32 using VolumeVariables =
typename OutputModule::VolumeVariables;
33 using FS =
typename VolumeVariables::FluidSystem;
35 for (
int phaseIdx = 0; phaseIdx < FS::numPhases; ++phaseIdx)
37 out.addVolumeVariable([phaseIdx](
const VolumeVariables& v){
return v.saturation(phaseIdx); },
38 IOName::saturation<FS>(phaseIdx));
39 out.addVolumeVariable([phaseIdx](
const VolumeVariables& v){
return v.pressure(phaseIdx); },
40 IOName::pressure<FS>(phaseIdx));
41 out.addVolumeVariable([phaseIdx](
const auto& v){
return v.density(phaseIdx); },
42 IOName::density<FS>(phaseIdx));
43 out.addVolumeVariable([phaseIdx](
const auto& v){
return v.mobility(phaseIdx); },
44 IOName::mobility<FS>(phaseIdx));
47 out.addVolumeVariable([](
const auto& v){
return v.capillaryPressure(); },
49 out.addVolumeVariable([](
const auto& v){
return v.porosity(); },
57 return pvIdx == 0 ? IOName::pressure<FluidSystem>(FluidSystem::phase0Idx)
58 : IOName::saturation<FluidSystem>(FluidSystem::phase1Idx);
60 return pvIdx == 0 ? IOName::pressure<FluidSystem>(FluidSystem::phase1Idx)
61 : IOName::saturation<FluidSystem>(FluidSystem::phase0Idx);