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HGCSD.cc
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1 // File: HGCSD.cc
3 // Description: Sensitive Detector class for Combined Forward Calorimeter
5 
7 
19 #include "G4LogicalVolumeStore.hh"
20 #include "G4LogicalVolume.hh"
21 #include "G4Step.hh"
22 #include "G4Track.hh"
23 #include "G4ParticleTable.hh"
24 #include "G4VProcess.hh"
25 #include "G4Trap.hh"
26 
27 #include <fstream>
28 #include <iomanip>
29 #include <iostream>
30 #include <memory>
31 
32 //#define EDM_ML_DEBUG
33 //#define plotDebug
34 
36  const edm::EventSetup& es,
37  const SensitiveDetectorCatalog& clg,
38  edm::ParameterSet const& p,
39  const SimTrackManager* manager)
40  : CaloSD(name,
41  es,
42  clg,
43  p,
44  manager,
45  (float)(p.getParameter<edm::ParameterSet>("HGCSD").getParameter<double>("TimeSliceUnit")),
46  p.getParameter<edm::ParameterSet>("HGCSD").getParameter<bool>("IgnoreTrackID")),
47  slopeMin_(0),
48  levelT_(99),
49  tree_(nullptr) {
50  numberingScheme_.reset(nullptr);
51  mouseBite_.reset(nullptr);
52 
53  edm::ParameterSet m_HGC = p.getParameter<edm::ParameterSet>("HGCSD");
54  eminHit_ = m_HGC.getParameter<double>("EminHit") * CLHEP::MeV;
55  storeAllG4Hits_ = m_HGC.getParameter<bool>("StoreAllG4Hits");
56  rejectMB_ = m_HGC.getParameter<bool>("RejectMouseBite");
57  waferRot_ = m_HGC.getParameter<bool>("RotatedWafer");
58  angles_ = m_HGC.getUntrackedParameter<std::vector<double>>("WaferAngles");
59  double waferSize = m_HGC.getUntrackedParameter<double>("WaferSize") * CLHEP::mm;
60  double mouseBite = m_HGC.getUntrackedParameter<double>("MouseBite") * CLHEP::mm;
61  mouseBiteCut_ = waferSize * tan(30.0 * CLHEP::deg) - mouseBite;
62 
63  if (storeAllG4Hits_) {
64  setUseMap(false);
66  }
67  //this is defined in the hgcsens.xml
68  G4String myName = name;
70  nameX_ = "HGCal";
71  if (myName.find("HitsEE") != std::string::npos) {
73  nameX_ = "HGCalEESensitive";
74  } else if (myName.find("HitsHEfront") != std::string::npos) {
76  nameX_ = "HGCalHESiliconSensitive";
77  } else if (myName.find("HitsHEback") != std::string::npos) {
79  nameX_ = "HGCalHEScintillatorSensitive";
80  }
81 
82 #ifdef EDM_ML_DEBUG
83  edm::LogVerbatim("HGCSim") << "**************************************************"
84  << "\n"
85  << "* *"
86  << "\n"
87  << "* Constructing a HGCSD with name " << name << "\n"
88  << "* *"
89  << "\n"
90  << "**************************************************";
91 #endif
92  edm::LogVerbatim("HGCSim") << "HGCSD:: Threshold for storing hits: " << eminHit << " for " << nameX_ << " subdet "
93  << myFwdSubdet_;
94  edm::LogVerbatim("HGCSim") << "Flag for storing individual Geant4 Hits " << storeAllG4Hits_;
95  edm::LogVerbatim("HGCSim") << "Reject MosueBite Flag: " << rejectMB_ << " Size of wafer " << waferSize
96  << " Mouse Bite " << mouseBite << ":" << mouseBiteCut_ << " along " << angles_.size()
97  << " axes";
98 }
99 
100 double HGCSD::getEnergyDeposit(const G4Step* aStep) {
101  double r = aStep->GetPreStepPoint()->GetPosition().perp();
102  double z = std::abs(aStep->GetPreStepPoint()->GetPosition().z());
103 
104 #ifdef EDM_ML_DEBUG
105  G4int parCode = aStep->GetTrack()->GetDefinition()->GetPDGEncoding();
106  G4LogicalVolume* lv = aStep->GetPreStepPoint()->GetPhysicalVolume()->GetLogicalVolume();
107  edm::LogVerbatim("HGCSim") << "HGCSD: Hit from standard path from " << lv->GetName() << " for Track "
108  << aStep->GetTrack()->GetTrackID() << " ("
109  << aStep->GetTrack()->GetDefinition()->GetParticleName() << ":" << parCode << ") R = " << r
110  << " Z = " << z << " slope = " << r / z << ":" << slopeMin_;
111 #endif
112 
113  // Apply fiductial volume
114  if (r < z * slopeMin_) {
115  return 0.0;
116  }
117 
118  double wt1 = getResponseWt(aStep->GetTrack());
119  double wt2 = aStep->GetTrack()->GetWeight();
120  double destep = wt1 * aStep->GetTotalEnergyDeposit();
121  if (wt2 > 0)
122  destep *= wt2;
123 
124 #ifdef plotDebug
125  const G4VTouchable* touch = aStep->GetPreStepPoint()->GetTouchable();
126  G4double tmptrackE = aStep->GetTrack()->GetKineticEnergy();
127  G4int parCode = aStep->GetTrack()->GetDefinition()->GetPDGEncoding();
128  G4double angle = (aStep->GetTrack()->GetMomentumDirection().theta()) / CLHEP::deg;
129  G4int layer = ((touch->GetHistoryDepth() == levelT_) ? touch->GetReplicaNumber(0) : touch->GetReplicaNumber(2));
130  G4int ilayer = (layer - 1) / 3;
131  if (aStep->GetTotalEnergyDeposit() > 0) {
132  t_Layer_.emplace_back(ilayer);
133  t_Parcode_.emplace_back(parCode);
134  t_dEStep1_.emplace_back(aStep->GetTotalEnergyDeposit());
135  t_dEStep2_.emplace_back(destep);
136  t_TrackE_.emplace_back(tmptrackE);
137  t_Angle_.emplace_back(angle);
138  }
139 #endif
140 
141  return destep;
142 }
143 
144 uint32_t HGCSD::setDetUnitId(const G4Step* aStep) {
145  const G4StepPoint* preStepPoint = aStep->GetPreStepPoint();
146  const G4VTouchable* touch = preStepPoint->GetTouchable();
147 
148  //determine the exact position in global coordinates in the mass geometry
149  G4ThreeVector hitPoint = preStepPoint->GetPosition();
150  float globalZ = touch->GetTranslation(0).z();
151  int iz(globalZ > 0 ? 1 : -1);
152 
153  //convert to local coordinates (=local to the current volume):
154  G4ThreeVector localpos = touch->GetHistory()->GetTopTransform().TransformPoint(hitPoint);
155 
156  //get the det unit id with
158 
159  int layer, module, cell;
160  if (touch->GetHistoryDepth() == levelT_) {
161  layer = touch->GetReplicaNumber(0);
162  module = -1;
163  cell = -1;
164 #ifdef EDM_ML_DEBUG
165  edm::LogVerbatim("HGCSim") << "Depths: " << touch->GetHistoryDepth() << " name " << touch->GetVolume(0)->GetName()
166  << " layer:module:cell " << layer << ":" << module << ":" << cell;
167 #endif
168  } else {
169  layer = touch->GetReplicaNumber(2);
170  module = touch->GetReplicaNumber(1);
171  cell = touch->GetReplicaNumber(0);
172  }
173 #ifdef EDM_ML_DEBUG
174  const G4Material* mat = aStep->GetPreStepPoint()->GetMaterial();
175  edm::LogVerbatim("HGCSim") << "Depths: " << touch->GetHistoryDepth() << " name " << touch->GetVolume(0)->GetName()
176  << ":" << touch->GetReplicaNumber(0) << " " << touch->GetVolume(1)->GetName() << ":"
177  << touch->GetReplicaNumber(1) << " " << touch->GetVolume(2)->GetName() << ":"
178  << touch->GetReplicaNumber(2) << " layer:module:cell " << layer << ":" << module << ":"
179  << cell << " Material " << mat->GetName() << ":" << mat->GetRadlen();
180 //for (int k = 0; k< touch->GetHistoryDepth(); ++k)
181 // edm::LogVerbatim("HGCSim") << "Level [" << k << "] " << touch->GetVolume(k)->GetName() << ":" << touch->GetReplicaNumber(k);
182 #endif
183  // The following statement should be examined later before elimination
184  // VI: this is likely a check if media is vacuum - not needed
185  if (aStep->GetPreStepPoint()->GetMaterial()->GetRadlen() > 100000.)
186  return 0;
187 
188  uint32_t id = setDetUnitId(subdet, layer, module, cell, iz, localpos);
189  if (rejectMB_ && id != 0) {
190  int det, z, lay, wafer, type, ic;
191  HGCalTestNumbering::unpackHexagonIndex(id, det, z, lay, wafer, type, ic);
192 #ifdef EDM_ML_DEBUG
193  edm::LogVerbatim("HGCSim") << "ID " << std::hex << id << std::dec << " Input " << subdet << ":" << layer << ":"
194  << module << ":" << cell << ":" << iz << localpos.x() << ":" << localpos.y()
195  << " Decode " << det << ":" << z << ":" << lay << ":" << wafer << ":" << type << ":"
196  << ic;
197 #endif
198  if (mouseBite_->exclude(hitPoint, z, wafer, 0))
199  id = 0;
200  }
201  return id;
202 }
203 
204 void HGCSD::update(const BeginOfJob* job) {
205  const edm::EventSetup* es = (*job)();
207  es->get<IdealGeometryRecord>().get(nameX_, hdc);
208  if (hdc.isValid()) {
209  const HGCalDDDConstants* hgcons = hdc.product();
210  geom_mode_ = hgcons->geomMode();
211  slopeMin_ = hgcons->minSlope();
212  levelT_ = hgcons->levelTop();
213  numberingScheme_ = std::make_unique<HGCNumberingScheme>(*hgcons, nameX_);
214  if (rejectMB_)
215  mouseBite_ = std::make_unique<HGCMouseBite>(*hgcons, angles_, mouseBiteCut_, waferRot_);
216  } else {
217  edm::LogError("HGCSim") << "HCalSD : Cannot find HGCalDDDConstants for " << nameX_;
218  throw cms::Exception("Unknown", "HGCSD") << "Cannot find HGCalDDDConstants for " << nameX_ << "\n";
219  }
220 #ifdef EDM_ML_DEBUG
221  edm::LogVerbatim("HGCSim") << "HGCSD::Initialized with mode " << geom_mode_ << " Slope cut " << slopeMin_
222  << " top Level " << levelT_;
223 #endif
224 }
225 
227 #ifdef plotDebug
229  if (tfile.isAvailable()) {
230  tree_ = tfile->make<TTree>("TreeHGCSD", "TreeHGCSD");
231  tree_->Branch("EventID", &t_EventID_);
232  tree_->Branch("Layer", &t_Layer_);
233  tree_->Branch("ParticleCode", &t_Parcode_);
234  tree_->Branch("dEStepOriginal", &t_dEStep1_);
235  tree_->Branch("dEStepWeighted", &t_dEStep2_);
236  tree_->Branch("TrackEnergy", &t_TrackE_);
237  tree_->Branch("ThetaAngle", &t_Angle_);
238  }
239 #endif
240 }
241 
242 void HGCSD::initEvent(const BeginOfEvent* g4Event) {
243  const G4Event* evt = (*g4Event)();
244  t_EventID_ = evt->GetEventID();
245 #ifdef plotDebug
246  t_Layer_.clear();
247  t_Parcode_.clear();
248  t_dEStep1_.clear();
249  t_dEStep2_.clear();
250  t_TrackE_.clear();
251  t_Angle_.clear();
252 #endif
253 }
254 
256 #ifdef plotDebug
257  if (tree_)
258  tree_->Fill();
259 #endif
260 }
261 
262 bool HGCSD::filterHit(CaloG4Hit* aHit, double time) {
263  return ((time <= tmaxHit) && (aHit->getEnergyDeposit() > eminHit_));
264 }
265 
266 uint32_t HGCSD::setDetUnitId(ForwardSubdetector& subdet, int layer, int module, int cell, int iz, G4ThreeVector& pos) {
267  uint32_t id = numberingScheme_ ? numberingScheme_->getUnitID(subdet, layer, module, cell, iz, pos) : 0;
268  return id;
269 }
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Definition: HGCSD.h:61
HGCSD::levelT_
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Definition: HGCSD.h:53
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Definition: SimTrackManager.h:35
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Definition: electrons_cff.py:366
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Definition: CaloSD.h:141
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Definition: HGCSD.h:55
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Definition: HGCSD.h:46
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Definition: ForwardSubdetector.h:4
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Definition: HGCalDDDConstants.h:54
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Definition: HGCSD.h:54
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Definition: HGCalTestNumbering.cc:46
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Definition: HGCSD.h:56
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