G4SingleParticleSource.hh

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//
// MODULE:        G4SingleParticleSource.hh
//
// Version:      1.0
// Date:         5/02/04
// Author:       Fan Lei 
// Organisation: QinetiQ ltd.
// Customer:     ESA/ESTEC
//
//
// CHANGE HISTORY
// --------------
//
// Version 1.0, 05/02/2004, Fan Lei, Created.
//      Based on the G4GeneralParticleSource class in Geant4 v6.0
//
//
// Class Description:
//
// The Single Particle Source is designed to extend the functionality of the
// G4ParticleGun class. It is designed to allow specification of input
// particles in terms of position, direction (or angular) and energy
// distributions.  It is used by the General Particle source class
// and it is derived from G4VPrimaryGenerator.
//
// Note on thread safety:
//    G4SingleParticleSource instances can be shared among threads. GeneratePrimaryVertex
//    is protected via a mutex because underlying generators are not assumed to be thread-safe.
//    Note that internal status of this class is assumed to be changed by master thread (typically
//    via UI commands).
//
//
// MEMBER FUNCTIONS
// ----------------
//
// G4SingleParticleSource ()
//    Constructor: Initializes variables and instantiates the 
//                 Messenger and Navigator classes
//
// ~G4SingleParticleSource ()
//    Destructor:  deletes Messenger and prints out run information.
//
// void GeneratePrimaryVertex(G4Event *evt)
//    Generate the particles initial parameters.
//
//  G4SPSPosDistribution* GetPosDist()
//    Return a pointer to the position distribution generator
//
//  G4SPSAngDistribution* GetAngDist() 
//    Return a pointer to the angular distribution generator
//
//  G4SPSEneDistribution* GetEneDist() 
//     Return a pointer to the energy distribution generator
//
//  G4SPSRandomGenerator* GetBiasRndm() {return biasRndm;};
//     Return a pointer to the biased random number generator
//
//  void SetVerbosity(G4int);
//     Set the verbosity level.
//
//  void SetParticleDefinition ();
//  G4ParticleDefinition * GetParticleDefinition () 
//     Get/Set the particle definition of the primary track
//
//  void SetParticleCharge(G4double aCharge) 
//     set the charge state of the primary track
//
//  inline void SetParticlePolarization (G4ThreeVector aVal) 
//  inline G4ThreeVector GetParticlePolarization ()
//     Set/Get the polarization state of the primary track
//
//  inline void SetParticleTime(G4double aTime)  { particle_time = aTime; };
//  inline G4double GetParticleTime()  { return particle_time; };
//     Set/Get the Time.
//
//  inline void SetNumberOfParticles(G4int i) 
//  inline G4int GetNumberOfParticles() 
//     set/get the number of particles to be generated in the primary track
//
//  inline G4ThreeVector GetParticlePosition()  
//  inline G4ThreeVector GetParticleMomentumDirection()  
//  inline G4double GetParticleEnergy()  
//     get the position, direction, and energy of the current particle 
//
//
#ifndef G4SingleParticleSource_h
#define G4SingleParticleSource_h 1

#include "G4VPrimaryGenerator.hh"
#include "G4ParticleMomentum.hh"
#include "G4ParticleDefinition.hh"
//
#include "G4SPSPosDistribution.hh"
#include "G4SPSAngDistribution.hh"
#include "G4SPSEneDistribution.hh"
#include "G4SPSRandomGenerator.hh"
#include "G4Threading.hh"
#include "G4Cache.hh"

class G4SingleParticleSource: public G4VPrimaryGenerator {
public:
  G4SingleParticleSource();
  ~G4SingleParticleSource();

  void GeneratePrimaryVertex(G4Event *evt);
  //

  G4SPSPosDistribution* GetPosDist() const {
    return posGenerator;
  }
  ;
  G4SPSAngDistribution* GetAngDist() const {
    return angGenerator;
  }
  ;
  G4SPSEneDistribution* GetEneDist() const {
    return eneGenerator;
  }
  ;
  G4SPSRandomGenerator* GetBiasRndm() const {
    return biasRndm;
  }
  ;

  // Set the verbosity level.
  void SetVerbosity(G4int);

  // Set the particle species
  void SetParticleDefinition(G4ParticleDefinition * aParticleDefinition);
  inline G4ParticleDefinition * GetParticleDefinition() const {
    return definition;
  }
  ;

  inline void SetParticleCharge(G4double aCharge) {
          charge = aCharge;
  }
  ;

  // Set polarization
  inline void SetParticlePolarization(G4ThreeVector aVal) {
    polarization = aVal;
  }
  ;
  inline G4ThreeVector GetParticlePolarization() const {
    return polarization;
  }
  ;

  // Set Time.
  inline void SetParticleTime(G4double aTime) {
    time = aTime;
  }
  ;
  inline G4double GetParticleTime() const {
    return time;
  }
  ;

  inline void SetNumberOfParticles(G4int i) {
    NumberOfParticlesToBeGenerated = i;
  }
  ;
  //
  inline G4int GetNumberOfParticles() const {
    return NumberOfParticlesToBeGenerated;
  }
  ;
  inline G4ThreeVector GetParticlePosition() const {
    return ParticleProperties.Get().position;
  }
  ;
  inline G4ThreeVector GetParticleMomentumDirection() const {
    return ParticleProperties.Get().momentum_direction;
  }
  ;
  inline G4double GetParticleEnergy() const {
    return ParticleProperties.Get().energy;
  }
  ;

private:

  G4SPSPosDistribution* posGenerator;
  G4SPSAngDistribution* angGenerator;
  G4SPSEneDistribution* eneGenerator;
  G4SPSRandomGenerator* biasRndm;
  //
  // Other particle properties
  //These need to be thread-local because
  //a getter for them exits
  struct part_prop_t {
    G4ParticleMomentum momentum_direction; 
    G4double energy; 
    G4ThreeVector position; 
    //G4double weight;
    part_prop_t();
  };
  G4Cache<part_prop_t> ParticleProperties;
        G4int NumberOfParticlesToBeGenerated;
        G4ParticleDefinition * definition;
        G4double charge;
        G4double time;
        G4ThreeVector polarization;

  // Verbosity
  G4int verbosityLevel;

    //This can be a shared resource, this mutex is used in GeneratePrimaryVertex
    G4Mutex mutex;
};

#endif