Rosenbrock12_8C_source.html

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    Copyright (C) 2019 OpenCFD Ltd.

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#include "Rosenbrock12.H"

#include "addToRunTimeSelectionTable.H"


// * * * * * * * * * * * * * * Static Data Members * * * * * * * * * * * * * //


namespace Foam

{

    defineTypeNameAndDebug(Rosenbrock12, 0);

    addToRunTimeSelectionTable(ODESolver, Rosenbrock12, dictionary);


const scalar

    Rosenbrock12::gamma = 1 + 1.0/std::sqrt(2.0),

    Rosenbrock12::a21 = 1.0/gamma,

    Rosenbrock12::c2 = 1.0,

    Rosenbrock12::c21 = -2.0/gamma,

    Rosenbrock12::b1 = (3.0/2.0)/gamma,

    Rosenbrock12::b2 = (1.0/2.0)/gamma,

    Rosenbrock12::e1 = b1 - 1.0/gamma,

    Rosenbrock12::e2 = b2,


    Rosenbrock12::d1 = gamma,

    Rosenbrock12::d2 = -gamma;

}


// * * * * * * * * * * * * * * * * Constructors  * * * * * * * * * * * * * * //


Foam::Rosenbrock12::Rosenbrock12(const ODESystem& ode, const dictionary& dict)

:

    ODESolver(ode, dict),

    adaptiveSolver(ode, dict),

    k1_(n_),

    k2_(n_),


    err_(n_),

    dydx_(n_),

    dfdx_(n_),

    dfdy_(n_, n_),


    a_(n_, n_),

    pivotIndices_(n_)

{}


// * * * * * * * * * * * * * * * Member Functions  * * * * * * * * * * * * * //


bool Foam::Rosenbrock12::resize()

{

    if (ODESolver::resize())

    {

        adaptiveSolver::resize(n_);


        resizeField(k1_);

        resizeField(k2_);

        resizeField(err_);

        resizeField(dydx_);

        resizeField(dfdx_);

        resizeMatrix(dfdy_);

        resizeMatrix(a_);


        resizeField(pivotIndices_);


        return true;

    }


    return false;

}


Foam::scalar Foam::Rosenbrock12::solve

(

    const scalar x0,

    const scalarField& y0,

    const scalarField& dydx0,

    const scalar dx,

    scalarField& y

) const

{

    odes_.jacobian(x0, y0, dfdx_, dfdy_);


    for (label i=0; i<n_; i++)

    {

        for (label j=0; j<n_; j++)

        {

            a_(i, j) = -dfdy_(i, j);

        }


        a_(i, i) += 1.0/(gamma*dx);

    }


    LUDecompose(a_, pivotIndices_);


    // Calculate k1:

    forAll(k1_, i)

    {

        k1_[i] = dydx0[i] + dx*d1*dfdx_[i];

    }


    LUBacksubstitute(a_, pivotIndices_, k1_);


    // Calculate k2:

    forAll(y, i)

    {

        y[i] = y0[i] + a21*k1_[i];

    }


    odes_.derivatives(x0 + c2*dx, y, dydx_);


    forAll(k2_, i)

    {

        k2_[i] = dydx_[i] + dx*d2*dfdx_[i] + c21*k1_[i]/dx;

    }


    LUBacksubstitute(a_, pivotIndices_, k2_);


    // Calculate error and update state:

    forAll(y, i)


    {

        y[i] = y0[i] + b1*k1_[i] + b2*k2_[i];


        err_[i] = e1*k1_[i] + e2*k2_[i];

    }


    return normalizeError(y0, y, err_);

}


void Foam::Rosenbrock12::solve

(


    scalar& x,

    scalarField& y,

    scalar& dxTry

) const

{

    adaptiveSolver::solve(odes_, x, y, dxTry);

}


// ************************************************************************* //

y
scalar y
Definition LISASMDCalcMethod1.H:14

x
x
Definition LISASMDCalcMethod2.H:52

Rosenbrock12.H

addToRunTimeSelectionTable.H
Macros for easy insertion into run-time selection tables.

addToRunTimeSelectionTable
#define addToRunTimeSelectionTable(baseType, thisType, argNames)
Add to construction table with typeName as the key.
Definition addToRunTimeSelectionTable.H:38

Foam::ODESolver
Abstract base-class for ODE system solvers.
Definition ODESolver.H:53

Foam::ODESolver::normalizeError
scalar normalizeError(const scalarField &y0, const scalarField &y, const scalarField &err) const
Return the nomalized scalar error.
Definition ODESolver.C:36

Foam::ODESolver::ODESolver
ODESolver(const ODESolver &)=delete
No copy construct.

Foam::ODESolver::n_
label n_
Size of the ODESystem (adjustable).
Definition ODESolver.H:71

Foam::ODESolver::odes_
const ODESystem & odes_
Reference to ODESystem.
Definition ODESolver.H:61

Foam::ODESolver::resizeMatrix
void resizeMatrix(scalarSquareMatrix &m) const
Definition ODESolverI.H:39

Foam::ODESolver::resize
virtual bool resize()=0
Resize the ODE solver.
Definition ODESolver.C:85

Foam::ODESolver::ODESystem
friend class ODESystem
Definition ODESolver.H:114

Foam::ODESolver::resizeField
static void resizeField(UList< Type > &f, const label n)
Definition ODESolverI.H:24

Foam::ODESystem
Abstract base class for the systems of ordinary differential equations.
Definition ODESystem.H:44

Foam::Rosenbrock12
L-stable embedded Rosenbrock ODE solver of order (1)2.
Definition Rosenbrock12.H:63

Foam::Rosenbrock12::Rosenbrock12
Rosenbrock12(const ODESystem &ode, const dictionary &dict)
Construct from ODESystem.
Definition Rosenbrock12.C:48

Foam::Rosenbrock12::resize
virtual bool resize()
Resize the ODE solver.
Definition Rosenbrock12.C:65

Foam::Rosenbrock12::solve
virtual scalar solve(const scalar x0, const scalarField &y0, const scalarField &dydx0, const scalar dx, scalarField &y) const
Solve a single step dx and return the error.
Definition Rosenbrock12.C:88

Foam::adaptiveSolver
Definition adaptiveSolver.H:50

Foam::adaptiveSolver::adaptiveSolver
adaptiveSolver(const ODESystem &ode, const dictionary &dict)
Construct from ODESystem.
Definition adaptiveSolver.C:28

Foam::adaptiveSolver::resize
bool resize(const label n)
Resize the ODE solver.
Definition adaptiveSolver.C:45

Foam::adaptiveSolver::solve
virtual scalar solve(const scalar x0, const scalarField &y0, const scalarField &dydx0, const scalar dx, scalarField &y) const =0
Solve a single step dx and return the error.

Foam::dictionary
A list of keyword definitions, which are a keyword followed by a number of values (eg,...
Definition dictionary.H:133

Foam::ode
An ODE solver for chemistry.
Definition ode.H:51

defineTypeNameAndDebug
#define defineTypeNameAndDebug(Type, DebugSwitch)
Define the typeName and debug information.
Definition className.H:142

gamma
const scalar gamma
Definition EEqn.H:9

Foam
Namespace for OpenFOAM.
Definition atmBoundaryLayer.C:27

Foam::y0
dimensionedScalar y0(const dimensionedScalar &ds)
Definition dimensionedScalar.C:274

Foam::LUBacksubstitute
void LUBacksubstitute(const scalarSquareMatrix &luMmatrix, const labelList &pivotIndices, List< Type > &source)
LU back-substitution with given source, returning the solution in the source.
Definition scalarMatricesTemplates.C:112

Foam::LUDecompose
void LUDecompose(scalarSquareMatrix &matrix, labelList &pivotIndices)
LU decompose the matrix with pivoting.
Definition scalarMatrices.C:28

Foam::scalarField
Field< scalar > scalarField
Specialisation of Field<T> for scalar.
Definition primitiveFieldsFwd.H:46

dict
dictionary dict
Definition searchingEngine.H:11

forAll
#define forAll(list, i)
Loop across all elements in list.
Definition stdFoam.H:299