G4HelixHeum.cc

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//
// G4HelixHeum implementation
//
// Simple Heum:
//        x_1 = x_0 + h *
//                1/4 * dx(t0,x0)  +
//                3/4 * dx(t0+2/3*h, x0+2/3*h*(dx(t0+h/3,x0+h/3*dx(t0,x0)))) 
//
//  Third order solver.
//
// Author: W.Wander <wwc@mit.edu>, 03/11/1998
// -------------------------------------------------------------------
 
#include "G4HelixHeum.hh"
#include "G4ThreeVector.hh"
 
G4HelixHeum::G4HelixHeum(G4Mag_EqRhs* EqRhs)
  : G4MagHelicalStepper(EqRhs)
{
}
G4HelixHeum::G4HelixHeum(G4Mag_EqRhs* EqRhs) {…}
 
G4HelixHeum::~G4HelixHeum() = default;
  
void
G4HelixHeum::DumbStepper( const G4double  yIn[],
                          G4ThreeVector   Bfld,
                          G4double        h,
                          G4double        yOut[])
{
  const G4int nvar = 6 ;
 
  G4ThreeVector Bfield_Temp, Bfield_Temp2;
  G4double yTemp[6], yAdd1[6], yAdd2[6] , yTemp2[6];
 
  AdvanceHelix( yIn, Bfld, h, yAdd1 );
  
  AdvanceHelix( yIn, Bfld, h/3.0, yTemp );
  MagFieldEvaluate(yTemp,Bfield_Temp);
 
  AdvanceHelix( yIn, Bfield_Temp, (2.0 / 3.0) * h, yTemp2 );
  
  MagFieldEvaluate(yTemp2,Bfield_Temp2);
 
  AdvanceHelix( yIn, Bfield_Temp2, h, yAdd2 );
 
  for( G4int i = 0; i < nvar; ++i )
  {
    yOut[i] = ( 0.25 * yAdd1[i] + 0.75 * yAdd2[i]);
  }
 
  // NormaliseTangentVector( yOut );           
}  
G4HelixHeum::DumbStepper( const G4double  yIn[], {…}