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CaloExtractorByAssociator.cc
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25 
26 using namespace edm;
27 using namespace std;
28 using namespace reco;
29 using namespace muonisolation;
31 
32 namespace {
33  constexpr double dRMax_CandDep = 1.0;//pick up candidate own deposits up to this dR if theDR_Max is smaller
34 }
35 
36 CaloExtractorByAssociator::CaloExtractorByAssociator(const ParameterSet& par, edm::ConsumesCollector && iC) :
37  theUseRecHitsFlag(par.getParameter<bool>("UseRecHitsFlag")),
38  theDepositLabel(par.getUntrackedParameter<string>("DepositLabel")),
39  theDepositInstanceLabels(par.getParameter<std::vector<std::string> >("DepositInstanceLabels")),
40  thePropagatorName(par.getParameter<std::string>("PropagatorName")),
41  theThreshold_E(par.getParameter<double>("Threshold_E")),
42  theThreshold_H(par.getParameter<double>("Threshold_H")),
43  theThreshold_HO(par.getParameter<double>("Threshold_HO")),
44  theDR_Veto_E(par.getParameter<double>("DR_Veto_E")),
45  theDR_Veto_H(par.getParameter<double>("DR_Veto_H")),
46  theDR_Veto_HO(par.getParameter<double>("DR_Veto_HO")),
47  theCenterConeOnCalIntersection(par.getParameter<bool>("CenterConeOnCalIntersection")),
48  theDR_Max(par.getParameter<double>("DR_Max")),
49  theNoise_EB(par.getParameter<double>("Noise_EB")),
50  theNoise_EE(par.getParameter<double>("Noise_EE")),
51  theNoise_HB(par.getParameter<double>("Noise_HB")),
52  theNoise_HE(par.getParameter<double>("Noise_HE")),
53  theNoise_HO(par.getParameter<double>("Noise_HO")),
54  theNoiseTow_EB(par.getParameter<double>("NoiseTow_EB")),
55  theNoiseTow_EE(par.getParameter<double>("NoiseTow_EE")),
56  theService(nullptr),
57  theAssociator(nullptr),
58  thePrintTimeReport(par.getUntrackedParameter<bool>("PrintTimeReport"))
59 {
60  ParameterSet serviceParameters = par.getParameter<ParameterSet>("ServiceParameters");
61  theService = new MuonServiceProxy(serviceParameters);
62 
63  //theAssociatorParameters = new TrackAssociatorParameters(par.getParameter<edm::ParameterSet>("TrackAssociatorParameters"), iC);
65  theAssociatorParameters->loadParameters(par.getParameter<edm::ParameterSet>("TrackAssociatorParameters"), iC);
67 }
68 
71  if (theService) delete theService;
72  if (theAssociator) delete theAssociator;
73 }
74 
76 {
77 // LogWarning("CaloExtractorByAssociator")
78 // <<"fillVetos does nothing now: IsoDeposit provides enough functionality\n"
79 // <<"to remove a deposit at/around given (eta, phi)";
80 
81 }
82 
83 IsoDeposit CaloExtractorByAssociator::deposit( const Event & event, const EventSetup& eventSetup, const Track & muon) const
84 {
85  IsoDeposit::Direction muonDir(muon.eta(), muon.phi());
86  IsoDeposit dep(muonDir );
87 
88 // LogWarning("CaloExtractorByAssociator")
89 // <<"single deposit is not an option here\n"
90 // <<"use ::deposits --> extract all and reweight as necessary";
91 
92  return dep;
93 
94 }
95 
96 
98 std::vector<IsoDeposit> CaloExtractorByAssociator::deposits( const Event & event, const EventSetup& eventSetup, const Track & muon) const
99 {
100  theService->update(eventSetup);
102 
105  if (theDepositInstanceLabels.size() != 3){
106  LogError("MuonIsolation")<<"Configuration is inconsistent: Need 3 deposit instance labels";
107  }
108  if (! theDepositInstanceLabels[0].compare(0,1, std::string("e")) == 0
109  || ! theDepositInstanceLabels[1].compare(0,1, std::string("h")) == 0
110  || ! theDepositInstanceLabels[2].compare(0,2, std::string("ho")) == 0){
111  LogWarning("MuonIsolation")<<"Deposit instance labels do not look like (e*, h*, ho*):"
112  <<"proceed at your own risk. The extractor interprets lab0=from ecal; lab1=from hcal; lab2=from ho";
113  }
114 
115  typedef IsoDeposit::Veto Veto;
118  IsoDeposit::Direction muonDir(muon.eta(), muon.phi());
119 
120  IsoDeposit depEcal(muonDir);
121  IsoDeposit depHcal(muonDir);
122  IsoDeposit depHOcal(muonDir);
123 
125  eventSetup.get<IdealMagneticFieldRecord>().get(bField);
126 
127 
128  reco::TransientTrack tMuon(muon, &*bField);
129  FreeTrajectoryState iFTS = tMuon.initialFreeState();
130  TrackDetMatchInfo mInfo = theAssociator->associate(event, eventSetup, iFTS, *theAssociatorParameters);
131 
133  depEcal.setVeto(Veto(reco::isodeposit::Direction(mInfo.trkGlobPosAtEcal.eta(), mInfo.trkGlobPosAtEcal.phi()),
134  theDR_Veto_E));
135  depHcal.setVeto(Veto(reco::isodeposit::Direction(mInfo.trkGlobPosAtHcal.eta(), mInfo.trkGlobPosAtHcal.phi()),
136  theDR_Veto_H));
137  depHOcal.setVeto(Veto(reco::isodeposit::Direction(mInfo.trkGlobPosAtHO.eta(), mInfo.trkGlobPosAtHO.phi()),
138  theDR_Veto_HO));
139 
141  reco::isodeposit::Direction dirTmp = depEcal.veto().vetoDir;
142  double dRtmp = depEcal.veto().dR;
143  depEcal = IsoDeposit(dirTmp); depEcal.setVeto(Veto(dirTmp, dRtmp));
144 
145  dirTmp = depHcal.veto().vetoDir;
146  dRtmp = depHcal.veto().dR;
147  depHcal = IsoDeposit(dirTmp); depHcal.setVeto(Veto(dirTmp, dRtmp));
148 
149  dirTmp = depHOcal.veto().vetoDir;
150  dRtmp = depHOcal.veto().dR;
151  depHOcal = IsoDeposit(dirTmp); depHOcal.setVeto(Veto(dirTmp, dRtmp));
152  }
153 
154  if (theUseRecHitsFlag){
158  eventSetup.get<CaloGeometryRecord>().get(caloGeom);
159 
160  //Ecal
161  std::vector<const EcalRecHit*>::const_iterator eHitCI = mInfo.ecalRecHits.begin();
162  for (; eHitCI != mInfo.ecalRecHits.end(); ++eHitCI){
163  const EcalRecHit* eHitCPtr = *eHitCI;
164  GlobalPoint eHitPos = caloGeom->getPosition(eHitCPtr->detid());
165  double deltar0 = reco::deltaR(muon, eHitPos);
166  double cosTheta = 1./cosh(eHitPos.eta());
167  double energy = eHitCPtr->energy();
168  double et = energy*cosTheta;
169  if (deltar0 > std::max(dRMax_CandDep, theDR_Max)
170  || ! (et > theThreshold_E && energy > 3*noiseRecHit(eHitCPtr->detid()))) continue;
171 
172  bool vetoHit = false;
173  double deltar = reco::deltaR(mInfo.trkGlobPosAtEcal, eHitPos);
175  if (deltar < theDR_Veto_E ){
176  LogDebug("RecoMuon|CaloExtractorByAssociator")
177  << " >>> Veto ECAL hit: Calo deltaR= " << deltar;
178  LogDebug("RecoMuon|CaloExtractorByAssociator")
179  << " >>> Calo eta phi ethcal: " << eHitPos.eta() << " " << eHitPos.phi() << " " << et;
180  vetoHit = true;
181  }
183  if (! vetoHit){
184  for (unsigned int iH = 0; iH< mInfo.crossedEcalIds.size() && ! vetoHit; ++iH){
185  if (mInfo.crossedEcalIds[iH].rawId() == eHitCPtr->detid().rawId()) vetoHit = true;
186  }
187  }
188 
189  //check theDR_Max only here to keep vetoHits being added to the veto energy
190  if (deltar0 > theDR_Max && ! vetoHit) continue;
191 
192  if (vetoHit ){
193  depEcal.addCandEnergy(et);
194  } else {
195  depEcal.addDeposit(reco::isodeposit::Direction(eHitPos.eta(), eHitPos.phi()), et);
196  }
197  }
198 
199  //Hcal
200  std::vector<const HBHERecHit*>::const_iterator hHitCI = mInfo.hcalRecHits.begin();
201  for (; hHitCI != mInfo.hcalRecHits.end(); ++hHitCI){
202  const HBHERecHit* hHitCPtr = *hHitCI;
203  GlobalPoint hHitPos = caloGeom->getPosition(hHitCPtr->detid());
204  double deltar0 = reco::deltaR(muon, hHitPos);
205  double cosTheta = 1./cosh(hHitPos.eta());
206  double energy = hHitCPtr->energy();
207  double et = energy*cosTheta;
208  if (deltar0 > std::max(dRMax_CandDep, theDR_Max)
209  || ! (et > theThreshold_H && energy > 3*noiseRecHit(hHitCPtr->detid()))) continue;
210 
211  bool vetoHit = false;
212  double deltar = reco::deltaR(mInfo.trkGlobPosAtHcal, hHitPos);
214  if (deltar < theDR_Veto_H ){
215  LogDebug("RecoMuon|CaloExtractorByAssociator")
216  << " >>> Veto HBHE hit: Calo deltaR= " << deltar;
217  LogDebug("RecoMuon|CaloExtractorByAssociator")
218  << " >>> Calo eta phi ethcal: " << hHitPos.eta() << " " << hHitPos.phi() << " " << et;
219  vetoHit = true;
220  }
222  if (! vetoHit){
223  for (unsigned int iH = 0; iH< mInfo.crossedHcalIds.size() && ! vetoHit; ++iH){
224  if (mInfo.crossedHcalIds[iH].rawId() == hHitCPtr->detid().rawId()) vetoHit = true;
225  }
226  }
227 
228  //check theDR_Max only here to keep vetoHits being added to the veto energy
229  if (deltar0 > theDR_Max && ! vetoHit) continue;
230 
231  if (vetoHit ){
232  depHcal.addCandEnergy(et);
233  } else {
234  depHcal.addDeposit(reco::isodeposit::Direction(hHitPos.eta(), hHitPos.phi()), et);
235  }
236  }
237 
238  //HOcal
239  std::vector<const HORecHit*>::const_iterator hoHitCI = mInfo.hoRecHits.begin();
240  for (; hoHitCI != mInfo.hoRecHits.end(); ++hoHitCI){
241  const HORecHit* hoHitCPtr = *hoHitCI;
242  GlobalPoint hoHitPos = caloGeom->getPosition(hoHitCPtr->detid());
243  double deltar0 = reco::deltaR(muon, hoHitPos);
244  double cosTheta = 1./cosh(hoHitPos.eta());
245  double energy = hoHitCPtr->energy();
246  double et = energy*cosTheta;
247  if (deltar0 > std::max(dRMax_CandDep, theDR_Max)
248  || ! (et > theThreshold_HO && energy > 3*noiseRecHit(hoHitCPtr->detid()))) continue;
249 
250  bool vetoHit = false;
251  double deltar = reco::deltaR(mInfo.trkGlobPosAtHO, hoHitPos);
253  if (deltar < theDR_Veto_HO ){
254  LogDebug("RecoMuon|CaloExtractorByAssociator")
255  << " >>> Veto HO hit: Calo deltaR= " << deltar;
256  LogDebug("RecoMuon|CaloExtractorByAssociator")
257  << " >>> Calo eta phi ethcal: " << hoHitPos.eta() << " " << hoHitPos.phi() << " " << et;
258  vetoHit = true;
259  }
261  if (! vetoHit){
262  for (unsigned int iH = 0; iH< mInfo.crossedHOIds.size() && ! vetoHit; ++iH){
263  if (mInfo.crossedHOIds[iH].rawId() == hoHitCPtr->detid().rawId()) vetoHit = true;
264  }
265  }
266 
267  //check theDR_Max only here to keep vetoHits being added to the veto energy
268  if (deltar0 > theDR_Max && ! vetoHit) continue;
269 
270  if (vetoHit ){
271  depHOcal.addCandEnergy(et);
272  } else {
273  depHOcal.addDeposit(reco::isodeposit::Direction(hoHitPos.eta(), hoHitPos.phi()), et);
274  }
275  }
276 
277 
278  } else {
280  std::vector<const CaloTower*>::const_iterator calCI = mInfo.towers.begin();
281  for (; calCI != mInfo.towers.end(); ++calCI){
282  const CaloTower* calCPtr = *calCI;
283  double deltar0 = reco::deltaR(muon,*calCPtr);
284  if (deltar0> std::max(dRMax_CandDep, theDR_Max)) continue;
285 
286  //even more copy-pasting .. need to refactor
287  double etecal = calCPtr->emEt();
288  double eecal = calCPtr->emEnergy();
289  bool doEcal = etecal>theThreshold_E && eecal>3*noiseEcal(*calCPtr);
290  double ethcal = calCPtr->hadEt();
291  double ehcal = calCPtr->hadEnergy();
292  bool doHcal = ethcal>theThreshold_H && ehcal>3*noiseHcal(*calCPtr);
293  double ethocal = calCPtr->outerEt();
294  double ehocal = calCPtr->outerEnergy();
295  bool doHOcal = ethocal>theThreshold_HO && ehocal>3*noiseHOcal(*calCPtr);
296  if ((!doEcal) && (!doHcal) && (!doHcal)) continue;
297 
298  bool vetoTowerEcal = false;
299  double deltarEcal = reco::deltaR(mInfo.trkGlobPosAtEcal, *calCPtr);
301  if (deltarEcal < theDR_Veto_E ){
302  LogDebug("RecoMuon|CaloExtractorByAssociator")
303  << " >>> Veto ecal tower: Calo deltaR= " << deltarEcal;
304  LogDebug("RecoMuon|CaloExtractorByAssociator")
305  << " >>> Calo eta phi ethcal: " << calCPtr->eta() << " " << calCPtr->phi() << " " << ethcal;
306  vetoTowerEcal = true;
307  }
308  bool vetoTowerHcal = false;
309  double deltarHcal = reco::deltaR(mInfo.trkGlobPosAtHcal, *calCPtr);
311  if (deltarHcal < theDR_Veto_H ){
312  LogDebug("RecoMuon|CaloExtractorByAssociator")
313  << " >>> Veto hcal tower: Calo deltaR= " << deltarHcal;
314  LogDebug("RecoMuon|CaloExtractorByAssociator")
315  << " >>> Calo eta phi ethcal: " << calCPtr->eta() << " " << calCPtr->phi() << " " << ethcal;
316  vetoTowerHcal = true;
317  }
318  bool vetoTowerHOCal = false;
319  double deltarHOcal = reco::deltaR(mInfo.trkGlobPosAtHO, *calCPtr);
321  if (deltarHOcal < theDR_Veto_HO ){
322  LogDebug("RecoMuon|CaloExtractorByAssociator")
323  << " >>> Veto HO tower: Calo deltaR= " << deltarHOcal;
324  LogDebug("RecoMuon|CaloExtractorByAssociator")
325  << " >>> Calo eta phi ethcal: " << calCPtr->eta() << " " << calCPtr->phi() << " " << ethcal;
326  vetoTowerHOCal = true;
327  }
328 
330  if (! (vetoTowerHOCal && vetoTowerHcal && vetoTowerEcal )){
331  for (unsigned int iH = 0; iH< mInfo.crossedTowerIds.size(); ++iH){
332  if (mInfo.crossedTowerIds[iH].rawId() == calCPtr->id().rawId()){
333  vetoTowerEcal = true;
334  vetoTowerHcal = true;
335  vetoTowerHOCal = true;
336  break;
337  }
338  }
339  }
340 
341  if (deltar0>theDR_Max && !(vetoTowerEcal || vetoTowerHcal || vetoTowerHOCal)) continue;
342 
343  reco::isodeposit::Direction towerDir(calCPtr->eta(), calCPtr->phi());
345  if (doEcal){
346  if (vetoTowerEcal) depEcal.addCandEnergy(etecal);
347  else if (deltar0<=theDR_Max) depEcal.addDeposit(towerDir, etecal);
348  }
349  if (doHcal){
350  if (vetoTowerHcal) depHcal.addCandEnergy(ethcal);
351  else if (deltar0<=theDR_Max) depHcal.addDeposit(towerDir, ethcal);
352  }
353  if (doHOcal){
354  if (vetoTowerHOCal) depHOcal.addCandEnergy(ethocal);
355  else if (deltar0<=theDR_Max) depHOcal.addDeposit(towerDir, ethocal);
356  }
357  }
358  }
359 
360  std::vector<IsoDeposit> resultDeps;
361  resultDeps.push_back(depEcal);
362  resultDeps.push_back(depHcal);
363  resultDeps.push_back(depHOcal);
364 
365  return resultDeps;
366 
367 }
368 
370  double noise = theNoiseTow_EB;
371  double eta = tower.eta();
372  if (fabs(eta)>1.479) noise = theNoiseTow_EE;
373  return noise;
374 }
375 
377  double noise = fabs(tower.eta())> 1.479 ? theNoise_HE : theNoise_HB;
378  return noise;
379 }
380 
382  double noise = theNoise_HO;
383  return noise;
384 }
385 
386 
387 double CaloExtractorByAssociator::noiseRecHit(const DetId& detId) const {
388  double noise = 100;
389  DetId::Detector det = detId.det();
390  if (det == DetId::Ecal){
391  EcalSubdetector subDet = (EcalSubdetector)(detId.subdetId());
392  if (subDet == EcalBarrel){
393  noise = theNoise_EB;
394  } else if (subDet == EcalEndcap){
395  noise = theNoise_EE;
396  }
397  } else if (det == DetId::Hcal){
398  HcalSubdetector subDet = (HcalSubdetector)(detId.subdetId());
399  if (subDet == HcalBarrel){
400  noise = theNoise_HB;
401  } else if (subDet == HcalEndcap){
402  noise = theNoise_HE;
403  } else if (subDet == HcalOuter){
404  noise = theNoise_HO;
405  }
406  }
407  return noise;
408 }
409 
#define LogDebug(id)
T getParameter(std::string const &) const
bool compare(const P &i, const P &j)
math::XYZPoint trkGlobPosAtHO
const Veto & veto() const
Get veto area.
Definition: IsoDeposit.h:78
double eta() const final
momentum pseudorapidity
std::vector< const CaloTower * > towers
void setVeto(const Veto &aVeto)
Set veto.
Definition: IsoDeposit.h:80
std::vector< DetId > crossedTowerIds
std::string thePropagatorName
propagator name to feed into the track associator
const DetId & detid() const
Definition: CaloRecHit.h:21
double hadEt() const
Definition: CaloTower.h:116
std::vector< const EcalRecHit * > ecalRecHits
hits in the cone
std::vector< DetId > crossedEcalIds
double theDR_Max
max cone size in which towers are considered
double outerEt() const
Definition: CaloTower.h:117
Geom::Phi< T > phi() const
Definition: PV3DBase.h:69
const DetId & detid() const
Definition: EcalRecHit.h:72
std::vector< Track > TrackCollection
collection of Tracks
Definition: TrackFwd.h:14
void loadParameters(const edm::ParameterSet &, edm::ConsumesCollector &)
double noiseHOcal(const CaloTower &tower) const
double phi() const
azimuthal angle of momentum vector
Definition: TrackBase.h:645
std::vector< std::string > theDepositInstanceLabels
multiple deposits: labels – expect 3 labels beginning with "e", "h", "ho"
double noiseHcal(const CaloTower &tower) const
double theDR_Veto_E
cone sizes inside which the Et (towers) are not counted
TrackAssociatorParameters * theAssociatorParameters
associator, its&#39; parameters and the propagator
#define nullptr
std::vector< DetId > crossedHcalIds
#define constexpr
void addDeposit(double dr, double deposit)
Add deposit (ie. transverse energy or pT)
Definition: IsoDeposit.cc:23
math::XYZPoint trkGlobPosAtHcal
uint32_t rawId() const
get the raw id
Definition: DetId.h:44
double eta() const
pseudorapidity of momentum vector
Definition: TrackBase.h:651
double noiseEcal(const CaloTower &tower) const
Determine noise for HCAL and ECAL (take some defaults for the time being)
double emEnergy() const
Definition: CaloTower.h:110
void setPropagator(const Propagator *)
use a user configured propagator
float energy() const
Definition: CaloRecHit.h:17
std::vector< const HBHERecHit * > hcalRecHits
void addCandEnergy(double et)
Set energy or pT attached to cand trajectory.
Definition: IsoDeposit.h:139
std::vector< DetId > crossedHOIds
GlobalPoint getPosition(const DetId &id) const
Get the position of a given detector id.
Definition: CaloGeometry.cc:69
HcalSubdetector
Definition: HcalAssistant.h:31
float energy() const
Definition: EcalRecHit.h:68
auto deltaR(const T1 &t1, const T2 &t2) -> decltype(t1.eta())
Definition: deltaR.h:28
reco::IsoDeposit deposit(const edm::Event &ev, const edm::EventSetup &evSetup, const reco::Track &track) const override
no-op: by design of this extractor the deposits are pulled out all at a time
std::vector< reco::IsoDeposit > deposits(const edm::Event &ev, const edm::EventSetup &evSetup, const reco::Track &track) const override
return deposits for 3 calorimeter subdetectors (ecal, hcal, ho) – in this order
int subdetId() const
get the contents of the subdetector field (not cast into any detector&#39;s numbering enum) ...
Definition: DetId.h:38
double noiseRecHit(const DetId &detId) const
double hadEnergy() const
Definition: CaloTower.h:111
FreeTrajectoryState initialFreeState() const
Definition: DetId.h:18
CaloTowerDetId id() const
Definition: CaloTower.h:103
reco::IsoDeposit IsoDeposit
Definition: Isolation.h:7
Definition: deltar.py:1
MuonServiceProxy * theService
the event setup proxy, it takes care the services update
void fillVetos(const edm::Event &ev, const edm::EventSetup &evSetup, const reco::TrackCollection &tracks) override
allows to set extra vetoes (in addition to the muon) – no-op at this point
Detector
Definition: DetId.h:24
const T & get() const
Definition: EventSetup.h:59
et
define resolution functions of each parameter
T eta() const
Definition: PV3DBase.h:76
fixed size matrix
HLT enums.
TrackDetMatchInfo associate(const edm::Event &, const edm::EventSetup &, const FreeTrajectoryState &, const AssociatorParameters &)
math::XYZPoint trkGlobPosAtEcal
Track position at different parts of the calorimeter.
std::vector< const HORecHit * > hoRecHits
Detector det() const
get the detector field from this detid
Definition: DetId.h:36
EcalSubdetector
double phi() const final
momentum azimuthal angle
double emEt() const
Definition: CaloTower.h:115
double outerEnergy() const
Definition: CaloTower.h:112
Definition: event.py:1