double truedt[4]={1000,1000,1000,1000};
469  //There are four types of segments associated to beam halo, test each hypothesis:
470  //IT beam halo, ingoing track
471  double twindow_seg = 15;
472  if(std::abs(tcorsegincbh) <twindow_seg) truedt[0] = tBXrh -tBXseg -std::abs(rhZ-segZ)/c_cm_per_ns;
473  //IT beam halo, outgoing track
474  if(std::abs(tcorseg) < twindow_seg) truedt[1] = tBXseg -tBXrh -std::abs(rhZ-segZ)/c_cm_per_ns;
475  //OT beam halo (from next BX), ingoing track
476  if(tcorsegincbh> 25-twindow_seg&& std::abs(tcorsegincbh) <25+twindow_seg) truedt[2] = tBXrh -tBXseg -std::abs(rhZ-segZ)/c_cm_per_ns;
477  //OT beam halo (from next BX), outgoing track
478  if(tcorseg >25-twindow_seg && tcorseg<25+twindow_seg) truedt[3] = tBXseg -tBXrh -std::abs(rhZ-segZ)/c_cm_per_ns;
479 
480 
481  if(subdet==EB){
482  if(rhet< et_thresh_rh_eb) return false;
483  if(rhet< 20&&ishlt) return false;
484  if(std::abs(deltaPhi(rhPhi,segPhi))>dphi_thresh_segvsrh_eb) return false;
485  if(rhR-segR< dr_lowthresh_segvsrh_eb)return false;
486  if(rhR-segR> dr_highthresh_segvsrh_eb) return false;
487  if(std::abs(truedt[0])>dt_segvsrh_eb &&std::abs(truedt[1])>dt_segvsrh_eb &&std::abs(truedt[2])>dt_segvsrh_eb &&std::abs(truedt[3])>dt_segvsrh_eb )return false;
488  return true;
489  }
490 
491 
492  if(subdet==EE){
493 
494  if(rhet< et_thresh_rh_ee) return false;
495  if(rhet< 20&&ishlt) return false;
496  if(std::abs(deltaPhi(rhPhi,segPhi))>dphi_thresh_segvsrh_ee) return false;
497  if(rhR-segR< dr_lowthresh_segvsrh_ee)return false;
498  if(rhR-segR> dr_highthresh_segvsrh_ee) return false;
499  if(std::abs(truedt[0])>dt_segvsrh_ee &&std::abs(truedt[1])>dt_segvsrh_ee &&std::abs(truedt[2])>dt_segvsrh_ee &&std::abs(truedt[3])>dt_segvsrh_ee )return false;
500  return true;
501  }
502 
503  if(subdet==HB){
504 
505  if(rhet< et_thresh_rh_hb) return false;
506  if(rhet< 20&&ishlt) return false;
507  if(std::abs(deltaPhi(rhPhi,segPhi))>dphi_thresh_segvsrh_hb) return false;
508  if(rhR-segR< dr_lowthresh_segvsrh_hb)return false;
509  if(rhR-segR> dr_highthresh_segvsrh_hb) return false;
510  if(std::abs(truedt[0])>dt_segvsrh_hb &&std::abs(truedt[1])>dt_segvsrh_hb &&std::abs(truedt[2])>dt_segvsrh_hb &&std::abs(truedt[3])>dt_segvsrh_hb )return false;
511  return true;
512  }
513 
514  if(subdet==HE){
515 
516  if(rhet< et_thresh_rh_he) return false;
517  if(rhet< 20&&ishlt) return false;
518  if(std::abs(deltaPhi(rhPhi,segPhi))>dphi_thresh_segvsrh_he) return false;
519  if(rhR-segR< dr_lowthresh_segvsrh_he)return false;
520  if(rhR-segR> dr_highthresh_segvsrh_he) return false;
521  if(std::abs(truedt[0])>dt_segvsrh_he &&std::abs(truedt[1])>dt_segvsrh_he &&std::abs(truedt[2])>dt_segvsrh_he &&std::abs(truedt[3])>dt_segvsrh_he )return false;
522  return true;
523  }
524 
525 
526  return false;
527 }
float dr_highthresh_segvsrh_ee
float dr_highthresh_segvsrh_eb
float dr_highthresh_segvsrh_he
T sqrt(T t)
Definition: SSEVec.h:18
float dphi_thresh_segvsrh_hb
float dr_lowthresh_segvsrh_ee
float dr_lowthresh_segvsrh_hb
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
float dphi_thresh_segvsrh_eb
float dr_lowthresh_segvsrh_he
float dr_highthresh_segvsrh_hb
float dphi_thresh_segvsrh_ee
float dphi_thresh_segvsrh_he
float dr_lowthresh_segvsrh_eb
reco::GlobalHaloData GlobalHaloAlgo::Calculate ( const CaloGeometry TheCaloGeometry,
const CSCGeometry TheCSCGeometry,
const reco::CaloMET TheCaloMET,
edm::Handle< edm::View< reco::Candidate > > &  TheCaloTowers,
edm::Handle< CSCSegmentCollection > &  TheCSCSegments,
edm::Handle< CSCRecHit2DCollection > &  TheCSCRecHits,
edm::Handle< reco::MuonCollection > &  TheMuons,
const reco::CSCHaloData TheCSCHaloData,
const reco::EcalHaloData TheEcalHaloData,
const reco::HcalHaloData TheHcalHaloData,
bool  ishlt = false 
)

Definition at line 44 of file GlobalHaloAlgo.cc.

References funct::abs(), Abs(), EnergyCorrector::c, CSCGeometry::chamber(), chambers, MuonSubdetId::CSC, CaloTower::emEt(), CaloTower::et(), reco::CSCHaloData::GetCSCTrackImpactPositions(), reco::EcalHaloData::getHaloClusterCandidatesEB(), reco::EcalHaloData::getHaloClusterCandidatesEE(), reco::HcalHaloData::getHaloClusterCandidatesHB(), reco::HcalHaloData::getHaloClusterCandidatesHE(), reco::GlobalHaloData::GetMatchedEcalPhiWedges(), reco::GlobalHaloData::GetMatchedHcalPhiWedges(), reco::EcalHaloData::GetPhiWedges(), reco::HcalHaloData::GetPhiWedges(), CaloTower::hadEt(), i, CSCGeometry::idToDetUnit(), CaloTower::ieta(), CaloTower::iphi(), edm::HandleBase::isValid(), RPCpg::mu, DetId::Muon, PV3DBase< T, PVType, FrameType >::perp2(), PV3DBase< T, PVType, FrameType >::phi(), reco::LeafCandidate::phi(), Phi_To_EcaliPhi(), Phi_To_HcaliPhi(), Pi, reco::LeafCandidate::pt(), alignCSCRings::r, reco::GlobalHaloData::SetHaloPatternFoundEB(), reco::GlobalHaloData::SetHaloPatternFoundEE(), reco::GlobalHaloData::SetHaloPatternFoundHB(), reco::GlobalHaloData::SetHaloPatternFoundHE(), reco::GlobalHaloData::SetMETCorrections(), reco::GlobalHaloData::SetMETOverSumEt(), reco::PhiWedge::SetOverlappingCSCRecHits(), reco::PhiWedge::SetOverlappingCSCSegments(), reco::GlobalHaloData::SetSegmentIsEBCaloMatched(), reco::GlobalHaloData::SetSegmentIsEECaloMatched(), reco::GlobalHaloData::SetSegmentIsHBCaloMatched(), reco::GlobalHaloData::SetSegmentIsHECaloMatched(), mathSSE::sqrt(), reco::MET::sumEt(), GeomDet::surface(), PV3DBase< T, PVType, FrameType >::theta(), GeomDet::toGlobal(), PV3DBase< T, PVType, FrameType >::x(), x(), PV3DBase< T, PVType, FrameType >::y(), and PV3DBase< T, PVType, FrameType >::z().

45 {
46 
47  GlobalHaloData TheGlobalHaloData;
48  float METOverSumEt = TheCaloMET.sumEt() ? TheCaloMET.pt() / TheCaloMET.sumEt() : 0 ;
49  TheGlobalHaloData.SetMETOverSumEt(METOverSumEt);
50 
51  //int EcalOverlapping_CSCRecHits[73];
52  //int EcalOverlapping_CSCSegments[73];
53 
54  int EcalOverlapping_CSCRecHits[361];
55  int EcalOverlapping_CSCSegments[361];
56  int HcalOverlapping_CSCRecHits[73];
57  int HcalOverlapping_CSCSegments[73];
58 
59  if( TheCSCSegments.isValid() )
60  {
61  for(CSCSegmentCollection::const_iterator iSegment = TheCSCSegments->begin(); iSegment != TheCSCSegments->end(); iSegment++)
62  {
63  bool EcalOverlap[361];
64  bool HcalOverlap[73];
65  for( int i = 0 ; i < 361 ; i++ )
66  {
67  EcalOverlap[i] = false;
68  if( i < 73 ) HcalOverlap[i] = false;
69  }
70 
71  std::vector<CSCRecHit2D> Hits = iSegment->specificRecHits() ;
72  for(std::vector<CSCRecHit2D>::iterator iHit = Hits.begin() ; iHit != Hits.end(); iHit++ )
73  {
74  DetId TheDetUnitId(iHit->geographicalId());
75  if( TheDetUnitId.det() != DetId::Muon ) continue;
76  if( TheDetUnitId.subdetId() != MuonSubdetId::CSC ) continue;
77 
78  const GeomDetUnit *TheUnit = TheCSCGeometry.idToDetUnit(TheDetUnitId);
79  LocalPoint TheLocalPosition = iHit->localPosition();
80  const BoundPlane& TheSurface = TheUnit->surface();
81  const GlobalPoint TheGlobalPosition = TheSurface.toGlobal(TheLocalPosition);
82 
83  int Hcal_iphi = Phi_To_HcaliPhi( TheGlobalPosition.phi() ) ;
84  int Ecal_iphi = Phi_To_EcaliPhi( TheGlobalPosition.phi() ) ;
85  float x = TheGlobalPosition.x();
86  float y = TheGlobalPosition.y();
87 
88  float r = TMath::Sqrt( x*x + y*y);
89 
90  if( r < Ecal_R_Max && r > Ecal_R_Min )
91  EcalOverlap[Ecal_iphi] = true;
92  if( r < Hcal_R_Max && r > Hcal_R_Max )
93  HcalOverlap[Hcal_iphi] = true;
94  }
95  for( int i = 0 ; i < 361 ; i++ )
96  {
97  if( EcalOverlap[i] ) EcalOverlapping_CSCSegments[i]++;
98  if( i < 73 && HcalOverlap[i] )
99  HcalOverlapping_CSCSegments[i]++;
100  }
101  }
102  }
103  if( TheCSCRecHits.isValid() )
104  {
105  for(CSCRecHit2DCollection::const_iterator iCSCRecHit = TheCSCRecHits->begin(); iCSCRecHit != TheCSCRecHits->end(); iCSCRecHit++ )
106  {
107 
108  DetId TheDetUnitId(iCSCRecHit->geographicalId());
109  if( TheDetUnitId.det() != DetId::Muon ) continue;
110  if( TheDetUnitId.subdetId() != MuonSubdetId::CSC ) continue;
111 
112  const GeomDetUnit *TheUnit = TheCSCGeometry.idToDetUnit(TheDetUnitId);
113  LocalPoint TheLocalPosition = iCSCRecHit->localPosition();
114  const BoundPlane& TheSurface = TheUnit->surface();
115  const GlobalPoint TheGlobalPosition = TheSurface.toGlobal(TheLocalPosition);
116 
117  int Hcaliphi = Phi_To_HcaliPhi( TheGlobalPosition.phi() ) ;
118  int Ecaliphi = Phi_To_EcaliPhi( TheGlobalPosition.phi() ) ;
119  float x = TheGlobalPosition.x();
120  float y = TheGlobalPosition.y();
121 
122  float r = TMath::Sqrt(x*x + y*y);
123 
124  if( r < Ecal_R_Max && r > Ecal_R_Min )
125  EcalOverlapping_CSCRecHits[Ecaliphi] ++;
126  if( r < Hcal_R_Max && r > Hcal_R_Max )
127  HcalOverlapping_CSCRecHits[Hcaliphi] ++ ;
128  }
129  }
130 
131  // In development....
132  // Get Ecal Wedges
133  std::vector<PhiWedge> EcalWedges = TheEcalHaloData.GetPhiWedges();
134 
135  // Get Hcal Wedges
136  std::vector<PhiWedge> HcalWedges = TheHcalHaloData.GetPhiWedges();
137 
138  //Get Ref to CSC Tracks
139  //edm::RefVector<reco::TrackCollection> TheCSCTracks = TheCSCHaloData.GetTracks();
140  //for(unsigned int i = 0 ; i < TheCSCTracks.size() ; i++ )
141  //edm::Ref<reco::TrackCollection> iTrack( TheCSCTracks, i );
142 
143  // Get global positions of central most rechit of CSC Halo tracks
144  std::vector<GlobalPoint> TheGlobalPositions = TheCSCHaloData.GetCSCTrackImpactPositions();
145 
146  // Container to store Ecal/Hcal iPhi values matched to impact point of CSC tracks
147  std::vector<int> vEcaliPhi, vHcaliPhi;
148 
149  // Keep track of number of calo pointing CSC halo tracks that do not match to Phi wedges
150  int N_Unmatched_Tracks = 0;
151 
152  for( std::vector<GlobalPoint>::iterator Pos = TheGlobalPositions.begin() ; Pos != TheGlobalPositions.end() ; Pos ++ )
153  {
154  // Calculate global phi coordinate for central most rechit in the track
155  float global_phi = Pos->phi();
156  float global_r = TMath::Sqrt(Pos->x()*Pos->x() + Pos->y()*Pos->y());
157 
158  // Convert global phi to iPhi
159  int global_EcaliPhi = Phi_To_EcaliPhi( global_phi );
160  int global_HcaliPhi = Phi_To_HcaliPhi( global_phi );
161  bool MATCHED = false;
162 
163  //Loop over Ecal Phi Wedges
164  for( std::vector<PhiWedge>::iterator iWedge = EcalWedges.begin() ; iWedge != EcalWedges.end() ; iWedge++ )
165  {
166  if( (TMath::Abs( global_EcaliPhi - iWedge->iPhi() ) <= 5 ) && (global_r > Ecal_R_Min && global_r < Ecal_R_Max ) )
167  {
168  bool StoreWedge = true;
169  for( unsigned int i = 0 ; i< vEcaliPhi.size() ; i++ ) if ( vEcaliPhi[i] == iWedge->iPhi() ) StoreWedge = false;
170 
171  if( StoreWedge )
172  {
173  PhiWedge NewWedge(*iWedge);
174  NewWedge.SetOverlappingCSCSegments( EcalOverlapping_CSCSegments[iWedge->iPhi()] );
175  NewWedge.SetOverlappingCSCRecHits( EcalOverlapping_CSCRecHits[iWedge->iPhi()] );
176  vEcaliPhi.push_back( iWedge->iPhi() );
177  TheGlobalHaloData.GetMatchedEcalPhiWedges().push_back( NewWedge );
178  }
179  MATCHED = true;
180  }
181  }
182  //Loop over Hcal Phi Wedges
183  for( std::vector<PhiWedge>::iterator iWedge = HcalWedges.begin() ; iWedge != HcalWedges.end() ; iWedge++ )
184  {
185  if( (TMath::Abs( global_HcaliPhi - iWedge->iPhi() ) <= 2 ) && (global_r > Hcal_R_Min && global_r < Hcal_R_Max ) )
186  {
187  bool StoreWedge = true;
188  for( unsigned int i = 0 ; i < vHcaliPhi.size() ; i++ ) if( vHcaliPhi[i] == iWedge->iPhi() ) StoreWedge = false;
189 
190  if( StoreWedge )
191  {
192  vHcaliPhi.push_back( iWedge->iPhi() ) ;
193  PhiWedge NewWedge(*iWedge);
194  NewWedge.SetOverlappingCSCSegments( HcalOverlapping_CSCSegments[iWedge->iPhi()] );
195  NewWedge.SetOverlappingCSCRecHits( HcalOverlapping_CSCRecHits[iWedge->iPhi()] );
196  PhiWedge wedge(*iWedge);
197  TheGlobalHaloData.GetMatchedHcalPhiWedges().push_back( NewWedge ) ;
198  }
199  MATCHED = true;
200  }
201  }
202  if( !MATCHED ) N_Unmatched_Tracks ++;
203  }
204 
205  // Corrections to MEx, MEy
206  float dMEx = 0.;
207  float dMEy = 0.;
208  // Loop over calotowers and correct the MET for the towers that lie in the trajectory of the CSC Halo Tracks
209  for( edm::View<Candidate>::const_iterator iCandidate = TheCaloTowers->begin() ; iCandidate != TheCaloTowers->end() ; iCandidate++ )
210  {
211  const Candidate* c = &(*iCandidate);
212  if ( c )
213  {
214  const CaloTower* iTower = dynamic_cast<const CaloTower*> (c);
215  if( iTower->et() < TowerEtThreshold ) continue;
216  if( abs(iTower->ieta()) > 24 ) continue; // not in barrel/endcap
217  int iphi = iTower->iphi();
218  for( unsigned int x = 0 ; x < vEcaliPhi.size() ; x++ )
219  {
220  if( iphi == vEcaliPhi[x] )
221  {
222  dMEx += ( TMath::Cos(iTower->phi())*iTower->emEt() );
223  dMEy += ( TMath::Sin(iTower->phi())*iTower->emEt() );
224  }
225  }
226  for( unsigned int x = 0 ; x < vHcaliPhi.size() ; x++ )
227  {
228  if( iphi == vHcaliPhi[x] )
229  {
230  dMEx += ( TMath::Cos(iTower->phi() )*iTower->hadEt() ) ;
231  dMEy += ( TMath::Sin(iTower->phi() )*iTower->hadEt() ) ;
232  }
233  }
234  }
235  }
236 
237  TheGlobalHaloData.SetMETCorrections(dMEx, dMEy);
238 
239 
240 
241  std::vector<HaloClusterCandidateECAL> hccandEB= TheEcalHaloData.getHaloClusterCandidatesEB();
242  std::vector<HaloClusterCandidateECAL> hccandEE= TheEcalHaloData.getHaloClusterCandidatesEE();
243  std::vector<HaloClusterCandidateHCAL> hccandHB= TheHcalHaloData.getHaloClusterCandidatesHB();
244  std::vector<HaloClusterCandidateHCAL> hccandHE= TheHcalHaloData.getHaloClusterCandidatesHE();
245 
246  //CSC-calo matching
247  bool ECALBmatched(false), ECALEmatched(false),HCALBmatched(false),HCALEmatched(false);
248 
249  if (TheCSCSegments.isValid()) {
250  for(CSCSegmentCollection::const_iterator iSegment = TheCSCSegments->begin();
251  iSegment != TheCSCSegments->end();
252  iSegment++) {
253 
254  CSCDetId iCscDetID = iSegment->cscDetId();
255  bool Segment1IsGood=true;
256 
257 
258  //avoid segments from collision muons
259  if( TheMuons.isValid() )
260  {
261  for(reco::MuonCollection::const_iterator mu = TheMuons->begin(); mu!= TheMuons->end() && (Segment1IsGood) ; mu++ )
262  {
263 
264  if( !mu->isTrackerMuon() && !mu->isGlobalMuon() && mu->isStandAloneMuon() ) continue;
265  if( !mu->isGlobalMuon() && mu->isTrackerMuon() && mu->pt()<3) continue;
266  const std::vector<MuonChamberMatch> chambers = mu->matches();
267  for(std::vector<MuonChamberMatch>::const_iterator kChamber = chambers.begin();
268  kChamber != chambers.end(); kChamber ++ )
269  {
270  if( kChamber->detector() != MuonSubdetId::CSC ) continue;
271  for( std::vector<reco::MuonSegmentMatch>::const_iterator kSegment = kChamber->segmentMatches.begin();
272  kSegment != kChamber->segmentMatches.end(); kSegment++ )
273  {
274  edm::Ref<CSCSegmentCollection> cscSegRef = kSegment->cscSegmentRef;
275  CSCDetId kCscDetID = cscSegRef->cscDetId();
276 
277  if( kCscDetID == iCscDetID )
278  {
279  Segment1IsGood = false;
280 
281  }
282  }
283  }
284  }
285  }
286  if(!Segment1IsGood) continue;
287 
288  // Get local direction vector; if direction runs parallel to beamline,
289  // count this segment as beam halo candidate.
290  LocalPoint iLocalPosition = iSegment->localPosition();
291  LocalVector iLocalDirection = iSegment->localDirection();
292 
293  GlobalPoint iGlobalPosition = TheCSCGeometry.chamber(iCscDetID)->toGlobal(iLocalPosition);
294  GlobalVector iGlobalDirection = TheCSCGeometry.chamber(iCscDetID)->toGlobal(iLocalDirection);
295 
296  float iTheta = iGlobalDirection.theta();
297  if (iTheta > max_segment_theta && iTheta < TMath::Pi() - max_segment_theta) continue;
298 
299  float iPhi = iGlobalPosition.phi();
300  float iR = sqrt(iGlobalPosition.perp2()) ;
301  float iZ = iGlobalPosition.z();
302  float iT = iSegment->time();
303 
304  //CSC-calo matching:
305  //Here, one checks if any halo cluster can be matched to a CSC segment.
306  //The matching uses both geometric (dphi, dR) and timing information (dt).
307  //The cut values depend on the subdetector considered (e.g. in HB, Rcalo-Rsegment is allowed to be very negative)
308 
309  bool ebmatched =SegmentMatchingEB(TheGlobalHaloData,hccandEB,iZ,iR,iT,iPhi,ishlt);
310  bool eematched =SegmentMatchingEE(TheGlobalHaloData,hccandEE,iZ,iR,iT,iPhi,ishlt);
311  bool hbmatched =SegmentMatchingHB(TheGlobalHaloData,hccandHB,iZ,iR,iT,iPhi,ishlt);
312  bool hematched =SegmentMatchingHE(TheGlobalHaloData,hccandHE,iZ,iR,iT,iPhi,ishlt);
313 
314  ECALBmatched |= ebmatched;
315  ECALEmatched |= eematched;
316  HCALBmatched |= hbmatched;
317  HCALEmatched |= hematched;
318 
319  }
320  }
321 
322 
323  TheGlobalHaloData.SetSegmentIsEBCaloMatched(ECALBmatched);
324  TheGlobalHaloData.SetSegmentIsEECaloMatched(ECALEmatched);
325  TheGlobalHaloData.SetSegmentIsHBCaloMatched(HCALBmatched);
326  TheGlobalHaloData.SetSegmentIsHECaloMatched(HCALEmatched);
327 
328 
329  //Now checking patterns from EcalHaloData and HcalHaloData:
330  //Simply check whether any cluster has a halo pattern
331  //In that case store the rhits in GlobalHaloData
332 
333  bool HaloPatternFoundInEB =false;
334  for(auto & hcand : hccandEB){
335  if((hcand.getIsHaloFromPattern() &&!ishlt)||(hcand.getIsHaloFromPattern_HLT() &&ishlt)){
336  HaloPatternFoundInEB =true;
337  edm::RefVector<EcalRecHitCollection> bhrhcandidates = hcand.getBeamHaloRecHitsCandidates();
338  AddtoBeamHaloEBEERechits(bhrhcandidates, TheGlobalHaloData,true);
339  }
340  }
341 
342 
343  bool HaloPatternFoundInEE =false;
344  for(auto & hcand : hccandEE){
345  if((hcand.getIsHaloFromPattern() &&!ishlt)||(hcand.getIsHaloFromPattern_HLT() &&ishlt)){
346  HaloPatternFoundInEE =true;
347  edm::RefVector<EcalRecHitCollection> bhrhcandidates = hcand.getBeamHaloRecHitsCandidates();
348  AddtoBeamHaloEBEERechits( bhrhcandidates, TheGlobalHaloData,false);
349  }
350  }
351 
352 
353  bool HaloPatternFoundInHB =false;
354  for(auto & hcand : hccandHB){
355  if((hcand.getIsHaloFromPattern() &&!ishlt)||(hcand.getIsHaloFromPattern_HLT() &&ishlt)){
356  HaloPatternFoundInHB =true;
357  edm::RefVector<HBHERecHitCollection> bhrhcandidates = hcand.getBeamHaloRecHitsCandidates();
358  AddtoBeamHaloHBHERechits(bhrhcandidates, TheGlobalHaloData);
359  }
360  }
361 
362 
363  bool HaloPatternFoundInHE =false;
364  for(auto & hcand : hccandHE){
365  if((hcand.getIsHaloFromPattern() &&!ishlt)||(hcand.getIsHaloFromPattern_HLT() &&ishlt)){
366  HaloPatternFoundInHE =true;
367  edm::RefVector<HBHERecHitCollection> bhrhcandidates = hcand.getBeamHaloRecHitsCandidates();
368  AddtoBeamHaloHBHERechits(bhrhcandidates, TheGlobalHaloData);
369  }
370  }
371  TheGlobalHaloData.SetHaloPatternFoundEB(HaloPatternFoundInEB);
372  TheGlobalHaloData.SetHaloPatternFoundEE(HaloPatternFoundInEE);
373  TheGlobalHaloData.SetHaloPatternFoundHB(HaloPatternFoundInHB);
374  TheGlobalHaloData.SetHaloPatternFoundHE(HaloPatternFoundInHE);
375 
376  return TheGlobalHaloData;
377 }
const double Pi
int i
Definition: DBlmapReader.cc:9
const std::vector< HaloClusterCandidateHCAL > & getHaloClusterCandidatesHB() const
Definition: HcalHaloData.h:55
bool SegmentMatchingEE(reco::GlobalHaloData &thehalodata, const std::vector< reco::HaloClusterCandidateECAL > &haloclustercands, float iZ, float iR, float iT, float iPhi, bool ishlt)
void AddtoBeamHaloEBEERechits(edm::RefVector< EcalRecHitCollection > &bhtaggedrechits, reco::GlobalHaloData &thehalodata, bool isbarrel)
void SetSegmentIsEECaloMatched(bool b)
const std::vector< PhiWedge > & GetPhiWedges() const
Definition: EcalHaloData.h:34
int ieta() const
Definition: CaloTower.h:182
double hadEt() const
Definition: CaloTower.h:113
GlobalPoint toGlobal(const Local2DPoint &lp) const
Conversion to the global R.F. from the R.F. of the GeomDet.
Definition: GeomDet.h:54
Geom::Phi< T > phi() const
Definition: PV3DBase.h:69
T y() const
Definition: PV3DBase.h:63
void SetMETOverSumEt(float x)
virtual double phi() const final
momentum azimuthal angle
int iphi() const
Definition: CaloTower.h:184
T perp2() const
Definition: PV3DBase.h:71
std::vector< PhiWedge > & GetMatchedEcalPhiWedges()
const Plane & surface() const
The nominal surface of the GeomDet.
Definition: GeomDet.h:42
void SetHaloPatternFoundHE(bool b)
Geom::Theta< T > theta() const
Definition: PV3DBase.h:75
double sumEt() const
Definition: MET.h:56
static const int CSC
Definition: MuonSubdetId.h:13
const_iterator begin() const
const std::vector< HaloClusterCandidateECAL > & getHaloClusterCandidatesEB() const
Definition: EcalHaloData.h:50
int Phi_To_HcaliPhi(float phi)
void SetHaloPatternFoundEE(bool b)
T sqrt(T t)
Definition: SSEVec.h:18
T z() const
Definition: PV3DBase.h:64
void SetSegmentIsEBCaloMatched(bool b)
T Abs(T a)
Definition: MathUtil.h:49
const std::vector< GlobalPoint > & GetCSCTrackImpactPositions() const
Definition: CSCHaloData.h:88
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
const int mu
Definition: Constants.h:22
bool isValid() const
Definition: HandleBase.h:75
bool SegmentMatchingHB(reco::GlobalHaloData &thehalodata, const std::vector< reco::HaloClusterCandidateHCAL > &haloclustercands, float iZ, float iR, float iT, float iPhi, bool ishlt)
bool SegmentMatchingEB(reco::GlobalHaloData &thehalodata, const std::vector< reco::HaloClusterCandidateECAL > &haloclustercands, float iZ, float iR, float iT, float iPhi, bool ishlt)
Definition: DetId.h:18
void AddtoBeamHaloHBHERechits(edm::RefVector< HBHERecHitCollection > &bhtaggedrechits, reco::GlobalHaloData &thehalodata)
void SetMETCorrections(float x, float y)
const CSCChamber * chamber(CSCDetId id) const
Return the chamber corresponding to given DetId.
Definition: CSCGeometry.cc:118
boost::indirect_iterator< typename seq_t::const_iterator > const_iterator
Definition: View.h:81
std::vector< PhiWedge > & GetMatchedHcalPhiWedges()
const std::vector< HaloClusterCandidateHCAL > & getHaloClusterCandidatesHE() const
Definition: HcalHaloData.h:58
bool SegmentMatchingHE(reco::GlobalHaloData &thehalodata, const std::vector< reco::HaloClusterCandidateHCAL > &haloclustercands, float iZ, float iR, float iT, float iPhi, bool ishlt)
int Phi_To_EcaliPhi(float phi)
const std::vector< PhiWedge > & GetPhiWedges() const
Definition: HcalHaloData.h:48
void SetSegmentIsHECaloMatched(bool b)
double et(double vtxZ) const
Definition: CaloTower.h:129
const_iterator end() const
virtual const GeomDetUnit * idToDetUnit(DetId) const override
Return the pointer to the GeomDetUnit corresponding to a given DetId.
Definition: CSCGeometry.cc:93
void SetSegmentIsHBCaloMatched(bool b)
const std::vector< HaloClusterCandidateECAL > & getHaloClusterCandidatesEE() const
Definition: EcalHaloData.h:52
static char chambers[264][20]
Definition: ReadPGInfo.cc:243
T x() const
Definition: PV3DBase.h:62
double emEt() const
Definition: CaloTower.h:112
void SetHaloPatternFoundHB(bool b)
virtual double pt() const final
transverse momentum
void SetHaloPatternFoundEB(bool b)
bool GlobalHaloAlgo::SegmentMatchingEB ( reco::GlobalHaloData thehalodata,
const std::vector< reco::HaloClusterCandidateECAL > &  haloclustercands,
float  iZ,
float  iR,
float  iT,
float  iPhi,
bool  ishlt 
)
private

Definition at line 384 of file GlobalHaloAlgo.cc.

References EB.

384  {
385  bool rhmatchingfound =false;
386 
387  for(auto & hcand : haloclustercands){
388 
389  if(!ApplyMatchingCuts(EB,ishlt, hcand.getSeedEt(), iZ, hcand.getSeedZ(),iR, hcand.getSeedR(), iT,hcand.getSeedTime(), iPhi, hcand.getSeedPhi()))continue;
390 
391  rhmatchingfound=true;
392 
393  edm::RefVector<EcalRecHitCollection> bhrhcandidates = hcand.getBeamHaloRecHitsCandidates();
394 
395  AddtoBeamHaloEBEERechits(bhrhcandidates, thehalodata,true);
396 
397  }
398 
399  return rhmatchingfound;
400 }
void AddtoBeamHaloEBEERechits(edm::RefVector< EcalRecHitCollection > &bhtaggedrechits, reco::GlobalHaloData &thehalodata, bool isbarrel)
bool ApplyMatchingCuts(int subdet, bool ishlt, double rhet, double segZ, double rhZ, double segR, double rhR, double segT, double rhT, double segPhi, double rhPhi)
bool GlobalHaloAlgo::SegmentMatchingEE ( reco::GlobalHaloData thehalodata,
const std::vector< reco::HaloClusterCandidateECAL > &  haloclustercands,
float  iZ,
float  iR,
float  iT,
float  iPhi,
bool  ishlt 
)
private

Definition at line 403 of file GlobalHaloAlgo.cc.

References EE.

403  {
404  bool rhmatchingfound =false;
405 
406  for(auto & hcand : haloclustercands){
407 
408  if(!ApplyMatchingCuts(EE,ishlt, hcand.getSeedEt(), iZ, hcand.getSeedZ(),iR, hcand.getSeedR(), iT,hcand.getSeedTime(), iPhi, hcand.getSeedPhi()))continue;
409 
410  rhmatchingfound=true;
411 
412  edm::RefVector<EcalRecHitCollection> bhrhcandidates = hcand.getBeamHaloRecHitsCandidates();
413 
414  AddtoBeamHaloEBEERechits(bhrhcandidates, thehalodata,false);
415 
416  }
417 
418  return rhmatchingfound;
419 
420 }
void AddtoBeamHaloEBEERechits(edm::RefVector< EcalRecHitCollection > &bhtaggedrechits, reco::GlobalHaloData &thehalodata, bool isbarrel)
bool ApplyMatchingCuts(int subdet, bool ishlt, double rhet, double segZ, double rhZ, double segR, double rhR, double segT, double rhT, double segPhi, double rhPhi)
bool GlobalHaloAlgo::SegmentMatchingHB ( reco::GlobalHaloData thehalodata,
const std::vector< reco::HaloClusterCandidateHCAL > &  haloclustercands,
float  iZ,
float  iR,
float  iT,
float  iPhi,
bool  ishlt 
)
private

Definition at line 422 of file GlobalHaloAlgo.cc.

References HB.

422  {
423  bool rhmatchingfound =false;
424 
425  for(auto & hcand : haloclustercands){
426 
427  if(!ApplyMatchingCuts(HB,ishlt, hcand.getSeedEt(), iZ, hcand.getSeedZ(),iR, hcand.getSeedR(), iT,hcand.getSeedTime(), iPhi, hcand.getSeedPhi()))continue;
428 
429  rhmatchingfound=true;
430 
431  edm::RefVector<HBHERecHitCollection> bhrhcandidates = hcand.getBeamHaloRecHitsCandidates();
432 
433  AddtoBeamHaloHBHERechits(bhrhcandidates, thehalodata);
434 
435  }
436 
437  return rhmatchingfound;
438 
439 }
void AddtoBeamHaloHBHERechits(edm::RefVector< HBHERecHitCollection > &bhtaggedrechits, reco::GlobalHaloData &thehalodata)
bool ApplyMatchingCuts(int subdet, bool ishlt, double rhet, double segZ, double rhZ, double segR, double rhR, double segT, double rhT, double segPhi, double rhPhi)
bool GlobalHaloAlgo::SegmentMatchingHE ( reco::GlobalHaloData thehalodata,
const std::vector< reco::HaloClusterCandidateHCAL > &  haloclustercands,
float  iZ,
float  iR,
float  iT,
float  iPhi,
bool  ishlt 
)
private

Definition at line 441 of file GlobalHaloAlgo.cc.

References HE.

441  {
442  bool rhmatchingfound =false;
443 
444  for(auto & hcand : haloclustercands){
445 
446  if(!ApplyMatchingCuts(HE,ishlt, hcand.getSeedEt(), iZ, hcand.getSeedZ(),iR, hcand.getSeedR(), iT,hcand.getSeedTime(), iPhi, hcand.getSeedPhi()))continue;
447 
448  rhmatchingfound=true;
449 
450  edm::RefVector<HBHERecHitCollection> bhrhcandidates = hcand.getBeamHaloRecHitsCandidates();
451 
452  AddtoBeamHaloHBHERechits(bhrhcandidates, thehalodata);
453 
454  }
455 
456  return rhmatchingfound;
457 
458 }
void AddtoBeamHaloHBHERechits(edm::RefVector< HBHERecHitCollection > &bhtaggedrechits, reco::GlobalHaloData &thehalodata)
bool ApplyMatchingCuts(int subdet, bool ishlt, double rhet, double segZ, double rhZ, double segR, double rhR, double segT, double rhT, double segPhi, double rhPhi)
void GlobalHaloAlgo::SetCaloTowerEtThreshold ( float  EtMin)
inline
void GlobalHaloAlgo::setDPhicalosegmThresholdforCSCCaloMatchingEB ( float  x)
inline

Definition at line 85 of file GlobalHaloAlgo.h.

References dphi_thresh_segvsrh_eb, and x.

void GlobalHaloAlgo::setDPhicalosegmThresholdforCSCCaloMatchingEE ( float  x)
inline

Definition at line 91 of file GlobalHaloAlgo.h.

References dphi_thresh_segvsrh_ee, and x.

void GlobalHaloAlgo::setDPhicalosegmThresholdforCSCCaloMatchingHB ( float  x)
inline

Definition at line 97 of file GlobalHaloAlgo.h.

References dphi_thresh_segvsrh_hb, and x.

void GlobalHaloAlgo::setDPhicalosegmThresholdforCSCCaloMatchingHE ( float  x)
inline

Definition at line 103 of file GlobalHaloAlgo.h.

References dphi_thresh_segvsrh_he, and x.

void GlobalHaloAlgo::setDtcalosegmThresholdforCSCCaloMatchingEB ( float  x)
inline

Definition at line 84 of file GlobalHaloAlgo.h.

References dt_segvsrh_eb, and x.

void GlobalHaloAlgo::setDtcalosegmThresholdforCSCCaloMatchingEE ( float  x)
inline

Definition at line 90 of file GlobalHaloAlgo.h.

References dt_segvsrh_ee, and x.

void GlobalHaloAlgo::setDtcalosegmThresholdforCSCCaloMatchingHB ( float  x)
inline

Definition at line 96 of file GlobalHaloAlgo.h.

References dt_segvsrh_hb, and x.

void GlobalHaloAlgo::setDtcalosegmThresholdforCSCCaloMatchingHE ( float  x)
inline

Definition at line 102 of file GlobalHaloAlgo.h.

References dt_segvsrh_he, and x.

void GlobalHaloAlgo::SetEcalMatchingRadius ( float  min,
float  max 
)
inline

Definition at line 71 of file GlobalHaloAlgo.h.

References Ecal_R_Max, Ecal_R_Min, bookConverter::max, and min().

T min(T a, T b)
Definition: MathUtil.h:58
void GlobalHaloAlgo::setEtThresholdforCSCCaloMatchingEB ( float  x)
inline

Definition at line 81 of file GlobalHaloAlgo.h.

References et_thresh_rh_eb, and x.

void GlobalHaloAlgo::setEtThresholdforCSCCaloMatchingEE ( float  x)
inline

Definition at line 87 of file GlobalHaloAlgo.h.

References et_thresh_rh_ee, and x.

void GlobalHaloAlgo::setEtThresholdforCSCCaloMatchingHB ( float  x)
inline

Definition at line 93 of file GlobalHaloAlgo.h.

References et_thresh_rh_hb, and x.

void GlobalHaloAlgo::setEtThresholdforCSCCaloMatchingHE ( float  x)
inline

Definition at line 99 of file GlobalHaloAlgo.h.

References et_thresh_rh_he, and x.

void GlobalHaloAlgo::SetHcalMatchingRadius ( float  min,
float  max 
)
inline

Definition at line 73 of file GlobalHaloAlgo.h.

References Hcal_R_Max, Hcal_R_Min, bookConverter::max, and min().

T min(T a, T b)
Definition: MathUtil.h:58
void GlobalHaloAlgo::SetMaxSegmentTheta ( float  x)
inline

Definition at line 79 of file GlobalHaloAlgo.h.

References max_segment_theta, and x.

void GlobalHaloAlgo::setRcaloMinRsegmHighThresholdforCSCCaloMatchingEB ( float  x)
inline

Definition at line 83 of file GlobalHaloAlgo.h.

References dr_highthresh_segvsrh_eb, and x.

void GlobalHaloAlgo::setRcaloMinRsegmHighThresholdforCSCCaloMatchingEE ( float  x)
inline

Definition at line 89 of file GlobalHaloAlgo.h.

References dr_highthresh_segvsrh_ee, and x.

void GlobalHaloAlgo::setRcaloMinRsegmHighThresholdforCSCCaloMatchingHB ( float  x)
inline

Definition at line 95 of file GlobalHaloAlgo.h.

References dr_highthresh_segvsrh_hb, and x.

void GlobalHaloAlgo::setRcaloMinRsegmHighThresholdforCSCCaloMatchingHE ( float  x)
inline

Definition at line 101 of file GlobalHaloAlgo.h.

References dr_highthresh_segvsrh_he, and x.

void GlobalHaloAlgo::setRcaloMinRsegmLowThresholdforCSCCaloMatchingEB ( float  x)
inline

Definition at line 82 of file GlobalHaloAlgo.h.

References dr_lowthresh_segvsrh_eb, and x.

void GlobalHaloAlgo::setRcaloMinRsegmLowThresholdforCSCCaloMatchingEE ( float  x)
inline

Definition at line 88 of file GlobalHaloAlgo.h.

References dr_lowthresh_segvsrh_ee, and x.

void GlobalHaloAlgo::setRcaloMinRsegmLowThresholdforCSCCaloMatchingHB ( float  x)
inline

Definition at line 94 of file GlobalHaloAlgo.h.

References dr_lowthresh_segvsrh_hb, and x.

void GlobalHaloAlgo::setRcaloMinRsegmLowThresholdforCSCCaloMatchingHE ( float  x)
inline

Definition at line 100 of file GlobalHaloAlgo.h.

References dr_lowthresh_segvsrh_he, and x.

Member Data Documentation

float GlobalHaloAlgo::dphi_thresh_segvsrh_eb
private

Definition at line 118 of file GlobalHaloAlgo.h.

Referenced by setDPhicalosegmThresholdforCSCCaloMatchingEB().

float GlobalHaloAlgo::dphi_thresh_segvsrh_ee
private

Definition at line 124 of file GlobalHaloAlgo.h.

Referenced by setDPhicalosegmThresholdforCSCCaloMatchingEE().

float GlobalHaloAlgo::dphi_thresh_segvsrh_hb
private

Definition at line 130 of file GlobalHaloAlgo.h.

Referenced by setDPhicalosegmThresholdforCSCCaloMatchingHB().

float GlobalHaloAlgo::dphi_thresh_segvsrh_he
private

Definition at line 136 of file GlobalHaloAlgo.h.

Referenced by setDPhicalosegmThresholdforCSCCaloMatchingHE().

float GlobalHaloAlgo::dr_highthresh_segvsrh_eb
private

Definition at line 120 of file GlobalHaloAlgo.h.

Referenced by setRcaloMinRsegmHighThresholdforCSCCaloMatchingEB().

float GlobalHaloAlgo::dr_highthresh_segvsrh_ee
private

Definition at line 126 of file GlobalHaloAlgo.h.

Referenced by setRcaloMinRsegmHighThresholdforCSCCaloMatchingEE().

float GlobalHaloAlgo::dr_highthresh_segvsrh_hb
private

Definition at line 132 of file GlobalHaloAlgo.h.

Referenced by setRcaloMinRsegmHighThresholdforCSCCaloMatchingHB().

float GlobalHaloAlgo::dr_highthresh_segvsrh_he
private

Definition at line 138 of file GlobalHaloAlgo.h.

Referenced by setRcaloMinRsegmHighThresholdforCSCCaloMatchingHE().

float GlobalHaloAlgo::dr_lowthresh_segvsrh_eb
private

Definition at line 119 of file GlobalHaloAlgo.h.

Referenced by setRcaloMinRsegmLowThresholdforCSCCaloMatchingEB().

float GlobalHaloAlgo::dr_lowthresh_segvsrh_ee
private

Definition at line 125 of file GlobalHaloAlgo.h.

Referenced by setRcaloMinRsegmLowThresholdforCSCCaloMatchingEE().

float GlobalHaloAlgo::dr_lowthresh_segvsrh_hb
private

Definition at line 131 of file GlobalHaloAlgo.h.

Referenced by setRcaloMinRsegmLowThresholdforCSCCaloMatchingHB().

float GlobalHaloAlgo::dr_lowthresh_segvsrh_he
private

Definition at line 137 of file GlobalHaloAlgo.h.

Referenced by setRcaloMinRsegmLowThresholdforCSCCaloMatchingHE().

float GlobalHaloAlgo::dt_segvsrh_eb
private

Definition at line 121 of file GlobalHaloAlgo.h.

Referenced by setDtcalosegmThresholdforCSCCaloMatchingEB().

float GlobalHaloAlgo::dt_segvsrh_ee
private

Definition at line 127 of file GlobalHaloAlgo.h.

Referenced by setDtcalosegmThresholdforCSCCaloMatchingEE().

float GlobalHaloAlgo::dt_segvsrh_hb
private

Definition at line 133 of file GlobalHaloAlgo.h.

Referenced by setDtcalosegmThresholdforCSCCaloMatchingHB().

float GlobalHaloAlgo::dt_segvsrh_he
private

Definition at line 139 of file GlobalHaloAlgo.h.

Referenced by setDtcalosegmThresholdforCSCCaloMatchingHE().

float GlobalHaloAlgo::Ecal_R_Max
private

Definition at line 109 of file GlobalHaloAlgo.h.

Referenced by SetEcalMatchingRadius().

float GlobalHaloAlgo::Ecal_R_Min
private

Definition at line 108 of file GlobalHaloAlgo.h.

Referenced by SetEcalMatchingRadius().

float GlobalHaloAlgo::et_thresh_rh_eb
private

Definition at line 117 of file GlobalHaloAlgo.h.

Referenced by setEtThresholdforCSCCaloMatchingEB().

float GlobalHaloAlgo::et_thresh_rh_ee
private

Definition at line 123 of file GlobalHaloAlgo.h.

Referenced by setEtThresholdforCSCCaloMatchingEE().

float GlobalHaloAlgo::et_thresh_rh_hb
private

Definition at line 129 of file GlobalHaloAlgo.h.

Referenced by setEtThresholdforCSCCaloMatchingHB().

float GlobalHaloAlgo::et_thresh_rh_he
private

Definition at line 135 of file GlobalHaloAlgo.h.

Referenced by setEtThresholdforCSCCaloMatchingHE().

float GlobalHaloAlgo::Hcal_R_Max
private

Definition at line 111 of file GlobalHaloAlgo.h.

Referenced by SetHcalMatchingRadius().

float GlobalHaloAlgo::Hcal_R_Min
private

Definition at line 110 of file GlobalHaloAlgo.h.

Referenced by SetHcalMatchingRadius().

float GlobalHaloAlgo::max_segment_theta
private

Definition at line 115 of file GlobalHaloAlgo.h.

Referenced by SetMaxSegmentTheta().

float GlobalHaloAlgo::TowerEtThreshold
private

Definition at line 112 of file GlobalHaloAlgo.h.

Referenced by SetCaloTowerEtThreshold().