24#ifndef DUMUX_DISCRETIZATION_CC_MPFA_O_INTERACTIONVOLUME_HH
25#define DUMUX_DISCRETIZATION_CC_MPFA_O_INTERACTIONVOLUME_HH
29#include <dune/common/dynmatrix.hh>
30#include <dune/common/dynvector.hh>
31#include <dune/common/fvector.hh>
32#include <dune/common/reservedvector.hh>
46template<
class Traits >
class CCMpfaOInteractionVolume;
58template<
class NodalIndexSet,
class Scalar >
62 using GridIndexType =
typename NodalIndexSet::GridIndexType;
63 using LocalIndexType =
typename NodalIndexSet::LocalIndexType;
65 static constexpr int dim = NodalIndexSet::Traits::GridView::dimension;
66 static constexpr int dimWorld = NodalIndexSet::Traits::GridView::dimensionworld;
68 using DimVector = Dune::FieldVector<Scalar, dim>;
69 using FaceOmegas =
typename std::conditional< (dim<dimWorld),
70 std::vector<DimVector>,
71 Dune::ReservedVector<DimVector, 2> >::type;
76 using OmegaStorage = std::vector< FaceOmegas >;
78 using AMatrix = Dune::DynamicMatrix< Scalar >;
79 using BMatrix = Dune::DynamicMatrix< Scalar >;
80 using CMatrix = Dune::DynamicMatrix< Scalar >;
81 using DMatrix = Dune::DynamicMatrix< Scalar >;
82 using TMatrix = Dune::DynamicMatrix< Scalar >;
83 using CellVector = Dune::DynamicVector< Scalar >;
84 using FaceVector = Dune::DynamicVector< Scalar >;
89 using GridView =
typename NodalIndexSet::Traits::GridView;
102 template<
class Problem,
class FVElementGeometry,
class ElemVolVars>
112template<
class Traits >
116 using GridView =
typename Traits::GridView;
117 using Element =
typename GridView::template Codim<0>::Entity;
119 using IndexSet =
typename Traits::IndexSet;
120 using GridIndexType =
typename IndexSet::GridIndexType;
121 using LocalIndexType =
typename IndexSet::LocalIndexType;
122 using Stencil =
typename IndexSet::NodalGridStencilType;
124 using LocalScvType =
typename Traits::LocalScvType;
125 using LocalScvfType =
typename Traits::LocalScvfType;
126 using LocalFaceData =
typename Traits::LocalFaceData;
133 GridIndexType volVarIndex_;
146 template<
class Problem,
class FVElementGeometry >
147 void bind(
const IndexSet& indexSet,
148 const Problem& problem,
149 const FVElementGeometry& fvGeometry)
153 stencil_ = &indexSet.nodalIndexSet().gridScvIndices();
156 numFaces_ = indexSet.numFaces();
157 const auto numLocalScvs = indexSet.numScvs();
158 const auto numGlobalScvfs = indexSet.nodalIndexSet().numScvfs();
161 elements_.clear(); elements_.reserve(numLocalScvs);
162 scvs_.clear(); scvs_.reserve(numLocalScvs);
163 scvfs_.clear(); scvfs_.reserve(numFaces_);
164 localFaceData_.clear(); localFaceData_.reserve(numGlobalScvfs);
165 dirichletData_.clear(); dirichletData_.reserve(numFaces_);
168 for (LocalIndexType scvIdxLocal = 0; scvIdxLocal < numLocalScvs; scvIdxLocal++)
170 elements_.emplace_back(fvGeometry.gridGeometry().element(
stencil()[scvIdxLocal] ));
171 scvs_.emplace_back(fvGeometry.gridGeometry().mpfaHelper(),
173 fvGeometry.scv(
stencil()[scvIdxLocal] ),
180 numKnowns_ = numLocalScvs;
183 for (LocalIndexType faceIdxLocal = 0; faceIdxLocal < numFaces_; ++faceIdxLocal)
185 const auto& scvf = fvGeometry.scvf(indexSet.gridScvfIndex(faceIdxLocal));
188 const auto& neighborScvIndicesLocal = indexSet.neighboringLocalScvIndices(faceIdxLocal);
189 const auto numNeighborScvs = neighborScvIndicesLocal.size();
190 localFaceData_.emplace_back(faceIdxLocal, neighborScvIndicesLocal[0], scvf.index());
195 if (problem.boundaryTypes(elements_[neighborScvIndicesLocal[0]], scvf).hasOnlyDirichlet())
197 scvfs_.emplace_back(scvf, neighborScvIndicesLocal, numKnowns_++,
true);
198 dirichletData_.emplace_back(scvf.outsideScvIdx());
201 scvfs_.emplace_back(scvf, neighborScvIndicesLocal, numUnknowns_++,
false);
205 scvfs_.emplace_back(scvf, neighborScvIndicesLocal, numUnknowns_++,
false);
208 for (LocalIndexType i = 1; i < numNeighborScvs; ++i)
211 const auto outsideLocalScvIdx = neighborScvIndicesLocal[i];
212 const auto& flipScvfIndex = fvGeometry.gridGeometry().flipScvfIndexSet()[scvf.index()][i-1];
213 const auto& flipScvf = fvGeometry.scvf(flipScvfIndex);
214 localFaceData_.emplace_back(faceIdxLocal,
225 {
return numFaces_; }
229 {
return numUnknowns_; }
233 {
return numKnowns_; }
237 {
return scvs_.size(); }
241 {
return *stencil_; }
244 const Element&
element(LocalIndexType ivLocalScvIdx)
const
245 {
return elements_[ivLocalScvIdx]; }
248 const LocalScvfType&
localScvf(LocalIndexType ivLocalScvfIdx)
const
249 {
return scvfs_[ivLocalScvfIdx]; }
252 const LocalScvType&
localScv(LocalIndexType ivLocalScvIdx)
const
253 {
return scvs_[ivLocalScvIdx]; }
257 {
return localFaceData_; }
261 {
return dirichletData_; }
264 template<
class FVElementGeometry >
265 auto getScvGeometry(LocalIndexType ivLocalScvIdx,
const FVElementGeometry& fvGeometry)
const
275 template<
class IvIndexSetContainer,
278 class FlipScvfIndexSet >
280 ScvfIndexMap& scvfIndexMap,
281 const NodalIndexSet& nodalIndexSet,
282 const FlipScvfIndexSet& flipScvfIndexSet)
285 const auto curGlobalIndex = ivIndexSetContainer.size();
288 ivIndexSetContainer.emplace_back(nodalIndexSet, flipScvfIndexSet);
291 for (
const auto scvfIdx : nodalIndexSet.gridScvfIndices())
292 scvfIndexMap[scvfIdx] = curGlobalIndex;
297 const Stencil* stencil_;
300 std::vector<Element> elements_;
301 std::vector<LocalScvType> scvs_;
302 std::vector<LocalScvfType> scvfs_;
303 std::vector<LocalFaceData> localFaceData_;
304 std::vector<DirichletData> dirichletData_;
307 std::size_t numFaces_;
308 std::size_t numUnknowns_;
309 std::size_t numKnowns_;
Class for the index set within an interaction volume of the mpfa-o scheme.
Helper class providing functionality to compute the geometry of the interaction-volume local sub-cont...
Base class for interaction volumes of mpfa methods.
Data structure holding interaction volume-local information for a grid subb-control volume face embed...
The available mpfa schemes in Dumux.
MpfaMethods
The available mpfa schemes in Dumux.
Definition: methods.hh:34
Adaption of the non-isothermal two-phase two-component flow model to problems with CO2.
Definition: adapt.hh:29
Base class for the interaction volumes of mpfa methods. It defines the interface and actual implement...
Definition: interactionvolumebase.hh:68
General implementation of a data structure holding interaction volume-local information for a grid su...
Definition: localfacedata.hh:42
Forward declaration of the o-method's interaction volume.
Definition: discretization/cellcentered/mpfa/omethod/interactionvolume.hh:115
const LocalScvfType & localScvf(LocalIndexType ivLocalScvfIdx) const
returns the local scvf entity corresponding to a given iv-local scvf idx
Definition: discretization/cellcentered/mpfa/omethod/interactionvolume.hh:248
std::size_t numUnknowns() const
returns the number of intermediate unknowns within this interaction volume
Definition: discretization/cellcentered/mpfa/omethod/interactionvolume.hh:228
static constexpr std::size_t numIVAtVertex(const NI &nodalIndexSet)
returns the number of interaction volumes living around a vertex
Definition: discretization/cellcentered/mpfa/omethod/interactionvolume.hh:270
void bind(const IndexSet &indexSet, const Problem &problem, const FVElementGeometry &fvGeometry)
Sets up the local scope for a given iv index set.
Definition: discretization/cellcentered/mpfa/omethod/interactionvolume.hh:147
static constexpr MpfaMethods MpfaMethod
publicly state the mpfa-scheme this interaction volume is associated with
Definition: discretization/cellcentered/mpfa/omethod/interactionvolume.hh:143
static void addIVIndexSets(IvIndexSetContainer &ivIndexSetContainer, ScvfIndexMap &scvfIndexMap, const NodalIndexSet &nodalIndexSet, const FlipScvfIndexSet &flipScvfIndexSet)
Definition: discretization/cellcentered/mpfa/omethod/interactionvolume.hh:279
std::size_t numKnowns() const
returns the number of (in this context) known solution values within this interaction volume
Definition: discretization/cellcentered/mpfa/omethod/interactionvolume.hh:232
const Element & element(LocalIndexType ivLocalScvIdx) const
returns the grid element corresponding to a given iv-local scv idx
Definition: discretization/cellcentered/mpfa/omethod/interactionvolume.hh:244
const LocalScvType & localScv(LocalIndexType ivLocalScvIdx) const
returns the local scv entity corresponding to a given iv-local scv idx
Definition: discretization/cellcentered/mpfa/omethod/interactionvolume.hh:252
const std::vector< LocalFaceData > & localFaceData() const
returns a reference to the container with the local face data
Definition: discretization/cellcentered/mpfa/omethod/interactionvolume.hh:256
const Stencil & stencil() const
returns the cell-stencil of this interaction volume
Definition: discretization/cellcentered/mpfa/omethod/interactionvolume.hh:240
const std::vector< DirichletData > & dirichletData() const
returns a reference to the information container on Dirichlet BCs within this iv
Definition: discretization/cellcentered/mpfa/omethod/interactionvolume.hh:260
std::size_t numScvs() const
returns the number of scvs embedded in this interaction volume
Definition: discretization/cellcentered/mpfa/omethod/interactionvolume.hh:236
std::size_t numFaces() const
returns the number of primary scvfs of this interaction volume
Definition: discretization/cellcentered/mpfa/omethod/interactionvolume.hh:224
auto getScvGeometry(LocalIndexType ivLocalScvIdx, const FVElementGeometry &fvGeometry) const
returns the geometry of the i-th local scv
Definition: discretization/cellcentered/mpfa/omethod/interactionvolume.hh:265
The default interaction volume traits class for the mpfa-o method. This uses dynamic types types for ...
Definition: discretization/cellcentered/mpfa/omethod/interactionvolume.hh:60
MVTraits MatVecTraits
export the matrix/vector traits to be used by the iv
Definition: discretization/cellcentered/mpfa/omethod/interactionvolume.hh:99
typename NodalIndexSet::Traits::GridView GridView
export the type of grid view
Definition: discretization/cellcentered/mpfa/omethod/interactionvolume.hh:89
Definition: discretization/cellcentered/mpfa/omethod/interactionvolume.hh:132
GridIndexType volVarIndex() const
Return corresponding vol var index.
Definition: discretization/cellcentered/mpfa/omethod/interactionvolume.hh:139
DirichletData(const GridIndexType index)
Constructor.
Definition: discretization/cellcentered/mpfa/omethod/interactionvolume.hh:136
The interaction volume index set class for the mpfa-o scheme.
Definition: interactionvolumeindexset.hh:41
Specialization of the interaction volume-local assembler class for the schemes using an mpfa-o type a...
Definition: discretization/cellcentered/mpfa/omethod/localassembler.hh:48
Class for the interaction volume-local sub-control volume used in the mpfa-o scheme.
Definition: discretization/cellcentered/mpfa/omethod/localsubcontrolentities.hh:43
Class for the interaction volume-local sub-control volume face used in the mpfa-o scheme.
Definition: discretization/cellcentered/mpfa/omethod/localsubcontrolentities.hh:138
static ScvGeometry computeScvGeometry(LocalIndexType ivLocalScvIdx, const InteractionVolume &iv, const FVElementGeometry &fvGeometry)
returns the geometry of the i-th local scv
Definition: scvgeometryhelper.hh:73
Classes for sub control entities of the mpfa-o method in the context of facet coupling.