Files | |
connectivitymap.hh | |
Stores the dof indices corresponding to the neighboring scvs that contribute to the derivative calculation. | |
consistentlyorientedgrid.hh | |
Helper type to determine whether a grid is guaranteed to be oriented consistently. This means that the intersection indices always correspond to the ones of a reference element or, in other words, the elements are never rotated. | |
elementboundarytypes.hh | |
Boundary types gathered on an element. | |
elementfluxvariablescache.hh | |
Global flux variable cache. | |
elementsolution.hh | |
The global face variables class for staggered models. | |
elementvolumevariables.hh | |
Base class for the face variables vector. | |
fvelementgeometry.hh | |
fvgridgeometry.hh | |
Base class for the finite volume geometry vector for face-centered staggered models This builds up the sub control volumes and sub control volume faces for each element. | |
geometryhelper.hh | |
Geometry helper for face-centered staggered scheme. | |
gridfluxvariablescache.hh | |
Global flux variable cache. | |
gridsupportsconcavecorners.hh | |
Type trait to determine if a grid supports concave corners (e.g. by cutting out a hole from the domain interior) | |
gridvolumevariables.hh | |
The grid volume variables class for face-centered staggered models. | |
localintersectionindexmapper.hh | |
Provides a mapping of local intersection indices (indexInInside) such that the local indices always follow the order of a reference element, regardless of how the element is oriented. Does not do anything for grids not supporting rotated elements (such as Dune::YaspGrid). | |
normalaxis.hh | |
Base class for the finite volume geometry vector for face-centered staggered models This builds up the sub control volumes and sub control volume faces for each element. | |
subcontrolvolume.hh | |
Face centered staggered sub control volume. | |
subcontrolvolumeface.hh | |
Face centered staggered sub control volume face. | |