XrayFluoPlanePrimaryGeneratorAction Class Reference

#include <XrayFluoPlanePrimaryGeneratorAction.hh>

Inheritance diagram for XrayFluoPlanePrimaryGeneratorAction:

Public Member Functions
	XrayFluoPlanePrimaryGeneratorAction (XrayFluoPlaneDetectorConstruction *)
	~XrayFluoPlanePrimaryGeneratorAction ()
void	GeneratePrimaries (G4Event *)
void	SetRndmFlag (G4String val)
void	SetRndmVert (G4String val)
void	SetSpectrum (G4String val)
void	SetIsoVert (G4String val)
Public Member Functions inherited from G4VUserPrimaryGeneratorAction
	G4VUserPrimaryGeneratorAction ()
virtual	~G4VUserPrimaryGeneratorAction ()

Detailed Description

Definition at line 53 of file XrayFluoPlanePrimaryGeneratorAction.hh.

Constructor & Destructor Documentation

XrayFluoPlanePrimaryGeneratorAction::XrayFluoPlanePrimaryGeneratorAction

(

XrayFluoPlaneDetectorConstruction *

XrayFluoDC

)

Definition at line 56 of file XrayFluoPlanePrimaryGeneratorAction.cc.

References python.hepunit::cm, G4ParticleTable::FindParticle(), G4cout, G4endl, G4ParticleTable::GetParticleTable(), XrayFluoPlaneDetectorConstruction::GetWorldSizeZ(), python.hepunit::keV, G4ParticleGun::SetParticleDefinition(), G4ParticleGun::SetParticleEnergy(), G4ParticleGun::SetParticleMomentumDirection(), and G4VPrimaryGenerator::SetParticlePosition().

  :rndmFlag("on"),beam("off"),spectrum("off"),isoVert("off")
{

  XrayFluoDetector = XrayFluoDC;

  G4int n_particle = 1;
  particleGun  = new G4ParticleGun(n_particle);
  
  //create a messenger for this class
  gunMessenger = new XrayFluoPlanePrimaryGeneratorMessenger(this);
  runManager = new XrayFluoRunAction();
  
  // default particle kinematic
  
  G4ParticleTable* particleTable = G4ParticleTable::GetParticleTable();
  G4String particleName;
  G4ParticleDefinition* particle
    = particleTable->FindParticle(particleName="gamma");
  particleGun->SetParticleDefinition(particle);
  particleGun->SetParticleMomentumDirection(G4ThreeVector(0.,0.,1.));
  

  particleGun->SetParticleEnergy(10.*keV);
  G4double position = -0.5*(XrayFluoDetector->GetWorldSizeZ());
  particleGun->SetParticlePosition(G4ThreeVector(0.*cm,0.*cm,position));

  G4cout << "XrayFluoPlanePrimaryGeneratorAction created  UUUUUUUUUUAAAAAAAAAAAAAAAAAAAAAAAaa" << G4endl;
  
}

XrayFluoPlanePrimaryGeneratorAction::~XrayFluoPlanePrimaryGeneratorAction

(

)

Definition at line 90 of file XrayFluoPlanePrimaryGeneratorAction.cc.

References G4cout, and G4endl.

{
  delete particleGun;
  delete gunMessenger;
  delete runManager;

  G4cout << "XrayFluoPlanePrimaryGeneratorAction deleted" << G4endl;

}

Member Function Documentation

void XrayFluoPlanePrimaryGeneratorAction::GeneratePrimaries ( G4Event *  anEvent )

virtual

Implements G4VUserPrimaryGeneratorAction.

Definition at line 102 of file XrayFluoPlanePrimaryGeneratorAction.cc.

References XrayFluoDataSet::FindValue(), G4UniformRand, G4ParticleGun::GeneratePrimaryVertex(), XrayFluoRunAction::GetData(), XrayFluoRunAction::GetDataSum(), XrayFluoRunAction::GetEnergies(), XrayFluoRunAction::GetGammaSet(), G4ParticleGun::GetParticleDefinition(), G4ParticleGun::GetParticleEnergy(), G4ParticleDefinition::GetParticleName(), XrayFluoPlaneDetectorConstruction::GetPlaneSizeXY(), XrayFluoPlaneDetectorConstruction::GetWorldSizeXY(), XrayFluoPlaneDetectorConstruction::GetWorldSizeZ(), python.hepunit::keV, python.hepunit::m, python.hepunit::mm, python.hepunit::pi, python.hepunit::rad, G4ParticleGun::SetParticleEnergy(), G4ParticleGun::SetParticleMomentumDirection(), G4VPrimaryGenerator::SetParticlePosition(), test::x, z, and G4InuclParticleNames::z0.

{
  //this function is called at the begining of event
  // 
  G4double z0 = -0.5*(XrayFluoDetector->GetWorldSizeZ());
  G4double y0 = 0.*m, x0 = 0.*m;
  G4double dX = 0.5*(XrayFluoDetector->GetWorldSizeXY())-(XrayFluoDetector->GetPlaneSizeXY());
  if (rndmFlag == "on")

    {y0 = (XrayFluoDetector->GetPlaneSizeXY())*(G4UniformRand()-0.5); 
    x0 = (XrayFluoDetector->GetPlaneSizeXY())*(G4UniformRand()-0.5) + dX; 
    } 

  z0 = -1 * dX;

  particleGun->SetParticleMomentumDirection(G4ThreeVector(-1.,0.,1.));

  particleGun->SetParticlePosition(G4ThreeVector(x0,y0,z0));
  
  //randomize starting point
  if (beam == "on")
    {
      G4double radius = 0.5 * mm;
      G4double rho = radius*std::sqrt(G4UniformRand());
      G4double theta = 2*pi*G4UniformRand()*rad;
      G4double position = -0.5*(XrayFluoDetector->GetWorldSizeZ());
      
      G4double y = rho * std::sin(theta);
      G4double x = rho * std::cos(theta);
      
      particleGun->SetParticlePosition(G4ThreeVector(x,y,position));
    }
  //shoot particles according to a certain spectrum
  if (spectrum =="on")
    {
      G4String particle =  particleGun->GetParticleDefinition()
    ->GetParticleName();
      if(particle == "proton"|| particle == "alpha")
    {
      G4DataVector* energies =  runManager->GetEnergies();
      G4DataVector* data =  runManager->GetData();
     
      G4double sum = runManager->GetDataSum();
      G4double partSum = 0;
      G4int j = 0;
      G4double random= sum*G4UniformRand();
      while (partSum<random)
        {
          partSum += (*data)[j];
          j++;
        }
     
      particleGun->SetParticleEnergy((*energies)[j]);
    
    }
      else if (particle == "gamma")
    {
      const XrayFluoDataSet* dataSet = runManager->GetGammaSet();
      
      G4int i = 0;
      G4int id = 0;
      G4double minEnergy = 0. * keV;
      G4double particleEnergy= 0.;
      G4double maxEnergy = 10. * keV;
      G4double energyRange = maxEnergy - minEnergy;

       while ( i == 0)
        {
          G4double random = G4UniformRand();
          
          G4double randomNum = G4UniformRand(); //*5.0E6;
          
          particleEnergy = (random*energyRange) + minEnergy;
          
          if ((dataSet->FindValue(particleEnergy,id)) > randomNum)
        {
          i = 1;
          
        }
        }
       particleGun->SetParticleEnergy(particleEnergy);
    }
    }
  
  if (isoVert == "on")
    {
      G4double rho = 1. *m;
      //theta in [0;pi/2]
      G4double theta = (pi/2)*G4UniformRand();
      //phi in [-pi;pi]
      G4double phi = (G4UniformRand()*2*pi)- pi;
      G4double x = rho*std::sin(theta)*std::sin(phi);
      G4double y = rho*std::sin(theta)*std::cos(phi);
      G4double z = -(rho*std::cos(theta));
      particleGun->SetParticlePosition(G4ThreeVector(x,y,z));
      
      G4double Xdim = XrayFluoDetector->GetPlaneSizeXY();
      G4double Ydim = XrayFluoDetector->GetPlaneSizeXY();
      
      G4double Dx = Xdim*(G4UniformRand()-0.5);
      
      G4double Dy = Ydim*(G4UniformRand()-0.5);
      
      particleGun->SetParticleMomentumDirection(G4ThreeVector(-x+Dx,-y+Dy,-z));
      
    }
#ifdef G4ANALYSIS_USE 

  G4double partEnergy = particleGun->GetParticleEnergy();
  XrayFluoAnalysisManager* analysis =  XrayFluoAnalysisManager::getInstance();
  analysis->analysePrimaryGenerator(partEnergy/keV);

#endif
 
  particleGun->GeneratePrimaryVertex(anEvent);
}

void XrayFluoPlanePrimaryGeneratorAction::SetIsoVert ( G4String  val )

inline

Definition at line 74 of file XrayFluoPlanePrimaryGeneratorAction.hh.

Referenced by XrayFluoPlanePrimaryGeneratorMessenger::SetNewValue().

{ isoVert = val  ;}

void XrayFluoPlanePrimaryGeneratorAction::SetRndmFlag ( G4String  val )

inline

Definition at line 65 of file XrayFluoPlanePrimaryGeneratorAction.hh.

Referenced by XrayFluoPlanePrimaryGeneratorMessenger::SetNewValue().

{ rndmFlag = val;}

void XrayFluoPlanePrimaryGeneratorAction::SetRndmVert ( G4String  val )

inline

Definition at line 68 of file XrayFluoPlanePrimaryGeneratorAction.hh.

Referenced by XrayFluoPlanePrimaryGeneratorMessenger::SetNewValue().

{ beam = val;}

void XrayFluoPlanePrimaryGeneratorAction::SetSpectrum ( G4String  val )

inline

Definition at line 71 of file XrayFluoPlanePrimaryGeneratorAction.hh.

Referenced by XrayFluoPlanePrimaryGeneratorMessenger::SetNewValue().

{ spectrum= val  ;}

---

The documentation for this class was generated from the following files:

• XrayFluoPlanePrimaryGeneratorAction.hh
• XrayFluoPlanePrimaryGeneratorAction.cc