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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 // G4ConstRK4 << 26 // >> 27 // >> 28 // >> 29 // Class G4ConstRK4 27 // 30 // 28 // class description: 31 // class description: 29 // 32 // 30 // G4ConstRK4 performs the integration of one 33 // G4ConstRK4 performs the integration of one step with error calculation 31 // in constant magnetic field. The integration 34 // in constant magnetic field. The integration method is the same as in 32 // ClassicalRK4. The field value is assumed co 35 // ClassicalRK4. The field value is assumed constant for the step. 33 // This field evaluation is called only once p 36 // This field evaluation is called only once per step. 34 // G4ConstRK4 can be used only for magnetic fi 37 // G4ConstRK4 can be used only for magnetic fields. 35 38 36 // Created: J.Apostolakis, T.Nikitina - 18.09. << 39 // History: >> 40 // - 18.09.2008 - J.Apostolakis, T.Nikitina - Created 37 // ------------------------------------------- 41 // ------------------------------------------------------------------- >> 42 38 #ifndef G4CONSTRK4_HH 43 #ifndef G4CONSTRK4_HH 39 #define G4CONSTRK4_HH 44 #define G4CONSTRK4_HH 40 45 41 #include "G4MagErrorStepper.hh" 46 #include "G4MagErrorStepper.hh" 42 #include "G4EquationOfMotion.hh" 47 #include "G4EquationOfMotion.hh" 43 #include "G4Mag_EqRhs.hh" 48 #include "G4Mag_EqRhs.hh" 44 49 45 class G4ConstRK4 : public G4MagErrorStepper 50 class G4ConstRK4 : public G4MagErrorStepper 46 { 51 { 47 public: << 52 public: // with description 48 << 49 G4ConstRK4(G4Mag_EqRhs* EquationMotion, G << 50 ~G4ConstRK4() override; << 51 53 52 G4ConstRK4(const G4ConstRK4&) = delete; << 54 G4ConstRK4(G4Mag_EqRhs *EquationMotion, G4int numberOfStateVariables=8); 53 G4ConstRK4& operator=(const G4ConstRK4&) << 55 ~G4ConstRK4(); 54 // Copy constructor and assignment oper << 55 56 56 void Stepper( const G4double y[], 57 void Stepper( const G4double y[], 57 const G4double dydx[], 58 const G4double dydx[], 58 G4double h, 59 G4double h, 59 G4double yout[], 60 G4double yout[], 60 G4double yerr[] ) ov << 61 G4double yerr[] ); 61 void DumbStepper( const G4double yIn[], << 62 void DumbStepper( const G4double yIn[], 62 const G4double dydx[], << 63 const G4double dydx[], 63 G4double h, << 64 G4double h, 64 G4double yOut[] ) << 65 G4double yOut[] ) ; 65 G4double DistChord() const override; << 66 G4double DistChord() const; 66 67 67 inline void RightHandSideConst(const G4d << 68 inline void RightHandSideConst(const G4double y[], 68 G4d << 69 G4double dydx[] ) const; 69 70 70 inline void GetConstField(const G4double << 71 inline void GetConstField(const G4double y[],G4double Field[]); >> 72 >> 73 public: // without description >> 74 >> 75 G4int IntegratorOrder() const { return 4; } >> 76 >> 77 private: 71 78 72 G4int IntegratorOrder() const override { << 79 G4ConstRK4(const G4ConstRK4&); >> 80 G4ConstRK4& operator=(const G4ConstRK4&); >> 81 // Private copy constructor and assignment operator. 73 82 74 private: 83 private: 75 84 76 G4ThreeVector fInitialPoint, fMidPoint, f 85 G4ThreeVector fInitialPoint, fMidPoint, fFinalPoint; 77 // Data stored in order to find the chord 86 // Data stored in order to find the chord 78 G4double *dydxm, *dydxt, *yt; // scratch 87 G4double *dydxm, *dydxt, *yt; // scratch space - not state 79 G4double *yInitial, *yMiddle, *dydxMid, * 88 G4double *yInitial, *yMiddle, *dydxMid, *yOneStep; 80 G4Mag_EqRhs* fEq = nullptr; << 89 G4Mag_EqRhs *fEq; 81 G4double Field[3]; 90 G4double Field[3]; 82 }; 91 }; 83 92 84 // Inline methods 93 // Inline methods 85 94 86 inline void G4ConstRK4::RightHandSideConst(con << 95 inline void G4ConstRK4:: RightHandSideConst(const G4double y[], 87 << 96 G4double dydx[] ) const 88 { 97 { 89 98 90 G4double momentum_mag_square = y[3]*y[3] + y 99 G4double momentum_mag_square = y[3]*y[3] + y[4]*y[4] + y[5]*y[5]; 91 G4double inv_momentum_magnitude = 1.0 / std: 100 G4double inv_momentum_magnitude = 1.0 / std::sqrt( momentum_mag_square ); 92 101 93 G4double cof = fEq->FCof()*inv_momentum_magn << 102 G4double cof =fEq->FCof()*inv_momentum_magnitude; 94 103 95 dydx[0] = y[3]*inv_momentum_magnitude; 104 dydx[0] = y[3]*inv_momentum_magnitude; // (d/ds)x = Vx/V 96 dydx[1] = y[4]*inv_momentum_magnitude; 105 dydx[1] = y[4]*inv_momentum_magnitude; // (d/ds)y = Vy/V 97 dydx[2] = y[5]*inv_momentum_magnitude; 106 dydx[2] = y[5]*inv_momentum_magnitude; // (d/ds)z = Vz/V 98 107 99 dydx[3] = cof*(y[4]*Field[2] - y[5]*Field[1] 108 dydx[3] = cof*(y[4]*Field[2] - y[5]*Field[1]) ; // Ax = a*(Vy*Bz - Vz*By) 100 dydx[4] = cof*(y[5]*Field[0] - y[3]*Field[2] 109 dydx[4] = cof*(y[5]*Field[0] - y[3]*Field[2]) ; // Ay = a*(Vz*Bx - Vx*Bz) 101 dydx[5] = cof*(y[3]*Field[1] - y[4]*Field[0] 110 dydx[5] = cof*(y[3]*Field[1] - y[4]*Field[0]) ; // Az = a*(Vx*By - Vy*Bx) 102 } 111 } 103 112 104 inline void G4ConstRK4::GetConstField(const G4 << 113 inline void G4ConstRK4::GetConstField(const G4double y[],G4double B[]) 105 { 114 { 106 G4double PositionAndTime[4]; << 115 G4double PositionAndTime[4]; 107 116 108 PositionAndTime[0] = y[0]; 117 PositionAndTime[0] = y[0]; 109 PositionAndTime[1] = y[1]; 118 PositionAndTime[1] = y[1]; 110 PositionAndTime[2] = y[2]; 119 PositionAndTime[2] = y[2]; 111 // Global Time 120 // Global Time 112 PositionAndTime[3] = y[7]; << 121 PositionAndTime[3] = y[7]; 113 fEq -> GetFieldValue(PositionAndTime, B); << 122 fEq -> GetFieldValue(PositionAndTime, B) ; 114 } 123 } 115 124 116 #endif << 125 #endif // G4CONSTRK4_HH 117 126