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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 // 27 // 28 // 28 // 29 // ------------------------------------------- 29 // ------------------------------------------------------------ 30 // GEANT 4 include file implementation 30 // GEANT 4 include file implementation 31 // ------------------------------------------- 31 // ------------------------------------------------------------ 32 // 32 // 33 // Class description: 33 // Class description: 34 // 34 // 35 // G4Transportation is a process responsible f 35 // G4Transportation is a process responsible for the transportation of 36 // a particle, i.e. the geometrical propagatio 36 // a particle, i.e. the geometrical propagation encountering the 37 // geometrical sub-volumes of the detectors. 37 // geometrical sub-volumes of the detectors. 38 // It is also tasked with part of updating the 38 // It is also tasked with part of updating the "safety". 39 39 40 // =========================================== 40 // ======================================================================= 41 // Created: 19 March 1997, J. Apostolakis 41 // Created: 19 March 1997, J. Apostolakis 42 // =========================================== 42 // ======================================================================= 43 #ifndef G4Transportation_hh 43 #ifndef G4Transportation_hh 44 #define G4Transportation_hh 1 44 #define G4Transportation_hh 1 45 45 46 #include "G4VProcess.hh" 46 #include "G4VProcess.hh" 47 47 48 #include "G4Track.hh" 48 #include "G4Track.hh" 49 #include "G4Step.hh" 49 #include "G4Step.hh" 50 #include "G4ParticleChangeForTransport.hh" 50 #include "G4ParticleChangeForTransport.hh" 51 51 52 class G4Navigator; 52 class G4Navigator; 53 class G4PropagatorInField; 53 class G4PropagatorInField; 54 class G4SafetyHelper; 54 class G4SafetyHelper; 55 class G4TransportationLogger; 55 class G4TransportationLogger; 56 56 57 class G4Transportation : public G4VProcess 57 class G4Transportation : public G4VProcess 58 { 58 { 59 // Concrete class that does the geometrical 59 // Concrete class that does the geometrical transport 60 60 61 public: // with description 61 public: // with description 62 62 63 G4Transportation( G4int verbosityLevel= 1 63 G4Transportation( G4int verbosityLevel= 1, const G4String& aName = "Transportation"); 64 ~G4Transportation(); 64 ~G4Transportation(); 65 65 66 G4double AlongStepGetPhysicalInterac 66 G4double AlongStepGetPhysicalInteractionLength( 67 const G4Track& tr 67 const G4Track& track, 68 G4double p 68 G4double previousStepSize, 69 G4double c 69 G4double currentMinimumStep, 70 G4double& c 70 G4double& currentSafety, 71 G4GPILSelec 71 G4GPILSelection* selection 72 ); // override; 72 ); // override; 73 73 74 G4VParticleChange* AlongStepDoIt( 74 G4VParticleChange* AlongStepDoIt( 75 const G4Track& tr 75 const G4Track& track, 76 const G4Step& ste 76 const G4Step& stepData 77 ); // override; 77 ); // override; 78 78 79 G4VParticleChange* PostStepDoIt( 79 G4VParticleChange* PostStepDoIt( 80 const G4Track& tr 80 const G4Track& track, 81 const G4Step& st 81 const G4Step& stepData 82 ); // override; 82 ); // override; 83 // Responsible for the relocation 83 // Responsible for the relocation 84 84 85 G4double PostStepGetPhysicalInteractionLe 85 G4double PostStepGetPhysicalInteractionLength( 86 const G4Track& , 86 const G4Track& , 87 G4double previo 87 G4double previousStepSize, 88 G4ForceCondition* 88 G4ForceCondition* pForceCond 89 ); // override; 89 ); // override; 90 // Forces the PostStepDoIt action to be 90 // Forces the PostStepDoIt action to be called, 91 // but does not limit the step 91 // but does not limit the step 92 92 93 inline G4bool FieldExertedForce() { retur 93 inline G4bool FieldExertedForce() { return fFieldExertedForce; } 94 94 95 G4PropagatorInField* GetPropagatorInField 95 G4PropagatorInField* GetPropagatorInField(); 96 void SetPropagatorInField( G4PropagatorIn 96 void SetPropagatorInField( G4PropagatorInField* pFieldPropagator); 97 // Access/set the assistant class that 97 // Access/set the assistant class that Propagate in a Field 98 98 99 inline G4double GetThresholdWarningEnergy 99 inline G4double GetThresholdWarningEnergy() const; 100 inline G4double GetThresholdImportantEner 100 inline G4double GetThresholdImportantEnergy() const; 101 inline G4int GetThresholdTrials() const; 101 inline G4int GetThresholdTrials() const; 102 102 103 inline void SetThresholdWarningEnergy( G4 103 inline void SetThresholdWarningEnergy( G4double newEnWarn ); 104 inline void SetThresholdImportantEnergy( 104 inline void SetThresholdImportantEnergy( G4double newEnImp ); 105 inline void SetThresholdTrials(G4int newM 105 inline void SetThresholdTrials(G4int newMaxTrials ); 106 // Get/Set parameters for killing loopers 106 // Get/Set parameters for killing loopers: 107 // Above 'important' energy a 'looping' 107 // Above 'important' energy a 'looping' particle in field will 108 // *NOT* be abandoned, except after fTh 108 // *NOT* be abandoned, except after fThresholdTrials attempts. 109 // Below Warning energy, no verbosity for 109 // Below Warning energy, no verbosity for looping particles is issued 110 110 111 void SetHighLooperThresholds(); // Shortc 111 void SetHighLooperThresholds(); // Shortcut method - old values (meant for HEP) 112 void SetLowLooperThresholds(); // Set low 112 void SetLowLooperThresholds(); // Set low thresholds - for low-E applications 113 void PushThresholdsToLogger(); // Inform 113 void PushThresholdsToLogger(); // Inform logger of current thresholds 114 void ReportLooperThresholds(); // Print v 114 void ReportLooperThresholds(); // Print values of looper thresholds 115 115 116 inline G4double GetMaxEnergyKilled() cons 116 inline G4double GetMaxEnergyKilled() const; 117 inline G4double GetSumEnergyKilled() cons 117 inline G4double GetSumEnergyKilled() const; 118 inline void ResetKilledStatistics( G4int 118 inline void ResetKilledStatistics( G4int report = 1); 119 // Statistics for tracks killed (currentl 119 // Statistics for tracks killed (currently due to looping in field) 120 120 121 inline void EnableShortStepOptimisation(G 121 inline void EnableShortStepOptimisation(G4bool optimise=true); 122 // Whether short steps < safety will avoi 122 // Whether short steps < safety will avoid to call Navigator (if field=0) 123 123 124 static G4bool EnableMagneticMoment(G4bool 124 static G4bool EnableMagneticMoment(G4bool useMoment=true); 125 // Whether to enable particles to be defl 125 // Whether to enable particles to be deflected with force due to magnetic moment 126 126 127 static G4bool EnableGravity(G4bool useGra 127 static G4bool EnableGravity(G4bool useGravity=true); 128 // Whether to enable particles to be defl 128 // Whether to enable particles to be deflected with force due to gravity 129 129 130 static void SetSilenceLooperWarnings( G 130 static void SetSilenceLooperWarnings( G4bool val); 131 // Do not warn (or throw exception) about 131 // Do not warn (or throw exception) about 'looping' particles 132 static G4bool GetSilenceLooperWarnings(); 132 static G4bool GetSilenceLooperWarnings(); 133 133 134 public: // without description 134 public: // without description 135 static G4bool EnableUseMagneticMoment(G4b 135 static G4bool EnableUseMagneticMoment(G4bool useMoment=true) 136 { return EnableMagneticMoment(useMoment); 136 { return EnableMagneticMoment(useMoment); } // Old name - will be deprecated 137 137 138 public: // without description 138 public: // without description 139 139 140 G4double AtRestGetPhysicalInteractionLeng 140 G4double AtRestGetPhysicalInteractionLength( const G4Track&, 141 141 G4ForceCondition*) 142 { return -1.0; } // No operation in At 142 { return -1.0; } // No operation in AtRestGPIL 143 143 144 G4VParticleChange* AtRestDoIt( const G4Tr 144 G4VParticleChange* AtRestDoIt( const G4Track&, const G4Step& ) 145 { return 0; } // No operation in At 145 { return 0; } // No operation in AtRestDoIt 146 146 147 void StartTracking(G4Track* aTrack); 147 void StartTracking(G4Track* aTrack); 148 // Reset state for new (potentially res 148 // Reset state for new (potentially resumed) track 149 149 150 virtual void ProcessDescription(std::ostr 150 virtual void ProcessDescription(std::ostream& outFile) const; // override; 151 void PrintStatistics( std::ostream& outSt 151 void PrintStatistics( std::ostream& outStr) const; 152 152 153 protected: 153 protected: 154 154 155 void SetTouchableInformation(const G4Touc 155 void SetTouchableInformation(const G4TouchableHandle& touchable); 156 156 157 void ReportMissingLogger(const char * met 157 void ReportMissingLogger(const char * methodName); 158 158 159 protected: 159 protected: 160 160 161 G4Navigator* fLinearNavigator; 161 G4Navigator* fLinearNavigator; 162 // The navigator for the 'mass' geometr 162 // The navigator for the 'mass' geometry 163 // (the real one, that physics occurs i 163 // (the real one, that physics occurs in) 164 G4PropagatorInField* fFieldPropagator; 164 G4PropagatorInField* fFieldPropagator; 165 // The Propagators used to transport th 165 // The Propagators used to transport the particle 166 166 167 G4ThreeVector fTransportEndPosition= 167 G4ThreeVector fTransportEndPosition= G4ThreeVector( 0.0, 0.0, 0.0 ); 168 G4ThreeVector fTransportEndMomentumDir= 168 G4ThreeVector fTransportEndMomentumDir= G4ThreeVector( 0.0, 0.0, 0.0 ); 169 G4double fTransportEndKineticEnergy= 169 G4double fTransportEndKineticEnergy= 0.0; 170 G4ThreeVector fTransportEndSpin= G4Three 170 G4ThreeVector fTransportEndSpin= G4ThreeVector( 0.0, 0.0, 0.0 ); 171 G4bool fMomentumChanged= true; 171 G4bool fMomentumChanged= true; 172 G4bool fEndGlobalTimeComputed= fal 172 G4bool fEndGlobalTimeComputed= false; 173 G4double fCandidateEndGlobalTime= 0. 173 G4double fCandidateEndGlobalTime= 0.0; 174 // The particle's state after this Step 174 // The particle's state after this Step, Store for DoIt 175 175 176 G4bool fAnyFieldExists= false; 176 G4bool fAnyFieldExists= false; 177 177 178 G4bool fParticleIsLooping = false; 178 G4bool fParticleIsLooping = false; 179 G4bool fNewTrack= true; // Flag 179 G4bool fNewTrack= true; // Flag from StartTracking 180 G4bool fFirstStepInVolume= true; 180 G4bool fFirstStepInVolume= true; 181 G4bool fLastStepInVolume= false; // Last 181 G4bool fLastStepInVolume= false; // Last step - almost same as next flag 182 // (temporary 182 // (temporary redundancy for checking) 183 G4bool fGeometryLimitedStep= true; 183 G4bool fGeometryLimitedStep= true; 184 // Flag to determine whether a boundary 184 // Flag to determine whether a boundary was reached 185 185 186 G4bool fFieldExertedForce= false; // Duri 186 G4bool fFieldExertedForce= false; // During current step 187 187 188 G4TouchableHandle fCurrentTouchableHandle 188 G4TouchableHandle fCurrentTouchableHandle; 189 189 190 G4ThreeVector fPreviousSftOrigin; 190 G4ThreeVector fPreviousSftOrigin; 191 G4double fPreviousSafety; 191 G4double fPreviousSafety; 192 // Remember last safety origin & value. 192 // Remember last safety origin & value. 193 193 194 G4ParticleChangeForTransport fParticleCha 194 G4ParticleChangeForTransport fParticleChange; 195 // New ParticleChange 195 // New ParticleChange 196 196 197 G4double fEndPointDistance; 197 G4double fEndPointDistance; 198 198 199 // Thresholds for looping particles: 199 // Thresholds for looping particles: 200 // 200 // 201 G4double fThreshold_Warning_Energy = 1. 201 G4double fThreshold_Warning_Energy = 1.0 * CLHEP::keV; // Warn above this energy 202 G4double fThreshold_Important_Energy = 1. 202 G4double fThreshold_Important_Energy = 1.0 * CLHEP::MeV; // Give a few trial above this E 203 G4int fThresholdTrials = 10; // 203 G4int fThresholdTrials = 10; // Number of trials an important looper survives 204 // Above 'important' energy a 'looping' 204 // Above 'important' energy a 'looping' particle in field will 205 // *NOT* be abandoned, except after fTh 205 // *NOT* be abandoned, except after fThresholdTrials attempts. 206 G4int fAbandonUnstableTrials = 0; // 206 G4int fAbandonUnstableTrials = 0; // Number of trials after which to abandon 207 // 207 // unstable loopers ( 0 = never ) 208 // Counter for steps in which particle re 208 // Counter for steps in which particle reports 'looping', 209 // ( Used if it is above 'Important' Ene 209 // ( Used if it is above 'Important' Energy. ) 210 G4int fNoLooperTrials= 0; 210 G4int fNoLooperTrials= 0; 211 211 212 // Statistics for tracks abandoned due to 212 // Statistics for tracks abandoned due to looping - and 'saved' despite looping 213 // 213 // 214 G4double fSumEnergyKilled= 0.0; 214 G4double fSumEnergyKilled= 0.0; 215 G4double fSumEnerSqKilled= 0.0; 215 G4double fSumEnerSqKilled= 0.0; 216 G4double fMaxEnergyKilled= -1.0; 216 G4double fMaxEnergyKilled= -1.0; 217 G4int fMaxEnergyKilledPDG= 0; 217 G4int fMaxEnergyKilledPDG= 0; 218 unsigned long fNumLoopersKilled= 0; 218 unsigned long fNumLoopersKilled= 0; 219 G4double fSumEnergyKilled_NonElectron= 0. 219 G4double fSumEnergyKilled_NonElectron= 0.0; 220 G4double fSumEnerSqKilled_NonElectron= 0. 220 G4double fSumEnerSqKilled_NonElectron= 0.0; 221 G4double fMaxEnergyKilled_NonElectron= -1 221 G4double fMaxEnergyKilled_NonElectron= -1.0; 222 G4int fMaxEnergyKilled_NonElecPDG= 0; 222 G4int fMaxEnergyKilled_NonElecPDG= 0; 223 unsigned long fNumLoopersKilled_NonElectr 223 unsigned long fNumLoopersKilled_NonElectron= 0; 224 G4double fSumEnergySaved= 0.0; 224 G4double fSumEnergySaved= 0.0; 225 G4double fMaxEnergySaved= -1.0; 225 G4double fMaxEnergySaved= -1.0; 226 G4double fSumEnergyUnstableSaved = 0.0; 226 G4double fSumEnergyUnstableSaved = 0.0; 227 // Whether to avoid calling G4Navigator f 227 // Whether to avoid calling G4Navigator for short step ( < safety) 228 // If using it, the safety estimate for e 228 // If using it, the safety estimate for endpoint will likely be smaller. 229 // 229 // 230 G4bool fShortStepOptimisation; 230 G4bool fShortStepOptimisation; 231 231 232 G4SafetyHelper* fpSafetyHelper; // To 232 G4SafetyHelper* fpSafetyHelper; // To pass it the safety value obtained 233 G4TransportationLogger* fpLogger; // Rep 233 G4TransportationLogger* fpLogger; // Reports issues / raises warnings 234 234 235 protected: 235 protected: 236 236 237 static G4bool fUseMagneticMoment; 237 static G4bool fUseMagneticMoment; 238 static G4bool fUseGravity; 238 static G4bool fUseGravity; 239 static G4bool fSilenceLooperWarnings; // 239 static G4bool fSilenceLooperWarnings; // Flag to *Supress* all 'looper' warnings 240 240 241 }; 241 }; 242 242 243 #include "G4Transportation.icc" 243 #include "G4Transportation.icc" 244 244 245 #endif 245 #endif 246 246