25                                const Problem& problem,
 
   26                                const Element& element,
 
   28                                SolidState& solidState,
 
   29                                const int solidVolFracOffset)
 
   31    for (
int sCompIdx = solidState.numComponents-solidState.numInertComponents; sCompIdx < solidState.numComponents; ++sCompIdx)
 
   33        const auto& sp = problem.spatialParams();
 
   34        using SolidSystem = 
typename SolidState::SolidSystem;
 
   35        const auto inertVolumeFraction = sp.template inertVolumeFraction<SolidSystem>(element, scv, elemSol, sCompIdx);
 
   36        solidState.setVolumeFraction(sCompIdx, inertVolumeFraction);
 
   39    if (!(solidState.isInert()))
 
   41        auto&& priVars = elemSol[scv.localDofIndex()];
 
   42        for (
int sCompIdx = 0; sCompIdx < solidState.numComponents- solidState.numInertComponents; ++sCompIdx)
 
   43           solidState.setVolumeFraction(sCompIdx, priVars[solidVolFracOffset + sCompIdx]);
 
 
void updateSolidVolumeFractions(const ElemSol &elemSol, const Problem &problem, const Element &element, const Scv &scv, SolidState &solidState, const int solidVolFracOffset)
update the solid volume fractions (inert and reacitve) and set them in the solidstate
Definition updatesolidvolumefractions.hh:24