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CSCHaloAlgo Class Reference

#include <CSCHaloAlgo.h>

Public Member Functions

reco::CSCHaloData Calculate (const CSCGeometry &TheCSCGeometry, edm::Handle< reco::MuonCollection > &TheCosmicMuons, const edm::Handle< reco::MuonTimeExtraMap > TheCSCTimeMap, edm::Handle< reco::MuonCollection > &TheMuons, edm::Handle< CSCSegmentCollection > &TheCSCSegments, edm::Handle< CSCRecHit2DCollection > &TheCSCRecHits, edm::Handle< L1MuGMTReadoutCollection > &TheL1GMTReadout, edm::Handle< HBHERecHitCollection > &hbhehits, edm::Handle< EcalRecHitCollection > &ecalebhits, edm::Handle< EcalRecHitCollection > &ecaleehits, edm::Handle< edm::TriggerResults > &TheHLTResults, const edm::TriggerNames *triggerNames, const edm::Handle< CSCALCTDigiCollection > &TheALCTs, MuonSegmentMatcher *TheMatcher, const edm::Event &TheEvent, const edm::EventSetup &TheEventSetup)
 
 CSCHaloAlgo ()
 
void SetDetaThreshold (float x)
 
void SetDphiThreshold (float x)
 
void SetExpectedBX (int x)
 
void SetMatchingDEtaThreshold (float x)
 
void SetMatchingDPhiThreshold (float x)
 
void SetMatchingDWireThreshold (int x)
 
void SetMaxDtMuonSegment (float x)
 
void SetMaxFreeInverseBeta (float x)
 
void SetMaxSegmentPhiDiff (float x)
 
void SetMaxSegmentRDiff (float x)
 
void SetMaxSegmentTheta (float x)
 
void SetMinMaxInnerRadius (float min, float max)
 
void SetMinMaxOuterMomentumTheta (float min, float max)
 
void SetMinMaxOuterRadius (float min, float max)
 
void SetNormChi2Threshold (float x)
 
void SetRecHitTime0 (float x)
 
void SetRecHitTimeWindow (float x)
 
 ~CSCHaloAlgo ()
 

Public Attributes

std::vector< edm::InputTagvIT_HLTBit
 

Private Member Functions

bool ECALSegmentMatching (edm::Handle< EcalRecHitCollection > &rechitcoll, float et_thresh_rh, float dphi_thresh_segvsrh, float dr_lowthresh_segvsrh, float dr_highthresh_segvsrh, float dt_lowthresh_segvsrh, float dt_highthresh_segvsrh, float iZ, float iR, float iT, float iPhi)
 
math::XYZPoint getPosition (const DetId &id, reco::Vertex::Point vtx)
 
bool HCALSegmentMatching (edm::Handle< HBHERecHitCollection > &rechitcoll, float et_thresh_rh, float dphi_thresh_segvsrh, float dr_lowthresh_segvsrh, float dr_highthresh_segvsrh, float dt_lowthresh_segvsrh, float dt_highthresh_segvsrh, float iZ, float iR, float iT, float iPhi)
 

Private Attributes

float deta_threshold
 
float dphi_thresh_segvsrh_eb
 
float dphi_thresh_segvsrh_ee
 
float dphi_thresh_segvsrh_hbhe
 
float dphi_threshold
 
float dr_highthresh_segvsrh_eb
 
float dr_highthresh_segvsrh_ee
 
float dr_highthresh_segvsrh_hbhe
 
float dr_lowthresh_segvsrh_eb
 
float dr_lowthresh_segvsrh_ee
 
float dr_lowthresh_segvsrh_hbhe
 
float dt_highthresh_segvsrh_eb
 
float dt_highthresh_segvsrh_ee
 
float dt_highthresh_segvsrh_hbhe
 
float dt_lowthresh_segvsrh_eb
 
float dt_lowthresh_segvsrh_ee
 
float dt_lowthresh_segvsrh_hbhe
 
float et_thresh_rh_eb
 
float et_thresh_rh_ee
 
float et_thresh_rh_hbhe
 
int expected_BX
 
const CaloGeometrygeo_
 
const HcalGeometryhgeo_
 
float matching_deta_threshold
 
float matching_dphi_threshold
 
int matching_dwire_threshold
 
float max_dt_muon_segment
 
float max_free_inverse_beta
 
float max_inner_radius
 
float max_outer_radius
 
float max_outer_theta
 
float max_segment_phi_diff
 
float max_segment_r_diff
 
float max_segment_theta
 
float min_inner_radius
 
float min_outer_radius
 
float min_outer_theta
 
float norm_chi2_threshold
 
float recHit_t0
 
float recHit_twindow
 

Detailed Description

Definition at line 91 of file CSCHaloAlgo.h.

Constructor & Destructor Documentation

CSCHaloAlgo::CSCHaloAlgo ( )

Definition at line 17 of file CSCHaloAlgo.cc.

References deta_threshold, dphi_thresh_segvsrh_eb, dphi_thresh_segvsrh_ee, dphi_thresh_segvsrh_hbhe, dphi_threshold, dr_highthresh_segvsrh_eb, dr_highthresh_segvsrh_ee, dr_highthresh_segvsrh_hbhe, dr_lowthresh_segvsrh_eb, dr_lowthresh_segvsrh_ee, dr_lowthresh_segvsrh_hbhe, dt_highthresh_segvsrh_eb, dt_highthresh_segvsrh_ee, dt_highthresh_segvsrh_hbhe, dt_lowthresh_segvsrh_eb, dt_lowthresh_segvsrh_ee, dt_lowthresh_segvsrh_hbhe, et_thresh_rh_eb, et_thresh_rh_ee, et_thresh_rh_hbhe, expected_BX, matching_deta_threshold, matching_dphi_threshold, matching_dwire_threshold, max_dt_muon_segment, max_free_inverse_beta, max_inner_radius, max_outer_radius, max_outer_theta, min_inner_radius, min_outer_radius, min_outer_theta, norm_chi2_threshold, Pi, recHit_t0, and recHit_twindow.

17  : geo_(nullptr), hgeo_(nullptr)
18 {
19  deta_threshold = 0.;
20  min_inner_radius = 0.;
21  max_inner_radius = 9999.;
22  min_outer_radius = 0.;
23  max_outer_radius = 9999.;
24  dphi_threshold = 999.;
25  norm_chi2_threshold = 999.;
26  recHit_t0=0.;
27  recHit_twindow=25.;
28  expected_BX=3;
29  max_dt_muon_segment=-10.0;
31 
32  min_outer_theta = 0.;
34 
35  matching_dphi_threshold = 0.18; //radians
38 
39 
40  et_thresh_rh_hbhe=25; //GeV
41  et_thresh_rh_ee=10;
42  et_thresh_rh_eb=10;
43 
44  dphi_thresh_segvsrh_hbhe=0.05; //radians
47 
51 
55 
59 
63 
64 
65 
66 }
float recHit_t0
Definition: CSCHaloAlgo.h:139
const double Pi
float dt_lowthresh_segvsrh_hbhe
Definition: CSCHaloAlgo.h:152
float et_thresh_rh_ee
Definition: CSCHaloAlgo.h:154
float min_outer_radius
Definition: CSCHaloAlgo.h:135
float recHit_twindow
Definition: CSCHaloAlgo.h:140
float max_outer_radius
Definition: CSCHaloAlgo.h:136
float et_thresh_rh_hbhe
Definition: CSCHaloAlgo.h:152
float dr_lowthresh_segvsrh_hbhe
Definition: CSCHaloAlgo.h:152
float dr_highthresh_segvsrh_ee
Definition: CSCHaloAlgo.h:154
float dt_highthresh_segvsrh_eb
Definition: CSCHaloAlgo.h:153
float dphi_threshold
Definition: CSCHaloAlgo.h:137
float dt_highthresh_segvsrh_hbhe
Definition: CSCHaloAlgo.h:152
float deta_threshold
Definition: CSCHaloAlgo.h:130
float max_inner_radius
Definition: CSCHaloAlgo.h:134
float min_outer_theta
Definition: CSCHaloAlgo.h:132
float matching_dphi_threshold
Definition: CSCHaloAlgo.h:142
float matching_deta_threshold
Definition: CSCHaloAlgo.h:143
const CaloGeometry * geo_
Definition: CSCHaloAlgo.h:158
float dr_lowthresh_segvsrh_ee
Definition: CSCHaloAlgo.h:154
float dt_lowthresh_segvsrh_ee
Definition: CSCHaloAlgo.h:154
float max_outer_theta
Definition: CSCHaloAlgo.h:131
float max_dt_muon_segment
Definition: CSCHaloAlgo.h:145
float dphi_thresh_segvsrh_ee
Definition: CSCHaloAlgo.h:154
float dt_highthresh_segvsrh_ee
Definition: CSCHaloAlgo.h:154
float et_thresh_rh_eb
Definition: CSCHaloAlgo.h:153
float dphi_thresh_segvsrh_hbhe
Definition: CSCHaloAlgo.h:152
const HcalGeometry * hgeo_
Definition: CSCHaloAlgo.h:159
float min_inner_radius
Definition: CSCHaloAlgo.h:133
float dr_highthresh_segvsrh_hbhe
Definition: CSCHaloAlgo.h:152
float max_free_inverse_beta
Definition: CSCHaloAlgo.h:146
int matching_dwire_threshold
Definition: CSCHaloAlgo.h:144
float norm_chi2_threshold
Definition: CSCHaloAlgo.h:138
float dt_lowthresh_segvsrh_eb
Definition: CSCHaloAlgo.h:153
float dr_highthresh_segvsrh_eb
Definition: CSCHaloAlgo.h:153
float dr_lowthresh_segvsrh_eb
Definition: CSCHaloAlgo.h:153
float dphi_thresh_segvsrh_eb
Definition: CSCHaloAlgo.h:153
CSCHaloAlgo::~CSCHaloAlgo ( )
inline

Definition at line 95 of file CSCHaloAlgo.h.

95 {}

Member Function Documentation

reco::CSCHaloData CSCHaloAlgo::Calculate ( const CSCGeometry TheCSCGeometry,
edm::Handle< reco::MuonCollection > &  TheCosmicMuons,
const edm::Handle< reco::MuonTimeExtraMap TheCSCTimeMap,
edm::Handle< reco::MuonCollection > &  TheMuons,
edm::Handle< CSCSegmentCollection > &  TheCSCSegments,
edm::Handle< CSCRecHit2DCollection > &  TheCSCRecHits,
edm::Handle< L1MuGMTReadoutCollection > &  TheL1GMTReadout,
edm::Handle< HBHERecHitCollection > &  hbhehits,
edm::Handle< EcalRecHitCollection > &  ecalebhits,
edm::Handle< EcalRecHitCollection > &  ecaleehits,
edm::Handle< edm::TriggerResults > &  TheHLTResults,
const edm::TriggerNames triggerNames,
const edm::Handle< CSCALCTDigiCollection > &  TheALCTs,
MuonSegmentMatcher TheMatcher,
const edm::Event TheEvent,
const edm::EventSetup TheEventSetup 
)

Definition at line 68 of file CSCHaloAlgo.cc.

References funct::abs(), PV3DBase< T, PVType, FrameType >::barePhi(), relativeConstraints::chamber, CSCGeometry::chamber(), chambers, MuonSubdetId::CSC, hiPixelPairStep_cff::deltaPhi, deta_threshold, dphi_thresh_segvsrh_eb, dphi_thresh_segvsrh_ee, dphi_thresh_segvsrh_hbhe, dphi_threshold, dr_highthresh_segvsrh_eb, dr_highthresh_segvsrh_ee, dr_highthresh_segvsrh_hbhe, dr_lowthresh_segvsrh_eb, dr_lowthresh_segvsrh_ee, dr_lowthresh_segvsrh_hbhe, dt_highthresh_segvsrh_eb, dt_highthresh_segvsrh_ee, dt_highthresh_segvsrh_hbhe, dt_lowthresh_segvsrh_eb, dt_lowthresh_segvsrh_ee, dt_lowthresh_segvsrh_hbhe, ECALSegmentMatching(), et_thresh_rh_eb, et_thresh_rh_ee, et_thresh_rh_hbhe, PV3DBase< T, PVType, FrameType >::eta(), reco::MuonTimeExtra::freeInverseBeta(), geo_, edm::EventSetup::get(), reco::CSCHaloData::GetCSCTrackImpactPositions(), CaloGeometry::getSubdetectorGeometry(), reco::CSCHaloData::GetTracks(), DetId::Hcal, HCALSegmentMatching(), hgeo_, CSCGeometry::idToDetUnit(), edm::HandleBase::isValid(), PV3DBase< T, PVType, FrameType >::mag2(), MuonSegmentMatcher::matchCSC(), max_dt_muon_segment, max_free_inverse_beta, max_inner_radius, max_outer_radius, max_outer_theta, max_segment_phi_diff, max_segment_r_diff, max_segment_theta, min_inner_radius, min_outer_radius, min_outer_theta, RPCpg::mu, DetId::Muon, norm_chi2_threshold, PV3DBase< T, PVType, FrameType >::phi(), Pi, edm::ESHandle< T >::product(), edm::RefVector< C, T, F >::push_back(), recHit_t0, recHit_twindow, reco::CSCHaloData::SetHLTBit(), reco::CSCHaloData::SetNFlatHaloSegments(), reco::CSCHaloData::SetNFlatHaloSegments_TrkMuUnVeto(), reco::CSCHaloData::SetNIncomingTracks(), reco::CSCHaloData::SetNOutOfTimeHits(), reco::CSCHaloData::SetNOutOfTimeTriggers(), reco::CSCHaloData::SetNumberOfHaloTriggers(), reco::CSCHaloData::SetNumberOfHaloTriggers_TrkMuUnVeto(), reco::CSCHaloData::SetSegmentIsCaloMatched(), reco::CSCHaloData::SetSegmentIsEBCaloMatched(), reco::CSCHaloData::SetSegmentIsEECaloMatched(), reco::CSCHaloData::SetSegmentIsHCaloMatched(), reco::CSCHaloData::SetSegmentsBothEndcaps(), reco::CSCHaloData::SetSegmentsBothEndcaps_Loose_dTcut_TrkMuUnVeto(), reco::CSCHaloData::SetSegmentsBothEndcaps_Loose_TrkMuUnVeto(), mathSSE::sqrt(), GeomDet::surface(), PV3DBase< T, PVType, FrameType >::theta(), theta(), GeomDet::toGlobal(), PV3DBase< T, PVType, FrameType >::x(), PV3DBase< T, PVType, FrameType >::y(), z, and PV3DBase< T, PVType, FrameType >::z().

84 {
85  reco::CSCHaloData TheCSCHaloData;
86  int imucount=0;
87 
88  bool calomatched =false;
89  bool ECALBmatched =false;
90  bool ECALEmatched =false;
91  bool HCALmatched =false;
92 
94  TheSetup.get<CaloGeometryRecord>().get(pGeo);
95  geo_ = pGeo.product();
96  hgeo_ = dynamic_cast<const HcalGeometry*>(geo_->getSubdetectorGeometry(DetId::Hcal, 1));
97 
98  //}
99  bool trkmuunvetoisdefault = false; //Pb with low pt tracker muons that veto good csc segments/halo triggers.
100  //Test to "unveto" low pt trk muons.
101  //For now, we just recalculate everything without the veto and add an extra set of variables to the class CSCHaloData.
102  //If this is satisfactory, these variables can become the default ones by setting trkmuunvetoisdefault to true.
103  if( TheCosmicMuons.isValid() )
104  {
105  short int n_tracks_small_beta=0;
106  short int n_tracks_small_dT=0;
107  short int n_tracks_small_dT_and_beta=0;
108  for( reco::MuonCollection::const_iterator iMuon = TheCosmicMuons->begin() ; iMuon != TheCosmicMuons->end() ; iMuon++, imucount++ )
109  {
110  reco::TrackRef Track = iMuon->outerTrack();
111  if(!Track) continue;
112 
113  bool StoreTrack = false;
114  // Calculate global phi coordinate for central most rechit in the track
115  float innermost_global_z = 1500.;
116  float outermost_global_z = 0.;
117  GlobalPoint InnerMostGlobalPosition(0.,0.,0.); // smallest abs(z)
118  GlobalPoint OuterMostGlobalPosition(0.,0.,0.); // largest abs(z)
119  int nCSCHits = 0;
120  for(unsigned int j = 0 ; j < Track->extra()->recHitsSize(); j++ )
121  {
122  auto hit = Track->extra()->recHitRef(j);
123  if( !hit->isValid() ) continue;
124  DetId TheDetUnitId(hit->geographicalId());
125  if( TheDetUnitId.det() != DetId::Muon ) continue;
126  if( TheDetUnitId.subdetId() != MuonSubdetId::CSC ) continue;
127 
128  const GeomDetUnit *TheUnit = TheCSCGeometry.idToDetUnit(TheDetUnitId);
129  LocalPoint TheLocalPosition = hit->localPosition();
130  const BoundPlane& TheSurface = TheUnit->surface();
131  const GlobalPoint TheGlobalPosition = TheSurface.toGlobal(TheLocalPosition);
132 
133  float z = TheGlobalPosition.z();
134  if( abs(z) < innermost_global_z )
135  {
136  innermost_global_z = abs(z);
137  InnerMostGlobalPosition = GlobalPoint( TheGlobalPosition);
138  }
139  if( abs(z) > outermost_global_z )
140  {
141  outermost_global_z = abs(z);
142  OuterMostGlobalPosition = GlobalPoint( TheGlobalPosition );
143  }
144  nCSCHits ++;
145  }
146 
147  std::vector<const CSCSegment*> MatchedSegments = TheMatcher->matchCSC(*Track,TheEvent);
148  // Find the inner and outer segments separately in case they don't agree completely with recHits
149  // Plan for the possibility segments in both endcaps
150  float InnerSegmentTime[2] = {0,0};
151  float OuterSegmentTime[2] = {0,0};
152  float innermost_seg_z[2] = {1500,1500};
153  float outermost_seg_z[2] = {0,0};
154  for (std::vector<const CSCSegment*>::const_iterator segment =MatchedSegments.begin();
155  segment != MatchedSegments.end(); ++segment)
156  {
157  CSCDetId TheCSCDetId((*segment)->cscDetId());
158  const CSCChamber* TheCSCChamber = TheCSCGeometry.chamber(TheCSCDetId);
159  LocalPoint TheLocalPosition = (*segment)->localPosition();
160  const GlobalPoint TheGlobalPosition = TheCSCChamber->toGlobal(TheLocalPosition);
161  float z = TheGlobalPosition.z();
162  int TheEndcap = TheCSCDetId.endcap();
163  if( abs(z) < innermost_seg_z[TheEndcap-1] )
164  {
165  innermost_seg_z[TheEndcap-1] = abs(z);
166  InnerSegmentTime[TheEndcap-1] = (*segment)->time();
167  }
168  if( abs(z) > outermost_seg_z[TheEndcap-1] )
169  {
170  outermost_seg_z[TheEndcap-1] = abs(z);
171  OuterSegmentTime[TheEndcap-1] = (*segment)->time();
172  }
173  }
174 
175  if( nCSCHits < 3 ) continue; // This needs to be optimized, but is the minimum
176 
177  float dT_Segment = 0; // default safe value, looks like collision muon
178 
179  if( innermost_seg_z[0] < outermost_seg_z[0]) // two segments in ME+
180  dT_Segment = OuterSegmentTime[0]-InnerSegmentTime[0];
181  if( innermost_seg_z[1] < outermost_seg_z[1]) // two segments in ME-
182  {
183  // replace the measurement if there weren't segments in ME+ or
184  // if the track in ME- has timing more consistent with an incoming particle
185  if (dT_Segment == 0.0 || OuterSegmentTime[1]-InnerSegmentTime[1] < dT_Segment)
186  dT_Segment = OuterSegmentTime[1]-InnerSegmentTime[1] ;
187  }
188 
189  if( OuterMostGlobalPosition.x() == 0. || OuterMostGlobalPosition.y() == 0. || OuterMostGlobalPosition.z() == 0. )
190  continue;
191  if( InnerMostGlobalPosition.x() == 0. || InnerMostGlobalPosition.y() == 0. || InnerMostGlobalPosition.z() == 0. )
192  continue;
193 
194  //Its a CSC Track,store it if it passes halo selection
195  StoreTrack = true;
196 
197  float deta = abs( OuterMostGlobalPosition.eta() - InnerMostGlobalPosition.eta() );
198  float dphi = abs(deltaPhi( OuterMostGlobalPosition.barePhi() , InnerMostGlobalPosition.barePhi() )) ;
199  float theta = Track->outerMomentum().theta();
200  float innermost_x = InnerMostGlobalPosition.x() ;
201  float innermost_y = InnerMostGlobalPosition.y();
202  float outermost_x = OuterMostGlobalPosition.x();
203  float outermost_y = OuterMostGlobalPosition.y();
204  float innermost_r = TMath::Sqrt(innermost_x *innermost_x + innermost_y * innermost_y );
205  float outermost_r = TMath::Sqrt(outermost_x *outermost_x + outermost_y * outermost_y );
206 
207  if( deta < deta_threshold )
208  StoreTrack = false;
209  if( theta > min_outer_theta && theta < max_outer_theta )
210  StoreTrack = false;
211  if( dphi > dphi_threshold )
212  StoreTrack = false;
213  if( innermost_r < min_inner_radius )
214  StoreTrack = false;
215  if( innermost_r > max_inner_radius )
216  StoreTrack = false;
217  if( outermost_r < min_outer_radius )
218  StoreTrack = false;
219  if( outermost_r > max_outer_radius )
220  StoreTrack = false;
221  if( Track->normalizedChi2() > norm_chi2_threshold )
222  StoreTrack = false;
223 
224  if( StoreTrack )
225  {
226  TheCSCHaloData.GetCSCTrackImpactPositions().push_back( InnerMostGlobalPosition );
227  TheCSCHaloData.GetTracks().push_back( Track );
228  }
229 
230  // Analyze the MuonTimeExtra information
231  if( TheCSCTimeMap.isValid() )
232  {
233  reco::MuonRef muonR(TheCosmicMuons,imucount);
234  const reco::MuonTimeExtraMap & timeMapCSC = *TheCSCTimeMap;
235  reco::MuonTimeExtra timecsc = timeMapCSC[muonR];
236  float freeInverseBeta = timecsc.freeInverseBeta();
237 
238  if (dT_Segment < max_dt_muon_segment )
239  n_tracks_small_dT++;
240  if (freeInverseBeta < max_free_inverse_beta)
241  n_tracks_small_beta++;
242  if ((dT_Segment < max_dt_muon_segment) && (freeInverseBeta < max_free_inverse_beta))
243  n_tracks_small_dT_and_beta++;
244  }
245  else
246  {
247  static std::atomic<bool> MuonTimeFail{false};
248  bool expected = false;
249  if( MuonTimeFail.compare_exchange_strong(expected,true,std::memory_order_acq_rel) )
250  {
251  edm::LogWarning ("InvalidInputTag") << "The MuonTimeExtraMap does not appear to be in the event. Some beam halo "
252  << " identification variables will be empty" ;
253  }
254  }
255  }
256  TheCSCHaloData.SetNIncomingTracks(n_tracks_small_dT,n_tracks_small_beta,n_tracks_small_dT_and_beta);
257  }
258  else // collection is invalid
259  {
260  static std::atomic<bool> CosmicFail{false};
261  bool expected = false;
262  if( CosmicFail.compare_exchange_strong(expected,true,std::memory_order_acq_rel) )
263  {
264  edm::LogWarning ("InvalidInputTag") << " The Cosmic Muon collection does not appear to be in the event. These beam halo "
265  << " identification variables will be empty" ;
266  }
267  }
268 
269 
270  // Loop over the CSCRecHit2D collection to look for out-of-time recHits
271  // Out-of-time is defined as tpeak outside [t_0 + TOF - t_window, t_0 + TOF + t_window]
272  // where t_0 and t_window are configurable parameters
273  short int n_recHitsP = 0;
274  short int n_recHitsM = 0;
275  if( TheCSCRecHits.isValid() )
276  {
278  for (dRHIter = TheCSCRecHits->begin(); dRHIter != TheCSCRecHits->end(); dRHIter++)
279  {
280  if ( !((*dRHIter).isValid()) ) continue; // only interested in valid hits
281  CSCDetId idrec = (CSCDetId)(*dRHIter).cscDetId();
282  float RHTime = (*dRHIter).tpeak();
283  LocalPoint rhitlocal = (*dRHIter).localPosition();
284  const CSCChamber* chamber = TheCSCGeometry.chamber(idrec);
285  GlobalPoint globalPosition = chamber->toGlobal(rhitlocal);
286  float globZ = globalPosition.z();
287  if ( RHTime < (recHit_t0 - recHit_twindow) )
288  {
289  if( globZ > 0 )
290  n_recHitsP++;
291  else
292  n_recHitsM++;
293  }
294 
295  /*
296 
297  float globX = globalPosition.x();
298  float globY = globalPosition.y();
299  float globZ = globalPosition.z();
300  float TOF = (sqrt(globX*globX+ globY*globY + globZ*globZ))/29.9792458 ; //cm -> ns
301  if ( (RHTime < (recHit_t0 + TOF - recHit_twindow)) || (RHTime > (recHit_t0 + TOF + recHit_twindow)) )
302  {
303  if( globZ > 0 )
304  n_recHitsP++;
305  else
306  n_recHitsM++;
307  }
308  */
309  }
310  }
311  else
312  {
313  static std::atomic<bool> RecHitFail{false};
314  bool expected = false;
315  if( RecHitFail.compare_exchange_strong(expected,true,std::memory_order_acq_rel) )
316  {
317  edm::LogWarning ("InvalidInputTag") << "The requested CSCRecHit2DCollection does not appear to be in the event. The CSC RecHit "
318  << " variables used for halo identification will not be calculated or stored";
319  }
320  }
321  TheCSCHaloData.SetNOutOfTimeHits(n_recHitsP+n_recHitsM);
322  // MLR
323  // Loop through CSCSegments and count the number of "flat" segments with the same (r,phi),
324  // saving the value in TheCSCHaloData.
325  short int maxNSegments = 0;
326  bool plus_endcap = false;
327  bool minus_endcap = false;
328  bool both_endcaps = false;
329  bool both_endcaps_loose = false;
330  // bool both_endcaps_dtcut = false;
331 
332  short int maxNSegments_alt = 0;
333  bool both_endcaps_alt = false;
334  bool both_endcaps_loose_alt = false;
335  bool both_endcaps_loose_dtcut_alt = false;
336 
337  //float r = 0., phi = 0.;
338  if (TheCSCSegments.isValid()) {
339  for(CSCSegmentCollection::const_iterator iSegment = TheCSCSegments->begin();
340  iSegment != TheCSCSegments->end();
341  iSegment++) {
342 
343  CSCDetId iCscDetID = iSegment->cscDetId();
344  bool Segment1IsGood=true;
345  bool Segment1IsGood_alt=true;
346 
347  //avoid segments from collision muons
348  if( TheMuons.isValid() )
349  {
350  for(reco::MuonCollection::const_iterator mu = TheMuons->begin(); mu!= TheMuons->end() && (Segment1IsGood||!trkmuunvetoisdefault) ; mu++ )
351  {
352  bool lowpttrackmu=false;
353  if( !mu->isTrackerMuon() && !mu->isGlobalMuon() && mu->isStandAloneMuon() ) continue;
354  if( !mu->isTrackerMuon() && !mu->isGlobalMuon() && mu->isStandAloneMuon()&&trkmuunvetoisdefault) continue;
355  if( !mu->isGlobalMuon() && mu->isTrackerMuon() && mu->pt()<3) lowpttrackmu=true;
356  const std::vector<MuonChamberMatch> chambers = mu->matches();
357  for(std::vector<MuonChamberMatch>::const_iterator kChamber = chambers.begin();
358  kChamber != chambers.end(); kChamber ++ )
359  {
360  if( kChamber->detector() != MuonSubdetId::CSC ) continue;
361  for( std::vector<reco::MuonSegmentMatch>::const_iterator kSegment = kChamber->segmentMatches.begin();
362  kSegment != kChamber->segmentMatches.end(); kSegment++ )
363  {
364  edm::Ref<CSCSegmentCollection> cscSegRef = kSegment->cscSegmentRef;
365  CSCDetId kCscDetID = cscSegRef->cscDetId();
366 
367  if( kCscDetID == iCscDetID )
368  {
369  Segment1IsGood = false;
370  if(!lowpttrackmu) Segment1IsGood_alt=false;
371  }
372  }
373  }
374  }
375  }
376  if(!Segment1IsGood&&!Segment1IsGood_alt) continue;
377 
378  // Get local direction vector; if direction runs parallel to beamline,
379  // count this segment as beam halo candidate.
380  LocalPoint iLocalPosition = iSegment->localPosition();
381  LocalVector iLocalDirection = iSegment->localDirection();
382 
383  GlobalPoint iGlobalPosition = TheCSCGeometry.chamber(iCscDetID)->toGlobal(iLocalPosition);
384  GlobalVector iGlobalDirection = TheCSCGeometry.chamber(iCscDetID)->toGlobal(iLocalDirection);
385 
386  float iTheta = iGlobalDirection.theta();
387  if (iTheta > max_segment_theta && iTheta < TMath::Pi() - max_segment_theta) continue;
388 
389  float iPhi = iGlobalPosition.phi();
390  float iR = TMath::Sqrt(iGlobalPosition.x()*iGlobalPosition.x() + iGlobalPosition.y()*iGlobalPosition.y());
391  float iZ = iGlobalPosition.z();
392  float iT = iSegment->time();
393 
394  // if(abs(iZ)<650&& TheEvent.id().run()< 251737) iT-= 25;
395  //Calo matching:
396 
400  calomatched |= (hbhematched || ebmatched || eematched);
401  HCALmatched |= hbhematched;
402  ECALBmatched |= ebmatched;
403  ECALEmatched |= eematched;
404 
405  short int nSegs = 0;
406  short int nSegs_alt = 0;
407  // Changed to loop over all Segments (so N^2) to catch as many segments as possible.
408  for (CSCSegmentCollection::const_iterator jSegment = TheCSCSegments->begin();
409  jSegment != TheCSCSegments->end();
410  jSegment++) {
411  if (jSegment == iSegment) continue;
412  bool Segment2IsGood = true;
413  bool Segment2IsGood_alt = true;
414  LocalPoint jLocalPosition = jSegment->localPosition();
415  LocalVector jLocalDirection = jSegment->localDirection();
416  CSCDetId jCscDetID = jSegment->cscDetId();
417  GlobalPoint jGlobalPosition = TheCSCGeometry.chamber(jCscDetID)->toGlobal(jLocalPosition);
418  GlobalVector jGlobalDirection = TheCSCGeometry.chamber(jCscDetID)->toGlobal(jLocalDirection);
419  float jTheta = jGlobalDirection.theta();
420  float jPhi = jGlobalPosition.phi();
421  float jR = TMath::Sqrt(jGlobalPosition.x()*jGlobalPosition.x() + jGlobalPosition.y()*jGlobalPosition.y());
422  float jZ = jGlobalPosition.z() ;
423  float jT = jSegment->time();
424  // if(abs(jZ)<650&& TheEvent.id().run() < 251737)jT-= 25;
425  if ( std::abs(deltaPhi(jPhi , iPhi)) <=max_segment_phi_diff
426  && ( std::abs(jR - iR) <0.05*std::abs(jZ - iZ)|| jZ*iZ>0 )
427  && ( (jR - iR) >-0.02*std::abs(jZ - iZ) || iT>jT || jZ*iZ>0)
428  && ( (iR - jR) >-0.02*std::abs(jZ - iZ) || iT<jT || jZ*iZ>0)
429  && (std::abs(jR - iR) <= max_segment_r_diff || jZ*iZ < 0)
430  && (jTheta < max_segment_theta || jTheta > TMath::Pi() - max_segment_theta)) {
432  if( TheMuons.isValid() ) {
433  for(reco::MuonCollection::const_iterator mu = TheMuons->begin(); mu!= TheMuons->end() && (Segment2IsGood||!trkmuunvetoisdefault) ; mu++ ) {
434  bool lowpttrackmu=false;
435  if( !mu->isTrackerMuon() && !mu->isGlobalMuon() && mu->isStandAloneMuon() ) continue;
436  if( !mu->isGlobalMuon() && mu->isTrackerMuon() && mu->pt()<3) lowpttrackmu= true;
437  const std::vector<MuonChamberMatch> chambers = mu->matches();
438  for(std::vector<MuonChamberMatch>::const_iterator kChamber = chambers.begin();
439  kChamber != chambers.end(); kChamber ++ ) {
440  if( kChamber->detector() != MuonSubdetId::CSC ) continue;
441  for( std::vector<reco::MuonSegmentMatch>::const_iterator kSegment = kChamber->segmentMatches.begin();
442  kSegment != kChamber->segmentMatches.end(); kSegment++ ) {
443  edm::Ref<CSCSegmentCollection> cscSegRef = kSegment->cscSegmentRef;
444  CSCDetId kCscDetID = cscSegRef->cscDetId();
445 
446  if( kCscDetID == jCscDetID ) {
447  Segment2IsGood = false;
448  if(!lowpttrackmu) Segment2IsGood_alt=false;
449  }
450  }
451  }
452  }
453  }
454  if(Segment1IsGood && Segment2IsGood) {
455  nSegs++;
456  minus_endcap = iGlobalPosition.z() < 0 || jGlobalPosition.z() < 0;
457  plus_endcap = iGlobalPosition.z() > 0 || jGlobalPosition.z() > 0;
458  // if( abs(jT-iT)/sqrt( (jR-iR)*(jR-iR)+(jZ-iZ)*(jZ-iZ) )<0.05 && abs(jT-iT)/sqrt( (jR-iR)*(jR-iR)+(jZ-iZ)*(jZ-iZ) )>0.02 && minus_endcap&&plus_endcap ) both_endcaps_dtcut =true;
459  }
460  if(Segment1IsGood_alt && Segment2IsGood_alt) {
461  nSegs_alt++;
462  minus_endcap = iGlobalPosition.z() < 0 || jGlobalPosition.z() < 0;
463  plus_endcap = iGlobalPosition.z() > 0 || jGlobalPosition.z() > 0;
464  double iTBX = iT+sqrt(iGlobalPosition.mag2())/c_cm_per_ns;
465  double jTBX = jT+sqrt(jGlobalPosition.mag2())/c_cm_per_ns;
466  double truedt = (iTBX>jTBX)? iTBX-jTBX-std::abs(iZ-jZ)/c_cm_per_ns : jTBX-iTBX-std::abs(iZ-jZ)/c_cm_per_ns;
467  if(
468  std::abs(truedt)<15 &&
469  (iT>-15 || jT>-15)&&
470  minus_endcap&&plus_endcap ) both_endcaps_loose_dtcut_alt =true;
471  }
472 
473  }
474  }
475  // Correct the fact that the way nSegs counts will always be short by 1
476  if (nSegs > 0) nSegs++;
477 
478  // The opposite endcaps segments do not need to belong to the longest chain.
479  if (nSegs > 0) both_endcaps_loose = both_endcaps_loose ? both_endcaps_loose : minus_endcap && plus_endcap;
480  if (nSegs_alt > 0) nSegs_alt++;
481  if (nSegs_alt > 0) both_endcaps_loose_alt = both_endcaps_loose_alt ? both_endcaps_loose_alt : minus_endcap && plus_endcap;
482 
483  // if (nSegs > 0) both_endcaps_dt20ns = both_endcaps_dt20ns ? both_endcaps_dt20ns : minus_endcap && plus_endcap &&dt20ns;
484  if (nSegs > maxNSegments) {
485  // Use value of r, phi to collect halo CSCSegments for examining timing (not coded yet...)
486  //r = iR;
487  //phi = iPhi;
488  maxNSegments = nSegs;
489  both_endcaps = both_endcaps ? both_endcaps : minus_endcap && plus_endcap;
490  }
491 
492  if (nSegs_alt > maxNSegments_alt) {
493  maxNSegments_alt = nSegs_alt;
494  both_endcaps_alt = both_endcaps_alt ? both_endcaps_alt : minus_endcap && plus_endcap;
495  }
496 
497  }
498  }
499 
500  //Deprecated methods, kept for backward compatibility
501  TheCSCHaloData.SetHLTBit(false);
502  TheCSCHaloData.SetNumberOfHaloTriggers(0,0);
503  TheCSCHaloData.SetNumberOfHaloTriggers_TrkMuUnVeto(0,0);
504  TheCSCHaloData.SetNOutOfTimeTriggers(0,0);
505 
506  //Current methods used
507  TheCSCHaloData.SetNFlatHaloSegments(maxNSegments);
508  TheCSCHaloData.SetSegmentsBothEndcaps(both_endcaps);
509  TheCSCHaloData.SetNFlatHaloSegments_TrkMuUnVeto(maxNSegments_alt);
510  TheCSCHaloData.SetSegmentsBothEndcaps_Loose_TrkMuUnVeto(both_endcaps_loose_alt);
511  TheCSCHaloData.SetSegmentsBothEndcaps_Loose_dTcut_TrkMuUnVeto(both_endcaps_loose_dtcut_alt);
512  TheCSCHaloData.SetSegmentIsCaloMatched(calomatched);
513  TheCSCHaloData.SetSegmentIsHCaloMatched(HCALmatched);
514  TheCSCHaloData.SetSegmentIsEBCaloMatched(ECALBmatched);
515  TheCSCHaloData.SetSegmentIsEECaloMatched(ECALEmatched);
516 
517  return TheCSCHaloData;
518 }
float recHit_t0
Definition: CSCHaloAlgo.h:139
const double Pi
const CaloSubdetectorGeometry * getSubdetectorGeometry(const DetId &id) const
access the subdetector geometry for the given subdetector directly
Definition: CaloGeometry.cc:44
float dt_lowthresh_segvsrh_hbhe
Definition: CSCHaloAlgo.h:152
T mag2() const
Definition: PV3DBase.h:66
float et_thresh_rh_ee
Definition: CSCHaloAlgo.h:154
float max_segment_r_diff
Definition: CSCHaloAlgo.h:148
float min_outer_radius
Definition: CSCHaloAlgo.h:135
float recHit_twindow
Definition: CSCHaloAlgo.h:140
float max_outer_radius
Definition: CSCHaloAlgo.h:136
float et_thresh_rh_hbhe
Definition: CSCHaloAlgo.h:152
void SetNFlatHaloSegments_TrkMuUnVeto(short int nSegments)
Definition: CSCHaloData.h:98
float dr_lowthresh_segvsrh_hbhe
Definition: CSCHaloAlgo.h:152
float dr_highthresh_segvsrh_ee
Definition: CSCHaloAlgo.h:154
float dt_highthresh_segvsrh_eb
Definition: CSCHaloAlgo.h:153
float dphi_threshold
Definition: CSCHaloAlgo.h:137
GlobalPoint toGlobal(const Local2DPoint &lp) const
Conversion to the global R.F. from the R.F. of the GeomDet.
Definition: GeomDet.h:54
float dt_highthresh_segvsrh_hbhe
Definition: CSCHaloAlgo.h:152
void SetSegmentIsEECaloMatched(bool b)
Definition: CSCHaloData.h:104
void SetSegmentsBothEndcaps_Loose_TrkMuUnVeto(bool b)
Definition: CSCHaloData.h:99
Geom::Phi< T > phi() const
Definition: PV3DBase.h:69
Global3DPoint GlobalPoint
Definition: GlobalPoint.h:10
Geom::Theta< T > theta() const
T y() const
Definition: PV3DBase.h:63
std::vector< const CSCSegment * > matchCSC(const reco::Track &muon, const edm::Event &event)
float deta_threshold
Definition: CSCHaloAlgo.h:130
float max_inner_radius
Definition: CSCHaloAlgo.h:134
float min_outer_theta
Definition: CSCHaloAlgo.h:132
const Plane & surface() const
The nominal surface of the GeomDet.
Definition: GeomDet.h:42
float max_segment_phi_diff
Definition: CSCHaloAlgo.h:149
Geom::Theta< T > theta() const
Definition: PV3DBase.h:75
const CaloGeometry * geo_
Definition: CSCHaloAlgo.h:158
float dr_lowthresh_segvsrh_ee
Definition: CSCHaloAlgo.h:154
float dt_lowthresh_segvsrh_ee
Definition: CSCHaloAlgo.h:154
static const int CSC
Definition: MuonSubdetId.h:13
float max_outer_theta
Definition: CSCHaloAlgo.h:131
float max_dt_muon_segment
Definition: CSCHaloAlgo.h:145
float dphi_thresh_segvsrh_ee
Definition: CSCHaloAlgo.h:154
T sqrt(T t)
Definition: SSEVec.h:18
float dt_highthresh_segvsrh_ee
Definition: CSCHaloAlgo.h:154
void SetSegmentIsCaloMatched(bool b)
Definition: CSCHaloData.h:101
T z() const
Definition: PV3DBase.h:64
float et_thresh_rh_eb
Definition: CSCHaloAlgo.h:153
const std::vector< GlobalPoint > & GetCSCTrackImpactPositions() const
Definition: CSCHaloData.h:88
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
void SetSegmentsBothEndcaps(bool b)
Definition: CSCHaloData.h:96
float dphi_thresh_segvsrh_hbhe
Definition: CSCHaloAlgo.h:152
const HcalGeometry * hgeo_
Definition: CSCHaloAlgo.h:159
const int mu
Definition: Constants.h:22
float min_inner_radius
Definition: CSCHaloAlgo.h:133
bool isValid() const
Definition: HandleBase.h:74
void SetHLTBit(bool status)
Definition: CSCHaloData.h:84
Definition: DetId.h:18
void SetNFlatHaloSegments(short int nSegments)
Definition: CSCHaloData.h:95
float dr_highthresh_segvsrh_hbhe
Definition: CSCHaloAlgo.h:152
void SetNIncomingTracks(short int n_small_dT, short int n_small_beta, short int n_small_both)
Definition: CSCHaloData.h:80
const CSCChamber * chamber(CSCDetId id) const
Return the chamber corresponding to given DetId.
Definition: CSCGeometry.cc:118
void SetNumberOfHaloTriggers(int PlusZ, int MinusZ)
Definition: CSCHaloData.h:73
float max_segment_theta
Definition: CSCHaloAlgo.h:150
float max_free_inverse_beta
Definition: CSCHaloAlgo.h:146
void SetSegmentIsHCaloMatched(bool b)
Definition: CSCHaloData.h:102
const GeomDet * idToDetUnit(DetId) const override
Return the pointer to the GeomDetUnit corresponding to a given DetId.
Definition: CSCGeometry.cc:93
float norm_chi2_threshold
Definition: CSCHaloAlgo.h:138
float dt_lowthresh_segvsrh_eb
Definition: CSCHaloAlgo.h:153
float freeInverseBeta() const
Definition: MuonTimeExtra.h:36
void SetSegmentsBothEndcaps_Loose_dTcut_TrkMuUnVeto(bool b)
Definition: CSCHaloData.h:100
void push_back(value_type const &ref)
Add a Ref<C, T> to the RefVector.
Definition: RefVector.h:69
bool ECALSegmentMatching(edm::Handle< EcalRecHitCollection > &rechitcoll, float et_thresh_rh, float dphi_thresh_segvsrh, float dr_lowthresh_segvsrh, float dr_highthresh_segvsrh, float dt_lowthresh_segvsrh, float dt_highthresh_segvsrh, float iZ, float iR, float iT, float iPhi)
Definition: CSCHaloAlgo.cc:549
void SetNOutOfTimeHits(short int num)
Definition: CSCHaloData.h:78
void SetNumberOfHaloTriggers_TrkMuUnVeto(int PlusZ, int MinusZ)
Definition: CSCHaloData.h:74
void SetNOutOfTimeTriggers(short int PlusZ, short int MinusZ)
Definition: CSCHaloData.h:76
static char chambers[264][20]
Definition: ReadPGInfo.cc:243
bool HCALSegmentMatching(edm::Handle< HBHERecHitCollection > &rechitcoll, float et_thresh_rh, float dphi_thresh_segvsrh, float dr_lowthresh_segvsrh, float dr_highthresh_segvsrh, float dt_lowthresh_segvsrh, float dt_highthresh_segvsrh, float iZ, float iR, float iT, float iPhi)
Definition: CSCHaloAlgo.cc:528
void SetSegmentIsEBCaloMatched(bool b)
Definition: CSCHaloData.h:103
T x() const
Definition: PV3DBase.h:62
T const * product() const
Definition: ESHandle.h:86
float dr_highthresh_segvsrh_eb
Definition: CSCHaloAlgo.h:153
float dr_lowthresh_segvsrh_eb
Definition: CSCHaloAlgo.h:153
edm::RefVector< reco::TrackCollection > & GetTracks()
Definition: CSCHaloData.h:69
float dphi_thresh_segvsrh_eb
Definition: CSCHaloAlgo.h:153
bool CSCHaloAlgo::ECALSegmentMatching ( edm::Handle< EcalRecHitCollection > &  rechitcoll,
float  et_thresh_rh,
float  dphi_thresh_segvsrh,
float  dr_lowthresh_segvsrh,
float  dr_highthresh_segvsrh,
float  dt_lowthresh_segvsrh,
float  dt_highthresh_segvsrh,
float  iZ,
float  iR,
float  iT,
float  iPhi 
)
private

Definition at line 549 of file CSCHaloAlgo.cc.

References funct::abs(), hiPixelPairStep_cff::deltaPhi, EcalRecHit::energy(), getPosition(), EcalRecHit::id(), edm::SortedCollection< T, SORT >::size(), mathSSE::sqrt(), EcalRecHit::time(), and badGlobalMuonTaggersAOD_cff::vtx.

Referenced by Calculate().

549  {
550  reco::Vertex::Point vtx(0,0,0);
551  for(size_t ihit = 0; ihit<rechitcoll->size(); ++ ihit){
552  const EcalRecHit & rechit = (*rechitcoll)[ ihit ];
553  math::XYZPoint rhpos = getPosition(rechit.id(),vtx);
554  double rhet = rechit.energy()/cosh(rhpos.eta());
555  double dphi_rhseg = abs(deltaPhi(rhpos.phi(),iPhi));
556  double dr_rhseg = sqrt(rhpos.x()*rhpos.x()+rhpos.y()*rhpos.y()) - iR;
557  double dtcorr_rhseg = rechit.time()- abs(rhpos.z()-iZ)/30- iT;
558  if(
559  ( rechit.time()<-1)&&
560  (rhpos.z()*iZ<0|| abs(rhpos.z())<200)&&
561  rhet> et_thresh_rh&&
562  dphi_rhseg < dphi_thresh_segvsrh &&
563  dr_rhseg < dr_highthresh_segvsrh && dr_rhseg> dr_lowthresh_segvsrh && //careful: asymmetric cut might not be the most appropriate thing
564  dtcorr_rhseg> dt_lowthresh_segvsrh && dtcorr_rhseg< dr_highthresh_segvsrh
565  ) return true;
566  }
567  return false;
568 }
float time() const
Definition: EcalRecHit.h:70
T sqrt(T t)
Definition: SSEVec.h:18
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
float energy() const
Definition: EcalRecHit.h:68
math::XYZPoint Point
point in the space
Definition: Vertex.h:39
DetId id() const
get the id
Definition: EcalRecHit.h:77
XYZPointD XYZPoint
point in space with cartesian internal representation
Definition: Point3D.h:12
math::XYZPoint getPosition(const DetId &id, reco::Vertex::Point vtx)
Definition: CSCHaloAlgo.cc:520
size_type size() const
math::XYZPoint CSCHaloAlgo::getPosition ( const DetId id,
reco::Vertex::Point  vtx 
)
private

Definition at line 520 of file CSCHaloAlgo.cc.

References geo_, CaloGeometry::getPosition(), HcalGeometry::getPosition(), DetId::Hcal, hgeo_, PV3DBase< T, PVType, FrameType >::x(), PV3DBase< T, PVType, FrameType >::y(), and PV3DBase< T, PVType, FrameType >::z().

Referenced by ECALSegmentMatching(), and HCALSegmentMatching().

520  {
521 
522  const GlobalPoint pos = ((id.det() == DetId::Hcal) ? hgeo_->getPosition(id) : GlobalPoint(geo_->getPosition(id)));
523  math::XYZPoint posV(pos.x() - vtx.x(),pos.y() - vtx.y(),pos.z() - vtx.z());
524  return posV;
525 }
Global3DPoint GlobalPoint
Definition: GlobalPoint.h:10
T y() const
Definition: PV3DBase.h:63
const CaloGeometry * geo_
Definition: CSCHaloAlgo.h:158
T z() const
Definition: PV3DBase.h:64
GlobalPoint getPosition(const DetId &id) const
Get the position of a given detector id.
Definition: CaloGeometry.cc:69
const HcalGeometry * hgeo_
Definition: CSCHaloAlgo.h:159
GlobalPoint getPosition(const DetId &id) const
XYZPointD XYZPoint
point in space with cartesian internal representation
Definition: Point3D.h:12
T x() const
Definition: PV3DBase.h:62
bool CSCHaloAlgo::HCALSegmentMatching ( edm::Handle< HBHERecHitCollection > &  rechitcoll,
float  et_thresh_rh,
float  dphi_thresh_segvsrh,
float  dr_lowthresh_segvsrh,
float  dr_highthresh_segvsrh,
float  dt_lowthresh_segvsrh,
float  dt_highthresh_segvsrh,
float  iZ,
float  iR,
float  iT,
float  iPhi 
)
private

Definition at line 528 of file CSCHaloAlgo.cc.

References funct::abs(), hiPixelPairStep_cff::deltaPhi, CaloRecHit::energy(), getPosition(), HBHERecHit::id(), edm::SortedCollection< T, SORT >::size(), mathSSE::sqrt(), CaloRecHit::time(), and badGlobalMuonTaggersAOD_cff::vtx.

Referenced by Calculate().

528  {
529  reco::Vertex::Point vtx(0,0,0);
530  for(size_t ihit = 0; ihit< rechitcoll->size(); ++ ihit){
531  const HBHERecHit & rechit = (*rechitcoll)[ ihit ];
532  math::XYZPoint rhpos = getPosition(rechit.id(),vtx);
533  double rhet = rechit.energy()/cosh(rhpos.eta());
534  double dphi_rhseg = abs(deltaPhi(rhpos.phi(),iPhi));
535  double dr_rhseg = sqrt(rhpos.x()*rhpos.x()+rhpos.y()*rhpos.y()) - iR;
536  double dtcorr_rhseg = rechit.time()- abs(rhpos.z()-iZ)/30- iT;
537  if(
538  (rechit.time()<-3)&&
539  (rhpos.z()*iZ<0|| abs(rhpos.z())<200)&&
540  rhet> et_thresh_rh&&
541  dphi_rhseg < dphi_thresh_segvsrh &&
542  dr_rhseg < dr_highthresh_segvsrh && dr_rhseg> dr_lowthresh_segvsrh && //careful: asymmetric cut might not be the most appropriate thing
543  dtcorr_rhseg> dt_lowthresh_segvsrh && dtcorr_rhseg< dt_highthresh_segvsrh
544  ) return true;
545  }
546  return false;
547 }
HcalDetId id() const
get the id
Definition: HBHERecHit.h:25
float time() const
Definition: CaloRecHit.h:19
float energy() const
Definition: CaloRecHit.h:17
T sqrt(T t)
Definition: SSEVec.h:18
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
math::XYZPoint Point
point in the space
Definition: Vertex.h:39
XYZPointD XYZPoint
point in space with cartesian internal representation
Definition: Point3D.h:12
math::XYZPoint getPosition(const DetId &id, reco::Vertex::Point vtx)
Definition: CSCHaloAlgo.cc:520
size_type size() const
void CSCHaloAlgo::SetDetaThreshold ( float  x)
inline

Definition at line 108 of file CSCHaloAlgo.h.

108 { deta_threshold = x;}
float deta_threshold
Definition: CSCHaloAlgo.h:130
void CSCHaloAlgo::SetDphiThreshold ( float  x)
inline

Definition at line 111 of file CSCHaloAlgo.h.

111 { dphi_threshold = x;}
float dphi_threshold
Definition: CSCHaloAlgo.h:137
void CSCHaloAlgo::SetExpectedBX ( int  x)
inline

Definition at line 115 of file CSCHaloAlgo.h.

115 { expected_BX = x ;}
void CSCHaloAlgo::SetMatchingDEtaThreshold ( float  x)
inline

Definition at line 118 of file CSCHaloAlgo.h.

void CSCHaloAlgo::SetMatchingDPhiThreshold ( float  x)
inline

Definition at line 117 of file CSCHaloAlgo.h.

void CSCHaloAlgo::SetMatchingDWireThreshold ( int  x)
inline

Definition at line 119 of file CSCHaloAlgo.h.

void CSCHaloAlgo::SetMaxDtMuonSegment ( float  x)
inline

Definition at line 120 of file CSCHaloAlgo.h.

float max_dt_muon_segment
Definition: CSCHaloAlgo.h:145
void CSCHaloAlgo::SetMaxFreeInverseBeta ( float  x)
inline

Definition at line 121 of file CSCHaloAlgo.h.

void CSCHaloAlgo::SetMaxSegmentPhiDiff ( float  x)
inline

Definition at line 125 of file CSCHaloAlgo.h.

125 { max_segment_phi_diff = x; }
float max_segment_phi_diff
Definition: CSCHaloAlgo.h:149
void CSCHaloAlgo::SetMaxSegmentRDiff ( float  x)
inline

Definition at line 124 of file CSCHaloAlgo.h.

124 { max_segment_r_diff = x; }
float max_segment_r_diff
Definition: CSCHaloAlgo.h:148
void CSCHaloAlgo::SetMaxSegmentTheta ( float  x)
inline

Definition at line 126 of file CSCHaloAlgo.h.

126 { max_segment_theta = x; }
float max_segment_theta
Definition: CSCHaloAlgo.h:150
void CSCHaloAlgo::SetMinMaxInnerRadius ( float  min,
float  max 
)
inline

Definition at line 109 of file CSCHaloAlgo.h.

References edm::max(), and edm::min().

void CSCHaloAlgo::SetMinMaxOuterMomentumTheta ( float  min,
float  max 
)
inline

Definition at line 116 of file CSCHaloAlgo.h.

References edm::max(), and edm::min().

float min_outer_theta
Definition: CSCHaloAlgo.h:132
float max_outer_theta
Definition: CSCHaloAlgo.h:131
T min(T a, T b)
Definition: MathUtil.h:58
void CSCHaloAlgo::SetMinMaxOuterRadius ( float  min,
float  max 
)
inline

Definition at line 110 of file CSCHaloAlgo.h.

References edm::max(), and edm::min().

void CSCHaloAlgo::SetNormChi2Threshold ( float  x)
inline

Definition at line 112 of file CSCHaloAlgo.h.

float norm_chi2_threshold
Definition: CSCHaloAlgo.h:138
void CSCHaloAlgo::SetRecHitTime0 ( float  x)
inline

Definition at line 113 of file CSCHaloAlgo.h.

113 { recHit_t0 = x;}
float recHit_t0
Definition: CSCHaloAlgo.h:139
void CSCHaloAlgo::SetRecHitTimeWindow ( float  x)
inline

Definition at line 114 of file CSCHaloAlgo.h.

114 { recHit_twindow = x; }
float recHit_twindow
Definition: CSCHaloAlgo.h:140

Member Data Documentation

float CSCHaloAlgo::deta_threshold
private

Definition at line 130 of file CSCHaloAlgo.h.

Referenced by Calculate(), and CSCHaloAlgo().

float CSCHaloAlgo::dphi_thresh_segvsrh_eb
private

Definition at line 153 of file CSCHaloAlgo.h.

Referenced by Calculate(), and CSCHaloAlgo().

float CSCHaloAlgo::dphi_thresh_segvsrh_ee
private

Definition at line 154 of file CSCHaloAlgo.h.

Referenced by Calculate(), and CSCHaloAlgo().

float CSCHaloAlgo::dphi_thresh_segvsrh_hbhe
private

Definition at line 152 of file CSCHaloAlgo.h.

Referenced by Calculate(), and CSCHaloAlgo().

float CSCHaloAlgo::dphi_threshold
private

Definition at line 137 of file CSCHaloAlgo.h.

Referenced by Calculate(), and CSCHaloAlgo().

float CSCHaloAlgo::dr_highthresh_segvsrh_eb
private

Definition at line 153 of file CSCHaloAlgo.h.

Referenced by Calculate(), and CSCHaloAlgo().

float CSCHaloAlgo::dr_highthresh_segvsrh_ee
private

Definition at line 154 of file CSCHaloAlgo.h.

Referenced by Calculate(), and CSCHaloAlgo().

float CSCHaloAlgo::dr_highthresh_segvsrh_hbhe
private

Definition at line 152 of file CSCHaloAlgo.h.

Referenced by Calculate(), and CSCHaloAlgo().

float CSCHaloAlgo::dr_lowthresh_segvsrh_eb
private

Definition at line 153 of file CSCHaloAlgo.h.

Referenced by Calculate(), and CSCHaloAlgo().

float CSCHaloAlgo::dr_lowthresh_segvsrh_ee
private

Definition at line 154 of file CSCHaloAlgo.h.

Referenced by Calculate(), and CSCHaloAlgo().

float CSCHaloAlgo::dr_lowthresh_segvsrh_hbhe
private

Definition at line 152 of file CSCHaloAlgo.h.

Referenced by Calculate(), and CSCHaloAlgo().

float CSCHaloAlgo::dt_highthresh_segvsrh_eb
private

Definition at line 153 of file CSCHaloAlgo.h.

Referenced by Calculate(), and CSCHaloAlgo().

float CSCHaloAlgo::dt_highthresh_segvsrh_ee
private

Definition at line 154 of file CSCHaloAlgo.h.

Referenced by Calculate(), and CSCHaloAlgo().

float CSCHaloAlgo::dt_highthresh_segvsrh_hbhe
private

Definition at line 152 of file CSCHaloAlgo.h.

Referenced by Calculate(), and CSCHaloAlgo().

float CSCHaloAlgo::dt_lowthresh_segvsrh_eb
private

Definition at line 153 of file CSCHaloAlgo.h.

Referenced by Calculate(), and CSCHaloAlgo().

float CSCHaloAlgo::dt_lowthresh_segvsrh_ee
private

Definition at line 154 of file CSCHaloAlgo.h.

Referenced by Calculate(), and CSCHaloAlgo().

float CSCHaloAlgo::dt_lowthresh_segvsrh_hbhe
private

Definition at line 152 of file CSCHaloAlgo.h.

Referenced by Calculate(), and CSCHaloAlgo().

float CSCHaloAlgo::et_thresh_rh_eb
private

Definition at line 153 of file CSCHaloAlgo.h.

Referenced by Calculate(), and CSCHaloAlgo().

float CSCHaloAlgo::et_thresh_rh_ee
private

Definition at line 154 of file CSCHaloAlgo.h.

Referenced by Calculate(), and CSCHaloAlgo().

float CSCHaloAlgo::et_thresh_rh_hbhe
private

Definition at line 152 of file CSCHaloAlgo.h.

Referenced by Calculate(), and CSCHaloAlgo().

int CSCHaloAlgo::expected_BX
private

Definition at line 141 of file CSCHaloAlgo.h.

Referenced by CSCHaloAlgo().

const CaloGeometry* CSCHaloAlgo::geo_
private

Definition at line 158 of file CSCHaloAlgo.h.

Referenced by Calculate(), and getPosition().

const HcalGeometry* CSCHaloAlgo::hgeo_
private

Definition at line 159 of file CSCHaloAlgo.h.

Referenced by Calculate(), and getPosition().

float CSCHaloAlgo::matching_deta_threshold
private

Definition at line 143 of file CSCHaloAlgo.h.

Referenced by CSCHaloAlgo().

float CSCHaloAlgo::matching_dphi_threshold
private

Definition at line 142 of file CSCHaloAlgo.h.

Referenced by CSCHaloAlgo().

int CSCHaloAlgo::matching_dwire_threshold
private

Definition at line 144 of file CSCHaloAlgo.h.

Referenced by CSCHaloAlgo().

float CSCHaloAlgo::max_dt_muon_segment
private

Definition at line 145 of file CSCHaloAlgo.h.

Referenced by Calculate(), and CSCHaloAlgo().

float CSCHaloAlgo::max_free_inverse_beta
private

Definition at line 146 of file CSCHaloAlgo.h.

Referenced by Calculate(), and CSCHaloAlgo().

float CSCHaloAlgo::max_inner_radius
private

Definition at line 134 of file CSCHaloAlgo.h.

Referenced by Calculate(), and CSCHaloAlgo().

float CSCHaloAlgo::max_outer_radius
private

Definition at line 136 of file CSCHaloAlgo.h.

Referenced by Calculate(), and CSCHaloAlgo().

float CSCHaloAlgo::max_outer_theta
private

Definition at line 131 of file CSCHaloAlgo.h.

Referenced by Calculate(), and CSCHaloAlgo().

float CSCHaloAlgo::max_segment_phi_diff
private

Definition at line 149 of file CSCHaloAlgo.h.

Referenced by Calculate().

float CSCHaloAlgo::max_segment_r_diff
private

Definition at line 148 of file CSCHaloAlgo.h.

Referenced by Calculate().

float CSCHaloAlgo::max_segment_theta
private

Definition at line 150 of file CSCHaloAlgo.h.

Referenced by Calculate().

float CSCHaloAlgo::min_inner_radius
private

Definition at line 133 of file CSCHaloAlgo.h.

Referenced by Calculate(), and CSCHaloAlgo().

float CSCHaloAlgo::min_outer_radius
private

Definition at line 135 of file CSCHaloAlgo.h.

Referenced by Calculate(), and CSCHaloAlgo().

float CSCHaloAlgo::min_outer_theta
private

Definition at line 132 of file CSCHaloAlgo.h.

Referenced by Calculate(), and CSCHaloAlgo().

float CSCHaloAlgo::norm_chi2_threshold
private

Definition at line 138 of file CSCHaloAlgo.h.

Referenced by Calculate(), and CSCHaloAlgo().

float CSCHaloAlgo::recHit_t0
private

Definition at line 139 of file CSCHaloAlgo.h.

Referenced by Calculate(), and CSCHaloAlgo().

float CSCHaloAlgo::recHit_twindow
private

Definition at line 140 of file CSCHaloAlgo.h.

Referenced by Calculate(), and CSCHaloAlgo().

std::vector<edm::InputTag> CSCHaloAlgo::vIT_HLTBit

Definition at line 106 of file CSCHaloAlgo.h.