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1 // 1 // 2 // ******************************************* 2 // ******************************************************************** 3 // * License and Disclaimer 3 // * License and Disclaimer * 4 // * 4 // * * 5 // * The Geant4 software is copyright of th 5 // * The Geant4 software is copyright of the Copyright Holders of * 6 // * the Geant4 Collaboration. It is provided 6 // * the Geant4 Collaboration. It is provided under the terms and * 7 // * conditions of the Geant4 Software License 7 // * conditions of the Geant4 Software License, included in the file * 8 // * LICENSE and available at http://cern.ch/ 8 // * LICENSE and available at http://cern.ch/geant4/license . These * 9 // * include a list of copyright holders. 9 // * include a list of copyright holders. * 10 // * 10 // * * 11 // * Neither the authors of this software syst 11 // * Neither the authors of this software system, nor their employing * 12 // * institutes,nor the agencies providing fin 12 // * institutes,nor the agencies providing financial support for this * 13 // * work make any representation or warran 13 // * work make any representation or warranty, express or implied, * 14 // * regarding this software system or assum 14 // * regarding this software system or assume any liability for its * 15 // * use. Please see the license in the file 15 // * use. Please see the license in the file LICENSE and URL above * 16 // * for the full disclaimer and the limitatio 16 // * for the full disclaimer and the limitation of liability. * 17 // * 17 // * * 18 // * This code implementation is the result 18 // * This code implementation is the result of the scientific and * 19 // * technical work of the GEANT4 collaboratio 19 // * technical work of the GEANT4 collaboration. * 20 // * By using, copying, modifying or distri 20 // * By using, copying, modifying or distributing the software (or * 21 // * any work based on the software) you ag 21 // * any work based on the software) you agree to acknowledge its * 22 // * use in resulting scientific publicati 22 // * use in resulting scientific publications, and indicate your * 23 // * acceptance of all terms of the Geant4 Sof 23 // * acceptance of all terms of the Geant4 Software license. * 24 // ******************************************* 24 // ******************************************************************** 25 // 25 // 26 // G4RichTrajectory class implementation << 26 // >> 27 // $Id: G4RichTrajectory.cc 67009 2013-01-29 16:00:21Z gcosmo $ >> 28 // >> 29 // --------------------------------------------------------------- >> 30 // >> 31 // G4RichTrajectory.cc 27 // 32 // 28 // Contact: 33 // Contact: 29 // Questions and comments on G4Trajectory, o 34 // Questions and comments on G4Trajectory, on which this is based, 30 // should be sent to 35 // should be sent to 31 // Katsuya Amako (e-mail: Katsuya.Amako@k 36 // Katsuya Amako (e-mail: Katsuya.Amako@kek.jp) 32 // Makoto Asai (e-mail: asai@slac.stanf << 37 // Makoto Asai (e-mail: asai@kekvax.kek.jp) 33 // Takashi Sasaki (e-mail: Takashi.Sasaki@ 38 // Takashi Sasaki (e-mail: Takashi.Sasaki@kek.jp) 34 // and on the extended code to: 39 // and on the extended code to: 35 // John Allison (e-mail: John.Allison@ma 40 // John Allison (e-mail: John.Allison@manchester.ac.uk) 36 // Joseph Perl (e-mail: perl@slac.stanf 41 // Joseph Perl (e-mail: perl@slac.stanford.edu) 37 // ------------------------------------------- << 42 // >> 43 // --------------------------------------------------------------- 38 44 39 #include "G4RichTrajectory.hh" 45 #include "G4RichTrajectory.hh" 40 #include "G4ClonedRichTrajectory.hh" << 46 #include "G4RichTrajectoryPoint.hh" 41 << 42 #include "G4ParticleTable.hh" << 43 #include "G4AttDef.hh" << 44 #include "G4AttDefStore.hh" 47 #include "G4AttDefStore.hh" >> 48 #include "G4AttDef.hh" 45 #include "G4AttValue.hh" 49 #include "G4AttValue.hh" 46 #include "G4PhysicsModelCatalog.hh" << 47 #include "G4RichTrajectoryPoint.hh" << 48 #include "G4UIcommand.hh" << 49 #include "G4UnitsTable.hh" 50 #include "G4UnitsTable.hh" 50 #include "G4VProcess.hh" 51 #include "G4VProcess.hh" 51 52 52 namespace { << 53 //#define G4ATTDEBUG 53 G4Mutex CloneRichTrajectoryMutex = G4MUTEX_IN << 54 } << 55 << 56 // #define G4ATTDEBUG << 57 #ifdef G4ATTDEBUG 54 #ifdef G4ATTDEBUG 58 # include "G4AttCheck.hh" << 55 #include "G4AttCheck.hh" 59 #endif 56 #endif 60 57 61 #include <sstream> 58 #include <sstream> 62 59 63 G4Allocator<G4RichTrajectory>*& aRichTrajector << 60 G4Allocator<G4RichTrajectory> aRichTrajectoryAllocator; 64 { << 65 G4ThreadLocalStatic G4Allocator<G4RichTrajec << 66 return _instance; << 67 } << 68 61 69 G4RichTrajectory::G4RichTrajectory(const G4Tra << 62 G4RichTrajectory::G4RichTrajectory(): >> 63 fpRichPointsContainer(0), >> 64 fpCreatorProcess(0), >> 65 fpEndingProcess(0), >> 66 fFinalKineticEnergy(0.) >> 67 {} >> 68 >> 69 G4RichTrajectory::G4RichTrajectory(const G4Track* aTrack): >> 70 G4Trajectory(aTrack) // Note: this initialises the base class data >> 71 // members and, unfortunately but never mind, >> 72 // creates a G4TrajectoryPoint in >> 73 // TrajectoryPointContainer that we cannot >> 74 // access because it's private. We store the >> 75 // same information (plus more) in a >> 76 // G4RichTrajectoryPoint in the >> 77 // RichTrajectoryPointsContainer 70 { 78 { 71 G4ParticleDefinition* fpParticleDefinition = << 72 ParticleName = fpParticleDefinition->GetPart << 73 PDGCharge = fpParticleDefinition->GetPDGChar << 74 PDGEncoding = fpParticleDefinition->GetPDGEn << 75 fTrackID = aTrack->GetTrackID(); << 76 fParentID = aTrack->GetParentID(); << 77 initialKineticEnergy = aTrack->GetKineticEne << 78 initialMomentum = aTrack->GetMomentum(); << 79 positionRecord = new G4TrajectoryPointContai << 80 << 81 // Following is for the first trajectory poi << 82 positionRecord->push_back(new G4RichTrajecto << 83 << 84 fpInitialVolume = aTrack->GetTouchableHandle 79 fpInitialVolume = aTrack->GetTouchableHandle(); 85 fpInitialNextVolume = aTrack->GetNextTouchab 80 fpInitialNextVolume = aTrack->GetNextTouchableHandle(); 86 fpCreatorProcess = aTrack->GetCreatorProcess 81 fpCreatorProcess = aTrack->GetCreatorProcess(); 87 fCreatorModelID = aTrack->GetCreatorModelID( << 88 << 89 // On construction, set final values to init 82 // On construction, set final values to initial values. 90 // Final values are updated at the addition 83 // Final values are updated at the addition of every step - see AppendStep. 91 // << 92 fpFinalVolume = aTrack->GetTouchableHandle() 84 fpFinalVolume = aTrack->GetTouchableHandle(); 93 fpFinalNextVolume = aTrack->GetNextTouchable 85 fpFinalNextVolume = aTrack->GetNextTouchableHandle(); 94 fpEndingProcess = aTrack->GetCreatorProcess( 86 fpEndingProcess = aTrack->GetCreatorProcess(); 95 fFinalKineticEnergy = aTrack->GetKineticEner 87 fFinalKineticEnergy = aTrack->GetKineticEnergy(); 96 << 97 // Insert the first rich trajectory point (s 88 // Insert the first rich trajectory point (see note above)... 98 // << 89 fpRichPointsContainer = new RichTrajectoryPointsContainer; 99 fpRichPointContainer = new G4TrajectoryPoint << 90 fpRichPointsContainer->push_back(new G4RichTrajectoryPoint(aTrack)); 100 fpRichPointContainer->push_back(new G4RichTr << 101 } 91 } 102 92 103 G4RichTrajectory::G4RichTrajectory(G4RichTraje << 93 G4RichTrajectory::G4RichTrajectory(G4RichTrajectory & right): >> 94 G4Trajectory(right) 104 { 95 { 105 ParticleName = right.ParticleName; << 106 PDGCharge = right.PDGCharge; << 107 PDGEncoding = right.PDGEncoding; << 108 fTrackID = right.fTrackID; << 109 fParentID = right.fParentID; << 110 initialKineticEnergy = right.initialKineticE << 111 initialMomentum = right.initialMomentum; << 112 positionRecord = new G4TrajectoryPointContai << 113 << 114 for (auto& i : *right.positionRecord) { << 115 auto rightPoint = (G4RichTrajectoryPoint*) << 116 positionRecord->push_back(new G4RichTrajec << 117 } << 118 << 119 fpInitialVolume = right.fpInitialVolume; 96 fpInitialVolume = right.fpInitialVolume; 120 fpInitialNextVolume = right.fpInitialNextVol 97 fpInitialNextVolume = right.fpInitialNextVolume; 121 fpCreatorProcess = right.fpCreatorProcess; 98 fpCreatorProcess = right.fpCreatorProcess; 122 fCreatorModelID = right.fCreatorModelID; << 123 fpFinalVolume = right.fpFinalVolume; 99 fpFinalVolume = right.fpFinalVolume; 124 fpFinalNextVolume = right.fpFinalNextVolume; 100 fpFinalNextVolume = right.fpFinalNextVolume; 125 fpEndingProcess = right.fpEndingProcess; 101 fpEndingProcess = right.fpEndingProcess; 126 fFinalKineticEnergy = right.fFinalKineticEne 102 fFinalKineticEnergy = right.fFinalKineticEnergy; 127 fpRichPointContainer = new G4TrajectoryPoint << 103 fpRichPointsContainer = new RichTrajectoryPointsContainer; 128 for (auto& i : *right.fpRichPointContainer) << 104 for(size_t i=0;i<right.fpRichPointsContainer->size();i++) 129 auto rightPoint = (G4RichTrajectoryPoint*) << 105 { 130 fpRichPointContainer->push_back(new G4Rich << 106 G4RichTrajectoryPoint* rightPoint = >> 107 (G4RichTrajectoryPoint*)((*(right.fpRichPointsContainer))[i]); >> 108 fpRichPointsContainer->push_back(new G4RichTrajectoryPoint(*rightPoint)); 131 } 109 } 132 } 110 } 133 111 134 G4RichTrajectory::~G4RichTrajectory() 112 G4RichTrajectory::~G4RichTrajectory() 135 { 113 { 136 if (fpRichPointContainer != nullptr) { << 114 if (fpRichPointsContainer) { 137 for (auto& i : *fpRichPointContainer) { << 115 // fpRichPointsContainer->clearAndDestroy(); 138 delete i; << 116 size_t i; >> 117 for(i=0;i<fpRichPointsContainer->size();i++){ >> 118 delete (*fpRichPointsContainer)[i]; 139 } 119 } 140 fpRichPointContainer->clear(); << 120 fpRichPointsContainer->clear(); 141 delete fpRichPointContainer; << 121 delete fpRichPointsContainer; 142 } 122 } 143 } 123 } 144 124 145 void G4RichTrajectory::AppendStep(const G4Step 125 void G4RichTrajectory::AppendStep(const G4Step* aStep) 146 { 126 { 147 fpRichPointContainer->push_back(new G4RichTr << 127 fpRichPointsContainer->push_back(new G4RichTrajectoryPoint(aStep)); 148 << 149 // Except for first step, which is a sort of 128 // Except for first step, which is a sort of virtual step to start 150 // the track, compute the final values... 129 // the track, compute the final values... 151 // << 152 const G4Track* track = aStep->GetTrack(); 130 const G4Track* track = aStep->GetTrack(); 153 const G4StepPoint* postStepPoint = aStep->Ge 131 const G4StepPoint* postStepPoint = aStep->GetPostStepPoint(); 154 if (track->GetCurrentStepNumber() > 0) { 132 if (track->GetCurrentStepNumber() > 0) { 155 fpFinalVolume = track->GetTouchableHandle( 133 fpFinalVolume = track->GetTouchableHandle(); 156 fpFinalNextVolume = track->GetNextTouchabl 134 fpFinalNextVolume = track->GetNextTouchableHandle(); 157 fpEndingProcess = postStepPoint->GetProces 135 fpEndingProcess = postStepPoint->GetProcessDefinedStep(); 158 fFinalKineticEnergy = 136 fFinalKineticEnergy = 159 aStep->GetPreStepPoint()->GetKineticEner << 137 aStep->GetPreStepPoint()->GetKineticEnergy() - >> 138 aStep->GetTotalEnergyDeposit(); 160 } 139 } 161 } 140 } 162 << 141 163 void G4RichTrajectory::MergeTrajectory(G4VTraj 142 void G4RichTrajectory::MergeTrajectory(G4VTrajectory* secondTrajectory) 164 { 143 { 165 if (secondTrajectory == nullptr) return; << 144 if(!secondTrajectory) return; 166 145 167 auto seco = (G4RichTrajectory*)secondTraject << 146 G4RichTrajectory* seco = (G4RichTrajectory*)secondTrajectory; 168 G4int ent = seco->GetPointEntries(); 147 G4int ent = seco->GetPointEntries(); 169 for (G4int i = 1; i < ent; ++i) { << 148 for(G4int i=1;i<ent;i++) { 170 // initial point of the second trajectory 149 // initial point of the second trajectory should not be merged 171 // << 150 fpRichPointsContainer->push_back((*(seco->fpRichPointsContainer))[i]); 172 fpRichPointContainer->push_back((*(seco->f << 151 // fpRichPointsContainer->push_back(seco->fpRichPointsContainer->removeAt(1)); 173 } 152 } 174 delete (*seco->fpRichPointContainer)[0]; << 153 delete (*seco->fpRichPointsContainer)[0]; 175 seco->fpRichPointContainer->clear(); << 154 seco->fpRichPointsContainer->clear(); 176 } << 177 << 178 void G4RichTrajectory::ShowTrajectory(std::ost << 179 { << 180 // Invoke the default implementation in G4VT << 181 // << 182 G4VTrajectory::ShowTrajectory(os); << 183 << 184 // ... or override with your own code here. << 185 } << 186 << 187 void G4RichTrajectory::DrawTrajectory() const << 188 { << 189 // Invoke the default implementation in G4VT << 190 // << 191 G4VTrajectory::DrawTrajectory(); << 192 << 193 // ... or override with your own code here. << 194 } 155 } 195 156 196 const std::map<G4String, G4AttDef>* G4RichTraj << 157 const std::map<G4String,G4AttDef>* G4RichTrajectory::GetAttDefs() const 197 { 158 { 198 G4bool isNew; 159 G4bool isNew; 199 std::map<G4String, G4AttDef>* store = G4AttD << 160 std::map<G4String,G4AttDef>* store >> 161 = G4AttDefStore::GetInstance("G4RichTrajectory",isNew); 200 if (isNew) { 162 if (isNew) { 201 G4String ID; << 202 << 203 ID = "ID"; << 204 (*store)[ID] = G4AttDef(ID, "Track ID", "P << 205 << 206 ID = "PID"; << 207 (*store)[ID] = G4AttDef(ID, "Parent ID", " << 208 << 209 ID = "PN"; << 210 (*store)[ID] = G4AttDef(ID, "Particle Name << 211 << 212 ID = "Ch"; << 213 (*store)[ID] = G4AttDef(ID, "Charge", "Phy << 214 163 215 ID = "PDG"; << 164 // Get att defs from base class... 216 (*store)[ID] = G4AttDef(ID, "PDG Encoding" << 165 *store = *(G4Trajectory::GetAttDefs()); 217 166 218 ID = "IKE"; << 167 G4String ID; 219 (*store)[ID] = G4AttDef(ID, "Initial kinet << 220 << 221 ID = "IMom"; << 222 (*store)[ID] = G4AttDef(ID, "Initial momen << 223 << 224 ID = "IMag"; << 225 (*store)[ID] = G4AttDef(ID, "Initial momen << 226 << 227 ID = "NTP"; << 228 (*store)[ID] = G4AttDef(ID, "No. of points << 229 168 230 ID = "IVPath"; 169 ID = "IVPath"; 231 (*store)[ID] = G4AttDef(ID, "Initial Volum << 170 (*store)[ID] = G4AttDef(ID,"Initial Volume Path", >> 171 "Physics","","G4String"); 232 172 233 ID = "INVPath"; 173 ID = "INVPath"; 234 (*store)[ID] = G4AttDef(ID, "Initial Next << 174 (*store)[ID] = G4AttDef(ID,"Initial Next Volume Path", >> 175 "Physics","","G4String"); 235 176 236 ID = "CPN"; 177 ID = "CPN"; 237 (*store)[ID] = G4AttDef(ID, "Creator Proce << 178 (*store)[ID] = G4AttDef(ID,"Creator Process Name", >> 179 "Physics","","G4String"); 238 180 239 ID = "CPTN"; 181 ID = "CPTN"; 240 (*store)[ID] = G4AttDef(ID, "Creator Proce << 182 (*store)[ID] = G4AttDef(ID,"Creator Process Type Name", 241 << 183 "Physics","","G4String"); 242 ID = "CMID"; << 243 (*store)[ID] = G4AttDef(ID, "Creator Model << 244 << 245 ID = "CMN"; << 246 (*store)[ID] = G4AttDef(ID, "Creator Model << 247 184 248 ID = "FVPath"; 185 ID = "FVPath"; 249 (*store)[ID] = G4AttDef(ID, "Final Volume << 186 (*store)[ID] = G4AttDef(ID,"Final Volume Path", >> 187 "Physics","","G4String"); 250 188 251 ID = "FNVPath"; 189 ID = "FNVPath"; 252 (*store)[ID] = G4AttDef(ID, "Final Next Vo << 190 (*store)[ID] = G4AttDef(ID,"Final Next Volume Path", >> 191 "Physics","","G4String"); 253 192 254 ID = "EPN"; 193 ID = "EPN"; 255 (*store)[ID] = G4AttDef(ID, "Ending Proces << 194 (*store)[ID] = G4AttDef(ID,"Ending Process Name", >> 195 "Physics","","G4String"); 256 196 257 ID = "EPTN"; 197 ID = "EPTN"; 258 (*store)[ID] = G4AttDef(ID, "Ending Proces << 198 (*store)[ID] = G4AttDef(ID,"Ending Process Type Name", >> 199 "Physics","","G4String"); 259 200 260 ID = "FKE"; 201 ID = "FKE"; 261 (*store)[ID] = G4AttDef(ID, "Final kinetic << 202 (*store)[ID] = G4AttDef(ID,"Final kinetic energy", >> 203 "Physics","G4BestUnit","G4double"); >> 204 262 } 205 } 263 206 264 return store; 207 return store; 265 } 208 } 266 209 267 static G4String Path(const G4TouchableHandle& 210 static G4String Path(const G4TouchableHandle& th) 268 { 211 { 269 std::ostringstream oss; 212 std::ostringstream oss; 270 G4int depth = th->GetHistoryDepth(); 213 G4int depth = th->GetHistoryDepth(); 271 for (G4int i = depth; i >= 0; --i) { 214 for (G4int i = depth; i >= 0; --i) { 272 oss << th->GetVolume(i)->GetName() << ':' << 215 oss << th->GetVolume(i)->GetName() >> 216 << ':' << th->GetCopyNumber(i); 273 if (i != 0) oss << '/'; 217 if (i != 0) oss << '/'; 274 } 218 } 275 return oss.str(); 219 return oss.str(); 276 } 220 } 277 221 278 std::vector<G4AttValue>* G4RichTrajectory::Cre 222 std::vector<G4AttValue>* G4RichTrajectory::CreateAttValues() const 279 { 223 { 280 // Create base class att values... 224 // Create base class att values... 281 //std::vector<G4AttValue>* values = G4VTraje << 225 std::vector<G4AttValue>* values = G4Trajectory::CreateAttValues(); 282 auto values = new std::vector<G4AttValue>; << 226 283 values->push_back(G4AttValue("ID", G4UIcomma << 227 if (fpInitialVolume && fpInitialVolume->GetVolume()) { 284 values->push_back(G4AttValue("PID", G4UIcomm << 228 values->push_back(G4AttValue("IVPath",Path(fpInitialVolume),"")); 285 values->push_back(G4AttValue("PN", ParticleN << 229 } else { 286 values->push_back(G4AttValue("Ch", G4UIcomma << 230 values->push_back(G4AttValue("IVPath","None","")); 287 values->push_back(G4AttValue("PDG", G4UIcomm << 288 values->push_back(G4AttValue("IKE", G4BestUn << 289 values->push_back(G4AttValue("IMom", G4BestU << 290 values->push_back(G4AttValue("IMag", G4BestU << 291 values->push_back(G4AttValue("NTP", G4UIcomm << 292 << 293 if (fpInitialVolume && (fpInitialVolume->Get << 294 values->push_back(G4AttValue("IVPath", Pat << 295 } << 296 else { << 297 values->push_back(G4AttValue("IVPath", "No << 298 } << 299 << 300 if (fpInitialNextVolume && (fpInitialNextVol << 301 values->push_back(G4AttValue("INVPath", Pa << 302 } 231 } 303 else { << 232 304 values->push_back(G4AttValue("INVPath", "N << 233 if (fpInitialNextVolume && fpInitialNextVolume->GetVolume()) { >> 234 values->push_back(G4AttValue("INVPath",Path(fpInitialNextVolume),"")); >> 235 } else { >> 236 values->push_back(G4AttValue("INVPath","None","")); 305 } 237 } 306 238 307 if (fpCreatorProcess != nullptr) { << 239 if (fpCreatorProcess) { 308 values->push_back(G4AttValue("CPN", fpCrea << 240 values->push_back(G4AttValue("CPN",fpCreatorProcess->GetProcessName(),"")); 309 G4ProcessType type = fpCreatorProcess->Get 241 G4ProcessType type = fpCreatorProcess->GetProcessType(); 310 values->push_back(G4AttValue("CPTN", G4VPr << 242 values->push_back(G4AttValue("CPTN",G4VProcess::GetProcessTypeName(type),"")); 311 values->push_back(G4AttValue("CMID", G4UIc << 243 } else { 312 const G4String& creatorModelName = G4Physi << 244 values->push_back(G4AttValue("CPN","None","")); 313 values->push_back(G4AttValue("CMN", creato << 245 values->push_back(G4AttValue("CPTN","None","")); 314 } << 315 else { << 316 values->push_back(G4AttValue("CPN", "None" << 317 values->push_back(G4AttValue("CPTN", "None << 318 values->push_back(G4AttValue("CMID", "None << 319 values->push_back(G4AttValue("CMN", "None" << 320 } 246 } 321 247 322 if (fpFinalVolume && (fpFinalVolume->GetVolu << 248 if (fpFinalVolume && fpFinalVolume->GetVolume()) { 323 values->push_back(G4AttValue("FVPath", Pat << 249 values->push_back(G4AttValue("FVPath",Path(fpFinalVolume),"")); 324 } << 250 } else { 325 else { << 251 values->push_back(G4AttValue("FVPath","None","")); 326 values->push_back(G4AttValue("FVPath", "No << 327 } 252 } 328 253 329 if (fpFinalNextVolume && (fpFinalNextVolume- << 254 if (fpFinalNextVolume && fpFinalNextVolume->GetVolume()) { 330 values->push_back(G4AttValue("FNVPath", Pa << 255 values->push_back(G4AttValue("FNVPath",Path(fpFinalNextVolume),"")); 331 } << 256 } else { 332 else { << 257 values->push_back(G4AttValue("FNVPath","None","")); 333 values->push_back(G4AttValue("FNVPath", "N << 334 } 258 } 335 259 336 if (fpEndingProcess != nullptr) { << 260 if (fpEndingProcess) { 337 values->push_back(G4AttValue("EPN", fpEndi << 261 values->push_back(G4AttValue("EPN",fpEndingProcess->GetProcessName(),"")); 338 G4ProcessType type = fpEndingProcess->GetP 262 G4ProcessType type = fpEndingProcess->GetProcessType(); 339 values->push_back(G4AttValue("EPTN", G4VPr << 263 values->push_back(G4AttValue("EPTN",G4VProcess::GetProcessTypeName(type),"")); 340 } << 264 } else { 341 else { << 265 values->push_back(G4AttValue("EPN","None","")); 342 values->push_back(G4AttValue("EPN", "None" << 266 values->push_back(G4AttValue("EPTN","None","")); 343 values->push_back(G4AttValue("EPTN", "None << 344 } 267 } 345 268 346 values->push_back(G4AttValue("FKE", G4BestUn << 269 values->push_back >> 270 (G4AttValue("FKE",G4BestUnit(fFinalKineticEnergy,"Energy"),"")); 347 271 348 #ifdef G4ATTDEBUG 272 #ifdef G4ATTDEBUG 349 G4cout << G4AttCheck(values, GetAttDefs()); << 273 G4cout << G4AttCheck(values,GetAttDefs()); 350 #endif 274 #endif 351 275 352 return values; 276 return values; 353 } 277 } 354 << 355 G4ParticleDefinition* G4RichTrajectory::GetPar << 356 { << 357 return (G4ParticleTable::GetParticleTable()- << 358 } << 359 << 360 G4VTrajectory* G4RichTrajectory::CloneForMaste << 361 { << 362 G4AutoLock lock(&CloneRichTrajectoryMutex); << 363 auto* cloned = new G4ClonedRichTrajectory(*t << 364 return cloned; << 365 } << 366 << 367 278