dune-pdelab
2.4.1
|
Namespaces | |
Backend | |
CG2DGHelper | |
Concept | |
Namespace for concepts. | |
fem | |
gfs | |
Implementation namespace for GridFunctionSpace-specific features. | |
impl | |
interleaved_ordering | |
istl | |
ISTLParameters | |
lexicographic_ordering | |
lop | |
Namespace with decorator classes that influence assembler behavior. | |
NavierStokesDGImp | |
ordering | |
permutation_ordering | |
simple | |
tags | |
vtk | |
Classes | |
struct | _build_dof_index_type |
struct | _build_dof_index_type< GFS, SingleCodimMapper > |
class | AddClearDataHandle |
class | AddClearGatherScatter |
class | AddDataHandle |
class | AddGatherScatter |
class | Alexander2Parameter |
Parameters to turn the OneStepMethod into an Alexander scheme. More... | |
class | Alexander3Parameter |
Parameters to turn the OneStepMethod into an Alexander3 scheme. More... | |
class | AnalyticGridFunctionBase |
an analytic grid function More... | |
struct | AnalyticGridFunctionTraits |
function signature for analytic functions on a grid More... | |
struct | AnySpaceTag |
class | AssemblerInterface |
The global assembler which performs the traversing of the integration parts. More... | |
struct | backup_visitor |
struct | BasicTypeFromDimensionAndTopologyId |
Utility TMP for determining the BasicType of a geometry from its dimension and topology id. More... | |
class | BCTypeParam_CD |
class | BDM1Cube2DLocalFiniteElementMap |
class | BDM1Simplex2DLocalFiniteElementMap |
struct | BenchmarkEntry |
struct | BenchmarkHelper |
struct | BorderIndexIdCache |
class | BoundaryConditionType_Transport |
class | BoundaryGridFunctionBase |
leaf of a function tree More... | |
class | BoundaryGridFunctionInterface |
A BoundaryGridFunction allows evaluation on boundary intersections. More... | |
class | BoundaryGridFunctionSelectComponentAdapter |
Takes a BoundaryGridFunction and acts as a single component. More... | |
struct | BoundaryGridFunctionTraits |
traits class holding function signature, same as in local function More... | |
class | BrezziDouglasMariniLocalFiniteElementMap |
struct | build_dof_index_type |
struct | CallableAdapterGetDim |
struct | CallableAdapterGetDim< FieldVector< T, n > > |
struct | CallableAdapterGetRangeFieldType |
struct | CallableAdapterGetRangeFieldType< FieldVector< T, n > > |
class | CCFVSpatialTransportOperator |
A local operator for a cell-centered finite volume scheme for the transport equation. More... | |
class | CCFVTemporalOperator |
class | CD_RHS_LocalAdapter |
class | CFLTimeController |
limit time step to maximum dt * CFL number More... | |
class | CG2DGProlongation |
class | CGCONBase |
class | CGCONBase< Grid, 1, Dune::GeometryType::cube, MeshType::nonconforming, SolverCategory::sequential, BCType, GV > |
class | CGCONBase< Grid, 1, Dune::GeometryType::simplex, MeshType::nonconforming, SolverCategory::sequential, BCType, GV > |
class | CGCONBase< Grid, degree, gt, MeshType::conforming, SolverCategory::nonoverlapping, BCType, GV > |
class | CGCONBase< Grid, degree, gt, MeshType::conforming, SolverCategory::overlapping, BCType, GV > |
class | CGCONBase< Grid, degree, gt, MeshType::conforming, SolverCategory::sequential, BCType, GV > |
class | CGFEMBase |
class | CGFEMBase< GV, C, R, degree, dim, Dune::GeometryType::cube > |
class | CGFEMBase< GV, C, R, degree, dim, Dune::GeometryType::simplex > |
class | CGSpace |
class | CGSpace< T, N, degree, BCType, gt, mt, SolverCategory::nonoverlapping, VBET > |
class | ChunkedBlockOrdering |
Ordering that permutes top-level ContainerIndex entries. More... | |
class | ChunkedBlockOrderingSizeError |
The block size of a ChunkedBlockOrdering does not divide the block count of the underlying ordering. More... | |
struct | ClockError |
exception thrown by clock functions More... | |
struct | collect_a_priori_fixed_size |
struct | collect_used_codims |
struct | collect_used_geometry_types_from_cell_visitor |
struct | composite_gfs_to_entityblocked_ordering_descriptor |
struct | composite_gfs_to_interleaved_ordering_descriptor |
struct | composite_gfs_to_lexicographic_ordering_descriptor |
struct | composite_gfs_to_lfs_template |
struct | composite_gfs_to_local_ordering_descriptor< GFS, Transformation, EntityBlockedOrderingTag > |
struct | composite_gfs_to_local_ordering_descriptor< GFS, Transformation, ordering::Chunked< U > > |
struct | composite_gfs_to_local_ordering_descriptor< GFS, Transformation, ordering::Permuted< U > > |
struct | composite_gfs_to_ordering_descriptor< GFS, Transformation, PermutationOrderingTag > |
struct | CompositeConstraintsOperator |
struct | CompositeConstraintsParameters |
class | CompositeEntityBlockedLocalOrdering |
class | CompositeGridFunction |
composite functions More... | |
class | CompositeGridFunctionSpace |
base class for tuples of grid function spaces base class that holds implementation of the methods this is the default version with lexicographic ordering More... | |
struct | CompositeGridFunctionSpaceBaseTag |
Tag for the intermediate base class of the CompositeGridFunctionSpace. More... | |
struct | CompositeGridFunctionSpaceTag |
struct | CompositeGridFunctionTag |
class | CompositeInterleavedOrdering |
class | CompositeLexicographicOrdering |
Interface for merging index spaces. More... | |
class | CompositeLocalFunctionSpaceNode |
struct | CompositeLocalFunctionSpaceTag |
Tag denoting a CompositeLocalFunctionSpace. More... | |
class | CompositePermutationOrdering |
Interface for merging index spaces. More... | |
class | ConformingDirichletConstraints |
Dirichlet Constraints construction. More... | |
class | ConstBoundaryGridFunction |
BoundaryGridFunction returning a constant value everywhere. More... | |
class | ConstGridFunction |
GridFunction returning a constant value everywhere. More... | |
class | ConstraintsTransformation |
a class holding transformation for constrained spaces More... | |
class | ConstUncachedMatrixView |
struct | ConstUncachedVectorView |
class | ConvectionDiffusion |
class | ConvectionDiffusion_Diffusion_Adapter |
Adapter to get ConvectionDiffusion parameter object from the old style separate parameter grid functions. More... | |
class | ConvectionDiffusionBoundaryConditionAdapter |
struct | ConvectionDiffusionBoundaryConditions |
Class to define the boundary condition types. More... | |
class | ConvectionDiffusionCCFV |
class | ConvectionDiffusionCCFVTemporalOperator |
class | ConvectionDiffusionDG |
class | ConvectionDiffusionDG_ErrorIndicator |
a local operator for residual-based error estimation More... | |
struct | ConvectionDiffusionDGMethod |
struct | ConvectionDiffusionDGWeights |
class | ConvectionDiffusionDirichletExtensionAdapter |
class | ConvectionDiffusionExactGradientAdapter |
class | ConvectionDiffusionFEM |
class | ConvectionDiffusionFEMResidualEstimator |
class | ConvectionDiffusionModelProblem |
Parameter class for solving the linear convection-diffusion equation. More... | |
class | ConvectionDiffusionParameterInterface |
base class for parameter class More... | |
struct | ConvectionDiffusionParameterTraits |
traits class for two phase parameter class More... | |
class | ConvectionDiffusionTemporalResidualEstimator |
class | ConvectionDiffusionTemporalResidualEstimator1 |
class | ConvectionDiffusionVelocityExtensionAdapter |
class | CopyDataHandle |
class | CopyGatherScatter |
struct | CppClockWallTimeSource |
class | CrossProduct |
Calculate cross product. More... | |
struct | CrossProduct< 1, 2 > |
struct | CrossProduct< 2, 1 > |
struct | CrossProduct< 2, 2 > |
struct | CrossProduct< 3, 3 > |
class | DataContainerIndexGatherScatter |
class | DataEntityGatherScatter |
class | DataGatherScatter |
class | DataHandleProvider |
class | DefaultAssembler |
The assembler for standard DUNE grid. More... | |
struct | DefaultDOFIndexAccessor |
class | DefaultInteriorPenalty |
This is the default implementation for the interior penalty factor. More... | |
struct | DefaultLFSCacheTag |
class | DefaultLocalAssembler |
The local assembler for DUNE grids. More... | |
class | DefaultLocalJacobianApplyAssemblerEngine |
The local assembler engine for DUNE grids which assembles the local application of the Jacobian. More... | |
class | DefaultLocalJacobianAssemblerEngine |
The local assembler engine for DUNE grids which assembles the jacobian matrix. More... | |
class | DefaultLocalNonlinearJacobianApplyAssemblerEngine |
The local assembler engine for DUNE grids which assembles the local application of the Jacobian. More... | |
class | DefaultLocalPatternAssemblerEngine |
The local assembler engine for DUNE grids which creates the matrix pattern. More... | |
class | DefaultLocalResidualAssemblerEngine |
The local assembler engine for DUNE grids which assembles the residual vector. More... | |
class | DGCONBase |
class | DGCONBase< SolverCategory::nonoverlapping > |
class | DGCONBase< SolverCategory::overlapping > |
class | DGCONBase< SolverCategory::sequential > |
class | DGLegendreLocalFiniteElementMap |
class | DGLegendreSpace |
class | DGLinearAcousticsSpatialOperator |
class | DGLinearAcousticsTemporalOperator |
class | DGMaxwellSpatialOperator |
class | DGMaxwellTemporalOperator |
class | DGNavierStokes |
A local operator for solving the Navier-Stokes equations using a DG discretization. More... | |
class | DGNavierStokesParameters |
Parameter class for local operator DGNavierStokes. More... | |
class | DGNavierStokesVelVecFEM |
A local operator for solving the stokes equation using a DG discretization and a vector-valued finite element map for the velocity grid function space. More... | |
class | DGPkSpace |
class | DGQkGLSpace |
class | DGQkOPBSpace |
class | DGQkSpace |
class | DiagonalLocalMatrix |
A dense matrix for storing data associated with the degrees of freedom of a pair of LocalFunctionSpaces. More... | |
class | Diffusion |
struct | DiffusionBoundaryCondition |
Group types and methods to specify the boundary condition of a diffusion problem. More... | |
class | DiffusionCCFV |
class | DiffusionDG |
class | DiffusionMixed |
struct | direct_leaf_gfs_to_gridview_ordering_descriptor |
class | DirectLeafLocalOrdering |
class | DirichletBoundaryCondition_CD |
class | DirichletBoundaryCondition_Transport |
struct | DirichletConstraintsParameters |
struct | DirichletFromFluxConstraintsAdapter |
class | DiscreteGridFunction |
convert a grid function space and a coefficient vector into a grid function More... | |
class | DiscreteGridFunctionCurl |
convert a grid function space and a coefficient vector into a grid function of the curl More... | |
struct | DiscreteGridFunctionCurlTraits |
Helper class to calculate the Traits of DiscreteGridFunctionCurl. More... | |
struct | DiscreteGridFunctionCurlTraits< GV, RangeFieldType, 1 > |
Helper class to calculate the Traits of DiscreteGridFunctionCurl (1D) More... | |
struct | DiscreteGridFunctionCurlTraits< GV, RangeFieldType, 2 > |
Helper class to calculate the Traits of DiscreteGridFunctionCurl (2D) More... | |
struct | DiscreteGridFunctionCurlTraits< GV, RangeFieldType, 3 > |
Helper class to calculate the Traits of DiscreteGridFunctionCurl (3D) More... | |
class | DiscreteGridFunctionGlobalCurl |
convert a single component function space with experimental global finite elements into a grid function representing the curl More... | |
class | DiscreteGridFunctionGradient |
convert a single component function space with a grid function representing the gradient More... | |
class | DiscreteGridFunctionPiola |
DiscreteGridFunction with Piola transformation. More... | |
class | DisjointPartitioningDataHandle |
GatherScatter data handle for creating a disjoint DOF partitioning. More... | |
class | DisjointPartitioningGatherScatter |
GatherScatter functor for creating a disjoint DOF partitioning. More... | |
class | DivisionGridFunctionAdapter |
Substract two GridFunctions. More... | |
struct | DOFDataCommunicationDescriptor |
Communication descriptor for sending one item of type E per DOF. More... | |
class | DOFIndex |
A multi-index representing a degree of freedom in a GridFunctionSpace. More... | |
class | DOFIndexViewIterator |
struct | DummyDOFIndexIterator |
Dummy iterator type over DOF indices. More... | |
class | EdgeS0_5FiniteElementMap |
Global-valued finite element map for EdgeS0_5 elements. More... | |
class | EdgeS0LocalFiniteElementMap |
implementation for finite elements requiring oriented edges More... | |
class | Electrodynamic_S |
Contruct matrix S for the Electrodynamic operator. More... | |
class | Electrodynamic_T |
Contruct matrix T for the Electrodynamic operator. More... | |
class | ElementGeometry |
Wrap element. More... | |
class | ElementMapper |
Class providing a consecutive index for codim 0 entities of a GridView. More... | |
struct | EmptyParams |
class | EmptyTransformation |
struct | EntityBlockedOrderingTag |
Indicate blocking of the unknowns by grid entity. More... | |
struct | EntityDataCommunicationDescriptor |
Communication descriptor for sending count items of type E per entity with attached DOFs. More... | |
class | EntityIndexCache |
class | Exception |
Base class for all PDELab exceptions. More... | |
class | ExplicitEulerParameter |
Parameters to turn the ExplicitOneStepMethod into an explicit Euler method. More... | |
class | ExplicitOneStepMethod |
Do one step of an explicit time-stepping scheme. More... | |
struct | extract_child_bases |
struct | extract_lfs_leaf_size_visitor |
struct | extract_per_entity_sizes_from_cell_visitor |
class | FilenameHelper |
class | FiniteElementMapError |
general FiniteElementMap exception More... | |
struct | FiniteElementMapTraits |
collect types exported by a finite element map More... | |
struct | FlatContainerAllocationTag |
struct | FluxConstraintsParameters |
struct | FluxFromDirichletConstraintsAdapter |
class | FractionalStepParameter |
Parameters to turn the OneStepMethod into a fractional step theta scheme. More... | |
class | FullBoundaryPattern |
sparsity pattern generator More... | |
class | FullSkeletonPattern |
sparsity pattern generator More... | |
class | FullVolumePattern |
sparsity pattern generator More... | |
class | FunctionInterface |
a Function that maps x in DomainType to y in RangeType More... | |
struct | FunctionSpaceTag |
class | FunctionToGridFunctionAdapter |
make a GridFunction from a Function More... | |
struct | FunctionTraits |
class | GalerkinGlobalAssembler |
class | GalerkinGlobalAssemblerNewBackend |
class | GeneralLogtagFormatter |
A log tag formatter that wraps a unary formatting function or functor. More... | |
class | GeometryFiniteElementMap |
Generic finite element map for global finite elements created with a geometry. More... | |
class | GeometryVertexOrderFiniteElementMap |
Generic finite element map for global finite elements created with a geometry and a vertex ordering. More... | |
class | GFSDataHandle |
Implement a data handle with a grid function space. More... | |
class | GFSNeighborDataHandle |
Data handle for collecting set of neighboring MPI ranks. More... | |
class | GhostDataHandle |
Data handle for marking ghost DOFs. More... | |
class | GhostGatherScatter |
GatherScatter functor for marking ghost DOFs. More... | |
class | GlobalAssembler |
class | GlobalCallableToBoundaryConditionAdapter |
Adapter for boundary cond from a callable taking global coordinates. More... | |
class | GlobalCallableToGridFunctionAdapter |
Adapter for callables f(x) expecting a global coordinate x. More... | |
class | GlobalCallableToInstationaryGridFunctionAdapter |
return a PDELab GridFunction (with setTime method) defined by a parameter class and a callable f(x) global coordinates x More... | |
class | GlobalDOFIndex |
class | GlobalFunctionToLocalFunctionAdapter |
make a Function in local coordinates from a Function in global coordinates More... | |
class | GridAdaptor |
Class for automatic adaptation of the grid. More... | |
class | GridFunctionBase |
leaf of a function tree More... | |
class | GridFunctionBaseAdapter |
Turn an ordinary GridFunction into a GridFunctionTree leaf. More... | |
class | GridFunctionInterface |
a GridFunction maps x in DomainType to y in RangeType More... | |
class | GridFunctionOutputParameters |
Mixin base class for specifying output hints to I/O routines like VTK. More... | |
class | GridFunctionProbe |
Evaluate a GridFunction at a certain global coordinate. More... | |
class | GridFunctionSpace |
A grid function space. More... | |
class | GridFunctionSpaceBase |
class | GridFunctionSpaceError |
GridFunctionSpace-related error. More... | |
class | GridFunctionSpaceHierarchyError |
struct | GridFunctionSpaceTag |
struct | GridFunctionSpaceTraits |
collect types exported by a leaf grid function space More... | |
struct | GridFunctionSubSpaceTag |
struct | GridFunctionTag |
class | GridFunctionToFunctionAdapter |
make a Function from a GridFunction More... | |
class | GridFunctionToLocalFunctionAdapter |
make a LocalFunction from a GridFunction using local coordinates More... | |
struct | GridFunctionTraits |
traits class holding the function signature, same as in local function More... | |
class | GridOperator |
Standard grid operator implementation. More... | |
class | GridOperatorInterface |
The grid operator represents an operator mapping which corresponds to the (possibly nonlinear) algebraic problem resulting from the discretization of a PDE. More... | |
struct | GridOperatorTraits |
Traits class for the grid operator. More... | |
class | GridViewLocalFunctionSpaceBaseNode |
struct | GridViewLocalFunctionSpaceBaseTraits |
traits for local function space on a gridview More... | |
class | GridViewOrdering |
struct | GridViewOrderingTraits |
class | HangingNodeManager |
class | HangingNodesConstraintsAssemblers |
class | HangingNodesDirichletConstraints |
Hanging Node constraints construction. More... | |
class | HeunParameter |
Parameters to turn the ExplicitOneStepMethod into a Heun scheme. More... | |
struct | HierarchicContainerAllocationTag |
class | ImplicitEulerParameter |
Parameters to turn the OneStepMethod into an implicit Euler method. More... | |
class | InstationaryFunctionDefaults |
Default class for additional methods in instationary functions. More... | |
class | InstationaryLocalOperatorDefaultMethods |
Default class for additional methods in instationary local operators. More... | |
class | InstationaryPoisson |
a local operator for solving the Poisson equation in instationary problems More... | |
class | InstationarySumLocalOperator |
A local operator to take the sum of other local operators. More... | |
class | InteriorNodeConstraints |
constraints all DOFs associated with interior vertices This allows to implement surface FEM using standard first order FEM More... | |
struct | InterleavedOrderingTag |
Indicate interleaved ordering of the unknowns of non-leaf grid function spaces according to a given blocking pattern. More... | |
struct | InterpolateBackendStandard |
class | IntersectionGeometry |
Wrap intersection. More... | |
class | InvalidGeometryType |
FiniteElementMap exception raised when trying to obtain a finite element for an unsupported GeometryType. More... | |
class | InverseGridFunctionAdapter |
Take inverse of a GridFunction. More... | |
struct | IsEmptyTypeList |
Check if given type is an empty TypeList. More... | |
struct | IsGridFunction |
struct | IsGridFunction< T, typename AlwaysVoid< typename T::ImplementationTag >::type > |
struct | ISTLAMGStatistics |
Class providing some statistics of the AMG solver. More... | |
class | ISTLBackend_AMG |
class | ISTLBackend_AMG_NOVLP |
class | ISTLBackend_BCGS_AMG_ILU0 |
Overlapping parallel BiCGStab solver preconditioned with AMG smoothed by ILU0. More... | |
class | ISTLBackend_BCGS_AMG_SSOR |
Overlapping parallel BiCGStab solver preconditioned with AMG smoothed by SSOR. More... | |
class | ISTLBackend_CG_AMG_SSOR |
Overlapping parallel conjugate gradient solver preconditioned with AMG smoothed by SSOR. More... | |
class | ISTLBackend_NOVLP_BASE_PREC |
class | ISTLBackend_NOVLP_BCGS_AMG_SSOR |
Nonoverlapping parallel BiCGStab solver preconditioned with AMG smoothed by SSOR. More... | |
class | ISTLBackend_NOVLP_BCGS_Jacobi |
Nonoverlapping parallel BiCGStab solver with Jacobi preconditioner. More... | |
class | ISTLBackend_NOVLP_BCGS_NOPREC |
Nonoverlapping parallel BiCGStab solver without preconditioner. More... | |
class | ISTLBackend_NOVLP_BCGS_SSORk |
Nonoverlapping parallel BiCGSTAB solver preconditioned by block SSOR. More... | |
class | ISTLBackend_NOVLP_CG_AMG_SSOR |
Nonoverlapping parallel CG solver preconditioned with AMG smoothed by SSOR. More... | |
class | ISTLBackend_NOVLP_CG_Jacobi |
Nonoverlapping parallel CG solver with Jacobi preconditioner. More... | |
class | ISTLBackend_NOVLP_CG_NOPREC |
Nonoverlapping parallel CG solver without preconditioner. More... | |
class | ISTLBackend_NOVLP_CG_SSORk |
Nonoverlapping parallel CG solver preconditioned by block SSOR. More... | |
class | ISTLBackend_NOVLP_ExplicitDiagonal |
Solver to be used for explicit time-steppers with (block-)diagonal mass matrix. More... | |
class | ISTLBackend_NOVLP_LS_AMG_SSOR |
Nonoverlapping parallel LoopSolver preconditioned with AMG smoothed by SSOR. More... | |
class | ISTLBackend_OVLP_AMG_4_DG |
class | ISTLBackend_OVLP_Base |
class | ISTLBackend_OVLP_BCGS_ILU0 |
Overlapping parallel BiCGStab solver with ILU0 preconditioner. More... | |
class | ISTLBackend_OVLP_BCGS_ILUn |
Overlapping parallel BiCGStab solver with ILU0 preconditioner. More... | |
class | ISTLBackend_OVLP_BCGS_SSORk |
Overlapping parallel BiCGStab solver with SSOR preconditioner. More... | |
class | ISTLBackend_OVLP_BCGS_SuperLU |
Overlapping parallel BiCGStab solver with SuperLU preconditioner. More... | |
class | ISTLBackend_OVLP_CG_SSORk |
Overlapping parallel CGS solver with SSOR preconditioner. More... | |
class | ISTLBackend_OVLP_CG_SuperLU |
Overlapping parallel CG solver with SuperLU preconditioner. More... | |
class | ISTLBackend_OVLP_ExplicitDiagonal |
Solver to be used for explicit time-steppers with (block-)diagonal mass matrix. More... | |
class | ISTLBackend_OVLP_GMRES_ILU0 |
Overlapping parallel restarted GMRes solver with ILU0 preconditioner. More... | |
class | ISTLBackend_OVLP_ILU0_Base |
class | ISTLBackend_OVLP_ILUn_Base |
class | ISTLBackend_OVLP_SuperLU_Base |
class | ISTLBackend_SEQ_AMG |
class | ISTLBackend_SEQ_AMG_4_DG |
class | ISTLBackend_SEQ_Base |
class | ISTLBackend_SEQ_BCGS_AMG_SOR |
Sequential BiCGSTAB solver preconditioned with AMG smoothed by SOR. More... | |
class | ISTLBackend_SEQ_BCGS_AMG_SSOR |
Sequential BiCGStab solver preconditioned with AMG smoothed by SSOR. More... | |
class | ISTLBackend_SEQ_BCGS_ILU0 |
Backend for sequential BiCGSTAB solver with ILU0 preconditioner. More... | |
class | ISTLBackend_SEQ_BCGS_ILUn |
Sequential BiCGStab solver with ILU0 preconditioner. More... | |
class | ISTLBackend_SEQ_BCGS_Jac |
Backend for sequential BiCGSTAB solver with Jacobi preconditioner. More... | |
class | ISTLBackend_SEQ_BCGS_SSOR |
Backend for sequential BiCGSTAB solver with SSOR preconditioner. More... | |
class | ISTLBackend_SEQ_CG_AMG_SSOR |
Sequential conjugate gradient solver preconditioned with AMG smoothed by SSOR. More... | |
class | ISTLBackend_SEQ_CG_ILU0 |
Backend for sequential conjugate gradient solver with ILU0 preconditioner. More... | |
class | ISTLBackend_SEQ_CG_ILUn |
Sequential congute gradient solver with ILU0 preconditioner. More... | |
class | ISTLBackend_SEQ_CG_Jac |
Backend for conjugate gradient solver with Jacobi preconditioner. More... | |
class | ISTLBackend_SEQ_CG_SSOR |
Backend for sequential conjugate gradient solver with SSOR preconditioner. More... | |
class | ISTLBackend_SEQ_ExplicitDiagonal |
Solver to be used for explicit time-steppers with (block-)diagonal mass matrix. More... | |
class | ISTLBackend_SEQ_GMRES_ILU0 |
Linear solver backend for Restarted GMRes preconditioned with ILU(0) More... | |
class | ISTLBackend_SEQ_ILU0 |
class | ISTLBackend_SEQ_ILUn |
class | ISTLBackend_SEQ_LOOP_Jac |
Backend for sequential loop solver with Jacobi preconditioner. More... | |
class | ISTLBackend_SEQ_LS_AMG_SOR |
Sequential Loop solver preconditioned with AMG smoothed by SOR. More... | |
class | ISTLBackend_SEQ_LS_AMG_SSOR |
Sequential Loop solver preconditioned with AMG smoothed by SSOR. More... | |
class | ISTLBackend_SEQ_MINRES_SSOR |
Backend using a MINRes solver preconditioned by SSOR. More... | |
class | ISTLBackend_SEQ_SuperLU |
Solver backend using SuperLU as a direct solver. More... | |
class | ISTLBackend_SEQ_UMFPack |
Solver backend using UMFPack as a direct solver. More... | |
struct | ISTLMatrixBackend |
Backend using ISTL matrices. More... | |
class | ISTLSolverBackend_CG_AMG_SSOR |
class | ISTLSolverBackend_CG_AMG_SSOR< FS, ASS, SolverCategory::nonoverlapping > |
class | ISTLSolverBackend_CG_AMG_SSOR< FS, ASS, SolverCategory::overlapping > |
class | ISTLSolverBackend_CG_SSOR |
class | ISTLSolverBackend_CG_SSOR< FS, ASS, SolverCategory::nonoverlapping > |
class | ISTLSolverBackend_CG_SSOR< FS, ASS, SolverCategory::overlapping > |
class | ISTLSolverBackend_ExplicitDiagonal |
class | ISTLSolverBackend_ExplicitDiagonal< FS, ASS, SolverCategory::nonoverlapping > |
class | ISTLSolverBackend_ExplicitDiagonal< FS, ASS, SolverCategory::overlapping > |
class | ISTLSolverBackend_IterativeDefault |
class | ISTLSolverBackend_IterativeDefault< FS, ASS, SolverCategory::nonoverlapping > |
class | ISTLSolverBackend_IterativeDefault< FS, ASS, SolverCategory::overlapping > |
struct | IsTypeList |
Check if given type is a TypeList. More... | |
struct | IsTypeList< TypeList< T... > > |
Check if given type is a TypeList. More... | |
class | JacobianBasedAlphaBoundary |
Implement alpha_boundary() based on jacobian_boundary() More... | |
class | JacobianBasedAlphaSkeleton |
Implement alpha_skeleton() based on jacobian_skeleton() More... | |
class | JacobianBasedAlphaVolume |
Implement alpha_volume() based on jacobian_volume() More... | |
class | JacobianToCurl |
extract the curl of a function from the jacobian of that function More... | |
class | JacobianToCurl< Jacobian, 1, 2 > |
extract the curl of a 1D-valued function in 2D from the jacobian of that function More... | |
class | JacobianToCurl< Jacobian, 2, 2 > |
extract the curl of a 2D-valued function in 2D from the jacobian of that function More... | |
class | JacobianToCurl< Jacobian, 3, 3 > |
extract the curl of a 3D-valued function in 3D from the jacobian of that function More... | |
class | L2 |
class | L2Projection |
class | L2VolumeFunctional |
A local operator that tests a function against a test function space defined on the entire grid. More... | |
class | Laplace |
class | LaplaceDirichletCCFV |
class | LaplaceDirichletP12D |
struct | leaf_gfs_to_local_ordering_descriptor< GFS, Transformation, LeafOrderingTag< Params > > |
struct | leaf_gfs_to_ordering_descriptor< GFS, Transformation, SingleCodimMapper > |
struct | LeafGridFunctionSpaceTag |
class | LeafGridViewOrdering |
Gridview ordering for leaf spaces. More... | |
class | LeafLocalFunctionSpaceNode |
single component local function space More... | |
struct | LeafLocalFunctionSpaceTag |
Tag denoting a LeafLocalFunctionSpace. More... | |
struct | LeafLocalFunctionSpaceTraits |
traits for single component local function space More... | |
class | LeafLocalOrdering |
struct | LeafOffsetCache |
class | LeafOrderingBase |
Generic infrastructure for orderings for leaf spaces. More... | |
struct | LeafOrderingTag |
Tag indicating a standard ordering for a leaf GridfunctionSpace. More... | |
struct | LexicographicOrderingTag |
Indicate lexicographic ordering of the unknowns of non-leaf grid function spaces. More... | |
class | LFSIndexCache |
class | LFSIndexCacheBase |
class | LFSIndexCacheBase< LFS, C, SimpleLFSCacheTag > |
class | LFSIndexCacheBase< LFS, EmptyTransformation, CacheTag > |
class | LFSIndexCacheBase< LFS, EmptyTransformation, SimpleLFSCacheTag > |
class | LinearAcousticsEigenvectors |
class | LinearAcousticsEigenvectors< 1 > |
provide matrix which contains rowwise the eigenvectors of linear acoustics problem More... | |
class | LinearAcousticsEigenvectors< 2 > |
provide matrix which contains rowwise the eigenvectors of linear acoustics problem More... | |
class | LinearAcousticsEigenvectors< 3 > |
provide matrix which contains rowwise the eigenvectors of linear acoustics problem More... | |
class | LinearAcousticsInitialValueAdapter |
class | LinearAcousticsModelProblem |
struct | LinearAcousticsParameterTraits |
Traits class for linear acoustics parameters. More... | |
class | LinearElasticity |
class | LinearElasticityDirichletExtensionAdapter |
class | LinearElasticityParameterInterface |
base class for linear elasticity parameter class More... | |
struct | LinearElasticityParameterTraits |
Traits class for linear elasticity parameters. More... | |
class | LinearResultStorage |
struct | LinearSolverResult |
class | LocalAssemblerBase |
Base class for local assembler. More... | |
struct | LocalAssemblerCallSwitch |
struct | LocalAssemblerCallSwitch< LA, true > |
class | LocalAssemblerEngine |
The local assembler engine which handles the integration parts as provided by the global assemblers. More... | |
class | LocalAssemblerEngineBase |
Base class for LocalAssemblerEngine implementations to avoid boilerplate code. More... | |
class | LocalAssemblerInterface |
The local assembler which provides the engines that drive the global assembler. More... | |
struct | LocalAssemblerTraits |
class | LocalBasisCache |
store values of basis functions and gradients in a cache More... | |
class | LocalCallableToBoundaryConditionAdapter |
Adapter for boundary cond from a callable taking an entity and local coordinates. More... | |
class | LocalCallableToGridFunctionAdapter |
Adapter for callables f(e,x) expecting an entity e and a global coordinate x. More... | |
class | LocalCallableToInstationaryGridFunctionAdapter |
return a PDELab GridFunction (with setTime method) defined by a parameter class and a callable f(e,x) that expects an entity e and local coordinates x More... | |
class | LocalFiniteElementMapInterface |
interface for a finite element map More... | |
struct | LocalFiniteElementMapTraits |
collect types exported by a finite element map More... | |
class | LocalFunctionSpace |
Create a local function space from a global function space. More... | |
class | LocalFunctionSpace< GFS, AnySpaceTag > |
class | LocalFunctionSpaceBaseNode |
struct | LocalFunctionSpaceBaseTraits |
traits mapping global function space information to local function space More... | |
class | LocalGlobalMapDataHandle |
class | LocalMatrix |
A dense matrix for storing data associated with the degrees of freedom of a pair of LocalFunctionSpaces. More... | |
class | LocalOperatorDefaultFlags |
Default flags for all local operators. More... | |
class | LocalOperatorInterface |
Class to document the stationary local operator interface. More... | |
class | LocalOrderingBase |
struct | LocalOrderingTraits |
class | LocalSparsityPattern |
Layout description for a sparse linear operator. More... | |
class | LocalTag |
Insert standard boilerplate into log messages. More... | |
class | LocalVector |
A container for storing data associated with the degrees of freedom of a LocalFunctionSpace. More... | |
struct | LogtagFormatterBase |
virtual base class for logger formatters More... | |
struct | map_dof_indices_to_container_indices |
class | MatrixExchangeDataHandle |
class | MaxDataHandle |
class | MaxGatherScatter |
class | MaxwellEigenvectors |
class | MaxwellEigenvectors< 3 > |
provide matrix which contains column-wise the eigenvectors of maxwell problem More... | |
class | MaxwellInitialValueAdapter |
class | MaxwellModelProblem |
struct | MaxwellParameterTraits |
Traits class for convection diffusion parameters. More... | |
class | MemberFunctionToGridFunctionAdaptor |
GridFunction implemented by a member function of some class. More... | |
struct | MergeMode |
Index merging algorithm for global orderings. More... | |
class | MimeticLocalFiniteElementMap |
class | MinDataHandle |
class | MinGatherScatter |
class | MinusGridFunctionAdapter |
Substract two GridFunctions. More... | |
class | MonomFiniteElementMap |
Global-valued finite element map for Monom elements. More... | |
class | MonomLocalFiniteElementMap |
struct | MPIWallTimeSource |
class | MultiIndex |
A class for representing multi-indices. More... | |
class | NavierStokesDefaultParameters |
class | NavierStokesDG |
A local operator for solving the navier stokes equation using a DG discretization. More... | |
class | NavierStokesDGParameters |
Parameter class for local operator NavierStokesDG. More... | |
class | NavierStokesMass |
A local operator for the mass term corresponding to the instationary part in the Navier-Stokes equations. More... | |
struct | NavierStokesParameterTraits |
class | NavierStokesVelocityFunctionAdapter |
class | NavierStokesVelVecMass |
A local operator for the mass term corresponding to the instationary part in the Navier-Stokes equations using a vector-valued Finite Element map for the velocity grid function space. More... | |
class | Newton |
class | NewtonBase |
class | NewtonDefectError |
class | NewtonError |
class | NewtonLinearSolverError |
class | NewtonLineSearch |
class | NewtonLineSearchError |
class | NewtonNotConverged |
class | NewtonPrepareStep |
struct | NewtonResult |
class | NewtonSolver |
class | NewtonTerminate |
struct | NoConstOrderingSize |
Mixin indicating whether a leaf GridFunctionSpace should never assume a const ordering size. More... | |
class | NoConstraints |
class | NoConstraintsParameters |
class | NoDataBorderDOFExchanger |
struct | NoDirichletConstraintsParameters |
struct | NoFluxConstraintsParameters |
class | NonLinearConvectionDiffusionFEM |
class | NonOverlappingBorderDOFExchanger |
Helper class for adding up matrix entries on border. More... | |
class | NonoverlappingConformingDirichletConstraints |
extend conforming constraints class by processor boundary More... | |
class | NonoverlappingJacobi |
parallel non-overlapping Jacobi preconditioner More... | |
class | NonoverlappingOperator |
Operator for the non-overlapping parallel case. More... | |
class | NonoverlappingRichardson |
class | NonoverlappingScalarProduct |
class | NormalFluxGridFunctionAdapter |
class | NumericalJacobianApplyBoundary |
Implements linear and nonlinear versions of jacobian_apply_boundary() based on alpha_boundary() More... | |
class | NumericalJacobianApplySkeleton |
Implements linear and nonlinear versions of jacobian_apply_skeleton() based on alpha_skeleton() More... | |
class | NumericalJacobianApplyVolume |
Implements linear and nonlinear versions of jacobian_apply_volume() based on alpha_volume() More... | |
class | NumericalJacobianApplyVolumePostSkeleton |
class | NumericalJacobianBoundary |
Implement jacobian_boundary() based on alpha_boundary() More... | |
class | NumericalJacobianSkeleton |
Implement jacobian_skeleton() based on alpha_skeleton() More... | |
class | NumericalJacobianVolume |
Implement jacobian_volume() based on alpha_volume() More... | |
class | NumericalJacobianVolumePostSkeleton |
class | NumericalNonlinearJacobianApplyBoundary |
Implements nonlinear version of jacobian_apply_boundary() based on alpha_boundary() More... | |
class | NumericalNonlinearJacobianApplySkeleton |
Implements nonlinear version of jacobian_apply_skeleton() based on alpha_skeleton() More... | |
class | NumericalNonlinearJacobianApplyVolume |
Implements nonlinear version of jacobian_apply_volume() based on alpha_volume() More... | |
class | NumericalNonlinearJacobianApplyVolumePostSkeleton |
class | OneStepExplicitLocalJacobianResidualAssemblerEngine |
The local assembler engine for DUNE grids which assembles the residual vector. More... | |
class | OneStepGlobalAssembler |
class | OneStepGridOperator |
class | OneStepLocalAssembler |
The local assembler for one step methods. More... | |
class | OneStepLocalAssemblerEngineBase |
The local assembler engine for UDG sub triangulations which assembles the residual vector. More... | |
class | OneStepLocalJacobianAssemblerEngine |
The local assembler engine for one step methods which assembles the residual vector. More... | |
class | OneStepLocalPatternAssemblerEngine |
The local assembler engine for OneStep sub triangulations which creates the matrix pattern. More... | |
class | OneStepLocalPreStageAssemblerEngine |
The local assembler engine for one step methods which assembles the constant part of the residual vector. More... | |
class | OneStepLocalResidualAssemblerEngine |
The local assembler engine for one step methods which assembles the residual vector. More... | |
class | OneStepMethod |
Do one step of a time-stepping scheme. More... | |
struct | OneStepMethodPartialResult |
struct | OneStepMethodResult |
class | OneStepThetaParameter |
Parameters to turn the OneStepMethod into an one step theta method. More... | |
class | OnTheFlyOperator |
class | OPBLocalFiniteElementMap |
class | OrderingBase |
class | OrderingError |
Ordering-related error. More... | |
class | OrderingStructureError |
Error related to the logical structure of an Ordering. More... | |
struct | OrderingTraits |
class | OverlappingBorderDOFExchanger |
class | OverlappingConformingDirichletConstraints |
extend conforming constraints class by processor boundary More... | |
class | OverlappingOperator |
class | OverlappingScalarProduct |
class | OverlappingWrappedPreconditioner |
class | OvlpDGAMGPrec |
class | OVLPScalarProduct |
class | OVLPScalarProductImplementation |
class | P0LocalFiniteElementMap |
class | P0ParallelConstraints |
Parallel P0 constraints for overlapping grids. More... | |
class | P0ParallelGhostConstraints |
Parallel P0 constraints for nonoverlapping grids with ghosts. More... | |
class | P0Space |
struct | PartitionSelector |
Helper for building the bitmask describing the grid partitions contained in a GFS. More... | |
class | PartitionViewEntitySet |
class | PartitionViewEntitySetIndexSet |
class | PartitionViewEntitySetIndexSet< GV, Partitions::All > |
class | PartitionViewEntitySetIndexSetBase |
struct | PartitionViewEntitySetTraits |
struct | PermutationOrderingTag |
Indicate permuted ordering of the unknowns of non-leaf grid function spaces according to a given permutation. More... | |
class | PermutedOrdering |
Ordering that permutes top-level ContainerIndex entries. More... | |
class | PermutedOrderingSizeError |
A PermutedOrdering got a permutation vector of the wrong size. More... | |
class | PiolaBackwardAdapter |
class | Pk1dLocalFiniteElementMap |
FiniteElementMap for the Pk basis in 1d. More... | |
class | PkLocalFiniteElementMap |
class | PkQkLocalFiniteElementMap |
FiniteElementMap which provides PkQkLocalFiniteElement instances, depending on the geometry type. More... | |
class | PointwiseAdapterEngine |
Interface of a pointwise adapter engine. More... | |
class | PointwiseGridFunctionAdapter |
class | PointwiseScaleAdapterEngine |
Scale the output value. More... | |
class | PointwiseSumAdapterEngine |
Sum all terms. More... | |
class | Poisson |
class | PolymorphicBufferWrapper |
Wrapper for message buffers of grid DataHandles that allows for sending different types of data. More... | |
struct | post_collect_used_geometry_types |
struct | post_extract_per_entity_sizes |
struct | power_gfs_to_entityblocked_ordering_descriptor |
struct | power_gfs_to_interleaved_ordering_descriptor |
struct | power_gfs_to_lexicographic_ordering_descriptor |
struct | power_gfs_to_lfs_template |
struct | power_gfs_to_local_ordering_descriptor< GFS, Transformation, EntityBlockedOrderingTag > |
struct | power_gfs_to_local_ordering_descriptor< GFS, Transformation, ordering::Chunked< U > > |
struct | power_gfs_to_local_ordering_descriptor< GFS, Transformation, ordering::Permuted< U > > |
struct | power_gfs_to_ordering_descriptor< GFS, Transformation, PermutationOrderingTag > |
class | PowerCompositeGridFunctionSpaceBase |
Mixin class providing common functionality of PowerGridFunctionSpace and CompositeGridFunctionSpace. More... | |
struct | PowerCompositeGridFunctionSpaceTraits |
Trait class for the multi component grid function spaces. More... | |
struct | PowerCompositeGridFunctionTraits |
GV The type of the grid view the function lives on. More... | |
struct | PowerCompositeLocalFunctionSpaceTraits |
traits for multi component local function space More... | |
struct | PowerCompositeSetTimeVisitor |
Visitor for Power- and CompositeGridFunctions calling the setTime() method on the leafs of the corresponding function trees. More... | |
struct | PowerConstraintsParameters |
class | PowerEntityBlockedLocalOrdering |
class | PowerFiniteElementMap |
FiniteElementMap for PowerFiniteElements. More... | |
class | PowerGridFunction |
product of identical functions More... | |
class | PowerGridFunctionSpace |
base class for tuples of grid function spaces product of identical grid function spaces base class that holds implementation of the methods More... | |
struct | PowerGridFunctionSpaceTag |
struct | PowerGridFunctionTag |
class | PowerInterleavedOrdering |
class | PowerL2 |
class | PowerLexicographicOrdering |
class | PowerLocalFunctionSpaceNode |
struct | PowerLocalFunctionSpaceTag |
Tag denoting a PowerLocalFunctionSpace. More... | |
class | PowerPermutationOrdering |
Interface for merging index spaces. More... | |
struct | pre_collect_used_geometry_types |
struct | PriorityTag |
Helper class for tagging priorities. More... | |
struct | PriorityTag< 0 > |
Helper class for tagging priorities. More... | |
struct | ProcessTimeClock |
class | ProductGridFunctionAdapter |
Product of two GridFunctions. More... | |
class | ProductGridFunctionAdapter< GF1, GF2, typename enable_if< GF1::Traits::dimRange!=1 &&GF2::Traits::dimRange==1 >::type > |
Product of two GridFunctions. More... | |
class | ProductGridFunctionAdapter< GF1, GF2, typename enable_if< GF1::Traits::dimRange==1 &&GF2::Traits::dimRange!=1 >::type > |
Product of two GridFunctions. More... | |
class | QkDGGLLocalFiniteElementMap |
class | QkDGLocalFiniteElementMap |
class | QkLocalFiniteElementMap |
class | QuadratureRuleWrapper |
Wrapper for Dune::QuadratureRule with value semantics. More... | |
class | RannacherTurekLocalFiniteElementMap |
class | RaviartThomasLocalFiniteElementMap |
Raviart-Thomas elements of order k. More... | |
class | ReferenceElementWrapper |
Wrapper for Dune::ReferenceElement with value semantics. More... | |
struct | replay_visitor |
class | RK4Parameter |
Parameters to turn the ExplicitOneStepMethod into a classical fourth order Runge-Kutta method. More... | |
class | RT0Constraints |
Neumann Constraints construction, as needed for RT0. More... | |
class | RT0Cube2DLocalFiniteElementMap |
class | RT0Cube3DLocalFiniteElementMap |
class | RT0Simplex2DLocalFiniteElementMap |
class | RT1Cube2DLocalFiniteElementMap |
class | RT1Cube3DLocalFiniteElementMap |
class | RT1Simplex2DLocalFiniteElementMap |
class | RT2Cube2DLocalFiniteElementMap |
class | RTLocalFiniteElementMap |
class | ScalarScaledGridFunctionAdapter |
Scale a GridFunction by a constant. More... | |
class | ScaledLocalOperator |
A local operator that scales the result of another local operator. More... | |
class | SelectComponentAdapter |
a Function maps x in DomainType to y in RangeType More... | |
class | SelectComponentGridFunctionAdapter |
Select certain component(s) of a gridfunction. More... | |
class | SeqDGAMGPrec |
struct | SequentialNorm |
class | SharedDOFDataHandle |
Data handle for marking shared DOFs. More... | |
struct | SharedDOFGatherScatter |
GatherScatter functor for marking shared DOFs. More... | |
class | Shu3Parameter |
Parameters to turn the ExplicitOneStepMethod into a third order strong stability preserving (SSP) scheme. More... | |
struct | SimpleContainerIndex |
struct | SimpleDOFIndex |
struct | SimpleDOFIndexAccessor |
struct | SimpleLFSCacheTag |
class | SimpleLocalFiniteElementMap |
simple implementation where all entities have the same finite element More... | |
struct | SimpleMatrixBackend |
struct | SimpleOrderingTraits |
struct | SimpleOrderingTraits< SimpleDOFIndex< SizeType_ >, CI > |
struct | SimpleSparseMatrixBackend |
class | SimpleTimeController |
Default time controller; just returns given dt. More... | |
struct | SimpleVectorBackend |
class | SingleCodimLeafOrdering |
struct | SingleCodimMapper |
struct | SingleDerivativeComputationHelper |
Helper class to compute a single derivative of scalar basis functions. More... | |
struct | SingleDerivativeComputationHelper< Dune::DiagonalMatrix< RF, size >, RF, size > |
Template specialization for Dune::DiagonalMatrix. More... | |
struct | SingleDerivativeComputationHelper< Dune::FieldMatrix< RF, size, size >, RF, size > |
Template specialization for Dune::FieldMatrix. More... | |
class | SparsityLink |
Entry in sparsity pattern. More... | |
class | SqrGridFunctionAdapter |
Take square of a GridFunction. More... | |
class | SqrtGridFunctionAdapter |
Take sqrt of a GridFunction. More... | |
class | StationaryLinearProblemSolver |
struct | StationaryLinearProblemSolverResult |
class | StationaryMatrixLinearSolver |
A class for solving linear problems with stationary matrices. More... | |
struct | StokesBoundaryCondition |
class | StokesDG |
A local operator for solving the stokes equation using a DG discretization. More... | |
class | StokesDGParameters |
Parameter class for local operator StokesDG. More... | |
class | StokesDGVectorFEM |
A local operator for solving the stokes equation using a DG discretization and a vector valued finite element map for the velocity grid function space. More... | |
class | StokesMassDG |
A local operator for solving the stokes equation using a DG discretization. More... | |
class | StokesPressureDirichletConstraints |
class | StokesVelocityDirichletConstraints |
class | StructuredGrid |
class | StructuredGrid< YaspGrid< dim > > |
class | SubOrdering |
A view on a subtree of a multi-component ordering. More... | |
class | TaylorHoodNavierStokes |
A local operator for the Navier-Stokes equations. More... | |
struct | TestSpaceTag |
class | TimeAdaptationStrategy |
class | TimeControllerInterface |
Controller interface for adaptive time stepping. More... | |
struct | TimeSpec |
struct to store temporal values More... | |
class | TimeSteppingParameterInterface |
Base parameter class for time stepping scheme parameters. More... | |
struct | Timing |
struct | TransportParameterTraits |
traits class for two phase parameter class More... | |
class | TransportSpatialParameterInterface |
base class for parameter class More... | |
class | TransportTemporalParameterInterface |
base class for parameter class More... | |
struct | TrialSpaceTag |
class | TwoArgsMemberFunctionToBoundaryGridFunctionAdaptor |
BoundaryGridFunction implemented by a member function of some class. More... | |
class | TwoArgsMemberFunctionToGridFunctionAdaptor |
GridFunction implemented by a member function of some class. More... | |
struct | TwoPhaseFullTensorParameterTraits |
class | TwoPhaseOnePointTemporalOperator |
class | TwoPhaseParameterInterface |
base class for parameter class More... | |
struct | TwoPhaseParameterTraits |
traits class for two phase parameter class More... | |
class | TwoPhaseTwoPointFluxOperator |
struct | TypeList |
A simple type list. More... | |
struct | TypeListElement |
struct | TypeListElement< i, TypeList< T... > > |
Get element of TypeList. More... | |
struct | TypeListSize |
struct | TypeListSize< TypeList< T... > > |
Get size of TypeList. More... | |
class | UncachedMatrixView |
struct | UncachedVectorView |
class | UninitializedGridFunctionSpaceError |
Called a GridFunctionSpace method that requires initialization of the space. More... | |
class | UnstructuredGrid |
struct | update_fixed_size |
class | UserFunction |
class | V_g |
Provide velocity field for gas phase. More... | |
class | V_l |
Provide velocity field for liquid phase. More... | |
class | VariableElementSize |
FiniteElementMap exception concerning the computation of the FiniteElementMap size. More... | |
class | VariableMonomLocalFiniteElementMap |
class | VariableOPBLocalFiniteElementMap |
class | VariableQkDGLocalFiniteElementMap |
struct | VectorBasisInterfaceSwitch |
struct | VectorBasisInterfaceSwitch< Basis, typename enable_if< Basis::Traits::dimDomain >::type > |
Switch for uniform treatment of local and global basis classes. More... | |
struct | VectorBasisInterfaceSwitch< Basis, typename enable_if< Std::to_true_type< integral_constant< std::size_t, Basis::Traits::dimDomain > >::value >::type > |
Switch for uniform treatment of local and global basis classes. More... | |
class | VectorDiscreteGridFunction |
DiscreteGridFunction for vector-valued functions. More... | |
class | VectorDiscreteGridFunctionCurl |
Compute curl of vector-valued functions. More... | |
class | VectorDiscreteGridFunctionCurl< T, X, 2 > |
Compute curl of vector-valued functions (2D). More... | |
class | VectorDiscreteGridFunctionCurl< T, X, 3 > |
Compute curl of vector-valued functions (3D). More... | |
class | VectorDiscreteGridFunctionDiv |
Compute divergence of vector-valued functions. More... | |
class | VectorDiscreteGridFunctionGradient |
Equivalent of DiscreteGridFunctionGradient for vector-valued functions. More... | |
class | VectorGridFunctionSpace |
base class for tuples of grid function spaces product of identical grid function spaces base class that holds implementation of the methods More... | |
struct | VectorGridFunctionSpaceTag |
class | VirtualOrderingBase |
class | VTKFiniteElementMapAdapter |
class | VTKGridFunctionAdapter |
wrap a GridFunction so it can be used with the VTKWriter from dune-grid. More... | |
struct | WallTimeClock |
class | WeightedMatrixAccumulationView |
An accumulate-only view on a local matrix that automatically takes into account an accumulation weight. More... | |
class | WeightedSumLocalOperator |
A local operator to take the weighted sum of other local operators. More... | |
class | WeightedVectorAccumulationView |
An accumulate-only view on a local vector that automatically takes into account an accumulation weight. More... | |
class | WithLogtag |
temporarily use a different log tag format function More... | |
class | ZeroLocalOperator |
Do-nothing local operator. More... | |
Typedefs | |
template<ISTLParameters::Blocking blocking = ISTLParameters::no_blocking, std::size_t block_size = 1> | |
using | ISTLVectorBackend = istl::VectorBackend< static_cast< istl::Blocking >(blocking), block_size > |
typedef MPIWallTimeSource | DefaultTimeSource |
template<typename GV > | |
using | AllEntitySet = PartitionViewEntitySet< GV, Partitions::All > |
template<typename GV > | |
using | OverlappingEntitySet = PartitionViewEntitySet< GV, Partitions::InteriorBorderOverlapFront > |
template<typename GV > | |
using | NonOverlappingEntitySet = PartitionViewEntitySet< GV, Partitions::InteriorBorder > |
template<typename T > | |
using | isEntitySet = typename impl::_isEntitySet< T >::type |
Type Trait to determine whether T is an EntitySet. More... | |
template<std::size_t i, class T > | |
using | TypeListEntry_t = typename TypeListElement< i, T >::type |
Shortcut for TypeListElement<i, T>::type;. More... | |
template<class This , class... T> | |
using | disableCopyMove = typename std::enable_if< (not(std::is_same< This, typename std::tuple_element< 0, std::tuple< typename std::decay< T >::type... > >::type >::value) and not(std::is_base_of< This, typename std::tuple_element< 0, std::tuple< typename std::decay< T >::type... > >::type >::value)), int >::type |
Helper to disable constructor as copy and move constructor. More... | |
template<typename GFS , typename TreePath > | |
using | GridFunctionSubSpace = gfs::GridFunctionSubSpace< GFS, TreePath > |
Non-nesting implementation of GridFunctionSubSpace. More... | |
using | DefaultLeafOrderingTag = LeafOrderingTag< EmptyParams > |
Enumerations | |
enum | MeshType { conforming, nonconforming } |
enum | IntersectionType { IntersectionType::processor = 0, IntersectionType::skeleton = 1, IntersectionType::boundary = 2, IntersectionType::periodic = 3 } |
Enum describing the type of an intersection. More... | |
Functions | |
template<class Grid , class GFS , class X > | |
void | adapt_grid (Grid &grid, GFS &gfs, X &x1, int int_order) |
adapt a grid, corresponding function space and solution vectors More... | |
template<class Grid , class GFS , class X > | |
void | adapt_grid (Grid &grid, GFS &gfs, X &x1, X &x2, int int_order) |
adapt a grid, corresponding function space and solution vectors More... | |
template<typename GFS , typename... X> | |
impl::GFSWithVectors< GFS, X... > | transferSolutions (GFS &gfs, int integrationOrder, X &...x) |
Pack function space and vectors for grid adaption. More... | |
template<typename Grid , typename... X> | |
void | adaptGrid (Grid &grid, X &...x) |
Adapt grid and multiple function spaces with corresponding vectors. More... | |
template<typename T > | |
void | error_fraction (const T &x, typename T::ElementType alpha, typename T::ElementType beta, typename T::ElementType &eta_alpha, typename T::ElementType &eta_beta, int verbose=0) |
template<typename T > | |
void | element_fraction (const T &x, typename T::ElementType alpha, typename T::ElementType beta, typename T::ElementType &eta_alpha, typename T::ElementType &eta_beta, int verbose=0) |
template<typename T > | |
void | error_distribution (const T &x, unsigned int bins) |
template<typename Grid , typename X > | |
void | mark_grid (Grid &grid, const X &x, typename X::ElementType refine_threshold, typename X::ElementType coarsen_threshold, int min_level=0, int max_level=std::numeric_limits< int >::max(), int verbose=0) |
template<typename Grid , typename X > | |
void | mark_grid_for_coarsening (Grid &grid, const X &x, typename X::ElementType refine_threshold, typename X::ElementType coarsen_threshold, int verbose=0) |
template<class GFS , class T , class A , int n, int m> | |
void | restore_overlap_entries (const GFS &gfs, Dune::BCRSMatrix< Dune::FieldMatrix< T, n, m >, A > &matrix, Dune::BCRSMatrix< Dune::FieldMatrix< T, n, m >, A > &matrix2) |
std::ostream & | operator<< (std::ostream &s, const TimeSpec &t) |
insert a timespec into an output stream More... | |
TimeSpec | gettimeofdayWallTime () |
const TimeSpec & | gettimeofdayWallTimeResolution () |
TimeSpec | getWallTime () |
get the wall time in seconds since the epoch More... | |
TimeSpec | getWallTimeResolution () |
get resolution of the wall time in seconds More... | |
const std::string & | getWallTimeImp () |
return a string describing which implementation is used to get the wall time More... | |
TimeSpec | getrusageProcessTime () |
const TimeSpec & | getrusageProcessTimeResolution () |
TimeSpec | getProcessTime () |
get the process time in seconds used by the current process More... | |
TimeSpec | getProcessTimeResolution () |
get resolution of the process time in seconds More... | |
const std::string & | getProcessTimeImp () |
return a string describing which implementation is used to get the process time More... | |
template<class C , class... T> | |
constexpr bool | models () |
Check if concept is modeled by given types. More... | |
template<typename T , int dimB, int dimC> | |
void | crossproduct (const FieldVector< T, dimB > &b, const FieldVector< T, dimC > &c, FieldVector< T,(CrossProduct< dimB, dimC >::dimA)> &a) |
calculate crossproduct More... | |
template<typename T , int dimB, int dimC> | |
FieldVector< T, CrossProduct< dimB, dimC >::dimA > | crossproduct (const FieldVector< T, dimB > &b, const FieldVector< T, dimC > &c) |
calculate crossproduct More... | |
template<typename T , std::size_t n1, std::size_t n2> | |
std::size_t | hash_value (const DOFIndex< T, n1, n2 > &di) |
template<typename GV , typename T > | |
void | vtkwriter_tree_addvertexdata (Dune::VTKWriter< GV > &w, const T &t, std::string s="data") |
add vertex data from a GridFunctionTree to a VTKWriter More... | |
template<typename GF > | |
void | integrateGridFunction (const GF &gf, typename GF::Traits::RangeType &sum, unsigned qorder=1) |
Integrate a GridFunction. More... | |
template<typename T , std::size_t n, typename ID > | |
std::size_t | hash_value (const GlobalDOFIndex< T, n, ID > &di) |
std::string | getHostName () |
C++ friendly wrapper around POSIX' gethostname() More... | |
template<typename EntitySet , typename Intersection > | |
std::tuple< IntersectionType, typename EntitySet::Element > | classifyIntersection (const EntitySet &entity_set, const Intersection &is) |
Classifies the type of an intersection wrt to the passed EntitySet. More... | |
std::shared_ptr< LogtagFormatterBase > | makeGeneralLogtagFormatter (std::ostream &(&formatFunc)(std::ostream &)) |
Convenience function to create a GeneralLogtagFormatter. More... | |
const std::shared_ptr< LogtagFormatterBase > & | getLogtagFormatter () |
get the log tag formatter currently used by logtag() More... | |
void | setLogtagFormatter (const std::shared_ptr< LogtagFormatterBase > &formatter=std::shared_ptr< LogtagFormatterBase >()) |
set a new log tag formatter to be used by logtag() More... | |
std::ostream & | logtag (std::ostream &s) |
function that writes a log tag to some stream More... | |
void | logtagSetupMPI (bool syncWidthes=true) |
collect MPI information for the logtag formatters More... | |
std::ostream & | hostRankWallUserLogtagFormatFunc (std::ostream &s) |
logtag format function that includes hostname, rank (if available), wall time and CPU time More... | |
std::ostream & | hostPidWallUserLogtagFormatFunc (std::ostream &s) |
logtag format function that includes host name, pid, wall time and CPU time More... | |
std::ostream & | nullFormatFunc (std::ostream &s) |
logtag format function that does not write anything More... | |
template<class FormatFunc > | |
std::shared_ptr< LogtagFormatterBase > | makeGeneralLogtagFormatter (const FormatFunc &formatFunc) |
Convenience function to create a GeneralLogtagFormatter. More... | |
template<class FormatFunc > | |
void | setLogtagFormatFunc (const FormatFunc &formatFunc) |
set a new log tag format function to be used by logtag() More... | |
void | setLogtagRank (int rank) |
set the rank to be printed by logtag formatters More... | |
std::ostream & | operator<< (std::ostream &s, const LocalTag &tag) |
insert a localtag into a std::ostream More... | |
template<typename T , std::size_t n> | |
std::size_t | hash_value (const MultiIndex< T, n > &mi) |
template<typename Geometry > | |
QuadratureRuleWrapper< QuadratureRule< typename Geometry::ctype, Geometry::mydimension > > | quadratureRule (const Geometry &geo, std::size_t order, QuadratureType::Enum quadrature_type=QuadratureType::GaussLegendre) |
Returns a quadrature rule for the given geometry. More... | |
template<class T > | |
std::vector< T > | rangeVector (T begin, T passed_the_end, T increment=1) |
Generate a vector with a range of numbers. More... | |
template<class T > | |
std::vector< T > | rangeVector (T passed_the_end) |
Generate a vector with a range of numbers. More... | |
template<typename Geometry > | |
ReferenceElementWrapper< ReferenceElement< typename Geometry::ctype, Geometry::mydimension > > | referenceElement (const Geometry &geo) |
Returns the reference element for the given geometry. More... | |
template<typename F > | |
std::size_t | hash_value (const SimpleDOFIndex< F > &di) |
template<typename T > | |
std::shared_ptr< T > | ensure_shared_ptr (T &t) |
Ensures that t is wrapped in a shared_ptr<T> More... | |
template<class GF > | |
std::shared_ptr< VTKGridFunctionAdapter< GF > > | makeVTKGridFunctionAdapter (const std::shared_ptr< GF > &gf, const std::string &name, const std::vector< std::size_t > &remap=rangeVector(std::size_t(GF::Traits::dimRange))) |
construct a VTKGridFunctionAdapter More... | |
template<class GF > | |
std::shared_ptr< VTKGridFunctionAdapter< GF > > | makeVTKGridFunctionAdapter (const GF &gf, const std::string &name, const std::vector< std::size_t > &remap=rangeVector(std::size_t(GF::Traits::dimRange))) |
construct a VTKGridFunctionAdapter More... | |
template<class GF > | |
std::shared_ptr< VTKGridFunctionAdapter< GF > > | makeVTKGridFunctionAdapter (const std::shared_ptr< const GF > &gf, const std::string &name, const std::vector< std::size_t > &remap=rangeVector(std::size_t(GF::Traits::dimRange))) |
construct a VTKGridFunctionAdapter More... | |
template<typename GFS , typename CG > | |
void | constraints (const GFS &gfs, CG &cg, const bool verbose=false) |
construct constraints More... | |
template<typename P , typename GFS , typename CG > | |
void | constraints (const P &p, const GFS &gfs, CG &cg, const bool verbose=false) |
construct constraints from given constraints parameter tree More... | |
template<typename CG , typename XG > | |
void | set_constrained_dofs (const CG &cg, typename XG::ElementType x, XG &xg) |
construct constraints from given boundary condition function More... | |
template<typename CG , typename XG , typename Cmp > | |
bool | check_constrained_dofs (const CG &cg, typename XG::ElementType x, XG &xg, const Cmp &cmp=Cmp()) |
check that constrained dofs match a certain value More... | |
template<typename CG , typename XG > | |
bool | check_constrained_dofs (const CG &cg, typename XG::ElementType x, XG &xg) |
check that constrained dofs match a certain value More... | |
template<typename CG , typename XG > | |
void | constrain_residual (const CG &cg, XG &xg) |
transform residual into transformed basis: r -> r~ More... | |
template<typename GV , typename F > | |
WrapperConformingToGridFunctionInterface | makeGridFunctionFromCallable (const GV &gv, const F &f) |
Create a GridFunction adapter from a callable. More... | |
template<typename GV , typename F > | |
WrapperConformingToGridFunctionInterface | makeInstationaryGridFunctionFromCallable (const GV &gv, const F &f) |
Create a GridFunction from callable and parameter class with setTime method. More... | |
template<typename F , typename GFS , typename XG > | |
void | interpolate (const F &f, const GFS &gfs, XG &xg) |
interpolation from a given grid function More... | |
template<typename LFS , typename Iterator > | |
Iterator | extract_lfs_leaf_sizes (const LFS &lfs, Iterator it) |
template<typename PowerGridFunctionSpace , typename Params > | |
TypeTree::TemplatizedGenericPowerNodeTransformation< PowerGridFunctionSpace, gfs_to_lfs< Params >, power_gfs_to_lfs_template< PowerGridFunctionSpace, gfs_to_lfs< Params > >::template result > | registerNodeTransformation (PowerGridFunctionSpace *pgfs, gfs_to_lfs< Params > *t, PowerGridFunctionSpaceTag *tag) |
template<typename CompositeGridFunctionSpace , typename Params > | |
TypeTree::TemplatizedGenericCompositeNodeTransformation< CompositeGridFunctionSpace, gfs_to_lfs< Params >, composite_gfs_to_lfs_template< CompositeGridFunctionSpace, gfs_to_lfs< Params > >::template result > | registerNodeTransformation (CompositeGridFunctionSpace *cgfs, gfs_to_lfs< Params > *t, CompositeGridFunctionSpaceTag *tag) |
template<typename GridFunctionSpace , typename Params > | |
TypeTree::GenericLeafNodeTransformation< GridFunctionSpace, gfs_to_lfs< Params >, LeafLocalFunctionSpaceNode< GridFunctionSpace, typename gfs_to_lfs< Params >::DOFIndex > > | registerNodeTransformation (GridFunctionSpace *gfs, gfs_to_lfs< Params > *t, LeafGridFunctionSpaceTag *tag) |
template<typename C > | |
C & | accessBaseContainer (C &c) |
template<typename T , typename Tag , typename W > | |
LocalVector< T, Tag, W >::BaseContainer & | accessBaseContainer (LocalVector< T, Tag, W > &c) |
template<typename C > | |
WeightedVectorAccumulationView< C >::BaseContainer & | accessBaseContainer (WeightedVectorAccumulationView< C > &c) |
template<typename C > | |
const C & | accessBaseContainer (const C &c) |
template<typename T , typename Tag , typename W > | |
const LocalVector< T, Tag, W >::BaseContainer & | accessBaseContainer (const LocalVector< T, Tag, W > &c) |
template<typename C > | |
const WeightedVectorAccumulationView< C >::BaseContainer & | accessBaseContainer (const WeightedVectorAccumulationView< C > &c) |
template<typename VTKWriter , typename GFS , typename X , typename NameGenerator = vtk::DefaultFunctionNameGenerator, typename Predicate = vtk::DefaultPredicate> | |
vtk::OutputCollector< VTKWriter, vtk::DGFTreeCommonData< GFS, X, Predicate > > | addSolutionToVTKWriter (VTKWriter &vtk_writer, const GFS &gfs, const X &x, const NameGenerator &name_generator=vtk::defaultNameScheme(), const Predicate &predicate=Predicate()) |
template<class Stream , class T , class W > | |
Stream & | operator<< (Stream &stream, const LocalMatrix< T, W > &m) |
template<class DomainType , class LFS , class LV , class RangeFieldType > | |
void | evalFunction (const DomainType &location, const LFS &lfs, const LV &xlocal, RangeFieldType &valU) |
template<class DomainType , class EG , class LFS , class LV , class RangeType > | |
void | evalGradient (const DomainType &location, const EG &eg, const LFS &lfs, const LV &xlocal, RangeType &gradu) |
template<typename LFS > | |
std::vector< typename LFS::Traits::FiniteElementType::Traits::LocalBasisType::Traits::RangeType > | makeValueContainer (const LFS &lfs) |
return a container for basis evaluations More... | |
template<typename LFS > | |
std::vector< typename LFS::Traits::FiniteElementType::Traits::LocalBasisType::Traits::JacobianType > | makeJacobianContainer (const LFS &lfs) |
return a container for Jacobian evaluations More... | |
template<typename LFS > | |
LFS::Traits::FiniteElementType::Traits::LocalBasisType::Traits::RangeFieldType | makeZeroBasisFieldValue (const LFS &lfs) |
return a zero value of RangeFieldType of the basis More... | |
template<typename LFS > | |
LFS::Traits::FiniteElementType::Traits::LocalBasisType::Traits::RangeType | makeZeroBasisValue (const LFS &lfs) |
return a zero value of RangeType of the basis More... | |
template<typename LFS > | |
LFS::Traits::FiniteElementType::Traits::LocalBasisType::Traits::JacobianType | makeZeroJacobianValue (const LFS &lfs) |
return a zero value of JacobianType of the basis More... | |
template<typename GFS , typename Transformation > | |
power_gfs_to_entityblocked_ordering_descriptor< GFS, Transformation > | register_power_gfs_to_ordering_descriptor (GFS *, Transformation *, EntityBlockedOrderingTag *) |
template<typename GFS , typename Transformation > | |
composite_gfs_to_entityblocked_ordering_descriptor< GFS, Transformation > | register_composite_gfs_to_ordering_descriptor (GFS *, Transformation *, EntityBlockedOrderingTag *) |
template<typename GFS , typename Transformation > | |
power_gfs_to_interleaved_ordering_descriptor< GFS, Transformation > | register_power_gfs_to_ordering_descriptor (GFS *, Transformation *, InterleavedOrderingTag *) |
template<typename GFS , typename Transformation > | |
composite_gfs_to_interleaved_ordering_descriptor< GFS, Transformation > | register_composite_gfs_to_ordering_descriptor (GFS *, Transformation *, InterleavedOrderingTag *) |
template<typename GFS , typename Transformation , typename Params > | |
direct_leaf_gfs_to_gridview_ordering_descriptor< GFS, Transformation > | register_leaf_gfs_to_ordering_descriptor (GFS *, Transformation *, LeafOrderingTag< Params > *) |
template<typename GFS , typename Transformation > | |
power_gfs_to_lexicographic_ordering_descriptor< GFS, Transformation > | register_power_gfs_to_ordering_descriptor (GFS *, Transformation *, LexicographicOrderingTag *) |
template<typename GFS , typename Transformation > | |
composite_gfs_to_lexicographic_ordering_descriptor< GFS, Transformation > | register_composite_gfs_to_ordering_descriptor (GFS *, Transformation *, LexicographicOrderingTag *) |
template<typename Engine , typename... Functions> | |
PointwiseGridFunctionAdapter< Engine, Functions... > | makePointwiseGridFunctionAdapter (const Engine &engine, const Functions &...f) |
template<typename CG , typename XG > | |
void | copy_constrained_dofs (const CG &cg, const XG &xgin, XG &xgout) |
template<typename CG , typename XG > | |
void | set_nonconstrained_dofs (const CG &cg, typename XG::ElementType x, XG &xg) |
template<typename CG , typename XG > | |
void | copy_nonconstrained_dofs (const CG &cg, const XG &xgin, XG &xgout) |
template<typename CG , typename XG > | |
void | set_shifted_dofs (const CG &cg, typename XG::ElementType x, XG &xg) |
using Dune::PDELab::AllEntitySet = typedef PartitionViewEntitySet<GV,Partitions::All> |
using Dune::PDELab::disableCopyMove = typedef typename std::enable_if< (not(std::is_same<This, typename std::tuple_element<0, std::tuple<typename std::decay<T>::type...> >::type >::value) and not(std::is_base_of<This, typename std::tuple_element<0, std::tuple<typename std::decay<T>::type...> >::type >::value)), int>::type |
Helper to disable constructor as copy and move constructor.
Helper typedef to remove constructor with forwarding reference from overload set for copy and move constructor or assignment.
using Dune::PDELab::isEntitySet = typedef typename impl::_isEntitySet<T>::type |
Type Trait to determine whether T is an EntitySet.
using Dune::PDELab::ISTLVectorBackend = typedef istl::VectorBackend<static_cast<istl::Blocking>(blocking),block_size> |
using Dune::PDELab::NonOverlappingEntitySet = typedef PartitionViewEntitySet<GV,Partitions::InteriorBorder> |
using Dune::PDELab::OverlappingEntitySet = typedef PartitionViewEntitySet<GV,Partitions::InteriorBorderOverlapFront> |
using Dune::PDELab::TypeListEntry_t = typedef typename TypeListElement<i, T>::type |
Shortcut for TypeListElement<i, T>::type;.
|
strong |
Enum describing the type of an intersection.
void Dune::PDELab::adapt_grid | ( | Grid & | grid, |
GFS & | gfs, | ||
X & | x1, | ||
int | int_order | ||
) |
adapt a grid, corresponding function space and solution vectors
grid adaptation as a function
Assumes that the grid's elements have been marked for refinement and coarsening appropriately before
Grid | Type of the grid we want to adapt |
GFS | Type of ansatz space, we need to update it after adaptation |
X | Container class for DOF vectors |
References Dune::PDELab::GridAdaptor< Grid, GFSU, U, Projection >::backupData(), and Dune::PDELab::GridAdaptor< Grid, GFSU, U, Projection >::replayData().
Referenced by Dune::PDELab::TimeAdaptationStrategy::adaptGrid().
void Dune::PDELab::adapt_grid | ( | Grid & | grid, |
GFS & | gfs, | ||
X & | x1, | ||
X & | x2, | ||
int | int_order | ||
) |
adapt a grid, corresponding function space and solution vectors
grid adaptation as a function
Assumes that the grid's elements have been marked for refinement and coarsening appropriately before
Grid | Type of the grid we want to adapt |
GFS | Type of ansatz space, we need to update it after adaptation |
X | Container class for DOF vectors |
Projection | Projection used when Elems vanish |
References Dune::PDELab::GridAdaptor< Grid, GFSU, U, Projection >::backupData(), Dune::PDELab::GridAdaptor< Grid, GFSU, U, Projection >::replayData(), and value.
void Dune::PDELab::adaptGrid | ( | Grid & | grid, |
X &... | x | ||
) |
Adapt grid and multiple function spaces with corresponding vectors.
Assumes that the grid's elements have been marked for refinement and coarsement appropriately befor
Grid | Type of the Grid |
X | Packed GFS with vectors that should be adapted |
Note: A pack can be created using the transferSolution function.
vtk::OutputCollector< VTKWriter, vtk::DGFTreeCommonData<GFS,X,Predicate> > Dune::PDELab::addSolutionToVTKWriter | ( | VTKWriter & | vtk_writer, |
const GFS & | gfs, | ||
const X & | x, | ||
const NameGenerator & | name_generator = vtk::defaultNameScheme() , |
||
const Predicate & | predicate = Predicate() |
||
) |
std::tuple<IntersectionType,typename EntitySet::Element> Dune::PDELab::classifyIntersection | ( | const EntitySet & | entity_set, |
const Intersection & | is | ||
) |
Classifies the type of an intersection wrt to the passed EntitySet.
This function classifies the neighborship type of an intersection. It mirrors the classification provided by the Intersection::boundary() and Intersection::neighbor() methods, but also takes into account an EntitySet that might not span all parallel PartitionTypes.
As the classification often requires the function to obtain the outside entity, the function returns a tuple containing both the IntersectionType and the outside entity to avoid obtaining the outside entity twice. In case of a boundary intersection where an outside entity is not available, it will return a default-constructed (invalid) entity.
References processor, and skeleton.
Referenced by Dune::PDELab::DefaultAssembler< GFSU, GFSV, CU, CV, nonoverlapping_mode >::assemble(), and Dune::PDELab::PowerConstraintsParameters< T, k >::PowerConstraintsParameters().
void Dune::PDELab::crossproduct | ( | const FieldVector< T, dimB > & | b, |
const FieldVector< T, dimC > & | c, | ||
FieldVector< T,(CrossProduct< dimB, dimC >::dimA)> & | a | ||
) |
calculate crossproduct
Compute the result of in
a
. This does the usual 3D crossproduct:
Referenced by crossproduct().
FieldVector<T, CrossProduct<dimB, dimC>::dimA> Dune::PDELab::crossproduct | ( | const FieldVector< T, dimB > & | b, |
const FieldVector< T, dimC > & | c | ||
) |
void Dune::PDELab::element_fraction | ( | const T & | x, |
typename T::ElementType | alpha, | ||
typename T::ElementType | beta, | ||
typename T::ElementType & | eta_alpha, | ||
typename T::ElementType & | eta_beta, | ||
int | verbose = 0 |
||
) |
void Dune::PDELab::error_distribution | ( | const T & | x, |
unsigned int | bins | ||
) |
Compute error distribution
References e.
void Dune::PDELab::error_fraction | ( | const T & | x, |
typename T::ElementType | alpha, | ||
typename T::ElementType | beta, | ||
typename T::ElementType & | eta_alpha, | ||
typename T::ElementType & | eta_beta, | ||
int | verbose = 0 |
||
) |
Referenced by Dune::PDELab::TimeAdaptationStrategy::evaluate_estimators().
|
inline |
two simple functions used again and again to evaluate the function value or the gradient vector of the solution on an element
Referenced by Dune::PDELab::ConvectionDiffusionDG_ErrorIndicator< T >::alpha_boundary(), and Dune::PDELab::ConvectionDiffusionDG_ErrorIndicator< T >::alpha_skeleton().
|
inline |
Iterator Dune::PDELab::extract_lfs_leaf_sizes | ( | const LFS & | lfs, |
Iterator | it | ||
) |
References Dune::PDELab::extract_lfs_leaf_size_visitor< Iterator >::it.
Referenced by Dune::PDELab::LeafOffsetCache< GFSU >::update(), Dune::PDELab::LFSIndexCacheBase< LFS, EmptyTransformation, LFS::Traits::GridFunctionSpace::Ordering::CacheTag >::update(), and Dune::PDELab::LFSIndexCacheBase< LFS, EmptyTransformation, CacheTag >::update().
std::string Dune::PDELab::getHostName | ( | ) |
C++ friendly wrapper around POSIX' gethostname()
Referenced by logtagSetupMPI().
const std::shared_ptr< LogtagFormatterBase > & Dune::PDELab::getLogtagFormatter | ( | ) |
get the log tag formatter currently used by logtag()
Referenced by logtag(), and makeGeneralLogtagFormatter().
TimeSpec Dune::PDELab::getProcessTime | ( | ) |
get the process time in seconds used by the current process
References Dune::PDELab::ProcessTimeClock::clock, and Dune::PDELab::ProcessTimeClock::instance().
Referenced by hostPidWallUserLogtagFormatFunc(), and hostRankWallUserLogtagFormatFunc().
const std::string & Dune::PDELab::getProcessTimeImp | ( | ) |
return a string describing which implementation is used to get the process time
References Dune::PDELab::ProcessTimeClock::clockName, and Dune::PDELab::ProcessTimeClock::instance().
TimeSpec Dune::PDELab::getProcessTimeResolution | ( | ) |
get resolution of the process time in seconds
References Dune::PDELab::ProcessTimeClock::instance(), and Dune::PDELab::ProcessTimeClock::resolution.
TimeSpec Dune::PDELab::getrusageProcessTime | ( | ) |
References Dune::PDELab::TimeSpec::tv_sec.
Referenced by Dune::PDELab::ProcessTimeClock::instance().
const TimeSpec& Dune::PDELab::getrusageProcessTimeResolution | ( | ) |
Referenced by Dune::PDELab::ProcessTimeClock::instance().
TimeSpec Dune::PDELab::gettimeofdayWallTime | ( | ) |
References Dune::PDELab::TimeSpec::tv_sec.
Referenced by Dune::PDELab::WallTimeClock::instance().
const TimeSpec& Dune::PDELab::gettimeofdayWallTimeResolution | ( | ) |
Referenced by Dune::PDELab::WallTimeClock::instance().
TimeSpec Dune::PDELab::getWallTime | ( | ) |
get the wall time in seconds since the epoch
References Dune::PDELab::WallTimeClock::clock, and Dune::PDELab::WallTimeClock::instance().
Referenced by hostPidWallUserLogtagFormatFunc(), and hostRankWallUserLogtagFormatFunc().
const std::string & Dune::PDELab::getWallTimeImp | ( | ) |
return a string describing which implementation is used to get the wall time
References Dune::PDELab::WallTimeClock::clockName, Dune::PDELab::WallTimeClock::instance(), and Dune::PDELab::TimeSpec::tv_sec.
TimeSpec Dune::PDELab::getWallTimeResolution | ( | ) |
get resolution of the wall time in seconds
References Dune::PDELab::WallTimeClock::instance(), and Dune::PDELab::WallTimeClock::resolution.
|
inline |
References Dune::PDELab::SimpleDOFIndex< F >::back().
|
inline |
|
inline |
|
inline |
std::ostream & Dune::PDELab::hostPidWallUserLogtagFormatFunc | ( | std::ostream & | s | ) |
logtag format function that includes host name, pid, wall time and CPU time
References getProcessTime(), getWallTime(), and s.
Referenced by makeGeneralLogtagFormatter(), and setLogtagFormatter().
std::ostream & Dune::PDELab::hostRankWallUserLogtagFormatFunc | ( | std::ostream & | s | ) |
logtag format function that includes hostname, rank (if available), wall time and CPU time
For serial programs, the rank is omitted completely. For parallel programs before logtagSetupMPI() has been called, the rank will show as '?'.
References getProcessTime(), getWallTime(), and s.
std::ostream & Dune::PDELab::logtag | ( | std::ostream & | s | ) |
function that writes a log tag to some stream
Usage:
By default hostPidWallUserLogtagFormatFunc() is used to generate the tags.
References getLogtagFormatter(), and s.
Referenced by operator<<().
void Dune::PDELab::logtagSetupMPI | ( | bool | syncWidthes = true | ) |
collect MPI information for the logtag formatters
This function needs to be called explicitly after MPI has been set up. Logtag formatters will work before this function has been called but MPI information will be omitted.
Besides determining MPI information, this function also syncronises the widthes of the generated output, such that e.g. host names, ranks and pids will print with the same width on each rank. This can be switched off by passing syncWidthes=false
.
References getHostName(), and s.
std::shared_ptr< LogtagFormatterBase > Dune::PDELab::makeGeneralLogtagFormatter | ( | std::ostream &(&)(std::ostream &) | formatFunc | ) |
Convenience function to create a GeneralLogtagFormatter.
References hostPidWallUserLogtagFormatFunc().
Referenced by makeGeneralLogtagFormatter(), setLogtagFormatFunc(), and setLogtagFormatter().
std::shared_ptr<LogtagFormatterBase> Dune::PDELab::makeGeneralLogtagFormatter | ( | const FormatFunc & | formatFunc | ) |
Convenience function to create a GeneralLogtagFormatter.
References getLogtagFormatter(), makeGeneralLogtagFormatter(), and setLogtagFormatter().
WrapperConformingToGridFunctionInterface Dune::PDELab::makeGridFunctionFromCallable | ( | const GV & | gv, |
const F & | f | ||
) |
Create a GridFunction adapter from a callable.
gv | A GridView |
f | A callable of one of the two forms:
|
WrapperConformingToGridFunctionInterface Dune::PDELab::makeInstationaryGridFunctionFromCallable | ( | const GV & | gv, |
const F & | f | ||
) |
Create a GridFunction from callable and parameter class with setTime method.
gv | A GridView. |
f | A callable of one of the two forms:
|
parameter | Parameter class. |
std::vector<typename LFS::Traits::FiniteElementType::Traits::LocalBasisType::Traits::JacobianType> Dune::PDELab::makeJacobianContainer | ( | const LFS & | lfs | ) |
return a container for Jacobian evaluations
PointwiseGridFunctionAdapter<Engine, Functions...> Dune::PDELab::makePointwiseGridFunctionAdapter | ( | const Engine & | engine, |
const Functions &... | f | ||
) |
syntactic sugar for easy creation of PointwiseGridFunctionAdapter objects
std::vector<typename LFS::Traits::FiniteElementType::Traits::LocalBasisType::Traits::RangeType> Dune::PDELab::makeValueContainer | ( | const LFS & | lfs | ) |
return a container for basis evaluations
std::shared_ptr<VTKGridFunctionAdapter<GF> > Dune::PDELab::makeVTKGridFunctionAdapter | ( | const std::shared_ptr< GF > & | gf, |
const std::string & | name, | ||
const std::vector< std::size_t > & | remap = rangeVector(std::size_t(GF::Traits::dimRange)) |
||
) |
construct a VTKGridFunctionAdapter
gf | GridFunction object to wrap. A reference to the grid function object is stored internally and the constructed object becomes invalid as soon as that reference becomes invalid. |
name | Name of the field as returned by name(). |
remap | How components are remapped between PDELab and VTK. The default value yields the identity map with entries (0,1,...,T::Traits::dimRange-1). |
The resulting VTKFunction will have remap_.size()
components. None of the elements of remap
should be greater or equal to T::Traits::dimRange
. When component c
is requested by the VTKWriter, it will be mapped to the component remap
[c] of the GridFunction.
References Dune::PDELab::VTKGridFunctionAdapter< T >::name().
Referenced by makeVTKGridFunctionAdapter(), and Dune::PDELab::VTKGridFunctionAdapter< T >::name().
std::shared_ptr<VTKGridFunctionAdapter<GF> > Dune::PDELab::makeVTKGridFunctionAdapter | ( | const GF & | gf, |
const std::string & | name, | ||
const std::vector< std::size_t > & | remap = rangeVector(std::size_t(GF::Traits::dimRange)) |
||
) |
construct a VTKGridFunctionAdapter
gf | GridFunction object to wrap. A reference to the grid function object is stored internally and the constructed object becomes invalid as soon as that reference becomes invalid. |
name | Name of the field as returned by name(). |
remap | How components are remapped between PDELab and VTK. The default value yields the identity map with entries (0,1,...,T::Traits::dimRange-1). |
The resulting VTKFunction will have remap_.size()
components. None of the elements of remap
should be greater or equal to T::Traits::dimRange
. When component c
is requested by the VTKWriter, it will be mapped to the component remap
[c] of the GridFunction.
References makeVTKGridFunctionAdapter(), and Dune::PDELab::VTKGridFunctionAdapter< T >::name().
std::shared_ptr<VTKGridFunctionAdapter<GF> > Dune::PDELab::makeVTKGridFunctionAdapter | ( | const std::shared_ptr< const GF > & | gf, |
const std::string & | name, | ||
const std::vector< std::size_t > & | remap = rangeVector(std::size_t(GF::Traits::dimRange)) |
||
) |
construct a VTKGridFunctionAdapter
gf | Shared pointer to a GridFunction object to wrap. |
name | Name of the field as returned by name(). |
remap | How components are remapped between PDELab and VTK. The default value yields the identity map with entries (0,1,...,T::Traits::dimRange-1). |
The resulting VTKFunction will have remap.size()
components. None of the elements of remap
should be greater or equal to T::Traits::dimRange
. When component c
is requested by the VTKWriter, it will be mapped to the component remap
[c] of the GridFunction.
References Dune::PDELab::VTKGridFunctionAdapter< T >::name().
LFS::Traits::FiniteElementType::Traits::LocalBasisType::Traits::RangeFieldType Dune::PDELab::makeZeroBasisFieldValue | ( | const LFS & | lfs | ) |
return a zero value of RangeFieldType of the basis
LFS::Traits::FiniteElementType::Traits::LocalBasisType::Traits::RangeType Dune::PDELab::makeZeroBasisValue | ( | const LFS & | lfs | ) |
return a zero value of RangeType of the basis
LFS::Traits::FiniteElementType::Traits::LocalBasisType::Traits::JacobianType Dune::PDELab::makeZeroJacobianValue | ( | const LFS & | lfs | ) |
return a zero value of JacobianType of the basis
void Dune::PDELab::mark_grid | ( | Grid & | grid, |
const X & | x, | ||
typename X::ElementType | refine_threshold, | ||
typename X::ElementType | coarsen_threshold, | ||
int | min_level = 0 , |
||
int | max_level = std::numeric_limits<int>::max() , |
||
int | verbose = 0 |
||
) |
Referenced by Dune::PDELab::TimeAdaptationStrategy::evaluate_estimators().
void Dune::PDELab::mark_grid_for_coarsening | ( | Grid & | grid, |
const X & | x, | ||
typename X::ElementType | refine_threshold, | ||
typename X::ElementType | coarsen_threshold, | ||
int | verbose = 0 |
||
) |
Referenced by Dune::PDELab::TimeAdaptationStrategy::evaluate_estimators().
constexpr bool Dune::PDELab::models | ( | ) |
Check if concept is modeled by given types.
This will check if the given concept is modeled by the given list of types. This is true if the list of types models all the base concepts that are refined by the given concept and if it satisfies all additional requirements of the latter.
Notice that a concept may be defined for a list of interacting types. The function will check if the given list of types matches the requirements on the whole list. It does not check if each individual type in the list satisfies the concept.
This concept check mechanism is inspired by the concept checking facility in Eric Nieblers range-v3. For more information please refer to the libraries project page https://github.com/ericniebler/range-v3 or this blog entry: http://ericniebler.com/2013/11/23/concept-checking-in-c11. In fact the interface provided here is almost exactly the same as in range-v3. However the implementation differs, because range-v3 uses its own meta-programming library whereas our implementation is more straight forward.
C | The concept to check |
T | The list of type to check against the concept |
References Dune::PDELab::Concept::Imp::modelsConcept().
Referenced by Dune::PDELab::LocalAssemblerCallSwitch< LA, true >::jacobian_apply_boundary(), Dune::PDELab::LocalAssemblerCallSwitch< LA, true >::jacobian_apply_skeleton(), Dune::PDELab::LocalAssemblerCallSwitch< LA, true >::jacobian_apply_volume(), Dune::PDELab::LocalAssemblerCallSwitch< LA, true >::jacobian_apply_volume_post_skeleton(), Dune::PDELab::Concept::Imp::modelsConceptList(), Dune::PDELab::Concept::requireConcept(), and Dune::PDELab::Concept::requireTrue().
std::ostream & Dune::PDELab::nullFormatFunc | ( | std::ostream & | s | ) |
logtag format function that does not write anything
References s.
std::ostream & Dune::PDELab::operator<< | ( | std::ostream & | s, |
const TimeSpec & | t | ||
) |
insert a timespec into an output stream
References s, Dune::PDELab::TimeSpec::tv_nsec, and Dune::PDELab::TimeSpec::tv_sec.
Referenced by Dune::PDELab::TimeSpec::operator-().
|
inline |
insert a localtag into a std::ostream
References logtag(), and Dune::PDELab::LocalTag::str().
QuadratureRuleWrapper< QuadratureRule< typename Geometry::ctype, Geometry::mydimension > > Dune::PDELab::quadratureRule | ( | const Geometry & | geo, |
std::size_t | order, | ||
QuadratureType::Enum | quadrature_type = QuadratureType::GaussLegendre |
||
) |
Returns a quadrature rule for the given geometry.
This function returns a quadrature rule for the given geometry geo
which can be used for exact integration of polynomial functions up to the order order
. Optionally, the type of quadrature rule can be passed as a third parameter. It defaults to Gauss-Legendre quadrature.
This function should be used unqualified, e.g.
Dune::PDELab
in front of it, as that might cause compiler errors with future versions of the core modules.The function wraps the quadrature rule in a QuadratureRuleWrapper to provide value semantics.
geo | The geometry for which to obtain a quadrature rule. |
order | The maximum polynomial order up to which the rule should be exact. |
quadrature_type | The type of quadrature (default: Gauss-Legendre). |
References Dune::PDELab::QuadratureRuleWrapper< QR >::order().
Referenced by Dune::PDELab::ConvectionDiffusionFEM< T, FiniteElementMap >::alpha_boundary(), Dune::PDELab::ConvectionDiffusionDG_ErrorIndicator< T >::alpha_boundary(), Dune::PDELab::NonLinearConvectionDiffusionFEM< T >::alpha_boundary(), Dune::PDELab::DGLinearAcousticsSpatialOperator< T, FEM >::alpha_boundary(), Dune::PDELab::ConvectionDiffusionFEMResidualEstimator< T >::alpha_boundary(), Dune::PDELab::DGMaxwellSpatialOperator< T, FEM >::alpha_boundary(), Dune::PDELab::ConvectionDiffusionDG< T, FiniteElementMap >::alpha_boundary(), Dune::PDELab::DGNavierStokes< PRM >::alpha_boundary(), Dune::PDELab::DGNavierStokesVelVecFEM< PRM >::alpha_boundary(), Dune::PDELab::ConvectionDiffusionTemporalResidualEstimator< T >::alpha_boundary(), Dune::PDELab::ConvectionDiffusionDG_ErrorIndicator< T >::alpha_skeleton(), Dune::PDELab::ConvectionDiffusionDG< T, FiniteElementMap >::alpha_skeleton(), Dune::PDELab::DGLinearAcousticsSpatialOperator< T, FEM >::alpha_skeleton(), Dune::PDELab::DGNavierStokes< PRM >::alpha_skeleton(), Dune::PDELab::DGNavierStokesVelVecFEM< PRM >::alpha_skeleton(), Dune::PDELab::ConvectionDiffusionFEMResidualEstimator< T >::alpha_skeleton(), Dune::PDELab::DGMaxwellSpatialOperator< T, FEM >::alpha_skeleton(), Dune::PDELab::L2::alpha_volume(), Dune::PDELab::ConvectionDiffusionFEM< T, FiniteElementMap >::alpha_volume(), Dune::PDELab::DiffusionMixed< PARAM >::alpha_volume(), Dune::PDELab::ConvectionDiffusionDG_ErrorIndicator< T >::alpha_volume(), Dune::PDELab::TaylorHoodNavierStokes< P >::alpha_volume(), Dune::PDELab::DGNavierStokes< PRM >::alpha_volume(), Dune::PDELab::ConvectionDiffusionDG< T, FiniteElementMap >::alpha_volume(), Dune::PDELab::LinearElasticity< T >::alpha_volume(), Dune::PDELab::DGNavierStokesVelVecFEM< PRM >::alpha_volume(), Dune::PDELab::DGLinearAcousticsSpatialOperator< T, FEM >::alpha_volume(), Dune::PDELab::NavierStokesVelVecMass< PRM >::alpha_volume(), Dune::PDELab::NonLinearConvectionDiffusionFEM< T >::alpha_volume(), Dune::PDELab::DGMaxwellSpatialOperator< T, FEM >::alpha_volume(), Dune::PDELab::ConvectionDiffusionFEMResidualEstimator< T >::alpha_volume(), Dune::PDELab::DGLinearAcousticsTemporalOperator< T, FEM >::alpha_volume(), Dune::PDELab::ConvectionDiffusionTemporalResidualEstimator1< T >::alpha_volume(), Dune::PDELab::DGMaxwellTemporalOperator< T, FEM >::alpha_volume(), Dune::PDELab::ConvectionDiffusionTemporalResidualEstimator< T >::alpha_volume(), Dune::PDELab::ConvectionDiffusionFEM< T, FiniteElementMap >::jacobian_boundary(), Dune::PDELab::ConvectionDiffusionDG< T, FiniteElementMap >::jacobian_boundary(), Dune::PDELab::DGNavierStokesVelVecFEM< PRM >::jacobian_boundary(), Dune::PDELab::DGNavierStokes< PRM >::jacobian_boundary(), Dune::PDELab::ConvectionDiffusionDG< T, FiniteElementMap >::jacobian_skeleton(), Dune::PDELab::DGNavierStokes< PRM >::jacobian_skeleton(), Dune::PDELab::DGNavierStokesVelVecFEM< PRM >::jacobian_skeleton(), Dune::PDELab::NavierStokesMass< PRM >::jacobian_volume(), Dune::PDELab::LinearElasticity< T >::jacobian_volume(), Dune::PDELab::L2::jacobian_volume(), Dune::PDELab::ConvectionDiffusionFEM< T, FiniteElementMap >::jacobian_volume(), Dune::PDELab::ConvectionDiffusionDG< T, FiniteElementMap >::jacobian_volume(), Dune::PDELab::DGNavierStokes< PRM >::jacobian_volume(), Dune::PDELab::NavierStokesVelVecMass< PRM >::jacobian_volume(), Dune::PDELab::DGNavierStokesVelVecFEM< PRM >::jacobian_volume(), Dune::PDELab::TaylorHoodNavierStokes< P >::jacobian_volume(), Dune::PDELab::DGLinearAcousticsTemporalOperator< T, FEM >::jacobian_volume(), Dune::PDELab::DGMaxwellTemporalOperator< T, FEM >::jacobian_volume(), Dune::PDELab::DiffusionMixed< PARAM >::lambda_boundary(), Dune::PDELab::LinearElasticity< T >::lambda_boundary(), Dune::PDELab::TaylorHoodNavierStokes< P >::lambda_boundary(), Dune::PDELab::DGNavierStokes< PRM >::lambda_boundary(), Dune::PDELab::L2VolumeFunctional< F >::lambda_volume(), Dune::PDELab::DiffusionMixed< PARAM >::lambda_volume(), Dune::PDELab::TaylorHoodNavierStokes< P >::lambda_volume(), Dune::PDELab::LinearElasticity< T >::lambda_volume(), Dune::PDELab::DGLinearAcousticsSpatialOperator< T, FEM >::lambda_volume(), Dune::PDELab::DGMaxwellSpatialOperator< T, FEM >::lambda_volume(), Dune::PDELab::ConvectionDiffusionDG< T, FiniteElementMap >::lambda_volume(), Dune::PDELab::DGNavierStokesVelVecFEM< PRM >::lambda_volume(), and Dune::PDELab::DGNavierStokes< PRM >::lambda_volume().
std::vector<T> Dune::PDELab::rangeVector | ( | T | begin, |
T | passed_the_end, | ||
T | increment = 1 |
||
) |
Generate a vector with a range of numbers.
This is mostly useful to supply default function arguments.
The generated vector will consist of the numbers begin, begin+increment etc. through (but not including) passed_the_end. For instance, rangeVector(23, 42, 7) will yield the vector (23, 30, 37). The increment must be strictly positive at the moment.
Referenced by rangeVector().
std::vector<T> Dune::PDELab::rangeVector | ( | T | passed_the_end | ) |
Generate a vector with a range of numbers.
Equivalent to rangeVector(0, passed_the_end).
References rangeVector().
ReferenceElementWrapper< ReferenceElement< typename Geometry::ctype, Geometry::mydimension > > Dune::PDELab::referenceElement | ( | const Geometry & | geo | ) |
Returns the reference element for the given geometry.
This function returns the reference element for the given geometry geo
.
This function should be used unqualified, e.g.
Dune::PDELab
in front of it, as that might cause compiler errors with future versions of the core modules.The function wraps the reference element in a ReferenceElementWrapper to provide value semantics.
geo | The geometry for which to obtain the reference element. |
Referenced by Dune::PDELab::ConvectionDiffusionFEM< T, FiniteElementMap >::alpha_boundary(), Dune::PDELab::ConvectionDiffusionCCFV< TP >::alpha_boundary(), Dune::PDELab::ConvectionDiffusionDG_ErrorIndicator< T >::alpha_boundary(), Dune::PDELab::NonLinearConvectionDiffusionFEM< T >::alpha_boundary(), Dune::PDELab::DGLinearAcousticsSpatialOperator< T, FEM >::alpha_boundary(), Dune::PDELab::TwoPhaseTwoPointFluxOperator< TP >::alpha_boundary(), Dune::PDELab::ConvectionDiffusionFEMResidualEstimator< T >::alpha_boundary(), Dune::PDELab::DGMaxwellSpatialOperator< T, FEM >::alpha_boundary(), Dune::PDELab::ConvectionDiffusionDG< T, FiniteElementMap >::alpha_boundary(), Dune::PDELab::ConvectionDiffusionTemporalResidualEstimator< T >::alpha_boundary(), Dune::PDELab::ConvectionDiffusionCCFV< TP >::alpha_skeleton(), Dune::PDELab::ConvectionDiffusionDG_ErrorIndicator< T >::alpha_skeleton(), Dune::PDELab::ConvectionDiffusionDG< T, FiniteElementMap >::alpha_skeleton(), Dune::PDELab::DGLinearAcousticsSpatialOperator< T, FEM >::alpha_skeleton(), Dune::PDELab::TwoPhaseTwoPointFluxOperator< TP >::alpha_skeleton(), Dune::PDELab::ConvectionDiffusionFEMResidualEstimator< T >::alpha_skeleton(), Dune::PDELab::DGMaxwellSpatialOperator< T, FEM >::alpha_skeleton(), Dune::PDELab::ConvectionDiffusionFEM< T, FiniteElementMap >::alpha_volume(), Dune::PDELab::DiffusionMixed< PARAM >::alpha_volume(), Dune::PDELab::ConvectionDiffusionCCFV< TP >::alpha_volume(), Dune::PDELab::ConvectionDiffusionDG_ErrorIndicator< T >::alpha_volume(), Dune::PDELab::ConvectionDiffusionDG< T, FiniteElementMap >::alpha_volume(), Dune::PDELab::DGLinearAcousticsSpatialOperator< T, FEM >::alpha_volume(), Dune::PDELab::NonLinearConvectionDiffusionFEM< T >::alpha_volume(), Dune::PDELab::DGMaxwellSpatialOperator< T, FEM >::alpha_volume(), Dune::PDELab::ConvectionDiffusionCCFVTemporalOperator< TP >::alpha_volume(), Dune::PDELab::TwoPhaseOnePointTemporalOperator< TP >::alpha_volume(), Dune::PDELab::ConvectionDiffusionCCFV< TP >::alpha_volume_post_skeleton(), DarcyVelocityFromHeadCCFV< T, PL >::DarcyVelocityFromHeadCCFV(), DarcyVelocityFromHeadFEM< P, T, X >::evaluate(), Dune::PDELab::V_l< TP, PL, PG >::evaluate(), Dune::PDELab::V_g< TP, PL, PG >::evaluate(), Dune::PDELab::ConvectionDiffusionFEM< T, FiniteElementMap >::jacobian_boundary(), Dune::PDELab::ConvectionDiffusionCCFV< TP >::jacobian_boundary(), Dune::PDELab::ConvectionDiffusionDG< T, FiniteElementMap >::jacobian_boundary(), Dune::PDELab::ConvectionDiffusionCCFV< TP >::jacobian_skeleton(), Dune::PDELab::ConvectionDiffusionDG< T, FiniteElementMap >::jacobian_skeleton(), Dune::PDELab::ConvectionDiffusionCCFV< TP >::jacobian_volume(), Dune::PDELab::ConvectionDiffusionFEM< T, FiniteElementMap >::jacobian_volume(), Dune::PDELab::ConvectionDiffusionDG< T, FiniteElementMap >::jacobian_volume(), Dune::PDELab::ConvectionDiffusionCCFVTemporalOperator< TP >::jacobian_volume(), Dune::PDELab::TwoPhaseTwoPointFluxOperator< TP >::lambda_boundary(), Dune::PDELab::TwoPhaseTwoPointFluxOperator< TP >::lambda_volume(), and Dune::PDELab::ConvectionDiffusionCCFV< TP >::lambda_volume().
void Dune::PDELab::restore_overlap_entries | ( | const GFS & | gfs, |
Dune::BCRSMatrix< Dune::FieldMatrix< T, n, m >, A > & | matrix, | ||
Dune::BCRSMatrix< Dune::FieldMatrix< T, n, m >, A > & | matrix2 | ||
) |
A function to communicate matrix entries
void Dune::PDELab::setLogtagFormatFunc | ( | const FormatFunc & | formatFunc | ) |
set a new log tag format function to be used by logtag()
This automatically wraps the function into a GeneralLogtagFormatter before passing it to setLogtagFormatter().
References makeGeneralLogtagFormatter(), setLogtagFormatter(), and setLogtagRank().
Referenced by Dune::PDELab::WithLogtag::WithLogtag().
void Dune::PDELab::setLogtagFormatter | ( | const std::shared_ptr< LogtagFormatterBase > & | formatter = std::shared_ptr< LogtagFormatterBase >() | ) |
set a new log tag formatter to be used by logtag()
Calling this with a 0-pointer or no argument restores reinitializes to the formatter in use at startup.
References hostPidWallUserLogtagFormatFunc(), and makeGeneralLogtagFormatter().
Referenced by makeGeneralLogtagFormatter(), setLogtagFormatFunc(), and Dune::PDELab::WithLogtag::~WithLogtag().
void Dune::PDELab::setLogtagRank | ( | int | rank | ) |
set the rank to be printed by logtag formatters
This function needs to be called explicitly after the MPIHelper has been set up.
Not every logtag formatter uses this information. The special value -1 means that rank information is currently not available (e.g. before the MPIHelper has been set up).
Referenced by setLogtagFormatFunc().
impl::GFSWithVectors<GFS,X...> Dune::PDELab::transferSolutions | ( | GFS & | gfs, |
int | integrationOrder, | ||
X &... | x | ||
) |
Pack function space and vectors for grid adaption.
This function packs a GridFunctionSpace an integration order and an arbitrary number of vectors in a single struct.
Important: You have to make sure that all vectors belong to the same function space.
GFS | Grid function space |
...X | Arbitrary number of corresponding vectors |