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EcalClusterLazyTools.cc
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2 
5 
8 
16 
20 
24 
26 
27  ebRHToken_ = token1;
28  eeRHToken_ = token2;
29 
30  getGeometry( es );
31  getTopology( es );
32  getEBRecHits( ev );
33  getEERecHits( ev );
35  getADCToGeV ( es );
36  getLaserDbService ( es );
37 }
38 
40 
41  ebRHToken_ = token1;
42  eeRHToken_ = token2;
43  esRHToken_ = token3;
44 
45  getGeometry( es );
46  getTopology( es );
47  getEBRecHits( ev );
48  getEERecHits( ev );
49  getESRecHits( ev );
51  getADCToGeV ( es );
52  getLaserDbService ( es );
53 }
54 
56 {}
57 
60  es.get<CaloGeometryRecord>().get(pGeometry);
61  geometry_ = pGeometry.product();
62 
64  if (geometryES) {
66  } else {
67  ecalPS_topology_.reset();
68  edm::LogWarning("subdetector geometry not available") << "EcalPreshower geometry is missing" << std::endl;
69  }
70 }
71 
74  es.get<CaloTopologyRecord>().get(pTopology);
75  topology_ = pTopology.product();
76 }
77 
80  ev.getByToken( ebRHToken_, pEBRecHits );
81  ebRecHits_ = pEBRecHits.product();
82 }
83 
86  ev.getByToken( eeRHToken_, pEERecHits );
87  eeRecHits_ = pEERecHits.product();
88 }
89 
92  ev.getByToken( esRHToken_, pESRecHits );
93  esRecHits_ = pESRecHits.product();
94  // make the map of rechits
95  rechits_map_.clear();
96  if (pESRecHits.isValid()) {
98  for (it = pESRecHits->begin(); it != pESRecHits->end(); ++it) {
99  // remove bad ES rechits
100  std::vector<int> badf = {
101  EcalRecHit::ESFlags::kESDead, // 1
102  EcalRecHit::ESFlags::kESTwoGoodRatios,
103  EcalRecHit::ESFlags::kESBadRatioFor12, // 5
104  EcalRecHit::ESFlags::kESBadRatioFor23Upper,
105  EcalRecHit::ESFlags::kESBadRatioFor23Lower,
106  EcalRecHit::ESFlags::kESTS1Largest,
107  EcalRecHit::ESFlags::kESTS3Largest,
108  EcalRecHit::ESFlags::kESTS3Negative, // 10
109  EcalRecHit::ESFlags::kESTS13Sigmas, // 14
110  };
111 
112  if (it->checkFlags(badf)) continue;
113 
114  //Make the map of DetID, EcalRecHit pairs
115  rechits_map_.insert(std::make_pair(it->id(), *it));
116  }
117  }
118 }
119 
120 
121 
123 {
124  // get IC's
126  icalMap = ical->getMap();
127 }
128 
129 
130 
132 {
133  // get ADCtoGeV
134  es.get<EcalADCToGeVConstantRcd>().get(agc);
135 }
136 
137 
138 
140  // transp corrections
141  es.get<EcalLaserDbRecord>().get(laser);
142 }
143 
144 
146 {
147  if ( cluster.size() == 0 ) {
148  throw cms::Exception("InvalidCluster") << "The cluster has no crystals!";
149  }
150  DetId id = (cluster.hitsAndFractions()[0]).first; // size is by definition > 0 -- FIXME??
151  const EcalRecHitCollection *recHits = 0;
152  if ( id.subdetId() == EcalBarrel ) {
153  recHits = ebRecHits_;
154  } else if ( id.subdetId() == EcalEndcap ) {
155  recHits = eeRecHits_;
156  } else {
157  throw cms::Exception("InvalidSubdetector") << "The subdetId() " << id.subdetId() << " does not correspond to EcalBarrel neither EcalEndcap";
158  }
159  return recHits;
160 }
161 
162 
163 // get time of basic cluster seed crystal
165 {
166 
168 
169  DetId id = cluster.seed();
170  EcalRecHitCollection::const_iterator theSeedHit = recHits->find (id);
171  // std::cout << "the seed of the BC has time: "
172  //<< (*theSeedHit).time()
173  //<< "and energy: " << (*theSeedHit).energy() << " collection size: " << recHits->size()
174  //<< "\n" <<std::endl; // GF debug
175 
176  return (*theSeedHit).time();
177 }
178 
179 
180 // error-weighted average of time from constituents of basic cluster
182 {
183 
184  std::vector<std::pair<DetId, float> > clusterComponents = (cluster).hitsAndFractions() ;
185  //std::cout << "BC has this many components: " << clusterComponents.size() << std::endl; // GF debug
186 
188  //std::cout << "BasicClusterClusterTime - rechits are this many: " << recHits->size() << std::endl; // GF debug
189 
190 
191  float weightedTsum = 0;
192  float sumOfWeights = 0;
193 
194  for (std::vector<std::pair<DetId, float> >::const_iterator detitr = clusterComponents.begin(); detitr != clusterComponents.end(); detitr++ )
195  {
196  // EcalRecHitCollection::const_iterator theSeedHit = recHits->find (id); // trash this
197  EcalRecHitCollection::const_iterator oneHit = recHits->find( (detitr -> first) ) ;
198 
199  // in order to get back the ADC counts from the recHit energy, three ingredients are necessary:
200  // 1) get laser correction coefficient
201  float lasercalib = 1.;
202  lasercalib = laser->getLaserCorrection( detitr->first, ev.time());
203  // 2) get intercalibration
205  EcalIntercalibConstant icalconst = 1.;
206  if( icalit!=icalMap.end() ) {
207  icalconst = (*icalit);
208  // std::cout << "icalconst set to: " << icalconst << std::endl;
209  } else {
210  edm::LogError("EcalClusterLazyTools") << "No intercalib const found for xtal " << (detitr->first).rawId() << "bailing out";
211  assert(0);
212  }
213  // 3) get adc2GeV
214  float adcToGeV = 1.;
215  if ( (detitr -> first).subdetId() == EcalBarrel ) adcToGeV = float(agc->getEBValue());
216  else if ( (detitr -> first).subdetId() == EcalEndcap ) adcToGeV = float(agc->getEEValue());
217  float adc = 2.;
218  if (icalconst>0 && lasercalib>0 && adcToGeV>0) adc= (*oneHit).energy()/(icalconst*lasercalib*adcToGeV);
219 
220  // don't consider recHits with too little amplitude; take sigma_noise_total into account
221  if( (detitr -> first).subdetId() == EcalBarrel && adc< (1.1*20) ) continue;
222  if( (detitr -> first).subdetId() == EcalEndcap && adc< (2.2*20) ) continue;
223 
224  // count only on rechits whose error is trusted by the method (ratio)
225  if(! (*oneHit).isTimeErrorValid()) continue;
226 
227  float timeError = (*oneHit).timeError();
228  // the constant used to build timeError is largely over-estimated ; remove in quadrature 0.6 and add 0.15 back.
229  // could be prettier if value of constant term was changed at recHit production level
230  if (timeError>0.6) timeError = sqrt( timeError*timeError - 0.6*0.6 + 0.15*0.15);
231  else timeError = sqrt( timeError*timeError + 0.15*0.15);
232 
233  // do the error weighting
234  weightedTsum += (*oneHit).time() / (timeError*timeError);
235  sumOfWeights += 1. / (timeError*timeError);
236 
237  }
238 
239  // what if no crytal is available for weighted average?
240  if ( sumOfWeights ==0 ) return -999;
241  else return ( weightedTsum / sumOfWeights);
242 
243 }
244 
245 
246 // get BasicClusterSeedTime of the seed basic cluser of the supercluster
248 
249  return BasicClusterSeedTime ( (*cluster.seed()) );
250 
251 }
252 
253 
254 // get BasicClusterTime of the seed basic cluser of the supercluster
256 
257  return BasicClusterTime ( (*cluster.seed()) , ev);
258 
259 }
260 
261 
262 // get Preshower effective sigmaIRIR
264 {
265  if (!(fabs(cluster.eta()) > 1.6 && fabs(cluster.eta()) < 3.)) return 0.;
266 
267  if (!ecalPS_topology_) return 0.;
268 
269  std::vector<float> phoESHitsIXIX = getESHits(cluster.x(), cluster.y(), cluster.z(), rechits_map_, geometry_, ecalPS_topology_.get(), 0, 1);
270  std::vector<float> phoESHitsIYIY = getESHits(cluster.x(), cluster.y(), cluster.z(), rechits_map_, geometry_, ecalPS_topology_.get(), 0, 2);
271  float phoESShapeIXIX = getESShape(phoESHitsIXIX);
272  float phoESShapeIYIY = getESShape(phoESHitsIYIY);
273 
274  return sqrt(phoESShapeIXIX*phoESShapeIXIX + phoESShapeIYIY*phoESShapeIYIY);
275 }
276 
277 // get Preshower effective sigmaIXIX
279 {
280  if (!(fabs(cluster.eta()) > 1.6 && fabs(cluster.eta()) < 3.)) return 0.;
281 
282  if (!ecalPS_topology_) return 0.;
283 
284  std::vector<float> phoESHitsIXIX = getESHits(cluster.x(), cluster.y(), cluster.z(), rechits_map_, geometry_, ecalPS_topology_.get(), 0, 1);
285  float phoESShapeIXIX = getESShape(phoESHitsIXIX);
286 
287  return phoESShapeIXIX;
288 }
289 
290 // get Preshower effective sigmaIYIY
292 {
293  if (!(fabs(cluster.eta()) > 1.6 && fabs(cluster.eta()) < 3.)) return 0.;
294 
295  if (!ecalPS_topology_) return 0.;
296 
297  std::vector<float> phoESHitsIYIY = getESHits(cluster.x(), cluster.y(), cluster.z(), rechits_map_, geometry_, ecalPS_topology_.get(), 0, 2);
298  float phoESShapeIYIY = getESShape(phoESHitsIYIY);
299 
300  return phoESShapeIYIY;
301 }
302 
303 // get Preshower Rechits
304 std::vector<float> EcalClusterLazyToolsBase::getESHits(double X, double Y, double Z, const std::map<DetId, EcalRecHit>& _rechits_map, const CaloGeometry* geometry, CaloSubdetectorTopology const *topology_p, int row, int plane)
305 {
306  std::map<DetId, EcalRecHit> rechits_map = _rechits_map;
307  std::vector<float> esHits;
308 
309  const GlobalPoint point(X,Y,Z);
310 
311  const CaloSubdetectorGeometry *geometry_p ;
312  geometry_p = geometry->getSubdetectorGeometry (DetId::Ecal,EcalPreshower) ;
313 
314  DetId esId = (dynamic_cast<const EcalPreshowerGeometry*>(geometry_p))->getClosestCellInPlane(point, plane);
315  ESDetId esDetId = (esId == DetId(0)) ? ESDetId(0) : ESDetId(esId);
316 
317  std::map<DetId, EcalRecHit>::iterator it;
318  ESDetId next;
319  ESDetId strip;
320  strip = esDetId;
321 
322  EcalPreshowerNavigator theESNav(strip, topology_p);
323  theESNav.setHome(strip);
324 
325  if (row == 1) {
326  if (plane==1 && strip != ESDetId(0)) strip = theESNav.north();
327  if (plane==2 && strip != ESDetId(0)) strip = theESNav.east();
328  } else if (row == -1) {
329  if (plane==1 && strip != ESDetId(0)) strip = theESNav.south();
330  if (plane==2 && strip != ESDetId(0)) strip = theESNav.west();
331  }
332 
333 
334  if (strip == ESDetId(0)) {
335  for (int i=0; i<31; ++i) esHits.push_back(0);
336  } else {
337  it = rechits_map.find(strip);
338  if (it != rechits_map.end() && it->second.energy() > 1.0e-10) esHits.push_back(it->second.energy());
339  else esHits.push_back(0);
340  //cout<<"center : "<<strip<<" "<<it->second.energy()<<endl;
341 
342  // Front Plane
343  if (plane==1) {
344  // east road
345  for (int i=0; i<15; ++i) {
346  next = theESNav.east();
347  if (next != ESDetId(0)) {
348  it = rechits_map.find(next);
349  if (it != rechits_map.end() && it->second.energy() > 1.0e-10) esHits.push_back(it->second.energy());
350  else esHits.push_back(0);
351  //cout<<"east "<<i<<" : "<<next<<" "<<it->second.energy()<<endl;
352  } else {
353  for (int j=i; j<15; j++) esHits.push_back(0);
354  break;
355  //cout<<"east "<<i<<" : "<<next<<" "<<0<<endl;
356  }
357  }
358 
359  // west road
360  theESNav.setHome(strip);
361  theESNav.home();
362  for (int i=0; i<15; ++i) {
363  next = theESNav.west();
364  if (next != ESDetId(0)) {
365  it = rechits_map.find(next);
366  if (it != rechits_map.end() && it->second.energy() > 1.0e-10) esHits.push_back(it->second.energy());
367  else esHits.push_back(0);
368  //cout<<"west "<<i<<" : "<<next<<" "<<it->second.energy()<<endl;
369  } else {
370  for (int j=i; j<15; j++) esHits.push_back(0);
371  break;
372  //cout<<"west "<<i<<" : "<<next<<" "<<0<<endl;
373  }
374  }
375  } // End of Front Plane
376 
377  // Rear Plane
378  if (plane==2) {
379  // north road
380  for (int i=0; i<15; ++i) {
381  next = theESNav.north();
382  if (next != ESDetId(0)) {
383  it = rechits_map.find(next);
384  if (it != rechits_map.end() && it->second.energy() > 1.0e-10) esHits.push_back(it->second.energy());
385  else esHits.push_back(0);
386  //cout<<"north "<<i<<" : "<<next<<" "<<it->second.energy()<<endl;
387  } else {
388  for (int j=i; j<15; j++) esHits.push_back(0);
389  break;
390  //cout<<"north "<<i<<" : "<<next<<" "<<0<<endl;
391  }
392  }
393 
394  // south road
395  theESNav.setHome(strip);
396  theESNav.home();
397  for (int i=0; i<15; ++i) {
398  next = theESNav.south();
399  if (next != ESDetId(0)) {
400  it = rechits_map.find(next);
401  if (it != rechits_map.end() && it->second.energy() > 1.0e-10) esHits.push_back(it->second.energy());
402  else esHits.push_back(0);
403  //cout<<"south "<<i<<" : "<<next<<" "<<it->second.energy()<<endl;
404  } else {
405  for (int j=i; j<15; j++) esHits.push_back(0);
406  break;
407  //cout<<"south "<<i<<" : "<<next<<" "<<0<<endl;
408  }
409  }
410  } // End of Rear Plane
411  } // Fill ES RecHits
412 
413  return esHits;
414 }
415 
416 
417 // get Preshower hit shape
418 float EcalClusterLazyToolsBase::getESShape(const std::vector<float>& ESHits0)
419 {
420  const int nBIN = 21;
421  float esRH[nBIN];
422  for (int idx=0; idx<nBIN; idx++) {
423  esRH[idx] = 0.;
424  }
425 
426  for(int ibin=0; ibin<((nBIN+1)/2); ibin++) {
427  if (ibin==0) {
428  esRH[(nBIN-1)/2] = ESHits0[ibin];
429  } else {
430  esRH[(nBIN-1)/2+ibin] = ESHits0[ibin];
431  esRH[(nBIN-1)/2-ibin] = ESHits0[ibin+15];
432  }
433  }
434 
435  // ---- Effective Energy Deposit Width ---- //
436  double EffWidthSigmaISIS = 0.;
437  double totalEnergyISIS = 0.;
438  double EffStatsISIS = 0.;
439  for (int id_X=0; id_X<21; id_X++) {
440  totalEnergyISIS += esRH[id_X];
441  EffStatsISIS += esRH[id_X]*(id_X-10)*(id_X-10);
442  }
443  EffWidthSigmaISIS = (totalEnergyISIS>0.) ? sqrt(fabs(EffStatsISIS / totalEnergyISIS)) : 0.;
444 
445  return EffWidthSigmaISIS;
446 }
int adc(sample_type sample)
get the ADC sample (12 bits)
const double Z[kNumberCalorimeter]
edm::ESHandle< EcalIntercalibConstants > ical
const CaloSubdetectorGeometry * getSubdetectorGeometry(const DetId &id) const
access the subdetector geometry for the given subdetector directly
Definition: CaloGeometry.cc:43
int i
Definition: DBlmapReader.cc:9
const CaloGeometry * geometry_
const EcalRecHitCollection * esRecHits_
edm::EDGetTokenT< EcalRecHitCollection > eeRHToken_
std::vector< float > getESHits(double X, double Y, double Z, const std::map< DetId, EcalRecHit > &rechits_map, const CaloGeometry *geometry, CaloSubdetectorTopology const *topology_p, int row=0, int plane=1)
float SuperClusterSeedTime(const reco::SuperCluster &cluster)
float BasicClusterTime(const reco::BasicCluster &cluster, const edm::Event &ev)
bool getByToken(EDGetToken token, Handle< PROD > &result) const
Definition: Event.h:464
float SuperClusterTime(const reco::SuperCluster &cluster, const edm::Event &ev)
const EcalRecHitCollection * getEcalRecHitCollection(const reco::BasicCluster &cluster)
float getESShape(const std::vector< float > &ESHits0)
assert(m_qm.get())
std::vector< EcalRecHit >::const_iterator const_iterator
#define X(str)
Definition: MuonsGrabber.cc:48
void getADCToGeV(const edm::EventSetup &es)
bool ev
const EcalRecHitCollection * ebRecHits_
float eseffsixix(const reco::SuperCluster &cluster)
void getIntercalibConstants(const edm::EventSetup &es)
double z() const
z coordinate of cluster centroid
Definition: CaloCluster.h:160
double eta() const
pseudorapidity of cluster centroid
Definition: CaloCluster.h:163
void setHome(const T &startingPoint)
set the starting position
edm::ESHandle< EcalADCToGeVConstant > agc
T west() const
move the navigator west
Definition: CaloNavigator.h:59
T sqrt(T t)
Definition: SSEVec.h:48
EcalClusterLazyToolsBase(const edm::Event &ev, const edm::EventSetup &es, edm::EDGetTokenT< EcalRecHitCollection > token1, edm::EDGetTokenT< EcalRecHitCollection > token2)
int j
Definition: DBlmapReader.cc:9
double x() const
x coordinate of cluster centroid
Definition: CaloCluster.h:154
T south() const
move the navigator south
Definition: CaloNavigator.h:45
void getESRecHits(const edm::Event &ev)
bool isValid() const
Definition: HandleBase.h:75
edm::EDGetTokenT< EcalRecHitCollection > esRHToken_
T east() const
move the navigator east
Definition: CaloNavigator.h:52
void home() const
move the navigator back to the starting point
Definition: DetId.h:18
float eseffsiyiy(const reco::SuperCluster &cluster)
std::shared_ptr< CaloSubdetectorTopology const > ecalPS_topology_
T const * product() const
Definition: Handle.h:81
void getTopology(const edm::EventSetup &es)
tuple idx
DEBUGGING if hasattr(process,&quot;trackMonIterativeTracking2012&quot;): print &quot;trackMonIterativeTracking2012 D...
EcalIntercalibConstantMap icalMap
const T & get() const
Definition: EventSetup.h:56
std::vector< Item >::const_iterator const_iterator
void getEBRecHits(const edm::Event &ev)
T const * product() const
Definition: ESHandle.h:86
edm::EDGetTokenT< EcalRecHitCollection > ebRHToken_
ESHandle< TrackerGeometry > geometry
iterator find(key_type k)
void getLaserDbService(const edm::EventSetup &es)
const EcalRecHitCollection * eeRecHits_
const_iterator find(uint32_t rawId) const
void getGeometry(const edm::EventSetup &es)
T north() const
move the navigator north
Definition: CaloNavigator.h:38
const_iterator end() const
const CaloClusterPtr & seed() const
seed BasicCluster
Definition: SuperCluster.h:66
double y() const
y coordinate of cluster centroid
Definition: CaloCluster.h:157
void getEERecHits(const edm::Event &ev)
std::map< DetId, EcalRecHit > rechits_map_
edm::ESHandle< EcalLaserDbService > laser
edm::Timestamp time() const
Definition: EventBase.h:61
float BasicClusterSeedTime(const reco::BasicCluster &cluster)
*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
const CaloTopology * topology_
float EcalIntercalibConstant
float eseffsirir(const reco::SuperCluster &cluster)