G4SimpleRunge.cc

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//
//
// $Id$
//
//  Simple Runge:
//
//        x_1 = x_0 + h * ( dx( t_0+h/2, x_0 + h/2 * dx( t_0, x_0) ) )
//
// Second order solver.
// Takes the derivative at a position to be assumed at the middle of the
// Step and adds it to the current position.
//
//
//  W.Wander <[email protected]> 12/09/97 
// -------------------------------------------------------------------
 
#include "G4SimpleRunge.hh"
#include "G4ThreeVector.hh"
 
////////////////////////////////////////////////////////////////
//
// Constructor
 
G4SimpleRunge::G4SimpleRunge(G4EquationOfMotion* EqRhs, G4int numberOfVariables)
  : G4MagErrorStepper(EqRhs, numberOfVariables),
    fNumberOfVariables(numberOfVariables)
{
   
   unsigned int noVariables= std::max(numberOfVariables,
                    GetNumberOfStateVariables()); 
                                             // To deal with Time >= 7+1 
   dydxTemp = new G4double[noVariables] ;
   yTemp    = new G4double[noVariables] ;
}
 
 
/////////////////////////////////////////////////////////////////
//
// Destructor
 
G4SimpleRunge::~G4SimpleRunge()
{
   delete[] dydxTemp;
   delete[] yTemp;
}
 
//////////////////////////////////////////////////////////////////
//
//
 
void
G4SimpleRunge::DumbStepper( const G4double  yIn[],
                const G4double  dydx[],
                      G4double  h,
                  G4double  yOut[])
{
  // Initialise time to t0, needed when it is not updated by the integration.
  yTemp[7] = yOut[7] = yIn[7];   //  Better to set it to NaN;  // TODO
 
  G4int i;
 
  for( i = 0; i < fNumberOfVariables; i++ ) 
  {
    yTemp[i] = yIn[i] + 0.5 * h*dydx[i] ;
  }
  
  RightHandSide(yTemp,dydxTemp);
  
  for( i = 0; i < fNumberOfVariables; i++ ) 
  {
    yOut[i] = yIn[i] + h * ( dydxTemp[i] );
  }
}