test/porousmediumflow/2p2c/implicit/mpnccomparison/iofields.hh

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#ifndef DUMUX_TWOPTWOC_MPNC_IO_FIELDS_HH
#define DUMUX_TWOPTWOC_MPNC_IO_FIELDS_HH
 
#include <dumux/io/name.hh>
 
namespace Dumux {
 
class TwoPTwoCMPNCIOFields
{
public:
    template <class OutputModule>
    static void initOutputModule(OutputModule& out)
    {
        using VolumeVariables = typename OutputModule::VolumeVariables;
        using FS = typename VolumeVariables::FluidSystem;
 
        // register standardized output fields
        out.addVolumeVariable([](const auto& v){ return v.porosity(); },
                              IOName::porosity());
 
        out.addVolumeVariable([](const auto& v){ return v.saturation(FS::phase0Idx); },
                              IOName::saturation<FS>(FS::phase0Idx));
        out.addVolumeVariable([](const auto& v){ return v.saturation(FS::phase1Idx); },
                              IOName::saturation<FS>(FS::phase1Idx));
 
        out.addVolumeVariable([](const auto& v){ return v.pressure(FS::phase0Idx); },
                              IOName::pressure<FS>(FS::phase0Idx));
        out.addVolumeVariable([](const auto& v){ return v.pressure(FS::phase1Idx); },
                              IOName::pressure<FS>(FS::phase1Idx));
 
        out.addVolumeVariable([](const auto& v){ return v.density(FS::phase0Idx); },
                              IOName::density<FS>(FS::phase0Idx));
        out.addVolumeVariable([](const auto& v){ return v.density(FS::phase1Idx); },
                              IOName::density<FS>(FS::phase1Idx));
 
        out.addVolumeVariable([](const auto& v){ return v.mobility(FS::phase0Idx); },
                              IOName::mobility<FS>(FS::phase0Idx));
        out.addVolumeVariable([](const auto& v){ return v.mobility(FS::phase1Idx); },
                              IOName::mobility<FS>(FS::phase1Idx));
 
        for (int i = 0; i < VolumeVariables::numFluidPhases(); ++i)
            for (int j = 0; j < VolumeVariables::numFluidComponents(); ++j)
                out.addVolumeVariable([i,j](const auto& v){ return v.massFraction(i,j); },
                                      IOName::massFraction<FS>(i, j));
 
        for (int i = 0; i < VolumeVariables::numFluidPhases(); ++i)
            for (int j = 0; j < VolumeVariables::numFluidComponents(); ++j)
                out.addVolumeVariable([i,j](const auto& v){ return v.moleFraction(i,j); },
                                      IOName::moleFraction<FS>(i, j));
    }
};
 
} // end namespace Dumux
 
#endif