G4ParticleChangeForDecay.hh

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// G4ParticleChangeForDecay
//
// Class description:
//
// Concrete class for ParticleChange which has functionality for G4Decay.
//
// This class contains the results after invocation of the decay process.
// This includes secondary particles generated by the interaction.
 
// Author: Hisaya Kurashige, 23 March 1998  
// --------------------------------------------------------------------
#ifndef G4ParticleChangeForDecay_hh
#define G4ParticleChangeForDecay_hh 1
 
#include "globals.hh"
#include "G4ios.hh"
#include "G4ThreeVector.hh"
#include "G4VParticleChange.hh"
 
class G4DynamicParticle;
 
class G4ParticleChangeForDecay final : public G4VParticleChange
{
  public:
 
    G4ParticleChangeForDecay();
 
    ~G4ParticleChangeForDecay() override = default;
 
    G4ParticleChangeForDecay(const G4ParticleChangeForDecay& right) = delete;
    G4ParticleChangeForDecay& operator=(const G4ParticleChangeForDecay& right) = delete;
 
  // --- the following methods are for updating G4Step -----
  // Return the pointer to the G4Step after updating the step information
  // by using final state information of the track given by a physics process
  // !!! No effect for  AlongSteyp
 
    G4Step* UpdateStepForAtRest(G4Step* Step) final;
    G4Step* UpdateStepForPostStep(G4Step* Step) final;
 
    void Initialize(const G4Track&) final;
      // Initialize all properties by using G4Track information
 
    void ProposeGlobalTime(G4double t);
    void ProposeLocalTime(G4double t);
      // Get/Propose the final global/local time
      // NOTE: DO NOT INVOKE both methods in a step
      //       Each method affects both local and global time
 
    G4double GetGlobalTime(G4double timeDelay = 0.0) const;
    G4double GetLocalTime(G4double timeDelay = 0.0) const;
      // Convert the time delay to the glocbal/local time.
      // Can get  the final global/local time without argument
 
    const G4ThreeVector* GetPolarization() const;
    void ProposePolarization(G4double Px, G4double Py, G4double Pz);
    void ProposePolarization(const G4ThreeVector& finalPoralization);
      // Get/Propose the final Polarization vector
 
  // --- Dump and debug methods ---
 
    void DumpInfo() const final;
 
    G4bool CheckIt(const G4Track&) final;
 
  private:
 
    G4double theGlobalTime0 = 0.0;
      // The global time at Initial
    G4double theLocalTime0 = 0.0;
      // The local time at Initial
 
    G4double theTimeChange = 0.0;
      // The change of local time of a given particle
 
    G4ThreeVector thePolarizationChange;
      // The changed (final) polarization of a given track
};
 
// ----------------------
// Inline methods
// ----------------------
 
inline
void G4ParticleChangeForDecay::ProposeGlobalTime(G4double t)
{
  theTimeChange = (t - theGlobalTime0) + theLocalTime0;
}
 
inline
G4double G4ParticleChangeForDecay::GetGlobalTime(G4double timeDelay) const
{
  //  Convert the time delay to the global time.
  return theGlobalTime0 + (theTimeChange - theLocalTime0) + timeDelay;
}
 
inline
void G4ParticleChangeForDecay::ProposeLocalTime(G4double t)
{
  theTimeChange = t;
}
 
inline
G4double G4ParticleChangeForDecay::GetLocalTime(G4double timeDelay) const
{
  //  Convert the time delay to the local time.
  return theTimeChange + timeDelay;
}
 
inline
const G4ThreeVector* G4ParticleChangeForDecay::GetPolarization() const
{
  return &thePolarizationChange;
}
 
inline
void G4ParticleChangeForDecay::ProposePolarization(
  const G4ThreeVector& finalPoralization)
{
  thePolarizationChange = finalPoralization;
}
 
inline
void G4ParticleChangeForDecay::ProposePolarization(G4double Px,
                                                   G4double Py,
                                                   G4double Pz)
{
  thePolarizationChange.setX(Px);
  thePolarizationChange.setY(Py);
  thePolarizationChange.setZ(Pz);
}
 
#endif