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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 // G4RichTrajectoryPoint class implementation 26 // G4RichTrajectoryPoint class implementation 27 // 27 // 28 // Contact: 28 // Contact: 29 // Questions and comments on G4TrajectoryPoi 29 // Questions and comments on G4TrajectoryPoint, on which this is based, 30 // should be sent to 30 // should be sent to 31 // Katsuya Amako (e-mail: Katsuya.Amako@k 31 // Katsuya Amako (e-mail: Katsuya.Amako@kek.jp) 32 // Makoto Asai (e-mail: asai@slac.stanf 32 // Makoto Asai (e-mail: asai@slac.stanford.edu) 33 // Takashi Sasaki (e-mail: Takashi.Sasaki@ 33 // Takashi Sasaki (e-mail: Takashi.Sasaki@kek.jp) 34 // and on the extended code to: 34 // and on the extended code to: 35 // John Allison (e-mail: John.Allison@ma 35 // John Allison (e-mail: John.Allison@manchester.ac.uk) 36 // Joseph Perl (e-mail: perl@slac.stanf 36 // Joseph Perl (e-mail: perl@slac.stanford.edu) 37 // ------------------------------------------- 37 // -------------------------------------------------------------------- 38 38 39 #include "G4RichTrajectoryPoint.hh" 39 #include "G4RichTrajectoryPoint.hh" 40 40 41 #include "G4AttDef.hh" 41 #include "G4AttDef.hh" 42 #include "G4AttDefStore.hh" 42 #include "G4AttDefStore.hh" 43 #include "G4AttValue.hh" 43 #include "G4AttValue.hh" 44 #include "G4Step.hh" 44 #include "G4Step.hh" 45 #include "G4Track.hh" 45 #include "G4Track.hh" 46 #include "G4UIcommand.hh" << 47 #include "G4UnitsTable.hh" 46 #include "G4UnitsTable.hh" 48 #include "G4VProcess.hh" 47 #include "G4VProcess.hh" 49 48 50 // #define G4ATTDEBUG 49 // #define G4ATTDEBUG 51 #ifdef G4ATTDEBUG 50 #ifdef G4ATTDEBUG 52 # include "G4AttCheck.hh" 51 # include "G4AttCheck.hh" 53 #endif 52 #endif 54 53 55 #include <sstream> 54 #include <sstream> 56 55 57 G4Allocator<G4RichTrajectoryPoint>*& aRichTraj 56 G4Allocator<G4RichTrajectoryPoint>*& aRichTrajectoryPointAllocator() 58 { 57 { 59 G4ThreadLocalStatic G4Allocator<G4RichTrajec 58 G4ThreadLocalStatic G4Allocator<G4RichTrajectoryPoint>* _instance = nullptr; 60 return _instance; 59 return _instance; 61 } 60 } 62 61 63 G4RichTrajectoryPoint::G4RichTrajectoryPoint() 62 G4RichTrajectoryPoint::G4RichTrajectoryPoint() = default; 64 63 65 G4RichTrajectoryPoint::G4RichTrajectoryPoint(c 64 G4RichTrajectoryPoint::G4RichTrajectoryPoint(const G4Track* aTrack) 66 : fPosition(aTrack->GetPosition()), << 65 : G4TrajectoryPoint(aTrack->GetPosition()), 67 fPreStepPointGlobalTime(aTrack->GetGlobalT 66 fPreStepPointGlobalTime(aTrack->GetGlobalTime()), 68 fPostStepPointGlobalTime(aTrack->GetGlobal 67 fPostStepPointGlobalTime(aTrack->GetGlobalTime()), 69 fpPreStepPointVolume(aTrack->GetTouchableH 68 fpPreStepPointVolume(aTrack->GetTouchableHandle()), 70 fpPostStepPointVolume(aTrack->GetNextTouch 69 fpPostStepPointVolume(aTrack->GetNextTouchableHandle()), 71 fPreStepPointWeight(aTrack->GetWeight()), 70 fPreStepPointWeight(aTrack->GetWeight()), 72 fPostStepPointWeight(aTrack->GetWeight()) 71 fPostStepPointWeight(aTrack->GetWeight()) 73 {} 72 {} 74 73 75 G4RichTrajectoryPoint::G4RichTrajectoryPoint(c 74 G4RichTrajectoryPoint::G4RichTrajectoryPoint(const G4Step* aStep) 76 : fPosition(aStep->GetPostStepPoint()->GetPo << 75 : G4TrajectoryPoint(aStep->GetPostStepPoint()->GetPosition()), 77 fpAuxiliaryPointVector(aStep->GetPointerTo 76 fpAuxiliaryPointVector(aStep->GetPointerToVectorOfAuxiliaryPoints()), 78 fTotEDep(aStep->GetTotalEnergyDeposit()) 77 fTotEDep(aStep->GetTotalEnergyDeposit()) 79 { 78 { 80 G4StepPoint* preStepPoint = aStep->GetPreSte 79 G4StepPoint* preStepPoint = aStep->GetPreStepPoint(); 81 G4StepPoint* postStepPoint = aStep->GetPostS 80 G4StepPoint* postStepPoint = aStep->GetPostStepPoint(); 82 if (aStep->GetTrack()->GetCurrentStepNumber( 81 if (aStep->GetTrack()->GetCurrentStepNumber() <= 0) // First step 83 { 82 { 84 fRemainingEnergy = aStep->GetTrack()->GetK 83 fRemainingEnergy = aStep->GetTrack()->GetKineticEnergy(); 85 } 84 } 86 else { 85 else { 87 fRemainingEnergy = preStepPoint->GetKineti 86 fRemainingEnergy = preStepPoint->GetKineticEnergy() - fTotEDep; 88 } 87 } 89 fpProcess = postStepPoint->GetProcessDefined 88 fpProcess = postStepPoint->GetProcessDefinedStep(); 90 fPreStepPointStatus = preStepPoint->GetStepS 89 fPreStepPointStatus = preStepPoint->GetStepStatus(); 91 fPostStepPointStatus = postStepPoint->GetSte 90 fPostStepPointStatus = postStepPoint->GetStepStatus(); 92 fPreStepPointGlobalTime = preStepPoint->GetG 91 fPreStepPointGlobalTime = preStepPoint->GetGlobalTime(); 93 fPostStepPointGlobalTime = postStepPoint->Ge 92 fPostStepPointGlobalTime = postStepPoint->GetGlobalTime(); 94 fpPreStepPointVolume = preStepPoint->GetTouc 93 fpPreStepPointVolume = preStepPoint->GetTouchableHandle(); 95 fpPostStepPointVolume = postStepPoint->GetTo 94 fpPostStepPointVolume = postStepPoint->GetTouchableHandle(); 96 fPreStepPointWeight = preStepPoint->GetWeigh 95 fPreStepPointWeight = preStepPoint->GetWeight(); 97 fPostStepPointWeight = postStepPoint->GetWei 96 fPostStepPointWeight = postStepPoint->GetWeight(); 98 } 97 } 99 98 100 // This is certainly wrong. the fpAuxiliaryPoi 99 // This is certainly wrong. the fpAuxiliaryPointVector is owned by this class, 101 // and must be deep copied. Note also the copy 100 // and must be deep copied. Note also the copy-assignment operator is deleted. 102 // However, G4RichTrajectory requires a copy c 101 // However, G4RichTrajectory requires a copy constructor.... 103 G4RichTrajectoryPoint::G4RichTrajectoryPoint(c 102 G4RichTrajectoryPoint::G4RichTrajectoryPoint(const G4RichTrajectoryPoint& r) = default; 104 103 105 G4RichTrajectoryPoint::~G4RichTrajectoryPoint( 104 G4RichTrajectoryPoint::~G4RichTrajectoryPoint() { delete fpAuxiliaryPointVector; } 106 105 107 const std::map<G4String, G4AttDef>* G4RichTraj 106 const std::map<G4String, G4AttDef>* G4RichTrajectoryPoint::GetAttDefs() const 108 { 107 { 109 G4bool isNew; 108 G4bool isNew; 110 std::map<G4String, G4AttDef>* store = G4AttD 109 std::map<G4String, G4AttDef>* store = G4AttDefStore::GetInstance("G4RichTrajectoryPoint", isNew); 111 if (isNew) { 110 if (isNew) { >> 111 // Copy base class att defs... >> 112 *store = *(G4TrajectoryPoint::GetAttDefs()); >> 113 112 G4String ID; 114 G4String ID; 113 115 114 ID = "Pos"; << 115 (*store)[ID] = G4AttDef(ID, "Position", "P << 116 ID = "Aux"; 116 ID = "Aux"; 117 (*store)[ID] = 117 (*store)[ID] = 118 G4AttDef(ID, "Auxiliary Point Position", 118 G4AttDef(ID, "Auxiliary Point Position", "Physics", "G4BestUnit", "G4ThreeVector"); 119 ID = "TED"; 119 ID = "TED"; 120 (*store)[ID] = G4AttDef(ID, "Total Energy 120 (*store)[ID] = G4AttDef(ID, "Total Energy Deposit", "Physics", "G4BestUnit", "G4double"); 121 ID = "RE"; 121 ID = "RE"; 122 (*store)[ID] = G4AttDef(ID, "Remaining Ene 122 (*store)[ID] = G4AttDef(ID, "Remaining Energy", "Physics", "G4BestUnit", "G4double"); 123 ID = "PDS"; 123 ID = "PDS"; 124 (*store)[ID] = G4AttDef(ID, "Process Defin 124 (*store)[ID] = G4AttDef(ID, "Process Defined Step", "Physics", "", "G4String"); 125 ID = "PTDS"; 125 ID = "PTDS"; 126 (*store)[ID] = G4AttDef(ID, "Process Type 126 (*store)[ID] = G4AttDef(ID, "Process Type Defined Step", "Physics", "", "G4String"); 127 ID = "PreStatus"; 127 ID = "PreStatus"; 128 (*store)[ID] = G4AttDef(ID, "Pre-step-poin 128 (*store)[ID] = G4AttDef(ID, "Pre-step-point status", "Physics", "", "G4String"); 129 ID = "PostStatus"; 129 ID = "PostStatus"; 130 (*store)[ID] = G4AttDef(ID, "Post-step-poi 130 (*store)[ID] = G4AttDef(ID, "Post-step-point status", "Physics", "", "G4String"); 131 ID = "PreT"; 131 ID = "PreT"; 132 (*store)[ID] = G4AttDef(ID, "Pre-step-poin 132 (*store)[ID] = G4AttDef(ID, "Pre-step-point global time", "Physics", "G4BestUnit", "G4double"); 133 ID = "PostT"; 133 ID = "PostT"; 134 (*store)[ID] = G4AttDef(ID, "Post-step-poi 134 (*store)[ID] = G4AttDef(ID, "Post-step-point global time", "Physics", "G4BestUnit", "G4double"); 135 ID = "PreVPath"; 135 ID = "PreVPath"; 136 (*store)[ID] = G4AttDef(ID, "Pre-step Volu 136 (*store)[ID] = G4AttDef(ID, "Pre-step Volume Path", "Physics", "", "G4String"); 137 ID = "PostVPath"; 137 ID = "PostVPath"; 138 (*store)[ID] = G4AttDef(ID, "Post-step Vol 138 (*store)[ID] = G4AttDef(ID, "Post-step Volume Path", "Physics", "", "G4String"); 139 ID = "PreW"; 139 ID = "PreW"; 140 (*store)[ID] = G4AttDef(ID, "Pre-step-poin 140 (*store)[ID] = G4AttDef(ID, "Pre-step-point weight", "Physics", "", "G4double"); 141 ID = "PostW"; 141 ID = "PostW"; 142 (*store)[ID] = G4AttDef(ID, "Post-step-poi 142 (*store)[ID] = G4AttDef(ID, "Post-step-point weight", "Physics", "", "G4double"); 143 } 143 } 144 return store; 144 return store; 145 } 145 } 146 146 147 static G4String Status(G4StepStatus stps) 147 static G4String Status(G4StepStatus stps) 148 { 148 { 149 G4String status; 149 G4String status; 150 switch (stps) { 150 switch (stps) { 151 case fWorldBoundary: 151 case fWorldBoundary: 152 status = "fWorldBoundary"; 152 status = "fWorldBoundary"; 153 break; 153 break; 154 case fGeomBoundary: 154 case fGeomBoundary: 155 status = "fGeomBoundary"; 155 status = "fGeomBoundary"; 156 break; 156 break; 157 case fAtRestDoItProc: 157 case fAtRestDoItProc: 158 status = "fAtRestDoItProc"; 158 status = "fAtRestDoItProc"; 159 break; 159 break; 160 case fAlongStepDoItProc: 160 case fAlongStepDoItProc: 161 status = "fAlongStepDoItProc"; 161 status = "fAlongStepDoItProc"; 162 break; 162 break; 163 case fPostStepDoItProc: 163 case fPostStepDoItProc: 164 status = "fPostStepDoItProc"; 164 status = "fPostStepDoItProc"; 165 break; 165 break; 166 case fUserDefinedLimit: 166 case fUserDefinedLimit: 167 status = "fUserDefinedLimit"; 167 status = "fUserDefinedLimit"; 168 break; 168 break; 169 case fExclusivelyForcedProc: 169 case fExclusivelyForcedProc: 170 status = "fExclusivelyForcedProc"; 170 status = "fExclusivelyForcedProc"; 171 break; 171 break; 172 case fUndefined: 172 case fUndefined: 173 status = "fUndefined"; 173 status = "fUndefined"; 174 break; 174 break; 175 default: 175 default: 176 status = "Not recognised"; 176 status = "Not recognised"; 177 break; 177 break; 178 } 178 } 179 return status; 179 return status; 180 } 180 } 181 181 182 static G4String Path(const G4TouchableHandle& 182 static G4String Path(const G4TouchableHandle& th) 183 { 183 { 184 std::ostringstream oss; 184 std::ostringstream oss; 185 G4int depth = th->GetHistoryDepth(); 185 G4int depth = th->GetHistoryDepth(); 186 for (G4int i = depth; i >= 0; --i) { 186 for (G4int i = depth; i >= 0; --i) { 187 oss << th->GetVolume(i)->GetName() << ':' 187 oss << th->GetVolume(i)->GetName() << ':' << th->GetCopyNumber(i); 188 if (i != 0) oss << '/'; 188 if (i != 0) oss << '/'; 189 } 189 } 190 return oss.str(); 190 return oss.str(); 191 } 191 } 192 192 193 std::vector<G4AttValue>* G4RichTrajectoryPoint 193 std::vector<G4AttValue>* G4RichTrajectoryPoint::CreateAttValues() const 194 { 194 { 195 // Create base class att values... 195 // Create base class att values... 196 196 197 auto values = new std::vector<G4AttValue>; << 197 std::vector<G4AttValue>* values = G4TrajectoryPoint::CreateAttValues(); 198 values->push_back(G4AttValue("Pos", G4BestUn << 199 << 200 #ifdef G4ATTDEBUG << 201 G4cout << G4AttCheck(values, GetAttDefs()); << 202 #endif << 203 198 204 if (fpAuxiliaryPointVector != nullptr) { 199 if (fpAuxiliaryPointVector != nullptr) { 205 for (const auto& iAux : *fpAuxiliaryPointV 200 for (const auto& iAux : *fpAuxiliaryPointVector) { 206 values->push_back(G4AttValue("Aux", G4Be 201 values->push_back(G4AttValue("Aux", G4BestUnit(iAux, "Length"), "")); 207 } 202 } 208 } 203 } 209 204 210 values->push_back(G4AttValue("TED", G4BestUn 205 values->push_back(G4AttValue("TED", G4BestUnit(fTotEDep, "Energy"), "")); 211 values->push_back(G4AttValue("RE", G4BestUni 206 values->push_back(G4AttValue("RE", G4BestUnit(fRemainingEnergy, "Energy"), "")); 212 207 213 if (fpProcess != nullptr) { 208 if (fpProcess != nullptr) { 214 values->push_back(G4AttValue("PDS", fpProc 209 values->push_back(G4AttValue("PDS", fpProcess->GetProcessName(), "")); 215 values->push_back( 210 values->push_back( 216 G4AttValue("PTDS", G4VProcess::GetProces 211 G4AttValue("PTDS", G4VProcess::GetProcessTypeName(fpProcess->GetProcessType()), "")); 217 } 212 } 218 else { 213 else { 219 values->push_back(G4AttValue("PDS", "None" 214 values->push_back(G4AttValue("PDS", "None", "")); 220 values->push_back(G4AttValue("PTDS", "None 215 values->push_back(G4AttValue("PTDS", "None", "")); 221 } 216 } 222 217 223 values->push_back(G4AttValue("PreStatus", St 218 values->push_back(G4AttValue("PreStatus", Status(fPreStepPointStatus), "")); 224 219 225 values->push_back(G4AttValue("PostStatus", S 220 values->push_back(G4AttValue("PostStatus", Status(fPostStepPointStatus), "")); 226 221 227 values->push_back(G4AttValue("PreT", G4BestU 222 values->push_back(G4AttValue("PreT", G4BestUnit(fPreStepPointGlobalTime, "Time"), "")); 228 223 229 values->push_back(G4AttValue("PostT", G4Best 224 values->push_back(G4AttValue("PostT", G4BestUnit(fPostStepPointGlobalTime, "Time"), "")); 230 225 231 if (fpPreStepPointVolume && (fpPreStepPointV 226 if (fpPreStepPointVolume && (fpPreStepPointVolume->GetVolume() != nullptr)) { 232 values->push_back(G4AttValue("PreVPath", P 227 values->push_back(G4AttValue("PreVPath", Path(fpPreStepPointVolume), "")); 233 } 228 } 234 else { 229 else { 235 values->push_back(G4AttValue("PreVPath", " 230 values->push_back(G4AttValue("PreVPath", "None", "")); 236 } 231 } 237 232 238 if (fpPostStepPointVolume && (fpPostStepPoin 233 if (fpPostStepPointVolume && (fpPostStepPointVolume->GetVolume() != nullptr)) { 239 values->push_back(G4AttValue("PostVPath", 234 values->push_back(G4AttValue("PostVPath", Path(fpPostStepPointVolume), "")); 240 } 235 } 241 else { 236 else { 242 values->push_back(G4AttValue("PostVPath", 237 values->push_back(G4AttValue("PostVPath", "None", "")); 243 } 238 } 244 239 245 std::ostringstream oss1; 240 std::ostringstream oss1; 246 oss1 << fPreStepPointWeight; 241 oss1 << fPreStepPointWeight; 247 values->push_back(G4AttValue("PreW", oss1.st 242 values->push_back(G4AttValue("PreW", oss1.str(), "")); 248 243 249 std::ostringstream oss2; 244 std::ostringstream oss2; 250 oss2 << fPostStepPointWeight; 245 oss2 << fPostStepPointWeight; 251 values->push_back(G4AttValue("PostW", oss2.s 246 values->push_back(G4AttValue("PostW", oss2.str(), "")); 252 247 253 #ifdef G4ATTDEBUG 248 #ifdef G4ATTDEBUG 254 G4cout << G4AttCheck(values, GetAttDefs()); 249 G4cout << G4AttCheck(values, GetAttDefs()); 255 #endif 250 #endif 256 251 257 return values; 252 return values; 258 } 253 } 259 254