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HDetIdAssociator Class Referenceabstract

#include <DetIdAssociator.h>

Inheritance diagram for HDetIdAssociator:
HCaloDetIdAssociator HEcalDetIdAssociator HHcalDetIdAssociator

Public Member Functions

virtual std::set< DetIdgetCrossedDetIds (const std::set< DetId > &, const std::vector< GlobalPoint > &trajectory)
 
virtual std::set< DetIdgetDetIdsCloseToAPoint (const GlobalPoint &, const int idR=0)
 
virtual std::set< DetIdgetDetIdsCloseToAPoint (const GlobalPoint &point, const double dR=0)
 
virtual std::set< DetIdgetDetIdsInACone (const std::set< DetId > &, const std::vector< GlobalPoint > &trajectory, const double)
 
virtual std::set< DetIdgetMaxEDetId (const std::set< DetId > &, edm::Handle< CaloTowerCollection > caloTowers)
 
virtual std::set< DetIdgetMaxEDetId (const std::set< DetId > &, edm::Handle< HBHERecHitCollection > recHits)
 
virtual std::vector< GlobalPointgetTrajectory (const FreeTrajectoryState &, const std::vector< GlobalPoint > &)
 
 HDetIdAssociator ()
 
 HDetIdAssociator (const int nPhi, const int nEta, const double etaBinSize)
 
virtual int iEta (const GlobalPoint &)
 
virtual int iPhi (const GlobalPoint &)
 
virtual void setPropagator (Propagator *ptr)
 
virtual ~HDetIdAssociator ()
 

Protected Member Functions

virtual void buildMap ()
 
virtual void check_setup ()
 
virtual std::set< DetIdgetASetOfValidDetIds ()=0
 
virtual std::vector< GlobalPointgetDetIdPoints (const DetId &)=0
 
virtual GlobalPoint getPosition (const DetId &)=0
 
virtual bool insideElement (const GlobalPoint &, const DetId &)=0
 
virtual bool nearElement (const GlobalPoint &point, const DetId &id, const double distance)
 

Protected Attributes

const double etaBinSize_
 
PropagatorivProp_
 
const int nEta_
 
const int nPhi_
 
std::vector< std::vector< std::set< DetId > > > * theMap_
 

Detailed Description

Definition at line 33 of file DetIdAssociator.h.

Constructor & Destructor Documentation

HDetIdAssociator::HDetIdAssociator ( )
inline

Definition at line 35 of file DetIdAssociator.h.

35 :theMap_(nullptr),nPhi_(0),nEta_(0),etaBinSize_(0),ivProp_(nullptr){};
const double etaBinSize_
std::vector< std::vector< std::set< DetId > > > * theMap_
Propagator * ivProp_
HDetIdAssociator::HDetIdAssociator ( const int  nPhi,
const int  nEta,
const double  etaBinSize 
)
inline
virtual HDetIdAssociator::~HDetIdAssociator ( )
inlinevirtual

Definition at line 39 of file DetIdAssociator.h.

References getDetIdsCloseToAPoint(), and getTrajectory().

39 {};

Member Function Documentation

void HDetIdAssociator::buildMap ( )
protectedvirtual

Definition at line 251 of file DetIdAssociator.cc.

References check_setup(), PV3DBase< T, PVType, FrameType >::eta(), etaBinSize_, ALCARECOTkAlBeamHalo_cff::etaMax, ALCARECOTkAlBeamHalo_cff::etaMin, getASetOfValidDetIds(), getPosition(), iEta(), iPhi(), LogTrace, nEta_, nPhi_, AlignmentTrackSelector_cfi::phiMax, AlignmentTrackSelector_cfi::phiMin, point, std::swap(), and theMap_.

Referenced by check_setup(), and getDetIdsCloseToAPoint().

252 {
253 // modified version: take only detector central position
254  check_setup();
255  LogTrace("HDetIdAssociator")<<"building map" << "\n";
256  if(theMap_) delete theMap_;
257  theMap_ = new std::vector<std::vector<std::set<DetId> > >(nEta_,std::vector<std::set<DetId> >(nPhi_));
258  int numberOfDetIdsOutsideEtaRange = 0;
259  int numberOfDetIdsActive = 0;
260  std::set<DetId> validIds = getASetOfValidDetIds();
261  for (std::set<DetId>::const_iterator id_itr = validIds.begin(); id_itr!=validIds.end(); id_itr++) {
262 // std::vector<GlobalPoint> points = getDetIdPoints(*id_itr);
263  GlobalPoint point = getPosition(*id_itr);
264 // reject fake DetIds (eta=0 - what are they anyway???)
265  if(point.eta()==0)continue;
266 
267  int ieta = iEta(point);
268  int iphi = iPhi(point);
269  int etaMax(-1);
270  int etaMin(nEta_);
271  int phiMax(-1);
272  int phiMin(nPhi_);
273  if ( iphi >= nPhi_ ) iphi = iphi % nPhi_;
274  assert (iphi>=0);
275  if ( etaMin > ieta) etaMin = ieta;
276  if ( etaMax < ieta) etaMax = ieta;
277  if ( phiMin > iphi) phiMin = iphi;
278  if ( phiMax < iphi) phiMax = iphi;
279 // for abs(eta)>1.8 one tower covers two phi segments
280  if ((ieta>54||ieta<15) && iphi%2==0) phiMax++;
281  if ((ieta>54||ieta<15) && iphi%2==1) phiMin--;
282 
283  if (etaMax<0||phiMax<0||etaMin>=nEta_||phiMin>=nPhi_) {
284  LogTrace("HDetIdAssociator")<<"Out of range: DetId:" << id_itr->rawId() <<
285  "\n\teta (min,max): " << etaMin << "," << etaMax <<
286  "\n\tphi (min,max): " << phiMin << "," << phiMax <<
287  "\nTower id: " << id_itr->rawId() << "\n";
288  numberOfDetIdsOutsideEtaRange++;
289  continue;
290  }
291 
293  phiMin += nPhi_;
295  }
296  for(int ieta = etaMin; ieta <= etaMax; ieta++)
297  for(int iphi = phiMin; iphi <= phiMax; iphi++)
298  (*theMap_)[ieta][iphi%nPhi_].insert(*id_itr);
299  numberOfDetIdsActive++;
300  }
301  LogTrace("HDetIdAssociator") << "Number of elements outside the allowed range ( |eta|>"<<
302  nEta_/2*etaBinSize_ << "): " << numberOfDetIdsOutsideEtaRange << "\n";
303  LogTrace("HDetIdAssociator") << "Number of active DetId's mapped: " <<
304  numberOfDetIdsActive << "\n";
305 }
virtual void check_setup()
const double etaBinSize_
virtual GlobalPoint getPosition(const DetId &)=0
std::vector< std::vector< std::set< DetId > > > * theMap_
void swap(edm::DataFrameContainer &lhs, edm::DataFrameContainer &rhs)
virtual int iPhi(const GlobalPoint &)
virtual std::set< DetId > getASetOfValidDetIds()=0
#define LogTrace(id)
virtual int iEta(const GlobalPoint &)
T eta() const
Definition: PV3DBase.h:76
*vegas h *****************************************************used in the default bin number in original ***version of VEGAS is ***a higher bin number might help to derive a more precise ***grade subtle point
Definition: invegas.h:5
virtual void HDetIdAssociator::check_setup ( )
inlineprotectedvirtual

Reimplemented in HCaloDetIdAssociator.

Definition at line 73 of file DetIdAssociator.h.

References buildMap(), etaBinSize_, Exception, getASetOfValidDetIds(), getDetIdPoints(), getPosition(), insideElement(), ivProp_, nEta_, and nPhi_.

Referenced by buildMap(), HCaloDetIdAssociator::check_setup(), getCrossedDetIds(), getDetIdsCloseToAPoint(), getDetIdsInACone(), getMaxEDetId(), and getTrajectory().

74  {
75  if (nEta_==0) throw cms::Exception("FatalError") << "Number of eta bins is not set.\n";
76  if (nPhi_==0) throw cms::Exception("FatalError") << "Number of phi bins is not set.\n";
77  if (ivProp_==nullptr) throw cms::Exception("FatalError") << "Track propagator is not defined\n";
78  if (etaBinSize_==0) throw cms::Exception("FatalError") << "Eta bin size is not set.\n";
79  }
const double etaBinSize_
Propagator * ivProp_
virtual std::set<DetId> HDetIdAssociator::getASetOfValidDetIds ( )
protectedpure virtual
std::set< DetId > HDetIdAssociator::getCrossedDetIds ( const std::set< DetId > &  inset,
const std::vector< GlobalPoint > &  trajectory 
)
virtual

Definition at line 353 of file DetIdAssociator.cc.

References check_setup(), and insideElement().

Referenced by getDetIdsCloseToAPoint().

355 {
356  check_setup();
357  std::set<DetId> outset;
358  for(std::set<DetId>::const_iterator id_iter = inset.begin(); id_iter != inset.end(); id_iter++)
359  for(std::vector<GlobalPoint>::const_iterator point_iter = trajectory.begin(); point_iter != trajectory.end(); point_iter++)
360  if (insideElement(*point_iter, *id_iter)) outset.insert(*id_iter);
361  return outset;
362 }
virtual void check_setup()
virtual bool insideElement(const GlobalPoint &, const DetId &)=0
virtual std::vector<GlobalPoint> HDetIdAssociator::getDetIdPoints ( const DetId )
protectedpure virtual

Implemented in HCaloDetIdAssociator.

Referenced by check_setup().

std::set< DetId > HDetIdAssociator::getDetIdsCloseToAPoint ( const GlobalPoint direction,
const int  idR = 0 
)
virtual

Definition at line 145 of file DetIdAssociator.cc.

References begin, buildMap(), check_setup(), end, PV3DBase< T, PVType, FrameType >::eta(), mps_fire::i, iEta(), iPhi(), LogTrace, nEta_, nPhi_, PV3DBase< T, PVType, FrameType >::phi(), and theMap_.

Referenced by getDetIdsCloseToAPoint(), and ~HDetIdAssociator().

147 {
148  std::set<DetId> set;
149  check_setup();
150  int nDets=0;
151  if (! theMap_) buildMap();
152  LogTrace("MatchPoint") << "point (eta,phi): " << direction.eta() << "," << direction.phi() << "\n";
153  int ieta = iEta(direction);
154  int iphi = iPhi(direction);
155 
156  LogTrace("MatchPoint") << "(ieta,iphi): " << ieta << "," << iphi << "\n";
157 
158  if (ieta>=0 && ieta<nEta_ && iphi>=0 && iphi<nPhi_){
159  set = (*theMap_)[ieta][iphi];
160  nDets++;
161  if (idR>0){
162  LogTrace("MatchPoint") << "Add neighbors (ieta,iphi): " << ieta << "," << iphi << "\n";
163  //add neighbors
164  int maxIEta = ieta+idR;
165  int minIEta = ieta-idR;
166  if(maxIEta>=nEta_) maxIEta = nEta_-1;
167  if(minIEta<0) minIEta = 0;
168  int maxIPhi = iphi+idR;
169  int minIPhi = iphi-idR;
170  if(minIPhi<0) {
171  minIPhi+=nPhi_;
172  maxIPhi+=nPhi_;
173  }
174  LogTrace("MatchPoint") << "\tieta (min,max): " << minIEta << "," << maxIEta<< "\n";
175  LogTrace("MatchPoint") << "\tiphi (min,max): " << minIPhi << "," << maxIPhi<< "\n";
176  for (int i=minIEta;i<=maxIEta;i++)
177  for (int j=minIPhi;j<=maxIPhi;j++) {
178  if( i==ieta && j==iphi) continue; // already in the set
179  set.insert((*theMap_)[i][j%nPhi_].begin(),(*theMap_)[i][j%nPhi_].end());
180  nDets++;
181  }
182  }
183  }
184 // if(set.size() > 0) {
185 // if (ieta+idR<55 && ieta-idR>14 && set.size() != (2*idR+1)*(2*idR+1)){
186 // std::cout<<" RRRA: "<<set.size()<<" DetIds in region "<<ieta<<" "<<iphi<<std::endl;
187 // for( std::set<DetId>::const_iterator itr=set.begin(); itr!=set.end(); itr++) {
188 // GlobalPoint point = getPosition(*itr);
189 // std::cout << "DetId: " <<itr->rawId() <<" (eta,phi): " << point.eta() << "," << point.phi()<<" "<<iEta(point)<<" "<<iPhi(point)<<std::endl;
190 // }
191 // }
192 // else {
193 // std::cout <<" HDetIdAssociator::getDetIdsCloseToAPoint::There are strange days "<<std::endl;
194 // }
195  return set;
196 }
virtual void check_setup()
virtual void buildMap()
std::vector< std::vector< std::set< DetId > > > * theMap_
Geom::Phi< T > phi() const
Definition: PV3DBase.h:69
virtual int iPhi(const GlobalPoint &)
#define end
Definition: vmac.h:39
#define LogTrace(id)
virtual int iEta(const GlobalPoint &)
T eta() const
Definition: PV3DBase.h:76
#define begin
Definition: vmac.h:32
virtual std::set<DetId> HDetIdAssociator::getDetIdsCloseToAPoint ( const GlobalPoint point,
const double  dR = 0 
)
inlinevirtual

Definition at line 47 of file DetIdAssociator.h.

References eleHcalExtractorBlocks_cff::caloTowers, PFRecoTauDiscriminationAgainstElectronDeadECAL_cfi::dR, etaBinSize_, getCrossedDetIds(), getDetIdsCloseToAPoint(), getDetIdsInACone(), getMaxEDetId(), iEta(), createfilelist::int, iPhi(), and nPhi_.

49  {
50  int etaIdR = int(dR/etaBinSize_);
51  int phiIdR = int(dR/(2*3.1416)*nPhi_);
52  if (etaIdR>phiIdR)
53  return getDetIdsCloseToAPoint(point, 1+etaIdR);
54  else
55  return getDetIdsCloseToAPoint(point, 1+phiIdR);
56  }
virtual std::set< DetId > getDetIdsCloseToAPoint(const GlobalPoint &, const int idR=0)
const double etaBinSize_
std::set< DetId > HDetIdAssociator::getDetIdsInACone ( const std::set< DetId > &  inset,
const std::vector< GlobalPoint > &  trajectory,
const double  dR 
)
virtual

Definition at line 308 of file DetIdAssociator.cc.

References begin, check_setup(), relativeConstraints::empty, end, getPosition(), mps_fire::i, iEta(), iPhi(), nearElement(), nEta_, nPhi_, point, and theMap_.

Referenced by getDetIdsCloseToAPoint().

311 {
312 // modified version: if dR<0, returns 3x3 towers around the input one (Michal)
313  check_setup();
314  std::set<DetId> outset;
315 
316  if(dR>=0) {
317  for(std::set<DetId>::const_iterator id_iter = inset.begin(); id_iter != inset.end(); id_iter++)
318  for(std::vector<GlobalPoint>::const_iterator point_iter = trajectory.begin(); point_iter != trajectory.end(); point_iter++)
319  if (nearElement(*point_iter,*id_iter,dR)) outset.insert(*id_iter);
320  }
321  else {
322  if (inset.size()!=1) return outset;
323  std::set<DetId>::const_iterator id_inp = inset.begin();
324  int ieta;
325  int iphi;
326  GlobalPoint point = getPosition(*id_inp);
327  ieta = iEta(point);
328  iphi = iPhi(point);
329  for (int i=ieta-1;i<=ieta+1;i++) {
330  for (int j=iphi-1;j<=iphi+1;j++) {
331 // if( i==ieta && j==iphi) continue;
332  if( i<0 || i>=nEta_) continue;
333  int j2fill = j%nPhi_;
334  if(j2fill<0) j2fill+=nPhi_;
335  if((*theMap_)[i][j2fill].empty())continue;
336  outset.insert((*theMap_)[i][j2fill].begin(),(*theMap_)[i][j2fill].end());
337  }
338  }
339  }
340 
341 // if (outset.size() > 0) {
342 // std::cout<<" RRRA: DetIds in cone:"<<std::endl;
343 // for( std::set<DetId>::const_iterator itr=outset.begin(); itr!=outset.end(); itr++) {
344 // GlobalPoint point = getPosition(*itr);
345 // std::cout << "DetId: " <<itr->rawId() <<" (eta,phi): " << point.eta() << "," << point.phi()<<std::endl;
346 // }
347 // }
348 
349  return outset;
350 }
virtual void check_setup()
virtual GlobalPoint getPosition(const DetId &)=0
std::vector< std::vector< std::set< DetId > > > * theMap_
virtual bool nearElement(const GlobalPoint &point, const DetId &id, const double distance)
virtual int iPhi(const GlobalPoint &)
#define end
Definition: vmac.h:39
virtual int iEta(const GlobalPoint &)
#define begin
Definition: vmac.h:32
*vegas h *****************************************************used in the default bin number in original ***version of VEGAS is ***a higher bin number might help to derive a more precise ***grade subtle point
Definition: invegas.h:5
std::set< DetId > HDetIdAssociator::getMaxEDetId ( const std::set< DetId > &  inset,
edm::Handle< CaloTowerCollection caloTowers 
)
virtual

Definition at line 365 of file DetIdAssociator.cc.

References check_setup(), and triggerObjects_cff::id.

Referenced by getDetIdsCloseToAPoint().

367 {
368 // returns the most energetic tower in the NxN box (Michal)
369  check_setup();
370  std::set<DetId> outset;
371  std::set<DetId>::const_iterator id_max = inset.begin();
372  double Ehadmax=0;
373 
374  for(std::set<DetId>::const_iterator id_iter = inset.begin(); id_iter != inset.end(); id_iter++) {
375  DetId id(*id_iter);
376 // GlobalPoint point = getPosition(*id_iter);
377 // int ieta = iEta(point);
378 // int iphi = iPhi(point);
379  CaloTowerCollection::const_iterator tower = (*caloTowers).find(id);
380  if(tower != (*caloTowers).end() && tower->hadEnergy()>Ehadmax) {
381  id_max = id_iter;
382  Ehadmax = tower->hadEnergy();
383  }
384  }
385 
386  if (Ehadmax > 0) outset.insert(*id_max);
387 
388 // if (outset.size() > 0) {
389 // std::cout<<" RRRA: Most energetic DetId:"<<std::endl;
390 // for( std::set<DetId>::const_iterator itr=outset.begin(); itr!=outset.end(); itr++) {
391 // GlobalPoint point = getPosition(*itr);
392 // std::cout << "DetId: " <<itr->rawId() <<" (eta,phi): " << point.eta() << "," << point.phi()<<std::endl;
393 // }
394 // }
395 
396  return outset;
397 }
virtual void check_setup()
std::vector< CaloTower >::const_iterator const_iterator
Definition: DetId.h:18
std::set< DetId > HDetIdAssociator::getMaxEDetId ( const std::set< DetId > &  inset,
edm::Handle< HBHERecHitCollection recHits 
)
virtual

Definition at line 400 of file DetIdAssociator.cc.

References check_setup(), and triggerObjects_cff::id.

402 {
403 // returns the most energetic tower in the NxN box - from RecHits (Michal)
404  check_setup();
405  std::set<DetId> outset;
406  std::set<DetId>::const_iterator id_max = inset.begin();
407  double Ehadmax=0;
408 
409  for(std::set<DetId>::const_iterator id_iter = inset.begin(); id_iter != inset.end(); id_iter++) {
410  DetId id(*id_iter);
411 // GlobalPoint point = getPosition(*id_iter);
412 // int ieta = iEta(point);
413 // int iphi = iPhi(point);
414  HBHERecHitCollection::const_iterator hit = (*recHits).find(id);
415  if(hit != (*recHits).end() && hit->energy()>Ehadmax) {
416  id_max = id_iter;
417  Ehadmax = hit->energy();
418  }
419  }
420 
421  if (Ehadmax > 0) outset.insert(*id_max);
422 
423 // if (outset.size() > 0) {
424 // std::cout<<" RRRA: Most energetic DetId:"<<std::endl;
425 // for( std::set<DetId>::const_iterator itr=outset.begin(); itr!=outset.end(); itr++) {
426 // GlobalPoint point = getPosition(*itr);
427 // std::cout << "DetId: " <<itr->rawId() <<" (eta,phi): " << point.eta() << "," << point.phi()<<std::endl;
428 // }
429 // }
430 
431  return outset;
432 }
virtual void check_setup()
std::vector< T >::const_iterator const_iterator
Definition: DetId.h:18
virtual GlobalPoint HDetIdAssociator::getPosition ( const DetId )
protectedpure virtual
std::vector< GlobalPoint > HDetIdAssociator::getTrajectory ( const FreeTrajectoryState ftsStart,
const std::vector< GlobalPoint > &  surfaces 
)
virtual

Definition at line 27 of file DetIdAssociator.cc.

References funct::abs(), check_setup(), TCMET_cfi::corner, PV3DBase< T, PVType, FrameType >::eta(), TrajectoryStateOnSurface::freeState(), TrajectoryStateOnSurface::globalPosition(), TrajectoryStateOnSurface::isValid(), ivProp_, LogTrace, PV3DBase< T, PVType, FrameType >::mag(), FreeTrajectoryState::momentum(), PV3DBase< T, PVType, FrameType >::perp(), PV3DBase< T, PVType, FrameType >::phi(), point, FreeTrajectoryState::position(), Propagator::propagate(), PV3DBase< T, PVType, FrameType >::x(), PV3DBase< T, PVType, FrameType >::y(), and PV3DBase< T, PVType, FrameType >::z().

Referenced by ~HDetIdAssociator().

29 {
30  check_setup();
31  std::vector<GlobalPoint> trajectory;
32  TrajectoryStateOnSurface tSOSDest;
33  FreeTrajectoryState ftsCurrent = ftsStart;
34 
35  for(std::vector<GlobalPoint>::const_iterator surface_iter = surfaces.begin();
36  surface_iter != surfaces.end(); surface_iter++) {
37  // this stuff is some weird pointer, which destroy itself
38  std::unique_ptr<Cylinder> cylinder = std::make_unique<Cylinder>(surface_iter->perp(),
39  Surface::PositionType(0,0,0),
41  std::unique_ptr<Plane> forwardEndcap = std::make_unique<Plane>(Surface::PositionType(0,0,surface_iter->z()),
43  std::unique_ptr<Plane> backwardEndcap = std::make_unique<Plane>(Surface::PositionType(0,0,-surface_iter->z()),
45 
46 
47  LogTrace("StartingPoint")<< "Propagate from "<< "\n"
48  << "\tx: " << ftsStart.position().x()<< "\n"
49  << "\ty: " << ftsStart.position().y()<< "\n"
50  << "\tz: " << ftsStart.position().z()<< "\n"
51  << "\tmomentum eta: " << ftsStart.momentum().eta()<< "\n"
52  << "\tmomentum phi: " << ftsStart.momentum().phi()<< "\n"
53  << "\tmomentum: " << ftsStart.momentum().mag()<< "\n";
54 
55  float tanTheta = ftsCurrent.momentum().perp()/ftsCurrent.momentum().z();
56  float corner = surface_iter->perp()/surface_iter->z();
57 /*
58  std::cout<<"Propagate from "<< "\n"
59  << "\tx: " << ftsCurrent.position().x()<< "\n"
60  << "\ty: " << ftsCurrent.position().y()<< "\n"
61  << "\tz: " << ftsCurrent.position().z()<< "\n"
62  << "\tz: " << ftsCurrent.position().perp()<< "\n"
63  << "\tz: " << tanTheta<<" "<< corner <<"\n"
64  << "\tmomentum eta: " << ftsCurrent.momentum().eta()<< "\n"
65  << "\tmomentum phi: " << ftsCurrent.momentum().phi()<< "\n"
66  << "\tmomentum: " << ftsCurrent.momentum().mag()<<std::endl;
67 */
68  // First propage the track to the cylinder if |eta|<1, othewise to the encap
69  // and correct depending on the result
70  int ibar = 0;
71  if (fabs(tanTheta) > corner)
72  {
73  tSOSDest = ivProp_->propagate(ftsCurrent, *cylinder);
74  // std::cout<<" Propagate to cylinder "<<std::endl;
75  }
76  else if(tanTheta > 0.)
77  {tSOSDest = ivProp_->propagate(ftsCurrent, *forwardEndcap); ibar=1; }
78  else
79  {tSOSDest = ivProp_->propagate(ftsCurrent, *backwardEndcap); ibar=-1; }
80 
81 // std::cout<<" Trajectory valid? "<<tSOSDest.isValid()<<" First propagation in "<<ibar<<std::endl;
82 
83  if(! tSOSDest.isValid() )
84  {
85 // barrel
86  if(ibar == 0){
87  if (tanTheta < 0 ) tSOSDest = ivProp_->propagate( ftsCurrent,*forwardEndcap);
88  if (tanTheta >= 0 ) tSOSDest = ivProp_->propagate( ftsCurrent,*backwardEndcap);
89  }
90  else
91  {
92  tSOSDest = ivProp_->propagate(ftsCurrent, *cylinder);
93  }
94  } else
95  {
96 // missed target
97  if(abs(ibar) > 0)
98  {
99  if(tSOSDest.globalPosition().perp() > surface_iter->perp())
100  {
101  tSOSDest = ivProp_->propagate(ftsCurrent, *cylinder);
102  }
103  }
104  else
105  {
106  if (tanTheta < 0 ) tSOSDest = ivProp_->propagate( ftsCurrent,*forwardEndcap);
107  if (tanTheta >= 0 ) tSOSDest = ivProp_->propagate( ftsCurrent,*backwardEndcap);
108  }
109  }
110 
111 
112  // If missed the target, propagate to again
113 // if ((!tSOSDest.isValid()) && point.perp() > surface_iter->perp())
114 // {tSOSDest = ivProp_->propagate(ftsCurrent, *cylinder);std::cout<<" Propagate again 1 "<<std::endl;}
115 // std::cout<<" Track is ok after repropagation to cylinder or not? "<<tSOSDest.isValid()<<std::endl;
116 // if ((!tSOSDest.isValid()) && ftsStart.momentum().eta()>0. && fabs(ftsStart.momentum().eta())>1.)
117 // {tSOSDest = ivProp_->propagate(ftsStart, *forwardEndcap);std::cout<<" Propagate again 2 "<<std::endl;}
118 // std::cout<<" Track is ok after repropagation forward or not? "<<tSOSDest.isValid()<<std::endl;
119 // if ((!tSOSDest.isValid()) && ftsStart.momentum().eta()<0.&&fabs(ftsStart.momentum().eta())>1.)
120 // {tSOSDest = ivProp_->propagate(ftsStart, *backwardEndcap);std::cout<<" Propagate again 3 "<<std::endl;}
121 // std::cout<<" Track is after repropagation backward ok or not? "<<tSOSDest.isValid()<<std::endl;
122 
123 
124  if (! tSOSDest.isValid()) return trajectory;
125 
126 // std::cout<<" Propagate reach something"<<std::endl;
127  LogTrace("SuccessfullPropagation") << "Great, I reached something." << "\n"
128  << "\tx: " << tSOSDest.freeState()->position().x() << "\n"
129  << "\ty: " << tSOSDest.freeState()->position().y() << "\n"
130  << "\tz: " << tSOSDest.freeState()->position().z() << "\n"
131  << "\teta: " << tSOSDest.freeState()->position().eta() << "\n"
132  << "\tphi: " << tSOSDest.freeState()->position().phi() << "\n";
133 
134 // std::cout<<" The position of trajectory "<<tSOSDest.freeState()->position().perp()<<" "<<tSOSDest.freeState()->position().z()<<std::endl;
135 
136  GlobalPoint point = tSOSDest.freeState()->position();
137  point = tSOSDest.freeState()->position();
138  ftsCurrent = *tSOSDest.freeState();
139  trajectory.push_back(point);
140  }
141  return trajectory;
142 }
virtual void check_setup()
T perp() const
Definition: PV3DBase.h:72
Geom::Phi< T > phi() const
Definition: PV3DBase.h:69
T y() const
Definition: PV3DBase.h:63
GlobalPoint globalPosition() const
T mag() const
Definition: PV3DBase.h:67
FreeTrajectoryState const * freeState(bool withErrors=true) const
T z() const
Definition: PV3DBase.h:64
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
GlobalVector momentum() const
#define LogTrace(id)
Propagator * ivProp_
GlobalPoint position() const
Point3DBase< float, GlobalTag > PositionType
TrajectoryStateOnSurface propagate(STA const &state, SUR const &surface) const
Definition: Propagator.h:53
T eta() const
Definition: PV3DBase.h:76
TkRotation< float > RotationType
T x() const
Definition: PV3DBase.h:62
*vegas h *****************************************************used in the default bin number in original ***version of VEGAS is ***a higher bin number might help to derive a more precise ***grade subtle point
Definition: invegas.h:5
int HDetIdAssociator::iEta ( const GlobalPoint point)
virtual

Definition at line 199 of file DetIdAssociator.cc.

References PV3DBase< T, PVType, FrameType >::eta(), etaBinSize_, createfilelist::int, and nEta_.

Referenced by buildMap(), getDetIdsCloseToAPoint(), and getDetIdsInACone().

200 {
201 // unequal bin sizes for endcap, following HCAL geometry
202  int iEta1 = int(point.eta()/etaBinSize_ + nEta_/2);
203  if (point.eta()>1.827 && point.eta()<=1.830) return iEta1-1;
204  else if (point.eta()>1.914 && point.eta()<=1.930) return iEta1-1;
205  else if (point.eta()>2.001 && point.eta()<=2.043) return iEta1-1;
206  else if (point.eta()>2.088 && point.eta()<=2.172) return iEta1-1;
207  else if (point.eta()>2.175 && point.eta()<=2.262) return iEta1-1;
208  else if (point.eta()>2.262 && point.eta()<=2.332) return iEta1-2;
209  else if (point.eta()>2.332 && point.eta()<=2.349) return iEta1-1;
210  else if (point.eta()>2.349 && point.eta()<=2.436) return iEta1-2;
211  else if (point.eta()>2.436 && point.eta()<=2.500) return iEta1-3;
212  else if (point.eta()>2.500 && point.eta()<=2.523) return iEta1-2;
213  else if (point.eta()>2.523 && point.eta()<=2.610) return iEta1-3;
214  else if (point.eta()>2.610 && point.eta()<=2.650) return iEta1-4;
215  else if (point.eta()>2.650 && point.eta()<=2.697) return iEta1-3;
216  else if (point.eta()>2.697 && point.eta()<=2.784) return iEta1-4;
217  else if (point.eta()>2.784 && point.eta()<=2.868) return iEta1-5;
218  else if (point.eta()>2.868 && point.eta()<=2.871) return iEta1-4;
219  else if (point.eta()>2.871 && point.eta()<=2.958) return iEta1-5;
220  else if (point.eta()>2.958) return iEta1-6;
221  else if (point.eta()<-1.827 && point.eta()>=-1.830) return iEta1+1;
222  else if (point.eta()<-1.914 && point.eta()>=-1.930) return iEta1+1;
223  else if (point.eta()<-2.001 && point.eta()>=-2.043) return iEta1+1;
224  else if (point.eta()<-2.088 && point.eta()>=-2.172) return iEta1+1;
225  else if (point.eta()<-2.175 && point.eta()>=-2.262) return iEta1+1;
226  else if (point.eta()<-2.262 && point.eta()>=-2.332) return iEta1+2;
227  else if (point.eta()<-2.332 && point.eta()>=-2.349) return iEta1+1;
228  else if (point.eta()<-2.349 && point.eta()>=-2.436) return iEta1+2;
229  else if (point.eta()<-2.436 && point.eta()>=-2.500) return iEta1+3;
230  else if (point.eta()<-2.500 && point.eta()>=-2.523) return iEta1+2;
231  else if (point.eta()<-2.523 && point.eta()>=-2.610) return iEta1+3;
232  else if (point.eta()<-2.610 && point.eta()>=-2.650) return iEta1+4;
233  else if (point.eta()<-2.650 && point.eta()>=-2.697) return iEta1+3;
234  else if (point.eta()<-2.697 && point.eta()>=-2.784) return iEta1+4;
235  else if (point.eta()<-2.784 && point.eta()>=-2.868) return iEta1+5;
236  else if (point.eta()<-2.868 && point.eta()>=-2.871) return iEta1+4;
237  else if (point.eta()<-2.871 && point.eta()>=-2.958) return iEta1+5;
238  else if (point.eta()<-2.349) return iEta1+6;
239  else return iEta1;
240 }
const double etaBinSize_
T eta() const
Definition: PV3DBase.h:76
virtual bool HDetIdAssociator::insideElement ( const GlobalPoint ,
const DetId  
)
protectedpure virtual

Implemented in HCaloDetIdAssociator.

Referenced by check_setup(), and getCrossedDetIds().

int HDetIdAssociator::iPhi ( const GlobalPoint point)
virtual

Definition at line 243 of file DetIdAssociator.cc.

References createfilelist::int, nPhi_, PV3DBase< T, PVType, FrameType >::phi(), and pi.

Referenced by buildMap(), getDetIdsCloseToAPoint(), and getDetIdsInACone().

244 {
245  double pi=4*atan(1.);
246  int iPhi1 = int((double(point.phi())+pi)/(2*pi)*nPhi_);
247  return iPhi1;
248 }
Geom::Phi< T > phi() const
Definition: PV3DBase.h:69
const Double_t pi
virtual bool HDetIdAssociator::nearElement ( const GlobalPoint point,
const DetId id,
const double  distance 
)
inlineprotectedvirtual

Definition at line 87 of file DetIdAssociator.h.

References SoftLeptonByDistance_cfi::distance, PV3DBase< T, PVType, FrameType >::eta(), getPosition(), PV3DBase< T, PVType, FrameType >::phi(), funct::pow(), and mathSSE::sqrt().

Referenced by getDetIdsInACone().

88  {
89  GlobalPoint center = getPosition(id);
90  return sqrt(pow(point.eta()-center.eta(),2)+pow(point.phi()-center.phi(),2)) < distance;
91  };
virtual GlobalPoint getPosition(const DetId &)=0
Geom::Phi< T > phi() const
Definition: PV3DBase.h:69
T sqrt(T t)
Definition: SSEVec.h:18
T eta() const
Definition: PV3DBase.h:76
Power< A, B >::type pow(const A &a, const B &b)
Definition: Power.h:40
virtual void HDetIdAssociator::setPropagator ( Propagator ptr)
inlinevirtual

Definition at line 70 of file DetIdAssociator.h.

References ivProp_.

70 { ivProp_ = ptr; };
Propagator * ivProp_

Member Data Documentation

const double HDetIdAssociator::etaBinSize_
protected

Definition at line 96 of file DetIdAssociator.h.

Referenced by buildMap(), check_setup(), getDetIdsCloseToAPoint(), and iEta().

Propagator* HDetIdAssociator::ivProp_
protected

Definition at line 97 of file DetIdAssociator.h.

Referenced by check_setup(), getTrajectory(), and setPropagator().

const int HDetIdAssociator::nEta_
protected
const int HDetIdAssociator::nPhi_
protected
std::vector<std::vector<std::set<DetId> > >* HDetIdAssociator::theMap_
protected

Definition at line 91 of file DetIdAssociator.h.

Referenced by buildMap(), getDetIdsCloseToAPoint(), and getDetIdsInACone().