cvodessolverplugin.cpp

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

Copyright (C) The University of Auckland

OpenCOR is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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GNU General Public License for more details.

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

//==============================================================================
// CVODES solver plugin
//==============================================================================

#include "cvodessolver.h"
#include "cvodessolverplugin.h"

//==============================================================================

namespace OpenCOR {
namespace CVODESSolver {

//==============================================================================

PLUGININFO_FUNC CVODESSolverPluginInfo()
{
    Descriptions descriptions;

    descriptions.insert("en", QString::fromUtf8("a plugin that uses <a href=\"http://computation.llnl.gov/projects/sundials/cvodes\">CVODES</a> to solve ODEs."));
    descriptions.insert("fr", QString::fromUtf8("une extension qui utilise <a href=\"http://computation.llnl.gov/projects/sundials/cvodes\">CVODES</a> pour résoudre des EDOs."));

    return new PluginInfo(PluginInfo::Solver, true, false,
                          QStringList() << "SUNDIALS",
                          descriptions);
}

//==============================================================================
// I18n interface
//==============================================================================

void CVODESSolverPlugin::retranslateUi()
{
    // We don't handle this interface...
    // Note: even though we don't handle this interface, we still want to
    //       support it since some other aspects of our plugin are
    //       multilingual...
}

//==============================================================================
// Solver interface
//==============================================================================

Solver::Solver * CVODESSolverPlugin::solverInstance() const
{
    // Create and return an instance of the solver

    return new CvodesSolver();
}

//==============================================================================

QString CVODESSolverPlugin::id(const QString &pKisaoId) const
{
    // Return the id for the given KiSAO id

    if (!pKisaoId.compare("KISAO:0000019"))
        return solverName();
    else if (!pKisaoId.compare("KISAO:0000467"))
        return MaximumStepId;
    else if (!pKisaoId.compare("KISAO:0000415"))
        return MaximumNumberOfStepsId;
    else if (!pKisaoId.compare("KISAO:0000475"))
        return IntegrationMethodId;
    else if (!pKisaoId.compare("KISAO:0000476"))
        return IterationTypeId;
    else if (!pKisaoId.compare("KISAO:0000477"))
        return LinearSolverId;
    else if (!pKisaoId.compare("KISAO:0000478"))
        return PreconditionerId;
    else if (!pKisaoId.compare("KISAO:0000479"))
        return UpperHalfBandwidthId;
    else if (!pKisaoId.compare("KISAO:0000480"))
        return LowerHalfBandwidthId;
    else if (!pKisaoId.compare("KISAO:0000209"))
        return RelativeToleranceId;
    else if (!pKisaoId.compare("KISAO:0000211"))
        return AbsoluteToleranceId;
    else if (!pKisaoId.compare("KISAO:0000481"))
        return InterpolateSolutionId;

    return QString();
}

//==============================================================================

QString CVODESSolverPlugin::kisaoId(const QString &pId) const
{
    // Return the KiSAO id for the given id

    if (!pId.compare(solverName()))
        return "KISAO:0000019";
    else if (!pId.compare(MaximumStepId))
        return "KISAO:0000467";
    else if (!pId.compare(MaximumNumberOfStepsId))
        return "KISAO:0000415";
    else if (!pId.compare(IntegrationMethodId))
        return "KISAO:0000475";
    else if (!pId.compare(IterationTypeId))
        return "KISAO:0000476";
    else if (!pId.compare(LinearSolverId))
        return "KISAO:0000477";
    else if (!pId.compare(PreconditionerId))
        return "KISAO:0000478";
    else if (!pId.compare(UpperHalfBandwidthId))
        return "KISAO:0000479";
    else if (!pId.compare(LowerHalfBandwidthId))
        return "KISAO:0000480";
    else if (!pId.compare(RelativeToleranceId))
        return "KISAO:0000209";
    else if (!pId.compare(AbsoluteToleranceId))
        return "KISAO:0000211";
    else if (!pId.compare(InterpolateSolutionId))
        return "KISAO:0000481";

    return QString();
}

//==============================================================================

Solver::Type CVODESSolverPlugin::solverType() const
{
    // Return the type of the solver

    return Solver::Ode;
}

//==============================================================================

QString CVODESSolverPlugin::solverName() const
{
    // Return the name of the solver

    return "CVODES";
}

//==============================================================================

Solver::Properties CVODESSolverPlugin::solverProperties() const
{
    // Return the properties supported by the solver

    Descriptions MaximumStepDescriptions;
    Descriptions MaximumNumberOfStepsDescriptions;
    Descriptions IntegrationMethodDescriptions;
    Descriptions IterationTypeDescriptions;
    Descriptions LinearSolverDescriptions;
    Descriptions PreconditionerDescriptions;
    Descriptions UpperHalfBandwidthDescriptions;
    Descriptions LowerHalfBandwidthDescriptions;
    Descriptions RelativeToleranceDescriptions;
    Descriptions AbsoluteToleranceDescriptions;
    Descriptions InterpolateSolutionDescriptions;

    MaximumStepDescriptions.insert("en", QString::fromUtf8("Maximum step"));
    MaximumStepDescriptions.insert("fr", QString::fromUtf8("Pas maximum"));

    MaximumNumberOfStepsDescriptions.insert("en", QString::fromUtf8("Maximum number of steps"));
    MaximumNumberOfStepsDescriptions.insert("fr", QString::fromUtf8("Nombre maximum de pas"));

    IntegrationMethodDescriptions.insert("en", QString::fromUtf8("Integration method"));
    IntegrationMethodDescriptions.insert("fr", QString::fromUtf8("Méthode d'intégration"));

    IterationTypeDescriptions.insert("en", QString::fromUtf8("Iteration type"));
    IterationTypeDescriptions.insert("fr", QString::fromUtf8("Type d'itération"));

    LinearSolverDescriptions.insert("en", QString::fromUtf8("Linear solver"));
    LinearSolverDescriptions.insert("fr", QString::fromUtf8("Solveur linéaire"));

    PreconditionerDescriptions.insert("en", QString::fromUtf8("Preconditioner"));
    PreconditionerDescriptions.insert("fr", QString::fromUtf8("Préconditionneur"));

    UpperHalfBandwidthDescriptions.insert("en", QString::fromUtf8("Upper half-bandwidth"));
    UpperHalfBandwidthDescriptions.insert("fr", QString::fromUtf8("Demi largeur de bande supérieure"));

    LowerHalfBandwidthDescriptions.insert("en", QString::fromUtf8("Lower half-bandwidth"));
    LowerHalfBandwidthDescriptions.insert("fr", QString::fromUtf8("Demi largeur de bande inférieure"));

    RelativeToleranceDescriptions.insert("en", QString::fromUtf8("Relative tolerance"));
    RelativeToleranceDescriptions.insert("fr", QString::fromUtf8("Tolérance relative"));

    AbsoluteToleranceDescriptions.insert("en", QString::fromUtf8("Absolute tolerance"));
    AbsoluteToleranceDescriptions.insert("fr", QString::fromUtf8("Tolérance absolue"));

    InterpolateSolutionDescriptions.insert("en", QString::fromUtf8("Interpolate solution"));
    InterpolateSolutionDescriptions.insert("fr", QString::fromUtf8("Interpoler solution"));

    QStringList IntegrationMethodListValues = QStringList() << AdamsMoultonMethod
                                                            << BdfMethod;

    QStringList IterationTypeListValues = QStringList() << FunctionalIteration
                                                        << NewtonIteration;

    QStringList LinearSolverListValues = QStringList() << DenseLinearSolver
                                                       << BandedLinearSolver
                                                       << DiagonalLinearSolver
                                                       << GmresLinearSolver
                                                       << BiCgStabLinearSolver
                                                       << TfqmrLinearSolver;

    QStringList PreconditionerListValues = QStringList() << NoPreconditioner
                                                         << BandedPreconditioner;

    return Solver::Properties() << Solver::Property(Solver::Property::DoubleGe0, MaximumStepId, MaximumStepDescriptions, QStringList(), MaximumStepDefaultValue, true)
                                << Solver::Property(Solver::Property::IntegerGt0, MaximumNumberOfStepsId, MaximumNumberOfStepsDescriptions, QStringList(), MaximumNumberOfStepsDefaultValue, false)
                                << Solver::Property(Solver::Property::List, IntegrationMethodId, IntegrationMethodDescriptions, IntegrationMethodListValues, IntegrationMethodDefaultValue, false)
                                << Solver::Property(Solver::Property::List, IterationTypeId, IterationTypeDescriptions, IterationTypeListValues, IterationTypeDefaultValue, false)
                                << Solver::Property(Solver::Property::List, LinearSolverId, LinearSolverDescriptions, LinearSolverListValues, LinearSolverDefaultValue, false)
                                << Solver::Property(Solver::Property::List, PreconditionerId, PreconditionerDescriptions, PreconditionerListValues, PreconditionerDefaultValue, false)
                                << Solver::Property(Solver::Property::IntegerGe0, UpperHalfBandwidthId, UpperHalfBandwidthDescriptions, QStringList(), UpperHalfBandwidthDefaultValue, false)
                                << Solver::Property(Solver::Property::IntegerGe0, LowerHalfBandwidthId, LowerHalfBandwidthDescriptions, QStringList(), LowerHalfBandwidthDefaultValue, false)
                                << Solver::Property(Solver::Property::DoubleGe0, RelativeToleranceId, RelativeToleranceDescriptions, QStringList(), RelativeToleranceDefaultValue, false)
                                << Solver::Property(Solver::Property::DoubleGt0, AbsoluteToleranceId, AbsoluteToleranceDescriptions, QStringList(), AbsoluteToleranceDefaultValue, false)
                                << Solver::Property(Solver::Property::Boolean, InterpolateSolutionId, InterpolateSolutionDescriptions, QStringList(), InterpolateSolutionDefaultValue, false);
}

//==============================================================================

QMap<QString, bool> CVODESSolverPlugin::solverPropertiesVisibility(const QMap<QString, QString> &pSolverPropertiesValues) const
{
    // Return the visibility of our properties based on the given properties
    // values

    QMap<QString, bool> res = QMap<QString, bool>();

    if (!pSolverPropertiesValues.value(IterationTypeId).compare(NewtonIteration)) {
        // Newton iteration

        res.insert(LinearSolverId, true);

        QString linearSolver = pSolverPropertiesValues.value(LinearSolverId);

        if (   !linearSolver.compare(DenseLinearSolver)
            || !linearSolver.compare(DiagonalLinearSolver)) {
            // Dense/diagonal linear solver

            res.insert(PreconditionerId, false);
            res.insert(UpperHalfBandwidthId, false);
            res.insert(LowerHalfBandwidthId, false);
        } else if (!linearSolver.compare(BandedLinearSolver)) {
            // Banded linear solver

            res.insert(PreconditionerId, false);
            res.insert(UpperHalfBandwidthId, true);
            res.insert(LowerHalfBandwidthId, true);
        } else {
            // GMRES/Bi-CGStab/TFQMR linear solver

            res.insert(PreconditionerId, true);

            if (!pSolverPropertiesValues.value(PreconditionerId).compare(BandedPreconditioner)) {
                // Banded preconditioner

                res.insert(UpperHalfBandwidthId, true);
                res.insert(LowerHalfBandwidthId, true);
            } else {
                // No preconditioner

                res.insert(UpperHalfBandwidthId, false);
                res.insert(LowerHalfBandwidthId, false);
            }
        }
    } else {
        // Functional iteration

        res.insert(LinearSolverId, false);
        res.insert(PreconditionerId, false);
        res.insert(UpperHalfBandwidthId, false);
        res.insert(LowerHalfBandwidthId, false);
    }

    return res;
}

//==============================================================================

}   // namespace CVODESSolver
}   // namespace OpenCOR

//==============================================================================
// End of file
//==============================================================================