Geant4 Cross Reference |
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Please see the license in the file << 14 // * use. * 16 // * for the full disclaimer and the limitatio << 17 // * 15 // * * 18 // * This code implementation is the result << 16 // * This code implementation is the intellectual property of the * 19 // * technical work of the GEANT4 collaboratio << 17 // * GEANT4 collaboration. * 20 // * By using, copying, modifying or distri << 18 // * By copying, distributing or modifying the Program (or any work * 21 // * any work based on the software) you ag << 19 // * based on the Program) you indicate your acceptance of this * 22 // * use in resulting scientific publicati << 20 // * statement, and all its terms. * 23 // * acceptance of all terms of the Geant4 Sof << 24 // ******************************************* 21 // ******************************************************************** 25 // 22 // 26 // G4ParticleChangeForDecay << 27 // 23 // 28 // Class description: << 24 // $Id: G4ParticleChangeForDecay.hh,v 1.5 2001/07/11 10:08:35 gunter Exp $ >> 25 // GEANT4 tag $Name: geant4-04-00 $ 29 // 26 // 30 // Concrete class for ParticleChange which has << 27 // >> 28 // ------------------------------------------------------------ >> 29 // GEANT 4 class header file 31 // 30 // 32 // This class contains the results after invoc << 31 // 33 // This includes secondary particles generated << 32 // ------------------------------------------------------------ 34 << 33 // Implemented for the new scheme 23 Mar. 1998 H.Kurahige 35 // Author: Hisaya Kurashige, 23 March 1998 << 34 // 36 // ------------------------------------------- << 35 // Class Description 37 #ifndef G4ParticleChangeForDecay_hh << 36 // This class is a concrete class for ParticleChange which 38 #define G4ParticleChangeForDecay_hh 1 << 37 // has functionality for G4Decay. >> 38 // >> 39 // This class contains the results after invocation of the decay process. >> 40 // This includes secondary particles generated by the interaction. >> 41 // ------------------------------------------------------------ >> 42 #ifndef G4ParticleChangeForDecay_h >> 43 #define G4ParticleChangeForDecay_h 1 39 44 40 #include "globals.hh" 45 #include "globals.hh" 41 #include "G4ios.hh" 46 #include "G4ios.hh" 42 #include "G4ThreeVector.hh" 47 #include "G4ThreeVector.hh" 43 #include "G4VParticleChange.hh" << 44 << 45 class G4DynamicParticle; 48 class G4DynamicParticle; >> 49 #include "G4VParticleChange.hh" 46 50 47 class G4ParticleChangeForDecay final : public << 51 class G4ParticleChangeForDecay: public G4VParticleChange 48 { 52 { 49 public: << 53 public: 50 << 54 // default constructor 51 G4ParticleChangeForDecay(); 55 G4ParticleChangeForDecay(); 52 56 53 ~G4ParticleChangeForDecay() override = def << 57 // destructor >> 58 virtual ~G4ParticleChangeForDecay(); 54 59 55 G4ParticleChangeForDecay(const G4ParticleC << 60 protected: 56 G4ParticleChangeForDecay& operator=(const << 61 // hide copy constructor and assignment operaor as protected >> 62 G4ParticleChangeForDecay(const G4ParticleChangeForDecay &right); >> 63 G4ParticleChangeForDecay & operator=(const G4ParticleChangeForDecay &right); 57 64 58 // --- the following methods are for updatin << 65 public: 59 // Return the pointer to the G4Step after up << 66 // equal/unequal operator 60 // by using final state information of the t << 67 G4bool operator==(const G4ParticleChangeForDecay &right) const; 61 // !!! No effect for AlongSteyp << 68 G4bool operator!=(const G4ParticleChangeForDecay &right) const; >> 69 >> 70 public: // with description >> 71 // ---------------------------------------------------- >> 72 // --- the following methods are for updating G4Step ----- >> 73 // Return the pointer to the G4Step after updating the Step information >> 74 // by using final state information of the track given by a physics >> 75 // process >> 76 >> 77 // !!! No effect for AlongSteyp >> 78 // virtual G4Step* UpdateStepForAlongStep(G4Step* Step); >> 79 >> 80 virtual G4Step* UpdateStepForAtRest(G4Step* Step); >> 81 virtual G4Step* UpdateStepForPostStep(G4Step* Step); >> 82 >> 83 virtual void Initialize(const G4Track&); >> 84 // Initialize all propoerties by using G4Track information >> 85 >> 86 G4double GetTimeChange() const; >> 87 void SetTimeChange(G4double t); >> 88 // Get/Set theTimeChange vector. 62 89 63 G4Step* UpdateStepForAtRest(G4Step* Step) << 90 public: 64 G4Step* UpdateStepForPostStep(G4Step* Step << 91 virtual void DumpInfo() const; 65 92 66 void Initialize(const G4Track&) final; << 93 protected: 67 // Initialize all properties by using G4 << 94 G4double theTimeChange; >> 95 // The change of global time of a given particle. >> 96 >> 97 public: >> 98 // for Debug >> 99 virtual G4bool CheckIt(const G4Track&); >> 100 }; 68 101 69 void ProposeGlobalTime(G4double t); << 102 inline 70 void ProposeLocalTime(G4double t); << 103 G4double G4ParticleChangeForDecay::GetTimeChange() const 71 // Get/Propose the final global/local ti << 104 { 72 // NOTE: DO NOT INVOKE both methods in a << 105 return theTimeChange; 73 // Each method affects both local << 106 } 74 107 75 G4double GetGlobalTime(G4double timeDelay << 108 inline 76 G4double GetLocalTime(G4double timeDelay = << 109 void G4ParticleChangeForDecay::SetTimeChange(G4double t) 77 // Convert the time delay to the glocbal << 110 { 78 // Can get the final global/local time << 111 theTimeChange = t; >> 112 } 79 113 80 const G4ThreeVector* GetPolarization() con << 81 void ProposePolarization(G4double Px, G4do << 82 void ProposePolarization(const G4ThreeVect << 83 // Get/Propose the final Polarization ve << 84 114 85 // --- Dump and debug methods --- << 115 #endif >> 116 86 117 87 void DumpInfo() const final; << 88 118 89 G4bool CheckIt(const G4Track&) final; << 90 119 91 private: << 92 120 93 G4double theGlobalTime0 = 0.0; << 94 // The global time at Initial << 95 G4double theLocalTime0 = 0.0; << 96 // The local time at Initial << 97 121 98 G4double theTimeChange = 0.0; << 99 // The change of local time of a given p << 100 122 101 G4ThreeVector thePolarizationChange; << 102 // The changed (final) polarization of a << 103 }; << 104 123 105 // ---------------------- << 106 // Inline methods << 107 // ---------------------- << 108 124 109 inline << 110 void G4ParticleChangeForDecay::ProposeGlobalTi << 111 { << 112 theTimeChange = (t - theGlobalTime0) + theLo << 113 } << 114 125 115 inline << 116 G4double G4ParticleChangeForDecay::GetGlobalTi << 117 { << 118 // Convert the time delay to the global tim << 119 return theGlobalTime0 + (theTimeChange - the << 120 } << 121 126 122 inline << 123 void G4ParticleChangeForDecay::ProposeLocalTim << 124 { << 125 theTimeChange = t; << 126 } << 127 127 128 inline << 129 G4double G4ParticleChangeForDecay::GetLocalTim << 130 { << 131 // Convert the time delay to the local time << 132 return theTimeChange + timeDelay; << 133 } << 134 128 135 inline << 136 const G4ThreeVector* G4ParticleChangeForDecay: << 137 { << 138 return &thePolarizationChange; << 139 } << 140 129 141 inline << 142 void G4ParticleChangeForDecay::ProposePolariza << 143 const G4ThreeVector& finalPoralization) << 144 { << 145 thePolarizationChange = finalPoralization; << 146 } << 147 130 148 inline << 149 void G4ParticleChangeForDecay::ProposePolariza << 150 << 151 << 152 { << 153 thePolarizationChange.setX(Px); << 154 thePolarizationChange.setY(Py); << 155 thePolarizationChange.setZ(Pz); << 156 } << 157 131 158 #endif << 159 132