G4MagHelicalStepper.hh

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// $Id: G4MagHelicalStepper.hh 66356 2012-12-18 09:02:32Z gcosmo $
//
//
//
// class G4MagHelicalStepper
//
// Class description:
//
// Abstract base class for integrator of particle's equation of motion,
// used in tracking in space dependent magnetic field

// History:
// - 05.11.98  J.Apostolakis   Creation of new ABC 
// --------------------------------------------------------------------

#ifndef G4MagHelicalStepper_hh
#define G4MagHelicalStepper_hh

#include <CLHEP/Units/PhysicalConstants.h>

#include "G4Types.hh"
#include "G4MagIntegratorStepper.hh"
#include "G4Mag_EqRhs.hh"
#include "G4ThreeVector.hh"

class G4MagHelicalStepper : public G4MagIntegratorStepper
{
  public:  // with description

    G4MagHelicalStepper(G4Mag_EqRhs *EqRhs);
    virtual ~G4MagHelicalStepper();
  
    virtual void Stepper( const G4double y[],    // VIRTUAL for ExactHelix - temporary
                  const G4double dydx[],
                        G4double h,
                        G4double yout[],
                        G4double yerr[]  );
      // The stepper for the Runge Kutta integration.
      // The stepsize is fixed, equal to h.
      // Integrates ODE starting values y[0 to 6]
      // Outputs yout[] and its estimated error yerr[].
  
    virtual  void DumbStepper( const G4double y[],
                               G4ThreeVector   Bfld,
                               G4double  h,
                               G4double yout[] ) = 0;
      // Performs a 'dump' Step without error calculation.
  
    G4double DistChord()const ;
      // Estimate maximum distance of curved solution and chord ... 

  protected:  // with description

    inline void LinearStep( const G4double  yIn[],
                                  G4double  h,
                                  G4double  yHelix[]) const;
      // A linear Step in regions without magnetic field.

     void AdvanceHelix( const G4double  yIn[],
                             G4ThreeVector   Bfld,
                             G4double  h,
            G4double  yHelix[],G4double yHelix2[]=0);    // output 
      // A first order Step along a helix inside the field.

    inline void MagFieldEvaluate( const G4double y[], G4ThreeVector& Bfield );
      // Evaluate the field at a certain point.

  
   inline G4double GetInverseCurve( const G4double Momentum, const G4double Bmag );
      // Evaluate Inverse of Curvature of Track

      // Store and use the parameters of track : 
      // Radius of curve, Stepping angle, Radius of projected helix
   inline void SetAngCurve(const G4double Ang);
   inline G4double GetAngCurve()const;

   inline void SetCurve(const G4double Curve);
   inline G4double GetCurve()const;

   inline void SetRadHelix(const G4double Rad);
   inline G4double GetRadHelix()const;


  protected:  // without description

    // void MagFieldEvaluate( const G4double y[], G4double B[] )   
    //  { GetEquationOfMotion()->  GetFieldValue(y, B); }

  private:

    G4MagHelicalStepper(const G4MagHelicalStepper&);
    G4MagHelicalStepper& operator=(const G4MagHelicalStepper&);
      // Private copy constructor and assignment operator.
 
    static const G4double fUnitConstant;   //  As in G4Mag_EqRhs.hh/cc where it is not used.
  private:
   
    G4Mag_EqRhs*  fPtrMagEqOfMot;
 
    // Data stored in order to find the chord.
      G4double fAngCurve;
      G4double frCurve;
      G4double frHelix;
    // Data stored in order to find the chord.
      G4ThreeVector yInitial, yMidPoint, yFinal;
       
    
};

#include  "G4MagHelicalStepper.icc"

#endif  /* G4MagHelicalStepper_hh */