G4RK547FEq2.cc

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//
// G4RK547FEq2 implementation
//
// The Butcher table of the Higham & Hall 5(4)7 method is:
//
//   0   |
//  2/13 |    2/13
//  2/13 |    3/52            9/52
//  5/9  |    12955/26244     -15925/8748    12350/6561
//  3/4  |    -10383/52480    13923/10496    -176553/199424        505197/997120
//   1   |    1403/7236       -429/268       733330/309339         -7884/8911        104960/113967
//   1   |    181/2700        0              656903/1846800        19683/106400      34112/110565      67/800
//----------------------------------------------------------------------------------------------------------------------
//            181/2700        0              656903/1846800        19683/106400      34112/110565      67/800       0
//            11377/154575    0              35378291/105729300    343359/1522850    535952/1947645    134/17175    1/12
//
// Author: Dmitry Sorokin, Google Summer of Code 2017
// Supervision: John Apostolakis, CERN
// --------------------------------------------------------------------
 
#include "G4RK547FEq2.hh"
#include "G4LineSection.hh"
#include "G4FieldUtils.hh"
 
using namespace field_utils;
 
G4RK547FEq2::G4RK547FEq2(G4EquationOfMotion* EqRhs, G4int integrationVariables)
  : G4MagIntegratorStepper(EqRhs, integrationVariables)
{
}
 
void G4RK547FEq2::makeStep( const G4double yInput[],
                            const G4double dydx[],
                            const G4double hstep,
                                  G4double yOutput[],
                                  G4double* dydxOutput,
                                  G4double* yError ) const
{
    G4double yTemp[G4FieldTrack::ncompSVEC];
    for (G4int i=GetNumberOfVariables(); i<GetNumberOfStateVariables(); ++i)
    {
        yOutput[i] = yTemp[i] = yInput[i];
    }
 
    G4double ak2[G4FieldTrack::ncompSVEC],
             ak3[G4FieldTrack::ncompSVEC],
             ak4[G4FieldTrack::ncompSVEC],
             ak5[G4FieldTrack::ncompSVEC],
             ak6[G4FieldTrack::ncompSVEC];
 
    const G4double b21 = 2./13.,
                   b31 = 3./52., b32 = 9./52.,
                   b41 = 12955./26244., b42 =  -15925./8748.,
                       b43 = 12350./6561.,
                   b51 = -10383./52480., b52 = 13923./10496.,
                       b53 = -176553./199424., b54 = 505197./997120.,
                   b61 = 1403./7236., b62 = -429./268., b63 = 733330./309339.,
                       b64 = -7884./8911., b65 = 104960./113967.,
                   b71 = 181./2700., b72 = 0., b73 = 656903./1846800.,
                       b74 = 19683./106400., b75 = 34112./110565.,
                       b76 =  67./800.;
 
    const G4double dc1 = b71 - 11377./154575.,
                   dc2 = b72 - 0.,
                   dc3 = b73 - 35378291./105729300.,
                   dc4 = b74 - 343359./1522850.,
                   dc5 = b75 - 535952./1947645.,
                   dc6 = b76 - 134./17175.,
                   dc7 = 0. - 1./12.;
 
    // RightHandSide(yInput, dydx);
    for(G4int i = 0; i < GetNumberOfVariables(); ++i)
        yTemp[i] = yInput[i] + hstep * b21 * dydx[i];
 
    RightHandSide(yTemp, ak2);
    for(G4int i = 0; i < GetNumberOfVariables(); ++i)
        yTemp[i] = yInput[i] + hstep * (b31 * dydx[i] + b32 * ak2[i]);
 
    RightHandSide(yTemp, ak3);
    for(G4int i = 0;i < GetNumberOfVariables(); ++i)
        yTemp[i] = yInput[i] + hstep * (b41 * dydx[i] + b42 * ak2[i] +
                                        b43 * ak3[i]);
 
    RightHandSide(yTemp, ak4);
    for(G4int i = 0; i < GetNumberOfVariables(); ++i)
        yTemp[i] = yInput[i] + hstep * (b51 * dydx[i] + b52 * ak2[i] +
                                        b53 * ak3[i] + b54 * ak4[i]);
 
    RightHandSide(yTemp, ak5);
    for(G4int i = 0; i < GetNumberOfVariables(); ++i)
        yTemp[i] = yInput[i] + hstep * (b61 * dydx[i] + b62 * ak2[i] +
                                        b63 * ak3[i] + b64 * ak4[i] +
                                        b65 * ak5[i]);
 
    RightHandSide(yTemp, ak6);
    for(G4int i = 0; i < GetNumberOfVariables(); ++i)
        yOutput[i] = yInput[i] + hstep * (b71 * dydx[i] + b72 * ak2[i] +
                                          b73 * ak3[i] + b74 * ak4[i] +
                                          b75 * ak5[i] + b76 * ak6[i]);
    if (dydxOutput && yError)
    {
        RightHandSide(yOutput, dydxOutput);
        for(G4int i = 0; i < GetNumberOfVariables(); ++i)
            yError[i] = hstep * (dc1 * dydx[i] + dc2 * ak2[i] + dc3 * ak3[i] +
                                 dc4 * ak4[i] + dc5 * ak5[i] + dc6 * ak6[i] +
                                 dc7 * dydxOutput[i]);
    }
}
 
void G4RK547FEq2::Stepper( const G4double yInput[],
                           const G4double dydx[],
                                 G4double hstep,
                                 G4double yOutput[],
                                 G4double yError[] )
{
    copy(fyIn, yInput);
    copy(fdydx, dydx);
    fhstep = hstep;
 
    makeStep(fyIn, fdydx, fhstep, fyOut, fdydxOut, yError);
 
    copy(yOutput, fyOut);
}
 
void G4RK547FEq2::Stepper( const G4double yInput[],
                           const G4double dydx[],
                                 G4double hstep,
                                 G4double yOutput[],
                                 G4double yError[],
                                 G4double dydxOutput[] )
{
    copy(fyIn, yInput);
    copy(fdydx, dydx);
    fhstep = hstep;
 
    makeStep(fyIn, fdydx, fhstep, fyOut, fdydxOut, yError);
 
    copy(yOutput, fyOut);
    copy(dydxOutput, fdydxOut);
}
 
G4double G4RK547FEq2::DistChord() const
{
    G4double yMid[G4FieldTrack::ncompSVEC];
    makeStep(fyIn, fdydx, fhstep / 2., yMid);
 
    const G4ThreeVector begin = makeVector(fyIn, Value3D::Position);
    const G4ThreeVector mid = makeVector(yMid, Value3D::Position);
    const G4ThreeVector end = makeVector(fyOut, Value3D::Position);
 
    return G4LineSection::Distline(mid, begin, end);
}