#include <G4DormandPrinceRK78.hh>

Inheritance diagram for G4DormandPrinceRK78:

Public Member Functions
G4double	DistChord () const

	G4DormandPrinceRK78 (const G4DormandPrinceRK78 &)=delete

	G4DormandPrinceRK78 (G4EquationOfMotion *EqRhs, G4int numberOfVariables=6, G4bool primary=true)

G4EquationOfMotion *	GetEquationOfMotion ()

const G4EquationOfMotion *	GetEquationOfMotion () const

unsigned long	GetfNoRHSCalls ()

G4int	GetNumberOfStateVariables () const

G4int	GetNumberOfVariables () const

G4int	IntegrationOrder ()

G4int	IntegratorOrder () const

G4bool	IsFSAL () const

void	NormalisePolarizationVector (G4double vec[12])

void	NormaliseTangentVector (G4double vec[6])

G4DormandPrinceRK78 &	operator= (const G4DormandPrinceRK78 &)=delete

void	ResetfNORHSCalls ()

void	RightHandSide (const G4double y[], G4double dydx[]) const

void	RightHandSide (const G4double y[], G4double dydx[], G4double field[]) const

void	SetEquationOfMotion (G4EquationOfMotion *newEquation)

void	Stepper (const G4double y[], const G4double dydx[], G4double h, G4double yout[], G4double yerr[])

	~G4DormandPrinceRK78 ()

Protected Member Functions
void	SetFSAL (G4bool flag=true)

void	SetIntegrationOrder (G4int order)

Private Attributes
G4double *	ak10

G4double *	ak11

G4double *	ak12

G4double *	ak13

G4double *	ak2

G4double *	ak3

G4double *	ak4

G4double *	ak5

G4double *	ak6

G4double *	ak7

G4double *	ak8

G4double *	ak9

G4DormandPrinceRK78 *	fAuxStepper = nullptr

G4EquationOfMotion *	fEquation_Rhs = nullptr

G4int	fIntegrationOrder = -1

G4bool	fIsFSAL = false

G4double *	fLastDyDx

G4double *	fLastFinalVector

G4double *	fLastInitialVector

G4double	fLastStepLength = -1.0

G4double *	fMidError

G4double *	fMidVector

const G4int	fNoIntegrationVariables = 0

unsigned long	fNoRHSCalls = 0UL

const G4int	fNoStateVariables = 0

G4double *	yIn

G4double *	yTemp

Detailed Description

Definition at line 46 of file G4DormandPrinceRK78.hh.

Constructor & Destructor Documentation

◆ G4DormandPrinceRK78() [1/2]

G4DormandPrinceRK78::G4DormandPrinceRK78	(	G4EquationOfMotion *	EqRhs,
		G4int	numberOfVariables = `6`,
		G4bool	primary = `true`
	)

Definition at line 42 of file G4DormandPrinceRK78.cc.

   : G4MagIntegratorStepper(EqRhs, noIntegrationVariables)
{
    const G4int numberOfVariables = noIntegrationVariables;
    
    // New Chunk of memory being created for use by the stepper
    
    // aki - for storing intermediate RHS
    //
    ak2 = new G4double[numberOfVariables];
    ak3 = new G4double[numberOfVariables];
    ak4 = new G4double[numberOfVariables];
    ak5 = new G4double[numberOfVariables];
    ak6 = new G4double[numberOfVariables];
    ak7 = new G4double[numberOfVariables];
    ak8 = new G4double[numberOfVariables];
    ak9 = new G4double[numberOfVariables];
    ak10 = new G4double[numberOfVariables];
    ak11 = new G4double[numberOfVariables];
    ak12 = new G4double[numberOfVariables];
    ak13 = new G4double[numberOfVariables];
 
    const G4int numStateVars = std::max(noIntegrationVariables, 8);
    yTemp = new G4double[numStateVars];
    yIn = new G4double[numStateVars] ;
    
    fLastInitialVector = new G4double[numStateVars] ;
    fLastFinalVector = new G4double[numStateVars] ;
 
    fLastDyDx = new G4double[numStateVars];
    
    fMidVector = new G4double[numStateVars];
    fMidError =  new G4double[numStateVars];
 
    if( primary )
    {
      fAuxStepper = new G4DormandPrinceRK78(EqRhs, numberOfVariables, !primary);
    }
}

References ak10, ak11, ak12, ak13, ak2, ak3, ak4, ak5, ak6, ak7, ak8, ak9, fAuxStepper, fLastDyDx, fLastFinalVector, fLastInitialVector, fMidError, fMidVector, G4DormandPrinceRK78(), G4INCL::Math::max(), yIn, and yTemp.

Referenced by G4DormandPrinceRK78().

◆ ~G4DormandPrinceRK78()

G4DormandPrinceRK78::~G4DormandPrinceRK78 ( )

Definition at line 86 of file G4DormandPrinceRK78.cc.

{
    // Clear all previously allocated memory for stepper and DistChord
 
    delete [] ak2;
    delete [] ak3;
    delete [] ak4;
    delete [] ak5;
    delete [] ak6;
    delete [] ak7;
    delete [] ak8;
    delete [] ak9;
    delete [] ak10;
    delete [] ak11;
    delete [] ak12;
    delete [] ak13;
    delete [] yTemp;
    delete [] yIn;
    
    delete [] fLastInitialVector;
    delete [] fLastFinalVector;
    delete [] fLastDyDx;
    delete [] fMidVector;
    delete [] fMidError;
    
    delete fAuxStepper;
}

References ak10, ak11, ak12, ak13, ak2, ak3, ak4, ak5, ak6, ak7, ak8, ak9, fAuxStepper, fLastDyDx, fLastFinalVector, fLastInitialVector, fMidError, fMidVector, yIn, and yTemp.

◆ G4DormandPrinceRK78() [2/2]

G4DormandPrinceRK78::G4DormandPrinceRK78 ( const G4DormandPrinceRK78 & )

delete

Member Function Documentation

◆ DistChord()

G4double G4DormandPrinceRK78::DistChord ( ) const

virtual

Implements G4MagIntegratorStepper.

Definition at line 403 of file G4DormandPrinceRK78.cc.

{
    G4double distLine, distChord;
    G4ThreeVector initialPoint, finalPoint, midPoint;
    
    // Store last initial and final points
    // (they will be overwritten in self-Stepper call!)
    //
    initialPoint = G4ThreeVector( fLastInitialVector[0],
                                 fLastInitialVector[1], fLastInitialVector[2]);
    finalPoint   = G4ThreeVector( fLastFinalVector[0],
                                 fLastFinalVector[1],  fLastFinalVector[2]);
    
    // Do half a step using StepNoErr
    
    fAuxStepper->Stepper( fLastInitialVector, fLastDyDx, 0.5 * fLastStepLength,
                         fMidVector,   fMidError );
    
    midPoint = G4ThreeVector( fMidVector[0], fMidVector[1], fMidVector[2]);
    
    // Use stored values of Initial and Endpoint + new Midpoint to evaluate
    // distance of Chord
    //
    if (initialPoint != finalPoint)
    {
        distLine = G4LineSection::Distline(midPoint, initialPoint, finalPoint);
        distChord = distLine;
    }
    else
    {
        distChord = (midPoint-initialPoint).mag();
    }
    return distChord;
}

References G4LineSection::Distline(), fAuxStepper, fLastDyDx, fLastFinalVector, fLastInitialVector, fLastStepLength, fMidError, fMidVector, and Stepper().

◆ GetEquationOfMotion() [1/2]

G4EquationOfMotion * G4MagIntegratorStepper::GetEquationOfMotion ( )

inlineinherited

Referenced by G4MagInt_Driver::GetEquationOfMotion(), G4OldMagIntDriver::GetEquationOfMotion(), G4NystromRK4::GetField(), G4DormandPrince745::GetSpecificEquation(), G4NystromRK4::SetDistanceForConstantField(), G4RKG3_Stepper::StepNoErr(), and G4RKG3_Stepper::Stepper().

◆ GetEquationOfMotion() [2/2]

const G4EquationOfMotion * G4MagIntegratorStepper::GetEquationOfMotion ( ) const

inlineinherited

◆ GetfNoRHSCalls()

unsigned long G4MagIntegratorStepper::GetfNoRHSCalls ( )

inlineinherited

◆ GetNumberOfStateVariables()

G4int G4MagIntegratorStepper::GetNumberOfStateVariables ( ) const

inlineinherited

Referenced by G4BogackiShampine45::G4BogackiShampine45(), G4CashKarpRKF45::G4CashKarpRKF45(), G4SimpleRunge::G4SimpleRunge(), G4TSimpleRunge< T_Equation, N >::G4TSimpleRunge(), G4TsitourasRK45::G4TsitourasRK45(), G4BogackiShampine23::makeStep(), G4RK547FEq1::makeStep(), G4RK547FEq2::makeStep(), G4RK547FEq3::makeStep(), G4ConstRK4::Stepper(), G4MagErrorStepper::Stepper(), and G4TMagErrorStepper< T_Stepper, T_Equation, N >::Stepper().

◆ GetNumberOfVariables()

G4int G4MagIntegratorStepper::GetNumberOfVariables ( ) const

inlineinherited

Referenced by G4ExplicitEuler::DumbStepper(), G4ImplicitEuler::DumbStepper(), G4ClassicalRK4::DumbStepper(), G4ChordFinder::G4ChordFinder(), G4BogackiShampine45::GetLastDydx(), G4DoLoMcPriRK34::Interpolate(), G4TsitourasRK45::Interpolate(), G4DormandPrince745::Interpolate4thOrder(), G4DormandPrince745::Interpolate5thOrder(), G4DormandPrinceRK56::Interpolate_high(), G4DormandPrinceRK56::Interpolate_low(), G4BogackiShampine45::InterpolateHigh(), G4BogackiShampine23::makeStep(), G4RK547FEq1::makeStep(), G4RK547FEq2::makeStep(), G4RK547FEq3::makeStep(), G4DormandPrinceRK56::SetupInterpolate_high(), G4DormandPrinceRK56::SetupInterpolate_low(), G4DormandPrince745::SetupInterpolation5thOrder(), G4BogackiShampine45::SetupInterpolationHigh(), G4BogackiShampine45::Stepper(), G4CashKarpRKF45::Stepper(), G4DoLoMcPriRK34::Stepper(), G4DormandPrinceRK56::Stepper(), Stepper(), G4MagErrorStepper::Stepper(), G4TsitourasRK45::Stepper(), and G4DormandPrince745::Stepper().

◆ IntegrationOrder()

G4int G4MagIntegratorStepper::IntegrationOrder ( )

inlineinherited

◆ IntegratorOrder()

G4int G4DormandPrinceRK78::IntegratorOrder ( ) const

inlinevirtual

Implements G4MagIntegratorStepper.

Definition at line 65 of file G4DormandPrinceRK78.hh.

65{ return 7; }

◆ IsFSAL()

G4bool G4MagIntegratorStepper::IsFSAL ( ) const

inlineinherited

◆ NormalisePolarizationVector()

void G4MagIntegratorStepper::NormalisePolarizationVector ( G4double vec[12] )

inlineinherited

Referenced by G4SimpleHeum::DumbStepper(), and G4ClassicalRK4::DumbStepper().

◆ NormaliseTangentVector()

void G4MagIntegratorStepper::NormaliseTangentVector ( G4double vec[6] )

inlineinherited

◆ operator=()

G4DormandPrinceRK78 & G4DormandPrinceRK78::operator= ( const G4DormandPrinceRK78 & )

delete

◆ ResetfNORHSCalls()

void G4MagIntegratorStepper::ResetfNORHSCalls ( )

inlineinherited

◆ RightHandSide() [1/2]

void G4MagIntegratorStepper::RightHandSide	(	const G4double	y[],
		G4double	dydx[]
	)		const

inlineinherited

◆ RightHandSide() [2/2]

void G4MagIntegratorStepper::RightHandSide	(	const G4double	y[],
		G4double	dydx[],
		G4double	field[]
	)		const

inlineinherited

◆ SetEquationOfMotion()

void G4MagIntegratorStepper::SetEquationOfMotion ( G4EquationOfMotion * newEquation )

inlineinherited

Referenced by G4MagInt_Driver::SetEquationOfMotion(), and G4OldMagIntDriver::SetEquationOfMotion().

◆ SetFSAL()

void G4MagIntegratorStepper::SetFSAL ( G4bool flag = true )

inlineprotectedinherited

Referenced by G4BogackiShampine23::G4BogackiShampine23().

◆ SetIntegrationOrder()

void G4MagIntegratorStepper::SetIntegrationOrder ( G4int order )

inlineprotectedinherited

Referenced by G4BogackiShampine23::G4BogackiShampine23().

◆ Stepper()

void G4DormandPrinceRK78::Stepper	(	const G4double	y[],
		const G4double	dydx[],
		G4double	h,
		G4double	yout[],
		G4double	yerr[]
	)

virtual

Implements G4MagIntegratorStepper.

Definition at line 125 of file G4DormandPrinceRK78.cc.

{
    G4int i;
    
    // The various constants defined on the basis of butcher tableu
    //
    const G4double b21 = 1.0/18,
                   b31 = 1.0/48.0 ,
                   b32 = 1.0/16.0 ,
    
                   b41 = 1.0/32.0 ,
                   b42 = 0.0 ,
                   b43 = 3.0/32.0 ,
    
                   b51 = 5.0/16.0 ,
                   b52 =  0.0 ,
                   b53 = -75.0/64.0 ,
                   b54 =  75.0/64.0 ,
    
                   b61 = 3.0/80.0 ,
                   b62 = 0.0 ,
                   b63 = 0.0 ,
                   b64 = 3.0/16.0 ,
                   b65 = 3.0/20.0 ,
    
                   b71 = 29443841.0/614563906.0 ,
                   b72 = 0.0 ,
                   b73 = 0.0 ,
                   b74 = 77736538.0/692538347.0 ,
                   b75 = -28693883.0/1125000000.0 ,
                   b76 = 23124283.0/1800000000.0 ,
    
                   b81 = 16016141.0/946692911.0 ,
                   b82 = 0.0 ,
                   b83 = 0.0 ,
                   b84 = 61564180.0/158732637.0 ,
                   b85 = 22789713.0/633445777.0 ,
                   b86 = 545815736.0/2771057229.0 ,
                   b87 = -180193667.0/1043307555.0 ,
    
                   b91 = 39632708.0/573591083.0 ,
                   b92 = 0.0 ,
                   b93 = 0.0 ,
                   b94 = -433636366.0/683701615.0 ,
                   b95 = -421739975.0/2616292301.0 ,
                   b96 = 100302831.0/723423059.0 ,
                   b97 = 790204164.0/839813087.0 ,
                   b98 = 800635310.0/3783071287.0 ,
    
                   b101 = 246121993.0/1340847787.0 ,
                   b102 = 0.0 ,
                   b103 = 0.0 ,
                   b104 = -37695042795.0/15268766246.0 ,
                   b105 = -309121744.0/1061227803.0 ,
                   b106 =  -12992083.0/490766935.0 ,
                   b107 = 6005943493.0/2108947869.0 ,
                   b108 = 393006217.0/1396673457.0 ,
                   b109 = 123872331.0/1001029789.0 ,
    
                   b111 = -1028468189.0/846180014.0 ,
                   b112 = 0.0 ,
                   b113 = 0.0 ,
                   b114 = 8478235783.0/508512852.0 ,
                   b115 = 1311729495.0/1432422823.0 ,
                   b116 = -10304129995.0/1701304382.0 ,
                   b117 =  -48777925059.0/3047939560.0 ,
                   b118 = 15336726248.0/1032824649.0 ,
                   b119 =  -45442868181.0/3398467696.0 ,
                   b1110 = 3065993473.0/597172653.0 ,
    
                   b121 = 185892177.0/718116043.0 ,
                   b122 = 0.0 ,
                   b123 = 0.0 ,
                   b124 = -3185094517.0/667107341.0 ,
                   b125 = -477755414.0/1098053517.0 ,
                   b126 = -703635378.0/230739211.0 ,
                   b127 =  5731566787.0/1027545527.0 ,
                   b128 = 5232866602.0/850066563.0 ,
                   b129 = -4093664535.0/808688257.0 ,
                   b1210 = 3962137247.0/1805957418.0 ,
                   b1211 = 65686358.0/487910083.0 ,
    
                   b131 = 403863854.0/491063109.0 ,
                   b132 = 0.0 ,
                   b133 = 0.0 ,
                   b134 = -5068492393.0/434740067.0 ,
                   b135 = -411421997.0/543043805.0 ,
                   b136 = 652783627.0/914296604.0 ,
                   b137 = 11173962825.0/925320556.0 ,
                   b138 = -13158990841.0/6184727034.0 ,
                   b139 = 3936647629.0/1978049680.0 ,
                   b1310 = -160528059.0/685178525.0 ,
                   b1311 = 248638103.0/1413531060.0 ,
                   b1312 = 0.0 ,
    
                   c1 = 14005451.0/335480064.0 ,
                     // c2 = 0.0 ,
                     // c3 = 0.0 ,
                     // c4 = 0.0 ,
                     // c5 = 0.0 ,
                   c6 = -59238493.0/1068277825.0 ,
                   c7 = 181606767.0/758867731.0 ,
                   c8 = 561292985.0/797845732.0 ,
                   c9 =  -1041891430.0/1371343529.0 ,
                   c10 = 760417239.0/1151165299.0 ,
                   c11 = 118820643.0/751138087.0 ,
                   c12 = - 528747749.0/2220607170.0 ,
                   c13 = 1.0/4.0 ,
    
                   c_1 = 13451932.0/455176623.0 ,
                      // c_2 = 0.0 ,
                      // c_3 = 0.0 ,
                      // c_4 = 0.0 ,
                      // c_5 = 0.0 ,
                   c_6 = -808719846.0/976000145.0 ,
                   c_7 = 1757004468.0/5645159321.0 ,
                   c_8 = 656045339.0/265891186.0 ,
                   c_9 = -3867574721.0/1518517206.0 ,
                   c_10 = 465885868.0/322736535.0 ,
                   c_11 = 53011238.0/667516719.0 ,
                   c_12 = 2.0/45.0 ,
                   c_13 = 0.0 ,
    
                   dc1 = c_1 - c1 ,
                      // dc2 = c_2 - c2 ,
                      // dc3 = c_3 - c3 ,
                      // dc4 = c_4 - c4 ,
                      // dc5 = c_5 - c5 ,
                   dc6 = c_6 - c6 ,
                   dc7 = c_7 - c7 ,
                   dc8 = c_8 - c8 ,
                   dc9 = c_9 - c9 ,
                   dc10 = c_10 - c10 ,
                   dc11 = c_11 - c11 ,
                   dc12 = c_12 - c12 ,
                   dc13 = c_13 - c13 ;
    //
    // end of declaration !
    
    const G4int numberOfVariables = GetNumberOfVariables();
    
    // The number of variables to be integrated over
    //
    yOut[7] = yTemp[7]  = yIn[7] = yInput[7];
 
    // Saving yInput because yInput and yOut can be aliases for same array
    //
    for(i=0; i<numberOfVariables; ++i)
    {
        yIn[i]=yInput[i];
    }
    // RightHandSide(yIn, dydx) ;   // 1st Stage - Not doing, getting passed
    
    for(i=0; i<numberOfVariables; ++i)
    {
        yTemp[i] = yIn[i] + b21*Step*dydx[i] ;
    }
    RightHandSide(yTemp, ak2) ;              // 2nd Stage
    
    for(i=0; i<numberOfVariables; ++i)
    {
        yTemp[i] = yIn[i] + Step*(b31*dydx[i] + b32*ak2[i]) ;
    }
    RightHandSide(yTemp, ak3) ;              // 3rd Stage
    
    for(i=0; i<numberOfVariables; ++i)
    {
        yTemp[i] = yIn[i] + Step*(b41*dydx[i] + b42*ak2[i] + b43*ak3[i]) ;
    }
    RightHandSide(yTemp, ak4) ;              // 4th Stage
    
    for(i=0; i<numberOfVariables; ++i)
    {
        yTemp[i] = yIn[i] + Step*(b51*dydx[i] + b52*ak2[i] + b53*ak3[i] +
                                  b54*ak4[i]) ;
    }
    RightHandSide(yTemp, ak5) ;              // 5th Stage
    
    for(i=0; i<numberOfVariables; ++i)
    {
        yTemp[i] = yIn[i] + Step*(b61*dydx[i] + b62*ak2[i] + b63*ak3[i] +
                                  b64*ak4[i] + b65*ak5[i]) ;
    }
    RightHandSide(yTemp, ak6) ;              // 6th Stage
    
    for(i=0; i<numberOfVariables; ++i)
    {
        yTemp[i] = yIn[i] + Step*(b71*dydx[i] + b72*ak2[i] + b73*ak3[i] +
                                  b74*ak4[i] + b75*ak5[i] + b76*ak6[i]);
    }
    RightHandSide(yTemp, ak7);               // 7th Stage
    
    for(i=0; i<numberOfVariables; ++i)
    {
        yTemp[i] = yIn[i] + Step*(b81*dydx[i] + b82*ak2[i] + b83*ak3[i] +
                                  b84*ak4[i] + b85*ak5[i] + b86*ak6[i] +
                                  b87*ak7[i]);
    }
    RightHandSide(yTemp, ak8);               // 8th Stage
    
    for(i=0; i<numberOfVariables; ++i)
    {
        yTemp[i] = yIn[i] + Step*(b91*dydx[i] + b92*ak2[i] + b93*ak3[i] +
                                  b94*ak4[i] + b95*ak5[i] + b96*ak6[i] +
                                  b97*ak7[i] + b98*ak8[i] );
    }
    RightHandSide(yTemp, ak9);               // 9th Stage
    
    for(i=0; i<numberOfVariables; ++i)
    {
        yTemp[i] = yIn[i] + Step*(b101*dydx[i] + b102*ak2[i] + b103*ak3[i] +
                                  b104*ak4[i] + b105*ak5[i] + b106*ak6[i] +
                                  b107*ak7[i] + b108*ak8[i] + b109*ak9[i]);
    }
    RightHandSide(yTemp, ak10);              // 10th Stage
    
    for(i=0; i<numberOfVariables; ++i)
    {
        yTemp[i] = yIn[i] + Step*(b111*dydx[i] + b112*ak2[i] + b113*ak3[i] +
                                  b114*ak4[i] + b115*ak5[i] + b116*ak6[i] +
                                  b117*ak7[i] + b118*ak8[i] + b119*ak9[i] +
                                  b1110*ak10[i]);
    }
    RightHandSide(yTemp, ak11);              // 11th Stage
    
    for(i=0; i<numberOfVariables; ++i)
    {
        yTemp[i] = yIn[i] + Step*(b121*dydx[i] + b122*ak2[i] + b123*ak3[i] +
                                  b124*ak4[i] + b125*ak5[i] + b126*ak6[i] +
                                  b127*ak7[i] + b128*ak8[i] + b129*ak9[i] +
                                  b1210*ak10[i] + b1211*ak11[i]);
    }
    RightHandSide(yTemp, ak12);              // 12th Stage
    
    for(i=0; i<numberOfVariables; ++i)
    {
        yTemp[i] = yIn[i]+Step*(b131*dydx[i] + b132*ak2[i] + b133*ak3[i] +
                                b134*ak4[i] + b135*ak5[i] + b136*ak6[i] +
                                b137*ak7[i] + b138*ak8[i] + b139*ak9[i] +
                                b1310*ak10[i] + b1311*ak11[i] + b1312*ak12[i]);
    }
    RightHandSide(yTemp, ak13);              // 13th and final Stage
    
    for(i=0; i<numberOfVariables; ++i)
    {
        // Accumulate increments with proper weights
        
        yOut[i] = yIn[i] + Step*(c1*dydx[i] + // c2 * ak2[i] + c3 * ak3[i]
                                 // + c4 * ak4[i] + c5 * ak5[i]
                                 + c6*ak6[i] +
                                 c7*ak7[i] + c8*ak8[i] +c9*ak9[i] + c10*ak10[i]
                                 + c11*ak11[i] + c12*ak12[i]  + c13*ak13[i]) ;
        
        // Estimate error as difference between 7th and 8th order methods
        //
        yErr[i] = Step*(dc1*dydx[i] + // dc2*ak2[i] + dc3*ak3[i] + dc4*ak4[i]
                        // + dc5*ak5[i] 
                      + dc6*ak6[i] + dc7*ak7[i] + dc8*ak8[i]
                      + dc9*ak9[i] + dc10*ak10[i] + dc11*ak11[i] + dc12*ak12[i]
                      + dc13*ak13[i] ) ;
 
        // Store Input and Final values, for possible use in calculating chord
        //
        fLastInitialVector[i] = yIn[i] ;
        fLastFinalVector[i]   = yOut[i];
        fLastDyDx[i]          = dydx[i];
    }
    fLastStepLength = Step;
    
    return ;
}

References ak10, ak11, ak12, ak13, ak2, ak3, ak4, ak5, ak6, ak7, ak8, ak9, fLastDyDx, fLastFinalVector, fLastInitialVector, fLastStepLength, G4MagIntegratorStepper::GetNumberOfVariables(), G4MagIntegratorStepper::RightHandSide(), yIn, and yTemp.

Referenced by DistChord().

Field Documentation

◆ ak10

G4double * G4DormandPrinceRK78::ak10

private

Definition at line 70 of file G4DormandPrinceRK78.hh.

Referenced by G4DormandPrinceRK78(), Stepper(), and ~G4DormandPrinceRK78().

◆ ak11

G4double * G4DormandPrinceRK78::ak11

private

Definition at line 70 of file G4DormandPrinceRK78.hh.

Referenced by G4DormandPrinceRK78(), Stepper(), and ~G4DormandPrinceRK78().

◆ ak12

G4double * G4DormandPrinceRK78::ak12

private

Definition at line 70 of file G4DormandPrinceRK78.hh.

Referenced by G4DormandPrinceRK78(), Stepper(), and ~G4DormandPrinceRK78().

◆ ak13

G4double * G4DormandPrinceRK78::ak13

private

Definition at line 70 of file G4DormandPrinceRK78.hh.

Referenced by G4DormandPrinceRK78(), Stepper(), and ~G4DormandPrinceRK78().

◆ ak2

G4double* G4DormandPrinceRK78::ak2

private

Definition at line 69 of file G4DormandPrinceRK78.hh.

Referenced by G4DormandPrinceRK78(), Stepper(), and ~G4DormandPrinceRK78().

◆ ak3

G4double * G4DormandPrinceRK78::ak3

private

Definition at line 69 of file G4DormandPrinceRK78.hh.

Referenced by G4DormandPrinceRK78(), Stepper(), and ~G4DormandPrinceRK78().

◆ ak4

G4double * G4DormandPrinceRK78::ak4

private

Definition at line 69 of file G4DormandPrinceRK78.hh.

Referenced by G4DormandPrinceRK78(), Stepper(), and ~G4DormandPrinceRK78().

◆ ak5

G4double * G4DormandPrinceRK78::ak5

private

Definition at line 69 of file G4DormandPrinceRK78.hh.

Referenced by G4DormandPrinceRK78(), Stepper(), and ~G4DormandPrinceRK78().

◆ ak6

G4double * G4DormandPrinceRK78::ak6

private

Definition at line 69 of file G4DormandPrinceRK78.hh.

Referenced by G4DormandPrinceRK78(), Stepper(), and ~G4DormandPrinceRK78().

◆ ak7

G4double * G4DormandPrinceRK78::ak7

private

Definition at line 69 of file G4DormandPrinceRK78.hh.

Referenced by G4DormandPrinceRK78(), Stepper(), and ~G4DormandPrinceRK78().

◆ ak8

G4double * G4DormandPrinceRK78::ak8

private

Definition at line 69 of file G4DormandPrinceRK78.hh.

Referenced by G4DormandPrinceRK78(), Stepper(), and ~G4DormandPrinceRK78().

◆ ak9

G4double * G4DormandPrinceRK78::ak9

private

Definition at line 70 of file G4DormandPrinceRK78.hh.

Referenced by G4DormandPrinceRK78(), Stepper(), and ~G4DormandPrinceRK78().

◆ fAuxStepper

G4DormandPrinceRK78* G4DormandPrinceRK78::fAuxStepper = nullptr

private

Definition at line 78 of file G4DormandPrinceRK78.hh.

Referenced by DistChord(), G4DormandPrinceRK78(), and ~G4DormandPrinceRK78().

◆ fEquation_Rhs

G4EquationOfMotion* G4MagIntegratorStepper::fEquation_Rhs = nullptr

privateinherited

Definition at line 124 of file G4MagIntegratorStepper.hh.

◆ fIntegrationOrder

G4int G4MagIntegratorStepper::fIntegrationOrder = -1

privateinherited

Definition at line 134 of file G4MagIntegratorStepper.hh.

◆ fIsFSAL

G4bool G4MagIntegratorStepper::fIsFSAL = false

privateinherited

Definition at line 136 of file G4MagIntegratorStepper.hh.

◆ fLastDyDx

G4double * G4DormandPrinceRK78::fLastDyDx

private

Definition at line 75 of file G4DormandPrinceRK78.hh.

Referenced by DistChord(), G4DormandPrinceRK78(), Stepper(), and ~G4DormandPrinceRK78().

◆ fLastFinalVector

G4double * G4DormandPrinceRK78::fLastFinalVector

private

Definition at line 74 of file G4DormandPrinceRK78.hh.

Referenced by DistChord(), G4DormandPrinceRK78(), Stepper(), and ~G4DormandPrinceRK78().

◆ fLastInitialVector

G4double* G4DormandPrinceRK78::fLastInitialVector

private

Definition at line 74 of file G4DormandPrinceRK78.hh.

Referenced by DistChord(), G4DormandPrinceRK78(), Stepper(), and ~G4DormandPrinceRK78().

◆ fLastStepLength

G4double G4DormandPrinceRK78::fLastStepLength = -1.0

private

Definition at line 73 of file G4DormandPrinceRK78.hh.

Referenced by DistChord(), and Stepper().

◆ fMidError

G4double * G4DormandPrinceRK78::fMidError

private

Definition at line 75 of file G4DormandPrinceRK78.hh.

Referenced by DistChord(), G4DormandPrinceRK78(), and ~G4DormandPrinceRK78().

◆ fMidVector

G4double * G4DormandPrinceRK78::fMidVector

private

Definition at line 75 of file G4DormandPrinceRK78.hh.

Referenced by DistChord(), G4DormandPrinceRK78(), and ~G4DormandPrinceRK78().

◆ fNoIntegrationVariables

const G4int G4MagIntegratorStepper::fNoIntegrationVariables = 0

privateinherited

Definition at line 125 of file G4MagIntegratorStepper.hh.

◆ fNoRHSCalls

unsigned long G4MagIntegratorStepper::fNoRHSCalls = 0UL

mutableprivateinherited

Definition at line 128 of file G4MagIntegratorStepper.hh.

◆ fNoStateVariables

const G4int G4MagIntegratorStepper::fNoStateVariables = 0

privateinherited

Definition at line 126 of file G4MagIntegratorStepper.hh.

◆ yIn

G4double * G4DormandPrinceRK78::yIn

private

Definition at line 71 of file G4DormandPrinceRK78.hh.

Referenced by G4DormandPrinceRK78(), Stepper(), and ~G4DormandPrinceRK78().

◆ yTemp

G4double * G4DormandPrinceRK78::yTemp

private

Definition at line 71 of file G4DormandPrinceRK78.hh.

Referenced by G4DormandPrinceRK78(), Stepper(), and ~G4DormandPrinceRK78().

The documentation for this class was generated from the following files:

source/geometry/magneticfield/include/G4DormandPrinceRK78.hh
source/geometry/magneticfield/src/G4DormandPrinceRK78.cc

Public Member Functions

Protected Member Functions

Private Attributes

Detailed Description

Constructor & Destructor Documentation

◆ G4DormandPrinceRK78() [1/2]

◆ ~G4DormandPrinceRK78()

◆ G4DormandPrinceRK78() [2/2]

Member Function Documentation

◆ DistChord()

◆ GetEquationOfMotion() [1/2]

◆ GetEquationOfMotion() [2/2]

◆ GetfNoRHSCalls()

◆ GetNumberOfStateVariables()

◆ GetNumberOfVariables()

◆ IntegrationOrder()

◆ IntegratorOrder()

◆ IsFSAL()

◆ NormalisePolarizationVector()

◆ NormaliseTangentVector()

◆ operator=()

◆ ResetfNORHSCalls()

◆ RightHandSide() [1/2]

◆ RightHandSide() [2/2]

◆ SetEquationOfMotion()

◆ SetFSAL()

◆ SetIntegrationOrder()

◆ Stepper()

Field Documentation

◆ ak10

◆ ak11

◆ ak12

◆ ak13

◆ ak2

◆ ak3

◆ ak4

◆ ak5

◆ ak6

◆ ak7

◆ ak8

◆ ak9

◆ fAuxStepper

◆ fEquation_Rhs

◆ fIntegrationOrder

◆ fIsFSAL

◆ fLastDyDx

◆ fLastFinalVector

◆ fLastInitialVector

◆ fLastStepLength

◆ fMidError

◆ fMidVector

◆ fNoIntegrationVariables

◆ fNoRHSCalls

◆ fNoStateVariables

◆ yIn

◆ yTemp