G4ErrorFreeTrajState.hh

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// $Id: G4ErrorFreeTrajState.hh 66892 2013-01-17 10:57:59Z gunter $
//
// Class Description:
//
// Represents a free G4ErrorTrajState
// It can be represented by the 5 variables
//     1/p, lambda, phi, y_perp, z_perp
// where lambda and phi are the dip and azimuthal angles related
// to the momentum components in the following way:
//            p_x = p cos(lambda) cos(phi)  ! lambda = 90 - theta
//            p_y = p cos(lambda) sin(phi)
//            p_z = p sin(lambda)
// y_perp and z_perp are the coordinates of the trajectory in a
// local orthonormal reference frame with the x_perp axis along the
// particle direction, the y_perp being parallel to the x-y plane.
//
// This class also takes care of propagating the error associated to 
// the trajectory 

// History:
// - Created:   P. Arce
// --------------------------------------------------------------------

#ifndef G4ErrorFreeTrajState_hh
#define G4ErrorFreeTrajState_hh

#include "globals.hh"

#include "G4ErrorMatrix.hh"

#include "G4ErrorTrajState.hh"
#include "G4ErrorFreeTrajParam.hh"

#include "G4Point3D.hh"
#include "G4Vector3D.hh"

class G4ErrorSurfaceTrajState;

class G4ErrorFreeTrajState : public G4ErrorTrajState
{
 public:  // with description

  G4ErrorFreeTrajState() : theFirstStep(true) {}
  G4ErrorFreeTrajState( const G4String& partName,
                        const G4Point3D& pos,
                        const G4Vector3D& mom,
                        const G4ErrorTrajErr& errmat = G4ErrorTrajErr(5,0) );
    // Constructor by providing particle, position and momentum

  G4ErrorFreeTrajState( const G4ErrorSurfaceTrajState& tpOS );
    // Constructor by providing G4ErrorSurfaceTrajState

  ~G4ErrorFreeTrajState(){}

  virtual G4int Update( const G4Track* aTrack );
    // update parameters from G4Track

  virtual G4int PropagateError( const G4Track* aTrack );
    // propagate the error along the step

  virtual void Dump( std::ostream& out = G4cout ) const;
    // dump TrajState parameters

  friend
    std::ostream& operator<<(std::ostream&, const G4ErrorFreeTrajState& ts);

  // Set and Get methods 

  virtual void SetPosition( const G4Point3D pos )
    { SetParameters( pos, fMomentum ); }

  virtual void SetMomentum( const G4Vector3D& mom )
    { SetParameters( fPosition, mom ); }

  void SetParameters( const G4Point3D& pos, const G4Vector3D& mom )
    {
      fPosition = pos;
      fMomentum = mom;
      fTrajParam.SetParameters( pos, mom );
    }

  G4ErrorFreeTrajParam GetParameters() const
    { return fTrajParam; }

  G4ErrorMatrix GetTransfMat() const
    { return theTransfMat; }

 private:  

  void Init();
    // define TrajState type and build charge

  G4int PropagateErrorMSC( const G4Track* aTrack );
    // add the error associated to multiple scattering

  void CalculateEffectiveZandA( const G4Material* mate, double& effZ, double& effA );
    // calculate effective Z and A (needed by PropagateErrorMSC)
  
  G4int PropagateErrorIoni( const G4Track* aTrack );
    // add the error associated to ionization energy loss


 private:

  G4ErrorFreeTrajParam fTrajParam;

  G4ErrorMatrix theTransfMat;

  G4bool theFirstStep; // to count if transf mat is updated or initialized
};

#endif