Geant4 LXR

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Geant4/processes/hadronic/models/binary_cascade/include/G4RKPropagation.hh

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Differences between /processes/hadronic/models/binary_cascade/include/G4RKPropagation.hh (Version 11.3.0) and /processes/hadronic/models/binary_cascade/include/G4RKPropagation.hh (Version 10.2.p3)

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  #ifndef G4RKPropagation_h                           #ifndef G4RKPropagation_h
  #define G4RKPropagation_h 1                         #define G4RKPropagation_h 1
                                                      
  #include "G4VFieldPropagation.hh"                   #include "G4VFieldPropagation.hh"
  #include "G4VNuclearField.hh"                       #include "G4VNuclearField.hh"
  #include "G4V3DNucleus.hh"                          #include "G4V3DNucleus.hh"
  #include "G4KM_DummyField.hh"                       #include "G4KM_DummyField.hh"
  #include "G4Mag_EqRhs.hh"                           #include "G4Mag_EqRhs.hh"
  #include <map>                                      #include <map>
                                                      
                                                      
  class G4RKPropagation: public G4VFieldPropagat      class G4RKPropagation: public G4VFieldPropagation
  {                                                   {
                                                      
  public:                                             public:
    G4RKPropagation();                                  G4RKPropagation();
    virtual ~G4RKPropagation();                         virtual ~G4RKPropagation();
                                                      
  private:                                            private:
    G4RKPropagation(const  G4RKPropagation &righ        G4RKPropagation(const  G4RKPropagation &right);
    const G4RKPropagation & operator=(const G4RK        const G4RKPropagation & operator=(const G4RKPropagation & right);
    G4bool operator==(const G4RKPropagation & ri <<     G4int operator==(const G4RKPropagation & right) const;
    G4bool operator!=(const G4RKPropagation & ri <<     G4int operator!=(const G4RKPropagation & right) const;
                                                      
  public:                                             public:
                                                      
    virtual void Init(G4V3DNucleus * nucleus);          virtual void Init(G4V3DNucleus * nucleus);
    virtual void Transport(G4KineticTrackVector         virtual void Transport(G4KineticTrackVector &theActive,
         const G4KineticTrackVector &theSpectato             const G4KineticTrackVector &theSpectators,
         G4double theTimeStep);                              G4double theTimeStep);
    G4bool GetSphereIntersectionTimes(const G4Ki        G4bool GetSphereIntersectionTimes(const G4KineticTrack * track,
              G4double & t1, G4double & t2);                      G4double & t1, G4double & t2);
    G4ThreeVector GetMomentumTransfer() const;          G4ThreeVector GetMomentumTransfer() const;
  private:                                            private:
    G4double theOuterRadius;                            G4double theOuterRadius;
    G4V3DNucleus * theNucleus;                          G4V3DNucleus * theNucleus;
    std::map <G4int, G4VNuclearField *, std::les        std::map <G4int, G4VNuclearField *, std::less<G4int> > * theFieldMap;
    std::map <G4int, G4Mag_EqRhs *, std::less<G4        std::map <G4int, G4Mag_EqRhs *, std::less<G4int> > * theEquationMap;
    G4KM_DummyField * theField;                         G4KM_DummyField * theField;
                                                      
    G4ThreeVector theMomentumTranfer;                   G4ThreeVector theMomentumTranfer;
                                                      
    G4bool GetSphereIntersectionTimes(const G4do        G4bool GetSphereIntersectionTimes(const G4double radius,
              const G4ThreeVector & currentPos,                   const G4ThreeVector & currentPos,
              const G4LorentzVector & momentum,                   const G4LorentzVector & momentum,
              G4double & t1, G4double & t2);                      G4double & t1, G4double & t2);
  // implementation                                   // implementation
                                                      
    G4bool FieldTransport(G4KineticTrack * track        G4bool FieldTransport(G4KineticTrack * track, const G4double timestep);
    G4bool FreeTransport(G4KineticTrack * track,        G4bool FreeTransport(G4KineticTrack * track, const G4double timestep);
                                                      
    void delete_FieldsAndMap(                           void delete_FieldsAndMap(
    std::map <G4int, G4VNuclearField *, std::les        std::map <G4int, G4VNuclearField *, std::less<G4int> > * aMap);
    void delete_EquationsAndMap(                        void delete_EquationsAndMap(
    std::map <G4int, G4Mag_EqRhs *, std::less<G4        std::map <G4int, G4Mag_EqRhs *, std::less<G4int> > * aMap);
                                                        
    public:                                             public:
    inline G4double GetBarrier(G4int encoding)          inline G4double GetBarrier(G4int encoding) 
    {                                                   {     
    std::map <G4int, G4VNuclearField *, std::les        std::map <G4int, G4VNuclearField *, std::less<G4int> >::iterator iter;
    iter = theFieldMap->find(encoding);                 iter = theFieldMap->find(encoding);
    if(iter == theFieldMap->end()) return 0;            if(iter == theFieldMap->end()) return 0;
    return (*theFieldMap)[encoding]->GetBarrier(        return (*theFieldMap)[encoding]->GetBarrier();
    }                                                   }
                                                        
    inline G4double GetField(G4int encoding,G4Th        inline G4double GetField(G4int encoding,G4ThreeVector pos)
    {                                                   {
    std::map <G4int, G4VNuclearField *, std::les        std::map <G4int, G4VNuclearField *, std::less<G4int> >::iterator iter;
    iter = theFieldMap->find(encoding);                 iter = theFieldMap->find(encoding);
    if(iter == theFieldMap->end()) return 0;            if(iter == theFieldMap->end()) return 0;
    return (*theFieldMap)[encoding]->GetField(po        return (*theFieldMap)[encoding]->GetField(pos);
    }                                                   }
                                                      
 };                                                 };
                                                    
 #endif                                             #endif