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// -*- mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*-

// vi: set et ts=4 sw=4 sts=4:

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#ifndef DUMUX_RICHARDS_IO_FIELDS_HH

#define DUMUX_RICHARDS_IO_FIELDS_HH


#include <dumux/common/parameters.hh>

#include <dumux/io/name.hh>


namespace Dumux {


template <bool enableWaterDiffusionInAir>

class RichardsIOFields

{

public:

    template <class OutputModule>

    static void initOutputModule(OutputModule& out)

    {

        using VolumeVariables = typename OutputModule::VolumeVariables;

        using FS = typename VolumeVariables::FluidSystem;


        out.addVolumeVariable([](const auto& v){ return v.saturation(FS::liquidPhaseIdx); },

                              IOName::saturation<FS>(FS::liquidPhaseIdx));

        out.addVolumeVariable([](const auto& v){ return v.saturation(FS::gasPhaseIdx); },

                              IOName::saturation<FS>(FS::gasPhaseIdx));

        out.addVolumeVariable([](const auto& v){ return v.pressure(FS::liquidPhaseIdx); },

                              IOName::pressure<FS>(FS::liquidPhaseIdx));

        out.addVolumeVariable([](const auto& v){ return v.pressure(FS::gasPhaseIdx); },

                              IOName::pressure<FS>(FS::gasPhaseIdx));

        out.addVolumeVariable([](const auto& v){ return v.capillaryPressure(); },

                              IOName::capillaryPressure());

        out.addVolumeVariable([](const auto& v){ return v.density(FS::liquidPhaseIdx); },

                              IOName::density<FS>(FS::liquidPhaseIdx));

        out.addVolumeVariable([](const auto& v){ return v.mobility(FS::liquidPhaseIdx); },

                              IOName::mobility<FS>(FS::liquidPhaseIdx));

        out.addVolumeVariable([](const auto& v){ return v.relativePermeability(FS::liquidPhaseIdx); },

                              IOName::relativePermeability<FS>(FS::liquidPhaseIdx));

        out.addVolumeVariable([](const auto& v){ return v.porosity(); },

                              IOName::porosity());


        static const bool gravity = getParamFromGroup<bool>(out.paramGroup(), "Problem.EnableGravity");


        if(gravity)

            out.addVolumeVariable([](const auto& v){ return v.pressureHead(FS::liquidPhaseIdx); },

                                  IOName::pressureHead());

        if (enableWaterDiffusionInAir)

            out.addVolumeVariable([](const auto& v){ return v.moleFraction(FS::gasPhaseIdx, FS::liquidCompIdx); },

                                  IOName::moleFraction<FS>(FS::gasPhaseIdx, FS::liquidCompIdx));

        out.addVolumeVariable([](const auto& v){ return v.waterContent(FS::liquidPhaseIdx); },

                              IOName::waterContent());


        out.addVolumeVariable([](const auto& v){ return v.priVars().state(); },

                              IOName::phasePresence());

    }


    template<class ModelTraits, class FluidSystem, class SolidSystem = void>

    static std::string primaryVariableName(int pvIdx, int state)

    {

        using Indices = typename ModelTraits::Indices;


        if (state == Indices::gasPhaseOnly)

            return IOName::moleFraction<FluidSystem>(FluidSystem::gasPhaseIdx,

                                                     FluidSystem::liquidCompIdx);

        else

            return IOName::pressure<FluidSystem>(FluidSystem::liquidPhaseIdx);

    }

};


} // end namespace Dumux


#endif

parameters.hh
The infrastructure to retrieve run-time parameters from Dune::ParameterTrees.

name.hh
A collection of input/output field names for common physical quantities.

Dumux
Definition: adapt.hh:29

Dumux::IOName::waterContent
std::string waterContent() noexcept
I/O name of water content.
Definition: name.hh:155

Dumux::IOName::capillaryPressure
std::string capillaryPressure() noexcept
I/O name of capillary pressure.
Definition: name.hh:135

Dumux::IOName::phasePresence
std::string phasePresence() noexcept
I/O name of phase presence.
Definition: name.hh:147

Dumux::IOName::pressureHead
std::string pressureHead() noexcept
I/O name of pressure head.
Definition: name.hh:151

Dumux::IOName::porosity
std::string porosity() noexcept
I/O name of porosity.
Definition: name.hh:139

Dumux::RichardsIOFields
Adds I/O fields specific to the Richards model.
Definition: porousmediumflow/richards/iofields.hh:39

Dumux::RichardsIOFields::primaryVariableName
static std::string primaryVariableName(int pvIdx, int state)
Definition: porousmediumflow/richards/iofields.hh:82

Dumux::RichardsIOFields::initOutputModule
static void initOutputModule(OutputModule &out)
Definition: porousmediumflow/richards/iofields.hh:42