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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 // 26 // 27 // Author: Mathieu Karamitros 27 // Author: Mathieu Karamitros 28 28 29 // The code is developed in the framework of t 29 // The code is developed in the framework of the ESA AO7146 30 // 30 // 31 // We would be very happy hearing from you, se 31 // We would be very happy hearing from you, send us your feedback! :) 32 // 32 // 33 // In order for Geant4-DNA to be maintained an 33 // In order for Geant4-DNA to be maintained and still open-source, 34 // article citations are crucial. 34 // article citations are crucial. 35 // If you use Geant4-DNA chemistry and you pub 35 // If you use Geant4-DNA chemistry and you publish papers about your software, 36 // in addition to the general paper on Geant4- 36 // in addition to the general paper on Geant4-DNA: 37 // 37 // 38 // Int. J. Model. Simul. Sci. Comput. 1 (2010) 38 // Int. J. Model. Simul. Sci. Comput. 1 (2010) 157–178 39 // 39 // 40 // we would be very happy if you could please 40 // we would be very happy if you could please also cite the following 41 // reference papers on chemistry: 41 // reference papers on chemistry: 42 // 42 // 43 // J. Comput. Phys. 274 (2014) 841-882 43 // J. Comput. Phys. 274 (2014) 841-882 44 // Prog. Nucl. Sci. Tec. 2 (2011) 503-508 44 // Prog. Nucl. Sci. Tec. 2 (2011) 503-508 45 45 46 #ifndef G4ITSTEPPROCESSOR_H 46 #ifndef G4ITSTEPPROCESSOR_H 47 #define G4ITSTEPPROCESSOR_H 47 #define G4ITSTEPPROCESSOR_H 48 48 49 #include "G4ios.hh" // Inclu 49 #include "G4ios.hh" // Include from 'system' 50 #include "globals.hh" // Inclu 50 #include "globals.hh" // Include from 'global' 51 #include "Randomize.hh" // Inclu 51 #include "Randomize.hh" // Include from 'global' 52 52 53 #include "G4LogicalVolume.hh" // Inclu 53 #include "G4LogicalVolume.hh" // Include from 'geometry' 54 #include "G4VPhysicalVolume.hh" // Inclu 54 #include "G4VPhysicalVolume.hh" // Include from 'geometry' 55 #include "G4ProcessManager.hh" // Inclu 55 #include "G4ProcessManager.hh" // Include from 'piim' 56 56 57 #include "G4Track.hh" // Inclu 57 #include "G4Track.hh" // Include from 'track' 58 #include "G4TrackVector.hh" // Inclu 58 #include "G4TrackVector.hh" // Include from 'track' 59 #include "G4TrackStatus.hh" // Inclu 59 #include "G4TrackStatus.hh" // Include from 'track' 60 #include "G4StepStatus.hh" // Inclu 60 #include "G4StepStatus.hh" // Include from 'track' >> 61 //#include "G4UserSteppingAction.hh" // Include from 'tracking' >> 62 //#include "G4UserTrackingAction.hh" // Include from 'tracking' 61 #include "G4Step.hh" // Inclu 63 #include "G4Step.hh" // Include from 'track' 62 #include "G4StepPoint.hh" // Inclu 64 #include "G4StepPoint.hh" // Include from 'track' 63 #include "G4TouchableHandle.hh" // Inclu << 65 #include "G4TouchableHandle.hh" // Include from 'geometry' >> 66 #include "G4TouchableHistoryHandle.hh" // Include from 'geometry' 64 67 65 #include "G4ITStepProcessorState_Lock.hh" 68 #include "G4ITStepProcessorState_Lock.hh" 66 #include "G4ITLeadingTracks.hh" 69 #include "G4ITLeadingTracks.hh" 67 70 68 #include <vector> << 69 << 70 class G4ITNavigator; 71 class G4ITNavigator; 71 class G4ParticleDefinition; 72 class G4ParticleDefinition; 72 class G4ITTrackingManager; 73 class G4ITTrackingManager; 73 class G4IT; 74 class G4IT; 74 class G4TrackingInformation; 75 class G4TrackingInformation; 75 class G4ITTransportation; 76 class G4ITTransportation; 76 class G4VITProcess; 77 class G4VITProcess; 77 class G4VITSteppingVerbose; 78 class G4VITSteppingVerbose; 78 class G4ITTrackHolder; 79 class G4ITTrackHolder; 79 using G4SelectedAtRestDoItVector = std::vector << 80 typedef class std::vector<int, std::allocator<int> > G4SelectedAtRestDoItVector; 80 using G4SelectedAlongStepDoItVector = std::vec << 81 typedef class std::vector<int, std::allocator<int> > G4SelectedAlongStepDoItVector; 81 using G4SelectedPostStepDoItVector = std::vect << 82 typedef class std::vector<int, std::allocator<int> > G4SelectedPostStepDoItVector; 82 83 83 //____________________________________________ 84 //________________________________________________ 84 // 85 // 85 // Members related to ParticleDefinition and n 86 // Members related to ParticleDefinition and not 86 // proper to a track 87 // proper to a track 87 //____________________________________________ 88 //________________________________________________ 88 struct ProcessGeneralInfo 89 struct ProcessGeneralInfo 89 { 90 { 90 G4ProcessVector* fpAtRestDoItVector; 91 G4ProcessVector* fpAtRestDoItVector; 91 G4ProcessVector* fpAlongStepDoItVector; 92 G4ProcessVector* fpAlongStepDoItVector; 92 G4ProcessVector* fpPostStepDoItVector; 93 G4ProcessVector* fpPostStepDoItVector; 93 94 94 G4ProcessVector* fpAtRestGetPhysIntVector; 95 G4ProcessVector* fpAtRestGetPhysIntVector; 95 G4ProcessVector* fpAlongStepGetPhysIntVector 96 G4ProcessVector* fpAlongStepGetPhysIntVector; 96 G4ProcessVector* fpPostStepGetPhysIntVector; 97 G4ProcessVector* fpPostStepGetPhysIntVector; 97 // 98 // 98 // Note: DoItVector has inverse order agains 99 // Note: DoItVector has inverse order against GetPhysIntVector 99 // and SelectedPostStepDoItVector. 100 // and SelectedPostStepDoItVector. 100 // 101 // 101 // * Max number of processes 102 // * Max number of processes 102 std::size_t MAXofAtRestLoops; << 103 size_t MAXofAtRestLoops; 103 std::size_t MAXofAlongStepLoops; << 104 size_t MAXofAlongStepLoops; 104 std::size_t MAXofPostStepLoops; << 105 size_t MAXofPostStepLoops; 105 // Maximum number of processes for each type 106 // Maximum number of processes for each type of process 106 // These depend on the G4ParticleDefinition, 107 // These depend on the G4ParticleDefinition, so on the track 107 108 108 // * Transportation process 109 // * Transportation process 109 G4ITTransportation* fpTransportation; 110 G4ITTransportation* fpTransportation; 110 }; 111 }; 111 112 112 //____________________________________________ 113 //________________________________________________ 113 // 114 // 114 // Members proper to a track 115 // Members proper to a track 115 //____________________________________________ 116 //________________________________________________ 116 class G4ITStepProcessorState : public G4ITStep 117 class G4ITStepProcessorState : public G4ITStepProcessorState_Lock 117 { 118 { 118 public: 119 public: 119 G4ITStepProcessorState(); 120 G4ITStepProcessorState(); 120 ~G4ITStepProcessorState() override; << 121 virtual ~G4ITStepProcessorState(); 121 122 122 G4ITStepProcessorState(const G4ITStepProcess 123 G4ITStepProcessorState(const G4ITStepProcessorState&); 123 G4ITStepProcessorState& operator=(const G4IT 124 G4ITStepProcessorState& operator=(const G4ITStepProcessorState&); 124 125 125 // * Max Number of Process 126 // * Max Number of Process 126 G4SelectedAtRestDoItVector fSelectedAtRestDo 127 G4SelectedAtRestDoItVector fSelectedAtRestDoItVector; 127 G4SelectedPostStepDoItVector fSelectedPostSt 128 G4SelectedPostStepDoItVector fSelectedPostStepDoItVector; 128 129 129 G4double fPhysicalStep; 130 G4double fPhysicalStep; 130 G4double fPreviousStepSize; 131 G4double fPreviousStepSize; 131 G4double fSafety; 132 G4double fSafety; 132 133 133 G4StepStatus fStepStatus; 134 G4StepStatus fStepStatus; 134 135 135 // * Safety 136 // * Safety 136 G4double fProposedSafety; 137 G4double fProposedSafety; 137 // This keeps the minimum safety value propo 138 // This keeps the minimum safety value proposed by AlongStepGPILs. 138 G4ThreeVector fEndpointSafOrigin; 139 G4ThreeVector fEndpointSafOrigin; 139 G4double fEndpointSafety; 140 G4double fEndpointSafety; 140 // To get the true safety value at the PostS 141 // To get the true safety value at the PostStepPoint, you have 141 // to subtract the distance to 'endpointSafO 142 // to subtract the distance to 'endpointSafOrigin' from this value. 142 143 143 G4TouchableHandle fTouchableHandle; 144 G4TouchableHandle fTouchableHandle; 144 }; 145 }; 145 146 146 /** 147 /** 147 * Its role is the same as G4StepManager : 148 * Its role is the same as G4StepManager : 148 * - Find the minimum physical length and corr 149 * - Find the minimum physical length and corresponding time step 149 * - Step one track BUT on a given time step. 150 * - Step one track BUT on a given time step. 150 */ 151 */ 151 152 152 class G4ITStepProcessor 153 class G4ITStepProcessor 153 { 154 { 154 friend class G4Scheduler; 155 friend class G4Scheduler; 155 public: 156 public: 156 G4ITStepProcessor(); 157 G4ITStepProcessor(); 157 virtual ~G4ITStepProcessor(); 158 virtual ~G4ITStepProcessor(); 158 159 159 inline void SetPreviousStepTime(G4double); 160 inline void SetPreviousStepTime(G4double); 160 161 161 inline G4Track* GetTrack() 162 inline G4Track* GetTrack() 162 { 163 { 163 return fpTrack; 164 return fpTrack; 164 } 165 } 165 inline G4Step* GetStep() 166 inline G4Step* GetStep() 166 { 167 { 167 return fpStep; 168 return fpStep; 168 } 169 } 169 inline const G4Step* GetStep() const 170 inline const G4Step* GetStep() const 170 { 171 { 171 return fpStep; 172 return fpStep; 172 } 173 } 173 inline void SetStep(G4Step* val) 174 inline void SetStep(G4Step* val) 174 { 175 { 175 fpStep = val; 176 fpStep = val; 176 } 177 } 177 178 178 inline G4TrackVector* GetSecondaries() const 179 inline G4TrackVector* GetSecondaries() const 179 { 180 { 180 return fpSecondary; 181 return fpSecondary; 181 } 182 } 182 inline void SetTrackingManager(G4ITTrackingM 183 inline void SetTrackingManager(G4ITTrackingManager* trackMan) 183 { 184 { 184 fpTrackingManager = trackMan; 185 fpTrackingManager = trackMan; 185 } 186 } 186 inline G4ITTrackingManager* GetTrackingManag 187 inline G4ITTrackingManager* GetTrackingManager() 187 { 188 { 188 return fpTrackingManager; 189 return fpTrackingManager; 189 } 190 } 190 191 191 //___________________________________ 192 //___________________________________ 192 193 193 virtual void Initialize(); 194 virtual void Initialize(); 194 void ForceReInitialization(); 195 void ForceReInitialization(); 195 196 196 void ResetLeadingTracks(); 197 void ResetLeadingTracks(); 197 void PrepareLeadingTracks(); 198 void PrepareLeadingTracks(); 198 199 199 //___________________________________ 200 //___________________________________ 200 G4double ComputeInteractionLength(double pre 201 G4double ComputeInteractionLength(double previousTimeStep); 201 void DefinePhysicalStepLength(G4Track*); 202 void DefinePhysicalStepLength(G4Track*); 202 G4double GetILTimeStep() 203 G4double GetILTimeStep() 203 { 204 { 204 return fILTimeStep; 205 return fILTimeStep; 205 } 206 } 206 207 207 //___________________________________ 208 //___________________________________ 208 // DoIt 209 // DoIt 209 void DoIt(double timeStep); 210 void DoIt(double timeStep); 210 void ExtractDoItData(); 211 void ExtractDoItData(); 211 void Stepping(G4Track*, const double&); 212 void Stepping(G4Track*, const double&); 212 void FindTransportationStep(); 213 void FindTransportationStep(); 213 //___________________________________ 214 //___________________________________ 214 215 215 inline double GetInteractionTime(); 216 inline double GetInteractionTime(); 216 inline const G4Track* GetTrack() const; 217 inline const G4Track* GetTrack() const; 217 inline void CleanProcessor(); 218 inline void CleanProcessor(); 218 219 219 std::size_t GetAtRestDoItProcTriggered() con << 220 size_t GetAtRestDoItProcTriggered() const 220 { 221 { 221 return fAtRestDoItProcTriggered; 222 return fAtRestDoItProcTriggered; 222 } 223 } 223 224 224 G4GPILSelection GetGPILSelection() const 225 G4GPILSelection GetGPILSelection() const 225 { 226 { 226 return fGPILSelection; 227 return fGPILSelection; 227 } 228 } 228 229 229 G4int GetN2ndariesAlongStepDoIt() const 230 G4int GetN2ndariesAlongStepDoIt() const 230 { 231 { 231 return fN2ndariesAlongStepDoIt; 232 return fN2ndariesAlongStepDoIt; 232 } 233 } 233 234 234 G4int GetN2ndariesAtRestDoIt() const 235 G4int GetN2ndariesAtRestDoIt() const 235 { 236 { 236 return fN2ndariesAtRestDoIt; 237 return fN2ndariesAtRestDoIt; 237 } 238 } 238 239 239 G4int GetN2ndariesPostStepDoIt() const 240 G4int GetN2ndariesPostStepDoIt() const 240 { 241 { 241 return fN2ndariesPostStepDoIt; 242 return fN2ndariesPostStepDoIt; 242 } 243 } 243 244 244 const G4VITProcess* GetCurrentProcess() cons 245 const G4VITProcess* GetCurrentProcess() const 245 { 246 { 246 return fpCurrentProcess; 247 return fpCurrentProcess; 247 } 248 } 248 249 249 G4double GetPhysIntLength() const 250 G4double GetPhysIntLength() const 250 { 251 { 251 return fPhysIntLength; 252 return fPhysIntLength; 252 } 253 } 253 254 254 std::size_t GetPostStepAtTimeDoItProcTrigger << 255 size_t GetPostStepAtTimeDoItProcTriggered() const 255 { 256 { 256 return fPostStepAtTimeDoItProcTriggered; 257 return fPostStepAtTimeDoItProcTriggered; 257 } 258 } 258 259 259 std::size_t GetPostStepDoItProcTriggered() c << 260 size_t GetPostStepDoItProcTriggered() const 260 { 261 { 261 return fPostStepDoItProcTriggered; 262 return fPostStepDoItProcTriggered; 262 } 263 } 263 264 264 const ProcessGeneralInfo* GetCurrentProcessI 265 const ProcessGeneralInfo* GetCurrentProcessInfo() const 265 { 266 { 266 return fpProcessInfo; 267 return fpProcessInfo; 267 } 268 } 268 269 269 const G4ITStepProcessorState* GetProcessorSt 270 const G4ITStepProcessorState* GetProcessorState() const 270 { 271 { 271 return fpState; 272 return fpState; 272 } 273 } 273 274 274 const G4VParticleChange* GetParticleChange() 275 const G4VParticleChange* GetParticleChange() const 275 { 276 { 276 return fpParticleChange; 277 return fpParticleChange; 277 } 278 } 278 279 279 const G4VPhysicalVolume* GetCurrentVolume() 280 const G4VPhysicalVolume* GetCurrentVolume() const 280 { 281 { 281 return fpCurrentVolume; 282 return fpCurrentVolume; 282 } 283 } 283 284 284 G4ForceCondition GetCondition() const 285 G4ForceCondition GetCondition() const 285 { 286 { 286 return fCondition; 287 return fCondition; 287 } 288 } 288 289 289 protected: 290 protected: 290 291 291 void ExtractILData(); 292 void ExtractILData(); 292 293 293 void SetupGeneralProcessInfo(G4ParticleDefin 294 void SetupGeneralProcessInfo(G4ParticleDefinition*, G4ProcessManager*); 294 void ClearProcessInfo(); 295 void ClearProcessInfo(); 295 void SetTrack(G4Track*); 296 void SetTrack(G4Track*); 296 297 297 void GetProcessInfo(); 298 void GetProcessInfo(); 298 299 299 void SetupMembers(); 300 void SetupMembers(); 300 void ResetSecondaries(); 301 void ResetSecondaries(); 301 void InitDefineStep(); 302 void InitDefineStep(); 302 303 303 void SetInitialStep(); 304 void SetInitialStep(); 304 305 305 void GetAtRestIL(); 306 void GetAtRestIL(); 306 void DoDefinePhysicalStepLength(); 307 void DoDefinePhysicalStepLength(); 307 void DoStepping(); 308 void DoStepping(); 308 void PushSecondaries(); 309 void PushSecondaries(); 309 310 310 // void CalculateStep(); 311 // void CalculateStep(); 311 // void DoCalculateStep(); 312 // void DoCalculateStep(); 312 313 313 // void CloneProcesses(); 314 // void CloneProcesses(); 314 void ActiveOnlyITProcess(); 315 void ActiveOnlyITProcess(); 315 void ActiveOnlyITProcess(G4ProcessManager*); 316 void ActiveOnlyITProcess(G4ProcessManager*); 316 317 317 void DealWithSecondaries(G4int&); 318 void DealWithSecondaries(G4int&); 318 void InvokeAtRestDoItProcs(); 319 void InvokeAtRestDoItProcs(); 319 void InvokeAlongStepDoItProcs(); 320 void InvokeAlongStepDoItProcs(); 320 void InvokePostStepDoItProcs(); 321 void InvokePostStepDoItProcs(); 321 void InvokePSDIP(std::size_t); // << 322 void InvokePSDIP(size_t); // 322 void InvokeTransportationProc(); 323 void InvokeTransportationProc(); 323 void SetNavigator(G4ITNavigator *value); 324 void SetNavigator(G4ITNavigator *value); 324 G4double CalculateSafety(); 325 G4double CalculateSafety(); 325 326 326 // Return the estimated safety value at the 327 // Return the estimated safety value at the PostStepPoint 327 void ApplyProductionCut(G4Track*); 328 void ApplyProductionCut(G4Track*); 328 329 329 G4ITStepProcessor(const G4ITStepProcessor& o 330 G4ITStepProcessor(const G4ITStepProcessor& other); 330 G4ITStepProcessor& operator=(const G4ITStepP 331 G4ITStepProcessor& operator=(const G4ITStepProcessor& other); 331 332 332 private: 333 private: 333 //__________________________________________ 334 //________________________________________________ 334 // 335 // 335 // General members 336 // General members 336 //__________________________________________ 337 //________________________________________________ 337 338 338 G4bool fInitialized; 339 G4bool fInitialized; 339 340 340 G4ITTrackingManager* fpTrackingManager; 341 G4ITTrackingManager* fpTrackingManager; 341 342 342 G4double kCarTolerance; 343 G4double kCarTolerance; 343 // Cached geometrical tolerance on surface 344 // Cached geometrical tolerance on surface 344 345 345 G4ITNavigator* fpNavigator; 346 G4ITNavigator* fpNavigator; 346 G4int fStoreTrajectory; 347 G4int fStoreTrajectory; 347 G4VITSteppingVerbose* fpVerbose; 348 G4VITSteppingVerbose* fpVerbose; 348 349 349 G4ITTrackHolder* fpTrackContainer; 350 G4ITTrackHolder* fpTrackContainer; 350 G4ITLeadingTracks fLeadingTracks; 351 G4ITLeadingTracks fLeadingTracks; 351 352 352 //__________________________________________ 353 //________________________________________________ 353 // 354 // 354 // Members used as temporaries (= not proper 355 // Members used as temporaries (= not proper to a track) 355 //__________________________________________ 356 //________________________________________________ 356 357 357 G4double fTimeStep; // not proper to a track 358 G4double fTimeStep; // not proper to a track 358 G4double fILTimeStep; // proper to a track e 359 G4double fILTimeStep; // proper to a track ensemble 359 360 360 G4double fPreviousTimeStep; 361 G4double fPreviousTimeStep; 361 G4TrackVector* fpSecondary; // get from fpSt 362 G4TrackVector* fpSecondary; // get from fpStep at every configuration setup 362 G4VParticleChange* fpParticleChange; 363 G4VParticleChange* fpParticleChange; 363 364 364 G4VITProcess* fpCurrentProcess; 365 G4VITProcess* fpCurrentProcess; 365 // The pointer to the process of which DoIt 366 // The pointer to the process of which DoIt or 366 // GetPhysicalInteractionLength has been jus 367 // GetPhysicalInteractionLength has been just executed 367 368 368 // * Secondaries 369 // * Secondaries 369 G4int fN2ndariesAtRestDoIt; 370 G4int fN2ndariesAtRestDoIt; 370 G4int fN2ndariesAlongStepDoIt; 371 G4int fN2ndariesAlongStepDoIt; 371 G4int fN2ndariesPostStepDoIt; 372 G4int fN2ndariesPostStepDoIt; 372 // These are the numbers of secondaries gene 373 // These are the numbers of secondaries generated by the process 373 // just executed. 374 // just executed. 374 375 375 // * Process selection 376 // * Process selection 376 std::size_t fAtRestDoItProcTriggered; << 377 size_t fAtRestDoItProcTriggered; 377 std::size_t fPostStepDoItProcTriggered; << 378 size_t fPostStepDoItProcTriggered; 378 std::size_t fPostStepAtTimeDoItProcTriggered << 379 size_t fPostStepAtTimeDoItProcTriggered; 379 // Record the selected process 380 // Record the selected process 380 381 381 G4ForceCondition fCondition; 382 G4ForceCondition fCondition; 382 G4GPILSelection fGPILSelection; 383 G4GPILSelection fGPILSelection; 383 // Above three variables are for the method 384 // Above three variables are for the method 384 // DefinePhysicalStepLength(). To pass these 385 // DefinePhysicalStepLength(). To pass these information to 385 // the method Verbose, they are kept at here 386 // the method Verbose, they are kept at here. Need a more 386 // elegant mechanism. 387 // elegant mechanism. 387 388 388 G4double fPhysIntLength; 389 G4double fPhysIntLength; 389 // The minimum physical interaction length o 390 // The minimum physical interaction length over all possible processes 390 391 391 // * Sensitive detector 392 // * Sensitive detector 392 // G4SteppingControl StepControlFlag; 393 // G4SteppingControl StepControlFlag; 393 // G4VSensitiveDetector* fpSensitive; 394 // G4VSensitiveDetector* fpSensitive; 394 395 395 G4VPhysicalVolume* fpCurrentVolume; 396 G4VPhysicalVolume* fpCurrentVolume; 396 // Get from fpStep or touchable, keep as mem 397 // Get from fpStep or touchable, keep as member for user interface 397 398 398 //__________________________________________ 399 //________________________________________________ 399 // 400 // 400 // Members related to ParticleDefinition and 401 // Members related to ParticleDefinition and not 401 // proper to a track 402 // proper to a track 402 //__________________________________________ 403 //________________________________________________ 403 404 404 std::map<const G4ParticleDefinition*, Proces 405 std::map<const G4ParticleDefinition*, ProcessGeneralInfo*> fProcessGeneralInfoMap; 405 ProcessGeneralInfo* fpProcessInfo; 406 ProcessGeneralInfo* fpProcessInfo; 406 G4ITTransportation* fpTransportation; 407 G4ITTransportation* fpTransportation; 407 408 408 //__________________________________________ 409 //________________________________________________ 409 // 410 // 410 // Members used for setting up the processor 411 // Members used for setting up the processor 411 //__________________________________________ 412 //________________________________________________ 412 413 413 G4Track* fpTrack; // Set track 414 G4Track* fpTrack; // Set track 414 G4IT* fpITrack; // Set track 415 G4IT* fpITrack; // Set track 415 G4TrackingInformation* fpTrackingInfo; // Se 416 G4TrackingInformation* fpTrackingInfo; // Set track 416 417 417 G4ITStepProcessorState* fpState; // SetupMem 418 G4ITStepProcessorState* fpState; // SetupMembers or InitDefineStep 418 G4Step* fpStep; // Set track or InitDefineSt 419 G4Step* fpStep; // Set track or InitDefineStep 419 420 420 G4StepPoint* fpPreStepPoint; // SetupMembers 421 G4StepPoint* fpPreStepPoint; // SetupMembers 421 G4StepPoint* fpPostStepPoint; // SetupMember 422 G4StepPoint* fpPostStepPoint; // SetupMembers 422 }; 423 }; 423 424 424 //____________________________________________ 425 //______________________________________________________________________________ 425 426 426 inline void G4ITStepProcessor::SetPreviousStep 427 inline void G4ITStepProcessor::SetPreviousStepTime(G4double previousTimeStep) 427 { 428 { 428 fPreviousTimeStep = previousTimeStep; 429 fPreviousTimeStep = previousTimeStep; 429 } 430 } 430 431 431 //____________________________________________ 432 //______________________________________________________________________________ 432 433 433 inline const G4Track* G4ITStepProcessor::GetTr 434 inline const G4Track* G4ITStepProcessor::GetTrack() const 434 { 435 { 435 return fpTrack; 436 return fpTrack; 436 } 437 } 437 438 438 //____________________________________________ 439 //______________________________________________________________________________ 439 440 440 inline G4double G4ITStepProcessor::CalculateSa 441 inline G4double G4ITStepProcessor::CalculateSafety() 441 { 442 { 442 return std::max(fpState->fEndpointSafety - ( 443 return std::max(fpState->fEndpointSafety - (fpState->fEndpointSafOrigin 443 - fpPostStepPoint->GetPo 444 - fpPostStepPoint->GetPosition()).mag(), 444 kCarTolerance); 445 kCarTolerance); 445 } 446 } 446 447 447 //____________________________________________ 448 //______________________________________________________________________________ 448 449 449 inline void G4ITStepProcessor::SetNavigator(G4 450 inline void G4ITStepProcessor::SetNavigator(G4ITNavigator *value) 450 { 451 { 451 fpNavigator = value; 452 fpNavigator = value; 452 } 453 } 453 454 454 //____________________________________________ 455 //______________________________________________________________________________ 455 456 456 inline void G4ITStepProcessor::CleanProcessor( 457 inline void G4ITStepProcessor::CleanProcessor() 457 { 458 { 458 fTimeStep = DBL_MAX; 459 fTimeStep = DBL_MAX; 459 fPhysIntLength = DBL_MAX; 460 fPhysIntLength = DBL_MAX; 460 461 461 fpState = nullptr; << 462 fpState = 0; 462 fpTrack = nullptr; << 463 fpTrack = 0; 463 fpTrackingInfo = nullptr; << 464 fpTrackingInfo = 0; 464 fpITrack = nullptr; << 465 fpITrack = 0; 465 fpStep = nullptr; << 466 fpStep = 0; 466 fpPreStepPoint = nullptr; << 467 fpPreStepPoint = 0; 467 fpPostStepPoint = nullptr; << 468 fpPostStepPoint = 0; 468 469 469 fpParticleChange = nullptr; << 470 fpParticleChange = 0; 470 471 471 fpCurrentVolume = nullptr; << 472 fpCurrentVolume = 0; 472 // fpSensitive = 0; 473 // fpSensitive = 0; 473 474 474 fpSecondary = nullptr; << 475 fpSecondary = 0; 475 476 476 fpTransportation = nullptr; << 477 fpTransportation = 0; 477 478 478 fpCurrentProcess= nullptr; << 479 fpCurrentProcess= 0; 479 fpProcessInfo = nullptr; << 480 fpProcessInfo = 0; 480 481 481 fAtRestDoItProcTriggered = INT_MAX; 482 fAtRestDoItProcTriggered = INT_MAX; 482 fPostStepDoItProcTriggered = INT_MAX; 483 fPostStepDoItProcTriggered = INT_MAX; 483 fPostStepAtTimeDoItProcTriggered = INT_MAX; 484 fPostStepAtTimeDoItProcTriggered = INT_MAX; 484 fGPILSelection = NotCandidateForSelection; 485 fGPILSelection = NotCandidateForSelection; 485 fCondition = NotForced; 486 fCondition = NotForced; 486 } 487 } 487 488 488 //____________________________________________ 489 //______________________________________________________________________________ 489 490 490 inline double G4ITStepProcessor::GetInteractio 491 inline double G4ITStepProcessor::GetInteractionTime() 491 { 492 { 492 return fTimeStep; 493 return fTimeStep; 493 } 494 } 494 495 495 #endif // G4ITSTEPPROCESSOR_H 496 #endif // G4ITSTEPPROCESSOR_H 496 497