►NDune | |
►NCapabilities | |
ChasHierarchicIndexSet | |
ChasHierarchicIndexSet< ALUGrid< dim, dimw, elType, refineType, Comm > > | |
ChasHierarchicIndexSet< const Grid > | |
ChasHierarchicIndexSet< GeometryGrid< HostGrid, CoordFunction, Allocator > > | |
ChasHierarchicIndexSet< OneDGrid > | |
ChasHierarchicIndexSet< SGrid< dim, dimw, ctype > > | |
ChasHierarchicIndexSet< UGGrid< dim > > | |
ChasHierarchicIndexSet< YaspGrid< dim, CoordCont > > | |
►NFem | |
►N__IdIndexSet | |
CAdaptiveIndexSet | |
CConsecutiveIndexSet | |
CImplementation | |
►CIndexSet | |
CCodim | |
►N__IndexSetDofMapper | |
CAdaptiveDofMapper | |
►CDofMapper | |
CBuildFunctor | |
CMapFunctor | |
CSubEntityFilter | |
CSubEntityFilterFunctor | |
CSubEntityInfo | |
CImplementation | |
►N__NonBlockMapper | |
CAdaptiveDofMapper | |
CDofMapper | |
CImplementation | |
CTraits | |
►NCapabilities | |
ChasAllCodimEntities | |
ChasFixedPolynomialOrder | Specialize with true if polynomial order does not depend on the grid (part) entity |
ChasFixedPolynomialOrder< const DiscreteFunctionSpace > | |
ChasFixedPolynomialOrder< DiscontinuousGalerkinSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
ChasFixedPolynomialOrder< FiniteVolumeSpace< FunctionSpace, GridPart, codim, Storage > > | |
ChasFixedPolynomialOrder< FourierDiscreteFunctionSpace< FunctionSpace, GridPart, Order > > | |
ChasFixedPolynomialOrder< HierarchicLegendreDiscontinuousGalerkinSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
ChasFixedPolynomialOrder< LagrangeDiscontinuousGalerkinSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
ChasFixedPolynomialOrder< LagrangeDiscreteFunctionSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
ChasFixedPolynomialOrder< LegendreDiscontinuousGalerkinSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
ChasFixedPolynomialOrder< PAdaptiveDGSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
ChasFixedPolynomialOrder< PAdaptiveLagrangeSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
ChasFixedPolynomialOrder< RannacherTurekDiscreteFunctionSpace< FunctionSpace, GridPart, Storage > > | |
CHasLeakPointer | |
CHasLeakPointer< DynamicVector< Field, ArrayAllocator > > | |
CHasLeakPointer< Fem::DynamicArray< Element, ArrayAllocator > > | |
CHasLeakPointer< Fem::VectorDiscreteFunction< DiscreteFunctionSpace, DofVector > > | |
ChasStaticPolynomialOrder | Specialize with true if polynomial order fixed and compile time static |
ChasStaticPolynomialOrder< const DiscreteFunctionSpace > | |
ChasStaticPolynomialOrder< DiscontinuousGalerkinSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
ChasStaticPolynomialOrder< FiniteVolumeSpace< FunctionSpace, GridPart, codim, Storage > > | |
ChasStaticPolynomialOrder< FourierDiscreteFunctionSpace< FunctionSpace, GridPart, Order > > | |
ChasStaticPolynomialOrder< HierarchicLegendreDiscontinuousGalerkinSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
ChasStaticPolynomialOrder< LagrangeDiscontinuousGalerkinSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
ChasStaticPolynomialOrder< LagrangeDiscreteFunctionSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
ChasStaticPolynomialOrder< LegendreDiscontinuousGalerkinSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
ChasStaticPolynomialOrder< PAdaptiveDGSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
ChasStaticPolynomialOrder< PAdaptiveLagrangeSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
ChasStaticPolynomialOrder< RannacherTurekDiscreteFunctionSpace< FunctionSpace, GridPart, Storage > > | |
CisAdaptive | Specialize with true if space can be used with AdaptiveDiscreteFunction |
CisAdaptive< const DiscreteFunctionSpace > | |
CisAdaptive< DiscontinuousGalerkinSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CisAdaptive< FiniteVolumeSpace< FunctionSpace, GridPart, codim, Storage > > | |
CisAdaptive< FourierDiscreteFunctionSpace< FunctionSpace, GridPart, Order > > | |
CisAdaptive< HierarchicLegendreDiscontinuousGalerkinSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CisAdaptive< LagrangeDiscontinuousGalerkinSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CisAdaptive< LagrangeDiscreteFunctionSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CisAdaptive< LegendreDiscontinuousGalerkinSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CisAdaptive< PAdaptiveDGSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CisAdaptive< PAdaptiveLagrangeSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CisAdaptive< RannacherTurekDiscreteFunctionSpace< FunctionSpace, GridPart, Storage > > | |
CisAdaptiveDofMapper | |
CisAdaptiveDofMapper< CodimensionMapper< GridPart, codim > > | |
CisAdaptiveDofMapper< const Mapper > | |
CisAdaptiveDofMapper< IndexSetDofMapper< GridPart > > | |
CisAdaptiveDofMapper< NonBlockMapper< BlockMapper, blockSize > > | |
CisAdaptiveDofMapper< PowerMapper< GridPart, Mapper, N > > | |
CisAdaptiveDofMapper< TupleMapper< GridPart, Mapper... > > | |
CisAdaptiveIndexSet | Specialize with true if index set implements the interface for adaptive index sets |
CisAdaptiveIndexSet< IdIndexSet< GridFamily > > | |
CisAdaptiveIndexSet< NonAdaptiveIndexSet< IndexSet > > | |
CisConsecutiveIndexSet | Specialize with true if index set implements the interface for consecutive index sets |
CisConsecutiveIndexSet< IdIndexSet< GridFamily > > | |
CisConsecutiveIndexSet< NonAdaptiveIndexSet< IndexSet > > | |
CisContinuous | Specialize with true if space is always continuous |
CisContinuous< const DiscreteFunctionSpace > | |
CisContinuous< DiscontinuousGalerkinSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CisContinuous< FiniteVolumeSpace< FunctionSpace, GridPart, codim, Storage > > | |
CisContinuous< FourierDiscreteFunctionSpace< FunctionSpace, GridPart, Order > > | |
CisContinuous< HierarchicLegendreDiscontinuousGalerkinSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CisContinuous< LagrangeDiscontinuousGalerkinSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CisContinuous< LagrangeDiscreteFunctionSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CisContinuous< LegendreDiscontinuousGalerkinSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CisContinuous< PAdaptiveDGSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CisContinuous< PAdaptiveLagrangeSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CisContinuous< RannacherTurekDiscreteFunctionSpace< FunctionSpace, GridPart, Storage > > | |
CisHierarchic | Specialize with true if for a space the basis functions are sorted by the polynomial order, starting with the lowest order |
CisHierarchic< const DiscreteFunctionSpace > | |
CisHierarchic< DiscontinuousGalerkinSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CisHierarchic< HierarchicLegendreDiscontinuousGalerkinSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CisLocalized | Specialize with true if the space is localized, * i.e., the basis function set is based on a shape function set |
CisLocalized< const DiscreteFunctionSpace > | |
CisLocalized< DiscontinuousGalerkinSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CisLocalized< FiniteVolumeSpace< FunctionSpace, GridPart, codim, Storage > > | |
CisLocalized< FourierDiscreteFunctionSpace< FunctionSpace, GridPart, Order > > | |
CisLocalized< HierarchicLegendreDiscontinuousGalerkinSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CisLocalized< LagrangeDiscontinuousGalerkinSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CisLocalized< LagrangeDiscreteFunctionSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CisLocalized< LegendreDiscontinuousGalerkinSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CisLocalized< PAdaptiveDGSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CisLocalized< PAdaptiveLagrangeSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CisLocalized< RannacherTurekDiscreteFunctionSpace< FunctionSpace, GridPart, Storage > > | |
CisLocallyAdaptive | |
CisLocallyAdaptive< AlbertaGrid< dim, dimworld > > | |
CisLocallyAdaptive< ALUGrid< dim, dimworld, elType, refineType, Comm > > | |
CisLocallyAdaptive< const Grid > | |
CisLocallyAdaptive< GeometryGrid< HostGrid, CoordFunction, Allocator > > | |
CisLocallyAdaptive< OneDGrid > | |
CisLocallyAdaptive< UGGrid< dim > > | |
CisParallel | Specialize with true if space can be used in parallel |
CisParallel< const DiscreteFunctionSpace > | |
CisParallel< DiscontinuousGalerkinSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CisParallel< FiniteVolumeSpace< FunctionSpace, GridPart, codim, Storage > > | |
CisParallel< FourierDiscreteFunctionSpace< FunctionSpace, GridPart, Order > > | |
CisParallel< HierarchicLegendreDiscontinuousGalerkinSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CisParallel< LagrangeDiscontinuousGalerkinSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CisParallel< LagrangeDiscreteFunctionSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CisParallel< LegendreDiscontinuousGalerkinSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CisParallel< PAdaptiveDGSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CisParallel< PAdaptiveLagrangeSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CisParallel< RannacherTurekDiscreteFunctionSpace< FunctionSpace, GridPart, Storage > > | |
CisPersistentIndexSet | Capability for persistent index sets |
CisPersistentIndexSet< IdIndexSet< GridFamily > > | |
CsupportsCallbackAdaptation | |
CsupportsCallbackAdaptation< AlbertaGrid< dim, dimworld > > | |
CsupportsCallbackAdaptation< ALUGrid< dim, dimworld, elType, refineType, Comm > > | |
CsupportsCallbackAdaptation< const Grid > | |
CsupportsCallbackAdaptation< GeometryGrid< HostGrid, CoordFunction, Allocator > > | |
CthreadSafe | Specialize with true if the space implementation is thread safe |
CthreadSafe< const DiscreteFunctionSpace > | |
CthreadSafe< DiscontinuousGalerkinSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CthreadSafe< FiniteVolumeSpace< FunctionSpace, GridPart, codim, Storage > > | |
CthreadSafe< FourierDiscreteFunctionSpace< FunctionSpace, GridPart, Order > > | |
CthreadSafe< HierarchicLegendreDiscontinuousGalerkinSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CthreadSafe< LagrangeDiscontinuousGalerkinSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CthreadSafe< LagrangeDiscreteFunctionSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CthreadSafe< LegendreDiscontinuousGalerkinSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CthreadSafe< PAdaptiveDGSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CthreadSafe< PAdaptiveLagrangeSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CthreadSafe< RannacherTurekDiscreteFunctionSpace< FunctionSpace, GridPart, Storage > > | |
CviewThreadSafe | Specialize with true if the space implementation is thread safe, while it is not modified |
CviewThreadSafe< const DiscreteFunctionSpace > | |
CviewThreadSafe< DiscontinuousGalerkinSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CviewThreadSafe< FiniteVolumeSpace< FunctionSpace, GridPart, codim, Storage > > | |
CviewThreadSafe< FourierDiscreteFunctionSpace< FunctionSpace, GridPart, Order > > | |
CviewThreadSafe< HierarchicLegendreDiscontinuousGalerkinSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CviewThreadSafe< LagrangeDiscontinuousGalerkinSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CviewThreadSafe< LagrangeDiscreteFunctionSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CviewThreadSafe< LegendreDiscontinuousGalerkinSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CviewThreadSafe< PAdaptiveDGSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CviewThreadSafe< PAdaptiveLagrangeSpace< FunctionSpace, GridPart, polOrder, Storage > > | |
CviewThreadSafe< RannacherTurekDiscreteFunctionSpace< FunctionSpace, GridPart, Storage > > | |
►NCombinedSpaceHelper | |
CLagrangeDiscreteFunctionSpace | |
CLagrangePointSetExporter | |
CLagrangePointSetExporter< LagrangeDiscreteFunctionSpace< FunctionSpaceImp, GridPartImp, polOrder, BaseFunctionStorageImp > > | |
►NGridPartCapabilities | |
CcanCommunicate | Specialize with 'true' for all codims that a grid can communicate data on (default=false) |
CcanCommunicate< AdaptiveLeafGridPart< Grid, idxpitype, onlyCodimensionZero >, codim > | |
CcanCommunicate< const GridPartType, codim > | |
CcanCommunicate< DGAdaptiveLeafGridPart< Grid, idxpitype >, codim > | |
CcanCommunicate< FilteredGridPart< HostGridPartImp, FilterImp, useFilteredIndexSet >, codim > | |
CcanCommunicate< GeoGridPart< CoordFunction >, codim > | |
CcanCommunicate< IdGridPart< HostGridPartType >, codim > | |
CcanCommunicate< IntersectionAdaptiveLeafGridPart< Grid, idxpitype >, codim > | |
CcanCommunicate< LeafGridPart< Grid >, codim > | |
CcanCommunicate< LevelGridPart< Grid >, codim > | |
ChasEntity | Specialize with 'true' for all codims that a grid implements entities for (default=false) |
ChasEntity< AdaptiveLeafGridPart< Grid, idxpitype, onlyCodimensionZero >, codim > | |
ChasEntity< const GridPartType, codim > | |
ChasEntity< DGAdaptiveLeafGridPart< Grid, idxpitype >, codim > | |
ChasEntity< FilteredGridPart< HostGridPartImp, FilterImp, useFilteredIndexSet >, codim > | |
ChasEntity< GeoGridPart< CoordFunction >, codim > | |
ChasEntity< IdGridPart< HostGridPartType >, codim > | |
ChasEntity< IntersectionAdaptiveLeafGridPart< Grid, idxpitype >, codim > | |
ChasEntity< LeafGridPart< Grid >, codim > | |
ChasEntity< LevelGridPart< Grid >, codim > | |
ChasGrid | Specialize with 'false' if grid part has no underlying dune grid (default=true) |
ChasGrid< AdaptiveLeafGridPart< Grid, idxpitype, onlyCodimensionZero > > | |
ChasGrid< const GridPartType > | |
ChasGrid< DGAdaptiveLeafGridPart< Grid, idxpitype > > | |
ChasGrid< FilteredGridPart< HostGridPartImp, FilterImp, useFilteredIndexSet > > | |
ChasGrid< GeoGridPart< CoordFunction > > | |
ChasGrid< IdGridPart< HostGridPartType > > | |
ChasGrid< IntersectionAdaptiveLeafGridPart< Grid, idxpitype > > | |
ChasGrid< LeafGridPart< Grid > > | |
ChasGrid< LevelGridPart< Grid > > | |
ChasSingleGeometryType | Specialize with 'true' for if the codimension 0 entity of the grid part has only one possible geometry type (default=false, topologyid=undefined) |
ChasSingleGeometryType< AdaptiveLeafGridPart< Grid, idxpitype, onlyCodimensionZero > > | |
ChasSingleGeometryType< const GridPartType > | |
ChasSingleGeometryType< DGAdaptiveLeafGridPart< Grid, idxpitype > > | |
ChasSingleGeometryType< FilteredGridPart< HostGridPartImp, FilterImp, useFilteredIndexSet > > | |
ChasSingleGeometryType< GeoGridPart< CoordFunction > > | |
ChasSingleGeometryType< IdGridPart< HostGridPartType > > | |
ChasSingleGeometryType< IntersectionAdaptiveLeafGridPart< Grid, idxpitype > > | |
ChasSingleGeometryType< LeafGridPart< Grid > > | |
ChasSingleGeometryType< LevelGridPart< Grid > > | |
CisCartesian | Specialize with 'true' if the grid part is cartesian (default=false) |
CisCartesian< AdaptiveLeafGridPart< Grid, idxpitype, onlyCodimensionZero > > | |
CisCartesian< const GridPartType > | |
CisCartesian< DGAdaptiveLeafGridPart< Grid, idxpitype > > | |
CisCartesian< FilteredGridPart< HostGridPartImp, FilterImp, useFilteredIndexSet > > | |
CisCartesian< GeoGridPart< CoordFunction > > | |
CisCartesian< IdGridPart< HostGridPartType > > | |
CisCartesian< IntersectionAdaptiveLeafGridPart< Grid, idxpitype > > | |
CisCartesian< LeafGridPart< Grid > > | |
CisCartesian< LevelGridPart< Grid > > | |
CisConforming | Specialize with 'true' if implementation guarantees conforming level grids. (default=false) |
CisConforming< AdaptiveLeafGridPart< Grid, idxpitype, onlyCodimensionZero > > | |
CisConforming< const GridPartType > | |
CisConforming< DGAdaptiveLeafGridPart< Grid, idxpitype > > | |
CisConforming< FilteredGridPart< HostGridPartImp, FilterImp, useFilteredIndexSet > > | |
CisConforming< GeoGridPart< CoordFunction > > | |
CisConforming< IdGridPart< HostGridPartType > > | |
CisConforming< IntersectionAdaptiveLeafGridPart< Grid, idxpitype > > | |
CisConforming< LeafGridPart< Grid > > | |
CisConforming< LevelGridPart< Grid > > | |
CisParallel | Specialize with 'true' if implementation supports parallelism (default=false) |
CisParallel< AdaptiveLeafGridPart< Grid, idxpitype, onlyCodimensionZero > > | |
CisParallel< const GridPartType > | |
CisParallel< DGAdaptiveLeafGridPart< Grid, idxpitype > > | |
CisParallel< FilteredGridPart< HostGridPartImp, FilterImp, useFilteredIndexSet > > | |
CisParallel< GeoGridPart< CoordFunction > > | |
CisParallel< IdGridPart< HostGridPartType > > | |
CisParallel< IntersectionAdaptiveLeafGridPart< Grid, idxpitype > > | |
CisParallel< LeafGridPart< Grid > > | |
CisParallel< LevelGridPart< Grid > > | |
►NSolver | |
CCGInverseOperator | Inverse operator base on CG method. This is the base class for the cg solver and does not imvolve any runtime parametrization |
CAbstractColumnWriter | Class representing column writer in general |
CAbstractShapeFunction | |
CAdaptationManager | This class manages the adaptation process including a load balancing after the adaptation step. This class is created by the AdaptationManager for each grid instance. See AdaptationManager for details |
CAdaptationManagerBase | This class manages the adaptation process. If the method adapt is called, then the grid is adapted and also all the data belonging to the given dof manager will be rearranged for data set where it is necessary to keep the data |
CAdaptationManagerInterface | AdaptationManagerInterface class |
CAdaptationManagerReferenceFactory | Factory class to create adaptation manager reference counter |
CAdaptationMethod | AdaptationMethod is a simple adaptation method reader class |
►CAdaptiveDiscreteFunction | |
CDofStorageWrapper | Wrapper class to create fake DofStorage from DofType* |
CAdaptiveDofMapper | Extended interface for adaptive DoF mappers |
►CAdaptiveGridPartBase | A grid part with an index set specially designed for adaptive calculations |
CCodim | Struct providing types of the leaf iterators on codimension codim |
CAdaptiveIndexSet | Extended interface for adaptive, consecutive index sets |
CAdaptiveIndexSetBase | Consecutive, persistent index set for the leaf level based on the grid's hierarchy index set |
►CAdaptiveIndexSetBaseTraits | |
CCodim | |
CAdaptiveLeafGridPart | |
►CAdaptiveLeafGridPartTraits | Type definitions for the LeafGridPart class |
CAdaptiveLeafIndexSetChooser | |
CAdaptiveLeafIndexSetChooser< dummy, true > | |
►CCodim | |
CPartition | |
CAdaptiveLeafIndexSet | Consecutive, persistent index set for the leaf level based on the grid's hierarchy index set |
CAdaptiveLeafIndexSetTraits | |
►CAllGeomTypes | Default implementation uses method geomTypes of given index set. Used in DiscreteFunctionSpaces |
CInsertGeometryTypes | |
CALUGridWriter | |
CArrayAllocatorDefault | |
CArrayAllocatorInterface | |
►CArrayDataSource | |
CValue | |
CArrayDefault | Default implementation of the ArrayInterface |
CArrayDefaultIterator | |
CArrayDefaultTraits | |
CArrayInterface | Abstract array interface |
CArrayWrapper | Implementation of the ArrayInterface wrapping a pointer to an array of elements |
CArrayWrapperVector | An implementation of VectorInterface wrapping a standard C++ array |
CASCIIInStream | Input stream reading from an STL input stream using ASCII decoding |
CASCIIInStreamTraits | |
CASCIIOutStream | Output stream writing into an STL output stream using ASCII encoding |
CASCIIOutStreamTraits | |
CAssembledOperator | Abstract matrix operator |
CAssignFunctor | |
CAssignFunctor< T *, Assign > | |
CAssignSingleFunctor | |
CAssignVectorReference | |
CAutomaticDifferenceLinearOperator | |
CAutomaticDifferenceOperator | Operator providing a Jacobian through automatic differentiation |
CAutoPersistentObject | Base class for auto persistent objects |
CAxpyFunctor | |
CBartonNackmanInterface | |
CBaseFunctionSetSingletonFactory | BasisFunctionSetSingletonFactory provides method createObject and deleteObject for the SingletonList |
CBaseSetLocalKeyStorage | Storage class for base function set pointer and compiled local key pointers |
CBasicConstLocalFunction | |
►CBasicFilterWrapper | |
CCodim | |
►CBasicFilterWrapperTraits | |
CCodim | Entity types |
CBasicInstationaryFunction | Basic wrapper class (still a CRTP) for instationary functions |
CBasicMakeVectorialExpression | |
CBasicParameterReader | |
CBasicTemporaryLocalFunction | A temporary function carrying values for one entity |
CBasisFunctionSet | |
CBasisFunctionSetProxy | |
CBasisFunctionSets | Interface class representing a family of basis function sets |
CBinaryFileInStream | constructor |
CBinaryFileOutStream | constructor |
►CBlockDiagonalLinearOperator | |
CCommDataHandle | |
CLocalMatrix | |
CLocalMatrixFactory | |
CLocalMatrixTraits | |
CBlockVectorDiscreteFunction | |
CBlockVectorInterface | |
CBoundaryIdProvider | |
CBoundaryIdProvider< GeometryGrid< HostGrid, CoordFunction, Allocator > > | |
CBoundaryIdProvider< OneDGrid > | |
CBoundaryIdProvider< SGrid< dim, dimw, ctype > > | |
CBoundaryIdProvider< UGGrid< dim > > | |
CBoundaryIdProvider< YaspGrid< dim, CoordCont > > | |
CByteOrder | |
CCachedShapeFunctionSets | |
CCacheProvider | |
CCacheProvider< GridPart, 0 > | |
CCacheProvider< GridPart, 1 > | |
CCacheStorage | Storage class for mappers |
CCacheStorage< ct, dim, false > | Specialisation for grids without any twists (i.e. Cartesian ones) |
CCacheStorage< ct, dim, true > | Specialisation for grids with twist (i.e. unstructured ones) |
CCachingInterface | Interface a cachable quadrature has to implement |
CCachingLumpingQuadrature | |
CCachingLumpingQuadrature< GridPart, 0 > | |
CCachingLumpingQuadrature< GridPart, 1 > | |
CCachingPointList | Integration point list supporting base function caching |
CCachingPointList< GridPartImp, 0, IntegrationTraits > | constructor |
CCachingPointList< GridPartImp, 1, IntegrationTraits > | constructor |
CCachingQuadrature | Quadrature class supporting base function caching |
CCachingQuadrature< GridPart, 0 > | constructor |
CCachingQuadrature< GridPartImp, 1 > | constructor |
CCachingShapeFunctionSet | |
CCachingStorage | |
CCachingTraits | |
CCArrayAllocator | |
CCArrayAllocatorTraits | |
CCGInverseOperator | Inverse operator base on CG method. Uses a runtime parameter fem.preconditioning which enables diagonal preconditioning if diagonal matrix entries are available, i.e., Op :: assembled is true |
►CCheckCartesian | Helper class to check whether grid is structured or not |
CReferenceNormals | |
►CCheckPointer | Implementation of the IOInterface. This class manages checkpointing |
CGridPersistentObject | Call appropriate backup and restore methods on the grid class |
CCheckPointerParameters | Local parameter collection for CheckPointer |
CCodegenInfo | |
CCodegenInfoFinished | |
CCodimensionMapper | Mapper allocating one DoF per subentity of a given codimension |
►CCodimensionMapperSingletonFactory | |
CKey | |
CCodimIndexSet | |
CColumnObject | |
CCombinedDataHandle | Combine multiple data handles into one |
CCombinedDataType | |
CCombinedDataType< DataHandle > | |
CCombinedDataType< DataHandle, Tail... > | |
CCombinedDiscreteFunction | |
CCombinedDiscreteFunctionDofIterator | Iterator over an array of dofs |
►CCombinedDiscreteFunctionSpace | Combined discrete function space |
CToNewDimRange | |
CToNewFunctionSpace | |
CCombinedDofConversionUtility | |
CCombinedDofConversionUtility< ContainedMapper, N, PointBased > | |
CCombinedDofConversionUtility< ContainedMapper, N, VariableBased > | Specialisation for VariableBased approach |
CCombinedLocalDataCollect | |
CCombinedLocalOperator | |
CCombinedSpace | |
CCombinedSpace< DiscreteFunctionSpace, N, PointBased > | Combined Space Function Space |
CCombinedSpace< DiscreteFunctionSpace, N, VariableBased > | |
CCombinedSubMapper | |
CCombinedVector | |
CCommunicationIndexMap | |
CCommunicationManager | Use Default CommunicationManager as Communication Manager |
CCommunicationManagerList | Proxy class to DependencyCache which is singleton per space |
►CCompiledLocalKeyContainer | Class for storage local keys for a given range of polynomial order and available geometry type |
►CConstructCompiledLocalKeys | |
CCompiledLocalKeyFactory | CompiledLocalKeyFactory method createObject and deleteObject for the SingletonList |
CConjugateGradientSolver | Linear solver using the CG algorithm |
CConsecutiveIndexSet | Extended interface for consecutive index sets |
CConstantLocalRestrictProlong | |
CConstDofIteratorDefault | |
CConstLocalFunction | A constant local function carrying values for one entity |
CConvertToGridFunction | |
CCornerPointList | |
CCornerPointSet | |
CCornerPointSetTraits | |
CCreateFeaturedPass | CreateFeaturedPass takes a discrete model and a PassType (like LocalDGEllliptPass) and creates with the parameter PreviousPass in the method create the desired pass. The advantage here is, that no typedefs have to be done |
CCreatePass | CreatePass takes a discrete model and a PassType (like LocalDGPass) and creates with the parameter PreviousPass in the method create the desired pass. The advantage here is, that no typedefs have to be done |
CCreatePassTree | Create pass tree from given list of discrete models the passId is deliviered to the start pass and stands for the global variable calculated by this pass |
CCreateSelectedPass | Create pass with previous unknown selector |
CCubeQuadrature | |
CDataCollector | The DataCollector is an example for a grid walk done while load balancing moves entities from one processor to another. The Communicator or grid should call the inlineData (write Data to ObjectStream) and the xtractData (read Data from Stream) and provide the macro level Entity<codim =0> and the ObjectStream. This Operator then does the hierarhic walk and calls its local pack operators which know the discrete functions to pack to the stream |
►CDataCollectorInterface | |
CTraits | |
CDataCollectorTraits | |
►CDataOutput | Implementation of the Dune::Fem::IOInterface. This class manages data output. Available output formats are GRAPE, VTK and VTK Vertex projected using the VtxProjection operator. Details can be found in I/O for discrete functions |
CGnuplotOutputer | |
CGridPartGetter | |
CGridPartGetter< Grid, OutputTuple, 0 > | |
CVTKFunc | |
CVTKListEntry | |
CVTKOutputerDG | |
CVTKOutputerLagrange | |
CDataOutputParameters | Parameter class for Dune::Fem::DataOutput |
CDataWriter | Implementation of the Dune::IOInterface. This class manages data output. Available output formats are GRAPE, VTK and VTK Vertex projected using the VtxProjection operator. Details can be found in I/O for discrete functions |
CDataWriterParameters | |
CDeadIntersection | |
CDeadIntersectionIterator | |
CDeadIterator | |
CDebugCounter | A counter only present if NDEBUG is not defined |
CDebugLock | |
CDefaultArrayAllocator | |
CDefaultAssign | |
CDefaultBasisFunctionSet | Implementation of a basis function set for given entity |
CDefaultBasisFunctionSets | Generate a set of default basis function sets from given set of shape function sets |
CDefaultCodeGenerator | Default code generator methods |
CDefaultCommunicationHandler | Default communication handler for discrete functions |
►CDefaultCommunicationManager | Default communication manager using just the grids communicate method |
CNonBlockingCommunication | |
CDefaultDiscreteFunctionTraits | |
CDefaultDofAllocator | Oriented to the STL Allocator funtionality |
CDefaultDofAllocator< bool > | |
CDefaultDofAllocator< char > | |
CDefaultDofAllocator< double > | |
CDefaultDofAllocator< float > | |
CDefaultDofAllocator< int > | |
CDefaultDofAllocator< size_t > | |
CDefaultEntitySearch | |
CDefaultEocCalculator | Write a self contained tex table for eoc runs with timing information |
►CDefaultFilterTraits | Type definitions |
CCodim | Entity types |
CDefaultGridPartEntity | |
CDefaultGridPartEntity< 0, dim, GridFamily > | |
CDefaultLocalL2Projection | |
CDefaultLocalRestrictProlong | |
CDefaultLocalRestrictProlong< CombinedDiscreteFunctionSpace< SP1, SP2 > > | |
CDefaultLocalRestrictProlong< CombinedSpace< DiscreteFunctionSpace, N, PointBased > > | |
CDefaultLocalRestrictProlong< CombinedSpace< DiscreteFunctionSpace, N, VariableBased > > | |
CDefaultLocalRestrictProlong< DiscontinuousGalerkinSpace< FunctionSpaceImp, GridPartImp, 0, StorageImp > > | |
CDefaultLocalRestrictProlong< DiscontinuousGalerkinSpace< FunctionSpaceImp, GridPartImp, polOrd, StorageImp > > | |
CDefaultLocalRestrictProlong< Fem::PAdaptiveDGSpace< FunctionSpaceImp, GridPartImp, 0, StorageImp > > | |
CDefaultLocalRestrictProlong< Fem::PAdaptiveDGSpace< FunctionSpaceImp, GridPartImp, polOrd, StorageImp > > | |
CDefaultLocalRestrictProlong< Fem::PAdaptiveLagrangeSpace< FS, GP, ord, S > > | |
CDefaultLocalRestrictProlong< FiniteVolumeSpace< FunctionSpace, GridPart, codim, Storage > > | |
CDefaultLocalRestrictProlong< HierarchicLegendreDiscontinuousGalerkinSpace< FunctionSpaceImp, GridPartImp, 0, StorageImp > > | |
CDefaultLocalRestrictProlong< HierarchicLegendreDiscontinuousGalerkinSpace< FunctionSpaceImp, GridPartImp, polOrd, StorageImp > > | |
CDefaultLocalRestrictProlong< LagrangeDiscontinuousGalerkinSpace< FunctionSpaceImp, GridPartImp, 0, StorageImp > > | |
CDefaultLocalRestrictProlong< LagrangeDiscontinuousGalerkinSpace< FunctionSpaceImp, GridPartImp, polOrd, StorageImp > > | |
CDefaultLocalRestrictProlong< LagrangeDiscreteFunctionSpace< FunctionSpaceType, GridPartType, order, StorageType > > | |
CDefaultLocalRestrictProlong< LegendreDiscontinuousGalerkinSpace< FunctionSpaceImp, GridPartImp, 0, StorageImp > > | |
CDefaultLocalRestrictProlong< LegendreDiscontinuousGalerkinSpace< FunctionSpaceImp, GridPartImp, polOrd, StorageImp > > | |
CDefaultLocalRestrictProlong< PowerDiscreteFunctionSpace< DiscreteFunctionSpace, N > > | |
CDefaultLocalRestrictProlong< TupleDiscreteFunctionSpace< DiscreteFunctionSpaces... > > | |
CDefaultLumpingQuadratureTraits | |
CDefaultOrderCalculator | Default Quadrature Order Calculator |
CDefaultQuadratureTraits | |
CDefaultQuadratureTraits< FieldType, 0 > | |
CDefaultQuadratureTraits< FieldType, 1 > | |
CDefaultQuadratureTraits< FieldType, 2 > | |
CDefaultQuadratureTraits< FieldType, 3 > | |
CDefaultSingletonFactory | |
CDenseLocalRieszProjection | |
CDenseMatrix | DenseMatrix based on std::vector< std::vector< T > > |
►CDenseRowMatrix | |
CRow | |
►CDenseRowMatrixObject | |
CLocalMatrix | |
CLocalMatrixFactory | |
CLocalMatrixTraits | |
CDenseSubVector | |
►CDFCommunicationOperation | Mathematical operation apply during communication to data that is communicated enum of all avialable operations |
CAdd | Sum up data |
CCopy | Just copy data |
CMax | Keep maximum |
CMin | Keep minimum |
CSub | Substract data |
CDGAdaptiveDiscreteModel | |
CDGAdaptiveLeafGridPart | A grid part with an index set specially designed for adaptive calculations |
CDGAdaptiveLeafIndexSet | Consecutive, persistent index set for the leaf level based on the grid's hierarchy index set |
CDGAdaptiveLeafIndexSetTraits | |
CDGDiscreteModelCaller | Model caller for local DG pass |
CDGDiscreteModelDefault | Default implementation of the DGDiscreteModelInterface where methods for the fluxes and the source term do nothing, so that the user needn't implement them if not needed |
CDGDiscreteModelDefaultWithInsideOutside | |
►CDGDiscreteModelInterface | Interface class for problem definition in the LDG context |
CExtractMatrix | Mass factor type |
CExtractMatrix< MatrixType< ctype, dimD, dimR > > | |
CDGHelmholtzJacobianOperator | |
CDGHelmholtzOperator | |
CDGInverseMassPass | Pass applying the local inverse mass matrix on each element |
►CDGInverseMassPassDiscreteModel | |
CTraits | |
CDGL2ProjectionImpl | |
CDiagonalAndNeighborStencil | Stencil contaning the entries (en,en) and (en,nb) for all entities en in the space and neighbors nb of en. Defailt for an operator over a DG space |
CDiagonalPreconditioner | Precondtioner, multiplies with inverse of the diagonal works with |
CDiagonalPreconditionerBase | |
CDiagonalPreconditionerBase< DFImp, OperatorImp, true > | |
CDiagonalStencil | Stencil contaning the entries (en,en) for all entities in the space. Defailt for an operator over a Lagrange space or a DG mass operator |
CDifferentDiscreteFunctionSpace | |
CDifferentDiscreteFunctionSpace< CombinedDiscreteFunctionSpace< DFunctionSpaceImp1, DFunctionSpaceImp2 >, NewFunctionSpace > | Specialization of DifferentDiscreteFunctionSpace for CombinedDiscreteFunctionSpace |
CDifferentDiscreteFunctionSpace< CombinedSpace< ContainedSpace, N, policy >, NewFunctionSpace > | |
CDifferentDiscreteFunctionSpace< DiscreteFunctionSpaceImp< FunctionSpaceImp, GridPartImp, polOrd, StorageImp >, NewFunctionSpace > | |
CDifferentDiscreteFunctionSpace< PowerDiscreteFunctionSpace< DiscreteFunctionSpace, N >, NewFunctionSpace > | Specialization of DifferentDiscreteFunctionSpace for PowerDiscreteFunctionSpace |
CDifferentiableOperator | Abstract differentiable operator |
CDiscontinuousGalerkinLocalInterpolation | |
CDiscontinuousGalerkinLocalL2Projection | |
CDiscontinuousGalerkinLocalRestrictProlong | |
CDiscontinuousGalerkinSpace | |
►CDiscontinuousGalerkinSpaceTraits | |
CCommDataHandle | |
►CDiscreteFunctionDefault | |
CCommDataHandle | |
►CDiscreteFunctionInterface | |
CCommDataHandle | |
CDiscreteFunctionSpaceAdapter | Create Obejct that behaves like a discrete function space without to provide functions with the iterator facilities |
CDiscreteFunctionSpaceDefault | This is the class with default implementations for discrete function. The methods not marked with having a default in the interface class must be provided by the implementation; all other methods have a default implementation here |
►CDiscreteFunctionSpaceInterface | This is the interface for discrete function spaces. All methods declared here have to be implemented by the implementation class |
CCommDataHandle | Defines type of data handle for communication |
CToNewDimRange | Typedef struct for defining the same discrete function space with a different dimRange |
CToNewFunctionSpace | Typedef struct for defining the same discrete function space with a different function space |
CDiscreteFunctionTraits | Traits class for a DiscreteFunction |
CDiscreteFunctionTraits< AdaptiveDiscreteFunction< DiscreteFunctionSpace > > | |
CDiscreteFunctionTraits< BlockVectorDiscreteFunction< DiscreteFunctionSpace, BlockVector > > | |
CDiscreteFunctionTraits< CombinedDiscreteFunction< ContainedDiscreteFunction, N > > | |
CDiscreteFunctionTraits< ISTLBlockVectorDiscreteFunction< DiscreteFunctionSpace, Block > > | |
CDiscreteFunctionTraits< VectorDiscreteFunction< DiscreteFunctionSpace, Vector > > | |
CDiscreteModelWrapper | DiscreteModelWrapper to combine DiscreteModel and Selector |
CDofAlignment | Interface documentation for Dof alignment classes used in VectorialBasisFunctionSet |
CDofBlockFunctor | |
CDofBlockProxy | DoF block proxy for discrete functions with random access to DoFs |
CDofBlockTraits | |
CDofBlockTraits< const DiscreteFunction > | |
CDofConversionUtility | |
CDofConversionUtility< PointBased > | Specialisation for PointBased approach |
CDofConversionUtility< VariableBased > | Specialisation for VariableBased approach |
CDofIteratorDefault | Default implementation of DofManagerInterface |
CDofIteratorInterface | Interface for DoF iterators of discrete functions |
CDofManager | |
CDofManagerFactory | Singleton provider for the DofManager |
CDofManError | |
CDofMapper | Interface for calculating the size of a function space for a grid on a specified level. Furthermore the local to global mapping of dof number is done. Also during grid adaptation this mapper knows about old and new indices of entities |
CDofMapperCode | |
CDofMapperCodeWriter | |
CDofMapperError | |
CDofStorageInterface | Interface class for a dof storage object to be stored in discrete functions |
CDomainDecomposedIterator | Thread iterators using domain decomposition |
CDomainDecomposedIteratorStorage | Storage of thread iterators using domain decomposition |
CDouble | |
CDummyDataCollector | Empty data collector |
►CDummyObjectStream | |
CEOFException | |
CDuneQuadratureTraits | |
CDuneQuadratureTraits< FieldType, 0 > | |
CDuneQuadratureTraits< FieldType, 1 > | |
CDuneQuadratureTraits< FieldType, 3 > | |
CDynamicArray | |
CDynamicReferenceVector | Construct a vector with a dynamic size |
CDynamicVector | A vector using a DynamicArray as storage |
CElementIntegrationPointList | Integration point list on the codim-0 reference element |
CElementIntegrationPointList< GridPartImp, 0, IntegrationTraits > | constructor |
CElementIntegrationPointList< GridPartImp, 1, IntegrationTraits > | constructor |
CElementPointListBase | ElementPointListBase |
CElementPointListBase< GridPartImp, 0, IntegrationTraits > | |
CElementQuadrature | Quadrature on the codim-0 reference element |
CElementQuadrature< GridPartImp, 0 > | constructor |
CElementQuadrature< GridPartImp, 1 > | constructor |
CElementQuadratureTraits | |
CElementTuple | |
CElementTuple< -1,-1,-1,-1,-1,-1,-1,-1,-1, Seed > | |
CEmptyGeometry | |
CEmptyIndexSetRestrictProlong | |
CEmptyLocalRestrictProlong | |
CEmptyNonBlockingComm | |
CEntityGridTypeGetter | |
CEntityGridTypeGetter< const Entity > | |
CEntityGridTypeGetter< Dune::Entity< codim, dim, Grid, Impl > > | |
CEntitySearch | |
CEntitySearch< GeoGridPart< CoordFunction >, codim, partition > | |
CEntitySearch< IdGridPart< HostGridPart >, codim, partition > | |
CEnvelope | |
►CEOCDataSource | |
CValue | |
CEvaluateCaller | |
CEvaluateCaller< Traits, MIN_NUMBER_OF_QUAD_POINTS, MIN_NUMBER_OF_BASE_FCT > | |
CEvaluateCaller< Traits, MIN_NUMBER_OF_QUAD_POINTS, numBaseFct > | |
CEvaluateCaller< Traits, quadNop, MIN_NUMBER_OF_BASE_FCT > | |
►CEvaluateCallerInterface | |
CEvaluatorStorage | |
CEvaluateCallerInterfaceTraits | |
CEvaluateCallerTraits | |
CEvaluateImplementation | |
CEvaluateRealImplementation | |
CExportsDiscreteFunctionSpaceType | |
CExtractCommonFieldType | |
►CFemEoc | Write a self contained tex table for eoc runs with timing information |
CEOCColumnWriter | |
CErrorColumnWriter | |
CFemEocTable | The Fem Eoc Table writer |
CFieldMatrixConverter | |
CFieldMatrixConverter< FieldVector< K, n *m >, FieldMatrix< K, n, m > > | Convert a FieldVector with length n * m to a FieldMatrix with n rows and m cols |
CFieldMatrixConverterRow | |
CFieldVectorAdapter | |
CFieldVectorAdapter< FieldVector< Field, sz > > | |
CFileIOCheckError | Check if lock file exists and aborts if true |
CFileIOLock | Creates and removes lock file during backup process |
►CFilterDefaultImplementation | |
CCodim | Entity types |
►CFilteredGridPart | A FilteredGridPart allows to extract a set of entities from a grid satisfying a given constrainted defined through a filter class |
CCodim | Grid part typedefs, use those of traits |
CFilteredGridPartDataHandle | |
CFilteredGridPartIndexSetSelector | |
CFilteredGridPartIndexSetSelector< FilteredGP, HostGP, false > | |
►CFilteredGridPartIntersectionIterator | |
CNeighborInfo | |
CFilteredGridPartIterator | |
►CFilteredGridPartTraits | |
►CCodim | Struct providing types of the iterators on codimension cd |
CPartition | |
►CFilterInterface | Interface class for filter to use with a Dune::FilteredGridPart |
CCodim | Entity types |
CFiniteVolumeBasisFunctionSet | |
CFiniteVolumeBasisFunctionSets | |
CFiniteVolumeLocalInterpolation | |
CFiniteVolumeSpace | |
►CFiniteVolumeSpaceTraits | |
CCommDataHandle | |
CFixedSizeArray | Standard array with fixed size |
CFixedStepTimeProvider | |
CFlOpCounter | |
CFlopCounter | A class wrapper for the function PAPI_flops from the package PAPI. The results are CPU time, real and process local and the number of floating point operations in MFLOP/s |
CFourierDiscreteFunctionSpace | |
►CFourierDiscreteFunctionSpaceTraits | |
CCommDataHandle | |
CFourierDofMapper | |
CFourierDofMapperTraits | |
CFourierFunctionSet | |
CFourierFunctionSet< FunctionSpace< DomainFieldType, RangeFieldType, 1, 1 >, Order > | |
►CFourierFunctionSet< FunctionSpace< DomainFieldType, RangeFieldType, dimDomain, 1 >, Order > | |
CAssign | |
CMultiIndexIterator | |
CFourierFunctionSetSize | |
CFunction | Abstract class representing a function |
CFunctionalAxpyFunctor | |
CFunctionSet | Global basis functions |
CFunctionSetProxy | Proxy for a FunctionSet |
CFunctionSpace | A vector valued function space |
CFunctionSpaceInterface | Interface for an arbitrary function spaceBase class for specific function spaces |
CGaussPts | One-dimensional Gauss points and their weights |
►CGenericAdaptiveDofMapper | |
CEntityDofStorage | |
CInsertSubEntities | |
CNumDofs | |
CNumDofs< codim, true > | |
CPolynomOrderStorage | |
CRemoveSubEntities | |
CGenericCombinedDiscreteFunctionSpace | |
CGenericDiscontinuousGalerkinSpace | Generic implementation of a Discontinuous Galerkin space based on a fixed family of basis function sets |
►CGenericDiscreteFunctionSpace | Please doc me |
►CInitialize | |
CCompiledLocalKeyFactory | |
CPAdaptiveDiscreteFunctionEntry | |
CPAdaptiveDiscreteFunctionEntryInterface | Interface for list of p-adaptive functions |
CScalarShapeFunctionSetFactory | |
CGenericLagrangeBaseFunction | |
CGenericLagrangeBaseFunction< FunctionSpace, PointGeometry, order > | |
CGenericLagrangeBaseFunction< FunctionSpace, ProductGeometry< FirstGeometryType, SecondGeometryType >, order > | |
CGenericLagrangeBaseFunction< FunctionSpace, PyramidGeometry< BaseGeometryType >, 0 > | |
CGenericLagrangeBaseFunction< FunctionSpace, PyramidGeometry< BaseGeometryType >, order > | |
CGenericLagrangePoint | |
►CGenericLagrangePoint< PointGeometry, order, bottom > | |
CCodim | |
►CGenericLagrangePoint< ProductGeometry< FirstGeometry, SecondGeometry >, order, bottom > | |
CCodim | |
►CGenericLagrangePoint< PyramidGeometry< BaseGeometry >, 0, bottom > | |
CCodim | |
►CGenericLagrangePoint< PyramidGeometry< BaseGeometry >, order, bottom > | |
CCodim | |
CGeoCoordFunctionCaller | |
CGeoCoordFunctionCaller< codim, CoordFunction, false > | |
CGeoCoordFunctionCaller< codim, CoordFunction, true > | |
CGeoCoordVector | |
CGeoCornerStorage | |
CGeoDataHandle | |
CGeoDiscreteCoordFunctionCaller | |
CGeoDiscreteCoordFunctionCaller< codim, CoordFunction, LagrangeDiscreteFunctionSpace< FunctionSpace, GridPart, 1, Storage > > | |
CGeoEntity | |
CGeoEntity< 0, dim, GridFamily > | |
CGeoGeometry | |
►CGeoGeometryTraits | |
CCornerStorage | |
ChasSingleGeometryType | |
►CGeoGridPart | |
CCodim | |
►CGeoGridPartFamily | |
CCodim | |
►CTraits | |
CCodim | |
►CGeoGridPartTraits | |
►CCodim | |
CPartition | |
CGeoIntersection | |
CGeoIntersectionCoordVector | |
CGeoIntersectionIterator | |
CGeoIterator | |
CGeoLocalCoordVector | |
CGeometryAffinityCheck | Helper class to check affinity of the grid's geometries |
CGeometryInformation | ReferenceVolume and local bary center keeper class |
CGeometryWrapper | |
CGeometryWrapper< id, 0 > | |
CGeometryWrapper< id, 1 > | |
CGlobalConsecutiveIndexSet | |
CGlobalRefine | A class with one static method apply to globally refine a grid. All index sets are adapted to the new grid and the managed dof storage is expanded - but no prolongation or restriction of data is performed |
CGridEntityAccess | |
CGridEntityAccess< Dune::Entity< codim, dim, Grid, EntityImpl > > | |
CGridEntityAccess< Dune::Entity< codim, dim, GridFamily, GeoEntity > > | |
CGridEntityAccess< Dune::Entity< codim, dim, GridFamily, IdEntity > > | |
CGridEntitySearch | |
CGridEntitySearch< GridPart, 0, partition > | |
►CGridFunctionAdapter | GridFunctionAdapter provides local functions for a Function |
CLocalFunction | |
CGridFunctionAdapterTraits | Traits of GridFunctionAdapter |
CGridName | |
CGridObjectStreamTraits | |
CGridObjectStreamTraits< const Grid > | |
CGridObjectStreamTraits< GeometryGrid< HostGrid, CoordFunction, Allocator > > | |
CGridPart2GridView | |
►CGridPart2GridViewImpl | |
CCodim | Codim Structure |
►CGridPart2GridViewTraits | |
►CCodim | |
CPartition | |
CGridPartDefault | Default implementation for the GridPart classes |
►CGridPartInterface | Interface for the GridPart classes A GridPart class allows to access only a specific subset of a grid's entities. A GridPart implementation provides the corresponding index set and a begin/end iterator pair for accessing those entities, the corresponding intersection iterators and a appropriate communication method. GridParts are used to parametrize spaces (see DiscreteFunctionSpaceDefault [in dune-fem]) |
►CCodim | |
CPartition | |
CGridPartPolicies | |
CGridSolution | Creates a function with evaluate method from a check point |
►CGridSolutionVector | |
CCheckDomain | |
CGridTimeProvider | Same functionality as the Dune::TimeProvider |
►CGridView2GridPart | |
CCodim | |
►CGridWidth | Utility functions for calculating the maximum grid width |
CMinMaxInit | |
CMinMaxInit< Max< T > > | |
CMinMaxInit< Min< T > > | |
CGridWidthProvider | Utility functions for calculating the maximum grid width |
►CH1Norm | |
CFunctionJacobianSquare | |
CHasLocalFunction | |
CHdivProjection | H-div Projection for discontinuous discrete functions. The projection is described in detail in: |
CHessianRangeTypeEvaluator | |
CHessianTransformation | |
CHexaQuadrature | |
CHierarchicLegendreDiscontinuousGalerkinSpace | |
►CHierarchicLegendreDiscontinuousGalerkinSpaceTraits | |
CCommDataHandle | |
CScalarShapeFunctionSet | |
►CHierarchicLegendreShapeFunctionSet | Please doc me |
CCompare | |
CHorizontalDofAlignment | Implementation of DofAlignment |
CIdBasicGeometry | |
CIdEntity | |
CIdEntity< 0, dim, GridFamily > | |
CIdEntityBasic | |
CIdGeometry | |
CIdGeometryTraits | |
►CIdGridPart | |
CCodim | |
►CIdGridPartTraits | |
►CCodim | |
CPartition | |
►CGridFamily | |
CCodim | |
►CTraits | |
CCodim | |
CEmptyData | |
CIdIndexSet | |
CIdIntersection | |
CIdIntersectionIterator | |
CIdIterator | |
CIdLocalGeometry | |
CIdLocalGeometryTraits | |
CIdProvider | Singleton that manages a globally unique identifier |
CIdShapeFunctionSet | |
CIndexFunctor | |
CIndexMapperInterface | Abstract index mapper interface |
►CIndexSet | Interface documentation for (grid part) index sets |
CCodim | |
CIndexSetDofMapper | |
CIndexSetRestrictProlong | |
►CInsertFunctionPass | Base class for specific pass implementations. InsertFunctionPass simply inserts a discrete function from outside of the pass tree into the current pass tree, for example when calculating the species transport the velocity function comes from a different pass but has to be inserted into the species pass |
CLocalFunctionInitializer | |
CLocalFunctionInitializer< LocalFunctionAdapter< LFType > > | |
CInsertFunctionPassDiscreteModel | |
CInsertFunctionPassDiscreteModelTraits | Traits for InsertFunctionPass to create dummy discrete model |
CInsertIndicesToSet | |
CInsertOperatorPass | Include a Dune::Fem::Operator into a pass |
CInstationaryFunction | Implementation of a Dune::Fem::Function taking an instationary function |
CInStreamInterface | Abstract interface for an input stream |
CIntegrationPointList | Actual interface class for integration point lists |
CIntegrationPointListImp | Generic implementation of an IntegrationPointList |
CIntegrator | Integrator for arbitrary functions providing evaluate |
CInterpolation | Native interpolation of a discrete function space |
CIntersectionAdaptiveLeafGridPart | A grid part with an index set specially designed for adaptive calculations |
CIntersectionAdaptiveLeafGridPartTraits | Type definitions for the LeafGridPart class |
CIntersectionAdaptiveLeafIndexSet | |
CIntersectionAdaptiveLeafIndexSetTraits | |
CIntersectionQuadrature | IntersectionQuadrature is a helper class for creating the appropriate face quadratures for integrating over intersections |
►CInverseFilter | |
CCodim | Entity types |
►CIOInterface | IOInterface to write data to hard disk |
CSaveParallelCartesianGrid | |
CSaveParallelCartesianGrid< YaspGrid< dim, CoordCont > > | |
CIOTuple | |
CIOTuple< tuple<> > | |
CIOTupleBase | |
CIsBlockVector | |
CIsBlockVectorDiscreteFunction | Tag for discrete functions using block vectors |
CIsDiscreteFunction | |
CisGenericDiscreteFunctionSpace | |
CIsPersistent | |
►CISTLBlockVector | |
CIterator | |
CISTLBlockVectorDiscreteFunction | |
CIteratorProvider | |
CIteratorToInterface | |
CIteratorToInterface< InteriorBorder_Partition > | |
CJacobianRangeTypeEvaluator | |
CJacobianTransformation | |
►CL1Norm | |
CFunctionAbs | |
CFunctionDistance | |
►CL2Norm | |
CFunctionDistance | |
CFunctionSquare | |
CL2Projection | The L2Projection class provides methods for projecting a function unto a given discrete function space. Note that this implementation assumes orthogonal base functions! |
CLagrangeDiscontinuousGalerkinSpace | |
►CLagrangeDiscontinuousGalerkinSpaceTraits | |
CCommDataHandle | |
CLagrangeDiscreteFunctionSpace | Lagrange discrete function space |
►CLagrangeDiscreteFunctionSpaceTraits | |
CCommDataHandle | |
CScalarShapeFunctionSetFactory | |
CLagrangeDofMapperCodeFactory | |
CLagrangeInterpolation | Generates the Lagrange Interpolation of an analytic function |
CLagrangeLocalInterpolation | |
CLagrangeLocalRestrictProlong | |
CLagrangeMapperSingletonFactory | |
CLagrangeMapperSingletonKey | |
►CLagrangePoint | A single lagrange point |
CCodim | |
CLagrangePointImplementation | |
CLagrangePointInterface | |
CLagrangePointListImplementation | |
CLagrangePointListInterface | Set of lagrange points |
►CLagrangePointSet | |
CCodim | |
►CLagrangePointSetTraits | |
CPointListTraits | Default defines for used point lists |
CLagrangeShapeFunction | Implementation of Lagrange shape function using generic Lagrange shape functions |
CLagrangeShapeFunctionFactory | Factory class |
CLagrangeShapeFunctionInterface | Abstract base class for Lagrange shape functions |
CLagrangeShapeFunctionSet | Lagrange shape function set |
CLatexTableWriter | Writes latex tables based on user-defined row structure |
CLeafGridPart | |
CLeftAdd | |
CLeftAddScaled | |
CLeftAssign | |
CLegendreDiscontinuousGalerkinSpace | |
►CLegendreDiscontinuousGalerkinSpaceTraits | |
CCommDataHandle | |
CScalarShapeFunctionSet | |
CLegendrePolynomials | |
CLegendreShapeFunction | Implementation of a single scalar-valued Legendre shape function |
CLegendreShapeFunctionSet | Dune::Fem::ShapeFunctionSet of Legendre ansatz polynomials |
CLevelGridPart | |
CLinearOperator | Abstract affine-linear operator |
CLineQuadrature | |
CLineSegmentSampler | Samples values of a discrete function along a given line segment |
CLineTwistMapperStrategy | |
CLoadBalanceLeafData | Check for sets of entities for the load balance procedure |
CLoadBalancer | This class manages the adaptation process. If the method adapt is called, then the grid is adapted and also all the data belonging to the given dof manager will be rearranged for data set where it is necessary to keep the data |
CLoadBalancerInterface | Interface class for load balancing |
CLocalAnalyticalFunctionBinder | LocalAnalyticalFunctionBinder binds a C++ local analytical function (and also its Jacobian and Hessian) to an object which provides all the methods and types needed by the LocalFunctionAdapter. It stores a copy to the local analytical function |
CLocalAverage | |
CLocalAverageHelper | |
CLocalAverageImpl | |
CLocalAverageImpl< LocalFunction, GridPart, DiscontinuousGalerkinSpace< FunctionSpace, GridPart, order, Storage > > | |
CLocalAverageImpl< LocalFunction, GridPart, FiniteVolumeSpace< FunctionSpace, GridPart, codim, Storage > > | |
CLocalCoordinate | |
CLocalCoordinate< PointGeometry, Field, offset > | |
CLocalCoordinate< ProductGeometry< FirstGeometry, SecondGeometry >, Field, offset > | |
CLocalCoordinate< PyramidGeometry< BaseGeometry >, Field, offset > | |
CLocalDataInliner | Inline DiscreteFunction data during load balancing |
CLocalDataInlinerTraits | |
CLocalDataXtractor | Inline DiscreteFunction data during load balancing |
CLocalDataXtractorTraits | |
CLocalDGMassPass | Implementation of operator to calculate gradient of a given discrete function using the pass concept |
►CLocalDGPass | |
CDefaultNBChecker | |
CLocalFunction | Interface for local functions |
►CLocalFunctionAdapter | LocalFunctionAdapter wrapped a class with a local evaluate method into a grid function |
CArgumentIF | |
CArgumentInitializer | |
CLocalFunctionInitializer | |
CLocalFunctionInitializer< ArgumentType, true > | |
CLocalFunctionAdapterHasInitialize | Identifier to local function has initialize feature |
►CLocalFunctionAdapterLocalFunction | |
CLocalFuncType | |
CLocalFuncType< dummy, true > | |
CLocalFunctionAdapterTraits | Traits of DiscreteFunctionAdapter |
CLocalFunctionConverter | Implementation of a Dune::Fem::LocalFunction on a FunctionSpace V restircted/prolongated from an other function space W |
CLocalFunctionEvaluator | |
CLocalFunctionSelector | |
CLocalFunctionSelector< LocalFunctionAdapter< Evaluate > > | |
CLocalFunctionSet | Local basis functions |
CLocalFunctionSetAdapter | Convert (global) function set to local function set |
CLocalFunctionSetProxy | Proxy for a LocalBasisFunctionSet |
CLocalFunctionsShapeFunctionSet | |
CLocalFunctionsShapeFunctionSetTraits | |
►CLocalFunctionTuple | |
CGet | |
CLocalFunctionTuple< DiscreteFunctionTuple, Entity, 0 > | |
►CLocalInlinePlus | |
CTraits | |
►CLocalInterface | |
CAddToWrapper | |
CObjectStreamExtractor | |
CObjectStreamExtractor< std::pair< T1 *, const T2 * > > | |
CTraits | |
CLocalKey | |
CLocalL2Projection | Please doc me |
CLocalMassMatrix | Local Mass Matrix for arbitrary spaces |
CLocalMassMatrix< DiscontinuousGalerkinSpace< FunctionSpaceImp, GridPartImp, polOrd, BaseFunctionStorageImp >, VolumeQuadratureImp > | Local Mass Matrix for DG space |
CLocalMassMatrix< HierarchicLegendreDiscontinuousGalerkinSpace< FunctionSpaceImp, GridPartImp, polOrd, BaseFunctionStorageImp >, VolumeQuadratureImp > | Local Mass Matrix for hierarchic Legendre space |
CLocalMassMatrix< LegendreDiscontinuousGalerkinSpace< FunctionSpaceImp, GridPartImp, polOrd, BaseFunctionStorageImp >, VolumeQuadratureImp > | Local Mass Matrix for Legendre space |
►CLocalMassMatrixImplementation | Local Mass Matrix inversion implementation, select the correct method in your implementation |
CNoMassDummyCaller | |
CLocalMassMatrixImplementationDgOrthoNormal | DG Local Mass Matrix for arbitrary spaces |
CLocalMatrixDefault | Default implementation for local matrix classes |
CLocalMatrixInterface | Interface for local matrix classes |
CLocalMatrixWrapper | |
CLocalMatrixWrapperTraits | |
CLocalOperatorDefault | Default implementation of a local operator A local operator works on entities only and is used by a DiscreteOperator during a mesh traversal. This class implements the standard behaviour for prepareLocal(), finalizeLocal() and possibly other methods |
CLocalOperatorInterface | |
CLocalParameter | |
CLocalParameter< ParamDefault, ParamDefault > | |
CLocalPass | Specialisation of Pass which provides a grid walk-through, but leaves open what needs to be done on each elements |
CLocalRefine | A class with one static method apply for invoking the local adaptation procedure on a given grid instance. All index sets are adapted to the new grid and the managed dof storage is expanded - but no prolongation or restriction of data is performed |
CLocalRieszProjection | Interface documentation of a local Riesz projection |
►CLPNorm | |
CFunctionDistance | |
CFunctionMultiplicator | |
►CLPNormBase | |
CForEachCaller | |
CForEachCaller< false, vDiscrete > | |
CForEachCaller< uDiscrete, false > | |
CLumpingQuadrature | |
CLumpingQuadratureTraits | |
CMakeVectorialExpression | |
CMakeVectorialExpression< FieldMatrix< K, 1, dimD >, FieldMatrix< K, dimR, dimD > > | |
CMakeVectorialExpression< FieldVector< K, 1 >, FieldVector< K, dimR > > | |
CMakeVectorialTraits | |
CMakeVectorialTraits< FieldMatrix< K, 1, dimD >, FieldMatrix< K, dimR, dimD > > | |
CMakeVectorialTraits< FieldVector< K, 1 >, FieldVector< K, dimR > > | |
CManagedDiscreteFunction | |
CManagedDiscreteFunction< VectorDiscreteFunction< DiscreteFunctionSpace, Vector > > | |
CManagedDofStorage | |
CManagedDofStorageImplementation | |
CManagedDofStorageInterface | Interface class for a dof storage object that can be managed (resized and compressed) by the DofManager |
CManagedIndexSet | |
CManagedIndexSetInterface | |
CMapGeometryType | |
CMapping | A mapping from one vector space into another This class describes a general mapping from the domain vector space into the range vector space. It can also be used to construct linear combinations of mappings |
CMappingOperators | Implementation of Mapping +, -, *, / operations |
CMatrixColumnObject | |
CMatrixFunctionSpace | A matrix valued function space |
CMatrixFunctor | |
CMatrixMapping | JacobianRangeType class for matrix valued functions - derived from FieldMatrix |
CMatrixParameter | MatrixParameter |
CMatrixSpaceTraits | Traits class for matrix valued spaces |
CMetaTwistUtility | MetaTwistUtility forwards the twist calls to the TwistUtility of the underlying HostTwistUtility |
CMPIManager | |
CMutableArray | |
CMutableBlockVector | |
CMutableBlockVector< MutableArray< F >, BlockSize > | |
CMutableLocalFunction | |
CNewtonInverseOperator | Inverse operator based on a newton scheme |
CNewtonParameter | |
CNoDataException | |
CNonAdaptiveIndexSet | Wrapper for (adaptive) index sets that disables all support for adaptivity |
►CNonAdaptiveIndexSetTraits | |
CCodim | |
CNonBlockMapper | |
CNonBlockMapper< NonBlockMapper< BlockMapper, innerBlockSize >, outerBlockSize > | |
CNoWhiteSpaceValidator | |
CNumberColumnWriter | Gets the N th element of a provided tuple assuming its a number |
CObjectPointer | Models a pointer to a reference countable object |
CObjectStack | |
CObjectStackEntry | |
CObjectStackEntryTraits | |
CObjPointer | |
CObjPointerStorage | |
COEMBICGSQOp | BiCG-SQ method |
COEMBICGSTABOp | BiCG-stab solver |
COEMCGOp | OEM-CG scheme after Hestenes and Stiefel |
COEMGMRESOp | GMRES solver |
COEMMatrix | Interface for matrices to be used with OEM sovlers |
COffsetSubMapper | Index mapper which simply adds an offset to the index |
COperator | Abstract operator |
COrderCalculatorInterface | Quadrature Order Interface |
COrthonormalBase_1D | |
COrthonormalBase_2D | |
COrthonormalBase_3D | |
COrthonormalLocalRieszProjection | |
►COrthonormalShapeFunctionHelper | |
CBasicGeometryType | |
CEvaluateEach | |
CHessianEach | |
CJacobianEach | |
COrthonormalShapeFunctionSet | |
COrthonormalShapeFunctionSetSize | |
COutStreamInterface | Abstract interface for an output stream |
CPAdaptiveDGMapper | |
CPAdaptiveDGMapperTraits | |
CPAdaptiveDGSpace | Adaptive DG discrete function space |
►CPAdaptiveDGSpaceTraits | |
CCommDataHandle | |
CPAdaptiveLagrangeMapper | |
CPAdaptiveLagrangeMapperTraits | |
CPAdaptiveLagrangeSpace | Lagrange discrete function space |
►CPAdaptiveLagrangeSpaceTraits | |
CCommDataHandle | |
►CScalarShapeFunctionSetFactory | |
CType | |
CPairFunctor | |
CParallelScalarProduct | |
CParameter | Container for User Specified Parameters |
►CParameterContainer | |
CDGFBlock | |
►CParameterContainerData | |
CValue | |
CParameterInvalid | |
CParameterNotFound | |
CParameterParser | |
CParameterParser< bool > | |
CParameterParser< FieldMatrix< F, m, n > > | |
CPARDGSpaceOperatorInterface | ODESpaceOperatorInterface for Operators that work with PARDG ODE solvers of the type where is a discrete function space |
CPartitionIteratorProvider | |
►CPass | Base class for specific pass implementations |
CDeleteHandler | |
►CPersistenceManager | Class with singleton instance managing all persistent objects |
CWrapObject< ObjectType, false > | |
CWrapObject< ObjectType, true > | |
CPersistentAdaptiveIndexSet | |
CPersistentConsecutiveIndexSet | |
CPersistentIndexSet | Please doc me |
CPersistentIndexSetInterface | Virtual base class for persistent index sets |
CPersistentObject | Base class for persistent objects |
CPetscDiscreteFunction | |
CPLagrangeLocalRestrictProlong | |
CPointBasedDofConversionUtility | Specialisation for PointBased approach |
►CPointGeometry | Generic geometry modelling a single point |
CCodim | |
CPointProvider | |
CPointProvider< ct, dim, 0 > | |
CPointProvider< ct, dim, 1 > | |
CPointTwistMapperStrategy | |
CPowerDiscreteFunctionSpace | |
►CPowerDiscreteFunctionSpaceTraits | |
CCommDataHandle | |
CSubDiscreteFunctionSpace | |
CPowerLocalRestrictProlong | |
CPowerMapper | Mapper allocating one DoF per subentity of a given codimension |
CPreconditionedInverseOperator | |
CPrismQuadrature | |
►CProductGeometry | Generic geometry modelling the product of two base geometries |
CCodim | |
CProlongFunction | Prolong discrete functions between grid levels |
►CPyramidGeometry | Generic geometry modelling a pyramid over a base geometry |
CCodim | |
CPyramidPoints | |
CPyramidQuadrature | |
CQuadCreator | Actual quadrature storage |
CQuadrature | Actual interface class for quadratures |
CQuadratureImp | Generic implementation of a Dune quadrature |
CQuadratureKey | |
CQuadraturePointWrapper | Wrapper for a (Quadrature,int) pair |
CQuadratureProvider | Provide a single instance pool of quadratures |
CQuadratureProvider< FieldImp, 0, QuadratureTraits > | provide a single instance pool of quadratures |
CQuadratureProvider< FieldImp, 1, QuadratureTraits > | provide a single instance pool of quadratures |
CQuadratureProvider< FieldImp, 2, QuadratureTraits > | provide a single instance pool of quadratures |
CQuadratureProvider< FieldImp, 3, QuadratureTraits > | provide a single instance pool of quadratures |
CQuadratureRulesFactory | Quadrature implementation based on the standard DUNE quadratures |
►CQuadratureStorageRegistry | |
CStorageInterface | |
CQuadrilateralQuadrature | |
CQuadrilateralTwistMapperStrategy | |
CRadialFilter | Example implementation; given center x and radius r, filter is characteristic function of clos B_r( x ) |
CRangeMatrix | RangeType class for matrix valued functions - derived from FieldMatrix but has representation as vector |
CRangeTypeEvaluator | |
CRannacherTurekBlockMapperFactory | |
CRannacherTurekBlockMapperSingletonKey | |
CRannacherTurekDiscreteFunctionSpace | |
CRannacherTurekDofMapperCodeFactory | |
CRannacherTurekLocalInterpolation | |
CReferenceBlockVector | This is the reference implementation of a block vector as it is expected as the second template parameter to Dune::Fem::BlockVectorDiscreteFunction |
CReferenceBlockVectorBlock | |
CReferenceCounterDefault | Default implementation of ReferenceCounterInterface |
CReferenceCounterInterface | Interface for objects capable of reference counting |
CRemoveIndicesFromSet | |
CReserveMemoryObjects | |
CResizeMemoryObjects | |
CRestrictFunction | Restrict discrete functions between grid levels |
CRestrictProlongDefault | This is a wrapper for the default implemented restriction/prolongation operator, which only takes a discrete function template |
CRestrictProlongDefaultTraits | |
CRestrictProlongDefaultTraits< std::tuple< DiscreteFunctions &... > > | |
CRestrictProlongDefaultTuple | Conveniently set up a tuple of Dune::Fem::RestrictProlongDefault restriction/prolongation objects created from a variadic list of discrete functions |
CRestrictProlongInterface | Interface class defining the local behaviour of the restrict/prolong operation (using BN) |
CRestrictProlongInterfaceDefault | Interface default implementation for derived classes |
CRestrictProlongTraits | Traits class for derivation from RestrictProlongInterface |
CRestrictProlongTuple | Combine a variadic number of Dune::Fem::RestrictProlongInterface instances into a single object again derived from Dune::Fem::RestrictProlongInterface |
CRestrictProlongTuple< Head, Tail... > | |
CRestrictProlongWrapper | |
CRowType | |
CRowType< const T > | |
CRowType< FieldMatrix< K, ROWS, COLS > > | |
CRowType< FieldVector< K, SIZE > > | |
CScaledLocalOperator | |
CSelectCachingShapeFunctionSet | |
CSelectCachingShapeFunctionSet< ShapeFunctionSet, CachingStorage > | |
CSelectCachingShapeFunctionSet< ShapeFunctionSet, SimpleStorage > | |
CSelectCachingShapeFunctionSets | |
CSelector | A helper class that creates a selector tuple from given pass ids |
►CSelectorBase | A helper class that creates a selector tuple from given pass ids |
CContains | Check, whether integer N is contained in selector |
CSelectUnsignedLongInteger | |
►CSelectUnsignedLongInteger< ulongint, ulongint > | |
CUnsignedLongIntType | |
CShapeFunctionSet | |
CShapeFunctionSetProxy | |
CShapeFunctionSets | Interface class representing a family of shape function sets |
CSimpleBasisFunctionSet | Please doc me |
CSimpleBlockVector | This is the reference implementation of a block vector as it is expected as the second template parameter to Dune::Fem::BlockVectorDiscreteFunction |
CSimpleBlockVectorBlock | This is the implementation of a block of SimpleBlockVector |
CSimpleDofAllocator | |
CSimpleShapeFunctionSet | |
CSimpleStencil | Watered down stencil providing only the upper bound for the non-zero entries per row |
CSimpleStorage | |
CSimplexMaxOrder | |
CSimplexQuadrature | |
►CSingletonList | Singleton list for key/object pairs |
CSingletonListStorage | |
CSIONlibInStream | Input stream reading from a file in binary form |
CSIONlibOutStream | Output stream writing into a single file with the SIONlib (http://www2.fz-juelich.de/jsc/sionlib/) |
►CSlaveDofs | |
CLinkBuilder | |
CSingletonKey | Key for CommManager singleton list |
CSlaveDofsProvider | |
CSolverParameter | |
►CSpaceOperatorInterface | Interface for time evolution operators |
CCallDoubleOperator | |
CCallDoubleOperator< Op, AdaptiveDiscreteFunction< SpaceType >, double > | |
CSpaceOperatorPtr | Only for keeping the pointer |
CSpaceOperatorStorage | Only for keeping the pointer |
CSpaceOperatorWrapper | Apply wrapper |
CSparseRowLinearOperator | |
CSparseRowMatrix | SparseRowMatrix |
►CSparseRowMatrixObject | |
CLocalMatrix | LocalMatrix |
CLocalMatrixTraits | |
CSparseRowMatrixParameter | |
CSparseRowMatrixTraits | |
CSpecialArrayFeatures | SpecialArrayFeatures is a wrapper class to extend some array classes with some special features needed for the MemObject. There exsist a specialization for MutableArray and PetscVector |
CSpecialArrayFeatures< MutableArray< ValueType > > | Specialization of SpecialArrayFeatures for MutableArray |
►CStackAllocator | |
Crebind | |
►CStackAllocator< void, S > | |
Crebind | |
CStandardArrayAllocator | |
CStandardArrayAllocatorTraits | |
CStandardInStream | Input stream reading from a given std::istream |
CStandardInStreamTraits | |
CStandardOutStream | Output stream writing into a given std::ostream |
CStandardOutStreamTraits | |
CStartPass | End marker for a compile-time list of passes |
CStaticArray | Static Array Wrapper for simple C Vectors like double* and int*. This also works as base class for the MutableArray which is used to store the degrees of freedom |
CStaticOffsetSubMapper | Index mapper with static size which simply adds an offset to the index |
CStaticVector | Implementation of VectorInterface using a C++ array embedded info the class to provide the fields |
CStencil | Default implementation for a general operator stencil |
CSTLArray | |
CSTLArrayIterator | |
CSTLArrayTraits | |
CStreamError | |
CStreamFactory | Factory class for Fem Streams to deal with different constructor parameters |
CStreamFactory< SIONlibInStream > | Factory class for Fem Streams to deal with different constructor parameters |
CSubArray | |
CSubDofVector | Extract Sub dof vector for single coordinate |
CSubDofVector< DofVector, HorizontalDofAlignment< ScalarBasisFunctionSet, Range > > | |
CSubDofVector< DofVector, VerticalDofAlignment< ScalarBasisFunctionSet, Range > > | |
CSubEntityLagrangePointIterator | |
CSubEntityLagrangePointIterator< GridPart, 0, polOrder > | |
CSubFunctionStorage | |
CSubObject | |
CSubVector | |
CSupportsArrayInterface | |
CSupportsIndexMapperInterface | |
CSupportsReferenceCounterInterface | |
CSupportsVectorInterface | |
CTemporaryLocalFunction | A temporary function carrying values for one entity |
CTemporaryLocalMatrix | A local matrix with a small array as storage |
CTemporaryLocalMatrixTraits | |
►CTensorProductShapeFunctionSet | |
CAssign | |
COrder | |
CTestQuadrature | |
CTetraQuadrature | |
►CThreadFilter | |
CCodim | |
►CThreadFilterTraits | |
CCodim | Entity types |
CThreadIterator | Thread iterators |
CThreadIteratorStorage | Storage of thread iterators |
CThreadIteratorStorageBase | Storage of thread iterators using domain decomposition |
CThreadManager | The ThreadManager wrapps basic shared memory functionality provided by OpenMP or pthreads such as thread id, number of threads, etc |
CThreadSafeValue | ThreadSafeValue realizes thread safety for a given variable by creating an instance of this variable for each thread |
CTimeDependentFunction | |
CTimeProvider | Manager for global simulation time of time-dependent solutions |
CTimeProviderBase | General base for time providers |
CTimer | |
CTimer< false > | |
CTimer< true > | |
CToNewDimDomainFunctionSpace | Convert functions space to space with new dim domain |
CToNewDimDomainFunctionSpace< FunctionSpace< DomainFieldImp, RangeFieldImp, dimDomain, dimRange >, newDimDomain > | Specialization for parameter list <domainfile,rangefield,dimDomain,dimRange,newDimDomain> |
CToNewDimDomainFunctionSpace< MatrixFunctionSpace< DomainFieldImp, RangeFieldImp, n, m1, m2 >, newDimDomain > | Specialization for parameter list <domainfile,rangefield,dimDomain,dimRange,dimLocal> |
CToNewDimRangeFunctionSpace | Convert functions space to space with new dim range |
CToNewDimRangeFunctionSpace< FunctionSpace< DomainFieldImp, RangeFieldImp, dimDomain, dimRange >, newDimRange > | Specialization for parameter list <domainfile,rangefield,dimDomain,dimRange,dimLocal> |
CToNewRange | |
CToNewRange< FunctionSpace< DomainField, RangeField, dimD, 1 >, FieldVector< RangeField, dimR > > | |
CTriangleQuadrature | |
CTriangleTwistMapperStrategy | |
►CTupleBasisFunctionSet | |
CSubBasisFunctionSet | |
►CTupleDataSource | |
CValue | |
CTupleDiscreteFunctionSpace | |
►CTupleDiscreteFunctionSpaceTraits | |
CCommDataHandle | |
CConstructor | |
CDeleter | |
CSubDiscreteFunctionSpace | |
CTupleLocalRestrictProlong | |
CTupleMapper | Mapper allocating one DoF per subentity of a given codimension |
CTupleShapeFunctionSet | |
CTwistFreeTwistUtility | TwistFreeTwistUtility provides the default implementation for twistfree grid such as Cartesian grids |
CTwistMapperCreator | Helper class for TwistProvider which takes care of the creation process |
CTwistMapperStrategy | This class factors out all geometry dependent stuff in a strategy class |
CTwistProvider | Access point for PointMapper objects with twist information PointMapper objects get created once and are reused as often as needed. The TwistProvider serves in this context as the single point of access which is responsible for the creation and management of these objects. TwistProvider follows the monostate pattern |
CTwistStorage | Identifies quadrature points on faces with twists For a given quadrature type and a face with a given twist the TwistMapper provides a mapping from the quadrature point number on the twisted face to the quadrature point number on the (untwisted) reference face. (It removes the twist from the quadrature, so to say.) This is needed in unstructured grids when a quadrature point on a reference element's face needs to be transformed to a quadrature point in the reference element itself |
CTwistUtility | Utility to get twist from IntersectionIterator, if provided by grid (i.e. AlbertaGrid, ALUGrid) otherwise return default values (correct for YASP/SGRID) |
CTwistUtility< GeometryGrid< HostGrid, CoordFunction, Allocator > > | |
CTwistUtility< OneDGrid > | |
CTwistUtility< SGrid< dim, dimworld, ctype > > | |
CTwistUtility< YaspGrid< dimw, CoordCont > > | |
CUninitializedObjectStack | |
CUnknownGridException | |
CValidateGreater | |
CValidateInterval | |
CValidateLess | |
CValidateNotGreater | |
CValidateNotLess | |
CValidatorDefault | |
CValidatorInterface | |
CVectorDefault | Default implementation of VectorInterface |
CVectorDefaultTraits | |
CVectorDiscreteFunction | |
►CVectorialBasisFunctionSet | Builds a vectorial basis function set from given scalar basis function set |
CEvaluateAll | |
CHessianAll | |
CJacobianAll | |
►CVectorialShapeFunctionSet | |
CVectorialFunctor | |
CVectorialShapeFunctionSets | |
CVectorInterface | An abstract vector interface |
CVectorInterfaceArrayTraits | |
CVectorSpaceTraits | Traits class for vector function spaces |
CVerticalDofAlignment | Implementation of DofAlignment |
CVirtualInStream | |
CVirtualInStreamObject | |
CVirtualInStreamTraits | |
CVirtualInStreamWrapper | |
CVirtualOutStream | |
CVirtualOutStreamObject | |
CVirtualOutStreamTraits | |
CVirtualOutStreamWrapper | |
►CVoidFilter | |
CCodim | |
CVTKFunctionWrapper | |
CVTKIO | |
CVTKIO< GridPart, false > | |
CVTKIO< GridPart, true > | |
►CVTKIOBase | /brief Output using VTK |
CPartitioningData | |
CSubsamplingVTKWriter | |
CVolumeData | |
CVTKWriter | |
CVtxProjection | The Projection class which average discontinuous function in the Lagrangepoints |
CVtxProjectionImpl | |
CWeightDefault | |
►CWeightedL2Norm | |
CWeightedFunctionSquare | |
►CWeightedLPNorm | |
CWeightedFunctionMultiplicator | |
CXDRBasicInStream | Base implementation for XDR input streams |
CXDRBasicOutStream | Base implementation for XDR output streams |
CXDRFileInStream | XDR output stream reading from a file |
CXDRFileOutStream | XDR output stream writing into a file |
CXDRInStreamTraits | |
CXDROutStreamTraits | |
►NStd | |
Care_all_same | |
Care_all_same< T > | |
Care_all_same< U, V, T... > | |
CAlbertaGrid | |
CColCompMatrix | |
CColCompMatrix< Fem::SparseRowMatrix< B > > | Converter for SparseRowMatrix to column-compressed matrix. Specialization for SparseRowMatrix |
CConstTuple | Add const qualifier to all tuple elements |
CContainsType | |
CContainsType< Tuple, Type, 0 > | |
CDenseMatVecTraits< Fem::DenseSubVector< V > > | |
CDenseMatVecTraits< Fem::DynamicReferenceVector< K, A > > | |
CDenseMatVecTraits< Fem::FieldMatrixConverter< FieldVector< K, n *m >, FieldMatrix< K, n, m > > > | |
CDenseMatVecTraits< Fem::FieldMatrixConverterRow< K, m > > | |
CDenseMatVecTraits< Fem::SimpleBlockVectorBlock< BlockVector > > | |
CDenseMatVecTraits< FieldMatrixColumn< FieldMatrix > > | |
CDereferenceTuple | Dereference pointer tuple |
CDereferenceTuple< Tuple, Seed, size, size > | |
CDisplayErrorFunction | |
CDisplayErrorFunction< DiscreteFunction, SolutionType, false > | |
CDisplayErrorFunction< DiscreteFunction, SolutionType, true > | |
CEmptyTuple | |
CExecutionTimer | Class with a start and stop method for timing parts of a program |
CFieldMatrixColumn | |
CFieldMatrixColumn< const FieldMatrix< K, m, n > > | |
CFieldMatrixColumn< FieldMatrix< K, m, n > > | |
CFieldTraits< Fem::DenseSubVector< V > > | |
CFieldTraits< Fem::DynamicReferenceVector< K, A > > | |
CFirstTypeIndexTuple | |
CFirstTypeIndexTuple< Tuple, SubTuple, Seed, size, size > | |
CHostGridAccess | |
►CIdDataHandle | |
CCodim | |
CInstantiateTuple | Instantiate a tuple of elements with identical, simple constructors |
CInstantiateTuple< Tuple, Key, Seed, 0 > | |
CMakeSubTuple | |
CMakeSubTuple< Tuple, Positions, Seed, size, size > | |
COperator | An abstract operator Interface class for Operators. Operators are applied to Functions and the result is a Function again |
CPointerTuple | Convert a tuple to a tuple of pointer types |
CPopBackTuple | |
CPopBackTuple< Tuple, 0 > | |
CPopFrontTuple | |
CPopFrontTuple< Tuple, 0 > | |
CReferenceTuple | Convert a tuple to a tuple of references |
CRemoveConstTuple | Remove const qualifiers from tuple |
CSGrid | |
CSingleTypeTuple | |
CSingleTypeTuple< T, size, Seed, size > | |
Ctuple_remove_const | |
CTupleToVectorConverter | Wrapper class to convert a vector of tuples of RangeTypes into something that behaves like a vector< RangeType > |
CTupleTypeTraits | |
►CTypeIndexedTuple | |
CContains | |
CValue | |
CUGGrid | |
CValidPointerTupleCheck | Check whether a pointer tuple can be dereferenced |
CYaspGrid | |
►NDuneODE | |
CBasicImplicitRungeKuttaSolver | Implicit RungeKutta ODE solver |
CBasicROWRungeKuttaSolver | ROW RungeKutta ODE solver |
CExplicitMultiStepSolver | Exlicit multi step ODE solver |
CExplicitOdeSolver | |
CExplicitRungeKuttaSolver | Exlicit RungeKutta ODE solver |
CExplMultiStepBase | |
CImplicitOdeSolver | |
CImplicitRungeKuttaSolver | Implicit RungeKutta ODE solver |
CImplicitRungeKuttaSolverParameters | |
CImplicitRungeKuttaTimeStepControl | |
CLimiterWrapper | |
CNoImplicitRungeKuttaSourceTerm | |
CNoROWRungeKuttaSourceTerm | |
CODEParameters | |
►COdeSolverInterface | Interface class for ODE Solver |
CMonitor | |
COperatorWrapper | |
CParDGOdeSolverBase | |
CPIDTimeStepControl | PID time step control |
CROWRungeKuttaSolver | ROW RungeKutta ODE solver |
CROWSimpleButcherTable | |
CROWSolverParameter | |
CSemiImplicitOdeSolver | |
CSemiImplicitRungeKuttaSolver | Implicit RungeKutta ODE solver |
CSemiImplicitRungeKuttaSourceTerm | |
CSimpleButcherTable | |
►NOEMSolver | |
CFakeConditioner | |
CMult | Mult method when given pre conditioning matrix |
CMult< Matrix, Matrix, false > | Mult method when no pre conditioning matrix |
COEMTmpMem | |
CPreconditionerImpl | |
CPreconditionInterface | Interface class for use of Preconditioners with the OEM solvers |
CSolverInterfaceImpl | |
►NparDG_MPI | |
►Npardg | |
CBuffer | |
CCommunicator | |
CCommunicatorThreaded | |
CReceiveBuffer | |
CSendBuffer | |
CRandom | |
CTimer | |
►NparDG_NoMPI | |
►Npardg | |
CBICGSTAB | |
CCG | |
CCommunicator | |
CDirectLinearSolver | |
CDIRK | |
CDIRK3 | |
CDIRK34 | |
CExplicitBulirschStoer | |
CExplicitButcher6 | |
CExplicitEuler | |
CExplicitModifiedEuler | |
CExplicitRK3 | |
CExplicitRK4 | |
CExplicitRK4b | |
CExplicitRungeKutta | |
CExplicitSSP | |
CExplicitTVD2 | |
CExplicitTVD3 | |
CFGMRES | |
CFunction | |
CGauss2 | |
CGMRES | |
CIERK45 | |
CIMEX_ARK34 | |
CIMEX_ARK46 | |
CIMEX_SSP222 | |
CImplicitBulirschStoer | |
CImplicitEuler | |
CIterativeLinearSolver | |
CLimiter | |
CLUSolver | |
CMatrix | |
CODESolver | |
CPCLimiter | |
CQRSolver | |
CQuadrature | |
CSemiImplicitEuler | |
CSIRK | |
CSIRK23 | |
CSIRK33 | |
CSlopeLimiter2d | |
CDynamicalObject | |
CIterativeSolver | |
CThread | |
CVector | |
►NPARDG_NS | |
►Nstd | STL namespace |
Cnumeric_limits< Dune::Fem::Double > | |
CBlockVectorDiscreteFunctionTraits | Traits class for a BlockVectorDiscreteFunction |
CBlockVectorDiscreteFunctionTraits | A discrete function which uses block vectors for its dof storage and dof calculations |
CDiscreteFunctionSpace | Discrete function space |
CDiscreteFunctionSpace | Discrete function space |
CFemTimer | Class with singleton instance managing timing for parts of program |
CFixedStepTimerProvider | Simple time provider for constant time steps |
CisAdaptiveDofeMapper | Specialize with true if the mapper supports adaptivity |
COEMTmpMem | |
Ctuple_element< i, Dune::Fem::LocalFunctionTuple< DiscreteFunctionTuple, Entity, TupleSize > > | |
Ctuple_element< i, Dune::TypeIndexedTuple< Tuple, Types > > | |