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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 // G4ParticleChange << 27 // 26 // 28 // Class description: << 27 // $Id: G4ParticleChange.hh,v 1.13 2007/03/11 07:19:06 kurasige Exp $ >> 28 // GEANT4 tag $Name: geant4-09-00-patch-01 $ 29 // 29 // 30 // Concrete class for ParticleChange containin << 30 // 31 // invocation of a physics process. << 31 // ------------------------------------------------------------ 32 // This includes final states of parent partic << 32 // GEANT 4 class header file 33 // etc) and secondary particles generated by t << 34 // The tracking assumes that all the values of << 35 // are in global reference system, therefore a << 36 // transformations must have been already comp << 37 // data-members of this class. << 38 // 33 // 39 // IMPORTANT NOTE: Despite the name, what this << 34 // 40 // through its methods, are the "FINAL" values << 35 // ------------------------------------------------------------ 41 // Momentum, etc. << 36 // Implemented for the new scheme 23 Mar. 1998 H.Kurahige 42 << 37 // 43 // Author: Hisaya Kurashige, 23 March 1998 << 38 // Class Description 44 // ------------------------------------------- << 39 // This class is a concrete class for ParticleChange which 45 #ifndef G4ParticleChange_hh << 40 // has all functionality in old scheme. 46 #define G4ParticleChange_hh 1 << 41 //- >> 42 // This class contains the results after invocation of a physics process. >> 43 // This includes final states of parent particle (momentum, energy, >> 44 // etc) and secondary particles generated by the interaction. >> 45 // The tracking assumes that all the values of energy and >> 46 // momentum are in global reference system, therefore all the >> 47 // needed Lorentz transformations must have been already Done >> 48 // when filling the data-members of this class. >> 49 //- >> 50 // --------------------------------------------------------------- >> 51 // IMPORTANT NOTE: Although the name of the class and methods are >> 52 // "Change", what it stores (and returns in get) are the "FINAL" >> 53 // values of the Position, Momentum, etc. >> 54 // >> 55 // ------------------------------------------------------------ >> 56 // modify AddSecondary methods for "GoodForTracking" flag >> 57 // 8 June 1998 H.Kurashige >> 58 // Add Track weight 12 Nov. 1998 H.Kurashige >> 59 // Add Get/SetMomentumDirectionChange 6 Feb. 1999 H.Kurashige >> 60 // Add Get/SetDynamicMass 5 Oct. 1999 H.Kurashige >> 61 // Add Get/SetDynamicCharge 5 Oct. 1999 H.Kurashige >> 62 // Rename SetXXX methods to ProposeXXX DynamicCharge Oct. 2005 H.Kurashige >> 63 // Add get/ProposeMagneticMoment Mar 2007 H.Kurashige >> 64 // Fix treatment of weight Mar 2007 H.Kurashige >> 65 // ------------------------------------------------------------- >> 66 >> 67 #ifndef G4ParticleChange_h >> 68 #define G4ParticleChange_h 1 47 69 48 #include "globals.hh" 70 #include "globals.hh" 49 #include "G4ios.hh" 71 #include "G4ios.hh" 50 #include "G4ThreeVector.hh" 72 #include "G4ThreeVector.hh" 51 #include "G4VParticleChange.hh" << 73 #include "G4ThreeVector.hh" 52 << 53 class G4DynamicParticle; 74 class G4DynamicParticle; >> 75 #include "G4VParticleChange.hh" 54 76 55 class G4ParticleChange : public G4VParticleCha << 77 class G4ParticleChange: public G4VParticleChange 56 { << 78 { 57 public: 79 public: 58 << 80 // default constructor 59 G4ParticleChange(); 81 G4ParticleChange(); 60 // Default constructor << 82 // G4ParticleChange(G4bool useEB); >> 83 >> 84 // destructor >> 85 virtual ~G4ParticleChange(); >> 86 >> 87 protected: >> 88 // hide copy constructor and assignment operaor as protected >> 89 G4ParticleChange(const G4ParticleChange &right); >> 90 G4ParticleChange & operator=(const G4ParticleChange &right); 61 91 62 ~G4ParticleChange() override = default; << 92 public: 63 // Destructor << 93 // equal/unequal operator >> 94 G4bool operator==(const G4ParticleChange &right) const; >> 95 G4bool operator!=(const G4ParticleChange &right) const; >> 96 >> 97 public: // with description >> 98 // ---------------------------------------------------- >> 99 // --- the following methods are for updating G4Step ----- >> 100 // Return the pointer to the G4Step after updating the Step information >> 101 // by using final state information of the track given by a physics >> 102 // process >> 103 virtual G4Step* UpdateStepForAlongStep(G4Step* Step); >> 104 // A physics process gives the final state of the particle >> 105 // relative to the initial state at the beginning of the Step, >> 106 // i.e., based on information of G4Track (or equivalently >> 107 // the PreStepPoint) >> 108 // In this method, the differences (delta) between these two states >> 109 // are calculated, and are accumulated in PostStepPoint. >> 110 // Take note that the return type of GetMomentumChange is a >> 111 // pointer to G4ParticleMometum. Also it is a normalized >> 112 // momentum vector. >> 113 virtual G4Step* UpdateStepForAtRest(G4Step* Step); >> 114 virtual G4Step* UpdateStepForPostStep(G4Step* Step); >> 115 // A physics process gives the final state of the particle >> 116 // based on information of G4Track (or equivalently the PreStepPoint) >> 117 >> 118 virtual void Initialize(const G4Track&); >> 119 // Initialize all propoerties by using G4Track information 64 120 65 G4ParticleChange(const G4ParticleChange& r << 121 protected: // with description 66 G4ParticleChange& operator=(const G4Partic << 122 G4Step* UpdateStepInfo(G4Step* Step); >> 123 // Update the G4Step specific attributes >> 124 // (i.e. SteppingControl, LocalEnergyDeposit, and TrueStepLength) 67 125 68 // --- the following methods are for updatin << 126 public: // with description 69 // Return the pointer to G4Step after updati << 127 70 // by using final state of the track given b << 128 // ---------------------------------------------------- 71 << 129 //--- methods to keep information of the final state-- 72 G4Step* UpdateStepForAlongStep(G4Step* Ste << 130 // IMPORTANT NOTE: 73 // A physics process gives the final sta << 131 // These ProposeXXX methods stores (and returns in GetXXX methods) 74 // relative to the initial state at the << 132 // the "FINAL" values of the Position, Momentum, etc. 75 // i.e., based on information of G4Track << 133 76 // the PreStepPoint). << 134 const G4ThreeVector* GetMomentumDirection() const; 77 // In this method, the differences (delt << 135 void ProposeMomentumDirection(G4double Px, G4double Py, G4double Pz); 78 // are calculated, and are accumulated i << 136 void ProposeMomentumDirection(const G4ThreeVector& Pfinal); 79 // Take note that the return type of Get << 137 // Get/Propose the MomentumDirection vector: it is the final momentum direction. 80 // pointer to G4ParticleMomentum. Also i << 138 81 // momentum vector << 139 const G4ThreeVector* GetPolarization() const; 82 << 140 void ProposePolarization(G4double Px, G4double Py, G4double Pz); 83 G4Step* UpdateStepForAtRest(G4Step* Step) << 141 void ProposePolarization(const G4ThreeVector& finalPoralization); 84 G4Step* UpdateStepForPostStep(G4Step* Step << 142 // Get/Propose the final Polarization vector. 85 // A physics process gives the final sta << 143 86 // based on information of G4Track (or e << 144 G4double GetEnergy() const; 87 << 145 void ProposeEnergy(G4double finalEnergy); 88 void Initialize(const G4Track&) override; << 146 // Get/Propose the final kinetic energy of the current particle. 89 // Initialize all propoerties by using G << 147 90 << 148 G4double GetProperTime() const; 91 // --- methods to keep information of the fi << 149 void ProposeProperTime(G4double finalProperTime); 92 // << 150 // Get/Propose th final eProperTime 93 // The ProposeXXX methods store (and return << 151 94 // the "FINAL" values of the Position, Mome << 152 const G4ThreeVector* GetPosition() const; 95 << 153 void ProposePosition(G4double x, G4double y, G4double z); 96 inline const G4ThreeVector* GetMomentumDir << 154 void ProposePosition(const G4ThreeVector& finalPosition); 97 inline void ProposeMomentumDirection(G4dou << 155 // Get/Propose the final position of the current particle. 98 inline void ProposeMomentumDirection(const << 156 99 // Get/Propose the MomentumDirection vec << 157 G4double GetGlobalTime() const; 100 // direction << 158 void ProposeGlobalTime(G4double finalGlobalTime); 101 << 159 // Get/Propose the final GlobalTime 102 inline const G4ThreeVector* GetPolarizatio << 160 103 inline void ProposePolarization(G4double P << 161 G4double GetMass() const; 104 inline void ProposePolarization(const G4Th << 162 void ProposeMass(G4double finalMass); 105 // Get/Propose the final Polarization ve << 163 // Get/Propose the final dynamical Mass in G4DynamicParticle 106 << 164 107 inline G4double GetEnergy() const; << 165 G4double GetCharge() const; 108 inline void ProposeEnergy(G4double finalEn << 166 void ProposeCharge(G4double finalCharge); 109 // Get/Propose the final kinetic energy << 167 // Get/Propose the final dynamical Charge in G4DynamicParticle 110 << 168 111 inline G4double GetVelocity() const; << 169 G4double GetMagneticMoment() const; 112 inline void ProposeVelocity(G4double final << 170 void ProposeMagneticMoment(G4double finalMagneticMoment); 113 // Get/Propose the final velocity of the << 171 // Get/Propose the final MagneticMoment in G4DynamicParticle 114 << 172 115 inline G4double GetProperTime() const; << 173 G4double GetWeight() const; 116 inline void ProposeProperTime(G4double fin << 174 void ProposeWeight(G4double finalWeight); 117 // Get/Propose the final ProperTime << 175 // Get/Propose the final Weight of the parent particle 118 << 176 119 inline const G4ThreeVector* GetPosition() << 177 // -- Utility functions -- 120 inline void ProposePosition(G4double x, G4 << 178 G4ThreeVector GetGlobalPosition(const G4ThreeVector& displacement) const; 121 inline void ProposePosition(const G4ThreeV << 179 // Convert the position displacement to the global position. 122 // Get/Propose the final position of the << 180 123 << 181 G4double GetGlobalTime(G4double timeDelay) const; 124 inline void ProposeGlobalTime(G4double t); << 182 // Convert the time delay to the global time. 125 inline void ProposeLocalTime(G4double t); << 183 126 // Get/Propose the final global/local Ti << 184 G4ThreeVector CalcMomentum(G4double energy, 127 // NOTE: DO NOT INVOKE both methods in a << 185 G4ThreeVector direction, 128 // Each method affects both local << 186 G4double mass ) const; 129 << 187 // Calculate momentum by using Energy, Momentum Direction, and Mass 130 inline G4double GetGlobalTime(G4double tim << 188 // ---------------------------------------------------- 131 inline G4double GetLocalTime(G4double time << 132 // Convert the time delay to the glocbal << 133 // Can get the final global/local time w << 134 << 135 inline G4double GetMass() const; << 136 inline void ProposeMass(G4double finalMass << 137 // Get/Propose the final dynamical mass << 138 << 139 inline G4double GetCharge() const; << 140 inline void ProposeCharge(G4double finalCh << 141 // Get/Propose the final dynamical charg << 142 << 143 inline G4double GetMagneticMoment() const; << 144 inline void ProposeMagneticMoment(G4double << 145 // Get/Propose the final MagneticMoment << 146 << 147 inline G4ThreeVector << 148 GetGlobalPosition(const G4ThreeVector& dis << 149 // Convert the position displacement to << 150 << 151 inline G4ThreeVector CalcMomentum(G4double << 152 G4double << 153 // Calculate momentum by using Energy, M << 154 189 155 // --- methods for adding secondaries --- << 156 190 >> 191 // ---------------------------------------------------- >> 192 // --- methods for adding secondaries 157 void AddSecondary(G4Track* aSecondary); 193 void AddSecondary(G4Track* aSecondary); 158 // Add a secondary particle to theListOf << 194 // Add a secondary particle to theListOfSecondaries. 159 195 160 void AddSecondary(G4DynamicParticle* aSeco 196 void AddSecondary(G4DynamicParticle* aSecondary, 161 G4bool IsGoodForTracking << 197 G4bool IsGoodForTracking = false ); 162 // Add a secondary particle to theListOf << 198 // Add a secondary particle to theListOfSecondaries. 163 // Position and time are same as thePosi << 199 // position and time are same as thePositionChange and theTimeChange 164 << 200 165 void AddSecondary(G4DynamicParticle* aSeco << 201 void AddSecondary(G4DynamicParticle* aSecondary, 166 G4bool IsGoodForTracking << 202 G4ThreeVector position, 167 // Add a secondary particle to theListOf << 203 G4bool IsGoodForTracking = false ); 168 // Global time are same as theTimeChange << 204 // Add a secondary particle to theListOfSecondaries. 169 << 205 // global time are same as theTimeChange and theTimeChange 170 void AddSecondary(G4DynamicParticle* aSeco << 206 171 G4bool IsGoodForTracking << 207 void AddSecondary(G4DynamicParticle* aSecondary, 172 // Add a secondary particle to theListOf << 208 G4double time, 173 // Position and are same as thePositionC << 209 G4bool IsGoodForTracking = false ); 174 << 210 // Add a secondary particle to theListOfSecondaries. 175 // --- Dump and debug methods --- << 211 // position and are same as thePositionChange >> 212 // ---------------------------------------------------- 176 213 177 void DumpInfo() const override; << 214 public: >> 215 virtual void DumpInfo() const; 178 216 179 protected: 217 protected: 180 << 181 G4Step* UpdateStepInfo(G4Step* Step); << 182 // Update the G4Step specific attributes << 183 // (i.e. SteppingControl, LocalEnergyDep << 184 << 185 G4ThreeVector theMomentumDirectionChange; 218 G4ThreeVector theMomentumDirectionChange; 186 // It is the vector containing the final << 219 // It is the vector containing the final momentum direction 187 // after the invoked process. The applic << 220 // after the invoked process. The application of the change 188 // of the momentum direction of the part << 221 // of the momentum direction of the particle is not Done here. 189 // The responsibility to apply the chang << 222 // The responsibility to apply the change is up the entity 190 // which invoked the process << 223 // which invoked the process. 191 224 192 G4ThreeVector thePolarizationChange; 225 G4ThreeVector thePolarizationChange; 193 // The changed (final) polarization of a << 226 // The changed (final) polarization of a given track >> 227 >> 228 G4double theEnergyChange; >> 229 // The final kinetic energy of the current track >> 230 >> 231 G4ThreeVector thePositionChange; >> 232 // The changed (final) position of a given track >> 233 >> 234 G4double theTimeChange; >> 235 // The changed (final) global time of a given track >> 236 >> 237 G4double theProperTimeChange; >> 238 // The changed (final) proper time of a given track >> 239 >> 240 // Obsolete Mar 2007 >> 241 // G4double theWeightChange; >> 242 // The Changed (final) weight of a given track >> 243 >> 244 G4double theMassChange; >> 245 // The Changed (final) mass of a given track >> 246 >> 247 G4double theChargeChange; >> 248 // The Changed (final) charge of a given track >> 249 >> 250 G4double theMagneticMomentChange; >> 251 // The Changed (final) MagneticMoment of a given track >> 252 >> 253 const G4Track* theCurrentTrack; >> 254 >> 255 public: >> 256 // for Debug >> 257 virtual G4bool CheckIt(const G4Track&); >> 258 }; >> 259 >> 260 #include "G4ParticleChange.icc" >> 261 >> 262 #endif >> 263 >> 264 >> 265 >> 266 >> 267 194 268 195 G4double theEnergyChange = 0.0; << 196 // The final kinetic energy of the curre << 197 269 198 G4double theVelocityChange = 0.0; << 199 G4bool isVelocityChanged = false; << 200 // The final velocity of the current tra << 201 270 202 G4ThreeVector thePositionChange; << 203 // The changed (final) position of a giv << 204 271 205 G4double theGlobalTime0 = 0.0; << 206 // The global time at Initial << 207 G4double theLocalTime0 = 0.0; << 208 // The local time at Initial << 209 272 210 G4double theTimeChange = 0.0; << 211 // The change of local time of a given p << 212 273 213 G4double theProperTimeChange = 0.0; << 214 // The changed (final) proper time of a << 215 274 216 G4double theMassChange = 0.0; << 217 // The Changed (final) mass of a given t << 218 275 219 G4double theChargeChange = 0.0; << 220 // The Changed (final) charge of a given << 221 276 222 G4double theMagneticMomentChange = 0.0; << 223 // The Changed (final) MagneticMoment of << 224 }; << 225 277 226 #include "G4ParticleChange.icc" << 227 278 228 #endif << 229 279