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SiStripGainsPCLWorker.cc
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4 
5 #include <iostream>
6 #include <sstream>
7 
8 //********************************************************************************//
10  MinTrackMomentum = iConfig.getUntrackedParameter<double>("minTrackMomentum", 3.0);
11  MaxTrackMomentum = iConfig.getUntrackedParameter<double>("maxTrackMomentum", 99999.0);
12  MinTrackEta = iConfig.getUntrackedParameter<double>("minTrackEta", -5.0);
13  MaxTrackEta = iConfig.getUntrackedParameter<double>("maxTrackEta", 5.0);
14  MaxNrStrips = iConfig.getUntrackedParameter<unsigned>("maxNrStrips", 2);
15  MinTrackHits = iConfig.getUntrackedParameter<unsigned>("MinTrackHits", 8);
16  MaxTrackChiOverNdf = iConfig.getUntrackedParameter<double>("MaxTrackChiOverNdf", 3);
17  MaxTrackingIteration = iConfig.getUntrackedParameter<int>("MaxTrackingIteration", 7);
18  AllowSaturation = iConfig.getUntrackedParameter<bool>("AllowSaturation", false);
19  FirstSetOfConstants = iConfig.getUntrackedParameter<bool>("FirstSetOfConstants", true);
20  Validation = iConfig.getUntrackedParameter<bool>("Validation", false);
21  OldGainRemoving = iConfig.getUntrackedParameter<bool>("OldGainRemoving", false);
22  useCalibration = iConfig.getUntrackedParameter<bool>("UseCalibration", false);
23  doChargeMonitorPerPlane = iConfig.getUntrackedParameter<bool>("doChargeMonitorPerPlane", false);
24  m_DQMdir = iConfig.getUntrackedParameter<std::string>("DQMdir", "AlCaReco/SiStripGains");
25  m_calibrationMode = iConfig.getUntrackedParameter<std::string>("calibrationMode", "StdBunch");
26  VChargeHisto = iConfig.getUntrackedParameter<std::vector<std::string>>("ChargeHisto");
27 
28  // fill in the mapping between the histogram indices and the (id,side,plane) tuple
29  std::vector<std::pair<std::string, std::string>> hnames =
31  for (unsigned int i = 0; i < hnames.size(); i++) {
32  int id = APVGain::subdetectorId((hnames[i]).first);
33  int side = APVGain::subdetectorSide((hnames[i]).first);
34  int plane = APVGain::subdetectorPlane((hnames[i]).first);
35  int thick = APVGain::thickness((hnames[i]).first);
36  std::string s = hnames[i].first;
37 
38  auto loc = APVloc(thick, id, side, plane, s);
39  theTopologyMap.insert(std::make_pair(i, loc));
40  }
41 
42  //Set the monitoring element tag and store
43  dqm_tag_.reserve(7);
44  dqm_tag_.clear();
45  dqm_tag_.push_back("StdBunch"); // statistic collection from Standard Collision Bunch @ 3.8 T
46  dqm_tag_.push_back("StdBunch0T"); // statistic collection from Standard Collision Bunch @ 0 T
47  dqm_tag_.push_back("AagBunch"); // statistic collection from First Collision After Abort Gap @ 3.8 T
48  dqm_tag_.push_back("AagBunch0T"); // statistic collection from First Collision After Abort Gap @ 0 T
49  dqm_tag_.push_back("IsoMuon"); // statistic collection from Isolated Muon @ 3.8 T
50  dqm_tag_.push_back("IsoMuon0T"); // statistic collection from Isolated Muon @ 0 T
51  dqm_tag_.push_back("Harvest"); // statistic collection: Harvest
52 
53  m_tracks_token = consumes<edm::View<reco::Track>>(iConfig.getParameter<edm::InputTag>("tracks"));
54  m_association_token = consumes<TrajTrackAssociationCollection>(iConfig.getParameter<edm::InputTag>("tracks"));
55 
57  tkGeomTokenBR_ = esConsumes<edm::Transition::BeginRun>();
58  tkGeomToken_ = esConsumes<>();
59  gainToken_ = esConsumes<edm::Transition::BeginRun>();
60  qualityToken_ = esConsumes<edm::Transition::BeginRun>();
61 }
62 
63 //********************************************************************************//
65  edm::EventSetup const& iSetup,
67  using namespace edm;
68  static constexpr float defaultGainTick = 690. / 640.;
69 
70  // fills the APV collections at each begin run
71  const TrackerGeometry* bareTkGeomPtr = &iSetup.getData(tkGeomTokenBR_);
72  checkBookAPVColls(bareTkGeomPtr, histograms);
73 
74  const auto gainHandle = iSetup.getHandle(gainToken_);
75  if (!gainHandle.isValid()) {
76  edm::LogError("SiStripGainPCLWorker") << "gainHandle is not valid\n";
77  exit(0);
78  }
79 
80  const auto& siStripQuality = iSetup.getData(qualityToken_);
81 
82  for (unsigned int a = 0; a < histograms.APVsCollOrdered.size(); a++) {
83  std::shared_ptr<stAPVGain> APV = histograms.APVsCollOrdered[a];
84 
86  continue;
87 
88  APV->isMasked = siStripQuality.IsApvBad(APV->DetId, APV->APVId);
89 
90  if (gainHandle->getNumberOfTags() != 2) {
91  edm::LogError("SiStripGainPCLWorker") << "NUMBER OF GAIN TAG IS EXPECTED TO BE 2\n";
92  fflush(stdout);
93  exit(0);
94  };
95  float newPreviousGain = gainHandle->getApvGain(APV->APVId, gainHandle->getRange(APV->DetId, 1), 1);
96  if (APV->PreviousGain != 1 and newPreviousGain != APV->PreviousGain)
97  edm::LogWarning("SiStripGainPCLWorker") << "WARNING: ParticleGain in the global tag changed\n";
98  APV->PreviousGain = newPreviousGain;
99 
100  float newPreviousGainTick =
101  APV->isMasked ? defaultGainTick : gainHandle->getApvGain(APV->APVId, gainHandle->getRange(APV->DetId, 0), 0);
102  if (APV->PreviousGainTick != 1 and newPreviousGainTick != APV->PreviousGainTick) {
103  edm::LogWarning("SiStripGainPCLWorker")
104  << "WARNING: TickMarkGain in the global tag changed\n"
105  << std::endl
106  << " APV->SubDet: " << APV->SubDet << " APV->APVId:" << APV->APVId << std::endl
107  << " APV->PreviousGainTick: " << APV->PreviousGainTick << " newPreviousGainTick: " << newPreviousGainTick
108  << std::endl;
109  }
110  APV->PreviousGainTick = newPreviousGainTick;
111  }
112 }
113 
114 namespace {
115  struct HitCluster {
116  uint32_t det;
117  const SiStripCluster* strip;
118  const SiPixelCluster* pixel;
119  HitCluster(uint32_t detId, const SiStripCluster* strip, const SiPixelCluster* pixel)
120  : det(detId), strip(strip), pixel(pixel) {}
121  };
122  std::vector<HitCluster> getClusters(const TrackingRecHit* hit) {
123  const auto simple1d = dynamic_cast<const SiStripRecHit1D*>(hit);
124  const auto simple = dynamic_cast<const SiStripRecHit2D*>(hit);
125  const auto matched = dynamic_cast<const SiStripMatchedRecHit2D*>(hit);
126  const auto pixel = dynamic_cast<const SiPixelRecHit*>(hit);
127  std::vector<HitCluster> clusters;
128  if (matched) {
129  clusters.emplace_back(matched->monoId(), &matched->monoCluster(), nullptr);
130  clusters.emplace_back(matched->stereoId(), &matched->stereoCluster(), nullptr);
131  } else if (simple) {
132  clusters.emplace_back(simple->geographicalId().rawId(), simple->cluster().get(), nullptr);
133  } else if (simple1d) {
134  clusters.emplace_back(simple1d->geographicalId().rawId(), simple1d->cluster().get(), nullptr);
135  } else if (pixel) {
136  clusters.emplace_back(pixel->geographicalId().rawId(), nullptr, pixel->cluster().get());
137  }
138  return clusters;
139  }
140 
141  bool isFarFromBorder(const TrajectoryStateOnSurface& trajState, uint32_t detId, const TrackerGeometry* tGeom) {
142  const auto gdu = tGeom->idToDetUnit(detId);
143  if ((!dynamic_cast<const StripGeomDetUnit*>(gdu)) && (!dynamic_cast<const PixelGeomDetUnit*>(gdu))) {
144  edm::LogWarning("SiStripGainCalibTableProducer")
145  << "DetId " << detId << " does not seem to belong to the tracker";
146  return false;
147  }
148  const auto plane = gdu->surface();
149  const auto trapBounds = dynamic_cast<const TrapezoidalPlaneBounds*>(&plane.bounds());
150  const auto rectBounds = dynamic_cast<const RectangularPlaneBounds*>(&plane.bounds());
151 
152  static constexpr double distFromBorder = 1.0;
153  double halfLength = 0.;
154  if (trapBounds) {
155  halfLength = trapBounds->parameters()[3];
156  } else if (rectBounds) {
157  halfLength = .5 * gdu->surface().bounds().length();
158  } else {
159  return false;
160  }
161 
162  const auto pos = trajState.localPosition();
163  const auto posError = trajState.localError().positionError();
164  if (std::abs(pos.y()) + posError.yy() >= (halfLength - distFromBorder))
165  return false;
166 
167  return true;
168  }
169 } // namespace
170 
171 //********************************************************************************//
172 // ------------ method called for each event ------------
174  edm::EventSetup const& iSetup,
175  APVGain::APVGainHistograms const& histograms) const {
176  using namespace edm;
177 
178  unsigned int eventnumber = iEvent.id().event();
179  unsigned int runnumber = iEvent.id().run();
180 
181  edm::LogInfo("SiStripGainsPCLWorker") << "Processing run " << runnumber << " and event " << eventnumber << std::endl;
182 
183  const TrackerTopology* topo = &iSetup.getData(tTopoToken_);
184  const TrackerGeometry* tGeom = &iSetup.getData(tkGeomToken_);
185 
186  // Event data handles
188  iEvent.getByToken(m_tracks_token, tracks);
189  edm::Handle<TrajTrackAssociationCollection> trajTrackAssociations;
190  iEvent.getByToken(m_association_token, trajTrackAssociations);
191 
192  for (const auto& elem : theTopologyMap) {
193  LogDebug("SiStripGainsPCLWorker") << elem.first << " - " << elem.second.m_string << " "
194  << elem.second.m_subdetectorId << " " << elem.second.m_subdetectorSide << " "
195  << elem.second.m_subdetectorPlane << std::endl;
196  }
197 
198  LogDebug("SiStripGainsPCLWorker") << "for mode" << m_calibrationMode << std::endl;
199 
200  int elepos = statCollectionFromMode(m_calibrationMode.c_str());
201 
202  std::size_t nStoredClusters{0};
203  for (const auto& assoc : *trajTrackAssociations) {
204  const auto traj = assoc.key.get();
205  const auto track = assoc.val.get();
206 
207  if ((track->eta() < MinTrackEta) || (track->eta() > MaxTrackEta) || (track->p() < MinTrackMomentum) ||
208  (track->p() > MaxTrackMomentum) || (track->numberOfValidHits() < MinTrackHits) ||
209  ((track->chi2() / track->ndof()) > MaxTrackChiOverNdf) || (track->algo() > MaxTrackingIteration))
210  continue;
211 
212  int iCluster{-1};
213  for (const auto& meas : traj->measurements()) {
214  const auto& trajState = meas.updatedState();
215  if (!trajState.isValid())
216  continue;
217 
218  // there can be 2 (stereo module), 1 (no stereo module), or 0 (no pixel or strip hit) clusters
219  auto clusters = getClusters(meas.recHit()->hit());
220  for (const auto hitCluster : clusters) {
221  ++iCluster;
222  bool saturation = false;
223  bool overlapping = false;
224  unsigned int charge = 0;
225  int firstStrip = 0;
226  unsigned int nStrips = 0;
227  if (hitCluster.strip) {
228  const auto& ampls = hitCluster.strip->amplitudes();
229  firstStrip = hitCluster.strip->firstStrip();
230  nStrips = ampls.size();
231  charge = hitCluster.strip->charge();
232  saturation = std::any_of(ampls.begin(), ampls.end(), [](uint8_t amp) { return amp >= 254; });
233 
234  overlapping = (((firstStrip % 128) == 0) || ((firstStrip / 128) != ((firstStrip + int(nStrips)) / 128)));
235  } else if (hitCluster.pixel) {
236  const auto& ampls = hitCluster.pixel->pixelADC();
237  const int firstRow = hitCluster.pixel->minPixelRow();
238  const int firstCol = hitCluster.pixel->minPixelCol();
239  firstStrip = ((firstRow / 80) << 3 | (firstCol / 52)) * 128; //Hack to save the APVId
240  nStrips = 0;
241  for (const auto amp : ampls) {
242  charge += amp;
243  if (amp >= 254)
244  saturation = true;
245  }
246  }
247  // works for both strip and pixel thanks to firstStrip encoding for pixel above, as in the calibTree
248  std::shared_ptr<stAPVGain> APV = histograms.APVsColl.at((hitCluster.det << 4) | (firstStrip / 128));
249 
250  const auto farFromEdge = (hitCluster.strip ? isFarFromBorder(trajState, hitCluster.det, tGeom) : true);
251  if ((APV->SubDet > 2) &&
252  ((!farFromEdge) || overlapping || (saturation && !AllowSaturation) || (nStrips > MaxNrStrips)))
253  continue;
254 
255  int clusterCharge = 0;
256  if (APV->SubDet > 2) { // strip
258  saturation = false;
259  for (const auto origCharge : hitCluster.strip->amplitudes()) {
260  int stripCharge;
261  if (useCalibration) {
262  if (FirstSetOfConstants) {
263  stripCharge = int(origCharge / APV->CalibGain);
264  } else {
265  stripCharge = int(origCharge * (APV->PreviousGain / APV->CalibGain));
266  }
267  } else {
268  if (FirstSetOfConstants) {
269  stripCharge = origCharge;
270  } else {
271  stripCharge = int(origCharge * APV->PreviousGain);
272  }
273  }
274  if (stripCharge > 1024) {
275  stripCharge = 255;
276  saturation = true;
277  } else if (stripCharge > 254) {
278  stripCharge = 254;
279  saturation = true;
280  }
281  clusterCharge += stripCharge;
282  }
283  if (saturation && !AllowSaturation)
284  continue;
285  } else {
286  clusterCharge = charge;
287  }
288  } else { // pixel
289  clusterCharge = charge / 265.0; //expected scale factor between pixel and strip charge
290  }
291 
292  const auto trackDir = trajState.localDirection();
293  const auto path = (10. * APV->Thickness) / std::abs(trackDir.z() / trackDir.mag());
294  double ClusterChargeOverPath = ((double)clusterCharge) / path;
295  if (APV->SubDet > 2) {
296  if (Validation) {
297  ClusterChargeOverPath /= APV->PreviousGain;
298  }
299  if (OldGainRemoving) {
300  ClusterChargeOverPath *= APV->PreviousGain;
301  }
302  } else {
303  // keep processing of pixel cluster charge until here
304  continue;
305  }
306  ++nStoredClusters;
307 
308  // real histogram for calibration
309  histograms.Charge_Vs_Index[elepos]->Fill(APV->Index, ClusterChargeOverPath);
310  LogDebug("SiStripGainsPCLWorker")
311  << " for mode " << m_calibrationMode << "\n"
312  << " i " << iCluster << " useCalibration " << useCalibration << " FirstSetOfConstants "
313  << FirstSetOfConstants << " APV->PreviousGain " << APV->PreviousGain << " APV->CalibGain " << APV->CalibGain
314  << " APV->DetId " << APV->DetId << " APV->Index " << APV->Index << " Charge " << clusterCharge << " Path "
315  << path << " ClusterChargeOverPath " << ClusterChargeOverPath << std::endl;
316 
317  // Fill monitoring histograms
318  int mCharge1 = 0;
319  for (const auto sCharge : hitCluster.strip->amplitudes()) {
320  if (sCharge > 254) {
321  mCharge1 += 254;
322  } else {
323  mCharge1 += sCharge;
324  }
325  }
326  // Revome gains for monitoring
327  int mCharge2 = mCharge1 * APV->PreviousGain; // remove G2
328  int mCharge3 = mCharge1 * APV->PreviousGainTick; // remove G1
329  int mCharge4 = mCharge1 * APV->PreviousGain * APV->PreviousGainTick; // remove G1 and G2
330 
331  LogDebug("SiStripGainsPCLWorker") << " full charge " << mCharge1 << " remove G2 " << mCharge2 << " remove G1 "
332  << mCharge3 << " remove G1*G2 " << mCharge4 << std::endl;
333 
334  auto indices = APVGain::FetchIndices(theTopologyMap, hitCluster.det, topo);
335 
336  for (auto m : indices)
337  histograms.Charge_1[elepos][m]->Fill(((double)mCharge1) / path);
338  for (auto m : indices)
339  histograms.Charge_2[elepos][m]->Fill(((double)mCharge2) / path);
340  for (auto m : indices)
341  histograms.Charge_3[elepos][m]->Fill(((double)mCharge3) / path);
342  for (auto m : indices)
343  histograms.Charge_4[elepos][m]->Fill(((double)mCharge4) / path);
344 
345  if (APV->SubDet == StripSubdetector::TIB) {
346  histograms.Charge_Vs_PathlengthTIB[elepos]->Fill(path, clusterCharge); // TIB
347 
348  } else if (APV->SubDet == StripSubdetector::TOB) {
349  histograms.Charge_Vs_PathlengthTOB[elepos]->Fill(path, clusterCharge); // TOB
350 
351  } else if (APV->SubDet == StripSubdetector::TID) {
352  if (APV->Eta < 0) {
353  histograms.Charge_Vs_PathlengthTIDM[elepos]->Fill(path, clusterCharge);
354  } // TID minus
355  else if (APV->Eta > 0) {
356  histograms.Charge_Vs_PathlengthTIDP[elepos]->Fill(path, clusterCharge);
357  } // TID plus
358 
359  } else if (APV->SubDet == StripSubdetector::TEC) {
360  if (APV->Eta < 0) {
361  if (APV->Thickness < 0.04) {
362  histograms.Charge_Vs_PathlengthTECM1[elepos]->Fill(path, clusterCharge);
363  } // TEC minus, type 1
364  else if (APV->Thickness > 0.04) {
365  histograms.Charge_Vs_PathlengthTECM2[elepos]->Fill(path, clusterCharge);
366  } // TEC minus, type 2
367  } else if (APV->Eta > 0) {
368  if (APV->Thickness < 0.04) {
369  histograms.Charge_Vs_PathlengthTECP1[elepos]->Fill(path, clusterCharge);
370  } // TEC plus, type 1
371  else if (APV->Thickness > 0.04) {
372  histograms.Charge_Vs_PathlengthTECP2[elepos]->Fill(path, clusterCharge);
373  } // TEC plus, type 2
374  }
375  }
376  }
377  }
378  }
379 
380  histograms.EventStats->Fill(0., 0., 1);
381  histograms.EventStats->Fill(1., 0., tracks->size());
382  histograms.EventStats->Fill(2., 0., nStoredClusters);
383 
384  //LogDebug("SiStripGainsPCLWorker")<<" for mode"<< m_calibrationMode
385  // <<" entries in histogram:"<< histograms.Charge_Vs_Index[elepos].getEntries()
386  // <<std::endl;
387 }
388 
389 //********************************************************************************//
391 
392 //********************************************************************************//
393 // ------------ method called once each job just before starting event loop ------------
396  if (bareTkGeomPtr) { // pointer not yet set: called the first time => fill the APVColls
397  auto const& Det = bareTkGeomPtr->dets();
398 
399  edm::LogInfo("SiStripGainsPCLWorker") << " Resetting APV struct" << std::endl;
400 
401  unsigned int Index = 0;
402 
403  for (unsigned int i = 0; i < Det.size(); i++) {
404  DetId Detid = Det[i]->geographicalId();
405  int SubDet = Detid.subdetId();
406 
409  auto DetUnit = dynamic_cast<const StripGeomDetUnit*>(Det[i]);
410  if (!DetUnit)
411  continue;
412 
413  const StripTopology& Topo = DetUnit->specificTopology();
414  unsigned int NAPV = Topo.nstrips() / 128;
415 
416  for (unsigned int j = 0; j < NAPV; j++) {
417  auto APV = std::make_shared<stAPVGain>();
418  APV->Index = Index;
419  APV->Bin = -1;
420  APV->DetId = Detid.rawId();
421  APV->APVId = j;
422  APV->SubDet = SubDet;
423  APV->FitMPV = -1;
424  APV->FitMPVErr = -1;
425  APV->FitWidth = -1;
426  APV->FitWidthErr = -1;
427  APV->FitChi2 = -1;
428  APV->FitNorm = -1;
429  APV->Gain = -1;
430  APV->PreviousGain = 1;
431  APV->PreviousGainTick = 1;
432  APV->x = DetUnit->position().basicVector().x();
433  APV->y = DetUnit->position().basicVector().y();
434  APV->z = DetUnit->position().basicVector().z();
435  APV->Eta = DetUnit->position().basicVector().eta();
436  APV->Phi = DetUnit->position().basicVector().phi();
437  APV->R = DetUnit->position().basicVector().transverse();
438  APV->Thickness = DetUnit->surface().bounds().thickness();
439  APV->NEntries = 0;
440  APV->isMasked = false;
441 
442  histograms.APVsCollOrdered.push_back(APV);
443  histograms.APVsColl[(APV->DetId << 4) | APV->APVId] = APV;
444  Index++;
445  histograms.NStripAPVs++;
446  } // loop on APVs
447  } // if is Strips
448  } // loop on dets
449 
450  for (unsigned int i = 0; i < Det.size();
451  i++) { //Make two loop such that the Pixel information is added at the end --> make transition simpler
452  DetId Detid = Det[i]->geographicalId();
453  int SubDet = Detid.subdetId();
455  auto DetUnit = dynamic_cast<const PixelGeomDetUnit*>(Det[i]);
456  if (!DetUnit)
457  continue;
458 
459  const PixelTopology& Topo = DetUnit->specificTopology();
460  unsigned int NROCRow = Topo.nrows() / (80.);
461  unsigned int NROCCol = Topo.ncolumns() / (52.);
462 
463  for (unsigned int j = 0; j < NROCRow; j++) {
464  for (unsigned int i = 0; i < NROCCol; i++) {
465  auto APV = std::make_shared<stAPVGain>();
466  APV->Index = Index;
467  APV->Bin = -1;
468  APV->DetId = Detid.rawId();
469  APV->APVId = (j << 3 | i);
470  APV->SubDet = SubDet;
471  APV->FitMPV = -1;
472  APV->FitMPVErr = -1;
473  APV->FitWidth = -1;
474  APV->FitWidthErr = -1;
475  APV->FitChi2 = -1;
476  APV->Gain = -1;
477  APV->PreviousGain = 1;
478  APV->PreviousGainTick = 1;
479  APV->x = DetUnit->position().basicVector().x();
480  APV->y = DetUnit->position().basicVector().y();
481  APV->z = DetUnit->position().basicVector().z();
482  APV->Eta = DetUnit->position().basicVector().eta();
483  APV->Phi = DetUnit->position().basicVector().phi();
484  APV->R = DetUnit->position().basicVector().transverse();
485  APV->Thickness = DetUnit->surface().bounds().thickness();
486  APV->isMasked = false; //SiPixelQuality_->IsModuleBad(Detid.rawId());
487  APV->NEntries = 0;
488 
489  histograms.APVsCollOrdered.push_back(APV);
490  histograms.APVsColl[(APV->DetId << 4) | APV->APVId] = APV;
491  Index++;
492  histograms.NPixelDets++;
493 
494  } // loop on ROC cols
495  } // loop on ROC rows
496  } // if Pixel
497  } // loop on Dets
498  } //if (!bareTkGeomPtr_) ...
499 }
500 
501 //********************************************************************************//
504  desc.setUnknown();
505  descriptions.addDefault(desc);
506 }
507 
508 //********************************************************************************//
510  edm::Run const& run,
511  edm::EventSetup const& setup,
513  ibooker.cd();
514  std::string dqm_dir = m_DQMdir;
515  const char* tag = dqm_tag_[statCollectionFromMode(m_calibrationMode.c_str())].c_str();
516 
517  edm::LogInfo("SiStripGainsPCLWorker") << "Setting " << dqm_dir << " in DQM and booking histograms for tag " << tag
518  << std::endl;
519 
520  ibooker.setCurrentFolder(dqm_dir);
521 
522  // this MonitorElement is created to log the number of events / tracks and clusters used
523  // by the calibration algorithm
524 
525  histograms.EventStats = ibooker.book2S("EventStats", "Statistics", 3, -0.5, 2.5, 1, 0, 1);
526  histograms.EventStats->setBinLabel(1, "events count", 1);
527  histograms.EventStats->setBinLabel(2, "tracks count", 1);
528  histograms.EventStats->setBinLabel(3, "clusters count", 1);
529 
530  std::string stag(tag);
531  if (!stag.empty() && stag[0] != '_')
532  stag.insert(0, 1, '_');
533 
534  std::string cvi = std::string("Charge_Vs_Index") + stag;
535  std::string cvpTIB = std::string("Charge_Vs_PathlengthTIB") + stag;
536  std::string cvpTOB = std::string("Charge_Vs_PathlengthTOB") + stag;
537  std::string cvpTIDP = std::string("Charge_Vs_PathlengthTIDP") + stag;
538  std::string cvpTIDM = std::string("Charge_Vs_PathlengthTIDM") + stag;
539  std::string cvpTECP1 = std::string("Charge_Vs_PathlengthTECP1") + stag;
540  std::string cvpTECP2 = std::string("Charge_Vs_PathlengthTECP2") + stag;
541  std::string cvpTECM1 = std::string("Charge_Vs_PathlengthTECM1") + stag;
542  std::string cvpTECM2 = std::string("Charge_Vs_PathlengthTECM2") + stag;
543 
544  int elepos = statCollectionFromMode(tag);
545 
546  histograms.Charge_Vs_Index.reserve(dqm_tag_.size());
547  histograms.Charge_Vs_PathlengthTIB.reserve(dqm_tag_.size());
548  histograms.Charge_Vs_PathlengthTOB.reserve(dqm_tag_.size());
549  histograms.Charge_Vs_PathlengthTIDP.reserve(dqm_tag_.size());
550  histograms.Charge_Vs_PathlengthTIDM.reserve(dqm_tag_.size());
551  histograms.Charge_Vs_PathlengthTECP1.reserve(dqm_tag_.size());
552  histograms.Charge_Vs_PathlengthTECP2.reserve(dqm_tag_.size());
553  histograms.Charge_Vs_PathlengthTECM1.reserve(dqm_tag_.size());
554  histograms.Charge_Vs_PathlengthTECM2.reserve(dqm_tag_.size());
555 
556  // The cluster charge is stored by exploiting a non uniform binning in order
557  // reduce the histogram memory size. The bin width is relaxed with a falling
558  // exponential function and the bin boundaries are stored in the binYarray.
559  // The binXarray is used to provide as many bins as the APVs.
560  //
561  // More details about this implementations are here:
562  // https://indico.cern.ch/event/649344/contributions/2672267/attachments/1498323/2332518/OptimizeChHisto.pdf
563 
564  std::vector<float> binXarray;
565  binXarray.reserve(histograms.NStripAPVs + 1);
566  for (unsigned int a = 0; a <= histograms.NStripAPVs; a++) {
567  binXarray.push_back((float)a);
568  }
569 
570  std::array<float, 688> binYarray;
571  double p0 = 5.445;
572  double p1 = 0.002113;
573  double p2 = 69.01576;
574  double y = 0.;
575  for (int b = 0; b < 687; b++) {
576  binYarray[b] = y;
577  if (y <= 902.)
578  y = y + 2.;
579  else
580  y = (p0 - log(exp(p0 - p1 * y) - p2 * p1)) / p1;
581  }
582  binYarray[687] = 4000.;
583 
584  histograms.Charge_1[elepos].clear();
585  histograms.Charge_2[elepos].clear();
586  histograms.Charge_3[elepos].clear();
587  histograms.Charge_4[elepos].clear();
588 
589  auto it = histograms.Charge_Vs_Index.begin();
590  histograms.Charge_Vs_Index.insert(
591  it + elepos,
592  ibooker.book2S(cvi.c_str(), cvi.c_str(), histograms.NStripAPVs, &binXarray[0], 687, binYarray.data()));
593 
594  it = histograms.Charge_Vs_PathlengthTIB.begin();
595  histograms.Charge_Vs_PathlengthTIB.insert(it + elepos,
596  ibooker.book2S(cvpTIB.c_str(), cvpTIB.c_str(), 20, 0.3, 1.3, 250, 0, 2000));
597 
598  it = histograms.Charge_Vs_PathlengthTOB.begin();
599  histograms.Charge_Vs_PathlengthTOB.insert(it + elepos,
600  ibooker.book2S(cvpTOB.c_str(), cvpTOB.c_str(), 20, 0.3, 1.3, 250, 0, 2000));
601 
602  it = histograms.Charge_Vs_PathlengthTIDP.begin();
603  histograms.Charge_Vs_PathlengthTIDP.insert(
604  it + elepos, ibooker.book2S(cvpTIDP.c_str(), cvpTIDP.c_str(), 20, 0.3, 1.3, 250, 0, 2000));
605 
606  it = histograms.Charge_Vs_PathlengthTIDM.begin();
607  histograms.Charge_Vs_PathlengthTIDM.insert(
608  it + elepos, ibooker.book2S(cvpTIDM.c_str(), cvpTIDM.c_str(), 20, 0.3, 1.3, 250, 0, 2000));
609 
610  it = histograms.Charge_Vs_PathlengthTECP1.begin();
611  histograms.Charge_Vs_PathlengthTECP1.insert(
612  it + elepos, ibooker.book2S(cvpTECP1.c_str(), cvpTECP1.c_str(), 20, 0.3, 1.3, 250, 0, 2000));
613 
614  it = histograms.Charge_Vs_PathlengthTECP2.begin();
615  histograms.Charge_Vs_PathlengthTECP2.insert(
616  it + elepos, ibooker.book2S(cvpTECP2.c_str(), cvpTECP2.c_str(), 20, 0.3, 1.3, 250, 0, 2000));
617 
618  it = histograms.Charge_Vs_PathlengthTECM1.begin();
619  histograms.Charge_Vs_PathlengthTECM1.insert(
620  it + elepos, ibooker.book2S(cvpTECM1.c_str(), cvpTECM1.c_str(), 20, 0.3, 1.3, 250, 0, 2000));
621 
622  it = histograms.Charge_Vs_PathlengthTECM2.begin();
623  histograms.Charge_Vs_PathlengthTECM2.insert(
624  it + elepos, ibooker.book2S(cvpTECM2.c_str(), cvpTECM2.c_str(), 20, 0.3, 1.3, 250, 0, 2000));
625 
626  std::vector<std::pair<std::string, std::string>> hnames =
628  for (unsigned int i = 0; i < hnames.size(); i++) {
629  std::string htag = (hnames[i]).first + stag;
630  histograms.Charge_1[elepos].push_back(ibooker.book1DD(htag.c_str(), (hnames[i]).second.c_str(), 100, 0., 1000.));
631  }
632 
634  for (unsigned int i = 0; i < hnames.size(); i++) {
635  std::string htag = (hnames[i]).first + stag;
636  histograms.Charge_2[elepos].push_back(ibooker.book1DD(htag.c_str(), (hnames[i]).second.c_str(), 100, 0., 1000.));
637  }
638 
640  for (unsigned int i = 0; i < hnames.size(); i++) {
641  std::string htag = (hnames[i]).first + stag;
642  histograms.Charge_3[elepos].push_back(ibooker.book1DD(htag.c_str(), (hnames[i]).second.c_str(), 100, 0., 1000.));
643  }
644 
646  for (unsigned int i = 0; i < hnames.size(); i++) {
647  std::string htag = (hnames[i]).first + stag;
648  histograms.Charge_4[elepos].push_back(ibooker.book1DD(htag.c_str(), (hnames[i]).second.c_str(), 100, 0., 1000.));
649  }
650 }
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